/*------------------------------------------------------------------------- * * define.c-- * * These routines execute some of the CREATE statements. In an earlier * version of Postgres, these were "define" statements. * * Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/commands/define.c,v 1.9 1996/11/08 20:45:16 momjian Exp $ * * DESCRIPTION * The "DefineFoo" routines take the parse tree and pick out the * appropriate arguments/flags, passing the results to the * corresponding "FooDefine" routines (in src/catalog) that do * the actual catalog-munging. These routines also verify permission * of the user to execute the command. * * NOTES * These things must be defined and committed in the following order: * "create function": * input/output, recv/send procedures * "create type": * type * "create operator": * operators * * Most of the parse-tree manipulation routines are defined in * commands/manip.c. * *------------------------------------------------------------------------- */ #include #include #include #include #include #include #include #include #include #include #include #include #include /* for fmgr */ #include /* prototype for textin() */ #include #include #include #include static char *defGetString(DefElem *def); static int defGetTypeLength(DefElem *def); #define DEFAULT_TYPDELIM ',' void case_translate_language_name(const char *input, char *output) { /*------------------------------------------------------------------------- Translate the input language name to lower case, except if it's C, translate to upper case. --------------------------------------------------------------------------*/ int i; for (i = 0; i < NAMEDATALEN && input[i] != '\0'; ++i) output[i] = tolower(input[i]); output[i] = '\0'; if (strcmp(output, "c") == 0) output[0] = 'C'; } void compute_return_type(const Node *returnType, char **prorettype_p, bool *returnsSet_p) { /*--------------------------------------------------------------------------- Examine the "returns" clause returnType of the CREATE FUNCTION statement and return information about it as **prorettype_p and **returnsSet. ----------------------------------------------------------------------------*/ if (nodeTag(returnType) == T_TypeName) { /* a set of values */ TypeName *setType = (TypeName *)returnType; *prorettype_p = setType->name, *returnsSet_p = true; }else { /* singleton */ *prorettype_p = strVal(returnType); *returnsSet_p = false; } } void compute_full_attributes(const List *parameters, int32 *byte_pct_p, int32 *perbyte_cpu_p, int32 *percall_cpu_p, int32 *outin_ratio_p, bool *canCache_p) { /*-------------------------------------------------------------------------- Interpret the parameters *parameters and return their contents as *byte_pct_p, etc. These are the full parameters of a C or internal function. ---------------------------------------------------------------------------*/ List *pl; /* the defaults */ *byte_pct_p = BYTE_PCT; *perbyte_cpu_p = PERBYTE_CPU; *percall_cpu_p = PERCALL_CPU; *outin_ratio_p = OUTIN_RATIO; foreach(pl, (List *)parameters) { ParamString *param = (ParamString*)lfirst(pl); if (strcasecmp(param->name, "iscachable") == 0) { *canCache_p = true; } else if (strcasecmp(param->name, "trusted") == 0) { /* * we don't have untrusted functions any more. The 4.2 * implementation is lousy anyway so I took it out. * -ay 10/94 */ elog(WARN, "untrusted function has been decommissioned."); } else if (strcasecmp(param->name, "byte_pct") == 0) { /* ** handle expensive function parameters */ *byte_pct_p = atoi(param->val); } else if (strcasecmp(param->name, "perbyte_cpu") == 0) { if (sscanf(param->val, "%d", perbyte_cpu_p) == 0) { int count; char *ptr; for (count = 0, ptr = param->val; *ptr != '\0'; ptr++) if (*ptr == '!') count++; *perbyte_cpu_p = (int) pow(10.0, (double) count); } } else if (strcasecmp(param->name, "percall_cpu") == 0) { if (sscanf(param->val, "%d", percall_cpu_p) == 0) { int count; char *ptr; for (count = 0, ptr = param->val; *ptr != '\0'; ptr++) if (*ptr == '!') count++; *percall_cpu_p = (int) pow(10.0, (double) count); } } else if (strcasecmp(param->name, "outin_ratio") == 