#!/usr/bin/env python
# Copyright 2020 The gRPC Authors
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# Script to extract build metadata from bazel BUILD.
# To avoid having two sources of truth for the build metadata (build
# targets, source files, header files etc.), this script analyzes the contents
# of bazel BUILD files and generates a YAML file (currently called
# build_autogenerated.yaml). The format and semantics of the generated YAML files
# is chosen to match the format of a "build.yaml" file, which used
# to be build the source of truth for gRPC build before bazel became
# the primary build system.
# A good basic overview of the "build.yaml" format is available here:
# https://github.com/grpc/grpc/blob/master/templates/README.md. Note that
# while useful as an overview, the doc does not act as formal spec
# (formal spec does not exist in fact) and the doc can be incomplete,
# inaccurate or slightly out of date.
import subprocess
import yaml
import xml . etree . ElementTree as ET
import os
import sys
import build_cleaner
_ROOT = os . path . abspath ( os . path . join ( os . path . dirname ( sys . argv [ 0 ] ) , ' ../.. ' ) )
os . chdir ( _ROOT )
def _bazel_query_xml_tree ( query ) :
""" Get xml output of bazel query invocation, parsed as XML tree """
output = subprocess . check_output (
[ ' tools/bazel ' , ' query ' , ' --noimplicit_deps ' , ' --output ' , ' xml ' , query ] )
return ET . fromstring ( output )
def _rule_dict_from_xml_node ( rule_xml_node ) :
""" Converts XML node representing a rule (obtained from " bazel query --output xml " ) to a dictionary that contains all the metadata we will need. """
result = {
' class ' : rule_xml_node . attrib . get ( ' class ' ) ,
' name ' : rule_xml_node . attrib . get ( ' name ' ) ,
' srcs ' : [ ] ,
' hdrs ' : [ ] ,
' deps ' : [ ] ,
' data ' : [ ] ,
' tags ' : [ ] ,
' args ' : [ ] ,
' generator_function ' : None ,
' size ' : None ,
' flaky ' : False ,
}
for child in rule_xml_node :
# all the metadata we want is stored under "list" tags
if child . tag == ' list ' :
list_name = child . attrib [ ' name ' ]
if list_name in [ ' srcs ' , ' hdrs ' , ' deps ' , ' data ' , ' tags ' , ' args ' ] :
result [ list_name ] + = [ item . attrib [ ' value ' ] for item in child ]
if child . tag == ' string ' :
string_name = child . attrib [ ' name ' ]
if string_name in [ ' generator_function ' , ' size ' ] :
result [ string_name ] = child . attrib [ ' value ' ]
if child . tag == ' boolean ' :
bool_name = child . attrib [ ' name ' ]
if bool_name in [ ' flaky ' ] :
result [ bool_name ] = child . attrib [ ' value ' ] == ' true '
return result
def _extract_rules_from_bazel_xml ( xml_tree ) :
""" Extract bazel rules from an XML tree node obtained from " bazel query --output xml " command. """
result = { }
for child in xml_tree :
if child . tag == ' rule ' :
rule_dict = _rule_dict_from_xml_node ( child )
rule_clazz = rule_dict [ ' class ' ]
rule_name = rule_dict [ ' name ' ]
if rule_clazz in [
' cc_library ' , ' cc_binary ' , ' cc_test ' , ' cc_proto_library ' ,
' proto_library '
] :
if rule_name in result :
raise Exception ( ' Rule %s already present ' % rule_name )
result [ rule_name ] = rule_dict
return result
def _get_bazel_label ( target_name ) :
if ' : ' in target_name :
return ' // %s ' % target_name
else :
return ' //: %s ' % target_name
def _extract_source_file_path ( label ) :
""" Gets relative path to source file from bazel deps listing """
if label . startswith ( ' // ' ) :
label = label [ len ( ' // ' ) : ]
# labels in form //:src/core/lib/surface/call_test_only.h
if label . startswith ( ' : ' ) :
label = label [ len ( ' : ' ) : ]
# labels in form //test/core/util:port.cc
label = label . replace ( ' : ' , ' / ' )
return label
def _extract_public_headers ( bazel_rule ) :
""" Gets list of public headers from a bazel rule """
result = [ ]
for dep in bazel_rule [ ' hdrs ' ] :
if dep . startswith ( ' //:include/ ' ) and dep . endswith ( ' .h ' ) :
result . append ( _extract_source_file_path ( dep ) )
return list ( sorted ( result ) )
def _extract_nonpublic_headers ( bazel_rule ) :
""" Gets list of non-public headers from a bazel rule """
result = [ ]
for dep in bazel_rule [ ' hdrs ' ] :
if dep . startswith ( ' // ' ) and not dep . startswith (
' //:include/ ' ) and dep . endswith ( ' .h ' ) :
result . append ( _extract_source_file_path ( dep ) )
return list ( sorted ( result ) )
def _extract_sources ( bazel_rule ) :
""" Gets list of source files from a bazel rule """
result = [ ]
for dep in bazel_rule [ ' srcs ' ] :
if dep . startswith ( ' // ' ) and ( dep . endswith ( ' .cc ' ) or dep . endswith ( ' .c ' )
or dep . endswith ( ' .proto ' ) ) :
result . append ( _extract_source_file_path ( dep ) )
return list ( sorted ( result ) )
def _extract_deps ( bazel_rule ) :
""" Gets list of deps from from a bazel rule """
return list ( sorted ( bazel_rule [ ' deps ' ] ) )
def _create_target_from_bazel_rule ( target_name , bazel_rules ) :
""" Create build.yaml-like target definition from bazel metadata """
bazel_rule = bazel_rules [ _get_bazel_label ( target_name ) ]
