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buffer.hpp
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buffer.hpp
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// OpenVPN -- An application to securely tunnel IP networks
// over a single port, with support for SSL/TLS-based
// session authentication and key exchange,
// packet encryption, packet authentication, and
// packet compression.
//
// Copyright (C) 2012-2022 OpenVPN Inc.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Affero General Public License Version 3
// as published by the Free Software Foundation.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Affero General Public License for more details.
//
// You should have received a copy of the GNU Affero General Public License
// along with this program in the COPYING file.
// If not, see <http://www.gnu.org/licenses/>.
// These templates define the fundamental data buffer classes used by the
// OpenVPN core. Normally OpenVPN uses buffers of unsigned chars, but the
// templatization of the classes would allow buffers of other types to
// be defined.
//
// Fundamentally a buffer is an object with 4 fields:
//
// 1. a pointer to underlying data array
// 2. the capacity of the underlying data array
// 3. an offset into the data array
// 4. the size of the referenced data within the array
//
// The BufferType template is the lowest-level buffer class template. It refers
// to a buffer but without any notion of ownership of the underlying data.
//
// The BufferAllocatedType template is a higher-level template that inherits
// from BufferType but which asserts ownership over the resources of the buffer --
// for example, it will free the underlying buffer in its destructor.
//
// Since most of the time, we want our buffers to be made out of unsigned chars,
// some typedefs at the end of the file define common instantations for the
// BufferType and BufferAllocatedType templates.
//
// Buffer : a simple buffer of unsigned char without ownership semantics
// ConstBuffer : like buffer but where the data pointed to by the buffer is read-only
// BufferAllocated : an allocated Buffer with ownership semantics
// BufferPtr : a smart, reference-counted pointer to a BufferAllocated
#pragma once
#include <string>
#include <cstring>
#include <algorithm>
#include <type_traits> // for std::is_nothrow_move_constructible, std::remove_const, std::enable_if, and std::is_const
#ifndef OPENVPN_NO_IO
#include <openvpn/io/io.hpp>
#endif
#include <openvpn/common/size.hpp>
#include <openvpn/common/abort.hpp>
#include <openvpn/common/exception.hpp>
#include <openvpn/common/rc.hpp>
#include <openvpn/buffer/bufclamp.hpp>
#ifdef OPENVPN_BUFFER_ABORT
#define OPENVPN_BUFFER_THROW(exc) \
{ \
std::abort(); \
}
#else
#define OPENVPN_BUFFER_THROW(exc) \
{ \
throw BufferException(BufferException::exc); \
}
#endif
namespace openvpn {
// special-purpose exception class for Buffer classes
class BufferException : public std::exception
{
public:
enum Status
{
buffer_full,
buffer_headroom,
buffer_underflow,
buffer_overflow,
buffer_offset,
buffer_index,
buffer_const_index,
buffer_push_front_headroom,
buffer_no_reset_impl,
buffer_pop_back,
buffer_set_size,
buffer_range,
};
explicit BufferException(Status status)
: status_(status)
{
}
BufferException(Status status, const std::string &msg)
: status_(status),
msg_(std::string(status_string(status)) + " : " + msg)
{
}
virtual const char *what() const noexcept
{
if (!msg_.empty())
return msg_.c_str();
else
return status_string(status_);
}
Status status() const
{
return status_;
}
virtual ~BufferException() noexcept = default;
private:
static const char *status_string(const Status status)
{
switch (status)
{
case buffer_full:
return "buffer_full";
case buffer_headroom:
return "buffer_headroom";
case buffer_underflow:
return "buffer_underflow";
case buffer_overflow:
return "buffer_overflow";
case buffer_offset:
return "buffer_offset";
case buffer_index:
return "buffer_index";
case buffer_const_index:
return "buffer_const_index";
case buffer_push_front_headroom:
return "buffer_push_front_headroom";
case buffer_no_reset_impl:
return "buffer_no_reset_impl";
case buffer_pop_back:
return "buffer_pop_back";
case buffer_set_size:
return "buffer_set_size";
case buffer_range:
return "buffer_range";
default:
return "buffer_???";
}
}
Status status_;
std::string msg_;
};
template <typename T, typename R>
class BufferAllocatedType;
template <typename T>
class ConstBufferType
{
private:
// allow access to other.data_
template <typename, typename>
friend class BufferAllocatedType;
public:
typedef T value_type;
typedef T *type;
typedef const T *const_type;
typedef typename std::remove_const<T>::type NCT; // non-const type
ConstBufferType()
{
static_assert(std::is_nothrow_move_constructible<ConstBufferType>::value, "class ConstBufferType not noexcept move constructable");
data_ = nullptr;
offset_ = size_ = capacity_ = 0;
}
ConstBufferType(void *data, const size_t size, const bool filled)
: ConstBufferType((T *)data, size, filled)
{
}
// When T is already const, this constructor becomes redundant, so disable it.
