/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), 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. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #include "tdbInt.h" extern SPageMethods pageMethods; extern SPageMethods pageLargeMethods; #define TDB_PAGE_OFFSET_SIZE(pPage) ((pPage)->pPageMethods->szOffset) #define TDB_PAGE_HDR_SIZE(pPage) ((pPage)->pPageMethods->szPageHdr) #define TDB_PAGE_FREE_CELL_SIZE(pPage) ((pPage)->pPageMethods->szFreeCell) #define TDB_PAGE_MAX_FREE_BLOCK(pPage) \ ((pPage)->pageSize - (pPage)->szAmHdr - TDB_PAGE_HDR_SIZE(pPage) - sizeof(SPageFtr)) static int tdbPageAllocate(SPage *pPage, int size, SCell **ppCell); static int tdbPageDefragment(SPage *pPage); static int tdbPageFree(SPage *pPage, int idx, SCell *pCell, int szCell); int tdbPageCreate(int pageSize, SPage **ppPage, void *(*xMalloc)(void *, size_t), void *arg) { SPage *pPage; u8 *ptr; int size; ASSERT(TDB_IS_PGSIZE_VLD(pageSize)); *ppPage = NULL; size = pageSize + sizeof(*pPage); ptr = (u8 *)((*xMalloc)(arg, size)); if (pPage == NULL) { return -1; } memset(ptr, 0, size); pPage = (SPage *)(ptr + pageSize); TDB_INIT_PAGE_LOCK(pPage); pPage->pData = ptr; pPage->pageSize = pageSize; if (pageSize < 65536) { pPage->pPageMethods = &pageMethods; } else { pPage->pPageMethods = &pageLargeMethods; } *ppPage = pPage; return 0; } int tdbPageDestroy(SPage *pPage, void (*xFree)(void *arg, void *ptr), void *arg) { u8 *ptr; ptr = pPage->pData; (*xFree)(arg, ptr); return 0; } void tdbPageZero(SPage *pPage) { TDB_PAGE_NCELLS_SET(pPage, 0); TDB_PAGE_CCELLS_SET(pPage, pPage->pageSize - sizeof(SPageFtr)); TDB_PAGE_FCELL_SET(pPage, 0); TDB_PAGE_NFREE_SET(pPage, TDB_PAGE_MAX_FREE_BLOCK(pPage)); tdbPageInit(pPage); } void tdbPageInit(SPage *pPage) { pPage->pAmHdr = pPage->pData; pPage->pPageHdr = pPage->pAmHdr + pPage->szAmHdr; pPage->pCellIdx = pPage->pPageHdr + TDB_PAGE_HDR_SIZE(pPage); pPage->pFreeStart = pPage->pCellIdx + TDB_PAGE_OFFSET_SIZE(pPage) * TDB_PAGE_NCELLS(pPage); pPage->pFreeEnd = pPage->pData + TDB_PAGE_CCELLS(pPage); pPage->pPageFtr = (SPageFtr *)(pPage->pData + pPage->pageSize - sizeof(SPageFtr)); pPage->nOverflow = 0; ASSERT(pPage->pFreeEnd >= pPage->pFreeStart); ASSERT(pPage->pFreeEnd - pPage->pFreeStart <= TDB_PAGE_NFREE(pPage)); } int tdbPageInsertCell(SPage *pPage, int idx, SCell *pCell, int szCell) { int nFree; int ret; int nCells; int lidx; // local idx SCell *pNewCell; ASSERT(szCell <= TDB_PAGE_MAX_FREE_BLOCK(pPage)); nFree = TDB_PAGE_NFREE(pPage); nCells = TDB_PAGE_NCELLS(pPage); if (nFree >= szCell + TDB_PAGE_OFFSET_SIZE(pPage)) { // page must has enough space to hold the cell locally ret = tdbPageAllocate(pPage, szCell, &pNewCell); ASSERT(ret == 0); memcpy(pNewCell, pCell, szCell); if (pPage->nOverflow == 0) { lidx = idx; } else { // TODO // lidx = ; } // no overflow cell exists in this page u8 *src = pPage->pCellIdx + TDB_PAGE_OFFSET_SIZE(pPage) * lidx; u8 *dest = src + TDB_PAGE_OFFSET_SIZE(pPage); memmove(dest, src, pPage->pFreeStart - dest); TDB_PAGE_CELL_OFFSET_AT_SET(pPage, lidx, TDB_PAGE_OFFSET_SIZE(pPage) * lidx); TDB_PAGE_NCELLS_SET(pPage, nCells + 1); } else { // TODO: page not has enough space pPage->apOvfl[pPage->nOverflow] = pCell; pPage->aiOvfl[pPage->nOverflow] = idx; pPage->nOverflow++; } return 0; } int tdbPageDropCell(SPage *pPage, int idx) { int lidx; SCell *pCell; int szCell; int nCells; nCells = TDB_PAGE_NCELLS(pPage); if (pPage->nOverflow == 0) { lidx = idx; } else { // TODO } pCell = TDB_PAGE_CELL_AT(pPage, lidx); szCell = (*pPage->xCellSize)(pCell); tdbPageFree(pPage, lidx, pCell, szCell); TDB_PAGE_NCELLS_SET(pPage, nCells - 1); return 0; } static int tdbPageAllocate(SPage *pPage, int szCell, SCell **ppCell) { SCell *pFreeCell; u8 *pOffset; int nFree; int ret; int cellFree; SCell *pCell = NULL; *ppCell = NULL; nFree = TDB_PAGE_NFREE(pPage); ASSERT(nFree >= szCell + TDB_PAGE_OFFSET_SIZE(pPage)); ASSERT(TDB_PAGE_CCELLS(pPage) == pPage->pFreeEnd - pPage->pData); // 1. Try to allocate from the free space block area if (pPage->pFreeEnd - pPage->pFreeStart >= szCell + TDB_PAGE_OFFSET_SIZE(pPage)) { pPage->pFreeEnd -= szCell; pCell = pPage->pFreeEnd; TDB_PAGE_CCELLS_SET(pPage, pPage->pFreeEnd - pPage->pData); goto _alloc_finish; } // 2. Try to allocate from the page free list cellFree = TDB_PAGE_FCELL(pPage); ASSERT(cellFree == 0 || cellFree > pPage->pFreeEnd - pPage->pData); if (cellFree && pPage->pFreeEnd - pPage->pFreeStart >= TDB_PAGE_OFFSET_SIZE(pPage)) { SCell *pPrevFreeCell = NULL; int szPrevFreeCell; int szFreeCell; int nxFreeCell; int newSize; for (;;) { if (cellFree == 0) break; pFreeCell = pPage->pData + cellFree; pPage->pPageMethods->getFreeCellInfo(pFreeCell, &szFreeCell, &nxFreeCell); if (szFreeCell >= szCell) { pCell = pFreeCell; newSize = szFreeCell - szCell; pFreeCell += szCell; if (newSize >= TDB_PAGE_FREE_CELL_SIZE(pPage)) { pPage->pPageMethods->setFreeCellInfo(pFreeCell, newSize, nxFreeCell); if (pPrevFreeCell) { pPage->pPageMethods->setFreeCellInfo(pPrevFreeCell, szPrevFreeCell, pFreeCell - pPage->pData); } else { TDB_PAGE_FCELL_SET(pPage, pFreeCell - pPage->pData); } goto _alloc_finish; } else { if (pPrevFreeCell) { pPage->pPageMethods->setFreeCellInfo(pPrevFreeCell, szPrevFreeCell, nxFreeCell); } else { TDB_PAGE_FCELL_SET(pPage, nxFreeCell); } } } else { pPrevFreeCell = pFreeCell; szPrevFreeCell = szFreeCell; cellFree = nxFreeCell; } } } // 3. Try to dfragment and allocate again tdbPageDefragment(pPage); ASSERT(pPage->pFreeEnd - pPage->pFreeStart == nFree); ASSERT(nFree == TDB_PAGE_NFREE(pPage)); ASSERT(pPage->pFreeEnd - pPage->pData == TDB_PAGE_CCELLS(pPage)); pPage->pFreeEnd -= szCell; pCell = pPage->pFreeEnd; TDB_PAGE_CCELLS_SET(pPage, pPage->pFreeEnd - pPage->pData); _alloc_finish: ASSERT(pCell); pPage->pFreeStart += TDB_PAGE_OFFSET_SIZE(pPage); TDB_PAGE_NFREE_SET(pPage, nFree - szCell - TDB_PAGE_OFFSET_SIZE(pPage)); *ppCell = pCell; return 0; } static int tdbPageFree(SPage *pPage, int idx, SCell *pCell, int szCell) { int nFree; int cellFree; u8 *dest; u8 *src; ASSERT(pCell >= pPage->pFreeEnd); ASSERT(pCell + szCell <= (u8 *)(pPage->pPageFtr)); ASSERT(pCell == TDB_PAGE_CELL_AT(pPage, idx)); nFree = TDB_PAGE_NFREE(pPage); if (pCell == pPage->pFreeEnd) { pPage->pFreeEnd += szCell; TDB_PAGE_CCELLS_SET(pPage, pPage->pFreeEnd - pPage->pData); } else { if (szCell >= TDB_PAGE_FREE_CELL_SIZE(pPage)) { cellFree = TDB_PAGE_FCELL(pPage); pPage->pPageMethods->setFreeCellInfo(pCell, szCell, cellFree); TDB_PAGE_FCELL_SET(pPage, pCell - pPage->pData); } else { ASSERT(0); } } dest = pPage->pCellIdx + TDB_PAGE_OFFSET_SIZE(pPage) * idx; src = dest + TDB_PAGE_OFFSET_SIZE(pPage); memmove(dest, src, pPage->pFreeStart - src); pPage->pFreeStart -= TDB_PAGE_OFFSET_SIZE(pPage); nFree = nFree + szCell + TDB_PAGE_OFFSET_SIZE(pPage); TDB_PAGE_NFREE_SET(pPage, nFree); return 0; } static int tdbPageDefragment(SPage *pPage) { int nFree; int nCells; SCell *pCell; SCell *pNextCell; SCell *pTCell; int szCell; int idx; int iCell; ASSERT(pPage->pFreeEnd - pPage->pFreeStart < nFree); nFree = TDB_PAGE_NFREE(pPage); nCells = TDB_PAGE_NCELLS(pPage); // Loop to compact the page content // Here we use an O(n^2) algorithm to do the job since // this is a low frequency job. pNextCell = (u8 *)pPage->pPageFtr; pCell = NULL; for (iCell = 0;; iCell++) { // compact over if (iCell == nCells) { pPage->pFreeEnd = pNextCell; break; } for (int i = 0; i < nCells; i++) { if (TDB_PAGE_CELL_OFFSET_AT(pPage, i) < pNextCell - pPage->pData) { pTCell = TDB_PAGE_CELL_AT(pPage, i); if (pCell == NULL || pCell < pTCell) { pCell = pTCell; idx = i; } } else { continue; } } ASSERT(pCell != NULL); szCell = (*pPage->xCellSize)(pCell); ASSERT(pCell + szCell <= pNextCell); if (pCell + szCell < pNextCell) { memmove(pNextCell - szCell, pCell, szCell); } pCell = NULL; pNextCell = pNextCell - szCell; TDB_PAGE_CELL_OFFSET_AT_SET(pPage, idx, pNextCell - pPage->pData); } ASSERT(pPage->pFreeEnd - pPage->pFreeStart == nFree); TDB_PAGE_CCELLS_SET(pPage, pPage->pFreeEnd - pPage->pData); TDB_PAGE_FCELL_SET(pPage, 0); return 0; } /* ---------------------------------------------------------------------------------------------------------- */ typedef struct __attribute__((__packed__)) { u16 flags; u16 cellNum; u16 cellBody; u16 cellFree; u16 nFree; } SPageHdr; typedef struct __attribute__((__packed__)) { u16 szCell; u16 nxOffset; } SFreeCell; // flags static inline u16 getPageFlags(SPage *pPage) { return ((SPageHdr *)(pPage->pPageHdr))[0].flags; } static inline void setPageFlags(SPage *pPage, u16 flags) { ((SPageHdr *)(pPage->pPageHdr))[0].flags = flags; } // cellNum static inline int getPageCellNum(SPage *pPage) { return ((SPageHdr *)(pPage->pPageHdr))[0].cellNum; } static inline void setPageCellNum(SPage *pPage, int cellNum) { ASSERT(cellNum < 65536); ((SPageHdr *)(pPage->pPageHdr))[0].cellNum = (u16)cellNum; } // cellBody static inline int getPageCellBody(SPage *pPage) { return ((SPageHdr *)(pPage->pPageHdr))[0].cellBody; } static inline void setPageCellBody(SPage *pPage, int cellBody) { ASSERT(cellBody < 65536); ((SPageHdr *)(pPage->pPageHdr))[0].cellBody = (u16)cellBody; } // cellFree static inline int getPageCellFree(SPage *pPage) { return ((SPageHdr *)(pPage->pPageHdr))[0].cellFree; } static inline void setPageCellFree(SPage *pPage, int cellFree) { ASSERT(cellFree < 65536); ((SPageHdr *)(pPage->pPageHdr))[0].cellFree = (u16)cellFree; } // nFree static inline int getPageNFree(SPage *pPage) { return ((SPageHdr *)(pPage->pPageHdr))[0].nFree; } static inline void setPageNFree(SPage *pPage, int nFree) { ASSERT(nFree < 65536); ((SPageHdr *)(pPage->pPageHdr))[0].nFree = (u16)nFree; } // cell offset static inline int getPageCellOffset(SPage *pPage, int idx) { ASSERT(idx >= 0 && idx < getPageCellNum(pPage)); return ((u16 *)pPage->pCellIdx)[idx]; } static inline void setPageCellOffset(SPage *pPage, int idx, int offset) { ASSERT(offset < 65536); ((u16 *)pPage->pCellIdx)[idx] = (u16)offset; } // free cell info static inline void getPageFreeCellInfo(SCell *pCell, int *szCell, int *nxOffset) { SFreeCell *pFreeCell = (SFreeCell *)pCell; *szCell = pFreeCell->szCell; *nxOffset = pFreeCell->nxOffset; } static inline void setPageFreeCellInfo(SCell *pCell, int szCell, int nxOffset) { SFreeCell *pFreeCell = (SFreeCell *)pCell; pFreeCell->szCell = szCell; pFreeCell->nxOffset = nxOffset; } SPageMethods pageMethods = { 2, // szOffset sizeof(SPageHdr), // szPageHdr sizeof(SFreeCell), // szFreeCell getPageFlags, // getPageFlags setPageFlags, // setFlagsp getPageCellNum, // getCellNum setPageCellNum, // setCellNum getPageCellBody, // getCellBody setPageCellBody, // setCellBody getPageCellFree, // getCellFree setPageCellFree, // setCellFree getPageNFree, // getFreeBytes setPageNFree, // setFreeBytes getPageCellOffset, // getCellOffset setPageCellOffset, // setCellOffset getPageFreeCellInfo, // getFreeCellInfo setPageFreeCellInfo // setFreeCellInfo };