blob: 4d49349bad63bdcfaf2499a448e7fa76dbc1fb5f [file] [log] [blame]
#!/bin/bash
#
# Copyright 2016 The Bazel Authors. 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.
# --- begin runfiles.bash initialization ---
# Copy-pasted from Bazel's Bash runfiles library (tools/bash/runfiles/runfiles.bash).
set -euo pipefail
if [[ ! -d "${RUNFILES_DIR:-/dev/null}" && ! -f "${RUNFILES_MANIFEST_FILE:-/dev/null}" ]]; then
if [[ -f "$0.runfiles_manifest" ]]; then
export RUNFILES_MANIFEST_FILE="$0.runfiles_manifest"
elif [[ -f "$0.runfiles/MANIFEST" ]]; then
export RUNFILES_MANIFEST_FILE="$0.runfiles/MANIFEST"
elif [[ -f "$0.runfiles/bazel_tools/tools/bash/runfiles/runfiles.bash" ]]; then
export RUNFILES_DIR="$0.runfiles"
fi
fi
if [[ -f "${RUNFILES_DIR:-/dev/null}/bazel_tools/tools/bash/runfiles/runfiles.bash" ]]; then
source "${RUNFILES_DIR}/bazel_tools/tools/bash/runfiles/runfiles.bash"
elif [[ -f "${RUNFILES_MANIFEST_FILE:-/dev/null}" ]]; then
source "$(grep -m1 "^bazel_tools/tools/bash/runfiles/runfiles.bash " \
"$RUNFILES_MANIFEST_FILE" | cut -d ' ' -f 2-)"
else
echo >&2 "ERROR: cannot find @bazel_tools//tools/bash/runfiles:runfiles.bash"
exit 1
fi
# --- end runfiles.bash initialization ---
source "$(rlocation "io_bazel/src/test/shell/integration_test_setup.sh")" \
|| { echo "integration_test_setup.sh not found!" >&2; exit 1; }
case "$(uname -s | tr [:upper:] [:lower:])" in
msys*|mingw*|cygwin*)
declare -r is_windows=true
;;
*)
declare -r is_windows=false
;;
esac
if "$is_windows"; then
export MSYS_NO_PATHCONV=1
export MSYS2_ARG_CONV_EXCL="*"
fi
if ! type try_with_timeout >&/dev/null; then
# Bazel's testenv.sh defines try_with_timeout but the Google-internal version
# uses a different testenv.sh.
function try_with_timeout() { $* ; }
fi
#### TESTS #############################################################
function test_no_rebuild_on_irrelevant_header_change() {
local -r pkg=$FUNCNAME
mkdir -p $pkg
cat > $pkg/BUILD <<EOF
cc_binary(name="a", srcs=["a.cc"], deps=["b"])
cc_library(name="b", srcs=["b1.h", "b2.h"])
EOF
cat > $pkg/a.cc <<EOF
#include "$pkg/b1.h"
int main(void) {
return B_RETURN_VALUE;
}
EOF
cat > $pkg/b1.h <<EOF
#define B_RETURN_VALUE 31
EOF
cat > $pkg/b2.h <<EOF
=== BANANA ===
EOF
bazel build //$pkg:a || fail "build failed"
echo "CHERRY" > $pkg/b2.h
bazel build //$pkg:a >& $TEST_log || fail "build failed"
expect_not_log "Compiling $pkg/a.cc"
}
function test_new_header_is_required() {
local -r pkg=$FUNCNAME
mkdir -p $pkg
cat > $pkg/BUILD <<EOF
cc_binary(name="a", srcs=["a.cc"], deps=[":b"])
cc_library(name="b", srcs=["b1.h", "b2.h"])
EOF
cat > $pkg/a.cc << EOF
#include "$pkg/b1.h"
int main(void) {
return B1;
}
EOF
cat > $pkg/b1.h <<EOF
#define B1 3
EOF
cat > $pkg/b2.h <<EOF
#define B2 4
EOF
bazel build //$pkg:a || fail "build failed"
cat > $pkg/a.cc << EOF
#include "$pkg/b1.h"
#include "$pkg/b2.h"
int main(void) {
return B1 + B2;
}
EOF
bazel build //$pkg:a || fail "build failed"
}
function test_no_recompile_on_shutdown() {
local -r pkg=$FUNCNAME
mkdir -p $pkg
cat > $pkg/BUILD <<EOF
cc_binary(name="a", srcs=["a.cc"], deps=["b"])
cc_library(name="b", includes=["."], hdrs=["b.h"])
EOF
cat > $pkg/a.cc <<EOF
#include "b.h"
int main(void) {
return B_RETURN_VALUE;
}
EOF
cat > $pkg/b.h <<EOF
#define B_RETURN_VALUE 31
EOF
bazel build -s //$pkg:a >& $TEST_log || fail "build failed"
expect_log "Compiling $pkg/a.cc"
try_with_timeout bazel shutdown || fail "shutdown failed"
bazel build -s //$pkg:a >& $TEST_log || fail "build failed"
expect_not_log "Compiling $pkg/a.cc"
