////////////////////////////////////////////////////////////////////////////// // // (C) Copyright Ion Gaztanaga 2005-2011. Distributed under the Boost // Software License, Version 1.0. (See accompanying file // LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // // See http://www.boost.org/libs/interprocess for documentation. // ////////////////////////////////////////////////////////////////////////////// #ifndef BOOST_INTERPROCESS_DETAIL_OS_FILE_FUNCTIONS_HPP #define BOOST_INTERPROCESS_DETAIL_OS_FILE_FUNCTIONS_HPP #include #include #include #include #include #include #include std::string g_app_tmp_path=""; #if (defined BOOST_INTERPROCESS_WINDOWS) # include #else # ifdef BOOST_HAS_UNISTD_H # include # include # include # include # include # include # include # if 0 # include # endif # else # error Unknown platform # endif #endif #include #include namespace boost { namespace interprocess { #if (defined BOOST_INTERPROCESS_WINDOWS) typedef void * file_handle_t; typedef long long offset_t; typedef struct mapping_handle_impl_t{ void * handle; bool is_shm; } mapping_handle_t; typedef enum { read_only = winapi::generic_read , read_write = winapi::generic_read | winapi::generic_write , copy_on_write , read_private , invalid_mode = 0xffff } mode_t; typedef enum { file_begin = winapi::file_begin , file_end = winapi::file_end , file_current = winapi::file_current } file_pos_t; namespace ipcdetail{ inline mapping_handle_t mapping_handle_from_file_handle(file_handle_t hnd) { mapping_handle_t ret; ret.handle = hnd; ret.is_shm = false; return ret; } inline mapping_handle_t mapping_handle_from_shm_handle(file_handle_t hnd) { mapping_handle_t ret; ret.handle = hnd; ret.is_shm = true; return ret; } inline file_handle_t file_handle_from_mapping_handle(mapping_handle_t hnd) { return hnd.handle; } inline bool create_directory(const char *path) { return winapi::create_directory(path); } inline const char *get_temporary_path() { if(g_app_tmp_path.empty()) return NULL; return std::getenv("TMP"); } inline file_handle_t create_new_file (const char *name, mode_t mode, const permissions & perm = permissions(), bool temporary = false) { unsigned long attr = temporary ? winapi::file_attribute_temporary : 0; return winapi::create_file ( name, (unsigned int)mode, winapi::create_new, attr , (winapi::interprocess_security_attributes*)perm.get_permissions()); } inline file_handle_t create_or_open_file (const char *name, mode_t mode, const permissions & perm = permissions(), bool temporary = false) { unsigned long attr = temporary ? winapi::file_attribute_temporary : 0; return winapi::create_file ( name, (unsigned int)mode, winapi::open_always, attr , (winapi::interprocess_security_attributes*)perm.get_permissions()); } inline file_handle_t open_existing_file (const char *name, mode_t mode, bool temporary = false) { unsigned long attr = temporary ? winapi::file_attribute_temporary : 0; return winapi::create_file (name, (unsigned int)mode, winapi::open_existing, attr, 0); } inline bool delete_file(const char *name) { return winapi::unlink_file(name); } inline bool truncate_file (file_handle_t hnd, std::size_t size) { offset_t filesize; if(!winapi::get_file_size(hnd, filesize)) return false; const offset_t max_filesize = (std::numeric_limits::max)(); //Avoid unused variable warnings in 32 bit systems (void)max_filesize; if( sizeof(std::size_t) >= sizeof(offset_t) && size > std::size_t(max_filesize) ){ winapi::set_last_error(winapi::error_file_too_large); return false; } if(offset_t(size) > filesize){ if(!winapi::set_file_pointer_ex(hnd, filesize, 