diff --git a/thirdparty/vschannel/vschannel.c b/thirdparty/vschannel/vschannel.c index b3d496f422..8af5d55e43 100644 --- a/thirdparty/vschannel/vschannel.c +++ b/thirdparty/vschannel/vschannel.c @@ -1,9 +1,5 @@ #include - -// TODO: joe-c -// create context struct instead of using global - // Proxy CHAR * psz_proxy_server = "proxy"; INT i_proxy_port = 80; @@ -14,34 +10,36 @@ BOOL use_proxy = FALSE; DWORD protocol = 0; ALG_ID aid_key_exch = 0; -// Cred store -HCERTSTORE cert_store = NULL; -SCHANNEL_CRED schannel_cred; - -// Loaded sec lib -HMODULE g_hsecurity = NULL; - -// SSPI -PSecurityFunctionTable sspi; struct TlsContext tls_ctx; - +// TODO: joe-c +// socket / tls ctx struct TlsContext { - SOCKET Socket; - WSADATA WsaData; - CredHandle hClientCreds; - CtxtHandle hContext; - BOOL fCredsInitialized; - BOOL fContextInitialized; - PCCERT_CONTEXT pRemoteCertContext; + // SSPI + PSecurityFunctionTable sspi; + // Cred store + HCERTSTORE cert_store; + SCHANNEL_CRED schannel_cred; + // Loaded sec lib + HMODULE g_hsecurity; + // Socket + SOCKET socket; + WSADATA wsa_data; + CredHandle h_client_creds; + CtxtHandle h_context; + BOOL creds_initialized; + BOOL context_initialized; + PCCERT_CONTEXT p_pemote_cert_context; }; struct TlsContext new_tls_context() { return (struct TlsContext) { - .Socket = INVALID_SOCKET, - .fCredsInitialized = FALSE, - .fContextInitialized = FALSE, - .pRemoteCertContext = NULL + .cert_store = NULL, + .g_hsecurity = NULL, + .socket = INVALID_SOCKET, + .creds_initialized = FALSE, + .context_initialized = FALSE, + .p_pemote_cert_context = NULL }; }; @@ -49,22 +47,22 @@ BOOL load_security_library(void) { INIT_SECURITY_INTERFACE pInitSecurityInterface; // Load Security DLL - g_hsecurity = LoadLibraryA("schannel.dll"); - if(g_hsecurity == NULL) { + tls_ctx.g_hsecurity = LoadLibraryA("schannel.dll"); + if(tls_ctx.g_hsecurity == NULL) { printf("Error 0x%x loading %s.\n", GetLastError(), "schannel.dll"); return FALSE; } - pInitSecurityInterface = (INIT_SECURITY_INTERFACE)GetProcAddress(g_hsecurity, "InitSecurityInterfaceA"); + pInitSecurityInterface = (INIT_SECURITY_INTERFACE)GetProcAddress(tls_ctx.g_hsecurity, "InitSecurityInterfaceA"); if(pInitSecurityInterface == NULL) { printf("Error 0x%x reading InitSecurityInterface entry point.\n", GetLastError()); return FALSE; } - sspi = pInitSecurityInterface(); + tls_ctx.sspi = pInitSecurityInterface(); - if(sspi == NULL) { + if(tls_ctx.sspi == NULL) { printf("Error 0x%x reading security interface.\n", GetLastError()); return FALSE; @@ -74,40 +72,40 @@ BOOL load_security_library(void) { } void unload_security_library(void) { - FreeLibrary(g_hsecurity); - g_hsecurity = NULL; + FreeLibrary(tls_ctx.g_hsecurity); + tls_ctx.g_hsecurity = NULL; } void vschannel_cleanup() { // Free the server certificate context. - if(tls_ctx.pRemoteCertContext) { - CertFreeCertificateContext(tls_ctx.pRemoteCertContext); - tls_ctx.pRemoteCertContext = NULL; + if(tls_ctx.p_pemote_cert_context) { + CertFreeCertificateContext(tls_ctx.p_pemote_cert_context); + tls_ctx.p_pemote_cert_context = NULL; } // Free SSPI context handle. - if(tls_ctx.fContextInitialized) { - sspi->DeleteSecurityContext(&tls_ctx.hContext); - tls_ctx.fContextInitialized = FALSE; + if(tls_ctx.context_initialized) { + tls_ctx.sspi->DeleteSecurityContext(&tls_ctx.h_context); + tls_ctx.context_initialized = FALSE; } // Free SSPI credentials