Coverage Report

Created: 2026-07-16 06:13

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/openvswitch/lib/dp-packet.c
Line
Count
Source
1
/*
2
 * Copyright (c) 2008, 2009, 2010, 2011, 2012, 2013, 2016 Nicira, Inc.
3
 *
4
 * Licensed under the Apache License, Version 2.0 (the "License");
5
 * you may not use this file except in compliance with the License.
6
 * You may obtain a copy of the License at:
7
 *
8
 *     http://www.apache.org/licenses/LICENSE-2.0
9
 *
10
 * Unless required by applicable law or agreed to in writing, software
11
 * distributed under the License is distributed on an "AS IS" BASIS,
12
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13
 * See the License for the specific language governing permissions and
14
 * limitations under the License.
15
 */
16
17
#include <config.h>
18
#include <stdlib.h>
19
#include <string.h>
20
21
#include "coverage.h"
22
#include "dp-packet.h"
23
#include "netdev-afxdp.h"
24
#include "netdev-dpdk.h"
25
#include "netdev-provider.h"
26
#include "openvswitch/dynamic-string.h"
27
#include "util.h"
28
29
COVERAGE_DEFINE(dp_packet_batch_grow);
30
31
static void
32
dp_packet_init__(struct dp_packet *b, size_t allocated, enum dp_packet_source source)
33
0
{
34
0
    dp_packet_set_allocated(b, allocated);
35
0
    b->source = source;
36
0
    dp_packet_reset_offsets(b);
37
0
    pkt_metadata_init(&b->md, 0);
38
0
    dp_packet_reset_cutlen(b);
39
0
    dp_packet_reset_offload(b);
40
0
    dp_packet_set_tso_segsz(b, 0);
41
    /* Initialize implementation-specific fields of dp_packet. */
42
0
    dp_packet_init_specific(b);
43
    /* By default assume the packet type to be Ethernet. */
44
0
    b->packet_type = htonl(PT_ETH);
45
0
}
46
47
static void
48
dp_packet_use__(struct dp_packet *b, void *base, size_t allocated,
49
             enum dp_packet_source source)
50
0
{
51
0
    dp_packet_set_base(b, base);
52
0
    dp_packet_set_data(b, base);
53
0
    dp_packet_set_size(b, 0);
54
55
0
    dp_packet_init__(b, allocated, source);
56
0
}
57
58
/* Initializes 'b' as an empty dp_packet that contains the 'allocated' bytes of
59
 * memory starting at 'base'.  'base' should be the first byte of a region
60
 * obtained from malloc().  It will be freed (with free()) if 'b' is resized or
61
 * freed. */
62
void
63
dp_packet_use(struct dp_packet *b, void *base, size_t allocated)
64
0
{
65
0
    dp_packet_use__(b, base, allocated, DPBUF_MALLOC);
66
0
}
67
68
#if HAVE_AF_XDP
69
/* Initialize 'b' as an empty dp_packet that contains
70
 * memory starting at AF_XDP umem base.
71
 */
72
void
73
dp_packet_use_afxdp(struct dp_packet *b, void *data, size_t allocated,
74
                    size_t headroom)
75
{
76
    dp_packet_set_base(b, (char *)data - headroom);
77
    dp_packet_set_data(b, data);
78
    dp_packet_set_size(b, 0);
79
80
    dp_packet_init__(b, allocated, DPBUF_AFXDP);
81
}
82
#endif
83
84
/* Initializes 'b' as an empty dp_packet that contains the 'allocated' bytes of
85
 * memory starting at 'base'.  'base' should point to a buffer on the stack.
86
 * (Nothing actually relies on 'base' being allocated on the stack.  It could
87
 * be static or malloc()'d memory.  But stack space is the most common use
88
 * case.)
89
 *
90
 * 'base' should be appropriately aligned.  Using an array of uint32_t or
91
 * uint64_t for the buffer is a reasonable way to ensure appropriate alignment
92
 * for 32- or 64-bit data.
