/** * FreeRDP: A Remote Desktop Protocol Implementation * * * Copyright 2012 Marc-Andre Moreau * Copyright 2022 David Fort * Copyright 2022 Isaac Klein * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include "settings.h" #include #include #include #include #include #include #include #include #include "utils.h" #include "credssp_auth.h" #define TAG FREERDP_TAG("core.auth") #define SERVER_KEY "Software\\" FREERDP_VENDOR_STRING "\\" FREERDP_PRODUCT_STRING "\\Server" enum AUTH_STATE { AUTH_STATE_INITIAL, AUTH_STATE_CREDS, AUTH_STATE_IN_PROGRESS, AUTH_STATE_FINAL }; struct rdp_credssp_auth { const rdpContext* rdp_ctx; SecurityFunctionTable* table; SecPkgInfo* info; SEC_WINNT_AUTH_IDENTITY identity; SEC_WINPR_NTLM_SETTINGS ntlmSettings; SEC_WINPR_KERBEROS_SETTINGS kerberosSettings; CredHandle credentials; BOOL server; SecPkgContext_Bindings* bindings; TCHAR* spn; WCHAR* package_list; CtxtHandle context; SecBuffer input_buffer; SecBuffer output_buffer; ULONG flags; SecPkgContext_Sizes sizes; SECURITY_STATUS sspi_error; enum AUTH_STATE state; char* pkgNameA; }; static const char* credssp_auth_state_string(const rdpCredsspAuth* auth) { WINPR_ASSERT(auth); switch (auth->state) { case AUTH_STATE_INITIAL: return "AUTH_STATE_INITIAL"; case AUTH_STATE_CREDS: return "AUTH_STATE_CREDS"; case AUTH_STATE_IN_PROGRESS: return "AUTH_STATE_IN_PROGRESS"; case AUTH_STATE_FINAL: return "AUTH_STATE_FINAL"; default: return "AUTH_STATE_UNKNOWN"; } } static BOOL parseKerberosDeltat(const char* value, INT32* dest, const char* message); static BOOL credssp_auth_setup_identity(rdpCredsspAuth* auth); static SecurityFunctionTable* auth_resolve_sspi_table(const rdpSettings* settings); static BOOL credssp_auth_update_name_cache(rdpCredsspAuth* auth, TCHAR* name) { WINPR_ASSERT(auth); free(auth->pkgNameA); auth->pkgNameA = NULL; if (name) #if defined(UNICODE) auth->pkgNameA = ConvertWCharToUtf8Alloc(name, NULL); #else auth->pkgNameA = _strdup(name); #endif return TRUE; } rdpCredsspAuth* credssp_auth_new(const rdpContext* rdp_ctx) { rdpCredsspAuth* auth = calloc(1, sizeof(rdpCredsspAuth)); if (auth) auth->rdp_ctx = rdp_ctx; return auth; } BOOL credssp_auth_init(rdpCredsspAuth* auth, TCHAR* pkg_name, SecPkgContext_Bindings* bindings) { WINPR_ASSERT(auth); WINPR_ASSERT(auth->rdp_ctx); const rdpSettings* settings = auth->rdp_ctx->settings; WINPR_ASSERT(settings); if (!credssp_auth_update_name_cache(auth, pkg_name)) return FALSE; auth->table = auth_resolve_sspi_table(settings); if (!auth->table) { WLog_ERR(TAG, "Unable to initialize sspi table"); return FALSE; } /* Package name will be stored in the info structure */ WINPR_ASSERT(auth->table->QuerySecurityPackageInfo); const SECURITY_STATUS status = auth->table->QuerySecurityPackageInfo(pkg_name, &auth->info); if (status != SEC_E_OK) { WLog_ERR(TAG, "QuerySecurityPackageInfo (%s) failed with %s [0x%08X]", credssp_auth_pkg_name(auth), GetSecurityStatusString(status), status); return FALSE; } if (!credssp_auth_update_name_cache(auth, auth->info->Name)) return FALSE; WLog_DBG(TAG, "Using package: %s (cbMaxToken: %u bytes)", credssp_auth_pkg_name(auth), auth->info->cbMaxToken); /* Setup