/**************************************************************** * * * Copyright 2001, 2011 Fidelity Information Services, Inc * * * * This source code contains the intellectual property * * of its copyright holder(s), and is made available * * under a license. If you do not know the terms of * * the license, please stop and do not read further. * * * ****************************************************************/ #include "mdef.h" #include "gtm_string.h" #include "gdsroot.h" #include "gdsblk.h" #include "min_max.h" /* needed for gdsblkops.h */ #include "gdsblkops.h" #include "gtm_facility.h" #include "fileinfo.h" #include "gdsbt.h" #include "gdsfhead.h" #include "gdscc.h" #include "gdskill.h" #include "filestruct.h" #include "copy.h" #include "jnl.h" #include "buddy_list.h" /* needed for tp.h */ #include "hashtab_int4.h" /* needed for tp.h */ #include "tp.h" #include "gvcst_blk_build.h" #include "gtmimagename.h" #ifdef DEBUG GBLREF boolean_t skip_block_chain_tail_check; #endif GBLREF unsigned char cw_set_depth; GBLREF uint4 dollar_tlevel; GBLREF sgm_info *sgm_info_ptr; GBLREF sgmnt_addrs *cs_addrs; GBLREF sgmnt_data_ptr_t cs_data; GBLREF boolean_t write_after_image; GBLREF unsigned int t_tries; void gvcst_blk_build(cw_set_element *cse, sm_uc_ptr_t base_addr, trans_num ctn) { blk_segment *seg, *stop_ptr, *array; off_chain chain; sm_uc_ptr_t ptr, ptrtop; sm_ulong_t n; int4 offset; trans_num blktn; # ifdef DEBUG boolean_t integ_error_found; rec_hdr_ptr_t rp; sm_uc_ptr_t chainptr, input_base_addr; unsigned short nRecLen; # endif DCL_THREADGBL_ACCESS; SETUP_THREADGBL_ACCESS; assert((dba_bg != cs_data->acc_meth) || dollar_tlevel || !cs_addrs->now_crit || write_after_image); assert((dba_mm != cs_data->acc_meth) || dollar_tlevel || cs_addrs->now_crit); assert(cse->mode != gds_t_writemap); array = (blk_segment *)cse->upd_addr; assert(array->len >= SIZEOF(blk_hdr)); assert(array->len <= cs_data->blk_size); assert((cse->ins_off + SIZEOF(block_id)) <= array->len); assert((short)cse->index >= 0); assert(!cse->undo_next_off[0] && !cse->undo_offset[0]); assert(!cse->undo_next_off[1] && !cse->undo_offset[1]); DEBUG_ONLY(input_base_addr = base_addr;) if (base_addr == NULL) { /* it's the first private TP build */ assert(dollar_tlevel); assert(cse->blk_target); base_addr = cse->new_buff = (unsigned char *)get_new_free_element(sgm_info_ptr->new_buff_list); cse->first_copy = TRUE; } else assert(0 == ((sm_ulong_t)base_addr & 3)); /* word aligned at least */ /* The block-transaction-number is modified before the contents of the block are modified. This is * done so as to allow a cdb_sc_blkmod check (done in t_qread, gvcst_search, gvcst_put and tp_hist) * to be done out-of-crit by just checking for the transaction numbers. If the contents of the block * were modified first, there is a possibility that the block-transaction number didn't get updated * although the contents of the block may have changed and basing the decision of block-modified on * just the transaction numbers may not always be correct. * Note that in mm_update and bg_update there is an else block where instead of gvcst_blk_build(), * a memcpy is done. To effect the above change, we also need to switch the order of memcpy and * block-transaction-number-updation in those places. * Note that a similar change is not needed in gvcst_map_build() because that will never be in the * search history for any key. */ if (!ctn && dollar_tlevel) { /* Subtract one so will pass concurrency control for mm databases. * This block is guaranteed to be in an earlier history from when it was first read, * so this history is superfluous for concurrency control. * The correct tn is put in the block in mm_update or bg_update when the block is copied to the database. */ ctn = cs_addrs->ti->curr_tn - 1; } /* Assert that the block's transaction number is LESS than the transaction number corresponding to the blk build. * i.e. no one else should have touched the block contents in shared memory from the time we locked this in phase1 * to the time we build it in phase2. * There are a few exceptions. * a) With DSE, it is possible to change the block transaction number and then a DSE or MUPIP command can run * on the above block with the above condition not true. * b) tp_tend calls gvcst_blk_build for cse's with mode kill_t_write/kill_t_create. For them we build