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webrtc / src / 9146d765e20cc2b1d599b67ed875629cf43771e6 / . / logging / rtc_event_log / events / rtc_event_field_encoding_unittest.cc
blob: 3ff0114c31e74d3414832dff33a75032991612de [file] [log] [blame]
/* Copyright (c) 2021 The WebRTC Project Authors. All rights reserved.
*
* Use of this source code is governed by a BSD-style license
* that can be found in the LICENSE file in the root of the source
* tree. An additional intellectual property rights grant can be found
* in the file PATENTS. All contributing project authors may
* be found in the AUTHORS file in the root of the source tree.
*/
#include "logging/rtc_event_log/events/rtc_event_field_encoding.h"
#include <limits>
#include <memory>
#include <string>
#include "api/rtc_event_log/rtc_event.h"
#include "logging/rtc_event_log/encoder/var_int.h"
#include "logging/rtc_event_log/events/rtc_event_field_encoding_parser.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
constexpr int32_t kInt32Max = std::numeric_limits<int32_t>::max();
constexpr int32_t kInt32Min = std::numeric_limits<int32_t>::min();
constexpr uint32_t kUint32Max = std::numeric_limits<uint32_t>::max();
constexpr int64_t kInt64Max = std::numeric_limits<int64_t>::max();
constexpr int64_t kInt64Min = std::numeric_limits<int64_t>::min();
constexpr uint64_t kUint64Max = std::numeric_limits<uint64_t>::max();
template <typename T, std::enable_if_t<std::is_integral<T>::value, bool> = true>
size_t ExpectedVarIntSize(T value) {
size_t bytes = 0;
uint64_t x = EncodeAsUnsigned(value);
do {
++bytes;
x = x >> 7;
} while (x > 0);
return bytes;
}
template <typename T, std::enable_if_t<std::is_integral<T>::value, bool> = true>
size_t ExpectedBaseValueSize(const FieldParameters& params, T value) {
switch (params.field_type) {
case FieldType::kFixed8:
return 1;
case FieldType::kFixed32:
return 4;
case FieldType::kFixed64:
return 8;
case FieldType::kVarInt:
return ExpectedVarIntSize(value);
default:
break;
}
RTC_NOTREACHED();
return 0;
}
template <typename T, std::enable_if_t<std::is_integral<T>::value, bool> = true>
size_t ExpectedEncodingSize(const FieldParameters& params,
const std::vector<T>& v,
size_t expected_bits_per_delta) {
if (v.size() == 0)
return 0;
uint64_t numeric_field_type = static_cast<uint64_t>(params.field_type);
RTC_DCHECK_LT(numeric_field_type, 1u << 3);
size_t tag_size =
ExpectedVarIntSize((params.field_id << 3) + numeric_field_type);
T base = v[0];
size_t base_size = ExpectedBaseValueSize(params, base);
if (v.size() == 1)
return tag_size + base_size;
size_t delta_header_size = 1;
// Check if there is an element *not* equal to base.
if (std::all_of(v.begin(), v.end(), [base](T x) { return x == base; })) {
return tag_size + base_size + delta_header_size;
}
size_t delta_size = ((v.size() - 1) * expected_bits_per_delta + 7) / 8;
return tag_size + base_size + delta_header_size + delta_size;
}
template <typename T, std::enable_if_t<std::is_integral<T>::value, bool> = true>
size_t ExpectedEncodingSize(const FieldParameters& params,
const std::vector<absl::optional<T>>& v,
size_t expected_bits_per_delta) {
size_t num_existing_values =
v.size() - std::count(v.begin(), v.end(), absl::nullopt);
auto first_existing_value = std::find_if(
v.begin(), v.end(), [](absl::optional<T> x) { return x.has_value(); });
if (num_existing_values == 0)
return 0;
uint64_t numeric_field_type = static_cast<uint64_t>(params.field_type);
RTC_DCHECK_LT(numeric_field_type, 1u << 3);
size_t tag_size =
ExpectedVarIntSize((params.field_id << 3) + numeric_field_type);
T base = first_existing_value->value();
size_t base_size = ExpectedBaseValueSize(params, base);
if (num_existing_values == 1 && v.size() == 1)
return tag_size + base_size;
size_t delta_header_size = (num_existing_values == v.size() ? 1 : 2);
size_t positions_size =
(num_existing_values == v.size() ? 0 : (v.size() + 7) / 8);
// Check if there is an element *not* equal to base.
