/* * This file is part of mpv. * * mpv is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * mpv is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with mpv. If not, see . */ #include #include #include #include #include #include #include #include "osdep/io.h" #include "mpv_talloc.h" #include "common/common.h" #include "options/m_property.h" #include "common/msg.h" #include "common/msg_control.h" #include "common/stats.h" #include "options/m_option.h" #include "input/input.h" #include "options/path.h" #include "misc/bstr.h" #include "osdep/timer.h" #include "osdep/threads.h" #include "stream/stream.h" #include "sub/osd.h" #include "core.h" #include "command.h" #include "client.h" #include "libmpv/client.h" // List of builtin modules and their contents as strings. // All these are generated from player/javascript/*.js static const char *const builtin_files[][3] = { {"@/defaults.js", # include "player/javascript/defaults.js.inc" }, {0} }; // Represents a loaded script. Each has its own js state. struct script_ctx { const char *filename; const char *path; // NULL if single file struct mpv_handle *client; struct MPContext *mpctx; struct mp_log *log; char *last_error_str; size_t js_malloc_size; struct stats_ctx *stats; }; static struct script_ctx *jctx(js_State *J) { return (struct script_ctx *)js_getcontext(J); } static mpv_handle *jclient(js_State *J) { return jctx(J)->client; } static void pushnode(js_State *J, mpv_node *node); static void makenode(void *ta_ctx, mpv_node *dst, js_State *J, int idx); static int jsL_checkint(js_State *J, int idx); static uint64_t jsL_checkuint64(js_State *J, int idx); /********************************************************************** * conventions, MuJS notes and vm errors *********************************************************************/ // - push_foo functions are called from C and push a value to the vm stack. // // - JavaScript C functions are code which the vm can call as a js function. // By convention, script_bar and script__baz are js C functions. The former // is exposed to end users as bar, and _baz is for internal use. // // - js C functions get a fresh vm stack with their arguments, and may // manipulate their stack as they see fit. On exit, the vm considers the // top value of their stack as their return value, and GC the rest. // // - js C function's stack[0] is "this", and the rest (1, 2, ...) are the args. // On entry the stack has at least the number of args defined for the func, // padded with undefined if called with less, or bigger if called with more. // // - Almost all vm APIs (js_*) may throw an error - a longjmp to the last // recovery/catch point, which could skip releasing resources. This includes // js_try itself(!), except at the outer-most [1] js_try which is always // entering the try part (and the catch part if the try part throws). // The assumption should be that anything can throw and needs careful setup. // One such automated setup is the autofree mechanism. Details later. // // - Unless named s_foo, all the functions at this file (inc. init) which // touch the vm may throw, but either cleanup resources regardless (mostly // autofree) or leave allocated resources on caller-provided talloc context // which the caller should release, typically with autofree (e.g. makenode). // // - Functions named s_foo (safe foo) never throw if called at the outer-most // try-levels, or, inside JS C functions - never throw after allocating. // If they didn't throw then they return 0 on success, 1 on js-errors. // // [1] In practice the N outer-most (nested) tries are guaranteed to enter the // try/carch code, where N is the mujs try-stack size (64 with mujs 1.1.3). // But because we can't track try-level at (called-back) JS C functions, // it's only guaranteed when we know we're near the outer-most try level. /********************************************************************** * mpv scripting API error handling *********************************************************************/ // - Errors may be thrown on some cases - the reason is at the exception. // // - Some APIs also set last error which can be fetched with mp.last_error(), // where empty string (false-y) is success, or an error string otherwise. // // - The rest of the APIs are guaranteed to return undefined on error or a // true-thy value on success and may or may not set last error. // // - push_success, push_failure, push_status and