/* * Copyright (c) 2008 Jakub Jermar * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup libc * @{ */ /** @file */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include static FIBRIL_MUTEX_INITIALIZE(vfs_mutex); static async_sess_t *vfs_sess = NULL; static FIBRIL_MUTEX_INITIALIZE(cwd_mutex); static int cwd_fd = -1; static char *cwd_path = NULL; static size_t cwd_size = 0; /** Start an async exchange on the VFS session. * * @return New exchange. * */ async_exch_t *vfs_exchange_begin(void) { fibril_mutex_lock(&vfs_mutex); while (vfs_sess == NULL) vfs_sess = service_connect_blocking(EXCHANGE_PARALLEL, SERVICE_VFS, 0, 0); fibril_mutex_unlock(&vfs_mutex); return async_exchange_begin(vfs_sess); } /** Finish an async exchange on the VFS session. * * @param exch Exchange to be finished. * */ void vfs_exchange_end(async_exch_t *exch) { async_exchange_end(exch); } char *absolutize(const char *path, size_t *retlen) { char *ncwd_path; char *ncwd_path_nc; fibril_mutex_lock(&cwd_mutex); size_t size = str_size(path); if (*path != '/') { if (!cwd_path) { fibril_mutex_unlock(&cwd_mutex); return NULL; } ncwd_path_nc = malloc(cwd_size + 1 + size + 1); if (!ncwd_path_nc) { fibril_mutex_unlock(&cwd_mutex); return NULL; } str_cpy(ncwd_path_nc, cwd_size + 1 + size + 1, cwd_path); ncwd_path_nc[cwd_size] = '/'; ncwd_path_nc[cwd_size + 1] = '\0'; } else { ncwd_path_nc = malloc(size + 1); if (!ncwd_path_nc) { fibril_mutex_unlock(&cwd_mutex); return NULL; } ncwd_path_nc[0] = '\0'; } str_append(ncwd_path_nc, cwd_size + 1 + size + 1, path); ncwd_path = canonify(ncwd_path_nc, retlen); if (!ncwd_path) { fibril_mutex_unlock(&cwd_mutex); free(ncwd_path_nc); return NULL; } /* * We need to clone ncwd_path because canonify() works in-place and thus * the address in ncwd_path need not be the same as ncwd_path_nc, even * though they both point into the same dynamically allocated buffer. */ ncwd_path = str_dup(ncwd_path); free(ncwd_path_nc); if (!ncwd_path) { fibril_mutex_unlock(&cwd_mutex); return NULL; } fibril_mutex_unlock(&cwd_mutex); return ncwd_path; } int mount(const char *fs_name, const char *mp, const char *fqsn, const char *opts, unsigned int flags, unsigned int instance) { int null_id = -1; char null[LOC_NAME_MAXLEN]; if (str_cmp(fqsn, "") == 0) { /* No device specified, create a fresh null/%d device instead */ null_id = loc_null_create(); if (null_id == -1) return ENOMEM; snprintf(null, LOC_NAME_MAXLEN, "null/%d", null_id); fqsn = null; } service_id_t service_id; int res = loc_service_get_id(fqsn, &service_id, flags); if (res != EOK) { if (null_id != -1) loc_null_destroy(null_id); return res; } size_t mpa_size; char *mpa = absolutize(mp, &mpa_size); if (!mpa) { if (null_id != -1) loc_null_destroy(null_id); return ENOMEM; } async_exch_t *exch = vfs_exchange_begin(); sysarg_t rc_orig; aid_t req = async_send_3(exch, VFS_IN_MOUNT, service_id, flags, instance, NULL); sysarg_t rc = async_data_write_start(exch, (void *) mpa, mpa_size); if (rc != EOK) { vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc_orig); if (null_id != -1) loc_null_destroy(null_id); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } rc = async_data_write_start(exch, (void *) opts, str_size(opts)); if (rc != EOK) { vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc_orig); if (null_id != -1) loc_null_destroy(null_id); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } rc = async_data_write_start(exch, (void *) fs_name, str_size(fs_name)); if (rc != EOK) { vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc_orig); if (null_id != -1) loc_null_destroy(null_id); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } /* Ask VFS whether it likes fs_name. */ rc = async_req_0_0(exch, VFS_IN_PING); if (rc != EOK) { vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc_orig); if (null_id != -1) loc_null_destroy(null_id); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc); if ((rc != EOK) && (null_id != -1)) loc_null_destroy(null_id); return (int) rc; } int unmount(const char *mp) { sysarg_t rc; sysarg_t rc_orig; aid_t req; size_t mpa_size; char *mpa; mpa = absolutize(mp, &mpa_size); if (!mpa) return ENOMEM; async_exch_t *exch = vfs_exchange_begin(); req = async_send_0(exch, VFS_IN_UNMOUNT, NULL); rc = async_data_write_start(exch, (void *) mpa, mpa_size); if (rc != EOK) { vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); free(mpa); async_wait_for(req, &rc); return (int) rc; } static int open_internal(const char *abs, size_t abs_size, int lflag, int oflag) { async_exch_t *exch = vfs_exchange_begin(); ipc_call_t answer; aid_t req = async_send_3(exch, VFS_IN_OPEN, lflag, oflag, 0, &answer); sysarg_t rc = async_data_write_start(exch, abs, abs_size); if (rc != EOK) { vfs_exchange_end(exch); sysarg_t rc_orig; async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); async_wait_for(req, &rc); if (rc != EOK) return (int) rc; return (int) IPC_GET_ARG1(answer); } int open(const char *path, int oflag, ...) { size_t abs_size; char *abs = absolutize(path, &abs_size); if (!abs) return ENOMEM; int ret = open_internal(abs, abs_size, L_FILE, oflag); free(abs); return ret; } int close(int fildes) { sysarg_t rc; async_exch_t *exch = vfs_exchange_begin(); rc = async_req_1_0(exch, VFS_IN_CLOSE, fildes); vfs_exchange_end(exch); return (int) rc; } ssize_t read(int fildes, void *buf, size_t nbyte) { sysarg_t rc; ipc_call_t answer; aid_t req; if (nbyte > DATA_XFER_LIMIT) nbyte = DATA_XFER_LIMIT; async_exch_t *exch = vfs_exchange_begin(); req = async_send_1(exch, VFS_IN_READ, fildes, &answer); rc = async_data_read_start(exch, (void *) buf, nbyte); if (rc != EOK) { vfs_exchange_end(exch); sysarg_t rc_orig; async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (ssize_t) rc; else return (ssize_t) rc_orig; } vfs_exchange_end(exch); async_wait_for(req, &rc); if (rc == EOK) return (ssize_t) IPC_GET_ARG1(answer); else return rc; } ssize_t write(int fildes, const void *buf, size_t nbyte) { sysarg_t rc; ipc_call_t answer; aid_t req; if (nbyte > DATA_XFER_LIMIT) nbyte = DATA_XFER_LIMIT; async_exch_t *exch = vfs_exchange_begin(); req = async_send_1(exch, VFS_IN_WRITE, fildes, &answer); rc = async_data_write_start(exch, (void *) buf, nbyte); if (rc != EOK) { vfs_exchange_end(exch); sysarg_t rc_orig; async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (ssize_t) rc; else return (ssize_t) rc_orig; } vfs_exchange_end(exch); async_wait_for(req, &rc); if (rc == EOK) return (ssize_t) IPC_GET_ARG1(answer); else return -1; } /** Read entire buffer. * * In face of short reads this function continues reading until either * the entire buffer is read or no more data is available (at end of file). * * @param fildes File descriptor * @param buf Buffer, @a nbytes bytes long * @param nbytes Number of bytes to read * * @return On success, positive number of bytes read. * On failure, negative error code from read(). */ ssize_t read_all(int fildes, void *buf, size_t nbyte) { ssize_t cnt = 0; size_t nread = 0; uint8_t *bp = (uint8_t *) buf; do { bp += cnt; nread += cnt; cnt = read(fildes, bp, nbyte - nread); } while (cnt > 0 && (nbyte - nread - cnt) > 0); if (cnt < 0) return cnt; return nread + cnt; } /** Write entire buffer. * * This function fails if it cannot write exactly @a len bytes to the file. * * @param fildes File descriptor * @param buf Data, @a nbytes bytes long * @param nbytes Number of bytes to write * * @return EOK on error, return value from write() if writing * failed. */ ssize_t write_all(int fildes, const void *buf, size_t nbyte) { ssize_t cnt = 0; ssize_t nwritten = 0; const uint8_t *bp = (uint8_t *) buf; do { bp += cnt; nwritten += cnt; cnt = write(fildes, bp, nbyte - nwritten); } while (cnt > 0 && ((ssize_t )nbyte - nwritten - cnt) > 0); if (cnt < 0) return cnt; if ((ssize_t)nbyte - nwritten - cnt > 0) return EIO; return nbyte; } int fsync(int fildes) { async_exch_t *exch = vfs_exchange_begin(); sysarg_t rc = async_req_1_0(exch, VFS_IN_SYNC, fildes); vfs_exchange_end(exch); return (int) rc; } off64_t lseek(int fildes, off64_t offset, int whence) { async_exch_t *exch = vfs_exchange_begin(); sysarg_t newoff_lo; sysarg_t newoff_hi; sysarg_t rc = async_req_4_2(exch, VFS_IN_SEEK, fildes, LOWER32(offset), UPPER32(offset), whence, &newoff_lo, &newoff_hi); vfs_exchange_end(exch); if (rc != EOK) return (off64_t) -1; return (off64_t) MERGE_LOUP32(newoff_lo, newoff_hi); } int ftruncate(int fildes, aoff64_t length) { sysarg_t rc; async_exch_t *exch = vfs_exchange_begin(); rc = async_req_3_0(exch, VFS_IN_TRUNCATE, fildes, LOWER32(length), UPPER32(length)); vfs_exchange_end(exch); return (int) rc; } int fstat(int fildes, struct stat *stat) { sysarg_t rc; aid_t req; async_exch_t *exch = vfs_exchange_begin(); req = async_send_1(exch, VFS_IN_FSTAT, fildes, NULL); rc = async_data_read_start(exch, (void *) stat, sizeof(struct stat)); if (rc != EOK) { vfs_exchange_end(exch); sysarg_t rc_orig; async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (ssize_t) rc; else return (ssize_t) rc_orig; } vfs_exchange_end(exch); async_wait_for(req, &rc); return rc; } int stat(const char *path, struct stat *stat) { sysarg_t rc; sysarg_t rc_orig; aid_t req; size_t pa_size; char *pa = absolutize(path, &pa_size); if (!pa) return ENOMEM; async_exch_t *exch = vfs_exchange_begin(); req = async_send_0(exch, VFS_IN_STAT, NULL); rc = async_data_write_start(exch, pa, pa_size); if (rc != EOK) { vfs_exchange_end(exch); free(pa); async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } rc = async_data_read_start(exch, stat, sizeof(struct stat)); if (rc != EOK) { vfs_exchange_end(exch); free(pa); async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); free(pa); async_wait_for(req, &rc); return rc; } DIR *opendir(const char *dirname) { DIR *dirp = malloc(sizeof(DIR)); if (!dirp) return NULL; size_t abs_size; char *abs = absolutize(dirname, &abs_size); if (!abs) { free(dirp); return NULL; } int ret = open_internal(abs, abs_size, L_DIRECTORY, 0); free(abs); if (ret < 0) { free(dirp); return NULL; } dirp->fd = ret; return dirp; } struct dirent *readdir(DIR *dirp) { ssize_t len = read(dirp->fd, &dirp->res.d_name[0], NAME_MAX + 1); if (len <= 0) return NULL; return &dirp->res; } void rewinddir(DIR *dirp) { (void) lseek(dirp->fd, 0, SEEK_SET); } int closedir(DIR *dirp) { (void) close(dirp->fd); free(dirp); return 0; } int mkdir(const char *path, mode_t mode) { sysarg_t rc; aid_t req; size_t pa_size; char *pa = absolutize(path, &pa_size); if (!pa) return ENOMEM; async_exch_t *exch = vfs_exchange_begin(); req = async_send_1(exch, VFS_IN_MKDIR, mode, NULL); rc = async_data_write_start(exch, pa, pa_size); if (rc != EOK) { vfs_exchange_end(exch); free(pa); sysarg_t rc_orig; async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); free(pa); async_wait_for(req, &rc); return rc; } static int _unlink(const char *path, int lflag) { sysarg_t rc; aid_t req; size_t pa_size; char *pa = absolutize(path, &pa_size); if (!pa) return ENOMEM; async_exch_t *exch = vfs_exchange_begin(); req = async_send_1(exch, VFS_IN_UNLINK, lflag, NULL); rc = async_data_write_start(exch, pa, pa_size); if (rc != EOK) { vfs_exchange_end(exch); free(pa); sysarg_t rc_orig; async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); free(pa); async_wait_for(req, &rc); return rc; } int unlink(const char *path) { return _unlink(path, L_NONE); } int rmdir(const char *path) { return _unlink(path, L_DIRECTORY); } int rename(const char *old, const char *new) { sysarg_t rc; sysarg_t