source: libcfa/src/concurrency/kernel.hfa @ 21184e3

//
// Cforall Version 1.0.0 Copyright (C) 2016 University of Waterloo
//
// The contents of this file are covered under the licence agreement in the
// file "LICENCE" distributed with Cforall.
//
// kernel --
//
// Author           : Thierry Delisle
// Created On       : Tue Jan 17 12:27:26 2017
// Last Modified By : Peter A. Buhr
// Last Modified On : Sat Jun 22 11:39:17 2019
// Update Count     : 16
//

#pragma once

#include <stdbool.h>

#include "invoke.h"
#include "time_t.hfa"

extern "C" {
#include <pthread.h>
#include <semaphore.h>
}

//-----------------------------------------------------------------------------
// Locks
struct semaphore {
        __spinlock_t lock;
        int count;
        __queue_t(thread_desc) waiting;
};

void  ?{}(semaphore & this, int count = 1);
void ^?{}(semaphore & this);
void   P (semaphore & this);
void   V (semaphore & this);


//-----------------------------------------------------------------------------
// Processor
extern struct cluster * mainCluster;

enum FinishOpCode { No_Action, Release, Schedule, Release_Schedule, Release_Multi, Release_Multi_Schedule, Callback };

typedef void (*__finish_callback_fptr_t)(void);

//TODO use union, many of these fields are mutually exclusive (i.e. MULTI vs NOMULTI)
struct FinishAction {
        FinishOpCode action_code;
        /*
        // Union of possible actions
        union {
                // Option 1 : locks and threads
                struct {
                        // 1 thread or N thread
                        union {
                                thread_desc * thrd;
                                struct {
                                        thread_desc ** thrds;
                                        unsigned short thrd_count;
                                };
                        };
                        // 1 lock or N lock
                        union {
                                __spinlock_t * lock;
                                struct {
                                        __spinlock_t ** locks;
                                        unsigned short lock_count;
                                };
                        };
                };
                // Option 2 : action pointer
                __finish_callback_fptr_t callback;
        };
        /*/
        thread_desc * thrd;
        thread_desc ** thrds;
        unsigned short thrd_count;
        __spinlock_t * lock;
        __spinlock_t ** locks;
        unsigned short lock_count;
        __finish_callback_fptr_t callback;
        //*/
};
static inline void ?{}(FinishAction & this) {
        this.action_code = No_Action;
        this.thrd = NULL;
        this.lock = NULL;
}
static inline void ^?{}(FinishAction &) {}

// Processor
coroutine processorCtx_t {
        struct processor * proc;
};

// Wrapper around kernel threads
struct processor {
        // Main state
        // Coroutine ctx who does keeps the state of the processor
        struct processorCtx_t runner;

        // Cluster from which to get threads
        struct cluster * cltr;

        // Name of the processor
        const char * name;

        // Handle to pthreads
        pthread_t kernel_thread;

        // RunThread data
        // Action to do after a thread is ran
        struct FinishAction finish;

        // Preemption data
        // Node which is added in the discrete event simulaiton
        struct alarm_node_t * preemption_alarm;

        // If true, a preemption was triggered in an unsafe region, the processor must preempt as soon as possible
        bool pending_preemption;

        // Idle lock
        __bin_sem_t idleLock;

        // Termination
        // Set to true to notify the processor should terminate
        volatile bool do_terminate;

        // Termination synchronisation
        semaphore terminated;

        // Link lists fields
        struct __dbg_node_proc {
                struct processor * next;
                struct processor * prev;
        } node;

#ifdef __CFA_DEBUG__
        // Last function to enable preemption on this processor
        const char * last_enable;
#endif
};

void  ?{}(processor & this, const char * name, struct cluster & cltr);
void ^?{}(processor & this);

static inline void  ?{}(processor & this)                    { this{ "Anonymous Processor", *mainCluster}; }
static inline void  ?{}(processor & this, struct cluster & cltr)    { this{ "Anonymous Processor", cltr}; }
static inline void  ?{}(processor & this, const char * name) { this{name, *mainCluster }; }

static inline [processor *&, processor *& ] __get( processor & this ) {
        return this.node.[next, prev];
}

//-----------------------------------------------------------------------------
// Cluster
struct cluster {
        // Ready queue locks
        __spinlock_t ready_queue_lock;

        // Ready queue for threads
        __queue_t(thread_desc) ready_queue;

        // Name of the cluster
        const char * name;

        // Preemption rate on this cluster
        Duration preemption_rate;

        // List of processors
        __spinlock_t proc_list_lock;
        __dllist_t(struct processor) procs;
        __dllist_t(struct processor) idles;
        unsigned int nprocessors;

        // List of threads
        __spinlock_t thread_list_lock;
        __dllist_t(struct thread_desc) threads;
        unsigned int nthreads;

        // Link lists fields
        struct __dbg_node_cltr {
                cluster * next;
                cluster * prev;
        } node;
};
extern Duration default_preemption();

void ?{} (cluster & this, const char * name, Duration preemption_rate);
void ^?{}(cluster & this);

static inline void ?{} (cluster & this)                           { this{"Anonymous Cluster", default_preemption()}; }
static inline void ?{} (cluster & this, Duration preemption_rate) { this{"Anonymous Cluster", preemption_rate}; }
static inline void ?{} (cluster & this, const char * name)        { this{name, default_preemption()}; }

static inline [cluster *&, cluster *& ] __get( cluster & this ) {
        return this.node.[next, prev];
}

static inline struct processor * active_processor() { return TL_GET( this_processor ); } // UNSAFE
static inline struct cluster   * active_cluster  () { return TL_GET( this_processor )->cltr; }

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