def print_error_summary(errors, no_notify, log_dir): wide_log(clr("[build] There were '" + str(len(errors)) + "' @!@{rf}errors@|:")) if not no_notify: notify("Build Failed", "there were {0} errors".format(len(errors))) for error in errors: if error.event_type == 'exit': wide_log("""\ Executor '{exec_id}' had an unhandled exception while processing package '{package}': {data[exc]}""".format(exec_id=error.executor_id + 1, **error.__dict__)) else: wide_log(clr(""" @{rf}Failed@| to build package '@{cf}{package}@|' because the following command: @!@{kf}# Command to reproduce:@| cd {location} && {cmd.cmd_str}; cd - @!@{kf}# Path to log:@| cat {log_dir} @{rf}Exited@| with return code: @!{retcode}@|""").format(package=error.package, log_dir=os.path.join(log_dir, error.package + '.log'), **error.data))
def print_compact_summary(self, completed_jobs, warned_jobs, failed_jobs): """Print a compact build summary.""" notification_title = "" notification_msg = [] # Print error summary if len(completed_jobs) == len(self.jobs) and all( completed_jobs.items()) and len(failed_jobs) == 0: notification_title = "{} Succeeded".format(self.label.capitalize()) notification_msg.append("All {} {} succeeded!".format( len(self.jobs), self.jobs_label)) wide_log( clr('[{}] Summary: All {} {} succeeded!').format( self.label, len(self.jobs), self.jobs_label)) else: notification_msg.append("{} of {} {} succeeded.".format( len([ succeeded for jid, succeeded in completed_jobs.items() if succeeded ]), len(self.jobs), self.jobs_label)) wide_log( clr('[{}] Summary: {} of {} {} succeeded.').format( self.label, len([ succeeded for jid, succeeded in completed_jobs.items() if succeeded ]), len(self.jobs), self.jobs_label)) # Display number of ignored jobs (jobs which shouldn't have been built) all_ignored_jobs = [ j for j in self.available_jobs if j not in self.jobs ] if len(all_ignored_jobs) == 0: wide_log(clr('[{}] Ignored: None.').format(self.label)) else: notification_msg.append("{} {} were skipped.".format( len(all_ignored_jobs), self.jobs_label)) wide_log( clr('[{}] Ignored: {} {} were skipped or are blacklisted.'). format(self.label, len(all_ignored_jobs), self.jobs_label)) # Display number of jobs which produced warnings if len(warned_jobs) == 0: wide_log(clr('[{}] Warnings: None.').format(self.label)) else: notification_title = "{} Succeeded with Warnings".format( self.label.capitalize()) notification_msg.append("{} {} succeeded with warnings.".format( len(warned_jobs), self.jobs_label)) wide_log( clr('[{}] Warnings: {} {} succeeded with warnings.').format( self.label, len(warned_jobs), self.jobs_label)) # Display number of abandoned jobs all_abandoned_jobs = [j for j in self.jobs if j not in completed_jobs] if len(all_abandoned_jobs) == 0: wide_log( clr('[{}] Abandoned: No {} were abandoned.').format( self.label, self.jobs_label)) else: notification_title = "{} Incomplete".format( self.label.capitalize()) notification_msg.append("{} {} were abandoned.".format( len(all_abandoned_jobs), self.jobs_label)) wide_log( clr('[{}] Abandoned: {} {} were abandoned.').format( self.label, len(all_abandoned_jobs), self.jobs_label)) # Display number of failed jobs if len(failed_jobs) == 0: wide_log( clr('[{}] Failed: No {} failed.').format( self.label, self.jobs_label)) else: notification_title = "{} Failed".format(self.label.capitalize()) notification_msg.append("{} {} failed.".format( len(failed_jobs), self.jobs_label)) wide_log( clr('[{}] Failed: {} {} failed.').format( self.label, len(failed_jobs), self.jobs_label)) if self.show_notifications: if len(failed_jobs) != 0: notify(notification_title, "\n".join(notification_msg), icon_image='catkin_icon_red.png') elif len(warned_jobs) != 0: notify(notification_title, "\n".join(notification_msg), icon_image='catkin_icon_yellow.png') else: notify(notification_title, "\n".join(notification_msg))
def print_compact_summary(self, completed_jobs, warned_jobs, failed_jobs): """Print a compact build summary.""" notification_title = "" notification_msg = [] # Print error summary if len(completed_jobs) == len(self.jobs) and all(completed_jobs.items()) and len(failed_jobs) == 0: notification_title = "{} Succeeded".format(self.label.capitalize()) notification_msg.append("All {} {} succeeded!".format(len(self.jobs), self.jobs_label)) wide_log(clr('[{}] Summary: All {} {} succeeded!').format( self.label, len(self.jobs), self.jobs_label)) else: notification_msg.append("{} of {} {} succeeded.".format( len([succeeded for jid, succeeded in completed_jobs.items() if succeeded]), len(self.jobs), self.jobs_label)) wide_log(clr('[{}] Summary: {} of {} {} succeeded.').format( self.label, len([succeeded for jid, succeeded in completed_jobs.items() if succeeded]), len(self.jobs), self.jobs_label)) # Display number of ignored jobs (jobs which shouldn't have been built) all_ignored_jobs = [j for j in self.available_jobs if j not in self.jobs] if len(all_ignored_jobs) == 0: wide_log(clr('[{}] Ignored: None.').format( self.label)) else: notification_msg.append("{} {} were skipped.".format(len(all_ignored_jobs), self.jobs_label)) wide_log(clr('[{}] Ignored: {} {} were skipped or are blacklisted.').format( self.label, len(all_ignored_jobs), self.jobs_label)) # Display number of jobs which produced warnings