// This file Copyright © 2013-2022 Mnemosyne LLC. // It may be used under GPLv2 (SPDX: GPL-2.0-only), GPLv3 (SPDX: GPL-3.0-only), // or any future license endorsed by Mnemosyne LLC. // License text can be found in the licenses/ folder. #undef _GNU_SOURCE #define _GNU_SOURCE // NOLINT #include #include #include #include /* PATH_MAX */ #include /* SIZE_MAX */ #include #include #include #include #include #include /* O_LARGEFILE, posix_fadvise(), [posix_]fallocate(), fcntl() */ #include /* basename(), dirname() */ #include /* flock() */ #include #include #include /* lseek(), write(), ftruncate(), pread(), pwrite(), pathconf(), etc */ #ifdef HAVE_XFS_XFS_H #include #endif /* OS-specific file copy (copy_file_range, sendfile64, or copyfile). */ #if defined(__linux__) #include /* Linux's copy_file_range(2) is buggy prior to 5.3. */ #if defined(HAVE_COPY_FILE_RANGE) && LINUX_VERSION_CODE >= KERNEL_VERSION(5, 3, 0) #define USE_COPY_FILE_RANGE #elif defined(HAVE_SENDFILE64) #include #define USE_SENDFILE64 #endif #elif defined(__APPLE__) && defined(HAVE_COPYFILE) #include #ifndef COPYFILE_CLONE /* macos < 10.12 */ #define COPYFILE_CLONE 0 #endif #define USE_COPYFILE #elif defined(HAVE_COPY_FILE_RANGE) /* Presently this is only FreeBSD 13+. */ #define USE_COPY_FILE_RANGE #endif /* __linux__ */ #include #include "transmission.h" #include "error.h" #include "file.h" #include "log.h" #include "tr-assert.h" #include "tr-strbuf.h" #include "utils.h" // for _(), tr_strerror() #ifndef O_LARGEFILE #define O_LARGEFILE 0 #endif #ifndef O_BINARY #define O_BINARY 0 #endif #ifndef O_SEQUENTIAL #define O_SEQUENTIAL 0 #endif #ifndef O_CLOEXEC #define O_CLOEXEC 0 #endif #ifndef PATH_MAX #define PATH_MAX 4096 #endif /* don't use pread/pwrite on old versions of uClibc because they're buggy. * https://trac.transmissionbt.com/ticket/3826 */ #if defined(__UCLIBC__) && !TR_UCLIBC_CHECK_VERSION(0, 9, 28) #undef HAVE_PREAD #undef HAVE_PWRITE #endif #ifdef __APPLE__ #ifndef HAVE_PREAD #define HAVE_PREAD #endif #ifndef HAVE_PWRITE #define HAVE_PWRITE #endif #ifndef HAVE_MKDTEMP #define HAVE_MKDTEMP #endif #endif using namespace std::literals; namespace { void set_system_error(tr_error** error, int code) { if (error == nullptr) { return; } tr_error_set(error, code, tr_strerror(code)); } void set_system_error_if_file_found(tr_error** error, int code) { if (code != ENOENT) { set_system_error(error, code); } } void set_file_for_single_pass(tr_sys_file_t handle) { /* Set hints about the lookahead buffer and caching. It's okay for these to fail silently, so don't let them affect errno */ int const err = errno; if (handle == TR_BAD_SYS_FILE) { return; } #ifdef HAVE_POSIX_FADVISE (void)posix_fadvise(handle, 0, 0, POSIX_FADV_SEQUENTIAL); #endif #ifdef __APPLE__ (void)fcntl(handle, F_RDAHEAD, 1); (void)fcntl(handle, F_NOCACHE, 1); #endif errno = err; } } // namespace bool tr_sys_path_exists(char const* path, tr_error** error) { TR_ASSERT(path != nullptr); bool const ret = access(path, F_OK) != -1; if (!ret) { set_system_error_if_file_found(error, errno); } return ret; } std::optional tr_sys_path_get_info(std::string_view path, int flags, tr_error** error) { struct stat sb = {}; bool ok = false; auto const szpath = tr_pathbuf{ path }; if ((flags & TR_SYS_PATH_NO_FOLLOW) == 0) { ok = stat(szpath, &sb) != -1; } else { ok = lstat(szpath, &sb) != -1; } if (!ok) { set_system_error(error, errno); return {}; } auto info = tr_sys_path_info{}; if (S_ISREG(sb.st_mode)) { info.type = TR_SYS_PATH_IS_FILE; } else if (S_ISDIR(sb.st_mode)) { info.type = TR_SYS_PATH_IS_DIRECTORY; } else { info.type = TR_SYS_PATH_IS_OTHER; } info.size = static_cast(sb.st_size); info.last_modified_at = sb.st_mtime; return info; } bool tr_sys_path_is_relative(std::string_view path) { return std::empty(path) || path.front() != '/'; } bool tr_sys_path_is_same(char const* path1, char const* path2, tr_error** error) { TR_ASSERT(path1 != nullptr); TR_ASSERT(path2 != nullptr); bool ret = false; struct stat sb1 = {}; struct stat sb2 = {}; if (stat(path1, &sb1) != -1 && stat(path2, &sb2) != -1) { ret = sb1.st_dev == sb2.st_dev && sb1.st_ino == sb2.st_ino; } else { set_system_error_if_file_found(error, errno); } return ret; } std::string tr_sys_path_resolve(std::string_view path, tr_error** error) { auto const szpath = tr_pathbuf{ path }; auto buf = std::array{}; if (auto const* const ret = realpath(szpath, std::data(buf)); ret != nullptr) { return ret; } set_system_error(error, errno); return {}; } std::string_view tr_sys_path_basename(std::string_view path, tr_error** /*error*/) { // As per the basename() manpage: // If path [is] an empty string, then basename() return[s] the string "." if (std::empty(path)) { return "."sv; } // Remove all trailing slashes. // If nothing is left, return "/" if (auto pos = path.find_last_not_of('/'); pos != std::string_view::npos) { path = path.substr(0, pos + 1); } else // all slashes { return "/"sv; } if (auto pos = path.find_last_of('/'); pos != std::string_view::npos) { path.remove_prefix(pos + 1); } return std::empty(path) ? "/"sv : path; } // This function is adapted from Node.js's path.posix.dirname() function, // which is copyrighted by Joyent, Inc. and other Node contributors // and is distributed under MIT (SPDX:MIT) license. std::string_view tr_sys_path_dirname(std::string_view path) { auto const len = std::size(path); if (len == 0U) { return "."sv; } auto const has_root = path[0] == '/'; auto end = std::string_view::npos; auto matched_slash = bool{ true }; for (auto i = len - 1; i >= 1U; --i) { if (path[i] == '/') { if (!matched_slash) { end = i; break; } } else { // We saw the first non-path separator matched_slash = false; } } if (end == std::string_view::npos) { return has_root ? "/"sv : "."sv; } if (has_root && end == 1) { return "//"sv; } return path.substr(0, end); } bool tr_sys_path_rename(char const* src_path, char const* dst_path, tr_error** error) { TR_ASSERT(src_path != nullptr); TR_ASSERT(dst_path != nullptr); bool const ret = rename(src_path, dst_path) != -1; if (!ret) { set_system_error(error, errno); } return ret; } /* We try to do a fast (in-kernel) copy using a variety of non-portable system * calls. If the current implementation does not support in-kernel copying, we * use a user-space fallback instead. */ bool tr_sys_path_copy(char const* src_path, char const* dst_path, tr_error** error) { TR_ASSERT(src_path != nullptr); TR_ASSERT(dst_path != nullptr); #if defined(USE_COPYFILE) if (copyfile(src_path, dst_path, nullptr, COPYFILE_CLONE | COPYFILE_ALL) < 0) { set_system_error(error, errno); return false; } return true; #else /* USE_COPYFILE */ auto const info = tr_sys_path_get_info(src_path, 0, error); if (!info) { tr_error_prefix(error, "Unable to get information on source file: "); return false; } /* Other OSes require us to copy between file descriptors, so open them. */ tr_sys_file_t const in = tr_sys_file_open(src_path, TR_SYS_FILE_READ | TR_SYS_FILE_SEQUENTIAL, 0, error); if (in == TR_BAD_SYS_FILE) { tr_error_prefix(error, "Unable to open source file: "); return false; } tr_sys_file_t const out = tr_sys_file_open( dst_path, TR_SYS_FILE_WRITE | TR_SYS_FILE_CREATE | TR_SYS_FILE_TRUNCATE, 0666, error); if (out == TR_BAD_SYS_FILE) { tr_error_prefix(error, "Unable to open destination file: "); tr_sys_file_close(in); return false; } uint64_t file_size = info->size; int errno_cpy = 0; /* keep errno intact across copy attempts */ #if defined(USE_COPY_FILE_RANGE) /* Kernel copy by copy_file_range */ /* try this first if available, no need to check previous copy attempts */ /* might throw EXDEV when used between filesystems in most kernels */ while (file_size > 0U) { size_t const chunk_size = std::min(file_size, uint64_t{ SSIZE_MAX }); auto const copied = copy_file_range(in, nullptr, out, nullptr, chunk_size, 0); TR_ASSERT(copied == -1 || copied >= 0); /* -1 for error; some non-negative value otherwise. */ if (copied == -1) { errno_cpy = errno; /* remember me for later */ if (errno != EXDEV) /* EXDEV is expected, don't log error */ { set_system_error(error, errno); } if (file_size > 0U) { file_size = info->size; /* restore file_size for next fallback */ } break; /* break copy */ } TR_ASSERT(copied >= 0 && ((uint64_t)copied) <= file_size); TR_ASSERT(copied >= 0 && ((uint64_t)copied) <= chunk_size); file_size -= copied; } /* end file_size loop */ /* at this point errno_cpy is either set or file_size is 0 due to while condition */ #endif /* USE_COPY_FILE_RANGE */ #if defined(USE_SENDFILE64) /* Kernel copy by sendfile64 */ /* if file_size>0 and errno_cpy==0, we probably never entered any previous copy attempt, also: */ /* if we (still) got something to copy and we encountered certain error in copy_file_range */ /* duplicated code, this could be refactored in a function */ /* keeping the copy paths in blocks helps with error tracing though */ /* trying sendfile after EXDEV is more efficient than falling to user-space straight away */ if (file_size > 0U && (errno_cpy == 0 || errno_cpy == EXDEV)) { /* set file offsets to 0 in case previous copy did move them */ /* TR_BAD_SYS_FILE has previously been checked, we can directly lseek */ /* in case we have no pending errno, be kind enough to report any error */ if (lseek(in, 0, SEEK_SET) == -1 || lseek(out, 0, SEEK_SET) == -1) { if (errno_cpy == 0) { set_system_error(error, errno); } } else { while (file_size > 0U) { size_t const chunk_size = std::min(file_size, uint64_t{ SSIZE_MAX }); auto const copied = sendfile64(out, in, nullptr, chunk_size); TR_ASSERT(copied == -1 || copied >= 0); /* -1 for error; some non-negative value otherwise. */ if (copied == -1) { errno_cpy = errno; /* remember me for later */ set_system_error(error, errno); if (file_size > 0U) { file_size = info->size; /* restore file_size for next fallback */ } break; /* break copy */ } TR_ASSERT(copied >= 0 && ((uint64_t)copied) <= file_size); TR_ASSERT(copied >= 0 && ((uint64_t)copied) <= chunk_size); file_size -= copied; } /* end file_size loop */ } /* end lseek error */ } /* end fallback check */ /* at this point errno_cpy is either set or file_size is 0 due to while condition */ #endif /* USE_SENDFILE64 */ /* Fallback to user-space copy. */ /* if file_size>0 and errno_cpy==0, we probably never entered any copy attempt, also: */ /* if we (still) got something to copy and we encountered certain error in previous attempts */ if (file_size > 0U && (errno_cpy == 0 || errno_cpy == EXDEV)) { static auto constexpr Buflen = size_t{ 1024U * 1024U }; /* 1024 KiB buffer */ auto buf = std::vector{}; buf.resize(Buflen); /* set file offsets to 0 in case previous copy did move them */ /* TR_BAD_SYS_FILE has previously been checked, we can directly