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|
/*
* Copyright (c) 2017-2019 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.
*/
#pragma once
#include <hicn/transport/security/signer.h>
#include <implementation/socket.h>
#include <utils/content_store.h>
#include <utils/event_thread.h>
#include <utils/suffix_strategy.h>
#include <atomic>
#include <cmath>
#include <condition_variable>
#include <mutex>
#include <queue>
#include <thread>
#define REGISTRATION_NOT_ATTEMPTED 0
#define REGISTRATION_SUCCESS 1
#define REGISTRATION_FAILURE 2
#define REGISTRATION_IN_PROGRESS 3
namespace transport {
namespace implementation {
using namespace core;
using namespace interface;
class ProducerSocket : public Socket<BasePortal>,
public BasePortal::ProducerCallback {
static constexpr uint32_t burst_size = 256;
public:
explicit ProducerSocket(interface::ProducerSocket *producer_socket)
: producer_interface_(producer_socket),
portal_(std::make_shared<Portal>(io_service_)),
data_packet_size_(default_values::content_object_packet_size),
content_object_expiry_time_(default_values::content_object_expiry_time),
output_buffer_(default_values::producer_socket_output_buffer_size),
async_thread_(),
registration_status_(REGISTRATION_NOT_ATTEMPTED),
making_manifest_(false),
hash_algorithm_(utils::CryptoHashType::SHA_256),
suffix_strategy_(core::NextSegmentCalculationStrategy::INCREMENTAL),
on_interest_input_(VOID_HANDLER),
on_interest_dropped_input_buffer_(VOID_HANDLER),
on_interest_inserted_input_buffer_(VOID_HANDLER),
on_interest_satisfied_output_buffer_(VOID_HANDLER),
on_interest_process_(VOID_HANDLER),
on_new_segment_(VOID_HANDLER),
on_content_object_to_sign_(VOID_HANDLER),
on_content_object_in_output_buffer_(VOID_HANDLER),
on_content_object_output_(VOID_HANDLER),
on_content_object_evicted_from_output_buffer_(VOID_HANDLER),
on_content_produced_(VOID_HANDLER) {}
virtual ~ProducerSocket() {
stop();
if (listening_thread_.joinable()) {
listening_thread_.join();
}
}
interface::ProducerSocket *getInterface() {
return producer_interface_;
}
void setInterface(interface::ProducerSocket *producer_socket) {
producer_interface_ = producer_socket;
}
void connect() override {
portal_->connect(false);
listening_thread_ = std::thread(std::bind(&ProducerSocket::listen, this));
}
bool isRunning() override { return !io_service_.stopped(); };
virtual uint32_t produce(Name content_name, const uint8_t *buffer,
size_t buffer_size, bool is_last = true,
uint32_t start_offset = 0) {
return ProducerSocket::produce(
content_name, utils::MemBuf::copyBuffer(buffer, buffer_size), is_last,
start_offset);
}
virtual uint32_t produce(Name content_name,
std::unique_ptr<utils::MemBuf> &&buffer,
bool is_last = true, uint32_t start_offset = 0) {
if (TRANSPORT_EXPECT_FALSE(buffer->length() == 0)) {
return 0;
}
// Copy the atomic variables to ensure they keep the same value
// during the production
std::size_t data_packet_size = data_packet_size_;
uint32_t content_object_expiry_time = content_object_expiry_time_;
utils::CryptoHashType hash_algo = hash_algorithm_;
bool making_manifest = making_manifest_;
auto suffix_strategy = utils::SuffixStrategyFactory::getSuffixStrategy(
suffix_strategy_, start_offset);
std::shared_ptr<utils::Signer> signer;
getSocketOption(GeneralTransportOptions::SIGNER, signer);
auto buffer_size = buffer->length();
int bytes_segmented = 0;
std::size_t header_size;
std::size_t manifest_header_size = 0;
std::size_t signature_length = 0;
