/* * Copyright (c) 2018-2021, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define HANDLE(VALUE) \ case VALUE: \ return #VALUE##sv; #define VALUES_TO_NAMES(FUNC_NAME) \ static DeprecatedString FUNC_NAME(int value) \ { \ switch (value) { #define END_VALUES_TO_NAMES() \ } \ return DeprecatedString::formatted("{}", value); \ } VALUES_TO_NAMES(errno_name) HANDLE(EPERM) HANDLE(ENOENT) HANDLE(ESRCH) HANDLE(EINTR) HANDLE(EIO) HANDLE(ENXIO) HANDLE(E2BIG) HANDLE(ENOEXEC) HANDLE(EBADF) HANDLE(ECHILD) HANDLE(EAGAIN) HANDLE(ENOMEM) HANDLE(EACCES) HANDLE(EFAULT) HANDLE(ENOTBLK) HANDLE(EBUSY) HANDLE(EEXIST) HANDLE(EXDEV) HANDLE(ENODEV) HANDLE(ENOTDIR) HANDLE(EISDIR) HANDLE(EINVAL) HANDLE(ENFILE) HANDLE(EMFILE) HANDLE(ENOTTY) HANDLE(ETXTBSY) HANDLE(EFBIG) HANDLE(ENOSPC) HANDLE(ESPIPE) HANDLE(EROFS) HANDLE(EMLINK) HANDLE(EPIPE) HANDLE(ERANGE) HANDLE(ENAMETOOLONG) HANDLE(ELOOP) HANDLE(EOVERFLOW) HANDLE(EOPNOTSUPP) HANDLE(ENOSYS) HANDLE(ENOTIMPL) HANDLE(EAFNOSUPPORT) HANDLE(ENOTSOCK) HANDLE(EADDRINUSE) HANDLE(ENOTEMPTY) HANDLE(EDOM) HANDLE(ECONNREFUSED) HANDLE(EHOSTDOWN) HANDLE(EADDRNOTAVAIL) HANDLE(EISCONN) HANDLE(ECONNABORTED) HANDLE(EALREADY) HANDLE(ECONNRESET) HANDLE(EDESTADDRREQ) HANDLE(EHOSTUNREACH) HANDLE(EILSEQ) HANDLE(EMSGSIZE) HANDLE(ENETDOWN) HANDLE(ENETUNREACH) HANDLE(ENETRESET) HANDLE(ENOBUFS) HANDLE(ENOLCK) HANDLE(ENOMSG) HANDLE(ENOPROTOOPT) HANDLE(ENOTCONN) HANDLE(ESHUTDOWN) HANDLE(ETOOMANYREFS) HANDLE(EPROTONOSUPPORT) HANDLE(ESOCKTNOSUPPORT) HANDLE(EDEADLK) HANDLE(ETIMEDOUT) HANDLE(EPROTOTYPE) HANDLE(EINPROGRESS) HANDLE(ENOTHREAD) HANDLE(EPROTO) HANDLE(ENOTSUP) HANDLE(EPFNOSUPPORT) HANDLE(EDIRINTOSELF) HANDLE(EDQUOT) HANDLE(EMAXERRNO) END_VALUES_TO_NAMES() VALUES_TO_NAMES(whence_name) HANDLE(SEEK_SET) HANDLE(SEEK_CUR) HANDLE(SEEK_END) END_VALUES_TO_NAMES() VALUES_TO_NAMES(ioctl_request_name) HANDLE(TIOCGPGRP) HANDLE(TIOCSPGRP) HANDLE(TCGETS) HANDLE(TCSETS) HANDLE(TCSETSW) HANDLE(TCSETSF) HANDLE(TCFLSH) HANDLE(TIOCGWINSZ) HANDLE(TIOCSCTTY) HANDLE(TIOCSTI) HANDLE(TIOCNOTTY) HANDLE(TIOCSWINSZ) HANDLE(GRAPHICS_IOCTL_GET_PROPERTIES) HANDLE(GRAPHICS_IOCTL_SET_HEAD_MODE_SETTING) HANDLE(GRAPHICS_IOCTL_GET_HEAD_MODE_SETTING) HANDLE(GRAPHICS_IOCTL_SET_HEAD_VERTICAL_OFFSET_BUFFER) HANDLE(GRAPHICS_IOCTL_GET_HEAD_VERTICAL_OFFSET_BUFFER) HANDLE(GRAPHICS_IOCTL_FLUSH_HEAD_BUFFERS) HANDLE(GRAPHICS_IOCTL_FLUSH_HEAD) HANDLE(KEYBOARD_IOCTL_GET_NUM_LOCK) HANDLE(KEYBOARD_IOCTL_SET_NUM_LOCK) HANDLE(KEYBOARD_IOCTL_GET_CAPS_LOCK) HANDLE(KEYBOARD_IOCTL_SET_CAPS_LOCK) HANDLE(SIOCSIFADDR) HANDLE(SIOCGIFADDR) HANDLE(SIOCGIFHWADDR) HANDLE(SIOCGIFNAME) HANDLE(SIOCGIFINDEX) HANDLE(SIOCGIFNETMASK) HANDLE(SIOCSIFNETMASK) HANDLE(SIOCGIFBRDADDR) HANDLE(SIOCGIFMTU) HANDLE(SIOCGIFFLAGS) HANDLE(SIOCGIFCONF) HANDLE(SIOCADDRT) HANDLE(SIOCDELRT) HANDLE(SIOCSARP) HANDLE(SIOCDARP) HANDLE(FIBMAP) HANDLE(FIONBIO) HANDLE(FIONREAD) HANDLE(KCOV_SETBUFSIZE) HANDLE(KCOV_ENABLE) HANDLE(KCOV_DISABLE) HANDLE(SOUNDCARD_IOCTL_SET_SAMPLE_RATE) HANDLE(SOUNDCARD_IOCTL_GET_SAMPLE_RATE) HANDLE(STORAGE_DEVICE_GET_SIZE) HANDLE(STORAGE_DEVICE_GET_BLOCK_SIZE) END_VALUES_TO_NAMES() VALUES_TO_NAMES(domain_name) HANDLE(AF_UNSPEC) HANDLE(AF_UNIX) HANDLE(AF_INET) HANDLE(AF_INET6) END_VALUES_TO_NAMES() VALUES_TO_NAMES(socket_type_name) HANDLE(SOCK_STREAM) HANDLE(SOCK_DGRAM) HANDLE(SOCK_RAW) HANDLE(SOCK_RDM) HANDLE(SOCK_SEQPACKET) END_VALUES_TO_NAMES() VALUES_TO_NAMES(protocol_name) HANDLE(PF_UNSPEC) HANDLE(PF_UNIX) HANDLE(PF_INET) HANDLE(PF_INET6) END_VALUES_TO_NAMES() VALUES_TO_NAMES(clockid_name) HANDLE(CLOCK_REALTIME) HANDLE(CLOCK_MONOTONIC) HANDLE(CLOCK_REALTIME_COARSE) HANDLE(CLOCK_MONOTONIC_COARSE) END_VALUES_TO_NAMES() static