93
 *
94
 * An dp_packet operation that requires reallocating data will copy the provided
95
 * buffer into a malloc()'d buffer.  Thus, it is wise to call dp_packet_uninit()
96
 * on an dp_packet initialized by this function, so that if it expanded into the
97
 * heap, that memory is freed. */
98
void
99
dp_packet_use_stub(struct dp_packet *b, void *base, size_t allocated)
100
0
{
101
0
    dp_packet_use__(b, base, allocated, DPBUF_STUB);
102
0
}
103
104
/* Initializes 'b' as an dp_packet whose data starts at 'data' and continues for
105
 * 'size' bytes.  This is appropriate for an dp_packet that will be used to
106
 * inspect existing data, without moving it around or reallocating it, and
107
 * generally without modifying it at all.
108
 *
109
 * An dp_packet operation that requires reallocating data will assert-fail if this
110
 * function was used to initialize it. */
111
void
112
dp_packet_use_const(struct dp_packet *b, const void *data, size_t size)
113
0
{
114
0
    dp_packet_use__(b, CONST_CAST(void *, data), size, DPBUF_STACK);
115
0
    dp_packet_set_size(b, size);
116
0
}
117
118
/* Initializes 'b' as a DPDK dp-packet, which must have been allocated from a
119
 * DPDK memory pool. */
120
void
121
dp_packet_init_dpdk(struct dp_packet *b)
122
0
{
123
0
    b->source = DPBUF_DPDK;
124
0
}
125
126
/* Initializes 'b' as an empty dp_packet with an initial capacity of 'size'
127
 * bytes. */
128
void
129
dp_packet_init(struct dp_packet *b, size_t size)
130
0
{
131
0
    dp_packet_use(b, size ? xmalloc(size) : NULL, size);
132
0
}
133
134
/* Frees memory that 'b' points to. */
135
void
136
dp_packet_uninit(struct dp_packet *b)
137
0
{
138
0
    if (b) {
139
0
        if (b->source == DPBUF_MALLOC) {
140
0
            free(dp_packet_base(b));
141
0
        } else if (b->source == DPBUF_DPDK) {
142
0
            free_dpdk_buf(b);
143
0
        } else if (b->source == DPBUF_AFXDP) {
144
0
            free_afxdp_buf(b);
145
0
        }
146
0
    }
147
0
}
148
149
/* Creates and returns a new dp_packet with an initial capacity of 'size'
150
 * bytes. */
151
struct dp_packet *
152
dp_packet_new(size_t size)
153
0
{
154
#ifdef DPDK_NETDEV
155
    struct dp_packet *b = xmalloc_cacheline(sizeof *b);
156
#else
157
0
    struct dp_packet *b = xmalloc(sizeof *b);
158
0
#endif
159
0
    dp_packet_init(b, size);
160
0
    return b;
161
0
}
162
163
/* Creates and returns a new dp_packet with an initial capacity of 'size +
164
 * headroom' bytes, reserving the first 'headroom' bytes as headroom. */
165
struct dp_packet *
166
dp_packet_new_with_headroom(size_t size, size_t headroom)
167
0
{
168
0
    struct dp_packet *b = dp_packet_new(size + headroom);
169
0
    dp_packet_reserve(b, headroom);
170
0
    return b;
171
0
}
172
173
/* Creates and returns a new dp_packet that initially contains a copy of the
174
 * 'dp_packet_size(buffer)' bytes of data starting at 'buffer->data' with no headroom or
175
 * tailroom. */
176
struct dp_packet *
177
dp_packet_clone(const struct dp_packet *buffer)
178
0
{
179
0
    ovs_assert(buffer);
180
0
    return dp_packet_clone_with_headroom(buffer, 0);
181
0
}
182
183
/* Creates and returns a new dp_packet whose data are copied from 'buffer'.
