util-streaming-buffer_8c_source.html

 /* Copyright (C) 2015-2016 Open Information Security Foundation
  *
  * You can copy, redistribute or modify this Program under the terms of
  * the GNU General Public License version 2 as published by the Free
  * Software Foundation.
  *
  * This program is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * GNU General Public License for more details.
  *
  * You should have received a copy of the GNU General Public License
  * version 2 along with this program; if not, write to the Free Software
  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
  * 02110-1301, USA.
  */

 #include "suricata-common.h"
 #include "util-streaming-buffer.h"
 #include "util-unittest.h"
 #include "util-print.h"
 #include "util-validate.h"

 /**
  * \file
  *
  * \author Victor Julien <victor@inliniac.net>
  *
  *  \brief Streaming Buffer API
  */

 /* memory handling wrappers. If config doesn't define it's own set of
  * functions, use the defaults */
 #define MALLOC(cfg, s) \
     (cfg)->Malloc ? (cfg)->Malloc((s)) : SCMalloc((s))
 #define CALLOC(cfg, n, s) \
     (cfg)->Calloc ? (cfg)->Calloc((n), (s)) : SCCalloc((n), (s))
 #define REALLOC(cfg, ptr, orig_s, s) \
     (cfg)->Realloc ? (cfg)->Realloc((ptr), (orig_s), (s)) : SCRealloc((ptr), (s))
 #define FREE(cfg, ptr, s) \
     (cfg)->Free ? (cfg)->Free((ptr), (s)) : SCFree((ptr))

 static void SBBFree(StreamingBuffer *sb);

 RB_GENERATE(SBB, StreamingBufferBlock, rb, SBBCompare);

 int SBBCompare(struct StreamingBufferBlock *a, struct StreamingBufferBlock *b)
 {
     SCLogDebug("a %"PRIu64" len %u, b %"PRIu64" len %u",
             a->offset, a->len, b->offset, b->len);

     if (a->offset > b->offset)
         SCReturnInt(1);
     else if (a->offset < b->offset)
         SCReturnInt(-1);
     else {
         if (a->len == 0 || b->len == 0 || a->len ==  b->len)
             SCReturnInt(0);
         else if (a->len > b->len)
             SCReturnInt(1);
         else
             SCReturnInt(-1);
     }
 }

 /* inclusive compare function that also considers the right edge,
  * not just the offset. */
 static inline int InclusiveCompare(StreamingBufferBlock *lookup, StreamingBufferBlock *intree) {
     const uint64_t lre = lookup->offset + lookup->len;
     const uint64_t tre = intree->offset + intree->len;
     if (lre <= intree->offset)   // entirely before
         return -1;
     else if (lre >= intree->offset && lre <= tre)    // (some) overlap
         return 0;
     else
         return 1;   // entirely after
 }

 StreamingBufferBlock *SBB_RB_FIND_INCLUSIVE(struct SBB *head, StreamingBufferBlock *elm)
 {
     SCLogDebug("looking up %"PRIu64, elm->offset);

     struct StreamingBufferBlock *tmp = RB_ROOT(head);
     struct StreamingBufferBlock *res = NULL;
     while (tmp) {
         SCLogDebug("compare with %"PRIu64"/%u", tmp->offset, tmp->len);
         const int comp = InclusiveCompare(elm, tmp);
         SCLogDebug("compare result: %d", comp);
         if (comp < 0) {
             res = tmp;
             tmp = RB_LEFT(tmp, rb);
         } else if (comp > 0) {
             tmp = RB_RIGHT(tmp, rb);
         } else {
             return tmp;
         }
     }
     return res;
 }


 static inline int InitBuffer(StreamingBuffer *sb)
 {
     sb->buf = CALLOC(sb->cfg, 1, sb->cfg->buf_size);
     if (sb->buf == NULL) {
         return -1;
     }
     sb->buf_size = sb->cfg->buf_size;
     return 0;
 }

 StreamingBuffer *StreamingBufferInit(const StreamingBufferConfig *cfg)
 {
     StreamingBuffer *sb = CALLOC(cfg, 1, sizeof(StreamingBuffer));
     if (sb != NULL) {
         sb->buf_size = cfg->buf_size;
         sb->cfg = cfg;

         if (cfg->buf_size > 0) {
             if (InitBuffer(sb) == 0) {
                 return sb;
             }
             FREE(cfg, sb, sizeof(StreamingBuffer));
         /* implied buf_size == 0 */
         } else {
             return sb;
         }
     }
     return NULL;
 }

 void StreamingBufferClear(StreamingBuffer *sb)
 {
     if (sb != NULL) {
         SCLogDebug("sb->buf_size %u max %u", sb->buf_size, sb->buf_size_max);

         SBBFree(sb);
         if (sb->buf != NULL) {
             FREE(sb->cfg, sb->buf, sb->buf_size);
             sb->buf = NULL;
         }
     }
 }

 void StreamingBufferFree(StreamingBuffer *sb)
 {
     if (sb != NULL) {
         StreamingBufferClear(sb);
         FREE(sb->cfg, sb, sizeof(StreamingBuffer));
     }
 }

 #ifdef DEBUG
 static void SBBPrintList(StreamingBuffer *sb)
 {
     StreamingBufferBlock *sbb = NULL;
     RB_FOREACH(sbb, SBB, &sb->sbb_tree) {
         SCLogDebug("sbb: offset %"PRIu64", len %u", sbb->offset, sbb->len);
         StreamingBufferBlock *next = SBB_RB_NEXT(sbb);
         if (next) {
             if ((sbb->offset + sbb->len) != next->offset) {
                 SCLogDebug("gap: offset %"PRIu64", len %"PRIu64, (sbb->offset + sbb->len),
                         next->offset - (sbb->offset + sbb->len));
             }
         }
     }
 }
 #endif

 /* setup with gap between 2 blocks
  *
  * [block][gap][block]
  **/
 static void SBBInit(StreamingBuffer *sb,
                     uint32_t rel_offset, uint32_t data_len)
 {
     DEBUG_VALIDATE_BUG_ON(!RB_EMPTY(&sb->sbb_tree));
     DEBUG_VALIDATE_BUG_ON(sb->buf_offset > sb->stream_offset + rel_offset);

     /* need to set up 2: existing data block and new data block */
     StreamingBufferBlock *sbb = CALLOC(sb->cfg, 1, sizeof(*sbb));
     if (sbb == NULL) {
         return;
     }
     sbb->offset = sb->stream_offset;
     sbb->len = sb->buf_offset;

     StreamingBufferBlock *sbb2 = CALLOC(sb->cfg, 1, sizeof(*sbb2));
     if (sbb2 == NULL) {
         FREE(sb->cfg, sbb, sizeof(*sbb));
         return;
     }
     sbb2->offset = sb->stream_offset + rel_offset;
     sbb2->len = data_len;

     sb->head = sbb;
     SBB_RB_INSERT(&sb->sbb_tree, sbb);
     SBB_RB_INSERT(&sb->sbb_tree, sbb2);

