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debian-forge/osbuild/pipeline.py
Christian Kellner f38c48086e pipeline: run method takes store object not dir 
Instead of passing the store directory to Pipeline.run, pass an
already initialized ObjectStore object. This binds the lifetime
of the store and its (temporary) objects to the run of osbuild
not the run of the pipeline.
This prepares re-using the stores with multiple (non-nested)
pipelines.
2021-01-15 13:20:31 +01:00

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import hashlib
import json
import os
import tempfile
from typing import Dict
from .api import API
from . import buildroot
from . import objectstore
from . import remoteloop
from . import sources
from .util import osrelease
def cleanup(*objs):
"""Call cleanup method for all objects, filters None values out"""
_ = map(lambda o: o.cleanup(), filter(None, objs))
class BuildResult:
def __init__(self, origin, returncode, output, metadata, error):
self.name = origin.name
self.id = origin.id
self.options = origin.options
self.success = returncode == 0
self.output = output
self.metadata = metadata
self.error = error
def as_dict(self):
return vars(self)
class Stage:
def __init__(self, name, source_options, build, base, options):
self.name = name
self.sources = source_options
self.build = build
self.base = base
self.options = options
self.checkpoint = False
@property
def id(self):
m = hashlib.sha256()
m.update(json.dumps(self.name, sort_keys=True).encode())
m.update(json.dumps(self.build, sort_keys=True).encode())
m.update(json.dumps(self.base, sort_keys=True).encode())
m.update(json.dumps(self.options, sort_keys=True).encode())
return m.hexdigest()
def run(self,
tree,
runner,
build_tree,
cache,
monitor,
libdir,
var="/var/tmp"):
with buildroot.BuildRoot(build_tree, runner, libdir, var=var) as build_root, \
tempfile.TemporaryDirectory(prefix="osbuild-sources-output-", dir=var) as sources_output:
args = {
"tree": "/run/osbuild/tree",
"sources": "/run/osbuild/sources",
"options": self.options,
"meta": {
"id": self.id
}
}
ro_binds = [f"{sources_output}:/run/osbuild/sources"]
api = API(args, monitor)
build_root.register_api(api)
src = sources.SourcesServer(libdir,
self.sources,
os.path.join(cache, "sources"),
sources_output)
build_root.register_api(src)
r = build_root.run([f"/run/osbuild/lib/stages/{self.name}"],
monitor,
binds=[os.fspath(tree) + ":/run/osbuild/tree"],
readonly_binds=ro_binds)
return BuildResult(self, r.returncode, r.output, api.metadata, api.error)
class Assembler:
def __init__(self, name, build, base, options):
self.name = name
self.build = build
self.base = base
self.options = options
self.checkpoint = False
@property
def id(self):
m = hashlib.sha256()
m.update(json.dumps(self.name, sort_keys=True).encode())
m.update(json.dumps(self.build, sort_keys=True).encode())
m.update(json.dumps(self.base, sort_keys=True).encode())
m.update(json.dumps(self.options, sort_keys=True).encode())
return m.hexdigest()
def run(self, tree, runner, build_tree, monitor, libdir, output_dir, var="/var/tmp"):
with buildroot.BuildRoot(build_tree, runner, libdir, var=var) as build_root:
args = {
"tree": "/run/osbuild/tree",
"options": self.options,
"meta": {
"id": self.id
}
}
binds = []
output_dir = os.fspath(output_dir)
os.makedirs(output_dir, exist_ok=True)
binds.append(f"{output_dir}:/run/osbuild/output")
args["output_dir"] = "/run/osbuild/output"
ro_binds = [os.fspath(tree) + ":/run/osbuild/tree"]
api = API(args, monitor)
build_root.register_api(api)
rls = remoteloop.LoopServer()
build_root.register_api(rls)
r = build_root.run([f"/run/osbuild/lib/assemblers/{self.name}"],
monitor,
binds=binds,
readonly_binds=ro_binds)
return BuildResult(self, r.returncode, r.output, api.metadata, api.error)
class Pipeline:
def __init__(self, runner=None, build=None):
self.build = build
self.runner = runner
self.stages = []
self.assembler = None
@property
def tree_id(self):
return self.stages[-1].id if self.stages else None
@property
def output_id(self):
return self.assembler.id if self.assembler else None
def add_stage(self, name, sources_options=None, options=None):
build = self.build.tree_id if self.build else None
stage = Stage(name, sources_options, build, self.tree_id, options or {})
self.stages.append(stage)
if self.assembler:
self.assembler.base = stage.id
def set_assembler(self, name, options=None):
build = self.build.tree_id if self.build else None
self.assembler = Assembler(name, build, self.tree_id, options or {})
def build_stages(self, object_store, monitor, libdir):
results = {"success": True}
# We need a build tree for the stages below, which is either
# another tree that needs to be built with the build pipeline
# or the host file system if no build pipeline is specified
# NB: the very last level of nested build pipelines is always
# build on the host
if not self.build:
build_tree = objectstore.HostTree(object_store)
else:
build = self.build
r, t, tree = build.build_stages(object_store,
monitor,
libdir)
results["build"] = r
if not r["success"]:
results["success"] = False
return results, None, None
# Cleanup the build tree (`t`) which was used to
# build `tree`; it is now not needed anymore
t.cleanup()
build_tree = tree
# If there are no stages, just return build tree we just
# obtained and a new, clean `tree`
if not self.stages:
tree = object_store.new()
return results, build_tree, tree
# Create a new tree. The base is our tree_id because if that
# is already in the store, we can short-circuit directly and
# exit directly; `tree` is then used to read the tree behind
# `self.tree_id`
tree = object_store.new(base_id=self.tree_id)
if object_store.contains(self.tree_id):