if len(warned_jobs) == 0: wide_log(clr('[{}] Warnings: None.').format( self.label)) else: notification_title = "{} Succeeded with Warnings".format(self.label.capitalize()) notification_msg.append("{} {} succeeded with warnings.".format(len(warned_jobs), self.jobs_label)) wide_log(clr('[{}] Warnings: {} {} succeeded with warnings.').format( self.label, len(warned_jobs), self.jobs_label)) # Display number of abandoned jobs all_abandoned_jobs = [j for j in self.jobs if j not in completed_jobs] if len(all_abandoned_jobs) == 0: wide_log(clr('[{}] Abandoned: No {} were abandoned.').format( self.label, self.jobs_label)) else: notification_title = "{} Incomplete".format(self.label.capitalize()) notification_msg.append("{} {} were abandoned.".format(len(all_abandoned_jobs), self.jobs_label)) wide_log(clr('[{}] Abandoned: {} {} were abandoned.').format( self.label, len(all_abandoned_jobs), self.jobs_label)) # Display number of failed jobs if len(failed_jobs) == 0: wide_log(clr('[{}] Failed: No {} failed.').format( self.label, self.jobs_label)) else: notification_title = "{} Failed".format(self.label.capitalize()) notification_msg.append("{} {} failed.".format(len(failed_jobs), self.jobs_label)) wide_log(clr('[{}] Failed: {} {} failed.').format( self.label, len(failed_jobs), self.jobs_label)) if self.show_notifications: if len(failed_jobs) != 0: notify(notification_title, "\n".join(notification_msg), icon_image='catkin_icon_red.png') elif len(warned_jobs) != 0: notify(notification_title, "\n".join(notification_msg), icon_image='catkin_icon_yellow.png') else: notify(notification_title, "\n".join(notification_msg))
def build_isolated_workspace(context, packages=None, start_with=None, no_deps=False, jobs=None, force_cmake=False, force_color=False, quiet=False, interleave_output=False, no_status=False, lock_install=False, no_notify=False): """Builds a catkin workspace in isolation This function will find all of the packages in the source space, start some executors, feed them packages to build based on dependencies and topological ordering, and then monitor the output of the executors, handling loggings of the builds, starting builds, failing builds, and finishing builds of packages, and handling the shutdown of the executors when appropriate. :param context: context in which to build the catkin workspace :type context: :py:class:`catkin_tools.verbs.catkin_build.context.Context` :param packages: list of packages to build, by default their dependencies will also be built :type packages: list :param start_with: package to start with, skipping all packages which proceed it in the topological order :type start_with: str :param no_deps: If True, the dependencies of packages will not be built first :type no_deps: bool :param jobs: number of parallel package build jobs :type jobs: int :param force_cmake: forces invocation of CMake if True, default is False :type force_cmake: bool :param force_color: forces colored output even if terminal does not support it :type force_color: bool :param quiet: suppresses the output of commands unless there is an error :type quiet: bool :param interleave_output: prints the output of commands as they are received :type interleave_output: bool :param no_status: disables status bar :type no_status: bool :param lock_install: causes executors to synchronize on access of install commands :type lock_install: bool :param no_notify: suppresses system notifications :type no_notify: bool :raises: SystemExit if buildspace is a file or no packages were found in the source space or if the provided options are invalid """ # If no_deps is given, ensure packages to build are provided if no_deps and packages is None: sys.exit("With --no-deps, you must specify packages to build.") # Make sure there is a build folder and it is not a file if os.path.exists(context.build_space_abs): if os.path.isfile(context.build_space_abs): sys.exit( clr("@{rf}Error:@| Build space '{0}' exists but is a file and not a folder." .format(context.build_space_abs))) # If it dosen't exist, create it else: log("Creating build space directory, '{0}'".format( context.build_space_abs)) os.makedirs(context.build_space_abs) # Check for catkin_make droppings if context.corrupted_by_catkin_make(): sys.exit( clr("@{rf}Error:@| Build space `{0}` exists but appears to have previously been " "created by the `catkin_make` or `catkin_make_isolated` tool. " "Please choose a different directory to use with `catkin build` " "or clean the build space.".format(context.build_space_abs))) # Declare a buildspace marker describing the build config for error checking buildspace_marker_data = { 'workspace': context.workspace, 'profile': context.profile, 'install': context.install, 'install_space': context.install_space_abs, 'devel_space': context.devel_space_abs, 'source_space': context.source_space_abs } # Check build config if os.path.exists( os.path.join(context.build_space_abs, BUILDSPACE_MARKER_FILE)): with open(os.path.join( context.build_space_abs, BUILDSPACE_MARKER_FILE)) as buildspace_marker_file: existing_buildspace_marker_data = yaml.load(buildspace_marker_file) misconfig_lines = '' for (k, v) in existing_buildspace_marker_data.items(): new_v = buildspace_marker_data.get(k, None) if new_v != v: misconfig_lines += ( '\n - %s: %s (stored) is not %s (commanded)' % (k, v, new_v)) if len(misconfig_lines) > 0: sys.exit( clr("\n@{rf}Error:@| Attempting to build a catkin workspace using build space: " "\"%s\" but that build space's most recent configuration " "differs from the commanded one in ways which will cause " "problems. Fix the following options or use @{yf}`catkin " "clean -b`@| to remove the build space: %s" % (context.build_space_abs, misconfig_lines))) # Write the current build config for config error checking with open(os.path.join(context.build_space_abs, BUILDSPACE_MARKER_FILE), 'w') as buildspace_marker_file: buildspace_marker_file.write( yaml.dump(buildspace_marker_data, default_flow_style=False)) # Summarize the context summary_notes = [] if force_cmake: summary_notes += [ clr("@!@{cf}NOTE:@| Forcing CMake to run for each package.") ] log(context.summary(summary_notes)) # Find list of packages in the workspace packages_to_be_built, packages_to_be_built_deps, all_packages = determine_packages_to_be_built( packages, context) completed_packages = [] if no_deps: # Consider deps as "completed" completed_packages.extend(packages_to_be_built_deps) else: # Extend packages to be built to include their deps packages_to_be_built.extend(packages_to_be_built_deps) # Also resort packages_to_be_built = topological_order_packages( dict(packages_to_be_built)) max_package_name_length = max( [len(pkg.name) for pth, pkg in packages_to_be_built]) # Assert start_with package is in the workspace verify_start_with_option(start_with, packages, all_packages, packages_to_be_built + packages_to_be_built_deps) # Setup pool of executors executors = {} # The communication queue can have ExecutorEvent's or str's passed into it from the executors comm_queue = Queue() # The job queue has Jobs put into it job_queue = Queue() # Lock for install space install_lock = Lock() if lock_install else FakeLock() # Determine the number of executors try: if jobs: jobs = int(jobs) if jobs < 1: sys.exit( "Specified number of jobs '{0}' is not positive.".format( jobs)) except ValueError: sys.exit("Specified number of jobs '{0}' is no integer.".format(jobs)) try: jobs = cpu_count() if jobs is None else jobs except NotImplementedError: log('Failed to determine the cpu_count, falling back to 1 jobs as the default.' ) jobs = 1 if jobs is None else jobs # If only one set of jobs, turn on interleaving to get more responsive feedback if jobs == 1: # TODO: make the system more intelligent so that it can automatically switch to streaming output # when only one job is building, even if multiple jobs could be building quiet = False interleave_output = True # Start the executors for x in range(jobs): e = Executor(x, context, comm_queue, job_queue, install_lock) executors[x] = e e.start() try: # Finally close out now running executors # Variables for tracking running jobs and built/building packages start = time.time() total_packages = len(packages_to_be_built) package_count = 0 running_jobs = {} log_dir = os.path.join(context.build_space_abs, 'build_logs') color = True if not force_color and not is_tty(sys.stdout): color = True out = OutputController(log_dir, quiet, interleave_output, color, max_package_name_length, prefix_output=(jobs > 1)) if no_status: disable_wide_log() # Prime the job_queue ready_packages = [] if start_with is None: ready_packages = get_ready_packages(packages_to_be_built, running_jobs, completed_packages) while start_with is not None: ready_packages.extend( get_ready_packages(packages_to_be_built, running_jobs, completed_packages)) while ready_packages: pth, pkg = ready_packages.pop(0) if pkg.name != start_with: completed_packages.append(pkg.name) package_count += 1 wide_log("[build] Skipping package '{0}'".format(pkg.name)) else: ready_packages.insert(0, (pth, pkg)) start_with = None break running_jobs = queue_ready_packages(ready_packages, running_jobs, job_queue, context, force_cmake) assert running_jobs error_state = False errors = [] def set_error_state(error_state): if error_state: return # Set the error state to prevent new jobs error_state = True # Empty the job queue while not job_queue.empty(): job_queue.get() # Kill the executors by sending a None to the job queue for each of them for x in range(jobs): job_queue.put(None) # While any executors are running, process executor events while executors: try: # Try to get an event from the communications queue try: event = comm_queue.get(True, 0.1) except Empty: # timeout occured, create null event to pass through checks event = ExecutorEvent(None, None, None, None) if event.event_type == 'job_started': package_count += 1 running_jobs[ event.package]['package_number'] = package_count running_jobs[event.package]['start_time'] = time.time() out.job_started(event.package) if event.event_type == 'command_started': out.command_started(event.package, event.data['cmd'], event.data['location']) if event.event_type == 'command_log': out.command_log(event.package, event.data['message']) if event.event_type == 'command_failed': out.command_failed(event.package, event.data['cmd'], event.data['location'], event.data['retcode']) # Add to list of errors errors.append(event) # Remove the command from the running jobs del running_jobs[event.package] # If it hasn't already