🧑‍💻 Use spaces indent for Python

This commit is contained in:
Scott Lahteine 2022-08-19 11:00:52 -05:00
parent d93c41a257
commit ff09ea13a4
28 changed files with 1987 additions and 1983 deletions

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@ -14,6 +14,10 @@ end_of_line = lf
indent_style = space
indent_size = 2
[{*.py,*.conf,*.sublime-project}]
[{*.py}]
indent_style = space
indent_size = 4
[{*.conf,*.sublime-project}]
indent_style = tab
indent_size = 4

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@ -9,127 +9,127 @@ from __future__ import print_function
import pioutil
if pioutil.is_pio_build():
target_filename = "FIRMWARE.CUR"
target_drive = "REARM"
target_filename = "FIRMWARE.CUR"
target_drive = "REARM"
import platform
import platform
current_OS = platform.system()
Import("env")
current_OS = platform.system()
Import("env")
def print_error(e):
print('\nUnable to find destination disk (%s)\n' \
'Please select it in platformio.ini using the upload_port keyword ' \
'(https://docs.platformio.org/en/latest/projectconf/section_env_upload.html) ' \
'or copy the firmware (.pio/build/%s/firmware.bin) manually to the appropriate disk\n' \
%(e, env.get('PIOENV')))
def print_error(e):
print('\nUnable to find destination disk (%s)\n' \
'Please select it in platformio.ini using the upload_port keyword ' \
'(https://docs.platformio.org/en/latest/projectconf/section_env_upload.html) ' \
'or copy the firmware (.pio/build/%s/firmware.bin) manually to the appropriate disk\n' \
%(e, env.get('PIOENV')))
def before_upload(source, target, env):
try:
from pathlib import Path
#
# Find a disk for upload
#
upload_disk = 'Disk not found'
target_file_found = False
target_drive_found = False
if current_OS == 'Windows':
#
# platformio.ini will accept this for a Windows upload port designation: 'upload_port = L:'
# Windows - doesn't care about the disk's name, only cares about the drive letter
import subprocess,string
from ctypes import windll
from pathlib import PureWindowsPath
def before_upload(source, target, env):
try:
from pathlib import Path
#
# Find a disk for upload
#
upload_disk = 'Disk not found'
target_file_found = False
target_drive_found = False
if current_OS == 'Windows':
#
# platformio.ini will accept this for a Windows upload port designation: 'upload_port = L:'
# Windows - doesn't care about the disk's name, only cares about the drive letter
import subprocess,string
from ctypes import windll
from pathlib import PureWindowsPath
# getting list of drives
# https://stackoverflow.com/questions/827371/is-there-a-way-to-list-all-the-available-drive-letters-in-python
drives = []
bitmask = windll.kernel32.GetLogicalDrives()
for letter in string.ascii_uppercase:
if bitmask & 1:
drives.append(letter)
bitmask >>= 1
# getting list of drives
# https://stackoverflow.com/questions/827371/is-there-a-way-to-list-all-the-available-drive-letters-in-python
drives = []
bitmask = windll.kernel32.GetLogicalDrives()
for letter in string.ascii_uppercase:
if bitmask & 1:
drives.append(letter)
bitmask >>= 1
for drive in drives:
final_drive_name = drive + ':'
# print ('disc check: {}'.format(final_drive_name))
try:
volume_info = str(subprocess.check_output('cmd /C dir ' + final_drive_name, stderr=subprocess.STDOUT))
except Exception as e:
print ('error:{}'.format(e))
continue
else:
if target_drive in volume_info and not target_file_found: # set upload if not found target file yet
target_drive_found = True
upload_disk = PureWindowsPath(final_drive_name)
if target_filename in volume_info:
if not target_file_found:
upload_disk = PureWindowsPath(final_drive_name)
target_file_found = True
for drive in drives:
final_drive_name = drive + ':'
# print ('disc check: {}'.format(final_drive_name))
try:
volume_info = str(subprocess.check_output('cmd /C dir ' + final_drive_name, stderr=subprocess.STDOUT))
except Exception as e:
print ('error:{}'.format(e))
continue
else:
if target_drive in volume_info and not target_file_found: # set upload if not found target file yet
target_drive_found = True
upload_disk = PureWindowsPath(final_drive_name)
if target_filename in volume_info:
if not target_file_found:
upload_disk = PureWindowsPath(final_drive_name)
target_file_found = True
elif current_OS == 'Linux':
#
# platformio.ini will accept this for a Linux upload port designation: 'upload_port = /media/media_name/drive'
#
import getpass
user = getpass.getuser()
mpath = Path('media', user)
drives = [ x for x in mpath.iterdir() if x.is_dir() ]
if target_drive in drives: # If target drive is found, use it.
target_drive_found = True
upload_disk = mpath / target_drive
else:
for drive in drives:
try:
fpath = mpath / drive
filenames = [ x.name for x in fpath.iterdir() if x.is_file() ]
except:
continue
else:
if target_filename in filenames:
upload_disk = mpath / drive
target_file_found = True
break
#
# set upload_port to drive if found
#
elif current_OS == 'Linux':
#
# platformio.ini will accept this for a Linux upload port designation: 'upload_port = /media/media_name/drive'
#
import getpass
user = getpass.getuser()
mpath = Path('media', user)
drives = [ x for x in mpath.iterdir() if x.is_dir() ]
if target_drive in drives: # If target drive is found, use it.
target_drive_found = True
upload_disk = mpath / target_drive
else:
for drive in drives:
try:
fpath = mpath / drive
filenames = [ x.name for x in fpath.iterdir() if x.is_file() ]
except:
continue
else:
if target_filename in filenames:
upload_disk = mpath / drive
target_file_found = True
break
#
# set upload_port to drive if found
#
if target_file_found or target_drive_found:
env.Replace(
UPLOAD_FLAGS="-P$UPLOAD_PORT"
)
if target_file_found or target_drive_found:
env.Replace(
UPLOAD_FLAGS="-P$UPLOAD_PORT"
)
elif current_OS == 'Darwin': # MAC
#
# platformio.ini will accept this for a OSX upload port designation: 'upload_port = /media/media_name/drive'
#
dpath = Path('/Volumes') # human readable names
drives = [ x for x in dpath.iterdir() if x.is_dir() ]
if target_drive in drives and not target_file_found: # set upload if not found target file yet
target_drive_found = True
upload_disk = dpath / target_drive
for drive in drives:
try:
fpath = dpath / drive # will get an error if the drive is protected
filenames = [ x.name for x in fpath.iterdir() if x.is_file() ]
except:
continue
else:
if target_filename in filenames:
upload_disk = dpath / drive
target_file_found = True
break
elif current_OS == 'Darwin': # MAC
#
# platformio.ini will accept this for a OSX upload port designation: 'upload_port = /media/media_name/drive'
#
dpath = Path('/Volumes') # human readable names
drives = [ x for x in dpath.iterdir() if x.is_dir() ]
if target_drive in drives and not target_file_found: # set upload if not found target file yet
target_drive_found = True
upload_disk = dpath / target_drive
for drive in drives:
try:
fpath = dpath / drive # will get an error if the drive is protected
filenames = [ x.name for x in fpath.iterdir() if x.is_file() ]
except:
continue
else:
if target_filename in filenames:
upload_disk = dpath / drive
target_file_found = True
break
#
# Set upload_port to drive if found
#
if target_file_found or target_drive_found:
env.Replace(UPLOAD_PORT=str(upload_disk))
print('\nUpload disk: ', upload_disk, '\n')
else:
print_error('Autodetect Error')
#
# Set upload_port to drive if found
#
if target_file_found or target_drive_found:
env.Replace(UPLOAD_PORT=str(upload_disk))
print('\nUpload disk: ', upload_disk, '\n')
else:
print_error('Autodetect Error')
except Exception as e:
print_error(str(e))
except Exception as e:
print_error(str(e))
env.AddPreAction("upload", before_upload)
env.AddPreAction("upload", before_upload)

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@ -4,17 +4,17 @@
#
import pioutil
if pioutil.is_pio_build():
from os.path import join, isfile
import shutil
from os.path import join, isfile
import shutil
Import("env")
Import("env")
mf = env["MARLIN_FEATURES"]
rxBuf = mf["RX_BUFFER_SIZE"] if "RX_BUFFER_SIZE" in mf else "0"
txBuf = mf["TX_BUFFER_SIZE"] if "TX_BUFFER_SIZE" in mf else "0"
mf = env["MARLIN_FEATURES"]
rxBuf = mf["RX_BUFFER_SIZE"] if "RX_BUFFER_SIZE" in mf else "0"
txBuf = mf["TX_BUFFER_SIZE"] if "TX_BUFFER_SIZE" in mf else "0"
serialBuf = str(max(int(rxBuf), int(txBuf), 350))
serialBuf = str(max(int(rxBuf), int(txBuf), 350))
build_flags = env.get('BUILD_FLAGS')
build_flags.append("-DSERIAL_BUFFER_SIZE=" + serialBuf)
env.Replace(BUILD_FLAGS=build_flags)
build_flags = env.get('BUILD_FLAGS')
build_flags.append("-DSERIAL_BUFFER_SIZE=" + serialBuf)
env.Replace(BUILD_FLAGS=build_flags)

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@ -4,123 +4,123 @@
#
import pioutil
if pioutil.is_pio_build():
import struct,uuid,marlin
import struct,uuid,marlin
board = marlin.env.BoardConfig()
board = marlin.env.BoardConfig()
def calculate_crc(contents, seed):
accumulating_xor_value = seed;
def calculate_crc(contents, seed):
accumulating_xor_value = seed;
for i in range(0, len(contents), 4):
value = struct.unpack('<I', contents[ i : i + 4])[0]
accumulating_xor_value = accumulating_xor_value ^ value
return accumulating_xor_value
for i in range(0, len(contents), 4):
value = struct.unpack('<I', contents[ i : i + 4])[0]
accumulating_xor_value = accumulating_xor_value ^ value
return accumulating_xor_value
def xor_block(r0, r1, block_number, block_size, file_key):
# This is the loop counter
loop_counter = 0x0
def xor_block(r0, r1, block_number, block_size, file_key):
# This is the loop counter
loop_counter = 0x0
# This is the key length
key_length = 0x18
# This is the key length
key_length = 0x18
# This is an initial seed
xor_seed = 0x4BAD
# This is an initial seed
xor_seed = 0x4BAD
# This is the block counter
block_number = xor_seed * block_number
# This is the block counter
block_number = xor_seed * block_number
#load the xor key from the file
r7 = file_key
#load the xor key from the file
r7 = file_key
for loop_counter in range(0, block_size):
# meant to make sure different bits of the key are used.
xor_seed = int(loop_counter / key_length)
for loop_counter in range(0, block_size):
# meant to make sure different bits of the key are used.
xor_seed = int(loop_counter / key_length)
# IP is a scratch register / R12
ip = loop_counter - (key_length * xor_seed)
# IP is a scratch register / R12
ip = loop_counter - (key_length * xor_seed)
# xor_seed = (loop_counter * loop_counter) + block_number
xor_seed = (loop_counter * loop_counter) + block_number
# xor_seed = (loop_counter * loop_counter) + block_number
xor_seed = (loop_counter * loop_counter) + block_number
# shift the xor_seed left by the bits in IP.
xor_seed = xor_seed >> ip
# shift the xor_seed left by the bits in IP.
xor_seed = xor_seed >> ip
# load a byte into IP
ip = r0[loop_counter]
# load a byte into IP
ip = r0[loop_counter]
# XOR the seed with r7
xor_seed = xor_seed ^ r7
# XOR the seed with r7
xor_seed = xor_seed ^ r7
# and then with IP
xor_seed = xor_seed ^ ip
# and then with IP
xor_seed = xor_seed ^ ip
#Now store the byte back
r1[loop_counter] = xor_seed & 0xFF
#Now store the byte back
r1[loop_counter] = xor_seed & 0xFF
#increment the loop_counter
loop_counter = loop_counter + 1
#increment the loop_counter
loop_counter = loop_counter + 1
def encrypt_file(input, output_file, file_length):
input_file = bytearray(input.read())
block_size = 0x800
key_length = 0x18
def encrypt_file(input, output_file, file_length):
input_file = bytearray(input.read())
block_size = 0x800
key_length = 0x18
uid_value = uuid.uuid4()
file_key = int(uid_value.hex[0:8], 16)
uid_value = uuid.uuid4()
file_key = int(uid_value.hex[0:8], 16)
xor_crc = 0xEF3D4323;
xor_crc = 0xEF3D4323;
# the input file is exepcted to be in chunks of 0x800
# so round the size
while len(input_file) % block_size != 0:
input_file.extend(b'0x0')
# the input file is exepcted to be in chunks of 0x800
# so round the size
while len(input_file) % block_size != 0:
input_file.extend(b'0x0')
# write the file header
output_file.write(struct.pack(">I", 0x443D2D3F))
# encrypt the contents using a known file header key
# write the file header
output_file.write(struct.pack(">I", 0x443D2D3F))
# encrypt the contents using a known file header key
# write the file_key
output_file.write(struct.pack("<I", file_key))
# write the file_key
output_file.write(struct.pack("<I", file_key))
#TODO - how to enforce that the firmware aligns to block boundaries?
block_count = int(len(input_file) / block_size)
print ("Block Count is ", block_count)
for block_number in range(0, block_count):
block_offset = (block_number * block_size)
block_end = block_offset + block_size
block_array = bytearray(input_file[block_offset: block_end])
xor_block(block_array, block_array, block_number, block_size, file_key)
for n in range (0, block_size):
input_file[block_offset + n] = block_array[n]
#TODO - how to enforce that the firmware aligns to block boundaries?
block_count = int(len(input_file) / block_size)
print ("Block Count is ", block_count)
for block_number in range(0, block_count):
block_offset = (block_number * block_size)
block_end = block_offset + block_size
block_array = bytearray(input_file[block_offset: block_end])
xor_block(block_array, block_array, block_number, block_size, file_key)
for n in range (0, block_size):
input_file[block_offset + n] = block_array[n]
# update the expected CRC value.
xor_crc = calculate_crc(block_array, xor_crc)
# update the expected CRC value.
xor_crc = calculate_crc(block_array, xor_crc)
# write CRC
output_file.write(struct.pack("<I", xor_crc))
# write CRC
output_file.write(struct.pack("<I", xor_crc))
# finally, append the encrypted results.
output_file.write(input_file)
return
# finally, append the encrypted results.
output_file.write(input_file)
return
# Encrypt ${PROGNAME}.bin and save it as 'update.cbd'
def encrypt(source, target, env):
from pathlib import Path
# Encrypt ${PROGNAME}.bin and save it as 'update.cbd'
def encrypt(source, target, env):
from pathlib import Path
fwpath = Path(target[0].path)
fwsize = fwpath.stat().st_size
fwpath = Path(target[0].path)
fwsize = fwpath.stat().st_size
enname = board.get("build.crypt_chitu")
enpath = Path(target[0].dir.path)
enname = board.get("build.crypt_chitu")
enpath = Path(target[0].dir.path)
fwfile = fwpath.open("rb")
enfile = (enpath / enname).open("wb")
fwfile = fwpath.open("rb")
enfile = (enpath / enname).open("wb")
print(f"Encrypting {fwpath} to {enname}")
encrypt_file(fwfile, enfile, fwsize)
fwfile.close()
enfile.close()
fwpath.unlink()
print(f"Encrypting {fwpath} to {enname}")
encrypt_file(fwfile, enfile, fwsize)
fwfile.close()
enfile.close()
fwpath.unlink()
marlin.relocate_firmware("0x08008800")
marlin.add_post_action(encrypt);
marlin.relocate_firmware("0x08008800")
marlin.add_post_action(encrypt);

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@ -4,13 +4,13 @@
#
import pioutil
if pioutil.is_pio_build():
Import("env", "projenv")
Import("env", "projenv")
def apply_board_build_flags():
if not 'BOARD_CUSTOM_BUILD_FLAGS' in env['MARLIN_FEATURES']:
return
projenv.Append(CCFLAGS=env['MARLIN_FEATURES']['BOARD_CUSTOM_BUILD_FLAGS'].split())
def apply_board_build_flags():
if not 'BOARD_CUSTOM_BUILD_FLAGS' in env['MARLIN_FEATURES']:
return
projenv.Append(CCFLAGS=env['MARLIN_FEATURES']['BOARD_CUSTOM_BUILD_FLAGS'].split())
# We need to add the board build flags in a post script
# so the platform build script doesn't overwrite the custom CCFLAGS
apply_board_build_flags()
# We need to add the board build flags in a post script
# so the platform build script doesn't overwrite the custom CCFLAGS
apply_board_build_flags()

