static int analyzer_smtp_event_process_end(struct event *evt, void *obj) {
struct analyzer *analyzer = obj;
struct event_reg *evt_reg = event_get_reg(evt);
struct analyzer_smtp_priv *apriv = analyzer->priv;
if (evt_reg != apriv->evt_cmd)
return POM_OK;
// Check if the DATA event ended
struct data *evt_data = event_get_data(evt);
char *cmd = PTYPE_STRING_GETVAL(evt_data[proto_smtp_cmd_name].value);
if (!cmd)
return POM_OK;
if (!strcasecmp(cmd, "DATA"))
return POM_OK;
struct analyzer_smtp_ce_priv *cpriv = conntrack_get_priv(event_get_conntrack(evt), analyzer);
if (event_is_started(cpriv->evt_msg)) {
event_process_end(cpriv->evt_msg);
cpriv->evt_msg = NULL;
}
return POM_OK;
}
static int analyzer_docsis_reg_status_update(struct analyzer_docsis_priv *priv, struct analyzer_docsis_cm *cm, enum docsis_mmt_rng_status new_status, ptime ts, struct proto_process_stack *stack, unsigned int stack_index) {
if (cm->ranging_status == new_status)
return POM_OK;
if (event_has_listener(priv->evt_cm_reg_status)) {
struct event *evt = event_alloc(priv->evt_cm_reg_status);
if (!evt) {
pom_mutex_unlock(&priv->lock);
return POM_ERR;
}
struct data *evt_data = event_get_data(evt);
PTYPE_UINT8_SETVAL(evt_data[analyzer_docsis_cm_reg_status_old].value, cm->ranging_status);
data_set(evt_data[analyzer_docsis_cm_reg_status_old]);
PTYPE_UINT8_SETVAL(evt_data[analyzer_docsis_cm_reg_status_new].value, new_status);
data_set(evt_data[analyzer_docsis_cm_reg_status_new]);
PTYPE_MAC_SETADDR(evt_data[analyzer_docsis_cm_reg_status_mac].value, cm->mac);
data_set(evt_data[analyzer_docsis_cm_reg_status_mac]);
PTYPE_UINT8_SETVAL(evt_data[analyzer_docsis_cm_reg_status_timeout].value, T4_TIMEOUT * cm->t4_multiplier);
data_set(evt_data[analyzer_docsis_cm_reg_status_timeout]);
if (event_process(evt, stack, stack_index, ts) != POM_OK) {
pom_mutex_unlock(&priv->lock);
return POM_ERR;
}
}
cm->ranging_status = new_status;
return POM_OK;
}
static int analyzer_rtp_stream_event_cleanup(struct event *evt) {
struct data *evt_data = event_get_data(evt);
if (data_is_set(evt_data[analyzer_rtp_stream_src_addr]))
ptype_cleanup(evt_data[analyzer_rtp_stream_src_addr].value);
if (data_is_set(evt_data[analyzer_rtp_stream_dst_addr]))
ptype_cleanup(evt_data[analyzer_rtp_stream_dst_addr].value);
return POM_OK;
}
int output_log_xml_process(struct event *evt, void *obj) {
struct output_log_xml_priv *priv = obj;
struct event_reg_info *evt_info = event_get_info(evt);
xmlBufferPtr buff = xmlBufferCreate();
if (!buff) {
pomlog(POMLOG_ERR "Error while creating the xml buffer");
return POM_ERR;
}
xmlTextWriterPtr writer = xmlNewTextWriterMemory(buff, 0);
if (!writer) {
pomlog(POMLOG_ERR "Error while creating the xmlTextWriter");
xmlBufferFree(buff);
return POM_ERR;
}
// <event name="event_name">
char timestamp[21] = { 0 };
snprintf(timestamp, 20, "%"PRIu64, (uint64_t) event_get_timestamp(evt));
if (xmlTextWriterWriteString(writer, BAD_CAST "\n") < 0 ||
xmlTextWriterStartElement(writer, BAD_CAST "event") < 0 ||
xmlTextWriterWriteAttribute(writer, BAD_CAST "name", BAD_CAST evt_info->name) < 0 ||
xmlTextWriterWriteAttribute(writer, BAD_CAST "timestamp", BAD_CAST timestamp) < 0)
goto err;
struct data *evt_data = event_get_data(evt);
int i;
for (i = 0; i < evt_info->data_reg->data_count; i++) {
if (evt_info->data_reg->items[i].flags & DATA_REG_FLAG_LIST) {
// Got a data_list
if (!evt_data[i].items)
continue;
// <data_list name="data_name">
if (xmlTextWriterWriteString(writer, BAD_CAST "\n\t") < 0 ||
xmlTextWriterStartElement(writer, BAD_CAST "data_list") < 0 ||
xmlTextWriterWriteAttribute(writer, BAD_CAST "name", BAD_CAST evt_info->data_reg->items[i].name) < 0)
goto err;
// <value key="key1">
struct data_item *itm = evt_data[i].items;
for (; itm; itm = itm->next) {
if (xmlTextWriterWriteString(writer, BAD_CAST "\n\t\t") < 0 ||
xmlTextWriterStartElement(writer, BAD_CAST "value") < 0 ||
xmlTextWriterWriteAttribute(writer, BAD_CAST "key", BAD_CAST itm->key) < 0)
goto err;
char *value = ptype_print_val_alloc(itm->value, NULL);
if (!value)
goto err;
if (xmlTextWriterWriteString(writer, BAD_CAST value) < 0) {
free(value);
goto err;
}
free(value);
// </value>
if (xmlTextWriterEndElement(writer) < 0)
goto err;
}
// </data_list>
if (xmlTextWriterWriteString(writer, BAD_CAST "\n\t") < 0 ||
xmlTextWriterEndElement(writer) < 0)
goto err;
} else {
// Got a single data
if (!data_is_set(evt_data[i]))
continue;
// <data name="data_name">
if (xmlTextWriterWriteString(writer, BAD_CAST "\n\t") < 0 ||
xmlTextWriterStartElement(writer, BAD_CAST "data") < 0 ||
xmlTextWriterWriteAttribute(writer, BAD_CAST "name", BAD_CAST evt_info->data_reg->items[i].name) < 0)
goto err;
if (evt_data[i].value) {
char *value = ptype_print_val_alloc(evt_data[i].value, NULL);
if (!value)
goto err;
if (xmlTextWriterWriteString(writer, BAD_CAST value) < 0) {
free(value);
goto err;
}
free(value);
}
// </data>
if (xmlTextWriterEndElement(writer) < 0)
goto err;
}
}
// </event>
if (xmlTextWriterWriteString(writer, BAD_CAST "\n") < 0 ||
xmlTextWriterEndElement(writer) < 0 ||
xmlTextWriterWriteString(writer, BAD_CAST "\n") < 0)
goto err;
xmlFreeTextWriter(writer);
if (pom_write(priv->fd, buff->content, buff->use) != POM_OK) {
pomlog(POMLOG_ERR "Error while writing to the log file");
xmlBufferFree(buff);
return POM_ERR;
}
xmlBufferFree(buff);
if (priv->perf_events)
registry_perf_inc(priv->perf_events, 1);
return POM_OK;
err:
pomlog(POMLOG_ERR "An error occured while processing the event");
xmlFreeTextWriter(writer);
xmlBufferFree(buff);
return POM_ERR;
}
static int analyzer_smtp_event_process_begin(struct event *evt, void *obj, struct proto_process_stack *stack, unsigned int stack_index) {
struct analyzer *analyzer = obj;
struct analyzer_smtp_priv *apriv = analyzer->priv;
struct proto_process_stack *s = &stack[stack_index];
if (!s->ce)
return POM_ERR;
// Only process stuff if we have the DATA event or if we already have an event
struct event_reg *evt_reg = event_get_reg(evt);
struct data *evt_data = event_get_data(evt);
struct analyzer_smtp_ce_priv *cpriv = conntrack_get_priv(s->ce, analyzer);
// It's expected that an SMTP connection will always contain at least one message
// So we always create the cpriv and event, no matter what
if (!cpriv) {
cpriv = malloc(sizeof(struct analyzer_smtp_ce_priv));
if (!cpriv) {
pom_oom(sizeof(struct analyzer_smtp_ce_priv));
return POM_ERR;
}
memset(cpriv, 0, sizeof(struct analyzer_smtp_ce_priv));
