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/*
* OpenVPN -- An application to securely tunnel IP networks
* over a single TCP/UDP port, with support for SSL/TLS-based
* session authentication and key exchange,
* packet encryption, packet authentication, and
* packet compression.
*
* Copyright (C) 2002-2021 OpenVPN Inc <sales@openvpn.net>
* Copyright (C) 2010-2021 Fox Crypto B.V. <openvpn@foxcrypto.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2
* 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
/**
* @file Control Channel Common Data Structures
*/
#ifndef SSL_COMMON_H_
#define SSL_COMMON_H_
#include "session_id.h"
#include "socket.h"
#include "packet_id.h"
#include "crypto.h"
#include "options.h"
#include "ssl_backend.h"
/* passwords */
#define UP_TYPE_AUTH "Auth"
#define UP_TYPE_PRIVATE_KEY "Private Key"
/** @addtogroup control_processor
* @{ */
/**
* @name Control channel negotiation states
*
* These states represent the different phases of control channel
* negotiation between OpenVPN peers. OpenVPN servers and clients
* progress through the states in a different order, because of their
* different roles during exchange of random material. The references to
* the \c key_source2 structure in the list below is only valid if %key
* method 2 is being used. See the \link key_generation data channel key
* generation\endlink related page for more information.
*
* Clients follow this order:
* -# \c S_INITIAL, ready to begin three-way handshake and control
* channel negotiation.
* -# \c S_PRE_START, have started three-way handshake, waiting for
* acknowledgment from remote.
* -# \c S_START, initial three-way handshake complete.
* -# \c S_SENT_KEY, have sent local part of \c key_source2 random
* material.
* -# \c S_GOT_KEY, have received remote part of \c key_source2 random
* material.
* -# \c S_ACTIVE, normal operation
*
* Servers follow the same order, except for \c S_SENT_KEY and \c
* S_GOT_KEY being reversed, because the server first receives the
* client's \c key_source2 random material before generating and sending
* its own.
*
* @{
*/
#define S_ERROR -1 /**< Error state. */
#define S_UNDEF 0 /**< Undefined state, used after a \c
* key_state is cleaned up. */
#define S_INITIAL 1 /**< Initial \c key_state state after
* initialization by \c key_state_init()
* before start of three-way handshake. */
#define S_PRE_START 2 /**< Waiting for the remote OpenVPN peer
* to acknowledge during the initial
* three-way handshake. */
#define S_START 3 /**< Three-way handshake is complete,
* start of key exchange. */
#define S_SENT_KEY 4 /**< Local OpenVPN process has sent its
* part of the key material. */
#define S_GOT_KEY 5 /**< Local OpenVPN process has received
* the remote's part of the key
* material. */
#define S_ACTIVE 6 /**< Operational \c key_state state
* immediately after negotiation has
* completed while still within the
* handshake window. */
/* Note that earlier versions also had a S_OP_NORMAL state that was
* virtually identical with S_ACTIVE and the code still assumes everything
* >= S_ACTIVE to be fully operational */
/** @} name Control channel negotiation states */
/** @} addtogroup control_processor */
/**
* Container for one half of random material to be used in %key method 2
* \ref key_generation "data channel key generation".
* @ingroup control_processor
*/
struct key_source {
uint8_t pre_master[48]; /**< Random used for master secret
* generation, provided only by client
* OpenVPN peer. */
uint8_t random1[32]; /**< Seed used for master secret
* generation, provided by both client
* and server. */
uint8_t random2[32]; /**< Seed used for key expansion, provided
* by both client and server. */
};
/**
* Container for both halves of random material to be used in %key method
* 2 \ref key_generation "data channel key generation".
* @ingroup control_processor
*/
struct key_source2 {
struct key_source client; /**< Random provided by client. */
struct key_source server; /**< Random provided by server. */
};
/**
* This reflects the (server side) authentication state after the TLS
* session has been established and key_method_2_read is called. If async auth
* is enabled the state will first move to KS_AUTH_DEFERRED before eventually
* being set to KS_AUTH_TRUE or KS_AUTH_FALSE
* Only KS_AUTH_TRUE is fully authenticated
*/
enum ks_auth_state {
KS_AUTH_FALSE, /**< Key state is not authenticated */
KS_AUTH_DEFERRED, /**< Key state authentication is being deferred,
* by async auth */
KS_AUTH_TRUE /**< Key state is authenticated. TLS and user/pass
* succeeded. This includes AUTH_PENDING/OOB
* authentication as those hold the
* connection artificially in KS_AUTH_DEFERRED
*/
};
/**
* Security parameter state of one TLS and data channel %key session.
