// LoadCodecs.cpp /* EXTERNAL_CODECS --------------- CCodecs::Load() tries to detect the directory with plugins. It stops the checking, if it can find any of the following items: - 7z.dll file - "Formats" subdir - "Codecs" subdir The order of check: 1) directory of client executable 2) WIN32: directory for REGISTRY item [HKEY_*\Software\7-Zip\Path**] The order for HKEY_* : Path** : - HKEY_CURRENT_USER : PathXX - HKEY_LOCAL_MACHINE : PathXX - HKEY_CURRENT_USER : Path - HKEY_LOCAL_MACHINE : Path PathXX is Path32 in 32-bit code PathXX is Path64 in 64-bit code EXPORT_CODECS ------------- if (EXTERNAL_CODECS) is defined, then the code exports internal codecs of client from CCodecs object to external plugins. 7-Zip doesn't use that feature. 7-Zip uses the scheme: - client application without internal plugins. - 7z.dll module contains all (or almost all) plugins. 7z.dll can use codecs from another plugins, if required. */ #include "StdAfx.h" #include "../../../../C/7zVersion.h" #include "../../../Common/MyCom.h" #include "../../../Common/StringToInt.h" #include "../../../Common/StringConvert.h" #include "../../../Windows/PropVariant.h" #include "LoadCodecs.h" using namespace NWindows; #ifdef NEW_FOLDER_INTERFACE #include "../../../Common/StringToInt.h" #endif #include "../../ICoder.h" #include "../../Common/RegisterArc.h" #ifdef EXTERNAL_CODECS // #define EXPORT_CODECS #endif #ifdef NEW_FOLDER_INTERFACE extern HINSTANCE g_hInstance; #include "../../../Windows/ResourceString.h" static const UINT kIconTypesResId = 100; #endif #ifdef EXTERNAL_CODECS #include "../../../Windows/FileFind.h" #include "../../../Windows/DLL.h" #ifdef _WIN32 #include "../../../Windows/FileName.h" #include "../../../Windows/Registry.h" #endif using namespace NFile; #define kCodecsFolderName FTEXT("Codecs") #define kFormatsFolderName FTEXT("Formats") static CFSTR kMainDll = // #ifdef _WIN32 #ifdef USE_LIB7Z_DLL FTEXT("lib7z.dll"); #else FTEXT("7z.dll"); #endif // #else // FTEXT("7z.so"); // #endif #ifdef _WIN32 static LPCTSTR kRegistryPath = TEXT("Software") TEXT(STRING_PATH_SEPARATOR) TEXT("7-zip"); static LPCWSTR kProgramPathValue = L"Path"; static LPCWSTR kProgramPath2Value = L"Path" #ifdef _WIN64 L"64"; #else L"32"; #endif static bool ReadPathFromRegistry(HKEY baseKey, LPCWSTR value, FString &path) { NRegistry::CKey key; if (key.Open(baseKey, kRegistryPath, KEY_READ) == ERROR_SUCCESS) { UString pathU; if (key.QueryValue(value, pathU) == ERROR_SUCCESS) { path = us2fs(pathU); NName::NormalizeDirPathPrefix(path); return NFind::DoesFileExist(path + kMainDll); } } return false; } #endif // _WIN32 #endif // EXTERNAL_CODECS static const unsigned kNumArcsMax = 64; static unsigned g_NumArcs = 0; static const CArcInfo *g_Arcs[kNumArcsMax]; void RegisterArc(const CArcInfo *arcInfo) throw() { if (g_NumArcs < kNumArcsMax) { g_Arcs[g_NumArcs] = arcInfo; g_NumArcs++; } } static void SplitString(const UString &srcString, UStringVector &destStrings) { destStrings.Clear(); UString s; unsigned len = srcString.Len(); if (len == 0) return; for (unsigned i = 0; i < len; i++) { wchar_t c = srcString[i]; if (c == L' ') { if (!s.IsEmpty()) { destStrings.Add(s); s.Empty(); } } else s += c; } if (!s.IsEmpty()) destStrings.Add(s); } int CArcInfoEx::FindExtension(const UString &ext) const { FOR_VECTOR (i, Exts) if (ext.IsEqualTo_NoCase(Exts[i].Ext)) return i; return -1; } void CArcInfoEx::AddExts(const UString &ext, const UString &addExt) { UStringVector exts, addExts; SplitString(ext, exts); SplitString(addExt, addExts); FOR_VECTOR (i, exts) { CArcExtInfo extInfo; extInfo.Ext = exts[i]; if (i < addExts.Size()) { extInfo.AddExt = addExts[i]; if (extInfo.AddExt == L"*") extInfo.AddExt.Empty(); } Exts.Add(extInfo); } } #ifndef _SFX static bool ParseSignatures(const Byte *data, unsigned size, CObjectVector &signatures) { signatures.Clear(); while (size > 0) { unsigned len = *data++; size--; if (len > size) return false; signatures.AddNew().CopyFrom(data, len); data += len; size -= len; } return true; } #endif // _SFX #ifdef EXTERNAL_CODECS static FString GetBaseFolderPrefixFromRegistry() { FString moduleFolderPrefix = NDLL::GetModuleDirPrefix(); #ifdef _WIN32 if (!NFind::DoesFileExist(moduleFolderPrefix + kMainDll) && !NFind::DoesDirExist(moduleFolderPrefix + kCodecsFolderName) && !NFind::DoesDirExist(moduleFolderPrefix + kFormatsFolderName)) { FString path; if (ReadPathFromRegistry(HKEY_CURRENT_USER, kProgramPath2Value, path)) return path; if (ReadPathFromRegistry(HKEY_LOCAL_MACHINE, kProgramPath2Value, path)) return path; if (ReadPathFromRegistry(HKEY_CURRENT_USER, kProgramPathValue, path)) return path; if (ReadPathFromRegistry(HKEY_LOCAL_MACHINE, kProgramPathValue, path)) return path; } #endif return moduleFolderPrefix; } static HRESULT GetCoderClass(Func_GetMethodProperty getMethodProperty, UInt32 index, PROPID propId, CLSID &clsId, bool &isAssigned) { NCOM::CPropVariant prop; isAssigned = false; RINOK(getMethodProperty(index, propId, &prop)); if (prop.vt == VT_BSTR) { if (::SysStringByteLen(prop.bstrVal) != sizeof(GUID)) return E_FAIL; isAssigned = true; clsId = *(const GUID *)prop.bstrVal; } else if (prop.vt != VT_EMPTY) return E_FAIL; return S_OK; } HRESULT CCodecs::LoadCodecs() { CCodecLib &lib = Libs.Back(); lib.CreateDecoder = (Func_CreateDecoder)lib.Lib.GetProc("CreateDecoder"); lib.CreateEncoder = (Func_CreateEncoder)lib.Lib.GetProc("CreateEncoder"); lib.GetMethodProperty = (Func_GetMethodProperty)lib.Lib.GetProc("GetMethodProperty"); if (lib.GetMethodProperty) { UInt32 numMethods = 1; Func_GetNumberOfMethods getNumberOfMethods = (Func_GetNumberOfMethods)lib.Lib.GetProc("GetNumberOfMethods"); if (getNumberOfMethods) { RINOK(getNumberOfMethods(&numMethods)); } for (UInt32 i = 0; i < numMethods; i++) { CDllCodecInfo info; info.LibIndex = Libs.Size() - 1; info.CodecIndex = i; RINOK(GetCoderClass(lib.GetMethodProperty, i, NMethodPropID::kEncoder, info.Encoder, info.EncoderIsAssigned)); RINOK(GetCoderClass(lib.GetMethodProperty, i, NMethodPropID::kDecoder, info.Decoder, info.DecoderIsAssigned)); Codecs.Add(info); } } Func_GetHashers getHashers = (Func_GetHashers)lib.Lib.GetProc("GetHashers"); if (getHashers) { RINOK(getHashers(&lib.ComHashers)); if (lib.ComHashers) { UInt32 numMethods = lib.ComHashers->GetNumHashers(); for (UInt32 i = 0; i < numMethods; i++) { CDllHasherInfo info; info.LibIndex = Libs.Size() - 1; info.HasherIndex = i; Hashers.Add(info); } } } return S_OK; } static HRESULT GetProp( Func_GetHandlerProperty getProp, Func_GetHandlerProperty2 getProp2, UInt32 index, PROPID propID, NCOM::CPropVariant &prop) { if (getProp2) return getProp2(index, propID, &prop);; return getProp(propID, &prop); } static HRESULT GetProp_Bool( Func_GetHandlerProperty getProp, Func_GetHandlerProperty2 getProp2, UInt32 index, PROPID propID, bool &res) { res = false; NCOM::CPropVariant prop; RINOK(GetProp(getProp, getProp2, index, propID, prop)); if (prop.vt == VT_BOOL) res = VARIANT_BOOLToBool(prop.boolVal); else if (prop.vt != VT_EMPTY) return E_FAIL; return S_OK; } static HRESULT GetProp_UInt32( Func_GetHandlerProperty getProp, Func_GetHandlerProperty2 getProp2, UInt32 index, PROPID propID, UInt32 &res, bool &defined) { res = 0; defined = false; NCOM::CPropVariant prop; RINOK(GetProp(getProp, getProp2, index, propID, prop)); if (prop.vt == VT_UI4) { res = prop.ulVal; defined = true; } else if (prop.vt != VT_EMPTY) return E_FAIL; return S_OK; } static HRESULT GetProp_String( Func_GetHandlerProperty getProp, Func_GetHandlerProperty2 getProp2, UInt32 index, PROPID propID, UString &res) { res.Empty(); NCOM::CPropVariant prop; RINOK(GetProp(getProp, getProp2, index, propID, prop)); if (prop.vt == VT_BSTR) res.SetFromBstr(prop.bstrVal); else if (prop.vt != VT_EMPTY) return E_FAIL; return S_OK; } static HRESULT GetProp_RawData( Func_GetHandlerProperty getProp, Func_GetHandlerProperty2 getProp2, UInt32 index, PROPID propID, CByteBuffer &bb) { bb.Free(); NCOM::CPropVariant prop; RINOK(GetProp(getProp, getProp2, index, propID, prop)); if (prop.vt == VT_BSTR) { UINT len = ::SysStringByteLen(prop.bstrVal); bb.CopyFrom((const Byte *)prop.bstrVal, len); } else if (prop.vt != VT_EMPTY) return E_FAIL; return S_OK; } static const UInt32 kArcFlagsPars[] = { NArchive::NHandlerPropID::kKeepName, NArcInfoFlags::kKeepName, NArchive::NHandlerPropID::kAltStreams, NArcInfoFlags::kAltStreams, NArchive::NHandlerPropID::kNtSecure, NArcInfoFlags::kNtSecure }; HRESULT CCodecs::LoadFormats() { const NDLL::CLibrary &lib = Libs.Back().Lib; Func_GetHandlerProperty getProp = NULL; Func_GetHandlerProperty2 getProp2 = (Func_GetHandlerProperty2)lib.GetProc("GetHandlerProperty2"); Func_GetIsArc getIsArc = (Func_GetIsArc)lib.GetProc("GetIsArc"); UInt32 numFormats = 1; if (getProp2) { Func_GetNumberOfFormats getNumberOfFormats = (Func_GetNumberOfFormats)lib.GetProc("GetNumberOfFormats"); if (getNumberOfFormats) { RINOK(getNumberOfFormats(&numFormats)); } } else { getProp = (Func_GetHandlerProperty)lib.GetProc("GetHandlerProperty"); if (!getProp) return S_OK; } for (UInt32 i = 0; i < numFormats; i++) { CArcInfoEx item; item.LibIndex = Libs.Size() - 1; item.FormatIndex = i; RINOK(GetProp_String(getProp, getProp2, i, NArchive::NHandlerPropID::kName, item.Name)); { NCOM::CPropVariant prop; if (GetProp(getProp, getProp2, i, NArchive::NHandlerPropID::kClassID, prop) != S_OK) continue; if (prop.vt != VT_BSTR) continue; if (::SysStringByteLen(prop.bstrVal) != sizeof(GUID)) return E_FAIL; item.ClassID = *(const GUID *)prop.bstrVal; prop.Clear(); } UString ext, addExt; RINOK(GetProp_String(getProp, getProp2, i, NArchive::NHandlerPropID::kExtension, ext)); RINOK(GetProp_String(getProp, getProp2, i, NArchive::NHandlerPropID::kAddExtension, addExt)); item.AddExts(ext, addExt); GetProp_Bool(getProp, getProp2, i, NArchive::NHandlerPropID::kUpdate, item.UpdateEnabled); bool flags_Defined = false; RINOK(GetProp_UInt32(getProp, getProp2, i, NArchive::NHandlerPropID::kFlags, item.Flags, flags_Defined)); item.NewInterface = flags_Defined; if (!flags_Defined) // && item.UpdateEnabled { // support for DLL version before 9.31: for (unsigned j = 0; j < ARRAY_SIZE(kArcFlagsPars); j += 2) { bool val = false; GetProp_Bool(getProp, getProp2, i, kArcFlagsPars[j], val); if (val) item.Flags |= kArcFlagsPars[j + 1]; } } CByteBuffer sig; RINOK(GetProp_RawData(getProp, getProp2, i, NArchive::NHandlerPropID::kSignature, sig)); if (sig.Size() != 0) item.Signatures.Add(sig); else { RINOK(GetProp_RawData(getProp, getProp2, i, NArchive::NHandlerPropID::kMultiSignature, sig)); ParseSignatures(sig, (unsigned)sig.Size(), item.Signatures); } bool signatureOffset_Defined; RINOK(GetProp_UInt32(getProp, getProp2, i, NArchive::NHandlerPropID::kSignatureOffset, item.SignatureOffset, signatureOffset_Defined)); // bool version_Defined; // RINOK(GetProp_UInt32(getProp, getProp2, i, NArchive::NHandlerPropID::kVersion, item.Version, version_Defined)); if (getIsArc) getIsArc(i, &item.IsArcFunc); Formats.Add(item); } return S_OK; } #ifdef _7ZIP_LARGE_PAGES extern "C" { extern size_t g_LargePageSize; } #endif HRESULT CCodecs::LoadDll(const FString &dllPath, bool needCheckDll, bool *loadedOK) { if (loadedOK) *loadedOK = false; #ifdef _WIN32 if (needCheckDll) { NDLL::CLibrary lib; if (!lib.LoadEx(dllPath, LOAD_LIBRARY_AS_DATAFILE)) return S_OK; } #endif Libs.AddNew(); CCodecLib &lib = Libs.Back(); lib.Path = dllPath; bool used = false; HRESULT res = S_OK; if (lib.Lib.Load(dllPath)) { if (loadedOK) *loadedOK = true; #ifdef NEW_FOLDER_INTERFACE lib.LoadIcons(); #endif #ifdef _7ZIP_LARGE_PAGES if (g_LargePageSize != 0) { Func_SetLargePageMode setLargePageMode = (Func_SetLargePageMode)lib.Lib.GetProc("SetLargePageMode"); if (setLargePageMode) setLargePageMode(); } #endif if (CaseSensitiveChange) { Func_SetCaseSensitive setCaseSensitive = (Func_SetCaseSensitive)lib.Lib.GetProc("SetCaseSensitive"); if (setCaseSensitive) setCaseSensitive(CaseSensitive ? 