Commit 795b8acc authored by Harin Vadodaria's avatar Harin Vadodaria

Bug#16218104: MYSQL YASSL - LUCKY THIRTEEN: BREAKING THE

              TLS AND DTLS RECORD PROTOCOLS

Description: In yassl, decryption phase in TLS protocol
             depends on type of padding. This patch
             removes this dependancy and makes error
             generation/decryption process independent
             of padding type.
parent eb3814b0
...@@ -53,7 +53,8 @@ enum YasslError { ...@@ -53,7 +53,8 @@ enum YasslError {
badVersion_error = 117, badVersion_error = 117,
compress_error = 118, compress_error = 118,
decompress_error = 119, decompress_error = 119,
pms_version_error = 120 pms_version_error = 120,
sanityCipher_error = 121
// !!!! add error message to .cpp !!!! // !!!! add error message to .cpp !!!!
......
...@@ -220,7 +220,11 @@ const int DEFAULT_TIMEOUT = 500; // Default Session timeout in seconds ...@@ -220,7 +220,11 @@ const int DEFAULT_TIMEOUT = 500; // Default Session timeout in seconds
const int MAX_RECORD_SIZE = 16384; // 2^14, max size by standard const int MAX_RECORD_SIZE = 16384; // 2^14, max size by standard
const int COMPRESS_EXTRA = 1024; // extra compression possible addition const int COMPRESS_EXTRA = 1024; // extra compression possible addition
const int SESSION_FLUSH_COUNT = 256; // when to flush session cache const int SESSION_FLUSH_COUNT = 256; // when to flush session cache
const int MAX_PAD_SIZE = 256; // max TLS padding size
const int COMPRESS_CONSTANT = 13; // compression calculation constant
const int COMPRESS_UPPER = 55; // compression calculation numerator
const int COMPRESS_LOWER = 64; // compression calculation denominator
const int COMPRESS_DUMMY_SIZE = 64; // compression dummy round size
typedef uint8 Cipher; // first byte is always 0x00 for SSLv3 & TLS typedef uint8 Cipher; // first byte is always 0x00 for SSLv3 & TLS
......
...@@ -221,12 +221,45 @@ void buildSHA(SSL& ssl, Finished& fin, const opaque* sender) ...@@ -221,12 +221,45 @@ void buildSHA(SSL& ssl, Finished& fin, const opaque* sender)
} }
// sanity checks on encrypted message size
static int sanity_check_message(SSL& ssl, uint msgSz)
{
uint minSz = 0;
if (ssl.getSecurity().get_parms().cipher_type_ == block) {
uint blockSz = ssl.getCrypto().get_cipher().get_blockSize();
if (msgSz % blockSz)
return -1;
minSz = ssl.getSecurity().get_parms().hash_size_ + 1; // pad byte too
if (blockSz > minSz)
minSz = blockSz;
if (ssl.isTLSv1_1())
minSz += blockSz; // explicit IV
}
else { // stream
minSz = ssl.getSecurity().get_parms().hash_size_;
}
if (msgSz < minSz)
return -1;
return 0;
}
// decrypt input message in place, store size in case needed later // decrypt input message in place, store size in case needed later
void decrypt_message(SSL& ssl, input_buffer& input, uint sz) void decrypt_message(SSL& ssl, input_buffer& input, uint sz)
{ {
input_buffer plain(sz); input_buffer plain(sz);
opaque* cipher = input.get_buffer() + input.get_current(); opaque* cipher = input.get_buffer() + input.get_current();
if (sanity_check_message(ssl, sz) != 0) {
ssl.SetError(sanityCipher_error);
return;
}
ssl.useCrypto().use_cipher().decrypt(plain.get_buffer(), cipher, sz); ssl.useCrypto().use_cipher().decrypt(plain.get_buffer(), cipher, sz);
memcpy(cipher, plain.get_buffer(), sz); memcpy(cipher, plain.get_buffer(), sz);
ssl.useSecurity().use_parms().encrypt_size_ = sz; ssl.useSecurity().use_parms().encrypt_size_ = sz;
...@@ -774,6 +807,8 @@ int DoProcessReply(SSL& ssl) ...@@ -774,6 +807,8 @@ int DoProcessReply(SSL& ssl)
return 0; return 0;
} }
decrypt_message(ssl, buffer, hdr.length_); decrypt_message(ssl, buffer, hdr.length_);
if (ssl.GetError())
return 0;
} }
mySTL::auto_ptr<Message> msg(mf.CreateObject(hdr.type_)); mySTL::auto_ptr<Message> msg(mf.CreateObject(hdr.type_));
......
