1
0
mirror of https://github.com/profanity-im/profanity.git synced 2024-11-03 19:37:16 -05:00

Merge pull request #1539 from DebXWoody/omemo-logging

Improved OMEMO logging
This commit is contained in:
Michael Vetter 2021-05-28 19:53:16 +02:00 committed by GitHub
commit 6c5fd08698
No known key found for this signature in database
GPG Key ID: 4AEE18F83AFDEB23
4 changed files with 84 additions and 40 deletions

View File

@ -404,10 +404,10 @@ void
omemo_start_session(const char* const barejid)
{
if (omemo_loaded()) {
log_info("[OMEMO] start session with %s", barejid);
log_debug("[OMEMO] start session with %s", barejid);
GList* device_list = g_hash_table_lookup(omemo_ctx.device_list, barejid);
if (!device_list) {
log_info("[OMEMO] missing device list for %s", barejid);
log_debug("[OMEMO] missing device list for %s", barejid);
omemo_devicelist_request(barejid);
g_hash_table_insert(omemo_ctx.device_list_handler, strdup(barejid), _handle_device_list_start_session);
return;
@ -544,11 +544,11 @@ omemo_set_device_list(const char* const from, GList* device_list)
// OMEMO trustmode ToFu
if (g_strcmp0(prefs_get_string(PREF_OMEMO_TRUST_MODE), "firstusage") == 0) {
log_info("[OMEMO] Checking firstusage state for %s", jid->barejid);
log_debug("[OMEMO] Checking firstusage state for %s", jid->barejid);
GHashTable* trusted = g_hash_table_lookup(omemo_ctx.identity_key_store.trusted, jid->barejid);
if (trusted) {
if (g_hash_table_size(trusted) > 0) {
log_info("[OMEMO] Found trusted device for %s - skip firstusage", jid->barejid);
log_debug("[OMEMO] Found trusted device for %s - skip firstusage", jid->barejid);
return;
}
} else {
@ -638,6 +638,7 @@ omemo_start_device_session(const char* const jid, uint32_t device_id,
const unsigned char* const signature, size_t signature_len,
const unsigned char* const identity_key_raw, size_t identity_key_len)
{
log_debug("[OMEMO] Starting device session for %s with device %d", jid, device_id);
signal_protocol_address address = {
.name = jid,
.name_len = strlen(jid),
@ -649,6 +650,7 @@ omemo_start_device_session(const char* const jid, uint32_t device_id,
_cache_device_identity(jid, device_id, identity_key);
gboolean trusted = is_trusted_identity(&address, (uint8_t*)identity_key_raw, identity_key_len, &omemo_ctx.identity_key_store);
log_debug("[OMEMO] Trust %s (%d): %d", jid, device_id, trusted);
if ((g_strcmp0(prefs_get_string(PREF_OMEMO_TRUST_MODE), "blind") == 0) && !trusted) {
char* fp = _omemo_fingerprint(identity_key, TRUE);
@ -659,10 +661,12 @@ omemo_start_device_session(const char* const jid, uint32_t device_id,
}
if (!trusted) {
log_debug("[OMEMO] We don't trust device %d for %s\n", device_id,jid);
goto out;
}
if (!contains_session(&address, omemo_ctx.session_store)) {
log_debug("[OMEMO] There is no Session for %s ( %d) ,... building session.", address.name, address.device_id );
int res;
session_pre_key_bundle* bundle;
signal_protocol_address* address;
@ -701,7 +705,9 @@ omemo_start_device_session(const char* const jid, uint32_t device_id,
goto out;
}
log_info("[OMEMO] create session with %s device %d", jid, device_id);
log_debug("[OMEMO] create session with %s device %d", jid, device_id);
} else {
log_debug("[OMEMO] session with %s device %d exists", jid, device_id);
}
out:
@ -734,7 +740,7 @@ omemo_on_message_send(ProfWin* win, const char* const message, gboolean request_
res = aes128gcm_encrypt(ciphertext, &ciphertext_len, tag, &tag_len, (const unsigned char* const)message, strlen(message), iv, key);
if (res != 0) {
log_error("[OMEMO] cannot encrypt message");
log_error("[OMEMO][SEND] cannot encrypt message");
