From f07a4c844da9f0ecae5bbee1ab94be56505f26f7 Mon Sep 17 00:00:00 2001 From: Thomas Bushnell Date: Tue, 25 Feb 1997 21:28:37 +0000 Subject: Initial source --- kern/thread.h | 371 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 371 insertions(+) create mode 100644 kern/thread.h (limited to 'kern/thread.h') diff --git a/kern/thread.h b/kern/thread.h new file mode 100644 index 0000000..07b7463 --- /dev/null +++ b/kern/thread.h @@ -0,0 +1,371 @@ +/* + * Mach Operating System + * Copyright (c) 1993-1987 Carnegie Mellon University + * All Rights Reserved. + * + * Permission to use, copy, modify and distribute this software and its + * documentation is hereby granted, provided that both the copyright + * notice and this permission notice appear in all copies of the + * software, derivative works or modified versions, and any portions + * thereof, and that both notices appear in supporting documentation. + * + * CARNEGIE MELLON ALLOWS FREE USE OF THIS SOFTWARE IN ITS "AS IS" + * CONDITION. CARNEGIE MELLON DISCLAIMS ANY LIABILITY OF ANY KIND FOR + * ANY DAMAGES WHATSOEVER RESULTING FROM THE USE OF THIS SOFTWARE. + * + * Carnegie Mellon requests users of this software to return to + * + * Software Distribution Coordinator or Software.Distribution@CS.CMU.EDU + * School of Computer Science + * Carnegie Mellon University + * Pittsburgh PA 15213-3890 + * + * any improvements or extensions that they make and grant Carnegie Mellon + * the rights to redistribute these changes. + */ +/* + * File: thread.h + * Author: Avadis Tevanian, Jr. + * + * This file contains the structure definitions for threads. + * + */ + +#ifndef _KERN_THREAD_H_ +#define _KERN_THREAD_H_ + +#include +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include /* event_t, continuation_t */ +#include +#include +#include +#include +#include /* for current_space(), current_map() */ +#include +#include + +struct thread { + /* Run queues */ + queue_chain_t links; /* current run queue links */ + run_queue_t runq; /* run queue p is on SEE BELOW */ +/* + * NOTE: The runq field in the thread structure has an unusual + * locking protocol. If its value is RUN_QUEUE_NULL, then it is + * locked by the thread_lock, but if its value is something else + * (i.e. a run_queue) then it is locked by that run_queue's lock. + */ + + /* Task information */ + task_t task; /* Task to which I belong */ + queue_chain_t thread_list; /* list of threads in task */ + + /* Thread bookkeeping */ + queue_chain_t pset_threads; /* list of all threads in proc set*/ + + /* Self-preservation */ + decl_simple_lock_data(,lock) + int ref_count; /* number of references to me */ + + /* Hardware state */ + pcb_t pcb; /* hardware pcb & machine state */ + vm_offset_t kernel_stack; /* accurate only if the thread is + not swapped and not executing */ + vm_offset_t stack_privilege;/* reserved kernel stack */ + + /* Swapping information */ + void (*swap_func)(); /* start here after swapin */ + + /* Blocking information */ + event_t wait_event; /* event we are waiting on */ + int suspend_count; /* internal use only */ + kern_return_t wait_result; /* outcome of wait - + may be examined by this thread + WITHOUT locking */ + boolean_t wake_active; /* someone is waiting for this + thread to become suspended */ + int state; /* Thread state: */ +/* + * Thread states [bits or'ed] + */ +#define TH_WAIT 0x01 /* thread is queued for waiting */ +#define TH_SUSP 0x02 /* thread has been asked to stop */ +#define TH_RUN 0x04 /* thread is running or on runq */ +#define TH_UNINT 0x08 /* thread is waiting uninteruptibly */ +#define TH_HALTED 0x10 /* thread is halted at clean point ? */ + +#define TH_IDLE 0x80 /* thread is an idle thread */ + +#define TH_SCHED_STATE (TH_WAIT|TH_SUSP|TH_RUN|TH_UNINT) + +#define TH_SWAPPED 0x0100 /* thread has no kernel stack */ +#define TH_SW_COMING_IN 0x0200 /* thread is waiting for kernel stack */ + +#define TH_SWAP_STATE (TH_SWAPPED | TH_SW_COMING_IN) + + /* Scheduling information */ + int priority; /* thread's priority */ + int max_priority; /* maximum priority */ + int sched_pri; /* scheduled (computed) priority */ +#if MACH_FIXPRI + int sched_data; /* for use by policy */ + int policy; /* scheduling policy */ +#endif /* MACH_FIXPRI */ + int depress_priority; /* depressed from this priority */ + unsigned int cpu_usage; /* exp. decaying cpu usage [%cpu] */ + unsigned int sched_usage; /* load-weighted cpu usage [sched] */ + unsigned int sched_stamp; /* last time priority was updated */ + + /* VM global variables */ + + vm_offset_t recover; /* page fault recovery (copyin/out) */ + boolean_t vm_privilege; /* Can use reserved memory? */ + + /* User-visible scheduling state */ + int user_stop_count; /* outstanding stops */ + + /* IPC data structures */ + struct thread *ith_next, *ith_prev; + mach_msg_return_t ith_state; + union { + mach_msg_size_t msize; /* max size for recvd msg */ + struct ipc_kmsg *kmsg; /* received message */ + } data; + mach_port_seqno_t ith_seqno; /* seqno of recvd message */ + + /* This queue is used only when destroying messages: + it prevents nasty recursion problems when destroying one message + causes other messages to be destroyed. + This queue should always be empty under normal circumstances. + See ipc_kmsg_destroy() for more details. */ + struct ipc_kmsg_queue ith_messages; + + decl_simple_lock_data(, ith_lock_data) + struct ipc_port *ith_self; /* not a right, doesn't hold ref */ + struct ipc_port *ith_sself; /* a send right */ + struct ipc_port *ith_exception; /* a send right */ +#if MACH_IPC_COMPAT + struct ipc_port *ith_reply; /* a send right */ +#endif /* MACH_IPC_COMPAT */ + + mach_port_t ith_mig_reply; /* reply port for mig */ + struct ipc_port *ith_rpc_reply; /* reply port for kernel RPCs */ + + /* State saved when thread's stack is discarded */ + union { + struct { + mach_msg_header_t *msg; + mach_msg_option_t option; + mach_msg_size_t rcv_size; + mach_msg_timeout_t timeout; + mach_port_t notify; + struct ipc_object *object; + struct ipc_mqueue *mqueue; + } receive; + struct { + struct ipc_port *port; + int exc; + int code; + int subcode; + } exception; + void *other; /* catch-all for other state */ + } saved; + + /* Timing data structures */ + timer_data_t user_timer; /* user mode timer */ + timer_data_t system_timer; /* system mode timer */ + timer_save_data_t user_timer_save; /* saved user timer value */ + timer_save_data_t system_timer_save; /* saved sys timer val. */ + unsigned int cpu_delta; /* cpu usage since last update */ + unsigned int sched_delta; /* weighted cpu usage since update */ + + /* Time-outs */ + timer_elt_data_t timer; /* timer for thread */ + timer_elt_data_t depress_timer; /* timer for priority depression */ + + /* Ast/Halt data structures */ + boolean_t active; /* how alive is the thread */ + int ast; /* ast's needed. See ast.h */ + + /* Processor data structures */ + processor_set_t processor_set; /* assigned processor set */ + processor_t bound_processor; /* bound to processor ?