test/api/multiple-debuggers/multi-process-driver.cpp - lldb - Git at Google


 // This program creates NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS of pthreads,
 // creates an lldb Debugger on each thread, creates targets, inserts two
 // breakpoints, runs to the first breakpoint, backtraces, runs to the second
 // breakpoint, backtraces, kills the inferior process, closes down the
 // debugger.

 // The main thread keeps track of which pthreads have completed and which
 // pthreads have completed successfully, and exits when all pthreads have
 // completed successfully, or our time limit has been exceeded.

 // This test file helps to uncover race conditions and locking mistakes
 // that are hit when lldb is being used to debug multiple processes
 // simultaneously.

 #include <stdio.h>
 #include <stdlib.h>


 #ifdef __APPLE__
 #include <LLDB/LLDB.h>
 #include <LLDB/SBCommandInterpreter.h>
 #include <LLDB/SBCommandReturnObject.h>
 #include <LLDB/SBDebugger.h>
 #else
 #include "lldb/API/LLDB.h"
 #include <lldb/API/SBCommandInterpreter.h>
 #include <lldb/API/SBCommandReturnObject.h>
 #include <lldb/API/SBDebugger.h>
 #endif

 #define NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS 50

 #define DEBUG 0

 using namespace lldb;

 bool *completed_threads_array = 0;
 bool *successful_threads_array  = 0;

 const char *inferior_process_name = "testprog";

 bool
 wait_for_stop_event (SBProcess process, SBListener listener)
 {
     bool stopped = false;
     while (!stopped)
     {
         SBEvent event;
         bool waitfor_ret = listener.WaitForEvent (2, event);
         if (event.GetType() == SBProcess::eBroadcastBitStateChanged)
         {
             if (process.GetState() == StateType::eStateStopped
                 || process.GetState() == StateType::eStateCrashed
                 || process.GetState() == StateType::eStateDetached
                 || process.GetState() == StateType::eStateExited)
             {
                 stopped = true;
             }
         }
     }
     return stopped;
 }

 bool
 walk_stack_to_main (SBThread thread)
 {
     if (thread.IsValid() == 0)
     {
         return false;
     }

     bool found_main = false;
     uint32_t curr_frame = 0;
     const uint32_t framecount = thread.GetNumFrames();
     while (!found_main && curr_frame < framecount)
     {
         SBFrame frame = thread.GetFrameAtIndex (curr_frame);
         if (strcmp (frame.GetFunctionName(), "main") == 0)
         {
             found_main = true;
             break;
         }
         curr_frame += 1;
     }
     return found_main;
 }

 void *do_one_debugger (void *in)
 {
     uint64_t threadnum = (uint64_t) in;

 #if defined (__APPLE__)
     char *threadname;
     asprintf (&threadname, "thread #%lld", threadnum);
     pthread_setname_np (threadname);
     free (threadname);
 #endif

 #if DEBUG == 1
     printf ("#%lld: Starting debug session\n", threadnum);
 #endif

     SBDebugger debugger = lldb::SBDebugger::Create (false);
     if (debugger.IsValid ())
     {
         debugger.SetAsync (true);
         SBTarget target = debugger.CreateTargetWithFileAndArch(inferior_process_name, "x86_64");
         SBCommandInterpreter command_interp = debugger.GetCommandInterpreter();
         if (target.IsValid())
         {
             SBBreakpoint bar_br = target.BreakpointCreateByName ("bar", "testprog");
             if (!bar_br.IsValid())
             {
                 printf ("#%lld: failed to set breakpoint on bar, exiting.\n", threadnum);
                 exit (1);
             }
             SBBreakpoint foo_br = target.BreakpointCreateByName ("foo", "testprog");
             if (!foo_br.IsValid())
             {
                 printf ("#%lld: Failed to set breakpoint on foo()\n", threadnum);
             }

