kubespray/scripts/download_hash.py

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#!/usr/bin/env python3
# After a new version of Kubernetes has been released,
# run this script to update roles/kubespray-defaults/defaults/main/download.yml
# with new hashes.
import sys
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
from itertools import count, groupby
from collections import defaultdict
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
from functools import cache
import argparse
import requests
from ruamel.yaml import YAML
from packaging.version import Version
CHECKSUMS_YML = "../roles/kubespray-defaults/defaults/main/checksums.yml"
def open_checksums_yaml():
yaml = YAML()
yaml.explicit_start = True
yaml.preserve_quotes = True
yaml.width = 4096
with open(CHECKSUMS_YML, "r") as checksums_yml:
data = yaml.load(checksums_yml)
return data, yaml
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
def version_compare(version):
return Version(version.removeprefix("v"))
downloads = {
"calicoctl_binary": "https://github.com/projectcalico/calico/releases/download/{version}/SHA256SUMS",
"ciliumcli_binary": "https://github.com/cilium/cilium-cli/releases/download/{version}/cilium-{os}-{arch}.tar.gz.sha256sum",
"cni_binary": "https://github.com/containernetworking/plugins/releases/download/{version}/cni-plugins-{os}-{arch}-{version}.tgz.sha256",
"containerd_archive": "https://github.com/containerd/containerd/releases/download/v{version}/containerd-{version}-{os}-{arch}.tar.gz.sha256sum",
"crictl": "https://github.com/kubernetes-sigs/cri-tools/releases/download/{version}/critest-{version}-{os}-{arch}.tar.gz.sha256",
"crio_archive": "https://storage.googleapis.com/cri-o/artifacts/cri-o.{arch}.{version}.tar.gz.sha256sum",
"etcd_binary": "https://github.com/etcd-io/etcd/releases/download/{version}/SHA256SUMS",
"kubeadm": "https://dl.k8s.io/release/{version}/bin/linux/{arch}/kubeadm.sha256",
"kubectl": "https://dl.k8s.io/release/{version}/bin/linux/{arch}/kubectl.sha256",
"kubelet": "https://dl.k8s.io/release/{version}/bin/linux/{arch}/kubelet.sha256",
"nerdctl_archive": "https://github.com/containerd/nerdctl/releases/download/v{version}/SHA256SUMS",
"runc": "https://github.com/opencontainers/runc/releases/download/{version}/runc.sha256sum",
"skopeo_binary": "https://github.com/lework/skopeo-binary/releases/download/{version}/skopeo-{os}-{arch}.sha256",
"yq": "https://github.com/mikefarah/yq/releases/download/{version}/checksums-bsd", # see https://github.com/mikefarah/yq/pull/1691 for why we use this url
}
# TODO: downloads not supported
# youki: no checkusms in releases
# kata: no checksums in releases
# gvisor: sha512 checksums
# crun : PGP signatures
# cri_dockerd: no checksums or signatures
# helm_archive: PGP signatures
# krew_archive: different yaml structure
# calico_crds_archive: different yaml structure
# TODO:
# noarch support -> k8s manifests, helm charts
# different checksum format (needs download role changes)
# different verification methods (gpg, cosign) ( needs download role changes) (or verify the sig in this script and only use the checksum in the playbook)
# perf improvements (async)
def download_hash(only_downloads: [str]) -> None:
# Handle file with multiples hashes, with various formats.
# the lambda is expected to produce a dictionary of hashes indexed by arch name
download_hash_extract = {
"calicoctl_binary": lambda hashes : {
line.split('-')[-1] : line.split()[0]
for line in hashes.strip().split('\n')
if line.count('-') == 2 and line.split('-')[-2] == "linux"
},
"etcd_binary": lambda hashes : {
line.split('-')[-1].removesuffix('.tar.gz') : line.split()[0]
for line in hashes.strip().split('\n')
if line.split('-')[-2] == "linux"
},
"nerdctl_archive": lambda hashes : {
line.split()[1].removesuffix('.tar.gz').split('-')[3] : line.split()[0]
for line in hashes.strip().split('\n')
if [x for x in line.split(' ') if x][1].split('-')[2] == "linux"
},
"runc": lambda hashes : {
parts[1].split('.')[1] : parts[0]
for parts in (line.split()
for line in hashes.split('\n')[3:9])
},
"yq": lambda rhashes_bsd : {
pair[0].split('_')[-1] : pair[1]
# pair = (yq_<os>_<arch>, <hash>)
for pair in ((line.split()[1][1:-1], line.split()[3])
for line in rhashes_bsd.splitlines()
if line.startswith("SHA256"))
if pair[0].startswith("yq")
and pair[0].split('_')[1] == "linux"
and not pair[0].endswith(".tar.gz")
},
}
data, yaml = open_checksums_yaml()
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
s = requests.Session()
@cache
def _get_hash_by_arch(download: str, version: str) -> {str: str}:
hash_file = s.get(downloads[download].format(
version = version,
os = "linux",
),
allow_redirects=True)
if hash_file.status_code == 404:
print(f"Unable to find {download} hash file for version {version} at {hash_file.url}")
return None
hash_file.raise_for_status()
return download_hash_extract[download](hash_file.content.decode())
for download, url in (downloads if only_downloads == []
else {k:downloads[k] for k in downloads.keys() & only_downloads}).items():
checksum_name = f"{download}_checksums"
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