184
 * The returned dp_packet will additionally have 'headroom' bytes of
185
 * headroom. */
186
struct dp_packet *
187
dp_packet_clone_with_headroom(const struct dp_packet *buffer, size_t headroom)
188
0
{
189
0
    const void *data_dp = dp_packet_data(buffer);
190
0
    struct dp_packet *new_buffer;
191
0
    uint32_t mark;
192
193
0
    ovs_assert(data_dp);
194
195
0
    new_buffer = dp_packet_clone_data_with_headroom(data_dp,
196
0
                                                    dp_packet_size(buffer),
197
0
                                                    headroom);
198
    /* Copy the following fields into the returned buffer: l2_pad_size,
199
     * l2_5_ofs, l3_ofs, l4_ofs, cutlen, packet_type, offloads and md. */
200
0
    memcpy(&new_buffer->l2_pad_size, &buffer->l2_pad_size,
201
0
            sizeof(struct dp_packet) -
202
0
            offsetof(struct dp_packet, l2_pad_size));
203
204
0
    dp_packet_set_tso_segsz(new_buffer, dp_packet_get_tso_segsz(buffer));
205
206
0
    if (dp_packet_rss_valid(buffer)) {
207
0
        dp_packet_set_rss_hash(new_buffer, dp_packet_get_rss_hash(buffer));
208
0
    }
209
0
    if (dp_packet_has_flow_mark(buffer, &mark)) {
210
0
        dp_packet_set_flow_mark(new_buffer, mark);
211
0
    }
212
213
0
    return new_buffer;
214
0
}
215
216
/* Creates and returns a new dp_packet that initially contains a copy of the
217
 * 'size' bytes of data starting at 'data' with no headroom or tailroom. */
218
struct dp_packet *
219
dp_packet_clone_data(const void *data, size_t size)
220
0
{
221
0
    return dp_packet_clone_data_with_headroom(data, size, 0);
222
0
}
223
224
/* Creates and returns a new dp_packet that initially contains 'headroom' bytes of
225
 * headroom followed by a copy of the 'size' bytes of data starting at
226
 * 'data'. */
227
struct dp_packet *
228
dp_packet_clone_data_with_headroom(const void *data, size_t size, size_t headroom)
229
0
{
230
0
    struct dp_packet *b = dp_packet_new_with_headroom(size, headroom);
231
0
    dp_packet_put(b, data, size);
232
0
    return b;
233
0
}
234
235
static void
236
dp_packet_copy__(struct dp_packet *b, uint8_t *new_base,
237
              size_t new_headroom, size_t new_tailroom)
238
0
{
239
0
    const uint8_t *old_base = dp_packet_base(b);
240
0
    size_t old_headroom = dp_packet_headroom(b);
241
0
    size_t old_tailroom = dp_packet_tailroom(b);
242
0
    size_t copy_headroom = MIN(old_headroom, new_headroom);
243
0
    size_t copy_tailroom = MIN(old_tailroom, new_tailroom);
244
245
0
    memcpy(&new_base[new_headroom - copy_headroom],
246
0
           &old_base[old_headroom - copy_headroom],
247
0
           copy_headroom + dp_packet_size(b) + copy_tailroom);
248
0
}
249
250
/* Reallocates 'b' so that it has exactly 'new_headroom' and 'new_tailroom'
251
 * bytes of headroom and tailroom, respectively. */
252
void
253
dp_packet_resize(struct dp_packet *b, size_t new_headroom, size_t new_tailroom)
254
0
{
255
0
    void *new_base, *new_data;
