/* Copyright (c) 2008, 2011, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1335 USA */ /** @file Unit tests for lock-free algorithms of mysys */ #include "thr_template.c" #include int32 inserts= 0, N; LF_ALLOCATOR lf_allocator; LF_HASH lf_hash; int with_my_thread_init=0; /* pin allocator - alloc and release an element in a loop */ pthread_handler_t test_lf_pinbox(void *arg) { int m= *(int *)arg; LF_PINS *pins; if (with_my_thread_init) my_thread_init(); pins= lf_pinbox_get_pins(&lf_allocator.pinbox); for (; m ; m--) { lf_pinbox_put_pins(pins); pins= lf_pinbox_get_pins(&lf_allocator.pinbox); } lf_pinbox_put_pins(pins); if (with_my_thread_init) my_thread_end(); return 0; } /* thread local data area, allocated using lf_alloc. union is required to enforce the minimum required element size (sizeof(ptr)) */ typedef union { int32 data; void *not_used; } TLA; pthread_handler_t test_lf_alloc(void *arg) { int m= (*(int *)arg)/2; int32 x,y= 0; LF_PINS *pins; if (with_my_thread_init) my_thread_init(); pins= lf_alloc_get_pins(&lf_allocator); for (x= ((int)(intptr)(&m)); m ; m--) { TLA *node1, *node2; x= (x*m+0x87654321) & INT_MAX32; node1= (TLA *)lf_alloc_new(pins); node1->data= x; y+= node1->data; node1->data= 0; node2= (TLA *)lf_alloc_new(pins); node2->data= x; y-= node2->data; node2->data= 0; lf_alloc_free(pins, node1); lf_alloc_free(pins, node2); } lf_alloc_put_pins(pins); pthread_mutex_lock(&mutex); bad+= y; if (--N == 0) { diag("%d mallocs, %d pins in stack", lf_allocator.mallocs, lf_allocator.pinbox.pins_in_array); #ifdef MY_LF_EXTRA_DEBUG bad|= lf_allocator.mallocs - lf_alloc_pool_count(&lf_allocator); #endif } pthread_mutex_unlock(&mutex); if (with_my_thread_init) my_thread_end(); return 0; } my_bool do_sum(void *num, void *acc) { *(int *)acc += *(int *)num; return 0; } #define N_TLH 1000 pthread_handler_t test_lf_hash(void *arg) { int m= (*(int *)arg)/(2*N_TLH); int32 x,y,z,sum= 0, ins= 0, scans= 0; LF_PINS *pins; if (with_my_thread_init) my_thread_init(); pins= lf_hash_get_pins(&lf_hash); for (x= ((int)(intptr)(&m)); m ; m--) { int i; y= x; for (i= 0; i < N_TLH; i++) { x= (x*(m+i)+0x87654321) & INT_MAX32; z= (x<0) ? -x : x; if (lf_hash_insert(&lf_hash, pins, &z)) { sum+= z; ins++; } else { int unused= 0; lf_hash_iterate(&lf_hash, pins, do_sum, &unused); scans++; } } for (i= 0; i < N_TLH; i++) { y= (y*(m+i)+0x87654321) & INT_MAX32; z= (y<0) ? -y : y; if (lf_hash_delete(&lf_hash, pins, (uchar *)&z, sizeof(z))) sum-= z; } } lf_hash_put_pins(pins); pthread_mutex_lock(&mutex); bad+= sum; inserts+= ins; if (--N == 0) { diag("%d mallocs, %d pins in stack, %d hash size, %d inserts, %d scans", lf_hash.alloc.mallocs, lf_hash.alloc.pinbox.pins_in_array, lf_hash.size, inserts, scans); bad|= lf_hash.count; } pthread_mutex_unlock(&mutex); if (with_my_thread_init) my_thread_end(); return 0; } void do_tests() { plan(6); lf_alloc_init(&lf_allocator, sizeof(TLA), offsetof(TLA, not_used)); lf_hash_init(&lf_hash, sizeof(int), LF_HASH_UNIQUE, 0, sizeof(int), 0, &my_charset_bin); with_my_thread_init= 1; test_concurrently("lf_pinbox (with my_thread_init)", test_lf_pinbox, N= THREADS, CYCLES); test_concurrently("lf_alloc (with my_thread_init)", test_lf_alloc, N= THREADS, CYCLES); test_concurrently("lf_hash (with my_thread_init)", test_lf_hash, N= THREADS, CYCLES); with_my_thread_init= 0; test_concurrently("lf_pinbox (without my_thread_init)", test_lf_pinbox, N= THREADS, CYCLES); test_concurrently("lf_alloc (without my_thread_init)", test_lf_alloc, N= THREADS, CYCLES); test_concurrently("lf_hash (without my_thread_init)", test_lf_hash, N= THREADS, CYCLES); lf_hash_destroy(&lf_hash); lf_alloc_destroy(&lf_allocator); }