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fteqw/engine/common/net_ssl_winsspi.c
Spoike 08f8cb2d35 Fix double-free crash on TLS failure. 
git-svn-id: https://svn.code.sf.net/p/fteqw/code/trunk@5709 fc73d0e0-1445-4013-8a0c-d673dee63da5
2020-06-27 19:31:48 +00:00

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#include "quakedef.h"
#if defined(HAVE_WINSSPI)
/*regarding HAVE_DTLS
DTLS1.0 is supported from win8 onwards
Its also meant to be supported from some RDP server patch on win7, but I can't get it to work.
I've given up for now.
*/
#include "winquake.h"
#include "netinc.h"
#define SECURITY_WIN32
#include <security.h>
#include <sspi.h>
#include <schannel.h>
#define SP_PROT_TLS1_1_SERVER 0x00000100
#define SP_PROT_TLS1_1_CLIENT 0x00000200
#define SP_PROT_TLS1_2_SERVER 0x00000400
#define SP_PROT_TLS1_2_CLIENT 0x00000800
#define SP_PROT_DTLS_SERVER 0x00010000
#define SP_PROT_DTLS_CLIENT 0x00020000
//avoid the use of outdated/insecure protocols
//so no ssl2/ssl3
#define USE_PROT_SERVER (SP_PROT_TLS1_SERVER | SP_PROT_TLS1_1_SERVER | SP_PROT_TLS1_2_SERVER)
#define USE_PROT_CLIENT (SP_PROT_TLS1_CLIENT | SP_PROT_TLS1_1_CLIENT | SP_PROT_TLS1_2_CLIENT)
#define USE_PROT_DGRAM_SERVER (SP_PROT_DTLS_SERVER)
#define USE_PROT_DGRAM_CLIENT (SP_PROT_DTLS_CLIENT)
#ifndef szOID_RSA_SHA512RSA
#define szOID_RSA_SHA512RSA "1.2.840.113549.1.1.13"
#endif
#ifndef SCH_CRED_SNI_CREDENTIAL
#define SCH_CRED_SNI_CREDENTIAL 0x00080000
#endif
#ifndef SEC_I_MESSAGE_FRAGMENT
#define SEC_I_MESSAGE_FRAGMENT 0x00090364L
#endif
#ifndef SEC_E_INVALID_PARAMETER
#define SEC_E_INVALID_PARAMETER 0x8009035DL
#endif
//hungarian ensures we hit no macros.
static struct
{
dllhandle_t *lib;
SECURITY_STATUS (WINAPI *pDecryptMessage) (PCtxtHandle,PSecBufferDesc,ULONG,PULONG);
SECURITY_STATUS (WINAPI *pEncryptMessage) (PCtxtHandle,ULONG,PSecBufferDesc,ULONG);
SECURITY_STATUS (WINAPI *pAcquireCredentialsHandleA) (SEC_CHAR*,SEC_CHAR*,ULONG,PLUID,PVOID,SEC_GET_KEY_FN,PVOID,PCredHandle,PTimeStamp);
// SECURITY_STATUS (WINAPI *pInitializeSecurityContextA) (PCredHandle,PCtxtHandle,SEC_CHAR*,ULONG,ULONG,ULONG,PSecBufferDesc,ULONG,PCtxtHandle,PSecBufferDesc,PULONG,PTimeStamp);
SECURITY_STATUS (WINAPI *pInitializeSecurityContextW) (PCredHandle,PCtxtHandle,SEC_WCHAR*,ULONG,ULONG,ULONG,PSecBufferDesc,ULONG,PCtxtHandle,PSecBufferDesc,PULONG,PTimeStamp);
SECURITY_STATUS (WINAPI *pAcceptSecurityContext) (PCredHandle,PCtxtHandle,PSecBufferDesc,unsigned long,unsigned long,PCtxtHandle,PSecBufferDesc,unsigned long SEC_FAR *,PTimeStamp);
SECURITY_STATUS (WINAPI *pCompleteAuthToken) (PCtxtHandle,PSecBufferDesc);
SECURITY_STATUS (WINAPI *pQueryContextAttributesA) (PCtxtHandle,ULONG,PVOID);
SECURITY_STATUS (WINAPI *pFreeCredentialsHandle) (PCredHandle);
SECURITY_STATUS (WINAPI *pDeleteSecurityContext) (PCtxtHandle);
} secur;
static struct
{
dllhandle_t *lib;
BOOL (WINAPI *pCertGetCertificateChain) (HCERTCHAINENGINE,PCCERT_CONTEXT,LPFILETIME,HCERTSTORE,PCERT_CHAIN_PARA,DWORD,LPVOID,PCCERT_CHAIN_CONTEXT*);
BOOL (WINAPI *pCertVerifyCertificateChainPolicy) (LPCSTR,PCCERT_CHAIN_CONTEXT,PCERT_CHAIN_POLICY_PARA,PCERT_CHAIN_POLICY_STATUS);
void (WINAPI *pCertFreeCertificateChain) (PCCERT_CHAIN_CONTEXT);
DWORD (WINAPI *pCertNameToStrA) (DWORD dwCertEncodingType, PCERT_NAME_BLOB pName, DWORD dwStrType, LPCSTR psz, DWORD csz);
PCCERT_CONTEXT (WINAPI *pCertCreateSelfSignCertificate) (HCRYPTPROV,PCERT_NAME_BLOB,DWORD,PCRYPT_KEY_PROV_INFO,PCRYPT_ALGORITHM_IDENTIFIER,PSYSTEMTIME,PSYSTEMTIME,PCERT_EXTENSIONS);
BOOL (WINAPI *pCertStrToNameA) (DWORD,LPCSTR,DWORD,void *,BYTE *,DWORD *,LPCSTR *);
} crypt;
void SSL_Init(void)
{
dllfunction_t secur_functable[] =
{
{(void**)&secur.pDecryptMessage, "DecryptMessage"},
{(void**)&secur.pEncryptMessage, "EncryptMessage"},
{(void**)&secur.pAcquireCredentialsHandleA, "AcquireCredentialsHandleA"},
// {(void**)&secur.pInitializeSecurityContextA, "InitializeSecurityContextA"},
{(void**)&secur.pInitializeSecurityContextW, "InitializeSecurityContextW"},
{(void**)&secur.pAcceptSecurityContext, "AcceptSecurityContext"},
{(void**)&secur.pCompleteAuthToken, "CompleteAuthToken"},
{(void**)&secur.pQueryContextAttributesA, "QueryContextAttributesA"},
{(void**)&secur.pFreeCredentialsHandle, "FreeCredentialsHandle"},
{(void**)&secur.pDeleteSecurityContext, "DeleteSecurityContext"},
{NULL, NULL}
};
dllfunction_t crypt_functable[] =
{
{(void**)&crypt.pCertGetCertificateChain, "CertGetCertificateChain"},
{(void**)&crypt.pCertVerifyCertificateChainPolicy, "CertVerifyCertificateChainPolicy"},
{(void**)&crypt.pCertFreeCertificateChain, "CertFreeCertificateChain"},
