X-Git-Url: https://pd.if.org/git/?p=btree;a=blobdiff_plain;f=btree2u.c;h=aaffee30d65fdafb176738bf864ab368dd3cda8c;hp=1f7edcbd57d66d3a30b85fd7c8745c20e2864425;hb=HEAD;hpb=23b96d0575e8f975944f8807c3739e4053356155 diff --git a/btree2u.c b/btree2u.c index 1f7edcb..aaffee3 100644 --- a/btree2u.c +++ b/btree2u.c @@ -1,6 +1,7 @@ -// btree version 2u +// btree version 2u sched_yield locks // with combined latch & pool manager -// 26 FEB 2014 +// and phase-fair reader writer lock +// 12 MAR 2014 // author: karl malbrain, malbrain@cal.berkeley.edu @@ -43,6 +44,7 @@ REDISTRIBUTION OF THIS SOFTWARE. #include #include #include +#include #endif #include @@ -65,6 +67,17 @@ typedef unsigned int uint; #define BT_minpage (1 << BT_minbits) // minimum page size #define BT_maxpage (1 << BT_maxbits) // maximum page size +// BTree page number constants +#define ALLOC_page 0 +#define ROOT_page 1 +#define LEAF_page 2 +#define LATCH_page 3 + +// Number of levels to create in a new BTree + +#define MIN_lvl 2 +#define MAX_lvl 15 + /* There are five lock types for each node in three independent sets: 1. (set 1) AccessIntent: Sharable. Going to Read the node. Incompatible with NodeDelete. @@ -84,17 +97,29 @@ typedef enum{ // definition for latch implementation -// exclusive is set for write access -// share is count of read accessors -// grant write lock when share == 0 - volatile typedef struct { - unsigned char mutex[1]; - unsigned char exclusive:1; - unsigned char pending:1; - ushort share; + ushort lock[1]; } BtSpinLatch; +#define XCL 1 +#define PEND 2 +#define BOTH 3 +#define SHARE 4 + +volatile typedef struct { + ushort rin[1]; // readers in count + ushort rout[1]; // readers out count + ushort serving[1]; // writers out count + ushort ticket[1]; // writers in count +} RWLock; + +// define bits at bottom of rin + +#define PHID 0x1 // writer phase (0/1) +#define PRES 0x2 // writer present +#define MASK 0x3 // both write bits +#define RINC 0x4 // reader increment + // Define the length of the page and key pointers #define BtId 6 @@ -148,11 +173,13 @@ typedef struct BtPage_ { typedef struct { struct BtPage_ alloc[2]; // next & free page_nos in right ptr BtSpinLatch lock[1]; // allocation area lite latch - uint latchdeployed; // highest number of latch entries deployed - uint nlatchpage; // number of latch pages at BT_latch - uint latchtotal; // number of page latch entries - uint latchhash; // number of latch hash table slots - uint latchvictim; // next latch hash entry to examine + volatile uint latchdeployed;// highest number of latch entries deployed + volatile uint nlatchpage; // number of latch pages at BT_latch + volatile uint latchtotal; // number of page latch entries + volatile uint latchhash; // number of latch hash table slots + volatile uint latchvictim; // next latch hash entry to examine + volatile uint safelevel; // safe page level in cache + volatile uint cache[MAX_lvl];// cache census counts by btree level } BtLatchMgr; // latch hash table entries @@ -165,15 +192,21 @@ typedef struct { // latch manager table structure typedef struct { - volatile uid page_no; // latch set page number