a private * copy of the block for later use in phase2 of the M-kill. In this case, blktn could be * uninitialized so cannot do any checks using this value. * c) For MM, we dont have two phase commits so dont do any checks in that case. * d) For acquired blocks, it is possible that some process had read in the uninitialized block from disk * outside of crit (due to concurrency issues). Therefore the buffer could contain garbage. So we cannot * rely on the buffer contents to determine the block's transaction number. * e) For VMS, if a twin is created, we explicitly set its buffer tn to be equal to ctn in phase1. * But since we are not passed the "cr" in this routine, it is not easily possible to check that. * Hence in case of VMS, we relax the check so buffertn == ctn is allowed. */ DEBUG_ONLY(blktn = ((blk_hdr_ptr_t)base_addr)->tn); assert(!IS_MCODE_RUNNING || !cs_addrs->t_commit_crit || (dba_bg != cs_data->acc_meth) || (n_gds_t_op < cse->mode) || (cse->mode == gds_t_acquired) || (blktn UNIX_ONLY(<) VMS_ONLY(<=) ctn)); assert((ctn < cs_addrs->ti->early_tn) || write_after_image); ((blk_hdr_ptr_t)base_addr)->bver = GDSVCURR; ((blk_hdr_ptr_t)base_addr)->tn = ctn; ((blk_hdr_ptr_t)base_addr)->bsiz = UINTCAST(array->len); ((blk_hdr_ptr_t)base_addr)->levl = cse->level; if (cse->forward_process) { stop_ptr = (blk_segment *)array->addr; seg = cse->first_copy ? array + 1: array + 2; ptr = base_addr + SIZEOF(blk_hdr); if (!cse->first_copy) ptr += ((blk_segment *)(array + 1))->len; for ( ; seg <= stop_ptr; ) { assert(0L <= ((INTPTR_T)seg->len)); DBG_BG_PHASE2_CHECK_CR_IS_PINNED(cs_addrs, seg); memmove(ptr, seg->addr, seg->len); ptr += seg->len; seg++; } } else { stop_ptr = cse->first_copy ? array : array + 1; seg = (blk_segment *)array->addr; ptr = base_addr + array->len; while (seg != stop_ptr) { assert(0L <= ((INTPTR_T)seg->len)); DBG_BG_PHASE2_CHECK_CR_IS_PINNED(cs_addrs, seg); ptr -= (n = seg->len); memmove(ptr, seg->addr, n); seg--; } } if (dollar_tlevel) { if (cse->ins_off) { /* if the cw set has a reference to resolve, move it to the block */ assert(cse->index < sgm_info_ptr->cw_set_depth); assert((int)cse->ins_off >= (int)(SIZEOF(blk_hdr) + SIZEOF(rec_hdr))); assert((int)(cse->next_off + cse->ins_off + SIZEOF(block_id)) <= array->len); if (cse->first_off == 0) cse->first_off = cse->ins_off; chain.flag = 1; chain.cw_index = cse->index; chain.next_off = cse->next_off; ptr = base_addr + cse->ins_off; GET_LONGP(ptr, &chain); cse->index = 0; cse->ins_off = 0; cse->next_off = 0; } # ifdef DEBUG if (offset = cse->first_off) { /* Verify the integrity of the TP chains within a newly created block. * If it is the first TP private build, the update array could have referenced * shared memory global buffers which could have been concurrently updated. * So the integrity of the chain cannot be easily verified. If ever we find * an integ error in the chain, we check if this is the first private TP build * and if so allow it but set a debug flag donot_commit so we never ever commit * this transaction. The hope is that it will instead restart after validation. */ ptr = base_addr; ptrtop = ptr + ((blk_hdr_ptr_t)ptr)->bsiz; chainptr = ptr + offset; ptr += SIZEOF(blk_hdr); integ_error_found = FALSE; for ( ; ptr < ptrtop; ) { do { GET_USHORT(nRecLen, &((rec_hdr_ptr_t)ptr)->rsiz); if (0 == nRecLen) { assert(NULL == input_base_addr); integ_error_found = TRUE; break; } ptr += nRecLen; if (ptr - SIZEOF(off_chain) == chainptr) break; if ((ptr - SIZEOF(off_chain)) > chainptr) { assert(NULL == input_base_addr); integ_error_found = TRUE; break; } GET_LONGP(&chain, ptr - SIZEOF(off_chain)); if (chain.flag) { assert(NULL == input_base_addr); integ_error_found = TRUE; break; } } while (ptr < ptrtop); if (integ_error_found) break; if (chainptr < ptrtop) { GET_LONGP(&chain, chainptr); assert(1 == chain.flag || (skip_block_chain_tail_check && (0 == chain.next_off))); assert(chain.cw_index < sgm_info_ptr->cw_set_depth); offset = chain.next_off; if (0 == offset) chainptr = ptrtop; else { chainptr = chainptr + offset; assert(chainptr < ptrtop); /* ensure we have not overrun the buffer */ } } } if (integ_error_found) TREF(donot_commit) |= DONOTCOMMIT_GVCST_BLK_BUILD_TPCHAIN; else assert(0 == offset); /* ensure the chain is NULL terminated */ } # endif } else assert(dollar_tlevel || (cse->index < (int)cw_set_depth)); }