/* Copyright (C) 2015-2023 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" #include "util-debug.h" #include "util-error.h" static void ListRegions(StreamingBuffer *sb); #define DUMP_REGIONS 0 // set to 1 to dump a visual representation of the regions list and sbb tree. /** * \file * * \author Victor Julien * * \brief Streaming Buffer API */ static void *ReallocFunc(void *ptr, const size_t size) { void *ptrmem = SCRealloc(ptr, size); if (unlikely(ptrmem == NULL)) { sc_errno = SC_ENOMEM; } return ptrmem; } static void *CallocFunc(const size_t nm, const size_t sz) { void *ptrmem = SCCalloc(nm, sz); if (unlikely(ptrmem == NULL)) { sc_errno = SC_ENOMEM; } return ptrmem; } /* memory handling wrappers. If config doesn't define it's own set of * functions, use the defaults */ // TODO the default allocators don't set `sc_errno` yet. #define CALLOC(cfg, n, s) (cfg)->Calloc ? (cfg)->Calloc((n), (s)) : CallocFunc((n), (s)) #define REALLOC(cfg, ptr, orig_s, s) \ (cfg)->Realloc ? (cfg)->Realloc((ptr), (orig_s), (s)) : ReallocFunc((ptr), (s)) #define FREE(cfg, ptr, s) \ (cfg)->Free ? (cfg)->Free((ptr), (s)) : SCFree((ptr)) static void SBBFree(StreamingBuffer *sb, const StreamingBufferConfig *cfg); 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 (lookup->offset < tre && 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; } /** \interal * \brief does data region intersect with list region 'r' * Takes the max gap into account. */ static inline bool RegionsIntersect(const StreamingBuffer *sb, const StreamingBufferConfig *cfg, const StreamingBufferRegion *r, const uint64_t offset, const uint64_t re) { /* create the data range for the region, adding the max gap */ const uint64_t reg_o = r->stream_offset > cfg->region_gap ? (r->stream_offset - cfg->region_gap) : 0; const uint64_t reg_re = r->stream_offset + r->buf_size + cfg->region_gap; SCLogDebug("r %p: %" PRIu64 "/%" PRIu64 " - adjusted %" PRIu64 "/%" PRIu64, r, r->stream_offset, r->stream_offset + r->buf_size, reg_o, reg_re); /* check if data range intersects with region range */ if (offset >= reg_o && offset <= reg_re) { SCLogDebug("r %p is in-scope", r); return true; } if (re >= reg_o && re <= reg_re) { SCLogDebug("r %p is in-scope: %" PRIu64 " >= %" PRIu64 " && %" PRIu64 " <= %" PRIu64, r, re, reg_o, re, reg_re); return true; } SCLogDebug("r %p is out of scope: %" PRIu64 "/%" PRIu64, r, offset, re); return false; } /** \internal * \brief find the first region for merging. */ static StreamingBufferRegion *FindFirstRegionForOffset(const StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *r, const uint64_t offset, const uint32_t len, StreamingBufferRegion **prev) { const uint64_t data_re = offset + len; SCLogDebug("looking for first region matching %" PRIu64 "/%" PRIu64, offset, data_re); StreamingBufferRegion *p = NULL; for (; r != NULL; r = r->next) { if (RegionsIntersect(sb, cfg, r, offset, data_re) == true) { *prev = p; return r; } p = r; } *prev = NULL; return NULL; } static StreamingBufferRegion *FindLargestRegionForOffset(const StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *r, const uint64_t offset, const uint32_t len) { const uint64_t data_re = offset + len; SCLogDebug("starting at %p/%" PRIu64 ", offset %" PRIu64 ", data_re %" PRIu64, r, r->stream_offset, offset, data_re); StreamingBufferRegion *candidate = r; for (; r != NULL; r = r->next) { #ifdef DEBUG const uint64_t reg_re = r->stream_offset + r->buf_size; SCLogDebug("checking: %p/%" PRIu64 "/%" PRIu64 ", offset %" PRIu64 "/%" PRIu64, r, r->stream_offset, reg_re, offset, data_re); #endif if (!RegionsIntersect(sb, cfg, r, offset, data_re)) return candidate; if (r->buf_size > candidate->buf_size) { SCLogDebug("candidate %p as size %u > %u", candidate, r->buf_size, candidate->buf_size); candidate = r; } } return candidate; } static StreamingBufferRegion *FindRightEdge(const StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *r, const uint64_t offset, const uint32_t len) { const uint64_t data_re = offset + len; StreamingBufferRegion *candidate = r; for (; r != NULL; r = r->next) { if (!RegionsIntersect(sb, cfg, r, offset, data_re)) { SCLogDebug( "r %p is out of scope: %" PRIu64 "/%u/%" PRIu64, r, offset, len, offset + len); return candidate; } candidate = r; } return candidate; } /** \note uses sc_errno to give error details */ static inline StreamingBufferRegion *InitBufferRegion( StreamingBuffer *sb, const StreamingBufferConfig *cfg, const uint32_t min_size) { if (sb->regions == USHRT_MAX || (cfg->max_regions != 0 && sb->regions >= cfg->max_regions)) { SCLogDebug("max regions reached"); sc_errno = SC_ELIMIT; return NULL; } StreamingBufferRegion *aux_r = CALLOC(cfg, 1, sizeof(*aux_r)); if (aux_r == NULL) { return NULL; } aux_r->buf = CALLOC(cfg, 1, MAX(cfg->buf_size, min_size)); if (aux_r->buf == NULL) { FREE(cfg, aux_r, sizeof(*aux_r)); return NULL; } aux_r->buf_size = MAX(cfg->buf_size, min_size); sb->regions++; sb->max_regions = MAX(sb->regions, sb->max_regions); return aux_r; } static inline int InitBuffer(StreamingBuffer *sb, const StreamingBufferConfig *cfg) { sb->region.buf = CALLOC(cfg, 1, cfg->buf_size); if (sb->region.buf == NULL) { return sc_errno; } sb->region.buf_size = cfg->buf_size; return SC_OK; } StreamingBuffer *StreamingBufferInit(const StreamingBufferConfig *cfg) { StreamingBuffer *sb = CALLOC(cfg, 1, sizeof(StreamingBuffer)); if (sb == NULL) { return NULL; } sb->region.buf_size = cfg->buf_size; sb->regions = sb->max_regions = 1; if (cfg->buf_size == 0) { return sb; } int r = InitBuffer(sb, cfg); if (r != SC_OK) { FREE(cfg, sb, sizeof(StreamingBuffer)); sc_errno = r; return NULL; } return sb; } void StreamingBufferClear(StreamingBuffer *sb, const StreamingBufferConfig *cfg) { if (sb != NULL) { SCLogDebug("sb->region.buf_size %u max %u", sb->region.buf_size, sb->buf_size_max); SBBFree(sb, cfg); ListRegions(sb); if (sb->region.buf != NULL) { FREE(cfg, sb->region.buf, sb->region.buf_size); sb->region.buf = NULL; } for (StreamingBufferRegion *r = sb->region.next; r != NULL;) { StreamingBufferRegion *next = r->next; FREE(cfg, r->buf, r->buf_size); FREE(cfg, r, sizeof(*r)); r = next; } sb->region.next = NULL; sb->regions = sb->max_regions = 1; } } void StreamingBufferFree(StreamingBuffer *sb, const StreamingBufferConfig *cfg) { if (sb != NULL) { StreamingBufferClear(sb, cfg); FREE(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 int WARN_UNUSED SBBInit(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *region, uint32_t rel_offset, uint32_t data_len) { DEBUG_VALIDATE_BUG_ON(!RB_EMPTY(&sb->sbb_tree)); DEBUG_VALIDATE_BUG_ON(region->buf_offset > region->stream_offset + rel_offset); /* need to set up 2: existing data block and new data block */ StreamingBufferBlock *sbb = CALLOC(cfg, 1, sizeof(*sbb)); if (sbb == NULL) { return sc_errno; } sbb->offset = sb->region.stream_offset; sbb->len = sb->region.buf_offset; (void)SBB_RB_INSERT(&sb->sbb_tree, sbb); sb->head = sbb; sb->sbb_size = sbb->len; StreamingBufferBlock *sbb2 = CALLOC(cfg, 1, sizeof(*sbb2)); if (sbb2 == NULL) { return sc_errno; } sbb2->offset = region->stream_offset + rel_offset; sbb2->len = data_len; DEBUG_VALIDATE_BUG_ON(sbb2->offset < sbb->len); SCLogDebug("sbb1 %" PRIu64 ", len %u, sbb2 %" PRIu64 ", len %u", sbb->offset, sbb->len, sbb2->offset, sbb2->len); sb->sbb_size += sbb2->len; if (SBB_RB_INSERT(&sb->sbb_tree, sbb2) != NULL) { FREE(cfg, sbb2, sizeof(*sbb2)); return SC_EINVAL; } #ifdef DEBUG SBBPrintList(sb); #endif return SC_OK; } /* setup with leading gap * * [gap][block] **/ static int WARN_UNUSED SBBInitLeadingGap(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *region, uint64_t offset, uint32_t data_len) { DEBUG_VALIDATE_BUG_ON(!RB_EMPTY(&sb->sbb_tree)); StreamingBufferBlock *sbb = CALLOC(cfg, 1, sizeof(*sbb)); if (sbb == NULL) { return sc_errno; } sbb->offset = offset; sbb->len = data_len; sb->head = sbb; sb->sbb_size = sbb->len; (void)SBB_RB_INSERT(&sb->sbb_tree, sbb); SCLogDebug("sbb %" PRIu64 ", len %u", sbb->offset, sbb->len); #ifdef DEBUG SBBPrintList(sb); #endif return SC_OK; } static inline void ConsolidateFwd(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *region, 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) { SCLogDebug("entirely before: %" PRIu64 " < %" PRIu64, sa_re, tr->offset); break; // entirely before } /* new block (sa) entirely eclipsed by in tree block (tr) sa: [ ] tr: [ ] sa: [ ] tr: [ ] sa: [ ] tr: [ ] */ if (sa->offset >= tr->offset && sa_re <= tr_re) { sb->sbb_size -= sa->len; sa->len = tr->len; sa->offset = tr->offset; sa_re = sa->offset + sa->len; SCLogDebug("-> (fwd) tr %p %" PRIu64 "/%u REMOVED ECLIPSED (sa overlapped by tr)", tr, tr->offset, tr->len); SBB_RB_REMOVE(tree, tr); FREE(cfg, tr, sizeof(StreamingBufferBlock)); /* new block (sa) entire eclipses in tree block (tr) 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 overlapped by sa)", tr, tr->offset, tr->len); SBB_RB_REMOVE(tree, tr); sb->sbb_size -= tr->len; FREE(cfg, tr, sizeof(StreamingBufferBlock)); SCLogDebug("-> (fwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); if (sa->offset == region->stream_offset && sa_re > (region->stream_offset + region->buf_offset)) { DEBUG_VALIDATE_BUG_ON(sa_re < region->stream_offset); region->buf_offset = sa_re - region->stream_offset; SCLogDebug("-> (fwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u BUF_OFFSET UPDATED", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); } /* new block (sa) extended by in tree block (tr) sa: [ ] tr: [ ] sa: [ ] tr: [ ] */ } else if (sa->offset < tr->offset && // starts before sa_re >= tr->offset && sa_re < tr_re) // ends inside { // merge. sb->sbb_size includes both so we need to adjust that too. uint32_t combined_len = sa->len + tr->len; 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); sb->sbb_size -= (combined_len - sa->len); // remove what we added twice FREE(cfg, tr, sizeof(StreamingBufferBlock)); SCLogDebug("-> (fwd) tr %p %" PRIu64 "/%u RESULT", sa, sa->offset, sa->len); SCLogDebug("-> (fwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); if (sa->offset == region->stream_offset && sa_re > (region->stream_offset + region->buf_offset)) { DEBUG_VALIDATE_BUG_ON(sa_re < region->stream_offset); region->buf_offset = sa_re - region->stream_offset; SCLogDebug("-> (fwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u BUF_OFFSET UPDATED", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); } } } } static inline void ConsolidateBackward(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *region, 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 /* new block (sa) entirely eclipsed by in tree block (tr) sa: [ ] tr: [ ] sa: [ ] tr: [ ] sa: [ ] tr: [ ] */ if (sa->offset >= tr->offset && sa_re <= tr_re) { sb->sbb_size -= sa->len; // sa entirely eclipsed so remove double accounting sa->len = tr->len; sa->offset = tr->offset; sa_re = sa->offset + sa->len; SCLogDebug("-> (bwd) tr %p %" PRIu64 "/%u REMOVED ECLIPSED (sa overlapped by tr)", tr, tr->offset, tr->len); if (sb->head == tr) sb->head = sa; SBB_RB_REMOVE(tree, tr); FREE(cfg, tr, sizeof(StreamingBufferBlock)); /* new block (sa) entire eclipses in tree block (tr) 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 overlapped by sa)", tr, tr->offset, tr->len); if (sb->head == tr) sb->head = sa; SBB_RB_REMOVE(tree, tr); sb->sbb_size -= tr->len; // tr entirely eclipsed so remove double accounting FREE(cfg, tr, sizeof(StreamingBufferBlock)); SCLogDebug("-> (bwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); if (sa->offset == region->stream_offset && sa_re > (region->stream_offset + region->buf_offset)) { DEBUG_VALIDATE_BUG_ON(sa_re < region->stream_offset); region->buf_offset = sa_re - region->stream_offset; SCLogDebug("-> (bwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u BUF_OFFSET UPDATED", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); } /* new block (sa) extends in tree block (tr) sa: [ ] tr: [ ] sa: [ ] tr: [ ] */ } else if (sa->offset > tr->offset && sa_re > tr_re && sa->offset <= tr_re) { // merge. sb->sbb_size includes both so we need to adjust that too. uint32_t combined_len = sa->len + tr->len; 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); sb->sbb_size -= (combined_len - sa->len); // remove what we added twice FREE(cfg, tr, sizeof(StreamingBufferBlock)); SCLogDebug("-> (bwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); if (sa->offset == region->stream_offset && sa_re > (region->stream_offset + region->buf_offset)) { DEBUG_VALIDATE_BUG_ON(sa_re < region->stream_offset); region->buf_offset = sa_re - region->stream_offset; SCLogDebug("-> (bwd) tr %p %" PRIu64 "/%u region %p so %" PRIu64 " bo %u sz %u BUF_OFFSET UPDATED", sa, sa->offset, sa->len, region, region->stream_offset, region->buf_offset, region->buf_size); } } } } /** \internal * \param region the region that holds the new data */ static int SBBUpdate(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *region, uint32_t rel_offset, uint32_t len) { struct SBB *tree = &sb->sbb_tree; SCLogDebug("* inserting: %u/%u", rel_offset, len); StreamingBufferBlock *sbb = CALLOC(cfg, 1, sizeof(*sbb)); if (sbb == NULL) { return sc_errno; } sbb->offset = region->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(cfg, sbb, sizeof(StreamingBufferBlock)); return SC_OK; } sb->sbb_size += len; // may adjust based on consolidation below /* handle backwards and forwards overlaps */ if (SBB_RB_PREV(sbb) == NULL) { sb->head = sbb; } else { ConsolidateBackward(sb, cfg, region, tree, sbb); } ConsolidateFwd(sb, cfg, region, tree, sbb); #ifdef DEBUG SBBPrintList(sb); #endif if (sbb->offset == region->stream_offset) { SCLogDebug("insert at region head"); region->buf_offset = sbb->len; } return SC_OK; } static void SBBFree(StreamingBuffer *sb, const StreamingBufferConfig *cfg) { StreamingBufferBlock *sbb = NULL, *safe = NULL; RB_FOREACH_SAFE(sbb, SBB, &sb->sbb_tree, safe) { SBB_RB_REMOVE(&sb->sbb_tree, sbb); sb->sbb_size -= sbb->len; FREE(cfg, sbb, sizeof(StreamingBufferBlock)); } sb->head = NULL; } static void SBBPrune(StreamingBuffer *sb, const StreamingBufferConfig *cfg) { SCLogDebug("pruning %p to %" PRIu64, sb, sb->region.