# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
import io
import logging
import os
import re
from collections
import defaultdict, namedtuple
from itertools
import chain
from operator
import itemgetter
import mozpack.path
as mozpath
import six
from mozpack.manifests
import InstallManifest
from six
import StringIO
from mozbuild
import frontend
from mozbuild.frontend.context
import (
AbsolutePath,
ObjDirPath,
Path,
RenamedSourcePath,
SourcePath,
)
from mozbuild.shellutil
import quote
as shell_quote
from ..frontend.data
import (
BaseLibrary,
BaseProgram,
BaseRustLibrary,
ChromeManifestEntry,
ComputedFlags,
ConfigFileSubstitution,
ContextDerived,
Defines,
DirectoryTraversal,
ExternalLibrary,
FinalTargetFiles,
FinalTargetPreprocessedFiles,
GeneratedFile,
HostDefines,
HostLibrary,
HostProgram,
HostRustProgram,
HostSharedLibrary,
HostSimpleProgram,
HostSources,
InstallationTarget,
JARManifest,
Linkable,
LocalInclude,
LocalizedFiles,
LocalizedPreprocessedFiles,
ObjdirFiles,
ObjdirPreprocessedFiles,
PerSourceFlag,
Program,
RustProgram,
RustTests,
SandboxedWasmLibrary,
SharedLibrary,
SimpleProgram,
Sources,
StaticLibrary,
TestManifest,
VariablePassthru,
WasmSources,
XPIDLModule,
)
from ..makeutil
import Makefile
from ..util
import FileAvoidWrite, ensureParentDir, pairwise
from .common
import CommonBackend
from .make
import MakeBackend
# To protect against accidentally adding logic to Makefiles that belong in moz.build,
# we check if moz.build-like variables are defined in Makefiles. If they are, we throw
# an error to encourage the usage of moz.build instead.
_MOZBUILD_ONLY_VARIABLES = set(frontend.context.VARIABLES.keys()) - {
# The migration to moz.build from Makefiles still isn't complete, and there's still
# some straggling Makefile logic that uses variables that only moz.build should
# use.
# These remaining variables are excluded from our blacklist. As the variables here
# are migrated from Makefiles in the future, they should be removed from this
# "override" list.
"XPI_NAME",
"USE_EXTENSION_MANIFEST",
"CFLAGS",
"CXXFLAGS",
}
DEPRECATED_VARIABLES = [
"ALLOW_COMPILER_WARNINGS",
"EXPORT_LIBRARY",
"EXTRA_LIBS",
"FAIL_ON_WARNINGS",
"HOST_LIBS",
"LIBXUL_LIBRARY",
"MOCHITEST_A11Y_FILES",
"MOCHITEST_BROWSER_FILES",
"MOCHITEST_BROWSER_FILES_PARTS",
"MOCHITEST_CHROME_FILES",
"MOCHITEST_FILES",
"MOCHITEST_FILES_PARTS",
"MOCHITEST_METRO_FILES",
"MOCHITEST_ROBOCOP_FILES",
"MODULE_OPTIMIZE_FLAGS",
"MOZ_CHROME_FILE_FORMAT",
"SHORT_LIBNAME",
"TESTING_JS_MODULES",
"TESTING_JS_MODULE_DIR",
]
MOZBUILD_VARIABLES_MESSAGE =
"It should only be defined in moz.build files."
DEPRECATED_VARIABLES_MESSAGE = (
"This variable has been deprecated. It does nothing. It must be removed "
"in order to build."
)
def make_quote(s):
return s.replace(
"#", r"\#").replace("$", "$$")
class BackendMakeFile(object):
"""Represents a generated backend.mk file.
This
is both a wrapper around a file handle
as well
as a container that
holds accumulated state.
It
's worth taking a moment to explain the make dependencies. The
generated backend.mk
as well
as the Makefile.
in (
if it exists) are
in the
GLOBAL_DEPS list. This means that
if one of them changes, all targets
in that Makefile are invalidated. backend.mk also depends on all of its
input files.
It
's worth considering the effect of file mtimes on build behavior.
Since we perform an
"all or none" traversal of moz.build files (the whole
tree
is scanned
as opposed to individual files),
if we were to blindly
write backend.mk files, the net effect of updating a single mozbuild file
in the tree
is all backend.mk files have new mtimes. This would
in turn
invalidate all make targets across the whole tree! This would effectively
undermine incremental builds
as any mozbuild change would cause the entire
tree to rebuild!
The solution
is to
not update the mtimes of backend.mk files unless they
actually change. We use FileAvoidWrite to accomplish this.
"""
def __init__(self, srcdir, objdir, environment, topsrcdir, topobjdir, dry_run):
self.topsrcdir = topsrcdir
self.srcdir = srcdir
self.objdir = objdir
self.relobjdir = mozpath.relpath(objdir, topobjdir)
self.environment = environment
self.name = mozpath.join(objdir,
"backend.mk")
self.xpt_name =
None
self.fh = FileAvoidWrite(self.name, capture_diff=
True, dry_run=dry_run)
self.fh.write(
"# THIS FILE WAS AUTOMATICALLY GENERATED. DO NOT EDIT.\n")
self.fh.write(
"\n")
def write(self, buf):
self.fh.write(buf)
def write_once(self, buf):
buf = six.ensure_text(buf)
if "\n" + buf
not in six.ensure_text(self.fh.getvalue()):
self.write(buf)
# For compatibility with makeutil.Makefile
def add_statement(self, stmt):
self.write(
"%s\n" % stmt)
def close(self):
if self.xpt_name:
# We just recompile all xpidls because it's easier and less error
# prone.
self.fh.write(
"NONRECURSIVE_TARGETS += export\n")
self.fh.write(
"NONRECURSIVE_TARGETS_export += xpidl\n")
self.fh.write(
"NONRECURSIVE_TARGETS_export_xpidl_DIRECTORY = "
"$(DEPTH)/xpcom/xpidl\n"
)
self.fh.write(
"NONRECURSIVE_TARGETS_export_xpidl_TARGETS += " "export\n")
return self.fh.close()
@property
def diff(self):
return self.fh.diff
class RecursiveMakeTraversal(object):
"""
Helper
class to keep track of how the
"traditional" recursive make backend
recurses subdirectories. This
is useful until all adhoc rules are removed
from Makefiles.
Each directory may have one
or more types of subdirectories:
- (normal) dirs
- tests
"""
SubDirectoryCategories = [
"dirs",
"tests"]
SubDirectoriesTuple = namedtuple(
"SubDirectories", SubDirectoryCategories)
class SubDirectories(SubDirectoriesTuple):
def __new__(self):
return RecursiveMakeTraversal.SubDirectoriesTuple.__new__(self, [], [])
def __init__(self):
self._traversal = {}
self._attached = set()
def add(self, dir, dirs=[], tests=[]):
"""
Adds a directory to traversal, registering its subdirectories,
sorted by categories.
If the directory was already added to
traversal, adds the new subdirectories to the already known lists.
