From 2d66d5cee9bf3ed5779f65d8a99b40ee5181bf30 Mon Sep 17 00:00:00 2001 From: cbdev Date: Fri, 20 Mar 2020 21:50:33 +0100 Subject: Implement Lua threading --- backends/lua.c | 114 +++++++++++++++++++++++++++++++++++++++++++++++++++++++- backends/lua.h | 7 ++++ backends/lua.md | 30 ++++++++++++--- 3 files changed, 144 insertions(+), 7 deletions(-) (limited to 'backends') diff --git a/backends/lua.c b/backends/lua.c index 498a037..b66a27a 100644 --- a/backends/lua.c +++ b/backends/lua.c @@ -10,6 +10,7 @@ #define LUA_REGISTRY_KEY "_midimonster_lua_instance" #define LUA_REGISTRY_CURRENT_CHANNEL "_midimonster_lua_channel" +#define LUA_REGISTRY_CURRENT_THREAD "_midimonster_lua_thread" static size_t timers = 0; static lua_timer* timer = NULL; @@ -20,6 +21,9 @@ static int timer_fd = -1; static uint64_t last_timestamp; #endif +static size_t threads = 0; +static lua_thread* thread = NULL; + MM_PLUGIN_API int init(){ backend lua = { #ifndef MMBACKEND_LUA_TIMERFD @@ -86,6 +90,12 @@ static int lua_update_timerfd(){ interval = timer[n].interval; } } + + for(n = 0; n < threads; n++){ + if(thread[n].timeout && (!interval || thread[n].timeout < interval)){ + interval = thread[n].timeout; + } + } DBGPF("Recalculating timers, minimum is %" PRIu64, interval); //calculate gcd of all timers if any are active @@ -100,7 +110,8 @@ static int lua_update_timerfd(){ gcd = residual; } //since we round everything, 10 is the lowest interval we get - if(interval == 10){ + if(interval <= 10){ + interval = 10; break; } } @@ -126,6 +137,89 @@ static int lua_update_timerfd(){ return 0; } +static void lua_thread_resume(size_t current_thread){ + //push coroutine reference + lua_pushstring(thread[current_thread].thread, LUA_REGISTRY_CURRENT_THREAD); + lua_pushnumber(thread[current_thread].thread, current_thread); + lua_settable(thread[current_thread].thread, LUA_REGISTRYINDEX); + + //call thread main + DBGPF("Resuming thread %" PRIsize_t " on %s", current_thread, thread[current_thread].instance->name); + if(lua_resume(thread[current_thread].thread, NULL, 0) != LUA_YIELD){ + DBGPF("Thread %" PRIsize_t " on %s terminated", current_thread, thread[current_thread].instance->name); + thread[current_thread].timeout = 0; + } + + //remove coroutine reference + lua_pushstring(thread[current_thread].thread, LUA_REGISTRY_CURRENT_THREAD); + lua_pushnil(thread[current_thread].thread); + lua_settable(thread[current_thread].thread, LUA_REGISTRYINDEX); +} + +static int lua_callback_thread(lua_State* interpreter){ + instance* inst = NULL; + size_t u = threads; + if(lua_gettop(interpreter) != 1){ + LOGPF("Thread function called with %d arguments, expected function", lua_gettop(interpreter)); + return 0; + } + + luaL_checktype(interpreter, 1, LUA_TFUNCTION); + + //get instance pointer from registry + lua_pushstring(interpreter, LUA_REGISTRY_KEY); + lua_gettable(interpreter, LUA_REGISTRYINDEX); + inst = (instance*) lua_touserdata(interpreter, -1); + + //make space for a new thread + thread = realloc(thread, (threads + 1) * sizeof(lua_thread)); + if(!thread){ + threads = 0; + LOG("Failed to allocate memory"); + return 0; + } + threads++; + + thread[u].thread = lua_newthread(interpreter); + thread[u].instance = inst; + thread[u].timeout = 0; + thread[u].reference = luaL_ref(interpreter, LUA_REGISTRYINDEX); + + DBGPF("Registered thread %" PRIsize_t " on %s", threads, inst->name); + + //push thread main + luaL_checktype(interpreter, 1, LUA_TFUNCTION); + lua_pushvalue(interpreter, 1); + lua_xmove(interpreter, thread[u].thread, 1); + + lua_thread_resume(u); + lua_update_timerfd(); + return 0; +} + +static int lua_callback_sleep(lua_State* interpreter){ + uint64_t timeout = 0; + size_t current_thread = threads; + if(lua_gettop(interpreter) != 1){ + LOGPF("Sleep function called with %d arguments, expected number", lua_gettop(interpreter)); + return 0; + } + + timeout = luaL_checkinteger(interpreter, 1); + + lua_pushstring(interpreter, LUA_REGISTRY_CURRENT_THREAD); + lua_gettable(interpreter, LUA_REGISTRYINDEX); + + current_thread = luaL_checkinteger(interpreter, -1); + + if(current_thread < threads){ + DBGPF("Yielding for %" PRIu64 "msec on thread %" PRIsize_t, timeout, current_thread); + thread[current_thread].timeout = timeout; + lua_yield(interpreter, 0); + } + return 0; +} + static int lua_callback_output(lua_State* interpreter){ size_t n = 0; channel_value val; @@ -341,6 +435,8 @@ static int lua_instance(instance* inst){ lua_register(data->interpreter, "output_value", lua_callback_output_value); lua_register(data->interpreter, "input_channel", lua_callback_input_channel); lua_register(data->interpreter, "timestamp", lua_callback_timestamp); + lua_register(data->interpreter, "thread", lua_callback_thread); + lua_register(data->interpreter, "sleep", lua_callback_sleep); //store instance pointer to the lua state lua_pushstring(data->interpreter, LUA_REGISTRY_KEY); @@ -454,6 +550,17 @@ static int lua_handle(size_t num, managed_fd* fds){ } } } + + //check for threads to wake up + for(n = 0; n < threads; n++){ + if(thread[n].timeout && delta >= thread[n].timeout){ + lua_thread_resume(n); + lua_update_timerfd(); + } + else if(thread[n].timeout){ + thread[n].timeout -= delta; + } + } return 0; } @@ -468,6 +575,8 @@ static int lua_start(size_t n, instance** inst){ //exclude reserved names if(!data->default_handler && strcmp(data->channel_name[p], "output") + && strcmp(data->channel_name[p], "thread") + && strcmp(data->channel_name[p], "sleep") && strcmp(data->channel_name[p], "input_value") && strcmp(data->channel_name[p], "output_value") && strcmp(data->channel_name[p], "input_channel") @@ -526,6 +635,9 @@ static int lua_shutdown(size_t n, instance** inst){ free(timer); timer = NULL; timers = 0; + free(thread); + thread = NULL; + threads = 0; #ifdef MMBACKEND_LUA_TIMERFD close(timer_fd); timer_fd = -1; diff --git a/backends/lua.h b/backends/lua.h index 743f978..d8e720a 100644 --- a/backends/lua.h +++ b/backends/lua.h @@ -39,3 +39,10 @@ typedef struct /*_lua_interval_callback*/ { lua_State* interpreter; int reference; } lua_timer; + +typedef struct /*_lua_coroutine*/ { + instance* instance; + lua_State* thread; + int reference; + uint64_t timeout; +} lua_thread; diff --git a/backends/lua.md b/backends/lua.md index 96e53c8..05509b6 100644 --- a/backends/lua.md +++ b/backends/lua.md @@ -19,24 +19,41 @@ The following functions are provided within the Lua interpreter for interaction | `output_value(string)` | `output_value("bar")` | Get the last output value on a channel | | `input_channel()` | `print(input_channel())` | Returns the name of the input channel whose handler function is currently running or `nil` if in an `interval`'ed function (or the initial parse step) | | `timestamp()` | `print(timestamp())` | Returns the core timestamp for this iteration with millisecond resolution. This is not a performance timer, but intended for timeouting, etc | +| `thread(function)` | `thread(run_show)` | Run a function as a Lua thread (see below) | +| `sleep(number)` | `sleep(100)` | Suspend current thread for time specified in milliseconds | Example script: -``` +```lua function bar(value) - output("foo", value / 2) + output("foo", value / 2); end step = 0 function toggle() - output("bar", step * 1.0) + output("bar", step * 1.0); step = (step + 1) % 2; end +function run_show() + while(true) do + sleep(1000); + output("narf", 0); + sleep(1000); + output("narf", 1.0); + end +end + interval(toggle, 1000) +thread(run_show) ``` Input values range between 0.0 and 1.0, output values are clamped to the same range. +Threads are implemented as Lua coroutines, not operating system threads. This means that +cooperative multithreading is required, which can be achieved by calling the `sleep(number)` +function from within a running thread. Calling that function from any other context is +not supported. + #### Global configuration The `lua` backend does not take any global configuration. @@ -61,9 +78,10 @@ lua1.foo > lua2.bar #### Known bugs / problems -Using any of the interface functions (`output`, `interval`, `input_value`, `output_value`, `input_channel`, -`timestamp`) as an input channel name to a Lua instance will not call any handler functions. -Using these names as arguments to the output and value interface functions works as intended. +Using any of the interface functions (`output`, `interval`, etc.) as an input channel name to a +Lua instance will not call any handler functions. Using these names as arguments to the output and +value interface functions works as intended. When using a default handler, the default handler will +be called. Output values will not trigger corresponding input event handlers unless the channel is mapped back in the MIDIMonster configuration. This is intentional. -- cgit v1.2.3