#include "stdafx.h" #include "Utilities/Config.h" #include "Emu/Memory/Memory.h" #include "Emu/System.h" #include "Emu/IdManager.h" #include "Emu/Cell/ErrorCodes.h" #include "sys_fs.h" LOG_CHANNEL(sys_fs); s32 sys_fs_test(u32 arg1, u32 arg2, vm::ptr arg3, u32 arg4, vm::ptr arg5, u32 arg6) { sys_fs.todo("sys_fs_test(arg1=0x%x, arg2=0x%x, arg3=*0x%x, arg4=0x%x, arg5=*0x%x, arg6=0x%x) -> CELL_OK", arg1, arg2, arg3, arg4, arg5, arg6); return CELL_OK; } s32 sys_fs_open(vm::cptr path, s32 flags, vm::ptr fd, s32 mode, vm::cptr arg, u64 size) { sys_fs.warning("sys_fs_open(path=*0x%x, flags=%#o, fd=*0x%x, mode=%#o, arg=*0x%x, size=0x%llx)", path, flags, fd, mode, arg, size); sys_fs.warning("*** path = '%s'", path.get_ptr()); if (!path[0]) { sys_fs.error("sys_fs_open('%s') failed: path is invalid", path.get_ptr()); return CELL_FS_EINVAL; } const std::string& local_path = vfs::get(path.get_ptr()); if (local_path.empty()) { sys_fs.error("sys_fs_open('%s') failed: device not mounted", path.get_ptr()); return CELL_FS_ENOTMOUNTED; } // TODO: other checks for path if (fs::is_dir(local_path)) { sys_fs.error("sys_fs_open('%s') failed: path is a directory", path.get_ptr()); return CELL_FS_EISDIR; } mset open_mode{}; switch (flags & CELL_FS_O_ACCMODE) { case CELL_FS_O_RDONLY: open_mode += fs::read; break; case CELL_FS_O_WRONLY: open_mode += fs::write; break; case CELL_FS_O_RDWR: open_mode += fs::read + fs::write; break; } if (flags & CELL_FS_O_CREAT) { open_mode += fs::create; } if (flags & CELL_FS_O_TRUNC) { open_mode += fs::trunc; } if (flags & CELL_FS_O_APPEND) { open_mode += fs::append; } if (flags & CELL_FS_O_EXCL) { if (flags & CELL_FS_O_CREAT) { open_mode += fs::excl; } else { open_mode = {}; // error } } if (flags & ~(CELL_FS_O_ACCMODE | CELL_FS_O_CREAT | CELL_FS_O_TRUNC | CELL_FS_O_APPEND | CELL_FS_O_EXCL)) { open_mode = {}; // error } if ((flags & CELL_FS_O_ACCMODE) == CELL_FS_O_ACCMODE) { open_mode = {}; // error } if (!open_mode) { throw EXCEPTION("Invalid or unimplemented flags (%#o): '%s'", flags, path.get_ptr()); } fs::file file(local_path, open_mode); if (!file) { sys_fs.error("sys_fs_open('%s'): failed to open file (flags=%#o, mode=%#o)", path.get_ptr(), flags, mode); if (open_mode & fs::excl) { return CELL_FS_EEXIST; // approximation } return CELL_FS_ENOENT; } const auto _file = idm::make_ptr(std::move(file), mode, flags); if (!_file) { // out of file descriptors return CELL_FS_EMFILE; } *fd = _file->id; return CELL_OK; } s32 sys_fs_read(u32 fd, vm::ptr buf, u64 nbytes, vm::ptr nread) { sys_fs.trace("sys_fs_read(fd=%d, buf=0x%x, nbytes=0x%llx, nread=0x%x)", fd, buf, nbytes, nread); const auto file = idm::get(fd); if (!file || file->flags & CELL_FS_O_WRONLY) { return CELL_FS_EBADF; } std::lock_guard lock(file->mutex); *nread = file->file.read(buf.get_ptr(), nbytes); return CELL_OK; } s32 sys_fs_write(u32 fd, vm::cptr buf, u64 nbytes, vm::ptr nwrite) { sys_fs.trace("sys_fs_write(fd=%d, buf=*0x%x, nbytes=0x%llx, nwrite=*0x%x)", fd, buf, nbytes, nwrite); const auto file = idm::get(fd); if (!file || !