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parser.cpp
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#include <util.h>
#include <common.h>
#include <errlog.h>
#include <callback.h>
#include <string>
#include <vector>
#include <fcntl.h>
#include <stdlib.h>
#include <unistd.h>
#include <sys/mman.h>
#include <sys/stat.h>
#include <sys/types.h>
#if !defined(O_DIRECT)
# define O_DIRECT 0
#endif
struct Map
{
int fd;
uint64_t size;
const uint8_t *p;
std::string name;
};
typedef GoogMap<Hash256, const uint8_t*, Hash256Hasher, Hash256Equal>::Map TXMap;
typedef GoogMap<Hash256, Block*, Hash256Hasher, Hash256Equal>::Map BlockMap;
static bool gNeedTXHash;
static Callback *gCallback;
static const Map *gCurMap;
static std::vector<Map> mapVec;
static TXMap gTXMap;
static BlockMap gBlockMap;
static uint8_t empty[kSHA256ByteSize] = { 0x42 };
static Block *gMaxBlock;
static Block *gNullBlock;
static uint64_t gChainSize;
static uint64_t gMaxHeight;
static uint256_t gNullHash;
#define DO(x) x
static inline void startBlock(const uint8_t *p) { DO(gCallback->startBlock(p)); }
static inline void endBlock(const uint8_t *p) { DO(gCallback->endBlock(p)); }
static inline void startTX(const uint8_t *p, const uint8_t *hash) { DO(gCallback->startTX(p, hash)); }
static inline void endTX(const uint8_t *p) { DO(gCallback->endTX(p)); }
static inline void startInputs(const uint8_t *p) { DO(gCallback->startInputs(p)); }
static inline void endInputs(const uint8_t *p) { DO(gCallback->endInputs(p)); }
static inline void startInput(const uint8_t *p) { DO(gCallback->startInput(p)); }
static inline void endInput(const uint8_t *p) { DO(gCallback->endInput(p)); }
static inline void startOutputs(const uint8_t *p) { DO(gCallback->startOutputs(p)); }
static inline void endOutputs(const uint8_t *p) { DO(gCallback->endOutputs(p)); }
static inline void startOutput(const uint8_t *p) { DO(gCallback->startOutput(p)); }
static inline void start(const Block *s, const Block *e) { DO(gCallback->start(s, e)); }
#undef DO
static inline void startMap(const uint8_t *p) { gCallback->startMap(p); }
static inline void endMap(const uint8_t *p) { gCallback->endMap(p); }
static inline void startBlock(const Block *b) { gCallback->startBlock(b, gChainSize); }
static inline void endBlock(const Block *b) { gCallback->endBlock(b); }
static inline void endOutput(
const uint8_t *p,
uint64_t value,
const uint8_t *txHash,
uint64_t outputIndex,
const uint8_t *outputScript,
uint64_t outputScriptSize
)
{
gCallback->endOutput(
p,
value,
txHash,
outputIndex,
outputScript,
outputScriptSize
);
}
static inline void edge(
uint64_t value,
const uint8_t *upTXHash,
uint64_t outputIndex,
const uint8_t *outputScript,
uint64_t outputScriptSize,
const uint8_t *downTXHash,
uint64_t inputIndex,
const uint8_t *inputScript,
uint64_t inputScriptSize
)
{
gCallback->edge(
value,
upTXHash,
outputIndex,
outputScript,
outputScriptSize,
downTXHash,
inputIndex,
inputScript,
inputScriptSize
);
}
template<
bool skip,
bool fullContext
>
static void parseOutput(
const uint8_t *&p,
const uint8_t *txHash,
uint64_t outputIndex,
const uint8_t *downTXHash,
uint64_t downInputIndex,
const uint8_t *downInputScript,
uint64_t downInputScriptSize,
bool found = false
)
{
if(!skip && !fullContext) startOutput(p);
LOAD(uint64_t, value, p);
LOAD_VARINT(outputScriptSize, p);
const uint8_t *outputScript = p;
p += outputScriptSize;
if(!skip && fullContext && found) {
edge(
value,
txHash,
outputIndex,
outputScript,
outputScriptSize,
downTXHash,
downInputIndex,
downInputScript,
downInputScriptSize
);
}
if(!skip && !fullContext) {
endOutput(
p,
value,
txHash,
outputIndex,
outputScript,
outputScriptSize
);
}
}
template<
bool skip,
bool fullContext
>
static void parseOutputs(
const uint8_t *&p,
const uint8_t *txHash,
uint64_t stopAtIndex = -1,
const uint8_t *downTXHash = 0,
uint64_t downInputIndex = 0,
const uint8_t *downInputScript = 0,
uint64_t downInputScriptSize = 0
)
{
if(!skip && !fullContext) startOutputs(p);
