blob: aac6b59830e1fb3eeec44b0ebd9d8b452763a17b [file] [log] [blame]
#!/bin/bash
#
# Copyright 2018 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 v2 ---
# Copy-pasted from the Bazel Bash runfiles library v2.
set -uo pipefail; f=bazel_tools/tools/bash/runfiles/runfiles.bash
source "${RUNFILES_DIR:-/dev/null}/$f" 2>/dev/null || \
source "$(grep -sm1 "^$f " "${RUNFILES_MANIFEST_FILE:-/dev/null}" | cut -f2- -d' ')" 2>/dev/null || \
source "$0.runfiles/$f" 2>/dev/null || \
source "$(grep -sm1 "^$f " "$0.runfiles_manifest" | cut -f2- -d' ')" 2>/dev/null || \
source "$(grep -sm1 "^$f " "$0.exe.runfiles_manifest" | cut -f2- -d' ')" 2>/dev/null || \
{ echo>&2 "ERROR: cannot find $f"; exit 1; }; f=; set -e
# --- end runfiles.bash initialization v2 ---
source "$(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
add_to_bazelrc "build --package_path=%workspace%"
function assert_only_action_foo() {
expect_log_n "^action '" 1 "Expected exactly one action."
assert_contains "action.*foo" $1
assert_not_contains "action.*wrong_input" $1
assert_not_contains "action.*wrong_output" $1
assert_not_contains "action.*wrong_mnemonic" $1
assert_contains "Inputs: \[.*foo_matching_in.java.*\]" $1
assert_contains "Outputs: \[.*foo_matching_out.*\]" $1
assert_contains "Mnemonic: Genrule" $1
return 0
}
function assert_only_action_foo_textproto() {
expect_log_once "actions {"
assert_contains "input_dep_set_ids: \"0\"" $1
assert_contains "output_ids: \"2\"" $1
assert_contains "mnemonic: \"Genrule\"" $1
return 0
}
function test_basic_aquery() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = [":bar"],
outs = ["foo_out.txt"],
cmd = "cat $(SRCS) > $(OUTS)",
)
genrule(
name = "bar",
srcs = ["dummy.txt"],
outs = ["bar_out.txt"],
cmd = "echo unused > $(OUTS)",
)
EOF
echo "hello aquery" > "$pkg/in.txt"
bazel aquery "//$pkg:foo" > output 2> "$TEST_log" || fail "Expected success"
assert_contains "//$pkg:foo" output
assert_not_contains "//$pkg:bar" output
bazel aquery "deps(//$pkg:foo)" > output 2> "$TEST_log" \
|| fail "Expected success"
assert_contains "//$pkg:foo" output
assert_contains "//$pkg:bar" output
}
function test_aquery_text() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "bar",
srcs = ["dummy.txt"],
outs = ["bar_out.txt"],
cmd = "echo unused > $(OUTS)",
)
EOF
echo "hello aquery" > "$pkg/in.txt"
bazel aquery --output=text "//$pkg:bar" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_contains "action 'Executing genrule //$pkg:bar'" output
