@@ -219,7 +219,7 @@ static void add_start(void *user_data, int err)
{
struct l_dbus_message *reply;
- l_info("Start callback");
+ l_debug("Start callback");
if (err == MESH_ERROR_NONE)
reply = l_dbus_message_new_method_return(add_pending->msg);
@@ -270,8 +270,8 @@ static struct l_dbus_message *add_node_call(struct l_dbus *dbus,
add_pending->agent = node_get_agent(node);
if (!node_is_provisioner(node) || (add_pending->agent == NULL)) {
- l_info("Provisioner: %d", node_is_provisioner(node));
- l_info("Agent: %p", add_pending->agent);
+ l_debug("Provisioner: %d", node_is_provisioner(node));
+ l_debug("Agent: %p", add_pending->agent);
reply = dbus_error(msg, MESH_ERROR_NOT_AUTHORIZED,
"Missing Interfaces");
goto fail;
@@ -173,7 +173,7 @@ static void event_callback(const void *buf, uint8_t size, void *user_data)
break;
default:
- l_info("Other Meta Evt - %d", event);
+ l_debug("Other Meta Evt - %d", event);
}
}
@@ -804,7 +804,6 @@ static bool recv_register(struct mesh_io *io, const uint8_t *filter,
if (!cb || !filter || !len)
return false;
- l_info("%s %2.2x", __func__, filter[0]);
rx_reg = l_queue_remove_if(pvt->rx_regs, find_by_filter, filter);
l_free(rx_reg);
@@ -514,15 +514,8 @@ static void cmplt(uint16_t remote, uint8_t status,
{
struct timeval tx_end;
- if (status)
- l_debug("Tx-->%4.4x (%d octets) Failed (%d)",
- remote, size, status);
- else
- l_debug("Tx-->%4.4x (%d octets) Succeeded", remote, size);
-
- /* print_packet("Sent Data", data, size); */
-
gettimeofday(&tx_end, NULL);
+
if (tx_end.tv_sec == tx_start.tv_sec) {
l_debug("Duration 0.%6.6lu seconds",
tx_end.tv_usec - tx_start.tv_usec);
@@ -580,22 +573,18 @@ static bool msg_send(struct mesh_node *node, bool credential, uint16_t src,
net_idx = appkey_net_idx(node_get_net(node), app_idx);
}
- l_debug("(%x) %p", app_idx, key);
- l_debug("net_idx %x", net_idx);
-
out = l_malloc(out_len);
iv_index = mesh_net_get_iv_index(net);
seq_num = mesh_net_next_seq_num(net);
+
if (!mesh_crypto_payload_encrypt(label, msg, out, msg_len, src, dst,
key_aid, seq_num, iv_index, szmic, key)) {
l_error("Failed to Encrypt Payload");
goto done;
}
- /* print_packet("Encrypted with", key, 16); */
-
ret = mesh_net_app_send(net, credential, src, dst, key_aid, net_idx,
ttl, seq_num, iv_index, segmented,
szmic, out, out_len, cmplt, NULL);
@@ -647,7 +636,7 @@ static void model_bind_idx(struct mesh_node *node, struct mesh_model *mod,
l_queue_push_tail(mod->bindings, L_UINT_TO_PTR(idx));
- l_debug("Add %4.4x to model %8.8x", idx, mod->id);
+ l_debug("Bind key %4.4x to model %8.8x", idx, mod->id);
if (!mod->cbs)
/* External model */
@@ -693,6 +682,7 @@ static int update_binding(struct mesh_node *node, uint16_t addr, uint32_t id,
addr, is_vendor, id, app_idx))
return MESH_STATUS_STORAGE_FAIL;
+ l_debug("Unbind key %4.4x to model %8.8x", app_idx, mod->id);
return MESH_STATUS_SUCCESS;
}
@@ -929,6 +919,7 @@ bool mesh_model_rx(struct mesh_node *node, bool szmict, uint32_t seq0,
/* Don't process if already in RPL */
crpl = node_get_crpl(node);
+
if (net_msg_check_replay_cache(net, src, crpl, seq, iv_index))
return false;