lseek */ /* in case we have no pending errno, be kind enough to report any error */ if (lseek(in, 0, SEEK_SET) == -1 || lseek(out, 0, SEEK_SET) == -1) { if (errno_cpy == 0) { set_system_error(error, errno); } } else { while (file_size > 0U) { uint64_t const chunk_size = std::min(file_size, uint64_t{ Buflen }); uint64_t bytes_read = 0; uint64_t bytes_written = 0; if (!tr_sys_file_read(in, std::data(buf), chunk_size, &bytes_read, error)) { break; } if (!tr_sys_file_write(out, std::data(buf), bytes_read, &bytes_written, error)) { break; } TR_ASSERT(bytes_read == bytes_written); TR_ASSERT(bytes_written <= file_size); file_size -= bytes_written; } /* end file_size loop */ } /* end lseek error */ } /* end fallback check */ /* all copy paths will end here, file_size>0 signifies error */ /* cleanup */ tr_sys_file_close(out); tr_sys_file_close(in); if (file_size != 0) { tr_error_prefix(error, "Unable to read/write: "); return false; } return true; #endif /* USE_COPYFILE */ } bool tr_sys_path_remove(char const* path, tr_error** error) { TR_ASSERT(path != nullptr); bool const ret = remove(path) != -1; if (!ret) { set_system_error(error, errno); } return ret; } char* tr_sys_path_native_separators(char* path) { return path; } tr_sys_file_t tr_sys_file_get_std(tr_std_sys_file_t std_file, tr_error** error) { tr_sys_file_t ret = TR_BAD_SYS_FILE; switch (std_file) { case TR_STD_SYS_FILE_IN: ret = STDIN_FILENO; break; case TR_STD_SYS_FILE_OUT: ret = STDOUT_FILENO; break; case TR_STD_SYS_FILE_ERR: ret = STDERR_FILENO; break; default: TR_ASSERT_MSG(false, fmt::format(FMT_STRING("unknown standard file {:d}"), std_file)); set_system_error(error, EINVAL); } return ret; } tr_sys_file_t tr_sys_file_open(char const* path, int flags, int permissions, tr_error** error) { TR_ASSERT(path != nullptr); TR_ASSERT((flags & (TR_SYS_FILE_READ | TR_SYS_FILE_WRITE)) != 0); struct native_map_item { int symbolic_mask; int symbolic_value; int native_value; }; auto constexpr NativeMap = std::array{ { { TR_SYS_FILE_READ | TR_SYS_FILE_WRITE, TR_SYS_FILE_READ | TR_SYS_FILE_WRITE, O_RDWR }, { TR_SYS_FILE_READ | TR_SYS_FILE_WRITE, TR_SYS_FILE_READ, O_RDONLY }, { TR_SYS_FILE_READ | TR_SYS_FILE_WRITE, TR_SYS_FILE_WRITE, O_WRONLY }, { TR_SYS_FILE_CREATE, TR_SYS_FILE_CREATE, O_CREAT }, { TR_SYS_FILE_APPEND, TR_SYS_FILE_APPEND, O_APPEND }, { TR_SYS_FILE_TRUNCATE, TR_SYS_FILE_TRUNCATE, O_TRUNC }, { TR_SYS_FILE_SEQUENTIAL, TR_SYS_FILE_SEQUENTIAL, O_SEQUENTIAL } } }; int native_flags = O_BINARY | O_LARGEFILE | O_CLOEXEC; for (auto const& item : NativeMap) { if ((flags & item.symbolic_mask) == item.symbolic_value) { native_flags |= item.native_value; } } tr_sys_file_t const ret = open(path, native_flags, permissions); if (ret != TR_BAD_SYS_FILE) { if ((flags & TR_SYS_FILE_SEQUENTIAL) != 0) { set_file_for_single_pass(ret); } } else { set_system_error(error, errno); } return ret; } tr_sys_file_t tr_sys_file_open_temp(char* path_template, tr_error** error) { TR_ASSERT(path_template != nullptr); tr_sys_file_t const ret = mkstemp(path_template); if (ret == TR_BAD_SYS_FILE) { set_system_error(error, errno); } set_file_for_single_pass(ret); return ret; } bool tr_sys_file_close(tr_sys_file_t handle, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); bool const ret = close(handle) != -1; if (!ret) { set_system_error(error, errno); } return ret; } bool tr_sys_file_read(tr_sys_file_t handle, void* buffer, uint64_t size, uint64_t* bytes_read, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); TR_ASSERT(buffer != nullptr || size == 0); bool ret = false; auto