std::uint32_t final_block_number = start_offset;
uint64_t free_space_for_content = 0;
core::Packet::Format format;
std::shared_ptr<ContentObjectManifest> manifest;
bool is_last_manifest = false;
// TODO Manifest may still be used for indexing
if (making_manifest && !signer) {
TRANSPORT_LOGD("Making manifests without setting producer identity.");
}
core::Packet::Format hf_format = core::Packet::Format::HF_UNSPEC;
core::Packet::Format hf_format_ah = core::Packet::Format::HF_UNSPEC;
if (content_name.getType() == HNT_CONTIGUOUS_V4 ||
content_name.getType() == HNT_IOV_V4) {
hf_format = core::Packet::Format::HF_INET_TCP;
hf_format_ah = core::Packet::Format::HF_INET_TCP_AH;
} else if (content_name.getType() == HNT_CONTIGUOUS_V6 ||
content_name.getType() == HNT_IOV_V6) {
hf_format = core::Packet::Format::HF_INET6_TCP;
hf_format_ah = core::Packet::Format::HF_INET6_TCP_AH;
} else {
throw errors::RuntimeException("Unknown name format.");
}
format = hf_format;
if (making_manifest) {
manifest_header_size = core::Packet::getHeaderSizeFromFormat(
signer ? hf_format_ah : hf_format,
signer ? signer->getSignatureLength() : 0);
} else if (signer) {
format = hf_format_ah;
signature_length = signer->getSignatureLength();
}
header_size =
core::Packet::getHeaderSizeFromFormat(format, signature_length);
free_space_for_content = data_packet_size - header_size;
uint32_t number_of_segments = uint32_t(
std::ceil(double(buffer_size) / double(free_space_for_content)));
if (free_space_for_content * number_of_segments < buffer_size) {
number_of_segments++;
}
// TODO allocate space for all the headers
if (making_manifest) {
uint32_t segment_in_manifest = static_cast<uint32_t>(
std::floor(double(data_packet_size - manifest_header_size -
ContentObjectManifest::getManifestHeaderSize()) /
ContentObjectManifest::getManifestEntrySize()) -
1.0);
uint32_t number_of_manifests = static_cast<uint32_t>(
std::ceil(float(number_of_segments) / segment_in_manifest));
final_block_number += number_of_segments + number_of_manifests - 1;
manifest.reset(ContentObjectManifest::createManifest(
content_name.setSuffix(suffix_strategy->getNextManifestSuffix()),
core::ManifestVersion::VERSION_1, core::ManifestType::INLINE_MANIFEST,
hash_algo, is_last_manifest, content_name, suffix_strategy_,
signer ? signer->getSignatureLength() : 0));
manifest->setLifetime(content_object_expiry_time);
if (is_last) {
manifest->setFinalBlockNumber(final_block_number);
} else {
manifest->setFinalBlockNumber(utils::SuffixStrategy::INVALID_SUFFIX);
}
}
TRANSPORT_LOGD("--------- START PRODUCE ----------");
for (unsigned int packaged_segments = 0;
packaged_segments < number_of_segments; packaged_segments++) {
if (making_manifest) {
if (manifest->estimateManifestSize(2) >
data_packet_size - manifest_header_size) {
// Send the current manifest
manifest->encode();
// If identity set, sign manifest
if (signer) {
signer->sign(*manifest);
}
passContentObjectToCallbacks(manifest);
TRANSPORT_LOGD("Send manifest %u", manifest->getName().getSuffix());
// Send content objects stored in the queue
while (!content_queue_.empty()) {
passContentObjectToCallbacks(content_queue_.front());
TRANSPORT_LOGD("Send content %u",
content_queue_.front()->getName().getSuffix());
content_queue_.pop();
}
// Create new manifest. The reference to the last manifest has been
// acquired in the passContentObjectToCallbacks function, so we can
// safely release this reference
manifest.reset(ContentObjectManifest::createManifest(
