/* zmess.c: Message test * * $Id: //info.ravenbrook.com/project/mps/custom/cet/branch/2016-03-01/mvff-control/code/zmess.c#1 $ * Copyright (c) 2008-2014 Ravenbrook Limited. See end of file for license. * Portions copyright (C) 2002 Global Graphics Software. * * OBJECTIVE * * Test MPS messages. In particular: * - Check prompt finalization even when there are several segs * of guardians. This test replaces fin1658a.c. See job001658. * - Check GC messages are correctly generated, posted, and queued, * regardless of when the client gets them. (Note: "get" means * "mps_message_get", throughout). See job001989. * * Please add tests for other message behaviour into this file. * Expand the script language as necessary! RHSK 2008-12-19. * * * DESIGN OVERVIEW * * Client (this test) does various actions that are known to provoke * MPS messages. Client (this test) gets these messages at variable * times. * * Verification is: * - client gets all the expected messages, and no others, at the * expected time; * - no asserts or failures. * * Additionally: client checks the message order. MPS specification * does not currently guarantee that messages are queued in order of * posting, but in fact they should be, and it is a useful check. * (But finalization messages from a single collection may be posted * in any order). * * The actions, messages to check for, and get times, are scripted * using a simple text code: * C - action: request garbage-collection; * F - action: make a (registered)finalized object unreachable * (note: this drops the myroot ref, but some objects are * deliberately kept alive by additional references; see * .keep-alive) * b - message produced: collection begin (mps_message_type_gc_start); * e - message produced: collection end (mps_message_type_gc); * f - message produced: finalization (mps_message_type_finalization); * . - get messages. * ! - get messages without discarding (see .discard). * * Example: * script "Cbe.FFCbffe.Cbe" * means: * Request a collection and check for _gc_start and _gc messages * (in that order, and no other messages). Then drop refs to two * objects, request another collection, and check for _gc_start, * the two finalization messages (in either order), and _gc. Then * request a third collection and end the test WITHOUT GETTING * the last two messages (note: no "."), to test that * mps_arena_destroy copes with ungot messages. * * Each script runs in a newly created arena. The arena is clamped so * that collections only happen when the script requests them. * * * CODE OVERVIEW * * main() has the list of testscripts. * * testscriptA() sets up a new arena and trampolines to testscriptB(). * * testscriptB() creates pools and objects for this test script. * * testscriptC() actually runs the script. * * * DEPENDENCIES * * This test uses the dylan object format, but the reliance on this * particular format is not great and could be removed. * * * BUGS, FUTURE IMPROVEMENTS, ETC * * There are a few special objects with refs to each other (see * .keep-alive). For clarity and flexibility, there should be special * actions to drop the myroot ref to these, eg. '0', '1', '2', 'Y', 'Z'. * Whereas (for clarity) 'F' should be an action that drops the myroot * ref to a plain (non-kept-alive) object, thereby simply provoking a * single finalization message. * * Actions could be expanded to include: * - mps_arena_start_collect; * - mps_arena_step; * - automatic (not client-requested) collections. * etc. * * HISTORY * * This code was created by first copying . */ #include "testlib.h" #include "mpslib.h" #include "mps.h" #include "mpscamc.h" #include "mpsavm.h" #include "fmtdy.h" #include "fmtdytst.h" #include "mpstd.h" #include /* printf */ #define testArenaSIZE ((size_t)16<<20) /* usually (ArenaGrainSize / sizeof(Ref)) = 1024 */ /* so choose 3000 to force 3 segments of guardians */ #define myrootCOUNT 3000 /* testChain -- generation parameters for the test */ #define genCOUNT 2 static mps_gen_param_s testChain[genCOUNT] = { { 150, 0.85 }, { 170, 0.45 } }; /* note: static, so auto-initialised to NULL */ static void *myroot[myrootCOUNT]; enum { rootSTATE, deadSTATE, finalizableSTATE, finalizedSTATE }; static int state[myrootCOUNT]; /* report -- get and check messages * * Get messages, report what was got, check they are the expected * messages, and (for finalization messages) check that these objects * should have been finalized (because we made them unreachable). * * .discard: The client should always call mps_message_discard when * it has finished with the message. But calling with the "discard" * parameter set to false lets us check how the MPS handles naughty * clients. The undiscarded messages must be cleared up by * ArenaDestroy. */ static void report(mps_arena_t arena, const char *pm, Bool discard) { int found = 0; char mFound = '\0'; mps_message_type_t type; while (mps_message_queue_type(&type, arena)) { mps_message_t message; mps_word_t *obj; mps_word_t objind; mps_addr_t objaddr; cdie(mps_message_get(&message, arena, type), "get"); found += 1; switch(type) { case mps_message_type_gc_start(): { printf(" Begin Collection\n"); mFound = 'b'; break; } case mps_message_type_gc(): { printf(" End Collection\n"); mFound = 'e'; break; } case mps_message_type_finalization(): { mps_message_finalization_ref(&objaddr, arena, message); obj = objaddr; objind = DYLAN_INT_INT(DYLAN_VECTOR_SLOT(obj, 0)); printf(" Finalization for object %"PRIuLONGEST" at %p\n", (ulongest_t)objind, objaddr); cdie(myroot[objind] == NULL, "finalized live"); cdie(state[objind] == finalizableSTATE, "not finalizable"); state[objind] = finalizedSTATE; mFound = 'f'; break; } default: { cdie(0, "message type"); break; } } if(discard) { mps_message_discard(arena, message); /* .discard */ } cdie('\0' != *pm, "Found message, but did not expect any"); cdie(mFound == *pm, "Found message type != Expected message type"); pm++; } mFound = '\0'; cdie(mFound == *pm, "No message found, but expected one"); } /* testscriptC -- actually runs a test script * */ static void testscriptC(mps_arena_t arena, const char *script) { unsigned isLoNext = 1; unsigned loNext = 0; unsigned hiNext = myrootCOUNT - 1; unsigned i; const char *scriptAll = script; char am[100]; /* Array of Messages (expected but not yet got) */ char *pmNext = am; /* Pointer to where Next Message will be stored */ while(*script != '\0') { switch(*script) { case '.': { *pmNext = '\0'; printf(" Getting messages (expecting \"%s\")...\n", am); report(arena, am, TRUE); printf(" ...done.\n"); pmNext = am; break; } case '!': { /* Like '.', but not discarding got messages; see .discard */ *pmNext = '\0'; printf(" Getting messages (expecting \"%s\")...\n", am); report(arena, am, FALSE); /* FALSE: see .discard */ printf(" ...done.\n"); printf(" NOTE: DELIBERATELY FAILING TO DISCARD MESSAGES, " "TO SEE HOW MPS COPES.\n"); /* .discard */ pmNext = am; break; } case 'C': { printf(" Collect\n"); die(mps_arena_collect(arena), "mps_arena_collect"); break; } case 'F': { /* (perhaps) make an object Finalizable * * .alternate: We alternately pick objects from the low and * high ends of the myroot array. This is used to test for * the defect described in job001658. */ Insist(loNext <= hiNext); i = isLoNext ? loNext++ : hiNext--; isLoNext = 1 - isLoNext; printf(" Drop myroot ref to object %u -- " "this might make it Finalizable\n", i); /* drop myroot ref, to perhaps make i finalizable */ /* (but see .keep-alive) */ myroot[i] = NULL; state[i] = finalizableSTATE; break; } case 'b': case 'e': case 'f': { /* expect that MPS has posted a particular message */ *pmNext++ = *script; break; } default: { printf("unknown script command %c (script %s).