nixpkgs/maintainers/scripts/ec2/create-ebs-amis.py

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#! /usr/bin/env python
import sys
from charon import deployment
from boto.ec2.blockdevicemapping import BlockDeviceMapping, BlockDeviceType
import charon.util
import time
import argparse
parser = argparse.ArgumentParser(description='Create an EBS-backed NixOS AMI')
parser.add_argument('--region', dest='region', required=True, help='EC2 region')
parser.add_argument('--key', dest='key_name', default="eelco", help='EC2 keypair')
parser.add_argument('--keep', dest='keep', action='store_true', help='Keep Charon machine after use')
parser.add_argument('--hvm', dest='hvm', action='store_true', help='Create HVM image')
args = parser.parse_args()
instance_type = "cc1.4xlarge" if args.hvm else "m1.small"
key_name = args.key_name
ebs_size = 8 if args.hvm else 20
# Start a NixOS machine in the given region.
f = open("ebs-creator-config.nix", "w")
f.write('''{{
machine =
{{ pkgs, ... }}:
{{
deployment.ec2.region = "{0}";
deployment.ec2.keyPair = pkgs.lib.mkOverride 10 "{1}";
deployment.ec2.blockDeviceMapping."/dev/xvdg".size = pkgs.lib.mkOverride 10 {2};
}};
}}
'''.format(args.region, key_name, ebs_size))
f.close()
db = deployment.open_database("./ebs-creator.charon")
try:
depl = deployment.open_deployment(db, "ebs-creator")
except Exception:
depl = deployment.create_deployment(db)
depl.name = "ebs-creator"
depl.auto_response = "y"
depl.nix_exprs = ["./ebs-creator.nix", "./ebs-creator-config.nix"]
if not args.keep: depl.destroy_resources()
depl.deploy(allow_reboot=True)
m = depl.machines['machine']
# Do the installation.
device="/dev/xvdg"
if args.hvm:
m.run_command('parted -s /dev/xvdg -- mklabel msdos')
m.run_command('parted -s /dev/xvdg -- mkpart primary ext2 1M -1s')
device="/dev/xvdg1"
m.run_command("if mountpoint -q /mnt; then umount /mnt; fi")
m.run_command("mkfs.ext4 -L nixos {0}".format(device))
m.run_command("mkdir -p /mnt")
m.run_command("mount {0} /mnt".format(device))
m.run_command("touch /mnt/.ebs")
m.run_command("mkdir -p /mnt/etc/nixos")
# Kind of hacky until the nixos channel is updated to systemd
#m.run_command("nix-channel --add http://nixos.org/channels/nixos-unstable")
#m.run_command("nix-channel --update")
m.run_command("mkdir unpack")
m.run_command("cd unpack; (curl -L http://hydra.nixos.org/job/nixos/systemd/channel/latest/download | bzcat | tar xv)")
m.run_command("mkdir nixos")
m.run_command("mv unpack/*/* nixos")
m.run_command("mv nixos unpack/*")
m.run_command("nix-env -p /nix/var/nix/profiles/per-user/root/channels -i $(nix-store --add unpack/*)")
m.run_command("rm -fR unpack")
m.run_command("nixos-rebuild switch")
version = m.run_command("nixos-version", capture_stdout=True).replace('"', '').rstrip()
print >> sys.stderr, "NixOS version is {0}".format(version)
m.run_command("cp -f $(nix-instantiate --find-file nixos/modules/virtualisation/amazon-config.nix) /mnt/etc/nixos/configuration.nix")
m.run_command("nixos-install")
if args.hvm:
m.run_command('cp /nix/store/*-grub-0.97*/lib/grub/i386-pc/* /mnt/boot/grub')
m.run_command('sed -i "s|hd0|hd0,0|" /mnt/boot/grub/menu.lst')
m.run_command('echo "(hd1) /dev/xvdg" > device.map')
m.run_command('echo -e "root (hd1,0)\nsetup (hd1)" | grub --device-map=device.map --batch')
m.run_command("umount /mnt")
if args.hvm:
ami_name = "nixos-{0}-x86_64-ebs-hvm".format(version)
description = "NixOS {0} (x86_64; EBS root; hvm)".format(version)
else:
ami_name = "nixos-{0}-x86_64-ebs".format(version)
description = "NixOS {0} (x86_64; EBS root)".format(version)
