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mirror of https://github.com/libretro/Lakka-LibreELEC.git synced 2024-11-23 12:06:18 +00:00
Lakka-LibreELEC/scripts/genbuildplan.py

402 lines
14 KiB
Python
Executable File

#!/usr/bin/env python3
# -*- coding: utf-8 -*-
# SPDX-License-Identifier: GPL-2.0
# Copyright (C) 2019-present Team LibreELEC (https://libreelec.tv)
import sys, os, codecs, json, argparse, re
ROOT_PKG = "__root__"
class LibreELEC_Package:
def __init__(self, name, section):
self.name = name
self.section = section
self.deps = {"bootstrap": [],
"init": [],
"host": [],
"target": []}
self.wants = []
self.wantedby = []
self.unpacks = []
def __repr__(self):
s = f"{name:<9}: {self.name}"
s = f"{s}\n{section:<9}: {self.section}"
for t in self.deps:
s = f"{s}\n{t:<9}: {self.deps[t]}"
s = f"{s}\n{'UNPACKS':<9}: {self.unpacks}"
s = f"{s}\n{'NEEDS':<9}: {self.wants}"
s = f"{s}\n{'WANTED BY':<9}: {self.wantedby}"
return s
def addDependencies(self, target, packages):
for d in " ".join(packages.split()).split():
self.deps[target].append(d)
name = d.split(":")[0]
if name not in self.wants and name != self.name:
self.wants.append(name)
def delDependency(self, target, package):
if package in self.deps[target]:
self.deps[target].remove(package)
name = package.split(":")[0]
if name in self.wants:
self.wants.remove(name)
def addReference(self, package):
name = package.split(":")[0]
if name not in self.wantedby:
self.wantedby.append(name)
def delReference(self, package):
name = package.split(":")[0]
if name in self.wantedby:
self.wantedby.remove(name)
def addUnpack(self, packages):
if packages.strip():
self.unpacks = packages.strip().split()
def isReferenced(self):
return False if self.wants == [] else True
def isWanted(self):
return False if self.wantedby == [] else True
def references(self, package):
return package in self.wants
# Reference material:
# https://www.electricmonk.nl/docs/dependency_resolving_algorithm/dependency_resolving_algorithm.html
class Node:
def __init__(self, name, target, section):
self.name = name
self.target = target
self.section = section
self.fqname = f"{name}:{target}"
self.edges = []
def appendEdges(self, node):
# Add the node itself...
if node not in self.edges:
self.edges.append(node)
# as well as its edges
for e in node.edges:
if e not in self.edges:
self.edges.append(e)
# Return True if the dependencies of the specified node are met by this node
def satisfies(self, node):
for e in node.edges:
if e not in self.edges:
return False
return True
def __repr__(self):
s = f"{'name':<9}: {self.name}"
s = f"{s}\n{'target':<9}: {self.target}"
s = f"{s}\n{'fqname':<9}: {self.fqname}"
s = f"{s}\n{'common':<9}: {self.commonName()}"
s = f"{s}\n{'section':<9}: {self.section}"
for e in self.edges:
s = f"{s}\nEDGE: {e.fqname}"
return s
def commonName(self):
return self.name if self.target == "target" else f"{self.name}:{self.target}"
def addEdge(self, node):
if node not in self.edges:
self.edges.append(node)
def eprint(*args, **kwargs):
print(*args, file=sys.stderr, **kwargs)
# Read a JSON list of all possible packages from stdin, removing newlines
def loadPackages():
jdata = json.loads(f"[{sys.stdin.read().replace(chr(10),'')[:-1]}]")
map = {}
# Load "global" packages first
for pkg in jdata:
if pkg["hierarchy"] == "global":
map[pkg["name"]] = initPackage(pkg)
# Then the "local" packages, as these will replace any matching "global" packages
for pkg in jdata:
if pkg["hierarchy"] == "local":
map[pkg["name"]] = initPackage(pkg)
return map
# Create a fully formed LibreELEC_Package object
def initPackage(package):
pkg = LibreELEC_Package(package["name"], package["section"])
for target in ["bootstrap", "init", "host", "target"]:
pkg.addDependencies(target, package[target])
pkg.addUnpack(package["unpack"])
return pkg
# Split name:target into components
def split_package(name):
parts = name.split(":")
pn = parts[0]
pt = parts[1] if len(parts) != 1 else "target"
return (pn, pt)
# Return a list of packages of the specified type
def get_packages_by_target(target, list):
newlist = []
for p in list:
(pn, pt) = split_package(p)
if target in ["target", "init"] and pt in ["target", "init"]:
newlist.append(p)
elif target in ["bootstrap", "host"] and pt in ["bootstrap", "host"]:
newlist.append(p)
