src/test/shell/integration/py_args_escaping_test.sh - bazel - Git at Google

 #!/bin/bash
 #
 # Copyright 2019 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; }

 # `uname` returns the current platform, e.g "MSYS_NT-10.0" or "Linux".
 # `tr` converts all upper case letters to lower case.
 # `case` matches the result if the `uname | tr` expression to string prefixes
 # that use the same wildcards as names do in Bash, i.e. "msys*" matches strings
 # starting with "msys", and "*" matches everything (it's the default case).
 case "$(uname -s | tr [:upper:] [:lower:])" in
 msys*)
   # As of 2019-04-08, Bazel on Windows only supports MSYS Bash.
   declare -r is_windows=true
   ;;
 *)
   declare -r is_windows=false
   ;;
 esac

 if "$is_windows"; then
   # Disable MSYS path conversion that converts path-looking command arguments to
   # Windows paths (even if they arguments are not in fact paths).
   export MSYS_NO_PATHCONV=1
   export MSYS2_ARG_CONV_EXCL="*"
   declare -r EXE_EXT=".exe"
 else
   declare -r EXE_EXT=""
 fi

 # ----------------------------------------------------------------------
 # HELPER FUNCTIONS
 # ----------------------------------------------------------------------

 # Writes a python file that prints all arguments (except argv[0]).
 #
 # Args:
 # $1: directory (workspace and package path) where the file will be written
 function create_py_file_that_prints_args() {
   local -r ws="$1"; shift
   mkdir -p "$ws" || fail "mkdir -p $ws"
   cat >"$ws/a.py" <<'eof'
 from __future__ import print_function
 import sys
 for i in range(1, len(sys.argv)):
     print("arg%d=(%s)" % (i, sys.argv[i]))
 eof
 }

 # Writes a BUILD file for a py_binary with an untokenizable "args" entry.
 #
 # Args:
 # $1: directory (workspace and package path) where the file will be written
 function create_build_file_for_untokenizable_args() {
   local -r ws="$1"; shift
   mkdir -p "$ws" || fail "mkdir -p $ws"
   cat >"$ws/BUILD" <<'eof'
 py_binary(
     name = "cannot_tokenize",
     srcs = ["a.py"],
     main = "a.py",
     args = ["'abc"],
 )
 eof
 }

 # Writes a BUILD file for a py_binary with many different "args" entries.
 #
 # Use this together with assert_*_output_of_the_program_with_many_args().
 #
 # Args:
 # $1: directory (package path) where the file will be written
 function create_build_file_with_many_args() {
   local -r ws="$1"; shift
   mkdir -p "$ws" || fail "mkdir -p $ws"
   cat >"$ws/BUILD" <<'eof'
 py_binary(
     name = "x",
     srcs = ["a.py"],
     main = "a.py",
     args = [
         "''",
         "' '",
         "'\"'",
         "'\"\\'",
         "'\\'",
         "'\\\"'",
         "'with space'",
         "'with^caret'",
         "'space ^caret'",
         "'caret^ space'",
         "'with\"quote'",
         "'with\\backslash'",
         "'one\\ backslash and \\space'",
         "'two\\\\backslashes'",
         "'two\\\\ backslashes \\\\and space'",
         "'one\\\"x'",
         "'two\\\\\"x'",
         "'a \\ b'",
         "'a \\\" b'",
         "'A'",
         "'\"a\"'",
         "'B C'",
         "'\"b c\"'",
         "'D\"E'",
         "'\"d\"e\"'",
         "'C:\\F G'",
         "'\"C:\\f g\"'",
         "'C:\\H\"I'",
         "'\"C:\\h\"i\"'",
         "'C:\\J\\\"K'",
         "'\"C:\\j\\\"k\"'",
         "'C:\\L M '",
         "'\"C:\\l m \"'",
         "'C:\\N O\\'",
         "'\"C:\\n o\\\"'",
         "'C:\\P Q\\ '",
         "'\"C:\\p q\\ \"'",
         "'C:\\R\\S\\'",
         "'C:\\R x\\S\\'",
         "'\"C:\\r\\s\\\"'",
         "'\"C:\\r x\\s\\\"'",
         "'C:\\T U\\W\\'",
         "'\"C:\\t u\\w\\\"'",
         "a",
         r"b\\\"",
         "c",
     ],
 )
 eof
 }