goto out;
}
@ -770,7 +776,8 @@ omemo_on_message_send(ProfWin* win, const char* const message, gboolean request_
GList* recipient_device_id = NULL;
recipient_device_id = g_hash_table_lookup(omemo_ctx.device_list, recipients_iter->data);
if (!recipient_device_id) {
log_warning("[OMEMO] cannot find device ids for %s", recipients_iter->data);
log_warning("[OMEMO][SEND] cannot find device ids for %s", recipients_iter->data);
win_println(win, THEME_ERROR, "!", "Can't find a OMEMO device id for %s.\n", recipients_iter->data);
continue;
}
@ -784,16 +791,17 @@ omemo_on_message_send(ProfWin* win, const char* const message, gboolean request_
.device_id = GPOINTER_TO_INT(device_ids_iter->data)
};
log_debug("[OMEMO][SEND] recipients with device id %d for %s", GPOINTER_TO_INT(device_ids_iter->data), recipients_iter->data);
res = session_cipher_create(&cipher, omemo_ctx.store, &address, omemo_ctx.signal);
if (res != 0) {
log_error("[OMEMO] cannot create cipher for %s device id %d", address.name, address.device_id);
if (res != SG_SUCCESS ) {
log_error("[OMEMO][SEND] cannot create cipher for %s device id %d - code: %d", address.name, address.device_id, res);
continue;
}
res = session_cipher_encrypt(cipher, key_tag, AES128_GCM_KEY_LENGTH + AES128_GCM_TAG_LENGTH, &ciphertext);
session_cipher_free(cipher);
if (res != 0) {
log_error("[OMEMO] cannot encrypt key for %s device id %d", address.name, address.device_id);
if (res != SG_SUCCESS ) {
log_error("[OMEMO][SEND] cannot encrypt key for %s device id %d - code: %d", address.name, address.device_id,res);
continue;
}
signal_buffer* buffer = ciphertext_message_get_serialized(ciphertext);
@ -832,7 +840,7 @@ omemo_on_message_send(ProfWin* win, const char* const message, gboolean request_
.name_len = strlen(jid->barejid),
.device_id = GPOINTER_TO_INT(device_ids_iter->data)
};
log_debug("[OMEMO][SEND] Sending to device %d for %s ", address.device_id, address.name);
// Don't encrypt for this device (according to
// <https://xmpp.org/extensions/xep-0384.html#encrypt>).
if (address.device_id == omemo_ctx.device_id) {
@ -841,14 +849,14 @@ omemo_on_message_send(ProfWin* win, const char* const message, gboolean request_
res = session_cipher_create(&cipher, omemo_ctx.store, &address, omemo_ctx.signal);
if (res != 0) {
log_error("[OMEMO] cannot create cipher for %s device id %d", address.name, address.device_id);
log_error("[OMEMO][SEND] cannot create cipher for %s device id %d", address.name, address.device_id);
continue;
}
res = session_cipher_encrypt(cipher, key_tag, AES128_GCM_KEY_LENGTH + AES128_GCM_TAG_LENGTH, &ciphertext);
session_cipher_free(cipher);
if (res != 0) {
log_error("[OMEMO] cannot encrypt key for %s device id %d", address.name, address.device_id);
log_error("[OMEMO][SEND] cannot encrypt key for %s device id %d", address.name, address.device_id);
continue;
}
signal_buffer* buffer = ciphertext_message_get_serialized(ciphertext);
@ -895,7 +903,7 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
Jid* sender = NULL;
Jid* from = jid_create(from_jid);
if (!from) {
log_error("Invalid jid %s", from_jid);
log_error("[OMEMO][RECV] Invalid jid %s", from_jid);
goto out;
}
@ -910,7 +918,7 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
}
if (!key) {
log_warning("[OMEMO] received a message with no corresponding key");
log_warning("[OMEMO][RECV] received a message with no corresponding key");
goto out;
}
@ -926,7 +934,7 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
}
g_list_free(roster);
if (!sender) {
log_warning("[OMEMO] cannot find MUC message sender fulljid");