{(void**)&crypt.pCertNameToStrA, "CertNameToStrA"},
{(void**)&crypt.pCertCreateSelfSignCertificate, "CertCreateSelfSignCertificate"},
{(void**)&crypt.pCertStrToNameA, "CertStrToNameA"},
{NULL, NULL}
};
if (!secur.lib)
secur.lib = Sys_LoadLibrary("secur32.dll", secur_functable);
if (!crypt.lib)
crypt.lib = Sys_LoadLibrary("crypt32.dll", crypt_functable);
}
qboolean SSL_Inited(void)
{
return !!secur.lib && !!crypt.lib;
}
#define MessageAttribute (ISC_REQ_SEQUENCE_DETECT | ISC_REQ_REPLAY_DETECT | ISC_REQ_CONFIDENTIALITY | ISC_REQ_EXTENDED_ERROR | ISC_REQ_ALLOCATE_MEMORY | ISC_REQ_MANUAL_CRED_VALIDATION)
struct sslbuf
{
size_t datasize;
char *data;
size_t avail;
};
typedef struct {
vfsfile_t funcs;
vfsfile_t *stream;
wchar_t wpeername[256];
qboolean datagram;
enum
{
HS_ESTABLISHED,
HS_ERROR,
HS_STARTCLIENT,
HS_CLIENT,
HS_STARTSERVER,
HS_SERVER
} handshaking;
struct sslbuf outraw;
struct sslbuf outcrypt;
struct sslbuf inraw;
struct sslbuf incrypt;
CredHandle cred;
SecHandle sechnd;
int headersize, footersize;
char headerdata[1024], footerdata[1024];
#ifdef HAVE_DTLS
void *cbctx;
neterr_t (*transmit)(void *cbctx, const qbyte *data, size_t datasize);
#endif
} sslfile_t;
static int SSPI_ExpandBuffer(struct sslbuf *buf, size_t bytes)
{
if (bytes < buf->datasize)
return buf->datasize;
Z_ReallocElements((void**)&buf->data, &buf->datasize, bytes, 1);
return bytes;
}
static int SSPI_CopyIntoBuffer(struct sslbuf *buf, const void *data, unsigned int bytes, qboolean expand)
{
if (bytes > buf->datasize - buf->avail)
{
if (!expand || SSPI_ExpandBuffer(buf, buf->avail + bytes + 1024) < buf->avail + bytes)
bytes = buf->datasize - buf->avail;
}
memcpy(buf->data + buf->avail, data, bytes);
buf->avail += bytes;
return bytes;
}
static void SSPI_Error(sslfile_t *f, char *error, ...)
{
va_list argptr;
char string[1024];
va_start (argptr, error);
vsnprintf (string,sizeof(string)-1, error,argptr);
va_end (argptr);
f->handshaking = HS_ERROR;
if (*string)
Sys_Printf("%s", string);
if (f->stream)
VFS_CLOSE(f->stream);
secur.pDeleteSecurityContext(&f->sechnd);
secur.pFreeCredentialsHandle(&f->cred);
f->stream = NULL;
}
static void SSPI_TryFlushCryptOut(sslfile_t *f)
{
int sent;
if (f->outcrypt.avail)
{
#ifdef HAVE_DTLS
if (f->transmit)
{
f->transmit(f->cbctx, f->outcrypt.data, f->outcrypt.avail);
f->outcrypt.avail = 0;
return;
}
#endif
sent = VFS_WRITE(f->stream, f->outcrypt.data, f->outcrypt.avail);
}
else
return;
if (sent > 0)
{
memmove(f->outcrypt.data, f->outcrypt.data + sent, f->outcrypt.avail - sent);
f->outcrypt.avail -= sent;
}
}
static int SSPI_CheckNewInCrypt(sslfile_t *f)
{
int newd;
if (!f->stream)
return -1;
newd = VFS_READ(f->stream, f->incrypt.data+f->incrypt.avail, f->incrypt.datasize - f->incrypt.avail);
if (newd < 0)
return newd;
else
f->incrypt.avail += newd;
return 0;
}
//convert inbound crypt->data
static void SSPI_Decode(sslfile_t *f)
{
SECURITY_STATUS ss;
SecBufferDesc BuffDesc;
SecBuffer SecBuff[4];
ULONG ulQop = 0;
SecBuffer *extra = NULL;
int i;
if (!f->incrypt.avail)
return;
BuffDesc.ulVersion = SECBUFFER_VERSION;
BuffDesc.cBuffers = countof(SecBuff);
BuffDesc.pBuffers = SecBuff;
SecBuff[0].BufferType = SECBUFFER_DATA;
SecBuff[0].cbBuffer = f->incrypt.avail;
SecBuff[0].pvBuffer = f->incrypt.data;
SecBuff[1].BufferType = SECBUFFER_EMPTY; //space for header
SecBuff[2].BufferType = SECBUFFER_EMPTY; //space for footer
SecBuff[3].BufferType = SECBUFFER_EMPTY; //space for extra marker
ss = secur.pDecryptMessage(&f->sechnd, &BuffDesc, 0, &ulQop);
if (ss < 0)
{
if (ss == SEC_E_INCOMPLETE_MESSAGE)
{
if (f->incrypt.avail == f->incrypt.datasize)
SSPI_ExpandBuffer(&f->incrypt, f->incrypt.datasize+1024);
return; //no error if its incomplete, we can just get more data later on.
}
switch(ss)
{
case SEC_E_DECRYPT_FAILURE: SSPI_Error(f, "DecryptMessage failed: SEC_E_DECRYPT_FAILURE\n", ss); break;
case SEC_E_INVALID_HANDLE: SSPI_Error(f, "DecryptMessage failed: SEC_E_INVALID_HANDLE\n"); break;
default: SSPI_Error(f, "DecryptMessage failed: %0#lx\n", ss); break;
}
return;
}
for (i = 0; i < BuffDesc.cBuffers; i++)
{
switch(SecBuff[i].BufferType)
{
case SECBUFFER_DATA:
if (SSPI_CopyIntoBuffer(&f->inraw, SecBuff[i].pvBuffer, SecBuff[i].cbBuffer, true) != SecBuff[i].cbBuffer)
SSPI_Error(f, "outraw buffer overflowed\n");
break;
case SECBUFFER_EXTRA:
if (extra)
SSPI_Error(f, "multiple extra buffers\n");
extra = &SecBuff[i];
break;
case SECBUFFER_EMPTY:
case SECBUFFER_MISSING:
case SECBUFFER_STREAM_TRAILER:
case SECBUFFER_STREAM_HEADER:
break;
default:
SSPI_Error(f, "got unexpected buffer type\n");
break;
}
}
//retain the extra. if there's no extra then mark it so.
