%{ /*------------------------------------------------------------------------- * * bootparse.y * yacc grammar for the "bootstrap" mode (BKI file format) * * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * src/backend/bootstrap/bootparse.y * *------------------------------------------------------------------------- */ #include "postgres.h" #include #include "bootstrap/bootstrap.h" #include "catalog/heap.h" #include "catalog/namespace.h" #include "catalog/pg_am.h" #include "catalog/pg_authid.h" #include "catalog/pg_class.h" #include "catalog/pg_namespace.h" #include "catalog/pg_tablespace.h" #include "catalog/toasting.h" #include "commands/defrem.h" #include "miscadmin.h" #include "nodes/makefuncs.h" #include "utils/memutils.h" /* * Bison doesn't allocate anything that needs to live across parser calls, * so we can easily have it use palloc instead of malloc. This prevents * memory leaks if we error out during parsing. Note this only works with * bison >= 2.0. However, in bison 1.875 the default is to use alloca() * if possible, so there's not really much problem anyhow, at least if * you're building with gcc. */ #define YYMALLOC palloc #define YYFREE pfree static MemoryContext per_line_ctx = NULL; static void do_start(void) { Assert(CurrentMemoryContext == CurTransactionContext); /* First time through, create the per-line working context */ if (per_line_ctx == NULL) per_line_ctx = AllocSetContextCreate(CurTransactionContext, "bootstrap per-line processing", ALLOCSET_DEFAULT_SIZES); MemoryContextSwitchTo(per_line_ctx); } static void do_end(void) { /* Reclaim memory allocated while processing this line */ MemoryContextSwitchTo(CurTransactionContext); MemoryContextReset(per_line_ctx); CHECK_FOR_INTERRUPTS(); /* allow SIGINT to kill bootstrap run */ if (isatty(0)) { printf("bootstrap> "); fflush(stdout); } } static int num_columns_read = 0; %} %expect 0 %name-prefix="boot_yy" %union { List *list; IndexElem *ielem; char *str; const char *kw; int ival; Oid oidval; } %type boot_index_params %type boot_index_param %type boot_ident %type optbootstrap optsharedrelation boot_column_nullness %type oidspec optrowtypeoid %token ID %token COMMA EQUALS LPAREN RPAREN /* NULLVAL is a reserved keyword */ %token NULLVAL /* All the rest are unreserved, and should be handled in boot_ident! */ %token OPEN XCLOSE XCREATE INSERT_TUPLE %token XDECLARE INDEX ON USING XBUILD INDICES UNIQUE XTOAST %token OBJ_ID XBOOTSTRAP XSHARED_RELATION XROWTYPE_OID %token XFORCE XNOT XNULL %start TopLevel %% TopLevel: Boot_Queries | ; Boot_Queries: Boot_Query | Boot_Queries Boot_Query ; Boot_Query : Boot_OpenStmt | Boot_CloseStmt | Boot_CreateStmt | Boot_InsertStmt | Boot_DeclareIndexStmt | Boot_DeclareUniqueIndexStmt | Boot_DeclareToastStmt | Boot_BuildIndsStmt ; Boot_OpenStmt: OPEN boot_ident { do_start(); boot_openrel($2); do_end(); } ; Boot_CloseStmt: XCLOSE boot_ident { do_start(); closerel($2); do_end(); } ; Boot_CreateStmt: XCREATE boot_ident oidspec optbootstrap optsharedrelation optrowtypeoid LPAREN { do_start(); numattr = 0; elog(DEBUG4, "creating%s%s relation %s %u", $4 ? " bootstrap" : "", $5 ? " shared" : "", $2, $3); } boot_column_list { do_end(); } RPAREN { TupleDesc tupdesc; bool shared_relation; bool mapped_relation; do_start(); tupdesc = CreateTupleDesc(numattr, attrtypes); shared_relation = $5; /* * The catalogs that use the relation mapper are the * bootstrap catalogs plus the shared catalogs. If this * ever gets more complicated, we should invent a BKI * keyword to mark the mapped catalogs, but for now a * quick hack seems the most appropriate thing. Note in * particular that all "nailed" heap rels (see formrdesc * in relcache.c) must be mapped. */ mapped_relation = ($4 || shared_relation); if ($4) { TransactionId relfrozenxid; MultiXactId relminmxid; if (boot_reldesc) { elog(DEBUG4, "create bootstrap: warning, open relation exists, closing first"); closerel(NULL); } boot_reldesc = heap_create($2, PG_CATALOG_NAMESPACE, shared_relation ? GLOBALTABLESPACE_OID : 0, $3, InvalidOid, HEAP_TABLE_AM_OID, tupdesc, RELKIND_RELATION, RELPERSISTENCE_PERMANENT, shared_relation, mapped_relation, true, &relfrozenxid, &relminmxid); elog(DEBUG4, "bootstrap relation created"); } else { Oid id; id = heap_create_with_catalog($2, PG_CATALOG_NAMESPACE, shared_relation ? GLOBALTABLESPACE_OID : 0, $3, $6, InvalidOid, BOOTSTRAP_SUPERUSERID, HEAP_TABLE_AM_OID, tupdesc, NIL, RELKIND_RELATION, RELPERSISTENCE_PERMANENT, shared_relation, mapped_relation, ONCOMMIT_NOOP, (Datum) 0, false, true, false, InvalidOid, NULL); elog(DEBUG4, "relation created with OID %u", id); } do_end(); } ; Boot_InsertStmt: INSERT_TUPLE { do_start(); elog(DEBUG4, "inserting row"); num_columns_read = 0; } LPAREN boot_column_val_list RPAREN { if (num_columns_read != numattr) elog(ERROR, "incorrect number of columns in row (expected %d, got %d)", numattr, num_columns_read); if (boot_reldesc == NULL) elog(FATAL, "relation not open"); InsertOneTuple(); do_end(); } ; Boot_DeclareIndexStmt: XDECLARE INDEX boot_ident oidspec ON boot_ident USING boot_ident LPAREN boot_index_params RPAREN { IndexStmt *stmt = makeNode(IndexStmt); Oid relationId; elog(DEBUG4, "creating index \"%s\"", $3); do_start(); stmt->idxname = $3; stmt->relation = makeRangeVar(NULL, $6, -1); stmt->accessMethod = $8; stmt->tableSpace = NULL; stmt->indexParams = $10; stmt->indexIncludingParams = NIL; stmt->options = NIL; stmt->whereClause = NULL; stmt->excludeOpNames = NIL; stmt->idxcomment = NULL; stmt->indexOid = InvalidOid; stmt->oldNode = InvalidOid; stmt->oldCreateSubid = InvalidSubTransactionId; stmt->oldFirstRelfilenodeSubid = InvalidSubTransactionId; stmt->unique = false; stmt->primary = false; stmt->isconstraint = false; stmt->deferrable = false; stmt->initdeferred = false; stmt->transformed = false; stmt->concurrent = false; stmt->if_not_exists = false; stmt->reset_default_tblspc = false; /* locks and races need not concern us in bootstrap mode */ relationId = RangeVarGetRelid(stmt->relation, NoLock, false); DefineIndex(relationId, stmt, $4, InvalidOid, InvalidOid, false, false, false, true, /* skip_build */ false); do_end(); } ; Boot_DeclareUniqueIndexStmt: XDECLARE UNIQUE INDEX boot_ident oidspec ON boot_ident USING boot_ident LPAREN boot_index_params RPAREN { IndexStmt *stmt = makeNode(IndexStmt); Oid relationId; elog(DEBUG4, "creating unique