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/**

 * @file

 * Packet buffer management

 *

 * Packets are built from the pbuf data structure. It supports dynamic

 * memory allocation for packet contents or can reference externally

 * managed packet contents both in RAM and ROM. Quick allocation for

 * incoming packets is provided through pools with fixed sized pbufs.

 *

 * A packet may span over multiple pbufs, chained as a singly linked

 * list. This is called a "pbuf chain".

 *

 * Multiple packets may be queued, also using this singly linked list.

 * This is called a "packet queue".

 *

 * So, a packet queue consists of one or more pbuf chains, each of

 * which consist of one or more pbufs. CURRENTLY, PACKET QUEUES ARE

 * NOT SUPPORTED!!! Use helper structs to queue multiple packets.

 *

 * The differences between a pbuf chain and a packet queue are very

 * precise but subtle.

 *

 * The last pbuf of a packet has a ->tot_len field that equals the

 * ->len field. It can be found by traversing the list. If the last

 * pbuf of a packet has a ->next field other than NULL, more packets

 * are on the queue.

 *

 * Therefore, looping through a pbuf of a single packet, has an

 * loop end condition (tot_len == p->len), NOT (next == NULL).

 */

/*

 * Copyright (c) 2001-2004 Swedish Institute of Computer Science.

 * All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without modification,

 * are permitted provided that the following conditions are met:

 *

 * 1. Redistributions of source code must retain the above copyright notice,

 *    this list of conditions and the following disclaimer.

 * 2. Redistributions in binary form must reproduce the above copyright notice,

 *    this list of conditions and the following disclaimer in the documentation

 *    and/or other materials provided with the distribution.

 * 3. The name of the author may not be used to endorse or promote products

 *    derived from this software without specific prior written permission.

 *

 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED

 * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF

 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT

 * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,

 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT

 * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS

 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN

 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING

 * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY

 * OF SUCH DAMAGE.

 *

 * This file is part of the lwIP TCP/IP stack.

 *

 * Author: Adam Dunkels <adam@sics.se>

 *

 */

#include "lwip/opt.h"

#include "lwip/stats.h"

#include "lwip/def.h"

#include "lwip/mem.h"

#include "lwip/memp.h"

#include "lwip/pbuf.h"

#include "lwip/sys.h"

#include "arch/perf.h"

#include <string.h>

#define SIZEOF_STRUCT_PBUF        LWIP_MEM_ALIGN_SIZE(sizeof(struct pbuf))

/* Since the pool is created in memp, PBUF_POOL_BUFSIZE will be automatically

   aligned there. Therefore, PBUF_POOL_BUFSIZE_ALIGNED can be used here. */

#define PBUF_POOL_BUFSIZE_ALIGNED LWIP_MEM_ALIGN_SIZE(PBUF_POOL_BUFSIZE)

/**

 * Allocates a pbuf of the given type (possibly a chain for PBUF_POOL type).

 *

 * The actual memory allocated for the pbuf is determined by the

 * layer at which the pbuf is allocated and the requested size

 * (from the size parameter).

 *

 * @param layer flag to define header size

 * @param length size of the pbuf's payload

 * @param type this parameter decides how and where the pbuf

 * should be allocated as follows:

 *

 * - PBUF_RAM: buffer memory for pbuf is allocated as one large

 *             chunk. This includes protocol headers as well.

 * - PBUF_ROM: no buffer memory is allocated for the pbuf, even for

 *             protocol headers. Additional headers must be prepended

 *             by allocating another pbuf and chain in to the front of

 *             the ROM pbuf. It is assumed that the memory used is really

 *             similar to ROM in that it is immutable and will not be

 *             changed. Memory which is dynamic should generally not

 *             be attached to PBUF_ROM pbufs. Use PBUF_REF instead.

