source: libcfa/src/concurrency/kernel/startup.cfa @ 73f4d08

arm-ehjacob/cs343-translationnew-ast-unique-expr
Last change on this file since 73f4d08 was 73f4d08, checked in by Thierry Delisle <tdelisle@…>, 6 months ago

Added stats implementation for dumping a big array of timestamped values.
Disabled by default. I might not keep it but committing it for now.

  • Property mode set to 100644
File size: 23.6 KB
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1//
2// Cforall Version 1.0.0 Copyright (C) 2020 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/startup.cfa --
8//
9// Author           : Thierry Delisle
10// Created On       : Thu Jul 30 15:12:54 2020
11// Last Modified By :
12// Last Modified On :
13// Update Count     :
14//
15
16#define __cforall_thread__
17
18// C Includes
19#include <errno.h>              // errno
20#include <string.h>             // strerror
21#include <unistd.h>             // sysconf
22extern "C" {
23      #include <limits.h>       // PTHREAD_STACK_MIN
24        #include <sys/eventfd.h>  // eventfd
25      #include <sys/mman.h>     // mprotect
26      #include <sys/resource.h> // getrlimit
27}
28
29// CFA Includes
30#include "kernel_private.hfa"
31#include "startup.hfa"          // STARTUP_PRIORITY_XXX
32#include "math.hfa"
33
34#define CFA_PROCESSOR_USE_MMAP 0
35
36//-----------------------------------------------------------------------------
37// Some assembly required
38#if defined( __i386 )
39        #define CtxGet( ctx ) __asm__ volatile ( \
40                "movl %%esp,%0\n" \
41                "movl %%ebp,%1\n" \
42                : "=rm" (ctx.SP), \
43                  "=rm" (ctx.FP) \
44        )
45#elif defined( __x86_64 )
46        #define CtxGet( ctx ) __asm__ volatile ( \
47                "movq %%rsp,%0\n" \
48                "movq %%rbp,%1\n" \
49                : "=rm" (ctx.SP), \
50                  "=rm" (ctx.FP) \
51        )
52#elif defined( __aarch64__ )
53        #define CtxGet( ctx ) __asm__ volatile ( \
54                "mov %0, sp\n" \
55                "mov %1, fp\n" \
56                : "=rm" (ctx.SP), \
57                  "=rm" (ctx.FP) \
58        )
59#else
60        #error unknown hardware architecture
61#endif
62
63//-----------------------------------------------------------------------------
64// Start and stop routine for the kernel, declared first to make sure they run first
65static void __kernel_startup (void) __attribute__(( constructor( STARTUP_PRIORITY_KERNEL ) ));
66static void __kernel_shutdown(void) __attribute__(( destructor ( STARTUP_PRIORITY_KERNEL ) ));
67
68//-----------------------------------------------------------------------------
69// Static Forward Declarations
70struct current_stack_info_t;
71
72static void * __invoke_processor(void * arg);
73static void __kernel_first_resume( processor * this );
74static void __kernel_last_resume ( processor * this );
75static void init(processor & this, const char name[], cluster & _cltr, $thread * initT);
76static void deinit(processor & this);
77static void doregister( struct cluster & cltr );
78static void unregister( struct cluster & cltr );
79static void ?{}( $coroutine & this, current_stack_info_t * info);
80static void ?{}( $thread & this, current_stack_info_t * info);
81static void ?{}(processorCtx_t & this) {}
82static void ?{}(processorCtx_t & this, processor * proc, current_stack_info_t * info);
83
84#if defined(__CFA_WITH_VERIFY__)
85        static bool verify_fwd_bck_rng(void);
86#endif
87
88//-----------------------------------------------------------------------------
89// Forward Declarations for other modules
90extern void __kernel_alarm_startup(void);
91extern void __kernel_alarm_shutdown(void);
92
93//-----------------------------------------------------------------------------
94// Other Forward Declarations
95extern void __wake_proc(processor *);
96
97//-----------------------------------------------------------------------------
98// Kernel storage
99KERNEL_STORAGE(cluster,              mainCluster);
100KERNEL_STORAGE(processor,            mainProcessor);
101KERNEL_STORAGE($thread,              mainThread);
102KERNEL_STORAGE(__stack_t,            mainThreadCtx);
103KERNEL_STORAGE(__scheduler_RWLock_t, __scheduler_lock);
104#if !defined(__CFA_NO_STATISTICS__)
105KERNEL_STORAGE(__stats_t, mainProcStats);
106#endif
107
108cluster              * mainCluster;
109processor            * mainProcessor;
110$thread              * mainThread;
111__scheduler_RWLock_t * __scheduler_lock;
112
113extern "C" {
114        struct { __dllist_t(cluster) list; __spinlock_t lock; } __cfa_dbg_global_clusters;
115}
116
117extern size_t __page_size;
118extern int __map_prot;
119