0) { *outin_ratio_p = atoi(param->val); } } } void interpret_AS_clause(const char languageName[], const char as[], char **prosrc_str_p, char **probin_str_p) { if ( strcmp(languageName, "C") == 0 || strcmp(languageName, "internal") == 0 ) { *prosrc_str_p = "-"; *probin_str_p = (char *)as; } else { *prosrc_str_p = (char *)as; *probin_str_p = "-"; } } /* * CreateFunction -- * Execute a CREATE FUNCTION utility statement. * */ void CreateFunction(ProcedureStmt *stmt, CommandDest dest) { char *probin_str; /* pathname of executable file that executes this function, if any */ char *prosrc_str; /* SQL that executes this function, if any */ char *prorettype; /* Type of return value (or member of set of values) from function */ char languageName[NAMEDATALEN+1]; /* name of language of function, with case adjusted: "C", "internal", or "SQL" */ /* The following are attributes of the function, as expressed in the CREATE FUNCTION statement, where applicable. */ int32 byte_pct, perbyte_cpu, percall_cpu, outin_ratio; bool canCache; bool returnsSet; /* The function returns a set of values, as opposed to a singleton. */ case_translate_language_name(stmt->language, languageName); compute_return_type(stmt->returnType, &prorettype, &returnsSet); if ( strcmp(languageName, "C") == 0 || strcmp(languageName, "internal") == 0 ) { compute_full_attributes(stmt->withClause, &byte_pct, &perbyte_cpu, &percall_cpu, &outin_ratio, &canCache); } else if (strcmp(languageName, "sql") == 0) { /* query optimizer groks sql, these are meaningless */ perbyte_cpu = percall_cpu = 0; byte_pct = outin_ratio = 100; canCache = false; } else { elog(WARN, "Unrecognized language specified in a CREATE FUNCTION: " "'%s'. Recognized languages are sql, C, and internal.", languageName); } interpret_AS_clause(languageName, stmt->as, &prosrc_str, &probin_str); if (strcmp(languageName, "sql") != 0 && !superuser()) elog(WARN, "Only users with Postgres superuser privilege are permitted " "to create a function " "in the '%s' language. Others may use the 'sql' language.", languageName); /* Above does not return. */ else { /* And now that we have all the parameters, and know we're permitted to do so, go ahead and create the function. */ ProcedureCreate(stmt->funcname, returnsSet, prorettype, languageName, prosrc_str, /* converted to text later */ probin_str, /* converted to text later */ canCache, true, /* (obsolete "trusted") */ byte_pct, perbyte_cpu, percall_cpu, outin_ratio, stmt->defArgs, dest); } } /* -------------------------------- * DefineOperator-- * * this function extracts all the information from the * parameter list generated by the parser and then has * OperatorCreate() do all the actual work. * * 'parameters' is a list of DefElem * -------------------------------- */ void DefineOperator(char *oprName, List *parameters) { uint16 precedence=0; /* operator precedence */ bool canHash=false; /* operator hashes */ bool isLeftAssociative=true; /* operator is left associative */ char *functionName=NULL; /* function for operator */ char *typeName1=NULL; /* first type name */ char *typeName2=NULL; /* second type name */ char *commutatorName=NULL; /* optional commutator operator name */ char *negatorName=NULL; /* optional negator operator name */ char *restrictionName=NULL; /* optional restrict. sel. procedure */ char *joinName=NULL; /* optional join sel. procedure name */ char *sortName1=NULL; /* optional first sort operator */ char *sortName2=NULL; /* optional second sort operator */ List *pl; /* * loop over the definition list and extract the information we need. */ foreach (pl, parameters) { DefElem *defel = (DefElem *)lfirst(pl); if (!strcasecmp(defel->defname, "leftarg")) { /* see gram.y, must be setof */ if (nodeTag(defel->arg)==T_TypeName) elog(WARN, "setof type not implemented for leftarg"); if (nodeTag(defel->arg)==T_String) { typeName1 = defGetString(defel); }else { elog(WARN, "type for leftarg is malformed."); } } else if (!strcasecmp(defel->defname, "rightarg")) { /* see gram.y, must be setof */ if (nodeTag(defel->arg)==T_TypeName) elog(WARN, "setof type not implemented for