src/third_party/llvm-project/lldb/tools/debugserver/source/MacOSX/Genealogy.cpp - cobalt - Git at Google

 ///===-- Activity.cpp ---------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include <Availability.h>
 #include <dlfcn.h>
 #include <string>
 #include <uuid/uuid.h>

 #include "DNBDefs.h"
 #include "Genealogy.h"
 #include "GenealogySPI.h"
 #include "MachThreadList.h"

 //---------------------------
 /// Constructor
 //---------------------------

 Genealogy::Genealogy()
     : m_os_activity_diagnostic_for_pid(nullptr),
       m_os_activity_iterate_processes(nullptr),
       m_os_activity_iterate_breadcrumbs(nullptr),
       m_os_activity_iterate_messages(nullptr),
       m_os_activity_iterate_activities(nullptr), m_os_trace_get_type(nullptr),
       m_os_trace_copy_formatted_message(nullptr),
       m_os_activity_for_thread(nullptr), m_os_activity_for_task_thread(nullptr),
       m_thread_activities(), m_process_executable_infos(),
       m_diagnosticd_call_timed_out(false) {
   m_os_activity_diagnostic_for_pid =
       (bool (*)(pid_t, os_activity_t, uint32_t, os_diagnostic_block_t))dlsym(
           RTLD_DEFAULT, "os_activity_diagnostic_for_pid");
   m_os_activity_iterate_processes =
       (void (*)(os_activity_process_list_t, bool (^)(os_activity_process_t)))
           dlsym(RTLD_DEFAULT, "os_activity_iterate_processes");
   m_os_activity_iterate_breadcrumbs =
       (void (*)(os_activity_process_t, bool (^)(os_activity_breadcrumb_t)))
           dlsym(RTLD_DEFAULT, "os_activity_iterate_breadcrumbs");
   m_os_activity_iterate_messages = (void (*)(
       os_trace_message_list_t, os_activity_process_t,
       bool (^)(os_trace_message_t)))dlsym(RTLD_DEFAULT,
                                           "os_activity_iterate_messages");
   m_os_activity_iterate_activities = (void (*)(
       os_activity_list_t, os_activity_process_t,
       bool (^)(os_activity_entry_t)))dlsym(RTLD_DEFAULT,
                                            "os_activity_iterate_activities");
   m_os_trace_get_type =
       (uint8_t(*)(os_trace_message_t))dlsym(RTLD_DEFAULT, "os_trace_get_type");
   m_os_trace_copy_formatted_message = (char *(*)(os_trace_message_t))dlsym(
       RTLD_DEFAULT, "os_trace_copy_formatted_message");
   m_os_activity_for_thread =
       (os_activity_t(*)(os_activity_process_t, uint64_t))dlsym(
           RTLD_DEFAULT, "os_activity_for_thread");
   m_os_activity_for_task_thread = (os_activity_t(*)(task_t, uint64_t))dlsym(
       RTLD_DEFAULT, "os_activity_for_task_thread");
   m_os_activity_messages_for_thread = (os_trace_message_list_t(*)(
       os_activity_process_t process, os_activity_t activity,
       uint64_t thread_id))dlsym(RTLD_DEFAULT,
                                 "os_activity_messages_for_thread");
 }

 Genealogy::ThreadActivitySP
 Genealogy::GetGenealogyInfoForThread(pid_t pid, nub_thread_t tid,
                                      const MachThreadList &thread_list,
                                      task_t task, bool &timed_out) {
   ThreadActivitySP activity;
   //
   // if we've timed out trying to get the activities, don't try again at this
   // process stop.
   // (else we'll need to hit the timeout for every thread we're asked about.)
   // We'll try again at the next public stop.

   if (m_thread_activities.size() == 0 &&
       m_diagnosticd_call_timed_out == false) {
     GetActivities(pid, thread_list, task);
   }
   std::map<nub_thread_t, ThreadActivitySP>::const_iterator search;
   search = m_thread_activities.find(tid);
   if (search != m_thread_activities.end()) {
     activity = search->second;
   }
   timed_out = m_diagnosticd_call_timed_out;
   return activity;
 }

 void Genealogy::Clear() {
   m_thread_activities.clear();
   m_diagnosticd_call_timed_out = false;
 }

