/* Copyright (c) 2000, 2018, Oracle and/or its affiliates. Copyright (c) 2009, 2020, MariaDB This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA */ /* The privileges are saved in the following tables: mysql/user ; super user who are allowed to do almost anything mysql/host ; host privileges. This is used if host is empty in mysql/db. mysql/db ; database privileges / user data in tables is sorted according to how many not-wild-cards there is in the relevant fields. Empty strings comes last. */ #include "mariadb.h" /* NO_EMBEDDED_ACCESS_CHECKS */ #include "sql_priv.h" #include "sql_acl.h" // MYSQL_DB_FIELD_COUNT, ACL_ACCESS #include "sql_base.h" // close_mysql_tables #include "key.h" // key_copy, key_cmp_if_same, key_restore #include "sql_show.h" // append_identifier #include "sql_table.h" // write_bin_log #include "hash_filo.h" #include "sql_parse.h" // check_access #include "sql_view.h" // VIEW_ANY_ACL #include "records.h" // READ_RECORD, read_record_info, // init_read_record, end_read_record #include "rpl_filter.h" // rpl_filter #include "rpl_rli.h" #include <m_ctype.h> #include <stdarg.h> #include "sp_head.h" #include "sp.h" #include "transaction.h" #include "lock.h" // MYSQL_LOCK_IGNORE_TIMEOUT #include <sql_common.h> #include <mysql/plugin_auth.h> #include <mysql/plugin_password_validation.h> #include "sql_connect.h" #include "hostname.h" #include "sql_db.h" #include "sql_array.h" #include "sql_hset.h" #include "password.h" #include "sql_plugin_compat.h" #define MAX_SCRAMBLE_LENGTH 1024 bool mysql_user_table_is_in_short_password_format= false; bool using_global_priv_table= true; #ifndef NO_EMBEDDED_ACCESS_CHECKS // set that from field length in acl_load? const uint max_hostname_length= 60; const uint max_dbname_length= 64; #include "sql_acl_getsort.ic" #endif static LEX_CSTRING native_password_plugin_name= { STRING_WITH_LEN("mysql_native_password") }; static LEX_CSTRING old_password_plugin_name= { STRING_WITH_LEN("mysql_old_password") }; /// @todo make it configurable LEX_CSTRING *default_auth_plugin_name= &native_password_plugin_name; /* Wildcard host, matches any hostname */ LEX_CSTRING host_not_specified= { STRING_WITH_LEN("%") }; /* Constants, used in the SHOW GRANTS command. Their actual string values are irrelevant, they're always compared as pointers to these string constants. */ LEX_CSTRING current_user= { STRING_WITH_LEN("*current_user") }; LEX_CSTRING current_role= { STRING_WITH_LEN("*current_role") }; LEX_CSTRING current_user_and_current_role= { STRING_WITH_LEN("*current_user_and_current_role") }; static plugin_ref old_password_plugin; static plugin_ref native_password_plugin; static plugin_ref get_auth_plugin(THD *thd, const LEX_CSTRING &name, bool *locked) { if (name.str == native_password_plugin_name.str) return native_password_plugin; else if (name.str == old_password_plugin_name.str) return old_password_plugin; *locked=true; return my_plugin_lock_by_name(thd, &name, MYSQL_AUTHENTICATION_PLUGIN); } /* Classes */ struct acl_host_and_ip { char *hostname; long ip, ip_mask; // Used with masked ip:s }; #ifndef NO_EMBEDDED_ACCESS_CHECKS static bool compare_hostname(const acl_host_and_ip *, const char *, const char *); #else #define compare_hostname(X,Y,Z) 0 #endif class ACL_ACCESS { public: ulonglong sort; ulong access; ACL_ACCESS() :sort(0), access(0) { } }; /* ACL_HOST is used if no host is specified */ class ACL_HOST :public ACL_ACCESS { public: acl_host_and_ip host; char *db; }; class ACL_USER_BASE :public ACL_ACCESS, public Sql_alloc { public: ACL_USER_BASE() :flags(0), user(null_clex_str) { bzero(&role_grants, sizeof(role_grants)); } uchar flags; // field used to store various state information LEX_CSTRING user; /* list to hold references to granted roles (ACL_ROLE instances) */ DYNAMIC_ARRAY role_grants; const char *get_username() { return user.str; } }; class ACL_USER_PARAM { public: ACL_USER_PARAM() { bzero(this, sizeof(*this)); } acl_host_and_ip host; size_t hostname_length; USER_RESOURCES user_resource; enum SSL_type ssl_type; uint password_errors; const char *ssl_cipher, *x509_issuer, *x509_subject; LEX_CSTRING default_rolename; struct AUTH { LEX_CSTRING plugin, auth_string, salt; } *auth; uint nauth; bool account_locked; bool password_expired; my_time_t password_last_changed; longlong password_lifetime; bool alloc_auth(MEM_ROOT *root, uint n) { return !(auth= (AUTH*) alloc_root(root, (nauth= n)*sizeof(AUTH))); } }; class ACL_USER :public ACL_USER_BASE, public ACL_USER_PARAM { public: ACL_USER() { } ACL_USER(THD *thd, const LEX_USER &combo, const Account_options &options, const ulong privileges); ACL_USER *copy(MEM_ROOT *root) { ACL_USER *dst; AUTH *dauth; if (!multi_alloc_root(root, &dst, sizeof(ACL_USER), &dauth, sizeof(AUTH)*nauth, NULL)) return 0; *dst= *this; dst->user= safe_lexcstrdup_root(root, user); dst->ssl_cipher= safe_strdup_root(root, ssl_cipher); dst->x509_issuer= safe_strdup_root(root, x509_issuer); dst->x509_subject= safe_strdup_root(root, x509_subject); dst->auth= dauth; for (uint i=0; i < nauth; i++, dauth++) { if (auth[i].plugin.str == native_password_plugin_name.str || auth[i].plugin.str == old_password_plugin_name.str) dauth->plugin= auth[i].plugin; else dauth->plugin= safe_lexcstrdup_root(root, auth[i].plugin); dauth->auth_string= safe_lexcstrdup_root(root, auth[i].auth_string); if (auth[i].salt.length == 0) dauth->salt= auth[i].salt; else dauth->salt= safe_lexcstrdup_root(root, auth[i].salt); } dst->host.hostname= safe_strdup_root(root, host.hostname); dst->default_rolename= safe_lexcstrdup_root(root, default_rolename); bzero(&dst->role_grants, sizeof(role_grants)); return dst; } int cmp(const char *user2, const char *host2) { CHARSET_INFO *cs= system_charset_info; int res; res= strcmp(user.str, user2); if (!res) res= my_strcasecmp(cs, host.hostname, host2); return res; } bool eq(const char *user2, const char *host2) { return !cmp(user2, host2); } bool wild_eq(const char *user2, const char *host2, const char *ip2) { if (strcmp(user.str, user2)) return false; return compare_hostname(&host, host2, ip2 ? ip2 : host2); } }; class ACL_ROLE :public ACL_USER_BASE { public: /* In case of granting a role to a role, the access bits are merged together via a bit OR operation and placed in the ACL_USER::access field. When rebuilding role_grants via the rebuild_role_grant function, the ACL_USER::access field needs to be reset first. The field initial_role_access holds initial grants, as granted directly to the role */ ulong initial_role_access; /* In subgraph traversal, when we need to traverse only a part of the graph (e.g. all direct and indirect grantees of a role X), the counter holds the number of affected neighbour nodes. See also propagate_role_grants() */ uint counter; DYNAMIC_ARRAY parent_grantee; // array of backlinks to elements granted ACL_ROLE(ACL_USER * user, MEM_ROOT *mem); ACL_ROLE(const char * rolename, ulong privileges, MEM_ROOT *mem); }; class ACL_DB :public ACL_ACCESS { public: acl_host_and_ip host; const char *user,*db; ulong initial_access; /* access bits present in the table */ const char *get_username() { return user; } }; #ifndef DBUG_OFF /* status variables, only visible in SHOW STATUS after -#d,role_merge_stats */ ulong role_global_merges= 0, role_db_merges= 0, role_table_merges= 0, role_column_merges= 0, role_routine_merges= 0; #endif #ifndef NO_EMBEDDED_ACCESS_CHECKS static void update_hostname(acl_host_and_ip *host, const char *hostname); static bool show_proxy_grants (THD *, const char *, const char *, char *, size_t); static bool show_role_grants(THD *, const char *, ACL_USER_BASE *, char *, size_t); static bool show_default_role(THD *, ACL_USER *, char *, size_t); static bool show_global_privileges(THD *, ACL_USER_BASE *, bool, char *, size_t); static bool show_database_privileges(THD *, const char *, const char *, char *, size_t); static bool show_table_and_column_privileges(THD *, const char *, const char *, char *, size_t); static int show_routine_grants(THD *, const char *, const char *, const Sp_handler *sph, char *, int); class Grant_tables; class User_table; class Proxies_priv_table; class ACL_PROXY_USER :public ACL_ACCESS { acl_host_and_ip host; const char *user; acl_host_and_ip proxied_host; const char *proxied_user; bool with_grant; typedef enum { MYSQL_PROXIES_PRIV_HOST, MYSQL_PROXIES_PRIV_USER, MYSQL_PROXIES_PRIV_PROXIED_HOST, MYSQL_PROXIES_PRIV_PROXIED_USER, MYSQL_PROXIES_PRIV_WITH_GRANT, MYSQL_PROXIES_PRIV_GRANTOR, MYSQL_PROXIES_PRIV_TIMESTAMP } proxy_table_fields; public: ACL_PROXY_USER () {}; void init(const char *host_arg, const char *user_arg, const char *proxied_host_arg, const char *proxied_user_arg, bool with_grant_arg) { user= user_arg; update_hostname (&host, (host_arg && *host_arg) ? host_arg : NULL); proxied_user= proxied_user_arg; update_hostname (&proxied_host, (proxied_host_arg && *proxied_host_arg) ? proxied_host_arg : NULL); with_grant= with_grant_arg; sort= get_magic_sort("huhu", host.hostname, user, proxied_host.hostname, proxied_user); } void init(MEM_ROOT *mem, const char *host_arg, const char *user_arg, const char *proxied_host_arg, const char *proxied_user_arg, bool with_grant_arg) { init ((host_arg && *host_arg) ? strdup_root (mem, host_arg) : NULL, strdup_root (mem, user_arg), (proxied_host_arg && *proxied_host_arg) ? strdup_root (mem, proxied_host_arg) : NULL, strdup_root (mem, proxied_user_arg), with_grant_arg); } void init(const Proxies_priv_table& proxies_priv_table, MEM_ROOT *mem); bool get_with_grant() { return with_grant; } const char *get_user() { return user; } const char *get_host() { return host.hostname; } const char *get_proxied_user() { return proxied_user; } const char *get_proxied_host() { return proxied_host.hostname; } void set_user(MEM_ROOT *mem, const char *user_arg) { user= *user_arg ? strdup_root(mem, user_arg) : ""; } void set_host(MEM_ROOT *mem, const char *host_arg) { update_hostname(&host, safe_strdup_root(mem, host_arg)); } bool check_validity(bool check_no_resolve) { if (check_no_resolve && (hostname_requires_resolving(host.hostname) || hostname_requires_resolving(proxied_host.hostname))) { sql_print_warning("'proxies_priv' entry '%s@%s %s@%s' " "ignored in --skip-name-resolve mode.", proxied_user, safe_str(proxied_host.hostname), user, safe_str(host.hostname)); return TRUE; } return FALSE; } bool matches(const char *host_arg, const char *user_arg, const char *ip_arg, const char *proxied_user_arg) { DBUG_ENTER("ACL_PROXY_USER::matches"); DBUG_PRINT("info", ("compare_hostname(%s,%s,%s) &&" "compare_hostname(%s,%s,%s) &&" "wild_compare (%s,%s) &&" "wild_compare (%s,%s)", host.hostname, host_arg, ip_arg, proxied_host.hostname, host_arg, ip_arg, user_arg, user, proxied_user_arg, proxied_user)); DBUG_RETURN(compare_hostname(&host, host_arg, ip_arg) && compare_hostname(&proxied_host, host_arg, ip_arg) && (!*user || !strcmp(user_arg, user)) && (!*proxied_user || !strcmp(proxied_user_arg, proxied_user))); } inline static bool auth_element_equals(const char *a, const char *b) { return (a == b || (a != NULL && b != NULL && !strcmp(a,b))); } bool pk_equals(ACL_PROXY_USER *grant) { DBUG_ENTER("pk_equals"); DBUG_PRINT("info", ("strcmp(%s,%s) &&" "strcmp(%s,%s) &&" "wild_compare (%s,%s) &&" "wild_compare (%s,%s)", user, grant->user, proxied_user, grant->proxied_user, host.hostname, grant->host.hostname, proxied_host.hostname, grant->proxied_host.hostname)); bool res= auth_element_equals(user, grant->user) && auth_element_equals(proxied_user, grant->proxied_user) && auth_element_equals(host.hostname, grant->host.hostname) && auth_element_equals(proxied_host.hostname, grant->proxied_host.hostname); DBUG_RETURN(res); } bool granted_on(const char *host_arg, const char *user_arg) { return (!strcmp(user, user_arg) && ((!host.hostname && (!host_arg || !host_arg[0])) || (host.hostname && host_arg && !strcmp(host.hostname, host_arg)))); } void print_grant(String *str) { str->append(STRING_WITH_LEN("GRANT PROXY ON '")); str->append(proxied_user); str->append(STRING_WITH_LEN("'@'")); if (proxied_host.hostname) str->append(proxied_host.hostname, strlen(proxied_host.hostname)); str->append(STRING_WITH_LEN("' TO '")); str->append(user); str->append(STRING_WITH_LEN("'@'")); if (host.hostname) str->append(host.hostname); str->append(STRING_WITH_LEN("'")); if (with_grant) str->append(STRING_WITH_LEN(" WITH GRANT OPTION")); } void set_data(ACL_PROXY_USER *grant) { with_grant= grant->with_grant; } static int store_pk(TABLE *table, const LEX_CSTRING *host, const LEX_CSTRING *user, const LEX_CSTRING *proxied_host, const LEX_CSTRING *proxied_user) { DBUG_ENTER("ACL_PROXY_USER::store_pk"); DBUG_PRINT("info", ("host=%s, user=%s, proxied_host=%s, proxied_user=%s", host->str, user->str, proxied_host->str, proxied_user->str)); if (table->field[MYSQL_PROXIES_PRIV_HOST]->store(host->str, host->length, system_charset_info)) DBUG_RETURN(TRUE); if (table->field[MYSQL_PROXIES_PRIV_USER]->store(user->str, user->length, system_charset_info)) DBUG_RETURN(TRUE); if (table->field[MYSQL_PROXIES_PRIV_PROXIED_HOST]->store(proxied_host->str, proxied_host->length, system_charset_info)) DBUG_RETURN(TRUE); if (table->field[MYSQL_PROXIES_PRIV_PROXIED_USER]->store(proxied_user->str, proxied_user->length, system_charset_info)) DBUG_RETURN(TRUE); DBUG_RETURN(FALSE); } static int store_data_record(TABLE *table, const LEX_CSTRING *host, const LEX_CSTRING *user, const LEX_CSTRING *proxied_host, const LEX_CSTRING *proxied_user, bool with_grant, const char *grantor) { DBUG_ENTER("ACL_PROXY_USER::store_pk"); if (store_pk(table, host, user, proxied_host, proxied_user)) DBUG_RETURN(TRUE); DBUG_PRINT("info", ("with_grant=%s", with_grant ? "TRUE" : "FALSE")); if (table->field[MYSQL_PROXIES_PRIV_WITH_GRANT]->store(with_grant ? 1 : 0, TRUE)) DBUG_RETURN(TRUE); if (table->field[MYSQL_PROXIES_PRIV_GRANTOR]->store(grantor, strlen(grantor), system_charset_info)) DBUG_RETURN(TRUE); DBUG_RETURN(FALSE); } }; #define FIRST_NON_YN_FIELD 26 class acl_entry :public hash_filo_element { public: ulong access; uint16 length; char key[1]; // Key will be stored here }; static uchar* acl_entry_get_key(acl_entry *entry, size_t *length, my_bool not_used __attribute__((unused))) { *length=(uint) entry->length; return (uchar*) entry->key; } static uchar* acl_role_get_key(ACL_ROLE *entry, size_t *length, my_bool not_used __attribute__((unused))) { *length=(uint) entry->user.length; return (uchar*) entry->user.str; } struct ROLE_GRANT_PAIR : public Sql_alloc { char *u_uname; char *u_hname; char *r_uname; LEX_STRING hashkey; bool with_admin; bool init(MEM_ROOT *mem, const char *username, const char *hostname, const char *rolename, bool with_admin_option); }; static uchar* acl_role_map_get_key(ROLE_GRANT_PAIR *entry, size_t *length, my_bool not_used __attribute__((unused))) { *length=(uint) entry->hashkey.length; return (uchar*) entry->hashkey.str; } bool ROLE_GRANT_PAIR::init(MEM_ROOT *mem, const char *username, const char *hostname, const char *rolename, bool with_admin_option) { size_t uname_l = safe_strlen(username); size_t hname_l = safe_strlen(hostname); size_t rname_l = safe_strlen(rolename); /* Create a buffer that holds all 3 NULL terminated strings in succession To save memory space, the same buffer is used as the hashkey */ size_t bufflen = uname_l + hname_l + rname_l + 3; //add the '\0' aswell char *buff= (char *)alloc_root(mem, bufflen); if (!buff) return true; /* Offsets in the buffer for all 3 strings */ char *username_pos= buff; char *hostname_pos= buff + uname_l + 1; char *rolename_pos= buff + uname_l + hname_l + 2; if (username) //prevent undefined behaviour memcpy(username_pos, username, uname_l); username_pos[uname_l]= '\0'; //#1 string terminator u_uname= username_pos; if (hostname) //prevent undefined behaviour memcpy(hostname_pos, hostname, hname_l); hostname_pos[hname_l]= '\0'; //#2 string terminator u_hname= hostname_pos; if (rolename) //prevent undefined behaviour memcpy(rolename_pos, rolename, rname_l); rolename_pos[rname_l]= '\0'; //#3 string terminator r_uname= rolename_pos; hashkey.str = buff; hashkey.length = bufflen; with_admin= with_admin_option; return false; } #define IP_ADDR_STRLEN (3 + 1 + 3 + 1 + 3 + 1 + 3) #define ACL_KEY_LENGTH (IP_ADDR_STRLEN + 1 + NAME_LEN + \ 1 + USERNAME_LENGTH + 1) #if defined(HAVE_OPENSSL) /* Without SSL the handshake consists of one packet. This packet has both client capabilities and scrambled password. With SSL the handshake might consist of two packets. If the first packet (client capabilities) has CLIENT_SSL flag set, we have to switch to SSL and read the second packet. The scrambled password is in the second packet and client_capabilities field will be ignored. Maybe it is better to accept flags other than CLIENT_SSL from the second packet? */ #define SSL_HANDSHAKE_SIZE 2 #define MIN_HANDSHAKE_SIZE 2 #else #define MIN_HANDSHAKE_SIZE 6 #endif /* HAVE_OPENSSL && !EMBEDDED_LIBRARY */ #define NORMAL_HANDSHAKE_SIZE 6 #define ROLE_ASSIGN_COLUMN_IDX 44 #define DEFAULT_ROLE_COLUMN_IDX 45 #define MAX_STATEMENT_TIME_COLUMN_IDX 46 /* various flags valid for ACL_USER */ #define IS_ROLE (1L << 0) /* Flag to mark that a ROLE is on the recursive DEPTH_FIRST_SEARCH stack */ #define ROLE_ON_STACK (1L << 1) /* Flag to mark that a ROLE and all it's neighbours have been visited */ #define ROLE_EXPLORED (1L << 2) /* Flag to mark that on_node was already called for this role */ #define ROLE_OPENED (1L << 3) static DYNAMIC_ARRAY acl_hosts, acl_users, acl_proxy_users; static Dynamic_array<ACL_DB> acl_dbs(0U,50U); typedef Dynamic_array<ACL_DB>::CMP_FUNC acl_dbs_cmp; static HASH acl_roles; /* An hash containing mappings user <--> role A hash is used so as to make updates quickly The hashkey used represents all the entries combined */ static HASH acl_roles_mappings; static MEM_ROOT acl_memroot, grant_memroot; static bool initialized=0; static bool allow_all_hosts=1; static HASH acl_check_hosts, column_priv_hash, proc_priv_hash, func_priv_hash; static HASH package_spec_priv_hash, package_body_priv_hash; static DYNAMIC_ARRAY acl_wild_hosts; static Hash_filo<acl_entry> *acl_cache; static uint grant_version=0; /* Version of priv tables. incremented by acl_load */ static ulong get_access(TABLE *form,uint fieldnr, uint *next_field=0); static int acl_compare(const ACL_ACCESS *a, const ACL_ACCESS *b); static int acl_user_compare(const ACL_USER *a, const ACL_USER *b); static void rebuild_acl_users(); static int acl_db_compare(const ACL_DB *a, const ACL_DB *b); static void rebuild_acl_dbs(); static void init_check_host(void); static void rebuild_check_host(void); static void rebuild_role_grants(void); static ACL_USER *find_user_exact(const char *host, const char *user); static ACL_USER *find_user_wild(const char *host, const char *user, const char *ip= 0); static ACL_ROLE *find_acl_role(const char *user); static ROLE_GRANT_PAIR *find_role_grant_pair(const LEX_CSTRING *u, const LEX_CSTRING *h, const LEX_CSTRING *r); static ACL_USER_BASE *find_acl_user_base(const char *user, const char *host); static bool update_user_table_password(THD *, const User_table&, const ACL_USER&); static bool acl_load(THD *thd, const Grant_tables& grant_tables); static inline void get_grantor(THD *thd, char* grantor); static bool add_role_user_mapping(const char *uname, const char *hname, const char *rname); static bool get_YN_as_bool(Field *field); #define ROLE_CYCLE_FOUND 2 static int traverse_role_graph_up(ACL_ROLE *, void *, int (*) (ACL_ROLE *, void *), int (*) (ACL_ROLE *, ACL_ROLE *, void *)); static int traverse_role_graph_down(ACL_USER_BASE *, void *, int (*) (ACL_USER_BASE *, void *), int (*) (ACL_USER_BASE *, ACL_ROLE *, void *)); HASH *Sp_handler_procedure::get_priv_hash() const { return &proc_priv_hash; } HASH *Sp_handler_function::get_priv_hash() const { return &func_priv_hash; } HASH *Sp_handler_package_spec::get_priv_hash() const { return &package_spec_priv_hash; } HASH *Sp_handler_package_body::get_priv_hash() const { return &package_body_priv_hash; } /* Enumeration of ACL/GRANT tables in the mysql database */ enum enum_acl_tables { DB_TABLE, TABLES_PRIV_TABLE, COLUMNS_PRIV_TABLE, #define FIRST_OPTIONAL_TABLE HOST_TABLE HOST_TABLE, PROCS_PRIV_TABLE, PROXIES_PRIV_TABLE, ROLES_MAPPING_TABLE, USER_TABLE // <== always the last }; static const int Table_user= 1 << USER_TABLE; static const int Table_db= 1 << DB_TABLE; static const int Table_tables_priv= 1 << TABLES_PRIV_TABLE; static const int Table_columns_priv= 1 << COLUMNS_PRIV_TABLE; static const int Table_host= 1 << HOST_TABLE; static const int Table_procs_priv= 1 << PROCS_PRIV_TABLE; static const int Table_proxies_priv= 1 << PROXIES_PRIV_TABLE; static const int Table_roles_mapping= 1 << ROLES_MAPPING_TABLE; static LEX_CSTRING MYSQL_TABLE_NAME[USER_TABLE+1]= { {STRING_WITH_LEN("db")}, {STRING_WITH_LEN("tables_priv")}, {STRING_WITH_LEN("columns_priv")}, {STRING_WITH_LEN("host")}, {STRING_WITH_LEN("procs_priv")}, {STRING_WITH_LEN("proxies_priv")}, {STRING_WITH_LEN("roles_mapping")}, {STRING_WITH_LEN("global_priv")} }; static LEX_CSTRING MYSQL_TABLE_NAME_USER={STRING_WITH_LEN("user")}; /** Choose from either native or old password plugins when assigning a password */ static LEX_CSTRING &guess_auth_plugin(THD *thd, size_t password_len) { if (thd->variables.old_passwords == 1 || password_len == SCRAMBLED_PASSWORD_CHAR_LENGTH_323) return old_password_plugin_name; else return native_password_plugin_name; } /** Base class representing a generic grant table from the mysql database. The potential tables that this class can represent are: user, db, columns_priv, tables_priv, host, procs_priv, proxies_priv, roles_mapping Objects belonging to this parent class can only be constructed by the Grants_table class. This ensures the correct initialization of the objects. */ class Grant_table_base { public: /* Number of fields for this Grant Table. */ uint num_fields() const { return m_table->s->fields; } /* Check if the table exists after an attempt to open it was made. Some tables, such as the host table in MySQL 5.6.7+ are missing. */ bool table_exists() const { return m_table; }; /* Initializes the READ_RECORD structure provided as a parameter to read through the whole table, with all columns available. Cleaning up is the caller's job. */ bool init_read_record(READ_RECORD* info) const { DBUG_ASSERT(m_table); if (num_fields() < min_columns) { my_printf_error(ER_UNKNOWN_ERROR, "Fatal error: mysql.%s table is " "damaged or in unsupported 3.20 format", MYF(ME_ERROR_LOG), m_table->s->table_name.str); return 1; } bool result= ::init_read_record(info, m_table->in_use, m_table, NULL, NULL, 1, true, false); if (!result) m_table->use_all_columns(); return result; } /* Return the underlying TABLE handle. */ TABLE* table() const { return m_table; } ulong get_access() const { ulong access_bits= 0, bit= 1; for (uint i = start_priv_columns; i < end_priv_columns; i++, bit<<=1) { if (get_YN_as_bool(m_table->field[i])) access_bits|= bit; } return access_bits; } protected: friend class Grant_tables; Grant_table_base() : min_columns(3), start_priv_columns(0), end_priv_columns(0), m_table(0) { } /* Compute how many privilege columns this table has. This method can only be called after the table has been opened. IMPLEMENTATION A privilege column is of type enum('Y', 'N'). Privilege columns are expected to be one after another. */ void set_table(TABLE *table) { if (!(m_table= table)) // Table does not exist or not opened. return; for (end_priv_columns= 0; end_priv_columns < num_fields(); end_priv_columns++) { Field *field= m_table->field[end_priv_columns]; if (field->real_type() == MYSQL_TYPE_ENUM && static_cast<Field_enum*>(field)->typelib->count == 2) { if (!start_priv_columns) start_priv_columns= end_priv_columns; } else if (start_priv_columns) break; } } /* the min number of columns a table should have */ uint min_columns; /* The index at which privilege columns start. */ uint start_priv_columns; /* The index after the last privilege column */ uint end_priv_columns; TABLE *m_table; }; class User_table: public Grant_table_base { public: bool init_read_record(READ_RECORD* info) const { return Grant_table_base::init_read_record(info) || setup_sysvars(); } virtual LEX_CSTRING& name() const = 0; virtual int get_auth(THD *, MEM_ROOT *, ACL_USER *u) const= 0; virtual bool set_auth(const ACL_USER &u) const = 0; virtual ulong get_access() const = 0; virtual void set_access(ulong rights, bool revoke) const = 0; char *get_host(MEM_ROOT *root) const { return ::get_field(root, m_table->field[0]); } int set_host(const char *s, size_t l) const { return m_table->field[0]->store(s, l, system_charset_info); }; char *get_user(MEM_ROOT *root) const { return ::get_field(root, m_table->field[1]); } int set_user(const char *s, size_t l) const { return m_table->field[1]->store(s, l, system_charset_info); }; virtual SSL_type get_ssl_type () const = 0; virtual int set_ssl_type (SSL_type x) const = 0; virtual const char* get_ssl_cipher (MEM_ROOT *root) const = 0; virtual int set_ssl_cipher (const char *s, size_t l) const = 0; virtual const char* get_x509_issuer (MEM_ROOT *root) const = 0; virtual int set_x509_issuer (const char *s, size_t l) const = 0; virtual const char* get_x509_subject (MEM_ROOT *root) const = 0; virtual int set_x509_subject (const char *s, size_t l) const = 0; virtual longlong get_max_questions () const = 0; virtual int set_max_questions (longlong x) const = 0; virtual longlong get_max_updates () const = 0; virtual int set_max_updates (longlong x) const = 0; virtual longlong get_max_connections () const = 0; virtual int set_max_connections (longlong x) const = 0; virtual longlong get_max_user_connections () const = 0; virtual int set_max_user_connections (longlong x) const = 0; virtual double get_max_statement_time () const = 0; virtual int set_max_statement_time (double x) const = 0; virtual bool get_is_role () const = 0; virtual int set_is_role (bool x) const = 0; virtual const char* get_default_role (MEM_ROOT *root) const = 0; virtual int set_default_role (const char *s, size_t l) const = 0; virtual bool get_account_locked () const = 0; virtual int set_account_locked (bool x) const = 0; virtual bool get_password_expired () const = 0; virtual int set_password_expired (bool x) const = 0; virtual my_time_t get_password_last_changed () const = 0; virtual int set_password_last_changed (my_time_t x) const = 0; virtual longlong get_password_lifetime () const = 0; virtual int set_password_lifetime (longlong x) const = 0; virtual ~User_table() {} private: friend class Grant_tables; virtual int setup_sysvars() const = 0; }; /* MySQL-3.23 to MariaDB 10.3 `user` table */ class User_table_tabular: public User_table { public: LEX_CSTRING& name() const { return MYSQL_TABLE_NAME_USER; } int get_auth(THD *thd, MEM_ROOT *root, ACL_USER *u) const { u->alloc_auth(root, 1); if (have_password()) { const char *as= safe_str(::get_field(&acl_memroot, password())); u->auth->auth_string.str= as; u->auth->auth_string.length= strlen(as); u->auth->plugin= guess_auth_plugin(thd, u->auth->auth_string.length); } else { u->auth->plugin= native_password_plugin_name; u->auth->auth_string= empty_clex_str; } if (plugin() && authstr()) { char *tmpstr= ::get_field(&acl_memroot, plugin()); if (tmpstr) { const char *pw= u->auth->auth_string.str; const char *as= safe_str(::get_field(&acl_memroot, authstr())); if (*pw) { if (*as && strcmp(as, pw)) { sql_print_warning("'user' entry '%s@%s' has both a password and an " "authentication plugin specified. The password will be ignored.", safe_str(get_user(thd->mem_root)), safe_str(get_host(thd->mem_root))); } else as= pw; } u->auth->plugin.str= tmpstr; u->auth->plugin.length= strlen(tmpstr); u->auth->auth_string.str= as; u->auth->auth_string.length= strlen(as); } } return 0; } bool set_auth(const ACL_USER &u) const { if (u.nauth != 1) return 1; if (plugin()) { if (have_password()) password()->reset(); plugin()->store(u.auth->plugin.str, u.auth->plugin.length, system_charset_info); authstr()->store(u.auth->auth_string.str, u.auth->auth_string.length, system_charset_info); } else { if (u.auth->plugin.str != native_password_plugin_name.str && u.auth->plugin.str != old_password_plugin_name.str) return 1; password()->store(u.auth->auth_string.str, u.auth->auth_string.length, system_charset_info); } return 0; } ulong get_access() const { ulong access= Grant_table_base::get_access(); if ((num_fields() <= 13) && (access & CREATE_ACL)) access|=REFERENCES_ACL | INDEX_ACL | ALTER_ACL; if (num_fields() <= 18) { access|= LOCK_TABLES_ACL | CREATE_TMP_ACL | SHOW_DB_ACL; if (access & FILE_ACL) access|= REPL_CLIENT_ACL | REPL_SLAVE_ACL; if (access & PROCESS_ACL) access|= SUPER_ACL | EXECUTE_ACL; } if (num_fields() <= 31 && (access & CREATE_ACL)) access|= (CREATE_VIEW_ACL | SHOW_VIEW_ACL); if (num_fields() <= 33) { if (access & CREATE_ACL) access|= CREATE_PROC_ACL; if (access & ALTER_ACL) access|= ALTER_PROC_ACL; } if (num_fields() <= 36 && (access & GRANT_ACL)) access|= CREATE_USER_ACL; if (num_fields() <= 37 && (access & SUPER_ACL)) access|= EVENT_ACL; if (num_fields() <= 38 && (access & SUPER_ACL)) access|= TRIGGER_ACL; if (num_fields() <= 46 && (access & DELETE_ACL)) access|= DELETE_HISTORY_ACL; return access & GLOBAL_ACLS; } void set_access(ulong rights, bool revoke) const { ulong priv= SELECT_ACL; for (uint i= start_priv_columns; i < end_priv_columns; i++, priv <<= 1) { if (priv & rights) m_table->field[i]->store(1 + !revoke, 0); } } SSL_type get_ssl_type () const { Field *f= get_field(end_priv_columns, MYSQL_TYPE_ENUM); return (SSL_type)(f ? f->val_int()-1 : 0); } int set_ssl_type (SSL_type x) const { if (Field *f= get_field(end_priv_columns, MYSQL_TYPE_ENUM)) return f->store(x+1, 0); else return 1; } const char* get_ssl_cipher (MEM_ROOT *root) const { Field *f= get_field(end_priv_columns + 1, MYSQL_TYPE_BLOB); return f ? ::get_field(root,f) : 0; } int set_ssl_cipher (const char *s, size_t l) const { if (Field *f= get_field(end_priv_columns + 1, MYSQL_TYPE_BLOB)) return f->store(s, l, &my_charset_latin1); else return 1; } const char* get_x509_issuer (MEM_ROOT *root) const { Field *f= get_field(end_priv_columns + 2, MYSQL_TYPE_BLOB); return f ? ::get_field(root,f) : 0; } int set_x509_issuer (const char *s, size_t l) const { if (Field *f= get_field(end_priv_columns + 2, MYSQL_TYPE_BLOB)) return f->store(s, l, &my_charset_latin1); else return 1; } const char* get_x509_subject (MEM_ROOT *root) const { Field *f= get_field(end_priv_columns + 3, MYSQL_TYPE_BLOB); return f ? ::get_field(root,f) : 0; } int set_x509_subject (const char *s, size_t l) const { if (Field *f= get_field(end_priv_columns + 3, MYSQL_TYPE_BLOB)) return f->store(s, l, &my_charset_latin1); else return 1; } longlong get_max_questions () const { Field *f= get_field(end_priv_columns + 4, MYSQL_TYPE_LONG); return f ? f->val_int() : 0; } int set_max_questions (longlong x) const { if (Field *f= get_field(end_priv_columns + 4, MYSQL_TYPE_LONG)) return f->store(x, 0); else return 1; } longlong get_max_updates () const { Field *f= get_field(end_priv_columns + 5, MYSQL_TYPE_LONG); return f ? f->val_int() : 0; } int set_max_updates (longlong x) const { if (Field *f= get_field(end_priv_columns + 5, MYSQL_TYPE_LONG)) return f->store(x, 0); else return 1; } longlong get_max_connections () const { Field *f= get_field(end_priv_columns + 6, MYSQL_TYPE_LONG); return f ? f->val_int() : 0; } int set_max_connections (longlong x) const { if (Field *f= get_field(end_priv_columns + 6, MYSQL_TYPE_LONG)) return f->store(x, 0); else return 1; } longlong get_max_user_connections () const { Field *f= get_field(end_priv_columns + 7, MYSQL_TYPE_LONG); return f ? f->val_int() : 0; } int set_max_user_connections (longlong x) const { if (Field *f= get_field(end_priv_columns + 7, MYSQL_TYPE_LONG)) return f->store(x, 0); else return 1; } double get_max_statement_time () const { Field *f= get_field(end_priv_columns + 13, MYSQL_TYPE_NEWDECIMAL); return f ? f->val_real() : 0; } int set_max_statement_time (double x) const { if (Field *f= get_field(end_priv_columns + 13, MYSQL_TYPE_NEWDECIMAL)) return f->store(x); else return 1; } bool get_is_role () const { Field *f= get_field(end_priv_columns + 11, MYSQL_TYPE_ENUM); return f ? f->val_int()-1 : 0; } int set_is_role (bool x) const { if (Field *f= get_field(end_priv_columns + 11, MYSQL_TYPE_ENUM)) return f->store(x+1, 0); else return 1; } const char* get_default_role (MEM_ROOT *root) const { Field *f= get_field(end_priv_columns + 12, MYSQL_TYPE_STRING); return f ? ::get_field(root,f) : 0; } int set_default_role (const char *s, size_t l) const { if (Field *f= get_field(end_priv_columns + 12, MYSQL_TYPE_STRING)) return f->store(s, l, system_charset_info); else return 1; } /* On a MariaDB 10.3 user table, the account locking accessors will try to get the content of the max_statement_time column, but they will fail due to the typecheck in get_field. */ bool get_account_locked () const { Field *f= get_field(end_priv_columns + 13, MYSQL_TYPE_ENUM); return f ? f->val_int()-1 : 0; } int set_account_locked (bool x) const { if (Field *f= get_field(end_priv_columns + 13, MYSQL_TYPE_ENUM)) return f->store(x+1, 0); return 1; } bool get_password_expired () const { uint field_num= end_priv_columns + 10; Field *f= get_field(field_num, MYSQL_TYPE_ENUM); return f ? f->val_int()-1 : 0; } int set_password_expired (bool x) const { uint field_num= end_priv_columns + 10; if (Field *f= get_field(field_num, MYSQL_TYPE_ENUM)) return f->store(x+1, 0); return 1; } my_time_t get_password_last_changed () const { ulong unused_dec; if (Field *f= get_field(end_priv_columns + 11, MYSQL_TYPE_TIMESTAMP2)) return f->get_timestamp(&unused_dec); return 0; } int set_password_last_changed (my_time_t x) const { if (Field *f= get_field(end_priv_columns + 11, MYSQL_TYPE_TIMESTAMP2)) { f->set_notnull(); return f->store_timestamp(x, 0); } return 1; } longlong get_password_lifetime () const { if (Field *f= get_field(end_priv_columns + 12, MYSQL_TYPE_SHORT)) { if (f->is_null()) return -1; return f->val_int(); } return 0; } int set_password_lifetime (longlong x) const { if (Field *f= get_field(end_priv_columns + 12, MYSQL_TYPE_SHORT)) { if (x < 0) { f->set_null(); return 0; } f->set_notnull(); return f->store(x, 0); } return 1; } virtual ~User_table_tabular() {} private: friend class Grant_tables; /* Only Grant_tables can instantiate this class. */ User_table_tabular() { min_columns= 13; /* As in 3.20.13 */ } /* The user table is a bit different compared to the other Grant tables. Usually, we only add columns to the grant tables when adding functionality. This makes it easy to test which version of the table we are using, by just looking at the number of fields present in the table. In MySQL 5.7.6 the Password column was removed. We need to guard for that. The field-fetching methods for the User table return NULL if the field doesn't exist. This simplifies checking of table "version", as we don't have to make use of num_fields() any more. */ inline Field* get_field(uint field_num, enum enum_field_types type) const { if (field_num >= num_fields()) return NULL; Field *f= m_table->field[field_num]; return f->real_type() == type ? f : NULL; } int setup_sysvars() const { username_char_length= MY_MIN(m_table->field[1]->char_length(), USERNAME_CHAR_LENGTH); using_global_priv_table= false; if (have_password()) // Password column might be missing. (MySQL 5.7.6+) { int password_length= password()->field_length / password()->charset()->mbmaxlen; if (password_length < SCRAMBLED_PASSWORD_CHAR_LENGTH_323) { sql_print_error("Fatal error: mysql.user table is damaged or in " "unsupported 3.20 format."); return 1; } mysql_mutex_lock(&LOCK_global_system_variables); if (password_length < SCRAMBLED_PASSWORD_CHAR_LENGTH) { if (opt_secure_auth) { mysql_mutex_unlock(&LOCK_global_system_variables); sql_print_error("Fatal error: mysql.user table is in old format, " "but server started with --secure-auth option."); return 1; } mysql_user_table_is_in_short_password_format= true; if (global_system_variables.old_passwords) mysql_mutex_unlock(&LOCK_global_system_variables); else { extern sys_var *Sys_old_passwords_ptr; Sys_old_passwords_ptr->value_origin= sys_var::AUTO; global_system_variables.old_passwords= 1; mysql_mutex_unlock(&LOCK_global_system_variables); sql_print_warning("mysql.user table is not updated to new password format; " "Disabling new password usage until " "mysql_fix_privilege_tables is run"); } m_table->in_use->variables.old_passwords= 1; } else { mysql_user_table_is_in_short_password_format= false; mysql_mutex_unlock(&LOCK_global_system_variables); } } return 0; } /* Normally password column is the third column in the table. If privileges start on the third column instead, we are missing the password column. This means we are using a MySQL 5.7.6+ data directory. */ bool have_password() const { return start_priv_columns == 3; } Field* password() const { return m_table->field[2]; } Field* plugin() const { return get_field(end_priv_columns + 8, MYSQL_TYPE_STRING); } Field* authstr() const { return get_field(end_priv_columns + 9, MYSQL_TYPE_BLOB); } }; /* MariaDB 10.4 and up `global_priv` table TODO possible optimizations: * update json in-place if the new value can fit * don't repeat get_value for every key, but use a streaming parser to convert json into in-memory object (ACL_USER?) in one json scan. - this makes sense for acl_load(), but hardly for GRANT * similarly, pack ACL_USER (?) into json in one go. - doesn't make sense? GRANT rarely updates more than one field. */ class User_table_json: public User_table { LEX_CSTRING& name() const { return MYSQL_TABLE_NAME[USER_TABLE]; } int get_auth(THD *thd, MEM_ROOT *root, ACL_USER *u) const { size_t array_len; const char *array; int vl; const char *v; if (get_value("auth_or", JSV_ARRAY, &array, &array_len)) { u->alloc_auth(root, 1); return get_auth1(thd, root, u, 0); } if (json_get_array_item(array, array + array_len, (int)array_len, &v, &vl) != JSV_NOTHING) return 1; u->alloc_auth(root, vl); for (uint i=0; i < u->nauth; i++) { if (json_get_array_item(array, array + array_len, i, &v, &vl) != JSV_OBJECT) return 1; const char *p, *a; int pl, al; switch (json_get_object_key(v, v + vl, "plugin", &p, &pl)) { case JSV_STRING: u->auth[i].plugin.str= strmake_root(root, p, pl); u->auth[i].plugin.length= pl; break; case JSV_NOTHING: if (get_auth1(thd, root, u, i)) return 1; else continue; default: return 1; } switch (json_get_object_key(v, v + vl, "authentication_string", &a, &al)) { case JSV_NOTHING: u->auth[i].auth_string= empty_clex_str; break; case JSV_STRING: u->auth[i].auth_string.str= strmake_root(root, a, al); u->auth[i].auth_string.length= al; break; default: return 1; } } return 0; } int get_auth1(THD *thd, MEM_ROOT *root, ACL_USER *u, uint n) const { const char *authstr= get_str_value(root, "authentication_string"); const char *plugin= get_str_value(root, "plugin"); if (plugin && authstr) { if (plugin && *plugin) { u->auth[n].plugin.str= plugin; u->auth[n].plugin.length= strlen(plugin); } else u->auth[n].plugin= native_password_plugin_name; u->auth[n].auth_string.str= authstr; u->auth[n].auth_string.length= strlen(authstr); return 0; } return 1; } bool append_str_value(String *to, const LEX_CSTRING &str) const { to->append('"'); to->reserve(str.length*2); int len= json_escape(system_charset_info, (uchar*)str.str, (uchar*)str.str + str.length, to->charset(), (uchar*)to->end(), (uchar*)to->end() + str.length*2); if (len < 0) return 1; to->length(to->length() + len); to->append('"'); return 0; } bool set_auth(const ACL_USER &u) const { size_t array_len; const char *array; if (u.nauth == 1 && get_value("auth_or", JSV_ARRAY, &array, &array_len)) return set_auth1(u, 0); StringBuffer<JSON_SIZE> json(m_table->field[2]->charset()); bool top_done = false; json.append('['); for (uint i=0; i < u.nauth; i++) { ACL_USER::AUTH * const auth= u.auth + i; if (i) json.append(','); json.append('{'); if (!top_done && (auth->plugin.str == native_password_plugin_name.str || auth->plugin.str == old_password_plugin_name.str || i == u.nauth - 1)) { if (set_auth1(u, i)) return 1; top_done= true; } else { json.append(STRING_WITH_LEN("\"plugin\":")); if (append_str_value(&json, auth->plugin)) return 1; if (auth->auth_string.length) { json.append(STRING_WITH_LEN(",\"authentication_string\":")); if (append_str_value(&json, auth->auth_string)) return 1; } } json.append('}'); } json.append(']'); return set_value("auth_or", json.ptr(), json.length(), false) == JSV_BAD_JSON; } bool set_auth1(const ACL_USER &u, uint i) const { return set_str_value("plugin", u.auth[i].plugin.str, u.auth[i].plugin.length) || set_str_value("authentication_string", u.auth[i].auth_string.str, u.auth[i].auth_string.length); } ulong get_access() const { /* when new privileges will be added, we'll start storing GLOBAL_ACLS (or, for example, my_count_bits(GLOBAL_ACLS)) in the json too, and it'll allow us to do privilege upgrades */ return get_int_value("access") & GLOBAL_ACLS; } void set_access(ulong rights, bool revoke) const { ulong access= get_access(); if (revoke) access&= ~rights; else access|= rights; set_int_value("access", access & GLOBAL_ACLS); } const char *unsafe_str(const char *s) const { return s[0] ? s : NULL; } SSL_type get_ssl_type () const { return (SSL_type)get_int_value("ssl_type"); } int set_ssl_type (SSL_type x) const { return set_int_value("ssl_type", x); } const char* get_ssl_cipher (MEM_ROOT *root) const { return unsafe_str(get_str_value(root, "ssl_cipher")); } int set_ssl_cipher (const char *s, size_t l) const { return set_str_value("ssl_cipher", s, l); } const char* get_x509_issuer (MEM_ROOT *root) const { return unsafe_str(get_str_value(root, "x509_issuer")); } int set_x509_issuer (const char *s, size_t l) const { return set_str_value("x509_issuer", s, l); } const char* get_x509_subject (MEM_ROOT *root) const { return unsafe_str(get_str_value(root, "x509_subject")); } int set_x509_subject (const char *s, size_t l) const { return set_str_value("x509_subject", s, l); } longlong get_max_questions () const { return get_int_value("max_questions"); } int set_max_questions (longlong x) const { return set_int_value("max_questions", x); } longlong get_max_updates () const { return get_int_value("max_updates"); } int set_max_updates (longlong x) const { return set_int_value("max_updates", x); } longlong get_max_connections () const { return get_int_value("max_connections"); } int set_max_connections (longlong x) const { return set_int_value("max_connections", x); } longlong get_max_user_connections () const { return get_int_value("max_user_connections"); } int set_max_user_connections (longlong x) const { return set_int_value("max_user_connections", x); } double get_max_statement_time () const { return get_double_value("max_statement_time"); } int set_max_statement_time (double x) const { return set_double_value("max_statement_time", x); } bool get_is_role () const { return get_bool_value("is_role"); } int set_is_role (bool x) const { return set_bool_value("is_role", x); } const char* get_default_role (MEM_ROOT *root) const { return get_str_value(root, "default_role"); } int set_default_role (const char *s, size_t l) const { return set_str_value("default_role", s, l); } bool get_account_locked () const { return get_bool_value("account_locked"); } int set_account_locked (bool x) const { return set_bool_value("account_locked", x); } my_time_t get_password_last_changed () const { return static_cast<my_time_t>(get_int_value("password_last_changed")); } int set_password_last_changed (my_time_t x) const { return set_int_value("password_last_changed", static_cast<longlong>(x)); } int set_password_lifetime (longlong x) const { return set_int_value("password_lifetime", x); } longlong get_password_lifetime () const { return get_int_value("password_lifetime", -1); } /* password_last_changed=0 means the password is manually expired. In MySQL 5.7+ this state is described using the password_expired column in mysql.user */ bool get_password_expired () const { return get_int_value("password_last_changed", -1) == 0; } int set_password_expired (bool x) const { return x ? set_password_last_changed(0) : 0; } ~User_table_json() {} private: friend class Grant_tables; static const uint JSON_SIZE=1024; int setup_sysvars() const { using_global_priv_table= true; username_char_length= MY_MIN(m_table->field[1]->char_length(), USERNAME_CHAR_LENGTH); return 0; } bool get_value(const char *key, enum json_types vt, const char **v, size_t *vl) const { enum json_types value_type; int int_vl; String str, *res= m_table->field[2]->val_str(&str); if (!res || (value_type= json_get_object_key(res->ptr(), res->end(), key, v, &int_vl)) == JSV_BAD_JSON) return 1; // invalid *vl= int_vl; return value_type != vt; } const char *get_str_value(MEM_ROOT *root, const char *key) const { size_t value_len; const char *value_start; if (get_value(key, JSV_STRING, &value_start, &value_len)) return ""; char *ptr= (char*)alloca(value_len); int len= json_unescape(m_table->field[2]->charset(), (const uchar*)value_start, (const uchar*)value_start + value_len, system_charset_info, (uchar*)ptr, (uchar*)ptr + value_len); if (len < 0) return NULL; return strmake_root(root, ptr, len); } longlong get_int_value(const char *key, longlong def_val= 0) const { int err; size_t value_len; const char *value_start; if (get_value(key, JSV_NUMBER, &value_start, &value_len)) return def_val; const char *value_end= value_start + value_len; return my_strtoll10(value_start, (char**)&value_end, &err); } double get_double_value(const char *key) const { int err; size_t value_len; const char *value_start; if (get_value(key, JSV_NUMBER, &value_start, &value_len)) return 0; const char *value_end= value_start + value_len; return my_strtod(value_start, (char**)&value_end, &err); } bool get_bool_value(const char *key) const { size_t value_len; const char *value_start; if (get_value(key, JSV_TRUE, &value_start, &value_len)) return false; return true; } enum json_types set_value(const char *key, const char *val, size_t vlen, bool string) const { int value_len; const char *value_start; enum json_types value_type; String str, *res= m_table->field[2]->val_str(&str); if (!res || !res->length()) (res= &str)->set(STRING_WITH_LEN("{}"), m_table->field[2]->charset()); value_type= json_get_object_key(res->ptr(), res->end(), key, &value_start, &value_len); if (value_type == JSV_BAD_JSON) return value_type; // invalid StringBuffer<JSON_SIZE> json(res->charset()); json.copy(res->ptr(), value_start - res->ptr(), res->charset()); if (value_type == JSV_NOTHING) { if (value_len) json.append(','); json.append('"'); json.append(key); json.append(STRING_WITH_LEN("\":")); if (string) json.append('"'); } else value_start+= value_len; json.append(val, vlen); if (!value_type && string) json.append('"'); json.append(value_start, res->end() - value_start); DBUG_ASSERT(json_valid(json.ptr(), json.length(), json.charset())); m_table->field[2]->store(json.ptr(), json.length(), json.charset()); return value_type; } bool set_str_value(const char *key, const char *val, size_t vlen) const { char buf[JSON_SIZE]; int blen= json_escape(system_charset_info, (const uchar*)val, (const uchar*)val + vlen, m_table->field[2]->charset(), (uchar*)buf, (uchar*)buf+sizeof(buf)); if (blen < 0) return 1; return set_value(key, buf, blen, true) == JSV_BAD_JSON; } bool set_int_value(const char *key, longlong val) const { char v[MY_INT64_NUM_DECIMAL_DIGITS+1]; size_t vlen= longlong10_to_str(val, v, -10) - v; return set_value(key, v, vlen, false) == JSV_BAD_JSON; } bool set_double_value(const char *key, double val) const { char v[FLOATING_POINT_BUFFER+1]; size_t vlen= my_fcvt(val, TIME_SECOND_PART_DIGITS, v, NULL); return set_value(key, v, vlen, false) == JSV_BAD_JSON; } bool set_bool_value(const char *key, bool val) const { return set_value(key, val ? "true" : "false", val ? 