int g_pid = -1; using syscall_arg_t = u64; static void handle_sigint(int) { if (g_pid == -1) return; if (ptrace(PT_DETACH, g_pid, 0, 0) == -1) { perror("detach"); } } static ErrorOr copy_from_process(void const* source, Bytes target) { return Core::System::ptrace_peekbuf(g_pid, const_cast(source), target); } static ErrorOr copy_from_process(void const* source, size_t length) { auto buffer = TRY(ByteBuffer::create_uninitialized(length)); TRY(copy_from_process(source, buffer.bytes())); return buffer; } template static ErrorOr copy_from_process(T const* source) { T value {}; TRY(copy_from_process(source, Bytes { &value, sizeof(T) })); return value; } struct BitflagOption { int value; StringView name; }; #define BITFLAG(NAME) \ BitflagOption \ { \ NAME, #NAME##sv \ } struct BitflagBase { int flagset; // Derivatives must define 'options', like so: // static constexpr auto options = { BITFLAG(O_CREAT), BITFLAG(O_DIRECTORY) }; }; namespace AK { template requires(IsBaseOf) && requires { BitflagDerivative::options; } struct Formatter : StandardFormatter { Formatter() = default; explicit Formatter(StandardFormatter formatter) : StandardFormatter(formatter) { } ErrorOr format(FormatBuilder& format_builder, BitflagDerivative const& value) { bool had_any_output = false; int remaining = value.flagset; for (BitflagOption const& option : BitflagDerivative::options) { if ((remaining & option.value) != option.value) continue; remaining &= ~option.value; if (had_any_output) TRY(format_builder.put_literal(" | "sv)); TRY(format_builder.put_literal(option.name)); had_any_output = true; } if (remaining != 0) { // No more BitflagOptions are available. Any remaining flags are unrecognized. if (had_any_output) TRY(format_builder.put_literal(" | "sv)); format_builder.builder().appendff("0x{:x} (?)", static_cast(remaining)); had_any_output = true; } if (!had_any_output) { if constexpr (requires { BitflagDerivative::default_; }) TRY(format_builder.put_literal(BitflagDerivative::default_)); else TRY(format_builder.put_literal("0"sv)); } return {}; } }; } struct PointerArgument { void const* value; }; namespace AK { template<> struct Formatter : StandardFormatter { Formatter() = default; explicit Formatter(StandardFormatter formatter) : StandardFormatter(formatter) { } ErrorOr format(FormatBuilder& format_builder, PointerArgument const& value) { auto& builder = format_builder.builder(); if (value.value == nullptr) builder.append("null"sv); else builder.appendff("{}", value.value); return {}; } }; } struct StringArgument { Syscall::StringArgument argument; StringView trim_by {}; }; namespace AK { template<> struct Formatter : StandardFormatter { Formatter() = default; explicit Formatter(StandardFormatter formatter) : StandardFormatter(formatter) { } ErrorOr format(FormatBuilder& format_builder, StringArgument const& string_argument) { auto& builder = format_builder.builder(); if (string_argument.argument.characters == nullptr) { builder.append("null"sv); return {}; } // TODO: Avoid trying to copy excessively long strings. auto string_buffer = copy_from_process(string_argument.argument.characters, string_argument.argument.length); if (string_buffer.is_error()) { builder.appendff("{}{{{:p}, {}b}}", string_buffer.error(), (void const*)string_argument.argument.characters, string_argument.argument.length); } else { auto view = StringView(string_buffer.value()); if (!string_argument.trim_by.is_empty()) view = view.trim(string_argument.trim_by); builder.appendff("\"{}\"", view); } return {}; } }; } class FormattedSyscallBuilder { public: FormattedSyscallBuilder(StringView syscall_name) { m_builder.append(syscall_name); m_builder.append('('); } template void add_argument(CheckedFormatString format, T&& arg) { add_argument_separator(); m_builder.appendff(format.view(), forward(arg)); } template void add_argument(T&& arg) { add_argument("{}", forward(arg)); } template void add_arguments(Ts&&... args) { (add_argument(forward(args)), ...); } template void format_result_no_error(T res) { m_builder.appendff(") = {}\n", res); } void format_result(Integral auto res) { m_builder.append(") = "sv); if (res < 0) m_builder.appendff("{} {}", res, errno_name(-(int)res)); else m_builder.appendff("{}", res); m_builder.append('\n'); } void format_result(void* res) { if (res == MAP_FAILED) m_builder.append(") = MAP_FAILED\n"sv); else if (FlatPtr(res) > FlatPtr(-EMAXERRNO)) m_builder.appendff(") = {} {}\n", res, errno_name(-static_cast(FlatPtr(res)))); else m_builder.appendff(") = {}\n", res); } void format_result() { m_builder.append(")\n"sv); } StringView string_view() { return m_builder.string_view(); } private: void add_argument_separator() { if (!m_first_arg) { m_builder.append(", "sv); } m_first_arg = false; } StringBuilder m_builder; bool m_first_arg { true }; }; static void format_getrandom(FormattedSyscallBuilder& builder, void* buffer, size_t size, unsigned flags) { builder.add_arguments(buffer, size, flags); } static ErrorOr format_realpath(FormattedSyscallBuilder& builder, Syscall::SC_realpath_params* params_p, size_t length) { auto params = TRY(copy_from_process(params_p)); builder.add_arguments(StringArgument { params.path }, StringArgument { { params.buffer.data, min(params.buffer.size, length) } }); return {}; } static void format_exit(FormattedSyscallBuilder& builder, int status) { builder.add_argument(status); } struct OpenOptions : BitflagBase { static constexpr auto options = { BITFLAG(O_RDWR), BITFLAG(O_RDONLY), BITFLAG(O_WRONLY), BITFLAG(O_EXEC), BITFLAG(O_CREAT), BITFLAG(O_EXCL), BITFLAG(O_NOCTTY), BITFLAG(O_TRUNC), BITFLAG(O_APPEND), BITFLAG(O_NONBLOCK), BITFLAG(O_DIRECTORY), BITFLAG(O_NOFOLLOW), BITFLAG(O_CLOEXEC), BITFLAG(O_DIRECT) }; }; static ErrorOr format_open(FormattedSyscallBuilder& builder, Syscall::SC_open_params* params_p) { auto params = TRY(copy_from_process(params_p)); if (params.dirfd == AT_FDCWD) builder.add_argument("AT_FDCWD"); else builder.add_argument(params.dirfd); builder.add_arguments(StringArgument { params.path }, OpenOptions { params.options }); if (params.options & O_CREAT) builder.add_argument("{:04o}", params.mode); return {}; } static void format_ioctl(FormattedSyscallBuilder& builder, int fd, unsigned request, void* arg) { builder.add_arguments(fd, ioctl_request_name(request)); if (request == FIONBIO) { auto value = copy_from_process(reinterpret_cast(arg)); builder.add_argument(value.release_value_but_fixme_should_propagate_errors()); } else builder.add_argument(PointerArgument { arg }); } namespace AK { template<> struct Formatter : StandardFormatter { ErrorOr format(FormatBuilder& format_builder, struct timespec value) { auto& builder = format_builder.builder(); builder.appendff("{{tv_sec={}, tv_nsec={}}}", value.tv_sec, value.tv_nsec); return {}; } }; template<> struct Formatter : StandardFormatter { ErrorOr format(FormatBuilder& format_builder, struct timeval value) { auto& builder = format_builder.builder(); builder.appendff("{{tv_sec={}, tv_usec={}}}", value.tv_sec, value.tv_usec); return {}; } }; template<> struct Formatter : StandardFormatter { ErrorOr format(FormatBuilder& format_builder, struct stat value) { auto& builder = format_builder.builder(); builder.appendff( "{{st_dev={}, st_ino={}, st_mode={}, st_nlink={}, st_uid={}, st_gid={}, st_rdev={}, " "st_size={}, st_blksize={}, st_blocks={}, st_atim={}, st_mtim={}, st_ctim={}}}", value.st_dev, value.st_ino, value.st_mode, value.st_nlink, value.st_uid, value.st_gid, value.st_rdev, value.st_size, value.st_blksize, value.st_blocks, value.st_atim, value.st_mtim, value.st_ctim); return {}; } }; } static void format_chdir(FormattedSyscallBuilder& builder, char const* path_p, size_t length) { auto buf = copy_from_process(path_p, length); if (buf.is_error()) builder.add_arguments(buf.error()); else builder.add_arguments(StringView { buf.value().data(), buf.value().size() }); } static void format_fstat(FormattedSyscallBuilder& builder, int fd, struct stat* buf_p) { auto buf = copy_from_process(buf_p); builder.add_arguments(fd, buf.release_value_but_fixme_should_propagate_errors()); } static ErrorOr format_stat(FormattedSyscallBuilder& builder, Syscall::SC_stat_params* params_p) { auto params = TRY(copy_from_process(params_p)); if (params.dirfd == AT_FDCWD) builder.add_argument("AT_FDCWD"); else builder.add_argument(params.dirfd); builder.add_arguments(StringArgument { params.path }, TRY(copy_from_process(params.statbuf)), params.follow_symlinks); return {}; } static void format_lseek(FormattedSyscallBuilder& builder, int fd, off_t offset, int whence) { builder.add_arguments(fd, offset, whence_name(whence)); } static void format_read(FormattedSyscallBuilder& builder, int fd, void* buf, size_t nbyte) { builder.add_arguments(fd, buf, nbyte); } static void format_write(FormattedSyscallBuilder& builder, int fd, void* buf, size_t nbyte) { builder.add_arguments(fd, buf, nbyte); } static void format_close(FormattedSyscallBuilder& builder, int fd) { builder.add_arguments(fd); } static ErrorOr format_pledge(FormattedSyscallBuilder& builder, Syscall::SC_pledge_params* params_p) { auto params = TRY(copy_from_process(params_p)); builder.add_arguments( StringArgument { params.promises }, StringArgument { params.execpromises }); return {}; } static ErrorOr format_poll(FormattedSyscallBuilder& builder, Syscall::SC_poll_params* params_p) { // TODO: format fds and sigmask properly auto params = TRY(copy_from_process(params_p)); builder.add_arguments( params.nfds, PointerArgument { params.fds }, TRY(copy_from_process(params.timeout)), PointerArgument { params.sigmask }); return {}; } namespace AK { template<> struct Formatter : StandardFormatter { ErrorOr format(FormatBuilder& format_builder, struct sockaddr address) { auto& builder = format_builder.builder(); builder.append("{sa_family="sv); builder.append(domain_name(address.sa_family)); if (address.sa_family == AF_INET) { auto* address_in = (const struct sockaddr_in*)&address; builder.appendff( ", sin_port={}, sin_addr={}", address_in->sin_port, IPv4Address(address_in->sin_addr.s_addr).to_deprecated_string()); } else if (address.sa_family == AF_UNIX) { auto* address_un = (const struct sockaddr_un*)&address; builder.appendff( ", sun_path={}", address_un->sun_path); } builder.append('}'); return {}; } }; } static void format_socket(FormattedSyscallBuilder& builder, int domain, int type, int protocol) { // TODO: show additional options in type builder.add_arguments(domain_name(domain), socket_type_name(type & SOCK_TYPE_MASK), protocol_name(protocol)); } static void format_connect(FormattedSyscallBuilder& builder, int socket, const struct sockaddr* address_p, socklen_t address_len) { builder.add_arguments(socket, copy_from_process(address_p).release_value_but_fixme_should_propagate_errors(), address_len); } struct MsgOptions : BitflagBase { static constexpr auto options = { BITFLAG(MSG_TRUNC), BITFLAG(MSG_CTRUNC), BITFLAG(MSG_PEEK), BITFLAG(MSG_OOB), BITFLAG(MSG_DONTROUTE), BITFLAG(MSG_WAITALL), BITFLAG(MSG_DONTWAIT) }; }; static void format_recvmsg(FormattedSyscallBuilder& builder, int socket, struct msghdr* message, int flags) { // TODO: format message builder.add_arguments(socket, message, MsgOptions { flags }); } struct MmapFlags : BitflagBase { static constexpr auto options = { BITFLAG(MAP_SHARED), BITFLAG(MAP_PRIVATE), BITFLAG(MAP_FIXED), BITFLAG(MAP_ANONYMOUS), BITFLAG(MAP_RANDOMIZED), BITFLAG(MAP_STACK), BITFLAG(MAP_NORESERVE), BITFLAG(MAP_PURGEABLE), BITFLAG(MAP_FIXED_NOREPLACE) }; static constexpr StringView default_ = "MAP_FILE"sv; }; struct MemoryProtectionFlags : BitflagBase { static constexpr auto options = { BITFLAG(PROT_READ), BITFLAG(PROT_WRITE), BITFLAG(PROT_EXEC) }; static constexpr StringView default_ = "PROT_NONE"sv; }; static ErrorOr format_mmap(FormattedSyscallBuilder& builder, Syscall::SC_mmap_params* params_p) { auto params = TRY(copy_from_process(params_p)); builder.add_arguments(params.addr, params.size, MemoryProtectionFlags { params.prot }, MmapFlags { params.flags }, params.fd, params.offset, params.alignment, StringArgument { params.name }); return {}; } static void format_munmap(FormattedSyscallBuilder& builder, void* addr, size_t size) { builder.add_arguments(addr, size); } static void format_mprotect(FormattedSyscallBuilder& builder, void* addr, size_t size, int prot) { builder.add_arguments(addr, size, MemoryProtectionFlags { prot }); } static ErrorOr format_set_mmap_name(FormattedSyscallBuilder& builder, Syscall::SC_set_mmap_name_params* params_p) { auto params = TRY(copy_from_process(params_p)); builder.add_arguments(params.addr, params.size, StringArgument { params.name }); return {}; } static void format_clock_gettime(FormattedSyscallBuilder& builder, clockid_t clockid, struct timespec* time) { builder.add_arguments(clockid_name(clockid), copy_from_process(time).release_value_but_fixme_should_propagate_errors()); } static void