...@@ -144,6 +144,10 @@ void SetErrorString(YasslError error, char* buffer) ...@@ -144,6 +144,10 @@ void SetErrorString(YasslError error, char* buffer)
strncpy(buffer, "bad PreMasterSecret version error", max); strncpy(buffer, "bad PreMasterSecret version error", max);
break; break;
case sanityCipher_error :
strncpy(buffer, "sanity check on cipher text size error", max);
break;
// openssl errors // openssl errors
case SSL_ERROR_WANT_READ : case SSL_ERROR_WANT_READ :
strncpy(buffer, "the read operation would block", max); strncpy(buffer, "the read operation would block", max);
......
...@@ -972,30 +972,193 @@ output_buffer& operator<<(output_buffer& output, const Data& data) ...@@ -972,30 +972,193 @@ output_buffer& operator<<(output_buffer& output, const Data& data)
} }
// check all bytes for equality
static int constant_compare(const byte* a, const byte* b, int len)
{
int good = 0;
int bad = 0;
for (int i = 0; i < len; i++) {
if (a[i] == b[i])
good++;
else
bad++;
}
if (good == len)
return 0;
else
return 0 - bad; // failure
}
// check bytes for pad value
static int pad_check(const byte* input, byte pad, int len)
{
int good = 0;
int bad = 0;
for (int i = 0; i < len; i++) {
if (input[i] == pad)
good++;
else
bad++;
}
if (good == len)
return 0;
else
return 0 - bad; // failure
}
// get number of compression rounds
static inline int get_rounds(int pLen, int padLen, int t)
{
int roundL1 = 1; // round ups
int roundL2 = 1;
int L1 = COMPRESS_CONSTANT + pLen - t;
int L2 = COMPRESS_CONSTANT + pLen - padLen - 1 - t;
L1 -= COMPRESS_UPPER;
L2 -= COMPRESS_UPPER;
if ( (L1 % COMPRESS_LOWER) == 0)
roundL1 = 0;
if ( (L2 % COMPRESS_LOWER) == 0)
roundL2 = 0;
L1 /= COMPRESS_LOWER;
L2 /= COMPRESS_LOWER;
L1 += roundL1;
L2 += roundL2;
return L1 - L2;
}
// do compression rounds on dummy data
static inline void compress_rounds(SSL& ssl, int rounds, const byte* dummy)
{
if (rounds) {
Digest* digest = NULL;
MACAlgorithm ma = ssl.getSecurity().get_parms().mac_algorithm_;
if (ma == sha)
digest = NEW_YS SHA;
else if (ma == md5)
digest = NEW_YS MD5;
else if (ma == rmd)
digest = NEW_YS RMD;
else
return;
for (int i = 0; i < rounds; i++)
digest->update(dummy, COMPRESS_LOWER);
ysDelete(digest);
}
}
// timing resistant pad verification
static int timing_verify(SSL& ssl, const byte* input, int padLen, int t,
int pLen)
{
byte verify[SHA_LEN];
byte dummy[MAX_PAD_SIZE];
memset(dummy, 1, sizeof(dummy));
if ( (t + padLen + 1) > pLen) {
pad_check(dummy, (byte)padLen, MAX_PAD_SIZE);
if (ssl.isTLS())
TLS_hmac(ssl, verify, input, pLen - t, application_data, 1);
else
hmac(ssl, verify, input, pLen - t, application_data, 1);
constant_compare(verify, input + pLen - t, t);
return -1;
}
if (pad_check(input + pLen - (padLen + 1), (byte)padLen, padLen + 1) != 0) {
pad_check(dummy, (byte)padLen, MAX_PAD_SIZE - padLen - 1);
if (ssl.isTLS())
TLS_hmac(ssl, verify, input, pLen - t, application_data, 1);
else
hmac(ssl, verify, input, pLen - t, application_data, 1);
constant_compare(verify, input + pLen - t, t);
return -1;
}
pad_check(dummy, (byte)padLen, MAX_PAD_SIZE - padLen - 1);
if (ssl.isTLS())
TLS_hmac(ssl, verify, input, pLen - padLen - 1 - t, application_data,1);
else
hmac(ssl, verify, input, pLen - padLen - 1 - t, application_data, 1);