"""
subdirs = self._traversal.setdefault(dir, self.SubDirectories())
for key, value
in ((
"dirs", dirs), (
"tests", tests)):
assert key
in self.SubDirectoryCategories
# Callers give us generators
value = list(value)
getattr(subdirs, key).extend(value)
self._attached |= set(value)
@staticmethod
def default_filter(current, subdirs):
"""
Default filter
for use
with compute_dependencies
and traverse.
"""
return current, [], subdirs.dirs + subdirs.tests
def call_filter(self, current, filter):
"""
Helper function to call a filter
from compute_dependencies
and
traverse.
"""
return filter(current, self.get_subdirs(current))
def compute_dependencies(self, filter=
None):
"""
Compute make dependencies corresponding to the registered directory
traversal.
filter
is a function
with the following signature:
def filter(current, subdirs)
where current
is the directory being traversed,
and subdirs the
SubDirectories instance corresponding to it.
The filter function returns a tuple (filtered_current, filtered_parallel,
filtered_dirs) where filtered_current
is either current
or None if
the current directory
is to be skipped,
and filtered_parallel
and
filtered_dirs are lists of parallel directories
and sequential
directories, which can be rearranged
from whatever
is given
in the
SubDirectories members.
The default filter corresponds to a default recursive traversal.
"""
filter = filter
or self.default_filter
deps = {}
def recurse(start_node, prev_nodes=
None):
current, parallel, sequential = self.call_filter(start_node, filter)
if current
is not None:
if start_node !=
"":
deps[start_node] = prev_nodes
prev_nodes = (start_node,)
if start_node
not in self._traversal:
return prev_nodes
parallel_nodes = []
for node
in parallel:
nodes = recurse(node, prev_nodes)
if nodes
and nodes != (
"",):
parallel_nodes.extend(nodes)
if parallel_nodes:
prev_nodes = tuple(parallel_nodes)
for dir
in sequential:
prev_nodes = recurse(dir, prev_nodes)
return prev_nodes
return recurse(
""), deps
def traverse(self, start, filter=
None):
"""
Iterate over the filtered subdirectories, following the traditional
make traversal order.
"""
if filter
is None:
filter = self.default_filter
current, parallel, sequential = self.call_filter(start, filter)
if current
is not None:
yield start
if start
not in self._traversal:
return
for node
in parallel:
for n
in self.traverse(node, filter):
yield n
for dir
in sequential:
for d
in self.traverse(dir, filter):
yield d
def get_subdirs(self, dir):
"""
Returns all direct subdirectories under the given directory.
"""
result = self._traversal.get(dir, self.SubDirectories())
if dir ==
"":
unattached = set(self._traversal) - self._attached - set([
""])
if unattached:
new_result = self.SubDirectories()
new_result.dirs.extend(result.dirs)
new_result.dirs.extend(sorted(unattached))
new_result.tests.extend(result.tests)
result = new_result
return result
class RecursiveMakeBackend(MakeBackend):
"""Backend that integrates with the existing recursive make build system.
This backend facilitates the transition
from Makefile.
in to moz.build
files.
This backend performs Makefile.
in -> Makefile conversion. It also writes
out .mk files containing content derived
from moz.build files. Both are
consumed by the recursive make builder.
This backend may eventually evolve to write out non-recursive make files.
However,
as long
as there are Makefile.
in files
in the tree, we are tied to
recursive make
and thus will need this backend.
"""
def _init(self):
MakeBackend._init(self)
self._backend_files = {}
self._idl_dirs = set()
self._makefile_in_count = 0
self._makefile_out_count = 0
self._test_manifests = {}
self.backend_input_files.add(
mozpath.join(self.environment.topobjdir,
"config",
"autoconf.mk")
)
self._install_manifests = defaultdict(InstallManifest)
# The build system relies on some install manifests always existing
# even if they are empty, because the directories are still filled
# by the build system itself, and the install manifests are only
# used for a "magic" rm -rf.
self._install_manifests[
"dist_public"]
self._install_manifests[
"dist_private"]
self._traversal = RecursiveMakeTraversal()
self._compile_graph = defaultdict(set)
self._rust_targets = set()
self._gkrust_target =
None
self._pre_compile = set()
# For a given file produced by the build, gives the top-level target
# that will produce it.
self._target_per_file = {}
# A set of dependencies that need correlation after everything has
# been processed.
self._post_process_dependencies = []
self._no_skip = {
"pre-export": set(),
"export": set(),
"libs": set(),
"misc": set(),
"tools": set(),
"check": set(),
"syms": set(),
}
def summary(self):
summary = super(RecursiveMakeBackend, self).summary()
summary.extend(
"; {makefile_in:d} -> {makefile_out:d} Makefile",
makefile_in=self._makefile_in_count,
makefile_out=self._makefile_out_count,
)
return summary
def _get_backend_file_for(self, obj):
# For generated files that we put in the export or misc tiers, we use the
# top-level backend file, except for localized files, which we need to keep
# in each directory for dependencies from jar manifests for l10n repacks.
if (
isinstance(obj, GeneratedFile)
and not obj.required_during_compile
and not obj.localized
):
objdir = self.environment.topobjdir
else:
objdir = obj.objdir
if objdir
not in self._backend_files:
self._backend_files[objdir] = BackendMakeFile(
obj.srcdir,
objdir,
obj.config,
obj.topsrcdir,
self.environment.topobjdir,
self.dry_run,
)
return self._backend_files[objdir]
def consume_object(self, obj):
"""Write out build files necessary to build with recursive make."""
if not isinstance(obj, ContextDerived):
return False
backend_file = self._get_backend_file_for(obj)
consumed = CommonBackend.consume_object(self, obj)
# CommonBackend handles XPIDLModule, but we want to do
# some extra things for them.
if isinstance(obj, XPIDLModule):
backend_file.xpt_name =
"%s.xpt" % obj.name
self._idl_dirs.add(obj.relobjdir)
# If CommonBackend acknowledged the object, we're done with it.
if consumed:
return True
if not isinstance(obj, Defines):
self.consume_object(obj.defines)
if isinstance(obj, Linkable):
self._process_test_support_file(obj)
self._process_relrhack(obj)
if isinstance(obj, DirectoryTraversal):
self._process_directory_traversal(obj, backend_file)
elif isinstance(obj, ConfigFileSubstitution):