if (extra)
{
memmove(f->incrypt.data, f->incrypt.data + (f->incrypt.avail - extra->cbBuffer), extra->cbBuffer);
f->incrypt.avail = extra->cbBuffer;
}
else
f->incrypt.avail = 0;
}
//convert outgoing data->crypt
static void SSPI_Encode(sslfile_t *f)
{
SECURITY_STATUS ss;
SecBufferDesc BuffDesc;
SecBuffer SecBuff[4];
ULONG ulQop = 0;
if (f->outcrypt.avail)
{
SSPI_TryFlushCryptOut(f);
if (f->outcrypt.avail)
return; //don't flood too much
}
//don't corrupt the handshake data.
if (f->handshaking)
return;
if (!f->outraw.avail)
return;
BuffDesc.ulVersion = SECBUFFER_VERSION;
BuffDesc.cBuffers = 4;
BuffDesc.pBuffers = SecBuff;
SecBuff[0].BufferType = SECBUFFER_STREAM_HEADER;
SecBuff[0].cbBuffer = f->headersize;
SecBuff[0].pvBuffer = f->headerdata;
SecBuff[1].BufferType = SECBUFFER_DATA;
SecBuff[1].cbBuffer = f->outraw.avail;
SecBuff[1].pvBuffer = f->outraw.data;
SecBuff[2].BufferType = SECBUFFER_STREAM_TRAILER;
SecBuff[2].cbBuffer = f->footersize;
SecBuff[2].pvBuffer = f->footerdata;
SecBuff[3].BufferType = SECBUFFER_EMPTY;
SecBuff[3].cbBuffer = 0;
SecBuff[3].pvBuffer = NULL;
ss = secur.pEncryptMessage(&f->sechnd, ulQop, &BuffDesc, 0);
if (ss < 0)
{
SSPI_Error(f, "EncryptMessage failed\n");
return;
}
f->outraw.avail = 0;
//fixme: these should be made non-fatal.
if (SSPI_CopyIntoBuffer(&f->outcrypt, SecBuff[0].pvBuffer, SecBuff[0].cbBuffer, true) < SecBuff[0].cbBuffer)
{
SSPI_Error(f, "crypt buffer overflowed\n");
return;
}
if (SSPI_CopyIntoBuffer(&f->outcrypt, SecBuff[1].pvBuffer, SecBuff[1].cbBuffer, true) < SecBuff[1].cbBuffer)
{
SSPI_Error(f, "crypt buffer overflowed\n");
return;
}
if (SSPI_CopyIntoBuffer(&f->outcrypt, SecBuff[2].pvBuffer, SecBuff[2].cbBuffer, true) < SecBuff[2].cbBuffer)
{
SSPI_Error(f, "crypt buffer overflowed\n");
return;
}
SSPI_TryFlushCryptOut(f);
}
char *narrowen(char *out, size_t outlen, wchar_t *wide);
static DWORD VerifyKnownCertificates(DWORD status, wchar_t *domain, qbyte *data, size_t datasize, qboolean datagram)
{
size_t knownsize;
void *knowncert;
char realdomain[256];
if (datagram)
{
if (status == CERT_E_UNTRUSTEDROOT || SUCCEEDED(status))
{
#ifndef SERVERONLY
if (CertLog_ConnectOkay(narrowen(realdomain, sizeof(realdomain), domain), data, datasize))
status = SEC_E_OK;
else
#endif
status = TRUST_E_FAIL;
}
return status;
}
narrowen(realdomain, sizeof(realdomain), domain);
knowncert = TLS_GetKnownCertificate(realdomain, &knownsize);
if (knowncert)
{
if (knownsize == datasize && !memcmp(data, knowncert, datasize))
{ //what we know about matched
if (status == CERT_E_UNTRUSTEDROOT || status == CERT_E_EXPIRED)
status = SEC_E_OK;
}
else
{
if (status != CERT_E_EXPIRED)
Con_Printf("%ls has an unexpected certificate\n", domain);
if (status == SEC_E_OK) //we (think) we know better.
status = TRUST_E_FAIL;
}
BZ_Free(knowncert);
}
#ifndef SERVERONLY
//self-signed and expired certs are understandable in many situations.
//prompt and cache (although this connection attempt will fail).
if (status == CERT_E_UNTRUSTEDROOT || status == CERT_E_UNTRUSTEDTESTROOT || status == CERT_E_EXPIRED)
if (CertLog_ConnectOkay(realdomain, data, datasize))
return SEC_E_OK;
#endif
return status;
}
static DWORD VerifyServerCertificate(PCCERT_CONTEXT pServerCert, PWSTR pwszServerName, DWORD dwCertFlags, qboolean datagram)
{
HTTPSPolicyCallbackData polHttps;
CERT_CHAIN_POLICY_PARA PolicyPara;
CERT_CHAIN_POLICY_STATUS PolicyStatus;
CERT_CHAIN_PARA ChainPara;
PCCERT_CHAIN_CONTEXT pChainContext;
DWORD Status;
LPSTR rgszUsages[] =
{
szOID_PKIX_KP_SERVER_AUTH,
szOID_SERVER_GATED_CRYPTO,
szOID_SGC_NETSCAPE
};
DWORD cUsages = sizeof(rgszUsages) / sizeof(LPSTR);
if(pServerCert == NULL)
return SEC_E_WRONG_PRINCIPAL;
if(!*pwszServerName)
return SEC_E_WRONG_PRINCIPAL;
// Build certificate chain.
memset(&ChainPara, 0, sizeof(ChainPara));
ChainPara.cbSize = sizeof(ChainPara);
ChainPara.RequestedUsage.dwType = USAGE_MATCH_TYPE_OR;
ChainPara.RequestedUsage.Usage.cUsageIdentifier = cUsages;
ChainPara.RequestedUsage.Usage.rgpszUsageIdentifier = rgszUsages;
if (!crypt.pCertGetCertificateChain(NULL, pServerCert, NULL, pServerCert->hCertStore, &ChainPara, 0, NULL, &pChainContext))
{
Status = GetLastError();
Sys_Printf("Error %#lx returned by CertGetCertificateChain!\n", Status);
}
else
{
// Validate certificate chain.