4 : 5, false) == JSV_BAD_JSON; } }; class Db_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* db() const { return m_table->field[1]; } Field* user() const { return m_table->field[2]; } private: friend class Grant_tables; Db_table() { min_columns= 9; /* as in 3.20.13 */ } }; class Tables_priv_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* db() const { return m_table->field[1]; } Field* user() const { return m_table->field[2]; } Field* table_name() const { return m_table->field[3]; } Field* grantor() const { return m_table->field[4]; } Field* timestamp() const { return m_table->field[5]; } Field* table_priv() const { return m_table->field[6]; } Field* column_priv() const { return m_table->field[7]; } private: friend class Grant_tables; Tables_priv_table() { min_columns= 8; /* as in 3.22.26a */ } }; class Columns_priv_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* db() const { return m_table->field[1]; } Field* user() const { return m_table->field[2]; } Field* table_name() const { return m_table->field[3]; } Field* column_name() const { return m_table->field[4]; } Field* timestamp() const { return m_table->field[5]; } Field* column_priv() const { return m_table->field[6]; } private: friend class Grant_tables; Columns_priv_table() { min_columns= 7; /* as in 3.22.26a */ } }; class Host_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* db() const { return m_table->field[1]; } private: friend class Grant_tables; Host_table() { min_columns= 8; /* as in 3.20.13 */ } }; class Procs_priv_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* db() const { return m_table->field[1]; } Field* user() const { return m_table->field[2]; } Field* routine_name() const { return m_table->field[3]; } Field* routine_type() const { return m_table->field[4]; } Field* grantor() const { return m_table->field[5]; } Field* proc_priv() const { return m_table->field[6]; } Field* timestamp() const { return m_table->field[7]; } private: friend class Grant_tables; Procs_priv_table() { min_columns=8; } }; class Proxies_priv_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* user() const { return m_table->field[1]; } Field* proxied_host() const { return m_table->field[2]; } Field* proxied_user() const { return m_table->field[3]; } Field* with_grant() const { return m_table->field[4]; } Field* grantor() const { return m_table->field[5]; } Field* timestamp() const { return m_table->field[6]; } private: friend class Grant_tables; Proxies_priv_table() { min_columns= 7; } }; class Roles_mapping_table: public Grant_table_base { public: Field* host() const { return m_table->field[0]; } Field* user() const { return m_table->field[1]; } Field* role() const { return m_table->field[2]; } Field* admin_option() const { return m_table->field[3]; } private: friend class Grant_tables; Roles_mapping_table() { min_columns= 4; } }; /** Class that represents a collection of grant tables. */ class Grant_tables { public: Grant_tables() : p_user_table(&m_user_table_json) { } int open_and_lock(THD *thd, int which_tables, enum thr_lock_type lock_type) { DBUG_ENTER("Grant_tables::open_and_lock"); TABLE_LIST tables[USER_TABLE+1], *first= NULL; DBUG_ASSERT(which_tables); /* At least one table must be opened. */ /* We can read privilege tables even when !initialized. This can be acl_load() - server startup or FLUSH PRIVILEGES */ if (lock_type >= TL_WRITE_ALLOW_WRITE && !initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(-1); } for (int i=USER_TABLE; i >=0; i--) { TABLE_LIST *tl= tables + i; if (which_tables & (1 << i)) { tl->init_one_table(&MYSQL_SCHEMA_NAME, &MYSQL_TABLE_NAME[i], NULL, lock_type); tl->open_type= OT_BASE_ONLY; tl->i_s_requested_object= OPEN_TABLE_ONLY; tl->updating= lock_type >= TL_WRITE_ALLOW_WRITE; if (i >= FIRST_OPTIONAL_TABLE) tl->open_strategy= TABLE_LIST::OPEN_IF_EXISTS; tl->next_global= tl->next_local= first; first= tl; } else tl->table= NULL; } uint counter; int res= really_open(thd, first, &counter); /* if User_table_json wasn't found, let's try User_table_tabular */ if (!res && (which_tables & Table_user) && !tables[USER_TABLE].table) { uint unused; TABLE_LIST *tl= tables + USER_TABLE; TABLE *backup_open_tables= thd->open_tables; thd->set_open_tables(NULL); tl->init_one_table(&MYSQL_SCHEMA_NAME, &MYSQL_TABLE_NAME_USER, NULL, lock_type); tl->open_type= OT_BASE_ONLY; tl->i_s_requested_object= OPEN_TABLE_ONLY; tl->updating= lock_type >= TL_WRITE_ALLOW_WRITE; p_user_table= &m_user_table_tabular; counter++; res= really_open(thd, tl, &unused); thd->set_open_tables(backup_open_tables); if (tables[USER_TABLE].table) { tables[USER_TABLE].table->next= backup_open_tables; thd->set_open_tables(tables[USER_TABLE].table); } } if (res) DBUG_RETURN(res); if (lock_tables(thd, first, counter, MYSQL_LOCK_IGNORE_TIMEOUT)) DBUG_RETURN(-1); p_user_table->set_table(tables[USER_TABLE].table); m_db_table.set_table(tables[DB_TABLE].table); m_tables_priv_table.set_table(tables[TABLES_PRIV_TABLE].table); m_columns_priv_table.set_table(tables[COLUMNS_PRIV_TABLE].table); m_host_table.set_table(tables[HOST_TABLE].table); m_procs_priv_table.set_table(tables[PROCS_PRIV_TABLE].table); m_proxies_priv_table.set_table(tables[PROXIES_PRIV_TABLE].table); m_roles_mapping_table.set_table(tables[ROLES_MAPPING_TABLE].table); DBUG_RETURN(0); } inline const User_table& user_table() const { return *p_user_table; } inline const Db_table& db_table() const { return m_db_table; } inline const Tables_priv_table& tables_priv_table() const { return m_tables_priv_table; } inline const Columns_priv_table& columns_priv_table() const { return m_columns_priv_table; } inline const Host_table& host_table() const { return m_host_table; } inline const Procs_priv_table& procs_priv_table() const { return m_procs_priv_table; } inline const Proxies_priv_table& proxies_priv_table() const { return m_proxies_priv_table; } inline const Roles_mapping_table& roles_mapping_table() const { return m_roles_mapping_table; } private: /* Before any operation is possible on grant tables, they must be opened. @retval 1 replication filters matched. Abort the operation, but return OK (!) @retval 0 tables were opened successfully @retval -1 error, tables could not be opened */ int really_open(THD *thd, TABLE_LIST* tables, uint *counter) { DBUG_ENTER("Grant_tables::really_open:"); #ifdef HAVE_REPLICATION if (tables->lock_type >= TL_WRITE_ALLOW_WRITE && thd->slave_thread && !thd->spcont) { /* GRANT and REVOKE are applied the slave in/exclusion rules as they are some kind of updates to the mysql.% tables. */ Rpl_filter *rpl_filter= thd->system_thread_info.rpl_sql_info->rpl_filter; if (rpl_filter->is_on() && !rpl_filter->tables_ok(0, tables)) DBUG_RETURN(1); } #endif if (open_tables(thd, &tables, counter, MYSQL_LOCK_IGNORE_TIMEOUT)) DBUG_RETURN(-1); DBUG_RETURN(0); } User_table *p_user_table; User_table_json m_user_table_json; User_table_tabular m_user_table_tabular; Db_table m_db_table; Tables_priv_table m_tables_priv_table; Columns_priv_table m_columns_priv_table; Host_table m_host_table; Procs_priv_table m_procs_priv_table; Proxies_priv_table m_proxies_priv_table; Roles_mapping_table m_roles_mapping_table; }; void ACL_PROXY_USER::init(const Proxies_priv_table& proxies_priv_table, MEM_ROOT *mem) { init(get_field(mem, proxies_priv_table.host()), safe_str(get_field(mem, proxies_priv_table.user())), get_field(mem, proxies_priv_table.proxied_host()), safe_str(get_field(mem, proxies_priv_table.proxied_user())), proxies_priv_table.with_grant()->val_int() != 0); } /* Enumeration of various ACL's and Hashes used in handle_grant_struct() */ enum enum_acl_lists { USER_ACL= 0, ROLE_ACL, DB_ACL, COLUMN_PRIVILEGES_HASH, PROC_PRIVILEGES_HASH, FUNC_PRIVILEGES_HASH, PACKAGE_SPEC_PRIVILEGES_HASH, PACKAGE_BODY_PRIVILEGES_HASH, PROXY_USERS_ACL, ROLES_MAPPINGS_HASH }; ACL_ROLE::ACL_ROLE(ACL_USER *user, MEM_ROOT *root) : counter(0) { access= user->access; /* set initial role access the same as the table row privileges */ initial_role_access= user->access; this->user= user->user; bzero(&parent_grantee, sizeof(parent_grantee)); flags= IS_ROLE; } ACL_ROLE::ACL_ROLE(const char * rolename, ulong privileges, MEM_ROOT *root) : initial_role_access(privileges), counter(0) { this->access= initial_role_access; this->user.str= safe_strdup_root(root, rolename); this->user.length= strlen(rolename); bzero(&parent_grantee, sizeof(parent_grantee)); flags= IS_ROLE; } static bool is_invalid_role_name(const char *str) { if (*str && strcasecmp(str, "PUBLIC") && strcasecmp(str, "NONE")) return false; my_error(ER_INVALID_ROLE, MYF(0), str); return true; } static void free_acl_user(ACL_USER *user) { delete_dynamic(&(user->role_grants)); } static void free_acl_role(ACL_ROLE *role) { delete_dynamic(&(role->role_grants)); delete_dynamic(&(role->parent_grantee)); } static my_bool check_if_exists(THD *, plugin_ref, void *) { return TRUE; } static bool has_validation_plugins() { return plugin_foreach(NULL, check_if_exists, MariaDB_PASSWORD_VALIDATION_PLUGIN, NULL); } struct validation_data { const LEX_CSTRING *user, *password; }; static my_bool do_validate(THD *, plugin_ref plugin, void *arg) { struct validation_data *data= (struct validation_data *)arg; struct st_mariadb_password_validation *handler= (st_mariadb_password_validation *)plugin_decl(plugin)->info; return handler->validate_password(data->user, data->password); } static bool validate_password(THD *thd, const LEX_CSTRING &user, const LEX_CSTRING &pwtext, bool has_hash) { if (pwtext.length || !has_hash) { struct validation_data data= { &user, pwtext.str ? &pwtext : &empty_clex_str }; if (plugin_foreach(NULL, do_validate, MariaDB_PASSWORD_VALIDATION_PLUGIN, &data)) { my_error(ER_NOT_VALID_PASSWORD, MYF(0)); return true; } } else { if (!thd->slave_thread && strict_password_validation && has_validation_plugins()) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--strict-password-validation"); return true; } } return false; } static int set_user_salt(ACL_USER::AUTH *auth, plugin_ref plugin) { st_mysql_auth *info= (st_mysql_auth *) plugin_decl(plugin)->info; if (info->interface_version >= 0x0202 && info->preprocess_hash && auth->auth_string.length) { uchar buf[MAX_SCRAMBLE_LENGTH]; size_t len= sizeof(buf); if (info->preprocess_hash(auth->auth_string.str, auth->auth_string.length, buf, &len)) return 1; auth->salt.str= (char*)memdup_root(&acl_memroot, buf, len); auth->salt.length= len; } else auth->salt= safe_lexcstrdup_root(&acl_memroot, auth->auth_string); return 0; } /** Fills in ACL_USER::auth_string and ACL_USER::salt fields, as needed hashes the plain-text password (if provided) to auth_string, converts auth_string to salt. Fails if the plain-text password fails validation, if the plugin is not loaded, if the auth_string is invalid, if the password is not applicable */ static int set_user_auth(THD *thd, const LEX_CSTRING &user, ACL_USER::AUTH *auth, const LEX_CSTRING &pwtext) { const char *plugin_name= auth->plugin.str; bool unlock_plugin= false; plugin_ref plugin= get_auth_plugin(thd, auth->plugin, &unlock_plugin); int res= 1; if (!plugin) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_WARN, ER_PLUGIN_IS_NOT_LOADED, ER_THD(thd, ER_PLUGIN_IS_NOT_LOADED), plugin_name); return ER_PLUGIN_IS_NOT_LOADED; } auth->salt= auth->auth_string; st_mysql_auth *info= (st_mysql_auth *) plugin_decl(plugin)->info; if (info->interface_version < 0x0202) { res= pwtext.length ? ER_SET_PASSWORD_AUTH_PLUGIN : 0; goto end; } if (info->hash_password && validate_password(thd, user, pwtext, auth->auth_string.length)) { res= ER_NOT_VALID_PASSWORD; goto end; } if (pwtext.length) { if (info->hash_password) { char buf[MAX_SCRAMBLE_LENGTH]; size_t len= sizeof(buf) - 1; if (info->hash_password(pwtext.str, pwtext.length, buf, &len)) { res= ER_OUTOFMEMORY; goto end; } buf[len] = 0; auth->auth_string.str= (char*)memdup_root(&acl_memroot, buf, len+1); auth->auth_string.length= len; } else { res= ER_SET_PASSWORD_AUTH_PLUGIN; goto end; } } if (set_user_salt(auth, plugin)) { res= ER_PASSWD_LENGTH; goto end; } res= 0; end: if (unlock_plugin) plugin_unlock(thd, plugin); return res; } /** Lazily computes user's salt from the password hash */ static bool set_user_salt_if_needed(ACL_USER *user_copy, int curr_auth, plugin_ref plugin) { ACL_USER::AUTH *auth_copy= user_copy->auth + curr_auth; DBUG_ASSERT(!strcasecmp(auth_copy->plugin.str, plugin_name(plugin)->str)); if (auth_copy->salt.str) return 0; // already done if (set_user_salt(auth_copy, plugin)) return 1; mysql_mutex_lock(&acl_cache->lock); ACL_USER *user= find_user_exact(user_copy->host.hostname, user_copy->user.str); // make sure the user wasn't altered or dropped meanwhile if (user) { ACL_USER::AUTH *auth= user->auth + curr_auth; if (!auth->salt.str && auth->plugin.length == auth_copy->plugin.length && auth->auth_string.length == auth_copy->auth_string.length && !memcmp(auth->plugin.str, auth_copy->plugin.str, auth->plugin.length) && !memcmp(auth->auth_string.str, auth_copy->auth_string.str, auth->auth_string.length)) auth->salt= auth_copy->salt; } mysql_mutex_unlock(&acl_cache->lock); return 0; } /** Fix ACL::plugin pointer to point to a hard-coded string, if appropriate Make sure that if ACL_USER's plugin is a built-in, then it points to a hard coded string, not to an allocated copy. Run-time, for authentication, we want to be able to detect built-ins by comparing pointers, not strings. @retval 0 the pointers were fixed @retval 1 this ACL_USER uses a not built-in plugin */ static bool fix_user_plugin_ptr(ACL_USER::AUTH *auth) { if (lex_string_eq(&auth->plugin, &native_password_plugin_name)) auth->plugin= native_password_plugin_name; else if (lex_string_eq(&auth->plugin, &old_password_plugin_name)) auth->plugin= old_password_plugin_name; else return true; return false; } static bool get_YN_as_bool(Field *field) { char buff[2]; String res(buff,sizeof(buff),&my_charset_latin1); field->val_str(&res); return res[0] == 'Y' || res[0] == 'y'; } /* Initialize structures responsible for user/db-level privilege checking and load privilege information for them from tables in the 'mysql' database. SYNOPSIS acl_init() dont_read_acl_tables TRUE if we want to skip loading data from privilege tables and disable privilege checking. NOTES This function is mostly responsible for preparatory steps, main work on initialization and grants loading is done in acl_reload(). RETURN VALUES 0 ok 1 Could not initialize grant's */ bool acl_init(bool dont_read_acl_tables) { THD *thd; bool return_val; DBUG_ENTER("acl_init"); acl_cache= new Hash_filo<acl_entry>(ACL_CACHE_SIZE, 0, 0, (my_hash_get_key) acl_entry_get_key, (my_hash_free_key) free, &my_charset_utf8_bin); /* cache built-in native authentication plugins, to avoid hash searches and a global mutex lock on every connect */ native_password_plugin= my_plugin_lock_by_name(0, &native_password_plugin_name, MYSQL_AUTHENTICATION_PLUGIN); old_password_plugin= my_plugin_lock_by_name(0, &old_password_plugin_name, MYSQL_AUTHENTICATION_PLUGIN); if (!native_password_plugin || !old_password_plugin) DBUG_RETURN(1); if (dont_read_acl_tables) { DBUG_RETURN(0); /* purecov: tested */ } /* To be able to run this from boot, we allocate a temporary THD */ if (!(thd=new THD(0))) DBUG_RETURN(1); /* purecov: inspected */ thd->thread_stack= (char*) &thd; thd->store_globals(); /* It is safe to call acl_reload() since acl_* arrays and hashes which will be freed there are global static objects and thus are initialized by zeros at startup. */ return_val= acl_reload(thd); delete thd; DBUG_RETURN(return_val); } static void push_new_user(const ACL_USER &user) { push_dynamic(&acl_users, &user); if (!user.host.hostname || (user.host.hostname[0] == wild_many && !user.host.hostname[1])) allow_all_hosts=1; // Anyone can connect } /* Initialize structures responsible for user/db-level privilege checking and load information about grants from open privilege tables. SYNOPSIS acl_load() thd Current thread tables List containing open "mysql.host", "mysql.user", "mysql.db", "mysql.proxies_priv" and "mysql.roles_mapping" tables. RETURN VALUES FALSE Success TRUE Error */ static bool acl_load(THD *thd, const Grant_tables& tables) { READ_RECORD read_record_info; bool check_no_resolve= specialflag & SPECIAL_NO_RESOLVE; char tmp_name[SAFE_NAME_LEN+1]; Sql_mode_save old_mode_save(thd); DBUG_ENTER("acl_load"); thd->variables.sql_mode&= ~MODE_PAD_CHAR_TO_FULL_LENGTH; grant_version++; /* Privileges updated */ const Host_table& host_table= tables.host_table(); init_sql_alloc(&acl_memroot, "ACL", ACL_ALLOC_BLOCK_SIZE, 0, MYF(0)); if (host_table.table_exists()) // "host" table may not exist (e.g. in MySQL 5.6.7+) { if (host_table.init_read_record(&read_record_info)) DBUG_RETURN(true); while (!(read_record_info.read_record())) { ACL_HOST host; update_hostname(&host.host, get_field(&acl_memroot, host_table.host())); host.db= get_field(&acl_memroot, host_table.db()); if (lower_case_table_names && host.db) { /* convert db to lower case and give a warning if the db wasn't already in lower case */ char *end = strnmov(tmp_name, host.db, sizeof(tmp_name)); if (end >= tmp_name + sizeof(tmp_name)) { sql_print_warning(ER_THD(thd, ER_WRONG_DB_NAME), host.db); continue; } my_casedn_str(files_charset_info, host.db); if (strcmp(host.db, tmp_name) != 0) sql_print_warning("'host' entry '%s|%s' had database in mixed " "case that has been forced to lowercase because " "lower_case_table_names is set. It will not be " "possible to remove this privilege using REVOKE.", host.host.hostname, host.db); } host.access= host_table.get_access(); host.access= fix_rights_for_db(host.access); host.sort= get_magic_sort("hd", host.host.hostname, host.db); if (check_no_resolve && hostname_requires_resolving(host.host.hostname)) { sql_print_warning("'host' entry '%s|%s' " "ignored in --skip-name-resolve mode.", safe_str(host.host.hostname), safe_str(host.db)); continue; } #ifndef TO_BE_REMOVED if (host_table.num_fields() == 8) { // Without grant if (host.access & CREATE_ACL) host.access|=REFERENCES_ACL | INDEX_ACL | ALTER_ACL | CREATE_TMP_ACL; } #endif (void) push_dynamic(&acl_hosts,(uchar*) &host); } my_qsort((uchar*) dynamic_element(&acl_hosts, 0, ACL_HOST*), acl_hosts.elements, sizeof(ACL_HOST),(qsort_cmp) acl_compare); end_read_record(&read_record_info); } freeze_size(&acl_hosts); const User_table& user_table= tables.user_table(); if (user_table.init_read_record(&read_record_info)) DBUG_RETURN(true); allow_all_hosts=0; while (!(read_record_info.read_record())) { ACL_USER user; bool is_role= FALSE; update_hostname(&user.host, user_table.get_host(&acl_memroot)); char *username= safe_str(user_table.get_user(&acl_memroot)); user.user.str= username; user.user.length= strlen(username); is_role= user_table.get_is_role(); user.access= user_table.get_access(); user.sort= get_magic_sort("hu", user.host.hostname, user.user.str); user.hostname_length= safe_strlen(user.host.hostname); my_init_dynamic_array(&user.role_grants, sizeof(ACL_ROLE *), 0, 8, MYF(0)); user.account_locked= user_table.get_account_locked(); user.password_expired= user_table.get_password_expired(); user.password_last_changed= user_table.get_password_last_changed(); user.password_lifetime= user_table.get_password_lifetime(); if (is_role) { if (is_invalid_role_name(username)) { thd->clear_error(); // the warning is still issued continue; } ACL_ROLE *entry= new (&acl_memroot) ACL_ROLE(&user, &acl_memroot); entry->role_grants = user.role_grants; my_init_dynamic_array(&entry->parent_grantee, sizeof(ACL_USER_BASE *), 0, 8, MYF(0)); my_hash_insert(&acl_roles, (uchar *)entry); continue; } else { if (check_no_resolve && hostname_requires_resolving(user.host.hostname)) { sql_print_warning("'user' entry '%s@%s' " "ignored in --skip-name-resolve mode.", user.user.str, safe_str(user.host.hostname)); continue; } if (user_table.get_auth(thd, &acl_memroot, &user)) continue; for (uint i= 0; i < user.nauth; i++) { ACL_USER::AUTH *auth= user.auth + i; auth->salt= null_clex_str; fix_user_plugin_ptr(auth); } user.ssl_type= user_table.get_ssl_type(); user.ssl_cipher= user_table.get_ssl_cipher(&acl_memroot); user.x509_issuer= safe_str(user_table.get_x509_issuer(&acl_memroot)); user.x509_subject= safe_str(user_table.get_x509_subject(&acl_memroot)); user.user_resource.questions= (uint)user_table.get_max_questions(); user.user_resource.updates= (uint)user_table.get_max_updates(); user.user_resource.conn_per_hour= (uint)user_table.get_max_connections(); if (user.user_resource.questions || user.user_resource.updates || user.user_resource.conn_per_hour) mqh_used=1; user.user_resource.user_conn= (int)user_table.get_max_user_connections(); user.user_resource.max_statement_time= user_table.get_max_statement_time(); user.default_rolename.str= user_table.get_default_role(&acl_memroot); user.default_rolename.length= safe_strlen(user.default_rolename.str); } push_new_user(user); } rebuild_acl_users(); end_read_record(&read_record_info); freeze_size(&acl_users); const Db_table& db_table= tables.db_table(); if (db_table.init_read_record(&read_record_info)) DBUG_RETURN(TRUE); while (!(read_record_info.read_record())) { ACL_DB db; char *db_name; db.user=safe_str(get_field(&acl_memroot, db_table.user())); const char *hostname= get_field(&acl_memroot, db_table.host()); if (!hostname && find_acl_role(db.user)) hostname= ""; update_hostname(&db.host, hostname); db.db= db_name= get_field(&acl_memroot, db_table.db()); if (!db.db) { sql_print_warning("Found an entry in the 'db' table with empty database name; Skipped"); continue; } if (check_no_resolve && hostname_requires_resolving(db.host.hostname)) { sql_print_warning("'db' entry '%s %s@%s' " "ignored in --skip-name-resolve mode.", db.db, db.user, safe_str(db.host.hostname)); continue; } db.access= db_table.get_access(); db.access=fix_rights_for_db(db.access); db.initial_access= db.access; if (lower_case_table_names) { /* convert db to lower case and give a warning if the db wasn't already in lower case */ char *end = strnmov(tmp_name, db.db, sizeof(tmp_name)); if (end >= tmp_name + sizeof(tmp_name)) { sql_print_warning(ER_THD(thd, ER_WRONG_DB_NAME), db.db); continue; } my_casedn_str(files_charset_info, db_name); if (strcmp(db_name, tmp_name) != 0) { sql_print_warning("'db' entry '%s %s@%s' had database in mixed " "case that has been forced to lowercase because " "lower_case_table_names is set. It will not be " "possible to remove this privilege using REVOKE.", db.db, db.user, safe_str(db.host.hostname)); } } db.sort=get_magic_sort("hdu", db.host.hostname, db.db, db.user); #ifndef TO_BE_REMOVED if (db_table.num_fields() <= 9) { // Without grant if (db.access & CREATE_ACL) db.access|=REFERENCES_ACL | INDEX_ACL | ALTER_ACL; } #endif acl_dbs.push(db); } end_read_record(&read_record_info); rebuild_acl_dbs(); acl_dbs.freeze(); const Proxies_priv_table& proxies_priv_table= tables.proxies_priv_table(); if (proxies_priv_table.table_exists()) { if (proxies_priv_table.init_read_record(&read_record_info)) DBUG_RETURN(TRUE); while (!(read_record_info.read_record())) { ACL_PROXY_USER proxy; proxy.init(proxies_priv_table, &acl_memroot); if (proxy.check_validity(check_no_resolve)) continue; if (push_dynamic(&acl_proxy_users, (uchar*) &proxy)) DBUG_RETURN(TRUE); } my_qsort((uchar*) dynamic_element(&acl_proxy_users, 0, ACL_PROXY_USER*), acl_proxy_users.elements, sizeof(ACL_PROXY_USER), (qsort_cmp) acl_compare); end_read_record(&read_record_info); } else { sql_print_error("Missing system table mysql.proxies_priv; " "please run mysql_upgrade to create it"); } freeze_size(&acl_proxy_users); const Roles_mapping_table& roles_mapping_table= tables.roles_mapping_table(); if (roles_mapping_table.table_exists()) { if (roles_mapping_table.init_read_record(&read_record_info)) DBUG_RETURN(TRUE); MEM_ROOT temp_root; init_alloc_root(&temp_root, "ACL_tmp", ACL_ALLOC_BLOCK_SIZE, 0, MYF(0)); while (!(read_record_info.read_record())) { char *hostname= safe_str(get_field(&temp_root, roles_mapping_table.host())); char *username= safe_str(get_field(&temp_root, roles_mapping_table.user())); char *rolename= safe_str(get_field(&temp_root, roles_mapping_table.role())); bool with_grant_option= get_YN_as_bool(roles_mapping_table.admin_option()); if (add_role_user_mapping(username, hostname, rolename)) { sql_print_error("Invalid roles_mapping table entry user:'%s@%s', rolename:'%s'", username, hostname, rolename); continue; } ROLE_GRANT_PAIR *mapping= new (&acl_memroot) ROLE_GRANT_PAIR; if (mapping->init(&acl_memroot, username, hostname, rolename, with_grant_option)) continue; my_hash_insert(&acl_roles_mappings, (uchar*) mapping); } free_root(&temp_root, MYF(0)); end_read_record(&read_record_info); } else { sql_print_error("Missing system table mysql.roles_mapping; " "please run mysql_upgrade to create it"); } init_check_host(); thd->bootstrap= !initialized; // keep FLUSH PRIVILEGES connection special initialized=1; DBUG_RETURN(FALSE); } void acl_free(bool end) { my_hash_free(&acl_roles); free_root(&acl_memroot,MYF(0)); delete_dynamic(&acl_hosts); delete_dynamic_with_callback(&acl_users, (FREE_FUNC) free_acl_user); acl_dbs.free_memory(); delete_dynamic(&acl_wild_hosts); delete_dynamic(&acl_proxy_users); my_hash_free(&acl_check_hosts); my_hash_free(&acl_roles_mappings); if (!end) acl_cache->clear(1); /* purecov: inspected */ else { plugin_unlock(0, native_password_plugin); plugin_unlock(0, old_password_plugin); delete acl_cache; acl_cache=0; } } /* Forget current user/db-level privileges and read new privileges from the privilege tables. SYNOPSIS acl_reload() thd Current thread NOTE All tables of calling thread which were open and locked by LOCK TABLES statement will be unlocked and closed. This function is also used for initialization of structures responsible for user/db-level privilege checking. RETURN VALUE FALSE Success TRUE Failure */ bool acl_reload(THD *thd) { DYNAMIC_ARRAY old_acl_hosts, old_acl_users, old_acl_proxy_users; Dynamic_array<ACL_DB> old_acl_dbs(0U,0U); HASH old_acl_roles, old_acl_roles_mappings; MEM_ROOT old_mem; int result; DBUG_ENTER("acl_reload"); Grant_tables tables; /* To avoid deadlocks we should obtain table locks before obtaining acl_cache->lock mutex. */ const uint tables_to_open= Table_host | Table_user | Table_db | Table_proxies_priv | Table_roles_mapping; if ((result= tables.open_and_lock(thd, tables_to_open, TL_READ))) { DBUG_ASSERT(result <= 0); /* Execution might have been interrupted; only print the error message if an error condition has been raised. */ if (thd->get_stmt_da()->is_error()) sql_print_error("Fatal error: Can't open and lock privilege tables: %s", thd->get_stmt_da()->message()); goto end; } acl_cache->clear(0); mysql_mutex_lock(&acl_cache->lock); old_acl_hosts= acl_hosts; old_acl_users= acl_users; old_acl_roles= acl_roles; old_acl_roles_mappings= acl_roles_mappings; old_acl_proxy_users= acl_proxy_users; old_acl_dbs= acl_dbs; my_init_dynamic_array(&acl_hosts, sizeof(ACL_HOST), 20, 50, MYF(0)); my_init_dynamic_array(&acl_users, sizeof(ACL_USER), 50, 100, MYF(0)); acl_dbs.init(50, 100); my_init_dynamic_array(&acl_proxy_users, sizeof(ACL_PROXY_USER), 50, 100, MYF(0)); my_hash_init2(&acl_roles,50, &my_charset_utf8_bin, 0, 0, 0, (my_hash_get_key) acl_role_get_key, 0, (void (*)(void *))free_acl_role, 0); my_hash_init2(&acl_roles_mappings, 50, &my_charset_utf8_bin, 0, 0, 0, (my_hash_get_key) acl_role_map_get_key, 0, 0, 0); old_mem= acl_memroot; delete_dynamic(&acl_wild_hosts); my_hash_free(&acl_check_hosts); if ((result= acl_load(thd, tables))) { // Error. Revert to old list DBUG_PRINT("error",("Reverting to old privileges")); acl_free(); /* purecov: inspected */ acl_hosts= old_acl_hosts; acl_users= old_acl_users; acl_roles= old_acl_roles; acl_roles_mappings= old_acl_roles_mappings; acl_proxy_users= old_acl_proxy_users; acl_dbs= old_acl_dbs; old_acl_dbs.init(0,0); acl_memroot= old_mem; init_check_host(); } else { my_hash_free(&old_acl_roles); free_root(&old_mem,MYF(0)); delete_dynamic(&old_acl_hosts); delete_dynamic_with_callback(&old_acl_users, (FREE_FUNC) free_acl_user); delete_dynamic(&old_acl_proxy_users); my_hash_free(&old_acl_roles_mappings); } mysql_mutex_unlock(&acl_cache->lock); end: close_mysql_tables(thd); DBUG_RETURN(result); } /* Get all access bits from table after fieldnr IMPLEMENTATION We know that the access privileges ends when there is no more fields or the field is not an enum with two elements. SYNOPSIS get_access() form an open table to read privileges from. The record should be already read in table->record[0] fieldnr number of the first privilege (that is ENUM('N','Y') field next_field on return - number of the field next to the last ENUM (unless next_field == 0) RETURN VALUE privilege mask */ static ulong get_access(TABLE *form, uint fieldnr, uint *next_field) { ulong access_bits=0,bit; char buff[2]; String res(buff,sizeof(buff),&my_charset_latin1); Field **pos; for (pos=form->field+fieldnr, bit=1; *pos && (*pos)->real_type() == MYSQL_TYPE_ENUM && ((Field_enum*) (*pos))->typelib->count == 2 ; pos++, fieldnr++, bit<<=1) { if (get_YN_as_bool(*pos)) access_bits|= bit; } if (next_field) *next_field=fieldnr; return access_bits; } static int acl_compare(const ACL_ACCESS *a, const ACL_ACCESS *b) { if (a->sort > b->sort) return -1; if (a->sort < b->sort) return 1; return 0; } static int acl_user_compare(const ACL_USER *a, const ACL_USER *b) { int res= strcmp(a->user.str, b->user.str); if (res) return res; res= acl_compare(a, b); if (res) return res; /* For more deterministic results, resolve ambiguity between "localhost" and "127.0.0.1"/"::1" by sorting "localhost" before loopback addresses. Test suite (on Windows) expects "root@localhost", even if root@::1 would also match. */ return -strcmp(a->host.hostname, b->host.hostname); } static int acl_db_compare(const ACL_DB *a, const ACL_DB *b) { int res= strcmp(a->user, b->user); if (res) return res; return acl_compare(a, b); } static void rebuild_acl_users() { my_qsort((uchar*)dynamic_element(&acl_users, 0, ACL_USER*), acl_users.elements, sizeof(ACL_USER), (qsort_cmp)acl_user_compare); } static void rebuild_acl_dbs() { acl_dbs.sort(acl_db_compare); } /* Return index of the first entry with given user in the array, or SIZE_T_MAX if not found. Assumes the array is sorted by get_username */ template<typename T> size_t find_first_user(T* arr, size_t len, const char *user) { size_t low= 0; size_t high= len; size_t mid; bool found= false; if(!len) return SIZE_T_MAX; #ifndef DBUG_OFF for (uint i = 0; i < len - 1; i++) DBUG_ASSERT(strcmp(arr[i].get_username(), arr[i + 1].get_username()) <= 0); #endif while (low < high) { mid= low + (high - low) / 2; int cmp= strcmp(arr[mid].get_username(),user); if (cmp == 0) found= true; if (cmp >= 0 ) high= mid; else low= mid + 1; } return (!found || low == len || strcmp(arr[low].get_username(), user)!=0 )?SIZE_T_MAX:low; } static size_t acl_find_user_by_name(const char *user) { return find_first_user<ACL_USER>((ACL_USER *)acl_users.buffer,acl_users.elements,user); } static size_t acl_find_db_by_username(const char *user) { return find_first_user<ACL_DB>(acl_dbs.front(), acl_dbs.elements(), user); } static bool match_db(ACL_DB *acl_db, const char *db, my_bool db_is_pattern) { return !acl_db->db || (db && !wild_compare(db, acl_db->db, db_is_pattern)); } /* Lookup in the acl_users or acl_dbs for the best matching entry corresponding to given user, host and ip parameters (also db, in case of ACL_DB) Historical note: In the past, both arrays were sorted just by ACL_ENTRY::sort field and were searched linearly, until the first match of (username,host) pair was found. This function uses optimizations (binary search by username), yet preserves the historical behavior, i.e the returns a match with highest ACL_ENTRY::sort. */ template <typename T> T* find_by_username_or_anon(T* arr, size_t len, const char *user, const char *host, const char *ip, const char *db, my_bool db_is_pattern, bool (*match_db_func)(T*,const char *,my_bool)) { size_t i; T *ret = NULL; // Check entries matching user name. size_t start = find_first_user(arr, len, user); for (i= start; i < len; i++) { T *entry= &arr[i]; if (i > start && strcmp(user, entry->get_username())) break; if (compare_hostname(&entry->host, host, ip) && (!match_db_func || match_db_func(entry, db, db_is_pattern))) { ret= entry; break; } } // Look also for anonymous user (username is empty string) // Due to sort by name, entries for anonymous user start at the start of array. for (i= 0; i < len; i++) { T *entry = &arr[i]; if (*entry->get_username() || (ret && acl_compare(entry, ret) >= 0)) break; if (compare_hostname(&entry->host, host, ip) && (!match_db_func || match_db_func(entry, db, db_is_pattern))) { ret= entry; break; } } return ret; } static ACL_DB *acl_db_find(const char *db, const char *user, const char *host, const char *ip, my_bool db_is_pattern) { return find_by_username_or_anon(acl_dbs.front(), acl_dbs.elements(), user, host, ip, db, db_is_pattern, match_db); } /* Gets user credentials without authentication and resource limit checks. SYNOPSIS acl_getroot() sctx Context which should be initialized user user name host host name ip IP db current data base name RETURN FALSE OK TRUE Error */ bool acl_getroot(Security_context *sctx, const char *user, const char *host, const char *ip, const char *db) { int res= 1; ACL_USER *acl_user= 0; DBUG_ENTER("acl_getroot"); DBUG_PRINT("enter", ("Host: '%s', Ip: '%s', User: '%s', db: '%s'", host, ip, user, db)); sctx->init(); sctx->user= *user ? user : NULL; sctx->host= host; sctx->ip= ip; sctx->host_or_ip= host ? host : (safe_str(ip)); if (!initialized) { /* here if mysqld's been started with --skip-grant-tables option. */ sctx->skip_grants(); DBUG_RETURN(FALSE); } mysql_mutex_lock(&acl_cache->lock); sctx->db_access= 0; if (host[0]) // User, not Role { acl_user= find_user_wild(host, user, ip); if (acl_user) { res= 0; if (ACL_DB *acl_db= acl_db_find(db, user, host, ip, FALSE)) sctx->db_access= acl_db->access; sctx->master_access= acl_user->access; strmake_buf(sctx->priv_user, user); if (acl_user->host.hostname) strmake_buf(sctx->priv_host, acl_user->host.hostname); } } else // Role, not User { ACL_ROLE *acl_role= find_acl_role(user); if (acl_role) { res= 0; if (ACL_DB *acl_db= acl_db_find(db, user, "", "", FALSE)) sctx->db_access = acl_db->access; sctx->master_access= acl_role->access; strmake_buf(sctx->priv_role, user); } } mysql_mutex_unlock(&acl_cache->lock); DBUG_RETURN(res); } static int check_role_is_granted_callback(ACL_USER_BASE *grantee, void *data) { LEX_CSTRING *rolename= static_cast<LEX_CSTRING *>(data); if (rolename->length == grantee->user.length && !strcmp(rolename->str, grantee->user.str)) return -1; // End search, we've found our role. /* Keep looking, we haven't found our role yet. */ return 0; } /* unlike find_user_exact and find_user_wild, this function finds anonymous users too, it's when a user is not empty, but priv_user (acl_user->user) is empty. */ static ACL_USER *find_user_or_anon(const char *host, const char *user, const char *ip) { return find_by_username_or_anon<ACL_USER> (reinterpret_cast<ACL_USER*>(acl_users.buffer), acl_users.elements, user, host, ip, NULL, FALSE, NULL); } static int check_user_can_set_role(THD *thd, const char *user, const char *host, const char *ip, const char *rolename, ulonglong *access) { ACL_ROLE *role; ACL_USER_BASE *acl_user_base; ACL_USER *UNINIT_VAR(acl_user); bool is_granted= FALSE; int result= 0; /* clear role privileges */ mysql_mutex_lock(&acl_cache->lock); if (!strcasecmp(rolename, "NONE")) { /* have to clear the privileges */ /* get the current user */ acl_user= find_user_wild(host, user, ip); if (acl_user == NULL) result= ER_INVALID_CURRENT_USER; else if (access) *access= acl_user->access; goto end; } role= find_acl_role(rolename); /* According to SQL standard, the same error message must be presented */ if (role == NULL) { result= ER_INVALID_ROLE; goto end; } for (uint i=0 ; i < role->parent_grantee.elements ; i++) { acl_user_base= *(dynamic_element(&role->parent_grantee, i, ACL_USER_BASE**)); if (acl_user_base->flags & IS_ROLE) continue; acl_user= (ACL_USER *)acl_user_base; if (acl_user->wild_eq(user, host, ip)) { is_granted= TRUE; break; } } /* According to SQL standard, the same error message must be presented */ if (!is_granted) { result= 1; goto end; } if (access) { *access = acl_user->access | role->access; } end: mysql_mutex_unlock(&acl_cache->lock); /* We present different error messages depending if the user has sufficient privileges to know if the INVALID_ROLE exists. */ switch (result) { case ER_INVALID_CURRENT_USER: my_error(ER_INVALID_CURRENT_USER, MYF(0), rolename); break; case ER_INVALID_ROLE: /* Role doesn't exist at all */ my_error(ER_INVALID_ROLE, MYF(0), rolename); break; case 1: StringBuffer<1024> c_usr; LEX_CSTRING role_lex; /* First, check if current user can see mysql database. */ bool read_access= !check_access(thd, SELECT_ACL, "mysql", NULL, NULL, 1, 1); role_lex.str= rolename; role_lex.length= strlen(rolename); mysql_mutex_lock(&acl_cache->lock); ACL_USER *cur_user= find_user_or_anon(thd->security_ctx->priv_host, thd->security_ctx->priv_user, thd->security_ctx->ip); /* If the current user does not have select priv to mysql database, see if the current user can discover the role if it was granted to him. */ if (cur_user && (read_access || traverse_role_graph_down(cur_user, &role_lex, check_role_is_granted_callback, NULL) == -1)) { /* Role is not granted but current user can see the role */ c_usr.append(user, strlen(user)); c_usr.append('@'); c_usr.append(host, strlen(host)); my_printf_error(ER_INVALID_ROLE, "User %`s has not been granted role %`s", MYF(0), c_usr.c_ptr(), rolename); } else { /* Role is not granted and current user cannot see the role */ my_error(ER_INVALID_ROLE, MYF(0), rolename); } mysql_mutex_unlock(&acl_cache->lock); break; } return result; } int acl_check_setrole(THD *thd, const char *rolename, ulonglong *access) { if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); return 1; } return check_user_can_set_role(thd, thd->security_ctx->priv_user, thd->security_ctx->host, thd->security_ctx->ip, rolename, access); } int acl_setrole(THD *thd, const char *rolename, ulonglong access) { /* merge the privileges */ Security_context *sctx= thd->security_ctx; sctx->master_access= static_cast<ulong>(access); if (thd->db.str) sctx->db_access= acl_get(sctx->host, sctx->ip, sctx->user, thd->db.str, FALSE); if (!strcasecmp(rolename, "NONE")) { thd->security_ctx->priv_role[0]= 0; } else { if (thd->db.str) sctx->db_access|= acl_get("", "", rolename, thd->db.str, FALSE); /* mark the current role */ strmake_buf(thd->security_ctx->priv_role, rolename); } return 0; } static uchar* check_get_key(ACL_USER *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length=buff->hostname_length; return (uchar*) buff->host.hostname; } static void acl_update_role(const char *rolename, ulong privileges) { ACL_ROLE *role= find_acl_role(rolename); if (role) role->initial_role_access= role->access= privileges; } ACL_USER::ACL_USER(THD *thd, const LEX_USER &combo, const Account_options &options, const ulong privileges) { user= safe_lexcstrdup_root(&acl_memroot, combo.user); update_hostname(&host, safe_strdup_root(&acl_memroot, combo.host.str)); hostname_length= combo.host.length; sort= get_magic_sort("hu", host.hostname, user.str); password_last_changed= thd->query_start(); password_lifetime= -1; my_init_dynamic_array(&role_grants, sizeof(ACL_USER *), 0, 8, MYF(0)); } static int acl_user_update(THD *thd, ACL_USER *acl_user, uint nauth, const LEX_USER &combo, const Account_options &options, const ulong privileges) { if (nauth) { if (acl_user->nauth >= nauth) acl_user->nauth= nauth; else acl_user->alloc_auth(&acl_memroot, nauth); USER_AUTH *auth= combo.auth; for (uint i= 0; i < nauth; i++, auth= auth->next) { acl_user->auth[i].plugin= auth->plugin; acl_user->auth[i].auth_string= safe_lexcstrdup_root(&acl_memroot, auth->auth_str); if (fix_user_plugin_ptr(acl_user->auth + i)) acl_user->auth[i].plugin= safe_lexcstrdup_root(&acl_memroot, auth->plugin); if (set_user_auth(thd, acl_user->user, acl_user->auth + i, auth->pwtext)) return 1; } } acl_user->access= privileges; if (options.specified_limits & USER_RESOURCES::QUERIES_PER_HOUR) acl_user->user_resource.questions= options.questions; if (options.specified_limits & USER_RESOURCES::UPDATES_PER_HOUR) acl_user->user_resource.updates= options.updates; if (options.specified_limits & USER_RESOURCES::CONNECTIONS_PER_HOUR) acl_user->user_resource.conn_per_hour= options.conn_per_hour; if (options.specified_limits & USER_RESOURCES::USER_CONNECTIONS) acl_user->user_resource.user_conn= options.user_conn; if (options.specified_limits & USER_RESOURCES::MAX_STATEMENT_TIME) acl_user->user_resource.max_statement_time= options.max_statement_time; if (options.ssl_type != SSL_TYPE_NOT_SPECIFIED) { acl_user->ssl_type= options.ssl_type; acl_user->ssl_cipher= safe_strdup_root(&acl_memroot, options.ssl_cipher.str); acl_user->x509_issuer= safe_strdup_root(&acl_memroot, safe_str(options.x509_issuer.str)); acl_user->x509_subject= safe_strdup_root(&acl_memroot, safe_str(options.x509_subject.str)); } if (options.account_locked != ACCOUNTLOCK_UNSPECIFIED) acl_user->account_locked= options.account_locked == ACCOUNTLOCK_LOCKED; /* Unexpire the user password */ if (nauth) { acl_user->password_expired= false; acl_user->password_last_changed= thd->query_start();; } switch (options.password_expire) { case PASSWORD_EXPIRE_UNSPECIFIED: break; case PASSWORD_EXPIRE_NOW: acl_user->password_expired= true; break; case PASSWORD_EXPIRE_NEVER: acl_user->password_lifetime= 0; break; case PASSWORD_EXPIRE_DEFAULT: acl_user->password_lifetime= -1; break; case PASSWORD_EXPIRE_INTERVAL: acl_user->password_lifetime= options.num_expiration_days; break; } return 0; } static void acl_insert_role(const char *rolename, ulong privileges) { ACL_ROLE *entry; mysql_mutex_assert_owner(&acl_cache->lock); entry= new (&acl_memroot) ACL_ROLE(rolename, privileges, &acl_memroot); my_init_dynamic_array(&entry->parent_grantee, sizeof(ACL_USER_BASE *), 0, 8, MYF(0)); my_init_dynamic_array(&entry->role_grants, sizeof(ACL_ROLE *), 0, 8, MYF(0)); my_hash_insert(&acl_roles, (uchar *)entry); } static bool acl_update_db(const char *user, const char *host, const char *db, ulong privileges) { mysql_mutex_assert_owner(&acl_cache->lock); bool updated= false; for (size_t i= acl_find_db_by_username(user); i < acl_dbs.elements(); i++) { ACL_DB *acl_db= &acl_dbs.at(i); if (!strcmp(user,acl_db->user)) { if ((!acl_db->host.hostname && !host[0]) || (acl_db->host.hostname && !strcmp(host, acl_db->host.hostname))) { if ((!acl_db->db && !db[0]) || (acl_db->db && !strcmp(db,acl_db->db))) { if (privileges) { acl_db->access= privileges; acl_db->initial_access= acl_db->access; } else acl_dbs.del(i); updated= true; } } } else break; } return updated; } /* Insert a user/db/host combination into the global acl_cache SYNOPSIS acl_insert_db() user User name host Host name db Database name privileges Bitmap of privileges NOTES acl_cache->lock must be locked when calling this */ static void acl_insert_db(const char *user, const char *host, const char *db, ulong privileges) { ACL_DB acl_db; mysql_mutex_assert_owner(&acl_cache->lock); acl_db.user=strdup_root(&acl_memroot,user); update_hostname(&acl_db.host, safe_strdup_root(&acl_memroot, host)); acl_db.db=strdup_root(&acl_memroot,db); acl_db.initial_access= acl_db.access= privileges; acl_db.sort=get_magic_sort("hdu", acl_db.host.hostname, acl_db.db, acl_db.user); acl_dbs.push(acl_db); rebuild_acl_dbs(); } /* Get privilege for a host, user and db combination as db_is_pattern changes the semantics of comparison, acl_cache is not used if db_is_pattern is set. */ ulong acl_get(const char *host, const char *ip, const char *user, const char *db, my_bool db_is_pattern) { ulong host_access= ~(ulong)0, db_access= 0; uint i; size_t key_length; char key[ACL_KEY_LENGTH],*tmp_db,*end; acl_entry *entry; DBUG_ENTER("acl_get"); tmp_db= strmov(strmov(key, safe_str(ip)) + 1, user) + 1; end= strnmov(tmp_db, db, key + sizeof(key) - tmp_db); if (end >= key + sizeof(key)) // db name was truncated DBUG_RETURN(0); // no privileges for an invalid db name if (lower_case_table_names) { my_casedn_str(files_charset_info, tmp_db); db=tmp_db; } key_length= (size_t) (end-key); mysql_mutex_lock(&acl_cache->lock); if (!db_is_pattern && (entry=acl_cache->search((uchar*) key, key_length))) { db_access=entry->access; mysql_mutex_unlock(&acl_cache->lock); DBUG_PRINT("exit", ("access: 0x%lx", db_access)); DBUG_RETURN(db_access); } /* Check if there are some access rights for database and user */ if (ACL_DB *acl_db= acl_db_find(db,user, host, ip, db_is_pattern)) { db_access= acl_db->access; if (acl_db->host.hostname) goto exit; // Fully specified. Take it /* the host table is not used for roles */ if ((!host || !host[0]) && !acl_db->host.hostname && find_acl_role(user)) goto exit; } if (!db_access) goto exit; // Can't be better /* No host specified for user. Get hostdata from host table */ host_access=0; // Host must be found for (i=0 ; i < acl_hosts.elements ; i++) { ACL_HOST *acl_host=dynamic_element(&acl_hosts,i,ACL_HOST*); if (compare_hostname(&acl_host->host,host,ip)) { if (!acl_host->db || !wild_compare(db,acl_host->db,db_is_pattern)) { host_access=acl_host->access; // Fully specified. Take it break; } } } exit: /* Save entry in cache for quick retrieval */ if (!db_is_pattern && (entry= (acl_entry*) malloc(sizeof(acl_entry)+key_length))) { entry->access=(db_access & host_access); DBUG_ASSERT(key_length < 0xffff); entry->length=(uint16)key_length; memcpy((uchar*) entry->key,key,key_length); acl_cache->add(entry); } mysql_mutex_unlock(&acl_cache->lock); DBUG_PRINT("exit", ("access: 0x%lx", db_access & host_access)); DBUG_RETURN(db_access & host_access); } /* Check if there are any possible matching entries for this host NOTES All host names without wild cards are stored in a hash table, entries with wildcards are stored in a dynamic array */ static void init_check_host(void) { DBUG_ENTER("init_check_host"); (void) my_init_dynamic_array(&acl_wild_hosts,sizeof(struct acl_host_and_ip), acl_users.elements, 1, MYF(0)); (void) my_hash_init(&acl_check_hosts,system_charset_info, acl_users.elements, 0, 0, (my_hash_get_key) check_get_key, 0, 0); if (!allow_all_hosts) { for (uint i=0 ; i < acl_users.elements ; i++) { ACL_USER *acl_user=dynamic_element(&acl_users,i,ACL_USER*); if (strchr(acl_user->host.hostname,wild_many) || strchr(acl_user->host.hostname,wild_one) || acl_user->host.ip_mask) { // Has wildcard uint j; for (j=0 ; j < acl_wild_hosts.elements ; j++) { // Check if host already exists acl_host_and_ip *acl=dynamic_element(&acl_wild_hosts,j, acl_host_and_ip *); if (!my_strcasecmp(system_charset_info, acl_user->host.hostname, acl->hostname)) break; // already stored } if (j == acl_wild_hosts.elements) // If new (void) push_dynamic(&acl_wild_hosts,(uchar*) &acl_user->host); } else if (!my_hash_search(&acl_check_hosts,(uchar*) acl_user->host.hostname, strlen(acl_user->host.hostname))) { if (my_hash_insert(&acl_check_hosts,(uchar*) acl_user)) { // End of memory allow_all_hosts=1; // Should never happen DBUG_VOID_RETURN; } } } } freeze_size(&acl_wild_hosts); freeze_size(&acl_check_hosts.array); DBUG_VOID_RETURN; } /* Rebuild lists used for checking of allowed hosts We need to rebuild 'acl_check_hosts' and 'acl_wild_hosts' after adding, dropping or renaming user, since they contain pointers to elements of 'acl_user' array, which are invalidated by drop operation, and use ACL_USER::host::hostname as a key, which is changed by rename. */ static void rebuild_check_host(void) { delete_dynamic(&acl_wild_hosts); my_hash_free(&acl_check_hosts); init_check_host(); } /* Reset a role role_grants dynamic array. Also, the role's access bits are reset to the ones present in the table. */ static my_bool acl_role_reset_role_arrays(void *ptr, void * not_used __attribute__((unused))) { ACL_ROLE *role= (ACL_ROLE *)ptr; reset_dynamic(&role->role_grants); reset_dynamic(&role->parent_grantee); role->counter= 0; return 0; } /* Add a the coresponding pointers present in the mapping to the entries in acl_users and acl_roles */ static bool add_role_user_mapping(ACL_USER_BASE *grantee, ACL_ROLE *role) { return push_dynamic(&grantee->role_grants, (uchar*) &role) || push_dynamic(&role->parent_grantee, (uchar*) &grantee); } /* Revert the last add_role_user_mapping() action */ static void undo_add_role_user_mapping(ACL_USER_BASE *grantee, ACL_ROLE *role) { void *pop __attribute__((unused)); pop= pop_dynamic(&grantee->role_grants); DBUG_ASSERT(role == *(ACL_ROLE**)pop); pop= pop_dynamic(&role->parent_grantee); DBUG_ASSERT(grantee == *(ACL_USER_BASE**)pop); } /* this helper is used when building role_grants and parent_grantee arrays from scratch. this happens either on initial loading of data from tables, in acl_load(). or in rebuild_role_grants after acl_role_reset_role_arrays(). */ static bool add_role_user_mapping(const char *uname, const char *hname, const char *rname) { ACL_USER_BASE *grantee= find_acl_user_base(uname, hname); ACL_ROLE *role= find_acl_role(rname); if (grantee == NULL || role == NULL) return 1; /* because all arrays are rebuilt completely, and counters were also reset, we can increment them here, and after the rebuild all counters will have correct values (equal to the number of roles granted). */ if (grantee->flags & IS_ROLE) ((ACL_ROLE*)grantee)->counter++; return add_role_user_mapping(grantee, role); } /* This helper function is used to removes roles and grantees from the corresponding cross-reference arrays. see remove_role_user_mapping(). as such, it asserts that an element to delete is present in the array, and is present only once. */ static void remove_ptr_from_dynarray(DYNAMIC_ARRAY *array, void *ptr) { bool found __attribute__((unused))= false; for (uint i= 0; i < array->elements; i++) { if (ptr == *dynamic_element(array, i, void**)) { DBUG_ASSERT(!found); delete_dynamic_element(array, i); IF_DBUG_ASSERT(found= true, break); } } DBUG_ASSERT(found); } static void remove_role_user_mapping(ACL_USER_BASE *grantee, ACL_ROLE *role, int grantee_idx=-1, int role_idx=-1) { remove_ptr_from_dynarray(&grantee->role_grants, role); remove_ptr_from_dynarray(&role->parent_grantee, grantee); } static my_bool add_role_user_mapping_action(void *ptr, void *unused __attribute__((unused))) { ROLE_GRANT_PAIR *pair= (ROLE_GRANT_PAIR*)ptr; bool status __attribute__((unused)); status= add_role_user_mapping(pair->u_uname, pair->u_hname, pair->r_uname); /* The invariant chosen is that acl_roles_mappings should _always_ only contain valid entries, referencing correct user and role grants. If add_role_user_mapping detects an invalid entry, it will not add the mapping into the ACL_USER::role_grants array. */ DBUG_ASSERT(status == 0); return 0; } /* Rebuild the role grants every time the acl_users is modified The role grants in the ACL_USER class need to be rebuilt, as they contain pointers to elements of the acl_users array. */ static void rebuild_role_grants(void) { DBUG_ENTER("rebuild_role_grants"); /* Reset every user's and role's role_grants array */ for (uint i=0; i < acl_users.elements; i++) { ACL_USER *user= dynamic_element(&acl_users, i, ACL_USER *); reset_dynamic(&user->role_grants); } my_hash_iterate(&acl_roles, acl_role_reset_role_arrays, NULL); /* Rebuild the direct links between users and roles in ACL_USER::role_grants */ my_hash_iterate(&acl_roles_mappings, add_role_user_mapping_action, NULL); DBUG_VOID_RETURN; } /* Return true if there is no users that can match the given host */ bool acl_check_host(const char *host, const char *ip) { if (allow_all_hosts) return 0; mysql_mutex_lock(&acl_cache->lock); if ((host && my_hash_search(&acl_check_hosts,(uchar*) host,strlen(host))) || (ip && my_hash_search(&acl_check_hosts,(uchar*) ip, strlen(ip)))) { mysql_mutex_unlock(&acl_cache->lock); return 0; // Found host } for (uint i=0 ; i < acl_wild_hosts.elements ; i++) { acl_host_and_ip *acl=dynamic_element(&acl_wild_hosts,i,acl_host_and_ip*); if (compare_hostname(acl, host, ip)) { mysql_mutex_unlock(&acl_cache->lock); return 0; // Host ok } } mysql_mutex_unlock(&acl_cache->lock); if (ip != NULL) { /* Increment HOST_CACHE.COUNT_HOST_ACL_ERRORS. */ Host_errors errors; errors.m_host_acl= 1; inc_host_errors(ip, &errors); } return 1; // Host is not allowed } /** Check if the user is allowed to alter the mysql.user table @param thd THD @param host Hostname for the user @param user User name @return Error status @retval 0 OK @retval 1 Error */ static int check_alter_user(THD *thd, const char *host, const char *user) { int error = 1; if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); goto end; } if (IF_WSREP((!WSREP(thd) || !thd->wsrep_applier), 1) && !thd->slave_thread && !thd->security_ctx->priv_user[0] && !thd->bootstrap) { my_message(ER_PASSWORD_ANONYMOUS_USER, ER_THD(thd, ER_PASSWORD_ANONYMOUS_USER), MYF(0)); goto end; } if (!host) // Role { my_error(ER_PASSWORD_NO_MATCH, MYF(0)); goto end; } if (!thd->slave_thread && IF_WSREP((!WSREP(thd) || !thd->wsrep_applier),1) && !thd->security_ctx->is_priv_user(user, host)) { if (thd->security_ctx->password_expired) { my_error(ER_MUST_CHANGE_PASSWORD, MYF(0)); goto end; } if (check_access(thd, UPDATE_ACL, "mysql", NULL, NULL, 1, 0)) goto end; } error = 0; end: return error; } /** Check if the user is allowed to change password @param thd THD @param user User, hostname, new password or password hash @return Error status @retval 0 OK @retval 1 ERROR; In this case the error is sent to the client. */ bool check_change_password(THD *thd, LEX_USER *user) { LEX_USER *real_user= get_current_user(thd, user); user->user= real_user->user; user->host= real_user->host; return check_alter_user(thd, user->host.str, user->user.str); } /** Change a password for a user. @param thd THD @param user User, hostname, new password hash @return Error code @retval 0 ok @retval 1 ERROR; In this case the error is sent to the client. */ bool change_password(THD *thd, LEX_USER *user) { Grant_tables tables; /* Buffer should be extended when password length is extended. */ char buff[512]; ulong query_length= 0; enum_binlog_format save_binlog_format; int result=0; ACL_USER *acl_user; ACL_USER::AUTH auth; const char *password_plugin= 0; const CSET_STRING query_save __attribute__((unused)) = thd->query_string; DBUG_ENTER("change_password"); DBUG_PRINT("enter",("host: '%s' user: '%s' new_password: '%s'", user->host.str, user->user.str, user->auth->auth_str.str)); DBUG_ASSERT(user->host.str != 0); // Ensured by caller /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. This has to be handled here as it's called by set_var.cc, which is not automaticly handled by sql_parse.cc */ save_binlog_format= thd->set_current_stmt_binlog_format_stmt(); if (WSREP(thd) && !IF_WSREP(thd->wsrep_applier, 0)) WSREP_TO_ISOLATION_BEGIN(WSREP_MYSQL_DB, NULL, NULL); if ((result= tables.open_and_lock(thd, Table_user, TL_WRITE))) DBUG_RETURN(result != 1); result= 1; mysql_mutex_lock(&acl_cache->lock); if (!(acl_user= find_user_exact(user->host.str, user->user.str))) { my_error(ER_PASSWORD_NO_MATCH, MYF(0)); goto end; } if (acl_user->nauth == 1 && (acl_user->auth[0].plugin.str == native_password_plugin_name.str || acl_user->auth[0].plugin.str == old_password_plugin_name.str)) { /* historical hack of auto-changing the plugin */ acl_user->auth[0].plugin= guess_auth_plugin(thd, user->auth->auth_str.length); } for (uint i=0; i < acl_user->nauth; i++) { auth= acl_user->auth[i]; auth.auth_string= safe_lexcstrdup_root(&acl_memroot, user->auth->auth_str); int r= set_user_auth(thd, user->user, &auth, user->auth->pwtext); if (r == ER_SET_PASSWORD_AUTH_PLUGIN) password_plugin= auth.plugin.str; else if (r) goto end; else { acl_user->auth[i]= auth; password_plugin= 0; break; } } if (password_plugin) { my_error(ER_SET_PASSWORD_AUTH_PLUGIN, MYF(0), password_plugin); goto end; } /* Update the acl password expired state of user */ acl_user->password_last_changed= thd->query_start(); acl_user->password_expired= false; /* If user is the connected user, reset the password expired field on sctx and allow the user to exit sandbox mode */ if (thd->security_ctx->is_priv_user(user->user.str, user->host.str)) thd->security_ctx->password_expired= false; if (update_user_table_password(thd, tables.user_table(), *acl_user)) goto end; acl_cache->clear(1); // Clear locked hostname cache mysql_mutex_unlock(&acl_cache->lock); result= 0; if (mysql_bin_log.is_open()) { query_length= sprintf(buff, "SET PASSWORD FOR '%-.120s'@'%-.120s'='%-.120s'", user->user.str, safe_str(user->host.str), auth.auth_string.str); DBUG_ASSERT(query_length); thd->clear_error(); result= thd->binlog_query(THD::STMT_QUERY_TYPE, buff, query_length, FALSE, FALSE, FALSE, 0) > 0; } end: if (result) mysql_mutex_unlock(&acl_cache->lock); close_mysql_tables(thd); #ifdef WITH_WSREP wsrep_error_label: if (WSREP(thd) && !thd->wsrep_applier) { WSREP_TO_ISOLATION_END; thd->set_query(query_save); } #endif /* WITH_WSREP */ thd->restore_stmt_binlog_format(save_binlog_format); DBUG_RETURN(result); } int acl_check_set_default_role(THD *thd, const char *host, const char *user, const char *role) { DBUG_ENTER("acl_check_set_default_role"); DBUG_RETURN(check_alter_user(thd, host, user) || check_user_can_set_role(thd, user, host, NULL, role, NULL)); } int acl_set_default_role(THD *thd, const char *host, const char *user, const char *rolename) { Grant_tables tables; char user_key[MAX_KEY_LENGTH]; int result= 1; int error; ulong query_length= 0; bool clear_role= FALSE; char buff[512]; enum_binlog_format save_binlog_format= thd->get_current_stmt_binlog_format(); const CSET_STRING query_save __attribute__((unused)) = thd->query_string; DBUG_ENTER("acl_set_default_role"); DBUG_PRINT("enter",("host: '%s' user: '%s' rolename: '%s'", user, safe_str(host), safe_str(rolename))); if (!strcasecmp(rolename, "NONE")) clear_role= TRUE; if (mysql_bin_log.is_open() || (WSREP(thd) && !IF_WSREP(thd->wsrep_applier, 0))) { query_length= sprintf(buff,"SET DEFAULT ROLE '%-.120s' FOR '%-.120s'@'%-.120s'", safe_str(rolename), user, safe_str(host)); } /* This statement will be replicated as a statement, even when using row-based replication. The flag will be reset at the end of the statement. This has to be handled here as it's called by set_var.cc, which is not automaticly handled by sql_parse.cc */ save_binlog_format= thd->set_current_stmt_binlog_format_stmt(); if (WSREP(thd) && !IF_WSREP(thd->wsrep_applier, 0)) { thd->set_query(buff, query_length, system_charset_info); // Attention!!! here is implicit goto error; WSREP_TO_ISOLATION_BEGIN(WSREP_MYSQL_DB, NULL, NULL); } /* Extra block due to WSREP_TO_ISOLATION_BEGIN using goto. TODO(cvicentiu) Should move this block out in a new function. */ { if ((result= tables.open_and_lock(thd, Table_user, TL_WRITE))) DBUG_RETURN(result != 1); const User_table& user_table= tables.user_table(); TABLE *table= user_table.table(); result= 1; mysql_mutex_lock(&acl_cache->lock); ACL_USER *acl_user; if (!(acl_user= find_user_exact(host, user))) { mysql_mutex_unlock(&acl_cache->lock); my_message(ER_PASSWORD_NO_MATCH, ER_THD(thd, ER_PASSWORD_NO_MATCH), MYF(0)); goto end; } if (!clear_role) { /* set new default_rolename */ acl_user->default_rolename.str= safe_strdup_root(&acl_memroot, rolename); acl_user->default_rolename.length= strlen(rolename); } else { /* clear the default_rolename */ acl_user->default_rolename.str = NULL; acl_user->default_rolename.length = 0; } /* update the mysql.user table with the new default role */ tables.user_table().table()->use_all_columns(); user_table.set_host(host, strlen(host)); user_table.set_user(user, strlen(user)); key_copy((uchar *) user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_idx_map(table->record[0], 0, (uchar *) user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { mysql_mutex_unlock(&acl_cache->lock); my_message(ER_PASSWORD_NO_MATCH, ER_THD(thd, ER_PASSWORD_NO_MATCH), MYF(0)); goto end; } store_record(table, record[1]); user_table.set_default_role(acl_user->default_rolename.str, acl_user->default_rolename.length); if (unlikely(error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) { mysql_mutex_unlock(&acl_cache->lock); table->file->print_error(error,MYF(0)); /* purecov: deadcode */ goto end; } acl_cache->clear(1); mysql_mutex_unlock(&acl_cache->lock); result= 0; if (mysql_bin_log.is_open()) { DBUG_ASSERT(query_length); thd->clear_error(); result= thd->binlog_query(THD::STMT_QUERY_TYPE, buff, query_length, FALSE, FALSE, FALSE, 0) > 0; } end: close_mysql_tables(thd); } #ifdef WITH_WSREP wsrep_error_label: if (WSREP(thd) && !thd->wsrep_applier) { WSREP_TO_ISOLATION_END; thd->set_query(query_save); } #endif /* WITH_WSREP */ thd->restore_stmt_binlog_format(save_binlog_format); DBUG_RETURN(result); } /* Find user in ACL SYNOPSIS is_acl_user() host host name user user name RETURN FALSE user not fond TRUE there is such user */ bool is_acl_user(const char *host, const char *user) { bool res; /* --skip-grants */ if (!initialized) return TRUE; mysql_mutex_lock(&acl_cache->lock); if (*host) // User res= find_user_exact(host, user) != NULL; else // Role res= find_acl_role(user) != NULL; mysql_mutex_unlock(&acl_cache->lock); return res; } /* Find first entry that matches the specified user@host pair */ static ACL_USER *find_user_exact(const char *host, const char *user) { mysql_mutex_assert_owner(&acl_cache->lock); size_t start= acl_find_user_by_name(user); for (size_t i= start; i < acl_users.elements; i++) { ACL_USER *acl_user= dynamic_element(&acl_users, i, ACL_USER*); if (i > start && strcmp(acl_user->user.str, user)) return 0; if (!my_strcasecmp(system_charset_info, acl_user->host.hostname, host)) return acl_user; } return 0; } /* Find first entry that matches the specified user@host pair */ static ACL_USER * find_user_wild(const char *host, const char *user, const char *ip) { mysql_mutex_assert_owner(&acl_cache->lock); size_t start = acl_find_user_by_name(user); for (size_t i= start; i < acl_users.elements; i++) { ACL_USER *acl_user=dynamic_element(&acl_users,i,ACL_USER*); if (i > start && strcmp(acl_user->user.str, user)) break; if (compare_hostname(&acl_user->host, host, ip ? ip : host)) return acl_user; } return 0; } /* Find a role with the specified name */ static ACL_ROLE *find_acl_role(const char *role) { DBUG_ENTER("find_acl_role"); DBUG_PRINT("enter",("role: '%s'", role)); DBUG_PRINT("info", ("Hash elements: %ld", acl_roles.records)); mysql_mutex_assert_owner(&acl_cache->lock); ACL_ROLE *r= (ACL_ROLE *)my_hash_search(&acl_roles, (uchar *)role, strlen(role)); DBUG_RETURN(r); } static ACL_USER_BASE *find_acl_user_base(const char *user, const char *host) { if (*host) return find_user_exact(host, user); return find_acl_role(user); } /* Comparing of hostnames NOTES A hostname may be of type: hostname (May include wildcards); monty.pp.sci.fi ip (May include wildcards); 192.168.0.0 ip/netmask 192.168.0.0/255.255.255.0 A net mask of 0.0.0.0 is not allowed. */ static const char *calc_ip(const char *ip, long *val, char end) { long ip_val,tmp; if (!(ip=str2int(ip,10,0,255,&ip_val)) || *ip != '.') return 0; ip_val<<=24; if (!(ip=str2int(ip+1,10,0,255,&tmp)) || *ip != '.') return 0; ip_val+=tmp<<16; if (!(ip=str2int(ip+1,10,0,255,&tmp)) || *ip != '.') return 0; ip_val+=tmp<<8; if (!(ip=str2int(ip+1,10,0,255,&tmp)) || *ip != end) return 0; *val=ip_val+tmp; return ip; } static void update_hostname(acl_host_and_ip *host, const char *hostname) { // fix historical undocumented convention that empty host is the same as '%' hostname=const_cast<char*>(hostname ? hostname : host_not_specified.str); host->hostname=(char*) hostname; // This will not be modified! if (!(hostname= calc_ip(hostname,&host->ip,'/')) || !(hostname= calc_ip(hostname+1,&host->ip_mask,'\0'))) { host->ip= host->ip_mask=0; // Not a masked ip } } static bool compare_hostname(const acl_host_and_ip *host, const char *hostname, const char *ip) { long tmp; if (host->ip_mask && ip && calc_ip(ip,&tmp,'\0')) { return (tmp & host->ip_mask) == host->ip; } return (!host->hostname || (hostname && !wild_case_compare(system_charset_info, hostname, host->hostname)) || (ip && !wild_compare(ip, host->hostname, 0))); } /** Check if the given host name needs to be resolved or not. Host name has to be resolved if it actually contains *name*. For example: 192.168.1.1 --> FALSE 192.168.1.0/255.255.255.0 --> FALSE % --> FALSE 192.168.1.% --> FALSE AB% --> FALSE AAAAFFFF --> TRUE (Hostname) AAAA:FFFF:1234:5678 --> FALSE ::1 --> FALSE This function does not check if the given string is a valid host name or not. It assumes that the argument is a valid host name. @param hostname the string to check. @return a flag telling if the argument needs to be resolved or not. @retval TRUE the argument is a host name and needs to be resolved. @retval FALSE the argument is either an IP address, or a patter and should not be resolved. */ bool hostname_requires_resolving(const char *hostname) { if (!hostname) return FALSE; /* Check if hostname is the localhost. */ size_t hostname_len= strlen(hostname); size_t localhost_len= strlen(my_localhost); if (hostname == my_localhost || (hostname_len == localhost_len && !my_strnncoll(system_charset_info, (const uchar *) hostname, hostname_len, (const uchar *) my_localhost, strlen(my_localhost)))) { return FALSE; } /* If the string contains any of {':', '%', '_', '/'}, it is definitely not a host name: - ':' means that the string is an IPv6 address; - '%' or '_' means that the string is a pattern; - '/' means that the string is an IPv4 network address; */ for (const char *p= hostname; *p; ++p) { switch (*p) { case ':': case '%': case '_': case '/': return FALSE; } } /* Now we have to tell a host name (ab.cd, 12.ab) from an IPv4 address (12.34.56.78). The assumption is that if the string contains only digits and dots, it is an IPv4 address. Otherwise -- a host name. */ for (const char *p= hostname; *p; ++p) { if (*p != '.' && !my_isdigit(&my_charset_latin1, *p)) return TRUE; /* a "letter" has been found. */ } return FALSE; /* all characters are either dots or digits. */ } /** Update record for user in mysql.user privilege table with new password. @see change_password */ static bool update_user_table_password(THD *thd, const User_table& user_table, const ACL_USER &user) { char user_key[MAX_KEY_LENGTH]; int error; DBUG_ENTER("update_user_table_password"); TABLE *table= user_table.table(); table->use_all_columns(); user_table.set_host(user.host.hostname, user.hostname_length); user_table.set_user(user.user.str, user.user.length); key_copy((uchar *) user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_idx_map(table->record[0], 0, (uchar *) user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { my_message(ER_PASSWORD_NO_MATCH, ER_THD(thd, ER_PASSWORD_NO_MATCH), MYF(0)); DBUG_RETURN(1); } store_record(table, record[1]); if (user_table.set_auth(user)) { my_error(ER_COL_COUNT_DOESNT_MATCH_PLEASE_UPDATE, MYF(0), user_table.name().str, 3, user_table.num_fields(), static_cast<int>(table->s->mysql_version), MYSQL_VERSION_ID); DBUG_RETURN(1); } user_table.set_password_expired(user.password_expired); user_table.set_password_last_changed(user.password_last_changed); if (unlikely(error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) { table->file->print_error(error,MYF(0)); DBUG_RETURN(1); } DBUG_RETURN(0); } /* Return 1 if we are allowed to create new users the logic here is: INSERT_ACL is sufficient. It's also a requirement in opt_safe_user_create, otherwise CREATE_USER_ACL is enough. */ static bool test_if_create_new_users(THD *thd) { Security_context *sctx= thd->security_ctx; bool create_new_users= MY_TEST(sctx->master_access & INSERT_ACL) || (!opt_safe_user_create && MY_TEST(sctx->master_access & CREATE_USER_ACL)); if (!create_new_users) { TABLE_LIST tl; ulong db_access; tl.init_one_table(&MYSQL_SCHEMA_NAME, &MYSQL_TABLE_NAME[USER_TABLE], NULL, TL_WRITE); create_new_users= 1; db_access=acl_get(sctx->host, sctx->ip, sctx->priv_user, tl.db.str, 0); if (sctx->priv_role[0]) db_access|= acl_get("", "", sctx->priv_role, tl.db.str, 0); if (!(db_access & INSERT_ACL)) { if (check_grant(thd, INSERT_ACL, &tl, FALSE, UINT_MAX, TRUE)) create_new_users=0; } } return create_new_users; } /**************************************************************************** Handle GRANT commands ****************************************************************************/ static USER_AUTH auth_no_password; static int replace_user_table(THD *thd, const User_table &user_table, LEX_USER * const combo, ulong rights, const bool revoke_grant, const bool can_create_user, const bool no_auto_create) { int error = -1; uint nauth= 0; bool old_row_exists=0; uchar user_key[MAX_KEY_LENGTH]; bool handle_as_role= combo->is_role(); LEX *lex= thd->lex; TABLE *table= user_table.table(); ACL_USER new_acl_user, *old_acl_user= 0; DBUG_ENTER("replace_user_table"); mysql_mutex_assert_owner(&acl_cache->lock); table->use_all_columns(); user_table.set_host(combo->host.str,combo->host.length); user_table.set_user(combo->user.str,combo->user.length); key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_idx_map(table->record[0], 0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { if (revoke_grant) { if (combo->host.length) my_error(ER_NONEXISTING_GRANT, MYF(0), combo->user.str, combo->host.str); else my_error(ER_INVALID_ROLE, MYF(0), combo->user.str); goto end; } /* There are four options which affect the process of creation of a new user (mysqld option --safe-create-user, 'insert' privilege on 'mysql.user' table, using 'GRANT' with 'IDENTIFIED BY' and SQL_MODE flag NO_AUTO_CREATE_USER). Below is the simplified rule how it should work. if (safe-user-create && ! INSERT_priv) => reject else if (identified_by) => create else if (no_auto_create_user) => reject else create see also test_if_create_new_users() */ else if (!combo->has_auth() && no_auto_create) { my_error(ER_PASSWORD_NO_MATCH, MYF(0)); goto end; } else if (!can_create_user) { my_error(ER_CANT_CREATE_USER_WITH_GRANT, MYF(0)); goto end; } if (!combo->auth) combo->auth= &auth_no_password; old_row_exists = 0; restore_record(table, s->default_values); user_table.set_host(combo->host.str, combo->host.length); user_table.set_user(combo->user.str, combo->user.length); } else { old_row_exists = 1; store_record(table,record[1]); // Save copy for update } for (USER_AUTH *auth= combo->auth; auth; auth= auth->next) { nauth++; if (auth->plugin.length) { if (!plugin_is_ready(&auth->plugin, MYSQL_AUTHENTICATION_PLUGIN)) { my_error(ER_PLUGIN_IS_NOT_LOADED, MYF(0), auth->plugin.str); goto end; } } else auth->plugin= guess_auth_plugin(thd, auth->auth_str.length); } /* Update table columns with new privileges */ user_table.set_access(rights, revoke_grant); rights= user_table.get_access(); if (handle_as_role) { if (old_row_exists && !user_table.get_is_role()) { goto end; } if (user_table.set_is_role(true)) { my_error(ER_COL_COUNT_DOESNT_MATCH_PLEASE_UPDATE, MYF(0), user_table.name().str, ROLE_ASSIGN_COLUMN_IDX + 1, user_table.num_fields(), static_cast<int>(table->s->mysql_version), MYSQL_VERSION_ID); goto end; } } else { old_acl_user= find_user_exact(combo->host.str, combo->user.str); if ((old_acl_user != NULL) != old_row_exists) { my_error(ER_PASSWORD_NO_MATCH, MYF(0)); goto end; } new_acl_user= old_row_exists ? *old_acl_user : ACL_USER(thd, *combo, lex->account_options, rights); if (acl_user_update(thd, &new_acl_user, nauth, *combo, lex->account_options, rights)) goto end; if (user_table.set_auth(new_acl_user)) { my_error(ER_COL_COUNT_DOESNT_MATCH_PLEASE_UPDATE, MYF(0), user_table.name().str, 3, user_table.num_fields(), static_cast<int>(table->s->mysql_version), MYSQL_VERSION_ID); DBUG_RETURN(1); } switch (lex->account_options.ssl_type) { case SSL_TYPE_NOT_SPECIFIED: break; case SSL_TYPE_NONE: case SSL_TYPE_ANY: case SSL_TYPE_X509: user_table.set_ssl_type(lex->account_options.ssl_type); user_table.set_ssl_cipher("", 0); user_table.set_x509_issuer("", 0); user_table.set_x509_subject("", 0); break; case SSL_TYPE_SPECIFIED: user_table.set_ssl_type(lex->account_options.ssl_type); if (lex->account_options.ssl_cipher.str) user_table.set_ssl_cipher(lex->account_options.ssl_cipher.str, lex->account_options.ssl_cipher.length); else user_table.set_ssl_cipher("", 0); if (lex->account_options.x509_issuer.str) user_table.set_x509_issuer(lex->account_options.x509_issuer.str, lex->account_options.x509_issuer.length); else user_table.set_x509_issuer("", 0); if (lex->account_options.x509_subject.str) user_table.set_x509_subject(lex->account_options.x509_subject.str, lex->account_options.x509_subject.length); else user_table.set_x509_subject("", 0); break; } if (lex->account_options.specified_limits & USER_RESOURCES::QUERIES_PER_HOUR) user_table.set_max_questions(lex->account_options.questions); if (lex->account_options.specified_limits & USER_RESOURCES::UPDATES_PER_HOUR) user_table.set_max_updates(lex->account_options.updates); if (lex->account_options.specified_limits & USER_RESOURCES::CONNECTIONS_PER_HOUR) user_table.set_max_connections(lex->account_options.conn_per_hour); if (lex->account_options.specified_limits & USER_RESOURCES::USER_CONNECTIONS) user_table.set_max_user_connections(lex->account_options.user_conn); if (lex->account_options.specified_limits & USER_RESOURCES::MAX_STATEMENT_TIME) user_table.set_max_statement_time(lex->account_options.max_statement_time); mqh_used= (mqh_used || lex->account_options.questions || lex->account_options.updates || lex->account_options.conn_per_hour || lex->account_options.user_conn || lex->account_options.max_statement_time != 0.0); if (lex->account_options.account_locked != ACCOUNTLOCK_UNSPECIFIED) user_table.set_account_locked(new_acl_user.account_locked); if (nauth) user_table.set_password_last_changed(new_acl_user.password_last_changed); if (lex->account_options.password_expire != PASSWORD_EXPIRE_UNSPECIFIED) { user_table.set_password_lifetime(new_acl_user.password_lifetime); user_table.set_password_expired(new_acl_user.password_expired); } } if (old_row_exists) { /* We should NEVER delete from the user table, as a uses can still use mysqld even if he doesn't have any privileges in the user table! */ if (cmp_record(table, record[1])) { if (unlikely(error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) { // This should never happen table->file->print_error(error,MYF(0)); /* purecov: deadcode */ error= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } else error= 0; } } else if (unlikely(error=table->file->ha_write_row(table->record[0]))) { // This should never happen if (table->file->is_fatal_error(error, HA_CHECK_DUP)) { table->file->print_error(error,MYF(0)); /* purecov: deadcode */ error= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } } error=0; // Privileges granted / revoked end: if (likely(!error)) { acl_cache->clear(1); // Clear privilege cache if (handle_as_role) { if (old_row_exists) acl_update_role(combo->user.str, rights); else acl_insert_role(combo->user.str, rights); } else { if (old_acl_user) *old_acl_user= new_acl_user; else { push_new_user(new_acl_user); rebuild_acl_users(); /* Rebuild 'acl_check_hosts' since 'acl_users' has been modified */ rebuild_check_host(); /* Rebuild every user's role_grants since 'acl_users' has been sorted and old pointers to ACL_USER elements are no longer valid */ rebuild_role_grants(); } } } DBUG_RETURN(error); } /* change grants in the mysql.db table */ static int replace_db_table(TABLE *table, const char *db, const LEX_USER &combo, ulong rights, const bool revoke_grant) { uint i; ulong priv,store_rights; bool old_row_exists=0; int error; char what= revoke_grant ? 'N' : 'Y'; uchar user_key[MAX_KEY_LENGTH]; DBUG_ENTER("replace_db_table"); /* Check if there is such a user in user table in memory? */ if (!find_user_wild(combo.host.str,combo.user.str)) { /* The user could be a role, check if the user is registered as a role */ if (!combo.host.length && !find_acl_role(combo.user.str)) { my_message(ER_PASSWORD_NO_MATCH, ER_THD(table->in_use, ER_PASSWORD_NO_MATCH), MYF(0)); DBUG_RETURN(-1); } } table->use_all_columns(); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_idx_map(table->record[0],0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { if (revoke_grant) { // no row, no revoke my_error(ER_NONEXISTING_GRANT, MYF(0), combo.user.str, combo.host.str); goto abort; } old_row_exists = 0; restore_record(table, s->default_values); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); } else { old_row_exists = 1; store_record(table,record[1]); } store_rights=get_rights_for_db(rights); for (i= 3, priv= 1; i < table->s->fields; i++, priv <<= 1) { if (priv & store_rights) // do it if priv is chosen table->field [i]->store(&what,1, &my_charset_latin1);// set requested privileges } rights=get_access(table,3); rights=fix_rights_for_db(rights); if (old_row_exists) { /* update old existing row */ if (rights) { if (unlikely((error= table->file->ha_update_row(table->record[1], table->record[0]))) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; /* purecov: deadcode */ } else /* must have been a revoke of all privileges */ { if (unlikely((error= table->file->ha_delete_row(table->record[1])))) goto table_error; /* purecov: deadcode */ } } else if (rights && (unlikely(error= table->file->ha_write_row(table->record[0])))) { if (table->file->is_fatal_error(error, HA_CHECK_DUP_KEY)) goto table_error; /* purecov: deadcode */ } acl_cache->clear(1); // Clear privilege cache if (old_row_exists) acl_update_db(combo.user.str,combo.host.str,db,rights); else if (rights) { /* If we did not have an already existing row, for users, we must always insert an ACL_DB entry. For roles however, it is possible that one was already created when DB privileges were propagated from other granted roles onto the current role. For this case, first try to update the existing entry, otherwise insert a new one. */ if (!combo.is_role() || !acl_update_db(combo.user.str, combo.host.str, db, rights)) { acl_insert_db(combo.user.str,combo.host.str,db,rights); } } DBUG_RETURN(0); /* This could only happen if the grant tables got corrupted */ table_error: table->file->print_error(error,MYF(0)); /* purecov: deadcode */ abort: DBUG_RETURN(-1); } /** Updates the mysql.roles_mapping table @param table TABLE to update @param user user name of the grantee @param host host name of the grantee @param role role name to grant @param with_admin WITH ADMIN OPTION flag @param existing the entry in the acl_roles_mappings hash or NULL. it is never NULL if revoke_grant is true. it is NULL when a new pair is added, it's not NULL when an existing pair is updated. @param revoke_grant true for REVOKE, false for GRANT */ static int replace_roles_mapping_table(TABLE *table, LEX_CSTRING *user, LEX_CSTRING *host, LEX_CSTRING *role, bool with_admin, ROLE_GRANT_PAIR *existing, bool revoke_grant) { DBUG_ENTER("replace_roles_mapping_table"); uchar row_key[MAX_KEY_LENGTH]; int error; table->use_all_columns(); restore_record(table, s->default_values); table->field[0]->store(host->str, host->length, system_charset_info); table->field[1]->store(user->str, user->length, system_charset_info); table->field[2]->store(role->str, role->length, system_charset_info); DBUG_ASSERT(!revoke_grant || existing); if (existing) // delete or update { key_copy(row_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_idx_map(table->record[1], 0, row_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { /* No match */ DBUG_RETURN(1); } if (revoke_grant && !with_admin) { if (unlikely((error= table->file->ha_delete_row(table->record[1])))) { DBUG_PRINT("info", ("error deleting row '%s' '%s' '%s'", host->str, user->str, role->str)); goto table_error; } } else if (with_admin) { table->field[3]->store(!revoke_grant + 1); if (unlikely((error= table->file->ha_update_row(table->record[1], table->record[0])))) { DBUG_PRINT("info", ("error updating row '%s' '%s' '%s'", host->str, user->str, role->str)); goto table_error; } } DBUG_RETURN(0); } table->field[3]->store(with_admin + 1); if (unlikely((error= table->file->ha_write_row(table->record[0])))) { DBUG_PRINT("info", ("error inserting row '%s' '%s' '%s'", host->str, user->str, role->str)); goto table_error; } /* all ok */ DBUG_RETURN(0); table_error: DBUG_PRINT("info", ("table error")); table->file->print_error(error, MYF(0)); DBUG_RETURN(1); } /** Updates the acl_roles_mappings hash @param user user name of the grantee @param host host name of the grantee @param role role name to grant @param with_admin WITH ADMIN OPTION flag @param existing the entry in the acl_roles_mappings hash or NULL. it is never NULL if revoke_grant is true. it is NULL when a new pair is added, it's not NULL when an existing pair is updated. @param revoke_grant true for REVOKE, false for GRANT */ static int update_role_mapping(LEX_CSTRING *user, LEX_CSTRING *host, LEX_CSTRING *role, bool with_admin, ROLE_GRANT_PAIR *existing, bool revoke_grant) { if (revoke_grant) { if (with_admin) { existing->with_admin= false; return 0; } return my_hash_delete(&acl_roles_mappings, (uchar*)existing); } if (existing) { existing->with_admin|= with_admin; return 0; } /* allocate a new entry that will go in the hash */ ROLE_GRANT_PAIR *hash_entry= new (&acl_memroot) ROLE_GRANT_PAIR; if (hash_entry->init(&acl_memroot, user->str, host->str, role->str, with_admin)) return 1; return my_hash_insert(&acl_roles_mappings, (uchar*) hash_entry); } static void acl_update_proxy_user(ACL_PROXY_USER *new_value, bool is_revoke) { mysql_mutex_assert_owner(&acl_cache->lock); DBUG_ENTER("acl_update_proxy_user"); for (uint i= 0; i < acl_proxy_users.elements; i++) { ACL_PROXY_USER *acl_user= dynamic_element(&acl_proxy_users, i, ACL_PROXY_USER *); if (acl_user->pk_equals(new_value)) { if (is_revoke) { DBUG_PRINT("info", ("delting ACL_PROXY_USER")); delete_dynamic_element(&acl_proxy_users, i); } else { DBUG_PRINT("info", ("updating ACL_PROXY_USER")); acl_user->set_data(new_value); } break; } } DBUG_VOID_RETURN; } static void acl_insert_proxy_user(ACL_PROXY_USER *new_value) { DBUG_ENTER("acl_insert_proxy_user"); mysql_mutex_assert_owner(&acl_cache->lock); (void) push_dynamic(&acl_proxy_users, (uchar *) new_value); my_qsort((uchar*) dynamic_element(&acl_proxy_users, 0, ACL_PROXY_USER *), acl_proxy_users.elements, sizeof(ACL_PROXY_USER), (qsort_cmp) acl_compare); DBUG_VOID_RETURN; } static int replace_proxies_priv_table(THD *thd, TABLE *table, const LEX_USER *user, const LEX_USER *proxied_user, bool with_grant_arg, bool revoke_grant) { bool old_row_exists= 0; int error; uchar user_key[MAX_KEY_LENGTH]; ACL_PROXY_USER new_grant; char grantor[USER_HOST_BUFF_SIZE]; DBUG_ENTER("replace_proxies_priv_table"); if (!table) { my_error(ER_NO_SUCH_TABLE, MYF(0), MYSQL_SCHEMA_NAME.str, MYSQL_TABLE_NAME[PROXIES_PRIV_TABLE].str); DBUG_RETURN(-1); } /* Check if there is such a user in user table in memory? */ if (!find_user_wild(user->host.str,user->user.str)) { my_message(ER_PASSWORD_NO_MATCH, ER_THD(thd, ER_PASSWORD_NO_MATCH), MYF(0)); DBUG_RETURN(-1); } table->use_all_columns(); ACL_PROXY_USER::store_pk (table, &user->host, &user->user, &proxied_user->host, &proxied_user->user); key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); get_grantor(thd, grantor); if (unlikely((error= table->file->ha_index_init(0, 1)))) { table->file->print_error(error, MYF(0)); DBUG_PRINT("info", ("ha_index_init error")); DBUG_RETURN(-1); } if (table->file->ha_index_read_map(table->record[0], user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { DBUG_PRINT ("info", ("Row not found")); if (revoke_grant) { // no row, no revoke my_error(ER_NONEXISTING_GRANT, MYF(0), user->user.str, user->host.str); goto abort; } old_row_exists= 0; restore_record(table, s->default_values); ACL_PROXY_USER::store_data_record(table, &user->host, &user->user, &proxied_user->host, &proxied_user->user, with_grant_arg, grantor); } else { DBUG_PRINT("info", ("Row found")); old_row_exists= 1; store_record(table, record[1]); } if (old_row_exists) { /* update old existing row */ if (!revoke_grant) { if (unlikely(error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; /* purecov: inspected */ } else { if (unlikely((error= table->file->ha_delete_row(table->record[1])))) goto table_error; /* purecov: inspected */ } } else if (unlikely((error= table->file->ha_write_row(table->record[0])))) { DBUG_PRINT("info", ("error inserting the row")); if (table->file->is_fatal_error(error, HA_CHECK_DUP_KEY)) goto table_error; /* purecov: inspected */ } acl_cache->clear(1); // Clear privilege cache if (old_row_exists) { new_grant.init(user->host.str, user->user.str, proxied_user->host.str, proxied_user->user.str, with_grant_arg); acl_update_proxy_user(&new_grant, revoke_grant); } else { new_grant.init(&acl_memroot, user->host.str, user->user.str, proxied_user->host.str, proxied_user->user.str, with_grant_arg); acl_insert_proxy_user(&new_grant); } table->file->ha_index_end(); DBUG_RETURN(0); /* This could only happen if the grant tables got corrupted */ table_error: DBUG_PRINT("info", ("table error")); table->file->print_error(error, MYF(0)); /* purecov: inspected */ abort: DBUG_PRINT("info", ("aborting replace_proxies_priv_table")); table->file->ha_index_end(); DBUG_RETURN(-1); } class GRANT_COLUMN :public Sql_alloc { public: char *column; ulong rights; ulong init_rights; uint key_length; GRANT_COLUMN(String &c, ulong y) :rights (y), init_rights(y) { column= (char*) memdup_root(&grant_memroot,c.ptr(), key_length=c.length()); } /* this constructor assumes thas source->column is allocated in grant_memroot */ GRANT_COLUMN(GRANT_COLUMN *source) : column(source->column), rights (source->rights), init_rights(0), key_length(source->key_length) { } }; static uchar* get_key_column(GRANT_COLUMN *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length=buff->key_length; return (uchar*) buff->column; } class GRANT_NAME :public Sql_alloc { public: acl_host_and_ip host; char *db, *user, *tname, *hash_key; ulong privs; ulong init_privs; /* privileges found in physical table */ ulonglong sort; size_t key_length; GRANT_NAME(const char *h, const char *d,const char *u, const char *t, ulong p, bool is_routine); GRANT_NAME (TABLE *form, bool is_routine); virtual ~GRANT_NAME() {}; virtual bool ok() { return privs != 0; } void set_user_details(const char *h, const char *d, const char *u, const char *t, bool is_routine); }; class GRANT_TABLE :public GRANT_NAME { public: ulong cols; ulong init_cols; /* privileges found in physical table */ HASH hash_columns; GRANT_TABLE(const char *h, const char *d,const char *u, const char *t, ulong p, ulong c); GRANT_TABLE (TABLE *form, TABLE *col_privs); ~GRANT_TABLE(); bool ok() { return privs != 0 || cols != 0; } void init_hash() { my_hash_init2(&hash_columns, 4, system_charset_info, 0, 0, 0, (my_hash_get_key) get_key_column, 0, 0, 0); } }; void GRANT_NAME::set_user_details(const char *h, const char *d, const char *u, const char *t, bool is_routine) { /* Host given by user */ update_hostname(&host, strdup_root(&grant_memroot, h)); if (db != d) { db= strdup_root(&grant_memroot, d); if (lower_case_table_names) my_casedn_str(files_charset_info, db); } user = strdup_root(&grant_memroot,u); sort= get_magic_sort("hdu", host.hostname, db, user); if (tname != t) { tname= strdup_root(&grant_memroot, t); if (lower_case_table_names || is_routine) my_casedn_str(files_charset_info, tname); } key_length= strlen(d) + strlen(u)+ strlen(t)+3; hash_key= (char*) alloc_root(&grant_memroot,key_length); strmov(strmov(strmov(hash_key,user)+1,db)+1,tname); } GRANT_NAME::GRANT_NAME(const char *h, const char *d,const char *u, const char *t, ulong p, bool is_routine) :db(0), tname(0), privs(p), init_privs(p) { set_user_details(h, d, u, t, is_routine); } GRANT_TABLE::GRANT_TABLE(const char *h, const char *d,const char *u, const char *t, ulong p, ulong c) :GRANT_NAME(h,d,u,t,p, FALSE), cols(c) { init_hash(); } /* create a new GRANT_TABLE entry for role inheritance. init_* fields are set to 0 */ GRANT_NAME::GRANT_NAME(TABLE *form, bool is_routine) { user= safe_str(get_field(&grant_memroot,form->field[2])); const char *hostname= get_field(&grant_memroot, form->field[0]); mysql_mutex_lock(&acl_cache->lock); if (!hostname && find_acl_role(user)) hostname= ""; mysql_mutex_unlock(&acl_cache->lock); update_hostname(&host, hostname); db= get_field(&grant_memroot,form->field[1]); tname= get_field(&grant_memroot,form->field[3]); if (!db || !tname) { /* Wrong table row; Ignore it */ privs= 0; return; /* purecov: inspected */ } sort= get_magic_sort("hdu", host.hostname, db, user); if (lower_case_table_names) { my_casedn_str(files_charset_info, db); } if (lower_case_table_names || is_routine) { my_casedn_str(files_charset_info, tname); } key_length= (strlen(db) + strlen(user) + strlen(tname) + 3); hash_key= (char*) alloc_root(&grant_memroot, key_length); strmov(strmov(strmov(hash_key,user)+1,db)+1,tname); privs = (ulong) form->field[6]->val_int(); privs = fix_rights_for_table(privs); init_privs= privs; } GRANT_TABLE::GRANT_TABLE(TABLE *form, TABLE *col_privs) :GRANT_NAME(form, FALSE) { uchar key[MAX_KEY_LENGTH]; if (!db || !tname) { /* Wrong table row; Ignore it */ my_hash_clear(&hash_columns); /* allow for destruction */ cols= 0; return; } cols= (ulong) form->field[7]->val_int(); cols= fix_rights_for_column(cols); /* Initial columns privileges are the same as column privileges on creation. In case of roles, the cols privilege bits can get inherited and thus cause the cols field to change. The init_cols field is always the same as the physical table entry */ init_cols= cols; init_hash(); if (cols) { uint key_prefix_len; KEY_PART_INFO *key_part= col_privs->key_info->key_part; col_privs->field[0]->store(host.hostname, (uint) safe_strlen(host.hostname), system_charset_info); col_privs->field[1]->store(db,(uint) strlen(db), system_charset_info); col_privs->field[2]->store(user,(uint) strlen(user), system_charset_info); col_privs->field[3]->store(tname,(uint) strlen(tname), system_charset_info); key_prefix_len= (key_part[0].store_length + key_part[1].store_length + key_part[2].store_length + key_part[3].store_length); key_copy(key, col_privs->record[0], col_privs->key_info, key_prefix_len); col_privs->field[4]->store("",0, &my_charset_latin1); if (col_privs->file->ha_index_init(0, 1)) { cols= 0; init_cols= 0; return; } if (col_privs->file->ha_index_read_map(col_privs->record[0], (uchar*) key, (key_part_map)15, HA_READ_KEY_EXACT)) { cols= 0; /* purecov: deadcode */ init_cols= 0; col_privs->file->ha_index_end(); return; } do { String *res,column_name; GRANT_COLUMN *mem_check; /* As column name is a string, we don't have to supply a buffer */ res=col_privs->field[4]->val_str(&column_name); ulong priv= (ulong) col_privs->field[6]->val_int(); if (!