     SCLogDebug("sbb1 %"PRIu64", len %u, sbb2 %"PRIu64", len %u",
             sbb->offset, sbb->len, sbb2->offset, sbb2->len);
 #ifdef DEBUG
     SBBPrintList(sb);
 #endif
     BUG_ON(sbb2->offset < sbb->len);
 }

 /* setup with leading gap
  *
  * [gap][block]
  **/
 static void SBBInitLeadingGap(StreamingBuffer *sb,
                               uint64_t offset, uint32_t data_len)
 {
     DEBUG_VALIDATE_BUG_ON(!RB_EMPTY(&sb->sbb_tree));

     StreamingBufferBlock *sbb = CALLOC(sb->cfg, 1, sizeof(*sbb));
     if (sbb == NULL)
         return;
     sbb->offset = offset;
     sbb->len = data_len;

     sb->head = sbb;
     SBB_RB_INSERT(&sb->sbb_tree, sbb);

     SCLogDebug("sbb %"PRIu64", len %u",
             sbb->offset, sbb->len);
 #ifdef DEBUG
     SBBPrintList(sb);
 #endif
 }

 static inline void ConsolidateFwd(StreamingBuffer *sb,
         struct SBB *tree, StreamingBufferBlock *sa)
 {
     uint64_t sa_re = sa->offset + sa->len;
     StreamingBufferBlock *tr, *s = sa;
     RB_FOREACH_FROM(tr, SBB, s) {
         if (sa == tr)
             continue;

         const uint64_t tr_re = tr->offset + tr->len;
         SCLogDebug("-> (fwd) tr %p %"PRIu64"/%u re %"PRIu64,
                 tr, tr->offset, tr->len, tr_re);

         if (sa_re < tr->offset)
             break; // entirely before

         /*
             sa:     [   ]
             tr: [           ]
             sa:     [   ]
             tr:     [       ]
             sa:     [   ]
             tr: [       ]
         */
         if (sa->offset >= tr->offset && sa_re <= tr_re) {
             sa->len = tr->len;
             sa->offset = tr->offset;
             sa_re = sa->offset + sa->len;
             SCLogDebug("-> (fwd) tr %p %"PRIu64"/%u REMOVED ECLIPSED2", tr, tr->offset, tr->len);
             SBB_RB_REMOVE(tree, tr);
             FREE(sb->cfg, tr, sizeof(StreamingBufferBlock));
         /*
             sa: [         ]
             tr: [         ]
             sa: [         ]
             tr:    [      ]
             sa: [         ]
             tr:    [   ]
         */
         } else if (sa->offset <= tr->offset && sa_re >= tr_re) {
             SCLogDebug("-> (fwd) tr %p %"PRIu64"/%u REMOVED ECLIPSED", tr, tr->offset, tr->len);
             SBB_RB_REMOVE(tree, tr);
             FREE(sb->cfg, tr, sizeof(StreamingBufferBlock));
         /*
             sa: [         ]
             tr:      [         ]
             sa: [       ]
             tr:         [       ]
         */
         } else if (sa->offset < tr->offset && // starts before
                    sa_re >= tr->offset && sa_re < tr_re) // ends inside
         {
             // merge
             sa->len = tr_re - sa->offset;
             sa_re = sa->offset + sa->len;
             SCLogDebug("-> (fwd) tr %p %"PRIu64"/%u REMOVED MERGED", tr, tr->offset, tr->len);
             SBB_RB_REMOVE(tree, tr);
             FREE(sb->cfg, tr, sizeof(StreamingBufferBlock));
         }
     }
 }

 static inline void ConsolidateBackward(StreamingBuffer *sb,
         struct SBB *tree, StreamingBufferBlock *sa)
 {
     uint64_t sa_re = sa->offset + sa->len;
     StreamingBufferBlock *tr, *s = sa;
     RB_FOREACH_REVERSE_FROM(tr, SBB, s) {
         if (sa == tr)
             continue;
         const uint64_t tr_re = tr->offset + tr->len;
         SCLogDebug("-> (bwd) tr %p %"PRIu64"/%u", tr, tr->offset, tr->len);

         if (sa->offset > tr_re)
             break; // entirely after

         if (sa->offset >= tr->offset && sa_re <= tr_re) {
             sa->len = tr->len;
             sa->offset = tr->offset;
             sa_re = sa->offset + sa->len;
             SCLogDebug("-> (bwd) tr %p %"PRIu64"/%u REMOVED ECLIPSED2", tr, tr->offset, tr->len);
             if (sb->head == tr)
                 sb->head = sa;
             SBB_RB_REMOVE(tree, tr);
             FREE(sb->cfg, tr, sizeof(StreamingBufferBlock));
         /*
             sa: [         ]
             tr: [         ]
             sa:    [      ]
             tr: [         ]
             sa:    [   ]
             tr: [         ]
         */
         } else if (sa->offset <= tr->offset && sa_re >= tr_re) {
             SCLogDebug("-> (bwd) tr %p %"PRIu64"/%u REMOVED ECLIPSED", tr, tr->offset, tr->len);
             if (sb->head == tr)
                 sb->head = sa;
             SBB_RB_REMOVE(tree, tr);
             FREE(sb->cfg, tr, sizeof(StreamingBufferBlock));
         /*
             sa:     [   ]
             tr: [   ]
             sa:    [    ]
             tr: [   ]
         */
         } else if (sa->offset > tr->offset && sa_re > tr_re && sa->offset <= tr_re) {
             // merge
             sa->len = sa_re - tr->offset;
             sa->offset = tr->offset;
             sa_re = sa->offset + sa->len;
             SCLogDebug("-> (bwd) tr %p %"PRIu64"/%u REMOVED MERGED", tr, tr->offset, tr->len);
             if (sb->head == tr)
                 sb->head = sa;
             SBB_RB_REMOVE(tree, tr);
             FREE(sb->cfg, tr, sizeof(StreamingBufferBlock));
         }
     }
 }

 static int Insert(StreamingBuffer *sb, struct SBB *tree,
         uint32_t rel_offset, uint32_t len)
 {
     SCLogDebug("* inserting: %u/%u\n", rel_offset, len);