             SBLaunchInfo launch_info (NULL);
             SBError error;
             SBProcess process = target.Launch (launch_info, error);
             if (process.IsValid())
             {
                 SBListener listener = debugger.GetListener();
                 SBBroadcaster broadcaster = process.GetBroadcaster();
                 uint32_t rc = broadcaster.AddListener (listener, SBProcess::eBroadcastBitStateChanged);
                 if (rc == 0)
                 {
                     printf ("adding listener failed\n");
                     exit (1);
                 }

                 wait_for_stop_event (process, listener);

                 if (!walk_stack_to_main (process.GetThreadAtIndex(0)))
                 {
                     printf ("#%lld: backtrace while @ foo() failed\n", threadnum);
                     completed_threads_array[threadnum] = true;
                     return (void *) 1;
                 }

                 if (strcmp (process.GetThreadAtIndex(0).GetFrameAtIndex(0).GetFunctionName(), "foo") != 0)
                 {
 #if DEBUG == 1
                     printf ("#%lld: First breakpoint did not stop at foo(), instead stopped at '%s'\n", threadnum, process.GetThreadAtIndex(0).GetFrameAtIndex(0).GetFunctionName());
 #endif
                     completed_threads_array[threadnum] = true;
                     return (void*) 1;
                 }

                 process.Continue();

                 wait_for_stop_event (process, listener);

                 if (process.GetState() == StateType::eStateExited)
                 {
                     printf ("#%lld: Process exited\n", threadnum);
                     completed_threads_array[threadnum] = true;
                     return (void *) 1;
                 }


                 if (!walk_stack_to_main (process.GetThreadAtIndex(0)))
                 {
                     printf ("#%lld: backtrace while @ bar() failed\n", threadnum);
                     completed_threads_array[threadnum] = true;
                     return (void *) 1;
                 }

                 if (strcmp (process.GetThreadAtIndex(0).GetFrameAtIndex(0).GetFunctionName(), "bar") != 0)
                 {
                     printf ("#%lld: First breakpoint did not stop at bar()\n", threadnum);
                     completed_threads_array[threadnum] = true;
                     return (void*) 1;
                 }

                 process.Kill();

                 wait_for_stop_event (process, listener);

                 SBDebugger::Destroy(debugger);

 #if DEBUG == 1
                 printf ("#%lld: All good!\n", threadnum);
 #endif
                 successful_threads_array[threadnum] = true;
                 completed_threads_array[threadnum] = true;
                 return (void*) 0;
             }
             else
             {
                 printf("#%lld: process failed to launch\n", threadnum);
                 successful_threads_array[threadnum] = false;
                 completed_threads_array[threadnum] = true;
                 return (void*) 0;
             }
         }
         else
         {
             printf ("#%lld: did not get valid target\n", threadnum);
             successful_threads_array[threadnum] = false;
             completed_threads_array[threadnum] = true;
             return (void*) 0;
         }
     }
     else
     {
         printf ("#%lld: did not get debugger\n", threadnum);
         successful_threads_array[threadnum] = false;
         completed_threads_array[threadnum] = true;
         return (void*) 0;
     }
     completed_threads_array[threadnum] = true;
     return (void*) 1;
 }

 int main (int argc, char **argv)
 {
     SBDebugger::Initialize();

     completed_threads_array = (bool *) malloc (sizeof (bool) * NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
     memset (completed_threads_array, 0, sizeof (bool) * NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
     successful_threads_array = (bool *) malloc (sizeof (bool) * NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
     memset (successful_threads_array, 0, sizeof (bool) * NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);

     if (argc > 1 && argv[1] != NULL)
     {
         inferior_process_name = argv[1];
     }

     for (uint64_t i = 0; i< NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS; i++)
     {
         pthread_t thread;
         pthread_create (&thread, NULL, do_one_debugger, (void*) i);
     }


     int max_time_to_wait = 20;  // 20 iterations, or 60 seconds
     int iter = 0;
     while (1)
     {
         sleep (3);
         bool all_done = true;
         int successful_threads = 0;
         int total_completed_threads = 0;
         for (uint64_t i = 0; i < NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS; i++)
         {
             if (successful_threads_array[i] == true)
                 successful_threads++;
             if (completed_threads_array[i] == true)
                 total_completed_threads++;
             if (completed_threads_array[i] == false)
             {
                 all_done = false;
             }
         }
         if (all_done)
         {
 #if DEBUG == 1
             printf ("All threads completed.\n");
             printf ("%d threads completed successfully out of %d\n", successful_threads, NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
 #endif
             SBDebugger::Terminate();
             exit(0);
         }
         else
         {
 #if DEBUG == 1
             printf ("%d threads completed so far (%d successfully), out of %d\n", total_completed_threads, successful_threads, NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
 #endif
         }
         if (iter++ == max_time_to_wait)
         {
             printf ("reached maximum timeout but only %d threads have completed so far (%d successfully), out of %d.  Exiting.\n", total_completed_threads, successful_threads, NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
             break;
         }
     }


     SBDebugger::Terminate();
     exit (1);
 }

	// This program creates NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS of pthreads,
	// creates an lldb Debugger on each thread, creates targets, inserts two
	// breakpoints, runs to the first breakpoint, backtraces, runs to the second
	// breakpoint, backtraces, kills the inferior process, closes down the
	// debugger.