(mem_check = new GRANT_COLUMN(*res, fix_rights_for_column(priv)))) { /* Don't use this entry */ privs= cols= init_privs= init_cols=0; /* purecov: deadcode */ return; /* purecov: deadcode */ } if (my_hash_insert(&hash_columns, (uchar *) mem_check)) { /* Invalidate this entry */ privs= cols= init_privs= init_cols=0; return; } } while (!col_privs->file->ha_index_next(col_privs->record[0]) && !key_cmp_if_same(col_privs,key,0,key_prefix_len)); col_privs->file->ha_index_end(); } } GRANT_TABLE::~GRANT_TABLE() { my_hash_free(&hash_columns); } static uchar* get_grant_table(GRANT_NAME *buff, size_t *length, my_bool not_used __attribute__((unused))) { *length=buff->key_length; return (uchar*) buff->hash_key; } static void free_grant_table(GRANT_TABLE *grant_table) { grant_table->~GRANT_TABLE(); } /* Search after a matching grant. Prefer exact grants before not exact ones */ static GRANT_NAME *name_hash_search(HASH *name_hash, const char *host,const char* ip, const char *db, const char *user, const char *tname, bool exact, bool name_tolower) { char helping[SAFE_NAME_LEN*2+USERNAME_LENGTH+3]; char *hend = helping + sizeof(helping); uint len; GRANT_NAME *grant_name,*found=0; HASH_SEARCH_STATE state; char *db_ptr= strmov(helping, user) + 1; char *tname_ptr= strnmov(db_ptr, db, hend - db_ptr) + 1; if (tname_ptr > hend) return 0; // invalid name = not found char *end= strnmov(tname_ptr, tname, hend - tname_ptr) + 1; if (end > hend) return 0; // invalid name = not found len = (uint) (end - helping); if (name_tolower) my_casedn_str(files_charset_info, tname_ptr); for (grant_name= (GRANT_NAME*) my_hash_first(name_hash, (uchar*) helping, len, &state); grant_name ; grant_name= (GRANT_NAME*) my_hash_next(name_hash,(uchar*) helping, len, &state)) { if (exact) { if (!grant_name->host.hostname || (host && !my_strcasecmp(system_charset_info, host, grant_name->host.hostname)) || (ip && !strcmp(ip, grant_name->host.hostname))) return grant_name; } else { if (compare_hostname(&grant_name->host, host, ip) && (!found || found->sort < grant_name->sort)) found=grant_name; // Host ok } } return found; } static GRANT_NAME * routine_hash_search(const char *host, const char *ip, const char *db, const char *user, const char *tname, const Sp_handler *sph, bool exact) { return (GRANT_TABLE*) name_hash_search(sph->get_priv_hash(), host, ip, db, user, tname, exact, TRUE); } static GRANT_TABLE * table_hash_search(const char *host, const char *ip, const char *db, const char *user, const char *tname, bool exact) { return (GRANT_TABLE*) name_hash_search(&column_priv_hash, host, ip, db, user, tname, exact, FALSE); } static GRANT_COLUMN * column_hash_search(GRANT_TABLE *t, const char *cname, size_t length) { if (!my_hash_inited(&t->hash_columns)) return (GRANT_COLUMN*) 0; return (GRANT_COLUMN*) my_hash_search(&t->hash_columns, (uchar*) cname, length); } static int replace_column_table(GRANT_TABLE *g_t, TABLE *table, const LEX_USER &combo, List <LEX_COLUMN> &columns, const char *db, const char *table_name, ulong rights, bool revoke_grant) { int result=0; uchar key[MAX_KEY_LENGTH]; uint key_prefix_length; KEY_PART_INFO *key_part= table->key_info->key_part; DBUG_ENTER("replace_column_table"); table->use_all_columns(); table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); table->field[3]->store(table_name,(uint) strlen(table_name), system_charset_info); /* Get length of 4 first key parts */ key_prefix_length= (key_part[0].store_length + key_part[1].store_length + key_part[2].store_length + key_part[3].store_length); key_copy(key, table->record[0], table->key_info, key_prefix_length); rights&= COL_ACLS; // Only ACL for columns /* first fix privileges for all columns in column list */ List_iterator <LEX_COLUMN> iter(columns); class LEX_COLUMN *column; int error= table->file->ha_index_init(0, 1); if (unlikely(error)) { table->file->print_error(error, MYF(0)); DBUG_RETURN(-1); } while ((column= iter++)) { ulong privileges= column->rights; bool old_row_exists=0; uchar user_key[MAX_KEY_LENGTH]; key_restore(table->record[0],key,table->key_info, key_prefix_length); table->field[4]->store(column->column.ptr(), column->column.length(), system_charset_info); /* Get key for the first 4 columns */ key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_map(table->record[0], user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { if (revoke_grant) { my_error(ER_NONEXISTING_TABLE_GRANT, MYF(0), combo.user.str, combo.host.str, table_name); /* purecov: inspected */ result= -1; /* purecov: inspected */ continue; /* purecov: inspected */ } old_row_exists = 0; restore_record(table, s->default_values); // Get empty record key_restore(table->record[0],key,table->key_info, key_prefix_length); table->field[4]->store(column->column.ptr(),column->column.length(), system_charset_info); } else { ulong tmp= (ulong) table->field[6]->val_int(); tmp=fix_rights_for_column(tmp); if (revoke_grant) privileges = tmp & ~(privileges | rights); else privileges |= tmp; old_row_exists = 1; store_record(table,record[1]); // copy original row } table->field[6]->store((longlong) get_rights_for_column(privileges), TRUE); if (old_row_exists) { GRANT_COLUMN *grant_column; if (privileges) error=table->file->ha_update_row(table->record[1],table->record[0]); else error=table->file->ha_delete_row(table->record[1]); if (unlikely(error) && error != HA_ERR_RECORD_IS_THE_SAME) { table->file->print_error(error,MYF(0)); /* purecov: inspected */ result= -1; /* purecov: inspected */ goto end; /* purecov: inspected */ } else error= 0; grant_column= column_hash_search(g_t, column->column.ptr(), column->column.length()); if (grant_column) // Should always be true grant_column->rights= privileges; // Update hash } else // new grant { GRANT_COLUMN *grant_column; if (unlikely((error=table->file->ha_write_row(table->record[0])))) { table->file->print_error(error,MYF(0)); /* purecov: inspected */ result= -1; /* purecov: inspected */ goto end; /* purecov: inspected */ } grant_column= new GRANT_COLUMN(column->column,privileges); if (my_hash_insert(&g_t->hash_columns,(uchar*) grant_column)) { result= -1; goto end; } } } /* If revoke of privileges on the table level, remove all such privileges for all columns */ if (revoke_grant) { uchar user_key[MAX_KEY_LENGTH]; key_copy(user_key, table->record[0], table->key_info, key_prefix_length); if (table->file->ha_index_read_map(table->record[0], user_key, (key_part_map)15, HA_READ_KEY_EXACT)) goto end; /* Scan through all rows with the same host,db,user and table */ do { ulong privileges = (ulong) table->field[6]->val_int(); privileges=fix_rights_for_column(privileges); store_record(table,record[1]); if (privileges & rights) // is in this record the priv to be revoked ?? { GRANT_COLUMN *grant_column = NULL; char colum_name_buf[HOSTNAME_LENGTH+1]; String column_name(colum_name_buf,sizeof(colum_name_buf), system_charset_info); privileges&= ~rights; table->field[6]->store((longlong) get_rights_for_column(privileges), TRUE); table->field[4]->val_str(&column_name); grant_column = column_hash_search(g_t, column_name.ptr(), column_name.length()); if (privileges) { int tmp_error; if (unlikely(tmp_error= table->file->ha_update_row(table->record[1], table->record[0])) && tmp_error != HA_ERR_RECORD_IS_THE_SAME) { /* purecov: deadcode */ table->file->print_error(tmp_error,MYF(0)); /* purecov: deadcode */ result= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } if (grant_column) { grant_column->rights = privileges; // Update hash grant_column->init_rights = privileges; } } else { int tmp_error; if (unlikely((tmp_error= table->file->ha_delete_row(table->record[1])))) { /* purecov: deadcode */ table->file->print_error(tmp_error,MYF(0)); /* purecov: deadcode */ result= -1; /* purecov: deadcode */ goto end; /* purecov: deadcode */ } if (grant_column) my_hash_delete(&g_t->hash_columns,(uchar*) grant_column); } } } while (!table->file->ha_index_next(table->record[0]) && !key_cmp_if_same(table, key, 0, key_prefix_length)); } end: table->file->ha_index_end(); DBUG_RETURN(result); } static inline void get_grantor(THD *thd, char *grantor) { const char *user= thd->security_ctx->user; const char *host= thd->security_ctx->host_or_ip; #if defined(HAVE_REPLICATION) if (thd->slave_thread && thd->has_invoker()) { user= thd->get_invoker_user().str; host= thd->get_invoker_host().str; } #endif strxmov(grantor, user, "@", host, NullS); } static int replace_table_table(THD *thd, GRANT_TABLE *grant_table, TABLE *table, const LEX_USER &combo, const char *db, const char *table_name, ulong rights, ulong col_rights, bool revoke_grant) { char grantor[USER_HOST_BUFF_SIZE]; int old_row_exists = 1; int error=0; ulong store_table_rights, store_col_rights; uchar user_key[MAX_KEY_LENGTH]; DBUG_ENTER("replace_table_table"); get_grantor(thd, grantor); /* The following should always succeed as new users are created before this function is called! */ if (!find_user_wild(combo.host.str,combo.user.str)) { if (!combo.host.length && !find_acl_role(combo.user.str)) { my_message(ER_PASSWORD_NO_MATCH, ER_THD(thd, ER_PASSWORD_NO_MATCH), MYF(0)); /* purecov: deadcode */ DBUG_RETURN(-1); /* purecov: deadcode */ } } table->use_all_columns(); restore_record(table, s->default_values); // Get empty record table->field[0]->store(combo.host.str,combo.host.length, system_charset_info); table->field[1]->store(db,(uint) strlen(db), system_charset_info); table->field[2]->store(combo.user.str,combo.user.length, system_charset_info); table->field[3]->store(table_name,(uint) strlen(table_name), system_charset_info); store_record(table,record[1]); // store at pos 1 key_copy(user_key, table->record[0], table->key_info, table->key_info->key_length); if (table->file->ha_index_read_idx_map(table->record[0], 0, user_key, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { /* The following should never happen as we first check the in memory grant tables for the user. There is however always a small change that the user has modified the grant tables directly. */ if (revoke_grant) { // no row, no revoke my_error(ER_NONEXISTING_TABLE_GRANT, MYF(0), combo.user.str, combo.host.str, table_name); /* purecov: deadcode */ DBUG_RETURN(-1); /* purecov: deadcode */ } old_row_exists = 0; restore_record(table,record[1]); // Get saved record } store_table_rights= get_rights_for_table(rights); store_col_rights= get_rights_for_column(col_rights); if (old_row_exists) { ulong j,k; store_record(table,record[1]); j = (ulong) table->field[6]->val_int(); k = (ulong) table->field[7]->val_int(); if (revoke_grant) { /* column rights are already fixed in mysql_table_grant */ store_table_rights=j & ~store_table_rights; } else { store_table_rights|= j; store_col_rights|= k; } } table->field[4]->store(grantor,(uint) strlen(grantor), system_charset_info); table->field[6]->store((longlong) store_table_rights, TRUE); table->field[7]->store((longlong) store_col_rights, TRUE); rights=fix_rights_for_table(store_table_rights); col_rights=fix_rights_for_column(store_col_rights); if (old_row_exists) { if (store_table_rights || store_col_rights) { if (unlikely(error=table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; /* purecov: deadcode */ } else if (unlikely((error = table->file->ha_delete_row(table->record[1])))) goto table_error; /* purecov: deadcode */ } else { error=table->file->ha_write_row(table->record[0]); if (unlikely(table->file->is_fatal_error(error, HA_CHECK_DUP_KEY))) goto table_error; /* purecov: deadcode */ } if (rights | col_rights) { grant_table->init_privs= rights; grant_table->init_cols= col_rights; grant_table->privs= rights; grant_table->cols= col_rights; } else { my_hash_delete(&column_priv_hash,(uchar*) grant_table); } DBUG_RETURN(0); /* This should never happen */ table_error: table->file->print_error(error,MYF(0)); /* purecov: deadcode */ DBUG_RETURN(-1); /* purecov: deadcode */ } /** @retval 0 success @retval -1 error */ static int replace_routine_table(THD *thd, GRANT_NAME *grant_name, TABLE *table, const LEX_USER &combo, const char *db, const char *routine_name, const Sp_handler *sph, ulong rights, bool revoke_grant) { char grantor[USER_HOST_BUFF_SIZE]; int old_row_exists= 1; int error=0; ulong store_proc_rights; HASH *hash= sph->get_priv_hash(); DBUG_ENTER("replace_routine_table"); if (!table) { my_error(ER_NO_SUCH_TABLE, MYF(0), MYSQL_SCHEMA_NAME.str, MYSQL_TABLE_NAME[PROCS_PRIV_TABLE].str); DBUG_RETURN(-1); } if (revoke_grant && !grant_name->init_privs) // only inherited role privs { my_hash_delete(hash, (uchar*) grant_name); DBUG_RETURN(0); } get_grantor(thd, grantor); /* New users are created before this function is called. There may be some cases where a routine's definer is removed but the routine remains. */ table->use_all_columns(); restore_record(table, s->default_values); // Get empty record table->field[0]->store(combo.host.str,combo.host.length, &my_charset_latin1); table->field[1]->store(db,(uint) strlen(db), &my_charset_latin1); table->field[2]->store(combo.user.str,combo.user.length, &my_charset_latin1); table->field[3]->store(routine_name,(uint) strlen(routine_name), &my_charset_latin1); table->field[4]->store((longlong) sph->type(), true); store_record(table,record[1]); // store at pos 1 if (table->file->ha_index_read_idx_map(table->record[0], 0, (uchar*) table->field[0]->ptr, HA_WHOLE_KEY, HA_READ_KEY_EXACT)) { /* The following should never happen as we first check the in memory grant tables for the user. There is however always a small change that the user has modified the grant tables directly. Also, there is also a second posibility that this routine entry is created for a role by being inherited from a granted role. */ if (revoke_grant) { // no row, no revoke my_error(ER_NONEXISTING_PROC_GRANT, MYF(0), combo.user.str, combo.host.str, routine_name); DBUG_RETURN(-1); } old_row_exists= 0; restore_record(table,record[1]); // Get saved record } store_proc_rights= get_rights_for_procedure(rights); if (old_row_exists) { ulong j; store_record(table,record[1]); j= (ulong) table->field[6]->val_int(); if (revoke_grant) { /* column rights are already fixed in mysql_table_grant */ store_proc_rights=j & ~store_proc_rights; } else { store_proc_rights|= j; } } table->field[5]->store(grantor,(uint) strlen(grantor), &my_charset_latin1); table->field[6]->store((longlong) store_proc_rights, TRUE); rights=fix_rights_for_procedure(store_proc_rights); if (old_row_exists) { if (store_proc_rights) { if (unlikely(error=table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) goto table_error; } else if (unlikely((error= table->file->ha_delete_row(table->record[1])))) goto table_error; } else { error=table->file->ha_write_row(table->record[0]); if (unlikely(table->file->is_fatal_error(error, HA_CHECK_DUP_KEY))) goto table_error; } if (rights) { grant_name->init_privs= rights; grant_name->privs= rights; } else { my_hash_delete(hash, (uchar*) grant_name); } DBUG_RETURN(0); /* This should never happen */ table_error: table->file->print_error(error,MYF(0)); DBUG_RETURN(-1); } /***************************************************************** Role privilege propagation and graph traversal functionality According to the SQL standard, a role can be granted to a role, thus role grants can create an arbitrarily complex directed acyclic graph (a standard explicitly specifies that cycles are not allowed). When a privilege is granted to a role, it becomes available to all grantees. The code below recursively traverses a DAG of role grants, propagating privilege changes. The traversal function can work both ways, from roles to grantees or from grantees to roles. The first is used for privilege propagation, the second - for SHOW GRANTS and I_S.APPLICABLE_ROLES The role propagation code is smart enough to propagate only privilege changes to one specific database, table, or routine, if only they were changed (like in GRANT ... ON ... TO ...) or it can propagate everything (on startup or after FLUSH PRIVILEGES). It traverses only a subgraph that's accessible from the modified role, only visiting roles that can be possibly affected by the GRANT statement. Additionally, it stops traversal early, if this particular GRANT statement didn't result in any changes of privileges (e.g. both role1 and role2 are granted to the role3, both role1 and role2 have SELECT privilege. if SELECT is revoked from role1 it won't change role3 privileges, so we won't traverse from role3 to its grantees). ******************************************************************/ struct PRIVS_TO_MERGE { enum what { ALL, GLOBAL, DB, TABLE_COLUMN, PROC, FUNC, PACKAGE_SPEC, PACKAGE_BODY } what; const char *db, *name; }; static enum PRIVS_TO_MERGE::what sp_privs_to_merge(stored_procedure_type type) { switch (type) { case TYPE_ENUM_FUNCTION: return PRIVS_TO_MERGE::FUNC; case TYPE_ENUM_PROCEDURE: return PRIVS_TO_MERGE::PROC; case TYPE_ENUM_PACKAGE: return PRIVS_TO_MERGE::PACKAGE_SPEC; case TYPE_ENUM_PACKAGE_BODY: return PRIVS_TO_MERGE::PACKAGE_BODY; case TYPE_ENUM_TRIGGER: case TYPE_ENUM_PROXY: break; } DBUG_ASSERT(0); return PRIVS_TO_MERGE::PROC; } static int init_role_for_merging(ACL_ROLE *role, void *context) { role->counter= 0; return 0; } static int count_subgraph_nodes(ACL_ROLE *role, ACL_ROLE *grantee, void *context) { grantee->counter++; return 0; } static int merge_role_privileges(ACL_ROLE *, ACL_ROLE *, void *); /** rebuild privileges of all affected roles entry point into role privilege propagation. after privileges of the 'role' were changed, this function rebuilds privileges of all affected roles as necessary. */ static void propagate_role_grants(ACL_ROLE *role, enum PRIVS_TO_MERGE::what what, const char *db= 0, const char *name= 0) { if (!role) return; mysql_mutex_assert_owner(&acl_cache->lock); PRIVS_TO_MERGE data= { what, db, name }; /* Changing privileges of a role causes all other roles that had this role granted to them to have their rights invalidated. We need to rebuild all roles' related access bits. This cannot be a simple depth-first search, instead we have to merge privieges for all roles granted to a specific grantee, *before* merging privileges for this grantee. In other words, we must visit all parent nodes of a specific node, before descencing into this node. For example, if role1 is granted to role2 and role3, and role3 is granted to role2, after "GRANT ... role1", we cannot merge privileges for role2, until role3 is merged. The counter will be 0 for role1, 2 for role2, 1 for role3. Traversal will start from role1, go to role2, decrement the counter, backtrack, go to role3, merge it, go to role2 again, merge it. And the counter is not just "all parent nodes", but only parent nodes that are part of the subgraph we're interested in. For example, if both roleA and roleB are granted to roleC, then roleC has two parent nodes. But when granting a privilege to roleA, we're only looking at a subgraph that includes roleA and roleC (roleB cannot be possibly affected by that grant statement). In this subgraph roleC has only one parent. (on the other hand, in acl_load we want to update all roles, and the counter is exactly equal to the number of all parent nodes) Thus, we do two graph traversals here. First we only count parents that are part of the subgraph. On the second traversal we decrement the counter and actually merge privileges for a node when a counter drops to zero. */ traverse_role_graph_up(role, &data, init_role_for_merging, count_subgraph_nodes); traverse_role_graph_up(role, &data, NULL, merge_role_privileges); } // State of a node during a Depth First Search exploration struct NODE_STATE { ACL_USER_BASE *node_data; /* pointer to the node data */ uint neigh_idx; /* the neighbour that needs to be evaluated next */ }; /** Traverse the role grant graph and invoke callbacks at the specified points. @param user user or role to start traversal from @param context opaque parameter to pass to callbacks @param offset offset to ACL_ROLE::parent_grantee or to ACL_USER_BASE::role_grants. Depending on this value, traversal will go from roles to grantees or from grantees to roles. @param on_node called when a node is visited for the first time. Returning a value <0 will abort the traversal. @param on_edge called for every edge in the graph, when traversal goes from a node to a neighbour node. Returning <0 will abort the traversal. Returning >0 will make the traversal not to follow this edge. @note The traverse method is a DEPTH FIRST SEARCH, but callbacks can influence that (on_edge returning >0 value). @note This function should not be called directly, use traverse_role_graph_up() and traverse_role_graph_down() instead. @retval 0 traversal finished successfully @retval ROLE_CYCLE_FOUND traversal aborted, cycle detected @retval <0 traversal was aborted, because a callback returned this error code */ static int traverse_role_graph_impl(ACL_USER_BASE *user, void *context, off_t offset, int (*on_node) (ACL_USER_BASE *role, void *context), int (*on_edge) (ACL_USER_BASE *current, ACL_ROLE *neighbour, void *context)) { DBUG_ENTER("traverse_role_graph_impl"); DBUG_ASSERT(user); DBUG_PRINT("enter",("role: '%s'", user->user.str)); /* The search operation should always leave the ROLE_ON_STACK and ROLE_EXPLORED flags clean for all nodes involved in the search */ DBUG_ASSERT(!(user->flags & ROLE_ON_STACK)); DBUG_ASSERT(!(user->flags & ROLE_EXPLORED)); mysql_mutex_assert_owner(&acl_cache->lock); /* Stack used to simulate the recursive calls of DFS. It uses a Dynamic_array to reduce the number of malloc calls to a minimum */ Dynamic_array<NODE_STATE> stack(20,50); Dynamic_array<ACL_USER_BASE *> to_clear(20,50); NODE_STATE state; /* variable used to insert elements in the stack */ int result= 0; state.neigh_idx= 0; state.node_data= user; user->flags|= ROLE_ON_STACK; stack.push(state); to_clear.push(user); user->flags|= ROLE_OPENED; if (on_node && ((result= on_node(user, context)) < 0)) goto end; while (stack.elements()) { NODE_STATE *curr_state= stack.back(); DBUG_ASSERT(curr_state->node_data->flags & ROLE_ON_STACK); ACL_USER_BASE *current= curr_state->node_data; ACL_USER_BASE *neighbour= NULL; DBUG_PRINT("info", ("Examining role %s", current->user.str)); /* Iterate through the neighbours until a first valid jump-to neighbour is found */ bool found= FALSE; uint i; DYNAMIC_ARRAY *array= (DYNAMIC_ARRAY *)(((char*)current) + offset); DBUG_ASSERT(array == ¤t->role_grants || current->flags & IS_ROLE); for (i= curr_state->neigh_idx; i < array->elements; i++) { neighbour= *(dynamic_element(array, i, ACL_ROLE**)); if (!(neighbour->flags & IS_ROLE)) continue; DBUG_PRINT("info", ("Examining neighbour role %s", neighbour->user.str)); /* check if it forms a cycle */ if (neighbour->flags & ROLE_ON_STACK) { DBUG_PRINT("info", ("Found cycle")); result= ROLE_CYCLE_FOUND; goto end; } if (!(neighbour->flags & ROLE_OPENED)) { neighbour->flags|= ROLE_OPENED; to_clear.push(neighbour); if (on_node && ((result= on_node(neighbour, context)) < 0)) goto end; } if (on_edge) { result= on_edge(current, (ACL_ROLE*)neighbour, context); if (result < 0) goto end; if (result > 0) continue; } /* Check if it was already explored, in that case, move on */ if (neighbour->flags & ROLE_EXPLORED) continue; found= TRUE; break; } /* found states that we have found a node to jump next into */ if (found) { curr_state->neigh_idx= i + 1; /* some sanity checks */ DBUG_ASSERT(!(neighbour->flags & ROLE_ON_STACK)); /* add the neighbour on the stack */ neighbour->flags|= ROLE_ON_STACK; state.neigh_idx= 0; state.node_data= neighbour; stack.push(state); } else { /* Make sure we got a correct node */ DBUG_ASSERT(curr_state->node_data->flags & ROLE_ON_STACK); /* Finished with exploring the current node, pop it off the stack */ curr_state= &stack.pop(); curr_state->node_data->flags&= ~ROLE_ON_STACK; /* clear the on-stack bit */ curr_state->node_data->flags|= ROLE_EXPLORED; } } end: /* Cleanup */ for (uint i= 0; i < to_clear.elements(); i++) { ACL_USER_BASE *current= to_clear.at(i); DBUG_ASSERT(current->flags & (ROLE_EXPLORED | ROLE_ON_STACK | ROLE_OPENED)); current->flags&= ~(ROLE_EXPLORED | ROLE_ON_STACK | ROLE_OPENED); } DBUG_RETURN(result); } /** Traverse the role grant graph, going from a role to its grantees. This is used to propagate changes in privileges, for example, when GRANT or REVOKE is issued for a role. */ static int traverse_role_graph_up(ACL_ROLE *role, void *context, int (*on_node) (ACL_ROLE *role, void *context), int (*on_edge) (ACL_ROLE *current, ACL_ROLE *neighbour, void *context)) { return traverse_role_graph_impl(role, context, my_offsetof(ACL_ROLE, parent_grantee), (int (*)(ACL_USER_BASE *, void *))on_node, (int (*)(ACL_USER_BASE *, ACL_ROLE *, void *))on_edge); } /** Traverse the role grant graph, going from a user or a role to granted roles. This is used, for example, to print all grants available to a user or a role (as in SHOW GRANTS). */ static int traverse_role_graph_down(ACL_USER_BASE *user, void *context, int (*on_node) (ACL_USER_BASE *role, void *context), int (*on_edge) (ACL_USER_BASE *current, ACL_ROLE *neighbour, void *context)) { return traverse_role_graph_impl(user, context, my_offsetof(ACL_USER_BASE, role_grants), on_node, on_edge); } /* To find all db/table/routine privilege for a specific role we need to scan the array of privileges. It can be big. But the set of privileges granted to a role in question (or to roles directly granted to the role in question) is supposedly much smaller. We put a role and all roles directly granted to it in a hash, and iterate the (suposedly long) array of privileges, filtering out "interesting" entries using the role hash. We put all these "interesting" entries in a (suposedly small) dynamic array and them use it for merging. */ static uchar* role_key(const ACL_ROLE *role, size_t *klen, my_bool) { *klen= role->user.length; return (uchar*) role->user.str; } typedef Hash_set<ACL_ROLE> role_hash_t; static bool merge_role_global_privileges(ACL_ROLE *grantee) { ulong old= grantee->access; grantee->access= grantee->initial_role_access; DBUG_EXECUTE_IF("role_merge_stats", role_global_merges++;); for (uint i= 0; i < grantee->role_grants.elements; i++) { ACL_ROLE *r= *dynamic_element(&grantee->role_grants, i, ACL_ROLE**); grantee->access|= r->access; } return old != grantee->access; } static int db_name_sort(const int *db1, const int *db2) { return strcmp(acl_dbs.at(*db1).db, acl_dbs.at(*db2).db); } /** update ACL_DB for given database and a given role with merged privileges @param merged ACL_DB of the role in question (or -1 if it wasn't found) @param first first ACL_DB in an array for the database in question @param access new privileges for the given role on the gived database @param role the name of the given role @return a bitmap of 1 - privileges were changed 2 - ACL_DB was added 4 - ACL_DB was deleted */ static int update_role_db(int merged, int first, ulong access, const char *role) { if (first < 0) return 0; DBUG_EXECUTE_IF("role_merge_stats", role_db_merges++;); if (merged < 0) { /* there's no ACL_DB for this role (all db grants come from granted roles) we need to create it Note that we cannot use acl_insert_db() now: 1. it'll sort elements in the acl_dbs, so the pointers will become invalid 2. we may need many of them, no need to sort every time */ DBUG_ASSERT(access); ACL_DB acl_db; acl_db.user= role; acl_db.host.hostname= const_cast<char*>(""); acl_db.host.ip= acl_db.host.ip_mask= 0; acl_db.db= acl_dbs.at(first).db; acl_db.access= access; acl_db.initial_access= 0; acl_db.sort= get_magic_sort("hdu", "", acl_db.db, role); acl_dbs.push(acl_db); return 2; } else if (access == 0) { /* there is ACL_DB but the role has no db privileges granted (all privileges were coming from granted roles, and now those roles were dropped or had their privileges revoked). we need to remove this ACL_DB entry Note, that we cannot delete now: 1. it'll shift elements in the acl_dbs, so the pointers will become invalid 2. it's O(N) operation, and we may need many of them so we only mark elements deleted and will delete later. */ acl_dbs.at(merged).sort= 0; // lower than any valid ACL_DB sort value, will be sorted last return 4; } else if (acl_dbs.at(merged).access != access) { /* this is easy */ acl_dbs.at(merged).access= access; return 1; } return 0; } /** merges db privileges from roles granted to the role 'grantee'. @return true if database privileges of the 'grantee' were changed */ static bool merge_role_db_privileges(ACL_ROLE *grantee, const char *dbname, role_hash_t *rhash) { Dynamic_array<int> dbs; /* Supposedly acl_dbs can be huge, but only a handful of db grants apply to grantee or roles directly granted to grantee. Collect these applicable db grants. */ for (uint i=0 ; i < acl_dbs.elements() ; i++) { ACL_DB *db= &acl_dbs.at(i); if (db->host.hostname[0]) continue; if (dbname && strcmp(db->db, dbname)) continue; ACL_ROLE *r= rhash->find(db->user, strlen(db->user)); if (!r) continue; dbs.append(i); } dbs.sort(db_name_sort); /* Because dbs array is sorted by the db name, all grants for the same db (that should be merged) are sorted together. The grantee's ACL_DB element is not necessarily the first and may be not present at all. */ int first= -1, merged= -1; ulong access= 0, update_flags= 0; for (int *p= dbs.front(); p <= dbs.back(); p++) { if (first<0 || (!dbname && strcmp(acl_dbs.at(p[0]).db, acl_dbs.at(p[-1]).db))) { // new db name series update_flags|= update_role_db(merged, first, access, grantee->user.str); merged= -1; access= 0; first= *p; } if (strcmp(acl_dbs.at(*p).user, grantee->user.str) == 0) access|= acl_dbs.at(merged= *p).initial_access; else access|= acl_dbs.at(*p).access; } update_flags|= update_role_db(merged, first, access, grantee->user.str); if (update_flags & 4) { // Remove elements marked for deletion. uint count= 0; for(uint i= 0; i < acl_dbs.elements(); i++) { ACL_DB *acl_db= &acl_dbs.at(i); if (acl_db->sort) { if (i > count) acl_dbs.set(count, *acl_db); count++; } } acl_dbs.elements(count); } if (update_flags & 2) { // inserted, need to sort rebuild_acl_dbs(); } return update_flags; } static int table_name_sort(GRANT_TABLE * const *tbl1, GRANT_TABLE * const *tbl2) { int res = strcmp((*tbl1)->db, (*tbl2)->db); if (res) return res; return strcmp((*tbl1)->tname, (*tbl2)->tname); } /** merges column privileges for the entry 'merged' @param merged GRANT_TABLE to merge the privileges into @param cur first entry in the array of GRANT_TABLE's for a given table @param last last entry in the array of GRANT_TABLE's for a given table, all entries between cur and last correspond to the *same* table @return 1 if the _set of columns_ in 'merged' was changed (not if the _set of privileges_ was changed). */ static int update_role_columns(GRANT_TABLE *merged, GRANT_TABLE **cur, GRANT_TABLE **last) { ulong rights __attribute__((unused))= 0; int changed= 0; if (!merged->cols) { changed= merged->hash_columns.records > 0; my_hash_reset(&merged->hash_columns); return changed; } DBUG_EXECUTE_IF("role_merge_stats", role_column_merges++;); HASH *mh= &merged->hash_columns; for (uint i=0 ; i < mh->records ; i++) { GRANT_COLUMN *col = (GRANT_COLUMN *)my_hash_element(mh, i); col->rights= col->init_rights; } for (; cur < last; cur++) { if (*cur == merged) continue; HASH *ch= &cur[0]->hash_columns; for (uint i=0 ; i < ch->records ; i++) { GRANT_COLUMN *ccol = (GRANT_COLUMN *)my_hash_element(ch, i); GRANT_COLUMN *mcol = (GRANT_COLUMN *)my_hash_search(mh, (uchar *)ccol->column, ccol->key_length); if (mcol) mcol->rights|= ccol->rights; else { changed= 1; my_hash_insert(mh, (uchar*)new (&grant_memroot) GRANT_COLUMN(ccol)); } } } for (uint i=0 ; i < mh->records ; i++) { GRANT_COLUMN *col = (GRANT_COLUMN *)my_hash_element(mh, i); rights|= col->rights; if (!col->rights) { changed= 1; my_hash_delete(mh, (uchar*)col); } } DBUG_ASSERT(rights == merged->cols); return changed; } /** update GRANT_TABLE for a given table and a given role with merged privileges @param merged GRANT_TABLE of the role in question (or NULL if it wasn't found) @param first first GRANT_TABLE in an array for the table in question @param last last entry in the array of GRANT_TABLE's for a given table, all entries between first and last correspond to the *same* table @param privs new table-level privileges for 'merged' @param cols new OR-ed column-level privileges for 'merged' @param role the name of the given role @return a bitmap of 1 - privileges were changed 2 - GRANT_TABLE was added 4 - GRANT_TABLE was deleted */ static int update_role_table_columns(GRANT_TABLE *merged, GRANT_TABLE **first, GRANT_TABLE **last, ulong privs, ulong cols, const char *role) { if (!first) return 0; DBUG_EXECUTE_IF("role_merge_stats", role_table_merges++;); if (merged == NULL) { /* there's no GRANT_TABLE for this role (all table grants come from granted roles) we need to create it */ DBUG_ASSERT(privs | cols); merged= new (&grant_memroot) GRANT_TABLE("", first[0]->db, role, first[0]->tname, privs, cols); merged->init_privs= merged->init_cols= 0; update_role_columns(merged, first, last); my_hash_insert(&column_priv_hash,(uchar*) merged); return 2; } else if ((privs | cols) == 0) { /* there is GRANT_TABLE object but the role has no table or column privileges granted (all privileges were coming from granted roles, and now those roles were dropped or had their privileges revoked). we need to remove this GRANT_TABLE */ DBUG_EXECUTE_IF("role_merge_stats", role_column_merges+= MY_TEST(merged->cols);); my_hash_delete(&column_priv_hash,(uchar*) merged); return 4; } else { bool changed= merged->cols != cols || merged->privs != privs; merged->cols= cols; merged->privs= privs; if (update_role_columns(merged, first, last)) changed= true; return changed; } } /** merges table privileges from roles granted to the role 'grantee'. @return true if table privileges of the 'grantee' were changed */ static bool merge_role_table_and_column_privileges(ACL_ROLE *grantee, const char *db, const char *tname, role_hash_t *rhash) { Dynamic_array<GRANT_TABLE *> grants; DBUG_ASSERT(MY_TEST(db) == MY_TEST(tname)); // both must be set, or neither /* first, collect table/column privileges granted to roles in question. */ for (uint i=0 ; i < column_priv_hash.records ; i++) { GRANT_TABLE *grant= (GRANT_TABLE *) my_hash_element(&column_priv_hash, i); if (grant->host.hostname[0]) continue; if (tname && (strcmp(grant->db, db) || strcmp(grant->tname, tname))) continue; ACL_ROLE *r= rhash->find(grant->user, strlen(grant->user)); if (!r) continue; grants.append(grant); } grants.sort(table_name_sort); GRANT_TABLE **first= NULL, *merged= NULL, **cur; ulong privs= 0, cols= 0, update_flags= 0; for (cur= grants.front(); cur <= grants.back(); cur++) { if (!first || (!tname && (strcmp(cur[0]->db, cur[-1]->db) || strcmp(cur[0]->tname, cur[-1]->tname)))) { // new db.tname series update_flags|= update_role_table_columns(merged, first, cur, privs, cols, grantee->user.str); merged= NULL; privs= cols= 0; first= cur; } if (strcmp(cur[0]->user, grantee->user.str) == 0) { merged= cur[0]; cols|= cur[0]->init_cols; privs|= cur[0]->init_privs; } else { cols|= cur[0]->cols; privs|= cur[0]->privs; } } update_flags|= update_role_table_columns(merged, first, cur, privs, cols, grantee->user.str); return update_flags; } static int routine_name_sort(GRANT_NAME * const *r1, GRANT_NAME * const *r2) { int res= strcmp((*r1)->db, (*r2)->db); if (res) return res; return strcmp((*r1)->tname, (*r2)->tname); } /** update GRANT_NAME for a given routine and a given role with merged privileges @param merged GRANT_NAME of the role in question (or NULL if it wasn't found) @param first first GRANT_NAME in an array for the routine in question @param privs new routine-level privileges for 'merged' @param role the name of the given role @param hash proc_priv_hash or func_priv_hash @return a bitmap of 1 - privileges were changed 2 - GRANT_NAME was added 4 - GRANT_NAME was deleted */ static int update_role_routines(GRANT_NAME *merged, GRANT_NAME **first, ulong privs, const char *role, HASH *hash) { if (!first) return 0; DBUG_EXECUTE_IF("role_merge_stats", role_routine_merges++;); if (merged == NULL) { /* there's no GRANT_NAME for this role (all routine grants come from granted roles) we need to create it */ DBUG_ASSERT(privs); merged= new (&grant_memroot) GRANT_NAME("", first[0]->db, role, first[0]->tname, privs, true); merged->init_privs= 0; // all privs are inherited my_hash_insert(hash, (uchar *)merged); return 2; } else if (privs == 0) { /* there is GRANT_NAME but the role has no privileges granted (all privileges were coming from granted roles, and now those roles were dropped or had their privileges revoked). we need to remove this entry */ my_hash_delete(hash, (uchar*)merged); return 4; } else if (merged->privs != privs) { /* this is easy */ merged->privs= privs; return 1; } return 0; } /** merges routine privileges from roles granted to the role 'grantee'. @return true if routine privileges of the 'grantee' were changed */ static bool merge_role_routine_grant_privileges(ACL_ROLE *grantee, const char *db, const char *tname, role_hash_t *rhash, HASH *hash) { ulong update_flags= 0; DBUG_ASSERT(MY_TEST(db) == MY_TEST(tname)); // both must be set, or neither Dynamic_array<GRANT_NAME *> grants; /* first, collect routine privileges granted to roles in question */ for (uint i=0 ; i < hash->records ; i++) { GRANT_NAME *grant= (GRANT_NAME *) my_hash_element(hash, i); if (grant->host.hostname[0]) continue; if (tname && (strcmp(grant->db, db) || strcmp(grant->tname, tname))) continue; ACL_ROLE *r= rhash->find(grant->user, strlen(grant->user)); if (!r) continue; grants.append(grant); } grants.sort(routine_name_sort); GRANT_NAME **first= NULL, *merged= NULL; ulong privs= 0 ; for (GRANT_NAME **cur= grants.front(); cur <= grants.back(); cur++) { if (!first || (!tname && (strcmp(cur[0]->db, cur[-1]->db) || strcmp(cur[0]->tname, cur[-1]->tname)))) { // new db.tname series update_flags|= update_role_routines(merged, first, privs, grantee->user.str, hash); merged= NULL; privs= 0; first= cur; } if (strcmp(cur[0]->user, grantee->user.str) == 0) { merged= cur[0]; privs|= cur[0]->init_privs; } else { privs|= cur[0]->privs; } } update_flags|= update_role_routines(merged, first, privs, grantee->user.str, hash); return update_flags; } /** update privileges of the 'grantee' from all roles, granted to it */ static int merge_role_privileges(ACL_ROLE *role __attribute__((unused)), ACL_ROLE *grantee, void *context) { PRIVS_TO_MERGE *data= (PRIVS_TO_MERGE *)context; DBUG_ASSERT(grantee->counter > 0); if (--grantee->counter) return 1; // don't recurse into grantee just yet grantee->counter= 1; // Mark the grantee as merged. /* if we'll do db/table/routine privileges, create a hash of role names */ role_hash_t role_hash(role_key); if (data->what != PRIVS_TO_MERGE::GLOBAL) { role_hash.insert(grantee); for (uint i= 0; i < grantee->role_grants.elements; i++) role_hash.insert(*dynamic_element(&grantee->role_grants, i, ACL_ROLE**)); } bool all= data->what == PRIVS_TO_MERGE::ALL; bool changed= false; if (all || data->what == PRIVS_TO_MERGE::GLOBAL) changed|= merge_role_global_privileges(grantee); if (all || data->what == PRIVS_TO_MERGE::DB) changed|= merge_role_db_privileges(grantee, data->db, &role_hash); if (all || data->what == PRIVS_TO_MERGE::TABLE_COLUMN) changed|= merge_role_table_and_column_privileges(grantee, data->db, data->name, &role_hash); if (all || data->what == PRIVS_TO_MERGE::PROC) changed|= merge_role_routine_grant_privileges(grantee, data->db, data->name, &role_hash, &proc_priv_hash); if (all || data->what == PRIVS_TO_MERGE::FUNC) changed|= merge_role_routine_grant_privileges(grantee, data->db, data->name, &role_hash, &func_priv_hash); if (all || data->what == PRIVS_TO_MERGE::PACKAGE_SPEC) changed|= merge_role_routine_grant_privileges(grantee, data->db, data->name, &role_hash, &package_spec_priv_hash); if (all || data->what == PRIVS_TO_MERGE::PACKAGE_BODY) changed|= merge_role_routine_grant_privileges(grantee, data->db, data->name, &role_hash, &package_body_priv_hash); return !changed; // don't recurse into the subgraph if privs didn't change } static bool merge_one_role_privileges(ACL_ROLE *grantee) { PRIVS_TO_MERGE data= { PRIVS_TO_MERGE::ALL, 0, 0 }; grantee->counter= 1; return merge_role_privileges(0, grantee, &data); } /***************************************************************** End of the role privilege propagation and graph traversal code ******************************************************************/ static bool has_auth(LEX_USER *user, LEX *lex) { return user->has_auth() || lex->account_options.ssl_type != SSL_TYPE_NOT_SPECIFIED || lex->account_options.ssl_cipher.str || lex->account_options.x509_issuer.str || lex->account_options.x509_subject.str || lex->account_options.specified_limits; } static bool copy_and_check_auth(LEX_USER *to, LEX_USER *from, THD *thd) { to->auth= from->auth; // if changing auth for an existing user if (has_auth(to, thd->lex) && find_user_exact(to->host.str, to->user.str)) { mysql_mutex_unlock(&acl_cache->lock); bool res= check_alter_user(thd, to->host.str, to->user.str); mysql_mutex_lock(&acl_cache->lock); return res; } return false; } /* Store table level and column level grants in the privilege tables SYNOPSIS mysql_table_grant() thd Thread handle table_list List of tables to give grant user_list List of users to give grant columns List of columns to give grant rights Table level grant revoke_grant Set to 1 if this is a REVOKE command RETURN FALSE ok TRUE error */ int mysql_table_grant(THD *thd, TABLE_LIST *table_list, List <LEX_USER> &user_list, List <LEX_COLUMN> &columns, ulong rights, bool revoke_grant) { ulong column_priv= 0; int result; List_iterator <LEX_USER> str_list (user_list); LEX_USER *Str, *tmp_Str; bool create_new_users=0; const char *db_name, *table_name; DBUG_ENTER("mysql_table_grant"); if (rights & ~TABLE_ACLS) { my_message(ER_ILLEGAL_GRANT_FOR_TABLE, ER_THD(thd, ER_ILLEGAL_GRANT_FOR_TABLE), MYF(0)); DBUG_RETURN(TRUE); } if (!revoke_grant) { if (columns.elements) { class LEX_COLUMN *column; List_iterator <LEX_COLUMN> column_iter(columns); if (open_normal_and_derived_tables(thd, table_list, 0, DT_PREPARE)) DBUG_RETURN(TRUE); while ((column = column_iter++)) { uint unused_field_idx= NO_CACHED_FIELD_INDEX; TABLE_LIST *dummy; Field *f=find_field_in_table_ref(thd, table_list, column->column.ptr(), column->column.length(), column->column.ptr(), NULL, NULL, NULL, TRUE, FALSE, &unused_field_idx, FALSE, &dummy); if (unlikely(f == (Field*)0)) { my_error(ER_BAD_FIELD_ERROR, MYF(0), column->column.c_ptr(), table_list->alias.str); DBUG_RETURN(TRUE); } if (unlikely(f == (Field *)-1)) DBUG_RETURN(TRUE); column_priv|= column->rights; } close_mysql_tables(thd); } else { if (!(rights & CREATE_ACL)) { if (!ha_table_exists(thd, &table_list->db, &table_list->table_name)) { my_error(ER_NO_SUCH_TABLE, MYF(0), table_list->db.str, table_list->alias.str); DBUG_RETURN(TRUE); } } if (table_list->grant.want_privilege) { char command[128]; get_privilege_desc(command, sizeof(command), table_list->grant.want_privilege); my_error(ER_TABLEACCESS_DENIED_ERROR, MYF(0), command, thd->security_ctx->priv_user, thd->security_ctx->host_or_ip, table_list->alias.str); DBUG_RETURN(-1); } } } /* Open the mysql.user and mysql.tables_priv tables. Don't open column table if we don't need it ! */ int tables_to_open= Table_user | Table_tables_priv; if (column_priv || (revoke_grant && ((rights & COL_ACLS) || columns.elements))) tables_to_open|= Table_columns_priv; /* The lock api is depending on the thd->lex variable which needs to be re-initialized. */ Query_tables_list backup; thd->lex->reset_n_backup_query_tables_list(&backup); /* Restore Query_tables_list::sql_command value, which was reset above, as the code writing query to the binary log assumes that this value corresponds to the statement being executed. */ thd->lex->sql_command= backup.sql_command; Grant_tables tables; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) { thd->lex->restore_backup_query_tables_list(&backup); DBUG_RETURN(result != 1); } if (!revoke_grant) create_new_users= test_if_create_new_users(thd); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); MEM_ROOT *old_root= thd->mem_root; thd->mem_root= &grant_memroot; grant_version++; while ((tmp_Str = str_list++)) { int error; GRANT_TABLE *grant_table; if (!(Str= get_current_user(thd, tmp_Str, false))) { result= TRUE; continue; } /* Create user if needed */ error= copy_and_check_auth(Str, tmp_Str, thd) || replace_user_table(thd, tables.user_table(), Str, 0, revoke_grant, create_new_users, MY_TEST(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER)); if (unlikely(error)) { result= TRUE; // Remember error continue; // Add next user } db_name= table_list->get_db_name(); table_name= table_list->get_table_name(); /* Find/create cached table grant */ grant_table= table_hash_search(Str->host.str, NullS, db_name, Str->user.str, table_name, 1); if (!grant_table) { if (revoke_grant) { my_error(ER_NONEXISTING_TABLE_GRANT, MYF(0), Str->user.str, Str->host.str, table_list->table_name.str); result= TRUE; continue; } grant_table = new GRANT_TABLE (Str->host.str, db_name, Str->user.str, table_name, rights, column_priv); if (!grant_table || my_hash_insert(&column_priv_hash,(uchar*) grant_table)) { result= TRUE; /* purecov: deadcode */ continue; /* purecov: deadcode */ } } /* If revoke_grant, calculate the new column privilege for tables_priv */ if (revoke_grant) { class LEX_COLUMN *column; List_iterator <LEX_COLUMN> column_iter(columns); GRANT_COLUMN *grant_column; /* Fix old grants */ while ((column = column_iter++)) { grant_column = column_hash_search(grant_table, column->column.ptr(), column->column.length()); if (grant_column) grant_column->rights&= ~(column->rights | rights); } /* scan trough all columns to get new column grant */ column_priv= 0; for (uint idx=0 ; idx < grant_table->hash_columns.records ; idx++) { grant_column= (GRANT_COLUMN*) my_hash_element(&grant_table->hash_columns, idx); grant_column->rights&= ~rights; // Fix other columns column_priv|= grant_column->rights; } } else { column_priv|= grant_table->cols; } /* update table and columns */ /* TODO(cvicentiu) refactor replace_table_table to use Tables_priv_table instead of TABLE directly. */ if (replace_table_table(thd, grant_table, tables.tables_priv_table().table(), *Str, db_name, table_name, rights, column_priv, revoke_grant)) { /* Should only happen if table is crashed */ result= TRUE; /* purecov: deadcode */ } else if (tables.columns_priv_table().table_exists()) { /* TODO(cvicentiu) refactor replace_column_table to use Columns_priv_table instead of TABLE directly. */ if (replace_column_table(grant_table, tables.columns_priv_table().table(), *Str, columns, db_name, table_name, rights, revoke_grant)) { result= TRUE; } } if (Str->is_role()) propagate_role_grants(find_acl_role(Str->user.str), PRIVS_TO_MERGE::TABLE_COLUMN, db_name, table_name); } thd->mem_root= old_root; mysql_mutex_unlock(&acl_cache->lock); if (!result) /* success */ { result= write_bin_log(thd, TRUE, thd->query(), thd->query_length()); } mysql_rwlock_unlock(&LOCK_grant); if (!result) /* success */ my_ok(thd); thd->lex->restore_backup_query_tables_list(&backup); DBUG_RETURN(result); } /** Store routine level grants in the privilege tables @param thd Thread handle @param table_list List of routines to give grant @param sph SP handler @param user_list List of users to give grant @param rights Table level grant @param revoke_grant Is this is a REVOKE command? @return @retval FALSE Success. @retval TRUE An error occurred. */ bool mysql_routine_grant(THD *thd, TABLE_LIST *table_list, const Sp_handler *sph, List <LEX_USER> &user_list, ulong rights, bool revoke_grant, bool write_to_binlog) { List_iterator <LEX_USER> str_list (user_list); LEX_USER *Str, *tmp_Str; bool create_new_users= 0; int result; const char *db_name, *table_name; DBUG_ENTER("mysql_routine_grant"); if (rights & ~PROC_ACLS) { my_message(ER_ILLEGAL_GRANT_FOR_TABLE, ER_THD(thd, ER_ILLEGAL_GRANT_FOR_TABLE), MYF(0)); DBUG_RETURN(TRUE); } if (!revoke_grant) { if (sph->sp_exist_routines(thd, table_list)) DBUG_RETURN(TRUE); } Grant_tables tables; if ((result= tables.open_and_lock(thd, Table_user | Table_procs_priv, TL_WRITE))) DBUG_RETURN(result != 1); DBUG_ASSERT(!thd->is_current_stmt_binlog_format_row()); if (!revoke_grant) create_new_users= test_if_create_new_users(thd); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); MEM_ROOT *old_root= thd->mem_root; thd->mem_root= &grant_memroot; DBUG_PRINT("info",("now time to iterate and add users")); while ((tmp_Str= str_list++)) { GRANT_NAME *grant_name; if (!