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/*
* Copyright (c) 2021-2022 Cisco and/or its affiliates.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at:
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <server.h>
namespace hiperf {
/**
* Hiperf server class: configure and setup an hicn producer following the
* ServerConfiguration.
*/
class HIperfServer::Impl {
static inline constexpr std::size_t klog2_content_object_buffer_size() {
return 8;
}
static inline constexpr std::size_t kcontent_object_buffer_size() {
return (1 << klog2_content_object_buffer_size());
}
static inline constexpr std::size_t kmask() {
return (kcontent_object_buffer_size() - 1);
}
/**
* @brief As we can (potentially) setup many producer sockets, we need to keep
* a separate context for each one of them. The context contains parameters
* and variable that are specific to a single producer socket.
*/
class ProducerContext
: public Base<ProducerContext, ServerConfiguration, Impl>,
public ProducerSocket::Callback {
public:
using ConfType = ServerConfiguration;
using ParentType = typename HIperfServer::Impl;
static inline const auto getContextType() { return "ProducerContext"; }
ProducerContext(HIperfServer::Impl &server, int producer_identifier)
: Base(server, server.io_service_, producer_identifier) {
// Allocate buffer to copy as content objects payload
std::string buffer(configuration_.payload_size_, 'X');
// Allocate array of content objects. They are share_ptr so that the
// transport will only capture a reference to them instead of performing
// an hard copy.
for (std::size_t i = 0; i < kcontent_object_buffer_size(); i++) {
const auto &element =
content_objects_.emplace_back(std::make_shared<ContentObject>(
configuration_.name_.makeName(), configuration_.packet_format_,
0, (const uint8_t *)buffer.data(), buffer.size()));
element->setLifetime(default_values::content_object_expiry_time);
}
}
// To make vector happy (move or copy constructor is needed when vector
// resizes)
ProducerContext(ProducerContext &&other) noexcept
: Base(std::move(other)),
content_objects_(std::move(other.content_objects_)),
unsatisfied_interests_(std::move(other.unsatisfied_interests_)),
last_segment_(other.last_segment_),
producer_socket_(std::move(other.producer_socket_)),
content_objects_index_(other.content_objects_index_),
payload_size_max_(other.payload_size_max_) {}
virtual ~ProducerContext() = default;
/**
* @brief Produce datagram
*/
void produceDatagram(const uint8_t *buffer, std::size_t buffer_size) const {
assert(producer_socket_);
auto size = std::min(buffer_size, payload_size_max_);
producer_socket_->produceDatagram(flow_name_, buffer, size);
}
/**
* @brief Create and setup the producer socket
*/
int setup() {
int ret;
int production_protocol;
std::shared_ptr<Signer> signer = std::make_shared<VoidSigner>();
if (!configuration_.rtc_) {
production_protocol = ProductionProtocolAlgorithms::BYTE_STREAM;
} else {
production_protocol = ProductionProtocolAlgorithms::RTC_PROD;
}
producer_socket_ = std::make_unique<ProducerSocket>(production_protocol);
if (producer_socket_->setSocketOption(
ProducerCallbacksOptions::PRODUCER_CALLBACK, this) ==
SOCKET_OPTION_NOT_SET) {
getOutputStream() << "Failed to set producer callback." << std::endl;
return ERROR_SETUP;
}
if (producer_socket_->setSocketOption(
GeneralTransportOptions::HASH_ALGORITHM,
configuration_.hash_algorithm_) == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
if (producer_socket_->setSocketOption(
GeneralTransportOptions::MANIFEST_MAX_CAPACITY,
configuration_.manifest_max_capacity_) == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
if (producer_socket_->setSocketOption(PACKET_FORMAT,
configuration_.packet_format_) ==
SOCKET_OPTION_NOT_SET) {
getOutputStream() << "ERROR -- Impossible to set the packet format."