120//-----------------------------------------------------------------------------
121// Global state
122thread_local struct KernelThreadData __cfaabi_tls __attribute__ ((tls_model ( "initial-exec" ))) @= {
123        NULL,                                                                                           // cannot use 0p
124        NULL,
125        NULL,
126        NULL,
127        { 1, false, false },
128};
129
130//-----------------------------------------------------------------------------
131// Struct to steal stack
132struct current_stack_info_t {
133        __stack_t * storage;  // pointer to stack object
134        void * base;          // base of stack
135        void * limit;         // stack grows towards stack limit
136        void * context;       // address of cfa_context_t
137};
138
139void ?{}( current_stack_info_t & this ) {
140        __stack_context_t ctx;
141        CtxGet( ctx );
142        this.base = ctx.FP;
143
144        rlimit r;
145        getrlimit( RLIMIT_STACK, &r);
146        size_t size = r.rlim_cur;
147
148        this.limit = (void *)(((intptr_t)this.base) - size);
149        this.context = &storage_mainThreadCtx;
150}
151
152
153
154//=============================================================================================
155// Kernel Setup logic
156//=============================================================================================
157//-----------------------------------------------------------------------------
158// Kernel boot procedures
159static void __kernel_startup(void) {
160        /* paranoid */ verify( ! __preemption_enabled() );
161        __cfadbg_print_safe(runtime_core, "Kernel : Starting\n");
162
163        __cfa_dbg_global_clusters.list{ __get };
164        __cfa_dbg_global_clusters.lock{};
165
166        /* paranoid */ verify( verify_fwd_bck_rng() );
167
168        // Initialize the global scheduler lock
169        __scheduler_lock = (__scheduler_RWLock_t*)&storage___scheduler_lock;
170        (*__scheduler_lock){};
171
172        // Initialize the main cluster
173        mainCluster = (cluster *)&storage_mainCluster;
174        (*mainCluster){"Main Cluster", 0};
175
176        __cfadbg_print_safe(runtime_core, "Kernel : Main cluster ready\n");
177
178        // Start by initializing the main thread
179        // SKULLDUGGERY: the mainThread steals the process main thread
180        // which will then be scheduled by the mainProcessor normally
181        mainThread = ($thread *)&storage_mainThread;
182        current_stack_info_t info;
183        info.storage = (__stack_t*)&storage_mainThreadCtx;
184        (*mainThread){ &info };
185
186        __cfadbg_print_safe(runtime_core, "Kernel : Main thread ready\n");
187
188
189
190        // Construct the processor context of the main processor
191        void ?{}(processorCtx_t & this, processor * proc) {
192                (this.__cor){ "Processor" };
193                this.__cor.starter = 0p;
194                this.proc = proc;
195        }
196
197        void ?{}(processor & this) with( this ) {
198                ( this.terminated ){};
199                ( this.runner ){};
200                init( this, "Main Processor", *mainCluster, 0p );
201                kernel_thread = pthread_self();
202
203                runner{ &this };
204                __cfadbg_print_safe(runtime_core, "Kernel : constructed main processor context %p\n", &runner);
205        }
206
207        // Initialize the main processor and the main processor ctx
208        // (the coroutine that contains the processing control flow)
209        mainProcessor = (processor *)&storage_mainProcessor;
210        (*mainProcessor){};
211
212        //initialize the global state variables
213        __cfaabi_tls.this_processor = mainProcessor;
214        __cfaabi_tls.this_proc_id   = (__processor_id_t*)mainProcessor;
215        __cfaabi_tls.this_thread    = mainThread;
216
217        #if !defined( __CFA_NO_STATISTICS__ )
218                __cfaabi_tls.this_stats = (__stats_t *)& storage_mainProcStats;
219                __init_stats( __cfaabi_tls.this_stats );
220        #endif
221
222        // Enable preemption
223        __kernel_alarm_startup();
224
225        // Add the main thread to the ready queue
226        // once resume is called on mainProcessor->runner the mainThread needs to be scheduled like any normal thread
227        __schedule_thread(mainThread);
228
229        // SKULLDUGGERY: Force a context switch to the main processor to set the main thread's context to the current UNIX
230        // context. Hence, the main thread does not begin through __cfactx_invoke_thread, like all other threads. The trick here is that
231        // mainThread is on the ready queue when this call is made.