# Other ConfigFileSubstitution should have been acked by
# CommonBackend.
assert os.path.basename(obj.output_path) ==
"Makefile"
self._create_makefile(obj)
elif isinstance(obj, Sources):
suffix_map = {
".s":
"ASFILES",
".c":
"CSRCS",
".m":
"CMSRCS",
".mm":
"CMMSRCS",
".cpp":
"CPPSRCS",
".S":
"SSRCS",
}
variables = [suffix_map[obj.canonical_suffix]]
for files, base, cls, prefix
in (
(obj.static_files, backend_file.srcdir, SourcePath,
""),
(obj.generated_files, backend_file.objdir, ObjDirPath,
"!"),
):
for f
in sorted(files):
p = self._pretty_path(
cls(obj._context, prefix + mozpath.relpath(f, base)),
backend_file,
)
for var
in variables:
backend_file.write(
"%s += %s\n" % (var, p))
self._compile_graph[mozpath.join(backend_file.relobjdir,
"target-objects")]
elif isinstance(obj, HostSources):
suffix_map = {
".c":
"HOST_CSRCS",
".cpp":
"HOST_CPPSRCS",
}
variables = [suffix_map[obj.canonical_suffix]]
for files, base, cls, prefix
in (
(obj.static_files, backend_file.srcdir, SourcePath,
""),
(obj.generated_files, backend_file.objdir, ObjDirPath,
"!"),
):
for f
in sorted(files):
p = self._pretty_path(
cls(obj._context, prefix + mozpath.relpath(f, base)),
backend_file,
)
for var
in variables:
backend_file.write(
"%s += %s\n" % (var, p))
self._compile_graph[mozpath.join(backend_file.relobjdir,
"host-objects")]
elif isinstance(obj, WasmSources):
suffix_map = {
".c":
"WASM_CSRCS",
".cpp":
"WASM_CPPSRCS"}
variables = [suffix_map[obj.canonical_suffix]]
for files, base, cls, prefix
in (
(obj.static_files, backend_file.srcdir, SourcePath,
""),
(obj.generated_files, backend_file.objdir, ObjDirPath,
"!"),
):
for f
in sorted(files):
p = self._pretty_path(
cls(obj._context, prefix + mozpath.relpath(f, base)),
backend_file,
)
for var
in variables:
backend_file.write(
"%s += %s\n" % (var, p))
self._compile_graph[mozpath.join(backend_file.relobjdir,
"target-objects")]
elif isinstance(obj, VariablePassthru):
# Sorted so output is consistent and we don't bump mtimes.
for k, v
in sorted(obj.variables.items()):
if isinstance(v, list):
for item
in v:
backend_file.write(
"%s += %s\n" % (k, make_quote(shell_quote(item)))
)
elif isinstance(v, bool):
if v:
backend_file.write(
"%s := 1\n" % k)
elif isinstance(v, Path):
path = self._pretty_path(Path(obj._context, v), backend_file)
backend_file.write(
"%s := %s\n" % (k, path))
else:
backend_file.write(
"%s := %s\n" % (k, v))
elif isinstance(obj, HostDefines):
self._process_defines(obj, backend_file, which=
"HOST_DEFINES")
elif isinstance(obj, Defines):
self._process_defines(obj, backend_file)
elif isinstance(obj, GeneratedFile):
if obj.required_before_export:
tier =
"pre-export"
elif obj.required_before_compile:
tier =
"export"
elif obj.required_during_compile:
tier =
"pre-compile"
else:
tier =
"misc"
relobjdir = mozpath.relpath(obj.objdir, self.environment.topobjdir)
if tier ==
"pre-compile":
self._pre_compile.add(relobjdir)
else:
self._no_skip[tier].add(relobjdir)
backend_file.write_once(
"include $(topsrcdir)/config/AB_rCD.mk\n")
reldir = mozpath.relpath(obj.objdir, backend_file.objdir)
if not reldir:
for out
in obj.outputs:
out = mozpath.join(relobjdir, out)
assert out
not in self._target_per_file
self._target_per_file[out] = (relobjdir, tier)
for input
in obj.inputs:
if isinstance(input, ObjDirPath):
self._post_process_dependencies.append((relobjdir, tier, input))
# For generated files that we handle in the top-level backend file,
# we want to have a `directory/tier` target depending on the file.
# For the others, we want a `tier` target.
if tier !=
"pre-compile" and reldir:
tier =
"%s/%s" % (reldir, tier)
for stmt
in self._format_statements_for_generated_file(
obj, tier, extra_dependencies=
"backend.mk" if obj.flags
else ""
):
backend_file.write(stmt +
"\n")
elif isinstance(obj, JARManifest):
self._no_skip[
"misc"].add(backend_file.relobjdir)
backend_file.write(
"JAR_MANIFEST := %s\n" % obj.path.full_path)
elif isinstance(obj, RustProgram):
self._process_rust_program(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
# Hook the program into the compile graph.
build_target = self._build_target_for_obj(obj)
self._compile_graph[build_target]
self._rust_targets.add(build_target)
elif isinstance(obj, HostRustProgram):
self._process_host_rust_program(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
# Hook the program into the compile graph.
build_target = self._build_target_for_obj(obj)
self._compile_graph[build_target]
self._rust_targets.add(build_target)
elif isinstance(obj, RustTests):
self._process_rust_tests(obj, backend_file)
elif isinstance(obj, Program):
self._process_program(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
self._no_skip[
"syms"].add(backend_file.relobjdir)
elif isinstance(obj, HostProgram):
self._process_host_program(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
self._target_per_file[obj.output_path.full_path] = (
backend_file.relobjdir,
obj.KIND,
)
elif isinstance(obj, SimpleProgram):
self._process_simple_program(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
self._no_skip[
"syms"].add(backend_file.relobjdir)
elif isinstance(obj, HostSimpleProgram):
self._process_host_simple_program(obj.program, backend_file)
self._process_linked_libraries(obj, backend_file)
elif isinstance(obj, LocalInclude):
self._process_local_include(obj.path, backend_file)
elif isinstance(obj, PerSourceFlag):
self._process_per_source_flag(obj, backend_file)
elif isinstance(obj, ComputedFlags):
self._process_computed_flags(obj, backend_file)
elif isinstance(obj, InstallationTarget):
self._process_installation_target(obj, backend_file)
elif isinstance(obj, BaseRustLibrary):
self.backend_input_files.add(obj.cargo_file)
self._process_rust_library(obj, backend_file)
# No need to call _process_linked_libraries, because Rust
# libraries are self-contained objects at this point.
# Hook the library into the compile graph.
build_target = self._build_target_for_obj(obj)
self._compile_graph[build_target]
self._rust_targets.add(build_target)
if obj.is_gkrust:
self._gkrust_target = build_target
elif isinstance(obj, SharedLibrary):
self._process_shared_library(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
self._no_skip[
"syms"].add(backend_file.relobjdir)
elif isinstance(obj, StaticLibrary):
self._process_static_library(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
elif isinstance(obj, SandboxedWasmLibrary):
self._process_sandboxed_wasm_library(obj, backend_file)
elif isinstance(obj, HostLibrary):
self._process_linked_libraries(obj, backend_file)
elif isinstance(obj, HostSharedLibrary):
self._process_host_shared_library(obj, backend_file)
self._process_linked_libraries(obj, backend_file)
elif isinstance(obj, ObjdirFiles):
self._process_objdir_files(obj, obj.files, backend_file)
elif isinstance(obj, ObjdirPreprocessedFiles):
self._process_final_target_pp_files(
obj, obj.files, backend_file,
"OBJDIR_PP_FILES"
)
elif isinstance(obj, LocalizedFiles):
self._process_localized_files(obj, obj.files, backend_file)
elif isinstance(obj, LocalizedPreprocessedFiles):
self._process_localized_pp_files(obj, obj.files, backend_file)
elif isinstance(obj, FinalTargetFiles):
self._process_final_target_files(obj, obj.files, backend_file)
elif isinstance(obj, FinalTargetPreprocessedFiles):
self._process_final_target_pp_files(
obj, obj.files, backend_file,
"DIST_FILES"
)
elif isinstance(obj, ChromeManifestEntry):
self._process_chrome_manifest_entry(obj, backend_file)
elif isinstance(obj, TestManifest):
self._process_test_manifest(obj, backend_file)
else:
return False
return True
def _fill_root_mk(self):
"""
Create two files, root.mk
and root-deps.mk, the first containing
convenience variables,
and the other dependency definitions
for a
hopefully proper directory traversal.
