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OVMS3-idf/components/bt/esp_ble_mesh/mesh_common/mesh_buf.c
lly e24641cc89 ble_mesh: Miscellaneous modifications 
1. Add an API to set Provisioner static oob value
2. Add an API to deinit BLE Mesh stack
3. Add an API to set Provisioner unicast address
4. Add an API to provision devices with fixed address
5. Add an API to store node composition data
6. Add an API to get node with device uuid
7. Add an API to get node with unicast address
8. Add an API to delete node with device uuid
9. Add an API to delete node with unicast address
10. Add an API for Provisioner to update local AppKey
11. Add an API for Provisioner to update local NetKey
12. Support Provisioner persistent functionality
13. Fix Provisioner entering IV Update procedure
14. Fix an issue which may cause client failing to send msg
15. Use bt_mesh.flags to indicate device role
16. Remove several useless macros
17. Callback RSSI of received mesh provisioning packets
18. Modify the Provisioner disable function
19. Change some log level from debug to info
20. Add parameters to Provisioner bind AppKey completion event
21. Fix node ignoring relay messages issue
22. Support using a specific partition for BLE Mesh
23. Fix compile warning when proxy related macros are disabled
24. Clean up BLE Mesh stack included header files
25. NULL can be input if client message needs no parameters
26. Fix compile warning when BT log is disabled
27. Initilize BLE Mesh stack local variables
28. Support using PSRAM for BLE Mesh mutex, queue and task
29. Add a menuconfig option to enable using memory from PSRAM
30. Clean up sdkconfig.defaults of BLE Mesh examples
2020-02-27 14:42:25 +08:00

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/*
* Copyright (c) 2015 Intel Corporation
* Additional Copyright (c) 2018 Espressif Systems (Shanghai) PTE LTD
*
* SPDX-License-Identifier: Apache-2.0
*/
#include <string.h>
#include "mesh_buf.h"
#include "mesh_trace.h"
#include "mesh_kernel.h"
int net_buf_id(struct net_buf *buf)
{
struct net_buf_pool *pool = buf->pool;
return buf - pool->__bufs;
}
static inline struct net_buf *pool_get_uninit(struct net_buf_pool *pool,
u16_t uninit_count)
{
struct net_buf *buf = NULL;
buf = &pool->__bufs[pool->buf_count - uninit_count];
buf->pool = pool;
return buf;
}
void net_buf_simple_clone(const struct net_buf_simple *original,
struct net_buf_simple *clone)
{
memcpy(clone, original, sizeof(struct net_buf_simple));
}
void *net_buf_simple_add(struct net_buf_simple *buf, size_t len)
{
u8_t *tail = net_buf_simple_tail(buf);
NET_BUF_SIMPLE_DBG("buf %p len %u", buf, len);
NET_BUF_SIMPLE_ASSERT(net_buf_simple_tailroom(buf) >= len);
buf->len += len;
return tail;
}
void *net_buf_simple_add_mem(struct net_buf_simple *buf, const void *mem,
size_t len)
{
NET_BUF_SIMPLE_DBG("buf %p len %u", buf, len);
return memcpy(net_buf_simple_add(buf, len), mem, len);
}
u8_t *net_buf_simple_add_u8(struct net_buf_simple *buf, u8_t val)
{
u8_t *u8 = NULL;
NET_BUF_SIMPLE_DBG("buf %p val 0x%02x", buf, val);
u8 = net_buf_simple_add(buf, 1);
*u8 = val;
return u8;
}
void net_buf_simple_add_le16(struct net_buf_simple *buf, u16_t val)
{
NET_BUF_SIMPLE_DBG("buf %p val %u", buf, val);
val = sys_cpu_to_le16(val);
memcpy(net_buf_simple_add(buf, sizeof(val)), &val, sizeof(val));
}
void net_buf_simple_add_be16(struct net_buf_simple *buf, u16_t val)
