acl_8c_source.html

 /*-------------------------------------------------------------------------

  *

  * acl.c

  *    Basic access control list data structures manipulation routines.

  *

  * Portions Copyright (c) 1996-2022, PostgreSQL Global Development Group

  * Portions Copyright (c) 1994, Regents of the University of California

  *

  *

  * IDENTIFICATION

  *    src/backend/utils/adt/acl.c

  *

  *-------------------------------------------------------------------------

  */

 #include "postgres.h"


 #include <ctype.h>


 #include "access/htup_details.h"

 #include "catalog/catalog.h"

 #include "catalog/namespace.h"

 #include "catalog/pg_auth_members.h"

 #include "catalog/pg_authid.h"

 #include "catalog/pg_class.h"

 #include "catalog/pg_database.h"

 #include "catalog/pg_foreign_data_wrapper.h"

 #include "catalog/pg_foreign_server.h"

 #include "catalog/pg_language.h"

 #include "catalog/pg_namespace.h"

 #include "catalog/pg_parameter_acl.h"

 #include "catalog/pg_proc.h"

 #include "catalog/pg_tablespace.h"

 #include "catalog/pg_type.h"

 #include "commands/dbcommands.h"

 #include "commands/proclang.h"

 #include "commands/tablespace.h"

 #include "common/hashfn.h"

 #include "foreign/foreign.h"

 #include "funcapi.h"

 #include "lib/qunique.h"

 #include "miscadmin.h"

 #include "utils/acl.h"

 #include "utils/array.h"

 #include "utils/builtins.h"

 #include "utils/catcache.h"

 #include "utils/guc.h"

 #include "utils/inval.h"

 #include "utils/lsyscache.h"

 #include "utils/memutils.h"

 #include "utils/syscache.h"

 #include "utils/varlena.h"


 typedef struct

 {

     const char *name;

     AclMode     value;

 } priv_map;


 /*

  * We frequently need to test whether a given role is a member of some other

  * role.  In most of these tests the "given role" is the same, namely the

  * active current user.  So we can optimize it by keeping cached lists of all

  * the roles the "given role" is a member of, directly or indirectly.

  *

  * Possibly this mechanism should be generalized to allow caching membership

  * info for multiple roles?

  *

  * Each element of cached_roles is an OID list of constituent roles for the

  * corresponding element of cached_role (always including the cached_role

  * itself).  There's a separate cache for each RoleRecurseType, with the

  * corresponding semantics.

  */

 enum RoleRecurseType

 {

     ROLERECURSE_MEMBERS = 0,    /* recurse unconditionally */

     ROLERECURSE_PRIVS = 1,      /* recurse through inheritable grants */

     ROLERECURSE_SETROLE = 2     /* recurse through grants with set_option */

 };

 static Oid  cached_role[] = {InvalidOid, InvalidOid, InvalidOid};

 static List *cached_roles[] = {NIL, NIL, NIL};

 static uint32 cached_db_hash;


 static const char *getid(const char *s, char *n);

 static void putid(char *p, const char *s);

 static Acl *allocacl(int n);

 static void check_acl(const Acl *acl);

 static const char *aclparse(const char *s, AclItem *aip);

 static bool aclitem_match(const AclItem *a1, const AclItem *a2);

 static int  aclitemComparator(const void *arg1, const void *arg2);

 static void check_circularity(const Acl *old_acl, const AclItem *mod_aip,

                               Oid ownerId);

 static Acl *recursive_revoke(Acl *acl, Oid grantee, AclMode revoke_privs,

                              Oid ownerId, DropBehavior behavior);


 static AclMode convert_any_priv_string(text *priv_type_text,

                                        const priv_map *privileges);


 static Oid  convert_table_name(text *tablename);

 static AclMode convert_table_priv_string(text *priv_type_text);

 static AclMode convert_sequence_priv_string(text *priv_type_text);

 static AttrNumber convert_column_name(Oid tableoid, text *column);

 static AclMode convert_column_priv_string(text *priv_type_text);

 static Oid  convert_database_name(text *databasename);

 static AclMode convert_database_priv_string(text *priv_type_text);

 static Oid  convert_foreign_data_wrapper_name(text *fdwname);

 static AclMode convert_foreign_data_wrapper_priv_string(text *priv_type_text);

 static Oid  convert_function_name(text *functionname);

 static AclMode convert_function_priv_string(text *priv_type_text);

 static Oid  convert_language_name(text *languagename);

 static AclMode convert_language_priv_string(text *priv_type_text);

 static Oid  convert_schema_name(text *schemaname);

 static AclMode convert_schema_priv_string(text *priv_type_text);

 static Oid  convert_server_name(text *servername);

 static AclMode convert_server_priv_string(text *priv_type_text);

 static Oid  convert_tablespace_name(text *tablespacename);

 static AclMode convert_tablespace_priv_string(text *priv_type_text);

 static Oid  convert_type_name(text *typename);

 static AclMode convert_type_priv_string(text *priv_type_text);

 static AclMode convert_parameter_priv_string(text *priv_text);

 static AclMode convert_role_priv_string(text *priv_type_text);

 static AclResult pg_role_aclcheck(Oid role_oid, Oid roleid, AclMode mode);


 static void RoleMembershipCacheCallback(Datum arg, int cacheid, uint32 hashvalue);


 /*

  * getid

  *      Consumes the first alphanumeric string (identifier) found in string

  *      's', ignoring any leading white space.  If it finds a double quote

  *      it returns the word inside the quotes.

  *

  * RETURNS:

  *      the string position in 's' that points to the next non-space character

  *      in 's', after any quotes.  Also:

  *      - loads the identifier into 'n'.  (If no identifier is found, 'n'

  *        contains an empty string.)  'n' must be NAMEDATALEN bytes.

  */

 static const char *

 getid(const char *s, char *n)

 {

     int         len = 0;

     bool        in_quotes = false;


     Assert(s && n);


     while (isspace((unsigned char) *s))

         s++;

     /* This code had better match what putid() does, below */

     for (;

          *s != '\0' &&

          (isalnum((unsigned char) *s) ||

           *s == '_' ||

           *s == '"' ||

           in_quotes);

          s++)

     {

         if (*s == '"')

         {

             /* safe to look at next char (could be '\0' though) */

             if (*(s + 1) != '"')

             {

                 in_quotes = !in_quotes;

                 continue;

             }

             /* it's an escaped double quote; skip the escaping char */

             s++;

         }


         /* Add the character to the string */

         if (len >= NAMEDATALEN - 1)

             ereport(ERROR,

                     (errcode(ERRCODE_NAME_TOO_LONG),

                      errmsg("identifier too long"),

                      errdetail("Identifier must be less than %d characters.",

                                NAMEDATALEN)));


         n[len++] = *s;

     }

     n[len] = '\0';

     while (isspace((unsigned char) *s))

         s++;

     return s;

 }


 /*

  * Write a role name at *p, adding double quotes if needed.

  * There must be at least (2*NAMEDATALEN)+2 bytes available at *p.

  * This needs to be kept in sync with copyAclUserName in pg_dump/dumputils.c

  */

 static void

 putid(char *p, const char *s)

 {

     const char *src;

     bool        safe = true;


     for (src = s; *src; src++)

     {

         /* This test had better match what getid() does, above */

         if (!isalnum((unsigned char) *src) && *src != '_')

         {

             safe = false;

             break;

         }

     }

     if (!safe)

         *p++ = '"';

     for (src = s; *src; src++)

     {

         /* A double quote character in a username is encoded as "" */

         if (*src == '"')

             *p++ = '"';

         *p++ = *src;

     }

     if (!safe)

         *p++ = '"';

     *p = '\0';

 }


 /*

  * aclparse

  *      Consumes and parses an ACL specification of the form:

  *              [group|user] [A-Za-z0-9]*=[rwaR]*

  *      from string 's', ignoring any leading white space or white space

  *      between the optional id type keyword (group|user) and the actual

  *      ACL specification.

  *

  *      The group|user decoration is unnecessary in the roles world,

  *      but we still accept it for backward compatibility.

  *

  *      This routine is called by the parser as well as aclitemin(), hence

  *      the added generality.

  *

  * RETURNS:

  *      the string position in 's' immediately following the ACL

  *      specification.  Also:

  *      - loads the structure pointed to by 'aip' with the appropriate

  *        UID/GID, id type identifier and mode type values.

  */

 static const char *

 aclparse(const char *s, AclItem *aip)

 {

     AclMode     privs,

                 goption,

                 read;

     char        name[NAMEDATALEN];

     char        name2[NAMEDATALEN];


     Assert(s && aip);


     s = getid(s, name);

     if (*s != '=')

     {

         /* we just read a keyword, not a name */

         if (strcmp(name, "group") != 0 && strcmp(name, "user") != 0)

             ereport(ERROR,

                     (errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),

                      errmsg("unrecognized key word: \"%s\"", name),

                      errhint("ACL key word must be \"group\" or \"user\".")));

         s = getid(s, name);     /* move s to the name beyond the keyword */

         if (name[0] == '\0')

             ereport(ERROR,

                     (errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),

                      errmsg("missing name"),

                      errhint("A name must follow the \"group\" or \"user\" key word.")));

     }


     if (*s != '=')

         ereport(ERROR,

                 (errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),

                  errmsg("missing \"=\" sign")));


     privs = goption = ACL_NO_RIGHTS;


     for (++s, read = 0; isalpha((unsigned char) *s) || *s == '*'; s++)

     {

         switch (*s)

         {

             case '*':

                 goption |= read;

                 break;

             case ACL_INSERT_CHR:

                 read = ACL_INSERT;

                 break;

             case ACL_SELECT_CHR:

                 read = ACL_SELECT;

                 break;

             case ACL_UPDATE_CHR:

                 read = ACL_UPDATE;

                 break;

             case ACL_DELETE_CHR:

                 read = ACL_DELETE;

                 break;

             case ACL_TRUNCATE_CHR:

                 read = ACL_TRUNCATE;

                 break;

             case ACL_REFERENCES_CHR:

                 read = ACL_REFERENCES;

                 break;

             case ACL_TRIGGER_CHR:

                 read = ACL_TRIGGER;

                 break;

             case ACL_EXECUTE_CHR:

                 read = ACL_EXECUTE;

                 break;

             case ACL_USAGE_CHR:

                 read = ACL_USAGE;

                 break;

             case ACL_CREATE_CHR:

                 read = ACL_CREATE;

                 break;

             case ACL_CREATE_TEMP_CHR:

                 read = ACL_CREATE_TEMP;

                 break;

             case ACL_CONNECT_CHR:

                 read = ACL_CONNECT;

                 break;

             case ACL_SET_CHR:

                 read = ACL_SET;

                 break;

             case ACL_ALTER_SYSTEM_CHR:

                 read = ACL_ALTER_SYSTEM;

                 break;

             case ACL_VACUUM_CHR:

                 read = ACL_VACUUM;

                 break;

             case ACL_ANALYZE_CHR:

                 read = ACL_ANALYZE;

                 break;

             case 'R':           /* ignore old RULE privileges */

                 read = 0;

                 break;

             default:

                 ereport(ERROR,

                         (errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),

                          errmsg("invalid mode character: must be one of \"%s\"",

                                 ACL_ALL_RIGHTS_STR)));

         }


         privs |= read;

     }


     if (name[0] == '\0')

         aip->ai_grantee = ACL_ID_PUBLIC;

     else

         aip->ai_grantee = get_role_oid(name, false);


     /*

      * XXX Allow a degree of backward compatibility by defaulting the grantor

      * to the superuser.