     StreamingBufferBlock *sbb = CALLOC(sb->cfg, 1, sizeof(*sbb));
     if (sbb == NULL)
         return -1;
     sbb->offset = sb->stream_offset + rel_offset;
     sbb->len = len;
     StreamingBufferBlock *res = SBB_RB_INSERT(tree, sbb);
     if (res) {
         // exact overlap
         SCLogDebug("* insert failed: exact match in tree with %p %"PRIu64"/%u", res, res->offset, res->len);
         FREE(sb->cfg, sbb, sizeof(StreamingBufferBlock));
         return 0;
     }
     if (SBB_RB_PREV(sbb) == NULL) {
         sb->head = sbb;
     } else {
         ConsolidateBackward(sb, tree, sbb);
     }
     ConsolidateFwd(sb, tree, sbb);
 #ifdef DEBUG
     SBBPrintList(sb);
 #endif
     return 0;
 }

 static void SBBUpdate(StreamingBuffer *sb,
                       uint32_t rel_offset, uint32_t data_len)
 {
     Insert(sb, &sb->sbb_tree, rel_offset, data_len);
 }

 static void SBBFree(StreamingBuffer *sb)
 {
     StreamingBufferBlock *sbb = NULL, *safe = NULL;
     RB_FOREACH_SAFE(sbb, SBB, &sb->sbb_tree, safe) {
         SBB_RB_REMOVE(&sb->sbb_tree, sbb);
         FREE(sb->cfg, sbb, sizeof(StreamingBufferBlock));
     }
     sb->head = NULL;
 }

 static void SBBPrune(StreamingBuffer *sb)
 {
     SCLogDebug("pruning %p to %"PRIu64, sb, sb->stream_offset);
     StreamingBufferBlock *sbb = NULL, *safe = NULL;
     RB_FOREACH_SAFE(sbb, SBB, &sb->sbb_tree, safe) {
         /* completely beyond window, we're done */
         if (sbb->offset > sb->stream_offset) {
             sb->head = sbb;
             break;
         }

         /* partly before, partly beyond. Adjust */
         if (sbb->offset < sb->stream_offset &&
             sbb->offset + sbb->len > sb->stream_offset) {
             uint32_t shrink_by = sb->stream_offset - sbb->offset;
             DEBUG_VALIDATE_BUG_ON(shrink_by > sbb->len);
             if (sbb->len >= shrink_by) {
                 sbb->len -=  shrink_by;
                 sbb->offset += shrink_by;
                 DEBUG_VALIDATE_BUG_ON(sbb->offset != sb->stream_offset);
             }
             sb->head = sbb;
             break;
         }

         SBB_RB_REMOVE(&sb->sbb_tree, sbb);
         /* either we set it again for the next sbb, or there isn't any */
         sb->head = NULL;
         SCLogDebug("sb %p removed %p %"PRIu64", %u", sb, sbb, sbb->offset, sbb->len);
         FREE(sb->cfg, sbb, sizeof(StreamingBufferBlock));
     }
 }

 /**
  * \internal
  * \brief move buffer forward by 'slide'
  */
 static void AutoSlide(StreamingBuffer *sb)
 {
     uint32_t size = sb->cfg->buf_slide;
     uint32_t slide = sb->buf_offset - size;
     SCLogDebug("sliding %u forward, size of original buffer left after slide %u", slide, size);
     memmove(sb->buf, sb->buf+slide, size);
     sb->stream_offset += slide;
     sb->buf_offset = size;
     SBBPrune(sb);
 }

 static int __attribute__((warn_unused_result))
 GrowToSize(StreamingBuffer *sb, uint32_t size)
 {
     /* try to grow in multiples of sb->cfg->buf_size */
     uint32_t x = sb->cfg->buf_size ? size % sb->cfg->buf_size : 0;
     uint32_t base = size - x;
     uint32_t grow = base + sb->cfg->buf_size;

     void *ptr = REALLOC(sb->cfg, sb->buf, sb->buf_size, grow);
     if (ptr == NULL)
         return -1;

     /* for safe printing and general caution, lets memset the
      * new data to 0 */
     size_t diff = grow - sb->buf_size;
     void *new_mem = ((char *)ptr) + sb->buf_size;
     memset(new_mem, 0, diff);

     sb->buf = ptr;
     sb->buf_size = grow;
     SCLogDebug("grown buffer to %u", grow);
 #ifdef DEBUG
     if (sb->buf_size > sb->buf_size_max) {
         sb->buf_size_max = sb->buf_size;
     }
 #endif
     return 0;
 }

 /** \internal
  *  \brief try to double the buffer size
  *  \retval 0 ok
  *  \retval -1 failed, buffer unchanged
  */
 static int __attribute__((warn_unused_result)) Grow(StreamingBuffer *sb)
 {
     uint32_t grow = sb->buf_size * 2;
     void *ptr = REALLOC(sb->cfg, sb->buf, sb->buf_size, grow);
     if (ptr == NULL)
         return -1;

     /* for safe printing and general caution, lets memset the
      * new data to 0 */
     size_t diff = grow - sb->buf_size;
     void *new_mem = ((char *)ptr) + sb->buf_size;
     memset(new_mem, 0, diff);

     sb->buf = ptr;
     sb->buf_size = grow;
     SCLogDebug("grown buffer to %u", grow);
 #ifdef DEBUG
     if (sb->buf_size > sb->buf_size_max) {
         sb->buf_size_max = sb->buf_size;
     }
 #endif
     return 0;
 }

 /**
  *  \brief slide to absolute offset
  *  \todo if sliding beyond window, we could perhaps reset?
  */
 void StreamingBufferSlideToOffset(StreamingBuffer *sb, uint64_t offset)
 {
     if (offset > sb->stream_offset &&
         offset <= sb->stream_offset + sb->buf_offset)
     {
         uint32_t slide = offset - sb->stream_offset;
         uint32_t size = sb->buf_offset - slide;
         SCLogDebug("sliding %u forward, size of original buffer left after slide %u", slide, size);
         memmove(sb->buf, sb->buf+slide, size);
         sb->stream_offset += slide;
         sb->buf_offset = size;
         SBBPrune(sb);
     }
 }

 void StreamingBufferSlide(StreamingBuffer *sb, uint32_t slide)
 {
     uint32_t size = sb->buf_offset - slide;
     SCLogDebug("sliding %u forward, size of original buffer left after slide %u", slide, size);
     memmove(sb->buf, sb->buf+slide, size);
     sb->stream_offset += slide;
     sb->buf_offset = size;
     SBBPrune(sb);
 }

 #define DATA_FITS(sb, len) \
     ((sb)->buf_offset + (len) <= (sb)->buf_size)

 StreamingBufferSegment *StreamingBufferAppendRaw(StreamingBuffer *sb, const uint8_t *data, uint32_t data_len)
 {
     if (sb->buf == NULL) {
         if (InitBuffer(sb) == -1)
             return NULL;
     }

     if (!DATA_FITS(sb, data_len)) {
         if (sb->cfg->flags & STREAMING_BUFFER_AUTOSLIDE)
             AutoSlide(sb);
         if (sb->buf_size == 0) {
             if (GrowToSize(sb, data_len) != 0)
                 return NULL;
         } else {
             while (!DATA_FITS(sb, data_len)) {
                 if (Grow(sb) != 0) {
                     return NULL;
                 }
             }
         }
     }
     if (!DATA_FITS(sb, data_len)) {
         return NULL;
     }

