/* amcssth.c: POOL CLASS AMC STRESS TEST WITH TWO THREADS * * $Id$ * Copyright (c) 2001-2016 Ravenbrook Limited. See end of file for license. * Portions copyright (c) 2002 Global Graphics Software. * * The main thread parks the arena half way through the test case and * runs mps_arena_formatted_objects_walk(). This checks that walking * works while the other threads continue to allocate in the * background. */ #include "fmtdy.h" #include "fmtdytst.h" #include "testlib.h" #include "testthr.h" #include "mpslib.h" #include "mpscamc.h" #include "mpsavm.h" #include /* fflush, printf, putchar */ /* These values have been tuned in the hope of getting one dynamic collection. */ #define testArenaSIZE ((size_t)1000*1024) #define gen1SIZE ((size_t)150) #define gen2SIZE ((size_t)170) #define avLEN 3 #define exactRootsCOUNT 180 #define ambigRootsCOUNT 50 #define genCOUNT 2 #define collectionsCOUNT 37 #define rampSIZE 9 #define initTestFREQ 6000 /* testChain -- generation parameters for the test */ static mps_gen_param_s testChain[genCOUNT] = { { gen1SIZE, 0.85 }, { gen2SIZE, 0.45 } }; /* objNULL needs to be odd so that it's ignored in exactRoots. */ #define objNULL ((mps_addr_t)MPS_WORD_CONST(0xDECEA5ED)) static mps_addr_t exactRoots[exactRootsCOUNT]; static mps_addr_t ambigRoots[ambigRootsCOUNT]; static mps_word_t collections; static mps_arena_t arena; static mps_root_t exactRoot, ambigRoot; static unsigned long objs = 0; /* make -- create one new object */ static mps_addr_t make(mps_ap_t ap, size_t roots_count) { size_t length = rnd() % (2*avLEN); size_t size = (length+2) * sizeof(mps_word_t); mps_addr_t p; mps_res_t res; do { MPS_RESERVE_BLOCK(res, p, ap, size); if (res) die(res, "MPS_RESERVE_BLOCK"); res = dylan_init(p, size, exactRoots, roots_count); if (res) die(res, "dylan_init"); } while(!mps_commit(ap, p, size)); return p; } /* test_stepper -- stepping function for walk */ static void test_stepper(mps_addr_t object, mps_fmt_t fmt, mps_pool_t pool, void *p, size_t s) { testlib_unused(object); testlib_unused(fmt); testlib_unused(pool); testlib_unused(s); (*(unsigned long *)p)++; } /* churn -- create an object and install into roots */ static void churn(mps_ap_t ap, size_t roots_count) { size_t i; size_t r; ++objs; r = (size_t)rnd(); if (r & 1) { i = (r >> 1) % exactRootsCOUNT; if (exactRoots[i] != objNULL) cdie(dylan_check(exactRoots[i]), "dying root check"); exactRoots[i] = make(ap, roots_count); if (exactRoots[(exactRootsCOUNT-1) - i] != objNULL) dylan_write(exactRoots[(exactRootsCOUNT-1) - i], exactRoots, exactRootsCOUNT); } else { i = (r >> 1) % ambigRootsCOUNT; ambigRoots[(ambigRootsCOUNT-1) - i] = make(ap, roots_count); /* Create random interior pointers */ ambigRoots[i] = (mps_addr_t)((char *)(ambigRoots[i/2]) + 1); } } typedef struct closure_s { mps_pool_t pool; size_t roots_count; } closure_s, *closure_t; static void *kid_thread(void *arg) { void *marker = ▮ mps_thr_t thread; mps_root_t reg_root; mps_ap_t ap; closure_t cl = arg; die(mps_thread_reg(&thread, (mps_arena_t)arena), "thread_reg"); die(mps_root_create_thread(®_root, arena, thread, marker), "root_create"); die(mps_ap_create(&ap, cl->pool, mps_rank_exact()), "BufferCreate(fooey)"); while(mps_collections(arena) < collectionsCOUNT) { churn(ap, cl->roots_count); } mps_ap_destroy(ap); mps_root_destroy(reg_root); mps_thread_dereg(thread); return NULL; } /* test -- the body of the test */ static void test_pool(const char *name, mps_pool_t pool, size_t roots_count) { size_t i; mps_word_t rampSwitch; mps_alloc_pattern_t ramp = mps_alloc_pattern_ramp(); int ramping; mps_ap_t ap, busy_ap; mps_addr_t busy_init; testthr_t kids[10]; closure_s cl; int walked = FALSE, ramped = FALSE; printf("\n------ pool: %s-------\n", name); cl.pool = pool; cl.roots_count = roots_count; collections = 0; for (i = 0; i < NELEMS(kids); ++i) testthr_create(&kids[i], kid_thread, &cl); die(mps_ap_create(&ap, pool, mps_rank_exact()), "BufferCreate"); die(mps_ap_create(&busy_ap, pool, mps_rank_exact()), "BufferCreate 2"); /* create an ap, and leave it busy */ die(mps_reserve(&busy_init, busy_ap, 64), "mps_reserve busy"); rampSwitch = rampSIZE; die(mps_ap_alloc_pattern_begin(ap, ramp), "pattern begin (ap)"); die(mps_ap_alloc_pattern_begin(busy_ap, ramp), "pattern begin (busy_ap)"); ramping = 1; while (collections < collectionsCOUNT) { mps_message_type_t type; if (mps_message_queue_type(&type, arena)) { mps_message_t msg; mps_bool_t b = mps_message_get(&msg, arena, type); Insist(b); /* we just checked there was one */ if (type == mps_message_type_gc()) { size_t live = mps_message_gc_live_size(arena, msg); size_t condemned = mps_message_gc_condemned_size(arena, msg); size_t not_condemned = mps_message_gc_not_condemned_size(arena, msg); printf("\nCollection %lu finished:\n", collections++); printf("live %"PRIuLONGEST"\n", (ulongest_t)live); printf("condemned %"PRIuLONGEST"\n", (ulongest_t)condemned); printf("not_condemned %"PRIuLONGEST"\n", (ulongest_t)not_condemned); } else if (type == mps_message_type_gc_start()) { printf("\nCollection %lu started, %lu objects, committed=%lu.