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https://github.com/oxen-io/lokinet.git
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279 lines
6.4 KiB
C++
279 lines
6.4 KiB
C++
#pragma once
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#include <type_traits>
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#include "common.hpp"
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#include "mem.h"
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#include "types.hpp"
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#include <cassert>
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#include <iterator>
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#include <cstdio>
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#include <cstdlib>
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#include <cstring>
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#include <utility>
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#include <algorithm>
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#include <memory>
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#include <vector>
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/**
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* buffer.h
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*
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* generic memory buffer
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*
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* TODO: replace usage of these with std::span (via a backport until we move to C++20). That's a
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* fairly big job, though, as llarp_buffer_t is currently used a bit differently (i.e. maintains
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* both start and current position, plus has some value reading/writing methods).
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*/
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/**
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llarp_buffer_t represents a region of memory that is ONLY
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valid in the current scope.
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make sure to follow the rules:
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ALWAYS copy the contents of the buffer if that data is to be used outside the
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current scope.
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ALWAYS pass a llarp_buffer_t * if you plan on modifying the data associated
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with the buffer
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ALWAYS pass a llarp_buffer_t * if you plan on advancing the stream position
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ALWAYS pass a const llarp_buffer_t & if you are doing a read only operation
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that does not modify the buffer
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ALWAYS pass a const llarp_buffer_t & if you don't want to advance the stream
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position
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ALWAYS bail out of the current operation if you run out of space in a buffer
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ALWAYS assume the pointers in the buffer are stack allocated memory
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(yes even if you know they are not)
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NEVER malloc() the pointers in the buffer when using it
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NEVER realloc() the pointers in the buffer when using it
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NEVER free() the pointers in the buffer when using it
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NEVER use llarp_buffer_t ** (double pointers)
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NEVER use llarp_buffer_t ** (double pointers)
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ABSOLUTELY NEVER USE DOUBLE POINTERS.
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*/
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struct ManagedBuffer;
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struct llarp_buffer_t
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{
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/// starting memory address
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byte_t* base{nullptr};
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/// memory address of stream position
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byte_t* cur{nullptr};
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/// max size of buffer
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size_t sz{0};
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byte_t
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operator[](size_t x)
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{
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return *(this->base + x);
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}
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llarp_buffer_t() = default;
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llarp_buffer_t(byte_t* b, byte_t* c, size_t s) : base(b), cur(c), sz(s)
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{}
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llarp_buffer_t(const ManagedBuffer&) = delete;
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llarp_buffer_t(ManagedBuffer&&) = delete;
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/// Construct referencing some 1-byte, trivially copyable (e.g. char, unsigned char, byte_t)
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/// pointer type and a buffer size.
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template <
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typename T,
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typename = std::enable_if_t<sizeof(T) == 1 and std::is_trivially_copyable_v<T>>>
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llarp_buffer_t(T* buf, size_t _sz)
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: base(reinterpret_cast<byte_t*>(const_cast<std::remove_const_t<T>*>(buf)))
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, cur(base)
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, sz(_sz)
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{}
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/// initialize llarp_buffer_t from containers supporting .data() and .size()
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template <
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typename T,
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typename = std::void_t<decltype(std::declval<T>().data() + std::declval<T>().size())>>
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llarp_buffer_t(T&& t) : llarp_buffer_t{t.data(), t.size()}
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{}
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byte_t*
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begin()
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{
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return base;
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}
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byte_t*
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begin() const
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{
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return base;
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}
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byte_t*
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end()
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{
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return base + sz;
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}
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byte_t*
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end() const
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{
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return base + sz;
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}
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size_t
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size_left() const;
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template <typename OutputIt>
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bool
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read_into(OutputIt begin, OutputIt end);
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template <typename InputIt>
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bool
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write(InputIt begin, InputIt end);
