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# 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/.
r"""Data structures representing Mozilla's source tree.
The frontend files are parsed into static data structures. These data
structures are defined in this module.
All data structures of interest are children of the TreeMetadata class.
Logic for populating these data structures is not defined in this class.
Instead, what we have here are dumb container classes. The emitter module
contains the code for converting executed mozbuild files into these data
structures.
"""
from collections import OrderedDict, defaultdict
import mozpack.path as mozpath
import six
from mozpack.chrome.manifest import ManifestEntry
from mozbuild.frontend.context import ObjDirPath, SourcePath
from ..testing import all_test_flavors
from ..util import group_unified_files
from .context import FinalTargetValue
class TreeMetadata(object):
"""Base class for all data being captured."""
__slots__ = ()
def to_dict(self):
return {k.lower(): getattr(self, k) for k in self.DICT_ATTRS}
class ContextDerived(TreeMetadata):
"""Build object derived from a single Context instance.
It holds fields common to all context derived classes. This class is likely
never instantiated directly but is instead derived from.
"""
__slots__ = (
"context_main_path",
"context_all_paths",
"topsrcdir",
"topobjdir",
"relsrcdir",
"srcdir",
"objdir",
"config",
"_context",
)
def __init__(self, context):
TreeMetadata.__init__(self)
# Capture the files that were evaluated to fill this context.
self.context_main_path = context.main_path
self.context_all_paths = context.all_paths
# Basic directory state.
self.topsrcdir = context.config.topsrcdir
self.topobjdir = context.config.topobjdir
self.relsrcdir = context.relsrcdir
self.srcdir = context.srcdir
self.objdir = context.objdir
self.config = context.config
self._context = context
@property
def install_target(self):
return self._context["FINAL_TARGET"]
@property
def installed(self):
return self._context["DIST_INSTALL"] is not False
@property
def defines(self):
defines = self._context["DEFINES"]
return Defines(self._context, defines) if defines else None
@property
def relobjdir(self):
return mozpath.relpath(self.objdir, self.topobjdir)
class HostMixin(object):
@property
def defines(self):
defines = self._context["HOST_DEFINES"]
return HostDefines(self._context, defines) if defines else None
class DirectoryTraversal(ContextDerived):
"""Describes how directory traversal for building should work.
This build object is likely only of interest to the recursive make backend.
Other build backends should (ideally) not attempt to mimic the behavior of
the recursive make backend. The only reason this exists is to support the
existing recursive make backend while the transition to mozbuild frontend
files is complete and we move to a more optimal build backend.
Fields in this class correspond to similarly named variables in the
frontend files.
"""
__slots__ = ("dirs",)
def __init__(self, context):
ContextDerived.__init__(self, context)
self.dirs = []
class BaseConfigSubstitution(ContextDerived):
"""Base class describing autogenerated files as part of config.status."""
__slots__ = ("input_path", "output_path", "relpath")
def __init__(self, context):
ContextDerived.__init__(self, context)
self.input_path = None
self.output_path = None
self.relpath = None
class ConfigFileSubstitution(BaseConfigSubstitution):
"""Describes a config file that will be generated using substitutions."""
class VariablePassthru(ContextDerived):
"""A dict of variables to pass through to backend.mk unaltered.
The purpose of this object is to facilitate rapid transitioning of
variables from Makefile.in to moz.build. In the ideal world, this class
does not exist and every variable has a richer class representing it.
As long as we rely on this class, we lose the ability to have flexibility
in our build backends since we will continue to be tied to our rules.mk.
"""
__slots__ = ("variables",)
def __init__(self, context):
ContextDerived.__init__(self, context)
self.variables = {}
class ComputedFlags(ContextDerived):
"""Aggregate flags for consumption by various backends."""
__slots__ = ("flags",)
def __init__(self, context, reader_flags):
ContextDerived.__init__(self, context)
self.flags = reader_flags
def resolve_flags(self, key, value):
# Bypass checks done by CompileFlags that would keep us from
# setting a value here.
dict.__setitem__(self.flags, key, value)
def get_flags(self):
flags = defaultdict(list)
for key, _, dest_vars in self.flags.flag_variables:
value = self.flags.get(key)
if value:
for dest_var in dest_vars:
flags[dest_var].extend(value)
return sorted(flags.items())
class XPIDLModule(ContextDerived):
"""Describes an XPIDL module to be compiled."""