memset(&polHttps, 0, sizeof(HTTPSPolicyCallbackData));
polHttps.cbStruct = sizeof(HTTPSPolicyCallbackData);
polHttps.dwAuthType = AUTHTYPE_SERVER;
polHttps.fdwChecks = dwCertFlags;
polHttps.pwszServerName = pwszServerName;
memset(&PolicyPara, 0, sizeof(PolicyPara));
PolicyPara.cbSize = sizeof(PolicyPara);
PolicyPara.pvExtraPolicyPara = &polHttps;
memset(&PolicyStatus, 0, sizeof(PolicyStatus));
PolicyStatus.cbSize = sizeof(PolicyStatus);
if (!crypt.pCertVerifyCertificateChainPolicy(CERT_CHAIN_POLICY_SSL, pChainContext, &PolicyPara, &PolicyStatus))
{
Status = GetLastError();
Sys_Printf("Error %#lx returned by CertVerifyCertificateChainPolicy!\n", Status);
}
else
{
Status = VerifyKnownCertificates(PolicyStatus.dwError, pwszServerName, pServerCert->pbCertEncoded, pServerCert->cbCertEncoded, datagram);
if (Status)
{
char fmsg[512];
char *err;
switch (Status)
{
case CERT_E_EXPIRED: err = "CERT_E_EXPIRED"; break;
case CERT_E_VALIDITYPERIODNESTING: err = "CERT_E_VALIDITYPERIODNESTING"; break;
case CERT_E_ROLE: err = "CERT_E_ROLE"; break;
case CERT_E_PATHLENCONST: err = "CERT_E_PATHLENCONST"; break;
case CERT_E_CRITICAL: err = "CERT_E_CRITICAL"; break;
case CERT_E_PURPOSE: err = "CERT_E_PURPOSE"; break;
case CERT_E_ISSUERCHAINING: err = "CERT_E_ISSUERCHAINING"; break;
case CERT_E_MALFORMED: err = "CERT_E_MALFORMED"; break;
case CERT_E_UNTRUSTEDROOT: err = "CERT_E_UNTRUSTEDROOT"; break;
case CERT_E_CHAINING: err = "CERT_E_CHAINING"; break;
case TRUST_E_FAIL: err = "TRUST_E_FAIL"; break;
case CERT_E_REVOKED: err = "CERT_E_REVOKED"; break;
case CERT_E_UNTRUSTEDTESTROOT: err = "CERT_E_UNTRUSTEDTESTROOT"; break;
case CERT_E_REVOCATION_FAILURE: err = "CERT_E_REVOCATION_FAILURE"; break;
case CERT_E_CN_NO_MATCH:
err = fmsg;
Q_strncpyz(fmsg, "Certificate is for ", sizeof(fmsg));
crypt.pCertNameToStrA(X509_ASN_ENCODING, &pServerCert->pCertInfo->Subject, 0, fmsg+strlen(fmsg), sizeof(fmsg)-strlen(fmsg));
break;
case CERT_E_WRONG_USAGE: err = "CERT_E_WRONG_USAGE"; break;
default: err = "(unknown)"; break;
}
Con_Printf(CON_ERROR "Error verifying certificate for '%ls': %s\n", pwszServerName, err);
if (tls_ignorecertificateerrors.ival)
{
Con_Printf(CON_WARNING "pretending it didn't happen... (tls_ignorecertificateerrors is set)\n");
Status = SEC_E_OK;
}
}
else
Status = SEC_E_OK;
}
crypt.pCertFreeCertificateChain(pChainContext);
}
return Status;
}
static PCCERT_CONTEXT SSPI_GetServerCertificate(void)
{
static PCCERT_CONTEXT ret;
char *issuertext = "CN=127.0.0.1, O=\"FTE QuakeWorld\", OU=Testing, C=TR";
CERT_NAME_BLOB issuerblob;
CRYPT_ALGORITHM_IDENTIFIER sigalg;
SYSTEMTIME expiredate;
if (ret)
return ret;
memset(&sigalg, 0, sizeof(sigalg));
sigalg.pszObjId = szOID_RSA_SHA512RSA;
GetSystemTime(&expiredate);
expiredate.wYear += 2; //2 years hence. woo
memset(&issuerblob, 0, sizeof(issuerblob));
crypt.pCertStrToNameA(X509_ASN_ENCODING, issuertext, CERT_X500_NAME_STR, NULL, issuerblob.pbData, &issuerblob.cbData, NULL);
issuerblob.pbData = Z_Malloc(issuerblob.cbData);
crypt.pCertStrToNameA(X509_ASN_ENCODING, issuertext, CERT_X500_NAME_STR, NULL, issuerblob.pbData, &issuerblob.cbData, NULL);
ret = crypt.pCertCreateSelfSignCertificate(
0,
&issuerblob,
0,
NULL,
&sigalg,
NULL,
&expiredate,
NULL
);
if (!ret)
{ //try and downgrade the signature algo if it failed.
sigalg.pszObjId = szOID_RSA_SHA1RSA;
ret = crypt.pCertCreateSelfSignCertificate(
0,
&issuerblob,
0,
NULL,
&sigalg,
NULL,
&expiredate,
NULL
);
}
Z_Free(issuerblob.pbData);
return ret;
}
static void SSPI_GenServerCredentials(sslfile_t *f)
{
SECURITY_STATUS ss;
TimeStamp Lifetime;
SCHANNEL_CRED SchannelCred;
PCCERT_CONTEXT cred;
memset(&SchannelCred, 0, sizeof(SchannelCred));
SchannelCred.dwVersion = SCHANNEL_CRED_VERSION;
SchannelCred.grbitEnabledProtocols = f->datagram?USE_PROT_DGRAM_SERVER:USE_PROT_SERVER;
SchannelCred.dwFlags |= SCH_CRED_NO_SYSTEM_MAPPER|SCH_CRED_DISABLE_RECONNECTS; /*don't use windows login info or anything*/
cred = SSPI_GetServerCertificate();
SchannelCred.cCreds = 1;
SchannelCred.paCred = &cred;
if (!cred)
{
SSPI_Error(f, "Unable to load/generate certificate\n");
return;
}
ss = secur.pAcquireCredentialsHandleA (NULL, UNISP_NAME_A, SECPKG_CRED_INBOUND, NULL, &SchannelCred, NULL, NULL, &f->cred, &Lifetime);
if (ss < 0)
{
SSPI_Error(f, "AcquireCredentialsHandle failed\n");
return;
}
}
static void SSPI_Handshake (sslfile_t *f)
{
SECURITY_STATUS ss;
TimeStamp Lifetime;
SecBufferDesc OutBuffDesc;
SecBuffer OutSecBuff[8];
SecBufferDesc InBuffDesc;
SecBuffer InSecBuff[8];
ULONG ContextAttributes;
SCHANNEL_CRED SchannelCred;
int i;
qboolean retries = 5;
// char buf1[128];
// char buf2[128];
retry:
if (f->outcrypt.avail)
{
//don't let things build up too much
SSPI_TryFlushCryptOut(f);
if (f->outcrypt.avail)
return;
}
//FIXME: skip this if we've had no new data since last time
OutBuffDesc.ulVersion = SECBUFFER_VERSION;
OutBuffDesc.cBuffers = countof(OutSecBuff);
OutBuffDesc.pBuffers = OutSecBuff;
OutSecBuff[0].BufferType = SECBUFFER_TOKEN;
OutSecBuff[0].cbBuffer = f->outcrypt.datasize - f->outcrypt.avail;
OutSecBuff[0].pvBuffer = f->outcrypt.data + f->outcrypt.avail;
for (i = 0; i < OutBuffDesc.cBuffers; i++)
{
OutSecBuff[i].BufferType = SECBUFFER_EMPTY;
OutSecBuff[i].pvBuffer = NULL;
OutSecBuff[i].cbBuffer = 0;
}
if (f->handshaking == HS_ERROR)
return; //gave up.
