# Copyright (c) 2013 The Chromium OS Authors. # # Bloat-o-meter code used here Copyright 2004 Matt Mackall # # SPDX-License-Identifier: GPL-2.0+ # import collections import errno from datetime import datetime, timedelta import glob import os import re import Queue import shutil import string import sys import threading import time import command import gitutil import terminal import toolchain """ Theory of Operation Please see README for user documentation, and you should be familiar with that before trying to make sense of this. Buildman works by keeping the machine as busy as possible, building different commits for different boards on multiple CPUs at once. The source repo (self.git_dir) contains all the commits to be built. Each thread works on a single board at a time. It checks out the first commit, configures it for that board, then builds it. Then it checks out the next commit and builds it (typically without re-configuring). When it runs out of commits, it gets another job from the builder and starts again with that board. Clearly the builder threads could work either way - they could check out a commit and then built it for all boards. Using separate directories for each commit/board pair they could leave their build product around afterwards also. The intent behind building a single board for multiple commits, is to make use of incremental builds. Since each commit is built incrementally from the previous one, builds are faster. Reconfiguring for a different board removes all intermediate object files. Many threads can be working at once, but each has its own working directory. When a thread finishes a build, it puts the output files into a result directory. The base directory used by buildman is normally '../', i.e. a directory higher than the source repository and named after the branch being built. Within the base directory, we have one subdirectory for each commit. Within that is one subdirectory for each board. Within that is the build output for that commit/board combination. Buildman also create working directories for each thread, in a .bm-work/ subdirectory in the base dir. As an example, say we are building branch 'us-net' for boards 'sandbox' and 'seaboard', and say that us-net has two commits. We will have directories like this: us-net/ base directory 01_of_02_g4ed4ebc_net--Add-tftp-speed-/ sandbox/ u-boot.bin seaboard/ u-boot.bin 02_of_02_g4ed4ebc_net--Check-tftp-comp/ sandbox/ u-boot.bin seaboard/ u-boot.bin .bm-work/ 00/ working directory for thread 0 (contains source checkout) build/ build output 01/ working directory for thread 1 build/ build output ... u-boot/ source directory .git/ repository """ # Possible build outcomes OUTCOME_OK, OUTCOME_WARNING, OUTCOME_ERROR, OUTCOME_UNKNOWN = range(4) # Translate a commit subject into a valid filename trans_valid_chars = string.maketrans("/: ", "---") def Mkdir(dirname): """Make a directory if it doesn't already exist. Args: dirname: Directory to create """ try: os.mkdir(dirname) except OSError as err: if err.errno == errno.EEXIST: pass else: raise class BuilderJob: """Holds information about a job to be performed by a thread Members: board: Board object to build commits: List of commit options to build. """ def __init__(self): self.board = None self.commits = [] class ResultThread(threading.Thread): """This thread processes results from builder threads. It simply passes the results on to the builder. There is only one result thread, and this helps to serialise the build output. """ def __init__(self, builder): """Set up a new result thread Args: builder: Builder which will be sent each result """ threading.Thread.__init__(self) self.builder = builder def run(self): """Called to start up the result thread. We collect the next result job and pass it on to the build. """ while True: result = self.builder.out_queue.get() self.builder.ProcessResult(result) self.builder.out_queue.task_done() class BuilderThread(threading.Thread): """This thread builds U-Boot for a particular board. An input queue provides each new job. We run 'make' to build U-Boot and then pass the results on to the output queue. Members: builder: The builder which contains information we might need thread_num: Our thread number (0-n-1), used to decide on a temporary directory """ def __init__(self, builder, thread_num): """Set up a new builder thread""" threading.Thread.__init__(self) self.builder = builder self.thread_num = thread_num def Make(self, commit, brd, stage, cwd, *args, **kwargs): """Run 'make' on a particular commit and board. The source code will already be checked out, so the 'commit' argument is only for information. Args: commit: Commit object that is being built brd: Board object that is being built stage: Stage of the build. Valid stages are: distclean - can be called to clean source config - called to configure for a board build - the main make invocation - it does the build args: A list of arguments to pass to 'make' kwargs: A list of keyword arguments to pass to command.RunPipe() Returns: CommandResult object """ return self.builder.do_make(commit, brd, stage, cwd, *args, **kwargs) def RunCommit(self, commit_upto, brd, work_dir, do_config, force_build, force_build_failures): """Build a particular commit. If the build is already done, and we are not forcing a build, we skip the build and just return the previously-saved results. Args: commit_upto: Commit number to build (0...n-1) brd: Board object to build work_dir: Directory to which the source will be checked out do_config: True to run a make _defconfig on the source force_build: Force a build even if one was previously done force_build_failures: Force a bulid if the previous result showed failure Returns: tuple containing: - CommandResult object containing the results of the build - boolean indicating whether 'make config' is still needed """ # Create a default result - it will be overwritte by the call to # self.Make() below, in the event that we do a build. result = command.CommandResult() result.return_code = 0 if self.builder.in_tree: out_dir = work_dir else: out_dir = os.path.join(work_dir, 'build') # Check if the job was already completed last time done_file = self.builder.GetDoneFile(commit_upto, brd.target) result.already_done = os.path.exists(done_file) will_build = (force_build or force_build_failures or not result.already_done) if result.already_done and will_build: # Get the return code from that build and use it with open(done_file, 'r') as fd: result.return_code = int(fd.readline()) err_file = self.builder.GetErrFile(commit_upto, brd.target) if os.path.exists(err_file) and os.stat(err_file).st_size: result.stderr = 'bad' elif not force_build: # The build passed, so no need to build it again will_build = False if will_build: # We are going to have to build it. First, get a toolchain if not self.toolchain: try: self.toolchain = self.builder.toolchains.Select(brd.arch) except ValueError as err: result.return_code = 10 result.stdout = '' result.stderr = str(err) # TODO(sjg@chromium.org): This gets swallowed, but needs # to be reported. if self.toolchain: # Checkout the right commit if self.builder.commits: commit = self.builder.commits[commit_upto] if self.builder.checkout: git_dir = os.path.join(work_dir, '.git') gitutil.Checkout(commit.hash, git_dir, work_dir, force=True) else: commit = 'current' # Set up the environment and command line env = self.toolchain.MakeEnvironment() Mkdir(out_dir) args = [] cwd = work_dir if not self.builder.in_tree: if commit_upto is None: # In this case we are building in the original source # directory (i.e. the current directory where buildman # is invoked. The output directory is set to this # thread's selected work directory. # # Symlinks can confuse U-Boot's Makefile since # we may use '..' in our path, so remove them. work_dir = os.path.realpath(work_dir) args.append('O=%s/build' % work_dir) cwd = None else: args.append('O=build') args.append('-s') if self.builder.num_jobs is not None: args.extend(['-j', str(self.builder.num_jobs)]) config_args = ['%s_defconfig' % brd.target] config_out = '' args.extend(self.builder.toolchains.GetMakeArguments(brd)) # If we need to reconfigure, do that now if do_config: result = self.Make(commit, brd, 'distclean', cwd, 'distclean', *args, env=env) result = self.Make(commit, brd, 'config', cwd, *(args + config_args), env=env) config_out = result.combined do_config = False # No need to configure next time if result.return_code == 0: result = self.Make(commit, brd, 'build', cwd, *args, env=env) result.stdout = config_out + result.stdout else: result.return_code = 1 result.stderr = 'No tool chain for %s\n' % brd.arch result.already_done = False result.toolchain = self.toolchain result.brd = brd result.commit_upto = commit_upto result.out_dir = out_dir return result, do_config def _WriteResult(self, result, keep_outputs): """Write a built result to the output directory. Args: result: CommandResult object containing result to write keep_outputs: True to store the output binaries, False to delete them """ # Fatal error if result.return_code < 0: return # Aborted? if result.stderr and 'No child processes' in result.stderr: return if result.already_done: return # Write the output and stderr output_dir = self.builder._GetOutputDir(result.commit_upto) Mkdir(output_dir) build_dir = self.builder.GetBuildDir(result.commit_upto, result.brd.target) Mkdir(build_dir) outfile = os.path.join(build_dir, 'log') with open(outfile, 'w') as fd: if result.stdout: fd.write(result.stdout) errfile = self.builder.GetErrFile(result.commit_upto, result.brd.target) if result.stderr: with open(errfile, 'w') as fd: fd.write(result.stderr) elif os.path.exists(errfile): os.remove(errfile) if result.toolchain: # Write the build result and toolchain information. done_file = self.builder.GetDoneFile(result.commit_upto, result.brd.target) with open(done_file, 'w') as fd: fd.write('%s' % result.return_code) with open(os.path.join(build_dir, 'toolchain'), 'w') as fd: print >>fd, 'gcc', result.toolchain.gcc print >>fd, 'path', result.toolchain.path print >>fd, 'cross', result.toolchain.cross print >>fd, 'arch', result.toolchain.arch fd.write('%s' % result.return_code) with open(os.path.join(build_dir, 'toolchain'), 'w') as fd: print >>fd, 'gcc', result.toolchain.gcc print >>fd, 'path', result.toolchain.path # Write out the image and function size information and an objdump env = result.toolchain.MakeEnvironment() lines = [] for fname in ['u-boot', 'spl/u-boot-spl']: cmd = ['%snm' % self.toolchain.cross, '--size-sort', fname] nm_result = command.RunPipe([cmd], capture=True, capture_stderr=True, cwd=result.out_dir, raise_on_error=False, env=env) if nm_result.stdout: nm = self.builder.GetFuncSizesFile(result.commit_upto, result.brd.target, fname) with open(nm, 'w') as fd: print >>fd, nm_result.stdout, cmd = ['%sobjdump' % self.toolchain.cross, '-h', fname] dump_result = command.RunPipe([cmd], capture=True, capture_stderr=True, cwd=result.out_dir, raise_on_error=False, env=env) rodata_size = '' if dump_result.stdout: objdump = self.builder.GetObjdumpFile(result.commit_upto, result.brd.target, fname) with open(objdump, 'w') as fd: print >>fd, dump_result.stdout, for line in dump_result.stdout.splitlines(): fields = line.split() if len(fields) > 5 and fields[1] == '.rodata': rodata_size = fields[2] cmd = ['%ssize' % self.toolchain.cross, fname] size_result = command.RunPipe([cmd], capture=True, capture_stderr=True, cwd=result.out_dir, raise_on_error=False, env=env) if size_result.stdout: lines.append(size_result.stdout.splitlines()[1] + ' ' + rodata_size) # Write out the image sizes file. This is similar to the output # of binutil's 'size' utility, but it omits the header line and # adds an additional hex value at the end of each line for the # rodata size if len(lines): sizes = self.builder.GetSizesFile(result.commit_upto, result.brd.target) with open(sizes, 'w') as fd: print >>fd, '\n'.join(lines) # Now write the actual build output if keep_outputs: patterns = ['u-boot', '*.bin', 'u-boot.dtb', '*.map', 'include/autoconf.mk', 'spl/u-boot-spl', 'spl/u-boot-spl.bin'] for pattern in patterns: file_list = glob.glob(os.path.join(result.out_dir, pattern)) for fname in file_list: shutil.copy(fname, build_dir) def RunJob(self, job): """Run a single job A job consists of a building a list of commits for a particular board. Args: job: Job to build """ brd = job.board work_dir = self.builder.GetThreadDir(self.thread_num) self.toolchain = None if job.commits: # Run 'make board_defconfig' on the first commit do_config = True commit_upto = 0 force_build = False for commit_upto in range(0, len(job.commits), job.step): result, request_config = self.RunCommit(commit_upto, brd, work_dir, do_config, force_build or self.builder.force_build, self.builder.force_build_failures) failed = result.return_code or result.stderr did_config = do_config if failed and not do_config: # If our incremental build failed, try building again # with a reconfig. if self.builder.force_config_on_failure: result, request_config = self.RunCommit(commit_upto, brd, work_dir, True, True, False) did_config = True if not self.builder.force_reconfig: do_config = request_config # If we built that commit, then config is done. But if we got # an warning, reconfig next time to force it to build the same # files that created warnings this time. Otherwise an # incremental build may not build the same file, and we will # think that the warning has gone away. # We could avoid this by using -Werror everywhere... # For errors, the problem doesn't happen, since presumably # the build stopped and didn't generate output, so will retry # that file next time. So we could detect warnings and deal # with them specially here. For now, we just reconfigure if # anything goes work. # Of course this is substantially slower if there are build # errors/warnings (e.g. 2-3x slower even if only 10% of builds # have problems). if (failed and not result.already_done and not did_config and self.builder.force_config_on_failure): # If this build failed, try the next one with a # reconfigure. # Sometimes if the board_config.h file changes it can mess # with dependencies, and we get: # make: *** No rule to make target `include/autoconf.mk', # needed by `depend'. do_config = True force_build = True else: force_build = False if self.builder.force_config_on_failure: if failed: do_config = True result.commit_upto = commit_upto if result.return_code < 0: raise ValueError('Interrupt') # We have the build results, so output the result self._WriteResult(result, job.keep_outputs) self.builder.out_queue.put(result) else: # Just build the currently checked-out build result, request_config = self.RunCommit(None, brd, work_dir, True, True, self.builder.force_build_failures) result.commit_upto = 0 self._WriteResult(result, job.keep_outputs) self.builder.out_queue.put(result) def run(self): """Our thread's run function This thread picks a job from the queue, runs it, and then goes to the next job. """ alive = True while True: job = self.builder.queue.get() if self.builder.active and alive: self.RunJob(job) ''' try: if self.builder.active and alive: self.RunJob(job) except Exception as err: alive = False print err ''' self.builder.queue.task_done() class Builder: """Class for building U-Boot for a particular commit. Public members: (many should ->private) active: True if the builder is active and has not been stopped already_done: Number of builds already completed base_dir: Base directory to use for builder checkout: True to check out source, False to skip that step. This is used for testing. col: terminal.Color() object count: Number of commits to build do_make: Method to call to invoke Make fail: Number of builds that failed due to error force_build: Force building even if a build already exists force_config_on_failure: If a commit fails for a board, disable incremental building for the next commit we build for that board, so that we will see all warnings/errors again. force_build_failures: If a previously-built build (i.e. built on a previous run of buildman) is marked as failed, rebuild it. git_dir: Git directory containing source repository last_line_len: Length of the last line we printed (used for erasing it with new progress information) num_jobs: Number of jobs to run at once (passed to make as -j) num_threads: Number of builder threads to run out_queue: Queue of