// 7zHandlerOut.cpp #include "StdAfx.h" #include "../../../Common/ComTry.h" #include "../../../Common/StringToInt.h" #include "../../../Common/Wildcard.h" #include "../Common/ItemNameUtils.h" #include "../Common/ParseProperties.h" #include "7zHandler.h" #include "7zOut.h" #include "7zUpdate.h" using namespace NWindows; namespace NArchive { namespace N7z { static const char *k_LZMA_Name = "LZMA"; static const char *kDefaultMethodName = "LZMA2"; static const char *k_Copy_Name = "Copy"; static const char *k_MatchFinder_ForHeaders = "BT2"; static const UInt32 k_NumFastBytes_ForHeaders = 273; static const UInt32 k_Level_ForHeaders = 5; static const UInt32 k_Dictionary_ForHeaders = #ifdef UNDER_CE 1 << 18; #else 1 << 20; #endif STDMETHODIMP CHandler::GetFileTimeType(UInt32 *type) { *type = NFileTimeType::kWindows; return S_OK; } HRESULT CHandler::PropsMethod_To_FullMethod(CMethodFull &dest, const COneMethodInfo &m) { if (!FindMethod( EXTERNAL_CODECS_VARS m.MethodName, dest.Id, dest.NumStreams)) return E_INVALIDARG; (CProps &)dest = (CProps &)m; return S_OK; } HRESULT CHandler::SetHeaderMethod(CCompressionMethodMode &headerMethod) { if (!_compressHeaders) return S_OK; COneMethodInfo m; m.MethodName = k_LZMA_Name; m.AddProp_Ascii(NCoderPropID::kMatchFinder, k_MatchFinder_ForHeaders); m.AddProp_Level(k_Level_ForHeaders); m.AddProp32(NCoderPropID::kNumFastBytes, k_NumFastBytes_ForHeaders); m.AddProp32(NCoderPropID::kDictionarySize, k_Dictionary_ForHeaders); m.AddProp_NumThreads(1); CMethodFull &methodFull = headerMethod.Methods.AddNew(); return PropsMethod_To_FullMethod(methodFull, m); } HRESULT CHandler::SetMainMethod( CCompressionMethodMode &methodMode #ifndef _7ZIP_ST , UInt32 numThreads #endif ) { methodMode.Bonds = _bonds; CObjectVector methods = _methods; { FOR_VECTOR (i, methods) { AString &methodName = methods[i].MethodName; if (methodName.IsEmpty()) methodName = kDefaultMethodName; } if (methods.IsEmpty()) { COneMethodInfo &m = methods.AddNew(); m.MethodName = (GetLevel() == 0 ? k_Copy_Name : kDefaultMethodName); methodMode.DefaultMethod_was_Inserted = true; } } if (!_filterMethod.MethodName.IsEmpty()) { // if (methodMode.Bonds.IsEmpty()) { FOR_VECTOR (k, methodMode.Bonds) { CBond2 &bond = methodMode.Bonds[k]; bond.InCoder++; bond.OutCoder++; } methods.Insert(0, _filterMethod); methodMode.Filter_was_Inserted = true; } } const UInt64 kSolidBytes_Min = (1 << 24); const UInt64 kSolidBytes_Max = ((UInt64)1 << 32) - 1; bool needSolid = false; FOR_VECTOR (i, methods) { COneMethodInfo &oneMethodInfo = methods[i]; SetGlobalLevelAndThreads(oneMethodInfo #ifndef _7ZIP_ST , numThreads #endif ); CMethodFull &methodFull = methodMode.Methods.AddNew(); RINOK(PropsMethod_To_FullMethod(methodFull, oneMethodInfo)); if (methodFull.Id != k_Copy) needSolid = true; if (_numSolidBytesDefined) continue; UInt32 dicSize; switch (methodFull.Id) { case k_LZMA: case k_LZMA2: dicSize = oneMethodInfo.Get_Lzma_DicSize(); break; case k_PPMD: dicSize = oneMethodInfo.Get_Ppmd_MemSize(); break; case k_Deflate: dicSize = (UInt32)1 << 15; break; case k_BZip2: dicSize = oneMethodInfo.Get_BZip2_BlockSize(); break; default: continue; } _numSolidBytes = (UInt64)dicSize << 7; if (_numSolidBytes < kSolidBytes_Min) _numSolidBytes = kSolidBytes_Min; if (_numSolidBytes > kSolidBytes_Max) _numSolidBytes = kSolidBytes_Max; _numSolidBytesDefined = true; } if (!