 # Asserts that the $TEST_log contains all py_binary args as argN=(VALUE).
 #
 # See create_build_file_with_many_args() and create_py_file_that_prints_args().
 function assert_good_output_of_the_program_with_many_args() {
   expect_log 'arg1=()'
   expect_log 'arg2=( )'
   expect_log 'arg3=(")'
   expect_log 'arg4=("\\)'
   expect_log 'arg5=(\\)'
   expect_log 'arg6=(\\")'
   expect_log 'arg7=(with space)'
   expect_log 'arg8=(with^caret)'
   expect_log 'arg9=(space ^caret)'
   expect_log 'arg10=(caret^ space)'
   expect_log 'arg11=(with"quote)'
   expect_log 'arg12=(with\\backslash)'
   expect_log 'arg13=(one\\ backslash and \\space)'
   expect_log 'arg14=(two\\\\backslashes)'
   expect_log 'arg15=(two\\\\ backslashes \\\\and space)'
   expect_log 'arg16=(one\\"x)'
   expect_log 'arg17=(two\\\\"x)'
   expect_log 'arg18=(a \\ b)'
   expect_log 'arg19=(a \\" b)'
   expect_log 'arg20=(A)'
   expect_log 'arg21=("a")'
   expect_log 'arg22=(B C)'
   expect_log 'arg23=("b c")'
   expect_log 'arg24=(D"E)'
   expect_log 'arg25=("d"e")'
   expect_log 'arg26=(C:\\F G)'
   expect_log 'arg27=("C:\\f g")'
   expect_log 'arg28=(C:\\H"I)'
   expect_log 'arg29=("C:\\h"i")'
   expect_log 'arg30=(C:\\J\\"K)'
   expect_log 'arg31=("C:\\j\\"k")'
   expect_log 'arg32=(C:\\L M )'
   expect_log 'arg33=("C:\\l m ")'
   expect_log 'arg34=(C:\\N O\\)'
   expect_log 'arg35=("C:\\n o\\")'
   expect_log 'arg36=(C:\\P Q\\ )'
   expect_log 'arg37=("C:\\p q\\ ")'
   expect_log 'arg38=(C:\\R\\S\\)'
   expect_log 'arg39=(C:\\R x\\S\\)'
   expect_log 'arg40=("C:\\r\\s\\")'
   expect_log 'arg41=("C:\\r x\\s\\")'
   expect_log 'arg42=(C:\\T U\\W\\)'
   expect_log 'arg43=("C:\\t u\\w\\")'
   expect_log 'arg44=(a)'
   expect_log 'arg45=(b\\")'
   expect_log 'arg46=(c)'
 }

 # ----------------------------------------------------------------------
 # TESTS
 # ----------------------------------------------------------------------

 function test_args_escaping() {
   local -r ws="$TEST_TMPDIR/${FUNCNAME[0]}"  # unique workspace for this test
   mkdir -p "$ws"
   create_workspace_with_default_repos "$ws/WORKSPACE"

   create_py_file_that_prints_args "$ws"
   create_build_file_with_many_args "$ws"

   ( cd "$ws"
     bazel --batch run --verbose_failures :x &>"$TEST_log" \
       || fail "expected success"
   )
   assert_good_output_of_the_program_with_many_args
   rm "$TEST_log"

   ( cd "$ws"
     bazel run --verbose_failures :x &>"$TEST_log" || fail "expected success"
   )
   assert_good_output_of_the_program_with_many_args
   rm "$TEST_log"
 }

 function test_untokenizable_args() {
   local -r ws="$TEST_TMPDIR/${FUNCNAME[0]}"  # unique workspace for this test
   mkdir -p "$ws"
   create_workspace_with_default_repos "$ws/WORKSPACE"

   create_py_file_that_prints_args "$ws"
   create_build_file_for_untokenizable_args "$ws"