(Str= get_current_user(thd, tmp_Str, false))) { result= TRUE; continue; } /* Create user if needed */ if (copy_and_check_auth(Str, tmp_Str, thd) || replace_user_table(thd, tables.user_table(), Str, 0, revoke_grant, create_new_users, MY_TEST(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER))) { result= TRUE; continue; } db_name= table_list->db.str; table_name= table_list->table_name.str; grant_name= routine_hash_search(Str->host.str, NullS, db_name, Str->user.str, table_name, sph, 1); if (!grant_name || !grant_name->init_privs) { if (revoke_grant) { my_error(ER_NONEXISTING_PROC_GRANT, MYF(0), Str->user.str, Str->host.str, table_name); result= TRUE; continue; } grant_name= new GRANT_NAME(Str->host.str, db_name, Str->user.str, table_name, rights, TRUE); if (!grant_name || my_hash_insert(sph->get_priv_hash(), (uchar*) grant_name)) { result= TRUE; continue; } } if (replace_routine_table(thd, grant_name, tables.procs_priv_table().table(), *Str, db_name, table_name, sph, rights, revoke_grant) != 0) { result= TRUE; continue; } if (Str->is_role()) propagate_role_grants(find_acl_role(Str->user.str), sp_privs_to_merge(sph->type()), db_name, table_name); } thd->mem_root= old_root; mysql_mutex_unlock(&acl_cache->lock); if (write_to_binlog) { if (write_bin_log(thd, FALSE, thd->query(), thd->query_length())) result= TRUE; } mysql_rwlock_unlock(&LOCK_grant); /* Tables are automatically closed */ DBUG_RETURN(result); } /** append a user or role name to a buffer that will be later used as an error message */ static void append_user(THD *thd, String *str, const LEX_CSTRING *u, const LEX_CSTRING *h) { if (str->length()) str->append(','); append_query_string(system_charset_info, str, u->str, u->length, thd->variables.sql_mode & MODE_NO_BACKSLASH_ESCAPES); /* hostname part is not relevant for roles, it is always empty */ if (u->length == 0 || h->length != 0) { str->append('@'); append_query_string(system_charset_info, str, h->str, h->length, thd->variables.sql_mode & MODE_NO_BACKSLASH_ESCAPES); } } static void append_user(THD *thd, String *str, LEX_USER *user) { append_user(thd, str, & user->user, & user->host); } /** append a string to a buffer that will be later used as an error message @note a string can be either CURRENT_USER or CURRENT_ROLE or NONE, it should be neither quoted nor escaped. */ static void append_str(String *str, const char *s, size_t l) { if (str->length()) str->append(','); str->append(s, l); } static int can_grant_role_callback(ACL_USER_BASE *grantee, ACL_ROLE *role, void *data) { ROLE_GRANT_PAIR *pair; if (role != (ACL_ROLE*)data) return 0; // keep searching if (grantee->flags & IS_ROLE) pair= find_role_grant_pair(&grantee->user, &empty_clex_str, &role->user); else { ACL_USER *user= (ACL_USER *)grantee; LEX_CSTRING host= { user->host.hostname, user->hostname_length }; pair= find_role_grant_pair(&user->user, &host, &role->user); } if (!pair->with_admin) return 0; // keep searching return -1; // abort the traversal } /* One can only grant a role if SELECT * FROM I_S.APPLICABLE_ROLES shows this role as grantable. What this really means - we need to traverse role graph for the current user looking for our role being granted with the admin option. */ static bool can_grant_role(THD *thd, ACL_ROLE *role) { Security_context *sctx= thd->security_ctx; if (!sctx->user) // replication return true; ACL_USER *grantee= find_user_exact(sctx->priv_host, sctx->priv_user); if (!grantee) return false; return traverse_role_graph_down(grantee, role, NULL, can_grant_role_callback) == -1; } bool mysql_grant_role(THD *thd, List <LEX_USER> &list, bool revoke) { DBUG_ENTER("mysql_grant_role"); /* The first entry in the list is the granted role. Need at least two entries for the command to be valid */ DBUG_ASSERT(list.elements >= 2); int result; bool create_new_user, no_auto_create_user; String wrong_users; LEX_USER *user, *granted_role; LEX_CSTRING rolename; LEX_CSTRING username; LEX_CSTRING hostname; ACL_ROLE *role, *role_as_user; List_iterator <LEX_USER> user_list(list); granted_role= user_list++; if (!(granted_role= get_current_user(thd, granted_role))) DBUG_RETURN(TRUE); DBUG_ASSERT(granted_role->is_role()); rolename= granted_role->user; create_new_user= test_if_create_new_users(thd); no_auto_create_user= MY_TEST(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER); Grant_tables tables; if ((result= tables.open_and_lock(thd, Table_user | Table_roles_mapping, TL_WRITE))) DBUG_RETURN(result != 1); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); if (!(role= find_acl_role(rolename.str))) { mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); my_error(ER_INVALID_ROLE, MYF(0), rolename.str); DBUG_RETURN(TRUE); } if (!can_grant_role(thd, role)) { mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); my_error(ER_ACCESS_DENIED_NO_PASSWORD_ERROR, MYF(0), thd->security_ctx->priv_user, thd->security_ctx->priv_host); DBUG_RETURN(TRUE); } while ((user= user_list++)) { role_as_user= NULL; /* current_role is treated slightly different */ if (user->user.str == current_role.str) { /* current_role is NONE */ if (!thd->security_ctx->priv_role[0]) { my_error(ER_INVALID_ROLE, MYF(0), "NONE"); append_str(&wrong_users, STRING_WITH_LEN("NONE")); result= 1; continue; } if (!(role_as_user= find_acl_role(thd->security_ctx->priv_role))) { LEX_CSTRING ls= { thd->security_ctx->priv_role, strlen(thd->security_ctx->priv_role) }; append_user(thd, &wrong_users, &ls, &empty_clex_str); result= 1; continue; } /* can not grant current_role to current_role */ if (granted_role->user.str == current_role.str) { append_user(thd, &wrong_users, &role_as_user->user, &empty_clex_str); result= 1; continue; } username.str= thd->security_ctx->priv_role; username.length= strlen(username.str); hostname= empty_clex_str; } else if (user->user.str == current_user.str) { username.str= thd->security_ctx->priv_user; username.length= strlen(username.str); hostname.str= thd->security_ctx->priv_host; hostname.length= strlen(hostname.str); } else { username= user->user; if (user->host.str) hostname= user->host; else if ((role_as_user= find_acl_role(user->user.str))) hostname= empty_clex_str; else { if (is_invalid_role_name(username.str)) { append_user(thd, &wrong_users, &username, &empty_clex_str); result= 1; continue; } hostname= host_not_specified; } } ROLE_GRANT_PAIR *hash_entry= find_role_grant_pair(&username, &hostname, &rolename); ACL_USER_BASE *grantee= role_as_user; if (has_auth(user, thd->lex)) DBUG_ASSERT(!grantee); else if (!grantee) grantee= find_user_exact(hostname.str, username.str); if (!grantee && !revoke) { LEX_USER user_combo = *user; user_combo.host = hostname; user_combo.user = username; if (copy_and_check_auth(&user_combo, &user_combo, thd) || replace_user_table(thd, tables.user_table(), &user_combo, 0, false, create_new_user, no_auto_create_user)) { append_user(thd, &wrong_users, &username, &hostname); result= 1; continue; } grantee= find_user_exact(hostname.str, username.str); /* either replace_user_table failed, or we've added the user */ DBUG_ASSERT(grantee); } if (!grantee) { append_user(thd, &wrong_users, &username, &hostname); result= 1; continue; } if (!revoke) { if (hash_entry) { // perhaps, updating an existing grant, adding WITH ADMIN OPTION } else { add_role_user_mapping(grantee, role); /* Check if this grant would cause a cycle. It only needs to be run if we're granting a role to a role */ if (role_as_user && traverse_role_graph_down(role, 0, 0, 0) == ROLE_CYCLE_FOUND) { append_user(thd, &wrong_users, &username, &empty_clex_str); result= 1; undo_add_role_user_mapping(grantee, role); continue; } } } else { /* grant was already removed or never existed */ if (!hash_entry) { append_user(thd, &wrong_users, &username, &hostname); result= 1; continue; } if (thd->lex->with_admin_option) { // only revoking an admin option, not the complete grant } else { /* revoke a role grant */ remove_role_user_mapping(grantee, role); } } /* write into the roles_mapping table */ /* TODO(cvicentiu) refactor replace_roles_mapping_table to use Roles_mapping_table instead of TABLE directly. */ if (replace_roles_mapping_table(tables.roles_mapping_table().table(), &username, &hostname, &rolename, thd->lex->with_admin_option, hash_entry, revoke)) { append_user(thd, &wrong_users, &username, &empty_clex_str); result= 1; if (!revoke) { /* need to remove the mapping added previously */ undo_add_role_user_mapping(grantee, role); } else { /* need to restore the mapping deleted previously */ add_role_user_mapping(grantee, role); } continue; } update_role_mapping(&username, &hostname, &rolename, thd->lex->with_admin_option, hash_entry, revoke); /* Only need to propagate grants when granting/revoking a role to/from a role */ if (role_as_user && merge_one_role_privileges(role_as_user) == 0) propagate_role_grants(role_as_user, PRIVS_TO_MERGE::ALL); } mysql_mutex_unlock(&acl_cache->lock); if (result) my_error(revoke ? ER_CANNOT_REVOKE_ROLE : ER_CANNOT_GRANT_ROLE, MYF(0), rolename.str, wrong_users.c_ptr_safe()); else result= write_bin_log(thd, TRUE, thd->query(), thd->query_length()); mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(result); } bool mysql_grant(THD *thd, const char *db, List <LEX_USER> &list, ulong rights, bool revoke_grant, bool is_proxy) { List_iterator <LEX_USER> str_list (list); LEX_USER *Str, *tmp_Str, *proxied_user= NULL; char tmp_db[SAFE_NAME_LEN+1]; bool create_new_users=0; int result; DBUG_ENTER("mysql_grant"); if (lower_case_table_names && db) { char *end= strnmov(tmp_db,db, sizeof(tmp_db)); if (end >= tmp_db + sizeof(tmp_db)) { my_error(ER_WRONG_DB_NAME ,MYF(0), db); DBUG_RETURN(TRUE); } my_casedn_str(files_charset_info, tmp_db); db=tmp_db; } if (is_proxy) { DBUG_ASSERT(!db); proxied_user= str_list++; } const uint tables_to_open= Table_user | (is_proxy ? Table_proxies_priv : Table_db); Grant_tables tables; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) DBUG_RETURN(result != 1); DBUG_ASSERT(!thd->is_current_stmt_binlog_format_row()); if (!revoke_grant) create_new_users= test_if_create_new_users(thd); /* go through users in user_list */ mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); grant_version++; if (proxied_user) { if (!(proxied_user= get_current_user(thd, proxied_user, false))) DBUG_RETURN(TRUE); DBUG_ASSERT(proxied_user->host.length); // not a Role } while ((tmp_Str = str_list++)) { if (!(Str= get_current_user(thd, tmp_Str, false))) { result= true; continue; } if (copy_and_check_auth(Str, tmp_Str, thd) || replace_user_table(thd, tables.user_table(), Str, (!db ? rights : 0), revoke_grant, create_new_users, MY_TEST(thd->variables.sql_mode & MODE_NO_AUTO_CREATE_USER))) result= true; else if (db) { ulong db_rights= rights & DB_ACLS; if (db_rights == rights) { if (replace_db_table(tables.db_table().table(), db, *Str, db_rights, revoke_grant)) result= true; } else { my_error(ER_WRONG_USAGE, MYF(0), "DB GRANT", "GLOBAL PRIVILEGES"); result= true; } } else if (is_proxy) { if (replace_proxies_priv_table(thd, tables.proxies_priv_table().table(), Str, proxied_user, rights & GRANT_ACL ? TRUE : FALSE, revoke_grant)) result= true; } if (Str->is_role()) propagate_role_grants(find_acl_role(Str->user.str), db ? PRIVS_TO_MERGE::DB : PRIVS_TO_MERGE::GLOBAL, db); } mysql_mutex_unlock(&acl_cache->lock); if (!result) { result= write_bin_log(thd, TRUE, thd->query(), thd->query_length()); } mysql_rwlock_unlock(&LOCK_grant); if (!result) my_ok(thd); DBUG_RETURN(result); } /* Free grant array if possible */ void grant_free(void) { DBUG_ENTER("grant_free"); my_hash_free(&column_priv_hash); my_hash_free(&proc_priv_hash); my_hash_free(&func_priv_hash); my_hash_free(&package_spec_priv_hash); my_hash_free(&package_body_priv_hash); free_root(&grant_memroot,MYF(0)); DBUG_VOID_RETURN; } /** @brief Initialize structures responsible for table/column-level privilege checking and load information for them from tables in the 'mysql' database. @return Error status @retval 0 OK @retval 1 Could not initialize grant subsystem. */ bool grant_init() { THD *thd; bool return_val; DBUG_ENTER("grant_init"); if (!(thd= new THD(0))) DBUG_RETURN(1); /* purecov: deadcode */ thd->thread_stack= (char*) &thd; thd->store_globals(); return_val= grant_reload(thd); delete thd; DBUG_RETURN(return_val); } /** @brief Initialize structures responsible for table/column-level privilege checking and load information about grants from open privilege tables. @param thd Current thread @param tables List containing open "mysql.tables_priv" and "mysql.columns_priv" tables. @see grant_reload @return Error state @retval FALSE Success @retval TRUE Error */ static bool grant_load(THD *thd, const Tables_priv_table& tables_priv, const Columns_priv_table& columns_priv, const Procs_priv_table& procs_priv) { bool return_val= 1; TABLE *t_table, *c_table, *p_table; bool check_no_resolve= specialflag & SPECIAL_NO_RESOLVE; MEM_ROOT *save_mem_root= thd->mem_root; sql_mode_t old_sql_mode= thd->variables.sql_mode; DBUG_ENTER("grant_load"); thd->variables.sql_mode&= ~MODE_PAD_CHAR_TO_FULL_LENGTH; (void) my_hash_init(&column_priv_hash, &my_charset_utf8_bin, 0,0,0, (my_hash_get_key) get_grant_table, (my_hash_free_key) free_grant_table,0); (void) my_hash_init(&proc_priv_hash, &my_charset_utf8_bin, 0,0,0, (my_hash_get_key) get_grant_table, 0,0); (void) my_hash_init(&func_priv_hash, &my_charset_utf8_bin, 0,0,0, (my_hash_get_key) get_grant_table, 0,0); (void) my_hash_init(&package_spec_priv_hash, &my_charset_utf8_bin, 0,0,0, (my_hash_get_key) get_grant_table, 0,0); (void) my_hash_init(&package_body_priv_hash, &my_charset_utf8_bin, 0,0,0, (my_hash_get_key) get_grant_table, 0,0); init_sql_alloc(&grant_memroot, "GRANT", ACL_ALLOC_BLOCK_SIZE, 0, MYF(0)); t_table= tables_priv.table(); c_table= columns_priv.table(); p_table= procs_priv.table(); // this can be NULL if (t_table->file->ha_index_init(0, 1)) goto end_index_init; t_table->use_all_columns(); c_table->use_all_columns(); thd->mem_root= &grant_memroot; if (!t_table->file->ha_index_first(t_table->record[0])) { do { GRANT_TABLE *mem_check; /* TODO(cvicentiu) convert this to use tables_priv and columns_priv. */ if (!(mem_check= new (&grant_memroot) GRANT_TABLE(t_table, c_table))) { /* This could only happen if we are out memory */ goto end_unlock; } if (check_no_resolve) { if (hostname_requires_resolving(mem_check->host.hostname)) { sql_print_warning("'tables_priv' entry '%s %s@%s' " "ignored in --skip-name-resolve mode.", mem_check->tname, mem_check->user, safe_str(mem_check->host.hostname)); continue; } } if (! mem_check->ok()) delete mem_check; else if (my_hash_insert(&column_priv_hash,(uchar*) mem_check)) { delete mem_check; goto end_unlock; } } while (!t_table->file->ha_index_next(t_table->record[0])); } return_val= 0; if (p_table) { if (p_table->file->ha_index_init(0, 1)) goto end_unlock; p_table->use_all_columns(); if (!p_table->file->ha_index_first(p_table->record[0])) { do { GRANT_NAME *mem_check; HASH *hash; if (!(mem_check= new (&grant_memroot) GRANT_NAME(p_table, TRUE))) { /* This could only happen if we are out memory */ goto end_unlock_p; } if (check_no_resolve) { if (hostname_requires_resolving(mem_check->host.hostname)) { sql_print_warning("'procs_priv' entry '%s %s@%s' " "ignored in --skip-name-resolve mode.", mem_check->tname, mem_check->user, safe_str(mem_check->host.hostname)); continue; } } stored_procedure_type type= (stored_procedure_type)procs_priv.routine_type()->val_int(); const Sp_handler *sph= Sp_handler::handler(type); if (!sph || !(hash= sph->get_priv_hash())) { sql_print_warning("'procs_priv' entry '%s' " "ignored, bad routine type", mem_check->tname); continue; } mem_check->privs= fix_rights_for_procedure(mem_check->privs); mem_check->init_privs= mem_check->privs; if (! mem_check->ok()) delete mem_check; else if (my_hash_insert(hash, (uchar*) mem_check)) { delete mem_check; goto end_unlock_p; } } while (!p_table->file->ha_index_next(p_table->record[0])); } } end_unlock_p: if (p_table) p_table->file->ha_index_end(); end_unlock: t_table->file->ha_index_end(); thd->mem_root= save_mem_root; end_index_init: thd->variables.sql_mode= old_sql_mode; DBUG_RETURN(return_val); } static my_bool propagate_role_grants_action(void *role_ptr, void *ptr __attribute__((unused))) { ACL_ROLE *role= static_cast<ACL_ROLE *>(role_ptr); if (role->counter) return 0; mysql_mutex_assert_owner(&acl_cache->lock); PRIVS_TO_MERGE data= { PRIVS_TO_MERGE::ALL, 0, 0 }; traverse_role_graph_up(role, &data, NULL, merge_role_privileges); return 0; } /** @brief Reload information about table and column level privileges if possible @param thd Current thread Locked tables are checked by acl_reload() and doesn't have to be checked in this call. This function is also used for initialization of structures responsible for table/column-level privilege checking. @return Error state @retval FALSE Success @retval TRUE Error */ bool grant_reload(THD *thd) { HASH old_column_priv_hash, old_proc_priv_hash, old_func_priv_hash; HASH old_package_spec_priv_hash, old_package_body_priv_hash; MEM_ROOT old_mem; int result; DBUG_ENTER("grant_reload"); /* To avoid deadlocks we should obtain table locks before obtaining LOCK_grant rwlock. */ Grant_tables tables; const uint tables_to_open= Table_tables_priv | Table_columns_priv| Table_procs_priv; if ((result= tables.open_and_lock(thd, tables_to_open, TL_READ))) DBUG_RETURN(result != 1); mysql_rwlock_wrlock(&LOCK_grant); grant_version++; old_column_priv_hash= column_priv_hash; old_proc_priv_hash= proc_priv_hash; old_func_priv_hash= func_priv_hash; old_package_spec_priv_hash= package_spec_priv_hash; old_package_body_priv_hash= package_body_priv_hash; /* Create a new memory pool but save the current memory pool to make an undo opertion possible in case of failure. */ old_mem= grant_memroot; if ((result= grant_load(thd, tables.tables_priv_table(), tables.columns_priv_table(), tables.procs_priv_table()))) { // Error. Revert to old hash DBUG_PRINT("error",("Reverting to old privileges")); grant_free(); /* purecov: deadcode */ column_priv_hash= old_column_priv_hash; /* purecov: deadcode */ proc_priv_hash= old_proc_priv_hash; func_priv_hash= old_func_priv_hash; package_spec_priv_hash= old_package_spec_priv_hash; package_body_priv_hash= old_package_body_priv_hash; grant_memroot= old_mem; /* purecov: deadcode */ } else { my_hash_free(&old_column_priv_hash); my_hash_free(&old_proc_priv_hash); my_hash_free(&old_func_priv_hash); my_hash_free(&old_package_spec_priv_hash); my_hash_free(&old_package_body_priv_hash); free_root(&old_mem,MYF(0)); } mysql_mutex_lock(&acl_cache->lock); my_hash_iterate(&acl_roles, propagate_role_grants_action, NULL); mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); close_mysql_tables(thd); DBUG_RETURN(result); } /** @brief Check table level grants @param thd Thread handler @param want_access Bits of privileges user needs to have. @param tables List of tables to check. The user should have 'want_access' to all tables in list. @param any_combination_will_do TRUE if it's enough to have any privilege for any combination of the table columns. @param number Check at most this number of tables. @param no_errors TRUE if no error should be sent directly to the client. If table->grant.want_privilege != 0 then the requested privileges where in the set of COL_ACLS but access was not granted on the table level. As a consequence an extra check of column privileges is required. Specifically if this function returns FALSE the user has some kind of privilege on a combination of columns in each table. This function is usually preceeded by check_access which establish the User-, Db- and Host access rights. @see check_access @see check_table_access @note This functions assumes that either number of tables to be inspected by it is limited explicitly (i.e. is is not UINT_MAX) or table list used and thd->lex->query_tables_own_last value correspond to each other (the latter should be either 0 or point to next_global member of one of elements of this table list). We delay locking of LOCK_grant until we really need it as we assume that most privileges be resolved with user or db level accesses. @return Access status @retval FALSE Access granted; But column privileges might need to be checked. @retval TRUE The user did not have the requested privileges on any of the tables. */ bool check_grant(THD *thd, ulong want_access, TABLE_LIST *tables, bool any_combination_will_do, uint number, bool no_errors) { TABLE_LIST *tl; TABLE_LIST *first_not_own_table= thd->lex->first_not_own_table(); Security_context *sctx= thd->security_ctx; uint i; ulong original_want_access= want_access; bool locked= 0; GRANT_TABLE *grant_table; GRANT_TABLE *grant_table_role= NULL; DBUG_ENTER("check_grant"); DBUG_ASSERT(number > 0); /* Walk through the list of tables that belong to the query and save the requested access (orig_want_privilege) to be able to use it when checking access rights to the underlying tables of a view. Our grant system gradually eliminates checked bits from want_privilege and thus after all checks are done we can no longer use it. The check that first_not_own_table is not reached is for the case when the given table list refers to the list for prelocking (contains tables of other queries). For simple queries first_not_own_table is 0. */ for (i= 0, tl= tables; i < number && tl != first_not_own_table; tl= tl->next_global, i++) { /* Save a copy of the privileges without the SHOW_VIEW_ACL attribute. It will be checked during making view. */ tl->grant.orig_want_privilege= (want_access & ~SHOW_VIEW_ACL); } number= i; for (tl= tables; number-- ; tl= tl->next_global) { TABLE_LIST *const t_ref= tl->correspondent_table ? tl->correspondent_table : tl; sctx= t_ref->security_ctx ? t_ref->security_ctx : thd->security_ctx; ulong orig_want_access= original_want_access; /* If sequence is used as part of NEXT VALUE, PREVIOUS VALUE or SELECT, we need to modify the requested access rights depending on how the sequence is used. */ if (t_ref->sequence && !(want_access & ~(SELECT_ACL | INSERT_ACL | UPDATE_ACL | DELETE_ACL))) { /* We want to have either SELECT or INSERT rights to sequences depending on how they are accessed */ orig_want_access= ((t_ref->lock_type == TL_WRITE_ALLOW_WRITE) ? INSERT_ACL : SELECT_ACL); } if (tl->with || !tl->db.str || (tl->select_lex && (tl->with= tl->select_lex->find_table_def_in_with_clauses(tl)))) continue; const ACL_internal_table_access *access= get_cached_table_access(&t_ref->grant.m_internal, t_ref->get_db_name(), t_ref->get_table_name()); if (access) { switch(access->check(orig_want_access, &t_ref->grant.privilege)) { case ACL_INTERNAL_ACCESS_GRANTED: /* Currently, - the information_schema does not subclass ACL_internal_table_access, there are no per table privilege checks for I_S, - the performance schema does use per tables checks, but at most returns 'CHECK_GRANT', and never 'ACCESS_GRANTED'. so this branch is not used. */ DBUG_ASSERT(0); case ACL_INTERNAL_ACCESS_DENIED: goto err; case ACL_INTERNAL_ACCESS_CHECK_GRANT: break; } } want_access= orig_want_access; want_access&= ~sctx->master_access; if (!want_access) continue; // ok if (!(~t_ref->grant.privilege & want_access) || t_ref->is_anonymous_derived_table() || t_ref->schema_table) { /* It is subquery in the FROM clause. VIEW set t_ref->derived after table opening, but this function always called before table opening. NOTE: is_derived() can't be used here because subquery in this case the FROM clase (derived tables) can be not be marked yet. */ if (t_ref->is_anonymous_derived_table() || t_ref->schema_table) { /* If it's a temporary table created for a subquery in the FROM clause, or an INFORMATION_SCHEMA table, drop the request for a privilege. */ t_ref->grant.want_privilege= 0; } continue; } if (is_temporary_table(t_ref)) { /* If this table list element corresponds to a pre-opened temporary table skip checking of all relevant table-level privileges for it. Note that during creation of temporary table we still need to check if user has CREATE_TMP_ACL. */ t_ref->grant.privilege|= TMP_TABLE_ACLS; t_ref->grant.want_privilege= 0; continue; } if (!locked) { locked= 1; mysql_rwlock_rdlock(&LOCK_grant); } grant_table= table_hash_search(sctx->host, sctx->ip, t_ref->get_db_name(), sctx->priv_user, t_ref->get_table_name(), FALSE); if (sctx->priv_role[0]) grant_table_role= table_hash_search("", NULL, t_ref->get_db_name(), sctx->priv_role, t_ref->get_table_name(), TRUE); if (!grant_table && !grant_table_role) { want_access&= ~t_ref->grant.privilege; goto err; // No grants } /* For SHOW COLUMNS, SHOW INDEX it is enough to have some privileges on any column combination on the table. */ if (any_combination_will_do) continue; t_ref->grant.grant_table_user= grant_table; // Remember for column test t_ref->grant.grant_table_role= grant_table_role; t_ref->grant.version= grant_version; t_ref->grant.privilege|= grant_table ? grant_table->privs : 0; t_ref->grant.privilege|= grant_table_role ? grant_table_role->privs : 0; t_ref->grant.want_privilege= ((want_access & COL_ACLS) & ~t_ref->grant.privilege); if (!(~t_ref->grant.privilege & want_access)) continue; if ((want_access&= ~((grant_table ? grant_table->cols : 0) | (grant_table_role ? grant_table_role->cols : 0) | t_ref->grant.privilege))) { goto err; // impossible } } if (locked) mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(FALSE); err: if (locked) mysql_rwlock_unlock(&LOCK_grant); if (!no_errors) // Not a silent skip of table { char command[128]; get_privilege_desc(command, sizeof(command), want_access); status_var_increment(thd->status_var.access_denied_errors); my_error(ER_TABLEACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, tl ? tl->get_table_name() : "unknown"); } DBUG_RETURN(TRUE); } static void check_grant_column_int(GRANT_TABLE *grant_table, const char *name, uint length, ulong *want_access) { if (grant_table) { *want_access&= ~grant_table->privs; if (*want_access & grant_table->cols) { GRANT_COLUMN *grant_column= column_hash_search(grant_table, name, length); if (grant_column) *want_access&= ~grant_column->rights; } } } /* Check column rights in given security context SYNOPSIS check_grant_column() thd thread handler grant grant information structure db_name db name table_name table name name column name length column name length sctx security context RETURN FALSE OK TRUE access denied */ bool check_grant_column(THD *thd, GRANT_INFO *grant, const char *db_name, const char *table_name, const char *name, size_t length, Security_context *sctx) { ulong want_access= grant->want_privilege & ~grant->privilege; DBUG_ENTER("check_grant_column"); DBUG_PRINT("enter", ("table: %s want_access: %lu", table_name, want_access)); if (!want_access) DBUG_RETURN(0); // Already checked mysql_rwlock_rdlock(&LOCK_grant); /* reload table if someone has modified any grants */ if (grant->version != grant_version) { grant->grant_table_user= table_hash_search(sctx->host, sctx->ip, db_name, sctx->priv_user, table_name, 0); /* purecov: inspected */ grant->grant_table_role= sctx->priv_role[0] ? table_hash_search("", NULL, db_name, sctx->priv_role, table_name, TRUE) : NULL; grant->version= grant_version; /* purecov: inspected */ } check_grant_column_int(grant->grant_table_user, name, (uint)length, &want_access); check_grant_column_int(grant->grant_table_role, name, (uint)length, &want_access); mysql_rwlock_unlock(&LOCK_grant); if (!want_access) DBUG_RETURN(0); char command[128]; get_privilege_desc(command, sizeof(command), want_access); /* TODO perhaps error should print current rolename aswell */ my_error(ER_COLUMNACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, name, table_name); DBUG_RETURN(1); } /* Check the access right to a column depending on the type of table. SYNOPSIS check_column_grant_in_table_ref() thd thread handler table_ref table reference where to check the field name name of field to check length length of name fld use fld object to check invisibility when it is not 0, not_found_field, view_ref_found DESCRIPTION Check the access rights to a column depending on the type of table reference where the column is checked. The function provides a generic interface to check column access rights that hides the heterogeneity of the column representation - whether it is a view or a stored table colum. RETURN FALSE OK TRUE access denied */ bool check_column_grant_in_table_ref(THD *thd, TABLE_LIST * table_ref, const char *name, size_t length, Field *fld) { GRANT_INFO *grant; const char *db_name; const char *table_name; Security_context *sctx= table_ref->security_ctx ? table_ref->security_ctx : thd->security_ctx; if (fld && fld != not_found_field && fld != view_ref_found && fld->invisible >= INVISIBLE_SYSTEM) return false; if (table_ref->view || table_ref->field_translation) { /* View or derived information schema table. */ ulong view_privs; grant= &(table_ref->grant); db_name= table_ref->view_db.str; table_name= table_ref->view_name.str; if (table_ref->belong_to_view && thd->lex->sql_command == SQLCOM_SHOW_FIELDS) { view_privs= get_column_grant(thd, grant, db_name, table_name, name); if (view_privs & VIEW_ANY_ACL) { table_ref->belong_to_view->allowed_show= TRUE; return FALSE; } table_ref->belong_to_view->allowed_show= FALSE; my_message(ER_VIEW_NO_EXPLAIN, ER_THD(thd, ER_VIEW_NO_EXPLAIN), MYF(0)); return TRUE; } } else { /* Normal or temporary table. */ TABLE *table= table_ref->table; grant= &(table->grant); db_name= table->s->db.str; table_name= table->s->table_name.str; } if (grant->want_privilege) return check_grant_column(thd, grant, db_name, table_name, name, length, sctx); else return FALSE; } /** @brief check if a query can access a set of columns @param thd the current thread @param want_access_arg the privileges requested @param fields an iterator over the fields of a table reference. @return Operation status @retval 0 Success @retval 1 Falure @details This function walks over the columns of a table reference The columns may originate from different tables, depending on the kind of table reference, e.g. join, view. For each table it will retrieve the grant information and will use it to check the required access privileges for the fields requested from it. */ bool check_grant_all_columns(THD *thd, ulong want_access_arg, Field_iterator_table_ref *fields) { Security_context *sctx= thd->security_ctx; ulong UNINIT_VAR(want_access); const char *table_name= NULL; const char* db_name; GRANT_INFO *grant; GRANT_TABLE *UNINIT_VAR(grant_table); GRANT_TABLE *UNINIT_VAR(grant_table_role); /* Flag that gets set if privilege checking has to be performed on column level. */ bool using_column_privileges= FALSE; mysql_rwlock_rdlock(&LOCK_grant); for (; !fields->end_of_fields(); fields->next()) { if (fields->field() && fields->field()->invisible >= INVISIBLE_SYSTEM) continue; LEX_CSTRING *field_name= fields->name(); if (table_name != fields->get_table_name()) { table_name= fields->get_table_name(); db_name= fields->get_db_name(); grant= fields->grant(); /* get a fresh one for each table */ want_access= want_access_arg & ~grant->privilege; if (want_access) { /* reload table if someone has modified any grants */ if (grant->version != grant_version) { grant->grant_table_user= table_hash_search(sctx->host, sctx->ip, db_name, sctx->priv_user, table_name, 0); /* purecov: inspected */ grant->grant_table_role= sctx->priv_role[0] ? table_hash_search("", NULL, db_name, sctx->priv_role, table_name, TRUE) : NULL; grant->version= grant_version; /* purecov: inspected */ } grant_table= grant->grant_table_user; grant_table_role= grant->grant_table_role; if (!grant_table && !grant_table_role) goto err; } } if (want_access) { ulong have_access= 0; if (grant_table) { GRANT_COLUMN *grant_column= column_hash_search(grant_table, field_name->str, field_name->length); if (grant_column) have_access= grant_column->rights; } if (grant_table_role) { GRANT_COLUMN *grant_column= column_hash_search(grant_table_role, field_name->str, field_name->length); if (grant_column) have_access|= grant_column->rights; } if (have_access) using_column_privileges= TRUE; if (want_access & ~have_access) goto err; } } mysql_rwlock_unlock(&LOCK_grant); return 0; err: mysql_rwlock_unlock(&LOCK_grant); char command[128]; get_privilege_desc(command, sizeof(command), want_access); /* Do not give an error message listing a column name unless the user has privilege to see all columns. */ if (using_column_privileges) my_error(ER_TABLEACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, table_name); else my_error(ER_COLUMNACCESS_DENIED_ERROR, MYF(0), command, sctx->priv_user, sctx->host_or_ip, fields->name()->str, table_name); return 1; } static bool check_grant_db_routine(THD *thd, const char *db, HASH *hash) { Security_context *sctx= thd->security_ctx; for (uint idx= 0; idx < hash->records; ++idx) { GRANT_NAME *item= (GRANT_NAME*) my_hash_element(hash, idx); if (strcmp(item->user, sctx->priv_user) == 0 && strcmp(item->db, db) == 0 && compare_hostname(&item->host, sctx->host, sctx->ip)) { return FALSE; } if (sctx->priv_role[0] && strcmp(item->user, sctx->priv_role) == 0 && strcmp(item->db, db) == 0 && (!item->host.hostname || !item->host.hostname[0])) { return FALSE; /* Found current role match */ } } return TRUE; } /* Check if a user has the right to access a database Access is accepted if he has a grant for any table/routine in the database Return 1 if access is denied */ bool check_grant_db(THD *thd, const char *db) { Security_context *sctx= thd->security_ctx; char helping [SAFE_NAME_LEN + USERNAME_LENGTH+2], *end; char helping2 [SAFE_NAME_LEN + USERNAME_LENGTH+2], *tmp_db; uint len, UNINIT_VAR(len2); bool error= TRUE; tmp_db= strmov(helping, sctx->priv_user) + 1; end= strnmov(tmp_db, db, helping + sizeof(helping) - tmp_db); if (end >= helping + sizeof(helping)) // db name was truncated return 1; // no privileges for an invalid db name if (lower_case_table_names) { end = tmp_db + my_casedn_str(files_charset_info, tmp_db); db=tmp_db; } len= (uint) (end - helping) + 1; /* If a role is set, we need to check for privileges here as well. */ if (sctx->priv_role[0]) { end= strmov(helping2, sctx->priv_role) + 1; end= strnmov(end, db, helping2 + sizeof(helping2) - end); len2= (uint) (end - helping2) + 1; } mysql_rwlock_rdlock(&LOCK_grant); for (uint idx=0 ; idx < column_priv_hash.records ; idx++) { GRANT_TABLE *grant_table= (GRANT_TABLE*) my_hash_element(&column_priv_hash, idx); if (len < grant_table->key_length && !memcmp(grant_table->hash_key, helping, len) && compare_hostname(&grant_table->host, sctx->host, sctx->ip)) { error= FALSE; /* Found match. */ break; } if (sctx->priv_role[0] && len2 < grant_table->key_length && !memcmp(grant_table->hash_key, helping2, len2) && (!grant_table->host.hostname || !grant_table->host.hostname[0])) { error= FALSE; /* Found role match */ break; } } if (error) error= check_grant_db_routine(thd, db, &proc_priv_hash) && check_grant_db_routine(thd, db, &func_priv_hash) && check_grant_db_routine(thd, db, &package_spec_priv_hash) && check_grant_db_routine(thd, db, &package_body_priv_hash); mysql_rwlock_unlock(&LOCK_grant); return error; } /**************************************************************************** Check routine level grants SYNPOSIS bool check_grant_routine() thd Thread handler want_access Bits of privileges user needs to have procs List of routines to check. The user should have 'want_access' sph SP handler no_errors If 0 then we write an error. The error is sent directly to the client RETURN 0 ok 1 Error: User did not have the requested privielges ****************************************************************************/ bool check_grant_routine(THD *thd, ulong want_access, TABLE_LIST *procs, const Sp_handler *sph, bool no_errors) { TABLE_LIST *table; Security_context *sctx= thd->security_ctx; char *user= sctx->priv_user; char *host= sctx->priv_host; char *role= sctx->priv_role; DBUG_ENTER("check_grant_routine"); want_access&= ~sctx->master_access; if (!want_access) DBUG_RETURN(0); // ok mysql_rwlock_rdlock(&LOCK_grant); for (table= procs; table; table= table->next_global) { GRANT_NAME *grant_proc; if ((grant_proc= routine_hash_search(host, sctx->ip, table->db.str, user, table->table_name.str, sph, 0))) table->grant.privilege|= grant_proc->privs; if (role[0]) /* current role set check */ { if ((grant_proc= routine_hash_search("", NULL, table->db.str, role, table->table_name.str, sph, 0))) table->grant.privilege|= grant_proc->privs; } if (want_access & ~table->grant.privilege) { want_access &= ~table->grant.privilege; goto err; } } mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(0); err: mysql_rwlock_unlock(&LOCK_grant); if (!no_errors) { char buff[1024]; const char *command=""; if (table) strxmov(buff, table->db.str, ".", table->table_name.str, NullS); if (want_access & EXECUTE_ACL) command= "execute"; else if (want_access & ALTER_PROC_ACL) command= "alter routine"; else if (want_access & GRANT_ACL) command= "grant"; my_error(ER_PROCACCESS_DENIED_ERROR, MYF(0), command, user, host, table ? buff : "unknown"); } DBUG_RETURN(1); } /* Check if routine has any of the routine level grants SYNPOSIS bool check_routine_level_acl() thd Thread handler db Database name name Routine name RETURN 0 Ok 1 error */ bool check_routine_level_acl(THD *thd, const char *db, const char *name, const Sp_handler *sph) { bool no_routine_acl= 1; GRANT_NAME *grant_proc; Security_context *sctx= thd->security_ctx; mysql_rwlock_rdlock(&LOCK_grant); if ((grant_proc= routine_hash_search(sctx->priv_host, sctx->ip, db, sctx->priv_user, name, sph, 0))) no_routine_acl= !(grant_proc->privs & SHOW_PROC_ACLS); if (no_routine_acl && sctx->priv_role[0]) /* current set role check */ { if ((grant_proc= routine_hash_search("", NULL, db, sctx->priv_role, name, sph, 0))) no_routine_acl= !(grant_proc->privs & SHOW_PROC_ACLS); } mysql_rwlock_unlock(&LOCK_grant); return no_routine_acl; } /***************************************************************************** Functions to retrieve the grant for a table/column (for SHOW functions) *****************************************************************************/ ulong get_table_grant(THD *thd, TABLE_LIST *table) { ulong privilege; Security_context *sctx= thd->security_ctx; const char *db = table->db.str ? table->db.str : thd->db.str; GRANT_TABLE *grant_table; GRANT_TABLE *grant_table_role= NULL; mysql_rwlock_rdlock(&LOCK_grant); #ifdef EMBEDDED_LIBRARY grant_table= NULL; grant_table_role= NULL; #else grant_table= table_hash_search(sctx->host, sctx->ip, db, sctx->priv_user, table->table_name.str, 0); if (sctx->priv_role[0]) grant_table_role= table_hash_search("", "", db, sctx->priv_role, table->table_name.str, 0); #endif table->grant.grant_table_user= grant_table; // Remember for column test table->grant.grant_table_role= grant_table_role; table->grant.version=grant_version; if (grant_table) table->grant.privilege|= grant_table->privs; if (grant_table_role) table->grant.privilege|= grant_table_role->privs; privilege= table->grant.privilege; mysql_rwlock_unlock(&LOCK_grant); return privilege; } /* Determine the access priviliges for a field. SYNOPSIS get_column_grant() thd thread handler grant grants table descriptor db_name name of database that the field belongs to table_name name of table that the field belongs to field_name name of field DESCRIPTION The procedure may also modify: grant->grant_table and grant->version. RETURN The access priviliges for the field db_name.table_name.field_name */ ulong get_column_grant(THD *thd, GRANT_INFO *grant, const char *db_name, const char *table_name, const char *field_name) { GRANT_TABLE *grant_table; GRANT_TABLE *grant_table_role; GRANT_COLUMN *grant_column; ulong priv= 0; mysql_rwlock_rdlock(&LOCK_grant); /* reload table if someone has modified any grants */ if (grant->version != grant_version) { Security_context *sctx= thd->security_ctx; grant->grant_table_user= table_hash_search(sctx->host, sctx->ip, db_name, sctx->priv_user, table_name, 0); /* purecov: inspected */ grant->grant_table_role= sctx->priv_role[0] ? table_hash_search("", "", db_name, sctx->priv_role, table_name, TRUE) : NULL; grant->version= grant_version; /* purecov: inspected */ } grant_table= grant->grant_table_user; grant_table_role= grant->grant_table_role; if (!grant_table && !grant_table_role) priv= grant->privilege; else { if (grant_table) { grant_column= column_hash_search(grant_table, field_name, (uint) strlen(field_name)); if (!grant_column) priv= (grant->privilege | grant_table->privs); else priv= (grant->privilege | grant_table->privs | grant_column->rights); } if (grant_table_role) { grant_column= column_hash_search(grant_table_role, field_name, (uint) strlen(field_name)); if (!grant_column) priv|= (grant->privilege | grant_table_role->privs); else priv|= (grant->privilege | grant_table_role->privs | grant_column->rights); } } mysql_rwlock_unlock(&LOCK_grant); return priv; } /* Help function for mysql_show_grants */ static void add_user_option(String *grant, long value, const char *name, bool is_signed) { if (value) { char buff[22], *p; // just as in int2str grant->append(' '); grant->append(name, strlen(name)); grant->append(' '); p=int10_to_str(value, buff, is_signed ? -10 : 10); grant->append(buff,p-buff); } } static void add_user_option(String *grant, double value, const char *name) { if (value != 0.0 ) { char buff[FLOATING_POINT_BUFFER]; size_t len; grant->append(' '); grant->append(name, strlen(name)); grant->append(' '); len= my_fcvt(value, 6, buff, NULL); grant->append(buff, len); } } static void add_user_parameters(THD *thd, String *result, ACL_USER* acl_user, bool with_grant) { result->append('@'); append_identifier(thd, result, acl_user->host.hostname, acl_user->hostname_length); if (acl_user->nauth == 1 && (acl_user->auth->plugin.str == native_password_plugin_name.str || acl_user->auth->plugin.str == old_password_plugin_name.str)) { if (acl_user->auth->auth_string.length) { result->append(STRING_WITH_LEN(" IDENTIFIED BY PASSWORD '")); result->append(&acl_user->auth->auth_string); result->append('\''); } } else { result->append(STRING_WITH_LEN(" IDENTIFIED VIA ")); for (uint i=0; i < acl_user->nauth; i++) { if (i) result->append(STRING_WITH_LEN(" OR ")); result->append(&acl_user->auth[i].plugin); if (acl_user->auth[i].auth_string.length) { result->append(STRING_WITH_LEN(" USING '")); result->append(&acl_user->auth[i].auth_string); result->append('\''); } } } /* "show grants" SSL related stuff */ if (acl_user->ssl_type == SSL_TYPE_ANY) result->append(STRING_WITH_LEN(" REQUIRE SSL")); else if (acl_user->ssl_type == SSL_TYPE_X509) result->append(STRING_WITH_LEN(" REQUIRE X509")); else if (acl_user->ssl_type == SSL_TYPE_SPECIFIED) { int ssl_options = 0; result->append(STRING_WITH_LEN(" REQUIRE ")); if (acl_user->x509_issuer[0]) { ssl_options++; result->append(STRING_WITH_LEN("ISSUER \'")); result->append(acl_user->x509_issuer,strlen(acl_user->x509_issuer)); result->append('\''); } if (acl_user->x509_subject[0]) { if (ssl_options++) result->append(' '); result->append(STRING_WITH_LEN("SUBJECT \'")); result->append(acl_user->x509_subject,strlen(acl_user->x509_subject), system_charset_info); result->append('\''); } if (acl_user->ssl_cipher) { if (ssl_options++) result->append(' '); result->append(STRING_WITH_LEN("CIPHER '")); result->append(acl_user->ssl_cipher,strlen(acl_user->ssl_cipher), system_charset_info); result->append('\''); } } if (with_grant || (acl_user->user_resource.questions || acl_user->user_resource.updates || acl_user->user_resource.conn_per_hour || acl_user->user_resource.user_conn || acl_user->user_resource.max_statement_time != 0.0)) { result->append(STRING_WITH_LEN(" WITH")); if (with_grant) result->append(STRING_WITH_LEN(" GRANT OPTION")); add_user_option(result, acl_user->user_resource.questions, "MAX_QUERIES_PER_HOUR", false); add_user_option(result, acl_user->user_resource.updates, "MAX_UPDATES_PER_HOUR", false); add_user_option(result, acl_user->user_resource.conn_per_hour, "MAX_CONNECTIONS_PER_HOUR", false); add_user_option(result, acl_user->user_resource.user_conn, "MAX_USER_CONNECTIONS", true); add_user_option(result, acl_user->user_resource.max_statement_time, "MAX_STATEMENT_TIME"); } } static const char *command_array[]= { "SELECT", "INSERT", "UPDATE", "DELETE", "CREATE", "DROP", "RELOAD", "SHUTDOWN", "PROCESS","FILE", "GRANT", "REFERENCES", "INDEX", "ALTER", "SHOW DATABASES", "SUPER", "CREATE TEMPORARY TABLES", "LOCK TABLES", "EXECUTE", "REPLICATION SLAVE", "REPLICATION CLIENT", "CREATE VIEW", "SHOW VIEW", "CREATE ROUTINE", "ALTER ROUTINE", "CREATE USER", "EVENT", "TRIGGER", "CREATE TABLESPACE", "DELETE HISTORY" }; static uint command_lengths[]= { 6, 6, 6, 6, 6, 4, 6, 8, 7, 4, 5, 10, 5, 5, 14, 5, 23, 11, 7, 17, 18, 11, 9, 14, 13, 11, 5, 7, 17, 14, }; static bool print_grants_for_role(THD *thd, ACL_ROLE * role) { char buff[1024]; if (show_role_grants(thd, "", role, buff, sizeof(buff))) return TRUE; if (show_global_privileges(thd, role, TRUE, buff, sizeof(buff))) return TRUE; if (show_database_privileges(thd, role->user.str, "", buff, sizeof(buff))) return TRUE; if (show_table_and_column_privileges(thd, role->user.str, "", buff, sizeof(buff))) return TRUE; if (show_routine_grants(thd, role->user.str, "", &sp_handler_procedure, buff, sizeof(buff))) return TRUE; if (show_routine_grants(thd, role->user.str, "", &sp_handler_function, buff, sizeof(buff))) return TRUE; if (show_routine_grants(thd, role->user.str, "", &sp_handler_package_spec, buff, sizeof(buff))) return TRUE; if (show_routine_grants(thd, role->user.str, "", &sp_handler_package_body, buff, sizeof(buff))) return TRUE; return FALSE; } static void append_auto_expiration_policy(ACL_USER *acl_user, String *r) { if (!acl_user->password_lifetime) r->append(STRING_WITH_LEN(" PASSWORD EXPIRE NEVER")); else if (acl_user->password_lifetime > 0) { r->append(STRING_WITH_LEN(" PASSWORD EXPIRE INTERVAL ")); r->append_longlong(acl_user->password_lifetime); r->append(STRING_WITH_LEN(" DAY")); } } bool mysql_show_create_user(THD *thd, LEX_USER *lex_user) { const char *username= NULL, *hostname= NULL; char buff[1024]; //Show create user should not take more than 1024 bytes. Protocol *protocol= thd->protocol; bool error= false; ACL_USER *acl_user; uint head_length; DBUG_ENTER("mysql_show_create_user"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(TRUE); } if (get_show_user(thd, lex_user, &username, &hostname, NULL)) DBUG_RETURN(TRUE); List<Item> field_list; head_length= (uint) (strxmov(buff, "CREATE USER for ", username, "@", hostname, NullS) - buff); Item_string *field = new (thd->mem_root) Item_string_ascii(thd, "", 0); if (!field) DBUG_RETURN(true); // Error given my my_alloc() field->name.str= buff; field->name.length= head_length; field->max_length= sizeof(buff); field_list.push_back(field, thd->mem_root); if (protocol->send_result_set_metadata(&field_list, Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF)) DBUG_RETURN(true); String result(buff, sizeof(buff), system_charset_info); result.length(0); mysql_rwlock_rdlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); acl_user= find_user_exact(hostname, username); // User not found in the internal data structures. if (!acl_user) { my_error(ER_PASSWORD_NO_MATCH, MYF(0)); error= true; goto end; } result.append("CREATE USER "); append_identifier(thd, &result, username, strlen(username)); add_user_parameters(thd, &result, acl_user, false); if (acl_user->account_locked) result.append(STRING_WITH_LEN(" ACCOUNT LOCK")); if (acl_user->password_expired) result.append(STRING_WITH_LEN(" PASSWORD EXPIRE")); else append_auto_expiration_policy(acl_user, &result); protocol->prepare_for_resend(); protocol->store(result.ptr(), result.length(), result.charset()); if (protocol->write()) { error= true; } /* MDEV-24114 - PASSWORD EXPIRE and PASSWORD EXPIRE [NEVER | INTERVAL X DAY] are two different mechanisms. To make sure a tool can restore the state of a user account, including both the manual expiration state of the account and the automatic expiration policy attached to it, we should print two statements here, a CREATE USER (printed above) and an ALTER USER */ if (acl_user->password_expired && acl_user->password_lifetime > -1) { result.length(0); result.append("ALTER USER "); append_identifier(thd, &result, username, strlen(username)); result.append('@'); append_identifier(thd, &result, acl_user->host.hostname, acl_user->hostname_length); append_auto_expiration_policy(acl_user, &result); protocol->prepare_for_resend(); protocol->store(result.ptr(), result.length(), result.charset()); if (protocol->write()) { error= true; } } my_eof(thd); end: mysql_rwlock_unlock(&LOCK_grant); mysql_mutex_unlock(&acl_cache->lock); DBUG_RETURN(error); } static int show_grants_callback(ACL_USER_BASE *role, void *data) { THD *thd= (THD *)data; DBUG_ASSERT(role->flags & IS_ROLE); if (print_grants_for_role(thd, (ACL_ROLE *)role)) return -1; return 0; } void mysql_show_grants_get_fields(THD *thd, List<Item> *fields, const char *name, size_t length) { Item_string *field=new (thd->mem_root) Item_string_ascii(thd, "", 0); /* Set name explicit to avoid character set conversions */ field->name.str= name; field->name.length= length; field->max_length=1024; fields->push_back(field, thd->mem_root); } /** checks privileges for SHOW GRANTS and SHOW CREATE USER @note that in case of SHOW CREATE USER the parser guarantees that a role can never happen here, so *rolename will never be assigned to */ bool get_show_user(THD *thd, LEX_USER *lex_user, const char **username, const char **hostname, const char **rolename) { if (lex_user->user.str == current_user.str) { *username= thd->security_ctx->priv_user; *hostname= thd->security_ctx->priv_host; return 0; } if (lex_user->user.str == current_role.str) { *rolename= thd->security_ctx->priv_role; return 0; } if (lex_user->user.str == current_user_and_current_role.str) { *username= thd->security_ctx->priv_user; *hostname= thd->security_ctx->priv_host; *rolename= thd->security_ctx->priv_role; return 0; } Security_context *sctx= thd->security_ctx; bool do_check_access; if (!