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@ -5,247 +5,247 @@
import pioutil
if pioutil.is_pio_build():
import subprocess,os,re
Import("env")
import subprocess,os,re
Import("env")
from platformio.package.meta import PackageSpec
from platformio.project.config import ProjectConfig
from platformio.package.meta import PackageSpec
from platformio.project.config import ProjectConfig
verbose = 0
FEATURE_CONFIG = {}
verbose = 0
FEATURE_CONFIG = {}
def validate_pio():
PIO_VERSION_MIN = (6, 0, 1)
try:
from platformio import VERSION as PIO_VERSION
weights = (1000, 100, 1)
version_min = sum([x[0] * float(re.sub(r'[^0-9]', '.', str(x[1]))) for x in zip(weights, PIO_VERSION_MIN)])
version_cur = sum([x[0] * float(re.sub(r'[^0-9]', '.', str(x[1]))) for x in zip(weights, PIO_VERSION)])
if version_cur < version_min:
print()
print("**************************************************")
print("****** An update to PlatformIO is ******")
print("****** required to build Marlin Firmware. ******")
print("****** ******")
print("****** Minimum version: ", PIO_VERSION_MIN, " ******")
print("****** Current Version: ", PIO_VERSION, " ******")
print("****** ******")
print("****** Update PlatformIO and try again. ******")
print("**************************************************")
print()
exit(1)
except SystemExit:
exit(1)
except:
print("Can't detect PlatformIO Version")
def validate_pio():
PIO_VERSION_MIN = (6, 0, 1)
try:
from platformio import VERSION as PIO_VERSION
weights = (1000, 100, 1)
version_min = sum([x[0] * float(re.sub(r'[^0-9]', '.', str(x[1]))) for x in zip(weights, PIO_VERSION_MIN)])
version_cur = sum([x[0] * float(re.sub(r'[^0-9]', '.', str(x[1]))) for x in zip(weights, PIO_VERSION)])
if version_cur < version_min:
print()
print("**************************************************")
print("****** An update to PlatformIO is ******")
print("****** required to build Marlin Firmware. ******")
print("****** ******")
print("****** Minimum version: ", PIO_VERSION_MIN, " ******")
print("****** Current Version: ", PIO_VERSION, " ******")
print("****** ******")
print("****** Update PlatformIO and try again. ******")
print("**************************************************")
print()
exit(1)
except SystemExit:
exit(1)
except:
print("Can't detect PlatformIO Version")
def blab(str,level=1):
if verbose >= level:
print("[deps] %s" % str)
def blab(str,level=1):
if verbose >= level:
print("[deps] %s" % str)
def add_to_feat_cnf(feature, flines):
def add_to_feat_cnf(feature, flines):
try:
feat = FEATURE_CONFIG[feature]
except:
FEATURE_CONFIG[feature] = {}
try:
feat = FEATURE_CONFIG[feature]
except:
FEATURE_CONFIG[feature] = {}
# Get a reference to the FEATURE_CONFIG under construction
feat = FEATURE_CONFIG[feature]
# Get a reference to the FEATURE_CONFIG under construction
feat = FEATURE_CONFIG[feature]
# Split up passed lines on commas or newlines and iterate
# Add common options to the features config under construction
# For lib_deps replace a previous instance of the same library
atoms = re.sub(r',\s*', '\n', flines).strip().split('\n')
for line in atoms:
parts = line.split('=')
name = parts.pop(0)
if name in ['build_flags', 'extra_scripts', 'src_filter', 'lib_ignore']:
feat[name] = '='.join(parts)
blab("[%s] %s=%s" % (feature, name, feat[name]), 3)
else:
for dep in re.split(r',\s*', line):
lib_name = re.sub(r'@([~^]|[<>]=?)?[\d.]+', '', dep.strip()).split('=').pop(0)
lib_re = re.compile('(?!^' + lib_name + '\\b)')
feat['lib_deps'] = list(filter(lib_re.match, feat['lib_deps'])) + [dep]
blab("[%s] lib_deps = %s" % (feature, dep), 3)
# Split up passed lines on commas or newlines and iterate
# Add common options to the features config under construction
# For lib_deps replace a previous instance of the same library
atoms = re.sub(r',\s*', '\n', flines).strip().split('\n')
for line in atoms:
parts = line.split('=')
name = parts.pop(0)
if name in ['build_flags', 'extra_scripts', 'src_filter', 'lib_ignore']:
feat[name] = '='.join(parts)
blab("[%s] %s=%s" % (feature, name, feat[name]), 3)
else:
for dep in re.split(r',\s*', line):
lib_name = re.sub(r'@([~^]|[<>]=?)?[\d.]+', '', dep.strip()).split('=').pop(0)
lib_re = re.compile('(?!^' + lib_name + '\\b)')
feat['lib_deps'] = list(filter(lib_re.match, feat['lib_deps'])) + [dep]
blab("[%s] lib_deps = %s" % (feature, dep), 3)
def load_features():
blab("========== Gather [features] entries...")
for key in ProjectConfig().items('features'):
feature = key[0].upper()
if not feature in FEATURE_CONFIG:
FEATURE_CONFIG[feature] = { 'lib_deps': [] }
add_to_feat_cnf(feature, key[1])
def load_features():
blab("========== Gather [features] entries...")
for key in ProjectConfig().items('features'):
feature = key[0].upper()
if not feature in FEATURE_CONFIG:
FEATURE_CONFIG[feature] = { 'lib_deps': [] }
add_to_feat_cnf(feature, key[1])
# Add options matching custom_marlin.MY_OPTION to the pile
blab("========== Gather custom_marlin entries...")
for n in env.GetProjectOptions():
key = n[0]
mat = re.match(r'custom_marlin\.(.+)', key)
if mat:
try:
val = env.GetProjectOption(key)
except:
val = None
if val:
opt = mat[1].upper()
blab("%s.custom_marlin.%s = '%s'" % ( env['PIOENV'], opt, val ))
add_to_feat_cnf(opt, val)
# Add options matching custom_marlin.MY_OPTION to the pile
blab("========== Gather custom_marlin entries...")
for n in env.GetProjectOptions():
key = n[0]
mat = re.match(r'custom_marlin\.(.+)', key)
if mat:
try:
val = env.GetProjectOption(key)
except:
val = None
if val:
opt = mat[1].upper()
blab("%s.custom_marlin.%s = '%s'" % ( env['PIOENV'], opt, val ))
add_to_feat_cnf(opt, val)
def get_all_known_libs():
known_libs = []
for feature in FEATURE_CONFIG:
feat = FEATURE_CONFIG[feature]
if not 'lib_deps' in feat:
continue
for dep in feat['lib_deps']:
known_libs.append(PackageSpec(dep).name)
return known_libs
def get_all_known_libs():
known_libs = []
for feature in FEATURE_CONFIG:
feat = FEATURE_CONFIG[feature]
if not 'lib_deps' in feat:
continue
for dep in feat['lib_deps']:
known_libs.append(PackageSpec(dep).name)
return known_libs
def get_all_env_libs():
env_libs = []
lib_deps = env.GetProjectOption('lib_deps')
for dep in lib_deps:
env_libs.append(PackageSpec(dep).name)
return env_libs
def get_all_env_libs():
env_libs = []
lib_deps = env.GetProjectOption('lib_deps')
for dep in lib_deps:
env_libs.append(PackageSpec(dep).name)
return env_libs
def set_env_field(field, value):
proj = env.GetProjectConfig()
proj.set("env:" + env['PIOENV'], field, value)
def set_env_field(field, value):
proj = env.GetProjectConfig()
proj.set("env:" + env['PIOENV'], field, value)
# All unused libs should be ignored so that if a library
# exists in .pio/lib_deps it will not break compilation.
def force_ignore_unused_libs():
env_libs = get_all_env_libs()
known_libs = get_all_known_libs()
diff = (list(set(known_libs) - set(env_libs)))
lib_ignore = env.GetProjectOption('lib_ignore') + diff
blab("Ignore libraries: %s" % lib_ignore)
set_env_field('lib_ignore', lib_ignore)
# All unused libs should be ignored so that if a library
# exists in .pio/lib_deps it will not break compilation.
def force_ignore_unused_libs():
env_libs = get_all_env_libs()
known_libs = get_all_known_libs()
diff = (list(set(known_libs) - set(env_libs)))
lib_ignore = env.GetProjectOption('lib_ignore') + diff
blab("Ignore libraries: %s" % lib_ignore)
set_env_field('lib_ignore', lib_ignore)
def apply_features_config():
load_features()
blab("========== Apply enabled features...")
for feature in FEATURE_CONFIG:
if not env.MarlinHas(feature):
continue
def apply_features_config():
load_features()
blab("========== Apply enabled features...")
for feature in FEATURE_CONFIG:
if not env.MarlinHas(feature):
continue
feat = FEATURE_CONFIG[feature]
feat = FEATURE_CONFIG[feature]
if 'lib_deps' in feat and len(feat['lib_deps']):
blab("========== Adding lib_deps for %s... " % feature, 2)
if 'lib_deps' in feat and len(feat['lib_deps']):
blab("========== Adding lib_deps for %s... " % feature, 2)
# feat to add
deps_to_add = {}
for dep in feat['lib_deps']:
deps_to_add[PackageSpec(dep).name] = dep
blab("==================== %s... " % dep, 2)
# feat to add
deps_to_add = {}
for dep in feat['lib_deps']:
deps_to_add[PackageSpec(dep).name] = dep
blab("==================== %s... " % dep, 2)
# Does the env already have the dependency?
deps = env.GetProjectOption('lib_deps')
for dep in deps:
name = PackageSpec(dep).name
if name in deps_to_add:
del deps_to_add[name]
# Does the env already have the dependency?
deps = env.GetProjectOption('lib_deps')
for dep in deps:
name = PackageSpec(dep).name
if name in deps_to_add:
del deps_to_add[name]
# Are there any libraries that should be ignored?
lib_ignore = env.GetProjectOption('lib_ignore')
for dep in deps:
name = PackageSpec(dep).name
if name in deps_to_add:
del deps_to_add[name]
# Are there any libraries that should be ignored?
lib_ignore = env.GetProjectOption('lib_ignore')
for dep in deps:
name = PackageSpec(dep).name
if name in deps_to_add:
del deps_to_add[name]
# Is there anything left?
if len(deps_to_add) > 0:
# Only add the missing dependencies
set_env_field('lib_deps', deps + list(deps_to_add.values()))
# Is there anything left?
if len(deps_to_add) > 0:
# Only add the missing dependencies
set_env_field('lib_deps', deps + list(deps_to_add.values()))
if 'build_flags' in feat:
f = feat['build_flags']
blab("========== Adding build_flags for %s: %s" % (feature, f), 2)
new_flags = env.GetProjectOption('build_flags') + [ f ]
env.Replace(BUILD_FLAGS=new_flags)
if 'build_flags' in feat:
f = feat['build_flags']
blab("========== Adding build_flags for %s: %s" % (feature, f), 2)
new_flags = env.GetProjectOption('build_flags') + [ f ]
env.Replace(BUILD_FLAGS=new_flags)
if 'extra_scripts' in feat:
blab("Running extra_scripts for %s... " % feature, 2)
env.SConscript(feat['extra_scripts'], exports="env")
if 'extra_scripts' in feat:
blab("Running extra_scripts for %s... " % feature, 2)
env.SConscript(feat['extra_scripts'], exports="env")
if 'src_filter' in feat:
blab("========== Adding build_src_filter for %s... " % feature, 2)
src_filter = ' '.join(env.GetProjectOption('src_filter'))
# first we need to remove the references to the same folder
my_srcs = re.findall(r'[+-](<.*?>)', feat['src_filter'])
cur_srcs = re.findall(r'[+-](<.*?>)', src_filter)
for d in my_srcs:
if d in cur_srcs:
src_filter = re.sub(r'[+-]' + d, '', src_filter)
if 'src_filter' in feat:
blab("========== Adding build_src_filter for %s... " % feature, 2)
src_filter = ' '.join(env.GetProjectOption('src_filter'))
# first we need to remove the references to the same folder
my_srcs = re.findall(r'[+-](<.*?>)', feat['src_filter'])
cur_srcs = re.findall(r'[+-](<.*?>)', src_filter)
for d in my_srcs:
if d in cur_srcs:
src_filter = re.sub(r'[+-]' + d, '', src_filter)
src_filter = feat['src_filter'] + ' ' + src_filter
set_env_field('build_src_filter', [src_filter])
env.Replace(SRC_FILTER=src_filter)
src_filter = feat['src_filter'] + ' ' + src_filter
set_env_field('build_src_filter', [src_filter])
env.Replace(SRC_FILTER=src_filter)
if 'lib_ignore' in feat:
blab("========== Adding lib_ignore for %s... " % feature, 2)
lib_ignore = env.GetProjectOption('lib_ignore') + [feat['lib_ignore']]
set_env_field('lib_ignore', lib_ignore)
if 'lib_ignore' in feat:
blab("========== Adding lib_ignore for %s... " % feature, 2)
lib_ignore = env.GetProjectOption('lib_ignore') + [feat['lib_ignore']]
set_env_field('lib_ignore', lib_ignore)
#
# Use the compiler to get a list of all enabled features
#
def load_marlin_features():
if 'MARLIN_FEATURES' in env:
return
#
# Use the compiler to get a list of all enabled features
#
def load_marlin_features():
if 'MARLIN_FEATURES' in env:
return
# Process defines
from preprocessor import run_preprocessor
define_list = run_preprocessor(env)
marlin_features = {}
for define in define_list:
feature = define[8:].strip().decode().split(' ')
feature, definition = feature[0], ' '.join(feature[1:])
marlin_features[feature] = definition
env['MARLIN_FEATURES'] = marlin_features
# Process defines
from preprocessor import run_preprocessor
define_list = run_preprocessor(env)
marlin_features = {}
for define in define_list:
feature = define[8:].strip().decode().split(' ')
feature, definition = feature[0], ' '.join(feature[1:])
marlin_features[feature] = definition
env['MARLIN_FEATURES'] = marlin_features
#
# Return True if a matching feature is enabled
#
def MarlinHas(env, feature):
load_marlin_features()
r = re.compile('^' + feature + '$')
found = list(filter(r.match, env['MARLIN_FEATURES']))
#
# Return True if a matching feature is enabled
#
def MarlinHas(env, feature):
load_marlin_features()
r = re.compile('^' + feature + '$')
found = list(filter(r.match, env['MARLIN_FEATURES']))
# Defines could still be 'false' or '0', so check
some_on = False
if len(found):
for f in found:
val = env['MARLIN_FEATURES'][f]
if val in [ '', '1', 'true' ]:
some_on = True
elif val in env['MARLIN_FEATURES']:
some_on = env.MarlinHas(val)
# Defines could still be 'false' or '0', so check
some_on = False
if len(found):
for f in found:
val = env['MARLIN_FEATURES'][f]
if val in [ '', '1', 'true' ]:
some_on = True
elif val in env['MARLIN_FEATURES']:
some_on = env.MarlinHas(val)
return some_on
return some_on
validate_pio()
validate_pio()
try:
verbose = int(env.GetProjectOption('custom_verbose'))
except:
pass
try:
verbose = int(env.GetProjectOption('custom_verbose'))
except:
pass
#
# Add a method for other PIO scripts to query enabled features
#
env.AddMethod(MarlinHas)
#
# Add a method for other PIO scripts to query enabled features
#
env.AddMethod(MarlinHas)
#
# Add dependencies for enabled Marlin features
#
apply_features_config()
force_ignore_unused_libs()
#
# Add dependencies for enabled Marlin features
#
apply_features_config()
force_ignore_unused_libs()
#print(env.Dump())
#print(env.Dump())
from signature import compute_build_signature
compute_build_signature(env)
from signature import compute_build_signature
compute_build_signature(env)

View File

@ -7,229 +7,229 @@ from pathlib import Path
verbose = 0
def blab(str,level=1):
if verbose >= level: print(f"[config] {str}")
if verbose >= level: print(f"[config] {str}")
def config_path(cpath):
return Path("Marlin", cpath)
return Path("Marlin", cpath)
# Apply a single name = on/off ; name = value ; etc.
# TODO: Limit to the given (optional) configuration
def apply_opt(name, val, conf=None):
if name == "lcd": name, val = val, "on"
if name == "lcd": name, val = val, "on"
# Create a regex to match the option and capture parts of the line
regex = re.compile(rf'^(\s*)(//\s*)?(#define\s+)({name}\b)(\s*)(.*?)(\s*)(//.*)?$', re.IGNORECASE)
# Create a regex to match the option and capture parts of the line
regex = re.compile(rf'^(\s*)(//\s*)?(#define\s+)({name}\b)(\s*)(.*?)(\s*)(//.*)?$', re.IGNORECASE)
# Find and enable and/or update all matches
for file in ("Configuration.h", "Configuration_adv.h"):
fullpath = config_path(file)
lines = fullpath.read_text().split('\n')
found = False
for i in range(len(lines)):
line = lines[i]
match = regex.match(line)
if match and match[4].upper() == name.upper():
found = True
# For boolean options un/comment the define
if val in ("on", "", None):
newline = re.sub(r'^(\s*)//+\s*(#define)(\s{1,3})?(\s*)', r'\1\2 \4', line)
elif val == "off":
newline = re.sub(r'^(\s*)(#define)(\s{1,3})?(\s*)', r'\1//\2 \4', line)
else:
# For options with values, enable and set the value
newline = match[1] + match[3] + match[4] + match[5] + val
if match[8]:
sp = match[7] if match[7] else ' '
newline += sp + match[8]
lines[i] = newline
blab(f"Set {name} to {val}")
# Find and enable and/or update all matches
for file in ("Configuration.h", "Configuration_adv.h"):
fullpath = config_path(file)
lines = fullpath.read_text().split('\n')
found = False
for i in range(len(lines)):
line = lines[i]
match = regex.match(line)
if match and match[4].upper() == name.upper():
found = True
# For boolean options un/comment the define
if val in ("on", "", None):
newline = re.sub(r'^(\s*)//+\s*(#define)(\s{1,3})?(\s*)', r'\1\2 \4', line)
elif val == "off":
newline = re.sub(r'^(\s*)(#define)(\s{1,3})?(\s*)', r'\1//\2 \4', line)
else:
# For options with values, enable and set the value
newline = match[1] + match[3] + match[4] + match[5] + val
if match[8]:
sp = match[7] if match[7] else ' '
newline += sp + match[8]
lines[i] = newline
blab(f"Set {name} to {val}")
# If the option was found, write the modified lines
if found:
fullpath.write_text('\n'.join(lines))
break
# If the option was found, write the modified lines
if found:
fullpath.write_text('\n'.join(lines))
break
# If the option didn't appear in either config file, add it
if not found:
# OFF options are added as disabled items so they appear
# in config dumps. Useful for custom settings.
prefix = ""
if val == "off":
prefix, val = "//", "" # Item doesn't appear in config dump
#val = "false" # Item appears in config dump
# If the option didn't appear in either config file, add it
if not found:
# OFF options are added as disabled items so they appear
# in config dumps. Useful for custom settings.
prefix = ""
if val == "off":
prefix, val = "//", "" # Item doesn't appear in config dump
#val = "false" # Item appears in config dump
# Uppercase the option unless already mixed/uppercase
added = name.upper() if name.islower() else name
# Uppercase the option unless already mixed/uppercase
added = name.upper() if name.islower() else name
# Add the provided value after the name
if val != "on" and val != "" and val is not None:
added += " " + val
# Add the provided value after the name
if val != "on" and val != "" and val is not None:
added += " " + val
# Prepend the new option after the first set of #define lines
fullpath = config_path("Configuration.h")
with fullpath.open() as f:
lines = f.readlines()
linenum = 0
gotdef = False
for line in lines:
isdef = line.startswith("#define")
if not gotdef:
gotdef = isdef
elif not isdef:
break
linenum += 1
lines.insert(linenum, f"{prefix}#define {added} // Added by config.ini\n")
fullpath.write_text('\n'.join(lines))
# Prepend the new option after the first set of #define lines
fullpath = config_path("Configuration.h")
with fullpath.open() as f:
lines = f.readlines()
linenum = 0
gotdef = False
for line in lines:
isdef = line.startswith("#define")
if not gotdef:
gotdef = isdef
elif not isdef:
break
linenum += 1
lines.insert(linenum, f"{prefix}#define {added} // Added by config.ini\n")
fullpath.write_text('\n'.join(lines))
# Fetch configuration files from GitHub given the path.
# Return True if any files were fetched.
def fetch_example(url):
if url.endswith("/"): url = url[:-1]
if url.startswith('http'):
url = url.replace("%", "%25").replace(" ", "%20")
else:
brch = "bugfix-2.1.x"
if '@' in path: path, brch = map(str.strip, path.split('@'))
url = f"https://raw.githubusercontent.com/MarlinFirmware/Configurations/{brch}/config/{url}"
if url.endswith("/"): url = url[:-1]
if url.startswith('http'):
url = url.replace("%", "%25").replace(" ", "%20")
else:
brch = "bugfix-2.1.x"
if '@' in path: path, brch = map(str.strip, path.split('@'))
url = f"https://raw.githubusercontent.com/MarlinFirmware/Configurations/{brch}/config/{url}"
# Find a suitable fetch command
if shutil.which("curl") is not None:
fetch = "curl -L -s -S -f -o"
elif shutil.which("wget") is not None:
fetch = "wget -q -O"
else:
blab("Couldn't find curl or wget", -1)
return False
# Find a suitable fetch command
if shutil.which("curl") is not None:
fetch = "curl -L -s -S -f -o"
elif shutil.which("wget") is not None:
fetch = "wget -q -O"
else:
blab("Couldn't find curl or wget", -1)
return False
import os
import os
# Reset configurations to default
os.system("git reset --hard HEAD")
# Reset configurations to default
os.system("git reset --hard HEAD")
# Try to fetch the remote files
gotfile = False
for fn in ("Configuration.h", "Configuration_adv.h", "_Bootscreen.h", "_Statusscreen.h"):
if os.system(f"{fetch} wgot {url}/{fn} >/dev/null 2>&1") == 0:
shutil.move('wgot', config_path(fn))
gotfile = True
# Try to fetch the remote files
gotfile = False
for fn in ("Configuration.h", "Configuration_adv.h", "_Bootscreen.h", "_Statusscreen.h"):
if os.system(f"{fetch} wgot {url}/{fn} >/dev/null 2>&1") == 0:
shutil.move('wgot', config_path(fn))
gotfile = True
if Path('wgot').exists(): shutil.rmtree('wgot')
if Path('wgot').exists(): shutil.rmtree('wgot')
return gotfile
return gotfile
def section_items(cp, sectkey):
return cp.items(sectkey) if sectkey in cp.sections() else []
return cp.items(sectkey) if sectkey in cp.sections() else []
# Apply all items from a config section
def apply_ini_by_name(cp, sect):
iniok = True
if sect in ('config:base', 'config:root'):
iniok = False
items = section_items(cp, 'config:base') + section_items(cp, 'config:root')
else:
items = cp.items(sect)
iniok = True
if sect in ('config:base', 'config:root'):
iniok = False
items = section_items(cp, 'config:base') + section_items(cp, 'config:root')
else:
items = cp.items(sect)
for item in items:
if iniok or not item[0].startswith('ini_'):
apply_opt(item[0], item[1])
for item in items:
if iniok or not item[0].startswith('ini_'):
apply_opt(item[0], item[1])
# Apply all config sections from a parsed file
def apply_all_sections(cp):
for sect in cp.sections():
if sect.startswith('config:'):
apply_ini_by_name(cp, sect)
for sect in cp.sections():
if sect.startswith('config:'):
apply_ini_by_name(cp, sect)
# Apply certain config sections from a parsed file
def apply_sections(cp, ckey='all'):
blab(f"Apply section key: {ckey}")
if ckey == 'all':
apply_all_sections(cp)
else:
# Apply the base/root config.ini settings after external files are done
if ckey in ('base', 'root'):
apply_ini_by_name(cp, 'config:base')
blab(f"Apply section key: {ckey}")
if ckey == 'all':
apply_all_sections(cp)
else:
# Apply the base/root config.ini settings after external files are done
if ckey in ('base', 'root'):
apply_ini_by_name(cp, 'config:base')
# Apply historically 'Configuration.h' settings everywhere
if ckey == 'basic':
apply_ini_by_name(cp, 'config:basic')
# Apply historically 'Configuration.h' settings everywhere
if ckey == 'basic':
apply_ini_by_name(cp, 'config:basic')
# Apply historically Configuration_adv.h settings everywhere
# (Some of which rely on defines in 'Conditionals_LCD.h')
elif ckey in ('adv', 'advanced'):
apply_ini_by_name(cp, 'config:advanced')
# Apply historically Configuration_adv.h settings everywhere
# (Some of which rely on defines in 'Conditionals_LCD.h')
elif ckey in ('adv', 'advanced'):
apply_ini_by_name(cp, 'config:advanced')
# Apply a specific config:<name> section directly
elif ckey.startswith('config:'):
apply_ini_by_name(cp, ckey)
# Apply a specific config:<name> section directly
elif ckey.startswith('config:'):
apply_ini_by_name(cp, ckey)
# Apply settings from a top level config.ini
def apply_config_ini(cp):
blab("=" * 20 + " Gather 'config.ini' entries...")
blab("=" * 20 + " Gather 'config.ini' entries...")
# Pre-scan for ini_use_config to get config_keys
base_items = section_items(cp, 'config:base') + section_items(cp, 'config:root')
config_keys = ['base']
for ikey, ival in base_items:
if ikey == 'ini_use_config':
config_keys = map(str.strip, ival.split(','))
# Pre-scan for ini_use_config to get config_keys
base_items = section_items(cp, 'config:base') + section_items(cp, 'config:root')
config_keys = ['base']
for ikey, ival in base_items:
if ikey == 'ini_use_config':
config_keys = map(str.strip, ival.split(','))
# For each ini_use_config item perform an action
for ckey in config_keys:
addbase = False
# For each ini_use_config item perform an action
for ckey in config_keys:
addbase = False
# For a key ending in .ini load and parse another .ini file
if ckey.endswith('.ini'):
sect = 'base'
if '@' in ckey: sect, ckey = ckey.split('@')
other_ini = configparser.ConfigParser()
other_ini.read(config_path(ckey))
apply_sections(other_ini, sect)
# For a key ending in .ini load and parse another .ini file
if ckey.endswith('.ini'):
sect = 'base'
if '@' in ckey: sect, ckey = ckey.split('@')
other_ini = configparser.ConfigParser()
other_ini.read(config_path(ckey))
apply_sections(other_ini, sect)
# (Allow 'example/' as a shortcut for 'examples/')
elif ckey.startswith('example/'):
ckey = 'examples' + ckey[7:]
# (Allow 'example/' as a shortcut for 'examples/')
elif ckey.startswith('example/'):
ckey = 'examples' + ckey[7:]
# For 'examples/<path>' fetch an example set from GitHub.
# For https?:// do a direct fetch of the URL.
elif ckey.startswith('examples/') or ckey.startswith('http'):
fetch_example(ckey)
ckey = 'base'
# For 'examples/<path>' fetch an example set from GitHub.
# For https?:// do a direct fetch of the URL.
elif ckey.startswith('examples/') or ckey.startswith('http'):
fetch_example(ckey)
ckey = 'base'
# Apply keyed sections after external files are done
apply_sections(cp, 'config:' + ckey)
# Apply keyed sections after external files are done
apply_sections(cp, 'config:' + ckey)
if __name__ == "__main__":
#
# From command line use the given file name
#
import sys
args = sys.argv[1:]
if len(args) > 0:
if args[0].endswith('.ini'):
ini_file = args[0]
else:
print("Usage: %s <.ini file>" % sys.argv[0])
else:
ini_file = config_path('config.ini')
#
# From command line use the given file name
#
import sys
args = sys.argv[1:]
if len(args) > 0:
if args[0].endswith('.ini'):
ini_file = args[0]
else:
print("Usage: %s <.ini file>" % sys.argv[0])
else:
ini_file = config_path('config.ini')
if ini_file:
user_ini = configparser.ConfigParser()
user_ini.read(ini_file)
apply_config_ini(user_ini)
if ini_file:
user_ini = configparser.ConfigParser()
user_ini.read(ini_file)
apply_config_ini(user_ini)
else:
#
# From within PlatformIO use the loaded INI file
#
import pioutil
if pioutil.is_pio_build():
#
# From within PlatformIO use the loaded INI file
#
import pioutil
if pioutil.is_pio_build():
Import("env")
Import("env")
try:
verbose = int(env.GetProjectOption('custom_verbose'))
except:
pass
try:
verbose = int(env.GetProjectOption('custom_verbose'))
except:
pass
from platformio.project.config import ProjectConfig
apply_config_ini(ProjectConfig())
from platformio.project.config import ProjectConfig
apply_config_ini(ProjectConfig())