# Create a template for our target from the bazel rule. Initially we only
# populate some "private" fields with the original info we got from bazel
# and only later we will populate the public fields (once we do some extra
# postprocessing).
result = {
' name ' : target_name ,
' _PUBLIC_HEADERS_BAZEL ' : _extract_public_headers ( bazel_rule ) ,
' _HEADERS_BAZEL ' : _extract_nonpublic_headers ( bazel_rule ) ,
' _SRC_BAZEL ' : _extract_sources ( bazel_rule ) ,
' _DEPS_BAZEL ' : _extract_deps ( bazel_rule ) ,
}
return result
def _sort_by_build_order ( lib_names , lib_dict , deps_key_name , verbose = False ) :
""" Sort library names to form correct build order. Use metadata from lib_dict """
# we find correct build order by performing a topological sort
# expected output: if library B depends on A, A should be listed first
# all libs that are not in the dictionary are considered external.
external_deps = list (
sorted ( filter ( lambda lib_name : lib_name not in lib_dict , lib_names ) ) )
if verbose :
print ( ' topo_ordering ' + str ( lib_names ) )
print ( ' external_deps ' + str ( external_deps ) )
result = list ( external_deps ) # external deps will be listed first
while len ( result ) < len ( lib_names ) :
more_results = [ ]
for lib in lib_names :
if lib not in result :
dep_set = set ( lib_dict [ lib ] . get ( deps_key_name , [ ] ) )
dep_set = dep_set . intersection ( lib_names )
# if lib only depends on what's already built, add it to the results
if not dep_set . difference ( set ( result ) ) :
more_results . append ( lib )
if not more_results :
raise Exception (
' Cannot sort topologically, there seems to be a cyclic dependency '
)
if verbose :
print ( ' adding ' + str ( more_results ) )
result = result + list (
sorted ( more_results
) ) # when build order doesn't matter, sort lexicographically
return result
# TODO(jtattermusch): deduplicate with transitive_dependencies.py (which has a slightly different logic)
def _populate_transitive_deps ( bazel_rules ) :
""" Add ' transitive_deps ' field for each of the rules """
transitive_deps = { }
for rule_name in bazel_rules . iterkeys ( ) :
transitive_deps [ rule_name ] = set ( bazel_rules [ rule_name ] [ ' deps ' ] )
while True :
deps_added = 0
for rule_name in bazel_rules . iterkeys ( ) :
old_deps = transitive_deps [ rule_name ]
new_deps = set ( old_deps )
for dep_name in old_deps :
new_deps . update ( transitive_deps . get ( dep_name , set ( ) ) )
deps_added + = len ( new_deps ) - len ( old_deps )
transitive_deps [ rule_name ] = new_deps
# if none of the transitive dep sets has changed, we're done
if deps_added == 0 :
break
for rule_name , bazel_rule in bazel_rules . iteritems ( ) :
bazel_rule [ ' transitive_deps ' ] = list ( sorted ( transitive_deps [ rule_name ] ) )
def _external_dep_name_from_bazel_dependency ( bazel_dep ) :
""" Returns name of dependency if external bazel dependency is provided or None """
if bazel_dep . startswith ( ' @com_google_absl// ' ) :
# special case for add dependency on one of the absl libraries (there is not just one absl library)
prefixlen = len ( ' @com_google_absl// ' )
return bazel_dep [ prefixlen : ]
elif bazel_dep == ' //external:upb_lib ' :
return ' upb '
elif bazel_dep == ' //external:benchmark ' :
return ' benchmark '
else :
# all the other external deps such as gflags, protobuf, cares, zlib
# don't need to be listed explicitly, they are handled automatically
# by the build system (make, cmake)
return None
def _expand_intermediate_deps ( target_dict , public_dep_names , bazel_rules ) :
# Some of the libraries defined by bazel won't be exposed in build.yaml
# We call these "intermediate" dependencies. This method expands
# the intermediate deps for given target (populates library's
# headers, sources and dicts as if the intermediate dependency never existed)
# use this dictionary to translate from bazel labels to dep names
bazel_label_to_dep_name = { }
for dep_name in public_dep_names :
bazel_label_to_dep_name [ _get_bazel_label ( dep_name ) ] = dep_name
target_name = target_dict [ ' name ' ]
bazel_deps = target_dict [ ' _DEPS_BAZEL ' ]
