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diff --git a/qemu/roms/u-boot/tools/buildman/builder.py b/qemu/roms/u-boot/tools/buildman/builder.py
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+# Copyright (c) 2013 The Chromium OS Authors.
+#
+# Bloat-o-meter code used here Copyright 2004 Matt Mackall <mpm@selenic.com>
+#
+# 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 '../<branch>', 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):
+ """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 <board>_config on the source
+ force_build: Force a build even if one was previously done
+
+ 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
+ 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)
+ if result.already_done and not force_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'
+ else:
+ # 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 commit_upto is not None:
+ 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 = self.builder.commit # Ick, fix this for BuildCommits()
+
+ # Set up the environment and command line
+ env = self.toolchain.MakeEnvironment()
+ Mkdir(out_dir)
+ args = ['O=build', '-s']
+ if self.builder.num_jobs is not None:
+ args.extend(['-j', str(self.builder.num_jobs)])
+ config_args = ['%s_config' % 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', work_dir,
+ 'distclean', *args, env=env)
+ result = self.Make(commit, brd, 'config', work_dir,
+ *(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', work_dir, *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_config' 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)
+ failed = result.return_code or result.stderr
+ 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)
+ 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 do_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 = self.RunCommit(None, True)
+ result.commit_upto = self.builder.upto
+ 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()
+ 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.
+ 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
+
+ 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,
+ 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)
+ 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.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._step = step
+
+ 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 = ['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 .../<branch>/<commit>.
+
+ Args:
+ commit_upto: Commit number to use (0..self.count-1)
+ """
+ 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]))
+ 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 .../<branch>/<commit>/<target>.
+
+ 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
+ <part_name>: 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)
+ 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)
+ msg = '%02d: %s' % (commit_upto + 1, commits[commit_upto].subject)
+ 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 = (len(commits) + 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):
+ """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, ...)
+ """
+ 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 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):
+ """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.
+ """
+ Mkdir(self._working_dir)
+ for thread in range(max_threads):
+ self._PrepareThread(thread)
+
+ 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)
+ self.commits = commits
+
+ self.ResetResultSummary(board_selected)
+ Mkdir(self.base_dir)
+ self._PrepareWorkingSpace(min(self.num_threads, len(board_selected)))
+ 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)