 void Genealogy::GetActivities(pid_t pid, const MachThreadList &thread_list,
                               task_t task) {
   if (m_os_activity_diagnostic_for_pid != nullptr &&
       m_os_activity_iterate_processes != nullptr &&
       m_os_activity_iterate_breadcrumbs != nullptr &&
       m_os_activity_iterate_messages != nullptr &&
       m_os_activity_iterate_activities != nullptr &&
       m_os_trace_get_type != nullptr &&
       m_os_trace_copy_formatted_message != nullptr &&
       (m_os_activity_for_thread != nullptr ||
        m_os_activity_for_task_thread != nullptr)) {
     __block dispatch_semaphore_t semaphore = dispatch_semaphore_create(0);
     __block BreadcrumbList breadcrumbs;
     __block ActivityList activities;
     __block MessageList messages;
     __block std::map<nub_thread_t, uint64_t> thread_activity_mapping;

     os_activity_diagnostic_flag_t flags =
         OS_ACTIVITY_DIAGNOSTIC_ALL_ACTIVITIES |
         OS_ACTIVITY_DIAGNOSTIC_PROCESS_ONLY;
     if (m_os_activity_diagnostic_for_pid(
             pid, 0, flags, ^(os_activity_process_list_t processes, int error) {
               if (error == 0) {
                 m_os_activity_iterate_processes(processes, ^bool(
                                                     os_activity_process_t
                                                         process_info) {
                   if (pid == process_info->pid) {
                     // Collect all the Breadcrumbs
                     m_os_activity_iterate_breadcrumbs(
                         process_info,
                         ^bool(os_activity_breadcrumb_t breadcrumb) {
                           Breadcrumb bc;
                           bc.breadcrumb_id = breadcrumb->breadcrumb_id;
                           bc.activity_id = breadcrumb->activity_id;
                           bc.timestamp = breadcrumb->timestamp;
                           if (breadcrumb->name)
                             bc.name = breadcrumb->name;
                           breadcrumbs.push_back(bc);
                           return true;
                         });

                     // Collect all the Activites
                     m_os_activity_iterate_activities(
                         process_info->activities, process_info,
                         ^bool(os_activity_entry_t activity) {
                           Activity ac;
                           ac.activity_start = activity->activity_start;
                           ac.activity_id = activity->activity_id;
                           ac.parent_id = activity->parent_id;
                           if (activity->activity_name)
                             ac.activity_name = activity->activity_name;
                           if (activity->reason)
                             ac.reason = activity->reason;
                           activities.push_back(ac);
                           return true;
                         });

                     // Collect all the Messages -- messages not associated with
                     // any thread
                     m_os_activity_iterate_messages(
                         process_info->messages, process_info,
                         ^bool(os_trace_message_t trace_msg) {
                           Message msg;
                           msg.timestamp = trace_msg->timestamp;
                           msg.trace_id = trace_msg->trace_id;
                           msg.thread = trace_msg->thread;
                           msg.type = m_os_trace_get_type(trace_msg);
                           msg.activity_id = 0;
                           if (trace_msg->image_uuid && trace_msg->image_path) {
                             ProcessExecutableInfoSP process_info_sp(
                                 new ProcessExecutableInfo());
                             uuid_copy(process_info_sp->image_uuid,
                                       trace_msg->image_uuid);
                             process_info_sp->image_path = trace_msg->image_path;
                             msg.process_info_index =
                                 AddProcessExecutableInfo(process_info_sp);
                           }
                           const char *message_text =
                               m_os_trace_copy_formatted_message(trace_msg);
                           if (message_text)
                             msg.message = message_text;
                           messages.push_back(msg);
                           return true;
                         });

                     // Discover which activities are said to be running on
                     // threads currently
                     const nub_size_t num_threads = thread_list.NumThreads();
                     for (nub_size_t i = 0; i < num_threads; ++i) {
                       nub_thread_t thread_id = thread_list.ThreadIDAtIndex(i);
                       os_activity_t act = 0;
                       if (m_os_activity_for_task_thread != nullptr) {
                         act = m_os_activity_for_task_thread(task, thread_id);
                       } else if (m_os_activity_for_thread != nullptr) {
                         act = m_os_activity_for_thread(process_info, thread_id);
                       }
                       if (act != 0)
                         thread_activity_mapping[thread_id] = act;
                     }

