#include "log.h" #include "mem.h" #include "ssb.db.h" #include "ssb.export.h" #include "ssb.h" #include "ssb.import.h" #include "task.h" #include "taskstub.js.h" #include "tests.h" #include "util.js.h" #include "backtrace.h" #include "sqlite3.h" #include "xopt.h" #include #include #if !defined(_WIN32) && !defined(__APPLE__) && !defined(__HAIKU__) #include #include #endif #if defined(__linux__) #include #endif #if defined(__APPLE__) #include #endif #if !defined(_WIN32) #include #endif #if !defined(_countof) #define _countof(a) ((int)(sizeof((a)) / sizeof(*(a)))) #endif struct backtrace_state* g_backtrace_state; const char* k_db_path_default = "db.sqlite"; #define XOPT_PARSE(name, flags, options, config_ptr, argc, argv, extrac_ptr, extrav_ptr, err_ptr, autohelp_file, autohelp_usage, autohelp_prefix, autohelp_suffix, autohelp_spacer) do { \ xoptContext *_xopt_ctx; \ *(err_ptr) = NULL; \ _xopt_ctx = xopt_context((name), (options), ((flags) ^ XOPT_CTX_POSIXMEHARDER), (err_ptr)); \ if (*(err_ptr)) break; \ *extrac_ptr = xopt_parse(_xopt_ctx, (argc), (argv), (config_ptr), (extrav_ptr), (err_ptr)); \ if ((config_ptr)->help) \ { \ xoptAutohelpOptions __xopt_autohelp_opts; \ __xopt_autohelp_opts.usage = (autohelp_usage); \ __xopt_autohelp_opts.prefix = (autohelp_prefix); \ __xopt_autohelp_opts.suffix = (autohelp_suffix); \ __xopt_autohelp_opts.spacer = (autohelp_spacer); \ xopt_autohelp(_xopt_ctx, (autohelp_file), &__xopt_autohelp_opts, (err_ptr)); \ if (*(err_ptr)) goto __xopt_end_free_extrav; \ free(_xopt_ctx); \ goto xopt_help; \ } \ if (*(err_ptr)) goto __xopt_end_free_ctx; \ __xopt_end_free_ctx: \ free(_xopt_ctx); \ break; \ __xopt_end_free_extrav: \ free(*(extrav_ptr)); \ free(_xopt_ctx); \ break; \ } while (false) #if !TARGET_OS_IPHONE && !defined(__ANDROID__) static int _tf_command_test(const char* file, int argc, char* argv[]); static int _tf_command_import(const char* file, int argc, char* argv[]); static int _tf_command_export(const char* file, int argc, char* argv[]); static int _tf_command_run(const char* file, int argc, char* argv[]); static int _tf_command_sandbox(const char* file, int argc, char* argv[]); static int _tf_command_check(const char* file, int argc, char* argv[]); static int _tf_command_usage(const char* file, int argc, char* argv[]); typedef struct _command_t { const char* name; int (*callback)(const char* file, int argc, char* argv[]); const char* description; } command_t; const command_t k_commands[] = { { "run", _tf_command_run, "Run tildefriends (default)." }, { "sandbox", _tf_command_sandbox, "Run a sandboxed tildefriends sandbox process (used internally)." }, { "import", _tf_command_import, "Import apps to SSB." }, { "export", _tf_command_export, "Export apps from SSB." }, { "test", _tf_command_test, "Test SSB." }, { "check", _tf_command_check, "Validate messages in the SSB database." }, }; static int _tf_command_test(const char* file, int argc, char* argv[]) { #if !defined(__ANDROID__) typedef struct args_t { const char* tests; bool help; } args_t; xoptOption options[] = { { "tests", 't', offsetof(args_t, tests), NULL, XOPT_TYPE_STRING, NULL, "Comma-separated list of test names to run." }, { "help", 'h', offsetof(args_t, help), NULL, XOPT_TYPE_BOOL, NULL, "Shows this help message." }, XOPT_NULLOPTION, }; args_t args = { 0 }; const char** extras = NULL; int extra_count = 0; const char *err = NULL; XOPT_PARSE(file, XOPT_CTX_KEEPFIRST | XOPT_CTX_STRICT, options, &args, argc, (const char**)argv, &extra_count, &extras, &err, stderr, "test [options]", "options:", NULL, 15); if (err) { fprintf(stderr, "Error: %s\n", err); return 2; } tf_test_options_t test_options = { .exe_path = file, .tests = args.tests, }; tf_tests(&test_options); if (extras) { free((void*)extras); } return 0; xopt_help: if (extras) { free((void*)extras); } #endif return 1; } static int _tf_command_import(const char* file, int argc, char* argv[]) { typedef struct args_t { const char* user; const char* db_path; bool help; } args_t; xoptOption options[] = { { "user", 'u', offsetof(args_t, user), NULL, XOPT_TYPE_STRING, NULL, "User into whose account apps will be imported (default: \"import\")." }, { "db-path", 'd', offsetof(args_t, db_path), NULL, XOPT_TYPE_STRING, NULL, "Sqlite database path (default: db.sqlite)." }, { "help", 'h', offsetof(args_t, help), NULL, XOPT_TYPE_BOOL, NULL, "Shows this help message." }, XOPT_NULLOPTION, }; args_t args = { .user = "import", .db_path = k_db_path_default }; const char** extras = NULL; int extra_count = 0; const char *err = NULL; XOPT_PARSE(file, XOPT_CTX_KEEPFIRST | XOPT_CTX_POSIXMEHARDER | XOPT_CTX_STRICT, options, &args, argc, (const char**)argv, &extra_count, &extras, &err, stderr, "import [options] [paths] ...", "options:", NULL, 15); if (err) { fprintf(stderr, "Error: %s\n", err); return 2; } tf_ssb_t* ssb = tf_ssb_create(NULL, NULL, args.db_path); if (extra_count) { for (int i = 0; i < extra_count; i++) { tf_printf("Importing %s...\n", extras[i]); tf_ssb_import(ssb, args.user, extras[i]); } } else { tf_printf("Importing %s...\n", "apps"); tf_ssb_import(ssb, args.user, "apps"); } tf_ssb_destroy(ssb); if (extras) { free((void*)extras); } return 0; xopt_help: if (extras) { free((void*)extras); } return 1; } static int _tf_command_export(const char* file, int argc, char* argv[]) { typedef struct args_t { const char* user; const char* db_path; bool help; } args_t; xoptOption options[] = { { "db-path", 'd', offsetof(args_t, db_path), NULL, XOPT_TYPE_STRING, NULL, "Sqlite database path (default: db.sqlite)." }, { "user", 'u', offsetof(args_t, user), NULL, XOPT_TYPE_STRING, NULL, "User into whose apps will be exported (default: \"core\")." }, { "help", 'h', offsetof(args_t, help), NULL, XOPT_TYPE_BOOL, NULL, "Shows this help message." }, XOPT_NULLOPTION, }; args_t args = { .user = "core", .db_path = k_db_path_default }; const char** extras = NULL; int extra_count = 0; const char *err = NULL; XOPT_PARSE(file, XOPT_CTX_KEEPFIRST | XOPT_CTX_POSIXMEHARDER | XOPT_CTX_STRICT, options, &args, argc, (const char**)argv, &extra_count, &extras, &err, stderr, "export [options] [paths] ...", "options:", NULL, 15); if (err) { fprintf(stderr, "Error: %s\n", err); return 2; } tf_ssb_t* ssb = tf_ssb_create(NULL, NULL, args.db_path); if (extra_count) { for (int i = 0; i < extra_count; i++) { tf_printf("Exporting %s...\n", extras[i]); tf_ssb_export(ssb, extras[i]); } } else { const char* k_export[] = { "admin", "api", "apps", "appstore", "db", "docs", "follow", "ssb", "todo", }; for (int i = 0; i < (int)_countof(k_export); i++) { char buffer[256]; snprintf(buffer, sizeof(buffer), "/~%s/%s", args.user, k_export[i]); tf_printf("Exporting %s...