<< std::endl;
return ERROR_SETUP;
}
if (!configuration_.passphrase_.empty()) {
signer = std::make_shared<SymmetricSigner>(CryptoSuite::HMAC_SHA256,
configuration_.passphrase_);
}
if (!configuration_.keystore_name_.empty()) {
signer = std::make_shared<AsymmetricSigner>(
configuration_.keystore_name_, configuration_.keystore_password_);
}
producer_socket_->setSocketOption(GeneralTransportOptions::SIGNER,
signer);
// Compute maximum payload size
Packet::Format format = configuration_.packet_format_;
if (!configuration_.manifest_max_capacity_)
format = Packet::toAHFormat(format);
payload_size_max_ = PayloadSize(format).getPayloadSizeMax(
configuration_.rtc_ ? RTC_HEADER_SIZE : 0,
configuration_.fec_type_.empty() ? 0 : FEC_HEADER_MAX_SIZE,
!configuration_.manifest_max_capacity_
? signer->getSignatureFieldSize()
: 0);
if (configuration_.payload_size_ > payload_size_max_) {
getOutputStream() << "WARNING: Payload has size "
<< configuration_.payload_size_ << ", maximum is "
<< payload_size_max_
<< ". Payload will be truncated to fit." << std::endl;
}
// Verifier for aggregated interests
std::shared_ptr<Verifier> verifier = std::make_shared<VoidVerifier>();
if (!configuration_.aggr_interest_passphrase_.empty()) {
verifier = std::make_unique<SymmetricVerifier>(
configuration_.aggr_interest_passphrase_);
}
ret = producer_socket_->setSocketOption(GeneralTransportOptions::VERIFIER,
verifier);
if (ret == SOCKET_OPTION_NOT_SET) return ERROR_SETUP;
if (configuration_.rtc_) {
ret = producer_socket_->setSocketOption(
RtcTransportOptions::AGGREGATED_DATA,
configuration_.aggregated_data_);
if (ret == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
ret = producer_socket_->setSocketOption(
GeneralTransportOptions::FEC_TYPE, configuration_.fec_type_);
if (ret == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
}
if (producer_socket_->setSocketOption(
GeneralTransportOptions::CONTENT_OBJECT_EXPIRY_TIME,
configuration_.content_lifetime_) == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
producer_socket_->registerPrefix(Prefix(flow_name_, 128));
producer_socket_->connect();
producer_socket_->start();
if (configuration_.rtc_) {
return ERROR_SUCCESS;
}
if (!configuration_.virtual_producer_) {
if (producer_socket_->setSocketOption(
GeneralTransportOptions::OUTPUT_BUFFER_SIZE, 200000U) ==
SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
if (producer_socket_->setSocketOption(
GeneralTransportOptions::MAX_SEGMENT_SIZE,
static_cast<uint32_t>(configuration_.payload_size_)) ==
SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
if (!configuration_.live_production_) {
produceContent(*producer_socket_, configuration_.name_.makeName(), 0);
} else {
ret = producer_socket_->setSocketOption(
ProducerCallbacksOptions::CACHE_MISS,
(ProducerInterestCallback)bind(
&ProducerContext::asyncProcessInterest, this,
std::placeholders::_1, std::placeholders::_2));
if (ret == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
}
} else {
ret = producer_socket_->setSocketOption(
GeneralTransportOptions::OUTPUT_BUFFER_SIZE, 0U);
if (ret == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
ret = producer_socket_->setSocketOption(
ProducerCallbacksOptions::CACHE_MISS,
(ProducerInterestCallback)bind(
&ProducerContext::virtualProcessInterest, this,
std::placeholders::_1, std::placeholders::_2));
if (ret == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
}
ret = producer_socket_->setSocketOption(
ProducerCallbacksOptions::CONTENT_PRODUCED,
(ProducerContentCallback)bind(
&ProducerContext::onContentProduced, this, std::placeholders::_1,
std::placeholders::_2, std::placeholders::_3));
if (ret == SOCKET_OPTION_NOT_SET) {
return ERROR_SETUP;
}
return ERROR_SUCCESS;
}
int run() {
getOutputStream() << "started to serve consumers with name " << flow_name_
<< std::endl;
return ERROR_SUCCESS;
}
void stop() {
getOutputStream() << "stopped to serve consumers" << std::endl;
producer_socket_->stop();
}
private:
/**
* @brief Produce an existing content object. Set the name as the
* interest.
*/
void virtualProcessInterest(ProducerSocket &p, const Interest &interest) {
content_objects_[content_objects_index_ & kmask()]->setName(
interest.getName());
p.produce(*content_objects_[content_objects_index_++ & kmask()]);
}
/**
* @brief Create and produce a buffer of configuration_.download_size_
* length.