assert_contains "Mnemonic: Genrule" output
assert_contains "Target: //$pkg:bar" output
assert_contains "Configuration: .*-fastbuild" output
# Only check that the inputs/outputs/command line/environment exist, but not
# their actual contents since that would be too much.
assert_contains "Inputs: \[" output
assert_contains "Outputs: \[" output
if $is_windows; then
assert_contains "Command Line: .*bash\.exe" output
else
assert_contains "Command Line: (" output
fi
assert_contains "echo unused" output
bazel aquery --output=text --noinclude_commandline "//$pkg:bar" > output \
2> "$TEST_log" || fail "Expected success"
assert_not_contains "echo unused" output
}
function test_aquery_include_artifacts() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "bar",
srcs = ["dummy.txt"],
outs = ["bar_out.txt"],
cmd = "echo unused > $(OUTS)",
)
EOF
echo "hello aquery" > "$pkg/in.txt"
bazel aquery --include_artifacts "//$pkg:bar" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_contains "Inputs: \[" output
assert_contains "Outputs: \[" output
bazel aquery --noinclude_artifacts "//$pkg:bar" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_not_contains "Inputs: \[" output
assert_not_contains "Outputs: \[" output
}
function test_aquery_textproto() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "bar",
srcs = ["dummy.txt"],
outs = ["bar_out.txt"],
cmd = "echo unused > $(OUTS)",
)
EOF
echo "hello aquery" > "$pkg/in.txt"
bazel aquery --output=textproto "//$pkg:bar" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_contains "exec_path: \"$pkg/dummy.txt\"" output
assert_contains "nemonic: \"Genrule\"" output
assert_contains "mnemonic: \".*-fastbuild\"" output
assert_contains "echo unused" output
bazel aquery --output=textproto --noinclude_commandline "//$pkg:bar" > output \
2> "$TEST_log" || fail "Expected success"
assert_not_contains "echo unused" output
}
function test_aquery_skylark_env() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/rule.bzl" <<'EOF'
def _impl(ctx):
output = ctx.outputs.out
input = ctx.file.source
env = {}
env["foo"] = "bar"
ctx.actions.run_shell(
inputs = [input],
outputs = [output],
command = "cat '%s' > '%s'" % (input.path, output.path),
env = env,
)
copy = rule(
implementation = _impl,
attrs = {"source": attr.label(mandatory = True, allow_single_file = True)},
outputs = {"out": "%{name}.copy"},
)
EOF
cat > "$pkg/BUILD" <<'EOF'
load(":rule.bzl", "copy")
copy(
name = "goo",
source = "dummy.txt",
)
EOF
echo "hello aquery" > "$pkg/dummy.txt"
bazel aquery --output=text "//$pkg:goo" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_contains "Mnemonic: Action" output
assert_contains "Target: //$pkg:goo" output
assert_contains "Environment: \[.*foo=bar" output
}
function test_aquery_aspect() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/foobar.bzl" <<'EOF'
DummyProvider = provider(fields = {'dummies' : 'files'})
def _aspect_impl(target, ctx):
ins = []
if hasattr(ctx.rule.attr, 'srcs'):
ins = depset(transitive = [src.files for src in ctx.rule.attr.srcs]).to_list()
dummy = ctx.actions.declare_file("%s-aspect" % (target.label.name))
all_dummies = depset([dummy], transitive = [dep[DummyProvider].dummies for dep in ctx.rule.attr.deps])
ctx.actions.run_shell(inputs = ins, outputs = [dummy], command = "echo {} > {}".format(ctx.attr.bar, dummy.path))
return [DummyProvider(dummies = all_dummies)]
bar_aspect = aspect(implementation = _aspect_impl,
attr_aspects = ['deps'],
attrs = {
'bar' : attr.string(values = ['one', 'two', 'three']),
}
)
def _bar_impl(ctx):
ctx.actions.write(content = "hello world", output = ctx.outputs.out)
return struct(files = depset(transitive = [dep[DummyProvider].dummies for dep in ctx.attr.deps]))
bar_rule = rule(
implementation = _bar_impl,
attrs = {
'deps' : attr.label_list(aspects = [bar_aspect]),
'bar' : attr.string(default = 'two'),
},
outputs = {"out": "%{name}.count"},
)
def _foo_library_impl(ctx):
ctx.actions.run_shell(
command = "touch {}".format(ctx.outputs.out.path),
inputs = ctx.files.srcs,
outputs = [ctx.outputs.out],
)
foo_library = rule(
implementation = _foo_library_impl,
attrs = {
"srcs": attr.label_list(allow_files = True),
"deps": attr.label_list(),
},
outputs = {"out": "%{name}.foo_object"},
)
EOF
cat > "$pkg/BUILD" <<'EOF'
load(":foobar.bzl", "bar_rule", "foo_library")
foo_library(
name = "a",
srcs = ["a.foo"],
)
foo_library(
name = "b",
srcs = ["b.foo"],
deps = [":a"],
)
foo_library(
name = "c",
srcs = ["c.foo"],
deps = [":b"],
)
bar_rule(
name = 'bar',
deps = [':c'],
bar = 'three',
)
EOF
# Test without considering aspects.
bazel aquery --output=text "//$pkg:a" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
expect_log_n "^action '" 1 "Expected exactly one action when not considering aspects."
assert_not_contains "AspectDescriptors" output
# Test considering aspects but without triggering it.
bazel aquery --include_aspects --output=text "//$pkg:a" > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
expect_log_n "^action '" 1 "Expected exactly one action without universe scope."
assert_not_contains "AspectDescriptors" output
# Trigger the aspect.
bazel aquery --include_aspects --output=text "//$pkg:a" --universe_scope="//$pkg:bar" \
> output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
expect_log_n "^action '" 2 "Expected exactly two actions."