256
0
    size_t new_allocated;
257
258
0
    new_allocated = new_headroom + dp_packet_size(b) + new_tailroom;
259
260
0
    switch (b->source) {
261
0
    case DPBUF_DPDK: {
262
#ifdef DPDK_NETDEV
263
        uint32_t extbuf_len;
264
265
        extbuf_len = netdev_dpdk_extbuf_size(new_allocated);
266
        ovs_assert(extbuf_len <= UINT16_MAX);
267
        new_base = netdev_dpdk_extbuf_allocate(extbuf_len);
268
        if (!new_base) {
269
            out_of_memory();
270
        }
271
        dp_packet_copy__(b, new_base, new_headroom, new_tailroom);
272
        netdev_dpdk_extbuf_replace(b, new_base, extbuf_len);
273
        /* Because of alignment, we may have gained a bit more tailroom than
274
         * expected.  Update from the currently allocated length which got
275
         * adjusted by rte_pktmbuf_attach_extbuf(). */
276
        new_allocated = dp_packet_get_allocated(b);
277
        break;
278
#else
279
0
        OVS_NOT_REACHED();
280
0
#endif
281
0
    }
282
283
0
    case DPBUF_MALLOC:
284
0
        if (new_headroom == dp_packet_headroom(b)) {
285
0
            new_base = xrealloc(dp_packet_base(b), new_allocated);
286
0
        } else {
287
0
            new_base = xmalloc(new_allocated);
288
0
            dp_packet_copy__(b, new_base, new_headroom, new_tailroom);
289
0
            free(dp_packet_base(b));
290
0
        }
291
0
        break;
292
293
0
    case DPBUF_STACK:
294
0
        OVS_NOT_REACHED();
295
296
0
    case DPBUF_AFXDP:
297
0
        OVS_NOT_REACHED();
298
299
0
    case DPBUF_STUB:
300
0
        b->source = DPBUF_MALLOC;
301
0
        new_base = xmalloc(new_allocated);
302
0
        dp_packet_copy__(b, new_base, new_headroom, new_tailroom);
303
0
        break;
304
305
0
    default:
306
0
        OVS_NOT_REACHED();
307
0
    }
308
309
0
    dp_packet_set_allocated(b, new_allocated);
310
0
    dp_packet_set_base(b, new_base);
311
312
0
    new_data = (char *) new_base + new_headroom;
313
0
    if (dp_packet_data(b) != new_data) {
314
0
        dp_packet_set_data(b, new_data);
315
0
    }
316
0
}
317
318
/* Ensures that 'b' has room for at least 'size' bytes at its tail end,
319
 * reallocating and copying its data if necessary.  Its headroom, if any, is
320
 * preserved. */
321
void
322
dp_packet_prealloc_tailroom(struct dp_packet *b, size_t size)
323
0
{
324
0
    if ((size && !dp_packet_base(b)) || (size > dp_packet_tailroom(b))) {
325
0
        dp_packet_resize(b, dp_packet_headroom(b), MAX(size, 64));
326
0
    }
327
0
}
328
329
/* Ensures that 'b' has room for at least 'size' bytes at its head,
330
 * reallocating and copying its data if necessary.  Its tailroom, if any, is
331
 * preserved. */
332
void
333
dp_packet_prealloc_headroom(struct dp_packet *b, size_t size)
334
0
{
335
0
    if (size > dp_packet_headroom(b)) {
336
0
        dp_packet_resize(b, MAX(size, 64), dp_packet_tailroom(b));
337
0
    }
338
0
}
339
340
/* Shifts all of the data within the allocated space in 'b' by 'delta' bytes.