content_name.setSuffix(suffix_strategy->getNextManifestSuffix()),
core::ManifestVersion::VERSION_1,
core::ManifestType::INLINE_MANIFEST, hash_algo, is_last_manifest,
content_name, suffix_strategy_,
signer ? signer->getSignatureLength() : 0));
manifest->setLifetime(content_object_expiry_time);
manifest->setFinalBlockNumber(
is_last ? final_block_number
: utils::SuffixStrategy::INVALID_SUFFIX);
}
}
auto content_suffix = suffix_strategy->getNextContentSuffix();
auto content_object = std::make_shared<ContentObject>(
content_name.setSuffix(content_suffix), format);
content_object->setLifetime(content_object_expiry_time);
auto b = buffer->cloneOne();
b->trimStart(free_space_for_content * packaged_segments);
b->trimEnd(b->length());
if (TRANSPORT_EXPECT_FALSE(packaged_segments == number_of_segments - 1)) {
b->append(buffer_size - bytes_segmented);
bytes_segmented += (int)(buffer_size - bytes_segmented);
if (is_last && making_manifest) {
is_last_manifest = true;
} else if (is_last) {
content_object->setRst();
}
} else {
b->append(free_space_for_content);
bytes_segmented += (int)(free_space_for_content);
}
content_object->appendPayload(std::move(b));
if (making_manifest) {
using namespace std::chrono_literals;
utils::CryptoHash hash = content_object->computeDigest(hash_algo);
manifest->addSuffixHash(content_suffix, hash);
content_queue_.push(content_object);
} else {
if (signer) {
signer->sign(*content_object);
}
passContentObjectToCallbacks(content_object);
TRANSPORT_LOGD("Send content %u",
content_object->getName().getSuffix());
}
}
if (making_manifest) {
if (is_last_manifest) {
manifest->setFinalManifest(is_last_manifest);
}
manifest->encode();
if (signer) {
signer->sign(*manifest);
}
passContentObjectToCallbacks(manifest);
TRANSPORT_LOGD("Send manifest %u", manifest->getName().getSuffix());
while (!content_queue_.empty()) {
passContentObjectToCallbacks(content_queue_.front());
TRANSPORT_LOGD("Send content %u",
content_queue_.front()->getName().getSuffix());
content_queue_.pop();
}
}
io_service_.post([this]() {
std::shared_ptr<ContentObject> co;
while (object_queue_for_callbacks_.pop(co)) {
if (on_new_segment_) {
on_new_segment_(*producer_interface_, *co);
}
if (on_content_object_to_sign_) {
on_content_object_to_sign_(*producer_interface_, *co);
}
if (on_content_object_in_output_buffer_) {
on_content_object_in_output_buffer_(*producer_interface_, *co);
}
if (on_content_object_output_) {
on_content_object_output_(*producer_interface_, *co);
}
}
});
io_service_.dispatch([this, buffer_size]() {
if (on_content_produced_) {
on_content_produced_(*producer_interface_,
std::make_error_code(std::errc(0)), buffer_size);
}
});
return suffix_strategy->getTotalCount();
}
virtual void produce(ContentObject &content_object) {
io_service_.dispatch([this, &content_object]() {
if (on_content_object_in_output_buffer_) {
on_content_object_in_output_buffer_(*producer_interface_,
content_object);
}
});
output_buffer_.insert(std::static_pointer_cast<ContentObject>(
content_object.shared_from_this()));
io_service_.dispatch([this, &content_object]() {
if (on_content_object_output_) {
on_content_object_output_(*producer_interface_, content_object);
}
});
portal_->sendContentObject(content_object);
}
virtual void produce(const uint8_t *buffer, size_t buffer_size) {
produce(utils::MemBuf::copyBuffer(buffer, buffer_size));
}
virtual void produce(std::unique_ptr<utils::MemBuf> &&buffer) {
// This API is meant to be used just with the RTC producer.
