kernel - use new td_ucred in numerous places
[dragonfly.git] / sys / sys / thread.h
CommitLineData
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1/*
2 * SYS/THREAD.H
3 *
4 * Implements the architecture independant portion of the LWKT
5 * subsystem.
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6 *
7 * Types which must already be defined when this header is included by
8 * userland: struct md_thread
2df9fa87 9 *
cbb1e737 10 * $DragonFly: src/sys/sys/thread.h,v 1.97 2008/09/20 04:31:02 sephe Exp $
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11 */
12
13#ifndef _SYS_THREAD_H_
14#define _SYS_THREAD_H_
15
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16#ifndef _SYS_STDINT_H_
17#include <sys/stdint.h> /* __int types */
18#endif
19#ifndef _SYS_PARAM_H_
20#include <sys/param.h> /* MAXCOMLEN */
21#endif
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22#ifndef _SYS_QUEUE_H_
23#include <sys/queue.h> /* TAILQ_* macros */
24#endif
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25#ifndef _SYS_MSGPORT_H_
26#include <sys/msgport.h> /* lwkt_port */
27#endif
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28#ifndef _SYS_TIME_H_
29#include <sys/time.h> /* struct timeval */
30#endif
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31#ifndef _SYS_SPINLOCK_H_
32#include <sys/spinlock.h>
33#endif
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34#ifndef _SYS_IOSCHED_H_
35#include <sys/iosched.h>
36#endif
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37#ifndef _MACHINE_THREAD_H_
38#include <machine/thread.h>
39#endif
8a8d5d85 40
f1d1c3fa 41struct globaldata;
ef09c3ed 42struct lwp;
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43struct proc;
44struct thread;
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45struct lwkt_queue;
46struct lwkt_token;
41a01a4d 47struct lwkt_tokref;
96728c05 48struct lwkt_ipiq;
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49struct lwkt_cpu_msg;
50struct lwkt_cpu_port;
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51struct lwkt_msg;
52struct lwkt_port;
3b6b7bd1 53struct lwkt_cpusync;
4fd10eb6 54union sysunion;
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55
56typedef struct lwkt_queue *lwkt_queue_t;
57typedef struct lwkt_token *lwkt_token_t;
41a01a4d 58typedef struct lwkt_tokref *lwkt_tokref_t;
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59typedef struct lwkt_cpu_msg *lwkt_cpu_msg_t;
60typedef struct lwkt_cpu_port *lwkt_cpu_port_t;
96728c05 61typedef struct lwkt_ipiq *lwkt_ipiq_t;
3b6b7bd1 62typedef struct lwkt_cpusync *lwkt_cpusync_t;
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63typedef struct thread *thread_t;
64
65typedef TAILQ_HEAD(lwkt_queue, thread) lwkt_queue;
f1d1c3fa 66
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67/*
68 * Differentiation between kernel threads and user threads. Userland
69 * programs which want to access to kernel structures have to define
70 * _KERNEL_STRUCTURES. This is a kinda safety valve to prevent badly
71 * written user programs from getting an LWKT thread that is neither the
72 * kernel nor the user version.
73 */
74#if defined(_KERNEL) || defined(_KERNEL_STRUCTURES)
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75#ifndef _MACHINE_THREAD_H_
76#include <machine/thread.h> /* md_thread */
77#endif
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78#ifndef _MACHINE_FRAME_H_
79#include <machine/frame.h>
80#endif
81#else
82struct intrframe;
ece04fd0 83#endif
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84
85/*
41a01a4d 86 * Tokens are used to serialize access to information. They are 'soft'
dd55d707 87 * serialization entities that only stay in effect while a thread is
41a01a4d 88 * running. If the thread blocks, other threads can run holding the same
dd55d707 89 * token(s). The tokens are reacquired when the original thread resumes.
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90 *
91 * A thread can depend on its serialization remaining intact through a
92 * preemption. An interrupt which attempts to use the same token as the
93 * thread being preempted will reschedule itself for non-preemptive
94 * operation, so the new token code is capable of interlocking against
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95 * interrupts as well as other cpus. This means that your token can only
96 * be (temporarily) lost if you *explicitly* block.
