A C++ library for logging very fast and without allocating.
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283 regels
6.7 KiB

#include <thread>
#include "catch2/catch_all.hpp"
#include "../LibSnugLog/include/disruptor.h"
struct strategy {
static constexpr overflow_response_t on_overflow = overflow_response_t::must_wait;
void wait() {}
};
struct strategy_that_overflows {
static constexpr overflow_response_t on_overflow = overflow_response_t::must_overflow;
void wait() {}
};
TEST_CASE("Disruptor works sequentially") {
std::array<char, 8192> buffer{};
disruptor<strategy> v{buffer.data(), buffer.size()};
SECTION("117") {
auto W = v.reserve_write(100);
v[W.start] = 117;
v.conclude_write(W);
auto R = v.reserve_read();
REQUIRE(v[R.start]== 117);
v.conclude_read(R);
}
SECTION("12") {
{
auto W = v.reserve_write(6);
v[W.start] = 12;
v.conclude_write(W);
auto R = v.reserve_read();
REQUIRE(v[R.start]== 12);
v.conclude_read(R);
}
{
auto W = v.reserve_write(6);
v[W.start] = 8;
v.conclude_write(W);
auto R = v.reserve_read();
REQUIRE(v[R.start]== 8);
v.conclude_read(R);
}
}
SECTION("Disruptor loop around") {
std::multiset<char> mset;
for(int i = 0; i != 255; i++) {
auto W = v.reserve_write(100);
v[W.start] = (char)i;
for(size_t idx = W.start; idx != W.end; idx = (idx+1)%v.size()) {
v[idx] = (char)i;
}
v.conclude_write(W);
auto R = v.reserve_read();
for(size_t idx = R.start; idx != R.end; idx = (idx+1)%v.size()) {
mset.insert(v[idx]);
}
v.conclude_read(R);
}
for(int i = 0; i != 255; i++) {
REQUIRE(mset.count((char)i) == 100);
}
}
SECTION("Disruptor concurrent odd vs even") {
std::atomic<bool> trigger = false;
std::multiset<char> mset;
std::stringstream continuity;
int acc = 0;
for(int i = 0; i<= 255; i++) {
acc+=i;
}
std::thread reader([&](){
int cnt = 0;
while (cnt != acc) {
auto R = v.reserve_read();
for (size_t idx = R.start; idx != R.end; idx = (idx + 1) % v.size()) {
mset.insert(v[idx]);
continuity << (char)v[idx];
}
v.conclude_read(R);
cnt += (R.end > R.start) * (R.end - R.start)
+ (R.end < R.start) * (v.size() - R.start + R.end);
}
});
std::thread even([&]() {
while(!trigger.load());
for (int i = 2; i <= 255; i += 2) {
auto W = v.reserve_write(i);
v[W.start] = (char) i;
for (size_t idx = W.start; idx != W.end; idx = (idx + 1) % v.size()) {
v[idx] = (char) i;
}
v.conclude_write(W);
}
});
std::thread odd([&]() {
while(!trigger.load());
for (int i = 1; i <= 255; i += 2) {
auto W = v.reserve_write(i);
v[W.start] = (char) i;
for (size_t idx = W.start; idx != W.end; idx = (idx + 1) % v.size()) {
v[idx] = (char) i;
}
v.conclude_write(W);
}
});
// byte received count test
trigger.store(true);
reader.join(); even.join(); odd.join();
for(int i = 1; i <= 255; i++) {
REQUIRE(mset.count((char)i) == i);
}
// Continuity tests
int changes = 0;
auto str = continuity.str();
char current = *str.begin();
auto it = str.begin();
for(;it != str.end();) {
while(it != str.end() && *it == current) {++it;}
changes += 1;
current = *it;
}
REQUIRE(changes == 255);
}
}
TEST_CASE("Fails if buffer too small") {
REQUIRE_THROWS_AS(disruptor<strategy>(nullptr, page_size), disruptor_exception);
}
TEST_CASE("Fails if buffer size is 0") {