if (std::all_of(v.begin(), v.end(),
[base](absl::optional<T> x) { return x == base; })) {
return tag_size + base_size + delta_header_size + positions_size;
}
size_t delta_size =
((num_existing_values - 1) * expected_bits_per_delta + 7) / 8;
return tag_size + base_size + delta_header_size + positions_size + delta_size;
}
size_t ExpectedStringEncodingSize(const FieldParameters& params,
const std::vector<std::string>& values) {
EXPECT_EQ(params.field_type, FieldType::kString);
uint64_t numeric_field_type = static_cast<uint64_t>(params.field_type);
RTC_DCHECK_LT(numeric_field_type, 1u << 3);
size_t tag_size =
ExpectedVarIntSize((params.field_id << 3) + numeric_field_type);
size_t expected_size = tag_size;
if (values.size() > 1) {
// VarInt encoding header reserved for future use. Currently always 0.
expected_size += 1;
}
for (const auto& s : values) {
expected_size += ExpectedVarIntSize(s.size());
expected_size += s.size();
}
return expected_size;
}
} // namespace
class RtcTestEvent final : public RtcEvent {
public:
RtcTestEvent(bool b,
int32_t signed32,
uint32_t unsigned32,
int64_t signed64,
uint64_t unsigned64)
: b_(b),
signed32_(signed32),
unsigned32_(unsigned32),
signed64_(signed64),
unsigned64_(unsigned64) {}
RtcTestEvent(bool b,
int32_t signed32,
uint32_t unsigned32,
int64_t signed64,
uint64_t unsigned64,
absl::optional<int32_t> optional_signed32,
absl::optional<int64_t> optional_signed64,
uint32_t wrapping21,
std::string string)
: b_(b),
signed32_(signed32),
unsigned32_(unsigned32),
signed64_(signed64),
unsigned64_(unsigned64),
optional_signed32_(optional_signed32),
optional_signed64_(optional_signed64),
wrapping21_(wrapping21),
string_(string) {}
~RtcTestEvent() override = default;
Type GetType() const override { return static_cast<Type>(4711); }
bool IsConfigEvent() const override { return false; }
static constexpr EventParameters event_params{
"TestEvent", static_cast<RtcEvent::Type>(4711)};
static constexpr FieldParameters timestamp_params{
"timestamp_ms", FieldParameters::kTimestampField, FieldType::kVarInt, 64};
static constexpr FieldParameters bool_params{"b", 2, FieldType::kFixed8, 1};
static constexpr FieldParameters signed32_params{"signed32", 3,
FieldType::kVarInt, 32};
static constexpr FieldParameters unsigned32_params{"unsigned32", 4,
FieldType::kFixed32, 32};
static constexpr FieldParameters signed64_params{"signed64", 5,
FieldType::kFixed64, 64};
static constexpr FieldParameters unsigned64_params{"unsigned64", 6,
FieldType::kVarInt, 64};
static constexpr FieldParameters optional32_params{"optional_signed32", 7,
FieldType::kFixed32, 32};
static constexpr FieldParameters optional64_params{"optional_signed64", 8,
FieldType::kVarInt, 64};
static constexpr FieldParameters wrapping21_params{"wrapping21", 9,
FieldType::kFixed32, 21};
static constexpr FieldParameters string_params{
"string", 10, FieldType::kString, /*value_width = */ 0};
static constexpr Type kType = static_cast<RtcEvent::Type>(4711);
const bool b_;
const int32_t signed32_;
const uint32_t unsigned32_;
const int64_t signed64_;
const uint64_t unsigned64_;
const absl::optional<int32_t> optional_signed32_ = absl::nullopt;
const absl::optional<int64_t> optional_signed64_ = absl::nullopt;
const uint32_t wrapping21_ = 0;
const std::string string_;
};
constexpr EventParameters RtcTestEvent::event_params;
constexpr FieldParameters RtcTestEvent::timestamp_params;
constexpr FieldParameters RtcTestEvent::bool_params;
constexpr FieldParameters RtcTestEvent::signed32_params;
constexpr FieldParameters RtcTestEvent::unsigned32_params;
constexpr FieldParameters RtcTestEvent::signed64_params;
constexpr FieldParameters RtcTestEvent::unsigned64_params;
constexpr FieldParameters RtcTestEvent::optional32_params;
constexpr FieldParameters RtcTestEvent::optional64_params;
constexpr FieldParameters RtcTestEvent::wrapping21_params;