// Here it cannot be used since no name for the content is specified.
throw errors::NotImplementedException();
}
virtual void asyncProduce(const Name &suffix, const uint8_t *buf,
size_t buffer_size, bool is_last = true,
uint32_t *start_offset = nullptr) {
if (!async_thread_.stopped()) {
async_thread_.add([this, suffix, buffer = buf, size = buffer_size,
is_last, start_offset]() {
if (start_offset != nullptr) {
*start_offset = ProducerSocket::produce(suffix, buffer, size, is_last,
*start_offset);
} else {
ProducerSocket::produce(suffix, buffer, size, is_last, 0);
}
});
}
}
void asyncProduce(const Name &suffix);
virtual void asyncProduce(Name content_name,
std::unique_ptr<utils::MemBuf> &&buffer,
bool is_last, uint32_t offset,
uint32_t **last_segment = nullptr) {
if (!async_thread_.stopped()) {
auto a = buffer.release();
async_thread_.add(
[this, content_name, a, is_last, offset, last_segment]() {
auto buf = std::unique_ptr<utils::MemBuf>(a);
if (last_segment != NULL) {
**last_segment =
offset + ProducerSocket::produce(content_name, std::move(buf),
is_last, offset);
} else {
ProducerSocket::produce(content_name, std::move(buf), is_last,
offset);
}
});
}
}
virtual void asyncProduce(ContentObject &content_object) {
if (!async_thread_.stopped()) {
auto co_ptr = std::static_pointer_cast<ContentObject>(
content_object.shared_from_this());
async_thread_.add([this, content_object = std::move(co_ptr)]() {
ProducerSocket::produce(*content_object);
});
}
}
virtual void registerPrefix(const Prefix &producer_namespace) {
served_namespaces_.push_back(producer_namespace);
}
void serveForever() {
if (listening_thread_.joinable()) {
listening_thread_.join();
}
}
void stop() { portal_->stopEventsLoop(); }
asio::io_service &getIoService() override { return portal_->getIoService(); };
virtual void onInterest(Interest &interest) {
if (on_interest_input_) {
on_interest_input_(*producer_interface_, interest);
}
const std::shared_ptr<ContentObject> content_object =
output_buffer_.find(interest);
if (content_object) {
if (on_interest_satisfied_output_buffer_) {
on_interest_satisfied_output_buffer_(*producer_interface_, interest);
}
if (on_content_object_output_) {
on_content_object_output_(*producer_interface_, *content_object);
}
portal_->sendContentObject(*content_object);
} else {
if (on_interest_process_) {
on_interest_process_(*producer_interface_, interest);
}
}
}
virtual void onInterest(Interest::Ptr &&interest) override {
onInterest(*interest);
};
virtual void onError(std::error_code ec) override {}
virtual int setSocketOption(int socket_option_key,
uint32_t socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::DATA_PACKET_SIZE:
if (socket_option_value <= default_values::max_content_object_size &&
socket_option_value > 0) {
data_packet_size_ = socket_option_value;
}
break;
case GeneralTransportOptions::OUTPUT_BUFFER_SIZE:
output_buffer_.setLimit(socket_option_value);
break;
case GeneralTransportOptions::CONTENT_OBJECT_EXPIRY_TIME:
content_object_expiry_time_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
}
virtual int setSocketOption(int socket_option_key,
std::nullptr_t socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerContentObjectCallback socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::INTEREST_INPUT:
if (socket_option_value == VOID_HANDLER) {
on_interest_input_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::INTEREST_DROP:
if (socket_option_value == VOID_HANDLER) {
on_interest_dropped_input_buffer_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::INTEREST_PASS:
if (socket_option_value == VOID_HANDLER) {
on_interest_inserted_input_buffer_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::CACHE_HIT:
if (socket_option_value == VOID_HANDLER) {
on_interest_satisfied_output_buffer_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::CACHE_MISS:
if (socket_option_value == VOID_HANDLER) {
on_interest_process_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::NEW_CONTENT_OBJECT:
if (socket_option_value == VOID_HANDLER) {
on_new_segment_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::CONTENT_OBJECT_READY:
if (socket_option_value == VOID_HANDLER) {
on_content_object_in_output_buffer_ = VOID_HANDLER;
break;
}
case ProducerCallbacksOptions::CONTENT_OBJECT_OUTPUT:
if (socket_option_value == VOID_HANDLER) {
on_content_object_output_ = VOID_HANDLER;
break;
}
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
});
}
virtual int setSocketOption(int socket_option_key, bool socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::MAKE_MANIFEST:
making_manifest_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
}
virtual int setSocketOption(int socket_option_key,
Name *socket_option_value) {
return SOCKET_OPTION_NOT_SET;