REQUIRE_THROWS_AS(disruptor<strategy>(nullptr, 0), disruptor_exception);
}
TEST_CASE("Fails if buffer too small") {
REQUIRE_THROWS_AS(disruptor<strategy_that_overflows>(nullptr, page_size), disruptor_exception);
}
TEST_CASE("Fails if buffer size is 0") {
REQUIRE_THROWS_AS(disruptor<strategy_that_overflows>(nullptr, 0), disruptor_exception);
}
TEST_CASE("Disruptor works on overflow mode if things are not too contentious", "[long][unstable]") {
std::array<char, 8192> buffer{};
disruptor<strategy_that_overflows> v{buffer.data(), buffer.size()};
SECTION("117") {
auto W = v.reserve_write(100);
v[W.start] = 117;
v.conclude_write(W);
auto R = v.reserve_read();
REQUIRE(v[R.start]== 117);
v.conclude_read(R);
}
SECTION("12") {
{
auto W = v.reserve_write(6);
v[W.start] = 12;
v.conclude_write(W);
auto R = v.reserve_read();
REQUIRE(v[R.start]== 12);
v.conclude_read(R);
}
{
auto W = v.reserve_write(6);
v[W.start] = 8;
v.conclude_write(W);
auto R = v.reserve_read();
REQUIRE(v[R.start]== 8);
v.conclude_read(R);
}
}
SECTION("Disruptor loop around") {
std::multiset<char> mset;
for(int i = 0; i != 255; i++) {
auto W = v.reserve_write(100);
v[W.start] = (char)i;
for(size_t idx = W.start; idx != W.end; idx = (idx+1)%v.size()) {
v[idx] = (char)i;
}
v.conclude_write(W);
auto R = v.reserve_read();
for(size_t idx = R.start; idx != R.end; idx = (idx+1)%v.size()) {
mset.insert(v[idx]);
}
v.conclude_read(R);
}
for(int i = 0; i != 255; i++) {
REQUIRE(mset.count((char)i) == 100);
}
}
SECTION("Disruptor concurrent odd vs even") {
std::atomic<bool> trigger = false;
std::multiset<char> mset;
std::stringstream continuity;
int acc = 0;
for(int i = 0; i<= 255; i++) {
acc+=i;
}
using namespace std::chrono_literals;
std::thread reader([&](){
int cnt = 0;
auto start = std::chrono::high_resolution_clock::now();
while (std::chrono::high_resolution_clock::now() - start < 150ms) {
auto R = v.reserve_read();
for (size_t idx = R.start; idx != R.end; idx = (idx + 1) % v.size()) {
mset.insert(v[idx]);
continuity << (char)v[idx];
}
v.conclude_read(R);
cnt += (R.end > R.start) * (R.end - R.start)
+ (R.end < R.start) * (v.size() - R.start + R.end);
}
});
std::thread even([&]() {
while(!trigger.load());
for (int i = 2; i <= 255; i += 2) {
auto W = v.reserve_write(i);
v[W.start] = (char) i;
for (size_t idx = W.start; idx != W.end; idx = (idx + 1) % v.size()) {
v[idx] = (char) i;
}
v.conclude_write(W);
std::this_thread::sleep_for(50us);
}
});
std::thread odd([&]() {
while(!trigger.load());
for (int i = 1; i <= 255; i += 2) {
auto W = v.reserve_write(i);
v[W.start] = (char) i;
for (size_t idx = W.start; idx != W.end; idx = (idx + 1) % v.size()) {
v[idx] = (char) i;
}
v.conclude_write(W);
std::this_thread::sleep_for(50us);
}
});
// byte received count test
trigger.store(true);
reader.join();
even.join();
odd.join();
uint16_t cnt = 0;
for(int i = 1; i <= 255; i++) {
cnt += (mset.count((char)i) == i);
}
REQUIRE(cnt >= 100);
// Continuity tests
int changes = 0;
auto str = continuity.str();
char current = *str.begin();
auto it = str.begin();
for(;it != str.end();) {
while(it != str.end() && *it == current) {++it;}
changes += 1;
current = *it;
}
REQUIRE(changes >= 100);
}
}