* @ingroup control_processor
*
* This structure represents one security parameter session between
* OpenVPN peers. It includes the control channel TLS state and the data
* channel crypto state. It also contains the reliability layer
* structures used for control channel messages.
*
* A new \c key_state structure is initialized for each hard or soft
* reset.
*
* @see
* - This structure should be initialized using the \c key_state_init()
* function.
* - This structure should be cleaned up using the \c key_state_free()
* function.
*/
struct key_state
{
int state;
/** The state of the auth-token sent from the client */
int auth_token_state_flags;
/**
* Key id for this key_state, inherited from struct tls_session.
* @see tls_session::key_id.
*/
int key_id;
struct key_state_ssl ks_ssl; /* contains SSL object and BIOs for the control channel */
time_t established; /* when our state went S_ACTIVE */
time_t must_negotiate; /* key negotiation times out if not finished before this time */
time_t must_die; /* this object is destroyed at this time */
int initial_opcode; /* our initial P_ opcode */
struct session_id session_id_remote; /* peer's random session ID */
struct link_socket_actual remote_addr; /* peer's IP addr */
struct crypto_options crypto_options;/* data channel crypto options */
struct key_source2 *key_src; /* source entropy for key expansion */
struct buffer plaintext_read_buf;
struct buffer plaintext_write_buf;
struct buffer ack_write_buf;
struct reliable *send_reliable; /* holds a copy of outgoing packets until ACK received */
struct reliable *rec_reliable; /* order incoming ciphertext packets before we pass to TLS */
struct reliable_ack *rec_ack; /* buffers all packet IDs we want to ACK back to sender */
struct buffer_list *paybuf;
counter_type n_bytes; /* how many bytes sent/recvd since last key exchange */
counter_type n_packets; /* how many packets sent/recvd since last key exchange */
/*
* If bad username/password, TLS connection will come up but 'authenticated' will be false.
*/
enum ks_auth_state authenticated;
time_t auth_deferred_expire;
#ifdef MANAGEMENT_DEF_AUTH
unsigned int mda_key_id;
unsigned int mda_status;
#endif
#ifdef PLUGIN_DEF_AUTH
unsigned int auth_control_status;
time_t acf_last_mod;
char *auth_control_file;
#endif
};
/** Control channel wrapping (--tls-auth/--tls-crypt) context */
struct tls_wrap_ctx
{
enum {
TLS_WRAP_NONE = 0, /**< No control channel wrapping */
TLS_WRAP_AUTH, /**< Control channel authentication */
TLS_WRAP_CRYPT, /**< Control channel encryption and authentication */
} mode; /**< Control channel wrapping mode */
struct crypto_options opt; /**< Crypto state */
struct buffer work; /**< Work buffer (only for --tls-crypt) */
struct key_ctx tls_crypt_v2_server_key; /**< Decrypts client keys */
const struct buffer *tls_crypt_v2_wkc; /**< Wrapped client key,
* sent to server */
struct buffer tls_crypt_v2_metadata; /**< Received from client */
bool cleanup_key_ctx; /**< opt.key_ctx_bi is owned by
* this context */
};
/*
* Our const options, obtained directly or derived from
* command line options.
*/
struct tls_options
{
/* our master TLS context from which all SSL objects derived */
struct tls_root_ctx ssl_ctx;
/* data channel cipher, hmac, and key lengths */
struct key_type key_type;
/* true if we are a TLS server, client otherwise */
bool server;
/* if true, don't xmit until first packet from peer is received */
bool xmit_hold;
/* local and remote options strings
* that must match between client and server */
const char *local_options;
const char *remote_options;
/* from command line */
bool replay;
bool single_session;
bool disable_occ;
int mode;
bool pull;
int push_peer_info_detail;
int transition_window;
int handshake_window;
interval_t packet_timeout;
int renegotiate_bytes;
int renegotiate_packets;
interval_t renegotiate_seconds;
/* cert verification parms */
const char *verify_command;
const char *verify_export_cert;
int verify_x509_type;
const char *verify_x509_name;
const char *crl_file;
bool crl_file_inline;
int ns_cert_type;
unsigned remote_cert_ku[MAX_PARMS];
const char *remote_cert_eku;
uint8_t *verify_hash;
hash_algo_type verify_hash_algo;
char *x509_username_field;
/* allow openvpn config info to be
* passed over control channel */
bool pass_config_info;
/* struct crypto_option flags */
unsigned int crypto_flags;
int replay_window; /* --replay-window parm */
int replay_time; /* --replay-window parm */
bool tcp_mode;
const char *config_ciphername;
const char *config_ncp_ciphers;
