bluez/mesh/cfgmod-server.c

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/*
*
* BlueZ - Bluetooth protocol stack for Linux
*
* Copyright (C) 2018-2020 Intel Corporation. All rights reserved.
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*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <sys/time.h>
#include <ell/ell.h>
#include "mesh/mesh-defs.h"
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#include "mesh/node.h"
#include "mesh/net.h"
#include "mesh/appkey.h"
#include "mesh/model.h"
#include "mesh/mesh-config.h"
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#include "mesh/cfgmod.h"
#define CREDFLAG_MASK 0x1000
#define CFG_GET_ID(vendor, pkt) ((vendor) ? \
(SET_ID(l_get_le16((pkt)), l_get_le16((pkt) + 2))) : \
(SET_ID(SIG_VENDOR, l_get_le16(pkt))))
/* Supported composition pages, sorted high to low */
/* Only page 0 is currently supported */
static const uint8_t supported_pages[] = {
0
};
static uint8_t msg[MAX_MSG_LEN];
static uint16_t set_pub_status(uint8_t status, uint16_t ele_addr, uint32_t id,
uint16_t pub_addr, uint16_t idx, bool cred_flag,
uint8_t ttl, uint8_t period, uint8_t retransmit)
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{
size_t n;
n = mesh_model_opcode_set(OP_CONFIG_MODEL_PUB_STATUS, msg);
msg[n++] = status;
l_put_le16(ele_addr, msg + n);
l_put_le16(pub_addr, msg + n + 2);
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idx |= cred_flag ? CREDFLAG_MASK : 0;
l_put_le16(idx, msg + n + 4);
n += 6;
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msg[n++] = ttl;
msg[n++] = period;
msg[n++] = retransmit;
if (!IS_VENDOR(id)) {
l_put_le16(MODEL_ID(id), msg + n);
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n += 2;
} else {
l_put_le16(VENDOR_ID(id), msg + n);
l_put_le16(MODEL_ID(id), msg + n + 2);
n += 4;
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}
return n;
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}
static uint16_t config_pub_get(struct mesh_node *node, const uint8_t *pkt,
bool vendor)
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{
uint32_t id;
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uint16_t ele_addr;
struct mesh_model_pub *pub;
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int status;
ele_addr = l_get_le16(pkt);
id = CFG_GET_ID(vendor, pkt + 2);
pub = mesh_model_pub_get(node, ele_addr, id, &status);
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if (pub && status == MESH_STATUS_SUCCESS)
return set_pub_status(status, ele_addr, id, pub->addr, pub->idx,
pub->credential, pub->ttl, pub->period,
pub->retransmit);
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else
return set_pub_status(status, ele_addr, id, 0, 0, 0, 0, 0, 0);
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}
static uint16_t config_pub_set(struct mesh_node *node, const uint8_t *pkt,
bool virt, bool vendor)
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{
uint32_t id;
uint16_t ele_addr, idx, pub_dst;
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const uint8_t *pub_addr;
uint8_t ttl, period, retransmit;
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int status;
bool cred_flag;
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ele_addr = l_get_le16(pkt);
pub_addr = pkt + 2;
pub_dst = l_get_le16(pub_addr);
if (!virt && IS_VIRTUAL(pub_dst))
return 0;
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pkt += (virt ? 14 : 0);
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idx = l_get_le16(pkt + 4);
if (idx > CREDFLAG_MASK)
return 0;
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cred_flag = !!(CREDFLAG_MASK & idx);
idx &= APP_IDX_MASK;
ttl = pkt[6];
period = pkt[7];
retransmit = pkt[8];
id = CFG_GET_ID(vendor, pkt + 9);
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status = mesh_model_pub_set(node, ele_addr, id, pub_addr, idx,
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cred_flag, ttl, period, retransmit,
virt, &pub_dst);
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l_debug("pub_set: status %d, ea %4.4x, ota: %4.4x, id: %x, idx: %3.3x",
status, ele_addr, pub_dst, id, idx);