}
virtual int setSocketOption(int socket_option_key,
std::list<Prefix> socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::NETWORK_NAME:
served_namespaces_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
}
virtual int setSocketOption(
int socket_option_key,
interface::ProducerContentObjectCallback socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerContentObjectCallback socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::NEW_CONTENT_OBJECT:
on_new_segment_ = socket_option_value;
break;
case ProducerCallbacksOptions::CONTENT_OBJECT_READY:
on_content_object_in_output_buffer_ = socket_option_value;
break;
case ProducerCallbacksOptions::CONTENT_OBJECT_OUTPUT:
on_content_object_output_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
});
}
virtual int setSocketOption(
int socket_option_key,
interface::ProducerInterestCallback socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerInterestCallback socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::INTEREST_INPUT:
on_interest_input_ = socket_option_value;
break;
case ProducerCallbacksOptions::INTEREST_DROP:
on_interest_dropped_input_buffer_ = socket_option_value;
break;
case ProducerCallbacksOptions::INTEREST_PASS:
on_interest_inserted_input_buffer_ = socket_option_value;
break;
case ProducerCallbacksOptions::CACHE_HIT:
on_interest_satisfied_output_buffer_ = socket_option_value;
break;
case ProducerCallbacksOptions::CACHE_MISS:
on_interest_process_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
});
}
virtual int setSocketOption(
int socket_option_key,
interface::ProducerContentCallback socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerContentCallback socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::CONTENT_PRODUCED:
on_content_produced_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
});
}
virtual int setSocketOption(int socket_option_key,
utils::CryptoHashType socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::HASH_ALGORITHM:
hash_algorithm_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
}
virtual int setSocketOption(int socket_option_key,
utils::CryptoSuite socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::CRYPTO_SUITE:
crypto_suite_ = socket_option_value;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
}
virtual int setSocketOption(
int socket_option_key,
const std::shared_ptr<utils::Signer> &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::SIGNER: {
utils::SpinLock::Acquire locked(signer_lock_);
signer_.reset();
signer_ = socket_option_value;
} break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_SET;
}
virtual int getSocketOption(int socket_option_key,
uint32_t &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::OUTPUT_BUFFER_SIZE:
socket_option_value = (uint32_t)output_buffer_.getLimit();
break;
case GeneralTransportOptions::DATA_PACKET_SIZE:
socket_option_value = (uint32_t)data_packet_size_;
break;
case GeneralTransportOptions::CONTENT_OBJECT_EXPIRY_TIME:
socket_option_value = content_object_expiry_time_;
break;
default:
return SOCKET_OPTION_NOT_SET;
}
return SOCKET_OPTION_GET;
}
virtual int getSocketOption(int socket_option_key,
bool &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::MAKE_MANIFEST:
socket_option_value = making_manifest_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
}
virtual int getSocketOption(int socket_option_key,
std::list<Prefix> &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::NETWORK_NAME:
socket_option_value = served_namespaces_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
}
virtual int getSocketOption(
int socket_option_key,
interface::ProducerContentObjectCallback **socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerContentObjectCallback **socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::NEW_CONTENT_OBJECT:
*socket_option_value = &on_new_segment_;
break;
case ProducerCallbacksOptions::CONTENT_OBJECT_READY:
*socket_option_value = &on_content_object_in_output_buffer_;
break;
case ProducerCallbacksOptions::CONTENT_OBJECT_OUTPUT:
*socket_option_value = &on_content_object_output_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
});
}
virtual int getSocketOption(
int socket_option_key,
interface::ProducerContentCallback **socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerContentCallback **socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::CONTENT_PRODUCED:
*socket_option_value = &on_content_produced_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
});
}
virtual int getSocketOption(
int socket_option_key,
interface::ProducerInterestCallback **socket_option_value) {
// Reschedule the function on the io_service to avoid race condition in case
// setSocketOption is called while the io_service is running.