 * - PBUF_REF: no buffer memory is allocated for the pbuf, even for

 *             protocol headers. It is assumed that the pbuf is only

 *             being used in a single thread. If the pbuf gets queued,

 *             then pbuf_take should be called to copy the buffer.

 * - PBUF_POOL: the pbuf is allocated as a pbuf chain, with pbufs from

 *              the pbuf pool that is allocated during pbuf_init().

 *

 * @return the allocated pbuf. If multiple pbufs where allocated, this

 * is the first pbuf of a pbuf chain.

 */

struct pbuf *

pbuf_alloc(pbuf_layer layer, u16_t length, pbuf_type type)

{

  struct pbuf *p, *q, *r;

  u16_t offset;

  s32_t rem_len; /* remaining length */

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 3, ("pbuf_alloc(length=%"U16_F")\n", length));

  /* determine header offset */

  offset = 0;

  switch (layer) {

  case PBUF_TRANSPORT:

    /* add room for transport (often TCP) layer header */

    offset += PBUF_TRANSPORT_HLEN;

    /* FALLTHROUGH */

  case PBUF_IP:

    /* add room for IP layer header */

    offset += PBUF_IP_HLEN;

    /* FALLTHROUGH */

  case PBUF_LINK:

    /* add room for link layer header */

    offset += PBUF_LINK_HLEN;

    break;

  case PBUF_RAW:

    break;

  default:

    LWIP_ASSERT("pbuf_alloc: bad pbuf layer", 0);

    return NULL;

  }

  switch (type) {

  case PBUF_POOL:

    /* allocate head of pbuf chain into p */

      p = memp_malloc(MEMP_PBUF_POOL);

    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 3, ("pbuf_alloc: allocated pbuf %p\n", (void *)p));

    if (p == NULL) {

      return NULL;

    }

    p->type = type;

    p->next = NULL;

    /* make the payload pointer point 'offset' bytes into pbuf data memory */

    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + (SIZEOF_STRUCT_PBUF + offset)));

    LWIP_ASSERT("pbuf_alloc: pbuf p->payload properly aligned",

            ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);

    /* the total length of the pbuf chain is the requested size */

    p->tot_len = length;

    /* set the length of the first pbuf in the chain */

    p->len = LWIP_MIN(length, PBUF_POOL_BUFSIZE_ALIGNED - LWIP_MEM_ALIGN_SIZE(offset));

    LWIP_ASSERT("check p->payload + p->len does not overflow pbuf",

                ((u8_t*)p->payload + p->len <=

                 (u8_t*)p + SIZEOF_STRUCT_PBUF + PBUF_POOL_BUFSIZE_ALIGNED));

    /* set reference count (needed here in case we fail) */

    p->ref = 1;

    /* now allocate the tail of the pbuf chain */

    /* remember first pbuf for linkage in next iteration */

    r = p;

    /* remaining length to be allocated */

    rem_len = length - p->len;

    /* any remaining pbufs to be allocated? */

    while (rem_len > 0) {

      q = memp_malloc(MEMP_PBUF_POOL);

      if (q == NULL) {

        /* free chain so far allocated */

        pbuf_free(p);

        /* bail out unsuccesfully */

        return NULL;

      }

      q->type = type;

      q->flags = 0;

      q->next = NULL;

      /* make previous pbuf point to this pbuf */

      r->next = q;

      /* set total length of this pbuf and next in chain */

      LWIP_ASSERT("rem_len < max_u16_t", rem_len < 0xffff);

      q->tot_len = (u16_t)rem_len;

      /* this pbuf length is pool size, unless smaller sized tail */

      q->len = LWIP_MIN((u16_t)rem_len, PBUF_POOL_BUFSIZE_ALIGNED);

      q->payload = (void *)((u8_t *)q + SIZEOF_STRUCT_PBUF);

      LWIP_ASSERT("pbuf_alloc: pbuf q->payload properly aligned",

              ((mem_ptr_t)q->payload % MEM_ALIGNMENT) == 0);

