depot/third_party/nixpkgs/pkgs/desktops/gnome/extensions/update-extensions.py

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#!/usr/bin/env nix-shell
#!nix-shell -I nixpkgs=../../../.. -i python3 -p python3
import base64
import json
import logging
import subprocess
import urllib.error
import urllib.request
from operator import itemgetter
from pathlib import Path
from typing import List, Dict, Optional, Any, Tuple
# We don't want all those deprecated legacy extensions
# Group extensions by GNOME "major" version for compatibility reasons
supported_versions = {
"38": "3.38",
"40": "40",
"41": "41",
"42": "42",
}
# Some type alias to increase readability of complex compound types
PackageName = str
ShellVersion = str
Uuid = str
ExtensionVersion = int
# Keep track of all names that have been used till now to detect collisions.
# This works because we deterministically process all extensions in historical order
# The outer dict level is the shell version, as we are tracking duplicates only per same Shell version.
# key: shell version, value: Dict with key: pname, value: list of UUIDs with that pname
package_name_registry: Dict[ShellVersion, Dict[PackageName, List[Uuid]]] = {}
for shell_version in supported_versions.keys():
package_name_registry[shell_version] = {}
updater_dir_path = Path(__file__).resolve().parent
def fetch_extension_data(uuid: str, version: str) -> Tuple[str, str]:
"""
Download the extension and hash it. We use `nix-prefetch-url` for this for efficiency reasons.
Returns a tuple with the hash (Nix-compatible) of the zip file's content and the base64-encoded content of its metadata.json.
"""
# The download URLs follow this schema
uuid = uuid.replace("@", "")
url: str = f"https://extensions.gnome.org/extension-data/{uuid}.v{version}.shell-extension.zip"
# Download extension and add the zip content to nix-store
process = subprocess.run(
["nix-prefetch-url", "--unpack", "--print-path", url], capture_output=True, text=True
)
lines = process.stdout.splitlines()
# Get hash from first line of nix-prefetch-url output
hash = lines[0].strip()
# Get path from second line of nix-prefetch-url output
path = Path(lines[1].strip())
# Get metadata.json content from nix-store
with open(path / "metadata.json", "r") as out:
metadata = base64.b64encode(out.read().encode("ascii")).decode()
return hash, metadata
def generate_extension_versions(
extension_version_map: Dict[ShellVersion, ExtensionVersion], uuid: str
) -> Dict[ShellVersion, Dict[str, str]]:
"""
Takes in a mapping from shell versions to extension versions and transforms it the way we need it:
- Only take one extension version per GNOME Shell major version (as per `supported_versions`)
- Filter out versions that only support old GNOME versions
- Download the extension and hash it
"""
# Determine extension version per shell version
extension_versions: Dict[ShellVersion, ExtensionVersion] = {}
for shell_version, version_prefix in supported_versions.items():
# Newest compatible extension version
extension_version: Optional[int] = max(
(
int(ext_ver)
for shell_ver, ext_ver in extension_version_map.items()
if (shell_ver.startswith(version_prefix))
),
default=None,
)
# Extension is not compatible with this GNOME version
if not extension_version:
continue
extension_versions[shell_version] = extension_version
# Download information once for all extension versions chosen above
extension_info_cache: Dict[ExtensionVersion, Tuple[str, str]] = {}
for extension_version in sorted(set(extension_versions.values())):
logging.debug(
f"[{uuid}] Downloading v{extension_version}"
)
extension_info_cache[extension_version] = \
fetch_extension_data(uuid, str(extension_version))
# Fill map
extension_versions_full: Dict[ShellVersion, Dict[str, str]] = {}
for shell_version, extension_version in extension_versions.items():
sha256, metadata = extension_info_cache[extension_version]
extension_versions_full[shell_version] = {
"version": str(extension_version),
"sha256": sha256,
# The downloads are impure, their metadata.json may change at any time.
# Thus, we back it up / pin it to remain deterministic
# Upstream issue: https://gitlab.gnome.org/Infrastructure/extensions-web/-/issues/137
"metadata": metadata,
}
return extension_versions_full
def pname_from_url(url: str) -> Tuple[str, str]:
"""
Parse something like "/extension/1475/battery-time/" and output ("battery-time", "1475")
"""
url = url.split("/") # type: ignore
return url[3], url[2]
def process_extension(extension: Dict[str, Any]) -> Optional[Dict[str, Any]]:
"""
Process an extension. It takes in raw scraped data and downloads all the necessary information that buildGnomeExtension.nix requires
Input: a json object of one extension queried from the site. It has the following schema (only important key listed):
{
"uuid": str,
"name": str,
"description": str,
"link": str,
"shell_version_map": {
str: { "version": int, },
},
}
"uuid" is an extension UUID that looks like this (most of the time): "extension-name@username.domain.tld".
Don't make any assumptions on it, and treat it like an opaque string!
