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SqMod/vendor/MDBC/libmariadb/secure/schannel.c

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Add MariaDB Connector/C as a built-in alternative (v3.2.3).
2021-09-21 19:59:01 +02:00
/************************************************************************************
Copyright (C) 2014 MariaDB Corporation Ab
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public
License along with this library; if not see <http://www.gnu.org/licenses>
or write to the Free Software Foundation, Inc.,
51 Franklin St., Fifth Floor, Boston, MA 02110, USA
*************************************************************************************/
#include "ma_schannel.h"
#include "schannel_certs.h"
#include <string.h>
extern my_bool ma_tls_initialized;
char tls_library_version[] = "Schannel";
#define PROT_SSL3 1
#define PROT_TLS1_0 2
#define PROT_TLS1_2 4
#define PROT_TLS1_3 8
static struct
{
DWORD cipher_id;
DWORD protocol;
const char *iana_name;
const char *openssl_name;
ALG_ID algs[4]; /* exchange, encryption, hash, signature */
}
cipher_map[] =
{
{
0x0002,
PROT_TLS1_0 | PROT_TLS1_2 | PROT_SSL3,
"TLS_RSA_WITH_NULL_SHA", "NULL-SHA",
{ CALG_RSA_KEYX, 0, CALG_SHA1, CALG_RSA_SIGN }
},
{
0x0004,
PROT_TLS1_0 | PROT_TLS1_2 | PROT_SSL3,
"TLS_RSA_WITH_RC4_128_MD5", "RC4-MD5",
{ CALG_RSA_KEYX, CALG_RC4, CALG_MD5, CALG_RSA_SIGN }
},
{
0x0005,
PROT_TLS1_0 | PROT_TLS1_2 | PROT_SSL3,
"TLS_RSA_WITH_RC4_128_SHA", "RC4-SHA",
{ CALG_RSA_KEYX, CALG_RC4, CALG_SHA1, CALG_RSA_SIGN }
},
{
0x000A,
PROT_SSL3,
"TLS_RSA_WITH_3DES_EDE_CBC_SHA", "DES-CBC3-SHA",
{CALG_RSA_KEYX, CALG_3DES, CALG_SHA1, CALG_DSS_SIGN}
},
{
0x0013,
PROT_TLS1_0 | PROT_TLS1_2 | PROT_SSL3,
"TLS_DHE_DSS_WITH_3DES_EDE_CBC_SHA", "EDH-DSS-DES-CBC3-SHA",
{ CALG_DH_EPHEM, CALG_3DES, CALG_SHA1, CALG_DSS_SIGN }
},
{
0x002F,
PROT_SSL3 | PROT_TLS1_0 | PROT_TLS1_2,
"TLS_RSA_WITH_AES_128_CBC_SHA", "AES128-SHA",
{ CALG_RSA_KEYX, CALG_AES_128, CALG_SHA, CALG_RSA_SIGN}
},
{
0x0032,
PROT_TLS1_0 | PROT_TLS1_2,
"TLS_DHE_DSS_WITH_AES_128_CBC_SHA", "DHE-DSS-AES128-SHA",
{ CALG_DH_EPHEM, CALG_AES_128, CALG_SHA1, CALG_RSA_SIGN }
},
{
0x0033,
PROT_TLS1_0 | PROT_TLS1_2,
"TLS_DHE_RSA_WITH_AES_128_CBC_SHA", "DHE-RSA-AES128-SHA",
{ CALG_DH_EPHEM, CALG_AES_128, CALG_SHA1, CALG_RSA_SIGN }
},
{
0x0035,
PROT_TLS1_0 | PROT_TLS1_2,
"TLS_RSA_WITH_AES_256_CBC_SHA", "AES256-SHA",
{ CALG_RSA_KEYX, CALG_AES_256, CALG_SHA1, CALG_RSA_SIGN }
},
{
0x0038,
PROT_TLS1_0 | PROT_TLS1_2,
"TLS_DHE_DSS_WITH_AES_256_CBC_SHA", "DHE-DSS-AES256-SHA",
{ CALG_DH_EPHEM, CALG_AES_256, CALG_SHA1, CALG_DSS_SIGN }
},
{
0x0039,
PROT_TLS1_0 | PROT_TLS1_2,
"TLS_DHE_RSA_WITH_AES_256_CBC_SHA", "DHE-RSA-AES256-SHA",
{ CALG_DH_EPHEM, CALG_AES_256, CALG_SHA1, CALG_RSA_SIGN }
},
{
0x003B,
PROT_TLS1_2,
"TLS_RSA_WITH_NULL_SHA256", "NULL-SHA256",
{ CALG_RSA_KEYX, 0, CALG_SHA_256, CALG_RSA_SIGN }
