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/*
Copyright (c) 2005, 2014, Oracle and/or its affiliates. All rights reserved.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; version 2 of the License.
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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; see the file COPYING. If not, write to the
Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston,
MA 02110-1335 USA.
*/
/* yaSSL buffer header implements input/output buffers to simulate streaming
* with SSL types and sockets
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <string.h> // memcpy
#include "runtime.hpp"
#include "buffer.hpp"
#include "yassl_types.hpp"
namespace yaSSL {
/* return 0 on check success, always true for NoCheck policy */
int NoCheck::check(uint, uint)
{
return 0;
}
/* return 0 on check success */
int Check::check(uint i, uint max)
{
if (i < max)
return 0;
return -1;
}
/* input_buffer operates like a smart c style array with a checking option,
* meant to be read from through [] with AUTO index or read().
* Should only write to at/near construction with assign() or raw (e.g., recv)
* followed by add_size with the number of elements added by raw write.
*
* Not using vector because need checked []access, offset, and the ability to
* write to the buffer bulk wise and have the correct size
*/
input_buffer::input_buffer()
: size_(0), current_(0), buffer_(0), end_(0), error_(0), zero_(0)
{}
input_buffer::input_buffer(uint s)
: size_(0), current_(0), buffer_(NEW_YS byte[s]), end_(buffer_ + s),
error_(0), zero_(0)
{}
// with assign
input_buffer::input_buffer(uint s, const byte* t, uint len)
: size_(0), current_(0), buffer_(NEW_YS byte[s]), end_(buffer_ + s),
error_(0), zero_(0)
{
assign(t, len);
}
input_buffer::~input_buffer()
{
ysArrayDelete(buffer_);
}
// users can pass defualt zero length buffer and then allocate
void input_buffer::allocate(uint s)
{
if (error_ == 0) {
buffer_ = NEW_YS byte[s];
end_ = buffer_ + s;
}
}
// for passing to raw writing functions at beginning, then use add_size
byte* input_buffer::get_buffer() const
{
return buffer_;
}
// after a raw write user can set NEW_YS size
// if you know the size before the write use assign()
void input_buffer::add_size(uint i)
{
if (error_ == 0 && check(size_ + i-1, get_capacity()) == 0)
size_ += i;
else
error_ = -1;
}
uint input_buffer::get_capacity() const
{
if (error_ == 0)
return end_ - buffer_;
return 0;
}
uint input_buffer::get_current() const
{
if (error_ == 0)
return current_;
return 0;
}
uint input_buffer::get_size() const
{
if (error_ == 0)
return size_;
return 0;
}
uint input_buffer::get_remaining() const
{
if (error_ == 0)
return size_ - current_;
return 0;
}
int input_buffer::get_error() const
{
return error_;
}
void input_buffer::set_error()
{
error_ = -1;
}
void input_buffer::set_current(uint i)
{
if (error_ == 0 && check(i ? i - 1 : 0, size_) == 0)
current_ = i;
else
error_ = -1;
}
// read only access through [], advance current
// user passes in AUTO index for ease of use
const byte& input_buffer::operator[](uint i)
{
if (error_ == 0 && check(current_, size_) == 0)
return buffer_[current_++];
error_ = -1;
return zero_;
}
// end of input test
bool input_buffer::eof()
{
if (error_ != 0)
return true;
return current_ >= size_;
}
// peek ahead
byte input_buffer::peek()
{
if (error_ == 0 && check(current_, size_) == 0)
return buffer_[current_];
error_ = -1;
return 0;
}
// write function, should use at/near construction
void input_buffer::assign(const byte* t, uint s)
{
if (t && error_ == 0 && check(current_, get_capacity()) == 0) {
add_size(s);
if (error_ == 0) {
memcpy(&buffer_[current_], t, s);
return; // success
}
}
error_ = -1;
}
// use read to query input, adjusts current
void input_buffer::read(byte* dst, uint length)
{
if (dst && error_ == 0 && check(current_ + length - 1, size_) == 0) {
memcpy(dst, &buffer_[current_], length);
current_ += length;
} else {
error_ = -1;
}
}
/* output_buffer operates like a smart c style array with a checking option.
* Meant to be written to through [] with AUTO index or write().
* Size (current) counter increases when written to. Can be constructed with
* zero length buffer but be sure to allocate before first use.
* Don't use add write for a couple bytes, use [] instead, way less overhead.
*
* Not using vector because need checked []access and the ability to
* write to the buffer bulk wise and retain correct size
*/
output_buffer::output_buffer()
: current_(0), buffer_(0), end_(0)
{}
// with allocate
output_buffer::output_buffer(uint s)
: current_(0), buffer_(NEW_YS byte[s]), end_(buffer_ + s)
{}
// with assign
output_buffer::output_buffer(uint s, const byte* t, uint len)
: current_(0), buffer_(NEW_YS byte[s]), end_(buffer_+ s)
{
write(t, len);
}
output_buffer::~output_buffer()
{
ysArrayDelete(buffer_);
}
uint output_buffer::get_size() const
{
return current_;
}
uint output_buffer::get_capacity() const
{
return (uint) (end_ - buffer_);
}
void output_buffer::set_current(uint c)
{
check(c, get_capacity());
current_ = c;
}
// users can pass defualt zero length buffer and then allocate
void output_buffer::allocate(uint s)
{
buffer_ = NEW_YS byte[s]; end_ = buffer_ + s;
}
// for passing to reading functions when finished
const byte* output_buffer::get_buffer() const
{
return buffer_;
}
// allow write access through [], update current
// user passes in AUTO as index for ease of use
byte& output_buffer::operator[](uint i)
{
check(current_, get_capacity());
return buffer_[current_++];
}
// end of output test
bool output_buffer::eof()
{
return current_ >= get_capacity();
}
void output_buffer::write(const byte* t, uint s)
{
check(current_ + s - 1, get_capacity());
memcpy(&buffer_[current_], t, s);
current_ += s;
}
} // naemspace
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