return rescheduleOnIOService(
socket_option_key, socket_option_value,
[this](int socket_option_key,
ProducerInterestCallback **socket_option_value) -> int {
switch (socket_option_key) {
case ProducerCallbacksOptions::INTEREST_INPUT:
*socket_option_value = &on_interest_input_;
break;
case ProducerCallbacksOptions::INTEREST_DROP:
*socket_option_value = &on_interest_dropped_input_buffer_;
break;
case ProducerCallbacksOptions::INTEREST_PASS:
*socket_option_value = &on_interest_inserted_input_buffer_;
break;
case CACHE_HIT:
*socket_option_value = &on_interest_satisfied_output_buffer_;
break;
case CACHE_MISS:
*socket_option_value = &on_interest_process_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
});
}
virtual int getSocketOption(int socket_option_key,
std::shared_ptr<Portal> &socket_option_value) {
switch (socket_option_key) {
case PORTAL:
socket_option_value = portal_;
break;
default:
return SOCKET_OPTION_NOT_GET;
;
}
return SOCKET_OPTION_GET;
}
virtual int getSocketOption(int socket_option_key,
utils::CryptoHashType &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::HASH_ALGORITHM:
socket_option_value = hash_algorithm_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
}
virtual int getSocketOption(int socket_option_key,
utils::CryptoSuite &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::HASH_ALGORITHM:
socket_option_value = crypto_suite_;
break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
}
virtual int getSocketOption(
int socket_option_key,
std::shared_ptr<utils::Signer> &socket_option_value) {
switch (socket_option_key) {
case GeneralTransportOptions::SIGNER: {
utils::SpinLock::Acquire locked(signer_lock_);
socket_option_value = signer_;
} break;
default:
return SOCKET_OPTION_NOT_GET;
}
return SOCKET_OPTION_GET;
}
virtual int setSocketOption(int socket_option_key,
const std::string &socket_option_value) {
return SOCKET_OPTION_NOT_SET;
}
// If the thread calling lambda_func is not the same of io_service, this
// function reschedule the function on it
template <typename Lambda, typename arg2>
int rescheduleOnIOService(int socket_option_key, arg2 socket_option_value,
Lambda lambda_func) {
// To enforce type check
std::function<int(int, arg2)> func = lambda_func;
int result = SOCKET_OPTION_SET;
if (listening_thread_.joinable() &&
std::this_thread::get_id() != listening_thread_.get_id()) {
std::mutex mtx;
/* Condition variable for the wait */
std::condition_variable cv;
bool done = false;
io_service_.dispatch([&socket_option_key, &socket_option_value, &mtx, &cv,
&result, &done, &func]() {
std::unique_lock<std::mutex> lck(mtx);
done = true;
result = func(socket_option_key, socket_option_value);
cv.notify_all();
});
std::unique_lock<std::mutex> lck(mtx);
if (!done) {
cv.wait(lck);
}
} else {
result = func(socket_option_key, socket_option_value);
}
return result;
}
// If the thread calling lambda_func is not the same of io_service, this
// function reschedule the function on it
template <typename Lambda, typename arg2>
int rescheduleOnIOServiceWithReference(int socket_option_key,
arg2 &socket_option_value,
Lambda lambda_func) {
// To enforce type check
std::function<int(int, arg2 &)> func = lambda_func;
int result = SOCKET_OPTION_SET;
if (listening_thread_.joinable() &&
std::this_thread::get_id() != this->listening_thread_.get_id()) {
std::mutex mtx;
/* Condition variable for the wait */
std::condition_variable cv;
std::unique_lock<std::mutex> lck(mtx);