232        __kernel_first_resume( __cfaabi_tls.this_processor );
233
234
235        // THE SYSTEM IS NOW COMPLETELY RUNNING
236
237        __cfadbg_print_safe(runtime_core, "Kernel : Started\n--------------------------------------------------\n\n");
238
239        /* paranoid */ verify( ! __preemption_enabled() );
240        enable_interrupts( __cfaabi_dbg_ctx );
241        /* paranoid */ verify( __preemption_enabled() );
242
243}
244
245static void __kernel_shutdown(void) {
246        /* paranoid */ verify( __preemption_enabled() );
247        disable_interrupts();
248        /* paranoid */ verify( ! __preemption_enabled() );
249
250        __cfadbg_print_safe(runtime_core, "\n--------------------------------------------------\nKernel : Shutting down\n");
251
252        // SKULLDUGGERY: Notify the mainProcessor it needs to terminates.
253        // When its coroutine terminates, it return control to the mainThread
254        // which is currently here
255        __atomic_store_n(&mainProcessor->do_terminate, true, __ATOMIC_RELEASE);
256        __kernel_last_resume( __cfaabi_tls.this_processor );
257        mainThread->self_cor.state = Halted;
258
259        // THE SYSTEM IS NOW COMPLETELY STOPPED
260
261        // Disable preemption
262        __kernel_alarm_shutdown();
263
264        #if !defined( __CFA_NO_STATISTICS__ )
265                __stats_t * st = (__stats_t *)& storage_mainProcStats;
266                __tally_stats(mainCluster->stats, st);
267                if( 0 != mainProcessor->print_stats ) {
268                        __print_stats( st, mainProcessor->print_stats, "Processor ", mainProcessor->name, (void*)mainProcessor );
269                }
270                #if defined(CFA_STATS_ARRAY)
271                        __flush_stat( st, "Processor", mainProcessor );
272                #endif
273        #endif
274
275        // Destroy the main processor and its context in reverse order of construction
276        // These were manually constructed so we need manually destroy them
277        void ^?{}(processor & this) with( this ){
278                deinit( this );
279
280                /* paranoid */ verify( this.do_terminate == true );
281                __cfaabi_dbg_print_safe("Kernel : destroyed main processor context %p\n", &runner);
282        }
283
284        ^(*mainProcessor){};
285
286        // Final step, destroy the main thread since it is no longer needed
287
288        // Since we provided a stack to this taxk it will not destroy anything
289        /* paranoid */ verify(mainThread->self_cor.stack.storage == (__stack_t*)(((uintptr_t)&storage_mainThreadCtx)| 0x1));
290        ^(*mainThread){};
291
292        ^(*mainCluster){};
293
294        ^(*__scheduler_lock){};
295
296        ^(__cfa_dbg_global_clusters.list){};
297        ^(__cfa_dbg_global_clusters.lock){};
298
299        __cfadbg_print_safe(runtime_core, "Kernel : Shutdown complete\n");
300}
301
302//=============================================================================================
303// Kernel Initial Scheduling logic
304//=============================================================================================
305
306// Context invoker for processors
307// This is the entry point for processors (kernel threads) *except* for the main processor
308// It effectively constructs a coroutine by stealing the pthread stack
309static void * __invoke_processor(void * arg) {
310        #if !defined( __CFA_NO_STATISTICS__ )
311                __stats_t local_stats;
312                __init_stats( &local_stats );
313                __cfaabi_tls.this_stats = &local_stats;
314        #endif
315
316        processor * proc = (processor *) arg;
317        __cfaabi_tls.this_processor = proc;
318        __cfaabi_tls.this_proc_id   = (__processor_id_t*)proc;
319        __cfaabi_tls.this_thread    = 0p;
320        __cfaabi_tls.preemption_state.[enabled, disable_count] = [false, 1];
321        // SKULLDUGGERY: We want to create a context for the processor coroutine
322        // which is needed for the 2-step context switch. However, there is no reason
323        // to waste the perfectly valid stack create by pthread.