"""
for tier, no_skip
in self._no_skip.items():
self.log(
logging.DEBUG,
"fill_root_mk",
{
"number": len(no_skip),
"tier": tier},
"Using {number} directories during {tier}",
)
def should_skip(tier, dir):
if tier
in self._no_skip:
return dir
not in self._no_skip[tier]
return False
# Traverse directories in parallel, and skip static dirs
def parallel_filter(current, subdirs):
all_subdirs = subdirs.dirs + subdirs.tests
if should_skip(tier, current)
or current.startswith(
"subtiers/"):
current =
None
return current, all_subdirs, []
# build everything in parallel, including static dirs
# Because of bug 925236 and possible other unknown race conditions,
# don't parallelize the libs tier.
def libs_filter(current, subdirs):
if should_skip(
"libs", current)
or current.startswith(
"subtiers/"):
current =
None
return current, [], subdirs.dirs + subdirs.tests
# Because of bug 925236 and possible other unknown race conditions,
# don't parallelize the tools tier. There aren't many directories for
# this tier anyways.
def tools_filter(current, subdirs):
if should_skip(
"tools", current)
or current.startswith(
"subtiers/"):
current =
None
return current, [], subdirs.dirs + subdirs.tests
filters = [
(
"export", parallel_filter),
(
"libs", libs_filter),
(
"misc", parallel_filter),
(
"tools", tools_filter),
(
"check", parallel_filter),
]
root_deps_mk = Makefile()
# Fill the dependencies for traversal of each tier.
for tier, filter
in sorted(filters, key=itemgetter(0)):
main, all_deps = self._traversal.compute_dependencies(filter)
for dir, deps
in sorted(all_deps.items()):
if deps
is not None or (dir
in self._idl_dirs
and tier ==
"export"):
rule = root_deps_mk.create_rule([
"%s/%s" % (dir, tier)])
if deps:
rule.add_dependencies(
"%s/%s" % (d, tier)
for d
in sorted(deps)
if d
)
rule = root_deps_mk.create_rule([
"recurse_%s" % tier])
if main:
rule.add_dependencies(
"%s/%s" % (d, tier)
for d
in sorted(main))
rule = root_deps_mk.create_rule([
"recurse_pre-compile"])
rule.add_dependencies(
"%s/pre-compile" % d
for d
in sorted(self._pre_compile))
targets_with_pre_compile = sorted(
t
for t
in self._compile_graph
if mozpath.dirname(t)
in self._pre_compile
)
for t
in targets_with_pre_compile:
relobjdir = mozpath.dirname(t)
rule = root_deps_mk.create_rule([t])
rule.add_dependencies([
"%s/pre-compile" % relobjdir])
all_compile_deps = (
six.moves.reduce(
lambda x, y: x | y, self._compile_graph.values())
if self._compile_graph
else set()
)
# Include the following as dependencies of the top recursion target for
# compilation:
# - nodes that are not dependended upon by anything. Typically, this
# would include programs, that need to be recursed, but that nothing
# depends on.
# - nodes that are rust targets.
compile_roots = [
t
for t, deps
in six.iteritems(self._compile_graph)
if t
in self._rust_targets
or t
not in all_compile_deps
]
def add_category_rules(category, roots, graph):
rule = root_deps_mk.create_rule([
"recurse_%s" % category])
# Directories containing rust compilations don't generally depend
# on other directories in the tree, so putting them first here will
# start them earlier in the build.
rust_roots = sorted(r
for r
in roots
if r
in self._rust_targets)
if category ==
"compile" and rust_roots:
rust_rule = root_deps_mk.create_rule([
"recurse_rust"])
rust_rule.add_dependencies(rust_roots)
# Ensure our cargo invocations are serialized, and gecko comes
# first. Cargo will lock on the build output directory anyway,
# so trying to run things in parallel is not useful. Dependencies
# for gecko are especially expensive to build and parallelize
# poorly, so prioritizing these will save some idle time in full
# builds.
for prior_target, target
in pairwise(
sorted(
[t
for t
in rust_roots], key=
lambda t: t != self._gkrust_target
)
):
r = root_deps_mk.create_rule([target])
r.add_dependencies([prior_target])
rule.add_dependencies(chain(rust_roots, sorted(roots)))
for target, deps
in sorted(graph.items()):
if deps:
rule = root_deps_mk.create_rule([target])
rule.add_dependencies(sorted(deps))
non_default_roots = defaultdict(list)
non_default_graphs = defaultdict(
lambda: defaultdict(set))
for root
in compile_roots:
# If this is a non-default target, separate the root from the
# rest of the compile graph.
target_name = mozpath.basename(root)
if target_name
not in (
"target",
"target-objects",
"host",
"host-objects"):
non_default_roots[target_name].append(root)
non_default_graphs[target_name][root] = self._compile_graph[root]
del self._compile_graph[root]
for root
in chain(*non_default_roots.values()):
compile_roots.remove(root)
dirname = mozpath.dirname(root)
# If a directory only contains non-default compile targets, we don't
# attempt to dump symbols there.
if (
dirname
in self._no_skip[
"syms"]
and "%s/target" % dirname
not in self._compile_graph
):
self._no_skip[
"syms"].remove(dirname)
add_category_rules(
"compile", compile_roots, self._compile_graph)
for category, graph
in sorted(six.iteritems(non_default_graphs)):
add_category_rules(category, non_default_roots[category], graph)
for relobjdir, tier, input
in self._post_process_dependencies:
dep = self._target_per_file.get(input.full_path)
if dep:
rule = root_deps_mk.create_rule([mozpath.join(relobjdir, tier)])
rule.add_dependencies([mozpath.join(*dep)])
root_mk = Makefile()
# Fill root.mk with the convenience variables.
for tier, filter
in filters:
all_dirs = self._traversal.traverse(
"", filter)
root_mk.add_statement(
"%s_dirs := %s" % (tier,
" ".join(all_dirs)))
# Need a list of compile targets because we can't use pattern rules:
# https://savannah.gnu.org/bugs/index.php?42833
root_mk.add_statement(
"pre_compile_targets := %s"
%
" ".join(sorted(
"%s/pre-compile" % p
for p
in self._pre_compile))
)
root_mk.add_statement(
"compile_targets := %s"
%
" ".join(sorted(set(self._compile_graph.keys()) | all_compile_deps))
)
root_mk.add_statement(
"syms_targets := %s"
%
" ".join(sorted(set(
"%s/syms" % d
for d
in self._no_skip[
"syms"])))
)
root_mk.add_statement(
"rust_targets := %s" %
" ".join(sorted(self._rust_targets))
)
root_mk.add_statement(
"non_default_tiers := %s" %
" ".join(sorted(non_default_roots.keys()))
)
for category, graphs
in sorted(six.iteritems(non_default_graphs)):
category_dirs = [mozpath.dirname(target)
for target
in graphs.keys()]
root_mk.add_statement(
"%s_dirs := %s" % (category,
" ".join(category_dirs)))
root_mk.add_statement(
"include root-deps.mk")
with self._write_file(
mozpath.join(self.environment.topobjdir,
"root.mk")
)
as root:
root_mk.dump(root, removal_guard=
False)
with self._write_file(
mozpath.join(self.environment.topobjdir,
"root-deps.mk")
)
as root_deps:
root_deps_mk.dump(root_deps, removal_guard=
False)
def _add_unified_build_rules(
self,
makefile,
unified_source_mapping,
unified_files_makefile_variable=
"unified_files",
include_curdir_build_rules=
True,
):
# In case it's a generator.
unified_source_mapping = sorted(unified_source_mapping)
explanation = (
"\n"
"# We build files in 'unified' mode by including several files\n"
"# together into a single source file. This cuts down on\n"
"# compilation times and debug information size."
)
makefile.add_statement(explanation)
all_sources =
" ".join(source
for source, _
in unified_source_mapping)
makefile.add_statement(
"%s := %s" % (unified_files_makefile_variable, all_sources)
)
if include_curdir_build_rules:
makefile.add_statement(
"\n"
'# Make sometimes gets confused between "foo" and "$(CURDIR)/foo".\n'
"# Help it out by explicitly specifiying dependencies."
)
makefile.add_statement(
"all_absolute_unified_files := \\\n"
" $(addprefix $(CURDIR)/,$(%s))" % unified_files_makefile_variable
)
rule = makefile.create_rule([
"$(all_absolute_unified_files)"])
rule.add_dependencies([
"$(CURDIR)/%: %"])
def _check_blacklisted_variables(self, makefile_in, makefile_content):
if "EXTERNALLY_MANAGED_MAKE_FILE" in makefile_content:
# Bypass the variable restrictions for externally managed makefiles.
return
for l
in makefile_content.splitlines():
l = l.strip()
# Don't check comments
if l.startswith(
"#"):
continue
for x
in chain(_MOZBUILD_ONLY_VARIABLES, DEPRECATED_VARIABLES):
if x
not in l:
continue
# Finding the variable name in the Makefile is not enough: it
# may just appear as part of something else, like DIRS appears
# in GENERATED_DIRS.
if re.search(r
"\b%s\s*[:?+]?=" % x, l):
if x
in _MOZBUILD_ONLY_VARIABLES:
message = MOZBUILD_VARIABLES_MESSAGE
else:
message = DEPRECATED_VARIABLES_MESSAGE
raise Exception(
"Variable %s is defined in %s. %s" % (x, makefile_in, message)
)
def consume_finished(self):
CommonBackend.consume_finished(self)
for objdir, backend_file
in sorted(self._backend_files.items()):
srcdir = backend_file.srcdir
with self._write_file(fh=backend_file)
as bf:
makefile_in = mozpath.join(srcdir,
"Makefile.in")
makefile = mozpath.join(objdir,
"Makefile")
# If Makefile.in exists, use it as a template. Otherwise,
# create a stub.
stub =
not os.path.exists(makefile_in)
if not stub:
self.log(
logging.DEBUG,
"substitute_makefile",
{
"path": makefile},
"Substituting makefile: {path}",
)
self._makefile_in_count += 1
# In the export and libs tiers, we don't skip directories
# containing a Makefile.in.
# topobjdir is handled separatedly, don't do anything for
# it.
if bf.relobjdir:
for tier
in (
"export",
"libs"):
self._no_skip[tier].add(bf.relobjdir)
else:
self.log(
logging.DEBUG,
"stub_makefile",
{
"path": makefile},
"Creating stub Makefile: {path}",
)
obj = self.Substitution()
obj.output_path = makefile
obj.input_path = makefile_in
obj.topsrcdir = backend_file.topsrcdir
obj.topobjdir = bf.environment.topobjdir
obj.config = bf.environment
self._create_makefile(obj, stub=stub)
with io.open(obj.output_path, encoding=
"utf-8")
as fh:
content = fh.read()
# Directories with a Makefile containing a tools target, or
# XPI_PKGNAME can't be skipped and must run during the
# 'tools' tier.
for t
in (
"XPI_PKGNAME",
"tools"):
if t
not in content:
continue
if t ==
"tools" and not re.search(
r
"(?:^|\s)tools.*::", content, re.M
):
continue
if objdir == self.environment.topobjdir:
continue
self._no_skip[
"tools"].add(
mozpath.relpath(objdir, self.environment.topobjdir)
)
# Directories with a Makefile containing a check target
# can't be skipped and must run during the 'check' tier.
if re.search(r
"(?:^|\s)check.*::", content, re.M):
self._no_skip[
"check"].add(
mozpath.relpath(objdir, self.environment.topobjdir)
)
# Detect any Makefile.ins that contain variables on the
# moz.build-only list
self._check_blacklisted_variables(makefile_in, content)
self._fill_root_mk()
# Make the master test manifest files.
for flavor, t
in self._test_manifests.items():
install_prefix, manifests = t
manifest_stem = mozpath.join(install_prefix,
"%s.toml" % flavor)
self._write_master_test_manifest(
mozpath.join(self.environment.topobjdir,
"_tests", manifest_stem),
manifests,
)
# Catch duplicate inserts.
try:
self._install_manifests[
"_tests"].add_optional_exists(manifest_stem)
except ValueError:
pass
self._write_manifests(
"install", self._install_manifests)
ensureParentDir(mozpath.join(self.environment.topobjdir,
"dist",
"foo"))
def _pretty_path_parts(self, path, backend_file):
assert isinstance(path, Path)
if isinstance(path, SourcePath):
if path.full_path.startswith(backend_file.srcdir):
return "$(srcdir)", path.full_path[len(backend_file.srcdir) :]
if path.full_path.startswith(backend_file.topsrcdir):
return "$(topsrcdir)", path.full_path[len(backend_file.topsrcdir) :]
elif isinstance(path, ObjDirPath):
if path.full_path.startswith(backend_file.objdir):
return "", path.full_path[len(backend_file.objdir) + 1 :]
if path.full_path.startswith(self.environment.topobjdir):
return "$(DEPTH)", path.full_path[len(self.environment.topobjdir) :]
return "", path.full_path
def _pretty_path(self, path, backend_file):
return "".join(self._pretty_path_parts(path, backend_file))
def _process_unified_sources(self, obj):
backend_file = self._get_backend_file_for(obj)
suffix_map = {
".c":
"UNIFIED_CSRCS",
".m":
"UNIFIED_CMSRCS",
".mm":
"UNIFIED_CMMSRCS",
".cpp":
"UNIFIED_CPPSRCS",
}
var = suffix_map[obj.canonical_suffix]
non_unified_var = var[len(
"UNIFIED_") :]
if obj.have_unified_mapping:
self._add_unified_build_rules(
backend_file,
obj.unified_source_mapping,
unified_files_makefile_variable=var,
include_curdir_build_rules=
False,
)
backend_file.write(
"%s += $(%s)\n" % (non_unified_var, var))
else:
# Sorted so output is consistent and we don't bump mtimes.
source_files = list(sorted(obj.files))
backend_file.write(
"%s += %s\n" % (non_unified_var,
" ".join(source_files)))
self._compile_graph[mozpath.join(backend_file.relobjdir,
"target-objects")]
def _process_directory_traversal(self, obj, backend_file):
"""Process a data.DirectoryTraversal instance."""
