ardupilot/Tools/scripts/generate_manifest.py

681 lines
28 KiB
Python
Executable File

#!/usr/bin/env python
from __future__ import print_function
import copy
import fnmatch
import gen_stable
import gzip
import json
import os
import re
import subprocess
import shutil
import sys
if sys.version_info[0] < 3:
running_python3 = False
running_python310 = False
elif sys.version_info[1] < 10:
running_python3 = True
running_python310 = False
else:
running_python3 = True
running_python310 = True
FIRMWARE_TYPES = ["AntennaTracker", "Copter", "Plane", "Rover", "Sub", "AP_Periph", "Blimp"]
RELEASE_TYPES = ["beta", "beta-4.3", "latest", "stable", "stable-*", "dirty"]
# mapping for board names to brand name and manufacturer
brand_map = {
'Pixhawk4' : ('Pixhawk 4', 'Holybro'),
'Pixhawk4-bdshot' : ('Pixhawk 4', 'Holybro'),
'Pix32v5' : ('Pix32 v5', 'Holybro'),
'Durandal' : ('Durandal', 'Holybro'),
'Durandal-bdshot' : ('Durandal', 'Holybro'),
'PH4-mini' : ('Pixhawk 4 Mini', 'Holybro'),
'KakuteF4' : ('KakuteF4', 'Holybro'),
'KakuteF7' : ('KakuteF7', 'Holybro'),
'KakuteF7Mini' : ('KakuteF7Mini', 'Holybro'),
'KakuteF4Mini' : ('KakuteF4Mini', 'Holybro'),
'KakuteH7Mini' : ('KakuteH7Mini', 'Holybro'),
'KakuteH7Mini-Nand' : ('KakuteH7Mini-Nand', 'Holybro'),
'KakuteH7' : ('KakuteH7', 'Holybro'),
'KakuteH7-bdshot' : ('KakuteH7', 'Holybro'),
'KakuteH7v2' : ('KakuteH7v2', 'Holybro'),
'CubeBlack' : ('CubeBlack', 'Hex/ProfiCNC'),
'CubeYellow' : ('CubeYellow', 'Hex/ProfiCNC'),
'CubeOrange' : ('CubeOrange', 'Hex/ProfiCNC'),
'CubeOrange-bdshot' : ('CubeOrange', 'Hex/ProfiCNC'),
'CubePurple' : ('CubePurple', 'Hex/ProfiCNC'),
'CubeSolo' : ('CubeSolo', '3DR'),
'CubeGreen-solo' : ('CubeGreen Solo', 'Hex/ProfiCNC'),
'CUAVv5' : ('CUAVv5', 'CUAV'),
'CUAVv5-bdshot' : ('CUAVv5', 'CUAV'),
'CUAVv5Nano' : ('CUAVv5 Nano', 'CUAV'),
'CUAVv5Nano-bdshot' : ('CUAVv5 Nano', 'CUAV'),
'CUAV-Nora' : ('CUAV Nora', 'CUAV'),
'CUAV-Nora-bdshot' : ('CUAV Nora', 'CUAV'),
'CUAV-X7' : ('CUAV X7', 'CUAV'),
'CUAV-X7-bdshot' : ('CUAV X7', 'CUAV'),
'DrotekP3Pro' : ('Pixhawk 3 Pro', 'Drotek'),
'MambaF405v2' : ('Diatone Mamba F405 MK2', 'Diatone'),
'MatekF405' : ('Matek F405', 'Matek'),
'MatekF405-bdshot' : ('Matek F405', 'Matek'),
'MatekF405-STD' : ('Matek F405 STD', 'Matek'),
'MatekF405-Wing' : ('Matek F405 Wing', 'Matek'),
'MatekF765-SE' : ('Matek F765 SE', 'Matek'),
'MatekH743' : ('Matek H743', 'Matek'),
'MatekH743-bdshot' : ('Matek H743', 'Matek'),
'mini-pix' : ('MiniPix', 'Radiolink'),
'Pixhawk1' : ('Pixhawk1', 'mRobotics'),
'Pixracer' : ('PixRacer', 'mRobotics'),
'Pixracer-bdshot' : ('PixRacer', 'mRobotics'),
'mRoX21' : ('mRo X2.1', 'mRobotics'),
'mRoX21-777' : ('mRo X2.1-777', 'mRobotics'),
'mRoPixracerPro' : ('mRo PixracerPro', 'mRobotics'),
'mRoPixracerPro-bdshot' : ('mRo PixracerPro', 'mRobotics'),
'mRoControlZeroOEMH7' : ('mRo ControlZero OEM H7', 'mRobotics'),
'mRoNexus' : ('mRo Nexus', 'mRobotics'),
'TBS-Colibri-F7' : ('Colibri F7', 'TBS'),
'sparky2' : ('Sparky2', 'TauLabs'),
'mindpx-v2' : ('MindPX V2', 'AirMind'),
'OMNIBUSF7V2' : ('Omnibus F7 V2', 'Airbot'),
'omnibusf4pro' : ('Omnibus F4 Pro', 'Airbot'),
'omnibusf4pro-bdshot' : ('Omnibus F4 Pro', 'Airbot'),
'omnibusf4v6' : ('Omnibus F4 V6', 'Airbot'),