else if (f->handshaking == HS_STARTCLIENT)
{
//no input data yet.
f->handshaking = HS_CLIENT;
memset(&SchannelCred, 0, sizeof(SchannelCred));
SchannelCred.dwVersion = SCHANNEL_CRED_VERSION;
SchannelCred.grbitEnabledProtocols = f->datagram?USE_PROT_DGRAM_CLIENT:USE_PROT_CLIENT;
SchannelCred.dwFlags |= SCH_CRED_SNI_CREDENTIAL | SCH_CRED_NO_DEFAULT_CREDS; /*don't use windows login info or anything*/
ss = secur.pAcquireCredentialsHandleA (NULL, UNISP_NAME_A, SECPKG_CRED_OUTBOUND, NULL, &SchannelCred, NULL, NULL, &f->cred, &Lifetime);
if (ss < 0)
{
SSPI_Error(f, "AcquireCredentialsHandle failed\n");
return;
}
ss = secur.pInitializeSecurityContextW (&f->cred, NULL, f->wpeername, MessageAttribute|(f->datagram?ISC_REQ_DATAGRAM:ISC_REQ_STREAM), 0, SECURITY_NATIVE_DREP, NULL, 0, &f->sechnd, &OutBuffDesc, &ContextAttributes, &Lifetime);
}
else if (f->handshaking == HS_CLIENT)
{
//only if we actually have data.
if (!f->incrypt.avail && !f->datagram)
return;
InBuffDesc.ulVersion = SECBUFFER_VERSION;
InBuffDesc.cBuffers = 4;
InBuffDesc.pBuffers = InSecBuff;
i = 0;
if (f->incrypt.avail)
{
InSecBuff[i].BufferType = SECBUFFER_TOKEN;
InSecBuff[i].cbBuffer = f->incrypt.avail;
InSecBuff[i].pvBuffer = f->incrypt.data;
i++;
}
for (; i < InBuffDesc.cBuffers; i++)
{
InSecBuff[i].BufferType = SECBUFFER_EMPTY;
InSecBuff[i].pvBuffer = NULL;
InSecBuff[i].cbBuffer = 0;
}
ss = secur.pInitializeSecurityContextW (&f->cred, &f->sechnd, NULL, MessageAttribute|(f->datagram?ISC_REQ_DATAGRAM:ISC_REQ_STREAM), 0, SECURITY_NETWORK_DREP, &InBuffDesc, 0, &f->sechnd, &OutBuffDesc, &ContextAttributes, &Lifetime);
if (ss == SEC_E_INCOMPLETE_MESSAGE)
{
// Con_Printf("SEC_E_INCOMPLETE_MESSAGE\n");
if (!f->datagram && f->incrypt.avail == f->incrypt.datasize)
SSPI_ExpandBuffer(&f->incrypt, f->incrypt.datasize+1024);
return;
}
else if (ss == SEC_E_INVALID_TOKEN)
{
// Con_Printf("SEC_E_INVALID_TOKEN\n");
if (f->datagram)
return; //our udp protocol may have non-dtls packets mixed in. besides, we don't want to die from spoofed packets.
}
// else if (ss == SEC_I_MESSAGE_FRAGMENT)
// Con_Printf("SEC_I_MESSAGE_FRAGMENT\n");
// else if (ss == SEC_I_CONTINUE_NEEDED)
// Con_Printf("SEC_I_CONTINUE_NEEDED\n");
// else
// Con_Printf("InitializeSecurityContextA %x\n", ss);
//any extra data should still remain for the next time around. this might be more handshake data or payload data.
if (InSecBuff[1].BufferType == SECBUFFER_EXTRA)
{
memmove(f->incrypt.data, f->incrypt.data + (f->incrypt.avail - InSecBuff[1].cbBuffer), InSecBuff[1].cbBuffer);
f->incrypt.avail = InSecBuff[1].cbBuffer;
}
else f->incrypt.avail = 0;
}
else if (f->handshaking == HS_STARTSERVER || f->handshaking == HS_SERVER)
{
//only if we actually have data.
if (!f->incrypt.avail)
return;
InBuffDesc.ulVersion = SECBUFFER_VERSION;
InBuffDesc.cBuffers = countof(InSecBuff);
InBuffDesc.pBuffers = InSecBuff;
i = 0;
if (f->incrypt.avail)
{
InSecBuff[i].BufferType = SECBUFFER_TOKEN;
InSecBuff[i].cbBuffer = f->incrypt.avail;
InSecBuff[i].pvBuffer = f->incrypt.data;
i++;
}
for (; i < InBuffDesc.cBuffers; i++)
{
InSecBuff[i].BufferType = SECBUFFER_EMPTY;
InSecBuff[i].pvBuffer = NULL;
InSecBuff[i].cbBuffer = 0;
}
i = 1;
OutSecBuff[i++].BufferType = SECBUFFER_EXTRA;
OutSecBuff[i++].BufferType = 17/*SECBUFFER_ALERT*/;
#define ServerMessageAttribute (ASC_REQ_SEQUENCE_DETECT | ASC_REQ_REPLAY_DETECT | ASC_REQ_CONFIDENTIALITY /*| ASC_REQ_EXTENDED_ERROR*/ | ASC_REQ_ALLOCATE_MEMORY)
ss = secur.pAcceptSecurityContext(&f->cred, (f->handshaking==HS_SERVER)?&f->sechnd:NULL, &InBuffDesc,
ServerMessageAttribute|(f->datagram?ASC_REQ_DATAGRAM:ASC_REQ_STREAM), SECURITY_NETWORK_DREP, &f->sechnd,
&OutBuffDesc, &ContextAttributes, NULL);
if (ss == SEC_E_INVALID_TOKEN)
{
// Con_Printf("SEC_E_INVALID_TOKEN\n");
if (f->datagram)
return;
}
else if (ss == SEC_E_INCOMPLETE_MESSAGE)
{
// Con_Printf("SEC_E_INCOMPLETE_MESSAGE\n");
if (!f->datagram && f->incrypt.avail == f->incrypt.datasize)
SSPI_ExpandBuffer(&f->incrypt, f->incrypt.datasize+1024);
return;
}
// else
// Con_Printf("InitializeSecurityContextA %x\n", ss);
f->handshaking = HS_SERVER;
//any extra data should still remain for the next time around. this might be more handshake data or payload data.
