// Copyright 2013 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "chrome/tools/profile_reset/jtl_compiler.h" #include #include "base/values.h" #include "chrome/browser/profile_resetter/jtl_foundation.h" #include "chrome/browser/profile_resetter/jtl_instructions.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" namespace { const char kTestHashSeed[] = "test-hash-seed"; // Helpers ------------------------------------------------------------------- std::string GetHash(const std::string& input) { return jtl_foundation::Hasher(kTestHashSeed).GetHash(input); } static std::string EncodeUint32(uint32 value) { std::string bytecode; for (int i = 0; i < 4; ++i) { bytecode.push_back(static_cast(value & 0xFFu)); value >>= 8; } return bytecode; } // Tests --------------------------------------------------------------------- // Note: Parsing and parsing-related errors are unit-tested separately in more // detail in "jtl_parser_unittest.cc". Here, most of the time, we assume that // creating the parse tree works. TEST(JtlCompiler, CompileSingleInstructions) { struct TestCase { std::string source_code; std::string expected_bytecode; } cases[] = { {"go(\"foo\").", OP_NAVIGATE(GetHash("foo"))}, {"go(\"has whitespace\t\").", OP_NAVIGATE(GetHash("has whitespace\t"))}, {"any.", OP_NAVIGATE_ANY}, {"back.", OP_NAVIGATE_BACK}, {"store_bool(\"name\", true).", OP_STORE_BOOL(GetHash("name"), VALUE_TRUE)}, {"compare_stored_bool(\"name\", true, false).", OP_COMPARE_STORED_BOOL(GetHash("name"), VALUE_TRUE, VALUE_FALSE)}, {"store_hash(\"name\", \"" + GetHash("value") + "\").", OP_STORE_HASH(GetHash("name"), GetHash("value"))}, {"store_hashed(\"name\", \"value\").", OP_STORE_HASH(GetHash("name"), GetHash("value"))}, {"store_node_bool(\"name\").", OP_STORE_NODE_BOOL(GetHash("name"))}, {"store_node_hash(\"name\").", OP_STORE_NODE_HASH(GetHash("name"))}, {"store_node_registerable_domain_hash(\"name\").", OP_STORE_NODE_REGISTERABLE_DOMAIN_HASH(GetHash("name"))}, {"compare_stored_hashed(\"name\", \"value\", \"default\").", OP_COMPARE_STORED_HASH( GetHash("name"), GetHash("value"), GetHash("default"))}, {"compare_bool(false).", OP_COMPARE_NODE_BOOL(VALUE_FALSE)}, {"compare_bool(true).", OP_COMPARE_NODE_BOOL(VALUE_TRUE)}, {"compare_hashed(\"foo\").", OP_COMPARE_NODE_HASH(GetHash("foo"))}, {"compare_hashed_not(\"foo\").", OP_COMPARE_NODE_HASH_NOT(GetHash("foo"))}, {"compare_to_stored_bool(\"name\").", OP_COMPARE_NODE_TO_STORED_BOOL(GetHash("name"))}, {"compare_to_stored_hash(\"name\").", OP_COMPARE_NODE_TO_STORED_HASH(GetHash("name"))}, {"compare_substring_hashed(\"pattern\").", OP_COMPARE_NODE_SUBSTRING( GetHash("pattern"), EncodeUint32(7), EncodeUint32(766))}, {"break.", OP_STOP_EXECUTING_SENTENCE}, {"break;", OP_STOP_EXECUTING_SENTENCE + OP_END_OF_SENTENCE}}; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { SCOPED_TRACE(cases[i].source_code); std::string bytecode; EXPECT_TRUE(JtlCompiler::Compile( cases[i].source_code, kTestHashSeed, &bytecode, NULL)); EXPECT_EQ(cases[i].expected_bytecode, bytecode); } } TEST(JtlCompiler, CompileEntireProgram) { const char kSourceCode[] = "// Store \"x\"=true if path is found.\n" "go(\"foo\").go(\"bar\").store_bool(\"x\", true);\n" "// ...\n" "// Store \"y\"=\"1\" if above value is set.\n" "compare_stored_bool(\"x\", true, false).store_hashed(\"y\", \"1\");\n"; std::string expected_bytecode = OP_NAVIGATE(GetHash("foo")) + OP_NAVIGATE(GetHash("bar")) + OP_STORE_BOOL(GetHash("x"), VALUE_TRUE) + OP_END_OF_SENTENCE + OP_COMPARE_STORED_BOOL(GetHash("x"), VALUE_TRUE, VALUE_FALSE) + OP_STORE_HASH(GetHash("y"), GetHash("1")) + OP_END_OF_SENTENCE; std::string bytecode; EXPECT_TRUE( JtlCompiler::Compile(kSourceCode, kTestHashSeed, &bytecode, NULL)); EXPECT_EQ(expected_bytecode, bytecode); } TEST(JtlCompiler, InvalidOperationName) { const char kSourceCode[] = "any()\n.