mirror of
https://github.com/lz4/lz4.git
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303 lines
9.7 KiB
C
303 lines
9.7 KiB
C
/**
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* This fuzz target performs a lz4 streaming round-trip test
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* (compress & decompress), compares the result with the original, and calls
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* abort() on corruption.
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*/
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#include <stddef.h>
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#include <stdint.h>
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#include <stdlib.h>
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#include <string.h>
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#include "fuzz_helpers.h"
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#define LZ4_STATIC_LINKING_ONLY
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#include "lz4.h"
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#define LZ4_HC_STATIC_LINKING_ONLY
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#include "lz4hc.h"
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typedef struct {
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char const* buf;
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size_t size;
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size_t pos;
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} const_cursor_t;
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typedef struct {
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char* buf;
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size_t size;
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size_t pos;
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} cursor_t;
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typedef struct {
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LZ4_stream_t* cstream;
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LZ4_streamHC_t* cstreamHC;
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LZ4_streamDecode_t* dstream;
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const_cursor_t data;
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cursor_t compressed;
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cursor_t roundTrip;
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uint32_t seed;
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int level;
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} state_t;
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cursor_t cursor_create(size_t size)
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{
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cursor_t cursor;
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cursor.buf = (char*)malloc(size);
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cursor.size = size;
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cursor.pos = 0;
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FUZZ_ASSERT(cursor.buf);
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return cursor;
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}
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typedef void (*round_trip_t)(state_t* state);
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void cursor_free(cursor_t cursor)
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{
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free(cursor.buf);
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}
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state_t state_create(char const* data, size_t size, uint32_t seed)
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{
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state_t state;
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state.seed = seed;
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state.data.buf = (char const*)data;
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state.data.size = size;
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state.data.pos = 0;
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/* Extra margin because we are streaming. */
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state.compressed = cursor_create(1024 + 2 * LZ4_compressBound(size));
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state.roundTrip = cursor_create(size);
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state.cstream = LZ4_createStream();
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FUZZ_ASSERT(state.cstream);
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state.cstreamHC = LZ4_createStreamHC();
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FUZZ_ASSERT(state.cstream);
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state.dstream = LZ4_createStreamDecode();
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FUZZ_ASSERT(state.dstream);
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return state;
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}
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void state_free(state_t state)
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{
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cursor_free(state.compressed);
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cursor_free(state.roundTrip);
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LZ4_freeStream(state.cstream);
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LZ4_freeStreamHC(state.cstreamHC);
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LZ4_freeStreamDecode(state.dstream);
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}
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static void state_reset(state_t* state, uint32_t seed)
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{
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state->level = FUZZ_rand32(&seed, LZ4HC_CLEVEL_MIN, LZ4HC_CLEVEL_MAX);
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LZ4_resetStream_fast(state->cstream);
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LZ4_resetStreamHC_fast(state->cstreamHC, state->level);
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LZ4_setStreamDecode(state->dstream, NULL, 0);
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state->data.pos = 0;
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state->compressed.pos = 0;
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state->roundTrip.pos = 0;
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state->seed = seed;
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}
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static void state_decompress(state_t* state, char const* src, int srcSize)
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{
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char* dst = state->roundTrip.buf + state->roundTrip.pos;
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int const dstCapacity = state->roundTrip.size - state->roundTrip.pos;
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int const dSize = LZ4_decompress_safe_continue(state->dstream, src, dst,
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srcSize, dstCapacity);
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FUZZ_ASSERT(dSize >= 0);
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state->roundTrip.pos += dSize;
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}
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static void state_checkRoundTrip(state_t const* state)
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{
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char const* data = state->data.buf;
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size_t const size = state->data.size;
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FUZZ_ASSERT_MSG(size == state->roundTrip.pos, "Incorrect size!");
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FUZZ_ASSERT_MSG(!memcmp(data, state->roundTrip.buf, size), "Corruption!");
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}
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/**
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* Picks a dictionary size and trims the dictionary off of the data.