\n", buffer); tf_ssb_export(ssb, buffer); } } tf_ssb_destroy(ssb); if (extras) { free((void*)extras); } return 0; xopt_help: if (extras) { free((void*)extras); } return 1; } #endif typedef struct tf_run_args_t { const char* script; int ssb_port; int http_port; int https_port; const char* db_path; int count; const char* args; const char* zip; bool one_proc; bool verbose; bool help; } tf_run_args_t; typedef struct _tf_run_thread_data_t { tf_run_args_t args; int index; int result; } tf_run_thread_data_t; static int _tf_run_task(const tf_run_args_t* args, int index) { int result = -1; tf_task_t* task = tf_task_create(); tf_task_set_trusted(task, true); tf_printf("setting zip path to %s\n", args->zip); tf_task_set_zip_path(task, args->zip); tf_task_set_ssb_port(task, args->ssb_port ? args->ssb_port + index : 0); tf_task_set_http_port(task, args->http_port ? args->http_port + index : 0); tf_task_set_https_port(task, args->https_port ? args->https_port + index : 0); tf_task_set_args(task, args->args); tf_task_set_one_proc(task, args->one_proc); const char* db_path = args->db_path; char db_path_buffer[256]; if (index) { snprintf(db_path_buffer, sizeof(db_path_buffer), "%s.%d", args->db_path, index); db_path = db_path_buffer; } tf_task_set_db_path(task, db_path); tf_task_activate(task); tf_ssb_set_verbose(tf_task_get_ssb(task), args->verbose); tf_ssb_start_periodic(tf_task_get_ssb(task)); if (args->zip) { tf_ssb_import_from_zip(tf_task_get_ssb(task), args->zip, "core", "apps"); } else { tf_ssb_import(tf_task_get_ssb(task), "core", "apps"); } if (tf_task_execute(task, args->script)) { tf_task_run(task); result = 0; } tf_task_destroy(task); tf_printf("_tf_run_task is done. Goodbye.\n"); return result; } static void _tf_run_task_thread(void* data) { tf_run_thread_data_t* info = data; info->result = _tf_run_task(&info->args, info->index); } #if !TARGET_OS_IPHONE static void _shed_privileges() { #if !defined(_WIN32) && !defined(__HAIKU__) struct rlimit zeroLimit; zeroLimit.rlim_cur = 0; zeroLimit.rlim_max = 0; // RLIMIT_AS // RLIMIT_CORE // RLIMIT_CPU // RLIMIT_DATA // RLIMIT_FSIZE // RLIMIT_RSS // RLIMIT_RTPRIO // RLIMIT_RTTIME // RLIMIT_SIGPENDING // RLIMIT_STACK if (setrlimit(RLIMIT_FSIZE, &zeroLimit) != 0) { perror("setrlimit(RLIMIT_FSIZE, {0, 0})"); exit(-1); } if (setrlimit(RLIMIT_NOFILE, &zeroLimit) != 0) { perror("setrlimit(RLIMIT_NOFILE, {0, 0})"); exit(-1); } if (setrlimit(RLIMIT_NPROC, &zeroLimit) != 0) { perror("setrlimit(RLIMIT_NPROC, {0, 0})"); exit(-1); } #if !defined(__MACH__) && !defined(__OpenBSD__) if (setrlimit(RLIMIT_LOCKS, &zeroLimit) != 0) { perror("setrlimit(RLIMIT_LOCKS, {0, 0})"); exit(-1); } if (setrlimit(RLIMIT_MSGQUEUE, &zeroLimit) != 0) { perror("setrlimit(RLIMIT_MSGQUEUE, {0, 0})"); exit(-1); } #endif #endif } static int _tf_command_run(const char* file, int argc, char* argv[]) { xoptOption options[] = { { "script", 's', offsetof(tf_run_args_t, script), NULL, XOPT_TYPE_STRING, NULL, "Script to run (default: core/core.js)." }, { "ssb-port", 'b', offsetof(tf_run_args_t, ssb_port), NULL, XOPT_TYPE_INT, NULL, "Port on which to run SSB (default: 8008)." }, { "http-port", 'p', offsetof(tf_run_args_t, http_port), NULL, XOPT_TYPE_INT, NULL, "Port on which to run Tilde Friends web server (default: 12345)." }, { "https-port", 'q', offsetof(tf_run_args_t, https_port), NULL, XOPT_TYPE_INT, NULL, "Port on which to run secure Tilde Friends web server (default: 12346)." }, { "db-path", 'd', offsetof(tf_run_args_t, db_path), NULL, XOPT_TYPE_STRING, NULL, "Sqlite database path (default: db.sqlite)." }, { "count", 'n', offsetof(tf_run_args_t, count), NULL, XOPT_TYPE_INT, NULL, "Number of instances to run." }, { "args", 'a', offsetof(tf_run_args_t, args), NULL, XOPT_TYPE_STRING, NULL, "Arguments of the form key=value,foo=bar,verbose=true." }, { "one-proc", 'o', offsetof(tf_run_args_t, one_proc), NULL, XOPT_TYPE_BOOL, NULL, "Run everything in one process (unsafely!)