log_warning("[OMEMO][RECV] cannot find MUC message sender fulljid");
goto out;
}
} else {
@ -943,12 +951,12 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
res = session_cipher_create(&cipher, omemo_ctx.store, &address, omemo_ctx.signal);
if (res != 0) {
log_error("[OMEMO] cannot create session cipher");
log_error("[OMEMO][RECV] cannot create session cipher");
goto out;
}
if (key->prekey) {
log_debug("[OMEMO] decrypting message with prekey");
log_debug("[OMEMO][RECV] decrypting message with prekey");
pre_key_signal_message* message;
ec_public_key* their_identity_key;
signal_buffer* identity_buffer = NULL;
@ -981,16 +989,17 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
if (res == 0) {
/* Start a new session */
log_debug("[OMEMO][RECV] Res is 0 => omemo_bundle_request");
omemo_bundle_request(sender->barejid, sid, omemo_start_device_session_handle_bundle, free, strdup(sender->barejid));
}
} else {
log_debug("[OMEMO] decrypting message with existing session");
log_debug("[OMEMO][RECV] decrypting message with existing session");
signal_message* message = NULL;
res = signal_message_deserialize(&message, key->data, key->length, omemo_ctx.signal);
if (res < 0) {
log_error("[OMEMO] cannot deserialize message");
log_error("[OMEMO][RECV] cannot deserialize message");
} else {
res = session_cipher_decrypt_signal_message(cipher, message, NULL, &plaintext_key);
*trusted = true;
@ -1000,12 +1009,12 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
session_cipher_free(cipher);
if (res != 0) {
log_error("[OMEMO] cannot decrypt message key");
log_error("[OMEMO][RECV] cannot decrypt message key");
goto out;
}
if (signal_buffer_len(plaintext_key) != AES128_GCM_KEY_LENGTH + AES128_GCM_TAG_LENGTH) {
log_error("[OMEMO] invalid key length");
log_error("[OMEMO][RECV] invalid key length");
signal_buffer_free(plaintext_key);
goto out;
}
@ -1017,7 +1026,7 @@ omemo_on_message_recv(const char* const from_jid, uint32_t sid,
signal_buffer_data(plaintext_key) + AES128_GCM_KEY_LENGTH);
signal_buffer_free(plaintext_key);
if (res != 0) {
log_error("[OMEMO] cannot decrypt message: %s", gcry_strerror(res));
log_error("[OMEMO][RECV] cannot decrypt message: %s", gcry_strerror(res));
free(plaintext);
plaintext = NULL;
goto out;
@ -1112,6 +1121,7 @@ omemo_is_trusted_identity(const char* const jid, const char* const fingerprint)
buffer = signal_buffer_append(buffer, fingerprint_raw, fingerprint_len);
gboolean trusted = is_trusted_identity(&address, signal_buffer_data(buffer), signal_buffer_len(buffer), &omemo_ctx.identity_key_store);
log_debug("[OMEMO] Device trusted %s (%d): %d", jid, GPOINTER_TO_INT(device_id), trusted);
free(fingerprint_raw);
signal_buffer_free(buffer);
@ -1305,17 +1315,17 @@ _omemo_log(int level, const char* message, size_t len, void* user_data)
{
switch (level) {
case SG_LOG_ERROR:
log_error("[OMEMO] %s", message);
log_error("[OMEMO][SIGNAL] %s", message);
break;
case SG_LOG_WARNING:
log_warning("[OMEMO] %s", message);
log_warning("[OMEMO][SIGNAL] %s", message);
break;
case SG_LOG_NOTICE:
case SG_LOG_INFO:
log_info("[OMEMO] %s", message);
log_debug("[OMEMO][SIGNAL] %s", message);
break;
case SG_LOG_DEBUG:
log_debug("[OMEMO] %s", message);
log_debug("[OMEMO][SIGNAL] %s", message);
break;
}
}
@ -1323,13 +1333,16 @@ _omemo_log(int level, const char* message, size_t len, void* user_data)
static gboolean
_handle_own_device_list(const char* const jid, GList* device_list)
{
// We didn't find the own device id -> publish
if (!g_list_find(device_list, GINT_TO_POINTER(omemo_ctx.device_id))) {
log_debug("[OMEMO] No device id for our device? publish device list...");
