mariadb/newbrt/tests/cachetable-clock-eviction4.c

#ident "$Id: cachetable-clock-eviction.c 34099 2011-08-21 19:35:34Z zardosht $"
#ident "Copyright (c) 2007-2011 Tokutek Inc.  All rights reserved."
#include "includes.h"
#include "test.h"

int num_entries;
BOOL flush_may_occur;
int expected_flushed_key;
BOOL check_flush;


//
// This test verifies that if partial eviction is expensive and
// does not estimate number of freed bytes to be greater than 0,
// then partial eviction is not called, and normal eviction
// is used. The verification is done ia an assert(FALSE) in 
// pe_callback.
//


static void
flush (CACHEFILE f __attribute__((__unused__)),
       int UU(fd),
       CACHEKEY k  __attribute__((__unused__)),
       void *v     __attribute__((__unused__)),
       void *e     __attribute__((__unused__)),
       long s      __attribute__((__unused__)),
       BOOL w      __attribute__((__unused__)),
       BOOL keep   __attribute__((__unused__)),
       BOOL c      __attribute__((__unused__))
       ) {
    /* Do nothing */
    if (check_flush && !keep) {
        printf("FLUSH: %d write_me %d\n", (int)k.b, w);
        assert(flush_may_occur);
        assert(!w);
        assert(expected_flushed_key == (int)k.b);
        expected_flushed_key--;
    }
}

static int
fetch (CACHEFILE f        __attribute__((__unused__)),
       int UU(fd),
       CACHEKEY k         __attribute__((__unused__)),
       u_int32_t fullhash __attribute__((__unused__)),
       void **value       __attribute__((__unused__)),
       long *sizep        __attribute__((__unused__)),
       int  *dirtyp,
       void *extraargs    __attribute__((__unused__))
       ) {
    *dirtyp = 0;
    *value = NULL;
    *sizep = 1;
    return 0;
}

static void 
pe_est_callback(
    void* UU(brtnode_pv), 
    long* bytes_freed_estimate, 
    enum partial_eviction_cost *cost, 
    void* UU(write_extraargs)
    )
{
    *bytes_freed_estimate = 0;
    *cost = PE_EXPENSIVE;
}

static int 
pe_callback (
    void *brtnode_pv __attribute__((__unused__)), 
    long bytes_to_free __attribute__((__unused__)), 
    long* bytes_freed, 
    void* extraargs __attribute__((__unused__))
    ) 
{
    assert(FALSE);
    *bytes_freed = 0;
    return 0;
}

static BOOL pf_req_callback(void* UU(brtnode_pv), void* UU(read_extraargs)) {
  return FALSE;
}

static int pf_callback(void* UU(brtnode_pv), void* UU(read_extraargs), int UU(fd), long* UU(sizep)) {
  assert(FALSE);
}


static void
cachetable_test (void) {
    const int test_limit = 4;
    num_entries = 0;
    int r;
    CACHETABLE ct;
    r = toku_create_cachetable(&ct, test_limit, ZERO_LSN, NULL_LOGGER); assert(r == 0);
    char fname1[] = __FILE__ "test1.dat";
    unlink(fname1);
    CACHEFILE f1;
    r = toku_cachetable_openf(&f1, ct, fname1, O_RDWR|O_CREAT, S_IRWXU|S_IRWXG|S_IRWXO); assert(r == 0);

    void* v1;
    void* v2;
    long s1, s2;
    flush_may_occur = FALSE;
    check_flush = TRUE;
    for (int i = 0; i < 100000; i++) {
      r = toku_cachetable_get_and_pin(f1, make_blocknum(1), 1, &v1, &s1, flush, fetch, pe_est_callback, pe_callback, pf_req_callback, pf_callback, NULL, NULL);
        r = toku_cachetable_unpin(f1, make_blocknum(1), 1, CACHETABLE_CLEAN, 1);
    }
    for (int i = 0; i < 8; i++) {
      r = toku_cachetable_get_and_pin(f1, make_blocknum(2), 2, &v2, &s2, flush, fetch, pe_est_callback, pe_callback, pf_req_callback, pf_callback, NULL, NULL);
        r = toku_cachetable_unpin(f1, make_blocknum(2), 2, CACHETABLE_CLEAN, 1);
    }
    for (int i = 0; i < 4; i++) {
      r = toku_cachetable_get_and_pin(f1, make_blocknum(3), 3, &v2, &s2, flush, fetch, pe_est_callback, pe_callback, pf_req_callback, pf_callback, NULL, NULL);
        r = toku_cachetable_unpin(f1, make_blocknum(3), 3, CACHETABLE_CLEAN, 1);
    }
    for (int i = 0; i < 2; i++) {
      r = toku_cachetable_get_and_pin(f1, make_blocknum(4), 4, &v2, &s2, flush, fetch, pe_est_callback, pe_callback, pf_req_callback, pf_callback, NULL, NULL);
        r = toku_cachetable_unpin(f1, make_blocknum(4), 4, CACHETABLE_CLEAN, 1);
    }
    flush_may_occur = TRUE;
    expected_flushed_key = 4;
    r = toku_cachetable_put(f1, make_blocknum(5), 5, NULL, 4, flush, pe_est_callback, pe_callback, NULL);
    flush_may_occur = TRUE;
    expected_flushed_key = 5;
    r = toku_cachetable_unpin(f1, make_blocknum(5), 5, CACHETABLE_CLEAN, 4);

    check_flush = FALSE;
    r = toku_cachefile_close(&f1, 0, FALSE, ZERO_LSN); assert(r == 0 && f1 == 0);
    r = toku_cachetable_close(&ct); assert(r == 0 && ct == 0);
}

int
test_main(int argc, const char *argv[]) {
    default_parse_args(argc, argv);
    cachetable_test();
    return 0;
}