/*------------------------------------------------------------------------- * * reloptions.h * Core support for relation and tablespace options (pg_class.reloptions * and pg_tablespace.spcoptions) * * Note: the functions dealing with text-array reloptions values declare * them as Datum, not ArrayType *, to avoid needing to include array.h * into a lot of low-level code. * * * Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/access/reloptions.h * *------------------------------------------------------------------------- */ #ifndef RELOPTIONS_H #define RELOPTIONS_H #include "access/amapi.h" #include "access/htup.h" #include "access/tupdesc.h" #include "nodes/pg_list.h" #include "storage/lock.h" /* types supported by reloptions */ typedef enum relopt_type { RELOPT_TYPE_BOOL, RELOPT_TYPE_INT, RELOPT_TYPE_REAL, RELOPT_TYPE_STRING } relopt_type; /* kinds supported by reloptions */ typedef enum relopt_kind { RELOPT_KIND_HEAP = (1 << 0), RELOPT_KIND_TOAST = (1 << 1), RELOPT_KIND_BTREE = (1 << 2), RELOPT_KIND_HASH = (1 << 3), RELOPT_KIND_GIN = (1 << 4), RELOPT_KIND_GIST = (1 << 5), RELOPT_KIND_ATTRIBUTE = (1 << 6), RELOPT_KIND_TABLESPACE = (1 << 7), RELOPT_KIND_SPGIST = (1 << 8), RELOPT_KIND_VIEW = (1 << 9), RELOPT_KIND_BRIN = (1 << 10), RELOPT_KIND_PARTITIONED = (1 << 11), /* if you add a new kind, make sure you update "last_default" too */ RELOPT_KIND_LAST_DEFAULT = RELOPT_KIND_PARTITIONED, /* some compilers treat enums as signed ints, so we can't use 1 << 31 */ RELOPT_KIND_MAX = (1 << 30) } relopt_kind; /* reloption namespaces allowed for heaps -- currently only TOAST */ #define HEAP_RELOPT_NAMESPACES { "toast", NULL } /* generic struct to hold shared data */ typedef struct relopt_gen { const char *name; /* must be first (used as list termination * marker) */ const char *desc; bits32 kinds; LOCKMODE lockmode; int namelen; relopt_type type; } relopt_gen; /* holds a parsed value */ typedef struct relopt_value { relopt_gen *gen; bool isset; union { bool bool_val; int int_val; double real_val; char *string_val; /* allocated separately */ } values; } relopt_value; /* reloptions records for specific variable types */ typedef struct relopt_bool { relopt_gen gen; bool default_val; } relopt_bool; typedef struct relopt_int { relopt_gen gen; int default_val; int min; int max; } relopt_int; typedef struct relopt_real { relopt_gen gen; double default_val; double min; double max; } relopt_real; /* validation routines for strings */ typedef void (*validate_string_relopt) (const char *value); typedef struct relopt_string { relopt_gen gen; int default_len; bool default_isnull; validate_string_relopt validate_cb; char *default_val; } relopt_string; /* This is the table datatype for fillRelOptions */ typedef struct { const char *optname; /* option's name */ relopt_type opttype; /* option's datatype */ int offset; /* offset of field in result struct */ } relopt_parse_elt; /* * These macros exist for the convenience of amoptions writers (but consider * using fillRelOptions, which is a lot simpler). Beware of multiple * evaluation of arguments! * * The last argument in the HANDLE_*_RELOPTION macros allows the caller to * determine whether the option was set (true), or its value acquired from * defaults (false); it can be passed as (char *) NULL if the caller does not * need this information. * * optname is the option name (a string), var is the variable * on which the value should be stored (e.g. StdRdOptions->fillfactor), and * option is a relopt_value pointer. * * The normal way to use this is to loop on the relopt_value array returned by * parseRelOptions: * for (i = 0; options[i].gen->name; i++) * { * if (HAVE_RELOPTION("fillfactor", options[i]) * { * HANDLE_INT_RELOPTION("fillfactor", rdopts->fillfactor, options[i], &isset); * continue; * } * if (HAVE_RELOPTION("default_row_acl", options[i]) * { * ... * } * ... * if (validate) * ereport(ERROR, * (errmsg("unknown option"))); * } * * Note that this is more or less the same that fillRelOptions does, so only * use this if you need to do something non-standard within some option's * code block. */ #define HAVE_RELOPTION(optname, option) \ (strncmp(option.gen->name, optname, option.gen->namelen + 1) == 0) #define