/* Copyright (C) 2003 MySQL AB 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; either version 2 of the License, or (at your option) any later version. 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include <ndb_global.h> #include <my_sys.h> #include <LocalConfig.hpp> #include <NdbAutoPtr.hpp> #include <NdbSleep.h> #include <NdbTCP.h> #include "mgmapi.h" #include "mgmapi_debug.h" #include "mgmapi_configuration.hpp" #include <socket_io.h> #include <NdbOut.hpp> #include <SocketServer.hpp> #include <SocketClient.hpp> #include <Parser.hpp> #include <OutputStream.hpp> #include <InputStream.hpp> #include <Base64.hpp> #define MGM_CMD(name, fun, desc) \ { name, \ 0, \ ParserRow<ParserDummy>::Cmd, \ ParserRow<ParserDummy>::String, \ ParserRow<ParserDummy>::Optional, \ ParserRow<ParserDummy>::IgnoreMinMax, \ 0, 0, \ fun, \ desc, 0 } #define MGM_ARG(name, type, opt, desc) \ { name, \ 0, \ ParserRow<ParserDummy>::Arg, \ ParserRow<ParserDummy>::type, \ ParserRow<ParserDummy>::opt, \ ParserRow<ParserDummy>::IgnoreMinMax, \ 0, 0, \ 0, \ desc, 0 } #define MGM_END() \ { 0, \ 0, \ ParserRow<ParserDummy>::Arg, \ ParserRow<ParserDummy>::Int, \ ParserRow<ParserDummy>::Optional, \ ParserRow<ParserDummy>::IgnoreMinMax, \ 0, 0, \ 0, \ 0, 0 } class ParserDummy : private SocketServer::Session { public: ParserDummy(NDB_SOCKET_TYPE sock); }; ParserDummy::ParserDummy(NDB_SOCKET_TYPE sock) : SocketServer::Session(sock) { } typedef Parser<ParserDummy> Parser_t; #define NDB_MGM_MAX_ERR_DESC_SIZE 256 struct ndb_mgm_handle { int cfg_i; int connected; int last_error; int last_error_line; char last_error_desc[NDB_MGM_MAX_ERR_DESC_SIZE]; int read_timeout; int write_timeout; NDB_SOCKET_TYPE socket; LocalConfig cfg; #ifdef MGMAPI_LOG FILE* logfile; #endif }; #define SET_ERROR(h, e, s) setError(h, e, __LINE__, s) static void setError(NdbMgmHandle h, int error, int error_line, const char * msg, ...){ h->last_error = error; \ h->last_error_line = error_line; va_list ap; va_start(ap, msg); BaseString::vsnprintf(h->last_error_desc, sizeof(h->last_error_desc), msg, ap); va_end(ap); } #define CHECK_HANDLE(handle, ret) \ if(handle == 0) { \ SET_ERROR(handle, NDB_MGM_ILLEGAL_SERVER_HANDLE, ""); \ return ret; \ } #define CHECK_CONNECTED(handle, ret) \ if (handle->connected != 1) { \ SET_ERROR(handle, NDB_MGM_SERVER_NOT_CONNECTED , ""); \ return ret; \ } #define CHECK_REPLY(reply, ret) \ if(reply == NULL) { \ SET_ERROR(handle, NDB_MGM_ILLEGAL_SERVER_REPLY, ""); \ return ret; \ } /***************************************************************************** * Handles *****************************************************************************/ extern "C" NdbMgmHandle ndb_mgm_create_handle() { NdbMgmHandle h = (NdbMgmHandle)my_malloc(sizeof(ndb_mgm_handle),MYF(MY_WME)); h->connected = 0; h->last_error = 0; h->last_error_line = 0; h->socket = NDB_INVALID_SOCKET; h->read_timeout = 50000; h->write_timeout = 100; h->cfg_i = 0; strncpy(h->last_error_desc, "No error", NDB_MGM_MAX_ERR_DESC_SIZE); new (&(h->cfg)) LocalConfig; h->cfg.init(0, 0); #ifdef MGMAPI_LOG h->logfile = 0; #endif return h; } extern "C" int ndb_mgm_set_connectstring(NdbMgmHandle handle, const char * mgmsrv) { new (&(handle->cfg)) LocalConfig; if (!handle->cfg.init(mgmsrv, 0) || handle->cfg.ids.size() == 0) { new (&(handle->cfg)) LocalConfig; handle->cfg.init(0, 0); /* reset the LocalCongig */ SET_ERROR(handle, NDB_MGM_ILLEGAL_CONNECT_STRING, ""); return -1; } handle->cfg_i= 0; return 0; } /** * Destroy a handle */ extern "C" void ndb_mgm_destroy_handle(NdbMgmHandle * handle) { if(!handle) return; if((* handle)->connected){ ndb_mgm_disconnect(* handle); } #ifdef MGMAPI_LOG if ((* handle)->logfile != 0){ fclose((* handle)->logfile); (* handle)->logfile = 0; } #endif (*handle)->cfg.~LocalConfig(); my_free((char*)* handle,MYF(MY_ALLOW_ZERO_PTR)); * handle = 0; } /***************************************************************************** * Error handling *****************************************************************************/ /** * Get latest error associated with a handle */ extern "C" int ndb_mgm_get_latest_error(const NdbMgmHandle h) { return h->last_error; } extern "C" const char * ndb_mgm_get_latest_error_desc(const NdbMgmHandle h){ return h->last_error_desc; } extern "C" int ndb_mgm_get_latest_error_line(const NdbMgmHandle h) { return h->last_error_line; } extern "C" const char * ndb_mgm_get_latest_error_msg(const NdbMgmHandle h) { for (int i=0; i<ndb_mgm_noOfErrorMsgs; i++) { if (ndb_mgm_error_msgs[i].code == h->last_error) return ndb_mgm_error_msgs[i].msg; } return "Error"; // Unknown Error message } /* * Call an operation, and return the reply */ static const Properties * ndb_mgm_call(NdbMgmHandle handle, const ParserRow<ParserDummy> *command_reply, const char *cmd, const Properties *cmd_args) { SocketOutputStream out(handle->socket); SocketInputStream in(handle->socket, handle->read_timeout); out.println(cmd); #ifdef MGMAPI_LOG /** * Print command to log file */ FileOutputStream f(handle->logfile); f.println("OUT: %s", cmd); #endif if(cmd_args != NULL) { Properties::Iterator iter(cmd_args); const char *name; while((name = iter.next()) != NULL) { PropertiesType t; Uint32 val_i; Uint64 val_64; BaseString val_s; cmd_args->getTypeOf(name, &t); switch(t) { case PropertiesType_Uint32: cmd_args->get(name, &val_i); out.println("%s: %d", name, val_i); break; case PropertiesType_Uint64: cmd_args->get(name, &val_64); out.println("%s: %Ld", name, val_64); break; case PropertiesType_char: cmd_args->get(name, val_s); out.println("%s: %s", name, val_s.c_str()); break; case PropertiesType_Properties: DBUG_PRINT("info",("Ignoring PropertiesType_Properties.")); /* Ignore */ break; default: DBUG_PRINT("info",("Ignoring PropertiesType: %d.",t)); } } #ifdef MGMAPI_LOG /** * Print arguments to log file */ cmd_args->print(handle->logfile, "OUT: "); #endif } out.println(""); Parser_t::Context ctx; ParserDummy session(handle->socket); Parser_t parser(command_reply, in, true, true, true); const Properties* p = parser.parse(ctx, session); if (p == NULL){ /** * Print some info about why the parser returns NULL */ ndbout << "Error in mgm protocol parser. " << "cmd: '" << cmd << "' status=" << (Uint32)ctx.m_status << ", curr=" << ctx.m_currentToken << endl; DBUG_PRINT("info",("parser.parse returned NULL")); } #ifdef MGMAPI_LOG else { /** * Print reply to log file */ p->print(handle->logfile, "IN: "); } #endif return p; } /** * Connect to a management server */ extern "C" int ndb_mgm_connect(NdbMgmHandle handle, int no_retries, int retry_delay_in_seconds, int verbose) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_connect"); CHECK_HANDLE(handle, -1); #ifdef MGMAPI_LOG /** * Open the log file */ char logname[64]; BaseString::snprintf(logname, 64, "mgmapi.log"); handle->logfile = fopen(logname, "w"); #endif /** * Do connect */ LocalConfig &cfg= handle->cfg; NDB_SOCKET_TYPE sockfd= NDB_INVALID_SOCKET; Uint32 i; while (sockfd == NDB_INVALID_SOCKET) { // do all the mgmt servers for (i = 0; i < cfg.ids.size(); i++) { if (cfg.ids[i].type != MgmId_TCP) continue; SocketClient s(cfg.ids[i].name.c_str(), cfg.ids[i].port); sockfd = s.connect(); if (sockfd != NDB_INVALID_SOCKET) break; } if (sockfd != NDB_INVALID_SOCKET) break; if (verbose > 0) { char buf[1024]; ndbout_c("Unable to connect with connect string: %s", cfg.makeConnectString(buf,sizeof(buf))); verbose= -1; } if (no_retries == 0) { char buf[1024]; setError(handle, NDB_MGM_COULD_NOT_CONNECT_TO_SOCKET, __LINE__, "Unable to connect with connect string: %s", cfg.makeConnectString(buf,sizeof(buf))); if (verbose == -2) ndbout << ", failed." << endl; return -1; } if (verbose == -1) { ndbout << "Retrying every " << retry_delay_in_seconds << " seconds"; if (no_retries > 0) ndbout << ". Attempts left:"; else ndbout << ", until connected.";; ndbout << flush; verbose= -2; } if (no_retries > 0) { if (verbose == -2) { ndbout << " " << no_retries; ndbout << flush; } no_retries--; } NdbSleep_SecSleep(retry_delay_in_seconds); } if (verbose == -2) ndbout << endl; handle->cfg_i = i; handle->socket = sockfd; handle->connected = 1; return 0; } /** * Disconnect from a mgm server */ extern "C" int ndb_mgm_disconnect(NdbMgmHandle handle) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_disconnect"); CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); NDB_CLOSE_SOCKET(handle->socket); handle->socket = NDB_INVALID_SOCKET; handle->connected = 0; return 0; } struct ndb_mgm_type_atoi { const char * str; const char * alias; enum ndb_mgm_node_type value; }; static struct ndb_mgm_type_atoi type_values[] = { { "NDB", "ndbd", NDB_MGM_NODE_TYPE_NDB}, { "API", "mysqld", NDB_MGM_NODE_TYPE_API }, { "MGM", "ndb_mgmd", NDB_MGM_NODE_TYPE_MGM } }; const int no_of_type_values = (sizeof(type_values) / sizeof(ndb_mgm_type_atoi)); extern "C" ndb_mgm_node_type ndb_mgm_match_node_type(const char * type) { if(type == 0) return NDB_MGM_NODE_TYPE_UNKNOWN; for(int i = 0; i<no_of_type_values; i++) if(strcmp(type, type_values[i].str) == 0) return type_values[i].value; return NDB_MGM_NODE_TYPE_UNKNOWN; } extern "C" const char * ndb_mgm_get_node_type_string(enum ndb_mgm_node_type type) { for(int i = 0; i<no_of_type_values; i++) if(type_values[i].value == type) return type_values[i].str; return 0; } extern "C" const char * ndb_mgm_get_node_type_alias_string(enum ndb_mgm_node_type type, const char** str) { for(int i = 0; i<no_of_type_values; i++) if(type_values[i].value == type) { if (str) *str= type_values[i].str; return type_values[i].alias; } return 0; } struct ndb_mgm_status_atoi { const char * str; enum ndb_mgm_node_status value; }; static struct ndb_mgm_status_atoi status_values[] = { { "UNKNOWN", NDB_MGM_NODE_STATUS_UNKNOWN }, { "NO_CONTACT", NDB_MGM_NODE_STATUS_NO_CONTACT }, { "NOT_STARTED", NDB_MGM_NODE_STATUS_NOT_STARTED }, { "STARTING", NDB_MGM_NODE_STATUS_STARTING }, { "STARTED", NDB_MGM_NODE_STATUS_STARTED }, { "SHUTTING_DOWN", NDB_MGM_NODE_STATUS_SHUTTING_DOWN }, { "RESTARTING", NDB_MGM_NODE_STATUS_RESTARTING }, { "SINGLE USER MODE", NDB_MGM_NODE_STATUS_SINGLEUSER } }; const int no_of_status_values = (sizeof(status_values) / sizeof(ndb_mgm_status_atoi)); extern "C" ndb_mgm_node_status ndb_mgm_match_node_status(const char * status) { if(status == 0) return NDB_MGM_NODE_STATUS_UNKNOWN; for(int i = 0; i<no_of_status_values; i++) if(strcmp(status, status_values[i].str) == 0) return status_values[i].value; return NDB_MGM_NODE_STATUS_UNKNOWN; } extern "C" const char * ndb_mgm_get_node_status_string(enum ndb_mgm_node_status status) { int i; for(i = 0; i<no_of_status_values; i++) if(status_values[i].value == status) return status_values[i].str; for(i = 0; i<no_of_status_values; i++) if(status_values[i].value == NDB_MGM_NODE_STATUS_UNKNOWN) return status_values[i].str; return 0; } static int status_ackumulate(struct ndb_mgm_node_state * state, const char * field, const char * value) { if(strcmp("type", field) == 0){ state->node_type = ndb_mgm_match_node_type(value); } else if(strcmp("status", field) == 0){ state->node_status = ndb_mgm_match_node_status(value); } else if(strcmp("startphase", field) == 0){ state->start_phase = atoi(value); } else if(strcmp("dynamic_id", field) == 0){ state->dynamic_id = atoi(value); } else if(strcmp("node_group", field) == 0){ state->node_group = atoi(value); } else if(strcmp("version", field) == 0){ state->version = atoi(value); } else if(strcmp("connect_count", field) == 0){ state->connect_count = atoi(value); } else if(strcmp("address", field) == 0){ strncpy(state->connect_address, value, sizeof(state->connect_address)); state->connect_address[sizeof(state->connect_address)-1]= 0; } else { ndbout_c("Unknown field: %s", field); } return 0; } /** * Compare function for qsort() that sorts ndb_mgm_node_state in * node_id order */ static int cmp_state(const void *_a, const void *_b) { struct ndb_mgm_node_state *a, *b; a = (struct ndb_mgm_node_state *)_a; b = (struct ndb_mgm_node_state *)_b; if (a->node_id > b->node_id) return 1; return -1; } extern "C" struct ndb_mgm_cluster_state * ndb_mgm_get_status(NdbMgmHandle handle) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_get_status"); CHECK_HANDLE(handle, NULL); CHECK_CONNECTED(handle, NULL); SocketOutputStream out(handle->socket); SocketInputStream in(handle->socket, handle->read_timeout); out.println("get status"); out.println(""); char buf[1024]; in.gets(buf, sizeof(buf)); if(buf[strlen(buf)-1] == '\n') buf[strlen(buf)-1] = '\0'; if(strcmp("node status", buf) != 0) { SET_ERROR(handle, NDB_MGM_ILLEGAL_NODE_STATUS, buf); return NULL; } in.gets(buf, sizeof(buf)); if(buf[strlen(buf)-1] == '\n') buf[strlen(buf)-1] = '\0'; BaseString tmp(buf); Vector<BaseString> split; tmp.split(split, ":"); if(split.size() != 2){ abort(); return NULL; } if(!(split[0].trim() == "nodes")){ abort(); return NULL; } const int noOfNodes = atoi(split[1].c_str()); ndb_mgm_cluster_state *state = (ndb_mgm_cluster_state*) malloc(sizeof(ndb_mgm_cluster_state)+ noOfNodes*(sizeof(ndb_mgm_node_state)+sizeof("000.000.000.000#"))); state->no_of_nodes= noOfNodes; ndb_mgm_node_state * ptr = &state->node_states[0]; int nodeId = 0; int i; for (i= 0; i < noOfNodes; i++) { state->node_states[i].connect_address[0]= 0; } i = -1; ptr--; for(; i<noOfNodes; ){ in.gets(buf, sizeof(buf)); tmp.assign(buf); if(tmp.trim() == ""){ break; } Vector<BaseString> split; tmp.split(split, ":.", 4); if(split.size() != 4) break; const int id = atoi(split[1].c_str()); if(id != nodeId){ ptr++; i++; nodeId = id; ptr->node_id = id; } split[3].trim(" \t\n"); if(status_ackumulate(ptr,split[2].c_str(), split[3].c_str()) != 0) { break; } } if(i+1 != noOfNodes){ free(state); abort(); return NULL; } qsort(state->node_states, state->no_of_nodes, sizeof(state->node_states[0]), cmp_state); return state; } extern "C" int ndb_mgm_enter_single_user(NdbMgmHandle handle, unsigned int nodeId, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_enter_single_user"); const ParserRow<ParserDummy> enter_single_reply[] = { MGM_CMD("enter single user reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("nodeId", nodeId); const Properties *reply; reply = ndb_mgm_call(handle, enter_single_reply, "enter single user", &args); CHECK_REPLY(reply, -1); BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, NDB_MGM_COULD_NOT_ENTER_SINGLE_USER_MODE, result.c_str()); delete reply; return -1; } delete reply; return 0; } extern "C" int ndb_mgm_exit_single_user(NdbMgmHandle handle, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_exit_single_user"); const ParserRow<ParserDummy> exit_single_reply[] = { MGM_CMD("exit single user reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); const Properties *reply; reply = ndb_mgm_call(handle, exit_single_reply, "exit single user", 0); CHECK_REPLY(reply, -1); const char * buf; reply->get("result", &buf); if(strcmp(buf,"Ok")!=0) { SET_ERROR(handle, NDB_MGM_COULD_NOT_EXIT_SINGLE_USER_MODE, buf); delete reply; return -1; } delete reply; return 0; } extern "C" int ndb_mgm_stop(NdbMgmHandle handle, int no_of_nodes, const int * node_list) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_stop"); return ndb_mgm_stop2(handle, no_of_nodes, node_list, 0); } extern "C" int ndb_mgm_stop2(NdbMgmHandle handle, int no_of_nodes, const int * node_list, int abort) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_stop2"); const ParserRow<ParserDummy> stop_reply[] = { MGM_CMD("stop reply", NULL, ""), MGM_ARG("stopped", Int, Optional, "No of stopped nodes"), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); if(no_of_nodes < 0){ SET_ERROR(handle, NDB_MGM_ILLEGAL_NUMBER_OF_NODES, "Negative number of nodes requested to stop"); return -1; } Uint32 stoppedNoOfNodes = 0; if(no_of_nodes == 0){ /** * All database nodes should be stopped */ Properties args; args.put("abort", abort); const Properties *reply; reply = ndb_mgm_call(handle, stop_reply, "stop all", &args); CHECK_REPLY(reply, -1); if(!reply->get("stopped", &stoppedNoOfNodes)){ SET_ERROR(handle, NDB_MGM_STOP_FAILED, "Could not get number of stopped nodes from mgm server"); delete reply; return -1; } BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, NDB_MGM_STOP_FAILED, result.c_str()); delete reply; return -1; } delete reply; return stoppedNoOfNodes; } /** * A list of database nodes should be stopped */ Properties args; BaseString node_list_str; node_list_str.assfmt("%d", node_list[0]); for(int node = 1; node < no_of_nodes; node++) node_list_str.appfmt(" %d", node_list[node]); args.put("node", node_list_str.c_str()); args.put("abort", abort); const Properties *reply; reply = ndb_mgm_call(handle, stop_reply, "stop", &args); CHECK_REPLY(reply, stoppedNoOfNodes); if(!reply->get("stopped", &stoppedNoOfNodes)){ SET_ERROR(handle, NDB_MGM_STOP_FAILED, "Could not get number of stopped nodes from mgm server"); delete reply; return -1; } BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, NDB_MGM_STOP_FAILED, result.c_str()); delete reply; return -1; } delete reply; return stoppedNoOfNodes; } extern "C" int ndb_mgm_restart2(NdbMgmHandle handle, int no_of_nodes, const int * node_list, int initial, int nostart, int abort) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_restart2"); Uint32 restarted = 0; const ParserRow<ParserDummy> restart_reply[] = { MGM_CMD("restart reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_ARG("restarted", Int, Optional, "No of restarted nodes"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); if(no_of_nodes < 0){ SET_ERROR(handle, NDB_MGM_RESTART_FAILED, "Restart requested of negative number of nodes"); return -1; } if(no_of_nodes == 0) { Properties args; args.put("abort", abort); args.put("initialstart", initial); args.put("nostart", nostart); const Properties *reply; reply = ndb_mgm_call(handle, restart_reply, "restart all", &args); CHECK_REPLY(reply, -1); BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, NDB_MGM_RESTART_FAILED, result.c_str()); delete reply; return -1; } if(!reply->get("restarted", &restarted)){ SET_ERROR(handle, NDB_MGM_RESTART_FAILED, "Could not get restarted number of nodes from mgm server"); delete reply; return -1; } delete reply; return restarted; } BaseString node_list_str; node_list_str.assfmt("%d", node_list[0]); for(int node = 1; node < no_of_nodes; node++) node_list_str.appfmt(" %d", node_list[node]); Properties args; args.put("node", node_list_str.c_str()); args.put("abort", abort); args.put("initialstart", initial); args.put("nostart", nostart); const Properties *reply; reply = ndb_mgm_call(handle, restart_reply, "restart node", &args); if(reply != NULL) { BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, NDB_MGM_RESTART_FAILED, result.c_str()); delete reply; return -1; } reply->get("restarted", &restarted); delete reply; } return restarted; } extern "C" int ndb_mgm_restart(NdbMgmHandle handle, int no_of_nodes, const int *node_list) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_restart"); return ndb_mgm_restart2(handle, no_of_nodes, node_list, 0, 0, 0); } static const char *clusterlog_severity_names[]= { "enabled", "debug", "info", "warning", "error", "critical", "alert" }; struct ndb_mgm_event_severities { const char* name; enum ndb_mgm_event_severity severity; } clusterlog_severities[] = { { clusterlog_severity_names[0], NDB_MGM_EVENT_SEVERITY_ON }, { clusterlog_severity_names[1], NDB_MGM_EVENT_SEVERITY_DEBUG }, { clusterlog_severity_names[2], NDB_MGM_EVENT_SEVERITY_INFO }, { clusterlog_severity_names[3], NDB_MGM_EVENT_SEVERITY_WARNING }, { clusterlog_severity_names[4], NDB_MGM_EVENT_SEVERITY_ERROR }, { clusterlog_severity_names[5], NDB_MGM_EVENT_SEVERITY_CRITICAL }, { clusterlog_severity_names[6], NDB_MGM_EVENT_SEVERITY_ALERT }, { "all", NDB_MGM_EVENT_SEVERITY_ALL }, { 0, NDB_MGM_ILLEGAL_EVENT_SEVERITY }, }; extern "C" ndb_mgm_event_severity ndb_mgm_match_event_severity(const char * name) { if(name == 0) return NDB_MGM_ILLEGAL_EVENT_SEVERITY; for(int i = 0; clusterlog_severities[i].name !=0 ; i++) if(strcasecmp(name, clusterlog_severities[i].name) == 0) return clusterlog_severities[i].severity; return NDB_MGM_ILLEGAL_EVENT_SEVERITY; } extern "C" const char * ndb_mgm_get_event_severity_string(enum ndb_mgm_event_severity severity) { int i= (int)severity; if (i >= 0 && i < (int)NDB_MGM_EVENT_SEVERITY_ALL) return clusterlog_severity_names[i]; for(i = (int)NDB_MGM_EVENT_SEVERITY_ALL; clusterlog_severities[i].name != 0; i++) if(clusterlog_severities[i].severity == severity) return clusterlog_severities[i].name; return 0; } extern "C" const unsigned int * ndb_mgm_get_clusterlog_severity_filter(NdbMgmHandle handle) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_get_clusterlog_severity_filter"); static unsigned int enabled[(int)NDB_MGM_EVENT_SEVERITY_ALL]= {0,0,0,0,0,0,0}; const ParserRow<ParserDummy> getinfo_reply[] = { MGM_CMD("clusterlog", NULL, ""), MGM_ARG(clusterlog_severity_names[0], Int, Mandatory, ""), MGM_ARG(clusterlog_severity_names[1], Int, Mandatory, ""), MGM_ARG(clusterlog_severity_names[2], Int, Mandatory, ""), MGM_ARG(clusterlog_severity_names[3], Int, Mandatory, ""), MGM_ARG(clusterlog_severity_names[4], Int, Mandatory, ""), MGM_ARG(clusterlog_severity_names[5], Int, Mandatory, ""), MGM_ARG(clusterlog_severity_names[6], Int, Mandatory, ""), }; CHECK_HANDLE(handle, NULL); CHECK_CONNECTED(handle, NULL); Properties args; const Properties *reply; reply = ndb_mgm_call(handle, getinfo_reply, "get info clusterlog", &args); CHECK_REPLY(reply, NULL); for(int i=0; i < (int)NDB_MGM_EVENT_SEVERITY_ALL; i++) { reply->get(clusterlog_severity_names[i], &enabled[i]); } return enabled; } extern "C" int ndb_mgm_set_clusterlog_severity_filter(NdbMgmHandle handle, enum ndb_mgm_event_severity severity, int enable, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_set_clusterlog_severity_filter"); const ParserRow<ParserDummy> filter_reply[] = { MGM_CMD("set logfilter reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int retval = -1; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("level", severity); args.put("enable", enable); const Properties *reply; reply = ndb_mgm_call(handle, filter_reply, "set logfilter", &args); CHECK_REPLY(reply, retval); BaseString result; reply->get("result", result); if (strcmp(result.c_str(), "1") == 0) retval = 1; else if (strcmp(result.c_str(), "0") == 0) retval = 0; else { SET_ERROR(handle, EINVAL, result.c_str()); } delete reply; return retval; } struct ndb_mgm_event_categories { const char* name; enum ndb_mgm_event_category category; } categories[] = { { "STARTUP", NDB_MGM_EVENT_CATEGORY_STARTUP }, { "SHUTDOWN", NDB_MGM_EVENT_CATEGORY_SHUTDOWN }, { "STATISTICS", NDB_MGM_EVENT_CATEGORY_STATISTIC }, { "NODERESTART", NDB_MGM_EVENT_CATEGORY_NODE_RESTART }, { "CONNECTION", NDB_MGM_EVENT_CATEGORY_CONNECTION }, { "CHECKPOINT", NDB_MGM_EVENT_CATEGORY_CHECKPOINT }, { "DEBUG", NDB_MGM_EVENT_CATEGORY_DEBUG }, { "INFO", NDB_MGM_EVENT_CATEGORY_INFO }, { "ERROR", NDB_MGM_EVENT_CATEGORY_ERROR }, { "BACKUP", NDB_MGM_EVENT_CATEGORY_BACKUP }, { "CONGESTION", NDB_MGM_EVENT_CATEGORY_CONGESTION }, { 0, NDB_MGM_ILLEGAL_EVENT_CATEGORY } }; extern "C" ndb_mgm_event_category ndb_mgm_match_event_category(const char * status) { if(status == 0) return NDB_MGM_ILLEGAL_EVENT_CATEGORY; for(int i = 0; categories[i].name !