rc_orig; aid_t req; size_t olda_size; char *olda = absolutize(old, &olda_size); if (!olda) return ENOMEM; size_t newa_size; char *newa = absolutize(new, &newa_size); if (!newa) { free(olda); return ENOMEM; } async_exch_t *exch = vfs_exchange_begin(); req = async_send_0(exch, VFS_IN_RENAME, NULL); rc = async_data_write_start(exch, olda, olda_size); if (rc != EOK) { vfs_exchange_end(exch); free(olda); free(newa); async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } rc = async_data_write_start(exch, newa, newa_size); if (rc != EOK) { vfs_exchange_end(exch); free(olda); free(newa); async_wait_for(req, &rc_orig); if (rc_orig == EOK) return (int) rc; else return (int) rc_orig; } vfs_exchange_end(exch); free(olda); free(newa); async_wait_for(req, &rc); return rc; } int remove(const char *path) { return unlink(path); } int chdir(const char *path) { size_t abs_size; char *abs = absolutize(path, &abs_size); if (!abs) return ENOMEM; int fd = open_internal(abs, abs_size, L_DIRECTORY, O_DESC); if (fd < 0) { free(abs); return ENOENT; } fibril_mutex_lock(&cwd_mutex); if (cwd_fd >= 0) close(cwd_fd); if (cwd_path) free(cwd_path); cwd_fd = fd; cwd_path = abs; cwd_size = abs_size; fibril_mutex_unlock(&cwd_mutex); return EOK; } char *getcwd(char *buf, size_t size) { if (size == 0) return NULL; fibril_mutex_lock(&cwd_mutex); if ((cwd_size == 0) || (size < cwd_size + 1)) { fibril_mutex_unlock(&cwd_mutex); return NULL; } str_cpy(buf, size, cwd_path); fibril_mutex_unlock(&cwd_mutex); return buf; } async_sess_t *fd_session(exch_mgmt_t mgmt, int fildes) { struct stat stat; int rc = fstat(fildes, &stat); if (rc != 0) { errno = rc; return NULL; } if (!stat.service) { errno = ENOENT; return NULL; } return loc_service_connect(mgmt, stat.service, 0); } int dup2(int oldfd, int newfd) { async_exch_t *exch = vfs_exchange_begin(); sysarg_t ret; sysarg_t rc = async_req_2_1(exch, VFS_IN_DUP, oldfd, newfd, &ret); vfs_exchange_end(exch); if (rc == EOK) return (int) ret; return (int) rc; } int fd_wait(void) { async_exch_t *exch = vfs_exchange_begin(); sysarg_t ret; sysarg_t rc = async_req_0_1(exch, VFS_IN_WAIT_HANDLE, &ret); vfs_exchange_end(exch); if (rc == EOK) return (int) ret; return (int) rc; } int get_mtab_list(list_t *mtab_list) { sysarg_t rc; aid_t req; size_t i; sysarg_t num_mounted_fs; async_exch_t *exch = vfs_exchange_begin(); req = async_send_0(exch, VFS_IN_MTAB_GET, NULL); /* Ask VFS how many filesystems are mounted */ rc = async_req_0_1(exch, VFS_IN_PING, &num_mounted_fs); if (rc != EOK) goto exit; for (i = 0; i < num_mounted_fs; ++i) { mtab_ent_t *mtab_ent; mtab_ent = malloc(sizeof(mtab_ent_t)); if (!mtab_ent) { rc = ENOMEM; goto exit; } memset(mtab_ent, 0, sizeof(mtab_ent_t)); rc = async_data_read_start(exch, (void *) mtab_ent->mp, MAX_PATH_LEN); if (rc != EOK) goto exit; rc = async_data_read_start(exch, (void *) mtab_ent->opts, MAX_MNTOPTS_LEN); if (rc != EOK) goto exit; rc = async_data_read_start(exch, (void *) mtab_ent->fs_name, FS_NAME_MAXLEN); if (rc != EOK) goto exit; sysarg_t p[2]; rc = async_req_0_2(exch, VFS_IN_PING, &p[0], &p[1]); if (rc != EOK) goto exit; mtab_ent->instance = p[0]; mtab_ent->service_id = p[1]; link_initialize(&mtab_ent->link); list_append(&mtab_ent->link, mtab_list); } exit: async_wait_for(req, &rc); vfs_exchange_end(exch); return rc; } int statfs(const char *path, struct statfs *st) { sysarg_t rc, rc_orig; aid_t req; size_t pa_size; char *pa = absolutize(path, &pa_size); if (!pa) return ENOMEM; async_exch_t *exch = vfs_exchange_begin(); req = async_send_0(exch, VFS_IN_STATFS, NULL); rc = async_data_write_start(exch, pa, pa_size); if (rc != EOK) goto exit; rc = async_data_read_start(exch, (void *) st, sizeof(*st)); exit: vfs_exchange_end(exch); free(pa); async_wait_for(req, &rc_orig); return (int) (rc_orig != EOK ? rc_orig : rc); } /** @} */