View File

@ -6,13 +6,13 @@
#
import pioutil
if pioutil.is_pio_build():
import marlin
board = marlin.env.BoardConfig()
import marlin
board = marlin.env.BoardConfig()
address = board.get("build.address", "")
if address:
marlin.relocate_firmware(address)
address = board.get("build.address", "")
if address:
marlin.relocate_firmware(address)
ldscript = board.get("build.ldscript", "")
if ldscript:
marlin.custom_ld_script(ldscript)
ldscript = board.get("build.ldscript", "")
if ldscript:
marlin.custom_ld_script(ldscript)

View File

@ -4,50 +4,50 @@
#
import pioutil
if pioutil.is_pio_build():
Import("env")
import requests,zipfile,tempfile,shutil
from pathlib import Path
Import("env")
import requests,zipfile,tempfile,shutil
from pathlib import Path
url = "https://github.com/makerbase-mks/Mks-Robin-Nano-Marlin2.0-Firmware/archive/0263cdaccf.zip"
deps_path = Path(env.Dictionary("PROJECT_LIBDEPS_DIR"))
zip_path = deps_path / "mks-assets.zip"
assets_path = Path(env.Dictionary("PROJECT_BUILD_DIR"), env.Dictionary("PIOENV"), "assets")
url = "https://github.com/makerbase-mks/Mks-Robin-Nano-Marlin2.0-Firmware/archive/0263cdaccf.zip"
deps_path = Path(env.Dictionary("PROJECT_LIBDEPS_DIR"))
zip_path = deps_path / "mks-assets.zip"
assets_path = Path(env.Dictionary("PROJECT_BUILD_DIR"), env.Dictionary("PIOENV"), "assets")
def download_mks_assets():
print("Downloading MKS Assets")
r = requests.get(url, stream=True)
# the user may have a very clean workspace,
# so create the PROJECT_LIBDEPS_DIR directory if not exits
if not deps_path.exists():
deps_path.mkdir()
with zip_path.open('wb') as fd:
for chunk in r.iter_content(chunk_size=128):
fd.write(chunk)
def download_mks_assets():
print("Downloading MKS Assets")
r = requests.get(url, stream=True)
# the user may have a very clean workspace,
# so create the PROJECT_LIBDEPS_DIR directory if not exits
if not deps_path.exists():
deps_path.mkdir()
with zip_path.open('wb') as fd:
for chunk in r.iter_content(chunk_size=128):
fd.write(chunk)
def copy_mks_assets():
print("Copying MKS Assets")
output_path = Path(tempfile.mkdtemp())
zip_obj = zipfile.ZipFile(zip_path, 'r')
zip_obj.extractall(output_path)
zip_obj.close()
if assets_path.exists() and not assets_path.is_dir():
assets_path.unlink()
if not assets_path.exists():
assets_path.mkdir()
base_path = ''
for filename in output_path.iterdir():
base_path = filename
fw_path = (output_path / base_path / 'Firmware')
font_path = fw_path / 'mks_font'
for filename in font_path.iterdir():
shutil.copy(font_path / filename, assets_path)
pic_path = fw_path / 'mks_pic'
for filename in pic_path.iterdir():
shutil.copy(pic_path / filename, assets_path)
shutil.rmtree(output_path, ignore_errors=True)
def copy_mks_assets():
print("Copying MKS Assets")
output_path = Path(tempfile.mkdtemp())
zip_obj = zipfile.ZipFile(zip_path, 'r')
zip_obj.extractall(output_path)
zip_obj.close()
if assets_path.exists() and not assets_path.is_dir():
assets_path.unlink()
if not assets_path.exists():
assets_path.mkdir()
base_path = ''
for filename in output_path.iterdir():
base_path = filename
fw_path = (output_path / base_path / 'Firmware')
font_path = fw_path / 'mks_font'
for filename in font_path.iterdir():
shutil.copy(font_path / filename, assets_path)
pic_path = fw_path / 'mks_pic'
for filename in pic_path.iterdir():
shutil.copy(pic_path / filename, assets_path)
shutil.rmtree(output_path, ignore_errors=True)
if not zip_path.exists():
download_mks_assets()
if not zip_path.exists():
download_mks_assets()
if not assets_path.exists():
copy_mks_assets()
if not assets_path.exists():
copy_mks_assets()

View File

@ -4,32 +4,32 @@
import pioutil
if pioutil.is_pio_build():
import shutil
from os.path import join, isfile
from pprint import pprint
import shutil
from os.path import join, isfile
from pprint import pprint
Import("env")
Import("env")
if env.MarlinHas("POSTMORTEM_DEBUGGING"):
FRAMEWORK_DIR = env.PioPlatform().get_package_dir("framework-arduinoststm32-maple")
patchflag_path = join(FRAMEWORK_DIR, ".exc-patching-done")
if env.MarlinHas("POSTMORTEM_DEBUGGING"):
FRAMEWORK_DIR = env.PioPlatform().get_package_dir("framework-arduinoststm32-maple")
patchflag_path = join(FRAMEWORK_DIR, ".exc-patching-done")
# patch file only if we didn't do it before
if not isfile(patchflag_path):
print("Patching libmaple exception handlers")
original_file = join(FRAMEWORK_DIR, "STM32F1", "cores", "maple", "libmaple", "exc.S")
backup_file = join(FRAMEWORK_DIR, "STM32F1", "cores", "maple", "libmaple", "exc.S.bak")
src_file = join("buildroot", "share", "PlatformIO", "scripts", "exc.S")
# patch file only if we didn't do it before
if not isfile(patchflag_path):
print("Patching libmaple exception handlers")
original_file = join(FRAMEWORK_DIR, "STM32F1", "cores", "maple", "libmaple", "exc.S")
backup_file = join(FRAMEWORK_DIR, "STM32F1", "cores", "maple", "libmaple", "exc.S.bak")
src_file = join("buildroot", "share", "PlatformIO", "scripts", "exc.S")
assert isfile(original_file) and isfile(src_file)
shutil.copyfile(original_file, backup_file)
shutil.copyfile(src_file, original_file);
assert isfile(original_file) and isfile(src_file)
shutil.copyfile(original_file, backup_file)
shutil.copyfile(src_file, original_file);
def _touch(path):
with open(path, "w") as fp:
fp.write("")
def _touch(path):
with open(path, "w") as fp:
fp.write("")
env.Execute(lambda *args, **kwargs: _touch(patchflag_path))
print("Done patching exception handler")
env.Execute(lambda *args, **kwargs: _touch(patchflag_path))
print("Done patching exception handler")
print("Libmaple modified and ready for post mortem debugging")
print("Libmaple modified and ready for post mortem debugging")

View File

@ -7,52 +7,52 @@
#
import pioutil
if pioutil.is_pio_build():
import shutil,marlin
from pathlib import Path
import shutil,marlin
from pathlib import Path
#
# Get the platform name from the 'platform_packages' option,
# or look it up by the platform.class.name.
#
env = marlin.env
platform = env.PioPlatform()
#
# Get the platform name from the 'platform_packages' option,
# or look it up by the platform.class.name.
#
env = marlin.env
platform = env.PioPlatform()
from platformio.package.meta import PackageSpec
platform_packages = env.GetProjectOption('platform_packages')
from platformio.package.meta import PackageSpec
platform_packages = env.GetProjectOption('platform_packages')
# Remove all tool items from platform_packages
platform_packages = [x for x in platform_packages if not x.startswith("platformio/tool-")]
# Remove all tool items from platform_packages
platform_packages = [x for x in platform_packages if not x.startswith("platformio/tool-")]
if len(platform_packages) == 0:
framewords = {
"Ststm32Platform": "framework-arduinoststm32",
"AtmelavrPlatform": "framework-arduino-avr"
}
platform_name = framewords[platform.__class__.__name__]
else:
platform_name = PackageSpec(platform_packages[0]).name
if len(platform_packages) == 0:
framewords = {
"Ststm32Platform": "framework-arduinoststm32",
"AtmelavrPlatform": "framework-arduino-avr"
}
platform_name = framewords[platform.__class__.__name__]
else:
platform_name = PackageSpec(platform_packages[0]).name
if platform_name in [ "usb-host-msc", "usb-host-msc-cdc-msc", "usb-host-msc-cdc-msc-2", "usb-host-msc-cdc-msc-3", "tool-stm32duino", "biqu-bx-workaround", "main" ]:
platform_name = "framework-arduinoststm32"
if platform_name in [ "usb-host-msc", "usb-host-msc-cdc-msc", "usb-host-msc-cdc-msc-2", "usb-host-msc-cdc-msc-3", "tool-stm32duino", "biqu-bx-workaround", "main" ]:
platform_name = "framework-arduinoststm32"
FRAMEWORK_DIR = Path(platform.get_package_dir(platform_name))
assert FRAMEWORK_DIR.is_dir()
FRAMEWORK_DIR = Path(platform.get_package_dir(platform_name))
assert FRAMEWORK_DIR.is_dir()
board = env.BoardConfig()
board = env.BoardConfig()
#mcu_type = board.get("build.mcu")[:-2]
variant = board.get("build.variant")
#series = mcu_type[:7].upper() + "xx"
#mcu_type = board.get("build.mcu")[:-2]
variant = board.get("build.variant")
#series = mcu_type[:7].upper() + "xx"
# Prepare a new empty folder at the destination
variant_dir = FRAMEWORK_DIR / "variants" / variant
if variant_dir.is_dir():
shutil.rmtree(variant_dir)
if not variant_dir.is_dir():
variant_dir.mkdir()
# Prepare a new empty folder at the destination
variant_dir = FRAMEWORK_DIR / "variants" / variant
if variant_dir.is_dir():
shutil.rmtree(variant_dir)
if not variant_dir.is_dir():
variant_dir.mkdir()
# Source dir is a local variant sub-folder
source_dir = Path("buildroot/share/PlatformIO/variants", variant)
assert source_dir.is_dir()
# Source dir is a local variant sub-folder
source_dir = Path("buildroot/share/PlatformIO/variants", variant)
assert source_dir.is_dir()
marlin.copytree(source_dir, variant_dir)
marlin.copytree(source_dir, variant_dir)

View File

@ -5,31 +5,31 @@
import pioutil
if pioutil.is_pio_build():
# Append ${PROGNAME}.bin firmware after bootloader and save it as 'jgaurora_firmware.bin'
def addboot(source, target, env):
from pathlib import Path
# Append ${PROGNAME}.bin firmware after bootloader and save it as 'jgaurora_firmware.bin'
def addboot(source, target, env):
from pathlib import Path
fw_path = Path(target[0].path)
fwb_path = fw_path.parent / 'firmware_with_bootloader.bin'
with fwb_path.open("wb") as fwb_file:
bl_path = Path("buildroot/share/PlatformIO/scripts/jgaurora_bootloader.bin")
bl_file = bl_path.open("rb")
while True:
b = bl_file.read(1)
if b == b'': break
else: fwb_file.write(b)
fw_path = Path(target[0].path)
fwb_path = fw_path.parent / 'firmware_with_bootloader.bin'
with fwb_path.open("wb") as fwb_file:
bl_path = Path("buildroot/share/PlatformIO/scripts/jgaurora_bootloader.bin")
bl_file = bl_path.open("rb")
while True:
b = bl_file.read(1)
if b == b'': break
else: fwb_file.write(b)
with fw_path.open("rb") as fw_file:
while True:
b = fw_file.read(1)
if b == b'': break
else: fwb_file.write(b)
with fw_path.open("rb") as fw_file:
while True:
b = fw_file.read(1)
if b == b'': break
else: fwb_file.write(b)
fws_path = Path(target[0].dir.path, 'firmware_for_sd_upload.bin')
if fws_path.exists():
fws_path.unlink()
fws_path = Path(target[0].dir.path, 'firmware_for_sd_upload.bin')
if fws_path.exists():
fws_path.unlink()
fw_path.rename(fws_path)
fw_path.rename(fws_path)
import marlin
marlin.add_post_action(addboot);
import marlin
marlin.add_post_action(addboot);

View File

@ -7,41 +7,41 @@
#
import pioutil
if pioutil.is_pio_build():
import os,marlin
import os,marlin
board = marlin.env.BoardConfig()
board = marlin.env.BoardConfig()
def encryptByte(byte):
byte = 0xFF & ((byte << 6) | (byte >> 2))
i = 0x58 + byte
j = 0x05 + byte + (i >> 8)
byte = (0xF8 & i) | (0x07 & j)
return byte
def encryptByte(byte):
byte = 0xFF & ((byte << 6) | (byte >> 2))
i = 0x58 + byte
j = 0x05 + byte + (i >> 8)
byte = (0xF8 & i) | (0x07 & j)
return byte
def encrypt_file(input, output_file, file_length):
input_file = bytearray(input.read())
for i in range(len(input_file)):
input_file[i] = encryptByte(input_file[i])
output_file.write(input_file)
def encrypt_file(input, output_file, file_length):
input_file = bytearray(input.read())
for i in range(len(input_file)):
input_file[i] = encryptByte(input_file[i])
output_file.write(input_file)
# Encrypt ${PROGNAME}.bin and save it with the name given in build.crypt_lerdge
def encrypt(source, target, env):
fwpath = target[0].path
enname = board.get("build.crypt_lerdge")
print("Encrypting %s to %s" % (fwpath, enname))
fwfile = open(fwpath, "rb")
enfile = open(target[0].dir.path + "/" + enname, "wb")
length = os.path.getsize(fwpath)
# Encrypt ${PROGNAME}.bin and save it with the name given in build.crypt_lerdge
def encrypt(source, target, env):
fwpath = target[0].path
enname = board.get("build.crypt_lerdge")
print("Encrypting %s to %s" % (fwpath, enname))
fwfile = open(fwpath, "rb")
enfile = open(target[0].dir.path + "/" + enname, "wb")
length = os.path.getsize(fwpath)
encrypt_file(fwfile, enfile, length)
encrypt_file(fwfile, enfile, length)
fwfile.close()
enfile.close()
os.remove(fwpath)
fwfile.close()
enfile.close()
os.remove(fwpath)
if 'crypt_lerdge' in board.get("build").keys():
if board.get("build.crypt_lerdge") != "":
marlin.add_post_action(encrypt)
else:
print("LERDGE builds require output file via board_build.crypt_lerdge = 'filename' parameter")
exit(1)
if 'crypt_lerdge' in board.get("build").keys():
if board.get("build.crypt_lerdge") != "":
marlin.add_post_action(encrypt)
else:
print("LERDGE builds require output file via board_build.crypt_lerdge = 'filename' parameter")
exit(1)