},
{
0x003C,
PROT_TLS1_2,
"TLS_RSA_WITH_AES_128_CBC_SHA256", "AES128-SHA256",
{ CALG_RSA_KEYX, CALG_AES_128, CALG_SHA_256, CALG_RSA_SIGN }
},
{
0x003D,
PROT_TLS1_2,
"TLS_RSA_WITH_AES_256_CBC_SHA256", "AES256-SHA256",
{ CALG_RSA_KEYX, CALG_AES_256, CALG_SHA_256, CALG_RSA_SIGN }
},
{
0x0040,
PROT_TLS1_2,
"TLS_DHE_DSS_WITH_AES_128_CBC_SHA256", "DHE-DSS-AES128-SHA256",
{ CALG_DH_EPHEM, CALG_AES_128, CALG_SHA_256, CALG_DSS_SIGN }
},
{
0x009C,
PROT_TLS1_2,
"TLS_RSA_WITH_AES_128_GCM_SHA256", "AES128-GCM-SHA256",
{ CALG_RSA_KEYX, CALG_AES_128, CALG_SHA_256, CALG_RSA_SIGN }
},
{
0x009D,
PROT_TLS1_2,
"TLS_RSA_WITH_AES_256_GCM_SHA384", "AES256-GCM-SHA384",
{ CALG_RSA_KEYX, CALG_AES_256, CALG_SHA_384, CALG_RSA_SIGN }
},
{
0x009E,
PROT_TLS1_2,
"TLS_DHE_RSA_WITH_AES_128_GCM_SHA256", "DHE-RSA-AES128-GCM-SHA256",
{ CALG_DH_EPHEM, CALG_AES_128, CALG_SHA_256, CALG_RSA_SIGN }
},
{
0x009F,
PROT_TLS1_2,
"TLS_DHE_RSA_WITH_AES_256_GCM_SHA384", "DHE-RSA-AES256-GCM-SHA384",
{ CALG_DH_EPHEM, CALG_AES_256, CALG_SHA_384, CALG_RSA_SIGN }
},
{
0xC027,
PROT_TLS1_2,
"TLS_ECDHE_RSA_WITH_AES_128_CBC_SHA256", "ECDHE-RSA-AES128-SHA256",
{ CALG_ECDH, CALG_AES_128, CALG_SHA_256, CALG_RSA_SIGN }
},
{
0xC028,
PROT_TLS1_2,
"TLS_ECDHE_RSA_WITH_AES_256_CBC_SHA384", "ECDHE-RSA-AES256-SHA384",
{ CALG_ECDH, CALG_AES_256, CALG_SHA_384, CALG_RSA_SIGN }
}
};
#define MAX_ALG_ID 50
extern void ma_schannel_set_sec_error(MARIADB_PVIO *pvio, DWORD ErrorNo);
/*
Initializes SSL and allocate global
context SSL_context
SYNOPSIS
ma_tls_start
RETURN VALUES
0 success
1 error
*/
int ma_tls_start(char *errmsg, size_t errmsg_len)
{
ma_tls_initialized = TRUE;
return 0;
}
/*
Release SSL and free resources
Will be automatically executed by
mysql_server_end() function
SYNOPSIS
ma_tls_end()
void
RETURN VALUES
void
*/
void ma_tls_end()
{
return;
}
/* {{{ static int ma_tls_set_client_certs(MARIADB_TLS *ctls) */
static int ma_tls_set_client_certs(MARIADB_TLS *ctls,const CERT_CONTEXT **cert_ctx)
{
MYSQL *mysql= ctls->pvio->mysql;
char *certfile= mysql->options.ssl_cert,
*keyfile= mysql->options.ssl_key;
MARIADB_PVIO *pvio= ctls->pvio;
char errmsg[256];
if (!certfile && keyfile)
certfile= keyfile;
if (!keyfile && certfile)
keyfile= certfile;
if (!certfile)
return 0;
*cert_ctx = schannel_create_cert_context(certfile, keyfile, errmsg, sizeof(errmsg));
if (!*cert_ctx)
{
pvio->set_error(pvio->mysql, CR_SSL_CONNECTION_ERROR, SQLSTATE_UNKNOWN, "SSL connection error: %s", errmsg);
return 1;
}
return 0;
}
/* }}} */
/* {{{ void *ma_tls_init(MARIADB_TLS *ctls, MYSQL *mysql) */
void *ma_tls_init(MYSQL *mysql)
{
SC_CTX *sctx = (SC_CTX *)LocalAlloc(LMEM_ZEROINIT, sizeof(SC_CTX));
if (sctx)
{
SecInvalidateHandle(&sctx->CredHdl);
SecInvalidateHandle(&sctx->hCtxt);
}
return sctx;
}
/* }}} */
/*
Maps between openssl suite names and schannel alg_ids.
