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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2021 Software Radio Systems Limited
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*
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* By using this file, you agree to the terms and conditions set
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* forth in the LICENSE file which can be found at the top level of
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* the distribution.
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*
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*/
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#ifndef SRSRAN_BUFFER_POOL_H
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#define SRSRAN_BUFFER_POOL_H
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#include "byte_buffer.h"
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#include "srsran/adt/bounded_vector.h"
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#include <algorithm>
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#include <map>
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#include <pthread.h>
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#include <stack>
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#include <string>
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#include <vector>
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#include "srsran/adt/pool/fixed_size_pool.h"
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#include "srsran/common/common.h"
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#include "srsran/srslog/srslog.h"
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namespace srsran {
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/******************************************************************************
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* Buffer pool
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*
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* Preallocates a large number of buffer_t and provides allocate and
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* deallocate functions. Provides quick object creation and deletion as well
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* as object reuse.
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* Singleton class of byte_buffer_t (but other pools of different type can be created)
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*****************************************************************************/
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template <class buffer_t>
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class buffer_pool
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{
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public:
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// non-static methods
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buffer_pool(int capacity_ = -1)
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{
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uint32_t nof_buffers = POOL_SIZE;
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if (capacity_ > 0) {
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nof_buffers = (uint32_t)capacity_;
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}
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used.reserve(nof_buffers);
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pthread_mutex_init(&mutex, nullptr);
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pthread_cond_init(&cv_not_empty, nullptr);
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for (uint32_t i = 0; i < nof_buffers; i++) {
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buffer_t* b = new (std::nothrow) buffer_t;
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if (!b) {
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perror("Error allocating memory. Exiting...\n");
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exit(-1);
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}
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available.push(b);
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}
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capacity = nof_buffers;
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}
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~buffer_pool()
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{
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// this destructor assumes all buffers have been properly deallocated
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while (available.size()) {
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delete available.top();
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available.pop();
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}
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for (uint32_t i = 0; i < used.size(); i++) {
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delete used[i];
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}
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pthread_cond_destroy(&cv_not_empty);
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pthread_mutex_destroy(&mutex);
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}
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void print_all_buffers()
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{
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printf("%d buffers in queue\n", (int)used.size());
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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std::map<std::string, uint32_t> buffer_cnt;
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for (uint32_t i = 0; i < used.size(); i++) {
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buffer_cnt[strlen(used[i]->debug_name) ? used[i]->debug_name : "Undefined"]++;
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}
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std::map<std::string, uint32_t>::iterator it;
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for (it = buffer_cnt.begin(); it != buffer_cnt.end(); it++) {
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printf(" - %dx %s\n", it->second, it->first.c_str());
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}
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#endif
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}
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uint32_t nof_available_pdus() { return available.size(); }
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bool is_almost_empty() { return available.size() < capacity / 20; }
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buffer_t* allocate(const char* debug_name = nullptr, bool blocking = false)
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{
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pthread_mutex_lock(&mutex);
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buffer_t* b = nullptr;
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if (available.size() > 0) {
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b = available.top();
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used.push_back(b);
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available.pop();
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if (is_almost_empty()) {
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printf("Warning buffer pool capacity is %f %%\n", (float)100 * available.size() / capacity);
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}
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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if (debug_name) {
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strncpy(b->debug_name, debug_name, SRSRAN_BUFFER_POOL_LOG_NAME_LEN);
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b->debug_name[SRSRAN_BUFFER_POOL_LOG_NAME_LEN - 1] = 0;
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}
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#endif
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} else if (blocking) {
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// blocking allocation
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while (available.size() == 0) {
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pthread_cond_wait(&cv_not_empty, &mutex);
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}
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// retrieve the new buffer
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b = available.top();
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used.push_back(b);
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available.pop();
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// do not print any warning
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} else {
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printf("Error - buffer pool is empty\n");
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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print_all_buffers();
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#endif
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}
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pthread_mutex_unlock(&mutex);
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return b;
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}
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bool deallocate(buffer_t* b)
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{
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bool ret = false;
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pthread_mutex_lock(&mutex);
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typename std::vector<buffer_t*>::iterator elem = std::find(used.begin(), used.end(), b);
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if (elem != used.end()) {
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used.erase(elem);
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available.push(b);
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ret = true;
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}
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pthread_cond_signal(&cv_not_empty);
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pthread_mutex_unlock(&mutex);
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return ret;
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}
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private:
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static const int POOL_SIZE = 4096;
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std::stack<buffer_t*> available;
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std::vector<buffer_t*> used;
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pthread_mutex_t mutex;
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pthread_cond_t cv_not_empty;
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uint32_t capacity;
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};
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using byte_buffer_pool = concurrent_fixed_memory_pool<sizeof(byte_buffer_t)>;
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inline unique_byte_buffer_t make_byte_buffer() noexcept
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{
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return std::unique_ptr<byte_buffer_t>(new (std::nothrow) byte_buffer_t());
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}
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inline unique_byte_buffer_t make_byte_buffer(uint32_t size, uint8_t value) noexcept
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{
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return std::unique_ptr<byte_buffer_t>(new (std::nothrow) byte_buffer_t(size, value));
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}
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inline unique_byte_buffer_t make_byte_buffer(const char* debug_ctxt) noexcept
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{
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std::unique_ptr<byte_buffer_t> buffer(new (std::nothrow) byte_buffer_t());
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if (buffer == nullptr) {
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srslog::fetch_basic_logger("POOL").error("Failed to allocate byte buffer in %s", debug_ctxt);
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}
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return buffer;
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}
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namespace detail {
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struct byte_buffer_pool_deleter {
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void operator()(void* ptr) { byte_buffer_pool::get_instance()->deallocate_node(ptr); }
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};
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} // namespace detail
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/**
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* Class to wrap objects of type T which get allocated/deallocated using the byte_buffer_pool
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* @tparam T type of the object being allocated
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*/
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template <typename T>
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struct byte_buffer_pool_ptr {
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static_assert(sizeof(T) <= byte_buffer_pool::BLOCK_SIZE, "pool_bounded_vector does not fit buffer pool block size");
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public:
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byte_buffer_pool_ptr() = default;
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void reset() { ptr.reset(); }
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T* operator->() { return ptr.get(); }
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const T* operator->() const { return ptr.get(); }
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T& operator*() { return *ptr; }
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const T& operator*() const { return *ptr; }
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bool has_value() const { return ptr.get() != nullptr; }
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template <typename... CtorArgs>
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void emplace(CtorArgs&&... args)
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{
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ptr.reset(make(std::forward<CtorArgs>(args)...).ptr.release());
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}
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template <typename... CtorArgs>
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static byte_buffer_pool_ptr<T> make(CtorArgs&&... args)
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{
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void* memblock = byte_buffer_pool::get_instance()->allocate_node(sizeof(T));
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if (memblock == nullptr) {
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return byte_buffer_pool_ptr<T>();
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}
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new (memblock) T(std::forward<CtorArgs>(args)...);
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byte_buffer_pool_ptr<T> ret;
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ret.ptr = std::unique_ptr<T, detail::byte_buffer_pool_deleter>(static_cast<T*>(memblock),
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detail::byte_buffer_pool_deleter());
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return ret;
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};
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private:
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std::unique_ptr<T, detail::byte_buffer_pool_deleter> ptr;
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};
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} // namespace srsran
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#endif // SRSRAN_BUFFER_POOL_H
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