View File

@ -9,64 +9,64 @@ from SCons.Script import DefaultEnvironment
env = DefaultEnvironment()
def copytree(src, dst, symlinks=False, ignore=None):
for item in src.iterdir():
if item.is_dir():
shutil.copytree(item, dst / item.name, symlinks, ignore)
else:
shutil.copy2(item, dst / item.name)
for item in src.iterdir():
if item.is_dir():
shutil.copytree(item, dst / item.name, symlinks, ignore)
else:
shutil.copy2(item, dst / item.name)
def replace_define(field, value):
for define in env['CPPDEFINES']:
if define[0] == field:
env['CPPDEFINES'].remove(define)
env['CPPDEFINES'].append((field, value))
for define in env['CPPDEFINES']:
if define[0] == field:
env['CPPDEFINES'].remove(define)
env['CPPDEFINES'].append((field, value))
# Relocate the firmware to a new address, such as "0x08005000"
def relocate_firmware(address):
replace_define("VECT_TAB_ADDR", address)
replace_define("VECT_TAB_ADDR", address)
# Relocate the vector table with a new offset
def relocate_vtab(address):
replace_define("VECT_TAB_OFFSET", address)
replace_define("VECT_TAB_OFFSET", address)
# Replace the existing -Wl,-T with the given ldscript path
def custom_ld_script(ldname):
apath = str(Path("buildroot/share/PlatformIO/ldscripts", ldname).resolve())
for i, flag in enumerate(env["LINKFLAGS"]):
if "-Wl,-T" in flag:
env["LINKFLAGS"][i] = "-Wl,-T" + apath
elif flag == "-T":
env["LINKFLAGS"][i + 1] = apath
apath = str(Path("buildroot/share/PlatformIO/ldscripts", ldname).resolve())
for i, flag in enumerate(env["LINKFLAGS"]):
if "-Wl,-T" in flag:
env["LINKFLAGS"][i] = "-Wl,-T" + apath
elif flag == "-T":
env["LINKFLAGS"][i + 1] = apath
# Encrypt ${PROGNAME}.bin and save it with a new name. This applies (mostly) to MKS boards
# This PostAction is set up by offset_and_rename.py for envs with 'build.encrypt_mks'.
def encrypt_mks(source, target, env, new_name):
import sys
import sys
key = [0xA3, 0xBD, 0xAD, 0x0D, 0x41, 0x11, 0xBB, 0x8D, 0xDC, 0x80, 0x2D, 0xD0, 0xD2, 0xC4, 0x9B, 0x1E, 0x26, 0xEB, 0xE3, 0x33, 0x4A, 0x15, 0xE4, 0x0A, 0xB3, 0xB1, 0x3C, 0x93, 0xBB, 0xAF, 0xF7, 0x3E]
key = [0xA3, 0xBD, 0xAD, 0x0D, 0x41, 0x11, 0xBB, 0x8D, 0xDC, 0x80, 0x2D, 0xD0, 0xD2, 0xC4, 0x9B, 0x1E, 0x26, 0xEB, 0xE3, 0x33, 0x4A, 0x15, 0xE4, 0x0A, 0xB3, 0xB1, 0x3C, 0x93, 0xBB, 0xAF, 0xF7, 0x3E]
# If FIRMWARE_BIN is defined by config, override all
mf = env["MARLIN_FEATURES"]
if "FIRMWARE_BIN" in mf: new_name = mf["FIRMWARE_BIN"]
# If FIRMWARE_BIN is defined by config, override all
mf = env["MARLIN_FEATURES"]
if "FIRMWARE_BIN" in mf: new_name = mf["FIRMWARE_BIN"]
fwpath = Path(target[0].path)
fwfile = fwpath.open("rb")
enfile = Path(target[0].dir.path, new_name).open("wb")
length = fwpath.stat().st_size
position = 0
try:
while position < length:
byte = fwfile.read(1)
if 320 <= position < 31040:
byte = chr(ord(byte) ^ key[position & 31])
if sys.version_info[0] > 2:
byte = bytes(byte, 'latin1')
enfile.write(byte)
position += 1
finally:
fwfile.close()
enfile.close()
fwpath.unlink()
fwpath = Path(target[0].path)
fwfile = fwpath.open("rb")
enfile = Path(target[0].dir.path, new_name).open("wb")
length = fwpath.stat().st_size
position = 0
try:
while position < length:
byte = fwfile.read(1)
if 320 <= position < 31040:
byte = chr(ord(byte) ^ key[position & 31])
if sys.version_info[0] > 2:
byte = bytes(byte, 'latin1')
enfile.write(byte)
position += 1
finally:
fwfile.close()
enfile.close()
fwpath.unlink()
def add_post_action(action):
env.AddPostAction(str(Path("$BUILD_DIR", "${PROGNAME}.bin")), action);
env.AddPostAction(str(Path("$BUILD_DIR", "${PROGNAME}.bin")), action);

View File

@ -11,59 +11,59 @@ opt_output = '--opt' in sys.argv
output_suffix = '.sh' if opt_output else '' if '--bare-output' in sys.argv else '.gen'
try:
with open('marlin_config.json', 'r') as infile:
conf = json.load(infile)
for key in conf:
# We don't care about the hash when restoring here
if key == '__INITIAL_HASH':
continue
if key == 'VERSION':
for k, v in sorted(conf[key].items()):
print(k + ': ' + v)
continue
# The key is the file name, so let's build it now
outfile = open('Marlin/' + key + output_suffix, 'w')
for k, v in sorted(conf[key].items()):
# Make define line now
if opt_output:
if v != '':
if '"' in v:
v = "'%s'" % v
elif ' ' in v:
v = '"%s"' % v
define = 'opt_set ' + k + ' ' + v + '\n'
else:
define = 'opt_enable ' + k + '\n'
else:
define = '#define ' + k + ' ' + v + '\n'
outfile.write(define)
outfile.close()
with open('marlin_config.json', 'r') as infile:
conf = json.load(infile)
for key in conf:
# We don't care about the hash when restoring here
if key == '__INITIAL_HASH':
continue
if key == 'VERSION':
for k, v in sorted(conf[key].items()):
print(k + ': ' + v)
continue
# The key is the file name, so let's build it now
outfile = open('Marlin/' + key + output_suffix, 'w')
for k, v in sorted(conf[key].items()):
# Make define line now
if opt_output:
if v != '':
if '"' in v:
v = "'%s'" % v
elif ' ' in v:
v = '"%s"' % v
define = 'opt_set ' + k + ' ' + v + '\n'
else:
define = 'opt_enable ' + k + '\n'
else:
define = '#define ' + k + ' ' + v + '\n'
outfile.write(define)
outfile.close()
# Try to apply changes to the actual configuration file (in order to keep useful comments)
if output_suffix != '':
# Move the existing configuration so it doesn't interfere
shutil.move('Marlin/' + key, 'Marlin/' + key + '.orig')
infile_lines = open('Marlin/' + key + '.orig', 'r').read().split('\n')
outfile = open('Marlin/' + key, 'w')
for line in infile_lines:
sline = line.strip(" \t\n\r")
if sline[:7] == "#define":
# Extract the key here (we don't care about the value)
kv = sline[8:].strip().split(' ')
if kv[0] in conf[key]:
outfile.write('#define ' + kv[0] + ' ' + conf[key][kv[0]] + '\n')
# Remove the key from the dict, so we can still write all missing keys at the end of the file
del conf[key][kv[0]]
else:
outfile.write(line + '\n')
else:
outfile.write(line + '\n')
# Process any remaining defines here
for k, v in sorted(conf[key].items()):
define = '#define ' + k + ' ' + v + '\n'
outfile.write(define)
outfile.close()
# Try to apply changes to the actual configuration file (in order to keep useful comments)
if output_suffix != '':
# Move the existing configuration so it doesn't interfere
shutil.move('Marlin/' + key, 'Marlin/' + key + '.orig')
infile_lines = open('Marlin/' + key + '.orig', 'r').read().split('\n')
outfile = open('Marlin/' + key, 'w')
for line in infile_lines:
sline = line.strip(" \t\n\r")
if sline[:7] == "#define":
# Extract the key here (we don't care about the value)
kv = sline[8:].strip().split(' ')
if kv[0] in conf[key]:
outfile.write('#define ' + kv[0] + ' ' + conf[key][kv[0]] + '\n')
# Remove the key from the dict, so we can still write all missing keys at the end of the file
del conf[key][kv[0]]
else:
outfile.write(line + '\n')
else:
outfile.write(line + '\n')
# Process any remaining defines here
for k, v in sorted(conf[key].items()):
define = '#define ' + k + ' ' + v + '\n'
outfile.write(define)
outfile.close()
print('Output configuration written to: ' + 'Marlin/' + key + output_suffix)
print('Output configuration written to: ' + 'Marlin/' + key + output_suffix)
except:
print('No marlin_config.json found.')
print('No marlin_config.json found.')

View File

@ -2,59 +2,59 @@
# offset_and_rename.py
#
# - If 'build.offset' is provided, either by JSON or by the environment...
# - Set linker flag LD_FLASH_OFFSET and relocate the VTAB based on 'build.offset'.
# - Set linker flag LD_MAX_DATA_SIZE based on 'build.maximum_ram_size'.
# - Define STM32_FLASH_SIZE from 'upload.maximum_size' for use by Flash-based EEPROM emulation.
# - Set linker flag LD_FLASH_OFFSET and relocate the VTAB based on 'build.offset'.
# - Set linker flag LD_MAX_DATA_SIZE based on 'build.maximum_ram_size'.
# - Define STM32_FLASH_SIZE from 'upload.maximum_size' for use by Flash-based EEPROM emulation.
#
# - For 'board_build.rename' add a post-action to rename the firmware file.
#
import pioutil
if pioutil.is_pio_build():
import sys,marlin
import sys,marlin
env = marlin.env
board = env.BoardConfig()
board_keys = board.get("build").keys()
env = marlin.env
board = env.BoardConfig()
board_keys = board.get("build").keys()
#
# For build.offset define LD_FLASH_OFFSET, used by ldscript.ld
#
if 'offset' in board_keys:
LD_FLASH_OFFSET = board.get("build.offset")
marlin.relocate_vtab(LD_FLASH_OFFSET)
#
# For build.offset define LD_FLASH_OFFSET, used by ldscript.ld
#
if 'offset' in board_keys:
LD_FLASH_OFFSET = board.get("build.offset")
marlin.relocate_vtab(LD_FLASH_OFFSET)
# Flash size
maximum_flash_size = int(board.get("upload.maximum_size") / 1024)
marlin.replace_define('STM32_FLASH_SIZE', maximum_flash_size)
# Flash size
maximum_flash_size = int(board.get("upload.maximum_size") / 1024)
marlin.replace_define('STM32_FLASH_SIZE', maximum_flash_size)
# Get upload.maximum_ram_size (defined by /buildroot/share/PlatformIO/boards/VARIOUS.json)
maximum_ram_size = board.get("upload.maximum_ram_size")
# Get upload.maximum_ram_size (defined by /buildroot/share/PlatformIO/boards/VARIOUS.json)
maximum_ram_size = board.get("upload.maximum_ram_size")
for i, flag in enumerate(env["LINKFLAGS"]):
if "-Wl,--defsym=LD_FLASH_OFFSET" in flag:
env["LINKFLAGS"][i] = "-Wl,--defsym=LD_FLASH_OFFSET=" + LD_FLASH_OFFSET
if "-Wl,--defsym=LD_MAX_DATA_SIZE" in flag:
env["LINKFLAGS"][i] = "-Wl,--defsym=LD_MAX_DATA_SIZE=" + str(maximum_ram_size - 40)
for i, flag in enumerate(env["LINKFLAGS"]):
if "-Wl,--defsym=LD_FLASH_OFFSET" in flag:
env["LINKFLAGS"][i] = "-Wl,--defsym=LD_FLASH_OFFSET=" + LD_FLASH_OFFSET
if "-Wl,--defsym=LD_MAX_DATA_SIZE" in flag:
env["LINKFLAGS"][i] = "-Wl,--defsym=LD_MAX_DATA_SIZE=" + str(maximum_ram_size - 40)
#
# For build.encrypt_mks rename and encode the firmware file.
#
if 'encrypt_mks' in board_keys:
#
# For build.encrypt_mks rename and encode the firmware file.
#
if 'encrypt_mks' in board_keys:
# Encrypt ${PROGNAME}.bin and save it with the name given in build.encrypt_mks
def encrypt(source, target, env):
marlin.encrypt_mks(source, target, env, board.get("build.encrypt_mks"))
# Encrypt ${PROGNAME}.bin and save it with the name given in build.encrypt_mks
def encrypt(source, target, env):
marlin.encrypt_mks(source, target, env, board.get("build.encrypt_mks"))
if board.get("build.encrypt_mks") != "":
marlin.add_post_action(encrypt)
if board.get("build.encrypt_mks") != "":
marlin.add_post_action(encrypt)
#
# For build.rename simply rename the firmware file.
#
if 'rename' in board_keys:
#
# For build.rename simply rename the firmware file.
#
if 'rename' in board_keys:
def rename_target(source, target, env):
from pathlib import Path
Path(target[0].path).replace(Path(target[0].dir.path, board.get("build.rename")))
def rename_target(source, target, env):
from pathlib import Path
Path(target[0].path).replace(Path(target[0].dir.path, board.get("build.rename")))
marlin.add_post_action(rename_target)
marlin.add_post_action(rename_target)

View File

@ -3,18 +3,18 @@
#
import pioutil
if pioutil.is_pio_build():
import os,sys
from os.path import join
import os,sys
from os.path import join
Import("env")
Import("env")
board = env.BoardConfig()
board_keys = board.get("build").keys()
if 'encode' in board_keys:
env.AddPostAction(
join("$BUILD_DIR", "${PROGNAME}.bin"),
env.VerboseAction(" ".join([
"$OBJCOPY", "-O", "srec",
"\"$BUILD_DIR/${PROGNAME}.elf\"", "\"" + join("$BUILD_DIR", board.get("build.encode")) + "\""
]), "Building " + board.get("build.encode"))
)
board = env.BoardConfig()
board_keys = board.get("build").keys()
if 'encode' in board_keys:
env.AddPostAction(
join("$BUILD_DIR", "${PROGNAME}.bin"),
env.VerboseAction(" ".join([
"$OBJCOPY", "-O", "srec",
"\"$BUILD_DIR/${PROGNAME}.elf\"", "\"" + join("$BUILD_DIR", board.get("build.encode")) + "\""
]), "Building " + board.get("build.encode"))
)

View File

@ -4,10 +4,10 @@
# Make sure 'vscode init' is not the current command
def is_pio_build():
from SCons.Script import DefaultEnvironment
env = DefaultEnvironment()
return not env.IsIntegrationDump()
from SCons.Script import DefaultEnvironment
env = DefaultEnvironment()
return not env.IsIntegrationDump()
def get_pio_version():
from platformio import util
return util.pioversion_to_intstr()
from platformio import util
return util.pioversion_to_intstr()

View File

@ -5,123 +5,123 @@
import pioutil
if pioutil.is_pio_build():
import os,re,sys
from pathlib import Path
Import("env")
import os,re,sys
from pathlib import Path
Import("env")
def get_envs_for_board(board):
ppath = Path("Marlin/src/pins/pins.h")
with ppath.open() as file:
def get_envs_for_board(board):
ppath = Path("Marlin/src/pins/pins.h")
with ppath.open() as file:
if sys.platform == 'win32':
envregex = r"(?:env|win):"
elif sys.platform == 'darwin':
envregex = r"(?:env|mac|uni):"
elif sys.platform == 'linux':
envregex = r"(?:env|lin|uni):"
else:
envregex = r"(?:env):"
if sys.platform == 'win32':
envregex = r"(?:env|win):"
elif sys.platform == 'darwin':
envregex = r"(?:env|mac|uni):"
elif sys.platform == 'linux':
envregex = r"(?:env|lin|uni):"
else:
envregex = r"(?:env):"
r = re.compile(r"if\s+MB\((.+)\)")
if board.startswith("BOARD_"):
board = board[6:]
r = re.compile(r"if\s+MB\((.+)\)")
if board.startswith("BOARD_"):
board = board[6:]
for line in file:
mbs = r.findall(line)
if mbs and board in re.split(r",\s*", mbs[0]):
line = file.readline()
found_envs = re.match(r"\s*#include .+" + envregex, line)
if found_envs:
envlist = re.findall(envregex + r"(\w+)", line)
return [ "env:"+s for s in envlist ]
return []
for line in file:
mbs = r.findall(line)
if mbs and board in re.split(r",\s*", mbs[0]):
line = file.readline()
found_envs = re.match(r"\s*#include .+" + envregex, line)
if found_envs:
envlist = re.findall(envregex + r"(\w+)", line)
return [ "env:"+s for s in envlist ]
return []
def check_envs(build_env, board_envs, config):
if build_env in board_envs:
return True
ext = config.get(build_env, 'extends', default=None)
if ext:
if isinstance(ext, str):
return check_envs(ext, board_envs, config)
elif isinstance(ext, list):
for ext_env in ext:
if check_envs(ext_env, board_envs, config):
return True
return False
def check_envs(build_env, board_envs, config):
if build_env in board_envs:
return True
ext = config.get(build_env, 'extends', default=None)
if ext:
if isinstance(ext, str):
return check_envs(ext, board_envs, config)
elif isinstance(ext, list):
for ext_env in ext:
if check_envs(ext_env, board_envs, config):
return True
return False
def sanity_check_target():
# Sanity checks:
if 'PIOENV' not in env:
raise SystemExit("Error: PIOENV is not defined. This script is intended to be used with PlatformIO")
def sanity_check_target():
# Sanity checks:
if 'PIOENV' not in env:
raise SystemExit("Error: PIOENV is not defined. This script is intended to be used with PlatformIO")
# Require PlatformIO 6.1.1 or later
vers = pioutil.get_pio_version()
if vers < [6, 1, 1]:
raise SystemExit("Error: Marlin requires PlatformIO >= 6.1.1. Use 'pio upgrade' to get a newer version.")
# Require PlatformIO 6.1.1 or later
vers = pioutil.get_pio_version()
if vers < [6, 1, 1]:
raise SystemExit("Error: Marlin requires PlatformIO >= 6.1.1. Use 'pio upgrade' to get a newer version.")
if 'MARLIN_FEATURES' not in env:
raise SystemExit("Error: this script should be used after common Marlin scripts")
if 'MARLIN_FEATURES' not in env:
raise SystemExit("Error: this script should be used after common Marlin scripts")
if 'MOTHERBOARD' not in env['MARLIN_FEATURES']:
raise SystemExit("Error: MOTHERBOARD is not defined in Configuration.h")
if 'MOTHERBOARD' not in env['MARLIN_FEATURES']:
raise SystemExit("Error: MOTHERBOARD is not defined in Configuration.h")
build_env = env['PIOENV']
motherboard = env['MARLIN_FEATURES']['MOTHERBOARD']
board_envs = get_envs_for_board(motherboard)
config = env.GetProjectConfig()
result = check_envs("env:"+build_env, board_envs, config)
build_env = env['PIOENV']
motherboard = env['MARLIN_FEATURES']['MOTHERBOARD']
board_envs = get_envs_for_board(motherboard)
config = env.GetProjectConfig()
result = check_envs("env:"+build_env, board_envs, config)
if not result:
err = "Error: Build environment '%s' is incompatible with %s. Use one of these: %s" % \
( build_env, motherboard, ", ".join([ e[4:] for e in board_envs if e.startswith("env:") ]) )
raise SystemExit(err)
if not result:
err = "Error: Build environment '%s' is incompatible with %s. Use one of these: %s" % \
( build_env, motherboard, ", ".join([ e[4:] for e in board_envs if e.startswith("env:") ]) )
raise SystemExit(err)
#
# Check for Config files in two common incorrect places
#
epath = Path(env['PROJECT_DIR'])
for p in [ epath, epath / "config" ]:
for f in ("Configuration.h", "Configuration_adv.h"):
if (p / f).is_file():
err = "ERROR: Config files found in directory %s. Please move them into the Marlin subfolder." % p
raise SystemExit(err)
#
# Check for Config files in two common incorrect places
#
epath = Path(env['PROJECT_DIR'])
for p in [ epath, epath / "config" ]:
for f in ("Configuration.h", "Configuration_adv.h"):
if (p / f).is_file():
err = "ERROR: Config files found in directory %s. Please move them into the Marlin subfolder." % p
raise SystemExit(err)
#
# Find the name.cpp.o or name.o and remove it
#
def rm_ofile(subdir, name):
build_dir = Path(env['PROJECT_BUILD_DIR'], build_env);
for outdir in (build_dir, build_dir / "debug"):
for ext in (".cpp.o", ".o"):
fpath = outdir / "src/src" / subdir / (name + ext)
if fpath.exists():
fpath.unlink()
#
# Find the name.cpp.o or name.o and remove it
#
def rm_ofile(subdir, name):
build_dir = Path(env['PROJECT_BUILD_DIR'], build_env);
for outdir in (build_dir, build_dir / "debug"):
for ext in (".cpp.o", ".o"):
fpath = outdir / "src/src" / subdir / (name + ext)
if fpath.exists():
fpath.unlink()
#
# Give warnings on every build
#
rm_ofile("inc", "Warnings")
#
# Give warnings on every build
#
rm_ofile("inc", "Warnings")
#
# Rebuild 'settings.cpp' for EEPROM_INIT_NOW
#
if 'EEPROM_INIT_NOW' in env['MARLIN_FEATURES']:
rm_ofile("module", "settings")
#
# Rebuild 'settings.cpp' for EEPROM_INIT_NOW
#
if 'EEPROM_INIT_NOW' in env['MARLIN_FEATURES']:
rm_ofile("module", "settings")
#
# Check for old files indicating an entangled Marlin (mixing old and new code)
#
mixedin = []
p = Path(env['PROJECT_DIR'], "Marlin/src/lcd/dogm")
for f in [ "ultralcd_DOGM.cpp", "ultralcd_DOGM.h" ]:
if (p / f).is_file():
mixedin += [ f ]
p = Path(env['PROJECT_DIR'], "Marlin/src/feature/bedlevel/abl")
for f in [ "abl.cpp", "abl.h" ]:
if (p / f).is_file():
mixedin += [ f ]
if mixedin:
err = "ERROR: Old files fell into your Marlin folder. Remove %s and try again" % ", ".join(mixedin)
raise SystemExit(err)
#
# Check for old files indicating an entangled Marlin (mixing old and new code)
#
mixedin = []
p = Path(env['PROJECT_DIR'], "Marlin/src/lcd/dogm")
for f in [ "ultralcd_DOGM.cpp", "ultralcd_DOGM.h" ]:
if (p / f).is_file():
mixedin += [ f ]
p = Path(env['PROJECT_DIR'], "Marlin/src/feature/bedlevel/abl")
for f in [ "abl.cpp", "abl.h" ]:
if (p / f).is_file():
mixedin += [ f ]
if mixedin:
err = "ERROR: Old files fell into your Marlin folder. Remove %s and try again" % ", ".join(mixedin)
raise SystemExit(err)
sanity_check_target()
sanity_check_target()

