/*++ Copyright (c) Microsoft Corporation Module Name: actctxgen.cpp Abstract: APIs for generating activation contexts. Author: Michael J. Grier (MGrier) 23-Feb-2000 Revision History: xiaoyuw 09/2000 replace attributes with assembly identity --*/ #include "stdinc.h" #include #include #include #include #include "nodefactory.h" #include #include "filestream.h" #include "fusionhandle.h" #include "cteestream.h" #include "cresourcestream.h" #include "fusionxml.h" #include "util.h" #include "sxsexceptionhandling.h" #include "csxspreservelasterror.h" #include "smartptr.h" #include "cstreamtap.h" #include "pendingassembly.h" #include "actctxgenctx.h" BOOL SxspFindAssemblyByName( PACTCTXGENCTX pActCtxGenCtx, PCWSTR AssemblyName, SIZE_T AssemblyNameCch, PASSEMBLY *AssemblyFound ); BOOL SxspAddAssemblyToActivationContextGenerationContext( PACTCTXGENCTX pActCtxGenCtx, PASSEMBLY Asm ); _ACTCTXGENCTX::_ACTCTXGENCTX() : m_Contributors(NULL), m_ContributorCount(0), m_ProcessorArchitecture(0), m_LangID(0), m_Flags(0), m_ManifestOperation(MANIFEST_OPERATION_INVALID), m_ManifestOperationFlags(0), m_NextAssemblyRosterIndex(1), m_fClsidMapInitialized(FALSE), m_InitializedContributorCount(0), m_NoInherit(false), m_pNodeFactory(NULL), m_ulFileCount(0), m_fAppApplyPublisherPolicy(SXS_PUBLISHER_POLICY_APPLY_DEFAULT), m_ApplicationDirectoryHasBeenProbedForLanguageSubdirs(false), m_ApplicationDirectoryHasSpecificLanguageSubdir(false), m_ApplicationDirectoryHasGenericLanguageSubdir(false), m_ApplicationDirectoryHasSpecificSystemLanguageSubdir(false), m_ApplicationDirectoryHasGenericSystemLanguageSubdir(false) { } _ACTCTXGENCTX::~_ACTCTXGENCTX() { while (m_InitializedContributorCount) { m_InitializedContributorCount -= 1; CActivationContextGenerationContextContributor *Ctb = &m_Contributors[m_InitializedContributorCount]; Ctb->Fire_ParseEnded(this, NULL); Ctb->Fire_ActCtxGenEnded(this); } FUSION_DELETE_ARRAY(m_Contributors); m_Contributors = NULL; m_AssemblyTable.ClearNoCallback(); m_ComponentPolicyTable.ClearNoCallback(); m_PendingAssemblyList.Clear(&CPendingAssembly::DeleteYourself); m_AssemblyList.Clear(&ASSEMBLY::Release); if (m_fClsidMapInitialized) { m_fClsidMapInitialized = false; VERIFY_NTC(m_ClsidMap.Uninitialize()); } FUSION_DELETE_SINGLETON(m_pNodeFactory); m_pNodeFactory = NULL; } BOOL SxspInitActCtxGenCtx( PACTCTXGENCTX pActCtxGenCtx, ULONG ulManifestOperation, DWORD dwFlags, DWORD dwManifestOperationFlags, const CImpersonationData &ImpersonationData, USHORT ProcessorArchitecture, LANGID LangId, ULONG ApplicationDirectoryPathType, SIZE_T ApplicationDirectoryCch, PCWSTR ApplicationDirectory ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); PACTCTXCTB Ctb = NULL; CSxsLockCriticalSection lock(g_ActCtxCtbListCritSec); CStringBufferAccessor acc; // used for LangID String buffer LANGID SystemLangId = ::GetSystemDefaultUILanguage(); bool fEqual = false; PARAMETER_CHECK(pActCtxGenCtx != NULL); PARAMETER_CHECK( (ulManifestOperation == SXSP_INIT_ACT_CTX_GEN_CTX_OPERATION_PARSE_ONLY) || (ulManifestOperation == SXSP_INIT_ACT_CTX_GEN_CTX_OPERATION_GENERATE_ACTIVATION_CONTEXT) || (ulManifestOperation == SXSP_INIT_ACT_CTX_GEN_CTX_OPERATION_INSTALL)); PARAMETER_CHECK( (ApplicationDirectoryPathType == ACTIVATION_CONTEXT_PATH_TYPE_NONE) || (ApplicationDirectoryPathType == ACTIVATION_CONTEXT_PATH_TYPE_WIN32_FILE)); PARAMETER_CHECK((dwFlags & ~(SXS_GENERATE_ACTCTX_SYSTEM_DEFAULT | SXS_GENERATE_ACTCTX_APP_RUNNING_IN_SAFEMODE)) == 0); PARAMETER_CHECK((dwFlags == 0) || (dwFlags == SXS_GENERATE_ACTCTX_SYSTEM_DEFAULT) || (dwFlags == SXS_GENERATE_ACTCTX_APP_RUNNING_IN_SAFEMODE)); switch (ulManifestOperation) { case SXSP_INIT_ACT_CTX_GEN_CTX_OPERATION_PARSE_ONLY: PARAMETER_CHECK(dwManifestOperationFlags == 0); break; case SXSP_INIT_ACT_CTX_GEN_CTX_OPERATION_GENERATE_ACTIVATION_CONTEXT: PARAMETER_CHECK(dwManifestOperationFlags == 0); break; case SXSP_INIT_ACT_CTX_GEN_CTX_OPERATION_INSTALL: PARAMETER_CHECK( (dwManifestOperationFlags & ~( MANIFEST_OPERATION_INSTALL_FLAG_NOT_TRANSACTIONAL | MANIFEST_OPERATION_INSTALL_FLAG_NO_VERIFY | MANIFEST_OPERATION_INSTALL_FLAG_REPLACE_EXISTING | MANIFEST_OPERATION_INSTALL_FLAG_ABORT | MANIFEST_OPERATION_INSTALL_FLAG_FROM_DIRECTORY | MANIFEST_OPERATION_INSTALL_FLAG_FROM_DIRECTORY_RECURSIVE | MANIFEST_OPERATION_INSTALL_FLAG_MOVE | MANIFEST_OPERATION_INSTALL_FLAG_INCLUDE_CODEBASE | MANIFEST_OPERATION_INSTALL_FLAG_FROM_RESOURCE | MANIFEST_OPERATION_INSTALL_FLAG_INSTALLED_BY_DARWIN | MANIFEST_OPERATION_INSTALL_FLAG_INSTALLED_BY_OSSETUP | MANIFEST_OPERATION_INSTALL_FLAG_INSTALLED_BY_MIGRATION | MANIFEST_OPERATION_INSTALL_FLAG_CREATE_LOGFILE | MANIFEST_OPERATION_INSTALL_FLAG_REFERENCE_VALID | MANIFEST_OPERATION_INSTALL_FLAG_REFRESH | MANIFEST_OPERATION_INSTALL_FLAG_FROM_CABINET | MANIFEST_OPERATION_INSTALL_FLAG_APPLY_PATCHES | MANIFEST_OPERATION_INSTALL_FLAG_FORCE_LOOK_FOR_CATALOG | MANIFEST_OPERATION_INSTALL_FLAG_COMMIT)) == 0); break; } pActCtxGenCtx->m_ProcessorArchitecture = ProcessorArchitecture; pActCtxGenCtx->m_LangID = LangId; pActCtxGenCtx->m_SystemLangID = SystemLangId; pActCtxGenCtx->m_SpecificLanguage.Clear(); IFW32FALSE_EXIT(pActCtxGenCtx->m_ApplicationDirectoryBuffer.Win32Assign(ApplicationDirectory, ApplicationDirectoryCch)); pActCtxGenCtx->m_ApplicationDirectoryPathType = ApplicationDirectoryPathType; IFW32FALSE_EXIT(::SxspMapLANGIDToCultures(LangId, pActCtxGenCtx->m_GenericLanguage, pActCtxGenCtx->m_SpecificLanguage)); IFW32FALSE_EXIT(::SxspMapLANGIDToCultures(SystemLangId, pActCtxGenCtx->m_GenericSystemLanguage, pActCtxGenCtx->m_SpecificSystemLanguage)); // If these match the user's language, clear them to avoid the probing later on. IFW32FALSE_EXIT(pActCtxGenCtx->m_SpecificSystemLanguage.Win32Equals(pActCtxGenCtx->m_SpecificLanguage, fEqual, true)); if (fEqual) pActCtxGenCtx->m_SpecificSystemLanguage.Clear(); IFW32FALSE_EXIT(pActCtxGenCtx->m_GenericSystemLanguage.Win32Equals(pActCtxGenCtx->m_GenericLanguage, fEqual, true)); if (fEqual) pActCtxGenCtx->m_GenericSystemLanguage.Clear(); pActCtxGenCtx->m_ImpersonationData = ImpersonationData; pActCtxGenCtx->m_ManifestOperation = ulManifestOperation; pActCtxGenCtx->m_Flags = dwFlags; pActCtxGenCtx->m_ManifestOperationFlags = dwManifestOperationFlags; pActCtxGenCtx->m_fAppApplyPublisherPolicy = SXS_PUBLISHER_POLICY_APPLY_DEFAULT; IFW32FALSE_EXIT(pActCtxGenCtx->m_AssemblyTable.Initialize()); IFW32FALSE_EXIT(pActCtxGenCtx->m_ComponentPolicyTable.Initialize()); IFW32FALSE_EXIT(pActCtxGenCtx->m_ApplicationPolicyTable.Initialize()); IFW32FALSE_EXIT(pActCtxGenCtx->m_ClsidMap.Initialize()); pActCtxGenCtx->m_fClsidMapInitialized = TRUE; pActCtxGenCtx->m_ClsidMappingContext.Map = &(pActCtxGenCtx->m_ClsidMap); IFW32FALSE_EXIT(::SxspGetAssemblyRootDirectory(pActCtxGenCtx->m_AssemblyRootDirectoryBuffer)); pActCtxGenCtx->m_AssemblyRootDirectoryPathType = ACTIVATION_CONTEXT_PATH_TYPE_WIN32_FILE; lock.Lock(); IFALLOCFAILED_EXIT(pActCtxGenCtx->m_Contributors = FUSION_NEW_ARRAY(CActivationContextGenerationContextContributor, g_ActCtxCtbListCount)); pActCtxGenCtx->m_ContributorCount = g_ActCtxCtbListCount; for ( (pActCtxGenCtx->m_InitializedContributorCount = 0), (Ctb=g_ActCtxCtbListHead); (Ctb != NULL) && (pActCtxGenCtx->m_InitializedContributorCount < g_ActCtxCtbListCount); (pActCtxGenCtx->m_InitializedContributorCount++), (Ctb = Ctb->m_Next) ) { ACTCTXCTB_CBACTCTXGENBEGINNING CBData; CBData.Header.Reason = ACTCTXCTB_CBREASON_ACTCTXGENBEGINNING; CBData.Header.ExtensionGuid = Ctb->GetExtensionGuidPtr(); CBData.Header.SectionId = Ctb->m_SectionId; CBData.Header.ContributorContext = Ctb->m_ContributorContext; CBData.Header.ActCtxGenContext = NULL; CBData.Header.ManifestParseContext = NULL; CBData.Header.ManifestOperation = ulManifestOperation; CBData.Header.ManifestOperationFlags = dwManifestOperationFlags; CBData.Header.Flags = dwFlags; CBData.Header.pOriginalActCtxGenCtx = pActCtxGenCtx; CBData.Header.InstallationContext = &(pActCtxGenCtx->m_InstallationContext); CBData.Header.ClsidMappingContext = &(pActCtxGenCtx->m_ClsidMappingContext); CBData.ApplicationDirectory = pActCtxGenCtx->m_ApplicationDirectoryBuffer; CBData.ApplicationDirectoryCch = pActCtxGenCtx->m_ApplicationDirectoryBuffer.Cch(); CBData.ApplicationDirectoryPathType = pActCtxGenCtx->m_ApplicationDirectoryPathType; CBData.Success = TRUE; (*(Ctb->m_CallbackFunction))((PACTCTXCTB_CALLBACK_DATA) &CBData.Header); if (!CBData.Success) { ASSERT(::FusionpGetLastWin32Error() != ERROR_SUCCESS); if (::FusionpGetLastWin32Error() == ERROR_SUCCESS) ::FusionpSetLastWin32Error(ERROR_INTERNAL_ERROR); goto Exit; } IFW32FALSE_EXIT(pActCtxGenCtx->m_Contributors[pActCtxGenCtx->m_InitializedContributorCount].Initialize(Ctb, CBData.Header.ActCtxGenContext)); } // If the list count is correct, we should be both at the end of the list // and at the max index. ASSERT(pActCtxGenCtx->m_InitializedContributorCount == g_ActCtxCtbListCount); ASSERT(Ctb == NULL); qsort(pActCtxGenCtx->m_Contributors, pActCtxGenCtx->m_ContributorCount, sizeof(CActivationContextGenerationContextContributor), &CActivationContextGenerationContextContributor::Compare); fSuccess = TRUE; Exit: return fSuccess; } BOOL SxspFireActCtxGenEnding( PACTCTXGENCTX pActCtxGenCtx ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); ULONG i; PARAMETER_CHECK(pActCtxGenCtx != NULL); for (i=0; im_InitializedContributorCount; i++) IFW32FALSE_EXIT(pActCtxGenCtx->m_Contributors[i].Fire_ActCtxGenEnding(pActCtxGenCtx)); fSuccess = TRUE; Exit: return fSuccess; } class CSxspResolvePartialReferenceLocals { public: CProbedAssemblyInformation TestReference; CSmallStringBuffer buffProcessorArchitecture; }; BOOL SxspResolvePartialReference( DWORD Flags, PCASSEMBLY ParsingAssemblyContext, PACTCTXGENCTX pActCtxGenCtx, const CAssemblyReference &PartialReference, CProbedAssemblyInformation &ProbedAssemblyInformation, bool &rfFound, CSxspResolvePartialReferenceLocals *Locals ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); CProbedAssemblyInformation &TestReference = Locals->TestReference; CSmallStringBuffer &buffProcessorArchitecture = Locals->buffProcessorArchitecture; bool fWildcardedLanguage = false; bool fWildcardedProcessorArchitecture = false; bool fAutoWow64Probing = false; bool fHasPKToken = false; bool fFound = false; USHORT wCurrentProcessorArchitecture = PROCESSOR_ARCHITECTURE_UNKNOWN; DWORD dwProbeAssemblyFlags = 0; PCWSTR pszOriginalProcessorArchitecture = NULL; SIZE_T cchOriginalProcessorArchitecture = 0; PCWSTR pszOriginalLanguage = NULL; SIZE_T cchOriginalLanguage = 0; fHasPKToken = false; rfFound = false; PARAMETER_CHECK(pActCtxGenCtx != NULL); IFINVALID_FLAGS_EXIT_WIN32(Flags, SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_OPTIONAL | SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_SKIP_WORLDWIDE); // // A partial reference needs to have processor architecture, assembly name and // assembly version filled in. We only probe based on langid. // // Copy the attributes over... IFW32FALSE_EXIT(TestReference.Initialize(PartialReference, pActCtxGenCtx)); fWildcardedProcessorArchitecture = false; fAutoWow64Probing = false; // Find out if we're either processing a processorArchitecture="*" bind or // if we're supposed to do wow64 probing IFW32FALSE_EXIT(PartialReference.IsProcessorArchitectureWildcarded(fWildcardedProcessorArchitecture)); if (pActCtxGenCtx->m_ProcessorArchitecture == PROCESSOR_ARCHITECTURE_IA32_ON_WIN64) { IFW32FALSE_EXIT(PartialReference.IsProcessorArchitectureX86(fAutoWow64Probing)); } if (fWildcardedProcessorArchitecture || fAutoWow64Probing) { wCurrentProcessorArchitecture = pActCtxGenCtx->m_ProcessorArchitecture; IFW32FALSE_EXIT(::FusionpFormatProcessorArchitecture(wCurrentProcessorArchitecture, buffProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); // We do not probe for private wow64 assemblies. if (wCurrentProcessorArchitecture == PROCESSOR_ARCHITECTURE_IA32_ON_WIN64) dwProbeAssemblyFlags |= CProbedAssemblyInformation::ProbeAssembly_SkipPrivateAssemblies; } IFW32FALSE_EXIT(PartialReference.GetProcessorArchitecture(pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); IFW32FALSE_EXIT(PartialReference.GetLanguage(pszOriginalLanguage, cchOriginalLanguage)); TryItAllAgain: // Let's try the few languages we can. IFW32FALSE_EXIT(PartialReference.IsLanguageWildcarded(fWildcardedLanguage)); if (!fWildcardedLanguage) { // If there's no language="*" in the dependency, let's just look for the exact match and // call it a day. if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); IFW32FALSE_EXIT(TestReference.ProbeAssembly(dwProbeAssemblyFlags, pActCtxGenCtx, CProbedAssemblyInformation::eExplicitBind, fFound)); if ((!fFound) && (fWildcardedProcessorArchitecture || fAutoWow64Probing)) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); } else { // Let's try the user's language... if (pActCtxGenCtx->m_SpecificLanguage[0] != L'\0') { // Since this is the first probe, we don't have to reset to original... if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); IFW32FALSE_EXIT(TestReference.SetLanguage(pActCtxGenCtx->m_SpecificLanguage)); IFW32FALSE_EXIT(TestReference.ProbeAssembly(dwProbeAssemblyFlags, pActCtxGenCtx, CProbedAssemblyInformation::eSpecificLanguage, fFound)); if (!fFound) { if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT( TestReference.SetProcessorArchitecture( pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetLanguage(pszOriginalLanguage, cchOriginalLanguage)); } } if (!fFound && (pActCtxGenCtx->m_GenericLanguage[0] != L'\0')) { // Try the user's slightly more generic version of the language... if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); IFW32FALSE_EXIT(TestReference.SetLanguage(pActCtxGenCtx->m_GenericLanguage)); IFW32FALSE_EXIT(TestReference.ProbeAssembly(dwProbeAssemblyFlags, pActCtxGenCtx, CProbedAssemblyInformation::eGenericLanguage, fFound)); if (!fFound) { if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT( TestReference.SetProcessorArchitecture( pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetLanguage(pszOriginalLanguage, cchOriginalLanguage)); } } // Let's try the system's installed language... if (!fFound && (pActCtxGenCtx->m_SpecificSystemLanguage[0] != L'\0')) { if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); IFW32FALSE_EXIT(TestReference.SetLanguage(pActCtxGenCtx->m_SpecificSystemLanguage)); IFW32FALSE_EXIT(TestReference.ProbeAssembly(dwProbeAssemblyFlags, pActCtxGenCtx, CProbedAssemblyInformation::eSpecificSystemLanguage, fFound)); if (!fFound) { if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT( TestReference.SetProcessorArchitecture( pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetLanguage(pszOriginalLanguage, cchOriginalLanguage)); } } if (!fFound && (pActCtxGenCtx->m_GenericSystemLanguage[0] != L'\0')) { // Try the user's slightly more generic version of the language... if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); IFW32FALSE_EXIT(TestReference.SetLanguage(pActCtxGenCtx->m_GenericSystemLanguage)); IFW32FALSE_EXIT(TestReference.ProbeAssembly(dwProbeAssemblyFlags, pActCtxGenCtx, CProbedAssemblyInformation::eGenericSystemLanguage, fFound)); if (!fFound) { if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT( TestReference.SetProcessorArchitecture( pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetLanguage(pszOriginalLanguage, cchOriginalLanguage)); } } // If we haven't found a language specific one and the caller did not // request us to skip the language-dependent ones, try for a language neutral if (!fFound && ((Flags & SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_SKIP_WORLDWIDE) == 0)) { // Try with no language! if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); IFW32FALSE_EXIT(TestReference.ClearLanguage()); IFW32FALSE_EXIT(TestReference.ProbeAssembly(dwProbeAssemblyFlags, pActCtxGenCtx, CProbedAssemblyInformation::eLanguageNeutral, fFound)); if (!fFound) { if (fWildcardedProcessorArchitecture || fAutoWow64Probing) IFW32FALSE_EXIT( TestReference.SetProcessorArchitecture( pszOriginalProcessorArchitecture, cchOriginalProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetLanguage(pszOriginalLanguage, cchOriginalLanguage)); } } } if (!fFound) { // If we're automatically searching for wow64 assemblies and the processor architecture we just tried // was ia32-on-win64, try again with plain PROCESSOR_ARCHITECTURE_INTEL. if (fAutoWow64Probing && (wCurrentProcessorArchitecture == PROCESSOR_ARCHITECTURE_IA32_ON_WIN64)) { wCurrentProcessorArchitecture = PROCESSOR_ARCHITECTURE_INTEL; dwProbeAssemblyFlags &= ~(CProbedAssemblyInformation::ProbeAssembly_SkipPrivateAssemblies); IFW32FALSE_EXIT(::FusionpFormatProcessorArchitecture(wCurrentProcessorArchitecture, buffProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); pszOriginalProcessorArchitecture = buffProcessorArchitecture; cchOriginalProcessorArchitecture = buffProcessorArchitecture.Cch(); goto TryItAllAgain; } // If we're handling a processorArchitecture="*" bind and the current processor architecture hasn't fallen // back to PROCESSOR_ARCHITECTURE_UNKNOWN ( == data-only assemblies), fall back now. if (fWildcardedProcessorArchitecture && (wCurrentProcessorArchitecture != PROCESSOR_ARCHITECTURE_UNKNOWN)) { wCurrentProcessorArchitecture = PROCESSOR_ARCHITECTURE_UNKNOWN; // data-only private assemblies cannot be found with processorArchitecture="*" dwProbeAssemblyFlags |= CProbedAssemblyInformation::ProbeAssembly_SkipPrivateAssemblies; IFW32FALSE_EXIT(::FusionpFormatProcessorArchitecture(wCurrentProcessorArchitecture, buffProcessorArchitecture)); IFW32FALSE_EXIT(TestReference.SetProcessorArchitecture(buffProcessorArchitecture, buffProcessorArchitecture.Cch())); pszOriginalProcessorArchitecture = buffProcessorArchitecture; cchOriginalProcessorArchitecture = buffProcessorArchitecture.Cch(); goto TryItAllAgain; } // If it wasn't optional, declare an error. if ((Flags & SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_OPTIONAL) == 0) { // NTRAID#NTBUG9 - 571854 - 2002/03/26 - xiaoyuw // the default value would never get used since GetAssemblyName always reset the input parameter to be NULL; PCWSTR AssemblyName = L""; SIZE_T AssemblyNameCch = NUMBER_OF(L"") - 1; TestReference.GetAssemblyName(&AssemblyName, &AssemblyNameCch); ::FusionpLogError( MSG_SXS_MANIFEST_PARSE_DEPENDENCY, CUnicodeString(AssemblyName, AssemblyNameCch), CEventLogLastError(ERROR_SXS_ASSEMBLY_NOT_FOUND)); ORIGINATE_WIN32_FAILURE_AND_EXIT(AssemblyProbingFailed, ERROR_SXS_ASSEMBLY_NOT_FOUND); } } else IFW32FALSE_EXIT(ProbedAssemblyInformation.TakeValue(TestReference)); rfFound = fFound; fSuccess = TRUE; Exit: if (!fSuccess) { CSxsPreserveLastError ple; PCWSTR pszAssemblyName = NULL; SIZE_T AssemblyNameCch = 0; PartialReference.GetAssemblyName(&pszAssemblyName, &AssemblyNameCch); ::FusionpLogError( MSG_SXS_FUNCTION_CALL_FAIL, CEventLogString(L"Resolve Partial Assembly"), (pszAssemblyName != NULL) ? CEventLogString(static_cast(pszAssemblyName)) : CEventLogString(L"Assembly Name Unknown"), CEventLogLastError(ple.LastError())); ple.Restore(); } return fSuccess; } BOOL SxspResolvePartialReference( DWORD Flags, PCASSEMBLY ParsingAssemblyContext, PACTCTXGENCTX pActCtxGenCtx, const CAssemblyReference &PartialReference, CProbedAssemblyInformation &ProbedAssemblyInformation, bool &rfFound ) { FN_PROLOG_WIN32 CSmartPtr Locals; IFW32FALSE_EXIT(Locals.Win32Allocate(__FILE__, __LINE__)); IFW32FALSE_EXIT( SxspResolvePartialReference( Flags, ParsingAssemblyContext, pActCtxGenCtx, PartialReference, ProbedAssemblyInformation, rfFound, Locals )); FN_EPILOG } BOOL SxspAddManifestToActCtxGenCtx( PACTCTXGENCTX pActCtxGenCtx, CProbedAssemblyInformation &ProbedInformation, PASSEMBLY *AssemblyOut ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); PASSEMBLY Asm = NULL; PCWSTR ProbedAssemblyName = 0; SIZE_T ProbedAssemblyNameCch = 0; if (AssemblyOut != NULL) *AssemblyOut = NULL; PARAMETER_CHECK(pActCtxGenCtx != NULL); IFW32FALSE_EXIT(ProbedInformation.GetAssemblyName(&ProbedAssemblyName, &ProbedAssemblyNameCch)); // NTRAID#NTBUG9 - 571854 - 2002/03/26 - xiaoyuw: // INTERNAL_ERROR_CHECK or ASSERT should be added here // INTERNAL_ERROR_CHECK(ProbedAssemblyName != NULL && ProbedAssemblyNameCch != 0); // First, let's see if we've already found this assembly. IFW32FALSE_EXIT(::SxspFindAssemblyByName(pActCtxGenCtx, ProbedAssemblyName, ProbedAssemblyNameCch, &Asm)); // Same name... if the metadata is different, we're in trouble. if (Asm != NULL) { BOOL fEqualIdentity; // Both identities should be definitions, so no need to set the ref-matches-def flag... IFW32FALSE_EXIT( ::SxsAreAssemblyIdentitiesEqual( SXS_ARE_ASSEMBLY_IDENTITIES_EQUAL_FLAG_ALLOW_REF_TO_MATCH_DEF, Asm->GetAssemblyIdentity(), ProbedInformation.GetAssemblyIdentity(), &fEqualIdentity)); if (!fEqualIdentity) { PCWSTR MP1 = L""; PCWSTR MP2 = MP1; ProbedInformation.GetManifestPath(&MP1, NULL); Asm->m_ProbedAssemblyInformation.GetManifestPath(&MP2, NULL); Asm = NULL; ::FusionpDbgPrintEx(FUSION_DBG_LEVEL_ERROR, "SXS.DLL: Failing to add new manifest %S to activation context because it conflicts with existing %S\n", MP1, MP2); ORIGINATE_WIN32_FAILURE_AND_EXIT(VersionConflict, ERROR_SXS_VERSION_CONFLICT); } } if (Asm == NULL) { IFALLOCFAILED_EXIT(Asm = FUSION_NEW_SINGLETON(ASSEMBLY)); IFW32FALSE_EXIT(::SxspInitAssembly(Asm, ProbedInformation)); IFW32FALSE_EXIT(::SxspAddAssemblyToActivationContextGenerationContext(pActCtxGenCtx, Asm)); } if (AssemblyOut != NULL) { *AssemblyOut = Asm; Asm = NULL; } fSuccess = TRUE; Exit: if (Asm != NULL) Asm->Release(); return fSuccess; } BOOL SxspAddAssemblyToActivationContextGenerationContext( PACTCTXGENCTX pActCtxGenCtx, PASSEMBLY Asm ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); PARAMETER_CHECK(pActCtxGenCtx != NULL); PARAMETER_CHECK(Asm != NULL); // If you hit either of these asserts, either the assembly structure has been trashed or // it's already been added to the generation context. ASSERT(Asm->m_AssemblyRosterIndex == 0); Asm->m_AssemblyRosterIndex = pActCtxGenCtx->m_NextAssemblyRosterIndex++; pActCtxGenCtx->m_AssemblyList.AddToTail(Asm); Asm->AddRef(); if (pActCtxGenCtx->m_ManifestOperation != MANIFEST_OPERATION_INSTALL) { PCWSTR AssemblyName = NULL; IFW32FALSE_EXIT(Asm->GetAssemblyName(&AssemblyName, NULL)); IFW32FALSE_EXIT(pActCtxGenCtx->m_AssemblyTable.Insert(AssemblyName, Asm, ERROR_SXS_DUPLICATE_ASSEMBLY_NAME)); } fSuccess = TRUE; Exit: return fSuccess; } BOOL SxspFindAssemblyByName( PACTCTXGENCTX pActCtxGenCtx, PCWSTR AssemblyName, SIZE_T AssemblyNameCch, PASSEMBLY *AssemblyOut ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); CSmallStringBuffer AssemblyNameBuffer; PASSEMBLY Result = NULL; if (AssemblyOut != NULL) *AssemblyOut = NULL; PARAMETER_CHECK(AssemblyOut != NULL); PARAMETER_CHECK(pActCtxGenCtx != NULL); // Unfortunately, we really need the string to be null terminated... IFW32FALSE_EXIT(AssemblyNameBuffer.Win32Assign(AssemblyName, AssemblyNameCch)); AssemblyName = AssemblyNameBuffer; IFW32FALSE_EXIT(pActCtxGenCtx->m_AssemblyTable.Find(AssemblyName, Result)); if (Result != NULL) Result->AddRef(); *AssemblyOut = Result; fSuccess = TRUE; Exit: return fSuccess; } BOOL SxspAddRootManifestToActCtxGenCtx( PACTCTXGENCTX pActCtxGenCtx, PCSXS_GENERATE_ACTIVATION_CONTEXT_PARAMETERS Parameters ) { FN_PROLOG_WIN32 CProbedAssemblyInformation AssemblyInfo; PARAMETER_CHECK(Parameters != NULL); PARAMETER_CHECK(pActCtxGenCtx != NULL); #define IS_NT_DOS_PATH(_x) (IS_PATH_SEPARATOR_U((_x)[0]) && ((_x)[1] == L'?') && ((_x)[2] == L'?') && IS_PATH_SEPARATOR_U((_x)[3])) PARAMETER_CHECK((Parameters->AssemblyDirectory == NULL) || (IS_NT_DOS_PATH(Parameters->AssemblyDirectory) == FALSE)); PARAMETER_CHECK((Parameters->AssemblyDirectory == NULL) || (IS_NT_DOS_PATH(Parameters->AssemblyDirectory) == FALSE)); PARAMETER_CHECK((Parameters->Manifest.Path == NULL) || (IS_NT_DOS_PATH(Parameters->Manifest.Path) == FALSE)); PARAMETER_CHECK((Parameters->Policy.Path == NULL) || (IS_NT_DOS_PATH(Parameters->Policy.Path) == FALSE)); IFW32FALSE_EXIT(AssemblyInfo.Initialize(pActCtxGenCtx)); IFW32FALSE_EXIT(AssemblyInfo.SetManifestPath( ACTIVATION_CONTEXT_PATH_TYPE_WIN32_FILE, Parameters->Manifest.Path, (Parameters->Manifest.Path != NULL) ? ::wcslen(Parameters->Manifest.Path) : 0)); ASSERT(Parameters->Manifest.Stream != NULL); IFW32FALSE_EXIT(AssemblyInfo.SetManifestStream(Parameters->Manifest.Stream)); IFW32FALSE_EXIT(AssemblyInfo.SetManifestFlags(ASSEMBLY_MANIFEST_FILETYPE_STREAM)); IFW32FALSE_EXIT(AssemblyInfo.SetPolicyPath( ACTIVATION_CONTEXT_PATH_TYPE_WIN32_FILE, Parameters->Policy.Path, (Parameters->Policy.Path != NULL) ? ::wcslen(Parameters->Policy.Path) : 0)); IFW32FALSE_EXIT(AssemblyInfo.SetPolicyStream(Parameters->Policy.Stream)); IFW32FALSE_EXIT(AssemblyInfo.SetPolicyFlags(ASSEMBLY_POLICY_FILETYPE_STREAM)); IFW32FALSE_EXIT(::SxspAddManifestToActCtxGenCtx(pActCtxGenCtx, AssemblyInfo, NULL)); FN_EPILOG #undef IS_NT_DOS_PATH } BOOL SxspInitAssembly( PASSEMBLY Asm, CProbedAssemblyInformation &AssemblyInfo ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); PARAMETER_CHECK(Asm != NULL); IFW32FALSE_EXIT(Asm->m_ProbedAssemblyInformation.InitializeTakeValue(AssemblyInfo)); Asm->m_Incorporated = FALSE; Asm->m_ManifestVersionMajor = 0; Asm->m_ManifestVersionMinor = 0; fSuccess = TRUE; Exit: return fSuccess; } class CSxspIncorporateAssemblyLocals { public: #if FUSION_XML_TREE SXS_XML_STRING LocalStringArray[128]; PSXS_XML_STRING ActualStringArray; #endif STATSTG statstg; ACTCTXCTB_ASSEMBLY_CONTEXT AssemblyContext; CStringBuffer TextuallyEncodedIdentityBuffer; CFileStream ProbeFileTypeStream; CFileStream FileStream; }; BOOL SxspIncorporateAssembly( PACTCTXGENCTX pActCtxGenCtx, PASSEMBLY Asm, CSxspIncorporateAssemblyLocals *Locals ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); HRESULT hr = 0; ULONG i = 0; ACTCTXCTB_ASSEMBLY_CONTEXT &AssemblyContext = Locals->AssemblyContext; const bool fInstalling = (pActCtxGenCtx->m_ManifestOperation == MANIFEST_OPERATION_INSTALL); ULONG ManifestType = (Asm->m_ProbedAssemblyInformation.GetManifestFlags() & ASSEMBLY_MANIFEST_FILETYPE_MASK); CImpersonate impersonate(pActCtxGenCtx->m_ImpersonationData); SXS_POLICY_SOURCE s; #if FUSION_XML_TREE PSXS_XML_STRING ActualStringArray = Locals->LocalStringArray; #endif STATSTG &statstg = Locals->statstg; // declaration order here is partially deliberate, to control cleanup order. // normally, declaration order is determined by not declaring until you have // the data to initialize with the ctor, but the use of goto messes that up CFileStream &FileStream = Locals->FileStream; CSmartPtr ResourceStream; CSmartPtr TeeStreamForManifestInstall; #if FUSION_PRECOMPILED_MANIFEST CSmartPtr pcmWriterStream; #endif CNodeFactory *pNodeFactory = NULL; CSmartRef pIXMLParser; PASSEMBLY_IDENTITY AssemblyIdentity = NULL; CStringBuffer &TextuallyEncodedIdentityBuffer = Locals->TextuallyEncodedIdentityBuffer; PCWSTR ManifestPath = NULL; PARAMETER_CHECK(Asm != NULL); PARAMETER_CHECK(!Asm->m_Incorporated); PARAMETER_CHECK(pActCtxGenCtx != NULL); // set flags AssemblyContext.Flags = 0; s = Asm->m_ProbedAssemblyInformation.GetPolicySource(); if ( s == SXS_POLICY_SYSTEM_POLICY) AssemblyContext.Flags |= ACTCTXCTB_ASSEMBLY_CONTEXT_ASSEMBLY_POLICY_APPLIED; else if (s == SXS_POLICY_ROOT_POLICY) AssemblyContext.Flags |= ACTCTXCTB_ASSEMBLY_CONTEXT_ROOT_POLICY_APPLIED; if (Asm->IsRoot()) AssemblyContext.Flags |= ACTCTXCTB_ASSEMBLY_CONTEXT_IS_ROOT_ASSEMBLY; if (Asm->m_ProbedAssemblyInformation.IsPrivateAssembly()) AssemblyContext.Flags |= ACTCTXCTB_ASSEMBLY_CONTEXT_IS_PRIVATE_ASSEMBLY; if (Asm->m_ProbedAssemblyInformation.GetAssemblyIdentity() != NULL) { // Convert the identity into a somewhat human-readable form that we can log etc. IFW32FALSE_EXIT( ::SxspGenerateTextualIdentity( 