      LWIP_ASSERT("check p->payload + p->len does not overflow pbuf",

                  ((u8_t*)p->payload + p->len <=

                   (u8_t*)p + SIZEOF_STRUCT_PBUF + PBUF_POOL_BUFSIZE_ALIGNED));

      q->ref = 1;

      /* calculate remaining length to be allocated */

      rem_len -= q->len;

      /* remember this pbuf for linkage in next iteration */

      r = q;

    }

    /* end of chain */

    /*r->next = NULL;*/

    break;

  case PBUF_RAM:

    /* If pbuf is to be allocated in RAM, allocate memory for it. */

    p = (struct pbuf*)mem_malloc(LWIP_MEM_ALIGN_SIZE(SIZEOF_STRUCT_PBUF + offset) + LWIP_MEM_ALIGN_SIZE(length));

    if (p == NULL) {

      return NULL;

    }

    /* Set up internal structure of the pbuf. */

    p->payload = LWIP_MEM_ALIGN((void *)((u8_t *)p + SIZEOF_STRUCT_PBUF + offset));

    p->len = p->tot_len = length;

    p->next = NULL;

    p->type = type;

    LWIP_ASSERT("pbuf_alloc: pbuf->payload properly aligned",

           ((mem_ptr_t)p->payload % MEM_ALIGNMENT) == 0);

    break;

  /* pbuf references existing (non-volatile static constant) ROM payload? */

  case PBUF_ROM:

  /* pbuf references existing (externally allocated) RAM payload? */

  case PBUF_REF:

    /* only allocate memory for the pbuf structure */

    p = memp_malloc(MEMP_PBUF);

    if (p == NULL) {

      LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 2, ("pbuf_alloc: Could not allocate MEMP_PBUF for PBUF_%s.\n",

                  (type == PBUF_ROM) ? "ROM" : "REF"));

      return NULL;

    }

    /* caller must set this field properly, afterwards */

    p->payload = NULL;

    p->len = p->tot_len = length;

    p->next = NULL;

    p->type = type;

    break;

  default:

    LWIP_ASSERT("pbuf_alloc: erroneous type", 0);

    return NULL;

  }

  /* set reference count */

  p->ref = 1;

  /* set flags */

  p->flags = 0;

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 3, ("pbuf_alloc(length=%"U16_F") == %p\n", length, (void *)p));

  return p;

}

/**

 * Shrink a pbuf chain to a desired length.

 *

 * @param p pbuf to shrink.

 * @param new_len desired new length of pbuf chain

 *

 * Depending on the desired length, the first few pbufs in a chain might

 * be skipped and left unchanged. The new last pbuf in the chain will be

 * resized, and any remaining pbufs will be freed.

 *

 * @note If the pbuf is ROM/REF, only the ->tot_len and ->len fields are adjusted.

 * @note May not be called on a packet queue.

 *

 * @note Despite its name, pbuf_realloc cannot grow the size of a pbuf (chain).

 */

void

pbuf_realloc(struct pbuf *p, u16_t new_len)

{

  struct pbuf *q;

  u16_t rem_len; /* remaining length */

  s32_t grow;

  LWIP_ASSERT("pbuf_realloc: sane p->type", p->type == PBUF_POOL ||

              p->type == PBUF_ROM ||

              p->type == PBUF_RAM ||

              p->type == PBUF_REF);

  /* desired length larger than current length? */

  if (new_len >= p->tot_len) {

    /* enlarging not yet supported */

    return;

  }

  /* the pbuf chain grows by (new_len - p->tot_len) bytes

   * (which may be negative in case of shrinking) */

  grow = new_len - p->tot_len;

  /* first, step over any pbufs that should remain in the chain */

  rem_len = new_len;

  q = p;

  /* should this pbuf be kept? */

  while (rem_len > q->len) {

    /* decrease remaining length by pbuf length */

    rem_len -= q->len;