# initial values
public_headers = set ( target_dict [ ' _PUBLIC_HEADERS_BAZEL ' ] )
headers = set ( target_dict [ ' _HEADERS_BAZEL ' ] )
src = set ( target_dict [ ' _SRC_BAZEL ' ] )
deps = set ( )
expansion_blacklist = set ( )
to_expand = set ( bazel_deps )
while to_expand :
# start with the last dependency to be built
build_order = _sort_by_build_order ( list ( to_expand ) , bazel_rules ,
' transitive_deps ' )
bazel_dep = build_order [ - 1 ]
to_expand . remove ( bazel_dep )
is_public = bazel_dep in bazel_label_to_dep_name
external_dep_name_maybe = _external_dep_name_from_bazel_dependency (
bazel_dep )
if is_public :
# this is not an intermediate dependency we so we add it
# to the list of public dependencies to the list, in the right format
deps . add ( bazel_label_to_dep_name [ bazel_dep ] )
# we do not want to expand any intermediate libraries that are already included
# by the dependency we just added
expansion_blacklist . update (
bazel_rules [ bazel_dep ] [ ' transitive_deps ' ] )
elif external_dep_name_maybe :
deps . add ( external_dep_name_maybe )
elif bazel_dep . startswith (
' //external: ' ) or not bazel_dep . startswith ( ' // ' ) :
# all the other external deps can be skipped
pass
elif bazel_dep in expansion_blacklist :
# do not expand if a public dependency that depends on this has already been expanded
pass
else :
if bazel_dep in bazel_rules :
# this is an intermediate library, expand it
public_headers . update (
_extract_public_headers ( bazel_rules [ bazel_dep ] ) )
headers . update (
_extract_nonpublic_headers ( bazel_rules [ bazel_dep ] ) )
src . update ( _extract_sources ( bazel_rules [ bazel_dep ] ) )
new_deps = _extract_deps ( bazel_rules [ bazel_dep ] )
to_expand . update ( new_deps )
else :
raise Exception ( bazel_dep + ' not in bazel_rules ' )
# make the 'deps' field transitive, but only list non-intermediate deps and selected external deps
bazel_transitive_deps = bazel_rules [ _get_bazel_label (
target_name ) ] [ ' transitive_deps ' ]
for transitive_bazel_dep in bazel_transitive_deps :
public_name = bazel_label_to_dep_name . get ( transitive_bazel_dep , None )
if public_name :
deps . add ( public_name )
external_dep_name_maybe = _external_dep_name_from_bazel_dependency (
transitive_bazel_dep )
if external_dep_name_maybe :
# expanding all absl libraries is technically correct but creates too much noise
if not external_dep_name_maybe . startswith ( ' absl ' ) :
deps . add ( external_dep_name_maybe )
target_dict [ ' public_headers ' ] = list ( sorted ( public_headers ) )
target_dict [ ' headers ' ] = list ( sorted ( headers ) )
target_dict [ ' src ' ] = list ( sorted ( src ) )
target_dict [ ' deps ' ] = list ( sorted ( deps ) )
def _generate_build_metadata ( build_extra_metadata , bazel_rules ) :
""" Generate build metadata in build.yaml-like format bazel build metadata and build.yaml-specific " extra metadata " . """
lib_names = build_extra_metadata . keys ( )
result = { }
for lib_name in lib_names :
lib_dict = _create_target_from_bazel_rule ( lib_name , bazel_rules )
# Figure out the final list of headers and sources for given target.
# While this is mostly based on bazel build metadata, build.yaml does
# not necessarily expose all the targets that are present in bazel build.
# These "intermediate dependencies" might get flattened.
# TODO(jtattermusch): This is done to avoid introducing too many intermediate
# libraries into the build.yaml-based builds (which might in cause issues
# building language-specific artifacts) and also because the libraries
# in build.yaml-based build are generally considered units of distributions
# (= public libraries that are visible to the user and are installable),
# while in bazel builds it is customary to define larger number of smaller
# "sublibraries". The need for elision (and expansion)
# of intermediate libraries can be re-evaluated in the future.
_expand_intermediate_deps ( lib_dict , lib_names , bazel_rules )
# populate extra properties from the build.yaml-specific "extra metadata"
lib_dict . update ( build_extra_metadata . get ( lib_name , { } ) )
