/* * PROGRAM: JRD Access Method * MODULE: dpm.epp * DESCRIPTION: Data page manager * * The contents of this file are subject to the Interbase Public * License Version 1.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy * of the License at http://www.Inprise.com/IPL.html * * Software distributed under the License is distributed on an * "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express * or implied. See the License for the specific language governing * rights and limitations under the License. * * The Original Code was created by Inprise Corporation * and its predecessors. Portions created by Inprise Corporation are * Copyright (C) Inprise Corporation. * * All Rights Reserved. * Contributor(s): ______________________________________. * * 2002.10.29 Sean Leyne - Removed obsolete "Netware" port * * 2002.10.30 Sean Leyne - Removed support for obsolete "PC_PLATFORM" define * */ /* * Modified by: Patrick J. P. Griffin * Date: 11/29/2000 * Problem: Bug 116733 Too many generators corrupt database. * DPM_gen_id was not calculating page and offset correctly. * Change: Corrected routine to use new variables from PAG_init. */ #include "firebird.h" #include "../jrd/ib_stdio.h" #include #include "../jrd/jrd.h" #include "../jrd/ods.h" #include "../jrd/req.h" #include "../jrd/y_ref.h" #include "../jrd/ibase.h" #include "../jrd/sqz.h" #include "../jrd/irq.h" #include "../jrd/blb.h" #include "../jrd/tra.h" #include "../jrd/lls.h" #include "../jrd/lck.h" #include "../jrd/cch.h" #include "../jrd/jrn.h" #include "../jrd/pag.h" #include "../jrd/sbm.h" #include "../jrd/rse.h" #ifdef VIO_DEBUG #include "../jrd/vio_debug.h" #endif #include "../jrd/all_proto.h" #include "../jrd/cch_proto.h" #include "../jrd/cmp_proto.h" #include "../jrd/dpm_proto.h" #include "../jrd/err_proto.h" #include "../jrd/exe_proto.h" #include "../jrd/met_proto.h" #include "../jrd/mov_proto.h" #include "../jrd/pag_proto.h" #include "../jrd/sbm_proto.h" #include "../jrd/sqz_proto.h" #include "../jrd/thd_proto.h" #ifdef DEV_BUILD #include "../jrd/dbg_proto.h" #endif DATABASE DB = FILENAME "ODS.RDB"; #define DECOMPOSE(n, divisor, q, r) {r = n % divisor; q = n / divisor;} #define DECOMPOSE_QUOTIENT(n, divisor, q) {q = n / divisor;} #define HIGH_WATER(x) ((SSHORT) sizeof (struct dpg) + (SSHORT) sizeof (dpg::dpg_repeat) * (x - 1)) #define SPACE_FUDGE RHDF_SIZE static void delete_tail(TDBB, RHDF, USHORT); static void fragment(TDBB, RPB *, SSHORT, Dcc*, SSHORT, JRD_TRA); static void extend_relation(TDBB, JRD_REL, WIN *); static UCHAR *find_space(TDBB, RPB *, SSHORT, LLS *, REC, USHORT); static BOOLEAN get_header(WIN *, SSHORT, RPB *); static PPG get_pointer_page(TDBB, JRD_REL, WIN *, USHORT, USHORT); static void journal_segment(TDBB, WIN *, USHORT); static RHD locate_space(TDBB, RPB *, SSHORT, LLS *, REC, USHORT); static void mark_full(TDBB, RPB *); static void release_dcc(Dcc*); static void store_big_record(TDBB, RPB *, LLS *, Dcc*, USHORT); PAG DPM_allocate(TDBB tdbb, WIN* window) { /************************************** * * D P M _ a l l o c a t e * ************************************** * * Functional description * Allocate (and set up for journalling) a data page. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf("DPM_allocate (window page %"SLONGFORMAT")\n", window ? window->win_page : 0); } #endif pag* page = PAG_allocate(window); if (dbb->dbb_wal) CCH_journal_page(tdbb, window); return page; } void DPM_backout( TDBB tdbb, RPB * rpb) { /************************************** * * D P M _ b a c k o u t * ************************************** * * Functional description * Backout a record where the record and previous version are on * the same page. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) ib_printf("DPM_backout (rpb %"SLONGFORMAT")\n", rpb->rpb_number); if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT" back %" SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif CCH_MARK(tdbb, &rpb->rpb_window); dpg* page = (dpg*) rpb->rpb_window.win_buffer; dpg::dpg_repeat* index1 = page->dpg_rpt + rpb->rpb_line; dpg::dpg_repeat* index2 = page->dpg_rpt + rpb->rpb_b_line; *index1 = *index2; index2->dpg_offset = index2->dpg_length = 0; rhd* header = (RHD) ((SCHAR *) page + index1->dpg_offset); header->rhd_flags &= ~(rhd_chain | rhd_gc_active); if (dbb->dbb_wal) { journal_segment(tdbb, &rpb->rpb_window, rpb->rpb_b_line); journal_segment(tdbb, &rpb->rpb_window, rpb->rpb_line); } #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" old record %"SLONGFORMAT":%d, new record %"SLONGFORMAT ":%d, old dpg_count %d, ", rpb->rpb_page, rpb->rpb_line, rpb->rpb_b_page, rpb->rpb_b_line, page->dpg_count); } #endif /* Check to see if the index got shorter */ USHORT n; for (n = page->dpg_count; --n;) { if (page->dpg_rpt[n].dpg_length) break; } page->dpg_count = n + 1; #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" new dpg_count %d\n", page->dpg_count); #endif CCH_RELEASE(tdbb, &rpb->rpb_window); } int DPM_chain( TDBB tdbb, RPB * org_rpb, RPB * new_rpb) { /************************************** * * D P M _ c h a i n * ************************************** * * Functional description * Start here with a plausible, but non-active RPB. * * We need to create a new version of a record. If the new version * fits on the same page as the old record, things are simple and * quick. If not, return FALSE and let somebody else suffer. * * Note that we also return FALSE if the record fetched doesn't * match the state of the input rpb, or if there is no record for * that record number. The caller has to check the results to * see what failed if FALSE is returned. At the moment, there is * only one caller, VIO_erase. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) { ib_printf("DPM_chain (org_rpb %"SLONGFORMAT", new_rpb %" SLONGFORMAT")\n", org_rpb->rpb_number, new_rpb ? new_rpb->rpb_number : 0); } if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" org record %"SLONGFORMAT":%d transaction %"SLONGFORMAT " back %"SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", org_rpb->rpb_page, org_rpb->rpb_line, org_rpb->rpb_transaction, org_rpb->rpb_b_page, org_rpb->rpb_b_line, org_rpb->rpb_f_page, org_rpb->rpb_f_line, org_rpb->rpb_flags); if (new_rpb) { ib_printf(" new record length %d transaction %"SLONGFORMAT " flags %d\n", new_rpb->rpb_length, new_rpb->rpb_transaction, new_rpb->rpb_flags); } } #endif RPB temp = *org_rpb; Dcc dcc; const USHORT size = SQZ_length(tdbb, (SCHAR*) new_rpb->rpb_address, (int) new_rpb->rpb_length, &dcc); if (!DPM_get(tdbb, org_rpb, LCK_write)) { #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" record not found in DPM_chain\n"); #endif release_dcc(dcc.dcc_next); return FALSE; } /* if somebody has modified the record since we looked last, stop now! */ if (temp.rpb_transaction != org_rpb->rpb_transaction || temp.rpb_b_page != org_rpb->rpb_b_page || temp.rpb_b_line != org_rpb->rpb_b_line) { CCH_RELEASE(tdbb, &org_rpb->rpb_window); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" record changed in DPM_chain\n"); #endif release_dcc(dcc.dcc_next); return FALSE; } if ((org_rpb->rpb_flags & rpb_delta) && temp.rpb_prior) org_rpb->rpb_prior = temp.rpb_prior; else if (org_rpb->rpb_flags & rpb_delta) { CCH_RELEASE(tdbb, &org_rpb->rpb_window); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" record delta state changed\n"); #endif release_dcc(dcc.dcc_next); return FALSE; } dpg* page = (DPG) org_rpb->rpb_window.win_buffer; /* If the record obviously isn't going to fit, don't even try */ if (size > dbb->dbb_page_size - (sizeof(struct dpg) + RHD_SIZE)) { CCH_RELEASE(tdbb, &org_rpb->rpb_window); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" insufficient room found in DPM_chain\n"); #endif release_dcc(dcc.dcc_next); return FALSE; } /* The record must be long enough to permit fragmentation later. If it's too small, compute the number of pad bytes required */ SLONG fill = (RHDF_SIZE - RHD_SIZE) - size; if (fill < 0) fill = 0; /* Accomodate max record size i.e. 64K */ const SLONG length = ROUNDUP(RHD_SIZE + size + fill, ODS_ALIGNMENT); /* Find space on page and open slot */ SSHORT slot = page->dpg_count; SSHORT space = dbb->dbb_page_size; SSHORT top = HIGH_WATER(page->dpg_count); SSHORT available = dbb->dbb_page_size - top; SSHORT n = 0; const dpg::dpg_repeat* index = page->dpg_rpt; for (const dpg::dpg_repeat* const end = index + page->dpg_count; index < end; index++, n++) { if (!index->dpg_length && slot == page->dpg_count) slot = n; SSHORT offset; if (index->dpg_length && (offset = index->dpg_offset)) { available -= ROUNDUP(index->dpg_length, ODS_ALIGNMENT); space = MIN(space, offset); } } if (slot == page->dpg_count) { top += sizeof(dpg::dpg_repeat); available -= sizeof(dpg::dpg_repeat); } /* If the record doesn't fit, punt */ if (length > available) { CCH_RELEASE(tdbb, &org_rpb->rpb_window); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" compressed page doesn't have room in DPM_chain\n"); #endif release_dcc(dcc.dcc_next); return FALSE; } CCH_precedence(tdbb, &org_rpb->rpb_window, -org_rpb->rpb_transaction); CCH_MARK(tdbb, &org_rpb->rpb_window); /* Record fits, in theory. Check to see if the page needs compression */ space -= length; if (space < top) space = DPM_compress(tdbb, page) - length; if (slot == page->dpg_count) ++page->dpg_count; /* Swap the old record into the new slot and the new record into the old slot */ new_rpb->rpb_b_page = new_rpb->rpb_page = org_rpb->rpb_page; new_rpb->rpb_b_line = slot; new_rpb->rpb_line = org_rpb->rpb_line; dpg::dpg_repeat* index2 = page->dpg_rpt + org_rpb->rpb_line; rhd* header = (RHD) ((SCHAR *) page + index2->dpg_offset); header->rhd_flags |= rhd_chain; page->dpg_rpt[slot] = *index2; index2->dpg_offset = space; index2->dpg_length = RHD_SIZE + size + fill; header = (RHD) ((SCHAR *) page + space); header->rhd_flags = new_rpb->rpb_flags; header->rhd_transaction = new_rpb->rpb_transaction; header->rhd_format = new_rpb->rpb_format_number; header->rhd_b_page = new_rpb->rpb_b_page; header->rhd_b_line = new_rpb->rpb_b_line; SQZ_fast(&dcc, (SCHAR*) new_rpb->rpb_address, (SCHAR*) header->rhd_data); release_dcc(dcc.dcc_next); if (fill) { UCHAR* p = header->rhd_data + size; do { *p++ = 0; } while (--fill); } if (dbb->dbb_wal) { journal_segment(tdbb, &org_rpb->rpb_window, org_rpb->rpb_line); journal_segment(tdbb, &org_rpb->rpb_window, new_rpb->rpb_b_line); } CCH_RELEASE(tdbb, &org_rpb->rpb_window); return TRUE; } int DPM_compress( TDBB tdbb, DPG page) { /************************************** * * D P M _ c o m p r e s s * ************************************** * * Functional description * Compress a data page. Return the high water mark. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("compress (page)\n"); if (debug_flag > DEBUG_TRACE_ALL_INFO) ib_printf(" sequence %"SLONGFORMAT"\n", page->dpg_sequence); #endif UCHAR temp_page[MAX_PAGE_SIZE]; if (dbb->dbb_page_size > sizeof(temp_page)) { BUGCHECK(250); /* msg 250 temporary page buffer too small */ } SSHORT space = dbb->dbb_page_size; const dpg::dpg_repeat* const end = page->dpg_rpt + page->dpg_count; for (dpg::dpg_repeat* index = page->dpg_rpt; index < end; index++) { if (index->dpg_offset) { const SSHORT l = index->dpg_length; space -= ROUNDUP(l, ODS_ALIGNMENT); MOVE_FAST((UCHAR *) page + index->dpg_offset, temp_page + space, l); index->dpg_offset = space; } } MOVE_FASTER(temp_page + space, (UCHAR *) page + space, dbb->dbb_page_size - space); if (page->dpg_header.pag_type != pag_data) BUGCHECK(251); /* msg 251 damaged data page */ return space; } void DPM_create_relation( TDBB tdbb, JRD_REL relation) { /************************************** * * D P M _ c r e a t e _ r e l a t i o n * ************************************** * * Functional description * Create a new relation. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("DPM_create_relation (relation %d)\n", relation->rel_id); #endif /* Allocate first pointer page */ WIN window(-1); ppg* page = (PPG) DPM_allocate(tdbb, &window); page->ppg_header.pag_type = pag_pointer; page->ppg_relation = relation->rel_id; page->ppg_header.pag_flags = ppg_eof; CCH_RELEASE(tdbb, &window); /* If this is relation 0 (RDB$PAGES), update the header */ if (relation->rel_id == 0) { WIN root_window(HEADER_PAGE); hdr* header = (HDR) CCH_FETCH(tdbb, &root_window, LCK_write, pag_header); CCH_MARK(tdbb, &root_window); header->hdr_PAGES = window.win_page; if (dbb->dbb_wal) { jrnda record; record.jrnda_type = JRNP_DB_HDR_PAGES; record.jrnda_data = window.win_page; CCH_journal_record(tdbb, &root_window, (const UCHAR*)&record, JRNDA_SIZE, NULL, 0); } CCH_RELEASE(tdbb, &root_window); } /* Keep track in memory of the first pointer page */ vcl* vector = vcl::newVector(*dbb->dbb_permanent, 1); relation->rel_pages = vector; (*vector)[0] = window.win_page; // CVC: AFAIK, DPM_allocate calls PAG_allocate and neither of them cares about win_page. // Therefore, I decided that the root_window in the if() above and this one aren't related. /* Create an index root page */ WIN root_window(-1); irt* root = (IRT) DPM_allocate(tdbb, &root_window); root->irt_header.pag_type = pag_root; root->irt_relation = relation->rel_id; /*root->irt_count = 0;*/ CCH_RELEASE(tdbb, &root_window); relation->rel_index_root = root_window.win_page; /* Store page numbers in RDB$PAGES */ DPM_pages(tdbb, relation->rel_id, pag_pointer, (ULONG) 0, window.win_page); DPM_pages(tdbb, relation->rel_id, pag_root, (ULONG) 0, root_window.win_page); } SLONG DPM_data_pages(TDBB tdbb, JRD_REL relation) { /************************************** * * D P M _ d a t a _ p a g e s * ************************************** * * Functional description * Compute and return the number of data pages in a relation. * Some poor sucker is going to use this information to make * an educated guess at the number of records in the relation. * **************************************/ SET_TDBB(tdbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("DPM_data_pages (relation %d)\n", relation->rel_id); #endif SLONG pages = relation->rel_data_pages; if (!pages) { WIN window(-1); for (USHORT sequence = 0; true; sequence++) { const ppg* ppage = get_pointer_page(tdbb, relation, &window, sequence, LCK_read); if (!ppage) BUGCHECK(243); /* msg 243 missing pointer page in DPM_data_pages */ const SLONG* page = ppage->ppg_page; const SLONG* const end_page = page + ppage->ppg_count; while (page < end_page) { if (*page++) pages++; } if (ppage->ppg_header.pag_flags & ppg_eof) break; CCH_RELEASE(tdbb, &window); } CCH_RELEASE(tdbb, &window); #ifdef SUPERSERVER relation->rel_data_pages = pages; #endif } #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf(" returned pages: %"SLONGFORMAT"\n", pages); #endif return pages; } void DPM_delete( TDBB tdbb, RPB * rpb, SLONG prior_page) { /************************************** * * D P M _ d e l e t e * ************************************** * * Functional description * Delete a fragment from data page. Assume the page has * already been fetched (but not marked) for write. Copy the * record header into the record parameter block before deleting * it. If the record goes empty, release the page. Release the * page when we're done. * **************************************/ PPG ppage; SSHORT slot, count; USHORT pp_sequence; SLONG *ptr; JRNP journal; JRD_REL relation; SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) { ib_printf("DPM_delete (rpb %"SLONGFORMAT", prior_page %"SLONGFORMAT ")\n", rpb->rpb_number, prior_page); } if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT" back %" SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif WIN* window = &rpb->rpb_window; dpg* page = (DPG) window->win_buffer; SLONG sequence = page->dpg_sequence; dpg::dpg_repeat* index = &page->dpg_rpt[rpb->rpb_line]; const SLONG number = rpb->rpb_number; if (!get_header(window, rpb->rpb_line, rpb)) { CCH_RELEASE(tdbb, window); BUGCHECK(244); /* msg 244 Fragment does not exist */ } #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" record length as stored in record header: %d\n", rpb->rpb_length); } #endif rpb->rpb_number = number; CCH_precedence(tdbb, window, prior_page); CCH_MARK(tdbb, window); index->dpg_offset = 0; index->dpg_length = 0; if (dbb->dbb_wal) journal_segment(tdbb, window, rpb->rpb_line); /* Compute the highest line number level on page */ for (index = &page->dpg_rpt[page->dpg_count]; index > page->dpg_rpt; --index) { if (index[-1].dpg_offset) break; } page->dpg_count = count = index - page->dpg_rpt; /* If the page is not empty and used to be marked as full, change the state of both the page and the appropriate pointer page. */ if (count && (page->dpg_header.pag_flags & dpg_full)) { DEBUG page->dpg_header.pag_flags &= ~dpg_full; mark_full(tdbb, rpb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" page is no longer full\n"); #endif return; } const UCHAR flags = page->dpg_header.pag_flags; CCH_RELEASE(tdbb, window); /* If the page is non-empty, we're done. */ if (count) return; if (flags & dpg_orphan) { /* The page inventory page will be written after the page being released, which will be written after the pages from which earlier fragments were deleted, which will be written after the page from which the first fragment is deleted. The resulting 'must-be-written-after' graph is: pip --> deallocated page --> prior_page */ PAG_release_page(window->win_page, window->win_page); return; } /* Data page has gone empty. Refetch page thru pointer page. If it's still empty, remove page from relation. */ DECOMPOSE(sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); retry_after_latch_timeout: WIN pwindow(-1); if (! (ppage = get_pointer_page(tdbb, rpb->rpb_relation, &pwindow, pp_sequence, LCK_write))) BUGCHECK(245); /* msg 245 pointer page disappeared in DPM_delete */ if (slot >= ppage->ppg_count || !(window->win_page = ppage->ppg_page[slot])) { CCH_RELEASE(tdbb, &pwindow); return; } /* Since this fetch for exclusive access follows a (pointer page) fetch for exclusive access, put a timeout on this fetch to be able to recover from possible deadlocks. */ page = (DPG) CCH_FETCH_TIMEOUT(tdbb, window, LCK_write, pag_data, -1); if (!page) { CCH_RELEASE(tdbb, &pwindow); goto retry_after_latch_timeout; } if (page->dpg_count) { CCH_RELEASE(tdbb, &pwindow); CCH_RELEASE(tdbb, window); return; } /* Data page is still empty and still in the relation. Eliminate the pointer to the data page then release the page. */ #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf ("\tDPM_delete: page %"SLONGFORMAT " is empty and about to be released from relation %d\n", window->win_page, rpb->rpb_relation->rel_id); } #endif /* Make sure that the pointer page is written after the data page. The resulting 'must-be-written-after' graph is: pip --> pp --> deallocated page --> prior_page */ CCH_precedence(tdbb, &pwindow, window->win_page); CCH_MARK(tdbb, &pwindow); ppage->ppg_page[slot] = 0; for (ptr = &ppage->ppg_page[ppage->ppg_count]; ptr > ppage->ppg_page; --ptr) { if (ptr[-1]) break; } ppage->ppg_count = count = ptr - ppage->ppg_page; if (count) count--; ppage->ppg_min_space = MIN(ppage->ppg_min_space, count); relation = rpb->rpb_relation; relation->rel_slot_space = MIN(relation->rel_slot_space, pp_sequence); if (relation->rel_data_pages) --relation->rel_data_pages; /* If journalling is enabled, make of note */ if (dbb->dbb_wal) { journal.jrnp_type = JRNP_POINTER_SLOT; journal.jrnp_index = slot; journal.jrnp_length = 0; CCH_journal_record(tdbb, &pwindow, (const UCHAR*)&journal, JRNP_SIZE, NULL, 0); } CCH_RELEASE(tdbb, &pwindow); CCH_RELEASE(tdbb, window); /* Make sure that the page inventory page is written after the pointer page. Earlier, we make sure that the pointer page is written after the data page being released. */ PAG_release_page(window->win_page, pwindow.win_page); } void DPM_delete_relation( TDBB tdbb, JRD_REL relation) { /************************************** * * D P M _ d e l e t e _ r e l a t i o n * ************************************** * * Functional description * Get rid of an unloved, unwanted relation. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; WIN window(-1), data_window(-1); window.win_flags = data_window.win_flags = WIN_large_scan; window.win_scans = data_window.win_scans = 1; #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("DPM_delete_relation (relation %d)\n", relation->rel_id); #endif /* Delete all data and pointer pages */ for (USHORT sequence = 0; true; sequence++) { const ppg* ppage = get_pointer_page(tdbb, relation, &window, sequence, LCK_read); if (!ppage) { BUGCHECK(246); /* msg 246 pointer page lost from DPM_delete_relation */ } const SLONG* page = ppage->ppg_page; const UCHAR* flags = (UCHAR *) (ppage->ppg_page + dbb->dbb_dp_per_pp); for (USHORT i = 0; i < ppage->ppg_count; i++, page++) { if (!