    /* decrease total length indicator */

    LWIP_ASSERT("grow < max_u16_t", grow < 0xffff);

    q->tot_len += (u16_t)grow;

    /* proceed to next pbuf in chain */

    q = q->next;

  }

  /* we have now reached the new last pbuf (in q) */

  /* rem_len == desired length for pbuf q */

  /* shrink allocated memory for PBUF_RAM */

  /* (other types merely adjust their length fields */

  if ((q->type == PBUF_RAM) && (rem_len != q->len)) {

    /* reallocate and adjust the length of the pbuf that will be split */

    q = mem_realloc(q, (u8_t *)q->payload - (u8_t *)q + rem_len);

    LWIP_ASSERT("mem_realloc give q == NULL", q != NULL);

  }

  /* adjust length fields for new last pbuf */

  q->len = rem_len;

  q->tot_len = q->len;

  /* any remaining pbufs in chain? */

  if (q->next != NULL) {

    /* free remaining pbufs in chain */

    pbuf_free(q->next);

  }

  /* q is last packet in chain */

  q->next = NULL;

}

/**

 * Adjusts the payload pointer to hide or reveal headers in the payload.

 *

 * Adjusts the ->payload pointer so that space for a header

 * (dis)appears in the pbuf payload.

 *

 * The ->payload, ->tot_len and ->len fields are adjusted.

 *

 * @param p pbuf to change the header size.

 * @param header_size_increment Number of bytes to increment header size which

 * increases the size of the pbuf. New space is on the front.

 * (Using a negative value decreases the header size.)

 * If hdr_size_inc is 0, this function does nothing and returns succesful.

 *

 * PBUF_ROM and PBUF_REF type buffers cannot have their sizes increased, so

 * the call will fail. A check is made that the increase in header size does

 * not move the payload pointer in front of the start of the buffer.

 * @return non-zero on failure, zero on success.

 *

 */

u8_t

pbuf_header(struct pbuf *p, s16_t header_size_increment)

{

  u16_t type;

  void *payload;

  u16_t increment_magnitude;

  LWIP_ASSERT("p != NULL", p != NULL);

  if ((header_size_increment == 0) || (p == NULL))

    return 0;

  if (header_size_increment < 0){

    increment_magnitude = -header_size_increment;

    /* Check that we aren't going to move off the end of the pbuf */

    LWIP_ERROR("increment_magnitude <= p->len", (increment_magnitude <= p->len), return 1;);

  } else {

    increment_magnitude = header_size_increment;

#if 0

    /* Can't assert these as some callers speculatively call

         pbuf_header() to see if it's OK.  Will return 1 below instead. */

    /* Check that we've got the correct type of pbuf to work with */

    LWIP_ASSERT("p->type == PBUF_RAM || p->type == PBUF_POOL",

                p->type == PBUF_RAM || p->type == PBUF_POOL);

    /* Check that we aren't going to move off the beginning of the pbuf */

    LWIP_ASSERT("p->payload - increment_magnitude >= p + SIZEOF_STRUCT_PBUF",

                (u8_t *)p->payload - increment_magnitude >= (u8_t *)p + SIZEOF_STRUCT_PBUF);

#endif

  }

  type = p->type;

  /* remember current payload pointer */

  payload = p->payload;

  /* pbuf types containing payloads? */

  if (type == PBUF_RAM || type == PBUF_POOL) {

    /* set new payload pointer */

    p->payload = (u8_t *)p->payload - header_size_increment;

    /* boundary check fails? */

    if ((u8_t *)p->payload < (u8_t *)p + SIZEOF_STRUCT_PBUF) {

      LWIP_DEBUGF( PBUF_DEBUG | 2, ("pbuf_header: failed as %p < %p (not enough space for new header size)\n",

        (void *)p->payload,

        (void *)(p + 1)));\

      /* restore old payload pointer */

      p->payload = payload;

      /* bail out unsuccesfully */

      return 1;

    }

  /* pbuf types refering to external payloads? */

  } else if (type == PBUF_REF || type == PBUF_ROM) {

    /* hide a header in the payload? */

    if ((header_size_increment < 0) && (increment_magnitude <= p->len)) {

      /* increase payload pointer */

      p->payload = (u8_t *)p->payload - header_size_increment;

    } else {

      /* cannot expand payload to front (yet!)