(lex_user= get_current_user(thd, lex_user))) return 1; if (lex_user->is_role()) { *rolename= lex_user->user.str; do_check_access= strcmp(*rolename, sctx->priv_role); } else { *username= lex_user->user.str; *hostname= lex_user->host.str; do_check_access= strcmp(*username, sctx->priv_user) || strcmp(*hostname, sctx->priv_host); } if (do_check_access && check_access(thd, SELECT_ACL, "mysql", 0, 0, 1, 0)) return 1; return 0; } /* SHOW GRANTS; Send grants for a user to the client IMPLEMENTATION Send to client grant-like strings depicting user@host privileges */ bool mysql_show_grants(THD *thd, LEX_USER *lex_user) { int error = -1; ACL_USER *UNINIT_VAR(acl_user); ACL_ROLE *acl_role= NULL; char buff[1024]; Protocol *protocol= thd->protocol; const char *username= NULL, *hostname= NULL, *rolename= NULL, *end; DBUG_ENTER("mysql_show_grants"); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(TRUE); } if (get_show_user(thd, lex_user, &username, &hostname, &rolename)) DBUG_RETURN(TRUE); DBUG_ASSERT(rolename || username); List<Item> field_list; if (username) end= strxmov(buff,"Grants for ",username,"@",hostname, NullS); else end= strxmov(buff,"Grants for ",rolename, NullS); mysql_show_grants_get_fields(thd, &field_list, buff, (uint) (end-buff)); if (protocol->send_result_set_metadata(&field_list, Protocol::SEND_NUM_ROWS | Protocol::SEND_EOF)) DBUG_RETURN(TRUE); mysql_rwlock_rdlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); if (username) { acl_user= find_user_exact(hostname, username); if (!acl_user) { mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); my_error(ER_NONEXISTING_GRANT, MYF(0), username, hostname); DBUG_RETURN(TRUE); } /* Show granted roles to acl_user */ if (show_role_grants(thd, hostname, acl_user, buff, sizeof(buff))) goto end; /* Add first global access grants */ if (show_global_privileges(thd, acl_user, FALSE, buff, sizeof(buff))) goto end; /* Add database access */ if (show_database_privileges(thd, username, hostname, buff, sizeof(buff))) goto end; /* Add table & column access */ if (show_table_and_column_privileges(thd, username, hostname, buff, sizeof(buff))) goto end; if (show_routine_grants(thd, username, hostname, &sp_handler_procedure, buff, sizeof(buff))) goto end; if (show_routine_grants(thd, username, hostname, &sp_handler_function, buff, sizeof(buff))) goto end; if (show_routine_grants(thd, username, hostname, &sp_handler_package_spec, buff, sizeof(buff))) goto end; if (show_routine_grants(thd, username, hostname, &sp_handler_package_body, buff, sizeof(buff))) goto end; if (show_proxy_grants(thd, username, hostname, buff, sizeof(buff))) goto end; } if (rolename) { acl_role= find_acl_role(rolename); if (acl_role) { /* get a list of all inherited roles */ traverse_role_graph_down(acl_role, thd, show_grants_callback, NULL); } else { if (lex_user->user.str == current_role.str) { mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); my_error(ER_NONEXISTING_GRANT, MYF(0), thd->security_ctx->priv_user, thd->security_ctx->priv_host); DBUG_RETURN(TRUE); } } } if (username) { /* Show default role to acl_user */ if (show_default_role(thd, acl_user, buff, sizeof(buff))) goto end; } error= 0; end: mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); my_eof(thd); DBUG_RETURN(error); } static ROLE_GRANT_PAIR *find_role_grant_pair(const LEX_CSTRING *u, const LEX_CSTRING *h, const LEX_CSTRING *r) { char buf[1024]; String pair_key(buf, sizeof(buf), &my_charset_bin); size_t key_length= u->length + h->length + r->length + 3; pair_key.alloc(key_length); strmov(strmov(strmov(const_cast<char*>(pair_key.ptr()), safe_str(u->str)) + 1, h->str) + 1, r->str); return (ROLE_GRANT_PAIR *) my_hash_search(&acl_roles_mappings, (uchar*)pair_key.ptr(), key_length); } static bool show_default_role(THD *thd, ACL_USER *acl_entry, char *buff, size_t buffsize) { Protocol *protocol= thd->protocol; LEX_CSTRING def_rolename= acl_entry->default_rolename; if (def_rolename.length) { String def_str(buff, buffsize, system_charset_info); def_str.length(0); def_str.append(STRING_WITH_LEN("SET DEFAULT ROLE ")); def_str.append(&def_rolename); def_str.append(" FOR '"); def_str.append(&acl_entry->user); DBUG_ASSERT(!(acl_entry->flags & IS_ROLE)); def_str.append(STRING_WITH_LEN("'@'")); def_str.append(acl_entry->host.hostname, acl_entry->hostname_length, system_charset_info); def_str.append('\''); protocol->prepare_for_resend(); protocol->store(def_str.ptr(),def_str.length(),def_str.charset()); if (protocol->write()) { return TRUE; } } return FALSE; } static bool show_role_grants(THD *thd, const char *hostname, ACL_USER_BASE *acl_entry, char *buff, size_t buffsize) { uint counter; Protocol *protocol= thd->protocol; LEX_CSTRING host= {const_cast<char*>(hostname), strlen(hostname)}; String grant(buff, buffsize, system_charset_info); for (counter= 0; counter < acl_entry->role_grants.elements; counter++) { grant.length(0); grant.append(STRING_WITH_LEN("GRANT ")); ACL_ROLE *acl_role= *(dynamic_element(&acl_entry->role_grants, counter, ACL_ROLE**)); append_identifier(thd, &grant, acl_role->user.str, acl_role->user.length); grant.append(STRING_WITH_LEN(" TO ")); append_identifier(thd, &grant, acl_entry->user.str, acl_entry->user.length); if (!(acl_entry->flags & IS_ROLE)) { grant.append('@'); append_identifier(thd, &grant, host.str, host.length); } ROLE_GRANT_PAIR *pair= find_role_grant_pair(&acl_entry->user, &host, &acl_role->user); DBUG_ASSERT(pair); if (pair->with_admin) grant.append(STRING_WITH_LEN(" WITH ADMIN OPTION")); protocol->prepare_for_resend(); protocol->store(grant.ptr(),grant.length(),grant.charset()); if (protocol->write()) { return TRUE; } } return FALSE; } static bool show_global_privileges(THD *thd, ACL_USER_BASE *acl_entry, bool handle_as_role, char *buff, size_t buffsize) { uint counter; ulong want_access; Protocol *protocol= thd->protocol; String global(buff, buffsize, system_charset_info); global.length(0); global.append(STRING_WITH_LEN("GRANT ")); if (handle_as_role) want_access= ((ACL_ROLE *)acl_entry)->initial_role_access; else want_access= acl_entry->access; if (test_all_bits(want_access, (GLOBAL_ACLS & ~ GRANT_ACL))) global.append(STRING_WITH_LEN("ALL PRIVILEGES")); else if (!(want_access & ~GRANT_ACL)) global.append(STRING_WITH_LEN("USAGE")); else { bool found=0; ulong j,test_access= want_access & ~GRANT_ACL; for (counter=0, j = SELECT_ACL;j <= GLOBAL_ACLS;counter++,j <<= 1) { if (test_access & j) { if (found) global.append(STRING_WITH_LEN(", ")); found=1; global.append(command_array[counter],command_lengths[counter]); } } } global.append (STRING_WITH_LEN(" ON *.* TO ")); append_identifier(thd, &global, acl_entry->user.str, acl_entry->user.length); if (!handle_as_role) add_user_parameters(thd, &global, (ACL_USER *)acl_entry, (want_access & GRANT_ACL)); else if (want_access & GRANT_ACL) global.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(global.ptr(),global.length(),global.charset()); if (protocol->write()) return TRUE; return FALSE; } static void add_to_user(THD *thd, String *result, const char *user, bool is_user, const char *host) { result->append(STRING_WITH_LEN(" TO ")); append_identifier(thd, result, user, strlen(user)); if (is_user) { result->append('@'); // host and lex_user->host are equal except for case append_identifier(thd, result, host, strlen(host)); } } static bool show_database_privileges(THD *thd, const char *username, const char *hostname, char *buff, size_t buffsize) { ulong want_access; Protocol *protocol= thd->protocol; for (uint i=0 ; i < acl_dbs.elements() ; i++) { const char *user, *host; ACL_DB *acl_db= &acl_dbs.at(i); user= acl_db->user; host=acl_db->host.hostname; /* We do not make SHOW GRANTS case-sensitive here (like REVOKE), but make it case-insensitive because that's the way they are actually applied, and showing fewer privileges than are applied would be wrong from a security point of view. */ if (!strcmp(username, user) && !my_strcasecmp(system_charset_info, hostname, host)) { /* do not print inherited access bits for roles, the role bits present in the table are what matters */ if (*hostname) // User want_access=acl_db->access; else // Role want_access=acl_db->initial_access; if (want_access) { String db(buff, buffsize, system_charset_info); db.length(0); db.append(STRING_WITH_LEN("GRANT ")); if (test_all_bits(want_access,(DB_ACLS & ~GRANT_ACL))) db.append(STRING_WITH_LEN("ALL PRIVILEGES")); else if (!(want_access & ~GRANT_ACL)) db.append(STRING_WITH_LEN("USAGE")); else { int found=0, cnt; ulong j,test_access= want_access & ~GRANT_ACL; for (cnt=0, j = SELECT_ACL; j <= DB_ACLS; cnt++,j <<= 1) { if (test_access & j) { if (found) db.append(STRING_WITH_LEN(", ")); found = 1; db.append(command_array[cnt],command_lengths[cnt]); } } } db.append (STRING_WITH_LEN(" ON ")); append_identifier(thd, &db, acl_db->db, strlen(acl_db->db)); db.append (STRING_WITH_LEN(".*")); add_to_user(thd, &db, username, (*hostname), host); if (want_access & GRANT_ACL) db.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(db.ptr(),db.length(),db.charset()); if (protocol->write()) { return TRUE; } } } } return FALSE; } static bool show_table_and_column_privileges(THD *thd, const char *username, const char *hostname, char *buff, size_t buffsize) { uint counter, index; Protocol *protocol= thd->protocol; for (index=0 ; index < column_priv_hash.records ; index++) { const char *user, *host; GRANT_TABLE *grant_table= (GRANT_TABLE*) my_hash_element(&column_priv_hash, index); user= grant_table->user; host= grant_table->host.hostname; /* We do not make SHOW GRANTS case-sensitive here (like REVOKE), but make it case-insensitive because that's the way they are actually applied, and showing fewer privileges than are applied would be wrong from a security point of view. */ if (!strcmp(username,user) && !my_strcasecmp(system_charset_info, hostname, host)) { ulong table_access; ulong cols_access; if (*hostname) // User { table_access= grant_table->privs; cols_access= grant_table->cols; } else // Role { table_access= grant_table->init_privs; cols_access= grant_table->init_cols; } if ((table_access | cols_access) != 0) { String global(buff, sizeof(buff), system_charset_info); ulong test_access= (table_access | cols_access) & ~GRANT_ACL; global.length(0); global.append(STRING_WITH_LEN("GRANT ")); if (test_all_bits(table_access, (TABLE_ACLS & ~GRANT_ACL))) global.append(STRING_WITH_LEN("ALL PRIVILEGES")); else if (!test_access) global.append(STRING_WITH_LEN("USAGE")); else { /* Add specific column access */ int found= 0; ulong j; for (counter= 0, j= SELECT_ACL; j <= TABLE_ACLS; counter++, j<<= 1) { if (test_access & j) { if (found) global.append(STRING_WITH_LEN(", ")); found= 1; global.append(command_array[counter],command_lengths[counter]); if (grant_table->cols) { uint found_col= 0; HASH *hash_columns; hash_columns= &grant_table->hash_columns; for (uint col_index=0 ; col_index < hash_columns->records ; col_index++) { GRANT_COLUMN *grant_column = (GRANT_COLUMN*) my_hash_element(hash_columns,col_index); if (j & (*hostname ? grant_column->rights // User : grant_column->init_rights)) // Role { if (!found_col) { found_col= 1; /* If we have a duplicated table level privilege, we must write the access privilege name again. */ if (table_access & j) { global.append(STRING_WITH_LEN(", ")); global.append(command_array[counter], command_lengths[counter]); } global.append(STRING_WITH_LEN(" (")); } else global.append(STRING_WITH_LEN(", ")); global.append(grant_column->column, grant_column->key_length, system_charset_info); } } if (found_col) global.append(')'); } } } } global.append(STRING_WITH_LEN(" ON ")); append_identifier(thd, &global, grant_table->db, strlen(grant_table->db)); global.append('.'); append_identifier(thd, &global, grant_table->tname, strlen(grant_table->tname)); add_to_user(thd, &global, username, (*hostname), host); if (table_access & GRANT_ACL) global.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(global.ptr(),global.length(),global.charset()); if (protocol->write()) { return TRUE; } } } } return FALSE; } static int show_routine_grants(THD* thd, const char *username, const char *hostname, const Sp_handler *sph, char *buff, int buffsize) { uint counter, index; int error= 0; Protocol *protocol= thd->protocol; HASH *hash= sph->get_priv_hash(); /* Add routine access */ for (index=0 ; index < hash->records ; index++) { const char *user, *host; GRANT_NAME *grant_proc= (GRANT_NAME*) my_hash_element(hash, index); user= grant_proc->user; host= grant_proc->host.hostname; /* We do not make SHOW GRANTS case-sensitive here (like REVOKE), but make it case-insensitive because that's the way they are actually applied, and showing fewer privileges than are applied would be wrong from a security point of view. */ if (!strcmp(username, user) && !my_strcasecmp(system_charset_info, hostname, host)) { ulong proc_access; if (*hostname) // User proc_access= grant_proc->privs; else // Role proc_access= grant_proc->init_privs; if (proc_access != 0) { String global(buff, buffsize, system_charset_info); ulong test_access= proc_access & ~GRANT_ACL; global.length(0); global.append(STRING_WITH_LEN("GRANT ")); if (!test_access) global.append(STRING_WITH_LEN("USAGE")); else { /* Add specific procedure access */ int found= 0; ulong j; for (counter= 0, j= SELECT_ACL; j <= PROC_ACLS; counter++, j<<= 1) { if (test_access & j) { if (found) global.append(STRING_WITH_LEN(", ")); found= 1; global.append(command_array[counter],command_lengths[counter]); } } } global.append(STRING_WITH_LEN(" ON ")); LEX_CSTRING tmp= sph->type_lex_cstring(); global.append(&tmp); global.append(' '); append_identifier(thd, &global, grant_proc->db, strlen(grant_proc->db)); global.append('.'); append_identifier(thd, &global, grant_proc->tname, strlen(grant_proc->tname)); add_to_user(thd, &global, username, (*hostname), host); if (proc_access & GRANT_ACL) global.append(STRING_WITH_LEN(" WITH GRANT OPTION")); protocol->prepare_for_resend(); protocol->store(global.ptr(),global.length(),global.charset()); if (protocol->write()) { error= -1; break; } } } } return error; } /* Make a clear-text version of the requested privilege. */ void get_privilege_desc(char *to, uint max_length, ulong access) { uint pos; char *start=to; DBUG_ASSERT(max_length >= 30); // For end ', ' removal if (access) { max_length--; // Reserve place for end-zero for (pos=0 ; access ; pos++, access>>=1) { if ((access & 1) && command_lengths[pos] + (uint) (to-start) < max_length) { to= strmov(to, command_array[pos]); *to++= ','; *to++= ' '; } } to--; // Remove end ' ' to--; // Remove end ',' } *to=0; } void get_mqh(const char *user, const char *host, USER_CONN *uc) { ACL_USER *acl_user; mysql_mutex_lock(&acl_cache->lock); if (initialized && (acl_user= find_user_wild(host,user))) uc->user_resources= acl_user->user_resource; else bzero((char*) &uc->user_resources, sizeof(uc->user_resources)); mysql_mutex_unlock(&acl_cache->lock); } /* Modify a privilege table. SYNOPSIS modify_grant_table() table The table to modify. host_field The host name field. user_field The user name field. user_to The new name for the user if to be renamed, NULL otherwise. DESCRIPTION Update user/host in the current record if user_to is not NULL. Delete the current record if user_to is NULL. RETURN 0 OK. != 0 Error. */ static int modify_grant_table(TABLE *table, Field *host_field, Field *user_field, LEX_USER *user_to) { int error; DBUG_ENTER("modify_grant_table"); if (user_to) { /* rename */ store_record(table, record[1]); host_field->store(user_to->host.str, user_to->host.length, system_charset_info); user_field->store(user_to->user.str, user_to->user.length, system_charset_info); if (unlikely(error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) table->file->print_error(error, MYF(0)); else error= 0; } else { /* delete */ if (unlikely((error=table->file->ha_delete_row(table->record[0])))) table->file->print_error(error, MYF(0)); } DBUG_RETURN(error); } /* Handle the roles_mapping privilege table */ static int handle_roles_mappings_table(TABLE *table, bool drop, LEX_USER *user_from, LEX_USER *user_to) { /* All entries (Host, User) that match user_from will be renamed, as well as all Role entries that match if user_from.host.str == "" Otherwise, only matching (Host, User) will be renamed. */ DBUG_ENTER("handle_roles_mappings_table"); int error; int result= 0; THD *thd= table->in_use; const char *host, *user, *role; Field *host_field= table->field[0]; Field *user_field= table->field[1]; Field *role_field= table->field[2]; DBUG_PRINT("info", ("Rewriting entry in roles_mapping table: %s@%s", user_from->user.str, user_from->host.str)); table->use_all_columns(); if (unlikely(table->file->ha_rnd_init_with_error(1))) result= -1; else { while((error= table->file->ha_rnd_next(table->record[0])) != HA_ERR_END_OF_FILE) { if (error) { DBUG_PRINT("info", ("scan error: %d", error)); continue; } host= safe_str(get_field(thd->mem_root, host_field)); user= safe_str(get_field(thd->mem_root, user_field)); if (!(strcmp(user_from->user.str, user) || my_strcasecmp(system_charset_info, user_from->host.str, host))) result= ((drop || user_to) && modify_grant_table(table, host_field, user_field, user_to)) ? -1 : result ? result : 1; /* Error or keep result or found. */ else { role= safe_str(get_field(thd->mem_root, role_field)); if (!user_from->is_role() || strcmp(user_from->user.str, role)) continue; error= 0; if (drop) /* drop if requested */ { if (unlikely((error= table->file->ha_delete_row(table->record[0])))) table->file->print_error(error, MYF(0)); } else if (user_to) { store_record(table, record[1]); role_field->store(user_to->user.str, user_to->user.length, system_charset_info); if (unlikely(error= table->file->ha_update_row(table->record[1], table->record[0])) && error != HA_ERR_RECORD_IS_THE_SAME) table->file->print_error(error, MYF(0)); } /* Error or keep result or found. */ result= error ? -1 : result ? result : 1; } } table->file->ha_rnd_end(); } DBUG_RETURN(result); } /* Handle a privilege table. SYNOPSIS handle_grant_table() grant_table An open grant table handle. which_table Which grant table to handle. drop If user_from is to be dropped. user_from The the user to be searched/dropped/renamed. user_to The new name for the user if to be renamed, NULL otherwise. DESCRIPTION Scan through all records in a grant table and apply the requested operation. For the "user" table, a single index access is sufficient, since there is an unique index on (host, user). Delete from grant table if drop is true. Update in grant table if drop is false and user_to is not NULL. Search in grant table if drop is false and user_to is NULL. RETURN > 0 At least one record matched. 0 OK, but no record matched. < 0 Error. TODO(cvicentiu) refactor handle_grant_table to use Grant_table_base instead of TABLE directly. */ static int handle_grant_table(THD *thd, const Grant_table_base& grant_table, enum enum_acl_tables which_table, bool drop, LEX_USER *user_from, LEX_USER *user_to) { int result= 0; int error; TABLE *table= grant_table.table(); Field *host_field= table->field[0]; Field *user_field= table->field[which_table == USER_TABLE || which_table == PROXIES_PRIV_TABLE ? 1 : 2]; const char *host_str= user_from->host.str; const char *user_str= user_from->user.str; const char *host; const char *user; uchar user_key[MAX_KEY_LENGTH]; uint key_prefix_length; DBUG_ENTER("handle_grant_table"); if (which_table == ROLES_MAPPING_TABLE) { result= handle_roles_mappings_table(table, drop, user_from, user_to); DBUG_RETURN(result); } table->use_all_columns(); if (which_table == USER_TABLE) // mysql.user table { /* The 'user' table has an unique index on (host, user). Thus, we can handle everything with a single index access. The host- and user fields are consecutive in the user table records. So we set host- and user fields of table->record[0] and use the pointer to the host field as key. index_read_idx() will replace table->record[0] (its first argument) by the searched record, if it exists. */ DBUG_PRINT("info",("read table: '%s' search: '%s'@'%s'", table->s->table_name.str, user_str, host_str)); host_field->store(host_str, user_from->host.length, system_charset_info); user_field->store(user_str, user_from->user.length, system_charset_info); key_prefix_length= (table->key_info->key_part[0].store_length + table->key_info->key_part[1].store_length); key_copy(user_key, table->record[0], table->key_info, key_prefix_length); error= table->file->ha_index_read_idx_map(table->record[0], 0, user_key, (key_part_map)3, HA_READ_KEY_EXACT); if (!unlikely(error) && !*host_str) { // verify that we got a role or a user, as needed if (static_cast<const User_table&>(grant_table).get_is_role() != user_from->is_role()) error= HA_ERR_KEY_NOT_FOUND; } if (unlikely(error)) { if (error != HA_ERR_KEY_NOT_FOUND && error != HA_ERR_END_OF_FILE) { table->file->print_error(error, MYF(0)); result= -1; } } else { /* If requested, delete or update the record. */ result= ((drop || user_to) && modify_grant_table(table, host_field, user_field, user_to)) ? -1 : 1; /* Error or found. */ } DBUG_PRINT("info",("read result: %d", result)); } else { /* The non-'user' table do not have indexes on (host, user). And their host- and user fields are not consecutive. Thus, we need to do a table scan to find all matching records. */ if (unlikely(table->file->ha_rnd_init_with_error(1))) result= -1; else { #ifdef EXTRA_DEBUG DBUG_PRINT("info",("scan table: '%s' search: '%s'@'%s'", table->s->table_name.str, user_str, host_str)); #endif while ((error= table->file->ha_rnd_next(table->record[0])) != HA_ERR_END_OF_FILE) { if (error) { /* Most probable 'deleted record'. */ DBUG_PRINT("info",("scan error: %d", error)); continue; } host= safe_str(get_field(thd->mem_root, host_field)); user= safe_str(get_field(thd->mem_root, user_field)); #ifdef EXTRA_DEBUG if (which_table != PROXIES_PRIV_TABLE) { DBUG_PRINT("loop",("scan fields: '%s'@'%s' '%s' '%s' '%s'", user, host, get_field(thd->mem_root, table->field[1]) /*db*/, get_field(thd->mem_root, table->field[3]) /*table*/, get_field(thd->mem_root, table->field[4]) /*column*/)); } #endif if (strcmp(user_str, user) || my_strcasecmp(system_charset_info, host_str, host)) continue; /* If requested, delete or update the record. */ result= ((drop || user_to) && modify_grant_table(table, host_field, user_field, user_to)) ? -1 : result ? result : 1; /* Error or keep result or found. */ /* If search is requested, we do not need to search further. */ if (! drop && ! user_to) break ; } (void) table->file->ha_rnd_end(); DBUG_PRINT("info",("scan result: %d", result)); } } DBUG_RETURN(result); } /** Handle an in-memory privilege structure. @param struct_no The number of the structure to handle (0..6). @param drop If user_from is to be dropped. @param user_from The the user to be searched/dropped/renamed. @param user_to The new name for the user if to be renamed, NULL otherwise. @note Scan through all elements in an in-memory grant structure and apply the requested operation. Delete from grant structure if drop is true. Update in grant structure if drop is false and user_to is not NULL. Search in grant structure if drop is false and user_to is NULL. @retval > 0 At least one element matched. @retval 0 OK, but no element matched. */ static int handle_grant_struct(enum enum_acl_lists struct_no, bool drop, LEX_USER *user_from, LEX_USER *user_to) { int result= 0; int idx; int elements; const char *UNINIT_VAR(user); const char *UNINIT_VAR(host); ACL_USER *acl_user= NULL; ACL_ROLE *acl_role= NULL; ACL_DB *acl_db= NULL; ACL_PROXY_USER *acl_proxy_user= NULL; GRANT_NAME *grant_name= NULL; ROLE_GRANT_PAIR *UNINIT_VAR(role_grant_pair); HASH *grant_name_hash= NULL; HASH *roles_mappings_hash= NULL; DBUG_ENTER("handle_grant_struct"); DBUG_PRINT("info",("scan struct: %u search: '%s'@'%s'", struct_no, user_from->user.str, user_from->host.str)); mysql_mutex_assert_owner(&acl_cache->lock); /* No point in querying ROLE ACL if user_from is not a role */ if (struct_no == ROLE_ACL && user_from->host.length) DBUG_RETURN(0); /* same. no roles in PROXY_USERS_ACL */ if (struct_no == PROXY_USERS_ACL && user_from->is_role()) DBUG_RETURN(0); if (struct_no == ROLE_ACL) //no need to scan the structures in this case { acl_role= find_acl_role(user_from->user.str); if (!acl_role) DBUG_RETURN(0); if (!drop && !user_to) //role was found DBUG_RETURN(1); /* this calls for a role update */ const char *old_key= acl_role->user.str; size_t old_key_length= acl_role->user.length; if (drop) { /* all grants must be revoked from this role by now. propagate this */ propagate_role_grants(acl_role, PRIVS_TO_MERGE::ALL); // delete the role from cross-reference arrays for (uint i=0; i < acl_role->role_grants.elements; i++) { ACL_ROLE *grant= *dynamic_element(&acl_role->role_grants, i, ACL_ROLE**); remove_ptr_from_dynarray(&grant->parent_grantee, acl_role); } for (uint i=0; i < acl_role->parent_grantee.elements; i++) { ACL_USER_BASE *grantee= *dynamic_element(&acl_role->parent_grantee, i, ACL_USER_BASE**); remove_ptr_from_dynarray(&grantee->role_grants, acl_role); } my_hash_delete(&acl_roles, (uchar*) acl_role); DBUG_RETURN(1); } acl_role->user= safe_lexcstrdup_root(&acl_memroot, user_to->user); my_hash_update(&acl_roles, (uchar*) acl_role, (uchar*) old_key, old_key_length); DBUG_RETURN(1); } /* Get the number of elements in the in-memory structure. */ switch (struct_no) { case USER_ACL: elements= acl_users.elements; break; case DB_ACL: elements= int(acl_dbs.elements()); break; case COLUMN_PRIVILEGES_HASH: grant_name_hash= &column_priv_hash; elements= grant_name_hash->records; break; case PROC_PRIVILEGES_HASH: grant_name_hash= &proc_priv_hash; elements= grant_name_hash->records; break; case FUNC_PRIVILEGES_HASH: grant_name_hash= &func_priv_hash; elements= grant_name_hash->records; break; case PACKAGE_SPEC_PRIVILEGES_HASH: grant_name_hash= &package_spec_priv_hash; elements= grant_name_hash->records; break; case PACKAGE_BODY_PRIVILEGES_HASH: grant_name_hash= &package_body_priv_hash; elements= grant_name_hash->records; break; case PROXY_USERS_ACL: elements= acl_proxy_users.elements; break; case ROLES_MAPPINGS_HASH: roles_mappings_hash= &acl_roles_mappings; elements= roles_mappings_hash->records; break; default: DBUG_ASSERT(0); DBUG_RETURN(-1); } #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan struct: %u search user: '%s' host: '%s'", struct_no, user_from->user.str, user_from->host.str)); #endif /* Loop over all elements *backwards* (see the comment below). */ for (idx= elements - 1; idx >= 0; idx--) { /* Get a pointer to the element. */ switch (struct_no) { case USER_ACL: acl_user= dynamic_element(&acl_users, idx, ACL_USER*); user= acl_user->user.str; host= acl_user->host.hostname; break; case DB_ACL: acl_db= &acl_dbs.at(idx); user= acl_db->user; host= acl_db->host.hostname; break; case COLUMN_PRIVILEGES_HASH: case PROC_PRIVILEGES_HASH: case FUNC_PRIVILEGES_HASH: case PACKAGE_SPEC_PRIVILEGES_HASH: case PACKAGE_BODY_PRIVILEGES_HASH: grant_name= (GRANT_NAME*) my_hash_element(grant_name_hash, idx); user= grant_name->user; host= grant_name->host.hostname; break; case PROXY_USERS_ACL: acl_proxy_user= dynamic_element(&acl_proxy_users, idx, ACL_PROXY_USER*); user= acl_proxy_user->get_user(); host= acl_proxy_user->get_host(); break; case ROLES_MAPPINGS_HASH: role_grant_pair= (ROLE_GRANT_PAIR *) my_hash_element(roles_mappings_hash, idx); user= role_grant_pair->u_uname; host= role_grant_pair->u_hname; break; default: DBUG_ASSERT(0); } if (! host) host= ""; #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan struct: %u index: %u user: '%s' host: '%s'", struct_no, idx, user, host)); #endif if (struct_no == ROLES_MAPPINGS_HASH) { const char* role= role_grant_pair->r_uname? role_grant_pair->r_uname: ""; if (user_from->is_role()) { /* When searching for roles within the ROLES_MAPPINGS_HASH, we have to check both the user field as well as the role field for a match. It is possible to have a role granted to a role. If we are going to modify the mapping entry, it needs to be done on either on the "user" end (here represented by a role) or the "role" end. At least one part must match. If the "user" end has a not-empty host string, it can never match as we are searching for a role here. A role always has an empty host string. */ if ((*host || strcmp(user_from->user.str, user)) && strcmp(user_from->user.str, role)) continue; } else { if (strcmp(user_from->user.str, user) || my_strcasecmp(system_charset_info, user_from->host.str, host)) continue; } } else { if (strcmp(user_from->user.str, user) || my_strcasecmp(system_charset_info, user_from->host.str, host)) continue; } result= 1; /* At least one element found. */ if ( drop ) { elements--; switch ( struct_no ) { case USER_ACL: free_acl_user(dynamic_element(&acl_users, idx, ACL_USER*)); delete_dynamic_element(&acl_users, idx); break; case DB_ACL: acl_dbs.del(idx); break; case COLUMN_PRIVILEGES_HASH: case PROC_PRIVILEGES_HASH: case FUNC_PRIVILEGES_HASH: case PACKAGE_SPEC_PRIVILEGES_HASH: case PACKAGE_BODY_PRIVILEGES_HASH: my_hash_delete(grant_name_hash, (uchar*) grant_name); /* In our HASH implementation on deletion one elements is moved into a place where a deleted element was, and the last element is moved into the empty space. Thus we need to re-examine the current element, but we don't have to restart the search from the beginning. */ if (idx != elements) idx++; break; case PROXY_USERS_ACL: delete_dynamic_element(&acl_proxy_users, idx); break; case ROLES_MAPPINGS_HASH: my_hash_delete(roles_mappings_hash, (uchar*) role_grant_pair); if (idx != elements) idx++; break; default: DBUG_ASSERT(0); break; } } else if ( user_to ) { switch ( struct_no ) { case USER_ACL: acl_user->user= safe_lexcstrdup_root(&acl_memroot, user_to->user); update_hostname(&acl_user->host, strdup_root(&acl_memroot, user_to->host.str)); acl_user->hostname_length= strlen(acl_user->host.hostname); break; case DB_ACL: acl_db->user= strdup_root(&acl_memroot, user_to->user.str); update_hostname(&acl_db->host, strdup_root(&acl_memroot, user_to->host.str)); break; case COLUMN_PRIVILEGES_HASH: case PROC_PRIVILEGES_HASH: case FUNC_PRIVILEGES_HASH: case PACKAGE_SPEC_PRIVILEGES_HASH: case PACKAGE_BODY_PRIVILEGES_HASH: { /* Save old hash key and its length to be able to properly update element position in hash. */ char *old_key= grant_name->hash_key; size_t old_key_length= grant_name->key_length; /* Update the grant structure with the new user name and host name. */ grant_name->set_user_details(user_to->host.str, grant_name->db, user_to->user.str, grant_name->tname, TRUE); /* Since username is part of the hash key, when the user name is renamed, the hash key is changed. Update the hash to ensure that the position matches the new hash key value */ my_hash_update(grant_name_hash, (uchar*) grant_name, (uchar*) old_key, old_key_length); /* hash_update() operation could have moved element from the tail or the head of the hash to the current position. But it can never move an element from the head to the tail or from the tail to the head over the current element. So we need to examine the current element once again, but we don't need to restart the search from the beginning. */ idx++; break; } case PROXY_USERS_ACL: acl_proxy_user->set_user (&acl_memroot, user_to->user.str); acl_proxy_user->set_host (&acl_memroot, user_to->host.str); break; case ROLES_MAPPINGS_HASH: { /* Save old hash key and its length to be able to properly update element position in hash. */ char *old_key= role_grant_pair->hashkey.str; size_t old_key_length= role_grant_pair->hashkey.length; bool oom; if (user_to->is_role()) oom= role_grant_pair->init(&acl_memroot, role_grant_pair->u_uname, role_grant_pair->u_hname, user_to->user.str, false); else oom= role_grant_pair->init(&acl_memroot, user_to->user.str, user_to->host.str, role_grant_pair->r_uname, false); if (oom) DBUG_RETURN(-1); my_hash_update(roles_mappings_hash, (uchar*) role_grant_pair, (uchar*) old_key, old_key_length); idx++; // see the comment above break; } default: DBUG_ASSERT(0); break; } } else { /* If search is requested, we do not need to search further. */ break; } } #ifdef EXTRA_DEBUG DBUG_PRINT("loop",("scan struct: %u result %d", struct_no, result)); #endif DBUG_RETURN(result); } /* Handle all privilege tables and in-memory privilege structures. SYNOPSIS handle_grant_data() tables The array with the four open tables. drop If user_from is to be dropped. user_from The the user to be searched/dropped/renamed. user_to The new name for the user if to be renamed, NULL otherwise. DESCRIPTION Go through all grant tables and in-memory grant structures and apply the requested operation. Delete from grant data if drop is true. Update in grant data if drop is false and user_to is not NULL. Search in grant data if drop is false and user_to is NULL. RETURN > 0 At least one element matched. 0 OK, but no element matched. < 0 Error. */ static int handle_grant_data(THD *thd, Grant_tables& tables, bool drop, LEX_USER *user_from, LEX_USER *user_to) { int result= 0; int found; bool handle_as_role= user_from->is_role(); bool search_only= !drop && !user_to; DBUG_ENTER("handle_grant_data"); if (user_to) DBUG_ASSERT(handle_as_role == user_to->is_role()); if (search_only) { /* quickly search in-memory structures first */ if (handle_as_role && find_acl_role(user_from->user.str)) DBUG_RETURN(1); // found if (!handle_as_role && find_user_exact(user_from->host.str, user_from->user.str)) DBUG_RETURN(1); // found } /* Handle db table. */ if ((found= handle_grant_table(thd, tables.db_table(), DB_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle db array. */ if ((handle_grant_struct(DB_ACL, drop, user_from, user_to) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (search_only) goto end; acl_cache->clear(1); } } /* Handle stored routines table. */ if ((found= handle_grant_table(thd, tables.procs_priv_table(), PROCS_PRIV_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch in-memory array. */ result= -1; } else { /* Handle procs array. */ if ((handle_grant_struct(PROC_PRIVILEGES_HASH, drop, user_from, user_to) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (search_only) goto end; } /* Handle funcs array. */ if ((handle_grant_struct(FUNC_PRIVILEGES_HASH, drop, user_from, user_to) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (search_only) goto end; } /* Handle package spec array. */ if ((handle_grant_struct(PACKAGE_SPEC_PRIVILEGES_HASH, drop, user_from, user_to) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (search_only) goto end; } /* Handle package body array. */ if ((handle_grant_struct(PACKAGE_BODY_PRIVILEGES_HASH, drop, user_from, user_to) || found) && ! result) { result= 1; /* At least one record/element found. */ /* If search is requested, we do not need to search further. */ if (search_only) goto end; } } /* Handle tables table. */ if ((found= handle_grant_table(thd, tables.tables_priv_table(), TABLES_PRIV_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch columns and in-memory array. */ result= -1; } else { if (found && ! result) { result= 1; /* At least one record found. */ /* If search is requested, we do not need to search further. */ if (search_only) goto end; } /* Handle columns table. */ if ((found= handle_grant_table(thd, tables.columns_priv_table(), COLUMNS_PRIV_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle columns hash. */ if ((handle_grant_struct(COLUMN_PRIVILEGES_HASH, drop, user_from, user_to) || found) && ! result) result= 1; /* At least one record/element found. */ if (search_only) goto end; } } /* Handle proxies_priv table. */ if (tables.proxies_priv_table().table_exists()) { if ((found= handle_grant_table(thd, tables.proxies_priv_table(), PROXIES_PRIV_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle proxies_priv array. */ if ((handle_grant_struct(PROXY_USERS_ACL, drop, user_from, user_to) || found) && ! result) result= 1; /* At least one record/element found. */ if (search_only) goto end; } } /* Handle roles_mapping table. */ if (tables.roles_mapping_table().table_exists()) { if ((found= handle_grant_table(thd, tables.roles_mapping_table(), ROLES_MAPPING_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { /* Handle acl_roles_mappings array */ if ((handle_grant_struct(ROLES_MAPPINGS_HASH, drop, user_from, user_to) || found) && ! result) result= 1; /* At least one record/element found */ if (search_only) goto end; } } /* Handle user table. */ if ((found= handle_grant_table(thd, tables.user_table(), USER_TABLE, drop, user_from, user_to)) < 0) { /* Handle of table failed, don't touch the in-memory array. */ result= -1; } else { enum enum_acl_lists what= handle_as_role ? ROLE_ACL : USER_ACL; if (((handle_grant_struct(what, drop, user_from, user_to)) || found) && !result) { result= 1; /* At least one record/element found. */ DBUG_ASSERT(! search_only); } } end: DBUG_RETURN(result); } /* Create a list of users. SYNOPSIS mysql_create_user() thd The current thread. list The users to create. handle_as_role Handle the user list as roles if true RETURN FALSE OK. TRUE Error. */ bool mysql_create_user(THD *thd, List <LEX_USER> &list, bool handle_as_role) { int result; String wrong_users; LEX_USER *user_name; List_iterator <LEX_USER> user_list(list); bool binlog= false; bool some_users_dropped= false; DBUG_ENTER("mysql_create_user"); DBUG_PRINT("entry", ("Handle as %s", handle_as_role ? "role" : "user")); if (handle_as_role && sp_process_definer(thd)) DBUG_RETURN(TRUE); /* CREATE USER may be skipped on replication client. */ Grant_tables tables; const uint tables_to_open= Table_user | Table_db | Table_tables_priv | Table_columns_priv | Table_procs_priv | Table_proxies_priv | Table_roles_mapping; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) DBUG_RETURN(result != 1); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); while ((user_name= user_list++)) { if (user_name->user.str == current_user.str) { append_str(&wrong_users, STRING_WITH_LEN("CURRENT_USER")); result= TRUE; continue; } if (user_name->user.str == current_role.str) { append_str(&wrong_users, STRING_WITH_LEN("CURRENT_ROLE")); result= TRUE; continue; } if (handle_as_role && is_invalid_role_name(user_name->user.str)) { append_user(thd, &wrong_users, user_name); result= TRUE; continue; } if (!user_name->host.str) user_name->host= host_not_specified; /* Search all in-memory structures and grant tables for a mention of the new user/role name. */ if (handle_grant_data(thd, tables, 0, user_name, NULL)) { if (thd->lex->create_info.or_replace()) { // Drop the existing user if (handle_grant_data(thd, tables, 1, user_name, NULL) <= 0) { // DROP failed append_user(thd, &wrong_users, user_name); result= true; continue; } else some_users_dropped= true; // Proceed with the creation } else if (thd->lex->create_info.if_not_exists()) { binlog= true; if (handle_as_role) push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_ROLE_CREATE_EXISTS, ER_THD(thd, ER_ROLE_CREATE_EXISTS), user_name->user.str); else push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_USER_CREATE_EXISTS, ER_THD(thd, ER_USER_CREATE_EXISTS), user_name->user.str, user_name->host.str); continue; } else { // "CREATE USER user1" for an existing user append_user(thd, &wrong_users, user_name); result= true; continue; } } if (replace_user_table(thd, tables.user_table(), user_name, 0, 0, 1, 0)) { append_user(thd, &wrong_users, user_name); result= TRUE; continue; } binlog= true; // every created role is automatically granted to its creator-admin if (handle_as_role) { ACL_USER_BASE *grantee= find_acl_user_base(thd->lex->definer->user.str, thd->lex->definer->host.str); ACL_ROLE *role= find_acl_role(user_name->user.str); /* just like with routines, views, triggers, and events we allow non-existant definers here with a warning (see sp_process_definer()) */ if (grantee) add_role_user_mapping(grantee, role); /* TODO(cvicentiu) refactor replace_roles_mapping_table to use Roles_mapping_table instead of TABLE directly. */ if (replace_roles_mapping_table(tables.roles_mapping_table().table(), &thd->lex->definer->user, &thd->lex->definer->host, &user_name->user, true, NULL, false)) { append_user(thd, &wrong_users, user_name); if (grantee) undo_add_role_user_mapping(grantee, role); result= TRUE; } else if (grantee) update_role_mapping(&thd->lex->definer->user, &thd->lex->definer->host, &user_name->user, true, NULL, false); } } if (result && some_users_dropped && !handle_as_role) { /* Rebuild in-memory structs, since 'acl_users' has been modified */ rebuild_check_host(); rebuild_role_grants(); } mysql_mutex_unlock(&acl_cache->lock); if (result) { my_error(ER_CANNOT_USER, MYF(0), (handle_as_role) ? "CREATE ROLE" : "CREATE USER", wrong_users.c_ptr_safe()); } if (binlog) result |= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(result); } /* Drop a list of users and all their privileges. SYNOPSIS mysql_drop_user() thd The current thread. list The users to drop. RETURN FALSE OK. TRUE Error. */ bool mysql_drop_user(THD *thd, List <LEX_USER> &list, bool handle_as_role) { int result; String wrong_users; LEX_USER *user_name, *tmp_user_name; List_iterator <LEX_USER> user_list(list); bool binlog= false; sql_mode_t old_sql_mode= thd->variables.sql_mode; DBUG_ENTER("mysql_drop_user"); DBUG_PRINT("entry", ("Handle as %s", handle_as_role ? "role" : "user")); /* DROP USER may be skipped on replication client. */ Grant_tables tables; const uint tables_to_open= Table_user | Table_db | Table_tables_priv | Table_columns_priv | Table_procs_priv | Table_proxies_priv | Table_roles_mapping; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) DBUG_RETURN(result != 1); thd->variables.sql_mode&= ~MODE_PAD_CHAR_TO_FULL_LENGTH; mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); while ((tmp_user_name= user_list++)) { int rc; user_name= get_current_user(thd, tmp_user_name, false); if (!user_name) { thd->clear_error(); append_str(&wrong_users, STRING_WITH_LEN("CURRENT_ROLE")); result= TRUE; continue; } if (handle_as_role != user_name->is_role()) { append_user(thd, &wrong_users, user_name); result= TRUE; continue; } if ((rc= handle_grant_data(thd, tables, 1, user_name, NULL)) > 0) { // The user or role was successfully deleted binlog= true; continue; } if (rc == 0 && thd->lex->if_exists()) { // "DROP USER IF EXISTS user1" for a non-existing user or role if (handle_as_role) push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_ROLE_DROP_EXISTS, ER_THD(thd, ER_ROLE_DROP_EXISTS), user_name->user.str); else push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_USER_DROP_EXISTS, ER_THD(thd, ER_USER_DROP_EXISTS), user_name->user.str, user_name->host.str); binlog= true; continue; } // Internal error, or "DROP USER user1" for a non-existing user append_user(thd, &wrong_users, user_name); result= TRUE; } if (!handle_as_role) { /* Rebuild 'acl_check_hosts' since 'acl_users' has been modified */ rebuild_check_host(); /* Rebuild every user's role_grants since 'acl_users' has been sorted and old pointers to ACL_USER elements are no longer valid */ rebuild_role_grants(); } mysql_mutex_unlock(&acl_cache->lock); if (result) my_error(ER_CANNOT_USER, MYF(0), (handle_as_role) ? "DROP ROLE" : "DROP USER", wrong_users.c_ptr_safe()); if (binlog) result |= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); mysql_rwlock_unlock(&LOCK_grant); thd->variables.sql_mode= old_sql_mode; DBUG_RETURN(result); } /* Rename a user. SYNOPSIS mysql_rename_user() thd The current thread. list The user name pairs: (from, to). RETURN FALSE OK. TRUE Error. */ bool mysql_rename_user(THD *thd, List <LEX_USER> &list) { int result; String wrong_users; LEX_USER *user_from, *tmp_user_from; LEX_USER *user_to, *tmp_user_to; List_iterator <LEX_USER> user_list(list); bool some_users_renamed= FALSE; DBUG_ENTER("mysql_rename_user"); /* RENAME USER may be skipped on replication client. */ Grant_tables tables; const uint tables_to_open= Table_user | Table_db | Table_tables_priv | Table_columns_priv | Table_procs_priv | Table_proxies_priv | Table_roles_mapping; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) DBUG_RETURN(result != 1); DBUG_ASSERT(!thd->is_current_stmt_binlog_format_row()); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); while ((tmp_user_from= user_list++)) { tmp_user_to= user_list++; if (!