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233 lines
6.1 KiB
C++
233 lines
6.1 KiB
C++
/**
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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_BYTE_BUFFER_H
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#define SRSRAN_BYTE_BUFFER_H
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#include "common.h"
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#include "srsran/adt/span.h"
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#include <chrono>
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#include <cstdint>
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//#define SRSRAN_BUFFER_POOL_LOG_ENABLED
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namespace srsran {
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#define ENABLE_TIMESTAMP
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struct buffer_latency_calc {
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void clear()
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{
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#ifdef ENABLE_TIMESTAMP
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timestamp_is_set = false;
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#endif
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}
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std::chrono::microseconds get_latency_us() const
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{
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#ifdef ENABLE_TIMESTAMP
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if (!timestamp_is_set) {
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return std::chrono::microseconds{0};
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}
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return std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::high_resolution_clock::now() - tp);
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#else
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return std::chrono::microseconds{0};
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#endif
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}
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std::chrono::high_resolution_clock::time_point get_timestamp() const { return tp; }
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void set_timestamp()
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{
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#ifdef ENABLE_TIMESTAMP
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tp = std::chrono::high_resolution_clock::now();
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timestamp_is_set = true;
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#endif
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}
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void set_timestamp(std::chrono::high_resolution_clock::time_point tp_)
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{
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#ifdef ENABLE_TIMESTAMP
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tp = tp_;
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timestamp_is_set = true;
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#endif
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}
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private:
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#ifdef ENABLE_TIMESTAMP
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std::chrono::high_resolution_clock::time_point tp;
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bool timestamp_is_set = false;
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#endif
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};
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/******************************************************************************
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* Byte buffer
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*
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* Generic byte buffer with headroom to accommodate packet headers and custom
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* copy constructors & assignment operators for quick copying. Byte buffer
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* holds a next pointer to support linked lists.
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*****************************************************************************/
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class byte_buffer_t
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{
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public:
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using iterator = uint8_t*;
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using const_iterator = const uint8_t*;
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uint32_t N_bytes = 0;
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uint8_t buffer[SRSRAN_MAX_BUFFER_SIZE_BYTES];
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uint8_t* msg = nullptr;
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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char debug_name[SRSRAN_BUFFER_POOL_LOG_NAME_LEN];
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#endif
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struct buffer_metadata_t {
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uint32_t pdcp_sn = 0;
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buffer_latency_calc tp;
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} md;
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byte_buffer_t() : msg(&buffer[SRSRAN_BUFFER_HEADER_OFFSET])
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{
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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bzero(debug_name, SRSRAN_BUFFER_POOL_LOG_NAME_LEN);
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#endif
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}
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explicit byte_buffer_t(uint32_t size) : msg(&buffer[SRSRAN_BUFFER_HEADER_OFFSET]), N_bytes(size)
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{
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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bzero(debug_name, SRSRAN_BUFFER_POOL_LOG_NAME_LEN);
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#endif
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}
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byte_buffer_t(uint32_t size, uint8_t val) : byte_buffer_t(size) { std::fill(msg, msg + N_bytes, val); }
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byte_buffer_t(const byte_buffer_t& buf) : msg(&buffer[SRSRAN_BUFFER_HEADER_OFFSET]), md(buf.md), N_bytes(buf.N_bytes)
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{
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// copy actual contents
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memcpy(msg, buf.msg, N_bytes);
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}
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byte_buffer_t& operator=(const byte_buffer_t& buf)
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{
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// avoid self assignment
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if (&buf == this)
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return *this;
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msg = &buffer[SRSRAN_BUFFER_HEADER_OFFSET];
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N_bytes = buf.N_bytes;
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md = buf.md;
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memcpy(msg, buf.msg, N_bytes);
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return *this;
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}
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void clear()
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{
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msg = &buffer[SRSRAN_BUFFER_HEADER_OFFSET];
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N_bytes = 0;
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md = {};
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}
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uint32_t get_headroom() { return msg - buffer; }
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// Returns the remaining space from what is reported to be the length of msg
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uint32_t get_tailroom() const { return (sizeof(buffer) - (msg - buffer) - N_bytes); }
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std::chrono::microseconds get_latency_us() const { return md.tp.get_latency_us(); }
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std::chrono::high_resolution_clock::time_point get_timestamp() const { return md.tp.get_timestamp(); }
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void set_timestamp() { md.tp.set_timestamp(); }
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void set_timestamp(std::chrono::high_resolution_clock::time_point tp_) { md.tp.set_timestamp(tp_); }
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void append_bytes(uint8_t* buf, uint32_t size)
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{
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memcpy(&msg[N_bytes], buf, size);
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N_bytes += size;
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}
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// vector-like interface
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void resize(size_t size) { N_bytes = size; }
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size_t capacity() const { return get_tailroom(); }
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uint8_t* data() { return msg; }
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const uint8_t* data() const { return msg; }
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uint32_t size() const { return N_bytes; }
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iterator begin() { return msg; }
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const_iterator begin() const { return msg; }
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iterator end() { return msg + N_bytes; }
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const_iterator end() const { return msg + N_bytes; }
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void* operator new(size_t sz);
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void* operator new(size_t sz, const std::nothrow_t& nothrow_value) noexcept;
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void* operator new[](size_t sz) = delete;
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void operator delete(void* ptr);
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void operator delete[](void* ptr) = delete;
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};
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struct bit_buffer_t {
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uint32_t N_bits = 0;
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uint8_t buffer[SRSRAN_MAX_BUFFER_SIZE_BITS];
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uint8_t* msg = nullptr;
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#ifdef SRSRAN_BUFFER_POOL_LOG_ENABLED
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char debug_name[128];
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#endif
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bit_buffer_t() : msg(&buffer[SRSRAN_BUFFER_HEADER_OFFSET]) {}
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bit_buffer_t(const bit_buffer_t& buf) : msg(&buffer[SRSRAN_BUFFER_HEADER_OFFSET]), N_bits(buf.N_bits)
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{
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memcpy(msg, buf.msg, N_bits);
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}
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bit_buffer_t& operator=(const bit_buffer_t& buf)
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{
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// avoid self assignment
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if (&buf == this) {
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return *this;
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}
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msg = &buffer[SRSRAN_BUFFER_HEADER_OFFSET];
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N_bits = buf.N_bits;
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memcpy(msg, buf.msg, N_bits);
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return *this;
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}
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void clear()
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{
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msg = &buffer[SRSRAN_BUFFER_HEADER_OFFSET];
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N_bits = 0;
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}
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uint32_t get_headroom() { return msg - buffer; }
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};
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using unique_byte_buffer_t = std::unique_ptr<byte_buffer_t>;
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///
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/// Utilities to create a span out of a byte_buffer.
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///
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using byte_span = span<uint8_t>;
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using const_byte_span = span<const uint8_t>;
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inline byte_span make_span(byte_buffer_t& b)
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{
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return byte_span{b.msg, b.N_bytes};
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}
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inline const_byte_span make_span(const byte_buffer_t& b)
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{
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return const_byte_span{b.msg, b.N_bytes};
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}
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inline byte_span make_span(unique_byte_buffer_t& b)
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{
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return byte_span{b->msg, b->N_bytes};
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}
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inline const_byte_span make_span(const unique_byte_buffer_t& b)
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{
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return const_byte_span{b->msg, b->N_bytes};
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}
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} // namespace srsran
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#endif // SRSRAN_BYTE_BUFFER_H
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