assert_contains "AspectDescriptors: \[.*foobar.bzl%bar_aspect.*bar='three'" output
assert_contains "Outputs: \[.*a.foo_object" output
assert_contains "Outputs: \[.*a-aspect" output
}
function test_aquery_all_filters_only_match_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_input",
srcs = ["wrong_input.java"],
outs = ["wi_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_output",
srcs = ["wo_matching_in.java"],
outs = ["wrong_out"],
cmd = "echo unused > $(OUTS)",
)
java_library(
name = "wrong_mnemonic",
srcs = ["wm_matching_in.java"],
)
EOF
QUERY="inputs(
'.*matching_in.java', outputs('.*matching_out', mnemonic('Genrule', //$pkg:all)))"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_inputs_filter_only_mach_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_input",
srcs = ["wrong_input.java"],
outs = ["wi_matching_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
QUERY="inputs('.*matching_in.java', //$pkg:all)"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_outputs_filter_only_mach_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_output",
srcs = ["wo_matching_in.java"],
outs = ["wrong_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
QUERY="outputs('.*matching_out', //$pkg:all)"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_mnemonic_filter_only_mach_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
java_library(
name = "wrong_mnemonic",
srcs = ["wm_matching_in.java"],
)
EOF
QUERY="mnemonic('.*rule', //$pkg:all)"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_inputs_filter_exact_filename_only_mach_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_input",
srcs = ["wrong_input.java"],
outs = ["wi_matching_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
QUERY="inputs('$pkg/foo_matching_in.java', //$pkg:all)"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_outputs_filter_exact_filename_only_mach_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_output",
srcs = ["wo_matching_in.java"],
outs = ["wrong_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
QUERY="outputs('.*/$pkg/foo_matching_out', //$pkg:all)"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_mnemonic_filter_exact_mnemonic_only_mach_foo() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
java_library(
name = "wrong_mnemonic",
srcs = ["wm_matching_in.java"],
)
EOF
QUERY="mnemonic('Genrule', //$pkg:all)"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_filters_non_aquery_enclosing_function_query_error() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
QUERY="deps(inputs('.*matching_in.java', outputs('.*matching_out', mnemonic('Genrule', //$pkg:all))))"
EXPECTED_LOG="ERROR: aquery filter functions (inputs, outputs, mnemonic) produce actions, and therefore can't be the input of other function types: deps
${QUERY}"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
&& fail "Expected failure"
expect_log "${EXPECTED_LOG}"
}
function test_aquery_filters_chain_inputs_only_match_one() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name='foo',
srcs=['foo_matching_in.java'],
outs=['foo_matching_out'],
cmd='cat $(SRCS) > $(OUTS)'
)
java_library(
name='bar',
srcs=['in_bar.java']
)
genrule(
name='foo2',
srcs=['foo_matching_in.java_not'],
outs=['foo_matching_out2'],
cmd='cat $(SRCS) > $(OUTS)'
)
EOF
QUERY="inputs('.*java', inputs('.*foo.*', //$pkg:all))"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_filters_chain_outputs_only_match_one() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name='foo',
srcs=['foo_matching_in.java'],
outs=['foo_matching_out'],
cmd='cat $(SRCS) > $(OUTS)'
)
genrule(
name='foo2',
srcs=['foo_matching_in.java'],
outs=['foo_matching_out_not'],
cmd='cat $(SRCS) > $(OUTS)'
)
genrule(
name='foo3',
srcs=['foo_matching_in.java'],
outs=['not_matching_out'],
cmd='cat $(SRCS) > $(OUTS)'
)
EOF
QUERY="outputs('.*out', outputs('.*foo.*', //$pkg:all))"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_filters_chain_mnemonic_only_match_one() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
java_library(
name='foo',
srcs=['Foo.java']
)
EOF
# java_library targets generate actions of the following mnemonics:
# - Javac
# - JavaSourceJar
# - Turbine
QUERY="mnemonic('Java.*', mnemonic('.*e.*', //$pkg:all))"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
expect_log_n "^action '" 1 "Expected exactly one action."
