/************************************************************************** Filename : OVR_FileFILE.cpp Content : File wrapper class implementation (Win32) Created : April 5, 1999 Authors : Michael Antonov Copyright : Copyright 2014 Oculus VR, Inc. All Rights reserved. Licensed under the Oculus VR Rift SDK License Version 3.1 (the "License"); you may not use the Oculus VR Rift SDK except in compliance with the License, which is provided at the time of installation or download, or which otherwise accompanies this software in either electronic or hard copy form. You may obtain a copy of the License at http://www.oculusvr.com/licenses/LICENSE-3.1 Unless required by applicable law or agreed to in writing, the Oculus VR SDK distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. **************************************************************************/ #define GFILE_CXX #include "OVR_Types.h" #include "OVR_Log.h" // Standard C library (Captain Obvious guarantees!) #include #ifndef OVR_OS_WINCE #include #endif #include "OVR_SysFile.h" #ifndef OVR_OS_WINCE #include #endif namespace OVR { // ***** File interface // ***** FILEFile - C streams file static int SFerror () { if (errno == ENOENT) return FileConstants::Error_FileNotFound; else if (errno == EACCES || errno == EPERM) return FileConstants::Error_Access; else if (errno == ENOSPC) return FileConstants::Error_DiskFull; else return FileConstants::Error_IOError; }; #if defined(OVR_OS_WIN32) #define WIN32_LEAN_AND_MEAN #include "windows.h" // A simple helper class to disable/enable system error mode, if necessary // Disabling happens conditionally only if a drive name is involved class SysErrorModeDisabler { BOOL Disabled; UINT OldMode; public: SysErrorModeDisabler(const char* pfileName) { if (pfileName && (pfileName[0]!=0) && pfileName[1]==':') { Disabled = 1; OldMode = ::SetErrorMode(SEM_FAILCRITICALERRORS); } else Disabled = 0; } ~SysErrorModeDisabler() { if (Disabled) ::SetErrorMode(OldMode); } }; #else class SysErrorModeDisabler { public: SysErrorModeDisabler(const char* pfileName) { OVR_UNUSED(pfileName); } }; #endif // OVR_OS_WIN32 // This macro enables verification of I/O results after seeks against a pre-loaded // full file buffer copy. This is generally not necessary, but can been used to debug // memory corruptions; we've seen this fail due to EAX2/DirectSound corrupting memory // under FMOD with XP64 (32-bit) and Realtek HA Audio driver. //#define GFILE_VERIFY_SEEK_ERRORS // This is the simplest possible file implementation, it wraps around the descriptor // This file is delegated to by SysFile. class FILEFile : public File { protected: // Allocated filename String FileName; // File handle & open mode bool Opened; FILE* fs; int OpenFlags; // Error code for last request int ErrorCode; int LastOp; #ifdef OVR_FILE_VERIFY_SEEK_ERRORS uint8_t* pFileTestBuffer; unsigned FileTestLength; unsigned TestPos; // File pointer position during tests. #endif public: FILEFile() { Opened = 0; FileName = ""; #ifdef OVR_FILE_VERIFY_SEEK_ERRORS pFileTestBuffer =0; FileTestLength =0; TestPos =0; #endif } // Initialize file by opening it FILEFile(const String& fileName, int flags, int Mode); // The 'pfileName' should be encoded as UTF-8 to support international file names. FILEFile(const char* pfileName, int flags, int Mode); ~FILEFile() { if (Opened) Close(); } virtual const char* GetFilePath(); // ** File Information virtual bool IsValid(); virtual bool IsWritable(); // Return