@@ -1064,8 +1055,6 @@ int mesh_model_publish(struct mesh_node *node, uint32_t mod_id,
bool result;
int status;
- /* print_packet("Mod Tx", msg, msg_len); */
-
if (!net || msg_len > 380)
return MESH_ERROR_INVALID_ARGS;
@@ -1092,8 +1081,6 @@ int mesh_model_publish(struct mesh_node *node, uint32_t mod_id,
if (mod->pub->virt)
label = mod->pub->virt->label;
- l_debug("publish dst=%x", mod->pub->addr);
-
net_idx = appkey_net_idx(net, mod->pub->idx);
result = msg_send(node, mod->pub->credential != 0, src,
@@ -1108,8 +1095,6 @@ bool mesh_model_send(struct mesh_node *node, uint16_t src, uint16_t dst,
uint8_t ttl, bool segmented,
const void *msg, uint16_t msg_len)
{
- /* print_packet("Mod Tx", msg, msg_len); */
-
/* If SRC is 0, use the Primary Element */
if (src == 0)
src = node_get_primary(node);
@@ -1279,14 +1264,12 @@ void mesh_model_app_key_delete(struct mesh_node *node, struct l_queue *models,
int mesh_model_binding_del(struct mesh_node *node, uint16_t addr, uint32_t id,
uint16_t app_idx)
{
- l_debug("0x%x, 0x%x, %d", addr, id, app_idx);
return update_binding(node, addr, id, app_idx, true);
}
int mesh_model_binding_add(struct mesh_node *node, uint16_t addr, uint32_t id,
uint16_t app_idx)
{
- l_debug("0x%x, 0x%x, %d", addr, id, app_idx);
return update_binding(node, addr, id, app_idx, false);
}
@@ -307,7 +307,7 @@ static void trigger_heartbeat(struct mesh_net *net, uint16_t feature,
{
struct mesh_net_heartbeat *hb = &net->heartbeat;
- l_info("%s: %4.4x --> %d", __func__, feature, in_use);
+ l_debug("%s: %4.4x --> %d", __func__, feature, in_use);
if (in_use) {
if (net->heartbeat.features & feature)
return; /* no change */
@@ -371,7 +371,7 @@ static void frnd_kr_phase2(void *a, void *b)
* receives it's first Poll using the new keys (?)
*/
- l_info("Use Both KeySet %d && %d for %4.4x",
+ l_debug("Use Both KeySet %d && %d for %4.4x",
frnd->net_key_cur, frnd->net_key_upd, frnd->lp_addr);
}
@@ -379,7 +379,7 @@ static void frnd_kr_phase3(void *a, void *b)
{
struct mesh_friend *frnd = a;
- l_info("Replace KeySet %d with %d for %4.4x",
+ l_debug("Replace KeySet %d with %d for %4.4x",
frnd->net_key_cur, frnd->net_key_upd, frnd->lp_addr);
net_key_unref(frnd->net_key_cur);
frnd->net_key_cur = frnd->net_key_upd;
@@ -627,10 +627,6 @@ static void queue_friend_update(struct mesh_net *net)
update.u.one[0].data[1] = flags;
l_put_be32(net->iv_index, update.u.one[0].data + 2);
update.u.one[0].data[6] = 0x01; /* More Data */
- /* print_packet("Frnd-Beacon-SRC",
- * beacon_data, sizeof(beacon_data));
- */
- /* print_packet("Frnd-Update", update.u.one[0].data, 6); */
l_queue_foreach(net->friends, enqueue_update, &update);
}
@@ -1570,7 +1566,7 @@ static void send_frnd_ack(struct mesh_net *net, uint16_t src, uint16_t dst,
l_put_be32(hdr, msg);
l_put_be32(flags, msg + 3);
- l_info("Send Friend ACK to Segs: %8.8x", flags);
+ l_debug("Send Friend ACK to Segs: %8.8x", flags);
if (is_lpn_friend(net, dst)) {
/* If we are acking our LPN Friend, queue, don't send */
@@ -1603,7 +1599,7 @@ static void send_net_ack(struct mesh_net *net, struct mesh_sar *sar,
l_put_be32(hdr, msg);
l_put_be32(flags, msg + 3);
- l_info("Send%s ACK to Segs: %8.8x", sar->frnd ? " Friend" : "", flags);