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97 *
98 * Tokens are managed through a helper reference structure, lwkt_tokref,
99 * which is typically declared on the caller's stack. Multiple tokref's
100 * may reference the same token.
dd55d707 101 *
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102 * It is possible to detect that your token was temporarily lost via
103 * lwkt_token_is_stale(), which uses the t_lastowner field. This field
104 * does NOT necessarily represent the current owner and can become stale
105 * (not point to a valid structure). It is used solely to detect
106 * whether the token was temporarily lost to another thread. The lost
107 * state is cleared by the function.
f1d1c3fa 108 */
dd55d707 109
f1d1c3fa 110typedef struct lwkt_token {
7eb611ef 111#ifdef SMP
9d265729 112 struct spinlock t_spinlock; /* Controls access */
dd55d707 113#else
dd55d707 114 struct spinlock t_unused01;
dd55d707 115#endif
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116 struct thread *t_owner; /* The current owner of the token */
117 int t_count; /* Per-thread count */
118 struct thread *t_lastowner; /* Last owner that acquired token */
119} lwkt_token;
dd55d707 120
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121#ifdef SMP
122#define LWKT_TOKEN_INITIALIZER(head) \
123{ \
124 .t_spinlock = SPINLOCK_INITIALIZER(head.t_spinlock), \
125 .t_owner = NULL, \
126 .t_lastowner = NULL, \
127 .t_count = 0 \
128}
129#else
130#define LWKT_TOKEN_INITIALIZER(head) \
131{ \
132 .t_owner = NULL, \
133 .t_lastowner = NULL, \
134 .t_count = 0 \
135}
136#endif
137
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138#define ASSERT_LWKT_TOKEN_HELD(token) \
139 KKASSERT((token)->t_owner == curthread)
140
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141typedef struct lwkt_tokref {
142 lwkt_token_t tr_tok; /* token in question */
41a01a4d 143 lwkt_tokref_t tr_next; /* linked list */
9d265729 144 int tr_state; /* 0 = don't have, 1 = have */
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145} lwkt_tokref;
146
41a01a4d 147#define LWKT_TOKREF_INIT(tok) \
9d265729 148 { tok, NULL, 0 }
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149#define LWKT_TOKREF_DECLARE(name, tok) \
150 lwkt_tokref name = LWKT_TOKREF_INIT(tok)
151
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152#define MAXCPUFIFO 16 /* power of 2 */
153#define MAXCPUFIFO_MASK (MAXCPUFIFO - 1)
41a01a4d 154#define LWKT_MAXTOKENS 16 /* max tokens beneficially held by thread */
96728c05 155
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156/*
157 * Always cast to ipifunc_t when registering an ipi. The actual ipi function
158 * is called with both the data and an interrupt frame, but the ipi function
159 * that is registered might only declare a data argument.
160 */
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161typedef void (*ipifunc1_t)(void *arg);
162typedef void (*ipifunc2_t)(void *arg, int arg2);
163typedef void (*ipifunc3_t)(void *arg, int arg2, struct intrframe *frame);
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164
165typedef struct lwkt_ipiq {
166 int ip_rindex; /* only written by target cpu */
166ec852 167 int ip_xindex; /* written by target, indicates completion */
96728c05 168 int ip_windex; /* only written by source cpu */
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169 ipifunc3_t ip_func[MAXCPUFIFO];
170 void *ip_arg1[MAXCPUFIFO];
171 int ip_arg2[MAXCPUFIFO];
4c9f5a7f 172 u_int ip_npoll; /* synchronization to avoid excess IPIs */
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173} lwkt_ipiq;
174
f1d1c3fa 175/*
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176 * CPU Synchronization structure. See lwkt_cpusync_start() and
177 * lwkt_cpusync_finish() for more information.
