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# Copyright 2014 Google Inc. All rights reserved.
#
# 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.
java_filetype = FileType([".java"])
jar_filetype = FileType([".jar"])
srcjar_filetype = FileType([".jar", ".srcjar"])
def is_windows(fragments):
return fragments.cpp.compiler.startswith("windows_")
def path_separator(ctx):
if is_windows(ctx.fragments):
return ";"
else:
return ":"
# This is a quick and dirty rule to make Bazel compile itself. It's not
# production ready.
def java_library_impl(ctx):
javac_options = ctx.fragments.java.default_javac_flags
class_jar = ctx.outputs.class_jar
compile_time_jars = set(order="link")
runtime_jars = set(order="link")
for dep in ctx.attr.deps:
compile_time_jars += dep.compile_time_jars
runtime_jars += dep.runtime_jars
jars = jar_filetype.filter(ctx.files.jars)
neverlink_jars = jar_filetype.filter(ctx.files.neverlink_jars)
compile_time_jars += jars + neverlink_jars
runtime_jars += jars
compile_time_jars_list = list(compile_time_jars) # TODO: This is weird.
build_output = class_jar.path + ".build_output"
java_output = class_jar.path + ".build_java"
javalist_output = class_jar.path + ".build_java_list"
sources = ctx.files.srcs
sources_param_file = ctx.new_file(
ctx.configuration.bin_dir, class_jar, "-2.params")
ctx.file_action(
output = sources_param_file,
content = cmd_helper.join_paths("\n", set(sources)),
executable = False)
# Cleaning build output directory
cmd = "set -e;rm -rf " + build_output + " " + java_output + " " + javalist_output + "\n"
cmd += "mkdir " + build_output + " " + java_output + "\n"
files = " @" + sources_param_file.path
if ctx.files.srcjars:
files += " @" + javalist_output
for file in ctx.files.srcjars:
cmd += "%s tf %s | grep '\.java$' | sed 's|^|%s/|' >> %s\n" % (ctx.file._jar.path, file.path, java_output, javalist_output)
cmd += "unzip %s -d %s >/dev/null\n" % (file.path, java_output)
if ctx.files.srcs or ctx.files.srcjars:
cmd += ctx.file._javac.path
cmd += " " + " ".join(javac_options)
if compile_time_jars:
cmd += " -classpath '" + cmd_helper.join_paths(path_separator(ctx), compile_time_jars) + "'"
cmd += " -d " + build_output + files + "\n"
# We haven't got a good story for where these should end up, so
# stick them in the root of the jar.
for r in ctx.files.resources:
cmd += "cp %s %s\n" % (r.path, build_output)
cmd += (ctx.file._jar.path + " cf " + class_jar.path + " -C " + build_output + " .\n" +
"touch " + build_output + "\n")
ctx.action(
inputs = (sources + compile_time_jars_list + [sources_param_file] +
ctx.files.resources + ctx.files.srcjars),
outputs = [class_jar],
mnemonic='Javac',
command=cmd,
use_default_shell_env=True)
runfiles = ctx.runfiles(collect_data = True)
return struct(files = set([class_jar]),
compile_time_jars = compile_time_jars + [class_jar],
runtime_jars = runtime_jars + [class_jar],
runfiles = runfiles)
def java_binary_impl(ctx):
library_result = java_library_impl(ctx)
deploy_jar = ctx.outputs.deploy_jar
manifest = ctx.outputs.manifest
build_output = deploy_jar.path + ".build_output"
main_class = ctx.attr.main_class
ctx.file_action(
output = manifest,
content = "Main-Class: " + main_class + "\n",
executable = False)
# Cleaning build output directory
cmd = "set -e;rm -rf " + build_output + ";mkdir " + build_output + "\n"
for jar in library_result.runtime_jars:
cmd += "unzip -qn " + jar.path + " -d " + build_output + "\n"
cmd += (ctx.file._jar.path + " cmf " + manifest.path + " " +
deploy_jar.path + " -C " + build_output + " .\n" +
"touch " + build_output + "\n")
ctx.action(
inputs=list(library_result.runtime_jars) + [manifest],
outputs=[deploy_jar],
mnemonic='Deployjar',
command=cmd,
use_default_shell_env=True)