	// The main thread keeps track of which pthreads have completed and which
	// pthreads have completed successfully, and exits when all pthreads have
	// completed successfully, or our time limit has been exceeded.

	// This test file helps to uncover race conditions and locking mistakes
	// that are hit when lldb is being used to debug multiple processes
	// simultaneously.

	#include <stdio.h>
	#include <stdlib.h>


	#ifdef __APPLE__
	#include <LLDB/LLDB.h>
	#include <LLDB/SBCommandInterpreter.h>
	#include <LLDB/SBCommandReturnObject.h>
	#include <LLDB/SBDebugger.h>
	#else
	#include "lldb/API/LLDB.h"
	#include <lldb/API/SBCommandInterpreter.h>
	#include <lldb/API/SBCommandReturnObject.h>
	#include <lldb/API/SBDebugger.h>
	#endif

	#define NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS 50

	#define DEBUG 0

	using namespace lldb;

	bool *completed_threads_array = 0;
	bool *successful_threads_array = 0;

	const char *inferior_process_name = "testprog";

	bool
	wait_for_stop_event (SBProcess process, SBListener listener)
	{
	bool stopped = false;
	while (!stopped)
	{
	SBEvent event;
	bool waitfor_ret = listener.WaitForEvent (2, event);
	if (event.GetType() == SBProcess::eBroadcastBitStateChanged)
	{
	if (process.GetState() == StateType::eStateStopped
	\|\| process.GetState() == StateType::eStateCrashed
	\|\| process.GetState() == StateType::eStateDetached
	\|\| process.GetState() == StateType::eStateExited)
	{
	stopped = true;
	}
	}
	}
	return stopped;
	}

	bool
	walk_stack_to_main (SBThread thread)
	{
	if (thread.IsValid() == 0)
	{
	return false;
	}

	bool found_main = false;
	uint32_t curr_frame = 0;
	const uint32_t framecount = thread.GetNumFrames();
	while (!found_main && curr_frame < framecount)
	{
	SBFrame frame = thread.GetFrameAtIndex (curr_frame);
	if (strcmp (frame.GetFunctionName(), "main") == 0)
	{
	found_main = true;
	break;
	}
	curr_frame += 1;
	}
	return found_main;
	}

	void do_one_debugger (void in)
	{
	uint64_t threadnum = (uint64_t) in;

	#if defined (__APPLE__)
	char *threadname;
	asprintf (&threadname, "thread #%lld", threadnum);
	pthread_setname_np (threadname);
	free (threadname);
	#endif

	#if DEBUG == 1
	printf ("#%lld: Starting debug session\n", threadnum);
	#endif

	SBDebugger debugger = lldb::SBDebugger::Create (false);
	if (debugger.IsValid ())
	{
	debugger.SetAsync (true);
	SBTarget target = debugger.CreateTargetWithFileAndArch(inferior_process_name, "x86_64");
	SBCommandInterpreter command_interp = debugger.GetCommandInterpreter();
	if (target.IsValid())
	{
	SBBreakpoint bar_br = target.BreakpointCreateByName ("bar", "testprog");
	if (!bar_br.IsValid())
	{
	printf ("#%lld: failed to set breakpoint on bar, exiting.\n", threadnum);
	exit (1);
	}
	SBBreakpoint foo_br = target.BreakpointCreateByName ("foo", "testprog");
	if (!foo_br.IsValid())
	{
	printf ("#%lld: Failed to set breakpoint on foo()\n", threadnum);
	}

