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/*
* TLS Extensions
* (C) 2011-2012 Jack Lloyd
*
* Released under the terms of the Botan license
*/
#ifndef BOTAN_TLS_EXTENSIONS_H__
#define BOTAN_TLS_EXTENSIONS_H__
#include <botan/secmem.h>
#include <botan/tls_magic.h>
#include <vector>
#include <string>
#include <memory>
#include <map>
namespace Botan {
namespace TLS {
class TLS_Data_Reader;
enum Handshake_Extension_Type {
TLSEXT_SERVER_NAME_INDICATION = 0,
TLSEXT_MAX_FRAGMENT_LENGTH = 1,
TLSEXT_CLIENT_CERT_URL = 2,
TLSEXT_TRUSTED_CA_KEYS = 3,
TLSEXT_TRUNCATED_HMAC = 4,
TLSEXT_CERTIFICATE_TYPES = 9,
TLSEXT_USABLE_ELLIPTIC_CURVES = 10,
TLSEXT_EC_POINT_FORMATS = 11,
TLSEXT_SRP_IDENTIFIER = 12,
TLSEXT_SIGNATURE_ALGORITHMS = 13,
TLSEXT_HEARTBEAT_SUPPORT = 15,
TLSEXT_SESSION_TICKET = 35,
TLSEXT_NEXT_PROTOCOL = 13172,
TLSEXT_SAFE_RENEGOTIATION = 65281,
};
/**
* Base class representing a TLS extension of some kind
*/
class Extension
{
public:
/**
* @return code number of the extension
*/
virtual Handshake_Extension_Type type() const = 0;
/**
* @return serialized binary for the extension
*/
virtual std::vector<byte> serialize() const = 0;
/**
* @return if we should encode this extension or not
*/
virtual bool empty() const = 0;
virtual ~Extension() {}
};
/**
* Server Name Indicator extension (RFC 3546)
*/
class Server_Name_Indicator : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_SERVER_NAME_INDICATION; }
Handshake_Extension_Type type() const { return static_type(); }
Server_Name_Indicator(const std::string& host_name) :
sni_host_name(host_name) {}
Server_Name_Indicator(TLS_Data_Reader& reader,
u16bit extension_size);
std::string host_name() const { return sni_host_name; }
std::vector<byte> serialize() const;
bool empty() const { return sni_host_name == ""; }
private:
std::string sni_host_name;
};
/**
* SRP identifier extension (RFC 5054)
*/
class SRP_Identifier : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_SRP_IDENTIFIER; }
Handshake_Extension_Type type() const { return static_type(); }
SRP_Identifier(const std::string& identifier) :
srp_identifier(identifier) {}
SRP_Identifier(TLS_Data_Reader& reader,
u16bit extension_size);
std::string identifier() const { return srp_identifier; }
std::vector<byte> serialize() const;
bool empty() const { return srp_identifier == ""; }
private:
std::string srp_identifier;
};
/**
* Renegotiation Indication Extension (RFC 5746)
*/
class Renegotiation_Extension : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_SAFE_RENEGOTIATION; }
Handshake_Extension_Type type() const { return static_type(); }
Renegotiation_Extension() {}
Renegotiation_Extension(const std::vector<byte>& bits) :
reneg_data(bits) {}
Renegotiation_Extension(TLS_Data_Reader& reader,
u16bit extension_size);
const std::vector<byte>& renegotiation_info() const
{ return reneg_data; }
std::vector<byte> serialize() const;
bool empty() const { return false; } // always send this
private:
std::vector<byte> reneg_data;
};
/**
* Maximum Fragment Length Negotiation Extension (RFC 4366 sec 3.2)
*/
class Maximum_Fragment_Length : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_MAX_FRAGMENT_LENGTH; }
Handshake_Extension_Type type() const { return static_type(); }
bool empty() const { return false; }
size_t fragment_size() const { return m_max_fragment; }
std::vector<byte> serialize() const;
/**
* @param max_fragment specifies what maximum fragment size to
* advertise. Currently must be one of 512, 1024, 2048, or
* 4096.
*/
Maximum_Fragment_Length(size_t max_fragment) :
m_max_fragment(max_fragment) {}
Maximum_Fragment_Length(TLS_Data_Reader& reader,
u16bit extension_size);
private:
size_t m_max_fragment;
};
/**
* Next Protocol Negotiation
* http://technotes.googlecode.com/git/nextprotoneg.html
*
* This implementation requires the semantics defined in the Google
* spec (implemented in Chromium); the internet draft leaves the format
* unspecified.
