95908f5239
The rte_ip_frag_table_destroy procedure simply releases the memory for the
table without freeing the packet buffers that may be referenced in the hash
table for in-flight or incomplete packet reassembly operations. To prevent
leaked mbufs go through the list of fragments and free each one
individually.
Fixes: 416707812c
("ip_frag: refactor reassembly code into a proper library")
Cc: stable@dpdk.org
Reported-by: Matt Peters <matt.peters@windriver.com>
Signed-off-by: Allain Legacy <allain.legacy@windriver.com>
Acked-by: Konstantin Ananyev <konstantin.ananyev@intel.com>
361 lines
12 KiB
C
361 lines
12 KiB
C
/*-
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* BSD LICENSE
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*
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* Copyright(c) 2010-2014 Intel Corporation. All rights reserved.
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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*
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* * Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* * Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in
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* the documentation and/or other materials provided with the
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* distribution.
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* * Neither the name of Intel Corporation nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#ifndef _RTE_IP_FRAG_H_
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#define _RTE_IP_FRAG_H_
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/**
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* @file
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* RTE IP Fragmentation and Reassembly
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*
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* Implementation of IP packet fragmentation and reassembly.
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*/
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stdint.h>
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#include <stdio.h>
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#include <rte_malloc.h>
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#include <rte_memory.h>
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#include <rte_ip.h>
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#include <rte_byteorder.h>
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struct rte_mbuf;
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enum {
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IP_LAST_FRAG_IDX, /**< index of last fragment */
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IP_FIRST_FRAG_IDX, /**< index of first fragment */
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IP_MIN_FRAG_NUM, /**< minimum number of fragments */
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IP_MAX_FRAG_NUM = RTE_LIBRTE_IP_FRAG_MAX_FRAG,
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/**< maximum number of fragments per packet */
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};
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/** @internal fragmented mbuf */
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struct ip_frag {
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uint16_t ofs; /**< offset into the packet */
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uint16_t len; /**< length of fragment */
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struct rte_mbuf *mb; /**< fragment mbuf */
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};
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/** @internal <src addr, dst_addr, id> to uniquely indetify fragmented datagram. */
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struct ip_frag_key {
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uint64_t src_dst[4]; /**< src address, first 8 bytes used for IPv4 */
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uint32_t id; /**< dst address */
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uint32_t key_len; /**< src/dst key length */
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};
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/**
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* @internal Fragmented packet to reassemble.
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* First two entries in the frags[] array are for the last and first fragments.
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*/
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struct ip_frag_pkt {
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TAILQ_ENTRY(ip_frag_pkt) lru; /**< LRU list */
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struct ip_frag_key key; /**< fragmentation key */
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uint64_t start; /**< creation timestamp */
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uint32_t total_size; /**< expected reassembled size */
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uint32_t frag_size; /**< size of fragments received */
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uint32_t last_idx; /**< index of next entry to fill */
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struct ip_frag frags[IP_MAX_FRAG_NUM]; /**< fragments */
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} __rte_cache_aligned;
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#define IP_FRAG_DEATH_ROW_LEN 32 /**< death row size (in packets) */
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/** mbuf death row (packets to be freed) */
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struct rte_ip_frag_death_row {
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uint32_t cnt; /**< number of mbufs currently on death row */
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struct rte_mbuf *row[IP_FRAG_DEATH_ROW_LEN * (IP_MAX_FRAG_NUM + 1)];
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/**< mbufs to be freed */
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};
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TAILQ_HEAD(ip_pkt_list, ip_frag_pkt); /**< @internal fragments tailq */
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/** fragmentation table statistics */
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struct ip_frag_tbl_stat {
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uint64_t find_num; /**< total # of find/insert attempts. */
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uint64_t add_num; /**< # of add ops. */
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uint64_t del_num; /**< # of del ops. */
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uint64_t reuse_num; /**< # of reuse (del/add) ops. */
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uint64_t fail_total; /**< total # of add failures. */
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uint64_t fail_nospace; /**< # of 'no space' add failures. */
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} __rte_cache_aligned;
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/** fragmentation table */
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struct rte_ip_frag_tbl {
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uint64_t max_cycles; /**< ttl for table entries. */
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uint32_t entry_mask; /**< hash value mask. */
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uint32_t max_entries; /**< max entries allowed. */
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uint32_t use_entries; /**< entries in use. */
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uint32_t bucket_entries; /**< hash assocaitivity. */
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uint32_t nb_entries; /**< total size of the table. */
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uint32_t nb_buckets; /**< num of associativity lines. */
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struct ip_frag_pkt *last; /**< last used entry. */
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struct ip_pkt_list lru; /**< LRU list for table entries. */
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struct ip_frag_tbl_stat stat; /**< statistics counters. */