common identity settings */ if (!credssp_auth_setup_identity(auth)) return FALSE; auth->bindings = bindings; return TRUE; } static BOOL credssp_auth_setup_auth_data(rdpCredsspAuth* auth, const SEC_WINNT_AUTH_IDENTITY* identity, SEC_WINNT_AUTH_IDENTITY_WINPR* pAuthData) { SEC_WINNT_AUTH_IDENTITY_EXW* identityEx = NULL; WINPR_ASSERT(pAuthData); ZeroMemory(pAuthData, sizeof(SEC_WINNT_AUTH_IDENTITY_WINPR)); identityEx = &pAuthData->identity; identityEx->Version = SEC_WINNT_AUTH_IDENTITY_VERSION; identityEx->Length = sizeof(SEC_WINNT_AUTH_IDENTITY_EX); identityEx->User = identity->User; identityEx->UserLength = identity->UserLength; identityEx->Domain = identity->Domain; identityEx->DomainLength = identity->DomainLength; identityEx->Password = identity->Password; identityEx->PasswordLength = identity->PasswordLength; identityEx->Flags = identity->Flags; identityEx->Flags |= SEC_WINNT_AUTH_IDENTITY_UNICODE; identityEx->Flags |= SEC_WINNT_AUTH_IDENTITY_EXTENDED; if (auth->package_list) { identityEx->PackageList = (UINT16*)auth->package_list; identityEx->PackageListLength = _wcslen(auth->package_list); } pAuthData->ntlmSettings = &auth->ntlmSettings; pAuthData->kerberosSettings = &auth->kerberosSettings; return TRUE; } static BOOL credssp_auth_client_init_cred_attributes(rdpCredsspAuth* auth) { WINPR_ASSERT(auth); if (!utils_str_is_empty(auth->kerberosSettings.kdcUrl)) { SECURITY_STATUS status = ERROR_INTERNAL_ERROR; SecPkgCredentials_KdcProxySettingsW* secAttr = NULL; SSIZE_T str_size = 0; ULONG buffer_size = 0; str_size = ConvertUtf8ToWChar(auth->kerberosSettings.kdcUrl, NULL, 0); if (str_size <= 0) return FALSE; str_size++; buffer_size = sizeof(SecPkgCredentials_KdcProxySettingsW) + str_size * sizeof(WCHAR); secAttr = calloc(1, buffer_size); if (!secAttr) return FALSE; secAttr->Version = KDC_PROXY_SETTINGS_V1; secAttr->ProxyServerLength = str_size * sizeof(WCHAR); secAttr->ProxyServerOffset = sizeof(SecPkgCredentials_KdcProxySettingsW); if (ConvertUtf8ToWChar(auth->kerberosSettings.kdcUrl, (WCHAR*)(secAttr + 1), str_size) <= 0) { free(secAttr); return FALSE; } #ifdef UNICODE if (auth->table->SetCredentialsAttributesW) status = auth->table->SetCredentialsAttributesW(&auth->credentials, SECPKG_CRED_ATTR_KDC_PROXY_SETTINGS, (void*)secAttr, buffer_size); else status = SEC_E_UNSUPPORTED_FUNCTION; #else if (auth->table->SetCredentialsAttributesA) status = auth->table->SetCredentialsAttributesA(&auth->credentials, SECPKG_CRED_ATTR_KDC_PROXY_SETTINGS, (void*)secAttr, buffer_size); else status = SEC_E_UNSUPPORTED_FUNCTION; #endif if (status != SEC_E_OK) { WLog_WARN(TAG, "Explicit Kerberos KDC URL (%s) injection is not supported", auth->kerberosSettings.kdcUrl); } free(secAttr); } return TRUE; } BOOL credssp_auth_setup_client(rdpCredsspAuth* auth, const char* target_service, const char* target_hostname, const SEC_WINNT_AUTH_IDENTITY* identity, const char* pkinit) { void* pAuthData = NULL; SEC_WINNT_AUTH_IDENTITY_WINPR winprAuthData = { 0 }; WINPR_ASSERT(auth); WINPR_ASSERT(auth->table); WINPR_ASSERT(auth->info); WINPR_ASSERT(auth->state == AUTH_STATE_INITIAL); /* Construct the service principal name */ if (!credssp_auth_set_spn(auth, target_service, target_hostname)) return FALSE; if (identity) { credssp_auth_setup_auth_data(auth, identity, &winprAuthData); if (pkinit) { auth->kerberosSettings.pkinitX509Identity = _strdup(pkinit); if (!auth->kerberosSettings.pkinitX509Identity) { WLog_ERR(TAG, "unable to copy pkinitArgs"); return FALSE; } } pAuthData = (void*)&winprAuthData; } WINPR_ASSERT(auth->table->AcquireCredentialsHandle); const SECURITY_STATUS status = auth->table->AcquireCredentialsHandle(NULL, auth->info->Name, SECPKG_CRED_OUTBOUND, NULL, pAuthData, NULL, NULL, &auth->credentials, NULL); if (status != SEC_E_OK) { WLog_ERR(TAG, "AcquireCredentialsHandleA failed with %s [0x%08X]", GetSecurityStatusString(status), status); return FALSE; } if (!credssp_auth_client_init_cred_attributes(auth)) { WLog_ERR(TAG, "Fatal error setting credential attributes"); return FALSE; } auth->state = AUTH_STATE_CREDS; WLog_DBG(TAG, "Acquired client credentials"); return TRUE; } BOOL credssp_auth_setup_server(rdpCredsspAuth* auth) { void* pAuthData = NULL; SEC_WINNT_AUTH_IDENTITY_WINPR winprAuthData = { 0 }; WINPR_ASSERT(auth); WINPR_ASSERT(auth->table); WINPR_ASSERT(auth->state == AUTH_STATE_INITIAL); if (auth->ntlmSettings.samFile || auth->ntlmSettings.hashCallback || auth->kerberosSettings.keytab) { credssp_auth_setup_auth_data(auth, &auth->identity, &winprAuthData); pAuthData = &winprAuthData; } WINPR_ASSERT(auth->table->AcquireCredentialsHandle); const SECURITY_STATUS status = auth->table->AcquireCredentialsHandle(NULL, auth->info->Name, SECPKG_CRED_INBOUND, NULL, pAuthData, NULL, NULL, &auth->credentials, NULL); if (status != SEC_E_OK) { WLog_ERR(TAG, "AcquireCredentialsHandleA failed with %s [0x%08X]", GetSecurityStatusString(status), status); return FALSE; } auth->state = AUTH_STATE_CREDS; WLog_DBG(TAG, "Acquired server credentials"); auth->server = TRUE; return TRUE; } void credssp_auth_set_flags(rdpCredsspAuth* auth, ULONG flags) { WINPR_ASSERT(auth); auth->flags = flags; } /** * SSPI Client Ceremony * * -------------- * ( Client Begin ) * -------------- * | * | * \|/ * -----------+-------------- * | AcquireCredentialsHandle | * -------------------------- * | * | * \|/ * -------------+-------------- * +---------------> / InitializeSecurityContext / * | ---------------------------- * | | * | | * | \|/ * --------------------------- ---------+------------- ---------------------- * / Receive blob from server / < Received security blob? > --Yes-> / Send blob to server / * -------------+------------- ----------------------- ---------------------- * /|\ | | * | No | * Yes \|/ | * | ------------+----------- | * +---------------- < Received Continue Needed > <-----------------+ * ------------------------ * | * No * \|/ * ------+------- * ( Client End ) * -------------- */ int credssp_auth_authenticate(rdpCredsspAuth* auth) { SECURITY_STATUS status = ERROR_INTERNAL_ERROR; SecBuffer input_buffers[2] = { 0 }; SecBufferDesc input_buffer_desc = { SECBUFFER_VERSION, 1, input_buffers }; CtxtHandle* context = NULL; WINPR_ASSERT(auth); WINPR_ASSERT(auth->table); SecBufferDesc output_buffer_desc = { SECBUFFER_VERSION, 