*/
class Next_Protocol_Notification : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_NEXT_PROTOCOL; }
Handshake_Extension_Type type() const { return static_type(); }
const std::vector<std::string>& protocols() const
{ return m_protocols; }
/**
* Empty extension, used by client
*/
Next_Protocol_Notification() {}
/**
* List of protocols, used by server
*/
Next_Protocol_Notification(const std::vector<std::string>& protocols) :
m_protocols(protocols) {}
Next_Protocol_Notification(TLS_Data_Reader& reader,
u16bit extension_size);
std::vector<byte> serialize() const;
bool empty() const { return false; }
private:
std::vector<std::string> m_protocols;
};
/**
* Session Ticket Extension (RFC 5077)
*/
class Session_Ticket : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_SESSION_TICKET; }
Handshake_Extension_Type type() const { return static_type(); }
/**
* @return contents of the session ticket
*/
const std::vector<byte>& contents() const { return m_ticket; }
/**
* Create empty extension, used by both client and server
*/
Session_Ticket() {}
/**
* Extension with ticket, used by client
*/
Session_Ticket(const std::vector<byte>& session_ticket) :
m_ticket(session_ticket) {}
/**
* Deserialize a session ticket
*/
Session_Ticket(TLS_Data_Reader& reader, u16bit extension_size);
std::vector<byte> serialize() const { return m_ticket; }
bool empty() const { return false; }
private:
std::vector<byte> m_ticket;
};
/**
* Supported Elliptic Curves Extension (RFC 4492)
*/
class Supported_Elliptic_Curves : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_USABLE_ELLIPTIC_CURVES; }
Handshake_Extension_Type type() const { return static_type(); }
static std::string curve_id_to_name(u16bit id);
static u16bit name_to_curve_id(const std::string& name);
const std::vector<std::string>& curves() const { return m_curves; }
std::vector<byte> serialize() const;
Supported_Elliptic_Curves(const std::vector<std::string>& curves) :
m_curves(curves) {}
Supported_Elliptic_Curves(TLS_Data_Reader& reader,
u16bit extension_size);
bool empty() const { return m_curves.empty(); }
private:
std::vector<std::string> m_curves;
};
/**
* Signature Algorithms Extension for TLS 1.2 (RFC 5246)
*/
class Signature_Algorithms : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_SIGNATURE_ALGORITHMS; }
Handshake_Extension_Type type() const { return static_type(); }
static std::string hash_algo_name(byte code);
static byte hash_algo_code(const std::string& name);
static std::string sig_algo_name(byte code);
static byte sig_algo_code(const std::string& name);
std::vector<std::pair<std::string, std::string> >
supported_signature_algorthms() const
{
return m_supported_algos;
}
std::vector<byte> serialize() const;
bool empty() const { return false; }
Signature_Algorithms(const std::vector<std::string>& hashes,
const std::vector<std::string>& sig_algos);
Signature_Algorithms(const std::vector<std::pair<std::string, std::string> >& algos) :
m_supported_algos(algos) {}
Signature_Algorithms(TLS_Data_Reader& reader,
u16bit extension_size);
private:
std::vector<std::pair<std::string, std::string> > m_supported_algos;
};
/**
* Heartbeat Extension (RFC 6520)
*/
class Heartbeat_Support_Indicator : public Extension
{
public:
static Handshake_Extension_Type static_type()
{ return TLSEXT_HEARTBEAT_SUPPORT; }
Handshake_Extension_Type type() const { return static_type(); }
bool peer_allowed_to_send() const { return m_peer_allowed_to_send; }
std::vector<byte> serialize() const;
bool empty() const { return false; }
Heartbeat_Support_Indicator(bool peer_allowed_to_send) :
m_peer_allowed_to_send(peer_allowed_to_send) {}
Heartbeat_Support_Indicator(TLS_Data_Reader& reader, u16bit extension_size);
private:
bool m_peer_allowed_to_send;
};
/**
* Represents a block of extensions in a hello message
*/
class Extensions
{
public:
template<typename T>
T* get() const
{
Handshake_Extension_Type type = T::static_type();
auto i = extensions.find(type);
if(i != extensions.end())
return dynamic_cast<T*>(i->second.get());
return nullptr;
}
void add(Extension* extn)
{
extensions[extn->type()].reset(extn);
}
std::vector<byte> serialize() const;
void deserialize(TLS_Data_Reader& reader);
Extensions() {}
Extensions(TLS_Data_Reader& reader) { deserialize(reader); }
private:
Extensions(const Extensions&) {}
Extensions& operator=(const Extensions&) { return (*this); }
std::map<Handshake_Extension_Type, std::unique_ptr<Extension>> extensions;
};
}
}
#endif
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