constexpr FieldParameters RtcTestEvent::string_params;
constexpr RtcEvent::Type RtcTestEvent::kType;
class RtcEventFieldTest : public ::testing::Test {
protected:
void SetUp() override {}
void CreateFullEvents(
const std::vector<bool>& bool_values,
const std::vector<int32_t>& signed32_values,
const std::vector<uint32_t>& unsigned32_values,
const std::vector<int64_t>& signed64_values,
const std::vector<uint64_t>& unsigned64_values,
const std::vector<absl::optional<int32_t>>& optional32_values,
const std::vector<absl::optional<int64_t>>& optional64_values,
const std::vector<uint32_t>& wrapping21_values,
const std::vector<std::string>& string_values) {
size_t size = bool_values.size();
RTC_CHECK_EQ(signed32_values.size(), size);
RTC_CHECK_EQ(unsigned32_values.size(), size);
RTC_CHECK_EQ(signed64_values.size(), size);
RTC_CHECK_EQ(unsigned64_values.size(), size);
RTC_CHECK_EQ(optional32_values.size(), size);
RTC_CHECK_EQ(optional64_values.size(), size);
RTC_CHECK_EQ(wrapping21_values.size(), size);
RTC_CHECK_EQ(string_values.size(), size);
for (size_t i = 0; i < size; i++) {
batch_.push_back(new RtcTestEvent(
bool_values[i], signed32_values[i], unsigned32_values[i],
signed64_values[i], unsigned64_values[i], optional32_values[i],
optional64_values[i], wrapping21_values[i], string_values[i]));
}
}
void PrintBytes(const std::string& s) {
for (auto c : s) {
fprintf(stderr, "%d ", static_cast<uint8_t>(c));
}
fprintf(stderr, "\n");
}
void ParseEventHeader(absl::string_view encoded_event) {
uint64_t event_tag;
bool success;
std::tie(success, encoded_event) = DecodeVarInt(encoded_event, &event_tag);
ASSERT_TRUE(success);
uint64_t event_id = event_tag >> 1;
ASSERT_EQ(event_id, static_cast<uint64_t>(RtcTestEvent::event_params.id));
bool batched = event_tag & 1u;
ASSERT_EQ(batched, batch_.size() > 1u);
uint64_t size;
std::tie(success, encoded_event) = DecodeVarInt(encoded_event, &size);
ASSERT_EQ(encoded_event.size(), size);
ASSERT_TRUE(parser_.Initialize(encoded_event, batched).ok());
}
void ParseAndVerifyTimestamps() {
auto result = parser_.ParseNumericField(RtcTestEvent::timestamp_params);
ASSERT_TRUE(result.ok()) << result.message().c_str();
ASSERT_EQ(result.value().size(), batch_.size());
for (size_t i = 0; i < batch_.size(); i++) {
EXPECT_EQ(result.value()[i],
static_cast<uint64_t>(batch_[i]->timestamp_ms()));
}
}
void ParseAndVerifyStringField(
const FieldParameters& params,
const std::vector<std::string>& expected_values,
size_t expected_skipped_bytes = 0) {
size_t expected_size = ExpectedStringEncodingSize(params, expected_values) +
expected_skipped_bytes;
size_t size_before = parser_.RemainingBytes();
auto result = parser_.ParseStringField(params);
ASSERT_TRUE(result.ok()) << result.message().c_str();
ASSERT_EQ(result.value().size(), expected_values.size());
for (size_t i = 0; i < expected_values.size(); i++) {
EXPECT_EQ(result.value()[i], expected_values[i]);
}
size_t size_after = parser_.RemainingBytes();
EXPECT_EQ(size_before - size_after, expected_size)
<< " for field " << params.name;
}
template <typename T>
void ParseAndVerifyField(const FieldParameters& params,
const std::vector<T>& expected_values,
size_t expected_bits_per_delta,
size_t expected_skipped_bytes = 0) {
size_t expected_size =
ExpectedEncodingSize(params, expected_values, expected_bits_per_delta) +
expected_skipped_bytes;
size_t size_before = parser_.RemainingBytes();
auto result = parser_.ParseNumericField(params);
ASSERT_TRUE(result.ok()) << result.message().c_str();
ASSERT_EQ(result.value().size(), expected_values.size());
for (size_t i = 0; i < expected_values.size(); i++) {
EXPECT_EQ(DecodeFromUnsignedToType<T>(result.value()[i]),
expected_values[i]);
}
size_t size_after = parser_.RemainingBytes();
EXPECT_EQ(size_before - size_after, expected_size)
<< " for field " << params.name;
}
template <typename T>
void ParseAndVerifyOptionalField(