(user_from= get_current_user(thd, tmp_user_from, false))) { append_user(thd, &wrong_users, user_from); result= TRUE; continue; } if (!(user_to= get_current_user(thd, tmp_user_to, false))) { append_user(thd, &wrong_users, user_to); result= TRUE; continue; } DBUG_ASSERT(!user_from->is_role()); DBUG_ASSERT(!user_to->is_role()); /* Search all in-memory structures and grant tables for a mention of the new user name. */ if (handle_grant_data(thd, tables, 0, user_to, NULL) || handle_grant_data(thd, tables, 0, user_from, user_to) <= 0) { /* NOTE TODO renaming roles is not yet implemented */ append_user(thd, &wrong_users, user_from); result= TRUE; continue; } some_users_renamed= TRUE; rebuild_acl_users(); } /* Rebuild 'acl_dbs' since 'acl_users' has been modified */ rebuild_acl_dbs(); /* Rebuild 'acl_check_hosts' since 'acl_users' has been modified */ rebuild_check_host(); /* Rebuild every user's role_grants since 'acl_users' has been sorted and old pointers to ACL_USER elements are no longer valid */ rebuild_role_grants(); mysql_mutex_unlock(&acl_cache->lock); if (result) my_error(ER_CANNOT_USER, MYF(0), "RENAME USER", wrong_users.c_ptr_safe()); if (some_users_renamed && mysql_bin_log.is_open()) result |= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(result); } /* Alter a user's connection and resource settings. SYNOPSIS mysql_alter_user() thd The current thread. list The users to alter. RETURN > 0 Error. Error message already sent. 0 OK. */ int mysql_alter_user(THD* thd, List<LEX_USER> &users_list) { DBUG_ENTER("mysql_alter_user"); int result= 0; String wrong_users; bool some_users_altered= false; /* The only table we're altering is the user table. */ Grant_tables tables; if ((result= tables.open_and_lock(thd, Table_user, TL_WRITE))) DBUG_RETURN(result != 1); /* Lock ACL data structures until we finish altering all users. */ mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); LEX_USER *tmp_lex_user; List_iterator<LEX_USER> users_list_iterator(users_list); while ((tmp_lex_user= users_list_iterator++)) { LEX_USER* lex_user= get_current_user(thd, tmp_lex_user, false); if (!lex_user || replace_user_table(thd, tables.user_table(), lex_user, 0, false, false, true)) { thd->clear_error(); append_user(thd, &wrong_users, tmp_lex_user); result= TRUE; continue; } some_users_altered= true; } /* Unlock ACL data structures. */ mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); if (result) { /* 'if exists' flag leads to warnings instead of errors. */ if (thd->lex->create_info.if_exists()) { push_warning_printf(thd, Sql_condition::WARN_LEVEL_NOTE, ER_CANNOT_USER, ER_THD(thd, ER_CANNOT_USER), "ALTER USER", wrong_users.c_ptr_safe()); result= FALSE; } else { my_error(ER_CANNOT_USER, MYF(0), "ALTER USER", wrong_users.c_ptr_safe()); } } if (some_users_altered) result|= write_bin_log(thd, FALSE, thd->query(), thd->query_length()); DBUG_RETURN(result); } static bool mysql_revoke_sp_privs(THD *thd, Grant_tables *tables, const Sp_handler *sph, const LEX_USER *lex_user) { bool rc= false; uint counter, revoked; do { HASH *hash= sph->get_priv_hash(); for (counter= 0, revoked= 0 ; counter < hash->records ; ) { const char *user,*host; GRANT_NAME *grant_proc= (GRANT_NAME*) my_hash_element(hash, counter); user= grant_proc->user; host= safe_str(grant_proc->host.hostname); if (!strcmp(lex_user->user.str, user) && !strcmp(lex_user->host.str, host)) { if (replace_routine_table(thd, grant_proc, tables->procs_priv_table().table(), *lex_user, grant_proc->db, grant_proc->tname, sph, ~(ulong)0, 1) == 0) { revoked= 1; continue; } rc= true; // Something went wrong } counter++; } } while (revoked); return rc; } /* Revoke all privileges from a list of users. SYNOPSIS mysql_revoke_all() thd The current thread. list The users to revoke all privileges from. RETURN > 0 Error. Error message already sent. 0 OK. < 0 Error. Error message not yet sent. */ bool mysql_revoke_all(THD *thd, List <LEX_USER> &list) { uint counter, revoked; int result; ACL_DB *acl_db; DBUG_ENTER("mysql_revoke_all"); Grant_tables tables; const uint tables_to_open= Table_user | Table_db | Table_tables_priv | Table_columns_priv | Table_procs_priv | Table_proxies_priv | Table_roles_mapping; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) DBUG_RETURN(result != 1); DBUG_ASSERT(!thd->is_current_stmt_binlog_format_row()); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); LEX_USER *lex_user, *tmp_lex_user; List_iterator <LEX_USER> user_list(list); while ((tmp_lex_user= user_list++)) { if (!(lex_user= get_current_user(thd, tmp_lex_user, false))) { result= -1; continue; } /* This is not a role and the user could not be found */ if (!lex_user->is_role() && !find_user_exact(lex_user->host.str, lex_user->user.str)) { result= -1; continue; } if (replace_user_table(thd, tables.user_table(), lex_user, ~(ulong)0, 1, 0, 0)) { result= -1; continue; } /* Remove db access privileges */ /* Because acl_dbs and column_priv_hash shrink and may re-order as privileges are removed, removal occurs in a repeated loop until no more privileges are revoked. */ do { for (counter= 0, revoked= 0 ; counter < acl_dbs.elements() ; ) { const char *user, *host; acl_db= &acl_dbs.at(counter); user= acl_db->user; host= safe_str(acl_db->host.hostname); if (!strcmp(lex_user->user.str, user) && !strcmp(lex_user->host.str, host)) { /* TODO(cvicentiu) refactor replace_db_table to use Db_table instead of TABLE directly. */ if (!replace_db_table(tables.db_table().table(), acl_db->db, *lex_user, ~(ulong)0, 1)) { /* Don't increment counter as replace_db_table deleted the current element in acl_dbs. */ revoked= 1; continue; } result= -1; // Something went wrong } counter++; } } while (revoked); /* Remove column access */ do { for (counter= 0, revoked= 0 ; counter < column_priv_hash.records ; ) { const char *user,*host; GRANT_TABLE *grant_table= (GRANT_TABLE*) my_hash_element(&column_priv_hash, counter); user= grant_table->user; host= safe_str(grant_table->host.hostname); if (!strcmp(lex_user->user.str,user) && !strcmp(lex_user->host.str, host)) { /* TODO(cvicentiu) refactor replace_db_table to use Db_table instead of TABLE directly. */ if (replace_table_table(thd, grant_table, tables.tables_priv_table().table(), *lex_user, grant_table->db, grant_table->tname, ~(ulong)0, 0, 1)) { result= -1; } else { if (!grant_table->cols) { revoked= 1; continue; } List<LEX_COLUMN> columns; /* TODO(cvicentiu) refactor replace_db_table to use Db_table instead of TABLE directly. */ if (!replace_column_table(grant_table, tables.columns_priv_table().table(), *lex_user, columns, grant_table->db, grant_table->tname, ~(ulong)0, 1)) { revoked= 1; continue; } result= -1; } } counter++; } } while (revoked); /* Remove procedure access */ if (mysql_revoke_sp_privs(thd, &tables, &sp_handler_function, lex_user) || mysql_revoke_sp_privs(thd, &tables, &sp_handler_procedure, lex_user) || mysql_revoke_sp_privs(thd, &tables, &sp_handler_package_spec, lex_user) || mysql_revoke_sp_privs(thd, &tables, &sp_handler_package_body, lex_user)) result= -1; ACL_USER_BASE *user_or_role; /* remove role grants */ if (lex_user->is_role()) { /* this can not fail due to get_current_user already having searched for it */ user_or_role= find_acl_role(lex_user->user.str); } else { user_or_role= find_user_exact(lex_user->host.str, lex_user->user.str); } /* Find every role grant pair matching the role_grants array and remove it, both from the acl_roles_mappings and the roles_mapping table */ for (counter= 0; counter < user_or_role->role_grants.elements; counter++) { ACL_ROLE *role_grant= *dynamic_element(&user_or_role->role_grants, counter, ACL_ROLE**); ROLE_GRANT_PAIR *pair = find_role_grant_pair(&lex_user->user, &lex_user->host, &role_grant->user); /* TODO(cvicentiu) refactor replace_roles_mapping_table to use Roles_mapping_table instead of TABLE directly. */ if (replace_roles_mapping_table(tables.roles_mapping_table().table(), &lex_user->user, &lex_user->host, &role_grant->user, false, pair, true)) { result= -1; //Something went wrong } update_role_mapping(&lex_user->user, &lex_user->host, &role_grant->user, false, pair, true); /* Delete from the parent_grantee array of the roles granted, the entry pointing to this user_or_role */ remove_ptr_from_dynarray(&role_grant->parent_grantee, user_or_role); } /* TODO How to handle an error in the replace_roles_mapping_table, in regards to the privileges held in memory */ /* Finally, clear the role_grants array */ if (counter == user_or_role->role_grants.elements) { reset_dynamic(&user_or_role->role_grants); } /* If we are revoking from a role, we need to update all the parent grantees */ if (lex_user->is_role()) { propagate_role_grants((ACL_ROLE *)user_or_role, PRIVS_TO_MERGE::ALL); } } mysql_mutex_unlock(&acl_cache->lock); if (result) my_message(ER_REVOKE_GRANTS, ER_THD(thd, ER_REVOKE_GRANTS), MYF(0)); result= result | write_bin_log(thd, FALSE, thd->query(), thd->query_length()); mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(result); } /** If the defining user for a routine does not exist, then the ACL lookup code should raise two errors which we should intercept. We convert the more descriptive error into a warning, and consume the other. If any other errors are raised, then we set a flag that should indicate that there was some failure we should complain at a higher level. */ class Silence_routine_definer_errors : public Internal_error_handler { public: Silence_routine_definer_errors() : is_grave(FALSE) {} virtual ~Silence_routine_definer_errors() {} virtual bool handle_condition(THD *thd, uint sql_errno, const char* sqlstate, Sql_condition::enum_warning_level *level, const char* msg, Sql_condition ** cond_hdl); bool has_errors() { return is_grave; } private: bool is_grave; }; bool Silence_routine_definer_errors::handle_condition( THD *thd, uint sql_errno, const char*, Sql_condition::enum_warning_level *level, const char* msg, Sql_condition ** cond_hdl) { *cond_hdl= NULL; if (*level == Sql_condition::WARN_LEVEL_ERROR) { switch (sql_errno) { case ER_NONEXISTING_PROC_GRANT: /* Convert the error into a warning. */ push_warning(thd, Sql_condition::WARN_LEVEL_WARN, sql_errno, msg); return TRUE; default: is_grave= TRUE; } } return FALSE; } /** Revoke privileges for all users on a stored procedure. Use an error handler that converts errors about missing grants into warnings. @param thd The current thread. @param db DB of the stored procedure @param name Name of the stored procedure @retval 0 OK. @retval < 0 Error. Error message not yet sent. */ bool sp_revoke_privileges(THD *thd, const char *sp_db, const char *sp_name, const Sp_handler *sph) { uint counter, revoked; int result; HASH *hash= sph->get_priv_hash(); Silence_routine_definer_errors error_handler; DBUG_ENTER("sp_revoke_privileges"); Grant_tables tables; const uint tables_to_open= Table_user | Table_db | Table_tables_priv | Table_columns_priv | Table_procs_priv | Table_proxies_priv | Table_roles_mapping; if ((result= tables.open_and_lock(thd, tables_to_open, TL_WRITE))) DBUG_RETURN(result != 1); DBUG_ASSERT(!thd->is_current_stmt_binlog_format_row()); /* Be sure to pop this before exiting this scope! */ thd->push_internal_handler(&error_handler); mysql_rwlock_wrlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); /* Remove procedure access */ do { for (counter= 0, revoked= 0 ; counter < hash->records ; ) { GRANT_NAME *grant_proc= (GRANT_NAME*) my_hash_element(hash, counter); if (!my_strcasecmp(&my_charset_utf8_bin, grant_proc->db, sp_db) && !my_strcasecmp(system_charset_info, grant_proc->tname, sp_name)) { LEX_USER lex_user; lex_user.user.str= grant_proc->user; lex_user.user.length= strlen(grant_proc->user); lex_user.host.str= safe_str(grant_proc->host.hostname); lex_user.host.length= strlen(lex_user.host.str); if (replace_routine_table(thd, grant_proc, tables.procs_priv_table().table(), lex_user, grant_proc->db, grant_proc->tname, sph, ~(ulong)0, 1) == 0) { revoked= 1; continue; } } counter++; } } while (revoked); mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); thd->pop_internal_handler(); DBUG_RETURN(error_handler.has_errors()); } /** Grant EXECUTE,ALTER privilege for a stored procedure @param thd The current thread. @param sp_db @param sp_name @param sph @return @retval FALSE Success @retval TRUE An error occurred. Error message not yet sent. */ bool sp_grant_privileges(THD *thd, const char *sp_db, const char *sp_name, const Sp_handler *sph) { Security_context *sctx= thd->security_ctx; LEX_USER *combo; TABLE_LIST tables[1]; List<LEX_USER> user_list; bool result; ACL_USER *au; Dummy_error_handler error_handler; DBUG_ENTER("sp_grant_privileges"); if (!(combo=(LEX_USER*) thd->alloc(sizeof(LEX_USER)))) DBUG_RETURN(TRUE); combo->user.str= (char *) sctx->priv_user; mysql_mutex_lock(&acl_cache->lock); if ((au= find_user_exact(combo->host.str= (char *) sctx->priv_host, combo->user.str))) goto found_acl; mysql_mutex_unlock(&acl_cache->lock); DBUG_RETURN(TRUE); found_acl: mysql_mutex_unlock(&acl_cache->lock); bzero((char*)tables, sizeof(TABLE_LIST)); user_list.empty(); tables->db.str= sp_db; tables->db.length= sp_db ? strlen(sp_db) : 0; tables->table_name.str= tables->alias.str= sp_name; tables->table_name.length= tables->alias.length= sp_name ? strlen(sp_name) : 0; thd->make_lex_string(&combo->user, combo->user.str, strlen(combo->user.str)); thd->make_lex_string(&combo->host, combo->host.str, strlen(combo->host.str)); combo->auth= NULL; if (user_list.push_back(combo, thd->mem_root)) DBUG_RETURN(TRUE); thd->lex->account_options.reset(); /* Only care about whether the operation failed or succeeded as all errors will be handled later. */ thd->push_internal_handler(&error_handler); result= mysql_routine_grant(thd, tables, sph, user_list, DEFAULT_CREATE_PROC_ACLS, FALSE, FALSE); thd->pop_internal_handler(); DBUG_RETURN(result); } /** Validate if a user can proxy as another user @thd current thread @param user the logged in user (proxy user) @param authenticated_as the effective user a plugin is trying to impersonate as (proxied user) @return proxy user definition @retval NULL proxy user definition not found or not applicable @retval non-null the proxy user data */ static ACL_PROXY_USER * acl_find_proxy_user(const char *user, const char *host, const char *ip, const char *authenticated_as, bool *proxy_used) { uint i; /* if the proxied and proxy user are the same return OK */ DBUG_ENTER("acl_find_proxy_user"); DBUG_PRINT("info", ("user=%s host=%s ip=%s authenticated_as=%s", user, host, ip, authenticated_as)); if (!strcmp(authenticated_as, user)) { DBUG_PRINT ("info", ("user is the same as authenticated_as")); DBUG_RETURN (NULL); } *proxy_used= TRUE; for (i=0; i < acl_proxy_users.elements; i++) { ACL_PROXY_USER *proxy= dynamic_element(&acl_proxy_users, i, ACL_PROXY_USER *); if (proxy->matches(host, user, ip, authenticated_as)) DBUG_RETURN(proxy); } DBUG_RETURN(NULL); } bool acl_check_proxy_grant_access(THD *thd, const char *host, const char *user, bool with_grant) { DBUG_ENTER("acl_check_proxy_grant_access"); DBUG_PRINT("info", ("user=%s host=%s with_grant=%d", user, host, (int) with_grant)); if (!initialized) { my_error(ER_OPTION_PREVENTS_STATEMENT, MYF(0), "--skip-grant-tables"); DBUG_RETURN(1); } /* replication slave thread can do anything */ if (thd->slave_thread) { DBUG_PRINT("info", ("replication slave")); DBUG_RETURN(FALSE); } /* one can grant proxy for self to others. Security context in THD contains two pairs of (user,host): 1. (user,host) pair referring to inbound connection. 2. (priv_user,priv_host) pair obtained from mysql.user table after doing authentication of incoming connection. Privileges should be checked wrt (priv_user, priv_host) tuple, because (user,host) pair obtained from inbound connection may have different values than what is actually stored in mysql.user table and while granting or revoking proxy privilege, user is expected to provide entries mentioned in mysql.user table. */ if (thd->security_ctx->is_priv_user(user, host)) { DBUG_PRINT("info", ("strcmp (%s, %s) my_casestrcmp (%s, %s) equal", thd->security_ctx->priv_user, user, host, thd->security_ctx->priv_host)); DBUG_RETURN(FALSE); } mysql_mutex_lock(&acl_cache->lock); /* check for matching WITH PROXY rights */ for (uint i=0; i < acl_proxy_users.elements; i++) { ACL_PROXY_USER *proxy= dynamic_element(&acl_proxy_users, i, ACL_PROXY_USER *); if (proxy->matches(thd->security_ctx->host, thd->security_ctx->user, thd->security_ctx->ip, user) && proxy->get_with_grant()) { DBUG_PRINT("info", ("found")); mysql_mutex_unlock(&acl_cache->lock); DBUG_RETURN(FALSE); } } mysql_mutex_unlock(&acl_cache->lock); my_error(ER_ACCESS_DENIED_NO_PASSWORD_ERROR, MYF(0), thd->security_ctx->user, thd->security_ctx->host_or_ip); DBUG_RETURN(TRUE); } static bool show_proxy_grants(THD *thd, const char *username, const char *hostname, char *buff, size_t buffsize) { Protocol *protocol= thd->protocol; int error= 0; for (uint i=0; i < acl_proxy_users.elements; i++) { ACL_PROXY_USER *proxy= dynamic_element(&acl_proxy_users, i, ACL_PROXY_USER *); if (proxy->granted_on(hostname, username)) { String global(buff, buffsize, system_charset_info); global.length(0); proxy->print_grant(&global); protocol->prepare_for_resend(); protocol->store(global.ptr(), global.length(), global.charset()); if (protocol->write()) { error= -1; break; } } } return error; } static int enabled_roles_insert(ACL_USER_BASE *role, void *context_data) { TABLE *table= (TABLE*) context_data; DBUG_ASSERT(role->flags & IS_ROLE); restore_record(table, s->default_values); table->field[0]->set_notnull(); table->field[0]->store(role->user.str, role->user.length, system_charset_info); if (schema_table_store_record(table->in_use, table)) return -1; return 0; } struct APPLICABLE_ROLES_DATA { TABLE *table; const LEX_CSTRING host; const LEX_CSTRING user_and_host; ACL_USER *user; }; static int applicable_roles_insert(ACL_USER_BASE *grantee, ACL_ROLE *role, void *ptr) { APPLICABLE_ROLES_DATA *data= (APPLICABLE_ROLES_DATA *)ptr; CHARSET_INFO *cs= system_charset_info; TABLE *table= data->table; bool is_role= grantee != data->user; const LEX_CSTRING *user_and_host= is_role ? &grantee->user : &data->user_and_host; const LEX_CSTRING *host= is_role ? &empty_clex_str : &data->host; restore_record(table, s->default_values); table->field[0]->store(user_and_host->str, user_and_host->length, cs); table->field[1]->store(role->user.str, role->user.length, cs); ROLE_GRANT_PAIR *pair= find_role_grant_pair(&grantee->user, host, &role->user); DBUG_ASSERT(pair); if (pair->with_admin) table->field[2]->store(STRING_WITH_LEN("YES"), cs); else table->field[2]->store(STRING_WITH_LEN("NO"), cs); /* Default role is only valid when looking at a role granted to a user. */ if (!is_role) { if (data->user->default_rolename.length && lex_string_eq(&data->user->default_rolename, &role->user)) table->field[3]->store(STRING_WITH_LEN("YES"), cs); else table->field[3]->store(STRING_WITH_LEN("NO"), cs); table->field[3]->set_notnull(); } if (schema_table_store_record(table->in_use, table)) return -1; return 0; } /** Hash iterate function to count the number of total column privileges granted. */ static my_bool count_column_grants(void *grant_table, void *current_count) { HASH hash_columns = ((GRANT_TABLE *)grant_table)->hash_columns; *(ulong *)current_count+= hash_columns.records; return 0; } /** SHOW function that computes the number of column grants. This must be performed under the mutex in order to make sure the iteration does not fail. */ static int show_column_grants(THD *thd, SHOW_VAR *var, char *buff, enum enum_var_type scope) { var->type= SHOW_ULONG; var->value= buff; *(ulong *)buff= 0; if (initialized) { mysql_rwlock_rdlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); my_hash_iterate(&column_priv_hash, count_column_grants, buff); mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); } return 0; } static int show_database_grants(THD *thd, SHOW_VAR *var, char *buff, enum enum_var_type scope) { var->type= SHOW_UINT; var->value= buff; *(uint *)buff= uint(acl_dbs.elements()); return 0; } #else static bool set_user_salt_if_needed(ACL_USER *, int, plugin_ref) { return 0; } bool check_grant(THD *, ulong, TABLE_LIST *, bool, uint, bool) { return 0; } #endif /*NO_EMBEDDED_ACCESS_CHECKS */ SHOW_VAR acl_statistics[] = { #ifndef NO_EMBEDDED_ACCESS_CHECKS {"column_grants", (char*)show_column_grants, SHOW_SIMPLE_FUNC}, {"database_grants", (char*)show_database_grants, SHOW_SIMPLE_FUNC}, {"function_grants", (char*)&func_priv_hash.records, SHOW_ULONG}, {"procedure_grants", (char*)&proc_priv_hash.records, SHOW_ULONG}, {"package_spec_grants", (char*)&package_spec_priv_hash.records, SHOW_ULONG}, {"package_body_grants", (char*)&package_body_priv_hash.records, SHOW_ULONG}, {"proxy_users", (char*)&acl_proxy_users.elements, SHOW_UINT}, {"role_grants", (char*)&acl_roles_mappings.records, SHOW_ULONG}, {"roles", (char*)&acl_roles.records, SHOW_ULONG}, {"table_grants", (char*)&column_priv_hash.records, SHOW_ULONG}, {"users", (char*)&acl_users.elements, SHOW_UINT}, #endif {NullS, NullS, SHOW_LONG}, }; /* Check if a role is granted to a user/role. We traverse the role graph and return true if we find a match. hostname == NULL means we are looking for a role as a starting point, otherwise a user. */ bool check_role_is_granted(const char *username, const char *hostname, const char *rolename) { DBUG_ENTER("check_role_is_granted"); bool result= false; #ifndef NO_EMBEDDED_ACCESS_CHECKS ACL_USER_BASE *root; mysql_mutex_lock(&acl_cache->lock); if (hostname) root= find_user_exact(hostname, username); else root= find_acl_role(username); LEX_CSTRING role_lex; role_lex.str= rolename; role_lex.length= strlen(rolename); if (root && /* No grantee, nothing to search. */ traverse_role_graph_down(root, &role_lex, check_role_is_granted_callback, NULL) == -1) { /* We have found the role during our search. */ result= true; } /* We haven't found the role or we had no initial grantee to start from. */ mysql_mutex_unlock(&acl_cache->lock); #endif DBUG_RETURN(result); } int fill_schema_enabled_roles(THD *thd, TABLE_LIST *tables, COND *cond) { TABLE *table= tables->table; #ifndef NO_EMBEDDED_ACCESS_CHECKS if (thd->security_ctx->priv_role[0]) { mysql_rwlock_rdlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); ACL_ROLE *acl_role= find_acl_role(thd->security_ctx->priv_role); if (acl_role) traverse_role_graph_down(acl_role, table, enabled_roles_insert, NULL); mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); if (acl_role) return 0; } #endif restore_record(table, s->default_values); table->field[0]->set_null(); return schema_table_store_record(table->in_use, table); } /* This shows all roles granted to current user and recursively all roles granted to those roles */ int fill_schema_applicable_roles(THD *thd, TABLE_LIST *tables, COND *cond) { int res= 0; #ifndef NO_EMBEDDED_ACCESS_CHECKS if (initialized) { TABLE *table= tables->table; Security_context *sctx= thd->security_ctx; mysql_rwlock_rdlock(&LOCK_grant); mysql_mutex_lock(&acl_cache->lock); ACL_USER *user= find_user_exact(sctx->priv_host, sctx->priv_user); if (user) { char buff[USER_HOST_BUFF_SIZE+10]; DBUG_ASSERT(user->user.length + user->hostname_length +2 < sizeof(buff)); char *end= strxmov(buff, user->user.str, "@", user->host.hostname, NULL); APPLICABLE_ROLES_DATA data= { table, { user->host.hostname, user->hostname_length }, { buff, (size_t)(end - buff) }, user }; res= traverse_role_graph_down(user, &data, 0, applicable_roles_insert); } mysql_mutex_unlock(&acl_cache->lock); mysql_rwlock_unlock(&LOCK_grant); } #endif return res; } int wild_case_compare(CHARSET_INFO *cs, const char *str,const char *wildstr) { int flag; DBUG_ENTER("wild_case_compare"); DBUG_PRINT("enter",("str: '%s' wildstr: '%s'",str,wildstr)); while (*wildstr) { while (*wildstr && *wildstr != wild_many && *wildstr != wild_one) { if (*wildstr == wild_prefix && wildstr[1]) wildstr++; if (my_toupper(cs, *wildstr++) != my_toupper(cs, *str++)) DBUG_RETURN(1); } if (! *wildstr ) DBUG_RETURN (*str != 0); if (*wildstr++ == wild_one) { if (! *str++) DBUG_RETURN (1); /* One char; skip */ } else { /* Found '*' */ if (!*wildstr) DBUG_RETURN(0); /* '*' as last char: OK */ flag=(*wildstr != wild_many && *wildstr != wild_one); do { if (flag) { char cmp; if ((cmp= *wildstr) == wild_prefix && wildstr[1]) cmp=wildstr[1]; cmp=my_toupper(cs, cmp); while (*str && my_toupper(cs, *str) != cmp) str++; if (!*str) DBUG_RETURN (1); } if (wild_case_compare(cs, str,wildstr) == 0) DBUG_RETURN (0); } while (*str++); DBUG_RETURN(1); } } DBUG_RETURN (*str != '\0'); } #ifndef NO_EMBEDDED_ACCESS_CHECKS static bool update_schema_privilege(THD *thd, TABLE *table, const char *buff, const char* db, const char* t_name, const char* column, uint col_length, const char *priv, uint priv_length, const char* is_grantable) { int i= 2; CHARSET_INFO *cs= system_charset_info; restore_record(table, s->default_values); table->field[0]->store(buff, (uint) strlen(buff), cs); table->field[1]->store(STRING_WITH_LEN("def"), cs); if (db) table->field[i++]->store(db, (uint) strlen(db), cs); if (t_name) table->field[i++]->store(t_name, (uint) strlen(t_name), cs); if (column) table->field[i++]->store(column, col_length, cs); table->field[i++]->store(priv, priv_length, cs); table->field[i]->store(is_grantable, strlen(is_grantable), cs); return schema_table_store_record(thd, table); } #endif #ifndef NO_EMBEDDED_ACCESS_CHECKS class Grantee_str { char m_buff[USER_HOST_BUFF_SIZE + 6 /* 4 quotes, @, '\0' */]; public: Grantee_str(const char *user, const char *host) { DBUG_ASSERT(strlen(user) + strlen(host) + 6 < sizeof(m_buff)); strxmov(m_buff, "'", user, "'@'", host, "'", NullS); } operator const char *() const { return m_buff; } }; #endif int fill_schema_user_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint counter; ACL_USER *acl_user; ulong want_access; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql", NULL, NULL, 1, 1); DBUG_ENTER("fill_schema_user_privileges"); if (!initialized) DBUG_RETURN(0); mysql_mutex_lock(&acl_cache->lock); for (counter=0 ; counter < acl_users.elements ; counter++) { const char *user,*host, *is_grantable="YES"; acl_user=dynamic_element(&acl_users,counter,ACL_USER*); user= acl_user->user.str; host= safe_str(acl_user->host.hostname); if (no_global_access && !thd->security_ctx->is_priv_user(user, host)) continue; want_access= acl_user->access; if (!(want_access & GRANT_ACL)) is_grantable= "NO"; Grantee_str grantee(user, host); if (!(want_access & ~GRANT_ACL)) { if (update_schema_privilege(thd, table, grantee, 0, 0, 0, 0, STRING_WITH_LEN("USAGE"), is_grantable)) { error= 1; goto err; } } else { uint priv_id; ulong j,test_access= want_access & ~GRANT_ACL; for (priv_id=0, j = SELECT_ACL;j <= GLOBAL_ACLS; priv_id++,j <<= 1) { if (test_access & j) { if (update_schema_privilege(thd, table, grantee, 0, 0, 0, 0, command_array[priv_id], command_lengths[priv_id], is_grantable)) { error= 1; goto err; } } } } } err: mysql_mutex_unlock(&acl_cache->lock); DBUG_RETURN(error); #else return(0); #endif } int fill_schema_schema_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint counter; ACL_DB *acl_db; ulong want_access; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql", NULL, NULL, 1, 1); DBUG_ENTER("fill_schema_schema_privileges"); if (!initialized) DBUG_RETURN(0); mysql_mutex_lock(&acl_cache->lock); for (counter=0 ; counter < acl_dbs.elements() ; counter++) { const char *user, *host, *is_grantable="YES"; acl_db=&acl_dbs.at(counter); user= acl_db->user; host= safe_str(acl_db->host.hostname); if (no_global_access && !thd->security_ctx->is_priv_user(user, host)) continue; want_access=acl_db->access; if (want_access) { if (!(want_access & GRANT_ACL)) { is_grantable= "NO"; } Grantee_str grantee(user, host); if (!(want_access & ~GRANT_ACL)) { if (update_schema_privilege(thd, table, grantee, acl_db->db, 0, 0, 0, STRING_WITH_LEN("USAGE"), is_grantable)) { error= 1; goto err; } } else { int cnt; ulong j,test_access= want_access & ~GRANT_ACL; for (cnt=0, j = SELECT_ACL; j <= DB_ACLS; cnt++,j <<= 1) if (test_access & j) { if (update_schema_privilege(thd, table, grantee, acl_db->db, 0, 0, 0, command_array[cnt], command_lengths[cnt], is_grantable)) { error= 1; goto err; } } } } } err: mysql_mutex_unlock(&acl_cache->lock); DBUG_RETURN(error); #else return (0); #endif } int fill_schema_table_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint index; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql", NULL, NULL, 1, 1); DBUG_ENTER("fill_schema_table_privileges"); mysql_rwlock_rdlock(&LOCK_grant); for (index=0 ; index < column_priv_hash.records ; index++) { const char *user, *host, *is_grantable= "YES"; GRANT_TABLE *grant_table= (GRANT_TABLE*) my_hash_element(&column_priv_hash, index); user= grant_table->user; host= safe_str(grant_table->host.hostname); if (no_global_access && !thd->security_ctx->is_priv_user(user, host)) continue; ulong table_access= grant_table->privs; if (table_access) { ulong test_access= table_access & ~GRANT_ACL; /* We should skip 'usage' privilege on table if we have any privileges on column(s) of this table */ if (!test_access && grant_table->cols) continue; if (!(table_access & GRANT_ACL)) is_grantable= "NO"; Grantee_str grantee(user, host); if (!test_access) { if (update_schema_privilege(thd, table, grantee, grant_table->db, grant_table->tname, 0, 0, STRING_WITH_LEN("USAGE"), is_grantable)) { error= 1; goto err; } } else { ulong j; int cnt; for (cnt= 0, j= SELECT_ACL; j <= TABLE_ACLS; cnt++, j<<= 1) { if (test_access & j) { if (update_schema_privilege(thd, table, grantee, grant_table->db, grant_table->tname, 0, 0, command_array[cnt], command_lengths[cnt], is_grantable)) { error= 1; goto err; } } } } } } err: mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(error); #else return (0); #endif } int fill_schema_column_privileges(THD *thd, TABLE_LIST *tables, COND *cond) { #ifndef NO_EMBEDDED_ACCESS_CHECKS int error= 0; uint index; TABLE *table= tables->table; bool no_global_access= check_access(thd, SELECT_ACL, "mysql", NULL, NULL, 1, 1); DBUG_ENTER("fill_schema_table_privileges"); mysql_rwlock_rdlock(&LOCK_grant); for (index=0 ; index < column_priv_hash.records ; index++) { const char *user, *host, *is_grantable= "YES"; GRANT_TABLE *grant_table= (GRANT_TABLE*) my_hash_element(&column_priv_hash, index); user= grant_table->user; host= safe_str(grant_table->host.hostname); if (no_global_access && !thd->security_ctx->is_priv_user(user, host)) continue; ulong table_access= grant_table->cols; if (table_access != 0) { if (!(grant_table->privs & GRANT_ACL)) is_grantable= "NO"; ulong test_access= table_access & ~GRANT_ACL; Grantee_str grantee(user, host); if (!test_access) continue; else { ulong j; int cnt; for (cnt= 0, j= SELECT_ACL; j <= TABLE_ACLS; cnt++, j<<= 1) { if (test_access & j) { for (uint col_index=0 ; col_index < grant_table->hash_columns.records ; col_index++) { GRANT_COLUMN *grant_column = (GRANT_COLUMN*) my_hash_element(&grant_table->hash_columns,col_index); if ((grant_column->rights & j) && (table_access & j)) { if (update_schema_privilege(thd, table, grantee, grant_table->db, grant_table->tname, grant_column->column, grant_column->key_length, command_array[cnt], command_lengths[cnt], is_grantable)) { error= 1; goto err; } } } } } } } } err: mysql_rwlock_unlock(&LOCK_grant); DBUG_RETURN(error); #else return (0); #endif } #ifndef NO_EMBEDDED_ACCESS_CHECKS /* fill effective privileges for table SYNOPSIS fill_effective_table_privileges() thd thread handler grant grants table descriptor db db name table table name */ void fill_effective_table_privileges(THD *thd, GRANT_INFO *grant, const char *db, const char *table) { Security_context *sctx= thd->security_ctx; DBUG_ENTER("fill_effective_table_privileges"); DBUG_PRINT("enter", ("Host: '%s', Ip: '%s', User: '%s', table: `%s`.`%s`", sctx->priv_host, sctx->ip, sctx->priv_user, db, table)); /* --skip-grants */ if (!initialized) { DBUG_PRINT("info", ("skip grants")); grant->privilege= ~NO_ACCESS; // everything is allowed DBUG_PRINT("info", ("privilege 0x%lx", grant->privilege)); DBUG_VOID_RETURN; } /* global privileges */ grant->privilege= sctx->master_access; if (!thd->db.str || strcmp(db, thd->db.str)) { /* db privileges */ grant->privilege|= acl_get(sctx->host, sctx->ip, sctx->priv_user, db, 0); /* db privileges for role */ if (sctx->priv_role[0]) grant->privilege|= acl_get("", "", sctx->priv_role, db, 0); } else { grant->privilege|= sctx->db_access; } /* table privileges */ mysql_rwlock_rdlock(&LOCK_grant); if (grant->version != grant_version) { grant->grant_table_user= table_hash_search(sctx->host, sctx->ip, db, sctx->priv_user, table, 0); /* purecov: inspected */ grant->grant_table_role= sctx->priv_role[0] ? table_hash_search("", "", db, sctx->priv_role, table, TRUE) : NULL; grant->version= grant_version; /* purecov: inspected */ } if (grant->grant_table_user != 0) { grant->privilege|= grant->grant_table_user->privs; } if (grant->grant_table_role != 0) { grant->privilege|= grant->grant_table_role->privs; } mysql_rwlock_unlock(&LOCK_grant); DBUG_PRINT("info", ("privilege 0x%lx", grant->privilege)); DBUG_VOID_RETURN; } #else /* NO_EMBEDDED_ACCESS_CHECKS */ /**************************************************************************** Dummy wrappers when we don't have any access checks ****************************************************************************/ bool check_routine_level_acl(THD *thd, const char *db, const char *name, const Sp_handler *sph) { return FALSE; } #endif /** Return information about user or current user. @param[in] thd thread handler @param[in] user user @param[in] lock whether &acl_cache->lock mutex needs to be locked @return - On success, return a valid pointer to initialized LEX_USER, which contains user information. - On error, return 0. */ LEX_USER *get_current_user(THD *thd, LEX_USER *user, bool lock) { if (user->user.str == current_user.str) // current_user return create_default_definer(thd, false); if (user->user.str == current_role.str) // current_role return create_default_definer(thd, true); if (user->host.str == NULL) // Possibly a role { // to be reexecution friendly we have to make a copy LEX_USER *dup= (LEX_USER*) thd->memdup(user, sizeof(*user)); if (!dup) return 0; #ifndef NO_EMBEDDED_ACCESS_CHECKS if (has_auth(user, thd->lex)) { dup->host= host_not_specified; return dup; } if (is_invalid_role_name(user->user.str)) return 0; if (lock) mysql_mutex_lock(&acl_cache->lock); if (find_acl_role(dup->user.str)) dup->host= empty_clex_str; else dup->host= host_not_specified; if (lock) mysql_mutex_unlock(&acl_cache->lock); #endif return dup; } return user; } struct ACL_internal_schema_registry_entry { const LEX_CSTRING *m_name; const ACL_internal_schema_access *m_access; }; /** Internal schema registered. Currently, this is only: - performance_schema - information_schema, This can be reused later for: - mysql */ static ACL_internal_schema_registry_entry registry_array[2]; static uint m_registry_array_size= 0; /** Add an internal schema to the registry. @param name the schema name @param access the schema ACL specific rules */ void ACL_internal_schema_registry::register_schema (const LEX_CSTRING *name, const ACL_internal_schema_access *access) { DBUG_ASSERT(m_registry_array_size < array_elements(registry_array)); /* Not thread safe, and does not need to be. */ registry_array[m_registry_array_size].m_name= name; registry_array[m_registry_array_size].m_access= access; m_registry_array_size++; } /** Search per internal schema ACL by name. @param name a schema name @return per schema rules, or NULL */ const ACL_internal_schema_access * ACL_internal_schema_registry::lookup(const char *name) { DBUG_ASSERT(name != NULL); uint i; for (i= 0; i<m_registry_array_size; i++) { if (my_strcasecmp(system_charset_info, registry_array[i].m_name->str, name) == 0) return registry_array[i].m_access; } return NULL; } /** Get a cached internal schema access. @param grant_internal_info the cache @param schema_name the name of the internal schema */ const ACL_internal_schema_access * get_cached_schema_access(GRANT_INTERNAL_INFO *grant_internal_info, const char *schema_name) { if (grant_internal_info) { if (! grant_internal_info->m_schema_lookup_done) { grant_internal_info->m_schema_access= ACL_internal_schema_registry::lookup(schema_name); grant_internal_info->m_schema_lookup_done= TRUE; } return grant_internal_info->m_schema_access; } return ACL_internal_schema_registry::lookup(schema_name); } /** Get a cached internal table access. @param grant_internal_info the cache @param schema_name the name of the internal schema @param table_name the name of the internal table */ const ACL_internal_table_access * get_cached_table_access(GRANT_INTERNAL_INFO *grant_internal_info, const char *schema_name, const char *table_name) { DBUG_ASSERT(grant_internal_info); if (! grant_internal_info->m_table_lookup_done) { const ACL_internal_schema_access *schema_access; schema_access= get_cached_schema_access(grant_internal_info, schema_name); if (schema_access) grant_internal_info->m_table_access= schema_access->lookup(table_name); grant_internal_info->m_table_lookup_done= TRUE; } return grant_internal_info->m_table_access; } /**************************************************************************** AUTHENTICATION CODE including initial connect handshake, invoking appropriate plugins, client-server plugin negotiation, COM_CHANGE_USER, and native MySQL authentication plugins. ****************************************************************************/ /* few defines to have less ifdef's in the code below */ #ifdef EMBEDDED_LIBRARY #undef HAVE_OPENSSL #ifdef NO_EMBEDDED_ACCESS_CHECKS #define initialized 0 #define check_for_max_user_connections(X,Y) 0 #define get_or_create_user_conn(A,B,C,D) 0 #endif #endif #ifndef HAVE_OPENSSL #define ssl_acceptor_fd 0 #define sslaccept(A,B,C,D) 1 #endif /** The internal version of what plugins know as MYSQL_PLUGIN_VIO, basically the context of the authentication session */ struct MPVIO_EXT :public MYSQL_PLUGIN_VIO { MYSQL_SERVER_AUTH_INFO auth_info; ACL_USER *acl_user; ///< a copy, independent from acl_users array plugin_ref plugin; ///< what plugin we're under LEX_CSTRING db; ///< db name from the handshake packet /** when restarting a plugin this caches the last client reply */ struct { const char *plugin; char *pkt; ///< pointer into NET::buff uint pkt_len; } cached_client_reply; /** this caches the first plugin packet for restart request on the client */ struct { char *pkt; uint pkt_len; } cached_server_packet; uint curr_auth; ///< an index in acl_user->auth[] int packets_read, packets_written; ///< counters for send/received packets bool make_it_fail; /** when plugin returns a failure this tells us what really happened */ enum { SUCCESS, FAILURE, RESTART } status; }; /** a helper function to report an access denied error in most proper places */ static void login_failed_error(THD *thd) { my_error(access_denied_error_code(thd->password), MYF(0), thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip, thd->password ? ER_THD(thd, ER_YES) : ER_THD(thd, ER_NO)); general_log_print(thd, COM_CONNECT, ER_THD(thd, access_denied_error_code(thd->password)), thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip, thd->password ? ER_THD(thd, ER_YES) : ER_THD(thd, ER_NO)); status_var_increment(thd->status_var.access_denied_errors); /* Log access denied messages to the error log when log-warnings = 2 so that the overhead of the general query log is not required to track failed connections. */ if (global_system_variables.log_warnings > 1) { sql_print_warning(ER_THD(thd, access_denied_error_code(thd->password)), thd->main_security_ctx.user, thd->main_security_ctx.host_or_ip, thd->password ? ER_THD(thd, ER_YES) : ER_THD(thd, ER_NO)); } } /** sends a server handshake initialization packet, the very first packet after the connection was established Packet format: Bytes Content ----- ---- 1 protocol version (always 10) n server version string, \0-terminated 4 thread id 8 first 8 bytes of the plugin provided data (scramble) 1 \0 byte, terminating the first part of a scramble 2 server capabilities (two lower bytes) 1 server character set 2 server status 2 server capabilities (two upper bytes) 1 length of the scramble 10 reserved, always 0 n rest of the plugin provided data (at least 12 bytes) 1 \0 byte, terminating the second part of a scramble @retval 0 ok @retval 1 error */ static bool send_server_handshake_packet(MPVIO_EXT *mpvio, const char *data, uint data_len) { DBUG_ASSERT(mpvio->status == MPVIO_EXT::RESTART); DBUG_ASSERT(data_len <= 255); THD *thd= mpvio->auth_info.thd; char *buff= (char *) my_alloca(1 + SERVER_VERSION_LENGTH + 1 + data_len + 64); char scramble_buf[SCRAMBLE_LENGTH]; char *end= buff; DBUG_ENTER("send_server_handshake_packet"); *end++= protocol_version; thd->client_capabilities= CLIENT_BASIC_FLAGS; if (opt_using_transactions) thd->client_capabilities|= CLIENT_TRANSACTIONS; thd->client_capabilities|= CAN_CLIENT_COMPRESS; if (ssl_acceptor_fd) { thd->client_capabilities |= CLIENT_SSL; thd->client_capabilities |= CLIENT_SSL_VERIFY_SERVER_CERT; } if (data_len) { mpvio->cached_server_packet.pkt= (char*)thd->memdup(data, data_len); mpvio->cached_server_packet.pkt_len= data_len; } if (data_len < SCRAMBLE_LENGTH) { if (data_len) { /* the first packet *must* have at least 20 bytes of a scramble. if a plugin provided less, we pad it to 20 with zeros */ memcpy(scramble_buf, data, data_len); bzero(scramble_buf + data_len, SCRAMBLE_LENGTH - data_len); data= scramble_buf; } else { /* if the default plugin does not provide the data for the scramble at all, we generate a scramble internally anyway, just in case the user account (that will be known only later) uses a native_password_plugin (which needs a scramble). If we don't send a scramble now - wasting 20 bytes in the packet - native_password_plugin will have to send it in a separate packet, adding one more round trip. */ thd_create_random_password(thd, thd->scramble, SCRAMBLE_LENGTH); data= thd->scramble; } data_len= SCRAMBLE_LENGTH; } /* When server version is specified in config file, don't include the replication hack prefix. */ if (using_custom_server_version) end= strnmov(end, server_version, SERVER_VERSION_LENGTH) + 1; else end= strxnmov(end, SERVER_VERSION_LENGTH, RPL_VERSION_HACK, server_version, NullS) + 1; int4store((uchar*) end, mpvio->auth_info.thd->thread_id); end+= 4; /* Old clients does not understand long scrambles, but can ignore packet tail: that's why first part of the scramble is placed here, and second part at the end of packet. */ end= (char*) memcpy(end, data, SCRAMBLE_LENGTH_323); end+= SCRAMBLE_LENGTH_323; *end++= 0; int2store(end, thd->client_capabilities); /* write server characteristics: up to 16 bytes allowed */ end[2]= (char) default_charset_info->number; int2store(end+3, mpvio->auth_info.thd->server_status); int2store(end+5, thd->client_capabilities >> 16); end[7]= data_len; DBUG_EXECUTE_IF("poison_srv_handshake_scramble_len", end[7]= -100;); DBUG_EXECUTE_IF("increase_srv_handshake_scramble_len", end[7]= 50;); bzero(end + 8, 6); int4store(end + 14, thd->client_capabilities >> 32); end+= 18; /* write scramble tail */ end= (char*) memcpy(end, data + SCRAMBLE_LENGTH_323, data_len - SCRAMBLE_LENGTH_323); end+= data_len - SCRAMBLE_LENGTH_323; end= strmake(end, plugin_name(mpvio->plugin)->str, plugin_name(mpvio->plugin)->length); int res= my_net_write(&mpvio->auth_info.thd->net, (uchar*) buff, (size_t) (end - buff + 1)) || net_flush(&mpvio->auth_info.thd->net); my_afree(buff); DBUG_RETURN (res); } static bool secure_auth(THD *thd) { if (!opt_secure_auth) return 0; /* If the server is running in secure auth mode, short scrambles are forbidden. Extra juggling to report the same error as the old code. */ if (thd->client_capabilities & CLIENT_PROTOCOL_41) { my_error(ER_SERVER_IS_IN_SECURE_AUTH_MODE, MYF(0), thd->security_ctx->user, thd->security_ctx->host_or_ip); general_log_print(thd, COM_CONNECT, ER_THD(thd, ER_SERVER_IS_IN_SECURE_AUTH_MODE), thd->security_ctx->user, thd->security_ctx->host_or_ip); } else { my_error(ER_NOT_SUPPORTED_AUTH_MODE, MYF(0)); general_log_print(thd, COM_CONNECT, ER_THD(thd, ER_NOT_SUPPORTED_AUTH_MODE)); } return 1; } /** sends a "change plugin" packet, requesting a client to restart authentication using a different authentication plugin Packet format: Bytes Content ----- ---- 1 byte with the value 254 n client plugin to use, \0-terminated n plugin provided data In a special case of switching from native_password_plugin to old_password_plugin, the packet contains only one - the first - byte, plugin name is omitted, plugin data aren't needed as the scramble was already sent. This one-byte packet is identical to the "use the short scramble" packet in the protocol before plugins were introduced. @retval 0 ok @retval 1 error */ static bool send_plugin_request_packet(MPVIO_EXT *mpvio, const uchar *data, uint data_len) { NET *net= &mpvio->auth_info.thd->net; static uchar switch_plugin_request_buf[]= { 254 }; DBUG_ENTER("send_plugin_request_packet"); const char *client_auth_plugin= ((st_mysql_auth *) (plugin_decl(mpvio->plugin)->info))->client_auth_plugin; DBUG_EXECUTE_IF("auth_disconnect", { DBUG_RETURN(1); }); DBUG_EXECUTE_IF("auth_invalid_plugin", client_auth_plugin="foo/bar"; ); DBUG_ASSERT(client_auth_plugin); /* we send an old "short 4.0 scramble request", if we need to request a client to use 4.0 auth plugin (short scramble) and the scramble was already sent to the client below, cached_client_reply.plugin is the plugin name that client has used, client_auth_plugin is derived from mysql.user table, for the given user account, it's the plugin that the client need to use to login. */ bool switch_from_long_to_short_scramble= client_auth_plugin == old_password_plugin_name.str && my_strcasecmp(system_charset_info, mpvio->cached_client_reply.plugin, native_password_plugin_name.str) == 0; if (switch_from_long_to_short_scramble) DBUG_RETURN (secure_auth(mpvio->auth_info.thd) || my_net_write(net, switch_plugin_request_buf, 1) || net_flush(net)); /* We never request a client to switch from a short to long scramble. Plugin-aware clients can do that, but traditionally it meant to ask an old 4.0 client to use the new 4.1 authentication protocol. */ bool switch_from_short_to_long_scramble= client_auth_plugin == native_password_plugin_name.str && my_strcasecmp(system_charset_info, mpvio->cached_client_reply.plugin, old_password_plugin_name.str) == 0; if (switch_from_short_to_long_scramble) { my_error(ER_NOT_SUPPORTED_AUTH_MODE, MYF(0)); general_log_print(mpvio->auth_info.thd, COM_CONNECT, ER_THD(mpvio->auth_info.thd, ER_NOT_SUPPORTED_AUTH_MODE)); DBUG_RETURN (1); } DBUG_PRINT("info", ("requesting client to use the %s plugin", client_auth_plugin)); DBUG_RETURN(net_write_command(net, switch_plugin_request_buf[0], (uchar*) client_auth_plugin, strlen(client_auth_plugin) + 1, (uchar*) data, data_len)); } #ifndef NO_EMBEDDED_ACCESS_CHECKS /** Safeguard to avoid blocking the root, when max_password_errors limit is reached. Currently, we allow password errors for superuser on localhost. @return true, if password errors should be ignored, and user should not be locked. */ static bool ignore_max_password_errors(const ACL_USER *acl_user) { const char *host= acl_user->host.hostname; return (acl_user->access & SUPER_ACL) && (!strcasecmp(host, "localhost") || !strcmp(host, "127.0.0.1") || !strcmp(host, "::1")); } /** Finds acl entry in user database for authentication purposes. Finds a user and copies it into mpvio. Creates a fake user if no matching user account is found. @retval 0 found @retval 1 error */ static bool find_mpvio_user(MPVIO_EXT *mpvio) { Security_context *sctx= mpvio->auth_info.thd->security_ctx; DBUG_ENTER("find_mpvio_user"); DBUG_ASSERT(mpvio->acl_user == 0); mysql_mutex_lock(&acl_cache->lock); ACL_USER *user= find_user_or_anon(sctx->host, sctx->user, sctx->ip); if (user) mpvio->acl_user= user->copy(mpvio->auth_info.thd->mem_root); mysql_mutex_unlock(&acl_cache->lock); if (!mpvio->acl_user) { /* A matching user was not found. Fake it. Take any user, make the authentication fail later. This way we get a realistically looking failure, with occasional "change auth plugin" requests even for nonexistent users. The ratio of "change auth plugin" request will be the same for real and nonexistent users. Note, that we cannot pick any user at random, it must always be the same user account for the incoming sctx->user name. */ ulong nr1=1, nr2=4; CHARSET_INFO *cs= &my_charset_latin1; cs->coll->hash_sort(cs, (uchar*) sctx->user, strlen(sctx->user), &nr1, &nr2); mysql_mutex_lock(&acl_cache->lock); if (!acl_users.elements) { mysql_mutex_unlock(&acl_cache->lock); login_failed_error(mpvio->auth_info.thd); DBUG_RETURN(1); } uint i= nr1 % acl_users.elements; ACL_USER *acl_user_tmp= dynamic_element(&acl_users, i, ACL_USER*); mpvio->acl_user= acl_user_tmp->copy(mpvio->auth_info.thd->mem_root); mysql_mutex_unlock(&acl_cache->lock); mpvio->make_it_fail= true; } if (mpvio->acl_user->password_errors >= max_password_errors && !ignore_max_password_errors(mpvio->acl_user)) { my_error(ER_USER_IS_BLOCKED, MYF(0)); general_log_print(mpvio->auth_info.thd, COM_CONNECT, ER_THD(mpvio->auth_info.thd, ER_USER_IS_BLOCKED)); DBUG_RETURN(1); } /* user account requires non-default plugin and the client is too old */ if (mpvio->acl_user->auth->plugin.str != native_password_plugin_name.str && mpvio->acl_user->auth->plugin.str != old_password_plugin_name.str && !