     StreamingBufferSegment *seg = CALLOC(sb->cfg, 1, sizeof(StreamingBufferSegment));
     if (seg != NULL) {
         memcpy(sb->buf + sb->buf_offset, data, data_len);
         seg->stream_offset = sb->stream_offset + sb->buf_offset;
         seg->segment_len = data_len;
         uint32_t rel_offset = sb->buf_offset;
         sb->buf_offset += data_len;

         if (!RB_EMPTY(&sb->sbb_tree)) {
             SBBUpdate(sb, rel_offset, data_len);
         }
         return seg;
     }
     return NULL;
 }

 int StreamingBufferAppend(StreamingBuffer *sb, StreamingBufferSegment *seg,
                           const uint8_t *data, uint32_t data_len)
 {
     BUG_ON(seg == NULL);

     if (sb->buf == NULL) {
         if (InitBuffer(sb) == -1)
             return -1;
     }

     if (!DATA_FITS(sb, data_len)) {
         if (sb->cfg->flags & STREAMING_BUFFER_AUTOSLIDE)
             AutoSlide(sb);
         if (sb->buf_size == 0) {
             if (GrowToSize(sb, data_len) != 0)
                 return -1;
         } else {
             while (!DATA_FITS(sb, data_len)) {
                 if (Grow(sb) != 0) {
                     return -1;
                 }
             }
         }
     }
     if (!DATA_FITS(sb, data_len)) {
         return -1;
     }

     memcpy(sb->buf + sb->buf_offset, data, data_len);
     seg->stream_offset = sb->stream_offset + sb->buf_offset;
     seg->segment_len = data_len;
     uint32_t rel_offset = sb->buf_offset;
     sb->buf_offset += data_len;

     if (!RB_EMPTY(&sb->sbb_tree)) {
         SBBUpdate(sb, rel_offset, data_len);
     }
     return 0;
 }

 /**
  *  \brief add data w/o tracking a segment
  */
 int StreamingBufferAppendNoTrack(StreamingBuffer *sb,
                                  const uint8_t *data, uint32_t data_len)
 {
     if (sb->buf == NULL) {
         if (InitBuffer(sb) == -1)
             return -1;
     }

     if (!DATA_FITS(sb, data_len)) {
         if (sb->cfg->flags & STREAMING_BUFFER_AUTOSLIDE)
             AutoSlide(sb);
         if (sb->buf_size == 0) {
             if (GrowToSize(sb, data_len) != 0)
                 return -1;
         } else {
             while (!DATA_FITS(sb, data_len)) {
                 if (Grow(sb) != 0) {
                     return -1;
                 }
             }
         }
     }
     if (!DATA_FITS(sb, data_len)) {
         return -1;
     }

     memcpy(sb->buf + sb->buf_offset, data, data_len);
     uint32_t rel_offset = sb->buf_offset;
     sb->buf_offset += data_len;

     if (!RB_EMPTY(&sb->sbb_tree)) {
         SBBUpdate(sb, rel_offset, data_len);
     }
     return 0;
 }

 #define DATA_FITS_AT_OFFSET(sb, len, offset) \
     ((offset) + (len) <= (sb)->buf_size)

 /**
  *  \param offset offset relative to StreamingBuffer::stream_offset
  */
 int StreamingBufferInsertAt(StreamingBuffer *sb, StreamingBufferSegment *seg,
                             const uint8_t *data, uint32_t data_len,
                             uint64_t offset)
 {
     BUG_ON(seg == NULL);

     if (offset < sb->stream_offset)
         return -1;

     if (sb->buf == NULL) {
         if (InitBuffer(sb) == -1)
             return -1;
     }

     uint32_t rel_offset = offset - sb->stream_offset;
     if (!DATA_FITS_AT_OFFSET(sb, data_len, rel_offset)) {
         if (sb->cfg->flags & STREAMING_BUFFER_AUTOSLIDE) {
             AutoSlide(sb);
             rel_offset = offset - sb->stream_offset;
         }
         if (!DATA_FITS_AT_OFFSET(sb, data_len, rel_offset)) {
             if (GrowToSize(sb, (rel_offset + data_len)) != 0)
                 return -1;
         }
     }
     if (!DATA_FITS_AT_OFFSET(sb, data_len, rel_offset)) {
         return -1;
     }

     memcpy(sb->buf + rel_offset, data, data_len);
     seg->stream_offset = offset;
     seg->segment_len = data_len;

     SCLogDebug("rel_offset %u sb->stream_offset %"PRIu64", buf_offset %u",
             rel_offset, sb->stream_offset, sb->buf_offset);

     if (RB_EMPTY(&sb->sbb_tree)) {
         SCLogDebug("empty sbb list");

         if (sb->stream_offset == offset) {
             SCLogDebug("empty sbb list: block exactly what was expected, fall through");
             /* empty list, data is exactly what is expected (append),
              * so do nothing */
         } else if ((rel_offset + data_len) <= sb->buf_offset) {
             SCLogDebug("empty sbb list: block is within existing region");
         } else {
             if (sb->buf_offset && rel_offset == sb->buf_offset) {
                 // nothing to do
             } else if (rel_offset < sb->buf_offset) {
                 // nothing to do
             } else if (sb->buf_offset) {
                 /* existing data, but there is a gap between us */
                 SBBInit(sb, rel_offset, data_len);
             } else {
                 /* gap before data in empty list */
                 SCLogDebug("empty sbb list: invoking SBBInitLeadingGap");
                 SBBInitLeadingGap(sb, offset, data_len);
             }
         }
     } else {
         /* already have blocks, so append new block based on new data */
         SBBUpdate(sb, rel_offset, data_len);
     }

     if (rel_offset + data_len > sb->buf_offset)
         sb->buf_offset = rel_offset + data_len;

     return 0;
 }

 int StreamingBufferSegmentIsBeforeWindow(const StreamingBuffer *sb,
                                          const StreamingBufferSegment *seg)
 {
     if (seg->stream_offset < sb->stream_offset) {
         if (seg->stream_offset + seg->segment_len <= sb->stream_offset) {
             return 1;
         }
     }
     return 0;
 }

 /** \brief get the data for one SBB */
 void StreamingBufferSBBGetData(const StreamingBuffer *sb,
                                const StreamingBufferBlock *sbb,
                                const uint8_t **data, uint32_t *data_len)
 {
     if (sbb->offset >= sb->stream_offset) {
         uint64_t offset = sbb->offset - sb->stream_offset;
         *data = sb->buf + offset;
         if (offset + sbb->len > sb->buf_offset)
             *data_len = sb->buf_offset - offset;
         else
             *data_len = sbb->len;
         return;
     } else {
         uint64_t offset = sb->stream_offset - sbb->offset;
         if (offset < sbb->len) {
             *data = sb->buf;
             *data_len = sbb->len - offset;
             return;
         }
     }
     *data = NULL;
     *data_len = 0;
     return;
 }