'OmnibusNanoV6' : ('Omnibus Nano V6', 'Airbot'),
'OmnibusNanoV6-bdshot' : ('Omnibus Nano V6', 'Airbot'),
'speedybeef4' : ('SpeedyBee F4', 'SpeedyBee'),
'speedybeef4v3' : ('SpeedyBee F4 v3', 'SpeedyBee'),
'QioTekZealotF427' : ('ZealotF427', 'QioTek'),
'BeastH7' : ('Beast H7 55A AIO', 'iFlight'),
'BeastH7v2' : ('Beast H7 v2 55A AIO', 'iFlight'),
'BeastF7' : ('Beast F7 45A AIO', 'iFlight'),
'BeastF7v2' : ('Beast F7 v2 55A AIO', 'iFlight'),
'MambaF405US-I2C' : ('Diatone Mamba Basic F405 MK3/MK3.5', 'Diatone'),
'MambaF405-2022' : ('Diatone Mamba Basic F405 MK4', 'Diatone'),
'MambaH743v4' : ('Diatone Mamba H743 MK4', 'Diatone'),
"FlywooF745" : ('Flywoo Goku GN 745 AIO', 'Flywoo'),
"FlywooF745Nano" : ('Flywoo Goku Hex F745', 'Flywoo'),
"modalai_fc-v1" : ('ModalAI FlightCore v1', 'ModalAI'),
'Pixhawk5X' : ('Pixhawk 5X', 'Holybro'),
"AIRLink" : ("Sky-Drones Technologies", "AIRLink"),
"SPRacingH7" : ("Seriously Pro Racing", "H7 Extreme"),
"SkystarsH7HD" : ("Skystars", "H743 HD"),
"SkystarsH7HD-bdshot" : ("Skystars", "H743 HD"),
"MicoAir405v2" : ("MicoAir F405 v2.1", "MicoAir"),
"MicoAir405Mini" : ("MicoAir F405 Mini", "MicoAir"),
"GEPRCF745BTHD": ("TAKER F745 BT","GEPRC"),
"GEPRC_TAKER_H743": ("TAKER H743 BT","GEPRC"),
}
class Firmware():
def __init__(self,
date=None,
platform=None,
vehicletype=None,
filepath=None,
git_sha=None,
frame=None):
self.atts = dict()
self.atts["date"] = date
self.atts["platform"] = platform
self.atts["vehicletype"] = vehicletype
self.atts["filepath"] = filepath
self.atts["git_sha"] = git_sha
self.atts["firmware-version-str"] = ""
self.atts["frame"] = frame
self.atts["release-type"] = None
self.atts["firmware-version"] = None
def __getitem__(self, what):
return self.atts[what]
def __setitem__(self, name, value):
self.atts[name] = value
class ManifestGenerator():
'''Return a JSON string describing "binary" directory contents under
basedir'''
def __init__(self, basedir, baseurl):
self.basedir = basedir
self.baseurl = baseurl
def frame_map(self, frame):
'''translate from ArduPilot frame type terminology into mavlink
terminology'''
frame_to_mavlink_dict = {
"quad": "QUADROTOR",
"hexa": "HEXAROTOR",
"y6": "ARDUPILOT_Y6",
"tri": "TRICOPTER",
"octa": "OCTOROTOR",
"octa-quad": "ARDUPILOT_OCTAQUAD",
"deca": "DECAROTOR",
"heli": "HELICOPTER",
"Plane": "FIXED_WING",
"AntennaTracker": "ANTENNA_TRACKER",
"Rover": "GROUND_ROVER",
"Sub": "SUBMARINE",
"AP_Periph": "CAN_PERIPHERAL",
}
if frame in frame_to_mavlink_dict:
return frame_to_mavlink_dict[frame]
return frame
def releasetype_map(self, releasetype):
'''translate from ArduPilot release type terminology into mavlink
terminology'''
if releasetype == 'stable':
return 'OFFICIAL'
return releasetype.upper()
def looks_like_binaries_directory(self, dir):
'''returns True if dir looks like it is a build_binaries.py output
directory'''
for entry in os.listdir(dir):
if entry in FIRMWARE_TYPES:
return True
return False
def git_sha_from_git_version(self, filepath):
'''parses get-version.txt (as emitted by build_binaries.py, returns
git sha from it'''
content = open(filepath).read()
sha_regex = re.compile("commit (?P<sha>[0-9a-f]+)")
m = sha_regex.search(content)
if m is None:
raise Exception(
"filepath (%s) does not contain a git sha" % (filepath,))