assert_contains "action.*foo" output
assert_contains "Inputs: \[.*Foo.java.*\]" output
assert_contains "Outputs: \[.*jar\]" output
assert_contains "Mnemonic: JavaSourceJar" output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_include_param_file_cc_binary() {
if is_darwin; then
return 0
fi
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
cc_binary(
name='foo',
srcs=['foo.cc']
)
EOF
# cc_binary targets write param files and use them in CppLinkActions.
QUERY="//$pkg:foo"
bazel aquery --output=text --include_param_files ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_contains "Command Line: " output
assert_contains "Params File Content (.*-2.params):" output
bazel aquery --output=textproto --include_param_files ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_include_param_file_starlark_rule() {
if is_darwin; then
return 0
fi
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/test_rule.bzl" <<'EOF'
def _impl(ctx):
args = ctx.actions.args()
args.add('--param_file_arg')
args.set_param_file_format('multiline')
args.use_param_file('--param_file=%s', use_always = True)
ctx.actions.run(
inputs = ctx.files.srcs,
outputs = [ctx.outputs.outfile],
executable = 'dummy',
arguments = ['--non-param-file-flag', args],
mnemonic = 'Action'
)
test_rule = rule(
implementation = _impl,
attrs = {
'srcs': attr.label_list(allow_files=True)
},
outputs = {
'outfile': '{name}.out'
},
)
EOF
cat > "$pkg/BUILD" <<'EOF'
load(':test_rule.bzl', 'test_rule')
test_rule(
name='foo',
srcs=['foo.java']
)
EOF
# Actions from Starlark rules don't explicitly write out param file,
# but includes all arguments (including those in the param file) in the command line.
QUERY="//$pkg:foo"
bazel aquery --output=text --include_param_files ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_not_contains "Params File Content" output
bazel aquery --output=textproto --include_param_files ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_include_param_file_not_enabled_by_default() {
if is_darwin; then
return 0
fi
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
cc_binary(
name='foo',
srcs=['foo.cc']
)
EOF
# cc_binary targets write param files and use them in CppLinkActions.
QUERY="//$pkg:foo"
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_not_contains "Params File Content" output
bazel aquery --output=textproto ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_cpp_action_template_treeartifact_output() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/a.bzl" <<'EOF'
def _impl(ctx):
directory = ctx.actions.declare_directory(ctx.attr.name + "_artifact.cc")
ctx.actions.run_shell(
inputs = ctx.files.srcs,
outputs = [directory],
mnemonic = 'MoveTreeArtifact',
command = "echo abc",
)
return [DefaultInfo(files = depset([directory]))]
cc_tree_artifact_files = rule(
implementation = _impl,
attrs = {
'srcs': attr.label_list(allow_files=True),
},
)
EOF
cat > "$pkg/BUILD" <<'EOF'
load(':a.bzl', 'cc_tree_artifact_files')
cc_tree_artifact_files(
name = 'tree_artifact',
srcs = ['a1.cc', 'a2.cc'],
)
cc_binary(
name = 'bin',
srcs = ['b1.h', 'b2.cc', ':tree_artifact'],
)
EOF
QUERY="//$pkg:all"
# Darwin and Windows only produce 1 CppCompileActionTemplate with PIC,
# while Linux has both PIC and non-PIC CppCompileActionTemplates
if (is_darwin || $is_windows); then
expected_num_actions=1
else
expected_num_actions=2
fi
bazel aquery --output=text ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
expect_log_n "CppCompileActionTemplate compiling .*.cc" $expected_num_actions "Expected exactly $expected_num_actions CppCompileActionTemplates."
