source: libcfa/src/concurrency/kernel/private.hfa @ 748877f

Last change on this file since 748877f was a8667ab, checked in by Peter A. Buhr <pabuhr@…>, 21 months ago

expunge all rseq code from runtime

  • Property mode set to 100644
File size: 13.2 KB
Line 
1//
2// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
3//
4// The contents of this file are covered under the licence agreement in the
5// file "LICENCE" distributed with Cforall.
6//
7// kernel/private.hfa --
8//
9// Author           : Thierry Delisle
10// Created On       : Mon Feb 13 12:27:26 2017
11// Last Modified By : Peter A. Buhr
12// Last Modified On : Thu Mar  2 16:04:46 2023
13// Update Count     : 11
14//
15
16#pragma once
17
18#if !defined(__cforall_thread__)
19        #error kernel/private.hfa should only be included in libcfathread source
20#endif
21
22#include <signal.h>
23
24#include "kernel.hfa"
25#include "thread.hfa"
26
27#include "alarm.hfa"
28#include "stats.hfa"
29
30extern "C" {
31        #include <sched.h>
32}
33
34// #define READYQ_USE_LINEAR_AVG
35#define READYQ_USE_LOGDBL_AVG
36// #define READYQ_USE_LOGINT_AVG
37
38#if   defined(READYQ_USE_LINEAR_AVG)
39typedef unsigned long long __readyQ_avg_t;
40#elif defined(READYQ_USE_LOGDBL_AVG)
41typedef double __readyQ_avg_t;
42#elif defined(READYQ_USE_LOGDBL_AVG)
43typedef unsigned long long __readyQ_avg_t;
44#else
45#error must pick a scheme for averaging
46#endif
47
48extern "C" {
49        __attribute__((visibility("protected"))) int __cfaabi_pthread_create(pthread_t *_thread, const pthread_attr_t *attr, void *(*start_routine) (void *), void *arg);
50        __attribute__((visibility("protected"))) int __cfaabi_pthread_join(pthread_t _thread, void **retval);
51        __attribute__((visibility("protected"))) pthread_t __cfaabi_pthread_self(void);
52        __attribute__((visibility("protected"))) int __cfaabi_pthread_attr_init(pthread_attr_t *attr);
53        __attribute__((visibility("protected"))) int __cfaabi_pthread_attr_destroy(pthread_attr_t *attr);
54        __attribute__((visibility("protected"))) int __cfaabi_pthread_attr_setstack( pthread_attr_t *attr, void *stackaddr, size_t stacksize );
55        __attribute__((visibility("protected"))) int __cfaabi_pthread_attr_getstacksize( const pthread_attr_t *attr, size_t *stacksize );
56        __attribute__((visibility("protected"))) int __cfaabi_pthread_sigqueue(pthread_t _thread, int sig, const union sigval value);
57        __attribute__((visibility("protected"))) int __cfaabi_pthread_sigmask( int how, const sigset_t *set, sigset_t *oset);
58}
59
60//-----------------------------------------------------------------------------
61// Scheduler
62union __attribute__((aligned(64))) __timestamp_t {
63        struct {
64                volatile unsigned long long tv;
65                volatile __readyQ_avg_t ma;
66        } t;
67        char __padding[192];
68};
69
70extern "C" {
71        void disable_interrupts() OPTIONAL_THREAD;
72        void enable_interrupts( bool poll = true );
73}
74
75void schedule_thread$( thread$ *, unpark_hint hint ) __attribute__((nonnull (1)));
76
77extern bool __preemption_enabled();
78
79enum {
80        PREEMPT_NORMAL    = 0,
81        PREEMPT_TERMINATE = 1,
82        PREEMPT_IO = 2,
83};
84
85static inline void __disable_interrupts_checked() {
86        /* paranoid */ verify( __preemption_enabled() );
87        disable_interrupts();
88        /* paranoid */ verify( ! __preemption_enabled() );
89}
90
91static inline void __enable_interrupts_checked( bool poll = true ) {
92        /* paranoid */ verify( ! __preemption_enabled() );
93        enable_interrupts( poll );
94        /* paranoid */ verify( __preemption_enabled() );
95}
96
97//release/wake-up the following resources
98void __thread_finish( thread$ * thrd );