324        current_stack_info_t info;
325        __stack_t ctx;
326        info.storage = &ctx;
327        (proc->runner){ proc, &info };
328
329        __cfaabi_dbg_print_safe("Coroutine : created stack %p\n", get_coroutine(proc->runner)->stack.storage);
330
331        //Set global state
332        __cfaabi_tls.this_thread = 0p;
333
334        //We now have a proper context from which to schedule threads
335        __cfadbg_print_safe(runtime_core, "Kernel : core %p created (%p, %p)\n", proc, &proc->runner, &ctx);
336
337        // SKULLDUGGERY: Since the coroutine doesn't have its own stack, we can't
338        // resume it to start it like it normally would, it will just context switch
339        // back to here. Instead directly call the main since we already are on the
340        // appropriate stack.
341        get_coroutine(proc->runner)->state = Active;
342        main( proc->runner );
343        get_coroutine(proc->runner)->state = Halted;
344
345        // Main routine of the core returned, the core is now fully terminated
346        __cfadbg_print_safe(runtime_core, "Kernel : core %p main ended (%p)\n", proc, &proc->runner);
347
348        #if !defined(__CFA_NO_STATISTICS__)
349                __tally_stats(proc->cltr->stats, &local_stats);
350                if( 0 != proc->print_stats ) {
351                        __print_stats( &local_stats, proc->print_stats, "Processor ", proc->name, (void*)proc );
352                }
353                #if defined(CFA_STATS_ARRAY)
354                        __flush_stat( &local_stats, "Processor", proc );
355                #endif
356        #endif
357
358        return 0p;
359}
360
361static void __kernel_first_resume( processor * this ) {
362        $thread * src = mainThread;
363        $coroutine * dst = get_coroutine(this->runner);
364
365        /* paranoid */ verify( ! __preemption_enabled() );
366
367        __cfaabi_tls.this_thread->curr_cor = dst;
368        __stack_prepare( &dst->stack, 65000 );
369        __cfactx_start(main, dst, this->runner, __cfactx_invoke_coroutine);
370
371        /* paranoid */ verify( ! __preemption_enabled() );
372
373        dst->last = &src->self_cor;
374        dst->starter = dst->starter ? dst->starter : &src->self_cor;
375
376        // make sure the current state is still correct
377        /* paranoid */ verify(src->state == Ready);
378
379        // context switch to specified coroutine
380        verify( dst->context.SP );
381        __cfactx_switch( &src->context, &dst->context );
382        // when __cfactx_switch returns we are back in the src coroutine
383
384        mainThread->curr_cor = &mainThread->self_cor;
385
386        // make sure the current state has been update
387        /* paranoid */ verify(src->state == Active);
388
389        /* paranoid */ verify( ! __preemption_enabled() );
390}
391
392// KERNEL_ONLY
393static void __kernel_last_resume( processor * this ) {
394        $coroutine * src = &mainThread->self_cor;
395        $coroutine * dst = get_coroutine(this->runner);
396
397        /* paranoid */ verify( ! __preemption_enabled() );
398        /* paranoid */ verify( dst->starter == src );
399        /* paranoid */ verify( dst->context.SP );
400
401        // SKULLDUGGERY in debug the processors check that the
402        // stack is still within the limit of the stack limits after running a thread.
403        // that check doesn't make sense if we context switch to the processor using the
404        // coroutine semantics. Since this is a special case, use the current context
405        // info to populate these fields.