template <typename U = T,
typename std::enable_if<!std::is_const<U>::value, int>::type = 0>
ConstBufferType(const void *data, const size_t size, const bool filled)
: ConstBufferType(const_cast<void *>(data), size, filled)
{
}
ConstBufferType(T *data, const size_t size, const bool filled)
{
data_ = data;
offset_ = 0;
capacity_ = size;
size_ = filled ? size : 0;
}
// When T is already const, this constructor becomes redundant, so disable it.
template <typename U = T,
typename std::enable_if<!std::is_const<U>::value, int>::type = 0>
ConstBufferType(const U *data, const size_t size, const bool filled)
: ConstBufferType(const_cast<U *>(data), size, filled)
{
}
// const index into array
const T &operator[](const size_t index) const
{
if (index >= size_)
OPENVPN_BUFFER_THROW(buffer_const_index);
return c_data()[index];
}
void init_headroom(const size_t headroom)
{
if (headroom > capacity_)
OPENVPN_BUFFER_THROW(buffer_headroom);
offset_ = headroom;
size_ = 0;
}
void reset_offset(const size_t offset)
{
const size_t size = size_ + offset_ - offset;
if (offset > capacity_ || size > capacity_ || offset + size > capacity_)
OPENVPN_BUFFER_THROW(buffer_offset);
offset_ = offset;
size_ = size;
}
void reset_size()
{
size_ = 0;
}
void reset_content()
{
offset_ = size_ = 0;
}
// std::string compatible methods
const T *c_str() const
{
return c_data();
}
size_t length() const
{
return size();
}
// return a const pointer to start of array
const T *c_data() const
{
return data_ + offset_;
}
// return a const pointer to end of array
const T *c_data_end() const
{
return data_ + offset_ + size_;
}
// return a const pointer to start of raw data
const T *c_data_raw() const
{
return data_;
}
// return raw size of allocated buffer in T objects
size_t capacity() const
{
return capacity_;
}
// return current offset (headroom) into buffer
size_t offset() const
{
return offset_;
}
// return true if array is not empty
bool defined() const
{
return size_ > 0;
}
// return true if data memory is defined
bool allocated() const
{
return data_ != nullptr;
}
// return true if array is empty
bool empty() const
{
return !size_;
}
// return size of array in T objects
size_t size() const
{
return size_;
}
T pop_back()
{
if (!size_)
OPENVPN_BUFFER_THROW(buffer_pop_back);
return *(c_data() + (--size_));
}
T pop_front()
{
T ret = (*this)[0];
++offset_;
--size_;
return ret;
}
T front() const
{
return (*this)[0];
}
T back() const
{
return (*this)[size_ - 1];
}
void advance(const size_t delta)
{
if (delta > size_)
OPENVPN_BUFFER_THROW(buffer_overflow);
offset_ += delta;
size_ -= delta;
}
bool contains_null() const
{
const T *end = c_data_end();
for (const T *p = c_data(); p < end; ++p)
{
if (!*p)
return true;
}
return false;
}
bool is_zeroed() const
{
const T *end = c_data_end();
for (const T *p = c_data(); p < end; ++p)
{
if (*p)
return false;
}
return true;
}
#ifndef OPENVPN_NO_IO
// return a openvpn_io::const_buffer object used by
// asio write methods.
