scripts/generate_cargo.py - fuchsia - Git at Google

 #!/usr/bin/env python3.8
 #
 # Copyright 2020 The Fuchsia Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 import os
 import argparse
 import hashlib
 import shutil
 import re
 import sys
 import json
 import datetime
 import functools
 import collections

 ROOT_PATH = os.path.abspath(__file__ + "/../..")
 sys.path += [os.path.join(ROOT_PATH, "third_party", "pytoml")]
 import pytoml as toml

 CARGO_PACKAGE_CONTENTS = """\
 # Copyright %(year)s The Fuchsia Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 # source GN: %(target)s"

 [package]
 name = "%(package_name)s"
 version = "%(version)s"
 license = "BSD-3-Clause"
 authors = ["rust-fuchsia@fuchsia.com"]
 description = "Rust crate for Fuchsia OS"
 repository = "https://fuchsia.googlesource.com"
 edition = "%(edition)s"

 %(bin_or_lib)s
 %(is_proc_macro)s
 name = "%(crate_name)s"
 path = "%(source_root)s"
 """

 CARGO_PACKAGE_NO_WORKSPACE = """\
 [workspace]
 # empty workspace table excludes this crate from thinking it should be in a workspace
 """

 CARGO_PACKAGE_DEP = """\
 [%(dep_type)s.%(crate_name)s]
 version = "%(version)s"
 path = "%(crate_path)s"

 """


 def strip_toolchain(target):
     return re.search("[^(]*", target)[0]


 def extract_toolchain(target):
     """ Return the toolchain part of the provided label, or None if it doesn't have one."""
     if "(" not in target:
         # target has no toolchain specified
         return None
     substr = target[target.find("(") + 1:]
     if not target.endswith(")"):
         raise ValueError("target %s missing closing `)`")
     return substr[:-1]  # remove closing `)`

 def version_from_toolchain(toolchain):
     """ Return a version to use to allow host and target crates to coexist. """
     version = "0.0.1"
     if toolchain != None and toolchain.startswith("//build/toolchain:host_"):
         version = "0.0.2"
     return version

 def lookup_gn_pkg_name(project, target, *, for_workspace):
     if for_workspace:
         return mangle_label(target)
     metadata = project.targets[target]
     return metadata["output_name"]


 def rebase_gn_path(root_path, location, directory=False):
     assert location[0:2] == "//"
     # remove the prefix //
     path = location[2:]
     target = os.path.dirname(path) if directory else path
     return os.path.join(root_path, target)


 def mangle_label(label):
     assert label[0:2] == "//"
     # remove the prefix //
     label = label[2:]
     result = []
     for c in label:
         if c == "-":
             result.append("--")
         elif c == "_":
             result.append("__")
         elif c == "/":
             result.append("_-_")
         elif c == ":":
             result.append("-_-")
         elif c == ".":
             result.append("_--")
         elif c == "(" or c == ")":
             result.append("-__")
         else:
             result.append(c)
     return "".join(result)


 class FeatureSpec(object):

     def __init__(self, features, default_features):
         self.features = features
         self.default_features = default_features


 class Project(object):

     def __init__(self, project_json):
         self.targets = project_json
         self.patches = None
         self.third_party_features = {}

     @functools.cached_property
     def rust_targets(self):
         return {
             target: meta
             for target, meta in self.targets.items()
             if "crate_root" in meta
         }

     @functools.cached_property
     def rust_targets_by_source_root(self):
         result = collections.defaultdict(list)
         for target, meta in self.rust_targets.items():
             source_root = meta["crate_root"]
             result[source_root].append(target)
         return dict(result)

     @functools.cached_property
     def reachable_targets(self):
         result = set(["//:default"])
         pending = ["//:default"]
         while pending:
             current = pending.pop()
             meta = self.targets[current]
             for dep_kind in ["deps", "public_deps", "data_deps"]:
                 for dep in meta.get(dep_kind, []):
                     if dep not in result:
                         result.add(dep)
                         pending.append(dep)

         return result

     def expand_source_set_or_group(self, target):
         """Returns a list of dependencies if the target is a source_set.

         Returns dependencies as a list of strings if the target is a
         source_set, or None otherwise.
         """
         meta = self.targets[target]
         if meta["type"] in ("source_set", "group"):
             return meta["deps"]

     def find_test_targets(self, source_root):
         overlapping_targets = self.rust_targets_by_source_root.get(
             source_root, [])
         return [
             t for t in overlapping_targets
             if "--test" in self.targets[t]["rustflags"]
         ]


 def write_toml_file(
         fout, metadata, project, target, lookup, root_path, root_build_dir,
         gn_cargo_dir, for_workspace, version):
     rust_crates_path = os.path.join(root_path, "third_party/rust_crates")

     editions = [
         flag.split("=")[1]
         for flag in metadata["rustflags"]
         if flag.startswith("--edition=")
     ]
     edition = editions[0] if editions else "2015"

     if metadata["type"] in ["rust_library", "rust_proc_macro",
                             "static_library"]:
         target_type = "[lib]"
     else:
         if "--test" in metadata["rustflags"]:
             target_type = "[[test]]"
         else:
             target_type = "[[bin]]"

     if metadata["type"] == "rust_proc_macro":
         is_proc_macro = "proc-macro = true"
     else:
         is_proc_macro = ""

     features = []
     feature_pat = re.compile(r"--cfg=feature=\"(.*)\"$")
     for flag in metadata["rustflags"]:
         match = feature_pat.match(flag)
         if match:
             features.append(match.group(1))

     crate_type = "rlib"
     package_name = lookup_gn_pkg_name(project, target, for_workspace=for_workspace)

     fout.write(
         CARGO_PACKAGE_CONTENTS % {
             "target": target,
             "package_name": package_name,
             "crate_name": metadata["crate_name"],
             "version": version,
             "year": datetime.datetime.now().year,
             "bin_or_lib": target_type,
             "is_proc_macro": is_proc_macro,
             "lib_crate_type": crate_type,
             "edition": edition,
             "source_root": rebase_gn_path(root_path, metadata["crate_root"]),
             "crate_name": metadata["crate_name"],
             "rust_crates_path": rust_crates_path,
         })

     extra_test_deps = set()
     if target_type in {"[lib]", "[[bin]]"}:
         test_targets = project.find_test_targets(metadata["crate_root"])
         # hack to filter to just matching toolchains:
         test_targets = [
             t for t in test_targets if t.split("(")[1:] == target.split("(")[1:]
         ]

         test_deps = set()
         for test_target in test_targets:
             test_deps.update(project.targets[test_target]["deps"])

         unreachable_test_deps = sorted(
             [dep for dep in test_deps if dep not in project.reachable_targets])
         if unreachable_test_deps:
             fout.write(
                 "# Note: disabling tests because test deps are not included in the build: %s\n"
                 % unreachable_test_deps)
             fout.write("test = false\n")
         elif not test_targets:
             fout.write(
                 "# Note: disabling tests because no test target was found with the same source root\n"
             )
             fout.write("test = false\n")
         else:
             fout.write(
                 "# Note: using extra deps from discovered test target(s): %s\n"
                 % test_targets)
             extra_test_deps = sorted(test_deps - set(metadata["deps"]))

     if not for_workspace:
         fout.write(CARGO_PACKAGE_NO_WORKSPACE)

     if not for_workspace:
         # In a workspace, patches are ignored, so we skip emitting all the patch lines to cut down on warning spam
         fout.write("\n[patch.crates-io]\n")
         for patch in project.patches:
             path = project.patches[patch]["path"]
             fout.write(
                 "%s = { path = \"%s/%s\" }\n" % (patch, rust_crates_path, path))
         fout.write("\n")

     # collect all dependencies
     deps = metadata["deps"][:]

     dep_crate_names = set()

     def write_deps(deps, dep_type):
         while deps:
             dep = deps.pop()

             # If a dependency points to a source set or group, expand it into a list
             # of its deps, and append them to the deps list. Finally, continue
             # to the next item, since a source set itself is not considered a
             # dependency for our purposes.
             expanded_deps = project.expand_source_set_or_group(dep)
             if expanded_deps:
                 deps.extend(expanded_deps)
                 continue

             # this is a third-party dependency
             # TODO remove this when all things use GN. temporary hack?
             if "third_party/rust_crates:" in dep:
                 has_third_party_deps = True
                 match = re.search("rust_crates:([\w-]*)", dep)
                 crate_name, version = str(match.group(1)).rsplit("-v", 1)
                 dep_crate_names.add(crate_name)
                 version = version.replace("_", ".")
                 feature_spec = project.third_party_features.get(crate_name)
                 fout.write("[%s.\"%s\"]\n" % (dep_type, crate_name))
                 fout.write("version = \"%s\"\n" % version)
                 if feature_spec:
                     fout.write(
                         "features = %s\n" % json.dumps(feature_spec.features))
                     if feature_spec.default_features is False:
                         fout.write("default-features = false\n")
                 if crate_name in features:
                     # Make the dependency optional if there is a feature with
                     # the same name. Later, we'll make sure to list the feature
                     # in the default feature list so that we do actually include
                     # the dependency.
                     fout.write("optional = true\n")
             # this is a in-tree rust target
             elif "crate_name" in project.targets[dep]:
                 toolchain = extract_toolchain(dep)
                 version = version_from_toolchain(toolchain)
                 crate_name = lookup_gn_pkg_name(project, dep, for_workspace=for_workspace)
                 output_name = project.targets[dep]["crate_name"]
                 dep_dir = os.path.join(gn_cargo_dir, str(lookup[dep]))
                 fout.write(
                     CARGO_PACKAGE_DEP % {
                         "dep_type": dep_type,
                         "crate_path": dep_dir,
                         "crate_name": crate_name,
                         "version": version,
                     })

     write_deps(deps, "dependencies")
     write_deps(extra_test_deps, "dev-dependencies")

     if features:
         fout.write("\n[features]\n")
         # Filter 'default' feature out to avoid generating a duplicated entry.
         features = [x for x in features if x != "default"]
         fout.write("default = %s\n" % json.dumps(features))

         for feature in features:
             # Filter features that are also dependencies
             # https://users.rust-lang.org/t/features-and-dependencies-cannot-have-the-same-name/47746/2
             if feature not in dep_crate_names:
                 fout.write("%s = []\n" % feature)

 def main():
     # TODO(tmandry): Remove all hardcoded paths and replace with args.
     parser = argparse.ArgumentParser()
     parser.add_argument("--root_build_dir", required=True)
     parser.add_argument("--fuchsia_dir", required=True)
     parser.add_argument("json_path")
     args = parser.parse_args()
     json_path = args.json_path

     project = None
     try:
         with open(json_path, "r") as json_file:
             project = json.loads(json_file.read())
     except IOError:
         print("Failed to generate Cargo.toml files")
         print("No project.json in the root of your out directory!")
         print("Run gn with the --ide=json flag set")
         # returns 0 so that CQ doesn't fail if this isn't set properly
         return 0

     project = Project(project)
     root_path = os.path.abspath(args.fuchsia_dir)
     root_build_dir = os.path.abspath(args.root_build_dir)

     rust_crates_path = os.path.join(root_path, "third_party/rust_crates")

     # this will be removed eventually?
     with open(rust_crates_path + "/Cargo.toml", "r") as f:
         cargo_toml = toml.load(f)
     project.patches = cargo_toml["patch"]["crates-io"]

     # Map from crate name to FeatureSpec. We don't include the version because we don't directly
     # depend on more than one version of the same crate.
     def collect_features(deps):
         for dep, info in deps.items():
             if isinstance(info, str):
                 continue
             project.third_party_features[dep] = FeatureSpec(
                 info.get("features", []), info.get("default-features", True))

     collect_features(cargo_toml["dependencies"])
     for target_info in cargo_toml["target"].values():
         collect_features(target_info.get("dependencies", {}))

     host_binaries = []
     target_binaries = []

     lookup = {}
     for idx, target in enumerate(project.rust_targets):
         # hash is the GN target name without the prefixed //
         lookup[target] = hashlib.sha1(target[2:].encode("utf-8")).hexdigest()

     # remove the priorly generated rust crates
     gn_cargo_dir = os.path.join(root_build_dir, "cargo")
     shutil.rmtree(gn_cargo_dir, ignore_errors=True)
     os.makedirs(gn_cargo_dir)
     # Write a stamp file with a predictable name so the build system knows the
     # step ran successfully.
     with open(os.path.join(gn_cargo_dir, "generate_cargo.stamp"), "w") as f:
         f.truncate()

     # a dict of "toolchain label" to list of Cargo.toml files in it
     # special case: the key None means the default toolchain
     workspace_dirs_by_toolchain = collections.defaultdict(list)

     for target in project.rust_targets:
         toolchain = extract_toolchain(target)
         version = version_from_toolchain(toolchain)
         cargo_toml_dir = os.path.join(gn_cargo_dir, str(lookup[target]))
         try:
             os.makedirs(cargo_toml_dir)
         except OSError:
             print("Failed to create directory for Cargo: %s" % cargo_toml_dir)

         for_workspace_cargo_toml_dir = os.path.join(
             gn_cargo_dir, "for_workspace", str(lookup[target]))
         try:
             os.makedirs(for_workspace_cargo_toml_dir)
         except OSError:
             print(
                 "Failed to create directory for Cargo: %s" %
                 for_workspace_cargo_toml_dir)

         metadata = project.targets[target]
         with open(os.path.join(cargo_toml_dir, "Cargo.toml"), "w") as fout:
             write_toml_file(
                 fout,
                 metadata,
                 project,
                 target,
                 lookup,
                 root_path,
                 root_build_dir,
                 gn_cargo_dir,
                 for_workspace=False,
                 version = version)

         if (not target.startswith("//third_party/rust_crates:")
            ) and target in project.reachable_targets:
             workspace_dirs_by_toolchain[toolchain].append(
                 (
                     target,
                     os.path.relpath(
                         for_workspace_cargo_toml_dir, root_path)))
             with open(os.path.join(for_workspace_cargo_toml_dir, "Cargo.toml"),
                       "w") as fout:
                 write_toml_file(
                     fout,
                     metadata,
                     project,
                     target,
                     lookup,
                     root_path,
                     root_build_dir,
                     os.path.join(gn_cargo_dir, "for_workspace"),
                     for_workspace=True,
                     version = version)

     # TODO: refactor into separate function
     for toolchain, workspace_dirs in workspace_dirs_by_toolchain.items():
         subdir = os.path.join(gn_cargo_dir, "for_workspace")
         if toolchain:
             # Strip off the leading "//" from the toolchain label so we don't
             # accidentally use it as an absolute path.
             path_safe_toolchain = toolchain.lstrip("/")
             subdir = os.path.join(subdir, "toolchain", path_safe_toolchain)
         else:
             # the workspace for the default toolchain (None in the dict) just
             # lives in for_workspace directly.
             pass

         try:
             os.makedirs(subdir, exist_ok=True)
         except OSError:
             print("Failed to create directory for Cargo: %s" % subdir)

         with open(os.path.join(subdir, "Cargo_for_fuchsia_dir.toml"),
                   "w") as fout:
             fout.write("[workspace]\nmembers = [\n")
             for target, dir in workspace_dirs:
                 fout.write("  # %s\n" % target)
                 fout.write("  %s,\n" % json.dumps(dir))
             fout.write("]\n")

             fout.write('exclude = ["third_party/rust_crates",]\n')
             fout.write("\n[patch.crates-io]\n")
             for patch in project.patches:
                 path = project.patches[patch]["path"]
                 fout.write(
                     "%s = { path = %s }\n" % (
                         patch,
                         json.dumps(os.path.join("third_party/rust_crates", path))))
             fout.write("\n")
     return 0


 if __name__ == "__main__":
     sys.exit(main())
	#!/usr/bin/env python3.8
	#
	# Copyright 2020 The Fuchsia Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	import os
	import argparse
	import hashlib
	import shutil
	import re
	import sys
	import json
	import datetime
	import functools
	import collections

	ROOT_PATH = os.path.abspath(__file__ + "/../..")
	sys.path += [os.path.join(ROOT_PATH, "third_party", "pytoml")]
	import pytoml as toml

	CARGO_PACKAGE_CONTENTS = """\
	# Copyright %(year)s The Fuchsia Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	# source GN: %(target)s"

	[package]
	name = "%(package_name)s"
	version = "%(version)s"
	license = "BSD-3-Clause"
	authors = ["rust-fuchsia@fuchsia.com"]
	description = "Rust crate for Fuchsia OS"
	repository = "https://fuchsia.googlesource.com"
	edition = "%(edition)s"

	%(bin_or_lib)s
	%(is_proc_macro)s
	name = "%(crate_name)s"
	path = "%(source_root)s"
	"""

	CARGO_PACKAGE_NO_WORKSPACE = """\
	[workspace]
	# empty workspace table excludes this crate from thinking it should be in a workspace
	"""

	CARGO_PACKAGE_DEP = """\
	[%(dep_type)s.%(crate_name)s]
	version = "%(version)s"
	path = "%(crate_path)s"

	"""


	def strip_toolchain(target):
	return re.search("[^(]*", target)[0]


	def extract_toolchain(target):
	""" Return the toolchain part of the provided label, or None if it doesn't have one."""
	if "(" not in target:
	# target has no toolchain specified
	return None
	substr = target[target.find("(") + 1:]
	if not target.endswith(")"):
	raise ValueError("target %s missing closing `)`")
	return substr[:-1] # remove closing `)`

	def version_from_toolchain(toolchain):
	""" Return a version to use to allow host and target crates to coexist. """
	version = "0.0.1"
	if toolchain != None and toolchain.startswith("//build/toolchain:host_"):
	version = "0.0.2"
	return version

	def lookup_gn_pkg_name(project, target, *, for_workspace):
	if for_workspace:
	return mangle_label(target)
	metadata = project.targets[target]
	return metadata["output_name"]


	def rebase_gn_path(root_path, location, directory=False):
	assert location[0:2] == "//"
	# remove the prefix //
	path = location[2:]
	target = os.path.dirname(path) if directory else path
	return os.path.join(root_path, target)


	def mangle_label(label):
	assert label[0:2] == "//"
	# remove the prefix //
	label = label[2:]
	result = []
	for c in label:
	if c == "-":
	result.append("--")
	elif c == "_":
	result.append("__")
	elif c == "/":
	result.append("_-_")
	elif c == ":":
	result.append("-_-")
	elif c == ".":
	result.append("_--")
	elif c == "(" or c == ")":
	result.append("-__")
	else:
	result.append(c)
	return "".join(result)


	class FeatureSpec(object):

	def __init__(self, features, default_features):
	self.features = features
	self.default_features = default_features


	class Project(object):

	def __init__(self, project_json):
	self.targets = project_json
	self.patches = None
	self.third_party_features = {}

	@functools.cached_property
	def rust_targets(self):
	return {
	target: meta
	for target, meta in self.targets.items()
	if "crate_root" in meta
	}

	@functools.cached_property
	def rust_targets_by_source_root(self):
	result = collections.defaultdict(list)
	for target, meta in self.rust_targets.items():
	source_root = meta["crate_root"]
	result[source_root].append(target)
	return dict(result)

	@functools.cached_property
	def reachable_targets(self):
	result = set(["//:default"])
	pending = ["//:default"]
	while pending:
	current = pending.pop()
	meta = self.targets[current]
	for dep_kind in ["deps", "public_deps", "data_deps"]:
	for dep in meta.get(dep_kind, []):
	if dep not in result:
	result.add(dep)
	pending.append(dep)

	return result

	def expand_source_set_or_group(self, target):
	"""Returns a list of dependencies if the target is a source_set.

	Returns dependencies as a list of strings if the target is a
	source_set, or None otherwise.
	"""
	meta = self.targets[target]
	if meta["type"] in ("source_set", "group"):
	return meta["deps"]

	def find_test_targets(self, source_root):
	overlapping_targets = self.rust_targets_by_source_root.get(
	source_root, [])
	return [
	t for t in overlapping_targets
	if "--test" in self.targets[t]["rustflags"]
	]


	def write_toml_file(
	fout, metadata, project, target, lookup, root_path, root_build_dir,
	gn_cargo_dir, for_workspace, version):
	rust_crates_path = os.path.join(root_path, "third_party/rust_crates")

	editions = [
	flag.split("=")[1]
	for flag in metadata["rustflags"]
	if flag.startswith("--edition=")
	]
	edition = editions[0] if editions else "2015"

	if metadata["type"] in ["rust_library", "rust_proc_macro",
	"static_library"]:
	target_type = "[lib]"
	else:
	if "--test" in metadata["rustflags"]:
	target_type = "[[test]]"
	else:
	target_type = "[[bin]]"

	if metadata["type"] == "rust_proc_macro":
	is_proc_macro = "proc-macro = true"
	else:
	is_proc_macro = ""

	features = []
	feature_pat = re.compile(r"--cfg=feature=\"(.*)\"$")
	for flag in metadata["rustflags"]:
	match = feature_pat.match(flag)
	if match:
	features.append(match.group(1))

	crate_type = "rlib"
	package_name = lookup_gn_pkg_name(project, target, for_workspace=for_workspace)

	fout.write(
	CARGO_PACKAGE_CONTENTS % {
	"target": target,
	"package_name": package_name,
	"crate_name": metadata["crate_name"],
	"version": version,
	"year": datetime.datetime.now().year,
	"bin_or_lib": target_type,
	"is_proc_macro": is_proc_macro,
	"lib_crate_type": crate_type,
	"edition": edition,
	"source_root": rebase_gn_path(root_path, metadata["crate_root"]),
	"crate_name": metadata["crate_name"],
	"rust_crates_path": rust_crates_path,
	})

	extra_test_deps = set()
	if target_type in {"[lib]", "[[bin]]"}:
	test_targets = project.find_test_targets(metadata["crate_root"])
	# hack to filter to just matching toolchains:
	test_targets = [
	t for t in test_targets if t.split("(")[1:] == target.split("(")[1:]
	]

	test_deps = set()
	for test_target in test_targets:
	test_deps.update(project.targets[test_target]["deps"])

	unreachable_test_deps = sorted(
	[dep for dep in test_deps if dep not in project.reachable_targets])
	if unreachable_test_deps:
	fout.write(
	"# Note: disabling tests because test deps are not included in the build: %s\n"
	% unreachable_test_deps)
	fout.write("test = false\n")
	elif not test_targets:
	fout.write(
	"# Note: disabling tests because no test target was found with the same source root\n"
	)
	fout.write("test = false\n")
	else:
	fout.write(
	"# Note: using extra deps from discovered test target(s): %s\n"
	% test_targets)
	extra_test_deps = sorted(test_deps - set(metadata["deps"]))

	if not for_workspace:
	fout.write(CARGO_PACKAGE_NO_WORKSPACE)

	if not for_workspace:
	# In a workspace, patches are ignored, so we skip emitting all the patch lines to cut down on warning spam
	fout.write("\n[patch.crates-io]\n")
	for patch in project.patches:
	path = project.patches[patch]["path"]
	fout.write(
	"%s = { path = \"%s/%s\" }\n" % (patch, rust_crates_path, path))
	fout.write("\n")

	# collect all dependencies
	deps = metadata["deps"][:]

	dep_crate_names = set()

	def write_deps(deps, dep_type):
	while deps:
	dep = deps.pop()

	# If a dependency points to a source set or group, expand it into a list
	# of its deps, and append them to the deps list. Finally, continue
	# to the next item, since a source set itself is not considered a
	# dependency for our purposes.
	expanded_deps = project.expand_source_set_or_group(dep)
	if expanded_deps:
	deps.extend(expanded_deps)
	continue

	# this is a third-party dependency
	# TODO remove this when all things use GN. temporary hack?
	if "third_party/rust_crates:" in dep:
	has_third_party_deps = True
	match = re.search("rust_crates:([\w-]*)", dep)
	crate_name, version = str(match.group(1)).rsplit("-v", 1)
	dep_crate_names.add(crate_name)
	version = version.replace("_", ".")
	feature_spec = project.third_party_features.get(crate_name)
	fout.write("[%s.\"%s\"]\n" % (dep_type, crate_name))
	fout.write("version = \"%s\"\n" % version)
	if feature_spec:
	fout.write(
	"features = %s\n" % json.dumps(feature_spec.features))
	if feature_spec.default_features is False:
	fout.write("default-features = false\n")
	if crate_name in features:
	# Make the dependency optional if there is a feature with
	# the same name. Later, we'll make sure to list the feature
	# in the default feature list so that we do actually include
	# the dependency.
	fout.write("optional = true\n")
	# this is a in-tree rust target
	elif "crate_name" in project.targets[dep]:
	toolchain = extract_toolchain(dep)
	version = version_from_toolchain(toolchain)
	crate_name = lookup_gn_pkg_name(project, dep, for_workspace=for_workspace)
	output_name = project.targets[dep]["crate_name"]
	dep_dir = os.path.join(gn_cargo_dir, str(lookup[dep]))
	fout.write(
	CARGO_PACKAGE_DEP % {
	"dep_type": dep_type,
	"crate_path": dep_dir,
	"crate_name": crate_name,
	"version": version,
	})

	write_deps(deps, "dependencies")
	write_deps(extra_test_deps, "dev-dependencies")

	if features:
	fout.write("\n[features]\n")
	# Filter 'default' feature out to avoid generating a duplicated entry.
	features = [x for x in features if x != "default"]
	fout.write("default = %s\n" % json.dumps(features))

	for feature in features:
	# Filter features that are also dependencies
	# https://users.rust-lang.org/t/features-and-dependencies-cannot-have-the-same-name/47746/2
	if feature not in dep_crate_names:
	fout.write("%s = []\n" % feature)

	def main():
	# TODO(tmandry): Remove all hardcoded paths and replace with args.
	parser = argparse.ArgumentParser()
	parser.add_argument("--root_build_dir", required=True)
	parser.add_argument("--fuchsia_dir", required=True)
	parser.add_argument("json_path")
	args = parser.parse_args()
	json_path = args.json_path

	project = None
	try:
	with open(json_path, "r") as json_file:
	project = json.loads(json_file.read())
	except IOError:
	print("Failed to generate Cargo.toml files")
	print("No project.json in the root of your out directory!")
	print("Run gn with the --ide=json flag set")
	# returns 0 so that CQ doesn't fail if this isn't set properly
	return 0

	project = Project(project)
	root_path = os.path.abspath(args.fuchsia_dir)
	root_build_dir = os.path.abspath(args.root_build_dir)

	rust_crates_path = os.path.join(root_path, "third_party/rust_crates")

	# this will be removed eventually?
	with open(rust_crates_path + "/Cargo.toml", "r") as f:
	cargo_toml = toml.load(f)
	project.patches = cargo_toml["patch"]["crates-io"]

	# Map from crate name to FeatureSpec. We don't include the version because we don't directly
	# depend on more than one version of the same crate.
	def collect_features(deps):
	for dep, info in deps.items():
	if isinstance(info, str):
	continue
	project.third_party_features[dep] = FeatureSpec(
	info.get("features", []), info.get("default-features", True))

	collect_features(cargo_toml["dependencies"])
	for target_info in cargo_toml["target"].values():
	collect_features(target_info.get("dependencies", {}))

	host_binaries = []
	target_binaries = []

	lookup = {}
	for idx, target in enumerate(project.rust_targets):
	# hash is the GN target name without the prefixed //
	lookup[target] = hashlib.sha1(target[2:].encode("utf-8")).hexdigest()

	# remove the priorly generated rust crates
	gn_cargo_dir = os.path.join(root_build_dir, "cargo")
	shutil.rmtree(gn_cargo_dir, ignore_errors=True)
	os.makedirs(gn_cargo_dir)
	# Write a stamp file with a predictable name so the build system knows the
	# step ran successfully.
	with open(os.path.join(gn_cargo_dir, "generate_cargo.stamp"), "w") as f:
	f.truncate()

	# a dict of "toolchain label" to list of Cargo.toml files in it
	# special case: the key None means the default toolchain
	workspace_dirs_by_toolchain = collections.defaultdict(list)

	for target in project.rust_targets:
	toolchain = extract_toolchain(target)
	version = version_from_toolchain(toolchain)
	cargo_toml_dir = os.path.join(gn_cargo_dir, str(lookup[target]))
	try:
	os.makedirs(cargo_toml_dir)
	except OSError:
	print("Failed to create directory for Cargo: %s" % cargo_toml_dir)

	for_workspace_cargo_toml_dir = os.path.join(
	gn_cargo_dir, "for_workspace", str(lookup[target]))
	try:
	os.makedirs(for_workspace_cargo_toml_dir)
	except OSError:
	print(
	"Failed to create directory for Cargo: %s" %
	for_workspace_cargo_toml_dir)

	metadata = project.targets[target]
	with open(os.path.join(cargo_toml_dir, "Cargo.toml"), "w") as fout:
	write_toml_file(
	fout,
	metadata,
	project,
	target,
	lookup,
	root_path,
	root_build_dir,
	gn_cargo_dir,
	for_workspace=False,
	version = version)

	if (not target.startswith("//third_party/rust_crates:")
	) and target in project.reachable_targets:
	workspace_dirs_by_toolchain[toolchain].append(
	(
	target,
	os.path.relpath(
	for_workspace_cargo_toml_dir, root_path)))
	with open(os.path.join(for_workspace_cargo_toml_dir, "Cargo.toml"),
	"w") as fout:
	write_toml_file(
	fout,
	metadata,
	project,
	target,
	lookup,
	root_path,
	root_build_dir,
	os.path.join(gn_cargo_dir, "for_workspace"),
	for_workspace=True,
	version = version)

	# TODO: refactor into separate function
	for toolchain, workspace_dirs in workspace_dirs_by_toolchain.items():
	subdir = os.path.join(gn_cargo_dir, "for_workspace")
	if toolchain:
	# Strip off the leading "//" from the toolchain label so we don't
	# accidentally use it as an absolute path.
	path_safe_toolchain = toolchain.lstrip("/")
	subdir = os.path.join(subdir, "toolchain", path_safe_toolchain)
	else:
	# the workspace for the default toolchain (None in the dict) just
	# lives in for_workspace directly.
	pass

	try:
	os.makedirs(subdir, exist_ok=True)
	except OSError:
	print("Failed to create directory for Cargo: %s" % subdir)

	with open(os.path.join(subdir, "Cargo_for_fuchsia_dir.toml"),
	"w") as fout:
	fout.write("[workspace]\nmembers = [\n")
	for target, dir in workspace_dirs:
	fout.write(" # %s\n" % target)
	fout.write(" %s,\n" % json.dumps(dir))
	fout.write("]\n")

	fout.write('exclude = ["third_party/rust_crates",]\n')
	fout.write("\n[patch.crates-io]\n")
	for patch in project.patches:
	path = project.patches[patch]["path"]
	fout.write(
	"%s = { path = %s }\n" % (
	patch,
	json.dumps(os.path.join("third_party/rust_crates", path))))
	fout.write("\n")
	return 0


	if __name__ == "__main__":
	sys.exit(main())