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->region.stream_offset) { sb->head = sbb; if (sbb->offset == sb->region.stream_offset) { SCLogDebug("set buf_offset?"); if (sbb->offset == sb->region.stream_offset) { SCLogDebug("set buf_offset to first sbb len %u", sbb->len); DEBUG_VALIDATE_BUG_ON(sbb->len > sb->region.buf_size); sb->region.buf_offset = sbb->len; } } break; } /* partly before, partly beyond. Adjust */ if (sbb->offset < sb->region.stream_offset && sbb->offset + sbb->len > sb->region.stream_offset) { uint32_t shrink_by = sb->region.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; sb->sbb_size -= shrink_by; SCLogDebug("shrunk by %u", shrink_by); DEBUG_VALIDATE_BUG_ON(sbb->offset != sb->region.stream_offset); } sb->head = sbb; if (sbb->offset == sb->region.stream_offset) { SCLogDebug("set buf_offset to first sbb len %u", sbb->len); DEBUG_VALIDATE_BUG_ON(sbb->len > sb->region.buf_size); sb->region.buf_offset = sbb->len; } 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; sb->sbb_size -= sbb->len; SCLogDebug("sb %p removed %p %" PRIu64 ", %u", sb, sbb, sbb->offset, sbb->len); FREE(cfg, sbb, sizeof(StreamingBufferBlock)); } #ifdef DEBUG SBBPrintList(sb); #endif } static inline uint32_t ToNextMultipleOf(const uint32_t in, const uint32_t m) { uint32_t r = in; if (m > 0) { const uint32_t x = in % m; if (x != 0) { r = (in - x) + m; } } return r; } static thread_local bool g2s_warn_once = false; static inline int WARN_UNUSED GrowRegionToSize(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *region, const uint32_t size) { DEBUG_VALIDATE_BUG_ON(region->buf_size > BIT_U32(30)); if (size > BIT_U32(30)) { // 1GiB if (!g2s_warn_once) { SCLogWarning("StreamingBuffer::GrowRegionToSize() tried to alloc %u bytes, exceeds " "limit of %lu", size, BIT_U32(30)); g2s_warn_once = true; } return SC_ELIMIT; } /* try to grow in multiples of cfg->buf_size */ const uint32_t grow = ToNextMultipleOf(size, cfg->buf_size); SCLogDebug("grow %u", grow); void *ptr = REALLOC(cfg, region->buf, region->buf_size, grow); if (ptr == NULL) { return sc_errno; } /* for safe printing and general caution, lets memset the * new data to 0 */ size_t diff = grow - region->buf_size; void *new_mem = ((char *)ptr) + region->buf_size; memset(new_mem, 0, diff); region->buf = ptr; region->buf_size = grow; SCLogDebug("grown buffer to %u", grow); #ifdef DEBUG if (region->buf_size > sb->buf_size_max) { sb->buf_size_max = region->buf_size; } #endif return SC_OK; } static int WARN_UNUSED GrowToSize( StreamingBuffer *sb, const StreamingBufferConfig *cfg, uint32_t size) { return GrowRegionToSize(sb, cfg, &sb->region, size); } static inline bool RegionBeforeOffset(const StreamingBufferRegion *r, const uint64_t o) { return (r->stream_offset + r->buf_size <= o); } static inline bool RegionContainsOffset(const StreamingBufferRegion *r, const uint64_t o) { return (o >= r->stream_offset && (r->stream_offset + r->buf_size) >= o); } /** \internal * \brief slide to offset for regions * * * [ main ] [ gap ] [ aux ] [ gap ] [ aux ] * ^ * - main reset to 0 * * * [ main ] [ gap ] [ aux ] [ gap ] [ aux ] * ^ * - main shift * * [ main ] [ gap ] [ aux ] [ gap ] [ aux ] * ^ * - main reset * - move aux into main * - free aux * - shift * * [ main ] [ gap ] [ aux ] [ gap ] [ aux ] * ^ * - main reset * - move aux into main * - free aux * - no shift */ static inline void StreamingBufferSlideToOffsetWithRegions( StreamingBuffer *sb, const StreamingBufferConfig *cfg, const uint64_t slide_offset) { ListRegions(sb); DEBUG_VALIDATE_BUG_ON(slide_offset == sb->region.stream_offset); SCLogDebug("slide_offset %" PRIu64, slide_offset); SCLogDebug("main: offset %" PRIu64 " buf %p size %u offset %u", sb->region.stream_offset, sb->region.buf, sb->region.buf_size, sb->region.buf_offset); StreamingBufferRegion *to_shift = NULL; const bool main_is_oow = RegionBeforeOffset(&sb->region, slide_offset); if (main_is_oow) { SCLogDebug("main_is_oow"); if (sb->region.buf != NULL) { SCLogDebug("clearing main"); FREE(cfg, sb->region.buf, sb->region.buf_size); sb->region.buf = NULL; sb->region.buf_size = 0; sb->region.buf_offset = 0; sb->region.stream_offset = slide_offset; } else { sb->region.stream_offset = slide_offset; } /* remove regions that are out of window & select the region to * become the new main */ StreamingBufferRegion *prev = &sb->region; for (StreamingBufferRegion *r = sb->region.next; r != NULL;) { SCLogDebug("r %p so %" PRIu64 ", re %" PRIu64, r, r->stream_offset, r->stream_offset + r->buf_offset); StreamingBufferRegion *next = r->next; if (RegionBeforeOffset(r, slide_offset)) { SCLogDebug("r %p so %" PRIu64 ", re %" PRIu64 " -> before", r, r->stream_offset, r->stream_offset + r->buf_offset); DEBUG_VALIDATE_BUG_ON(r == &sb->region); prev->next = next; FREE(cfg, r->buf, r->buf_size); FREE(cfg, r, sizeof(*r)); sb->regions--; DEBUG_VALIDATE_BUG_ON(sb->regions == 0); } else if (RegionContainsOffset(r, slide_offset)) { SCLogDebug("r %p so %" PRIu64 ", re %" PRIu64 " -> within", r, r->stream_offset, r->stream_offset + r->buf_offset); /* remove from list, we will xfer contents to main below */ prev->next = next; to_shift = r; break; } else { SCLogDebug("r %p so %" PRIu64 ", re %" PRIu64 " -> post", r, r->stream_offset, r->stream_offset + r->buf_offset); /* implied beyond slide offset */ DEBUG_VALIDATE_BUG_ON(r->stream_offset < slide_offset); break; } r = next; } SCLogDebug("to_shift %p", to_shift); // this region is main, or will xfer its buffer to main if (to_shift && to_shift != &sb->region) { SCLogDebug("main: offset %" PRIu64 " buf %p size %u offset %u", to_shift->stream_offset, to_shift->buf, to_shift->buf_size, to_shift->buf_offset); DEBUG_VALIDATE_BUG_ON(sb->region.buf != NULL); sb->region.buf = to_shift->buf; sb->region.stream_offset = to_shift->stream_offset; sb->region.buf_offset = to_shift->buf_offset; sb->region.buf_size = to_shift->buf_size; sb->region.next = to_shift->next; BUG_ON(to_shift == &sb->region); FREE(cfg, to_shift, sizeof(*to_shift)); to_shift = &sb->region; sb->regions--; DEBUG_VALIDATE_BUG_ON(sb->regions == 0); } } else { to_shift = &sb->region; SCLogDebug("shift start region %p", to_shift); } // this region is main, or will xfer its buffer to main if (to_shift) { // Do the shift. If new region is exactly at the slide offset we can skip this. DEBUG_VALIDATE_BUG_ON(to_shift->stream_offset > slide_offset); const uint32_t s = slide_offset - to_shift->stream_offset; if (s > 0) { const uint32_t new_data_size = to_shift->buf_size - s; uint32_t new_mem_size = ToNextMultipleOf(new_data_size, cfg->buf_size); /* see if after the slide we'd overlap with the next region. If so, we need * to consolidate them into one. Error handling is a bit peculiar. We need * to grow a region, move data from another region into it, then free the * other region. This could fail if we're close to the memcap. In this case * we relax our rounding up logic so we only shrink and don't merge the 2 * regions after all. */ if (to_shift->next && slide_offset + new_mem_size >= to_shift->next->stream_offset) { StreamingBufferRegion *start = to_shift; StreamingBufferRegion *next = start->next; const uint64_t next_re = next->stream_offset + next->buf_size; const uint32_t mem_size = ToNextMultipleOf(next_re - slide_offset, cfg->buf_size); /* using next as the new main */ if (start->buf_size < next->buf_size) { SCLogDebug("replace main with the next bigger region"); const uint32_t next_data_offset = next->stream_offset - slide_offset; const uint32_t prev_buf_size = next->buf_size; const uint32_t start_data_offset = slide_offset - start->stream_offset; DEBUG_VALIDATE_BUG_ON(start_data_offset > start->buf_size); if (start_data_offset > start->buf_size) { new_mem_size = new_data_size; goto just_main; } /* expand "next" to include relevant part of "start" */ if (GrowRegionToSize(sb, cfg, next, mem_size) != 0) { new_mem_size = new_data_size; goto just_main; } SCLogDebug("region now sized %u", mem_size); // slide "next": // pre-grow: [nextnextnext] // post-grow [nextnextnextXXX] // post-move [XXXnextnextnext] memmove(next->buf + next_data_offset, next->buf, prev_buf_size); // move portion of "start" into "next" // // start: [ooooookkkkk] (o: old, k: keep) // pre-next [xxxxxnextnextnext] // post-next [kkkkknextnextnext] const uint32_t start_data_size = start->buf_size - start_data_offset; memcpy(next->buf, start->buf + start_data_offset, start_data_size); // free "start"s buffer, we will use the one from "next" FREE(cfg, start->buf, start->buf_size); // update "main" to use "next" start->stream_offset = slide_offset; start->buf = next->buf; start->buf_size = next->buf_size; start->next = next->next; // free "next" FREE(cfg, next, sizeof(*next)); sb->regions--; DEBUG_VALIDATE_BUG_ON(sb->regions == 0); goto done; } else { /* using "main", expand to include "next" */ if (GrowRegionToSize(sb, cfg, start, mem_size) != 0) { new_mem_size = new_data_size; goto just_main; } SCLogDebug("start->buf now size %u", mem_size); // slide "start" // pre: [xxxxxxxAAA] // post: [AAAxxxxxxx] SCLogDebug("s %u new_data_size %u", s, new_data_size); memmove(start->buf, start->buf + s, new_data_size); // copy in "next" // pre: [AAAxxxxxxx] // [BBBBBBB] // post: [AAABBBBBBB] SCLogDebug("copy next->buf %p/%u to start->buf offset %u", next->buf, next->buf_size, new_data_size); memcpy(start->buf + new_data_size, next->buf, next->buf_size); start->stream_offset = slide_offset; start->next = next->next; // free "next" FREE(cfg, next->buf, next->buf_size); FREE(cfg, next, sizeof(*next)); sb->regions--; DEBUG_VALIDATE_BUG_ON(sb->regions == 0); goto done; } } just_main: SCLogDebug("s %u new_data_size %u", s, new_data_size); memmove(to_shift->buf, to_shift->buf + s, new_data_size); /* shrink memory region. If this fails we keep the old */ void *ptr = REALLOC(cfg, to_shift->buf, to_shift->buf_size, new_mem_size); if (ptr != NULL) { to_shift->buf = ptr; to_shift->buf_size = new_mem_size; SCLogDebug("new buf_size %u", to_shift->buf_size); } if (s < to_shift->buf_offset) to_shift->buf_offset -= s; else to_shift->buf_offset = 0; to_shift->stream_offset = slide_offset; } } done: SCLogDebug("main: offset %" PRIu64 " buf %p size %u offset %u", sb->region.stream_offset, sb->region.buf, sb->region.buf_size, sb->region.buf_offset); SCLogDebug("end of slide"); } /** * \brief slide to absolute offset * \todo if sliding beyond window, we could perhaps reset? */ void StreamingBufferSlideToOffset( StreamingBuffer *sb, const StreamingBufferConfig *cfg, uint64_t offset) { SCLogDebug("sliding to offset %" PRIu64, offset); ListRegions(sb); #ifdef DEBUG SBBPrintList(sb); #endif if (sb->region.next) { StreamingBufferSlideToOffsetWithRegions(sb, cfg, offset); SBBPrune(sb, cfg); SCLogDebug("post SBBPrune"); ListRegions(sb); #ifdef DEBUG SBBPrintList(sb); #endif DEBUG_VALIDATE_BUG_ON(sb->region.buf != NULL && sb->region.buf_size == 0); DEBUG_VALIDATE_BUG_ON(sb->region.buf_offset > sb->region.buf_size); DEBUG_VALIDATE_BUG_ON(offset > sb->region.stream_offset); DEBUG_VALIDATE_BUG_ON(sb->head && sb->head->offset == sb->region.stream_offset && sb->head->len > sb->region.buf_offset); DEBUG_VALIDATE_BUG_ON(sb->region.stream_offset < offset); return; } if (offset > sb->region.stream_offset) { const uint32_t slide = offset - sb->region.stream_offset; if (sb->head != NULL) { /* have sbb's, so can't rely on buf_offset for the slide */ if (slide < sb->region.buf_size) { const uint32_t size = sb->region.buf_size - slide; SCLogDebug("sliding %u forward, size of original buffer left after slide %u", slide, size); memmove(sb->region.buf, sb->region.buf + slide, size); if (sb->region.buf_offset > slide) { sb->region.buf_offset -= slide; } else { sb->region.buf_offset = 0; } } else { sb->region.buf_offset = 0; } sb->region.stream_offset = offset; } else { /* no sbb's, so we can use buf_offset */ if (offset <= sb->region.stream_offset + sb->region.buf_offset) { const uint32_t size = sb->region.buf_offset - slide; SCLogDebug("sliding %u forward, size of original buffer left after slide %u", slide, size); memmove(sb->region.buf, sb->region.buf + slide, size); sb->region.stream_offset = offset; sb->region.buf_offset = size; } else { /* moved past all data */ sb->region.stream_offset = offset; sb->region.buf_offset = 0; } } SBBPrune(sb, cfg); } #ifdef DEBUG SBBPrintList(sb); #endif DEBUG_VALIDATE_BUG_ON(sb->region.stream_offset < offset); } static int DataFits(const StreamingBuffer *sb, const uint32_t len) { uint64_t buf_offset64 = sb->region.buf_offset; uint64_t len64 = len; if (len64 + buf_offset64 > UINT32_MAX) { return -1; } return sb->region.buf_offset + len <= sb->region.buf_size; } int StreamingBufferAppend(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferSegment *seg, const uint8_t *data, uint32_t data_len) { DEBUG_VALIDATE_BUG_ON(seg == NULL); if (sb->region.buf == NULL) { if (InitBuffer(sb, cfg) == -1) return -1; } int r = DataFits(sb, data_len); if (r < 0) { DEBUG_VALIDATE_BUG_ON(1); return -1; } else if (r == 0) { if (sb->region.buf_size == 0) { if (GrowToSize(sb, cfg, data_len) != SC_OK) return -1; } else { if (GrowToSize(sb, cfg, sb->region.buf_offset + data_len) != SC_OK) return -1; } } DEBUG_VALIDATE_BUG_ON(DataFits(sb, data_len) != 1); memcpy(sb->region.buf + sb->region.buf_offset, data, data_len); seg->stream_offset = sb->region.stream_offset + sb->region.buf_offset; seg->segment_len = data_len; uint32_t rel_offset = sb->region.buf_offset; sb->region.buf_offset += data_len; if (!RB_EMPTY(&sb->sbb_tree)) { return SBBUpdate(sb, cfg, &sb->region, rel_offset, data_len); } else { return 0; } } /** * \brief add data w/o tracking a segment */ int StreamingBufferAppendNoTrack(StreamingBuffer *sb, const StreamingBufferConfig *cfg, const uint8_t *data, uint32_t data_len) { if (sb->region.buf == NULL) { if (InitBuffer(sb, cfg) == -1) return -1; } int r = DataFits(sb, data_len); if (r < 0) { DEBUG_VALIDATE_BUG_ON(1); return -1; } else if (r == 0) { if (sb->region.buf_size == 0) { if (GrowToSize(sb, cfg, data_len) != SC_OK) return -1; } else { if (GrowToSize(sb, cfg, sb->region.buf_offset + data_len) != SC_OK) return -1; } } DEBUG_VALIDATE_BUG_ON(DataFits(sb, data_len) != 1); memcpy(sb->region.buf + sb->region.buf_offset, data, data_len); uint32_t rel_offset = sb->region.buf_offset; sb->region.buf_offset += data_len; if (!RB_EMPTY(&sb->sbb_tree)) { return SBBUpdate(sb, cfg, &sb->region, rel_offset, data_len); } else { return 0; } } static int DataFitsAtOffset( const StreamingBufferRegion *region, const uint32_t len, const uint32_t offset) { const uint64_t offset64 = offset; const uint64_t len64 = len; if (offset64 + len64 > UINT32_MAX) return -1; return (offset + len <= region->buf_size); } #if defined(DEBUG) || defined(DEBUG_VALIDATION) static void Validate(const StreamingBuffer *sb) { bool bail = false; uint32_t cnt = 0; for (const StreamingBufferRegion *r = &sb->region; r != NULL; r = r->next) { cnt++; if (r->next) { bail |= ((r->stream_offset + r->buf_size) > r->next->stream_offset); } bail |= (r->buf != NULL && r->buf_size == 0); bail |= (r->buf_offset > r->buf_size); } // leading gap, so buf_offset should be 0? if (sb->head && sb->head->offset > sb->region.stream_offset) { SCLogDebug("leading gap of size %" PRIu64, sb->head->offset - sb->region.stream_offset); BUG_ON(sb->region.buf_offset != 0); } if (sb->head && sb->head->offset == sb->region.stream_offset) { BUG_ON(sb->head->len > sb->region.buf_offset); BUG_ON(sb->head->len < sb->region.buf_offset); } BUG_ON(sb->regions != cnt); BUG_ON(bail); } #endif static void ListRegions(StreamingBuffer *sb) { if (sb->region.buf == NULL && sb->region.buf_offset == 0 && sb->region.next == NULL) return; #if defined(DEBUG) && DUMP_REGIONS == 1 uint32_t cnt = 0; for (StreamingBufferRegion *r = &sb->region; r != NULL; r = r->next) { cnt++; char gap[64] = ""; if (r->next) { snprintf(gap, sizeof(gap), "[ gap:%" PRIu64 " ]", r->next->stream_offset - (r->stream_offset + r->buf_size)); } printf("[ %s offset:%" PRIu64 " size:%u offset:%u ]%s", r == &sb->region ? "main" : "aux", r->stream_offset, r->buf_size, r->buf_offset, gap); } printf("(max %u, cnt %u, sb->regions %u)\n", sb->max_regions, cnt, sb->regions); bool at_least_one = false; uint64_t last_re = sb->region.stream_offset; StreamingBufferBlock *sbb = NULL; RB_FOREACH(sbb, SBB, &sb->sbb_tree) { if (last_re != sbb->offset) { printf("[ gap:%" PRIu64 " ]", sbb->offset - last_re); } printf("[ sbb offset:%" PRIu64 " len:%u ]", sbb->offset, sbb->len); at_least_one = true; last_re = sbb->offset + sbb->len; } if (at_least_one) printf("\n"); #endif #if defined(DEBUG) || defined(DEBUG_VALIDATION) StreamingBufferBlock *sbb2 = NULL; RB_FOREACH(sbb2, SBB, &sb->sbb_tree) { const uint8_t *_data = NULL; uint32_t _data_len = 0; (void)StreamingBufferSBBGetData(sb, sbb2, &_data, &_data_len); } Validate(sb); #endif } /** \internal * \brief process insert by consolidating the affected regions into one * \note sets sc_errno */ static StreamingBufferRegion *BufferInsertAtRegionConsolidate(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferRegion *dst, StreamingBufferRegion *src_start, StreamingBufferRegion *src_end, const uint64_t data_offset, const uint32_t data_len, StreamingBufferRegion *prev, uint32_t dst_buf_size) { int retval; #ifdef DEBUG const uint64_t data_re = data_offset + data_len; SCLogDebug("sb %p dst %p src_start %p src_end %p data_offset %" PRIu64 "/data_len %u/data_re %" PRIu64, sb, dst, src_start, src_end, data_offset, data_len, data_re); #endif // 1. determine size and offset for dst. const uint64_t dst_offset = MIN(src_start->stream_offset, data_offset); DEBUG_VALIDATE_BUG_ON(dst_offset < sb->region.stream_offset); const uint32_t dst_size = dst_buf_size; SCLogDebug("dst_size %u", dst_size); // 2. resize dst const uint32_t old_size = dst->buf_size; const uint32_t dst_copy_offset = dst->stream_offset - dst_offset; #ifdef DEBUG const uint32_t old_offset = dst->buf_offset; SCLogDebug("old_size %u, old_offset %u, dst_copy_offset %u", old_size, old_offset, dst_copy_offset); #endif if ((retval = GrowRegionToSize(sb, cfg, dst, dst_size)) != SC_OK) { sc_errno = retval; return NULL; } SCLogDebug("resized to %u -> %u", dst_size, dst->buf_size); /* validate that the size is exactly what we asked for */ DEBUG_VALIDATE_BUG_ON(dst_size != dst->buf_size); if (dst_copy_offset != 0) memmove(dst->buf + dst_copy_offset, dst->buf, old_size); if (dst_offset != dst->stream_offset) { dst->stream_offset = dst_offset; // buf_offset no longer valid, reset. dst->buf_offset = 0; } uint32_t new_offset = src_start->buf_offset; if (data_offset == src_start->stream_offset + src_start->buf_offset) { new_offset += data_len; } bool start_is_main = false; if (src_start == &sb->region) { DEBUG_VALIDATE_BUG_ON(src_start->stream_offset != dst_offset); start_is_main = true; SCLogDebug("src_start is main region"); if (src_start != dst) memcpy(dst->buf, src_start->buf, src_start->buf_offset); if (src_start == src_end) { SCLogDebug("src_start == src_end == main, we're done"); DEBUG_VALIDATE_BUG_ON(src_start != dst); return src_start; } prev = src_start; src_start = src_start->next; // skip in the loop below } // 3. copy all regions from src_start to dst_start into the new region for (StreamingBufferRegion *r = src_start; r != NULL;) { SCLogDebug("r %p %" PRIu64 ", offset %u, len %u, %s, last %s", r, r->stream_offset, r->buf_offset, r->buf_size, r == &sb->region ? "main" : "aux", BOOL2STR(r == src_end)); // skip dst if (r == dst) { SCLogDebug("skipping r %p as it is 'dst'", r); if (r == src_end) break; prev = r; r = r->next; continue; } const uint32_t target_offset = r->stream_offset - dst_offset; SCLogDebug("r %p: target_offset %u", r, target_offset); DEBUG_VALIDATE_BUG_ON(target_offset > dst->buf_size); DEBUG_VALIDATE_BUG_ON(target_offset + r->buf_size > dst->buf_size); memcpy(dst->buf + target_offset, r->buf, r->buf_size); StreamingBufferRegion *next = r->next; FREE(cfg, r->buf, r->buf_size); FREE(cfg, r, sizeof(*r)); sb->regions--; DEBUG_VALIDATE_BUG_ON(sb->regions == 0); DEBUG_VALIDATE_BUG_ON(prev == NULL && src_start != &sb->region); if (prev != NULL) { SCLogDebug("setting prev %p next to %p (was %p)", prev, next, prev->next); prev->next = next; } else { SCLogDebug("no prev yet"); } if (r == src_end) break; r = next; } /* special handling of main region being the start, but not the * region we expand. In this case we'll have main and dst. We will * move the buffer from dst into main and free dst. */ if (start_is_main && dst != &sb->region) { DEBUG_VALIDATE_BUG_ON(sb->region.next != dst); SCLogDebug("start_is_main && dst != main region"); FREE(cfg, sb->region.buf, sb->region.buf_size); sb->region.buf = dst->buf; sb->region.buf_size = dst->buf_size; sb->region.buf_offset = new_offset; SCLogDebug("sb->region.buf_offset set to %u", sb->region.buf_offset); sb->region.next = dst->next; FREE(cfg, dst, sizeof(*dst)); dst = &sb->region; sb->regions--; DEBUG_VALIDATE_BUG_ON(sb->regions == 0); } else { SCLogDebug("dst: %p next %p", dst, dst->next); } SCLogDebug("returning dst %p stream_offset %" PRIu64 " buf_offset %u buf_size %u", dst, dst->stream_offset, dst->buf_offset, dst->buf_size); return dst; } /** \note sets sc_errno */ static StreamingBufferRegion *BufferInsertAtRegionDo(StreamingBuffer *sb, const StreamingBufferConfig *cfg, const uint64_t offset, const uint32_t len) { SCLogDebug("offset %" PRIu64 ", len %u", offset, len); StreamingBufferRegion *start_prev = NULL; StreamingBufferRegion *start = FindFirstRegionForOffset(sb, cfg, &sb->region, offset, len, &start_prev); if (start) { const uint64_t insert_re = offset + len; const uint64_t insert_start_offset = MIN(start->stream_offset, offset); uint64_t insert_adjusted_re = insert_re; SCLogDebug("start region %p/%" PRIu64 "/%u", start, start->stream_offset, start->buf_size); StreamingBufferRegion *big = FindLargestRegionForOffset(sb, cfg, start, offset, len); DEBUG_VALIDATE_BUG_ON(big == NULL); if (big == NULL) { sc_errno = SC_EINVAL; return NULL; } SCLogDebug("big region %p/%" PRIu64 "/%u", big, big->stream_offset, big->buf_size); StreamingBufferRegion *end = FindRightEdge(sb, cfg, big, offset, len); DEBUG_VALIDATE_BUG_ON(end == NULL); if (end == NULL) { sc_errno = SC_EINVAL; return NULL; } insert_adjusted_re = MAX(insert_adjusted_re, (end->stream_offset + end->buf_size)); uint32_t new_buf_size = ToNextMultipleOf(insert_adjusted_re - insert_start_offset, cfg->buf_size); SCLogDebug("new_buf_size %u", new_buf_size); /* see if our new buf size + cfg->buf_size margin leads to an overlap with the next region. * If so, include that in the consolidation. */ if (end->next != NULL && new_buf_size + insert_start_offset > end->next->stream_offset) { SCLogDebug("adjusted end from %p to %p", end, end->next); end = end->next; insert_adjusted_re = MAX(insert_adjusted_re, (end->stream_offset + end->buf_size)); new_buf_size = ToNextMultipleOf(insert_adjusted_re - insert_start_offset, cfg->buf_size); SCLogDebug("new_buf_size %u", new_buf_size); } SCLogDebug("end region %p/%" PRIu64 "/%u", end, end->stream_offset, end->buf_size); /* sets sc_errno */ StreamingBufferRegion *ret = BufferInsertAtRegionConsolidate( sb, cfg, big, start, end, offset, len, start_prev, new_buf_size); return ret; } else { /* if there was no region we can use we add a new region and insert it */ StreamingBufferRegion *append = &sb->region; for (StreamingBufferRegion *r = append; r != NULL; r = r->next) { if (r->stream_offset > offset) { break; } else { append = r; } } SCLogDebug("no matching region found, append to %p (%s)", append, append == &sb->region ? "main" : "aux"); /* sets sc_errno */ StreamingBufferRegion *add = InitBufferRegion(sb, cfg, len); if (add == NULL) return NULL; add->stream_offset = offset; add->next = append->next; append->next = add; SCLogDebug("new region %p offset %" PRIu64, add, add->stream_offset); return add; } } /** \internal * \brief return the region to put the new data in * * Will find an existing region, expand it if needed. If no existing region exists or is * a good fit, it will try to set up a new region. If the region then overlaps or gets * too close to the next, merge them. * * \note sets sc_errno */ static StreamingBufferRegion *BufferInsertAtRegion(StreamingBuffer *sb, const StreamingBufferConfig *cfg, const uint8_t *data, const uint32_t data_len, const uint64_t data_offset) { SCLogDebug("data_offset %" PRIu64 ", data_len %u, re %" PRIu64, data_offset, data_len, data_offset + data_len); ListRegions(sb); if (RegionsIntersect(sb, cfg, &sb->region, data_offset, data_offset + data_len)) { SCLogDebug("data_offset %" PRIu64 ", data_len %u intersects with main region (next %p)", data_offset, data_len, sb->region.next); if (sb->region.next == NULL || !RegionsIntersect(sb, cfg, sb->region.next, data_offset, data_offset + data_len)) { SCLogDebug( "data_offset %" PRIu64 ", data_len %u intersects with main region, no next or way before next region", data_offset, data_len); if (sb->region.buf == NULL) { int r; if ((r = InitBuffer(sb, cfg)) != SC_OK) { // TODO init with size sc_errno = r; return NULL; } } return &sb->region; } } else if (sb->region.next == NULL) { /* InitBufferRegion sets sc_errno */ StreamingBufferRegion *aux_r = sb->region.next = InitBufferRegion(sb, cfg, data_len); if (aux_r == NULL) return NULL; aux_r->stream_offset = data_offset; DEBUG_VALIDATE_BUG_ON(data_len > aux_r->buf_size); SCLogDebug("created new region %p with offset %" PRIu64 ", size %u", aux_r, aux_r->stream_offset, aux_r->buf_size); return aux_r; } /* BufferInsertAtRegionDo sets sc_errno */ StreamingBufferRegion *blob = BufferInsertAtRegionDo(sb, cfg, data_offset, data_len); SCLogDebug("blob %p (%s)", blob, blob == &sb->region ? "main" : "aux"); return blob; } /** * \param offset offset relative to StreamingBuffer::stream_offset * * \return SC_OK in case of success * \return SC_E* errors otherwise */ int StreamingBufferInsertAt(StreamingBuffer *sb, const StreamingBufferConfig *cfg, StreamingBufferSegment *seg, const uint8_t *data, uint32_t data_len, uint64_t offset) { DEBUG_VALIDATE_BUG_ON(seg == NULL); DEBUG_VALIDATE_BUG_ON(offset < sb->region.stream_offset); if (offset < sb->region.stream_offset) { return SC_EINVAL; } StreamingBufferRegion *region = BufferInsertAtRegion(sb, cfg, data, data_len, offset); if (region == NULL) { return sc_errno; } const bool region_is_main = region == &sb->region; SCLogDebug("inserting %" PRIu64 "/%u using %s region %p", offset, data_len, region == &sb->region ? "main" : "aux", region); uint32_t rel_offset = offset - region->stream_offset; int r = DataFitsAtOffset(region, data_len, rel_offset); if (r < 0) { DEBUG_VALIDATE_BUG_ON(1); return SC_ELIMIT; } else if (r == 0) { if ((r = GrowToSize(sb, cfg, (rel_offset + data_len))) != SC_OK) return r; } DEBUG_VALIDATE_BUG_ON(DataFitsAtOffset(region, data_len, rel_offset) != 1); SCLogDebug("offset %" PRIu64 " data_len %u, rel_offset %u into region offset %" PRIu64 ", buf_offset %u, buf_size %u", offset, data_len, rel_offset, region->stream_offset, region->buf_offset, region->buf_size); memcpy(region->buf + rel_offset, data, data_len); seg->stream_offset = offset; seg->segment_len = data_len; SCLogDebug("rel_offset %u region->stream_offset %" PRIu64 ", buf_offset %u", rel_offset, region->stream_offset, region->buf_offset); if (RB_EMPTY(&sb->sbb_tree)) { SCLogDebug("empty sbb list"); if (region_is_main) { if (sb->region.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. * Update buf_offset if needed, but in case of overlaps it might be beyond us. */ sb->region.buf_offset = MAX(sb->region.buf_offset, rel_offset + data_len); } else if ((rel_offset + data_len) <= sb->region.buf_offset) { SCLogDebug("empty sbb list: block is within existing main data region"); } else { if (sb->region.buf_offset && rel_offset == sb->region.buf_offset) { SCLogDebug("exactly at expected offset"); // nothing to do sb->region.buf_offset = rel_offset + data_len; } else if (rel_offset < sb->region.buf_offset) { // nothing to do SCLogDebug("before expected offset: %u < sb->region.buf_offset %u", rel_offset, sb->region.buf_offset); if (rel_offset + data_len > sb->region.buf_offset) { SCLogDebug("before expected offset, ends after: %u < sb->region.buf_offset " "%u, %u > %u", rel_offset, sb->region.buf_offset, rel_offset + data_len, sb->region.buf_offset); sb->region.buf_offset = rel_offset + data_len; } } else if (sb->region.buf_offset) { SCLogDebug("beyond expected offset: SBBInit"); /* existing data, but there is a gap between us */ if ((r = SBBInit(sb, cfg, region, rel_offset, data_len)) != SC_OK) return r; } else { /* gap before data in empty list */ SCLogDebug("empty sbb list: invoking