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/*
* TLS Callbacks
* (C) 2016 Matthias Gierlings
* 2016 Jack Lloyd
* 2017 Harry Reimann, Rohde & Schwarz Cybersecurity
*
* Botan is released under the Simplified BSD License (see license.txt)
*/
#ifndef BOTAN_TLS_CALLBACKS_H_
#define BOTAN_TLS_CALLBACKS_H_
#include <botan/tls_session.h>
#include <botan/tls_alert.h>
#include <botan/pubkey.h>
#include <functional>
namespace Botan {
class Certificate_Store;
class X509_Certificate;
namespace OCSP {
class Response;
}
namespace TLS {
class Handshake_Message;
class Policy;
class Extensions;
/**
* Encapsulates the callbacks that a TLS channel will make which are due to
* channel specific operations.
*/
class BOTAN_PUBLIC_API(2,0) Callbacks
{
public:
virtual ~Callbacks() = default;
/**
* Mandatory callback: output function
* The channel will call this with data which needs to be sent to the peer
* (eg, over a socket or some other form of IPC). The array will be overwritten
* when the function returns so a copy must be made if the data cannot be
* sent immediately.
*
* @param data the vector of data to send
*
* @param size the number of bytes to send
*/
virtual void tls_emit_data(const uint8_t data[], size_t size) = 0;
/**
* Mandatory callback: process application data
* Called when application data record is received from the peer.
* Again the array is overwritten immediately after the function returns.
*
* @param seq_no the underlying TLS/DTLS record sequence number
*
* @param data the vector containing the received record
*
* @param size the length of the received record, in bytes
*/
virtual void tls_record_received(uint64_t seq_no, const uint8_t data[], size_t size) = 0;
/**
* Mandatory callback: alert received
* Called when an alert is received from the peer
* If fatal, the connection is closing. If not fatal, the connection may
* still be closing (depending on the error and the peer).
*
* @param alert the source of the alert
*/
virtual void tls_alert(Alert alert) = 0;
/**
* Mandatory callback: session established
* Called when a session is established. Throw an exception to abort
* the connection.
*
* @param session the session descriptor
*
* @return return false to prevent the session from being cached,
* return true to cache the session in the configured session manager
*/
virtual bool tls_session_established(const Session& session) = 0;
/**
* Optional callback: session activated
* Called when a session is active and can be written to
*/
virtual void tls_session_activated() {}
/**
* Optional callback with default impl: verify cert chain
*
* Default implementation performs a standard PKIX validation
* and initiates network OCSP request for end-entity cert.
* Override to provide different behavior.
*
* Check the certificate chain is valid up to a trusted root, and
* optionally (if hostname != "") that the hostname given is
* consistent with the leaf certificate.
*
* This function should throw an exception derived from
* std::exception with an informative what() result if the
* certificate chain cannot be verified.
*
* @param cert_chain specifies a certificate chain leading to a
* trusted root CA certificate.
* @param ocsp_responses the server may have provided some
* @param trusted_roots the list of trusted certificates
* @param usage what this cert chain is being used for
* Usage_Type::TLS_SERVER_AUTH for server chains,
* Usage_Type::TLS_CLIENT_AUTH for client chains,
* Usage_Type::UNSPECIFIED for other uses
* @param hostname when authenticating a server, this is the hostname
* the client requested (eg via SNI). When authenticating a client,
* this is the server name the client is authenticating *to*.
* Empty in other cases or if no hostname was used.
* @param policy the TLS policy associated with the session being authenticated
* using the certificate chain
*/
virtual void tls_verify_cert_chain(
const std::vector<X509_Certificate>& cert_chain,
const std::vector<std::shared_ptr<const OCSP::Response>>& ocsp_responses,
const std::vector<Certificate_Store*>& trusted_roots,
Usage_Type usage,
const std::string& hostname,
const TLS::Policy& policy);
/**
* Called by default `tls_verify_cert_chain` to get the timeout to use for OCSP
* requests. Return 0 to disable online OCSP checks.
*/
virtual std::chrono::milliseconds tls_verify_cert_chain_ocsp_timeout() const
{
return std::chrono::milliseconds(0);
}
/**
* Optional callback with default impl: sign a message
*
* Default implementation uses PK_Signer::sign_message().
* Override to provide a different approach, e.g. using an external device.
*
* @param key the private key of the signer
* @param rng a random number generator
* @param emsa the encoding method to be applied to the message
* @param format the signature format
* @param msg the input data for the signature
*
* @return the signature
*/
virtual std::vector<uint8_t> tls_sign_message(
const Private_Key& key,
RandomNumberGenerator& rng,
const std::string& emsa,
Signature_Format format,
const std::vector<uint8_t>& msg);
/**
* Optional callback with default impl: verify a message signature
*
* Default implementation uses PK_Verifier::verify_message().
