HRESULT AssemblySpec::LowLevelLoadManifestFile(PEFile** ppFile,
IAssembly** ppIAssembly,
Assembly **ppDynamicAssembly,
OBJECTREF* pExtraEvidence,
OBJECTREF* pThrowable)
{
CANNOTTHROWCOMPLUSEXCEPTION();
HRESULT hr = S_OK;
IAssemblyName* pFusionAssemblyName = NULL; // Assembly object to assembly in fusion cache
if(!(m_pAssemblyName || m_CodeInfo.m_pszCodeBase)) {
PostFileLoadException("", FALSE, NULL, COR_E_FILENOTFOUND, pThrowable);
return HRESULT_FROM_WIN32(ERROR_FILE_NOT_FOUND);
}
//
// Check to see if this fits our rather loose idea of a reference to mscorlib.
// If so, don't use fusion to bind it - do it ourselves.
//
if (IsMscorlib())
{
_ASSERTE(wcslen(SystemDomain::System()->BaseLibrary()) > 0);
hr = PEFile::Create(SystemDomain::System()->BaseLibrary(),
NULL,
mdFileNil,
TRUE,
NULL,
NULL, // Code base is the same as the name
NULL, // Extra Evidence
ppFile);
_ASSERTE((*ppFile)->IsSystem());
if (ppDynamicAssembly) *ppDynamicAssembly = NULL;
return hr;
}
CQuickWSTR FusionLog;
FusionLog.Ptr()[0]=L'\0';
BEGIN_ENSURE_PREEMPTIVE_GC();
Assembly *pAssembly = NULL;
PEFile *pFile = NULL;
hr = CreateFusionName(&pFusionAssemblyName);
if (FAILED(hr))
goto exit;
hr = pFusionAssemblyName->SetProperty(ASM_NAME_NULL_CUSTOM,NULL,0); //do not look in ZAP
if (FAILED(hr))
goto exit;
hr = GetAssemblyFromFusion(GetAppDomain(),
pFusionAssemblyName,
&m_CodeInfo,
ppIAssembly,
&pFile,
&FusionLog,
pExtraEvidence,
pThrowable);
if(FAILED(hr)) {
DWORD cb = 0;
pFusionAssemblyName->GetDisplayName(NULL, &cb, 0);
if(cb) {
CQuickBytes qb;
LPWSTR pwsFullName = (LPWSTR) qb.Alloc(cb*sizeof(WCHAR));
if (SUCCEEDED(pFusionAssemblyName->GetDisplayName(pwsFullName, &cb, 0))) {
if ((pAssembly = GetAppDomain()->RaiseAssemblyResolveEvent(pwsFullName, pThrowable)) != NULL) {
pFile = pAssembly->GetManifestFile();
hr = S_FALSE;
}
}
}
#ifdef _DEBUG
if(FAILED(hr)) {
if (m_pAssemblyName)
LOG((LF_CLASSLOADER, LL_ERROR, "Fusion could not load from full name, %s\n", m_pAssemblyName));
else if (m_CodeInfo.m_pszCodeBase)
LOG((LF_CLASSLOADER, LL_ERROR, "Fusion could not load from codebase, %s\n",m_CodeInfo.m_pszCodeBase));
else
LOG((LF_CLASSLOADER, LL_ERROR, "Fusion could not load unknown assembly.\n"));
}
#endif //_DEBUG
}
exit:
if (SUCCEEDED(hr)) {
if (ppFile) *ppFile = pFile;
if (ppDynamicAssembly) *ppDynamicAssembly = pAssembly;
}
if(pFusionAssemblyName)
pFusionAssemblyName->Release();
END_ENSURE_PREEMPTIVE_GC();
if (FAILED(hr)) {
if (m_pAssemblyName)
PostFileLoadException(m_pAssemblyName, FALSE,FusionLog.Ptr(), hr, pThrowable);
else {
MAKE_UTF8PTR_FROMWIDE(szName, m_CodeInfo.m_pszCodeBase);
PostFileLoadException(szName, TRUE,FusionLog.Ptr(), hr, pThrowable);
}
}
return hr;
}