device_list = g_list_copy(device_list);
device_list = g_list_append(device_list, GINT_TO_POINTER(omemo_ctx.device_id));
g_hash_table_insert(omemo_ctx.device_list, strdup(jid), device_list);
omemo_devicelist_publish(device_list);
}
log_debug("[OMEMO] Request OMEMO Bundles for my devices...");
GList* device_id;
for (device_id = device_list; device_id != NULL; device_id = device_id->next) {
omemo_bundle_request(jid, GPOINTER_TO_INT(device_id->data), omemo_start_device_session_handle_bundle, free, strdup(jid));
@ -1341,6 +1354,7 @@ _handle_own_device_list(const char* const jid, GList* device_list)
static gboolean
_handle_device_list_start_session(const char* const jid, GList* device_list)
{
log_debug("[OMEMO] Start session for %s - device_list", jid);
omemo_start_session(jid);
return FALSE;
@ -1446,7 +1460,7 @@ static gboolean
_load_identity(void)
{
GError* error = NULL;
log_info("Loading OMEMO identity");
log_info("[OMEMO] Loading OMEMO identity");
/* Device ID */
error = NULL;
@ -1455,7 +1469,7 @@ _load_identity(void)
log_error("[OMEMO] cannot load device id: %s", error->message);
return FALSE;
}
log_info("[OMEMO] device id: %d", omemo_ctx.device_id);
log_debug("[OMEMO] device id: %d", omemo_ctx.device_id);
/* Registration ID */
error = NULL;
@ -1658,7 +1672,7 @@ _cache_device_identity(const char* const jid, uint32_t device_id, ec_public_key*
}
char* fingerprint = _omemo_fingerprint(identity, FALSE);
log_info("[OMEMO] cache identity for %s:%d: %s", jid, device_id, fingerprint);
log_debug("[OMEMO] cache identity for %s:%d: %s", jid, device_id, fingerprint);
g_hash_table_insert(known_identities, strdup(fingerprint), GINT_TO_POINTER(device_id));
char* device_id_str = g_strdup_printf("%d", device_id);

View File

@ -36,6 +36,7 @@
#include <signal/signal_protocol.h>
#include "config.h"
#include "log.h"
#include "omemo/omemo.h"
#include "omemo/store.h"
@ -80,15 +81,19 @@ load_session(signal_buffer** record, signal_buffer** user_record,
GHashTable* session_store = (GHashTable*)user_data;
GHashTable* device_store = NULL;
log_debug("[OMEMO][STORE] Looking for %s in session_store", address->name);
device_store = g_hash_table_lookup(session_store, address->name);
if (!device_store) {
*record = NULL;
log_warning("[OMEMO][STORE] No device store for %s found", address->name);
return 0;
}
log_debug("[OMEMO][STORE] Looking for device %d of %s ", address->device_id, address->name);
signal_buffer* original = g_hash_table_lookup(device_store, GINT_TO_POINTER(address->device_id));
if (!original) {
*record = NULL;
log_warning("[OMEMO][STORE] No device (%d) store for %s found", address->device_id, address->name);
return 0;
}
*record = signal_buffer_copy(original);
@ -106,6 +111,7 @@ get_sub_device_sessions(signal_int_list** sessions, const char* name,
device_store = g_hash_table_lookup(session_store, name);
if (!device_store) {
log_debug("[OMEMO][STORE] What?");
return SG_SUCCESS;
}
@ -133,6 +139,7 @@ store_session(const signal_protocol_address* address,
GHashTable* session_store = (GHashTable*)user_data;
GHashTable* device_store = NULL;
log_debug("[OMEMO][STORE] Store session for %s (%d)", address->name, address->device_id);
device_store = g_hash_table_lookup(session_store, (void*)address->name);
if (!device_store) {
device_store = g_hash_table_new_full(g_direct_hash, g_direct_equal, NULL, (GDestroyNotify)signal_buffer_free);
@ -161,10 +168,12 @@ contains_session(const signal_protocol_address* address, void* user_data)
device_store = g_hash_table_lookup(session_store, address->name);
if (!device_store) {
log_debug("[OMEMO][STORE] No Device");