+ l_debug("Send%s ACK to Segs: %8.8x", sar->frnd ? " Friend" : "", flags);
if (is_lpn_friend(net, dst)) {
/* If we are acking our LPN Friend, queue, don't send */
@@ -1629,7 +1625,7 @@ static void inseg_to(struct l_timeout *seg_timeout, void *user_data)
return;
/* Send NAK */
- l_info("Timeout %p %3.3x", sar, sar->app_idx);
+ l_debug("Timeout %p %3.3x", sar, sar->app_idx);
send_net_ack(net, sar, sar->flags);
sar->seg_timeout = l_timeout_create(SEG_TO, inseg_to, net, NULL);
@@ -1647,7 +1643,6 @@ static void inmsg_to(struct l_timeout *msg_timeout, void *user_data)
sar->msg_timeout = NULL;
- /* print_packet("Incoming SAR Timeout", sar->buf, sar->len); */
mesh_sar_free(sar);
}
@@ -1668,7 +1663,6 @@ static void outmsg_to(struct l_timeout *msg_timeout, void *user_data)
sar->buf, sar->len - 4,
sar->user_data);
- /* print_packet("Outgoing SAR Timeout", sar->buf, sar->len); */
mesh_sar_free(sar);
}
@@ -1698,13 +1692,13 @@ static void ack_received(struct mesh_net *net, bool timeout,
uint32_t ack_copy = ack_flag;
uint16_t i;
- l_info("ACK Rxed (%x) (to:%d): %8.8x", seq0, timeout, ack_flag);
+ l_debug("ACK Rxed (%x) (to:%d): %8.8x", seq0, timeout, ack_flag);
outgoing = l_queue_find(net->sar_out, match_sar_seq0,
L_UINT_TO_PTR(seq0));
if (!outgoing) {
- l_info("Not Found: %4.4x", seq0);
+ l_debug("Not Found: %4.4x", seq0);
return;
}
@@ -1743,7 +1737,7 @@ static void ack_received(struct mesh_net *net, bool timeout,
ack_copy |= seg_flag;
- l_info("Resend Seg %d net:%p dst:%x app_idx:%3.3x",
+ l_debug("Resend Seg %d net:%p dst:%x app_idx:%3.3x",
i, net, outgoing->remote, outgoing->app_idx);
send_seg(net, outgoing, i);
@@ -1918,12 +1912,12 @@ static void friend_seg_rxed(struct mesh_net *net,
if (segN == segO)
frnd_msg->last_len = size;
- l_info("RXed Seg %d, Flags %8.8x (cnt: %d)",
+ l_debug("RXed Seg %d, Flags %8.8x (cnt: %d)",
segO, frnd_msg->flags, cnt);
/* In reality, if one of these is true, then *both* must be true */
if ((cnt == segN) || (frnd_msg->flags == expected)) {
- l_info("Full ACK");
+ l_debug("Full ACK");
send_frnd_ack(net, dst, src, hdr, frnd_msg->flags);
if (frnd_msg->ttl > 1) {
@@ -1943,7 +1937,7 @@ static void friend_seg_rxed(struct mesh_net *net,
/* Always ACK if this is the largest outstanding segment */
if ((largest & frnd_msg->flags) == largest) {
- l_info("Partial ACK");
+ l_debug("Partial ACK");
send_frnd_ack(net, dst, src, hdr, frnd_msg->flags);
}
@@ -1997,7 +1991,7 @@ static bool seg_rxed(struct mesh_net *net, bool frnd, uint32_t iv_index,
expected = 0xffffffff >> (31 - segN);
if (sar_in) {
- l_info("RXed (old: %04x %06x size:%d) %d of %d",
+ l_debug("RXed (old: %04x %06x size:%d) %d of %d",
seqZero, seq, size, segO, segN);
/* Sanity Check--> certain things must match */
if (SEG_MAX(true, sar_in->len) != segN ||
@@ -2012,7 +2006,7 @@ static bool seg_rxed(struct mesh_net *net, bool frnd, uint32_t iv_index,
} else {
uint16_t len = MAX_SEG_TO_LEN(segN);
- l_info("RXed (new: %04x %06x size: %d len: %d) %d of %d",
+ l_debug("RXed (new: %04x %06x size: %d len: %d) %d of %d",
seqZero, seq, size, len, segO, segN);