on disk - BtSpinLatch readwr[1]; // read/write page lock - BtSpinLatch access[1]; // Access Intent/Page delete - BtSpinLatch parent[1]; // Posting of fence key in parent - volatile uint next; // next entry in hash table chain - volatile uint prev; // prev entry in hash table chain - volatile uint pin; // number of outstanding pins + volatile uid page_no; // latch set page number on disk + RWLock readwr[1]; // read/write page lock + RWLock access[1]; // Access Intent/Page delete + RWLock parent[1]; // Posting of fence key in parent + volatile ushort pin; // number of pins/level/clock bits + volatile uint next; // next entry in hash table chain + volatile uint prev; // prev entry in hash table chain } BtLatchSet; +#define CLOCK_mask 0xe000 +#define CLOCK_unit 0x2000 +#define PIN_mask 0x07ff +#define LVL_mask 0x1800 +#define LVL_shift 11 + // The object structure for Btree access typedef struct _BtDb { @@ -235,16 +268,6 @@ extern uid bt_uid (BtDb *bt, uint slot); extern uint bt_tod (BtDb *bt, uint slot); #endif -// BTree page number constants -#define ALLOC_page 0 -#define ROOT_page 1 -#define LEAF_page 2 -#define LATCH_page 3 - -// Number of levels to create in a new BTree - -#define MIN_lvl 2 - // The page is allocated from low and hi ends. // The key offsets and row-id's are allocated // from the bottom, while the text of the key @@ -328,7 +351,77 @@ BtKey ptr; return bt->err = err; } -// Latch Manager +// Phase-Fair reader/writer lock implementation + +void WriteLock (RWLock *lock) +{ +ushort w, r, tix; + +#ifdef unix + tix = __sync_fetch_and_add (lock->ticket, 1); +#else + tix = _InterlockedExchangeAdd16 (lock->ticket, 1); +#endif + // wait for our ticket to come up + + while( tix != lock->serving[0] ) +#ifdef unix + sched_yield(); +#else + SwitchToThread (); +#endif + + w = PRES | (tix & PHID); +#ifdef unix + r = __sync_fetch_and_add (lock->rin, w); +#else + r = _InterlockedExchangeAdd16 (lock->rin, w); +#endif + while( r != *lock->rout ) +#ifdef unix + sched_yield(); +#else + SwitchToThread(); +#endif +} + +void WriteRelease (RWLock *lock) +{ +#ifdef unix + __sync_fetch_and_and (lock->rin, ~MASK); +#else + _InterlockedAnd16 (lock->rin, ~MASK); +#endif + lock->serving[0]++; +} + +void ReadLock (RWLock *lock) +{ +ushort w; +#ifdef unix + w = __sync_fetch_and_add (lock->rin, RINC) & MASK; +#else + w = _InterlockedExchangeAdd16 (lock->rin, RINC) & MASK; +#endif + if( w ) + while( w == (*lock->rin & MASK) ) +#ifdef unix + sched_yield (); +#else + SwitchToThread (); +#endif +} + +void ReadRelease (RWLock *lock) +{ +#ifdef unix + __sync_fetch_and_add (lock->rout, RINC); +#else + _InterlockedExchangeAdd16 (lock->rout, RINC); +#endif +} + +// Spin Latch Manager // wait until write lock mode is clear // and add 1 to the share count @@ -338,28 +431,20 @@ void bt_spinreadlock(BtSpinLatch *latch) ushort prev; do { - // obtain latch mutex #ifdef unix - if( __sync_lock_test_and_set(latch->mutex, 1) ) - continue; + prev = __sync_fetch_and_add (latch->lock, SHARE); #else - if( _InterlockedExchange8(latch->mutex, 1) ) - continue; + prev = _InterlockedExchangeAdd16(latch->lock, SHARE); #endif // see if exclusive request is granted or pending - if( prev = !