openvpn_io::const_buffer const_buffer() const
{
return openvpn_io::const_buffer(c_data(), size());
}
// clamped version of const_buffer()
openvpn_io::const_buffer const_buffer_clamp() const
{
return openvpn_io::const_buffer(c_data(), buf_clamp_write(size()));
}
openvpn_io::const_buffer const_buffer_limit(const size_t limit) const
{
return openvpn_io::const_buffer(c_data(), std::min(buf_clamp_write(size()), limit));
}
#endif
void read(NCT *data, const size_t size)
{
std::memcpy(data, read_alloc(size), size * sizeof(T));
}
void read(void *data, const size_t size)
{
read((NCT *)data, size);
}
const T *read_alloc(const size_t size)
{
if (size <= size_)
{
const T *ret = c_data();
offset_ += size;
size_ -= size;
return ret;
}
else
OPENVPN_BUFFER_THROW(buffer_underflow);
}
ConstBufferType read_alloc_buf(const size_t size)
{
if (size <= size_)
{
ConstBufferType ret(data_, offset_, size, capacity_);
offset_ += size;
size_ -= size;
return ret;
}
else
OPENVPN_BUFFER_THROW(buffer_underflow);
}
// return the maximum allowable size value in T objects given the current offset (without considering resize)
size_t max_size() const
{
const size_t r = capacity_ - offset_;
return r <= capacity_ ? r : 0;
}
// After an external method, operating on the array as
// a mutable unsigned char buffer, has written data to the
// array, use this method to set the array length in terms
// of T objects.
void set_size(const size_t size)
{
if (size > max_size())
OPENVPN_BUFFER_THROW(buffer_set_size);
size_ = size;
}
// Increment size (usually used in a similar context
// to set_size such as after mutable_buffer_append).
void inc_size(const size_t delta)
{
set_size(size_ + delta);
}
ConstBufferType range(size_t offset, size_t len) const
{
if (offset + len > size())
{
if (offset < size())
len = size() - offset;
else
len = 0;
}
return ConstBufferType(c_data(), offset, len, len);
}
// const index into array
const T *c_index(const size_t index) const
{
if (index >= size_)
OPENVPN_BUFFER_THROW(buffer_const_index);
return &c_data()[index];
}
bool operator==(const ConstBufferType &other) const
{
if (size_ != other.size_)
return false;
return std::memcmp(c_data(), other.c_data(), size_) == 0;
}
bool operator!=(const ConstBufferType &other) const
{
return !(*this == other);
}
protected:
ConstBufferType(T *data, const size_t offset, const size_t size, const size_t capacity)
: data_(data), offset_(offset), size_(size), capacity_(capacity)
{
}
// When T is already const, this constructor becomes redundant, so disable it.
template <typename U = T,
typename std::enable_if<!std::is_const<U>::value, int>::type = 0>
ConstBufferType(const U *data, const size_t offset, const size_t size, const size_t capacity)
: ConstBufferType(const_cast<U *>(data), offset, size, capacity)
{
}
// Even though *data_ is declared as non-const, within ConstBufferType
// we MUST always treat it as const. But derived classes may treat it
// as non-const as long as they passed in non-const data to begin with.