View File

@ -7,8 +7,8 @@ nocache = 1
verbose = 0
def blab(str):
if verbose:
print(str)
if verbose:
print(str)
################################################################################
#
@ -16,36 +16,36 @@ def blab(str):
#
preprocessor_cache = {}
def run_preprocessor(env, fn=None):
filename = fn or 'buildroot/share/PlatformIO/scripts/common-dependencies.h'
if filename in preprocessor_cache:
return preprocessor_cache[filename]
filename = fn or 'buildroot/share/PlatformIO/scripts/common-dependencies.h'
if filename in preprocessor_cache:
return preprocessor_cache[filename]
# Process defines
build_flags = env.get('BUILD_FLAGS')
build_flags = env.ParseFlagsExtended(build_flags)
# Process defines
build_flags = env.get('BUILD_FLAGS')
build_flags = env.ParseFlagsExtended(build_flags)
cxx = search_compiler(env)
cmd = ['"' + cxx + '"']
cxx = search_compiler(env)
cmd = ['"' + cxx + '"']
# Build flags from board.json
#if 'BOARD' in env:
# cmd += [env.BoardConfig().get("build.extra_flags")]
for s in build_flags['CPPDEFINES']:
if isinstance(s, tuple):
cmd += ['-D' + s[0] + '=' + str(s[1])]
else:
cmd += ['-D' + s]
# Build flags from board.json
#if 'BOARD' in env:
# cmd += [env.BoardConfig().get("build.extra_flags")]
for s in build_flags['CPPDEFINES']:
if isinstance(s, tuple):
cmd += ['-D' + s[0] + '=' + str(s[1])]
else:
cmd += ['-D' + s]
cmd += ['-D__MARLIN_DEPS__ -w -dM -E -x c++']
depcmd = cmd + [ filename ]
cmd = ' '.join(depcmd)
blab(cmd)
try:
define_list = subprocess.check_output(cmd, shell=True).splitlines()
except:
define_list = {}
preprocessor_cache[filename] = define_list
return define_list
cmd += ['-D__MARLIN_DEPS__ -w -dM -E -x c++']
depcmd = cmd + [ filename ]
cmd = ' '.join(depcmd)
blab(cmd)
try:
define_list = subprocess.check_output(cmd, shell=True).splitlines()
except:
define_list = {}
preprocessor_cache[filename] = define_list
return define_list
################################################################################
@ -54,41 +54,41 @@ def run_preprocessor(env, fn=None):
#
def search_compiler(env):
from pathlib import Path, PurePath
from pathlib import Path, PurePath
ENV_BUILD_PATH = Path(env['PROJECT_BUILD_DIR'], env['PIOENV'])
GCC_PATH_CACHE = ENV_BUILD_PATH / ".gcc_path"
ENV_BUILD_PATH = Path(env['PROJECT_BUILD_DIR'], env['PIOENV'])
GCC_PATH_CACHE = ENV_BUILD_PATH / ".gcc_path"
try:
gccpath = env.GetProjectOption('custom_gcc')
blab("Getting compiler from env")
return gccpath
except:
pass
try:
gccpath = env.GetProjectOption('custom_gcc')
blab("Getting compiler from env")
return gccpath
except:
pass
# Warning: The cached .gcc_path will obscure a newly-installed toolkit
if not nocache and GCC_PATH_CACHE.exists():
blab("Getting g++ path from cache")
return GCC_PATH_CACHE.read_text()
# Warning: The cached .gcc_path will obscure a newly-installed toolkit
if not nocache and GCC_PATH_CACHE.exists():
blab("Getting g++ path from cache")
return GCC_PATH_CACHE.read_text()
# Use any item in $PATH corresponding to a platformio toolchain bin folder
path_separator = ':'
gcc_exe = '*g++'
if env['PLATFORM'] == 'win32':
path_separator = ';'
gcc_exe += ".exe"
# Use any item in $PATH corresponding to a platformio toolchain bin folder
path_separator = ':'
gcc_exe = '*g++'
if env['PLATFORM'] == 'win32':
path_separator = ';'
gcc_exe += ".exe"
# Search for the compiler in PATH
for ppath in map(Path, env['ENV']['PATH'].split(path_separator)):
if ppath.match(env['PROJECT_PACKAGES_DIR'] + "/**/bin"):
for gpath in ppath.glob(gcc_exe):
gccpath = str(gpath.resolve())
# Cache the g++ path to no search always
if not nocache and ENV_BUILD_PATH.exists():
blab("Caching g++ for current env")
GCC_PATH_CACHE.write_text(gccpath)
return gccpath
# Search for the compiler in PATH
for ppath in map(Path, env['ENV']['PATH'].split(path_separator)):
if ppath.match(env['PROJECT_PACKAGES_DIR'] + "/**/bin"):
for gpath in ppath.glob(gcc_exe):
gccpath = str(gpath.resolve())
# Cache the g++ path to no search always
if not nocache and ENV_BUILD_PATH.exists():
blab("Caching g++ for current env")
GCC_PATH_CACHE.write_text(gccpath)
return gccpath
gccpath = env.get('CXX')
blab("Couldn't find a compiler! Fallback to %s" % gccpath)
return gccpath
gccpath = env.get('CXX')
blab("Couldn't find a compiler! Fallback to %s" % gccpath)
return gccpath

View File

@ -4,6 +4,6 @@
#
import pioutil
if pioutil.is_pio_build():
from datetime import datetime
Import("env")
env['PROGNAME'] = datetime.now().strftime("firmware-%Y%m%d-%H%M%S")
from datetime import datetime
Import("env")
env['PROGNAME'] = datetime.now().strftime("firmware-%Y%m%d-%H%M%S")

View File

@ -9,413 +9,413 @@ import re,json
from pathlib import Path
def extend_dict(d:dict, k:tuple):
if len(k) >= 1 and k[0] not in d:
d[k[0]] = {}
if len(k) >= 2 and k[1] not in d[k[0]]:
d[k[0]][k[1]] = {}
if len(k) >= 3 and k[2] not in d[k[0]][k[1]]:
d[k[0]][k[1]][k[2]] = {}
if len(k) >= 1 and k[0] not in d:
d[k[0]] = {}
if len(k) >= 2 and k[1] not in d[k[0]]:
d[k[0]][k[1]] = {}
if len(k) >= 3 and k[2] not in d[k[0]][k[1]]:
d[k[0]][k[1]][k[2]] = {}
grouping_patterns = [
re.compile(r'^([XYZIJKUVW]|[XYZ]2|Z[34]|E[0-7])$'),
re.compile(r'^AXIS\d$'),
re.compile(r'^(MIN|MAX)$'),
re.compile(r'^[0-8]$'),
re.compile(r'^HOTEND[0-7]$'),
re.compile(r'^(HOTENDS|BED|PROBE|COOLER)$'),
re.compile(r'^[XYZIJKUVW]M(IN|AX)$')
re.compile(r'^([XYZIJKUVW]|[XYZ]2|Z[34]|E[0-7])$'),
re.compile(r'^AXIS\d$'),
re.compile(r'^(MIN|MAX)$'),
re.compile(r'^[0-8]$'),
re.compile(r'^HOTEND[0-7]$'),
re.compile(r'^(HOTENDS|BED|PROBE|COOLER)$'),
re.compile(r'^[XYZIJKUVW]M(IN|AX)$')
]
# If the indexed part of the option name matches a pattern
# then add it to the dictionary.
def find_grouping(gdict, filekey, sectkey, optkey, pindex):
optparts = optkey.split('_')
if 1 < len(optparts) > pindex:
for patt in grouping_patterns:
if patt.match(optparts[pindex]):
subkey = optparts[pindex]
modkey = '_'.join(optparts)
optparts[pindex] = '*'
wildkey = '_'.join(optparts)
kkey = f'{filekey}|{sectkey}|{wildkey}'
if kkey not in gdict: gdict[kkey] = []
gdict[kkey].append((subkey, modkey))
optparts = optkey.split('_')
if 1 < len(optparts) > pindex:
for patt in grouping_patterns:
if patt.match(optparts[pindex]):
subkey = optparts[pindex]
modkey = '_'.join(optparts)
optparts[pindex] = '*'
wildkey = '_'.join(optparts)
kkey = f'{filekey}|{sectkey}|{wildkey}'
if kkey not in gdict: gdict[kkey] = []
gdict[kkey].append((subkey, modkey))
# Build a list of potential groups. Only those with multiple items will be grouped.
def group_options(schema):
for pindex in range(10, -1, -1):
found_groups = {}
for filekey, f in schema.items():
for sectkey, s in f.items():
for optkey in s:
find_grouping(found_groups, filekey, sectkey, optkey, pindex)
for pindex in range(10, -1, -1):
found_groups = {}
for filekey, f in schema.items():
for sectkey, s in f.items():
for optkey in s:
find_grouping(found_groups, filekey, sectkey, optkey, pindex)
fkeys = [ k for k in found_groups.keys() ]
for kkey in fkeys:
items = found_groups[kkey]
if len(items) > 1:
f, s, w = kkey.split('|')
extend_dict(schema, (f, s, w)) # Add wildcard group to schema
for subkey, optkey in items: # Add all items to wildcard group
schema[f][s][w][subkey] = schema[f][s][optkey] # Move non-wildcard item to wildcard group
del schema[f][s][optkey]
del found_groups[kkey]
fkeys = [ k for k in found_groups.keys() ]
for kkey in fkeys:
items = found_groups[kkey]
if len(items) > 1:
f, s, w = kkey.split('|')
extend_dict(schema, (f, s, w)) # Add wildcard group to schema
for subkey, optkey in items: # Add all items to wildcard group
schema[f][s][w][subkey] = schema[f][s][optkey] # Move non-wildcard item to wildcard group
del schema[f][s][optkey]
del found_groups[kkey]
# Extract all board names from boards.h
def load_boards():
bpath = Path("Marlin/src/core/boards.h")
if bpath.is_file():
with bpath.open() as bfile:
boards = []
for line in bfile:
if line.startswith("#define BOARD_"):
bname = line.split()[1]
if bname != "BOARD_UNKNOWN": boards.append(bname)
return "['" + "','".join(boards) + "']"
return ''
bpath = Path("Marlin/src/core/boards.h")
if bpath.is_file():
with bpath.open() as bfile:
boards = []
for line in bfile:
if line.startswith("#define BOARD_"):
bname = line.split()[1]
if bname != "BOARD_UNKNOWN": boards.append(bname)
return "['" + "','".join(boards) + "']"
return ''
#
# Extract a schema from the current configuration files
#
def extract():
# Load board names from boards.h
boards = load_boards()
# Load board names from boards.h
boards = load_boards()
# Parsing states
class Parse:
NORMAL = 0 # No condition yet
BLOCK_COMMENT = 1 # Looking for the end of the block comment
EOL_COMMENT = 2 # EOL comment started, maybe add the next comment?
GET_SENSORS = 3 # Gathering temperature sensor options
ERROR = 9 # Syntax error
# Parsing states
class Parse:
NORMAL = 0 # No condition yet
BLOCK_COMMENT = 1 # Looking for the end of the block comment
EOL_COMMENT = 2 # EOL comment started, maybe add the next comment?
GET_SENSORS = 3 # Gathering temperature sensor options
ERROR = 9 # Syntax error
# List of files to process, with shorthand
filekey = { 'Configuration.h':'basic', 'Configuration_adv.h':'advanced' }
# A JSON object to store the data
sch_out = { 'basic':{}, 'advanced':{} }
# Regex for #define NAME [VALUE] [COMMENT] with sanitized line
defgrep = re.compile(r'^(//)?\s*(#define)\s+([A-Za-z0-9_]+)\s*(.*?)\s*(//.+)?$')
# Defines to ignore
ignore = ('CONFIGURATION_H_VERSION', 'CONFIGURATION_ADV_H_VERSION', 'CONFIG_EXAMPLES_DIR', 'CONFIG_EXPORT')
# Start with unknown state
state = Parse.NORMAL
# Serial ID
sid = 0
# Loop through files and parse them line by line
for fn, fk in filekey.items():
with Path("Marlin", fn).open() as fileobj:
section = 'none' # Current Settings section
line_number = 0 # Counter for the line number of the file
conditions = [] # Create a condition stack for the current file
comment_buff = [] # A temporary buffer for comments
options_json = '' # A buffer for the most recent options JSON found
eol_options = False # The options came from end of line, so only apply once
join_line = False # A flag that the line should be joined with the previous one
line = '' # A line buffer to handle \ continuation
last_added_ref = None # Reference to the last added item
# Loop through the lines in the file
for the_line in fileobj.readlines():
line_number += 1
# List of files to process, with shorthand
filekey = { 'Configuration.h':'basic', 'Configuration_adv.h':'advanced' }
# A JSON object to store the data
sch_out = { 'basic':{}, 'advanced':{} }
# Regex for #define NAME [VALUE] [COMMENT] with sanitized line
defgrep = re.compile(r'^(//)?\s*(#define)\s+([A-Za-z0-9_]+)\s*(.*?)\s*(//.+)?$')
# Defines to ignore
ignore = ('CONFIGURATION_H_VERSION', 'CONFIGURATION_ADV_H_VERSION', 'CONFIG_EXAMPLES_DIR', 'CONFIG_EXPORT')
# Start with unknown state
state = Parse.NORMAL
# Serial ID
sid = 0
# Loop through files and parse them line by line
for fn, fk in filekey.items():
with Path("Marlin", fn).open() as fileobj:
section = 'none' # Current Settings section
line_number = 0 # Counter for the line number of the file
conditions = [] # Create a condition stack for the current file
comment_buff = [] # A temporary buffer for comments
options_json = '' # A buffer for the most recent options JSON found
eol_options = False # The options came from end of line, so only apply once
join_line = False # A flag that the line should be joined with the previous one
line = '' # A line buffer to handle \ continuation
last_added_ref = None # Reference to the last added item
# Loop through the lines in the file
for the_line in fileobj.readlines():
line_number += 1
# Clean the line for easier parsing
the_line = the_line.strip()
# Clean the line for easier parsing
the_line = the_line.strip()
if join_line: # A previous line is being made longer
line += (' ' if line else '') + the_line
else: # Otherwise, start the line anew
line, line_start = the_line, line_number
if join_line: # A previous line is being made longer
line += (' ' if line else '') + the_line
else: # Otherwise, start the line anew
line, line_start = the_line, line_number
# If the resulting line ends with a \, don't process now.
# Strip the end off. The next line will be joined with it.
join_line = line.endswith("\\")
if join_line:
line = line[:-1].strip()
continue
else:
line_end = line_number
# If the resulting line ends with a \, don't process now.
# Strip the end off. The next line will be joined with it.
join_line = line.endswith("\\")
if join_line:
line = line[:-1].strip()
continue
else:
line_end = line_number
defmatch = defgrep.match(line)
defmatch = defgrep.match(line)
# Special handling for EOL comments after a #define.
# At this point the #define is already digested and inserted,
# so we have to extend it
if state == Parse.EOL_COMMENT:
# If the line is not a comment, we're done with the EOL comment
if not defmatch and the_line.startswith('//'):
comment_buff.append(the_line[2:].strip())
else:
last_added_ref['comment'] = ' '.join(comment_buff)
comment_buff = []
state = Parse.NORMAL
# Special handling for EOL comments after a #define.
# At this point the #define is already digested and inserted,
# so we have to extend it
if state == Parse.EOL_COMMENT:
# If the line is not a comment, we're done with the EOL comment
if not defmatch and the_line.startswith('//'):
comment_buff.append(the_line[2:].strip())
else:
last_added_ref['comment'] = ' '.join(comment_buff)
comment_buff = []
state = Parse.NORMAL
def use_comment(c, opt, sec, bufref):
if c.startswith(':'): # If the comment starts with : then it has magic JSON
d = c[1:].strip() # Strip the leading :
cbr = c.rindex('}') if d.startswith('{') else c.rindex(']') if d.startswith('[') else 0
if cbr:
opt, cmt = c[1:cbr+1].strip(), c[cbr+1:].strip()
if cmt != '': bufref.append(cmt)
else:
opt = c[1:].strip()
elif c.startswith('@section'): # Start a new section
sec = c[8:].strip()
elif not c.startswith('========'):
bufref.append(c)
return opt, sec
def use_comment(c, opt, sec, bufref):
if c.startswith(':'): # If the comment starts with : then it has magic JSON
d = c[1:].strip() # Strip the leading :
cbr = c.rindex('}') if d.startswith('{') else c.rindex(']') if d.startswith('[') else 0
if cbr:
opt, cmt = c[1:cbr+1].strip(), c[cbr+1:].strip()
if cmt != '': bufref.append(cmt)
else:
opt = c[1:].strip()
elif c.startswith('@section'): # Start a new section