*/
void produceContent(ProducerSocket &p, const Name &content_name,
uint32_t suffix) const {
uint32_t total;
auto b = utils::MemBuf::create(configuration_.download_size_);
std::memset(b->writableData(), '?', configuration_.download_size_);
b->append(configuration_.download_size_);
utils::SteadyTime::TimePoint t0 = utils::SteadyTime::Clock::now();
total = p.produceStream(content_name, std::move(b),
!configuration_.multiphase_produce_, suffix);
utils::SteadyTime::TimePoint t1 = utils::SteadyTime::Clock::now();
LoggerInfo() << "Written " << total
<< " data packets in output buffer (Segmentation time: "
<< utils::SteadyTime::getDurationUs(t0, t1).count() << " us)"
<< std::endl;
}
/**
* @brief Synchronously produce content upon reception of one interest
*/
void processInterest(ProducerSocket &p, const Interest &interest) const {
p.setSocketOption(ProducerCallbacksOptions::CACHE_MISS,
(ProducerInterestCallback)VOID_HANDLER);
p.setSocketOption(GeneralTransportOptions::CONTENT_OBJECT_EXPIRY_TIME,
configuration_.content_lifetime_);
produceContent(p, interest.getName(), interest.getName().getSuffix());
LoggerInfo() << "Received interest " << interest.getName().getSuffix()
<< std::endl;
}
/**
* @brief Async create and produce a buffer of
* configuration_.download_size_ length.
*/
void produceContentAsync(ProducerSocket &p, Name content_name,
uint32_t suffix) {
parent_.produce_thread_.add([this, suffix, content_name, &p]() {
auto b = utils::MemBuf::create(configuration_.download_size_);
std::memset(b->writableData(), '?', configuration_.download_size_);
b->append(configuration_.download_size_);
last_segment_ =
suffix + p.produceStream(content_name, std::move(b),
!configuration_.multiphase_produce_,
suffix);
});
}
/**
* @brief Asynchronously produce content upon reception of one interest
*/
void asyncProcessInterest(ProducerSocket &p, const Interest &interest) {
p.setSocketOption(ProducerCallbacksOptions::CACHE_MISS,
(ProducerInterestCallback)bind(
&ProducerContext::cacheMiss, this,
std::placeholders::_1, std::placeholders::_2));
p.setSocketOption(GeneralTransportOptions::CONTENT_OBJECT_EXPIRY_TIME,
configuration_.content_lifetime_);
uint32_t suffix = interest.getName().getSuffix();
if (suffix == 0) {
last_segment_ = 0;
unsatisfied_interests_.clear();
}
// The suffix will either come from the received interest or will be set
// to the smallest suffix of a previous interest not satisfied
if (!unsatisfied_interests_.empty()) {
auto it = std::lower_bound(unsatisfied_interests_.begin(),
unsatisfied_interests_.end(), last_segment_);
if (it != unsatisfied_interests_.end()) {
suffix = *it;
}
unsatisfied_interests_.erase(unsatisfied_interests_.begin(), it);
}
getOutputStream() << " Received interest "
<< interest.getName().getSuffix()
<< ", starting production at " << suffix << end_mod_
<< std::endl;
getOutputStream() << unsatisfied_interests_.size()
<< " interests still unsatisfied" << end_mod_
<< std::endl;
produceContentAsync(p, interest.getName(), suffix);
}
/**
* @brief Register cache miss events
*/
void cacheMiss([[maybe_unused]] const ProducerSocket &p,
const Interest &interest) {
unsatisfied_interests_.push_back(interest.getName().getSuffix());
}
/**
* @brief When content is produced, set cache miss callback so that we can
* register any cache miss happening after the production.
*/
void onContentProduced(ProducerSocket &p,
[[maybe_unused]] const std::error_code &err,
[[maybe_unused]] uint64_t bytes_written) {
p.setSocketOption(ProducerCallbacksOptions::CACHE_MISS,
(ProducerInterestCallback)bind(
&ProducerContext::asyncProcessInterest, this,
std::placeholders::_1, std::placeholders::_2));
}
/**
* @brief Internal producer error. When this callback is triggered
* something important happened. Here we stop the program.
