#ifndef lock_h

#define lock_h

#include <stdint.h>

#include <string.h>

#include "mydef.h"

#include "now.h"

#define debug_lock 1

typedef struct {

    intptr_t lck;

    uintptr_t tid;

    uintptr_t nr;

#if debug_lock

    const char* file;

    uintptr_t line;

#endif

} lock_t;

#define lock_initial {0}

#define lock_initial_locked {1, 0, 1}

static __attribute__((unused)) lock_t lock_val = lock_initial;

#if (debug_lock == 2)

#define locktrace_begin() uintptr_t tms = now();

#define lock_backtrace(lkp) \

do { \

    uintptr_t current = now(); \

    if (tms == 0) { \

        tms = current; \

    } \

    \

    if (current > tms + 3000) { \

        tms = current - 2000; \

        logmsg("locktrace: %d %s:%d\n", (int) lkp->lck, lkp->file, (int) lkp->line); \

    } \

} while (0)

#else

#define locktrace_begin() (void) 0

#define lock_backtrace(x) (void) 0

#endif

#if debug_lock

    #define log_lock(ptr, l, f) do {ptr->line = l; ptr->file = f;} while (0)

    #define log_unlock(ptr) do {ptr->line = -1; ptr->file = "";} while (0)

#else

    #define log_lock(ptr, l, f) (void) (0)

    #define log_unlock(ptr) (void) (0)

#endif

#ifdef __linux__

    #ifndef _GNU_SOURCE

    #define _GNU_SOURCE

    #endif

    #define my_lock(lkp, re) \

    do {  \

        lock_t* ptr = lkp; \

        if (!__sync_bool_compare_and_swap(&ptr->lck, 0, 1)) { \

            if (ptr->lck == 2) { \

                syscall(__NR_futex, &ptr->lck, FUTEX_WAIT, 2, NULL, NULL, 0); \

            } \

            \

            locktrace_begin(); \

            while (0 != __sync_lock_test_and_set(&ptr->lck, 2)) { \

                syscall(__NR_futex, &ptr->lck, FUTEX_WAIT, 2, NULL, NULL, 0); \

                lock_backtrace(ptr); \

            } \

        } \

        my_assert2(ptr->lck != 0, "lck = %d", ptr->lck); \

        my_assert2(ptr->nr == 0, "lck = %d, nr = %d, %d@%s", ptr->lck, ptr->nr, ptr->line, ptr->file); \

        log_lock(ptr, __LINE__, __FILE__); \

        \

        my_assert(ptr->tid == 0); \

        if (re) { \

            ptr->tid = systid(); \

        } \

        ++ptr->nr; \

    } while (0)

    #define unlock(lkp) \

    do { \

        lock_t* ptr = lkp; \

        my_assert2(ptr->lck != 0, "lck = %d, nr = %d", ptr->lck, ptr->nr); \

        --ptr->nr; \

        wmb(); \

        if (ptr->nr > 0) { \

            my_assert2(ptr->tid != 0, "tid != 0, ptr->nr = %d, lck = %d, %d@%s", ptr->nr, ptr->lck, ptr->line, ptr->file); \

        } else { \

            ptr->tid = 0; \

            /* wmb(); */ \

            log_unlock(ptr); \

            if (2 == __sync_lock_test_and_set(&ptr->lck, 0)) { \

                while (-1 == syscall(__NR_futex, &ptr->lck, FUTEX_WAKE, 1, NULL, NULL, 0)); \

            } \

        } \

    } while (0)

#else

    #define my_lock(lkp, re) \

    do {  \

        lock_t* ptr = lkp; \

        locktrace_begin(); \

        while (!__sync_bool_compare_and_swap((void **) &ptr->lck, (void *) 0, (void *) 1)) { \

            sched_yield();  \

            lock_backtrace(ptr); \

        } \

        log_lock(ptr, __LINE__, __FILE__); \

        \

        my_assert(ptr->tid == 0); \

        if (re) { \

            ptr->tid = systid(); \

        } \

        ++ptr->nr; \

    } while (0)

    #define unlock(lkp) \

    do { \

        lock_t* ptr = lkp; \

        my_assert(ptr->lck != 0); \

        --ptr->nr; \

        wmb(); \

        if (ptr->nr > 0) { \

            my_assert(ptr->tid != 0); \

        } else { \

            ptr->tid = 0; \

            /* wmb(); */ \

            log_unlock(ptr); \

            ptr->lck = 0; \

        } \

    } while (0)

#endif

#define lock(lkp) my_lock(lkp, 0)

#define relock(lkp) \

do {  \

    lock_t* ptr = lkp; \

    /* this rmb() is here to assure to see ptr->tid = 0 in unlock */ \

    /* if thread exit after unlock(), then another thread is spwaned with same tid */ \

    /* on another cpu core and then call lock_recursive. */ \

    /* all the above happens so quickly that the other cpu core does not see ptr->tid = 0 */ \

    /* it is so impossible to happen that I comment the "correct" implemention. */ \

    /* rmb(); */ \

    \

    if (ptr->tid == systid()) { \

        /* if true, it's same thread, event in another cpu core, no mb() is needed. */ \

        ++ptr->nr; \

    } else { \

        my_lock(lkp, 1); \

    } \

} while (0)

static __attribute__((unused)) inline intptr_t my_try_lock(lock_t* lkp, uintptr_t re, uintptr_t line, const char* file)

{

    if (!__sync_bool_compare_and_swap((void **) &((lkp)->lck), (void *) 0, (void *) 1)) {

        return -1;

    }

    log_lock(lkp, line, file);

    my_assert(lkp->tid == 0);

    if (re) {

        lkp->tid = systid();

    }

    ++lkp->nr;

    return 0;

}

#define try_lock(lkp) my_try_lock(lkp, 0, __LINE__, __FILE__)

#define retry_lock(lkp) my_try_lock(lkp, 1, __LINE__, __FILE__)

typedef struct {

    intptr_t nr;

} rwlock_t;

#define read_write_max 8000

#define rw_lock_initial {read_write_max}

static __attribute__((unused)) rwlock_t rw_lock_val = rw_lock_initial;

#define read_write_lock(lckp, val) \

do { \

    rwlock_t* lck = lckp; \

    do { \

        intptr_t n = __sync_sub_and_fetch(&lck->nr, val); \

        if (n >= 0) { \

            break; \

        } \

        __sync_add_and_fetch(&lck->nr, val); \

        sched_yield(); \

    } while (1); \

} while (0)

#define read_write_unlock(lckp, val) \

do { \

    rwlock_t* lck = lckp; \

    __sync_add_and_fetch(&lck->nr, val); \

} while (0)

#define read_lock(lckp) read_write_lock(lckp, 1)

#define write_lock(lckp) read_write_lock(lckp, read_write_max)

#define read_unlock(lckp) read_write_unlock(lckp, 1)

#define write_unlock(lckp) read_write_unlock(lckp, read_write_max)

#endif