\n", *script, scriptAll); cdie(FALSE, "unknown script command"); return; } } Insist(am <= pmNext && pmNext < am + NELEMS(am)); script++; } } /* testscriptB -- create pools and objects; call testscriptC * * Is called via mps_tramp, so matches mps_tramp_t function prototype, * and use trampDataStruct to pass parameters. */ typedef struct trampDataStruct { mps_arena_t arena; mps_thr_t thr; const char *script; } trampDataStruct; static void *testscriptB(void *arg, size_t s) { trampDataStruct trampData; mps_arena_t arena; mps_thr_t thr; const char *script; mps_fmt_t fmt; mps_chain_t chain; mps_pool_t amc; mps_root_t root_table; mps_ap_t ap; mps_root_t root_stackreg; size_t i; int N = myrootCOUNT - 1; void *stack_starts_here; /* stack scanning starts here */ Insist(s == sizeof(trampDataStruct)); trampData = *(trampDataStruct*)arg; arena = trampData.arena; thr = trampData.thr; script = trampData.script; die(mps_fmt_create_A(&fmt, arena, dylan_fmt_A()), "fmt_create"); die(mps_chain_create(&chain, arena, genCOUNT, testChain), "chain_create"); die(mps_pool_create(&amc, arena, mps_class_amc(), fmt, chain), "pool_create amc"); for(i = 0; i < myrootCOUNT; ++i) { myroot[i] = NULL; } die(mps_root_create_table(&root_table, arena, mps_rank_exact(), (mps_rm_t)0, myroot, (size_t)myrootCOUNT), "root_create"); die(mps_ap_create(&ap, amc, mps_rank_exact()), "ap_create"); /* root_stackreg: stack & registers are ambiguous roots = mutator's workspace */ die(mps_root_create_thread(&root_stackreg, arena, thr, &stack_starts_here), "root_stackreg"); /* Make myrootCOUNT registered-for-finalization objects. */ /* Each is a dylan vector with 2 slots, inited to: (index, NULL) */ for(i = 0; i < myrootCOUNT; ++i) { mps_word_t v; mps_addr_t v_ref; die(make_dylan_vector(&v, ap, 2), "make_dylan_vector"); DYLAN_VECTOR_SLOT(v, 0) = DYLAN_INT(i); DYLAN_VECTOR_SLOT(v, 1) = (mps_word_t)NULL; v_ref = (mps_addr_t)v; die(mps_finalize(arena, &v_ref), "finalize"); myroot[i] = (void*)v; state[i] = rootSTATE; } /* .keep-alive: Create some additional inter-object references. * * 1 and N-1 don't die until myroot refs to both have been nulled. * * 2 and 3 don't die until myroot refs to both have been nulled. * * We do this to check that reachability via non-root refs prevents * finalization. */ /* Leave 0 and N containing NULL refs */ /* Make 1 and N-1 refer to each other */ DYLAN_VECTOR_SLOT(myroot[1] , 1) = (mps_word_t)myroot[N-1]; DYLAN_VECTOR_SLOT(myroot[N-1], 1) = (mps_word_t)myroot[1]; /* Make 2 and 3 refer to each other */ DYLAN_VECTOR_SLOT(myroot[2], 1) = (mps_word_t)myroot[3]; DYLAN_VECTOR_SLOT(myroot[3], 1) = (mps_word_t)myroot[2]; /* Stop stack scanning, otherwise stack or register dross from */ /* these setup functions can cause unwanted object retention, */ /* which would mean we don't get the finalization messages we */ /* expect. */ mps_root_destroy(root_stackreg); mps_message_type_enable(arena, mps_message_type_gc_start()); mps_message_type_enable(arena, mps_message_type_gc()); mps_message_type_enable(arena, mps_message_type_finalization()); testscriptC(arena, script); mps_arena_park(arena); mps_ap_destroy(ap); mps_root_destroy(root_table); mps_pool_destroy(amc); mps_chain_destroy(chain); mps_fmt_destroy(fmt); return NULL; } /* testscriptA -- create arena, thr, and tramp; call testscriptB */ static void testscriptA(const char *script) { mps_arena_t arena; mps_thr_t thr; mps_tramp_t trampFunction; trampDataStruct trampData; void *trampResult; printf("Script: \"%s\"\n Create arena etc.\n", script); /* arena */ die(mps_arena_create(&arena, mps_arena_class_vm(), testArenaSIZE), "arena_create"); mps_arena_clamp(arena); /* thr: used to stop/restart multiple threads */ die(mps_thread_reg(&thr, arena), "thread"); /* tramp: used for protection (barrier hits) */ /* call testscriptB! */ trampFunction = testscriptB; trampData.arena = arena; trampData.thr = thr; trampData.script = script; mps_tramp(&trampResult, trampFunction, &trampData, sizeof trampData); mps_thread_dereg(thr); mps_arena_destroy(arena); printf(" Destroy arena etc.