 /** \brief get the data for one SBB */
 void StreamingBufferSBBGetDataAtOffset(const StreamingBuffer *sb,
                                        const StreamingBufferBlock *sbb,
                                        const uint8_t **data, uint32_t *data_len,
                                        uint64_t offset)
 {
     if (offset >= sbb->offset && offset < (sbb->offset + sbb->len)) {
         uint32_t sbblen = sbb->len - (offset - sbb->offset);

         if (offset >= sb->stream_offset) {
             uint64_t data_offset = offset - sb->stream_offset;
             *data = sb->buf + data_offset;
             if (data_offset + sbblen > sb->buf_size)
                 *data_len = sb->buf_size - data_offset;
             else
                 *data_len = sbblen;
             BUG_ON(*data_len > sbblen);
             return;
         } else {
             uint64_t data_offset = sb->stream_offset - sbb->offset;
             if (data_offset < sbblen) {
                 *data = sb->buf;
                 *data_len = sbblen - data_offset;
                 BUG_ON(*data_len > sbblen);
                 return;
             }
         }
     }

     *data = NULL;
     *data_len = 0;
     return;
 }

 void StreamingBufferSegmentGetData(const StreamingBuffer *sb,
                                    const StreamingBufferSegment *seg,
                                    const uint8_t **data, uint32_t *data_len)
 {
     if (likely(sb->buf)) {
         if (seg->stream_offset >= sb->stream_offset) {
             uint64_t offset = seg->stream_offset - sb->stream_offset;
             *data = sb->buf + offset;
             if (offset + seg->segment_len > sb->buf_size)
                 *data_len = sb->buf_size - offset;
             else
                 *data_len = seg->segment_len;
             return;
         } else {
             uint64_t offset = sb->stream_offset - seg->stream_offset;
             if (offset < seg->segment_len) {
                 *data = sb->buf;
                 *data_len = seg->segment_len - offset;
                 return;
             }
         }
     }
     *data = NULL;
     *data_len = 0;
     return;
 }

 /**
  *  \retval 1 data is the same
  *  \retval 0 data is different
  */
 int StreamingBufferSegmentCompareRawData(const StreamingBuffer *sb,
                                          const StreamingBufferSegment *seg,
                                          const uint8_t *rawdata, uint32_t rawdata_len)
 {
     const uint8_t *segdata = NULL;
     uint32_t segdata_len = 0;
     StreamingBufferSegmentGetData(sb, seg, &segdata, &segdata_len);
     if (segdata && segdata_len &&
         segdata_len == rawdata_len &&
         memcmp(segdata, rawdata, segdata_len) == 0)
     {
         return 1;
     }
     return 0;
 }

 int StreamingBufferGetData(const StreamingBuffer *sb,
         const uint8_t **data, uint32_t *data_len,
         uint64_t *stream_offset)
 {
     if (sb != NULL && sb->buf != NULL) {
         *data = sb->buf;
         *data_len = sb->buf_offset;
         *stream_offset = sb->stream_offset;
         return 1;
     } else {
         *data = NULL;
         *data_len = 0;
         *stream_offset = 0;
         return 0;
     }
 }

 int StreamingBufferGetDataAtOffset (const StreamingBuffer *sb,
         const uint8_t **data, uint32_t *data_len,
         uint64_t offset)
 {
     if (sb != NULL && sb->buf != NULL &&
             offset >= sb->stream_offset &&
             offset < (sb->stream_offset + sb->buf_offset))
     {
         uint32_t skip = offset - sb->stream_offset;
         *data = sb->buf + skip;
         *data_len = sb->buf_offset - skip;
         return 1;
     } else {
         *data = NULL;
         *data_len = 0;
         return 0;
     }
 }

 /**
  *  \retval 1 data is the same
  *  \retval 0 data is different
  */
 int StreamingBufferCompareRawData(const StreamingBuffer *sb,
                                   const uint8_t *rawdata, uint32_t rawdata_len)
 {
     const uint8_t *sbdata = NULL;
     uint32_t sbdata_len = 0;
     uint64_t offset = 0;
     StreamingBufferGetData(sb, &sbdata, &sbdata_len, &offset);
     if (offset == 0 &&
         sbdata && sbdata_len &&
         sbdata_len == rawdata_len &&
         memcmp(sbdata, rawdata, sbdata_len) == 0)
     {
         return 1;
     }
     SCLogDebug("sbdata_len %u, offset %"PRIu64, sbdata_len, offset);
     printf("got:\n");
     PrintRawDataFp(stdout, sbdata,sbdata_len);
     printf("wanted:\n");
     PrintRawDataFp(stdout, rawdata,rawdata_len);
     return 0;
 }

 #ifdef UNITTESTS
 static void Dump(StreamingBuffer *sb)
 {
     PrintRawDataFp(stdout, sb->buf, sb->buf_offset);
 }

 static void DumpSegment(StreamingBuffer *sb, StreamingBufferSegment *seg)
 {
     const uint8_t *data = NULL;
     uint32_t data_len = 0;
     StreamingBufferSegmentGetData(sb, seg, &data, &data_len);
     if (data && data_len) {
         PrintRawDataFp(stdout, data, data_len);
     }
 }

 static int StreamingBufferTest01(void)
 {
     StreamingBufferConfig cfg = { STREAMING_BUFFER_AUTOSLIDE, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment *seg1 = StreamingBufferAppendRaw(sb, (const uint8_t *)"ABCDEFGH", 8);
     StreamingBufferSegment *seg2 = StreamingBufferAppendRaw(sb, (const uint8_t *)"01234567", 8);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 16);
     FAIL_IF(seg1->stream_offset != 0);
     FAIL_IF(seg2->stream_offset != 8);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg2));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,seg1,(const uint8_t *)"ABCDEFGH", 8));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,seg2,(const uint8_t *)"01234567", 8));
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment *seg3 = StreamingBufferAppendRaw(sb, (const uint8_t *)"QWERTY", 6);
     FAIL_IF(sb->stream_offset != 8);
     FAIL_IF(sb->buf_offset != 14);
     FAIL_IF(seg3->stream_offset != 16);
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg3));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,seg3,(const uint8_t *)"QWERTY", 6));
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment *seg4 = StreamingBufferAppendRaw(sb, (const uint8_t *)"KLM", 3);
     FAIL_IF(sb->stream_offset != 14);
     FAIL_IF(sb->buf_offset != 11);
     FAIL_IF(seg4->stream_offset != 22);
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg3));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg4));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,seg4,(const uint8_t *)"KLM", 3));
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment *seg5 = StreamingBufferAppendRaw(sb, (const uint8_t *)"!@#$%^&*()_+<>?/,.;:'[]{}-=", 27);
     FAIL_IF(sb->stream_offset != 17);
     FAIL_IF(sb->buf_offset != 35);
     FAIL_IF(seg5->stream_offset != 25);
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,seg1));
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg3));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg4));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg5));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,seg5,(const uint8_t *)"!@#$%^&*()_+<>?/,.;:'[]{}-=", 27));
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment *seg6 = StreamingBufferAppendRaw(sb, (const uint8_t *)"UVWXYZ", 6);
     FAIL_IF(sb->stream_offset != 17);
     FAIL_IF(sb->buf_offset != 41);
     FAIL_IF(seg6->stream_offset != 52);
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,seg1));
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg3));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg4));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg5));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,seg6));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,seg6,(const uint8_t *)"UVWXYZ", 6));
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     SCFree(seg1);
     SCFree(seg2);
     SCFree(seg3);
     SCFree(seg4);
     SCFree(seg5);
     SCFree(seg6);
     StreamingBufferFree(sb);
     PASS;
 }