results to process re_make_err: Compiled regular expression for ignore_lines queue: Queue of jobs to run threads: List of active threads toolchains: Toolchains object to use for building upto: Current commit number we are building (0.count-1) warned: Number of builds that produced at least one warning force_reconfig: Reconfigure U-Boot on each comiit. This disables incremental building, where buildman reconfigures on the first commit for a baord, and then just does an incremental build for the following commits. In fact buildman will reconfigure and retry for any failing commits, so generally the only effect of this option is to slow things down. in_tree: Build U-Boot in-tree instead of specifying an output directory separate from the source code. This option is really only useful for testing in-tree builds. Private members: _base_board_dict: Last-summarised Dict of boards _base_err_lines: Last-summarised list of errors _build_period_us: Time taken for a single build (float object). _complete_delay: Expected delay until completion (timedelta) _next_delay_update: Next time we plan to display a progress update (datatime) _show_unknown: Show unknown boards (those not built) in summary _timestamps: List of timestamps for the completion of the last last _timestamp_count builds. Each is a datetime object. _timestamp_count: Number of timestamps to keep in our list. _working_dir: Base working directory containing all threads """ class Outcome: """Records a build outcome for a single make invocation Public Members: rc: Outcome value (OUTCOME_...) err_lines: List of error lines or [] if none sizes: Dictionary of image size information, keyed by filename - Each value is itself a dictionary containing values for 'text', 'data' and 'bss', being the integer size in bytes of each section. func_sizes: Dictionary keyed by filename - e.g. 'u-boot'. Each value is itself a dictionary: key: function name value: Size of function in bytes """ def __init__(self, rc, err_lines, sizes, func_sizes): self.rc = rc self.err_lines = err_lines self.sizes = sizes self.func_sizes = func_sizes def __init__(self, toolchains, base_dir, git_dir, num_threads, num_jobs, gnu_make='make', checkout=True, show_unknown=True, step=1): """Create a new Builder object Args: toolchains: Toolchains object to use for building base_dir: Base directory to use for builder git_dir: Git directory containing source repository num_threads: Number of builder threads to run num_jobs: Number of jobs to run at once (passed to make as -j) gnu_make: the command name of GNU Make. checkout: True to check out source, False to skip that step. This is used for testing. show_unknown: Show unknown boards (those not built) in summary step: 1 to process every commit, n to process every nth commit """ self.toolchains = toolchains self.base_dir = base_dir self._working_dir = os.path.join(base_dir, '.bm-work') self.threads = [] self.active = True self.do_make = self.Make self.gnu_make = gnu_make self.checkout = checkout self.num_threads = num_threads self.num_jobs = num_jobs self.already_done = 0 self.force_build = False self.git_dir = git_dir self._show_unknown = show_unknown self._timestamp_count = 10 self._build_period_us = None self._complete_delay = None self._next_delay_update = datetime.now() self.force_config_on_failure = True self.force_build_failures = False self.force_reconfig = False self._step = step self.in_tree = False self.col = terminal.Color() self.queue = Queue.Queue() self.out_queue = Queue.Queue() for i in range(self.num_threads): t = BuilderThread(self, i) t.setDaemon(True) t.start() self.threads.append(t) self.last_line_len = 0 t = ResultThread(self) t.setDaemon(True) t.start() self.threads.append(t) ignore_lines = ['(make.*Waiting for unfinished)', '(Segmentation fault)'] self.re_make_err = re.compile('|'.join(ignore_lines)) def __del__(self): """Get rid of all threads created by the builder""" for t in self.threads: del t def _AddTimestamp(self): """Add a new timestamp to the list and record the build period. The build period is the length of time taken to perform a single build (one board, one commit). """ now = datetime.now() self._timestamps.append(now) count = len(self._timestamps) delta = self._timestamps[-1] - self._timestamps[0] seconds = delta.total_seconds() # If we have enough data, estimate build period (time taken for a # single build) and therefore completion time. if count > 1 and self._next_delay_update < now: self._next_delay_update = now + timedelta(seconds=2) if seconds > 0: self._build_period = float(seconds) / count todo = self.count - self.upto self._complete_delay = timedelta(microseconds= self._build_period * todo * 1000000) # Round it self._complete_delay -= timedelta( microseconds=self._complete_delay.microseconds) if seconds > 60: self._timestamps.popleft() count -= 1 def ClearLine(self, length): """Clear any characters on the current line Make way for a new line of length 'length', by outputting enough spaces to clear out the old line. Then remember the new length for next time. Args: length: Length of new line, in characters """ if length < self.last_line_len: print ' ' * (self.last_line_len - length), print '\r', self.last_line_len = length sys.stdout.flush() def SelectCommit(self, commit, checkout=True): """Checkout the selected commit for this build """ self.commit = commit if checkout and self.checkout: gitutil.Checkout(commit.hash) def Make(self, commit, brd, stage, cwd, *args, **kwargs): """Run