/* * Copyright (c) 2018-2020, Andreas Kling * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #define SC_NARG 4 FlatPtr arg[SC_NARG]; char outbuf[BUFSIZ]; using Arguments = Vector; using ArgIter = Arguments::Iterator; static FlatPtr parse_from(ArgIter&); template<> struct AK::Formatter : Formatter { void format(FormatBuilder& builder, Syscall::Function function) { return Formatter::format(builder, to_string(function)); } }; int main(int argc, char** argv) { bool output_buffer = false; bool list_syscalls = false; Vector arguments; Core::ArgsParser args_parser; args_parser.set_general_help( "Enables you to do a direct syscall, even those that use a 'SC_*_params' buffer.\n" "Arguments can be literal strings, numbers, the output buffer, or parameter buffers:\n" " - Arguments that begin with a comma are stripped of the comma and treated as string arguments, for example ',0x0' or ',['.\n" " - 'buf' is replaced by a pointer to the output buffer.\n" " - Numbers can be written like 1234 or 0xDEADC0DE.\n" " - Parameter buffer (e.g. SC_realpath_params) can be passed by wrapping them in '[' and ']'. Note that '[' and ']' must be separate arguments to syscall(1). Buffers can be used recursively.\n" " - The first argument may also be any syscall function name. Run 'syscall -l' to see the list.\n" " - Arguments that cannot be interpreted are treated as string arguments, for example 'Hello, friends!'.\n" "\n" "Full example: syscall -o realpath [ /usr/share/man/man2/getgid.md 1024 buf 1024 ]"); args_parser.add_option(list_syscalls, "List all existing syscalls, and exit", "list-syscalls", 'l'); args_parser.add_option(output_buffer, "Output the contents of the buffer (beware of stray zero bytes!)", "output-buffer", 'o'); args_parser.add_positional_argument(arguments, "Syscall arguments; see general help.", "syscall-arguments", Core::ArgsParser::Required::No); args_parser.parse(argc, argv); if (list_syscalls) { outln("syscall list:"); for (int sc = 0; sc < Syscall::Function::__Count; ++sc) { outln(" \033[33;1m{}\033[0m - {}", sc, static_cast(sc)); } exit(0); } if (arguments.is_empty()) { args_parser.print_usage(stderr, argv[0]); exit(1); } ArgIter iter = arguments.begin(); for (size_t i = 0; i < SC_NARG && !iter.is_end(); i++) { arg[i] = parse_from(iter); } if (!iter.is_end()) { warnln("Too many arguments (did you want to use '[ parameter buffers ]'?)"); return -1; } if (arg[0] > Syscall::Function::__Count) { for (int sc = 0; sc < Syscall::Function::__Count; ++sc) { if (Syscall::to_string((Syscall::Function)sc) == (char const*)arg[0]) { arg[0] = sc; break; } } if (arg[0] > Syscall::Function::__Count) { warnln("Invalid syscall entry {}", (char*)arg[0]); return -1; } } dbgln_if(SYSCALL_1_DEBUG, "Calling {} {:p} {:p} {:p}\n", arg[0], arg[1], arg[2], arg[3]); int rc = syscall(arg[0], arg[1], arg[2], arg[3]); if (rc == -1) perror("syscall"); if (output_buffer) fwrite(outbuf, 1, sizeof(outbuf), stdout); warnln("Syscall return: {}", rc); return 0; } static FlatPtr as_buf(Vector params_vec) { size_t params_size = sizeof(FlatPtr) * params_vec.size(); size_t buf_size = round_up_to_power_of_two(params_size + 1, PAGE_SIZE); void* buf = mmap(nullptr, buf_size, PROT_READ | PROT_WRITE, MAP_ANON | MAP_PRIVATE, 0, 0); if (buf == MAP_FAILED) { fprintf(stderr, "Warning: Could not allocate buffer of size %zu (low memory?)\n", buf_size); exit(1); } // It's probably good to ensure zero-initialization. memset(buf, 0, buf_size); memcpy(buf, params_vec.data(), params_size); if constexpr (SYSCALL_1_DEBUG) { StringBuilder builder; builder.append("Prepared ["); for (size_t i = 0; i < params_vec.size(); ++i) { builder.appendff(" {:p}", params_vec[i]); } builder.appendff(" ] at {:p}", (FlatPtr)buf); dbgln("{}", builder.to_string()); } // Leak the buffer here. We need to keep it until the special syscall happens, // and we terminate immediately afterwards anyway. return (FlatPtr)buf; } static FlatPtr parse_parameter_buffer(ArgIter& iter) { Vector params_vec; while (!iter.is_end()) { if (strcmp(*iter, "]") == 0) { ++iter; return as_buf(params_vec); } params_vec.append(parse_from(iter)); } fprintf(stderr, "Error: Unmatched '['?!\n"); exit(1); VERIFY_NOT_REACHED(); } static FlatPtr parse_from(ArgIter& iter) { const char* this_arg = *iter; ++iter; // Is it a forced literal? if (this_arg[0] == ',') { this_arg += 1; dbgln_if(SYSCALL_1_DEBUG, "Using (forced) string >>{}<< at {:p}", this_arg, (FlatPtr)this_arg); return (FlatPtr)this_arg; } // Is it the output buffer? if (strcmp(this_arg, "buf") == 0) return (FlatPtr)outbuf; // Is it a parameter buffer? if (strcmp(this_arg, "[") == 0) return parse_parameter_buffer(iter); // Is it a number? char* endptr = nullptr; FlatPtr l = strtoul(this_arg, &endptr, 0); if (*endptr == 0) { return l; } // Then it must be a string: if (strcmp(this_arg, "]") == 0) fprintf(stderr, "Warning: Treating unmatched ']' as literal string\n"); dbgln_if(SYSCALL_1_DEBUG, "Using (detected) string >>{}<< at {:p}", this_arg, (FlatPtr)this_arg); return (FlatPtr)this_arg; }