1 : 0); } lib.CreateObject = (Func_CreateObject)lib.Lib.GetProc("CreateObject"); if (lib.CreateObject) { unsigned startSize = Codecs.Size() + Hashers.Size(); res = LoadCodecs(); used = (startSize != Codecs.Size() + Hashers.Size()); if (res == S_OK) { startSize = Formats.Size(); res = LoadFormats(); if (startSize != Formats.Size()) used = true; } } } if (!used) Libs.DeleteBack(); return res; } HRESULT CCodecs::LoadDllsFromFolder(const FString &folderPrefix) { NFile::NFind::CEnumerator enumerator(folderPrefix + FCHAR_ANY_MASK); NFile::NFind::CFileInfo fi; while (enumerator.Next(fi)) { if (fi.IsDir()) continue; RINOK(LoadDll(folderPrefix + fi.Name, true)); } return S_OK; } void CCodecs::CloseLibs() { // OutputDebugStringA("~CloseLibs start"); /* WIN32: FreeLibrary() (CLibrary::Free()) function doesn't work as expected, if it's called from another FreeLibrary() call. So we need to call FreeLibrary() before global destructors. Also we free global links from DLLs to object of this module before CLibrary::Free() call. */ FOR_VECTOR(i, Libs) { const CCodecLib &lib = Libs[i]; if (lib.SetCodecs) lib.SetCodecs(NULL); } // OutputDebugStringA("~CloseLibs after SetCodecs"); Libs.Clear(); // OutputDebugStringA("~CloseLibs end"); } #endif // EXTERNAL_CODECS HRESULT CCodecs::Load() { #ifdef NEW_FOLDER_INTERFACE #ifdef _WIN32 InternalIcons.LoadIcons(g_hInstance); #endif #endif Formats.Clear(); #ifdef EXTERNAL_CODECS MainDll_ErrorPath.Empty(); Codecs.Clear(); Hashers.Clear(); #endif for (UInt32 i = 0; i < g_NumArcs; i++) { const CArcInfo &arc = *g_Arcs[i]; CArcInfoEx item; item.Name.SetFromAscii(arc.Name); item.CreateInArchive = arc.CreateInArchive; item.IsArcFunc = arc.IsArc; item.Flags = arc.Flags; { UString e, ae; if (arc.Ext) e.SetFromAscii(arc.Ext); if (arc.AddExt) ae.SetFromAscii(arc.AddExt); item.AddExts(e, ae); } #ifndef _SFX item.CreateOutArchive = arc.CreateOutArchive; item.UpdateEnabled = (arc.CreateOutArchive != NULL); item.SignatureOffset = arc.SignatureOffset; // item.Version = MY_VER_MIX; item.NewInterface = true; if (arc.IsMultiSignature()) ParseSignatures(arc.Signature, arc.SignatureSize, item.Signatures); else item.Signatures.AddNew().CopyFrom(arc.Signature, arc.SignatureSize); #endif Formats.Add(item); } #ifdef EXTERNAL_CODECS const FString baseFolder = GetBaseFolderPrefixFromRegistry(); { bool loadedOK; RINOK(LoadDll(baseFolder + kMainDll, false, &loadedOK)); if (!loadedOK) MainDll_ErrorPath = kMainDll; } RINOK(LoadDllsFromFolder(baseFolder + kCodecsFolderName FSTRING_PATH_SEPARATOR)); RINOK(LoadDllsFromFolder(baseFolder + kFormatsFolderName FSTRING_PATH_SEPARATOR)); NeedSetLibCodecs = true; if (Libs.Size() == 0) NeedSetLibCodecs = false; else if (Libs.Size() == 1) { // we don't need to set ISetCompressCodecsInfo, if all arcs and codecs are in one external module. #ifndef EXPORT_CODECS if (g_NumArcs == 0) NeedSetLibCodecs = false; #endif } if (NeedSetLibCodecs) { /* 15.00: now we call global function in DLL: SetCompressCodecsInfo(c) old versions called only ISetCompressCodecsInfo::SetCompressCodecsInfo(c) for each archive handler */ FOR_VECTOR(i, Libs) { CCodecLib &lib = Libs[i]; lib.SetCodecs = (Func_SetCodecs)lib.Lib.GetProc("SetCodecs"); if (lib.SetCodecs) { RINOK(lib.SetCodecs(this)); } } } #endif return S_OK; } #ifndef _SFX int CCodecs::FindFormatForArchiveName(const UString &arcPath) const { int dotPos = arcPath.ReverseFind_Dot(); if (dotPos <= arcPath.ReverseFind_PathSepar()) return -1; const UString ext = arcPath.Ptr(dotPos + 1); if (ext.IsEmpty()) return -1; if (ext.IsEqualTo_Ascii_NoCase("exe")) return -1; FOR_VECTOR (i, Formats) { const CArcInfoEx &arc = Formats[i]; /* if (!arc.UpdateEnabled) continue; */ if (arc.FindExtension(ext) >= 0) return i; } return -1; } int CCodecs::FindFormatForExtension(const UString &ext) const { if (ext.IsEmpty()) return -1; FOR_VECTOR (i, Formats) if (Formats[i].FindExtension(ext) >= 0) return i; return -1; } int CCodecs::FindFormatForArchiveType(const UString &arcType) const { FOR_VECTOR (i, Formats) if (Formats[i].Name.IsEqualTo_NoCase(arcType)) return i; return -1; } bool CCodecs::FindFormatForArchiveType(const UString &arcType, CIntVector &formatIndices) const { formatIndices.Clear(); for (unsigned pos = 0; pos < arcType.Len();) { int pos2 = arcType.Find(L'.', pos); if (pos2 < 0) pos2 = arcType.Len(); const UString name = arcType.Mid(pos, pos2 - pos); if (name.IsEmpty()) return false; int index = FindFormatForArchiveType(name); if (index < 0 && name != L"*") { formatIndices.Clear(); return false; } formatIndices.Add(index); pos = pos2 + 1; } return true; } #endif // _SFX #ifdef NEW_FOLDER_INTERFACE void CCodecIcons::LoadIcons(HMODULE m) { #ifdef _WIN32 UString iconTypes; MyLoadString(m, kIconTypesResId, iconTypes); UStringVector pairs; SplitString(iconTypes, pairs); FOR_VECTOR (i, pairs) { const UString &s = pairs[i]; int pos = s.Find(L':'); CIconPair iconPair; iconPair.IconIndex = -1; if (pos < 0) pos = s.Len(); else { UString num = s.Ptr(pos + 1); if (!num.IsEmpty()) { const wchar_t *end; iconPair.IconIndex = ConvertStringToUInt32(num, &end); if (*end != 0) continue; } } iconPair.Ext = s.Left(pos); IconPairs.Add(iconPair); } #endif } bool CCodecIcons::FindIconIndex(const UString &ext, int &iconIndex) const { #ifdef _WIN32 iconIndex = -1; FOR_VECTOR (i, IconPairs) { const CIconPair &pair = IconPairs[i]; if (ext.IsEqualTo_NoCase(pair.Ext)) { iconIndex = pair.IconIndex; return true; } } #endif return false; } #endif // NEW_FOLDER_INTERFACE #ifdef EXTERNAL_CODECS // #define EXPORT_CODECS #ifdef EXPORT_CODECS extern unsigned g_NumCodecs; STDAPI CreateDecoder(UInt32 index, const GUID *iid, void **outObject); STDAPI