* Override to provide a different approach, e.g. using an external device.
*
* @param key the public key of the signer
* @param emsa the encoding method to be applied to the message
* @param format the signature format
* @param msg the input data for the signature
* @param sig the signature to be checked
*
* @return true if the signature is valid, false otherwise
*/
virtual bool tls_verify_message(
const Public_Key& key,
const std::string& emsa,
Signature_Format format,
const std::vector<uint8_t>& msg,
const std::vector<uint8_t>& sig);
/**
* Optional callback with default impl: client side DH agreement
*
* Default implementation uses PK_Key_Agreement::derive_key().
* Override to provide a different approach, e.g. using an external device.
*
* @param modulus the modulus p of the discrete logarithm group
* @param generator the generator of the DH subgroup
* @param peer_public_value the public value of the peer
* @param policy the TLS policy associated with the session being established
* @param rng a random number generator
*
* @return a pair consisting of the agreed raw secret and our public value
*/
virtual std::pair<secure_vector<uint8_t>, std::vector<uint8_t>> tls_dh_agree(
const std::vector<uint8_t>& modulus,
const std::vector<uint8_t>& generator,
const std::vector<uint8_t>& peer_public_value,
const Policy& policy,
RandomNumberGenerator& rng);
/**
* Optional callback with default impl: client side ECDH agreement
*
* Default implementation uses PK_Key_Agreement::derive_key().
* Override to provide a different approach, e.g. using an external device.
*
* @param curve_name the name of the elliptic curve
* @param peer_public_value the public value of the peer
* @param policy the TLS policy associated with the session being established
* @param rng a random number generator
* @param compressed the compression preference for our public value
*
* @return a pair consisting of the agreed raw secret and our public value
*/
virtual std::pair<secure_vector<uint8_t>, std::vector<uint8_t>> tls_ecdh_agree(
const std::string& curve_name,
const std::vector<uint8_t>& peer_public_value,
const Policy& policy,
RandomNumberGenerator& rng,
bool compressed);
/**
* Optional callback: inspect handshake message
* Throw an exception to abort the handshake.
* Default simply ignores the message.
*
* @param message the handshake message
*/
virtual void tls_inspect_handshake_msg(const Handshake_Message& message);
/**
* Optional callback for server: choose ALPN protocol
* ALPN (RFC 7301) works by the client sending a list of application
* protocols it is willing to negotiate. The server then selects which
* protocol to use, which is not necessarily even on the list that
* the client sent.
*
* @param client_protos the vector of protocols the client is willing to negotiate
*
* @return the protocol selected by the server, which need not be on the
* list that the client sent; if this is the empty string, the server ignores the
* client ALPN extension. Default return value is empty string.
*/
virtual std::string tls_server_choose_app_protocol(const std::vector<std::string>& client_protos);
/**
* Optional callback: examine/modify Extensions before sending.
*
* Both client and server will call this callback on the Extensions object
* before serializing it in the client/server hellos. This allows an
* application to modify which extensions are sent during the
* handshake.
*
* Default implementation does nothing.
*
* @param extn the extensions
* @param which_side will be CLIENT or SERVER which is the current
* applications role in the exchange.
*/
virtual void tls_modify_extensions(Extensions& extn, Connection_Side which_side);
/**
* Optional callback: examine peer extensions.
*
* Both client and server will call this callback with the Extensions
* object after receiving it from the peer. This allows examining the
* Extensions, for example to implement a custom extension. It also allows
* an application to require that a particular extension be implemented;
* throw an exception from this function to abort the handshake.
*
* Default implementation does nothing.
*
* @param extn the extensions
* @param which_side will be CLIENT if these are are the clients extensions (ie we are
* the server) or SERVER if these are the server extensions (we are the client).
*/
virtual void tls_examine_extensions(const Extensions& extn, Connection_Side which_side);
/**
* Optional callback: error logging. (not currently called)
* @param err An error message related to this connection.
*/
virtual void tls_log_error(const char* err)
{
BOTAN_UNUSED(err);
}
/**
* Optional callback: debug logging. (not currently called)
* @param what Some hopefully informative string
*/
virtual void tls_log_debug(const char* what)
{
BOTAN_UNUSED(what);
}
/**
* Optional callback: debug logging taking a buffer. (not currently called)
* @param descr What this buffer is
* @param val the bytes
* @param val_len length of val
*/
virtual void tls_log_debug_bin(const char* descr, const uint8_t val[], size_t val_len)
{
BOTAN_UNUSED(descr, val, val_len);
}
};
/**
* TLS::Callbacks using std::function for compatability with the old API signatures.
* This type is only provided for backward compatibility.
* New implementations should derive from TLS::Callbacks instead.