99
100//-----------------------------------------------------------------------------
101// Hardware
102
103static inline int __kernel_getcpu() {
104        /* paranoid */ verify( ! __preemption_enabled() );
105        return sched_getcpu();
106}
107
108//-----------------------------------------------------------------------------
109// Processor
110void main(processorCtx_t &);
111static inline coroutine$* get_coroutine(processorCtx_t & this) { return &this.self; }
112
113void * __create_pthread( pthread_t *, void * (*)(void *), void * );
114void __destroy_pthread( pthread_t pthread, void * stack, void ** retval );
115
116extern cluster * mainCluster;
117
118//-----------------------------------------------------------------------------
119// Threads
120extern "C" {
121      void __cfactx_invoke_thread(void (*main)(void *), void * this);
122}
123
124__cfaabi_dbg_debug_do(
125        extern void __cfaabi_dbg_thread_register  ( thread$ * thrd );
126        extern void __cfaabi_dbg_thread_unregister( thread$ * thrd );
127)
128
129#define TICKET_BLOCKED (-1) // thread is blocked
130#define TICKET_RUNNING ( 0) // thread is running
131#define TICKET_UNBLOCK ( 1) // thread should ignore next block
132#define TICKET_DEAD    (0xDEAD) // thread should never be unparked
133
134//-----------------------------------------------------------------------------
135// Utils
136void doregister( struct cluster * cltr, struct thread$ & thrd );
137void unregister( struct cluster * cltr, struct thread$ & thrd );
138
139//-----------------------------------------------------------------------------
140// I/O
141io_arbiter$ * create(void);
142void destroy(io_arbiter$ *);
143
144//=======================================================================
145// Cluster lock API
146//=======================================================================
147// Lock-Free registering/unregistering of threads
148// Register a processor to a given cluster and get its unique id in return
149unsigned register_proc_id( void );
150
151// Unregister a processor from a given cluster using its id, getting back the original pointer
152void unregister_proc_id( unsigned );
153
154//=======================================================================
155// Reader-writer lock implementation
156// Concurrent with doregister/unregister,
157//    i.e., threads can be added at any point during or between the entry/exit
158
159//-----------------------------------------------------------------------
160// simple spinlock underlying the RWLock
161// Blocking acquire
162static inline void __atomic_acquire(volatile bool * ll) {
163        /* paranoid */ verify( ! __preemption_enabled() );
164        /* paranoid */ verify(ll);
165
166        while( __builtin_expect(__atomic_exchange_n(ll, (bool)true, __ATOMIC_SEQ_CST), false) ) {
167                while(__atomic_load_n(ll, (int)__ATOMIC_RELAXED))
168                        Pause();
169        }
170        /* paranoid */ verify(*ll);
171        /* paranoid */ verify( ! __preemption_enabled() );
172}
173
174// Non-Blocking acquire
175static inline bool __atomic_try_acquire(volatile bool * ll) {
176        /* paranoid */ verify( ! __preemption_enabled() );
177        /* paranoid */ verify(ll);
178
179        return !__atomic_exchange_n(ll, (bool)true, __ATOMIC_SEQ_CST);
180}
181
182// Release
183static inline void __atomic_unlock(volatile bool * ll) {
184        /* paranoid */ verify( ! __preemption_enabled() );
185        /* paranoid */ verify(ll);
186        /* paranoid */ verify(*ll);
187        __atomic_store_n(ll, (bool)false, __ATOMIC_RELEASE);
188}
189
190//-----------------------------------------------------------------------
191// Reader-Writer lock protecting the ready-queues
