#!/usr/bin/env python """ script to build the latest binaries for each vehicle type, ready to upload Peter Barker, August 2017 based on build_binaries.sh by Andrew Tridgell, March 2013 AP_FLAKE8_CLEAN """ from __future__ import print_function import datetime import optparse import os import re import shutil import time import string import subprocess import sys import traceback # local imports import generate_manifest import gen_stable import build_binaries_history import board_list from board_list import AP_PERIPH_BOARDS if sys.version_info[0] < 3: running_python3 = False else: running_python3 = True def is_chibios_build(board): '''see if a board is using HAL_ChibiOS''' # cope with both running from Tools/scripts or running from cwd hwdef_dir = os.path.join(os.path.dirname(os.path.abspath(__file__)), "..", "..", "libraries", "AP_HAL_ChibiOS", "hwdef") if os.path.exists(os.path.join(hwdef_dir, board, "hwdef.dat")): return True hwdef_dir = os.path.join("libraries", "AP_HAL_ChibiOS", "hwdef") if os.path.exists(os.path.join(hwdef_dir, board, "hwdef.dat")): return True return False def get_required_compiler(vehicle, tag, board): '''return required compiler for a build tag. return format is the version string that waf configure will detect. You should setup a link from this name in $HOME/arm-gcc directory pointing at the appropriate compiler ''' if not is_chibios_build(board): # only override compiler for ChibiOS builds return None # use 10.2.1 compiler for all other builds return "g++-10.2.1" class build_binaries(object): def __init__(self, tags): self.tags = tags self.dirty = False self.board_list = board_list.BoardList() def progress(self, string): '''pretty-print progress''' print("BB: %s" % string) def run_git(self, args): '''run git with args git_args; returns git's output''' cmd_list = ["git"] cmd_list.extend(args) return self.run_program("BB-GIT", cmd_list) def board_branch_bit(self, board): '''return a fragment which might modify the branch name. this was previously used to have a master-AVR branch etc if the board type was apm1 or apm2''' return None def board_options(self, board): '''return board-specific options''' if board in ["bebop", "disco"]: return ["--static"] return [] def run_waf(self, args, compiler=None): if os.path.exists("waf"): waf = "./waf" else: waf = os.path.join(".", "modules", "waf", "waf-light") cmd_list = [waf] cmd_list.extend(args) env = None if compiler is not None: # default to $HOME/arm-gcc, but allow for any path with AP_GCC_HOME environment variable gcc_home = os.environ.get("AP_GCC_HOME", os.path.join(os.environ["HOME"], "arm-gcc")) gcc_path = os.path.join(gcc_home, compiler, "bin") if os.path.exists(gcc_path): # setup PATH to point at the right compiler, and setup to use ccache env = os.environ.copy() env["PATH"] = gcc_path + ":" + env["PATH"] env["CC"] = "ccache arm-none-eabi-gcc" env["CXX"] = "ccache arm-none-eabi-g++" else: raise Exception("BB-WAF: Missing compiler %s" % gcc_path) self.run_program("BB-WAF", cmd_list, env=env) def run_program(self, prefix, cmd_list, show_output=True, env=None, force_success=False): if show_output: self.progress("Running (%s)" % " ".join(cmd_list)) p = subprocess.Popen(cmd_list, bufsize=1, stdin=None, stdout=subprocess.PIPE, close_fds=True, stderr=subprocess.STDOUT, env=env) output = "" while True: x = p.stdout.readline() if len(x) == 0: returncode = os.waitpid(p.pid, 0) if returncode: break # select not available on Windows... probably... time.sleep(0.1) continue if running_python3: x = bytearray(x) x = filter(lambda x : chr(x) in string.printable, x) x = "".join([chr(c) for c in x]) output += x x = x.rstrip() if show_output: print("%s: %s" % (prefix, x)) (_, status) = returncode if status != 0 and not force_success: self.progress("Process failed (%s)" % str(returncode)) raise subprocess.CalledProcessError( returncode, cmd_list) return output def run_make(self, args): cmd_list = ["make"] cmd_list.extend(args) self.run_program("BB-MAKE", cmd_list) def run_git_update_submodules(self): '''if submodules are present initialise and update them''' if