make Args: commit: Commit object that is being built brd: Board object that is being built stage: Stage that we are at (distclean, config, build) cwd: Directory where make should be run args: Arguments to pass to make kwargs: Arguments to pass to command.RunPipe() """ cmd = [self.gnu_make] + list(args) result = command.RunPipe([cmd], capture=True, capture_stderr=True, cwd=cwd, raise_on_error=False, **kwargs) return result def ProcessResult(self, result): """Process the result of a build, showing progress information Args: result: A CommandResult object """ col = terminal.Color() if result: target = result.brd.target if result.return_code < 0: self.active = False command.StopAll() return self.upto += 1 if result.return_code != 0: self.fail += 1 elif result.stderr: self.warned += 1 if result.already_done: self.already_done += 1 else: target = '(starting)' # Display separate counts for ok, warned and fail ok = self.upto - self.warned - self.fail line = '\r' + self.col.Color(self.col.GREEN, '%5d' % ok) line += self.col.Color(self.col.YELLOW, '%5d' % self.warned) line += self.col.Color(self.col.RED, '%5d' % self.fail) name = ' /%-5d ' % self.count # Add our current completion time estimate self._AddTimestamp() if self._complete_delay: name += '%s : ' % self._complete_delay # When building all boards for a commit, we can print a commit # progress message. if result and result.commit_upto is None: name += 'commit %2d/%-3d' % (self.commit_upto + 1, self.commit_count) name += target print line + name, length = 13 + len(name) self.ClearLine(length) def _GetOutputDir(self, commit_upto): """Get the name of the output directory for a commit number The output directory is typically ...//. Args: commit_upto: Commit number to use (0..self.count-1) """ if self.commits: commit = self.commits[commit_upto] subject = commit.subject.translate(trans_valid_chars) commit_dir = ('%02d_of_%02d_g%s_%s' % (commit_upto + 1, self.commit_count, commit.hash, subject[:20])) else: commit_dir = 'current' output_dir = os.path.join(self.base_dir, commit_dir) return output_dir def GetBuildDir(self, commit_upto, target): """Get the name of the build directory for a commit number The build directory is typically ...///. Args: commit_upto: Commit number to use (0..self.count-1) target: Target name """ output_dir = self._GetOutputDir(commit_upto) return os.path.join(output_dir, target) def GetDoneFile(self, commit_upto, target): """Get the name of the done file for a commit number Args: commit_upto: Commit number to use (0..self.count-1) target: Target name """ return os.path.join(self.GetBuildDir(commit_upto, target), 'done') def GetSizesFile(self, commit_upto, target): """Get the name of the sizes file for a commit number Args: commit_upto: Commit number to use (0..self.count-1) target: Target name """ return os.path.join(self.GetBuildDir(commit_upto, target), 'sizes') def GetFuncSizesFile(self, commit_upto, target, elf_fname): """Get the name of the funcsizes file for a commit number and ELF file Args: commit_upto: Commit number to use (0..self.count-1) target: Target name elf_fname: Filename of elf image """ return os.path.join(self.GetBuildDir(commit_upto, target), '%s.sizes' % elf_fname.replace('/', '-')) def GetObjdumpFile(self, commit_upto, target, elf_fname): """Get the name of the objdump file for a commit number and ELF file Args: commit_upto: Commit number to use (0..self.count-1) target: Target name elf_fname: Filename of elf image """ return os.path.join(self.GetBuildDir(commit_upto, target), '%s.objdump' % elf_fname.replace('/', '-')) def GetErrFile(self, commit_upto, target): """Get the name of the err file for a commit number Args: commit_upto: Commit number to use (0..self.count-1) target: Target name """ output_dir = self.GetBuildDir(commit_upto, target) return os.path.join(output_dir, 'err') def FilterErrors(self, lines): """Filter out errors in which we have no interest We should probably use map(). Args: lines: List of error lines, each a string Returns: New list with only interesting lines included """ out_lines = [] for line in lines: if not self.re_make_err.search(line): out_lines.append(line) return out_lines def ReadFuncSizes(self, fname, fd): """Read function sizes from the output of 'nm' Args: fd: File containing data to read fname: Filename we are reading from (just for errors) Returns: Dictionary containing size of each function in bytes, indexed by function name. """ sym = {} for line in fd.readlines(): try: size, type, name = line[:-1].split() except: print "Invalid line in file '%s': '%s'" % (fname, line[:-1]) continue if type in 'tTdDbB': # function names begin with '.' on 64-bit powerpc if '.' in name[1:]: name = 'static.' + name.split('.')