l_debug("Queue Size: %d", l_queue_length(net->sar_in));
sar_in = mesh_sar_new(len);
@@ -2031,7 +2025,6 @@ static bool seg_rxed(struct mesh_net *net, bool frnd, uint32_t iv_index,
l_debug("First Seg %4.4x", sar_in->flags);
l_queue_push_head(net->sar_in, sar_in);
}
- /* print_packet("Seg", data, size); */
seg_off = segO * MAX_SEG_LEN;
memcpy(sar_in->buf + seg_off, data, size);
@@ -2044,8 +2037,6 @@ static bool seg_rxed(struct mesh_net *net, bool frnd, uint32_t iv_index,
sar_in->flags |= this_seg_flag;
sar_in->ttl = ttl;
- l_debug("Have Frags %4.4x", sar_in->flags);
-
/* Msg length only definitive on last segment */
if (segO == segN)
sar_in->len = segN * MAX_SEG_LEN + size;
@@ -2166,7 +2157,7 @@ static bool ctl_received(struct mesh_net *net, uint16_t key_id,
l_queue_find(net->friends,
match_by_friend,
L_UINT_TO_PTR(l_get_be16(pkt))));
- l_info("Remaining Friends: %d", l_queue_length(net->friends));
+ l_debug("Remaining Friends: %d", l_queue_length(net->friends));
break;
case NET_OP_PROXY_SUB_ADD:
@@ -2212,7 +2203,7 @@ static bool ctl_received(struct mesh_net *net, uint16_t key_id,
if (net->heartbeat.sub_max_hops < hops)
net->heartbeat.sub_max_hops = hops;
- l_info("HB: cnt:%4.4x min:%2.2x max:%2.2x",
+ l_debug("HB: cnt:%4.4x min:%2.2x max:%2.2x",
net->heartbeat.sub_count,
net->heartbeat.sub_min_hops,
net->heartbeat.sub_max_hops);
@@ -2381,8 +2372,6 @@ static enum _relay_advice packet_received(void *user_data,
if (is_us(net, net_src, true))
return RELAY_NONE;
- l_debug("check %08x", cache_cookie);
-
/* As a Relay, suppress repeats of last N packets that pass through */
/* The "cache_cookie" should be unique part of App message */
if (msg_in_cache(net, net_src, net_seq, cache_cookie))
@@ -2394,7 +2383,7 @@ static enum _relay_advice packet_received(void *user_data,
if (is_us(net, net_dst, false) ||
(net_ctl && net_opcode == NET_OP_HEARTBEAT)) {
- l_info("RX: App 0x%04x -> 0x%04x : TTL 0x%02x : SEQ 0x%06x",
+ l_debug("RX: App 0x%04x -> 0x%04x : TTL 0x%02x : SEQ 0x%06x",
net_src, net_dst, net_ttl, net_seq);
if (net_ctl) {
@@ -2404,7 +2393,6 @@ static enum _relay_advice packet_received(void *user_data,
if (net_dst & 0x8000)
return RELAY_NONE;
- /* print_packet("Got ACK", msg, app_msg_len); */
/* Pedantic check for correct size */
if (app_msg_len != 7)
return RELAY_NONE;
@@ -2576,7 +2564,7 @@ static void iv_upd_to(struct l_timeout *upd_timeout, void *user_data)
case IV_UPD_UPDATING:
if (l_queue_length(net->sar_out) ||
l_queue_length(net->sar_queue)) {
- l_info("don't leave IV Update until sar_out empty");
+ l_debug("don't leave IV Update until sar_out empty");
l_timeout_modify(net->iv_update_timeout, 10);
break;
}
@@ -2626,7 +2614,7 @@ static int key_refresh_phase_two(struct mesh_net *net, uint16_t idx)
if (!subnet || !subnet->net_key_upd)
return MESH_STATUS_INVALID_NETKEY;
- l_info("Key refresh procedure phase 2: start using new net TX keys");
+ l_debug("Key refresh procedure phase 2: start using new net TX keys");
subnet->key_refresh = 1;
subnet->net_key_tx = subnet->net_key_upd;
/* TODO: Provisioner may need to stay in phase three until
@@ -2659,7 +2647,7 @@ static int key_refresh_finish(struct mesh_net *net, uint16_t idx)
