"""Test lldb's disassemblt speed. This bench deliberately attaches to an lldb inferior and traverses the stack for thread0 to arrive at frame with function 'MainLoop'. It is important to specify an lldb executable as the inferior.""" from __future__ import print_function import os import sys import lldb from lldbsuite.test.decorators import * from lldbsuite.test.lldbbench import * from lldbsuite.test.lldbtest import * class AttachThenDisassemblyBench(BenchBase): mydir = TestBase.compute_mydir(__file__) def setUp(self): BenchBase.setUp(self) self.exe = lldbtest_config.lldbExec self.count = 10 @benchmarks_test @no_debug_info_test def test_attach_then_disassembly(self): """Attach to a spawned lldb process then run disassembly benchmarks.""" print() self.run_lldb_attach_then_disassembly(self.exe, self.count) print("lldb disassembly benchmark:", self.stopwatch) def run_lldb_attach_then_disassembly(self, exe, count): target = self.dbg.CreateTarget(exe) # Spawn a new process and don't display the stdout if not in TraceOn() # mode. import subprocess popen = subprocess.Popen([exe, self.lldbOption], stdout=open( os.devnull, 'w') if not self.TraceOn() else None) if self.TraceOn(): print("pid of spawned process: %d" % popen.pid) # Attach to the launched lldb process. listener = lldb.SBListener("my.attach.listener") error = lldb.SBError() process = target.AttachToProcessWithID(listener, popen.pid, error) # Set thread0 as the selected thread, followed by the 'MainLoop' frame # as the selected frame. Then do disassembly on the function. thread0 = process.GetThreadAtIndex(0) process.SetSelectedThread(thread0) i = 0 found = False for f in thread0: # print("frame#%d %s" % (i, f.GetFunctionName())) if "MainLoop" in f.GetFunctionName(): found = True thread0.SetSelectedFrame(i) if self.TraceOn(): print("Found frame#%d for function 'MainLoop'" % i) break i += 1 # Reset the stopwatch now. self.stopwatch.reset() for i in range(count): with self.stopwatch: # Disassemble the function. self.runCmd("disassemble -f")