/usr/include/tins/tcp_stream.h is in libtins-dev 1.1-1.
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* Copyright (c) 2012, Matias Fontanini
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following disclaimer
* in the documentation and/or other materials provided with the
* distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*/
#ifndef TINS_TCP_STREAM_H
#define TINS_TCP_STREAM_H
#include <map>
#include <utility>
#include <iterator>
#include <vector>
#include <algorithm>
#include <stdint.h>
#include "sniffer.h"
#include "tcp.h"
#include "utils.h"
#include "ip.h"
#include "ip_address.h"
namespace Tins {
class Sniffer;
class RawPDU;
/**
* \class TCPStream
* \brief Represents a TCP stream.
*/
class TCPStream {
public:
/**
* The stream information.
*/
struct StreamInfo {
IPv4Address client_addr, server_addr;
uint16_t client_port, server_port;
StreamInfo() {}
StreamInfo(IPv4Address client, IPv4Address server,
uint16_t cport, uint16_t sport);
bool operator<(const StreamInfo &rhs) const;
};
/**
* The type used to store the payload.
*/
typedef std::vector<uint8_t> payload_type;
/**
* \brief TCPStream constructor.
* \param ip The IP PDU from which to take the initial parameters.
* \param tcp The TCP PDU from which to take the initial parameters.
* \param identifier This stream's identifier number
*/
TCPStream(IP *ip, TCP *tcp, uint64_t identifier);
/**
* Copy constructor.
*/
TCPStream(const TCPStream &rhs);
/**
* Copy assignment operator.
*/
TCPStream& operator=(const TCPStream &rhs);
/**
* Destructor.
*/
~TCPStream();
/**
* \brief Retrieves the client payload.
*
* This is the payload that the connection's client has sent so far.
*
* \return const payload_type& containing the payload.
*/
const payload_type &client_payload() const {
return client_payload_;
}
/**
* \brief Retrieves the client payload.
*
* This is the payload that the connection's client has sent so far.
*
* \return payload_type& containing the payload.
*/
payload_type &client_payload() {
return client_payload_;
}
/**
* \brief Retrieves the server payload.
*
* This is the payload that the connection's server has sent so far.
*
* \return const payload_type& containing the payload.
*/
const payload_type &server_payload() const {
return server_payload_;
}
/**
* \brief Retrieves the server payload.
*
* This is the payload that the connection's server has sent so far.
*
* \return payload_type& containing the payload.
*/
payload_type &server_payload() {
return server_payload_;
}
/**
* \brief Retrieves this stream's identification number.
* \return uint64_t containing the identification number.
*/
uint64_t id() const {
return identifier;
}
/**
* \brief Retrieves the stream information.
* \return const StreamInfo& containing the stream information.
*/
const StreamInfo &stream_info() const {
return info;
}
/**
* \brief Checks whether this stream is finished.
*
* A stream is considered to be finished, if at least one of the
* peers sends a TCP segment containing the FIN bit on.
*
* \return bool indicating whether the stream is finished.
*/
bool is_finished() const {
return fin_sent;
}
/**
* \brief Updates the stream data.
*
* This may update both the payload and the expected sequence numbers.
*
* \param ip The IP PDU from which to take information.
* \param tcp The TCP PDU from which to take information.
* \return bool indicating whether any changes have been done to
* any of the stored payloads.
*/
bool update(IP *ip, TCP *tcp);
private:
typedef std::map<uint32_t, RawPDU*> fragments_type;
static void free_fragments(fragments_type &frags);
static fragments_type clone_fragments(const fragments_type &frags);
bool generic_process(uint32_t &my_seq, uint32_t &other_seq,
payload_type &pload, fragments_type &frags, TCP *tcp, RawPDU *raw);
uint32_t client_seq, server_seq;
StreamInfo info;
uint64_t identifier;
payload_type client_payload_, server_payload_;
fragments_type client_frags, server_frags;
bool syn_ack_sent, fin_sent;
};
/**
* \class TCPStreamFollower
* \brief Follows TCP streams and notifies the user when data is available.
*/
class TCPStreamFollower {
public:
/**
* \brief Default constructor.
*/
TCPStreamFollower();
/**
* \brief Starts following TCP streams.
*
* The template functors must accept a TCPStream& as argument, which
* will point to the stream which has been modified.
*
* \param sniffer The sniffer which will be used to sniff PDUs.
* \param data_fun The function which will be called whenever one of
* the peers in a connection sends data.
* \param end_fun This function will be called when a stream is
* closed.
*/
template<typename DataFunctor, typename EndFunctor>
void follow_streams(BaseSniffer &sniffer, DataFunctor data_fun, EndFunctor end_fun);
/**
* \brief Starts following TCP streams.
*
* This overload takes a range of iterators containing the PDUs
* in which TCP streams will be looked up and followed. The iterators
* will be dereferenced until a PDU& is found, so iterators can hold
* not only PDUs, but also smart pointers, etc.
