/* * Miscellaneous secur32 tests * * Copyright 2005, 2006 Kai Blin * Copyright 2006 Dmitry Timoshkov * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #define SECURITY_WIN32 #include #include #include #include #include #include #include "wine/test.h" static HMODULE secdll; static PSecurityFunctionTableA (SEC_ENTRY * pInitSecurityInterfaceA)(void); static SECURITY_STATUS (SEC_ENTRY * pEnumerateSecurityPackagesA)(PULONG, PSecPkgInfoA*); static SECURITY_STATUS (SEC_ENTRY * pFreeContextBuffer)(PVOID pv); static SECURITY_STATUS (SEC_ENTRY * pQuerySecurityPackageInfoA)(SEC_CHAR*, PSecPkgInfoA*); static SECURITY_STATUS (SEC_ENTRY * pAcquireCredentialsHandleA)(SEC_CHAR*, SEC_CHAR*, ULONG, PLUID, PVOID, SEC_GET_KEY_FN, PVOID, PCredHandle, PTimeStamp); static SECURITY_STATUS (SEC_ENTRY * pInitializeSecurityContextA)(PCredHandle, PCtxtHandle, SEC_CHAR*, ULONG, ULONG, ULONG, PSecBufferDesc, ULONG, PCtxtHandle, PSecBufferDesc, PULONG, PTimeStamp); static SECURITY_STATUS (SEC_ENTRY * pCompleteAuthToken)(PCtxtHandle, PSecBufferDesc); static SECURITY_STATUS (SEC_ENTRY * pAcceptSecurityContext)(PCredHandle, PCtxtHandle, PSecBufferDesc, ULONG, ULONG, PCtxtHandle, PSecBufferDesc, PULONG, PTimeStamp); static SECURITY_STATUS (SEC_ENTRY * pFreeCredentialsHandle)(PCredHandle); static SECURITY_STATUS (SEC_ENTRY * pDeleteSecurityContext)(PCtxtHandle); typedef struct _SspiData { PCredHandle cred; PCtxtHandle ctxt; PSecBufferDesc in_buf; PSecBufferDesc out_buf; PSEC_WINNT_AUTH_IDENTITY id; ULONG max_token; } SspiData; /* Forward declare some functions to avoid moving around the code */ SECURITY_STATUS setupBuffers(SspiData *sspi_data, SecPkgInfoA *sec_pkg_info); void cleanupBuffers(SspiData *sspi_data); void InitFunctionPtrs(void) { secdll = LoadLibraryA("secur32.dll"); if(!secdll) secdll = LoadLibraryA("security.dll"); if(secdll) { pInitSecurityInterfaceA = (PVOID)GetProcAddress(secdll, "InitSecurityInterfaceA"); pEnumerateSecurityPackagesA = (PVOID)GetProcAddress(secdll, "EnumerateSecurityPackagesA"); pFreeContextBuffer = (PVOID)GetProcAddress(secdll, "FreeContextBuffer"); pQuerySecurityPackageInfoA = (PVOID)GetProcAddress(secdll, "QuerySecurityPackageInfoA"); pAcquireCredentialsHandleA = (PVOID)GetProcAddress(secdll, "AcquireCredentialsHandleA"); pInitializeSecurityContextA = (PVOID)GetProcAddress(secdll, "InitializeSecurityContextA"); pCompleteAuthToken = (PVOID)GetProcAddress(secdll, "CompleteAuthToken"); pAcceptSecurityContext = (PVOID)GetProcAddress(secdll, "AcceptSecurityContext"); pFreeCredentialsHandle = (PVOID)GetProcAddress(secdll, "FreeCredentialsHandle"); pDeleteSecurityContext = (PVOID)GetProcAddress(secdll, "DeleteSecurityContext"); } } /*---------------------------------------------------------*/ /* General helper functions */ static const char* getSecError(SECURITY_STATUS status) { static char buf[20]; #define _SEC_ERR(x) case (x): return #x; switch(status) { _SEC_ERR(SEC_E_OK); _SEC_ERR(SEC_E_INSUFFICIENT_MEMORY); _SEC_ERR(SEC_E_INVALID_HANDLE); _SEC_ERR(SEC_E_UNSUPPORTED_FUNCTION); _SEC_ERR(SEC_E_TARGET_UNKNOWN); _SEC_ERR(SEC_E_INTERNAL_ERROR); _SEC_ERR(SEC_E_SECPKG_NOT_FOUND); _SEC_ERR(SEC_E_NOT_OWNER); _SEC_ERR(SEC_E_CANNOT_INSTALL); _SEC_ERR(SEC_E_INVALID_TOKEN); _SEC_ERR(SEC_E_CANNOT_PACK); _SEC_ERR(SEC_E_QOP_NOT_SUPPORTED); _SEC_ERR(SEC_E_NO_IMPERSONATION); _SEC_ERR(SEC_I_CONTINUE_NEEDED); _SEC_ERR(SEC_E_BUFFER_TOO_SMALL); _SEC_ERR(SEC_E_ILLEGAL_MESSAGE); _SEC_ERR(SEC_E_LOGON_DENIED); _SEC_ERR(SEC_E_NO_CREDENTIALS); _SEC_ERR(SEC_E_OUT_OF_SEQUENCE); default: sprintf(buf, "%08lx\n", status); return buf; } #undef _SEC_ERR } /*---------------------------------------------------------*/ /* Helper for testQuerySecurityPagageInfo */ static SECURITY_STATUS setupPackageA(SEC_CHAR *p_package_name, PSecPkgInfo *p_pkg_info) { SECURITY_STATUS ret; ret = pQuerySecurityPackageInfoA( p_package_name, p_pkg_info); return ret; } /*---------------------------------------------------------*/ /* Helper for testAuth* */ SECURITY_STATUS setupClient(SspiData *sspi_data, SEC_CHAR *provider) { SECURITY_STATUS ret; TimeStamp ttl; SecPkgInfoA *sec_pkg_info; trace("Running setupClient\n"); sspi_data->cred = HeapAlloc(GetProcessHeap(), 0, sizeof(CredHandle)); sspi_data->ctxt = HeapAlloc(GetProcessHeap(), 0, sizeof(CtxtHandle)); ret = pQuerySecurityPackageInfoA(provider, &sec_pkg_info); ok(ret == SEC_E_OK, "QuerySecurityPackageInfo returned %s\n", getSecError(ret)); setupBuffers(sspi_data, sec_pkg_info); if((ret = pAcquireCredentialsHandleA(NULL, provider, SECPKG_CRED_OUTBOUND, NULL, sspi_data->id, NULL, NULL, sspi_data->cred, &ttl)) != SEC_E_OK) { trace("AcquireCredentialsHandle() returned %s\n", getSecError(ret)); } ok(ret == SEC_E_OK, "AcquireCredentialsHande() returned %s\n", getSecError(ret)); return ret; } /**********************************************************************/ SECURITY_STATUS setupServer(SspiData *sspi_data, SEC_CHAR *provider) { SECURITY_STATUS ret; TimeStamp ttl; SecPkgInfoA *sec_pkg_info; trace("Running setupServer\n"); sspi_data->cred = HeapAlloc(GetProcessHeap(), 0, sizeof(CredHandle)); sspi_data->ctxt = HeapAlloc(GetProcessHeap(), 0, sizeof(CtxtHandle)); ret = pQuerySecurityPackageInfoA(provider, &sec_pkg_info); ok(ret == SEC_E_OK, "QuerySecurityPackageInfo returned %s\n", getSecError(ret)); setupBuffers(sspi_data, sec_pkg_info); if((ret = pAcquireCredentialsHandleA(NULL, provider, SECPKG_CRED_INBOUND, NULL, NULL, NULL, NULL, sspi_data->cred, &ttl)) != SEC_E_OK) { trace("AcquireCredentialsHandle() returned %s\n", getSecError(ret)); } ok(ret == SEC_E_OK, "AcquireCredentialsHande() returned %s\n", getSecError(ret)); return ret; } /**********************************************************************/ SECURITY_STATUS setupBuffers(SspiData *sspi_data, SecPkgInfoA *sec_pkg_info) { sspi_data->in_buf = HeapAlloc(GetProcessHeap(), 0, sizeof(SecBufferDesc)); sspi_data->out_buf = HeapAlloc(GetProcessHeap(), 0, sizeof(SecBufferDesc)); sspi_data->max_token = sec_pkg_info->cbMaxToken; if(sspi_data->in_buf != NULL) { PSecBuffer sec_buffer = HeapAlloc(GetProcessHeap(), 0, sizeof(SecBuffer)); if(sec_buffer == NULL){ trace("in_buf: sec_buffer == NULL\n"); return SEC_E_INSUFFICIENT_MEMORY; } sspi_data->in_buf->ulVersion = SECBUFFER_VERSION; sspi_data->in_buf->cBuffers = 1; sspi_data->in_buf->pBuffers = sec_buffer; sec_buffer->cbBuffer = sec_pkg_info->cbMaxToken; sec_buffer->BufferType = SECBUFFER_TOKEN; if((sec_buffer->pvBuffer = HeapAlloc(GetProcessHeap(), 0, sec_pkg_info->cbMaxToken)) == NULL) { trace("in_buf: sec_buffer->pvBuffer == NULL\n"); return SEC_E_INSUFFICIENT_MEMORY; } } else { trace("HeapAlloc in_buf returned NULL\n"); return SEC_E_INSUFFICIENT_MEMORY; } if(sspi_data->out_buf != NULL) { PSecBuffer sec_buffer = HeapAlloc(GetProcessHeap(), 0, sizeof(SecBuffer)); if(sec_buffer == NULL){ trace("out_buf: sec_buffer == NULL\n"); return SEC_E_INSUFFICIENT_MEMORY; } sspi_data->out_buf->ulVersion = SECBUFFER_VERSION; sspi_data->out_buf->cBuffers = 1; sspi_data->out_buf->pBuffers = sec_buffer; sec_buffer->cbBuffer = sec_pkg_info->cbMaxToken; sec_buffer->BufferType = SECBUFFER_TOKEN; if((sec_buffer->pvBuffer = HeapAlloc(GetProcessHeap(), 0, sec_pkg_info->cbMaxToken)) == NULL){ trace("out_buf: sec_buffer->pvBuffer == NULL\n"); return SEC_E_INSUFFICIENT_MEMORY; } } else { trace("HeapAlloc out_buf returned NULL\n"); return SEC_E_INSUFFICIENT_MEMORY; } return SEC_E_OK; } /**********************************************************************/ void cleanupBuffers(SspiData *sspi_data) { ULONG i; if(sspi_data->in_buf != NULL) { for(i = 0; i < sspi_data->in_buf->cBuffers; ++i) { HeapFree(GetProcessHeap(), 0, sspi_data->in_buf->pBuffers[i].pvBuffer); } HeapFree(GetProcessHeap(), 0, sspi_data->in_buf->pBuffers); HeapFree(GetProcessHeap(), 0, sspi_data->in_buf); } if(sspi_data->out_buf != NULL) { for(i = 0; i < sspi_data->out_buf->cBuffers; ++i) { HeapFree(GetProcessHeap(), 0, sspi_data->out_buf->pBuffers[i].pvBuffer); } HeapFree(GetProcessHeap(), 0, sspi_data->out_buf->pBuffers); HeapFree(GetProcessHeap(), 0, sspi_data->out_buf); } } /**********************************************************************/ SECURITY_STATUS runClient(SspiData *sspi_data, BOOL first, ULONG data_rep) { SECURITY_STATUS ret; ULONG req_attr = ISC_REQ_CONNECTION | ISC_REQ_CONFIDENTIALITY; ULONG ctxt_attr; TimeStamp ttl; PSecBufferDesc in_buf = sspi_data->in_buf; PSecBufferDesc out_buf = sspi_data->out_buf; assert(in_buf->cBuffers >= 1); assert(in_buf->pBuffers[0].pvBuffer != NULL); assert(in_buf->pBuffers[0].cbBuffer != 0); assert(out_buf->cBuffers >= 1); assert(out_buf->pBuffers[0].pvBuffer != NULL); assert(out_buf->pBuffers[0].cbBuffer != 0); trace("Running the client the %s time.\n", first?"first":"second"); /* We can either use ISC_REQ_ALLOCATE_MEMORY flag to ask the provider * always allocate output buffers for us, or initialize cbBuffer * before each call because the API changes it to represent actual * amount of data in the buffer. */ /* test a failing call only the first time, otherwise we get * SEC_E_OUT_OF_SEQUENCE */ if (first) { void *old_buf; /* pass NULL as an output buffer */ ret = pInitializeSecurityContextA(sspi_data->cred, NULL, NULL, req_attr, 0, data_rep, NULL, 0, sspi_data->ctxt, NULL, &ctxt_attr, &ttl); ok(ret == SEC_E_BUFFER_TOO_SMALL, "expected SEC_E_BUFFER_TOO_SMALL, got %s\n", getSecError(ret)); /* pass NULL as an output buffer */ old_buf = out_buf->pBuffers[0].pvBuffer; out_buf->pBuffers[0].pvBuffer = NULL; ret = pInitializeSecurityContextA(sspi_data->cred, NULL, NULL, req_attr, 0, data_rep, NULL, 0, sspi_data->ctxt, out_buf, &ctxt_attr, &ttl); ok(ret == SEC_E_INTERNAL_ERROR, "expected SEC_E_INTERNAL_ERROR, got %s\n", getSecError(ret)); out_buf->pBuffers[0].pvBuffer = old_buf; /* pass an output buffer of 0 size */ out_buf->pBuffers[0].cbBuffer = 0; ret = pInitializeSecurityContextA(sspi_data->cred, NULL, NULL, req_attr, 0, data_rep, NULL, 0, sspi_data->ctxt, out_buf, &ctxt_attr, &ttl); ok(ret == SEC_E_BUFFER_TOO_SMALL, "expected SEC_E_BUFFER_TOO_SMALL, got %s\n", getSecError(ret)); ok(out_buf->pBuffers[0].cbBuffer == 0, "InitializeSecurityContext set buffer size to %lu\n", out_buf->pBuffers[0].cbBuffer); } out_buf->pBuffers[0].cbBuffer = sspi_data->max_token; ret = pInitializeSecurityContextA(sspi_data->cred, first?NULL:sspi_data->ctxt, NULL, req_attr, 0, data_rep, first?NULL:in_buf, 0, sspi_data->ctxt, out_buf, &ctxt_attr, &ttl); if(ret == SEC_I_COMPLETE_AND_CONTINUE || ret == SEC_I_COMPLETE_NEEDED) { pCompleteAuthToken(sspi_data->ctxt, out_buf); if(ret == SEC_I_COMPLETE_AND_CONTINUE) ret = SEC_I_CONTINUE_NEEDED; else if(ret == SEC_I_COMPLETE_NEEDED) ret = SEC_E_OK; } ok(out_buf->pBuffers[0].cbBuffer < sspi_data->max_token, "InitializeSecurityContext set buffer size to %lu\n", out_buf->pBuffers[0].cbBuffer); return ret; } /**********************************************************************/ SECURITY_STATUS runServer(SspiData *sspi_data, BOOL first, ULONG data_rep) { SECURITY_STATUS ret; ULONG ctxt_attr; TimeStamp ttl; trace("Running the server the %s time\n", first?"first":"second"); ret = pAcceptSecurityContext(sspi_data->cred, first?NULL:sspi_data->ctxt, sspi_data->in_buf, 0, data_rep, sspi_data->ctxt, sspi_data->out_buf, &ctxt_attr, &ttl); if(ret == SEC_I_COMPLETE_AND_CONTINUE || ret == SEC_I_COMPLETE_NEEDED) { pCompleteAuthToken(sspi_data->ctxt, sspi_data->out_buf); if(ret == SEC_I_COMPLETE_AND_CONTINUE) ret = SEC_I_CONTINUE_NEEDED; else if(ret == SEC_I_COMPLETE_NEEDED) ret = SEC_E_OK; } return ret; } /**********************************************************************/ void communicate(SspiData *from, SspiData *to) { if(from->out_buf != NULL && to->in_buf != NULL) { trace("Running communicate.\n"); if((from->out_buf->cBuffers >= 1) && (to->in_buf->cBuffers >= 1)) { if((from->out_buf->pBuffers[0].pvBuffer != NULL) && (to->in_buf->pBuffers[0].pvBuffer != NULL)) { memset(to->in_buf->pBuffers[0].pvBuffer, 0, to->max_token); memcpy(to->in_buf->pBuffers[0].pvBuffer, from->out_buf->pBuffers[0].pvBuffer, from->out_buf->pBuffers[0].cbBuffer); to->in_buf->pBuffers[0].cbBuffer = from->out_buf->pBuffers[0].cbBuffer; memset(from->out_buf->pBuffers[0].pvBuffer, 0, from->max_token); } } } } /**********************************************************************/ /*--------------------------------------------------------- */ /* The test functions */ static void testInitSecurityInterface(void) { PSecurityFunctionTable sec_fun_table = NULL; sec_fun_table = pInitSecurityInterfaceA(); ok(sec_fun_table != NULL, "InitSecurityInterface() returned NULL.