# store to results
result [ lib_name ] = lib_dict
# Rename targets marked with "_RENAME" extra metadata.
# This is mostly a cosmetic change to ensure that we end up with build.yaml target
# names we're used to from the past (and also to avoid too long target names).
# The rename step needs to be made after we're done with most of processing logic
# otherwise the already-renamed libraries will have different names than expected
for lib_name in lib_names :
to_name = build_extra_metadata . get ( lib_name , { } ) . get ( ' _RENAME ' , None )
if to_name :
# store lib under the new name and also change its 'name' property
if to_name in result :
raise Exception ( ' Cannot rename target ' + lib_name + ' , ' +
to_name + ' already exists. ' )
lib_dict = result . pop ( lib_name )
lib_dict [ ' name ' ] = to_name
result [ to_name ] = lib_dict
# dep names need to be updated as well
for lib_dict_to_update in result . values ( ) :
lib_dict_to_update [ ' deps ' ] = list (
map ( lambda dep : to_name if dep == lib_name else dep ,
lib_dict_to_update [ ' deps ' ] ) )
# make sure deps are listed in reverse topological order (e.g. "grpc gpr" and not "gpr grpc")
for lib_dict in result . itervalues ( ) :
lib_dict [ ' deps ' ] = list (
reversed ( _sort_by_build_order ( lib_dict [ ' deps ' ] , result , ' deps ' ) ) )
return result
def _convert_to_build_yaml_like ( lib_dict ) :
lib_names = list (
filter (
lambda lib_name : lib_dict [ lib_name ] . get ( ' _TYPE ' , ' library ' ) ==
' library ' , lib_dict . keys ( ) ) )
target_names = list (
filter (
lambda lib_name : lib_dict [ lib_name ] . get ( ' _TYPE ' , ' library ' ) ==
' target ' , lib_dict . keys ( ) ) )
test_names = list (
filter (
lambda lib_name : lib_dict [ lib_name ] . get ( ' _TYPE ' , ' library ' ) ==
' test ' , lib_dict . keys ( ) ) )
# list libraries and targets in predefined order
lib_list = list ( map ( lambda lib_name : lib_dict [ lib_name ] , lib_names ) )
target_list = list ( map ( lambda lib_name : lib_dict [ lib_name ] , target_names ) )
test_list = list ( map ( lambda lib_name : lib_dict [ lib_name ] , test_names ) )
# get rid of temporary private fields prefixed with "_" and some other useless fields
for lib in lib_list :
for field_to_remove in filter ( lambda k : k . startswith ( ' _ ' ) , lib . keys ( ) ) :
lib . pop ( field_to_remove , None )
for target in target_list :
for field_to_remove in filter ( lambda k : k . startswith ( ' _ ' ) ,
target . keys ( ) ) :
target . pop ( field_to_remove , None )
target . pop ( ' public_headers ' ,
None ) # public headers make no sense for targets
for test in test_list :
for field_to_remove in filter ( lambda k : k . startswith ( ' _ ' ) , test . keys ( ) ) :
test . pop ( field_to_remove , None )
test . pop ( ' public_headers ' ,
None ) # public headers make no sense for tests
build_yaml_like = {
' libs ' : lib_list ,
' filegroups ' : [ ] ,
' targets ' : target_list ,
' tests ' : test_list ,
}
return build_yaml_like
def _extract_cc_tests ( bazel_rules ) :
""" Gets list of cc_test tests from bazel rules """
result = [ ]
for bazel_rule in bazel_rules . itervalues ( ) :
if bazel_rule [ ' class ' ] == ' cc_test ' :
test_name = bazel_rule [ ' name ' ]
if test_name . startswith ( ' // ' ) :
prefixlen = len ( ' // ' )
result . append ( test_name [ prefixlen : ] )
return list ( sorted ( result ) )
def _exclude_unwanted_cc_tests ( tests ) :
""" Filters out bazel tests that we don ' t want to run with other build systems or we cannot build them reasonably """
# most qps tests are autogenerated, we are fine without them
tests = list (
filter ( lambda test : not test . startswith ( ' test/cpp/qps: ' ) , tests ) )
# we have trouble with census dependency outside of bazel
tests = list (
filter ( lambda test : not test . startswith ( ' test/cpp/ext/filters/census: ' ) ,
tests ) )
tests = list (
filter (
lambda test : not test . startswith (
' test/cpp/microbenchmarks:bm_opencensus_plugin ' ) , tests ) )
# missing opencensus/stats/stats.h
tests = list (
filter (
lambda test : not test . startswith (
' test/cpp/end2end:server_load_reporting_end2end_test ' ) , tests ) )
tests = list (
filter (
lambda test : not test . startswith (
' test/cpp/server/load_reporter:lb_load_reporter_test ' ) , tests ) )
# The test uses --running_under_bazel cmdline argument
# To avoid the trouble needing to adjust it, we just skip the test
tests = list (
filter (
lambda test : not test . startswith (
' test/cpp/naming:resolver_component_tests_runner_invoker ' ) ,
tests ) )
# the test requires 'client_crash_test_server' to be built
tests = list (
filter (
lambda test : not test . startswith ( ' test/cpp/end2end:time_change_test '
) , tests ) )
# the test requires 'client_crash_test_server' to be built
tests = list (
filter (
lambda test : not test . startswith (
' test/cpp/end2end:client_crash_test ' ) , tests ) )
# the test requires 'server_crash_test_client' to be built
tests = list (
filter (
lambda test : not test . startswith (
' test/cpp/end2end:server_crash_test ' ) , tests ) )
# test never existed under build.yaml and it fails -> skip it
tests = list (
filter (
lambda test : not test . startswith (
' test/core/tsi:ssl_session_cache_test ' ) , tests ) )
return tests
def _generate_build_extra_metadata_for_tests ( tests , bazel_rules ) :
""" For given tests, generate the " extra metadata " that we need for our " build.yaml " -like output. The extra metadata is generated from the bazel rule metadata by using a bunch of heuristics. """
test_metadata = { }
for test in tests :
test_dict = { ' build ' : ' test ' , ' _TYPE ' : ' target ' }
bazel_rule = bazel_rules [ _get_bazel_label ( test ) ]
bazel_tags = bazel_rule [ ' tags ' ]
if ' manual ' in bazel_tags :
# don't run the tests marked as "manual"
test_dict [ ' run ' ] = False
if bazel_rule [ ' flaky ' ] :
# don't run tests that are marked as "flaky" under bazel
# because that would only add noise for the run_tests.py tests
# and seeing more failures for tests that we already know are flaky
# doesn't really help anything
test_dict [ ' run ' ] = False
if ' no_uses_polling ' in bazel_tags :
test_dict [ ' uses_polling ' ] = False
if ' grpc_fuzzer ' == bazel_rule [ ' generator_function ' ] :
# currently we hand-list fuzzers instead of generating them automatically
# because there's no way to obtain maxlen property from bazel BUILD file.
print ( ' skipping fuzzer ' + test )
continue
# if any tags that restrict platform compatibility are present,
# generate the "platforms" field accordingly
# TODO(jtattermusch): there is also a "no_linux" tag, but we cannot take
# it into account as it is applied by grpc_cc_test when poller expansion
# is made (for tests where uses_polling=True). So for now, we just
# assume all tests are compatible with linux and ignore the "no_linux" tag
# completely.
known_platform_tags = set ( [ ' no_windows ' , ' no_mac ' ] )
if set ( bazel_tags ) . intersection ( known_platform_tags ) :
platforms = [ ]
# assume all tests are compatible with linux and posix
platforms . append ( ' linux ' )
platforms . append (
' posix ' ) # there is no posix-specific tag in bazel BUILD
if not ' no_mac ' in bazel_tags :
platforms . append ( ' mac ' )
if not ' no_windows ' in bazel_tags :
platforms . append ( ' windows ' )
test_dict [ ' platforms ' ] = platforms
if ' //external:benchmark ' in bazel_rule [ ' transitive_deps ' ] :
test_dict [ ' benchmark ' ] = True
test_dict [ ' defaults ' ] = ' benchmark '
cmdline_args = bazel_rule [ ' args ' ]
if cmdline_args :
test_dict [ ' args ' ] = list ( cmdline_args )
uses_gtest = ' //external:gtest ' in bazel_rule [ ' transitive_deps ' ]
if uses_gtest :
test_dict [ ' gtest ' ] = True
if test . startswith ( ' test/cpp ' ) or uses_gtest :
test_dict [ ' language ' ] = ' c++ '
elif test . startswith ( ' test/core ' ) :
test_dict [ ' language ' ] = ' c '
else :
raise Exception ( ' wrong test ' + test )