." }, { "zip", 'z', offsetof(tf_run_args_t, zip), NULL, XOPT_TYPE_STRING, NULL, "Zip archive from which to load files." }, { "verbose", 'v', offsetof(tf_run_args_t, verbose), NULL, XOPT_TYPE_BOOL, NULL, "Log raw messages." }, { "help", 'h', offsetof(tf_run_args_t, help), NULL, XOPT_TYPE_BOOL, NULL, "Shows this help message." }, XOPT_NULLOPTION, }; tf_run_args_t args = { .count = 1, .script = "core/core.js", .http_port = 12345, .https_port = 12346, .ssb_port = 8008, .db_path = k_db_path_default, }; const char** extras = NULL; int extra_count = 0; const char *err = NULL; XOPT_PARSE(file, XOPT_CTX_KEEPFIRST | XOPT_CTX_POSIXMEHARDER | XOPT_CTX_STRICT, options, &args, argc, (const char**)argv, &extra_count, &extras, &err, stderr, "run [options] [paths] ...", "options:", NULL, 15); if (err) { fprintf(stderr, "Error: %s\n", err); return 2; } int result = 0; #if !defined(_WIN32) && !defined(__MACH__) setpgid(0, 0); #endif if (args.count == 1) { _tf_run_task(&args, 0); } if (args.count > 1) { uv_thread_t* threads = tf_malloc(sizeof(uv_thread_t) * args.count); tf_run_thread_data_t* data = tf_malloc(sizeof(tf_run_thread_data_t) * args.count); for (int i = 0 ; i < args.count; i++) { data[i] = (tf_run_thread_data_t) { .args = args, .index = i, }; uv_thread_create(&threads[i], _tf_run_task_thread, &data[i]); } for (int i = 0; i < args.count; i++) { uv_thread_join(&threads[i]); if (data[i].result != 0) { result = data[i].result; } } tf_free(data); tf_free(threads); } if (extras) { free((void*)extras); } return result; xopt_help: if (extras) { free((void*)extras); } return 1; } static int _tf_command_sandbox(const char* file, int argc, char* argv[]) { typedef struct args_t { const char* script; bool help; } args_t; xoptOption options[] = { { "help", 'h', offsetof(args_t, help), NULL, XOPT_TYPE_BOOL, NULL, "Shows this help message." }, XOPT_NULLOPTION, }; args_t args = { 0 }; const char** extras = NULL; int extra_count = 0; const char *err = NULL; XOPT_PARSE(file, XOPT_CTX_KEEPFIRST | XOPT_CTX_POSIXMEHARDER | XOPT_CTX_STRICT, options, &args, argc, (const char**)argv, &extra_count, &extras, &err, stderr, "sandbox [options]", "options:", NULL, 15); if (err) { fprintf(stderr, "Error: %s\n", err); return 2; } #if defined(__linux__) prctl(PR_SET_PDEATHSIG, SIGHUP); #endif tf_task_t* task = tf_task_create(); tf_task_configure_from_fd(task, STDIN_FILENO); _shed_privileges(); /* The caller will trigger tf_task_activate with a message. */ tf_task_run(task); tf_task_destroy(task); if (extras) { free((void*)extras); } return 0; xopt_help: if (extras) { free((void*)extras); } return 1; } #if !defined(__ANDROID__) static int _tf_command_check(const char* file, int argc, char* argv[]) { typedef struct args_t { bool help; } args_t; xoptOption options[] = { { "help", 'h', offsetof(args_t, help), NULL, XOPT_TYPE_BOOL, NULL, "Shows this help message." }, XOPT_NULLOPTION, }; args_t args = { 0 }; const char** extras = NULL; int extra_count = 0; const char *err = NULL; XOPT_PARSE(file, XOPT_CTX_KEEPFIRST | XOPT_CTX_STRICT, options, &args, argc, (const char**)argv, &extra_count, &extras, &err, stderr, "check [options]", "options:", NULL, 