return m.group("sha")
def fwversion_from_git_version(self, filepath):
'''parses get-version.txt (as emitted by build_binaries.py, returns
git sha from it'''
content = open(filepath).read()
sha_regex = re.compile("APMVERSION: \S+\s+(\S+)")
m = sha_regex.search(content)
if m is None:
raise Exception(
"filepath (%s) does not contain an APMVERSION" % (filepath,))
return m.group(1)
def add_USB_IDs_PX4(self, firmware):
'''add USB IDs to a .px4 firmware'''
url = firmware['url']
suffix = url.split('-')[-1]
if suffix == "v1.px4":
firmware['USBID'] = ['0x26AC/0x0010']
firmware['board_id'] = 5
firmware['bootloader_str'] = ['PX4 BL FMU v1.x']
elif suffix in ["v2.px4", "v3.px4"]:
firmware['USBID'] = ['0x26AC/0x0011']
firmware['board_id'] = 9
firmware['bootloader_str'] = ['PX4 BL FMU v2.x']
elif suffix == "v4.px4":
firmware['USBID'] = ['0x26AC/0x0012']
firmware['board_id'] = 11
firmware['bootloader_str'] = ['PX4 BL FMU v4.x']
elif suffix == "v4pro.px4":
firmware['USBID'] = ['0x26AC/0x0013']
firmware['board_id'] = 13
firmware['bootloader_str'] = ['PX4 BL FMU v4.x PRO']
def add_USB_IDs_ChibiOS(self, firmware):
'''add USB IDs to a ChbiOS apj firmware'''
url = firmware['url'][len(self.baseurl)+1:]
apj_path = os.path.join(self.basedir, url)
if not os.path.exists(apj_path):
print("bad apj path %s" % apj_path, file=sys.stderr)
return
apj_json = json.load(open(apj_path, 'r'))
if 'board_id' not in apj_json:
print("no board_id in %s" % apj_path, file=sys.stderr)
return
if 'platform' not in firmware:
print("no platform for %s" % apj_path, file=sys.stderr)
return
board_id = apj_json['board_id']
platform = firmware['platform']
# all ChibiOS builds can have platform as bootloader_str and board_id from
# hwdef.dat
firmware['board_id'] = board_id
firmware['bootloader_str'] = [platform+"-BL"]
# map of vendor specific USB IDs
USBID_MAP = {
'CubeBlack': ['0x2DAE/0x1011'],
'CubeOrange': ['0x2DAE/0x1016', '0x2DAE/0x1017'],
'CubePurple': ['0x2DAE/0x1005'],
'CubeYellow': ['0x2DAE/0x1002'],
'Pixhawk4': ['0x3162/0x0047'],
'PH4-mini': ['0x3162/0x0049'],
'Durandal': ['0x3162/0x004B'],
'VRBrain-v51': ['0x27AC/0x1151'],
'VRBrain-v52': ['0x27AC/0x1152'],
'VRBrain-v54': ['0x27AC/0x1154'],
'VRCore-v10': ['0x27AC/0x1910'],
'VRUBrain-v51': ['0x27AC/0x1351']
}
if 'USBID' in apj_json:
# newer APJ files have USBID in the json data
firmware['USBID'] = [apj_json['USBID']]
elif platform in USBID_MAP:
firmware['USBID'] = USBID_MAP[platform]
else:
# all others use a single USB VID/PID
firmware['USBID'] = ['0x0483/0x5740']
if board_id == 50:
# special case for FMUv5, they always get the px4 bootloader IDs as an option
firmware['bootloader_str'].append('PX4 BL FMU v5.x')
firmware['USBID'].append('0x26AC/0x0032')
if board_id == 9:
# special case for FMUv3, they always get the px4 bootloader IDs as an option
firmware['bootloader_str'].append('PX4 BL FMU v2.x')
firmware['USBID'].append('0x26AC/0x0011')
if board_id == 11:
# special case for FMUv4, they always get the px4 bootloader IDs as an option
firmware['bootloader_str'].append('PX4 BL FMU v4.x')
firmware['USBID'].append('0x26AC/0x0012')
if board_id == 13:
# special case for FMUv4pro, they always get the px4 bootloader IDs as an option
firmware['bootloader_str'].append('PX4 BL FMU v4.x PRO')