assert_contains "Outputs:.*tree_artifact_artifact (TreeArtifact)\]$" output
bazel aquery --output=textproto --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_aspect_on_aspect() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/rule.bzl" <<'EOF'
IntermediateProvider = provider(
fields = {
'dummy_field': 'dummy field'
}
)
MyBaseRuleProvider = provider(
fields = {
'dummy_field': 'dummy field'
}
)
def _base_rule_impl(ctx):
return [MyBaseRuleProvider(dummy_field = 1)]
base_rule = rule(
attrs = {
'srcs': attr.label_list(allow_files = True),
},
implementation = _base_rule_impl
)
def _intermediate_aspect_imp(target, ctx):
if hasattr(ctx.rule.attr, 'srcs'):
out = ctx.actions.declare_file('out_jpl_{}'.format(target))
ctx.actions.run(
inputs = [f for src in ctx.rule.attr.srcs for f in src.files.to_list()],
outputs = [out],
executable = 'dummy',
mnemonic = 'MyIntermediateAspect'
)
return [IntermediateProvider(dummy_field = 1)]
intermediate_aspect = aspect(
attr_aspects = ['deps', 'exports'],
required_aspect_providers = [[MyBaseRuleProvider]],
provides = [IntermediateProvider],
implementation = _intermediate_aspect_imp,
)
def _int_rule_impl(ctx):
return struct()
intermediate_rule = rule(
attrs = {
'deps': attr.label_list(aspects = [intermediate_aspect]),
'srcs': attr.label_list(allow_files = True),
},
implementation = _int_rule_impl
)
def _aspect_impl(target, ctx):
if hasattr(ctx.rule.attr, 'srcs'):
out = ctx.actions.declare_file('out{}'.format(target))
ctx.actions.run(
inputs = [f for src in ctx.rule.attr.srcs for f in src.files.to_list()],
outputs = [out],
executable = 'dummy',
mnemonic = 'MyAspect'
)
return [struct()]
my_aspect = aspect(
attr_aspects = ['deps', 'exports'],
required_aspect_providers = [[IntermediateProvider], [MyBaseRuleProvider]],
attrs = {
'aspect_param': attr.string(default = 'x', values = ['x', 'y'])
},
implementation = _aspect_impl,
)
def _rule_impl(ctx):
return struct()
my_rule = rule(
attrs = {
'deps': attr.label_list(aspects = [my_aspect]),
'srcs': attr.label_list(allow_files = True),
'aspect_param': attr.string(default = 'x', values = ['x', 'y'])
},
implementation = _rule_impl
)
EOF
cat > "$pkg/BUILD" <<'EOF'
load(':rule.bzl', 'my_rule', 'intermediate_rule', 'base_rule')
base_rule(
name = 'x',
srcs = [':x.java'],
)
intermediate_rule(
name = 'int_target',
deps = [':x'],
)
my_rule(
name = 'my_target',
srcs = ['foo.java'],
aspect_param = 'y',
deps = [':int_target'],
)
EOF
QUERY="deps(//$pkg:my_target)"
bazel aquery --output=text --include_aspects ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_contains "Mnemonic: MyAspect" output
assert_contains "AspectDescriptors: \[.*:rule.bzl%my_aspect(aspect_param='y')" output
assert_contains "^.*->.*:rule.bzl%intermediate_aspect()\]$" output
bazel aquery --output=textproto --include_aspects --noinclude_commandline ${QUERY} > output \
2> "$TEST_log" || fail "Expected success"
}
function test_aquery_skyframe_state_no_filter_no_previous_build_empty() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
bazel clean
bazel aquery --output=textproto --skyframe_state > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_not_contains "actions" output
}
function test_aquery_skyframe_state_wrong_syntax() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
EXPECTED_LOG="Specifying build target(s) \[//some_target\] with --skyframe_state is currently not supported"
bazel aquery --output=textproto --skyframe_state "//some_target" > output 2> "$TEST_log" \
&& fail "Expected failure"
expect_log "${EXPECTED_LOG}"
bazel aquery --output=textproto --skyframe_state "inputs('pattern', //some_target)" > output 2> "$TEST_log" \
&& fail "Expected failure"
expect_log "${EXPECTED_LOG}"
}
function test_aquery_skyframe_state_no_filter_with_previous_build() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
bazel clean
bazel aquery --output=textproto --skyframe_state > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_not_contains "actions" output
bazel build --nobuild "//$pkg:foo"
bazel aquery --output=textproto --skyframe_state > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo_textproto output
}
function test_aquery_skyframe_state_with_filter_with_previous_build() {
local pkg="${FUNCNAME[0]}"
mkdir -p "$pkg" || fail "mkdir -p $pkg"
cat > "$pkg/BUILD" <<'EOF'
genrule(
name = "foo",
srcs = ["foo_matching_in.java"],
outs = ["foo_matching_out"],
cmd = "echo unused > $(OUTS)",
)
genrule(
name = "wrong_input",
srcs = ["wrong_input.java"],
outs = ["wi_matching_out"],
cmd = "echo unused > $(OUTS)",
)
EOF
QUERY="inputs('.*matching_in.java', outputs('.*matching_out', mnemonic('Genrule')))"
bazel clean
bazel build --nobuild "//$pkg:foo"
bazel aquery --output=textproto --skyframe_state ${QUERY} > output 2> "$TEST_log" \
|| fail "Expected success"
cat output >> "$TEST_log"
assert_only_action_foo_textproto output
}
run_suite "${PRODUCT_NAME} action graph query tests"