source: tests/concurrent/signal/disjoint.cfa @ 6d41f66

#include <fstream.hfa>
#include <kernel.hfa>
#include <monitor.hfa>
#include <thread.hfa>
#include <time.hfa>

#include "long_tests.hfa"

#ifndef PREEMPTION_RATE
#define PREEMPTION_RATE 10`ms
#endif

Duration default_preemption() {
        return PREEMPTION_RATE;
}

#ifdef TEST_LONG
static const unsigned long N = 300_000ul;
#else
static const unsigned long N = 10_000ul;
#endif

// This tests checks what happens when someone barges in the midle of the release
// of a bulk of monitors.

enum state_t { WAIT, SIGNAL, BARGE };

monitor global_t {};

monitor global_data_t;
void ?{}( global_data_t & this );
void ^?{} ( global_data_t & mutex this );

monitor global_data_t {
        int counter;
        state_t state;
};

// Use a global struct because the order needs to match with Signaller thread
struct {
        global_t mut;
        global_data_t data;
} globals;

condition cond;

volatile bool all_done;

void ?{}( global_data_t & this ) {
        this.counter = 0;
        this.state = BARGE;
}

void ^?{} ( global_data_t & mutex this ) {}

//------------------------------------------------------------------------------
// Barging logic
void barge( global_data_t & mutex d ) {
        d.state = BARGE;
}

thread Barger {};
void ?{}( Barger & this ) {
        ((thread&)this){ "Barger Thread" };
}

void main( Barger & this ) {
        while( !all_done ) {
                barge( globals.data );
                yield();
        }
}

//------------------------------------------------------------------------------
// Waiting logic
bool wait( global_t & mutex m, global_data_t & mutex d ) {
        wait( cond );
        if( d.state != SIGNAL ) {
                abort | "ERROR barging!";
        }

        #if !defined(TEST_FOREVER)
                d.counter++;
                if( (d.counter % 1000) == 0 ) sout | d.counter;
        #endif

        return TEST(d.counter < N);
}

thread Waiter {};
void ?{}( Waiter & this ) {
        ((thread&)this){ "Waiter Thread" };
}

void main( Waiter & this ) {
        while( wait( globals.mut, globals.data ) ) { KICK_WATCHDOG; yield(); }
}


//------------------------------------------------------------------------------
// Signalling logic
void signal( condition & cond, global_t & mutex a, global_data_t & mutex b ) {
        b.state = SIGNAL;
        signal( cond );
}

void logic( global_t & mutex a ) {
        signal( cond, a, globals.data );

        yield( random( 10 ) );

        //This is technically a mutual exclusion violation but the mutex monitor protects us
        bool running = TEST(globals.data.counter < N) && globals.data.counter > 0;
        if( globals.data.state != SIGNAL && running ) {
                abort | "ERROR Eager signal" | globals.data.state;
        }
}

thread Signaller {};
void ?{}( Signaller & this ) {
        ((thread&)this){ "Signaller Thread" };
}

void main( Signaller & this ) {
        while( !all_done ) {
                logic( globals.mut );
                yield();
        }
}

//------------------------------------------------------------------------------
// Main loop
int main(int argc, char* argv[]) {
        srandom( time( NULL ) );
        all_done = false;
        processor p;
        {
                Signaller s;
                Barger b[17];
                {
                        Waiter w[4];
                }
                sout | "All waiter done";
                all_done = true;
        }
}