__slots__ = ("name", "idl_files")
def __init__(self, context, name, idl_files):
ContextDerived.__init__(self, context)
assert all(isinstance(idl, SourcePath) for idl in idl_files)
self.name = name
self.idl_files = idl_files
class BaseDefines(ContextDerived):
"""Context derived container object for DEFINES/HOST_DEFINES,
which are OrderedDicts.
"""
__slots__ = ("defines",)
def __init__(self, context, defines):
ContextDerived.__init__(self, context)
self.defines = defines
def get_defines(self):
for define, value in six.iteritems(self.defines):
if value is True:
yield ("-D%s" % define)
elif value is False:
yield ("-U%s" % define)
else:
yield ("-D%s=%s" % (define, value))
def update(self, more_defines):
if isinstance(more_defines, Defines):
self.defines.update(more_defines.defines)
else:
self.defines.update(more_defines)
class Defines(BaseDefines):
pass
class HostDefines(BaseDefines):
pass
class WasmDefines(BaseDefines):
pass
class WebIDLCollection(ContextDerived):
"""Collects WebIDL info referenced during the build."""
def __init__(self, context):
ContextDerived.__init__(self, context)
self.sources = set()
self.generated_sources = set()
self.generated_events_sources = set()
self.preprocessed_sources = set()
self.test_sources = set()
self.preprocessed_test_sources = set()
self.example_interfaces = set()
def all_regular_sources(self):
return (
self.sources
| self.generated_sources
| self.generated_events_sources
| self.preprocessed_sources
)
def all_regular_basenames(self):
return [mozpath.basename(source) for source in self.all_regular_sources()]
def all_regular_stems(self):
return [mozpath.splitext(b)[0] for b in self.all_regular_basenames()]
def all_regular_bindinggen_stems(self):
for stem in self.all_regular_stems():
yield "%sBinding" % stem
for source in self.generated_events_sources:
yield mozpath.splitext(mozpath.basename(source))[0]
def all_regular_cpp_basenames(self):
for stem in self.all_regular_bindinggen_stems():
yield "%s.cpp" % stem
def all_test_sources(self):
return self.test_sources | self.preprocessed_test_sources
def all_test_basenames(self):
return [mozpath.basename(source) for source in self.all_test_sources()]
def all_test_stems(self):
return [mozpath.splitext(b)[0] for b in self.all_test_basenames()]
def all_test_cpp_basenames(self):
return sorted("%sBinding.cpp" % s for s in self.all_test_stems())
def all_static_sources(self):
return self.sources | self.generated_events_sources | self.test_sources
def all_non_static_sources(self):
return self.generated_sources | self.all_preprocessed_sources()
def all_non_static_basenames(self):
return [mozpath.basename(s) for s in self.all_non_static_sources()]
def all_preprocessed_sources(self):
return self.preprocessed_sources | self.preprocessed_test_sources
def all_sources(self):
return set(self.all_regular_sources()) | set(self.all_test_sources())
def all_basenames(self):
return [mozpath.basename(source) for source in self.all_sources()]
def all_stems(self):
return [mozpath.splitext(b)[0] for b in self.all_basenames()]
def generated_events_basenames(self):
return [mozpath.basename(s) for s in self.generated_events_sources]
def generated_events_stems(self):
return [mozpath.splitext(b)[0] for b in self.generated_events_basenames()]
@property
def unified_source_mapping(self):
# Bindings are compiled in unified mode to speed up compilation and
# to reduce linker memory size. Note that test bindings are separated
# from regular ones so tests bindings aren't shipped.
return list(
group_unified_files(
sorted(self.all_regular_cpp_basenames()),
unified_prefix="UnifiedBindings",
unified_suffix="cpp",
files_per_unified_file=32,
)
)
def all_source_files(self):
from mozwebidlcodegen import WebIDLCodegenManager
return sorted(list(WebIDLCodegenManager.GLOBAL_DEFINE_FILES)) + sorted(
set(p for p, _ in self.unified_source_mapping)
)
class IPDLCollection(ContextDerived):
"""Collects IPDL files during the build."""
def __init__(self, context):
ContextDerived.__init__(self, context)
self.sources = set()
self.preprocessed_sources = set()
def all_sources(self):
return self.sources | self.preprocessed_sources
def all_regular_sources(self):
return self.sources
def all_preprocessed_sources(self):
return self.preprocessed_sources
def all_source_files(self):
# Source files generated by IPDL are built as generated UnifiedSources
# from the context which included the IPDL file, rather than the context
# which builds the IPDLCollection, so we report no files here.
return []
class XPCOMComponentManifests(ContextDerived):
"""Collects XPCOM manifest files during the build."""