index \"%s\"", $4); do_start(); stmt->idxname = $4; stmt->relation = makeRangeVar(NULL, $7, -1); stmt->accessMethod = $9; stmt->tableSpace = NULL; stmt->indexParams = $11; stmt->indexIncludingParams = NIL; stmt->options = NIL; stmt->whereClause = NULL; stmt->excludeOpNames = NIL; stmt->idxcomment = NULL; stmt->indexOid = InvalidOid; stmt->oldNode = InvalidOid; stmt->oldCreateSubid = InvalidSubTransactionId; stmt->oldFirstRelfilenodeSubid = InvalidSubTransactionId; stmt->unique = true; stmt->primary = false; stmt->isconstraint = false; stmt->deferrable = false; stmt->initdeferred = false; stmt->transformed = false; stmt->concurrent = false; stmt->if_not_exists = false; stmt->reset_default_tblspc = false; /* locks and races need not concern us in bootstrap mode */ relationId = RangeVarGetRelid(stmt->relation, NoLock, false); DefineIndex(relationId, stmt, $5, InvalidOid, InvalidOid, false, false, false, true, /* skip_build */ false); do_end(); } ; Boot_DeclareToastStmt: XDECLARE XTOAST oidspec oidspec ON boot_ident { elog(DEBUG4, "creating toast table for table \"%s\"", $6); do_start(); BootstrapToastTable($6, $3, $4); do_end(); } ; Boot_BuildIndsStmt: XBUILD INDICES { do_start(); build_indices(); do_end(); } ; boot_index_params: boot_index_params COMMA boot_index_param { $$ = lappend($1, $3); } | boot_index_param { $$ = list_make1($1); } ; boot_index_param: boot_ident boot_ident { IndexElem *n = makeNode(IndexElem); n->name = $1; n->expr = NULL; n->indexcolname = NULL; n->collation = NIL; n->opclass = list_make1(makeString($2)); n->ordering = SORTBY_DEFAULT; n->nulls_ordering = SORTBY_NULLS_DEFAULT; $$ = n; } ; optbootstrap: XBOOTSTRAP { $$ = 1; } | { $$ = 0; } ; optsharedrelation: XSHARED_RELATION { $$ = 1; } | { $$ = 0; } ; optrowtypeoid: XROWTYPE_OID oidspec { $$ = $2; } | { $$ = InvalidOid; } ; boot_column_list: boot_column_def | boot_column_list COMMA boot_column_def ; boot_column_def: boot_ident EQUALS boot_ident boot_column_nullness { if (++numattr > MAXATTR) elog(FATAL, "too many columns"); DefineAttr($1, $3, numattr-1, $4); } ; boot_column_nullness: XFORCE XNOT XNULL { $$ = BOOTCOL_NULL_FORCE_NOT_NULL; } | XFORCE XNULL { $$ = BOOTCOL_NULL_FORCE_NULL; } | { $$ = BOOTCOL_NULL_AUTO; } ; oidspec: boot_ident { $$ = atooid($1); } ; boot_column_val_list: boot_column_val | boot_column_val_list boot_column_val | boot_column_val_list COMMA boot_column_val ; boot_column_val: boot_ident { InsertOneValue($1, num_columns_read++); } | NULLVAL { InsertOneNull(num_columns_read++); } ; boot_ident: ID { $$ = $1; } | OPEN { $$ = pstrdup($1); } | XCLOSE { $$ = pstrdup($1); } | XCREATE { $$ = pstrdup($1); } | INSERT_TUPLE { $$ = pstrdup($1); } | XDECLARE { $$ = pstrdup($1); } | INDEX { $$ = pstrdup($1); } | ON { $$ = pstrdup($1); } | USING { $$ = pstrdup($1); } | XBUILD { $$ = pstrdup($1); } | INDICES { $$ = pstrdup($1); } | UNIQUE { $$ = pstrdup($1); } | XTOAST { $$ = pstrdup($1); } | OBJ_ID { $$ = pstrdup($1); } | XBOOTSTRAP { $$ = pstrdup($1); } | XSHARED_RELATION { $$ = pstrdup($1); } | XROWTYPE_OID { $$ = pstrdup($1); } | XFORCE { $$ = pstrdup($1); } | XNOT { $$ = pstrdup($1); } | XNULL { $$ = pstrdup($1); } ; %% #include "bootscanner.c"