Пример #1
0
    def test_block_profile(self):
        if runtime_info.OS_WIN or not min_version(3, 4):
            return

        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            auto_profiling = False,
            debug = True
        )

        messages = []
        def add_mock(topic, message):
            messages.append(message)
        agent.message_queue.add = add_mock

        agent.start_block_profiler()

        def blocking_call():
            time.sleep(0.1)

        for i in range(5):
            blocking_call()

        agent.stop_block_profiler()

        self.assertTrue('blocking_call' in str(messages))

        agent.destroy()
    def test_block_profile(self):
        if runtime_info.OS_WIN or not min_version(3, 4):
            return

        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            auto_profiling = False,
            debug = True
        )

        messages = []
        def add_mock(topic, message):
            messages.append(message)
        agent.message_queue.add = add_mock

        agent.start_block_profiler()

        def blocking_call():
            time.sleep(0.1)

        for i in range(5):
            blocking_call()

        agent.stop_block_profiler()

        self.assertTrue('blocking_call' in str(messages))

        agent.destroy()
Пример #3
0
    def test_allocation_profile(self):
        if runtime_info.OS_WIN or not min_version(3, 4):
            return

        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            auto_profiling = False,
            debug = True
        )
        
        messages = []
        def add_mock(topic, message):
            messages.append(message)
        agent.message_queue.add = add_mock

        agent.start_allocation_profiler()

        mem1 = []
        for i in range(0, 1000):
            obj1 = {'v': random.randint(0, 1000000)}
            mem1.append(obj1)

        agent.stop_allocation_profiler()

        self.assertTrue('agent_test.py' in str(messages))

        agent.destroy()
    def test_allocation_profile(self):
        if runtime_info.OS_WIN or not min_version(3, 4):
            return

        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            auto_profiling = False,
            debug = True
        )
        
        messages = []
        def add_mock(topic, message):
            messages.append(message)
        agent.message_queue.add = add_mock

        agent.start_allocation_profiler()

        mem1 = []
        for i in range(0, 1000):
            obj1 = {'v': random.randint(0, 1000000)}
            mem1.append(obj1)

        agent.stop_allocation_profiler()

        self.assertTrue('agent_test.py' in str(messages))

        agent.destroy()
Пример #5
0
    def test_record_allocation_profile(self):
        if runtime_info.OS_WIN or not min_version(3, 4):
            return

        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            auto_profiling = False,
            debug = True
        )

        agent.allocation_reporter.profiler.reset()

        mem1 = []
        def mem_leak(n = 100000):
            mem2 = []
            for i in range(0, n):
                mem1.append(random.randint(0, 1000))
                mem2.append(random.randint(0, 1000))

        def mem_leak2():
            mem_leak()

        def mem_leak3():
            mem_leak2()

        def mem_leak4():
            mem_leak3()

        def mem_leak5():
            mem_leak4()

        result = {}
        def record():
            agent.allocation_reporter.profiler.start_profiler()
            time.sleep(2)
            agent.allocation_reporter.profiler.stop_profiler()

        t = threading.Thread(target=record)
        t.start()

        # simulate leak
        mem_leak5()

        t.join()

        profile = agent.allocation_reporter.profiler.build_profile(2)[0]['profile'].to_dict()
        #print(str(profile))

        self.assertTrue('allocation_profiler_test.py' in str(profile))

        agent.destroy()
    def test_record_allocation_profile(self):
        if not min_version(3, 4):
            return

        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            debug = True
        )

        mem1 = []
        def mem_leak(n = 100000):
            mem2 = []
            for i in range(0, n):
                mem1.append(random.randint(0, 1000))
                mem2.append(random.randint(0, 1000))

        def mem_leak2():
            mem_leak()

        def mem_leak3():
            mem_leak2()

        def mem_leak4():
            mem_leak3()

        def mem_leak5():
            mem_leak4()

        result = {}
        def record():
            agent.allocation_reporter.record(2)

        t = threading.Thread(target=record)
        t.start()

        # simulate leak
        mem_leak5()

        t.join()

        #print(agent.allocation_reporter.profile)

        self.assertTrue('allocation_reporter_test.py' in str(agent.allocation_reporter.profile))

        agent.destroy()
    def test_report(self):
        stackimpact._agent = None
        agent = stackimpact.start(dashboard_address='http://localhost:5001',
                                  agent_key='key1',
                                  app_name='TestPythonApp',
                                  debug=True)
        agent.process_reporter.start()

        agent.process_reporter.report()
        time.sleep(0.1)
        agent.process_reporter.report()

        metrics = agent.process_reporter.metrics

        if not runtime_info.OS_WIN:
            self.is_valid(metrics, Metric.TYPE_COUNTER, Metric.CATEGORY_CPU,
                          Metric.NAME_CPU_TIME, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_CPU,
                          Metric.NAME_CPU_USAGE, 0, float("inf"))

        if not runtime_info.OS_WIN:
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_MEMORY,
                          Metric.NAME_MAX_RSS, 0, float("inf"))

        if runtime_info.OS_LINUX:
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_MEMORY,
                          Metric.NAME_CURRENT_RSS, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_MEMORY,
                          Metric.NAME_VM_SIZE, 0, float("inf"))

        self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_GC,
                      Metric.NAME_GC_COUNT, 0, float("inf"))
        if min_version(3, 4):
            self.is_valid(metrics, Metric.TYPE_COUNTER, Metric.CATEGORY_GC,
                          Metric.NAME_GC_COLLECTIONS, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_COUNTER, Metric.CATEGORY_GC,
                          Metric.NAME_GC_COLLECTED, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_GC,
                          Metric.NAME_GC_UNCOLLECTABLE, 0, float("inf"))

        self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_RUNTIME,
                      Metric.NAME_THREAD_COUNT, 0, float("inf"))

        agent.destroy()
    def test_report(self):
        stackimpact._agent = None
        agent = stackimpact.start(
            dashboard_address = 'http://localhost:5001',
            agent_key = 'key1',
            app_name = 'TestPythonApp',
            debug = True
        )
        agent.process_reporter.start()

        agent.process_reporter.report()
        time.sleep(0.1)
        agent.process_reporter.report()

        metrics = agent.process_reporter.metrics

        if not runtime_info.OS_WIN:
            self.is_valid(metrics, Metric.TYPE_COUNTER, Metric.CATEGORY_CPU, Metric.NAME_CPU_TIME, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_CPU, Metric.NAME_CPU_USAGE, 0, float("inf"))

        if not runtime_info.OS_WIN:
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_MEMORY, Metric.NAME_MAX_RSS, 0, float("inf"))

        if runtime_info.OS_LINUX:
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_MEMORY, Metric.NAME_CURRENT_RSS, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_MEMORY, Metric.NAME_VM_SIZE, 0, float("inf"))

        self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_GC, Metric.NAME_GC_COUNT, 0, float("inf"))
        if min_version(3, 4):
            self.is_valid(metrics, Metric.TYPE_COUNTER, Metric.CATEGORY_GC, Metric.NAME_GC_COLLECTIONS, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_COUNTER, Metric.CATEGORY_GC, Metric.NAME_GC_COLLECTED, 0, float("inf"))
            self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_GC, Metric.NAME_GC_UNCOLLECTABLE, 0, float("inf"))

        self.is_valid(metrics, Metric.TYPE_STATE, Metric.CATEGORY_RUNTIME, Metric.NAME_THREAD_COUNT, 0, float("inf"))

        agent.destroy()