T *data_; // pointer to data
size_t offset_; // offset from data_ of beginning of T array (to allow for headroom)
size_t size_; // number of T objects in array starting at data_ + offset_
size_t capacity_; // maximum number of array objects of type T for which memory is allocated, starting at data_
};
template <typename T>
class BufferType : public ConstBufferType<T>
{
private:
// allow access to other.data_
template <typename, typename>
friend class BufferAllocatedType;
protected:
using ConstBufferType<T>::data_;
using ConstBufferType<T>::offset_;
using ConstBufferType<T>::size_;
using ConstBufferType<T>::capacity_;
public:
using ConstBufferType<T>::empty;
using ConstBufferType<T>::back;
using ConstBufferType<T>::init_headroom;
using ConstBufferType<T>::operator[];
BufferType()
{
}
BufferType(void *data, const size_t size, const bool filled)
: ConstBufferType<T>(data, size, filled)
{
}
BufferType(T *data, const size_t size, const bool filled)
: ConstBufferType<T>(data, size, filled)
{
}
void reserve(const size_t n)
{
if (n > capacity_)
resize(n);
}
// return a mutable pointer to start of array
T *data()
{
return data_ + offset_;
}
// return a mutable pointer to end of array
T *data_end()
{
return data_ + offset_ + size_;
}
// return a mutable pointer to start of raw data
T *data_raw()
{
return data_;
}
// return the number of additional T objects that can be added before capacity is reached (without considering resize)
size_t remaining(const size_t tailroom = 0) const
{
const size_t r = capacity_ - (offset_ + size_ + tailroom);
return r <= capacity_ ? r : 0;
}
// like max_size, but take tailroom into account
size_t max_size_tailroom(const size_t tailroom) const
{
const size_t r = capacity_ - (offset_ + tailroom);
return r <= capacity_ ? r : 0;
}
// append a T object to array, with possible resize
void push_back(const T &value)
{
if (!remaining())
resize(offset_ + size_ + 1);
*(data() + size_++) = value;
}
// append a T object to array, with possible resize
void push_front(const T &value)
{
if (!offset_)
OPENVPN_BUFFER_THROW(buffer_push_front_headroom);
--offset_;
++size_;
*data() = value;
}
// Place a T object after the last object in the
// array, with possible resize to contain it,
// however don't actually change the size of the
// array to reflect the added object. Useful
// for maintaining null-terminated strings.
void set_trailer(const T &value)
{
if (!remaining())
resize(offset_ + size_ + 1);
*(data() + size_) = value;
}
void null_terminate()
{
if (empty() || back())
push_back(0);
}
// mutable index into array
T &operator[](const size_t index)
{
if (index >= size_)
OPENVPN_BUFFER_THROW(buffer_index);
return data()[index];
}
// mutable index into array
T *index(const size_t index)
{
if (index >= size_)
OPENVPN_BUFFER_THROW(buffer_index);
return &data()[index];
}
#ifndef OPENVPN_NO_IO
// return a openvpn_io::mutable_buffer object used by
// asio read methods, starting from data()
openvpn_io::mutable_buffer mutable_buffer(const size_t tailroom = 0)
{
return openvpn_io::mutable_buffer(data(), max_size_tailroom(tailroom));
}
// return a openvpn_io::mutable_buffer object used by
// asio read methods, starting from data_end()
openvpn_io::mutable_buffer mutable_buffer_append(const size_t tailroom = 0)
{
return openvpn_io::mutable_buffer(data_end(), remaining(tailroom));
}
// clamped versions of mutable_buffer(), mutable_buffer_append(),
openvpn_io::mutable_buffer mutable_buffer_clamp(const size_t tailroom = 0)
{
return openvpn_io::mutable_buffer(data(), buf_clamp_read(max_size_tailroom(tailroom)));