bool ncp_enabled;
bool tls_crypt_v2;
const char *tls_crypt_v2_verify_script;
/** TLS handshake wrapping state */
struct tls_wrap_ctx tls_wrap;
struct frame frame;
/* used for username/password authentication */
const char *auth_user_pass_verify_script;
bool auth_user_pass_verify_script_via_file;
const char *tmp_dir;
const char *auth_user_pass_file;
bool auth_token_generate; /**< Generate auth-tokens on successful
* user/pass auth,seet via
* options->auth_token_generate. */
bool auth_token_call_auth; /**< always call normal authentication */
unsigned int auth_token_lifetime;
struct key_ctx auth_token_key;
/* use the client-config-dir as a positive authenticator */
const char *client_config_dir_exclusive;
/* instance-wide environment variable set */
struct env_set *es;
openvpn_net_ctx_t *net_ctx;
const struct plugin_list *plugins;
/* compression parms */
#ifdef USE_COMP
struct compress_options comp_options;
#endif
/* configuration file SSL-related boolean and low-permutation options */
#define SSLF_CLIENT_CERT_NOT_REQUIRED (1<<0)
#define SSLF_CLIENT_CERT_OPTIONAL (1<<1)
#define SSLF_USERNAME_AS_COMMON_NAME (1<<2)
#define SSLF_AUTH_USER_PASS_OPTIONAL (1<<3)
#define SSLF_OPT_VERIFY (1<<4)
#define SSLF_CRL_VERIFY_DIR (1<<5)
#define SSLF_TLS_VERSION_MIN_SHIFT 6
#define SSLF_TLS_VERSION_MIN_MASK 0xF /* (uses bit positions 6 to 9) */
#define SSLF_TLS_VERSION_MAX_SHIFT 10
#define SSLF_TLS_VERSION_MAX_MASK 0xF /* (uses bit positions 10 to 13) */
#define SSLF_TLS_DEBUG_ENABLED (1<<14)
unsigned int ssl_flags;
#ifdef MANAGEMENT_DEF_AUTH
struct man_def_auth_context *mda_context;
#endif
const struct x509_track *x509_track;
#ifdef ENABLE_MANAGEMENT
const struct static_challenge_info *sci;
#endif
/* --gremlin bits */
int gremlin;
/* Keying Material Exporter [RFC 5705] parameters */
const char *ekm_label;
size_t ekm_label_size;
size_t ekm_size;
};
/** @addtogroup control_processor
* @{ */
/** @name Index of key_state objects within a tls_session structure
*
* This is the index of \c tls_session.key
*
* @{ */
#define KS_PRIMARY 0 /**< Primary %key state index. */
#define KS_LAME_DUCK 1 /**< %Key state index that will retire
* soon. */
#define KS_SIZE 2 /**< Size of the \c tls_session.key array. */
/** @} name Index of key_state objects within a tls_session structure */
/** @} addtogroup control_processor */
/**
* Security parameter state of a single session within a VPN tunnel.
* @ingroup control_processor
*
* This structure represents an OpenVPN peer-to-peer control channel
* session.
*
* A \c tls_session remains over soft resets, but a new instance is
* initialized for each hard reset.
*
* @see
* - This structure should be initialized using the \c tls_session_init()
* function.
* - This structure should be cleaned up using the \c tls_session_free()
* function.
*/
struct tls_session
{
/* const options and config info */
struct tls_options *opt;
/* during hard reset used to control burst retransmit */
bool burst;
/* authenticate control packets */
struct tls_wrap_ctx tls_wrap;
int initial_opcode; /* our initial P_ opcode */
struct session_id session_id; /* our random session ID */
/**
* The current active key id, used to keep track of renegotiations.
* key_id increments with each soft reset to KEY_ID_MASK then recycles back
* to 1. This way you know that if key_id is 0, it is the first key.
*/
int key_id;
int limit_next; /* used for traffic shaping on the control channel */
int verify_maxlevel;
char *common_name;
struct cert_hash_set *cert_hash_set;
#ifdef ENABLE_PF
uint32_t common_name_hashval;
#endif
bool verified; /* true if peer certificate was verified against CA */
/* not-yet-authenticated incoming client */
struct link_socket_actual untrusted_addr;
struct key_state key[KS_SIZE];
};
/** @addtogroup control_processor
* @{ */
/** @name Index of tls_session objects within a tls_multi structure
*
* This is the index of \c tls_multi.session
*
* Normally three tls_session objects are maintained by an active openvpn
* session. The first is the current, TLS authenticated session, the
* second is used to process connection requests from a new client that
* would usurp the current session if successfully authenticated, and the
* third is used as a repository for a "lame-duck" %key in the event that
* the primary session resets due to error while the lame-duck %key still
* has time left before its expiration. Lame duck keys are used to
* maintain the continuity of the data channel connection while a new %key
* is being negotiated.