rightarg"); if (nodeTag(defel->arg)==T_String) { typeName2 = defGetString(defel); }else { elog(WARN, "type for rightarg is malformed."); } } else if (!strcasecmp(defel->defname, "procedure")) { functionName = defGetString(defel); } else if (!strcasecmp(defel->defname, "precedence")) { /* NOT IMPLEMENTED (never worked in v4.2) */ elog(NOTICE, "CREATE OPERATOR: precedence not implemented"); } else if (!strcasecmp(defel->defname, "associativity")) { /* NOT IMPLEMENTED (never worked in v4.2) */ elog(NOTICE, "CREATE OPERATOR: associativity not implemented"); } else if (!strcasecmp(defel->defname, "commutator")) { commutatorName = defGetString(defel); } else if (!strcasecmp(defel->defname, "negator")) { negatorName = defGetString(defel); } else if (!strcasecmp(defel->defname, "restrict")) { restrictionName = defGetString(defel); } else if (!strcasecmp(defel->defname, "join")) { joinName = defGetString(defel); } else if (!strcasecmp(defel->defname, "hashes")) { canHash = TRUE; } else if (!strcasecmp(defel->defname, "sort1")) { /* ---------------- * XXX ( ... [ , sort1 = oprname ] [ , sort2 = oprname ] ... ) * XXX is undocumented in the reference manual source as of * 89/8/22. * ---------------- */ sortName1 = defGetString(defel); } else if (!strcasecmp(defel->defname, "sort2")) { sortName2 = defGetString(defel); } else { elog(NOTICE, "DefineOperator: attribute \"%s\" not recognized", defel->defname); } } /* * make sure we have our required definitions */ if (functionName==NULL) { elog(WARN, "Define: \"procedure\" unspecified"); } /* ---------------- * now have OperatorCreate do all the work.. * ---------------- */ OperatorCreate(oprName, /* operator name */ typeName1, /* first type name */ typeName2, /* second type name */ functionName, /* function for operator */ precedence, /* operator precedence */ isLeftAssociative, /* operator is left associative */ commutatorName, /* optional commutator operator name */ negatorName, /* optional negator operator name */ restrictionName, /* optional restrict. sel. procedure */ joinName, /* optional join sel. procedure name */ canHash, /* operator hashes */ sortName1, /* optional first sort operator */ sortName2); /* optional second sort operator */ } /* ------------------- * DefineAggregate * ------------------ */ void DefineAggregate(char *aggName, List *parameters) { char *stepfunc1Name = NULL; char *stepfunc2Name = NULL; char *finalfuncName = NULL; char *baseType = NULL; char *stepfunc1Type = NULL; char *stepfunc2Type = NULL; char *init1 = NULL; char *init2 = NULL; List *pl; foreach (pl, parameters) { DefElem *defel = (DefElem *)lfirst(pl); /* * sfunc1 */ if (!strcasecmp(defel->defname, "sfunc1")) { stepfunc1Name = defGetString(defel); } else if (!strcasecmp(defel->defname, "basetype")) { baseType = defGetString(defel); } else if (!strcasecmp(defel->defname, "stype1")) { stepfunc1Type = defGetString(defel); /* * sfunc2 */ } else if (!strcasecmp(defel->defname, "sfunc2")) { stepfunc2Name = defGetString(defel); } else if (!strcasecmp(defel->defname, "stype2")) { stepfunc2Type = defGetString(defel); /* * final */ } else if (!strcasecmp(defel->defname, "finalfunc")) { finalfuncName = defGetString(defel); /* * initial conditions */ } else if (!strcasecmp(defel->defname, "initcond1")) { init1 = defGetString(defel); } else if (!strcasecmp(defel->defname, "initcond2")) { init2 = defGetString(defel); } else { elog(NOTICE, "DefineAggregate: attribute \"%s\" not recognized", defel->defname); } } /* * make sure we have our required definitions */ if (baseType==NULL) elog(WARN, "Define: \"basetype\" unspecified"); if (stepfunc1Name!=NULL) { if (stepfunc1Type==NULL) elog(WARN, "Define: \"stype1\" unspecified"); } if (stepfunc2Name!