/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "AP_Filesystem.h" static AP_Filesystem fs; #if CONFIG_HAL_BOARD == HAL_BOARD_CHIBIOS #if HAVE_FILESYSTEM_SUPPORT #include "AP_Filesystem_FATFS.h" static AP_Filesystem_FATFS fs_local; #else static AP_Filesystem_Backend fs_local; int errno; #endif // HAVE_FILESYSTEM_SUPPORT #endif // HAL_BOARD_CHIBIOS #if CONFIG_HAL_BOARD == HAL_BOARD_ESP32 #include "AP_Filesystem_ESP32.h" static AP_Filesystem_ESP32 fs_local; #endif // HAL_BOARD_ESP32 #if CONFIG_HAL_BOARD == HAL_BOARD_LINUX || CONFIG_HAL_BOARD == HAL_BOARD_SITL #include "AP_Filesystem_posix.h" static AP_Filesystem_Posix fs_local; #endif #ifdef HAL_HAVE_AP_ROMFS_EMBEDDED_H #include "AP_Filesystem_ROMFS.h" static AP_Filesystem_ROMFS fs_romfs; #endif #include "AP_Filesystem_Param.h" static AP_Filesystem_Param fs_param; #include "AP_Filesystem_Sys.h" static AP_Filesystem_Sys fs_sys; #include #if AP_MISSION_ENABLED #include "AP_Filesystem_Mission.h" static AP_Filesystem_Mission fs_mission; #endif /* mapping from filesystem prefix to backend */ const AP_Filesystem::Backend AP_Filesystem::backends[] = { { nullptr, fs_local }, #ifdef HAL_HAVE_AP_ROMFS_EMBEDDED_H { "@ROMFS/", fs_romfs }, #endif { "@PARAM/", fs_param }, { "@SYS/", fs_sys }, { "@SYS", fs_sys }, #if AP_MISSION_ENABLED { "@MISSION/", fs_mission }, #endif }; extern const AP_HAL::HAL& hal; #define MAX_FD_PER_BACKEND 256U #define NUM_BACKENDS ARRAY_SIZE(backends) #define LOCAL_BACKEND backends[0] #define BACKEND_IDX(backend) (&(backend) - &backends[0]) /* find backend by path */ const AP_Filesystem::Backend &AP_Filesystem::backend_by_path(const char *&path) const { for (uint8_t i=1; i= NUM_BACKENDS*MAX_FD_PER_BACKEND) { return LOCAL_BACKEND; } const uint8_t idx = uint32_t(fd) / MAX_FD_PER_BACKEND; fd -= idx * MAX_FD_PER_BACKEND; return backends[idx]; } int AP_Filesystem::open(const char *fname, int flags, bool allow_absolute_paths) { const Backend &backend = backend_by_path(fname); int fd = backend.fs.open(fname, flags, allow_absolute_paths); if (fd < 0) { return -1; } if (uint32_t(fd) >= MAX_FD_PER_BACKEND) { backend.fs.close(fd); errno = ERANGE; return -1; } // offset fd so we can recognise the backend const uint8_t idx = (&backend - &backends[0]); fd += idx * MAX_FD_PER_BACKEND; return fd; } int AP_Filesystem::close(int fd) { const Backend &backend = backend_by_fd(fd); return backend.fs.close(fd); } int32_t AP_Filesystem::read(int fd, void *buf, uint32_t count) { const Backend &backend = backend_by_fd(fd); return backend.fs.read(fd, buf, count); } int32_t AP_Filesystem::write(int fd, const void *buf, uint32_t count) { const Backend &backend = backend_by_fd(fd); return backend.fs.write(fd, buf, count); } int AP_Filesystem::fsync(int fd) { const Backend &backend = backend_by_fd(fd); return backend.fs.fsync(fd); } int32_t AP_Filesystem::lseek(int fd, int32_t offset, int seek_from) { const Backend &backend = backend_by_fd(fd); return backend.fs.lseek(fd, offset, seek_from); } int AP_Filesystem::stat(const char *pathname, struct stat *stbuf) { const Backend &backend = backend_by_path(pathname); return backend.fs.stat(pathname, stbuf); } int AP_Filesystem::unlink(const char *pathname) { const Backend &backend = backend_by_path(pathname); return backend.fs.unlink(pathname); } int AP_Filesystem::mkdir(const char *pathname) { const Backend &backend = backend_by_path(pathname); return backend.fs.mkdir(pathname); } AP_Filesystem::DirHandle *AP_Filesystem::opendir(const char *pathname) { const Backend &backend = backend_by_path(pathname); DirHandle *h = new DirHandle; if (!h) { return nullptr; } h->dir = backend.fs.opendir(pathname); if (h->dir == nullptr) { delete h; return nullptr; } h->fs_index = BACKEND_IDX(backend); return h; } struct dirent *AP_Filesystem::readdir(DirHandle *dirp) { if (!dirp) { return nullptr; } const Backend &backend = backends[dirp->fs_index]; return backend.fs.readdir(dirp->dir); } int AP_Filesystem::closedir(DirHandle *dirp) { if (!dirp) { return -1; } const Backend &backend = backends[dirp->fs_index]; int ret = backend.fs.closedir(dirp->dir); delete dirp; return ret; } // return free disk space in bytes int64_t AP_Filesystem::disk_free(const char *path) { const Backend &backend = backend_by_path(path); return backend.fs.disk_free(path); } // return total disk space in bytes int64_t AP_Filesystem::disk_space(const char *path) { const Backend &backend = backend_by_path(path); return backend.fs.disk_space(path); } /* set mtime on a file */ bool AP_Filesystem::set_mtime(const char *filename, const uint32_t mtime_sec) { const Backend &backend = backend_by_path(filename); return backend.fs.set_mtime(filename, mtime_sec); } // if filesystem is not running then try a remount bool AP_Filesystem::retry_mount(void) { return LOCAL_BACKEND.fs.retry_mount(); } // unmount filesystem for reboot void AP_Filesystem::unmount(void) { return LOCAL_BACKEND.fs.unmount(); } /* load a file to memory as a single chunk. Use only for small files */ FileData *AP_Filesystem::load_file(const char *filename) { const Backend &backend = backend_by_path(filename); return backend.fs.load_file(filename); } // returns null-terminated string; cr or lf terminates line bool AP_Filesystem::fgets(char *buf, uint8_t buflen, int fd) { const Backend &backend = backend_by_fd(fd); uint8_t i = 0; for (; iget_soft_armed()) { return false; } return LOCAL_BACKEND.fs.format(); #else return false; #endif } namespace AP { AP_Filesystem &FS() { return fs; } }