*page) { continue; } if (flags[i >> 2] & (2 << ((i & 3) << 1))) { data_window.win_page = *page; dpg* dpage = (DPG) CCH_FETCH(tdbb, &data_window, LCK_write, pag_data); const dpg::dpg_repeat* line = dpage->dpg_rpt; const dpg::dpg_repeat* const end_line = line + dpage->dpg_count; for (; line < end_line; line++) { if (line->dpg_length) { rhd* header = (RHD) ((UCHAR *) dpage + line->dpg_offset); if (header->rhd_flags & rhd_large) { delete_tail(tdbb, (RHDF)header, line->dpg_length); } } } CCH_RELEASE_TAIL(tdbb, &data_window); } PAG_release_page(*page, 0); } const UCHAR pag_flags = ppage->ppg_header.pag_flags; CCH_RELEASE_TAIL(tdbb, &window); PAG_release_page(window.win_page, 0); if (pag_flags & ppg_eof) { break; } } delete relation->rel_pages; relation->rel_pages = NULL; relation->rel_data_pages = 0; /* Now get rid of the index root page */ PAG_release_page(relation->rel_index_root, 0); relation->rel_index_root = 0; /* Next, cancel out stuff from RDB$PAGES */ blk* handle = NULL; FOR(REQUEST_HANDLE handle) X IN RDB$PAGES WITH X.RDB$RELATION_ID EQ relation->rel_id ERASE X; END_FOR; CMP_release(tdbb, (JRD_REQ)handle); CCH_flush(tdbb, (USHORT) FLUSH_ALL, 0); } BOOLEAN DPM_fetch(TDBB tdbb, RPB * rpb, USHORT lock) { /************************************** * * D P M _ f e t c h * ************************************** * * Functional description * Fetch a particular record fragment from page and line numbers. * Get various header stuff, but don't change the record number. * * return: TRUE if the fragment is returned. * FALSE if the fragment is not found. * **************************************/ SET_TDBB(tdbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS) ib_printf("DPM_fetch (rpb %"SLONGFORMAT", lock %d)\n", rpb->rpb_number, lock); if (debug_flag > DEBUG_READS_INFO) ib_printf(" record %"SLONGFORMAT":%d\n", rpb->rpb_page, rpb->rpb_line); #endif const SLONG number = rpb->rpb_number; rpb->rpb_window.win_page = rpb->rpb_page; CCH_FETCH(tdbb, &rpb->rpb_window, lock, pag_data); if (!get_header(&rpb->rpb_window, rpb->rpb_line, rpb)) { CCH_RELEASE(tdbb, &rpb->rpb_window); return FALSE; } #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS_INFO) { ib_printf (" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT" back %" SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif rpb->rpb_number = number; return TRUE; } SSHORT DPM_fetch_back(TDBB tdbb, RPB * rpb, USHORT lock, SSHORT latch_wait) { /************************************** * * D P M _ f e t c h _ b a c k * ************************************** * * Functional description * Chase a backpointer with a handoff. * * input: * latch_wait: 1 => Wait as long as necessary to get the latch. * This can cause deadlocks of course. * 0 => If the latch can't be acquired immediately, * give up and return 0. * => Latch timeout interval in seconds. * * return: * 1: fetch back was successful. * 0: unsuccessful (only possible is latch_wait <> 1), * The latch timed out. * The latch on the fetched page is downgraded to shared. * The fetched page is unmarked. * **************************************/ SET_TDBB(tdbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS) { ib_printf("DPM_fetch_back (rpb %"SLONGFORMAT", lock %d)\n", rpb->rpb_number, lock); } if (debug_flag > DEBUG_READS_INFO) { ib_printf(" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT " back %"SLONGFORMAT":%d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line); } #endif /* Possibly allow a latch timeout to occur. Return error if that is the case. */ if (!(CCH_HANDOFF_TIMEOUT(tdbb, &rpb->rpb_window, rpb->rpb_b_page, lock, pag_data, latch_wait))) { return 0; } const SLONG number = rpb->rpb_number; rpb->rpb_page = rpb->rpb_b_page; rpb->rpb_line = rpb->rpb_b_line; if (!get_header(&rpb->rpb_window, rpb->rpb_line, rpb)) { CCH_RELEASE(tdbb, &rpb->rpb_window); BUGCHECK(291); /* msg 291 cannot find record back version */ } #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS_INFO) { ib_printf(" record fetched %"SLONGFORMAT":%d transaction %" SLONGFORMAT" back %"SLONGFORMAT":%d fragment %"SLONGFORMAT ":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif rpb->rpb_number = number; return 1; } void DPM_fetch_fragment( TDBB tdbb, RPB * rpb, USHORT lock) { /************************************** * * D P M _ f e t c h _f r a g m e n t * ************************************** * * Functional description * Chase a fragment pointer with a handoff. * **************************************/ SET_TDBB(tdbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS) ib_printf("DPM_fetch_fragment (rpb %"SLONGFORMAT", lock %d)\n", rpb->rpb_number, lock); if (debug_flag > DEBUG_READS_INFO) { ib_printf(" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT " back %"SLONGFORMAT":%d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line); } #endif const SLONG number = rpb->rpb_number; rpb->rpb_page = rpb->rpb_f_page; rpb->rpb_line = rpb->rpb_f_line; CCH_HANDOFF(tdbb, &rpb->rpb_window, rpb->rpb_page, lock, pag_data); if (!get_header(&rpb->rpb_window, rpb->rpb_line, rpb)) { CCH_RELEASE(tdbb, &rpb->rpb_window); BUGCHECK(248); /* msg 248 cannot find record fragment */ } #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS_INFO) { ib_printf (" record fetched %"SLONGFORMAT":%d transaction %"SLONGFORMAT " back %"SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif rpb->rpb_number = number; } SINT64 DPM_gen_id(TDBB tdbb, SLONG generator, USHORT initialize, SINT64 val) { /************************************** * * D P M _ g e n _ i d * ************************************** * * Functional description * Generate relation specific value. * If initialize is set then value of generator is made * equal to val else generator is incremented by val. * The resulting value is the result of the function. **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) { ib_printf("DPM_gen_id (generator %"SLONGFORMAT", val %" QUADFORMAT "d)\n", generator, val); } #endif const USHORT sequence = generator / dbb->dbb_pcontrol->pgc_gpg; const USHORT offset = generator % dbb->dbb_pcontrol->pgc_gpg; WIN window(-1); vcl* vector = dbb->dbb_gen_id_pages; if (!vector || (sequence >= vector->count()) || !((*vector)[sequence])) { DPM_scan_pages(tdbb); if (!(vector = dbb->dbb_gen_id_pages) || (sequence >= vector->count()) || !((*vector)[sequence])) { gpg* page = (GPG) DPM_allocate(tdbb, &window); page->gpg_header.pag_type = pag_ids; page->gpg_sequence = sequence; CCH_must_write(&window); CCH_RELEASE(tdbb, &window); DPM_pages(tdbb, 0, pag_ids, (ULONG) sequence, window.win_page); vector = dbb->dbb_gen_id_pages = vcl::newVector(*dbb->dbb_permanent, dbb->dbb_gen_id_pages, sequence + 1); (*vector)[sequence] = window.win_page; } } window.win_page = (*vector)[sequence]; window.win_flags = 0; gpg* page; if (dbb->dbb_flags & DBB_read_only) page = (GPG) CCH_FETCH(tdbb, &window, LCK_read, pag_ids); else page = (GPG) CCH_FETCH(tdbb, &window, LCK_write, pag_ids); /* If we are in ODS >= 10, then we have a pointer to an int64 value in the * generator page: if earlier than 10, it's a pointer to a long value. * Pick up the right kind of pointer, based on the ODS version. * The conditions were commented out 1999-05-14 by ChrisJ, because we * decided that the V6 engine would only access an ODS-10 database. * (and uncommented 2000-05-05, also by ChrisJ, when minds changed.) */ SINT64* ptr = 0; SLONG* lptr = 0; if (dbb->dbb_ods_version >= ODS_VERSION10) ptr = ((SINT64 *) (page->gpg_values)) + offset; else lptr = ((SLONG *) (((PPG) page)->ppg_page)) + offset; if (val || initialize) { if (dbb->dbb_flags & DBB_read_only) ERR_post(isc_read_only_database, 0); CCH_MARK(tdbb, &window); /* Initialize or increment the quad value in an ODS 10 or later * generator page, or the long value in ODS <= 9. * The conditions were commented out 1999-05-14 by ChrisJ, because we * decided that the V6 engine would only access an ODS-10 database. * (and uncommented 2000-05-05, also by ChrisJ, when minds changed.) */ if (dbb->dbb_ods_version >= ODS_VERSION10) { if (initialize) *ptr = val; else *ptr += val; } else if (initialize) *lptr = (SLONG) val; else *lptr += (SLONG) val; if (dbb->dbb_wal) { /******* MAKE journalling logical *******/ jrng journal; journal.jrng_type = JRNP_GENERATOR; journal.jrng_offset = offset; journal.jrng_genval = *ptr; CCH_journal_record(tdbb, &window, (const UCHAR*)&journal, JRNG_SIZE, NULL, 0); } if (tdbb->tdbb_transaction) tdbb->tdbb_transaction->tra_flags |= TRA_write; } /* If we are in ODS >= 10, then we have a pointer to an int64 value in the * generator page: if earlier than 10, it's a pointer to a long value. * We always want to return an int64, so convert the long value from the * old ODS into an int64. * The conditions were commented out 1999-05-14 by ChrisJ, because we * decided that the V6 engine would only access an ODS-10 database. * (and uncommented 2000-05-05, also by ChrisJ, when minds changed.) */ SINT64 value; if (dbb->dbb_ods_version >= ODS_VERSION10) value = *ptr; else value = (SINT64) *lptr; CCH_RELEASE(tdbb, &window); return value; } int DPM_get( TDBB tdbb, RPB * rpb, SSHORT lock_type) { /************************************** * * D P M _ g e t * ************************************** * * Functional description * Get a specific record in a relation. If it doesn't exit, * just return false. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS) { ib_printf("DPM_get (rpb %"SLONGFORMAT", lock type %d)\n", rpb->rpb_number, lock_type); } #endif WIN* window = &rpb->rpb_window; rpb->rpb_prior = NULL; /* Find starting point */ SLONG sequence; USHORT pp_sequence; SSHORT slot, line; DECOMPOSE(rpb->rpb_number, dbb->dbb_max_records, sequence, line); DECOMPOSE(sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); /* Check if the record number is OK */ if ((slot < 0) || (line < 0)) return FALSE; /* Find the next pointer page, data page, and record */ ppg* page = get_pointer_page(tdbb, rpb->rpb_relation, window, pp_sequence, LCK_read); if (!page) { return FALSE; } #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS_INFO) ib_printf(" record %"SLONGFORMAT":%d\n", page->ppg_page[slot], line); #endif const SLONG page_number = page->ppg_page[slot]; if (page_number) { CCH_HANDOFF(tdbb, window, page_number, lock_type, pag_data); if (get_header(window, line, rpb) && !