const FieldParameters& params,
const std::vector<absl::optional<T>>& expected_values,
size_t expected_bits_per_delta,
size_t expected_skipped_bytes = 0) {
size_t expected_size =
ExpectedEncodingSize(params, expected_values, expected_bits_per_delta) +
expected_skipped_bytes;
size_t size_before = parser_.RemainingBytes();
auto result = parser_.ParseOptionalNumericField(params);
ASSERT_TRUE(result.ok()) << result.message().c_str();
rtc::ArrayView<uint64_t> values = result.value().values;
rtc::ArrayView<uint8_t> positions = result.value().positions;
ASSERT_EQ(positions.size(), expected_values.size());
auto value_it = values.begin();
for (size_t i = 0; i < expected_values.size(); i++) {
if (positions[i]) {
ASSERT_NE(value_it, values.end());
ASSERT_TRUE(expected_values[i].has_value());
EXPECT_EQ(DecodeFromUnsignedToType<T>(*value_it),
expected_values[i].value());
++value_it;
} else {
EXPECT_EQ(absl::nullopt, expected_values[i]);
}
}
EXPECT_EQ(value_it, values.end());
size_t size_after = parser_.RemainingBytes();
EXPECT_EQ(size_before - size_after, expected_size);
}
void ParseAndVerifyMissingField(const FieldParameters& params) {
auto result = parser_.ParseNumericField(params, /*required_field=*/false);
ASSERT_TRUE(result.ok()) << result.message().c_str();
EXPECT_EQ(result.value().size(), 0u);
}
void ParseAndVerifyMissingOptionalField(const FieldParameters& params) {
auto result =
parser_.ParseOptionalNumericField(params, /*required_field=*/false);
ASSERT_TRUE(result.ok()) << result.message().c_str();
rtc::ArrayView<uint64_t> values = result.value().values;
rtc::ArrayView<uint8_t> positions = result.value().positions;
EXPECT_EQ(positions.size(), 0u);
EXPECT_EQ(values.size(), 0u);
}
void TearDown() override {
for (const RtcEvent* event : batch_) {
delete event;
}
}
std::vector<const RtcEvent*> batch_;
EventParser parser_;
};
TEST_F(RtcEventFieldTest, EmptyList) {
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(RtcTestEvent::bool_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::b_));
std::string s = encoder.AsString();
EXPECT_TRUE(s.empty());
}
TEST_F(RtcEventFieldTest, Singleton) {
std::vector<bool> bool_values = {true};
std::vector<int32_t> signed32_values = {-2};
std::vector<uint32_t> unsigned32_values = {123456789};
std::vector<int64_t> signed64_values = {-9876543210};
std::vector<uint64_t> unsigned64_values = {9876543210};
std::vector<absl::optional<int32_t>> optional32_values = {kInt32Min};
std::vector<absl::optional<int64_t>> optional64_values = {kInt64Max};
std::vector<uint32_t> wrapping21_values = {(1 << 21) - 1};
std::vector<std::string> string_values = {"foo"};
CreateFullEvents(bool_values, signed32_values, unsigned32_values,
signed64_values, unsigned64_values, optional32_values,
optional64_values, wrapping21_values, string_values);
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(RtcTestEvent::bool_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::b_));
encoder.EncodeField(RtcTestEvent::signed32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed32_));
encoder.EncodeField(
RtcTestEvent::unsigned32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned32_));
encoder.EncodeField(RtcTestEvent::signed64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed64_));
encoder.EncodeField(
RtcTestEvent::unsigned64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned64_));
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
encoder.EncodeField(RtcTestEvent::string_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::string_));
std::string s = encoder.AsString();
// Optional debug printing
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyField(RtcTestEvent::bool_params, bool_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::signed32_params, signed32_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::unsigned32_params, unsigned32_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::signed64_params, signed64_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::unsigned64_params, unsigned64_values,