LOAD_VARINT(nbOutputs, p);
for(uint64_t outputIndex=0; outputIndex<nbOutputs; ++outputIndex) {
bool found = fullContext && !skip && (stopAtIndex==outputIndex);
parseOutput<skip, fullContext>(
p,
txHash,
outputIndex,
downTXHash,
downInputIndex,
downInputScript,
downInputScriptSize,
found
);
if(found) break;
}
if(!skip && !fullContext) endOutputs(p);
}
template<
bool skip
>
static void parseInput(
const uint8_t *&p,
const uint8_t *txHash,
uint64_t inputIndex
)
{
if(!skip) startInput(p);
const uint8_t *upTXHash = p;
const uint8_t *upTXOutputs = 0;
if(gNeedTXHash && !skip) {
bool isGenTX = (0==memcmp(gNullHash.v, upTXHash, sizeof(gNullHash)));
if(likely(false==isGenTX)) {
auto i = gTXMap.find(upTXHash);
if(unlikely(gTXMap.end()==i))
errFatal("failed to locate upstream TX");
upTXOutputs = i->second;
}
}
SKIP(uint256_t, dummyUpTXhash, p);
LOAD(uint32_t, upOutputIndex, p);
LOAD_VARINT(inputScriptSize, p);
if(!skip && 0!=upTXOutputs) {
const uint8_t *inputScript = p;
parseOutputs<false, true>(
upTXOutputs,
upTXHash,
upOutputIndex,
txHash,
inputIndex,
inputScript,
inputScriptSize
);
}
p += inputScriptSize;
SKIP(uint32_t, sequence, p);
if(!skip) endInput(p);
}
template<
bool skip
>
static void parseInputs(
const uint8_t *&p,
const uint8_t *txHash
)
{
if(!skip) startInputs(p);
LOAD_VARINT(nbInputs, p);
for(uint64_t inputIndex=0; inputIndex<nbInputs; ++inputIndex)
parseInput<skip>(p, txHash, inputIndex);
if(!skip) endInputs(p);
}
template<
bool skip
>
static void parseTX(
const uint8_t *&p
)
{
uint8_t *txHash = 0;
const uint8_t *txStart = p;
if(gNeedTXHash && !skip) {
const uint8_t *txEnd = p;
parseTX<true>(txEnd);
txHash = allocHash256();
sha256Twice(txHash, txStart, txEnd - txStart);
}
if(!skip) startTX(p, txHash);
SKIP(uint32_t, version, p);
parseInputs<skip>(p, txHash);
if(gNeedTXHash && !skip)
gTXMap[txHash] = p;
parseOutputs<skip, false>(p, txHash);
SKIP(uint32_t, lockTime, p);
if(!skip) endTX(p);
}
static void parseBlock(
const Block *block
)
{
startBlock(block);
const uint8_t *p = block->data;
const uint8_t *header = p;
SKIP(uint32_t, version, p);
SKIP(uint256_t, prevBlkHash, p);
SKIP(uint256_t, blkMerkleRoot, p);
SKIP(uint32_t, blkTime, p);
SKIP(uint32_t, blkBits, p);
SKIP(uint32_t, blkNonce, p);
LOAD_VARINT(nbTX, p);
for(uint64_t txIndex=0; likely(txIndex<nbTX); ++txIndex)
parseTX<false>(p);
endBlock(block);
}
static void parseLongestChain()
{
Block *blk = gNullBlock->next;
start(blk, gMaxBlock);
while(likely(0!=blk)) {
parseBlock(blk);
blk = blk->next;
}
}
static void findLongestChain()
{
Block *block = gMaxBlock;
while(1) {
if(likely(0!=block->data)) {
const uint8_t *p = -4 + (block->data);
LOAD(uint32_t, size, p);
gChainSize += size;
}
Block *prev = block->prev;
if(unlikely(0==prev)) break;
prev->next = block;
block = prev;
}
}
static void initCallback(
int argc,
char *argv[]
)
{
const char *methodName = 0;
if(0<argc) methodName = argv[1];
if(0==methodName) methodName = "";
if(0==methodName[0]) methodName = "help";
gCallback = Callback::find(methodName);
fprintf(stderr, "\n");
info("starting command \"%s\"", gCallback->name());
if(argv[1]) {
int i = 0;
while('-'==argv[1][i]) argv[1][i++] = 'x';
}
int ir = gCallback->init(argc, (const char **)argv);
if(ir<0) errFatal("callback init failed");
gNeedTXHash = gCallback->needTXHash();
}
static void mapBlockChainFiles()
{
std::string coinName(
#if defined LITECOIN
"/.litecoin/"
#else
"/.bitcoin/"
#endif
);
const char *home = getenv("HOME");
if(0==home) {
warning("could not getenv(\"HOME\"), using \".\" instead.");
home = ".";
}
std::string homeDir(home);
std::string blockDir = homeDir + coinName + std::string("blocks");
struct stat statBuf;
int r = stat(blockDir.c_str(), &statBuf);
bool oldStyle = (r<0 || !S_ISDIR(statBuf.st_mode));
int blkDatId = oldStyle ? 1 : 0;
const char *fmt = oldStyle ? "blk%04d.dat" : "blocks/blk%05d.dat";
while(1) {
char buf[64];
sprintf(buf, fmt, blkDatId++);
std::string blockMapFileName =