 static int StreamingBufferTest02(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 24, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferAppend(sb, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferAppend(sb, &seg2, (const uint8_t *)"01234567", 8) != 0);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 16);
     FAIL_IF(seg1.stream_offset != 0);
     FAIL_IF(seg2.stream_offset != 8);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSlide(sb, 6);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferAppend(sb, &seg3, (const uint8_t *)"QWERTY", 6) != 0);
     FAIL_IF(sb->stream_offset != 6);
     FAIL_IF(sb->buf_offset != 16);
     FAIL_IF(seg3.stream_offset != 16);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg3));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     DumpSegment(sb, &seg3);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSlide(sb, 6);
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg3));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     DumpSegment(sb, &seg3);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferFree(sb);
     PASS;
 }

 static int StreamingBufferTest03(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 24, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferAppend(sb, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"01234567", 8, 14) != 0);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 22);
     FAIL_IF(seg1.stream_offset != 0);
     FAIL_IF(seg2.stream_offset != 14);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"QWERTY", 6, 8) != 0);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 22);
     FAIL_IF(seg3.stream_offset != 8);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg3));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     DumpSegment(sb, &seg3);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSlide(sb, 10);
     FAIL_IF(!StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg3));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     DumpSegment(sb, &seg3);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferFree(sb);
     PASS;
 }

 static int StreamingBufferTest04(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferAppend(sb, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0);
     FAIL_IF(!RB_EMPTY(&sb->sbb_tree));
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"01234567", 8, 14) != 0);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 22);
     FAIL_IF(seg1.stream_offset != 0);
     FAIL_IF(seg2.stream_offset != 14);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(RB_EMPTY(&sb->sbb_tree));
     StreamingBufferBlock *sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF(sbb1 != sb->head);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 8);
     StreamingBufferBlock *sbb2 = SBB_RB_NEXT(sbb1);
     FAIL_IF_NULL(sbb2);
     FAIL_IF(sbb2 == sb->head);
     FAIL_IF(sbb2->offset != 14);
     FAIL_IF(sbb2->len != 8);
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"QWERTY", 6, 8) != 0);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 22);
     FAIL_IF(seg3.stream_offset != 8);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg3));
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1 != sb->head);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 22);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     DumpSegment(sb, &seg3);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     /* far ahead of curve: */
     StreamingBufferSegment seg4;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg4, (const uint8_t *)"XYZ", 3, 124) != 0);
     FAIL_IF(sb->stream_offset != 0);
     FAIL_IF(sb->buf_offset != 127);
     FAIL_IF(sb->buf_size != 128);
     FAIL_IF(seg4.stream_offset != 124);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg3));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(sb,&seg4));
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1 != sb->head);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 22);
     FAIL_IF(!SBB_RB_NEXT(sbb1));
     Dump(sb);
     DumpSegment(sb, &seg1);
     DumpSegment(sb, &seg2);
     DumpSegment(sb, &seg3);
     DumpSegment(sb, &seg4);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,&seg1,(const uint8_t *)"ABCDEFGH", 8));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,&seg2,(const uint8_t *)"01234567", 8));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,&seg3,(const uint8_t *)"QWERTY", 6));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(sb,&seg4,(const uint8_t *)"XYZ", 3));

     StreamingBufferFree(sb);
     PASS;
 }

 static int StreamingBufferTest05(void)
 {
     StreamingBufferConfig cfg = { STREAMING_BUFFER_AUTOSLIDE, 8, 32, NULL, NULL, NULL, NULL };
     StreamingBuffer sb = STREAMING_BUFFER_INITIALIZER(&cfg);

     StreamingBufferSegment *seg1 = StreamingBufferAppendRaw(&sb, (const uint8_t *)"AAAAAAAA", 8);
     StreamingBufferSegment *seg2 = StreamingBufferAppendRaw(&sb, (const uint8_t *)"BBBBBBBB", 8);
     StreamingBufferSegment *seg3 = StreamingBufferAppendRaw(&sb, (const uint8_t *)"CCCCCCCC", 8);
     StreamingBufferSegment *seg4 = StreamingBufferAppendRaw(&sb, (const uint8_t *)"DDDDDDDD", 8);
     FAIL_IF(sb.stream_offset != 0);
     FAIL_IF(sb.buf_offset != 32);
     FAIL_IF(seg1->stream_offset != 0);
     FAIL_IF(seg2->stream_offset != 8);
     FAIL_IF(seg3->stream_offset != 16);
     FAIL_IF(seg4->stream_offset != 24);
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(&sb,seg1));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(&sb,seg2));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(&sb,seg3));
     FAIL_IF(StreamingBufferSegmentIsBeforeWindow(&sb,seg4));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(&sb,seg1,(const uint8_t *)"AAAAAAAA", 8));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(&sb,seg2,(const uint8_t *)"BBBBBBBB", 8));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(&sb,seg3,(const uint8_t *)"CCCCCCCC", 8));
     FAIL_IF(!StreamingBufferSegmentCompareRawData(&sb,seg4,(const uint8_t *)"DDDDDDDD", 8));
     Dump(&sb);
     FAIL_IF_NOT(sb.head == RB_MIN(SBB, &sb.sbb_tree));
     StreamingBufferSegment *seg5 = StreamingBufferAppendRaw(&sb, (const uint8_t *)"EEEEEEEE", 8);
     FAIL_IF(!StreamingBufferSegmentCompareRawData(&sb,seg5,(const uint8_t *)"EEEEEEEE", 8));
     Dump(&sb);
     FAIL_IF_NOT(sb.head == RB_MIN(SBB, &sb.sbb_tree));

     SCFree(seg1);
     SCFree(seg2);
     SCFree(seg3);
     SCFree(seg4);
     SCFree(seg5);
     StreamingBufferClear(&sb);
     PASS;
 }

 /** \test lots of gaps in block list */
 static int StreamingBufferTest06(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferAppend(sb, &seg1, (const uint8_t *)"A", 1) != 0);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"C", 1, 2) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"F", 1, 5) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg4;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg4, (const uint8_t *)"H", 1, 7) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg5;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg5, (const uint8_t *)"ABCDEFGHIJ", 10, 0) != 0);
     Dump(sb);
     StreamingBufferBlock *sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg6;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg6, (const uint8_t *)"abcdefghij", 10, 0) != 0);
     Dump(sb);
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferFree(sb);
     PASS;
 }

 /** \test lots of gaps in block list */
 static int StreamingBufferTest07(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg1, (const uint8_t *)"B", 1, 1) != 0);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"D", 1, 3) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"F", 1, 5) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg4;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg4, (const uint8_t *)"H", 1, 7) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg5;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg5, (const uint8_t *)"ABCDEFGHIJ", 10, 0) != 0);
     Dump(sb);
     StreamingBufferBlock *sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg6;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg6, (const uint8_t *)"abcdefghij", 10, 0) != 0);
     Dump(sb);
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferFree(sb);
     PASS;
 }