"link" follows the following schema: "/extension/$number/$string/"
The number is monotonically increasing and unique to every extension.
The string is usually derived from the extension name (but shortened, kebab-cased and URL friendly).
It may diverge from the actual name.
The keys of "shell_version_map" are GNOME Shell version numbers.
Output: a json object to be stored, or None if the extension should be skipped. Schema:
{
"uuid": str,
"name": str,
"pname": str,
"description": str,
"link": str,
"shell_version_map": {
str: { "version": int, "sha256": str, "metadata": <hex> },
}
}
Only "uuid" gets passed along unmodified. "name", "description" and "link" are taken from the input, but sanitized.
"pname" gets generated from other fields and "shell_version_map" has a completely different structure than the input
field with the same name.
"""
uuid = extension["uuid"]
# Yeah, there are some extensions without any releases
if not extension["shell_version_map"]:
return None
logging.info(f"Processing '{uuid}'")
# Input is a mapping str -> { version: int, … }
# We want to map shell versions to extension versions
shell_version_map: Dict[ShellVersion, int] = {
k: v["version"] for k, v in extension["shell_version_map"].items()
}
# Transform shell_version_map to be more useful for us. Also throw away unwanted versions
shell_version_map: Dict[ShellVersion, Dict[str, str]] = generate_extension_versions(shell_version_map, uuid) # type: ignore
# No compatible versions found
if not shell_version_map:
return None
# Fetch a human-readable name for the package.
(pname, _pname_id) = pname_from_url(extension["link"])
for shell_version in shell_version_map.keys():
if pname in package_name_registry[shell_version]:
logging.warning(f"Package name '{pname}' for GNOME '{shell_version}' is colliding.")
package_name_registry[shell_version][pname].append(uuid)
else:
package_name_registry[shell_version][pname] = [uuid]
return {
"uuid": uuid,
"name": extension["name"],
"pname": pname,
"description": extension["description"],
"link": "https://extensions.gnome.org" + extension["link"],
"shell_version_map": shell_version_map,
}
def scrape_extensions_index() -> List[Dict[str, Any]]:
"""
Scrape the list of extensions by sending search queries to the API. We simply go over it
page by page until we hit a non-full page or a 404 error.
The returned list is sorted by the age of the extension, in order to be deterministic.
"""
page = 0
extensions = []
while True:
page += 1
logging.info("Scraping page " + str(page))
try:
with urllib.request.urlopen(
f"https://extensions.gnome.org/extension-query/?n_per_page=25&page={page}"
) as response:
data = json.loads(response.read().decode())["extensions"]
response_length = len(data)
for extension in data:
extensions.append(extension)
# If our page isn't "full", it must have been the last one
if response_length < 25:
logging.debug(
f"\tThis page only has {response_length} entries, so it must be the last one."
)
break
except urllib.error.HTTPError as e:
if e.code == 404:
# We reached past the last page and are done now
break
else:
raise
# `pk` is the primary key in the extensions.gnome.org database. Sorting on it will give us a stable,
# deterministic ordering.
extensions.sort(key=itemgetter("pk"))
return extensions
if __name__ == "__main__":
logging.basicConfig(level=logging.DEBUG)
raw_extensions = scrape_extensions_index()
logging.info(f"Downloaded {len(raw_extensions)} extensions. Processing …")
processed_extensions: List[Dict[str, Any]] = []
for num, raw_extension in enumerate(raw_extensions):
processed_extension = process_extension(raw_extension)
if processed_extension:
processed_extensions.append(processed_extension)
logging.debug(f"Processed {num + 1} / {len(raw_extensions)}")
with open(updater_dir_path / "extensions.json", "w") as out:
# Manually pretty-print the outer level, but then do one compact line per extension
# This allows for the diffs to be manageable (one line of change per extension) despite their quantity
for index, extension in enumerate(processed_extensions):
if index == 0:
out.write("[ ")
else:
out.write(", ")
json.dump(extension, out, ensure_ascii=False)
out.write("\n")
out.write("]\n")
logging.info(
f"Done. Writing results to extensions.json ({len(processed_extensions)} extensions in total)"
)
with open(updater_dir_path / "extensions.json", "r") as out:
# Check that the generated file actually is valid JSON, just to be sure
json.load(out)
with open(updater_dir_path / "collisions.json", "w") as out:
# Filter out those that are not duplicates
package_name_registry_filtered: Dict[ShellVersion, Dict[PackageName, List[Uuid]]] = {
# The outer level keys are shell versions
shell_version: {
# The inner keys are extension names, with a list of all extensions with that name as value.
pname: extensions for pname, extensions in collisions.items() if len(extensions) > 1
} for shell_version, collisions in package_name_registry.items()
}
json.dump(package_name_registry_filtered, out, indent=2, ensure_ascii=False)
out.write("\n")
logging.info(
"Done. Writing name collisions to collisions.json (please check manually)"
)