contrib/cloud/gce-import - ipxe - Git at Google

 #!/usr/bin/env python3

 import argparse
 from concurrent.futures import ThreadPoolExecutor, as_completed
 from datetime import date
 import io
 import subprocess
 import tarfile
 from uuid import uuid4

 from google.cloud import compute
 from google.cloud import exceptions
 from google.cloud import storage

 IPXE_STORAGE_PREFIX = 'ipxe-upload-temp-'

 FEATURE_GVNIC = compute.GuestOsFeature(type_="GVNIC")
 FEATURE_IDPF = compute.GuestOsFeature(type_="IDPF")
 FEATURE_UEFI = compute.GuestOsFeature(type_="UEFI_COMPATIBLE")

 POLICY_PUBLIC = compute.Policy(bindings=[{
     "role": "roles/compute.imageUser",
     "members": ["allAuthenticatedUsers"],
 }])

 def delete_temp_bucket(bucket):
     """Remove temporary bucket"""
     assert bucket.name.startswith(IPXE_STORAGE_PREFIX)
     for blob in bucket.list_blobs(prefix=IPXE_STORAGE_PREFIX):
         assert blob.name.startswith(IPXE_STORAGE_PREFIX)
         blob.delete()
     if not list(bucket.list_blobs()):
         bucket.delete()

 def create_temp_bucket(location):
     """Create temporary bucket (and remove any stale temporary buckets)"""
     client = storage.Client()
     for bucket in client.list_buckets(prefix=IPXE_STORAGE_PREFIX):
         delete_temp_bucket(bucket)
     name = '%s%s' % (IPXE_STORAGE_PREFIX, uuid4())
     return client.create_bucket(name, location=location)

 def create_tarball(image):
     """Create raw disk image tarball"""
     tarball = io.BytesIO()
     with tarfile.open(fileobj=tarball, mode='w:gz',
                       format=tarfile.GNU_FORMAT) as tar:
         tar.add(image, arcname='disk.raw')
     tarball.seek(0)
     return tarball

 def upload_blob(bucket, image):
     """Upload raw disk image blob"""
     blob = bucket.blob('%s%s.tar.gz' % (IPXE_STORAGE_PREFIX, uuid4()))
     tarball = create_tarball(image)
     blob.upload_from_file(tarball)
     return blob

 def detect_uefi(image):
     """Identify UEFI CPU architecture(s)"""
     mdir = subprocess.run(['mdir', '-b', '-i', image, '::/EFI/BOOT'],
                           stdout=subprocess.PIPE, stderr=subprocess.PIPE,
                           check=False)
     mapping = {
         b'BOOTX64.EFI': 'x86_64',
         b'BOOTAA64.EFI': 'arm64',
     }
     uefi = [
         arch
         for filename, arch in mapping.items()
         if filename in mdir.stdout
     ]
     return uefi

 def image_architecture(uefi):
     """Get image architecture"""
     return uefi[0] if len(uefi) == 1 else None if uefi else 'x86_64'

 def image_features(uefi):
     """Get image feature list"""
     features = [FEATURE_GVNIC, FEATURE_IDPF]
     if uefi:
         features.append(FEATURE_UEFI)
     return features

 def image_name(base, uefi):
     """Calculate image name or family name"""
     suffix = ('-uefi-%s' % uefi[0].replace('_', '-') if len(uefi) == 1 else
               '-uefi-multi' if uefi else '')
     return '%s%s' % (base, suffix)

 def create_image(project, basename, basefamily, overwrite, public, bucket,
                  image):
     """Create image"""
     client = compute.ImagesClient()
     uefi = detect_uefi(image)
     architecture = image_architecture(uefi)
     features = image_features(uefi)
     name = image_name(basename, uefi)
     family = image_name(basefamily, uefi)
     if overwrite:
         try:
             client.delete(project=project, image=name).result()
         except exceptions.NotFound:
             pass
     blob = upload_blob(bucket, image)
     disk = compute.RawDisk(source=blob.public_url)
     image = compute.Image(name=name, family=family, architecture=architecture,
                           guest_os_features=features, raw_disk=disk)
     client.insert(project=project, image_resource=image).result()
     if public:
         request = compute.GlobalSetPolicyRequest(policy=POLICY_PUBLIC)
         client.set_iam_policy(project=project, resource=name,
                               global_set_policy_request_resource=request)
     image = client.get(project=project, image=name)
     return image