   ( cd "$ws"
     bazel run --verbose_failures :cannot_tokenize \
       2>"$TEST_log" && fail "expected failure" || true
   )
   expect_log "ERROR:.*in args attribute of py_binary rule.*unterminated quotation"
 }

 function test_host_config() {
   local -r ws="$TEST_TMPDIR/${FUNCNAME[0]}"  # unique workspace for this test
   mkdir -p "$ws"
   create_workspace_with_default_repos "$ws/WORKSPACE"

   cat >"$ws/BUILD" <<'eof'
 load("//:rule.bzl", "run_host_configured")

 run_host_configured(
     name = "x",
     tool = ":print_args",
     out = "x.out",
 )

 py_binary(
     name = "print_args",
     srcs = ["print_args.py"],
 )
 eof

   cat >"$ws/print_args.py" <<'eof'
 import sys
 with open(sys.argv[1], "wt") as f:
     for i in range(2, len(sys.argv)):
         f.write("arg%d=(%s)" % (i, sys.argv[i]))
 eof

   cat >"$ws/rule.bzl" <<'eof'
 def _impl(ctx):
     tool_inputs, tool_input_mfs = ctx.resolve_tools(tools = [ctx.attr.tool])
     ctx.actions.run(
         outputs = [ctx.outputs.out],
         tools = tool_inputs,
         executable = ctx.executable.tool,
         arguments = [ctx.outputs.out.path, "a", "", "\"b \\\"c", "z"],
         use_default_shell_env = True,
         input_manifests = tool_input_mfs,
     )
     return DefaultInfo(files = depset(items = [ctx.outputs.out]))

 run_host_configured = rule(
     implementation = _impl,
     attrs = {
         "tool": attr.label(executable = True, cfg = "host"),
         "out": attr.output(),
     },
 )
 eof

   ( cd "$ws"
     bazel build --verbose_failures :x &>"$TEST_log" || fail "expected success"
     cat bazel-bin/x.out >> "$TEST_log"
   )
   # This output is right.
   expect_log 'arg2=(a)'
   expect_log 'arg3=()'
   expect_log 'arg4=("b \\"c)'
   expect_log 'arg5=(z)'
 }

 run_suite "Tests about how Bazel passes py_binary.args to the binary"
	#!/bin/bash
	#
	# Copyright 2019 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; }

	# `uname` returns the current platform, e.g "MSYS_NT-10.0" or "Linux".
	# `tr` converts all upper case letters to lower case.
	# `case` matches the result if the `uname \| tr` expression to string prefixes
	# that use the same wildcards as names do in Bash, i.e. "msys*" matches strings
	# starting with "msys", and "*" matches everything (it's the default case).
	case "$(uname -s \| tr [:upper:] [:lower:])" in
	msys*)
	# As of 2019-04-08, Bazel on Windows only supports MSYS Bash.
	declare -r is_windows=true
	;;
	*)
	declare -r is_windows=false
	;;
	esac

	if "$is_windows"; then
	# Disable MSYS path conversion that converts path-looking command arguments to
	# Windows paths (even if they arguments are not in fact paths).
	export MSYS_NO_PATHCONV=1
	export MSYS2_ARG_CONV_EXCL="*"
	declare -r EXE_EXT=".exe"
	else
	declare -r EXE_EXT=""
	fi

	# ----------------------------------------------------------------------
	# HELPER FUNCTIONS
	# ----------------------------------------------------------------------

	# Writes a python file that prints all arguments (except argv[0]).
	#
	# Args:
	# $1: directory (workspace and package path) where the file will be written
	function create_py_file_that_prints_args() {
	local -r ws="$1"; shift
	mkdir -p "$ws" \|\| fail "mkdir -p $ws"
	cat >"$ws/a.py" <<'eof'
	from __future__ import print_function
	import sys
	for i in range(1, len(sys.argv)):
	print("arg%d=(%s)" % (i, sys.argv[i]))
	eof
	}

	# Writes a BUILD file for a py_binary with an untokenizable "args" entry.
	#
	# Args:
	# $1: directory (workspace and package path) where the file will be written
	function create_build_file_for_untokenizable_args() {
	local -r ws="$1"; shift
	mkdir -p "$ws" \|\| fail "mkdir -p $ws"
	cat >"$ws/BUILD" <<'eof'
	py_binary(
	name = "cannot_tokenize",
	srcs = ["a.py"],
	main = "a.py",
	args = ["'abc"],
	)
	eof
	}