# Write the wrapper.
executable = ctx.outputs.executable
ctx.file_action(
output = executable,
content = '\n'.join([
"#!/bin/bash",
"# autogenerated - do not edit.",
"case \"$0\" in",
"/*) self=\"$0\" ;;",
"*) self=\"$PWD/$0\";;",
"esac",
"",
"if [[ -z \"$JAVA_RUNFILES\" ]]; then",
" if [[ -e \"${self}.runfiles\" ]]; then",
" export JAVA_RUNFILES=\"${self}.runfiles\"",
" fi",
" if [[ -n \"$JAVA_RUNFILES\" ]]; then",
" export TEST_SRCDIR=${TEST_SRCDIR:-$JAVA_RUNFILES}",
" fi",
"fi",
"",
"jvm_bin=%s" % (ctx.file._java.path),
"if [[ ! -x ${jvm_bin} ]]; then",
" jvm_bin=$(which java)",
"fi",
# We extract the .so into a temp dir. If only we could mmap
# directly from the zip file.
"DEPLOY=$(dirname $self)/$(basename %s)" % deploy_jar.path,
# This works both on Darwin and Linux, with the darwin path
# looking like tmp.XXXXXXXX.{random}
"SO_DIR=$(mktemp -d -t tmp.XXXXXXXXX)",
"function cleanup() {",
" rm -rf ${SO_DIR}",
"}",
"trap cleanup EXIT",
"unzip -q -d ${SO_DIR} ${DEPLOY} \"*.so\" \"*.dll\" \"*.dylib\" >& /dev/null",
("${jvm_bin} -Djava.library.path=${SO_DIR} %s -jar $DEPLOY \"$@\""
% ' '.join(ctx.attr.jvm_flags)) ,
"",
]),
executable = True)
runfiles = ctx.runfiles(files = [
deploy_jar, executable] + ctx.files.jvm, collect_data = True)
files_to_build = set([deploy_jar, manifest, executable])
files_to_build += library_result.files
return struct(files = files_to_build, runfiles = runfiles)
def java_import_impl(ctx):
# TODO(bazel-team): Why do we need to filter here? The attribute
# already says only jars are allowed.
jars = set(jar_filetype.filter(ctx.files.jars))
neverlink_jars = set(jar_filetype.filter(ctx.files.neverlink_jars))
runfiles = ctx.runfiles(collect_data = True)
return struct(files = jars,
compile_time_jars = jars + neverlink_jars,
runtime_jars = jars,
runfiles = runfiles)
java_library_attrs = {
"_java": attr.label(default=Label("//tools/jdk:java"), single_file=True),
"_javac": attr.label(default=Label("//tools/jdk:javac"), single_file=True),
"_jar": attr.label(default=Label("//tools/jdk:jar"), single_file=True),
"data": attr.label_list(allow_files=True, cfg=DATA_CFG),
"resources": attr.label_list(allow_files=True),
"srcs": attr.label_list(allow_files=java_filetype),
"jars": attr.label_list(allow_files=jar_filetype),
"neverlink_jars": attr.label_list(allow_files=jar_filetype),
"srcjars": attr.label_list(allow_files=srcjar_filetype),
"deps": attr.label_list(
allow_files=False,
providers = ["compile_time_jars", "runtime_jars"]),
}
java_library = rule(
java_library_impl,
attrs = java_library_attrs,
outputs = {
"class_jar": "lib%{name}.jar",
})
# A copy to avoid conflict with native rule.
bootstrap_java_library = rule(
java_library_impl,
attrs = java_library_attrs,
outputs = {
"class_jar": "lib%{name}.jar",
})
java_binary_attrs_common = java_library_attrs + {
"jvm_flags": attr.string_list(),
"jvm": attr.label(default=Label("//tools/jdk:jdk"), allow_files=True),
}
java_binary_attrs = java_binary_attrs_common + {
"main_class": attr.string(mandatory=True),
}
java_binary_outputs = {
"class_jar": "lib%{name}.jar",
"deploy_jar": "%{name}_deploy.jar",
"manifest": "%{name}_MANIFEST.MF"
}
java_binary = rule(java_binary_impl,
executable = True,
attrs = java_binary_attrs,
outputs = java_binary_outputs)
# A copy to avoid conflict with native rule
bootstrap_java_binary = rule(java_binary_impl,
executable = True,
attrs = java_binary_attrs,
outputs = java_binary_outputs)
java_test = rule(java_binary_impl,
executable = True,
attrs = java_binary_attrs_common + {
"main_class": attr.string(default="org.junit.runner.JUnitCore"),
# TODO(bazel-team): it would be better if we could offer a
# test_class attribute, but the "args" attribute is hard
# coded in the bazel infrastructure.
},
outputs = java_binary_outputs,
test = True,
)
java_import = rule(
java_import_impl,
attrs = {
"jars": attr.label_list(allow_files=jar_filetype),
"srcjar": attr.label(allow_files=srcjar_filetype),
"neverlink_jars": attr.label_list(allow_files=jar_filetype, default=[]),
})
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