HRESULT AssemblySpec::GetAssemblyFromFusion(AppDomain* pAppDomain,
IAssemblyName* pFusionAssemblyName,
CodeBaseInfo* pCodeBase,
IAssembly** ppFusionAssembly,
PEFile** ppFile,
CQuickWSTR* pFusionLog,
OBJECTREF* pExtraEvidence,
OBJECTREF* pThrowable)
{
_ASSERTE(ppFile);
HRESULT hr = S_OK;
IAssembly *pFusionAssembly = NULL;
COMPLUS_TRY {
DWORD dwSize = MAX_PATH;
CQuickWSTR bufferPath;
WCHAR *pPath = NULL;
AssemblySink* pSink;
DWORD eLocation;
CQuickWSTR bufferCodebase;
LPWSTR pwsCodeBase = NULL;
DWORD dwCodeBase = 0;
IAssemblyName *pNameDef = NULL;
IApplicationContext *pFusionContext = pAppDomain->GetFusionContext();
pSink = pAppDomain->GetAssemblySink();
if(!pSink) {
hr = E_OUTOFMEMORY;
COMPLUS_LEAVE;
}
pSink->pFusionLog=pFusionLog;
hr = FusionBind::GetAssemblyFromFusion(pFusionContext,
pSink,
pFusionAssemblyName,
pCodeBase,
&pFusionAssembly);
pSink->pFusionLog=NULL;
if(SUCCEEDED(hr)) {
_ASSERTE(pFusionAssembly);
// Get the path to the module containing the manifest
dwSize = bufferPath.MaxSize();
pPath = bufferPath.Ptr();
hr = pFusionAssembly->GetManifestModulePath(pPath,
&dwSize);
if(hr == HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER)) {
pPath = bufferPath.Alloc(dwSize);
if (pPath == NULL) {
hr = E_OUTOFMEMORY;
COMPLUS_LEAVE;
}
hr = pFusionAssembly->GetManifestModulePath(pPath,
&dwSize);
}
if(SUCCEEDED(hr)) {
hr = pFusionAssembly->GetAssemblyNameDef(&pNameDef);
if (SUCCEEDED(hr)) {
dwCodeBase = bufferCodebase.MaxSize();
pwsCodeBase = bufferCodebase.Ptr();
hr = pNameDef->GetProperty(ASM_NAME_CODEBASE_URL, pwsCodeBase, &dwCodeBase);
if(hr == HRESULT_FROM_WIN32(ERROR_INSUFFICIENT_BUFFER)) {
pwsCodeBase = bufferCodebase.Alloc(dwCodeBase);
if (pwsCodeBase == NULL) {
hr = E_OUTOFMEMORY;
COMPLUS_LEAVE;
}
hr = pNameDef->GetProperty(ASM_NAME_CODEBASE_URL, pwsCodeBase, &dwCodeBase);
}
pNameDef->Release();
}
}
}
pSink->Release();
if(hr == S_OK && dwSize) {
// See if we need to perform a strong name verification.
hr = pFusionAssembly->GetAssemblyLocation(&eLocation);
if (SUCCEEDED(hr)) {
switch ((eLocation & ASMLOC_LOCATION_MASK)) {
case ASMLOC_GAC:
case ASMLOC_DOWNLOAD_CACHE:
case ASMLOC_UNKNOWN:
// Assemblies from the GAC or download cache have
// already been verified by Fusion. Location Unknown
// indicates a load from the dev path, which we'll
// assume isn't a interesting case for verification.
hr = S_OK;
break;
case ASMLOC_RUN_FROM_SOURCE:
// For now, just verify these every time, we need to
// cache the fact that at least one verification has
// been performed (if strong name policy permits
if (SUCCEEDED(hr)&&(eLocation&ASMLOC_CODEBASE_HINT))
{
hr=CheckFileAccess(pPath,FILE_READ_DATA);
if (FAILED(hr))
break;
}
// caching of verification results).