Every suite has 4 algorithms (for exchange, encryption, hash and signing).
The input string is a set of suite names (openssl), separated
by ':'
The output is written into the array 'arr' of size 'arr_size'
The function returns number of elements written to the 'arr'.
*/
static struct _tls_version {
const char *tls_version;
DWORD protocol;
} tls_version[]= {
{"TLSv1.0", PROT_TLS1_0},
{"TLSv1.2", PROT_TLS1_2},
{"TLSv1.3", PROT_TLS1_3},
{"SSLv3", PROT_SSL3}
};
/* The following list was produced with OpenSSL 1.1.1j
by executing `openssl ciphers -V`. */
static struct {
DWORD dwCipherSuite;
const char *openssl_name;
} openssl_ciphers[] = {
{0x002F, "AES128-SHA"},
{0x0033, "DHE-RSA-AES128-SHA"},
{0x0035, "AES256-SHA"},
{0x0039, "DHE-RSA-AES256-SHA"},
{0x003C, "AES128-SHA256"},
{0x003D, "AES256-SHA256"},
{0x0067, "DHE-RSA-AES128-SHA256"},
{0x006B, "DHE-RSA-AES256-SHA256"},
{0x008C, "PSK-AES128-CBC-SHA"},
{0x008D, "PSK-AES256-CBC-SHA"},
{0x0090, "DHE-PSK-AES128-CBC-SHA"},
{0x0091, "DHE-PSK-AES256-CBC-SHA"},
{0x0094, "RSA-PSK-AES128-CBC-SHA"},
{0x0095, "RSA-PSK-AES256-CBC-SHA"},
{0x009C, "AES128-GCM-SHA256"},
{0x009D, "AES256-GCM-SHA384"},
{0x009E, "DHE-RSA-AES128-GCM-SHA256"},
{0x009F, "DHE-RSA-AES256-GCM-SHA384"},
{0x00A8, "PSK-AES128-GCM-SHA256"},
{0x00A9, "PSK-AES256-GCM-SHA384"},
{0x00AA, "DHE-PSK-AES128-GCM-SHA256"},
{0x00AB, "DHE-PSK-AES256-GCM-SHA384"},
{0x00AC, "RSA-PSK-AES128-GCM-SHA256"},
{0x00AD, "RSA-PSK-AES256-GCM-SHA384"},
{0x00AE, "PSK-AES128-CBC-SHA256"},
{0x00AF, "PSK-AES256-CBC-SHA384"},
{0x00B2, "DHE-PSK-AES128-CBC-SHA256"},
{0x00B3, "DHE-PSK-AES256-CBC-SHA384"},
{0x00B6, "RSA-PSK-AES128-CBC-SHA256"},
{0x00B7, "RSA-PSK-AES256-CBC-SHA384"},
{0x1301, "TLS_AES_128_GCM_SHA256"},
{0x1302, "TLS_AES_256_GCM_SHA384"},
{0x1303, "TLS_CHACHA20_POLY1305_SHA256"},
{0xC009, "ECDHE-ECDSA-AES128-SHA"},
{0xC00A, "ECDHE-ECDSA-AES256-SHA"},
{0xC013, "ECDHE-RSA-AES128-SHA"},
{0xC014, "ECDHE-RSA-AES256-SHA"},
{0xC01D, "SRP-AES-128-CBC-SHA"},
{0xC01E, "SRP-RSA-AES-128-CBC-SHA"},
{0xC020, "SRP-AES-256-CBC-SHA"},
{0xC021, "SRP-RSA-AES-256-CBC-SHA"},
{0xC023, "ECDHE-ECDSA-AES128-SHA256"},
{0xC024, "ECDHE-ECDSA-AES256-SHA384"},
{0xC027, "ECDHE-RSA-AES128-SHA256"},
{0xC028, "ECDHE-RSA-AES256-SHA384"},
{0xC02B, "ECDHE-ECDSA-AES128-GCM-SHA256"},
{0xC02C, "ECDHE-ECDSA-AES256-GCM-SHA384"},
{0xC02F, "ECDHE-RSA-AES128-GCM-SHA256"},
{0xC030, "ECDHE-RSA-AES256-GCM-SHA384"},
{0xC035, "ECDHE-PSK-AES128-CBC-SHA"},
{0xC036, "ECDHE-PSK-AES256-CBC-SHA"},
{0xC037, "ECDHE-PSK-AES128-CBC-SHA256"},
{0xC038, "ECDHE-PSK-AES256-CBC-SHA384"},
{0xCCA8, "ECDHE-RSA-CHACHA20-POLY1305"},
{0xCCA9, "ECDHE-ECDSA-CHACHA20-POLY1305"},
{0xCCAA, "DHE-RSA-CHACHA20-POLY1305"},
{0xCCAB, "PSK-CHACHA20-POLY1305"},
{0xCCAC, "ECDHE-PSK-CHACHA20-POLY1305"},