def __init__(self, context):
ContextDerived.__init__(self, context)
self.manifests = set()
def all_sources(self):
return self.manifests
def all_source_files(self):
return []
class LinkageWrongKindError(Exception):
"""Error thrown when trying to link objects of the wrong kind"""
class Linkable(ContextDerived):
"""Generic context derived container object for programs and libraries"""
__slots__ = (
"cxx_link",
"lib_defines",
"linked_libraries",
"linked_system_libs",
"sources",
)
def __init__(self, context):
ContextDerived.__init__(self, context)
self.cxx_link = False
self.linked_libraries = []
self.linked_system_libs = []
self.lib_defines = Defines(context, OrderedDict())
self.sources = defaultdict(list)
@property
def output_path(self):
if self.installed:
return ObjDirPath(
self._context, "!/" + mozpath.join(self.install_target, self.name)
)
else:
return ObjDirPath(self._context, "!" + self.name)
def link_library(self, obj):
assert isinstance(obj, BaseLibrary)
if obj.KIND != self.KIND:
raise LinkageWrongKindError("%s != %s" % (obj.KIND, self.KIND))
self.linked_libraries.append(obj)
if obj.cxx_link and not isinstance(obj, SharedLibrary):
self.cxx_link = True
obj.refs.append(self)
def link_system_library(self, lib):
# The '$' check is here as a special temporary rule, allowing the
# inherited use of make variables, most notably in TK_LIBS.
if not lib.startswith("$") and not lib.startswith("-"):
type_var = "HOST_CC_TYPE" if self.KIND == "host" else "CC_TYPE"
compiler_type = self.config.substs.get(type_var)
if compiler_type in ("gcc", "clang"):
lib = "-l%s" % lib
elif self.KIND == "host":
lib = "%s%s%s" % (
self.config.host_import_prefix,
lib,
self.config.host_import_suffix,
)
else:
lib = "%s%s%s" % (
self.config.import_prefix,
lib,
self.config.import_suffix,
)
self.linked_system_libs.append(lib)
def source_files(self):
all_sources = []
# This is ordered for reproducibility and consistently w/
# config/rules.mk
for suffix in (".c", ".S", ".cpp", ".m", ".mm", ".s"):
all_sources += self.sources.get(suffix, [])
return all_sources
def _get_objs(self, sources):
obj_prefix = ""
if self.KIND == "host":
obj_prefix = "host_"
return [
mozpath.join(
self.objdir,
"%s%s.%s"
% (
obj_prefix,
mozpath.splitext(mozpath.basename(f))[0],
self._obj_suffix(),
),
)
for f in sources
]
def _obj_suffix(self):
"""Can be overridden by a base class for custom behavior."""
return self.config.substs.get("OBJ_SUFFIX", "")
@property
def objs(self):
return self._get_objs(self.source_files())
class BaseProgram(Linkable):
"""Context derived container object for programs, which is a unicode
string.
This class handles automatically appending a binary suffix to the program
name.
If the suffix is not defined, the program name is unchanged.
Otherwise, if the program name ends with the given suffix, it is unchanged
Otherwise, the suffix is appended to the program name.
"""
__slots__ = ("program",)
DICT_ATTRS = {"install_target", "KIND", "program", "relobjdir"}
def __init__(self, context, program, is_unit_test=False):
Linkable.__init__(self, context)
bin_suffix = context.config.substs.get(self.SUFFIX_VAR, "")
if not program.endswith(bin_suffix):
program += bin_suffix
self.program = program
self.is_unit_test = is_unit_test
def __repr__(self):
return "<%s: %s/%s>" % (type(self).__name__, self.relobjdir, self.program)
@property
def name(self):
return self.program
class Program(BaseProgram):
"""Context derived container object for PROGRAM"""
SUFFIX_VAR = "BIN_SUFFIX"
KIND = "target"
class HostProgram(HostMixin, BaseProgram):
"""Context derived container object for HOST_PROGRAM"""
SUFFIX_VAR = "HOST_BIN_SUFFIX"
KIND = "host"
@property
def install_target(self):
return "dist/host/bin"
class SimpleProgram(BaseProgram):
"""Context derived container object for each program in SIMPLE_PROGRAMS"""
SUFFIX_VAR = "BIN_SUFFIX"
KIND = "target"
def source_files(self):
for srcs in self.sources.values():
for f in srcs:
if (
mozpath.basename(mozpath.splitext(f)[0])
== mozpath.splitext(self.program)[0]
):
return [f]
return []
class HostSimpleProgram(HostMixin, BaseProgram):
"""Context derived container object for each program in
HOST_SIMPLE_PROGRAMS"""
SUFFIX_VAR = "HOST_BIN_SUFFIX"
KIND = "host"
def source_files(self):
for srcs in self.sources.values():
for f in srcs:
if (
"host_%s" % mozpath.basename(mozpath.splitext(f)[0])
== mozpath.splitext(self.program)[0]
):
return [f]
return []
def cargo_output_directory(context, target_var):