fh = backend_file.fh
def relativize(base, dirs):
return (mozpath.relpath(d.translated, base)
for d
in dirs)
if obj.dirs:
fh.write(
"DIRS := %s\n" %
" ".join(relativize(backend_file.objdir, obj.dirs))
)
self._traversal.add(
backend_file.relobjdir,
dirs=relativize(self.environment.topobjdir, obj.dirs),
)
# The directory needs to be registered whether subdirectories have been
# registered or not.
self._traversal.add(backend_file.relobjdir)
def _process_defines(self, obj, backend_file, which=
"DEFINES"):
"""Output the DEFINES rules to the given backend file."""
defines = list(obj.get_defines())
if defines:
defines =
" ".join(shell_quote(d)
for d
in defines)
backend_file.write_once(
"%s += %s\n" % (which, defines))
def _process_installation_target(self, obj, backend_file):
# A few makefiles need to be able to override the following rules via
# make XPI_NAME=blah commands, so we default to the lazy evaluation as
# much as possible here to avoid breaking things.
if obj.xpiname:
backend_file.write(
"XPI_NAME = %s\n" % (obj.xpiname))
if obj.subdir:
backend_file.write(
"DIST_SUBDIR = %s\n" % (obj.subdir))
if obj.target
and not obj.is_custom():
backend_file.write(
"FINAL_TARGET = $(DEPTH)/%s\n" % (obj.target))
else:
backend_file.write(
"FINAL_TARGET = $(if $(XPI_NAME),$(DIST)/xpi-stage/$(XPI_NAME),"
"$(DIST)/bin)$(DIST_SUBDIR:%=/%)\n"
)
if not obj.enabled:
backend_file.write(
"NO_DIST_INSTALL := 1\n")
def _handle_idl_manager(self, manager):
build_files = self._install_manifests[
"xpidl"]
for p
in (
"Makefile",
"backend.mk",
".deps/.mkdir.done"):
build_files.add_optional_exists(p)
for stem
in manager.idl_stems():
self._install_manifests[
"dist_include"].add_optional_exists(
"%s.h" % stem)
for module
in manager.modules:
build_files.add_optional_exists(mozpath.join(
".deps",
"%s.pp" % module))
modules = manager.modules
xpt_modules = sorted(modules.keys())
mk = Makefile()
all_directories = set()
for module_name
in xpt_modules:
module = manager.modules[module_name]
all_directories |= module.directories
deps = sorted(module.idl_files)
# It may seem strange to have the .idl files listed as
# prerequisites both here and in the auto-generated .pp files.
# It is necessary to list them here to handle the case where a
# new .idl is added to an xpt. If we add a new .idl and nothing
# else has changed, the new .idl won't be referenced anywhere
# except in the command invocation. Therefore, the .xpt won't
# be rebuilt because the dependencies say it is up to date. By
# listing the .idls here, we ensure the make file has a
# reference to the new .idl. Since the new .idl presumably has
# an mtime newer than the .xpt, it will trigger xpt generation.
mk.add_statement(
"%s_deps := %s" % (module_name,
" ".join(deps)))
build_files.add_optional_exists(
"%s.xpt" % module_name)
mk.add_statement(
"all_idl_dirs := %s" %
" ".join(sorted(all_directories)))
rules = StringIO()
mk.dump(rules, removal_guard=
False)
# Create dependency for output header so we force regeneration if the
# header was deleted. This ideally should not be necessary. However,
# some processes (such as PGO at the time this was implemented) wipe
# out dist/include without regard to our install manifests.
obj = self.Substitution()
obj.output_path = mozpath.join(
self.environment.topobjdir,
"config",
"makefiles",
"xpidl",
"Makefile"
)
obj.input_path = mozpath.join(
self.environment.topsrcdir,
"config",
"makefiles",
"xpidl",
"Makefile.in"
)
obj.topsrcdir = self.environment.topsrcdir
obj.topobjdir = self.environment.topobjdir
obj.config = self.environment
self._create_makefile(
obj,
extra=dict(
xpidl_rules=rules.getvalue(), xpidl_modules=
" ".join(xpt_modules)
),
)
def _process_program(self, obj, backend_file):
backend_file.write(
"PROGRAM = %s\n" % self._pretty_path(obj.output_path, backend_file)
)
if not obj.cxx_link
and not self.environment.bin_suffix:
backend_file.write(
"PROG_IS_C_ONLY_%s := 1\n" % obj.program)
def _process_host_program(self, program, backend_file):
backend_file.write(
"HOST_PROGRAM = %s\n" % self._pretty_path(program.output_path, backend_file)
)
def _process_rust_program_base(
self, obj, backend_file, target_variable, target_cargo_variable
):
backend_file.write_once(
"CARGO_FILE := %s\n" % obj.cargo_file)
target_dir = mozpath.normpath(backend_file.environment.topobjdir)
backend_file.write_once(
"CARGO_TARGET_DIR := %s\n" % target_dir)
backend_file.write(
"%s += $(DEPTH)/%s\n" % (target_variable, obj.location))
backend_file.write(
"%s += %s\n" % (target_cargo_variable, obj.name))
def _process_rust_program(self, obj, backend_file):
self._process_rust_program_base(
obj, backend_file,
"RUST_PROGRAMS",
"RUST_CARGO_PROGRAMS"
)
def _process_host_rust_program(self, obj, backend_file):
self._process_rust_program_base(
obj, backend_file,
"HOST_RUST_PROGRAMS",
"HOST_RUST_CARGO_PROGRAMS"
)
def _process_rust_tests(self, obj, backend_file):
if obj.config.substs.get(
"MOZ_RUST_TESTS"):