      */

     if (*s == '/')

     {

         s = getid(s + 1, name2);

         if (name2[0] == '\0')

             ereport(ERROR,

                     (errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),

                      errmsg("a name must follow the \"/\" sign")));

         aip->ai_grantor = get_role_oid(name2, false);

     }

     else

     {

         aip->ai_grantor = BOOTSTRAP_SUPERUSERID;

         ereport(WARNING,

                 (errcode(ERRCODE_INVALID_GRANTOR),

                  errmsg("defaulting grantor to user ID %u",

                         BOOTSTRAP_SUPERUSERID)));

     }


     ACLITEM_SET_PRIVS_GOPTIONS(*aip, privs, goption);


     return s;

 }


 /*

  * allocacl

  *      Allocates storage for a new Acl with 'n' entries.

  *

  * RETURNS:

  *      the new Acl

  */

 static Acl *

 allocacl(int n)

 {

     Acl        *new_acl;

     Size        size;


     if (n < 0)

         elog(ERROR, "invalid size: %d", n);

     size = ACL_N_SIZE(n);

     new_acl = (Acl *) palloc0(size);

     SET_VARSIZE(new_acl, size);

     new_acl->ndim = 1;

     new_acl->dataoffset = 0;    /* we never put in any nulls */

     new_acl->elemtype = ACLITEMOID;

     ARR_LBOUND(new_acl)[0] = 1;

     ARR_DIMS(new_acl)[0] = n;

     return new_acl;

 }


 /*

  * Create a zero-entry ACL

  */

 Acl *

 make_empty_acl(void)

 {

     return allocacl(0);

 }


 /*

  * Copy an ACL

  */

 Acl *

 aclcopy(const Acl *orig_acl)

 {

     Acl        *result_acl;


     result_acl = allocacl(ACL_NUM(orig_acl));


     memcpy(ACL_DAT(result_acl),

            ACL_DAT(orig_acl),

            ACL_NUM(orig_acl) * sizeof(AclItem));


     return result_acl;

 }


 /*

  * Concatenate two ACLs

  *

  * This is a bit cheesy, since we may produce an ACL with redundant entries.

  * Be careful what the result is used for!

  */

 Acl *

 aclconcat(const Acl *left_acl, const Acl *right_acl)

 {

     Acl        *result_acl;


     result_acl = allocacl(ACL_NUM(left_acl) + ACL_NUM(right_acl));


     memcpy(ACL_DAT(result_acl),

            ACL_DAT(left_acl),

            ACL_NUM(left_acl) * sizeof(AclItem));


     memcpy(ACL_DAT(result_acl) + ACL_NUM(left_acl),

            ACL_DAT(right_acl),

            ACL_NUM(right_acl) * sizeof(AclItem));


     return result_acl;

 }


 /*

  * Merge two ACLs

  *

  * This produces a properly merged ACL with no redundant entries.

  * Returns NULL on NULL input.

  */

 Acl *

 aclmerge(const Acl *left_acl, const Acl *right_acl, Oid ownerId)

 {

     Acl        *result_acl;

     AclItem    *aip;

     int         i,

                 num;


     /* Check for cases where one or both are empty/null */

     if (left_acl == NULL || ACL_NUM(left_acl) == 0)

     {

         if (right_acl == NULL || ACL_NUM(right_acl) == 0)

             return NULL;

         else

             return aclcopy(right_acl);

     }

     else

     {

         if (right_acl == NULL || ACL_NUM(right_acl) == 0)

             return aclcopy(left_acl);

     }


     /* Merge them the hard way, one item at a time */

     result_acl = aclcopy(left_acl);


     aip = ACL_DAT(right_acl);

     num = ACL_NUM(right_acl);


     for (i = 0; i < num; i++, aip++)

     {

         Acl        *tmp_acl;


         tmp_acl = aclupdate(result_acl, aip, ACL_MODECHG_ADD,

                             ownerId, DROP_RESTRICT);

         pfree(result_acl);

         result_acl = tmp_acl;

     }


     return result_acl;

 }


 /*

  * Sort the items in an ACL (into an arbitrary but consistent order)

  */

 void

 aclitemsort(Acl *acl)

 {

     if (acl != NULL && ACL_NUM(acl) > 1)

         qsort(ACL_DAT(acl), ACL_NUM(acl), sizeof(AclItem), aclitemComparator);

 }


 /*

  * Check if two ACLs are exactly equal

  *

  * This will not detect equality if the two arrays contain the same items

  * in different orders.  To handle that case, sort both inputs first,

  * using aclitemsort().

  */

 bool

 aclequal(const Acl *left_acl, const Acl *right_acl)

 {

     /* Check for cases where one or both are empty/null */

     if (left_acl == NULL || ACL_NUM(left_acl) == 0)

     {

         if (right_acl == NULL || ACL_NUM(right_acl) == 0)

             return true;

         else

             return false;

     }

     else

     {

         if (right_acl == NULL || ACL_NUM(right_acl) == 0)

             return false;

     }


     if (ACL_NUM(left_acl) != ACL_NUM(right_acl))

         return false;


     if (memcmp(ACL_DAT(left_acl),

                ACL_DAT(right_acl),

                ACL_NUM(left_acl) * sizeof(AclItem)) == 0)

         return true;


     return false;

 }


 /*

  * Verify that an ACL array is acceptable (one-dimensional and has no nulls)

  */

 static void

 check_acl(const Acl *acl)

 {

     if (ARR_ELEMTYPE(acl) != ACLITEMOID)

         ereport(ERROR,

                 (errcode(ERRCODE_INVALID_PARAMETER_VALUE),

                  errmsg("ACL array contains wrong data type")));

     if (ARR_NDIM(acl) != 1)

         ereport(ERROR,

                 (errcode(ERRCODE_INVALID_PARAMETER_VALUE),

                  errmsg("ACL arrays must be one-dimensional")));

     if (ARR_HASNULL(acl))

         ereport(ERROR,

                 (errcode(ERRCODE_NULL_VALUE_NOT_ALLOWED),

                  errmsg("ACL arrays must not contain null values")));

 }


 /*

  * aclitemin

  *      Allocates storage for, and fills in, a new AclItem given a string

  *      's' that contains an ACL specification.  See aclparse for details.

  *

  * RETURNS:

  *      the new AclItem

  */

 Datum

 aclitemin(PG_FUNCTION_ARGS)

 {

     const char *s = PG_GETARG_CSTRING(0);

     AclItem    *aip;


     aip = (AclItem *) palloc(sizeof(AclItem));

     s = aclparse(s, aip);

     while (isspace((unsigned char) *s))

         ++s;

     if (*s)

         ereport(ERROR,

                 (errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),

                  errmsg("extra garbage at the end of the ACL specification")));


     PG_RETURN_ACLITEM_P(aip);

 }


 /*

  * aclitemout

  *      Allocates storage for, and fills in, a new null-delimited string

  *      containing a formatted ACL specification.  See aclparse for details.

  *

  * RETURNS:

  *      the new string

  */

 Datum

 aclitemout(PG_FUNCTION_ARGS)

 {

     AclItem    *aip = PG_GETARG_ACLITEM_P(0);

     char       *p;

     char       *out;

     HeapTuple   htup;

     unsigned    i;


     out = palloc(strlen("=/") +

                  2 * N_ACL_RIGHTS +

                  2 * (2 * NAMEDATALEN + 2) +

                  1);


     p = out;

     *p = '\0';


     if (aip->ai_grantee != ACL_ID_PUBLIC)

     {

         htup = SearchSysCache1(AUTHOID, ObjectIdGetDatum(aip->ai_grantee));

         if (HeapTupleIsValid(htup))

         {

             putid(p, NameStr(((Form_pg_authid) GETSTRUCT(htup))->rolname));

             ReleaseSysCache(htup);

         }

         else

         {

             /* Generate numeric OID if we don't find an entry */

             sprintf(p, "%u", aip->ai_grantee);

         }

     }

     while (*p)

         ++p;


     *p++ = '=';


     for (i = 0; i < N_ACL_RIGHTS; ++i)

     {

         if (ACLITEM_GET_PRIVS(*aip) & (UINT64CONST(1) << i))

             *p++ = ACL_ALL_RIGHTS_STR[i];

         if (ACLITEM_GET_GOPTIONS(*aip) & (UINT64CONST(1) << i))

             *p++ = '*';

     }


     *p++ = '/';

     *p = '\0';


     htup = SearchSysCache1(AUTHOID, ObjectIdGetDatum(aip->ai_grantor));

     if (HeapTupleIsValid(htup))

     {

         putid(p, NameStr(((Form_pg_authid) GETSTRUCT(htup))->rolname));

         ReleaseSysCache(htup);

     }

     else

     {

         /* Generate numeric OID if we don't find an entry */

         sprintf(p, "%u", aip->ai_grantor);

     }


     PG_RETURN_CSTRING(out);

 }


 /*

  * aclitem_match

  *      Two AclItems are considered to match iff they have the same

  *      grantee and grantor; the privileges are ignored.