if (InSecBuff[1].BufferType == SECBUFFER_EXTRA)
{
memmove(f->incrypt.data, f->incrypt.data + (f->incrypt.avail - InSecBuff[1].cbBuffer), InSecBuff[1].cbBuffer);
f->incrypt.avail = InSecBuff[1].cbBuffer;
}
else f->incrypt.avail = 0;
}
else
return;
if (ss == SEC_I_INCOMPLETE_CREDENTIALS)
{
SSPI_Error(f, "server requires credentials\n");
return;
}
if (ss < 0)
{
switch(ss)
{
case SEC_E_ALGORITHM_MISMATCH: SSPI_Error(f, "InitializeSecurityContext failed: SEC_E_ALGORITHM_MISMATCH\n"); break;
case SEC_E_INVALID_HANDLE: SSPI_Error(f, "InitializeSecurityContext failed: SEC_E_INVALID_HANDLE\n"); break;
case SEC_E_ILLEGAL_MESSAGE: SSPI_Error(f, "InitializeSecurityContext failed: SEC_E_ILLEGAL_MESSAGE\n"); break;
case SEC_E_INVALID_TOKEN: SSPI_Error(f, "InitializeSecurityContext failed: SEC_E_INVALID_TOKEN\n"); break;
case SEC_E_INVALID_PARAMETER: SSPI_Error(f, "InitializeSecurityContext failed: SEC_E_INVALID_PARAMETER\n"); break;
default: SSPI_Error(f, "InitializeSecurityContext failed: %lx\n", (long)ss); break;
}
return;
}
if ((SEC_I_COMPLETE_NEEDED == ss) || (SEC_I_COMPLETE_AND_CONTINUE == ss))
{
ss = secur.pCompleteAuthToken (&f->sechnd, &OutBuffDesc);
if (ss < 0)
{
SSPI_Error(f, "CompleteAuthToken failed\n");
return;
}
}
//its all okay and established if we get this far.
if (ss == SEC_E_OK)
{
SecPkgContext_StreamSizes strsizes;
CERT_CONTEXT *remotecert;
secur.pQueryContextAttributesA(&f->sechnd, SECPKG_ATTR_STREAM_SIZES, &strsizes);
f->headersize = strsizes.cbHeader;
f->footersize = strsizes.cbTrailer;
if (f->handshaking != HS_SERVER)
{ //server takes an annonymous client. client expects a proper certificate.
if (*f->wpeername)
{
ss = secur.pQueryContextAttributesA(&f->sechnd, SECPKG_ATTR_REMOTE_CERT_CONTEXT, &remotecert);
if (ss != SEC_E_OK)
{
f->handshaking = HS_ERROR;
SSPI_Error(f, "unable to read server's certificate\n");
return;
}
if (VerifyServerCertificate(remotecert, f->wpeername, 0, f->datagram))
{
f->handshaking = HS_ERROR;
SSPI_Error(f, "Error validating certificante\n");
return;
}
}
else
Sys_Printf("SSL/TLS Server name not specified, skipping verification\n");
}
f->handshaking = HS_ESTABLISHED;
}
//send early, send often.
#ifdef HAVE_DTLS
if (f->transmit)
{
for (i = 0; i < OutBuffDesc.cBuffers; i++)
if (OutSecBuff[i].BufferType == SECBUFFER_TOKEN && OutSecBuff[i].cbBuffer)
f->transmit(f->cbctx, OutSecBuff[i].pvBuffer, OutSecBuff[i].cbBuffer);
}
else
#endif
{
i = 0;
if (SSPI_CopyIntoBuffer(&f->outcrypt, OutSecBuff[i].pvBuffer, OutSecBuff[i].cbBuffer, true) < OutSecBuff[i].cbBuffer)
{
SSPI_Error(f, "crypt overflow\n");
return;
}
SSPI_TryFlushCryptOut(f);
}
if (f->handshaking == HS_ESTABLISHED)
SSPI_Encode(f);
else if (ss == SEC_I_MESSAGE_FRAGMENT) //looks like we can connect faster if we loop when we get this result.
if (retries --> 0)
goto retry;
}
static int QDECL SSPI_ReadBytes (struct vfsfile_s *file, void *buffer, int bytestoread)
{
sslfile_t *f = (sslfile_t *)file;
int err = SSPI_CheckNewInCrypt(f);
if (f->handshaking)
{
SSPI_Handshake(f);
return err;
}
SSPI_Encode(f);
SSPI_Decode(f);
bytestoread = min(bytestoread, f->inraw.avail);
if (bytestoread)
{
memcpy(buffer, f->inraw.data, bytestoread);
f->inraw.avail -= bytestoread;
memmove(f->inraw.data, f->inraw.data + bytestoread, f->inraw.avail);
}
else
{
if (err)
return err;
}
return bytestoread;
}
static int QDECL SSPI_WriteBytes (struct vfsfile_s *file, const void *buffer, int bytestowrite)
{
sslfile_t *f = (sslfile_t *)file;
//don't endlessly accept data faster than we can push it out.
//we'll buffer a little, but don't go overboard
if (f->outcrypt.avail > 8192)
return false;
bytestowrite = SSPI_CopyIntoBuffer(&f->outraw, buffer, bytestowrite, false);
if (f->handshaking)
{
SSPI_CheckNewInCrypt(f); //make sure its ticking over
SSPI_Handshake(f);
}
else
{
SSPI_Encode(f);
}
return bytestowrite;
}
static qboolean QDECL SSPI_Seek (struct vfsfile_s *file, qofs_t pos)
{
SSPI_Error((sslfile_t*)file, "unable to seek on streams\n");
return false;
}
static qofs_t QDECL SSPI_Tell (struct vfsfile_s *file)
{
SSPI_Error((sslfile_t*)file, "unable to seek on streams\n");
return 0;
}
static qofs_t QDECL SSPI_GetLen (struct vfsfile_s *file)
{
return 0;
}
static qboolean QDECL SSPI_Close (struct vfsfile_s *file)
{
sslfile_t *f = (sslfile_t *)file;
qboolean success = f->stream != NULL;
SSPI_Error(f, "");
Z_Free(f->outraw.data);
Z_Free(f->outcrypt.data);
Z_Free(f->inraw.data);
Z_Free(f->incrypt.data);
Z_Free(f);
return success;
}
#include <wchar.h>
vfsfile_t *SSPI_OpenVFS(const char *servername, vfsfile_t *source, qboolean server)
{
sslfile_t *newf;
int i = 0;
int err;
unsigned int c;
// const char *localname;
const char *peername;
if (!source || !SSL_Inited())
return NULL;
if (server)
{
// localname = servername;
peername = "";
}
else
{
// localname = "";
peername = servername;
}
/*
if (server) //unsupported
return NULL;
*/
newf = Z_Malloc(sizeof(*newf));
while(*peername)
{
c = utf8_decode(&err, peername, (void*)&peername);
if (c > WCHAR_MAX)
err = true; //no 16bit surrogates. they're evil.
