#ifndef LUA_THREAD_POOL_H_ #define LUA_THREAD_POOL_H_ #include #ifdef __cplusplus extern "C" { #endif struct thread_entry; struct lua_thread_pool; typedef void (*lua_thread_finish_t) (struct thread_entry *thread, int ret); typedef void (*lua_thread_error_t) (struct thread_entry *thread, int ret, const char *msg); struct thread_entry { lua_State *lua_state; gint thread_index; gpointer cd; /* function to handle result of called method, can be NULL */ lua_thread_finish_t finish_callback; /* function to log result, i.e. if you want to modify error logging message or somehow process this state, can be NUL */ lua_thread_error_t error_callback; struct rspamd_task *task; struct rspamd_config *cfg; }; struct lua_callback_state { lua_State *L; struct thread_entry *my_thread; struct thread_entry *previous_thread; struct lua_thread_pool *thread_pool; }; /** * Allocates new thread pool on state L. Pre-creates number of lua-threads to use later on * * @param L * @return */ struct lua_thread_pool * lua_thread_pool_new (lua_State *L); /** * Destroys the pool * @param pool */ void lua_thread_pool_free (struct lua_thread_pool *pool); /** * Extracts a thread from the list of available ones. * It immediately becames running one and should be used to run a Lua script/function straight away. * as soon as the code is finished, it should be either returned into list of available threads by * calling lua_thread_pool_return() or terminated by calling lua_thread_pool_terminate_entry() * if the code finished with error. * * If the code performed YIELD, the thread is still running and it's live should be controlled by the callee * * @param task * @return */ struct thread_entry * lua_thread_pool_get_for_task (struct rspamd_task *task); /** * The same, but used when task is not available * * @param cfg * @return */ struct thread_entry * lua_thread_pool_get_for_config (struct rspamd_config *cfg); /** * Return thread into the list of available ones. It can't be done with yielded or dead threads. * * @param pool * @param thread_entry */ void lua_thread_pool_return_full (struct lua_thread_pool *pool, struct thread_entry *thread_entry, const gchar *loc); #define lua_thread_pool_return(pool, thread_entry) \ lua_thread_pool_return_full (pool, thread_entry, G_STRLOC) /** * Currently running thread. Typically needed in yielding point - to fill-up continuation. * * @param pool * @return */ struct thread_entry * lua_thread_pool_get_running_entry_full (struct lua_thread_pool *pool, const gchar *loc); #define lua_thread_pool_get_running_entry(pool) \ lua_thread_pool_get_running_entry_full (pool, G_STRLOC) /** * Updates currently running thread * * @param pool * @param thread_entry */ void lua_thread_pool_set_running_entry_full (struct lua_thread_pool *pool, struct thread_entry *thread_entry, const gchar *loc); #define lua_thread_pool_set_running_entry(pool, thread_entry) \ lua_thread_pool_set_running_entry_full (pool, thread_entry, G_STRLOC) /** * Prevents yielded thread to be used for callback execution. lua_thread_pool_restore_callback() should be called afterwards. * * @param pool * @param cbs */ void lua_thread_pool_prepare_callback_full (struct lua_thread_pool *pool, struct lua_callback_state *cbs, const gchar *loc); #define lua_thread_pool_prepare_callback(pool, cbs) \ lua_thread_pool_prepare_callback_full (pool, cbs, G_STRLOC) /** * Restores state after lua_thread_pool_prepare_callback () usage * * @param cbs */ void lua_thread_pool_restore_callback_full (struct lua_callback_state *cbs, const gchar *loc); #define lua_thread_pool_restore_callback(cbs) \ lua_thread_pool_restore_callback_full (cbs, G_STRLOC) /** * Acts like lua_call but the tread is able to suspend execution. * As soon as the call is over, call either thread_entry::finish_callback or thread_entry::error_callback. * * @param thread_entry * @param narg */ void lua_thread_call_full (struct thread_entry *thread_entry, int narg, const gchar *loc); #define lua_thread_call(thread_entry, narg) \ lua_thread_call_full (thread_entry, narg, G_STRLOC) /** * Yields thread. should be only called in return statement * @param thread_entry * @param nresults * @return */ int lua_thread_yield_full (struct thread_entry *thread_entry, int nresults, const gchar *loc); #define lua_thread_yield(thread_entry, narg) \ lua_thread_yield_full (thread_entry, narg, G_STRLOC) /** * Resumes suspended by lua_yield_thread () thread * @param task * @param thread_entry * @param narg */ void lua_thread_resume_full (struct thread_entry *thread_entry, int narg, const gchar *loc); #define lua_thread_resume(thread_entry, narg) \ lua_thread_resume_full (thread_entry, narg, G_STRLOC) #ifdef __cplusplus } #endif #endif /* LUA_THREAD_POOL_H_ */