os.path.exists(os.path.join(self.basedir, ".gitmodules")): self.run_git(["submodule", "update", "--init", "--recursive", "-f"]) def checkout(self, vehicle, ctag, cboard=None, cframe=None, submodule_update=True): '''attempt to check out a git tree. Various permutations are attempted based on ctag - for examplle, if the board is avr and ctag is bob we will attempt to checkout bob-AVR''' if self.dirty: self.progress("Skipping checkout for dirty build") return True self.progress("Trying checkout %s %s %s %s" % (vehicle, ctag, cboard, cframe)) self.run_git(['stash']) if ctag == "latest": vtag = "master" else: tagvehicle = vehicle if tagvehicle == "Rover": # FIXME: Rover tags in git still named APMrover2 :-( tagvehicle = "APMrover2" vtag = "%s-%s" % (tagvehicle, ctag) branches = [] if cframe is not None: # try frame specific tag branches.append("%s-%s" % (vtag, cframe)) if cboard is not None: bbb = self.board_branch_bit(cboard) if bbb is not None: # try board type specific branch extension branches.append("".join([vtag, bbb])) branches.append(vtag) for branch in branches: try: self.progress("Trying branch %s" % branch) self.run_git(["checkout", "-f", branch]) if submodule_update: self.run_git_update_submodules() self.run_git(["log", "-1"]) return True except subprocess.CalledProcessError: self.progress("Checkout branch %s failed" % branch) self.progress("Failed to find tag for %s %s %s %s" % (vehicle, ctag, cboard, cframe)) return False def skip_board_waf(self, board): '''check if we should skip this build because we do not support the board in this release ''' try: out = self.run_program( 'waf', ['./waf', 'configure', '--board=BOARDTEST'], show_output=False, force_success=True ) lines = out.split('\n') needles = ["BOARDTEST' (choose from", "BOARDTEST': choices are"] for line in lines: for needle in needles: idx = line.find(needle) if idx != -1: break if idx != -1: line = line[idx+len(needle):-1] line = line.replace("'", "") line = line.replace(" ", "") boards = line.split(",") ret = board not in boards if ret: self.progress("Skipping board (%s) - not in board list" % board) return ret except IOError as e: if e.errno != 2: raise self.progress("Skipping unsupported board %s" % (board,)) return True def skip_frame(self, board, frame): '''returns true if this board/frame combination should not be built''' if frame == "heli": if board in ["bebop", "aerofc-v1", "skyviper-v2450", "CubeSolo", "CubeGreen-solo", 'skyviper-journey']: self.progress("Skipping heli build for %s" % board) return True return False def first_line_of_filepath(self, filepath): '''returns the first (text) line from filepath''' with open(filepath) as fh: line = fh.readline() return line def skip_build(self, buildtag, builddir): '''check if we should skip this build because we have already built this version ''' if os.getenv("FORCE_BUILD", False): return False if not os.path.exists(os.path.join(self.basedir, '.gitmodules')): self.progress("Skipping build without submodules") return True bname = os.path.basename(builddir) ldir = os.path.join(os.path.dirname(os.path.dirname( os.path.dirname(builddir))), buildtag, bname) # FIXME: WTF oldversion_filepath = os.path.join(ldir, "git-version.txt") if not os.path.exists(oldversion_filepath): self.progress("%s doesn't exist - building" % oldversion_filepath) return False oldversion = self.first_line_of_filepath(oldversion_filepath) newversion = self.run_git(["log", "-1"]) newversion = newversion.splitlines()[0] oldversion = oldversion.rstrip() newversion = newversion.rstrip() self.progress("oldversion=%s newversion=%s" % (oldversion, newversion,)) if oldversion == newversion: self.progress("Skipping build - version match (%s)" % (newversion,)) return True self.progress("%s needs rebuild" % (ldir,)) return False def write_string_to_filepath(self, string, filepath): '''writes the entirety of string to filepath''' with open(filepath, "w") as x: x.write(string) def version_h_path(self, src): '''return path to version.h''' if src == 'AP_Periph': return os.path.join('Tools', src, "version.h") return os.path.join(src, "version.h") def