[0] sym[name] = sym.get(name, 0) + int(size, 16) return sym def GetBuildOutcome(self, commit_upto, target, read_func_sizes): """Work out the outcome of a build. Args: commit_upto: Commit number to check (0..n-1) target: Target board to check read_func_sizes: True to read function size information Returns: Outcome object """ done_file = self.GetDoneFile(commit_upto, target) sizes_file = self.GetSizesFile(commit_upto, target) sizes = {} func_sizes = {} if os.path.exists(done_file): with open(done_file, 'r') as fd: return_code = int(fd.readline()) err_lines = [] err_file = self.GetErrFile(commit_upto, target) if os.path.exists(err_file): with open(err_file, 'r') as fd: err_lines = self.FilterErrors(fd.readlines()) # Decide whether the build was ok, failed or created warnings if return_code: rc = OUTCOME_ERROR elif len(err_lines): rc = OUTCOME_WARNING else: rc = OUTCOME_OK # Convert size information to our simple format if os.path.exists(sizes_file): with open(sizes_file, 'r') as fd: for line in fd.readlines(): values = line.split() rodata = 0 if len(values) > 6: rodata = int(values[6], 16) size_dict = { 'all' : int(values[0]) + int(values[1]) + int(values[2]), 'text' : int(values[0]) - rodata, 'data' : int(values[1]), 'bss' : int(values[2]), 'rodata' : rodata, } sizes[values[5]] = size_dict if read_func_sizes: pattern = self.GetFuncSizesFile(commit_upto, target, '*') for fname in glob.glob(pattern): with open(fname, 'r') as fd: dict_name = os.path.basename(fname).replace('.sizes', '') func_sizes[dict_name] = self.ReadFuncSizes(fname, fd) return Builder.Outcome(rc, err_lines, sizes, func_sizes) return Builder.Outcome(OUTCOME_UNKNOWN, [], {}, {}) def GetResultSummary(self, boards_selected, commit_upto, read_func_sizes): """Calculate a summary of the results of building a commit. Args: board_selected: Dict containing boards to summarise commit_upto: Commit number to summarize (0..self.count-1) read_func_sizes: True to read function size information Returns: Tuple: Dict containing boards which passed building this commit. keyed by board.target List containing a summary of error/warning lines """ board_dict = {} err_lines_summary = [] for board in boards_selected.itervalues(): outcome = self.GetBuildOutcome(commit_upto, board.target, read_func_sizes) board_dict[board.target] = outcome for err in outcome.err_lines: if err and not err.rstrip() in err_lines_summary: err_lines_summary.append(err.rstrip()) return board_dict, err_lines_summary def AddOutcome(self, board_dict, arch_list, changes, char, color): """Add an output to our list of outcomes for each architecture This simple function adds failing boards (changes) to the relevant architecture string, so we can print the results out sorted by architecture. Args: board_dict: Dict containing all boards arch_list: Dict keyed by arch name. Value is a string containing a list of board names which failed for that arch. changes: List of boards to add to arch_list color: terminal.Colour object """ done_arch = {} for target in changes: if target in board_dict: arch = board_dict[target].arch else: arch = 'unknown' str = self.col.Color(color, ' ' + target) if not arch in done_arch: str = self.col.Color(color, char) + ' ' + str done_arch[arch] = True if not arch in arch_list: arch_list[arch] = str else: arch_list[arch] += str def ColourNum(self, num): color = self.col.RED if num > 0 else self.col.GREEN if num == 0: return '0' return self.col.Color(color, str(num)) def ResetResultSummary(self, board_selected): """Reset the results summary ready for use. Set up the base board list to be all those selected, and set the error lines to empty. Following this, calls to PrintResultSummary() will use this information to work out what has changed. Args: board_selected: Dict containing boards to summarise, keyed by board.target """ self._base_board_dict = {} for board in board_selected: self._base_board_dict[board] = Builder.Outcome(0, [], [], {}) self._base_err_lines = [] def PrintFuncSizeDetail(self, fname, old, new): grow, shrink, add, remove, up, down = 0, 0, 0, 0, 0, 0 delta, common = [], {} for a in old: if a in new: common[a] = 1 for name in old: if name not in common: remove += 1 down += old[name] delta.append([-old[name], name]) for name in new: if name not in common: add += 1 up += new[name] delta.append([new[name], name]) for name in common: diff = new.get(name, 0) - old.get(name, 0) if diff > 0: grow, up = grow + 1, up + diff elif diff < 0: shrink, down = shrink + 1, down - diff delta.append([diff, name]) delta.sort() delta.reverse() args = [add, -remove, grow, -shrink, up, -down, up - down] if max(args) == 0: return args = [self.ColourNum(x) for x in args] indent = ' ' * 15 print ('%s%s: add: %s/%s, grow: %s/%s bytes: %s/%s (%s)' % tuple([indent, self.col.Color(self.col.YELLOW, fname)] + args)) print '%s %-38s %7s %7s %+7s' % (indent, 'function', 'old', 'new', 'delta') for diff, name in delta: if diff: color = self.col.RED if diff > 0 else self.col.GREEN msg = '%s %-38s %7s %7s %+7d' % (indent, name, old.get(name, '-'), new.get(name,'-'), diff) print self.col.Color(color, msg) def PrintSizeDetail(self, target_list, show_bloat): """Show details size information for each board Args: target_list: List of targets, each a dict containing: 'target': Target name 'total_diff': Total difference in bytes across all areas : Difference for that part show_bloat: Show detail for each function """ targets_by_diff = sorted(target_list, reverse=True, key=lambda x: x['_total_diff']) for result in targets_by_diff: printed_target = False for name in sorted(result): diff = result[name] if name.startswith('_'): continue if diff != 0: color = self.col.RED if diff > 0 else self.col.GREEN msg = ' %s %+d' % (name, diff) if not printed_target: print '%10s %-15s:' % ('', result['_target']), printed_target = True print self.col.Color(color, msg), if printed_target: print if show_bloat: target = result['_target'] outcome = result['_outcome'] base_outcome = self._base_board_dict[target] for fname in outcome.func_sizes: self.PrintFuncSizeDetail(fname, base_outcome.func_sizes[fname], outcome.func_sizes[fname]) def PrintSizeSummary(self, board_selected, board_dict, show_detail, show_bloat): """Print a summary of