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if (status != MESH_STATUS_SUCCESS)
return set_pub_status(status, ele_addr, id, 0, 0, 0, 0, 0, 0);
if (IS_UNASSIGNED(pub_dst) && !virt) {
ttl = period = idx = 0;
/* Remove model publication from config file */
if (!mesh_config_model_pub_del(node_config_get(node), ele_addr,
vendor ? id : MODEL_ID(id),
vendor))
status = MESH_STATUS_STORAGE_FAIL;
} else {
struct mesh_config_pub db_pub = {
.virt = virt,
.addr = pub_dst,
.idx = idx,
.ttl = ttl,
.credential = cred_flag,
.period = period,
.count = retransmit & 0x7,
.interval = ((retransmit >> 3) + 1) * 50
};
if (virt)
memcpy(db_pub.virt_addr, pub_addr, 16);
/* Save model publication to config file */
if (!mesh_config_model_pub_add(node_config_get(node), ele_addr,
vendor ? id : MODEL_ID(id),
vendor, &db_pub))
status = MESH_STATUS_STORAGE_FAIL;
}
return set_pub_status(status, ele_addr, id, pub_dst, idx, cred_flag,
ttl, period, retransmit);
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}
static uint16_t cfg_sub_get_msg(struct mesh_node *node, const uint8_t *pkt,
uint16_t size)
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{
uint16_t ele_addr, n, sub_len;
uint32_t id;
int opcode;
bool vendor = (size == 6);
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ele_addr = l_get_le16(pkt);
id = CFG_GET_ID(vendor, pkt + 2);
opcode = vendor ? OP_CONFIG_VEND_MODEL_SUB_LIST :
OP_CONFIG_MODEL_SUB_LIST;
n = mesh_model_opcode_set(opcode, msg);
memcpy(msg + n + 1, pkt, size);
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msg[n] = mesh_model_sub_get(node, ele_addr, id, msg + n + 1 + size,
MAX_MSG_LEN - (n + 1 + size), &sub_len);
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if (msg[n] == MESH_STATUS_SUCCESS)
n += sub_len;
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n += (size + 1);
return n;
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}
static bool save_cfg_sub(struct mesh_node *node, uint16_t ele_addr,
uint32_t id, bool vendor, const uint8_t *label,
bool virt, uint16_t grp, uint32_t opcode)
{
struct mesh_config *cfg = node_config_get(node);
struct mesh_config_sub db_sub = {
.virt = virt,
.addr.grp = grp
};
id = (vendor) ? id : MODEL_ID(id);
if (virt)
memcpy(db_sub.addr.label, label, 16);
if (opcode == OP_CONFIG_MODEL_SUB_VIRT_DELETE &&
opcode == OP_CONFIG_MODEL_SUB_DELETE)
return mesh_config_model_sub_del(cfg, ele_addr, id, vendor,
&db_sub);
if (opcode == OP_CONFIG_MODEL_SUB_VIRT_OVERWRITE ||
opcode == OP_CONFIG_MODEL_SUB_OVERWRITE)
if (!mesh_config_model_sub_del_all(cfg, ele_addr, id, vendor))
return false;
return mesh_config_model_sub_add(cfg, ele_addr, id, vendor, &db_sub);
}
static uint16_t cfg_sub_add_msg(struct mesh_node *node, const uint8_t *pkt,
bool vendor, uint32_t opcode)
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{
uint16_t addr, ele_addr, n;
uint32_t id;
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addr = l_get_le16(pkt + 2);
if (!IS_GROUP(addr))
return 0;
ele_addr = l_get_le16(pkt);
id = CFG_GET_ID(vendor, pkt + 4);
n = mesh_model_opcode_set(OP_CONFIG_MODEL_SUB_STATUS, msg);
if (opcode == OP_CONFIG_MODEL_SUB_OVERWRITE)
msg[n] = mesh_model_sub_ovrt(node, ele_addr, id, addr);
else if (opcode == OP_CONFIG_MODEL_SUB_ADD)
msg[n] = mesh_model_sub_add(node, ele_addr, id, addr);
else
msg[n] = mesh_model_sub_del(node, ele_addr, id, addr);
if (msg[n] == MESH_STATUS_SUCCESS &&
!save_cfg_sub(node, ele_addr, id, vendor, NULL, false,
addr, opcode))
msg[n] = MESH_STATUS_STORAGE_FAIL;
if (vendor) {
memcpy(msg + n + 1, pkt, 8);
n += 9;
} else {
memcpy(msg + n + 1, pkt, 6);
n += 7;
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}
return n;
}
static uint16_t cfg_virt_sub_add_msg(struct mesh_node *node, const uint8_t *pkt,
bool vendor, uint32_t opcode)
{
uint16_t addr, ele_addr, n;
uint32_t id;
const uint8_t *label;
n = mesh_model_opcode_set(OP_CONFIG_MODEL_SUB_STATUS, msg);
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ele_addr = l_get_le16(pkt);
label = pkt + 2;
id = CFG_GET_ID(vendor, pkt + 18);
if (opcode == OP_CONFIG_MODEL_SUB_VIRT_OVERWRITE)
msg[n] = mesh_model_virt_sub_ovrt(node, ele_addr, id, label,
&addr);