sec = c[8:].strip()
elif not c.startswith('========'):
bufref.append(c)
return opt, sec
# In a block comment, capture lines up to the end of the comment.
# Assume nothing follows the comment closure.
if state in (Parse.BLOCK_COMMENT, Parse.GET_SENSORS):
endpos = line.find('*/')
if endpos < 0:
cline = line
else:
cline, line = line[:endpos].strip(), line[endpos+2:].strip()
# In a block comment, capture lines up to the end of the comment.
# Assume nothing follows the comment closure.
if state in (Parse.BLOCK_COMMENT, Parse.GET_SENSORS):
endpos = line.find('*/')
if endpos < 0:
cline = line
else:
cline, line = line[:endpos].strip(), line[endpos+2:].strip()
# Temperature sensors are done
if state == Parse.GET_SENSORS:
options_json = f'[ {options_json[:-2]} ]'
# Temperature sensors are done
if state == Parse.GET_SENSORS:
options_json = f'[ {options_json[:-2]} ]'
state = Parse.NORMAL
state = Parse.NORMAL
# Strip the leading '*' from block comments
if cline.startswith('*'): cline = cline[1:].strip()
# Strip the leading '*' from block comments
if cline.startswith('*'): cline = cline[1:].strip()
# Collect temperature sensors
if state == Parse.GET_SENSORS:
sens = re.match(r'^(-?\d+)\s*:\s*(.+)$', cline)
if sens:
s2 = sens[2].replace("'","''")
options_json += f"{sens[1]}:'{s2}', "
# Collect temperature sensors
if state == Parse.GET_SENSORS:
sens = re.match(r'^(-?\d+)\s*:\s*(.+)$', cline)
if sens:
s2 = sens[2].replace("'","''")
options_json += f"{sens[1]}:'{s2}', "
elif state == Parse.BLOCK_COMMENT:
elif state == Parse.BLOCK_COMMENT:
# Look for temperature sensors
if cline == "Temperature sensors available:":
state, cline = Parse.GET_SENSORS, "Temperature Sensors"
# Look for temperature sensors
if cline == "Temperature sensors available:":
state, cline = Parse.GET_SENSORS, "Temperature Sensors"
options_json, section = use_comment(cline, options_json, section, comment_buff)
options_json, section = use_comment(cline, options_json, section, comment_buff)
# For the normal state we're looking for any non-blank line
elif state == Parse.NORMAL:
# Skip a commented define when evaluating comment opening
st = 2 if re.match(r'^//\s*#define', line) else 0
cpos1 = line.find('/*') # Start a block comment on the line?
cpos2 = line.find('//', st) # Start an end of line comment on the line?
# For the normal state we're looking for any non-blank line
elif state == Parse.NORMAL:
# Skip a commented define when evaluating comment opening
st = 2 if re.match(r'^//\s*#define', line) else 0
cpos1 = line.find('/*') # Start a block comment on the line?
cpos2 = line.find('//', st) # Start an end of line comment on the line?
# Only the first comment starter gets evaluated
cpos = -1
if cpos1 != -1 and (cpos1 < cpos2 or cpos2 == -1):
cpos = cpos1
comment_buff = []
state = Parse.BLOCK_COMMENT
eol_options = False
# Only the first comment starter gets evaluated
cpos = -1
if cpos1 != -1 and (cpos1 < cpos2 or cpos2 == -1):
cpos = cpos1
comment_buff = []
state = Parse.BLOCK_COMMENT
eol_options = False
elif cpos2 != -1 and (cpos2 < cpos1 or cpos1 == -1):
cpos = cpos2
elif cpos2 != -1 and (cpos2 < cpos1 or cpos1 == -1):
cpos = cpos2
# Comment after a define may be continued on the following lines
if defmatch != None and cpos > 10:
state = Parse.EOL_COMMENT
comment_buff = []
# Comment after a define may be continued on the following lines
if defmatch != None and cpos > 10:
state = Parse.EOL_COMMENT
comment_buff = []
# Process the start of a new comment
if cpos != -1:
cline, line = line[cpos+2:].strip(), line[:cpos].strip()
# Process the start of a new comment
if cpos != -1:
cline, line = line[cpos+2:].strip(), line[:cpos].strip()
if state == Parse.BLOCK_COMMENT:
# Strip leading '*' from block comments
if cline.startswith('*'): cline = cline[1:].strip()
else:
# Expire end-of-line options after first use
if cline.startswith(':'): eol_options = True
if state == Parse.BLOCK_COMMENT:
# Strip leading '*' from block comments
if cline.startswith('*'): cline = cline[1:].strip()
else:
# Expire end-of-line options after first use
if cline.startswith(':'): eol_options = True
# Buffer a non-empty comment start
if cline != '':
options_json, section = use_comment(cline, options_json, section, comment_buff)
# Buffer a non-empty comment start
if cline != '':
options_json, section = use_comment(cline, options_json, section, comment_buff)
# If the line has nothing before the comment, go to the next line
if line == '':
options_json = ''
continue
# If the line has nothing before the comment, go to the next line
if line == '':
options_json = ''
continue
# Parenthesize the given expression if needed
def atomize(s):
if s == '' \
or re.match(r'^[A-Za-z0-9_]*(\([^)]+\))?$', s) \
or re.match(r'^[A-Za-z0-9_]+ == \d+?$', s):
return s
return f'({s})'
# Parenthesize the given expression if needed
def atomize(s):
if s == '' \
or re.match(r'^[A-Za-z0-9_]*(\([^)]+\))?$', s) \
or re.match(r'^[A-Za-z0-9_]+ == \d+?$', s):
return s
return f'({s})'
#
# The conditions stack is an array containing condition-arrays.
# Each condition-array lists the conditions for the current block.
# IF/N/DEF adds a new condition-array to the stack.
# ELSE/ELIF/ENDIF pop the condition-array.
# ELSE/ELIF negate the last item in the popped condition-array.
# ELIF adds a new condition to the end of the array.
# ELSE/ELIF re-push the condition-array.
#
cparts = line.split()
iselif, iselse = cparts[0] == '#elif', cparts[0] == '#else'
if iselif or iselse or cparts[0] == '#endif':
if len(conditions) == 0:
raise Exception(f'no #if block at line {line_number}')
#
# The conditions stack is an array containing condition-arrays.
# Each condition-array lists the conditions for the current block.
# IF/N/DEF adds a new condition-array to the stack.
# ELSE/ELIF/ENDIF pop the condition-array.
# ELSE/ELIF negate the last item in the popped condition-array.
# ELIF adds a new condition to the end of the array.
# ELSE/ELIF re-push the condition-array.
#
cparts = line.split()
iselif, iselse = cparts[0] == '#elif', cparts[0] == '#else'
if iselif or iselse or cparts[0] == '#endif':
if len(conditions) == 0:
raise Exception(f'no #if block at line {line_number}')
# Pop the last condition-array from the stack
prev = conditions.pop()
# Pop the last condition-array from the stack
prev = conditions.pop()
if iselif or iselse:
prev[-1] = '!' + prev[-1] # Invert the last condition
if iselif: prev.append(atomize(line[5:].strip()))
conditions.append(prev)
if iselif or iselse:
prev[-1] = '!' + prev[-1] # Invert the last condition
if iselif: prev.append(atomize(line[5:].strip()))
conditions.append(prev)
elif cparts[0] == '#if':
conditions.append([ atomize(line[3:].strip()) ])
elif cparts[0] == '#ifdef':
conditions.append([ f'defined({line[6:].strip()})' ])
elif cparts[0] == '#ifndef':
conditions.append([ f'!defined({line[7:].strip()})' ])
elif cparts[0] == '#if':
conditions.append([ atomize(line[3:].strip()) ])
elif cparts[0] == '#ifdef':
conditions.append([ f'defined({line[6:].strip()})' ])
elif cparts[0] == '#ifndef':
conditions.append([ f'!defined({line[7:].strip()})' ])
# Handle a complete #define line
elif defmatch != None:
# Handle a complete #define line
elif defmatch != None:
# Get the match groups into vars
enabled, define_name, val = defmatch[1] == None, defmatch[3], defmatch[4]
# Get the match groups into vars
enabled, define_name, val = defmatch[1] == None, defmatch[3], defmatch[4]
# Increment the serial ID
sid += 1
# Increment the serial ID
sid += 1
# Create a new dictionary for the current #define
define_info = {
'section': section,
'name': define_name,
'enabled': enabled,
'line': line_start,
'sid': sid
}
# Create a new dictionary for the current #define
define_info = {
'section': section,
'name': define_name,
'enabled': enabled,
'line': line_start,
'sid': sid
}
# Type is based on the value
if val == '':
value_type = 'switch'
elif re.match(r'^(true|false)$', val):
value_type = 'bool'
val = val == 'true'
elif re.match(r'^[-+]?\s*\d+$', val):
value_type = 'int'
val = int(val)
elif re.match(r'[-+]?\s*(\d+\.|\d*\.\d+)([eE][-+]?\d+)?[fF]?', val):
value_type = 'float'
val = float(val.replace('f',''))
else:
value_type = 'string' if val[0] == '"' \
else 'char' if val[0] == "'" \
else 'state' if re.match(r'^(LOW|HIGH)$', val) \
else 'enum' if re.match(r'^[A-Za-z0-9_]{3,}$', val) \
else 'int[]' if re.match(r'^{(\s*[-+]?\s*\d+\s*(,\s*)?)+}$', val) \
else 'float[]' if re.match(r'^{(\s*[-+]?\s*(\d+\.|\d*\.\d+)([eE][-+]?\d+)?[fF]?\s*(,\s*)?)+}$', val) \
else 'array' if val[0] == '{' \
else ''
# Type is based on the value
if val == '':
value_type = 'switch'
elif re.match(r'^(true|false)$', val):
value_type = 'bool'
val = val == 'true'
elif re.match(r'^[-+]?\s*\d+$', val):
value_type = 'int'
val = int(val)
elif re.match(r'[-+]?\s*(\d+\.|\d*\.\d+)([eE][-+]?\d+)?[fF]?', val):
value_type = 'float'
val = float(val.replace('f',''))
else:
value_type = 'string' if val[0] == '"' \
else 'char' if val[0] == "'" \
else 'state' if re.match(r'^(LOW|HIGH)$', val) \
else 'enum' if re.match(r'^[A-Za-z0-9_]{3,}$', val) \
else 'int[]' if re.match(r'^{(\s*[-+]?\s*\d+\s*(,\s*)?)+}$', val) \
else 'float[]' if re.match(r'^{(\s*[-+]?\s*(\d+\.|\d*\.\d+)([eE][-+]?\d+)?[fF]?\s*(,\s*)?)+}$', val) \
else 'array' if val[0] == '{' \
else ''
if val != '': define_info['value'] = val
if value_type != '': define_info['type'] = value_type
if val != '': define_info['value'] = val
if value_type != '': define_info['type'] = value_type
# Join up accumulated conditions with &&
if conditions: define_info['requires'] = ' && '.join(sum(conditions, []))
# Join up accumulated conditions with &&
if conditions: define_info['requires'] = ' && '.join(sum(conditions, []))
# If the comment_buff is not empty, add the comment to the info
if comment_buff:
full_comment = '\n'.join(comment_buff)
# If the comment_buff is not empty, add the comment to the info
if comment_buff:
full_comment = '\n'.join(comment_buff)
# An EOL comment will be added later
# The handling could go here instead of above
if state == Parse.EOL_COMMENT:
define_info['comment'] = ''
else:
define_info['comment'] = full_comment
comment_buff = []
# An EOL comment will be added later
# The handling could go here instead of above
if state == Parse.EOL_COMMENT:
define_info['comment'] = ''
else:
define_info['comment'] = full_comment
comment_buff = []
# If the comment specifies units, add that to the info
units = re.match(r'^\(([^)]+)\)', full_comment)
if units:
units = units[1]
if units == 's' or units == 'sec': units = 'seconds'
define_info['units'] = units
# If the comment specifies units, add that to the info
units = re.match(r'^\(([^)]+)\)', full_comment)
if units:
units = units[1]
if units == 's' or units == 'sec': units = 'seconds'
define_info['units'] = units
# Set the options for the current #define
if define_name == "MOTHERBOARD" and boards != '':
define_info['options'] = boards
elif options_json != '':
define_info['options'] = options_json
if eol_options: options_json = ''
# Set the options for the current #define
if define_name == "MOTHERBOARD" and boards != '':
define_info['options'] = boards
elif options_json != '':
define_info['options'] = options_json
if eol_options: options_json = ''
# Create section dict if it doesn't exist yet
if section not in sch_out[fk]: sch_out[fk][section] = {}
# Create section dict if it doesn't exist yet
if section not in sch_out[fk]: sch_out[fk][section] = {}
# If define has already been seen...
if define_name in sch_out[fk][section]:
info = sch_out[fk][section][define_name]
if isinstance(info, dict): info = [ info ] # Convert a single dict into a list
info.append(define_info) # Add to the list
else:
# Add the define dict with name as key
sch_out[fk][section][define_name] = define_info
# If define has already been seen...
if define_name in sch_out[fk][section]:
info = sch_out[fk][section][define_name]
if isinstance(info, dict): info = [ info ] # Convert a single dict into a list
info.append(define_info) # Add to the list
else:
# Add the define dict with name as key
sch_out[fk][section][define_name] = define_info
if state == Parse.EOL_COMMENT:
last_added_ref = define_info
if state == Parse.EOL_COMMENT:
last_added_ref = define_info
return sch_out
return sch_out
def dump_json(schema:dict, jpath:Path):
with jpath.open('w') as jfile:
json.dump(schema, jfile, ensure_ascii=False, indent=2)
with jpath.open('w') as jfile:
json.dump(schema, jfile, ensure_ascii=False, indent=2)
def dump_yaml(schema:dict, ypath:Path):
import yaml
with ypath.open('w') as yfile:
yaml.dump(schema, yfile, default_flow_style=False, width=120, indent=2)
import yaml
with ypath.open('w') as yfile:
yaml.dump(schema, yfile, default_flow_style=False, width=120, indent=2)
def main():
try:
schema = extract()
except Exception as exc:
print("Error: " + str(exc))
schema = None
try:
schema = extract()
except Exception as exc:
print("Error: " + str(exc))
schema = None
if schema:
if schema:
# Get the first command line argument
import sys
if len(sys.argv) > 1:
arg = sys.argv[1]
else:
arg = 'some'
# Get the first command line argument
import sys
if len(sys.argv) > 1:
arg = sys.argv[1]
else:
arg = 'some'
# JSON schema
if arg in ['some', 'json', 'jsons']:
print("Generating JSON ...")
dump_json(schema, Path('schema.json'))
# JSON schema
if arg in ['some', 'json', 'jsons']:
print("Generating JSON ...")
dump_json(schema, Path('schema.json'))
# JSON schema (wildcard names)
if arg in ['group', 'jsons']:
group_options(schema)
dump_json(schema, Path('schema_grouped.json'))
# JSON schema (wildcard names)
if arg in ['group', 'jsons']:
group_options(schema)
dump_json(schema, Path('schema_grouped.json'))
# YAML
if arg in ['some', 'yml', 'yaml']:
try:
import yaml
except ImportError:
print("Installing YAML module ...")
import subprocess
try:
subprocess.run(['python3', '-m', 'pip', 'install', 'pyyaml'])
import yaml
except:
print("Failed to install YAML module")
return
# YAML
if arg in ['some', 'yml', 'yaml']:
try:
import yaml
except ImportError:
print("Installing YAML module ...")
import subprocess
try:
subprocess.run(['python3', '-m', 'pip', 'install', 'pyyaml'])
import yaml
except:
print("Failed to install YAML module")
return
print("Generating YML ...")
dump_yaml(schema, Path('schema.yml'))
print("Generating YML ...")
dump_yaml(schema, Path('schema.yml'))
if __name__ == '__main__':
main()
main()