# cargo creates several directories and places its build artifacts
# in those directories. The directory structure depends not only
# on the target, but also what sort of build we are doing.
rust_build_kind = "release"
if context.config.substs.get("MOZ_DEBUG_RUST"):
rust_build_kind = "debug"
return mozpath.join(context.config.substs[target_var], rust_build_kind)
# We pretend Rust programs are Linkable, despite Cargo handling all the details
# of linking things. This is used to declare in-tree dependencies.
class BaseRustProgram(Linkable):
__slots__ = (
"name",
"cargo_file",
"location",
"SUFFIX_VAR",
"KIND",
"TARGET_SUBST_VAR",
)
def __init__(self, context, name, cargo_file):
Linkable.__init__(self, context)
self.name = name
self.cargo_file = cargo_file
# Skip setting properties below which depend on cargo
# when we don't have a compile environment. The required
# config keys won't be available, but the instance variables
# that we don't set should never be accessed by the actual
# build in that case.
if not context.config.substs.get("COMPILE_ENVIRONMENT"):
return
cargo_dir = cargo_output_directory(context, self.TARGET_SUBST_VAR)
exe_file = "%s%s" % (name, context.config.substs.get(self.SUFFIX_VAR, ""))
self.location = mozpath.join(cargo_dir, exe_file)
class RustProgram(BaseRustProgram):
SUFFIX_VAR = "BIN_SUFFIX"
KIND = "target"
TARGET_SUBST_VAR = "RUST_TARGET"
class HostRustProgram(BaseRustProgram):
SUFFIX_VAR = "HOST_BIN_SUFFIX"
KIND = "host"
TARGET_SUBST_VAR = "RUST_HOST_TARGET"
class RustTests(ContextDerived):
__slots__ = ("names", "features", "output_category")
def __init__(self, context, names, features):
ContextDerived.__init__(self, context)
self.names = names
self.features = features
self.output_category = "rusttests"
class BaseLibrary(Linkable):
"""Generic context derived container object for libraries."""
__slots__ = ("basename", "lib_name", "import_name", "refs")
def __init__(self, context, basename):
Linkable.__init__(self, context)
self.basename = self.lib_name = basename
if self.lib_name:
self.lib_name = "%s%s%s" % (
context.config.lib_prefix,
self.lib_name,
context.config.lib_suffix,
)
self.import_name = self.lib_name
self.refs = []
def __repr__(self):
return "<%s: %s/%s>" % (type(self).__name__, self.relobjdir, self.lib_name)
@property
def name(self):
return self.lib_name
@property
def import_path(self):
return ObjDirPath(self._context, "!" + self.import_name)
class Library(BaseLibrary):
"""Context derived container object for a library"""
KIND = "target"
__slots__ = ()
def __init__(self, context, basename, real_name=None):
BaseLibrary.__init__(self, context, real_name or basename)
self.basename = basename
class StaticLibrary(Library):
"""Context derived container object for a static library"""
__slots__ = ("link_into", "no_expand_lib")
def __init__(
self, context, basename, real_name=None, link_into=None, no_expand_lib=False
):
Library.__init__(self, context, basename, real_name)
self.link_into = link_into
self.no_expand_lib = no_expand_lib
class SandboxedWasmLibrary(Library):
"""Context derived container object for a static sandboxed wasm library"""
# This is a real static library; make it known to the build system.
no_expand_lib = True
KIND = "wasm"
def __init__(self, context, basename, real_name=None):
Library.__init__(self, context, basename, real_name)
# Wasm libraries are not going to compile unless we have a compiler
# for them.
assert context.config.substs["WASM_CC"] and context.config.substs["WASM_CXX"]
self.lib_name = "%s%s%s" % (
context.config.dll_prefix,
real_name or basename,
context.config.dll_suffix,
)
def _obj_suffix(self):
"""Can be overridden by a base class for custom behavior."""