}
openvpn_io::mutable_buffer mutable_buffer_append_clamp(const size_t tailroom = 0)
{
return openvpn_io::mutable_buffer(data_end(), buf_clamp_read(remaining(tailroom)));
}
#endif
void realign(size_t headroom)
{
if (headroom != offset_)
{
if (headroom + size_ > capacity_)
OPENVPN_BUFFER_THROW(buffer_headroom);
std::memmove(data_ + headroom, data_ + offset_, size_);
offset_ = headroom;
}
}
void write(const T *data, const size_t size)
{
std::memcpy(write_alloc(size), data, size * sizeof(T));
}
void write(const void *data, const size_t size)
{
write((const T *)data, size);
}
void prepend(const T *data, const size_t size)
{
std::memcpy(prepend_alloc(size), data, size * sizeof(T));
}
void prepend(const void *data, const size_t size)
{
prepend((const T *)data, size);
}
T *write_alloc(const size_t size)
{
if (size > remaining())
resize(offset_ + size_ + size);
T *ret = data() + size_;
size_ += size;
return ret;
}
T *prepend_alloc(const size_t size)
{
if (size <= offset_)
{
offset_ -= size;
size_ += size;
return data();
}
else
OPENVPN_BUFFER_THROW(buffer_headroom);
}
T *read_alloc(const size_t size)
{
if (size <= size_)
{
T *ret = data();
offset_ += size;
size_ -= size;
return ret;
}
else
OPENVPN_BUFFER_THROW(buffer_underflow);
}
BufferType read_alloc_buf(const size_t size)
{
if (size <= size_)
{
BufferType ret(data_, offset_, size, capacity_);
offset_ += size;
size_ -= size;
return ret;
}
else
OPENVPN_BUFFER_THROW(buffer_underflow);
}
void reset(const size_t min_capacity, const unsigned int flags)
{
if (min_capacity > capacity_)
reset_impl(min_capacity, flags);
}
void reset(const size_t headroom, const size_t min_capacity, const unsigned int flags)
{
reset(min_capacity, flags);
init_headroom(headroom);
}
template <typename B>
void append(const B &other)
{
write(other.c_data(), other.size());
}
protected:
BufferType(T *data, const size_t offset, const size_t size, const size_t capacity)
: ConstBufferType<T>(data, offset, size, capacity)
{
}
// Called when reset method needs to expand the buffer size
virtual void reset_impl(const size_t min_capacity, const unsigned int flags)
{
OPENVPN_BUFFER_THROW(buffer_no_reset_impl);
}
// Derived classes can implement buffer growing semantics
// by overloading this method. In the default implementation,
// buffers are non-growable, so we throw an exception.
virtual void resize(const size_t new_capacity)
{
if (new_capacity > capacity_)
buffer_full_error(new_capacity, false);
}
void buffer_full_error(const size_t newcap, const bool allocated) const
{
#ifdef OPENVPN_BUFFER_ABORT
std::abort();
#else
throw BufferException(BufferException::buffer_full, "allocated=" + std::to_string(allocated) + " size=" + std::to_string(size_) + " offset=" + std::to_string(offset_) + " capacity=" + std::to_string(capacity_) + " newcap=" + std::to_string(newcap));
#endif
}
};
template <typename T, typename R>
class BufferAllocatedType : public BufferType<T>, public RC<R>
{
private:
// allow access to other.data_
template <typename, typename>
friend class BufferAllocatedType;
using BufferType<T>::data_;
using BufferType<T>::offset_;
using BufferType<T>::size_;
using BufferType<T>::capacity_;
public:
using BufferType<T>::init_headroom;
using BufferType<T>::buffer_full_error;
enum
{
CONSTRUCT_ZERO = (1 << 0), // if enabled, constructors/init will zero allocated space
DESTRUCT_ZERO = (1 << 1), // if enabled, destructor will zero data before deletion
GROW = (1 << 2), // if enabled, buffer will grow (otherwise buffer_full exception will be thrown)
ARRAY = (1 << 3), // if enabled, use as array