	# Writes a BUILD file for a py_binary with many different "args" entries.
	#
	# Use this together with assert_*_output_of_the_program_with_many_args().
	#
	# Args:
	# $1: directory (package path) where the file will be written
	function create_build_file_with_many_args() {
	local -r ws="$1"; shift
	mkdir -p "$ws" \|\| fail "mkdir -p $ws"
	cat >"$ws/BUILD" <<'eof'
	py_binary(
	name = "x",
	srcs = ["a.py"],
	main = "a.py",
	args = [
	"''",
	"' '",
	"'\"'",
	"'\"\\'",
	"'\\'",
	"'\\\"'",
	"'with space'",
	"'with^caret'",
	"'space ^caret'",
	"'caret^ space'",
	"'with\"quote'",
	"'with\\backslash'",
	"'one\\ backslash and \\space'",
	"'two\\\\backslashes'",
	"'two\\\\ backslashes \\\\and space'",
	"'one\\\"x'",
	"'two\\\\\"x'",
	"'a \\ b'",
	"'a \\\" b'",
	"'A'",
	"'\"a\"'",
	"'B C'",
	"'\"b c\"'",
	"'D\"E'",
	"'\"d\"e\"'",
	"'C:\\F G'",
	"'\"C:\\f g\"'",
	"'C:\\H\"I'",
	"'\"C:\\h\"i\"'",
	"'C:\\J\\\"K'",
	"'\"C:\\j\\\"k\"'",
	"'C:\\L M '",
	"'\"C:\\l m \"'",
	"'C:\\N O\\'",
	"'\"C:\\n o\\\"'",
	"'C:\\P Q\\ '",
	"'\"C:\\p q\\ \"'",
	"'C:\\R\\S\\'",
	"'C:\\R x\\S\\'",
	"'\"C:\\r\\s\\\"'",
	"'\"C:\\r x\\s\\\"'",
	"'C:\\T U\\W\\'",
	"'\"C:\\t u\\w\\\"'",
	"a",
	r"b\\\"",
	"c",
	],
	)
	eof
	}

	# Asserts that the $TEST_log contains all py_binary args as argN=(VALUE).
	#
	# See create_build_file_with_many_args() and create_py_file_that_prints_args().
	function assert_good_output_of_the_program_with_many_args() {
	expect_log 'arg1=()'
	expect_log 'arg2=( )'
	expect_log 'arg3=(")'
	expect_log 'arg4=("\\)'
	expect_log 'arg5=(\\)'
	expect_log 'arg6=(\\")'
	expect_log 'arg7=(with space)'
	expect_log 'arg8=(with^caret)'
	expect_log 'arg9=(space ^caret)'
	expect_log 'arg10=(caret^ space)'
	expect_log 'arg11=(with"quote)'
	expect_log 'arg12=(with\\backslash)'
	expect_log 'arg13=(one\\ backslash and \\space)'
	expect_log 'arg14=(two\\\\backslashes)'
	expect_log 'arg15=(two\\\\ backslashes \\\\and space)'
	expect_log 'arg16=(one\\"x)'
	expect_log 'arg17=(two\\\\"x)'
	expect_log 'arg18=(a \\ b)'
	expect_log 'arg19=(a \\" b)'
	expect_log 'arg20=(A)'
	expect_log 'arg21=("a")'
	expect_log 'arg22=(B C)'
	expect_log 'arg23=("b c")'
	expect_log 'arg24=(D"E)'
	expect_log 'arg25=("d"e")'
	expect_log 'arg26=(C:\\F G)'
	expect_log 'arg27=("C:\\f g")'
	expect_log 'arg28=(C:\\H"I)'
	expect_log 'arg29=("C:\\h"i")'
	expect_log 'arg30=(C:\\J\\"K)'
	expect_log 'arg31=("C:\\j\\"k")'
	expect_log 'arg32=(C:\\L M )'
	expect_log 'arg33=("C:\\l m ")'
	expect_log 'arg34=(C:\\N O\\)'
	expect_log 'arg35=("C:\\n o\\")'
	expect_log 'arg36=(C:\\P Q\\ )'
	expect_log 'arg37=("C:\\p q\\ ")'
	expect_log 'arg38=(C:\\R\\S\\)'
	expect_log 'arg39=(C:\\R x\\S\\)'
	expect_log 'arg40=("C:\\r\\s\\")'
	expect_log 'arg41=("C:\\r x\\s\\")'
	expect_log 'arg42=(C:\\T U\\W\\)'
	expect_log 'arg43=("C:\\t u\\w\\")'
	expect_log 'arg44=(a)'
	expect_log 'arg45=(b\\")'
	expect_log 'arg46=(c)'
	}