# short test name without the path.
# There can be name collisions, but we will resolve them later
simple_test_name = os . path . basename ( _extract_source_file_path ( test ) )
test_dict [ ' _RENAME ' ] = simple_test_name
test_metadata [ test ] = test_dict
# detect duplicate test names
tests_by_simple_name = { }
for test_name , test_dict in test_metadata . iteritems ( ) :
simple_test_name = test_dict [ ' _RENAME ' ]
if not simple_test_name in tests_by_simple_name :
tests_by_simple_name [ simple_test_name ] = [ ]
tests_by_simple_name [ simple_test_name ] . append ( test_name )
# choose alternative names for tests with a name collision
for collision_list in tests_by_simple_name . itervalues ( ) :
if len ( collision_list ) > 1 :
for test_name in collision_list :
long_name = test_name . replace ( ' / ' , ' _ ' ) . replace ( ' : ' , ' _ ' )
print (
' short name of " %s " collides with another test, renaming to %s '
% ( test_name , long_name ) )
test_metadata [ test_name ] [ ' _RENAME ' ] = long_name
return test_metadata
def _detect_and_print_issues ( build_yaml_like ) :
""" Try detecting some unusual situations and warn about them. """
for tgt in build_yaml_like [ ' targets ' ] :
if tgt [ ' build ' ] == ' test ' :
for src in tgt [ ' src ' ] :
if src . startswith ( ' src/ ' ) and not src . endswith ( ' .proto ' ) :
print ( ' source file from under " src/ " tree used in test ' +
tgt [ ' name ' ] + ' : ' + src )
# extra metadata that will be used to construct build.yaml
# there are mostly extra properties that we weren't able to obtain from the bazel build
# _TYPE: whether this is library, target or test
# _RENAME: whether this target should be renamed to a different name (to match expectations of make and cmake builds)
# NOTE: secure is 'check' by default, so setting secure = False below does matter
_BUILD_EXTRA_METADATA = {
' third_party/address_sorting:address_sorting ' : {
' language ' : ' c ' ,
' build ' : ' all ' ,
' secure ' : False ,
' _RENAME ' : ' address_sorting '
} ,
' gpr ' : {
' language ' : ' c ' ,
' build ' : ' all ' ,
' secure ' : False
} ,
' grpc ' : {
' language ' : ' c ' ,
' build ' : ' all ' ,
' baselib ' : True ,
' secure ' : True ,
' deps_linkage ' : ' static ' ,
' dll ' : True ,
' generate_plugin_registry ' : True
} ,
' grpc++ ' : {
' language ' : ' c++ ' ,
' build ' : ' all ' ,
' baselib ' : True ,
' dll ' : True
} ,
' grpc++_alts ' : {
' language ' : ' c++ ' ,
' build ' : ' all ' ,
' baselib ' : True
} ,
' grpc++_error_details ' : {
' language ' : ' c++ ' ,
' build ' : ' all '
} ,
' grpc++_reflection ' : {
' language ' : ' c++ ' ,
' build ' : ' all '
} ,
' grpc++_unsecure ' : {
' language ' : ' c++ ' ,
' build ' : ' all ' ,
' baselib ' : True ,
' secure ' : False ,
' dll ' : True
} ,
# TODO(jtattermusch): do we need to set grpc_csharp_ext's LDFLAGS for wrapping memcpy in the same way as in build.yaml?
' grpc_csharp_ext ' : {
' language ' : ' c ' ,
' build ' : ' all ' ,
' deps_linkage ' : ' static ' ,
' dll ' : ' only '
} ,
' grpc_unsecure ' : {
' language ' : ' c ' ,
' build ' : ' all ' ,
' baselib ' : True ,
' secure ' : False ,
' deps_linkage ' : ' static ' ,
' dll ' : True ,
' generate_plugin_registry ' : True
} ,
' grpcpp_channelz ' : {
' language ' : ' c++ ' ,
' build ' : ' all '
} ,
' grpc++_test ' : {
' language ' : ' c++ ' ,
' build ' : ' private ' ,
} ,
' src/compiler:grpc_plugin_support ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _RENAME ' : ' grpc_plugin_support '
} ,
' src/compiler:grpc_cpp_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_cpp_plugin '
} ,
' src/compiler:grpc_csharp_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_csharp_plugin '
} ,
' src/compiler:grpc_node_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_node_plugin '
} ,
' src/compiler:grpc_objective_c_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_objective_c_plugin '
} ,
' src/compiler:grpc_php_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_php_plugin '
} ,
' src/compiler:grpc_python_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_python_plugin '
} ,
' src/compiler:grpc_ruby_plugin ' : {
' language ' : ' c++ ' ,
' build ' : ' protoc ' ,
' secure ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_ruby_plugin '
} ,
# TODO(jtattermusch): consider adding grpc++_core_stats
# test support libraries
' test/core/util:grpc_test_util ' : {
' language ' : ' c ' ,
' build ' : ' private ' ,
' _RENAME ' : ' grpc_test_util '
} ,
' test/core/util:grpc_test_util_unsecure ' : {
' language ' : ' c ' ,
' build ' : ' private ' ,
' secure ' : False ,
' _RENAME ' : ' grpc_test_util_unsecure '
} ,
# TODO(jtattermusch): consider adding grpc++_test_util_unsecure - it doesn't seem to be used by bazel build (don't forget to set secure: False)
' test/cpp/util:test_config ' : {
' language ' : ' c++ ' ,
' build ' : ' private ' ,
' _RENAME ' : ' grpc++_test_config '
} ,
' test/cpp/util:test_util ' : {
' language ' : ' c++ ' ,
' build ' : ' private ' ,
' _RENAME ' : ' grpc++_test_util '
} ,
# end2end test support libraries
' test/core/end2end:end2end_tests ' : {