firmware['USBID'].append('0x26AC/0x0013')
if board_id == 88:
# special case for MindPX-v2 boards
firmware['bootloader_str'].append('MindPX BL FMU v2.x')
firmware['USBID'].append('0x26AC/0x0030')
if board_id == 53:
# special case for 6X, they always get the px4 bootloader IDs as an option
firmware['bootloader_str'].append('PX4 BL FMU v6X.x')
firmware['USBID'].append('0x3185/0x0035')
if board_id == 56:
# special case for 6C, they always get the px4 bootloader IDs as an option
firmware['bootloader_str'].append('PX4 BL FMU v6C.x')
firmware['USBID'].append('0x3185/0x0038')
if platform in brand_map:
(brand_name, manufacturer) = brand_map[platform]
firmware['brand_name'] = brand_name
firmware['manufacturer'] = manufacturer
# copy over some extra information if available
extra_tags = [ 'image_size', 'brand_name', 'manufacturer' ]
for tag in extra_tags:
if tag in apj_json:
firmware[tag] = apj_json[tag]
def add_USB_IDs(self, firmware):
'''add USB IDs to a firmware'''
fmt = firmware['format']
if fmt == "px4":
self.add_USB_IDs_PX4(firmware)
return
if fmt == "apj":
self.add_USB_IDs_ChibiOS(firmware)
return
def firmware_format_for_filepath(self, filepath):
filename = os.path.basename(filepath)
if "." in filename:
return "".join(filename.split(".")[-1:])
# no extension; ensure this is an elf:
text = subprocess.check_output(["file", "-b", filepath])
if running_python3:
text = text.decode('ascii')
if re.match("^ELF", text):
return "ELF"
print("Unknown file type (%s)" % filepath)
print("Got: %s" % text)
return "Unknown" # should raise an error somehow
def add_firmware_data_from_dir(self,
dir,
firmware_data,
vehicletype,
releasetype="dev"):
'''accumulate additional information about firmwares from directory'''
variant_firmware_regex = re.compile("[^-]+-(?P<variant>v\d+)[.px4]")
if not os.path.isdir(dir):
return
try:
dlist = os.listdir(dir)
except Exception:
print("Error listing '%s'" % dir)
return
for platformdir in dlist:
if platformdir.startswith("."):
continue
some_dir = os.path.join(dir, platformdir)
if not os.path.isdir(some_dir):
continue
git_version_txt = os.path.join(some_dir, "git-version.txt")
if not os.path.exists(git_version_txt):
print("No file %s" % git_version_txt, file=sys.stderr)
continue
try:
git_sha = self.git_sha_from_git_version(git_version_txt)
except Exception as ex:
print("Failed to parse %s" % git_version_txt, ex, file=sys.stderr)
continue
try:
fwversion_str = self.fwversion_from_git_version(git_version_txt)
except Exception as ex:
print("Failed to parse APMVERSION %s" % git_version_txt, ex, file=sys.stderr)
continue
# we require a firmware-version.txt. These files have been added to
# old builds that didn't have them
firmware_version_file = os.path.join(some_dir,
"firmware-version.txt")
if not os.path.exists(firmware_version_file):
print("Missing %s" % firmware_version_file, file=sys.stderr)
continue
try:
firmware_version = open(firmware_version_file).read()
firmware_version = firmware_version.strip()
(_, _) = firmware_version.split("-")
except ValueError:
print("malformed firmware-version.txt at (%s)" % (firmware_version_file,), file=sys.stderr)
continue
except Exception as ex:
print("bad file %s" % firmware_version_file, file=sys.stderr)