178 */
179typedef void (*cpusync_func_t)(lwkt_cpusync_t poll);
180typedef void (*cpusync_func2_t)(void *data);
181
182struct lwkt_cpusync {
183 cpusync_func_t cs_run_func; /* run (tandem w/ acquire) */
184 cpusync_func_t cs_fin1_func; /* fin1 (synchronized) */
185 cpusync_func2_t cs_fin2_func; /* fin2 (tandem w/ release) */
186 void *cs_data;
5c71a36a 187 int cs_maxcount;
3b6b7bd1 188 volatile int cs_count;
5c71a36a 189 cpumask_t cs_mask;
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190};
191
192/*
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193 * The standard message and queue structure used for communications between
194 * cpus. Messages are typically queued via a machine-specific non-linked
195 * FIFO matrix allowing any cpu to send a message to any other cpu without
196 * blocking.
197 */
198typedef struct lwkt_cpu_msg {
199 void (*cm_func)(lwkt_cpu_msg_t msg); /* primary dispatch function */
200 int cm_code; /* request code if applicable */
201 int cm_cpu; /* reply to cpu */
202 thread_t cm_originator; /* originating thread for wakeup */
203} lwkt_cpu_msg;
204
205/*
f1d1c3fa 206 * Thread structure. Note that ownership of a thread structure is special
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207 * cased and there is no 'token'. A thread is always owned by the cpu
208 * represented by td_gd, any manipulation of the thread by some other cpu
209 * must be done through cpu_*msg() functions. e.g. you could request
210 * ownership of a thread that way, or hand a thread off to another cpu.
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211 *
212 * NOTE: td_pri is bumped by TDPRI_CRIT when entering a critical section,
213 * but this does not effect how the thread is scheduled by LWKT.
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214 *
215 * NOTE: td_ucred is synchronized from the p_ucred on user->kernel syscall,
216 * trap, and AST/signal transitions to provide a stable ucred for
217 * (primarily) system calls. This field will be NULL for pure kernel
218 * threads.
f1d1c3fa 219 */
96728c05 220struct md_intr_info;
f6bf3af1 221struct caps_kinfo;
96728c05 222
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223struct thread {
224 TAILQ_ENTRY(thread) td_threadq;
73e4f7b9 225 TAILQ_ENTRY(thread) td_allq;
ae8e83e6 226 TAILQ_ENTRY(thread) td_sleepq;
ece04fd0 227 lwkt_port td_msgport; /* built-in message port for replies */
ef09c3ed 228 struct lwp *td_lwp; /* (optional) associated lwp */
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229 struct proc *td_proc; /* (optional) associated process */
230 struct pcb *td_pcb; /* points to pcb and top of kstack */
26a0694b 231 struct globaldata *td_gd; /* associated with this cpu */
ae8050a4 232 const char *td_wmesg; /* string name for blockage */
0cfcada1 233 void *td_wchan; /* waiting on channel */
4b5f931b 234 int td_pri; /* 0-31, 31=highest priority (note 1) */
b8337f35 235 int td_flags; /* TDF flags */
da5fb9ef 236 int td_wdomain; /* domain for wchan address (typ 0) */
96728c05 237 void (*td_preemptable)(struct thread *td, int critpri);
a2a5ad0d 238 void (*td_release)(struct thread *td);
7e1d4bf4 239 char *td_kstack; /* kernel stack */
f470d0c8 240 int td_kstack_size; /* size of kernel stack */
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241 char *td_sp; /* kernel stack pointer for LWKT restore */
242 void (*td_switch)(struct thread *ntd);
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243 __uint64_t td_uticks; /* Statclock hits in user mode (uS) */
244 __uint64_t td_sticks; /* Statclock hits in system mode (uS) */
245 __uint64_t td_iticks; /* Statclock hits processing intr (uS) */
69d78e99 246 int td_locks; /* lockmgr lock debugging */
d666840a 247 int td_unused01;
73e4f7b9 248 int td_refs; /* hold position in gd_tdallq / hold free */
46a3f46d 249 int td_nest_count; /* prevent splz nesting */
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250#ifdef SMP
251 int td_mpcount; /* MP lock held (count) */
0f7a3396 252 int td_cscount; /* cpu synchronization master */
8a8d5d85 253#else
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254 int td_mpcount_unused; /* filler so size matches */
255 int td_cscount_unused;
8a8d5d85 256#endif