=NULL) { if (stepfunc2Type==NULL) elog(WARN, "Define: \"stype2\" unspecified"); } /* * Most of the argument-checking is done inside of AggregateCreate */ AggregateCreate(aggName, /* aggregate name */ stepfunc1Name, /* first step function name */ stepfunc2Name, /* second step function name */ finalfuncName, /* final function name */ baseType, /* type of object being aggregated */ stepfunc1Type, /* return type of first function */ stepfunc2Type, /* return type of second function */ init1, /* first initial condition */ init2); /* second initial condition */ /* XXX free palloc'd memory */ } /* * DefineType -- * Registers a new type. * */ void DefineType(char *typeName, List *parameters) { int16 internalLength= 0; /* int2 */ int16 externalLength= 0; /* int2 */ char *elemName = NULL; char *inputName = NULL; char *outputName = NULL; char *sendName = NULL; char *receiveName = NULL; char *defaultValue = NULL; /* Datum */ bool byValue = false; char delimiter = DEFAULT_TYPDELIM; char *shadow_type; List *pl; char alignment = 'i'; /* default alignment */ /* * Type names can only be 15 characters long, so that the shadow type * can be created using the 16th character as necessary. */ if (strlen(typeName) >= (NAMEDATALEN - 1)) { elog(WARN, "DefineType: type names must be %d characters or less", NAMEDATALEN - 1); } foreach(pl, parameters) { DefElem *defel = (DefElem*)lfirst(pl); if (!strcasecmp(defel->defname, "internallength")) { internalLength = defGetTypeLength(defel); }else if (!strcasecmp(defel->defname, "externallength")) { externalLength = defGetTypeLength(defel); }else if (!strcasecmp(defel->defname, "input")) { inputName = defGetString(defel); }else if (!strcasecmp(defel->defname, "output")) { outputName = defGetString(defel); }else if (!strcasecmp(defel->defname, "send")) { sendName = defGetString(defel); }else if (!strcasecmp(defel->defname, "delimiter")) { char *p = defGetString(defel); delimiter = p[0]; }else if (!strcasecmp(defel->defname, "receive")) { receiveName = defGetString(defel); }else if (!strcasecmp(defel->defname, "element")) { elemName = defGetString(defel); }else if (!strcasecmp(defel->defname, "default")) { defaultValue = defGetString(defel); }else if (!strcasecmp(defel->defname, "passedbyvalue")) { byValue = true; }else if (!strcasecmp(defel->defname, "alignment")) { char *a = defGetString(defel); if (!strcasecmp(a, "double")) { alignment = 'd'; } else if (!strcasecmp(a, "int")) { alignment = 'i'; } else { elog(WARN, "DefineType: \"%s\" alignment not recognized", a); } }else { elog(NOTICE, "DefineType: attribute \"%s\" not recognized", defel->defname); } } /* * make sure we have our required definitions */ if (inputName==NULL) elog(WARN, "Define: \"input\" unspecified"); if (outputName==NULL) elog(WARN, "Define: \"output\" unspecified"); /* ---------------- * now have TypeCreate do all the real work. * ---------------- */ (void) TypeCreate(typeName, /* type name */ InvalidOid, /* relation oid (n/a here) */ internalLength, /* internal size */ externalLength, /* external size */ 'b', /* type-type (base type) */ delimiter, /* array element delimiter */ inputName, /* input procedure */ outputName, /* output procedure */ sendName, /* send procedure */ receiveName, /* receive procedure */ elemName, /* element type name */ defaultValue, /* default type value */ byValue, /* passed by value */ alignment); /* ---------------- * When we create a true type (as opposed to a complex type) * we need to have an shadow array entry for it in pg_type as well. * ---------------- */ shadow_type = makeArrayTypeName(typeName); (void) TypeCreate(shadow_type, /* type name */ InvalidOid, /* relation oid (n/a here) */ -1, /* internal size */ -1, /* external size */ 'b', /* type-type (base type) */ DEFAULT_TYPDELIM, /* array element delimiter */ "array_in", /* input procedure */ "array_out", /* output procedure */ "array_out", /* send procedure */ "array_in", /* receive procedure */ typeName, /* element type name */ defaultValue, /* default type value */ false, /* never passed by value */ alignment); pfree(shadow_type); } static char * defGetString(DefElem *def) { if (nodeTag(def->arg)!=T_String) elog(WARN, "Define: \"%s\" = what?", def->defname); return (strVal(def->arg)); } static int defGetTypeLength(DefElem *def) { if (nodeTag(def->arg)==T_Integer) return (intVal(def->arg)); else if (nodeTag(def->arg)==T_String && !strcasecmp(strVal(def->arg),"variable")) return -1; /* variable length */ elog(WARN, "Define: \"%s\" = what?", def->defname); return -1; }