};
BufferAllocatedType()
{
static_assert(std::is_nothrow_move_constructible<BufferAllocatedType>::value, "class BufferAllocatedType not noexcept move constructable");
flags_ = 0;
}
BufferAllocatedType(const size_t capacity, const unsigned int flags)
{
flags_ = flags;
capacity_ = capacity;
if (capacity)
{
data_ = new T[capacity];
if (flags & CONSTRUCT_ZERO)
std::memset(data_, 0, capacity * sizeof(T));
if (flags & ARRAY)
size_ = capacity;
}
}
BufferAllocatedType(const T *data, const size_t size, const unsigned int flags)
{
flags_ = flags;
size_ = capacity_ = size;
if (size)
{
data_ = new T[size];
std::memcpy(data_, data, size * sizeof(T));
}
}
BufferAllocatedType(const BufferAllocatedType &other)
{
offset_ = other.offset_;
size_ = other.size_;
capacity_ = other.capacity_;
flags_ = other.flags_;
if (capacity_)
{
data_ = new T[capacity_];
if (size_)
std::memcpy(data_ + offset_, other.data_ + offset_, size_ * sizeof(T));
}
}
template <typename T_>
BufferAllocatedType(const BufferType<T_> &other, const unsigned int flags)
{
static_assert(sizeof(T) == sizeof(T_), "size inconsistency");
offset_ = other.offset_;
size_ = other.size_;
capacity_ = other.capacity_;
flags_ = flags;
if (capacity_)
{
data_ = new T[capacity_];
if (size_)
std::memcpy(data_ + offset_, other.data_ + offset_, size_ * sizeof(T));
}
}
void operator=(const BufferAllocatedType &other)
{
if (this != &other)
{
offset_ = size_ = 0;
if (capacity_ != other.capacity_)
{
erase_();
if (other.capacity_)
data_ = new T[other.capacity_];
capacity_ = other.capacity_;
}
offset_ = other.offset_;
size_ = other.size_;
flags_ = other.flags_;
if (size_)
std::memcpy(data_ + offset_, other.data_ + offset_, size_ * sizeof(T));
}
}
void init(const size_t capacity, const unsigned int flags)
{
offset_ = size_ = 0;
flags_ = flags;
if (capacity_ != capacity)
{
erase_();
if (capacity)
{
data_ = new T[capacity];
}
capacity_ = capacity;
}
if ((flags & CONSTRUCT_ZERO) && capacity)
std::memset(data_, 0, capacity * sizeof(T));
if (flags & ARRAY)
size_ = capacity;
}
void init(const T *data, const size_t size, const unsigned int flags)
{
offset_ = size_ = 0;
flags_ = flags;
if (size != capacity_)
{
erase_();
if (size)
data_ = new T[size];
capacity_ = size;
}
size_ = size;
std::memcpy(data_, data, size * sizeof(T));
}
void realloc(const size_t newcap)
{
if (newcap > capacity_)
realloc_(newcap);
}
void reset(const size_t min_capacity, const unsigned int flags)
{
if (min_capacity > capacity_)
init(min_capacity, flags);
}
void reset(const size_t headroom, const size_t min_capacity, const unsigned int flags)
{
reset(min_capacity, flags);
init_headroom(headroom);
}
template <typename T_, typename R_>
void move(BufferAllocatedType<T_, R_> &other)
{
if (data_)
delete_();
move_(other);
}
RCPtr<BufferAllocatedType<T, R>> move_to_ptr()
{
RCPtr<BufferAllocatedType<T, R>> bp = new BufferAllocatedType<T, R>();
bp->move(*this);
return bp;
}
void swap(BufferAllocatedType &other)
{
std::swap(data_, other.data_);
std::swap(offset_, other.offset_);
std::swap(size_, other.size_);
std::swap(capacity_, other.capacity_);
std::swap(flags_, other.flags_);
}
template <typename T_, typename R_>
BufferAllocatedType(BufferAllocatedType<T_, R_> &&other) noexcept
{
move_(other);
}
BufferAllocatedType &operator=(BufferAllocatedType &&other) noexcept
{
move(other);
return *this;
}
void clear()
{
erase_();
flags_ = 0;
size_ = offset_ = 0;
}
void or_flags(const unsigned int flags)
{
flags_ |= flags;
}
void and_flags(const unsigned int flags)
{
flags_ &= flags;
}
~BufferAllocatedType()
{