buildkite/create_images.py - continuous-integration - Git at Google

 #!/usr/bin/env python3
 #
 # Copyright 2018 The Bazel Authors. All rights reserved.
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #    http://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.

 from datetime import datetime
 import json
 import os
 import queue
 import subprocess
 import sys
 import tempfile
 import threading

 import gcloud
 import gcloud_utils

 DEBUG = False

 IMAGE_CREATION_VMS = {
     "bk-testing-docker": {
         "project": "bazel-public",
         "zone": "us-central1-f",
         "source_image_project": "ubuntu-os-cloud",
         "source_image_family": "ubuntu-2004-lts",
         "setup_script": "setup-docker.sh",
         "guest_os_features": ["VIRTIO_SCSI_MULTIQUEUE"],
         "licenses": [
             "https://www.googleapis.com/compute/v1/projects/vm-options/global/licenses/enable-vmx"
         ],
     },
     "bk-testing-windows": {
         "project": "bazel-public",
         "zone": "us-central1-f",
         "source_image_project": "windows-cloud",
         "source_image_family": "windows-2019-core",
         "setup_script": "setup-windows.ps1",
         "guest_os_features": ["VIRTIO_SCSI_MULTIQUEUE"],
     },
     "windows-playground": {
         "project": "di-cloud-exp",
         "zone": "us-central1-f",
         "network": "default",
         "source_image_project": "windows-cloud",
         "source_image_family": "windows-2019",
         "setup_script": "setup-windows.ps1",
         "guest_os_features": ["VIRTIO_SCSI_MULTIQUEUE"],
     },
 }

 WORK_QUEUE = queue.Queue()


 def run(args, **kwargs):
     return subprocess.run(args, **kwargs)


 def preprocess_setup_script(setup_script, is_windows):
     output_file = tempfile.mkstemp()[1]
     newline = "\r\n" if is_windows else "\n"
     with open(output_file, "w", newline=newline) as f:
         with open(setup_script, "r") as setup_script_file:
             if is_windows:
                 f.write("$setup_script = @'\n")
             f.write(setup_script_file.read() + "\n")
             if is_windows:
                 f.write("'@\n")
                 f.write('[System.IO.File]::WriteAllLines("c:\\setup.ps1", $setup_script)\n')
     return output_file


 def create_instance(instance_name, params):
     is_windows = "windows" in instance_name
     setup_script = preprocess_setup_script(params["setup_script"], is_windows)
     try:
         if is_windows:
             startup_script = "windows-startup-script-ps1=" + setup_script
         else:
             startup_script = "startup-script=" + setup_script

         if "source_image" in params:
             image = {"image": params["source_image"]}
         else:
             image = {
                 "image-project": params["source_image_project"],
                 "image-family": params["source_image_family"],
             }

         gcloud.create_instance(
             instance_name,
             project=params["project"],
             zone=params["zone"],
             machine_type="c2-standard-8",
             network=params.get("network", "default"),
             metadata_from_file=startup_script,
             boot_disk_type="pd-ssd",
             boot_disk_size=params.get("boot_disk_size", "500GB"),
             **image,
         )
     finally:
         os.remove(setup_script)


 # https://stackoverflow.com/a/25802742
 def write_to_clipboard(output):
     process = subprocess.Popen("pbcopy", env={"LANG": "en_US.UTF-8"}, stdin=subprocess.PIPE)
     process.communicate(output.encode("utf-8"))


 def print_windows_instructions(project, zone, instance_name):
     tail_start = gcloud_utils.tail_serial_console(
         instance_name, project=project, zone=zone, until="Finished running startup scripts"
     )

     pw = json.loads(
         gcloud.reset_windows_password(
             instance_name, format="json", project=project, zone=zone
         ).stdout
     )
     rdp_file = tempfile.mkstemp(suffix=".rdp")[1]
     with open(rdp_file, "w") as f:
         f.write("full address:s:" + pw["ip_address"] + "\n")
         f.write("username:s:" + pw["username"] + "\n")
     print("Opening ", rdp_file)
     subprocess.run(["open", rdp_file])
     write_to_clipboard(pw["password"])
     with gcloud.PRINT_LOCK:
         print("Use this password to connect to the Windows VM: " + pw["password"])
         print("Please run the setup script C:\\setup.ps1 once you're logged in.")