# this exception is swallowed.... the current archive
# is incomplete.
continue
# Directory names for heli builds end in -heli
platform_frame_regex = re.compile("(?P<board>.+)(-(?P<frame>heli)$)")
m = platform_frame_regex.match(platformdir)
if m is not None:
# This is a heli build
platform = m.group("board") # e.g. navio
frame = "heli"
else:
# Non-heli build
frame = vehicletype # e.g. Plane
platform = platformdir # e.g. apm2
# also gather information from any features.txt files present:
features_text = None
features_filepath = os.path.join(some_dir, "features.txt")
if os.path.exists(features_filepath):
features_text = sorted(open(features_filepath).read().rstrip().split("\n"))
for filename in os.listdir(some_dir):
if filename in ["git-version.txt", "firmware-version.txt", "files.html", "features.txt"]:
continue
if filename.startswith("."):
continue
m = variant_firmware_regex.match(filename)
if m:
# the platform variant is
# encoded in the firmware filename
# (e.g. the "v1" in
# ArduCopter-v1.px4)
variant = m.group("variant")
file_platform = "-".join([platform, variant])
else:
file_platform = platform
filepath = os.path.join(some_dir, filename)
firmware_format = self.firmware_format_for_filepath(filepath)
if firmware_format not in [ "elf", "ELF", "abin", "apj", "hex", "px4", "bin" ]:
print("Unknown firmware format (%s)" % firmware_format)
firmware = Firmware()
# translate from supplied "release type" into both a
# "latest" flag and an actual release type. Also sort
# out which filepath we should use:
firmware["latest"] = 0
if releasetype == "dev":
if firmware["filepath"] is None:
firmware["filepath"] = filepath
if firmware["release-type"] is None:
firmware["release-type"] = "dev"
elif releasetype == "latest":
firmware["latest"] = 1
firmware["filepath"] = filepath
if firmware["release-type"] is None:
firmware["release-type"] = "dev"
else:
if (not firmware["latest"]):
firmware["filepath"] = filepath
firmware["release-type"] = releasetype
firmware["platform"] = file_platform
firmware["vehicletype"] = vehicletype
firmware["git_sha"] = git_sha
firmware["firmware-version-str"] = fwversion_str
firmware["frame"] = frame
firmware["timestamp"] = os.path.getctime(firmware["filepath"])
firmware["format"] = firmware_format
firmware["firmware-version"] = firmware_version
firmware["features"] = features_text
firmware_data.append(firmware)
def valid_release_type(self, tag):
'''check for valid release type'''
for r in RELEASE_TYPES:
if fnmatch.fnmatch(tag, r):
return True
return False
def parse_fw_version(self, version):
(version_numbers, release_type) = version.split("-")
(major, minor, patch) = version_numbers.split(".")
return (major, minor, patch, version)
def walk_directory(self, basedir):
'''walks directory structure created by build_binaries, returns Python
structure representing releases in that structure'''
year_month_regex = re.compile("(?P<year>\d{4})-(?P<month>\d{2})")
firmwares = []