0, winapi::file_begin)){ return false; } //We will write zeros in the end of the file //since set_end_of_file does not guarantee this for(std::size_t remaining = size - filesize, write_size = 0 ;remaining > 0 ;remaining -= write_size){ const std::size_t DataSize = 512; static char data [DataSize]; write_size = DataSize < remaining ? DataSize : remaining; unsigned long written; winapi::write_file(hnd, data, (unsigned long)write_size, &written, 0); if(written != write_size){ return false; } } } else{ if(!winapi::set_file_pointer_ex(hnd, size, 0, winapi::file_begin)){ return false; } if(!winapi::set_end_of_file(hnd)){ return false; } } return true; } inline bool get_file_size(file_handle_t hnd, offset_t &size) { return winapi::get_file_size(hnd, size); } inline bool set_file_pointer(file_handle_t hnd, offset_t off, file_pos_t pos) { return winapi::set_file_pointer_ex(hnd, off, 0, (unsigned long) pos); } inline bool get_file_pointer(file_handle_t hnd, offset_t &off) { return winapi::set_file_pointer_ex(hnd, 0, &off, winapi::file_current); } inline bool write_file(file_handle_t hnd, const void *data, std::size_t numdata) { unsigned long written; return 0 != winapi::write_file(hnd, data, (unsigned long)numdata, &written, 0); } inline file_handle_t invalid_file() { return winapi::invalid_handle_value; } inline bool close_file(file_handle_t hnd) { return 0 != winapi::close_handle(hnd); } inline bool acquire_file_lock(file_handle_t hnd) { static winapi::interprocess_overlapped overlapped; const unsigned long len = 0xffffffff; // winapi::interprocess_overlapped overlapped; // std::memset(&overlapped, 0, sizeof(overlapped)); return winapi::lock_file_ex (hnd, winapi::lockfile_exclusive_lock, 0, len, len, &overlapped); } inline bool try_acquire_file_lock(file_handle_t hnd, bool &acquired) { const unsigned long len = 0xffffffff; winapi::interprocess_overlapped overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); if(!winapi::lock_file_ex (hnd, winapi::lockfile_exclusive_lock | winapi::lockfile_fail_immediately, 0, len, len, &overlapped)){ return winapi::get_last_error() == winapi::error_lock_violation ? acquired = false, true : false; } return (acquired = true); } inline bool release_file_lock(file_handle_t hnd) { const unsigned long len = 0xffffffff; winapi::interprocess_overlapped overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); return winapi::unlock_file_ex(hnd, 0, len, len, &overlapped); } inline bool acquire_file_lock_sharable(file_handle_t hnd) { const unsigned long len = 0xffffffff; winapi::interprocess_overlapped overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); return winapi::lock_file_ex(hnd, 0, 0, len, len, &overlapped); } inline bool try_acquire_file_lock_sharable(file_handle_t hnd, bool &acquired) { const unsigned long len = 0xffffffff; winapi::interprocess_overlapped overlapped; std::memset(&overlapped, 0, sizeof(overlapped)); if(!winapi::lock_file_ex (hnd, winapi::lockfile_fail_immediately, 0, len, len, &overlapped)){ return winapi::get_last_error() == winapi::error_lock_violation ? acquired = false, true : false; } return (acquired = true); } inline bool release_file_lock_sharable(file_handle_t hnd) { return release_file_lock(hnd); } inline bool delete_subdirectories_recursive (const std::string &refcstrRootDirectory, const char *dont_delete_this, unsigned int count) { bool bSubdirectory = false; // Flag, indicating whether // subdirectories have been found void * hFile; // Handle to directory std::string strFilePath; // Filepath std::string strPattern; // Pattern winapi::win32_find_data_t FileInformation; // File information //Find all files and directories strPattern = refcstrRootDirectory + "\\*.