}
# host_crosstool_top should default to the initial value of crosstool_top,
# not the value after a transition.
function test_default_host_crosstool_top() {
local -r pkg=$FUNCNAME
# Define two different toolchain suites to use with crosstool_top.
mkdir -p $pkg/toolchain
cat >> $pkg/toolchain/BUILD <<EOF
package(default_visibility = ["//visibility:public"])
load(":toolchain.bzl", "toolchains")
cc_library(
name = "link_extra_lib",
)
cc_library(
name = "malloc",
)
filegroup(
name = "empty",
srcs = [],
)
[toolchains(id) for id in [
"alpha",
"beta",
]]
EOF
cat >> $pkg/toolchain/toolchain.bzl <<EOF
load(
"${TOOLS_REPOSITORY}//tools/cpp:cc_toolchain_config_lib.bzl",
"action_config",
"flag_group",
"flag_set",
"make_variable",
)
def _get_make_variables():
return []
def _get_action_configs():
return []
def _impl(ctx):
out = ctx.actions.declare_file(ctx.label.name)
ctx.actions.write(out, "Fake executable")
return [
cc_common.create_cc_toolchain_config_info(
ctx = ctx,
target_cpu = ctx.attr.cpu,
compiler = ctx.attr.compiler,
toolchain_identifier = ctx.attr.toolchain_identifier,
host_system_name = ctx.attr.host_system_name,
target_system_name = ctx.attr.target_system_name,
target_libc = ctx.attr.target_libc,
abi_version = ctx.attr.abi_version,
abi_libc_version = ctx.attr.abi_libc_version,
action_configs = _get_action_configs(),
make_variables = _get_make_variables(),
),
DefaultInfo(
executable = out,
),
]
cc_toolchain_config = rule(
implementation = _impl,
attrs = {
"cpu": attr.string(mandatory = True),
"compiler": attr.string(mandatory = True),
"toolchain_identifier": attr.string(mandatory = True),
"host_system_name": attr.string(mandatory = True),
"target_system_name": attr.string(mandatory = True),
"target_libc": attr.string(mandatory = True),
"abi_version": attr.string(mandatory = True),
"abi_libc_version": attr.string(mandatory = True),
},
provides = [CcToolchainConfigInfo],
executable = True,
)
def toolchains(id):
native.cc_toolchain_suite(
name = "%s" % id,
toolchains = {
"fake": ":cc-toolchain-%s" % id,
},
)
name = "toolchain-%s" % id
cc_toolchain_config(
name = "cc-toolchain-config-%s" % id,
abi_libc_version = name,
abi_version = name,
compiler = name,
cpu = name,
host_system_name = name,
target_libc = name,
target_system_name = name,
toolchain_identifier = name,
)
native.cc_toolchain(
name = "cc-toolchain-%s" % id,
all_files = ":empty",
ar_files = ":empty",
as_files = ":empty",
compiler_files = ":empty",
dwp_files = ":empty",
linker_files = ":empty",
objcopy_files = ":empty",
strip_files = ":empty",
toolchain_config = ":cc-toolchain-config-%s" % id,
toolchain_identifier = name,
)
EOF
# Create an outer target, which uses a transition to depend on an inner.
# The inner then depends on a tool in the exec configuration.
# Even though te outer->inner dependency changes the value of crosstool_top,
# the tool should use the initial crosstool.
cat >> $pkg/BUILD <<EOF
load(":display.bzl", "inner", "outer", "tool")
outer(
name = "outer",
inner = ":inner",
)
inner(
name = "inner",
tool = ":tool",
)
tool(name = "tool")
EOF
cat >> $pkg/display.bzl <<EOF
def find_cc_toolchain(ctx):
return ctx.attr._cc_toolchain[cc_common.CcToolchainInfo]
# Custom transition to change the crosstool.
def _crosstool_transition_impl(settings, attr):
_ignore = (settings, attr)
return {"//command_line_option:crosstool_top": "//${pkg}/toolchain:beta"}
crosstool_transition = transition(
implementation = _crosstool_transition_impl,
inputs = [],
outputs = ["//command_line_option:crosstool_top"],
)
# Outer display rule.
def _outer_impl(ctx):
cc_toolchain = find_cc_toolchain(ctx)
print("Outer %s found cc toolchain %s" % (ctx.label, cc_toolchain.target_gnu_system_name))
pass
outer = rule(
implementation = _outer_impl,
attrs = {
"inner": attr.label(mandatory = True, cfg = crosstool_transition),
"_cc_toolchain": attr.label(
default = Label(
"${TOOLS_REPOSITORY}//tools/cpp:current_cc_toolchain",
),
),
"_whitelist_function_transition": attr.label(default = "${TOOLS_REPOSITORY}//tools/whitelists/function_transition_whitelist"),
},
)
# Inner display rule.
def _inner_impl(ctx):
cc_toolchain = find_cc_toolchain(ctx)
print("Inner %s found cc toolchain %s" % (ctx.label, cc_toolchain.target_gnu_system_name))
pass
inner = rule(
implementation = _inner_impl,
attrs = {
"tool": attr.label(mandatory = True, cfg = "exec"),
"_cc_toolchain": attr.label(
default = Label(
"${TOOLS_REPOSITORY}//tools/cpp:current_cc_toolchain",
),
),
},
)
# Tool rule.
def _tool_impl(ctx):
cc_toolchain = find_cc_toolchain(ctx)
print("Tool %s found cc toolchain %s" % (ctx.label, cc_toolchain.target_gnu_system_name))
pass
tool = rule(
implementation = _tool_impl,
attrs = {
"_cc_toolchain": attr.label(
default = Label(
"${TOOLS_REPOSITORY}//tools/cpp:current_cc_toolchain",
),
),
},
)
EOF
bazel build \
--noincompatible_enable_cc_toolchain_resolution \
--cpu=fake --host_cpu=fake \
--crosstool_top=//$pkg/toolchain:alpha \
//$pkg:outer >& $TEST_log || fail "build failed"
expect_log "Outer @//$pkg:outer found cc toolchain toolchain-alpha"
expect_log "Inner @//$pkg:inner found cc toolchain toolchain-beta"
expect_log "Tool @//$pkg:tool found cc toolchain toolchain-alpha"
}
run_suite "Tests for Bazel's C++ rules"