else if (opcode == OP_CONFIG_MODEL_SUB_VIRT_ADD)
msg[n] = mesh_model_virt_sub_add(node, ele_addr, id, label,
&addr);
else
msg[n] = mesh_model_virt_sub_del(node, ele_addr, id, label,
&addr);
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if (msg[n] == MESH_STATUS_SUCCESS &&
!save_cfg_sub(node, ele_addr, id, vendor,
label, true, addr, opcode))
msg[n] = MESH_STATUS_STORAGE_FAIL;
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l_put_le16(ele_addr, msg + n + 1);
l_put_le16(addr, msg + n + 3);
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if (vendor) {
l_put_le16(VENDOR_ID(id), msg + n + 5);
l_put_le16(MODEL_ID(id), msg + n + 7);
n += 9;
} else {
l_put_le16(MODEL_ID(id), msg + n + 5);
n += 7;
}
return n;
}
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static uint16_t config_sub_del_all(struct mesh_node *node, const uint8_t *pkt,
bool vendor)
{
uint16_t ele_addr, n, grp = UNASSIGNED_ADDRESS;
uint32_t id;
n = mesh_model_opcode_set(OP_CONFIG_MODEL_SUB_STATUS, msg);
ele_addr = l_get_le16(pkt);
id = CFG_GET_ID(vendor, pkt + 2);
msg[n] = mesh_model_sub_del_all(node, ele_addr, id);
if (msg[n] == MESH_STATUS_SUCCESS) {
struct mesh_config *cfg = node_config_get(node);
if (!mesh_config_model_sub_del_all(cfg, ele_addr,
vendor ? id : MODEL_ID(id),
vendor))
msg[n] = MESH_STATUS_STORAGE_FAIL;
}
l_put_le16(ele_addr, msg + n + 1);
l_put_le16(grp, msg + n + 3);
if (vendor) {
l_put_le16(VENDOR_ID(id), msg + n + 5);
l_put_le16(MODEL_ID(id), msg + n + 7);
n += 9;
} else {
l_put_le16(MODEL_ID(id), msg + n + 5);
n += 7;
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}
return n;
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}
static uint16_t model_app_list(struct mesh_node *node,
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const uint8_t *pkt, uint16_t size)
{
uint16_t ele_addr, n, bnd_len;
uint32_t id;
int opcode;
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opcode = (size == 4) ? OP_MODEL_APP_LIST : OP_VEND_MODEL_APP_LIST;
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ele_addr = l_get_le16(pkt);
n = mesh_model_opcode_set(opcode, msg);
memcpy(msg + n + 1, pkt, size);
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id = CFG_GET_ID(size == 6, pkt + 2);
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msg[n] = mesh_model_get_bindings(node, ele_addr, id, msg + n + 1 + size,
MAX_MSG_LEN - (n + 1 + size), &bnd_len);
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if (msg[n] == MESH_STATUS_SUCCESS)
n += bnd_len;
n += (size + 1);
return n;
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}
static uint16_t model_app_bind(struct mesh_node *node, const uint8_t *pkt,
uint16_t size, bool unbind)
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{
uint16_t ele_addr, idx, n;
uint32_t id;
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idx = l_get_le16(pkt + 2);
if (idx > APP_IDX_MAX)
return 0;
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ele_addr = l_get_le16(pkt);
id = CFG_GET_ID(size == 8, pkt + 4);
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n = mesh_model_opcode_set(OP_MODEL_APP_STATUS, msg);
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if (unbind)
msg[n] = mesh_model_binding_del(node, ele_addr, id, idx);
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else
msg[n] = mesh_model_binding_add(node, ele_addr, id, idx);
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memcpy(msg + n + 1, pkt, size);
n += (size + 1);
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return n;
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}
static uint16_t cfg_relay_msg(struct mesh_node *node, const uint8_t *pkt,
int opcode)
{
uint8_t count;
uint16_t interval;
uint16_t n;
if (opcode == OP_CONFIG_RELAY_SET) {
count = (pkt[1] & 0x7) + 1;
interval = ((pkt[1] >> 3) + 1) * 10;
node_relay_mode_set(node, !!pkt[0], count, interval);
}
n = mesh_model_opcode_set(OP_CONFIG_RELAY_STATUS, msg);
msg[n++] = node_relay_mode_get(node, &count, &interval);
msg[n++] = (count - 1) + ((interval/10 - 1) << 3);
return n;
}
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static void hb_pub_timeout_func(struct l_timeout *timeout, void *user_data)