406        __cfaabi_dbg_debug_do(
407                __stack_context_t ctx;
408                CtxGet( ctx );
409                mainThread->context.SP = ctx.SP;
410                mainThread->context.FP = ctx.FP;
411        )
412
413        // context switch to the processor
414        __cfactx_switch( &src->context, &dst->context );
415}
416
417
418//=============================================================================================
419// Kernel Object Constructors logic
420//=============================================================================================
421//-----------------------------------------------------------------------------
422// Main thread construction
423static void ?{}( $coroutine & this, current_stack_info_t * info) with( this ) {
424        stack.storage = info->storage;
425        with(*stack.storage) {
426                limit     = info->limit;
427                base      = info->base;
428        }
429        __attribute__((may_alias)) intptr_t * istorage = (intptr_t*) &stack.storage;
430        *istorage |= 0x1;
431        name = "Main Thread";
432        state = Start;
433        starter = 0p;
434        last = 0p;
435        cancellation = 0p;
436}
437
438static void ?{}( $thread & this, current_stack_info_t * info) with( this ) {
439        ticket = TICKET_RUNNING;
440        state = Start;
441        self_cor{ info };
442        curr_cor = &self_cor;
443        curr_cluster = mainCluster;
444        self_mon.owner = &this;
445        self_mon.recursion = 1;
446        self_mon_p = &self_mon;
447        link.next = 0p;
448        link.prev = 0p;
449        #if defined( __CFA_WITH_VERIFY__ )
450                canary = 0x0D15EA5E0D15EA5Ep;
451        #endif
452
453        node.next = 0p;
454        node.prev = 0p;
455        doregister(curr_cluster, this);
456
457        monitors{ &self_mon_p, 1, (fptr_t)0 };
458}
459
460//-----------------------------------------------------------------------------
461// Processor
462// Construct the processor context of non-main processors
463static void ?{}(processorCtx_t & this, processor * proc, current_stack_info_t * info) {
464        (this.__cor){ info };
465        this.proc = proc;
466}
467
468static void init(processor & this, const char name[], cluster & _cltr, $thread * initT) with( this ) {
469        this.name = name;
470        this.cltr = &_cltr;
471        do_terminate = false;
472        preemption_alarm = 0p;
473        pending_preemption = false;
474
475        this.io.ctx = 0p;
476        this.io.pending = false;
477        this.io.dirty   = false;
478
479        this.init.thrd = initT;
480
481        this.idle = eventfd(0, 0);
482        if (idle < 0) {
483                abort("KERNEL ERROR: PROCESSOR EVENTFD - %s\n", strerror(errno));
484        }
485
486        #if !defined(__CFA_NO_STATISTICS__)
487                print_stats = 0;
488                print_halts = false;
489        #endif
490
491        lock( this.cltr->idles );
492                int target = this.cltr->idles.total += 1u;
493        unlock( this.cltr->idles );
494
495        id = doregister((__processor_id_t*)&this);
496
497        // Lock the RWlock so no-one pushes/pops while we are changing the queue
498        uint_fast32_t last_size = ready_mutate_lock();
499
500                // Adjust the ready queue size
501                this.cltr_id = ready_queue_grow( cltr, target );
502
503        // Unlock the RWlock
504        ready_mutate_unlock( last_size );
505
506        __cfadbg_print_safe(runtime_core, "Kernel : core %p created\n", &this);
507}
508
509// Not a ctor, it just preps the destruction but should not destroy members
510static void deinit(processor & this) {
511        lock( this.cltr->idles );
512                int target = this.cltr->idles.total -= 1u;
513        unlock( this.cltr->idles );
514
515        // Lock the RWlock so no-one pushes/pops while we are changing the queue
516        uint_fast32_t last_size = ready_mutate_lock();
517
518                // Adjust the ready queue size
519                ready_queue_shrink( this.cltr, target );
520
521        // Unlock the RWlock
522        ready_mutate_unlock( last_size );
523
524        // Finally we don't need the read_lock any more
525        unregister((__processor_id_t*)&this);
526
527        close(this.idle);
528}
529
530void ?{}(processor & this, const char name[], cluster & _cltr, $thread * initT) {
531        ( this.terminated ){};
532        ( this.runner ){};
533
534        disable_interrupts();
535                init( this, name, _cltr, initT );