     # Wait until the VM reboots once, then open RDP again.
     tail_start = gcloud_utils.tail_serial_console(
         instance_name,
         project=project,
         zone=zone,
         start=tail_start,
         until="GCEGuestAgent: GCE Agent Started",
     )
     print("Connecting via RDP a second time to finish the setup...")
     write_to_clipboard(pw["password"])
     run(["open", rdp_file])
     return tail_start


 def workflow(name, params):
     instance_name = "%s-image-%s" % (name, int(datetime.now().timestamp()))
     project = params["project"]
     zone = params["zone"]
     try:
         # Create the VM.
         create_instance(instance_name, params)

         # Wait for the VM to become ready.
         gcloud_utils.wait_for_instance(instance_name, project=project, zone=zone, status="RUNNING")

         if "windows" in instance_name:
             # Wait for VM to be ready, then print setup instructions.
             tail_start = print_windows_instructions(project, zone, instance_name)
             # Continue printing the serial console until the VM shuts down.
             gcloud_utils.tail_serial_console(
                 instance_name, project=project, zone=zone, start=tail_start
             )
         else:
             # Continuously print the serial console.
             gcloud_utils.tail_serial_console(instance_name, project=project, zone=zone)

         # Wait for the VM to completely shutdown.
         gcloud_utils.wait_for_instance(
             instance_name, project=project, zone=zone, status="TERMINATED"
         )

         # Create a new image from our VM.
         gcloud.create_image(
             instance_name,
             project=project,
             family=name,
             source_disk=instance_name,
             source_disk_zone=zone,
             licenses=params.get("licenses", []),
             guest_os_features=params.get("guest_os_features", []),
         )
     finally:
         gcloud.delete_instance(instance_name, project=project, zone=zone)


 def worker():
     while True:
         item = WORK_QUEUE.get()
         if not item:
             break
         try:
             workflow(**item)
         finally:
             WORK_QUEUE.task_done()


 def main(argv=None):
     if argv is None:
         argv = sys.argv[1:]

     if not argv:
         print("Usage: create_images.py {}".format(" ".join(IMAGE_CREATION_VMS.keys())))
         return 1

     unknown_args = set(argv).difference(IMAGE_CREATION_VMS.keys())
     if unknown_args:
         print(
             "Unknown platforms: {}\nAvailable platforms: {}".format(
                 ", ".join(unknown_args), ", ".join(IMAGE_CREATION_VMS.keys())
             )
         )
         return 1

     # Put VM creation instructions into the work queue.
     for name in argv:
         WORK_QUEUE.put({"name": name, "params": IMAGE_CREATION_VMS[name]})

     # Spawn worker threads that will create the VMs.
     threads = []
     for _ in range(WORK_QUEUE.qsize()):
         t = threading.Thread(target=worker)
         t.start()
         threads.append(t)

     # Wait for all VMs to be created.
     WORK_QUEUE.join()

     # Signal worker threads to exit.
     for _ in range(len(threads)):
         WORK_QUEUE.put(None)

     # Wait for worker threads to exit.
     for t in threads:
         t.join()

     return 0


 if __name__ == "__main__":
     sys.exit(main())
	#!/usr/bin/env python3
	#
	# Copyright 2018 The Bazel Authors. All rights reserved.
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	from datetime import datetime
	import json
	import os
	import queue
	import subprocess
	import sys
	import tempfile
	import threading

	import gcloud
	import gcloud_utils

	DEBUG = False

	IMAGE_CREATION_VMS = {
	"bk-testing-docker": {
	"project": "bazel-public",
	"zone": "us-central1-f",
	"source_image_project": "ubuntu-os-cloud",
	"source_image_family": "ubuntu-2004-lts",
	"setup_script": "setup-docker.sh",
	"guest_os_features": ["VIRTIO_SCSI_MULTIQUEUE"],
	"licenses": [
	"https://www.googleapis.com/compute/v1/projects/vm-options/global/licenses/enable-vmx"
	],
	},
	"bk-testing-windows": {
	"project": "bazel-public",
	"zone": "us-central1-f",
	"source_image_project": "windows-cloud",
	"source_image_family": "windows-2019-core",
	"setup_script": "setup-windows.ps1",
	"guest_os_features": ["VIRTIO_SCSI_MULTIQUEUE"],
	},
	"windows-playground": {
	"project": "di-cloud-exp",
	"zone": "us-central1-f",
	"network": "default",
	"source_image_project": "windows-cloud",
	"source_image_family": "windows-2019",
	"setup_script": "setup-windows.ps1",
	"guest_os_features": ["VIRTIO_SCSI_MULTIQUEUE"],
	},
	}

	WORK_QUEUE = queue.Queue()


	def run(args, **kwargs):
	return subprocess.run(args, **kwargs)


	def preprocess_setup_script(setup_script, is_windows):
	output_file = tempfile.mkstemp()[1]
	newline = "\r\n" if is_windows else "\n"
	with open(output_file, "w", newline=newline) as f:
	with open(setup_script, "r") as setup_script_file:
	if is_windows:
	f.write("$setup_script = @'\n")
	f.write(setup_script_file.read() + "\n")
	if is_windows:
	f.write("'@\n")
	f.write('[System.IO.File]::WriteAllLines("c:\\setup.ps1", $setup_script)\n')
	return output_file


	def create_instance(instance_name, params):
	is_windows = "windows" in instance_name
	setup_script = preprocess_setup_script(params["setup_script"], is_windows)
	try:
	if is_windows:
	startup_script = "windows-startup-script-ps1=" + setup_script
	else:
	startup_script = "startup-script=" + setup_script

	if "source_image" in params:
	image = {"image": params["source_image"]}
	else:
	image = {
	"image-project": params["source_image_project"],
	"image-family": params["source_image_family"],
	}

	gcloud.create_instance(
	instance_name,
	project=params["project"],
	zone=params["zone"],
	machine_type="c2-standard-8",
	network=params.get("network", "default"),
	metadata_from_file=startup_script,
	boot_disk_type="pd-ssd",
	boot_disk_size=params.get("boot_disk_size", "500GB"),
	**image,
	)
	finally:
	os.remove(setup_script)