const my_bytes_read = read(handle, buffer, size); static_assert(sizeof(*bytes_read) >= sizeof(my_bytes_read)); if (my_bytes_read != -1) { if (bytes_read != nullptr) { *bytes_read = my_bytes_read; } ret = true; } else { set_system_error(error, errno); } return ret; } bool tr_sys_file_read_at( tr_sys_file_t handle, void* buffer, uint64_t size, uint64_t offset, uint64_t* bytes_read, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); TR_ASSERT(buffer != nullptr || size == 0); /* seek requires signed offset, so it should be in mod range */ TR_ASSERT(offset < UINT64_MAX / 2); bool ret = false; #ifdef HAVE_PREAD auto const my_bytes_read = pread(handle, buffer, size, offset); #else ssize_t const my_bytes_read = lseek(handle, offset, SEEK_SET) == -1 ? -1 : read(handle, buffer, size); #endif static_assert(sizeof(*bytes_read) >= sizeof(my_bytes_read)); if (my_bytes_read > 0) { if (bytes_read != nullptr) { *bytes_read = my_bytes_read; } ret = true; } else if (my_bytes_read == -1) { set_system_error(error, errno); } return ret; } bool tr_sys_file_write(tr_sys_file_t handle, void const* buffer, uint64_t size, uint64_t* bytes_written, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); TR_ASSERT(buffer != nullptr || size == 0); bool ret = false; auto const my_bytes_written = write(handle, buffer, size); static_assert(sizeof(*bytes_written) >= sizeof(my_bytes_written)); if (my_bytes_written != -1) { if (bytes_written != nullptr) { *bytes_written = my_bytes_written; } ret = true; } else { set_system_error(error, errno); } return ret; } bool tr_sys_file_write_at( tr_sys_file_t handle, void const* buffer, uint64_t size, uint64_t offset, uint64_t* bytes_written, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); TR_ASSERT(buffer != nullptr || size == 0); /* seek requires signed offset, so it should be in mod range */ TR_ASSERT(offset < UINT64_MAX / 2); bool ret = false; #ifdef HAVE_PWRITE auto const my_bytes_written = pwrite(handle, buffer, size, offset); #else ssize_t const my_bytes_written = lseek(handle, offset, SEEK_SET) == -1 ? -1 : write(handle, buffer, size); #endif static_assert(sizeof(*bytes_written) >= sizeof(my_bytes_written)); if (my_bytes_written != -1) { if (bytes_written != nullptr) { *bytes_written = my_bytes_written; } ret = true; } else { set_system_error(error, errno); } return ret; } bool tr_sys_file_flush(tr_sys_file_t handle, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); bool const ret = (fsync(handle) != -1); if (!ret) { set_system_error(error, errno); } return ret; } bool tr_sys_file_flush_possible(tr_sys_file_t handle, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); struct stat statbuf; if (fstat(handle, &statbuf) != 0) { set_system_error(error, errno); return false; } return S_ISREG(statbuf.st_mode); } bool tr_sys_file_truncate(tr_sys_file_t handle, uint64_t size, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); bool const ret = ftruncate(handle, size) != -1; if (!ret) { set_system_error(error, errno); } return ret; } bool tr_sys_file_advise( [[maybe_unused]] tr_sys_file_t handle, [[maybe_unused]] uint64_t offset, [[maybe_unused]] uint64_t size, [[maybe_unused]] tr_sys_file_advice_t advice, [[maybe_unused]] tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); TR_ASSERT(size > 0); TR_ASSERT(advice == TR_SYS_FILE_ADVICE_WILL_NEED || advice == TR_SYS_FILE_ADVICE_DONT_NEED); bool ret = true; #if defined(HAVE_POSIX_FADVISE) int const native_advice = advice == TR_SYS_FILE_ADVICE_WILL_NEED ? POSIX_FADV_WILLNEED : (advice == TR_SYS_FILE_ADVICE_DONT_NEED ? POSIX_FADV_DONTNEED : POSIX_FADV_NORMAL); TR_ASSERT(native_advice != POSIX_FADV_NORMAL); if (int const code = posix_fadvise(handle, offset, size, native_advice); code != 0) { set_system_error(error, code); ret = false; } #elif defined(__APPLE__) if (advice == TR_SYS_FILE_ADVICE_WILL_NEED) { auto radv = radvisory{}; radv.ra_offset = offset; radv.ra_count = size; ret = fcntl(handle, F_RDADVISE, &radv) != -1; if (!ret) { set_system_error(error, errno); } } #endif return ret; } namespace { #ifdef HAVE_FALLOCATE64 bool preallocate_fallocate64(tr_sys_file_t handle, uint64_t size) { return fallocate64(handle, 0, 0, size) == 0; } #endif #ifdef HAVE_XFS_XFS_H bool full_preallocate_xfs(tr_sys_file_t handle, uint64_t size) { if (platform_test_xfs_fd(handle) == 0) // true if on xfs filesystem { return false; } xfs_flock64_t fl; fl.l_whence = 0; fl.l_start = 0; fl.l_len = size; // The blocks are allocated, but not zeroed, and the file size does not change bool ok = xfsctl(nullptr, handle, XFS_IOC_RESVSP64, &fl) != -1; if (ok) { ok = ftruncate(handle, size) == 0; } return ok; } #endif #ifdef __APPLE__ bool full_preallocate_apple(tr_sys_file_t handle, uint64_t size) { fstore_t fst; fst.fst_flags = F_ALLOCATEALL; fst.fst_posmode = F_PEOFPOSMODE; fst.fst_offset = 0; fst.fst_length = size; fst.fst_bytesalloc = 0; bool ok = fcntl(handle, F_PREALLOCATE, &fst) != -1; if (ok) { ok = ftruncate(handle, size) == 0; } return ok; } #endif #ifdef HAVE_POSIX_FALLOCATE bool full_preallocate_posix(tr_sys_file_t handle, uint64_t size) { return posix_fallocate(handle, 0, size) == 0; } #endif } // unnamed namespace bool tr_sys_file_preallocate(tr_sys_file_t handle, uint64_t size, int flags, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); using prealloc_func = bool (*)(tr_sys_file_t, uint64_t); // these approaches are fast and should be tried first auto approaches = std::vector{ #ifdef HAVE_FALLOCATE64 preallocate_fallocate64 #endif }; // these approaches are sometimes slower in some settings (e.g. // a slow zeroing of all the preallocated space) so only use them // if specified by `flags` if ((flags & TR_SYS_FILE_PREALLOC_SPARSE) == 0) { // TODO: these functions haven't been reviewed in awhile. // It's possible that some are faster now & should be promoted // to 'always try' and/or replaced with fresher platform API. approaches.insert( std::end(approaches), { #ifdef HAVE_XFS_XFS_H full_preallocate_xfs, #endif #ifdef __APPLE__ full_preallocate_apple, #endif #ifdef HAVE_POSIX_FALLOCATE full_preallocate_posix, #endif }); } for (auto& approach : approaches) // try until one of them works { errno = 0; if (auto const success = approach(handle, size); success) { return success; } if (errno == ENOSPC) // disk full, so subsequent approaches will fail too { break; } } set_system_error(error, errno); return false; } bool tr_sys_file_lock([[maybe_unused]] tr_sys_file_t handle, [[maybe_unused]] int operation, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_FILE); TR_ASSERT((operation & ~(TR_SYS_FILE_LOCK_SH | TR_SYS_FILE_LOCK_EX | TR_SYS_FILE_LOCK_NB | TR_SYS_FILE_LOCK_UN)) == 0); TR_ASSERT( !!(operation & TR_SYS_FILE_LOCK_SH) + !!(operation & TR_SYS_FILE_LOCK_EX) + !!