*
* @{ */
#define TM_ACTIVE 0 /**< Active \c tls_session. */
#define TM_UNTRUSTED 1 /**< As yet un-trusted \c tls_session
* being negotiated. */
#define TM_LAME_DUCK 2 /**< Old \c tls_session. */
#define TM_SIZE 3 /**< Size of the \c tls_multi.session
* array. */
/** @} name Index of tls_session objects within a tls_multi structure */
/** @} addtogroup control_processor */
/*
* The number of keys we will scan on encrypt or decrypt. The first
* is the "active" key. The second is the lame_duck or retiring key
* associated with the active key's session ID. The third is a detached
* lame duck session that only occurs in situations where a key renegotiate
* failed on the active key, but a lame duck key was still valid. By
* preserving the lame duck session, we can be assured of having a data
* channel key available even when network conditions are so bad that
* we can't negotiate a new key within the time allotted.
*/
#define KEY_SCAN_SIZE 3
/* client authentication state, CAS_SUCCEEDED must be 0 since
* non multi code path still checks this variable but does not initialise it
* so the code depends on zero initialisation */
enum client_connect_status {
CAS_SUCCEEDED=0,
CAS_PENDING,
CAS_PENDING_DEFERRED,
CAS_PENDING_DEFERRED_PARTIAL, /**< at least handler succeeded, no result yet*/
CAS_FAILED,
};
/**
* Security parameter state for a single VPN tunnel.
* @ingroup control_processor
*
* An active VPN tunnel running with TLS enabled has one \c tls_multi
* object, in which it stores all control channel and data channel
* security parameter state. This structure can contain multiple,
* possibly simultaneously active, \c tls_context objects to allow for
* interruption-less transitions during session renegotiations. Each \c
* tls_context represents one control channel session, which can span
* multiple data channel security parameter sessions stored in \c
* key_state structures.
*/
struct tls_multi
{
/* used to coordinate access between main thread and TLS thread */
/*MUTEX_PTR_DEFINE (mutex);*/
/* const options and config info */
struct tls_options opt;
struct key_state *key_scan[KEY_SCAN_SIZE];
/**< List of \c key_state objects in the
* order they should be scanned by data
* channel modules. */
/*
* used by tls_pre_encrypt to communicate the encrypt key
* to tls_post_encrypt()
*/
struct key_state *save_ks; /* temporary pointer used between pre/post routines */
/*
* Used to return outgoing address from
* tls_multi_process.
*/
struct link_socket_actual to_link_addr;
int n_sessions; /**< Number of sessions negotiated thus
* far. */
enum client_connect_status multi_state;
/*
* Number of errors.
*/
int n_hard_errors; /* errors due to TLS negotiation failure */
int n_soft_errors; /* errors due to unrecognized or failed-to-authenticate incoming packets */
/*
* Our locked common name, username, and cert hashes (cannot change during the life of this tls_multi object)
*/
char *locked_cn;
char *locked_username;
struct cert_hash_set *locked_cert_hash_set;
#ifdef ENABLE_DEF_AUTH
/* Time of last call to tls_authentication_status */
time_t tas_last;
#endif
/*
* An error message to send to client on AUTH_FAILED
*/
char *client_reason;
/*
* A multi-line string of general-purpose info received from peer
* over control channel.
*/
char *peer_info;
char *auth_token; /**< If server sends a generated auth-token,
* this is the token to use for future
* user/pass authentications in this session.
*/
char *auth_token_initial;
/**< The first auth-token we sent to a client, for clients that do
* not update their auth-token (older OpenVPN3 core versions)
*/
#define AUTH_TOKEN_HMAC_OK (1<<0)
/**< Auth-token sent from client has valid hmac */
#define AUTH_TOKEN_EXPIRED (1<<1)
/**< Auth-token sent from client has expired */
#define AUTH_TOKEN_VALID_EMPTYUSER (1<<2)
/**<
* Auth-token is only valid for an empty username
* and not the username actually supplied from the client
*
* OpenVPN 3 clients sometimes wipes or replaces the username with a
* username hint from their config.
*/
/* For P_DATA_V2 */
uint32_t peer_id;
bool use_peer_id;
char *remote_ciphername; /**< cipher specified in peer's config file */
/*
* Our session objects.
*/
struct tls_session session[TM_SIZE];
/**< Array of \c tls_session objects
* representing control channel
* sessions with the remote peer. */
};
#endif /* SSL_COMMON_H_ */
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