	# ----------------------------------------------------------------------
	# TESTS
	# ----------------------------------------------------------------------

	function test_args_escaping() {
	local -r ws="$TEST_TMPDIR/${FUNCNAME[0]}" # unique workspace for this test
	mkdir -p "$ws"
	create_workspace_with_default_repos "$ws/WORKSPACE"

	create_py_file_that_prints_args "$ws"
	create_build_file_with_many_args "$ws"

	( cd "$ws"
	bazel --batch run --verbose_failures :x &>"$TEST_log" \
	\|\| fail "expected success"
	)
	assert_good_output_of_the_program_with_many_args
	rm "$TEST_log"

	( cd "$ws"
	bazel run --verbose_failures :x &>"$TEST_log" \|\| fail "expected success"
	)
	assert_good_output_of_the_program_with_many_args
	rm "$TEST_log"
	}

	function test_untokenizable_args() {
	local -r ws="$TEST_TMPDIR/${FUNCNAME[0]}" # unique workspace for this test
	mkdir -p "$ws"
	create_workspace_with_default_repos "$ws/WORKSPACE"

	create_py_file_that_prints_args "$ws"
	create_build_file_for_untokenizable_args "$ws"

	( cd "$ws"
	bazel run --verbose_failures :cannot_tokenize \
	2>"$TEST_log" && fail "expected failure" \|\| true
	)
	expect_log "ERROR:.in args attribute of py_binary rule.unterminated quotation"
	}

	function test_host_config() {
	local -r ws="$TEST_TMPDIR/${FUNCNAME[0]}" # unique workspace for this test
	mkdir -p "$ws"
	create_workspace_with_default_repos "$ws/WORKSPACE"

	cat >"$ws/BUILD" <<'eof'
	load("//:rule.bzl", "run_host_configured")

	run_host_configured(
	name = "x",
	tool = ":print_args",
	out = "x.out",
	)

	py_binary(
	name = "print_args",
	srcs = ["print_args.py"],
	)
	eof

	cat >"$ws/print_args.py" <<'eof'
	import sys
	with open(sys.argv[1], "wt") as f:
	for i in range(2, len(sys.argv)):
	f.write("arg%d=(%s)" % (i, sys.argv[i]))
	eof

	cat >"$ws/rule.bzl" <<'eof'
	def _impl(ctx):
	tool_inputs, tool_input_mfs = ctx.resolve_tools(tools = [ctx.attr.tool])
	ctx.actions.run(
	outputs = [ctx.outputs.out],
	tools = tool_inputs,
	executable = ctx.executable.tool,
	arguments = [ctx.outputs.out.path, "a", "", "\"b \\\"c", "z"],
	use_default_shell_env = True,
	input_manifests = tool_input_mfs,
	)
	return DefaultInfo(files = depset(items = [ctx.outputs.out]))

	run_host_configured = rule(
	implementation = _impl,
	attrs = {
	"tool": attr.label(executable = True, cfg = "host"),
	"out": attr.output(),
	},
	)
	eof

	( cd "$ws"
	bazel build --verbose_failures :x &>"$TEST_log" \|\| fail "expected success"
	cat bazel-bin/x.out >> "$TEST_log"
	)
	# This output is right.
	expect_log 'arg2=(a)'
	expect_log 'arg3=()'
	expect_log 'arg4=("b \\"c)'
	expect_log 'arg5=(z)'
	}

	run_suite "Tests about how Bazel passes py_binary.args to the binary"