mirror of
https://github.com/boostorg/mysql.git
synced 2026-02-17 01:42:17 +00:00
1d429dc1ba
- Replaced (de)serialize signatures and implementations - Now all basic types are structs with a value member (ValueHolder) - Added (de)serialization for tuples - Added boost::system based error handling - Temporarily dropped all functionality except (de)serialization - Re-wrote unit tests for fixed size types and int_lenenc, dropped tests for other types
324 lines
10 KiB
C++
324 lines
10 KiB
C++
/*
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* deserialization.cpp
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*
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* Created on: Jun 29, 2019
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* Author: ruben
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*/
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#include "mysql/impl/basic_serialization.hpp"
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#include <gtest/gtest.h>
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#include <string>
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using namespace testing;
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using namespace std;
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using namespace mysql;
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using namespace mysql::detail;
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namespace
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{
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// Fixed size integers
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template <typename T> constexpr std::size_t int_size = sizeof(T::value);
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template <> constexpr std::size_t int_size<int3> = 3;
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template <> constexpr std::size_t int_size<int6> = 6;
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template <typename T> constexpr T expected_int_value();
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template <> constexpr int1 expected_int_value<int1>() { return int1{0xff}; };
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template <> constexpr int2 expected_int_value<int2>() { return int2{0xfeff}; };
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template <> constexpr int3 expected_int_value<int3>() { return int3{0xfdfeff}; };
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template <> constexpr int4 expected_int_value<int4>() { return int4{0xfcfdfeff}; };
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template <> constexpr int6 expected_int_value<int6>() { return int6{0xfafbfcfdfeff}; };
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template <> constexpr int8 expected_int_value<int8>() { return int8{0xf8f9fafbfcfdfeff}; };
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template <> constexpr int1_signed expected_int_value<int1_signed>() { return int1_signed{-1}; };
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template <> constexpr int2_signed expected_int_value<int2_signed>() { return int2_signed{-0x101}; };
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template <> constexpr int4_signed expected_int_value<int4_signed>() { return int4_signed{-0x3020101}; };
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template <> constexpr int8_signed expected_int_value<int8_signed>() { return int8_signed{-0x0706050403020101}; };
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// TODO: signed integers
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template <typename T>
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struct DeserializeFixedSizeInt : public ::testing::Test {
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uint8_t buffer [16];
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T value;
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DeserializeFixedSizeInt():
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buffer { 0xff, 0xfe, 0xfd, 0xfc, 0xfb, 0xfa, 0xf9, 0xf8, 0xf7 }
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{
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memset(&value, 1, sizeof(value)); // catch unititialized memory errors
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};
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};
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using FixedSizeIntTypes = ::testing::Types<
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int1,
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int2,
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int3,
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int4,
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int6,
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int8,
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int1_signed,
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int2_signed,
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int4_signed,
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int8_signed
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>;
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TYPED_TEST_SUITE(DeserializeFixedSizeInt, FixedSizeIntTypes);
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TYPED_TEST(DeserializeFixedSizeInt, ExactSize_GetsValueIncrementsIterator)
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{
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DeserializationContext ctx (this->buffer, this->buffer + int_size<TypeParam>, 0);
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auto err = deserialize(this->value, ctx);
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EXPECT_EQ(ctx.first(), this->buffer+int_size<TypeParam>);
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EXPECT_EQ(this->value.value, expected_int_value<TypeParam>().value);
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EXPECT_EQ(err, Error::ok);
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}
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TYPED_TEST(DeserializeFixedSizeInt, ExtraSize_GetsValueIncrementsIterator)
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{
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DeserializationContext ctx (this->buffer, this->buffer + 1 + int_size<TypeParam>, 0);
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auto err = deserialize(this->value, ctx);
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EXPECT_EQ(ctx.first(), this->buffer+int_size<TypeParam>);
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EXPECT_EQ(this->value.value, expected_int_value<TypeParam>().value);
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EXPECT_EQ(err, Error::ok);
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}
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TYPED_TEST(DeserializeFixedSizeInt, Overflow_ReturnsError)
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{
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DeserializationContext ctx (this->buffer, this->buffer - 1 + int_size<TypeParam>, 0);
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auto err = deserialize(this->value, ctx);
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EXPECT_EQ(err, Error::incomplete_message);
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}
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// Length-encoded integer
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struct DeserializeLengthEncodedIntParams
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{
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uint8_t first_byte;
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uint64_t expected;
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size_t buffer_size;
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};
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struct DeserializeLengthEncodedInt : public ::testing::TestWithParam<DeserializeLengthEncodedIntParams>
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{
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uint8_t buffer [10];
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int_lenenc value;
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int_lenenc initial_value;