341
 * For example, a 'delta' of 1 would cause each byte of data to move one byte
342
 * forward (from address 'p' to 'p+1'), and a 'delta' of -1 would cause each
343
 * byte to move one byte backward (from 'p' to 'p-1'). */
344
void
345
dp_packet_shift(struct dp_packet *b, int delta)
346
0
{
347
0
    ovs_assert(delta > 0 ? delta <= dp_packet_tailroom(b)
348
0
               : delta < 0 ? -delta <= dp_packet_headroom(b)
349
0
               : true);
350
351
0
    if (delta != 0) {
352
0
        const void *data_dp = dp_packet_data(b);
353
0
        char *dst = (char *) data_dp + delta;
354
355
0
        ovs_assert(data_dp);
356
357
0
        memmove(dst, data_dp, dp_packet_size(b));
358
0
        dp_packet_set_data(b, dst);
359
0
    }
360
0
}
361
362
/* Appends 'size' bytes of data to the tail end of 'b', reallocating and
363
 * copying its data if necessary.  Returns a pointer to the first byte of the
364
 * new data, which is left uninitialized. */
365
void *
366
dp_packet_put_uninit(struct dp_packet *b, size_t size)
367
0
{
368
0
    void *p;
369
0
    dp_packet_prealloc_tailroom(b, size);
370
0
    p = dp_packet_tail(b);
371
0
    dp_packet_set_size(b, dp_packet_size(b) + size);
372
0
    return p;
373
0
}
374
375
/* Appends 'size' zeroed bytes to the tail end of 'b'.  Data in 'b' is
376
 * reallocated and copied if necessary.  Returns a pointer to the first byte of
377
 * the data's location in the dp_packet. */
378
void *
379
dp_packet_put_zeros(struct dp_packet *b, size_t size)
380
0
{
381
0
    void *dst = dp_packet_put_uninit(b, size);
382
0
    nullable_memset(dst, 0, size);
383
0
    return dst;
384
0
}
385
386
/* Appends the 'size' bytes of data in 'p' to the tail end of 'b'.  Data in 'b'
387
 * is reallocated and copied if necessary.  Returns a pointer to the first
388
 * byte of the data's location in the dp_packet. */
389
void *
390
dp_packet_put(struct dp_packet *b, const void *p, size_t size)
391
0
{
392
0
    void *dst = dp_packet_put_uninit(b, size);
393
0
    nullable_memcpy(dst, p, size);
394
0
    return dst;
395
0
}
396
397
/* Parses as many pairs of hex digits as possible (possibly separated by
398
 * spaces) from the beginning of 's', appending bytes for their values to 'b'.
399
 * Returns the first character of 's' that is not the first of a pair of hex
400
 * digits.  If 'n' is nonnull, stores the number of bytes added to 'b' in
401
 * '*n'. */
402
char *
403
dp_packet_put_hex(struct dp_packet *b, const char *s, size_t *n)
404
0
{
405
0
    size_t initial_size = dp_packet_size(b);
406
0
    for (;;) {
407
0
        uint8_t byte;
408
0
        bool ok;
409
410
0
        s += strspn(s, " \t\r\n");
411
0
        byte = hexits_value(s, 2, &ok);
412
0
        if (!ok) {
413
0
            if (n) {
414
0
                *n = dp_packet_size(b) - initial_size;
415
0
            }
416
0
            return CONST_CAST(char *, s);
417
0
        }
418
419
0
        dp_packet_put(b, &byte, 1);
420
0
        s += 2;
421
0
    }
422
0
}
423
424
/* Reserves 'size' bytes of headroom so that they can be later allocated with
425
 * dp_packet_push_uninit() without reallocating the dp_packet. */
426
void
427
dp_packet_reserve(struct dp_packet *b, size_t size)
428
0
{
429
0
    ovs_assert(!dp_packet_size(b));
430
0
    dp_packet_prealloc_tailroom(b, size);
431
0
    dp_packet_set_data(b, (char*)dp_packet_data(b) + size);
432
0
}
433
434
/* Reserves 'headroom' bytes at the head and 'tailroom' at the end so that
