/* * Copyright (c) 2003, 2018, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ #include #include #include "jvmti.h" #include "agent_common.h" #include "jni_tools.h" #include "jvmti_tools.h" extern "C" { /* ============================================================================= */ static jlong timeout = 0; #define TESTED_THREAD_NAME "thrcputime001Thread" #define STATUS_FAIL 97 #define EVENTS_COUNT 2 static jvmtiEvent events[EVENTS_COUNT] = { JVMTI_EVENT_VM_INIT, JVMTI_EVENT_VM_DEATH }; #define THREAD_EVENTS_COUNT 2 static jvmtiEvent threadEvents[THREAD_EVENTS_COUNT] = { JVMTI_EVENT_THREAD_START, JVMTI_EVENT_THREAD_END }; static julong prevTestedThreadTime = 0; static julong prevAgentThreadTime = 0; static int iterations = 0; /* ============================================================================= */ /** * Get time and optionally compares it with initial one. * @returns NSK_FALSE if any error occured. */ static int checkCpuTime(jvmtiEnv* jvmti, jthread thread, julong* time, julong* prevTime, const char where[]) { char buf[64], buf2[64], buf3[64]; int success = NSK_TRUE; NSK_DISPLAY1("GetThreadCpuTime() for current thread (passing NULL): 0x%p\n", (void*)thread); if (!NSK_JVMTI_VERIFY( jvmti->GetThreadCpuTime(NULL, (jlong *)time))) { return NSK_FALSE; } NSK_DISPLAY1(" ... got cpu time: %s\n", julong_to_string(*time, buf)); if (*time == 0) { NSK_DISPLAY2("# WARNING: In %s GetThreadCpuTime() returned zero cpu time: %s\n", where, julong_to_string(*time, buf)); } if (prevTime != NULL) { julong diff = *time - *prevTime; NSK_DISPLAY1("Compare with previous time: %s\n", julong_to_string(*prevTime, buf)); NSK_DISPLAY1(" ... difference: %s\n", julong_to_string(diff, buf)); if (*time < *prevTime) { NSK_COMPLAIN4("In %s GetThreadCpuTime() returned decreased cpu time:\n" "# got cpu time: %s\n" "# previous: %s\n" "# difference: %s\n", where, julong_to_string(*time, buf), julong_to_string(*prevTime, buf2), julong_to_string(diff, buf3)); success = NSK_FALSE; } if (*time == *prevTime) { NSK_DISPLAY3("# WARNING: In %s GetThreadCpuTime() returned not increased cpu time:\n" "# got cpu time: %s\n" "# previous: %s\n", where, julong_to_string(*time, buf), julong_to_string(*prevTime, buf2)); } *prevTime = *time; } return success; } /** Run some code. */ static void runIterations(int n) { int k; for (k = 0; k < n; k++) { int s = k; int i; for (i = 0; i < n; i++) { if (i % 2 == 0) { s += i * 10; } else { s -= i * 10; } } } } /* ============================================================================= */ /** Agent algorithm. */ static void JNICALL agentProc(jvmtiEnv* jvmti, JNIEnv* jni, void* arg) { jthread testAgentThread = nsk_jvmti_getAgentThread(); NSK_DISPLAY1("Started agent thread: 0x%p\n", testAgentThread); NSK_DISPLAY0("Wait for debugee to become ready\n"); if (!nsk_jvmti_waitForSync(timeout)) return; NSK_DISPLAY0(">>> Testcase #2: Check initial cpu time in agent thread\n"); { if (!checkCpuTime(jvmti, testAgentThread, &prevAgentThreadTime, NULL, "agent thread")) { nsk_jvmti_setFailStatus(); } } NSK_DISPLAY0(">>> Testcases #3,5: Check cpu times in tested thread events\n"); { runIterations(iterations); NSK_DISPLAY1("Enable thread events: %d events\n", THREAD_EVENTS_COUNT); if (nsk_jvmti_enableEvents(JVMTI_ENABLE, THREAD_EVENTS_COUNT, threadEvents, NULL)) { NSK_DISPLAY0(" ... enabled\n"); } NSK_DISPLAY0("Let tested thread to start\n"); if (!nsk_jvmti_resumeSync()) return; if (!nsk_jvmti_waitForSync(timeout)) return; NSK_DISPLAY0(">>> Testcase #4: Check middle cpu time in agent thread\n"); { julong time = 0; runIterations(iterations); if (!checkCpuTime(jvmti, testAgentThread, &time, &prevAgentThreadTime, "agent thread")) { nsk_jvmti_setFailStatus(); } } NSK_DISPLAY0("Let tested thread to finish\n"); if (!nsk_jvmti_resumeSync()) return; if (!nsk_jvmti_waitForSync(timeout)) return; NSK_DISPLAY1("Disable thread events: %d events\n", THREAD_EVENTS_COUNT); if (nsk_jvmti_enableEvents(JVMTI_DISABLE, THREAD_EVENTS_COUNT, threadEvents, NULL)) { NSK_DISPLAY0(" ... disabled\n"); } } NSK_DISPLAY0(">>> Testcase #6: Check final cpu time in agent thread\n"); { julong time = 0; runIterations(iterations); if (!checkCpuTime(jvmti, testAgentThread, &time, &prevAgentThreadTime, "agent thread")) { nsk_jvmti_setFailStatus(); } } NSK_DISPLAY0("Let debugee to finish\n"); if (!nsk_jvmti_resumeSync()) return; } /* ============================================================================= */ /** * Callback for VM_INIT event. */ JNIEXPORT void JNICALL callbackVMInit(jvmtiEnv* jvmti, JNIEnv* jni, jthread thread) { NSK_DISPLAY0(">>> Testcase #1: Check initial cpu time in VM_INIT callback\n"); { julong time = 0; if (!checkCpuTime(jvmti, thread, &time, NULL, "VM_INIT callback")) { nsk_jvmti_setFailStatus(); } } } /** * Callback for VM_DEATH event. */ JNIEXPORT void JNICALL callbackVMDeath(jvmtiEnv* jvmti, JNIEnv* jni) { int success = NSK_TRUE; NSK_DISPLAY0(">>> Testcase #7: Check initial cpu time in VM_DEATH callback\n"); { julong time = 0; if (!checkCpuTime(jvmti, NULL, &time, NULL, "VM_DEATH callback")) { success = NSK_FALSE; nsk_jvmti_setFailStatus(); } } NSK_DISPLAY1("Disable events: %d events\n", EVENTS_COUNT); if (!nsk_jvmti_enableEvents(JVMTI_DISABLE, EVENTS_COUNT, events, NULL)) { success = NSK_FALSE; } else { NSK_DISPLAY0(" ... disabled\n"); } if (!success) { NSK_DISPLAY1("Exit with FAIL exit status: %d\n", STATUS_FAIL); NSK_BEFORE_TRACE(exit(STATUS_FAIL)); } } /* ============================================================================= */ /** * Callback for THREAD_START event. */ JNIEXPORT void JNICALL callbackThreadStart(jvmtiEnv* jvmti, JNIEnv* jni, jthread thread) { jvmtiThreadInfo threadInfo; { if (!NSK_JVMTI_VERIFY( jvmti->GetThreadInfo(thread, &threadInfo))) { nsk_jvmti_setFailStatus(); return; } NSK_DISPLAY1(" for thread: %s\n", nsk_null_string(threadInfo.name)); } if (threadInfo.name != NULL && strcmp(threadInfo.name, TESTED_THREAD_NAME) == 0) { NSK_DISPLAY0(">>> Testcase #3: Check initial cpu time in THREAD_START callback\n"); if (!checkCpuTime(jvmti, thread, &prevTestedThreadTime, NULL, "THREAD_START callback")) { nsk_jvmti_setFailStatus(); } } } /** * Callback for THREAD_END event. */ JNIEXPORT void JNICALL callbackThreadEnd(jvmtiEnv* jvmti, JNIEnv* jni, jthread thread) { jvmtiThreadInfo threadInfo; { if (!NSK_JVMTI_VERIFY( jvmti->GetThreadInfo(thread, &threadInfo))) { nsk_jvmti_setFailStatus(); return; } NSK_DISPLAY1(" for thread: %s\n", nsk_null_string(threadInfo.name)); } if (threadInfo.name != NULL && strcmp(threadInfo.name, TESTED_THREAD_NAME) == 0) { julong time = 0; NSK_DISPLAY0(">>> Testcase #5: Check final cpu time in THREAD_END callback\n"); if (!checkCpuTime(jvmti, thread, &time, &prevTestedThreadTime, "THREAD_END callback")) { nsk_jvmti_setFailStatus(); } } } /* ============================================================================= */ /** Agent library initialization. */ #ifdef STATIC_BUILD JNIEXPORT jint JNICALL Agent_OnLoad_thrcputime001(JavaVM *jvm, char *options, void *reserved) { return Agent_Initialize(jvm, options, reserved); } JNIEXPORT jint JNICALL Agent_OnAttach_thrcputime001(JavaVM *jvm, char *options, void *reserved) { return Agent_Initialize(jvm, options, reserved); } JNIEXPORT jint JNI_OnLoad_thrcputime001(JavaVM *jvm, char *options, void *reserved) { return JNI_VERSION_1_8; } #endif jint Agent_Initialize(JavaVM *jvm, char *options, void *reserved) { jvmtiEnv* jvmti = NULL; if (!NSK_VERIFY(nsk_jvmti_parseOptions(options))) return JNI_ERR; timeout = nsk_jvmti_getWaitTime() * 60 * 1000; iterations = nsk_jvmti_findOptionIntValue("iterations", 1000); if (!NSK_VERIFY(iterations >= 1000)) return JNI_ERR; if (!NSK_VERIFY((jvmti = nsk_jvmti_createJVMTIEnv(jvm, reserved)) != NULL)) return JNI_ERR; NSK_DISPLAY1("Add required capability: %s\n", "can_get_thread_cpu_time"); { jvmtiCapabilities caps; memset(&caps, 0, sizeof(caps)); caps.can_get_thread_cpu_time = 1; if (!NSK_JVMTI_VERIFY( jvmti->AddCapabilities(&caps))) { return JNI_ERR; } } NSK_DISPLAY0(" ... capability added\n"); NSK_DISPLAY1("Set events callbacks: %s\n", "VM_INIT, VM_DEATH, THREAD_START, THREAD_END"); { jvmtiEventCallbacks eventCallbacks; memset(&eventCallbacks, 0, sizeof(eventCallbacks)); eventCallbacks.VMInit = callbackVMInit; eventCallbacks.VMDeath = callbackVMDeath; eventCallbacks.ThreadStart = callbackThreadStart; eventCallbacks.ThreadEnd = callbackThreadEnd; if (!NSK_JVMTI_VERIFY( jvmti->SetEventCallbacks(&eventCallbacks, sizeof(eventCallbacks)))) { return JNI_ERR; } } NSK_DISPLAY0(" ... callbacks set\n"); if (!NSK_VERIFY(nsk_jvmti_setAgentProc(agentProc, NULL))) return JNI_ERR; NSK_DISPLAY1("Enable events: %d events\n", EVENTS_COUNT); if (nsk_jvmti_enableEvents(JVMTI_ENABLE, EVENTS_COUNT, events, NULL)) { NSK_DISPLAY0(" ... enabled\n"); } return JNI_OK; } /* ============================================================================= */ }