_numSolidBytesDefined) if (needSolid) _numSolidBytes = kSolidBytes_Max; else _numSolidBytes = 0; _numSolidBytesDefined = true; return S_OK; } static HRESULT GetTime(IArchiveUpdateCallback *updateCallback, int index, PROPID propID, UInt64 &ft, bool &ftDefined) { // ft = 0; // ftDefined = false; NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(index, propID, &prop)); if (prop.vt == VT_FILETIME) { ft = prop.filetime.dwLowDateTime | ((UInt64)prop.filetime.dwHighDateTime << 32); ftDefined = true; } else if (prop.vt != VT_EMPTY) return E_INVALIDARG; else { ft = 0; ftDefined = false; } return S_OK; } /* #ifdef _WIN32 static const wchar_t kDirDelimiter1 = L'\\'; #endif static const wchar_t kDirDelimiter2 = L'/'; static inline bool IsCharDirLimiter(wchar_t c) { return ( #ifdef _WIN32 c == kDirDelimiter1 || #endif c == kDirDelimiter2); } static int FillSortIndex(CObjectVector &treeFolders, int cur, int curSortIndex) { CTreeFolder &tf = treeFolders[cur]; tf.SortIndex = curSortIndex++; for (int i = 0; i < tf.SubFolders.Size(); i++) curSortIndex = FillSortIndex(treeFolders, tf.SubFolders[i], curSortIndex); tf.SortIndexEnd = curSortIndex; return curSortIndex; } static int FindSubFolder(const CObjectVector &treeFolders, int cur, const UString &name, int &insertPos) { const CIntVector &subFolders = treeFolders[cur].SubFolders; int left = 0, right = subFolders.Size(); insertPos = -1; for (;;) { if (left == right) { insertPos = left; return -1; } int mid = (left + right) / 2; int midFolder = subFolders[mid]; int compare = CompareFileNames(name, treeFolders[midFolder].Name); if (compare == 0) return midFolder; if (compare < 0) right = mid; else left = mid + 1; } } static int AddFolder(CObjectVector &treeFolders, int cur, const UString &name) { int insertPos; int folderIndex = FindSubFolder(treeFolders, cur, name, insertPos); if (folderIndex < 0) { folderIndex = treeFolders.Size(); CTreeFolder &newFolder = treeFolders.AddNew(); newFolder.Parent = cur; newFolder.Name = name; treeFolders[cur].SubFolders.Insert(insertPos, folderIndex); } // else if (treeFolders[folderIndex].IsAltStreamFolder != isAltStreamFolder) throw 1123234234; return folderIndex; } */ STDMETHODIMP CHandler::UpdateItems(ISequentialOutStream *outStream, UInt32 numItems, IArchiveUpdateCallback *updateCallback) { COM_TRY_BEGIN const CDbEx *db = 0; #ifdef _7Z_VOL if (_volumes.Size() > 1) return E_FAIL; const CVolume *volume = 0; if (_volumes.Size() == 1) { volume = &_volumes.Front(); db = &volume->Database; } #else if (_inStream != 0) db = &_db; #endif /* CMyComPtr getRawProps; updateCallback->QueryInterface(IID_IArchiveGetRawProps, (void **)&getRawProps); CUniqBlocks secureBlocks; secureBlocks.AddUniq(NULL, 0); CObjectVector treeFolders; { CTreeFolder folder; folder.Parent = -1; treeFolders.Add(folder); } */ CObjectVector updateItems; bool need_CTime = (Write_CTime.Def && Write_CTime.Val); bool need_ATime = (Write_ATime.Def && Write_ATime.Val); bool need_MTime = (Write_MTime.Def && Write_MTime.Val || !Write_MTime.Def); if (db && !db->Files.IsEmpty()) { if (!Write_CTime.Def) need_CTime = !db->CTime.Defs.IsEmpty(); if (!Write_ATime.Def) need_ATime = !db->ATime.Defs.IsEmpty(); if (!Write_MTime.Def) need_MTime = !db->MTime.Defs.IsEmpty(); } UString s; for (UInt32 i = 0; i < numItems; i++) { Int32 newData, newProps; UInt32 indexInArchive; if (!updateCallback) return E_FAIL; RINOK(updateCallback->GetUpdateItemInfo(i, &newData, &newProps, &indexInArchive)); CUpdateItem ui; ui.NewProps = IntToBool(newProps); ui.NewData = IntToBool(newData); ui.IndexInArchive = indexInArchive; ui.IndexInClient = i; ui.IsAnti = false; ui.Size = 0; UString name; // bool isAltStream = false; if (ui.IndexInArchive != -1) { if (db == 0 || (unsigned)ui.IndexInArchive >= db->Files.Size()) return E_INVALIDARG; const CFileItem &fi = db->Files[ui.IndexInArchive]; if (!ui.NewProps) { _db.GetPath(ui.IndexInArchive, name); } ui.IsDir = fi.IsDir; ui.Size = fi.Size; // isAltStream = fi.IsAltStream; ui.IsAnti = db->IsItemAnti(ui.IndexInArchive); if (!ui.NewProps) { ui.CTimeDefined = db->CTime.GetItem(ui.IndexInArchive, ui.CTime); ui.ATimeDefined = db->ATime.GetItem(ui.IndexInArchive, ui.ATime); ui.MTimeDefined = db->MTime.GetItem(ui.IndexInArchive, ui.MTime); } } if (ui.NewProps) { bool folderStatusIsDefined; { NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(i, kpidAttrib, &prop)); if (prop.vt == VT_EMPTY) ui.AttribDefined = false; else if (prop.vt != VT_UI4) return E_INVALIDARG; else { ui.Attrib = prop.ulVal; ui.AttribDefined = true; } } // we need MTime to sort files. if (need_CTime) RINOK(GetTime(updateCallback, i, kpidCTime, ui.CTime, ui.CTimeDefined)); if (need_ATime) RINOK(GetTime(updateCallback, i, kpidATime, ui.ATime, ui.ATimeDefined)); if (need_MTime) RINOK(GetTime(updateCallback, i, kpidMTime, ui.MTime, ui.MTimeDefined)); /* if (getRawProps) { const void *data; UInt32 dataSize; UInt32 propType; getRawProps->GetRawProp(i, kpidNtSecure, &data, &dataSize, &propType); if (dataSize != 0 && propType != NPropDataType::kRaw) return E_FAIL; ui.SecureIndex = secureBlocks.AddUniq((const Byte *)data, dataSize); } */ { NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(i, kpidPath, &prop)); if (prop.vt == VT_EMPTY) { } else if (prop.vt != VT_BSTR) return E_INVALIDARG; else { name = NItemName::MakeLegalName(prop.bstrVal); } } { NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(i, kpidIsDir, &prop)); if (prop.vt == VT_EMPTY) folderStatusIsDefined = false; else if (prop.vt != VT_BOOL) return E_INVALIDARG; else { ui.IsDir = (prop.boolVal != VARIANT_FALSE); folderStatusIsDefined = true; } } { NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(i, kpidIsAnti, &prop)); if (prop.vt == VT_EMPTY) ui.IsAnti = false; else if (prop.vt != VT_BOOL) return E_INVALIDARG; else ui.IsAnti = (prop.boolVal != VARIANT_FALSE); } /* { NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(i, kpidIsAltStream, &prop)); if (prop.vt == VT_EMPTY) isAltStream = false; else if (prop.vt != VT_BOOL) return E_INVALIDARG; else isAltStream = (prop.boolVal != VARIANT_FALSE); } */ if (ui.IsAnti) { ui.AttribDefined = false; ui.CTimeDefined = false; ui.ATimeDefined = false; ui.MTimeDefined = false; ui.Size = 0; } if (!folderStatusIsDefined && ui.AttribDefined) ui.SetDirStatusFromAttrib(); } else { /* if (_db.SecureIDs.IsEmpty()) ui.SecureIndex = secureBlocks.AddUniq(NULL, 0); else { int id = _db.SecureIDs[ui.IndexInArchive]; size_t offs = _db.SecureOffsets[id]; size_t size = _db.SecureOffsets[id + 1] - offs; ui.SecureIndex = secureBlocks.AddUniq(_db.SecureBuf + offs, size); } */ } /* { int folderIndex = 0; if (_useParents) { int j; s.Empty(); for (j = 0; j < name.Len(); j++) { wchar_t c = name[j]; if (IsCharDirLimiter(c)) { folderIndex = AddFolder(treeFolders, folderIndex, s); s.Empty(); continue; } s += c; } if (isAltStream) { int colonPos = s.Find(':'); if (colonPos < 0) { // isAltStream = false; return E_INVALIDARG; } UString mainName = s.Left(colonPos); int newFolderIndex = AddFolder(treeFolders, folderIndex, mainName); if (treeFolders[newFolderIndex].UpdateItemIndex < 0) { for (int j = updateItems.Size() - 1; j >= 0; j--) { CUpdateItem &ui2 = updateItems[j]; if (ui2.ParentFolderIndex == folderIndex && ui2.Name == mainName) { ui2.TreeFolderIndex = newFolderIndex; treeFolders[newFolderIndex].UpdateItemIndex = j; } } } folderIndex = newFolderIndex; s.Delete(0, colonPos + 1); } ui.Name = s; } else ui.Name = name; ui.IsAltStream = isAltStream; ui.ParentFolderIndex = folderIndex; ui.TreeFolderIndex = -1; if (ui.IsDir && !s.IsEmpty()) { ui.TreeFolderIndex = AddFolder(treeFolders, folderIndex, s); treeFolders[ui.TreeFolderIndex].UpdateItemIndex = updateItems.Size(); } } */ ui.Name = name; if (ui.NewData) { ui.Size = 0; if (!ui.IsDir) { NCOM::CPropVariant prop; RINOK(updateCallback->GetProperty(i, kpidSize, &prop)); if (prop.vt != VT_UI8) return E_INVALIDARG; ui.Size = (UInt64)prop.uhVal.QuadPart; if (ui.Size != 0 && ui.IsAnti) return E_INVALIDARG; } } updateItems.Add(ui); } /* FillSortIndex(treeFolders, 0, 0); for (i = 0; i < (UInt32)updateItems.Size(); i++) { CUpdateItem &ui = updateItems[i]; ui.ParentSortIndex = treeFolders[ui.ParentFolderIndex].SortIndex; ui.ParentSortIndexEnd = treeFolders[ui.ParentFolderIndex].SortIndexEnd; } */ CCompressionMethodMode methodMode, headerMethod; HRESULT res = SetMainMethod(methodMode #ifndef _7ZIP_ST , _numThreads #endif ); RINOK(res); RINOK(SetHeaderMethod(headerMethod)); #ifndef _7ZIP_ST methodMode.NumThreads = _numThreads; methodMode.MultiThreadMixer = _useMultiThreadMixer; headerMethod.NumThreads = 1; headerMethod.MultiThreadMixer = _useMultiThreadMixer; #endif CMyComPtr getPassword2; updateCallback->QueryInterface(IID_ICryptoGetTextPassword2, (void **)&getPassword2); methodMode.PasswordIsDefined = false; methodMode.Password.Empty(); if (getPassword2) { CMyComBSTR password; Int32 passwordIsDefined; RINOK(getPassword2->CryptoGetTextPassword2(&passwordIsDefined, &password)); methodMode.PasswordIsDefined = IntToBool(passwordIsDefined); if (methodMode.PasswordIsDefined && password) methodMode.Password = password; } bool compressMainHeader = _compressHeaders; // check it bool encryptHeaders = false; #ifndef _NO_CRYPTO if (!methodMode.PasswordIsDefined && _passwordIsDefined) { // if header is compressed, we use that password for updated archive methodMode.PasswordIsDefined = true; methodMode.Password = _password; } #endif if (methodMode.PasswordIsDefined) { if (_encryptHeadersSpecified) encryptHeaders = _encryptHeaders; #ifndef _NO_CRYPTO else encryptHeaders = _passwordIsDefined; #endif compressMainHeader = true; if (encryptHeaders) { headerMethod.PasswordIsDefined = methodMode.PasswordIsDefined; headerMethod.Password = methodMode.Password; } } if (numItems < 2) compressMainHeader = false; int level = GetLevel(); CUpdateOptions options; options.Method = &methodMode; options.HeaderMethod = (_compressHeaders || encryptHeaders) ? &headerMethod : NULL; options.UseFilters = (level != 0 && _autoFilter && !methodMode.Filter_was_Inserted); options.MaxFilter = (level >= 8); options.AnalysisLevel = GetAnalysisLevel(); options.HeaderOptions.CompressMainHeader = compressMainHeader; /* options.HeaderOptions.WriteCTime = Write_CTime; options.HeaderOptions.WriteATime = Write_ATime; options.HeaderOptions.WriteMTime = Write_MTime; */ options.NumSolidFiles = _numSolidFiles; options.NumSolidBytes = _numSolidBytes; options.SolidExtension = _solidExtension; options.UseTypeSorting = _useTypeSorting; options.RemoveSfxBlock = _removeSfxBlock; // options.VolumeMode = _volumeMode; options.MultiThreadMixer = _useMultiThreadMixer; COutArchive archive; CArchiveDatabaseOut newDatabase; CMyComPtr getPassword; updateCallback->QueryInterface(IID_ICryptoGetTextPassword, (void **)&getPassword); /* if (secureBlocks.Sorted.Size() > 1) { secureBlocks.GetReverseMap(); for (int i = 0; i < updateItems.Size(); i++) { int &secureIndex = updateItems[i].SecureIndex; secureIndex = secureBlocks.BufIndexToSortedIndex[secureIndex]; } } */ res = Update( EXTERNAL_CODECS_VARS #ifdef _7Z_VOL volume ? volume->Stream: 0, volume ? db : 0, #else _inStream, db, #endif updateItems, // treeFolders, // secureBlocks, archive, newDatabase, outStream, updateCallback, options #ifndef _NO_CRYPTO , getPassword #endif ); RINOK(res); updateItems.ClearAndFree(); return archive.WriteDatabase(EXTERNAL_CODECS_VARS newDatabase, options.HeaderMethod, options.HeaderOptions); COM_TRY_END } static HRESULT ParseBond(UString &srcString, UInt32 &coder, UInt32 &stream) { stream = 0; { unsigned index = ParseStringToUInt32(srcString, coder); if (index == 0) return E_INVALIDARG; srcString.DeleteFrontal(index); } if (srcString[0] == 's') { srcString.Delete(0); unsigned index = ParseStringToUInt32(srcString, stream); if (index == 0) return E_INVALIDARG; srcString.DeleteFrontal(index); } return S_OK; } void COutHandler::InitProps() { CMultiMethodProps::Init(); _removeSfxBlock = false; _compressHeaders = true; _encryptHeadersSpecified = false; _encryptHeaders = false; // _useParents = false; Write_CTime.Init(); Write_ATime.Init(); Write_MTime.Init(); _useMultiThreadMixer = true; // _volumeMode = false; InitSolid(); _useTypeSorting = false; } HRESULT COutHandler::SetSolidFromString(const UString &s) { UString s2 = s; s2.MakeLower_Ascii(); for (unsigned i = 0; i < s2.Len();) { const wchar_t *start = ((const wchar_t *)s2) + i; const wchar_t *end; UInt64 v = ConvertStringToUInt64(start, &end); if (start == end) { if (s2[i++] != 'e') return E_INVALIDARG; _solidExtension = true; continue; } i += (int)(end - start); if (i == s2.Len()) return E_INVALIDARG; wchar_t c = s2[i++]; if (c == 'f') { if (v < 1) v = 1; _numSolidFiles = v; } else { unsigned numBits; switch (c) { case 'b': numBits = 0; break; case 'k': numBits = 10; break; case 'm': numBits = 20; break; case 'g': numBits = 30; break; case 't': numBits = 40; break; default: return E_INVALIDARG; } _numSolidBytes = (v << numBits); _numSolidBytesDefined = true; } } return S_OK; } HRESULT COutHandler::SetSolidFromPROPVARIANT(const PROPVARIANT &value) { bool isSolid; switch (value.vt) { case VT_EMPTY: isSolid = true; break; case VT_BOOL: isSolid = (value.boolVal != VARIANT_FALSE); break; case