(latch->exclusive | latch->pending) ) - latch->share++; - + if( !(prev & BOTH) ) + return; #ifdef unix - *latch->mutex = 0; + prev = __sync_fetch_and_add (latch->lock, -SHARE); #else - _InterlockedExchange8(latch->mutex, 0); + prev = _InterlockedExchangeAdd16(latch->lock, -SHARE); #endif - - if( prev ) - return; - #ifdef unix } while( sched_yield(), 1 ); #else @@ -371,27 +456,23 @@ ushort prev; void bt_spinwritelock(BtSpinLatch *latch) { -uint prev; +ushort prev; do { #ifdef unix - if( __sync_lock_test_and_set(latch->mutex, 1) ) - continue; + prev = __sync_fetch_and_or(latch->lock, PEND | XCL); #else - if( _InterlockedExchange8(latch->mutex, 1) ) - continue; + prev = _InterlockedOr16(latch->lock, PEND | XCL); #endif - if( prev = !(latch->share | latch->exclusive) ) - latch->exclusive = 1, latch->pending = 0; - else - latch->pending = 1; + if( !(prev & XCL) ) + if( !(prev & ~BOTH) ) + return; + else #ifdef unix - *latch->mutex = 0; + __sync_fetch_and_and (latch->lock, ~XCL); #else - _InterlockedExchange8(latch->mutex, 0); + _InterlockedAnd16(latch->lock, ~XCL); #endif - if( prev ) - return; #ifdef unix } while( sched_yield(), 1 ); #else @@ -406,26 +487,25 @@ uint prev; int bt_spinwritetry(BtSpinLatch *latch) { -uint prev; +ushort prev; -#ifdef unix - if( __sync_lock_test_and_set(latch->mutex, 1) ) - return 0; +#ifdef unix + prev = __sync_fetch_and_or(latch->lock, XCL); #else - if( _InterlockedExchange8(latch->mutex, 1) ) - return 0; + prev = _InterlockedOr16(latch->lock, XCL); #endif // take write access if all bits are clear - if( prev = !(latch->exclusive | latch->share) ) - latch->exclusive = 1; - + if( !(prev & XCL) ) + if( !(prev & ~BOTH) ) + return 1; + else #ifdef unix - *latch->mutex = 0; + __sync_fetch_and_and (latch->lock, ~XCL); #else - _InterlockedExchange8(latch->mutex, 0); + _InterlockedAnd16(latch->lock, ~XCL); #endif - return prev; + return 0; } // clear write mode @@ -433,17 +513,9 @@ uint prev; void bt_spinreleasewrite(BtSpinLatch *latch) { #ifdef unix - while( __sync_lock_test_and_set(latch->mutex, 1) ) - sched_yield(); -#else - while( _InterlockedExchange8(latch->mutex, 1) ) - SwitchToThread(); -#endif - latch->exclusive = 0; -#ifdef unix - *latch->mutex = 0; + __sync_fetch_and_and(latch->lock, ~BOTH); #else - _InterlockedExchange8(latch->mutex, 0); + _InterlockedAnd16(latch->lock, ~BOTH); #endif } @@ -452,17 +524,9 @@ void bt_spinreleasewrite(BtSpinLatch *latch) void bt_spinreleaseread(BtSpinLatch *latch) { #ifdef unix - while( __sync_lock_test_and_set(latch->mutex, 1) ) - sched_yield(); -#else - while( _InterlockedExchange8(latch->mutex, 1) ) - SwitchToThread(); -#endif - latch->share--; -#ifdef unix - *latch->mutex = 0; + __sync_fetch_and_add(latch->lock, -SHARE); #else - _InterlockedExchange8(latch->mutex, 0); + _InterlockedExchangeAdd16(latch->lock, -SHARE); #endif } @@ -473,8 +537,10 @@ BTERR bt_readpage (BtDb *bt, BtPage page, uid page_no) off64_t off = page_no << bt->page_bits; #ifdef unix - if( pread (bt->idx, page, bt->page_size, page_no << bt->page_bits) < bt->page_size ) + if( pread (bt->idx, page, bt->page_size, page_no << bt->page_bits) < bt->page_size ) { + fprintf (stderr, "Unable to read page %.8x errno = %d\n", page_no, errno); return bt->err = BTERR_read; + } #else OVERLAPPED ovl[1]; uint amt[1]; @@ -483,10 +549,14 @@ uint amt[1]; ovl->Offset = off; ovl->OffsetHigh = off >> 32; - if( !ReadFile(bt->idx, page, bt->page_size, amt, ovl)) + if( !ReadFile(bt->idx, page, bt->page_size, amt, ovl)) { + fprintf (stderr, "Unable to read page %.8x GetLastError = %d\n", page_no, GetLastError()); return bt->err = BTERR_read; - if( *amt < bt->page_size ) + } + if( *amt < bt->page_size ) { + fprintf (stderr, "Unable to read page %.8x GetLastError = %d\n", page_no, GetLastError()); return bt->err = BTERR_read; + } #endif return 0; } @@ -525,8 +595,9 @@ uint amt[1]; BTERR bt_latchlink (BtDb *bt, uint hashidx, uint slot, uid page_no) { -BtPage page = (BtPage)(slot * bt->page_size + bt->pagepool); +BtPage page = (BtPage)((uid)slot * bt->page_size + bt->pagepool); BtLatchSet *latch = bt->latchsets + slot; +int lvl; if( latch->next = bt->table[hashidx].slot ) bt->latchsets[latch->next].prev = slot; @@ -536,7 +607,21 @@ BtLatchSet *latch = bt->latchsets + slot; latch->prev = 0; latch->pin = 1; - return bt_readpage (bt, page, page_no); + if( bt_readpage (bt, page, page_no) ) + return bt->err; + + lvl = page->lvl << LVL_shift; + if( lvl > LVL_mask ) + lvl = LVL_mask; + latch->pin |= lvl; // store lvl + latch->pin |= lvl << 3; // initialize clock + +#ifdef unix + __sync_fetch_and_add (&bt->latchmgr->cache[page->lvl], 1); +#else + _InterlockedExchangeAdd(&bt->latchmgr->cache[page->lvl], 1); +#endif + return bt->err = 0; } // release latch pin @@ -546,7 +631,7 @@ void bt_unpinlatch (BtLatchSet *latch) #ifdef unix __sync_fetch_and_add(&latch->pin, -1); #else - _InterlockedDecrement (&latch->pin); + _InterlockedDecrement16 (&latch->pin); #endif } @@ -558,11 +643,12 @@ BtLatchSet *bt_pinlatch (BtDb *bt, uid page_no) uint hashidx = page_no % bt->latchmgr->latchhash; BtLatchSet *latch; uint slot, idx; +uint lvl, cnt; off64_t off; uint amt[1]; BtPage page; - // try to find unpinned entry + // try to find our entry bt_spinwritelock(bt->table[hashidx].latch); @@ -573,33 +659,21 @@ BtPage page; break; } while( slot = latch->next ); - // found our entry, bring to front of hash chain + // found our entry + // increment clock if( slot ) { latch = bt->latchsets + slot; + lvl = (latch->pin & LVL_mask) >> LVL_shift; + lvl *= CLOCK_unit * 2; + lvl |= CLOCK_unit; #ifdef unix __sync_fetch_and_add(&latch->pin, 1); + __sync_fetch_and_or(&latch->pin, lvl); #else - _InterlockedIncrement (&latch->pin); + _InterlockedIncrement16 (&latch->pin); + _InterlockedOr16 (&latch->pin, lvl); #endif - // unlink our entry from its hash chain position - - if( latch->prev ) - bt->latchsets[latch->prev].next = latch->next; - else - bt->table[hashidx].slot = latch->next; - - if( latch->next ) - bt->latchsets[latch->next].prev = latch->prev; - - // now link into head of the hash chain - - if( latch->next = bt->table[hashidx].slot ) - bt->latchsets[latch->next].prev = slot; - - bt->table[hashidx].slot = slot; - latch->prev = 0; - bt_spinreleasewrite(bt->table[hashidx].latch); return latch; } @@ -624,40 +698,68 @@ BtPage page; #else _InterlockedDecrement (&bt->latchmgr->latchdeployed); #endif - // find and reuse previous lru lock entry on victim hash chain + // find and reuse previous entry on victim while( 1 ) { #ifdef unix - idx = __sync_fetch_and_add(&bt->latchmgr->latchvictim, 1); + slot = __sync_fetch_and_add(&bt->latchmgr->latchvictim, 1); #else - idx = _InterlockedIncrement (&bt->latchmgr->latchvictim) - 1; + slot = _InterlockedIncrement (&bt->latchmgr->latchvictim) - 1; #endif // try to get write lock on hash chain // skip entry if not obtained - // or has outstanding locks + // or has outstanding pins - idx %= bt->latchmgr->latchhash; + slot %= bt->latchmgr->latchtotal; - if( !bt_spinwritetry (bt->table[idx].latch) ) - continue; + // on slot wraparound, check census + // count and increment safe level - if( slot = bt->table[idx].slot ) - while( 1 ) { - latch = bt->latchsets + slot; - if( !latch->next ) - break; - slot = latch->next; - } + cnt = bt->latchmgr->cache[bt->latchmgr->safelevel]; + + if( !slot ) { + if( cnt < bt->latchmgr->latchtotal / 10 ) +#ifdef unix + __sync_fetch_and_add(&bt->latchmgr->safelevel, 1); +#else + _InterlockedIncrement (&bt->latchmgr->safelevel); +#endif + continue; + } + + latch = bt->latchsets + slot; + idx = latch->page_no % bt->latchmgr->latchhash; + lvl = (latch->pin & LVL_mask) >> LVL_shift; + + // see if we are evicting this level yet + // or if we are on same chain as hashidx - if( !slot || latch->pin ) { - bt_spinreleasewrite (bt->table[idx].latch); + if( idx == hashidx || lvl > bt->latchmgr->safelevel ) continue; + + if( !bt_spinwritetry (bt->table[idx].latch) ) + continue; + + if( latch->pin & ~LVL_mask ) { + if( latch->pin & CLOCK_mask ) +#ifdef unix + __sync_fetch_and_add(&latch->pin, -CLOCK_unit); +#else + _InterlockedExchangeAdd16 (&latch->pin, -CLOCK_unit); +#endif + bt_spinreleasewrite (bt->table[idx].latch); + continue; } // update permanent page area in btree - page = (BtPage)(slot * bt->page_size + bt->pagepool); - + page = (BtPage)((uid)slot * bt->page_size + bt->pagepool); +#ifdef unix + posix_fadvise (bt->idx, page_no << bt->page_bits, bt->page_size, POSIX_FADV_WILLNEED); + __sync_fetch_and_add (&bt->latchmgr->cache[page->lvl], -1); +#else + _InterlockedExchangeAdd(&bt->latchmgr->cache[page->lvl], -1); +#endif if( page->dirty ) if( bt_writepage (bt, page, latch->page_no) ) return NULL; @@ -744,7 +846,8 @@ struct flock lock[1]; bt = calloc (1, sizeof(BtDb)); bt->idx = open ((char*)name, O_RDWR | O_CREAT, 0666); - + posix_fadvise( bt->idx, 0, 0, POSIX_FADV_RANDOM); + if( bt->idx == -1 ) { fprintf(stderr, "unable to open %s\n", name); return free(bt), NULL; @@ -783,7 +886,7 @@ struct flock lock[1]; #endif #ifdef unix - latchmgr = malloc (BT_maxpage); + latchmgr = valloc (BT_maxpage); *amt = 0; // read minimum page size to get root info @@ -874,13 +977,12 @@ struct flock lock[1]; // clear out buffer pool pages memset(latchmgr, 0, bt->page_size); - last = MIN_lvl; + last = MIN_lvl + nlatchpage; - while( ++last < ((MIN_lvl + 1 + nlatchpage) ) ) - if( bt_writepage (bt, latchmgr->alloc, last) ) { + if( bt_writepage (bt, latchmgr->alloc, last) ) { fprintf (stderr, "Unable to write buffer pool page %.8x\n", last); return bt_close (bt), NULL; - } + } #ifdef unix free (latchmgr); @@ -908,21 +1010,22 @@ btlatch: fprintf (stderr, "Unable to mmap page zero, errno = %d", errno); return bt_close (bt), NULL; } - bt->table = (void *)mmap (0, nlatchpage * bt->page_size, flag, MAP_SHARED, bt->idx, LATCH_page * bt->page_size); + bt->table = (void *)mmap (0, (uid)nlatchpage * bt->page_size, flag, MAP_SHARED, bt->idx, LATCH_page * bt->page_size); if( bt->table == MAP_FAILED ) { fprintf (stderr, "Unable to mmap buffer pool, errno = %d", errno); return bt_close (bt), NULL; } + madvise (bt->table, (uid)nlatchpage << bt->page_bits, MADV_RANDOM | MADV_WILLNEED); #else flag = PAGE_READWRITE; - bt->halloc = CreateFileMapping(bt->idx, NULL, flag, 0, (nlatchpage + LATCH_page) * bt->page_size, NULL); + bt->halloc = CreateFileMapping(bt->idx, NULL, flag, 0, ((uid)nlatchpage + LATCH_page) * bt->page_size, NULL); if( !bt->halloc ) { fprintf (stderr, "Unable to create file mapping for buffer pool mgr, GetLastError = %d\n", GetLastError()); return bt_close (bt), NULL; } flag = FILE_MAP_WRITE; - bt->latchmgr = MapViewOfFile(bt->halloc, flag, 0, 0, (nlatchpage + LATCH_page) * bt->page_size); + bt->latchmgr = MapViewOfFile(bt->halloc, flag, 0, 0, ((uid)nlatchpage + LATCH_page) * bt->page_size); if( !bt->latchmgr ) { fprintf (stderr, "Unable to map buffer pool, GetLastError = %d\n", GetLastError()); return bt_close (bt), NULL; @@ -930,11 +1033,11 @@ btlatch: bt->table = (void *)((char *)bt->latchmgr + LATCH_page * bt->page_size); #endif - bt->pagepool = (unsigned char *)bt->table + (nlatchpage - bt->latchmgr->latchtotal) * bt->page_size; - bt->latchsets = (BtLatchSet *)(bt->pagepool - bt->latchmgr->latchtotal * sizeof(BtLatchSet)); + bt->pagepool = (unsigned char *)bt->table + (uid)(nlatchpage - bt->latchmgr->latchtotal) * bt->page_size; + bt->latchsets = (BtLatchSet *)(bt->pagepool - (uid)bt->latchmgr->latchtotal * sizeof(BtLatchSet)); #ifdef unix - bt->mem = malloc (2 * bt->page_size); + bt->mem = valloc (2 * bt->page_size); #else bt->mem = VirtualAlloc(NULL, 2 * bt->page_size, MEM_COMMIT, PAGE_READWRITE); #endif @@ -949,19 +1052,19 @@ void bt_lockpage(BtLock mode, BtLatchSet *latch) { switch( mode ) { case BtLockRead: - bt_spinreadlock (latch->readwr); + ReadLock (latch->readwr); break; case BtLockWrite: - bt_spinwritelock (latch->readwr); + WriteLock (latch->readwr); break; case BtLockAccess: - bt_spinreadlock (latch->access); + ReadLock (latch->access); break; case BtLockDelete: - bt_spinwritelock (latch->access); + WriteLock (latch->access); break; case BtLockParent: - bt_spinwritelock (latch->parent); + WriteLock (latch->parent); break; } } @@ -972,19 +1075,19 @@ void bt_unlockpage(BtLock mode, BtLatchSet *latch) { switch( mode ) { case BtLockRead: - bt_spinreleaseread (latch->readwr); + ReadRelease (latch->readwr); break; case BtLockWrite: - bt_spinreleasewrite (latch->readwr); + WriteRelease (latch->readwr); break; case