SBBInitLeadingGap"); if ((r = SBBInitLeadingGap(sb, cfg, region, offset, data_len)) != SC_OK) return r; } } } else { if (sb->region.buf_offset) { /* existing data, but there is a gap between us */ SCLogDebug("empty sbb list, no data in main: use SBBInit"); if ((r = SBBInit(sb, cfg, region, rel_offset, data_len)) != SC_OK) return r; } else { /* gap before data in empty list */ SCLogDebug("empty sbb list: invoking SBBInitLeadingGap"); if ((r = SBBInitLeadingGap(sb, cfg, region, offset, data_len)) != SC_OK) return r; } if (rel_offset == region->buf_offset) { SCLogDebug("pre region->buf_offset %u", region->buf_offset); region->buf_offset = rel_offset + data_len; SCLogDebug("post region->buf_offset %u", region->buf_offset); } } } else { SCLogDebug("updating sbb tree"); /* already have blocks, so append new block based on new data */ if ((r = SBBUpdate(sb, cfg, region, rel_offset, data_len)) != SC_OK) return r; } DEBUG_VALIDATE_BUG_ON(!region_is_main && sb->head == NULL); ListRegions(sb); if (RB_EMPTY(&sb->sbb_tree)) { DEBUG_VALIDATE_BUG_ON(offset + data_len > sb->region.stream_offset + sb->region.buf_offset); } return SC_OK; } int StreamingBufferSegmentIsBeforeWindow(const StreamingBuffer *sb, const StreamingBufferSegment *seg) { if (seg->stream_offset < sb->region.stream_offset) { if (seg->stream_offset + seg->segment_len <= sb->region.stream_offset) { return 1; } } return 0; } static inline const StreamingBufferRegion *GetRegionForOffset( const StreamingBuffer *sb, const uint64_t offset) { if (sb == NULL) return NULL; if (sb->region.next == NULL) { return &sb->region; } if (offset >= sb->region.stream_offset && offset < (sb->region.stream_offset + sb->region.buf_size)) { return &sb->region; } for (const StreamingBufferRegion *r = sb->region.next; r != NULL; r = r->next) { if (offset >= r->stream_offset && offset < (r->stream_offset + r->buf_size)) { return r; } } return NULL; } /** \brief get the data for one SBB */ void StreamingBufferSBBGetData(const StreamingBuffer *sb, const StreamingBufferBlock *sbb, const uint8_t **data, uint32_t *data_len) { const StreamingBufferRegion *region = GetRegionForOffset(sb, sbb->offset); SCLogDebug("first find our region (offset %" PRIu64 ") -> %p", sbb->offset, region); if (region) { SCLogDebug("region %p found %" PRIu64 "/%u/%u", region, region->stream_offset, region->buf_size, region->buf_offset); DEBUG_VALIDATE_BUG_ON( region->stream_offset == sbb->offset && region->buf_offset > sbb->len); // buf_offset should match first sbb len if it has the same offset if (sbb->offset >= region->stream_offset) { SCLogDebug("1"); uint64_t offset = sbb->offset - region->stream_offset; *data = region->buf + offset; DEBUG_VALIDATE_BUG_ON(offset + sbb->len > region->buf_size); *data_len = sbb->len; return; } else { SCLogDebug("2"); uint64_t offset = region->stream_offset - sbb->offset; if (offset < sbb->len) { *data = region->buf; *data_len = sbb->len - offset; return; } SCLogDebug("3"); } } *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) { /* validate that we are looking for a offset within the sbb */ DEBUG_VALIDATE_BUG_ON(!(offset >= sbb->offset && offset < (sbb->offset + sbb->len))); if (!(offset >= sbb->offset && offset < (sbb->offset + sbb->len))) { *data = NULL; *data_len = 0; return; } const StreamingBufferRegion *region = GetRegionForOffset(sb, offset); if (region) { uint32_t sbblen = sbb->len - (offset - sbb->offset); if (offset >= region->stream_offset) { uint64_t data_offset = offset - region->stream_offset; *data = region->buf + data_offset; if (data_offset + sbblen > region->buf_size) *data_len = region->buf_size - data_offset; else *data_len = sbblen; DEBUG_VALIDATE_BUG_ON(*data_len > sbblen); return; } else { uint64_t data_offset = region->stream_offset - sbb->offset; if (data_offset < sbblen) { *data = region->buf; *data_len = sbblen - data_offset; DEBUG_VALIDATE_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) { const StreamingBufferRegion *region = GetRegionForOffset(sb, seg->stream_offset); if (region) { if (seg->stream_offset >= region->stream_offset) { uint64_t offset = seg->stream_offset - region->stream_offset; *data = region->buf + offset; if (offset + seg->segment_len > region->buf_size) *data_len = region->buf_size - offset; else *data_len = seg->segment_len; SCLogDebug("*data_len %u", *data_len); return; } else { uint64_t offset = region->stream_offset - seg->stream_offset; if (offset < seg->segment_len) { *data = region->buf; *data_len = seg->segment_len - offset; SCLogDebug("*data_len %u", *data_len); 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->region.buf != NULL) { *data = sb->region.buf; *data_len = sb->region.buf_offset; *stream_offset = sb->region.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) { const StreamingBufferRegion *region = GetRegionForOffset(sb, offset); if (region != NULL && region->buf != NULL && offset >= region->stream_offset && offset < (region->stream_offset + region->buf_offset)) { uint32_t skip = offset - region->stream_offset; *data = region->buf + skip; *data_len = region->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->region.buf, sb->region.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 StreamingBufferTest02(void) { StreamingBufferConfig cfg = { 24, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg2, (const uint8_t *)"01234567", 8) != 0); FAIL_IF(sb->region.stream_offset != 0); FAIL_IF(sb->region.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_NULL(sb->head); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSlideToOffset(sb, &cfg, 6); FAIL_IF_NOT_NULL(sb->head); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg3, (const uint8_t *)"QWERTY", 6) != 0); FAIL_IF(sb->region.stream_offset != 6); FAIL_IF(sb->region.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_NULL(sb->head); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSlideToOffset(sb, &cfg, 12); 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_NULL(sb->head); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferFree(sb, &cfg); PASS; } static int StreamingBufferTest03(void) { StreamingBufferConfig cfg = { 24, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"01234567", 8, 14) != 0); FAIL_IF(sb->region.stream_offset != 0); FAIL_IF(sb->region.buf_offset != 8); 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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 16); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg3, (const uint8_t *)"QWERTY", 6, 8) != 0); FAIL_IF(sb->region.stream_offset != 0); FAIL_IF(sb->region.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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 22); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSlideToOffset(sb, &cfg, 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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 12); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferFree(sb, &cfg); PASS; } static int StreamingBufferTest04(void) { StreamingBufferConfig cfg = { 16, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0); FAIL_IF(!RB_EMPTY(&sb->sbb_tree)); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"01234567", 8, 14) != 0); FAIL_IF(sb->region.stream_offset != 0); FAIL_IF(sb->region.buf_offset != 8); 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, &cfg, &seg3, (const uint8_t *)"QWERTY", 6, 8) != 0); FAIL_IF(sb->region.stream_offset != 0); FAIL_IF(sb->region.