homeDir +
coinName +
std::string(buf)
;
int blockMapFD = open(blockMapFileName.c_str(), O_DIRECT | O_RDONLY);
if(blockMapFD<0) {
if(1<blkDatId) break;
sysErrFatal(
"failed to open block chain file %s",
blockMapFileName.c_str()
);
}
struct stat statBuf;
int r = fstat(blockMapFD, &statBuf);
if(r<0) sysErrFatal( "failed to fstat block chain file %s", blockMapFileName.c_str());
size_t mapSize = statBuf.st_size;
void *pMap = mmap(0, mapSize, PROT_READ, MAP_PRIVATE, blockMapFD, 0);
if(((void*)-1)==pMap) {
sysErrFatal(
"failed to mmap block chain file %s",
blockMapFileName.c_str()
);
}
Map map;
map.size = mapSize;
map.fd = blockMapFD;
map.name = blockMapFileName;
map.p = (const uint8_t*)pMap;
mapVec.push_back(map);
}
}
static void initHashtables()
{
gTXMap.setEmptyKey(empty);
gBlockMap.setEmptyKey(empty);
auto e = mapVec.end();
uint64_t totalSize = 0;
auto i = mapVec.begin();
while(i!=e) totalSize += (i++)->size;
double txPerBytes = (3976774.0 / 1713189944.0);
size_t nbTxEstimate = (1.5 * txPerBytes * totalSize);
gTXMap.resize(nbTxEstimate);
double blocksPerBytes = (184284.0 / 1713189944.0);
size_t nbBlockEstimate = (1.5 * blocksPerBytes * totalSize);
gBlockMap.resize(nbBlockEstimate);
}
static void linkBlock(
Block *block
)
{
if(unlikely(0==block->data)) {
block->height = 0;
block->prev = 0;
block->next = 0;
return;
}
int depth = 0;
Block *b = block;
while(b->height<0) {
auto i = gBlockMap.find(4 + b->data);
if(unlikely(gBlockMap.end()==i)) {
uint8_t buf[2*kSHA256ByteSize + 1];
toHex(buf, 4 + b->data);
warning("at depth %d in chain, failed to locate parent block %s", depth, buf);
return;
}
Block *prev = i->second;
prev->next = b;
b->prev = prev;
b = prev;
++depth;
}
uint64_t h = b->height;
while(block!=b) {
Block *next = b->next;
b->height = h;
b->next = 0;
if(likely(gMaxHeight<h)) {
gMaxHeight = h;
gMaxBlock = b;
}
b = next;
++h;
}
}
static void linkAllBlocks()
{
auto e = gBlockMap.end();
auto i = gBlockMap.begin();
while(i!=e) {
Block *block = (i++)->second;
linkBlock(block);
}
}
static bool buildBlock(
const uint8_t *&p,
const uint8_t *e
)
{
static const uint32_t expected =
#if defined(LITECOIN)
0xdbb6c0fb
#else
0xd9b4bef9
#endif
;
if(unlikely(e<=(8+p))) {
//printf("end of map, reason : pointer past EOF\n");
return true;
}
LOAD(uint32_t, magic, p);
if(unlikely(expected!=magic)) {
//printf("end of map, reason : magic is fucked %d away from EOF\n", (int)(e-p));
return true;
}
LOAD(uint32_t, size, p);
if(unlikely(e<(p+size))) {
//printf("end of map, reason : end of block past EOF, %d past EOF\n", (int)((p+size)-e));
return true;
}
Block *block = allocBlock();
block->height = -1;
block->data = p;
block->prev = 0;
block->next = 0;
uint8_t *hash = allocHash256();
sha256Twice(hash, p, 80);
gBlockMap[hash] = block;
p += size;
return false;
}
static void buildAllBlocks()
{
auto e = mapVec.end();
auto i = mapVec.begin();
while(i!=e) {
const Map *map = gCurMap = &(*(i++));
const uint8_t *end = map->size + map->p;
const uint8_t *p = map->p;
startMap(p);
while(1) {
if(unlikely(end<=p)) break;
bool done = buildBlock(p, end);
if(done) break;
}
endMap(p);
}
}
static void buildNullBlock()
{
gBlockMap[gNullHash.v] = gNullBlock = allocBlock();
gNullBlock->data = 0;
}
static void firstPass()
{
buildNullBlock();
buildAllBlocks();
linkAllBlocks();
}
static void secondPass()
{
findLongestChain();
parseLongestChain();
gCallback->wrapup();
}
static void cleanMaps()
{
auto e = mapVec.end();
auto i = mapVec.begin();
while(i!=e) {
const Map &map = *(i++);
int r = munmap((void*)map.p, map.size);
if(r<0) sysErr("failed to unmap block chain file %s", map.name.c_str());
r = close(map.fd);
if(r<0) sysErr("failed to unmap block chain file %s", map.name.c_str());
}
}
int main(
int argc,
char *argv[]
)
{
double start = usecs();
initCallback(argc, argv);
mapBlockChainFiles();
initHashtables();
firstPass();
secondPass();
cleanMaps();
double elapsed = (usecs()-start)*1e-6;
info("all done in %.3f seconds\n", elapsed);
return 0;
}