return self.config.substs.get("WASM_OBJ_SUFFIX", "")
class BaseRustLibrary(object):
slots = (
"cargo_file",
"crate_type",
"dependencies",
"features",
"output_category",
"is_gkrust",
)
def init(
self,
context,
basename,
cargo_file,
crate_type,
dependencies,
features,
is_gkrust,
):
self.is_gkrust = is_gkrust
self.cargo_file = cargo_file
self.crate_type = crate_type
# We need to adjust our naming here because cargo replaces '-' in
# package names defined in Cargo.toml with underscores in actual
# filenames. But we need to keep the basename consistent because
# many other things in the build system depend on that.
assert self.crate_type == "staticlib"
self.lib_name = "%s%s%s" % (
context.config.lib_prefix,
basename.replace("-", "_"),
context.config.lib_suffix,
)
self.dependencies = dependencies
self.features = features
self.output_category = context.get("RUST_LIBRARY_OUTPUT_CATEGORY")
# Skip setting properties below which depend on cargo
# when we don't have a compile environment. The required
# config keys won't be available, but the instance variables
# that we don't set should never be accessed by the actual
# build in that case.
if not context.config.substs.get("COMPILE_ENVIRONMENT"):
return
self.import_name = self.lib_name
@property
def import_path(self):
return ObjDirPath(
self._context,
"!/"
+ mozpath.join(
cargo_output_directory(self._context, self.TARGET_SUBST_VAR),
self.import_name,
),
)
class RustLibrary(BaseRustLibrary, StaticLibrary):
"""Context derived container object for a rust static library"""
KIND = "target"
TARGET_SUBST_VAR = "RUST_TARGET"
FEATURES_VAR = "RUST_LIBRARY_FEATURES"
LIB_FILE_VAR = "RUST_LIBRARY_FILE"
__slots__ = BaseRustLibrary.slots
def __init__(
self,
context,
basename,
cargo_file,
crate_type,
dependencies,
features,
is_gkrust=False,
link_into=None,
):
StaticLibrary.__init__(
self,
context,
basename,
link_into=link_into,
# A rust library is a real static library ; make
# it known to the build system.
no_expand_lib=True,
)
BaseRustLibrary.init(
self,
context,
basename,
cargo_file,
crate_type,
dependencies,
features,
is_gkrust,
)
class SharedLibrary(Library):
"""Context derived container object for a shared library"""
__slots__ = (
"soname",
"variant",
"symbols_file",
"output_category",
"symbols_link_arg",
)
DICT_ATTRS = {
"basename",
"import_name",
"install_target",
"lib_name",
"relobjdir",
"soname",
}
FRAMEWORK = 1
MAX_VARIANT = 2
def __init__(
self,
context,
basename,
real_name=None,
soname=None,
variant=None,
symbols_file=False,
):
assert variant in range(1, self.MAX_VARIANT) or variant is None
Library.__init__(self, context, basename, real_name)
self.variant = variant
self.lib_name = real_name or basename
self.output_category = context.get("SHARED_LIBRARY_OUTPUT_CATEGORY")
assert self.lib_name
if variant == self.FRAMEWORK:
self.import_name = self.lib_name
else:
self.import_name = "%s%s%s" % (
context.config.import_prefix,
self.lib_name,
context.config.import_suffix,
)
self.lib_name = "%s%s%s" % (
context.config.dll_prefix,
self.lib_name,
context.config.dll_suffix,
)
if soname:
self.soname = "%s%s%s" % (
context.config.dll_prefix,
soname,
context.config.dll_suffix,
)
else:
self.soname = self.lib_name
if symbols_file is False:
# No symbols file.
self.symbols_file = None
elif symbols_file is True:
# Symbols file with default name.
if context.config.substs["OS_TARGET"] == "WINNT":
self.symbols_file = "%s.def" % self.lib_name
else:
self.symbols_file = "%s.symbols" % self.lib_name
else:
# Explicitly provided name.
self.symbols_file = symbols_file
if self.symbols_file:
os_target = context.config.substs["OS_TARGET"]
if os_target == "Darwin":
self.symbols_link_arg = (
"-Wl,-exported_symbols_list," + self.symbols_file
)
elif os_target == "SunOS":
self.symbols_link_arg = (
"-z gnu-version-script-compat -Wl,--version-script,"
+ self.symbols_file
)
elif os_target == "WINNT":
if context.config.substs.get("CC_TYPE") == "clang-cl":
self.symbols_link_arg = "-DEF:" + self.symbols_file
else:
self.symbols_link_arg = self.symbols_file
elif context.config.substs.get("GCC_USE_GNU_LD"):
self.symbols_link_arg = "-Wl,--version-script," + self.symbols_file
@property
def import_path(self):
if self.config.substs.get("OS_ARCH") == "WINNT":
# We build import libs on windows in a library's objdir
# to avoid cluttering up dist/bin.
return ObjDirPath(self._context, "!" + self.import_name)
assert self.import_name == self.name
return self.output_path
class HostSharedLibrary(HostMixin, Library):
"""Context derived container object for a host shared library.
This class supports less things than SharedLibrary does for target shared
libraries. Currently has enough build system support to build the clang
plugin."""
KIND = "host"
def __init__(self, context, basename):
Library.__init__(self, context, basename)
self.lib_name = "%s%s%s" % (
context.config.host_dll_prefix,
self.basename,
context.config.host_dll_suffix,
)
class ExternalLibrary(object):
"""Empty mixin for libraries built by an external build system."""
class ExternalStaticLibrary(StaticLibrary, ExternalLibrary):
"""Context derived container for static libraries built by an external
build system."""
class ExternalSharedLibrary(SharedLibrary, ExternalLibrary):
"""Context derived container for shared libraries built by an external
build system."""
class HostLibrary(HostMixin, BaseLibrary):
"""Context derived container object for a host library"""
KIND = "host"
no_expand_lib = False
class HostRustLibrary(BaseRustLibrary, HostLibrary):
"""Context derived container object for a host rust library"""
KIND = "host"
TARGET_SUBST_VAR = "RUST_HOST_TARGET"
FEATURES_VAR = "HOST_RUST_LIBRARY_FEATURES"
LIB_FILE_VAR = "HOST_RUST_LIBRARY_FILE"
__slots__ = BaseRustLibrary.slots
no_expand_lib = True
def __init__(
self,
context,
basename,
cargo_file,
crate_type,
dependencies,
features,
is_gkrust,
):
HostLibrary.__init__(self, context, basename)
BaseRustLibrary.init(
self,
context,
basename,
cargo_file,
crate_type,
dependencies,
features,
is_gkrust,
)
class TestManifest(ContextDerived):
"""Represents a manifest file containing information about tests."""
__slots__ = (
# The type of test manifest this is.
"flavor",
# Maps source filename to destination filename. The destination
# path is relative from the tests root directory. Values are 2-tuples
# of (destpath, is_test_file) where the 2nd item is True if this
# item represents a test file (versus a support file).
"installs",
# A list of pattern matching installs to perform. Entries are
# (base, pattern, dest).
"pattern_installs",
# Where all files for this manifest flavor are installed in the unified
# test package directory.
"install_prefix",
# Set of files provided by an external mechanism.
"external_installs",
# Set of files required by multiple test directories, whose installation
# will be resolved when running tests.
"deferred_installs",
# The full path of this manifest file.
"path",
# The directory where this manifest is defined.
"directory",
# The parsed manifestparser.TestManifest instance.
"manifest",
# List of tests. Each element is a dict of metadata.
"tests",
# The relative path of the parsed manifest within the srcdir.
"manifest_relpath",
# The relative path of the parsed manifest within the objdir.
"manifest_obj_relpath",
# The relative paths to all source files for this manifest.
"source_relpaths",
# If this manifest is a duplicate of another one, this is the
# manifestparser.TestManifest of the other one.
"dupe_manifest",
)
def __init__(
self,
context,
path,
manifest,
flavor=None,
install_prefix=None,
relpath=None,
sources=(),
dupe_manifest=False,
):
ContextDerived.__init__(self, context)
assert flavor in all_test_flavors()
self.path = path
self.directory = mozpath.dirname(path)
self.manifest = manifest
self.flavor = flavor
self.install_prefix = install_prefix
self.manifest_relpath = relpath
self.manifest_obj_relpath = relpath
self.source_relpaths = sources
self.dupe_manifest = dupe_manifest
self.installs = {}
self.pattern_installs = []
self.tests = []
self.external_installs = set()
self.deferred_installs = set()
class LocalInclude(ContextDerived):
"""Describes an individual local include path."""