                     // Collect all Messages -- messages associated with a thread

                     // When there's no genealogy information, an early version
                     // of os_activity_messages_for_thread
                     // can crash in rare circumstances.  Check to see if this
                     // process has any activities before
                     // making the call to get messages.
                     if (process_info->activities != nullptr &&
                         thread_activity_mapping.size() > 0) {
                       std::map<nub_thread_t, uint64_t>::const_iterator iter;
                       for (iter = thread_activity_mapping.begin();
                            iter != thread_activity_mapping.end(); ++iter) {
                         nub_thread_t thread_id = iter->first;
                         os_activity_t act = iter->second;
                         os_trace_message_list_t this_thread_messages =
                             m_os_activity_messages_for_thread(process_info, act,
                                                               thread_id);
                         m_os_activity_iterate_messages(
                             this_thread_messages, process_info,
                             ^bool(os_trace_message_t trace_msg) {
                               Message msg;
                               msg.timestamp = trace_msg->timestamp;
                               msg.trace_id = trace_msg->trace_id;
                               msg.thread = trace_msg->thread;
                               msg.type = m_os_trace_get_type(trace_msg);
                               msg.activity_id = act;
                               if (trace_msg->image_uuid &&
                                   trace_msg->image_path) {
                                 ProcessExecutableInfoSP process_info_sp(
                                     new ProcessExecutableInfo());
                                 uuid_copy(process_info_sp->image_uuid,
                                           trace_msg->image_uuid);
                                 process_info_sp->image_path =
                                     trace_msg->image_path;
                                 msg.process_info_index =
                                     AddProcessExecutableInfo(process_info_sp);
                               }
                               const char *message_text =
                                   m_os_trace_copy_formatted_message(trace_msg);
                               if (message_text)
                                 msg.message = message_text;
                               messages.push_back(msg);
                               return true;
                             });
                       }
                     }
                   }
                   return true;
                 });
               }
               dispatch_semaphore_signal(semaphore);
             }) == true) {
       // Wait for the diagnosticd xpc calls to all finish up -- or half a second
       // to elapse.
       dispatch_time_t timeout =
           dispatch_time(DISPATCH_TIME_NOW, NSEC_PER_SEC / 2);
       bool success = dispatch_semaphore_wait(semaphore, timeout) == 0;
       if (!success) {
         m_diagnosticd_call_timed_out = true;
         return;
       }
     }

     // breadcrumbs, activities, and messages have all now been filled in.

     std::map<nub_thread_t, uint64_t>::const_iterator iter;
     for (iter = thread_activity_mapping.begin();
          iter != thread_activity_mapping.end(); ++iter) {
       nub_thread_t thread_id = iter->first;
       uint64_t activity_id = iter->second;
       ActivityList::const_iterator activity_search;
       for (activity_search = activities.begin();
            activity_search != activities.end(); ++activity_search) {
         if (activity_search->activity_id == activity_id) {
           ThreadActivitySP thread_activity_sp(new ThreadActivity());
           thread_activity_sp->current_activity = *activity_search;

           BreadcrumbList::const_iterator breadcrumb_search;
           for (breadcrumb_search = breadcrumbs.begin();
                breadcrumb_search != breadcrumbs.end(); ++breadcrumb_search) {
             if (breadcrumb_search->activity_id == activity_id) {
               thread_activity_sp->breadcrumbs.push_back(*breadcrumb_search);
             }
           }
           MessageList::const_iterator message_search;
           for (message_search = messages.begin();
                message_search != messages.end(); ++message_search) {
             if (message_search->thread == thread_id) {
               thread_activity_sp->messages.push_back(*message_search);
             }
           }

           m_thread_activities[thread_id] = thread_activity_sp;
           break;
         }
       }
     }
   }
 }

 uint32_t
 Genealogy::AddProcessExecutableInfo(ProcessExecutableInfoSP process_exe_info) {
   const uint32_t info_size =
       static_cast<uint32_t>(m_process_executable_infos.size());
   for (uint32_t idx = 0; idx < info_size; ++idx) {
     if (uuid_compare(m_process_executable_infos[idx]->image_uuid,
                      process_exe_info->image_uuid) == 0) {
       return idx + 1;
     }
   }
   m_process_executable_infos.push_back(process_exe_info);
   return info_size + 1;
 }