# Wait for the snapshot to finish.
def check():
status = snapshot.update()
print >> sys.stderr, "snapshot status is {0}".format(status)
return status == '100%'
m.connect()
volume = m._conn.get_all_volumes([], filters={'attachment.instance-id': m.resource_id, 'attachment.device': "/dev/sdg"})[0]
if args.hvm:
instance = m._conn.run_instances( image_id="ami-6a9e4503"
, instance_type=instance_type
, key_name=key_name
, placement=m._zone
, security_groups=["eelco-test"]).instances[0]
charon.util.check_wait(lambda: instance.update() == 'running', max_tries=120)
instance.stop()
charon.util.check_wait(lambda: instance.update() == 'stopped', max_tries=120)
old_root_volume = m._conn.get_all_volumes([], filters={'attachment.instance-id': instance.id, 'attachment.device': "/dev/sda1"})[0]
old_root_volume.detach()
volume.detach()
charon.util.check_wait(lambda: volume.update() == 'available', max_tries=120)
charon.util.check_wait(lambda: old_root_volume.update() == 'available', max_tries=120)
volume.attach(instance.id, '/dev/sda1')
charon.util.check_wait(lambda: volume.update() == 'in-use', max_tries=120)
ami_id = m._conn.create_image(instance.id, ami_name, description)
time.sleep(5)
image = m._conn.get_all_images([ami_id])[0]
charon.util.check_wait(lambda: image.update() == 'available', max_tries=120)
instance.terminate()
else:
# Create a snapshot.
snapshot = volume.create_snapshot(description=description)
print >> sys.stderr, "created snapshot {0}".format(snapshot.id)
charon.util.check_wait(check, max_tries=120)
m._conn.create_tags([snapshot.id], {'Name': ami_name})
if not args.keep: depl.destroy_resources()
# Register the image.
aki = m._conn.get_all_images(filters={'manifest-location': '*pv-grub-hd0_1.03-x86_64*'})[0]
print >> sys.stderr, "using kernel image {0} - {1}".format(aki.id, aki.location)
block_map = BlockDeviceMapping()
block_map['/dev/sda'] = BlockDeviceType(snapshot_id=snapshot.id, delete_on_termination=True)
block_map['/dev/sdb'] = BlockDeviceType(ephemeral_name="ephemeral0")
block_map['/dev/sdc'] = BlockDeviceType(ephemeral_name="ephemeral1")
block_map['/dev/sdd'] = BlockDeviceType(ephemeral_name="ephemeral2")
block_map['/dev/sde'] = BlockDeviceType(ephemeral_name="ephemeral3")
ami_id = m._conn.register_image(
name=ami_name,
description=description,
architecture="x86_64",
root_device_name="/dev/sda",
kernel_id=aki.id,
block_device_map=block_map)
print >> sys.stderr, "registered AMI {0}".format(ami_id)
time.sleep(5)
print >> sys.stderr, "making image public..."
image = m._conn.get_all_images(image_ids=[ami_id])[0]
image.set_launch_permissions(user_ids=[], group_names=["all"])
m._conn.create_tags([ami_id], {'Name': ami_name})
# Do a test deployment to make sure that the AMI works.
f = open("ebs-test.nix", "w")
f.write(
'''
{{ network.description = "NixOS EBS test";
machine.deployment.targetEnv = "ec2";
machine.deployment.ec2.region = "{0}";
machine.deployment.ec2.instanceType = "{2}";
machine.deployment.ec2.keyPair = "{3}";
machine.deployment.ec2.securityGroups = [ "eelco-test" ];
machine.deployment.ec2.ami = "{1}";
machine.fileSystems = [];
}}
'''.format(args.region, ami_id, instance_type, key_name))
f.close()
test_depl = deployment.create_deployment(db)
test_depl.auto_response = "y"
test_depl.name = "ebs-creator-test"
test_depl.nix_exprs = [ "./ebs-test.nix" ]
test_depl.deploy(create_only=True)
test_depl.machines['machine'].run_command("nixos-version")
if not args.keep:
test_depl.destroy_resources()
test_depl.delete()
# Log the AMI ID.
f = open("{0}.ebs.ami-id".format(args.region), "w")
f.write("{0}".format(ami_id))
f.close()