  */

 static bool

 aclitem_match(const AclItem *a1, const AclItem *a2)

 {

     return a1->ai_grantee == a2->ai_grantee &&

         a1->ai_grantor == a2->ai_grantor;

 }


 /*

  * aclitemComparator

  *      qsort comparison function for AclItems

  */

 static int

 aclitemComparator(const void *arg1, const void *arg2)

 {

     const AclItem *a1 = (const AclItem *) arg1;

     const AclItem *a2 = (const AclItem *) arg2;


     if (a1->ai_grantee > a2->ai_grantee)

         return 1;

     if (a1->ai_grantee < a2->ai_grantee)

         return -1;

     if (a1->ai_grantor > a2->ai_grantor)

         return 1;

     if (a1->ai_grantor < a2->ai_grantor)

         return -1;

     if (a1->ai_privs > a2->ai_privs)

         return 1;

     if (a1->ai_privs < a2->ai_privs)

         return -1;

     return 0;

 }


 /*

  * aclitem equality operator

  */

 Datum

 aclitem_eq(PG_FUNCTION_ARGS)

 {

     AclItem    *a1 = PG_GETARG_ACLITEM_P(0);

     AclItem    *a2 = PG_GETARG_ACLITEM_P(1);

     bool        result;


     result = a1->ai_privs == a2->ai_privs &&

         a1->ai_grantee == a2->ai_grantee &&

         a1->ai_grantor == a2->ai_grantor;

     PG_RETURN_BOOL(result);

 }


 /*

  * aclitem hash function

  *

  * We make aclitems hashable not so much because anyone is likely to hash

  * them, as because we want array equality to work on aclitem arrays, and

  * with the typcache mechanism we must have a hash or btree opclass.

  */

 Datum

 hash_aclitem(PG_FUNCTION_ARGS)

 {

     AclItem    *a = PG_GETARG_ACLITEM_P(0);


     /* not very bright, but avoids any issue of padding in struct */

     PG_RETURN_UINT32((uint32) (a->ai_privs + a->ai_grantee + a->ai_grantor));

 }


 /*

  * 64-bit hash function for aclitem.

  *

  * Similar to hash_aclitem, but accepts a seed and returns a uint64 value.

  */

 Datum

 hash_aclitem_extended(PG_FUNCTION_ARGS)

 {

     AclItem    *a = PG_GETARG_ACLITEM_P(0);

     uint64      seed = PG_GETARG_INT64(1);

     uint32      sum = (uint32) (a->ai_privs + a->ai_grantee + a->ai_grantor);


     return (seed == 0) ? UInt64GetDatum(sum) : hash_uint32_extended(sum, seed);

 }


 /*

  * acldefault()  --- create an ACL describing default access permissions

  *

  * Change this routine if you want to alter the default access policy for

  * newly-created objects (or any object with a NULL acl entry).  When

  * you make a change here, don't forget to update the GRANT man page,

  * which explains all the default permissions.

  *

  * Note that these are the hard-wired "defaults" that are used in the

  * absence of any pg_default_acl entry.

  */

 Acl *

 acldefault(ObjectType objtype, Oid ownerId)

 {

     AclMode     world_default;

     AclMode     owner_default;

     int         nacl;

     Acl        *acl;

     AclItem    *aip;


     switch (objtype)

     {

         case OBJECT_COLUMN:

             /* by default, columns have no extra privileges */

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_NO_RIGHTS;

             break;

         case OBJECT_TABLE:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_RELATION;

             break;

         case OBJECT_SEQUENCE:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_SEQUENCE;

             break;

         case OBJECT_DATABASE:

             /* for backwards compatibility, grant some rights by default */

             world_default = ACL_CREATE_TEMP | ACL_CONNECT;

             owner_default = ACL_ALL_RIGHTS_DATABASE;

             break;

         case OBJECT_FUNCTION:

             /* Grant EXECUTE by default, for now */

             world_default = ACL_EXECUTE;

             owner_default = ACL_ALL_RIGHTS_FUNCTION;

             break;

         case OBJECT_LANGUAGE:

             /* Grant USAGE by default, for now */

             world_default = ACL_USAGE;

             owner_default = ACL_ALL_RIGHTS_LANGUAGE;

             break;

         case OBJECT_LARGEOBJECT:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_LARGEOBJECT;

             break;

         case OBJECT_SCHEMA:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_SCHEMA;

             break;

         case OBJECT_TABLESPACE:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_TABLESPACE;

             break;

         case OBJECT_FDW:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_FDW;

             break;

         case OBJECT_FOREIGN_SERVER:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_FOREIGN_SERVER;

             break;

         case OBJECT_DOMAIN:

         case OBJECT_TYPE:

             world_default = ACL_USAGE;

             owner_default = ACL_ALL_RIGHTS_TYPE;

             break;

         case OBJECT_PARAMETER_ACL:

             world_default = ACL_NO_RIGHTS;

             owner_default = ACL_ALL_RIGHTS_PARAMETER_ACL;

             break;

         default:

             elog(ERROR, "unrecognized object type: %d", (int) objtype);

             world_default = ACL_NO_RIGHTS;  /* keep compiler quiet */

             owner_default = ACL_NO_RIGHTS;

             break;

     }


     nacl = 0;

     if (world_default != ACL_NO_RIGHTS)

         nacl++;

     if (owner_default != ACL_NO_RIGHTS)

         nacl++;


     acl = allocacl(nacl);

     aip = ACL_DAT(acl);


     if (world_default != ACL_NO_RIGHTS)

     {

         aip->ai_grantee = ACL_ID_PUBLIC;

         aip->ai_grantor = ownerId;

         ACLITEM_SET_PRIVS_GOPTIONS(*aip, world_default, ACL_NO_RIGHTS);

         aip++;

     }


     /*

      * Note that the owner's entry shows all ordinary privileges but no grant

      * options.  This is because his grant options come "from the system" and

      * not from his own efforts.  (The SQL spec says that the owner's rights

      * come from a "_SYSTEM" authid.)  However, we do consider that the

      * owner's ordinary privileges are self-granted; this lets him revoke

      * them.  We implement the owner's grant options without any explicit

      * "_SYSTEM"-like ACL entry, by internally special-casing the owner

      * wherever we are testing grant options.

      */

     if (owner_default != ACL_NO_RIGHTS)

     {

         aip->ai_grantee = ownerId;

         aip->ai_grantor = ownerId;

         ACLITEM_SET_PRIVS_GOPTIONS(*aip, owner_default, ACL_NO_RIGHTS);

     }


     return acl;

 }


 /*

  * SQL-accessible version of acldefault().  Hackish mapping from "char" type to

  * OBJECT_* values.

  */

 Datum

 acldefault_sql(PG_FUNCTION_ARGS)

 {

     char        objtypec = PG_GETARG_CHAR(0);

     Oid         owner = PG_GETARG_OID(1);

     ObjectType  objtype = 0;


     switch (objtypec)

     {

         case 'c':

             objtype = OBJECT_COLUMN;

             break;

         case 'r':

             objtype = OBJECT_TABLE;

             break;

         case 's':

             objtype = OBJECT_SEQUENCE;

             break;

         case 'd':

             objtype = OBJECT_DATABASE;

             break;

         case 'f':

             objtype = OBJECT_FUNCTION;

             break;

         case 'l':

             objtype = OBJECT_LANGUAGE;

             break;

         case 'L':

             objtype = OBJECT_LARGEOBJECT;

             break;

         case 'n':

             objtype = OBJECT_SCHEMA;

             break;

         case 'p':

             objtype = OBJECT_PARAMETER_ACL;

             break;

         case 't':

             objtype = OBJECT_TABLESPACE;

             break;

         case 'F':

             objtype = OBJECT_FDW;

             break;

         case 'S':

             objtype = OBJECT_FOREIGN_SERVER;

             break;

         case 'T':

             objtype = OBJECT_TYPE;

             break;

         default:

             elog(ERROR, "unrecognized object type abbreviation: %c", objtypec);

     }


     PG_RETURN_ACL_P(acldefault(objtype, owner));

 }


 /*

  * Update an ACL array to add or remove specified privileges.

  *

  *  old_acl: the input ACL array

  *  mod_aip: defines the privileges to be added, removed, or substituted

  *  modechg: ACL_MODECHG_ADD, ACL_MODECHG_DEL, or ACL_MODECHG_EQL

  *  ownerId: Oid of object owner

  *  behavior: RESTRICT or CASCADE behavior for recursive removal

  *

  * ownerid and behavior are only relevant when the update operation specifies

  * deletion of grant options.

  *

  * The result is a modified copy; the input object is not changed.

  *

  * NB: caller is responsible for having detoasted the input ACL, if needed.

  */

 Acl *

 aclupdate(const Acl *old_acl, const AclItem *mod_aip,

           int modechg, Oid ownerId, DropBehavior behavior)

 {

     Acl        *new_acl = NULL;

     AclItem    *old_aip,

                *new_aip = NULL;

     AclMode     old_rights,

                 old_goptions,

                 new_rights,

                 new_goptions;

     int         dst,

                 num;


     /* Caller probably already checked old_acl, but be safe */

     check_acl(old_acl);


     /* If granting grant options, check for circularity */

     if (modechg != ACL_MODECHG_DEL &&

         ACLITEM_GET_GOPTIONS(*mod_aip) != ACL_NO_RIGHTS)

         check_circularity(old_acl, mod_aip, ownerId);


     num = ACL_NUM(old_acl);

     old_aip = ACL_DAT(old_acl);


     /*

      * Search the ACL for an existing entry for this grantee and grantor. If

      * one exists, just modify the entry in-place (well, in the same position,

      * since we actually return a copy); otherwise, insert the new entry at

      * the end.