(operation & TR_SYS_FILE_LOCK_UN) == 1); bool ret = false; #if defined(F_OFD_SETLK) struct flock fl = {}; switch (operation & (TR_SYS_FILE_LOCK_SH | TR_SYS_FILE_LOCK_EX | TR_SYS_FILE_LOCK_UN)) { case TR_SYS_FILE_LOCK_SH: fl.l_type = F_RDLCK; break; case TR_SYS_FILE_LOCK_EX: fl.l_type = F_WRLCK; break; case TR_SYS_FILE_LOCK_UN: fl.l_type = F_UNLCK; break; } fl.l_whence = SEEK_SET; do { ret = fcntl(handle, (operation & TR_SYS_FILE_LOCK_NB) != 0 ? F_OFD_SETLK : F_OFD_SETLKW, &fl) != -1; } while (!ret && errno == EINTR); if (!ret && errno == EAGAIN) { errno = EWOULDBLOCK; } #elif defined(HAVE_FLOCK) int native_operation = 0; if ((operation & TR_SYS_FILE_LOCK_SH) != 0) { native_operation |= LOCK_SH; } if ((operation & TR_SYS_FILE_LOCK_EX) != 0) { native_operation |= LOCK_EX; } if ((operation & TR_SYS_FILE_LOCK_NB) != 0) { native_operation |= LOCK_NB; } if ((operation & TR_SYS_FILE_LOCK_UN) != 0) { native_operation |= LOCK_UN; } do { ret = flock(handle, native_operation) != -1; } while (!ret && errno == EINTR); #else errno = ENOSYS; ret = false; #endif if (!ret) { set_system_error(error, errno); } return ret; } std::string tr_sys_dir_get_current(tr_error** error) { auto buf = std::vector{}; buf.resize(PATH_MAX); for (;;) { if (char const* const ret = getcwd(std::data(buf), std::size(buf)); ret != nullptr) { return ret; } if (errno != ERANGE) { set_system_error(error, errno); return {}; } buf.resize(std::size(buf) * 2); } } namespace { #ifndef HAVE_MKDIRP [[nodiscard]] bool tr_mkdirp_(std::string_view path, int permissions, tr_error** error) { auto walk = path.find_first_not_of('/'); // walk past the root auto subpath = tr_pathbuf{}; while (walk < std::size(path)) { auto const end = path.find('/', walk); subpath.assign(path.substr(0, end)); auto const info = tr_sys_path_get_info(subpath, 0); if (info && !info->isFolder()) { tr_error_set(error, ENOTDIR, fmt::format(FMT_STRING("File is in the way: {:s}"), path)); return false; } if (!info && mkdir(subpath, permissions) == -1) { set_system_error(error, errno); return false; } if (end == std::string_view::npos) { break; } walk = end + 1; } return true; } #endif } // namespace bool tr_sys_dir_create(char const* path, int flags, int permissions, tr_error** error) { TR_ASSERT(path != nullptr); bool ret = false; tr_error* my_error = nullptr; if ((flags & TR_SYS_DIR_CREATE_PARENTS) != 0) { #ifdef HAVE_MKDIRP ret = mkdirp(path, permissions) != -1; #else ret = tr_mkdirp_(path, permissions, &my_error); #endif } else { ret = mkdir(path, permissions) != -1; } if (!ret && errno == EEXIST) { if (auto const info = tr_sys_path_get_info(path); info && info->type == TR_SYS_PATH_IS_DIRECTORY) { tr_error_clear(&my_error); ret = true; } else { errno = EEXIST; } } if (!ret) { if (my_error != nullptr) { tr_error_propagate(error, &my_error); } else { set_system_error(error, errno); } } return ret; } bool tr_sys_dir_create_temp(char* path_template, tr_error** error) { TR_ASSERT(path_template != nullptr); #ifdef HAVE_MKDTEMP bool const ret = mkdtemp(path_template) != nullptr; #else bool const ret = mktemp(path_template) != nullptr && mkdir(path_template, 0700) != -1; #endif if (!ret) { set_system_error(error, errno); } return ret; } tr_sys_dir_t tr_sys_dir_open(char const* path, tr_error** error) { TR_ASSERT(path != nullptr); DIR* ret = opendir(path); if (ret == nullptr) { set_system_error(error, errno); return TR_BAD_SYS_DIR; } return (tr_sys_dir_t)ret; } char const* tr_sys_dir_read_name(tr_sys_dir_t handle, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_DIR); char const* ret = nullptr; errno = 0; if (auto const* const entry = readdir((DIR*)handle); entry != nullptr) { ret = entry->d_name; } else if (errno != 0) { set_system_error(error, errno); } return ret; } bool tr_sys_dir_close(tr_sys_dir_t handle, tr_error** error) { TR_ASSERT(handle != TR_BAD_SYS_DIR); bool const ret = closedir((DIR*)handle) != -1; if (!ret) { set_system_error(error, errno); } return ret; }