source: libcfa/src/concurrency/ready_subqueue.hfa@ b38d24a

#pragma once

#define __CFA_NO_SCHED_STATS__

#include "limits.hfa"

// Intrusives lanes which are used by the relaxed ready queue
union __attribute__((aligned(64))) __intrusive_lane_t {
        struct {
                struct thread$ * prev;

                // spin lock protecting the queue
                volatile bool lock;

                __thread_desc_link anchor;

                #if !defined(__CFA_NO_STATISTICS__)
                        unsigned cnt;
                #endif
        } l;
        char __padding[192];
};

// Get the head pointer (one before the first element) from the anchor
static inline thread$ * mock_head(const __intrusive_lane_t & this) {
        thread$ * rhead = (thread$ *)(
                (uintptr_t)( &this.l.anchor ) - __builtin_offsetof( thread$, rdy_link )
        );
        return rhead;
}

// Push a thread onto this lane
// returns true of lane was empty before push, false otherwise
static inline void push( __intrusive_lane_t & this, thread$ * node ) {
        /* paranoid */ verify( this.l.lock );
        /* paranoid */ verify( node->rdy_link.next == 0p );
        /* paranoid */ verify( __atomic_load_n(&node->rdy_link.ts, __ATOMIC_RELAXED) == MAX  );
        /* paranoid */ verify( this.l.prev->rdy_link.next == 0p );
        /* paranoid */ verify( __atomic_load_n(&this.l.prev->rdy_link.ts, __ATOMIC_RELAXED)   == MAX  );
        if( this.l.anchor.next == 0p ) {
                /* paranoid */ verify( this.l.anchor.next == 0p );
                /* paranoid */ verify( __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED) == MAX );
                /* paranoid */ verify( __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED) != 0  );
                /* paranoid */ verify( this.l.prev == mock_head( this ) );
        } else {
                /* paranoid */ verify( this.l.anchor.next != 0p );
                /* paranoid */ verify( __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED) != MAX );
                /* paranoid */ verify( __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED) != 0  );
                /* paranoid */ verify( this.l.prev != mock_head( this ) );
        }

        // Get the relevant nodes locally
        this.l.prev->rdy_link.next = node;
        __atomic_store_n(&this.l.prev->rdy_link.ts, rdtscl(), __ATOMIC_RELAXED);
        this.l.prev = node;
        #if !defined(__CFA_NO_STATISTICS__)
                this.l.cnt++;
        #endif
}

// Pop a thread from this lane (must be non-empty)
// returns popped
// returns true of lane was empty before push, false otherwise
static inline [* thread$, unsigned long long] pop( __intrusive_lane_t & this ) {
        /* paranoid */ verify( this.l.lock );
        /* paranoid */ verify( this.l.anchor.next != 0p );
        /* paranoid */ verify( __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED) != MAX );
        /* paranoid */ verify( __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED) != 0   );

        // Get the relevant nodes locally
        thread$ * node = this.l.anchor.next;
        this.l.anchor.next = node->rdy_link.next;
        __atomic_store_n(&this.l.anchor.ts, __atomic_load_n(&node->rdy_link.ts, __ATOMIC_RELAXED), __ATOMIC_RELAXED);
        bool is_empty = this.l.anchor.next == 0p;
        node->rdy_link.next = 0p;
        __atomic_store_n(&node->rdy_link.ts, ULLONG_MAX, __ATOMIC_RELAXED);
        #if !defined(__CFA_NO_STATISTICS__)
                this.l.cnt--;
        #endif

        // Update head time stamp
        if(is_empty) this.l.prev = mock_head( this );

        unsigned long long ats = __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED);
        /* paranoid */ verify( node->rdy_link.next == 0p );
        /* paranoid */ verify( __atomic_load_n(&node->rdy_link.ts , __ATOMIC_RELAXED) == MAX );
        /* paranoid */ verify( __atomic_load_n(&node->rdy_link.ts , __ATOMIC_RELAXED) != 0   );
        /* paranoid */ verify( ats != 0 );
        /* paranoid */ verify( (ats == MAX) == is_empty );
        return [node, ats];
}

// Check whether or not list is empty
static inline bool is_empty(__intrusive_lane_t & this) {
        return this.l.anchor.next == 0p;
}

// Return the timestamp
static inline unsigned long long ts(__intrusive_lane_t & this) {
        // Cannot verify 'emptiness' here since it may not be locked
        /* paranoid */ verify(this.l.anchor.ts != 0);
        /* paranoid */ static_assert(__atomic_always_lock_free(sizeof(this.l.anchor.ts), &this.l.anchor.ts));
        return __atomic_load_n(&this.l.anchor.ts, __ATOMIC_RELAXED);
}