/* * Copyright 2002-2007, Axel Dörfler, axeld@pinc-software.de. * Distributed under the terms of the MIT License. * * Copyright 2001-2002, Travis Geiselbrecht. All rights reserved. * Distributed under the terms of the NewOS License. */ #ifndef _THREAD_H #define _THREAD_H #include #include #include // For the thread blocking inline functions only. #include #include struct kernel_args; struct select_info; struct thread_creation_attributes; #ifdef __cplusplus extern "C" { #endif void thread_enqueue(struct thread *t, struct thread_queue *q); struct thread *thread_lookat_queue(struct thread_queue *q); struct thread *thread_dequeue(struct thread_queue *q); struct thread *thread_dequeue_id(struct thread_queue *q, thread_id id); void thread_at_kernel_entry(bigtime_t now); // called when the thread enters the kernel on behalf of the thread void thread_at_kernel_exit(void); void thread_at_kernel_exit_no_signals(void); void thread_reset_for_exec(void); status_t thread_init(struct kernel_args *args); status_t thread_preboot_init_percpu(struct kernel_args *args, int32 cpuNum); void thread_yield(bool force); void thread_exit(void); int32 thread_max_threads(void); int32 thread_used_threads(void); const char* thread_state_to_text(struct thread* thread, int32 state); int32 thread_get_io_priority(thread_id id); void thread_set_io_priority(int32 priority); #define thread_get_current_thread arch_thread_get_current_thread struct thread *thread_get_thread_struct(thread_id id); struct thread *thread_get_thread_struct_locked(thread_id id); static thread_id thread_get_current_thread_id(void); static inline thread_id thread_get_current_thread_id(void) { struct thread *thread = thread_get_current_thread(); return thread ? thread->id : 0; } static inline bool thread_is_idle_thread(struct thread *thread) { return thread->entry == NULL; } thread_id allocate_thread_id(void); thread_id peek_next_thread_id(void); thread_id spawn_kernel_thread_etc(thread_func, const char *name, int32 priority, void *args, team_id team, thread_id threadID); status_t wait_for_thread_etc(thread_id id, uint32 flags, bigtime_t timeout, status_t *_returnCode); status_t select_thread(int32 object, struct select_info *info, bool kernel); status_t deselect_thread(int32 object, struct select_info *info, bool kernel); #define syscall_64_bit_return_value() arch_syscall_64_bit_return_value() status_t thread_block(); status_t thread_block_with_timeout(uint32 timeoutFlags, bigtime_t timeout); status_t thread_block_with_timeout_locked(uint32 timeoutFlags, bigtime_t timeout); bool thread_unblock(status_t threadID, status_t status); // used in syscalls.c status_t _user_set_thread_priority(thread_id thread, int32 newPriority); status_t _user_rename_thread(thread_id thread, const char *name); status_t _user_suspend_thread(thread_id thread); status_t _user_resume_thread(thread_id thread); status_t _user_rename_thread(thread_id thread, const char *name); thread_id _user_spawn_thread(struct thread_creation_attributes* attributes); status_t _user_wait_for_thread(thread_id id, status_t *_returnCode); status_t _user_snooze_etc(bigtime_t timeout, int timebase, uint32 flags); status_t _user_kill_thread(thread_id thread); void _user_thread_yield(void); void _user_exit_thread(status_t return_value); bool _user_has_data(thread_id thread); status_t _user_send_data(thread_id thread, int32 code, const void *buffer, size_t buffer_size); status_t _user_receive_data(thread_id *_sender, void *buffer, size_t buffer_size); thread_id _user_find_thread(const char *name); status_t _user_get_thread_info(thread_id id, thread_info *info); status_t _user_get_next_thread_info(team_id team, int32 *cookie, thread_info *info); status_t _user_block_thread(uint32 flags, bigtime_t timeout); status_t _user_unblock_thread(thread_id thread, status_t status); status_t _user_unblock_threads(thread_id* threads, uint32 count, status_t status); // ToDo: these don't belong here struct rlimit; int _user_getrlimit(int resource, struct rlimit * rlp); int _user_setrlimit(int resource, const struct rlimit * rlp); #ifdef __cplusplus } #endif /*! \a thread must be the current thread. Thread lock can be, but doesn't need to be held. */ static inline bool thread_is_interrupted(struct thread* thread, uint32 flags) { return ((flags & B_CAN_INTERRUPT) && (thread->sig_pending & ~thread->sig_block_mask) != 0) || ((flags & B_KILL_CAN_INTERRUPT) && (thread->sig_pending & KILL_SIGNALS)); } static inline bool thread_is_blocked(struct thread* thread) { return thread->wait.status == 1; } /*! \a thread must be the current thread. Thread lock can be, but doesn't need to be locked. */ static inline void thread_prepare_to_block(struct thread* thread, uint32 flags, uint32 type, const void* object) { thread->wait.flags = flags; thread->wait.type = type; thread->wait.object = object; atomic_set(&thread->wait.status, 1); // Set status last to guarantee that the other fields are initialized // when a thread is waiting. } static inline status_t thread_block_locked(struct thread* thread) { if (thread->wait.status == 1) { // check for signals, if interruptable if (thread_is_interrupted(thread, thread->wait.flags)) { thread->wait.status = B_INTERRUPTED; } else { thread->next_state = B_THREAD_WAITING; scheduler_reschedule(); } } return thread->wait.status; } static inline bool thread_unblock_locked(struct thread* thread, status_t status) { if (atomic_test_and_set(&thread->wait.status, status, 1) != 1) return false; // wake up the thread, if it is sleeping if (thread->state == B_THREAD_WAITING) scheduler_enqueue_in_run_queue(thread); return true; } static inline status_t thread_interrupt(struct thread* thread, bool kill) { if ((thread->wait.flags & B_CAN_INTERRUPT) != 0 || (kill && (thread->wait.flags & B_KILL_CAN_INTERRUPT) != 0)) { thread_unblock_locked(thread, B_INTERRUPTED); return B_OK; } return B_NOT_ALLOWED; } #endif /* _THREAD_H */