*/
void produceError(const std::error_code &err) noexcept override {
getOutputStream() << "Error from producer transport: " << err.message()
<< std::endl;
parent_.stop();
}
// Members initialized in constructor
std::vector<ContentObject::Ptr> content_objects_;
// Members initialized by in-class initializer
std::vector<uint32_t> unsatisfied_interests_;
std::uint32_t last_segment_{0};
std::unique_ptr<ProducerSocket> producer_socket_{nullptr};
std::uint16_t content_objects_index_{0};
std::size_t payload_size_max_{0};
};
public:
explicit Impl(const hiperf::ServerConfiguration &conf) : config_(conf) {
#ifndef _WIN32
if (config_.interactive_) {
input_.assign(::dup(STDIN_FILENO));
}
#endif
std::memset(rtc_payload_.data(), 'X', rtc_payload_.size());
}
~Impl() = default;
int setup() {
int ret = ensureFlows(config_.name_, config_.parallel_flows_);
if (ret != ERROR_SUCCESS) {
return ret;
}
producer_contexts_.reserve(config_.parallel_flows_);
for (uint32_t i = 0; i < config_.parallel_flows_; i++) {
auto &ctx = producer_contexts_.emplace_back(*this, i);
ret = ctx.setup();
if (ret) {
break;
}
}
return ret;
}
void receiveStream() {
socket_.async_receive_from(
asio::buffer(recv_buffer_.writableData(), recv_buffer_.capacity()),
remote_, [this](const std::error_code &ec, std::size_t length) {
if (ec) return;
sendRTCContentFromStream(recv_buffer_.writableData(), length);
receiveStream();
});
}
void sendRTCContentFromStream(const uint8_t *buff, std::size_t len) {
// this is used to compute the data packet delay
// Used only for performance evaluation
// It requires clock synchronization between producer and consumer
auto now = utils::SystemTime::nowMs().count();
auto start = rtc_payload_.data();
std::memcpy(start, &now, sizeof(uint64_t));
std::memcpy(start + sizeof(uint64_t), buff, len);
for (const auto &producer_context : producer_contexts_) {
producer_context.produceDatagram(start, len + sizeof(uint64_t));
}
}
void sendRTCContentObjectCallback(const std::error_code &ec) {
if (ec) return;
rtc_timer_.expires_from_now(
config_.production_rate_.getMicrosecondsForPacket(
config_.payload_size_));
rtc_timer_.async_wait(std::bind(&Impl::sendRTCContentObjectCallback, this,
std::placeholders::_1));
auto start = rtc_payload_.data();
// this is used to compute the data packet delay
// Used only for performance evaluation
// It requires clock synchronization between producer and consumer
auto now = utils::SystemTime::nowMs().count();
std::memcpy(start, &now, sizeof(uint64_t));
for (const auto &producer_context : producer_contexts_) {
producer_context.produceDatagram(start, config_.payload_size_);
}
}
void sendRTCContentObjectCallbackWithTrace(const std::error_code &ec) {
if (ec) return;
std::size_t packet_len = config_.trace_[config_.trace_index_].size;
// this is used to compute the data packet delay
// used only for performance evaluation
// it requires clock synchronization between producer and consumer
auto now = utils::SystemTime::nowMs().count();
auto start = rtc_payload_.data();
std::memcpy(start, &now, sizeof(uint64_t));
if (packet_len > config_.payload_size_) {
packet_len = config_.payload_size_;
}
for (const auto &producer_context : producer_contexts_) {
producer_context.produceDatagram(start, packet_len);
}
uint32_t next_index = config_.trace_index_ + 1;
uint64_t schedule_next;
if (next_index < config_.trace_.size()) {
schedule_next = config_.trace_[next_index].timestamp -
config_.trace_[config_.trace_index_].timestamp;
} else {
// here we need to loop, schedule in a random time
schedule_next = 1000;
}
config_.trace_index_ = (config_.trace_index_ + 1) % config_.trace_.size();
rtc_timer_.expires_from_now(std::chrono::microseconds(schedule_next));
rtc_timer_.async_wait(
std::bind(&Impl::sendRTCContentObjectCallbackWithTrace, this,
std::placeholders::_1));
}
int parseTraceFile() {
std::ifstream trace(config_.trace_file_);
if (trace.fail()) {
return -1;
}
std::string line;
while (std::getline(trace, line)) {
std::istringstream iss(line);
hiperf::packet_t packet;
iss >> packet.timestamp >> packet.size;
config_.trace_.push_back(packet);
}
return 0;
}
#ifndef _WIN32
void handleInput(const std::error_code &error, std::size_t length) {
if (error) {
stop();
}
if (rtc_running_) {
LoggerInfo() << "stop real time content production" << std::endl;
rtc_running_ = false;
rtc_timer_.cancel();
} else {
LoggerInfo() << "start real time content production" << std::endl;
rtc_running_ = true;
rtc_timer_.expires_from_now(
config_.production_rate_.getMicrosecondsForPacket(
config_.payload_size_));
rtc_timer_.async_wait(std::bind(&Impl::sendRTCContentObjectCallback, this,
std::placeholders::_1));
}
input_buffer_.consume(length); // Remove newline from input.