      */


     for (dst = 0; dst < num; ++dst)

     {

         if (aclitem_match(mod_aip, old_aip + dst))

         {

             /* found a match, so modify existing item */

             new_acl = allocacl(num);

             new_aip = ACL_DAT(new_acl);

             memcpy(new_acl, old_acl, ACL_SIZE(old_acl));

             break;

         }

     }


     if (dst == num)

     {

         /* need to append a new item */

         new_acl = allocacl(num + 1);

         new_aip = ACL_DAT(new_acl);

         memcpy(new_aip, old_aip, num * sizeof(AclItem));


         /* initialize the new entry with no permissions */

         new_aip[dst].ai_grantee = mod_aip->ai_grantee;

         new_aip[dst].ai_grantor = mod_aip->ai_grantor;

         ACLITEM_SET_PRIVS_GOPTIONS(new_aip[dst],

                                    ACL_NO_RIGHTS, ACL_NO_RIGHTS);

         num++;                  /* set num to the size of new_acl */

     }


     old_rights = ACLITEM_GET_RIGHTS(new_aip[dst]);

     old_goptions = ACLITEM_GET_GOPTIONS(new_aip[dst]);


     /* apply the specified permissions change */

     switch (modechg)

     {

         case ACL_MODECHG_ADD:

             ACLITEM_SET_RIGHTS(new_aip[dst],

                                old_rights | ACLITEM_GET_RIGHTS(*mod_aip));

             break;

         case ACL_MODECHG_DEL:

             ACLITEM_SET_RIGHTS(new_aip[dst],

                                old_rights & ~ACLITEM_GET_RIGHTS(*mod_aip));

             break;

         case ACL_MODECHG_EQL:

             ACLITEM_SET_RIGHTS(new_aip[dst],

                                ACLITEM_GET_RIGHTS(*mod_aip));

             break;

     }


     new_rights = ACLITEM_GET_RIGHTS(new_aip[dst]);

     new_goptions = ACLITEM_GET_GOPTIONS(new_aip[dst]);


     /*

      * If the adjusted entry has no permissions, delete it from the list.

      */

     if (new_rights == ACL_NO_RIGHTS)

     {

         memmove(new_aip + dst,

                 new_aip + dst + 1,

                 (num - dst - 1) * sizeof(AclItem));

         /* Adjust array size to be 'num - 1' items */

         ARR_DIMS(new_acl)[0] = num - 1;

         SET_VARSIZE(new_acl, ACL_N_SIZE(num - 1));

     }


     /*

      * Remove abandoned privileges (cascading revoke).  Currently we can only

      * handle this when the grantee is not PUBLIC.

      */

     if ((old_goptions & ~new_goptions) != 0)

     {

         Assert(mod_aip->ai_grantee != ACL_ID_PUBLIC);

         new_acl = recursive_revoke(new_acl, mod_aip->ai_grantee,

                                    (old_goptions & ~new_goptions),

                                    ownerId, behavior);

     }


     return new_acl;

 }


 /*

  * Update an ACL array to reflect a change of owner to the parent object

  *

  *  old_acl: the input ACL array (must not be NULL)

  *  oldOwnerId: Oid of the old object owner

  *  newOwnerId: Oid of the new object owner

  *

  * The result is a modified copy; the input object is not changed.

  *

  * NB: caller is responsible for having detoasted the input ACL, if needed.

  */

 Acl *

 aclnewowner(const Acl *old_acl, Oid oldOwnerId, Oid newOwnerId)

 {

     Acl        *new_acl;

     AclItem    *new_aip;

     AclItem    *old_aip;

     AclItem    *dst_aip;

     AclItem    *src_aip;

     AclItem    *targ_aip;

     bool        newpresent = false;

     int         dst,

                 src,

                 targ,

                 num;


     check_acl(old_acl);


     /*

      * Make a copy of the given ACL, substituting new owner ID for old

      * wherever it appears as either grantor or grantee.  Also note if the new

      * owner ID is already present.

      */

     num = ACL_NUM(old_acl);

     old_aip = ACL_DAT(old_acl);

     new_acl = allocacl(num);

     new_aip = ACL_DAT(new_acl);

     memcpy(new_aip, old_aip, num * sizeof(AclItem));

     for (dst = 0, dst_aip = new_aip; dst < num; dst++, dst_aip++)

     {

         if (dst_aip->ai_grantor == oldOwnerId)

             dst_aip->ai_grantor = newOwnerId;

         else if (dst_aip->ai_grantor == newOwnerId)

             newpresent = true;

         if (dst_aip->ai_grantee == oldOwnerId)

             dst_aip->ai_grantee = newOwnerId;

         else if (dst_aip->ai_grantee == newOwnerId)

             newpresent = true;

     }


     /*

      * If the old ACL contained any references to the new owner, then we may

      * now have generated an ACL containing duplicate entries.  Find them and

      * merge them so that there are not duplicates.  (This is relatively

      * expensive since we use a stupid O(N^2) algorithm, but it's unlikely to

      * be the normal case.)

      *

      * To simplify deletion of duplicate entries, we temporarily leave them in

      * the array but set their privilege masks to zero; when we reach such an

      * entry it's just skipped.  (Thus, a side effect of this code will be to

      * remove privilege-free entries, should there be any in the input.)  dst

      * is the next output slot, targ is the currently considered input slot

      * (always >= dst), and src scans entries to the right of targ looking for

      * duplicates.  Once an entry has been emitted to dst it is known

      * duplicate-free and need not be considered anymore.

      */

     if (newpresent)

     {

         dst = 0;

         for (targ = 0, targ_aip = new_aip; targ < num; targ++, targ_aip++)

         {

             /* ignore if deleted in an earlier pass */

             if (ACLITEM_GET_RIGHTS(*targ_aip) == ACL_NO_RIGHTS)

                 continue;

             /* find and merge any duplicates */

             for (src = targ + 1, src_aip = targ_aip + 1; src < num;

                  src++, src_aip++)

             {

                 if (ACLITEM_GET_RIGHTS(*src_aip) == ACL_NO_RIGHTS)

                     continue;

                 if (aclitem_match(targ_aip, src_aip))

                 {

                     ACLITEM_SET_RIGHTS(*targ_aip,

                                        ACLITEM_GET_RIGHTS(*targ_aip) |

                                        ACLITEM_GET_RIGHTS(*src_aip));

                     /* mark the duplicate deleted */

                     ACLITEM_SET_RIGHTS(*src_aip, ACL_NO_RIGHTS);

                 }

             }

             /* and emit to output */

             new_aip[dst] = *targ_aip;

             dst++;

         }

         /* Adjust array size to be 'dst' items */

         ARR_DIMS(new_acl)[0] = dst;

         SET_VARSIZE(new_acl, ACL_N_SIZE(dst));

     }


     return new_acl;

 }


 /*

  * When granting grant options, we must disallow attempts to set up circular

  * chains of grant options.  Suppose A (the object owner) grants B some

  * privileges with grant option, and B re-grants them to C.  If C could

  * grant the privileges to B as well, then A would be unable to effectively

  * revoke the privileges from B, since recursive_revoke would consider that

  * B still has 'em from C.

  *

  * We check for this by recursively deleting all grant options belonging to

  * the target grantee, and then seeing if the would-be grantor still has the

  * grant option or not.

  */

 static void

 check_circularity(const Acl *old_acl, const AclItem *mod_aip,

                   Oid ownerId)

 {

     Acl        *acl;

     AclItem    *aip;

     int         i,

                 num;

     AclMode     own_privs;


     check_acl(old_acl);


     /*

      * For now, grant options can only be granted to roles, not PUBLIC.

      * Otherwise we'd have to work a bit harder here.

      */

     Assert(mod_aip->ai_grantee != ACL_ID_PUBLIC);


     /* The owner always has grant options, no need to check */

     if (mod_aip->ai_grantor == ownerId)

         return;


     /* Make a working copy */

     acl = allocacl(ACL_NUM(old_acl));

     memcpy(acl, old_acl, ACL_SIZE(old_acl));


     /* Zap all grant options of target grantee, plus what depends on 'em */

 cc_restart:

     num = ACL_NUM(acl);

     aip = ACL_DAT(acl);

     for (i = 0; i < num; i++)

     {

         if (aip[i].ai_grantee == mod_aip->ai_grantee &&

             ACLITEM_GET_GOPTIONS(aip[i]) != ACL_NO_RIGHTS)

         {

             Acl        *new_acl;


             /* We'll actually zap ordinary privs too, but no matter */

             new_acl = aclupdate(acl, &aip[i], ACL_MODECHG_DEL,

                                 ownerId, DROP_CASCADE);


             pfree(acl);

             acl = new_acl;


             goto cc_restart;

         }

     }


     /* Now we can compute grantor's independently-derived privileges */

     own_privs = aclmask(acl,

                         mod_aip->ai_grantor,

                         ownerId,

                         ACL_GRANT_OPTION_FOR(ACLITEM_GET_GOPTIONS(*mod_aip)),

                         ACLMASK_ALL);

     own_privs = ACL_OPTION_TO_PRIVS(own_privs);


     if ((ACLITEM_GET_GOPTIONS(*mod_aip) & ~own_privs) != 0)

         ereport(ERROR,

                 (errcode(ERRCODE_INVALID_GRANT_OPERATION),

                  errmsg("grant options cannot be granted back to your own grantor")));


     pfree(acl);

 }


 /*

  * Ensure that no privilege is "abandoned".  A privilege is abandoned

  * if the user that granted the privilege loses the grant option.  (So

  * the chain through which it was granted is broken.)  Either the

  * abandoned privileges are revoked as well, or an error message is

  * printed, depending on the drop behavior option.

  *

  *  acl: the input ACL list

  *  grantee: the user from whom some grant options have been revoked

  *  revoke_privs: the grant options being revoked

  *  ownerId: Oid of object owner

  *  behavior: RESTRICT or CASCADE behavior for recursive removal

  *

  * The input Acl object is pfree'd if replaced.

