diff --git a/channels/chan_sip.c b/channels/chan_sip.c
index 2531061e7f..35f5f5ef70 100644
--- a/channels/chan_sip.c
+++ b/channels/chan_sip.c
@@ -1251,7 +1251,7 @@ static int process_sdp_a_text(const char *a, struct sip_pvt *p, struct ast_rtp_c
static int process_sdp_a_image(const char *a, struct sip_pvt *p);
static void add_ice_to_sdp(struct ast_rtp_instance *instance, struct ast_str **a_buf);
static void add_dtls_to_sdp(struct ast_rtp_instance *instance, struct ast_str **a_buf);
-static void start_ice(struct ast_rtp_instance *instance);
+static void start_ice(struct ast_rtp_instance *instance, int offer);
static void add_codec_to_sdp(const struct sip_pvt *p, struct ast_format *codec,
struct ast_str **m_buf, struct ast_str **a_buf,
int debug, int *min_packet_size, int *max_packet_size);
@@ -10163,12 +10163,21 @@ static int process_sdp(struct sip_pvt *p, struct sip_request *req, int t38action
if (process_sdp_a_dtls(value, p, p->rtp)) {
processed = TRUE;
+ if (p->srtp) {
+ ast_set_flag(p->srtp, AST_SRTP_CRYPTO_OFFER_OK);
+ }
}
if (process_sdp_a_dtls(value, p, p->vrtp)) {
processed = TRUE;
+ if (p->vsrtp) {
+ ast_set_flag(p->vsrtp, AST_SRTP_CRYPTO_OFFER_OK);
+ }
}
if (process_sdp_a_dtls(value, p, p->trtp)) {
processed = TRUE;
+ if (p->tsrtp) {
+ ast_set_flag(p->tsrtp, AST_SRTP_CRYPTO_OFFER_OK);
+ }
}
break;
@@ -10576,7 +10585,11 @@ static int process_sdp(struct sip_pvt *p, struct sip_request *req, int t38action
if (process_sdp_a_ice(value, p, p->rtp)) {
processed = TRUE;
} else if (process_sdp_a_dtls(value, p, p->rtp)) {
+ processed_crypto = TRUE;
processed = TRUE;
+ if (p->srtp) {
+ ast_set_flag(p->srtp, AST_SRTP_CRYPTO_OFFER_OK);
+ }
} else if (process_sdp_a_sendonly(value, &sendonly)) {
processed = TRUE;
} else if (!processed_crypto && process_crypto(p, p->rtp, &p->srtp, value)) {
@@ -10591,7 +10604,11 @@ static int process_sdp(struct sip_pvt *p, struct sip_request *req, int t38action
if (process_sdp_a_ice(value, p, p->vrtp)) {
processed = TRUE;
} else if (process_sdp_a_dtls(value, p, p->vrtp)) {
+ processed_crypto = TRUE;
processed = TRUE;
+ if (p->vsrtp) {
+ ast_set_flag(p->vsrtp, AST_SRTP_CRYPTO_OFFER_OK);
+ }
} else if (!processed_crypto && process_crypto(p, p->vrtp, &p->vsrtp, value)) {
processed_crypto = TRUE;
processed = TRUE;
@@ -10742,7 +10759,7 @@ static int process_sdp(struct sip_pvt *p, struct sip_request *req, int t38action
/* Setup audio address and port */
if (p->rtp) {
if (sa && portno > 0) {
- start_ice(p->rtp);
+ start_ice(p->rtp, (req->method != SIP_RESPONSE) ? 0 : 1);
ast_sockaddr_set_port(sa, portno);
ast_rtp_instance_set_remote_address(p->rtp, sa);
if (debug) {
@@ -10790,7 +10807,7 @@ static int process_sdp(struct sip_pvt *p, struct sip_request *req, int t38action
/* Setup video address and port */
if (p->vrtp) {
if (vsa && vportno > 0) {
- start_ice(p->vrtp);
+ start_ice(p->vrtp, (req->method != SIP_RESPONSE) ? 0 : 1);
ast_sockaddr_set_port(vsa, vportno);
ast_rtp_instance_set_remote_address(p->vrtp, vsa);
if (debug) {
@@ -10808,7 +10825,7 @@ static int process_sdp(struct sip_pvt *p, struct sip_request *req, int t38action
/* Setup text address and port */
if (p->trtp) {
if (tsa && tportno > 0) {
- start_ice(p->trtp);
+ start_ice(p->trtp, (req->method != SIP_RESPONSE) ? 0 : 1);
ast_sockaddr_set_port(tsa, tportno);
ast_rtp_instance_set_remote_address(p->trtp, tsa);
if (debug) {
@@ -11137,7 +11154,7 @@ static int process_sdp_a_dtls(const char *a, struct sip_pvt *p, struct ast_rtp_i
{
struct ast_rtp_engine_dtls *dtls;
int found = FALSE;
- char value[256], hash[6];
+ char value[256], hash[32];
if (!instance || !p->dtls_cfg.enabled || !(dtls = ast_rtp_instance_get_dtls(instance))) {
return found;
@@ -11169,11 +11186,13 @@ static int process_sdp_a_dtls(const char *a, struct sip_pvt *p, struct ast_rtp_i
ast_log(LOG_WARNING, "Unsupported connection attribute value '%s' received on dialog '%s'\n",
value, p->callid);
}
- } else if (sscanf(a, "fingerprint: %5s %255s", hash, value) == 2) {
+ } else if (sscanf(a, "fingerprint: %31s %255s", hash, value) == 2) {
found = TRUE;
if (!strcasecmp(hash, "sha-1")) {
dtls->set_fingerprint(instance, AST_RTP_DTLS_HASH_SHA1, value);
+ } else if (!strcasecmp(hash, "sha-256")) {
+ dtls->set_fingerprint(instance, AST_RTP_DTLS_HASH_SHA256, value);
} else {
ast_log(LOG_WARNING, "Unsupported fingerprint hash type '%s' received on dialog '%s'\n",
hash, p->callid);
@@ -12820,7 +12839,7 @@ static void add_ice_to_sdp(struct ast_rtp_instance *instance, struct ast_str **a
}
/*! \brief Start ICE negotiation on an RTP instance */
-static void start_ice(struct ast_rtp_instance *instance)
+static void start_ice(struct ast_rtp_instance *instance, int offer)
{
struct ast_rtp_engine_ice *ice = ast_rtp_instance_get_ice(instance);
@@ -12828,6 +12847,8 @@ static void start_ice(struct ast_rtp_instance *instance)
return;
}
+ /* If we are the offerer then we are the controlling agent, otherwise they are */
+ ice->set_role(instance, offer ? AST_RTP_ICE_ROLE_CONTROLLING : AST_RTP_ICE_ROLE_CONTROLLED);
ice->start(instance);
}
@@ -12835,6 +12856,7 @@ static void start_ice(struct ast_rtp_instance *instance)
static void add_dtls_to_sdp(struct ast_rtp_instance *instance, struct ast_str **a_buf)
{
struct ast_rtp_engine_dtls *dtls;
+ enum ast_rtp_dtls_hash hash;
const char *fingerprint;
if (!instance || !(dtls = ast_rtp_instance_get_dtls(instance)) || !dtls->active(instance)) {
@@ -12869,8 +12891,11 @@ static void add_dtls_to_sdp(struct ast_rtp_instance *instance, struct ast_str **
break;
}
- if ((fingerprint = dtls->get_fingerprint(instance, AST_RTP_DTLS_HASH_SHA1))) {
- ast_str_append(a_buf, 0, "a=fingerprint:SHA-1 %s\r\n", fingerprint);
+ hash = dtls->get_fingerprint_hash(instance);
+ fingerprint = dtls->get_fingerprint(instance);
+ if (fingerprint && (hash == AST_RTP_DTLS_HASH_SHA1 || hash == AST_RTP_DTLS_HASH_SHA256)) {
+ ast_str_append(a_buf, 0, "a=fingerprint:%s %s\r\n", hash == AST_RTP_DTLS_HASH_SHA1 ? "SHA-1" : "SHA-256",
+ fingerprint);
}
}
@@ -13343,7 +13368,8 @@ static enum sip_result add_sdp(struct sip_request *resp, struct sip_pvt *p, int
ast_test_flag(&p->flags[2], SIP_PAGE3_SRTP_TAG_32));
ast_str_append(&m_video, 0, "m=video %d %s", ast_sockaddr_port(&vdest),
ast_sdp_get_rtp_profile(v_a_crypto ? 1 : 0, p->vrtp,
- ast_test_flag(&p->flags[2], SIP_PAGE3_USE_AVPF)));
+ ast_test_flag(&p->flags[2], SIP_PAGE3_USE_AVPF),
+ ast_test_flag(&p->flags[2], SIP_PAGE3_FORCE_AVP)));
/* Build max bitrate string */
if (p->maxcallbitrate)
@@ -13370,7 +13396,8 @@ static enum sip_result add_sdp(struct sip_request *resp, struct sip_pvt *p, int
ast_test_flag(&p->flags[2], SIP_PAGE3_SRTP_TAG_32));
ast_str_append(&m_text, 0, "m=text %d %s", ast_sockaddr_port(&tdest),
ast_sdp_get_rtp_profile(t_a_crypto ? 1 : 0, p->trtp,
- ast_test_flag(&p->flags[2], SIP_PAGE3_USE_AVPF)));
+ ast_test_flag(&p->flags[2], SIP_PAGE3_USE_AVPF),
+ ast_test_flag(&p->flags[2], SIP_PAGE3_FORCE_AVP)));
if (debug) { /* XXX should I use tdest below ? */
ast_verbose("Text is at %s\n", ast_sockaddr_stringify(&taddr));
}
@@ -13393,7 +13420,8 @@ static enum sip_result add_sdp(struct sip_request *resp, struct sip_pvt *p, int
ast_test_flag(&p->flags[2], SIP_PAGE3_SRTP_TAG_32));
ast_str_append(&m_audio, 0, "m=audio %d %s", ast_sockaddr_port(&dest),
ast_sdp_get_rtp_profile(a_crypto ? 1 : 0, p->rtp,
- ast_test_flag(&p->flags[2], SIP_PAGE3_USE_AVPF)));
+ ast_test_flag(&p->flags[2], SIP_PAGE3_USE_AVPF),
+ ast_test_flag(&p->flags[2], SIP_PAGE3_FORCE_AVP)));
/* Now, start adding audio codecs. These are added in this order:
- First what was requested by the calling channel
@@ -30870,6 +30898,8 @@ static struct sip_peer *build_peer(const char *name, struct ast_variable *v, str
ast_set2_flag(&peer->flags[2], ast_true(v->value), SIP_PAGE3_IGNORE_PREFCAPS);
} else if (!strcasecmp(v->name, "discard_remote_hold_retrieval")) {
ast_set2_flag(&peer->flags[2], ast_true(v->value), SIP_PAGE3_DISCARD_REMOTE_HOLD_RETRIEVAL);
+ } else if (!strcasecmp(v->name, "force_avp")) {
+ ast_set2_flag(&peer->flags[2], ast_true(v->value), SIP_PAGE3_FORCE_AVP);
} else {
ast_rtp_dtls_cfg_parse(&peer->dtls_cfg, v->name, v->value);
}
diff --git a/channels/sip/include/sip.h b/channels/sip/include/sip.h
index ab151de101..11078d5b74 100644
--- a/channels/sip/include/sip.h
+++ b/channels/sip/include/sip.h
@@ -384,11 +384,12 @@
#define SIP_PAGE3_ICE_SUPPORT (1 << 6) /*!< DGP: Enable ICE support */
#define SIP_PAGE3_IGNORE_PREFCAPS (1 << 7) /*!< DP: Ignore prefcaps when setting up an outgoing call leg */
#define SIP_PAGE3_DISCARD_REMOTE_HOLD_RETRIEVAL (1 << 8) /*!< DGP: Stop telling the peer to start music on hold */
+#define SIP_PAGE3_FORCE_AVP (1 << 9) /*!< DGP: Force 'RTP/AVP' for all streams, even DTLS */
#define SIP_PAGE3_FLAGS_TO_COPY \
(SIP_PAGE3_SNOM_AOC | SIP_PAGE3_SRTP_TAG_32 | SIP_PAGE3_NAT_AUTO_RPORT | SIP_PAGE3_NAT_AUTO_COMEDIA | \
SIP_PAGE3_DIRECT_MEDIA_OUTGOING | SIP_PAGE3_USE_AVPF | SIP_PAGE3_ICE_SUPPORT | SIP_PAGE3_IGNORE_PREFCAPS | \
- SIP_PAGE3_DISCARD_REMOTE_HOLD_RETRIEVAL)
+ SIP_PAGE3_DISCARD_REMOTE_HOLD_RETRIEVAL | SIP_PAGE3_FORCE_AVP)
#define CHECK_AUTH_BUF_INITLEN 256
diff --git a/configs/sip.conf.sample b/configs/sip.conf.sample
index 010137d724..0d81a6b63c 100644
--- a/configs/sip.conf.sample
+++ b/configs/sip.conf.sample
@@ -1046,6 +1046,8 @@ srvlookup=yes ; Enable DNS SRV lookups on outbound calls
;avpf=yes ; Enable inter-operability with media streams using the AVPF RTP profile.
; This will cause all offers and answers to use AVPF (or SAVPF). This
; option may be specified at the global or peer scope.
+;force_avp=yes ; Force 'RTP/AVP', 'RTP/AVPF', 'RTP/SAVP', and 'RTP/SAVPF' to be used for
+ ; media streams when appropriate, even if a DTLS stream is present.
;----------------------------------------- REALTIME SUPPORT ------------------------
; For additional information on ARA, the Asterisk Realtime Architecture,
; please read https://wiki.asterisk.org/wiki/display/AST/Realtime+Database+Configuration
@@ -1302,6 +1304,7 @@ srvlookup=yes ; Enable DNS SRV lookups on outbound calls
; dtlscafile
; dtlscapath
; dtlssetup
+; dtlsfingerprint
; ignore_requested_pref ; Ignore the requested codec and determine the preferred codec
; ; from the peer's configuration.
;
@@ -1312,7 +1315,11 @@ srvlookup=yes ; Enable DNS SRV lookups on outbound calls
; DTLS-SRTP support is available if the underlying RTP engine in use supports it.
;
; dtlsenable = yes ; Enable or disable DTLS-SRTP support
-; dtlsverify = yes ; Verify that the provided peer certificate is valid
+; dtlsverify = yes ; Verify that provided peer certificate and fingerprint are valid
+; ; A value of 'yes' will perform both certificate and fingerprint verification
+; ; A value of 'no' will perform no certificate or fingerprint verification
+; ; A value of 'fingerprint' will perform ONLY fingerprint verification
+; ; A value of 'certificate' will perform ONLY certficiate verification
; dtlsrekey = 60 ; Interval at which to renegotiate the TLS session and rekey the SRTP session
; ; If this is not set or the value provided is 0 rekeying will be disabled
; dtlscertfile = file ; Path to certificate file to present
@@ -1327,6 +1334,7 @@ srvlookup=yes ; Enable DNS SRV lookups on outbound calls
; ; accept connections only), and actpass (we will do both). This value will be used in
; ; the outgoing SDP when offering and for incoming SDP offers when the remote party sends
; ; actpass
+; dtlsfingerprint = sha-1 ; The hash to use for the fingerprint in SDP (valid options are sha-1 and sha-256)
;[sip_proxy]
; For incoming calls only. Example: FWD (Free World Dialup)
diff --git a/contrib/ast-db-manage/config/versions/51f8cb66540e_add_further_dtls_options.py b/contrib/ast-db-manage/config/versions/51f8cb66540e_add_further_dtls_options.py
new file mode 100644
index 0000000000..c2dacda2c6
--- /dev/null
+++ b/contrib/ast-db-manage/config/versions/51f8cb66540e_add_further_dtls_options.py
@@ -0,0 +1,32 @@
+"""add further dtls options
+
+Revision ID: 51f8cb66540e
+Revises: c6d929b23a8
+Create Date: 2014-06-30 07:16:12.291684
+
+"""
+
+# revision identifiers, used by Alembic.
+revision = '51f8cb66540e'
+down_revision = 'c6d929b23a8'
+
+from alembic import op
+import sqlalchemy as sa
+from sqlalchemy.dialects.postgresql import ENUM
+
+YESNO_NAME = 'yesno_values'
+YESNO_VALUES = ['yes', 'no']
+
+def upgrade():
+ ############################# Enums ##############################
+
+ # yesno_values have already been created, so use postgres enum object
+ # type to get around "already created" issue - works okay with mysql
+ yesno_values = ENUM(*YESNO_VALUES, name=YESNO_NAME, create_type=False)
+
+ op.add_column('ps_endpoints', sa.Column('force_avp', yesno_values))
+ op.add_column('ps_endpoints', sa.Column('media_use_received_transport', yesno_values))
+
+def downgrade():
+ op.drop_column('ps_endpoints', 'force_avp')
+ op.drop_column('ps_endpoints', 'media_use_received_transport')
diff --git a/include/asterisk/res_pjsip.h b/include/asterisk/res_pjsip.h
index 4a3a84a8af..f5518c0e66 100644
--- a/include/asterisk/res_pjsip.h
+++ b/include/asterisk/res_pjsip.h
@@ -473,6 +473,10 @@ struct ast_sip_media_rtp_configuration {
unsigned int use_ptime;
/*! Do we use AVPF exclusively for this endpoint? */
unsigned int use_avpf;
+ /*! Do we force AVP, AVPF, SAVP, or SAVPF even for DTLS media streams? */
+ unsigned int force_avp;
+ /*! Do we use the received media transport in our answer SDP */
+ unsigned int use_received_transport;
/*! \brief DTLS-SRTP configuration information */
struct ast_rtp_dtls_cfg dtls_cfg;
/*! Should SRTP use a 32 byte tag instead of an 80 byte tag? */
diff --git a/include/asterisk/res_pjsip_session.h b/include/asterisk/res_pjsip_session.h
index 01c63db660..7340c6d717 100644
--- a/include/asterisk/res_pjsip_session.h
+++ b/include/asterisk/res_pjsip_session.h
@@ -73,6 +73,8 @@ struct ast_sip_session_media {
struct ast_sip_session_sdp_handler *handler;
/*! \brief Holds SRTP information */
struct ast_sdp_srtp *srtp;
+ /*! \brief The media transport in use for this stream */
+ pj_str_t transport;
/*! \brief Stream is on hold */
unsigned int held:1;
/*! \brief Stream type this session media handles */
diff --git a/include/asterisk/rtp_engine.h b/include/asterisk/rtp_engine.h
index 25a3a815f5..81e530e85b 100644
--- a/include/asterisk/rtp_engine.h
+++ b/include/asterisk/rtp_engine.h
@@ -390,6 +390,12 @@ enum ast_rtp_ice_component_type {
AST_RTP_ICE_COMPONENT_RTCP = 2,
};
+/*! \brief ICE role during negotiation */
+enum ast_rtp_ice_role {
+ AST_RTP_ICE_ROLE_CONTROLLED,
+ AST_RTP_ICE_ROLE_CONTROLLING,
+};
+
/*! \brief Structure for an ICE candidate */
struct ast_rtp_engine_ice_candidate {
char *foundation; /*!< Foundation identifier */
@@ -419,6 +425,8 @@ struct ast_rtp_engine_ice {
struct ao2_container *(*get_local_candidates)(struct ast_rtp_instance *instance);
/*! Callback for telling the ICE support that it is talking to an ice-lite implementation */
void (*ice_lite)(struct ast_rtp_instance *instance);
+ /*! Callback for changing our role in negotiation */
+ void (*set_role)(struct ast_rtp_instance *instance, enum ast_rtp_ice_role role);
};
/*! \brief DTLS setup types */
@@ -431,22 +439,31 @@ enum ast_rtp_dtls_setup {
/*! \brief DTLS connection states */
enum ast_rtp_dtls_connection {
- AST_RTP_DTLS_CONNECTION_NEW, /*!< Endpoint wants to use a new connection */
+ AST_RTP_DTLS_CONNECTION_NEW, /*!< Endpoint wants to use a new connection */
AST_RTP_DTLS_CONNECTION_EXISTING, /*!< Endpoint wishes to use existing connection */
};
/*! \brief DTLS fingerprint hashes */
enum ast_rtp_dtls_hash {
- AST_RTP_DTLS_HASH_SHA1, /*!< SHA-1 fingerprint hash */
+ AST_RTP_DTLS_HASH_SHA256, /*!< SHA-256 fingerprint hash */
+ AST_RTP_DTLS_HASH_SHA1, /*!< SHA-1 fingerprint hash */
+};
+
+/*! \brief DTLS verification settings */
+enum ast_rtp_dtls_verify {
+ AST_RTP_DTLS_VERIFY_NONE = 0, /*!< Don't verify anything */
+ AST_RTP_DTLS_VERIFY_FINGERPRINT = (1 << 0), /*!< Verify the fingerprint */
+ AST_RTP_DTLS_VERIFY_CERTIFICATE = (1 << 1), /*!< Verify the certificate */
};
/*! \brief DTLS configuration structure */
struct ast_rtp_dtls_cfg {
unsigned int enabled:1; /*!< Whether DTLS support is enabled or not */
- unsigned int verify:1; /*!< Whether to request and verify a client certificate when acting as server */
unsigned int rekey; /*!< Interval at which to renegotiate and rekey - defaults to 0 (off) */
enum ast_rtp_dtls_setup default_setup; /*!< Default setup type to use for outgoing */
enum ast_srtp_suite suite; /*!< Crypto suite in use */
+ enum ast_rtp_dtls_hash hash; /*!< Hash to use for fingerprint */
+ enum ast_rtp_dtls_verify verify; /*!< What should be verified */
char *certfile; /*!< Certificate file */
char *pvtfile; /*!< Private key file */
char *cipher; /*!< Cipher to use */
@@ -472,8 +489,10 @@ struct ast_rtp_engine_dtls {
void (*set_setup)(struct ast_rtp_instance *instance, enum ast_rtp_dtls_setup setup);
/*! Set the remote fingerprint */
void (*set_fingerprint)(struct ast_rtp_instance *instance, enum ast_rtp_dtls_hash hash, const char *fingerprint);
+ /*! Get the local fingerprint hash type */
+ enum ast_rtp_dtls_hash (*get_fingerprint_hash)(struct ast_rtp_instance *instance);
/*! Get the local fingerprint */
- const char *(*get_fingerprint)(struct ast_rtp_instance *instance, enum ast_rtp_dtls_hash hash);
+ const char *(*get_fingerprint)(struct ast_rtp_instance *instance);
};
/*! Structure that represents an RTP stack (engine) */
diff --git a/include/asterisk/sdp_srtp.h b/include/asterisk/sdp_srtp.h
index 9b92e0e3f0..772c3c38db 100644
--- a/include/asterisk/sdp_srtp.h
+++ b/include/asterisk/sdp_srtp.h
@@ -118,8 +118,10 @@ const char *ast_sdp_srtp_get_attrib(struct ast_sdp_srtp *srtp, int dtls_enabled,
* \param sdes_active Whether the media session is using SDES-SRTP
* \param instance The RTP instance associated with this media session
* \param using_avpf Whether the media session is using early feedback (AVPF)
+ * \param force_avp Force SAVP or SAVPF profile when DTLS is in use
*
* \retval A non-allocated string describing the profile in use (does not need to be freed)
*/
-char *ast_sdp_get_rtp_profile(unsigned int sdes_active, struct ast_rtp_instance *instance, unsigned int using_avpf);
+char *ast_sdp_get_rtp_profile(unsigned int sdes_active, struct ast_rtp_instance *instance, unsigned int using_avpf,
+ unsigned int force_avp);
#endif /* _SDP_CRYPTO_H */
diff --git a/main/rtp_engine.c b/main/rtp_engine.c
index 5174b9cd46..9e3d7d1083 100644
--- a/main/rtp_engine.c
+++ b/main/rtp_engine.c
@@ -1556,7 +1556,17 @@ int ast_rtp_dtls_cfg_parse(struct ast_rtp_dtls_cfg *dtls_cfg, const char *name,
if (!strcasecmp(name, "dtlsenable")) {
dtls_cfg->enabled = ast_true(value) ? 1 : 0;
} else if (!strcasecmp(name, "dtlsverify")) {
- dtls_cfg->verify = ast_true(value) ? 1 : 0;
+ if (!strcasecmp(value, "yes")) {
+ dtls_cfg->verify = AST_RTP_DTLS_VERIFY_FINGERPRINT | AST_RTP_DTLS_VERIFY_CERTIFICATE;
+ } else if (!strcasecmp(value, "fingerprint")) {
+ dtls_cfg->verify = AST_RTP_DTLS_VERIFY_FINGERPRINT;
+ } else if (!strcasecmp(value, "certificate")) {
+ dtls_cfg->verify = AST_RTP_DTLS_VERIFY_CERTIFICATE;
+ } else if (!strcasecmp(value, "no")) {
+ dtls_cfg->verify = AST_RTP_DTLS_VERIFY_NONE;
+ } else {
+ return -1;
+ }
} else if (!strcasecmp(name, "dtlsrekey")) {
if (sscanf(value, "%30u", &dtls_cfg->rekey) != 1) {
return -1;
@@ -1584,6 +1594,12 @@ int ast_rtp_dtls_cfg_parse(struct ast_rtp_dtls_cfg *dtls_cfg, const char *name,
} else if (!strcasecmp(value, "actpass")) {
dtls_cfg->default_setup = AST_RTP_DTLS_SETUP_ACTPASS;
}
+ } else if (!strcasecmp(name, "dtlsfingerprint")) {
+ if (!strcasecmp(value, "sha-256")) {
+ dtls_cfg->hash = AST_RTP_DTLS_HASH_SHA256;
+ } else if (!strcasecmp(value, "sha-1")) {
+ dtls_cfg->hash = AST_RTP_DTLS_HASH_SHA1;
+ }
} else {
return -1;
}
@@ -1597,6 +1613,7 @@ void ast_rtp_dtls_cfg_copy(const struct ast_rtp_dtls_cfg *src_cfg, struct ast_rt
dst_cfg->verify = src_cfg->verify;
dst_cfg->rekey = src_cfg->rekey;
dst_cfg->suite = src_cfg->suite;
+ dst_cfg->hash = src_cfg->hash;
dst_cfg->certfile = ast_strdup(src_cfg->certfile);
dst_cfg->pvtfile = ast_strdup(src_cfg->pvtfile);
dst_cfg->cipher = ast_strdup(src_cfg->cipher);
diff --git a/main/sdp_srtp.c b/main/sdp_srtp.c
index 85dc108a60..cf19b0afdd 100644
--- a/main/sdp_srtp.c
+++ b/main/sdp_srtp.c
@@ -365,12 +365,17 @@ const char *ast_sdp_srtp_get_attrib(struct ast_sdp_srtp *srtp, int dtls_enabled,
return NULL;
}
-char *ast_sdp_get_rtp_profile(unsigned int sdes_active, struct ast_rtp_instance *instance, unsigned int using_avpf)
+char *ast_sdp_get_rtp_profile(unsigned int sdes_active, struct ast_rtp_instance *instance, unsigned int using_avpf,
+ unsigned int force_avp)
{
struct ast_rtp_engine_dtls *dtls;
if ((dtls = ast_rtp_instance_get_dtls(instance)) && dtls->active(instance)) {
- return using_avpf ? "UDP/TLS/RTP/SAVPF" : "UDP/TLS/RTP/SAVP";
+ if (force_avp) {
+ return using_avpf ? "RTP/SAVPF" : "RTP/SAVP";
+ } else {
+ return using_avpf ? "UDP/TLS/RTP/SAVPF" : "UDP/TLS/RTP/SAVP";
+ }
} else {
if (using_avpf) {
return sdes_active ? "RTP/SAVPF" : "RTP/AVPF";
diff --git a/res/res_pjsip.c b/res/res_pjsip.c
index 45b8e7e029..b123a3706b 100644
--- a/res/res_pjsip.c
+++ b/res/res_pjsip.c
@@ -390,6 +390,28 @@
media offers.
+
+ Determines whether res_pjsip will use and enforce usage of AVP,
+ regardless of the RTP profile in use for this endpoint.
+
+ If set to yes, res_pjsip will use the AVP, AVPF, SAVP, or
+ SAVPF RTP profile for all media offers on outbound calls and media updates including
+ those for DTLS-SRTP streams.
+
+ If set to no, res_pjsip will use the respective RTP profile
+ depending on configuration.
+
+
+
+ Determines whether res_pjsip will use the media transport received in the
+ offer SDP in the corresponding answer SDP.
+
+ If set to yes, res_pjsip will use the received media transport.
+
+ If set to no, res_pjsip will use the respective RTP profile
+ depending on configuration.
+
+
Determines whether res_pjsip will use and enforce usage of media encryption
for this endpoint.
diff --git a/res/res_pjsip/pjsip_configuration.c b/res/res_pjsip/pjsip_configuration.c
index b2ce4fe7ea..ccd4949329 100644
--- a/res/res_pjsip/pjsip_configuration.c
+++ b/res/res_pjsip/pjsip_configuration.c
@@ -1686,6 +1686,8 @@ int ast_res_pjsip_initialize_configuration(const struct ast_module_info *ast_mod
ast_sorcery_object_field_register(sip_sorcery, "endpoint", "aggregate_mwi", "yes", OPT_BOOL_T, 1, FLDSET(struct ast_sip_endpoint, subscription.mwi.aggregate));
ast_sorcery_object_field_register_custom(sip_sorcery, "endpoint", "media_encryption", "no", media_encryption_handler, media_encryption_to_str, NULL, 0, 0);
ast_sorcery_object_field_register(sip_sorcery, "endpoint", "use_avpf", "no", OPT_BOOL_T, 1, FLDSET(struct ast_sip_endpoint, media.rtp.use_avpf));
+ ast_sorcery_object_field_register(sip_sorcery, "endpoint", "force_avp", "no", OPT_BOOL_T, 1, FLDSET(struct ast_sip_endpoint, media.rtp.force_avp));
+ ast_sorcery_object_field_register(sip_sorcery, "endpoint", "media_use_received_transport", "no", OPT_BOOL_T, 1, FLDSET(struct ast_sip_endpoint, media.rtp.use_received_transport));
ast_sorcery_object_field_register(sip_sorcery, "endpoint", "one_touch_recording", "no", OPT_BOOL_T, 1, FLDSET(struct ast_sip_endpoint, info.recording.enabled));
ast_sorcery_object_field_register(sip_sorcery, "endpoint", "inband_progress", "no", OPT_BOOL_T, 1, FLDSET(struct ast_sip_endpoint, inband_progress));
ast_sorcery_object_field_register_custom(sip_sorcery, "endpoint", "call_group", "", group_handler, callgroup_to_str, NULL, 0, 0);
diff --git a/res/res_pjsip_sdp_rtp.c b/res/res_pjsip_sdp_rtp.c
index 59fa647d9c..b7e1eef3dd 100644
--- a/res/res_pjsip_sdp_rtp.c
+++ b/res/res_pjsip_sdp_rtp.c
@@ -390,14 +390,26 @@ static void process_ice_attributes(struct ast_sip_session *session, struct ast_s
return;
}
- if ((attr = pjmedia_sdp_media_find_attr2(remote_stream, "ice-ufrag", NULL))) {
+ attr = pjmedia_sdp_media_find_attr2(remote_stream, "ice-ufrag", NULL);
+ if (!attr) {
+ attr = pjmedia_sdp_attr_find2(remote->attr_count, remote->attr, "ice-ufrag", NULL);
+ }
+ if (attr) {
ast_copy_pj_str(attr_value, (pj_str_t*)&attr->value, sizeof(attr_value));
ice->set_authentication(session_media->rtp, attr_value, NULL);
+ } else {
+ return;
}
- if ((attr = pjmedia_sdp_media_find_attr2(remote_stream, "ice-pwd", NULL))) {
+ attr = pjmedia_sdp_media_find_attr2(remote_stream, "ice-pwd", NULL);
+ if (!attr) {
+ pjmedia_sdp_attr_find2(remote->attr_count, remote->attr, "ice-pwd", NULL);
+ }
+ if (attr) {
ast_copy_pj_str(attr_value, (pj_str_t*)&attr->value, sizeof(attr_value));
ice->set_authentication(session_media->rtp, NULL, attr_value);
+ } else {
+ return;
}
if (pjmedia_sdp_media_find_attr2(remote_stream, "ice-lite", NULL)) {
@@ -452,6 +464,8 @@ static void process_ice_attributes(struct ast_sip_session *session, struct ast_s
ice->add_remote_candidate(session_media->rtp, &candidate);
}
+ ice->set_role(session_media->rtp, pjmedia_sdp_neg_was_answer_remote(session->inv_session->neg) == PJ_TRUE ?
+ AST_RTP_ICE_ROLE_CONTROLLING : AST_RTP_ICE_ROLE_CONTROLLED);
ice->start(session_media->rtp);
}
@@ -529,6 +543,10 @@ static enum ast_sip_session_media_encryption check_endpoint_media_transport(
return incoming_encryption;
}
+ if (endpoint->media.rtp.force_avp) {
+ return incoming_encryption;
+ }
+
return AST_SIP_MEDIA_TRANSPORT_INVALID;
}
@@ -615,13 +633,15 @@ static int parse_dtls_attrib(struct ast_sip_session_media *session_media,
ast_log(LOG_WARNING, "Unsupported connection attribute value '%*s'\n", (int)value->slen, value->ptr);
}
} else if (!pj_strcmp2(&attr->name, "fingerprint")) {
- char hash_value[256], hash[6];
+ char hash_value[256], hash[32];
char fingerprint_text[value->slen + 1];
ast_copy_pj_str(fingerprint_text, value, sizeof(fingerprint_text));
- if (sscanf(fingerprint_text, "%5s %255s", hash, hash_value) == 2) {
+ if (sscanf(fingerprint_text, "%31s %255s", hash, hash_value) == 2) {
if (!strcasecmp(hash, "sha-1")) {
dtls->set_fingerprint(session_media->rtp, AST_RTP_DTLS_HASH_SHA1, hash_value);
+ } else if (!strcasecmp(hash, "sha-256")) {
+ dtls->set_fingerprint(session_media->rtp, AST_RTP_DTLS_HASH_SHA256, hash_value);
} else {
ast_log(LOG_WARNING, "Unsupported fingerprint hash type '%s'\n",
hash);
@@ -710,7 +730,8 @@ static int negotiate_incoming_sdp_stream(struct ast_sip_session *session, struct
}
/* Ensure incoming transport is compatible with the endpoint's configuration */
- if (check_endpoint_media_transport(session->endpoint, stream) == AST_SIP_MEDIA_TRANSPORT_INVALID) {
+ if (!session->endpoint->media.rtp.use_received_transport &&
+ check_endpoint_media_transport(session->endpoint, stream) == AST_SIP_MEDIA_TRANSPORT_INVALID) {
return -1;
}
@@ -727,6 +748,10 @@ static int negotiate_incoming_sdp_stream(struct ast_sip_session *session, struct
return -1;
}
+ if (session->endpoint->media.rtp.use_received_transport) {
+ pj_strdup(session->inv_session->pool, &session_media->transport, &stream->desc.transport);
+ }
+
if (setup_media_encryption(session, session_media, stream)) {
return -1;
}
@@ -748,6 +773,7 @@ static int add_crypto_to_stream(struct ast_sip_session *session,
{
pj_str_t stmp;
pjmedia_sdp_attr *attr;
+ enum ast_rtp_dtls_hash hash;
const char *crypto_attribute;
struct ast_rtp_engine_dtls *dtls;
static const pj_str_t STR_NEW = { "new", 3 };
@@ -824,13 +850,19 @@ static int add_crypto_to_stream(struct ast_sip_session *session,
break;
}
- if ((crypto_attribute = dtls->get_fingerprint(session_media->rtp, AST_RTP_DTLS_HASH_SHA1))) {
+ hash = dtls->get_fingerprint_hash(session_media->rtp);
+ crypto_attribute = dtls->get_fingerprint(session_media->rtp);
+ if (crypto_attribute && (hash == AST_RTP_DTLS_HASH_SHA1 || hash == AST_RTP_DTLS_HASH_SHA256)) {
RAII_VAR(struct ast_str *, fingerprint, ast_str_create(64), ast_free);
if (!fingerprint) {
return -1;
}
- ast_str_set(&fingerprint, 0, "SHA-1 %s", crypto_attribute);
+ if (hash == AST_RTP_DTLS_HASH_SHA1) {
+ ast_str_set(&fingerprint, 0, "SHA-1 %s", crypto_attribute);
+ } else {
+ ast_str_set(&fingerprint, 0, "SHA-256 %s", crypto_attribute);
+ }
attr = pjmedia_sdp_attr_create(pool, "fingerprint", pj_cstr(&stmp, ast_str_buffer(fingerprint)));
media->attr[media->attr_count++] = attr;
@@ -889,9 +921,14 @@ static int create_outgoing_sdp_stream(struct ast_sip_session *session, struct as
}
media->desc.media = pj_str(session_media->stream_type);
- media->desc.transport = pj_str(ast_sdp_get_rtp_profile(
- session->endpoint->media.rtp.encryption == AST_SIP_MEDIA_ENCRYPT_SDES,
- session_media->rtp, session->endpoint->media.rtp.use_avpf));
+ if (session->endpoint->media.rtp.use_received_transport && pj_strlen(&session_media->transport)) {
+ media->desc.transport = session_media->transport;
+ } else {
+ media->desc.transport = pj_str(ast_sdp_get_rtp_profile(
+ session->endpoint->media.rtp.encryption == AST_SIP_MEDIA_ENCRYPT_SDES,
+ session_media->rtp, session->endpoint->media.rtp.use_avpf,
+ session->endpoint->media.rtp.force_avp));
+ }
/* Add connection level details */
if (direct_media_enabled) {
@@ -1033,7 +1070,8 @@ static int apply_negotiated_sdp_stream(struct ast_sip_session *session, struct a
}
/* Ensure incoming transport is compatible with the endpoint's configuration */
- if (check_endpoint_media_transport(session->endpoint, remote_stream) == AST_SIP_MEDIA_TRANSPORT_INVALID) {
+ if (!session->endpoint->media.rtp.use_received_transport &&
+ check_endpoint_media_transport(session->endpoint, remote_stream) == AST_SIP_MEDIA_TRANSPORT_INVALID) {
return -1;
}
diff --git a/res/res_rtp_asterisk.c b/res/res_rtp_asterisk.c
index 97c09a3a93..a50a808871 100644
--- a/res/res_rtp_asterisk.c
+++ b/res/res_rtp_asterisk.c
@@ -181,6 +181,16 @@ struct rtp_learning_info {
int packets; /*!< The number of remaining packets before the source is accepted */
};
+#ifdef HAVE_OPENSSL_SRTP
+struct dtls_details {
+ SSL *ssl; /*!< SSL session */
+ BIO *read_bio; /*!< Memory buffer for reading */
+ BIO *write_bio; /*!< Memory buffer for writing */
+ enum ast_rtp_dtls_setup dtls_setup; /*!< Current setup state */
+ enum ast_rtp_dtls_connection connection; /*!< Whether this is a new or existing connection */
+};
+#endif
+
/*! \brief RTP session description */
struct ast_rtp {
int s;
@@ -280,19 +290,17 @@ struct ast_rtp {
#ifdef HAVE_OPENSSL_SRTP
SSL_CTX *ssl_ctx; /*!< SSL context */
- SSL *ssl; /*!< SSL session */
- BIO *read_bio; /*!< Memory buffer for reading */
- BIO *write_bio; /*!< Memory buffer for writing */
ast_mutex_t dtls_timer_lock; /*!< Lock for synchronization purposes */
- enum ast_rtp_dtls_setup dtls_setup; /*!< Current setup state */
+ enum ast_rtp_dtls_verify dtls_verify; /*!< What to verify */
enum ast_srtp_suite suite; /*!< SRTP crypto suite */
+ enum ast_rtp_dtls_hash local_hash; /*!< Local hash used for the fingerprint */
char local_fingerprint[160]; /*!< Fingerprint of our certificate */
+ enum ast_rtp_dtls_hash remote_hash; /*!< Remote hash used for the fingerprint */
unsigned char remote_fingerprint[EVP_MAX_MD_SIZE]; /*!< Fingerprint of the peer certificate */
- enum ast_rtp_dtls_connection connection; /*!< Whether this is a new or existing connection */
- unsigned int dtls_failure:1; /*!< Failure occurred during DTLS negotiation */
unsigned int rekey; /*!< Interval at which to renegotiate and rekey */
int rekeyid; /*!< Scheduled item id for rekeying */
int dtlstimerid; /*!< Scheduled item id for DTLS retransmission for RTP */
+ struct dtls_details dtls; /*!< DTLS state information */
#endif
};
@@ -358,6 +366,10 @@ struct ast_rtcp {
/* VP8: sequence number for the RTCP FIR FCI */
int firseq;
+
+#ifdef HAVE_OPENSSL_SRTP
+ struct dtls_details dtls; /*!< DTLS state information */
+#endif
};
struct rtp_red {
@@ -404,7 +416,7 @@ static int ast_rtp_sendcng(struct ast_rtp_instance *instance, int level);
#ifdef HAVE_OPENSSL_SRTP
static int ast_rtp_activate(struct ast_rtp_instance *instance);
-static void dtls_srtp_check_pending(struct ast_rtp_instance *instance, struct ast_rtp *rtp);
+static void dtls_srtp_check_pending(struct ast_rtp_instance *instance, struct ast_rtp *rtp, int rtcp);
#endif
static int __rtp_sendto(struct ast_rtp_instance *instance, void *buf, size_t size, int flags, struct ast_sockaddr *sa, int rtcp, int *ice, int use_srtp);
@@ -542,9 +554,18 @@ static void ast_rtp_ice_stop(struct ast_rtp_instance *instance)
static int ice_reset_session(struct ast_rtp_instance *instance)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+ pj_ice_sess_role role = rtp->ice->role;
+ int res;
ast_rtp_ice_stop(instance);
- return ice_create(instance, &rtp->ice_original_rtp_addr, rtp->ice_port, 1);
+
+ res = ice_create(instance, &rtp->ice_original_rtp_addr, rtp->ice_port, 1);
+ if (!res) {
+ /* Preserve the role that the old ICE session used */
+ pj_ice_sess_change_role(rtp->ice, role);
+ }
+
+ return res;
}
static int ice_candidates_compare(struct ao2_container *left, struct ao2_container *right)
@@ -701,6 +722,20 @@ static void ast_rtp_ice_lite(struct ast_rtp_instance *instance)
pj_ice_sess_change_role(rtp->ice, PJ_ICE_SESS_ROLE_CONTROLLING);
}
+static void ast_rtp_ice_set_role(struct ast_rtp_instance *instance, enum ast_rtp_ice_role role)
+{
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+
+ if (!rtp->ice) {
+ return;
+ }
+
+ pj_thread_register_check();
+
+ pj_ice_sess_change_role(rtp->ice, role == AST_RTP_ICE_ROLE_CONTROLLED ?
+ PJ_ICE_SESS_ROLE_CONTROLLED : PJ_ICE_SESS_ROLE_CONTROLLING);
+}
+
static void ast_rtp_ice_add_cand(struct ast_rtp *rtp, unsigned comp_id, unsigned transport_id, pj_ice_cand_type type, pj_uint16_t local_pref,
const pj_sockaddr_t *addr, const pj_sockaddr_t *base_addr, const pj_sockaddr_t *rel_addr, int addr_len)
{
@@ -781,25 +816,83 @@ static struct ast_rtp_engine_ice ast_rtp_ice = {
.get_password = ast_rtp_ice_get_password,
.get_local_candidates = ast_rtp_ice_get_local_candidates,
.ice_lite = ast_rtp_ice_lite,
+ .set_role = ast_rtp_ice_set_role,
};
#endif
#ifdef HAVE_OPENSSL_SRTP
-static void dtls_info_callback(const SSL *ssl, int where, int ret)
+static int dtls_verify_callback(int preverify_ok, X509_STORE_CTX *ctx)
{
- struct ast_rtp *rtp = SSL_get_ex_data(ssl, 0);
+ /* We don't want to actually verify the certificate so just accept what they have provided */
+ return 1;
+}
- /* We only care about alerts */
- if (!(where & SSL_CB_ALERT)) {
- return;
+static int dtls_details_initialize(struct dtls_details *dtls, SSL_CTX *ssl_ctx,
+ enum ast_rtp_dtls_setup setup)
+{
+ dtls->dtls_setup = setup;
+
+ if (!(dtls->ssl = SSL_new(ssl_ctx))) {
+ ast_log(LOG_ERROR, "Failed to allocate memory for SSL\n");
+ goto error;
}
- rtp->dtls_failure = 1;
+ if (!(dtls->read_bio = BIO_new(BIO_s_mem()))) {
+ ast_log(LOG_ERROR, "Failed to allocate memory for inbound SSL traffic\n");
+ goto error;
+ }
+ BIO_set_mem_eof_return(dtls->read_bio, -1);
+
+ if (!(dtls->write_bio = BIO_new(BIO_s_mem()))) {
+ ast_log(LOG_ERROR, "Failed to allocate memory for outbound SSL traffic\n");
+ goto error;
+ }
+ BIO_set_mem_eof_return(dtls->write_bio, -1);
+
+ SSL_set_bio(dtls->ssl, dtls->read_bio, dtls->write_bio);
+
+ if (dtls->dtls_setup == AST_RTP_DTLS_SETUP_PASSIVE) {
+ SSL_set_accept_state(dtls->ssl);
+ } else {
+ SSL_set_connect_state(dtls->ssl);
+ }
+ dtls->connection = AST_RTP_DTLS_CONNECTION_NEW;
+
+ return 0;
+
+error:
+ if (dtls->read_bio) {
+ BIO_free(dtls->read_bio);
+ dtls->read_bio = NULL;
+ }
+
+ if (dtls->write_bio) {
+ BIO_free(dtls->write_bio);
+ dtls->write_bio = NULL;
+ }
+
+ if (dtls->ssl) {
+ SSL_free(dtls->ssl);
+ dtls->ssl = NULL;
+ }
+ return -1;
+}
+
+static int dtls_setup_rtcp(struct ast_rtp_instance *instance)
+{
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+
+ if (!rtp->ssl_ctx || !rtp->rtcp) {
+ return 0;
+ }
+
+ return dtls_details_initialize(&rtp->rtcp->dtls, rtp->ssl_ctx, rtp->dtls.dtls_setup);
}
static int ast_rtp_dtls_set_configuration(struct ast_rtp_instance *instance, const struct ast_rtp_dtls_cfg *dtls_cfg)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+ int res;
if (!dtls_cfg->enabled) {
return 0;
@@ -813,7 +906,11 @@ static int ast_rtp_dtls_set_configuration(struct ast_rtp_instance *instance, con
return -1;
}
- SSL_CTX_set_verify(rtp->ssl_ctx, dtls_cfg->verify ? SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT : SSL_VERIFY_NONE, NULL);
+ rtp->dtls_verify = dtls_cfg->verify;
+
+ SSL_CTX_set_verify(rtp->ssl_ctx, (rtp->dtls_verify & AST_RTP_DTLS_VERIFY_FINGERPRINT) || (rtp->dtls_verify & AST_RTP_DTLS_VERIFY_CERTIFICATE) ?
+ SSL_VERIFY_PEER | SSL_VERIFY_FAIL_IF_NO_PEER_CERT : SSL_VERIFY_NONE, !(rtp->dtls_verify & AST_RTP_DTLS_VERIFY_CERTIFICATE) ?
+ dtls_verify_callback : NULL);
if (dtls_cfg->suite == AST_AES_CM_128_HMAC_SHA1_80) {
SSL_CTX_set_tlsext_use_srtp(rtp->ssl_ctx, "SRTP_AES128_CM_SHA1_80");
@@ -821,13 +918,16 @@ static int ast_rtp_dtls_set_configuration(struct ast_rtp_instance *instance, con
SSL_CTX_set_tlsext_use_srtp(rtp->ssl_ctx, "SRTP_AES128_CM_SHA1_32");
} else {
ast_log(LOG_ERROR, "Unsupported suite specified for DTLS-SRTP on RTP instance '%p'\n", instance);
- goto error;
+ return -1;
}
+ rtp->local_hash = dtls_cfg->hash;
+
if (!ast_strlen_zero(dtls_cfg->certfile)) {
char *private = ast_strlen_zero(dtls_cfg->pvtfile) ? dtls_cfg->certfile : dtls_cfg->pvtfile;
BIO *certbio;
X509 *cert;
+ const EVP_MD *type;
unsigned int size, i;
unsigned char fingerprint[EVP_MAX_MD_SIZE];
char *local_fingerprint = rtp->local_fingerprint;
@@ -835,30 +935,40 @@ static int ast_rtp_dtls_set_configuration(struct ast_rtp_instance *instance, con
if (!SSL_CTX_use_certificate_file(rtp->ssl_ctx, dtls_cfg->certfile, SSL_FILETYPE_PEM)) {
ast_log(LOG_ERROR, "Specified certificate file '%s' for RTP instance '%p' could not be used\n",
dtls_cfg->certfile, instance);
- goto error;
+ return -1;
}
if (!SSL_CTX_use_PrivateKey_file(rtp->ssl_ctx, private, SSL_FILETYPE_PEM) ||
!SSL_CTX_check_private_key(rtp->ssl_ctx)) {
ast_log(LOG_ERROR, "Specified private key file '%s' for RTP instance '%p' could not be used\n",
private, instance);
- goto error;
+ return -1;
}
if (!(certbio = BIO_new(BIO_s_file()))) {
ast_log(LOG_ERROR, "Failed to allocate memory for certificate fingerprinting on RTP instance '%p'\n",
instance);
- goto error;
+ return -1;
+ }
+
+ if (rtp->local_hash == AST_RTP_DTLS_HASH_SHA1) {
+ type = EVP_sha1();
+ } else if (rtp->local_hash == AST_RTP_DTLS_HASH_SHA256) {
+ type = EVP_sha256();
+ } else {
+ ast_log(LOG_ERROR, "Unsupported fingerprint hash type on RTP instance '%p'\n",
+ instance);
+ return -1;
}
if (!BIO_read_filename(certbio, dtls_cfg->certfile) ||
!(cert = PEM_read_bio_X509(certbio, NULL, 0, NULL)) ||
- !X509_digest(cert, EVP_sha1(), fingerprint, &size) ||
+ !X509_digest(cert, type, fingerprint, &size) ||
!size) {
ast_log(LOG_ERROR, "Could not produce fingerprint from certificate '%s' for RTP instance '%p'\n",
dtls_cfg->certfile, instance);
BIO_free_all(certbio);
- goto error;
+ return -1;
}
for (i = 0; i < size; i++) {
@@ -875,7 +985,7 @@ static int ast_rtp_dtls_set_configuration(struct ast_rtp_instance *instance, con
if (!SSL_CTX_set_cipher_list(rtp->ssl_ctx, dtls_cfg->cipher)) {
ast_log(LOG_ERROR, "Invalid cipher specified in cipher list '%s' for RTP instance '%p'\n",
dtls_cfg->cipher, instance);
- goto error;
+ return -1;
}
}
@@ -883,69 +993,19 @@ static int ast_rtp_dtls_set_configuration(struct ast_rtp_instance *instance, con
if (!SSL_CTX_load_verify_locations(rtp->ssl_ctx, S_OR(dtls_cfg->cafile, NULL), S_OR(dtls_cfg->capath, NULL))) {
ast_log(LOG_ERROR, "Invalid certificate authority file '%s' or path '%s' specified for RTP instance '%p'\n",
S_OR(dtls_cfg->cafile, ""), S_OR(dtls_cfg->capath, ""), instance);
- goto error;
+ return -1;
}
}
rtp->rekey = dtls_cfg->rekey;
- rtp->dtls_setup = dtls_cfg->default_setup;
rtp->suite = dtls_cfg->suite;
- if (!(rtp->ssl = SSL_new(rtp->ssl_ctx))) {
- ast_log(LOG_ERROR, "Failed to allocate memory for SSL context on RTP instance '%p'\n",
- instance);
- goto error;
+ res = dtls_details_initialize(&rtp->dtls, rtp->ssl_ctx, dtls_cfg->default_setup);
+ if (!res) {
+ dtls_setup_rtcp(instance);
}
- SSL_set_ex_data(rtp->ssl, 0, rtp);
- SSL_set_info_callback(rtp->ssl, dtls_info_callback);
-
- if (!(rtp->read_bio = BIO_new(BIO_s_mem()))) {
- ast_log(LOG_ERROR, "Failed to allocate memory for inbound SSL traffic on RTP instance '%p'\n",
- instance);
- goto error;
- }
- BIO_set_mem_eof_return(rtp->read_bio, -1);
-
- if (!(rtp->write_bio = BIO_new(BIO_s_mem()))) {
- ast_log(LOG_ERROR, "Failed to allocate memory for outbound SSL traffic on RTP instance '%p'\n",
- instance);
- goto error;
- }
- BIO_set_mem_eof_return(rtp->write_bio, -1);
-
- SSL_set_bio(rtp->ssl, rtp->read_bio, rtp->write_bio);
-
- if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_PASSIVE) {
- SSL_set_accept_state(rtp->ssl);
- } else {
- SSL_set_connect_state(rtp->ssl);
- }
-
- rtp->connection = AST_RTP_DTLS_CONNECTION_NEW;
-
- return 0;
-
-error:
- if (rtp->read_bio) {
- BIO_free(rtp->read_bio);
- rtp->read_bio = NULL;
- }
-
- if (rtp->write_bio) {
- BIO_free(rtp->write_bio);
- rtp->write_bio = NULL;
- }
-
- if (rtp->ssl) {
- SSL_free(rtp->ssl);
- rtp->ssl = NULL;
- }
-
- SSL_CTX_free(rtp->ssl_ctx);
- rtp->ssl_ctx = NULL;
-
- return -1;
+ return res;
}
static int ast_rtp_dtls_active(struct ast_rtp_instance *instance)
@@ -964,9 +1024,14 @@ static void ast_rtp_dtls_stop(struct ast_rtp_instance *instance)
rtp->ssl_ctx = NULL;
}
- if (rtp->ssl) {
- SSL_free(rtp->ssl);
- rtp->ssl = NULL;
+ if (rtp->dtls.ssl) {
+ SSL_free(rtp->dtls.ssl);
+ rtp->dtls.ssl = NULL;
+ }
+
+ if (rtp->rtcp && rtp->rtcp->dtls.ssl) {
+ SSL_free(rtp->rtcp->dtls.ssl);
+ rtp->rtcp->dtls.ssl = NULL;
}
}
@@ -974,49 +1039,50 @@ static void ast_rtp_dtls_reset(struct ast_rtp_instance *instance)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- /* If the SSL session is not yet finalized don't bother resetting */
- if (!SSL_is_init_finished(rtp->ssl)) {
- return;
+ if (SSL_is_init_finished(rtp->dtls.ssl)) {
+ SSL_shutdown(rtp->dtls.ssl);
+ rtp->dtls.connection = AST_RTP_DTLS_CONNECTION_NEW;
}
- SSL_shutdown(rtp->ssl);
- rtp->connection = AST_RTP_DTLS_CONNECTION_NEW;
+ if (rtp->rtcp && SSL_is_init_finished(rtp->rtcp->dtls.ssl)) {
+ SSL_shutdown(rtp->rtcp->dtls.ssl);
+ rtp->rtcp->dtls.connection = AST_RTP_DTLS_CONNECTION_NEW;
+ }
}
static enum ast_rtp_dtls_connection ast_rtp_dtls_get_connection(struct ast_rtp_instance *instance)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- return rtp->connection;
+ return rtp->dtls.connection;
}
static enum ast_rtp_dtls_setup ast_rtp_dtls_get_setup(struct ast_rtp_instance *instance)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- return rtp->dtls_setup;
+ return rtp->dtls.dtls_setup;
}
-static void ast_rtp_dtls_set_setup(struct ast_rtp_instance *instance, enum ast_rtp_dtls_setup setup)
+static void dtls_set_setup(enum ast_rtp_dtls_setup *dtls_setup, enum ast_rtp_dtls_setup setup, SSL *ssl)
{
- struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- enum ast_rtp_dtls_setup old = rtp->dtls_setup;
+ enum ast_rtp_dtls_setup old = *dtls_setup;
switch (setup) {
case AST_RTP_DTLS_SETUP_ACTIVE:
- rtp->dtls_setup = AST_RTP_DTLS_SETUP_PASSIVE;
+ *dtls_setup = AST_RTP_DTLS_SETUP_PASSIVE;
break;
case AST_RTP_DTLS_SETUP_PASSIVE:
- rtp->dtls_setup = AST_RTP_DTLS_SETUP_ACTIVE;
+ *dtls_setup = AST_RTP_DTLS_SETUP_ACTIVE;
break;
case AST_RTP_DTLS_SETUP_ACTPASS:
/* We can't respond to an actpass setup with actpass ourselves... so respond with active, as we can initiate connections */
- if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_ACTPASS) {
- rtp->dtls_setup = AST_RTP_DTLS_SETUP_ACTIVE;
+ if (*dtls_setup == AST_RTP_DTLS_SETUP_ACTPASS) {
+ *dtls_setup = AST_RTP_DTLS_SETUP_ACTIVE;
}
break;
case AST_RTP_DTLS_SETUP_HOLDCONN:
- rtp->dtls_setup = AST_RTP_DTLS_SETUP_HOLDCONN;
+ *dtls_setup = AST_RTP_DTLS_SETUP_HOLDCONN;
break;
default:
/* This should never occur... if it does exit early as we don't know what state things are in */
@@ -1024,46 +1090,64 @@ static void ast_rtp_dtls_set_setup(struct ast_rtp_instance *instance, enum ast_r
}
/* If the setup state did not change we go on as if nothing happened */
- if (old == rtp->dtls_setup) {
+ if (old == *dtls_setup) {
return;
}
/* If they don't want us to establish a connection wait until later */
- if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_HOLDCONN) {
+ if (*dtls_setup == AST_RTP_DTLS_SETUP_HOLDCONN) {
return;
}
- if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_ACTIVE) {
- SSL_set_connect_state(rtp->ssl);
- } else if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_PASSIVE) {
- SSL_set_accept_state(rtp->ssl);
+ if (*dtls_setup == AST_RTP_DTLS_SETUP_ACTIVE) {
+ SSL_set_connect_state(ssl);
+ } else if (*dtls_setup == AST_RTP_DTLS_SETUP_PASSIVE) {
+ SSL_set_accept_state(ssl);
} else {
return;
}
}
+static void ast_rtp_dtls_set_setup(struct ast_rtp_instance *instance, enum ast_rtp_dtls_setup setup)
+{
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+
+ if (rtp->dtls.ssl) {
+ dtls_set_setup(&rtp->dtls.dtls_setup, setup, rtp->dtls.ssl);
+ }
+
+ if (rtp->rtcp && rtp->rtcp->dtls.ssl) {
+ dtls_set_setup(&rtp->rtcp->dtls.dtls_setup, setup, rtp->rtcp->dtls.ssl);
+ }
+}
+
static void ast_rtp_dtls_set_fingerprint(struct ast_rtp_instance *instance, enum ast_rtp_dtls_hash hash, const char *fingerprint)
{
char *tmp = ast_strdupa(fingerprint), *value;
int pos = 0;
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- if (hash != AST_RTP_DTLS_HASH_SHA1) {
+ if (hash != AST_RTP_DTLS_HASH_SHA1 && hash != AST_RTP_DTLS_HASH_SHA256) {
return;
}
+ rtp->remote_hash = hash;
+
while ((value = strsep(&tmp, ":")) && (pos != (EVP_MAX_MD_SIZE - 1))) {
sscanf(value, "%02x", (unsigned int*)&rtp->remote_fingerprint[pos++]);
}
}
-static const char *ast_rtp_dtls_get_fingerprint(struct ast_rtp_instance *instance, enum ast_rtp_dtls_hash hash)
+static enum ast_rtp_dtls_hash ast_rtp_dtls_get_fingerprint_hash(struct ast_rtp_instance *instance)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- if (hash != AST_RTP_DTLS_HASH_SHA1) {
- return NULL;
- }
+ return rtp->local_hash;
+}
+
+static const char *ast_rtp_dtls_get_fingerprint(struct ast_rtp_instance *instance)
+{
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
return rtp->local_fingerprint;
}
@@ -1078,6 +1162,7 @@ static struct ast_rtp_engine_dtls ast_rtp_dtls = {
.get_setup = ast_rtp_dtls_get_setup,
.set_setup = ast_rtp_dtls_set_setup,
.set_fingerprint = ast_rtp_dtls_set_fingerprint,
+ .get_fingerprint_hash = ast_rtp_dtls_get_fingerprint_hash,
.get_fingerprint = ast_rtp_dtls_get_fingerprint,
};
@@ -1121,9 +1206,41 @@ static struct ast_rtp_engine asterisk_rtp_engine = {
#ifdef HAVE_PJPROJECT
static void rtp_learning_seq_init(struct rtp_learning_info *info, uint16_t seq);
+#ifdef HAVE_OPENSSL_SRTP
+static void dtls_perform_handshake(struct ast_rtp_instance *instance, struct dtls_details *dtls, int rtcp)
+{
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+
+ if (!dtls->ssl) {
+ return;
+ }
+
+ if (SSL_is_init_finished(dtls->ssl)) {
+ SSL_clear(dtls->ssl);
+ if (dtls->dtls_setup == AST_RTP_DTLS_SETUP_PASSIVE) {
+ SSL_set_accept_state(dtls->ssl);
+ } else {
+ SSL_set_connect_state(dtls->ssl);
+ }
+ dtls->connection = AST_RTP_DTLS_CONNECTION_NEW;
+ }
+ SSL_do_handshake(dtls->ssl);
+ dtls_srtp_check_pending(instance, rtp, rtcp);
+}
+#endif
+
static void ast_rtp_on_ice_complete(pj_ice_sess *ice, pj_status_t status)
{
- struct ast_rtp *rtp = ice->user_data;
+ struct ast_rtp_instance *instance = ice->user_data;
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
+
+#ifdef HAVE_OPENSSL_SRTP
+ dtls_perform_handshake(instance, &rtp->dtls, 0);
+
+ if (rtp->rtcp) {
+ dtls_perform_handshake(instance, &rtp->rtcp->dtls, 1);
+ }
+#endif
if (!strictrtp) {
return;
@@ -1135,7 +1252,8 @@ static void ast_rtp_on_ice_complete(pj_ice_sess *ice, pj_status_t status)
static void ast_rtp_on_ice_rx_data(pj_ice_sess *ice, unsigned comp_id, unsigned transport_id, void *pkt, pj_size_t size, const pj_sockaddr_t *src_addr, unsigned src_addr_len)
{
- struct ast_rtp *rtp = ice->user_data;
+ struct ast_rtp_instance *instance = ice->user_data;
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
/* Instead of handling the packet here (which really doesn't work with our architecture) we set a bit to indicate that it should be handled after pj_ice_sess_on_rx_pkt
* returns */
@@ -1144,7 +1262,8 @@ static void ast_rtp_on_ice_rx_data(pj_ice_sess *ice, unsigned comp_id, unsigned
static pj_status_t ast_rtp_on_ice_tx_pkt(pj_ice_sess *ice, unsigned comp_id, unsigned transport_id, const void *pkt, pj_size_t size, const pj_sockaddr_t *dst_addr, unsigned dst_addr_len)
{
- struct ast_rtp *rtp = ice->user_data;
+ struct ast_rtp_instance *instance = ice->user_data;
+ struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
pj_status_t status = PJ_EINVALIDOP;
pj_ssize_t _size = (pj_ssize_t)size;
@@ -1345,36 +1464,51 @@ static int dtls_srtp_handle_timeout(const void *data)
rtp->dtlstimerid = -1;
ast_mutex_unlock(&rtp->dtls_timer_lock);
- if (rtp->ssl) {
- DTLSv1_handle_timeout(rtp->ssl);
+ if (rtp->dtls.ssl && !SSL_is_init_finished(rtp->dtls.ssl)) {
+ DTLSv1_handle_timeout(rtp->dtls.ssl);
}
+ dtls_srtp_check_pending(instance, rtp, 0);
- dtls_srtp_check_pending(instance, rtp);
+ if (rtp->rtcp && rtp->rtcp->dtls.ssl && !SSL_is_init_finished(rtp->rtcp->dtls.ssl)) {
+ DTLSv1_handle_timeout(rtp->rtcp->dtls.ssl);
+ }
+ dtls_srtp_check_pending(instance, rtp, 1);
ao2_ref(instance, -1);
return 0;
}
-static void dtls_srtp_check_pending(struct ast_rtp_instance *instance, struct ast_rtp *rtp)
+static void dtls_srtp_check_pending(struct ast_rtp_instance *instance, struct ast_rtp *rtp, int rtcp)
{
- size_t pending = BIO_ctrl_pending(rtp->write_bio);
+ struct dtls_details *dtls = !rtcp ? &rtp->dtls : &rtp->rtcp->dtls;
+ size_t pending;
struct timeval dtls_timeout; /* timeout on DTLS */
+ if (!dtls->ssl || !dtls->write_bio) {
+ return;
+ }
+
+ pending = BIO_ctrl_pending(dtls->write_bio);
+
if (pending > 0) {
char outgoing[pending];
size_t out;
struct ast_sockaddr remote_address = { {0, } };
int ice;
- ast_rtp_instance_get_remote_address(instance, &remote_address);
+ if (!rtcp) {
+ ast_rtp_instance_get_remote_address(instance, &remote_address);
+ } else {
+ ast_sockaddr_copy(&remote_address, &rtp->rtcp->them);
+ }
/* If we do not yet know an address to send this to defer it until we do */
if (ast_sockaddr_isnull(&remote_address)) {
return;
}
- out = BIO_read(rtp->write_bio, outgoing, sizeof(outgoing));
+ out = BIO_read(dtls->write_bio, outgoing, sizeof(outgoing));
/* Stop existing DTLS timer if running */
ast_mutex_lock(&rtp->dtls_timer_lock);
@@ -1383,7 +1517,7 @@ static void dtls_srtp_check_pending(struct ast_rtp_instance *instance, struct as
rtp->dtlstimerid = -1;
}
- if (DTLSv1_get_timeout(rtp->ssl, &dtls_timeout)) {
+ if (DTLSv1_get_timeout(dtls->ssl, &dtls_timeout)) {
int timeout = dtls_timeout.tv_sec * 1000 + dtls_timeout.tv_usec / 1000;
ao2_ref(instance, +1);
if ((rtp->dtlstimerid = ast_sched_add(rtp->sched, timeout, dtls_srtp_handle_timeout, instance)) < 0) {
@@ -1393,7 +1527,7 @@ static void dtls_srtp_check_pending(struct ast_rtp_instance *instance, struct as
}
ast_mutex_unlock(&rtp->dtls_timer_lock);
- __rtp_sendto(instance, outgoing, out, 0, &remote_address, 0, &ice, 0);
+ __rtp_sendto(instance, outgoing, out, 0, &remote_address, rtcp, &ice, 0);
}
}
@@ -1402,9 +1536,15 @@ static int dtls_srtp_renegotiate(const void *data)
struct ast_rtp_instance *instance = (struct ast_rtp_instance *)data;
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- SSL_renegotiate(rtp->ssl);
- SSL_do_handshake(rtp->ssl);
- dtls_srtp_check_pending(instance, rtp);
+ SSL_renegotiate(rtp->dtls.ssl);
+ SSL_do_handshake(rtp->dtls.ssl);
+ dtls_srtp_check_pending(instance, rtp, 0);
+
+ if (rtp->rtcp && rtp->rtcp->dtls.ssl) {
+ SSL_renegotiate(rtp->rtcp->dtls.ssl);
+ SSL_do_handshake(rtp->rtcp->dtls.ssl);
+ dtls_srtp_check_pending(instance, rtp, 1);
+ }
rtp->rekeyid = -1;
ao2_ref(instance, -1);
@@ -1420,20 +1560,30 @@ static int dtls_srtp_setup(struct ast_rtp *rtp, struct ast_srtp *srtp, struct as
struct ast_rtp_instance_stats stats = { 0, };
/* If a fingerprint is present in the SDP make sure that the peer certificate matches it */
- if (SSL_CTX_get_verify_mode(rtp->ssl_ctx) != SSL_VERIFY_NONE) {
+ if (rtp->dtls_verify & AST_RTP_DTLS_VERIFY_FINGERPRINT) {
X509 *certificate;
- if (!(certificate = SSL_get_peer_certificate(rtp->ssl))) {
+ if (!(certificate = SSL_get_peer_certificate(rtp->dtls.ssl))) {
ast_log(LOG_WARNING, "No certificate was provided by the peer on RTP instance '%p'\n", instance);
return -1;
}
/* If a fingerprint is present in the SDP make sure that the peer certificate matches it */
if (rtp->remote_fingerprint[0]) {
+ const EVP_MD *type;
unsigned char fingerprint[EVP_MAX_MD_SIZE];
unsigned int size;
- if (!X509_digest(certificate, EVP_sha1(), fingerprint, &size) ||
+ if (rtp->remote_hash == AST_RTP_DTLS_HASH_SHA1) {
+ type = EVP_sha1();
+ } else if (rtp->remote_hash == AST_RTP_DTLS_HASH_SHA256) {
+ type = EVP_sha256();
+ } else {
+ ast_log(LOG_WARNING, "Unsupported fingerprint hash type on RTP instance '%p'\n", instance);
+ return -1;
+ }
+
+ if (!X509_digest(certificate, type, fingerprint, &size) ||
!size ||
memcmp(fingerprint, rtp->remote_fingerprint, size)) {
X509_free(certificate);
@@ -1447,21 +1597,21 @@ static int dtls_srtp_setup(struct ast_rtp *rtp, struct ast_srtp *srtp, struct as
}
/* Ensure that certificate verification was successful */
- if (SSL_get_verify_result(rtp->ssl) != X509_V_OK) {
+ if ((rtp->dtls_verify & AST_RTP_DTLS_VERIFY_CERTIFICATE) && SSL_get_verify_result(rtp->dtls.ssl) != X509_V_OK) {
ast_log(LOG_WARNING, "Peer certificate on RTP instance '%p' failed verification test\n",
instance);
return -1;
}
/* Produce key information and set up SRTP */
- if (!SSL_export_keying_material(rtp->ssl, material, SRTP_MASTER_LEN * 2, "EXTRACTOR-dtls_srtp", 19, NULL, 0, 0)) {
+ if (!SSL_export_keying_material(rtp->dtls.ssl, material, SRTP_MASTER_LEN * 2, "EXTRACTOR-dtls_srtp", 19, NULL, 0, 0)) {
ast_log(LOG_WARNING, "Unable to extract SRTP keying material from DTLS-SRTP negotiation on RTP instance '%p'\n",
instance);
return -1;
}
/* Whether we are acting as a server or client determines where the keys/salts are */
- if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_ACTIVE) {
+ if (rtp->dtls.dtls_setup == AST_RTP_DTLS_SETUP_ACTIVE) {
local_key = material;
remote_key = local_key + SRTP_MASTER_KEY_LEN;
local_salt = remote_key + SRTP_MASTER_KEY_LEN;
@@ -1547,50 +1697,51 @@ static int __rtp_recvfrom(struct ast_rtp_instance *instance, void *buf, size_t s
}
#ifdef HAVE_OPENSSL_SRTP
- if (!rtcp) {
- dtls_srtp_check_pending(instance, rtp);
+ dtls_srtp_check_pending(instance, rtp, rtcp);
- /* If this is an SSL packet pass it to OpenSSL for processing */
- if ((*in >= 20) && (*in <= 64)) {
- int res = 0;
+ /* If this is an SSL packet pass it to OpenSSL for processing */
+ if ((*in >= 20) && (*in <= 64)) {
+ struct dtls_details *dtls = !rtcp ? &rtp->dtls : &rtp->rtcp->dtls;
+ int res = 0;
- /* If no SSL session actually exists terminate things */
- if (!rtp->ssl) {
- ast_log(LOG_ERROR, "Received SSL traffic on RTP instance '%p' without an SSL session\n",
- instance);
- return -1;
- }
+ /* If no SSL session actually exists terminate things */
+ if (!dtls->ssl) {
+ ast_log(LOG_ERROR, "Received SSL traffic on RTP instance '%p' without an SSL session\n",
+ instance);
+ return -1;
+ }
- /* If we don't yet know if we are active or passive and we receive a packet... we are obviously passive */
- if (rtp->dtls_setup == AST_RTP_DTLS_SETUP_ACTPASS) {
- rtp->dtls_setup = AST_RTP_DTLS_SETUP_PASSIVE;
- SSL_set_accept_state(rtp->ssl);
- }
+ /* If we don't yet know if we are active or passive and we receive a packet... we are obviously passive */
+ if (dtls->dtls_setup == AST_RTP_DTLS_SETUP_ACTPASS) {
+ dtls->dtls_setup = AST_RTP_DTLS_SETUP_PASSIVE;
+ SSL_set_accept_state(dtls->ssl);
+ }
- dtls_srtp_check_pending(instance, rtp);
+ dtls_srtp_check_pending(instance, rtp, rtcp);
- BIO_write(rtp->read_bio, buf, len);
+ BIO_write(dtls->read_bio, buf, len);
- len = SSL_read(rtp->ssl, buf, len);
+ len = SSL_read(dtls->ssl, buf, len);
- dtls_srtp_check_pending(instance, rtp);
+ if ((len < 0) && (SSL_get_error(dtls->ssl, len) == SSL_ERROR_SSL)) {
+ unsigned long error = ERR_get_error();
+ ast_log(LOG_ERROR, "DTLS failure occurred on RTP instance '%p' due to reason '%s', terminating\n",
+ instance, ERR_reason_error_string(error));
+ return -1;
+ }
- if (rtp->dtls_failure) {
- ast_log(LOG_ERROR, "DTLS failure occurred on RTP instance '%p', terminating\n",
- instance);
- return -1;
- }
-
- if (SSL_is_init_finished(rtp->ssl)) {
- /* Any further connections will be existing since this is now established */
- rtp->connection = AST_RTP_DTLS_CONNECTION_EXISTING;
+ dtls_srtp_check_pending(instance, rtp, rtcp);
+ if (SSL_is_init_finished(dtls->ssl)) {
+ /* Any further connections will be existing since this is now established */
+ dtls->connection = AST_RTP_DTLS_CONNECTION_EXISTING;
+ if (!rtcp) {
/* Use the keying material to set up key/salt information */
res = dtls_srtp_setup(rtp, srtp, instance);
}
-
- return res;
}
+
+ return res;
}
#endif
@@ -1919,7 +2070,7 @@ static int ice_create(struct ast_rtp_instance *instance, struct ast_sockaddr *ad
if (pj_ice_sess_create(&stun_config, NULL, PJ_ICE_SESS_ROLE_UNKNOWN, 2,
&ast_rtp_ice_sess_cb, &ufrag, &passwd, NULL, &rtp->ice) == PJ_SUCCESS) {
/* Make this available for the callbacks */
- rtp->ice->user_data = rtp;
+ rtp->ice->user_data = instance;
/* Add all of the available candidates to the ICE session */
rtp_add_candidates_to_ice(instance, rtp, addr, port, AST_RTP_ICE_COMPONENT_RTP,
@@ -2054,6 +2205,11 @@ static int ast_rtp_destroy(struct ast_rtp_instance *instance)
* RTP instance while it's active.
*/
close(rtp->rtcp->s);
+#ifdef HAVE_OPENSSL_SRTP
+ if (rtp->rtcp->dtls.ssl) {
+ SSL_free(rtp->rtcp->dtls.ssl);
+ }
+#endif
ast_free(rtp->rtcp);
}
@@ -2100,8 +2256,8 @@ static int ast_rtp_destroy(struct ast_rtp_instance *instance)
}
/* Destroy the SSL session if present */
- if (rtp->ssl) {
- SSL_free(rtp->ssl);
+ if (rtp->dtls.ssl) {
+ SSL_free(rtp->dtls.ssl);
}
#endif
@@ -4166,6 +4322,10 @@ static void ast_rtp_prop_set(struct ast_rtp_instance *instance, enum ast_rtp_pro
}
#endif
+#ifdef HAVE_OPENSSL_SRTP
+ dtls_setup_rtcp(instance);
+#endif
+
return;
} else {
if (rtp->rtcp) {
@@ -4181,6 +4341,11 @@ static void ast_rtp_prop_set(struct ast_rtp_instance *instance, enum ast_rtp_pro
rtp->rtcp->schedid = -1;
}
close(rtp->rtcp->s);
+#ifdef HAVE_OPENSSL_SRTP
+ if (rtp->rtcp->dtls.ssl) {
+ SSL_free(rtp->rtcp->dtls.ssl);
+ }
+#endif
ast_free(rtp->rtcp);
rtp->rtcp = NULL;
}
@@ -4464,13 +4629,18 @@ static int ast_rtp_activate(struct ast_rtp_instance *instance)
{
struct ast_rtp *rtp = ast_rtp_instance_get_data(instance);
- if (!rtp->ssl) {
+ /* If ICE negotiation is enabled the DTLS Handshake will be performed upon completion of it */
+#ifdef USE_PJPROJECT
+ if (rtp->ice) {
return 0;
}
+#endif
- SSL_do_handshake(rtp->ssl);
+ dtls_perform_handshake(instance, &rtp->dtls, 0);
- dtls_srtp_check_pending(instance, rtp);
+ if (rtp->rtcp) {
+ dtls_perform_handshake(instance, &rtp->rtcp->dtls, 1);
+ }
return 0;
}