 # Parse command-line arguments
 #
 parser = argparse.ArgumentParser(description="Import Google Cloud image")
 parser.add_argument('--name', '-n',
                     help="Base image name")
 parser.add_argument('--family', '-f',
                     help="Base family name")
 parser.add_argument('--public', '-p', action='store_true',
                     help="Make image public")
 parser.add_argument('--overwrite', action='store_true',
                     help="Overwrite any existing image with same name")
 parser.add_argument('--project', '-j', default="ipxe-images",
                     help="Google Cloud project")
 parser.add_argument('--location', '-l',
                     help="Google Cloud Storage initial location")
 parser.add_argument('image', nargs='+', help="iPXE disk image")
 args = parser.parse_args()

 # Use default family name if none specified
 if not args.family:
     args.family = 'ipxe'

 # Use default name if none specified
 if not args.name:
     args.name = '%s-%s' % (args.family, date.today().strftime('%Y%m%d'))

 # Create temporary upload bucket
 bucket = create_temp_bucket(args.location)

 # Use one thread per image to maximise parallelism
 with ThreadPoolExecutor(max_workers=len(args.image)) as executor:
     futures = {executor.submit(create_image,
                                project=args.project,
                                basename=args.name,
                                basefamily=args.family,
                                overwrite=args.overwrite,
                                public=args.public,
                                bucket=bucket,
                                image=image): image
                for image in args.image}
     results = {futures[future]: future.result()
                for future in as_completed(futures)}

 # Delete temporary upload bucket
 delete_temp_bucket(bucket)

 # Show created images
 for image in args.image:
     result = results[image]
     print("%s (%s) %s" % (result.name, result.family, result.status))
	#!/usr/bin/env python3

	import argparse
	from concurrent.futures import ThreadPoolExecutor, as_completed
	from datetime import date
	import io
	import subprocess
	import tarfile
	from uuid import uuid4

	from google.cloud import compute
	from google.cloud import exceptions
	from google.cloud import storage

	IPXE_STORAGE_PREFIX = 'ipxe-upload-temp-'

	FEATURE_GVNIC = compute.GuestOsFeature(type_="GVNIC")
	FEATURE_IDPF = compute.GuestOsFeature(type_="IDPF")
	FEATURE_UEFI = compute.GuestOsFeature(type_="UEFI_COMPATIBLE")

	POLICY_PUBLIC = compute.Policy(bindings=[{
	"role": "roles/compute.imageUser",
	"members": ["allAuthenticatedUsers"],
	}])

	def delete_temp_bucket(bucket):
	"""Remove temporary bucket"""
	assert bucket.name.startswith(IPXE_STORAGE_PREFIX)
	for blob in bucket.list_blobs(prefix=IPXE_STORAGE_PREFIX):
	assert blob.name.startswith(IPXE_STORAGE_PREFIX)
	blob.delete()
	if not list(bucket.list_blobs()):
	bucket.delete()

	def create_temp_bucket(location):
	"""Create temporary bucket (and remove any stale temporary buckets)"""
	client = storage.Client()
	for bucket in client.list_buckets(prefix=IPXE_STORAGE_PREFIX):
	delete_temp_bucket(bucket)
	name = '%s%s' % (IPXE_STORAGE_PREFIX, uuid4())
	return client.create_bucket(name, location=location)

	def create_tarball(image):
	"""Create raw disk image tarball"""
	tarball = io.BytesIO()
	with tarfile.open(fileobj=tarball, mode='w:gz',
	format=tarfile.GNU_FORMAT) as tar:
	tar.add(image, arcname='disk.raw')
	tarball.seek(0)
	return tarball