__slots__ = ("path",)
def __init__(self, context, path):
ContextDerived.__init__(self, context)
self.path = path
class PerSourceFlag(ContextDerived):
"""Describes compiler flags specified for individual source files."""
__slots__ = ("file_name", "flags")
def __init__(self, context, file_name, flags):
ContextDerived.__init__(self, context)
self.file_name = file_name
self.flags = flags
class JARManifest(ContextDerived):
"""Describes an individual JAR manifest file and how to process it.
This class isn't very useful for optimizing backends yet because we don't
capture defines. We can't capture defines safely until all of them are
defined in moz.build and not Makefile.in files.
"""
__slots__ = ("path",)
def __init__(self, context, path):
ContextDerived.__init__(self, context)
self.path = path
class BaseSources(ContextDerived):
"""Base class for files to be compiled during the build."""
__slots__ = ("files", "static_files", "generated_files", "canonical_suffix")
def __init__(self, context, static_files, generated_files, canonical_suffix):
ContextDerived.__init__(self, context)
# Sorted so output is consistent and we don't bump mtimes, but always
# order generated files after static ones to be consistent across build
# environments, which may have different objdir paths relative to
# topsrcdir.
self.static_files = sorted(static_files)
self.generated_files = sorted(generated_files)
self.files = self.static_files + self.generated_files
self.canonical_suffix = canonical_suffix
class Sources(BaseSources):
"""Represents files to be compiled during the build."""
def __init__(self, context, static_files, generated_files, canonical_suffix):
BaseSources.__init__(
self, context, static_files, generated_files, canonical_suffix
)
class PgoGenerateOnlySources(BaseSources):
"""Represents files to be compiled during the build.
These files are only used during the PGO generation phase."""
def __init__(self, context, files):
BaseSources.__init__(self, context, files, [], ".cpp")
class HostSources(HostMixin, BaseSources):
"""Represents files to be compiled for the host during the build."""
def __init__(self, context, static_files, generated_files, canonical_suffix):
BaseSources.__init__(
self, context, static_files, generated_files, canonical_suffix
)
class WasmSources(BaseSources):
"""Represents files to be compiled with the wasm compiler during the build."""
def __init__(self, context, static_files, generated_files, canonical_suffix):
BaseSources.__init__(
self, context, static_files, generated_files, canonical_suffix
)
class UnifiedSources(BaseSources):
"""Represents files to be compiled in a unified fashion during the build."""
__slots__ = ("have_unified_mapping", "unified_source_mapping")
def __init__(self, context, static_files, generated_files, canonical_suffix):
BaseSources.__init__(
self, context, static_files, generated_files, canonical_suffix
)
unified_build = context.config.substs.get("ENABLE_UNIFIED_BUILD", False)
files_per_unified_file = (
context.get("FILES_PER_UNIFIED_FILE", 16) if unified_build else 1
)
self.have_unified_mapping = files_per_unified_file > 1
if self.have_unified_mapping:
# On Windows, path names have a maximum length of 255 characters,
# so avoid creating extremely long path names.
unified_prefix = context.relsrcdir
if len(unified_prefix) > 20:
unified_prefix = unified_prefix[-20:].split("/", 1)[-1]
unified_prefix = unified_prefix.replace("/", "_")
suffix = self.canonical_suffix[1:]
unified_prefix = "Unified_%s_%s" % (suffix, unified_prefix)
self.unified_source_mapping = list(
group_unified_files(
# NOTE: self.files is already (partially) sorted, and we
# intentionally do not re-sort it here to avoid a dependency
# on the build environment's objdir path.
self.files,
unified_prefix=unified_prefix,
unified_suffix=suffix,
files_per_unified_file=files_per_unified_file,
)
)
class InstallationTarget(ContextDerived):
"""Describes the rules that affect where files get installed to."""
__slots__ = ("xpiname", "subdir", "target", "enabled")
def __init__(self, context):
ContextDerived.__init__(self, context)
self.xpiname = context.get("XPI_NAME", "")
self.subdir = context.get("DIST_SUBDIR", "")
self.target = context["FINAL_TARGET"]
self.enabled = context["DIST_INSTALL"] is not False
def is_custom(self):
"""Returns whether or not the target is not derived from the default
given xpiname and subdir."""
return (
FinalTargetValue(dict(XPI_NAME=self.xpiname, DIST_SUBDIR=self.subdir))
== self.target
)
class FinalTargetFiles(ContextDerived):
"""Sandbox container object for FINAL_TARGET_FILES, which is a
HierarchicalStringList.