  */

 static Acl *

 recursive_revoke(Acl *acl,

                  Oid grantee,

                  AclMode revoke_privs,

                  Oid ownerId,

                  DropBehavior behavior)

 {

     AclMode     still_has;

     AclItem    *aip;

     int         i,

                 num;


     check_acl(acl);


     /* The owner can never truly lose grant options, so short-circuit */

     if (grantee == ownerId)

         return acl;


     /* The grantee might still have some grant options via another grantor */

     still_has = aclmask(acl, grantee, ownerId,

                         ACL_GRANT_OPTION_FOR(revoke_privs),

                         ACLMASK_ALL);

     revoke_privs &= ~ACL_OPTION_TO_PRIVS(still_has);

     if (revoke_privs == ACL_NO_RIGHTS)

         return acl;


 restart:

     num = ACL_NUM(acl);

     aip = ACL_DAT(acl);

     for (i = 0; i < num; i++)

     {

         if (aip[i].ai_grantor == grantee

             && (ACLITEM_GET_PRIVS(aip[i]) & revoke_privs) != 0)

         {

             AclItem     mod_acl;

             Acl        *new_acl;


             if (behavior == DROP_RESTRICT)

                 ereport(ERROR,

                         (errcode(ERRCODE_DEPENDENT_OBJECTS_STILL_EXIST),

                          errmsg("dependent privileges exist"),

                          errhint("Use CASCADE to revoke them too.")));


             mod_acl.ai_grantor = grantee;

             mod_acl.ai_grantee = aip[i].ai_grantee;

             ACLITEM_SET_PRIVS_GOPTIONS(mod_acl,

                                        revoke_privs,

                                        revoke_privs);


             new_acl = aclupdate(acl, &mod_acl, ACL_MODECHG_DEL,

                                 ownerId, behavior);


             pfree(acl);

             acl = new_acl;


             goto restart;

         }

     }


     return acl;

 }


 /*

  * aclmask --- compute bitmask of all privileges held by roleid.

  *

  * When 'how' = ACLMASK_ALL, this simply returns the privilege bits

  * held by the given roleid according to the given ACL list, ANDed

  * with 'mask'.  (The point of passing 'mask' is to let the routine

  * exit early if all privileges of interest have been found.)

  *

  * When 'how' = ACLMASK_ANY, returns as soon as any bit in the mask

  * is known true.  (This lets us exit soonest in cases where the

  * caller is only going to test for zero or nonzero result.)

  *

  * Usage patterns:

  *

  * To see if any of a set of privileges are held:

  *      if (aclmask(acl, roleid, ownerId, privs, ACLMASK_ANY) != 0)

  *

  * To see if all of a set of privileges are held:

  *      if (aclmask(acl, roleid, ownerId, privs, ACLMASK_ALL) == privs)

  *

  * To determine exactly which of a set of privileges are held:

  *      heldprivs = aclmask(acl, roleid, ownerId, privs, ACLMASK_ALL);

  */

 AclMode

 aclmask(const Acl *acl, Oid roleid, Oid ownerId,

         AclMode mask, AclMaskHow how)

 {

     AclMode     result;

     AclMode     remaining;

     AclItem    *aidat;

     int         i,

                 num;


     /*

      * Null ACL should not happen, since caller should have inserted

      * appropriate default

      */

     if (acl == NULL)

         elog(ERROR, "null ACL");


     check_acl(acl);


     /* Quick exit for mask == 0 */

     if (mask == 0)

         return 0;


     result = 0;


     /* Owner always implicitly has all grant options */

     if ((mask & ACLITEM_ALL_GOPTION_BITS) &&

         has_privs_of_role(roleid, ownerId))

     {

         result = mask & ACLITEM_ALL_GOPTION_BITS;

         if ((how == ACLMASK_ALL) ? (result == mask) : (result != 0))

             return result;

     }


     num = ACL_NUM(acl);

     aidat = ACL_DAT(acl);


     /*

      * Check privileges granted directly to roleid or to public

      */

     for (i = 0; i < num; i++)

     {

         AclItem    *aidata = &aidat[i];


         if (aidata->ai_grantee == ACL_ID_PUBLIC ||

             aidata->ai_grantee == roleid)

         {

             result |= aidata->ai_privs & mask;

             if ((how == ACLMASK_ALL) ? (result == mask) : (result != 0))

                 return result;

         }

     }


     /*

      * Check privileges granted indirectly via role memberships. We do this in

      * a separate pass to minimize expensive indirect membership tests.  In

      * particular, it's worth testing whether a given ACL entry grants any

      * privileges still of interest before we perform the has_privs_of_role

      * test.

      */

     remaining = mask & ~result;

     for (i = 0; i < num; i++)

     {

         AclItem    *aidata = &aidat[i];


         if (aidata->ai_grantee == ACL_ID_PUBLIC ||

             aidata->ai_grantee == roleid)

             continue;           /* already checked it */


         if ((aidata->ai_privs & remaining) &&

             has_privs_of_role(roleid, aidata->ai_grantee))

         {

             result |= aidata->ai_privs & mask;

             if ((how == ACLMASK_ALL) ? (result == mask) : (result != 0))

                 return result;

             remaining = mask & ~result;

         }

     }


     return result;

 }


 /*

  * aclmask_direct --- compute bitmask of all privileges held by roleid.

  *

  * This is exactly like aclmask() except that we consider only privileges

  * held *directly* by roleid, not those inherited via role membership.

  */

 static AclMode

 aclmask_direct(const Acl *acl, Oid roleid, Oid ownerId,

                AclMode mask, AclMaskHow how)

 {

     AclMode     result;

     AclItem    *aidat;

     int         i,

                 num;


     /*

      * Null ACL should not happen, since caller should have inserted

      * appropriate default

      */

     if (acl == NULL)

         elog(ERROR, "null ACL");


     check_acl(acl);


     /* Quick exit for mask == 0 */

     if (mask == 0)

         return 0;


     result = 0;


     /* Owner always implicitly has all grant options */

     if ((mask & ACLITEM_ALL_GOPTION_BITS) &&

         roleid == ownerId)

     {

         result = mask & ACLITEM_ALL_GOPTION_BITS;

         if ((how == ACLMASK_ALL) ? (result == mask) : (result != 0))

             return result;

     }


     num = ACL_NUM(acl);

     aidat = ACL_DAT(acl);


     /*

      * Check privileges granted directly to roleid (and not to public)

      */

     for (i = 0; i < num; i++)

     {

         AclItem    *aidata = &aidat[i];


         if (aidata->ai_grantee == roleid)

         {

             result |= aidata->ai_privs & mask;

             if ((how == ACLMASK_ALL) ? (result == mask) : (result != 0))

                 return result;

         }

     }


     return result;

 }


 /*

  * aclmembers

  *      Find out all the roleids mentioned in an Acl.

  *      Note that we do not distinguish grantors from grantees.

  *

  * *roleids is set to point to a palloc'd array containing distinct OIDs

  * in sorted order.  The length of the array is the function result.

  */

 int

 aclmembers(const Acl *acl, Oid **roleids)

 {

     Oid        *list;

     const AclItem *acldat;

     int         i,

                 j;


     if (acl == NULL || ACL_NUM(acl) == 0)

     {

         *roleids = NULL;

         return 0;

     }


     check_acl(acl);


     /* Allocate the worst-case space requirement */

     list = palloc(ACL_NUM(acl) * 2 * sizeof(Oid));

     acldat = ACL_DAT(acl);


     /*

      * Walk the ACL collecting mentioned RoleIds.

      */

     j = 0;

     for (i = 0; i < ACL_NUM(acl); i++)

     {

         const AclItem *ai = &acldat[i];


         if (ai->ai_grantee != ACL_ID_PUBLIC)

             list[j++] = ai->ai_grantee;

         /* grantor is currently never PUBLIC, but let's check anyway */

         if (ai->ai_grantor != ACL_ID_PUBLIC)

             list[j++] = ai->ai_grantor;

     }


     /* Sort the array */

     qsort(list, j, sizeof(Oid), oid_cmp);


     /*

      * We could repalloc the array down to minimum size, but it's hardly worth

      * it since it's only transient memory.

      */

     *roleids = list;


     /* Remove duplicates from the array */

     return qunique(list, j, sizeof(Oid), oid_cmp);

 }


 /*

  * aclinsert (exported function)

  */

 Datum

 aclinsert(PG_FUNCTION_ARGS)

 {

     ereport(ERROR,

             (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),

              errmsg("aclinsert is no longer supported")));


     PG_RETURN_NULL();           /* keep compiler quiet */

 }


 Datum

 aclremove(PG_FUNCTION_ARGS)

 {

     ereport(ERROR,

             (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),

              errmsg("aclremove is no longer supported")));


     PG_RETURN_NULL();           /* keep compiler quiet */

 }


 Datum

 aclcontains(PG_FUNCTION_ARGS)

 {

     Acl        *acl = PG_GETARG_ACL_P(0);

     AclItem    *aip = PG_GETARG_ACLITEM_P(1);

     AclItem    *aidat;

     int         i,

                 num;


     check_acl(acl);

     num = ACL_NUM(acl);

     aidat = ACL_DAT(acl);

     for (i = 0; i < num; ++i)

     {

         if (aip->ai_grantee == aidat[i].ai_grantee &&

             aip->ai_grantor == aidat[i].ai_grantor &&

             (ACLITEM_GET_RIGHTS(*aip) & ACLITEM_GET_RIGHTS(aidat[i])) == ACLITEM_GET_RIGHTS(*aip))

             PG_RETURN_BOOL(true);

     }

     PG_RETURN_BOOL(false);

 }


 Datum

 makeaclitem(PG_FUNCTION_ARGS)

 {

     Oid         grantee = PG_GETARG_OID(0);

     Oid         grantor = PG_GETARG_OID(1);

     text       *privtext = PG_GETARG_TEXT_PP(2);

     bool        goption = PG_GETARG_BOOL(3);

     AclItem    *result;

     AclMode     priv;

     static const priv_map any_priv_map[] = {

         {"SELECT", ACL_SELECT},

         {"INSERT", ACL_INSERT},

         {"UPDATE", ACL_UPDATE},

         {"DELETE", ACL_DELETE},

         {"TRUNCATE", ACL_TRUNCATE},

         {"REFERENCES", ACL_REFERENCES},

         {"TRIGGER", ACL_TRIGGER},

         {"EXECUTE", ACL_EXECUTE},

         {"USAGE", ACL_USAGE},

         {"CREATE", ACL_CREATE},

         {"TEMP", ACL_CREATE_TEMP},

         {"TEMPORARY", ACL_CREATE_TEMP},

         {"CONNECT", ACL_CONNECT},

         {"SET", ACL_SET},

         {"ALTER SYSTEM", ACL_ALTER_SYSTEM},

         {"VACUUM", ACL_VACUUM},

         {"ANALYZE", ACL_ANALYZE},

         {"RULE", 0},            /* ignore old RULE privileges */

         {NULL, 0}

     };


     priv = convert_any_priv_string(privtext, any_priv_map);


     result = (AclItem *) palloc(sizeof(AclItem));


     result->ai_grantee = grantee;

     result->ai_grantor = grantor;


     ACLITEM_SET_PRIVS_GOPTIONS(*result, priv,

                                (goption ? priv : ACL_NO_RIGHTS));


     PG_RETURN_ACLITEM_P(result);

 }


 /*

  * convert_any_priv_string: recognize privilege strings for has_foo_privilege

  *

  * We accept a comma-separated list of case-insensitive privilege names,

  * producing a bitmask of the OR'd privilege bits.  We are liberal about

  * whitespace between items, not so much about whitespace within items.