435
 * they can be later allocated with dp_packet_push_uninit() or
436
 * dp_packet_put_uninit() without reallocating the dp_packet. */
437
void
438
dp_packet_reserve_with_tailroom(struct dp_packet *b, size_t headroom,
439
                             size_t tailroom)
440
0
{
441
0
    ovs_assert(!dp_packet_size(b));
442
0
    dp_packet_prealloc_tailroom(b, headroom + tailroom);
443
0
    dp_packet_set_data(b, (char*)dp_packet_data(b) + headroom);
444
0
}
445
446
/* Prefixes 'size' bytes to the head end of 'b', reallocating and copying its
447
 * data if necessary.  Returns a pointer to the first byte of the data's
448
 * location in the dp_packet.  The new data is left uninitialized. */
449
void *
450
dp_packet_push_uninit(struct dp_packet *b, size_t size)
451
0
{
452
0
    dp_packet_prealloc_headroom(b, size);
453
0
    dp_packet_set_data(b, (char*)dp_packet_data(b) - size);
454
0
    dp_packet_set_size(b, dp_packet_size(b) + size);
455
0
    return dp_packet_data(b);
456
0
}
457
458
/* Prefixes 'size' zeroed bytes to the head end of 'b', reallocating and
459
 * copying its data if necessary.  Returns a pointer to the first byte of the
460
 * data's location in the dp_packet. */
461
void *
462
dp_packet_push_zeros(struct dp_packet *b, size_t size)
463
0
{
464
0
    void *dst = dp_packet_push_uninit(b, size);
465
0
    nullable_memset(dst, 0, size);
466
0
    return dst;
467
0
}
468
469
/* Copies the 'size' bytes starting at 'p' to the head end of 'b', reallocating
470
 * and copying its data if necessary.  Returns a pointer to the first byte of
471
 * the data's location in the dp_packet. */
472
void *
473
dp_packet_push(struct dp_packet *b, const void *p, size_t size)
474
0
{
475
0
    void *dst = dp_packet_push_uninit(b, size);
476
0
    nullable_memcpy(dst, p, size);
477
0
    return dst;
478
0
}
479
480
/* Returns the data in 'b' as a block of malloc()'d memory and frees the buffer
481
 * within 'b'.  (If 'b' itself was dynamically allocated, e.g. with
482
 * dp_packet_new(), then it should still be freed with, e.g., dp_packet_delete().) */
483
void *
484
dp_packet_steal_data(struct dp_packet *b)
485
0
{
486
0
    void *p;
487
0
    ovs_assert(b->source != DPBUF_DPDK);
488
0
    ovs_assert(b->source != DPBUF_AFXDP);
489
490
0
    if (b->source == DPBUF_MALLOC && dp_packet_data(b) == dp_packet_base(b)) {
491
0
        p = dp_packet_data(b);
492
0
    } else {
493
0
        p = xmemdup(dp_packet_data(b), dp_packet_size(b));
494
0
        if (b->source == DPBUF_MALLOC) {
495
0
            free(dp_packet_base(b));
496
0
        }
497
0
    }
498
0
    dp_packet_set_base(b, NULL);
499
0
    dp_packet_set_data(b, NULL);
500
0
    return p;
501
0
}
502
503
static inline void
504
dp_packet_adjust_layer_offset(uint16_t *offset, int increment)
505
0
{
506
0
    if (*offset != UINT16_MAX) {
507
0
        *offset += increment;
508
0
    }
509
0
}
510
511
/* Adjust the size of the l2_5 portion of the dp_packet, updating the l2
512
 * pointer and the layer offsets.  The caller is responsible for
513
 * modifying the contents. */
514
void *
515
dp_packet_resize_l2_5(struct dp_packet *b, int increment)
516
0
{
517
0
    if (increment >= 0) {
518
0
        dp_packet_push_uninit(b, increment);
519
0
    } else {
520
0
        dp_packet_pull(b, -increment);
521
0
    }
522
523
    /* Adjust layer offsets after l2_5. */
524
0
    dp_packet_adjust_layer_offset(&b->l3_ofs, increment);
525
0
