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import lldb
from intelpt_testcase import *
from lldbsuite.test.lldbtest import *
from lldbsuite.test import lldbutil
from lldbsuite.test.decorators import *
class TestTraceStartStop(TraceIntelPTTestCaseBase):
mydir = TestBase.compute_mydir(__file__)
def expectGenericHelpMessageForStartCommand(self):
self.expect("help thread trace start",
substrs=["Syntax: thread trace start [<trace-options>]"])
@testSBAPIAndCommands
def testStartStopSessionFileThreads(self):
# it should fail for processes from json session files
self.expect("trace load -v " + os.path.join(self.getSourceDir(), "intelpt-trace", "trace.json"))
# the help command should be the generic one, as it's not a live process
self.expectGenericHelpMessageForStartCommand()
self.traceStartThread(error=True)
self.traceStopThread(error=True)
@testSBAPIAndCommands
def testStartWithNoProcess(self):
self.traceStartThread(error=True)
@testSBAPIAndCommands
def testStartSessionWithWrongSize(self):
self.expect("file " + os.path.join(self.getSourceDir(), "intelpt-trace", "a.out"))
self.expect("b main")
self.expect("r")
self.traceStartThread(
error=True, threadBufferSize=2000,
substrs=["The trace buffer size must be a power of 2", "It was 2000"])
self.traceStartThread(
error=True, threadBufferSize=5000,
substrs=["The trace buffer size must be a power of 2", "It was 5000"])
self.traceStartThread(
error=True, threadBufferSize=0,
substrs=["The trace buffer size must be a power of 2", "It was 0"])
self.traceStartThread(threadBufferSize=1048576)
@skipIf(oslist=no_match(['linux']), archs=no_match(['i386', 'x86_64']))
def testSBAPIHelp(self):
self.expect("file " + os.path.join(self.getSourceDir(), "intelpt-trace", "a.out"))
self.expect("b main")
self.expect("r")
help = self.getTraceOrCreate().GetStartConfigurationHelp()
self.assertIn("threadBufferSize", help)
self.assertIn("processBufferSizeLimit", help)
@skipIf(oslist=no_match(['linux']), archs=no_match(['i386', 'x86_64']))
def testStoppingAThread(self):
self.expect("file " + os.path.join(self.getSourceDir(), "intelpt-trace", "a.out"))
self.expect("b main")
self.expect("r")
self.expect("thread trace start")
self.expect("n")
self.expect("thread trace dump instructions", substrs=["""0x0000000000400511 movl $0x0, -0x4(%rbp)
no more data"""])
# process stopping should stop the thread
self.expect("process trace stop")
self.expect("n")
self.expect("thread trace dump instructions", substrs=["not traced"])
@skipIf(oslist=no_match(['linux']), archs=no_match(['i386', 'x86_64']))
def testStartStopLiveThreads(self):
# The help command should be the generic one if there's no process running
self.expectGenericHelpMessageForStartCommand()
self.expect("thread trace start", error=True,
substrs=["error: Process not available"])
self.expect("file " + os.path.join(self.getSourceDir(), "intelpt-trace", "a.out"))
self.expect("b main")
self.expect("thread trace start", error=True,
substrs=["error: Process not available"])
# The help command should be the generic one if there's still no process running
self.expectGenericHelpMessageForStartCommand()
self.expect("r")
# This fails because "trace start" hasn't been called yet
self.expect("thread trace stop", error=True,
substrs=["error: Process is not being traced"])
# the help command should be the intel-pt one now
self.expect("help thread trace start",
substrs=["Start tracing one or more threads with intel-pt.",
"Syntax: thread trace start [<thread-index> <thread-index> ...] [<intel-pt-options>]"])
# We start tracing with a small buffer size
self.expect("thread trace start 1 --size 4096")
# We fail if we try to trace again
self.expect("thread trace start", error=True,
substrs=["error: Thread ", "already traced"])
# We can reconstruct the single instruction executed in the first line
self.expect("n")
self.expect("thread trace dump instructions -f",
patterns=[f'''thread #1: tid = .*
a.out`main \+ 4 at main.cpp:2
\[ 0\] {ADDRESS_REGEX} movl'''])
# We can reconstruct the instructions up to the second line
self.expect("n")
self.expect("thread trace dump instructions -f",
patterns=[f'''thread #1: tid = .*
a.out`main \+ 4 at main.cpp:2
\[ 0\] {ADDRESS_REGEX} movl .*
a.out`main \+ 11 at main.cpp:4
\[ 1\] {ADDRESS_REGEX} movl .*
\[ 2\] {ADDRESS_REGEX} jmp .* ; <\+28> at main.cpp:4
\[ 3\] {ADDRESS_REGEX} cmpl .*
\[ 4\] {ADDRESS_REGEX} jle .* ; <\+20> at main.cpp:5'''])
self.expect("thread trace dump instructions",
patterns=[f'''thread #1: tid = .*
a.out`main \+ 32 at main.cpp:4
\[ 0\] {ADDRESS_REGEX} jle .* ; <\+20> at main.cpp:5
\[ -1\] {ADDRESS_REGEX} cmpl .*
\[ -2\] {ADDRESS_REGEX} jmp .* ; <\+28> at main.cpp:4
\[ -3\] {ADDRESS_REGEX} movl .*
a.out`main \+ 4 at main.cpp:2
\[ -4\] {ADDRESS_REGEX} movl .* '''])
# We stop tracing
self.expect("thread trace stop")
# We can't stop twice
self.expect("thread trace stop", error=True,
substrs=["error: Thread ", "not currently traced"])
# We trace again from scratch, this time letting LLDB to pick the current
# thread
self.expect("thread trace start")
self.expect("n")
self.expect("thread trace dump instructions -f",
patterns=[f'''thread #1: tid = .*
a.out`main \+ 20 at main.cpp:5
\[ 0\] {ADDRESS_REGEX} xorl'''])
self.expect("thread trace dump instructions",
patterns=[f'''thread #1: tid = .*
a.out`main \+ 20 at main.cpp:5
\[ 0\] {ADDRESS_REGEX} xorl'''])
self.expect("c")
# Now the process has finished, so the commands should fail
self.expect("thread trace start", error=True,
substrs=["error: Process must be launched"])
self.expect("thread trace stop", error=True,
substrs=["error: Process must be launched"])
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