       * bail out unsuccesfully */

      return 1;

    }

  }

  else {

    /* Unknown type */

    LWIP_ASSERT("bad pbuf type", 0);

    return 1;

  }

  /* modify pbuf length fields */

  p->len += header_size_increment;

  p->tot_len += header_size_increment;

  LWIP_DEBUGF(PBUF_DEBUG, ("pbuf_header: old %p new %p (%"S16_F")\n",

    (void *)payload, (void *)p->payload, header_size_increment));

  return 0;

}

/**

 * Dereference a pbuf chain or queue and deallocate any no-longer-used

 * pbufs at the head of this chain or queue.

 *

 * Decrements the pbuf reference count. If it reaches zero, the pbuf is

 * deallocated.

 *

 * For a pbuf chain, this is repeated for each pbuf in the chain,

 * up to the first pbuf which has a non-zero reference count after

 * decrementing. So, when all reference counts are one, the whole

 * chain is free'd.

 *

 * @param p The pbuf (chain) to be dereferenced.

 *

 * @return the number of pbufs that were de-allocated

 * from the head of the chain.

 *

 * @note MUST NOT be called on a packet queue (Not verified to work yet).

 * @note the reference counter of a pbuf equals the number of pointers

 * that refer to the pbuf (or into the pbuf).

 *

 * @internal examples:

 *

 * Assuming existing chains a->b->c with the following reference

 * counts, calling pbuf_free(a) results in:

 *

 * 1->2->3 becomes ...1->3

 * 3->3->3 becomes 2->3->3

 * 1->1->2 becomes ......1

 * 2->1->1 becomes 1->1->1

 * 1->1->1 becomes .......

 *

 */

u8_t

pbuf_free(struct pbuf *p)

{

  u16_t type;

  struct pbuf *q;

  u8_t count;

  if (p == NULL) {

    LWIP_ASSERT("p != NULL", p != NULL);

    /* if assertions are disabled, proceed with debug output */

    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 2, ("pbuf_free(p == NULL) was called.\n"));

    return 0;

  }

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 3, ("pbuf_free(%p)\n", (void *)p));

  PERF_START;

  LWIP_ASSERT("pbuf_free: sane type",

    p->type == PBUF_RAM || p->type == PBUF_ROM ||

    p->type == PBUF_REF || p->type == PBUF_POOL);

  count = 0;

  /* de-allocate all consecutive pbufs from the head of the chain that

   * obtain a zero reference count after decrementing*/

  while (p != NULL) {

    u16_t ref;

    SYS_ARCH_DECL_PROTECT(old_level);

    /* Since decrementing ref cannot be guaranteed to be a single machine operation

     * we must protect it. We put the new ref into a local variable to prevent

     * further protection. */

    SYS_ARCH_PROTECT(old_level);

    /* all pbufs in a chain are referenced at least once */

    LWIP_ASSERT("pbuf_free: p->ref > 0", p->ref > 0);

    /* decrease reference count (number of pointers to pbuf) */

    ref = --(p->ref);

    SYS_ARCH_UNPROTECT(old_level);

    /* this pbuf is no longer referenced to? */

    if (ref == 0) {

      /* remember next pbuf in chain for next iteration */

      q = p->next;

      LWIP_DEBUGF( PBUF_DEBUG | 2, ("pbuf_free: deallocating %p\n", (void *)p));

      type = p->type;