\nnon_existent_instruction\n(\n)\n;\n"; std::string bytecode; JtlCompiler::CompileError error; EXPECT_FALSE( JtlCompiler::Compile(kSourceCode, kTestHashSeed, &bytecode, &error)); EXPECT_THAT(error.context, testing::StartsWith("non_existent_instruction")); EXPECT_EQ(2u, error.line_number); EXPECT_EQ(JtlCompiler::CompileError::INVALID_OPERATION_NAME, error.error_code); } TEST(JtlCompiler, InvalidArgumentsCount) { const char* kSourceCodes[] = { "any().\nstore_bool(\"name\", true, \"superfluous argument\");\n", "any().\nstore_bool(\"name\");"}; // missing argument for (size_t i = 0; i < ARRAYSIZE_UNSAFE(kSourceCodes); ++i) { SCOPED_TRACE(kSourceCodes[i]); std::string bytecode; JtlCompiler::CompileError error; EXPECT_FALSE(JtlCompiler::Compile( kSourceCodes[i], kTestHashSeed, &bytecode, &error)); EXPECT_THAT(error.context, testing::StartsWith("store_bool")); EXPECT_EQ(1u, error.line_number); EXPECT_EQ(JtlCompiler::CompileError::INVALID_ARGUMENT_COUNT, error.error_code); } } TEST(JtlCompiler, InvalidArgumentType) { struct TestCase { std::string expected_context_prefix; std::string source_code; } cases[] = { {"compare_bool", "any()\n.\ncompare_bool(\"foo\");"}, {"compare_bool", "any()\n.\ncompare_bool(\"01234567890123456789012345678901\");"}, {"compare_hashed", "any()\n.\ncompare_hashed(false);"}, {"store_hash", "any()\n.\nstore_hash(\"name\", false);"}, {"store_hash", "any()\n.\nstore_hash(\"name\", \"foo\");"}, {"compare_stored_bool", "any()\n.\ncompare_stored_bool(\"name\", \"need a bool\", false);"}, {"compare_stored_bool", "any()\n.\ncompare_stored_bool(\"name\", false, \"need a bool\");"}, {"compare_substring_hashed", "any()\n.\ncompare_substring_hashed(true);"}}; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { SCOPED_TRACE(cases[i].source_code); std::string bytecode; JtlCompiler::CompileError error; EXPECT_FALSE(JtlCompiler::Compile( cases[i].source_code, kTestHashSeed, &bytecode, &error)); EXPECT_THAT(error.context, testing::StartsWith(cases[i].expected_context_prefix)); EXPECT_EQ(2u, error.line_number); EXPECT_EQ(JtlCompiler::CompileError::INVALID_ARGUMENT_TYPE, error.error_code); } } TEST(JtlCompiler, InvalidArgumentValue) { struct TestCase { std::string expected_context_prefix; std::string source_code; } cases[] = { {"compare_substring_hashed", "compare_substring_hashed(\"\");"}}; for (size_t i = 0; i < ARRAYSIZE_UNSAFE(cases); ++i) { SCOPED_TRACE(cases[i].source_code); std::string bytecode; JtlCompiler::CompileError error; EXPECT_FALSE(JtlCompiler::Compile( cases[i].source_code, kTestHashSeed, &bytecode, &error)); EXPECT_THAT(error.context, testing::StartsWith(cases[i].expected_context_prefix)); EXPECT_EQ(0u, error.line_number); EXPECT_EQ(JtlCompiler::CompileError::INVALID_ARGUMENT_VALUE, error.error_code); } } TEST(JtlCompiler, MistmatchedDoubleQuotes) { const char kSourceCode[] = "any().\ngo(\"ok\", \"stray quote).break();"; std::string bytecode; JtlCompiler::CompileError error; EXPECT_FALSE( JtlCompiler::Compile(kSourceCode, kTestHashSeed, &bytecode, &error)); EXPECT_EQ(1u, error.line_number); EXPECT_EQ(JtlCompiler::CompileError::MISMATCHED_DOUBLE_QUOTES, error.error_code); } TEST(JtlCompiler, ParsingError) { const char kSourceCode[] = "any().\ngo()missing_separator();"; std::string bytecode; JtlCompiler::CompileError error; EXPECT_FALSE( JtlCompiler::Compile(kSourceCode, kTestHashSeed, &bytecode, &error)); EXPECT_THAT(error.context, testing::StartsWith("go")); EXPECT_EQ(1u, error.line_number); EXPECT_EQ(JtlCompiler::CompileError::PARSING_ERROR, error.error_code); } } // namespace