{0xCCAD, "DHE-PSK-CHACHA20-POLY1305"},
{0xCCAE, "RSA-PSK-CHACHA20-POLY1305"}
};
static size_t set_cipher(char * cipher_str, DWORD protocol, ALG_ID *arr , size_t arr_size)
{
char *token = strtok(cipher_str, ":");
size_t pos = 0;
while (token)
{
size_t i;
for(i = 0; i < sizeof(cipher_map)/sizeof(cipher_map[0]) ; i++)
{
if((pos + 4 < arr_size && strcmp(cipher_map[i].openssl_name, token) == 0) ||
(cipher_map[i].protocol <= protocol))
{
memcpy(arr + pos, cipher_map[i].algs, sizeof(ALG_ID)* 4);
pos += 4;
break;
}
}
token = strtok(NULL, ":");
}
return pos;
}
my_bool ma_tls_connect(MARIADB_TLS *ctls)
{
MYSQL *mysql;
SCHANNEL_CRED Cred = {0};
MARIADB_PVIO *pvio;
my_bool rc= 1;
SC_CTX *sctx;
SECURITY_STATUS sRet;
ALG_ID AlgId[MAX_ALG_ID];
size_t i;
DWORD protocol = 0;
int verify_certs;
const CERT_CONTEXT* cert_context = NULL;
if (!ctls)
return 1;
pvio= ctls->pvio;
sctx= (SC_CTX *)ctls->ssl;
if (!pvio || !sctx)
return 1;
mysql= pvio->mysql;
if (!mysql)
return 1;
/* Set cipher */
if (mysql->options.ssl_cipher)
{
/* check if a protocol was specified as a cipher:
* In this case don't allow cipher suites which belong to newer protocols
* Please note: There are no cipher suites for TLS1.1
*/
for (i = 0; i < sizeof(tls_version) / sizeof(tls_version[0]); i++)
{
if (!_stricmp(mysql->options.ssl_cipher, tls_version[i].tls_version))
protocol |= tls_version[i].protocol;
}
memset(AlgId, 0, sizeof(AlgId));
Cred.cSupportedAlgs = (DWORD)set_cipher(mysql->options.ssl_cipher, protocol, AlgId, MAX_ALG_ID);
if (Cred.cSupportedAlgs)
{
Cred.palgSupportedAlgs = AlgId;
}
else if (!protocol)
{
ma_schannel_set_sec_error(pvio, SEC_E_ALGORITHM_MISMATCH);
goto end;
}
}
Cred.dwVersion= SCHANNEL_CRED_VERSION;
Cred.dwFlags = SCH_CRED_NO_SERVERNAME_CHECK | SCH_CRED_NO_DEFAULT_CREDS | SCH_CRED_MANUAL_CRED_VALIDATION;
if (mysql->options.extension && mysql->options.extension->tls_version)
{
if (strstr(mysql->options.extension->tls_version, "TLSv1.0"))
Cred.grbitEnabledProtocols|= SP_PROT_TLS1_0_CLIENT;
if (strstr(mysql->options.extension->tls_version, "TLSv1.1"))
Cred.grbitEnabledProtocols|= SP_PROT_TLS1_1_CLIENT;
if (strstr(mysql->options.extension->tls_version, "TLSv1.2"))
Cred.grbitEnabledProtocols|= SP_PROT_TLS1_2_CLIENT;
}
if (!Cred.grbitEnabledProtocols)
Cred.grbitEnabledProtocols = SP_PROT_TLS1_0_CLIENT | SP_PROT_TLS1_1_CLIENT | SP_PROT_TLS1_2_CLIENT;
if (ma_tls_set_client_certs(ctls, &cert_context))
goto end;
if (cert_context)
{
Cred.cCreds = 1;
Cred.paCred = &cert_context;
}
sRet= AcquireCredentialsHandleA(NULL, UNISP_NAME_A, SECPKG_CRED_OUTBOUND,
NULL, &Cred, NULL, NULL, &sctx->CredHdl, NULL);
if (sRet)
{
ma_schannel_set_sec_error(pvio, sRet);
goto end;
}
if (ma_schannel_client_handshake(ctls) != SEC_E_OK)
goto end;