	# https://stackoverflow.com/a/25802742
	def write_to_clipboard(output):
	process = subprocess.Popen("pbcopy", env={"LANG": "en_US.UTF-8"}, stdin=subprocess.PIPE)
	process.communicate(output.encode("utf-8"))


	def print_windows_instructions(project, zone, instance_name):
	tail_start = gcloud_utils.tail_serial_console(
	instance_name, project=project, zone=zone, until="Finished running startup scripts"
	)

	pw = json.loads(
	gcloud.reset_windows_password(
	instance_name, format="json", project=project, zone=zone
	).stdout
	)
	rdp_file = tempfile.mkstemp(suffix=".rdp")[1]
	with open(rdp_file, "w") as f:
	f.write("full address:s:" + pw["ip_address"] + "\n")
	f.write("username:s:" + pw["username"] + "\n")
	print("Opening ", rdp_file)
	subprocess.run(["open", rdp_file])
	write_to_clipboard(pw["password"])
	with gcloud.PRINT_LOCK:
	print("Use this password to connect to the Windows VM: " + pw["password"])
	print("Please run the setup script C:\\setup.ps1 once you're logged in.")

	# Wait until the VM reboots once, then open RDP again.
	tail_start = gcloud_utils.tail_serial_console(
	instance_name,
	project=project,
	zone=zone,
	start=tail_start,
	until="GCEGuestAgent: GCE Agent Started",
	)
	print("Connecting via RDP a second time to finish the setup...")
	write_to_clipboard(pw["password"])
	run(["open", rdp_file])
	return tail_start


	def workflow(name, params):
	instance_name = "%s-image-%s" % (name, int(datetime.now().timestamp()))
	project = params["project"]
	zone = params["zone"]
	try:
	# Create the VM.
	create_instance(instance_name, params)

	# Wait for the VM to become ready.
	gcloud_utils.wait_for_instance(instance_name, project=project, zone=zone, status="RUNNING")

	if "windows" in instance_name:
	# Wait for VM to be ready, then print setup instructions.
	tail_start = print_windows_instructions(project, zone, instance_name)
	# Continue printing the serial console until the VM shuts down.
	gcloud_utils.tail_serial_console(
	instance_name, project=project, zone=zone, start=tail_start
	)
	else:
	# Continuously print the serial console.
	gcloud_utils.tail_serial_console(instance_name, project=project, zone=zone)

	# Wait for the VM to completely shutdown.
	gcloud_utils.wait_for_instance(
	instance_name, project=project, zone=zone, status="TERMINATED"
	)

	# Create a new image from our VM.
	gcloud.create_image(
	instance_name,
	project=project,
	family=name,
	source_disk=instance_name,
	source_disk_zone=zone,
	licenses=params.get("licenses", []),
	guest_os_features=params.get("guest_os_features", []),
	)
	finally:
	gcloud.delete_instance(instance_name, project=project, zone=zone)


	def worker():
	while True:
	item = WORK_QUEUE.get()
	if not item:
	break
	try:
	workflow(**item)
	finally:
	WORK_QUEUE.task_done()


	def main(argv=None):
	if argv is None:
	argv = sys.argv[1:]

	if not argv:
	print("Usage: create_images.py {}".format(" ".join(IMAGE_CREATION_VMS.keys())))
	return 1

	unknown_args = set(argv).difference(IMAGE_CREATION_VMS.keys())
	if unknown_args:
	print(
	"Unknown platforms: {}\nAvailable platforms: {}".format(
	", ".join(unknown_args), ", ".join(IMAGE_CREATION_VMS.keys())
	)
	)
	return 1

	# Put VM creation instructions into the work queue.
	for name in argv:
	WORK_QUEUE.put({"name": name, "params": IMAGE_CREATION_VMS[name]})

	# Spawn worker threads that will create the VMs.
	threads = []
	for _ in range(WORK_QUEUE.qsize()):
	t = threading.Thread(target=worker)
	t.start()
	threads.append(t)

	# Wait for all VMs to be created.
	WORK_QUEUE.join()

	# Signal worker threads to exit.
	for _ in range(len(threads)):
	WORK_QUEUE.put(None)

	# Wait for worker threads to exit.
	for t in threads:
	t.join()

	return 0


	if __name__ == "__main__":
	sys.exit(main())