{
struct mesh_net *net = user_data;
struct mesh_net_heartbeat *hb = mesh_net_heartbeat_get(net);
mesh_net_heartbeat_send(net);
if (hb->pub_count != 0xffff)
hb->pub_count--;
if (hb->pub_count > 0)
l_timeout_modify(hb->pub_timer, hb->pub_period);
else {
l_timeout_remove(hb->pub_timer);
hb->pub_timer = NULL;
}
}
static void update_hb_pub_timer(struct mesh_net *net,
struct mesh_net_heartbeat *hb)
{
if (IS_UNASSIGNED(hb->pub_dst) || hb->pub_count == 0) {
l_timeout_remove(hb->pub_timer);
hb->pub_timer = NULL;
return;
}
if (!hb->pub_timer)
hb->pub_timer = l_timeout_create(hb->pub_period,
hb_pub_timeout_func, net, NULL);
else
l_timeout_modify(hb->pub_timer, hb->pub_period);
}
static void hb_sub_timeout_func(struct l_timeout *timeout, void *user_data)
{
struct mesh_net *net = user_data;
struct mesh_net_heartbeat *hb = mesh_net_heartbeat_get(net);
l_debug("HB Subscription Ended");
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l_timeout_remove(hb->sub_timer);
hb->sub_timer = NULL;
hb->sub_enabled = false;
}
static uint8_t uint32_to_log(uint32_t value)
{
uint32_t val = 1;
uint8_t ret = 1;
if (!value)
return 0;
else if (value > 0x10000)
return 0xff;
while (val < value) {
val <<= 1;
ret++;
}
return ret;
}
static uint32_t log_to_uint32(uint8_t log, uint8_t offset)
{
if (!log)
return 0x0000;
else if (log > 0x11)
return 0xffff;
else
return (1 << (log - offset));
}
static int hb_subscription_set(struct mesh_net *net, uint16_t src,
uint16_t dst, uint8_t period_log)
{
struct mesh_net_heartbeat *hb = mesh_net_heartbeat_get(net);
struct timeval time_now;
/* SRC must be Unicast, DST can be any legal address except Virtual */
if ((!IS_UNASSIGNED(src) && !IS_UNICAST(src)) || IS_VIRTUAL(dst))
return -1;
/* Check if the subscription should be disabled */
if (IS_UNASSIGNED(src) || IS_UNASSIGNED(dst)) {
if (IS_GROUP(hb->sub_dst))
mesh_net_dst_unreg(net, hb->sub_dst);
l_timeout_remove(hb->sub_timer);
hb->sub_timer = NULL;
hb->sub_enabled = false;
hb->sub_dst = UNASSIGNED_ADDRESS;
hb->sub_src = UNASSIGNED_ADDRESS;
hb->sub_count = 0;
hb->sub_period = 0;
hb->sub_min_hops = 0;
hb->sub_max_hops = 0;
return MESH_STATUS_SUCCESS;
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} else if (!period_log && src == hb->sub_src && dst == hb->sub_dst) {
/* Preserve collected data, but disable */
l_timeout_remove(hb->sub_timer);
hb->sub_timer = NULL;
hb->sub_enabled = false;
hb->sub_period = 0;
return MESH_STATUS_SUCCESS;
}
if (hb->sub_dst != dst) {
if (IS_GROUP(hb->sub_dst))
mesh_net_dst_unreg(net, hb->sub_dst);
if (IS_GROUP(dst))
mesh_net_dst_reg(net, dst);
}
hb->sub_enabled = !!period_log;
hb->sub_src = src;
hb->sub_dst = dst;
hb->sub_count = 0;
hb->sub_period = log_to_uint32(period_log, 1);
hb->sub_min_hops = 0x00;
hb->sub_max_hops = 0x00;
gettimeofday(&time_now, NULL);
hb->sub_start = time_now.tv_sec;
if (!hb->sub_enabled) {
l_timeout_remove(hb->sub_timer);
hb->sub_timer = NULL;
return MESH_STATUS_SUCCESS;
}
hb->sub_min_hops = 0xff;
if (!hb->sub_timer)
hb->sub_timer = l_timeout_create(hb->sub_period,
hb_sub_timeout_func, net, NULL);
else
l_timeout_modify(hb->sub_timer, hb->sub_period);
return MESH_STATUS_SUCCESS;
}
static void node_reset(void *user_data)
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{
struct mesh_node *node = user_data;
l_debug("Node Reset");
node_remove(node);
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}
static uint16_t cfg_appkey_msg(struct mesh_node *node, const uint8_t *pkt,
int opcode)
{
uint16_t n_idx, a_idx, n;
struct mesh_net *net = node_get_net(node);
n_idx = l_get_le16(pkt) & 0xfff;
if (n_idx > NET_IDX_MAX)
return 0;
a_idx = l_get_le16(pkt + 1) >> 4;
if (a_idx > APP_IDX_MAX)
return 0;
n = mesh_model_opcode_set(OP_APPKEY_STATUS, msg);
if (opcode == OP_APPKEY_ADD)
msg[n] = appkey_key_add(net, n_idx, a_idx, pkt + 3);
else if (opcode == OP_APPKEY_UPDATE)
msg[n] = appkey_key_update(net, n_idx, a_idx, pkt + 3);
else
msg[n] = appkey_key_delete(net, n_idx, a_idx);
l_debug("AppKey Command %s: Net_Idx %3.3x, App_Idx %3.3x",
(msg[n] == MESH_STATUS_SUCCESS) ? "success" : "fail",
n_idx, a_idx);
memcpy(msg + n + 1, &pkt[0], 3);
return n + 4;