We need an object derived from ContextDerived for use in the backend, so
this object fills that role. It just has a reference to the underlying
HierarchicalStringList, which is created when parsing FINAL_TARGET_FILES.
"""
__slots__ = ("files",)
def __init__(self, sandbox, files):
ContextDerived.__init__(self, sandbox)
self.files = files
class FinalTargetPreprocessedFiles(ContextDerived):
"""Sandbox container object for FINAL_TARGET_PP_FILES, which is a
HierarchicalStringList.
We need an object derived from ContextDerived for use in the backend, so
this object fills that role. It just has a reference to the underlying
HierarchicalStringList, which is created when parsing
FINAL_TARGET_PP_FILES.
"""
__slots__ = ("files",)
def __init__(self, sandbox, files):
ContextDerived.__init__(self, sandbox)
self.files = files
class LocalizedFiles(FinalTargetFiles):
"""Sandbox container object for LOCALIZED_FILES, which is a
HierarchicalStringList.
"""
pass
class LocalizedPreprocessedFiles(FinalTargetPreprocessedFiles):
"""Sandbox container object for LOCALIZED_PP_FILES, which is a
HierarchicalStringList.
"""
pass
class ObjdirFiles(FinalTargetFiles):
"""Sandbox container object for OBJDIR_FILES, which is a
HierarchicalStringList.
"""
@property
def install_target(self):
return ""
class ObjdirPreprocessedFiles(FinalTargetPreprocessedFiles):
"""Sandbox container object for OBJDIR_PP_FILES, which is a
HierarchicalStringList.
"""
@property
def install_target(self):
return ""
class TestHarnessFiles(FinalTargetFiles):
"""Sandbox container object for TEST_HARNESS_FILES,
which is a HierarchicalStringList.
"""
@property
def install_target(self):
return "_tests"
class Exports(FinalTargetFiles):
"""Context derived container object for EXPORTS, which is a
HierarchicalStringList.
We need an object derived from ContextDerived for use in the backend, so
this object fills that role. It just has a reference to the underlying
HierarchicalStringList, which is created when parsing EXPORTS.
"""
@property
def install_target(self):
return "dist/include"
class GeneratedFile(ContextDerived):
"""Represents a generated file."""
__slots__ = (
"script",
"method",
"outputs",
"inputs",
"flags",
"required_before_export",
"required_before_compile",
"required_during_compile",
"localized",
"force",
"py2",
)
def __init__(
self,
context,
script,
method,
outputs,
inputs,
flags=(),
localized=False,
force=False,
py2=False,
required_during_compile=None,
):
ContextDerived.__init__(self, context)
self.script = script
self.method = method
self.outputs = outputs if isinstance(outputs, tuple) else (outputs,)
self.inputs = inputs
self.flags = flags
self.localized = localized
self.force = force
self.py2 = py2
if self.config.substs.get("MOZ_WIDGET_TOOLKIT") == "android":
# In GeckoView builds we process Jinja files during pre-export
self.required_before_export = [
f for f in self.inputs if f.endswith(".jinja")
]
else:
self.required_before_export = False
suffixes = [
".h",
".py",
".rs",
# We need to compile Java to generate JNI wrappers for native code
# compilation to consume.
"android_apks",
".profdata",
".webidl",
]
try:
lib_suffix = context.config.substs["LIB_SUFFIX"]
suffixes.append("." + lib_suffix)
except KeyError:
# Tests may not define LIB_SUFFIX
pass
suffixes = tuple(suffixes)
self.required_before_compile = [
f
for f in self.outputs
if f.endswith(suffixes) or "stl_wrappers/" in f or "xpidl.stub" in f
]
if required_during_compile is None:
self.required_during_compile = [
f
for f in self.outputs
if f.endswith(
(".asm", ".c", ".cpp", ".inc", ".m", ".mm", ".def", "symverscript")
)
]
else:
self.required_during_compile = required_during_compile
class ChromeManifestEntry(ContextDerived):
"""Represents a chrome.manifest entry."""
__slots__ = ("path", "entry")
def __init__(self, context, manifest_path, entry):
ContextDerived.__init__(self, context)
assert isinstance(entry, ManifestEntry)
self.path = mozpath.join(self.install_target, manifest_path)
# Ensure the entry is relative to the directory containing the
# manifest path.
entry = entry.rebase(mozpath.dirname(manifest_path))
# Then add the install_target to the entry base directory.
self.entry = entry.move(mozpath.dirname(self.path))