	def upload_blob(bucket, image):
	"""Upload raw disk image blob"""
	blob = bucket.blob('%s%s.tar.gz' % (IPXE_STORAGE_PREFIX, uuid4()))
	tarball = create_tarball(image)
	blob.upload_from_file(tarball)
	return blob

	def detect_uefi(image):
	"""Identify UEFI CPU architecture(s)"""
	mdir = subprocess.run(['mdir', '-b', '-i', image, '::/EFI/BOOT'],
	stdout=subprocess.PIPE, stderr=subprocess.PIPE,
	check=False)
	mapping = {
	b'BOOTX64.EFI': 'x86_64',
	b'BOOTAA64.EFI': 'arm64',
	}
	uefi = [
	arch
	for filename, arch in mapping.items()
	if filename in mdir.stdout
	]
	return uefi

	def image_architecture(uefi):
	"""Get image architecture"""
	return uefi[0] if len(uefi) == 1 else None if uefi else 'x86_64'

	def image_features(uefi):
	"""Get image feature list"""
	features = [FEATURE_GVNIC, FEATURE_IDPF]
	if uefi:
	features.append(FEATURE_UEFI)
	return features

	def image_name(base, uefi):
	"""Calculate image name or family name"""
	suffix = ('-uefi-%s' % uefi[0].replace('_', '-') if len(uefi) == 1 else
	'-uefi-multi' if uefi else '')
	return '%s%s' % (base, suffix)

	def create_image(project, basename, basefamily, overwrite, public, bucket,
	image):
	"""Create image"""
	client = compute.ImagesClient()
	uefi = detect_uefi(image)
	architecture = image_architecture(uefi)
	features = image_features(uefi)
	name = image_name(basename, uefi)
	family = image_name(basefamily, uefi)
	if overwrite:
	try:
	client.delete(project=project, image=name).result()
	except exceptions.NotFound:
	pass
	blob = upload_blob(bucket, image)
	disk = compute.RawDisk(source=blob.public_url)
	image = compute.Image(name=name, family=family, architecture=architecture,
	guest_os_features=features, raw_disk=disk)
	client.insert(project=project, image_resource=image).result()
	if public:
	request = compute.GlobalSetPolicyRequest(policy=POLICY_PUBLIC)
	client.set_iam_policy(project=project, resource=name,
	global_set_policy_request_resource=request)
	image = client.get(project=project, image=name)
	return image

	# Parse command-line arguments
	#
	parser = argparse.ArgumentParser(description="Import Google Cloud image")
	parser.add_argument('--name', '-n',
	help="Base image name")
	parser.add_argument('--family', '-f',
	help="Base family name")
	parser.add_argument('--public', '-p', action='store_true',
	help="Make image public")
	parser.add_argument('--overwrite', action='store_true',
	help="Overwrite any existing image with same name")
	parser.add_argument('--project', '-j', default="ipxe-images",
	help="Google Cloud project")
	parser.add_argument('--location', '-l',
	help="Google Cloud Storage initial location")
	parser.add_argument('image', nargs='+', help="iPXE disk image")
	args = parser.parse_args()

	# Use default family name if none specified
	if not args.family:
	args.family = 'ipxe'

	# Use default name if none specified
	if not args.name:
	args.name = '%s-%s' % (args.family, date.today().strftime('%Y%m%d'))

	# Create temporary upload bucket
	bucket = create_temp_bucket(args.location)

	# Use one thread per image to maximise parallelism
	with ThreadPoolExecutor(max_workers=len(args.image)) as executor:
	futures = {executor.submit(create_image,
	project=args.project,
	basename=args.name,
	basefamily=args.family,
	overwrite=args.overwrite,
	public=args.public,
	bucket=bucket,
	image=image): image
	for image in args.image}
	results = {futures[future]: future.result()
	for future in as_completed(futures)}

	# Delete temporary upload bucket
	delete_temp_bucket(bucket)

	# Show created images
	for image in args.image:
	result = results[image]
	print("%s (%s) %s" % (result.name, result.family, result.status))