(rpb->rpb_flags & (rpb_blob | rpb_chained | rpb_fragment))) { return TRUE; } } CCH_RELEASE(tdbb, window); return FALSE; } ULONG DPM_get_blob(TDBB tdbb, BLB blob, ULONG record_number, USHORT delete_flag, SLONG prior_page) { /************************************** * * D P M _ g e t _ b l o b * ************************************** * * Functional description * Given a blob block, find the associated blob. If blob is level 0, * get the data clump, otherwise get the vector of pointers. * * If the delete flag is set, delete the blob header after access * and return the page number. This is a kludge, but less code * a completely separate delete blob call. * **************************************/ ATT attachment; SLONG page_number; DPG page; PPG ppage; BLH header; USHORT length; UCHAR *p, *q; RPB rpb; dpg::dpg_repeat *index; SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); rpb.rpb_window.win_flags = WIN_secondary; #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS) { ib_printf ("DPM_get_blob (blob, record_number %"ULONGFORMAT ", delete_flag %d, prior_page %"SLONGFORMAT")\n", record_number, delete_flag, prior_page); } #endif /* Find starting point */ SLONG sequence; USHORT pp_sequence; USHORT slot, line; DECOMPOSE(record_number, dbb->dbb_max_records, sequence, line); DECOMPOSE(sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); /* Find the next pointer page, data page, and record. If the page or record doesn't exist, or the record isn't a blob, give up and let somebody else complain. */ if (!(ppage = get_pointer_page(tdbb, blob->blb_relation, &rpb.rpb_window, pp_sequence, LCK_read))) { blob->blb_flags |= BLB_damaged; return 0UL; } if (!(page_number = ppage->ppg_page[slot])) { goto punt; } page = (DPG) CCH_HANDOFF(tdbb, &rpb.rpb_window, page_number, (SSHORT)((delete_flag) ? LCK_write : LCK_read), pag_data); if (line >= page->dpg_count) goto punt; index = &page->dpg_rpt[line]; if (index->dpg_offset == 0) goto punt; header = (BLH) ((SCHAR *) page + index->dpg_offset); if (!(header->blh_flags & rhd_blob)) goto punt; /* We've got the blob header and everything looks ducky. Get the header fields. */ blob->blb_lead_page = header->blh_lead_page; blob->blb_max_sequence = header->blh_max_sequence; blob->blb_count = header->blh_count; blob->blb_length = header->blh_length; blob->blb_max_segment = header->blh_max_segment; blob->blb_level = header->blh_level; blob->blb_sub_type = header->blh_sub_type; /* Unless this is the only attachment, don't allow the sequential scan of very large blobs to flush pages used by other attachments. */ if ((attachment = tdbb->tdbb_attachment) && (attachment != dbb->dbb_attachments || attachment->att_next)) { /* If the blob has more pages than the page buffer cache then mark it as large. If this is a database backup then mark any blob as large as the cumulative effect of scanning many small blobs is equivalent to scanning single large blobs. */ if (blob->blb_max_sequence > dbb->dbb_bcb->bcb_count || attachment->att_flags & ATT_gbak_attachment) blob->blb_flags |= BLB_large_scan; } if (header->blh_flags & rhd_stream_blob) blob->blb_flags |= BLB_stream; if (header->blh_flags & rhd_damaged) { blob->blb_flags |= BLB_damaged; CCH_RELEASE(tdbb, &rpb.rpb_window); return 0UL; } /* Retrieve the data either into page clump (level 0) or page vector (levels 1 and 2). */ length = index->dpg_length - BLH_SIZE; q = (UCHAR *) header->blh_data; if (blob->blb_level == 0) { blob->blb_space_remaining = length; p = blob->blb_data; if (length) MOVE_FASTER(q, p, length); } else { VCL vector = blob->blb_pages; if (!vector) { vector = blob->blb_pages = vcl::newVector(*blob->blb_transaction->tra_pool, 0); } vector->resize(length / sizeof(SLONG)); MOVE_FASTER(q, vector->memPtr(), length); } if (!delete_flag) { CCH_RELEASE(tdbb, &rpb.rpb_window); return 0UL; } /* We've been asked (nicely) to delete the blob. So do so. */ rpb.rpb_relation = blob->blb_relation; rpb.rpb_page = rpb.rpb_window.win_page; rpb.rpb_line = line; DPM_delete(tdbb, &rpb, prior_page); return rpb.rpb_page; punt: CCH_RELEASE(tdbb, &rpb.rpb_window); blob->blb_flags |= BLB_damaged; return 0UL; } BOOLEAN DPM_next(TDBB tdbb, RPB * rpb, USHORT lock_type, BOOLEAN backwards, BOOLEAN onepage) { /************************************** * * D P M _ n e x t * ************************************** * * Functional description * Get the next record in a stream. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS) ib_printf("DPM_next (rpb %"SLONGFORMAT")\n", rpb->rpb_number); #endif WIN* window = &rpb->rpb_window; if (window->win_flags & WIN_large_scan) { /* Try to account for staggered execution of large sequential scans. */ window->win_scans = rpb->rpb_relation->rel_scan_count - rpb->rpb_org_scans; if (window->win_scans < 1) window->win_scans = rpb->rpb_relation->rel_scan_count; } rpb->rpb_prior = NULL; /* Find starting point */ if (backwards) { if (rpb->rpb_number > 0) rpb->rpb_number--; else if (rpb->rpb_number < 0) { /* if the stream was just opened, assume we want to start at the end of the stream, so compute the last theoretically possible rpb_number and go down from there */ /** for now, we must force a scan to make sure that we get the last pointer page: this should be changed to use a coordination mechanism (probably using a shared lock) to keep apprised of when a pointer page gets added **/ DPM_scan_pages(tdbb); const vcl* vector = rpb->rpb_relation->rel_pages; if (!vector) return FALSE; const size_t pp_sequence = vector->count(); rpb->rpb_number = (((SLONG) (pp_sequence * dbb->dbb_dp_per_pp) * dbb->dbb_max_records) - 1); // CVC: After doing local scope, this variable was undeclared // because I moved it below this loop. However, declaring it here // serves no purpose. You may declare "line" above the loop. // However, the DECOMPOSE call below uses "line" as an output param // only, so it doesn't make sense to preserve any prior value. //line = dbb->dbb_max_records - 1; } else return FALSE; } else rpb->rpb_number++; SLONG sequence; SSHORT slot, line; USHORT pp_sequence; DECOMPOSE(rpb->rpb_number, dbb->dbb_max_records, sequence, line); DECOMPOSE(sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); #ifdef VIO_DEBUG if (debug_flag > DEBUG_READS_INFO) { ib_printf(" pointer, slot, and line %d:%d%d\n", pp_sequence, slot, line); } #endif /* Find the next pointer page, data page, and record */ while (true) { const ppg* ppage = get_pointer_page(tdbb, rpb->rpb_relation, window, pp_sequence, LCK_read); if (!ppage) BUGCHECK(249); /* msg 249 pointer page vanished from DPM_next */ if (backwards && slot >= ppage->ppg_count) slot = ppage->ppg_count - 1; for (; slot >= 0 && slot < ppage->ppg_count;) { const SLONG page_number = ppage->ppg_page[slot]; if (page_number) { #ifdef SUPERSERVER_V2 /* Perform sequential prefetch of relation's data pages. This may need more work for scrollable cursors. */ if (!onepage && !line && !backwards) { if (!(slot % dbb->dbb_prefetch_sequence)) { SLONG pages[PREFETCH_MAX_PAGES + 1]; USHORT slot2 = slot; USHORT i; for (i = 0; i < dbb->dbb_prefetch_pages && slot2 < ppage->ppg_count;) { pages[i++] = ppage->ppg_page[slot2++]; } /* If no more data pages, piggyback next pointer page. */ if (slot2 >= ppage->ppg_count) pages[i++] = ppage->ppg_next; CCH_PREFETCH(tdbb, pages, i); } } #endif const dpg* dpage = (DPG) CCH_HANDOFF(tdbb, window, page_number, lock_type, pag_data); if (backwards && line >= dpage->dpg_count) line = dpage->dpg_count - 1; for (; line >= 0 && line < dpage->dpg_count; backwards ? line-- : line++) if (get_header(window, line, rpb) && !(rpb-> rpb_flags & (rpb_blob | rpb_chained | rpb_fragment))) { rpb->rpb_number = (((SLONG) pp_sequence * dbb->dbb_dp_per_pp) + slot) * dbb->dbb_max_records + line; return TRUE; } /* Prevent large relations from emptying cache. When scrollable cursors are surfaced, this logic may need to be revisited. */ if (window->win_flags & WIN_large_scan) CCH_RELEASE_TAIL(tdbb, window); else if (window->win_flags & WIN_garbage_collector && window->win_flags & WIN_garbage_collect) { CCH_RELEASE_TAIL(tdbb, window); window->win_flags &= ~WIN_garbage_collect; } else CCH_RELEASE(tdbb, window); if (onepage) return FALSE; if (! (ppage = get_pointer_page(tdbb, rpb->rpb_relation, window, pp_sequence, LCK_read))) BUGCHECK(249); /* msg 249 pointer page vanished from DPM_next */ } if (onepage) { CCH_RELEASE(tdbb, window); return FALSE; } if (backwards) { slot--; line = dbb->dbb_max_records - 1; } else { slot++; line = 0; } } const SSHORT flags = ppage->ppg_header.pag_flags; if (backwards) { pp_sequence--; slot = ppage->ppg_count - 1; line = dbb->dbb_max_records - 1; } else { pp_sequence++; slot = 0; line = 0; } if (window->win_flags & WIN_large_scan) CCH_RELEASE_TAIL(tdbb, window); else CCH_RELEASE(tdbb, window); if (flags & ppg_eof || onepage) return FALSE; } } void DPM_pages( TDBB tdbb, SSHORT rel_id, int type, ULONG sequence, SLONG page) { /************************************** * * D P M _ p a g e s * ************************************** * * Functional description * Write a record in RDB$PAGES. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("DPM_pages (rel_id %d, type %d, sequence %"ULONGFORMAT ", page %"SLONGFORMAT")\n",rel_id, type, sequence , page); #endif blk* request = (BLK) CMP_find_request(tdbb, irq_s_pages, IRQ_REQUESTS); STORE(REQUEST_HANDLE request) X IN RDB$PAGES X.RDB$RELATION_ID = rel_id; X.RDB$PAGE_TYPE = type; X.RDB$PAGE_SEQUENCE = sequence; X.RDB$PAGE_NUMBER = page; END_STORE if (!REQUEST(irq_s_pages)) REQUEST(irq_s_pages) = (BLK) request; } #ifdef SUPERSERVER_V2 SLONG DPM_prefetch_bitmap(TDBB tdbb, JRD_REL relation, SBM bitmap, SLONG number) { /************************************** * * D P M _ p r e f e t c h _ b i t m a p * ************************************** * * Functional description * Generate a vector of corresponding data page * numbers from a bitmap of relation record numbers. * Return the bitmap record number of where we left * off. * **************************************/ SET_TDBB(tdbb); /* Empty and singular bitmaps aren't worth prefetch effort. */ if (!bitmap || bitmap->sbm_state != SBM_PLURAL) return number; DBB dbb = tdbb->tdbb_database; WIN window(-1); SLONG pages[PREFETCH_MAX_PAGES]; // CVC: If this routine is activated some day, what's the default value // of this variable? I set it to -1. SLONG prefetch_number = -1; USHORT i; for (i = 0; i < dbb->dbb_prefetch_pages;) { SLONG dp_sequence; SSHORT line, slot; USHORT pp_sequence; DECOMPOSE(number, dbb->dbb_max_records, dp_sequence, line); DECOMPOSE(dp_sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); const ppg* ppage = get_pointer_page(tdbb, relation, &window, pp_sequence, LCK_read); if (!ppage) BUGCHECK(249); /* msg 249 pointer page vanished from DPM_prefetch_bitmap */ pages[i] = (slot >= 0 && slot < ppage->ppg_count) ? ppage->ppg_page[slot] : 0; CCH_RELEASE(tdbb, &window); if (i++ < dbb->dbb_prefetch_sequence) prefetch_number = number; number = ((dp_sequence + 1) * dbb->dbb_max_records) - 1; if (!SBM_next(bitmap, &number, RSE_get_forward)) break; } CCH_PREFETCH(tdbb, pages, i); return prefetch_number; } #endif void DPM_scan_pages( TDBB tdbb) { /************************************** * * D P M _ s c a n _ p a g e s * ************************************** * * Functional description * Scan RDB$PAGES. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("DPM_scan_pages ()\n"); #endif /* Special case update of RDB$PAGES pointer page vector to avoid infinite recursion from this internal request when RDB$PAGES has been extended with another pointer page. */ jrd_rel* relation = MET_relation(tdbb, 0); vcl** address = &relation->rel_pages; vcl* vector = *address; size_t sequence = vector->count() - 1; WIN window((*vector)[sequence]); ppg* ppage = (PPG) CCH_FETCH(tdbb, &window, LCK_read, pag_pointer); while (ppage->ppg_next) { ++sequence; vector->resize(sequence + 1); (*vector)[sequence] = ppage->ppg_next; ppage = (PPG) CCH_HANDOFF(tdbb, &window, ppage->ppg_next, LCK_read, pag_pointer); } CCH_RELEASE(tdbb, &window); blk* request = (BLK) CMP_find_request(tdbb, irq_r_pages, IRQ_REQUESTS); FOR(REQUEST_HANDLE request) X IN RDB$PAGES if (!REQUEST(irq_r_pages)) REQUEST(irq_r_pages) = (BLK) request; relation = MET_relation(tdbb, X.RDB$RELATION_ID); sequence = X.RDB$PAGE_SEQUENCE; switch (X.RDB$PAGE_TYPE) { case pag_root: relation->rel_index_root = X.RDB$PAGE_NUMBER; continue; case pag_pointer: address = &relation->rel_pages; break; case pag_transactions: address = &dbb->dbb_t_pages; break; case pag_ids: address = &dbb->dbb_gen_id_pages; break; default: CORRUPT(257); /* msg 257 bad record in RDB$PAGES */ } vector = *address = vcl::newVector(*dbb->dbb_permanent, *address, sequence + 1); (*vector)[sequence] = X.RDB$PAGE_NUMBER; END_FOR; if (!REQUEST(irq_r_pages)) REQUEST(irq_r_pages) = (BLK) request; } void DPM_store( TDBB tdbb, RPB * rpb, LLS * stack, USHORT type) { /************************************** * * D P M _ s t o r e * ************************************** * * Functional description * Store a new record in a relation. If we can put it on a * specific page, so much the better. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) { ib_printf("DPM_store (rpb %"SLONGFORMAT", stack, type %d)\n", rpb->rpb_number, type); } if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" record to store %"SLONGFORMAT":%d transaction %"SLONGFORMAT " back %"SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif Dcc dcc; const USHORT size = SQZ_length(tdbb, (SCHAR*) rpb->rpb_address, (int) rpb->rpb_length, &dcc); /* If the record isn't going to fit on a page, even if fragmented, handle it a little differently. */ if (size > dbb->dbb_page_size - (sizeof(struct dpg) + RHD_SIZE)) { store_big_record(tdbb, rpb, stack, &dcc, size); return; } SLONG fill = (RHDF_SIZE - RHD_SIZE) - size; if (fill < 0) fill = 0; /* Accomodate max record size i.e. 64K */ const SLONG length = RHD_SIZE + size + fill; rhd* header = locate_space(tdbb, rpb, (SSHORT)length, stack, NULL, type); header->rhd_flags = rpb->rpb_flags; header->rhd_transaction = rpb->rpb_transaction; header->rhd_format = rpb->rpb_format_number; header->rhd_b_page = rpb->rpb_b_page; header->rhd_b_line = rpb->rpb_b_line; SQZ_fast(&dcc, (SCHAR*) rpb->rpb_address, (SCHAR*) header->rhd_data); release_dcc(dcc.dcc_next); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" record %"SLONGFORMAT":%d, length %"SLONGFORMAT ", rpb_flags %d, f_page %"SLONGFORMAT":%d, b_page %"SLONGFORMAT ":%d\n", rpb->rpb_page, rpb->rpb_line, length, rpb->rpb_flags, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_b_page, rpb->rpb_b_line); } #endif if (fill) { UCHAR* p = header->rhd_data + size; do { *p++ = 0; } while (--fill); } if (dbb->dbb_wal) journal_segment(tdbb, &rpb->rpb_window, rpb->rpb_line); CCH_RELEASE(tdbb, &rpb->rpb_window); } SLONG DPM_store_blob(TDBB tdbb, BLB blob, REC record) { /************************************** * * D P M _ s t o r e _ b l o b * ************************************** * * Functional description * Store a blob on a data page. Not so hard, all in all. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); RPB rpb; rpb.rpb_window.win_flags = 0; #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) ib_printf("DPM_store_blob (blob, record)\n"); #endif /* Figure out length of blob on page. Remember that blob can either be a clump of data or a vector of page pointers. */ vcl* vector = 0; USHORT length; const UCHAR* q; if (blob->blb_level == 0) { length = blob->blb_clump_size - blob->blb_space_remaining; q = (UCHAR *) ((BLP) blob->blb_data)->blp_data; } else { vector = blob->blb_pages; length = vector->count() * sizeof(SLONG); // JMB: Not such a good thing with std::vector q = (UCHAR *) &*(vector->begin()); // q = (UCHAR *) &(vector->[0]); } /* Figure out precedence pages, if any */ lls* stack = NULL; if (blob->blb_level > 0) { vcl::iterator ptr, end; for (ptr = vector->begin(), end = vector->end(); ptr < end;) { LLS_PUSH((BLK) * ptr++, &stack); } } /* Locate space to store blob */ rpb.rpb_relation = blob->blb_relation; blh* header = (BLH) locate_space(tdbb, &rpb, (SSHORT)(BLH_SIZE + length), &stack, record, DPM_other); header->blh_flags = rhd_blob; if (blob->blb_flags & BLB_stream) header->blh_flags |= rhd_stream_blob; if (blob->blb_level) header->blh_flags |= rhd_large; header->blh_lead_page = blob->blb_lead_page; header->blh_max_sequence = blob->blb_max_sequence; header->blh_count = blob->blb_count; header->blh_max_segment = blob->blb_max_segment; header->blh_length = blob->blb_length; header->blh_level = blob->blb_level; header->blh_sub_type = blob->blb_sub_type; UCHAR* p = (UCHAR *) header->blh_data; if (length) MOVE_FASTER(q, p, length); if (dbb->dbb_wal) journal_segment(tdbb, &rpb.rpb_window, rpb.rpb_line); dpg* page = (DPG) rpb.rpb_window.win_buffer; if (blob->blb_level && !(page->dpg_header.pag_flags & dpg_large)) { page->dpg_header.pag_flags |= dpg_large; mark_full(tdbb, &rpb); } else CCH_RELEASE(tdbb, &rpb.rpb_window); return rpb.rpb_number; } void DPM_rewrite_header( TDBB tdbb, RPB * rpb) { /************************************** * * D P M _ r e w r i t e _ h e a d e r * ************************************** * * Functional description * Re-write benign fields in record header. This is mostly used * to purge out old versions. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) ib_printf("DPM_rewrite_header (rpb %"SLONGFORMAT")\n", rpb->rpb_number); if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" record %"SLONGFORMAT":%d\n", rpb->rpb_page, rpb->rpb_line); #endif WIN* window = &rpb->rpb_window; dpg* page = (DPG) window->win_buffer; rhd* header = (RHD) ((SCHAR *) page + page->dpg_rpt[rpb->rpb_line].dpg_offset); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" old flags %d, old transaction %"SLONGFORMAT ", old format %d, old back record %"SLONGFORMAT":%d\n", header->rhd_flags, header->rhd_transaction, header->rhd_format, header->rhd_b_page, header->rhd_b_line); ib_printf (" new flags %d, new transaction %"SLONGFORMAT ", new format %d, new back record %"SLONGFORMAT":%d\n", rpb->rpb_flags, rpb->rpb_transaction, rpb->rpb_format_number, rpb->rpb_b_page, rpb->rpb_b_line); } #endif header->rhd_flags = rpb->rpb_flags; header->rhd_transaction = rpb->rpb_transaction; header->rhd_format = rpb->rpb_format_number; header->rhd_b_page = rpb->rpb_b_page; header->rhd_b_line = rpb->rpb_b_line; if (dbb->dbb_wal) journal_segment(tdbb, &rpb->rpb_window, rpb->rpb_line); } void DPM_update( TDBB tdbb, RPB * rpb, LLS * stack, JRD_TRA transaction) { /************************************** * * D P M _ u p d a t e * ************************************** * * Functional description * Replace an existing record. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) { ib_printf("DPM_update (rpb %"SLONGFORMAT", stack, transaction %"SLONGFORMAT")\n", rpb->rpb_number, transaction ? transaction->tra_number : 0); } if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT" back %" SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif /* Mark the page as modified, then figure out the compressed length of the replacement record. */ DEBUG if (stack) { while (*stack) CCH_precedence(tdbb, &rpb->rpb_window, (SLONG) LLS_POP(stack)); } CCH_precedence(tdbb, &rpb->rpb_window, -rpb->rpb_transaction); CCH_MARK(tdbb, &rpb->rpb_window); dpg* page = (DPG) rpb->rpb_window.win_buffer; Dcc dcc; const USHORT size = SQZ_length(tdbb, (SCHAR*) rpb->rpb_address, (int) rpb->rpb_length, &dcc); /* It is critical that the record be padded, if necessary, to the length of a fragmented record header. Compute the amount of fill required. */ SLONG fill = (RHDF_SIZE - RHD_SIZE) - size; if (fill < 0) fill = 0; /* Accomodate max record size i.e. 64K */ const SLONG length = ROUNDUP(RHD_SIZE + size + fill, ODS_ALIGNMENT); const SSHORT slot = rpb->rpb_line; /* Find space on page */ SSHORT space = dbb->dbb_page_size; const SSHORT top = HIGH_WATER(page->dpg_count); SSHORT available = dbb->dbb_page_size - top; const SSHORT old_length = page->dpg_rpt[slot].dpg_length; page->dpg_rpt[slot].dpg_length = 0; const dpg::dpg_repeat* index = page->dpg_rpt; for (const dpg::dpg_repeat* const end = index + page->dpg_count; index < end; index++) { const SSHORT offset = index->dpg_offset; if (offset) { available -= ROUNDUP(index->dpg_length, ODS_ALIGNMENT); space = MIN(space, offset); } } if (length > available) { fragment(tdbb, rpb, available, &dcc, old_length, transaction); return; } space -= length; if (space < top) space = DPM_compress(tdbb, page) - length; page->dpg_rpt[slot].dpg_offset = space; page->dpg_rpt[slot].dpg_length = RHD_SIZE + size + fill; rhd* header = (RHD) ((SCHAR *) page + space); header->rhd_flags = rpb->rpb_flags; header->rhd_transaction = rpb->rpb_transaction; header->rhd_format = rpb->rpb_format_number; header->rhd_b_page = rpb->rpb_b_page; header->rhd_b_line = rpb->rpb_b_line; SQZ_fast(&dcc, (SCHAR*) rpb->rpb_address, (SCHAR*) header->rhd_data); release_dcc(dcc.dcc_next); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf (" record %"SLONGFORMAT ":%d, dpg_length %d, rpb_flags %d, rpb_f record %"SLONGFORMAT ":%d, rpb_b record %"SLONGFORMAT":%d\n", rpb->rpb_page, rpb->rpb_line, page->dpg_rpt[slot].dpg_length, rpb->rpb_flags, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_b_page, rpb->rpb_b_line); #endif if (fill) { UCHAR* p = header->rhd_data + size; do { *p++ = 0; } while (--fill); } if (dbb->dbb_wal) journal_segment(tdbb, &rpb->rpb_window, slot); CCH_RELEASE(tdbb, &rpb->rpb_window); } static void delete_tail( TDBB tdbb, RHDF header, USHORT length) { /************************************** * * d e l e t e _ t a i l * ************************************** * * Functional description * Delete the tail of a large object. This is called only from * DPM_delete_relation. * **************************************/ SET_TDBB(tdbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) ib_printf("delete_tail (header, length)\n"); if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" transaction %"SLONGFORMAT" flags %d fragment %" SLONGFORMAT":%d back %"SLONGFORMAT":%d\n", header->rhdf_transaction, header->rhdf_flags, header->rhdf_f_page, header->rhdf_f_line, header->rhdf_b_page, header->rhdf_b_line); } #endif WIN window(-1); window.win_flags = WIN_large_scan; window.win_scans = 1; /* If the object isn't a blob, things are a little simpler. */ if (!(header->rhdf_flags & rhd_blob)) { SLONG page_number = header->rhdf_f_page; while (true) { window.win_page = page_number; dpg* dpage = (DPG) CCH_FETCH(tdbb, &window, LCK_read, pag_data); header = (RHDF) ((UCHAR *) dpage + dpage->dpg_rpt[0].dpg_offset); const USHORT flags = header->rhdf_flags; page_number = header->rhdf_f_page; CCH_RELEASE_TAIL(tdbb, &window); PAG_release_page(window.win_page, 0); if (!(flags & rhd_incomplete)) break; } return; } /* Object is a blob, and a big one at that */ blh* blob = (BLH) header; const SLONG* page1 = blob->blh_page; const SLONG* const end1 = page1 + (length - BLH_SIZE) / sizeof(SLONG); for (; page1 < end1; page1++) { if (blob->blh_level == 2) { window.win_page = *page1; blp* bpage = (BLP) CCH_FETCH(tdbb, &window, LCK_read, pag_blob); SLONG* page2 = bpage->blp_page; const SLONG* const end2 = page2 + ((bpage->blp_length - BLP_SIZE) / sizeof(SLONG)); while (page2 < end2) PAG_release_page(*page2++, 0); CCH_RELEASE_TAIL(tdbb, &window); } PAG_release_page(*page1, 0); } } static void fragment( TDBB tdbb, RPB * rpb, SSHORT available_space, Dcc* dcc, SSHORT length, JRD_TRA transaction) { /************************************** * * f r a g m e n t * ************************************** * * Functional description * DPM_update tried to replace a record on a page, but it doesn't * fit. The record, obviously, needs to be fragmented. Stick as * much as fits on the page and put the rest elsewhere (though not * in that order. * * Doesn't sound so bad does it? * * Little do you know. The challenge is that we have to put the * head of the record in the designated page:line space and put * the tail on a different page. To maintain on-disk consistency * we have to write the tail first. But we don't want anybody * messing with the head until we get back, and, if possible, we'd * like to keep as much space on the original page as we can get. * Making matters worse, we may be storing a new version of the * record or we may be backing out an old one and replacing it * with one older still (replacing a dead rolled back record with * the preceding version). * * Here is the order of battle. If we're creating a new version, * and the previous version is not a delta, we compress the page * and create a new record which claims all the available space * (but which contains garbage). That record will have our transaction * id (so it won't be committed for anybody) and it will have legitimate * back pointers to the previous version. * * If we're creating a new version and the previous version is a delta, * we leave the current version in place, putting our transaction id * on it. We then point the back pointers to the delta version of the * same generation of the record, which will have the correct transaction * id. Applying deltas to the expanded form of the same version of the * record is a no-op -- but it doesn't cost much and the case is rare. * * If we're backing out a rolled back version, we've got another * problem. The rpb we've got is for record version n - 1, not version * n + 1. (e.g. I'm transaction 32 removing the rolled back record * created by transaction 28 and reinstating the committed version * created by transaction 26. The rpb I've got is for the record * written by transaction 26 -- the delta flag indicates whether the * version written by transaction 24 was a delta, the transaction id * is for a committed transaction, and the back pointers go back to * transaction 24's version. So in that case, we slap our transaction * is on transaction 28's version (the one we'll be eliminating) and * don't change anything else. * * In all cases, once the tail is written and safe, we come back to * the head, store the remaining data, fix up the record header and * everything is done. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES) { ib_printf ("fragment (rpb %"SLONGFORMAT ", available_space %d, dcc, length %d, transaction %" SLONGFORMAT")\n", rpb->rpb_number, available_space, length, transaction ? transaction->tra_number : 0); } if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" record %"SLONGFORMAT":%d transaction %"SLONGFORMAT" back %" SLONGFORMAT":%d fragment %"SLONGFORMAT":%d flags %d\n", rpb->rpb_page, rpb->rpb_line, rpb->rpb_transaction, rpb->rpb_b_page, rpb->rpb_b_line, rpb->rpb_f_page, rpb->rpb_f_line, rpb->rpb_flags); } #endif /* Start by claiming what space exists on the page. Note that DPM_update has already set the length for this record to zero, so we're all set for a compress. However, if the current version was re-stored as a delta, or if we're restoring an older version, we must preserve it here so that others may reconstruct it during fragmentation of the new version. */ WIN* window = &rpb->rpb_window; dpg* page = (DPG) window->win_buffer; const SSHORT line = rpb->rpb_line; rhdf* header; if (transaction->tra_number != rpb->rpb_transaction) { header = (RHDF) ((SCHAR *) page + page->dpg_rpt[line].dpg_offset); header->rhdf_transaction = transaction->tra_number; header->rhdf_flags |= rhd_gc_active; page->dpg_rpt[line].dpg_length = available_space = length; } else { if (rpb->rpb_flags & rpb_delta) { header = (RHDF) ((SCHAR *) page + page->dpg_rpt[line].dpg_offset); header->rhdf_flags |= rpb_delta; page->dpg_rpt[line].dpg_length = available_space = length; } else { const SSHORT space = DPM_compress(tdbb, page) - available_space; header = (RHDF) ((SCHAR *) page + space); header->rhdf_flags = rhd_deleted; header->rhdf_f_page = header->rhdf_f_line = 0; page->dpg_rpt[line].dpg_offset = space; page->dpg_rpt[line].dpg_length = available_space; } header->rhdf_transaction = rpb->rpb_transaction; header->rhdf_b_page = rpb->rpb_b_page; header->rhdf_b_line = rpb->rpb_b_line; } if (dbb->dbb_wal) journal_segment(tdbb, window, line); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf (" rhdf_transaction %"SLONGFORMAT", window record %"SLONGFORMAT ":%d, available_space %d, rhdf_flags %d, rhdf_f record %" SLONGFORMAT":%d, rhdf_b record %"SLONGFORMAT":%d\n", header->rhdf_transaction, window->win_page, line, available_space, header->rhdf_flags, header->rhdf_f_page, header->rhdf_f_line, header->rhdf_b_page, header->rhdf_b_line); } #endif CCH_RELEASE(tdbb, window); /* The next task is to store the tail where it fits. To do this, we next to compute the size (compressed) of the tail. This requires first figuring out how much of the original record fits on the original page. */ const USHORT pre_header_length = SQZ_compress_length(dcc, (SCHAR*) rpb->rpb_address, (int) (available_space - RHDF_SIZE)); RPB tail_rpb = *rpb; tail_rpb.rpb_flags = rpb_fragment; tail_rpb.rpb_b_page = 0; tail_rpb.rpb_b_line = 0; tail_rpb.rpb_address = rpb->rpb_address + pre_header_length; tail_rpb.rpb_length = rpb->rpb_length - pre_header_length; tail_rpb.rpb_window.win_flags = 0; lls* stack = NULL; #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) ib_printf(" about to store tail\n"); #endif DPM_store(tdbb, &tail_rpb, &stack, DPM_other); /* That was unreasonablly easy. Now re-fetch the original page and fill in the fragment pointer */ page = (DPG) CCH_FETCH(tdbb, window, LCK_write, pag_data); CCH_precedence(tdbb, window, tail_rpb.rpb_page); CCH_MARK(tdbb, window); header = (RHDF) ((SCHAR *) page + page->dpg_rpt[line].dpg_offset); header->rhdf_flags = rhd_incomplete | rpb->rpb_flags; header->rhdf_transaction = rpb->rpb_transaction; header->rhdf_format = rpb->rpb_format_number; header->rhdf_f_page = tail_rpb.rpb_page; header->rhdf_f_line = tail_rpb.rpb_line; if (transaction->tra_number != rpb->rpb_transaction) { header->rhdf_b_page = rpb->rpb_b_page; header->rhdf_b_line = rpb->rpb_b_line; } const USHORT post_header_length = SQZ_compress(dcc, (SCHAR*) rpb->rpb_address, (SCHAR*) header->rhdf_data, (int) (available_space - RHDF_SIZE)); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" fragment head \n"); ib_printf (" rhdf_trans %"SLONGFORMAT", window record %"SLONGFORMAT ":%d, dpg_length %d\n\trhdf_flags %d, rhdf_f record %"SLONGFORMAT ":%d, rhdf_b record %"SLONGFORMAT":%d\n", header->rhdf_transaction, window->win_page, line, page->dpg_rpt[line].dpg_length, header->rhdf_flags, header->rhdf_f_page, header->rhdf_f_line, header->rhdf_b_page, header->rhdf_b_line); } #endif if (pre_header_length != post_header_length) { release_dcc(dcc->dcc_next); CCH_RELEASE(tdbb, window); BUGCHECK(252); /* msg 252 header fragment length changed */ } if (dbb->dbb_wal) journal_segment(tdbb, window, line); release_dcc(dcc->dcc_next); CCH_RELEASE(tdbb, window); } static void extend_relation( TDBB tdbb, JRD_REL relation, WIN * window) { /************************************** * * e x t e n d _ r e l a t i o n * ************************************** * * Functional