(file->flags & CELL_FS_O_ACCMODE)) { return CELL_FS_EBADF; } // TODO: return CELL_FS_EBUSY if locked by stream std::lock_guard lock(file->mutex); *nwrite = file->file.write(buf.get_ptr(), nbytes); return CELL_OK; } s32 sys_fs_close(u32 fd) { sys_fs.trace("sys_fs_close(fd=%d)", fd); const auto file = idm::get(fd); if (!file) { return CELL_FS_EBADF; } // TODO: return CELL_FS_EBUSY if locked idm::remove(fd); return CELL_OK; } s32 sys_fs_opendir(vm::cptr path, vm::ptr fd) { sys_fs.warning("sys_fs_opendir(path=*0x%x, fd=*0x%x)", path, fd); sys_fs.warning("*** path = '%s'", path.get_ptr()); fs::dir dir(vfs::get(path.get_ptr())); if (!dir) { sys_fs.error("sys_fs_opendir('%s'): failed to open directory", path.get_ptr()); return CELL_FS_ENOENT; } const auto _dir = idm::make_ptr(std::move(dir)); if (!_dir) { // out of file descriptors return CELL_FS_EMFILE; } *fd = _dir->id; return CELL_OK; } s32 sys_fs_readdir(u32 fd, vm::ptr dir, vm::ptr nread) { sys_fs.warning("sys_fs_readdir(fd=%d, dir=*0x%x, nread=*0x%x)", fd, dir, nread); const auto directory = idm::get(fd); if (!directory) { return CELL_FS_EBADF; } fs::dir_entry info; if (directory->dir.read(info)) { dir->d_type = info.is_directory ? CELL_FS_TYPE_DIRECTORY : CELL_FS_TYPE_REGULAR; dir->d_namlen = u8(std::min(info.name.size(), CELL_FS_MAX_FS_FILE_NAME_LENGTH)); strcpy_trunc(dir->d_name, info.name); *nread = sizeof(CellFsDirent); } else { *nread = 0; } return CELL_OK; } s32 sys_fs_closedir(u32 fd) { sys_fs.trace("sys_fs_closedir(fd=%d)", fd); const auto directory = idm::get(fd); if (!directory) { return CELL_FS_EBADF; } idm::remove(fd); return CELL_OK; } s32 sys_fs_stat(vm::cptr path, vm::ptr sb) { sys_fs.warning("sys_fs_stat(path=*0x%x, sb=*0x%x)", path, sb); sys_fs.warning("*** path = '%s'", path.get_ptr()); const std::string& local_path = vfs::get(path.get_ptr()); if (local_path.empty()) { sys_fs.warning("sys_fs_stat('%s') failed: not mounted", path.get_ptr()); return CELL_FS_ENOTMOUNTED; } fs::stat_t info; if (!fs::stat(local_path, info)) { sys_fs.error("sys_fs_stat('%s') failed: not found", path.get_ptr()); return CELL_FS_ENOENT; } sb->mode = info.is_directory ? CELL_FS_S_IFDIR | 0777 : CELL_FS_S_IFREG | 0666; sb->uid = 1; // ??? sb->gid = 1; // ??? sb->atime = info.atime; sb->mtime = info.mtime; sb->ctime = info.ctime; sb->size = info.size; sb->blksize = 4096; // ??? return CELL_OK; } s32 sys_fs_fstat(u32 fd, vm::ptr sb) { sys_fs.warning("sys_fs_fstat(fd=%d, sb=*0x%x)", fd, sb); const auto file = idm::get(fd); if (!file) { return CELL_FS_EBADF; } std::lock_guard lock(file->mutex); const fs::stat_t& info = file->file.stat(); sb->mode = info.is_directory ? CELL_FS_S_IFDIR | 0777 : CELL_FS_S_IFREG | 0666; sb->uid = 1; // ??? sb->gid = 1; // ??? sb->atime = info.atime; sb->mtime = info.mtime; sb->ctime = info.ctime; // ctime may be incorrect sb->size = info.size; sb->blksize = 4096; // ??? return CELL_OK; } s32 sys_fs_mkdir(vm::cptr path, s32 mode) { sys_fs.warning("sys_fs_mkdir(path=*0x%x, mode=%#o)", path, mode); sys_fs.warning("*** path = '%s'", path.get_ptr()); const std::string& local_path = vfs::get(path.get_ptr()); if (fs::is_dir(local_path)) { return CELL_FS_EEXIST; } if (!fs::create_path(local_path)) { return CELL_FS_EIO; // ??? } sys_fs.notice("sys_fs_mkdir(): directory '%s' created", path.get_ptr()); return CELL_OK; } s32 sys_fs_rename(vm::cptr from, vm::cptr to) { sys_fs.warning("sys_fs_rename(from=*0x%x, to=*0x%x)", from, to); sys_fs.warning("*** from = '%s'", from.get_ptr()); sys_fs.warning("*** to = '%s'", to.get_ptr()); if (!fs::rename(vfs::get(from.get_ptr()), vfs::get(to.get_ptr()))) { return CELL_FS_ENOENT; // ??? } sys_fs.notice("sys_fs_rename(): '%s' renamed to '%s'", from.get_ptr(), to.get_ptr()); return CELL_OK; } s32 sys_fs_rmdir(vm::cptr path) { sys_fs.warning("sys_fs_rmdir(path=*0x%x)", path); sys_fs.warning("*** path = '%s'", path.get_ptr()); if (!fs::remove_dir(vfs::get(path.get_ptr()))) { switch (auto error = errno) { case ENOENT: return CELL_FS_ENOENT; default: sys_fs.error("sys_fs_rmdir(): unknown error %d", error); } return CELL_FS_EIO; // ??? } sys_fs.notice("sys_fs_rmdir(): directory '%s' removed", path.get_ptr()); return CELL_OK; } s32 sys_fs_unlink(vm::cptr path) { sys_fs.warning("sys_fs_unlink(path=*0x%x)", path); sys_fs.warning("*** path = '%s'", path.get_ptr()); if (!fs::remove_file(vfs::get(path.get_ptr()))) { switch (auto error = errno) { case ENOENT: return CELL_FS_ENOENT; default: sys_fs.error("sys_fs_unlink(): unknown error %d", error); } return CELL_FS_EIO; // ??? } sys_fs.notice("sys_fs_unlink(): file '%s' deleted", path.get_ptr()); return CELL_OK; } s32 sys_fs_fcntl(u32 fd, s32 flags, u32 addr, u32 arg4, u32 arg5, u32 arg6) { sys_fs.todo("sys_fs_fcntl(fd=0x%x, flags=0x%x, addr=*0x%x, arg4=0x%x, arg5=0x%x, arg6=0x%x) -> CELL_OK", fd, flags, addr, arg4, arg5, arg6); return CELL_OK; } s32 sys_fs_lseek(u32 fd, s64 offset, s32 whence, vm::ptr pos) { sys_fs.trace("sys_fs_lseek(fd=%d, offset=0x%llx, whence=0x%x, pos=*0x%x)", fd, offset, whence, pos); if (whence >= 3) { sys_fs.error("sys_fs_lseek(): invalid seek whence (%d)", whence); return CELL_FS_EINVAL; } const auto file = idm::get(fd); if (!file) { return CELL_FS_EBADF; } std::lock_guard lock(file->mutex); *pos = file->file.seek(offset, static_cast(whence)); return CELL_OK; } s32 sys_fs_fget_block_size(u32 fd, vm::ptr sector_size, vm::ptr block_size, vm::ptr arg4, vm::ptr arg5) { sys_fs.todo("sys_fs_fget_block_size(fd=%d, sector_size=*0x%x, block_size=*0x%x, arg4=*0x%x, arg5=*0x%x)", fd, sector_size, block_size, arg4, arg5); const auto file = idm::get(fd); if (!file) { return CELL_FS_EBADF; } *sector_size = 4096; // ? *block_size = 4096; // ? return CELL_OK; } s32 sys_fs_get_block_size(vm::cptr path, vm::ptr sector_size, vm::ptr block_size, vm::ptr arg4) { sys_fs.todo("sys_fs_get_block_size(path=*0x%x, sector_size=*0x%x, block_size=*0x%x, arg4=*0x%x, arg5=*0x%x)", path, sector_size, block_size, arg4); sys_fs.todo("*** path = '%s'", path.get_ptr()); *sector_size = 4096; // ? *block_size = 4096; // ? return CELL_OK; } s32 sys_fs_truncate(vm::cptr path, u64 size) { sys_fs.warning("sys_fs_truncate(path=*0x%x, size=0x%llx)", path, size); sys_fs.warning("*** path = '%s'", path.get_ptr()); if (!fs::truncate_file(vfs::get(path.get_ptr()), size)) { switch (auto error = errno) { case ENOENT: return CELL_FS_ENOENT; default: sys_fs.error("sys_fs_truncate(): unknown error %d", error); } return CELL_FS_EIO; // ??? } return CELL_OK; } s32 sys_fs_ftruncate(u32 fd, u64 size) { sys_fs.warning("sys_fs_ftruncate(fd=%d, size=0x%llx)", fd, size); const auto file = idm::get(fd); if (!file || !(file->flags & CELL_FS_O_ACCMODE)) { return CELL_FS_EBADF; } std::lock_guard lock(file->mutex); if (!file->file.trunc(size)) { switch (auto error = errno) { case 0: default: sys_fs.error("sys_fs_ftruncate(): unknown error %d", error); } return CELL_FS_EIO; // ??? } return CELL_OK; } s32 sys_fs_chmod(vm::cptr path, s32 mode) { sys_fs.todo("sys_fs_chmod(path=*0x%x, mode=%#o) -> CELL_OK", path, mode); sys_fs.todo("*** path = '%s'", path.get_ptr()); return CELL_OK; }