536        enable_interrupts( __cfaabi_dbg_ctx );
537
538        __cfadbg_print_safe(runtime_core, "Kernel : Starting core %p\n", &this);
539
540        this.stack = __create_pthread( &this.kernel_thread, __invoke_processor, (void *)&this );
541}
542
543void ?{}(processor & this, const char name[], cluster & _cltr) {
544        (this){name, _cltr, 0p};
545}
546
547extern size_t __page_size;
548void ^?{}(processor & this) with( this ){
549        if( ! __atomic_load_n(&do_terminate, __ATOMIC_ACQUIRE) ) {
550                __cfadbg_print_safe(runtime_core, "Kernel : core %p signaling termination\n", &this);
551
552                __atomic_store_n(&do_terminate, true, __ATOMIC_RELAXED);
553                __wake_proc( &this );
554
555                wait( terminated );
556                /* paranoid */ verify( active_processor() != &this);
557        }
558
559        __destroy_pthread( kernel_thread, this.stack, 0p );
560
561        disable_interrupts();
562                deinit( this );
563        enable_interrupts( __cfaabi_dbg_ctx );
564}
565
566//-----------------------------------------------------------------------------
567// Cluster
568static void ?{}(__cluster_idles & this) {
569        this.lock  = 0;
570        this.idle  = 0;
571        this.total = 0;
572        (this.list){};
573}
574
575void ?{}(cluster & this, const char name[], Duration preemption_rate, unsigned num_io, const io_context_params & io_params) with( this ) {
576        this.name = name;
577        this.preemption_rate = preemption_rate;
578        ready_queue{};
579
580        #if !defined(__CFA_NO_STATISTICS__)
581                print_stats = 0;
582                stats = alloc();
583                __init_stats( stats );
584        #endif
585
586        threads{ __get };
587
588        io.arbiter = create();
589        io.params = io_params;
590
591        doregister(this);
592
593        // Lock the RWlock so no-one pushes/pops while we are changing the queue
594        disable_interrupts();
595        uint_fast32_t last_size = ready_mutate_lock();
596
597                // Adjust the ready queue size
598                ready_queue_grow( &this, 0 );
599
600        // Unlock the RWlock
601        ready_mutate_unlock( last_size );
602        enable_interrupts_noPoll(); // Don't poll, could be in main cluster
603}
604
605void ^?{}(cluster & this) {
606        destroy(this.io.arbiter);
607
608        // Lock the RWlock so no-one pushes/pops while we are changing the queue
609        disable_interrupts();
610        uint_fast32_t last_size = ready_mutate_lock();
611
612                // Adjust the ready queue size
613                ready_queue_shrink( &this, 0 );
614
615        // Unlock the RWlock
616        ready_mutate_unlock( last_size );
617        enable_interrupts_noPoll(); // Don't poll, could be in main cluster
618
619        #if !defined(__CFA_NO_STATISTICS__)
620                if( 0 != this.print_stats ) {
621                        __print_stats( this.stats, this.print_stats, "Cluster", this.name, (void*)&this );
622                }
623                #if defined(CFA_STATS_ARRAY)
624                        __flush_stat( this.stats, "Cluster", &this );
625                #endif
626                free( this.stats );
627        #endif
628
629        unregister(this);
630}
631
632//=============================================================================================
633// Miscellaneous Initialization
634//=============================================================================================
635//-----------------------------------------------------------------------------
636// Global Queues
637static void doregister( cluster     & cltr ) {
638        lock      ( __cfa_dbg_global_clusters.lock __cfaabi_dbg_ctx2);
639        push_front( __cfa_dbg_global_clusters.list, cltr );
640        unlock    ( __cfa_dbg_global_clusters.lock );
641}
642
643static void unregister( cluster     & cltr ) {
644        lock  ( __cfa_dbg_global_clusters.lock __cfaabi_dbg_ctx2);
645        remove( __cfa_dbg_global_clusters.list, cltr );
646        unlock( __cfa_dbg_global_clusters.lock );
647}
648
649void doregister( cluster * cltr, $thread & thrd ) {
650        lock      (cltr->thread_list_lock __cfaabi_dbg_ctx2);
651        cltr->nthreads += 1;
652        push_front(cltr->threads, thrd);
653        unlock    (cltr->thread_list_lock);
654}
655
656void unregister( cluster * cltr, $thread & thrd ) {
657        lock  (cltr->thread_list_lock __cfaabi_dbg_ctx2);