else if (i == sizeof(newf->wpeername)/sizeof(newf->wpeername[0]) - 1)
err = true; //no space to store it
else
newf->wpeername[i++] = c;
if (err)
{
Z_Free(newf);
return NULL;
}
}
newf->wpeername[i] = 0;
newf->handshaking = server?HS_STARTSERVER:HS_STARTCLIENT;
newf->stream = source;
newf->funcs.Close = SSPI_Close;
newf->funcs.Flush = NULL;
newf->funcs.GetLen = SSPI_GetLen;
newf->funcs.ReadBytes = SSPI_ReadBytes;
newf->funcs.Seek = SSPI_Seek;
newf->funcs.Tell = SSPI_Tell;
newf->funcs.WriteBytes = SSPI_WriteBytes;
newf->funcs.seekstyle = SS_UNSEEKABLE;
SSPI_ExpandBuffer(&newf->outraw, 8192);
SSPI_ExpandBuffer(&newf->outcrypt, 8192);
SSPI_ExpandBuffer(&newf->inraw, 8192);
SSPI_ExpandBuffer(&newf->incrypt, 8192);
if (server)
SSPI_GenServerCredentials(newf);
return &newf->funcs;
}
#ifndef SECPKG_ATTR_UNIQUE_BINDINGS
#define SECPKG_ATTR_UNIQUE_BINDINGS 25
typedef struct _SecPkgContext_Bindings
{
unsigned long BindingsLength;
SEC_CHANNEL_BINDINGS *Bindings;
} SecPkgContext_Bindings, *PSecPkgContext_Bindings;
#endif
int SSPI_GetChannelBinding(vfsfile_t *vf, qbyte *binddata, size_t *bindsize)
{
int ret;
sslfile_t *f = (sslfile_t*)vf;
SecPkgContext_Bindings bindings;
if (vf->Close != SSPI_Close)
return -2; //not one of ours.
bindings.BindingsLength = 0;
bindings.Bindings = NULL;
ret = 0;
switch(secur.pQueryContextAttributesA(&f->sechnd, SECPKG_ATTR_UNIQUE_BINDINGS, &bindings))
{
case SEC_E_OK:
if (bindings.Bindings->cbApplicationDataLength <= *bindsize)
{
//will contain 'tls-unique:BINARYDATA'
*bindsize = bindings.Bindings->cbApplicationDataLength-11;
memcpy(binddata, ((unsigned char*) bindings.Bindings) + bindings.Bindings->dwApplicationDataOffset+11, bindings.Bindings->cbApplicationDataLength-11);
ret = 1;
}
//FIXME: leak
//secur.pFreeContextBuffer(bindings.Bindings);
break;
case SEC_E_UNSUPPORTED_FUNCTION:
ret = -1; //schannel doesn't support it. too old an OS, I guess.
break;
default:
break;
}
return ret;
}
#include "netinc.h"
#if 0
struct fakedtls_s
{
void *cbctx;
neterr_t(*push)(void *cbctx, const qbyte *data, size_t datasize);
};
static void *FAKEDTLS_CreateContext(const char *remotehost, void *cbctx, neterr_t(*push)(void *cbctx, const qbyte *data, size_t datasize), qboolean isserver)
{
struct fakedtls_s *ctx = Z_Malloc(sizeof(*ctx));
ctx->cbctx = cbctx;
ctx->push = push;
return ctx;
}
static void FAKEDTLS_DestroyContext(void *vctx)
{
Z_Free(vctx);
}
static neterr_t FAKEDTLS_Transmit(void *vctx, const qbyte *data, size_t datasize)
{
struct fakedtls_s *ctx = vctx;
neterr_t r;
*(int*)data ^= 0xdeadbeef;
r = ctx->push(ctx->cbctx, data, datasize);
*(int*)data ^= 0xdeadbeef;
return r;
}
static neterr_t FAKEDTLS_Received(void *ctx, qbyte *data, size_t datasize)
{
*(int*)data ^= 0xdeadbeef;
return NETERR_SENT;
}
static neterr_t FAKEDTLS_Timeouts(void *ctx)
{
// fakedtls_s *f = (fakedtls_s *)ctx;
return NETERR_SENT;
}
static const dtlsfuncs_t dtlsfuncs_fakedtls =
{
FAKEDTLS_CreateContext,
FAKEDTLS_DestroyContext,
FAKEDTLS_Transmit,
FAKEDTLS_Received,
FAKEDTLS_Timeouts,
};
const dtlsfuncs_t *FAKEDTLS_InitServer(void)
{
return &dtlsfuncs_fakedtls;
}
const dtlsfuncs_t *FAKEDTLS_InitClient(void)
{
return &dtlsfuncs_fakedtls;
}
#elif defined(HAVE_DTLS)
static void *SSPI_DTLS_CreateContext(const char *remotehost, void *cbctx, neterr_t(*push)(void *cbctx, const qbyte *data, size_t datasize), qboolean isserver)
{
int i = 0;
sslfile_t *ctx;
if (!SSL_Inited())
return NULL;
ctx = Z_Malloc(sizeof(*ctx));
ctx->datagram = true;
ctx->handshaking = isserver?HS_STARTSERVER:HS_STARTCLIENT;
ctx->cbctx = cbctx;
ctx->transmit = push;
while(*remotehost)
{
int err;
int c = utf8_decode(&err, remotehost, (void*)&remotehost);
if (c > WCHAR_MAX)
err = true; //no 16bit surrogates. they're evil.
else if (i == sizeof(ctx->wpeername)/sizeof(ctx->wpeername[0]) - 1)
err = true; //no space to store it
else
ctx->wpeername[i++] = c;
if (err)
{
Z_Free(ctx);
return NULL;
}
}
ctx->wpeername[i] = 0;
SSPI_ExpandBuffer(&ctx->outraw, 8192);
SSPI_ExpandBuffer(&ctx->outcrypt, 65536);
SSPI_ExpandBuffer(&ctx->inraw, 8192);
SSPI_ExpandBuffer(&ctx->incrypt, 65536);
if (isserver)
SSPI_GenServerCredentials(ctx);
else
SSPI_Handshake(ctx); //begin the initial handshake now
return ctx;
}
static void SSPI_DTLS_DestroyContext(void *vctx)
{
SSPI_Close(vctx);
}
static neterr_t SSPI_DTLS_Transmit(void *ctx, const qbyte *data, size_t datasize)
{
int ret;
sslfile_t *f = (sslfile_t *)ctx;
//Con_Printf("DTLS_Transmit: %i\n", datasize);
//sspi likes writing over the source data. make sure nothing is hurt by copying it out first.