      /* is this a pbuf from the pool? */

      if (type == PBUF_POOL) {

        memp_free(MEMP_PBUF_POOL, p);

      /* is this a ROM or RAM referencing pbuf? */

      } else if (type == PBUF_ROM || type == PBUF_REF) {

        memp_free(MEMP_PBUF, p);

      /* type == PBUF_RAM */

      } else {

        mem_free(p);

      }

      count++;

      /* proceed to next pbuf */

      p = q;

    /* p->ref > 0, this pbuf is still referenced to */

    /* (and so the remaining pbufs in chain as well) */

    } else {

      LWIP_DEBUGF( PBUF_DEBUG | 2, ("pbuf_free: %p has ref %"U16_F", ending here.\n", (void *)p, ref));

      /* stop walking through the chain */

      p = NULL;

    }

  }

  PERF_STOP("pbuf_free");

  /* return number of de-allocated pbufs */

  return count;

}

/**

 * Count number of pbufs in a chain

 *

 * @param p first pbuf of chain

 * @return the number of pbufs in a chain

 */

u8_t

pbuf_clen(struct pbuf *p)

{

  u8_t len;

  len = 0;

  while (p != NULL) {

    ++len;

    p = p->next;

  }

  return len;

}

/**

 * Increment the reference count of the pbuf.

 *

 * @param p pbuf to increase reference counter of

 *

 */

void

pbuf_ref(struct pbuf *p)

{

  SYS_ARCH_DECL_PROTECT(old_level);

  /* pbuf given? */

  if (p != NULL) {

    SYS_ARCH_PROTECT(old_level);

    ++(p->ref);

    SYS_ARCH_UNPROTECT(old_level);

  }

}

/**

 * Concatenate two pbufs (each may be a pbuf chain) and take over

 * the caller's reference of the tail pbuf.

 *

 * @note The caller MAY NOT reference the tail pbuf afterwards.

 * Use pbuf_chain() for that purpose.

 *

 * @see pbuf_chain()

 */

void

pbuf_cat(struct pbuf *h, struct pbuf *t)

{

  struct pbuf *p;

  LWIP_ERROR("(h != NULL) && (t != NULL) (programmer violates API)",

             ((h != NULL) && (t != NULL)), return;);

  /* proceed to last pbuf of chain */

  for (p = h; p->next != NULL; p = p->next) {

    /* add total length of second chain to all totals of first chain */

    p->tot_len += t->tot_len;

  }

  /* { p is last pbuf of first h chain, p->next == NULL } */

  LWIP_ASSERT("p->tot_len == p->len (of last pbuf in chain)", p->tot_len == p->len);

  LWIP_ASSERT("p->next == NULL", p->next == NULL);

  /* add total length of second chain to last pbuf total of first chain */

  p->tot_len += t->tot_len;

  /* chain last pbuf of head (p) with first of tail (t) */

  p->next = t;

  /* p->next now references t, but the caller will drop its reference to t,

   * so netto there is no change to the reference count of t.

   */

}

/**

 * Chain two pbufs (or pbuf chains) together.

 *

 * The caller MUST call pbuf_free(t) once it has stopped

 * using it. Use pbuf_cat() instead if you no longer use t.

 *

 * @param h head pbuf (chain)

 * @param t tail pbuf (chain)

 * @note The pbufs MUST belong to the same packet.

 * @note MAY NOT be called on a packet queue.

 *

 * The ->tot_len fields of all pbufs of the head chain are adjusted.

 * The ->next field of the last pbuf of the head chain is adjusted.

 * The ->ref field of the first pbuf of the tail chain is adjusted.

 *

 */

void

pbuf_chain(struct pbuf *h, struct pbuf *t)

{

  pbuf_cat(h, t);

  /* t is now referenced by h */

  pbuf_ref(t);

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_FRESH | 2, ("pbuf_chain: %p references %p\n", (void *)h, (void *)t));

}

/**

 * Dechains the first pbuf from its succeeding pbufs in the chain.