	SBLaunchInfo launch_info (NULL);
	SBError error;
	SBProcess process = target.Launch (launch_info, error);
	if (process.IsValid())
	{
	SBListener listener = debugger.GetListener();
	SBBroadcaster broadcaster = process.GetBroadcaster();
	uint32_t rc = broadcaster.AddListener (listener, SBProcess::eBroadcastBitStateChanged);
	if (rc == 0)
	{
	printf ("adding listener failed\n");
	exit (1);
	}

	wait_for_stop_event (process, listener);

	if (!walk_stack_to_main (process.GetThreadAtIndex(0)))
	{
	printf ("#%lld: backtrace while @ foo() failed\n", threadnum);
	completed_threads_array[threadnum] = true;
	return (void *) 1;
	}

	if (strcmp (process.GetThreadAtIndex(0).GetFrameAtIndex(0).GetFunctionName(), "foo") != 0)
	{
	#if DEBUG == 1
	printf ("#%lld: First breakpoint did not stop at foo(), instead stopped at '%s'\n", threadnum, process.GetThreadAtIndex(0).GetFrameAtIndex(0).GetFunctionName());
	#endif
	completed_threads_array[threadnum] = true;
	return (void*) 1;
	}

	process.Continue();

	wait_for_stop_event (process, listener);

	if (process.GetState() == StateType::eStateExited)
	{
	printf ("#%lld: Process exited\n", threadnum);
	completed_threads_array[threadnum] = true;
	return (void *) 1;
	}


	if (!walk_stack_to_main (process.GetThreadAtIndex(0)))
	{
	printf ("#%lld: backtrace while @ bar() failed\n", threadnum);
	completed_threads_array[threadnum] = true;
	return (void *) 1;
	}

	if (strcmp (process.GetThreadAtIndex(0).GetFrameAtIndex(0).GetFunctionName(), "bar") != 0)
	{
	printf ("#%lld: First breakpoint did not stop at bar()\n", threadnum);
	completed_threads_array[threadnum] = true;
	return (void*) 1;
	}

	process.Kill();

	wait_for_stop_event (process, listener);

	SBDebugger::Destroy(debugger);

	#if DEBUG == 1
	printf ("#%lld: All good!\n", threadnum);
	#endif
	successful_threads_array[threadnum] = true;
	completed_threads_array[threadnum] = true;
	return (void*) 0;
	}
	else
	{
	printf("#%lld: process failed to launch\n", threadnum);
	successful_threads_array[threadnum] = false;
	completed_threads_array[threadnum] = true;
	return (void*) 0;
	}
	}
	else
	{
	printf ("#%lld: did not get valid target\n", threadnum);
	successful_threads_array[threadnum] = false;
	completed_threads_array[threadnum] = true;
	return (void*) 0;
	}
	}
	else
	{
	printf ("#%lld: did not get debugger\n", threadnum);
	successful_threads_array[threadnum] = false;
	completed_threads_array[threadnum] = true;
	return (void*) 0;
	}
	completed_threads_array[threadnum] = true;
	return (void*) 1;
	}

	int main (int argc, char **argv)
	{
	SBDebugger::Initialize();

	completed_threads_array = (bool ) malloc (sizeof (bool) NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
	memset (completed_threads_array, 0, sizeof (bool) * NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
	successful_threads_array = (bool ) malloc (sizeof (bool) NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
	memset (successful_threads_array, 0, sizeof (bool) * NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);

	if (argc > 1 && argv[1] != NULL)
	{
	inferior_process_name = argv[1];
	}

	for (uint64_t i = 0; i< NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS; i++)
	{
	pthread_t thread;
	pthread_create (&thread, NULL, do_one_debugger, (void*) i);
	}


	int max_time_to_wait = 20; // 20 iterations, or 60 seconds
	int iter = 0;
	while (1)
	{
	sleep (3);
	bool all_done = true;
	int successful_threads = 0;
	int total_completed_threads = 0;
	for (uint64_t i = 0; i < NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS; i++)
	{
	if (successful_threads_array[i] == true)
	successful_threads++;
	if (completed_threads_array[i] == true)
	total_completed_threads++;
	if (completed_threads_array[i] == false)
	{
	all_done = false;
	}
	}
	if (all_done)
	{
	#if DEBUG == 1
	printf ("All threads completed.\n");
	printf ("%d threads completed successfully out of %d\n", successful_threads, NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
	#endif
	SBDebugger::Terminate();
	exit(0);
	}
	else
	{
	#if DEBUG == 1
	printf ("%d threads completed so far (%d successfully), out of %d\n", total_completed_threads, successful_threads, NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
	#endif
	}
	if (iter++ == max_time_to_wait)
	{
	printf ("reached maximum timeout but only %d threads have completed so far (%d successfully), out of %d. Exiting.\n", total_completed_threads, successful_threads, NUMBER_OF_SIMULTANEOUS_DEBUG_SESSIONS);
	break;
	}
	}


	SBDebugger::Terminate();
	exit (1);
	}