*/ + + sample_control_t pc_sample; + +#if MACH_HOST + boolean_t may_assign; /* may assignment change? */ + boolean_t assign_active; /* someone waiting for may_assign */ +#endif /* MACH_HOST */ + +#if NCPUS > 1 + processor_t last_processor; /* processor this last ran on */ +#endif /* NCPUS > 1 */ + +#if NET_ATM + nw_ep_owned_t nw_ep_waited; +#endif /* NET_ATM */ +}; + +/* typedef of thread_t is in kern/kern_types.h */ +typedef struct thread_shuttle *thread_shuttle_t; +#define THREAD_NULL ((thread_t) 0) +#define THREAD_SHUTTLE_NULL ((thread_shuttle_t)0) + +#define ith_msize data.msize +#define ith_kmsg data.kmsg +#define ith_wait_result wait_result + +#define ith_msg saved.receive.msg +#define ith_option saved.receive.option +#define ith_rcv_size saved.receive.rcv_size +#define ith_timeout saved.receive.timeout +#define ith_notify saved.receive.notify +#define ith_object saved.receive.object +#define ith_mqueue saved.receive.mqueue + +#define ith_port saved.exception.port +#define ith_exc saved.exception.exc +#define ith_exc_code saved.exception.code +#define ith_exc_subcode saved.exception.subcode + +#define ith_other saved.other + +#ifndef _KERN_KERN_TYPES_H_ +typedef struct thread *thread_t; + +#define THREAD_NULL ((thread_t) 0) + +typedef mach_port_t *thread_array_t; +#endif /* _KERN_KERN_TYPES_H_ */ + + +extern thread_t active_threads[NCPUS]; /* active threads */ +extern vm_offset_t active_stacks[NCPUS]; /* active kernel stacks */ + +#ifdef KERNEL +/* + * User routines + */ + +extern kern_return_t thread_create( + task_t parent_task, + thread_t *child_thread); +extern kern_return_t thread_terminate( + thread_t thread); +extern kern_return_t thread_suspend( + thread_t thread); +extern kern_return_t thread_resume( + thread_t thread); +extern kern_return_t thread_abort( + thread_t thread); +extern kern_return_t thread_get_state( + thread_t thread, + int flavor, + thread_state_t old_state, + natural_t *old_state_count); +extern kern_return_t thread_set_state( + thread_t thread, + int flavor, + thread_state_t new_state, + natural_t new_state_count); +extern kern_return_t thread_get_special_port( + thread_t thread, + int which, + struct ipc_port **portp); +extern kern_return_t thread_set_special_port( + thread_t thread, + int which, + struct ipc_port *port); +extern kern_return_t thread_info( + thread_t thread, + int flavor, + thread_info_t thread_info_out, + natural_t *thread_info_count); +extern kern_return_t thread_assign( + thread_t thread, + processor_set_t new_pset); +extern kern_return_t thread_assign_default( + thread_t thread); +#endif + +/* + * Kernel-only routines + */ + +extern void thread_init(void); +extern void thread_reference(thread_t); +extern void thread_deallocate(thread_t); +extern void thread_hold(thread_t); +extern kern_return_t thread_dowait( + thread_t thread, + boolean_t must_halt); +extern void thread_release(thread_t); +extern kern_return_t thread_halt( + thread_t thread, + boolean_t must_halt); +extern void thread_halt_self(void); +extern void thread_force_terminate(thread_t); +extern void thread_set_own_priority( + int priority); +extern thread_t kernel_thread( + task_t task, + void (*start)(void), + void * arg); + +extern void reaper_thread(void); + +#if MACH_HOST +extern void thread_freeze( + thread_t thread); +extern void thread_doassign( + thread_t thread, + processor_set_t new_pset, + boolean_t release_freeze); +extern void thread_unfreeze( + thread_t thread); +#endif /* MACH_HOST */ + +/* + * Macro-defined routines + */ + +#define thread_pcb(th) ((th)->pcb) + +#define thread_lock(th) simple_lock(&(th)->lock) +#define thread_unlock(th) simple_unlock(&(th)->lock) + +#define thread_should_halt(thread) \ + ((thread)->ast & (AST_HALT|AST_TERMINATE)) + +/* + * Machine specific implementations of the current thread macro + * designate this by defining CURRENT_THREAD. + */ +#ifndef CURRENT_THREAD +#define current_thread() (active_threads[cpu_number()]) +#endif /* CURRENT_THREAD */ + +#define current_stack() (active_stacks[cpu_number()]) + +#define current_task() (current_thread()->task) +#define current_space() (current_task()->itk_space) +#define current_map() (current_task()->map) + +#endif /* _KERN_THREAD_H_ */ -- cgit v1.2.3