\n", (unsigned long)collections, objs, (unsigned long)mps_arena_committed(arena)); for (i = 0; i < exactRootsCOUNT; ++i) cdie(exactRoots[i] == objNULL || dylan_check(exactRoots[i]), "all roots check"); if (collections >= collectionsCOUNT / 2 && !walked) { unsigned long count = 0; mps_arena_park(arena); mps_arena_formatted_objects_walk(arena, test_stepper, &count, 0); mps_arena_release(arena); printf("stepped on %lu objects.\n", count); walked = TRUE; } if (collections >= rampSwitch && !ramped) { /* Every other time, switch back immediately. */ int begin_ramp = !ramping || (collections & 1); rampSwitch += rampSIZE; if (ramping) { die(mps_ap_alloc_pattern_end(ap, ramp), "pattern end (ap)"); die(mps_ap_alloc_pattern_end(busy_ap, ramp), "pattern end (busy_ap)"); ramping = 0; /* kill half of the roots */ for(i = 0; i < exactRootsCOUNT; i += 2) { if (exactRoots[i] != objNULL) { cdie(dylan_check(exactRoots[i]), "ramp kill check"); exactRoots[i] = objNULL; } } } if (begin_ramp) { die(mps_ap_alloc_pattern_begin(ap, ramp), "pattern rebegin (ap)"); die(mps_ap_alloc_pattern_begin(busy_ap, ramp), "pattern rebegin (busy_ap)"); ramping = 1; } } ramped = TRUE; } mps_message_discard(arena, msg); } churn(ap, roots_count); { size_t r = (size_t)rnd(); if (r % initTestFREQ == 0) *(int*)busy_init = -1; /* check that the buffer is still there */ } if (objs % 1024 == 0) { putchar('.'); fflush(stdout); } } (void)mps_commit(busy_ap, busy_init, 64); mps_ap_destroy(busy_ap); mps_ap_destroy(ap); for (i = 0; i < NELEMS(kids); ++i) testthr_join(&kids[i], NULL); } static void test_arena(void) { size_t i; mps_fmt_t format; mps_chain_t chain; mps_thr_t thread; mps_root_t reg_root; mps_pool_t amc_pool, amcz_pool; void *marker = ▮ MPS_ARGS_BEGIN(args) { MPS_ARGS_ADD(args, MPS_KEY_ARENA_SIZE, testArenaSIZE); MPS_ARGS_ADD(args, MPS_KEY_ARENA_GRAIN_SIZE, rnd_grain(testArenaSIZE)); die(mps_arena_create_k(&arena, mps_arena_class_vm(), args), "arena_create"); } MPS_ARGS_END(args); mps_message_type_enable(arena, mps_message_type_gc()); mps_message_type_enable(arena, mps_message_type_gc_start()); die(dylan_fmt(&format, arena), "fmt_create"); die(mps_chain_create(&chain, arena, genCOUNT, testChain), "chain_create"); for(i = 0; i < exactRootsCOUNT; ++i) exactRoots[i] = objNULL; for(i = 0; i < ambigRootsCOUNT; ++i) ambigRoots[i] = rnd_addr(); die(mps_root_create_table_masked(&exactRoot, arena, mps_rank_exact(), (mps_rm_t)0, &exactRoots[0], exactRootsCOUNT, (mps_word_t)1), "root_create_table(exact)"); die(mps_root_create_table(&ambigRoot, arena, mps_rank_ambig(), (mps_rm_t)0, &ambigRoots[0], ambigRootsCOUNT), "root_create_table(ambig)"); die(mps_thread_reg(&thread, arena), "thread_reg"); die(mps_root_create_thread(®_root, arena, thread, marker), "root_create"); die(mps_pool_create(&amc_pool, arena, mps_class_amc(), format, chain), "pool_create(amc)"); die(mps_pool_create(&amcz_pool, arena, mps_class_amcz(), format, chain), "pool_create(amcz)"); test_pool("AMC", amc_pool, exactRootsCOUNT); test_pool("AMCZ", amcz_pool, 0); mps_arena_park(arena); mps_pool_destroy(amc_pool); mps_pool_destroy(amcz_pool); mps_root_destroy(reg_root); mps_thread_dereg(thread); mps_root_destroy(exactRoot); mps_root_destroy(ambigRoot); mps_chain_destroy(chain); mps_fmt_destroy(format); mps_arena_destroy(arena); } int main(int argc, char *argv[]) { testlib_init(argc, argv); test_arena(); printf("%s: Conclusion: Failed to find any defects.\n", argv[0]); return 0; } /* C. COPYRIGHT AND LICENSE * * Copyright (c) 2001-2016 Ravenbrook Limited . * All rights reserved. This is an open source license. Contact * Ravenbrook for commercial licensing options. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Redistributions in any form must be accompanied by information on how * to obtain complete source code for this software and any accompanying * software that uses this software. 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