verify_certs = mysql->options.ssl_ca || mysql->options.ssl_capath ||
(mysql->client_flag & CLIENT_SSL_VERIFY_SERVER_CERT);
if (verify_certs)
{
if (!ma_schannel_verify_certs(ctls, (mysql->client_flag & CLIENT_SSL_VERIFY_SERVER_CERT)))
goto end;
}
rc = 0;
end:
if (cert_context)
schannel_free_cert_context(cert_context);
return rc;
}
ssize_t ma_tls_read(MARIADB_TLS *ctls, const uchar* buffer, size_t length)
{
SC_CTX *sctx= (SC_CTX *)ctls->ssl;
MARIADB_PVIO *pvio= ctls->pvio;
DWORD dlength= 0;
SECURITY_STATUS status = ma_schannel_read_decrypt(pvio, &sctx->hCtxt, &dlength, (uchar *)buffer, (DWORD)length);
if (status == SEC_I_CONTEXT_EXPIRED)
return 0; /* other side shut down the connection. */
if (status == SEC_I_RENEGOTIATE)
return -1; /* Do not handle renegotiate yet */
return (status == SEC_E_OK)? (ssize_t)dlength : -1;
}
ssize_t ma_tls_write(MARIADB_TLS *ctls, const uchar* buffer, size_t length)
{
MARIADB_PVIO *pvio= ctls->pvio;
ssize_t rc, wlength= 0;
ssize_t remain= length;
while (remain > 0)
{
if ((rc= ma_schannel_write_encrypt(pvio, (uchar *)buffer + wlength, remain)) <= 0)
return rc;
wlength+= rc;
remain-= rc;
}
return length;
}
/* {{{ my_bool ma_tls_close(MARIADB_PVIO *pvio) */
my_bool ma_tls_close(MARIADB_TLS *ctls)
{
SC_CTX *sctx= (SC_CTX *)ctls->ssl;
if (sctx)
{
LocalFree(sctx->IoBuffer);
if (SecIsValidHandle(&sctx->CredHdl))
FreeCredentialHandle(&sctx->CredHdl);
if (SecIsValidHandle(&sctx->hCtxt))
DeleteSecurityContext(&sctx->hCtxt);
}
LocalFree(sctx);
return 0;
}
/* }}} */
int ma_tls_verify_server_cert(MARIADB_TLS *ctls)
{
/* Done elsewhere */
return 0;
}
static const char *cipher_name(const SecPkgContext_CipherInfo *CipherInfo)
{
size_t i;
for(i = 0; i < sizeof(openssl_ciphers)/sizeof(openssl_ciphers[0]) ; i++)
{
if (CipherInfo->dwCipherSuite == openssl_ciphers[i].dwCipherSuite)
return openssl_ciphers[i].openssl_name;
}
return "";
};
const char *ma_tls_get_cipher(MARIADB_TLS *ctls)
{
SecPkgContext_CipherInfo CipherInfo = { SECPKGCONTEXT_CIPHERINFO_V1 };
SECURITY_STATUS sRet;
SC_CTX *sctx;
if (!ctls || !ctls->ssl)
return NULL;
sctx= (SC_CTX *)ctls->ssl;
sRet= QueryContextAttributesA(&sctx->hCtxt, SECPKG_ATTR_CIPHER_INFO, (PVOID)&CipherInfo);
if (sRet != SEC_E_OK)
return NULL;
return cipher_name(&CipherInfo);
}
unsigned int ma_tls_get_finger_print(MARIADB_TLS *ctls, char *fp, unsigned int len)
{
SC_CTX *sctx= (SC_CTX *)ctls->ssl;
PCCERT_CONTEXT pRemoteCertContext = NULL;
if (QueryContextAttributes(&sctx->hCtxt, SECPKG_ATTR_REMOTE_CERT_CONTEXT, (PVOID)&pRemoteCertContext) != SEC_E_OK)
return 0;
CertGetCertificateContextProperty(pRemoteCertContext, CERT_HASH_PROP_ID, fp, (DWORD *)&len);
CertFreeCertificateContext(pRemoteCertContext);
return len;
}
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