View File

@ -16,32 +16,32 @@ from pathlib import Path
# resulting config.ini to produce more exact configuration files.
#
def extract_defines(filepath):
f = open(filepath, encoding="utf8").read().split("\n")
a = []
for line in f:
sline = line.strip()
if sline[:7] == "#define":
# Extract the key here (we don't care about the value)
kv = sline[8:].strip().split()
a.append(kv[0])
return a
f = open(filepath, encoding="utf8").read().split("\n")
a = []
for line in f:
sline = line.strip()
if sline[:7] == "#define":
# Extract the key here (we don't care about the value)
kv = sline[8:].strip().split()
a.append(kv[0])
return a
# Compute the SHA256 hash of a file
def get_file_sha256sum(filepath):
sha256_hash = hashlib.sha256()
with open(filepath,"rb") as f:
# Read and update hash string value in blocks of 4K
for byte_block in iter(lambda: f.read(4096),b""):
sha256_hash.update(byte_block)
return sha256_hash.hexdigest()
sha256_hash = hashlib.sha256()
with open(filepath,"rb") as f:
# Read and update hash string value in blocks of 4K
for byte_block in iter(lambda: f.read(4096),b""):
sha256_hash.update(byte_block)
return sha256_hash.hexdigest()
#
# Compress a JSON file into a zip file
#
import zipfile
def compress_file(filepath, outpath):
with zipfile.ZipFile(outpath, 'w', compression=zipfile.ZIP_BZIP2, compresslevel=9) as zipf:
zipf.write(filepath, compress_type=zipfile.ZIP_BZIP2, compresslevel=9)
with zipfile.ZipFile(outpath, 'w', compression=zipfile.ZIP_BZIP2, compresslevel=9) as zipf:
zipf.write(filepath, compress_type=zipfile.ZIP_BZIP2, compresslevel=9)
#
# Compute the build signature. The idea is to extract all defines in the configuration headers
@ -49,228 +49,228 @@ def compress_file(filepath, outpath):
# We can reverse the signature to get a 1:1 equivalent configuration file
#
def compute_build_signature(env):
if 'BUILD_SIGNATURE' in env:
return
if 'BUILD_SIGNATURE' in env:
return
# Definitions from these files will be kept
files_to_keep = [ 'Marlin/Configuration.h', 'Marlin/Configuration_adv.h' ]
# Definitions from these files will be kept
files_to_keep = [ 'Marlin/Configuration.h', 'Marlin/Configuration_adv.h' ]
build_path = Path(env['PROJECT_BUILD_DIR'], env['PIOENV'])
build_path = Path(env['PROJECT_BUILD_DIR'], env['PIOENV'])
# Check if we can skip processing
hashes = ''
for header in files_to_keep:
hashes += get_file_sha256sum(header)[0:10]
# Check if we can skip processing
hashes = ''
for header in files_to_keep:
hashes += get_file_sha256sum(header)[0:10]
marlin_json = build_path / 'marlin_config.json'
marlin_zip = build_path / 'mc.zip'
marlin_json = build_path / 'marlin_config.json'
marlin_zip = build_path / 'mc.zip'
# Read existing config file
try:
with marlin_json.open() as infile:
conf = json.load(infile)
if conf['__INITIAL_HASH'] == hashes:
# Same configuration, skip recomputing the building signature
compress_file(marlin_json, marlin_zip)
return
except:
pass
# Read existing config file
try:
with marlin_json.open() as infile:
conf = json.load(infile)
if conf['__INITIAL_HASH'] == hashes:
# Same configuration, skip recomputing the building signature
compress_file(marlin_json, marlin_zip)
return
except:
pass
# Get enabled config options based on preprocessor
from preprocessor import run_preprocessor
complete_cfg = run_preprocessor(env)
# Get enabled config options based on preprocessor
from preprocessor import run_preprocessor
complete_cfg = run_preprocessor(env)
# Dumb #define extraction from the configuration files
conf_defines = {}
all_defines = []
for header in files_to_keep:
defines = extract_defines(header)
# To filter only the define we want
all_defines += defines
# To remember from which file it cames from
conf_defines[header.split('/')[-1]] = defines
# Dumb #define extraction from the configuration files
conf_defines = {}
all_defines = []
for header in files_to_keep:
defines = extract_defines(header)
# To filter only the define we want
all_defines += defines
# To remember from which file it cames from
conf_defines[header.split('/')[-1]] = defines
r = re.compile(r"\(+(\s*-*\s*_.*)\)+")
r = re.compile(r"\(+(\s*-*\s*_.*)\)+")
# First step is to collect all valid macros
defines = {}
for line in complete_cfg:
# First step is to collect all valid macros
defines = {}
for line in complete_cfg:
# Split the define from the value
key_val = line[8:].strip().decode().split(' ')
key, value = key_val[0], ' '.join(key_val[1:])
# Split the define from the value
key_val = line[8:].strip().decode().split(' ')
key, value = key_val[0], ' '.join(key_val[1:])
# Ignore values starting with two underscore, since it's low level
if len(key) > 2 and key[0:2] == "__" :
continue
# Ignore values containing a parenthesis (likely a function macro)
if '(' in key and ')' in key:
continue
# Ignore values starting with two underscore, since it's low level
if len(key) > 2 and key[0:2] == "__" :
continue
# Ignore values containing a parenthesis (likely a function macro)
if '(' in key and ')' in key:
continue
# Then filter dumb values
if r.match(value):
continue
# Then filter dumb values
if r.match(value):
continue
defines[key] = value if len(value) else ""
defines[key] = value if len(value) else ""
#
# Continue to gather data for CONFIGURATION_EMBEDDING or CONFIG_EXPORT
#
if not ('CONFIGURATION_EMBEDDING' in defines or 'CONFIG_EXPORT' in defines):
return
#
# Continue to gather data for CONFIGURATION_EMBEDDING or CONFIG_EXPORT
#
if not ('CONFIGURATION_EMBEDDING' in defines or 'CONFIG_EXPORT' in defines):
return
# Second step is to filter useless macro
resolved_defines = {}
for key in defines:
# Remove all boards now
if key.startswith("BOARD_") and key != "BOARD_INFO_NAME":
continue
# Remove all keys ending by "_NAME" as it does not make a difference to the configuration
if key.endswith("_NAME") and key != "CUSTOM_MACHINE_NAME":
continue
# Remove all keys ending by "_T_DECLARED" as it's a copy of extraneous system stuff
if key.endswith("_T_DECLARED"):
continue
# Remove keys that are not in the #define list in the Configuration list
if key not in all_defines + [ 'DETAILED_BUILD_VERSION', 'STRING_DISTRIBUTION_DATE' ]:
continue
# Second step is to filter useless macro
resolved_defines = {}
for key in defines:
# Remove all boards now
if key.startswith("BOARD_") and key != "BOARD_INFO_NAME":
continue
# Remove all keys ending by "_NAME" as it does not make a difference to the configuration
if key.endswith("_NAME") and key != "CUSTOM_MACHINE_NAME":
continue
# Remove all keys ending by "_T_DECLARED" as it's a copy of extraneous system stuff
if key.endswith("_T_DECLARED"):
continue
# Remove keys that are not in the #define list in the Configuration list
if key not in all_defines + [ 'DETAILED_BUILD_VERSION', 'STRING_DISTRIBUTION_DATE' ]:
continue
# Don't be that smart guy here
resolved_defines[key] = defines[key]
# Don't be that smart guy here
resolved_defines[key] = defines[key]
# Generate a build signature now
# We are making an object that's a bit more complex than a basic dictionary here
data = {}
data['__INITIAL_HASH'] = hashes
# First create a key for each header here
for header in conf_defines:
data[header] = {}
# Generate a build signature now
# We are making an object that's a bit more complex than a basic dictionary here
data = {}
data['__INITIAL_HASH'] = hashes
# First create a key for each header here
for header in conf_defines:
data[header] = {}
# Then populate the object where each key is going to (that's a O(N^2) algorithm here...)
for key in resolved_defines:
for header in conf_defines:
if key in conf_defines[header]:
data[header][key] = resolved_defines[key]
# Then populate the object where each key is going to (that's a O(N^2) algorithm here...)
for key in resolved_defines:
for header in conf_defines:
if key in conf_defines[header]:
data[header][key] = resolved_defines[key]
# Every python needs this toy
def tryint(key):
try:
return int(defines[key])
except:
return 0
# Every python needs this toy
def tryint(key):
try:
return int(defines[key])
except:
return 0
config_dump = tryint('CONFIG_EXPORT')
config_dump = tryint('CONFIG_EXPORT')
#
# Produce an INI file if CONFIG_EXPORT == 2
#
if config_dump == 2:
print("Generating config.ini ...")
config_ini = build_path / 'config.ini'
with config_ini.open('w') as outfile:
ignore = ('CONFIGURATION_H_VERSION', 'CONFIGURATION_ADV_H_VERSION', 'CONFIG_EXPORT')
filegrp = { 'Configuration.h':'config:basic', 'Configuration_adv.h':'config:advanced' }
vers = defines["CONFIGURATION_H_VERSION"]
dt_string = datetime.now().strftime("%Y-%m-%d at %H:%M:%S")
ini_fmt = '{0:40}{1}\n'
outfile.write(
'#\n'
+ '# Marlin Firmware\n'
+ '# config.ini - Options to apply before the build\n'
+ '#\n'
+ f'# Generated by Marlin build on {dt_string}\n'
+ '#\n'
+ '\n'
+ '[config:base]\n'
+ ini_fmt.format('ini_use_config', ' = all')
+ ini_fmt.format('ini_config_vers', f' = {vers}')
)
# Loop through the data array of arrays
for header in data:
if header.startswith('__'):
continue
outfile.write('\n[' + filegrp[header] + ']\n')
for key in sorted(data[header]):
if key not in ignore:
val = 'on' if data[header][key] == '' else data[header][key]
outfile.write(ini_fmt.format(key.lower(), ' = ' + val))
#
# Produce an INI file if CONFIG_EXPORT == 2
#
if config_dump == 2:
print("Generating config.ini ...")
config_ini = build_path / 'config.ini'
with config_ini.open('w') as outfile:
ignore = ('CONFIGURATION_H_VERSION', 'CONFIGURATION_ADV_H_VERSION', 'CONFIG_EXPORT')
filegrp = { 'Configuration.h':'config:basic', 'Configuration_adv.h':'config:advanced' }
vers = defines["CONFIGURATION_H_VERSION"]
dt_string = datetime.now().strftime("%Y-%m-%d at %H:%M:%S")
ini_fmt = '{0:40}{1}\n'
outfile.write(
'#\n'
+ '# Marlin Firmware\n'
+ '# config.ini - Options to apply before the build\n'
+ '#\n'
+ f'# Generated by Marlin build on {dt_string}\n'
+ '#\n'
+ '\n'
+ '[config:base]\n'
+ ini_fmt.format('ini_use_config', ' = all')
+ ini_fmt.format('ini_config_vers', f' = {vers}')
)
# Loop through the data array of arrays
for header in data:
if header.startswith('__'):
continue
outfile.write('\n[' + filegrp[header] + ']\n')
for key in sorted(data[header]):
if key not in ignore:
val = 'on' if data[header][key] == '' else data[header][key]
outfile.write(ini_fmt.format(key.lower(), ' = ' + val))
#
# Produce a schema.json file if CONFIG_EXPORT == 3
#
if config_dump >= 3:
try:
conf_schema = schema.extract()
except Exception as exc:
print("Error: " + str(exc))
conf_schema = None
#
# Produce a schema.json file if CONFIG_EXPORT == 3
#
if config_dump >= 3:
try:
conf_schema = schema.extract()
except Exception as exc:
print("Error: " + str(exc))
conf_schema = None
if conf_schema:
#
# Produce a schema.json file if CONFIG_EXPORT == 3
#
if config_dump in (3, 13):
print("Generating schema.json ...")
schema.dump_json(conf_schema, build_path / 'schema.json')
if config_dump == 13:
schema.group_options(conf_schema)
schema.dump_json(conf_schema, build_path / 'schema_grouped.json')
if conf_schema:
#
# Produce a schema.json file if CONFIG_EXPORT == 3
#
if config_dump in (3, 13):
print("Generating schema.json ...")
schema.dump_json(conf_schema, build_path / 'schema.json')
if config_dump == 13:
schema.group_options(conf_schema)
schema.dump_json(conf_schema, build_path / 'schema_grouped.json')
#
# Produce a schema.yml file if CONFIG_EXPORT == 4
#
elif config_dump == 4:
print("Generating schema.yml ...")
try:
import yaml
except ImportError:
env.Execute(env.VerboseAction(
'$PYTHONEXE -m pip install "pyyaml"',
"Installing YAML for schema.yml export",
))
import yaml
schema.dump_yaml(conf_schema, build_path / 'schema.yml')
#
# Produce a schema.yml file if CONFIG_EXPORT == 4
#
elif config_dump == 4:
print("Generating schema.yml ...")
try:
import yaml
except ImportError:
env.Execute(env.VerboseAction(
'$PYTHONEXE -m pip install "pyyaml"',
"Installing YAML for schema.yml export",
))
import yaml
schema.dump_yaml(conf_schema, build_path / 'schema.yml')
# Append the source code version and date
data['VERSION'] = {}
data['VERSION']['DETAILED_BUILD_VERSION'] = resolved_defines['DETAILED_BUILD_VERSION']
data['VERSION']['STRING_DISTRIBUTION_DATE'] = resolved_defines['STRING_DISTRIBUTION_DATE']
try:
curver = subprocess.check_output(["git", "describe", "--match=NeVeRmAtCh", "--always"]).strip()
data['VERSION']['GIT_REF'] = curver.decode()
except:
pass
# Append the source code version and date
data['VERSION'] = {}
data['VERSION']['DETAILED_BUILD_VERSION'] = resolved_defines['DETAILED_BUILD_VERSION']
data['VERSION']['STRING_DISTRIBUTION_DATE'] = resolved_defines['STRING_DISTRIBUTION_DATE']
try:
curver = subprocess.check_output(["git", "describe", "--match=NeVeRmAtCh", "--always"]).strip()
data['VERSION']['GIT_REF'] = curver.decode()
except:
pass
#
# Produce a JSON file for CONFIGURATION_EMBEDDING or CONFIG_EXPORT == 1
#
if config_dump == 1 or 'CONFIGURATION_EMBEDDING' in defines:
with marlin_json.open('w') as outfile:
json.dump(data, outfile, separators=(',', ':'))
#
# Produce a JSON file for CONFIGURATION_EMBEDDING or CONFIG_EXPORT == 1
#
if config_dump == 1 or 'CONFIGURATION_EMBEDDING' in defines:
with marlin_json.open('w') as outfile:
json.dump(data, outfile, separators=(',', ':'))
#
# The rest only applies to CONFIGURATION_EMBEDDING
#
if not 'CONFIGURATION_EMBEDDING' in defines:
return
#
# The rest only applies to CONFIGURATION_EMBEDDING
#
if not 'CONFIGURATION_EMBEDDING' in defines:
return
# Compress the JSON file as much as we can
compress_file(marlin_json, marlin_zip)
# Compress the JSON file as much as we can
compress_file(marlin_json, marlin_zip)
# Generate a C source file for storing this array
with open('Marlin/src/mczip.h','wb') as result_file:
result_file.write(
b'#ifndef NO_CONFIGURATION_EMBEDDING_WARNING\n'
+ b' #warning "Generated file \'mc.zip\' is embedded (Define NO_CONFIGURATION_EMBEDDING_WARNING to suppress this warning.)"\n'
+ b'#endif\n'
+ b'const unsigned char mc_zip[] PROGMEM = {\n '
)
count = 0
for b in (build_path / 'mc.zip').open('rb').read():
result_file.write(b' 0x%02X,' % b)
count += 1
if count % 16 == 0:
result_file.write(b'\n ')
if count % 16:
result_file.write(b'\n')
result_file.write(b'};\n')
# Generate a C source file for storing this array
with open('Marlin/src/mczip.h','wb') as result_file:
result_file.write(
b'#ifndef NO_CONFIGURATION_EMBEDDING_WARNING\n'
+ b' #warning "Generated file \'mc.zip\' is embedded (Define NO_CONFIGURATION_EMBEDDING_WARNING to suppress this warning.)"\n'
+ b'#endif\n'
+ b'const unsigned char mc_zip[] PROGMEM = {\n '
)
count = 0
for b in (build_path / 'mc.zip').open('rb').read():
result_file.write(b' 0x%02X,' % b)
count += 1
if count % 16 == 0:
result_file.write(b'\n ')
if count % 16:
result_file.write(b'\n')
result_file.write(b'};\n')

View File

@ -5,49 +5,49 @@
import pioutil
if pioutil.is_pio_build():
# Get the environment thus far for the build
Import("env")
# Get the environment thus far for the build
Import("env")
#print(env.Dump())
#print(env.Dump())
#
# Give the binary a distinctive name
#
#
# Give the binary a distinctive name
#
env['PROGNAME'] = "MarlinSimulator"
env['PROGNAME'] = "MarlinSimulator"
#
# If Xcode is installed add the path to its Frameworks folder,
# or if Mesa is installed try to use its GL/gl.h.
#
#
# If Xcode is installed add the path to its Frameworks folder,
# or if Mesa is installed try to use its GL/gl.h.
#
import sys
if sys.platform == 'darwin':
import sys
if sys.platform == 'darwin':
#
# Silence half of the ranlib warnings. (No equivalent for 'ARFLAGS')
#
env['RANLIBFLAGS'] += [ "-no_warning_for_no_symbols" ]
#
# Silence half of the ranlib warnings. (No equivalent for 'ARFLAGS')
#
env['RANLIBFLAGS'] += [ "-no_warning_for_no_symbols" ]
# Default paths for Xcode and a lucky GL/gl.h dropped by Mesa
xcode_path = "/Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/System/Library/Frameworks"
mesa_path = "/opt/local/include/GL/gl.h"
# Default paths for Xcode and a lucky GL/gl.h dropped by Mesa
xcode_path = "/Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX.sdk/System/Library/Frameworks"
mesa_path = "/opt/local/include/GL/gl.h"
import os.path
import os.path
if os.path.exists(xcode_path):
if os.path.exists(xcode_path):
env['BUILD_FLAGS'] += [ "-F" + xcode_path ]
print("Using OpenGL framework headers from Xcode.app")
env['BUILD_FLAGS'] += [ "-F" + xcode_path ]
print("Using OpenGL framework headers from Xcode.app")
elif os.path.exists(mesa_path):
elif os.path.exists(mesa_path):
env['BUILD_FLAGS'] += [ '-D__MESA__' ]
print("Using OpenGL header from", mesa_path)
env['BUILD_FLAGS'] += [ '-D__MESA__' ]
print("Using OpenGL header from", mesa_path)
else:
else:
print("\n\nNo OpenGL headers found. Install Xcode for matching headers, or use 'sudo port install mesa' to get a GL/gl.h.\n\n")
print("\n\nNo OpenGL headers found. Install Xcode for matching headers, or use 'sudo port install mesa' to get a GL/gl.h.\n\n")
# Break out of the PIO build immediately
sys.exit(1)
# Break out of the PIO build immediately
sys.exit(1)

View File

@ -3,59 +3,59 @@
#
import pioutil
if pioutil.is_pio_build():
Import("env")
Import("env")
# Get a build flag's value or None
def getBuildFlagValue(name):
for flag in build_flags:
if isinstance(flag, list) and flag[0] == name:
return flag[1]
# Get a build flag's value or None
def getBuildFlagValue(name):
for flag in build_flags:
if isinstance(flag, list) and flag[0] == name:
return flag[1]
return None
return None
# Get an overriding buffer size for RX or TX from the build flags
def getInternalSize(side):
return getBuildFlagValue(f"MF_{side}_BUFFER_SIZE") or \
getBuildFlagValue(f"SERIAL_{side}_BUFFER_SIZE") or \
getBuildFlagValue(f"USART_{side}_BUF_SIZE")
# Get an overriding buffer size for RX or TX from the build flags
def getInternalSize(side):
return getBuildFlagValue(f"MF_{side}_BUFFER_SIZE") or \
getBuildFlagValue(f"SERIAL_{side}_BUFFER_SIZE") or \
getBuildFlagValue(f"USART_{side}_BUF_SIZE")
# Get the largest defined buffer size for RX or TX
def getBufferSize(side, default):
# Get a build flag value or fall back to the given default
internal = int(getInternalSize(side) or default)
flag = side + "_BUFFER_SIZE"
# Return the largest value
return max(int(mf[flag]), internal) if flag in mf else internal
# Get the largest defined buffer size for RX or TX
def getBufferSize(side, default):
# Get a build flag value or fall back to the given default
internal = int(getInternalSize(side) or default)
flag = side + "_BUFFER_SIZE"
# Return the largest value
return max(int(mf[flag]), internal) if flag in mf else internal
# Add a build flag if it's not already defined
def tryAddFlag(name, value):
if getBuildFlagValue(name) is None:
env.Append(BUILD_FLAGS=[f"-D{name}={value}"])
# Add a build flag if it's not already defined
def tryAddFlag(name, value):
if getBuildFlagValue(name) is None:
env.Append(BUILD_FLAGS=[f"-D{name}={value}"])
# Marlin uses the `RX_BUFFER_SIZE` \ `TX_BUFFER_SIZE` options to
# configure buffer sizes for receiving \ transmitting serial data.
# Stm32duino uses another set of defines for the same purpose, so this
# script gets the values from the configuration and uses them to define
# `SERIAL_RX_BUFFER_SIZE` and `SERIAL_TX_BUFFER_SIZE` as global build
# flags so they are available for use by the platform.
#
# The script will set the value as the default one (64 bytes)
# or the user-configured one, whichever is higher.
#
# Marlin's default buffer sizes are 128 for RX and 32 for TX.
# The highest value is taken (128/64).
#
# If MF_*_BUFFER_SIZE, SERIAL_*_BUFFER_SIZE, USART_*_BUF_SIZE, are
# defined, the first of these values will be used as the minimum.
build_flags = env.ParseFlags(env.get('BUILD_FLAGS'))["CPPDEFINES"]
mf = env["MARLIN_FEATURES"]
# Marlin uses the `RX_BUFFER_SIZE` \ `TX_BUFFER_SIZE` options to
# configure buffer sizes for receiving \ transmitting serial data.
# Stm32duino uses another set of defines for the same purpose, so this
# script gets the values from the configuration and uses them to define
# `SERIAL_RX_BUFFER_SIZE` and `SERIAL_TX_BUFFER_SIZE` as global build
# flags so they are available for use by the platform.
#
# The script will set the value as the default one (64 bytes)
# or the user-configured one, whichever is higher.
#
# Marlin's default buffer sizes are 128 for RX and 32 for TX.
# The highest value is taken (128/64).
#
# If MF_*_BUFFER_SIZE, SERIAL_*_BUFFER_SIZE, USART_*_BUF_SIZE, are
# defined, the first of these values will be used as the minimum.
build_flags = env.ParseFlags(env.get('BUILD_FLAGS'))["CPPDEFINES"]
mf = env["MARLIN_FEATURES"]
# Get the largest defined buffer sizes for RX or TX, using defaults for undefined
rxBuf = getBufferSize("RX", 128)
txBuf = getBufferSize("TX", 64)
# Get the largest defined buffer sizes for RX or TX, using defaults for undefined
rxBuf = getBufferSize("RX", 128)
txBuf = getBufferSize("TX", 64)
# Provide serial buffer sizes to the stm32duino platform
tryAddFlag("SERIAL_RX_BUFFER_SIZE", rxBuf)
tryAddFlag("SERIAL_TX_BUFFER_SIZE", txBuf)
tryAddFlag("USART_RX_BUF_SIZE", rxBuf)
tryAddFlag("USART_TX_BUF_SIZE", txBuf)
# Provide serial buffer sizes to the stm32duino platform
tryAddFlag("SERIAL_RX_BUFFER_SIZE", rxBuf)
tryAddFlag("SERIAL_TX_BUFFER_SIZE", txBuf)
tryAddFlag("USART_RX_BUF_SIZE", rxBuf)
tryAddFlag("USART_TX_BUF_SIZE", txBuf)

