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#ifndef RUBY_THREAD_H /*-*-C++-*-vi:se ft=cpp:*/ #define RUBY_THREAD_H 1 /** * @file * @author $Author: matz $ * @date Tue Jul 10 17:35:43 JST 2012 * @copyright Copyright (C) 2007 Yukihiro Matsumoto * @copyright This file is a part of the programming language Ruby. * Permission is hereby granted, to either redistribute and/or * modify this file, provided that the conditions mentioned in the * file COPYING are met. Consult the file for details. */ #include "ruby/internal/attr/nonnull.h" #include "ruby/internal/intern/thread.h" /* rb_unblock_function_t */ #include "ruby/internal/dllexport.h" /** * @name Flags for rb_nogvl() * * @{ */ /** * Passing this flag to rb_nogvl() prevents it from checking interrupts. * Interrupts can impact your program negatively. For instance consider * following callback function: * * ```CXX * static inline int fd; // set elsewhere. * static inline auto callback(auto buf) { * auto tmp = ruby_xmalloc(BUFSIZ); * auto ret = ruby_xmalloc(sizeof(ssize_t)); // (a) * auto n = read(fd, tmp, BUFSIZ); // (b) * memcpy(buf, tmp, n); // (c) * memcpy(ret, n, sizeof(n)); * ruby_xfree(tmp); * return ret; * } * ``` * * Here, if it gets interrupted at (a) or (b), `read(2)` is cancelled and this * function leaks memory (which is not a good thing of course, but...). But if * it gets interrupted at (c), where `read(2)` is already done, interruption is * way more catastrophic because what was read gets lost. To reroute this kind * of problem you should set this flag. And check interrupts elsewhere at your * own risk. */ #define RB_NOGVL_INTR_FAIL (0x1) /** * Passing this flag to rb_nogvl() indicates that the passed UBF is * async-signal-safe. An UBF could be async safe, and that makes things * simpler. However async unsafe UBFs are just okay. If unsure, you can * safely leave it unspecified. * * @internal * * This makes sense only in case of POSIX threads. */ #define RB_NOGVL_UBF_ASYNC_SAFE (0x2) /** @} */ RBIMPL_SYMBOL_EXPORT_BEGIN() RBIMPL_ATTR_NONNULL((1)) /** * (Re-)acquires the GVL. This manoeuvre makes it possible for an out-of-GVL * routine to one-shot call a ruby method. * * What this function does: * * 1. Blocks until it acquires the GVL. * 2. Calls the passed function. * 3. Releases the GVL. * 4. Returns what was returned form the passed function. * * @param[in] func What to call with GVL. * @param[in,out] data1 Passed as-is to `func`. * @return What was returned from `func`. * @warning `func` must not return a Ruby object. If it did such return * value would escape from GC's scope; would not be marked. * @warning Global escapes from this function just yield whatever fatal * undefined behaviours. You must make sure that `func` does * not raise, by properly rescuing everything using * e.g. rb_protect(). * @warning You cannot convert a non-Ruby thread into a Ruby thread * using this API. This function makes sense only from inside * of a rb_thread_call_without_gvl()'s callback. */ void *rb_thread_call_with_gvl(void *(*func)(void *), void *data1); RBIMPL_ATTR_NONNULL((1)) /** * Allows the passed function to run in parallel with other Ruby threads. * * What this function does: * * 1. Checks (and handles) pending interrupts. * 2. Releases the GVL. (Others can run here in parallel...) * 3. Calls the passed function. * 4. Blocks until it re-acquires the GVL. * 5. Checks interrupts that happened between 2 to 4. * * In case other threads interfaced with this thread using rb_thread_kill() * etc., the passed UBF is additionally called. See ::rb_unblock_function_t * for details. * * Unlike rb_thread_call_without_gvl2() this function also reacts to signals * etc. * * @param[in] func A function to call without GVL. * @param[in,out] data1 Passed as-is to `func`. * @param[in] ubf An UBF to cancel `func`. * @param[in,out] data2 Passed as-is to `ubf`. * @return What `func` returned, or 0 in case `ubf` cancelled `func`. * @warning You cannot use most of Ruby C APIs like calling methods or * raising exceptions from any of the functions passed to it. * If that is dead necessary use rb_thread_call_with_gvl() to * re-acquire the GVL. * @warning In short, this API is difficult. @ko1 recommends you to use * other ways if any. We lack experiences to use this API. If * you find any corner cases etc., please report it to the * devs. * @warning Releasing and re-acquiring the GVL are expensive operations. * For a short-running `func`, it might be faster to just call * `func` with blocking everything else. Be sure to benchmark * your code to see if it is actually worth releasing the GVL. */ void *rb_thread_call_without_gvl(void *(*func)(void *), void *data1, rb_unblock_function_t *ubf, void *data2); RBIMPL_ATTR_NONNULL((1)) /** * Identical to rb_thread_call_without_gvl(), except it does not interface with * signals etc. As described in #RB_NOGVL_INTR_FAIL, interrupts can hurt you. * In case this function detects an interrupt, it returns immediately. You can * record progress of your callback and check it after returning from this * function. * * What this function does: * * 1. Checks for pending interrupts and if any, just returns. * 2. Releases