if (conntrack_add_priv(s->ce, analyzer, cpriv, analyzer_smtp_ce_priv_cleanup) != POM_OK) {
free(cpriv);
return POM_ERR;
}
}
if (!cpriv->evt_msg) {
cpriv->evt_msg = event_alloc(apriv->evt_msg);
if (!cpriv->evt_msg)
return POM_ERR;
}
struct data *msg_data = event_get_data(cpriv->evt_msg);
if (evt_reg == apriv->evt_cmd) {
if (!cpriv->common_data_fetched)
analyzer_smtp_event_fetch_common_data(cpriv, stack, stack_index, POM_DIR_REVERSE(s->direction));
// Process commands
// A message was being transmitted and we recevied a new command
if (event_is_started(cpriv->evt_msg)) {
event_process_end(cpriv->evt_msg);
cpriv->evt_msg = NULL;
}
char *cmd = PTYPE_STRING_GETVAL(evt_data[proto_smtp_cmd_name].value);
if (!cmd)
return POM_OK;
char *arg = PTYPE_STRING_GETVAL(evt_data[proto_smtp_cmd_arg].value);
if (arg) {
while (*arg == ' ')
arg++;
}
if (!strcasecmp(cmd, "MAIL")) {
if (strncasecmp(arg, "FROM:", strlen("FROM:"))) {
pomlog(POMLOG_DEBUG "Unparseable MAIL command");
return POM_OK;
}
arg += strlen("FROM:");
while (*arg == ' ')
arg++;
if (*arg == '<')
arg++;
size_t len;
char *end = strchr(arg, '>');
if (end)
len = end - arg;
else
len = strlen(arg);
PTYPE_STRING_SETVAL_N(msg_data[analyzer_smtp_msg_from].value, arg, len);
data_set(msg_data[analyzer_smtp_msg_from]);
cpriv->last_cmd = analyzer_smtp_last_cmd_mail_from;
} else if (!strcasecmp(cmd, "RCPT")) {
if (strncasecmp(arg, "TO:", strlen("TO:"))) {
pomlog(POMLOG_DEBUG "Unparseable RCPT command");
return POM_OK;
}
arg += strlen("TO:");
while (*arg == ' ')
arg++;
if (*arg == '<')
arg++;
size_t len;
char *end = strchr(arg, '>');
if (end)
len = end - arg;
else
len = strlen(arg);
struct ptype *to = ptype_alloc("string");
if (!to)
return POM_ERR;
PTYPE_STRING_SETVAL_N(to, arg, len);
if (data_item_add_ptype(msg_data, analyzer_smtp_msg_to, strdup("to"), to) != POM_OK) {
ptype_cleanup(to);
return POM_ERR;
}
cpriv->last_cmd = analyzer_smtp_last_cmd_rcpt_to;
} else if (!strcasecmp(cmd, "DATA")) {
cpriv->last_cmd = analyzer_smtp_last_cmd_data;
if (!event_is_started(cpriv->evt_msg)) {
analyzer_smtp_event_fill_common_data(cpriv, msg_data);
event_process_begin(cpriv->evt_msg, stack, stack_index, event_get_timestamp(evt));
} else {
pomlog(POMLOG_DEBUG "Message event already started !");
}
} else if (!strcasecmp(cmd, "RSET")) {
// Cleanup the event
event_cleanup(cpriv->evt_msg);
cpriv->evt_msg = NULL;
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
} else if (!strcasecmp(cmd, "HELO") || !strcasecmp(cmd, "EHLO")) {
if (cpriv->client_hello) {
pomlog(POMLOG_DEBUG "We already have a client hello !");
free(cpriv->client_hello);
}
cpriv->client_hello = strdup(arg);
if (!cpriv->client_hello) {
pom_oom(strlen(arg) + 1);
return POM_ERR;
}
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
} else if (!strcasecmp(cmd, "AUTH")) {
if (!strncasecmp(arg, "PLAIN", strlen("PLAIN"))) {
arg += strlen("PLAIN");
while (*arg == ' ')
arg++;
if (cpriv->evt_auth) {
event_process_end(cpriv->evt_auth);
cpriv->evt_auth = NULL;
}
if (strlen(arg)) {
if (analyzer_smtp_parse_auth_plain(apriv, cpriv, arg) == POM_OK) {
event_process_begin(cpriv->evt_auth, stack, stack_index, event_get_timestamp(evt));
cpriv->last_cmd = analyzer_smtp_last_cmd_auth_plain_creds;
}
} else {
cpriv->last_cmd = analyzer_smtp_last_cmd_auth_plain;
}
} else if (!strncasecmp(arg, "LOGIN", strlen("LOGIN"))) {
arg += strlen("LOGIN");
while (*arg == ' ')
arg++;
if (cpriv->evt_auth) {
event_process_end(cpriv->evt_auth);
cpriv->evt_auth = NULL;
}
cpriv->evt_auth = event_alloc(apriv->evt_auth);
if (!cpriv->evt_auth)
return POM_ERR;
struct data *auth_data = event_get_data(cpriv->evt_auth);
analyzer_smtp_event_fill_common_data(cpriv, auth_data);
// Set the authentication type
PTYPE_STRING_SETVAL(auth_data[analyzer_smtp_auth_type].value, "LOGIN");
data_set(auth_data[analyzer_smtp_auth_type]);
if (strlen(arg)) {
char *username = NULL;
size_t out_len = 0;
struct ptype *username_pt = NULL;
if (decoder_decode_simple("base64", arg, strlen(arg), &username, &out_len) == POM_OK) {
username_pt = ptype_alloc("string");
if (username_pt) {
PTYPE_STRING_SETVAL_P(username_pt, username);
if (data_item_add_ptype(auth_data, analyzer_smtp_auth_params, strdup("username"), username_pt) != POM_OK) {
ptype_cleanup(username_pt);
event_cleanup(cpriv->evt_auth);
cpriv->evt_auth = NULL;
username_pt = NULL;
}
} else {
free(username);
}
}
if (!username_pt) {
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
event_process_begin(cpriv->evt_auth, stack, stack_index, event_get_timestamp(evt));
}
} else {
cpriv->last_cmd = analyzer_smtp_last_cmd_auth_login;
}
}
} else if (cpriv->last_cmd == analyzer_smtp_last_cmd_auth_plain) {
// We are expecting the credentials right now
if (analyzer_smtp_parse_auth_plain(apriv, cpriv, cmd) == POM_OK) {
event_process_begin(cpriv->evt_auth, stack, stack_index, event_get_timestamp(evt));
cpriv->last_cmd = analyzer_smtp_last_cmd_auth_plain_creds;
} else {
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
}
} else if (cpriv->last_cmd == analyzer_smtp_last_cmd_auth_login) {
char *username = NULL;
size_t out_len = 0;
struct ptype *username_pt = NULL;
if (decoder_decode_simple("base64", cmd, strlen(cmd), &username, &out_len) == POM_OK) {
username_pt = ptype_alloc("string");
if (username_pt) {
PTYPE_STRING_SETVAL_P(username_pt, username);
struct data *auth_data = event_get_data(cpriv->evt_auth);
if (data_item_add_ptype(auth_data, analyzer_smtp_auth_params, strdup("username"), username_pt) != POM_OK) {
ptype_cleanup(username_pt);
event_process_end(cpriv->evt_auth);
cpriv->evt_auth = NULL;
username_pt = NULL;
}
} else {
free(username);
}
}
if (!username_pt) {
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
} else {
event_process_begin(cpriv->evt_auth, stack, stack_index, event_get_timestamp(evt));
cpriv->last_cmd = analyzer_smtp_last_cmd_auth_login_user;
}
} else if (cpriv->last_cmd == analyzer_smtp_last_cmd_auth_login_user) {
char *password = NULL;
size_t out_len = 0;
struct ptype *password_pt = NULL;
if (decoder_decode_simple("base64", cmd, strlen(cmd), &password, &out_len) == POM_OK) {
password_pt = ptype_alloc("string");
if (password_pt) {
PTYPE_STRING_SETVAL_P(password_pt, password);
struct data *auth_data = event_get_data(cpriv->evt_auth);
if (data_item_add_ptype(auth_data, analyzer_smtp_auth_params, strdup("password"), password_pt) != POM_OK) {
ptype_cleanup(password_pt);