1, &auth->output_buffer }; switch (auth->state) { case AUTH_STATE_CREDS: case AUTH_STATE_IN_PROGRESS: break; case AUTH_STATE_INITIAL: case AUTH_STATE_FINAL: WLog_ERR(TAG, "context in invalid state!"); return -1; } /* input buffer will be null on first call, * context MUST be NULL on first call */ context = &auth->context; if (!auth->context.dwLower && !auth->context.dwUpper) context = NULL; input_buffers[0] = auth->input_buffer; if (auth->bindings) { input_buffer_desc.cBuffers = 2; input_buffers[1].BufferType = SECBUFFER_CHANNEL_BINDINGS; input_buffers[1].cbBuffer = auth->bindings->BindingsLength; input_buffers[1].pvBuffer = auth->bindings->Bindings; } /* Free previous output buffer (presumably no longer needed) */ sspi_SecBufferFree(&auth->output_buffer); auth->output_buffer.BufferType = SECBUFFER_TOKEN; if (!sspi_SecBufferAlloc(&auth->output_buffer, auth->info->cbMaxToken)) return -1; if (auth->server) { WINPR_ASSERT(auth->table->AcceptSecurityContext); status = auth->table->AcceptSecurityContext( &auth->credentials, context, &input_buffer_desc, auth->flags, SECURITY_NATIVE_DREP, &auth->context, &output_buffer_desc, &auth->flags, NULL); } else { WINPR_ASSERT(auth->table->InitializeSecurityContext); status = auth->table->InitializeSecurityContext( &auth->credentials, context, auth->spn, auth->flags, 0, SECURITY_NATIVE_DREP, &input_buffer_desc, 0, &auth->context, &output_buffer_desc, &auth->flags, NULL); } if (status == SEC_E_OK) { WLog_DBG(TAG, "Authentication complete (output token size: %" PRIu32 " bytes)", auth->output_buffer.cbBuffer); auth->state = AUTH_STATE_FINAL; /* Not terrible if this fails, although encryption functions may run into issues down the * line, still, authentication succeeded */ WINPR_ASSERT(auth->table->QueryContextAttributes); status = auth->table->QueryContextAttributes(&auth->context, SECPKG_ATTR_SIZES, &auth->sizes); WLog_DBG(TAG, "Context sizes: cbMaxSignature=%d, cbSecurityTrailer=%d", auth->sizes.cbMaxSignature, auth->sizes.cbSecurityTrailer); return 1; } else if (status == SEC_I_CONTINUE_NEEDED) { WLog_DBG(TAG, "Authentication in progress... (output token size: %" PRIu32 ")", auth->output_buffer.cbBuffer); auth->state = AUTH_STATE_IN_PROGRESS; return 0; } else { WLog_ERR(TAG, "%s failed with %s [0x%08X]", auth->server ? "AcceptSecurityContext" : "InitializeSecurityContext", GetSecurityStatusString(status), status); auth->sspi_error = status; return -1; } } /* Plaintext is not modified; Output buffer MUST be freed if encryption succeeds */ BOOL credssp_auth_encrypt(rdpCredsspAuth* auth, const SecBuffer* plaintext, SecBuffer* ciphertext, size_t* signature_length, ULONG sequence) { SECURITY_STATUS status = ERROR_INTERNAL_ERROR; SecBuffer buffers[2] = { 0 }; SecBufferDesc buffer_desc = { SECBUFFER_VERSION, 2, buffers }; BYTE* buf = NULL; WINPR_ASSERT(auth && auth->table); WINPR_ASSERT(plaintext); WINPR_ASSERT(ciphertext); switch (auth->state) { case AUTH_STATE_INITIAL: WLog_ERR(TAG, "Invalid state %s", credssp_auth_state_string(auth)); return FALSE; default: break; } /* Allocate consecutive memory for ciphertext and signature */ buf = calloc(1, plaintext->cbBuffer + auth->sizes.cbSecurityTrailer); if (!buf) return FALSE; buffers[0].BufferType = SECBUFFER_TOKEN; buffers[0].cbBuffer = auth->sizes.cbSecurityTrailer; buffers[0].pvBuffer = buf; buffers[1].BufferType = SECBUFFER_DATA; if (plaintext->BufferType & SECBUFFER_READONLY) buffers[1].BufferType |= SECBUFFER_READONLY; buffers[1].pvBuffer = buf + auth->sizes.cbSecurityTrailer; buffers[1].cbBuffer = plaintext->cbBuffer; CopyMemory(buffers[1].pvBuffer, plaintext->pvBuffer, plaintext->cbBuffer); WINPR_ASSERT(auth->table->EncryptMessage); status = auth->table->EncryptMessage(&auth->context, 0, &buffer_desc, sequence); if (status != SEC_E_OK) { WLog_ERR(TAG, "EncryptMessage failed with %s [0x%08X]", GetSecurityStatusString(status), status); free(buf); return FALSE; } if (buffers[0].cbBuffer < auth->sizes.cbSecurityTrailer) { /* The signature is smaller than cbSecurityTrailer, so shrink the excess in between */ MoveMemory(((BYTE*)buffers[0].pvBuffer) + buffers[0].cbBuffer, buffers[1].pvBuffer, buffers[1].cbBuffer); // use reported signature size as new cbSecurityTrailer value for DecryptMessage auth->sizes.cbSecurityTrailer = buffers[0].cbBuffer; } ciphertext->cbBuffer = buffers[0].cbBuffer + buffers[1].cbBuffer; ciphertext->pvBuffer = buf; if (signature_length) *signature_length = buffers[0].cbBuffer; return TRUE; } /* Output buffer MUST be freed if decryption succeeds */ BOOL credssp_auth_decrypt(rdpCredsspAuth* auth, const SecBuffer* ciphertext, SecBuffer* plaintext, ULONG sequence) { SecBuffer buffers[2]; SecBufferDesc buffer_desc = { SECBUFFER_VERSION, 2, buffers }; ULONG fqop = 0; WINPR_ASSERT(auth && auth->table); WINPR_ASSERT(ciphertext); WINPR_ASSERT(plaintext); switch (auth->state) { case AUTH_STATE_INITIAL: WLog_ERR(TAG, "Invalid state %s", credssp_auth_state_string(auth)); return FALSE; default: break; } /* Sanity check: ciphertext must at least have a signature */ if (ciphertext->cbBuffer < auth->sizes.cbSecurityTrailer) { WLog_ERR(TAG, "Encrypted message buffer too small"); return FALSE; } /* Split the input into signature and encrypted data; we assume the signature length is equal to * cbSecurityTrailer */ buffers[0].BufferType = SECBUFFER_TOKEN; buffers[0].pvBuffer = ciphertext->pvBuffer; buffers[0].cbBuffer = auth->sizes.cbSecurityTrailer; buffers[1].BufferType = SECBUFFER_DATA; if (!sspi_SecBufferAlloc(&buffers[1], ciphertext->cbBuffer - auth->sizes.cbSecurityTrailer)) return FALSE; CopyMemory(buffers[1].pvBuffer, (BYTE*)ciphertext->pvBuffer + auth->sizes.cbSecurityTrailer, buffers[1].cbBuffer); WINPR_ASSERT(auth->table->DecryptMessage); const SECURITY_STATUS status = auth->table->DecryptMessage(&auth->context, &buffer_desc, sequence, &fqop); if (status != SEC_E_OK) { WLog_ERR(TAG, "DecryptMessage failed with %s [0x%08X]", GetSecurityStatusString(status), status); sspi_SecBufferFree(&buffers[1]); return FALSE; } *plaintext = buffers[1]; return TRUE; } BOOL credssp_auth_impersonate(rdpCredsspAuth* auth) { WINPR_ASSERT(auth && auth->table); WINPR_ASSERT(auth->table->ImpersonateSecurityContext); const SECURITY_STATUS status = auth->table->ImpersonateSecurityContext(&auth->context); if (status != SEC_E_OK) { WLog_ERR(TAG, "ImpersonateSecurityContext failed with %s [0x%08X]", GetSecurityStatusString(status), status); return FALSE; } return TRUE; } BOOL credssp_auth_revert_to_self(rdpCredsspAuth* auth) { WINPR_ASSERT(auth && auth->table); WINPR_ASSERT(auth->table->RevertSecurityContext); const SECURITY_STATUS status = auth->table->RevertSecurityContext(&auth->context); if (status != SEC_E_OK) { WLog_ERR(TAG, "RevertSecurityContext failed with %s [0x%08X]", GetSecurityStatusString(status), status); return FALSE; } return TRUE; } void credssp_auth_take_input_buffer(rdpCredsspAuth* auth, SecBuffer* buffer) { WINPR_ASSERT(auth); WINPR_ASSERT(buffer); sspi_SecBufferFree(&auth->input_buffer); auth->input_buffer = *buffer; auth->input_buffer.BufferType = SECBUFFER_TOKEN; /* Invalidate original, rdpCredsspAuth now has ownership of the buffer */ SecBuffer empty = { 0 }; *buffer = empty; } const SecBuffer* credssp_auth_get_output_buffer(rdpCredsspAuth* auth) { WINPR_ASSERT(auth); return &auth->output_buffer; } BOOL credssp_auth_have_output_token(rdpCredsspAuth* auth) { WINPR_ASSERT(auth); return auth->output_buffer.cbBuffer ? TRUE : FALSE; } BOOL credssp_auth_is_complete(rdpCredsspAuth* auth) { WINPR_ASSERT(auth); return auth->state == AUTH_STATE_FINAL; } size_t credssp_auth_trailer_size(rdpCredsspAuth* auth) { WINPR_ASSERT(auth); return auth->sizes.cbSecurityTrailer; } const char* credssp_auth_pkg_name(rdpCredsspAuth* auth) { WINPR_ASSERT(auth && auth->info); return auth->pkgNameA; } UINT32 credssp_auth_sspi_error(rdpCredsspAuth* auth) { WINPR_ASSERT(auth); return (UINT32)auth->sspi_error; } void credssp_auth_free(rdpCredsspAuth* auth) { SEC_WINPR_KERBEROS_SETTINGS* krb_settings = NULL; SEC_WINPR_NTLM_SETTINGS* ntlm_settings = NULL; if (!auth) return; if (auth->table) { switch (auth->state) { case AUTH_STATE_IN_PROGRESS: case AUTH_STATE_FINAL: WINPR_ASSERT(auth->table->DeleteSecurityContext); auth->table->DeleteSecurityContext(&auth->context); /* fallthrouth */ WINPR_FALLTHROUGH case AUTH_STATE_CREDS: WINPR_ASSERT(auth->table->FreeCredentialsHandle); auth->table->FreeCredentialsHandle(&auth->credentials); break; case AUTH_STATE_INITIAL: default: break; } if (auth->info) { WINPR_ASSERT(auth->table->FreeContextBuffer); auth->table->FreeContextBuffer(auth->info); } } sspi_FreeAuthIdentity(&auth->identity); krb_settings = &auth->kerberosSettings; ntlm_settings = &auth->ntlmSettings; free(krb_settings->kdcUrl); free(krb_settings->cache); free(krb_settings->keytab); free(krb_settings->armorCache); free(krb_settings->pkinitX509Anchors); free(krb_settings->pkinitX509Identity); free(ntlm_settings->samFile); free(auth->package_list); free(auth->spn); sspi_SecBufferFree(&auth->input_buffer); sspi_SecBufferFree(&auth->output_buffer); credssp_auth_update_name_cache(auth, NULL); free(auth); } static void auth_get_sspi_module_from_reg(char** sspi_module) { HKEY hKey = NULL; DWORD dwType = 0; DWORD dwSize = 0; WINPR_ASSERT(sspi_module); *sspi_module = NULL; if (RegOpenKeyExA(HKEY_LOCAL_MACHINE, SERVER_KEY, 0, KEY_READ | KEY_WOW64_64KEY, &hKey) != ERROR_SUCCESS) return; if (RegQueryValueExA(hKey, "SspiModule", NULL, &dwType, NULL, &dwSize) != ERROR_SUCCESS) { RegCloseKey(hKey); return; } char* module = (LPSTR)calloc(dwSize + sizeof(CHAR), sizeof(char)); if (!module) { RegCloseKey(hKey); return; } if (RegQueryValueExA(hKey, "SspiModule", NULL, &dwType, (BYTE*)module, &dwSize) != ERROR_SUCCESS) { RegCloseKey(hKey); free(module); return; } RegCloseKey(hKey); *sspi_module = module; } static SecurityFunctionTable* auth_resolve_sspi_table(const rdpSettings* settings) { char* sspi_module = NULL; WINPR_ASSERT(settings); if (settings->ServerMode) auth_get_sspi_module_from_reg(&sspi_module); if (sspi_module || settings->SspiModule) { INIT_SECURITY_INTERFACE InitSecurityInterface_ptr = NULL; const char* module_name = sspi_module ? sspi_module : settings->SspiModule; #ifdef UNICODE const char* proc_name = "InitSecurityInterfaceW"; #else const char* proc_name = "InitSecurityInterfaceA"; #endif /* UNICODE */ HMODULE hSSPI = LoadLibraryX(module_name); if (!hSSPI) { WLog_ERR(TAG, "Failed to load SSPI module: %s", module_name); free(sspi_module); return FALSE; } WLog_INFO(TAG, "Using SSPI Module: %s", module_name); InitSecurityInterface_ptr = (INIT_SECURITY_INTERFACE)GetProcAddress(hSSPI, proc_name); free(sspi_module); return InitSecurityInterface_ptr(); } return InitSecurityInterfaceEx(0); } static BOOL credssp_auth_setup_identity(rdpCredsspAuth* auth) { const rdpSettings* settings = NULL; SEC_WINPR_KERBEROS_SETTINGS* krb_settings = NULL; SEC_WINPR_NTLM_SETTINGS* ntlm_settings = NULL; freerdp_peer* peer = NULL; WINPR_ASSERT(auth); WINPR_ASSERT(auth->rdp_ctx); peer = auth->rdp_ctx->peer; settings = auth->rdp_ctx->settings; WINPR_ASSERT(settings); krb_settings = &auth->kerberosSettings; ntlm_settings = &auth->ntlmSettings; if (settings->KerberosLifeTime) parseKerberosDeltat(settings->KerberosLifeTime, &krb_settings->lifeTime, "lifetime"); if (settings->KerberosStartTime) parseKerberosDeltat(settings->KerberosStartTime, &krb_settings->startTime, "starttime"); if (settings->KerberosRenewableLifeTime) parseKerberosDeltat(settings->KerberosRenewableLifeTime, &krb_settings->renewLifeTime, "renewLifeTime"); if (settings->KerberosKdcUrl) { krb_settings->kdcUrl = _strdup(settings->KerberosKdcUrl); if (!krb_settings->kdcUrl) { WLog_ERR(TAG, "unable to copy kdcUrl"); return FALSE; } } if (settings->KerberosCache) { krb_settings->cache = _strdup(settings->KerberosCache); if (!krb_settings->cache) { WLog_ERR(TAG, "unable to copy cache name"); return FALSE; } } if (settings->KerberosKeytab) { krb_settings->keytab = _strdup(settings->KerberosKeytab); if (!krb_settings->keytab) { WLog_ERR(TAG, "unable to copy keytab name"); return FALSE; } } if (settings->KerberosArmor) { krb_settings->armorCache = _strdup(settings->KerberosArmor); if (!krb_settings->armorCache) { WLog_ERR(TAG, "unable to copy armorCache"); return FALSE; } } if (settings->PkinitAnchors) { krb_settings->pkinitX509Anchors = _strdup(settings->PkinitAnchors); if (!krb_settings->pkinitX509Anchors) { WLog_ERR(TAG, "unable to copy pkinitX509Anchors"); return FALSE; } } if (settings->NtlmSamFile) { ntlm_settings->samFile = _strdup(settings->NtlmSamFile); if (!ntlm_settings->samFile) { WLog_ERR(TAG, "unable