79eae878 257 struct iosched_data td_iosdata; /* Dynamic I/O scheduling data */
41f3429e 258 struct timeval td_start; /* start time for a thread/process */
0cfcada1 259 char td_comm[MAXCOMLEN+1]; /* typ 16+1 bytes */
99df837e 260 struct thread *td_preempted; /* we preempted this thread */
d86a23e0 261 struct ucred *td_ucred; /* synchronized from p_ucred */
f6bf3af1 262 struct caps_kinfo *td_caps; /* list of client and server registrations */
41a01a4d 263 lwkt_tokref_t td_toks; /* tokens beneficially held */
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264#ifdef DEBUG_CRIT_SECTIONS
265#define CRIT_DEBUG_ARRAY_SIZE 32
266#define CRIT_DEBUG_ARRAY_MASK (CRIT_DEBUG_ARRAY_SIZE - 1)
267 const char *td_crit_debug_array[CRIT_DEBUG_ARRAY_SIZE];
268 int td_crit_debug_index;
269 int td_in_crit_report;
270#endif
85100692 271 struct md_thread td_mach;
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272};
273
2df9fa87 274/*
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275 * Thread flags. Note that TDF_RUNNING is cleared on the old thread after
276 * we switch to the new one, which is necessary because LWKTs don't need
277 * to hold the BGL. This flag is used by the exit code and the managed
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278 * thread migration code. Note in addition that preemption will cause
279 * TDF_RUNNING to be cleared temporarily, so any code checking TDF_RUNNING
280 * must also check TDF_PREEMPT_LOCK.
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281 *
282 * LWKT threads stay on their (per-cpu) run queue while running, not to
283 * be confused with user processes which are removed from the user scheduling
284 * run queue while actually running.
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285 *
286 * td_threadq can represent the thread on one of three queues... the LWKT
287 * run queue, a tsleep queue, or an lwkt blocking queue. The LWKT subsystem
288 * does not allow a thread to be scheduled if it already resides on some
289 * queue.
8ad65e08 290 */
d9eea1a5 291#define TDF_RUNNING 0x0001 /* thread still active */
a2a5ad0d 292#define TDF_RUNQ 0x0002 /* on an LWKT run queue */
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293#define TDF_PREEMPT_LOCK 0x0004 /* I have been preempted */
294#define TDF_PREEMPT_DONE 0x0008 /* acknowledge preemption complete */
a2a5ad0d 295#define TDF_IDLE_NOHLT 0x0010 /* we need to spin */
5d21b981 296#define TDF_MIGRATING 0x0020 /* thread is being migrated */
d9d6cb99 297#define TDF_SINTR 0x0040 /* interruptability hint for 'ps' */
344ad853 298#define TDF_TSLEEPQ 0x0080 /* on a tsleep wait queue */
26a0694b 299
4ecf7cc9 300#define TDF_SYSTHREAD 0x0100 /* allocations may use reserve */
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301#define TDF_ALLOCATED_THREAD 0x0200 /* objcache allocated thread */
302#define TDF_ALLOCATED_STACK 0x0400 /* objcache allocated stack */
99df837e 303#define TDF_VERBOSE 0x0800 /* verbose on exit */
dadab5e9 304#define TDF_DEADLKTREAT 0x1000 /* special lockmgr deadlock treatment */
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305#define TDF_STOPREQ 0x2000 /* suspend_kproc */
306#define TDF_WAKEREQ 0x4000 /* resume_kproc */
307#define TDF_TIMEOUT 0x8000 /* tsleep timeout */
03aa8d99 308#define TDF_INTTHREAD 0x00010000 /* interrupt thread */
ae8e83e6 309#define TDF_TSLEEP_DESCHEDULED 0x00020000 /* tsleep core deschedule */
8ec60c3f 310#define TDF_BLOCKED 0x00040000 /* Thread is blocked */
a7422615 311#define TDF_PANICWARN 0x00080000 /* panic warning in switch */
344ad853 312#define TDF_BLOCKQ 0x00100000 /* on block queue */
c2fba90b 313#define TDF_MPSAFE 0x00200000 /* (thread creation) */
c1102e9f 314#define TDF_EXITING 0x00400000 /* thread exiting */
1b251f0a 315#define TDF_USINGFP 0x00800000 /* thread using fp coproc */
aad81e48 316#define TDF_KERNELFP 0x01000000 /* kernel using fp coproc */
cbb1e737 317#define TDF_NETWORK 0x02000000 /* network proto thread */
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318
319/*
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320 * Thread priorities. Typically only one thread from any given
321 * user process scheduling queue is on the LWKT run queue at a time.