# used to listdir basedir here, but since this is also a web
# document root, there's a lot of other stuff accumulated...
vehicletypes = FIRMWARE_TYPES
for vehicletype in vehicletypes:
try:
# the sort means we prefer 'stable' to 'stable-x.y.z' when they
# both contain the same contents
vdir = sorted(os.listdir(os.path.join(basedir, vehicletype)), reverse=True)
except OSError as e:
if e.errno == 2:
continue
for firstlevel in vdir:
if firstlevel == "files.html" or firstlevel.startswith("."):
# generated file which should be ignored
continue
# skip any non-directories (e.g. "files.html"):
if year_month_regex.match(firstlevel):
# this is a dated directory e.g. binaries/Copter/2016-02
# we do not include dated directories in the manifest ATM:
continue
# assume this is a release directory such as
# "beta", or the "latest" directory (treated as a
# release and handled specially later)
tag = firstlevel
if not self.valid_release_type(tag):
print("Unknown tag (%s) in directory (%s)" %
(tag, os.path.join(vdir)), file=sys.stderr)
continue
tag_path = os.path.join(basedir, vehicletype, tag)
if not os.path.isdir(tag_path):
continue
self.add_firmware_data_from_dir(tag_path,
firmwares,
vehicletype,
releasetype=tag)
# convert from ardupilot-naming conventions to common JSON format:
firmware_json = []
features_json = [] # a structure containing summarised features per firmware
for firmware in firmwares:
filepath = firmware["filepath"]
# replace the base directory with the base URL
urlifier = re.compile("^" + re.escape(basedir))
url = re.sub(urlifier, self.baseurl, filepath)
version_type = self.releasetype_map(firmware["release-type"])
some_json = dict({
"mav-autopilot": "ARDUPILOTMEGA",
"vehicletype": firmware["vehicletype"],
"platform": firmware["platform"],
"git-sha": firmware["git_sha"],
"url": url,
"mav-type": self.frame_map(firmware["frame"]),
"mav-firmware-version-type": version_type,
"mav-firmware-version-str": firmware["firmware-version-str"],
"latest": firmware["latest"],
"format": firmware["format"],
})
if firmware["firmware-version"]:
try:
(major, minor, patch, release_type) = self.parse_fw_version(
firmware["firmware-version"])
except Exception:
print("Badly formed firmware-version.txt %s" % firmware["firmware-version"], file=sys.stderr)
continue
some_json["mav-firmware-version"] = ".".join([major,
minor,
patch])
some_json["mav-firmware-version-major"] = major
some_json["mav-firmware-version-minor"] = minor
some_json["mav-firmware-version-patch"] = patch
self.add_USB_IDs(some_json)
#print(some_json['url'])
firmware_json.append(some_json)
# now the features the firmware supports...
try:
features = firmware["features"]
# check apj here in case we're creating bin and apj etc:
if (firmware["format"] == "apj" and
features is not None and
bool(firmware["latest"])):
x = dict({
"vehicletype": firmware["vehicletype"],
"platform": firmware["platform"],
"git-sha": firmware["git_sha"],
"latest": firmware["latest"],
})
x["features"] = features
features_json.append(x)
except KeyError:
pass
ret = {
"format-version": "1.0.0", # semantic versioning
"firmware": firmware_json
}
features_ret = {
"format-version": "1.0.0", # semantic versioning
"features": features_json
}
return ret, features_ret
def run(self):
'''walk directory supplied in constructor, record results in self'''
if not self.looks_like_binaries_directory(self.basedir):
print("Warning: this does not look like a binaries directory",
file=sys.stderr)
self.structure, self.features_structure = self.walk_directory(self.basedir)
def json(self):
'''returns JSON string for version information for all firmwares'''
if getattr(self, 'structure', None) is None:
self.run()
return json.dumps(self.structure, indent=4, separators=(',', ': '))
def json_features(self):
'''returns JSON string for supported features for all firmwares.
run() method must have been called already'''
return json.dumps(self.features_structure, indent=4, separators=(',', ': '))
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 write_json(self, content, path):
'''write content to path, also creating a compress .gz version'''
new_json_filepath = path + ".new"
self.write_string_to_filepath(content, new_json_filepath)
# provide a pre-compressed version. For reference, a 7M manifest
# "gzip -9"s to 300k in 1 second, "xz -e"s to 80k in 26 seconds
new_json_filepath_gz = path + ".gz.new"
with gzip.open(new_json_filepath_gz, 'wb') as gf:
if running_python3:
content = bytes(content, 'ascii')
gf.write(content)
gf.close()
shutil.move(new_json_filepath, path)
shutil.move(new_json_filepath_gz, path + ".gz")
def write_manifest_json(self, path):
'''write generated JSON content to path'''
self.write_json(self.json(), path)
def write_features_json(self, path):
'''write generated features JSON content to path'''
self.write_json(self.json_features(), path)
def usage():
return '''Usage:
generate-manifest.py basedir'''
if __name__ == "__main__":
import argparse
parser = argparse.ArgumentParser(description='generate manifest.json')
parser.add_argument('--outfile', type=str, default=None, help='output file, default stdout')
parser.add_argument('--outfile-features-json', type=str, default=None, help='output file for features json file')
parser.add_argument('--baseurl', type=str, default="https://firmware.ardupilot.org", help='base binaries directory')
parser.add_argument('basedir', type=str, default="-", help='base binaries directory')
args = parser.parse_args()
# ensure all stable directories are created
gen_stable.make_all_stable(args.basedir)
generator = ManifestGenerator(args.basedir, args.baseurl)
generator.run()
content = generator.json()
if args.outfile is None:
print(content)
else:
generator.write_manifest_json(args.outfile)
if args.outfile_features_json is not None:
generator.write_features_json(args.outfile_features_json)