to copy samFile"); return FALSE; } } if (peer && peer->SspiNtlmHashCallback) { ntlm_settings->hashCallback = peer->SspiNtlmHashCallback; ntlm_settings->hashCallbackArg = peer; } if (settings->AuthenticationPackageList) { auth->package_list = ConvertUtf8ToWCharAlloc(settings->AuthenticationPackageList, NULL); if (!auth->package_list) return FALSE; } auth->identity.Flags |= SEC_WINNT_AUTH_IDENTITY_UNICODE; auth->identity.Flags |= SEC_WINNT_AUTH_IDENTITY_EXTENDED; return TRUE; } BOOL credssp_auth_set_spn(rdpCredsspAuth* auth, const char* service, const char* hostname) { size_t length = 0; char* spn = NULL; WINPR_ASSERT(auth); if (!hostname) return FALSE; if (!service) spn = _strdup(hostname); else { length = strlen(service) + strlen(hostname) + 2; spn = calloc(length + 1, sizeof(char)); if (!spn) return FALSE; sprintf_s(spn, length, "%s/%s", service, hostname); } if (!spn) return FALSE; #if defined(UNICODE) auth->spn = ConvertUtf8ToWCharAlloc(spn, NULL); free(spn); #else auth->spn = spn; #endif return TRUE; } static const char* parseInt(const char* v, INT32* r) { *r = 0; /* check that we have at least a digit */ if (!*v || !((*v >= '0') && (*v <= '9'))) return NULL; for (; *v && (*v >= '0') && (*v <= '9'); v++) { *r = (*r * 10) + (*v - '0'); } return v; } static BOOL parseKerberosDeltat(const char* value, INT32* dest, const char* message) { INT32 v = 0; const char* ptr = NULL; WINPR_ASSERT(value); WINPR_ASSERT(dest); WINPR_ASSERT(message); /* determine the format : * h:m[:s] (3:00:02) deltat in hours/minutes * dhms 1d4h deltat in day/hours/minutes/seconds * deltat in seconds */ ptr = strchr(value, ':'); if (ptr) { /* format like h:m[:s] */ *dest = 0; value = parseInt(value, &v); if (!value || *value != ':') { WLog_ERR(TAG, "Invalid value for %s", message); return FALSE; } *dest = v * 3600; value = parseInt(value + 1, &v); if (!value || (*value != 0 && *value != ':') || (v > 60)) { WLog_ERR(TAG, "Invalid value for %s", message); return FALSE; } *dest += v * 60; if (*value == ':') { /* have optional seconds */ value = parseInt(value + 1, &v); if (!value || (*value != 0) || (v > 60)) { WLog_ERR(TAG, "Invalid value for %s", message); return FALSE; } *dest += v; } return TRUE; } /* or dhms format */ value = parseInt(value, &v); if (!value) { WLog_ERR(TAG, "Invalid value for %s", message); return FALSE; } if (!*value || isspace(*value)) { /* interpret that as a value in seconds */ *dest = v; return TRUE; } *dest = 0; do { INT32 factor = 0; INT32 maxValue = 0; switch (*value) { case 'd': factor = 3600 * 24; maxValue = 0; break; case 'h': factor = 3600; maxValue = 0; break; case 'm': factor = 60; maxValue = 60; break; case 's': factor = 1; maxValue = 60; break; default: WLog_ERR(TAG, "invalid value for unit %c when parsing %s", *value, message); return FALSE; } if ((maxValue > 0) && (v > maxValue)) { WLog_ERR(TAG, "invalid value for unit %c when parsing %s", *value, message); return FALSE; } *dest += (v * factor); value++; if (!*value) return TRUE; value = parseInt(value, &v); if (!value || !*value) { WLog_ERR(TAG, "Invalid value for %s", message); return FALSE; } } while (TRUE); return TRUE; }