return results, build_tree, tree
# Not in the store yet, need to actually build it, but maybe
# an intermediate checkpoint exists: Find the last stage that
# already exists in the store and use that as the base.
base_idx = -1
tree.base = None
for i in reversed(range(len(self.stages))):
if object_store.contains(self.stages[i].id):
tree.base = self.stages[i].id
base_idx = i
break
# If two run() calls race each-other, two trees will get built
# and it is nondeterministic which of them will end up
# referenced by the `tree_id` in the content store if they are
# both committed. However, after the call to commit all the
# trees will be based on the winner.
results["stages"] = []
for stage in self.stages[base_idx + 1:]:
with build_tree.read() as build_path, tree.write() as path:
monitor.stage(stage)
r = stage.run(path,
self.runner,
build_path,
object_store.store,
monitor,
libdir,
var=object_store.store)
monitor.result(r)
results["stages"].append(r.as_dict())
if not r.success:
cleanup(build_tree, tree)
results["success"] = False
return results, None, None
if stage.checkpoint:
object_store.commit(tree, stage.id)
return results, build_tree, tree
def assemble(self, object_store, build_tree, tree, monitor, libdir):
results = {"success": True}
if not self.assembler:
return results, None
output = object_store.new()
with build_tree.read() as build_dir, \
tree.read() as input_dir, \
output.write() as output_dir:
monitor.assembler(self.assembler)
r = self.assembler.run(input_dir,
self.runner,
build_dir,
monitor,
libdir,
output_dir,
var=object_store.store)
monitor.result(r)
results["assembler"] = r.as_dict()
if not r.success:
output.cleanup()
results["success"] = False
return results, None
if self.assembler.checkpoint:
object_store.commit(output, self.assembler.id)
return results, output
def run(self, store, monitor, libdir, output_directory):
results = {"success": True}
monitor.begin(self)
# If the final result is already in the store, no need to attempt
# building it. Just fetch the cached information. If the associated
# tree exists, we return it as well, but we do not care if it is
# missing, since it is not a mandatory part of the result and would
# usually be needless overhead.
obj = store.get(self.output_id)
if not obj:
results, build_tree, tree = self.build_stages(store,
monitor,
libdir)
if not results["success"]:
return results
r, obj = self.assemble(store,
build_tree,
tree,
monitor,
libdir)
results.update(r) # This will also update 'success'
if obj:
if output_directory:
obj.export(output_directory)
obj.cleanup()
monitor.finish(results)
return results
class Manifest:
"""Representation of a pipeline and its sources"""
def __init__(self, pipeline: Pipeline, source_options: Dict):
self.pipeline = pipeline
self.sources = source_options
def build(self, store, monitor, libdir, output_directory):
return self.pipeline.run(store, monitor, libdir, output_directory)
def mark_checkpoints(self, checkpoints):
points = set(checkpoints)
def mark_stage(stage):
c = stage.id
if c in points:
stage.checkpoint = True
points.remove(c)
def mark_assembler(assembler):
c = assembler.id
if c in points:
assembler.checkpoint = True
points.remove(c)
def mark_pipeline(pl):
for stage in pl.stages:
mark_stage(stage)
if pl.assembler:
mark_assembler(pl.assembler)
if pl.build:
mark_pipeline(pl.build)
mark_pipeline(self.pipeline)
return points
def detect_host_runner():
"""Use os-release(5) to detect the runner for the host"""
osname = osrelease.describe_os(*osrelease.DEFAULT_PATHS)
return "org.osbuild." + osname
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