handle. - if(tls_ctx.fCredsInitialized) { - sspi->FreeCredentialsHandle(&tls_ctx.hClientCreds); - tls_ctx.fCredsInitialized = FALSE; + if(tls_ctx.creds_initialized) { + tls_ctx.sspi->FreeCredentialsHandle(&tls_ctx.h_client_creds); + tls_ctx.creds_initialized = FALSE; } // Close socket. - if(tls_ctx.Socket != INVALID_SOCKET) { - closesocket(tls_ctx.Socket); + if(tls_ctx.socket != INVALID_SOCKET) { + closesocket(tls_ctx.socket); } // Shutdown WinSock subsystem. WSACleanup(); // Close "MY" certificate store. - if(cert_store) { - CertCloseStore(cert_store, 0); + if(tls_ctx.cert_store) { + CertCloseStore(tls_ctx.cert_store, 0); } unload_security_library(); @@ -122,17 +120,17 @@ void vschannel_init() { } // Initialize the WinSock subsystem. - if(WSAStartup(0x0101, &tls_ctx.WsaData) == SOCKET_ERROR) { + if(WSAStartup(0x0101, &tls_ctx.wsa_data) == SOCKET_ERROR) { printf("Error %d returned by WSAStartup\n", GetLastError()); vschannel_cleanup(); } // Create credentials. - if(create_credentials(&tls_ctx.hClientCreds)) { + if(create_credentials()) { printf("Error creating credentials\n"); vschannel_cleanup(); } - tls_ctx.fCredsInitialized = TRUE; + tls_ctx.creds_initialized = TRUE; } INT request(CHAR *host, CHAR *req, CHAR *out) @@ -149,26 +147,26 @@ INT request(CHAR *host, CHAR *req, CHAR *out) protocol = SP_PROT_TLS1_2_CLIENT; // Connect to server. - if(connect_to_server(host, port_number, &tls_ctx.Socket)) { + if(connect_to_server(host, port_number)) { printf("Error connecting to server\n"); vschannel_cleanup(); return resp_length; } // Perform handshake - if(perform_client_handshake(tls_ctx.Socket, &tls_ctx.hClientCreds, host, &tls_ctx.hContext, &ExtraData)) { + if(perform_client_handshake(host, &ExtraData)) { printf("Error performing handshake\n"); vschannel_cleanup(); return resp_length; } - tls_ctx.fContextInitialized = TRUE; + tls_ctx.context_initialized = TRUE; // Authenticate server's credentials. // Get server's certificate. - Status = sspi->QueryContextAttributes(&tls_ctx.hContext, + Status = tls_ctx.sspi->QueryContextAttributes(&tls_ctx.h_context, SECPKG_ATTR_REMOTE_CERT_CONTEXT, - (PVOID)&tls_ctx.pRemoteCertContext); + (PVOID)&tls_ctx.p_pemote_cert_context); if(Status != SEC_E_OK) { printf("Error 0x%x querying remote certificate\n", Status); vschannel_cleanup(); @@ -176,7 +174,7 @@ INT request(CHAR *host, CHAR *req, CHAR *out) } // Attempt to validate server certificate. - Status = verify_server_certificate(tls_ctx.pRemoteCertContext, host,0); + Status = verify_server_certificate(tls_ctx.p_pemote_cert_context, host,0); if(Status) { // The server certificate did not validate correctly. At this // point, we cannot tell if we are connecting to the correct @@ -191,11 +189,11 @@ INT request(CHAR *host, CHAR *req, CHAR *out) } // Free the server certificate context. - CertFreeCertificateContext(tls_ctx.pRemoteCertContext); - tls_ctx.pRemoteCertContext = NULL; + CertFreeCertificateContext(tls_ctx.p_pemote_cert_context); + tls_ctx.p_pemote_cert_context = NULL; // Request from server - if(https_make_request(tls_ctx.Socket, &tls_ctx.hClientCreds, &tls_ctx.hContext, req, out, &resp_length)) { + if(https_make_request(req, out, &resp_length)) { vschannel_cleanup(); return resp_length; } @@ -203,19 +201,19 @@ INT request(CHAR *host, CHAR *req, CHAR *out) // Send a close_notify alert to the server and // close down the