# Propagate new patch versions to all architectures
for arch in data[checksum_name].values():
for arch2 in data[checksum_name].values():
arch.update({
v:("NONE" if arch2[v] == "NONE" else 0)
for v in (set(arch2.keys()) - set(arch.keys()))
if v.split('.')[2] == '0'})
# this is necessary to make the script indempotent,
# by only adding a vX.X.0 version (=minor release) in each arch
# and letting the rest of the script populate the potential
# patch versions
for arch, versions in data[checksum_name].items():
for minor, patches in groupby(versions.copy().keys(), lambda v : '.'.join(v.split('.')[:-1])):
for version in (f"{minor}.{patch}" for patch in
count(start=int(max(patches, key=version_compare).split('.')[-1]),
step=1)):
# Those barbaric generators do the following:
# Group all patches versions by minor number, take the newest and start from that
# to find new versions
if version in versions and versions[version] != 0:
continue
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
if download in download_hash_extract:
hashes = _get_hash_by_arch(download, version)
if hashes == None:
break
sha256sum = hashes.get(arch)
if sha256sum == None:
break
else:
hash_file = s.get(downloads[download].format(
version = version,
os = "linux",
arch = arch
),
allow_redirects=True)
if hash_file.status_code == 404:
print(f"Unable to find {download} hash file for version {version} (arch: {arch}) at {hash_file.url}")
break
hash_file.raise_for_status()
sha256sum = hash_file.content.decode().split()[0]
if len(sha256sum) != 64:
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
raise Exception(f"Checksum has an unexpected length: {len(sha256sum)} (binary: {download}, arch: {arch}, release: {version}, checksum: '{sha256sum}')")
data[checksum_name][arch][version] = sha256sum
data[checksum_name] = {arch : {r : releases[r] for r in sorted(releases.keys(),
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
key=version_compare,
reverse=True)}
for arch, releases in data[checksum_name].items()}
with open(CHECKSUMS_YML, "w") as checksums_yml:
yaml.dump(data, checksums_yml)
print(f"\n\nUpdated {CHECKSUMS_YML}\n")
[release-2.26] Refactor and expand download_hash.py (#11538) * download_hash.py: generalized and data-driven The script is currently limited to one hardcoded URL for kubernetes related binaries, and a fixed set of architectures. The solution is three-fold: 1. Use an url template dictionary for each download -> this allow to easily add support for new downloads. 2. Source the architectures to search from the existing data 3. Enumerate the existing versions in the data and start searching from the last one until no newer version is found (newer in the version order sense, irrespective of actual age) * download_hash.py: support for 'multi-hash' file + runc runc upstream does not provide one hash file per assets in their releases, but one file with all the hashes. To handle this (and/or any arbitrary format from upstreams), add a dictionary mapping the name of the download to a lambda function which transform the file provided by upstream into a dictionary of hashes, keyed by architecture. * download_hash: argument handling with argparse Allow the script to be called with a list of components, to only download new versions checksums for those. By default, we get new versions checksums for all supported (by the script) components. * download_hash: propagate new patch versions to all archs * download_hash: add support for 'simple hash' components * download_hash: support 'multi-hash' components * download_hash: document missing support * download_hash: use persistent session This allows to reuse http connection and be more efficient. From rough measuring it saves around 25-30% of execution time. * download_hash: cache request for 'multi-hash' files This avoid re-downloading the same file for different arch and re-parsing it * download_hash: document usage --------- Co-authored-by: Max Gautier <mg@max.gautier.name>
2024-09-16 15:39:14 +08:00
parser = argparse.ArgumentParser(description=f"Add new patch versions hashes in {CHECKSUMS_YML}",
formatter_class=argparse.RawTextHelpFormatter,
epilog=f"""
This script only lookup new patch versions relative to those already existing
in the data in {CHECKSUMS_YML},
which means it won't add new major or minor versions.
In order to add one of these, edit {CHECKSUMS_YML}
by hand, adding the new versions with a patch number of 0 (or the lowest relevant patch versions)
; then run this script.
Note that the script will try to add the versions on all
architecture keys already present for a given download target.
The '0' value for a version hash is treated as a missing hash, so the script will try to download it again.
To notify a non-existing version (yanked, or upstream does not have monotonically increasing versions numbers),
use the special value 'NONE'.
EXAMPLES:
crictl_checksums:
...
amd64:
+ v1.30.0: 0
v1.29.0: d16a1ffb3938f5a19d5c8f45d363bd091ef89c0bc4d44ad16b933eede32fdcbb
v1.28.0: 8dc78774f7cbeaf787994d386eec663f0a3cf24de1ea4893598096cb39ef2508"""
)
parser.add_argument('binaries', nargs='*', choices=downloads.keys())
args = parser.parse_args()
download_hash(args.binaries)