    dp_packet_adjust_layer_offset(&b->l4_ofs, increment);
526
0
    dp_packet_adjust_layer_offset(&b->inner_l3_ofs, increment);
527
0
    dp_packet_adjust_layer_offset(&b->inner_l4_ofs, increment);
528
529
0
    return dp_packet_data(b);
530
0
}
531
532
/* Adjust the size of the l2 portion of the dp_packet, updating the l2
533
 * pointer and the layer offsets.  The caller is responsible for
534
 * modifying the contents. */
535
void *
536
dp_packet_resize_l2(struct dp_packet *b, int increment)
537
0
{
538
0
    dp_packet_resize_l2_5(b, increment);
539
0
    dp_packet_adjust_layer_offset(&b->l2_5_ofs, increment);
540
0
    return dp_packet_data(b);
541
0
}
542
543
bool
544
dp_packet_compare_offsets(struct dp_packet *b1, struct dp_packet *b2,
545
                          struct ds *err_str)
546
0
{
547
0
    if ((b1->l2_pad_size != b2->l2_pad_size) ||
548
0
        (b1->l2_5_ofs != b2->l2_5_ofs) ||
549
0
        (b1->l3_ofs != b2->l3_ofs) ||
550
0
        (b1->l4_ofs != b2->l4_ofs) ||
551
0
        (b1->inner_l3_ofs != b2->inner_l3_ofs) ||
552
0
        (b1->inner_l4_ofs != b2->inner_l4_ofs)) {
553
0
        if (err_str) {
554
0
            ds_put_format(err_str, "Packet offset comparison failed\n");
555
0
            ds_put_format(err_str, "Buffer 1 offsets: l2_pad_size %u,"
556
0
                          " l2_5_ofs : %u l3_ofs %u, l4_ofs %u,"
557
0
                          " inner_l3_ofs %u, inner_l4_ofs %u\n",
558
0
                          b1->l2_pad_size, b1->l2_5_ofs,
559
0
                          b1->l3_ofs, b1->l4_ofs,
560
0
                          b1->inner_l3_ofs, b1->inner_l4_ofs);
561
0
            ds_put_format(err_str, "Buffer 2 offsets: l2_pad_size %u,"
562
0
                          " l2_5_ofs : %u l3_ofs %u, l4_ofs %u,"
563
0
                          " inner_l3_ofs %u, inner_l4_ofs %u\n",
564
0
                          b2->l2_pad_size, b2->l2_5_ofs,
565
0
                          b2->l3_ofs, b2->l4_ofs,
566
0
                          b2->inner_l3_ofs, b2->inner_l4_ofs);
567
0
        }
568
0
        return false;
569
0
    }
570
0
    return true;
571
0
}
572
573
/* Checks if the packet 'p' is compatible with netdev_ol_flags 'flags'
574
 * and if not, updates the packet with the software fall back. */
575
void
576
dp_packet_ol_send_prepare(struct dp_packet *p, uint64_t flags)
577
0
{
578
0
    if (!dp_packet_inner_ip_checksum_partial(p)
579
0
        && !dp_packet_inner_l4_checksum_partial(p)) {
580
581
0
        if (!dp_packet_ip_checksum_partial(p)
582
0
            && !dp_packet_l4_checksum_partial(p)) {
583
            /* No checksumming needed. */
584
0
            return;
585
0
        }
586
587
0
        if (OVS_UNLIKELY(dp_packet_tunnel(p) && !dp_packet_get_tso_segsz(p))) {
588
0
            p->offloads &= ~DP_PACKET_OL_TUNNEL_MASK;
589
0
        }
590
0
    }
591
592
0
    if (!dp_packet_tunnel(p)) {
593
0
        if (dp_packet_ip_checksum_partial(p)
594
0
            && !(flags & NETDEV_TX_OFFLOAD_IPV4_CKSUM)) {
595
0
            dp_packet_ip_set_header_csum(p, false);
596
0
        }
597
598
0
        if (dp_packet_l4_checksum_partial(p)) {
599
0
            if (dp_packet_l4_proto_tcp(p)) {
600
0
                if (!(flags & NETDEV_TX_OFFLOAD_TCP_CKSUM)) {
601
0
                    packet_tcp_complete_csum(p, false);
602
0
                }
603
0
            } else if (dp_packet_l4_proto_udp(p)) {
604
0
                if (!(flags & NETDEV_TX_OFFLOAD_UDP_CKSUM)) {
605
0