 *

 * Makes p->tot_len field equal to p->len.

 * @param p pbuf to dechain

 * @return remainder of the pbuf chain, or NULL if it was de-allocated.

 * @note May not be called on a packet queue.

 */

struct pbuf *

pbuf_dechain(struct pbuf *p)

{

  struct pbuf *q;

  u8_t tail_gone = 1;

  /* tail */

  q = p->next;

  /* pbuf has successor in chain? */

  if (q != NULL) {

    /* assert tot_len invariant: (p->tot_len == p->len + (p->next? p->next->tot_len: 0) */

    LWIP_ASSERT("p->tot_len == p->len + q->tot_len", q->tot_len == p->tot_len - p->len);

    /* enforce invariant if assertion is disabled */

    q->tot_len = p->tot_len - p->len;

    /* decouple pbuf from remainder */

    p->next = NULL;

    /* total length of pbuf p is its own length only */

    p->tot_len = p->len;

    /* q is no longer referenced by p, free it */

    LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_STATE, ("pbuf_dechain: unreferencing %p\n", (void *)q));

    tail_gone = pbuf_free(q);

    if (tail_gone > 0) {

      LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_STATE,

                  ("pbuf_dechain: deallocated %p (as it is no longer referenced)\n", (void *)q));

    }

    /* return remaining tail or NULL if deallocated */

  }

  /* assert tot_len invariant: (p->tot_len == p->len + (p->next? p->next->tot_len: 0) */

  LWIP_ASSERT("p->tot_len == p->len", p->tot_len == p->len);

  return ((tail_gone > 0) ? NULL : q);

}

/**

 *

 * Create PBUF_RAM copies of pbufs.

 *

 * Used to queue packets on behalf of the lwIP stack, such as

 * ARP based queueing.

 *

 * @note You MUST explicitly use p = pbuf_take(p);

 *

 * @note Only one packet is copied, no packet queue!

 *

 * @param p_to pbuf source of the copy

 * @param p_from pbuf destination of the copy

 *

 * @return ERR_OK if pbuf was copied

 *         ERR_ARG if one of the pbufs is NULL or p_to is not big

 *                 enough to hold p_from

 */

err_t

pbuf_copy(struct pbuf *p_to, struct pbuf *p_from)

{

  u16_t offset_to=0, offset_from=0, len;

  LWIP_DEBUGF(PBUF_DEBUG | LWIP_DBG_TRACE | 3, ("pbuf_copy(%p, %p)\n",

    (void*)p_to, (void*)p_from));

  /* is the target big enough to hold the source? */

  LWIP_ERROR("pbuf_copy: target not big enough to hold source", ((p_to != NULL) &&

             (p_from != NULL) && (p_to->tot_len >= p_from->tot_len)), return ERR_ARG;);

  /* iterate through pbuf chain */

  do

  {

    LWIP_ASSERT("p_to != NULL", p_to != NULL);

    /* copy one part of the original chain */

    if ((p_to->len - offset_to) >= (p_from->len - offset_from)) {

      /* complete current p_from fits into current p_to */

      len = p_from->len - offset_from;

    } else {

      /* current p_from does not fit into current p_to */

      len = p_to->len - offset_to;

    }

    MEMCPY((u8_t*)p_to->payload + offset_to, (u8_t*)p_from->payload + offset_from, len);

    offset_to += len;

    offset_from += len;

    LWIP_ASSERT("offset_to <= p_to->len", offset_to <= p_to->len);

    if (offset_to == p_to->len) {

      /* on to next p_to (if any) */

      offset_to = 0;

      p_to = p_to->next;

    }

    LWIP_ASSERT("offset_from <= p_from->len", offset_from <= p_from->len);

    if (offset_from >= p_from->len) {

      /* on to next p_from (if any) */

      offset_from = 0;

      p_from = p_from->next;

    }