HRESULT OpenArchive( CCodecs *codecs, IInStream *inStream, const UString &fileName, IInArchive **archiveResult, int &formatIndex, UString &defaultItemName, IArchiveOpenCallback *openArchiveCallback) { *archiveResult = NULL; UString extension; { int dotPos = fileName.ReverseFind(L'.'); if (dotPos >= 0) extension = fileName.Mid(dotPos + 1); } CIntVector orderIndices; int i; int numFinded = 0; for (i = 0; i < codecs->Formats.Size(); i++) if (codecs->Formats[i].FindExtension(extension) >= 0) orderIndices.Insert(numFinded++, i); else orderIndices.Add(i); #ifndef _SFX if (numFinded != 1) { CIntVector orderIndices2; CByteBuffer byteBuffer; const UInt32 kBufferSize = (200 << 10); byteBuffer.SetCapacity(kBufferSize); Byte *buffer = byteBuffer; RINOK(inStream->Seek(0, STREAM_SEEK_SET, NULL)); UInt32 processedSize; RINOK(ReadStream(inStream, buffer, kBufferSize, &processedSize)); for (UInt32 pos = 0; pos < processedSize; pos++) { for (int i = 0; i < orderIndices.Size(); i++) { int index = orderIndices[i]; const CArcInfoEx &ai = codecs->Formats[index]; const CByteBuffer &sig = ai.StartSignature; if (sig.GetCapacity() == 0) continue; if (pos + sig.GetCapacity() > processedSize) continue; if (TestSignature(buffer + pos, sig, sig.GetCapacity())) { orderIndices2.Add(index); orderIndices.Delete(i--); } } } orderIndices2 += orderIndices; orderIndices = orderIndices2; /* begin: extracted from 4.65 */ if (orderIndices.Size() >= 2) { int isoIndex = codecs->FindFormatForArchiveType(L"iso"); int udfIndex = codecs->FindFormatForArchiveType(L"udf"); int iIso = -1; int iUdf = -1; for (int i = 0; i < orderIndices.Size(); i++) { if (orderIndices[i] == isoIndex) iIso = i; if (orderIndices[i] == udfIndex) iUdf = i; } if (iUdf == iIso + 1) { orderIndices[iUdf] = isoIndex; orderIndices[iIso] = udfIndex; } } /* end: extracted from 4.65 */ } else if (extension == L"000" || extension == L"001") { CByteBuffer byteBuffer; const UInt32 kBufferSize = (1 << 10); byteBuffer.SetCapacity(kBufferSize); Byte *buffer = byteBuffer; RINOK(inStream->Seek(0, STREAM_SEEK_SET, NULL)); UInt32 processedSize; RINOK(ReadStream(inStream, buffer, kBufferSize, &processedSize)); if (processedSize >= 16) { Byte kRarHeader[] = {0x52 , 0x61, 0x72, 0x21, 0x1a, 0x07, 0x00}; if (TestSignature(buffer, kRarHeader, 7) && buffer[9] == 0x73 && (buffer[10] && 1) != 0) { for (int i = 0; i < orderIndices.Size(); i++) { int index = orderIndices[i]; const CArcInfoEx &ai = codecs->Formats[index]; if (ai.Name.CompareNoCase(L"rar") != 0) continue; orderIndices.Delete(i--); orderIndices.Insert(0, index); break; } } } } #endif HRESULT badResult = S_OK; for(i = 0; i < orderIndices.Size(); i++) { inStream->Seek(0, STREAM_SEEK_SET, NULL); CMyComPtr<IInArchive> archive; formatIndex = orderIndices[i]; RINOK(codecs->CreateInArchive(formatIndex, archive)); if (!archive) continue; #ifdef EXTERNAL_CODECS { CMyComPtr<ISetCompressCodecsInfo> setCompressCodecsInfo; archive.QueryInterface(IID_ISetCompressCodecsInfo, (void **)&setCompressCodecsInfo); if (setCompressCodecsInfo) { RINOK(setCompressCodecsInfo->SetCompressCodecsInfo(codecs)); } } #endif HRESULT result = archive->Open(inStream, &kMaxCheckStartPosition, openArchiveCallback); if (result == S_FALSE) continue; if(result != S_OK) { badResult = result; if(result == E_ABORT) break; continue; } *archiveResult = archive.Detach(); const CArcInfoEx &format = codecs->Formats[formatIndex]; if (format.Exts.Size() == 0) { defaultItemName = GetDefaultName2(fileName, L"", L""); } else { int subExtIndex = format.FindExtension(extension); if (subExtIndex < 0) subExtIndex = 0; defaultItemName = GetDefaultName2(fileName, format.Exts[subExtIndex].Ext, format.Exts[subExtIndex].AddExt); } return S_OK; } if (badResult != S_OK) return badResult; return S_FALSE; }