*"; hFile = winapi::find_first_file(strPattern.c_str(), &FileInformation); if(hFile != winapi::invalid_handle_value){ do{ //If it's not "." or ".." or the pointed root_level dont_delete_this erase it if(FileInformation.cFileName[0] != '.' && !(dont_delete_this && count == 0 && std::strcmp(dont_delete_this, FileInformation.cFileName) == 0)){ strFilePath.erase(); strFilePath = refcstrRootDirectory + "\\" + FileInformation.cFileName; //If it's a directory, go recursive if(FileInformation.dwFileAttributes & winapi::file_attribute_directory){ // Delete subdirectory if(!delete_subdirectories_recursive(strFilePath, dont_delete_this, count+1)) return false; } //If it's a file, just delete it else{ // Set file attributes //if(::SetFileAttributes(strFilePath.c_str(), winapi::file_attribute_normal) == 0) //return winapi::get_last_error(); // Delete file winapi::delete_file(strFilePath.c_str()); } } //Go to the next file } while(winapi::find_next_file(hFile, &FileInformation) == 1); // Close handle winapi::find_close(hFile); //See if the loop has ended with an error or just because we've traversed all the files if(winapi::get_last_error() != winapi::error_no_more_files){ return false; } else { //Erase empty subdirectories or original refcstrRootDirectory if(!bSubdirectory && count) { // Set directory attributes //if(::SetFileAttributes(refcstrRootDirectory.c_str(), FILE_ATTRIBUTE_NORMAL) == 0) //return ::GetLastError(); // Delete directory if(winapi::remove_directory(refcstrRootDirectory.c_str()) == 0) return false; } } } return true; } //This function erases all the subdirectories of a directory except the one pointed by "dont_delete_this" inline bool delete_subdirectories(const std::string &refcstrRootDirectory, const char *dont_delete_this) { return delete_subdirectories_recursive(refcstrRootDirectory, dont_delete_this, 0u); } template inline bool for_each_file_in_dir(const char *dir, Function f) { void * hFile; // Handle to directory winapi::win32_find_data_t FileInformation; // File information //Get base directory std::string str(dir); const std::size_t base_root_dir_len = str.size(); //Find all files and directories str += "\\*.*"; hFile = winapi::find_first_file(str.c_str(), &FileInformation); if(hFile != winapi::invalid_handle_value){ do{ //Now loop every file str.erase(base_root_dir_len); //If it's not "." or ".." skip it if(FileInformation.cFileName[0] != '.'){ str += "\\"; str += FileInformation.cFileName; //If it's a file, apply erase logic if(!(FileInformation.dwFileAttributes & winapi::file_attribute_directory)){ f(str.c_str(), FileInformation.cFileName); } } //Go to the next file } while(winapi::find_next_file(hFile, &FileInformation) == 1); // Close handle and see if the loop has ended with an error winapi::find_close(hFile); if(winapi::get_last_error() != winapi::error_no_more_files){ return false; } } return true; } #else //#if (defined BOOST_INTERPROCESS_WINDOWS) typedef int file_handle_t; typedef off_t offset_t; typedef struct mapping_handle_impl_t { file_handle_t handle; bool is_xsi; } mapping_handle_t; typedef enum { read_only = O_RDONLY , read_write = O_RDWR , copy_on_write , read_private , invalid_mode = 0xffff } mode_t; typedef enum { file_begin = SEEK_SET , file_end = SEEK_END , file_current = SEEK_CUR } file_pos_t; namespace ipcdetail{ inline mapping_handle_t mapping_handle_from_file_handle(file_handle_t hnd) { mapping_handle_t ret; ret.handle = hnd; ret.is_xsi = false; return ret; } inline file_handle_t