' language ' : ' c ' ,
' build ' : ' private ' ,
' secure ' : True ,
' _RENAME ' : ' end2end_tests '
} ,
' test/core/end2end:end2end_nosec_tests ' : {
' language ' : ' c ' ,
' build ' : ' private ' ,
' secure ' : False ,
' _RENAME ' : ' end2end_nosec_tests '
} ,
# benchmark support libraries
' test/cpp/microbenchmarks:helpers ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' defaults ' : ' benchmark ' ,
' _RENAME ' : ' benchmark_helpers '
} ,
' test/cpp/interop:interop_client ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' interop_client '
} ,
' test/cpp/interop:interop_server ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' interop_server '
} ,
' test/cpp/interop:xds_interop_client ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' xds_interop_client '
} ,
' test/cpp/interop:xds_interop_server ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' xds_interop_server '
} ,
' test/cpp/interop:http2_client ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' http2_client '
} ,
' test/cpp/qps:qps_json_driver ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' qps_json_driver '
} ,
' test/cpp/qps:qps_worker ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' qps_worker '
} ,
' test/cpp/util:grpc_cli ' : {
' language ' : ' c++ ' ,
' build ' : ' test ' ,
' run ' : False ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' grpc_cli '
} ,
# TODO(jtattermusch): create_jwt and verify_jwt breaks distribtests because it depends on grpc_test_utils and thus requires tests to be built
# For now it's ok to disable them as these binaries aren't very useful anyway.
#'test/core/security:create_jwt': { 'language': 'c', 'build': 'tool', '_TYPE': 'target', '_RENAME': 'grpc_create_jwt' },
#'test/core/security:verify_jwt': { 'language': 'c', 'build': 'tool', '_TYPE': 'target', '_RENAME': 'grpc_verify_jwt' },
# TODO(jtattermusch): add remaining tools such as grpc_print_google_default_creds_token (they are not used by bazel build)
# Fuzzers
' test/core/security:alts_credentials_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/security/corpus/alts_credentials_corpus ' ] ,
' maxlen ' : 2048 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' alts_credentials_fuzzer '
} ,
' test/core/end2end/fuzzers:client_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/end2end/fuzzers/client_fuzzer_corpus ' ] ,
' maxlen ' : 2048 ,
' dict ' : ' test/core/end2end/fuzzers/hpack.dictionary ' ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' client_fuzzer '
} ,
' test/core/transport/chttp2:hpack_parser_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/transport/chttp2/hpack_parser_corpus ' ] ,
' maxlen ' : 512 ,
' dict ' : ' test/core/end2end/fuzzers/hpack.dictionary ' ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' hpack_parser_fuzzer_test '
} ,
' test/core/http:request_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/http/request_corpus ' ] ,
' maxlen ' : 2048 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' http_request_fuzzer_test '
} ,
' test/core/http:response_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/http/response_corpus ' ] ,
' maxlen ' : 2048 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' http_response_fuzzer_test '
} ,
' test/core/json:json_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/json/corpus ' ] ,
' maxlen ' : 512 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' json_fuzzer_test '
} ,
' test/core/nanopb:fuzzer_response ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/nanopb/corpus_response ' ] ,
' maxlen ' : 128 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' nanopb_fuzzer_response_test '
} ,
' test/core/nanopb:fuzzer_serverlist ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/nanopb/corpus_serverlist ' ] ,
' maxlen ' : 128 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' nanopb_fuzzer_serverlist_test '
} ,
' test/core/slice:percent_decode_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/slice/percent_decode_corpus ' ] ,
' maxlen ' : 32 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' percent_decode_fuzzer '
} ,
' test/core/slice:percent_encode_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/slice/percent_encode_corpus ' ] ,
' maxlen ' : 32 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' percent_encode_fuzzer '
} ,
' test/core/end2end/fuzzers:server_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/end2end/fuzzers/server_fuzzer_corpus ' ] ,
' maxlen ' : 2048 ,
' dict ' : ' test/core/end2end/fuzzers/hpack.dictionary ' ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' server_fuzzer '
} ,
' test/core/security:ssl_server_fuzzer ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/security/corpus/ssl_server_corpus ' ] ,
' maxlen ' : 2048 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' ssl_server_fuzzer '
} ,
' test/core/client_channel:uri_fuzzer_test ' : {
' language ' : ' c++ ' ,
' build ' : ' fuzzer ' ,
' corpus_dirs ' : [ ' test/core/client_channel/uri_corpus ' ] ,
' maxlen ' : 128 ,
' _TYPE ' : ' target ' ,
' _RENAME ' : ' uri_fuzzer_test '