{
NET_BUF_SIMPLE_DBG("buf %p val %u", buf, val);
val = sys_cpu_to_be16(val);
memcpy(net_buf_simple_add(buf, sizeof(val)), &val, sizeof(val));
}
void net_buf_simple_add_le32(struct net_buf_simple *buf, u32_t val)
{
NET_BUF_SIMPLE_DBG("buf %p val %u", buf, val);
val = sys_cpu_to_le32(val);
memcpy(net_buf_simple_add(buf, sizeof(val)), &val, sizeof(val));
}
void net_buf_simple_add_be32(struct net_buf_simple *buf, u32_t val)
{
NET_BUF_SIMPLE_DBG("buf %p val %u", buf, val);
val = sys_cpu_to_be32(val);
memcpy(net_buf_simple_add(buf, sizeof(val)), &val, sizeof(val));
}
void *net_buf_simple_push(struct net_buf_simple *buf, size_t len)
{
NET_BUF_SIMPLE_DBG("buf %p len %u", buf, len);
NET_BUF_SIMPLE_ASSERT(net_buf_simple_headroom(buf) >= len);
buf->data -= len;
buf->len += len;
return buf->data;
}
void net_buf_simple_push_le16(struct net_buf_simple *buf, u16_t val)
{
NET_BUF_SIMPLE_DBG("buf %p val %u", buf, val);
val = sys_cpu_to_le16(val);
memcpy(net_buf_simple_push(buf, sizeof(val)), &val, sizeof(val));
}
void net_buf_simple_push_be16(struct net_buf_simple *buf, u16_t val)
{
NET_BUF_SIMPLE_DBG("buf %p val %u", buf, val);
val = sys_cpu_to_be16(val);
memcpy(net_buf_simple_push(buf, sizeof(val)), &val, sizeof(val));
}
void net_buf_simple_push_u8(struct net_buf_simple *buf, u8_t val)
{
u8_t *data = net_buf_simple_push(buf, 1);
*data = val;
}
void *net_buf_simple_pull(struct net_buf_simple *buf, size_t len)
{
NET_BUF_SIMPLE_DBG("buf %p len %u", buf, len);
NET_BUF_SIMPLE_ASSERT(buf->len >= len);
buf->len -= len;
return buf->data += len;
}
void *net_buf_simple_pull_mem(struct net_buf_simple *buf, size_t len)
{
void *data = buf->data;
NET_BUF_SIMPLE_DBG("buf %p len %zu", buf, len);
NET_BUF_SIMPLE_ASSERT(buf->len >= len);
buf->len -= len;
buf->data += len;
return data;
}
u8_t net_buf_simple_pull_u8(struct net_buf_simple *buf)
{
u8_t val = 0U;
val = buf->data[0];
net_buf_simple_pull(buf, 1);
return val;
}
u16_t net_buf_simple_pull_le16(struct net_buf_simple *buf)
{
u16_t val = 0U;
val = UNALIGNED_GET((u16_t *)buf->data);
net_buf_simple_pull(buf, sizeof(val));
return sys_le16_to_cpu(val);
}
u16_t net_buf_simple_pull_be16(struct net_buf_simple *buf)
{
u16_t val = 0U;
val = UNALIGNED_GET((u16_t *)buf->data);
net_buf_simple_pull(buf, sizeof(val));
return sys_be16_to_cpu(val);
}
u32_t net_buf_simple_pull_le32(struct net_buf_simple *buf)
{
u32_t val = 0U;
val = UNALIGNED_GET((u32_t *)buf->data);
net_buf_simple_pull(buf, sizeof(val));
return sys_le32_to_cpu(val);
}
u32_t net_buf_simple_pull_be32(struct net_buf_simple *buf)
{
u32_t val = 0U;
val = UNALIGNED_GET((u32_t *)buf->data);
net_buf_simple_pull(buf, sizeof(val));
return sys_be32_to_cpu(val);
}
size_t net_buf_simple_headroom(struct net_buf_simple *buf)
{
return buf->data - buf->__buf;
}
size_t net_buf_simple_tailroom(struct net_buf_simple *buf)
{
return buf->size - net_buf_simple_headroom(buf) - buf->len;
}
void net_buf_reset(struct net_buf *buf)
{
NET_BUF_ASSERT(buf->flags == 0);
NET_BUF_ASSERT(buf->frags == NULL);
net_buf_simple_reset(&buf->b);
}
void net_buf_simple_reserve(struct net_buf_simple *buf, size_t reserve)
{
NET_BUF_ASSERT(buf);
NET_BUF_ASSERT(buf->len == 0U);
NET_BUF_DBG("buf %p reserve %zu", buf, reserve);
buf->data = buf->__buf + reserve;
}
void net_buf_slist_put(sys_slist_t *list, struct net_buf *buf)
{
