from __future__ import print_function import ompdModule from ompd_handles import ompd_thread, ompd_task, ompd_parallel import gdb import sys import traceback from enum import Enum class ompd_scope(Enum): ompd_scope_global = 1 ompd_scope_address_space = 2 ompd_scope_thread = 3 ompd_scope_parallel = 4 ompd_scope_implicit_task = 5 ompd_scope_task = 6 class ompd_address_space(object): def __init__(self): """Initializes an ompd_address_space object by calling ompd_initialize in ompdModule.c """ self.addr_space = ompdModule.call_ompd_initialize() # maps thread_num (thread id given by gdb) to ompd_thread object with thread handle self.threads = {} self.states = None self.icv_map = None self.ompd_tool_test_bp = None self.scope_map = {1:'global', 2:'address_space', 3:'thread', 4:'parallel', 5:'implicit_task', 6:'task'} self.sched_map = {1:'static', 2:'dynamic', 3:'guided', 4:'auto'} gdb.events.stop.connect(self.handle_stop_event) self.new_thread_breakpoint = gdb.Breakpoint("ompd_bp_thread_begin", internal=True) tool_break_symbol = gdb.lookup_global_symbol("ompd_tool_break") if (tool_break_symbol is not None): self.ompd_tool_test_bp = gdb.Breakpoint("ompd_tool_break", internal=True) def handle_stop_event(self, event): """Sets a breakpoint at different events, e.g. when a new OpenMP thread is created. """ if (isinstance(event, gdb.BreakpointEvent)): # check if breakpoint has already been hit if (self.new_thread_breakpoint in event.breakpoints): self.add_thread() gdb.execute('continue') return elif (self.ompd_tool_test_bp is not None and self.ompd_tool_test_bp in event.breakpoints): try: self.compare_ompt_data() gdb.execute('continue') except(): traceback.print_exc() elif (isinstance(event, gdb.SignalEvent)): # TODO: what do we need to do on SIGNALS? pass else: # TODO: probably not possible? pass def get_icv_map(self): """Fills ICV map. """ self.icv_map = {} current = 0 more = 1 while more > 0: tup = ompdModule.call_ompd_enumerate_icvs(self.addr_space, current) (current, next_icv, next_scope, more) = tup self.icv_map[next_icv] = (current, next_scope, self.scope_map[next_scope]) print('Initialized ICV map successfully for checking OMP API values.') def compare_ompt_data(self): """Compares OMPT tool data about parallel region to data returned by OMPD functions. """ # make sure all threads and states are set self.list_threads(False) thread_id = gdb.selected_thread().ptid[1] curr_thread = self.get_curr_thread() # check if current thread is LWP thread; return if "ompd_rc_unavailable" thread_handle = ompdModule.get_thread_handle(thread_id, self.addr_space) if thread_handle == -1: print("Skipping OMPT-OMPD checks for non-LWP thread.") return print('Comparing OMPT data to OMPD data...') field_names = [i.name for i in gdb.parse_and_eval('thread_data').type.fields()] thread_data = gdb.parse_and_eval('thread_data') if self.icv_map is None: self.get_icv_map() # compare state values if 'ompt_state' in field_names: if self.states is None: self.enumerate_states() ompt_state = str(thread_data['ompt_state']) ompd_state = str(self.states[curr_thread.get_state()[0]]) if ompt_state != ompd_state: print('OMPT-OMPD mismatch: ompt_state (%s) does not match OMPD state (%s)!' % (ompt_state, ompd_state)) # compare wait_id values if 'ompt_wait_id' in field_names: ompt_wait_id = thread_data['ompt_wait_id'] ompd_wait_id = curr_thread.get_state()[1] if ompt_wait_id != ompd_wait_id: print('OMPT-OMPD mismatch: ompt_wait_id (%d) does not match OMPD wait id (%d)!' % (ompt_wait_id, ompd_wait_id)) # compare thread id if 'omp_thread_num' in