Example #1
0
File: asio.py Project: Eagle-X/hhvm
    def invoke(self, args, from_tty):
        argv = parse_argv(args)

        if len(argv) != 1:
            print('Usage: asyncstk wait-handle')

        try:
            stacktrace = asio_stacktrace(argv[0])
        except TypeError:
            print('asyncstk: Argument must be a WaitHandle object or pointer.')
            return

        for s in frame.stringify_stacktrace(stacktrace):
            print(s)
Example #2
0
    def invoke(self, args, from_tty):
        argv = parse_argv(args)

        if len(argv) != 1:
            print('Usage: asyncstk wait-handle')

        try:
            stacktrace = asio_stacktrace(argv[0])
        except TypeError:
            print('asyncstk: Argument must be a WaitHandle object or pointer.')
            return

        for s in frame.stringify_stacktrace(stacktrace):
            print(s)
Example #3
0
    def invoke(self, args, from_tty):
        try:
            wh = gdb.parse_and_eval(args)
        except gdb.error:
            print('Usage: asyncstk wait-handle')
            return

        try:
            stacktrace = asio_stacktrace(wh)
        except TypeError:
            print('asyncstk: Argument must be a WaitHandle object or pointer.')
            return

        for s in frame.stringify_stacktrace(stacktrace):
            print(s)
Example #4
0
    def invoke(self, args, from_tty):
        try:
            wh = gdb.parse_and_eval(args)
        except gdb.error:
            print('Usage: asyncstk wait-handle')
            return

        try:
            stacktrace = asio_stacktrace(wh)
        except TypeError:
            print('asyncstk: Argument must be a WaitHandle object or pointer.')
            return

        for s in frame.stringify_stacktrace(stacktrace):
            print(s)
Example #5
0
    def invoke(self, args, from_tty):
        asio_session = TL('HPHP::AsioSession::s_current')['m_p']

        contexts = asio_session['m_contexts']
        num_contexts = sizeof(contexts)

        if num_contexts == 0:
            print('Not currently in the scope of an AsioContext')
            return

        asio_ctx = asio_context()

        # Count the number of contexts, and print the topmost.
        print('\n%d stacked AsioContext%s (current: (%s) %s)' %
              (int(num_contexts), plural_suffix(num_contexts),
               str(asio_ctx.type), str(asio_ctx)))

        # Get the current vmfp().
        header_ptype = T('HPHP::rds::Header').pointer()
        vmfp = TL('HPHP::rds::tl_base').cast(header_ptype)['vmRegs']['fp']

        wh_ptype = T('HPHP::c_WaitableWaitHandle').pointer()

        # Find the most recent join().
        for _i, fp in izip(count(), frame.gen_php(vmfp)):
            if nameof(fp['m_func']) == 'HH\WaitHandle::join':
                break

        if nameof(fp['m_func']) != 'HH\WaitHandle::join':
            print("...but couldn't find join().  Something is wrong.\n")
            return

        wh = fp['m_this'].cast(wh_ptype)

        print('\nCurrently %s WaitHandle: (%s) %s [state: %s]' %
              ('joining' if i == 0 else 'executing', str(
                  wh.type), str(wh), WaitHandle(wh).state_str()))

        # Dump the async stacktrace.
        for s in frame.stringify_stacktrace(asio_stacktrace(wh)):
            print('    %s' % s)

        # Count the number of queued runnables.
        queue_size = sizeof(asio_ctx['m_runnableQueue'])
        print('%d other resumable%s queued' %
              (int(queue_size), plural_suffix(queue_size)))

        sleeps = asio_ctx['m_sleepEvents']
        externals = asio_ctx['m_externalThreadEvents']

        num_sleeps = sizeof(sleeps)
        num_externals = sizeof(externals)

        # Count sleep and external thread events.
        print('')
        print('%d pending sleep event%s' %
              (int(num_sleeps), plural_suffix(num_sleeps)))
        print('%d pending external thread event%s' %
              (int(num_externals), plural_suffix(num_externals)))

        # Dump sleep and external thread event stacktraces.
        for vec in [sleeps, externals]:
            for i in xrange(int(sizeof(vec))):
                wh = idx.vector_at(vec, i)
                stacktrace = frame.stringify_stacktrace(asio_stacktrace(wh, 3))

                print('\n(%s) %s [state: %s]' %
                      (str(wh.type), str(wh), WaitHandle(wh).state_str()))

                if len(stacktrace) == 4:
                    for s in stacktrace[0:-1]:
                        print('    %s' % s)
                    print('     ...')
                    print('    %s' % stacktrace[-1])
                else:
                    for s in stacktrace:
                        print('    %s' % s)
        print('')
Example #6
0
    def invoke(self, args, from_tty):
        asio_session = TL('HPHP::AsioSession::s_current')['m_p']

        contexts = asio_session['m_contexts']
        num_contexts = sizeof(contexts)

        if num_contexts == 0:
            print('Not currently in the scope of an AsioContext')
            return

        asio_ctx = asio_context()

        # Count the number of contexts, and print the topmost.
        print('\n%d stacked AsioContext%s (current: (%s) %s)' % (
            int(num_contexts),
            plural_suffix(num_contexts),
            str(asio_ctx.type),
            str(asio_ctx)))

        # Get the current vmfp().
        header_ptype = T('HPHP::rds::Header').pointer()
        vmfp = TL('HPHP::rds::tl_base').cast(header_ptype)['vmRegs']['fp']

        wh_ptype = T('HPHP::c_WaitableWaitHandle').pointer()

        # Find the most recent join().
        for i, fp in izip(count(), frame.gen_php(vmfp)):
            if nameof(fp['m_func']) == 'HH\WaitHandle::join':
                break

        if nameof(fp['m_func']) != 'HH\WaitHandle::join':
            print("...but couldn't find join().  Something is wrong.\n")
            return

        wh = fp['m_this'].cast(wh_ptype)

        print('\nCurrently %s WaitHandle: (%s) %s [state: %s]' % (
            'joining' if i == 0 else 'executing',
            str(wh.type),
            str(wh),
            WaitHandle(wh).state_str()))

        # Dump the async stacktrace.
        for s in frame.stringify_stacktrace(asio_stacktrace(wh)):
            print('    %s' % s)

        # Count the number of queued runnables.
        queue_size = sizeof(asio_ctx['m_runnableQueue'])
        print('%d other resumable%s queued' % (
            int(queue_size),
            plural_suffix(queue_size)))

        sleeps = asio_ctx['m_sleepEvents']
        externals = asio_ctx['m_externalThreadEvents']

        num_sleeps = sizeof(sleeps)
        num_externals = sizeof(externals)

        # Count sleep and external thread events.
        print('')
        print('%d pending sleep event%s' % (
            int(num_sleeps), plural_suffix(num_sleeps)))
        print('%d pending external thread event%s' % (
            int(num_externals), plural_suffix(num_externals)))

        # Dump sleep and external thread event stacktraces.
        for vec in [sleeps, externals]:
            for i in xrange(int(sizeof(vec))):
                wh = idx.vector_at(vec, i)
                stacktrace = frame.stringify_stacktrace(asio_stacktrace(wh, 3))

                print('\n(%s) %s [state: %s]' % (
                    str(wh.type), str(wh), WaitHandle(wh).state_str()))

                if len(stacktrace) == 4:
                    for s in stacktrace[0:-1]:
                        print('    %s' % s)
                    print('     ...')
                    print('    %s' % stacktrace[-1])
                else:
                    for s in stacktrace:
                        print('    %s' % s)
        print('')