=0 ; i++) if(strcmp(status, categories[i].name) == 0) return categories[i].category; return NDB_MGM_ILLEGAL_EVENT_CATEGORY; } extern "C" const char * ndb_mgm_get_event_category_string(enum ndb_mgm_event_category status) { int i; for(i = 0; categories[i].name != 0; i++) if(categories[i].category == status) return categories[i].name; return 0; } extern "C" int ndb_mgm_set_clusterlog_loglevel(NdbMgmHandle handle, int nodeId, enum ndb_mgm_event_category cat, int level, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_set_clusterlog_loglevel"); const ParserRow<ParserDummy> clusterlog_reply[] = { MGM_CMD("set cluster loglevel reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); args.put("category", cat); args.put("level", level); const Properties *reply; reply = ndb_mgm_call(handle, clusterlog_reply, "set cluster loglevel", &args); CHECK_REPLY(reply, -1); DBUG_ENTER("ndb_mgm_set_clusterlog_loglevel"); DBUG_PRINT("enter",("node=%d, category=%d, level=%d", nodeId, cat, level)); BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, EINVAL, result.c_str()); delete reply; DBUG_RETURN(-1); } delete reply; DBUG_RETURN(0); } extern "C" int ndb_mgm_set_loglevel_node(NdbMgmHandle handle, int nodeId, enum ndb_mgm_event_category category, int level, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_set_loglevel_node"); const ParserRow<ParserDummy> loglevel_reply[] = { MGM_CMD("set loglevel reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); args.put("category", category); args.put("level", level); const Properties *reply; reply = ndb_mgm_call(handle, loglevel_reply, "set loglevel", &args); CHECK_REPLY(reply, -1); BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, EINVAL, result.c_str()); delete reply; return -1; } delete reply; return 0; } extern "C" int ndb_mgm_listen_event(NdbMgmHandle handle, const int filter[]) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_listen_event"); const ParserRow<ParserDummy> stat_reply[] = { MGM_CMD("listen event", NULL, ""), MGM_ARG("result", Int, Mandatory, "Error message"), MGM_ARG("msg", String, Optional, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); const char *hostname= ndb_mgm_get_connected_host(handle); int port= ndb_mgm_get_connected_port(handle); SocketClient s(hostname, port); const NDB_SOCKET_TYPE sockfd = s.connect(); if (sockfd == NDB_INVALID_SOCKET) { setError(handle, NDB_MGM_COULD_NOT_CONNECT_TO_SOCKET, __LINE__, "Unable to connect to"); return -1; } Properties args; { BaseString tmp; for(int i = 0; filter[i] != 0; i += 2){ tmp.appfmt("%d=%d ", filter[i+1], filter[i]); } args.put("filter", tmp.c_str()); } int tmp = handle->socket; handle->socket = sockfd; const Properties *reply; reply = ndb_mgm_call(handle, stat_reply, "listen event", &args); handle->socket = tmp; if(reply == NULL) { close(sockfd); CHECK_REPLY(reply, -1); } return sockfd; } extern "C" int ndb_mgm_get_stat_port(NdbMgmHandle handle, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_get_stat_port"); const ParserRow<ParserDummy> stat_reply[] = { MGM_CMD("error", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_CMD("get statport reply", NULL, ""), MGM_ARG("tcpport", Int, Mandatory, "TCP port for statistics"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; const Properties *reply; reply = ndb_mgm_call(handle, stat_reply, "get statport", &args); CHECK_REPLY(reply, -1); Uint32 port; reply->get("tcpport", &port); delete reply; return port; } extern "C" int ndb_mgm_dump_state(NdbMgmHandle handle, int nodeId, int* _args, int _num_args, struct ndb_mgm_reply* /* reply */) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_dump_state"); const ParserRow<ParserDummy> dump_state_reply[] = { MGM_CMD("dump state reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); char buf[256]; buf[0] = 0; for (int i = 0; i < _num_args; i++){ unsigned n = strlen(buf); if (n + 20 > sizeof(buf)) { SET_ERROR(handle, NDB_MGM_USAGE_ERROR, "arguments too long"); return -1; } sprintf(buf + n, "%s%d", i ? " " : "", _args[i]); } Properties args; args.put("node", nodeId); args.put("args", buf); const Properties *prop; prop = ndb_mgm_call(handle, dump_state_reply, "dump state", &args); CHECK_REPLY(prop, -1); BaseString result; prop->get("result", result); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, EINVAL, result.c_str()); delete prop; return -1; } delete prop; return 0; } extern "C" int ndb_mgm_start_signallog(NdbMgmHandle handle, int nodeId, struct ndb_mgm_reply* reply) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_start_signallog"); const ParserRow<ParserDummy> start_signallog_reply[] = { MGM_CMD("start signallog reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int retval = -1; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); const Properties *prop; prop = ndb_mgm_call(handle, start_signallog_reply, "start signallog", &args); if(prop != NULL) { BaseString result; prop->get("result", result); if(strcmp(result.c_str(), "Ok") == 0) { retval = 0; } else { SET_ERROR(handle, EINVAL, result.c_str()); retval = -1; } delete prop; } return retval; } extern "C" int ndb_mgm_stop_signallog(NdbMgmHandle handle, int nodeId, struct ndb_mgm_reply* reply) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_stop_signallog"); const ParserRow<ParserDummy> stop_signallog_reply[] = { MGM_CMD("stop signallog reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int retval = -1; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); const Properties *prop; prop = ndb_mgm_call(handle, stop_signallog_reply, "stop signallog", &args); if(prop != NULL) { BaseString result; prop->get("result", result); if(strcmp(result.c_str(), "Ok") == 0) { retval = 0; } else { SET_ERROR(handle, EINVAL, result.c_str()); retval = -1; } delete prop; } return retval; } struct ndb_mgm_signal_log_modes { const char* name; enum ndb_mgm_signal_log_mode mode; }; extern "C" int ndb_mgm_log_signals(NdbMgmHandle handle, int nodeId, enum ndb_mgm_signal_log_mode mode, const char* blockNames, struct ndb_mgm_reply* reply) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_log_signals"); const ParserRow<ParserDummy> stop_signallog_reply[] = { MGM_CMD("log signals reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int retval = -1; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); args.put("blocks", blockNames); switch(mode) { case NDB_MGM_SIGNAL_LOG_MODE_IN: args.put("in", (Uint32)1); args.put("out", (Uint32)0); break; case NDB_MGM_SIGNAL_LOG_MODE_OUT: args.put("in", (Uint32)0); args.put("out", (Uint32)1); break; case NDB_MGM_SIGNAL_LOG_MODE_INOUT: args.put("in", (Uint32)1); args.put("out", (Uint32)1); break; case NDB_MGM_SIGNAL_LOG_MODE_OFF: args.put("in", (Uint32)0); args.put("out", (Uint32)0); break; } const Properties *prop; prop = ndb_mgm_call(handle, stop_signallog_reply, "log signals", &args); if(prop != NULL) { BaseString result; prop->get("result", result); if(strcmp(result.c_str(), "Ok") == 0) { retval = 0; } else { SET_ERROR(handle, EINVAL, result.c_str()); retval = -1; } delete prop; } return retval; } extern "C" int ndb_mgm_set_trace(NdbMgmHandle handle, int nodeId, int traceNumber, struct ndb_mgm_reply* reply) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_set_trace"); const ParserRow<ParserDummy> set_trace_reply[] = { MGM_CMD("set trace reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int retval = -1; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); args.put("trace", traceNumber); const Properties *prop; prop = ndb_mgm_call(handle, set_trace_reply, "set trace", &args); if(prop != NULL) { BaseString result; prop->get("result", result); if(strcmp(result.c_str(), "Ok") == 0) { retval = 0; } else { SET_ERROR(handle, EINVAL, result.c_str()); retval = -1; } delete prop; } return retval; } extern "C" int ndb_mgm_insert_error(NdbMgmHandle handle, int nodeId, int errorCode, struct ndb_mgm_reply* reply) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_insert_error"); const ParserRow<ParserDummy> insert_error_reply[] = { MGM_CMD("insert error reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int retval = -1; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node", nodeId); args.put("error", errorCode); const Properties *prop; prop = ndb_mgm_call(handle, insert_error_reply, "insert error", &args); if(prop != NULL) { BaseString result; prop->get("result", result); if(strcmp(result.c_str(), "Ok") == 0) { retval = 0; } else { SET_ERROR(handle, EINVAL, result.c_str()); retval = -1; } delete prop; } return retval; } extern "C" int ndb_mgm_start(NdbMgmHandle handle, int no_of_nodes, const int * node_list) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_start"); const ParserRow<ParserDummy> start_reply[] = { MGM_CMD("start reply", NULL, ""), MGM_ARG("started", Int, Optional, "No of started nodes"), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; int started = 0; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); if(no_of_nodes < 0){ SET_ERROR(handle, EINVAL, ""); return -1; } if(no_of_nodes == 0){ Properties args; const Properties *reply; reply = ndb_mgm_call(handle, start_reply, "start all", &args); CHECK_REPLY(reply, -1); Uint32 count = 0; if(!reply->get("started", &count)){ delete reply; return -1; } delete reply; return count; } for(int node = 0; node < no_of_nodes; node++) { Properties args; args.put("node", node_list[node]); const Properties *reply; reply = ndb_mgm_call(handle, start_reply, "start", &args); if(reply != NULL) { BaseString result; reply->get("result", result); if(strcmp(result.c_str(), "Ok") == 0) { started++; } else { SET_ERROR(handle, EINVAL, result.c_str()); delete reply; return -1; } } delete reply; } return started; } /***************************************************************************** * Backup *****************************************************************************/ extern "C" int ndb_mgm_start_backup(NdbMgmHandle handle, int wait_completed, unsigned int* _backup_id, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_start_backup"); const ParserRow<ParserDummy> start_backup_reply[] = { MGM_CMD("start backup reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_ARG("id", Int, Optional, "Id of the started backup"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("completed", wait_completed); const Properties *reply; { // start backup can take some time, set timeout high Uint64 old_timeout= handle->read_timeout; if (wait_completed == 2) handle->read_timeout= 30*60*1000; // 30 minutes else if (wait_completed == 1) handle->read_timeout= 5*60*1000; // 5 minutes reply = ndb_mgm_call(handle, start_backup_reply, "start backup", &args); handle->read_timeout= old_timeout; } CHECK_REPLY(reply, -1); BaseString result; reply->get("result", result); reply->get("id", _backup_id); if(strcmp(result.c_str(), "Ok") != 0) { SET_ERROR(handle, NDB_MGM_COULD_NOT_START_BACKUP, result.c_str()); delete reply; return -1; } delete reply; return 0; } extern "C" int ndb_mgm_abort_backup(NdbMgmHandle handle, unsigned int backupId, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_abort_backup"); const ParserRow<ParserDummy> stop_backup_reply[] = { MGM_CMD("abort backup reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("id", backupId); const Properties *prop; prop = ndb_mgm_call(handle, stop_backup_reply, "abort backup", &args); CHECK_REPLY(prop, -1); const char * buf; prop->get("result", &buf); if(strcmp(buf,"Ok")!=0) { SET_ERROR(handle, NDB_MGM_COULD_NOT_ABORT_BACKUP, buf); delete prop; return -1; } delete prop; return 0; } extern "C" struct ndb_mgm_configuration * ndb_mgm_get_configuration(NdbMgmHandle handle, unsigned int version) { CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); Properties args; args.put("version", version); const ParserRow<ParserDummy> reply[] = { MGM_CMD("get config reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_ARG("Content-Length", Int, Optional, "Content length in bytes"), MGM_ARG("Content-Type", String, Optional, "Type (octet-stream)"), MGM_ARG("Content-Transfer-Encoding", String, Optional, "Encoding(base64)"), MGM_END() }; const Properties *prop; prop = ndb_mgm_call(handle, reply, "get config", &args); CHECK_REPLY(prop, 0); do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } buf = "<Unspecified>"; if(!prop->get("Content-Type", &buf) || strcmp(buf, "ndbconfig/octet-stream") != 0){ ndbout_c("Unhandled response type: %s", buf); break; } buf = "<Unspecified>"; if(!prop->get("Content-Transfer-Encoding", &buf) || strcmp(buf, "base64") != 0){ ndbout_c("Unhandled encoding: %s", buf); break; } buf = "<Content-Length Unspecified>"; Uint32 len = 0; if(!prop->get("Content-Length", &len)){ ndbout_c("Invalid response: %s\n", buf); break; } len += 1; // Trailing \n char* buf64 = new char[len]; int read = 0; size_t start = 0; do { if((read = read_socket(handle->socket, handle->read_timeout, &buf64[start], len-start)) == -1){ delete[] buf64; buf64 = 0; break; } start += read; } while(start < len); if(buf64 == 0) break; UtilBuffer tmp; const int res = base64_decode(buf64, len-1, tmp); delete[] buf64; if(res != 0){ ndbout_c("Failed to decode buffer"); break; } ConfigValuesFactory cvf; const int res2 = cvf.unpack(tmp); if(!res2){ ndbout_c("Failed to unpack buffer"); break; } delete prop; return (ndb_mgm_configuration*)cvf.m_cfg; } while(0); delete prop; return 0; } extern "C" void ndb_mgm_destroy_configuration(struct ndb_mgm_configuration *cfg) { if (cfg) { ((ConfigValues *)cfg)->~ConfigValues(); free((void *)cfg); } } extern "C" int ndb_mgm_set_configuration_nodeid(NdbMgmHandle handle, int nodeid) { CHECK_HANDLE(handle, -1); handle->cfg._ownNodeId= nodeid; return 0; } extern "C" int ndb_mgm_get_configuration_nodeid(NdbMgmHandle handle) { CHECK_HANDLE(handle, 0); return handle->cfg._ownNodeId; } extern "C" int ndb_mgm_get_connected_port(NdbMgmHandle handle) { return handle->cfg.ids[handle->cfg_i].port; } extern "C" const char *ndb_mgm_get_connected_host(NdbMgmHandle handle) { return handle->cfg.ids[handle->cfg_i].name.c_str(); } extern "C" const char *ndb_mgm_get_connectstring(NdbMgmHandle handle, char *buf, int buf_sz) { return handle->cfg.makeConnectString(buf,buf_sz); } extern "C" int ndb_mgm_alloc_nodeid(NdbMgmHandle handle, unsigned int version, int nodetype) { CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); union { long l; char c[sizeof(long)]; } endian_check; endian_check.l = 1; int nodeid= handle->cfg._ownNodeId; Properties args; args.put("version", version); args.put("nodetype", nodetype); args.put("nodeid", nodeid); args.put("user", "mysqld"); args.put("password", "mysqld"); args.put("public key", "a public key"); args.put("endian", (endian_check.c[sizeof(long)-1])?"big":"little"); const ParserRow<ParserDummy> reply[]= { MGM_CMD("get nodeid reply", NULL, ""), MGM_ARG("nodeid", Int, Optional, "Error message"), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; const Properties *prop; prop= ndb_mgm_call(handle, reply, "get nodeid", &args); CHECK_REPLY(prop, -1); nodeid= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ const char *hostname= ndb_mgm_get_connected_host(handle); unsigned port= ndb_mgm_get_connected_port(handle); BaseString err; err.assfmt("Could not alloc node id at %s port %d: %s", hostname, port, buf); setError(handle, NDB_MGM_COULD_NOT_CONNECT_TO_SOCKET, __LINE__, err.c_str()); break; } Uint32 _nodeid; if(!prop->get("nodeid", &_nodeid) != 0){ ndbout_c("ERROR Message: <nodeid Unspecified>\n"); break; } nodeid= _nodeid; }while(0); delete prop; return nodeid; } /***************************************************************************** * Global Replication ******************************************************************************/ extern "C" int ndb_mgm_rep_command(NdbMgmHandle handle, unsigned int request, unsigned int* replication_id, struct ndb_mgm_reply* /*reply*/) { SET_ERROR(handle, NDB_MGM_NO_ERROR, "Executing: ndb_mgm_rep_command"); const ParserRow<ParserDummy> replication_reply[] = { MGM_CMD("global replication reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_ARG("id", Int, Optional, "Id of global replication"), MGM_END() }; CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("request", request); const Properties *reply; reply = ndb_mgm_call(handle, replication_reply, "rep", &args); CHECK_REPLY(reply, -1); const char * result; reply->get("result", &result); reply->get("id", replication_id); if(strcmp(result,"Ok")!=0) { delete reply; return -1; } delete reply; return 0; } extern "C" int ndb_mgm_set_int_parameter(NdbMgmHandle handle, int node, int param, unsigned value, struct ndb_mgm_reply*){ CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); Properties args; args.put("node", node); args.put("param", param); args.put("value", value); const ParserRow<ParserDummy> reply[]= { MGM_CMD("set parameter reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; const Properties *prop; prop= ndb_mgm_call(handle, reply, "set parameter", &args); CHECK_REPLY(prop, -1); int res= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } res= 0; } while(0); delete prop; return res; } extern "C" int ndb_mgm_set_int64_parameter(NdbMgmHandle handle, int node, int param, unsigned long long value, struct ndb_mgm_reply*){ CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); Properties args; args.put("node", node); args.put("param", param); args.put("value", value); const ParserRow<ParserDummy> reply[]= { MGM_CMD("set parameter reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; const Properties *prop; prop= ndb_mgm_call(handle, reply, "set parameter", &args); if(prop == NULL) { SET_ERROR(handle, EIO, "Unable set parameter"); return -1; } int res= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } res= 0; } while(0); delete prop; return res; } extern "C" int ndb_mgm_set_string_parameter(NdbMgmHandle handle, int node, int param, const char * value, struct ndb_mgm_reply*){ CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); Properties args; args.put("node", node); args.put("parameter", param); args.put("value", value); const ParserRow<ParserDummy> reply[]= { MGM_CMD("set parameter reply", NULL, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; const Properties *prop; prop= ndb_mgm_call(handle, reply, "set parameter", &args); if(prop == NULL) { SET_ERROR(handle, EIO, "Unable set parameter"); return -1; } int res= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } res= 0; } while(0); delete prop; return res; } extern "C" int ndb_mgm_purge_stale_sessions(NdbMgmHandle handle, char **purged){ CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); Properties args; const ParserRow<ParserDummy> reply[]= { MGM_CMD("purge stale sessions reply", NULL, ""), MGM_ARG("purged", String, Optional, ""), MGM_ARG("result", String, Mandatory, "Error message"), MGM_END() }; const Properties *prop; prop= ndb_mgm_call(handle, reply, "purge stale sessions", &args); if(prop == NULL) { SET_ERROR(handle, EIO, "Unable to purge stale sessions"); return -1; } int res= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } if (purged) { if (prop->get("purged", &buf)) *purged= strdup(buf); else *purged= 0; } res= 0; } while(0); delete prop; return res; } extern "C" int ndb_mgm_check_connection(NdbMgmHandle handle){ CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); SocketOutputStream out(handle->socket); SocketInputStream in(handle->socket, handle->read_timeout); char buf[32]; if (out.println("check connection")) goto ndb_mgm_check_connection_error; if (out.println("")) goto ndb_mgm_check_connection_error; in.gets(buf, sizeof(buf)); if(strcmp("check connection reply\n", buf)) goto ndb_mgm_check_connection_error; in.gets(buf, sizeof(buf)); if(strcmp("result: Ok\n", buf)) goto ndb_mgm_check_connection_error; in.gets(buf, sizeof(buf)); if(strcmp("\n", buf)) goto ndb_mgm_check_connection_error; return 0; ndb_mgm_check_connection_error: ndb_mgm_disconnect(handle); return -1; } extern "C" int ndb_mgm_set_connection_int_parameter(NdbMgmHandle handle, int node1, int node2, int param, unsigned value, struct ndb_mgm_reply* mgmreply){ DBUG_ENTER("ndb_mgm_set_connection_int_parameter"); CHECK_HANDLE(handle, 0); CHECK_CONNECTED(handle, 0); Properties args; args.put("node1", node1); args.put("node2", node2); args.put("param", param); args.put("value", value); const ParserRow<ParserDummy> reply[]= { MGM_CMD("set connection parameter reply", NULL, ""), MGM_ARG("message", String, Mandatory, "Error Message"), MGM_ARG("result", String, Mandatory, "Status Result"), MGM_END() }; const Properties *prop; prop= ndb_mgm_call(handle, reply, "set connection parameter", &args); CHECK_REPLY(prop, -1); int res= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } res= 0; } while(0); delete prop; return res; } extern "C" int ndb_mgm_get_connection_int_parameter(NdbMgmHandle handle, int node1, int node2, int param, Uint32 *value, struct ndb_mgm_reply* mgmreply){ DBUG_ENTER("ndb_mgm_get_connection_int_parameter"); CHECK_HANDLE(handle, -1); CHECK_CONNECTED(handle, -1); Properties args; args.put("node1", node1); args.put("node2", node2); args.put("param", param); const ParserRow<ParserDummy> reply[]= { MGM_CMD("get connection parameter reply", NULL, ""), MGM_ARG("value", Int, Mandatory, "Current Value"), MGM_ARG("result", String, Mandatory, "Result"), MGM_END() }; const Properties *prop; prop = ndb_mgm_call(handle, reply, "get connection parameter", &args); CHECK_REPLY(prop, -2); int res= -1; do { const char * buf; if(!prop->get("result", &buf) || strcmp(buf, "Ok") != 0){ ndbout_c("ERROR Message: %s\n", buf); break; } res= 0; } while(0); if(!prop->get("value",value)){ ndbout_c("Unable to get value"); res = -3; } delete prop; DBUG_RETURN(res); } template class Vector<const ParserRow<ParserDummy>*>;