connection. - if(disconnect_from_server(tls_ctx.Socket, &tls_ctx.hClientCreds, &tls_ctx.hContext)) { + if(disconnect_from_server()) { printf("Error disconnecting from server\n"); vschannel_cleanup(); return resp_length; } - tls_ctx.fContextInitialized = FALSE; - tls_ctx.Socket = INVALID_SOCKET; + tls_ctx.context_initialized = FALSE; + tls_ctx.socket = INVALID_SOCKET; return resp_length; } -static SECURITY_STATUS create_credentials(PCredHandle phCreds) { +static SECURITY_STATUS create_credentials() { TimeStamp tsExpiry; SECURITY_STATUS Status; @@ -226,10 +224,10 @@ static SECURITY_STATUS create_credentials(PCredHandle phCreds) { // Open the "MY" certificate store, which is where Internet Explorer // stores its client certificates. - if(cert_store == NULL) { - cert_store = CertOpenSystemStore(0, "MY"); + if(tls_ctx.cert_store == NULL) { + tls_ctx.cert_store = CertOpenSystemStore(0, "MY"); - if(!cert_store) { + if(!tls_ctx.cert_store) { printf("Error 0x%x returned by CertOpenSystemStore\n", GetLastError()); return SEC_E_NO_CREDENTIALS; @@ -241,16 +239,16 @@ static SECURITY_STATUS create_credentials(PCredHandle phCreds) { // of course). Real applications may wish to specify other parameters // as well. - ZeroMemory(&schannel_cred, sizeof(schannel_cred)); + ZeroMemory(&tls_ctx.schannel_cred, sizeof(tls_ctx.schannel_cred)); - schannel_cred.dwVersion = SCHANNEL_CRED_VERSION; + tls_ctx.schannel_cred.dwVersion = SCHANNEL_CRED_VERSION; if(pCertContext) { - schannel_cred.cCreds = 1; - schannel_cred.paCred = &pCertContext; + tls_ctx.schannel_cred.cCreds = 1; + tls_ctx.schannel_cred.paCred = &pCertContext; } - schannel_cred.grbitEnabledProtocols = protocol; + tls_ctx.schannel_cred.grbitEnabledProtocols = protocol; if(aid_key_exch) { @@ -259,11 +257,11 @@ static SECURITY_STATUS create_credentials(PCredHandle phCreds) { if(cSupportedAlgs) { - schannel_cred.cSupportedAlgs = cSupportedAlgs; - schannel_cred.palgSupportedAlgs = rgbSupportedAlgs; + tls_ctx.schannel_cred.cSupportedAlgs = cSupportedAlgs; + tls_ctx.schannel_cred.palgSupportedAlgs = rgbSupportedAlgs; } - schannel_cred.dwFlags |= SCH_CRED_NO_DEFAULT_CREDS; + tls_ctx.schannel_cred.dwFlags |= SCH_CRED_NO_DEFAULT_CREDS; // The SCH_CRED_MANUAL_CRED_VALIDATION flag is specified because // this sample verifies the server certificate manually. @@ -272,19 +270,19 @@ static SECURITY_STATUS create_credentials(PCredHandle phCreds) { // certificate. Applications running on newer versions of Windows can // leave off this flag, in which case the InitializeSecurityContext // function will validate the server certificate automatically. - // schannel_cred.dwFlags |= SCH_CRED_MANUAL_CRED_VALIDATION; + // tls_ctx.schannel_cred.dwFlags |= SCH_CRED_MANUAL_CRED_VALIDATION; // Create an SSPI credential. - Status = sspi->AcquireCredentialsHandle( + Status = tls_ctx.sspi->AcquireCredentialsHandle( NULL, // Name of principal UNISP_NAME_A, // Name of package SECPKG_CRED_OUTBOUND, // Flags indicating use NULL, // Pointer to logon ID - &schannel_cred, // Package specific data + &tls_ctx.schannel_cred, // Package specific data NULL, // Pointer to GetKey() func NULL, // Value to pass to GetKey() - phCreds, // (out) Cred Handle + &tls_ctx.h_client_creds, // (out) Cred Handle &tsExpiry); // (out) Lifetime (optional) if(Status != SEC_E_OK) { printf("Error 0x%x returned by AcquireCredentialsHandle\n", Status); @@ -304,7 +302,7 @@ cleanup: } -static INT