position / file size virtual int Tell(); virtual int64_t LTell(); virtual int GetLength(); virtual int64_t LGetLength(); // virtual bool Stat(FileStats *pfs); virtual int GetErrorCode(); // ** Stream implementation & I/O virtual int Write(const uint8_t *pbuffer, int numBytes); virtual int Read(uint8_t *pbuffer, int numBytes); virtual int SkipBytes(int numBytes); virtual int BytesAvailable(); virtual bool Flush(); virtual int Seek(int offset, int origin); virtual int64_t LSeek(int64_t offset, int origin); virtual int CopyFromStream(File *pStream, int byteSize); virtual bool Close(); private: void init(); }; // Initialize file by opening it FILEFile::FILEFile(const String& fileName, int flags, int mode) : FileName(fileName), OpenFlags(flags) { OVR_UNUSED(mode); init(); } // The 'pfileName' should be encoded as UTF-8 to support international file names. FILEFile::FILEFile(const char* pfileName, int flags, int mode) : FileName(pfileName), OpenFlags(flags) { OVR_UNUSED(mode); init(); } void FILEFile::init() { // Open mode for file's open const char *omode = "rb"; if (OpenFlags & Open_Truncate) { if (OpenFlags & Open_Read) omode = "w+b"; else omode = "wb"; } else if (OpenFlags & Open_Create) { if (OpenFlags & Open_Read) omode = "a+b"; else omode = "ab"; } else if (OpenFlags & Open_Write) omode = "r+b"; #if defined(OVR_OS_WIN32) SysErrorModeDisabler disabler(FileName.ToCStr()); #endif #if defined(OVR_CC_MSVC) && (OVR_CC_MSVC >= 1400) wchar_t womode[16]; wchar_t *pwFileName = (wchar_t*)OVR_ALLOC((UTF8Util::GetLength(FileName.ToCStr())+1) * sizeof(wchar_t)); UTF8Util::DecodeString(pwFileName, FileName.ToCStr()); OVR_ASSERT(strlen(omode) < sizeof(womode)/sizeof(womode[0])); UTF8Util::DecodeString(womode, omode); _wfopen_s(&fs, pwFileName, womode); OVR_FREE(pwFileName); #else fs = fopen(FileName.ToCStr(), omode); #endif if (fs) rewind (fs); Opened = (fs != NULL); // Set error code if (!Opened) ErrorCode = SFerror(); else { // If we are testing file seek correctness, pre-load the entire file so // that we can do comparison tests later. #ifdef OVR_FILE_VERIFY_SEEK_ERRORS TestPos = 0; fseek(fs, 0, SEEK_END); FileTestLength = ftell(fs); fseek(fs, 0, SEEK_SET); pFileTestBuffer = (uint8_t*)OVR_ALLOC(FileTestLength); if (pFileTestBuffer) { OVR_ASSERT(FileTestLength == (unsigned)Read(pFileTestBuffer, FileTestLength)); Seek(0, Seek_Set); } #endif ErrorCode = 0; } LastOp = 0; } const char* FILEFile::GetFilePath() { return FileName.ToCStr(); } // ** File Information bool FILEFile::IsValid() { return Opened; } bool FILEFile::IsWritable() { return IsValid() && (OpenFlags&Open_Write); } /* bool FILEFile::IsRecoverable() { return IsValid() && ((OpenFlags&OVR_FO_SAFETRUNC) == OVR_FO_SAFETRUNC); } */ // Return position / file size int FILEFile::Tell() { int pos = (int)ftell (fs); if (pos < 0) ErrorCode = SFerror(); return pos; } int64_t FILEFile::LTell() { int64_t pos = ftell(fs); if (pos < 0) ErrorCode = SFerror(); return pos; } int FILEFile::GetLength() { int pos = Tell(); if (pos >= 0) { Seek (0, Seek_End); int size = Tell(); Seek (pos, Seek_Set); return size; } return -1; } int64_t FILEFile::LGetLength() { int64_t pos = LTell(); if (pos >= 0) { LSeek (0, Seek_End); int64_t size = LTell(); LSeek (pos, Seek_Set); return size; } return -1; } int FILEFile::GetErrorCode() { return ErrorCode; } // ** Stream implementation & I/O int FILEFile::Write(const uint8_t *pbuffer, int numBytes) { if (LastOp && LastOp != Open_Write) fflush(fs); LastOp = Open_Write; int written = (int) fwrite(pbuffer, 1, numBytes, fs); if (written < numBytes) ErrorCode = SFerror(); #ifdef OVR_FILE_VERIFY_SEEK_ERRORS if (written > 0) TestPos += written; #endif return written; } int FILEFile::Read(uint8_t *pbuffer, int numBytes) { if (LastOp && LastOp != Open_Read) fflush(fs); LastOp = Open_Read; int read = (int) fread(pbuffer, 1, numBytes, fs); if (read < numBytes) ErrorCode = SFerror(); #ifdef OVR_FILE_VERIFY_SEEK_ERRORS if (read > 0) { // Read-in data must match our pre-loaded buffer data! uint8_t* pcompareBuffer = pFileTestBuffer + TestPos; for (int i=0; i< read; i++) { OVR_ASSERT(pcompareBuffer[i] == pbuffer[i]); } //OVR_ASSERT(!memcmp(pFileTestBuffer + TestPos, pbuffer, read)); TestPos += read; OVR_ASSERT(ftell(fs) == (int)TestPos); } #endif return read; } // Seeks ahead to skip bytes int FILEFile::SkipBytes(int numBytes) { int64_t pos = LTell(); int64_t newPos = LSeek(numBytes, Seek_Cur); // Return -1 for major error if ((pos==-1) || (newPos==-1)) { return -1; } //ErrorCode = ((NewPos-Pos) int(sizeof(buff))) ? int(sizeof(buff)) : byteSize; szRead = pstream->Read(buff, szRequest); szWritten = 0; if (szRead > 0) szWritten = Write(buff, szRead); count += szWritten; byteSize -= szWritten; if (szWritten < szRequest) break; } delete[] buff; return count; } bool FILEFile::Close() { #ifdef OVR_FILE_VERIFY_SEEK_ERRORS if (pFileTestBuffer) { OVR_FREE(pFileTestBuffer); pFileTestBuffer = 0; FileTestLength = 0; } #endif bool closeRet = !fclose(fs); if (!closeRet) { ErrorCode = SFerror(); return 0; } else { Opened = 0; fs = 0; ErrorCode = 0; } // Handle safe truncate /* if ((OpenFlags & OVR_FO_SAFETRUNC) == OVR_FO_SAFETRUNC) { // Delete original file (if it existed) DWORD oldAttributes = FileUtilWin32::GetFileAttributes(FileName); if (oldAttributes!=0xFFFFFFFF) if (!FileUtilWin32::DeleteFile(FileName)) { // Try to remove the readonly attribute FileUtilWin32::SetFileAttributes(FileName, oldAttributes & (~FILE_ATTRIBUTE_READONLY) ); // And delete the file again if (!FileUtilWin32::DeleteFile(FileName)) return 0; } // Rename temp file to real filename if (!FileUtilWin32::MoveFile(TempName, FileName)) { //ErrorCode = errno; return 0; } } */ return 1; } /* bool FILEFile::CloseCancel() { bool closeRet = (bool)::CloseHandle(fd); if (!closeRet) { //ErrorCode = errno; return 0; } else { Opened = 0; fd = INVALID_HANDLE_VALUE; ErrorCode = 0; } // Handle safe truncate (delete tmp file, leave original unchanged) if ((OpenFlags&OVR_FO_SAFETRUNC) == OVR_FO_SAFETRUNC) if (!FileUtilWin32::DeleteFile(TempName)) { //ErrorCode = errno; return 0; } return 1; } */ Ptr FileFILEOpen(const String& path, int flags, int mode) { Ptr result = *new FILEFile(path, flags, mode); return result; } // Helper function: obtain file information time. bool SysFile::GetFileStat(FileStat* pfileStat, const String& path) { #if defined(OVR_OS_WIN32) // 64-bit implementation on Windows. struct __stat64 fileStat; // Stat returns 0 for success. wchar_t *pwpath = (wchar_t*)OVR_ALLOC((UTF8Util::GetLength(path.ToCStr())+1)*sizeof(wchar_t)); UTF8Util::DecodeString(pwpath, path.ToCStr()); int ret = _wstat64(pwpath, &fileStat); OVR_FREE(pwpath); if (ret) return false; #else struct stat fileStat; // Stat returns 0 for success. if (stat(path, &fileStat) != 0) return false; #endif pfileStat->AccessTime = fileStat.st_atime; pfileStat->ModifyTime = fileStat.st_mtime; pfileStat->FileSize = fileStat.st_size; return true; } } // Namespace OVR