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Summary: This can be run after a ninja-based build, and analyzes the ninja build files and dependency database to spot any missing dependencies in the build scripts. I wrote it in the course of investigating D82659, and it seems likely to be useful again. Reviewers: thakis, chandlerc, theraven Reviewed By: thakis Subscribers: riccibruno, llvm-commits Tags: #llvm Differential Revision: https://reviews.llvm.org/D83032
192 lines
7.7 KiB
Python
Executable File
192 lines
7.7 KiB
Python
Executable File
#!/usr/bin/env python3
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#
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# ======- check-ninja-deps - build debugging script ----*- python -*--========#
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#
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# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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# See https://llvm.org/LICENSE.txt for license information.
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# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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#
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# ==------------------------------------------------------------------------==#
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"""Script to find missing formal dependencies in a build.ninja file.
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Suppose you have a header file that's autogenerated by (for example) Tablegen.
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If a C++ compilation step needs to include that header, then it must be
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executed after the Tablegen build step that generates the header. So the
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dependency graph in build.ninja should have the Tablegen build step as an
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ancestor of the C++ one. If it does not, then there's a latent build-failure
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bug, because depending on the order that ninja chooses to schedule its build
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steps, the C++ build step could run first, and fail because the header it needs
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does not exist yet.
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But because that kind of bug can easily be latent or intermittent, you might
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not notice, if your local test build happens to succeed. What you'd like is a
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way to detect problems of this kind reliably, even if they _didn't_ cause a
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failure on your first test.
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This script tries to do that. It's specific to the 'ninja' build tool, because
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ninja has useful auxiliary output modes that produce the necessary data:
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- 'ninja -t graph' emits the full DAG of formal dependencies derived from
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build.ninja (in Graphviz format)
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- 'ninja -t deps' dumps the database of dependencies discovered at build time
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by finding out which headers each source file actually included
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By cross-checking these two sources of data against each other, you can find
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true dependencies shown by 'deps' that are not reflected as formal dependencies
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in 'graph', i.e. a generated header that is required by a given source file but
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not forced to be built first.
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To run it:
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- set up a build directory using ninja as the build tool (cmake -G Ninja)
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- in that build directory, run ninja to perform an actual build (populating
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the dependency database)
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- then, in the same build directory, run this script. No arguments are needed
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(but -C and -f are accepted, and propagated to ninja for convenience).
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Requirements outside core Python: the 'pygraphviz' module, available via pip or
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as the 'python3-pygraphviz' package in Debian and Ubuntu.
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"""
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import sys
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import argparse
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import subprocess
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import pygraphviz
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def toposort(g):
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"""Topologically sort a graph.
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The input g is a pygraphviz graph object representing a DAG. The function
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yields the vertices of g in an arbitrary order consistent with the edges,
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so that for any edge v->w, v is output before w."""
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# Count the number of immediate predecessors *not yet output* for each
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# vertex. Initially this is simply their in-degrees.
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ideg = {v: g.in_degree(v) for v in g.nodes_iter()}
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# Set of vertices which can be output next, which is true if they have no
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# immediate predecessor that has not already been output.
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ready = {v for v, d in ideg.items() if d == 0}
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# Keep outputting vertices while we have any to output.
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while len(ready) > 0:
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v = next(iter(ready))
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yield v
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ready.remove(v)
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# Having output v, find each immediate successor w, and decrement its
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# 'ideg' value by 1, to indicate that one more of its predecessors has
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# now been output.
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for w in g.out_neighbors(v):
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ideg[w] -= 1
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if ideg[w] == 0:
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# If that counter reaches zero, w is ready to output.
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ready.add(w)
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def ancestors(g, translate = lambda x: x):
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"""Form the set of ancestors for each vertex of a graph.
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The input g is a pygraphviz graph object representing a DAG. The function
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yields a sequence of pairs (vertex, set of proper ancestors).
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The vertex names are all mapped through 'translate' before output. This
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allows us to produce output referring to the label rather than the
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identifier of every vertex.
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"""
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# Store the set of (translated) ancestors for each vertex so far. a[v]
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# includes (the translation of) v itself.
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a = {}
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for v in toposort(g):
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vm = translate(v)
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# Make up a[v], based on a[predecessors of v].
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a[v] = {vm} # include v itself
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for w in g.in_neighbors(v):
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a[v].update(a[w])
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# Remove v itself from the set before yielding it, so that the caller
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# doesn't get the trivial dependency of v on itself.
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yield vm, a[v].difference({vm})
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def main():
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parser = argparse.ArgumentParser(
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description='Find missing formal dependencies on generated include '
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'files in a build.ninja file.')
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parser.add_argument("-C", "--build-dir",
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help="Build directory (default cwd)")
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parser.add_argument("-f", "--build-file",
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help="Build directory (default build.ninja)")
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args = parser.parse_args()
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errs = 0
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ninja_prefix = ["ninja"]
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if args.build_dir is not None:
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ninja_prefix.extend(["-C", args.build_dir])
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if args.build_file is not None:
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ninja_prefix.extend(["-f", args.build_file])
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# Get the formal dependency graph and decode it using pygraphviz.
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g = pygraphviz.AGraph(subprocess.check_output(
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ninja_prefix + ["-t", "graph"]).decode("UTF-8"))
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# Helper function to ask for the label of a vertex, which is where ninja's
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# Graphviz output keeps the actual file name of the target.
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label = lambda v: g.get_node(v).attr["label"]
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# Start by making a list of build targets, i.e. generated files. These are
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# just any graph vertex with at least one predecessor.
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targets = set(label(v) for v in g.nodes_iter() if g.in_degree(v) > 0)
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# Find the set of ancestors of each graph vertex. We pass in 'label' as a
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# translation function, so that this gives us the set of ancestor _files_
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# for a given _file_ rather than arbitrary numeric vertex ids.
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deps = dict(ancestors(g, label))
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# Fetch the cached dependency data and check it against our formal ancestry
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# data.
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currtarget = None
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for line in (subprocess.check_output(ninja_prefix + ["-t", "deps"])
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.decode("UTF-8").splitlines()):
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# ninja -t deps output consists of stanzas of the following form,
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# separated by a blank line:
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#
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# target: [other information we don't need]
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# some_file.cpp
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# some_header.h
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# other_header.h
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#
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# We parse this ad-hoc by detecting the four leading spaces in a
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# source-file line, and the colon in a target line. 'currtarget' stores
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# the last target name we saw.
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if line.startswith(" "):
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dep = line[4:]
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assert currtarget is not None, "Source file appeared before target"
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# We're only interested in this dependency if it's a *generated*
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# file, i.e. it is in our set of targets. Also, we must check that
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# currtarget is actually a target we know about: the dependency
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# cache is not cleared when build.ninja changes, so it can contain
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# stale data from targets that existed only in past builds in the
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# same directory.
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if (dep in targets and currtarget in deps and
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dep not in deps[currtarget]):
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print("error:", currtarget, "requires", dep,
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"but has no dependency on it", file=sys.stderr)
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errs += 1
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elif ":" in line:
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currtarget = line.split(":", 1)[0]
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if errs:
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sys.exit("{:d} errors found".format(errs))
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if __name__ == '__main__':
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main()
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