image sizes broken down by section. The summary takes the form of one line per architecture. The line contains deltas for each of the sections (+ means the section got bigger, - means smaller). The nunmbers are the average number of bytes that a board in this section increased by. For example: powerpc: (622 boards) text -0.0 arm: (285 boards) text -0.0 nds32: (3 boards) text -8.0 Args: board_selected: Dict containing boards to summarise, keyed by board.target board_dict: Dict containing boards for which we built this commit, keyed by board.target. The value is an Outcome object. show_detail: Show detail for each board show_bloat: Show detail for each function """ arch_list = {} arch_count = {} # Calculate changes in size for different image parts # The previous sizes are in Board.sizes, for each board for target in board_dict: if target not in board_selected: continue base_sizes = self._base_board_dict[target].sizes outcome = board_dict[target] sizes = outcome.sizes # Loop through the list of images, creating a dict of size # changes for each image/part. We end up with something like # {'target' : 'snapper9g45, 'data' : 5, 'u-boot-spl:text' : -4} # which means that U-Boot data increased by 5 bytes and SPL # text decreased by 4. err = {'_target' : target} for image in sizes: if image in base_sizes: base_image = base_sizes[image] # Loop through the text, data, bss parts for part in sorted(sizes[image]): diff = sizes[image][part] - base_image[part] col = None if diff: if image == 'u-boot': name = part else: name = image + ':' + part err[name] = diff arch = board_selected[target].arch if not arch in arch_count: arch_count[arch] = 1 else: arch_count[arch] += 1 if not sizes: pass # Only add to our list when we have some stats elif not arch in arch_list: arch_list[arch] = [err] else: arch_list[arch].append(err) # We now have a list of image size changes sorted by arch # Print out a summary of these for arch, target_list in arch_list.iteritems(): # Get total difference for each type totals = {} for result in target_list: total = 0 for name, diff in result.iteritems(): if name.startswith('_'): continue total += diff if name in totals: totals[name] += diff else: totals[name] = diff result['_total_diff'] = total result['_outcome'] = board_dict[result['_target']] count = len(target_list) printed_arch = False for name in sorted(totals): diff = totals[name] if diff: # Display the average difference in this name for this # architecture avg_diff = float(diff) / count color = self.col.RED if avg_diff > 0 else self.col.GREEN msg = ' %s %+1.1f' % (name, avg_diff) if not printed_arch: print '%10s: (for %d/%d boards)' % (arch, count, arch_count[arch]), printed_arch = True print self.col.Color(color, msg), if printed_arch: print if show_detail: self.PrintSizeDetail(target_list, show_bloat) def PrintResultSummary(self, board_selected, board_dict, err_lines, show_sizes, show_detail, show_bloat): """Compare results with the base results and display delta. Only boards mentioned in board_selected will be considered. This function is intended to be called repeatedly with the results of each commit. It therefore shows a 'diff' between what it saw in the last call and what it sees now. Args: board_selected: Dict containing boards to summarise, keyed by board.target board_dict: Dict containing boards for which we built this commit, keyed by board.target. The value is an Outcome object. err_lines: A list of errors for this commit, or [] if there is none, or we don't want to print errors show_sizes: Show image size deltas show_detail: Show detail for each board show_bloat: Show detail for each function """ better = [] # List of boards fixed since last commit worse = [] # List of new broken boards since last commit new = [] # List of boards that didn't exist last time unknown = [] # List of boards that were not built for target in board_dict: if target not in board_selected: continue # If the board was built last time, add its outcome to a list if target in self._base_board_dict: base_outcome = self._base_board_dict[target].rc outcome = board_dict[target] if outcome.rc == OUTCOME_UNKNOWN: unknown.append(target) elif outcome.rc < base_outcome: better.append(target) elif outcome.rc > base_outcome: worse.append(target) else: new.append(target) # Get a list of errors that have appeared, and disappeared better_err = [] worse_err = [] for line in err_lines: if line not in self._base_err_lines: worse_err.append('+' + line) for line in self._base_err_lines: if line not in err_lines: better_err.append('-' + line) # Display results by arch if better or worse or unknown or new or worse_err or better_err: arch_list = {} self.AddOutcome(board_selected, arch_list, better, '', self.col.GREEN) self.AddOutcome(board_selected, arch_list, worse, '+', self.col.RED) self.AddOutcome(board_selected, arch_list, new, '*', self.col.BLUE) if self._show_unknown: self.AddOutcome(board_selected, arch_list, unknown, '?', self.col.MAGENTA) for arch, target_list in arch_list.iteritems(): print '%10s: %s' % (arch, target_list) if better_err: print self.col.Color(self.col.GREEN, '\n'.join(better_err)) if worse_err: print self.col.Color(self.col.RED, '\n'.join(worse_err)) if show_sizes: self.PrintSizeSummary(board_selected, board_dict, show_detail, show_bloat) # Save our updated information for the next call to this function self._base_board_dict = board_dict self._base_err_lines = err_lines # Get a list of boards that did not get built, if