if (subnet->kr_phase == KEY_REFRESH_PHASE_NONE)
return MESH_STATUS_SUCCESS;
- l_info("Key refresh phase 3: use new keys only, discard old ones");
+ l_debug("Key refresh phase 3: use new keys only, discard old ones");
/* Switch to using new keys, discard old ones */
net_key_unref(subnet->net_key_cur);
@@ -2715,12 +2703,12 @@ static void update_iv_ivu_state(struct mesh_net *net, uint32_t iv_index,
* Starting permissive state will allow us maximum
* (96 hours) to resync
*/
- l_info("iv_upd_state = IV_UPD_UPDATING");
+ l_debug("iv_upd_state = IV_UPD_UPDATING");
net->iv_upd_state = IV_UPD_UPDATING;
net->iv_update_timeout = l_timeout_create(
IV_IDX_UPD_MIN, iv_upd_to, net, NULL);
} else {
- l_info("iv_upd_state = IV_UPD_NORMAL");
+ l_debug("iv_upd_state = IV_UPD_NORMAL");
net->iv_upd_state = IV_UPD_NORMAL;
}
} else if (ivu) {
@@ -2736,7 +2724,7 @@ static void update_iv_ivu_state(struct mesh_net *net, uint32_t iv_index,
return;
if (!net->iv_update) {
- l_info("iv_upd_state = IV_UPD_UPDATING");
+ l_debug("iv_upd_state = IV_UPD_UPDATING");
net->iv_upd_state = IV_UPD_UPDATING;
net->iv_update_timeout = l_timeout_create(
IV_IDX_UPD_MIN, iv_upd_to, net, NULL);
@@ -2937,7 +2925,6 @@ bool mesh_net_attach(struct mesh_net *net, struct mesh_io *io)
if (!fast_cache)
fast_cache = l_queue_new();
- l_info("Register io cb");
mesh_io_register_recv_cb(io, snb, sizeof(snb),
beacon_recv, NULL);
mesh_io_register_recv_cb(io, pkt, sizeof(pkt),
@@ -2981,7 +2968,7 @@ bool mesh_net_iv_index_update(struct mesh_net *net)
if (net->iv_upd_state != IV_UPD_NORMAL)
return false;
- l_info("iv_upd_state = IV_UPD_UPDATING");
+ l_debug("iv_upd_state = IV_UPD_UPDATING");
mesh_net_flush_msg_queues(net);
if (!mesh_config_write_iv_index(node_config_get(net->node),
net->iv_index + 1, true))
@@ -3082,23 +3069,18 @@ static bool send_seg(struct mesh_net *net, struct mesh_sar *msg, uint8_t segO)
mesh_net_iv_index_update(net);
l_debug("segN %d segment %d seg_off %d", segN, segO, seg_off);
- /* print_packet("Sending", msg->buf + seg_off, seg_len); */
- {
- /* TODO: Are we RXing on an LPN's behalf? Then set RLY bit */
-
- if (!mesh_crypto_packet_build(false, msg->ttl,
- seq_num,
- msg->src, msg->remote,
- 0,
- msg->segmented, msg->key_aid,
- msg->szmic, false, msg->seqZero,
- segO, segN,
+
+ /* TODO: Are we RXing on an LPN's behalf? Then set RLY bit */
+ if (!mesh_crypto_packet_build(false, msg->ttl, seq_num, msg->src,
+ msg->remote, 0, msg->segmented,
+ msg->key_aid, msg->szmic, false,
+ msg->seqZero, segO, segN,
msg->buf + seg_off, seg_len,
packet + 1, &packet_len)) {
- l_error("Failed to build packet");
- return false;
- }
+ l_error("Failed to build packet");
+ return false;
}
+
print_packet("Clr-Net Tx", packet + 1, packet_len);
subnet = l_queue_find(net->subnets, match_key_index,
@@ -3112,20 +3094,7 @@ static bool send_seg(struct mesh_net *net, struct mesh_sar *msg, uint8_t segO)
return false;
}
- /* print_packet("Step 4", packet + 1, packet_len); */
-
- {
- char *str;
-
- send_msg_pkt(net, packet, packet_len + 1);
-
- str = l_util_hexstring(packet + 1, packet_len);
- l_info("TX: Network %04x -> %04x : %s (%u) : TTL %d : SEQ %06x",