}
static uint16_t cfg_netkey_msg(struct mesh_node *node, const uint8_t *pkt,
int opcode)
{
uint16_t n_idx, n;
struct mesh_net *net = node_get_net(node);
n_idx = l_get_le16(pkt);
if (n_idx > NET_IDX_MAX)
return 0;
n = mesh_model_opcode_set(OP_NETKEY_STATUS, msg);
if (opcode == OP_NETKEY_ADD)
msg[n] = mesh_net_add_key(net, n_idx, pkt + 2);
else if (opcode == OP_NETKEY_UPDATE)
msg[n] = mesh_net_update_key(net, n_idx, pkt + 2);
else
msg[n] = mesh_net_del_key(net, n_idx);
l_debug("NetKey Command %s: Net_Idx %3.3x",
(msg[n] == MESH_STATUS_SUCCESS) ? "success" : "fail",
n_idx);
memcpy(msg + n + 1, &pkt[0], 2);
return n + 3;
}
static uint16_t cfg_get_appkeys_msg(struct mesh_node *node, const uint8_t *pkt)
{
uint16_t n_idx, sz, n;
n_idx = l_get_le16(pkt);
n = mesh_model_opcode_set(OP_APPKEY_LIST, msg);
l_put_le16(n_idx, msg + n + 1);
msg[n] = appkey_list(node_get_net(node), n_idx, msg + n + 3,
MAX_MSG_LEN - (n + 3), &sz);
return n + 3 + sz;
}
static uint16_t cfg_poll_timeout_msg(struct mesh_node *node, const uint8_t *pkt)
{
uint16_t n, addr = l_get_le16(pkt);
uint32_t poll_to;
if (!IS_UNICAST(addr))
return 0;
n = mesh_model_opcode_set(OP_CONFIG_POLL_TIMEOUT_STATUS, msg);
l_put_le16(addr, msg + n);
n += 2;
poll_to = mesh_net_friend_timeout(node_get_net(node), addr);
msg[n++] = poll_to;
msg[n++] = poll_to >> 8;
msg[n++] = poll_to >> 16;
return n;
}
static uint16_t get_composition(struct mesh_node *node, uint8_t page,
uint8_t *buf)
{
const uint8_t *comp;
uint16_t len = 0;
size_t i;
for (i = 0; i < sizeof(supported_pages); i++) {
if (page < supported_pages[i])
continue;
page = supported_pages[i];
comp = node_get_comp(node, page, &len);
if (!page || len)
break;
}
if (!len)
return 0;
*buf++ = page;
memcpy(buf, comp, len);
return len + 1;
}
static bool cfg_srv_pkt(uint16_t src, uint16_t dst, uint16_t app_idx,
uint16_t net_idx, const uint8_t *data,
uint16_t size, const void *user_data)
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{
struct mesh_node *node = (struct mesh_node *) user_data;
struct mesh_net *net;
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const uint8_t *pkt = data;
struct timeval time_now;
uint32_t opcode;
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int b_res = MESH_STATUS_SUCCESS;
struct mesh_net_heartbeat *hb;
uint16_t n_idx;
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uint8_t state, status;
uint8_t phase;
bool virt = false;
uint8_t count;
uint16_t interval;
uint16_t n;
if (app_idx != APP_IDX_DEV_LOCAL)
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return false;
if (mesh_model_opcode_get(pkt, size, &opcode, &n)) {
size -= n;
pkt += n;
} else
return false;
net = node_get_net(node);
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hb = mesh_net_heartbeat_get(net);
l_debug("CONFIG-SRV-opcode 0x%x size %u idx %3.3x", opcode, size,
net_idx);
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n = 0;
switch (opcode) {
default:
return false;
case OP_DEV_COMP_GET:
if (size != 1)
return true;
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n = mesh_model_opcode_set(OP_DEV_COMP_STATUS, msg);
n += get_composition(node, pkt[0], msg + n);
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break;
case OP_CONFIG_DEFAULT_TTL_SET:
if (size != 1 || pkt[0] > TTL_MASK || pkt[0] == 1)
return true;
node_default_ttl_set(node, pkt[0]);
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/* Fall Through */
case OP_CONFIG_DEFAULT_TTL_GET:
if (opcode == OP_CONFIG_DEFAULT_TTL_GET && size != 0)
return true;
l_debug("Get/Set Default TTL");
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n = mesh_model_opcode_set(OP_CONFIG_DEFAULT_TTL_STATUS, msg);
msg[n++] = node_default_ttl_get(node);
break;
case OP_CONFIG_MODEL_PUB_VIRT_SET:
if (size != 25 && size != 27)
return true;
virt = true;
/* Fall Through */
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case OP_CONFIG_MODEL_PUB_SET:
if (!virt && (size != 11 && size != 13))
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return true;
n = config_pub_set(node, pkt, virt, size == 13 || size == 27);
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break;