struct net_buf *tail = NULL;
NET_BUF_ASSERT(list);
NET_BUF_ASSERT(buf);
for (tail = buf; tail->frags; tail = tail->frags) {
tail->flags |= NET_BUF_FRAGS;
}
bt_mesh_list_lock();
sys_slist_append_list(list, &buf->node, &tail->node);
bt_mesh_list_unlock();
}
struct net_buf *net_buf_slist_get(sys_slist_t *list)
{
struct net_buf *buf = NULL, *frag = NULL;
NET_BUF_ASSERT(list);
bt_mesh_list_lock();
buf = (void *)sys_slist_get(list);
bt_mesh_list_unlock();
if (!buf) {
return NULL;
}
/* Get any fragments belonging to this buffer */
for (frag = buf; (frag->flags & NET_BUF_FRAGS); frag = frag->frags) {
bt_mesh_list_lock();
frag->frags = (void *)sys_slist_get(list);
bt_mesh_list_unlock();
NET_BUF_ASSERT(frag->frags);
/* The fragments flag is only for list-internal usage */
frag->flags &= ~NET_BUF_FRAGS;
}
/* Mark the end of the fragment list */
frag->frags = NULL;
return buf;
}
struct net_buf *net_buf_ref(struct net_buf *buf)
{
NET_BUF_ASSERT(buf);
NET_BUF_DBG("buf %p (old) ref %u pool %p", buf, buf->ref, buf->pool);
buf->ref++;
return buf;
}
#if defined(CONFIG_BLE_MESH_NET_BUF_LOG)
void net_buf_unref_debug(struct net_buf *buf, const char *func, int line)
#else
void net_buf_unref(struct net_buf *buf)
#endif
{
NET_BUF_ASSERT(buf);
while (buf) {
struct net_buf *frags = buf->frags;
struct net_buf_pool *pool = NULL;
#if defined(CONFIG_BLE_MESH_NET_BUF_LOG)
if (!buf->ref) {
NET_BUF_ERR("%s():%d: buf %p double free", func, line,
buf);
return;
}
#endif
NET_BUF_DBG("buf %p ref %u pool %p frags %p", buf, buf->ref,
buf->pool, buf->frags);
/* Changed by Espressif. Add !buf->ref to avoid minus 0 */
if (!buf->ref || --buf->ref > 0) {
return;
}
buf->frags = NULL;
pool = buf->pool;
pool->uninit_count++;
#if defined(CONFIG_BLE_MESH_NET_BUF_POOL_USAGE)
pool->avail_count++;
NET_BUF_DBG("%s, pool %p, avail_count %d, uninit_count %d", __func__,
pool, pool->avail_count, pool->uninit_count);
NET_BUF_ASSERT(pool->avail_count <= pool->buf_count);
#endif
if (pool->destroy) {
pool->destroy(buf);
}
buf = frags;
}
}
static u8_t *fixed_data_alloc(struct net_buf *buf, size_t *size, s32_t timeout)
{
struct net_buf_pool *pool = buf->pool;
const struct net_buf_pool_fixed *fixed = pool->alloc->alloc_data;
*size = MIN(fixed->data_size, *size);
return fixed->data_pool + fixed->data_size * net_buf_id(buf);
}
static void fixed_data_unref(struct net_buf *buf, u8_t *data)
{
/* Nothing needed for fixed-size data pools */
}
const struct net_buf_data_cb net_buf_fixed_cb = {
.alloc = fixed_data_alloc,
.unref = fixed_data_unref,
};
static u8_t *data_alloc(struct net_buf *buf, size_t *size, s32_t timeout)
{
struct net_buf_pool *pool = buf->pool;
return pool->alloc->cb->alloc(buf, size, timeout);
}
#if defined(CONFIG_BLE_MESH_NET_BUF_LOG)
struct net_buf *net_buf_alloc_len_debug(struct net_buf_pool *pool, size_t size,
s32_t timeout, const char *func, int line)
#else
struct net_buf *net_buf_alloc_len(struct net_buf_pool *pool, size_t size,
s32_t timeout)
#endif
{
struct net_buf *buf = NULL;
int i;
NET_BUF_ASSERT(pool);
NET_BUF_DBG("%s, pool %p, uninit_count %d, buf_count %d", __func__,
pool, pool->uninit_count, pool->buf_count);
/* We need to lock interrupts temporarily to prevent race conditions
* when accessing pool->uninit_count.
*/
bt_mesh_buf_lock();
/* If there are uninitialized buffers we're guaranteed to succeed
* with the allocation one way or another.