format_dbgputstr(FormattedSyscallBuilder& builder, char* characters, size_t size) { builder.add_argument(StringArgument { { characters, size }, "\0\n"sv }); } static ErrorOr format_syscall(FormattedSyscallBuilder& builder, Syscall::Function syscall_function, syscall_arg_t arg1, syscall_arg_t arg2, syscall_arg_t arg3, syscall_arg_t res) { enum ResultType { Int, Ssize, VoidP, Void }; ResultType result_type { Int }; switch (syscall_function) { case SC_clock_gettime: format_clock_gettime(builder, (clockid_t)arg1, (struct timespec*)arg2); break; case SC_close: format_close(builder, (int)arg1); break; case SC_connect: format_connect(builder, (int)arg1, (const struct sockaddr*)arg2, (socklen_t)arg3); break; case SC_dbgputstr: format_dbgputstr(builder, (char*)arg1, (size_t)arg2); break; case SC_exit: format_exit(builder, (int)arg1); result_type = Void; break; case SC_fstat: format_fstat(builder, (int)arg1, (struct stat*)arg2); result_type = Ssize; break; case SC_chdir: format_chdir(builder, (char const*)arg1, (size_t)arg2); result_type = Int; break; case SC_getrandom: format_getrandom(builder, (void*)arg1, (size_t)arg2, (unsigned)arg3); break; case SC_ioctl: format_ioctl(builder, (int)arg1, (unsigned)arg2, (void*)arg3); break; case SC_lseek: format_lseek(builder, (int)arg1, (off_t)arg2, (int)arg3); break; case SC_mmap: TRY(format_mmap(builder, (Syscall::SC_mmap_params*)arg1)); result_type = VoidP; break; case SC_mprotect: format_mprotect(builder, (void*)arg1, (size_t)arg2, (int)arg3); break; case SC_munmap: format_munmap(builder, (void*)arg1, (size_t)arg2); break; case SC_open: TRY(format_open(builder, (Syscall::SC_open_params*)arg1)); break; case SC_pledge: TRY(format_pledge(builder, (Syscall::SC_pledge_params*)arg1)); break; case SC_poll: TRY(format_poll(builder, (Syscall::SC_poll_params*)arg1)); break; case SC_read: format_read(builder, (int)arg1, (void*)arg2, (size_t)arg3); result_type = Ssize; break; case SC_realpath: TRY(format_realpath(builder, (Syscall::SC_realpath_params*)arg1, (size_t)res)); break; case SC_recvmsg: format_recvmsg(builder, (int)arg1, (struct msghdr*)arg2, (int)arg3); result_type = Ssize; break; case SC_set_mmap_name: TRY(format_set_mmap_name(builder, (Syscall::SC_set_mmap_name_params*)arg1)); break; case SC_socket: format_socket(builder, (int)arg1, (int)arg2, (int)arg3); break; case SC_stat: TRY(format_stat(builder, (Syscall::SC_stat_params*)arg1)); break; case SC_write: format_write(builder, (int)arg1, (void*)arg2, (size_t)arg3); result_type = Ssize; break; case SC_getuid: case SC_geteuid: case SC_getgid: case SC_getegid: case SC_getpid: case SC_getppid: case SC_gettid: break; default: builder.add_arguments((void*)arg1, (void*)arg2, (void*)arg3); result_type = VoidP; } switch (result_type) { case Int: builder.format_result((int)res); break; case Ssize: builder.format_result((ssize_t)res); break; case VoidP: builder.format_result((void*)res); break; case Void: builder.format_result(); break; } return {}; } ErrorOr serenity_main(Main::Arguments arguments) { TRY(Core::System::pledge("stdio rpath wpath cpath proc exec ptrace sigaction")); Vector child_argv; StringView output_filename; StringView exclude_syscalls_option; StringView include_syscalls_option; HashTable exclude_syscalls; HashTable include_syscalls; Core::ArgsParser