/**************************************************************** * * * 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 #include "gtm_string.h" #include "gtm_stdio.h" #include "rc.h" #include "gdsroot.h" #include "gtm_facility.h" #include "fileinfo.h" #include "gdsbt.h" #include "gdsfhead.h" #include "rc_nspace.h" #include "iosp.h" #include "copy.h" #include "rc_oflow.h" #include "error.h" #include "gdsblk.h" #include "gtcm.h" #include "omi.h" #include "io.h" #include "gvcst_protos.h" /* for gvcst_get,gvcst_init prototype */ #include "change_reg.h" #include "mvalconv.h" #include "trans_log_name.h" #include "hashtab_mname.h" #include "hashtab.h" /* TEMPORARY CONSTANT - minimum value of the database RC_RESERVED field */ #define RC_RESERVED 128 GBLDEF int rc_server_id = RC_DEF_SERV_ID; GBLDEF rc_dsid_list *dsid_list = NULL; GBLREF gd_region *gv_cur_region; GBLREF gv_key *gv_currkey; GBLREF gv_key *gv_altkey; GBLREF sgmnt_addrs *cs_addrs; GBLREF gv_namehead *gv_target; GBLREF int4 gv_keysize; GBLREF sgmnt_data_ptr_t cs_data; GBLREF gd_addr *gd_header; GBLREF rc_oflow *rc_overflow; static rc_dsid_list *fdi_ptr = 0; static int rc_overflow_size = 0; static CONDITION_HANDLER(rc_fnd_file_ch1); static CONDITION_HANDLER(rc_fnd_file_ch2); short rc_fnd_file(rc_xdsid *xdsid) { gv_namehead *g; short dsid, node; gd_binding *map; char buff[1024], *cp, *cp1; mstr fpath1, fpath2; mval v; int i, keysize; int len, node2; GET_SHORT(dsid, &xdsid->dsid.value); GET_SHORT(node, &xdsid->node.value); if (!dsid_list) { /* open special database, set up entry */ dsid_list = (rc_dsid_list *)malloc(SIZEOF(rc_dsid_list)); dsid_list->dsid = RC_NSPACE_DSID; dsid_list->next = NULL; fpath1.addr = RC_NSPACE_PATH; fpath1.len = SIZEOF(RC_NSPACE_PATH); if (SS_NORMAL != TRANS_LOG_NAME(&fpath1, &fpath2, buff, SIZEOF(buff), do_sendmsg_on_log2long)) { char msg[256]; SPRINTF(msg, "Invalid DB filename, \"%s\"", fpath1.addr); gtcm_rep_err(msg, errno); return RC_BADFILESPEC; } if (fpath2.len > MAX_FN_LEN) return RC_BADFILESPEC; dsid_list->fname = (char *)malloc(fpath2.len + 1); memcpy(dsid_list->fname, fpath2.addr, fpath2.len); *((char*)(dsid_list->fname + fpath2.len)) = 0; gv_cur_region = (gd_region *)malloc(SIZEOF(gd_region)); memset(gv_cur_region, 0, SIZEOF(gd_region)); gv_cur_region->dyn.addr = (gd_segment *)malloc(SIZEOF(gd_segment)); memset(gv_cur_region->dyn.addr, 0, SIZEOF(gd_segment)); memcpy(gv_cur_region->dyn.addr->fname, fpath2.addr, fpath2.len); gv_cur_region->dyn.addr->fname_len = fpath2.len; gv_cur_region->dyn.addr->acc_meth = dba_bg; ESTABLISH_RET(rc_fnd_file_ch1, RC_SUCCESS); gvcst_init(gv_cur_region); REVERT; change_reg(); /* check to see if this DB has the reserved bytes field set * correctly. Global pages must always have some extra unused * space left in them (RC_RESERVED bytes) so that the page * will fit into the client buffer when unpacked by the * client. */ if (cs_data->reserved_bytes < RC_RESERVED) { OMI_DBG((omi_debug, "Unable to access database file: \"%s\"\nReserved_bytes field in the file header is too small for GT.CM\n", fpath2.addr)); free(dsid_list->fname); dsid_list->fname = NULL; free(dsid_list); dsid_list = NULL; free(gv_cur_region->dyn.addr); gv_cur_region->dyn.addr = NULL; free(gv_cur_region); gv_cur_region = NULL; return RC_FILEACCESS; } gv_keysize = DBKEYSIZE(gv_cur_region->max_key_size); GVKEY_INIT(gv_currkey, gv_keysize); GVKEY_INIT(gv_altkey, gv_keysize); cs_addrs->dir_tree = (gv_namehead *)malloc(SIZEOF(gv_namehead) + 2 * SIZEOF(gv_key) + 3 * (gv_keysize - 1)); g = cs_addrs->dir_tree; g->first_rec = (gv_key*)(g->clue.base + gv_keysize); g->last_rec = (gv_key*)(g->first_rec->base + gv_keysize); g->clue.top = g->last_rec->top = g->first_rec->top = gv_keysize; g->clue.prev = g->clue.end = 0; g->root = DIR_ROOT; dsid_list->gda = (gd_addr*)malloc(SIZEOF(gd_addr) + 3 * SIZEOF(gd_binding)); dsid_list->gda->n_maps = 3; dsid_list->gda->n_regions = 1; dsid_list->gda->n_segments = 1; dsid_list->gda->maps = (gd_binding*)((char*)dsid_list->gda + SIZEOF(gd_addr)); dsid_list->gda->max_rec_size = gv_cur_region->max_rec_size; map = dsid_list->gda->maps; map ++; memset(map->name, 0, SIZEOF(map->name)); map->name[0] = '%'; map->reg.addr = gv_cur_region; map++; map->reg.addr = gv_cur_region; memset(map->name, -1, SIZEOF(map->name)); dsid_list->gda->tab_ptr = (hash_table_mname *)malloc(SIZEOF(hash_table_mname)); init_hashtab_mname(dsid_list->gda->tab_ptr, 0, HASHTAB_NO_COMPACT, HASHTAB_NO_SPARE_TABLE); change_reg(); if (rc_overflow->top < cs_addrs->hdr->blk_size) { if (rc_overflow->buff) free(rc_overflow->buff); rc_overflow->top = cs_addrs->hdr->blk_size; rc_overflow->buff = (char*)malloc(rc_overflow->top); if (rc_overflow_size < rc_overflow->top) rc_overflow_size = rc_overflow->top; } } for (fdi_ptr = dsid_list; fdi_ptr && (fdi_ptr->dsid != dsid); fdi_ptr = fdi_ptr->next) ; if (!fdi_ptr) { /* need to open new database, add to list, set fdi_ptr */ gd_header = dsid_list->gda; gv_currkey->end = 0; v.mvtype = MV_STR; v.str.len = RC_NSPACE_GLOB_LEN-1; v.str.addr = RC_NSPACE_GLOB; GV_BIND_NAME_AND_ROOT_SEARCH(gd_header, &v.str); if (!gv_target->root) /* No namespace global */ return RC_UNDEFNAMSPC; v.mvtype = MV_STR; v.str.len = SIZEOF(RC_NSPACE_DSI_SUB)-1; v.str.addr = RC_NSPACE_DSI_SUB; mval2subsc(&v,gv_currkey); node2 = node; MV_FORCE_MVAL(&v,node2); mval2subsc(&v,gv_currkey); i = dsid / 256; MV_FORCE_MVAL(&v,i); mval2subsc(&v,gv_currkey); if (gvcst_get(&v)) return RC_UNDEFNAMSPC; for (cp = v.str.addr, i = 1; i < RC_FILESPEC_PIECE; i++) for (; *cp++ != RC_FILESPEC_DELIM; ) ; for (cp1 = cp; *cp1++ != RC_FILESPEC_DELIM; ) ; cp1--; len = (int)(cp1 - cp); if (len > MAX_FN_LEN) return RC_BADFILESPEC; fdi_ptr = (rc_dsid_list *)malloc(SIZEOF(rc_dsid_list)); fdi_ptr->fname = (char *)malloc(len+1); fdi_ptr->dsid = dsid; memcpy(fdi_ptr->fname, cp, len); *(fdi_ptr->fname + (len)) = 0; gv_cur_region = (gd_region *)malloc(SIZEOF(gd_region)); memset(gv_cur_region, 0, SIZEOF(gd_region)); gv_cur_region->dyn.addr = (gd_segment *)malloc(SIZEOF(gd_segment)); memset(gv_cur_region->dyn.addr, 0, SIZEOF(gd_segment)); memcpy(gv_cur_region->dyn.addr->fname, cp, len); gv_cur_region->dyn.addr->fname_len = len; gv_cur_region->dyn.addr->acc_meth = dba_bg; ESTABLISH_RET(rc_fnd_file_ch2, RC_SUCCESS); gvcst_init(gv_cur_region); REVERT; change_reg(); /* check to see if this DB has the reserved bytes field set * correctly. Global pages must always have some extra unused * space left in them (RC_RESERVED bytes) so that the page * will fit into the client buffer when unpacked by the * client. */ if (cs_data->reserved_bytes < RC_RESERVED) { OMI_DBG((omi_debug, "Unable to access database file: \"%s\"\nReserved_bytes field in the file header is too small for