been done, stop the executors set_error_state(error_state) if event.event_type == 'command_finished': out.command_finished(event.package, event.data['cmd'], event.data['location'], event.data['retcode']) if event.event_type == 'job_finished': completed_packages.append(event.package) run_time = format_time_delta( time.time() - running_jobs[event.package]['start_time']) out.job_finished(event.package, run_time) del running_jobs[event.package] # If shutting down, do not add new packages if error_state: continue # Calculate new packages if not no_status: wide_log('[build] Calculating new jobs...', end='\r') sys.stdout.flush() ready_packages = get_ready_packages( packages_to_be_built, running_jobs, completed_packages) running_jobs = queue_ready_packages( ready_packages, running_jobs, job_queue, context, force_cmake) # Make sure there are jobs to be/being processed, otherwise kill the executors if not running_jobs: # Kill the executors by sending a None to the job queue for each of them for x in range(jobs): job_queue.put(None) # If an executor exit event, join it and remove it from the executors list if event.event_type == 'exit': # If an executor has an exception, set the error state if event.data['reason'] == 'exception': set_error_state(error_state) errors.append(event) # Join and remove it executors[event.executor_id].join() del executors[event.executor_id] if not no_status: # Update the status bar on the screen executing_jobs = [] for name, value in running_jobs.items(): number, job, start_time = value[ 'package_number'], value['job'], value[ 'start_time'] if number is None or start_time is None: continue executing_jobs.append({ 'number': number, 'name': name, 'run_time': format_time_delta_short(time.time() - start_time) }) msg = clr("[build - {run_time}] ").format( run_time=format_time_delta_short(time.time() - start)) # If errors post those if errors: for error in errors: msg += clr("[!{package}] ").format( package=error.package) # Print them in order of started number for job_msg_args in sorted( executing_jobs, key=lambda args: args['number']): msg += clr("[{name} - {run_time}] ").format( **job_msg_args) msg_rhs = clr( "[{0}/{1} Active | {2}/{3} Completed]").format( len(executing_jobs), len(executors), len(packages) if no_deps else len(completed_packages), total_packages) # Update title bar sys.stdout.write("\x1b]2;[build] {0}/{1}\x07".format( len(packages) if no_deps else len(completed_packages), total_packages)) # Update status bar wide_log(msg, rhs=msg_rhs, end='\r') sys.stdout.flush() except KeyboardInterrupt: wide_log("[build] User interrupted, stopping.") set_error_state(error_state) # All executors have shutdown sys.stdout.write("\x1b]2;\x07") if not errors: if context.isolate_devel: if not context.install: _create_unmerged_devel_setup(context) else: _create_unmerged_devel_setup_for_install(context) wide_log("[build] Finished.") if not no_notify: notify("Build Finished", "{0} packages built".format(total_packages)) return 0 else: wide_log(clr("[build] There were @!@{rf}errors@|:")) if not no_notify: notify("Build Failed", "there were {0} errors".format(len(errors))) for error in errors: if error.event_type == 'exit': wide_log( """Executor '{exec_id}' had an unhandle exception while processing package '{package}': {data[exc]} """.format(exec_id=error.executor_id + 1, **error.__dict__)) else: wide_log( clr(""" @{rf}Failed@| to build package '@{cf}{package}@|' because the following command: @!@{kf}# Command run in directory: @|{location} {cmd.cmd_str} @{rf}Exited@| with return code: @!{retcode}@|""").format( package=error.package, **error.data)) sys.exit(1) finally: # Ensure executors go down for x in range(jobs): job_queue.put(None)
def build_isolated_workspace( context, packages=None, start_with=None, no_deps=False, jobs=None, force_cmake=False, force_color=False, quiet=False, interleave_output=False, no_status=False, lock_install=False, ): """Builds a catkin workspace in isolation This function will find all of the packages in the source space, start some executors, feed them packages to build based on dependencies and topological ordering, and then monitor the output of the executors, handling loggings of the builds, starting builds, failing builds, and finishing builds of packages, and handling the shutdown of the executors when appropriate. :param context: context in which to build the catkin workspace :type context: :py:class:`catkin_tools.verbs.catkin_build.context.Context` :param packages: list of packages to build, by default their dependencies will also be built :type packages: list :param start_with: package to start with, skipping all packages which proceed it in the topological order :type start_with: str :param no_deps: If True, the dependencies of packages will not be built first :type no_deps: bool :param jobs: number of parallel package build jobs :type jobs: int :param force_cmake: forces invocation of CMake if True, default is False :type force_cmake: bool :param force_color: forces colored output even if terminal does not support it :type force_color: bool :param quiet: suppresses the output of commands unless there is an error :type quiet: bool :param interleave_output: prints the output of commands as they are received :type interleave_output: bool :param no_status: disables status bar :type no_status: bool :param lock_install: causes executors to synchronize on access of install commands :type lock_install: bool :raises: SystemExit if buildspace is a file or no packages were found in the source space or if the provided options are invalid """ # If no_deps is given, ensure packages to build are provided if no_deps and packages is None: sys.exit("With --no-deps, you must specify packages to build.") # Make sure there is a build folder and it is not a file if os.path.exists(context.build_space): if os.path.isfile(context.build_space): sys.exit("Build space '{0}' exists but is a file and not a folder.".format(context.build_space)) # If it dosen't exist, create it else: log("Creating buildspace directory, '{0}'".format(context.build_space)) os.makedirs(context.build_space) # Summarize the context log(context.summary()) # Find list of packages in the workspace packages_to_be_built, packages_to_be_built_deps = determine_packages_to_be_built(packages, context) completed_packages = [] if no_deps: # Consider deps as "completed" completed_packages.extend(packages_to_be_built_deps) else: # Extend packages to be built to include their deps packages_to_be_built.extend(packages_to_be_built_deps) # Also resort packages_to_be_built = topological_order_packages(dict(packages_to_be_built)) max_package_name_length = max([len(pkg.name) for pth, pkg in packages_to_be_built]) # Setup pool of executors executors = {} # The communication queue can have ExecutorEvent's or str's passed into it from the executors comm_queue = Queue() # The job queue has Jobs put into it job_queue = Queue() # Lock for install space install_lock = Lock() if lock_install else FakeLock() # Determine the number of executors try: if jobs: jobs = int(jobs) if jobs < 1: sys.exit("Specified number of jobs '{0}' is not positive.".format(jobs)) except ValueError: sys.exit("Specified number of jobs '{0}' is no integer.".format(jobs)) try: jobs = cpu_count() if jobs is None else jobs except NotImplementedError: log("Failed to determine the cpu_count, falling back to 1 jobs as the default.") jobs = 1 if jobs is None else jobs # If only one set of jobs, turn on interleaving to get more responsive feedback if jobs == 1: # TODO: make the system more intelligent so that it can automatically switch to streaming output # when only one job is building, even if multiple jobs could be building quiet = False interleave_output = True # Start the executors for x in range(jobs): e = Executor(x, context, comm_queue, job_queue, install_lock) executors[x] = e e.start() # Variables for tracking running jobs and built/building packages start = time.time() total_packages = len(packages_to_be_built) package_count = 0 running_jobs = {} log_dir = os.path.join(context.build_space, "build_logs") color = True if not force_color and not is_tty(sys.stdout): color = True out = OutputController(log_dir, quiet, interleave_output, color, max_package_name_length, prefix_output=(jobs > 1)) if no_status: disable_wide_log() # Prime the job_queue ready_packages = [] if start_with is None: ready_packages = get_ready_packages(packages_to_be_built, running_jobs, completed_packages) while start_with is not None: ready_packages.extend(get_ready_packages(packages_to_be_built, running_jobs, completed_packages)) while ready_packages: pth, pkg = ready_packages.pop(0) if pkg.name != start_with: completed_packages.append(pkg.name) package_count += 1 wide_log("[build] Skipping package '{0}'".format(pkg.name)) else: ready_packages.insert(0, (pth, pkg)) start_with = None break running_jobs = queue_ready_packages(ready_packages, running_jobs, job_queue, context, force_cmake) assert running_jobs error_state = False errors = [] def set_error_state(error_state): if error_state: return # Set the error state to prevent new jobs error_state = True # Empty the job queue while not job_queue.empty(): job_queue.get() # Kill the executors by sending a None to the job queue for each of them for x in range(jobs): job_queue.put(None) # While any executors are running, process executor events while executors: try: # Try to get an event from the communications queue try: event = comm_queue.get(True, 0.1) except Empty: # timeout occured, create null event to pass through checks event = ExecutorEvent(None, None, None, None) if event.event_type == "job_started": package_count += 1 running_jobs[event.package]["package_number"] = package_count running_jobs[event.package]["start_time"] = time.time() out.job_started(event.package) if event.event_type == "command_started": out.command_started(event.package, event.data["cmd"], event.data["location"]) if event.event_type == "command_log": out.command_log(event.package, event.data["message"]) if event.event_type == "command_failed": out.command_failed(event.package, event.data["cmd"], event.data["location"], event.data["retcode"]) # Add to list of errors errors.append(event) # Remove the command from the running jobs del running_jobs[event.package] # If it hasn't already been done, stop the executors set_error_state(error_state) if event.event_type == "command_finished": out.command_finished(event.package, event.data["cmd"], event.data["location"], event.data["retcode"]) if event.event_type == "job_finished": completed_packages.append(event.package) run_time = format_time_delta(time.time() - running_jobs[event.package]["start_time"]) out.job_finished(event.package, run_time) del running_jobs[event.package] # If shutting down, do not add new packages if error_state: continue # Calculate new packages if not no_status: wide_log("[build] Calculating new jobs...", end="\r") sys.stdout.flush() ready_packages = get_ready_packages(packages_to_be_built, running_jobs, completed_packages) running_jobs = queue_ready_packages(ready_packages, running_jobs, job_queue, context, force_cmake) # Make sure there are jobs to be/being processed, otherwise kill the executors if not running_jobs: # Kill the executors by sending a None to the job queue for each of them for x in range(jobs): job_queue.put(None) # If an executor exit event, join it and remove it from the executors list if event.event_type == "exit": # If an executor has an exception, set the error state if event.data["reason"] == "exception": set_error_state(error_state) errors.append(event) # Join and remove it executors[event.executor_id].join() del executors[event.executor_id] if not no_status: # Update the status bar on the screen executing_jobs = [] for name, value in running_jobs.items(): number, job, start_time = value["package_number"], value["job"], value["start_time"] if number is None or start_time is None: continue executing_jobs.append( {"number": number, "name": name, "run_time": format_time_delta_short(time.time() - start_time)} ) msg = clr("[build - {run_time}] ").format(run_time=format_time_delta_short(time.time() - start)) # If errors post those if errors: for error in errors: msg += clr("[!{package}] ").format(package=error.package) # Print them in order of started number for job_msg_args in sorted(executing_jobs, key=lambda args: args["number"]): msg += clr("[{name} - {run_time}] ").format(**job_msg_args) msg_rhs = clr("[{0}/{1} Active | {2}/{3} Completed]").format( len(executing_jobs), len(executors), len(packages) if no_deps else len(completed_packages), total_packages, ) # Update title bar sys.stdout.write( "\x1b]2;[build] {0}/{1}\x07".format( len(packages) if no_deps else len(completed_packages), total_packages ) ) # Update status bar wide_log(msg, rhs=msg_rhs, end="\r") sys.stdout.flush() except KeyboardInterrupt: wide_log("[build] User interrupted, stopping.") set_error_state(error_state) # All executors have shutdown sys.stdout.write("\x1b]2;\x07") if not errors: if context.isolate_devel: if not context.install: _create_unmerged_devel_setup(context) else: _create_unmerged_devel_setup_for_install(context) wide_log("[build] Finished.") notify("Build Finished", "{0} packages built".format(total_packages)) return 0 else: wide_log(clr("[build] There were @!@{rf}errors@|:")) notify("Build Failed", "there were {0} errors".format(len(errors))) for error in errors: if error.event_type == "exit": wide_log( """Executor '{exec_id}' had an unhandle exception while processing package '{package}': {data[exc]} """.format( exec_id=error.executor_id + 1, **error.__dict__ ) ) else: wide_log( clr( """ @{rf}Failed@| to build package '@{cf}{package}@|' because the following command: @!@{kf}# Command run in directory: @|{location} {cmd.cmd_str} @{rf}Exited@| with return code: @!{retcode}@|""" ).format(package=error.package, **error.data) ) sys.exit(1)
def build_isolated_workspace( context, packages=None, start_with=None, no_deps=False, jobs=None, force_cmake=False, force_color=False, quiet=False, interleave_output=False, no_status=False, lock_install=False, no_notify=False ): """Builds a catkin workspace in isolation This function will find all of the packages in the source space, start some executors, feed them packages to build based on dependencies and topological ordering, and then monitor the output of the executors, handling loggings of the builds, starting builds, failing builds, and finishing builds of packages, and handling the shutdown of the executors when appropriate. :param context: context in which to build the catkin workspace :type context: :py:class:`catkin_tools.verbs.catkin_build.context.Context` :param packages: list of packages to build, by default their dependencies will also be built :type packages: list :param start_with: package to start with, skipping all packages which proceed it in the topological order :type start_with: str :param no_deps: If True, the dependencies of packages will not be built first :type no_deps: bool :param jobs: number of parallel package build jobs :type jobs: int :param force_cmake: forces invocation of CMake if True, default is False :type force_cmake: bool :param force_color: forces colored output even if terminal does not support it :type force_color: bool :param quiet: suppresses the output of commands unless there is an error :type quiet: bool :param interleave_output: prints the output of commands as they are received :type interleave_output: bool :param no_status: disables status bar :type no_status: bool :param lock_install: causes executors to synchronize on access of install commands :type lock_install: bool :param no_notify: suppresses system notifications :type no_notify: bool :raises: SystemExit if buildspace is a file or no packages were found in the source