connect_to_server( CHAR *host, INT port_number, SOCKET *pSocket) { +static INT connect_to_server(CHAR *host, INT port_number) { SOCKET Socket; struct sockaddr_in sin; struct hostent *hp; @@ -381,13 +379,13 @@ static INT connect_to_server( CHAR *host, INT port_number, SOCKET *pSocket) { // should continue to receive until CR LF CR LF is received } - *pSocket = Socket; + tls_ctx.socket = Socket; return SEC_E_OK; } -static LONG disconnect_from_server(SOCKET Socket, PCredHandle phCreds, CtxtHandle *phContext) { +static LONG disconnect_from_server() { DWORD dwType; PBYTE pbMessage; DWORD cbMessage; @@ -412,7 +410,7 @@ static LONG disconnect_from_server(SOCKET Socket, PCredHandle phCreds, CtxtHandl OutBuffer.pBuffers = OutBuffers; OutBuffer.ulVersion = SECBUFFER_VERSION; - Status = sspi->ApplyControlToken(phContext, &OutBuffer); + Status = tls_ctx.sspi->ApplyControlToken(&tls_ctx.h_context, &OutBuffer); if(FAILED(Status)) { printf("Error 0x%x returned by ApplyControlToken\n", Status); @@ -436,9 +434,9 @@ static LONG disconnect_from_server(SOCKET Socket, PCredHandle phCreds, CtxtHandl OutBuffer.pBuffers = OutBuffers; OutBuffer.ulVersion = SECBUFFER_VERSION; - Status = sspi->InitializeSecurityContext( - phCreds, phContext, NULL, dwSSPIFlags, 0, SECURITY_NATIVE_DREP, - NULL, 0, phContext, &OutBuffer, &dwSSPIOutFlags, &tsExpiry); + Status = tls_ctx.sspi->InitializeSecurityContext( + &tls_ctx.h_client_creds, &tls_ctx.h_context, NULL, dwSSPIFlags, 0, SECURITY_NATIVE_DREP, + NULL, 0, &tls_ctx.h_context, &OutBuffer, &dwSSPIOutFlags, &tsExpiry); if(FAILED(Status)) { printf("Error 0x%x returned by InitializeSecurityContext\n", Status); @@ -451,7 +449,7 @@ static LONG disconnect_from_server(SOCKET Socket, PCredHandle phCreds, CtxtHandl // Send the close notify message to the server. if(pbMessage != NULL && cbMessage != 0) { - cbData = send(Socket, pbMessage, cbMessage, 0); + cbData = send(tls_ctx.socket, pbMessage, cbMessage, 0); if(cbData == SOCKET_ERROR || cbData == 0) { Status = WSAGetLastError(); printf("Error %d sending close notify\n", Status); @@ -459,31 +457,23 @@ static LONG disconnect_from_server(SOCKET Socket, PCredHandle phCreds, CtxtHandl } // Free output buffer. - sspi->FreeContextBuffer(pbMessage); + tls_ctx.sspi->FreeContextBuffer(pbMessage); } cleanup: // Free the security context. - sspi->DeleteSecurityContext(phContext); + tls_ctx.sspi->DeleteSecurityContext(&tls_ctx.h_context); // Close the socket. - closesocket(Socket); + closesocket(tls_ctx.socket); return Status; } -static -SECURITY_STATUS -perform_client_handshake( - SOCKET Socket, // in - PCredHandle phCreds, // in - CHAR * host, // in - CtxtHandle * phContext, // out - SecBuffer * pExtraData) // out -{ +static SECURITY_STATUS perform_client_handshake(CHAR *host, SecBuffer *pExtraData) { SecBufferDesc OutBuffer; SecBuffer OutBuffers[1]; DWORD dwSSPIFlags; @@ -511,8 +501,8 @@ perform_client_handshake( OutBuffer.pBuffers = OutBuffers; OutBuffer.ulVersion = SECBUFFER_VERSION; - scRet = sspi->InitializeSecurityContext( - phCreds, + scRet = tls_ctx.sspi->InitializeSecurityContext( + &tls_ctx.h_client_creds, NULL, host, dwSSPIFlags, @@ -520,7 +510,7 @@ perform_client_handshake( SECURITY_NATIVE_DREP, NULL, 0, - phContext, + &tls_ctx.h_context, &OutBuffer, &dwSSPIOutFlags, &tsExpiry); @@ -534,30 +524,24 @@ perform_client_handshake( // Send response to server if there is one. if(OutBuffers[0].cbBuffer != 0 && OutBuffers[0].pvBuffer != NULL) { - cbData = send(Socket, OutBuffers[0].pvBuffer, OutBuffers[0].cbBuffer, 0); + cbData = send(tls_ctx.socket, OutBuffers[0].pvBuffer, OutBuffers[0].cbBuffer, 0); if(cbData == SOCKET_ERROR || cbData == 0) { printf("Error %d sending data to server (1)\n", WSAGetLastError()); - sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); - sspi->DeleteSecurityContext(phContext); + tls_ctx.sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); + tls_ctx.sspi->DeleteSecurityContext(&tls_ctx.h_context); return SEC_E_INTERNAL_ERROR; } // Free output buffer. - sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); + tls_ctx.sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); OutBuffers[0].pvBuffer = NULL; } - return client_handshake_loop(Socket, phCreds, phContext, TRUE, pExtraData); + return client_handshake_loop(TRUE, pExtraData); } -static SECURITY_STATUS client_handshake_loop( - SOCKET Socket, // in - PCredHandle phCreds, // in - CtxtHandle * phContext, // in, out - BOOL fDoInitialRead, // in - SecBuffer * pExtraData) // out -{ +static SECURITY_STATUS client_handshake_loop(BOOL fDoInitialRead, SecBuffer *pExtraData) { SecBufferDesc InBuffer; SecBuffer InBuffers[2]; SecBufferDesc OutBuffer; @@ -608,7 +592,7 @@ static SECURITY_STATUS client_handshake_loop( // Read data from server. if(0 == cbIoBuffer || scRet == SEC_E_INCOMPLETE_MESSAGE) { if(fDoRead) { - cbData = recv(Socket, + cbData = recv(tls_ctx.socket, IoBuffer + cbIoBuffer, IO_BUFFER_SIZE - cbIoBuffer, 0); @@ -661,8 +645,8 @@ static SECURITY_STATUS client_handshake_loop( // Call InitializeSecurityContext. - scRet = sspi->InitializeSecurityContext( - phCreds, phContext, NULL, dwSSPIFlags, 0, SECURITY_NATIVE_DREP, + scRet = tls_ctx.sspi->InitializeSecurityContext( + &tls_ctx.h_client_creds, &tls_ctx.h_context, NULL, dwSSPIFlags, 0, SECURITY_NATIVE_DREP, &InBuffer, 0, NULL, &OutBuffer, &dwSSPIOutFlags, &tsExpiry); // If InitializeSecurityContext was successful (or if the error was @@ -673,20 +657,20 @@ static SECURITY_STATUS client_handshake_loop( scRet == SEC_I_CONTINUE_NEEDED || FAILED(scRet) && (dwSSPIOutFlags & ISC_RET_EXTENDED_ERROR)) { if(OutBuffers[0].cbBuffer != 0 && OutBuffers[0].pvBuffer != NULL) { - cbData = send(Socket, + cbData = send(tls_ctx.socket, OutBuffers[0].pvBuffer, OutBuffers[0].cbBuffer, 0); if(cbData == SOCKET_ERROR || cbData == 0) { printf("Error %d sending data to server (2)\n", WSAGetLastError()); - sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); - sspi->DeleteSecurityContext(phContext); + tls_ctx.sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); + tls_ctx.sspi->DeleteSecurityContext(&tls_ctx.h_context); return SEC_E_INTERNAL_ERROR; } // Free output buffer. - sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); + tls_ctx.sspi->FreeContextBuffer(OutBuffers[0].pvBuffer); OutBuffers[0].pvBuffer = NULL; } } @@ -753,7 +737,7 @@ static SECURITY_STATUS client_handshake_loop( // we will attempt to connect anonymously (using our current // credentials). - get_new_client_credentials(phCreds, phContext); + get_new_client_credentials(); // Go around again. fDoRead = FALSE; @@ -778,7 +762,7 @@ static SECURITY_STATUS client_handshake_loop( // Delete the security context in the case of a fatal error. if(FAILED(scRet)) { - sspi->DeleteSecurityContext(phContext); + tls_ctx.sspi->DeleteSecurityContext(&tls_ctx.h_context); } LocalFree(IoBuffer); @@ -787,7 +771,7 @@ static SECURITY_STATUS client_handshake_loop( } -static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, CtxtHandle *phContext, CHAR *req, CHAR *out, int *length) { +static SECURITY_STATUS https_make_request(CHAR *req, CHAR *out, int *length) { SecPkgContext_StreamSizes Sizes; SECURITY_STATUS scRet; SecBufferDesc Message; @@ -807,7 +791,7 @@ static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, Ct // Read stream encryption properties. - scRet = sspi->QueryContextAttributes(phContext, SECPKG_ATTR_STREAM_SIZES, &Sizes); + scRet = tls_ctx.sspi->QueryContextAttributes(&tls_ctx.h_context, SECPKG_ATTR_STREAM_SIZES, &Sizes); if(scRet != SEC_E_OK) { printf("Error 0x%x reading SECPKG_ATTR_STREAM_SIZES\n", scRet); return scRet; @@ -857,7 +841,7 @@ static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, Ct Message.cBuffers = 4; Message.pBuffers = Buffers; - scRet = sspi->EncryptMessage(phContext, 0, &Message, 0); + scRet = tls_ctx.sspi->EncryptMessage(&tls_ctx.h_context, 0, &Message, 0); if(FAILED(scRet)) { printf("Error 0x%x returned by EncryptMessage\n", scRet); @@ -865,10 +849,10 @@ static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, Ct } // Send the encrypted data to the server. - cbData = send(Socket, pbIoBuffer, Buffers[0].cbBuffer + Buffers[1].cbBuffer + Buffers[2].cbBuffer, 0); + cbData = send(tls_ctx.socket, pbIoBuffer, Buffers[0].cbBuffer + Buffers[1].cbBuffer + Buffers[2].cbBuffer, 0); if(cbData == SOCKET_ERROR || cbData == 0) { printf("Error %d sending data to server (3)\n", WSAGetLastError()); - sspi->DeleteSecurityContext(phContext); + tls_ctx.sspi->DeleteSecurityContext(&tls_ctx.h_context); return SEC_E_INTERNAL_ERROR; } @@ -877,7 +861,7 @@ static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, Ct while(TRUE){ // Read some data. if(0 == cbIoBuffer || scRet == SEC_E_INCOMPLETE_MESSAGE) { - cbData = recv(Socket, pbIoBuffer + cbIoBuffer, cbIoBufferLength - cbIoBuffer, 0); + cbData = recv(tls_ctx.socket, pbIoBuffer + cbIoBuffer, cbIoBufferLength - cbIoBuffer, 0); if(cbData == SOCKET_ERROR) { printf("Error %d reading data from server\n", WSAGetLastError()); scRet = SEC_E_INTERNAL_ERROR; @@ -912,7 +896,7 @@ static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, Ct Message.cBuffers = 4; Message.pBuffers = Buffers; - scRet = sspi->DecryptMessage(phContext, &Message, 0, NULL); + scRet = tls_ctx.sspi->DecryptMessage(&tls_ctx.h_context, &Message, 0, NULL); if(scRet == SEC_E_INCOMPLETE_MESSAGE) { // The input buffer contains only a fragment of an @@ -966,7 +950,7 @@ static SECURITY_STATUS https_make_request(SOCKET Socket, PCredHandle phCreds, Ct if(scRet == SEC_I_RENEGOTIATE) { // The server wants to perform another handshake sequence. - scRet = client_handshake_loop(Socket, phCreds, phContext, FALSE, &ExtraBuffer); + scRet = client_handshake_loop(FALSE, &ExtraBuffer); if(scRet != SEC_E_OK) { return scRet; } @@ -1082,7 +1066,7 @@ cleanup: } -static void get_new_client_credentials(CredHandle *phCreds, CtxtHandle *phContext) { +static void get_new_client_credentials() { CredHandle hCreds; SecPkgContext_IssuerListInfoEx IssuerListInfo; PCCERT_CHAIN_CONTEXT pChainContext; @@ -1092,7 +1076,7 @@ static void get_new_client_credentials(CredHandle *phCreds, CtxtHandle *phContex SECURITY_STATUS Status; // Read list of trusted issuers from schannel. - Status = sspi->QueryContextAttributes(phContext, SECPKG_ATTR_ISSUER_LIST_EX, (PVOID)&IssuerListInfo); + Status = tls_ctx.sspi->QueryContextAttributes(&tls_ctx.h_context, SECPKG_ATTR_ISSUER_LIST_EX, (PVOID)&IssuerListInfo); if(Status != SEC_E_OK) { printf("Error 0x%x querying issuer list info\n", Status); return; @@ -1112,7 +1096,7 @@ static void get_new_client_credentials(CredHandle *phCreds, CtxtHandle *phContex while(TRUE) { // Find a certificate chain. - pChainContext = CertFindChainInStore(cert_store, + pChainContext = CertFindChainInStore(tls_ctx.cert_store, X509_ASN_ENCODING, 0, CERT_CHAIN_FIND_BY_ISSUER, @@ -1127,16 +1111,16 @@ static void get_new_client_credentials(CredHandle *phCreds, CtxtHandle *phContex pCertContext = pChainContext->rgpChain[0]->rgpElement[0]->pCertContext; // Create schannel credential. - schannel_cred.dwVersion = SCHANNEL_CRED_VERSION; - schannel_cred.cCreds = 1; - schannel_cred.paCred = &pCertContext; + tls_ctx.schannel_cred.dwVersion = SCHANNEL_CRED_VERSION; + tls_ctx.schannel_cred.cCreds = 1; + tls_ctx.schannel_cred.paCred = &pCertContext; - Status = sspi->AcquireCredentialsHandle( + Status = tls_ctx.sspi->AcquireCredentialsHandle( NULL, // Name of principal UNISP_NAME_A, // Name of package SECPKG_CRED_OUTBOUND, // Flags indicating use NULL, // Pointer to logon ID - &schannel_cred, // Package specific data + &tls_ctx.schannel_cred, // Package specific data NULL, // Pointer to GetKey() func NULL, // Value to pass to GetKey() &hCreds, // (out) Cred Handle @@ -1147,9 +1131,9 @@ static void get_new_client_credentials(CredHandle *phCreds, CtxtHandle *phContex } // Destroy the old credentials. - sspi->FreeCredentialsHandle(phCreds); + tls_ctx.sspi->FreeCredentialsHandle(&tls_ctx.h_client_creds); - *phCreds = hCreds; + tls_ctx.h_client_creds = hCreds; // // As you can see, this sample code maintains a single credential diff --git a/thirdparty/vschannel/vschannel.h b/thirdparty/vschannel/vschannel.h index 3faf2bae0c..782d40c37a 100644 --- a/thirdparty/vschannel/vschannel.h +++ b/thirdparty/vschannel/vschannel.h @@ -27,26 +27,22 @@ static void vschannel_cleanup(); static INT request(CHAR *host, CHAR *req, CHAR *out); -static SECURITY_STATUS create_credentials(PCredHandle phCreds); +static SECURITY_STATUS https_make_request( + CHAR *req, CHAR *out, int *length); -static INT connect_to_server(CHAR *host, INT port_number, SOCKET *pSocket); +static INT connect_to_server(CHAR *host, INT port_number); + +static LONG disconnect_from_server(); static SECURITY_STATUS perform_client_handshake( - SOCKET Socket, PCredHandle phCreds, CHAR *host, - CtxtHandle *phContext, SecBuffer *pExtraData); + CHAR *host, SecBuffer *pExtraData); static SECURITY_STATUS client_handshake_loop( - SOCKET Socket, PCredHandle phCreds, CtxtHandle *phContext, BOOL fDoInitialRead, SecBuffer *pExtraData); -static SECURITY_STATUS https_make_request( - SOCKET Socket, PCredHandle phCreds, - CtxtHandle *phContext, CHAR *req, CHAR *out, int *length); - static DWORD verify_server_certificate( PCCERT_CONTEXT pServerCert, PSTR host, DWORD dwCertFlags); -static LONG disconnect_from_server( - SOCKET Socket, PCredHandle phCreds, CtxtHandle *phContext); +static SECURITY_STATUS create_credentials(); -static void get_new_client_credentials(CredHandle *phCreds, CtxtHandle *phContext); \ No newline at end of file +static void get_new_client_credentials(); \ No newline at end of file