# If --enable-rust-tests has been set, run these as a part of
# make check.
self._no_skip[
"check"].add(backend_file.relobjdir)
backend_file.write(
"check:: force-cargo-test-run\n")
build_target = self._build_target_for_obj(obj)
self._compile_graph[build_target]
self._process_non_default_target(obj,
"force-cargo-test-run", backend_file)
backend_file.write_once(
"CARGO_FILE := $(srcdir)/Cargo.toml\n")
backend_file.write_once(
"RUST_TESTS := %s\n" %
" ".join(obj.names))
backend_file.write_once(
"RUST_TEST_FEATURES := %s\n" %
" ".join(obj.features))
def _process_simple_program(self, obj, backend_file):
if obj.is_unit_test:
backend_file.write(
"CPP_UNIT_TESTS += %s\n" % obj.program)
assert obj.cxx_link
else:
backend_file.write(
"SIMPLE_PROGRAMS += %s\n" % obj.program)
if not obj.cxx_link
and not self.environment.bin_suffix:
backend_file.write(
"PROG_IS_C_ONLY_%s := 1\n" % obj.program)
def _process_host_simple_program(self, program, backend_file):
backend_file.write(
"HOST_SIMPLE_PROGRAMS += %s\n" % program)
def _process_relrhack(self, obj):
if isinstance(
obj, (SimpleProgram, Program, SharedLibrary)
)
and obj.config.substs.get(
"RELRHACK"):
# When building with RELR-based ELF hack, we need to build the relevant parts
# before any target.
node = self._compile_graph[self._build_target_for_obj(obj)]
node.add(
"build/unix/elfhack/host")
node.add(
"build/unix/elfhack/inject/target-objects")
def _process_test_support_file(self, obj):
# Ensure test support programs and libraries are tracked by an
# install manifest for the benefit of the test packager.
if not obj.install_target.startswith(
"_tests"):
return
dest_basename =
None
if isinstance(obj, BaseLibrary):
dest_basename = obj.lib_name
elif isinstance(obj, BaseProgram):
dest_basename = obj.program
if dest_basename
is None:
return
self._install_manifests[
"_tests"].add_optional_exists(
mozpath.join(obj.install_target[len(
"_tests") + 1 :], dest_basename)
)
def _process_test_manifest(self, obj, backend_file):
# Much of the logic in this function could be moved to CommonBackend.
for source
in obj.source_relpaths:
self.backend_input_files.add(mozpath.join(obj.topsrcdir, source))
# Don't allow files to be defined multiple times unless it is allowed.
# We currently allow duplicates for non-test files or test files if
# the manifest is listed as a duplicate.
for source, (dest, is_test)
in obj.installs.items():
try:
self._install_manifests[
"_test_files"].add_link(source, dest)
except ValueError:
if not obj.dupe_manifest
and is_test:
raise
for base, pattern, dest
in obj.pattern_installs:
try:
self._install_manifests[
"_test_files"].add_pattern_link(
base, pattern, dest
)
except ValueError:
if not obj.dupe_manifest:
raise
for dest
in obj.external_installs:
try:
self._install_manifests[
"_test_files"].add_optional_exists(dest)
except ValueError:
if not obj.dupe_manifest:
raise
m = self._test_manifests.setdefault(obj.flavor, (obj.install_prefix, set()))
m[1].add(obj.manifest_obj_relpath)
try:
from reftest
import ReftestManifest
if isinstance(obj.manifest, ReftestManifest):
# Mark included files as part of the build backend so changes
# result in re-config.
self.backend_input_files |= obj.manifest.manifests
except ImportError:
# Ignore errors caused by the reftest module not being present.
# This can happen when building SpiderMonkey standalone, for example.
pass
def _process_local_include(self, local_include, backend_file):
d, path = self._pretty_path_parts(local_include, backend_file)
if isinstance(local_include, ObjDirPath)
and not d:
# path doesn't start with a slash in this case
d =
"$(CURDIR)/"
elif d ==
"$(DEPTH)":
d =
"$(topobjdir)"
quoted_path = shell_quote(path)
if path
else path
if quoted_path != path:
path = quoted_path[0] + d + quoted_path[1:]
else:
path = d + path
backend_file.write(
"LOCAL_INCLUDES += -I%s\n" % path)
def _process_per_source_flag(self, per_source_flag, backend_file):
for flag
in per_source_flag.flags:
backend_file.write(
"%s_FLAGS += %s\n" % (mozpath.basename(per_source_flag.file_name), flag)
)
def _process_computed_flags(self, computed_flags, backend_file):
for var, flags
in computed_flags.get_flags():
backend_file.write(
"COMPUTED_%s += %s\n"
% (var,
" ".join(make_quote(shell_quote(f))
for f
in flags))
)
def _process_non_default_target(self, libdef, target_name, backend_file):
backend_file.write(
"%s:: %s\n" % (libdef.output_category, target_name))
backend_file.write(
"MOZBUILD_NON_DEFAULT_TARGETS += %s\n" % target_name)
def _process_shared_library(self, libdef, backend_file):
backend_file.write_once(
"LIBRARY_NAME := %s\n" % libdef.basename)
backend_file.write(
"FORCE_SHARED_LIB := 1\n")
backend_file.write(
"IMPORT_LIBRARY := %s\n"
% self._pretty_path(libdef.import_path, backend_file)
)
shared_lib = self._pretty_path(libdef.output_path, backend_file)
backend_file.write(
"SHARED_LIBRARY := %s\n" % shared_lib)
if libdef.soname:
backend_file.write(
"DSO_SONAME := %s\n" % libdef.soname)
if libdef.symbols_file:
if libdef.symbols_link_arg:
backend_file.write(
"EXTRA_DSO_LDOPTS += %s\n" % libdef.symbols_link_arg)
if not libdef.cxx_link:
backend_file.write(
"LIB_IS_C_ONLY := 1\n")
if libdef.output_category:
self._process_non_default_target(libdef, shared_lib, backend_file)
def _process_static_library(self, libdef, backend_file):
backend_file.write_once(
"LIBRARY_NAME := %s\n" % libdef.basename)
backend_file.write(
"FORCE_STATIC_LIB := 1\n")
backend_file.write(
"REAL_LIBRARY := %s\n" % libdef.lib_name)
if libdef.no_expand_lib:
backend_file.write(
"NO_EXPAND_LIBS := 1\n")
def _process_sandboxed_wasm_library(self, libdef, backend_file):
backend_file.write(
"WASM_ARCHIVE := %s\n" % libdef.basename)
def _process_rust_library(self, libdef, backend_file):
rust_lib = self._pretty_path(libdef.import_path, backend_file)
backend_file.write_once(
"%s := %s\n" % (libdef.LIB_FILE_VAR, rust_lib))
backend_file.write_once(
"CARGO_FILE := $(srcdir)/Cargo.toml\n")