BtLockAccess: - bt_spinreleaseread (latch->access); + ReadRelease (latch->access); break; case BtLockDelete: - bt_spinreleasewrite (latch->access); + WriteRelease (latch->access); break; case BtLockParent: - bt_spinreleasewrite (latch->parent); + WriteRelease (latch->parent); break; } } @@ -1057,7 +1160,7 @@ void bt_update (BtDb *bt, BtPage page) { #ifdef unix msync (page, bt->page_size, MS_ASYNC); -//#else +#else // FlushViewOfFile (page, bt->page_size); #endif page->dirty = 1; @@ -1067,7 +1170,7 @@ void bt_update (BtDb *bt, BtPage page) BtPage bt_mappage (BtDb *bt, BtLatchSet *latch) { - return (BtPage)((latch - bt->latchsets) * bt->page_size + bt->pagepool); + return (BtPage)((uid)(latch - bt->latchsets) * bt->page_size + bt->pagepool); } // deallocate a deleted page @@ -1877,16 +1980,21 @@ uint bt_audit (BtDb *bt) uint idx, hashidx; uid next, page_no; BtLatchSet *latch; +uint blks[64]; uint cnt = 0; BtPage page; uint amt[1]; BtKey ptr; #ifdef unix + posix_fadvise( bt->idx, 0, 0, POSIX_FADV_SEQUENTIAL); +#endif if( *(ushort *)(bt->latchmgr->lock) ) fprintf(stderr, "Alloc page locked\n"); *(ushort *)(bt->latchmgr->lock) = 0; + memset (blks, 0, sizeof(blks)); + for( idx = 1; idx <= bt->latchmgr->latchdeployed; idx++ ) { latch = bt->latchsets + idx; if( *(ushort *)latch->readwr ) @@ -1901,35 +2009,36 @@ BtKey ptr; fprintf(stderr, "latchset %d parentlocked for page %.8x\n", idx, latch->page_no); *(ushort *)latch->parent = 0; - if( latch->pin ) { + if( latch->pin & PIN_mask ) { fprintf(stderr, "latchset %d pinned for page %.8x\n", idx, latch->page_no); latch->pin = 0; } - page = (BtPage)(idx * bt->page_size + bt->pagepool); + page = (BtPage)((uid)idx * bt->page_size + bt->pagepool); + blks[page->lvl]++; if( page->dirty ) if( bt_writepage (bt, page, latch->page_no) ) fprintf(stderr, "Page %.8x Write Error\n", latch->page_no); } + for( idx = 0; blks[idx]; idx++ ) + fprintf(stderr, "cache: %d lvl %d blocks\n", blks[idx], idx); + for( hashidx = 0; hashidx < bt->latchmgr->latchhash; hashidx++ ) { if( *(ushort *)(bt->table[hashidx].latch) ) fprintf(stderr, "hash entry %d locked\n", hashidx); *(ushort *)(bt->table[hashidx].latch) = 0; - - if( idx = bt->table[hashidx].slot ) do { - latch = bt->latchsets + idx; - if( latch->pin ) - fprintf(stderr, "latchset %d pinned for page %.8x\n", idx, latch->page_no); - } while( idx = latch->next ); } + memset (blks, 0, sizeof(blks)); + next = bt->latchmgr->nlatchpage + LATCH_page; page_no = LEAF_page; while( page_no < bt_getid(bt->latchmgr->alloc->right) ) { - pread (bt->idx, bt->frame, bt->page_size, page_no << bt->page_bits); + if( bt_readpage (bt, bt->frame, page_no) ) + fprintf(stderr, "page %.8x unreadable\n", page_no); if( !bt->frame->free ) { for( idx = 0; idx++ < bt->frame->cnt - 1; ) { ptr = keyptr(bt->frame, idx+1); @@ -1938,16 +2047,18 @@ BtKey ptr; } if( !bt->frame->lvl ) cnt += bt->frame->act; + blks[bt->frame->lvl]++; } if( page_no > LEAF_page ) next = page_no + 1; page_no = next; } + + for( idx = 0; blks[idx]; idx++ ) + fprintf(stderr, "btree: %d lvl %d blocks\n", blks[idx], idx); + return cnt - 1; -#else - return 0; -#endif } #ifndef unix @@ -2021,15 +2132,20 @@ int ch, cnt = 0, bits = 12, idx; unsigned char key[256]; double done, start; uid next, page_no; +BtLatchSet *latch; float elapsed; time_t tod[1]; uint scan = 0; uint len = 0; uint map = 0; +BtPage page; BtKey ptr; BtDb *bt; FILE *in; +#ifdef WIN32 + _setmode (1, _O_BINARY); +#endif if( argc < 4 ) { fprintf (stderr, "Usage: %s idx_file src_file Read/Write/Scan/Delete/Find/Count [page_bits mapped_pool_pages start_line_number]\n", argv[0]); fprintf (stderr, " page_bits: size of btree page in bits\n"); @@ -2058,15 +2174,27 @@ FILE *in; switch(argv[3][0]| 0x20) { - case 'a': - fprintf(stderr, "started audit for %s\n", argv[2]); + case 'p': // display page + if( latch = bt_pinlatch (bt, off) ) + page = bt_mappage (bt, latch); + else + fprintf(stderr, "unable to read page %.8x\n", off); + + write (1, page, bt->page_size); + break; + + case 'a': // buffer pool audit + fprintf(stderr, "started audit for %s\n", argv[1]); cnt = bt_audit (bt); - fprintf(stderr, "finished audit for %s, %d keys\n", argv[2], cnt); + fprintf(stderr, "finished audit for %s, %d keys\n", argv[1], cnt); break; - case 'w': + case 'w': // write keys fprintf(stderr, "started indexing for %s\n", argv[2]); - if( argc > 2 && (in = fopen (argv[2], "rb")) ) + if( argc > 2 && (in = fopen (argv[2], "rb")) ) { +#ifdef unix + posix_fadvise( fileno(in), 0, 0, POSIX_FADV_NOREUSE); +#endif while( ch = getc(in), ch != EOF ) if( ch == '\n' ) { @@ -2079,12 +2207,16 @@ FILE *in; } else if( len < 245 ) key[len++] = ch; + } fprintf(stderr, "finished adding keys for %s, %d \n", argv[2], line); break; - case 'd': + case 'd': // delete keys fprintf(stderr, "started deleting keys for %s\n", argv[2]); - if( argc > 2 && (in = fopen (argv[2], "rb")) ) + if( argc > 2 && (in = fopen (argv[2], "rb")) ) { +#ifdef unix + posix_fadvise( fileno(in), 0, 0, POSIX_FADV_NOREUSE); +#endif while( ch = getc(in), ch != EOF ) if( ch == '\n' ) { @@ -2097,12 +2229,16 @@ FILE *in; } else if( len < 245 ) key[len++] = ch; + } fprintf(stderr, "finished deleting keys for %s, %d \n", argv[2], line); break; - case 'f': + case 'f': // find keys fprintf(stderr, "started finding keys for %s\n", argv[2]); - if( argc > 2 && (in = fopen (argv[2], "rb")) ) + if( argc > 2 && (in = fopen (argv[2], "rb")) ) { +#ifdef unix + posix_fadvise( fileno(in), 0, 0, POSIX_FADV_NOREUSE); +#endif while( ch = getc(in), ch != EOF ) if( ch == '\n' ) { @@ -2117,10 +2253,11 @@ FILE *in; } else if( len < 245 ) key[len++] = ch; + } fprintf(stderr, "finished search of %d keys for %s, found %d\n", line, argv[2], found); break; - case 's': + case 's': // scan and print keys fprintf(stderr, "started scaning\n"); cnt = len = key[0] = 0; @@ -2139,7 +2276,7 @@ FILE *in; fprintf(stderr, " Total keys read %d\n", cnt - 1); break; - case 'c': + case 'c': // count keys fprintf(stderr, "started counting\n"); cnt = 0; @@ -2147,8 +2284,6 @@ FILE *in; page_no = LEAF_page; while( page_no < bt_getid(bt->latchmgr->alloc->right) ) { - BtLatchSet *latch; - BtPage page; if( latch = bt_pinlatch (bt, page_no) ) page = bt_mappage (bt, latch); if( !page->free && !page->lvl )