/*no deltas*/ 0);
ParseAndVerifyOptionalField(RtcTestEvent::optional32_params,
optional32_values, /*no deltas*/ 0);
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values, /*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*no deltas*/ 0);
ParseAndVerifyStringField(RtcTestEvent::string_params, string_values);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, EqualElements) {
std::vector<bool> bool_values = {true, true, true, true};
std::vector<int32_t> signed32_values = {-2, -2, -2, -2};
std::vector<uint32_t> unsigned32_values = {123456789, 123456789, 123456789,
123456789};
std::vector<int64_t> signed64_values = {-9876543210, -9876543210, -9876543210,
-9876543210};
std::vector<uint64_t> unsigned64_values = {9876543210, 9876543210, 9876543210,
9876543210};
std::vector<absl::optional<int32_t>> optional32_values = {
kInt32Min, kInt32Min, kInt32Min, kInt32Min};
std::vector<absl::optional<int64_t>> optional64_values = {
kInt64Max, kInt64Max, kInt64Max, kInt64Max};
std::vector<uint32_t> wrapping21_values = {(1 << 21) - 1, (1 << 21) - 1,
(1 << 21) - 1, (1 << 21) - 1};
std::vector<std::string> string_values = {"foo", "foo", "foo", "foo"};
CreateFullEvents(bool_values, signed32_values, unsigned32_values,
signed64_values, unsigned64_values, optional32_values,
optional64_values, wrapping21_values, string_values);
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(RtcTestEvent::bool_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::b_));
encoder.EncodeField(RtcTestEvent::signed32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed32_));
encoder.EncodeField(
RtcTestEvent::unsigned32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned32_));
encoder.EncodeField(RtcTestEvent::signed64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed64_));
encoder.EncodeField(
RtcTestEvent::unsigned64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned64_));
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
encoder.EncodeField(RtcTestEvent::string_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::string_));
std::string s = encoder.AsString();
// Optional debug printing
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyField(RtcTestEvent::bool_params, bool_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::signed32_params, signed32_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::unsigned32_params, unsigned32_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::signed64_params, signed64_values,
/*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::unsigned64_params, unsigned64_values,
/*no deltas*/ 0);
ParseAndVerifyOptionalField(RtcTestEvent::optional32_params,
optional32_values, /*no deltas*/ 0);
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values, /*no deltas*/ 0);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*no deltas*/ 0);
ParseAndVerifyStringField(RtcTestEvent::string_params, string_values);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, Increasing) {
std::vector<bool> bool_values = {false, true, false, true};
std::vector<int32_t> signed32_values = {-2, -1, 0, 1};
std::vector<uint32_t> unsigned32_values = {kUint32Max - 1, kUint32Max, 0, 1};
std::vector<int64_t> signed64_values = {kInt64Max - 1, kInt64Max, kInt64Min,
kInt64Min + 1};
std::vector<uint64_t> unsigned64_values = {kUint64Max - 1, kUint64Max, 0, 1};
std::vector<absl::optional<int32_t>> optional32_values = {
kInt32Max - 1, kInt32Max, kInt32Min, kInt32Min + 1};
std::vector<absl::optional<int64_t>> optional64_values = {
kInt64Max - 1, kInt64Max, kInt64Min, kInt64Min + 1};
std::vector<uint32_t> wrapping21_values = {(1 << 21) - 2, (1 << 21) - 1, 0,
1};
std::vector<std::string> string_values = {
"", "a", "bc", "def"}; // No special compression of strings.