 Genealogy::ProcessExecutableInfoSP
 Genealogy::GetProcessExecutableInfosAtIndex(size_t idx) {
   ProcessExecutableInfoSP info_sp;
   if (idx > 0) {
     idx--;
     if (idx <= m_process_executable_infos.size()) {
       info_sp = m_process_executable_infos[idx];
     }
   }
   return info_sp;
 }
	///===-- Activity.cpp ---------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include <Availability.h>
	#include <dlfcn.h>
	#include <string>
	#include <uuid/uuid.h>

	#include "DNBDefs.h"
	#include "Genealogy.h"
	#include "GenealogySPI.h"
	#include "MachThreadList.h"

	//---------------------------
	/// Constructor
	//---------------------------

	Genealogy::Genealogy()
	: m_os_activity_diagnostic_for_pid(nullptr),
	m_os_activity_iterate_processes(nullptr),
	m_os_activity_iterate_breadcrumbs(nullptr),
	m_os_activity_iterate_messages(nullptr),
	m_os_activity_iterate_activities(nullptr), m_os_trace_get_type(nullptr),
	m_os_trace_copy_formatted_message(nullptr),
	m_os_activity_for_thread(nullptr), m_os_activity_for_task_thread(nullptr),
	m_thread_activities(), m_process_executable_infos(),
	m_diagnosticd_call_timed_out(false) {
	m_os_activity_diagnostic_for_pid =
	(bool (*)(pid_t, os_activity_t, uint32_t, os_diagnostic_block_t))dlsym(
	RTLD_DEFAULT, "os_activity_diagnostic_for_pid");
	m_os_activity_iterate_processes =
	(void (*)(os_activity_process_list_t, bool (^)(os_activity_process_t)))
	dlsym(RTLD_DEFAULT, "os_activity_iterate_processes");
	m_os_activity_iterate_breadcrumbs =
	(void (*)(os_activity_process_t, bool (^)(os_activity_breadcrumb_t)))
	dlsym(RTLD_DEFAULT, "os_activity_iterate_breadcrumbs");
	m_os_activity_iterate_messages = (void (*)(
	os_trace_message_list_t, os_activity_process_t,
	bool (^)(os_trace_message_t)))dlsym(RTLD_DEFAULT,
	"os_activity_iterate_messages");
	m_os_activity_iterate_activities = (void (*)(
	os_activity_list_t, os_activity_process_t,
	bool (^)(os_activity_entry_t)))dlsym(RTLD_DEFAULT,
	"os_activity_iterate_activities");
	m_os_trace_get_type =
	(uint8_t(*)(os_trace_message_t))dlsym(RTLD_DEFAULT, "os_trace_get_type");
	m_os_trace_copy_formatted_message = (char ()(os_trace_message_t))dlsym(
	RTLD_DEFAULT, "os_trace_copy_formatted_message");
	m_os_activity_for_thread =
	(os_activity_t(*)(os_activity_process_t, uint64_t))dlsym(
	RTLD_DEFAULT, "os_activity_for_thread");
	m_os_activity_for_task_thread = (os_activity_t(*)(task_t, uint64_t))dlsym(
	RTLD_DEFAULT, "os_activity_for_task_thread");
	m_os_activity_messages_for_thread = (os_trace_message_list_t(*)(
	os_activity_process_t process, os_activity_t activity,
	uint64_t thread_id))dlsym(RTLD_DEFAULT,
	"os_activity_messages_for_thread");
	}

	Genealogy::ThreadActivitySP
	Genealogy::GetGenealogyInfoForThread(pid_t pid, nub_thread_t tid,
	const MachThreadList &thread_list,
	task_t task, bool &timed_out) {
	ThreadActivitySP activity;
	//
	// if we've timed out trying to get the activities, don't try again at this
	// process stop.
	// (else we'll need to hit the timeout for every thread we're asked about.)
	// We'll try again at the next public stop.