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* We copy the dictionary to the roundTrip so our validation passes.
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*/
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static size_t state_trimDict(state_t* state)
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{
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/* 64 KB is the max dict size, allow slightly beyond that to test trim. */
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uint32_t maxDictSize = MIN(70 * 1024, state->data.size);
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size_t const dictSize = FUZZ_rand32(&state->seed, 0, maxDictSize);
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DEBUGLOG(2, "dictSize = %zu", dictSize);
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FUZZ_ASSERT(state->data.pos == 0);
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FUZZ_ASSERT(state->roundTrip.pos == 0);
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memcpy(state->roundTrip.buf, state->data.buf, dictSize);
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state->data.pos += dictSize;
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state->roundTrip.pos += dictSize;
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return dictSize;
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}
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static void state_prefixRoundTrip(state_t* state)
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{
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while (state->data.pos != state->data.size) {
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char const* src = state->data.buf + state->data.pos;
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char* dst = state->compressed.buf + state->compressed.pos;
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int const srcRemaining = state->data.size - state->data.pos;
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int const srcSize = FUZZ_rand32(&state->seed, 0, srcRemaining);
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int const dstCapacity = state->compressed.size - state->compressed.pos;
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int const cSize = LZ4_compress_fast_continue(state->cstream, src, dst,
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srcSize, dstCapacity, 0);
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FUZZ_ASSERT(cSize > 0);
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state->data.pos += srcSize;
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state->compressed.pos += cSize;
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state_decompress(state, dst, cSize);
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}
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}
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static void state_extDictRoundTrip(state_t* state)
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{
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int i = 0;
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cursor_t data2 = cursor_create(state->data.size);
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memcpy(data2.buf, state->data.buf, state->data.size);
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while (state->data.pos != state->data.size) {
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char const* data = (i++ & 1) ? state->data.buf : data2.buf;
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char const* src = data + state->data.pos;
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char* dst = state->compressed.buf + state->compressed.pos;
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int const srcRemaining = state->data.size - state->data.pos;
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int const srcSize = FUZZ_rand32(&state->seed, 0, srcRemaining);
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int const dstCapacity = state->compressed.size - state->compressed.pos;
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int const cSize = LZ4_compress_fast_continue(state->cstream, src, dst,
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srcSize, dstCapacity, 0);
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FUZZ_ASSERT(cSize > 0);
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state->data.pos += srcSize;
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state->compressed.pos += cSize;
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state_decompress(state, dst, cSize);
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}
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cursor_free(data2);
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}
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static void state_randomRoundTrip(state_t* state, round_trip_t rt0,
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round_trip_t rt1)
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{
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if (FUZZ_rand32(&state->seed, 0, 1)) {
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rt0(state);
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} else {
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rt1(state);
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}
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}
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static void state_loadDictRoundTrip(state_t* state)
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{
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char const* dict = state->data.buf;
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size_t const dictSize = state_trimDict(state);
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LZ4_loadDict(state->cstream, dict, dictSize);
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LZ4_setStreamDecode(state->dstream, dict, dictSize);
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state_randomRoundTrip(state, state_prefixRoundTrip, state_extDictRoundTrip);
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}
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static void state_attachDictRoundTrip(state_t* state)
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{
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char const* dict = state->data.buf;
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size_t const dictSize = state_trimDict(state);
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LZ4_stream_t* dictStream = LZ4_createStream();
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LZ4_loadDict(dictStream, dict, dictSize);
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LZ4_attach_dictionary(state->cstream, dictStream);
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LZ4_setStreamDecode(state->dstream, dict, dictSize);
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state_randomRoundTrip(state, state_prefixRoundTrip, state_extDictRoundTrip);
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LZ4_freeStream(dictStream);
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}
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static void state_prefixHCRoundTrip(state_t* state)
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{
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while (state->data.pos != state->data.size) {