case OP_CONFIG_MODEL_PUB_GET:
if (size != 4 && size != 6)
return true;
n = config_pub_get(node, pkt, size == 6);
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break;
case OP_CONFIG_VEND_MODEL_SUB_GET:
if (size != 6)
return true;
/* Fall Through */
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case OP_CONFIG_MODEL_SUB_GET:
if (size != 4 && opcode == OP_CONFIG_MODEL_SUB_GET)
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return true;
n = cfg_sub_get_msg(node, pkt, size);
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break;
case OP_CONFIG_MODEL_SUB_VIRT_OVERWRITE:
case OP_CONFIG_MODEL_SUB_VIRT_DELETE:
case OP_CONFIG_MODEL_SUB_VIRT_ADD:
if (size != 20 && size != 22)
return true;
n = cfg_virt_sub_add_msg(node, pkt, size == 22, opcode);
break;
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case OP_CONFIG_MODEL_SUB_OVERWRITE:
case OP_CONFIG_MODEL_SUB_DELETE:
case OP_CONFIG_MODEL_SUB_ADD:
if (size != 6 && size != 8)
return true;
n = cfg_sub_add_msg(node, pkt, size == 8, opcode);
break;
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case OP_CONFIG_MODEL_SUB_DELETE_ALL:
if (size != 4 && size != 6)
return true;
n = config_sub_del_all(node, pkt, size == 6);
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break;
case OP_CONFIG_RELAY_SET:
if (size != 2 || pkt[0] > 0x01)
return true;
/* Fall Through */
case OP_CONFIG_RELAY_GET:
if (opcode == OP_CONFIG_RELAY_GET && size != 0)
return true;
n = cfg_relay_msg(node, pkt, opcode);
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break;
case OP_CONFIG_NETWORK_TRANSMIT_SET:
if (size != 1)
return true;
count = (pkt[0] & 0x7) + 1;
interval = ((pkt[0] >> 3) + 1) * 10;
if (mesh_config_write_net_transmit(node_config_get(node), count,
interval))
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mesh_net_transmit_params_set(net, count, interval);
/* Fall Through */
case OP_CONFIG_NETWORK_TRANSMIT_GET:
if (opcode == OP_CONFIG_NETWORK_TRANSMIT_GET && size != 0)
return true;
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n = mesh_model_opcode_set(OP_CONFIG_NETWORK_TRANSMIT_STATUS,
msg);
mesh_net_transmit_params_get(net, &count, &interval);
msg[n++] = (count - 1) + ((interval/10 - 1) << 3);
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l_debug("Get/Set Network Transmit Config");
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break;
case OP_CONFIG_PROXY_SET:
if (size != 1 || pkt[0] > 0x01)
return true;
node_proxy_mode_set(node, !!pkt[0]);
/* Fall Through */
case OP_CONFIG_PROXY_GET:
if (opcode == OP_CONFIG_PROXY_GET && size != 0)
return true;
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n = mesh_model_opcode_set(OP_CONFIG_PROXY_STATUS, msg);
msg[n++] = node_proxy_mode_get(node);
l_debug("Get/Set Config Proxy (%d)", msg[n-1]);
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break;
case OP_NODE_IDENTITY_SET:
if (size != 3)
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return true;
/* Currently setting node identity not supported */
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/* Fall Through */
case OP_NODE_IDENTITY_GET:
if (opcode == OP_NODE_IDENTITY_GET && size != 2)
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return true;
n_idx = l_get_le16(pkt);
if (n_idx > NET_IDX_MAX)
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return true;
n = mesh_model_opcode_set(OP_NODE_IDENTITY_STATUS, msg);
msg[n++] = mesh_net_get_identity_mode(net, n_idx, &state);
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l_put_le16(n_idx, msg + n);
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n += 2;
msg[n++] = state;
l_debug("Get/Set Config Identity (%d)", state);
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break;
case OP_CONFIG_BEACON_SET:
if (size != 1 || pkt[0] > 0x01)
return true;
node_beacon_mode_set(node, !!pkt[0]);
/* Fall Through */
case OP_CONFIG_BEACON_GET:
if (opcode == OP_CONFIG_BEACON_GET && size != 0)
return true;
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n = mesh_model_opcode_set(OP_CONFIG_BEACON_STATUS, msg);
msg[n++] = node_beacon_mode_get(node);
l_debug("Get/Set Config Beacon (%d)", msg[n-1]);