	if (m_thread_activities.size() == 0 &&
	m_diagnosticd_call_timed_out == false) {
	GetActivities(pid, thread_list, task);
	}
	std::map<nub_thread_t, ThreadActivitySP>::const_iterator search;
	search = m_thread_activities.find(tid);
	if (search != m_thread_activities.end()) {
	activity = search->second;
	}
	timed_out = m_diagnosticd_call_timed_out;
	return activity;
	}

	void Genealogy::Clear() {
	m_thread_activities.clear();
	m_diagnosticd_call_timed_out = false;
	}

	void Genealogy::GetActivities(pid_t pid, const MachThreadList &thread_list,
	task_t task) {
	if (m_os_activity_diagnostic_for_pid != nullptr &&
	m_os_activity_iterate_processes != nullptr &&
	m_os_activity_iterate_breadcrumbs != nullptr &&
	m_os_activity_iterate_messages != nullptr &&
	m_os_activity_iterate_activities != nullptr &&
	m_os_trace_get_type != nullptr &&
	m_os_trace_copy_formatted_message != nullptr &&
	(m_os_activity_for_thread != nullptr \|\|
	m_os_activity_for_task_thread != nullptr)) {
	__block dispatch_semaphore_t semaphore = dispatch_semaphore_create(0);
	__block BreadcrumbList breadcrumbs;
	__block ActivityList activities;
	__block MessageList messages;
	__block std::map<nub_thread_t, uint64_t> thread_activity_mapping;

	os_activity_diagnostic_flag_t flags =
	OS_ACTIVITY_DIAGNOSTIC_ALL_ACTIVITIES \|
	OS_ACTIVITY_DIAGNOSTIC_PROCESS_ONLY;
	if (m_os_activity_diagnostic_for_pid(
	pid, 0, flags, ^(os_activity_process_list_t processes, int error) {
	if (error == 0) {
	m_os_activity_iterate_processes(processes, ^bool(
	os_activity_process_t
	process_info) {
	if (pid == process_info->pid) {
	// Collect all the Breadcrumbs
	m_os_activity_iterate_breadcrumbs(
	process_info,
	^bool(os_activity_breadcrumb_t breadcrumb) {
	Breadcrumb bc;
	bc.breadcrumb_id = breadcrumb->breadcrumb_id;
	bc.activity_id = breadcrumb->activity_id;
	bc.timestamp = breadcrumb->timestamp;
	if (breadcrumb->name)
	bc.name = breadcrumb->name;
	breadcrumbs.push_back(bc);
	return true;
	});

	// Collect all the Activites
	m_os_activity_iterate_activities(
	process_info->activities, process_info,
	^bool(os_activity_entry_t activity) {
	Activity ac;
	ac.activity_start = activity->activity_start;
	ac.activity_id = activity->activity_id;
	ac.parent_id = activity->parent_id;
	if (activity->activity_name)
	ac.activity_name = activity->activity_name;
	if (activity->reason)
	ac.reason = activity->reason;
	activities.push_back(ac);
	return true;
	});

	// Collect all the Messages -- messages not associated with
	// any thread
	m_os_activity_iterate_messages(
	process_info->messages, process_info,
	^bool(os_trace_message_t trace_msg) {
	Message msg;
	msg.timestamp = trace_msg->timestamp;
	msg.trace_id = trace_msg->trace_id;
	msg.thread = trace_msg->thread;
	msg.type = m_os_trace_get_type(trace_msg);
	msg.activity_id = 0;
	if (trace_msg->image_uuid && trace_msg->image_path) {
	ProcessExecutableInfoSP process_info_sp(
	new ProcessExecutableInfo());
	uuid_copy(process_info_sp->image_uuid,
	trace_msg->image_uuid);
	process_info_sp->image_path = trace_msg->image_path;
	msg.process_info_index =
	AddProcessExecutableInfo(process_info_sp);
	}
	const char *message_text =
	m_os_trace_copy_formatted_message(trace_msg);
	if (message_text)
	msg.message = message_text;
	messages.push_back(msg);
	return true;
	});

	// Discover which activities are said to be running on
	// threads currently
	const nub_size_t num_threads = thread_list.NumThreads();
	for (nub_size_t i = 0; i < num_threads; ++i) {
	nub_thread_t thread_id = thread_list.ThreadIDAtIndex(i);
	os_activity_t act = 0;
	if (m_os_activity_for_task_thread != nullptr) {
	act = m_os_activity_for_task_thread(task, thread_id);
	} else if (m_os_activity_for_thread != nullptr) {
	act = m_os_activity_for_thread(process_info, thread_id);
	}
	if (act != 0)
	thread_activity_mapping[thread_id] = act;
	}