322 * Remember that there is one LWKT run queue per cpu.
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323 *
324 * Critical sections are handled by bumping td_pri above TDPRI_MAX, which
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325 * causes interrupts to be masked as they occur. When this occurs a
326 * rollup flag will be set in mycpu->gd_reqflags.
2df9fa87 327 */
f1d1c3fa 328#define TDPRI_IDLE_THREAD 0 /* the idle thread */
50017724 329#define TDPRI_USER_SCHEDULER 2 /* user scheduler helper */
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330#define TDPRI_USER_IDLE 4 /* user scheduler idle */
331#define TDPRI_USER_NORM 6 /* user scheduler normal */
332#define TDPRI_USER_REAL 8 /* user scheduler real time */
9ae9ee8d 333#define TDPRI_KERN_LPSCHED 9 /* scheduler helper for userland sch */
f1d1c3fa 334#define TDPRI_KERN_USER 10 /* kernel / block in syscall */
26a0694b 335#define TDPRI_KERN_DAEMON 12 /* kernel daemon (pageout, etc) */
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336#define TDPRI_SOFT_NORM 14 /* kernel / normal */
337#define TDPRI_SOFT_TIMER 16 /* kernel / timer */
ae8050a4 338#define TDPRI_EXITING 19 /* exiting thread */
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339#define TDPRI_INT_SUPPORT 20 /* kernel / high priority support */
340#define TDPRI_INT_LOW 27 /* low priority interrupt */
341#define TDPRI_INT_MED 28 /* medium priority interrupt */
342#define TDPRI_INT_HIGH 29 /* high priority interrupt */
343#define TDPRI_MAX 31
344
345#define TDPRI_MASK 31
346#define TDPRI_CRIT 32 /* high bits of td_pri used for crit */
2df9fa87 347
d9d13bd5 348#ifdef _KERNEL
f470d0c8 349#define LWKT_THREAD_STACK (UPAGES * PAGE_SIZE)
d9d13bd5 350#endif
f470d0c8 351
ef0fdad1 352#define CACHE_NTHREADS 6
7e1d4bf4 353
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354#define IN_CRITICAL_SECT(td) ((td)->td_pri >= TDPRI_CRIT)
355
40aaf5fc 356extern void lwkt_init(void);
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357extern struct thread *lwkt_alloc_thread(struct thread *, int, int, int);
358extern void lwkt_init_thread(struct thread *, void *, int, int,
359 struct globaldata *);
360extern void lwkt_set_comm(thread_t, const char *, ...);
361extern void lwkt_wait_free(struct thread *);
362extern void lwkt_free_thread(struct thread *);
363extern void lwkt_gdinit(struct globaldata *);
8ad65e08 364extern void lwkt_switch(void);
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365extern void lwkt_preempt(thread_t, int);
366extern void lwkt_schedule(thread_t);
361d01dd 367extern void lwkt_schedule_noresched(thread_t);
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368extern void lwkt_schedule_self(thread_t);
369extern void lwkt_deschedule(thread_t);
370extern void lwkt_deschedule_self(thread_t);
f1d1c3fa 371extern void lwkt_yield(void);
3824f392 372extern void lwkt_user_yield(void);
41a01a4d 373extern void lwkt_token_wait(void);
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374extern void lwkt_hold(thread_t);
375extern void lwkt_rele(thread_t);
3824f392 376extern void lwkt_passive_release(thread_t);
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377
378extern void lwkt_gettoken(lwkt_tokref_t, lwkt_token_t);