- msg->src, msg->remote, str,
- packet_len, msg->ttl,
- msg->frnd ? msg->seqAuth + segO : seq_num);
- l_free(str);
- }
+ send_msg_pkt(net, packet, packet_len + 1);
msg->last_seg = segO;
@@ -3140,7 +3109,6 @@ void mesh_net_send_seg(struct mesh_net *net, uint32_t net_key_id,
uint32_t hdr,
const void *seg, uint16_t seg_len)
{
- char *str;
uint8_t packet[30];
uint8_t packet_len;
bool segmented = !!((hdr >> SEG_HDR_SHIFT) & true);
@@ -3174,14 +3142,12 @@ void mesh_net_send_seg(struct mesh_net *net, uint32_t net_key_id,
return;
}
- /* print_packet("Step 4", packet + 1, packet_len); */
-
send_msg_pkt(net, packet, packet_len + 1);
- str = l_util_hexstring(packet + 1, packet_len);
- l_info("TX: Friend Seg-%d %04x -> %04x : %s (%u) : TTL %d : SEQ %06x",
- segO, src, dst, str, packet_len, ttl, seq);
- l_free(str);
+ l_debug("TX: Friend Seg-%d %04x -> %04x : len %u) : TTL %d : SEQ %06x",
+ segO, src, dst, packet_len, ttl, seq);
+
+ print_packet("TX: Friend", packet + 1, packet_len);
}
bool mesh_net_app_send(struct mesh_net *net, bool frnd_cred, uint16_t src,
@@ -3222,7 +3188,8 @@ bool mesh_net_app_send(struct mesh_net *net, bool frnd_cred, uint16_t src,
szmic, seq & SEQ_ZERO_MASK,
msg, msg_len);
- /* If addressed to a unicast address and successfully enqueued,
+ /*
+ * If addressed to a unicast address and successfully enqueued,
* or delivered to one of our Unicast addresses we are done
*/
if ((result && IS_UNICAST(dst)) || src == dst ||
@@ -3243,6 +3210,7 @@ bool mesh_net_app_send(struct mesh_net *net, bool frnd_cred, uint16_t src,
payload->iv_index = mesh_net_get_iv_index(net);
payload->seqAuth = seq;
payload->segmented = segmented;
+
if (segmented) {
payload->flags = 0xffffffff >> (31 - seg_max);
payload->seqZero = seq & SEQ_ZERO_MASK;
@@ -3256,13 +3224,14 @@ bool mesh_net_app_send(struct mesh_net *net, bool frnd_cred, uint16_t src,
/* Delay sending Outbound SAR unless prior
* SAR to same DST has completed */
- l_info("OB-Queued SeqZero: %4.4x", payload->seqZero);
+ l_debug("OB-Queued SeqZero: %4.4x", payload->seqZero);
l_queue_push_tail(net->sar_queue, payload);
return true;
}
}
result = true;
+
if (!IS_UNICAST(dst) && segmented) {
int i;
@@ -3303,7 +3272,6 @@ void mesh_net_ack_send(struct mesh_net *net, uint32_t key_id,
uint8_t data[7];
uint8_t pkt_len;
uint8_t pkt[30];
- char *str;
hdr = NET_OP_SEG_ACKNOWLEDGE << OPCODE_HDR_SHIFT;
hdr |= rly << RELAY_HDR_SHIFT;
@@ -3334,14 +3302,11 @@ void mesh_net_ack_send(struct mesh_net *net, uint32_t key_id,
return;
}
- /* print_packet("Step 4", pkt, pkt_len); */
send_msg_pkt(net, pkt, pkt_len + 1);
- str = l_util_hexstring(pkt + 1, pkt_len);
- l_info("TX: Friend ACK %04x -> %04x : %s (%u) : TTL %d : SEQ %06x",
- src, dst, str, pkt_len,
- ttl, seq);
- l_free(str);
+ l_debug("TX: Friend ACK %04x -> %04x : len %u : TTL %d : SEQ %06x",
+ src, dst, pkt_len, ttl, seq);
+ print_packet("TX: Friend ACK", pkt + 1, pkt_len);
}
void mesh_net_transport_send(struct mesh_net *net, uint32_t key_id,
@@ -3419,26 +3384,13 @@ void mesh_net_transport_send(struct mesh_net *net, uint32_t key_id,
pkt + 1, &pkt_len))
return;