\n\n"); } /* TIMCA_remote -- TraceIdMessagesCreate Alloc remote control * * In low memory situations, ControlAlloc may be unable to allocate * memory for GC messages. This needs to work flawlessly, but is * hard to test. * * To simulate it for testing purposes, add the following lines to * traceanc.c, before the definition of TraceIdMessagesCreate: * #define ControlAlloc !TIMCA_remote() ? ResFAIL : ControlAlloc * extern Bool TIMCA_remote(void); * (See changelist 166959). * * TIMCA_remote returns a Bool, true for let "ControlAlloc succeed". */ #ifdef TEST_CONTROLALLOC_FAILURE static const char *TIMCA_str = ""; static int TIMCA_done = 0; static void TIMCA_setup(const char *string) { /* TIMCA_setup -- TraceIdMessagesCreate Alloc remote control * * 1..9 -- succeed this many times * 0 -- fail once * NUL -- succeed from now on * * Eg: "1400" succeeds 5 times, fails 2 times, then succeeds forever. */ TIMCA_str = string; TIMCA_done = 0; } extern Bool TIMCA_remote(void); Bool TIMCA_remote(void) { Bool succeed; if(*TIMCA_str == '\0') { succeed = TRUE; } else if(*TIMCA_str == '0') { succeed = FALSE; TIMCA_str++; } else { Insist(*TIMCA_str >= '1' && *TIMCA_str <= '9'); succeed = TRUE; TIMCA_done++; if(TIMCA_done == *TIMCA_str - '0') { TIMCA_done = 0; TIMCA_str++; } } return succeed; } #endif /* TEST_CONTROLALLOC_FAILURE */ /* main -- runs various test scripts * */ int main(int argc, char *argv[]) { testlib_init(argc, argv); /* Scripts that should fail (uncomment to show failure is detected) */ /*testscriptA("C.");*/ /*testscriptA("b.");*/ /* The most basic scripts */ testscriptA("."); testscriptA("Cbe."); testscriptA("Cbe.Cbe."); /* Get messages, but not promptly */ testscriptA(".Cbe.CbeCbeCbe."); /* Ungot messages at ArenaDestroy */ testscriptA("Cbe"); testscriptA("Cbe.CbeCbeCbe"); /* Fail to call mps_message_discard */ testscriptA("Cbe!"); testscriptA("Cbe!CbeCbeCbe!"); /* Simple finalization * * These tests rely on the particular order in which the "F" command * nulls-out references. Not every "F" makes an object finalizable. * See .keep-alive. */ testscriptA("FFCbffe."); testscriptA("FFCbffe.FFCbffe."); testscriptA("FFCbffe.FCbe.F.Cbffe.FFCbfe.FF.Cbfffe."); /* Various other scripts */ testscriptA("Cbe.FFCbffe.Cbe"); /* Simulate low memory situations * * These scripts only work with a manually edited traceanc.c -- * see TIMCA_remote() above. * * When TraceIdMessagesCreate is trying to pre-allocate GC messages, * either "0" or "10" makes it fail -- "0" fails the trace start * message alloc, whereas "10" fails the trace end message alloc. * In either case TraceIdMessagesCreate promptly gives up, and * neither start nor end message will be sent for the next trace. * * See . */ #if TEST_CONTROLALLOC_FAILURE { /* ArenaCreate unable to pre-allocate: THESE SHOULD FAIL */ /* manually edit if(0) -> if(1) to test these */ if(0) { TIMCA_setup("0"); testscriptA("Fail at create 1"); } if(0) { TIMCA_setup("10"); testscriptA("Fail at create 2"); } /* ArenaDestroy with no pre-allocated messages */ TIMCA_setup("20"); testscriptA("Cbe."); TIMCA_setup("210"); testscriptA("Cbe."); /* Collect with no pre-allocated messages: drops messages, */ /* hence "C." instead of "Cbe.". Also, in diagnostic varieties, */ /* these should produce a "droppedMessages" diagnostic at */ /* ArenaDestroy. */ TIMCA_setup("2022"); testscriptA("Cbe.C.Cbe."); TIMCA_setup("21022"); testscriptA("Cbe.C.Cbe."); /* 2 Collects and ArenaDestroy with no pre-allocated messages */ TIMCA_setup("2000"); testscriptA("Cbe.C.C."); TIMCA_setup("201010"); testscriptA("Cbe.C.C."); TIMCA_setup(""); /* must reset it! */ } #endif printf("%s: Conclusion: Failed to find any defects.\n", argv[0]); return 0; } /* C. COPYRIGHT AND LICENSE * * Copyright (c) 2001-2014 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. The source code must either be * included in the distribution or be available for no more than the cost * of distribution plus a nominal fee, and must be freely redistributable * under reasonable conditions. For an executable file, complete source * code means the source code for all modules it contains. It does not * include source code for modules or files that typically accompany the * major components of the operating system on which the executable file * runs. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR * PURPOSE, OR NON-INFRINGEMENT, ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDERS AND CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF * USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON * ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */