#ifndef RUBY_RACTOR_H /*-*-C++-*-vi:se ft=cpp:*/ #define RUBY_RACTOR_H 1 /** * @file * @author Koichi Sasada * @date Tue Nov 17 16:39:15 2020 * @copyright Copyright (C) 2020 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 "internal/dllexport.h" /* RUBY_EXTERN is here */ #include "internal/fl_type.h" /* FL_TEST_RAW is here */ #include "internal/special_consts.h" /* RB_SPECIAL_CONSTS_P is here */ #include "internal/stdbool.h" /* bool is here */ #include "internal/value.h" /* VALUE is here */ /** Type that defines a ractor-local storage. */ struct rb_ractor_local_storage_type { /** * A function to mark a ractor-local storage. * * @param[out] ptr A ractor-local storage. * @post Ruby objects inside of `ptr` are marked. */ void (*mark)(void *ptr); /** * A function to destruct a ractor-local storage. * * @param[out] ptr A ractor-local storage. * @post `ptr` is not a valid pointer. */ void (*free)(void *ptr); // TODO: update }; /** (Opaque) struct that holds a ractor-local storage key. */ typedef struct rb_ractor_local_key_struct *rb_ractor_local_key_t; RBIMPL_SYMBOL_EXPORT_BEGIN() /** * `Ractor` class. * * @ingroup object */ RUBY_EXTERN VALUE rb_cRactor; /** * Queries the standard input of the current Ractor that is calling this * function. * * @return An IO. * @note This can be different from the process-global one. */ VALUE rb_ractor_stdin(void); /** * Queries the standard output of the current Ractor that is calling this * function. * * @return An IO. * @note This can be different from the process-global one. */ VALUE rb_ractor_stdout(void); /** * Queries the standard error of the current Ractor that is calling this * function. * * @return An IO. * @note This can be different from the process-global one. */ VALUE rb_ractor_stderr(void); /** * Assigns an IO to the standard input of the Ractor that is calling this * function. * * @param[in] io An IO. * @post `io` is the standard input of the current ractor. * @post In case the calling Ractor is the main Ractor, it also updates * the process global ::rb_stdin. */ void rb_ractor_stdin_set(VALUE io); /** * Assigns an IO to the standard output of the Ractor that is calling this * function. * * @param[in] io An IO. * @post `io` is the standard input of the current ractor. * @post In case the calling Ractor is the main Ractor, it also updates * the process global ::rb_stdout. */ void rb_ractor_stdout_set(VALUE io); /** * Assigns an IO to the standard error of the Ractor that is calling this * function. * * @param[in] io An IO. * @post `io` is the standard input of the current ractor. * @post In case the calling Ractor is the main Ractor, it also updates * the process global ::rb_stderr. */ void rb_ractor_stderr_set(VALUE io); /** * Issues a new key. * * @return A newly issued ractor-local storage key. Keys issued using this * key can be associated to a Ruby object per Ractor. */ rb_ractor_local_key_t rb_ractor_local_storage_value_newkey(void); /** * Queries the key. * * @param[in] key A ractor-local storage key to lookup. * @retval RUBY_Qnil No such key. * @retval otherwise A value corresponds to `key` in the current Ractor. * @note This cannot distinguish between a nonexistent key and a key * exists and corresponds to ::RUBY_Qnil. */ VALUE rb_ractor_local_storage_value(rb_ractor_local_key_t key); /** * Queries the key. * * @param[in] key A ractor-local storage key to lookup. * @param[out] val Return value buffer. * @retval false `key` not found. * @retval true `key` found. * @post `val` is updated so that it has the value corresponds to `key` * in the current Ractor. */ bool rb_ractor_local_storage_value_lookup(rb_ractor_local_key_t key, VALUE *val); /** * Associates the passed value to the passed key. * * @param[in] key A ractor-local storage key. * @param[in] val Arbitrary ruby object. * @post `val` corresponds to `key` in the current Ractor. */ void rb_ractor_local_storage_value_set(rb_ractor_local_key_t key, VALUE val); /** * A type of ractor-local storage that destructs itself using ::ruby_xfree. * * @internal * * Why it is visible from 3rd party extension libraries is not obvious to * @shyouhei. */ RUBY_EXTERN const struct rb_ractor_local_storage_type rb_ractor_local_storage_type_free; /** @alias{rb_ractor_local_storage_type_free} */ #define RB_RACTOR_LOCAL_STORAGE_TYPE_FREE (&rb_ractor_local_storage_type_free) /** * Extended version of rb_ractor_local_storage_value_newkey(). It additionally * takes the type of the issuing key. * * @param[in] type How the value associated with the issuing key should * behave. * @return A newly issued ractor-local storage key, of type `type`. */ rb_ractor_local_key_t rb_ractor_local_storage_ptr_newkey(const struct rb_ractor_local_storage_type *type); /** * Identical to rb_ractor_local_storage_value() except the return type. * * @param[in] key A ractor-local storage key to lookup. * @retval NULL No such key. * @retval otherwise A value corresponds to `key` in the current Ractor. */ void *rb_ractor_local_storage_ptr(rb_ractor_local_key_t key); /** * Identical to rb_ractor_local_storage_value_set() except the parameter type. * * @param[in] key A ractor-local storage key. * @param[in] ptr A pointer that conforms `key`'s type. * @post `ptr` corresponds to `key` in the current Ractor. */ void rb_ractor_local_storage_ptr_set(rb_ractor_local_key_t key, void *ptr); /** * Destructively transforms the passed object so that multiple Ractors can * share it. What is a shareable object and what is not is a nuanced concept, * and @ko1 says the definition can still change. However extension library * authors might interest to learn how to use #RUBY_TYPED_FROZEN_SHAREABLE. * * @param[out] obj Arbitrary ruby object to modify. * @exception rb_eRactorError Ractors cannot share `obj` by nature. * @return Passed `obj`. * @post Multiple Ractors can share `obj`. * * @internal * * In case an exception is raised, `obj` remains in an intermediate state where * some of its part is frozen and others are not. @shyouhei is not sure if it * is either an intended behaviour, current implementation limitation, or * simply a bug. Note also that there is no way to "melt" a frozen object. */ VALUE rb_ractor_make_shareable(VALUE obj); /** * Identical to rb_ractor_make_shareable(), except it returns a (deep) copy of * the passed one instead of modifying it in-place. * * @param[in] obj Arbitrary ruby object to duplicate. * @exception rb_eRactorError Ractors cannot share `obj` by nature. * @return A deep copy of `obj` which is sharable among Ractors. */ VALUE rb_ractor_make_shareable_copy(VALUE obj); RBIMPL_SYMBOL_EXPORT_END() /** * Queries if the passed object has previously classified as shareable or not. * This doesn't mean anything in practice... Objects can be shared later. * Always use rb_ractor_shareable_p() instead. * * @param[in] obj Object in question. * @retval RUBY_FL_SHAREABLE It once was shareable before. * @retval 0 Otherwise. */ #define RB_OBJ_SHAREABLE_P(obj) FL_TEST_RAW((obj), RUBY_FL_SHAREABLE) /** * Queries if multiple Ractors can share the passed object or not. Ractors run * without protecting each other. Sharing an object among them is basically * dangerous, disabled by default. However there are objects that are * extremely carefully implemented to be Ractor-safe; for instance integers * have such property. This function can classify that. * * @param[in] obj Arbitrary ruby object. * @retval true `obj` is capable of shared across ractors. * @retval false `obj` cannot travel across ractor boundaries. */ static inline bool rb_ractor_shareable_p(VALUE obj) { bool rb_ractor_shareable_p_continue(VALUE obj); if (RB_SPECIAL_CONST_P(obj)) { return true; } else if (RB_OBJ_SHAREABLE_P(obj)) { return true; } else { return rb_ractor_shareable_p_continue(obj); } } #endif /* RUBY_RACTOR_H */