GT.CM\n", fdi_ptr->fname)); free(dsid_list->fname); dsid_list->fname = NULL; free(dsid_list); dsid_list = NULL; free(gv_cur_region->dyn.addr); gv_cur_region->dyn.addr = NULL; free(gv_cur_region); gv_cur_region = NULL; return RC_FILEACCESS; } assert(!cs_addrs->hold_onto_crit); /* this ensures we can safely do unconditional grab_crit and rel_crit */ grab_crit(gv_cur_region); cs_data->rc_srv_cnt++; if (!cs_data->dsid) { cs_data->dsid = dsid; cs_data->rc_node = node; } else if (cs_data->dsid != dsid || cs_data->rc_node != node) { cs_data->rc_srv_cnt--; rel_crit(gv_cur_region); OMI_DBG((omi_debug, "Dataset ID/RC node mismatch")); OMI_DBG((omi_debug, "DB file: \"%s\"\n", dsid_list->fname)); OMI_DBG((omi_debug, "Stored DSID: %d\tRC Node: %d\n", cs_data->dsid, cs_data->rc_node)); OMI_DBG((omi_debug, "RC Rq DSID: %d\tRC Node: %d\n", dsid,node)); free(fdi_ptr->fname); fdi_ptr->fname = NULL; free(fdi_ptr); fdi_ptr = NULL; free(gv_cur_region->dyn.addr); gv_cur_region->dyn.addr = NULL; free(gv_cur_region); gv_cur_region = NULL; return RC_FILEACCESS; } rel_crit(gv_cur_region); keysize = DBKEYSIZE(gv_cur_region->max_key_size); GVKEYSIZE_INCREASE_IF_NEEDED(keysize); cs_addrs->dir_tree = (gv_namehead *)malloc(SIZEOF(gv_namehead) + 2 * SIZEOF(gv_key) + 3 * (keysize - 1)); g = cs_addrs->dir_tree; g->first_rec = (gv_key*)(g->clue.base + keysize); g->last_rec = (gv_key*)(g->first_rec->base + keysize); g->clue.top = g->last_rec->top = g->first_rec->top = keysize; g->clue.prev = g->clue.end = 0; g->root = DIR_ROOT; fdi_ptr->gda = (gd_addr*)malloc(SIZEOF(gd_addr) + 3 * SIZEOF(gd_binding)); fdi_ptr->gda->n_maps = 3; fdi_ptr->gda->n_regions = 1; fdi_ptr->gda->n_segments = 1; fdi_ptr->gda->maps = (gd_binding*)((char*)fdi_ptr->gda + SIZEOF(gd_addr)); fdi_ptr->gda->max_rec_size = gv_cur_region->max_rec_size; map = fdi_ptr->gda->maps; map ++; memset(map->name, 0, SIZEOF(map->name)); map->name[0] = '%'; map->reg.addr = gv_cur_region; map++; map->reg.addr = gv_cur_region; memset(map->name, -1, SIZEOF(map->name)); fdi_ptr->gda->tab_ptr = (hash_table_mname *)malloc(SIZEOF(hash_table_mname)); init_hashtab_mname(fdi_ptr->gda->tab_ptr, 0, HASHTAB_NO_COMPACT, HASHTAB_NO_SPARE_TABLE); fdi_ptr->next = dsid_list->next; dsid_list->next = fdi_ptr; } gv_cur_region = fdi_ptr->gda->maps[1].reg.addr; change_reg(); if (rc_overflow->top < cs_addrs->hdr->blk_size) { if (rc_overflow->buff) free(rc_overflow->buff); rc_overflow->top = cs_addrs->hdr->blk_size; rc_overflow->buff = (char*)malloc(rc_overflow->top); if (rc_overflow_size < rc_overflow->top) rc_overflow_size = rc_overflow->top; } if (!rc_overflow -> top) { rc_overflow -> top = rc_overflow_size; rc_overflow->buff = (char *)malloc(rc_overflow->top); } gd_header = fdi_ptr->gda; return RC_SUCCESS; } /* clean up from gvcst_init() failure, when dsid_list was NULL (open first db) */ static CONDITION_HANDLER(rc_fnd_file_ch1) { /* undo setup */ START_CH free(dsid_list->fname); dsid_list = NULL; free(gv_cur_region->dyn.addr); gv_cur_region->dyn.addr = NULL; free(gv_cur_region); gv_cur_region = NULL; NEXTCH; } /* clean up from gvcst_init() failure, when dsid_list was non-NULL (open new db) */ static CONDITION_HANDLER(rc_fnd_file_ch2) { /* undo setup */ START_CH free(fdi_ptr->fname); fdi_ptr->fname = NULL; free(fdi_ptr); free(gv_cur_region->dyn.addr); gv_cur_region->dyn.addr = NULL; free(gv_cur_region); gv_cur_region = NULL; NEXTCH; }