\n"); } static void testEnumerateSecurityPackages(void) { SECURITY_STATUS sec_status; ULONG num_packages, i; PSecPkgInfo pkg_info = NULL; trace("Running testEnumerateSecurityPackages\n"); sec_status = pEnumerateSecurityPackagesA(&num_packages, &pkg_info); ok(sec_status == SEC_E_OK, "EnumerateSecurityPackages() should return %ld, not %08lx\n", (LONG)SEC_E_OK, (LONG)sec_status); ok(num_packages > 0, "Number of sec packages should be > 0 ,but is %ld\n", num_packages); ok(pkg_info != NULL, "pkg_info should not be NULL after EnumerateSecurityPackages\n"); trace("Number of packages: %ld\n", num_packages); for(i = 0; i < num_packages; ++i){ trace("%ld: Package \"%s\"\n", i, pkg_info[i].Name); trace("Supported flags:\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_INTEGRITY) trace("\tSECPKG_FLAG_INTEGRITY\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_PRIVACY) trace("\tSECPKG_FLAG_PRIVACY\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_TOKEN_ONLY) trace("\tSECPKG_FLAG_TOKEN_ONLY\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_DATAGRAM) trace("\tSECPKG_FLAG_DATAGRAM\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_CONNECTION) trace("\tSECPKG_FLAG_CONNECTION\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_MULTI_REQUIRED) trace("\tSECPKG_FLAG_MULTI_REQUIRED\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_CLIENT_ONLY) trace("\tSECPKG_FLAG_CLIENT_ONLY\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_EXTENDED_ERROR) trace("\tSECPKG_FLAG_EXTENDED_ERROR\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_IMPERSONATION) trace("\tSECPKG_FLAG_IMPERSONATION\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_ACCEPT_WIN32_NAME) trace("\tSECPKG_FLAG_ACCEPT_WIN32_NAME\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_STREAM) trace("\tSECPKG_FLAG_STREAM\n"); if(pkg_info[i].fCapabilities & SECPKG_FLAG_READONLY_WITH_CHECKSUM) trace("\tSECPKG_FLAG_READONLY_WITH_CHECKSUM\n"); trace("Comment: %s\n", pkg_info[i].Comment); trace("\n"); } pFreeContextBuffer(pkg_info); } static void testQuerySecurityPackageInfo(void) { SECURITY_STATUS sec_status; PSecPkgInfo pkg_info; trace("Running testQuerySecurityPackageInfo\n"); /* Test with an existing package. Test should pass */ pkg_info = (void *)0xdeadbeef; sec_status = setupPackageA("NTLM", &pkg_info); ok((sec_status == SEC_E_OK) || (sec_status == SEC_E_SECPKG_NOT_FOUND), "Return value of QuerySecurityPackageInfo() shouldn't be %s\n", getSecError(sec_status) ); if (sec_status == SEC_E_OK) { ok(pkg_info != (void *)0xdeadbeef, "wrong pkg_info address %p\n", pkg_info); ok(pkg_info->wVersion == 1, "wVersion always should be 1, but is %d\n", pkg_info->wVersion); /* there is no point in testing pkg_info->cbMaxToken since it varies * between implementations. */ } sec_status = pFreeContextBuffer(pkg_info); ok( sec_status == SEC_E_OK, "Return value of FreeContextBuffer() shouldn't be %s\n", getSecError(sec_status) ); /* Test with a nonexistent package, test should fail */ pkg_info = (void *)0xdeadbeef; sec_status = pQuerySecurityPackageInfoA("Winetest", &pkg_info); ok( sec_status != SEC_E_OK, "Return value of QuerySecurityPackageInfo() should not be %s for a nonexistent package\n", getSecError(SEC_E_OK)); ok(pkg_info == (void *)0xdeadbeef, "wrong pkg_info address %p\n", pkg_info); sec_status = pFreeContextBuffer(pkg_info); ok( sec_status == SEC_E_OK, "Return value of FreeContextBuffer() shouldn't be %s\n", getSecError(sec_status) ); } void testAuth(SEC_CHAR* sec_pkg_name, ULONG data_rep) { SECURITY_STATUS client_stat = SEC_I_CONTINUE_NEEDED; SECURITY_STATUS server_stat = SEC_I_CONTINUE_NEEDED; SECURITY_STATUS sec_status; PSecPkgInfo pkg_info = NULL; BOOL first = TRUE; SspiData client, server; SEC_WINNT_AUTH_IDENTITY id; if(setupPackageA(sec_pkg_name, &pkg_info) == SEC_E_OK) { pFreeContextBuffer(pkg_info); id.User = (unsigned char*) "Administrator"; id.UserLength = strlen((char *) id.User); id.Domain = (unsigned char *) "WORKGROUP"; id.DomainLength = strlen((char *) id.Domain); id.Password = (unsigned char*) "testpass"; id.PasswordLength = strlen((char *) id.Password); id.Flags = SEC_WINNT_AUTH_IDENTITY_ANSI; client.id = &id; sec_status = setupClient(&client, sec_pkg_name); if(sec_status != SEC_E_OK) { trace("Error: Setting up the client returned %s, exiting test!\n", getSecError(sec_status)); pFreeCredentialsHandle(client.cred); return; } sec_status = setupServer(&server, sec_pkg_name); if(sec_status != SEC_E_OK) { trace("Error: Setting up the server returned %s, exiting test!\n", getSecError(sec_status)); pFreeCredentialsHandle(server.cred); pFreeCredentialsHandle(client.cred); return; } while(client_stat == SEC_I_CONTINUE_NEEDED && server_stat == SEC_I_CONTINUE_NEEDED) { client_stat = runClient(&client, first, data_rep); ok(client_stat == SEC_E_OK || client_stat == SEC_I_CONTINUE_NEEDED, "Running the client returned %s, more tests will fail.\n", getSecError(client_stat)); communicate(&client, &server); server_stat = runServer(&server, first, data_rep); ok(server_stat == SEC_E_OK || server_stat == SEC_I_CONTINUE_NEEDED || server_stat == SEC_E_LOGON_DENIED, "Running the server returned %s, more tests will fail from now.\n", getSecError(server_stat)); communicate(&server, &client); trace("Looping\n"); first = FALSE; } cleanupBuffers(&client); cleanupBuffers(&server); sec_status = pDeleteSecurityContext(server.ctxt); ok(sec_status == SEC_E_OK, "DeleteSecurityContext(server) returned %s\n", getSecError(sec_status)); sec_status = pDeleteSecurityContext(client.ctxt); ok(sec_status == SEC_E_OK, "DeleteSecurityContext(client) returned %s\n", getSecError(sec_status)); sec_status = pFreeCredentialsHandle(server.cred); ok(sec_status == SEC_E_OK, "FreeCredentialsHandle(server) returned %s\n", getSecError(sec_status)); sec_status = pFreeCredentialsHandle(client.cred); ok(sec_status == SEC_E_OK, "FreeCredentialsHandle(client) returned %s\n", getSecError(sec_status)); } else { trace("Package not installed, skipping test.\n"); } } START_TEST(main) { InitFunctionPtrs(); if(pInitSecurityInterfaceA) testInitSecurityInterface(); if(pFreeContextBuffer) { if(pEnumerateSecurityPackagesA) testEnumerateSecurityPackages(); if(pQuerySecurityPackageInfoA) { testQuerySecurityPackageInfo(); if(pInitSecurityInterfaceA) { testAuth("NTLM", SECURITY_NATIVE_DREP); testAuth("NTLM", SECURITY_NETWORK_DREP); } } } if(secdll) FreeLibrary(secdll); }