192// while this lock is mostly generic some aspects
193// have been hard-coded to for the ready-queue for
194// simplicity and performance
195union __attribute__((aligned(64))) __scheduler_RWLock_t {
196        struct {
197                __attribute__((aligned(64))) char padding;
198
199                // total cachelines allocated
200                __attribute__((aligned(64))) unsigned int max;
201
202                // cachelines currently in use
203                volatile unsigned int alloc;
204
205                // cachelines ready to itereate over
206                // (!= to alloc when thread is in second half of doregister)
207                volatile unsigned int ready;
208
209                // writer lock
210                volatile bool write_lock;
211
212                // data pointer
213                volatile bool * volatile * data;
214        } lock;
215        char pad[192];
216};
217
218void  ?{}(__scheduler_RWLock_t & this);
219void ^?{}(__scheduler_RWLock_t & this);
220
221extern __scheduler_RWLock_t __scheduler_lock;
222
223//-----------------------------------------------------------------------
224// Reader side : acquire when using the ready queue to schedule but not
225//  creating/destroying queues
226static inline void ready_schedule_lock(void) with(__scheduler_lock.lock) {
227        /* paranoid */ verify( ! __preemption_enabled() );
228        /* paranoid */ verify( ! kernelTLS().in_sched_lock );
229        /* paranoid */ verify( data[kernelTLS().sched_id] == &kernelTLS().sched_lock );
230        /* paranoid */ verify( !kernelTLS().this_processor || kernelTLS().this_processor->unique_id == kernelTLS().sched_id );
231
232        // Step 1 : make sure no writer are in the middle of the critical section
233        while(__atomic_load_n(&write_lock, (int)__ATOMIC_RELAXED))
234                Pause();
235
236        // Fence needed because we don't want to start trying to acquire the lock
237        // before we read a false.
238        // Not needed on x86
239        // std::atomic_thread_fence(std::memory_order_seq_cst);
240
241        // Step 2 : acquire our local lock
242        __atomic_acquire( &kernelTLS().sched_lock );
243        /*paranoid*/ verify(kernelTLS().sched_lock);
244
245        #ifdef __CFA_WITH_VERIFY__
246                // Debug, check if this is owned for reading
247                kernelTLS().in_sched_lock = true;
248        #endif
249}
250
251static inline void ready_schedule_unlock(void) with(__scheduler_lock.lock) {
252        /* paranoid */ verify( ! __preemption_enabled() );
253        /* paranoid */ verify( data[kernelTLS().sched_id] == &kernelTLS().sched_lock );
254        /* paranoid */ verify( !kernelTLS().this_processor || kernelTLS().this_processor->unique_id == kernelTLS().sched_id );
255        /* paranoid */ verify( kernelTLS().sched_lock );
256        /* paranoid */ verify( kernelTLS().in_sched_lock );
257        #ifdef __CFA_WITH_VERIFY__
258                // Debug, check if this is owned for reading
259                kernelTLS().in_sched_lock = false;
260        #endif
261        __atomic_unlock(&kernelTLS().sched_lock);
262}
263
264#ifdef __CFA_WITH_VERIFY__
265        static inline bool ready_schedule_islocked(void) {
266                /* paranoid */ verify( ! __preemption_enabled() );
267                /* paranoid */ verify( (!kernelTLS().in_sched_lock) || kernelTLS().sched_lock );
268                return kernelTLS().sched_lock;
269        }
270
271        static inline bool ready_mutate_islocked() {
272                return __scheduler_lock.lock.write_lock;
273        }
274#endif
275
276//-----------------------------------------------------------------------
277// Writer side : acquire when changing the ready queue, e.g. adding more
278//  queues or removing them.