  * The allowed privilege names are given as an array of priv_map structs,

  * terminated by one with a NULL name pointer.

  */

 static AclMode

 convert_any_priv_string(text *priv_type_text,

                         const priv_map *privileges)

 {

     AclMode     result = 0;

     char       *priv_type = text_to_cstring(priv_type_text);

     char       *chunk;

     char       *next_chunk;


     /* We rely on priv_type being a private, modifiable string */

     for (chunk = priv_type; chunk; chunk = next_chunk)

     {

         int         chunk_len;

         const priv_map *this_priv;


         /* Split string at commas */

         next_chunk = strchr(chunk, ',');

         if (next_chunk)

             *next_chunk++ = '\0';


         /* Drop leading/trailing whitespace in this chunk */

         while (*chunk && isspace((unsigned char) *chunk))

             chunk++;

         chunk_len = strlen(chunk);

         while (chunk_len > 0 && isspace((unsigned char) chunk[chunk_len - 1]))

             chunk_len--;

         chunk[chunk_len] = '\0';


         /* Match to the privileges list */

         for (this_priv = privileges; this_priv->name; this_priv++)

         {

             if (pg_strcasecmp(this_priv->name, chunk) == 0)

             {

                 result |= this_priv->value;

                 break;

             }

         }

         if (!this_priv->name)

             ereport(ERROR,

                     (errcode(ERRCODE_INVALID_PARAMETER_VALUE),

                      errmsg("unrecognized privilege type: \"%s\"", chunk)));

     }


     pfree(priv_type);

     return result;

 }


 static const char *

 convert_aclright_to_string(int aclright)

 {

     switch (aclright)

     {

         case ACL_INSERT:

             return "INSERT";

         case ACL_SELECT:

             return "SELECT";

         case ACL_UPDATE:

             return "UPDATE";

         case ACL_DELETE:

             return "DELETE";

         case ACL_TRUNCATE:

             return "TRUNCATE";

         case ACL_REFERENCES:

             return "REFERENCES";

         case ACL_TRIGGER:

             return "TRIGGER";

         case ACL_EXECUTE:

             return "EXECUTE";

         case ACL_USAGE:

             return "USAGE";

         case ACL_CREATE:

             return "CREATE";

         case ACL_CREATE_TEMP:

             return "TEMPORARY";

         case ACL_CONNECT:

             return "CONNECT";

         case ACL_SET:

             return "SET";

         case ACL_ALTER_SYSTEM:

             return "ALTER SYSTEM";

         case ACL_VACUUM:

             return "VACUUM";

         case ACL_ANALYZE:

             return "ANALYZE";

         default:

             elog(ERROR, "unrecognized aclright: %d", aclright);

             return NULL;

     }

 }


 /*----------

  * Convert an aclitem[] to a table.

  *

  * Example:

  *

  * aclexplode('{=r/joe,foo=a*w/joe}'::aclitem[])

  *

  * returns the table

  *

  * {{ OID(joe), 0::OID,   'SELECT', false },

  *  { OID(joe), OID(foo), 'INSERT', true },

  *  { OID(joe), OID(foo), 'UPDATE', false }}

  *----------

  */

 Datum

 aclexplode(PG_FUNCTION_ARGS)

 {

     Acl        *acl = PG_GETARG_ACL_P(0);

     FuncCallContext *funcctx;

     int        *idx;

     AclItem    *aidat;


     if (SRF_IS_FIRSTCALL())

     {

         TupleDesc   tupdesc;

         MemoryContext oldcontext;


         check_acl(acl);


         funcctx = SRF_FIRSTCALL_INIT();

         oldcontext = MemoryContextSwitchTo(funcctx->multi_call_memory_ctx);


         /*

          * build tupdesc for result tuples (matches out parameters in pg_proc

          * entry)

          */

         tupdesc = CreateTemplateTupleDesc(4);

         TupleDescInitEntry(tupdesc, (AttrNumber) 1, "grantor",

                            OIDOID, -1, 0);

         TupleDescInitEntry(tupdesc, (AttrNumber) 2, "grantee",

                            OIDOID, -1, 0);

         TupleDescInitEntry(tupdesc, (AttrNumber) 3, "privilege_type",

                            TEXTOID, -1, 0);

         TupleDescInitEntry(tupdesc, (AttrNumber) 4, "is_grantable",

                            BOOLOID, -1, 0);


         funcctx->tuple_desc = BlessTupleDesc(tupdesc);


         /* allocate memory for user context */

         idx = (int *) palloc(sizeof(int[2]));

         idx[0] = 0;             /* ACL array item index */

         idx[1] = -1;            /* privilege type counter */

         funcctx->user_fctx = (void *) idx;


         MemoryContextSwitchTo(oldcontext);

     }


     funcctx = SRF_PERCALL_SETUP();

     idx = (int *) funcctx->user_fctx;

     aidat = ACL_DAT(acl);


     /* need test here in case acl has no items */

     while (idx[0] < ACL_NUM(acl))

     {

         AclItem    *aidata;

         AclMode     priv_bit;


         idx[1]++;

         if (idx[1] == N_ACL_RIGHTS)

         {

             idx[1] = 0;

             idx[0]++;

             if (idx[0] >= ACL_NUM(acl)) /* done */

                 break;

         }

         aidata = &aidat[idx[0]];

         priv_bit = UINT64CONST(1) << idx[1];


         if (ACLITEM_GET_PRIVS(*aidata) & priv_bit)

         {

             Datum       result;

             Datum       values[4];

             bool        nulls[4] = {0};

             HeapTuple   tuple;


             values[0] = ObjectIdGetDatum(aidata->ai_grantor);

             values[1] = ObjectIdGetDatum(aidata->ai_grantee);

             values[2] = CStringGetTextDatum(convert_aclright_to_string(priv_bit));

             values[3] = BoolGetDatum((ACLITEM_GET_GOPTIONS(*aidata) & priv_bit) != 0);


             tuple = heap_form_tuple(funcctx->tuple_desc, values, nulls);

             result = HeapTupleGetDatum(tuple);


             SRF_RETURN_NEXT(funcctx, result);

         }

     }


     SRF_RETURN_DONE(funcctx);

 }


 /*

  * has_table_privilege variants

  *      These are all named "has_table_privilege" at the SQL level.

  *      They take various combinations of relation name, relation OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.  The variants that take a relation OID

  *      return NULL if the OID doesn't exist (rather than failing, as

  *      they did before Postgres 8.4).

  */


 /*

  * has_table_privilege_name_name

  *      Check user privileges on a table given

  *      name username, text tablename, and text priv name.

  */

 Datum

 has_table_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        rolename = PG_GETARG_NAME(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         tableoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*rolename));

     tableoid = convert_table_name(tablename);

     mode = convert_table_priv_string(priv_type_text);


     aclresult = pg_class_aclcheck(tableoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_table_privilege_name

  *      Check user privileges on a table given

  *      text tablename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_table_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *tablename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         tableoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     tableoid = convert_table_name(tablename);

     mode = convert_table_priv_string(priv_type_text);


     aclresult = pg_class_aclcheck(tableoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_table_privilege_name_id

  *      Check user privileges on a table given

  *      name usename, table oid, and text priv name.

  */

 Datum

 has_table_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         tableoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_table_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(RELOID, ObjectIdGetDatum(tableoid)))

         PG_RETURN_NULL();


     aclresult = pg_class_aclcheck(tableoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_table_privilege_id

  *      Check user privileges on a table given

  *      table oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_table_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         tableoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_table_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(RELOID, ObjectIdGetDatum(tableoid)))

         PG_RETURN_NULL();


     aclresult = pg_class_aclcheck(tableoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_table_privilege_id_name

  *      Check user privileges on a table given

  *      roleid, text tablename, and text priv name.

  */

 Datum

 has_table_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         tableoid;

     AclMode     mode;

     AclResult   aclresult;


     tableoid = convert_table_name(tablename);

     mode = convert_table_priv_string(priv_type_text);


     aclresult = pg_class_aclcheck(tableoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_table_privilege_id_id

  *      Check user privileges on a table given

  *      roleid, table oid, and text priv name.

  */

 Datum

 has_table_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         tableoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_table_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(RELOID, ObjectIdGetDatum(tableoid)))

         PG_RETURN_NULL();


     aclresult = pg_class_aclcheck(tableoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_table_privilege family.

  */


 /*

  * Given a table name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_table_name(text *tablename)

 {

     RangeVar   *relrv;


     relrv = makeRangeVarFromNameList(textToQualifiedNameList(tablename));


     /* We might not even have permissions on this relation; don't lock it. */

     return RangeVarGetRelid(relrv, NoLock, false);

 }


 /*

  * convert_table_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_table_priv_string(text *priv_type_text)

 {

     static const priv_map table_priv_map[] = {

         {"SELECT", ACL_SELECT},

         {"SELECT WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_SELECT)},

         {"INSERT", ACL_INSERT},

         {"INSERT WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_INSERT)},

         {"UPDATE", ACL_UPDATE},

         {"UPDATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_UPDATE)},

         {"DELETE", ACL_DELETE},

         {"DELETE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_DELETE)},

         {"TRUNCATE", ACL_TRUNCATE},

         {"TRUNCATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_TRUNCATE)},

         {"REFERENCES", ACL_REFERENCES},

         {"REFERENCES WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_REFERENCES)},

         {"TRIGGER", ACL_TRIGGER},

         {"TRIGGER WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_TRIGGER)},

         {"VACUUM", ACL_VACUUM},

         {"VACUUM WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_VACUUM)},

         {"ANALYZE", ACL_ANALYZE},

         {"ANALYZE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_ANALYZE)},

         {"RULE", 0},            /* ignore old RULE privileges */

         {"RULE WITH GRANT OPTION", 0},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, table_priv_map);

 }


 /*

  * has_sequence_privilege variants

  *      These are all named "has_sequence_privilege" at the SQL level.

