#include #include #include #include #include #include #include int parse_options(const StringView& options) { int flags = 0; Vector parts = options.split_view(','); for (auto& part : parts) { if (part == "defaults") continue; else if (part == "nodev") flags |= MS_NODEV; else if (part == "noexec") flags |= MS_NOEXEC; else if (part == "nosuid") flags |= MS_NOSUID; else if (part == "bind") flags |= MS_BIND; else fprintf(stderr, "Ignoring invalid option: %s\n", String(part).characters()); } return flags; } bool mount_all() { // Mount all filesystems listed in /etc/fstab. dbg() << "Mounting all filesystems..."; auto fstab = CFile::construct("/etc/fstab"); if (!fstab->open(CIODevice::OpenMode::ReadOnly)) { fprintf(stderr, "Failed to open /etc/fstab: %s\n", fstab->error_string()); return false; } bool all_ok = true; while (fstab->can_read_line()) { ByteBuffer buffer = fstab->read_line(1024); StringView line_view = (const char*)buffer.data(); // Trim the trailing newline, if any. if (line_view.length() > 0 && line_view[line_view.length() - 1] == '\n') line_view = line_view.substring_view(0, line_view.length() - 1); String line = line_view; Vector parts = line.split('\t'); if (parts.size() < 3) { fprintf(stderr, "Invalid fstab entry: %s\n", line.characters()); all_ok = false; continue; } const char* devname = parts[0].characters(); const char* mountpoint = parts[1].characters(); const char* fstype = parts[2].characters(); int flags = parts.size() >= 4 ? parse_options(parts[3]) : 0; if (strcmp(mountpoint, "/") == 0) { dbg() << "Skipping mounting root"; continue; } dbg() << "Mounting " << devname << "(" << fstype << ")" << " on " << mountpoint; int rc = mount(devname, mountpoint, fstype, flags); if (rc != 0) { fprintf(stderr, "Failed to mount %s (%s) on %s: %s\n", devname, fstype, mountpoint, strerror(errno)); all_ok = false; continue; } } return all_ok; } bool print_mounts() { // Output info about currently mounted filesystems. auto df = CFile::construct("/proc/df"); if (!df->open(CIODevice::ReadOnly)) { fprintf(stderr, "Failed to open /proc/df: %s\n", df->error_string()); return false; } auto content = df->read_all(); auto json = JsonValue::from_string(content).as_array(); json.for_each([](auto& value) { auto fs_object = value.as_object(); auto class_name = fs_object.get("class_name").to_string(); auto mount_point = fs_object.get("mount_point").to_string(); auto device = fs_object.get("device").as_string_or(class_name); auto readonly = fs_object.get("readonly").to_bool(); auto mount_flags = fs_object.get("mount_flags").to_int(); printf("%s on %s type %s (", device.characters(), mount_point.characters(), class_name.characters()); if (readonly) printf("ro"); else printf("rw"); if (mount_flags & MS_NODEV) printf(",nodev"); if (mount_flags & MS_NOEXEC) printf(",noexec"); if (mount_flags & MS_NOSUID) printf(",nosuid"); if (mount_flags & MS_BIND) printf(",bind"); printf(")\n"); }); return true; } int main(int argc, char** argv) { CArgsParser args_parser("mount"); args_parser.add_arg("devname", "device path"); args_parser.add_arg("mountpoint", "mount point"); args_parser.add_arg("t", "fstype", "file system type"); args_parser.add_arg("o", "options", "mount options"); args_parser.add_arg("a", "mount all systems listed in /etc/fstab"); CArgsParserResult args = args_parser.parse(argc, argv); if (args.is_present("a")) { return mount_all() ? 0 : 1; } switch (args.get_single_values().size()) { case 0: return print_mounts() ? 0 : 1; case 2: { String devname = args.get_single_values()[0]; String mountpoint = args.get_single_values()[1]; String fstype = args.is_present("t") ? args.get("t") : "ext2"; int flags = args.is_present("o") ? parse_options(args.get("o")) : 0; if (mount(devname.characters(), mountpoint.characters(), fstype.characters(), flags) < 0) { perror("mount"); return 1; } return 0; } default: args_parser.print_usage(); return 1; } }