*/
class BOTAN_PUBLIC_API(2,0) Compat_Callbacks final : public Callbacks
{
public:
typedef std::function<void (const uint8_t[], size_t)> output_fn;
typedef std::function<void (const uint8_t[], size_t)> data_cb;
typedef std::function<void (Alert, const uint8_t[], size_t)> alert_cb;
typedef std::function<bool (const Session&)> handshake_cb;
typedef std::function<void (const Handshake_Message&)> handshake_msg_cb;
typedef std::function<std::string (std::vector<std::string>)> next_protocol_fn;
/**
* @param output_fn is called with data for the outbound socket
*
* @param app_data_cb is called when new application data is received
*
* @param alert_cb is called when a TLS alert is received
*
* @param hs_cb is called when a handshake is completed
*
* @param hs_msg_cb is called for each handshake message received
*
* @param next_proto is called with ALPN protocol data sent by the client
*/
BOTAN_DEPRECATED("Use TLS::Callbacks (virtual interface).")
Compat_Callbacks(output_fn output_fn, data_cb app_data_cb, alert_cb alert_cb,
handshake_cb hs_cb, handshake_msg_cb hs_msg_cb = nullptr,
next_protocol_fn next_proto = nullptr)
: m_output_function(output_fn), m_app_data_cb(app_data_cb),
m_alert_cb(std::bind(alert_cb, std::placeholders::_1, nullptr, 0)),
m_hs_cb(hs_cb), m_hs_msg_cb(hs_msg_cb), m_next_proto(next_proto) {}
BOTAN_DEPRECATED("Use TLS::Callbacks (virtual interface).")
Compat_Callbacks(output_fn output_fn, data_cb app_data_cb,
std::function<void (Alert)> alert_cb,
handshake_cb hs_cb,
handshake_msg_cb hs_msg_cb = nullptr,
next_protocol_fn next_proto = nullptr)
: m_output_function(output_fn), m_app_data_cb(app_data_cb),
m_alert_cb(alert_cb),
m_hs_cb(hs_cb), m_hs_msg_cb(hs_msg_cb), m_next_proto(next_proto) {}
enum class SILENCE_DEPRECATION_WARNING { PLEASE = 0 };
Compat_Callbacks(SILENCE_DEPRECATION_WARNING,
output_fn output_fn, data_cb app_data_cb,
std::function<void (Alert)> alert_cb,
handshake_cb hs_cb,
handshake_msg_cb hs_msg_cb = nullptr,
next_protocol_fn next_proto = nullptr)
: m_output_function(output_fn), m_app_data_cb(app_data_cb),
m_alert_cb(alert_cb),
m_hs_cb(hs_cb), m_hs_msg_cb(hs_msg_cb), m_next_proto(next_proto) {}
Compat_Callbacks(SILENCE_DEPRECATION_WARNING,
output_fn output_fn, data_cb app_data_cb, alert_cb alert_cb,
handshake_cb hs_cb, handshake_msg_cb hs_msg_cb = nullptr,
next_protocol_fn next_proto = nullptr)
: m_output_function(output_fn), m_app_data_cb(app_data_cb),
m_alert_cb(std::bind(alert_cb, std::placeholders::_1, nullptr, 0)),
m_hs_cb(hs_cb), m_hs_msg_cb(hs_msg_cb), m_next_proto(next_proto) {}
void tls_emit_data(const uint8_t data[], size_t size) override
{
BOTAN_ASSERT(m_output_function != nullptr,
"Invalid TLS output function callback.");
m_output_function(data, size);
}
void tls_record_received(uint64_t /*seq_no*/, const uint8_t data[], size_t size) override
{
BOTAN_ASSERT(m_app_data_cb != nullptr,
"Invalid TLS app data callback.");
m_app_data_cb(data, size);
}
void tls_alert(Alert alert) override
{
BOTAN_ASSERT(m_alert_cb != nullptr,
"Invalid TLS alert callback.");
m_alert_cb(alert);
}
bool tls_session_established(const Session& session) override
{
BOTAN_ASSERT(m_hs_cb != nullptr,
"Invalid TLS handshake callback.");
return m_hs_cb(session);
}
std::string tls_server_choose_app_protocol(const std::vector<std::string>& client_protos) override
{
if(m_next_proto != nullptr) { return m_next_proto(client_protos); }
return "";
}
void tls_inspect_handshake_msg(const Handshake_Message& hmsg) override
{
// The handshake message callback is optional so we can
// not assume it has been set.
if(m_hs_msg_cb != nullptr) { m_hs_msg_cb(hmsg); }
}
private:
const output_fn m_output_function;
const data_cb m_app_data_cb;
const std::function<void (Alert)> m_alert_cb;
const handshake_cb m_hs_cb;
const handshake_msg_cb m_hs_msg_cb;
const next_protocol_fn m_next_proto;
};
}
}
#endif
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