field_names and 'thread-num-var' in self.icv_map: ompt_thread_num = thread_data['omp_thread_num'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.thread_handle, self.icv_map['thread-num-var'][1], self.icv_map['thread-num-var'][0]) if ompt_thread_num != icv_value: print('OMPT-OMPD mismatch: omp_thread_num (%d) does not match OMPD thread num according to ICVs (%d)!' % (ompt_thread_num, icv_value)) # compare thread data if 'ompt_thread_data' in field_names: ompt_thread_data = thread_data['ompt_thread_data'].dereference()['value'] ompd_value = ompdModule.call_ompd_get_tool_data(3, curr_thread.thread_handle)[0] if ompt_thread_data != ompd_value: print('OMPT-OMPD mismatch: value of ompt_thread_data (%d) does not match that of OMPD data union (%d)!' % (ompt_thread_data, ompd_value)) # compare number of threads if 'omp_num_threads' in field_names and 'team-size-var' in self.icv_map: ompt_num_threads = thread_data['omp_num_threads'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.get_current_parallel_handle(), self.icv_map['team-size-var'][1], self.icv_map['team-size-var'][0]) if ompt_num_threads != icv_value: print('OMPT-OMPD mismatch: omp_num_threads (%d) does not match OMPD num threads according to ICVs (%d)!' % (ompt_num_threads, icv_value)) # compare omp level if 'omp_level' in field_names and 'levels-var' in self.icv_map: ompt_levels = thread_data['omp_level'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.get_current_parallel_handle(), self.icv_map['levels-var'][1], self.icv_map['levels-var'][0]) if ompt_levels != icv_value: print('OMPT-OMPD mismatch: omp_level (%d) does not match OMPD levels according to ICVs (%d)!' % (ompt_levels, icv_value)) # compare active level if 'omp_active_level' in field_names and 'active-levels-var' in self.icv_map: ompt_active_levels = thread_data['omp_active_level'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.get_current_parallel_handle(), self.icv_map['active-levels-var'][1], self.icv_map['active-levels-var'][0]) if ompt_active_levels != icv_value: print('OMPT-OMPD mismatch: active levels (%d) do not match active levels according to ICVs (%d)!' % (ompt_active_levels, icv_value)) # compare parallel data if 'ompt_parallel_data' in field_names: ompt_parallel_data = thread_data['ompt_parallel_data'].dereference()['value'] current_parallel_handle = curr_thread.get_current_parallel_handle() ompd_value = ompdModule.call_ompd_get_tool_data(4, current_parallel_handle)[0] if ompt_parallel_data != ompd_value: print('OMPT-OMPD mismatch: value of ompt_parallel_data (%d) does not match that of OMPD data union (%d)!' % (ompt_parallel_data, ompd_value)) # compare max threads if 'omp_max_threads' in field_names and 'nthreads-var' in self.icv_map: ompt_max_threads = thread_data['omp_max_threads'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.thread_handle, self.icv_map['nthreads-var'][1], self.icv_map['nthreads-var'][0]) if icv_value is None: icv_string = ompdModule.call_ompd_get_icv_string_from_scope(curr_thread.thread_handle, self.icv_map['nthreads-var'][1], self.icv_map['nthreads-var'][0]) if icv_string is None: print('OMPT-OMPD mismatch: omp_max_threads (%d) does not match OMPD thread limit according to ICVs (None Object)' % (ompt_max_threads)) else: if ompt_max_threads != int(icv_string.split(',')[0]): print('OMPT-OMPD mismatch: omp_max_threads (%d) does not match OMPD thread limit according to ICVs (%d)!' % (ompt_max_threads, int(icv_string.split(',')[0]))) else: if ompt_max_threads != icv_value: print('OMPT-OMPD mismatch: omp_max_threads (%d) does not