needed not_built = [] for board in board_selected: if not board in board_dict: not_built.append(board) if not_built: print "Boards not built (%d): %s" % (len(not_built), ', '.join(not_built)) def ShowSummary(self, commits, board_selected, show_errors, show_sizes, show_detail, show_bloat): """Show a build summary for U-Boot for a given board list. Reset the result summary, then repeatedly call GetResultSummary on each commit's results, then display the differences we see. Args: commit: Commit objects to summarise board_selected: Dict containing boards to summarise show_errors: Show errors that occured show_sizes: Show size deltas show_detail: Show detail for each board show_bloat: Show detail for each function """ self.commit_count = len(commits) if commits else 1 self.commits = commits self.ResetResultSummary(board_selected) for commit_upto in range(0, self.commit_count, self._step): board_dict, err_lines = self.GetResultSummary(board_selected, commit_upto, read_func_sizes=show_bloat) if commits: msg = '%02d: %s' % (commit_upto + 1, commits[commit_upto].subject) else: msg = 'current' print self.col.Color(self.col.BLUE, msg) self.PrintResultSummary(board_selected, board_dict, err_lines if show_errors else [], show_sizes, show_detail, show_bloat) def SetupBuild(self, board_selected, commits): """Set up ready to start a build. Args: board_selected: Selected boards to build commits: Selected commits to build """ # First work out how many commits we will build count = (self.commit_count + self._step - 1) / self._step self.count = len(board_selected) * count self.upto = self.warned = self.fail = 0 self._timestamps = collections.deque() def BuildBoardsForCommit(self, board_selected, keep_outputs): """Build all boards for a single commit""" self.SetupBuild(board_selected) self.count = len(board_selected) for brd in board_selected.itervalues(): job = BuilderJob() job.board = brd job.commits = None job.keep_outputs = keep_outputs self.queue.put(brd) self.queue.join() self.out_queue.join() print self.ClearLine(0) def BuildCommits(self, commits, board_selected, show_errors, keep_outputs): """Build all boards for all commits (non-incremental)""" self.commit_count = len(commits) self.ResetResultSummary(board_selected) for self.commit_upto in range(self.commit_count): self.SelectCommit(commits[self.commit_upto]) self.SelectOutputDir() Mkdir(self.output_dir) self.BuildBoardsForCommit(board_selected, keep_outputs) board_dict, err_lines = self.GetResultSummary() self.PrintResultSummary(board_selected, board_dict, err_lines if show_errors else []) if self.already_done: print '%d builds already done' % self.already_done def GetThreadDir(self, thread_num): """Get the directory path to the working dir for a thread. Args: thread_num: Number of thread to check. """ return os.path.join(self._working_dir, '%02d' % thread_num) def _PrepareThread(self, thread_num, setup_git): """Prepare the working directory for a thread. This clones or fetches the repo into the thread's work directory. Args: thread_num: Thread number (0, 1, ...) setup_git: True to set up a git repo clone """ thread_dir = self.GetThreadDir(thread_num) Mkdir(thread_dir) git_dir = os.path.join(thread_dir, '.git') # Clone the repo if it doesn't already exist # TODO(sjg@chromium): Perhaps some git hackery to symlink instead, so # we have a private index but uses the origin repo's contents? if setup_git and self.git_dir: src_dir = os.path.abspath(self.git_dir) if os.path.exists(git_dir): gitutil.Fetch(git_dir, thread_dir) else: print 'Cloning repo for thread %d' % thread_num gitutil.Clone(src_dir, thread_dir) def _PrepareWorkingSpace(self, max_threads, setup_git): """Prepare the working directory for use. Set up the git repo for each thread. Args: max_threads: Maximum number of threads we expect to need. setup_git: True to set up a git repo clone """ Mkdir(self._working_dir) for thread in range(max_threads): self._PrepareThread(thread, setup_git) def _PrepareOutputSpace(self): """Get the output directories ready to receive files. We delete any output directories which look like ones we need to create. Having left over directories is confusing when the user wants to check the output manually. """ dir_list = [] for commit_upto in range(self.commit_count): dir_list.append(self._GetOutputDir(commit_upto)) for dirname in glob.glob(os.path.join(self.base_dir, '*')): if dirname not in dir_list: shutil.rmtree(dirname) def BuildBoards(self, commits, board_selected, show_errors, keep_outputs): """Build all commits for a list of boards Args: commits: List of commits to be build, each a Commit object boards_selected: Dict of selected boards, key is target name, value is Board object show_errors: True to show summarised error/warning info keep_outputs: True to save build output files """ self.commit_count = len(commits) if commits else 1 self.commits = commits self.ResetResultSummary(board_selected) Mkdir(self.base_dir) self._PrepareWorkingSpace(min(self.num_threads, len(board_selected)), commits is not None) self._PrepareOutputSpace() self.SetupBuild(board_selected, commits) self.ProcessResult(None) # Create jobs to build all commits for each board for brd in board_selected.itervalues(): job = BuilderJob() job.board = brd job.commits = commits job.keep_outputs = keep_outputs job.step = self._step self.queue.put(job) # Wait until all jobs are started self.queue.join() # Wait until we have processed all output self.out_queue.join() print self.ClearLine(0)