space or if the provided options are invalid """ # If no_deps is given, ensure packages to build are provided if no_deps and packages is None: sys.exit("With --no-deps, you must specify packages to build.") # Make sure there is a build folder and it is not a file if os.path.exists(context.build_space_abs): if os.path.isfile(context.build_space_abs): sys.exit(clr( "@{rf}Error:@| Build space '{0}' exists but is a file and not a folder." .format(context.build_space_abs))) # If it dosen't exist, create it else: log("Creating build space directory, '{0}'".format(context.build_space_abs)) os.makedirs(context.build_space_abs) # Check for catkin_make droppings if context.corrupted_by_catkin_make(): sys.exit( clr("@{rf}Error:@| Build space `{0}` exists but appears to have previously been " "created by the `catkin_make` or `catkin_make_isolated` tool. " "Please choose a different directory to use with `catkin build` " "or clean the build space.".format(context.build_space_abs))) # Declare a buildspace marker describing the build config for error checking buildspace_marker_data = { 'workspace': context.workspace, 'profile': context.profile, 'install': context.install, 'install_space': context.install_space_abs, 'devel_space': context.devel_space_abs, 'source_space': context.source_space_abs} # Check build config if os.path.exists(os.path.join(context.build_space_abs, BUILDSPACE_MARKER_FILE)): with open(os.path.join(context.build_space_abs, BUILDSPACE_MARKER_FILE)) as buildspace_marker_file: existing_buildspace_marker_data = yaml.load(buildspace_marker_file) misconfig_lines = '' for (k, v) in existing_buildspace_marker_data.items(): new_v = buildspace_marker_data.get(k, None) if new_v != v: misconfig_lines += ( '\n - %s: %s (stored) is not %s (commanded)' % (k, v, new_v)) if len(misconfig_lines) > 0: sys.exit(clr( "\n@{rf}Error:@| Attempting to build a catkin workspace using build space: " "\"%s\" but that build space's most recent configuration " "differs from the commanded one in ways which will cause " "problems. Fix the following options or use @{yf}`catkin " "clean -b`@| to remove the build space: %s" % (context.build_space_abs, misconfig_lines))) # Write the current build config for config error checking with open(os.path.join(context.build_space_abs, BUILDSPACE_MARKER_FILE), 'w') as buildspace_marker_file: buildspace_marker_file.write(yaml.dump(buildspace_marker_data, default_flow_style=False)) # Summarize the context summary_notes = [] if force_cmake: summary_notes += [clr("@!@{cf}NOTE:@| Forcing CMake to run for each package.")] log(context.summary(summary_notes)) # Find list of packages in the workspace packages_to_be_built, packages_to_be_built_deps, all_packages = determine_packages_to_be_built(packages, context) completed_packages = [] if no_deps: # Consider deps as "completed" completed_packages.extend(packages_to_be_built_deps) else: # Extend packages to be built to include their deps packages_to_be_built.extend(packages_to_be_built_deps) # Also resort packages_to_be_built = topological_order_packages(dict(packages_to_be_built)) max_package_name_length = max([len(pkg.name) for pth, pkg in packages_to_be_built]) # Assert start_with package is in the workspace verify_start_with_option(start_with, packages, all_packages, packages_to_be_built + packages_to_be_built_deps) # Setup pool of executors executors = {} # The communication queue can have ExecutorEvent's or str's passed into it from the executors comm_queue = Queue() # The job queue has Jobs put into it job_queue = Queue() # Lock for install space install_lock = Lock() if lock_install else FakeLock() # Determine the number of executors try: if jobs: jobs = int(jobs) if jobs < 1: sys.exit("Specified number of jobs '{0}' is not positive.".format(jobs)) except ValueError: sys.exit("Specified number of jobs '{0}' is no integer.".format(jobs)) try: jobs = cpu_count() if jobs is None else jobs except NotImplementedError: log('Failed to determine the cpu_count, falling back to 1 jobs as the default.') jobs = 1 if jobs is None else jobs # If only one set of jobs, turn on interleaving to get more responsive feedback if jobs == 1: # TODO: make the system more intelligent so that it can automatically switch to streaming output # when only one job is building, even if multiple jobs could be building quiet = False interleave_output = True # Start the executors for x in range(jobs): e = Executor(x, context, comm_queue, job_queue, install_lock) executors[x] = e e.start() # Variables for tracking running jobs and built/building packages start = time.time() total_packages = len(packages_to_be_built) package_count = 0 running_jobs = {} log_dir = os.path.join(context.build_space_abs, 'build_logs') color = True if not force_color and not is_tty(sys.stdout): color = True out = OutputController(log_dir, quiet, interleave_output, color, max_package_name_length, prefix_output=(jobs > 1)) if no_status: disable_wide_log() # Prime the job_queue ready_packages = [] if start_with is None: ready_packages = get_ready_packages(packages_to_be_built, running_jobs, completed_packages) while start_with is not None: ready_packages.extend(get_ready_packages(packages_to_be_built, running_jobs, completed_packages)) while ready_packages: pth, pkg = ready_packages.pop(0) if pkg.name != start_with: completed_packages.append(pkg.name) package_count += 1 wide_log("[build] Skipping package '{0}'".format(pkg.name)) else: ready_packages.insert(0, (pth, pkg)) start_with = None break running_jobs = queue_ready_packages(ready_packages, running_jobs, job_queue, context, force_cmake) assert running_jobs error_state = False errors = [] def set_error_state(error_state): if error_state: return # Set the error state to prevent new jobs error_state = True # Empty the job queue while not job_queue.empty(): job_queue.get() # Kill the executors by sending a None to the job queue for each of them for x in range(jobs): job_queue.put(None) # While any executors are running, process executor events while executors: try: # Try to get an event from the communications queue try: event = comm_queue.get(True, 0.1) except Empty: # timeout occured, create null event to pass through checks event = ExecutorEvent(None, None, None, None) if event.event_type == 'job_started': package_count += 1 running_jobs[event.package]['package_number'] = package_count running_jobs[event.package]['start_time'] = time.time() out.job_started(event.package) if event.event_type == 'command_started': out.command_started(event.package, event.data['cmd'], event.data['location']) if event.event_type == 'command_log': out.command_log(event.package, event.data['message']) if event.event_type == 'command_failed': out.command_failed(event.package, event.data['cmd'], event.data['location'], event.data['retcode']) # Add to list of errors errors.append(event) # Remove the command from the running jobs del running_jobs[event.package] # If it hasn't already been done, stop the executors set_error_state(error_state) if event.event_type == 'command_finished': out.command_finished(event.package, event.data['cmd'], event.data['location'], event.data['retcode']) if event.event_type == 'job_finished': completed_packages.append(event.package) run_time = format_time_delta(time.time() - running_jobs[event.package]['start_time']) out.job_finished(event.package, run_time) del running_jobs[event.package] # If shutting down, do not add new packages if error_state: continue # Calculate new packages if not no_status: wide_log('[build] Calculating new jobs...', end='\r') sys.stdout.flush() ready_packages = get_ready_packages(packages_to_be_built, running_jobs, completed_packages) running_jobs = queue_ready_packages(ready_packages, running_jobs, job_queue, context, force_cmake) # Make sure there are jobs to be/being processed, otherwise kill the executors if not running_jobs: # Kill the executors by sending a None to the job queue for each of them for x in range(jobs): job_queue.put(None) # If an executor exit event, join it and remove it from the executors list if event.event_type == 'exit': # If an executor has an exception, set the error state if event.data['reason'] == 'exception': set_error_state(error_state) errors.append(event) # Join and remove it executors[event.executor_id].join() del executors[event.executor_id] if not no_status: # Update the status bar on the screen executing_jobs = [] for name, value in running_jobs.items(): number, start_time = value['package_number'], value['start_time'] if number is None or start_time is None: continue executing_jobs.append({ 'number': number, 'name': name, 'run_time': format_time_delta_short(time.time() - start_time) }) msg = clr("[build - {run_time}] ").format(run_time=format_time_delta_short(time.time() - start)) # If errors post those if errors: for error in errors: msg += clr("[!{package}] ").format(package=error.package) # Print them in order of started number for job_msg_args in sorted(executing_jobs, key=lambda args: args['number']): msg += clr("[{name} - {run_time}] ").format(**job_msg_args) msg_rhs = clr("[{0}/{1} Active | {2}/{3} Completed]").format( len(executing_jobs), len(executors), len(packages) if no_deps else len(completed_packages), total_packages ) # Update title bar sys.stdout.write("\x1b]2;[build] {0}/{1}\x07".format( len(packages) if no_deps else len(completed_packages), total_packages )) # Update status bar wide_log(msg, rhs=msg_rhs, end='\r') sys.stdout.flush() except KeyboardInterrupt: wide_log("[build] User interrupted, stopping.") set_error_state(error_state) # All executors have shutdown sys.stdout.write("\x1b]2;\x07") if not errors: if context.isolate_devel: if not context.install: _create_unmerged_devel_setup(context) else: _create_unmerged_devel_setup_for_install(context) wide_log("[build] Finished.") if not no_notify: notify("Build Finished", "{0} packages built".format(total_packages)) return 0 else: wide_log(clr("[build] There were @!@{rf}errors@|:")) if not no_notify: notify("Build Failed", "there were {0} errors".format(len(errors))) for error in errors: if error.event_type == 'exit': wide_log("""Executor '{exec_id}' had an unhandle exception while processing package '{package}': {data[exc]} """.format(exec_id=error.executor_id + 1, **error.__dict__)) else: wide_log(clr(""" @{rf}Failed@| to build package '@{cf}{package}@|' because the following command: @!@{kf}# Command run in directory: @|{location} {cmd.cmd_str} @{rf}Exited@| with return code: @!{retcode}@|""").format(package=error.package, **error.data)) sys.exit(1)