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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 22); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); /* far ahead of curve: */ StreamingBufferSegment seg4; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg4, (const uint8_t *)"XYZ", 3, 124) != 0); FAIL_IF(sb->region.stream_offset != 0); FAIL_IF(sb->region.buf_offset != 22); FAIL_IF(sb->region.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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 25); 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, &cfg); PASS; } /** \test lots of gaps in block list */ static int StreamingBufferTest06(void) { StreamingBufferConfig cfg = { 16, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg1, (const uint8_t *)"A", 1) != 0); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"C", 1, 2) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 2); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg3, (const uint8_t *)"F", 1, 5) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 3); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg4; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg4, (const uint8_t *)"H", 1, 7) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 4); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg5; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg6; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferFree(sb, &cfg); PASS; } /** \test lots of gaps in block list */ static int StreamingBufferTest07(void) { StreamingBufferConfig cfg = { 16, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg1, (const uint8_t *)"B", 1, 1) != 0); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"D", 1, 3) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 2); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg3, (const uint8_t *)"F", 1, 5) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 3); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg4; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg4, (const uint8_t *)"H", 1, 7) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 4); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg5; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg6; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferFree(sb, &cfg); PASS; } /** \test lots of gaps in block list */ static int StreamingBufferTest08(void) { StreamingBufferConfig cfg = { 16, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg1, (const uint8_t *)"B", 1, 1) != 0); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"D", 1, 3) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 2); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg3, (const uint8_t *)"F", 1, 5) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 3); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg4; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg4, (const uint8_t *)"H", 1, 7) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 4); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg5; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg6; FAIL_IF(StreamingBufferAppend(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 20); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferFree(sb, &cfg); PASS; } /** \test lots of gaps in block list */ static int StreamingBufferTest09(void) { StreamingBufferConfig cfg = { 16, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg1, (const uint8_t *)"B", 1, 1) != 0); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"D", 1, 3) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 2); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg3, (const uint8_t *)"H", 1, 7) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 3); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg4; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg4, (const uint8_t *)"F", 1, 5) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 4); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg5; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferSegment seg6; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); StreamingBufferFree(sb, &cfg); PASS; } /** \test lots of gaps in block list */ static int StreamingBufferTest10(void) { StreamingBufferConfig cfg = { 16, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg1, (const uint8_t *)"A", 1, 0) != 0); Dump(sb); StreamingBufferSegment seg2; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg2, (const uint8_t *)"D", 1, 3) != 0); Dump(sb); StreamingBufferSegment seg3; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg3, (const uint8_t *)"H", 1, 7) != 0); Dump(sb); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 3); StreamingBufferSegment seg4; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg4, (const uint8_t *)"B", 1, 1) != 0); Dump(sb); StreamingBufferSegment seg5; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg5, (const uint8_t *)"C", 1, 2) != 0); Dump(sb); StreamingBufferSegment seg6; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &seg6, (const uint8_t *)"G", 1, 6) != 0); Dump(sb); FAIL_IF_NOT(sb->head == RB_MIN(SBB, &sb->sbb_tree)); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 6); StreamingBufferSegment seg7; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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)); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); StreamingBufferSegment seg8; FAIL_IF(StreamingBufferInsertAt(sb, &cfg, &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)); FAIL_IF_NULL(sb->head); FAIL_IF_NOT(sb->sbb_size == 10); StreamingBufferFree(sb, &cfg); PASS; } static int StreamingBufferTest11(void) { StreamingBufferConfig cfg = { 24, 1, STREAMING_BUFFER_REGION_GAP_DEFAULT, NULL, NULL, NULL }; StreamingBuffer *sb = StreamingBufferInit(&cfg); FAIL_IF(sb == NULL); StreamingBufferSegment seg1; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg1, (const uint8_t *)"ABCDEFGH", 8) != 0); StreamingBufferSegment seg2; unsigned int data_len = 0xffffffff; FAIL_IF(StreamingBufferAppend(sb, &cfg, &seg2, (const uint8_t *)"unused", data_len) != -1); FAIL_IF(StreamingBufferInsertAt( sb, &cfg, &seg2, (const uint8_t *)"abcdefghij", data_len, 100000) != SC_ELIMIT); StreamingBufferFree(sb, &cfg); PASS; } #endif void StreamingBufferRegisterTests(void) { #ifdef UNITTESTS UtRegisterTest("StreamingBufferTest02", StreamingBufferTest02); UtRegisterTest("StreamingBufferTest03", StreamingBufferTest03); UtRegisterTest("StreamingBufferTest04", StreamingBufferTest04); UtRegisterTest("StreamingBufferTest06", StreamingBufferTest06); UtRegisterTest("StreamingBufferTest07", StreamingBufferTest07); UtRegisterTest("StreamingBufferTest08", StreamingBufferTest08); UtRegisterTest("StreamingBufferTest09", StreamingBufferTest09); UtRegisterTest("StreamingBufferTest10", StreamingBufferTest10); UtRegisterTest("StreamingBufferTest11 Bug 6903", StreamingBufferTest11); #endif }