CreateFullEvents(bool_values, signed32_values, unsigned32_values,
signed64_values, unsigned64_values, optional32_values,
optional64_values, wrapping21_values, string_values);
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(RtcTestEvent::bool_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::b_));
encoder.EncodeField(RtcTestEvent::signed32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed32_));
encoder.EncodeField(
RtcTestEvent::unsigned32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned32_));
encoder.EncodeField(RtcTestEvent::signed64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed64_));
encoder.EncodeField(
RtcTestEvent::unsigned64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned64_));
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
encoder.EncodeField(RtcTestEvent::string_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::string_));
std::string s = encoder.AsString();
// Optional debug printing
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyField(RtcTestEvent::bool_params, bool_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::signed32_params, signed32_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::unsigned32_params, unsigned32_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::signed64_params, signed64_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::unsigned64_params, unsigned64_values,
/*delta bits*/ 1);
ParseAndVerifyOptionalField(RtcTestEvent::optional32_params,
optional32_values, /*delta bits*/ 1);
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values, /*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*delta bits*/ 1);
ParseAndVerifyStringField(RtcTestEvent::string_params, string_values);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, Decreasing) {
std::vector<bool> bool_values = {true, false, true, false};
std::vector<int32_t> signed32_values = {2, 1, 0, -1};
std::vector<uint32_t> unsigned32_values = {1, 0, kUint32Max, kUint32Max - 1};
std::vector<int64_t> signed64_values = {kInt64Min + 1, kInt64Min, kInt64Max,
kInt64Max - 1};
std::vector<uint64_t> unsigned64_values = {1, 0, kUint64Max, kUint64Max - 1};
std::vector<absl::optional<int32_t>> optional32_values = {
kInt32Min + 1, kInt32Min, kInt32Max, kInt32Max - 1};
std::vector<absl::optional<int64_t>> optional64_values = {
kInt64Min + 1, kInt64Min, kInt64Max, kInt64Max - 1};
std::vector<uint32_t> wrapping21_values = {1, 0, (1 << 21) - 1,
(1 << 21) - 2};
std::vector<std::string> string_values = {
"def", "bc", "a", ""}; // No special compression of strings.
CreateFullEvents(bool_values, signed32_values, unsigned32_values,
signed64_values, unsigned64_values, optional32_values,
optional64_values, wrapping21_values, string_values);
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(RtcTestEvent::bool_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::b_));
encoder.EncodeField(RtcTestEvent::signed32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed32_));
encoder.EncodeField(
RtcTestEvent::unsigned32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned32_));
encoder.EncodeField(RtcTestEvent::signed64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed64_));
encoder.EncodeField(
RtcTestEvent::unsigned64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned64_));
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
encoder.EncodeField(RtcTestEvent::string_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::string_));
std::string s = encoder.AsString();
// Optional debug printing
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyField(RtcTestEvent::bool_params, bool_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::signed32_params, signed32_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::unsigned32_params, unsigned32_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::signed64_params, signed64_values,
/*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::unsigned64_params, unsigned64_values,
/*delta bits*/ 1);
ParseAndVerifyOptionalField(RtcTestEvent::optional32_params,
optional32_values, /*delta bits*/ 1);
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values, /*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*delta bits*/ 1);
ParseAndVerifyStringField(RtcTestEvent::string_params, string_values);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, SkipsDeprecatedFields) {
// Expect parser to skip fields it doesn't recognize, but find subsequent
// fields.