compress_rounds(ssl, get_rounds(pLen, padLen, t), dummy);
if (constant_compare(verify, input + (pLen - padLen - 1 - t), t) != 0)
return -1;
return 0;
}
// Process handler for Data // Process handler for Data
void Data::Process(input_buffer& input, SSL& ssl) void Data::Process(input_buffer& input, SSL& ssl)
{ {
int msgSz = ssl.getSecurity().get_parms().encrypt_size_; int msgSz = ssl.getSecurity().get_parms().encrypt_size_;
int pad = 0, padSz = 0; int pad = 0, padSz = 0;
int ivExtra = 0; int ivExtra = 0;
int digestSz = ssl.getCrypto().get_digest().get_digestSize();
const byte* rawData = input.get_buffer() + input.get_current();
opaque verify[SHA_LEN];
if (ssl.getSecurity().get_parms().cipher_type_ == block) { if (ssl.getSecurity().get_parms().cipher_type_ == block) {
if (ssl.isTLSv1_1()) // IV if (ssl.isTLSv1_1()) // IV
ivExtra = ssl.getCrypto().get_cipher().get_blockSize(); ivExtra = ssl.getCrypto().get_cipher().get_blockSize();
pad = *(input.get_buffer() + input.get_current() + msgSz -ivExtra - 1); pad = *(input.get_buffer() + input.get_current() + msgSz -ivExtra - 1);
padSz = 1; padSz = 1;
if (ssl.isTLS()) {
if (timing_verify(ssl, rawData, pad,digestSz, msgSz-ivExtra) != 0) {
ssl.SetError(verify_error);
return;
} }
int digestSz = ssl.getCrypto().get_digest().get_digestSize(); }
else { // SSLv3, some don't do this padding right
int sz3 = msgSz - digestSz - pad - 1;
hmac(ssl, verify, rawData, sz3, application_data, true);
if (constant_compare(verify, rawData + sz3, digestSz) != 0) {
ssl.SetError(verify_error);
return;
}
}
}
else { // stream
int streamSz = msgSz - digestSz;
if (ssl.isTLS())
TLS_hmac(ssl, verify, rawData, streamSz, application_data, true);
else
hmac(ssl, verify, rawData, streamSz, application_data, true);
if (constant_compare(verify, rawData + streamSz, digestSz) != 0) {
ssl.SetError(verify_error);
return;
}
}
int dataSz = msgSz - ivExtra - digestSz - pad - padSz; int dataSz = msgSz - ivExtra - digestSz - pad - padSz;
opaque verify[SHA_LEN];
if (dataSz < 0) { if (dataSz < 0) {
ssl.SetError(bad_input); ssl.SetError(bad_input);
return; return;
} }
const byte* rawData = input.get_buffer() + input.get_current();
// read data // read data
if (dataSz) { // could be compressed if (dataSz) { // could be compressed
if (ssl.CompressionOn()) { if (ssl.CompressionOn()) {
...@@ -1013,27 +1176,10 @@ void Data::Process(input_buffer& input, SSL& ssl) ...@@ -1013,27 +1176,10 @@ void Data::Process(input_buffer& input, SSL& ssl)
input.read(data->get_buffer(), dataSz); input.read(data->get_buffer(), dataSz);
data->add_size(dataSz); data->add_size(dataSz);
} }
if (ssl.isTLS())
TLS_hmac(ssl, verify, rawData, dataSz, application_data, true);
else
hmac(ssl, verify, rawData, dataSz, application_data, true);
} }
// read mac and skip fill // advance past mac and fill
opaque mac[SHA_LEN]; input.set_current(input.get_current() + digestSz + pad + padSz);
input.read(mac, digestSz);
input.set_current(input.get_current() + pad + padSz);
// verify
if (dataSz) {
if (memcmp(mac, verify, digestSz)) {
ssl.SetError(verify_error);
return;
}
}
else
ssl.get_SEQIncrement(true); // even though no data, increment verify
} }
......
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