return 0;
}
if (!g_hash_table_lookup(device_store, GINT_TO_POINTER(address->device_id))) {
log_debug("[OMEMO][STORE] No Session for %d ", address->device_id);
return 0;
}
@ -200,6 +209,7 @@ delete_all_sessions(const char* name, size_t name_len, void* user_data)
device_store = g_hash_table_lookup(session_store, name);
if (!device_store) {
log_debug("[OMEMO][STORE] No device => no delete");
return SG_SUCCESS;
}
@ -216,6 +226,7 @@ load_pre_key(signal_buffer** record, uint32_t pre_key_id, void* user_data)
original = g_hash_table_lookup(pre_key_store, GINT_TO_POINTER(pre_key_id));
if (original == NULL) {
log_error("[OMEMO][STORE] SG_ERR_INVALID_KEY_ID");
return SG_ERR_INVALID_KEY_ID;
}
@ -269,6 +280,7 @@ remove_pre_key(uint32_t pre_key_id, void* user_data)
if (ret > 0) {
return SG_SUCCESS;
} else {
log_error("[OMEMO][STORE] SG_ERR_INVALID_KEY_ID");
return SG_ERR_INVALID_KEY_ID;
}
}
@ -282,6 +294,7 @@ load_signed_pre_key(signal_buffer** record, uint32_t signed_pre_key_id,
original = g_hash_table_lookup(signed_pre_key_store, GINT_TO_POINTER(signed_pre_key_id));
if (!original) {
log_error("[OMEMO][STORE] SG_ERR_INVALID_KEY_ID");
return SG_ERR_INVALID_KEY_ID;
}
@ -370,6 +383,7 @@ save_identity(const signal_protocol_address* address, uint8_t* key_data,
int trusted = is_trusted_identity(address, key_data, key_len, user_data);
identity_key_store->recv = true;
if (trusted == 0) {
log_debug("[OMEMO][STORE] trusted 0");
/* If not trusted we just don't save the identity */
return SG_SUCCESS;
}
@ -402,12 +416,14 @@ is_trusted_identity(const signal_protocol_address* address, uint8_t* key_data,
{
int ret;
identity_key_store_t* identity_key_store = (identity_key_store_t*)user_data;
log_debug("[OMEMO][STORE] Checking trust %s (%d)", address->name, address->device_id);
GHashTable* trusted = g_hash_table_lookup(identity_key_store->trusted, address->name);
if (!trusted) {
if (identity_key_store->recv) {
log_debug("[OMEMO][STORE] identity_key_store->recv");
return 1;
} else {
log_debug("[OMEMO][STORE] !identity_key_store->recv");
return 0;
}
}
@ -415,13 +431,18 @@ is_trusted_identity(const signal_protocol_address* address, uint8_t* key_data,
signal_buffer* buffer = signal_buffer_create(key_data, key_len);
signal_buffer* original = g_hash_table_lookup(trusted, GINT_TO_POINTER(address->device_id));
if(!original) {
log_debug("[OMEMO][STORE] original not found %s (%d)", address->name, address->device_id);
}
ret = original != NULL && signal_buffer_compare(buffer, original) == 0;
signal_buffer_free(buffer);
if (identity_key_store->recv) {
log_debug("[OMEMO][STORE] 1 identity_key_store->recv");
return 1;
} else {
log_debug("[OMEMO][STORE] Checking trust %s (%d): %d", address->name, address->device_id, ret);
return ret;
}
}

View File

@ -624,6 +624,7 @@ message_send_chat_omemo(const char* const jid, uint32_t sid, GList* keys,
xmpp_stanza_t* header = xmpp_stanza_new(ctx);
xmpp_stanza_set_name(header, "header");
char* sid_text = g_strdup_printf("%d", sid);
log_debug("[OMEMO] Sending from device sid %s", sid_text);
xmpp_stanza_set_attribute(header, "sid", sid_text);
g_free(sid_text);
@ -634,6 +635,7 @@ message_send_chat_omemo(const char* const jid, uint32_t sid, GList* keys,
xmpp_stanza_t* key_stanza = xmpp_stanza_new(ctx);
xmpp_stanza_set_name(key_stanza, "key");
char* rid = g_strdup_printf("%d", key->device_id);
log_debug("[OMEMO] Sending to device rid %s", rid == NULL ? "NULL" : rid );
xmpp_stanza_set_attribute(key_stanza, "rid", rid);
g_free(rid);
if (key->prekey) {

View File

@ -65,7 +65,7 @@ omemo_devicelist_publish(GList* device_list)