bool done = false;
io_service_.dispatch([&socket_option_key, &socket_option_value, &mtx, &cv,
&result, &done, &func]() {
std::unique_lock<std::mutex> lck(mtx);
done = true;
result = func(socket_option_key, socket_option_value);
if (!done) {
cv.wait(lck);
}
});
} else {
result = func(socket_option_key, socket_option_value);
}
return result;
}
// Threads
protected:
interface::ProducerSocket *producer_interface_;
std::thread listening_thread_;
asio::io_service io_service_;
std::shared_ptr<Portal> portal_;
std::atomic<size_t> data_packet_size_;
std::list<Prefix>
served_namespaces_; // No need to be threadsafe, this is always modified
// by the application thread
std::atomic<uint32_t> content_object_expiry_time_;
utils::CircularFifo<std::shared_ptr<ContentObject>, 2048>
object_queue_for_callbacks_;
// buffers
// ContentStore is thread-safe
utils::ContentStore output_buffer_;
utils::EventThread async_thread_;
int registration_status_;
std::atomic<bool> making_manifest_;
// map for storing sequence numbers for several calls of the publish
// function
std::unordered_map<Name, std::unordered_map<int, uint32_t>> seq_number_map_;
std::atomic<utils::CryptoHashType> hash_algorithm_;
std::atomic<utils::CryptoSuite> crypto_suite_;
utils::SpinLock signer_lock_;
std::shared_ptr<utils::Signer> signer_;
core::NextSegmentCalculationStrategy suffix_strategy_;
// While manifests are being built, contents are stored in a queue
std::queue<std::shared_ptr<ContentObject>> content_queue_;
// callbacks
ProducerInterestCallback on_interest_input_;
ProducerInterestCallback on_interest_dropped_input_buffer_;
ProducerInterestCallback on_interest_inserted_input_buffer_;
ProducerInterestCallback on_interest_satisfied_output_buffer_;
ProducerInterestCallback on_interest_process_;
ProducerContentObjectCallback on_new_segment_;
ProducerContentObjectCallback on_content_object_to_sign_;
ProducerContentObjectCallback on_content_object_in_output_buffer_;
ProducerContentObjectCallback on_content_object_output_;
ProducerContentObjectCallback on_content_object_evicted_from_output_buffer_;
ProducerContentCallback on_content_produced_;
private:
void listen() {
bool first = true;
for (core::Prefix &producer_namespace : served_namespaces_) {
if (first) {
core::BindConfig bind_config(producer_namespace, 1000);
portal_->bind(bind_config);
portal_->setProducerCallback(this);
first = !first;
} else {
portal_->registerRoute(producer_namespace);
}
}
portal_->runEventsLoop();
}
void scheduleSendBurst() {
io_service_.post([this]() {
std::shared_ptr<ContentObject> co;
for (uint32_t i = 0; i < burst_size; i++) {
if (object_queue_for_callbacks_.pop(co)) {
if (on_new_segment_) {
on_new_segment_(*producer_interface_, *co);
}
if (on_content_object_to_sign_) {
on_content_object_to_sign_(*producer_interface_, *co);
}
if (on_content_object_in_output_buffer_) {
on_content_object_in_output_buffer_(*producer_interface_, *co);
}
if (on_content_object_output_) {
on_content_object_output_(*producer_interface_, *co);
}
} else {
break;
}
}
});
}
void passContentObjectToCallbacks(
const std::shared_ptr<ContentObject> &content_object) {
output_buffer_.insert(content_object);
portal_->sendContentObject(*content_object);
object_queue_for_callbacks_.push(std::move(content_object));
if (object_queue_for_callbacks_.size() >= burst_size) {
scheduleSendBurst();
}
}
};
} // namespace implementation
} // namespace transport
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