/* Copyright 2018-2020, Barcelona Supercomputing Center (BSC), Spain Copyright 2015-2020, Johannes Gutenberg Universitaet Mainz, Germany This software was partially supported by the EC H2020 funded project NEXTGenIO (Project ID: 671951, www.nextgenio.eu). This software was partially supported by the ADA-FS project under the SPPEXA project funded by the DFG. SPDX-License-Identifier: MIT */ #include #include #include #include #include #include #include #include #include extern "C" { #include // used for file types in the getdents{,64}() functions #include // used for definition of alignment macros #include #include } using namespace std; /* * Macro used within getdents{,64} functions. * __ALIGN_KERNEL defined in linux/kernel.h */ #define ALIGN(x, a) __ALIGN_KERNEL((x), (a)) /* * linux_dirent is used in getdents() but is privately defined in the linux kernel: fs/readdir.c. */ struct linux_dirent { unsigned long d_ino; unsigned long d_off; unsigned short d_reclen; char d_name[1]; }; /* * linux_dirent64 is used in getdents64() and defined in the linux kernel: include/linux/dirent.h. * However, it is not part of the kernel-headers and cannot be imported. */ struct linux_dirent64 { uint64_t d_ino; int64_t d_off; unsigned short d_reclen; unsigned char d_type; char d_name[1]; // originally `char d_name[0]` in kernel, but ISO C++ forbids zero-size array 'd_name' }; namespace { int check_parent_dir(const std::string& path) { #if CREATE_CHECK_PARENTS auto p_comp = gkfs::path::dirname(path); auto md = gkfs::util::get_metadata(p_comp); if (!md) { if (errno == ENOENT) { LOG(DEBUG, "Parent component does not exist: '{}'", p_comp); } else { LOG(ERROR, "Failed to get metadata for parent component '{}': {}", path, strerror(errno)); } return -1; } if (!S_ISDIR(md->mode())) { LOG(DEBUG, "Parent component is not a directory: '{}'", p_comp); errno = ENOTDIR; return -1; } #endif // CREATE_CHECK_PARENTS return 0; } } // namespace namespace gkfs { namespace syscall { int gkfs_open(const std::string& path, mode_t mode, int flags) { if (flags & O_PATH) { LOG(ERROR, "`O_PATH` flag is not supported"); errno = ENOTSUP; return -1; } if (flags & O_APPEND) { LOG(ERROR, "`O_APPEND` flag is not supported"); errno = ENOTSUP; return -1; } bool exists = true; auto md = gkfs::util::get_metadata(path); if (!md) { if (errno == ENOENT) { exists = false; } else { LOG(ERROR, "Error while retriving stat to file"); return -1; } } if (!exists) { if (!(flags & O_CREAT)) { // file doesn't exists and O_CREAT was not set errno = ENOENT; return -1; } /*** CREATION ***/ assert(flags & O_CREAT); if (flags & O_DIRECTORY) { LOG(ERROR, "O_DIRECTORY use with O_CREAT. NOT SUPPORTED"); errno = ENOTSUP; return -1; } // no access check required here. If one is using our FS they have the permissions. if (gkfs_create(path, mode | S_IFREG)) { LOG(ERROR, "Error creating non-existent file: '{}'", strerror(errno)); return -1; } } else { /* File already exists */ if (flags & O_EXCL) { // File exists and O_EXCL was set errno = EEXIST; return -1; } #ifdef HAS_SYMLINKS if (md->is_link()) { if (flags & O_NOFOLLOW) { LOG(WARNING, "Symlink found and O_NOFOLLOW flag was specified"); errno = ELOOP; return -1; } return gkfs_open(md->target_path(), mode, flags); } #endif if (S_ISDIR(md->mode())) { return gkfs_opendir(path); } /*** Regular file exists ***/ assert(S_ISREG(md->mode())); if ((flags & O_TRUNC) && ((flags & O_RDWR) || (flags & O_WRONLY))) { if (gkfs_truncate(path, md->size(), 0)) { LOG(ERROR, "Error truncating file"); return -1; } } } return CTX->file_map()->add(std::make_shared(path, flags)); } int gkfs_create(const std::string& path, mode_t mode) { //file type must be set switch (mode & S_IFMT) { case 0: mode |= S_IFREG; break; case S_IFREG: // intentionally fall-through case S_IFDIR: break; case S_IFCHR: // intentionally fall-through case S_IFBLK: case S_IFIFO: case S_IFSOCK: LOG(WARNING, "Unsupported node type"); errno = ENOTSUP; return -1; default: LOG(WARNING, "Unrecognized node type"); errno = EINVAL; return -1; } if (check_parent_dir(path)) { return -1; } return gkfs::rpc::forward_create(path, mode); } /** * This sends internally a broadcast (i.e. n RPCs) to clean their chunk folders for that path * @param path * @return */ int gkfs_remove(const std::string& path) { auto md = gkfs::util::get_metadata(path); if (!md) { return -1; } bool has_data = S_ISREG(md->mode()) && (md->size() != 0); return gkfs::rpc::forward_remove(path, !has_data, md->size()); } int gkfs_access(const std::string& path, const int mask, bool follow_links) { auto md = gkfs::util::get_metadata(path, follow_links); if (!md) { errno = ENOENT; return -1; } return 0; } int gkfs_stat(const string& path, struct stat* buf, bool follow_links) { auto md = gkfs::util::get_metadata(path, follow_links); if (!md) { return -1; } gkfs::util::metadata_to_stat(path, *md, *buf); return 0; } int gkfs_statx(int dirfs, const std::string& path, int flags, unsigned int mask, struct statx* buf, bool follow_links) { auto md = gkfs::util::get_metadata(path, follow_links); if (!md) { return -1; } struct stat tmp{}; gkfs::util::metadata_to_stat(path, *md, tmp); buf->stx_mask = 0; buf->stx_blksize = tmp.st_blksize; buf->stx_attributes = 0; buf->stx_nlink = tmp.st_nlink; buf->stx_uid = tmp.st_uid; buf->stx_gid = tmp.st_gid; buf->stx_mode = tmp.st_mode; buf->stx_ino = tmp.st_ino; buf->stx_size = tmp.st_size; buf->stx_blocks = tmp.st_blocks; buf->stx_attributes_mask = 0; buf->stx_atime.tv_sec = tmp.st_atim.tv_sec; buf->stx_atime.tv_nsec = tmp.st_atim.tv_nsec; buf->stx_mtime.tv_sec = tmp.st_mtim.tv_sec; buf->stx_mtime.tv_nsec = tmp.st_mtim.tv_nsec; buf->stx_ctime.tv_sec = tmp.st_ctim.tv_sec; buf->stx_ctime.tv_nsec = tmp.st_ctim.tv_nsec; buf->stx_btime = buf->stx_atime; return 0; } int gkfs_statfs(struct statfs* buf) { auto blk_stat = gkfs::rpc::forward_get_chunk_stat(); buf->f_type = 0; buf->f_bsize = blk_stat.chunk_size; buf->f_blocks = blk_stat.chunk_total; buf->f_bfree = blk_stat.chunk_free; buf->f_bavail = blk_stat.chunk_free; buf->f_files = 0; buf->f_ffree = 0; buf->f_fsid = {0, 0}; buf->f_namelen = path::max_length; buf->f_frsize = 0; buf->f_flags = ST_NOATIME | ST_NODIRATIME | ST_NOSUID | ST_NODEV | ST_SYNCHRONOUS; return 0; } int gkfs_statvfs(struct statvfs* buf) { gkfs::preload::init_ld_env_if_needed(); auto blk_stat = gkfs::rpc::forward_get_chunk_stat(); buf->f_bsize = blk_stat.chunk_size; buf->f_blocks = blk_stat.chunk_total; buf->f_bfree = blk_stat.chunk_free; buf->f_bavail = blk_stat.chunk_free; buf->f_files = 0; buf->f_ffree = 0; buf->f_favail = 0; buf->f_fsid = 0; buf->f_namemax = path::max_length; buf->f_frsize = 0; buf->f_flag = ST_NOATIME | ST_NODIRATIME | ST_NOSUID | ST_NODEV | ST_SYNCHRONOUS; return 0; } off_t gkfs_lseek(unsigned int fd, off_t offset, unsigned int whence) { return gkfs_lseek(CTX->file_map()->get(fd), offset, whence); } off_t gkfs_lseek(shared_ptr gkfs_fd, off_t offset, unsigned int whence) { switch (whence) { case SEEK_SET: gkfs_fd->pos(offset); break; case SEEK_CUR: gkfs_fd->pos(gkfs_fd->pos() + offset); break; case SEEK_END: { off64_t file_size; auto err = gkfs::rpc::forward_get_metadentry_size(gkfs_fd->path(), file_size); if (err < 0) { errno = err; // Negative numbers are explicitly for error codes return -1; } gkfs_fd->pos(file_size + offset); break; } case SEEK_DATA: LOG(WARNING, "SEEK_DATA whence is not supported"); // We do not support this whence yet errno = EINVAL; return -1; case SEEK_HOLE: LOG(WARNING, "SEEK_HOLE whence is not supported"); // We do not support this whence yet errno = EINVAL; return -1; default: LOG(WARNING, "Unknown whence value {:#x}", whence); errno = EINVAL; return -1; } return gkfs_fd->pos(); } int gkfs_truncate(const std::string& path, off_t old_size, off_t new_size) { assert(new_size >= 0); assert(new_size <= old_size); if (new_size == old_size) { return 0; } if (gkfs::rpc::forward_decr_size(path, new_size)) { LOG(DEBUG, "Failed to decrease size"); return -1; } if (gkfs::rpc::forward_truncate(path, old_size, new_size)) { LOG(DEBUG, "Failed to truncate data"); return -1; } return 0; } int gkfs_truncate(const std::string& path, off_t length) { /* TODO CONCURRENCY: * At the moment we first ask the length to the metadata-server in order to * know which data-server have data to be deleted. * * From the moment we issue the gkfs_stat and the moment we issue the * gkfs_trunc_data, some more data could have been added to the file and the * length increased. */ if (length < 0) { LOG(DEBUG, "Length is negative: {}", length); errno = EINVAL; return -1; } auto md = gkfs::util::get_metadata(path, true); if (!md) { return -1; } auto size = md->size(); if (static_cast(length) > size) { LOG(DEBUG, "Length is greater then file size: {} > {}", length, size); errno = EINVAL; return -1; } return gkfs_truncate(path, size, length); } int gkfs_dup(const int oldfd) { return CTX->file_map()->dup(oldfd); } int gkfs_dup2(const int oldfd, const int newfd) { return CTX->file_map()->dup2(oldfd, newfd); } ssize_t gkfs_pwrite(std::shared_ptr file, const char* buf, size_t count, off64_t offset) { if (file->type() != gkfs::filemap::FileType::regular) { assert(file->type() == gkfs::filemap::FileType::directory); LOG(WARNING, "Cannot read from directory"); errno = EISDIR; return -1; } auto path = make_shared(file->path()); auto append_flag = file->get_flag(gkfs::filemap::OpenFile_flags::append); ssize_t ret = 0; long updated_size = 0; ret = gkfs::rpc::forward_update_metadentry_size(*path, count, offset, append_flag, updated_size); if (ret != 0) { LOG(ERROR, "update_metadentry_size() failed with ret {}", ret); return ret; // ERR } ret = gkfs::rpc::forward_write(*path, buf, append_flag, offset, count, updated_size); if (ret < 0) { LOG(WARNING, "gkfs::rpc::forward_write() failed with ret {}", ret); } return ret; // return written size or -1 as error } ssize_t gkfs_pwrite_ws(int fd, const void* buf, size_t count, off64_t offset) { auto file = CTX->file_map()->get(fd); return gkfs_pwrite(file, reinterpret_cast(buf), count, offset); } /* Write counts bytes starting from current file position * It also update the file position accordingly * * Same as write syscall. */ ssize_t gkfs_write(int fd, const void* buf, size_t count) { auto gkfs_fd = CTX->file_map()->get(fd); auto pos = gkfs_fd->pos(); //retrieve the current offset if (gkfs_fd->get_flag(gkfs::filemap::OpenFile_flags::append)) gkfs_lseek(gkfs_fd, 0, SEEK_END); auto ret = gkfs_pwrite(gkfs_fd, reinterpret_cast(buf), count, pos); // Update offset in file descriptor in the file map if (ret > 0) { gkfs_fd->pos(pos + count); } return ret; } ssize_t gkfs_pwritev(int fd, const struct iovec* iov, int iovcnt, off_t offset) { auto file = CTX->file_map()->get(fd); auto pos = offset; // keep truck of current position ssize_t written = 0; ssize_t ret; for (int i = 0; i < iovcnt; ++i) { auto count = (iov + i)->iov_len; if (count == 0) { continue; } auto buf = (iov + i)->iov_base; ret = gkfs_pwrite(file, reinterpret_cast(buf), count, pos); if (ret == -1) { break; } written += ret; pos += ret; if (static_cast(ret) < count) { break; } } if (written == 0) { return -1; } return written; } ssize_t gkfs_writev(int fd, const struct iovec* iov, int iovcnt) { auto gkfs_fd = CTX->file_map()->get(fd); auto pos = gkfs_fd->pos(); // retrieve the current offset auto ret = gkfs_pwritev(fd, iov, iovcnt, pos); assert(ret != 0); if (ret < 0) { return -1; } gkfs_fd->pos(pos + ret); return ret; } ssize_t gkfs_pread(std::shared_ptr file, char* buf, size_t count, off64_t offset) { if (file->type() != gkfs::filemap::FileType::regular) { assert(file->type() == gkfs::filemap::FileType::directory); LOG(WARNING, "Cannot read from directory"); errno = EISDIR; return -1; } // Zeroing buffer before read is only relevant for sparse files. Otherwise sparse regions contain invalid data. if (gkfs::config::io::zero_buffer_before_read) { memset(buf, 0, sizeof(char) * count); } auto ret = gkfs::rpc::forward_read(file->path(), buf, offset, count); if (ret < 0) { LOG(WARNING, "gkfs::rpc::forward_read() failed with ret {}", ret); } // XXX check that we don't try to read past end of the file return ret; // return read size or -1 as error } ssize_t gkfs_read(int fd, void* buf, size_t count) { auto gkfs_fd = CTX->file_map()->get(fd); auto pos = gkfs_fd->pos(); //retrieve the current offset auto ret = gkfs_pread(gkfs_fd, reinterpret_cast(buf), count, pos); // Update offset in file descriptor in the file map if (ret > 0) { gkfs_fd->pos(pos + ret); } return ret; } ssize_t gkfs_preadv(int fd, const struct iovec* iov, int iovcnt, off_t offset) { auto file = CTX->file_map()->get(fd); auto pos = offset; // keep truck of current position ssize_t read = 0; ssize_t ret; for (int i = 0; i < iovcnt; ++i) { auto count = (iov + i)->iov_len; if (count == 0) { continue; } auto buf = (iov + i)->iov_base; ret = gkfs_pread(file, reinterpret_cast(buf), count, pos); if (ret == -1) { break; } read += ret; pos += ret; if (static_cast(ret) < count) { break; } } if (read == 0) { return -1; } return read; } ssize_t gkfs_readv(int fd, const struct iovec* iov, int iovcnt) { auto gkfs_fd = CTX->file_map()->get(fd); auto pos = gkfs_fd->pos(); // retrieve the current offset auto ret = gkfs_preadv(fd, iov, iovcnt, pos); assert(ret != 0); if (ret < 0) { return -1; } gkfs_fd->pos(pos + ret); return ret; } ssize_t gkfs_pread_ws(int fd, void* buf, size_t count, off64_t offset) { auto gkfs_fd = CTX->file_map()->get(fd); return gkfs_pread(gkfs_fd, reinterpret_cast(buf), count, offset); } int gkfs_opendir(const std::string& path) { auto md = gkfs::util::get_metadata(path); if (!md) { return -1; } if (!S_ISDIR(md->mode())) { LOG(DEBUG, "Path is not a directory"); errno = ENOTDIR; return -1; } auto open_dir = std::make_shared(path); gkfs::rpc::forward_get_dirents(*open_dir); return CTX->file_map()->add(open_dir); } int gkfs_rmdir(const std::string& path) { auto md = gkfs::util::get_metadata(path); if (!md) { LOG(DEBUG, "Path '{}' does not exist: ", path); errno = ENOENT; return -1; } if (!S_ISDIR(md->mode())) { LOG(DEBUG, "Path '{}' is not a directory", path); errno = ENOTDIR; return -1; } auto open_dir = std::make_shared(path); gkfs::rpc::forward_get_dirents(*open_dir); if (open_dir->size() != 0) { errno = ENOTEMPTY; return -1; } return gkfs::rpc::forward_remove(path, true, 0); } int gkfs_getdents(unsigned int fd, struct linux_dirent* dirp, unsigned int count) { // Get opendir object (content was downloaded with opendir() call) auto open_dir = CTX->file_map()->get_dir(fd); if (open_dir == nullptr) { //Cast did not succeeded: open_file is a regular file errno = EBADF; return -1; } // get directory position of which entries to return auto pos = open_dir->pos(); if (pos >= open_dir->size()) { return 0; } unsigned int written = 0; struct linux_dirent* current_dirp = nullptr; while (pos < open_dir->size()) { // get dentry fir current position auto de = open_dir->getdent(pos); /* * Calculate the total dentry size within the kernel struct `linux_dirent` depending on the file name size. * The size is then aligned to the size of `long` boundary. * This line was originally defined in the linux kernel: fs/readdir.c in function filldir(): * int reclen = ALIGN(offsetof(struct linux_dirent, d_name) + namlen + 2, sizeof(long)); * However, since d_name is null-terminated and de.name().size() does not include space * for the null-terminator, we add 1. Thus, + 3 in total. */ auto total_size = ALIGN(offsetof( struct linux_dirent, d_name) + de.name().size() + 3, sizeof(long)); if (total_size > (count - written)) { //no enough space left on user buffer to insert next dirent break; } current_dirp = reinterpret_cast(reinterpret_cast(dirp) + written); current_dirp->d_ino = std::hash()( open_dir->path() + "/" + de.name()); current_dirp->d_reclen = total_size; *(reinterpret_cast(current_dirp) + total_size - 1) = ((de.type() == gkfs::filemap::FileType::regular) ? DT_REG : DT_DIR); LOG(DEBUG, "name {}: {}", pos, de.name()); std::strcpy(&(current_dirp->d_name[0]), de.name().c_str()); ++pos; current_dirp->d_off = pos; written += total_size; } if (written == 0) { errno = EINVAL; return -1; } // set directory position for next getdents() call open_dir->pos(pos); return written; } int gkfs_getdents64(unsigned int fd, struct linux_dirent64* dirp, unsigned int count) { auto open_dir = CTX->file_map()->get_dir(fd); if (open_dir == nullptr) { //Cast did not succeeded: open_file is a regular file errno = EBADF; return -1; } auto pos = open_dir->pos(); if (pos >= open_dir->size()) { return 0; } unsigned int written = 0; struct linux_dirent64* current_dirp = nullptr; while (pos < open_dir->size()) { auto de = open_dir->getdent(pos); /* * Calculate the total dentry size within the kernel struct `linux_dirent` depending on the file name size. * The size is then aligned to the size of `long` boundary. * * This line was originally defined in the linux kernel: fs/readdir.c in function filldir64(): * int reclen = ALIGN(offsetof(struct linux_dirent64, d_name) + namlen + 1, sizeof(u64)); * We keep + 1 because: * Since d_name is null-terminated and de.name().size() does not include space * for the null-terminator, we add 1. Since d_name in our `struct linux_dirent64` definition * is not a zero-size array (as opposed to the kernel version), we subtract 1. Thus, it stays + 1. */ auto total_size = ALIGN(offsetof( struct linux_dirent64, d_name) + de.name().size() + 1, sizeof(uint64_t)); if (total_size > (count - written)) { //no enough space left on user buffer to insert next dirent break; } current_dirp = reinterpret_cast(reinterpret_cast(dirp) + written); current_dirp->d_ino = std::hash()( open_dir->path() + "/" + de.name()); current_dirp->d_reclen = total_size; current_dirp->d_type = ((de.type() == gkfs::filemap::FileType::regular) ? DT_REG : DT_DIR); LOG(DEBUG, "name {}: {}", pos, de.name()); std::strcpy(&(current_dirp->d_name[0]), de.name().c_str()); ++pos; current_dirp->d_off = pos; written += total_size; } if (written == 0) { errno = EINVAL; return -1; } open_dir->pos(pos); return written; } #ifdef HAS_SYMLINKS int gkfs_mk_symlink(const std::string& path, const std::string& target_path) { gkfs::preload::init_ld_env_if_needed(); /* The following check is not POSIX compliant. * In POSIX the target is not checked at all. * Here if the target is a directory we raise a NOTSUP error. * So that application know we don't support link to directory. */ auto target_md = gkfs::util::get_metadata(target_path, false); if (target_md != nullptr) { auto trg_mode = target_md->mode(); if (!(S_ISREG(trg_mode) || S_ISLNK(trg_mode))) { assert(S_ISDIR(trg_mode)); LOG(DEBUG, "Target path is a directory. Not supported"); errno = ENOTSUP; return -1; } } if (check_parent_dir(path)) { return -1; } auto link_md = gkfs::util::get_metadata(path, false); if (link_md != nullptr) { LOG(DEBUG, "Link exists: '{}'", path); errno = EEXIST; return -1; } return gkfs::rpc::forward_mk_symlink(path, target_path); } int gkfs_readlink(const std::string& path, char* buf, int bufsize) { gkfs::preload::init_ld_env_if_needed(); auto md = gkfs::util::get_metadata(path, false); if (md == nullptr) { LOG(DEBUG, "Named link doesn't exist"); return -1; } if (!(md->is_link())) { LOG(DEBUG, "The named file is not a symbolic link"); errno = EINVAL; return -1; } int path_size = md->target_path().size() + CTX->mountdir().size(); if (path_size >= bufsize) { LOG(WARNING, "Destination buffer size is too short: {} < {}, {} ", bufsize, path_size, md->target_path()); errno = ENAMETOOLONG; return -1; } CTX->mountdir().copy(buf, CTX->mountdir().size()); std::strcpy(buf + CTX->mountdir().size(), md->target_path().c_str()); return path_size; } #endif } // namespace syscall } // namespace gkfs