return newlist
# For the specified node iterate over the list of scheduled nodes and return the first
# position where we could possibly build this node (ie. all dependencies satisfied).
def findbuildpos(node, list):
# Keep a running total of all dependencies as we progress through the list
alldeps = Node("", "", "")
candidate = None
for n in list:
alldeps.appendEdges(n)
if alldeps.satisfies(node):
if len(n.edges) > len(node.edges):
if candidate == None:
candidate = n
break
candidate = n
return list.index(candidate) + 1 if candidate else -1
# Resolve dependencies for a node
def dep_resolve(node, resolved, unresolved):
unresolved.append(node)
for edge in node.edges:
if edge not in resolved:
if edge in unresolved:
raise Exception((
f"Circular reference detected: {node.fqname} -> {edge.commonName()}\n"
f"Remove {edge.commonName()} from {node.name} package.mk::PKG_DEPENDS_{node.target.upper()}"
))
dep_resolve(edge, resolved, unresolved)
if node not in resolved:
resolved.append(node)
unresolved.remove(node)
# Return a list of build steps for the trigger packages
def get_build_steps(args, nodes):
resolved = []
unresolved = []
# When building the image the :target packages must be installed.
#
# However, if we are not building the image then only build the packages
# and don't install them as it's likely we will be building discrete add-ons
# which are installed outside of the image.
#
install = True if "image" in args.build else False
for pkgname in [x for x in args.build if x]:
if pkgname.find(":") == -1:
pkgname = f"{pkgname}:target"
if pkgname in nodes:
dep_resolve(nodes[pkgname], resolved, unresolved)
# Abort if any references remain unresolved
if unresolved != []:
eprint("The following dependencies have not been resolved:")
for dep in unresolved:
eprint(f" {dep}")
raise("Unresolved references")
# Output list of resolved dependencies
for pkg in resolved:
task = "build" if pkg.fqname.endswith(":host") or pkg.fqname.endswith(":init") or not install else "install"
yield(task, pkg.fqname)
# Reduce the complete list of packages to a map of those packages that will
# be needed for the build.
def processPackages(args, packages):
# Add dummy package to ensure build/install dependencies are not culled
pkg = {
"name": ROOT_PKG,
"section": "virtual",
"hierarchy": "global",
"bootstrap": "",
"init": "",
"host": " ".join(get_packages_by_target("host", args.build)),
"target": " ".join(get_packages_by_target("target", args.build)),
"unpack": ""
}
packages[pkg["name"]] = initPackage(pkg)
# Resolve reverse references that we can use to ignore unreferenced packages
for pkgname in packages:
for opkgname in packages:
opkg = packages[opkgname]
if opkg.references(pkgname):
if pkgname in packages:
packages[pkgname].addReference(opkgname)
# Identify unused packages
while True:
changed = False
for pkgname in packages:
pkg = packages[pkgname]
if pkg.isWanted():
for opkgname in pkg.wantedby:
if opkgname != ROOT_PKG:
if not packages[opkgname].isWanted():
pkg.delReference(opkgname)
changed = True
if not changed:
break
# Create a new map of "needed" packages
needed_map = {}
for pkgname in packages:
pkg = packages[pkgname]
if pkg.isWanted() or pkgname == ROOT_PKG:
needed_map[pkgname] = pkg
# Validate package dependency references
if not args.ignore_invalid:
for pkgname in needed_map:
pkg = needed_map[pkgname]
for t in pkg.deps:
for d in pkg.deps[t]:
if split_package(d)[0] not in needed_map:
msg = f'Invalid package reference: dependency {d} in package {pkgname}::PKG_DEPENDS_{t.upper()} is not valid'
if args.warn_invalid:
eprint(f"WARNING: {msg}")
else:
raise Exception(msg)
node_map = {}