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DeserializeLengthEncodedInt():
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buffer { GetParam().first_byte, 0xff, 0xfe, 0xfd, 0xfc, 0xfb, 0xfa, 0xf9, 0xf8 }
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{
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memset(&value, 1, sizeof(value));
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initial_value = value;
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}
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};
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TEST_P(DeserializeLengthEncodedInt, ExactSize_GetsValueIncrementsIterator)
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{
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DeserializationContext ctx (buffer, buffer + GetParam().buffer_size, 0);
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auto err = deserialize(value, ctx);
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EXPECT_EQ(ctx.first(), buffer + GetParam().buffer_size);
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EXPECT_EQ(value.value, GetParam().expected);
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EXPECT_EQ(err, Error::ok);
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}
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TEST_P(DeserializeLengthEncodedInt, ExtraSize_GetsValueIncrementsIterator)
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{
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DeserializationContext ctx (buffer, end(buffer), 0);
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auto err = deserialize(value, ctx);
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EXPECT_EQ(ctx.first(), buffer + GetParam().buffer_size);
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EXPECT_EQ(value.value, GetParam().expected);
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EXPECT_EQ(err, Error::ok);
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}
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TEST_P(DeserializeLengthEncodedInt, Overflow_ReturnsError)
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{
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DeserializationContext ctx (buffer, buffer + GetParam().buffer_size - 1, 0);
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auto err = deserialize(value, ctx);
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EXPECT_EQ(err, Error::incomplete_message);
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}
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INSTANTIATE_TEST_SUITE_P(Default, DeserializeLengthEncodedInt, ::testing::Values(
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DeserializeLengthEncodedIntParams{0x0a, 0x0a, 1},
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DeserializeLengthEncodedIntParams{0xfc, 0xfeff, 3},
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DeserializeLengthEncodedIntParams{0xfd, 0xfdfeff, 4},
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DeserializeLengthEncodedIntParams{0xfe, 0xf8f9fafbfcfdfeff, 9}
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), [](const auto& v) { return "first_byte_" + to_string(v.param.first_byte); });
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// Fixed size string
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struct DeserializeFixedSizeString : public testing::Test
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{
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uint8_t buffer [6] { 'a', 'b', '\0', 'd', 'e', 'f' };
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string_fixed<5> value;
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DeserializeFixedSizeString()
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{
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memset(value.value.data(), 1, value.value.size());
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}
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string_view value_as_view() const { return string_view(value.value.data(), value.value.size()); }
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};
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TEST_F(DeserializeFixedSizeString, ExactSize_CopiesValueIncrementsIterator)
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{
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DeserializationContext ctx (begin(buffer), begin(buffer) + 5, 0);
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auto err = deserialize(value, ctx);
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EXPECT_EQ(ctx.first(), begin(buffer) + 5);
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EXPECT_EQ(value_as_view(), string_view("ab\0de", 5));
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EXPECT_EQ(err, Error::ok);
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}
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TEST_F(DeserializeFixedSizeString, ExtraSize_CopiesValueIncrementsIterator)
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{
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DeserializationContext ctx (begin(buffer), end(buffer), 0);
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auto err = deserialize(value, ctx);
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EXPECT_EQ(ctx.first(), begin(buffer) + 5);
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EXPECT_EQ(value_as_view(), string_view("ab\0de", 5));
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EXPECT_EQ(err, Error::ok);
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}
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TEST_F(DeserializeFixedSizeString, Overflow_ReturnsError)
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{
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DeserializationContext ctx (begin(buffer), begin(buffer) + 4, 0);
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auto err = deserialize(value, ctx);
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EXPECT_EQ(err, Error::incomplete_message);
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}
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// Null-terminated string
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/*struct DeserializeNullTerminatedString : public testing::Test
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{
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uint8_t buffer [4] { 'a', 'b', '\0', 'd' };
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string_null value;
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};
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TEST_F(DeserializeNullTerminatedString, ExactSize_GetsValueIncrementsIterator)
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{
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ReadIterator res = deserialize(begin(buffer), begin(buffer) + 3, value);
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EXPECT_EQ(value.value, "ab");
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EXPECT_EQ(res, begin(buffer) + 3);
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}
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TEST_F(DeserializeNullTerminatedString, ExtraSize_GetsValueIncrementsIterator)
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{
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ReadIterator res = deserialize(begin(buffer), end(buffer), value);
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EXPECT_EQ(value.value, "ab");
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EXPECT_EQ(res, begin(buffer) + 3);
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}
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TEST_F(DeserializeNullTerminatedString, Overflow_ThrowsOutOfRange)
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{
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EXPECT_THROW(deserialize(begin(buffer), begin(buffer) + 2, value), out_of_range);
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}
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// Length-encoded string
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struct LengthEncodedStringParams
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{
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uint64_t string_length;