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#ifndef _WIN32
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bool
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writef(const char* fmt, ...) __attribute__((format(printf, 2, 3)));
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#elif defined(__MINGW64__) || defined(__MINGW32__)
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bool
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writef(const char* fmt, ...) __attribute__((__format__(__MINGW_PRINTF_FORMAT, 2, 3)));
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#else
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bool
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writef(const char* fmt, ...);
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#endif
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bool
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put_uint16(uint16_t i);
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bool
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put_uint32(uint32_t i);
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bool
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put_uint64(uint64_t i);
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bool
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read_uint16(uint16_t& i);
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bool
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read_uint32(uint32_t& i);
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bool
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read_uint64(uint64_t& i);
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size_t
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read_until(char delim, byte_t* result, size_t resultlen);
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/// make a copy of this buffer
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std::vector<byte_t>
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copy() const;
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private:
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friend struct ManagedBuffer;
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llarp_buffer_t(const llarp_buffer_t&) = default;
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llarp_buffer_t(llarp_buffer_t&&) = default;
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};
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bool
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operator==(const llarp_buffer_t& buff, const char* data);
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template <typename OutputIt>
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bool
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llarp_buffer_t::read_into(OutputIt begin, OutputIt end)
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{
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auto dist = std::distance(begin, end);
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if (static_cast<decltype(dist)>(size_left()) >= dist)
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{
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std::copy_n(cur, dist, begin);
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cur += dist;
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return true;
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}
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return false;
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}
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template <typename InputIt>
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bool
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llarp_buffer_t::write(InputIt begin, InputIt end)
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{
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auto dist = std::distance(begin, end);
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if (static_cast<decltype(dist)>(size_left()) >= dist)
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{
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cur = std::copy(begin, end, cur);
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return true;
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}
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return false;
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}
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/**
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Provide a copyable/moveable wrapper around `llarp_buffer_t`.
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*/
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struct ManagedBuffer
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{
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llarp_buffer_t underlying;
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ManagedBuffer() = delete;
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explicit ManagedBuffer(const llarp_buffer_t& b) : underlying(b)
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{}
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ManagedBuffer(ManagedBuffer&&) = default;
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ManagedBuffer(const ManagedBuffer&) = default;
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operator const llarp_buffer_t&() const
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{
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return underlying;
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}
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};
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namespace llarp
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{
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// Wrapper around a std::unique_ptr<byte_t[]> that owns its own memory and is also implicitly
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// convertible to a llarp_buffer_t.
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struct OwnedBuffer
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{
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std::unique_ptr<byte_t[]> buf;
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size_t sz;
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template <typename T, typename = std::enable_if_t<sizeof(T) == 1>>
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OwnedBuffer(std::unique_ptr<T[]> buf, size_t sz)
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: buf{reinterpret_cast<byte_t*>(buf.release())}, sz{sz}
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{}
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// Create a new, uninitialized owned buffer of the given size.
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explicit OwnedBuffer(size_t sz) : OwnedBuffer{std::make_unique<byte_t[]>(sz), sz}
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{}
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OwnedBuffer(const OwnedBuffer&) = delete;
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OwnedBuffer&
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operator=(const OwnedBuffer&) = delete;
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OwnedBuffer(OwnedBuffer&&) = default;
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OwnedBuffer&
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operator=(OwnedBuffer&&) = delete;
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// Implicit conversion so that this OwnedBuffer can be passed to anything taking a
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// llarp_buffer_t
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operator llarp_buffer_t()
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{
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return {buf.get(), sz};
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}
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// Creates an owned buffer by copying from a llarp_buffer_t. (Can also be used to copy from
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// another OwnedBuffer via the implicit conversion operator above).
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static OwnedBuffer
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copy_from(const llarp_buffer_t& b);
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// Creates an owned buffer by copying the used portion of a llarp_buffer_t (i.e. from base to
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// cur), for when a llarp_buffer_t is used in write mode.
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static OwnedBuffer
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copy_used(const llarp_buffer_t& b);
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};
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} // namespace llarp
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