} ,
# TODO(jtattermusch): these fuzzers had no build.yaml equivalent
# test/core/compression:message_compress_fuzzer
# test/core/compression:message_decompress_fuzzer
# test/core/compression:stream_compression_fuzzer
# test/core/compression:stream_decompression_fuzzer
# test/core/slice:b64_decode_fuzzer
# test/core/slice:b64_encode_fuzzer
}
# We need a complete picture of all the targets and dependencies we're interested in
# so we run multiple bazel queries and merge the results.
_BAZEL_DEPS_QUERIES = [
' deps( " //test/... " ) ' ,
' deps( " //:all " ) ' ,
' deps( " //src/compiler/... " ) ' ,
' deps( " //src/proto/... " ) ' ,
]
# Step 1: run a bunch of "bazel query --output xml" queries to collect
# the raw build metadata from the bazel build.
# At the end of this step we will have a dictionary of bazel rules
# that are interesting to us (libraries, binaries, etc.) along
# with their most important metadata (sources, headers, dependencies)
bazel_rules = { }
for query in _BAZEL_DEPS_QUERIES :
bazel_rules . update (
_extract_rules_from_bazel_xml ( _bazel_query_xml_tree ( query ) ) )
# Step 1a: Knowing the transitive closure of dependencies will make
# the postprocessing simpler, so compute the info for all our rules.
_populate_transitive_deps ( bazel_rules )
# Step 2: Extract the known bazel cc_test tests. While most tests
# will be buildable with other build systems just fine, some of these tests
# would be too difficult to build and run with other build systems,
# so we simply the ones we don't want.
tests = _exclude_unwanted_cc_tests ( _extract_cc_tests ( bazel_rules ) )
# Step 3: Generate the "extra metadata" for all our build targets.
# While the bazel rules give us most of the information we need,
# the legacy "build.yaml" format requires some additional fields that
# we cannot get just from bazel alone (we call that "extra metadata").
# In this step, we basically analyze the build metadata we have from bazel
# and use heuristics to determine (and sometimes guess) the right
# extra metadata to use for each target.
#
# - For some targets (such as the public libraries, helper libraries
# and executables) determining the right extra metadata is hard to do
# automatically. For these targets, the extra metadata is supplied "manually"
# in form of the _BUILD_EXTRA_METADATA dictionary. That allows us to match
# the semantics of the legacy "build.yaml" as closely as possible.
#
# - For test binaries, it is possible to generate the "extra metadata" mostly
# automatically using a rule-based heuristic approach because most tests
# look and behave alike from the build's perspective.
#
# TODO(jtattermusch): Of course neither "_BUILD_EXTRA_METADATA" or
# the heuristic approach used for tests are ideal and they cannot be made
# to cover all possible situations (and are tailored to work with the way
# the grpc build currently works), but the idea was to start with something
# reasonably simple that matches the "build.yaml"-like semantics as closely
# as possible (to avoid changing too many things at once) and gradually get
# rid of the legacy "build.yaml"-specific fields one by one. Once that is done,
# only very little "extra metadata" would be needed and/or it would be trivial
# to generate it automatically.
all_extra_metadata = { }
all_extra_metadata . update ( _BUILD_EXTRA_METADATA )
all_extra_metadata . update (
_generate_build_extra_metadata_for_tests ( tests , bazel_rules ) )
# Step 4: Generate the final metadata for all the targets.
# This is done by combining the bazel build metadata and the "extra metadata"
# we obtained in the previous step.
# In this step, we also perform some interesting massaging of the target metadata
# to end up with a result that is as similar to the legacy build.yaml data
# as possible.
# - Some targets get renamed (to match the legacy build.yaml target names)
# - Some intermediate libraries get elided ("expanded") to better match the set
# of targets provided by the legacy build.yaml build
all_targets_dict = _generate_build_metadata ( all_extra_metadata , bazel_rules )
# Step 5: convert the dictionary with all the targets to a dict that has
# the desired "build.yaml"-like layout.
# TODO(jtattermusch): We use the custom "build.yaml"-like layout because
# currently all other build systems use that format as their source of truth.
# In the future, we can get rid of this custom & legacy format entirely,
# but we would need to update the generators for other build systems
# at the same time.
build_yaml_like = _convert_to_build_yaml_like ( all_targets_dict )
# detect and report some suspicious situations we've seen before
_detect_and_print_issues ( build_yaml_like )
# Step 6: Store the build_autogenerated.yaml in a deterministic (=sorted)
# and cleaned-up form.
# TODO(jtattermusch): The "cleanup" function is taken from the legacy
# build system (which used build.yaml) and can be eventually removed.
build_yaml_string = build_cleaner . cleaned_build_yaml_dict_as_string (
build_yaml_like )
with open ( ' build_autogenerated.yaml ' , ' w ' ) as file :
file . write ( build_yaml_string )