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std::vector<uint8_t> length_prefix;
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};
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struct DeserializeLengthEncodedString : public ::testing::TestWithParam<LengthEncodedStringParams>
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{
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std::vector<uint8_t> buffer;
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string_lenenc value;
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DeserializeLengthEncodedString()
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{
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const auto& prefix = GetParam().length_prefix;
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copy(prefix.begin(), prefix.end(), back_inserter(buffer));
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buffer.resize(buffer.size() + GetParam().string_length + 8, 'a');
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}
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ReadIterator exact_end() const { return buffer.data() + buffer.size() - 8; };
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ReadIterator extra_end() const { return buffer.data() + buffer.size(); }
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ReadIterator overflow_string_end() const { return buffer.data() + buffer.size() - 9; }
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ReadIterator overflow_int_end() const { return buffer.data() + GetParam().length_prefix.size() - 1; }
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string expected_value() const { return string(GetParam().string_length, 'a'); }
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};
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TEST_P(DeserializeLengthEncodedString, ExactSize_GetsValueIncrementsIterator)
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{
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ReadIterator res = deserialize(buffer.data(), exact_end(), value);
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EXPECT_EQ(res, exact_end());
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EXPECT_EQ(value.value, expected_value());
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}
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TEST_P(DeserializeLengthEncodedString, ExtraSize_GetsValueIncrementsIterator)
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{
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ReadIterator res = deserialize(buffer.data(), extra_end(), value);
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EXPECT_EQ(res, exact_end());
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EXPECT_EQ(value.value, expected_value());
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}
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TEST_P(DeserializeLengthEncodedString, OverflowInString_ThrowsOutOfRange)
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{
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EXPECT_THROW(deserialize(buffer.data(), overflow_string_end(), value), out_of_range);
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}
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TEST_P(DeserializeLengthEncodedString, OverflowInInt_ThrowsOutOfRange)
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{
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EXPECT_THROW(deserialize(buffer.data(), overflow_int_end(), value), out_of_range);
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EXPECT_THROW(deserialize(buffer.data(), buffer.data(), value), out_of_range);
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}
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INSTANTIATE_TEST_SUITE_P(Default, DeserializeLengthEncodedString, ::testing::Values(
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LengthEncodedStringParams{0x10, {0x10}},
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LengthEncodedStringParams{0xfeff, {0xfc, 0xff, 0xfe}},
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LengthEncodedStringParams{0xfdfeff, {0xfd, 0xff, 0xfe, 0xfd}}
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// Allocating strings as long as 0x100000000 can cause bad_alloc
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), [](const auto& v) { return "string_length_" + to_string(v.param.string_length); });
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// EOF string
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struct DeserializeEofString : public testing::Test
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{
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uint8_t buffer [4] { 'a', 'b', '\0', 'd' };
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string_eof value;
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};
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TEST_F(DeserializeEofString, Trivial_GetsValueIncrementsIterator)
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{
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string_view expected {"ab\0d", 4};
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ReadIterator res = deserialize(begin(buffer), end(buffer), value);
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EXPECT_EQ(value.value, expected);
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EXPECT_EQ(res, end(buffer));
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}
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TEST_F(DeserializeEofString, EmptyBuffer_GetsEmptyValue)
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{
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ReadIterator res = deserialize(begin(buffer), begin(buffer), value);
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EXPECT_EQ(value.value, "");
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EXPECT_EQ(res, begin(buffer));
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}
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// Enums
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enum class TestEnum : int2
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{
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value0 = 0,
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value1 = 0xfeff
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};
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struct DeserializeEnum : public testing::Test
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{
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uint8_t buffer [3] { 0xff, 0xfe, 0xaa };
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TestEnum value;
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};
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TEST_F(DeserializeEnum, ExactSize_GetsValueIncrementsIterator)
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{
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ReadIterator res = deserialize(begin(buffer), begin(buffer) + 2, value);
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EXPECT_EQ(res, begin(buffer) + 2);
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EXPECT_EQ(value, TestEnum::value1);
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}
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TEST_F(DeserializeEnum, ExtraSize_GetsValueIncrementsIterator)
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{
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ReadIterator res = deserialize(begin(buffer), end(buffer), value);
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EXPECT_EQ(res, begin(buffer) + 2);
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EXPECT_EQ(value, TestEnum::value1);
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}
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TEST_F(DeserializeEnum, Overflow_ThrowsOutOfRange)
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{
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EXPECT_THROW(deserialize(begin(buffer), begin(buffer) + 1, value), out_of_range);
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}*/
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} // anon namespace
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