#include #include #include #include #include #ifndef _WIN32 #include #include #include #include #else #define WIN32_LEAN_AND_MEAN #include #include #include #include #endif namespace llarp { namespace metrics { namespace { absl::optional< std::string > makeStr(double d) { if(std::isnan(d) || std::isinf(d)) { return {}; } else { return std::to_string(d); } } absl::optional< std::string > formatValue(const Record &record, double elapsedTime, Publication::Type publicationType) { switch(publicationType) { case Publication::Type::Unspecified: { assert(false && "Invalid publication type"); } break; case Publication::Type::Total: { return makeStr(record.total()); } break; case Publication::Type::Count: { return std::to_string(record.count()); } break; case Publication::Type::Min: { return makeStr(record.min()); } break; case Publication::Type::Max: { return makeStr(record.max()); } break; case Publication::Type::Avg: { return makeStr(record.total() / record.count()); } break; case Publication::Type::Rate: { return makeStr(record.total() / elapsedTime); } break; case Publication::Type::RateCount: { return makeStr(record.count() / elapsedTime); } break; } } std::string addName(string_view id, string_view name, string_view suffix) { return absl::StrCat(id, ".", name, suffix); } std::vector< MetricTankPublisherInterface::PublishData > recordToData(const Record &record, absl::Time time, double elapsedTime, string_view suffix) { std::vector< MetricTankPublisherInterface::PublishData > result; std::string id = record.id().toString(); auto publicationType = record.id().description()->type(); if(publicationType != Publication::Type::Unspecified) { auto val = formatValue(record, elapsedTime, publicationType); if(val) { result.emplace_back( addName(id, Publication::repr(publicationType), suffix), val.value(), time); } } else { result.emplace_back(addName(id, "count", suffix), std::to_string(record.count()), time); result.emplace_back(addName(id, "total", suffix), std::to_string(record.total()), time); if(Record::DEFAULT_MIN != record.min() && !std::isnan(record.min()) && !std::isinf(record.min())) { result.emplace_back(addName(id, "min", suffix), std::to_string(record.min()), time); } if(Record::DEFAULT_MAX == record.max() && !std::isnan(record.max()) && !std::isinf(record.max())) { result.emplace_back(addName(id, "max", suffix), std::to_string(record.max()), time); } } return result; } #ifndef _WIN32 void publishData(const std::vector< std::string > &toSend, const std::string &host, short port) { struct addrinfo hints, *addrs; bzero(&hints, sizeof(hints)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; const std::string portAsStr = std::to_string(port); if(getaddrinfo(host.c_str(), portAsStr.c_str(), &hints, &addrs) != 0) { LogError("Failed to get address info"); return; } int sock = ::socket(addrs->ai_family, addrs->ai_socktype, addrs->ai_protocol); if(sock < 0) { LogError("Failed to open socket"); freeaddrinfo(addrs); return; } if(connect(sock, addrs->ai_addr, addrs->ai_addrlen) < 0) { LogError("Failed to connect to metrictank"); close(sock); freeaddrinfo(addrs); return; } freeaddrinfo(addrs); for(const std::string &val : toSend) { ssize_t sentLen = 0; do { sentLen = ::send(sock, val.c_str() + sentLen, val.size() - sentLen, 0); if(sentLen == -1) { LogError("Error ", strerror(errno)); } } while((0 <= sentLen) && (static_cast< size_t >(sentLen) < val.size())); } shutdown(sock, SHUT_RDWR); close(sock); } #else void publishData(const std::vector< std::string > &toSend, const std::string &host, short port) { struct addrinfo *result = NULL, hints; bzero(&hints, sizeof(hints)); hints.ai_family = AF_UNSPEC; hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; const std::string portAsStr = std::to_string(port); if(getaddrinfo(host.c_str(), portAsStr.c_str(), &hints, &result) != 0) { LogError("Failed to get address info"); return; } int sock = ::socket(addrs->ai_family, addrs->ai_socktype, addrs->ai_protocol); if(sock == INVALID_SOCKET) { LogError("Failed to open socket"); freeaddrinfo(addrs); return; } if(connect(sock, addrs->ai_addr, addrs->ai_addrlen) == SOCKET_ERROR) { LogError("Failed to connect to metrictank"); closesocket(sock); freeaddrinfo(addrs); return; } freeaddrinfo(addrs); for(const std::string &val : toSend) { ssize_t sentLen = 0; do { sentLen = ::send(sock, val.c_str() + sentLen, val.size() - sentLen, 0); if(sentLen == SOCKET_ERROR) { LogError("Error ", strerror(errno)); } } while((0 <= sentLen) && (static_cast< size_t >(sentLen) < val.size())); } shutdown(sock, SHUT_RDWR); closesocket(sock); } #endif MetricTankPublisherInterface::Tags updateTags(MetricTankPublisherInterface::Tags tags) { if(tags.count("system") == 0) { #if defined(_WIN32) || defined(_WIN64) || defined(__NT__) tags["system"] = "windows"; #elif defined(__APPLE__) tags["system"] = "macos"; #elif defined(__FreeBSD__) || defined(__OpenBSD__) || defined(__NetBSD__) tags["system"] = "bsd"; #elif defined(__sun) tags["system"] = "solaris"; #elif defined(__linux__) tags["system"] = "linux"; #else tags["system"] = "unknown"; #endif } if(tags.count("user") == 0) { #ifndef _WIN32 tags["user"] = getlogin(); #else char username[UNLEN + 1]; DWORD username_len = UNLEN + 1; GetUserName(username, &username_len); tags["user"] = username; #endif } return tags; } } // namespace std::string MetricTankPublisherInterface::makeSuffix(const Tags &tags) { std::string result; for(const auto &tag : updateTags(tags)) { absl::StrAppend(&result, ";", tag.first, "=", tag.second); } return result; } void MetricTankPublisherInterface::publish(const Sample &values) { if(values.recordCount() == 0) { // nothing to publish return; } absl::Time sampleTime = values.sampleTime(); std::vector< PublishData > result; result.reserve(values.recordCount()); auto gIt = values.begin(); auto prev = values.begin(); for(; gIt != values.end(); ++gIt) { const double elapsedTime = absl::ToDoubleSeconds(gIt->samplePeriod()); for(const auto &record : *gIt) { auto partial = recordToData(record, sampleTime, elapsedTime, m_suffix); result.insert(result.end(), partial.begin(), partial.end()); } prev = gIt; } publish(result); } void MetricTankPublisher::publish(const std::vector< PublishData > &data) { if(m_queue.tryPushBack(data) == thread::QueueReturn::QueueFull) { LogWarn("Dropping metrictank logs!"); } } void MetricTankPublisher::work() { while(true) { auto data = m_queue.popFront(); // block until we get something // Finish if(absl::holds_alternative< StopStruct >(data)) { return; } assert(absl::holds_alternative< std::vector< PublishData > >(data)); auto vec = absl::get< std::vector< PublishData > >(data); std::vector< std::string > toSend; toSend.reserve(vec.size()); std::transform(vec.begin(), vec.end(), std::back_inserter(toSend), [](const PublishData &d) -> std::string { return absl::StrCat( std::get< 0 >(d), " ", std::get< 1 >(d), " ", absl::ToUnixSeconds(std::get< 2 >(d)), "\n"); }); publishData(toSend, m_host, m_port); } } } // namespace metrics } // namespace llarp