ref: c3867623ae93eca77ba6e4f3d851240442f02caf
dir: /sys/src/cmd/venti/srv/bloom.c/
/* * Bloom filter tracking which scores are present in our arenas * and (more importantly) which are not. */ #include "stdinc.h" #include "dat.h" #include "fns.h" int ignorebloom; int bloominit(Bloom *b, vlong vsize, u8int *data) { ulong size; size = vsize; if(size != vsize){ /* truncation */ werrstr("bloom data too big"); return -1; } b->size = size; b->nhash = 32; /* will be fixed by caller on initialization */ if(data != nil) if(unpackbloomhead(b, data) < 0) return -1; b->bitmask = (b->size<<3) - 1; b->data = data; return 0; } void wbbloomhead(Bloom *b) { packbloomhead(b, b->data); } Bloom* readbloom(Part *p) { uchar buf[512]; Bloom *b; b = vtmallocz(sizeof *b); if(readpart(p, 0, buf, sizeof buf) < 0) return nil; /* * pass buf as b->data so that bloominit * can parse header. won't be used for * accessing bits (cleared below). */ if(bloominit(b, 0, buf) < 0){ vtfree(b); return nil; }else{ /* * default block size is system page size. * the bloom filter is usually very big. * bump the block size up to speed i/o. */ if(p->blocksize < (1<<20)){ p->blocksize = 1<<20; if(p->blocksize > p->size) p->blocksize = p->size; } } b->part = p; b->data = nil; return b; } int resetbloom(Bloom *b) { uchar *data; data = vtmallocz(b->size); b->data = data; if(b->size == MaxBloomSize) /* 2^32 overflows ulong */ addstat(StatBloomBits, b->size*8-1); else addstat(StatBloomBits, b->size*8); return 0; } int loadbloom(Bloom *b) { int i, n; uint ones; uchar *data; u32int *a; data = vtmallocz(b->size); if(readpart(b->part, 0, data, b->size) < 0){ vtfree(b); vtfree(data); return -1; } b->data = data; a = (u32int*)b->data; n = b->size/4; ones = 0; for(i=0; i<n; i++) ones += countbits(a[i]); addstat(StatBloomOnes, ones); if(b->size == MaxBloomSize) /* 2^32 overflows ulong */ addstat(StatBloomBits, b->size*8-1); else addstat(StatBloomBits, b->size*8); return 0; } int writebloom(Bloom *b) { wbbloomhead(b); if(writepart(b->part, 0, b->data, b->size) < 0) return -1; if(flushpart(b->part) < 0) return -1; return 0; } /* * Derive two random 32-bit quantities a, b from the score * and then use a+b*i as a sequence of bloom filter indices. * Michael Mitzenmacher has a recent (2005) paper saying this is okay. * We reserve the bottom bytes (BloomHeadSize*8 bits) for the header. */ static void gethashes(u8int *score, ulong *h) { int i; u32int a, b; a = 0; b = 0; for(i=4; i+8<=VtScoreSize; i+=8){ a ^= *(u32int*)(score+i); b ^= *(u32int*)(score+i+4); } if(i+4 <= VtScoreSize) /* 20 is not 4-aligned */ a ^= *(u32int*)(score+i); for(i=0; i<BloomMaxHash; i++, a+=b) h[i] = a < BloomHeadSize*8 ? BloomHeadSize*8 : a; } static void _markbloomfilter(Bloom *b, u8int *score) { int i, nnew; ulong h[BloomMaxHash]; u32int x, *y, z, *tab; trace("markbloomfilter", "markbloomfilter %V", score); gethashes(score, h); nnew = 0; tab = (u32int*)b->data; for(i=0; i<b->nhash; i++){ x = h[i]; y = &tab[(x&b->bitmask)>>5]; z = 1<<(x&31); if(!(*y&z)){ nnew++; *y |= z; } } if(nnew) addstat(StatBloomOnes, nnew); trace("markbloomfilter", "markbloomfilter exit"); } static int _inbloomfilter(Bloom *b, u8int *score) { int i; ulong h[BloomMaxHash], x; u32int *tab; gethashes(score, h); tab = (u32int*)b->data; for(i=0; i<b->nhash; i++){ x = h[i]; if(!(tab[(x&b->bitmask)>>5] & (1<<(x&31)))) return 0; } return 1; } int inbloomfilter(Bloom *b, u8int *score) { int r; if(b == nil || b->data == nil) return 1; if(ignorebloom) return 1; rlock(&b->lk); r = _inbloomfilter(b, score); runlock(&b->lk); addstat(StatBloomLookup, 1); if(r) addstat(StatBloomMiss, 1); else addstat(StatBloomHit, 1); return r; } void markbloomfilter(Bloom *b, u8int *score) { if(b == nil || b->data == nil) return; rlock(&b->lk); qlock(&b->mod); _markbloomfilter(b, score); qunlock(&b->mod); runlock(&b->lk); } static void bloomwriteproc(void *v) { int ret; Bloom *b; threadsetname("bloomwriteproc"); b = v; for(;;){ recv(b->writechan, 0); if((ret=writebloom(b)) < 0) fprint(2, "oops! writing bloom: %r\n"); else ret = 0; sendul(b->writedonechan, ret); } } void startbloomproc(Bloom *b) { b->writechan = chancreate(sizeof(void*), 0); b->writedonechan = chancreate(sizeof(void*), 0); vtproc(bloomwriteproc, b); }