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mpv/player/javascript.c
Dudemanguy 0bed2a2263 build: remove outdated generated directory 
This only existed as essentially a workaround for meson's behavior and
to maintain compatibility with the waf build. Since waf put everything
in a generated subdirectory, we had to put make a subdirectory called
"generated" in the source for meson so stuff could go to the right
place. Well now we don't need to do that anymore. Move the meson.build
files around so they go in the appropriate place in the subdirectory of
the source tree and change the paths of the headers accordingly. A
couple of important things to note.

1. mpv.com now gets made in build/player/mpv.com (necessary because of
   a meson limitation)
2. The macos icon generation path is shortened to
   TOOLS/osxbundle/icon.icns.inc.
2023-07-31 19:00:06 +00:00

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/*
* 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 <http://www.gnu.org/licenses/>.
*/
#include <assert.h>
#include <string.h>
#include <strings.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <dirent.h>
#include <math.h>
#include <stdint.h>
#include <mujs.h>
#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;
}
FILE *f = fopen(filename, "rb");
if (!f)
js_error(J, "cannot open file: '%s'", filename);
add_af_file(af, f);
int len = MPMIN(limit, 32 * 1024); // initial allocation, size*2 strategy
int got = 0;
char *s = NULL;
while ((s = talloc_realloc(af, s, char, len))) {
int want = len - got;
int r = fread(s + got, 1, want, f);
if (feof(f) || (len == limit && r == want)) {
js_pushlstring(J, s, got + r);
return;
}
if (r != want)
js_error(J, "cannot read data from file: '%s'", filename);
got = got + r;
len = MPMIN(limit, len * 2);
}
js_error(J, "cannot allocate %d bytes for file: '%s'", len, 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;
char *mem_report = getenv("MPV_LEAK_REPORT");
if (mem_report && strcmp(mem_report, "1") == 0) {
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 <module> 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 = "javascript",
.file_ext = "js",
.load = s_load_javascript,
};
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