# Copyright 2022 Oliver Smith # SPDX-License-Identifier: GPL-3.0-or-later """ Functions that work with both pmaports and binary package repos. See also: - pmb/helpers/pmaports.py (work with pmaports) - pmb/helpers/repo.py (work with binary package repos) """ import copy import logging import pmb.helpers.pmaports import pmb.helpers.repo def get(args, pkgname, arch, replace_subpkgnames=False, must_exist=True): """ Find a package in pmaports, and as fallback in the APKINDEXes of the binary packages. :param pkgname: package name (e.g. "hello-world") :param arch: preferred architecture of the binary package. When it can't be found for this arch, we'll still look for another arch to see whether the package exists at all. So make sure to check the returned arch against what you wanted with check_arch(). Example: "armhf" :param replace_subpkgnames: replace all subpkgnames with their main pkgnames in the depends (see #1733) :param must_exist: raise an exception, if not found :returns: * data from the parsed APKBUILD or APKINDEX in the following format: {"arch": ["noarch"], "depends": ["busybox-extras", "lddtree", ...], "pkgname": "postmarketos-mkinitfs", "provides": ["mkinitfs=0..1"], "version": "0.0.4-r10"} * None if the package was not found """ # Cached result cache_key = "pmb.helpers.package.get" if ( arch in pmb.helpers.other.cache[cache_key] and pkgname in pmb.helpers.other.cache[cache_key][arch] and replace_subpkgnames in pmb.helpers.other.cache[cache_key][arch][ pkgname ] ): return pmb.helpers.other.cache[cache_key][arch][pkgname][ replace_subpkgnames ] # Find in pmaports ret = None pmaport = pmb.helpers.pmaports.get(args, pkgname, False) if pmaport: ret = {"arch": pmaport["arch"], "depends": pmb.build._package.get_depends(args, pmaport), "pkgname": pmaport["pkgname"], "provides": pmaport["provides"], "version": pmaport["pkgver"] + "-r" + pmaport["pkgrel"]} # Find in APKINDEX (given arch) if not ret or not pmb.helpers.pmaports.check_arches(ret["arch"], arch): pmb.helpers.repo.update(args, arch) ret_repo = pmb.parse.apkindex.package(args, pkgname, arch, False) # Save as result if there was no pmaport, or if the pmaport can not be # built for the given arch, but there is a binary package for that arch # (e.g. temp/mesa can't be built for x86_64, but Alpine has it) if not ret or (ret_repo and ret_repo["arch"] == arch): ret = ret_repo # Find in APKINDEX (other arches) if not ret: pmb.helpers.repo.update(args) for arch_i in pmb.config.build_device_architectures: if arch_i != arch: ret = pmb.parse.apkindex.package(args, pkgname, arch_i, False) if ret: break # Copy ret (it might have references to caches of the APKINDEX or APKBUILDs # and we don't want to modify those!) if ret: ret = copy.deepcopy(ret) # Make sure ret["arch"] is a list (APKINDEX code puts a string there) if ret and isinstance(ret["arch"], str): ret["arch"] = [ret["arch"]] # Replace subpkgnames if desired if replace_subpkgnames: depends_new = [] for depend in ret["depends"]: depend_data = get(args, depend, arch, must_exist=False) if not depend_data: logging.warning(f"WARNING: {pkgname}: failed to resolve" f" dependency '{depend}'") # Can't replace potential subpkgname if depend not in depends_new: depends_new += [depend] continue depend_pkgname = depend_data["pkgname"] if depend_pkgname not in depends_new: depends_new += [depend_pkgname] ret["depends"] = depends_new # Save to cache and return if ret: if arch not in pmb.helpers.other.cache[cache_key]: pmb.helpers.other.cache[cache_key][arch] = {} if pkgname not in pmb.helpers.other.cache[cache_key][arch]: pmb.helpers.other.cache[cache_key][arch][pkgname] = {} pmb.helpers.other.cache[cache_key][arch][pkgname][ replace_subpkgnames ] = ret return ret # Could not find the package if not must_exist: return None raise RuntimeError("Package '" + pkgname + "': Could not find aport, and" " could not find this package in any APKINDEX!") def depends_recurse(args, pkgname, arch): """ Recursively resolve all of the package's dependencies. :param pkgname: name of the package (e.g. "device-samsung-i9100") :param arch: preferred architecture for binary packages :returns: a list of pkgname_start and all its dependencies, e.g: ["busybox-static-armhf", "device-samsung-i9100", "linux-samsung-i9100", ...] """ # Cached result cache_key = "pmb.helpers.package.depends_recurse" if (arch in pmb.helpers.other.cache[cache_key] and pkgname in pmb.helpers.other.cache[cache_key][arch]): return pmb.helpers.other.cache[cache_key][arch][pkgname] # Build ret (by iterating over the queue) queue = [pkgname] ret = [] while len(queue): pkgname_queue = queue.pop() package = get(args, pkgname_queue, arch) # Add its depends to the queue for depend in package["depends"]: if depend not in ret: queue += [depend] # Add the pkgname (not possible subpkgname) to ret if package["pkgname"] not in ret: ret += [package["pkgname"]] ret.sort() # Save to cache and return if arch not in pmb.helpers.other.cache[cache_key]: pmb.helpers.other.cache[cache_key][arch] = {} pmb.helpers.other.cache[cache_key][arch][pkgname] = ret return ret def check_arch(args, pkgname, arch, binary=True): """ Can a package be built for a certain architecture, or is there a binary package for it? :param pkgname: name of the package :param arch: architecture to check against :param binary: set to False to only look at the pmaports, not at binary packages :returns: True when the package can be built, or there is a binary package, False otherwise """ if binary: arches = get(args, pkgname, arch)["arch"] else: arches = pmb.helpers.pmaports.get(args, pkgname)["arch"] return pmb.helpers.pmaports.check_arches(arches, arch)