f->outraw.avail = 0;
SSPI_CopyIntoBuffer(&f->outraw, data, datasize, true);
if (f->handshaking)
{
SSPI_Handshake(f);
if (f->handshaking == HS_ERROR)
ret = NETERR_DISCONNECTED;
ret = NETERR_CLOGGED; //not ready yet
}
else
{
SSPI_Encode(f);
ret = NETERR_SENT;
}
return ret;
}
static neterr_t SSPI_DTLS_Received(void *ctx, qbyte *data, size_t datasize)
{
int ret;
sslfile_t *f = (sslfile_t *)ctx;
//Con_Printf("DTLS_Received: %i\n", datasize);
f->incrypt.data = data;
f->incrypt.avail = f->incrypt.datasize = datasize;
if (f->handshaking)
{
SSPI_Handshake(f);
ret = NETERR_CLOGGED; //not ready yet
if (f->handshaking == HS_ERROR)
ret = NETERR_DISCONNECTED;
}
else
{
SSPI_Decode(f);
ret = NETERR_SENT;
memcpy(net_message_buffer, f->inraw.data, f->inraw.avail);
net_message.cursize = f->inraw.avail;
f->inraw.avail = 0;
net_message_buffer[net_message.cursize] = 0;
// Con_Printf("returning %i bytes: %s\n", net_message.cursize, net_message_buffer);
}
f->incrypt.data = NULL;
return ret;
}
static neterr_t SSPI_DTLS_Timeouts(void *ctx)
{
sslfile_t *f = (sslfile_t *)ctx;
if (f->handshaking)
{
// SSPI_Handshake(f);
return NETERR_CLOGGED;
}
return NETERR_SENT;
}
static const dtlsfuncs_t dtlsfuncs_schannel =
{
SSPI_DTLS_CreateContext,
SSPI_DTLS_DestroyContext,
SSPI_DTLS_Transmit,
SSPI_DTLS_Received,
SSPI_DTLS_Timeouts,
};
const dtlsfuncs_t *SSPI_DTLS_InitServer(void)
{
//FIXME: at this point, schannel is still returning errors when I try acting as a server.
//so just block any attempt to use this as a server.
//clients don't need/get certs.
return NULL;
}
const dtlsfuncs_t *SSPI_DTLS_InitClient(void)
{
return &dtlsfuncs_schannel;
}
#endif
//#include <ntstatus.h> //windows sucks too much to actually include this. oh well.
#define STATUS_SUCCESS ((NTSTATUS)0x00000000)
#define STATUS_INVALID_SIGNATURE ((NTSTATUS)0xC000A000)
enum hashvalidation_e SSPI_VerifyHash(qbyte *hashdata, size_t hashsize, const char *authority, qbyte *signdata, size_t signsize)
{
NTSTATUS status;
BCRYPT_KEY_HANDLE pubkey;
size_t sz;
const char *pem = Auth_GetKnownCertificate(authority, &sz);
const char *pemend;
qbyte *der;
size_t dersize;
static const void *(WINAPI *pCertCreateContext) (DWORD dwContextType, DWORD dwEncodingType, const BYTE *pbEncoded, DWORD cbEncoded, DWORD dwFlags, PCERT_CREATE_CONTEXT_PARA pCreatePara);
static BOOL (WINAPI *pCryptImportPublicKeyInfoEx2) (DWORD dwCertEncodingType, PCERT_PUBLIC_KEY_INFO pInfo, DWORD dwFlags, void *pvAuxInfo, BCRYPT_KEY_HANDLE *phKey);
static BOOL (WINAPI *pCertFreeCertificateContext) (PCCERT_CONTEXT pCertContext);
static dllhandle_t *crypt32;
static dllfunction_t crypt32funcs[] = {
{(void**)&pCertCreateContext, "CertCreateContext"},
{(void**)&pCryptImportPublicKeyInfoEx2, "CryptImportPublicKeyInfoEx2"}, //WARNING: fails on wine.
{(void**)&pCertFreeCertificateContext, "CertFreeCertificateContext"},
{NULL,NULL}
};
static NTSTATUS (WINAPI *pBCryptVerifySignature) (BCRYPT_KEY_HANDLE hKey, VOID *pPaddingInfo, PUCHAR pbHash, ULONG cbHash, PUCHAR pbSignature, ULONG cbSignature, ULONG dwFlags);
static NTSTATUS (WINAPI *pBCryptDestroyKey) (BCRYPT_KEY_HANDLE hKey);
static dllhandle_t *bcrypt;
static dllfunction_t bcryptfuncs[] = {
{(void**)&pBCryptVerifySignature, "BCryptVerifySignature"},
{(void**)&pBCryptDestroyKey, "BCryptDestroyKey"},
{NULL,NULL}
};
if (!crypt32)
crypt32 = Sys_LoadLibrary("crypt32.dll", crypt32funcs);
if (!bcrypt)
bcrypt = Sys_LoadLibrary("bcrypt.dll", bcryptfuncs);
if (!crypt32 || !bcrypt)
{
Con_Printf("Unable to obtain required crypto functions\n");
return VH_UNSUPPORTED;
}
if (!pem)
return VH_AUTHORITY_UNKNOWN; //no public cert/key for authority.
pem = strstr(pem, "-----BEGIN CERTIFICATE-----");
if (!pem)
return VH_UNSUPPORTED; //not a pem
pem += strlen("-----BEGIN CERTIFICATE-----");
pemend = strstr(pem, "-----END CERTIFICATE-----");
if (!pemend)
return VH_UNSUPPORTED;
dersize = Base64_DecodeBlock(pem, pemend, NULL, 0); //guess
der = alloca(dersize);
dersize = Base64_DecodeBlock(pem, pemend, der, dersize);
//okay, now its in binary der format.
//make sense of the cert and pull out its public key...
{
const CERT_CONTEXT* cert = pCertCreateContext(CERT_STORE_CERTIFICATE_CONTEXT, X509_ASN_ENCODING, der, dersize, 0, NULL);
if (!pCryptImportPublicKeyInfoEx2(X509_ASN_ENCODING, &cert->pCertInfo->SubjectPublicKeyInfo, 0, NULL, &pubkey))
return VH_UNSUPPORTED;
pCertFreeCertificateContext(cert);
}
//yay, now we can do what we actually wanted in the first place.
status = pBCryptVerifySignature(pubkey, NULL, hashdata, hashsize, signdata, signsize, 0);
pBCryptDestroyKey(pubkey);
if (status == STATUS_SUCCESS)
return VH_CORRECT; //its okay
else if (status == STATUS_INVALID_SIGNATURE)
return VH_INCORRECT; //its bad
return VH_UNSUPPORTED; //some weird transient error...?
}
#endif
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