# Need to normalize the path so Cargo sees the same paths from all
# possible invocations of Cargo with this CARGO_TARGET_DIR. Otherwise,
# Cargo's dependency calculations don't work as we expect and we wind
# up recompiling lots of things.
target_dir = mozpath.normpath(backend_file.environment.topobjdir)
backend_file.write(
"CARGO_TARGET_DIR := %s\n" % target_dir)
if libdef.features:
backend_file.write(
"%s := %s\n" % (libdef.FEATURES_VAR,
" ".join(libdef.features))
)
if libdef.output_category:
self._process_non_default_target(libdef, rust_lib, backend_file)
def _process_host_shared_library(self, libdef, backend_file):
backend_file.write(
"HOST_SHARED_LIBRARY = %s\n" % libdef.lib_name)
def _build_target_for_obj(self, obj):
if hasattr(obj,
"output_category")
and obj.output_category:
target_name = obj.output_category
elif isinstance(obj, BaseRustLibrary):
target_name = f
"{obj.KIND}-objects"
else:
target_name = obj.KIND
if target_name ==
"wasm":
target_name =
"target"
return "%s/%s" % (
mozpath.relpath(obj.objdir, self.environment.topobjdir),
target_name,
)
def _process_linked_libraries(self, obj, backend_file):
objs, shared_libs, os_libs, static_libs = self._expand_libs(obj)
obj_target = obj.name
if isinstance(obj, (Program, SharedLibrary)):
obj_target = self._pretty_path(obj.output_path, backend_file)
objs_ref =
" \\\n ".join(os.path.relpath(o, obj.objdir)
for o
in objs)
if isinstance(obj, (SimpleProgram, Program, SharedLibrary)):
# Don't bother with a list file if we're only linking objects built
# in this directory.
if objs == obj.objs:
backend_file.write_once(
"%s_OBJS := %s\n" % (obj.name, objs_ref))
else:
list_file_path =
"%s.list" % obj.name.replace(
".",
"_")
list_file_ref = self._make_list_file(
obj.KIND, obj.objdir, objs, list_file_path
)
backend_file.write_once(
"%s_OBJS := %s\n" % (obj.name, list_file_ref))
backend_file.write_once(
"%s: %s\n" % (obj_target, list_file_path))
backend_file.write(
"%s: %s\n" % (obj_target, objs_ref))
elif (
not isinstance(
obj,
(
HostLibrary,
HostRustProgram,
RustProgram,
StaticLibrary,
SandboxedWasmLibrary,
),
)
or isinstance(obj, (StaticLibrary, SandboxedWasmLibrary))
and obj.no_expand_lib
):
response_file_path =
"%s.list" % obj.name.replace(
".",
"_")
response_file_ref = self._make_ar_response_file(
obj.objdir, objs, response_file_path
)
if response_file_ref:
backend_file.write_once(
"%s_OBJS := %s\n" % (obj.name, response_file_ref)
)
backend_file.write_once(
"%s: %s\n" % (obj_target, response_file_path))
else:
backend_file.write_once(
"%s_OBJS := %s\n" % (obj.name, objs_ref))
backend_file.write(
"%s: %s\n" % (obj_target, objs_ref))
if getattr(obj,
"symbols_file",
None):
backend_file.write_once(
"%s: %s\n" % (obj_target, obj.symbols_file))
for lib
in shared_libs:
assert obj.KIND !=
"host" and obj.KIND !=
"wasm"
backend_file.write_once(
"SHARED_LIBS += %s\n" % self._pretty_path(lib.import_path, backend_file)
)
# We have to link any Rust libraries after all intermediate static
# libraries have been listed to ensure that the Rust libraries are
# searched after the C/C++ objects that might reference Rust symbols.
var =
"HOST_LIBS" if obj.KIND ==
"host" else "STATIC_LIBS"
for lib
in chain(
(l
for l
in static_libs
if not isinstance(l, BaseRustLibrary)),
(l
for l
in static_libs
if isinstance(l, BaseRustLibrary)),
):
backend_file.write_once(
"%s += %s\n" % (var, self._pretty_path(lib.import_path, backend_file))
)
for lib
in os_libs:
if obj.KIND ==
"target":
backend_file.write_once(
"OS_LIBS += %s\n" % lib)
elif obj.KIND ==
"host":
backend_file.write_once(
"HOST_EXTRA_LIBS += %s\n" % lib)
if not isinstance(obj, (StaticLibrary, HostLibrary))
or obj.no_expand_lib:
# This will create the node even if there aren't any linked libraries.
build_target = self._build_target_for_obj(obj)
self._compile_graph[build_target]
# Make the build target depend on all the target/host-objects that
# recursively are linked into it.
def recurse_libraries(obj):
for lib
in obj.linked_libraries:
if (
isinstance(lib, (StaticLibrary, HostLibrary))
and not lib.no_expand_lib
):
recurse_libraries(lib)
elif not isinstance(lib, ExternalLibrary):
self._compile_graph[build_target].add(
self._build_target_for_obj(lib)
)
relobjdir = mozpath.relpath(obj.objdir, self.environment.topobjdir)
objects_target = mozpath.join(relobjdir,
"%s-objects" % obj.KIND)
if objects_target
in self._compile_graph:
self._compile_graph[build_target].add(objects_target)
recurse_libraries(obj)
# Process library-based defines
self._process_defines(obj.lib_defines, backend_file)
def _add_install_target(self, backend_file, install_target, tier, dest, files):
self._no_skip[tier].add(backend_file.relobjdir)
for f
in files:
backend_file.write(
"%s_FILES += %s\n" % (install_target, f))
backend_file.write(
"%s_DEST := %s\n" % (install_target, dest))
backend_file.write(
"%s_TARGET := %s\n" % (install_target, tier))
backend_file.write(
"INSTALL_TARGETS += %s\n" % install_target)
def _process_final_target_files(self, obj, files, backend_file):
target = obj.install_target
path = mozpath.basedir(
target, (
"dist/bin",
"dist/xpi-stage",
"_tests",
"dist/include")
)
if not path:
raise Exception(
"Cannot install to " + target)
# Exports are not interesting to artifact builds.
if path ==
"dist/include" and self.environment.is_artifact_build:
return
manifest = path.replace(
"/",
"_")
install_manifest = self._install_manifests[manifest]
reltarget = mozpath.relpath(target, path)
for path, files
in files.walk():
target_var = (mozpath.join(target, path)
if path
else target).replace(
"/",
"_"
)
# We don't necessarily want to combine these, because non-wildcard
# absolute files tend to be libraries, and we don't want to mix
# those in with objdir headers that will be installed during export.
# (See bug 1642882 for details.)
objdir_files = []
absolute_files = []
for f
in files:
assert not isinstance(f, RenamedSourcePath)
dest_dir = mozpath.join(reltarget, path)
dest_file = mozpath.join(dest_dir, f.target_basename)
if not isinstance(f, ObjDirPath):
if "*" in f:
if f.startswith(
"/")
or isinstance(f, AbsolutePath):
basepath, wild = os.path.split(f.full_path)
if "*" in basepath:
raise Exception(
"Wildcards are only supported in the filename part"
" of srcdir-relative or absolute paths."
)
install_manifest.add_pattern_link(basepath, wild, dest_dir)
else:
install_manifest.add_pattern_link(f.srcdir, f, dest_dir)
elif isinstance(f, AbsolutePath):
if not f.full_path.lower().endswith((
".dll",
".pdb",
".so")):
raise Exception(
"Absolute paths installed to FINAL_TARGET_FILES must"
" only be shared libraries or associated debug"
" information."
)
--> --------------------
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--> --------------------