0, Asm->m_ProbedAssemblyInformation.GetAssemblyIdentity(), TextuallyEncodedIdentityBuffer)); AssemblyContext.TextuallyEncodedIdentity = TextuallyEncodedIdentityBuffer; AssemblyContext.TextuallyEncodedIdentityCch = TextuallyEncodedIdentityBuffer.Cch(); } else { AssemblyContext.TextuallyEncodedIdentity = L""; AssemblyContext.TextuallyEncodedIdentityCch = 22; } // copy assembly-identity info IFW32FALSE_EXIT(::SxsDuplicateAssemblyIdentity(SXS_DUPLICATE_ASSEMBLY_IDENTITY_FLAG_ALLOW_NULL, Asm->m_ProbedAssemblyInformation.GetAssemblyIdentity(), &AssemblyIdentity)); AssemblyContext.AssemblyIdentity = AssemblyIdentity; // assign to pointer-to-const in the struct; can't pass struct member pointer directly IFW32FALSE_EXIT(Asm->m_ProbedAssemblyInformation.GetManifestPath(&AssemblyContext.ManifestPath, &AssemblyContext.ManifestPathCch)); AssemblyContext.ManifestPathType = Asm->GetManifestPathType(); IFW32FALSE_EXIT(Asm->m_ProbedAssemblyInformation.GetPolicyPath(AssemblyContext.PolicyPath, AssemblyContext.PolicyPathCch)); AssemblyContext.PolicyPathType = Asm->GetPolicyPathType(); AssemblyContext.AssemblyRosterIndex = Asm->m_AssemblyRosterIndex; if (fInstalling) { IFW32FALSE_EXIT(TeeStreamForManifestInstall.Win32Allocate(__FILE__, __LINE__)); AssemblyContext.TeeStreamForManifestInstall = TeeStreamForManifestInstall; AssemblyContext.InstallationInfo = pActCtxGenCtx->m_InstallationContext.InstallSource; AssemblyContext.SecurityMetaData = pActCtxGenCtx->m_InstallationContext.SecurityMetaData; AssemblyContext.InstallReferenceData = pActCtxGenCtx->m_InstallationContext.InstallReferenceData; #if FUSION_PRECOMPILED_MANIFEST IFW32FALSE_EXIT(pcmWriterStream.Win32Allocate(__FILE__, __LINE__); AssemblyContext.pcmWriterStream = pcmWriterStream ; #endif } else { AssemblyContext.SecurityMetaData = NULL; AssemblyContext.TeeStreamForManifestInstall = NULL; AssemblyContext.InstallationInfo = NULL; #if FUSION_PRECOMPILED_MANIFEST AssemblyContext.pcmWriterStream = NULL; #endif } if (pActCtxGenCtx->m_pNodeFactory == NULL) { IFALLOCFAILED_EXIT(pActCtxGenCtx->m_pNodeFactory = new CNodeFactory); pActCtxGenCtx->m_pNodeFactory->AddRef(); // faked function } else pActCtxGenCtx->m_pNodeFactory->ResetParseState(); IFW32FALSE_EXIT(pActCtxGenCtx->m_pNodeFactory->Initialize(pActCtxGenCtx, Asm, &AssemblyContext)); pNodeFactory = pActCtxGenCtx->m_pNodeFactory; ASSERT(pNodeFactory != NULL); // Everyone's ready; let's get the XML parser: IFW32FALSE_EXIT(::SxspGetXMLParser(IID_IXMLParser, (LPVOID *) &pIXMLParser)); IFCOMFAILED_EXIT(pIXMLParser->SetFactory(pNodeFactory)); // // open the file or map the resource into memory // IStream* Stream; // deliberatly not "smart", we don't refcount it Stream = NULL; { // scope for impersonation for file open IFW32FALSE_EXIT(impersonate.Impersonate()); if (ManifestType == ASSEMBLY_MANIFEST_FILETYPE_AUTO_DETECT) { // // decide between xml in its own text file or a resource // in a "portable executable" by checking for the portable executable // signature, "MZ". // BYTE buffer[2] = {0,0}; ULONG cbRead = 0; CFileStream &ProbeFileTypeStream = Locals->ProbeFileTypeStream; IFW32FALSE_EXIT(Asm->m_ProbedAssemblyInformation.GetManifestPath(&ManifestPath, NULL)); IFW32FALSE_EXIT( ProbeFileTypeStream.OpenForRead( ManifestPath, CImpersonationData(), FILE_SHARE_READ, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN)); IFCOMFAILED_EXIT(ProbeFileTypeStream.Read(buffer, 2, &cbRead)); if (cbRead != 2) ORIGINATE_WIN32_FAILURE_AND_EXIT(ManifestLessThanTwoBytesLong, ERROR_SXS_MANIFEST_FORMAT_ERROR); IFW32FALSE_EXIT(ProbeFileTypeStream.Close()); // MS-DOS stub, Mark Zbikowski if (buffer[0] == 'M' && buffer[1] == 'Z') { // should we do further checking, like that PE\0\0 occurs // where the MS-DOS header says it is? ManifestType = ASSEMBLY_MANIFEST_FILETYPE_RESOURCE; } else { ManifestType = ASSEMBLY_MANIFEST_FILETYPE_FILE; } } switch (ManifestType) { case ASSEMBLY_MANIFEST_FILETYPE_RESOURCE: { if (ManifestPath == NULL) IFW32FALSE_EXIT(Asm->m_ProbedAssemblyInformation.GetManifestPath(&ManifestPath, NULL)); IFW32FALSE_EXIT(ResourceStream.Win32Allocate(__FILE__, __LINE__)); IFW32FALSE_EXIT(ResourceStream->Initialize(ManifestPath, MAKEINTRESOURCEW(RT_MANIFEST))); Stream = ResourceStream; break; } case ASSEMBLY_MANIFEST_FILETYPE_FILE: { if (ManifestPath == NULL) IFW32FALSE_EXIT(Asm->m_ProbedAssemblyInformation.GetManifestPath(&ManifestPath, NULL)); IFW32FALSE_EXIT( FileStream.OpenForRead( ManifestPath, CImpersonationData(), FILE_SHARE_READ, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN)); Stream = &FileStream; break; } case ASSEMBLY_MANIFEST_FILETYPE_STREAM: Stream = Asm->m_ProbedAssemblyInformation.GetManifestStream(); break; default: ASSERT2(FALSE, "unknown manifest file type"); break; } IFW32FALSE_EXIT(impersonate.Unimpersonate()); } // // Optionally "tee" the manifest so it gets copied into // the store while we read it, buffering until we know where in // the store it goes. The manifest itself is not referenced // in the manifest. // if (fInstalling) { IFW32FALSE_EXIT(TeeStreamForManifestInstall->InitCryptHash(CALG_SHA1)); TeeStreamForManifestInstall->SetSource(Stream); Stream = TeeStreamForManifestInstall; } // // We get E_NOTIMPL on the OutOfProcessMemoryStreams in the AppCompat case. // IFCOMFAILED_EXIT(((hr = Stream->Stat(&statstg, STATFLAG_NONAME)) != E_NOTIMPL) ? hr : NOERROR); if (hr == E_NOTIMPL) { statstg.mtime.dwLowDateTime = 0; statstg.mtime.dwHighDateTime = 0; } IFW32FALSE_EXIT( pNodeFactory->SetParseType( XML_FILE_TYPE_MANIFEST, Asm->m_ProbedAssemblyInformation.GetManifestPathType(), Asm->m_ProbedAssemblyInformation.GetManifestPath(), statstg.mtime)); INTERNAL_ERROR_CHECK(Stream != NULL); IFCOMFAILED_EXIT(pIXMLParser->SetInput(Stream)); IFCOMFAILED_EXIT(pIXMLParser->Run(-1)); IFW32FALSE_EXIT(FileStream.Close()); #if FUSION_PRECOMPILED_MANIFEST IFW32FALSE_EXIT((AssemblyContext.pcmWriterStream == NULL) || (pcmWriterStream.Close())); #endif // Tell the contributors we're done parsing this file for (i=0; im_ContributorCount; i++) IFW32FALSE_EXIT( pActCtxGenCtx->m_Contributors[i].Fire_ParseEnding( pActCtxGenCtx, &AssemblyContext)); #if FUSION_XML_TREE // Now let's fill in the document's string table. StringTableEntryCount = pNodeFactory->m_ParseTreeStringPool.GetEntryCount() + 1; if (StringTableEntryCount > NUMBER_OF(Locals->LocalStringArray)) IFALLOCFAILED_EXIT(ActualStringArray = FUSION_NEW_ARRAY(SXS_XML_STRING, StringTableEntryCount)); IFW32FALSE_EXIT(pNodeFactory->m_ParseTreeStringPool.FillInStringArray(StringTableEntryCount, ActualStringArray, EntriesFilledIn)); // The size should have been an exact match. ASSERT(EntriesFilledIn == StringTableEntryCount); pNodeFactory->m_XmlDocument.StringCount = EntriesFilledIn; pNodeFactory->m_XmlDocument.Strings = ActualStringArray; ::SxspDumpXmlTree(0, &(pNodeFactory->m_XmlDocument)); pNodeFactory->m_XmlDocument.StringCount = 0; pNodeFactory->m_XmlDocument.Strings = NULL; if (ActualStringArray != Locals->LocalStringArray) { FUSION_DELETE_ARRAY(ActualStringArray); ActualStringArray = NULL; } #endif // FUSION_XML_TREE Asm->m_Incorporated = TRUE; fSuccess = TRUE; Exit: // And tell them we're done. for (i=0; im_ContributorCount; i++) pActCtxGenCtx->m_Contributors[i].Fire_ParseEnded(pActCtxGenCtx, &AssemblyContext); return fSuccess; } BOOL SxspIncorporateAssembly( PACTCTXGENCTX pActCtxGenCtx, PASSEMBLY Asm ) { FN_PROLOG_WIN32 CSmartPtr Locals; PARAMETER_CHECK(Asm != NULL); PARAMETER_CHECK(!Asm->m_Incorporated); PARAMETER_CHECK(pActCtxGenCtx != NULL); IFW32FALSE_EXIT(Locals.Win32Allocate(__FILE__, __LINE__)); IFW32FALSE_EXIT(::SxspIncorporateAssembly(pActCtxGenCtx, Asm, Locals)); FN_EPILOG } BOOL SxspEnqueueAssemblyReference( PACTCTXGENCTX pActCtxGenCtx, PASSEMBLY SourceAssembly, PCASSEMBLY_IDENTITY Identity, bool Optional, bool MetadataSatellite ) { FN_PROLOG_WIN32 CSmartPtr PendingAssembly; PARAMETER_CHECK(Identity != NULL); PARAMETER_CHECK(pActCtxGenCtx != NULL); IFW32FALSE_EXIT(PendingAssembly.Win32Allocate(__FILE__, __LINE__)); IFW32FALSE_EXIT(PendingAssembly->Initialize(SourceAssembly, Identity, Optional, MetadataSatellite)); pActCtxGenCtx->m_PendingAssemblyList.AddToTail(PendingAssembly.Detach()); FN_EPILOG } class CSxspProcessPendingAssembliesLocals { public: CSmallStringBuffer buffName; CProbedAssemblyInformation MuiAssemblyFound; CProbedAssemblyInformation AssemblyFound; }; BOOL SxspProcessPendingAssemblies( PACTCTXGENCTX pActCtxGenCtx, CSxspProcessPendingAssembliesLocals *Locals ) { FN_PROLOG_WIN32 CPendingAssembly *EntryToDelete = NULL; CSmartPtrWithNamedDestructor MuiAssemblyIdentity; CDequeIterator Iter(&pActCtxGenCtx->m_PendingAssemblyList); PARAMETER_CHECK(pActCtxGenCtx != NULL); for (Iter.Reset(); Iter.More(); Iter.Next()) { bool fFound = false; CAssemblyReference TargetAssemblyRef; CProbedAssemblyInformation &AssemblyFound = Locals->AssemblyFound; AssemblyFound.Reinitialize(); CSmartRef Assembly; if (EntryToDelete != NULL) { pActCtxGenCtx->m_PendingAssemblyList.Remove(EntryToDelete); FUSION_DELETE_SINGLETON(EntryToDelete); } EntryToDelete = NULL; IFW32FALSE_EXIT(AssemblyFound.Initialize(pActCtxGenCtx)); IFW32FALSE_EXIT(TargetAssemblyRef.Initialize(Iter->GetIdentity())); IFW32FALSE_EXIT( ::SxspResolvePartialReference( Iter->IsOptional() ? SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_OPTIONAL : 0, Iter->SourceAssembly(), pActCtxGenCtx, TargetAssemblyRef, AssemblyFound, fFound)); INTERNAL_ERROR_CHECK(fFound || Iter->IsOptional()); if (fFound) { PCASSEMBLY_IDENTITY pAssemblyIdentity = NULL; PCWSTR szLanguage; SIZE_T cchLanguage; IFW32FALSE_EXIT(::SxspAddManifestToActCtxGenCtx(pActCtxGenCtx, AssemblyFound, &Assembly)); // Note that AssemblyFound is no longer intact; this is to avoid duplication of // the assembly identity inside the SxspAddManifestToActCtxGenCtx() call. if (Iter->IsMetadataSatellite()) Iter->SourceAssembly()->m_MetadataSatelliteRosterIndex = Assembly->m_AssemblyRosterIndex; // If it's a worldwide assembly, we want to auto-probe for the MUI assembly IFW32FALSE_EXIT( ::SxspGetAssemblyIdentityAttributeValue( SXSP_GET_ASSEMBLY_IDENTITY_ATTRIBUTE_VALUE_FLAG_NOT_FOUND_RETURNS_NULL, Assembly->m_ProbedAssemblyInformation.GetAssemblyIdentity(), &s_IdentityAttribute_language, &szLanguage, &cchLanguage)); if (cchLanguage == 0) { CSmallStringBuffer &buffName = Locals->buffName; PCWSTR szName; SIZE_T cchName; CProbedAssemblyInformation &MuiAssemblyFound = Locals->MuiAssemblyFound; MuiAssemblyFound.Reinitialize(); CAssemblyReference MuiAssemblyRef; ::SxsDestroyAssemblyIdentity(MuiAssemblyIdentity.Detach()); IFW32FALSE_EXIT( ::SxsDuplicateAssemblyIdentity( 0, Assembly->m_ProbedAssemblyInformation.GetAssemblyIdentity(), // PCASSEMBLY_IDENTITY Source, &MuiAssemblyIdentity)); IFW32FALSE_EXIT( ::SxspSetAssemblyIdentityAttributeValue( SXSP_SET_ASSEMBLY_IDENTITY_ATTRIBUTE_VALUE_FLAG_OVERWRITE_EXISTING, MuiAssemblyIdentity, &s_IdentityAttribute_language, L"*", 1)); IFW32FALSE_EXIT( ::SxspGetAssemblyIdentityAttributeValue( 0, MuiAssemblyIdentity, &s_IdentityAttribute_name, &szName, &cchName)); IFW32FALSE_EXIT(buffName.Win32Assign(szName, cchName)); IFW32FALSE_EXIT(buffName.Win32Append(L".mui", 4)); IFW32FALSE_EXIT( ::SxspSetAssemblyIdentityAttributeValue( SXSP_SET_ASSEMBLY_IDENTITY_ATTRIBUTE_VALUE_FLAG_OVERWRITE_EXISTING, MuiAssemblyIdentity, &s_IdentityAttribute_name, buffName, buffName.Cch())); IFW32FALSE_EXIT(MuiAssemblyFound.Initialize(pActCtxGenCtx)); IFW32FALSE_EXIT(MuiAssemblyRef.Initialize(MuiAssemblyIdentity)); IFW32FALSE_EXIT( ::SxspResolvePartialReference( SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_OPTIONAL | SXSP_RESOLVE_PARTIAL_REFERENCE_FLAG_SKIP_WORLDWIDE, Iter->SourceAssembly(), pActCtxGenCtx, MuiAssemblyRef, MuiAssemblyFound, fFound)); if (fFound) IFW32FALSE_EXIT(::SxspAddManifestToActCtxGenCtx(pActCtxGenCtx, MuiAssemblyFound, NULL)); } } EntryToDelete = Iter; } if (EntryToDelete != NULL) { pActCtxGenCtx->m_PendingAssemblyList.Remove(EntryToDelete); FUSION_DELETE_SINGLETON(EntryToDelete); } FN_EPILOG } BOOL SxspProcessPendingAssemblies( PACTCTXGENCTX pActCtxGenCtx ) { FN_PROLOG_WIN32 CSmartPtr Locals; IFW32FALSE_EXIT(Locals.Win32Allocate(__FILE__, __LINE__)); IFW32FALSE_EXIT(::SxspProcessPendingAssemblies(pActCtxGenCtx, Locals)); FN_EPILOG } BOOL SxspCloseManifestGraph( PACTCTXGENCTX pActCtxGenCtx ) { FN_PROLOG_WIN32 CDequeIterator Iter(&pActCtxGenCtx->m_AssemblyList); PARAMETER_CHECK(pActCtxGenCtx != NULL); // We need to just walk the list of assemblies, incorporating any that aren't already // incorporated into the actctx data. New ones found during incorporation are appended // to the end of the list, so we should complete everything with a single walk. for (Iter.Reset(); Iter.More(); Iter.Next()) { if (!Iter->m_Incorporated) { IFW32FALSE_EXIT(::SxspIncorporateAssembly(pActCtxGenCtx, Iter)); } else { PCWSTR AssemblyName = L""; PCWSTR ManifestPath = L""; Iter->m_ProbedAssemblyInformation.GetAssemblyName(&AssemblyName, NULL); Iter->m_ProbedAssemblyInformation.GetManifestPath(&ManifestPath, NULL); #if DBG ::FusionpDbgPrintEx(FUSION_DBG_LEVEL_INFO, "SXS.DLL: Skipping already incorporated assembly %S (manifest: %S)\n", AssemblyName, ManifestPath); #endif } IFW32FALSE_EXIT(::SxspProcessPendingAssemblies(pActCtxGenCtx)); } FN_EPILOG } BOOL SxspBuildActCtxData( PACTCTXGENCTX pActCtxGenCtx, PHANDLE SectionHandle ) { FN_PROLOG_WIN32 CActivationContextGenerationContextContributor *Ctb = NULL; SIZE_T SectionTotalSize = 0; SIZE_T TotalHeaderSize = 0; SIZE_T AssemblyRosterSize = 0; ULONG SectionCount = 0; ULONG ExtendedSectionCount = 0; ULONG NonExtendedSectionCount = 0; CSmartArrayPtr ExtendedSectionGuids; ULONG ExtensionGuidCount = 0; PACTIVATION_CONTEXT_DATA ActCtxData = NULL; CMappedViewOfFile VoidActCtxData; CFileMapping TempMappingHandle; BYTE *Cursor = NULL; ULONG i; CDequeIterator AssemblyIter(&pActCtxGenCtx->m_AssemblyList); PACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_HEADER AssemblyRosterHeader = NULL; PACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY AssemblyRosterEntry = NULL; PCACTIVATION_CONTEXT_STRING_SECTION_HEADER AssemblyInformationSection = NULL; // we use this after the main part of // processing to fill in the assembly roster PARAMETER_CHECK(pActCtxGenCtx != NULL); INTERNAL_ERROR_CHECK(pActCtxGenCtx->m_ManifestOperation == MANIFEST_OPERATION_GENERATE_ACTIVATION_CONTEXT); // Let's see how big this whole thing is going to be now. for (i=0; im_ContributorCount; i++) { Ctb = &pActCtxGenCtx->m_Contributors[i]; IFW32FALSE_EXIT(Ctb->Fire_AllParsingDone(pActCtxGenCtx)); IFW32FALSE_EXIT(Ctb->Fire_GetSectionSize(pActCtxGenCtx)); if (Ctb->SectionSize() > ULONG_MAX) { ::FusionpDbgPrintEx( FUSION_DBG_LEVEL_ERROR, "SXS.DLL: Contributor %S wants more than ULONG_MAX bytes for its section; failing activation context creation.