std::vector<bool> bool_values = {true, false};
std::vector<int32_t> signed32_values = {kInt32Min / 2, kInt32Max / 2};
std::vector<uint32_t> unsigned32_values = {0, kUint32Max / 2};
std::vector<int64_t> signed64_values = {kInt64Min / 2, kInt64Max / 2};
std::vector<uint64_t> unsigned64_values = {0, kUint64Max / 2};
std::vector<absl::optional<int32_t>> optional32_values = {kInt32Max / 2,
kInt32Min / 2};
std::vector<absl::optional<int64_t>> optional64_values = {kInt64Min / 2,
kInt64Max / 2};
std::vector<uint32_t> wrapping21_values = {0, 1 << 20};
std::vector<std::string> string_values = {"foo", "bar"};
size_t signed32_encoding_size =
/*tag*/ 1 + /* varint base*/ 5 + /* delta_header*/ 1 + /*deltas*/ 4;
size_t signed64_encoding_size =
/*tag*/ 1 + /* fixed64 base*/ 8 + /* delta_header*/ 1 + /*deltas*/ 8;
size_t optional32_encoding_size =
/*tag*/ 1 + /* fixed32 base*/ 4 + /* delta_header*/ 1 + /*deltas*/ 4;
CreateFullEvents(bool_values, signed32_values, unsigned32_values,
signed64_values, unsigned64_values, optional32_values,
optional64_values, wrapping21_values, string_values);
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(RtcTestEvent::bool_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::b_));
encoder.EncodeField(RtcTestEvent::signed32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed32_));
encoder.EncodeField(
RtcTestEvent::unsigned32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned32_));
encoder.EncodeField(RtcTestEvent::signed64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed64_));
encoder.EncodeField(
RtcTestEvent::unsigned64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::unsigned64_));
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
encoder.EncodeField(RtcTestEvent::string_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::string_));
std::string s = encoder.AsString();
// Optional debug printing
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyField(RtcTestEvent::bool_params, bool_values,
/*delta_bits=*/1);
// Skips parsing the `signed32_values`. The following unsigned fields should
// still be found.
ParseAndVerifyField(RtcTestEvent::unsigned32_params, unsigned32_values,
/*delta_bits=*/31,
/*expected_skipped_bytes=*/signed32_encoding_size);
// Skips parsing the `signed64_values`. The following unsigned fields should
// still be found.
ParseAndVerifyField(RtcTestEvent::unsigned64_params, unsigned64_values,
/*delta_bits=*/63, signed64_encoding_size);
// Skips parsing the `optional32_values`. The following unsigned fields should
// still be found.
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values,
/*delta_bits=*/63, optional32_encoding_size);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*delta_bits=*/20);
ParseAndVerifyStringField(RtcTestEvent::string_params, string_values);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, SkipsMissingFields) {
// Expect parsing of missing field to succeed but return an empty list.
std::vector<bool> bool_values = {true, false};
std::vector<int32_t> signed32_values = {kInt32Min / 2, kInt32Max / 2};
std::vector<uint32_t> unsigned32_values = {0, kUint32Max / 2};
std::vector<int64_t> signed64_values = {kInt64Min / 2, kInt64Max / 2};
std::vector<uint64_t> unsigned64_values = {0, kUint64Max / 2};
std::vector<absl::optional<int32_t>> optional32_values = {kInt32Max / 2,
kInt32Min / 2};
std::vector<absl::optional<int64_t>> optional64_values = {kInt64Min / 2,
kInt64Max / 2};
std::vector<uint32_t> wrapping21_values = {0, 1 << 20};
std::vector<std::string> string_values = {"foo", "foo"};
CreateFullEvents(bool_values, signed32_values, unsigned32_values,
signed64_values, unsigned64_values, optional32_values,
optional64_values, wrapping21_values, string_values);
EventEncoder encoder(RtcTestEvent::event_params, batch_);
// Skip encoding the `bool_values`.
encoder.EncodeField(RtcTestEvent::signed32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed32_));
// Skip encoding the `unsigned32_values`.
encoder.EncodeField(RtcTestEvent::signed64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::signed64_));
// Skip encoding the `unsigned64_values`.