if (StrongNameSignatureVerification(pPath,
SN_INFLAG_INSTALL|SN_INFLAG_ALL_ACCESS|SN_INFLAG_RUNTIME,
NULL))
hr = S_OK;
else {
hr = StrongNameErrorInfo();
if (hr == CORSEC_E_MISSING_STRONGNAME)
hr = S_OK;
else
hr = CORSEC_E_INVALID_STRONGNAME;
}
break;
default:
_ASSERTE(FALSE);
}
if (SUCCEEDED(hr)) {
hr = SystemDomain::LoadFile(pPath,
NULL,
mdFileNil,
FALSE,
pFusionAssembly,
pwsCodeBase,
pExtraEvidence,
ppFile,
FALSE);
if (SUCCEEDED(hr)) {
if(ppFusionAssembly) {
pFusionAssembly->AddRef();
*ppFusionAssembly = pFusionAssembly;
}
if((eLocation & ASMLOC_LOCATION_MASK) == ASMLOC_GAC)
// Assemblies in the GAC have also had any internal module
// hashes verified at install time.
(*ppFile)->SetHashesVerified();
}
}
}
else if (hr == E_NOTIMPL) {
// process exe
_ASSERTE(pAppDomain == SystemDomain::System()->DefaultDomain());
hr = PEFile::Clone(SystemDomain::System()->DefaultDomain()->m_pRootFile, ppFile);
if(SUCCEEDED(hr) && ppFusionAssembly) {
pFusionAssembly->AddRef();
*ppFusionAssembly = pFusionAssembly;
}
}
}
}
COMPLUS_CATCH {
BEGIN_ENSURE_COOPERATIVE_GC();
if (pThrowable)
{
*pThrowable = GETTHROWABLE();
hr = SecurityHelper::MapToHR(*pThrowable);
}
else
hr = SecurityHelper::MapToHR(GETTHROWABLE());
END_ENSURE_COOPERATIVE_GC();
} COMPLUS_END_CATCH
if (pFusionAssembly)
pFusionAssembly->Release();
return hr;
}
VOID InitLogging()
{
STATIC_CONTRACT_NOTHROW;
// <TODO>FIX bit of a workaround for now, check for the log file in the
// registry and if there, turn on file logging VPM</TODO>
LogFlags |= REGUTIL::GetConfigFlag_DontUse_(CLRConfig::INTERNAL_LogEnable, LOG_ENABLE);
LogFacilityMask = REGUTIL::GetConfigDWORD_DontUse_(CLRConfig::INTERNAL_LogFacility, LogFacilityMask) | LF_ALWAYS;
LogVMLevel = REGUTIL::GetConfigDWORD_DontUse_(CLRConfig::EXTERNAL_LogLevel, LogVMLevel);
LogFlags |= REGUTIL::GetConfigFlag_DontUse_(CLRConfig::INTERNAL_LogFileAppend, LOG_ENABLE_APPEND_FILE);
LogFlags |= REGUTIL::GetConfigFlag_DontUse_(CLRConfig::INTERNAL_LogFlushFile, LOG_ENABLE_FLUSH_FILE);
LogFlags |= REGUTIL::GetConfigFlag_DontUse_(CLRConfig::INTERNAL_LogToDebugger, LOG_ENABLE_DEBUGGER_LOGGING);
LogFlags |= REGUTIL::GetConfigFlag_DontUse_(CLRConfig::INTERNAL_LogToFile, LOG_ENABLE_FILE_LOGGING);
LogFlags |= REGUTIL::GetConfigFlag_DontUse_(CLRConfig::INTERNAL_LogToConsole, LOG_ENABLE_CONSOLE_LOGGING);
LogFacilityMask2 = REGUTIL::GetConfigDWORD_DontUse_(CLRConfig::INTERNAL_LogFacility2, LogFacilityMask2) | LF_ALWAYS;
if (SUCCEEDED(szLogFileName.ReSizeNoThrow(MAX_LONGPATH)))
{
wcscpy_s(szLogFileName.Ptr(), szLogFileName.Size(), DEFAULT_LOGFILE_NAME);
}
LPWSTR fileName = CLRConfig::GetConfigValue(CLRConfig::INTERNAL_LogFile);