15); if (err) { fprintf(stderr, "Error: %s\n", err); return 2; } bool result = true; sqlite3* db = NULL; sqlite3_open(k_db_path_default, &db); if (extra_count) { for (int i = 0; i < extra_count; i++) { result = result && tf_ssb_db_check(db, extras[i]); } } else { result = tf_ssb_db_check(db, NULL); } sqlite3_close(db); if (extras) { free((void*)extras); } return result ? EXIT_SUCCESS : EXIT_FAILURE; xopt_help: if (extras) { free((void*)extras); } return 1; } static int _tf_command_usage(const char* file, int argc, char* argv[]) { tf_printf("Usage: %s command [command-options]\n", file); tf_printf("commands:\n"); for (int i = 0; i < (int)_countof(k_commands); i++) { tf_printf(" %s - %s\n", k_commands[i].name, k_commands[i].description); } return 0; } #endif #endif static void _backtrace_error(void* data, const char* message, int errnum) { tf_printf("libbacktrace error %d: %s\n", errnum, message); } static void _error_handler(int sig) { const char* stack = tf_util_backtrace_string(); tf_printf("ERROR:\n%s\n", stack); tf_free((void*)stack); _exit(1); } static void _startup(int argc, char* argv[]) { bool tracking = false; for (int i = 1; i < argc; i++) { if (strcmp(argv[i], "sandbox") == 0) { tracking = false; } } #if defined(__ANDROID__) setenv("UV_USE_IO_URING", "0", 1); #endif tf_mem_startup(tracking); g_backtrace_state = backtrace_create_state( argv[0], 0, _backtrace_error, NULL); #if defined(__linux__) prctl(PR_SET_PDEATHSIG, SIGKILL); #endif tf_mem_replace_uv_allocator(); tf_mem_replace_tls_allocator(); tf_mem_replace_sqlite_allocator(); uv_setup_args(argc, argv); tf_taskstub_startup(); #if !defined(_WIN32) if (signal(SIGPIPE, SIG_IGN) == SIG_ERR) { perror("signal"); } #endif bool use_error_handler = false; #if defined(__ANDROID__) use_error_handler = true; #endif if (use_error_handler) { if ( #if !defined(_WIN32) signal(SIGSYS, _error_handler) == SIG_ERR || #endif signal(SIGSEGV, _error_handler) == SIG_ERR) { perror("signal"); } } } #if defined(__ANDROID__) int main(int argc, char* argv[]) { _startup(argc, argv); int result = -1; if (argc > 1) { if (strcmp(argv[1], "run") == 0) { result = _tf_command_run(argv[0], argc - 2, argv + 2); } else if (strcmp(argv[1], "sandbox") == 0) { result = _tf_command_sandbox(argv[0], argc - 2, argv + 2); } } tf_mem_shutdown(); return result; } #elif TARGET_OS_IPHONE void tf_run_thread_start(const char* zip_path) { _startup(0, NULL); uv_thread_t* thread = tf_malloc(sizeof(uv_thread_t)); tf_run_thread_data_t* data = tf_malloc(sizeof(tf_run_thread_data_t)); tf_run_args_t args = { .count = 1, .script = "core/core.js", .http_port = 12345, .https_port = 12346, .ssb_port = 8008, .db_path = k_db_path_default, .one_proc = true, .zip = zip_path, }; *data = (tf_run_thread_data_t) { .args = args, }; uv_thread_create(thread, _tf_run_task_thread, data); #if 0 uv_thread_join(&threads[i]); if (data[i].result != 0) { result = data[i].result; } tf_free(data); tf_free(threads); #endif } #else int main(int argc, char* argv[]) { _startup(argc, argv); int result = 0; if (argc >= 2) { for (int i = 0; i < (int)_countof(k_commands); i++) { const command_t* command = &k_commands[i]; if (strcmp(argv[1], command->name) == 0) { result = command->callback(argv[0], argc - 2, argv + 2); goto done; } } result = _tf_command_usage(argv[0], argc, argv); } else { result = _tf_command_run(argv[0], argc - 1, argv + 1); } done: tf_mem_shutdown(); return result; } #endif