match OMPD thread limit according to ICVs (%d)!' % (ompt_max_threads, icv_value)) # compare omp_parallel # NOTE: omp_parallel = true if active-levels-var > 0 if 'omp_parallel' in field_names: ompt_parallel = thread_data['omp_parallel'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.get_current_parallel_handle(), self.icv_map['active-levels-var'][1], self.icv_map['active-levels-var'][0]) if ompt_parallel == 1 and icv_value <= 0 or ompt_parallel == 0 and icv_value > 0: print('OMPT-OMPD mismatch: ompt_parallel (%d) does not match OMPD parallel according to ICVs (%d)!' % (ompt_parallel, icv_value)) # compare omp_final if 'omp_final' in field_names and 'final-task-var' in self.icv_map: ompt_final = thread_data['omp_final'] current_task_handle = curr_thread.get_current_task_handle() icv_value = ompdModule.call_ompd_get_icv_from_scope(current_task_handle, self.icv_map['final-task-var'][1], self.icv_map['final-task-var'][0]) if icv_value != ompt_final: print('OMPT-OMPD mismatch: omp_final (%d) does not match OMPD final according to ICVs (%d)!' % (ompt_final, icv_value)) # compare omp_dynamic if 'omp_dynamic' in field_names and 'dyn-var' in self.icv_map: ompt_dynamic = thread_data['omp_dynamic'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.thread_handle, self.icv_map['dyn-var'][1], self.icv_map['dyn-var'][0]) if icv_value != ompt_dynamic: print('OMPT-OMPD mismatch: omp_dynamic (%d) does not match OMPD dynamic according to ICVs (%d)!' % (ompt_dynamic, icv_value)) # compare omp_max_active_levels if 'omp_max_active_levels' in field_names and 'max-active-levels-var' in self.icv_map: ompt_max_active_levels = thread_data['omp_max_active_levels'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.get_current_task_handle(), self.icv_map['max-active-levels-var'][1], self.icv_map['max-active-levels-var'][0]) if ompt_max_active_levels != icv_value: print('OMPT-OMPD mismatch: omp_max_active_levels (%d) does not match OMPD max active levels (%d)!' % (ompt_max_active_levels, icv_value)) # compare omp_kind: TODO: Add the test for monotonic/nonmonotonic modifier if 'omp_kind' in field_names and 'run-sched-var' in self.icv_map: ompt_sched_kind = thread_data['omp_kind'] icv_value = ompdModule.call_ompd_get_icv_string_from_scope(curr_thread.get_current_task_handle(), self.icv_map['run-sched-var'][1], self.icv_map['run-sched-var'][0]) ompd_sched_kind = icv_value.split(',')[0] if self.sched_map.get(int(ompt_sched_kind)) != ompd_sched_kind: print('OMPT-OMPD mismatch: omp_kind kind (%s) does not match OMPD schedule kind according to ICVs (%s)!' % (self.sched_map.get(int(ompt_sched_kind)), ompd_sched_kind)) # compare omp_modifier if 'omp_modifier' in field_names and 'run-sched-var' in self.icv_map: ompt_sched_mod = thread_data['omp_modifier'] icv_value = ompdModule.call_ompd_get_icv_string_from_scope(curr_thread.get_current_task_handle(), self.icv_map['run-sched-var'][1], self.icv_map['run-sched-var'][0]) token = icv_value.split(',')[1] if token is not None: ompd_sched_mod = int(token) else: ompd_sched_mod = 0 if ompt_sched_mod != ompd_sched_mod: print('OMPT-OMPD mismatch: omp_kind modifier does not match OMPD schedule modifier according to ICVs!') # compare omp_proc_bind if 'omp_proc_bind' in field_names and 'bind-var' in self.icv_map: ompt_proc_bind = thread_data['omp_proc_bind'] icv_value = ompdModule.call_ompd_get_icv_from_scope(curr_thread.get_current_task_handle(), self.icv_map['bind-var'][1], self.icv_map['bind-var'][0]) if icv_value is None: icv_string = ompdModule.call_ompd_get_icv_string_from_scope(curr_thread.get_current_task_handle(), self.icv_map['bind-var'][1], self.icv_map['bind-var'][0]) if icv_string is None: print('OMPT-OMPD mismatch: omp_proc_bind (%d) does not match OMPD proc bind according to ICVs (None Object)' % (ompt_proc_bind)) else: if ompt_proc_bind != int(icv_string.split(',')[0]): print('OMPT-OMPD mismatch: omp_proc_bind (%d) does not match OMPD proc bind according to ICVs (%d)!' % (ompt_proc_bind, int(icv_string.split(',')[0]))) else: if ompt_proc_bind != icv_value: print('OMPT-OMPD mismatch: omp_proc_bind (%d) does not match OMPD proc bind according to ICVs (%d)!' % (ompt_proc_bind, icv_value)) # compare enter and exit frames if 'ompt_frame_list' in field_names: ompt_task_frame_dict = thread_data['ompt_frame_list'].dereference() ompt_task_frames = (int(ompt_task_frame_dict['enter_frame'].cast(gdb.lookup_type('long'))), int(ompt_task_frame_dict['exit_frame'].cast(gdb.lookup_type('long')))) current_task = curr_thread.get_current_task() ompd_task_frames = current_task.get_task_frame() if ompt_task_frames != ompd_task_frames: print('OMPT-OMPD mismatch: ompt_task_frames (%s) do not match OMPD task frames (%s)!' % (ompt_task_frames, ompd_task_frames)) # compare task data if 'ompt_task_data' in field_names: ompt_task_data = thread_data['ompt_task_data'].dereference()['value'] current_task_handle = curr_thread.get_current_task_handle() ompd_value = ompdModule.call_ompd_get_tool_data(6, current_task_handle)[0] if ompt_task_data != ompd_value: print('OMPT-OMPD mismatch: value of ompt_task_data (%d) does not match that of OMPD data union (%d)!' % (ompt_task_data, ompd_value)) def save_thread_object(self, thread_num, thread_id, addr_space): """Saves thread object for thread_num inside threads dictionary. """ thread_handle = ompdModule.get_thread_handle(thread_id, addr_space) self.threads[int(thread_num)] = ompd_thread(thread_handle) def get_thread(self, thread_num): """ Get thread object from map. """ return self.threads[int(thread_num)] def get_curr_thread(self): """ Get current thread object from map or add new one to map, if missing. """ thread_num = int(gdb.selected_thread().num) if thread_num not in self.threads: self.add_thread() return self.threads[thread_num] def add_thread(self): """Add currently selected (*) thread to dictionary threads. """ inf_thread = gdb.selected_thread() try: self.save_thread_object(inf_thread.num, inf_thread.ptid[1], self.addr_space) except: traceback.print_exc() def list_threads(self, verbose): """Prints OpenMP threads only that are being tracking inside the "threads" dictionary. See handle_stop_event and add_thread. """ list_tids = [] curr_inferior = gdb.selected_inferior() for inf_thread in curr_inferior.threads(): list_tids.append((inf_thread.num, inf_thread.ptid)) if verbose: if self.states is None: self.enumerate_states() for (thread_num, thread_ptid) in sorted(list_tids): if thread_num in self.threads: try: print('Thread %i (%i) is an OpenMP thread; state: %s' % (thread_num, thread_ptid[1], self.states[self.threads[thread_num].get_state()[0]])) except: traceback.print_exc() else: print('Thread %i (%i) is no OpenMP thread' % (thread_num, thread_ptid[1])) def enumerate_states(self): """Helper function for list_threads: initializes map of OMPD states for output of 'ompd threads'. """ if self.states is None: self.states = {} current = int("0x102", 0) count = 0 more = 1 while more > 0: tup = ompdModule.call_ompd_enumerate_states(self.addr_space, current) (next_state, next_state_name, more) = tup self.states[next_state] = next_state_name current = next_state