event_process_end(cpriv->evt_auth);
cpriv->evt_auth = NULL;
password_pt = NULL;
}
} else {
free(password);
}
}
if (!password_pt) {
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
} else {
cpriv->last_cmd = analyzer_smtp_last_cmd_auth_login_pass;
}
} else {
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
}
} else if (evt_reg == apriv->evt_reply) {
if (!cpriv->common_data_fetched)
analyzer_smtp_event_fetch_common_data(cpriv, stack, stack_index, s->direction);
// Process replies
uint16_t code = *PTYPE_UINT16_GETVAL(evt_data[proto_smtp_reply_code].value);
switch (cpriv->last_cmd) {
default:
case analyzer_smtp_last_cmd_other:
if (code == 220 && evt_data[proto_smtp_reply_text].items && evt_data[proto_smtp_reply_text].items->value) {
// STARTTLS returns 220 as well so ignore extra code 220
if (!cpriv->server_hello) {
char *helo = PTYPE_STRING_GETVAL(evt_data[proto_smtp_reply_text].items->value);
cpriv->server_hello = strdup(helo);
if (!cpriv->server_hello) {
pom_oom(strlen(helo) + 1);
return POM_ERR;
}
}
}
break;
case analyzer_smtp_last_cmd_mail_from:
if (code != 250) {
// FROM is invalid
data_unset(msg_data[analyzer_smtp_msg_from]);
}
break;
case analyzer_smtp_last_cmd_rcpt_to:
// For now just don't do anything
// It's best to keep a destination in there even if it's invalid or denied
break;
case analyzer_smtp_last_cmd_data:
if (code == 354) {
// The message is starting, keep last_cmd intact
return POM_OK;
}
// Message is over (if ever transmited)
if (event_is_started(cpriv->evt_msg)) {
struct data *msg_data = event_get_data(cpriv->evt_msg);
PTYPE_UINT16_SETVAL(msg_data[analyzer_smtp_msg_result].value, code);
data_set(msg_data[analyzer_smtp_msg_result]);
event_process_end(cpriv->evt_msg);
cpriv->evt_msg = NULL;
}
break;
case analyzer_smtp_last_cmd_auth_plain:
case analyzer_smtp_last_cmd_auth_login:
case analyzer_smtp_last_cmd_auth_login_user:
// Check if authentication phase can continue
if (code == 334) {
// Don't reset cpriv->last_cmd
return POM_OK;
} else {
struct data *evt_data = event_get_data(cpriv->evt_auth);
PTYPE_BOOL_SETVAL(evt_data[analyzer_smtp_auth_success].value, 0);
data_set(evt_data[analyzer_smtp_auth_success]);
event_process_end(cpriv->evt_auth);
cpriv->evt_auth = NULL;
}
break;
case analyzer_smtp_last_cmd_auth_plain_creds:
case analyzer_smtp_last_cmd_auth_login_pass: {
// We just processed the credentials
struct data *auth_data = event_get_data(cpriv->evt_auth);
char success = 0;
if (code == 235)
success = 1;
PTYPE_BOOL_SETVAL(auth_data[analyzer_smtp_auth_success].value, success);
data_set(auth_data[analyzer_smtp_auth_success]);
event_process_end(cpriv->evt_auth);
cpriv->evt_auth = NULL;
break;
}
}
cpriv->last_cmd = analyzer_smtp_last_cmd_other;
}
return POM_OK;
}
static int analyzer_smtp_parse_auth_plain(struct analyzer_smtp_priv *apriv, struct analyzer_smtp_ce_priv *cpriv, char *auth_plain) {
// Parse SASL AUTH PLAIN as described in RFC 4616
// The decoded arg must be at least 3 bytes
if (strlen(auth_plain) < 4 || memchr(auth_plain, '=', 4)) {
pomlog(POMLOG_DEBUG "AUTH PLAIN argument too short");
return POM_OK;
}
// Allocate the event
cpriv->evt_auth = event_alloc(apriv->evt_auth);
if (!cpriv->evt_auth)
return POM_ERR;
struct data *evt_data = event_get_data(cpriv->evt_auth);
analyzer_smtp_event_fill_common_data(cpriv, evt_data);
// Set the authentication type
PTYPE_STRING_SETVAL(evt_data[analyzer_smtp_auth_type].value, "PLAIN");
data_set(evt_data[analyzer_smtp_auth_type]);
// Parse the authentication stuff
char *creds_str = NULL;
size_t out_len = 0;
if (decoder_decode_simple("base64", auth_plain, strlen(auth_plain), &creds_str, &out_len) != POM_OK) {
pomlog(POMLOG_DEBUG "Unable to decode AUTH PLAIN message");
return POM_OK;
}
if (out_len < 3) {
pomlog(POMLOG_DEBUG "Invalid decoded AUTH PLAIN data");
return POM_OK;
}
char *tmp = creds_str;
// Add the identity
if (strlen(tmp)) {
// SASL AUTH PLAIN specifies
struct ptype *identity = ptype_alloc("string");
if (!identity)
goto err;
PTYPE_STRING_SETVAL(identity, tmp);
if (data_item_add_ptype(evt_data, analyzer_smtp_auth_params, strdup("identity"), identity) != POM_OK) {
ptype_cleanup(identity);
goto err;
}
}
tmp += strlen(tmp) + 1;
// Add the username
struct ptype *username = ptype_alloc("string");
if (!username)
goto err;
PTYPE_STRING_SETVAL(username, tmp);
if (data_item_add_ptype(evt_data, analyzer_smtp_auth_params, strdup("username"), username) != POM_OK) {
ptype_cleanup(username);
goto err;
}
tmp += strlen(tmp) + 1;
// Add the password
struct ptype *password = ptype_alloc("string");
if (!password)
goto err;
PTYPE_STRING_SETVAL(password, tmp);
if (data_item_add_ptype(evt_data, analyzer_smtp_auth_params, strdup("password"), password) != POM_OK) {
ptype_cleanup(password);
goto err;
}
free(creds_str);
return POM_OK;
err:
event_cleanup(cpriv->evt_auth);
cpriv->evt_auth = NULL;
free(creds_str);
return POM_ERR;
}
int analyzer_ppp_pap_finalize(struct analyzer_ppp_pap_priv *apriv, struct analyzer_ppp_pap_ce_priv *cpriv) {
if (!cpriv->evt_request)
return POM_OK;
struct event *evt = NULL;
struct data *evt_data = NULL;
struct data *evt_req_data = event_get_data(cpriv->evt_request);
evt = event_alloc(apriv->evt_auth);
if (!evt)
return POM_ERR;
evt_data = event_get_data(evt);
if (ptype_copy(evt_data[analyzer_ppp_pap_auth_peer_id].value, evt_req_data[evt_ppp_pap_request_peer_id].value) != POM_OK) {
event_cleanup(evt);
return POM_ERR;
}
data_set(evt_data[analyzer_ppp_pap_auth_peer_id]);
if (ptype_copy(evt_data[analyzer_ppp_pap_auth_password].value, evt_req_data[evt_ppp_pap_request_password].value) != POM_OK) {
event_cleanup(evt);
return POM_ERR;
}
data_set(evt_data[analyzer_ppp_pap_auth_password]);
if (cpriv->client) {
evt_data[analyzer_ppp_pap_auth_client].value = cpriv->client;
data_set(evt_data[analyzer_ppp_pap_auth_client]);
data_do_clean(evt_data[analyzer_ppp_pap_auth_client]);
cpriv->client = NULL;
}
if (cpriv->server) {
evt_data[analyzer_ppp_pap_auth_server].value = cpriv->server;
data_set(evt_data[analyzer_ppp_pap_auth_server]);
data_do_clean(evt_data[analyzer_ppp_pap_auth_server]);
cpriv->server = NULL;
}
if (cpriv->vlan) {
evt_data[analyzer_ppp_pap_auth_vlan].value = cpriv->vlan;
data_set(evt_data[analyzer_ppp_pap_auth_vlan]);
data_do_clean(evt_data[analyzer_ppp_pap_auth_vlan]);
cpriv->vlan = NULL;
}
if (cpriv->top_proto) {
PTYPE_STRING_SETVAL(evt_data[analyzer_ppp_pap_auth_top_proto].value, cpriv->top_proto);
data_set(evt_data[analyzer_ppp_pap_auth_top_proto]);
}
if (ptype_copy(evt_data[analyzer_ppp_pap_auth_identifier].value, evt_req_data[evt_ppp_pap_request_identifier].value) != POM_OK) {
event_cleanup(evt);
return POM_ERR;
}
data_set(evt_data[analyzer_ppp_pap_auth_identifier]);
if (cpriv->evt_ack_nack) {
struct data *evt_ack_data = event_get_data(cpriv->evt_ack_nack);
uint8_t code = *PTYPE_UINT8_GETVAL(evt_ack_data[evt_ppp_pap_ack_nack_code].value);
if (code == 2) {
PTYPE_BOOL_SETVAL(evt_data[analyzer_ppp_pap_auth_success].value, 1);
} else {
PTYPE_BOOL_SETVAL(evt_data[analyzer_ppp_pap_auth_success].value, 0);
}
data_set(evt_data[analyzer_ppp_pap_auth_success]);
event_refcount_dec(cpriv->evt_ack_nack);
cpriv->evt_ack_nack = NULL;
}
ptime ts = event_get_timestamp(cpriv->evt_request);
event_refcount_dec(cpriv->evt_request);
cpriv->evt_request = NULL;
return event_process(evt, NULL, 0, ts);
}
static int analyzer_rtp_pload_process(void *obj, struct packet *p, struct proto_process_stack *stack, unsigned int stack_index) {
struct analyzer *analyzer = obj;
struct analyzer_rtp_priv *priv = analyzer->priv;
struct proto_process_stack *pload_stack = &stack[stack_index];
struct proto_process_stack *s = &stack[stack_index - 1];
if (!s->ce)
return POM_ERR;
struct analyzer_rtp_ce_priv *cp = conntrack_get_priv(s->ce, obj);
if (!cp) {
cp = malloc(sizeof(struct analyzer_rtp_ce_priv));
if (!cp) {
pom_oom(sizeof(struct analyzer_rtp_ce_priv));
return POM_ERR;
}
memset(cp, 0, sizeof(struct analyzer_rtp_ce_priv));
if (conntrack_add_priv(s->ce, obj, cp, analyzer_rtp_ce_cleanup) != POM_OK)
return POM_ERR;
}
int dir = s->direction;
if (!cp->evt[dir]) {
cp->evt[dir] = event_alloc(priv->evt_rtp_stream);
if (!cp->evt[dir])
return POM_ERR;
struct data *evt_data = event_get_data(cp->evt[dir]);
ptype_copy(evt_data[analyzer_rtp_stream_ssrc].value, s->pkt_info->fields_value[proto_rtp_field_ssrc]);
data_set(evt_data[analyzer_rtp_stream_ssrc]);
// For now we always assume RTP is over UDP or TCP
if (stack_index > 2) {
struct proto_process_stack *l4_stack = &stack[stack_index - 2];
unsigned int i;
for (i = 0; !data_is_set(evt_data[analyzer_rtp_stream_src_port]) || !data_is_set(evt_data[analyzer_rtp_stream_dst_port]); i++) {
struct proto_reg_info *l4_info = proto_get_info(l4_stack->proto);
char *name = l4_info->pkt_fields[i].name;
if (!name)
break;
if (!data_is_set(evt_data[analyzer_rtp_stream_src_port]) && !strcmp(name, "sport")) {
ptype_copy(evt_data[analyzer_rtp_stream_src_port].value, l4_stack->pkt_info->fields_value[i]);
data_set(evt_data[analyzer_rtp_stream_src_port]);
} else if (!data_is_set(evt_data[analyzer_rtp_stream_dst_port]) && !strcmp(name, "dport")) {
ptype_copy(evt_data[analyzer_rtp_stream_dst_port].value, l4_stack->pkt_info->fields_value[i]);
data_set(evt_data[analyzer_rtp_stream_dst_port]);
}
}
}
if (stack_index > 3) {
struct proto_process_stack *l3_stack = &stack[stack_index - 3];
unsigned int i;
for (i = 0; !data_is_set(evt_data[analyzer_rtp_stream_src_addr]) || !data_is_set(evt_data[analyzer_rtp_stream_dst_addr]); i++) {
struct proto_reg_info *l3_info = proto_get_info(l3_stack->proto);
char *name = l3_info->pkt_fields[i].name;
if (!name)
break;
if (!data_is_set(evt_data[analyzer_rtp_stream_src_addr]) && !strcmp(name, "src")) {
evt_data[analyzer_rtp_stream_src_addr].value = ptype_alloc_from(l3_stack->pkt_info->fields_value[i]);
if (evt_data[analyzer_rtp_stream_src_addr].value)
data_set(evt_data[analyzer_rtp_stream_src_addr]);
} else if (!data_is_set(evt_data[analyzer_rtp_stream_dst_addr]) && !strcmp(name, "dst")) {
evt_data[analyzer_rtp_stream_dst_addr].value = ptype_alloc_from(l3_stack->pkt_info->fields_value[i]);
if (evt_data[analyzer_rtp_stream_dst_addr].value)
data_set(evt_data[analyzer_rtp_stream_dst_addr]);
}
}
}
struct proto *sess_proto = telephony_stream_info_get_sess_proto(s->ce);
if (sess_proto) {
struct proto_reg_info *proto_reg = proto_get_info(sess_proto);
PTYPE_STRING_SETVAL(evt_data[analyzer_rtp_stream_sess_proto].value, proto_reg->name);
data_set(evt_data[analyzer_rtp_stream_sess_proto]);
}
char *call_id = telephony_stream_info_get_call_id(s->ce);
if (call_id) {
PTYPE_STRING_SETVAL_P(evt_data[analyzer_rtp_stream_call_id].value, call_id);
data_set(evt_data[analyzer_rtp_stream_call_id]);
}
if (event_process_begin(cp->evt[dir], stack, stack_index, p->ts) != POM_OK)
return POM_ERR;
}
if (!cp->pload[dir]) {
cp->pload[dir] = pload_alloc(cp->evt[dir], 0);
if (!cp->pload[dir])
return POM_ERR;
struct telephony_codec_info info = { 0 };
if (telephony_stream_info_get_codec(&info, stack, stack_index - 1) == POM_OK) {
char *pload_type = telephony_codec_info_get_pload_type(&info);
if (pload_type)
pload_set_type(cp->pload[dir], pload_type);
}
}
if (pload_append(cp->pload[dir], pload_stack->pload, pload_stack->plen) != POM_OK)
return POM_ERR;
return POM_OK;
}
static int proto_eap_process(void *proto_priv, struct packet *p, struct proto_process_stack *stack, unsigned int stack_index) {
struct proto_process_stack *s = &stack[stack_index];
if (sizeof(struct eap_header) > s->plen)
return PROTO_INVALID;
struct proto_eap_priv *priv = proto_priv;
struct eap_header *hdr = s->pload;
PTYPE_UINT8_SETVAL(s->pkt_info->fields_value[proto_eap_field_code], hdr->code);
PTYPE_UINT8_SETVAL(s->pkt_info->fields_value[proto_eap_field_identifier], hdr->identifier);
if (hdr->code < 1 || hdr->code > 4)
return PROTO_INVALID;
uint16_t len = ntohs(hdr->length);
if (len > s->plen)
return PROTO_INVALID;
// Keep only the payload lenght
len -= sizeof(struct eap_header);
if (conntrack_get(stack, stack_index) != POM_OK)
return PROTO_ERR;
if (conntrack_delayed_cleanup(s->ce, *PTYPE_UINT32_GETVAL(priv->p_timeout), p->ts) != POM_OK) {
conntrack_unlock(s->ce);
return PROTO_ERR;
}
conntrack_unlock(s->ce);
if (hdr->code == 3 || hdr->code == 4) {
// Content length is 0 for success and failure
if (len != 4)
return PROTO_INVALID;
len = 0;
if (!event_has_listener(priv->evt_success_failure))
return PROTO_OK;
struct event *evt = event_alloc(priv->evt_success_failure);
if (!evt)
return PROTO_ERR;
struct data *evt_data = event_get_data(evt);
PTYPE_UINT8_SETVAL(evt_data[evt_eap_common_identifier].value, hdr->identifier);
data_set(evt_data[evt_eap_common_identifier]);
PTYPE_BOOL_SETVAL(evt_data[evt_eap_success_failure_success].value, (hdr->code == 3 ? 1 : 0));
data_set(evt_data[evt_eap_success_failure_success]);
return event_process(evt, stack, stack_index, p->ts);
}
// At this point, code is either 1 or 2 (request/response)
void *pload = s->pload + sizeof(struct eap_header);
uint8_t type = 0;
// There is at least 1 byte of data for request/response
if (len < 1)
return PROTO_INVALID;
len--;
type = *(uint8_t*)pload;
pload++;
struct event *evt = NULL;
struct data *evt_data = NULL;
switch (type) {
case 1: // Identity
if (!event_has_listener(priv->evt_identity))
break;
evt = event_alloc(priv->evt_identity);
if (!evt)
return PROTO_ERR;
if (len) {
evt_data = event_get_data(evt);
PTYPE_STRING_SETVAL_N(evt_data[evt_eap_identity_identity].value, pload, len);
data_set(evt_data[evt_eap_identity_identity]);
}
break;
case 4: // MD5-Challenge
if (!event_has_listener(priv->evt_md5_challenge))
break;
if (len < 17)
return PROTO_INVALID;
uint8_t value_size = *(uint8_t*)pload;
if (value_size != 16)
return PROTO_INVALID;
pload++;
len--;
evt = event_alloc(priv->evt_md5_challenge);
if (!evt)
return PROTO_ERR;
evt_data = event_get_data(evt);
PTYPE_BYTES_SETLEN(evt_data[evt_eap_md5_challenge_value].value, 16);
PTYPE_BYTES_SETVAL(evt_data[evt_eap_md5_challenge_value].value, pload);
data_set(evt_data[evt_eap_md5_challenge_value]);
if (len > 16) {
PTYPE_STRING_SETVAL_N(evt_data[evt_eap_md5_challenge_name].value, pload + 16, len - 16);
data_set(evt_data[evt_eap_md5_challenge_name]);
}
break;
}
if (evt) {
if (!evt_data)
evt_data = event_get_data(evt);
PTYPE_UINT8_SETVAL(evt_data[evt_eap_common_identifier].value, hdr->identifier);
data_set(evt_data[evt_eap_common_identifier]);
PTYPE_UINT8_SETVAL(evt_data[evt_eap_common_code].value, hdr->code);
data_set(evt_data[evt_eap_common_code]);
if (event_process(evt, stack, stack_index, p->ts) != POM_OK)
return PROTO_ERR;
}
return PROTO_OK;
}
static int analyzer_tftp_pkt_process(void *obj, struct packet *p, struct proto_process_stack *stack, unsigned int stack_index) {
struct analyzer_tftp_priv *priv = obj;
struct proto_process_stack *s = &stack[stack_index];
struct proto_process_stack *s_prev = &stack[stack_index - 1];
uint16_t opcode = *PTYPE_UINT16_GETVAL(s_prev->pkt_info->fields_value[proto_tftp_field_opcode]);
// Get the session
struct conntrack_session *session = conntrack_session_get(s_prev->ce);
if (!session)
return POM_ERR;
struct analyzer_tftp_session_priv *spriv = conntrack_session_get_priv(session, obj);
if (!spriv) {
// Add session priv if it is not done yet
spriv = malloc(sizeof(struct analyzer_tftp_session_priv));
if (!spriv) {
pom_oom(sizeof(struct analyzer_tftp_session_priv));
goto err;
}
memset(spriv, 0, sizeof(struct analyzer_tftp_session_priv));
if (conntrack_session_add_priv(session, obj, spriv, analyzer_tftp_session_priv_cleanup) != POM_OK) {
free(spriv);
goto err;
}
}
void *pload = s->pload;
uint32_t plen = s->plen;
switch (opcode) {
case tftp_rrq:
case tftp_wrq: {
if (plen < 3)
return POM_OK; // Invalid packet
// Find the filename
// The below should always be valid as proto_tftp already checked this
char *filename = pload;
char *mode = memchr(filename, 0, plen - 1) + 1;
struct analyzer_tftp_file *fq = malloc(sizeof(struct analyzer_tftp_file));
if (!fq) {
pom_oom(sizeof(struct analyzer_tftp_file));
goto err;
}
memset(fq, 0, sizeof(struct analyzer_tftp_file));
// Get the port on which we expect this file
// No need to check the IP as we got the session biding
struct proto_process_stack *s_l4 = &stack[stack_index - 2];
unsigned int i;
for (i = 0; !fq->port ; i++) {
struct proto_reg_info *pinfo = proto_get_info(s_l4->proto);
char *name = pinfo->pkt_fields[i].name;
if (!name) {
pomlog(POMLOG_ERR "Source port not found in RRQ/WRQ packets");
goto err;
}
if (!strcmp(name, "sport")) {
fq->port = *PTYPE_UINT16_GETVAL(s_l4->pkt_info->fields_value[i]);
break;
}
}
fq->evt = event_alloc(priv->evt_file);
if (!fq->evt) {
free(fq);
goto err;
}
struct data *evt_data = event_get_data(fq->evt);
PTYPE_STRING_SETVAL(evt_data[analyzer_tftp_file_filename].value, filename);
data_set(evt_data[analyzer_tftp_file_filename]);
PTYPE_STRING_SETVAL(evt_data[analyzer_tftp_file_mode].value, mode);
data_set(evt_data[analyzer_tftp_file_mode]);
PTYPE_BOOL_SETVAL(evt_data[analyzer_tftp_file_write].value, opcode == tftp_wrq);
data_set(evt_data[analyzer_tftp_file_write]);
fq->next = spriv->files;
if (fq->next)
fq->next->prev = fq;
spriv->files = fq;
conntrack_session_unlock(session);
event_process_begin(fq->evt, stack, stack_index, p->ts);
break;
}
case tftp_data: {
if (plen < sizeof(uint16_t))
return POM_OK; // Invalid packet
struct analyzer_tftp_file *f = conntrack_get_priv(s_prev->ce, obj);
struct data *evt_data = NULL;
if (!f) {
// The file is not yet associated to this connection
// Find it in the queue
struct proto_process_stack *s_l4 = &stack[stack_index - 2];
unsigned int i;
uint16_t sport = 0, dport = 0;
for (i = 0; !sport || !dport ; i++) {
struct proto_reg_info *pinfo = proto_get_info(s_l4->proto);
char *name = pinfo->pkt_fields[i].name;
if (!name) {
pomlog(POMLOG_ERR "Source port not found in data packets");
goto err;
}
if (!strcmp(name, "sport"))
sport = *PTYPE_UINT16_GETVAL(s_l4->pkt_info->fields_value[i]);
if (!strcmp(name, "dport"))
dport = *PTYPE_UINT16_GETVAL(s_l4->pkt_info->fields_value[i]);
}
// Find the file in the session list
for (f = spriv->files; ; f = f->next) {
evt_data = event_get_data(f->evt);
if (*PTYPE_BOOL_GETVAL(evt_data[analyzer_tftp_file_write].value)) {
if (f->port == sport)
break;
} else {
if (f->port == dport)
break;
}
}
if (!f) {
pomlog(POMLOG_DEBUG "File not found in queued file request.");
conntrack_session_unlock(session);
return POM_OK;
}
// Remove the file from the queue and assign it to the conntrack
if (f->prev)
f->prev->next = f->next;
else
spriv->files = f->next;
if (f->next)
f->next->prev = f->prev;
f->prev = NULL;
f->next = NULL;
// Create the payload buffer
f->pload = pload_alloc(f->evt, PLOAD_FLAG_NEED_MAGIC);
if (!f->pload)
goto err;
conntrack_add_priv(s_prev->ce, obj, f, analyzer_tftp_conntrack_priv_cleanup);
} else {
evt_data = event_get_data(f->evt);
}
conntrack_session_unlock(session);
if (!f->pload) {
pomlog(POMLOG_DEBUG "Ignoring extra packet");
return POM_OK;
}
// Discard the block ID
pload += sizeof(uint16_t);
plen -= sizeof(uint16_t);
if (pload_append(f->pload, pload, plen) != POM_OK)
goto err;
uint32_t *size = PTYPE_UINT32_GETVAL(evt_data[analyzer_tftp_file_size].value);
*size += plen;
if (plen < ANALYZER_TFTP_BLK_SIZE) {
// Got last packet !
data_set(evt_data[analyzer_tftp_file_size]);
int res = pload_end(f->pload);
res += event_process_end(f->evt);
f->evt = NULL;
f->pload = NULL;
if (res)
goto err;
}
break;
}
case tftp_error: {
conntrack_session_unlock(session);
struct analyzer_tftp_file *f = conntrack_get_priv(s_prev->ce, obj);
if (f && f->pload) {
int res = pload_end(f->pload);
res += event_process_end(f->evt);
f->pload = NULL;
f->evt = NULL;
if (res)
goto err;
}
break;
}
default:
conntrack_session_unlock(session);
break;
}
return POM_OK;
err:
conntrack_session_unlock(session);
return POM_ERR;
}
static int proto_smtp_process(void *proto_priv, struct packet *p, struct proto_process_stack *stack, unsigned int stack_index) {
struct proto_process_stack *s = &stack[stack_index];
struct proto_process_stack *s_next = &stack[stack_index + 1];
if (conntrack_get_unique_from_parent(stack, stack_index) != POM_OK) {
pomlog(POMLOG_ERR "Could not get conntrack entry");
return PROTO_ERR;
}
// There should no need to keep the lock here since we are in the packet_stream lock from proto_tcp
conntrack_unlock(s->ce);
struct proto_smtp_priv *ppriv = proto_priv;
struct proto_smtp_conntrack_priv *priv = s->ce->priv;
if (!priv) {
priv = malloc(sizeof(struct proto_smtp_conntrack_priv));
if (!priv) {
pom_oom(sizeof(struct proto_smtp_conntrack_priv));
return PROTO_ERR;
}
memset(priv, 0, sizeof(struct proto_smtp_conntrack_priv));
priv->parser[POM_DIR_FWD] = packet_stream_parser_alloc(SMTP_MAX_LINE, PACKET_STREAM_PARSER_FLAG_TRIM);
if (!priv->parser[POM_DIR_FWD]) {
free(priv);
return PROTO_ERR;
}
priv->parser[POM_DIR_REV] = packet_stream_parser_alloc(SMTP_MAX_LINE, PACKET_STREAM_PARSER_FLAG_TRIM);
if (!priv->parser[POM_DIR_REV]) {
packet_stream_parser_cleanup(priv->parser[POM_DIR_FWD]);
free(priv);
return PROTO_ERR;
}
priv->server_direction = POM_DIR_UNK;
s->ce->priv = priv;
}
if (priv->flags & PROTO_SMTP_FLAG_INVALID)
return PROTO_OK;
struct packet_stream_parser *parser = priv->parser[s->direction];
if (packet_stream_parser_add_payload(parser, s->pload, s->plen) != POM_OK)
return PROTO_ERR;
char *line = NULL;
size_t len = 0;
while (1) {
// Some check to do prior to parse the payload
if (s->direction == POM_DIR_REVERSE(priv->server_direction)) {
if (priv->flags & PROTO_SMTP_FLAG_STARTTLS) {
// Last command was a STARTTLS command, this is the TLS negociation
// Since we can't parse this, mark it as invalid
priv->flags |= PROTO_SMTP_FLAG_INVALID;
return PROTO_OK;
} else if (priv->flags & PROTO_SMTP_FLAG_CLIENT_DATA) {
// We are receiving payload data, check where the end is
void *pload;
size_t plen;
packet_stream_parser_get_remaining(parser, &pload, &plen);
if (!plen)
return PROTO_OK;
// Look for the "<CR><LF>.<CR><LF>" sequence
if (priv->data_end_pos > 0) {
// The previous packet ended with something that might be the final sequence
// Check if we have the rest
int i, found = 1;
for (i = 0; i < PROTO_SMTP_DATA_END_LEN - priv->data_end_pos && i <= plen; i++) {
if (*(char*)(pload + i) != PROTO_SMTP_DATA_END[priv->data_end_pos + i]) {
found = 0;
break;
}
}
if (found) {
// If we have already processed the dot after <CR><LF> there is no way to remove it
// Thus we mark this connection as invalid. Most MTA will send at worst the last
// 3 bytes of the end sequence in a sequence packet
if (i != plen || (priv->data_end_pos >= 2 && plen < 3)) {
pomlog(POMLOG_DEBUG "The final line was not at the of a packet as expected !");
priv->flags |= PROTO_SMTP_FLAG_INVALID;
event_process_end(priv->data_evt);
priv->data_evt = NULL;
return PROTO_OK;
}
s_next->pload = pload;
s_next->plen = plen - PROTO_SMTP_DATA_END_LEN + 2; // The last line return is part of the payload
priv->flags |= PROTO_SMTP_FLAG_CLIENT_DATA_END;
priv->flags &= ~PROTO_SMTP_FLAG_CLIENT_DATA;
priv->data_end_pos = 0;
return PROTO_OK;
}
priv->data_end_pos = 0;
}
char *dotline = pom_strnstr(pload, PROTO_SMTP_DATA_END, plen);
if (dotline) {
if (pload + plen - PROTO_SMTP_DATA_END_LEN != dotline) {
pomlog(POMLOG_DEBUG "The final line was not at the of a packet as expected !");
priv->flags |= PROTO_SMTP_FLAG_INVALID;
event_process_end(priv->data_evt);
priv->data_evt = NULL;
return PROTO_OK;
}
s_next->pload = pload;
s_next->plen = plen - PROTO_SMTP_DATA_END_LEN + 2; // The last line return is part of the payload
priv->flags |= PROTO_SMTP_FLAG_CLIENT_DATA_END;
priv->flags &= ~PROTO_SMTP_FLAG_CLIENT_DATA;
} else {
// Check if the end of the payload contains part of the "<CR><LF>.<CR><LF>" sequence
int i, found = 0;
for (i = 1 ; (i < PROTO_SMTP_DATA_END_LEN) && (i <= plen); i++) {
if (!memcmp(pload + plen - i, PROTO_SMTP_DATA_END, i)) {
found = 1;
break;
}
}
if (found)
priv->data_end_pos = i;
s_next->pload = pload;
s_next->plen = plen;
}
return PROTO_OK;
}
}
// Process commands
if (packet_stream_parser_get_line(parser, &line, &len) != POM_OK)
return PROTO_ERR;
if (!line)
return PROTO_OK;
if (!len) // Probably a missed packet
return PROTO_OK;
// Try to find the server direction
if (priv->server_direction == POM_DIR_UNK) {
unsigned int code = atoi(line);
if (code > 0) {
priv->server_direction = s->direction;
} else {
priv->server_direction = POM_DIR_REVERSE(s->direction);
}
}
if (s->direction == priv->server_direction) {
// Parse the response code and generate the event
if ((len < 5) || // Server response is 3 digit error code, a space or hyphen and then at least one letter of text
(line[3] != ' ' && line[3] != '-')) {
pomlog(POMLOG_DEBUG "Too short or invalid response from server");
priv->flags |= PROTO_SMTP_FLAG_INVALID;
return POM_OK;
}
int code = atoi(line);
if (code == 0) {
pomlog(POMLOG_DEBUG "Invalid response from server");
priv->flags |= PROTO_SMTP_FLAG_INVALID;
return POM_OK;
}
if (event_has_listener(ppriv->evt_reply)) {
struct data *evt_data = NULL;
if (priv->reply_evt) {
evt_data = event_get_data(priv->reply_evt);
uint16_t cur_code = *PTYPE_UINT16_GETVAL(evt_data[proto_smtp_reply_code].value);
if (cur_code != code) {
pomlog(POMLOG_WARN "Multiline code not the same as previous line : %hu -> %hu", cur_code, code);
event_process_end(priv->reply_evt);
priv->reply_evt = NULL;
}
}
if (!priv->reply_evt) {
priv->reply_evt = event_alloc(ppriv->evt_reply);
if (!priv->reply_evt)
return PROTO_ERR;
evt_data = event_get_data(priv->reply_evt);
PTYPE_UINT16_SETVAL(evt_data[proto_smtp_reply_code].value, code);
data_set(evt_data[proto_smtp_reply_code]);
}
if (len > 4) {
struct ptype *txt = ptype_alloc("string");
if (!txt)
return PROTO_ERR;
PTYPE_STRING_SETVAL_N(txt, line + 4, len - 4);
if (data_item_add_ptype(evt_data, proto_smtp_reply_text, strdup("text"), txt) != POM_OK)
return PROTO_ERR;
}
if (!event_is_started(priv->reply_evt))