                    packet_udp_complete_csum(p, false);
606
0
                }
607
0
            } else {
608
0
                ovs_assert(dp_packet_l4_proto_sctp(p));
609
0
                if (!(flags & NETDEV_TX_OFFLOAD_SCTP_CKSUM)) {
610
0
                    packet_sctp_complete_csum(p, false);
611
0
                }
612
0
            }
613
0
        }
614
615
0
        return;
616
0
    }
617
618
0
    if (dp_packet_tunnel_geneve(p) || dp_packet_tunnel_vxlan(p)) {
619
        /* If the TX interface doesn't support UDP tunnel offload but does
620
         * support inner SCTP checksum offload and an outer UDP checksum is
621
         * required, then we can't offload inner checksum either as that would
622
         * invalidate the outer checksum. */
623
0
        if (!(flags & NETDEV_TX_OFFLOAD_OUTER_UDP_CKSUM)
624
0
            && dp_packet_l4_checksum_partial(p)) {
625
0
            flags &= ~NETDEV_TX_OFFLOAD_SCTP_CKSUM;
626
0
            if (!packet_udp_tunnel_csum(p)) {
627
                /* Similarly to the previous comment, since the outer UDP
628
                 * checksum optimisation did not happen, invalidate inner
629
                 * checksum offloads support. */
630
0
                flags &= ~(NETDEV_TX_OFFLOAD_TCP_CKSUM |
631
0
                           NETDEV_TX_OFFLOAD_UDP_CKSUM |
632
0
                           NETDEV_TX_OFFLOAD_IPV4_CKSUM);
633
0
            }
634
0
        }
635
0
    }
636
637
0
    if (dp_packet_inner_ip_checksum_partial(p)
638
0
        && !(flags & NETDEV_TX_OFFLOAD_IPV4_CKSUM)) {
639
0
        dp_packet_ip_set_header_csum(p, true);
640
0
    }
641
642
0
    if (dp_packet_inner_l4_checksum_partial(p)) {
643
0
        if (dp_packet_inner_l4_proto_tcp(p)) {
644
0
            if (!(flags & NETDEV_TX_OFFLOAD_TCP_CKSUM)) {
645
0
                packet_tcp_complete_csum(p, true);
646
0
            }
647
0
        } else if (dp_packet_inner_l4_proto_udp(p)) {
648
0
            if (!(flags & NETDEV_TX_OFFLOAD_UDP_CKSUM)) {
649
0
                packet_udp_complete_csum(p, true);
650
0
            }
651
0
        } else {
652
0
            ovs_assert(dp_packet_inner_l4_proto_sctp(p));
653
0
            if (!(flags & NETDEV_TX_OFFLOAD_SCTP_CKSUM)) {
654
0
                packet_sctp_complete_csum(p, true);
655
0
            }
656
0
        }
657
0
    }
658
659
0
    if (dp_packet_ip_checksum_partial(p)
660
0
        && !(flags & NETDEV_TX_OFFLOAD_OUTER_IP_CKSUM)) {
661
0
        dp_packet_ip_set_header_csum(p, false);
662
0
    }
663
664
0
    if (dp_packet_l4_checksum_partial(p)) {
665
0
        ovs_assert(dp_packet_l4_proto_udp(p));
666
0
        if (!(flags & NETDEV_TX_OFFLOAD_OUTER_UDP_CKSUM)) {
667
0
            packet_udp_complete_csum(p, false);
668
0
        }
669
0
    }
670
0
}
671
672
void
673
dp_packet_batch_grow(struct dp_packet_batch *batch, size_t count)
674
0
{
675
0
    struct dp_packet **old_packets;
676
677
0
    COVERAGE_INC(dp_packet_batch_grow);
678
679
0
    if (batch->packets == batch->embedded) {
680
0
        old_packets = NULL;
681
0
    } else {
682
0
        old_packets = batch->packets;
683
0
    }
684
685
0
    batch->packets = xrealloc(old_packets,
686
0
                              (batch->capacity + count)
687
0
                              * sizeof *batch->packets);
688
0
    if (!old_packets) {
689
0
        memcpy(batch->packets, batch->embedded, sizeof batch->embedded);
690
0
    }
691
0
    batch->capacity += count;
692
0
}