HRESULT CArc::OpenStream( CCodecs *codecs, int formatIndex, IInStream *stream, ISequentialInStream *seqStream, IArchiveOpenCallback *callback) { Archive.Release(); ErrorMessage.Empty(); const UString fileName = ExtractFileNameFromPath(Path); UString extension; { int dotPos = fileName.ReverseFind(L'.'); if (dotPos >= 0) extension = fileName.Mid(dotPos + 1); } CIntVector orderIndices; if (formatIndex >= 0) orderIndices.Add(formatIndex); else { int i; int numFinded = 0; for (i = 0; i < codecs->Formats.Size(); i++) if (codecs->Formats[i].FindExtension(extension) >= 0) orderIndices.Insert(numFinded++, i); else orderIndices.Add(i); if (!stream) { if (numFinded != 1) return E_NOTIMPL; orderIndices.DeleteFrom(1); } #ifndef _SFX if (orderIndices.Size() >= 2 && (numFinded == 0 || extension.CompareNoCase(L"exe") == 0)) { CIntVector orderIndices2; CByteBuffer byteBuffer; const size_t kBufferSize = (1 << 21); byteBuffer.SetCapacity(kBufferSize); RINOK(stream->Seek(0, STREAM_SEEK_SET, NULL)); size_t processedSize = kBufferSize; RINOK(ReadStream(stream, byteBuffer, &processedSize)); if (processedSize == 0) return S_FALSE; const Byte *buf = byteBuffer; CByteBuffer hashBuffer; const UInt32 kNumVals = 1 << (kNumHashBytes * 8); hashBuffer.SetCapacity(kNumVals); Byte *hash = hashBuffer; memset(hash, 0xFF, kNumVals); Byte prevs[256]; if (orderIndices.Size() >= 256) return S_FALSE; int i; for (i = 0; i < orderIndices.Size(); i++) { const CArcInfoEx &ai = codecs->Formats[orderIndices[i]]; const CByteBuffer &sig = ai.StartSignature; if (sig.GetCapacity() < kNumHashBytes) continue; UInt32 v = HASH_VAL(sig, 0); prevs[i] = hash[v]; hash[v] = (Byte)i; } processedSize -= (kNumHashBytes - 1); for (UInt32 pos = 0; pos < processedSize; pos++) { for (; pos < processedSize && hash[HASH_VAL(buf, pos)] == 0xFF; pos++); if (pos == processedSize) break; UInt32 v = HASH_VAL(buf, pos); Byte *ptr = &hash[v]; int i = *ptr; do { int index = orderIndices[i]; const CArcInfoEx &ai = codecs->Formats[index]; const CByteBuffer &sig = ai.StartSignature; if (sig.GetCapacity() != 0 && pos + sig.GetCapacity() <= processedSize + (kNumHashBytes - 1) && TestSignature(buf + pos, sig, sig.GetCapacity())) { orderIndices2.Add(index); orderIndices[i] = 0xFF; *ptr = prevs[i]; } else ptr = &prevs[i]; i = *ptr; } while (i != 0xFF); } for (i = 0; i < orderIndices.Size(); i++) { int val = orderIndices[i]; if (val != 0xFF) orderIndices2.Add(val); } orderIndices = orderIndices2; } else if (extension == L"000" || extension == L"001") { CByteBuffer byteBuffer; const size_t kBufferSize = (1 << 10); byteBuffer.SetCapacity(kBufferSize); Byte *buffer = byteBuffer; RINOK(stream->Seek(0, STREAM_SEEK_SET, NULL)); size_t processedSize = kBufferSize; RINOK(ReadStream(stream, buffer, &processedSize)); if (processedSize >= 16) { Byte kRarHeader[] = {0x52 , 0x61, 0x72, 0x21, 0x1a, 0x07, 0x00}; if (TestSignature(buffer, kRarHeader, 7) && buffer[9] == 0x73 && (buffer[10] & 1) != 0) { for (int i = 0; i < orderIndices.Size(); i++) { int index = orderIndices[i]; const CArcInfoEx &ai = codecs->Formats[index]; if (ai.Name.CompareNoCase(L"rar") != 0) continue; orderIndices.Delete(i--); orderIndices.Insert(0, index); break; } } } } if (orderIndices.Size() >= 2) { int isoIndex = codecs->FindFormatForArchiveType(L"iso"); int udfIndex = codecs->FindFormatForArchiveType(L"udf"); int iIso = -1; int iUdf = -1; for (int i = 0; i < orderIndices.Size(); i++) { if (orderIndices[i] == isoIndex) iIso = i; if (orderIndices[i] == udfIndex) iUdf = i; } if (iUdf > iIso && iIso >= 0) { orderIndices[iUdf] = isoIndex; orderIndices[iIso] = udfIndex; } } #endif } for (int i = 0; i < orderIndices.Size(); i++) { if (stream) { RINOK(stream->Seek(0, STREAM_SEEK_SET, NULL)); } CMyComPtr<IInArchive> archive; FormatIndex = orderIndices[i]; RINOK(codecs->CreateInArchive(FormatIndex, archive)); if (!archive) continue; #ifdef EXTERNAL_CODECS { CMyComPtr<ISetCompressCodecsInfo> setCompressCodecsInfo; archive.QueryInterface(IID_ISetCompressCodecsInfo, (void **)&setCompressCodecsInfo); if (setCompressCodecsInfo) { RINOK(setCompressCodecsInfo->SetCompressCodecsInfo(codecs)); } } #endif // OutputDebugStringW(codecs->Formats[FormatIndex].Name); HRESULT result; if (stream) result = archive->Open(stream, &kMaxCheckStartPosition, callback); else { CMyComPtr<IArchiveOpenSeq> openSeq; archive.QueryInterface(IID_IArchiveOpenSeq, (void **)&openSeq); if (!openSeq) return E_NOTIMPL; result = openSeq->OpenSeq(seqStream); } if (result == S_FALSE) continue; RINOK(result); { NCOM::CPropVariant prop; archive->GetArchiveProperty(kpidError, &prop); if (prop.vt != VT_EMPTY) ErrorMessage = (prop.vt == VT_BSTR) ? prop.bstrVal : L"Unknown error"; } Archive = archive; const CArcInfoEx &format = codecs->Formats[FormatIndex]; if (format.Exts.Size() == 0) DefaultName = GetDefaultName2(fileName, L"", L""); else { int subExtIndex = format.FindExtension(extension); if (subExtIndex < 0) subExtIndex = 0; const CArcExtInfo &extInfo = format.Exts[subExtIndex]; DefaultName = GetDefaultName2(fileName, extInfo.Ext, extInfo.AddExt); } return S_OK; } return S_FALSE; }