*
* The template functors must accept a TCPStream& as argument, which
* will point to the stream which has been modified.
*
* The state of the PDUs stored in the iterator range provided might
* be modified internally.
*
* \param start The start of the range of PDUs.
* \param end The start of the range of PDUs.
* \param data_fun The function which will be called whenever one of
* the peers in a connection sends data.
* \param end_fun This function will be called when a stream is
* closed.
*/
template<typename ForwardIterator, typename DataFunctor, typename EndFunctor>
void follow_streams(ForwardIterator start, ForwardIterator end,
DataFunctor data_fun, EndFunctor end_fun);
/**
* \brief Starts following TCP streams.
*
* The template functor must accept a TCPStream& as argument, which
* will point to the stream which has been modified.
*
* \param sniffer The sniffer which will be used to sniff PDUs.
* \param data_fun The function which will be called whenever one of
* the peers in a connection sends data.
* closed.
*/
template<typename DataFunctor>
void follow_streams(BaseSniffer &sniffer, DataFunctor data_fun);
/**
* \brief Starts following TCP streams.
*
* This overload takes a range of iterators containing the PDUs
* in which TCP streams will be looked up and followed. The iterators
* will be dereferenced until a PDU& is found, so iterators can hold
* not only PDUs, but also smart pointers, etc.
*
* The template functors must accept a TCPStream& as argument, which
* will point to the stream which has been modified.
*
* The state of the PDUs stored in the iterator range provided might
* be modified internally.
*
* \param start The start of the range of PDUs.
* \param end The start of the range of PDUs.
* \param data_fun The function which will be called whenever one of
* the peers in a connection sends data.
*/
template<typename ForwardIterator, typename DataFunctor>
void follow_streams(ForwardIterator start, ForwardIterator end,
DataFunctor data_fun);
private:
typedef std::map<TCPStream::StreamInfo, TCPStream> sessions_type;
template<typename DataFunctor, typename EndFunctor>
struct proxy_caller {
bool callback(PDU &pdu) {
return stream->callback(pdu, data_fun, end_fun);
}
TCPStreamFollower *stream;
DataFunctor data_fun;
EndFunctor end_fun;
};
void clear_state() {
sessions.clear();
last_identifier = 0;
}
template<typename DataFunctor, typename EndFunctor>
bool callback(PDU &pdu, const DataFunctor &fun, const EndFunctor &end_fun);
static void dummy_function(TCPStream&) { }
sessions_type sessions;
uint64_t last_identifier;
};
template<typename DataFunctor, typename EndFunctor>
void TCPStreamFollower::follow_streams(BaseSniffer &sniffer, DataFunctor data_fun, EndFunctor end_fun) {
typedef proxy_caller<DataFunctor, EndFunctor> proxy_type;
proxy_type proxy = { this, data_fun, end_fun };
clear_state();
sniffer.sniff_loop(make_sniffer_handler(&proxy, &proxy_type::callback));
}
template<typename ForwardIterator, typename DataFunctor, typename EndFunctor>
void TCPStreamFollower::follow_streams(ForwardIterator start, ForwardIterator end,
DataFunctor data_fun, EndFunctor end_fun)
{
clear_state();
while(start != end) {
if(!callback(Utils::dereference_until_pdu(start), data_fun, end_fun))
return;
start++;
}
}
template<typename DataFunctor>
void TCPStreamFollower::follow_streams(BaseSniffer &sniffer, DataFunctor data_fun) {
return follow_streams(sniffer, data_fun, dummy_function);
}
template<typename ForwardIterator, typename DataFunctor>
void TCPStreamFollower::follow_streams(ForwardIterator start, ForwardIterator end,
DataFunctor data_fun)
{
follow_streams(start, end, data_fun, dummy_function);
}
template<typename DataFunctor, typename EndFunctor>
bool TCPStreamFollower::callback(PDU &pdu, const DataFunctor &data_fun, const EndFunctor &end_fun) {
IP &ip = pdu.rfind_pdu<IP>();
TCP &tcp = pdu.rfind_pdu<TCP>();
TCPStream::StreamInfo info(
ip.src_addr(), ip.dst_addr(),
tcp.sport(), tcp.dport()
);
sessions_type::iterator it = sessions.find(info);
if(it == sessions.end()) {
std::swap(info.client_addr, info.server_addr);
std::swap(info.client_port, info.server_port);
if((it = sessions.find(info)) == sessions.end()) {
if(tcp.get_flag(TCP::SYN) && !tcp.get_flag(TCP::ACK)) {
sessions.insert(
std::make_pair(
info,
TCPStream(&ip, &tcp, last_identifier++)
)
);
}
return true;
}
}
if(it->second.update(&ip, &tcp))
data_fun(it->second);
// We're done with this stream
if(it->second.is_finished()) {
end_fun(it->second);
sessions.erase(it);
}
return true;
}
}
#endif // TINS_TCP_STREAM_H
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