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__extension__ struct ip_frag_pkt pkt[0]; /**< hash table. */
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};
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/** IPv6 fragment extension header */
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#define RTE_IPV6_EHDR_MF_SHIFT 0
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#define RTE_IPV6_EHDR_MF_MASK 1
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#define RTE_IPV6_EHDR_FO_SHIFT 3
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#define RTE_IPV6_EHDR_FO_MASK (~((1 << RTE_IPV6_EHDR_FO_SHIFT) - 1))
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#define RTE_IPV6_FRAG_USED_MASK \
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(RTE_IPV6_EHDR_MF_MASK | RTE_IPV6_EHDR_FO_MASK)
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#define RTE_IPV6_GET_MF(x) ((x) & RTE_IPV6_EHDR_MF_MASK)
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#define RTE_IPV6_GET_FO(x) ((x) >> RTE_IPV6_EHDR_FO_SHIFT)
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#define RTE_IPV6_SET_FRAG_DATA(fo, mf) \
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(((fo) & RTE_IPV6_EHDR_FO_MASK) | ((mf) & RTE_IPV6_EHDR_MF_MASK))
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struct ipv6_extension_fragment {
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uint8_t next_header; /**< Next header type */
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uint8_t reserved; /**< Reserved */
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uint16_t frag_data; /**< All fragmentation data */
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uint32_t id; /**< Packet ID */
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} __attribute__((__packed__));
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/**
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* Create a new IP fragmentation table.
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*
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* @param bucket_num
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* Number of buckets in the hash table.
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* @param bucket_entries
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* Number of entries per bucket (e.g. hash associativity).
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* Should be power of two.
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* @param max_entries
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* Maximum number of entries that could be stored in the table.
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* The value should be less or equal then bucket_num * bucket_entries.
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* @param max_cycles
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* Maximum TTL in cycles for each fragmented packet.
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* @param socket_id
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* The *socket_id* argument is the socket identifier in the case of
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* NUMA. The value can be *SOCKET_ID_ANY* if there is no NUMA constraints.
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* @return
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* The pointer to the new allocated fragmentation table, on success. NULL on error.
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*/
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struct rte_ip_frag_tbl * rte_ip_frag_table_create(uint32_t bucket_num,
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uint32_t bucket_entries, uint32_t max_entries,
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uint64_t max_cycles, int socket_id);
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/**
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* Free allocated IP fragmentation table.
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*
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* @param tbl
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* Fragmentation table to free.
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*/
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void
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rte_ip_frag_table_destroy(struct rte_ip_frag_tbl *tbl);
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/**
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* This function implements the fragmentation of IPv6 packets.
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*
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* @param pkt_in
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* The input packet.
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* @param pkts_out
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* Array storing the output fragments.
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* @param nb_pkts_out
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* Number of fragments.
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* @param mtu_size
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* Size in bytes of the Maximum Transfer Unit (MTU) for the outgoing IPv6
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* datagrams. This value includes the size of the IPv6 header.
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* @param pool_direct
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* MBUF pool used for allocating direct buffers for the output fragments.
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* @param pool_indirect
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* MBUF pool used for allocating indirect buffers for the output fragments.
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* @return
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* Upon successful completion - number of output fragments placed
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* in the pkts_out array.
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* Otherwise - (-1) * errno.
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*/
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int32_t
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rte_ipv6_fragment_packet(struct rte_mbuf *pkt_in,
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struct rte_mbuf **pkts_out,
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uint16_t nb_pkts_out,
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uint16_t mtu_size,
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struct rte_mempool *pool_direct,
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struct rte_mempool *pool_indirect);
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/**
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* This function implements reassembly of fragmented IPv6 packets.
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* Incoming mbuf should have its l2_len/l3_len fields setup correctly.
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*
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* @param tbl
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* Table where to lookup/add the fragmented packet.
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* @param dr
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* Death row to free buffers to
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* @param mb
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* Incoming mbuf with IPv6 fragment.
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* @param tms
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* Fragment arrival timestamp.
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* @param ip_hdr
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* Pointer to the IPv6 header.
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* @param frag_hdr
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* Pointer to the IPv6 fragment extension header.
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* @return
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* Pointer to mbuf for reassembled packet, or NULL if:
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* - an error occurred.
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* - not all fragments of the packet are collected yet.