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char const* src = state->data.buf + state->data.pos;
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char* dst = state->compressed.buf + state->compressed.pos;
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int const srcRemaining = state->data.size - state->data.pos;
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int const srcSize = FUZZ_rand32(&state->seed, 0, srcRemaining);
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int const dstCapacity = state->compressed.size - state->compressed.pos;
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int const cSize = LZ4_compress_HC_continue(state->cstreamHC, src, dst,
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srcSize, dstCapacity);
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FUZZ_ASSERT(cSize > 0);
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state->data.pos += srcSize;
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state->compressed.pos += cSize;
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state_decompress(state, dst, cSize);
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}
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}
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static void state_extDictHCRoundTrip(state_t* state)
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{
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int i = 0;
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cursor_t data2 = cursor_create(state->data.size);
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DEBUGLOG(2, "extDictHC");
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memcpy(data2.buf, state->data.buf, state->data.size);
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while (state->data.pos != state->data.size) {
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char const* data = (i++ & 1) ? state->data.buf : data2.buf;
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char const* src = data + state->data.pos;
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char* dst = state->compressed.buf + state->compressed.pos;
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int const srcRemaining = state->data.size - state->data.pos;
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int const srcSize = FUZZ_rand32(&state->seed, 0, srcRemaining);
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int const dstCapacity = state->compressed.size - state->compressed.pos;
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int const cSize = LZ4_compress_HC_continue(state->cstreamHC, src, dst,
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srcSize, dstCapacity);
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FUZZ_ASSERT(cSize > 0);
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DEBUGLOG(2, "srcSize = %d", srcSize);
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state->data.pos += srcSize;
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state->compressed.pos += cSize;
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state_decompress(state, dst, cSize);
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}
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cursor_free(data2);
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}
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static void state_loadDictHCRoundTrip(state_t* state)
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{
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char const* dict = state->data.buf;
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size_t const dictSize = state_trimDict(state);
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LZ4_loadDictHC(state->cstreamHC, dict, dictSize);
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LZ4_setStreamDecode(state->dstream, dict, dictSize);
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state_randomRoundTrip(state, state_prefixHCRoundTrip,
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state_extDictHCRoundTrip);
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}
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static void state_attachDictHCRoundTrip(state_t* state)
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{
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char const* dict = state->data.buf;
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size_t const dictSize = state_trimDict(state);
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LZ4_streamHC_t* dictStream = LZ4_createStreamHC();
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LZ4_setCompressionLevel(dictStream, state->level);
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LZ4_loadDictHC(dictStream, dict, dictSize);
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LZ4_attach_HC_dictionary(state->cstreamHC, dictStream);
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LZ4_setStreamDecode(state->dstream, dict, dictSize);
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state_randomRoundTrip(state, state_prefixHCRoundTrip,
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state_extDictHCRoundTrip);
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LZ4_freeStreamHC(dictStream);
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}
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round_trip_t roundTrips[] = {
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&state_prefixRoundTrip,
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&state_extDictRoundTrip,
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&state_loadDictRoundTrip,
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&state_attachDictRoundTrip,
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&state_prefixHCRoundTrip,
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&state_extDictHCRoundTrip,
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&state_loadDictHCRoundTrip,
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&state_attachDictHCRoundTrip,
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};
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int LLVMFuzzerTestOneInput(const uint8_t *data, size_t size)
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{
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uint32_t seed = FUZZ_seed(&data, &size);
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state_t state = state_create((char const*)data, size, seed);
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const int n = sizeof(roundTrips) / sizeof(round_trip_t);
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int i;
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for (i = 0; i < n; ++i) {
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DEBUGLOG(2, "Round trip %d", i);
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state_reset(&state, seed);
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roundTrips[i](&state);
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state_checkRoundTrip(&state);
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}
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state_free(state);
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return 0;
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}
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