View File

@ -25,320 +25,320 @@ import MarlinBinaryProtocol
#-----------------#
def Upload(source, target, env):
#-------#
# Debug #
#-------#
Debug = False # Set to True to enable script debug
def debugPrint(data):
if Debug: print(f"[Debug]: {data}")
#-------#
# Debug #
#-------#
Debug = False # Set to True to enable script debug
def debugPrint(data):
if Debug: print(f"[Debug]: {data}")
#------------------#
# Marlin functions #
#------------------#
def _GetMarlinEnv(marlinEnv, feature):
if not marlinEnv: return None
return marlinEnv[feature] if feature in marlinEnv else None
#------------------#
# Marlin functions #
#------------------#
def _GetMarlinEnv(marlinEnv, feature):
if not marlinEnv: return None
return marlinEnv[feature] if feature in marlinEnv else None
#----------------#
# Port functions #
#----------------#
def _GetUploadPort(env):
debugPrint('Autodetecting upload port...')
env.AutodetectUploadPort(env)
portName = env.subst('$UPLOAD_PORT')
if not portName:
raise Exception('Error detecting the upload port.')
debugPrint('OK')
return portName
#----------------#
# Port functions #
#----------------#
def _GetUploadPort(env):
debugPrint('Autodetecting upload port...')
env.AutodetectUploadPort(env)
portName = env.subst('$UPLOAD_PORT')
if not portName:
raise Exception('Error detecting the upload port.')
debugPrint('OK')
return portName
#-------------------------#
# Simple serial functions #
#-------------------------#
def _OpenPort():
# Open serial port
if port.is_open: return
debugPrint('Opening upload port...')
port.open()
port.reset_input_buffer()
debugPrint('OK')
#-------------------------#
# Simple serial functions #
#-------------------------#
def _OpenPort():
# Open serial port
if port.is_open: return
debugPrint('Opening upload port...')
port.open()
port.reset_input_buffer()
debugPrint('OK')
def _ClosePort():
# Open serial port
if port is None: return
if not port.is_open: return
debugPrint('Closing upload port...')
port.close()
debugPrint('OK')
def _ClosePort():
# Open serial port
if port is None: return
if not port.is_open: return
debugPrint('Closing upload port...')
port.close()
debugPrint('OK')
def _Send(data):
debugPrint(f'>> {data}')
strdata = bytearray(data, 'utf8') + b'\n'
port.write(strdata)
time.sleep(0.010)
def _Send(data):
debugPrint(f'>> {data}')
strdata = bytearray(data, 'utf8') + b'\n'
port.write(strdata)
time.sleep(0.010)
def _Recv():
clean_responses = []
responses = port.readlines()
for Resp in responses:
# Suppress invalid chars (coming from debug info)
try:
clean_response = Resp.decode('utf8').rstrip().lstrip()
clean_responses.append(clean_response)
debugPrint(f'<< {clean_response}')
except:
pass
return clean_responses
def _Recv():
clean_responses = []
responses = port.readlines()
for Resp in responses:
# Suppress invalid chars (coming from debug info)
try:
clean_response = Resp.decode('utf8').rstrip().lstrip()
clean_responses.append(clean_response)
debugPrint(f'<< {clean_response}')
except:
pass
return clean_responses
#------------------#
# SDCard functions #
#------------------#
def _CheckSDCard():
debugPrint('Checking SD card...')
_Send('M21')
Responses = _Recv()
if len(Responses) < 1 or not any('SD card ok' in r for r in Responses):
raise Exception('Error accessing SD card')
debugPrint('SD Card OK')
return True
#------------------#
# SDCard functions #
#------------------#
def _CheckSDCard():
debugPrint('Checking SD card...')
_Send('M21')
Responses = _Recv()
if len(Responses) < 1 or not any('SD card ok' in r for r in Responses):
raise Exception('Error accessing SD card')
debugPrint('SD Card OK')
return True
#----------------#
# File functions #
#----------------#
def _GetFirmwareFiles(UseLongFilenames):
debugPrint('Get firmware files...')
_Send(f"M20 F{'L' if UseLongFilenames else ''}")
Responses = _Recv()
if len(Responses) < 3 or not any('file list' in r for r in Responses):
raise Exception('Error getting firmware files')
debugPrint('OK')
return Responses
#----------------#
# File functions #
#----------------#
def _GetFirmwareFiles(UseLongFilenames):
debugPrint('Get firmware files...')
_Send(f"M20 F{'L' if UseLongFilenames else ''}")
Responses = _Recv()
if len(Responses) < 3 or not any('file list' in r for r in Responses):
raise Exception('Error getting firmware files')
debugPrint('OK')
return Responses
def _FilterFirmwareFiles(FirmwareList, UseLongFilenames):
Firmwares = []
for FWFile in FirmwareList:
# For long filenames take the 3rd column of the firmwares list
if UseLongFilenames:
Space = 0
Space = FWFile.find(' ')
if Space >= 0: Space = FWFile.find(' ', Space + 1)
if Space >= 0: FWFile = FWFile[Space + 1:]
if not '/' in FWFile and '.BIN' in FWFile.upper():
Firmwares.append(FWFile[:FWFile.upper().index('.BIN') + 4])
return Firmwares
def _FilterFirmwareFiles(FirmwareList, UseLongFilenames):
Firmwares = []
for FWFile in FirmwareList:
# For long filenames take the 3rd column of the firmwares list
if UseLongFilenames:
Space = 0
Space = FWFile.find(' ')
if Space >= 0: Space = FWFile.find(' ', Space + 1)
if Space >= 0: FWFile = FWFile[Space + 1:]
if not '/' in FWFile and '.BIN' in FWFile.upper():
Firmwares.append(FWFile[:FWFile.upper().index('.BIN') + 4])
return Firmwares
def _RemoveFirmwareFile(FirmwareFile):
_Send(f'M30 /{FirmwareFile}')
Responses = _Recv()
Removed = len(Responses) >= 1 and any('File deleted' in r for r in Responses)
if not Removed:
raise Exception(f"Firmware file '{FirmwareFile}' not removed")
return Removed
def _RemoveFirmwareFile(FirmwareFile):
_Send(f'M30 /{FirmwareFile}')
Responses = _Recv()
Removed = len(Responses) >= 1 and any('File deleted' in r for r in Responses)
if not Removed:
raise Exception(f"Firmware file '{FirmwareFile}' not removed")
return Removed
def _RollbackUpload(FirmwareFile):
if not rollback: return
print(f"Rollback: trying to delete firmware '{FirmwareFile}'...")
_OpenPort()
# Wait for SD card release
time.sleep(1)
# Remount SD card
_CheckSDCard()
print(' OK' if _RemoveFirmwareFile(FirmwareFile) else ' Error!')
_ClosePort()
def _RollbackUpload(FirmwareFile):
if not rollback: return
print(f"Rollback: trying to delete firmware '{FirmwareFile}'...")
_OpenPort()
# Wait for SD card release
time.sleep(1)
# Remount SD card
_CheckSDCard()
print(' OK' if _RemoveFirmwareFile(FirmwareFile) else ' Error!')
_ClosePort()
#---------------------#
# Callback Entrypoint #
#---------------------#
port = None
protocol = None
filetransfer = None
rollback = False
#---------------------#
# Callback Entrypoint #
#---------------------#
port = None
protocol = None
filetransfer = None
rollback = False
# Get Marlin evironment vars
MarlinEnv = env['MARLIN_FEATURES']
marlin_pioenv = _GetMarlinEnv(MarlinEnv, 'PIOENV')
marlin_motherboard = _GetMarlinEnv(MarlinEnv, 'MOTHERBOARD')
marlin_board_info_name = _GetMarlinEnv(MarlinEnv, 'BOARD_INFO_NAME')
marlin_board_custom_build_flags = _GetMarlinEnv(MarlinEnv, 'BOARD_CUSTOM_BUILD_FLAGS')
marlin_firmware_bin = _GetMarlinEnv(MarlinEnv, 'FIRMWARE_BIN')
marlin_long_filename_host_support = _GetMarlinEnv(MarlinEnv, 'LONG_FILENAME_HOST_SUPPORT') is not None
marlin_longname_write = _GetMarlinEnv(MarlinEnv, 'LONG_FILENAME_WRITE_SUPPORT') is not None
marlin_custom_firmware_upload = _GetMarlinEnv(MarlinEnv, 'CUSTOM_FIRMWARE_UPLOAD') is not None
marlin_short_build_version = _GetMarlinEnv(MarlinEnv, 'SHORT_BUILD_VERSION')
marlin_string_config_h_author = _GetMarlinEnv(MarlinEnv, 'STRING_CONFIG_H_AUTHOR')
# Get Marlin evironment vars
MarlinEnv = env['MARLIN_FEATURES']
marlin_pioenv = _GetMarlinEnv(MarlinEnv, 'PIOENV')
marlin_motherboard = _GetMarlinEnv(MarlinEnv, 'MOTHERBOARD')
marlin_board_info_name = _GetMarlinEnv(MarlinEnv, 'BOARD_INFO_NAME')
marlin_board_custom_build_flags = _GetMarlinEnv(MarlinEnv, 'BOARD_CUSTOM_BUILD_FLAGS')
marlin_firmware_bin = _GetMarlinEnv(MarlinEnv, 'FIRMWARE_BIN')
marlin_long_filename_host_support = _GetMarlinEnv(MarlinEnv, 'LONG_FILENAME_HOST_SUPPORT') is not None
marlin_longname_write = _GetMarlinEnv(MarlinEnv, 'LONG_FILENAME_WRITE_SUPPORT') is not None
marlin_custom_firmware_upload = _GetMarlinEnv(MarlinEnv, 'CUSTOM_FIRMWARE_UPLOAD') is not None
marlin_short_build_version = _GetMarlinEnv(MarlinEnv, 'SHORT_BUILD_VERSION')
marlin_string_config_h_author = _GetMarlinEnv(MarlinEnv, 'STRING_CONFIG_H_AUTHOR')
# Get firmware upload params
upload_firmware_source_name = str(source[0]) # Source firmware filename
upload_speed = env['UPLOAD_SPEED'] if 'UPLOAD_SPEED' in env else 115200
# baud rate of serial connection
upload_port = _GetUploadPort(env) # Serial port to use
# Get firmware upload params
upload_firmware_source_name = str(source[0]) # Source firmware filename
upload_speed = env['UPLOAD_SPEED'] if 'UPLOAD_SPEED' in env else 115200
# baud rate of serial connection
upload_port = _GetUploadPort(env) # Serial port to use
# Set local upload params
upload_firmware_target_name = os.path.basename(upload_firmware_source_name)
# Target firmware filename
upload_timeout = 1000 # Communication timout, lossy/slow connections need higher values
upload_blocksize = 512 # Transfer block size. 512 = Autodetect
upload_compression = True # Enable compression
upload_error_ratio = 0 # Simulated corruption ratio
upload_test = False # Benchmark the serial link without storing the file
upload_reset = True # Trigger a soft reset for firmware update after the upload
# Set local upload params
upload_firmware_target_name = os.path.basename(upload_firmware_source_name)
# Target firmware filename
upload_timeout = 1000 # Communication timout, lossy/slow connections need higher values
upload_blocksize = 512 # Transfer block size. 512 = Autodetect
upload_compression = True # Enable compression
upload_error_ratio = 0 # Simulated corruption ratio
upload_test = False # Benchmark the serial link without storing the file
upload_reset = True # Trigger a soft reset for firmware update after the upload
# Set local upload params based on board type to change script behavior
# "upload_delete_old_bins": delete all *.bin files in the root of SD Card
upload_delete_old_bins = marlin_motherboard in ['BOARD_CREALITY_V4', 'BOARD_CREALITY_V4210', 'BOARD_CREALITY_V422', 'BOARD_CREALITY_V423',
'BOARD_CREALITY_V427', 'BOARD_CREALITY_V431', 'BOARD_CREALITY_V452', 'BOARD_CREALITY_V453',
'BOARD_CREALITY_V24S1']
# "upload_random_name": generate a random 8.3 firmware filename to upload
upload_random_filename = marlin_motherboard in ['BOARD_CREALITY_V4', 'BOARD_CREALITY_V4210', 'BOARD_CREALITY_V422', 'BOARD_CREALITY_V423',
'BOARD_CREALITY_V427', 'BOARD_CREALITY_V431', 'BOARD_CREALITY_V452', 'BOARD_CREALITY_V453',
'BOARD_CREALITY_V24S1'] and not marlin_long_filename_host_support
# Set local upload params based on board type to change script behavior
# "upload_delete_old_bins": delete all *.bin files in the root of SD Card
upload_delete_old_bins = marlin_motherboard in ['BOARD_CREALITY_V4', 'BOARD_CREALITY_V4210', 'BOARD_CREALITY_V422', 'BOARD_CREALITY_V423',
'BOARD_CREALITY_V427', 'BOARD_CREALITY_V431', 'BOARD_CREALITY_V452', 'BOARD_CREALITY_V453',
'BOARD_CREALITY_V24S1']
# "upload_random_name": generate a random 8.3 firmware filename to upload
upload_random_filename = marlin_motherboard in ['BOARD_CREALITY_V4', 'BOARD_CREALITY_V4210', 'BOARD_CREALITY_V422', 'BOARD_CREALITY_V423',
'BOARD_CREALITY_V427', 'BOARD_CREALITY_V431', 'BOARD_CREALITY_V452', 'BOARD_CREALITY_V453',
'BOARD_CREALITY_V24S1'] and not marlin_long_filename_host_support
try:
try:
# Start upload job
print(f"Uploading firmware '{os.path.basename(upload_firmware_target_name)}' to '{marlin_motherboard}' via '{upload_port}'")
# Start upload job
print(f"Uploading firmware '{os.path.basename(upload_firmware_target_name)}' to '{marlin_motherboard}' via '{upload_port}'")
# Dump some debug info
if Debug:
print('Upload using:')
print('---- Marlin -----------------------------------')
print(f' PIOENV : {marlin_pioenv}')
print(f' SHORT_BUILD_VERSION : {marlin_short_build_version}')
print(f' STRING_CONFIG_H_AUTHOR : {marlin_string_config_h_author}')
print(f' MOTHERBOARD : {marlin_motherboard}')
print(f' BOARD_INFO_NAME : {marlin_board_info_name}')
print(f' CUSTOM_BUILD_FLAGS : {marlin_board_custom_build_flags}')
print(f' FIRMWARE_BIN : {marlin_firmware_bin}')
print(f' LONG_FILENAME_HOST_SUPPORT : {marlin_long_filename_host_support}')
print(f' LONG_FILENAME_WRITE_SUPPORT : {marlin_longname_write}')
print(f' CUSTOM_FIRMWARE_UPLOAD : {marlin_custom_firmware_upload}')
print('---- Upload parameters ------------------------')
print(f' Source : {upload_firmware_source_name}')
print(f' Target : {upload_firmware_target_name}')
print(f' Port : {upload_port} @ {upload_speed} baudrate')
print(f' Timeout : {upload_timeout}')
print(f' Block size : {upload_blocksize}')
print(f' Compression : {upload_compression}')
print(f' Error ratio : {upload_error_ratio}')
print(f' Test : {upload_test}')
print(f' Reset : {upload_reset}')
print('-----------------------------------------------')
# Dump some debug info
if Debug:
print('Upload using:')
print('---- Marlin -----------------------------------')
print(f' PIOENV : {marlin_pioenv}')
print(f' SHORT_BUILD_VERSION : {marlin_short_build_version}')
print(f' STRING_CONFIG_H_AUTHOR : {marlin_string_config_h_author}')
print(f' MOTHERBOARD : {marlin_motherboard}')
print(f' BOARD_INFO_NAME : {marlin_board_info_name}')
print(f' CUSTOM_BUILD_FLAGS : {marlin_board_custom_build_flags}')
print(f' FIRMWARE_BIN : {marlin_firmware_bin}')
print(f' LONG_FILENAME_HOST_SUPPORT : {marlin_long_filename_host_support}')
print(f' LONG_FILENAME_WRITE_SUPPORT : {marlin_longname_write}')
print(f' CUSTOM_FIRMWARE_UPLOAD : {marlin_custom_firmware_upload}')
print('---- Upload parameters ------------------------')
print(f' Source : {upload_firmware_source_name}')
print(f' Target : {upload_firmware_target_name}')
print(f' Port : {upload_port} @ {upload_speed} baudrate')
print(f' Timeout : {upload_timeout}')
print(f' Block size : {upload_blocksize}')
print(f' Compression : {upload_compression}')
print(f' Error ratio : {upload_error_ratio}')
print(f' Test : {upload_test}')
print(f' Reset : {upload_reset}')
print('-----------------------------------------------')
# Custom implementations based on board parameters
# Generate a new 8.3 random filename
if upload_random_filename:
upload_firmware_target_name = f"fw-{''.join(random.choices('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789', k=5))}.BIN"
print(f"Board {marlin_motherboard}: Overriding firmware filename to '{upload_firmware_target_name}'")
# Custom implementations based on board parameters
# Generate a new 8.3 random filename
if upload_random_filename:
upload_firmware_target_name = f"fw-{''.join(random.choices('ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789', k=5))}.BIN"
print(f"Board {marlin_motherboard}: Overriding firmware filename to '{upload_firmware_target_name}'")
# Delete all *.bin files on the root of SD Card (if flagged)
if upload_delete_old_bins:
# CUSTOM_FIRMWARE_UPLOAD is needed for this feature
if not marlin_custom_firmware_upload:
raise Exception(f"CUSTOM_FIRMWARE_UPLOAD must be enabled in 'Configuration_adv.h' for '{marlin_motherboard}'")
# Delete all *.bin files on the root of SD Card (if flagged)
if upload_delete_old_bins:
# CUSTOM_FIRMWARE_UPLOAD is needed for this feature
if not marlin_custom_firmware_upload:
raise Exception(f"CUSTOM_FIRMWARE_UPLOAD must be enabled in 'Configuration_adv.h' for '{marlin_motherboard}'")
# Init & Open serial port
port = serial.Serial(upload_port, baudrate = upload_speed, write_timeout = 0, timeout = 0.1)
_OpenPort()
# Init & Open serial port
port = serial.Serial(upload_port, baudrate = upload_speed, write_timeout = 0, timeout = 0.1)
_OpenPort()
# Check SD card status
_CheckSDCard()
# Check SD card status
_CheckSDCard()
# Get firmware files
FirmwareFiles = _GetFirmwareFiles(marlin_long_filename_host_support)
if Debug:
for FirmwareFile in FirmwareFiles:
print(f'Found: {FirmwareFile}')
# Get firmware files
FirmwareFiles = _GetFirmwareFiles(marlin_long_filename_host_support)
if Debug:
for FirmwareFile in FirmwareFiles:
print(f'Found: {FirmwareFile}')
# Get all 1st level firmware files (to remove)
OldFirmwareFiles = _FilterFirmwareFiles(FirmwareFiles[1:len(FirmwareFiles)-2], marlin_long_filename_host_support) # Skip header and footers of list
if len(OldFirmwareFiles) == 0:
print('No old firmware files to delete')
else:
print(f"Remove {len(OldFirmwareFiles)} old firmware file{'s' if len(OldFirmwareFiles) != 1 else ''}:")
for OldFirmwareFile in OldFirmwareFiles:
print(f" -Removing- '{OldFirmwareFile}'...")
print(' OK' if _RemoveFirmwareFile(OldFirmwareFile) else ' Error!')
# Get all 1st level firmware files (to remove)
OldFirmwareFiles = _FilterFirmwareFiles(FirmwareFiles[1:len(FirmwareFiles)-2], marlin_long_filename_host_support) # Skip header and footers of list
if len(OldFirmwareFiles) == 0:
print('No old firmware files to delete')
else:
print(f"Remove {len(OldFirmwareFiles)} old firmware file{'s' if len(OldFirmwareFiles) != 1 else ''}:")
for OldFirmwareFile in OldFirmwareFiles:
print(f" -Removing- '{OldFirmwareFile}'...")
print(' OK' if _RemoveFirmwareFile(OldFirmwareFile) else ' Error!')
# Close serial
_ClosePort()
# Close serial
_ClosePort()
# Cleanup completed
debugPrint('Cleanup completed')
# Cleanup completed
debugPrint('Cleanup completed')
# WARNING! The serial port must be closed here because the serial transfer that follow needs it!
# WARNING! The serial port must be closed here because the serial transfer that follow needs it!
# Upload firmware file
debugPrint(f"Copy '{upload_firmware_source_name}' --> '{upload_firmware_target_name}'")
protocol = MarlinBinaryProtocol.Protocol(upload_port, upload_speed, upload_blocksize, float(upload_error_ratio), int(upload_timeout))
#echologger = MarlinBinaryProtocol.EchoProtocol(protocol)
protocol.connect()
# Mark the rollback (delete broken transfer) from this point on
rollback = True
filetransfer = MarlinBinaryProtocol.FileTransferProtocol(protocol)
transferOK = filetransfer.copy(upload_firmware_source_name, upload_firmware_target_name, upload_compression, upload_test)
protocol.disconnect()
# Upload firmware file
debugPrint(f"Copy '{upload_firmware_source_name}' --> '{upload_firmware_target_name}'")
protocol = MarlinBinaryProtocol.Protocol(upload_port, upload_speed, upload_blocksize, float(upload_error_ratio), int(upload_timeout))
#echologger = MarlinBinaryProtocol.EchoProtocol(protocol)
protocol.connect()
# Mark the rollback (delete broken transfer) from this point on
rollback = True
filetransfer = MarlinBinaryProtocol.FileTransferProtocol(protocol)
transferOK = filetransfer.copy(upload_firmware_source_name, upload_firmware_target_name, upload_compression, upload_test)
protocol.disconnect()
# Notify upload completed
protocol.send_ascii('M117 Firmware uploaded' if transferOK else 'M117 Firmware upload failed')
# Notify upload completed
protocol.send_ascii('M117 Firmware uploaded' if transferOK else 'M117 Firmware upload failed')
# Remount SD card
print('Wait for SD card release...')
time.sleep(1)
print('Remount SD card')
protocol.send_ascii('M21')
# Remount SD card
print('Wait for SD card release...')
time.sleep(1)
print('Remount SD card')
protocol.send_ascii('M21')
# Transfer failed?
if not transferOK:
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
else:
# Trigger firmware update
if upload_reset:
print('Trigger firmware update...')
protocol.send_ascii('M997', True)
protocol.shutdown()
# Transfer failed?
if not transferOK:
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
else:
# Trigger firmware update
if upload_reset:
print('Trigger firmware update...')
protocol.send_ascii('M997', True)
protocol.shutdown()
print('Firmware update completed' if transferOK else 'Firmware update failed')
return 0 if transferOK else -1
print('Firmware update completed' if transferOK else 'Firmware update failed')
return 0 if transferOK else -1
except KeyboardInterrupt:
print('Aborted by user')
if filetransfer: filetransfer.abort()
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
raise
except KeyboardInterrupt:
print('Aborted by user')
if filetransfer: filetransfer.abort()
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
raise
except serial.SerialException as se:
# This exception is raised only for send_ascii data (not for binary transfer)
print(f'Serial excepion: {se}, transfer aborted')
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
raise Exception(se)
except serial.SerialException as se:
# This exception is raised only for send_ascii data (not for binary transfer)
print(f'Serial excepion: {se}, transfer aborted')
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
raise Exception(se)
except MarlinBinaryProtocol.FatalError:
print('Too many retries, transfer aborted')
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
raise
except MarlinBinaryProtocol.FatalError:
print('Too many retries, transfer aborted')
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
raise
except Exception as ex:
print(f"\nException: {ex}, transfer aborted")
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
print('Firmware not updated')
raise
except Exception as ex:
print(f"\nException: {ex}, transfer aborted")
if protocol:
protocol.disconnect()
protocol.shutdown()
_RollbackUpload(upload_firmware_target_name)
_ClosePort()
print('Firmware not updated')
raise
# Attach custom upload callback
env.Replace(UPLOADCMD=Upload)

View File

@ -6,7 +6,7 @@ import yaml
with open('.github/workflows/test-builds.yml') as f:
github_configuration = yaml.safe_load(f)
github_configuration = yaml.safe_load(f)
test_platforms = github_configuration\
['jobs']['test_builds']['strategy']['matrix']['test-platform']
['jobs']['test_builds']['strategy']['matrix']['test-platform']
print(' '.join(test_platforms))