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*/
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struct rte_mbuf *rte_ipv6_frag_reassemble_packet(struct rte_ip_frag_tbl *tbl,
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struct rte_ip_frag_death_row *dr,
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struct rte_mbuf *mb, uint64_t tms, struct ipv6_hdr *ip_hdr,
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struct ipv6_extension_fragment *frag_hdr);
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/**
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* Return a pointer to the packet's fragment header, if found.
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* It only looks at the extension header that's right after the fixed IPv6
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* header, and doesn't follow the whole chain of extension headers.
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*
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* @param hdr
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* Pointer to the IPv6 header.
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* @return
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* Pointer to the IPv6 fragment extension header, or NULL if it's not
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* present.
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*/
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static inline struct ipv6_extension_fragment *
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rte_ipv6_frag_get_ipv6_fragment_header(struct ipv6_hdr *hdr)
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{
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if (hdr->proto == IPPROTO_FRAGMENT) {
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return (struct ipv6_extension_fragment *) ++hdr;
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}
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else
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return NULL;
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}
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/**
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* IPv4 fragmentation.
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*
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* This function implements the fragmentation of IPv4 packets.
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*
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* @param pkt_in
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* The input packet.
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* @param pkts_out
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* Array storing the output fragments.
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* @param nb_pkts_out
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* Number of fragments.
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* @param mtu_size
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* Size in bytes of the Maximum Transfer Unit (MTU) for the outgoing IPv4
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* datagrams. This value includes the size of the IPv4 header.
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* @param pool_direct
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* MBUF pool used for allocating direct buffers for the output fragments.
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* @param pool_indirect
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* MBUF pool used for allocating indirect buffers for the output fragments.
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* @return
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* Upon successful completion - number of output fragments placed
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* in the pkts_out array.
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* Otherwise - (-1) * errno.
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*/
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int32_t rte_ipv4_fragment_packet(struct rte_mbuf *pkt_in,
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struct rte_mbuf **pkts_out,
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uint16_t nb_pkts_out, uint16_t mtu_size,
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struct rte_mempool *pool_direct,
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struct rte_mempool *pool_indirect);
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/**
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* This function implements reassembly of fragmented IPv4 packets.
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* Incoming mbufs should have its l2_len/l3_len fields setup correclty.
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*
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* @param tbl
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* Table where to lookup/add the fragmented packet.
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* @param dr
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* Death row to free buffers to
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* @param mb
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* Incoming mbuf with IPv4 fragment.
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* @param tms
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* Fragment arrival timestamp.
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* @param ip_hdr
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* Pointer to the IPV4 header inside the fragment.
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* @return
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* Pointer to mbuf for reassebled packet, or NULL if:
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* - an error occurred.
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* - not all fragments of the packet are collected yet.
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*/
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struct rte_mbuf * rte_ipv4_frag_reassemble_packet(struct rte_ip_frag_tbl *tbl,
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struct rte_ip_frag_death_row *dr,
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struct rte_mbuf *mb, uint64_t tms, struct ipv4_hdr *ip_hdr);
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/**
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* Check if the IPv4 packet is fragmented
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*
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* @param hdr
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* IPv4 header of the packet
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* @return
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* 1 if fragmented, 0 if not fragmented
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*/
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static inline int
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rte_ipv4_frag_pkt_is_fragmented(const struct ipv4_hdr * hdr) {
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uint16_t flag_offset, ip_flag, ip_ofs;
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flag_offset = rte_be_to_cpu_16(hdr->fragment_offset);
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ip_ofs = (uint16_t)(flag_offset & IPV4_HDR_OFFSET_MASK);
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ip_flag = (uint16_t)(flag_offset & IPV4_HDR_MF_FLAG);
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return ip_flag != 0 || ip_ofs != 0;
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}
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/**
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* Free mbufs on a given death row.
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*
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* @param dr
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* Death row to free mbufs in.
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* @param prefetch
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* How many buffers to prefetch before freeing.
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*/
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void rte_ip_frag_free_death_row(struct rte_ip_frag_death_row *dr,
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uint32_t prefetch);
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/**
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* Dump fragmentation table statistics to file.
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*
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* @param f
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* File to dump statistics to
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* @param tbl
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* Fragmentation table to dump statistics from
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*/
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void
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rte_ip_frag_table_statistics_dump(FILE * f, const struct rte_ip_frag_tbl *tbl);
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#ifdef __cplusplus
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}
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#endif
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#endif /* _RTE_IP_FRAG_H_ */
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