658        remove(cltr->threads, thrd );
659        cltr->nthreads -= 1;
660        unlock(cltr->thread_list_lock);
661}
662
663static void check( int ret, const char func[] ) {
664        if ( ret ) {                                                                            // pthread routines return errno values
665                abort( "%s : internal error, error(%d) %s.", func, ret, strerror( ret ) );
666        } // if
667} // Abort
668
669void * __create_pthread( pthread_t * pthread, void * (*start)(void *), void * arg ) {
670        pthread_attr_t attr;
671
672        check( pthread_attr_init( &attr ), "pthread_attr_init" ); // initialize attribute
673
674        size_t stacksize;
675        // default stack size, normally defined by shell limit
676        check( pthread_attr_getstacksize( &attr, &stacksize ), "pthread_attr_getstacksize" );
677        assert( stacksize >= PTHREAD_STACK_MIN );
678
679        void * stack;
680        #if CFA_PROCESSOR_USE_MMAP
681                stacksize = ceiling( stacksize, __page_size ) + __page_size;
682                stack = mmap(0p, stacksize, __map_prot, MAP_PRIVATE | MAP_ANONYMOUS, 0, 0);
683                if(stack == ((void*)-1)) {
684                        abort( "pthread stack creation : internal error, mmap failure, error(%d) %s.", errno, strerror( errno ) );
685                }
686                if ( mprotect( stack, __page_size, PROT_NONE ) == -1 ) {
687                        abort( "pthread stack creation : internal error, mprotect failure, error(%d) %s.", errno, strerror( errno ) );
688                } // if
689        #else
690                __cfaabi_dbg_debug_do(
691                        stack = memalign( __page_size, stacksize + __page_size );
692                        // pthread has no mechanism to create the guard page in user supplied stack.
693                        if ( mprotect( stack, __page_size, PROT_NONE ) == -1 ) {
694                                abort( "mprotect : internal error, mprotect failure, error(%d) %s.", errno, strerror( errno ) );
695                        } // if
696                );
697                __cfaabi_dbg_no_debug_do(
698                        stack = malloc( stacksize );
699                );
700        #endif
701
702
703        check( pthread_attr_setstack( &attr, stack, stacksize ), "pthread_attr_setstack" );
704
705        check( pthread_create( pthread, &attr, start, arg ), "pthread_create" );
706        return stack;
707}
708
709void __destroy_pthread( pthread_t pthread, void * stack, void ** retval ) {
710        int err = pthread_join( pthread, retval );
711        if( err != 0 ) abort("KERNEL ERROR: joining pthread %p caused error %s\n", (void*)pthread, strerror(err));
712
713        #if CFA_PROCESSOR_USE_MMAP
714                pthread_attr_t attr;
715
716                check( pthread_attr_init( &attr ), "pthread_attr_init" ); // initialize attribute
717
718                size_t stacksize;
719                // default stack size, normally defined by shell limit
720                check( pthread_attr_getstacksize( &attr, &stacksize ), "pthread_attr_getstacksize" );
721                assert( stacksize >= PTHREAD_STACK_MIN );
722                stacksize += __page_size;
723
724                if(munmap(stack, stacksize) == -1) {
725                        abort( "pthread stack destruction : internal error, munmap failure, error(%d) %s.", errno, strerror( errno ) );
726                }
727        #else
728                __cfaabi_dbg_debug_do(
729                        // pthread has no mechanism to create the guard page in user supplied stack.
730                        if ( mprotect( stack, __page_size, __map_prot ) == -1 ) {
731                                abort( "mprotect : internal error, mprotect failure, error(%d) %s.", errno, strerror( errno ) );
732                        } // if
733                );
734                free( stack );
735        #endif
736}
737
738#if defined(__CFA_WITH_VERIFY__)
739static bool verify_fwd_bck_rng(void) {
740        __cfaabi_tls.ready_rng.fwd_seed = 25214903917_l64u * (rdtscl() ^ (uintptr_t)&verify_fwd_bck_rng);
741
742        unsigned values[10];
743        for(i; 10) {
744                values[i] = __tls_rand_fwd();
745        }
746
747        __tls_rand_advance_bck();
748
749        for ( i; 9 -~= 0 ) {
750                if(values[i] != __tls_rand_bck()) {
751                        return false;
752                }
753        }
754
755        return true;
756}
757#endif
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