addfwversion_gitversion(self, destdir, src): # create git-version.txt: gitlog = self.run_git(["log", "-1"]) gitversion_filepath = os.path.join(destdir, "git-version.txt") gitversion_content = gitlog versionfile = self.version_h_path(src) if os.path.exists(versionfile): content = self.read_string_from_filepath(versionfile) match = re.search('define.THISFIRMWARE "([^"]+)"', content) if match is None: self.progress("Failed to retrieve THISFIRMWARE from version.h") self.progress("Content: (%s)" % content) self.progress("Writing version info to %s" % (gitversion_filepath,)) gitversion_content += "\nAPMVERSION: %s\n" % (match.group(1)) else: self.progress("%s does not exist" % versionfile) self.write_string_to_filepath(gitversion_content, gitversion_filepath) def addfwversion_firmwareversiontxt(self, destdir, src): # create firmware-version.txt versionfile = self.version_h_path(src) if not os.path.exists(versionfile): self.progress("%s does not exist" % (versionfile,)) return ss = r".*define +FIRMWARE_VERSION[ ]+(?P\d+)[ ]*,[ ]*" \ r"(?P\d+)[ ]*,[ ]*(?P\d+)[ ]*,[ ]*" \ r"(?P[A-Z_]+)[ ]*" content = self.read_string_from_filepath(versionfile) match = re.search(ss, content) if match is None: self.progress("Failed to retrieve FIRMWARE_VERSION from version.h") self.progress("Content: (%s)" % content) return ver = "%d.%d.%d-%s\n" % (int(match.group("major")), int(match.group("minor")), int(match.group("point")), match.group("type")) firmware_version_filepath = "firmware-version.txt" self.progress("Writing version (%s) to %s" % (ver, firmware_version_filepath,)) self.write_string_to_filepath( ver, os.path.join(destdir, firmware_version_filepath)) def addfwversion(self, destdir, src): '''write version information into destdir''' self.addfwversion_gitversion(destdir, src) self.addfwversion_firmwareversiontxt(destdir, src) def read_string_from_filepath(self, filepath): '''returns content of filepath as a string''' with open(filepath, 'rb') as fh: content = fh.read() if running_python3: return content.decode('ascii') return content def string_in_filepath(self, string, filepath): '''returns true if string exists in the contents of filepath''' return string in self.read_string_from_filepath(filepath) def mkpath(self, path): '''make directory path and all elements leading to it''' '''distutils.dir_util.mkpath was playing up''' try: os.makedirs(path) except OSError as e: if e.errno != 17: # EEXIST raise e def touch_filepath(self, filepath): '''creates a file at filepath, or updates the timestamp on filepath''' if os.path.exists(filepath): os.utime(filepath, None) else: with open(filepath, "a"): pass def build_vehicle(self, tag, vehicle, boards, vehicle_binaries_subdir, binaryname, frames=[None]): '''build vehicle binaries''' self.progress("Building %s %s binaries (cwd=%s)" % (vehicle, tag, os.getcwd())) board_count = len(boards) count = 0 for board in sorted(boards, key=str.lower): now = datetime.datetime.now() count += 1 self.progress("[%u/%u] Building board: %s at %s" % (count, board_count, board, str(now))) for frame in frames: if frame is not None: self.progress("Considering frame %s for board %s" % (frame, board)) if frame is None: framesuffix = "" else: framesuffix = "-%s" % frame if not self.checkout(vehicle, tag, board, frame, submodule_update=False): msg = ("Failed checkout of %s %s %s %s" % (vehicle, board, tag, frame,)) self.progress(msg) self.error_strings.append(msg) continue self.progress("Building %s %s %s binaries %s" % (vehicle, tag, board, frame)) ddir = os.path.join(self.binaries, vehicle_binaries_subdir, self.hdate_ym, self.hdate_ymdhm, "".join([board, framesuffix])) if self.skip_build(tag, ddir): continue if self.skip_frame(board, frame): continue # we do the submodule update after the skip_board_waf check to avoid doing it on # builds we will not be running self.run_git_update_submodules() if self.skip_board_waf(board): continue if os.path.exists(self.buildroot): shutil.rmtree(self.buildroot) self.remove_tmpdir() githash = self.run_git(["rev-parse", "HEAD"]).rstrip() t0 = time.time() self.progress("Configuring for %s in %s" % (board, self.buildroot)) try: waf_opts = ["configure", "--board", board, "--out", self.buildroot, "clean"] gccstring = get_required_compiler(vehicle, tag, board) if gccstring is not None and gccstring.find("g++-6.3") == -1: # versions using the old compiler don't have the --assert-cc-version option waf_opts += ["--assert-cc-version", gccstring] waf_opts.extend(self.board_options(board)) self.run_waf(waf_opts, compiler=gccstring) except subprocess.CalledProcessError: self.progress("waf configure failed") continue time_taken_to_configure = time.time() - t0 try: target = os.path.join("bin", "".join([binaryname, framesuffix])) self.run_waf(["build", "--targets", target], compiler=gccstring) except subprocess.CalledProcessError: msg = ("Failed build of %s %s%s %s" % (vehicle, board, framesuffix, tag)) self.progress(msg) self.error_strings.append(msg) # record some history about this build t1 = time.time() time_taken_to_build = t1-t0 self.history.record_build(githash, tag, vehicle, board, frame, None, t0, time_taken_to_build) continue time_taken_to_build = (time.time()-t0) - time_taken_to_configure time_taken = time.time()-t0 self.progress("Making %s %s %s %s took %u seconds (configure=%u build=%u)" % (vehicle, tag, board, frame, time_taken, time_taken_to_configure, time_taken_to_build)) bare_path = os.path.join(self.buildroot, board, "bin", "".join([binaryname, framesuffix])) files_to_copy = [] extensions = [".apj", ".abin", "_with_bl.hex", ".hex"] if vehicle == 'AP_Periph': # need bin file for uavcan-gui-tool and MissionPlanner extensions.append('.bin') for extension in extensions: filepath = "".join([bare_path, extension]) if os.path.exists(filepath): files_to_copy.append((filepath, os.path.basename(filepath))) if not os.path.exists(bare_path): raise Exception("No elf file?!") # only rename the elf if we have have other files to # copy. So linux gets "arducopter" and stm32 gets # "arducopter.elf" target_elf_filename = os.path.basename(bare_path) if len(files_to_copy) > 0: target_elf_filename += ".elf" files_to_copy.append((bare_path, target_elf_filename)) for (path, target_filename) in files_to_copy: try: '''copy path into various places, adding metadata''' bname = os.path.basename(ddir) tdir = os.path.join(os.path.dirname(os.path.dirname( os.path.dirname(ddir))), tag, bname) if tag == "latest": # we keep a permanent archive of all # "latest" builds, their path including a # build timestamp: if not os.path.exists(ddir): self.mkpath(ddir) self.addfwversion(ddir, vehicle) self.progress("Copying %s to %s" % (path, ddir,)) shutil.copy(path, os.path.join(ddir, target_filename)) # the most recent build of every tag is kept around: self.progress("Copying %s to %s" % (path, tdir)) if not os.path.exists(tdir): self.mkpath(tdir) # must addfwversion even if path already # exists as we re-use the "beta" directories self.addfwversion(tdir, vehicle) shutil.copy(path, os.path.join(tdir, target_filename)) except Exception as e: self.print_exception_caught(e) self.progress("Failed to copy %s to %s: %s" % (path, ddir, str(e))) # why is touching this important? -pb20170816 self.touch_filepath(os.path.join(self.binaries, vehicle_binaries_subdir, tag)) # record some history about this build self.history.record_build(githash, tag, vehicle, board, frame, bare_path, t0, time_taken_to_build) self.checkout(vehicle, "latest") def get_exception_stacktrace(self, e): if sys.version_info[0] >= 3: ret = "%s\n" % e ret += ''.join(traceback.format_exception(type(e), e, tb=e.__traceback__)) return ret # Python2: return traceback.format_exc(e) def print_exception_caught(self, e, send_statustext=True): self.progress("Exception caught: %s" % self.get_exception_stacktrace(e)) def AP_Periph_boards(self): return AP_PERIPH_BOARDS def build_arducopter(self, tag): '''build Copter binaries''' boards = [] boards.extend(["aerofc-v1", "bebop"]) boards.extend(self.board_list.find_autobuild_boards('Copter')) self.build_vehicle(tag, "ArduCopter", boards, "Copter", "arducopter", frames=[None, "heli"]) def build_arduplane(self, tag): '''build Plane binaries''' boards = self.board_list.find_autobuild_boards('Plane')[:] boards.append("disco") self.build_vehicle(tag, "ArduPlane", boards, "Plane", "arduplane") def build_antennatracker(self, tag): '''build Tracker binaries''' self.build_vehicle(tag, "AntennaTracker", self.board_list.find_autobuild_boards('Tracker')[:], "AntennaTracker", "antennatracker") def build_rover(self, tag): '''build Rover binaries''' self.build_vehicle(tag, "Rover", self.board_list.find_autobuild_boards('Rover')[:], "Rover", "ardurover") def build_ardusub(self, tag): '''build Sub binaries''' self.build_vehicle(tag, "ArduSub", self.board_list.find_autobuild_boards('Sub')[:], "Sub", "ardusub") def build_AP_Periph(self, tag): '''build AP_Periph binaries''' boards = self.AP_Periph_boards() self.build_vehicle(tag, "AP_Periph", boards, "AP_Periph", "AP_Periph") def build_blimp(self, tag): '''build Blimp binaries''' self.build_vehicle(tag, "Blimp", self.board_list.find_autobuild_boards('Blimp')[:], "Blimp", "blimp") def generate_manifest(self): '''generate manigest files for GCS to download''' self.progress("Generating manifest") base_url = 'https://firmware.ardupilot.org' generator = generate_manifest.ManifestGenerator(self.binaries, base_url) generator.run() generator.write_manifest_json(os.path.join(self.binaries, "manifest.json")) self.progress("Manifest generation successful") self.progress("Generating stable releases") gen_stable.make_all_stable(self.binaries) self.progress("Generate stable releases done") def validate(self): '''run pre-run validation checks''' if "dirty" in self.tags: if len(self.tags) > 1: raise ValueError("dirty must be only tag if present (%s)" % (str(self.tags))) self.dirty = True def remove_tmpdir(self): if os.path.exists(self.tmpdir): self.progress("Removing (%s)" % (self.tmpdir,)) shutil.rmtree(self.tmpdir) def buildlogs_dirpath(self): return os.getenv("BUILDLOGS", os.path.join(os.getcwd(), "..", "buildlogs")) def run(self): self.validate() self.mkpath(self.buildlogs_dirpath()) binaries_history_filepath = os.path.join( self.buildlogs_dirpath(), "build_binaries_history.sqlite") self.history = build_binaries_history.BuildBinariesHistory(binaries_history_filepath) prefix_bin_dirpath = os.path.join(os.environ.get('HOME'), "prefix", "bin") origin_env_path = os.environ.get("PATH") os.environ["PATH"] = ':'.join([prefix_bin_dirpath, origin_env_path, "/bin", "/usr/bin"]) if 'BUILD_BINARIES_PATH' in os.environ: self.tmpdir = os.environ['BUILD_BINARIES_PATH'] else: self.tmpdir = os.path.join(os.getcwd(), 'build.tmp.binaries') os.environ["TMPDIR"] = self.tmpdir print(self.tmpdir) self.remove_tmpdir() self.progress("Building in %s" % self.tmpdir) now = datetime.datetime.now() self.progress(now) if not self.dirty: self.run_git(["checkout", "-f", "master"]) githash = self.run_git(["rev-parse", "HEAD"]) githash = githash.rstrip() self.progress("git hash: %s" % str(githash)) self.hdate_ym = now.strftime("%Y-%m") self.hdate_ymdhm = now.strftime("%Y-%m-%d-%H:%m") self.mkpath(os.path.join("binaries", self.hdate_ym, self.hdate_ymdhm)) self.binaries = os.path.join(self.buildlogs_dirpath(), "binaries") self.basedir = os.getcwd() self.error_strings = [] if not self.dirty: self.run_git_update_submodules() self.buildroot = os.path.join(os.environ.get("TMPDIR"), "binaries.build") for tag in self.tags: t0 = time.time() self.build_arducopter(tag) self.build_arduplane(tag) self.build_rover(tag) self.build_antennatracker(tag) self.build_ardusub(tag) self.build_AP_Periph(tag) self.build_blimp(tag) self.history.record_run(githash, tag, t0, time.time()-t0) if os.path.exists(self.tmpdir): shutil.rmtree(self.tmpdir) self.generate_manifest() for error_string in self.error_strings: self.progress("%s" % error_string) sys.exit(len(self.error_strings)) if __name__ == '__main__': parser = optparse.OptionParser("build_binaries.py") parser.add_option("", "--tags", action="append", type="string", default=[], help="tags to build") cmd_opts, cmd_args = parser.parse_args() tags = cmd_opts.tags if len(tags) == 0: # FIXME: wedge this defaulting into parser somehow tags = ["stable", "beta", "latest"] bb = build_binaries(tags) bb.run()