parser; parser.set_stop_on_first_non_option(true); parser.set_general_help( "Trace all syscalls and their result."); parser.add_option(g_pid, "Trace the given PID", "pid", 'p', "pid"); parser.add_option(output_filename, "Filename to write output to", "output", 'o', "output"); parser.add_option(exclude_syscalls_option, "Comma-delimited syscalls to exclude", "exclude", 'e', "exclude"); parser.add_option(include_syscalls_option, "Comma-delimited syscalls to include", "include", 'i', "include"); parser.add_positional_argument(child_argv, "Arguments to exec", "argument", Core::ArgsParser::Required::No); parser.parse(arguments); auto trace_file = output_filename.is_empty() ? TRY(Core::File::standard_error()) : TRY(Core::File::open(output_filename, Core::File::OpenMode::Write)); auto parse_syscalls = [](StringView option, auto& hash_table) { if (!option.is_empty()) { for (auto syscall : option.split_view(',')) hash_table.set(syscall); } }; parse_syscalls(exclude_syscalls_option, exclude_syscalls); parse_syscalls(include_syscalls_option, include_syscalls); TRY(Core::System::pledge("stdio rpath proc exec ptrace sigaction")); int status; if (g_pid == -1) { if (child_argv.is_empty()) return Error::from_string_literal("Expected either a pid or some arguments"); auto pid = TRY(Core::System::fork()); if (!pid) { TRY(Core::System::ptrace(PT_TRACE_ME, 0, 0, 0)); TRY(Core::System::exec(child_argv.first(), child_argv, Core::System::SearchInPath::Yes)); VERIFY_NOT_REACHED(); } g_pid = pid; if (waitpid(pid, &status, WSTOPPED | WEXITED) != pid || !WIFSTOPPED(status)) { perror("waitpid"); return 1; } } struct sigaction sa = {}; sa.sa_handler = handle_sigint; TRY(Core::System::sigaction(SIGINT, &sa, nullptr)); TRY(Core::System::ptrace(PT_ATTACH, g_pid, 0, 0)); if (waitpid(g_pid, &status, WSTOPPED | WEXITED) != g_pid || !WIFSTOPPED(status)) { perror("waitpid"); return 1; } for (;;) { TRY(Core::System::ptrace(PT_SYSCALL, g_pid, 0, 0)); if (waitpid(g_pid, &status, WSTOPPED | WEXITED) != g_pid || !WIFSTOPPED(status)) { perror("wait_pid"); return 1; } PtraceRegisters regs = {}; TRY(Core::System::ptrace(PT_GETREGS, g_pid, ®s, 0)); #if ARCH(X86_64) syscall_arg_t syscall_index = regs.rax; syscall_arg_t arg1 = regs.rdx; syscall_arg_t arg2 = regs.rcx; syscall_arg_t arg3 = regs.rbx; #elif ARCH(AARCH64) syscall_arg_t syscall_index = 0; // FIXME syscall_arg_t arg1 = 0; // FIXME syscall_arg_t arg2 = 0; // FIXME syscall_arg_t arg3 = 0; // FIXME TODO_AARCH64(); #else # error Unknown architecture #endif TRY(Core::System::ptrace(PT_SYSCALL, g_pid, 0, 0)); if (waitpid(g_pid, &status, WSTOPPED | WEXITED) != g_pid || !WIFSTOPPED(status)) { perror("wait_pid"); return 1; } TRY(Core::System::ptrace(PT_GETREGS, g_pid, ®s, 0)); #if ARCH(X86_64) u64 res = regs.rax; #elif ARCH(AARCH64) u64 res = 0; // FIXME TODO_AARCH64(); #else # error Unknown architecture #endif auto syscall_function = (Syscall::Function)syscall_index; auto syscall_name = to_string(syscall_function); if (exclude_syscalls.contains(syscall_name)) continue; if (!include_syscalls.is_empty() && !include_syscalls.contains(syscall_name)) continue; FormattedSyscallBuilder builder(syscall_name); TRY(format_syscall(builder, syscall_function, arg1, arg2, arg3, res)); TRY(trace_file->write_until_depleted(builder.string_view().bytes())); } }