  *      They take various combinations of relation name, relation OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.  The variants that take a relation OID

  *      return NULL if the OID doesn't exist.

  */


 /*

  * has_sequence_privilege_name_name

  *      Check user privileges on a sequence given

  *      name username, text sequencename, and text priv name.

  */

 Datum

 has_sequence_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        rolename = PG_GETARG_NAME(0);

     text       *sequencename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         sequenceoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*rolename));

     mode = convert_sequence_priv_string(priv_type_text);

     sequenceoid = convert_table_name(sequencename);

     if (get_rel_relkind(sequenceoid) != RELKIND_SEQUENCE)

         ereport(ERROR,

                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),

                  errmsg("\"%s\" is not a sequence",

                         text_to_cstring(sequencename))));


     aclresult = pg_class_aclcheck(sequenceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_sequence_privilege_name

  *      Check user privileges on a sequence given

  *      text sequencename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_sequence_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *sequencename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         sequenceoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_sequence_priv_string(priv_type_text);

     sequenceoid = convert_table_name(sequencename);

     if (get_rel_relkind(sequenceoid) != RELKIND_SEQUENCE)

         ereport(ERROR,

                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),

                  errmsg("\"%s\" is not a sequence",

                         text_to_cstring(sequencename))));


     aclresult = pg_class_aclcheck(sequenceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_sequence_privilege_name_id

  *      Check user privileges on a sequence given

  *      name usename, sequence oid, and text priv name.

  */

 Datum

 has_sequence_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         sequenceoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;

     char        relkind;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_sequence_priv_string(priv_type_text);

     relkind = get_rel_relkind(sequenceoid);

     if (relkind == '\0')

         PG_RETURN_NULL();

     else if (relkind != RELKIND_SEQUENCE)

         ereport(ERROR,

                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),

                  errmsg("\"%s\" is not a sequence",

                         get_rel_name(sequenceoid))));


     aclresult = pg_class_aclcheck(sequenceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_sequence_privilege_id

  *      Check user privileges on a sequence given

  *      sequence oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_sequence_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         sequenceoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;

     char        relkind;


     roleid = GetUserId();

     mode = convert_sequence_priv_string(priv_type_text);

     relkind = get_rel_relkind(sequenceoid);

     if (relkind == '\0')

         PG_RETURN_NULL();

     else if (relkind != RELKIND_SEQUENCE)

         ereport(ERROR,

                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),

                  errmsg("\"%s\" is not a sequence",

                         get_rel_name(sequenceoid))));


     aclresult = pg_class_aclcheck(sequenceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_sequence_privilege_id_name

  *      Check user privileges on a sequence given

  *      roleid, text sequencename, and text priv name.

  */

 Datum

 has_sequence_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *sequencename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         sequenceoid;

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_sequence_priv_string(priv_type_text);

     sequenceoid = convert_table_name(sequencename);

     if (get_rel_relkind(sequenceoid) != RELKIND_SEQUENCE)

         ereport(ERROR,

                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),

                  errmsg("\"%s\" is not a sequence",

                         text_to_cstring(sequencename))));


     aclresult = pg_class_aclcheck(sequenceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_sequence_privilege_id_id

  *      Check user privileges on a sequence given

  *      roleid, sequence oid, and text priv name.

  */

 Datum

 has_sequence_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         sequenceoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;

     char        relkind;


     mode = convert_sequence_priv_string(priv_type_text);

     relkind = get_rel_relkind(sequenceoid);

     if (relkind == '\0')

         PG_RETURN_NULL();

     else if (relkind != RELKIND_SEQUENCE)

         ereport(ERROR,

                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),

                  errmsg("\"%s\" is not a sequence",

                         get_rel_name(sequenceoid))));


     aclresult = pg_class_aclcheck(sequenceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * convert_sequence_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_sequence_priv_string(text *priv_type_text)

 {

     static const priv_map sequence_priv_map[] = {

         {"USAGE", ACL_USAGE},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_USAGE)},

         {"SELECT", ACL_SELECT},

         {"SELECT WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_SELECT)},

         {"UPDATE", ACL_UPDATE},

         {"UPDATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_UPDATE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, sequence_priv_map);

 }


 /*

  * has_any_column_privilege variants

  *      These are all named "has_any_column_privilege" at the SQL level.

  *      They take various combinations of relation name, relation OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege for any column of the table, false if not.  The variants

  *      that take a relation OID return NULL if the OID doesn't exist.

  */


 /*

  * has_any_column_privilege_name_name

  *      Check user privileges on any column of a table given

  *      name username, text tablename, and text priv name.

  */

 Datum

 has_any_column_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        rolename = PG_GETARG_NAME(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         tableoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*rolename));

     tableoid = convert_table_name(tablename);

     mode = convert_column_priv_string(priv_type_text);


     /* First check at table level, then examine each column if needed */

     aclresult = pg_class_aclcheck(tableoid, roleid, mode);

     if (aclresult != ACLCHECK_OK)

         aclresult = pg_attribute_aclcheck_all(tableoid, roleid, mode,

                                               ACLMASK_ANY);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_any_column_privilege_name

  *      Check user privileges on any column of a table given

  *      text tablename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_any_column_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *tablename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         tableoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     tableoid = convert_table_name(tablename);

     mode = convert_column_priv_string(priv_type_text);


     /* First check at table level, then examine each column if needed */

     aclresult = pg_class_aclcheck(tableoid, roleid, mode);

     if (aclresult != ACLCHECK_OK)

         aclresult = pg_attribute_aclcheck_all(tableoid, roleid, mode,

                                               ACLMASK_ANY);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_any_column_privilege_name_id

  *      Check user privileges on any column of a table given

  *      name usename, table oid, and text priv name.

  */

 Datum

 has_any_column_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         tableoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_column_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(RELOID, ObjectIdGetDatum(tableoid)))

         PG_RETURN_NULL();


     /* First check at table level, then examine each column if needed */

     aclresult = pg_class_aclcheck(tableoid, roleid, mode);

     if (aclresult != ACLCHECK_OK)

         aclresult = pg_attribute_aclcheck_all(tableoid, roleid, mode,

                                               ACLMASK_ANY);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_any_column_privilege_id

  *      Check user privileges on any column of a table given

  *      table oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_any_column_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         tableoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_column_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(RELOID, ObjectIdGetDatum(tableoid)))

         PG_RETURN_NULL();


     /* First check at table level, then examine each column if needed */

     aclresult = pg_class_aclcheck(tableoid, roleid, mode);

     if (aclresult != ACLCHECK_OK)

         aclresult = pg_attribute_aclcheck_all(tableoid, roleid, mode,

                                               ACLMASK_ANY);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_any_column_privilege_id_name

  *      Check user privileges on any column of a table given

  *      roleid, text tablename, and text priv name.

  */

 Datum

 has_any_column_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         tableoid;

     AclMode     mode;

     AclResult   aclresult;


     tableoid = convert_table_name(tablename);

     mode = convert_column_priv_string(priv_type_text);


     /* First check at table level, then examine each column if needed */

     aclresult = pg_class_aclcheck(tableoid, roleid, mode);

     if (aclresult != ACLCHECK_OK)

         aclresult = pg_attribute_aclcheck_all(tableoid, roleid, mode,

                                               ACLMASK_ANY);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_any_column_privilege_id_id

  *      Check user privileges on any column of a table given

  *      roleid, table oid, and text priv name.

  */

 Datum

 has_any_column_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         tableoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_column_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(RELOID, ObjectIdGetDatum(tableoid)))

         PG_RETURN_NULL();


     /* First check at table level, then examine each column if needed */

     aclresult = pg_class_aclcheck(tableoid, roleid, mode);

     if (aclresult != ACLCHECK_OK)

         aclresult = pg_attribute_aclcheck_all(tableoid, roleid, mode,

                                               ACLMASK_ANY);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_column_privilege variants

  *      These are all named "has_column_privilege" at the SQL level.

  *      They take various combinations of relation name, relation OID,

  *      column name, column attnum, user name, user OID, or

  *      implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.  The variants that take a relation OID

  *      return NULL (rather than throwing an error) if that relation OID

  *      doesn't exist.  Likewise, the variants that take an integer attnum

  *      return NULL (rather than throwing an error) if there is no such

  *      pg_attribute entry.  All variants return NULL if an attisdropped

  *      column is selected.  These rules are meant to avoid unnecessary

  *      failures in queries that scan pg_attribute.

  */


 /*

  * column_privilege_check: check column privileges, but don't throw an error

  *      for dropped column or table

  *

  * Returns 1 if have the privilege, 0 if not, -1 if dropped column/table.

  */

 static int

 column_privilege_check(Oid tableoid, AttrNumber attnum,

                        Oid roleid, AclMode mode)

 {

     AclResult   aclresult;

     bool        is_missing = false;


     /*

      * If convert_column_name failed, we can just return -1 immediately.

      */

     if (attnum == InvalidAttrNumber)

         return -1;


     /*

      * Check for column-level privileges first. This serves in part as a check

      * on whether the column even exists, so we need to do it before checking

      * table-level privilege.

      */

     aclresult = pg_attribute_aclcheck_ext(tableoid, attnum, roleid,

                                           mode, &is_missing);

     if (aclresult == ACLCHECK_OK)

         return 1;

     else if (is_missing)

         return -1;


     /* Next check if we have the privilege at the table level */

     aclresult = pg_class_aclcheck_ext(tableoid, roleid, mode, &is_missing);

     if (aclresult == ACLCHECK_OK)

         return 1;

     else if (is_missing)

         return -1;

     else

         return 0;

 }


 /*

  * has_column_privilege_name_name_name

  *      Check user privileges on a column given

  *      name username, text tablename, text colname, and text priv name.