VT_BSTR: if (StringToBool(value.bstrVal, isSolid)) break; return SetSolidFromString(value.bstrVal); default: return E_INVALIDARG; } if (isSolid) InitSolid(); else _numSolidFiles = 1; return S_OK; } static HRESULT PROPVARIANT_to_BoolPair(const PROPVARIANT &prop, CBoolPair &dest) { RINOK(PROPVARIANT_to_bool(prop, dest.Val)); dest.Def = true; return S_OK; } HRESULT COutHandler::SetProperty(const wchar_t *nameSpec, const PROPVARIANT &value) { UString name = nameSpec; name.MakeLower_Ascii(); if (name.IsEmpty()) return E_INVALIDARG; if (name[0] == L's') { name.Delete(0); if (name.IsEmpty()) return SetSolidFromPROPVARIANT(value); if (value.vt != VT_EMPTY) return E_INVALIDARG; return SetSolidFromString(name); } UInt32 number; int index = ParseStringToUInt32(name, number); // UString realName = name.Ptr(index); if (index == 0) { if (name.IsEqualTo("rsfx")) return PROPVARIANT_to_bool(value, _removeSfxBlock); if (name.IsEqualTo("hc")) return PROPVARIANT_to_bool(value, _compressHeaders); // if (name.IsEqualToNoCase(L"HS")) return PROPVARIANT_to_bool(value, _useParents); if (name.IsEqualTo("hcf")) { bool compressHeadersFull = true; RINOK(PROPVARIANT_to_bool(value, compressHeadersFull)); return compressHeadersFull ? S_OK: E_INVALIDARG; } if (name.IsEqualTo("he")) { RINOK(PROPVARIANT_to_bool(value, _encryptHeaders)); _encryptHeadersSpecified = true; return S_OK; } if (name.IsEqualTo("tc")) return PROPVARIANT_to_BoolPair(value, Write_CTime); if (name.IsEqualTo("ta")) return PROPVARIANT_to_BoolPair(value, Write_ATime); if (name.IsEqualTo("tm")) return PROPVARIANT_to_BoolPair(value, Write_MTime); if (name.IsEqualTo("mtf")) return PROPVARIANT_to_bool(value, _useMultiThreadMixer); if (name.IsEqualTo("qs")) return PROPVARIANT_to_bool(value, _useTypeSorting); // if (name.IsEqualTo("v")) return PROPVARIANT_to_bool(value, _volumeMode); } return CMultiMethodProps::SetProperty(name, value); } STDMETHODIMP CHandler::SetProperties(const wchar_t * const *names, const PROPVARIANT *values, UInt32 numProps) { COM_TRY_BEGIN _bonds.Clear(); InitProps(); for (UInt32 i = 0; i < numProps; i++) { UString name = names[i]; name.MakeLower_Ascii(); if (name.IsEmpty()) return E_INVALIDARG; const PROPVARIANT &value = values[i]; if (name[0] == 'b') { if (value.vt != VT_EMPTY) return E_INVALIDARG; name.Delete(0); CBond2 bond; RINOK(ParseBond(name, bond.OutCoder, bond.OutStream)); if (name[0] != ':') return E_INVALIDARG; name.Delete(0); UInt32 inStream = 0; RINOK(ParseBond(name, bond.InCoder, inStream)); if (inStream != 0) return E_INVALIDARG; if (!name.IsEmpty()) return E_INVALIDARG; _bonds.Add(bond); continue; } RINOK(SetProperty(name, value)); } unsigned numEmptyMethods = GetNumEmptyMethods(); if (numEmptyMethods > 0) { unsigned k; for (k = 0; k < _bonds.Size(); k++) { const CBond2 &bond = _bonds[k]; if (bond.InCoder < (UInt32)numEmptyMethods || bond.OutCoder < (UInt32)numEmptyMethods) return E_INVALIDARG; } for (k = 0; k < _bonds.Size(); k++) { CBond2 &bond = _bonds[k]; bond.InCoder -= (UInt32)numEmptyMethods; bond.OutCoder -= (UInt32)numEmptyMethods; } _methods.DeleteFrontal(numEmptyMethods); } FOR_VECTOR (k, _bonds) { const CBond2 &bond = _bonds[k]; if (bond.InCoder >= (UInt32)_methods.Size() || bond.OutCoder >= (UInt32)_methods.Size()) return E_INVALIDARG; } return S_OK; COM_TRY_END } }}