event_process_begin(priv->reply_evt, stack, stack_index, p->ts);
}
if (line[3] != '-') {
// Last line in the response
if (priv->reply_evt) {
event_process_end(priv->reply_evt);
priv->reply_evt = NULL;
}
}
if (priv->flags & PROTO_SMTP_FLAG_STARTTLS) {
// The last command was STARTTLS
priv->flags &= ~PROTO_SMTP_FLAG_STARTTLS;
if (code == 220) {
// TLS has the go, we can't parse from now so mark as invalid
priv->flags |= PROTO_SMTP_FLAG_INVALID;
return POM_OK;
}
}
} else {
// Client command
if (len < 4) { // Client commands are at least 4 bytes long
pomlog(POMLOG_DEBUG "Too short or invalid query from client");
priv->flags |= PROTO_SMTP_FLAG_INVALID;
return POM_OK;
}
// Make sure it's a command by checking it's at least a four letter word
int i;
for (i = 0; i < 4; i++) {
// In some case it can also be a base64 encoded word
if (! ((line[i] >= 'A' && line[i] <= 'Z')
|| (line[i] >= 'a' && line[i] <= 'z')
|| (line[i] >= '0' && line [i] <= '9')
|| line[i] == '='))
break;
}
if ((i < 4)) {
pomlog(POMLOG_DEBUG "Recieved invalid client command");
priv->flags |= PROTO_SMTP_FLAG_INVALID;
return POM_OK;
}
if (!strncasecmp(line, "DATA", strlen("DATA")) && len == strlen("DATA")) {
priv->flags |= PROTO_SMTP_FLAG_CLIENT_DATA;
} else if (!strncasecmp(line, "STARTTLS", strlen("STARTTLS")) && len == strlen("STARTTLS")) {
priv->flags |= PROTO_SMTP_FLAG_STARTTLS;
}
if (event_has_listener(ppriv->evt_cmd)) {
struct event *evt = event_alloc(ppriv->evt_cmd);
if (!evt)
return PROTO_ERR;
size_t cmdlen = len;
char *space = memchr(line, ' ', len);
if (space)
cmdlen = space - line;
struct data *evt_data = event_get_data(evt);
PTYPE_STRING_SETVAL_N(evt_data[proto_smtp_cmd_name].value, line, cmdlen);
data_set(evt_data[proto_smtp_cmd_name]);
if (space) {
PTYPE_STRING_SETVAL_N(evt_data[proto_smtp_cmd_arg].value, space + 1, len - 1 - cmdlen);
data_set(evt_data[proto_smtp_cmd_arg]);
}
if (priv->flags & PROTO_SMTP_FLAG_CLIENT_DATA) {
// The event ends at the end of the message
priv->data_evt = evt;
return event_process_begin(evt, stack, stack_index, p->ts);
} else {
return event_process(evt, stack, stack_index, p->ts);
}
}
}
}
return PROTO_OK;
}
static int analyzer_docsis_pkt_process(void *obj, struct packet *p, struct proto_process_stack *stack, unsigned int stack_index) {
struct analyzer *analyzer = obj;
struct analyzer_docsis_priv *priv = analyzer->priv;
struct proto_process_stack *s = &stack[stack_index];
uint8_t *type = PTYPE_UINT8_GETVAL(s->pkt_info->fields_value[proto_docsis_mgmt_field_type]);
char *mac_dst = PTYPE_MAC_GETADDR(s->pkt_info->fields_value[proto_docsis_mgmt_field_dst]);
// FIXME : improve this filtering at the source
// Filter some useless messages we don't care about
if (*type == MMT_UCD2 || *type == MMT_UCD3 || *type == MMT_MDD)
return POM_OK;
if (*type != MMT_RNG_RSP) {
pomlog(POMLOG_DEBUG "Unhandled DOCSIS MGMT message type %u for destination mac %02hhX:%02hhX:%02hhX:%02hhX:%02hhX:%02hhX", *type, mac_dst[0], mac_dst[1], mac_dst[2], mac_dst[3], mac_dst[4], mac_dst[5]);
return POM_OK;
}
// Use the last bits for the modem ID
uint16_t id = ntohs(*(uint16_t*) (mac_dst + 4)) & ANALYZER_DOCSIS_CM_MASK;
pom_mutex_lock(&priv->lock);
struct analyzer_docsis_cm *cm;
for (cm = priv->cms[id]; cm; cm = cm->next) {
if (!memcmp(cm->mac, mac_dst, sizeof(cm->mac)))
break;
}
if (!cm) {
// Cable modem not found !
cm = malloc(sizeof(struct analyzer_docsis_cm));
if (!cm) {
pom_mutex_unlock(&priv->lock);
pom_oom(sizeof(struct analyzer_docsis_cm));
return POM_ERR;
}
memset(cm, 0, sizeof(struct analyzer_docsis_cm));
cm->t = timer_alloc(cm, analyzer_docsis_cm_timeout);
if (!cm->t) {
pom_mutex_unlock(&priv->lock);
free(cm);
return POM_ERR;
}
cm->analyzer = analyzer;
memcpy(cm->mac, mac_dst, sizeof(cm->mac));
cm->t4_multiplier = 1;
cm->next = priv->cms[id];
if (cm->next)
cm->next->prev = cm;
priv->cms[id] = cm;
// Announce the new CM
if (event_has_listener(priv->evt_cm_new)) {
struct event *evt = event_alloc(priv->evt_cm_new);
if (!evt) {
pom_mutex_unlock(&priv->lock);
return POM_ERR;
}
struct data *evt_data = event_get_data(evt);
PTYPE_MAC_SETADDR(evt_data[analyzer_docsis_cm_new_mac].value, cm->mac);
data_set(evt_data[analyzer_docsis_cm_new_mac]);
PTYPE_STRING_SETVAL(evt_data[analyzer_docsis_cm_new_input].value, p->input->name);
data_set(evt_data[analyzer_docsis_cm_new_input]);
if (event_process(evt, stack, stack_index, p->ts) != POM_OK) {
pom_mutex_unlock(&priv->lock);
return POM_ERR;
}
}
}
switch (*type) {
case MMT_RNG_RSP:
analyzer_docsis_pkt_parse_rng_rsp(priv, cm, p, stack, stack_index);
break;
// FIXME If ranging_status is 0 and we receive another msg, probably it's actually registered
// and we need to call analyzer_docsis_reg_status_update();
}
timer_queue_now(cm->t, T4_TIMEOUT * cm->t4_multiplier, p->ts);
pom_mutex_unlock(&priv->lock);
return POM_OK;
}
static int proto_ppp_pap_process(void *proto_priv, struct packet *p, struct proto_process_stack *stack, unsigned int stack_index) {
struct proto_process_stack *s = &stack[stack_index];
if (sizeof(struct ppp_pap_header) > s->plen)
return PROTO_INVALID;
struct ppp_pap_header *pchdr = s->pload;
size_t len = ntohs(pchdr->length);
if (len > s->plen)
return PROTO_INVALID;
// Keep only the payload len
len -= sizeof(struct ppp_pap_header);
PTYPE_UINT8_SETVAL(s->pkt_info->fields_value[proto_ppp_pap_field_code], pchdr->code);
PTYPE_UINT8_SETVAL(s->pkt_info->fields_value[proto_ppp_pap_field_identifier], pchdr->identifier);
struct proto_ppp_pap_priv *priv = proto_priv;
if (conntrack_get(stack, stack_index) != POM_OK)
return PROTO_ERR;
if (conntrack_delayed_cleanup(s->ce, *PTYPE_UINT32_GETVAL(priv->p_auth_timeout), p->ts) != POM_OK) {
conntrack_unlock(s->ce);
return PROTO_ERR;
}
conntrack_unlock(s->ce);
if (pchdr->code == 1 && event_has_listener(priv->evt_request)) {
if (len < 4)
return PROTO_INVALID;
uint8_t *peer_id_len = s->pload + sizeof(struct ppp_pap_header);
if (*peer_id_len > len - 2)
return PROTO_INVALID;
len -= (*peer_id_len + 1);
uint8_t *pwd_len = peer_id_len + *peer_id_len + 1;
if (*pwd_len > len - 1)
return PROTO_INVALID;
// Process the challenge/response event
struct event *evt = event_alloc(priv->evt_request);
if (!evt)
return PROTO_ERR;
struct data *evt_data = event_get_data(evt);
PTYPE_UINT8_SETVAL(evt_data[evt_ppp_pap_request_code].value, pchdr->code);
data_set(evt_data[evt_ppp_pap_request_code]);
PTYPE_UINT8_SETVAL(evt_data[evt_ppp_pap_request_identifier].value, pchdr->identifier);
data_set(evt_data[evt_ppp_pap_request_identifier]);
PTYPE_STRING_SETVAL_N(evt_data[evt_ppp_pap_request_peer_id].value, (char *)peer_id_len + 1, *peer_id_len);
data_set(evt_data[evt_ppp_pap_request_peer_id]);
PTYPE_STRING_SETVAL_N(evt_data[evt_ppp_pap_request_password].value, (char *)pwd_len + 1, *pwd_len);
data_set(evt_data[evt_ppp_pap_request_password]);
if (event_process(evt, stack, stack_index, p->ts) != POM_OK)
return PROTO_ERR;
}
if ((pchdr->code == 2 || pchdr->code == 3) && event_has_listener(priv->evt_ack_nack)) {
struct event *evt = event_alloc(priv->evt_ack_nack);
if (!evt)
return PROTO_ERR;
struct data *evt_data = event_get_data(evt);
PTYPE_UINT8_SETVAL(evt_data[evt_ppp_pap_ack_nack_code].value, pchdr->code);
data_set(evt_data[evt_ppp_pap_ack_nack_code]);
PTYPE_UINT8_SETVAL(evt_data[evt_ppp_pap_ack_nack_identifier].value, pchdr->identifier);
data_set(evt_data[evt_ppp_pap_ack_nack_identifier]);
uint8_t *msg_len = s->pload + sizeof(struct ppp_pap_header);
if (*msg_len > len - 1)
return PROTO_INVALID;
PTYPE_STRING_SETVAL_N(evt_data[evt_ppp_pap_ack_nack_message].value, (char *)msg_len + 1, *msg_len);
data_set(evt_data[evt_ppp_pap_ack_nack_message]);
if (event_process(evt, stack, stack_index, p->ts) != POM_OK)
return PROTO_ERR;
}
return PROTO_OK;
}
int analyzer_eap_finalize(struct analyzer_eap_priv *apriv, struct analyzer_eap_ce_priv *cpriv) {
if (!cpriv->evt_request || !cpriv->evt_response)
return POM_OK;
struct event *evt = NULL;
struct data *evt_data = NULL;
struct data *evt_req_data = event_get_data(cpriv->evt_request);
struct data *evt_rsp_data = event_get_data(cpriv->evt_response);
if (!data_is_set(evt_rsp_data[evt_eap_md5_challenge_value]))
return POM_OK;
if (!data_is_set(evt_req_data[evt_eap_md5_challenge_value]))
return POM_OK;
evt = event_alloc(apriv->evt_md5_auth);
if (!evt)
return POM_ERR;
evt_data = event_get_data(evt);
if (ptype_copy(evt_data[analyzer_eap_md5_challenge].value, evt_req_data[evt_eap_md5_challenge_value].value) != POM_OK)
return POM_ERR;
data_set(evt_data[analyzer_eap_md5_challenge]);
if (ptype_copy(evt_data[analyzer_eap_md5_response].value, evt_rsp_data[evt_eap_md5_challenge_value].value) != POM_OK)
return POM_ERR;
data_set(evt_data[analyzer_eap_md5_response]);
if (cpriv->client) {
evt_data[analyzer_eap_common_client].value = cpriv->client;
data_set(evt_data[analyzer_eap_common_client]);
data_do_clean(evt_data[analyzer_eap_common_client]);
cpriv->client = NULL;
}
if (cpriv->server) {
evt_data[analyzer_eap_common_server].value = cpriv->server;
data_set(evt_data[analyzer_eap_common_server]);
data_do_clean(evt_data[analyzer_eap_common_server]);
cpriv->server = NULL;
}
if (cpriv->vlan) {
evt_data[analyzer_eap_common_vlan].value = cpriv->vlan;
data_set(evt_data[analyzer_eap_common_vlan]);
data_do_clean(evt_data[analyzer_eap_common_vlan]);
cpriv->vlan = NULL;
}
if (cpriv->top_proto) {
PTYPE_STRING_SETVAL(evt_data[analyzer_eap_common_top_proto].value, cpriv->top_proto);
data_set(evt_data[analyzer_eap_common_top_proto]);
}
if (ptype_copy(evt_data[analyzer_eap_common_identifier].value, evt_req_data[evt_eap_common_identifier].value) != POM_OK)
return POM_ERR;
data_set(evt_data[analyzer_eap_common_identifier]);
if (!data_is_set(evt_rsp_data[evt_eap_md5_challenge_name]))
return POM_OK;
if (ptype_copy(evt_data[analyzer_eap_common_username].value, evt_rsp_data[evt_eap_md5_challenge_name].value) != POM_OK)
return POM_ERR;
data_set(evt_data[analyzer_eap_common_username]);
if (cpriv->evt_result) {
struct data *evt_res_data = event_get_data(cpriv->evt_result);
ptype_copy(evt_data[analyzer_eap_common_success].value, evt_res_data[evt_eap_success_failure_success].value);
data_set(evt_data[analyzer_eap_common_success]);
event_refcount_dec(cpriv->evt_result);
cpriv->evt_result = NULL;
}
ptime ts = event_get_timestamp(cpriv->evt_response);
event_refcount_dec(cpriv->evt_request);
cpriv->evt_request = NULL;
event_refcount_dec(cpriv->evt_response);
cpriv->evt_response = NULL;
return event_process(evt, NULL, 0, ts);
}
int analyzer_eap_event_process_begin(struct event *evt, void *obj, struct proto_process_stack *stack, unsigned int stack_index) {
struct analyzer *analyzer = obj;
struct analyzer_eap_priv *apriv = analyzer->priv;
struct proto_process_stack *s = &stack[stack_index];
if (!s->ce)
return PROTO_ERR;
conntrack_lock(s->ce);
struct ptype *src = NULL, *dst = NULL;
struct analyzer_eap_ce_priv *cpriv = conntrack_get_priv(s->ce, analyzer);
if (!cpriv) {
cpriv = malloc(sizeof(struct analyzer_eap_ce_priv));
if (!cpriv) {
pom_oom(sizeof(struct analyzer_eap_ce_priv));
goto err;
}
memset(cpriv, 0, sizeof(struct analyzer_eap_ce_priv));
if (conntrack_add_priv(s->ce, analyzer, cpriv, analyzer_eap_ce_priv_cleanup) != POM_OK) {
free(cpriv);
goto err;
}
// Try to find the source and destination
unsigned int i = 0;
for (i = 1; i <= 4; i++) {
struct proto_process_stack *prev_stack = &stack[stack_index - i];
if (!prev_stack->proto)
break;
struct proto_reg_info *info = proto_get_info(prev_stack->proto);
if (!strcmp(info->name, "vlan")) {
cpriv->vlan = ptype_alloc_from(prev_stack->pkt_info->fields_value[proto_vlan_field_vid]);
if (!cpriv->vlan)
return POM_ERR;
}
unsigned int j;
for (j = 0; !src || !dst; j++) {
struct proto_reg_info *prev_info = proto_get_info(prev_stack->proto);
if (!prev_info->pkt_fields)
break;
char *name = prev_info->pkt_fields[j].name;
if (!name)
break;
if (!src && !strcmp(name, "src"))
src = prev_stack->pkt_info->fields_value[j];
else if (!dst && !strcmp(name, "dst"))
dst = prev_stack->pkt_info->fields_value[j];
}
if (src || dst)
break;
}
struct proto_process_stack *prev_stack = &stack[stack_index - 2];
if (prev_stack->proto) {
struct proto_reg_info *info = proto_get_info(prev_stack->proto);
cpriv->top_proto = info->name;
}
}
struct event_reg *evt_reg = event_get_reg(evt);
struct data *evt_data = event_get_data(evt);
int dir = POM_DIR_UNK;
if (evt_reg == apriv->evt_md5_challenge) {
uint8_t code = *PTYPE_UINT8_GETVAL(evt_data[evt_eap_common_code].value);
if (code == 1) {
if (!cpriv->evt_request) {
event_refcount_inc(evt);
cpriv->evt_request = evt;
}
dir = POM_DIR_REV;
} else if (code == 2) {
if (!cpriv->evt_response) {
event_refcount_inc(evt);
cpriv->evt_response = evt;
}
dir = POM_DIR_FWD;
}
} else {
if (!cpriv->evt_result) {
event_refcount_inc(evt);
cpriv->evt_result = evt;
}
dir = POM_DIR_REV;
}
if (src && dst && dir != POM_DIR_UNK) {
if (dir == POM_DIR_FWD) {
cpriv->client = ptype_alloc_from(src);
cpriv->server = ptype_alloc_from(dst);
} else {
cpriv->client = ptype_alloc_from(dst);
cpriv->server = ptype_alloc_from(src);
}
}
int res = POM_OK;
if (cpriv->evt_request && cpriv->evt_response && cpriv->evt_result)
res = analyzer_eap_finalize(apriv, cpriv);
conntrack_unlock(s->ce);
return res;
err:
conntrack_unlock(s->ce);
return POM_ERR;
}