pushed_error set last error. // iserr as true indicates an error, and if so, str may indicate a reason. // Internally ctx->last_error_str is never NULL, and empty indicates success. static void set_last_error(struct script_ctx *ctx, bool iserr, const char *str) { ctx->last_error_str[0] = 0; if (!iserr) return; if (!str || !str[0]) str = "Error"; ctx->last_error_str = talloc_strdup_append(ctx->last_error_str, str); } // For use only by wrappers at defaults.js. // arg: error string. Use empty string to indicate success. static void script__set_last_error(js_State *J) { const char *e = js_tostring(J, 1); set_last_error(jctx(J), e[0], e); } // mp.last_error() . args: none. return the last error without modifying it. static void script_last_error(js_State *J) { js_pushstring(J, jctx(J)->last_error_str); } // Generic success for APIs which don't return an actual value. static void push_success(js_State *J) { set_last_error(jctx(J), 0, NULL); js_pushboolean(J, true); } // Doesn't (intentionally) throw. Just sets last_error and pushes undefined static void push_failure(js_State *J, const char *str) { set_last_error(jctx(J), 1, str); js_pushundefined(J); } // Most of the scripting APIs are either sending some values and getting status // code in return, or requesting some value while providing a default in case an // error happened. These simplify the C code for that and always set last_error. static void push_status(js_State *J, int err) { if (err >= 0) { push_success(J); } else { push_failure(J, mpv_error_string(err)); } } // If err is success then return 0, else push the item at def and return 1 static bool pushed_error(js_State *J, int err, int def) { bool iserr = err < 0; set_last_error(jctx(J), iserr, iserr ? mpv_error_string(err) : NULL); if (!iserr) return false; js_copy(J, def); return true; } /********************************************************************** * Autofree - care-free resource deallocation on vm errors, and otherwise *********************************************************************/ // - Autofree (af) functions are called with a talloc context argument which is // freed after the function exits - either normally or because it threw an // error, on the latter case it then re-throws the error after the cleanup. // // Autofree js C functions should have an additional void* talloc arg and // inserted into the vm using af_newcfunction, but otherwise used normally. // // To wrap an autofree function af_TARGET in C: // 1. Create a wrapper s_TARGET which does this: // if (js_try(J)) // return 1; // *af = talloc_new(NULL); // af_TARGET(J, ..., *af); // js_endtry(J); // return 0; // 2. Use s_TARGET like so (frees if allocated, throws if {s,af}_TARGET threw): // void *af = NULL; // int r = s_TARGET(J, ..., &af); // use J, af where the callee expects. // talloc_free(af); // if (r) // js_throw(J); // // The reason that the allocation happens inside try/catch is that js_try // itself can throw (if it runs out of try-stack) and therefore the code // inside the try part is not reached - but neither is the catch part(!), // and instead it throws to the next outer catch - but before we've allocated // anything, hence no leaks on such case. If js_try did get entered, then the // allocation happened, and then if af_TARGET threw then s_TARGET will catch // it (and return 1) and we'll free if afterwards. // add_af_file, add_af_dir, add_af_mpv_alloc take a valid FILE*/DIR*/char* value // respectively, and fclose/closedir/mpv_free it when the parent is freed. static void destruct_af_file(void *p) { fclose(*(FILE**)p); } static void add_af_file(void *parent, FILE *f) { FILE **pf = talloc(parent, FILE*); *pf = f; talloc_set_destructor(pf, destruct_af_file); } static void destruct_af_dir(void *p) { closedir(*(DIR**)p); } static void add_af_dir(void *parent, DIR *d) { DIR **pd = talloc(parent, DIR*); *pd = d; talloc_set_destructor(pd, destruct_af_dir); } static void destruct_af_mpv_alloc(void *p) { mpv_free(*(char**)p); } static void add_af_mpv_alloc(void *parent, char *ma) { char **p = talloc(parent, char*); *p = ma; talloc_set_destructor(p, destruct_af_mpv_alloc); } static void destruct_af_mpv_node(void *p) { mpv_free_node_contents((mpv_node*)p); // does nothing for MPV_FORMAT_NONE } // returns a new zeroed allocated struct mpv_node, and free it and its content // when the parent is freed. static mpv_node *new_af_mpv_node(void *parent) { mpv_node *p = talloc_zero(parent, mpv_node); // .format == MPV_FORMAT_NONE talloc_set_destructor(p, destruct_af_mpv_node); return p; } // Prototype for autofree functions which can be called from inside the vm. typedef void (*af_CFunction)(js_State*, void*); // safely run autofree js c function directly static int s_run_af_jsc(js_State *J, af_CFunction fn, void **af) { if (js_try(J)) return 1; *af = talloc_new(NULL); fn(J, *af); js_endtry(J); return 0; } // The trampoline function through which all autofree functions are called from // inside the vm. Obtains the target function address and autofree-call it. static void script__autofree(js_State *J) { // The target function is at the "af_" property of this function instance. js_currentfunction(J); js_getproperty(J, -1, "af_"); af_CFunction fn = (af_CFunction)js_touserdata(J, -1, "af_fn"); js_pop(J, 2); void *af = NULL; int r = s_run_af_jsc(J, fn, &af); talloc_free(af); if (r) js_throw(J); } // Identical to js_newcfunction, but the function is inserted with an autofree // wrapper, and its prototype should have the additional af argument. static void af_newcfunction(js_State *J, af_CFunction fn, const char *name, int length) { js_newcfunction(J, script__autofree, name, length); js_pushnull(J); // a prototype for the userdata object js_newuserdata(J, "af_fn", fn, NULL); // uses a "af_fn" verification tag js_defproperty(J, -2, "af_", JS_READONLY | JS_DONTENUM | JS_DONTCONF); } /********************************************************************** * Initialization and file loading *********************************************************************/ static const char *get_builtin_file(const char *name) { for (int n = 0; builtin_files[n][0]; n++) { if (strcmp(builtin_files[n][0], name) == 0) return builtin_files[n][1]; } return NULL; } // Push up to limit bytes of file fname: from builtin_files, else from the OS. static void af_push_file(js_State *J, const char *fname, int limit, void *af) { char *filename = mp_get_user_path(af, jctx(J)->mpctx->global, fname); MP_VERBOSE(jctx(J), "Reading file '%s'\n", filename); if (limit < 0) limit = INT_MAX - 1; const char *builtin = get_builtin_file(filename); if (builtin) { js_pushlstring(J, builtin, MPMIN(limit, strlen(builtin))); return; } // mp.utils.read_file allows partial read up to limit which results in // error for stream_read_file if the file is larger than limit, so use // STREAM_ALLOW_PARTIAL_READ to allow reading returning partial results. // Additionally, disable error logging by stream since the exception // can be caught and handled by a JS script. int flags = STREAM_READ_FILE_FLAGS_DEFAULT | STREAM_ALLOW_PARTIAL_READ | STREAM_SILENT; bstr data = stream_read_file2(filename, af, flags, jctx(J)->mpctx->global, limit); if (data.start) { js_pushlstring(J, data.start, data.len); } else { js_error(J, "cannot open file: '%s'", filename); } } // Safely run af_push_file. static int s_push_file(js_State *J, const char *fname, int limit, void **af) { if (js_try(J)) return 1; *af = talloc_new(NULL); af_push_file(J, fname, limit, *af); js_endtry(J); return 0; } // Called directly, push up to limit bytes of file fname (from builtin/os). static void push_file_content(js_State *J, const char *fname, int limit) { void *af = NULL; int r = s_push_file(J, fname, limit, &af); talloc_free(af); if (r) js_throw(J); } // utils.read_file(..). args: fname [,max]. returns [up to max] bytes as string. static void script_read_file(js_State *J) { int limit = js_isundefined(J, 2) ? -1 : jsL_checkint(J, 2); push_file_content(J, js_tostring(J, 1), limit); } // Runs a file with the caller's this, leaves the stack as is. static void run_file(js_State *J, const char *fname) { MP_VERBOSE(jctx(J), "Loading file %s\n", fname); push_file_content(J, fname, -1); js_loadstring(J, fname, js_tostring(J, -1)); js_copy(J, 0); // use the caller's this js_call(J, 0); js_pop(J, 2); // result, file content } // The spec defines .name and .message for Error objects. Most engines also set // a very convenient .stack = name + message + trace, but MuJS instead sets // .stackTrace = trace only. Normalize by adding such .stack if required. // Run this before anything such that we can get traces on any following errors. static const char *norm_err_proto_js = "\ if (Error().stackTrace && !Error().stack) {\ Object.defineProperty(Error.prototype, 'stack', {\ get: function() {\ return this.name + ': ' + this.message + this.stackTrace;\ }\ });\ }\ "; static void add_functions(js_State*, struct script_ctx*); // args: none. called as script, setup and run the main script static void script__run_script(js_State *J) { js_loadstring(J, "@/norm_err.js", norm_err_proto_js); js_copy(J, 0); js_pcall(J, 0); struct script_ctx *ctx = jctx(J); add_functions(J, ctx); run_file(J, "@/defaults.js"); run_file(J, ctx->filename); // the main file to run if (!js_hasproperty(J, 0, "mp_event_loop") || !js_iscallable(J, -1)) js_error(J, "no event loop function"); js_copy(J, 0); js_call(J, 0); // mp_event_loop } // Safely set last error from stack top: stack trace or toString or generic. // May leave items on stack - the caller should detect and pop if it cares. static void s_top_to_last_error(struct script_ctx *ctx, js_State *J) { set_last_error(ctx, 1, "unknown error"); if (js_try(J)) return; if (js_isobject(J, -1)) js_hasproperty(J, -1, "stack"); // fetches it if exists set_last_error(ctx, 1, js_tostring(J, -1)); js_endtry(J); } // MuJS can report warnings through this. static void report_handler(js_State *J, const char *msg) { MP_WARN(jctx(J), "[JS] %s\n", msg); } // Safely setup the js vm for calling run_script. static int s_init_js(js_State *J, struct script_ctx *ctx) { if (js_try(J)) return 1; js_setcontext(J, ctx); js_setreport(J, report_handler); js_newcfunction(J, script__run_script, "run_script", 0); js_pushglobal(J); // 'this' for script__run_script js_endtry(J); return 0; } static void *mp_js_alloc(void *actx, void *ptr, int size_) { if (size_ < 0) return NULL; struct script_ctx* ctx = actx; size_t size = size_, osize = 0; if (ptr) // free/realloc osize = ta_get_size(ptr); void *ret = talloc_realloc_size(actx, ptr, size); if (!size || ret) { // free / successful realloc/malloc ctx->js_malloc_size = ctx->js_malloc_size - osize + size; stats_size_value(ctx->stats, "mem", ctx->js_malloc_size); } return ret; } /********************************************************************** * Initialization - booting the script *********************************************************************/ // s_load_javascript: (entry point) creates the js vm, runs the script, returns // on script exit or uncaught js errors. Never throws. // script__run_script: - loads the built in functions and vars into the vm // - runs the default file[s] and the main script file // - calls mp_event_loop, returns on script-exit or throws. // // Note: init functions don't need autofree. They can use ctx as a talloc // context and free normally. If they throw - ctx is freed right afterwards. static int s_load_javascript(struct mp_script_args *args) { struct script_ctx *ctx = talloc_ptrtype(NULL, ctx); *ctx = (struct script_ctx) { .client = args->client, .mpctx = args->mpctx, .log = args->log, .last_error_str = talloc_strdup(ctx, "Cannot initialize JavaScript"), .filename = args->filename, .path = args->path, .js_malloc_size = 0, .stats = stats_ctx_create(ctx, args->mpctx->global, mp_tprintf(80, "script/%s", mpv_client_name(args->client))), }; stats_register_thread_cputime(ctx->stats, "cpu"); js_Alloc alloc_fn = NULL; void *actx = NULL; if (args->mpctx->opts->js_memory_report) { alloc_fn = mp_js_alloc; actx = ctx; } int r = -1; js_State *J = js_newstate(alloc_fn, actx, 0); if (!J || s_init_js(J, ctx)) goto error_out; set_last_error(ctx, 0, NULL); if (js_pcall(J, 0)) { // script__run_script s_top_to_last_error(ctx, J); goto error_out; } r = 0; error_out: if (r) MP_FATAL(ctx, "%s\n", ctx->last_error_str); if (J) js_freestate(J); talloc_free(ctx); return r; } /********************************************************************** * Main mp.* scripting APIs and helpers *********************************************************************/ // Return the index in opts of stack[idx] (or of def if undefined), else throws. static int checkopt(js_State *J, int idx, const char *def, const char *opts[], const char *desc) { const char *opt = js_isundefined(J, idx) ? def : js_tostring(J, idx); for (int i = 0; opts[i]; i++) { if (strcmp(opt, opts[i]) == 0) return i; } js_error(J, "Invalid %s '%s'", desc, opt); } // args: level as string and a variable numbers of args to print. adds final \n static void script_log(js_State *J) { const char *level = js_tostring(J, 1); int msgl = mp_msg_find_level(level); if (msgl < 0) js_error(J, "Invalid log level '%s'", level); struct mp_log *log = jctx(J)->log; for (int top = js_gettop(J), i = 2; i < top; i++) mp_msg(log, msgl, (i == 2 ? "%s" : " %s"), js_tostring(J, i)); mp_msg(log, msgl, "\n"); push_success(J); } static void script_find_config_file(js_State *J, void *af) { const char *fname = js_tostring(J, 1); char *path = mp_find_config_file(af, jctx(J)->mpctx->global, fname); if (path) { js_pushstring(J, path); } else { push_failure(J, "not found"); } } static void script__request_event(js_State *J) { const char *event = js_tostring(J, 1); bool enable = js_toboolean(J, 2); for (int n = 0; n < 256; n++) { // some n's may be missing ("holes"), returning NULL const char *name = mpv_event_name(n); if (name && strcmp(name, event) == 0) { push_status(J, mpv_request_event(jclient(J), n, enable)); return; } } push_failure(J, "Unknown event name"); } static void script_enable_messages(js_State *J) { const char *level = js_tostring(J, 1); int e = mpv_request_log_messages(jclient(J), level); if (e == MPV_ERROR_INVALID_PARAMETER) js_error(J, "Invalid log level '%s'", level); push_status(J, e); } // args - command [with arguments] as string static void script_command(js_State *J) { push_status(J, mpv_command_string(jclient(J), js_tostring(J, 1))); } // args: strings of command and then variable number of arguments static void script_commandv(js_State *J) { const char *argv[MP_CMD_MAX_ARGS + 1]; int length = js_gettop(J) - 1; if (length >= MP_ARRAY_SIZE(argv)) js_error(J, "Too many arguments"); for (int i = 0; i < length; i++) argv[i] = js_tostring(J, 1 + i); argv[length] = NULL; push_status(J, mpv_command(jclient(J), argv)); } // args: name, string value static void script_set_property(js_State *J) { int e = mpv_set_property_string(jclient(J), js_tostring(J, 1), js_tostring(J, 2)); push_status(J, e); } // args: name, boolean static void script_set_property_bool(js_State *J) { int v = js_toboolean(J, 2); int e = mpv_set_property(jclient(J), js_tostring(J, 1), MPV_FORMAT_FLAG, &v); push_status(J, e); } // args: name [,def] static void script_get_property_number(js_State *J) { double result; const char *name = js_tostring(J, 1); int e = mpv_get_property(jclient(J), name, MPV_FORMAT_DOUBLE, &result); if (!pushed_error(J, e, 2)) js_pushnumber(J, result); } // args: name, native value static void script_set_property_native(js_State *J, void *af) { mpv_node node; makenode(af, &node, J, 2); mpv_handle *h = jclient(J); int e = mpv_set_property(h, js_tostring(J, 1), MPV_FORMAT_NODE, &node); push_status(J, e); } // args: name [,def] static void script_get_property(js_State *J, void *af) { mpv_handle *h = jclient(J); char *res = NULL; int e = mpv_get_property(h, js_tostring(J, 1), MPV_FORMAT_STRING, &res); if (e >= 0) add_af_mpv_alloc(af, res); if (!pushed_error(J, e, 2)) js_pushstring(J, res); } // args: name static void script_del_property(js_State *J) { int e = mpv_del_property(jclient(J), js_tostring(J, 1)); push_status(J, e); } // args: name [,def] static void script_get_property_bool(js_State *J) { int result; mpv_handle *h = jclient(J); int e = mpv_get_property(h, js_tostring(J, 1), MPV_FORMAT_FLAG, &result); if (!pushed_error(J, e, 2)) js_pushboolean(J, result); } // args: name, number static void script_set_property_number(js_State *J) { double v = js_tonumber(J, 2); mpv_handle *h = jclient(J); int e = mpv_set_property(h, js_tostring(J, 1), MPV_FORMAT_DOUBLE, &v); push_status(J, e); } // args: name [,def] static void script_get_property_native(js_State *J, void *af) { const char *name = js_tostring(J, 1); mpv_handle *h = jclient(J); mpv_node *presult_node = new_af_mpv_node(af); int e = mpv_get_property(h, name, MPV_FORMAT_NODE, presult_node); if (!pushed_error(J, e, 2)) pushnode(J, presult_node); } // args: name [,def] static void script_get_property_osd(js_State *J, void *af) { const char *name = js_tostring(J, 1); mpv_handle *h = jclient(J); char *res = NULL; int e = mpv_get_property(h, name, MPV_FORMAT_OSD_STRING, &res); if (e >= 0) add_af_mpv_alloc(af, res); if (!pushed_error(J, e, 2)) js_pushstring(J, res); } // args: id, name, type static void script__observe_property(js_State *J) { const char *fmts[] = {"none", "native", "bool", "string", "number", NULL}; const mpv_format mf[] = {MPV_FORMAT_NONE, MPV_FORMAT_NODE, MPV_FORMAT_FLAG, MPV_FORMAT_STRING, MPV_FORMAT_DOUBLE}; mpv_format f = mf[checkopt(J, 3, "none", fmts, "observe type")]; int e = mpv_observe_property(jclient(J), jsL_checkuint64(J, 1), js_tostring(J, 2), f); push_status(J, e); } // args: id static void script__unobserve_property(js_State *J) { int e = mpv_unobserve_property(jclient(J), jsL_checkuint64(J, 1)); push_status(J, e); } // args: native (array of command and args, similar to commandv) [,def] static void script_command_native(js_State *J, void *af) { mpv_node cmd; makenode(af, &cmd, J, 1); mpv_node *presult_node = new_af_mpv_node(af); int e = mpv_command_node(jclient(J), &cmd, presult_node); if (!pushed_error(J, e, 2)) pushnode(J, presult_node); } // args: async-command-id, native-command static void script__command_native_async(js_State *J, void *af) { uint64_t id = jsL_checkuint64(J, 1); struct mpv_node node; makenode(af, &node, J, 2); push_status(J, mpv_command_node_async(jclient(J), id, &node)); } // args: async-command-id static void script__abort_async_command(js_State *J) { mpv_abort_async_command(jclient(J), jsL_checkuint64(J, 1)); push_success(J); } // args: none, result in millisec static void script_get_time_ms(js_State *J) { js_pushnumber(J, mpv_get_time_us(jclient(J)) / (double)(1000)); } // push object with properties names (NULL terminated) with respective vals static void push_nums_obj(js_State *J, const char * const names[], const double vals[]) { js_newobject(J); for (int i = 0; names[i]; i++) { js_pushnumber(J, vals[i]); js_setproperty(J, -2, names[i]); } } // args: input-section-name, x0, y0, x1, y1 static void script_input_set_section_mouse_area(js_State *J) { char *section = (char *)js_tostring(J, 1); mp_input_set_section_mouse_area(jctx(J)->mpctx->input, section, jsL_checkint(J, 2), jsL_checkint(J, 3), // x0, y0 jsL_checkint(J, 4), jsL_checkint(J, 5)); // x1, y1 push_success(J); } // args: time-in-ms [,format-string] static void script_format_time(js_State *J, void *af) { double t = js_tonumber(J, 1); const char *fmt = js_isundefined(J, 2) ? "%H:%M:%S" : js_tostring(J, 2); char *r = talloc_steal(af, mp_format_time_fmt(fmt, t)); if (!r) js_error(J, "Invalid time format string '%s'", fmt); js_pushstring(J, r); } // TODO: untested static void script_get_wakeup_pipe(js_State *J) { js_pushnumber(J, mpv_get_wakeup_pipe(jclient(J))); } // args: name (str), priority (int), id (uint) static void script__hook_add(js_State *J) { const char *name = js_tostring(J, 1); int pri = jsL_checkint(J, 2); uint64_t id = jsL_checkuint64(J, 3); push_status(J, mpv_hook_add(jclient(J), id, name, pri)); } // args: id (uint) static void script__hook_continue(js_State *J) { push_status(J, mpv_hook_continue(jclient(J), jsL_checkuint64(J, 1))); } /********************************************************************** * mp.utils *********************************************************************/ // args: [path [,filter]] static void script_readdir(js_State *J, void *af) { // 0 1 2 3 const char *filters[] = {"all", "files", "dirs", "normal", NULL}; const char *path = js_isundefined(J, 1) ? "." : js_tostring(J, 1); int t = checkopt(J, 2, "normal", filters, "listing filter"); DIR *dir = opendir(path); if (!dir) { push_failure(J, "Cannot open dir"); return; } add_af_dir(af, dir); set_last_error(jctx(J), 0, NULL); js_newarray(J); // the return value char *fullpath = talloc_strdup(af, ""); struct dirent *e; int n = 0; while ((e = readdir(dir))) { char *name = e->d_name; if (t) { if (strcmp(name, ".") == 0 || strcmp(name, "..") == 0) continue; if (fullpath) fullpath[0] = '\0'; fullpath = talloc_asprintf_append(fullpath, "%s/%s", path, name); struct stat st; if (stat(fullpath, &st)) continue; if (!(((t & 1) && S_ISREG(st.st_mode)) || ((t & 2) && S_ISDIR(st.st_mode)))) { continue; } } js_pushstring(J, name); js_setindex(J, -2, n++); } } static void script_file_info(js_State *J) { const char *path = js_tostring(J, 1); struct stat statbuf; if (stat(path, &statbuf) != 0) { push_failure(J, "Cannot stat path"); return; } // Clear last error set_last_error(jctx(J), 0, NULL); const char * stat_names[] = { "mode", "size", "atime", "mtime", "ctime", NULL }; const double stat_values[] = { statbuf.st_mode, statbuf.st_size, statbuf.st_atime, statbuf.st_mtime, statbuf.st_ctime }; // Create an object and add all fields push_nums_obj(J, stat_names, stat_values); // Convenience booleans js_pushboolean(J, S_ISREG(statbuf.st_mode)); js_setproperty(J, -2, "is_file"); js_pushboolean(J, S_ISDIR(statbuf.st_mode)); js_setproperty(J, -2, "is_dir"); } static void script_split_path(js_State *J) { const char *p = js_tostring(J, 1); bstr fname = mp_dirname(p); js_newarray(J); js_pushlstring(J, fname.start, fname.len); js_setindex(J, -2, 