file_handle_from_mapping_handle(mapping_handle_t hnd) { return hnd.handle; } inline bool create_directory(const char *path) { return ::mkdir(path, 0777) == 0 && ::chmod(path, 0777) == 0; } inline const char *get_temporary_path() { if(g_app_tmp_path.empty()) { const char *names[] = {"/tmp", "TMPDIR", "TMP", "TEMP", getenv("APPDIR")}; const int names_size = sizeof(names)/sizeof(names[0]); struct stat data; for(int i = 0; i != names_size; ++i){ if(::stat(names[i], &data) == 0){ return names[i]; } } return "/tmp"; } else { return g_app_tmp_path.c_str(); } return "/tmp"; } inline void set_temporary_path(const char *tmp_path=NULL) { if (tmp_path != NULL) { g_app_tmp_path = tmp_path; } } inline file_handle_t create_new_file (const char *name, mode_t mode, const permissions & perm = permissions(), bool temporary = false) { (void)temporary; int ret = ::open(name, ((int)mode) | O_EXCL | O_CREAT, perm.get_permissions()); if(ret >= 0){ ::fchmod(ret, perm.get_permissions()); } return ret; } inline file_handle_t create_or_open_file (const char *name, mode_t mode, const permissions & perm = permissions(), bool temporary = false) { (void)temporary; int ret = -1; //We need a loop to change permissions correctly using fchmod, since //with "O_CREAT only" ::open we don't know if we've created or opened the file. while(1){ ret = ::open(name, ((int)mode) | O_EXCL | O_CREAT, perm.get_permissions()); if(ret >= 0){ ::fchmod(ret, perm.get_permissions()); break; } else if(errno == EEXIST){ if((ret = ::open(name, (int)mode)) >= 0 || errno != ENOENT){ break; } } } return ret; } inline file_handle_t open_existing_file (const char *name, mode_t mode, bool temporary = false) { (void)temporary; return ::open(name, (int)mode); } inline bool delete_file(const char *name) { return ::unlink(name) == 0; } inline bool truncate_file (file_handle_t hnd, std::size_t size) { if(sizeof(off_t) == sizeof(std::size_t)){ if(size > ((~std::size_t(0)) >> 1)){ errno = EINVAL; return false; } } return 0 == ::ftruncate(hnd, off_t(size)); } inline bool get_file_size(file_handle_t hnd, offset_t &size) { struct stat data; bool ret = 0 == ::fstat(hnd, &data); if(ret){ size = data.st_size; } return ret; } inline bool set_file_pointer(file_handle_t hnd, offset_t off, file_pos_t pos) { return ((off_t)(-1)) != ::lseek(hnd, off, (int)pos); } inline bool get_file_pointer(file_handle_t hnd, offset_t &off) { off = ::lseek(hnd, 0, SEEK_CUR); return off != ((off_t)-1); } inline bool write_file(file_handle_t hnd, const void *data, std::size_t numdata) { return (ssize_t(numdata)) == ::write(hnd, data, numdata); } inline file_handle_t invalid_file() { return -1; } inline bool close_file(file_handle_t hnd) { return ::close(hnd) == 0; } inline bool acquire_file_lock(file_handle_t hnd) { struct ::flock lock; lock.l_type = F_WRLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; return -1 != ::fcntl(hnd, F_SETLKW, &lock); } inline bool try_acquire_file_lock(file_handle_t hnd, bool &acquired) { struct ::flock lock; lock.l_type = F_WRLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; int ret = ::fcntl(hnd, F_SETLK, &lock); if(ret == -1){ return (errno == EAGAIN || errno == EACCES) ? acquired = false, true : false; } return (acquired = true); } inline bool release_file_lock(file_handle_t hnd) { struct ::flock lock; lock.l_type = F_UNLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; return -1 != ::fcntl(hnd, F_SETLK, &lock); } inline bool acquire_file_lock_sharable(file_handle_t hnd) { struct ::flock lock; lock.l_type = F_RDLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; return -1 != ::fcntl(hnd, F_SETLKW, &lock); } inline bool try_acquire_file_lock_sharable(file_handle_t hnd, bool &acquired) { struct flock lock; lock.l_type = F_RDLCK; lock.l_whence = SEEK_SET; lock.l_start = 0; lock.l_len = 0; int ret = ::fcntl(hnd, F_SETLK, &lock); if(ret == -1){ return (errno == EAGAIN || errno == EACCES) ? acquired = false, true : false; } return (acquired = true); } inline bool release_file_lock_sharable(file_handle_t hnd) { return release_file_lock(hnd); } #if 0 inline bool acquire_file_lock(file_handle_t hnd) { return 0 == ::flock(hnd, LOCK_EX); } inline bool try_acquire_file_lock(file_handle_t hnd, bool &acquired) { int ret = ::flock(hnd, LOCK_EX | LOCK_NB); acquired = ret == 0; return (acquired || errno == EWOULDBLOCK); } inline bool release_file_lock(file_handle_t hnd) { return 0 == ::flock(hnd, LOCK_UN); } inline bool acquire_file_lock_sharable(file_handle_t hnd) { return 0 == ::flock(hnd, LOCK_SH); } inline bool try_acquire_file_lock_sharable(file_handle_t hnd, bool &acquired) { int ret = ::flock(hnd, LOCK_SH | LOCK_NB); acquired = ret == 0; return (acquired || errno == EWOULDBLOCK); } inline bool release_file_lock_sharable(file_handle_t hnd) { return 0 == ::flock(hnd, LOCK_UN); } #endif inline bool delete_subdirectories_recursive (const std::string &refcstrRootDirectory, const char *dont_delete_this) { DIR *d = opendir(refcstrRootDirectory.c_str()); if(!d) { return false; } struct dir_close { DIR *d_; dir_close(DIR *d) : d_(d) {} ~dir_close() { ::closedir(d_); } } dc(d); (void)dc; struct ::dirent *de; struct ::stat st; std::string fn; while((de=::readdir(d))) { if( de->d_name[0] == '.' && ( de->d_name[1] == '\0' || (de->d_name[1] == '.' && de->d_name[2] == '\0' )) ){ continue; } if(dont_delete_this && std::strcmp(dont_delete_this, de->d_name) == 0){ continue; } fn = refcstrRootDirectory; fn += '/'; fn += de->d_name; if(std::remove(fn.c_str())) { if(::stat(fn.c_str(), & st)) { return false; } if(S_ISDIR(st.st_mode)) { if(!delete_subdirectories_recursive(fn, 0) ){ return false; } } else { return false; } } } return std::remove(refcstrRootDirectory.c_str()) ? false : true; } template inline bool for_each_file_in_dir(const char *dir, Function f) { std::string refcstrRootDirectory(dir); DIR *d = opendir(refcstrRootDirectory.c_str()); if(!d) { return false; } struct dir_close { DIR *d_; dir_close(DIR *d) : d_(d) {} ~dir_close() { ::closedir(d_); } } dc(d); (void)dc; struct ::dirent *de; struct ::stat st; std::string fn; while((de=::readdir(d))) { if( de->d_name[0] == '.' && ( de->d_name[1] == '\0' || (de->d_name[1] == '.' && de->d_name[2] == '\0' )) ){ continue; } fn = refcstrRootDirectory; fn += '/'; fn += de->d_name; if(::stat(fn.c_str(), & st)) { return false; } //If it's a file, apply erase logic if(!S_ISDIR(st.st_mode)) { f(fn.c_str(), de->d_name); } } return true; } //This function erases all the subdirectories of a directory except the one pointed by "dont_delete_this" inline bool delete_subdirectories(const std::string &refcstrRootDirectory, const char *dont_delete_this) { return delete_subdirectories_recursive(refcstrRootDirectory, dont_delete_this ); } #endif //#if (defined BOOST_INTERPROCESS_WINDOWS) inline bool open_or_create_directory(const char *dir_name) { //If fails, check that it's because it already exists if(!create_directory(dir_name)){ error_info info(system_error_code()); if(info.get_error_code() != already_exists_error){ return false; } } return true; } } //namespace ipcdetail{ } //namespace interprocess { } //namespace boost { #include #endif //BOOST_INTERPROCESS_DETAIL_OS_FILE_FUNCTIONS_HPP