279uint_fast32_t ready_mutate_lock( void );
280
281void ready_mutate_unlock( uint_fast32_t /* value returned by lock */ );
282
283//-----------------------------------------------------------------------
284// Lock-Free registering/unregistering of threads
285// Register a processor to a given cluster and get its unique id in return
286// For convenience, also acquires the lock
287static inline [unsigned, uint_fast32_t] ready_mutate_register() {
288        unsigned id = register_proc_id();
289        uint_fast32_t last = ready_mutate_lock();
290        return [id, last];
291}
292
293// Unregister a processor from a given cluster using its id, getting back the original pointer
294// assumes the lock is acquired
295static inline void ready_mutate_unregister( unsigned id, uint_fast32_t last_s ) {
296        ready_mutate_unlock( last_s );
297        unregister_proc_id( id );
298}
299
300//-----------------------------------------------------------------------
301// Cluster idle lock/unlock
302static inline void lock(__cluster_proc_list & this) {
303        /* paranoid */ verify( ! __preemption_enabled() );
304
305        // Start by locking the global RWlock so that we know no-one is
306        // adding/removing processors while we mess with the idle lock
307        ready_schedule_lock();
308
309        lock( this.lock __cfaabi_dbg_ctx2 );
310
311        /* paranoid */ verify( ! __preemption_enabled() );
312}
313
314static inline bool try_lock(__cluster_proc_list & this) {
315        /* paranoid */ verify( ! __preemption_enabled() );
316
317        // Start by locking the global RWlock so that we know no-one is
318        // adding/removing processors while we mess with the idle lock
319        ready_schedule_lock();
320
321        if(try_lock( this.lock __cfaabi_dbg_ctx2 )) {
322                // success
323                /* paranoid */ verify( ! __preemption_enabled() );
324                return true;
325        }
326
327        // failed to lock
328        ready_schedule_unlock();
329
330        /* paranoid */ verify( ! __preemption_enabled() );
331        return false;
332}
333
334static inline void unlock(__cluster_proc_list & this) {
335        /* paranoid */ verify( ! __preemption_enabled() );
336
337        unlock(this.lock);
338
339        // Release the global lock, which we acquired when locking
340        ready_schedule_unlock();
341
342        /* paranoid */ verify( ! __preemption_enabled() );
343}
344
345//=======================================================================
346// Ready-Queue API
347//-----------------------------------------------------------------------
348// push thread onto a ready queue for a cluster
349// returns true if the list was previously empty, false otherwise
350__attribute__((hot)) void push(struct cluster * cltr, struct thread$ * thrd, unpark_hint hint);
351
352//-----------------------------------------------------------------------
353// pop thread from the local queues of a cluster
354// returns 0p if empty
355// May return 0p spuriously
356__attribute__((hot)) struct thread$ * pop_fast(struct cluster * cltr);
357
358//-----------------------------------------------------------------------
359// pop thread from any ready queue of a cluster
360// returns 0p if empty
361// May return 0p spuriously
362__attribute__((hot)) struct thread$ * pop_slow(struct cluster * cltr);
363
364//-----------------------------------------------------------------------
365// search all ready queues of a cluster for any thread
366// returns 0p if empty
367// guaranteed to find any threads added before this call
368__attribute__((hot)) struct thread$ * pop_search(struct cluster * cltr);
369
370//-----------------------------------------------------------------------
371// get preferred ready for new thread
372unsigned ready_queue_new_preferred();
373
374//-----------------------------------------------------------------------
375// Increase the width of the ready queue (number of lanes) by 4
376void ready_queue_grow  (struct cluster * cltr);
377
378//-----------------------------------------------------------------------
379// Decrease the width of the ready queue (number of lanes) by 4
380void ready_queue_shrink(struct cluster * cltr);
381
382//-----------------------------------------------------------------------
383// Decrease the width of the ready queue (number of lanes) by 4
384void ready_queue_close(struct cluster * cltr);
385
386// Local Variables: //
387// mode: c //
388// tab-width: 4 //
389// End: //
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