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1 /* SPDX-License-Identifier: BSD-3-Clause
2 * Copyright(c) 2010-2014 Intel Corporation
8 #include <rte_memcpy.h>
10 #include "ip_frag_common.h"
14 * RTE IPv6 Fragmentation
16 * Implementation of IPv6 fragmentation.
21 __fill_ipv6hdr_frag(struct rte_ipv6_hdr
*dst
,
22 const struct rte_ipv6_hdr
*src
, uint16_t len
, uint16_t fofs
,
25 struct ipv6_extension_fragment
*fh
;
27 rte_memcpy(dst
, src
, sizeof(*dst
));
28 dst
->payload_len
= rte_cpu_to_be_16(len
);
29 dst
->proto
= IPPROTO_FRAGMENT
;
31 fh
= (struct ipv6_extension_fragment
*) ++dst
;
32 fh
->next_header
= src
->proto
;
34 fh
->frag_data
= rte_cpu_to_be_16(RTE_IPV6_SET_FRAG_DATA(fofs
, mf
));
39 __free_fragments(struct rte_mbuf
*mb
[], uint32_t num
)
42 for (i
= 0; i
< num
; i
++)
43 rte_pktmbuf_free(mb
[i
]);
49 * This function implements the fragmentation of IPv6 packets.
54 * Array storing the output fragments.
56 * Size in bytes of the Maximum Transfer Unit (MTU) for the outgoing IPv6
57 * datagrams. This value includes the size of the IPv6 header.
59 * MBUF pool used for allocating direct buffers for the output fragments.
60 * @param pool_indirect
61 * MBUF pool used for allocating indirect buffers for the output fragments.
63 * Upon successful completion - number of output fragments placed
64 * in the pkts_out array.
65 * Otherwise - (-1) * <errno>.
68 rte_ipv6_fragment_packet(struct rte_mbuf
*pkt_in
,
69 struct rte_mbuf
**pkts_out
,
72 struct rte_mempool
*pool_direct
,
73 struct rte_mempool
*pool_indirect
)
75 struct rte_mbuf
*in_seg
= NULL
;
76 struct rte_ipv6_hdr
*in_hdr
;
77 uint32_t out_pkt_pos
, in_seg_data_pos
;
78 uint32_t more_in_segs
;
79 uint16_t fragment_offset
, frag_size
;
80 uint64_t frag_bytes_remaining
;
83 * Formal parameter checking.
85 if (unlikely(pkt_in
== NULL
) || unlikely(pkts_out
== NULL
) ||
86 unlikely(nb_pkts_out
== 0) ||
87 unlikely(pool_direct
== NULL
) || unlikely(pool_indirect
== NULL
) ||
88 unlikely(mtu_size
< RTE_IPV6_MIN_MTU
))
92 * Ensure the IP payload length of all fragments (except the
93 * the last fragment) are a multiple of 8 bytes per RFC2460.
96 frag_size
= mtu_size
- sizeof(struct rte_ipv6_hdr
) -
97 sizeof(struct ipv6_extension_fragment
);
98 frag_size
= RTE_ALIGN_FLOOR(frag_size
, RTE_IPV6_EHDR_FO_ALIGN
);
100 /* Check that pkts_out is big enough to hold all fragments */
101 if (unlikely (frag_size
* nb_pkts_out
<
102 (uint16_t)(pkt_in
->pkt_len
- sizeof(struct rte_ipv6_hdr
))))
105 in_hdr
= rte_pktmbuf_mtod(pkt_in
, struct rte_ipv6_hdr
*);
108 in_seg_data_pos
= sizeof(struct rte_ipv6_hdr
);
113 while (likely(more_in_segs
)) {
114 struct rte_mbuf
*out_pkt
= NULL
, *out_seg_prev
= NULL
;
115 uint32_t more_out_segs
;
116 struct rte_ipv6_hdr
*out_hdr
;
118 /* Allocate direct buffer */
119 out_pkt
= rte_pktmbuf_alloc(pool_direct
);
120 if (unlikely(out_pkt
== NULL
)) {
121 __free_fragments(pkts_out
, out_pkt_pos
);
125 /* Reserve space for the IP header that will be built later */
126 out_pkt
->data_len
= sizeof(struct rte_ipv6_hdr
) +
127 sizeof(struct ipv6_extension_fragment
);
128 out_pkt
->pkt_len
= sizeof(struct rte_ipv6_hdr
) +
129 sizeof(struct ipv6_extension_fragment
);
130 frag_bytes_remaining
= frag_size
;
132 out_seg_prev
= out_pkt
;
134 while (likely(more_out_segs
&& more_in_segs
)) {
135 struct rte_mbuf
*out_seg
= NULL
;
138 /* Allocate indirect buffer */
139 out_seg
= rte_pktmbuf_alloc(pool_indirect
);
140 if (unlikely(out_seg
== NULL
)) {
141 rte_pktmbuf_free(out_pkt
);
142 __free_fragments(pkts_out
, out_pkt_pos
);
145 out_seg_prev
->next
= out_seg
;
146 out_seg_prev
= out_seg
;
148 /* Prepare indirect buffer */
149 rte_pktmbuf_attach(out_seg
, in_seg
);
150 len
= frag_bytes_remaining
;
151 if (len
> (in_seg
->data_len
- in_seg_data_pos
)) {
152 len
= in_seg
->data_len
- in_seg_data_pos
;
154 out_seg
->data_off
= in_seg
->data_off
+ in_seg_data_pos
;
155 out_seg
->data_len
= (uint16_t)len
;
156 out_pkt
->pkt_len
= (uint16_t)(len
+
158 out_pkt
->nb_segs
+= 1;
159 in_seg_data_pos
+= len
;
160 frag_bytes_remaining
-= len
;
162 /* Current output packet (i.e. fragment) done ? */
163 if (unlikely(frag_bytes_remaining
== 0))
166 /* Current input segment done ? */
167 if (unlikely(in_seg_data_pos
== in_seg
->data_len
)) {
168 in_seg
= in_seg
->next
;
171 if (unlikely(in_seg
== NULL
)) {
177 /* Build the IP header */
179 out_hdr
= rte_pktmbuf_mtod(out_pkt
, struct rte_ipv6_hdr
*);
181 __fill_ipv6hdr_frag(out_hdr
, in_hdr
,
182 (uint16_t) out_pkt
->pkt_len
- sizeof(struct rte_ipv6_hdr
),
183 fragment_offset
, more_in_segs
);
185 fragment_offset
= (uint16_t)(fragment_offset
+
186 out_pkt
->pkt_len
- sizeof(struct rte_ipv6_hdr
)
187 - sizeof(struct ipv6_extension_fragment
));
189 /* Write the fragment to the output list */
190 pkts_out
[out_pkt_pos
] = out_pkt
;