//===- FileSystem.inc -----------------------------------------------------===// // // The MCLinker Project // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "mcld/Support/FileHandle.h" #include "mcld/Support/Directory.h" #include #include #include #include #include #include #include #ifndef STDIN_FILENO #define STDIN_FILENO 0 #endif #ifndef STDOUT_FILENO #define STDOUT_FILENO 1 #endif #ifndef STDERR_FILENO #define STDERR_FILENO 2 #endif namespace mcld { namespace sys { namespace fs { namespace detail { // FIXME: the extension depends on target machine, not host machine. Path::StringType static_library_extension = ".a"; Path::StringType shared_library_extension = ".so"; Path::StringType executable_extension = ".exe"; Path::StringType relocatable_extension = ".o"; Path::StringType assembly_extension = ".s"; Path::StringType bitcode_extension = ".bc"; void open_dir(Directory& pDir) { fs::Path file_filter(pDir.path()); file_filter.append("*"); WIN32_FIND_DATA FindFileData; HANDLE hFile = FindFirstFile(file_filter.c_str(), &FindFileData); pDir.m_Handler = reinterpret_cast(hFile); if (INVALID_HANDLE_VALUE == hFile) { // set cache is full, then Directory::begin() can return end(). pDir.m_CacheFull = true; return; } // find a new directory and file bool exist = false; std::string path(FindFileData.cFileName); fs::PathCache::entry_type* entry = pDir.m_Cache.insert(path, exist); if (!exist) entry->setValue(path); } void close_dir(Directory& pDir) { if (pDir.m_Handler) FindClose(reinterpret_cast(pDir.m_Handler)); pDir.m_Handler = 0; } int open(const Path& pPath, int pOFlag) { return ::_open(pPath.native().c_str(), pOFlag | _O_BINARY); } int open(const Path& pPath, int pOFlag, int pPerm) { int perm = 0; if (pPerm & FileHandle::ReadOwner || pPerm & FileHandle::ReadGroup || pPerm & FileHandle::ReadOther) perm |= _S_IREAD; if (pPerm & FileHandle::WriteOwner || pPerm & FileHandle::WriteGroup || pPerm & FileHandle::WriteOther) perm |= _S_IWRITE; return ::_open(pPath.native().c_str(), pOFlag | _O_BINARY, perm); } ssize_t pread(int pFD, void* pBuf, size_t pCount, off_t pOffset) { ssize_t ret; off_t old_pos; if (-1 == (old_pos = ::lseek(pFD, 0, SEEK_CUR))) return -1; if (-1 == ::lseek(pFD, pOffset, SEEK_SET)) return -1; if (-1 == (ret = ::read(pFD, pBuf, pCount))) { int err = errno; ::lseek(pFD, old_pos, SEEK_SET); errno = err; return -1; } if (-1 == ::lseek(pFD, old_pos, SEEK_SET)) return -1; return ret; } ssize_t pwrite(int pFD, const void* pBuf, size_t pCount, off_t pOffset) { ssize_t ret; off_t old_pos; if (-1 == (old_pos = ::lseek(pFD, 0, SEEK_CUR))) return -1; if (-1 == ::lseek(pFD, pOffset, SEEK_SET)) return -1; if (-1 == (ret = ::write(pFD, pBuf, pCount))) { int err = errno; ::lseek(pFD, old_pos, SEEK_SET); errno = err; return -1; } if (-1 == ::lseek(pFD, old_pos, SEEK_SET)) return -1; return ret; } int ftruncate(int pFD, size_t pLength) { return ::_chsize(pFD, pLength); } void get_pwd(Path& pPWD) { char* pwd = (char*)malloc(PATH_MAX); pPWD.assign(_getcwd(pwd, PATH_MAX)); free(pwd); } } // namespace detail } // namespace fs } // namespace sys //===----------------------------------------------------------------------===// // FileHandle //===----------------------------------------------------------------------===// bool FileHandle::mmap(void*& pMemBuffer, size_t pStartOffset, size_t pLength) { // FIXME: This implementation reduces mmap to read. Use Windows APIs. pMemBuffer = (void*)::malloc(pLength); return read(pMemBuffer, pStartOffset, pLength); } bool FileHandle::munmap(void* pMemBuffer, size_t pLength) { // FIXME: This implementation reduces mmap to read. Use Windows APIs. free(pMemBuffer); return true; } } // namespace mcld