- /* print_packet("Step 2", pkt + 1, pkt_len); */
-
if (!net_key_encrypt(key_id, iv_index, pkt + 1, pkt_len)) {
l_error("Failed to encode packet");
return;
}
- /* print_packet("Step 4", pkt + 1, pkt_len); */
-
- if (dst != 0) {
- char *str;
-
+ if (dst != 0)
send_msg_pkt(net, pkt, pkt_len + 1);
-
- str = l_util_hexstring(pkt + 1, pkt_len);
- l_info("TX: Network %04x -> %04x : %s (%u) : TTL %d : SEQ %06x",
- src, dst, str, pkt_len,
- ttl, use_seq);
- l_free(str);
- }
}
uint8_t mesh_net_key_refresh_phase_set(struct mesh_net *net, uint16_t idx,
@@ -3524,7 +3476,7 @@ int mesh_net_update_key(struct mesh_net *net, uint16_t idx,
if (subnet->net_key_upd) {
net_key_unref(subnet->net_key_upd);
- l_info("Warning: overwriting new keys");
+ l_debug("Warning: overwriting new keys");
}
/* Preserve starting data */
@@ -3539,7 +3491,7 @@ int mesh_net_update_key(struct mesh_net *net, uint16_t idx,
l_queue_foreach(net->friends, frnd_kr_phase1,
L_UINT_TO_PTR(subnet->net_key_upd));
- l_info("key refresh phase 1: Key ID %d", subnet->net_key_upd);
+ l_debug("key refresh phase 1: Key ID %d", subnet->net_key_upd);
if (!mesh_config_net_key_update(node_config_get(net->node), idx, value))
return MESH_STATUS_STORAGE_FAIL;
@@ -3812,9 +3764,6 @@ bool net_msg_check_replay_cache(struct mesh_net *net, uint16_t src,
rpl_get_list(net->node, net->replay_cache);
}
- l_debug("Test Replay src: %4.4x seq: %6.6x iv: %8.8x",
- src, seq, iv_index);
-
rpe = l_queue_find(net->replay_cache, match_replay_cache,
L_UINT_TO_PTR(src));
@@ -3854,7 +3803,6 @@ void net_msg_add_replay_cache(struct mesh_net *net, uint16_t src, uint32_t seq,
L_UINT_TO_PTR(src));
if (!rpe) {
- l_debug("New Entry for %4.4x", src);
rpe = l_new(struct mesh_rpl, 1);
rpe->src = src;
}
@@ -157,8 +157,6 @@ static void send_adv_segs(struct pb_adv_session *session, const uint8_t *data,
init_size = size;
}
- /* print_packet("FULL-TX", data, size); */
-
l_debug("Sending %u fragments for %u octets", max_seg + 1, size);
buf[6] = max_seg << 2;
@@ -168,7 +166,6 @@ static void send_adv_segs(struct pb_adv_session *session, const uint8_t *data,
l_debug("max_seg: %2.2x", max_seg);
l_debug("size: %2.2x, CRC: %2.2x", size, buf[9]);
- /* print_packet("PB-TX", buf + 1, init_size + 9); */
pb_adv_send(session, MESH_IO_TX_COUNT_UNLIMITED, 200,
buf, init_size + 10);
@@ -186,8 +183,6 @@ static void send_adv_segs(struct pb_adv_session *session, const uint8_t *data,
buf[6] = (i << 2) | 0x02;
memcpy(buf + 7, data + consumed, seg_size);
- /* print_packet("PB-TX", buf + 1, seg_size + 6); */
-
pb_adv_send(session, MESH_IO_TX_COUNT_UNLIMITED, 200,
buf, seg_size + 7);
@@ -225,7 +220,7 @@ static void tx_timeout(struct l_timeout *timeout, void *user_data)
mesh_send_cancel(filter, sizeof(filter));
- l_info("TX timeout");
+ l_debug("TX timeout");
cb = session->close_cb;
user_data = session->user_data;
cb(user_data, 1);
@@ -770,7 +770,7 @@ static void int_prov_rx(void *user_data, const uint8_t *data, uint16_t len)
break;
case PROV_COMPLETE: /* Complete */
- l_info("Provisioning Complete");
+ l_debug("Provisioning Complete");
prov->state = INT_PROV_IDLE;
int_prov_close(prov, PROV_ERR_SUCCESS);
break;