platform_system_core/init/tokenizer_test.cpp
Tom Cherry 85f2bc930a Cleanup some trivial TODOs.
1) There's no reason or way to support boot_clock for waiting for
   property changes, since the underlying futex_wait uses
   CLOCK_MONOTONIC.  We probably wouldn't want boot_clock even if it
   did, since it doesn't make sense to consider the time a device was
   suspending in the timeout for waiting for a property to change.
2) The init tokenizer has been essentially unchanged for a decade,
   there's no motivation to 'fix' it to not require a trailing
   newline.
3) The ueventd TODO regarding moving vendor specific ueventd.rc
   entries out of rootdir has been fixed.

Test: n/a
Change-Id: I3b68e3d2f25cbd539f9f8ff526669b8af04d833d
2020-04-10 10:15:30 -07:00

164 lines
5.5 KiB
C++

//
// Copyright (C) 2018 The Android Open Source Project
//
// 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.
//
#include "tokenizer.h"
#include <string>
#include <vector>
#include <gtest/gtest.h>
namespace android {
namespace init {
namespace {
void RunTest(const std::string& data, const std::vector<std::vector<std::string>>& expected_tokens) {
auto data_copy = std::string{data};
data_copy.push_back('\n');
data_copy.push_back('\0');
parse_state state;
state.line = 0;
state.ptr = data_copy.data();
state.nexttoken = 0;
std::vector<std::string> current_line;
std::vector<std::vector<std::string>> tokens;
while (true) {
switch (next_token(&state)) {
case T_EOF:
EXPECT_EQ(expected_tokens, tokens) << data;
return;
case T_NEWLINE:
tokens.emplace_back(std::move(current_line));
current_line.clear();
break;
case T_TEXT:
current_line.emplace_back(state.text);
break;
}
}
}
} // namespace
TEST(tokenizer, null) {
RunTest("", {{}});
}
TEST(tokenizer, simple_oneline) {
RunTest("one two\tthree\rfour", {{"one", "two", "three", "four"}});
}
TEST(tokenizer, simple_multiline) {
RunTest("1 2 3\n4 5 6\n7 8 9", {{"1", "2", "3"}, {"4", "5", "6"}, {"7", "8", "9"}});
}
TEST(tokenizer, preceding_space) {
// Preceding spaces are ignored.
RunTest(" 1 2 3\n\t\t\t\t4 5 6\n\r\r\r\r7 8 9",
{{"1", "2", "3"}, {"4", "5", "6"}, {"7", "8", "9"}});
}
TEST(tokenizer, comments) {
// Entirely commented lines still produce a T_NEWLINE token for tracking line count.
RunTest("1 2 3\n#4 5 6\n7 8 9", {{"1", "2", "3"}, {}, {"7", "8", "9"}});
RunTest("#1 2 3\n4 5 6\n7 8 9", {{}, {"4", "5", "6"}, {"7", "8", "9"}});
RunTest("1 2 3\n4 5 6\n#7 8 9", {{"1", "2", "3"}, {"4", "5", "6"}, {}});
RunTest("1 2 #3\n4 #5 6\n#7 8 9", {{"1", "2"}, {"4"}, {}});
}
TEST(tokenizer, control_chars) {
// Literal \n, \r, \t, and \\ produce the control characters \n, \r, \t, and \\ respectively.
// Literal \? produces ? for all other character '?'
RunTest(R"(1 token\ntoken 2)", {{"1", "token\ntoken", "2"}});
RunTest(R"(1 token\rtoken 2)", {{"1", "token\rtoken", "2"}});
RunTest(R"(1 token\ttoken 2)", {{"1", "token\ttoken", "2"}});
RunTest(R"(1 token\\token 2)", {{"1", "token\\token", "2"}});
RunTest(R"(1 token\btoken 2)", {{"1", "tokenbtoken", "2"}});
RunTest(R"(1 token\n 2)", {{"1", "token\n", "2"}});
RunTest(R"(1 token\r 2)", {{"1", "token\r", "2"}});
RunTest(R"(1 token\t 2)", {{"1", "token\t", "2"}});
RunTest(R"(1 token\\ 2)", {{"1", "token\\", "2"}});
RunTest(R"(1 token\b 2)", {{"1", "tokenb", "2"}});
RunTest(R"(1 \ntoken 2)", {{"1", "\ntoken", "2"}});
RunTest(R"(1 \rtoken 2)", {{"1", "\rtoken", "2"}});
RunTest(R"(1 \ttoken 2)", {{"1", "\ttoken", "2"}});
RunTest(R"(1 \\token 2)", {{"1", "\\token", "2"}});
RunTest(R"(1 \btoken 2)", {{"1", "btoken", "2"}});
RunTest(R"(1 \n 2)", {{"1", "\n", "2"}});
RunTest(R"(1 \r 2)", {{"1", "\r", "2"}});
RunTest(R"(1 \t 2)", {{"1", "\t", "2"}});
RunTest(R"(1 \\ 2)", {{"1", "\\", "2"}});
RunTest(R"(1 \b 2)", {{"1", "b", "2"}});
}
TEST(tokenizer, cr_lf) {
// \ before \n, \r, or \r\n is interpreted as a line continuation
// Extra whitespace on the next line is eaten, except \r unlike in the above tests.
RunTest("lf\\\ncont", {{"lfcont"}});
RunTest("lf\\\n \t\t\t\tcont", {{"lfcont"}});
RunTest("crlf\\\r\ncont", {{"crlfcont"}});
RunTest("crlf\\\r\n \t\t\t\tcont", {{"crlfcont"}});
RunTest("cr\\\rcont", {{"crcont"}});
RunTest("lfspace \\\ncont", {{"lfspace", "cont"}});
RunTest("lfspace \\\n \t\t\t\tcont", {{"lfspace", "cont"}});
RunTest("crlfspace \\\r\ncont", {{"crlfspace", "cont"}});
RunTest("crlfspace \\\r\n \t\t\t\tcont", {{"crlfspace", "cont"}});
RunTest("crspace \\\rcont", {{"crspace", "cont"}});
}
TEST(tokenizer, quoted) {
RunTest("\"quoted simple string\"", {{"quoted simple string"}});
// Unterminated quotes just return T_EOF without any T_NEWLINE.
RunTest("\"unterminated quoted string", {});
RunTest("\"1 2 3\"\n \"unterminated quoted string", {{"1 2 3"}});
// Escaping quotes is not allowed and are treated as an unterminated quoted string.
RunTest("\"quoted escaped quote\\\"\"", {});
RunTest("\"quoted escaped\\\" quote\"", {});
RunTest("\"\\\"quoted escaped quote\"", {});
RunTest("\"quoted control characters \\n \\r \\t \\\\ \\b \\\r \\\n \r \n\"",
{{"quoted control characters \\n \\r \\t \\\\ \\b \\\r \\\n \r \n"}});
RunTest("\"quoted simple string\" \"second quoted string\"",
{{"quoted simple string", "second quoted string"}});
RunTest("\"# comment quoted string\"", {{"# comment quoted string"}});
RunTest("\"Adjacent \"\"quoted strings\"", {{"Adjacent quoted strings"}});
}
} // namespace init
} // namespace android