HANDLE_INT_RELOPTION(optname, var, option, wasset) \ do { \ if (option.isset) \ var = option.values.int_val; \ else \ var = ((relopt_int *) option.gen)->default_val; \ (wasset) != NULL ? *(wasset) = option.isset : (dummyret)NULL; \ } while (0) #define HANDLE_BOOL_RELOPTION(optname, var, option, wasset) \ do { \ if (option.isset) \ var = option.values.bool_val; \ else \ var = ((relopt_bool *) option.gen)->default_val; \ (wasset) != NULL ? *(wasset) = option.isset : (dummyret) NULL; \ } while (0) #define HANDLE_REAL_RELOPTION(optname, var, option, wasset) \ do { \ if (option.isset) \ var = option.values.real_val; \ else \ var = ((relopt_real *) option.gen)->default_val; \ (wasset) != NULL ? *(wasset) = option.isset : (dummyret) NULL; \ } while (0) /* * Note that this assumes that the variable is already allocated at the tail of * reloptions structure (StdRdOptions or equivalent). * * "base" is a pointer to the reloptions structure, and "offset" is an integer * variable that must be initialized to sizeof(reloptions structure). This * struct must have been allocated with enough space to hold any string option * present, including terminating \0 for every option. SET_VARSIZE() must be * called on the struct with this offset as the second argument, after all the * string options have been processed. */ #define HANDLE_STRING_RELOPTION(optname, var, option, base, offset, wasset) \ do { \ relopt_string *optstring = (relopt_string *) option.gen;\ char *string_val; \ if (option.isset) \ string_val = option.values.string_val; \ else if (!optstring->default_isnull) \ string_val = optstring->default_val; \ else \ string_val = NULL; \ (wasset) != NULL ? *(wasset) = option.isset : (dummyret) NULL; \ if (string_val == NULL) \ var = 0; \ else \ { \ strcpy(((char *)(base)) + (offset), string_val); \ var = (offset); \ (offset) += strlen(string_val) + 1; \ } \ } while (0) /* * For use during amoptions: get the strlen of a string option * (either default or the user defined value) */ #define GET_STRING_RELOPTION_LEN(option) \ ((option).isset ? strlen((option).values.string_val) : \ ((relopt_string *) (option).gen)->default_len) /* * For use by code reading options already parsed: get a pointer to the string * value itself. "optstruct" is the StdRdOption struct or equivalent, "member" * is the struct member corresponding to the string option */ #define GET_STRING_RELOPTION(optstruct, member) \ ((optstruct)->member == 0 ? NULL : \ (char *)(optstruct) + (optstruct)->member) extern relopt_kind add_reloption_kind(void); extern void add_bool_reloption(bits32 kinds, const char *name, const char *desc, bool default_val); extern void add_int_reloption(bits32 kinds, const char *name, const char *desc, int default_val, int min_val, int max_val); extern void add_real_reloption(bits32 kinds, const char *name, const char *desc, double default_val, double min_val, double max_val); extern void add_string_reloption(bits32 kinds, const char *name, const char *desc, const char *default_val, validate_string_relopt validator); extern Datum transformRelOptions(Datum oldOptions, List *defList, const char *namspace, char *validnsps[], bool acceptOidsOff, bool isReset); extern List *untransformRelOptions(Datum options); extern bytea *extractRelOptions(HeapTuple tuple, TupleDesc tupdesc, amoptions_function amoptions); extern relopt_value *parseRelOptions(Datum options, bool validate, relopt_kind kind, int *numrelopts); extern void *allocateReloptStruct(Size base, relopt_value *options, int numoptions); extern void fillRelOptions(void *rdopts, Size basesize, relopt_value *options, int numoptions, bool validate, const relopt_parse_elt *elems, int nelems); extern bytea *default_reloptions(Datum reloptions, bool validate, relopt_kind kind); extern bytea *heap_reloptions(char relkind, Datum reloptions, bool validate); extern bytea *view_reloptions(Datum reloptions, bool validate); extern bytea *index_reloptions(amoptions_function amoptions, Datum reloptions, bool validate); extern bytea *attribute_reloptions(Datum reloptions, bool validate); extern bytea *tablespace_reloptions(Datum reloptions, bool validate); extern LOCKMODE AlterTableGetRelOptionsLockLevel(List *defList); #endif /* RELOPTIONS_H */