0); js_pushstring(J, mp_basename(p)); js_setindex(J, -2, 1); } static void script_join_path(js_State *J, void *af) { js_pushstring(J, mp_path_join(af, js_tostring(J, 1), js_tostring(J, 2))); } // args: is_append, prefixed file name, data (c-str) static void script__write_file(js_State *J, void *af) { static const char *prefix = "file://"; bool append = js_toboolean(J, 1); const char *fname = js_tostring(J, 2); const char *data = js_tostring(J, 3); const char *opstr = append ? "append" : "write"; if (strstr(fname, prefix) != fname) // simple protection for incorrect use js_error(J, "File name must be prefixed with '%s'", prefix); fname += strlen(prefix); fname = mp_get_user_path(af, jctx(J)->mpctx->global, fname); MP_VERBOSE(jctx(J), "%s file '%s'\n", opstr, fname); FILE *f = fopen(fname, append ? "ab" : "wb"); if (!f) js_error(J, "Cannot open (%s) file: '%s'", opstr, fname); add_af_file(af, f); int len = strlen(data); // limited by terminating null int wrote = fwrite(data, 1, len, f); if (len != wrote) js_error(J, "Cannot %s to file: '%s'", opstr, fname); js_pushboolean(J, 1); // success. doesn't touch last_error } // args: env var name static void script_getenv(js_State *J) { const char *v = getenv(js_tostring(J, 1)); if (v) { js_pushstring(J, v); } else { js_pushundefined(J); } } // args: none static void script_get_env_list(js_State *J) { js_newarray(J); for (int n = 0; environ && environ[n]; n++) { js_pushstring(J, environ[n]); js_setindex(J, -2, n); } } // args: as-filename, content-string, returns the compiled result as a function static void script_compile_js(js_State *J) { js_loadstring(J, js_tostring(J, 1), js_tostring(J, 2)); } // args: true = print info (with the warning report function - no info report) static void script__gc(js_State *J) { js_gc(J, js_toboolean(J, 1) ? 1 : 0); push_success(J); } /********************************************************************** * Core functions: pushnode, makenode and the event loop backend *********************************************************************/ // pushes a js value/array/object from an mpv_node static void pushnode(js_State *J, mpv_node *node) { int len; switch (node->format) { case MPV_FORMAT_NONE: js_pushnull(J); break; case MPV_FORMAT_STRING: js_pushstring(J, node->u.string); break; case MPV_FORMAT_INT64: js_pushnumber(J, node->u.int64); break; case MPV_FORMAT_DOUBLE: js_pushnumber(J, node->u.double_); break; case MPV_FORMAT_FLAG: js_pushboolean(J, node->u.flag); break; case MPV_FORMAT_BYTE_ARRAY: js_pushlstring(J, node->u.ba->data, node->u.ba->size); break; case MPV_FORMAT_NODE_ARRAY: js_newarray(J); len = node->u.list->num; for (int n = 0; n < len; n++) { pushnode(J, &node->u.list->values[n]); js_setindex(J, -2, n); } break; case MPV_FORMAT_NODE_MAP: js_newobject(J); len = node->u.list->num; for (int n = 0; n < len; n++) { pushnode(J, &node->u.list->values[n]); js_setproperty(J, -2, node->u.list->keys[n]); } break; default: js_pushstring(J, "[UNSUPPORTED_MPV_FORMAT]"); break; } } // For the object at stack index idx, extract the (own) property names into // keys array (and allocate it to accommodate) and return the number of keys. static int get_obj_properties(void *ta_ctx, char ***keys, js_State *J, int idx) { int length = 0; js_pushiterator(J, idx, 1); *keys = talloc_new(ta_ctx); const char *name; while ((name = js_nextiterator(J, -1))) MP_TARRAY_APPEND(ta_ctx, *keys, length, talloc_strdup(ta_ctx, name)); js_pop(J, 1); // the iterator return length; } // true if we don't lose (too much) precision when casting to int64 static bool same_as_int64(double d) { // The range checks also validly filter inf and nan, so behavior is defined return d >= INT64_MIN && d <= (double) INT64_MAX && d == (int64_t)d; } static int jsL_checkint(js_State *J, int idx) { double d = js_tonumber(J, idx); if (!(d >= INT_MIN && d <= INT_MAX)) js_error(J, "int out of range at index %d", idx); return d; } static uint64_t jsL_checkuint64(js_State *J, int idx) { double d = js_tonumber(J, idx); if (!