if (fileName != 0)
{
if (SUCCEEDED(szLogFileName.ReSizeNoThrow(wcslen(fileName) + 32)))
{
wcscpy_s(szLogFileName.Ptr(), szLogFileName.Size(), fileName);
}
delete fileName;
}
if (REGUTIL::GetConfigDWORD_DontUse_(CLRConfig::INTERNAL_LogWithPid, FALSE))
{
WCHAR szPid[20];
swprintf_s(szPid, COUNTOF(szPid), W(".%d"), GetCurrentProcessId());
wcscat_s(szLogFileName.Ptr(), szLogFileName.Size(), szPid);
}
if ((LogFlags & LOG_ENABLE) &&
(LogFlags & LOG_ENABLE_FILE_LOGGING) &&
(szLogFileName.Size() > 0) &&
(LogFileHandle == INVALID_HANDLE_VALUE))
{
DWORD fdwCreate = (LogFlags & LOG_ENABLE_APPEND_FILE) ? OPEN_ALWAYS : CREATE_ALWAYS;
LogFileHandle = WszCreateFile(
szLogFileName.Ptr(),
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
fdwCreate,
FILE_ATTRIBUTE_NORMAL | FILE_FLAG_SEQUENTIAL_SCAN | ((LogFlags & LOG_ENABLE_FLUSH_FILE) ? FILE_FLAG_WRITE_THROUGH : 0),
NULL);
if(0 == LogFileMutex)
{
LogFileMutex = ClrCreateMutex(
NULL,
FALSE,
NULL);
_ASSERTE(LogFileMutex != 0);
}
// Some other logging may be going on, try again with another file name
if (LogFileHandle == INVALID_HANDLE_VALUE && wcslen(szLogFileName.Ptr()) + 3 <= szLogFileName.Size())
{
WCHAR* ptr = szLogFileName.Ptr() + wcslen(szLogFileName.Ptr()) + 1;
ptr[-1] = W('.');
ptr[0] = W('0');
ptr[1] = 0;
for(int i = 0; i < 10; i++)
{
LogFileHandle = WszCreateFile(
szLogFileName.Ptr(),
GENERIC_WRITE,
FILE_SHARE_READ,
NULL,
fdwCreate,
FILE_ATTRIBUTE_NORMAL | FILE_FLAG_SEQUENTIAL_SCAN | ((LogFlags & LOG_ENABLE_FLUSH_FILE) ? FILE_FLAG_WRITE_THROUGH : 0),
NULL);
if (LogFileHandle != INVALID_HANDLE_VALUE)
break;
*ptr = *ptr + 1;
}
if (LogFileHandle == INVALID_HANDLE_VALUE) {
int ret = WszWideCharToMultiByte(CP_ACP, 0, szLogFileName.Ptr(), -1, NULL, 0, NULL, NULL);
const char *msg = "Could not open log file, logging to ";
DWORD msgLen = (DWORD)strlen(msg);
CQuickSTR buff;
if (SUCCEEDED(buff.ReSizeNoThrow(ret + msgLen)))
{
strcpy_s(buff.Ptr(), buff.Size(), msg);
WszWideCharToMultiByte(CP_ACP, 0, szLogFileName.Ptr(), -1, buff.Ptr() + msgLen, ret, NULL, NULL);
msg = buff.Ptr();
}
else
{
msg = "Could not open log file";
}
DWORD written;
WriteFile(GetStdHandle(STD_OUTPUT_HANDLE), msg, (DWORD)strlen(msg), &written, 0);
}
}
if (LogFileHandle == INVALID_HANDLE_VALUE)
UtilMessageBoxNonLocalized(NULL, W("Could not open log file"), W("CLR logging"), MB_OK | MB_ICONINFORMATION, FALSE, TRUE);
if (LogFileHandle != INVALID_HANDLE_VALUE)
{
if (LogFlags & LOG_ENABLE_APPEND_FILE)
SetFilePointer(LogFileHandle, 0, NULL, FILE_END);
LogSpew( LF_ALWAYS, FATALERROR, "************************ New Output *****************\n" );
}
}
}