# Convert all packages to target-specific nodes
for pkgname in needed_map:
pkg = needed_map[pkgname]
for target in pkg.deps:
if pkg.deps[target]:
node = Node(pkgname, target, pkg.section)
node_map[node.fqname] = node
# Ensure all referenced dependencies exist as a basic node
for pkgname in needed_map:
pkg = needed_map[pkgname]
for target in pkg.deps:
for dep in pkg.deps[target]:
dfq = dep if dep.find(":") != -1 else f"{dep}:target"
if dfq not in node_map:
(dfq_p, dfq_t) = split_package(dfq)
if dfq_p in packages:
dpkg = packages[dfq_p]
node_map[dfq] = Node(dfq_p, dfq_t, dpkg.section)
elif not args.ignore_invalid:
raise Exception(f"Invalid package! Package {dfq_p} cannot be found for this PROJECT/DEVICE/ARCH")
# To each target-specific node, add the corresponding
# target-specific dependency nodes ("edges")
for name in node_map:
node = node_map[name]
if node.name not in needed_map:
if args.warn_invalid:
continue
else:
raise Exception(f"Invalid package! Package {node.name} cannot be found for this PROJECT/DEVICE/ARCH")
for dep in needed_map[node.name].deps[node.target]:
dfq = dep if dep.find(":") != -1 else f"{dep}:target"
if dfq in node_map:
node.addEdge(node_map[dfq])
return node_map
#---------------------------------------------
parser = argparse.ArgumentParser(description="Generate package dependency list for the requested build/install packages. \
Package data will be read from stdin in JSON format.", \
formatter_class=lambda prog: argparse.HelpFormatter(prog,max_help_position=25,width=90))
parser.add_argument("-b", "--build", nargs="+", metavar="PACKAGE", required=True, \
help="Space-separated list of build trigger packages, either for host or target. Required property - specify at least one package.")
parser.add_argument("--warn-invalid", action="store_true", default=False, \
help="Warn about invalid/missing dependency packages, perhaps excluded by a PKG_ARCH incompatability. Default is to abort.")
parser.add_argument("--ignore-invalid", action="store_true", default=False, \
help="Ignore invalid packages.")
group = parser.add_mutually_exclusive_group()
group.add_argument("--show-wants", action="store_true", \
help="Output \"wants\" dependencies for each step.")
group.add_argument("--hide-wants", action="store_false", dest="show_wants", default=True, \
help="Disable --show-wants. This is the default.")
parser.add_argument("--with-json", metavar="FILE", \
help="File into which JSON formatted plan will be written.")
args = parser.parse_args()
ALL_PACKAGES = loadPackages()
loaded = len(ALL_PACKAGES)
REQUIRED_PKGS = processPackages(args, ALL_PACKAGES)
# Identify list of packages to build/install
steps = [step for step in get_build_steps(args, REQUIRED_PKGS)]
eprint(f"Packages loaded : {loaded}")
eprint(f"Build trigger(s): {len(args.build)} [{' '.join(args.build)}]")
eprint(f"Package steps : {len(steps)}")
eprint("")
# Write the JSON build plan (with dependencies)
if args.with_json:
plan = []
for step in steps:
(pkg_name, target) = split_package(step[1])
plan.append({"task": step[0],
"name": step[1],
"section": ALL_PACKAGES[pkg_name].section,
"wants": [d.fqname for d in REQUIRED_PKGS[step[1]].edges],
"unpacks": ALL_PACKAGES[pkg_name].unpacks if pkg_name in ALL_PACKAGES else []})
with open(args.with_json, "w") as out:
print(json.dumps(plan, indent=2, sort_keys=False), file=out)
# Output build/install steps
if args.show_wants:
for step in steps:
node = (REQUIRED_PKGS[step[1]])
wants = [edge.fqname for edge in node.edges]
print(f"{step[0]:<7} {step[1].replace(':target',''):<25} (wants: {', '.join(wants).replace(':target','')})")
else:
for step in steps:
print(f"{step[0]:<7} {step[1].replace(':target','')}")