*/
if (pool->uninit_count) {
/* Changed by Espressif. Use buf when buf->ref is 0 */
for (i = pool->buf_count; i > 0; i--) {
buf = pool_get_uninit(pool, i);
if (!buf->ref) {
bt_mesh_buf_unlock();
goto success;
}
}
}
bt_mesh_buf_unlock();
NET_BUF_ERR("%s, Failed to get free buffer", __func__);
return NULL;
success:
NET_BUF_DBG("allocated buf %p", buf);
if (size) {
buf->__buf = data_alloc(buf, &size, timeout);
if (!buf->__buf) {
NET_BUF_ERR("%s, Failed to allocate data", __func__);
return NULL;
}
} else {
NET_BUF_WARN("%s, Zero data size", __func__);
buf->__buf = NULL;
}
buf->ref = 1;
buf->flags = 0;
buf->frags = NULL;
buf->size = size;
net_buf_reset(buf);
pool->uninit_count--;
#if defined(CONFIG_BLE_MESH_NET_BUF_POOL_USAGE)
pool->avail_count--;
NET_BUF_ASSERT(pool->avail_count >= 0);
#endif
return buf;
}
#if defined(CONFIG_BLE_MESH_NET_BUF_LOG)
struct net_buf *net_buf_alloc_fixed_debug(struct net_buf_pool *pool,
s32_t timeout, const char *func,
int line)
{
const struct net_buf_pool_fixed *fixed = pool->alloc->alloc_data;
return net_buf_alloc_len_debug(pool, fixed->data_size, timeout, func, line);
}
#else
struct net_buf *net_buf_alloc_fixed(struct net_buf_pool *pool, s32_t timeout)
{
const struct net_buf_pool_fixed *fixed = pool->alloc->alloc_data;
return net_buf_alloc_len(pool, fixed->data_size, timeout);
}
#endif
struct net_buf *net_buf_frag_last(struct net_buf *buf)
{
NET_BUF_ASSERT(buf);
while (buf->frags) {
buf = buf->frags;
}
return buf;
}
void net_buf_frag_insert(struct net_buf *parent, struct net_buf *frag)
{
NET_BUF_ASSERT(parent);
NET_BUF_ASSERT(frag);
if (parent->frags) {
net_buf_frag_last(frag)->frags = parent->frags;
}
/* Take ownership of the fragment reference */
parent->frags = frag;
}
struct net_buf *net_buf_frag_add(struct net_buf *head, struct net_buf *frag)
{
NET_BUF_ASSERT(frag);
if (!head) {
return net_buf_ref(frag);
}
net_buf_frag_insert(net_buf_frag_last(head), frag);
return head;
}
#if defined(CONFIG_BLE_MESH_NET_BUF_LOG)
struct net_buf *net_buf_frag_del_debug(struct net_buf *parent,
struct net_buf *frag,
const char *func, int line)
#else
struct net_buf *net_buf_frag_del(struct net_buf *parent, struct net_buf *frag)
#endif
{
struct net_buf *next_frag = NULL;
NET_BUF_ASSERT(frag);
if (parent) {
NET_BUF_ASSERT(parent->frags);
NET_BUF_ASSERT(parent->frags == frag);
parent->frags = frag->frags;
}
next_frag = frag->frags;
frag->frags = NULL;
#if defined(CONFIG_BLE_MESH_NET_BUF_LOG)
net_buf_unref_debug(frag, func, line);
#else
net_buf_unref(frag);
#endif
return next_frag;
}
size_t net_buf_linearize(void *dst, size_t dst_len, struct net_buf *src,
size_t offset, size_t len)
{
struct net_buf *frag = NULL;
size_t to_copy = 0U;
size_t copied = 0U;
len = MIN(len, dst_len);
frag = src;
/* find the right fragment to start copying from */
while (frag && offset >= frag->len) {
offset -= frag->len;
frag = frag->frags;
}
/* traverse the fragment chain until len bytes are copied */
copied = 0;
while (frag && len > 0) {
to_copy = MIN(len, frag->len - offset);
memcpy((u8_t *)dst + copied, frag->data + offset, to_copy);
copied += to_copy;
/* to_copy is always <= len */
len -= to_copy;
frag = frag->frags;
/* after the first iteration, this value will be 0 */
offset = 0;
}
return copied;
}
/* This helper routine will append multiple bytes, if there is no place for
* the data in current fragment then create new fragment and add it to
* the buffer. It assumes that the buffer has at least one fragment.
*/
size_t net_buf_append_bytes(struct net_buf *buf, size_t len,
const void *value, s32_t timeout,
net_buf_allocator_cb allocate_cb, void *user_data)
{
struct net_buf *frag = net_buf_frag_last(buf);
size_t added_len = 0U;
const u8_t *value8 = value;
do {
u16_t count = MIN(len, net_buf_tailroom(frag));
net_buf_add_mem(frag, value8, count);
len -= count;
added_len += count;
value8 += count;
if (len == 0) {
return added_len;
}
frag = allocate_cb(timeout, user_data);
if (!frag) {
return added_len;
}
net_buf_frag_add(buf, frag);
} while (1);
/* Unreachable */
return 0;
}
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