CreateEncoder(UInt32 index, const GUID *iid, void **outObject); STDAPI GetMethodProperty(UInt32 codecIndex, PROPID propID, PROPVARIANT *value); #define NUM_EXPORT_CODECS g_NumCodecs extern unsigned g_NumHashers; STDAPI CreateHasher(UInt32 index, IHasher **hasher); STDAPI GetHasherProp(UInt32 codecIndex, PROPID propID, PROPVARIANT *value); #define NUM_EXPORT_HASHERS g_NumHashers #else // EXPORT_CODECS #define NUM_EXPORT_CODECS 0 #define NUM_EXPORT_HASHERS 0 #endif // EXPORT_CODECS STDMETHODIMP CCodecs::GetNumMethods(UInt32 *numMethods) { *numMethods = NUM_EXPORT_CODECS #ifdef EXTERNAL_CODECS + Codecs.Size() #endif ; return S_OK; } STDMETHODIMP CCodecs::GetProperty(UInt32 index, PROPID propID, PROPVARIANT *value) { #ifdef EXPORT_CODECS if (index < g_NumCodecs) return GetMethodProperty(index, propID, value); #endif #ifdef EXTERNAL_CODECS const CDllCodecInfo &ci = Codecs[index - NUM_EXPORT_CODECS]; if (propID == NMethodPropID::kDecoderIsAssigned || propID == NMethodPropID::kEncoderIsAssigned) { NCOM::CPropVariant prop; prop = (bool)((propID == NMethodPropID::kDecoderIsAssigned) ? ci.DecoderIsAssigned : ci.EncoderIsAssigned); prop.Detach(value); return S_OK; } const CCodecLib &lib = Libs[ci.LibIndex]; return lib.GetMethodProperty(ci.CodecIndex, propID, value); #else return E_FAIL; #endif } STDMETHODIMP CCodecs::CreateDecoder(UInt32 index, const GUID *iid, void **coder) { #ifdef EXPORT_CODECS if (index < g_NumCodecs) return CreateDecoder(index, iid, coder); #endif #ifdef EXTERNAL_CODECS const CDllCodecInfo &ci = Codecs[index - NUM_EXPORT_CODECS]; if (ci.DecoderIsAssigned) { const CCodecLib &lib = Libs[ci.LibIndex]; if (lib.CreateDecoder) return lib.CreateDecoder(ci.CodecIndex, iid, (void **)coder); return lib.CreateObject(&ci.Decoder, iid, (void **)coder); } return S_OK; #else return E_FAIL; #endif } STDMETHODIMP CCodecs::CreateEncoder(UInt32 index, const GUID *iid, void **coder) { #ifdef EXPORT_CODECS if (index < g_NumCodecs) return CreateEncoder(index, iid, coder); #endif #ifdef EXTERNAL_CODECS const CDllCodecInfo &ci = Codecs[index - NUM_EXPORT_CODECS]; if (ci.EncoderIsAssigned) { const CCodecLib &lib = Libs[ci.LibIndex]; if (lib.CreateEncoder) return lib.CreateEncoder(ci.CodecIndex, iid, (void **)coder); return lib.CreateObject(&ci.Encoder, iid, (void **)coder); } return S_OK; #else return E_FAIL; #endif } STDMETHODIMP_(UInt32) CCodecs::GetNumHashers() { return NUM_EXPORT_HASHERS #ifdef EXTERNAL_CODECS + Hashers.Size() #endif ; } STDMETHODIMP CCodecs::GetHasherProp(UInt32 index, PROPID propID, PROPVARIANT *value) { #ifdef EXPORT_CODECS if (index < g_NumHashers) return ::GetHasherProp(index, propID, value); #endif #ifdef EXTERNAL_CODECS const CDllHasherInfo &ci = Hashers[index - NUM_EXPORT_HASHERS]; return Libs[ci.LibIndex].ComHashers->GetHasherProp(ci.HasherIndex, propID, value); #else return E_FAIL; #endif } STDMETHODIMP CCodecs::CreateHasher(UInt32 index, IHasher **hasher) { #ifdef EXPORT_CODECS if (index < g_NumHashers) return CreateHasher(index, hasher); #endif #ifdef EXTERNAL_CODECS const CDllHasherInfo &ci = Hashers[index - NUM_EXPORT_HASHERS]; return Libs[ci.LibIndex].ComHashers->CreateHasher(ci.HasherIndex, hasher); #else return E_FAIL; #endif } int CCodecs::GetCodec_LibIndex(UInt32 index) const { #ifdef EXPORT_CODECS if (index < g_NumCodecs) return -1; #endif #ifdef EXTERNAL_CODECS const CDllCodecInfo &ci = Codecs[index - NUM_EXPORT_CODECS]; return ci.LibIndex; #else return -1; #endif } int CCodecs::GetHasherLibIndex(UInt32 index) { #ifdef EXPORT_CODECS if (index < g_NumHashers) return -1; #endif #ifdef EXTERNAL_CODECS const CDllHasherInfo &ci = Hashers[index - NUM_EXPORT_HASHERS]; return ci.LibIndex; #else return -1; #endif } bool CCodecs::GetCodec_DecoderIsAssigned(UInt32 index) const { #ifdef EXPORT_CODECS if (index < g_NumCodecs) { NCOM::CPropVariant prop; if (GetProperty(index, NMethodPropID::kDecoderIsAssigned, &prop) == S_OK) { if (prop.vt == VT_BOOL) return VARIANT_BOOLToBool(prop.boolVal); } return false; } #endif #ifdef EXTERNAL_CODECS return Codecs[index - NUM_EXPORT_CODECS].DecoderIsAssigned; #else return false; #endif } bool CCodecs::GetCodec_EncoderIsAssigned(UInt32 index) const { #ifdef EXPORT_CODECS if (index < g_NumCodecs) { NCOM::CPropVariant prop; if (GetProperty(index, NMethodPropID::kEncoderIsAssigned, &prop) == S_OK) { if (prop.vt == VT_BOOL) return VARIANT_BOOLToBool(prop.boolVal); } return false; } #endif #ifdef EXTERNAL_CODECS return Codecs[index - NUM_EXPORT_CODECS].EncoderIsAssigned; #else return false; #endif } UInt32 CCodecs::GetCodec_NumStreams(UInt32 index) { NCOM::CPropVariant prop; RINOK(GetProperty(index, NMethodPropID::kPackStreams, &prop)); if (prop.vt == VT_UI4) return (UInt32)prop.ulVal; if (prop.vt == VT_EMPTY) return 1; return 0; } HRESULT CCodecs::GetCodec_Id(UInt32 index, UInt64 &id) { NCOM::CPropVariant prop; RINOK(GetProperty(index, NMethodPropID::kID, &prop)); if (prop.vt != VT_UI8) return E_INVALIDARG; id = prop.uhVal.QuadPart; return S_OK; } AString CCodecs::GetCodec_Name(UInt32 index) { AString s; NCOM::CPropVariant prop; if (GetProperty(index, NMethodPropID::kName, &prop) == S_OK) if (prop.vt == VT_BSTR) s.SetFromWStr_if_Ascii(prop.bstrVal); return s; } UInt64 CCodecs::GetHasherId(UInt32 index) { NCOM::CPropVariant prop; if (GetHasherProp(index, NMethodPropID::kID, &prop) != S_OK) return 0; if (prop.vt != VT_UI8) return 0; return prop.uhVal.QuadPart; } AString CCodecs::GetHasherName(UInt32 index) { AString s; NCOM::CPropVariant prop; if (GetHasherProp(index, NMethodPropID::kName, &prop) == S_OK) if (prop.vt == VT_BSTR) s.SetFromWStr_if_Ascii(prop.bstrVal); return s; } UInt32 CCodecs::GetHasherDigestSize(UInt32 index) { NCOM::CPropVariant prop; RINOK(GetHasherProp(index, NMethodPropID::kDigestSize, &prop)); if (prop.vt != VT_UI4) return 0; return prop.ulVal; } #endif // EXTERNAL_CODECS