xmpp_ctx_t* const ctx = connection_get_ctx();
xmpp_stanza_t* iq = stanza_create_omemo_devicelist_publish(ctx, device_list);
log_info("[OMEMO] publish device list");
log_debug("[OMEMO] publish device list");
if (connection_supports(XMPP_FEATURE_PUBSUB_PUBLISH_OPTIONS)) {
stanza_attach_publish_options(ctx, iq, "pubsub#access_model", "open");
@ -81,7 +81,7 @@ omemo_devicelist_request(const char* const jid)
xmpp_ctx_t* const ctx = connection_get_ctx();
char* id = connection_create_stanza_id();
log_info("[OMEMO] request device list for jid: %s", jid);
log_debug("[OMEMO] request device list for jid: %s", jid);
xmpp_stanza_t* iq = stanza_create_omemo_devicelist_request(ctx, id, jid);
iq_id_handler_add(id, _omemo_receive_devicelist, NULL, NULL);
@ -95,7 +95,7 @@ omemo_devicelist_request(const char* const jid)
void
omemo_bundle_publish(gboolean first)
{
log_info("[OMEMO] publish own OMEMO bundle");
log_debug("[OMEMO] publish own OMEMO bundle");
xmpp_ctx_t* const ctx = connection_get_ctx();
unsigned char* identity_key = NULL;
size_t identity_key_length;
@ -144,7 +144,7 @@ omemo_bundle_request(const char* const jid, uint32_t device_id, ProfIqCallback f
xmpp_ctx_t* const ctx = connection_get_ctx();
char* id = connection_create_stanza_id();
log_info("[OMEMO] request omemo bundle (jid: %s, deivce: %d)", jid, device_id);
log_debug("[OMEMO] request omemo bundle (jid: %s, device: %d)", jid, device_id);
xmpp_stanza_t* iq = stanza_create_omemo_bundle_request(ctx, id, jid, device_id);
iq_id_handler_add(id, func, free_func, userdata);
@ -164,6 +164,12 @@ omemo_start_device_session_handle_bundle(xmpp_stanza_t* const stanza, void* cons
char* from = NULL;
const char* from_attr = xmpp_stanza_get_attribute(stanza, STANZA_ATTR_FROM);
log_debug("[OMEMO] omemo_start_device_session_handle_bundle: %s", from_attr);
const char* type = xmpp_stanza_get_type(stanza);
if ( g_strcmp0( type, "error") == 0 ) {
log_error("[OMEMO] Error to get key for a device from : %s", from_attr);
}
if (!from_attr) {
Jid* jid = jid_create(connection_get_fulljid());
@ -193,6 +199,7 @@ omemo_start_device_session_handle_bundle(xmpp_stanza_t* const stanza, void* cons
}
uint32_t device_id = strtoul(++device_id_str, NULL, 10);
log_debug("[OMEMO] omemo_start_device_session_handle_bundle: %d", device_id);
xmpp_stanza_t* item = xmpp_stanza_get_child_by_name(items, "item");
if (!item) {
@ -510,7 +517,7 @@ _omemo_bundle_publish_result(xmpp_stanza_t* const stanza, void* const userdata)
const char* type = xmpp_stanza_get_type(stanza);
if (g_strcmp0(type, STANZA_TYPE_RESULT) == 0) {
log_info("[OMEMO] bundle published successfully");
log_debug("[OMEMO] bundle published successfully");
return 0;
}
@ -519,12 +526,12 @@ _omemo_bundle_publish_result(xmpp_stanza_t* const stanza, void* const userdata)
return 0;
}
log_info("[OMEMO] cannot publish bundle with open access model, trying to configure node");
log_debug("[OMEMO] cannot publish bundle with open access model, trying to configure node");
xmpp_ctx_t* const ctx = connection_get_ctx();
Jid* jid = jid_create(connection_get_fulljid());
char* id = connection_create_stanza_id();
char* node = g_strdup_printf("%s:%d", STANZA_NS_OMEMO_BUNDLES, omemo_device_id());
log_info("[OMEMO] node: %s", node);
log_debug("[OMEMO] node: %s", node);
xmpp_stanza_t* iq = stanza_create_pubsub_configure_request(ctx, id, jid->barejid, node);
g_free(node);
@ -594,7 +601,7 @@ _omemo_bundle_publish_configure_result(xmpp_stanza_t* const stanza, void* const
return 0;
}
log_info("[OMEMO] node configured");
log_debug("[OMEMO] node configured");
// Try to publish again
omemo_bundle_publish(TRUE);