description * Extend a relation with a given page. The window points to an * already allocated, fetched, and marked data page to be inserted * into the pointer pages for a given relation. * This routine returns a window on the datapage locked for write * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); WIN pp_window(-1), new_pp_window(-1); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" extend_relation (relation %d, window)\n", relation->rel_id); } #endif /* Release faked page before fetching pointer page to prevent deadlocks. This is only a problem for multi-threaded servers using internal latches. The faked page may be dirty from its previous incarnation and involved in a precedence relationship. This special case may need a more general solution. */ CCH_RELEASE(tdbb, window); /* Search pointer pages for an empty slot. If we run out of pointer pages, allocate another one. Note that the code below is not careful in preventing deadlocks when it allocates a new pointer page: - the last already-existing pointer page is fetched with an exclusive latch, - allocation of a new pointer page requires the fetching of the PIP page with an exlusive latch. This might cause a deadlock. Fortunately, pointer pages don't need to be allocated often. */ ppg* ppage = 0; USHORT pp_sequence, slot = 0; retry_after_latch_timeout: for (pp_sequence = relation->rel_slot_space;; pp_sequence++) { if (! (ppage = get_pointer_page(tdbb, relation, &pp_window, pp_sequence, LCK_write))) BUGCHECK(253); /* msg 253 pointer page vanished from extend_relation */ SLONG* slots = ppage->ppg_page; for (slot = 0; slot < ppage->ppg_count; slot++, slots++) if (*slots == 0) break; if (slot < ppage->ppg_count) break; if ((pp_sequence && ppage->ppg_count < dbb->dbb_dp_per_pp) || (ppage->ppg_count < dbb->dbb_dp_per_pp - 1)) { slot = ppage->ppg_count; break; } if (ppage->ppg_header.pag_flags & ppg_eof) { ppage = (PPG) DPM_allocate(tdbb, &new_pp_window); ppage->ppg_header.pag_type = pag_pointer; ppage->ppg_header.pag_flags |= ppg_eof; ppage->ppg_relation = relation->rel_id; ppage->ppg_sequence = ++pp_sequence; slot = 0; CCH_must_write(&new_pp_window); CCH_RELEASE(tdbb, &new_pp_window); VCL vector = relation->rel_pages = vcl::newVector(*dbb->dbb_permanent, relation->rel_pages, pp_sequence + 1); (*vector)[pp_sequence] = new_pp_window.win_page; if (relation->rel_id) DPM_pages(tdbb, relation->rel_id, pag_pointer, (SLONG) pp_sequence, new_pp_window.win_page); relation->rel_slot_space = pp_sequence; ppage = (PPG) pp_window.win_buffer; CCH_MARK(tdbb, &pp_window); ppage->ppg_header.pag_flags &= ~ppg_eof; ppage->ppg_next = new_pp_window.win_page; if (dbb->dbb_wal) CCH_journal_page(tdbb, &pp_window); ppage = (PPG) CCH_HANDOFF(tdbb, &pp_window, new_pp_window.win_page, LCK_write, pag_pointer); break; } CCH_RELEASE(tdbb, &pp_window); } /* We've found a slot. Stick in the pointer to the data page */ if (ppage->ppg_page[slot]) CORRUPT(258); /* msg 258 page slot not empty */ /* Refetch newly allocated page that was released above. To prevent possible deadlocks (since we own already an exlusive latch and we are asking for another exclusive latch), time out on the latch after 1 second. */ dpg* dpage = (DPG) CCH_FETCH_TIMEOUT(tdbb, window, LCK_write, pag_undefined, -1); /* In the case of a timeout, retry the whole thing. */ if (!dpage) { CCH_RELEASE(tdbb, &pp_window); goto retry_after_latch_timeout; } CCH_MARK(tdbb, window); dpage->dpg_sequence = (SLONG) pp_sequence *dbb->dbb_dp_per_pp + slot; dpage->dpg_relation = relation->rel_id; dpage->dpg_header.pag_type = pag_data; relation->rel_data_space = pp_sequence; if (dbb->dbb_wal) CCH_journal_page(tdbb, window); CCH_RELEASE(tdbb, window); CCH_precedence(tdbb, &pp_window, window->win_page); CCH_MARK_SYSTEM(tdbb, &pp_window); ppage->ppg_page[slot] = window->win_page; ppage->ppg_min_space = MIN(ppage->ppg_min_space, slot); ppage->ppg_count = MAX(ppage->ppg_count, slot + 1); UCHAR* bits = (UCHAR *) (ppage->ppg_page + dbb->dbb_dp_per_pp); bits[slot >> 2] &= ~(1 << ((slot & 3) << 1)); if (relation->rel_data_pages) ++relation->rel_data_pages; if (dbb->dbb_wal) { jrnp journal; journal.jrnp_type = JRNP_POINTER_SLOT; journal.jrnp_index = slot; journal.jrnp_length = sizeof(window->win_page); CCH_journal_record(tdbb, &pp_window, (const UCHAR*)&journal, JRNP_SIZE, (const UCHAR*)&window->win_page, sizeof(window->win_page)); } *window = pp_window; CCH_HANDOFF(tdbb, window, ppage->ppg_page[slot], LCK_write, pag_data); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" extended_relation (relation %d, window_page %"SLONGFORMAT")\n", relation->rel_id, window->win_page); } #endif } static UCHAR* find_space(TDBB tdbb, RPB* rpb, SSHORT size, LLS* stack, REC record, USHORT type) { /************************************** * * f i n d _ s p a c e * ************************************** * * Functional description * Find space of a given size on a data page. If no space, return * null. If space is found, mark the page, set up the line field * in the record parameter block, set up the offset/length on the * data page, and return a pointer to the space. * * To maintain page precedence when objects point to objects, a stack * of pages of high precedence may be passed in. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); const SSHORT aligned_size = ROUNDUP(size, ODS_ALIGNMENT); dpg* page = (DPG) rpb->rpb_window.win_buffer; /* Scan allocated lines looking for an empty slot, the high water mark, and the amount of space potentially available on the page */ SSHORT space = dbb->dbb_page_size; SSHORT slot = 0; SSHORT used = HIGH_WATER(page->dpg_count); SSHORT reserving = !(dbb->dbb_flags & DBB_no_reserve); { // scope const dpg::dpg_repeat* index = page->dpg_rpt; for (SSHORT i = 0; i < page->dpg_count; i++, index++) { if (index->dpg_offset) { space = MIN(space, index->dpg_offset); used += ROUNDUP(index->dpg_length, ODS_ALIGNMENT); if (type == DPM_primary && reserving) { const rhd* header = (RHD) ((SCHAR *) page + index->dpg_offset); if (!header->rhd_b_page && !(header->rhd_flags & (rhd_chain | rhd_blob | rhd_deleted | rhd_fragment))) { used += SPACE_FUDGE; } } } else if (!slot) slot = i; } } // scope if (!slot) used += sizeof(dpg::dpg_repeat); /* If there isn't space, give up */ if (aligned_size > (int) dbb->dbb_page_size - used) { CCH_MARK(tdbb, &rpb->rpb_window); page->dpg_header.pag_flags |= dpg_full; mark_full(tdbb, rpb); return NULL; } /* There's space on page. If the line index needs expansion, do so. If the page need to be compressed, compress it. */ while (*stack) CCH_precedence(tdbb, &rpb->rpb_window, (SLONG) LLS_POP(stack)); CCH_MARK(tdbb, &rpb->rpb_window); { // scope const USHORT rec_segments = page->dpg_count + ((slot) ? 0 : 1); fb_assert(rec_segments > 0); // zero is a disaster in macro HIGH_WATER if (aligned_size > space - HIGH_WATER(rec_segments)) space = DPM_compress(tdbb, page); } // scope if (!slot) slot = page->dpg_count++; space -= aligned_size; dpg::dpg_repeat* index = &page->dpg_rpt[slot]; index->dpg_length = size; index->dpg_offset = space; rpb->rpb_page = rpb->rpb_window.win_page; rpb->rpb_line = slot; rpb->rpb_number = (SLONG) page->dpg_sequence * dbb->dbb_max_records + slot; if (record) LLS_PUSH((BLK) rpb->rpb_page, &record->rec_precedence); return (UCHAR *) page + space; } static BOOLEAN get_header( WIN * window, SSHORT line, RPB * rpb) { /************************************** * * g e t _ h e a d e r * ************************************** * * Functional description * Copy record header fields into a record parameter block. If * the line is empty, return false; * **************************************/ dpg* page = (DPG) window->win_buffer; if (line >= page->dpg_count) return FALSE; dpg::dpg_repeat* index = &page->dpg_rpt[line]; if (index->dpg_offset == 0) return FALSE; rhdf* header = (RHDF) ((SCHAR *) page + index->dpg_offset); rpb->rpb_page = window->win_page; rpb->rpb_line = line; rpb->rpb_flags = header->rhdf_flags; if (!(rpb->rpb_flags & rpb_fragment)) { rpb->rpb_b_page = header->rhdf_b_page; rpb->rpb_b_line = header->rhdf_b_line; rpb->rpb_transaction = header->rhdf_transaction; rpb->rpb_format_number = header->rhdf_format; } if (rpb->rpb_flags & rpb_incomplete) { rpb->rpb_f_page = header->rhdf_f_page; rpb->rpb_f_line = header->rhdf_f_line; rpb->rpb_address = header->rhdf_data; rpb->rpb_length = index->dpg_length - RHDF_SIZE; } else { rpb->rpb_address = ((RHD) header)->rhd_data; rpb->rpb_length = index->dpg_length - RHD_SIZE; } return TRUE; } static PPG get_pointer_page( TDBB tdbb, JRD_REL relation, WIN * window, USHORT sequence, USHORT lock) { /************************************** * * g e t _ p o i n t e r _ p a g e * ************************************** * * Functional description * Fetch a specific pointer page. If we don't know about it, * do a re-scan of RDB$PAGES to find it. If that doesn't work, * try the sibling pointer. If that doesn't work, just stop, * return NULL, and let our caller think about it. * **************************************/ SET_TDBB(tdbb); vcl* vector = relation->rel_pages; if (!vector || sequence >= vector->count()) { for (;;) { DPM_scan_pages(tdbb); /* If the relation is gone, then we can't do anything anymore. */ if ((!relation) || (!(vector = relation->rel_pages))) return NULL; if (sequence < vector->count()) break; /* we are in business again */ window->win_page = (*vector)[vector->count() - 1]; const ppg* page = (PPG) CCH_FETCH(tdbb, window, lock, pag_pointer); const SLONG next_ppg = page->ppg_next; CCH_RELEASE(tdbb, window); if (!next_ppg) return NULL; DPM_pages(tdbb, relation->rel_id, pag_pointer, vector->count(), next_ppg); } } window->win_page = (*vector)[sequence]; ppg* page = (PPG) CCH_FETCH(tdbb, window, lock, pag_pointer); if (page->ppg_relation != relation->rel_id || page->ppg_sequence != sequence) CORRUPT(259); /* msg 259 bad pointer page */ return page; } static void journal_segment( TDBB tdbb, WIN * window, USHORT slot) { /************************************** * * j o u r n a l _ s e g m e n t * ************************************** * * Functional description * We just did something to a segment. Make sure it gets added to * the journal. * **************************************/ SET_TDBB(tdbb); const dpg* page = (DPG) window->win_buffer; const dpg::dpg_repeat* index = &page->dpg_rpt[slot]; jrnp journal; journal.jrnp_type = JRNP_DATA_SEGMENT; journal.jrnp_index = slot; journal.jrnp_length = index->dpg_length; CCH_journal_record(tdbb, window, (const UCHAR*)&journal, JRNP_SIZE, reinterpret_cast(page) + index->dpg_offset, index->dpg_length); } static RHD locate_space( TDBB tdbb, RPB * rpb, SSHORT size, LLS * stack, REC record, USHORT type) { /************************************** * * l o c a t e _ s p a c e * ************************************** * * Functional description * Find space in a relation for a record. Find a likely data page * and call find_space to see if there really is space there. If * we can't find any space, extend the relation. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); jrd_rel* relation = rpb->rpb_relation; WIN* window = &rpb->rpb_window; /* If there is a preferred page, try there first */ if (type == DPM_secondary) { SLONG sequence; DECOMPOSE_QUOTIENT(rpb->rpb_number, dbb->dbb_max_records, sequence); USHORT pp_sequence, slot; DECOMPOSE(sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); const ppg* ppage = get_pointer_page(tdbb, relation, window, pp_sequence, LCK_read); if (ppage) { SLONG dp_number; if (slot < ppage->ppg_count && ( (dp_number = ppage->ppg_page[slot])) ) { CCH_HANDOFF(tdbb, window, dp_number, LCK_write, pag_data); UCHAR* space = find_space(tdbb, rpb, size, stack, record, type); if (space) return (RHD) space; } else CCH_RELEASE(tdbb, window); } } /* Look for space anywhere */ for (USHORT pp_sequence = relation->rel_data_space;; pp_sequence++) { relation->rel_data_space = pp_sequence; const ppg* ppage = get_pointer_page(tdbb, relation, window, pp_sequence, LCK_read); if (!ppage) BUGCHECK(254); /* msg 254 pointer page vanished from relation list in locate_space */ const SLONG pp_number = window->win_page; const UCHAR* bits = (UCHAR *) (ppage->ppg_page + dbb->dbb_dp_per_pp); for (USHORT slot = ppage->ppg_min_space; slot < ppage->ppg_count; slot++) { const SLONG dp_number = ppage->ppg_page[slot]; if (dp_number && ~bits[slot >> 2] & (1 << ((slot & 3) << 1))) { CCH_HANDOFF(tdbb, window, dp_number, LCK_write, pag_data); UCHAR* space = find_space(tdbb, rpb, size, stack, record, type); if (space) return (RHD) space; window->win_page = pp_number; ppage = (PPG) CCH_FETCH(tdbb, window, LCK_read, pag_pointer); } } const UCHAR flags = ppage->ppg_header.pag_flags; CCH_RELEASE(tdbb, window); if (flags & ppg_eof) break; } /* Sigh. No space. Extend relation. Try for a while in case someone grabs the page before we can get it locked, then give up on the assumption that things are really screwed up. */ UCHAR* space = 0; USHORT i; for (i = 0; i < 20; i++) { DPM_allocate(tdbb, window); extend_relation(tdbb, relation, window); space = find_space(tdbb, rpb, size, stack, record, type); if (space) break; } if (i == 20) BUGCHECK(255); /* msg 255 cannot find free space */ if (record) LLS_PUSH((BLK) window->win_page, &record->rec_precedence); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" extended relation %d with page %"SLONGFORMAT" to get %d bytes\n", relation->rel_id, window->win_page, size); } #endif return (RHD) space; } static void mark_full( TDBB tdbb, RPB * rpb) { /************************************** * * m a r k _ f u l l * ************************************** * * Functional description * Mark a fetched page and it's pointer page to indicate the page * is full. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); WIN pp_window(-1); #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("mark_full ()\n"); #endif /* We need to access the pointer page for write. To avoid deadlocks, we need to release the data page, fetch the pointer page for write, and re-fetch the data page. If the data page is still empty, set it's "full" bit on the pointer page. */ dpg* dpage = (DPG) rpb->rpb_window.win_buffer; const SLONG sequence = dpage->dpg_sequence; CCH_RELEASE(tdbb, &rpb->rpb_window); jrd_rel* relation = rpb->rpb_relation; USHORT slot, pp_sequence; DECOMPOSE(sequence, dbb->dbb_dp_per_pp, pp_sequence, slot); /* Fetch the pointer page, then the data page. Since this is a case of fetching a second page after having fetched the first page with an exclusive latch, care has to be taken to prevent a deadlock. This is accomplished by timing out the second latch request and retrying the whole thing. */ ppg* ppage = 0; do { ppage = get_pointer_page(tdbb, relation, &pp_window, pp_sequence, LCK_write); if (!ppage) BUGCHECK(256); /* msg 256 pointer page vanished from mark_full */ /* If data page has been deleted from relation then there's nothing left to do. */ if (slot >= ppage->ppg_count || rpb->rpb_window.win_page != ppage->ppg_page[slot]) { CCH_RELEASE(tdbb, &pp_window); return; } /* Fetch the data page, but timeout after 1 second to break a possible deadlock. */ dpage = (DPG) CCH_FETCH_TIMEOUT(tdbb, &rpb->rpb_window, LCK_read, pag_data, -1); /* In case of a latch timeout, release the latch on the pointer page and retry. */ if (!dpage) CCH_RELEASE(tdbb, &pp_window); } while (!dpage); const UCHAR flags = dpage->dpg_header.pag_flags; CCH_RELEASE(tdbb, &rpb->rpb_window); CCH_precedence(tdbb, &pp_window, rpb->rpb_window.win_page); CCH_MARK(tdbb, &pp_window); UCHAR bit = 1 << ((slot & 3) << 1); UCHAR* byte = (UCHAR *) (&ppage->ppg_page[dbb->dbb_dp_per_pp]) + (slot >> 2); if (flags & dpg_full) { *byte |= bit; ppage->ppg_min_space = MAX(slot + 1, ppage->ppg_min_space); } else { *byte &= ~bit; ppage->ppg_min_space = MIN(slot, ppage->ppg_min_space); relation->rel_data_space = MIN(pp_sequence, relation->rel_data_space); } /* Next, handle the "large object" bit */ bit <<= 1; if (flags & dpg_large) *byte |= bit; else *byte &= ~bit; CCH_RELEASE(tdbb, &pp_window); } static void release_dcc( Dcc* dcc) { /************************************** * * r e l e a s e _ d c c * ************************************** * * Functional description * Release a chain of data compression control block. * **************************************/ while (dcc) { Dcc* temp = dcc; dcc = temp->dcc_next; delete temp; } } static void store_big_record( TDBB tdbb, RPB * rpb, LLS * stack, Dcc* head_dcc, USHORT size) { /************************************** * * s t o r e _ b i g _ r e c o r d * ************************************** * * Functional description * Store a new record in a relation. * **************************************/ SET_TDBB(tdbb); DBB dbb = tdbb->tdbb_database; CHECK_DBB(dbb); #ifdef VIO_DEBUG if (debug_flag > DEBUG_TRACE_ALL) ib_printf("store_big_record ()\n"); #endif /* Start by finding the last data compression control block and set up to start decompression from the end. */ Dcc* dcc; for (dcc = head_dcc; dcc->dcc_next; dcc = dcc->dcc_next); const SCHAR* control = dcc->dcc_end; const SCHAR* in = (SCHAR *) rpb->rpb_address + rpb->rpb_length; SLONG prior = 0; SCHAR count = 0; const USHORT max_data = dbb->dbb_page_size - (sizeof(struct dpg) + RHDF_SIZE); /* Fill up data pages tail first until what's left fits on a single page. */ while (size > max_data) { /* Allocate and format data page and fragment header */ dpg* page = (DPG) DPM_allocate(tdbb, &rpb->rpb_window); page->dpg_header.pag_type = pag_data; page->dpg_header.pag_flags = dpg_orphan | dpg_full; page->dpg_relation = rpb->rpb_relation->rel_id; page->dpg_count = 1; rhdf* header = (RHDF) & page->dpg_rpt[1]; page->dpg_rpt[0].dpg_offset = (UCHAR *) header - (UCHAR *) page; page->dpg_rpt[0].dpg_length = max_data + RHDF_SIZE; header->rhdf_flags = (prior) ? rhd_fragment | rhd_incomplete : rhd_fragment; header->rhdf_f_page = prior; USHORT length = max_data; size -= length; SCHAR* out = (SCHAR *) header->rhdf_data + length; /* Move compressed data onto page */ while (length > 1) { /* Handle residual count, if any */ if (count > 0) { const USHORT l = MIN((USHORT) count, length - 1); USHORT n = l; do { *--out = *--in; } while (--n); *--out = l; length -= (SSHORT) (l + 1); /* bytes remaining on page */ count -= (SSHORT) l; /* bytes remaining in run */ continue; } /* If we've exhausted this data compression block, find the prior one */ if (control == dcc->dcc_string) { Dcc* const temp_dcc = dcc; for (dcc = head_dcc; dcc->dcc_next != temp_dcc; dcc = dcc->dcc_next); control = dcc->dcc_string + sizeof(dcc->dcc_string); } if ((count = *--control) < 0) { *--out = in[-1]; *--out = count; in += count; length -= 2; } } /* Page is full. If there is an odd byte left, fudge it. */ if (length) { *--out = 0; ++size; } else if (count > 0) ++size; if (prior) CCH_precedence(tdbb, &rpb->rpb_window, prior); #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" back portion\n"); ib_printf (" rpb_window page %"SLONGFORMAT ", max_data %d, \n\trhdf_flags %d, prior %"SLONGFORMAT"\n", rpb->rpb_window.win_page, max_data, header->rhdf_flags, prior); } #endif if (dbb->dbb_wal) CCH_journal_page(tdbb, &rpb->rpb_window); CCH_RELEASE(tdbb, &rpb->rpb_window); prior = rpb->rpb_window.win_page; } /* What's left fits on a page. Luckily, we don't have to store it ourselves. */ release_dcc(head_dcc->dcc_next); size = SQZ_length(tdbb, (SCHAR*) rpb->rpb_address, in - (SCHAR *) rpb->rpb_address, head_dcc); rhdf* header = (RHDF)locate_space(tdbb, rpb, (SSHORT)(RHDF_SIZE + size), stack, NULL, DPM_other); header->rhdf_flags = rhd_incomplete | rhd_large | rpb->rpb_flags; header->rhdf_transaction = rpb->rpb_transaction; header->rhdf_format = rpb->rpb_format_number; header->rhdf_b_page = rpb->rpb_b_page; header->rhdf_b_line = rpb->rpb_b_line; header->rhdf_f_page = prior; header->rhdf_f_line = 0; SQZ_fast(head_dcc, (SCHAR*) rpb->rpb_address, (SCHAR*) header->rhdf_data); release_dcc(head_dcc->dcc_next); if (dbb->dbb_wal) journal_segment(tdbb, &rpb->rpb_window, rpb->rpb_line); dpg* page = (DPG) rpb->rpb_window.win_buffer; #ifdef VIO_DEBUG if (debug_flag > DEBUG_WRITES_INFO) { ib_printf(" front part\n"); ib_printf (" rhdf_trans %"SLONGFORMAT", rpb_window record %"SLONGFORMAT ":%d, dpg_length %d \n\trhdf_flags %d, rhdf_f record %"SLONGFORMAT ":%d, rhdf_b record %"SLONGFORMAT":%d\n", header->rhdf_transaction, rpb->rpb_window.win_page, rpb->rpb_line, page->dpg_rpt[rpb->rpb_line].dpg_length, header->rhdf_flags, header->rhdf_f_page, header->rhdf_f_line, header->rhdf_b_page, header->rhdf_b_line); } #endif if (!(page->dpg_header.pag_flags & dpg_large)) { page->dpg_header.pag_flags |= dpg_large; mark_full(tdbb, rpb); } else CCH_RELEASE(tdbb, &rpb->rpb_window); }