 /** \test lots of gaps in block list */
 static int StreamingBufferTest08(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg1, (const uint8_t *)"B", 1, 1) != 0);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"D", 1, 3) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"F", 1, 5) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg4;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg4, (const uint8_t *)"H", 1, 7) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg5;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg5, (const uint8_t *)"ABCDEFGHIJ", 10, 0) != 0);
     Dump(sb);
     StreamingBufferBlock *sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg6;
     FAIL_IF(StreamingBufferAppend(sb, &seg6, (const uint8_t *)"abcdefghij", 10) != 0);
     Dump(sb);
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 20);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferFree(sb);
     PASS;
 }

 /** \test lots of gaps in block list */
 static int StreamingBufferTest09(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg1, (const uint8_t *)"B", 1, 1) != 0);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"D", 1, 3) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"H", 1, 7) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg4;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg4, (const uint8_t *)"F", 1, 5) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg5;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg5, (const uint8_t *)"ABCDEFGHIJ", 10, 0) != 0);
     Dump(sb);
     StreamingBufferBlock *sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg6;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg6, (const uint8_t *)"abcdefghij", 10, 0) != 0);
     Dump(sb);
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferFree(sb);
     PASS;
 }

 /** \test lots of gaps in block list */
 static int StreamingBufferTest10(void)
 {
     StreamingBufferConfig cfg = { 0, 8, 16, NULL, NULL, NULL, NULL };
     StreamingBuffer *sb = StreamingBufferInit(&cfg);
     FAIL_IF(sb == NULL);

     StreamingBufferSegment seg1;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg1, (const uint8_t *)"A", 1, 0) != 0);
     Dump(sb);
     StreamingBufferSegment seg2;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg2, (const uint8_t *)"D", 1, 3) != 0);
     Dump(sb);
     StreamingBufferSegment seg3;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg3, (const uint8_t *)"H", 1, 7) != 0);
     Dump(sb);

     StreamingBufferSegment seg4;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg4, (const uint8_t *)"B", 1, 1) != 0);
     Dump(sb);
     StreamingBufferSegment seg5;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg5, (const uint8_t *)"C", 1, 2) != 0);
     Dump(sb);
     StreamingBufferSegment seg6;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg6, (const uint8_t *)"G", 1, 6) != 0);
     Dump(sb);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));

     StreamingBufferSegment seg7;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg7, (const uint8_t *)"ABCDEFGHIJ", 10, 0) != 0);
     Dump(sb);
     StreamingBufferBlock *sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));

     StreamingBufferSegment seg8;
     FAIL_IF(StreamingBufferInsertAt(sb, &seg8, (const uint8_t *)"abcdefghij", 10, 0) != 0);
     Dump(sb);
     sbb1 = RB_MIN(SBB, &sb->sbb_tree);
     FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree));
     FAIL_IF_NULL(sbb1);
     FAIL_IF(sbb1->offset != 0);
     FAIL_IF(sbb1->len != 10);
     FAIL_IF(SBB_RB_NEXT(sbb1));

     StreamingBufferFree(sb);
     PASS;
 }

 #endif

 void StreamingBufferRegisterTests(void)
 {
 #ifdef UNITTESTS
     UtRegisterTest("StreamingBufferTest01", StreamingBufferTest01);
     UtRegisterTest("StreamingBufferTest02", StreamingBufferTest02);
     UtRegisterTest("StreamingBufferTest03", StreamingBufferTest03);
     UtRegisterTest("StreamingBufferTest04", StreamingBufferTest04);
     UtRegisterTest("StreamingBufferTest05", StreamingBufferTest05);
     UtRegisterTest("StreamingBufferTest06", StreamingBufferTest06);
     UtRegisterTest("StreamingBufferTest07", StreamingBufferTest07);
     UtRegisterTest("StreamingBufferTest08", StreamingBufferTest08);
     UtRegisterTest("StreamingBufferTest09", StreamingBufferTest09);
     UtRegisterTest("StreamingBufferTest10", StreamingBufferTest10);
 #endif
 }
RB_ROOT
#define RB_ROOT(head)
Definition: tree.h:328

StreamingBufferBlock::offset
uint64_t offset
Definition: util-streaming-buffer.h:83

STREAMING_BUFFER_INITIALIZER
#define STREAMING_BUFFER_INITIALIZER(cfg)
Definition: util-streaming-buffer.h:111

StreamingBufferCompareRawData
int StreamingBufferCompareRawData(const StreamingBuffer *sb, const uint8_t *rawdata, uint32_t rawdata_len)
Definition: util-streaming-buffer.c:889

SCLogDebug
#define SCLogDebug(...)
Definition: util-debug.h:335

RB_GENERATE
RB_GENERATE(SBB, StreamingBufferBlock, rb, SBBCompare)

StreamingBuffer_::buf
uint8_t * buf
Definition: util-streaming-buffer.h:99

StreamingBufferInit
StreamingBuffer * StreamingBufferInit(const StreamingBufferConfig *cfg)
Definition: util-streaming-buffer.c:112

StreamingBufferSBBGetData
void StreamingBufferSBBGetData(const StreamingBuffer *sb, const StreamingBufferBlock *sbb, const uint8_t **data, uint32_t *data_len)
get the data for one SBB
Definition: util-streaming-buffer.c:743

next
struct HtpBodyChunk_ * next
Definition: app-layer-htp.h:587

STREAMING_BUFFER_AUTOSLIDE
#define STREAMING_BUFFER_AUTOSLIDE
Definition: util-streaming-buffer.h:65

BUG_ON
#define BUG_ON(x)
Definition: suricata-common.h:265

REALLOC
#define REALLOC(cfg, ptr, orig_s, s)
Definition: util-streaming-buffer.c:38

RB_FOREACH
#define RB_FOREACH(x, name, head)
Definition: tree.h:783

PASS
#define PASS
Pass the test.
Definition: util-unittest.h:105

StreamingBufferConfig_
Definition: util-streaming-buffer.h:67

FREE
#define FREE(cfg, ptr, s)
Definition: util-streaming-buffer.c:40

StreamingBufferGetDataAtOffset
int StreamingBufferGetDataAtOffset(const StreamingBuffer *sb, const uint8_t **data, uint32_t *data_len, uint64_t offset)
Definition: util-streaming-buffer.c:866

StreamingBufferSBBGetDataAtOffset
void StreamingBufferSBBGetDataAtOffset(const StreamingBuffer *sb, const StreamingBufferBlock *sbb, const uint8_t **data, uint32_t *data_len, uint64_t offset)
get the data for one SBB
Definition: util-streaming-buffer.c:769