the GVL. (Others can run here in parallel...) * 3. Calls the passed function. * 4. Blocks until it re-acquires the GVL. * * @param[in] func A function to call without GVL. * @param[in,out] data1 Passed as-is to `func`. * @param[in] ubf An UBF to cancel `func`. * @param[in,out] data2 Passed as-is to `ubf`. * @return What `func` returned, or 0 in case `func` did not return. */ void *rb_thread_call_without_gvl2(void *(*func)(void *), void *data1, rb_unblock_function_t *ubf, void *data2); /* * XXX: unstable/unapproved - out-of-tree code should NOT not depend * on this until it hits Ruby 2.6.1 */ RBIMPL_ATTR_NONNULL((1)) /** * Identical to rb_thread_call_without_gvl(), except it additionally takes * "flags" that change the behaviour. * * @param[in] func A function to call without GVL. * @param[in,out] data1 Passed as-is to `func`. * @param[in] ubf An UBF to cancel `func`. * @param[in,out] data2 Passed as-is to `ubf`. * @param[in] flags Flags. * @return What `func` returned, or 0 in case `func` did not return. */ void *rb_nogvl(void *(*func)(void *), void *data1, rb_unblock_function_t *ubf, void *data2, int flags); /** * @private * * @deprecated This macro once was a thing in the old days, but makes no sense * any longer today. Exists here for backwards compatibility * only. You can safely forget about it. */ #define RUBY_CALL_WO_GVL_FLAG_SKIP_CHECK_INTS_AFTER 0x01 /** * @private * @deprecated It seems even in the old days it made no sense...? */ #define RUBY_CALL_WO_GVL_FLAG_SKIP_CHECK_INTS_ /** * Triggered when a new thread is started. * * @note The callback will be called *without* the GVL held. */ #define RUBY_INTERNAL_THREAD_EVENT_STARTED 1 << 0 /** * Triggered when a thread attempt to acquire the GVL. * * @note The callback will be called *without* the GVL held. */ #define RUBY_INTERNAL_THREAD_EVENT_READY 1 << 1 /** acquiring GVL */ /** * Triggered when a thread successfully acquired the GVL. * * @note The callback will be called *with* the GVL held. */ #define RUBY_INTERNAL_THREAD_EVENT_RESUMED 1 << 2 /** acquired GVL */ /** * Triggered when a thread released the GVL. * * @note The callback will be called *without* the GVL held. */ #define RUBY_INTERNAL_THREAD_EVENT_SUSPENDED 1 << 3 /** released GVL */ /** * Triggered when a thread exits. * * @note The callback will be called *without* the GVL held. */ #define RUBY_INTERNAL_THREAD_EVENT_EXITED 1 << 4 /** thread terminated */ #define RUBY_INTERNAL_THREAD_EVENT_MASK 0xff /** All Thread events */ typedef struct rb_internal_thread_event_data { VALUE thread; } rb_internal_thread_event_data_t; typedef void (*rb_internal_thread_event_callback)(rb_event_flag_t event, const rb_internal_thread_event_data_t *event_data, void *user_data); typedef struct rb_internal_thread_event_hook rb_internal_thread_event_hook_t; /** * Registers a thread event hook function. * * @param[in] func A callback. * @param[in] events A set of events that `func` should run. * @param[in] data Passed as-is to `func`. * @return An opaque pointer to the hook, to unregister it later. * @note This functionality is a noop on Windows and WebAssembly. * @note The callback will be called without the GVL held, except for the * RESUMED event. * @note Callbacks are not guaranteed to be executed on the native threads * that corresponds to the Ruby thread. To identify which Ruby thread * the event refers to, you must use `event_data->thread`. * @warning This function MUST not be called from a thread event callback. */ rb_internal_thread_event_hook_t *rb_internal_thread_add_event_hook( rb_internal_thread_event_callback func, rb_event_flag_t events, void *data); /** * Unregister the passed hook. * * @param[in] hook. The hook to unregister. * @return Whether the hook was found and unregistered. * @note This functionality is a noop on Windows and WebAssembly. * @warning This function MUST not be called from a thread event callback. */ bool rb_internal_thread_remove_event_hook( rb_internal_thread_event_hook_t * hook); typedef int rb_internal_thread_specific_key_t; #define RB_INTERNAL_THREAD_SPECIFIC_KEY_MAX 8 /** * Create a key to store thread specific data. * * These APIs are designed for tools using * rb_internal_thread_event_hook APIs. * * Note that only `RB_INTERNAL_THREAD_SPECIFIC_KEY_MAX` keys * can be created. raises `ThreadError` if exceeded. * * Usage: * // at initialize time: * int tool_key; // gvar * Init_tool() { * tool_key = rb_internal_thread_specific_key_create(); * } * * // at any timing: * rb_internal_thread_specific_set(thread, tool_key, per_thread_data); * ... * per_thread_data = rb_internal_thread_specific_get(thread, tool_key); */ rb_internal_thread_specific_key_t rb_internal_thread_specific_key_create(void); /** * Get thread and tool specific data. * * This function is async signal safe and thread safe. */ void *rb_internal_thread_specific_get(VALUE thread_val, rb_internal_thread_specific_key_t key); /** * Set thread and tool specific data. * * This function is async signal safe and thread safe. */ void rb_internal_thread_specific_set(VALUE thread_val, rb_internal_thread_specific_key_t key, void *data); RBIMPL_SYMBOL_EXPORT_END() #endif /* RUBY_THREAD_H */