379extern int lwkt_trytoken(lwkt_tokref_t, lwkt_token_t);
380extern void lwkt_gettokref(lwkt_tokref_t);
381extern int lwkt_trytokref(lwkt_tokref_t);
382extern void lwkt_reltoken(lwkt_tokref_t);
383extern int lwkt_getalltokens(thread_t);
384extern void lwkt_relalltokens(thread_t);
41a01a4d 385extern void lwkt_drain_token_requests(void);
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386extern void lwkt_token_init(lwkt_token_t);
387extern void lwkt_token_uninit(lwkt_token_t);
7eb611ef 388extern int lwkt_token_is_stale(lwkt_tokref_t);
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389
390extern void lwkt_token_pool_init(void);
b9665ad7 391extern lwkt_token_t lwkt_token_pool_get(void *);
41a01a4d 392
b9665ad7 393extern void lwkt_setpri(thread_t, int);
03bd0a5e 394extern void lwkt_setpri_initial(thread_t, int);
b9665ad7 395extern void lwkt_setpri_self(int);
b9eb1c19 396extern int lwkt_check_resched(thread_t);
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397extern void lwkt_setcpu_self(struct globaldata *);
398extern void lwkt_migratecpu(int);
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399
400#ifdef SMP
401
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402extern void lwkt_giveaway(struct thread *);
403extern void lwkt_acquire(struct thread *);
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404extern int lwkt_send_ipiq3(struct globaldata *, ipifunc3_t, void *, int);
405extern int lwkt_send_ipiq3_passive(struct globaldata *, ipifunc3_t,
406 void *, int);
407extern int lwkt_send_ipiq3_nowait(struct globaldata *, ipifunc3_t,
408 void *, int);
409extern int lwkt_send_ipiq3_bycpu(int, ipifunc3_t, void *, int);
410extern int lwkt_send_ipiq3_mask(cpumask_t, ipifunc3_t, void *, int);
411extern void lwkt_wait_ipiq(struct globaldata *, int);
412extern int lwkt_seq_ipiq(struct globaldata *);
96728c05 413extern void lwkt_process_ipiq(void);
88c4d2f6 414#ifdef _KERNEL
b9665ad7 415extern void lwkt_process_ipiq_frame(struct intrframe *);
88c4d2f6 416#endif
b8a98473 417extern void lwkt_smp_stopped(void);
6c92c1f2 418extern void lwkt_synchronize_ipiqs(const char *);
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419
420#endif /* SMP */
421
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422extern void lwkt_cpusync_simple(cpumask_t, cpusync_func_t, void *);
423extern void lwkt_cpusync_fastdata(cpumask_t, cpusync_func2_t, void *);
424extern void lwkt_cpusync_start(cpumask_t, lwkt_cpusync_t);
425extern void lwkt_cpusync_add(cpumask_t, lwkt_cpusync_t);
426extern void lwkt_cpusync_finish(lwkt_cpusync_t);
b8a98473 427
26a0694b 428extern void crit_panic(void);
553ea3c8 429extern struct lwp *lwkt_preempted_proc(void);
4b5f931b 430
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431extern int lwkt_create (void (*func)(void *), void *, struct thread **,
432 struct thread *, int, int, const char *, ...);
b153f746 433extern void lwkt_exit (void) __dead2;
e56e4dea 434extern void lwkt_remove_tdallq (struct thread *);
57aa743c 435extern void lwkt_mp_lock_contested(void);
b9eb1c19 436extern void lwkt_mp_lock_uncontested(void);
99df837e 437
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438#endif
439