asio::async_read_until(
input_, input_buffer_, '\n',
std::bind(&Impl::handleInput, this, std::placeholders::_1,
std::placeholders::_2));
}
#endif
void stop() {
for (auto &producer_context : producer_contexts_) {
producer_context.stop();
}
io_service_.stop();
}
int run() {
signals_.add(SIGINT);
signals_.async_wait(
[this](const std::error_code &, const int &) { stop(); });
if (config_.rtc_) {
if (config_.interactive_) {
asio::async_read_until(
input_, input_buffer_, '\n',
std::bind(&Impl::handleInput, this, std::placeholders::_1,
std::placeholders::_2));
} else if (config_.trace_based_) {
LoggerInfo() << "trace-based mode enabled" << std::endl;
if (config_.trace_file_ == nullptr) {
LoggerErr() << "cannot find the trace file" << std::endl;
return ERROR_SETUP;
}
if (parseTraceFile() < 0) {
LoggerErr() << "cannot parse the trace file" << std::endl;
return ERROR_SETUP;
}
rtc_running_ = true;
rtc_timer_.expires_from_now(std::chrono::milliseconds(1));
rtc_timer_.async_wait(
std::bind(&Impl::sendRTCContentObjectCallbackWithTrace, this,
std::placeholders::_1));
} else if (config_.input_stream_mode_) {
rtc_running_ = true;
// create socket
remote_ = asio::ip::udp::endpoint(
asio::ip::address::from_string("127.0.0.1"), config_.port_);
socket_.open(asio::ip::udp::v4());
socket_.bind(remote_);
receiveStream();
} else {
rtc_running_ = true;
rtc_timer_.expires_from_now(
config_.production_rate_.getMicrosecondsForPacket(
config_.payload_size_));
rtc_timer_.async_wait(std::bind(&Impl::sendRTCContentObjectCallback,
this, std::placeholders::_1));
}
}
for (auto &producer_context : producer_contexts_) {
producer_context.run();
}
io_service_.run();
return ERROR_SUCCESS;
}
ServerConfiguration &getConfig() { return config_; }
private:
// Variables initialized by the constructor.
ServerConfiguration config_;
// Variable initialized in the in-class initializer list.
asio::io_service io_service_;
asio::signal_set signals_{io_service_};
asio::steady_timer rtc_timer_{io_service_};
asio::posix::stream_descriptor input_{io_service_};
asio::ip::udp::socket socket_{io_service_};
std::vector<ProducerContext> producer_contexts_;
::utils::EventThread produce_thread_;
asio::streambuf input_buffer_;
bool rtc_running_{false};
asio::ip::udp::endpoint remote_;
utils::MemBuf recv_buffer_{utils::MemBuf::CREATE, HIPERF_MTU};
std::array<uint8_t, HIPERF_MTU> rtc_payload_;
};
HIperfServer::HIperfServer(const ServerConfiguration &conf)
: impl_(std::make_unique<Impl>(conf)) {}
HIperfServer::~HIperfServer() = default;
int HIperfServer::setup() { return impl_->setup(); }
void HIperfServer::run() { impl_->run(); }
} // namespace hiperf
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