RB_FOREACH_FROM
#define RB_FOREACH_FROM(x, name, y)
Definition: tree.h:788

SBBCompare
int SBBCompare(struct StreamingBufferBlock *a, struct StreamingBufferBlock *b)
Definition: util-streaming-buffer.c:47

offset
uint64_t offset
Definition: util-streaming-buffer.h:1478

FAIL_IF
#define FAIL_IF(expr)
Fail a test if expression evaluates to false.
Definition: util-unittest.h:71

StreamingBufferClear
void StreamingBufferClear(StreamingBuffer *sb)
Definition: util-streaming-buffer.c:132

DATA_FITS
#define DATA_FITS(sb, len)
Definition: util-streaming-buffer.c:532

head
Flow * head
Definition: flow-hash.h:102

util-unittest.h

SBB_RB_FIND_INCLUSIVE
StreamingBufferBlock * SBB_RB_FIND_INCLUSIVE(struct SBB *head, StreamingBufferBlock *elm)
Definition: util-streaming-buffer.c:79

StreamingBufferRegisterTests
void StreamingBufferRegisterTests(void)
Definition: util-streaming-buffer.c:1477

StreamingBuffer_::head
StreamingBufferBlock * head
Definition: util-streaming-buffer.h:104

__attribute__
enum @34 __attribute__
DNP3 application header.
Definition: detect-engine-analyzer.c:582

CALLOC
#define CALLOC(cfg, n, s)
Definition: util-streaming-buffer.c:36

RB_LEFT
#define RB_LEFT(elm, field)
Definition: tree.h:324

StreamingBufferFree
void StreamingBufferFree(StreamingBuffer *sb)
Definition: util-streaming-buffer.c:145

StreamingBuffer_::buf_offset
uint32_t buf_offset
Definition: util-streaming-buffer.h:101

StreamingBufferAppend
int StreamingBufferAppend(StreamingBuffer *sb, StreamingBufferSegment *seg, const uint8_t *data, uint32_t data_len)
Definition: util-streaming-buffer.c:576

util-streaming-buffer.h

StreamingBuffer_
Definition: util-streaming-buffer.h:95

stream_offset
uint64_t stream_offset
Definition: util-streaming-buffer.h:95

StreamingBufferSlideToOffset
void StreamingBufferSlideToOffset(StreamingBuffer *sb, uint64_t offset)
slide to absolute offset
Definition: util-streaming-buffer.c:507

UtRegisterTest
void UtRegisterTest(const char *name, int(*TestFn)(void))
Register unit test.
Definition: util-unittest.c:103

StreamingBuffer_::stream_offset
uint64_t stream_offset
Definition: util-streaming-buffer.h:97

suricata-common.h

StreamingBuffer_::sbb_tree
struct SBB sbb_tree
Definition: util-streaming-buffer.h:103

RB_RIGHT
#define RB_RIGHT(elm, field)
Definition: tree.h:325

StreamingBufferGetData
int StreamingBufferGetData(const StreamingBuffer *sb, const uint8_t **data, uint32_t *data_len, uint64_t *stream_offset)
Definition: util-streaming-buffer.c:849

RB_EMPTY
#define RB_EMPTY(head)
Definition: tree.h:329

util-print.h

SCReturnInt
#define SCReturnInt(x)
Definition: util-debug.h:341

StreamingBufferSegmentGetData
void StreamingBufferSegmentGetData(const StreamingBuffer *sb, const StreamingBufferSegment *seg, const uint8_t **data, uint32_t *data_len)
Definition: util-streaming-buffer.c:802

RB_FOREACH_REVERSE_FROM
#define RB_FOREACH_REVERSE_FROM(x, name, y)
Definition: tree.h:803

RB_MIN
#define RB_MIN(name, x)
Definition: tree.h:780

StreamingBuffer_::cfg
const StreamingBufferConfig * cfg
Definition: util-streaming-buffer.h:96

StreamingBufferAppendRaw
StreamingBufferSegment * StreamingBufferAppendRaw(StreamingBuffer *sb, const uint8_t *data, uint32_t data_len)
Definition: util-streaming-buffer.c:535

StreamingBufferSlide
void StreamingBufferSlide(StreamingBuffer *sb, uint32_t slide)
Definition: util-streaming-buffer.c:522

PrintRawDataFp
void PrintRawDataFp(FILE *fp, const uint8_t *buf, uint32_t buflen)
Definition: util-print.c:141

StreamingBufferBlock
block of continues data
Definition: util-streaming-buffer.h:82

SCFree
#define SCFree(a)
Definition: util-mem.h:322

StreamingBufferBlock::len
uint32_t len
Definition: util-streaming-buffer.h:85

res
PoolThreadReserved res
Definition: stream-tcp-private.h:60

RB_FOREACH_SAFE
#define RB_FOREACH_SAFE(x, name, head, y)
Definition: tree.h:793

StreamingBufferInsertAt
int StreamingBufferInsertAt(StreamingBuffer *sb, StreamingBufferSegment *seg, const uint8_t *data, uint32_t data_len, uint64_t offset)
Definition: util-streaming-buffer.c:661

StreamingBufferSegmentIsBeforeWindow
int StreamingBufferSegmentIsBeforeWindow(const StreamingBuffer *sb, const StreamingBufferSegment *seg)
Definition: util-streaming-buffer.c:731

util-validate.h

StreamingBufferSegmentCompareRawData
int StreamingBufferSegmentCompareRawData(const StreamingBuffer *sb, const StreamingBufferSegment *seg, const uint8_t *rawdata, uint32_t rawdata_len)
Definition: util-streaming-buffer.c:833

StreamingBufferAppendNoTrack
int StreamingBufferAppendNoTrack(StreamingBuffer *sb, const uint8_t *data, uint32_t data_len)
add data w/o tracking a segment
Definition: util-streaming-buffer.c:619

StreamingBufferConfig_::buf_slide
uint32_t buf_slide
Definition: util-streaming-buffer.h:69

FAIL_IF_NULL
#define FAIL_IF_NULL(expr)
Fail a test if expression evaluates to NULL.
Definition: util-unittest.h:89

StreamingBufferConfig_::buf_size
uint32_t buf_size
Definition: util-streaming-buffer.h:70

StreamingBuffer_::buf_size
uint32_t buf_size
Definition: util-streaming-buffer.h:100

len
uint8_t len
Definition: app-layer-dnp3.h:2649

likely
#define likely(expr)
Definition: util-optimize.h:32

StreamingBufferConfig_::flags
uint32_t flags
Definition: util-streaming-buffer.h:68

segment_len
uint32_t segment_len
Definition: util-streaming-buffer.h:94

DATA_FITS_AT_OFFSET
#define DATA_FITS_AT_OFFSET(sb, len, offset)
Definition: util-streaming-buffer.c:655

FAIL_IF_NOT
#define FAIL_IF_NOT(expr)
Fail a test if expression to true.
Definition: util-unittest.h:82

DEBUG_VALIDATE_BUG_ON
#define DEBUG_VALIDATE_BUG_ON(exp)
Definition: util-validate.h:111