(d >= 0 && d <= (double) UINT64_MAX)) js_error(J, "uint64 out of range at index %d", idx); return d; } // From the js stack value/array/object at index idx static void makenode(void *ta_ctx, mpv_node *dst, js_State *J, int idx) { if (js_isundefined(J, idx) || js_isnull(J, idx)) { dst->format = MPV_FORMAT_NONE; } else if (js_isboolean(J, idx)) { dst->format = MPV_FORMAT_FLAG; dst->u.flag = js_toboolean(J, idx); } else if (js_isnumber(J, idx)) { double val = js_tonumber(J, idx); if (same_as_int64(val)) { // use int, because we can dst->format = MPV_FORMAT_INT64; dst->u.int64 = val; } else { dst->format = MPV_FORMAT_DOUBLE; dst->u.double_ = val; } } else if (js_isarray(J, idx)) { dst->format = MPV_FORMAT_NODE_ARRAY; dst->u.list = talloc(ta_ctx, struct mpv_node_list); dst->u.list->keys = NULL; int length = js_getlength(J, idx); dst->u.list->num = length; dst->u.list->values = talloc_array(ta_ctx, mpv_node, length); for (int n = 0; n < length; n++) { js_getindex(J, idx, n); makenode(ta_ctx, &dst->u.list->values[n], J, -1); js_pop(J, 1); } } else if (js_isobject(J, idx)) { dst->format = MPV_FORMAT_NODE_MAP; dst->u.list = talloc(ta_ctx, struct mpv_node_list); int length = get_obj_properties(ta_ctx, &dst->u.list->keys, J, idx); dst->u.list->num = length; dst->u.list->values = talloc_array(ta_ctx, mpv_node, length); for (int n = 0; n < length; n++) { js_getproperty(J, idx, dst->u.list->keys[n]); makenode(ta_ctx, &dst->u.list->values[n], J, -1); js_pop(J, 1); } } else { // string, or anything else as string dst->format = MPV_FORMAT_STRING; dst->u.string = talloc_strdup(ta_ctx, js_tostring(J, idx)); } } // args: wait in secs (infinite if negative) if mpv doesn't send events earlier. static void script_wait_event(js_State *J, void *af) { double timeout = js_isnumber(J, 1) ? js_tonumber(J, 1) : -1; mpv_event *event = mpv_wait_event(jclient(J), timeout); mpv_node *rn = new_af_mpv_node(af); mpv_event_to_node(rn, event); pushnode(J, rn); } /********************************************************************** * Script functions setup *********************************************************************/ #define FN_ENTRY(name, length) {#name, length, script_ ## name, NULL} #define AF_ENTRY(name, length) {#name, length, NULL, script_ ## name} struct fn_entry { const char *name; int length; js_CFunction jsc_fn; af_CFunction afc_fn; }; // Names starting with underscore are wrapped at @defaults.js // FN_ENTRY is a normal js C function, AF_ENTRY is an autofree js C function. static const struct fn_entry main_fns[] = { FN_ENTRY(log, 1), AF_ENTRY(wait_event, 1), FN_ENTRY(_request_event, 2), AF_ENTRY(find_config_file, 1), FN_ENTRY(command, 1), FN_ENTRY(commandv, 0), AF_ENTRY(command_native, 2), AF_ENTRY(_command_native_async, 2), FN_ENTRY(_abort_async_command, 1), FN_ENTRY(del_property, 1), FN_ENTRY(get_property_bool, 2), FN_ENTRY(get_property_number, 2), AF_ENTRY(get_property_native, 2), AF_ENTRY(get_property, 2), AF_ENTRY(get_property_osd, 2), FN_ENTRY(set_property, 2), FN_ENTRY(set_property_bool, 2), FN_ENTRY(set_property_number, 2), AF_ENTRY(set_property_native, 2), FN_ENTRY(_observe_property, 3), FN_ENTRY(_unobserve_property, 1), FN_ENTRY(get_time_ms, 0), AF_ENTRY(format_time, 2), FN_ENTRY(enable_messages, 1), FN_ENTRY(get_wakeup_pipe, 0), FN_ENTRY(_hook_add, 3), FN_ENTRY(_hook_continue, 1), FN_ENTRY(input_set_section_mouse_area, 5), FN_ENTRY(last_error, 0), FN_ENTRY(_set_last_error, 1), {0} }; static const struct fn_entry utils_fns[] = { AF_ENTRY(readdir, 2), FN_ENTRY(file_info, 1), FN_ENTRY(split_path, 1), AF_ENTRY(join_path, 2), FN_ENTRY(get_env_list, 0), FN_ENTRY(read_file, 2), AF_ENTRY(_write_file, 3), FN_ENTRY(getenv, 1), FN_ENTRY(compile_js, 2), FN_ENTRY(_gc, 1), {0} }; // Adds an object with the functions at e to the top object static void add_package_fns(js_State *J, const char *module, const struct fn_entry *e) { js_newobject(J); for (int n = 0; e[n].name; n++) { if (e[n].jsc_fn) { js_newcfunction(J, e[n].jsc_fn, e[n].name, e[n].length); } else { af_newcfunction(J, e[n].afc_fn, e[n].name, e[n].length); } js_setproperty(J, -2, e[n].name); } js_setproperty(J, -2, module); } // Called directly, adds functions/vars to the caller's this. static void add_functions(js_State *J, struct script_ctx *ctx) { js_copy(J, 0); add_package_fns(J, "mp", main_fns); js_getproperty(J, 0, "mp"); // + this mp add_package_fns(J, "utils", utils_fns); js_pushstring(J, mpv_client_name(ctx->client)); js_setproperty(J, -2, "script_name"); js_pushstring(J, ctx->filename); js_setproperty(J, -2, "script_file"); if (ctx->path) { js_pushstring(J, ctx->path); js_setproperty(J, -2, "script_path"); } js_pop(J, 2); // leave the stack as we got it } // main export of this file, used by cplayer to load js scripts const struct mp_scripting mp_scripting_js = { .name = "js", .file_ext = "js", .load = s_load_javascript, };