\n", Ctb->Name()); ORIGINATE_WIN32_FAILURE_AND_EXIT(ContributorNeedsMoreThan2ToThe32ndBytes, ERROR_INSUFFICIENT_BUFFER); } SectionTotalSize += Ctb->SectionSize(); if (Ctb->SectionSize() != 0) { SectionCount++; if (Ctb->IsExtendedSection()) ExtendedSectionCount++; else NonExtendedSectionCount++; } } ASSERT(SectionCount == (ExtendedSectionCount + NonExtendedSectionCount)); // If we had any extended sections, we need to figure out how many // unique extension GUIDs were present. ExtensionGuidCount = 0; if (ExtendedSectionCount != 0) { // There may only be one GUID with 1000 instances, but for the sake of // simplicity, we'll just allocate an array equal in size to the number // of extended sections, and do a linear search to find dups. This // is a clear candidate for rewriting if the extensibility story // takes off. -mgrier 2/24/2000 IFW32FALSE_EXIT(ExtendedSectionGuids.Win32Allocate(ExtendedSectionCount, __FILE__, __LINE__)); // IFALLOCFAILED_EXIT(ExtendedSectionGuids = FUSION_NEW_ARRAY(GUID, ExtendedSectionCount)); for (i=0; im_ContributorCount; i++) { Ctb = &pActCtxGenCtx->m_Contributors[i]; if ((Ctb->SectionSize() != 0) && Ctb->IsExtendedSection()) { ULONG j; for (j=0; jExtensionGuid()) break; } if (j == ExtensionGuidCount) ExtendedSectionGuids[ExtensionGuidCount++] = Ctb->ExtensionGuid(); } } } // Figure out the entire size. SectionTotalSize already includes all the // particular data from the sections; now we need to add in space for the // headers etc. TotalHeaderSize = 0; // The header for the whole thing TotalHeaderSize += sizeof(ACTIVATION_CONTEXT_DATA); if (NonExtendedSectionCount != 0) { // The header for the default section TOC TotalHeaderSize += sizeof(ACTIVATION_CONTEXT_DATA_TOC_HEADER); // The entry for each non-extended section entry in the TOC. For now we'll // just put the entries in whatever order they're in in the contributor list. // the code is in place to do the linear searches and we can optimize this // later. TotalHeaderSize += (sizeof(ACTIVATION_CONTEXT_DATA_TOC_ENTRY) * NonExtendedSectionCount); } if (ExtensionGuidCount != 0) { ULONG j; // The header for the extension GUID TOC TotalHeaderSize += sizeof(ACTIVATION_CONTEXT_DATA_EXTENDED_TOC_HEADER); // The entry for each extension GUID TotalHeaderSize += (sizeof(ACTIVATION_CONTEXT_DATA_EXTENDED_TOC_ENTRY) * ExtensionGuidCount); for (j=0; jm_ContributorCount; j++) { Ctb = &pActCtxGenCtx->m_Contributors[j]; if ((Ctb->SectionSize() != 0) && Ctb->IsExtendedSection() && (Ctb->ExtensionGuid() == ExtendedSectionGuids[j])) SectionCountForThisExtension++; } TotalHeaderSize += sizeof(ACTIVATION_CONTEXT_DATA_TOC_HEADER); TotalHeaderSize += (sizeof(ACTIVATION_CONTEXT_DATA_TOC_ENTRY) * SectionCountForThisExtension); } } SectionTotalSize += TotalHeaderSize; // Allocate space for the assembly roster and the one dead entry at the beginning of the array. AssemblyRosterSize = sizeof(ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_HEADER) + sizeof(ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY) + (sizeof(ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY) * pActCtxGenCtx->m_AssemblyList.GetEntryCount()); SectionTotalSize += AssemblyRosterSize; if (SectionTotalSize > ULONG_MAX) { ::FusionpDbgPrintEx( FUSION_DBG_LEVEL_ERROR, "SXS.DLL: Total size of activation context exceeds ULONG_MAX; failing activation context creation.\n"); ORIGINATE_WIN32_FAILURE_AND_EXIT(SectionSizeTotalMoreThan2ToThe32nd, ERROR_INSUFFICIENT_BUFFER); goto Exit; } ::FusionpDbgPrintEx( FUSION_DBG_LEVEL_ACTCTX, "SXS.DLL: Creating %lu byte file mapping\n", static_cast(SectionTotalSize)); IFW32NULL_EXIT( TempMappingHandle.Win32CreateFileMapping( INVALID_HANDLE_VALUE, // Pagefile backed section PAGE_READWRITE, SectionTotalSize)); IFW32NULL_EXIT(VoidActCtxData.Win32MapViewOfFile(TempMappingHandle, FILE_MAP_WRITE)); ActCtxData = reinterpret_cast(static_cast(VoidActCtxData)); ActCtxData->Magic = ACTIVATION_CONTEXT_DATA_MAGIC; ActCtxData->HeaderSize = sizeof(ACTIVATION_CONTEXT_DATA); ActCtxData->FormatVersion = ACTIVATION_CONTEXT_DATA_FORMAT_WHISTLER; ActCtxData->TotalSize = static_cast(SectionTotalSize); ActCtxData->Flags = 0; if (pActCtxGenCtx->m_NoInherit) ActCtxData->Flags |= ACTIVATION_CONTEXT_FLAG_NO_INHERIT; Cursor = (BYTE *) (ActCtxData + 1); AssemblyRosterHeader = (PACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_HEADER) Cursor; Cursor = (BYTE *) (AssemblyRosterHeader + 1); AssemblyRosterHeader->HeaderSize = sizeof(ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_HEADER); AssemblyRosterHeader->HashAlgorithm = FUSION_HASH_ALGORITHM; AssemblyRosterHeader->EntryCount = static_cast(pActCtxGenCtx->m_AssemblyList.GetEntryCount() + 1); AssemblyRosterHeader->FirstEntryOffset = static_cast(((LONG_PTR) Cursor) - ((LONG_PTR) ActCtxData)); AssemblyRosterEntry = (PACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY) Cursor; Cursor = (BYTE *) (AssemblyRosterEntry + AssemblyRosterHeader->EntryCount); // First assembly roster entry is a blank one for index 0 AssemblyRosterEntry[0].Flags = ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY_INVALID; AssemblyRosterEntry[0].AssemblyNameLength = 0; AssemblyRosterEntry[0].AssemblyNameOffset = 0; AssemblyRosterEntry[0].PseudoKey = 0; // Fill in the roster with bogus data to start with; we'll fill it in for real after // we've found the assembly information section. for (AssemblyIter.Reset(), i = 1; AssemblyIter.More(); AssemblyIter.Next(), i++) { AssemblyRosterEntry[i].Flags = ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY_INVALID; if (AssemblyIter->IsRoot()) AssemblyRosterEntry[i].Flags |= ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY_ROOT; } ActCtxData->AssemblyRosterOffset = static_cast(((LONG_PTR) AssemblyRosterHeader) - ((LONG_PTR) ActCtxData)); if (NonExtendedSectionCount != 0) { PACTIVATION_CONTEXT_DATA_TOC_HEADER Toc = (PACTIVATION_CONTEXT_DATA_TOC_HEADER) Cursor; PACTIVATION_CONTEXT_DATA_TOC_ENTRY Entry = (PACTIVATION_CONTEXT_DATA_TOC_ENTRY) (Toc + 1); ULONG iEntry = 0; ULONG j; ULONG LastSectionId; Toc->HeaderSize = sizeof(ACTIVATION_CONTEXT_DATA_TOC_HEADER); Toc->EntryCount = NonExtendedSectionCount; Toc->FirstEntryOffset = static_cast(((LONG_PTR) Entry) - ((LONG_PTR) ActCtxData)); Cursor = (BYTE *) (Entry + NonExtendedSectionCount); // Since we sorted the providers prior to building the array, we can set the // inorder bit so that we at least do a binary search at runtime. // We'll assume it's dense also; if we find out that it isn't while we're // building, we'll clear the dense bit. Toc->Flags = ACTIVATION_CONTEXT_DATA_TOC_HEADER_INORDER | ACTIVATION_CONTEXT_DATA_TOC_HEADER_DENSE; for (j=0; jm_ContributorCount; j++) { Ctb = &pActCtxGenCtx->m_Contributors[j]; LastSectionId = 0; if ((Ctb->SectionSize() != 0) && !Ctb->IsExtendedSection()) { if (iEntry != 0) { if (Ctb->SectionId() != (LastSectionId + 1)) Toc->Flags &= ~ACTIVATION_CONTEXT_DATA_TOC_HEADER_DENSE; } LastSectionId = Ctb->SectionId(); Entry->Id = Ctb->SectionId(); Entry->Offset = static_cast(((LONG_PTR) Cursor) - ((LONG_PTR) ActCtxData)); Entry->Length = static_cast(Ctb->SectionSize()); Entry->Format = Ctb->SectionFormat(); IFW32FALSE_EXIT(Ctb->Fire_GetSectionData(pActCtxGenCtx, Cursor)); // We have special knowledge about the assembly metadata section; we reference it // in the assembly roster. if (Ctb->SectionId() == ACTIVATION_CONTEXT_SECTION_ASSEMBLY_INFORMATION) AssemblyInformationSection = (PCACTIVATION_CONTEXT_STRING_SECTION_HEADER) Cursor; Cursor = (BYTE *) (((ULONG_PTR) Cursor) + Ctb->SectionSize()); Entry++; iEntry++; } } ActCtxData->DefaultTocOffset = static_cast(((LONG_PTR) Toc) - ((LONG_PTR) ActCtxData)); } else ActCtxData->DefaultTocOffset = 0; if (ExtensionGuidCount != 0) { ULONG j; PACTIVATION_CONTEXT_DATA_EXTENDED_TOC_HEADER ExtToc = (PACTIVATION_CONTEXT_DATA_EXTENDED_TOC_HEADER) Cursor; PACTIVATION_CONTEXT_DATA_EXTENDED_TOC_ENTRY ExtTocEntry = (PACTIVATION_CONTEXT_DATA_EXTENDED_TOC_ENTRY) (ExtToc + 1); Cursor = (BYTE *) (ExtTocEntry + ExtensionGuidCount); ExtToc->HeaderSize = sizeof(ACTIVATION_CONTEXT_DATA_EXTENDED_TOC_HEADER); ExtToc->EntryCount = ExtensionGuidCount; ExtToc->FirstEntryOffset = static_cast(((LONG_PTR) ExtTocEntry) - ((LONG_PTR) ActCtxData)); ExtToc->Flags = 0; for (j=0; jExtensionGuid = ExtendedSectionGuids[i]; for (k=0; km_ContributorCount; k++) { Ctb = &pActCtxGenCtx->m_Contributors[k]; if ((Ctb->SectionSize() != 0) && Ctb->IsExtendedSection() && (Ctb->ExtensionGuid() == ExtendedSectionGuids[j])) { SectionCountForThisExtension++; } } Cursor = (BYTE *) (Entry + SectionCountForThisExtension); Toc->HeaderSize = sizeof(ACTIVATION_CONTEXT_DATA_TOC_HEADER); Toc->EntryCount = SectionCountForThisExtension; Toc->FirstEntryOffset = static_cast(((LONG_PTR) Entry) - ((LONG_PTR) ActCtxData)); Toc->Flags = 0; for (k=0; km_ContributorCount; k++) { Ctb = &pActCtxGenCtx->m_Contributors[k]; if ((Ctb->SectionSize() != 0) && Ctb->IsExtendedSection() && (Ctb->ExtensionGuid() == ExtendedSectionGuids[k]) && (Ctb->SectionId() != 0) ) { SIZE_T SectionSize = Ctb->SectionSize(); Entry->Id = Ctb->SectionId(); Entry->Offset = static_cast(((LONG_PTR) Cursor) - ((LONG_PTR) ActCtxData)); Entry->Length = static_cast(SectionSize); Entry->Format = Ctb->SectionFormat(); IFW32FALSE_EXIT(Ctb->Fire_GetSectionData(pActCtxGenCtx, Cursor)); Cursor = (BYTE *) (((ULONG_PTR) Cursor) + SectionSize); Entry++; } } } ActCtxData->ExtendedTocOffset = static_cast(((LONG_PTR) ExtToc) - ((LONG_PTR) ActCtxData)); } else ActCtxData->ExtendedTocOffset = 0; ASSERT(AssemblyInformationSection != NULL); // Go back and fill in the assembly roster... if (AssemblyInformationSection != NULL) { PCACTIVATION_CONTEXT_STRING_SECTION_ENTRY Entries = (PCACTIVATION_CONTEXT_STRING_SECTION_ENTRY) (((ULONG_PTR) AssemblyInformationSection) + AssemblyInformationSection->ElementListOffset); LONG_PTR SectionOffset = ((LONG_PTR) AssemblyInformationSection) - ((LONG_PTR) ActCtxData); AssemblyRosterHeader->HashAlgorithm = AssemblyInformationSection->HashAlgorithm; AssemblyRosterHeader->AssemblyInformationSectionOffset = static_cast(SectionOffset); // If there are 3 assemblies, there must be 3 entries in the section and 4 roster entries // (counting the bogus entry 0). ASSERT(AssemblyInformationSection->ElementCount == (AssemblyRosterHeader->EntryCount - 1)); if (AssemblyInformationSection->ElementCount != (AssemblyRosterHeader->EntryCount - 1)) { ::FusionpSetLastWin32Error(ERROR_INTERNAL_ERROR); goto Exit; } for (i=0; iElementCount; i++) { ULONG iRoster = Entries[i].AssemblyRosterIndex; ASSERT(iRoster != 0); ASSERT(iRoster < AssemblyRosterHeader->EntryCount); if ((iRoster == 0) || (iRoster >= AssemblyRosterHeader->EntryCount)) { ::FusionpSetLastWin32Error(ERROR_INTERNAL_ERROR); goto Exit; } // Make sure that we're not repeating an index somehow... ASSERT(AssemblyRosterEntry[iRoster].Flags & ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY_INVALID); if ((AssemblyRosterEntry[iRoster].Flags & ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY_INVALID) == 0) { ::FusionpSetLastWin32Error(ERROR_INTERNAL_ERROR); goto Exit; } // Turn off the invalid flag... AssemblyRosterEntry[iRoster].Flags &= ~ACTIVATION_CONTEXT_DATA_ASSEMBLY_ROSTER_ENTRY_INVALID; // Point to the data already in the string section header AssemblyRosterEntry[iRoster].AssemblyNameLength = Entries[i].KeyLength; if (Entries[i].KeyOffset != 0) AssemblyRosterEntry[iRoster].AssemblyNameOffset = static_cast(Entries[i].KeyOffset + SectionOffset); else AssemblyRosterEntry[iRoster].AssemblyNameOffset = 0; AssemblyRosterEntry[iRoster].AssemblyInformationLength = Entries[i].Length; AssemblyRosterEntry[iRoster].AssemblyInformationOffset = static_cast(Entries[i].Offset + SectionOffset); AssemblyRosterEntry[iRoster].PseudoKey = Entries[i].PseudoKey; } } else { // the assembly metadata section provider should have contributed *something* ::FusionpSetLastWin32Error(ERROR_INTERNAL_ERROR); goto Exit; } if (::FusionpDbgWouldPrintAtFilterLevel(FUSION_DBG_LEVEL_ACTCTX)) { CTinyStringBuffer buffPrefix; ::SxspDbgPrintActivationContextData(FUSION_DBG_LEVEL_ACTCTX, ActCtxData, buffPrefix); } IFW32FALSE_EXIT(VoidActCtxData.Win32Close()); *SectionHandle = TempMappingHandle.Detach(); FN_EPILOG } CPendingAssembly::CPendingAssembly() : m_SourceAssembly(NULL), m_Identity(NULL), m_Optional(false), m_MetadataSatellite(false) { } CPendingAssembly::~CPendingAssembly() { if (m_Identity != NULL) { ::SxsDestroyAssemblyIdentity(m_Identity); m_Identity = NULL; } } BOOL CPendingAssembly::Initialize( PASSEMBLY Assembly, PCASSEMBLY_IDENTITY Identity, bool Optional, bool MetadataSatellite ) { BOOL fSuccess = FALSE; FN_TRACE_WIN32(fSuccess); INTERNAL_ERROR_CHECK(m_Identity == NULL); PARAMETER_CHECK(Identity != NULL); IFW32FALSE_EXIT(::SxsDuplicateAssemblyIdentity(0, Identity, &m_Identity)); m_SourceAssembly = Assembly; m_Optional = Optional; m_MetadataSatellite = MetadataSatellite; fSuccess = TRUE; Exit: return fSuccess; }