/* buf.c - Buffer management */ /* * Copyright (c) 2015 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #include #include #include #if defined(CONFIG_NET_BUF_LOG) #define SYS_LOG_DOMAIN "net/buf" #define SYS_LOG_LEVEL CONFIG_SYS_LOG_NET_BUF_LEVEL #include #define NET_BUF_DBG(fmt, ...) SYS_LOG_DBG("(%p) " fmt, k_current_get(), \ ##__VA_ARGS__) #define NET_BUF_ERR(fmt, ...) SYS_LOG_ERR(fmt, ##__VA_ARGS__) #define NET_BUF_WARN(fmt, ...) SYS_LOG_WRN(fmt, ##__VA_ARGS__) #define NET_BUF_INFO(fmt, ...) SYS_LOG_INF(fmt, ##__VA_ARGS__) #define NET_BUF_ASSERT(cond) do { if (!(cond)) { \ NET_BUF_ERR("assert: '" #cond "' failed"); \ } } while (0) #else #define NET_BUF_DBG(fmt, ...) #define NET_BUF_ERR(fmt, ...) #define NET_BUF_WARN(fmt, ...) #define NET_BUF_INFO(fmt, ...) #define NET_BUF_ASSERT(cond) #endif /* CONFIG_NET_BUF_LOG */ #if CONFIG_NET_BUF_WARN_ALLOC_INTERVAL > 0 #define WARN_ALLOC_INTERVAL K_SECONDS(CONFIG_NET_BUF_WARN_ALLOC_INTERVAL) #else #define WARN_ALLOC_INTERVAL K_FOREVER #endif /* Helpers to access the storage array, since we don't have access to its * type at this point anymore. */ #define BUF_SIZE(pool) (sizeof(struct net_buf) + \ ROUND_UP(pool->buf_size, 4) + \ ROUND_UP(pool->user_data_size, 4)) #define UNINIT_BUF(pool, n) (struct net_buf *)(((uint8_t *)(pool->__bufs)) + \ ((n) * BUF_SIZE(pool))) static inline struct net_buf *pool_get_uninit(struct net_buf_pool *pool, uint16_t uninit_count) { struct net_buf *buf; buf = UNINIT_BUF(pool, pool->buf_count - uninit_count); buf->pool = pool; buf->size = pool->buf_size; return buf; } #if defined(CONFIG_NET_BUF_LOG) struct net_buf *net_buf_alloc_debug(struct net_buf_pool *pool, int32_t timeout, const char *func, int line) #else struct net_buf *net_buf_alloc(struct net_buf_pool *pool, int32_t timeout) #endif { struct net_buf *buf; unsigned int key; NET_BUF_ASSERT(pool); NET_BUF_DBG("%s():%d: pool %p timeout %d", func, line, pool, timeout); /* We need to lock interrupts temporarily to prevent race conditions * when accessing pool->uninit_count. */ key = irq_lock(); /* If there are uninitialized buffers we're guaranteed to succeed * with the allocation one way or another. */ if (pool->uninit_count) { uint16_t uninit_count; /* If this is not the first access to the pool, we can * be opportunistic and try to fetch a previously used * buffer from the LIFO with K_NO_WAIT. */ if (pool->uninit_count < pool->buf_count) { buf = k_lifo_get(&pool->free, K_NO_WAIT); if (buf) { irq_unlock(key); goto success; } } uninit_count = pool->uninit_count--; irq_unlock(key); buf = pool_get_uninit(pool, uninit_count); goto success; } irq_unlock(key); #if defined(CONFIG_NET_BUF_LOG) && SYS_LOG_LEVEL >= SYS_LOG_LEVEL_WARNING if (timeout == K_FOREVER) { uint32_t ref = k_uptime_get_32(); buf = k_lifo_get(&pool->free, K_NO_WAIT); while (!buf) { #if defined(CONFIG_NET_BUF_POOL_USAGE) NET_BUF_WARN("%s():%d: Pool %s low on buffers.", func, line, pool->name); #else NET_BUF_WARN("%s():%d: Pool %p low on buffers.", func, line, pool); #endif buf = k_lifo_get(&pool->free, WARN_ALLOC_INTERVAL); #if defined(CONFIG_NET_BUF_POOL_USAGE) NET_BUF_WARN("%s():%d: Pool %s blocked for %u secs", func, line, pool->name, (k_uptime_get_32() - ref) / MSEC_PER_SEC); #else NET_BUF_WARN("%s():%d: Pool %p blocked for %u secs", func, line, pool, (k_uptime_get_32() - ref) / MSEC_PER_SEC); #endif } } else { buf = k_lifo_get(&pool->free, timeout); } #else buf = k_lifo_get(&pool->free, timeout); #endif if (!buf) { NET_BUF_ERR("%s():%d: Failed to get free buffer", func, line); return NULL; } success: NET_BUF_DBG("allocated buf %p", buf); buf->ref = 1; buf->len = 0; buf->data = buf->__buf; buf->flags = 0; buf->frags = NULL; #if defined(CONFIG_NET_BUF_POOL_USAGE) buf->pool->avail_count--; NET_BUF_ASSERT(buf->pool->avail_count >= 0); #endif return buf; } #if defined(CONFIG_NET_BUF_LOG) struct net_buf *net_buf_get_debug(struct k_fifo *fifo, int32_t timeout, const char *func, int line) #else struct net_buf *net_buf_get(struct k_fifo *fifo, int32_t timeout) #endif { struct net_buf *buf, *frag; NET_BUF_DBG("%s():%d: fifo %p timeout %d", func, line, fifo, timeout); buf = k_fifo_get(fifo, timeout); if (!buf) { return NULL; } NET_BUF_DBG("%s():%d: buf %p fifo %p", func, line, buf, fifo); /* Get any fragments belonging to this buffer */ for (frag = buf; (frag->flags & NET_BUF_FRAGS); frag = frag->frags) { frag->frags = k_fifo_get(fifo, K_NO_WAIT); NET_BUF_ASSERT(frag->frags); /* The fragments flag is only for FIFO-internal usage */ frag->flags &= ~NET_BUF_FRAGS; } /* Mark the end of the fragment list */ frag->frags = NULL; return buf; } void net_buf_reserve(struct net_buf *buf, size_t reserve) { NET_BUF_ASSERT(buf); NET_BUF_ASSERT(buf->len == 0); NET_BUF_DBG("buf %p reserve %zu", buf, reserve); buf->data = buf->__buf + reserve; } void net_buf_put(struct k_fifo *fifo, struct net_buf *buf) { struct net_buf *tail; NET_BUF_ASSERT(fifo); NET_BUF_ASSERT(buf); for (tail = buf; tail->frags; tail = tail->frags) { tail->flags |= NET_BUF_FRAGS; } k_fifo_put_list(fifo, buf, tail); } #if defined(CONFIG_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; #if defined(CONFIG_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); if (--buf->ref > 0) { return; } buf->frags = NULL; #if defined(CONFIG_NET_BUF_POOL_USAGE) buf->pool->avail_count++; NET_BUF_ASSERT(buf->pool->avail_count <= buf->pool->buf_count); #endif if (buf->pool->destroy) { buf->pool->destroy(buf); } else { net_buf_destroy(buf); } buf = frags; } } 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; } struct net_buf *net_buf_clone(struct net_buf *buf, int32_t timeout) { struct net_buf *clone; NET_BUF_ASSERT(buf); clone = net_buf_alloc(buf->pool, timeout); if (!clone) { return NULL; } net_buf_reserve(clone, net_buf_headroom(buf)); /* TODO: Add reference to the original buffer instead of copying it. */ memcpy(net_buf_add(clone, buf->len), buf->data, buf->len); return clone; } 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_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; 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_NET_BUF_LOG) net_buf_unref_debug(frag, func, line); #else net_buf_unref(frag); #endif return next_frag; } #if defined(CONFIG_NET_BUF_SIMPLE_LOG) #define NET_BUF_SIMPLE_DBG(fmt, ...) NET_BUF_DBG(fmt, ##__VA_ARGS__) #define NET_BUF_SIMPLE_ERR(fmt, ...) NET_BUF_ERR(fmt, ##__VA_ARGS__) #define NET_BUF_SIMPLE_WARN(fmt, ...) NET_BUF_WARN(fmt, ##__VA_ARGS__) #define NET_BUF_SIMPLE_INFO(fmt, ...) NET_BUF_INFO(fmt, ##__VA_ARGS__) #define NET_BUF_SIMPLE_ASSERT(cond) NET_BUF_ASSERT(cond) #else #define NET_BUF_SIMPLE_DBG(fmt, ...) #define NET_BUF_SIMPLE_ERR(fmt, ...) #define NET_BUF_SIMPLE_WARN(fmt, ...) #define NET_BUF_SIMPLE_INFO(fmt, ...) #define NET_BUF_SIMPLE_ASSERT(cond) #endif /* CONFIG_NET_BUF_SIMPLE_LOG */ void *net_buf_simple_add(struct net_buf_simple *buf, size_t len) { uint8_t *tail = net_buf_simple_tail(buf); NET_BUF_SIMPLE_DBG("buf %p len %zu", 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 %zu", buf, len); return memcpy(net_buf_simple_add(buf, len), mem, len); } uint8_t *net_buf_simple_add_u8(struct net_buf_simple *buf, uint8_t val) { uint8_t *u8; 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, uint16_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, uint16_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, uint32_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, uint32_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 %zu", 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, uint16_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, uint16_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, uint8_t val) { uint8_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 %zu", buf, len); NET_BUF_SIMPLE_ASSERT(buf->len >= len); buf->len -= len; return buf->data += len; } uint8_t net_buf_simple_pull_u8(struct net_buf_simple *buf) { uint8_t val; val = buf->data[0]; net_buf_simple_pull(buf, 1); return val; } uint16_t net_buf_simple_pull_le16(struct net_buf_simple *buf) { uint16_t val; val = UNALIGNED_GET((uint16_t *)buf->data); net_buf_simple_pull(buf, sizeof(val)); return sys_le16_to_cpu(val); } uint16_t net_buf_simple_pull_be16(struct net_buf_simple *buf) { uint16_t val; val = UNALIGNED_GET((uint16_t *)buf->data); net_buf_simple_pull(buf, sizeof(val)); return sys_be16_to_cpu(val); } uint32_t net_buf_simple_pull_le32(struct net_buf_simple *buf) { uint32_t val; val = UNALIGNED_GET((uint32_t *)buf->data); net_buf_simple_pull(buf, sizeof(val)); return sys_le32_to_cpu(val); } uint32_t net_buf_simple_pull_be32(struct net_buf_simple *buf) { uint32_t val; val = UNALIGNED_GET((uint32_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; }