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break;
case OP_CONFIG_FRIEND_SET:
if (size != 1 || pkt[0] > 0x01)
return true;
node_friend_mode_set(node, !!pkt[0]);
/* Fall Through */
case OP_CONFIG_FRIEND_GET:
if (opcode == OP_CONFIG_FRIEND_GET && size != 0)
return true;
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n = mesh_model_opcode_set(OP_CONFIG_FRIEND_STATUS, msg);
msg[n++] = node_friend_mode_get(node);
l_debug("Get/Set Friend (%d)", msg[n-1]);
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break;
case OP_CONFIG_KEY_REFRESH_PHASE_SET:
if (size != 3 || pkt[2] > 0x03)
return true;
b_res = mesh_net_key_refresh_phase_set(net, l_get_le16(pkt),
pkt[2]);
size = 2;
/* Fall Through */
case OP_CONFIG_KEY_REFRESH_PHASE_GET:
if (size != 2)
return true;
n_idx = l_get_le16(pkt);
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n = mesh_model_opcode_set(OP_CONFIG_KEY_REFRESH_PHASE_STATUS,
msg);
/* State: 0x00-0x03 phase of key refresh */
status = mesh_net_key_refresh_phase_get(net, n_idx,
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&phase);
if (status != MESH_STATUS_SUCCESS) {
b_res = status;
phase = KEY_REFRESH_PHASE_NONE;
}
msg[n++] = b_res;
l_put_le16(n_idx, msg + n);
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n += 2;
msg[n++] = phase;
l_debug("Get/Set Key Refresh State (%d)", msg[n-1]);
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break;
case OP_APPKEY_ADD:
case OP_APPKEY_UPDATE:
if (size != 19)
return true;
/* Fall Through */
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case OP_APPKEY_DELETE:
if (opcode == OP_APPKEY_DELETE && size != 3)
return true;
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n = cfg_appkey_msg(node, pkt, opcode);
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break;
case OP_APPKEY_GET:
if (size != 2)
return true;
n = cfg_get_appkeys_msg(node, pkt);
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break;
case OP_NETKEY_ADD:
case OP_NETKEY_UPDATE:
if (size != 18)
return true;
/* Fall Through */
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case OP_NETKEY_DELETE:
if (opcode == OP_NETKEY_DELETE && size != 2)
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return true;
n = cfg_netkey_msg(node, pkt, opcode);
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break;
case OP_NETKEY_GET:
if (size != 0)
return true;
n = mesh_model_opcode_set(OP_NETKEY_LIST, msg);
size = MAX_MSG_LEN - n;
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if (mesh_net_key_list_get(net, msg + n, &size))
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n += size;
break;
case OP_MODEL_APP_BIND:
case OP_MODEL_APP_UNBIND:
if (size != 6 && size != 8)
return true;
n = model_app_bind(node, pkt, size,
opcode != OP_MODEL_APP_BIND);
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break;
case OP_VEND_MODEL_APP_GET:
if (size != 6)
return true;
n = model_app_list(node, pkt, size);
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break;
case OP_MODEL_APP_GET:
if (size != 4)
return true;
n = model_app_list(node, pkt, size);
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break;
case OP_CONFIG_HEARTBEAT_PUB_SET:
l_debug("OP_CONFIG_HEARTBEAT_PUB_SET");
if (size != 9)
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return true;
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if (pkt[2] > 0x11 || pkt[3] > 0x10 || pkt[4] > 0x7f)
return true;
else if (IS_VIRTUAL(l_get_le16(pkt)))
b_res = MESH_STATUS_INVALID_ADDRESS;
else if (l_get_le16(pkt + 7) != mesh_net_get_primary_idx(net))
/* Future work: check for valid subnets */
b_res = MESH_STATUS_INVALID_NETKEY;
n = mesh_model_opcode_set(OP_CONFIG_HEARTBEAT_PUB_STATUS,
msg);
msg[n++] = b_res;
memcpy(&msg[n], pkt, 9);
/* Ignore RFU bits in features */
l_put_le16(l_get_le16(pkt + 5) & 0xf, &msg[n + 5]);
/* Add octet count to status */
n += 9;
if (b_res != MESH_STATUS_SUCCESS)
break;
hb->pub_dst = l_get_le16(pkt);
if (hb->pub_dst == UNASSIGNED_ADDRESS ||
pkt[2] == 0 || pkt[3] == 0) {
/*
* We might still have a pub_dst here in case
* we need it for State Change heartbeat
*/
hb->pub_count = 0;
hb->pub_period = 0;
} else {
hb->pub_count = (pkt[2] != 0xff) ?