(mpvio->auth_info.thd->client_capabilities & CLIENT_PLUGIN_AUTH)) { DBUG_ASSERT(my_strcasecmp(system_charset_info, mpvio->acl_user->auth->plugin.str, native_password_plugin_name.str)); DBUG_ASSERT(my_strcasecmp(system_charset_info, mpvio->acl_user->auth->plugin.str, old_password_plugin_name.str)); my_error(ER_NOT_SUPPORTED_AUTH_MODE, MYF(0)); general_log_print(mpvio->auth_info.thd, COM_CONNECT, ER_THD(mpvio->auth_info.thd, ER_NOT_SUPPORTED_AUTH_MODE)); DBUG_RETURN (1); } DBUG_RETURN(0); } static bool read_client_connect_attrs(char **ptr, char *end, CHARSET_INFO *from_cs) { ulonglong length; char *ptr_save= *ptr; /* not enough bytes to hold the length */ if (ptr_save >= end) return true; length= safe_net_field_length_ll((uchar **) ptr, end - ptr_save); /* cannot even read the length */ if (*ptr == NULL) return true; /* length says there're more data than can fit into the packet */ if (*ptr + length > end) return true; /* impose an artificial length limit of 64k */ if (length > 65535) return true; if (PSI_CALL_set_thread_connect_attrs(*ptr, (uint)length, from_cs) && current_thd->variables.log_warnings) sql_print_warning("Connection attributes of length %llu were truncated", length); return false; } #endif /* the packet format is described in send_change_user_packet() */ static bool parse_com_change_user_packet(MPVIO_EXT *mpvio, uint packet_length) { THD *thd= mpvio->auth_info.thd; NET *net= &thd->net; Security_context *sctx= thd->security_ctx; char *user= (char*) net->read_pos; char *end= user + packet_length; /* Safe because there is always a trailing \0 at the end of the packet */ char *passwd= strend(user) + 1; uint user_len= (uint)(passwd - user - 1); char *db= passwd; char db_buff[SAFE_NAME_LEN + 1]; // buffer to store db in utf8 char user_buff[USERNAME_LENGTH + 1]; // buffer to store user in utf8 uint dummy_errors; DBUG_ENTER ("parse_com_change_user_packet"); if (passwd >= end) { my_message(ER_UNKNOWN_COM_ERROR, ER_THD(thd, ER_UNKNOWN_COM_ERROR), MYF(0)); DBUG_RETURN (1); } /* Old clients send null-terminated string as password; new clients send the size (1 byte) + string (not null-terminated). Hence in case of empty password both send '\0'. This strlen() can't be easily deleted without changing protocol. Cast *passwd to an unsigned char, so that it doesn't extend the sign for *passwd > 127 and become 2**32-127+ after casting to uint. */ uint passwd_len= (thd->client_capabilities & CLIENT_SECURE_CONNECTION ? (uchar) (*passwd++) : (uint)strlen(passwd)); db+= passwd_len + 1; /* Database name is always NUL-terminated, so in case of empty database the packet must contain at least the trailing '\0'. */ if (db >= end) { my_message(ER_UNKNOWN_COM_ERROR, ER_THD(thd, ER_UNKNOWN_COM_ERROR), MYF(0)); DBUG_RETURN (1); } size_t db_len= strlen(db); char *next_field= db + db_len + 1; if (next_field + 1 < end) { if (thd_init_client_charset(thd, uint2korr(next_field))) DBUG_RETURN(1); next_field+= 2; } /* Convert database and user names to utf8 */ db_len= copy_and_convert(db_buff, sizeof(db_buff) - 1, system_charset_info, db, db_len, thd->charset(), &dummy_errors); user_len= copy_and_convert(user_buff, sizeof(user_buff) - 1, system_charset_info, user, user_len, thd->charset(), &dummy_errors); if (!(sctx->user= my_strndup(user_buff, user_len, MYF(MY_WME)))) DBUG_RETURN(1); /* Clear variables that are allocated */ thd->user_connect= 0; strmake_buf(sctx->priv_user, sctx->user); if (thd->make_lex_string(&mpvio->db, db_buff, db_len) == 0) DBUG_RETURN(1); /* The error is set by make_lex_string(). */ /* Clear thd->db as it points to something, that will be freed when connection is closed. We don't want to accidentally free a wrong pointer if connect failed. */ thd->reset_db(&null_clex_str); if (!initialized) { // if mysqld's been started with --skip-grant-tables option mpvio->status= MPVIO_EXT::SUCCESS; DBUG_RETURN(0); } #ifndef NO_EMBEDDED_ACCESS_CHECKS thd->password= passwd_len > 0; if (find_mpvio_user(mpvio)) DBUG_RETURN(1); const char *client_plugin; if (thd->client_capabilities & CLIENT_PLUGIN_AUTH) { if (next_field >= end) { my_message(ER_UNKNOWN_COM_ERROR, ER_THD(thd, ER_UNKNOWN_COM_ERROR), MYF(0)); DBUG_RETURN(1); } client_plugin= next_field; next_field+= strlen(next_field) + 1; } else { if (thd->client_capabilities & CLIENT_SECURE_CONNECTION) client_plugin= native_password_plugin_name.str; else { /* Normally old clients use old_password_plugin, but for a passwordless accounts we use native_password_plugin. See guess_auth_plugin(). */ client_plugin= passwd_len ? old_password_plugin_name.str : native_password_plugin_name.str; } } if ((thd->client_capabilities & CLIENT_CONNECT_ATTRS) && read_client_connect_attrs(&next_field, end, thd->charset())) { my_message(ER_UNKNOWN_COM_ERROR, ER_THD(thd, ER_UNKNOWN_COM_ERROR), MYF(0)); DBUG_RETURN(1); } DBUG_PRINT("info", ("client_plugin=%s, restart", client_plugin)); /* Remember the data part of the packet, to present it to plugin in read_packet() */ mpvio->cached_client_reply.pkt= passwd; mpvio->cached_client_reply.pkt_len= passwd_len; mpvio->cached_client_reply.plugin= client_plugin; mpvio->status= MPVIO_EXT::RESTART; #endif DBUG_RETURN (0); } /* the packet format is described in send_client_reply_packet() */ static ulong parse_client_handshake_packet(MPVIO_EXT *mpvio, uchar **buff, ulong pkt_len) { #ifndef EMBEDDED_LIBRARY THD *thd= mpvio->auth_info.thd; NET *net= &thd->net; char *end; DBUG_ASSERT(mpvio->status == MPVIO_EXT::FAILURE); if (pkt_len < MIN_HANDSHAKE_SIZE) return packet_error; /* Protocol buffer is guaranteed to always end with \0. (see my_net_read()) As the code below depends on this, lets check that. */ DBUG_ASSERT(net->read_pos[pkt_len] == 0); ulonglong client_capabilities= uint2korr(net->read_pos); compile_time_assert(sizeof(client_capabilities) >= 8); if (client_capabilities & CLIENT_PROTOCOL_41) { if (pkt_len < 32) return packet_error; client_capabilities|= ((ulong) uint2korr(net->read_pos+2)) << 16; if (!(client_capabilities & CLIENT_MYSQL)) { // it is client with mariadb extensions ulonglong ext_client_capabilities= (((ulonglong)uint4korr(net->read_pos + 28)) << 32); client_capabilities|= ext_client_capabilities; } } /* Disable those bits which are not supported by the client. */ compile_time_assert(sizeof(thd->client_capabilities) >= 8); thd->client_capabilities&= client_capabilities; DBUG_PRINT("info", ("client capabilities: %llu", thd->client_capabilities)); if (thd->client_capabilities & CLIENT_SSL) { unsigned long errptr __attribute__((unused)); /* Do the SSL layering. */ if (!ssl_acceptor_fd) return packet_error; DBUG_PRINT("info", ("IO layer change in progress...")); mysql_rwlock_rdlock(&LOCK_ssl_refresh); int ssl_ret = sslaccept(ssl_acceptor_fd, net->vio, net->read_timeout, &errptr); mysql_rwlock_unlock(&LOCK_ssl_refresh); ssl_acceptor_stats_update(ssl_ret); if(ssl_ret) { DBUG_PRINT("error", ("Failed to accept new SSL connection")); return packet_error; } DBUG_PRINT("info", ("Reading user information over SSL layer")); pkt_len= my_net_read(net); if (unlikely(pkt_len == packet_error || pkt_len < NORMAL_HANDSHAKE_SIZE)) { DBUG_PRINT("error", ("Failed to read user information (pkt_len= %lu)", pkt_len)); return packet_error; } } if (client_capabilities & CLIENT_PROTOCOL_41) { thd->max_client_packet_length= uint4korr(net->read_pos+4); DBUG_PRINT("info", ("client_character_set: %d", (uint) net->read_pos[8])); if (thd_init_client_charset(thd, (uint) net->read_pos[8])) return packet_error; end= (char*) net->read_pos+32; } else { if (pkt_len < 5) return packet_error; thd->max_client_packet_length= uint3korr(net->read_pos+2); end= (char*) net->read_pos+5; } if (end >= (char*) net->read_pos+ pkt_len +2) return packet_error; if (thd->client_capabilities & CLIENT_IGNORE_SPACE) thd->variables.sql_mode|= MODE_IGNORE_SPACE; if (thd->client_capabilities & CLIENT_INTERACTIVE) thd->variables.net_wait_timeout= thd->variables.net_interactive_timeout; if (end >= (char*) net->read_pos+ pkt_len +2) return packet_error; if ((thd->client_capabilities & CLIENT_TRANSACTIONS) && opt_using_transactions) net->return_status= &thd->server_status; char *user= end; char *passwd= strend(user)+1; size_t user_len= (size_t)(passwd - user - 1), db_len; char *db= passwd; char user_buff[USERNAME_LENGTH + 1]; // buffer to store user in utf8 uint dummy_errors; /* Old clients send null-terminated string as password; new clients send the size (1 byte) + string (not null-terminated). Hence in case of empty password both send '\0'. This strlen() can't be easily deleted without changing protocol. Cast *passwd to an unsigned char, so that it doesn't extend the sign for *passwd > 127 and become 2**32-127+ after casting to uint. */ ulonglong len; size_t passwd_len; if (!(thd->client_capabilities & CLIENT_SECURE_CONNECTION)) len= strlen(passwd); else if (!(thd->client_capabilities & CLIENT_PLUGIN_AUTH_LENENC_CLIENT_DATA)) len= (uchar)(*passwd++); else { len= safe_net_field_length_ll((uchar**)&passwd, net->read_pos + pkt_len - (uchar*)passwd); if (len > pkt_len) return packet_error; } passwd_len= (size_t)len; db= thd->client_capabilities & CLIENT_CONNECT_WITH_DB ? db + passwd_len + 1 : 0; if (passwd == NULL || passwd + passwd_len + MY_TEST(db) > (char*) net->read_pos + pkt_len) return packet_error; /* strlen() can't be easily deleted without changing protocol */ db_len= safe_strlen(db); char *next_field; const char *client_plugin= next_field= passwd + passwd_len + (db ? db_len + 1 : 0); /* Since 4.1 all database names are stored in utf8 The cast is ok as copy_with_error will create a new area for db */ if (unlikely(thd->copy_with_error(system_charset_info, (LEX_STRING*) &mpvio->db, thd->charset(), db, db_len))) return packet_error; user_len= copy_and_convert(user_buff, sizeof(user_buff) - 1, system_charset_info, user, user_len, thd->charset(), &dummy_errors); user= user_buff; /* If username starts and ends in "'", chop them off */ if (user_len > 1 && user[0] == '\'' && user[user_len - 1] == '\'') { user++; user_len-= 2; } /* Clip username to allowed length in characters (not bytes). This is mostly for backward compatibility (to truncate long usernames, as old 5.1 did) */ user_len= Well_formed_prefix(system_charset_info, user, user_len, username_char_length).length(); user[user_len]= '\0'; Security_context *sctx= thd->security_ctx; my_free((char*) sctx->user); if (!(sctx->user= my_strndup(user, user_len, MYF(MY_WME)))) return packet_error; /* The error is set by my_strdup(). */ /* Clear thd->db as it points to something, that will be freed when connection is closed. We don't want to accidentally free a wrong pointer if connect failed. */ thd->reset_db(&null_clex_str); if (!initialized) { // if mysqld's been started with --skip-grant-tables option mpvio->status= MPVIO_EXT::SUCCESS; return packet_error; } thd->password= passwd_len > 0; if (find_mpvio_user(mpvio)) return packet_error; if ((thd->client_capabilities & CLIENT_PLUGIN_AUTH) && (client_plugin < (char *)net->read_pos + pkt_len)) { next_field+= strlen(next_field) + 1; } else { /* Some clients lie. Sad, but true */ thd->client_capabilities &= ~CLIENT_PLUGIN_AUTH; if (thd->client_capabilities & CLIENT_SECURE_CONNECTION) client_plugin= native_password_plugin_name.str; else { /* Normally old clients use old_password_plugin, but for a passwordless accounts we use native_password_plugin. See guess_auth_plugin(). */ client_plugin= passwd_len ? old_password_plugin_name.str : native_password_plugin_name.str; } } if ((thd->client_capabilities & CLIENT_CONNECT_ATTRS) && read_client_connect_attrs(&next_field, ((char *)net->read_pos) + pkt_len, mpvio->auth_info.thd->charset())) return packet_error; /* if the acl_user needs a different plugin to authenticate (specified in GRANT ... AUTHENTICATED VIA plugin_name ..) we need to restart the authentication in the server. But perhaps the client has already used the correct plugin - in that case the authentication on the client may not need to be restarted and a server auth plugin will read the data that the client has just send. Cache them to return in the next server_mpvio_read_packet(). */ if (!lex_string_eq(&mpvio->acl_user->auth->plugin, plugin_name(mpvio->plugin))) { mpvio->cached_client_reply.pkt= passwd; mpvio->cached_client_reply.pkt_len= (uint)passwd_len; mpvio->cached_client_reply.plugin= client_plugin; mpvio->status= MPVIO_EXT::RESTART; return packet_error; } /* ok, we don't need to restart the authentication on the server. but if the client used the wrong plugin, we need to restart the authentication on the client. Do it here, the server plugin doesn't need to know. */ const char *client_auth_plugin= ((st_mysql_auth *) (plugin_decl(mpvio->plugin)->info))->client_auth_plugin; if (client_auth_plugin && my_strcasecmp(system_charset_info, client_plugin, client_auth_plugin)) { mpvio->cached_client_reply.plugin= client_plugin; if (send_plugin_request_packet(mpvio, (uchar*) mpvio->cached_server_packet.pkt, mpvio->cached_server_packet.pkt_len)) return packet_error; passwd_len= my_net_read(&thd->net); passwd= (char*)thd->net.read_pos; } *buff= (uchar*) passwd; return (ulong)passwd_len; #else return 0; #endif } /** vio->write_packet() callback method for server authentication plugins This function is called by a server authentication plugin, when it wants to send data to the client. It transparently wraps the data into a handshake packet, and handles plugin negotiation with the client. If necessary, it escapes the plugin data, if it starts with a mysql protocol packet byte. */ static int server_mpvio_write_packet(MYSQL_PLUGIN_VIO *param, const uchar *packet, int packet_len) { MPVIO_EXT *mpvio= (MPVIO_EXT *) param; int res; DBUG_ENTER("server_mpvio_write_packet"); /* reset cached_client_reply */ mpvio->cached_client_reply.pkt= 0; /* for the 1st packet we wrap plugin data into the handshake packet */ if (mpvio->packets_written == 0) res= send_server_handshake_packet(mpvio, (char*) packet, packet_len); else if (mpvio->status == MPVIO_EXT::RESTART) res= send_plugin_request_packet(mpvio, packet, packet_len); else if (packet_len > 0 && (*packet == 1 || *packet == 255 || *packet == 254)) { /* we cannot allow plugin data packet to start from 255 or 254 - as the client will treat it as an error or "change plugin" packet. We'll escape these bytes with \1. Consequently, we have to escape \1 byte too. */ res= net_write_command(&mpvio->auth_info.thd->net, 1, (uchar*)"", 0, packet, packet_len); } else { res= my_net_write(&mpvio->auth_info.thd->net, packet, packet_len) || net_flush(&mpvio->auth_info.thd->net); } mpvio->status= MPVIO_EXT::FAILURE; // the status is no longer RESTART mpvio->packets_written++; DBUG_RETURN(res); } /** vio->read_packet() callback method for server authentication plugins This function is called by a server authentication plugin, when it wants to read data from the client. It transparently extracts the client plugin data, if embedded into a client authentication handshake packet, and handles plugin negotiation with the client, if necessary. */ static int server_mpvio_read_packet(MYSQL_PLUGIN_VIO *param, uchar **buf) { MPVIO_EXT * const mpvio= (MPVIO_EXT *) param; MYSQL_SERVER_AUTH_INFO * const ai= &mpvio->auth_info; ulong pkt_len; DBUG_ENTER("server_mpvio_read_packet"); if (mpvio->status == MPVIO_EXT::RESTART) { const char *client_auth_plugin= ((st_mysql_auth *) (plugin_decl(mpvio->plugin)->info))->client_auth_plugin; if (client_auth_plugin == 0) { mpvio->status= MPVIO_EXT::FAILURE; pkt_len= 0; *buf= 0; goto done; } if (mpvio->cached_client_reply.pkt) { DBUG_ASSERT(mpvio->packets_read > 0); /* if the have the data cached from the last server_mpvio_read_packet (which can be the case if it's a restarted authentication) and a client has used the correct plugin, then we can return the cached data straight away and avoid one round trip. */ if (my_strcasecmp(system_charset_info, mpvio->cached_client_reply.plugin, client_auth_plugin) == 0) { mpvio->status= MPVIO_EXT::FAILURE; pkt_len= mpvio->cached_client_reply.pkt_len; *buf= (uchar*) mpvio->cached_client_reply.pkt; mpvio->packets_read++; goto done; } } /* plugin wants to read the data without sending anything first. send an empty packet to force a server handshake packet to be sent */ if (server_mpvio_write_packet(mpvio, 0, 0)) pkt_len= packet_error; else pkt_len= my_net_read(&ai->thd->net); } else pkt_len= my_net_read(&ai->thd->net); if (unlikely(pkt_len == packet_error)) goto err; mpvio->packets_read++; /* the 1st packet has the plugin data wrapped into the client authentication handshake packet */ if (mpvio->packets_read == 1) { pkt_len= parse_client_handshake_packet(mpvio, buf, pkt_len); if (unlikely(pkt_len == packet_error)) goto err; } else *buf= ai->thd->net.read_pos; done: if (set_user_salt_if_needed(mpvio->acl_user, mpvio->curr_auth, mpvio->plugin)) goto err; ai->user_name= ai->thd->security_ctx->user; ai->user_name_length= (uint) strlen(ai->user_name); ai->auth_string= mpvio->acl_user->auth[mpvio->curr_auth].salt.str; ai->auth_string_length= (ulong) mpvio->acl_user->auth[mpvio->curr_auth].salt.length; strmake_buf(ai->authenticated_as, mpvio->acl_user->user.str); DBUG_RETURN((int)pkt_len); err: if (mpvio->status == MPVIO_EXT::FAILURE) { if (!ai->thd->is_error()) my_error(ER_HANDSHAKE_ERROR, MYF(0)); } DBUG_RETURN(-1); } /** fills MYSQL_PLUGIN_VIO_INFO structure with the information about the connection */ static void server_mpvio_info(MYSQL_PLUGIN_VIO *vio, MYSQL_PLUGIN_VIO_INFO *info) { MPVIO_EXT *mpvio= (MPVIO_EXT *) vio; mpvio_info(mpvio->auth_info.thd->net.vio, info); } static bool acl_check_ssl(THD *thd, const ACL_USER *acl_user) { #ifdef HAVE_OPENSSL Vio *vio= thd->net.vio; SSL *ssl= (SSL *) vio->ssl_arg; X509 *cert; #endif /* At this point we know that user is allowed to connect from given host by given username/password pair. Now we check if SSL is required, if user is using SSL and if X509 certificate attributes are OK */ switch (acl_user->ssl_type) { case SSL_TYPE_NOT_SPECIFIED: // Impossible case SSL_TYPE_NONE: // SSL is not required return 0; #ifdef HAVE_OPENSSL case SSL_TYPE_ANY: // Any kind of SSL is ok return vio_type(vio) != VIO_TYPE_SSL; case SSL_TYPE_X509: /* Client should have any valid certificate. */ /* Connections with non-valid certificates are dropped already in sslaccept() anyway, so we do not check validity here. We need to check for absence of SSL because without SSL we should reject connection. */ if (vio_type(vio) == VIO_TYPE_SSL && SSL_get_verify_result(ssl) == X509_V_OK && (cert= SSL_get_peer_certificate(ssl))) { X509_free(cert); return 0; } return 1; case SSL_TYPE_SPECIFIED: /* Client should have specified attrib */ /* If a cipher name is specified, we compare it to actual cipher in use. */ if (vio_type(vio) != VIO_TYPE_SSL || SSL_get_verify_result(ssl) != X509_V_OK) return 1; if (acl_user->ssl_cipher) { const char *ssl_cipher= SSL_get_cipher(ssl); DBUG_PRINT("info", ("comparing ciphers: '%s' and '%s'", acl_user->ssl_cipher, ssl_cipher)); if (strcmp(acl_user->ssl_cipher, ssl_cipher)) { if (global_system_variables.log_warnings) sql_print_information("X509 ciphers mismatch: should be '%s' but is '%s'", acl_user->ssl_cipher, ssl_cipher); return 1; } } if (!acl_user->x509_issuer[0] && !acl_user->x509_subject[0]) return 0; // all done /* Prepare certificate (if exists) */ if (!(cert= SSL_get_peer_certificate(ssl))) return 1; /* If X509 issuer is specified, we check it... */ if (acl_user->x509_issuer[0]) { char *ptr= X509_NAME_oneline(X509_get_issuer_name(cert), 0, 0); DBUG_PRINT("info", ("comparing issuers: '%s' and '%s'", acl_user->x509_issuer, ptr)); if (strcmp(acl_user->x509_issuer, ptr)) { if (global_system_variables.log_warnings) sql_print_information("X509 issuer mismatch: should be '%s' " "but is '%s'", acl_user->x509_issuer, ptr); free(ptr); X509_free(cert); return 1; } free(ptr); } /* X509 subject is specified, we check it .. */ if (acl_user->x509_subject[0]) { char *ptr= X509_NAME_oneline(X509_get_subject_name(cert), 0, 0); DBUG_PRINT("info", ("comparing subjects: '%s' and '%s'", acl_user->x509_subject, ptr)); if (strcmp(acl_user->x509_subject, ptr)) { if (global_system_variables.log_warnings) sql_print_information("X509 subject mismatch: should be '%s' but is '%s'", acl_user->x509_subject, ptr); free(ptr); X509_free(cert); return 1; } free(ptr); } X509_free(cert); return 0; #else /* HAVE_OPENSSL */ default: /* If we don't have SSL but SSL is required for this user the authentication should fail. */ return 1; #endif /* HAVE_OPENSSL */ } return 1; } static int do_auth_once(THD *thd, const LEX_CSTRING *auth_plugin_name, MPVIO_EXT *mpvio) { int res= CR_OK; bool unlock_plugin= false; plugin_ref plugin= get_auth_plugin(thd, *auth_plugin_name, &unlock_plugin); mpvio->plugin= plugin; mpvio->auth_info.user_name= NULL; if (plugin) { st_mysql_auth *info= (st_mysql_auth *) plugin_decl(plugin)->info; switch (info->interface_version >> 8) { case 0x02: res= info->authenticate_user(mpvio, &mpvio->auth_info); break; case 0x01: { MYSQL_SERVER_AUTH_INFO_0x0100 compat; compat.downgrade(&mpvio->auth_info); res= info->authenticate_user(mpvio, (MYSQL_SERVER_AUTH_INFO *)&compat); compat.upgrade(&mpvio->auth_info); } break; default: DBUG_ASSERT(0); } if (unlock_plugin) plugin_unlock(thd, plugin); } else { /* Server cannot load the required plugin. */ Host_errors errors; errors.m_no_auth_plugin= 1; inc_host_errors(mpvio->auth_info.thd->security_ctx->ip, &errors); my_error(ER_PLUGIN_IS_NOT_LOADED, MYF(0), auth_plugin_name->str); res= CR_ERROR; } return res; } enum PASSWD_ERROR_ACTION { PASSWD_ERROR_CLEAR, PASSWD_ERROR_INCREMENT }; /* Increment, or clear password errors for a user. */ static void handle_password_errors(const char *user, const char *hostname, PASSWD_ERROR_ACTION action) { #ifndef NO_EMBEDDED_ACCESS_CHECKS mysql_mutex_assert_not_owner(&acl_cache->lock); mysql_mutex_lock(&acl_cache->lock); ACL_USER *u = find_user_exact(hostname, user); if (u) { switch(action) { case PASSWD_ERROR_INCREMENT: u->password_errors++; break; case PASSWD_ERROR_CLEAR: u->password_errors= 0; break; default: DBUG_ASSERT(0); break; } } mysql_mutex_unlock(&acl_cache->lock); #endif } static bool check_password_lifetime(THD *thd, const ACL_USER &acl_user) { /* the password should never expire */ if (!acl_user.password_lifetime) return false; longlong interval= acl_user.password_lifetime; if (interval < 0) { interval= default_password_lifetime; /* default global policy applies, and that is password never expires */ if (!interval) return false; } thd->set_time(); if ((thd->query_start() - acl_user.password_last_changed)/3600/24 >= interval) return true; return false; } /** Perform the handshake, authorize the client and update thd sctx variables. @param thd thread handle @param com_change_user_pkt_len size of the COM_CHANGE_USER packet (without the first, command, byte) or 0 if it's not a COM_CHANGE_USER (that is, if it's a new connection) @retval 0 success, thd is updated. @retval 1 error */ bool acl_authenticate(THD *thd, uint com_change_user_pkt_len) { int res= CR_OK; MPVIO_EXT mpvio; enum enum_server_command command= com_change_user_pkt_len ? COM_CHANGE_USER : COM_CONNECT; DBUG_ENTER("acl_authenticate"); bzero(&mpvio, sizeof(mpvio)); mpvio.read_packet= server_mpvio_read_packet; mpvio.write_packet= server_mpvio_write_packet; mpvio.cached_client_reply.plugin= ""; mpvio.info= server_mpvio_info; mpvio.status= MPVIO_EXT::RESTART; mpvio.auth_info.thd= thd; mpvio.auth_info.host_or_ip= thd->security_ctx->host_or_ip; mpvio.auth_info.host_or_ip_length= (unsigned int) strlen(thd->security_ctx->host_or_ip); DBUG_PRINT("info", ("com_change_user_pkt_len=%u", com_change_user_pkt_len)); if (command == COM_CHANGE_USER) { mpvio.packets_written++; // pretend that a server handshake packet was sent mpvio.packets_read++; // take COM_CHANGE_USER packet into account if (parse_com_change_user_packet(&mpvio, com_change_user_pkt_len)) DBUG_RETURN(1); res= mpvio.status == MPVIO_EXT::SUCCESS ? CR_OK : CR_ERROR; DBUG_ASSERT(mpvio.status == MPVIO_EXT::RESTART || mpvio.status == MPVIO_EXT::SUCCESS); } else { /* mark the thd as having no scramble yet */ thd->scramble[SCRAMBLE_LENGTH]= 1; /* perform the first authentication attempt, with the default plugin. This sends the server handshake packet, reads the client reply with a user name, and performs the authentication if everyone has used the correct plugin. */ res= do_auth_once(thd, default_auth_plugin_name, &mpvio); } Security_context * const sctx= thd->security_ctx; const ACL_USER * acl_user= mpvio.acl_user; if (!acl_user) statistic_increment(aborted_connects_preauth, &LOCK_status); if (acl_user) { /* retry the authentication with curr_auth==0 if after receiving the user name we found that we need to switch to a non-default plugin */ for (mpvio.curr_auth= mpvio.status != MPVIO_EXT::RESTART; res != CR_OK && mpvio.curr_auth < acl_user->nauth; mpvio.curr_auth++) { thd->clear_error(); mpvio.status= MPVIO_EXT::RESTART; res= do_auth_once(thd, &acl_user->auth[mpvio.curr_auth].plugin, &mpvio); } } if (mpvio.make_it_fail && res == CR_OK) { mpvio.status= MPVIO_EXT::FAILURE; res= CR_ERROR; } thd->password= mpvio.auth_info.password_used; // remember for error messages /* Log the command here so that the user can check the log for the tried logins and also to detect break-in attempts. if sctx->user is unset it's protocol failure, bad packet. */ if (sctx->user) { if (strcmp(sctx->priv_user, sctx->user)) { general_log_print(thd, command, "%s@%s as %s on %s", sctx->user, sctx->host_or_ip, sctx->priv_user[0] ? sctx->priv_user : "anonymous", safe_str(mpvio.db.str)); } else general_log_print(thd, command, (char*) "%s@%s on %s", sctx->user, sctx->host_or_ip, safe_str(mpvio.db.str)); } if (res > CR_OK && mpvio.status != MPVIO_EXT::SUCCESS) { Host_errors errors; switch (res) { case CR_AUTH_PLUGIN_ERROR: errors.m_auth_plugin= 1; break; case CR_AUTH_HANDSHAKE: errors.m_handshake= 1; break; case CR_AUTH_USER_CREDENTIALS: errors.m_authentication= 1; if (thd->password && !mpvio.make_it_fail) handle_password_errors(acl_user->user.str, acl_user->host.hostname, PASSWD_ERROR_INCREMENT); break; case CR_ERROR: default: /* Unknown of unspecified auth plugin error. */ errors.m_auth_plugin= 1; break; } inc_host_errors(mpvio.auth_info.thd->security_ctx->ip, &errors); if (!thd->is_error()) login_failed_error(thd); DBUG_RETURN(1); } sctx->proxy_user[0]= 0; if (thd->password && acl_user->password_errors) { /* Login succeeded, clear password errors.*/ handle_password_errors(acl_user->user.str, acl_user->host.hostname, PASSWD_ERROR_CLEAR); } if (initialized) // if not --skip-grant-tables { #ifndef NO_EMBEDDED_ACCESS_CHECKS bool is_proxy_user= FALSE; const char *auth_user = acl_user->user.str; ACL_PROXY_USER *proxy_user; /* check if the user is allowed to proxy as another user */ proxy_user= acl_find_proxy_user(auth_user, sctx->host, sctx->ip, mpvio.auth_info.authenticated_as, &is_proxy_user); if (is_proxy_user) { ACL_USER *acl_proxy_user; /* we need to find the proxy user, but there was none */ if (!proxy_user) { Host_errors errors; errors.m_proxy_user= 1; inc_host_errors(mpvio.auth_info.thd->security_ctx->ip, &errors); if (!thd->is_error()) login_failed_error(thd); DBUG_RETURN(1); } my_snprintf(sctx->proxy_user, sizeof(sctx->proxy_user) - 1, "'%s'@'%s'", auth_user, safe_str(acl_user->host.hostname)); /* we're proxying : find the proxy user definition */ mysql_mutex_lock(&acl_cache->lock); acl_proxy_user= find_user_exact(safe_str(proxy_user->get_proxied_host()), mpvio.auth_info.authenticated_as); if (!acl_proxy_user) { mysql_mutex_unlock(&acl_cache->lock); Host_errors errors; errors.m_proxy_user_acl= 1; inc_host_errors(mpvio.auth_info.thd->security_ctx->ip, &errors); if (!thd->is_error()) login_failed_error(thd); DBUG_RETURN(1); } acl_user= acl_proxy_user->copy(thd->mem_root); mysql_mutex_unlock(&acl_cache->lock); } #endif sctx->master_access= acl_user->access; strmake_buf(sctx->priv_user, acl_user->user.str); if (acl_user->host.hostname) strmake_buf(sctx->priv_host, acl_user->host.hostname); else *sctx->priv_host= 0; /* OK. Let's check the SSL. Historically it was checked after the password, as an additional layer, not instead of the password (in which case it would've been a plugin too). */ if (acl_check_ssl(thd, acl_user)) { Host_errors errors; errors.m_ssl= 1; inc_host_errors(mpvio.auth_info.thd->security_ctx->ip, &errors); login_failed_error(thd); DBUG_RETURN(1); } if (acl_user->account_locked) { status_var_increment(denied_connections); my_error(ER_ACCOUNT_HAS_BEEN_LOCKED, MYF(0)); DBUG_RETURN(1); } bool client_can_handle_exp_pass= thd->client_capabilities & CLIENT_CAN_HANDLE_EXPIRED_PASSWORDS; bool password_expired= thd->password != PASSWORD_USED_NO_MENTION && (acl_user->password_expired || check_password_lifetime(thd, *acl_user)); if (!client_can_handle_exp_pass && disconnect_on_expired_password && password_expired) { status_var_increment(denied_connections); my_error(ER_MUST_CHANGE_PASSWORD_LOGIN, MYF(0)); DBUG_RETURN(1); } sctx->password_expired= password_expired; /* Don't allow the user to connect if he has done too many queries. As we are testing max_user_connections == 0 here, it means that we can't let the user change max_user_connections from 0 in the server without a restart as it would lead to wrong connect counting. */ if ((acl_user->user_resource.questions || acl_user->user_resource.updates || acl_user->user_resource.conn_per_hour || acl_user->user_resource.user_conn || acl_user->user_resource.max_statement_time != 0.0 || max_user_connections_checking) && get_or_create_user_conn(thd, (opt_old_style_user_limits ? sctx->user : sctx->priv_user), (opt_old_style_user_limits ? sctx->host_or_ip : sctx->priv_host), &acl_user->user_resource)) DBUG_RETURN(1); // The error is set by get_or_create_user_conn() if (acl_user->user_resource.max_statement_time != 0.0) { thd->variables.max_statement_time_double= acl_user->user_resource.max_statement_time; thd->variables.max_statement_time= (ulonglong) (thd->variables.max_statement_time_double * 1e6 + 0.1); } } else sctx->skip_grants(); if (thd->user_connect && (thd->user_connect->user_resources.conn_per_hour || thd->user_connect->user_resources.user_conn || max_user_connections_checking) && check_for_max_user_connections(thd, thd->user_connect)) { /* Ensure we don't decrement thd->user_connections->connections twice */ thd->user_connect= 0; status_var_increment(denied_connections); DBUG_RETURN(1); // The error is set in check_for_max_user_connections() } DBUG_PRINT("info", ("Capabilities: %llu packet_length: %ld Host: '%s' " "Login user: '%s' Priv_user: '%s' Using password: %s " "Access: %lu db: '%s'", thd->client_capabilities, thd->max_client_packet_length, sctx->host_or_ip, sctx->user, sctx->priv_user, thd->password ? "yes": "no", sctx->master_access, mpvio.db.str)); if (command == COM_CONNECT && !(thd->main_security_ctx.master_access & SUPER_ACL)) { mysql_mutex_lock(&LOCK_connection_count); bool count_ok= (*thd->scheduler->connection_count <= *thd->scheduler->max_connections); mysql_mutex_unlock(&LOCK_connection_count); if (!count_ok) { // too many connections my_error(ER_CON_COUNT_ERROR, MYF(0)); DBUG_RETURN(1); } } /* This is the default access rights for the current database. It's set to 0 here because we don't have an active database yet (and we may not have an active database to set. */ sctx->db_access=0; #ifndef NO_EMBEDDED_ACCESS_CHECKS /* In case the user has a default role set, attempt to set that role */ if (initialized && acl_user->default_rolename.length) { ulonglong access= 0; int result; result= acl_check_setrole(thd, acl_user->default_rolename.str, &access); if (!result) result= acl_setrole(thd, acl_user->default_rolename.str, access); if (result) thd->clear_error(); // even if the default role was not granted, do not // close the connection } #endif /* Change a database if necessary */ if (mpvio.db.length) { uint err = mysql_change_db(thd, &mpvio.db, FALSE); if(err) { if (err == ER_DBACCESS_DENIED_ERROR) { /* Got an "access denied" error, which must be handled other access denied errors (see login_failed_error()). mysql_change_db() already sent error to client, and wrote to general log, we only need to increment the counter and maybe write a warning to error log. */ status_var_increment(thd->status_var.access_denied_errors); if (global_system_variables.log_warnings > 1) { Security_context* sctx = thd->security_ctx; sql_print_warning(ER_THD(thd, err), sctx->priv_user, sctx->priv_host, mpvio.db.str); } } DBUG_RETURN(1); } } thd->net.net_skip_rest_factor= 2; // skip at most 2*max_packet_size if (mpvio.auth_info.external_user[0]) sctx->external_user= my_strdup(mpvio.auth_info.external_user, MYF(0)); if (res == CR_OK_HANDSHAKE_COMPLETE) thd->get_stmt_da()->disable_status(); else my_ok(thd); PSI_CALL_set_thread_user_host (thd->main_security_ctx.user, (uint)strlen(thd->main_security_ctx.user), thd->main_security_ctx.host_or_ip, (uint)strlen(thd->main_security_ctx.host_or_ip)); /* Ready to handle queries */ DBUG_RETURN(0); } /** MySQL Server Password Authentication Plugin In the MySQL authentication protocol: 1. the server sends the random scramble to the client 2. client sends the encrypted password back to the server 3. the server checks the password. */ static int native_password_authenticate(MYSQL_PLUGIN_VIO *vio, MYSQL_SERVER_AUTH_INFO *info) { uchar *pkt; int pkt_len; MPVIO_EXT *mpvio= (MPVIO_EXT *) vio; THD *thd=info->thd; DBUG_ENTER("native_password_authenticate"); /* generate the scramble, or reuse the old one */ if (thd->scramble[SCRAMBLE_LENGTH]) thd_create_random_password(thd, thd->scramble, SCRAMBLE_LENGTH); /* and send it to the client */ if (mpvio->write_packet(mpvio, (uchar*)thd->scramble, SCRAMBLE_LENGTH + 1)) DBUG_RETURN(CR_AUTH_HANDSHAKE); /* reply and authenticate */ /* <digression> This is more complex than it looks. The plugin (we) may be called right after the client was connected - and will need to send a scramble, read reply, authenticate. Or the plugin may be called after another plugin has sent a scramble, and read the reply. If the client has used the correct client-plugin, we won't need to read anything here from the client, the client has already sent a reply with everything we need for authentication. Or the plugin may be called after another plugin has sent a scramble, and read the reply, but the client has used the wrong client-plugin. We'll need to sent a "switch to another plugin" packet to the client and read the reply. "Use the short scramble" packet is a special case of "switch to another plugin" packet. Or, perhaps, the plugin may be called after another plugin has done the handshake but did not send a useful scramble. We'll need to send a scramble (and perhaps a "switch to another plugin" packet) and read the reply. Besides, a client may be an old one, that doesn't understand plugins. Or doesn't even understand 4.0 scramble. And we want to keep the same protocol on the wire unless non-native plugins are involved. Anyway, it still looks simple from a plugin point of view: "send the scramble, read the reply and authenticate". All the magic is transparently handled by the server. </digression> */ /* read the reply with the encrypted password */ if ((pkt_len= mpvio->read_packet(mpvio, &pkt)) < 0) DBUG_RETURN(CR_AUTH_HANDSHAKE); DBUG_PRINT("info", ("reply read : pkt_len=%d", pkt_len)); #ifdef NO_EMBEDDED_ACCESS_CHECKS DBUG_RETURN(CR_OK); #endif DBUG_EXECUTE_IF("native_password_bad_reply", { pkt_len= 12; }); if (pkt_len == 0) /* no password */ DBUG_RETURN(info->auth_string_length != 0 ? CR_AUTH_USER_CREDENTIALS : CR_OK); info->password_used= PASSWORD_USED_YES; if (pkt_len == SCRAMBLE_LENGTH) { if (info->auth_string_length != SCRAMBLE_LENGTH) DBUG_RETURN(CR_AUTH_USER_CREDENTIALS); if (check_scramble(pkt, thd->scramble, (uchar*)info->auth_string)) DBUG_RETURN(CR_AUTH_USER_CREDENTIALS); else DBUG_RETURN(CR_OK); } my_error(ER_HANDSHAKE_ERROR, MYF(0)); DBUG_RETURN(CR_AUTH_HANDSHAKE); } static int native_password_make_scramble(const char *password, size_t password_length, char *hash, size_t *hash_length) { DBUG_ASSERT(*hash_length >= SCRAMBLED_PASSWORD_CHAR_LENGTH); if (password_length == 0) *hash_length= 0; else { *hash_length= SCRAMBLED_PASSWORD_CHAR_LENGTH; my_make_scrambled_password(hash, password, password_length); } return 0; } /* As this contains is a string of not a valid SCRAMBLE_LENGTH */ static const char invalid_password[] = "*THISISNOTAVALIDPASSWORDTHATCANBEUSEDHERE"; static int native_password_get_salt(const char *hash, size_t hash_length, unsigned char *out, size_t *out_length) { DBUG_ASSERT(sizeof(invalid_password) > SCRAMBLE_LENGTH); DBUG_ASSERT(*out_length >= SCRAMBLE_LENGTH); DBUG_ASSERT(*out_length >= sizeof(invalid_password)); if (hash_length == 0) { *out_length= 0; return 0; } if (hash_length != SCRAMBLED_PASSWORD_CHAR_LENGTH) { if (hash_length == 7 && strcmp(hash, "invalid") == 0) { memcpy(out, invalid_password, sizeof(invalid_password)); *out_length= sizeof(invalid_password); return 0; } my_error(ER_PASSWD_LENGTH, MYF(0), SCRAMBLED_PASSWORD_CHAR_LENGTH); return 1; } for (const char *c= hash + 1; c < (hash + hash_length); c++) { /* If any non-hex characters are found, mark the password as invalid. */ if (!(*c >= '0' && *c <= '9') && !(*c >= 'A' && *c <= 'F') && !(*c >= 'a' && *c <= 'f')) { memcpy(out, invalid_password, sizeof(invalid_password)); *out_length= sizeof(invalid_password); return 0; } } *out_length= SCRAMBLE_LENGTH; get_salt_from_password(out, hash); return 0; } static int old_password_authenticate(MYSQL_PLUGIN_VIO *vio, MYSQL_SERVER_AUTH_INFO *info) { uchar *pkt; int pkt_len; MPVIO_EXT *mpvio= (MPVIO_EXT *) vio; THD *thd=info->thd; /* generate the scramble, or reuse the old one */ if (thd->scramble[SCRAMBLE_LENGTH]) thd_create_random_password(thd, thd->scramble, SCRAMBLE_LENGTH); /* and send it to the client */ if (mpvio->write_packet(mpvio, (uchar*)thd->scramble, SCRAMBLE_LENGTH + 1)) return CR_AUTH_HANDSHAKE; /* read the reply and authenticate */ if ((pkt_len= mpvio->read_packet(mpvio, &pkt)) < 0) return CR_AUTH_HANDSHAKE; #ifdef NO_EMBEDDED_ACCESS_CHECKS return CR_OK; #endif /* legacy: if switch_from_long_to_short_scramble, the password is sent \0-terminated, the pkt_len is always 9 bytes. We need to figure out the correct scramble length here. */ if (pkt_len == SCRAMBLE_LENGTH_323 + 1) pkt_len= (int)strnlen((char*)pkt, pkt_len); if (pkt_len == 0) /* no password */ return info->auth_string_length ? CR_AUTH_USER_CREDENTIALS : CR_OK; if (secure_auth(thd)) return CR_AUTH_HANDSHAKE; info->password_used= PASSWORD_USED_YES; if (pkt_len == SCRAMBLE_LENGTH_323) { if (!info->auth_string_length) return CR_AUTH_USER_CREDENTIALS; return check_scramble_323(pkt, thd->scramble, (ulong *) info->auth_string) ? CR_AUTH_USER_CREDENTIALS : CR_OK; } my_error(ER_HANDSHAKE_ERROR, MYF(0)); return CR_AUTH_HANDSHAKE; } static int old_password_make_scramble(const char *password, size_t password_length, char *hash, size_t *hash_length) { DBUG_ASSERT(*hash_length >= SCRAMBLED_PASSWORD_CHAR_LENGTH_323); if (password_length == 0) *hash_length= 0; else { *hash_length= SCRAMBLED_PASSWORD_CHAR_LENGTH_323; my_make_scrambled_password_323(hash, password, password_length); } return 0; } #define SALT_LENGTH_323 (sizeof(ulong)*2) static int old_password_get_salt(const char *hash, size_t hash_length, unsigned char *out, size_t *out_length) { DBUG_ASSERT(*out_length >= SALT_LENGTH_323); if (hash_length != SCRAMBLED_PASSWORD_CHAR_LENGTH_323) { my_error(ER_PASSWD_LENGTH, MYF(0), SCRAMBLED_PASSWORD_CHAR_LENGTH_323); return 1; } *out_length= SALT_LENGTH_323; get_salt_from_password_323((ulong*)out, hash); return 0; } static struct st_mysql_auth native_password_handler= { MYSQL_AUTHENTICATION_INTERFACE_VERSION, native_password_plugin_name.str, native_password_authenticate, native_password_make_scramble, native_password_get_salt }; static struct st_mysql_auth old_password_handler= { MYSQL_AUTHENTICATION_INTERFACE_VERSION, old_password_plugin_name.str, old_password_authenticate, old_password_make_scramble, old_password_get_salt }; maria_declare_plugin(mysql_password) { MYSQL_AUTHENTICATION_PLUGIN, /* type constant */ &native_password_handler, /* type descriptor */ native_password_plugin_name.str, /* Name */ "R.J.Silk, Sergei Golubchik", /* Author */ "Native MySQL authentication", /* Description */ PLUGIN_LICENSE_GPL, /* License */ NULL, /* Init function */ NULL, /* Deinit function */ 0x0100, /* Version (1.0) */ NULL, /* status variables */ NULL, /* system variables */ "1.0", /* String version */ MariaDB_PLUGIN_MATURITY_STABLE /* Maturity */ }, { MYSQL_AUTHENTICATION_PLUGIN, /* type constant */ &old_password_handler, /* type descriptor */ old_password_plugin_name.str, /* Name */ "R.J.Silk, Sergei Golubchik", /* Author */ "Old MySQL-4.0 authentication", /* Description */ PLUGIN_LICENSE_GPL, /* License */ NULL, /* Init function */ NULL, /* Deinit function */ 0x0100, /* Version (1.0) */ NULL, /* status variables */ NULL, /* system variables */ "1.0", /* String version */ MariaDB_PLUGIN_MATURITY_STABLE /* Maturity */ } maria_declare_plugin_end;