	// Collect all Messages -- messages associated with a thread

	// When there's no genealogy information, an early version
	// of os_activity_messages_for_thread
	// can crash in rare circumstances. Check to see if this
	// process has any activities before
	// making the call to get messages.
	if (process_info->activities != nullptr &&
	thread_activity_mapping.size() > 0) {
	std::map<nub_thread_t, uint64_t>::const_iterator iter;
	for (iter = thread_activity_mapping.begin();
	iter != thread_activity_mapping.end(); ++iter) {
	nub_thread_t thread_id = iter->first;
	os_activity_t act = iter->second;
	os_trace_message_list_t this_thread_messages =
	m_os_activity_messages_for_thread(process_info, act,
	thread_id);
	m_os_activity_iterate_messages(
	this_thread_messages, process_info,
	^bool(os_trace_message_t trace_msg) {
	Message msg;
	msg.timestamp = trace_msg->timestamp;
	msg.trace_id = trace_msg->trace_id;
	msg.thread = trace_msg->thread;
	msg.type = m_os_trace_get_type(trace_msg);
	msg.activity_id = act;
	if (trace_msg->image_uuid &&
	trace_msg->image_path) {
	ProcessExecutableInfoSP process_info_sp(
	new ProcessExecutableInfo());
	uuid_copy(process_info_sp->image_uuid,
	trace_msg->image_uuid);
	process_info_sp->image_path =
	trace_msg->image_path;
	msg.process_info_index =
	AddProcessExecutableInfo(process_info_sp);
	}
	const char *message_text =
	m_os_trace_copy_formatted_message(trace_msg);
	if (message_text)
	msg.message = message_text;
	messages.push_back(msg);
	return true;
	});
	}
	}
	}
	return true;
	});
	}
	dispatch_semaphore_signal(semaphore);
	}) == true) {
	// Wait for the diagnosticd xpc calls to all finish up -- or half a second
	// to elapse.
	dispatch_time_t timeout =
	dispatch_time(DISPATCH_TIME_NOW, NSEC_PER_SEC / 2);
	bool success = dispatch_semaphore_wait(semaphore, timeout) == 0;
	if (!success) {
	m_diagnosticd_call_timed_out = true;
	return;
	}
	}

	// breadcrumbs, activities, and messages have all now been filled in.

	std::map<nub_thread_t, uint64_t>::const_iterator iter;
	for (iter = thread_activity_mapping.begin();
	iter != thread_activity_mapping.end(); ++iter) {
	nub_thread_t thread_id = iter->first;
	uint64_t activity_id = iter->second;
	ActivityList::const_iterator activity_search;
	for (activity_search = activities.begin();
	activity_search != activities.end(); ++activity_search) {
	if (activity_search->activity_id == activity_id) {
	ThreadActivitySP thread_activity_sp(new ThreadActivity());
	thread_activity_sp->current_activity = *activity_search;

	BreadcrumbList::const_iterator breadcrumb_search;
	for (breadcrumb_search = breadcrumbs.begin();
	breadcrumb_search != breadcrumbs.end(); ++breadcrumb_search) {
	if (breadcrumb_search->activity_id == activity_id) {
	thread_activity_sp->breadcrumbs.push_back(*breadcrumb_search);
	}
	}
	MessageList::const_iterator message_search;
	for (message_search = messages.begin();
	message_search != messages.end(); ++message_search) {
	if (message_search->thread == thread_id) {
	thread_activity_sp->messages.push_back(*message_search);
	}
	}

	m_thread_activities[thread_id] = thread_activity_sp;
	break;
	}
	}
	}
	}
	}

	uint32_t
	Genealogy::AddProcessExecutableInfo(ProcessExecutableInfoSP process_exe_info) {
	const uint32_t info_size =
	static_cast<uint32_t>(m_process_executable_infos.size());
	for (uint32_t idx = 0; idx < info_size; ++idx) {
	if (uuid_compare(m_process_executable_infos[idx]->image_uuid,
	process_exe_info->image_uuid) == 0) {
	return idx + 1;
	}
	}
	m_process_executable_infos.push_back(process_exe_info);
	return info_size + 1;
	}

	Genealogy::ProcessExecutableInfoSP
	Genealogy::GetProcessExecutableInfosAtIndex(size_t idx) {
	ProcessExecutableInfoSP info_sp;
	if (idx > 0) {
	idx--;
	if (idx <= m_process_executable_infos.size()) {
	info_sp = m_process_executable_infos[idx];
	}
	}
	return info_sp;
	}