log_to_uint32(pkt[2], 1) : 0xffff;
hb->pub_period = log_to_uint32(pkt[3], 1);
}
hb->pub_ttl = pkt[4];
hb->pub_features = l_get_le16(pkt + 5) & 0xf;
hb->pub_net_idx = l_get_le16(pkt + 7);
update_hb_pub_timer(net, hb);
break;
case OP_CONFIG_HEARTBEAT_PUB_GET:
if (size != 0)
return true;
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n = mesh_model_opcode_set(OP_CONFIG_HEARTBEAT_PUB_STATUS, msg);
msg[n++] = b_res;
l_put_le16(hb->pub_dst, msg + n);
n += 2;
msg[n++] = uint32_to_log(hb->pub_count);
msg[n++] = uint32_to_log(hb->pub_period);
msg[n++] = hb->pub_ttl;
l_put_le16(hb->pub_features, msg + n);
n += 2;
l_put_le16(hb->pub_net_idx, msg + n);
n += 2;
break;
case OP_CONFIG_HEARTBEAT_SUB_SET:
if (size != 5)
return true;
l_debug("Set Sub Period (Log %2.2x) %d sec",
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pkt[4], log_to_uint32(pkt[4], 1));
b_res = hb_subscription_set(net, l_get_le16(pkt),
l_get_le16(pkt + 2),
pkt[4]);
if (b_res < 0)
return true;
/* Fall through */
case OP_CONFIG_HEARTBEAT_SUB_GET:
if (opcode == OP_CONFIG_HEARTBEAT_SUB_GET && size != 0)
return true;
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gettimeofday(&time_now, NULL);
time_now.tv_sec -= hb->sub_start;
if (time_now.tv_sec >= (long int) hb->sub_period)
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time_now.tv_sec = 0;
else
time_now.tv_sec = hb->sub_period - time_now.tv_sec;
l_debug("Sub Period (Log %2.2x) %d sec",
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uint32_to_log(time_now.tv_sec),
(int) time_now.tv_sec);
n = mesh_model_opcode_set(OP_CONFIG_HEARTBEAT_SUB_STATUS, msg);
msg[n++] = b_res;
l_put_le16(hb->sub_src, msg + n);
n += 2;
l_put_le16(hb->sub_dst, msg + n);
n += 2;
msg[n++] = uint32_to_log(time_now.tv_sec);
msg[n++] = uint32_to_log(hb->sub_count);
msg[n++] = hb->sub_count ? hb->sub_min_hops : 0;
msg[n++] = hb->sub_max_hops;
break;
case OP_CONFIG_POLL_TIMEOUT_GET:
if (size != 2)
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return true;
n = cfg_poll_timeout_msg(node, pkt);
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break;
case OP_NODE_RESET:
if (size != 0)
return true;
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n = mesh_model_opcode_set(OP_NODE_RESET_STATUS, msg);
/* Delay node removal to give it a chance to send the status */
l_idle_oneshot(node_reset, node, NULL);
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break;
}
if (n)
mesh_model_send(node, dst, src, APP_IDX_DEV_LOCAL, net_idx,
DEFAULT_TTL, false, msg, n);
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return true;
}
static void cfgmod_srv_unregister(void *user_data)
{
struct mesh_node *node = user_data;
struct mesh_net *net = node_get_net(node);
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struct mesh_net_heartbeat *hb = mesh_net_heartbeat_get(net);
l_timeout_remove(hb->pub_timer);
l_timeout_remove(hb->sub_timer);
hb->pub_timer = hb->sub_timer = NULL;
}
static const struct mesh_model_ops ops = {
.unregister = cfgmod_srv_unregister,
.recv = cfg_srv_pkt,
.bind = NULL,
.sub = NULL,
.pub = NULL
};
void cfgmod_server_init(struct mesh_node *node, uint8_t ele_idx)
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{
l_debug("%2.2x", ele_idx);
mesh_model_register(node, ele_idx, CONFIG_SRV_MODEL, &ops, node);
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}