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
// Skip encoding the `optional64_values`.
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
encoder.EncodeField(RtcTestEvent::string_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::string_));
std::string s = encoder.AsString();
// Optional debug printing
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyMissingField(RtcTestEvent::bool_params);
ParseAndVerifyField(RtcTestEvent::signed32_params, signed32_values,
/*delta_bits=*/31);
ParseAndVerifyMissingField(RtcTestEvent::unsigned32_params);
ParseAndVerifyField(RtcTestEvent::signed64_params, signed64_values,
/*delta_bits=*/63);
ParseAndVerifyMissingField(RtcTestEvent::unsigned64_params);
ParseAndVerifyOptionalField(RtcTestEvent::optional32_params,
optional32_values, /*delta_bits=*/31);
ParseAndVerifyMissingOptionalField(RtcTestEvent::optional64_params);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*delta_bits=*/20);
ParseAndVerifyStringField(RtcTestEvent::string_params, string_values);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, OptionalFields) {
std::vector<absl::optional<int32_t>> optional32_values = {
2, absl::nullopt, 4, absl::nullopt, 6, absl::nullopt};
std::vector<absl::optional<int64_t>> optional64_values = {
absl::nullopt, 1024, absl::nullopt, 1025, absl::nullopt, 1026};
std::vector<uint32_t> wrapping21_values = {(1 << 21) - 3, 0, 2, 5, 5, 6};
for (size_t i = 0; i < optional32_values.size(); i++) {
batch_.push_back(new RtcTestEvent(0, 0, 0, 0, 0, optional32_values[i],
optional64_values[i],
wrapping21_values[i], ""));
}
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
encoder.EncodeField(
RtcTestEvent::wrapping21_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::wrapping21_));
std::string s = encoder.AsString();
// Optional debug output
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyOptionalField(RtcTestEvent::optional32_params,
optional32_values, /*delta bits*/ 2);
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values, /*delta bits*/ 1);
ParseAndVerifyField(RtcTestEvent::wrapping21_params, wrapping21_values,
/*delta bits*/ 2);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
TEST_F(RtcEventFieldTest, AllNulloptTreatedAsMissing) {
std::vector<absl::optional<int32_t>> optional32_values = {
absl::nullopt, absl::nullopt, absl::nullopt,
absl::nullopt, absl::nullopt, absl::nullopt};
std::vector<absl::optional<int64_t>> optional64_values = {
absl::nullopt, 1024, absl::nullopt, 1025, absl::nullopt, 1026};
for (size_t i = 0; i < optional32_values.size(); i++) {
batch_.push_back(new RtcTestEvent(0, 0, 0, 0, 0, optional32_values[i],
optional64_values[i], 0, ""));
}
EventEncoder encoder(RtcTestEvent::event_params, batch_);
encoder.EncodeField(
RtcTestEvent::optional32_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed32_));
encoder.EncodeField(
RtcTestEvent::optional64_params,
ExtractRtcEventMember(batch_, &RtcTestEvent::optional_signed64_));
std::string s = encoder.AsString();
// Optional debug output
// PrintBytes(s);
ParseEventHeader(s);
ParseAndVerifyTimestamps();
ParseAndVerifyMissingOptionalField(RtcTestEvent::optional32_params);
ParseAndVerifyOptionalField(RtcTestEvent::optional64_params,
optional64_values, /*delta_bits=*/1);
EXPECT_EQ(parser_.RemainingBytes(), 0u);
}
} // namespace webrtc