  */

 Datum

 has_column_privilege_name_name_name(PG_FUNCTION_ARGS)

 {

     Name        rolename = PG_GETARG_NAME(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     text       *column = PG_GETARG_TEXT_PP(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     Oid         roleid;

     Oid         tableoid;

     AttrNumber  colattnum;

     AclMode     mode;

     int         privresult;


     roleid = get_role_oid_or_public(NameStr(*rolename));

     tableoid = convert_table_name(tablename);

     colattnum = convert_column_name(tableoid, column);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_name_name_attnum

  *      Check user privileges on a column given

  *      name username, text tablename, int attnum, and text priv name.

  */

 Datum

 has_column_privilege_name_name_attnum(PG_FUNCTION_ARGS)

 {

     Name        rolename = PG_GETARG_NAME(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     AttrNumber  colattnum = PG_GETARG_INT16(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     Oid         roleid;

     Oid         tableoid;

     AclMode     mode;

     int         privresult;


     roleid = get_role_oid_or_public(NameStr(*rolename));

     tableoid = convert_table_name(tablename);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_name_id_name

  *      Check user privileges on a column given

  *      name username, table oid, text colname, and text priv name.

  */

 Datum

 has_column_privilege_name_id_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         tableoid = PG_GETARG_OID(1);

     text       *column = PG_GETARG_TEXT_PP(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     Oid         roleid;

     AttrNumber  colattnum;

     AclMode     mode;

     int         privresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     colattnum = convert_column_name(tableoid, column);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_name_id_attnum

  *      Check user privileges on a column given

  *      name username, table oid, int attnum, and text priv name.

  */

 Datum

 has_column_privilege_name_id_attnum(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         tableoid = PG_GETARG_OID(1);

     AttrNumber  colattnum = PG_GETARG_INT16(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     Oid         roleid;

     AclMode     mode;

     int         privresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_id_name_name

  *      Check user privileges on a column given

  *      oid roleid, text tablename, text colname, and text priv name.

  */

 Datum

 has_column_privilege_id_name_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     text       *column = PG_GETARG_TEXT_PP(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     Oid         tableoid;

     AttrNumber  colattnum;

     AclMode     mode;

     int         privresult;


     tableoid = convert_table_name(tablename);

     colattnum = convert_column_name(tableoid, column);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_id_name_attnum

  *      Check user privileges on a column given

  *      oid roleid, text tablename, int attnum, and text priv name.

  */

 Datum

 has_column_privilege_id_name_attnum(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *tablename = PG_GETARG_TEXT_PP(1);

     AttrNumber  colattnum = PG_GETARG_INT16(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     Oid         tableoid;

     AclMode     mode;

     int         privresult;


     tableoid = convert_table_name(tablename);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_id_id_name

  *      Check user privileges on a column given

  *      oid roleid, table oid, text colname, and text priv name.

  */

 Datum

 has_column_privilege_id_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         tableoid = PG_GETARG_OID(1);

     text       *column = PG_GETARG_TEXT_PP(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     AttrNumber  colattnum;

     AclMode     mode;

     int         privresult;


     colattnum = convert_column_name(tableoid, column);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_id_id_attnum

  *      Check user privileges on a column given

  *      oid roleid, table oid, int attnum, and text priv name.

  */

 Datum

 has_column_privilege_id_id_attnum(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         tableoid = PG_GETARG_OID(1);

     AttrNumber  colattnum = PG_GETARG_INT16(2);

     text       *priv_type_text = PG_GETARG_TEXT_PP(3);

     AclMode     mode;

     int         privresult;


     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_name_name

  *      Check user privileges on a column given

  *      text tablename, text colname, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_column_privilege_name_name(PG_FUNCTION_ARGS)

 {

     text       *tablename = PG_GETARG_TEXT_PP(0);

     text       *column = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         tableoid;

     AttrNumber  colattnum;

     AclMode     mode;

     int         privresult;


     roleid = GetUserId();

     tableoid = convert_table_name(tablename);

     colattnum = convert_column_name(tableoid, column);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_name_attnum

  *      Check user privileges on a column given

  *      text tablename, int attnum, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_column_privilege_name_attnum(PG_FUNCTION_ARGS)

 {

     text       *tablename = PG_GETARG_TEXT_PP(0);

     AttrNumber  colattnum = PG_GETARG_INT16(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         tableoid;

     AclMode     mode;

     int         privresult;


     roleid = GetUserId();

     tableoid = convert_table_name(tablename);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_id_name

  *      Check user privileges on a column given

  *      table oid, text colname, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_column_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         tableoid = PG_GETARG_OID(0);

     text       *column = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AttrNumber  colattnum;

     AclMode     mode;

     int         privresult;


     roleid = GetUserId();

     colattnum = convert_column_name(tableoid, column);

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  * has_column_privilege_id_attnum

  *      Check user privileges on a column given

  *      table oid, int attnum, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_column_privilege_id_attnum(PG_FUNCTION_ARGS)

 {

     Oid         tableoid = PG_GETARG_OID(0);

     AttrNumber  colattnum = PG_GETARG_INT16(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     int         privresult;


     roleid = GetUserId();

     mode = convert_column_priv_string(priv_type_text);


     privresult = column_privilege_check(tableoid, colattnum, roleid, mode);

     if (privresult < 0)

         PG_RETURN_NULL();

     PG_RETURN_BOOL(privresult);

 }


 /*

  *      Support routines for has_column_privilege family.

  */


 /*

  * Given a table OID and a column name expressed as a string, look it up

  * and return the column number.  Returns InvalidAttrNumber in cases

  * where caller should return NULL instead of failing.

  */

 static AttrNumber

 convert_column_name(Oid tableoid, text *column)

 {

     char       *colname;

     HeapTuple   attTuple;

     AttrNumber  attnum;


     colname = text_to_cstring(column);


     /*

      * We don't use get_attnum() here because it will report that dropped

      * columns don't exist.  We need to treat dropped columns differently from

      * nonexistent columns.

      */

     attTuple = SearchSysCache2(ATTNAME,

                                ObjectIdGetDatum(tableoid),

                                CStringGetDatum(colname));

     if (HeapTupleIsValid(attTuple))

     {

         Form_pg_attribute attributeForm;


         attributeForm = (Form_pg_attribute) GETSTRUCT(attTuple);

         /* We want to return NULL for dropped columns */

         if (attributeForm->attisdropped)

             attnum = InvalidAttrNumber;

         else

             attnum = attributeForm->attnum;

         ReleaseSysCache(attTuple);

     }

     else

     {

         char       *tablename = get_rel_name(tableoid);


         /*

          * If the table OID is bogus, or it's just been dropped, we'll get

          * NULL back.  In such cases we want has_column_privilege to return

          * NULL too, so just return InvalidAttrNumber.

          */

         if (tablename != NULL)

         {

             /* tableoid exists, colname does not, so throw error */

             ereport(ERROR,

                     (errcode(ERRCODE_UNDEFINED_COLUMN),

                      errmsg("column \"%s\" of relation \"%s\" does not exist",

                             colname, tablename)));

         }

         /* tableoid doesn't exist, so act like attisdropped case */

         attnum = InvalidAttrNumber;

     }


     pfree(colname);

     return attnum;

 }


 /*

  * convert_column_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_column_priv_string(text *priv_type_text)

 {

     static const priv_map column_priv_map[] = {

         {"SELECT", ACL_SELECT},

         {"SELECT WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_SELECT)},

         {"INSERT", ACL_INSERT},

         {"INSERT WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_INSERT)},

         {"UPDATE", ACL_UPDATE},

         {"UPDATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_UPDATE)},

         {"REFERENCES", ACL_REFERENCES},

         {"REFERENCES WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_REFERENCES)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, column_priv_map);

 }


 /*

  * has_database_privilege variants

  *      These are all named "has_database_privilege" at the SQL level.

  *      They take various combinations of database name, database OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not, or NULL if object doesn't exist.

  */


 /*

  * has_database_privilege_name_name

  *      Check user privileges on a database given

  *      name username, text databasename, and text priv name.

  */

 Datum

 has_database_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *databasename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         databaseoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     databaseoid = convert_database_name(databasename);

     mode = convert_database_priv_string(priv_type_text);


     aclresult = object_aclcheck(DatabaseRelationId, databaseoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_database_privilege_name

  *      Check user privileges on a database given

  *      text databasename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_database_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *databasename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         databaseoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     databaseoid = convert_database_name(databasename);

     mode = convert_database_priv_string(priv_type_text);


     aclresult = object_aclcheck(DatabaseRelationId, databaseoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_database_privilege_name_id

  *      Check user privileges on a database given

  *      name usename, database oid, and text priv name.

  */

 Datum

 has_database_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         databaseoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_database_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(DATABASEOID, ObjectIdGetDatum(databaseoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(DatabaseRelationId, databaseoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_database_privilege_id

  *      Check user privileges on a database given

  *      database oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_database_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         databaseoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_database_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(DATABASEOID, ObjectIdGetDatum(databaseoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(DatabaseRelationId, databaseoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_database_privilege_id_name

  *      Check user privileges on a database given

  *      roleid, text databasename, and text priv name.

  */

 Datum

 has_database_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *databasename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         databaseoid;

     AclMode     mode;

     AclResult   aclresult;


     databaseoid = convert_database_name(databasename);

     mode = convert_database_priv_string(priv_type_text);


     aclresult = object_aclcheck(DatabaseRelationId, databaseoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_database_privilege_id_id

  *      Check user privileges on a database given

  *      roleid, database oid, and text priv name.

  */

 Datum

 has_database_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         databaseoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_database_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(DATABASEOID, ObjectIdGetDatum(databaseoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(DatabaseRelationId, databaseoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_database_privilege family.

  */


 /*

  * Given a database name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_database_name(text *databasename)

 {

     char       *dbname = text_to_cstring(databasename);


     return get_database_oid(dbname, false);

 }


 /*

  * convert_database_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_database_priv_string(text *priv_type_text)

 {

     static const priv_map database_priv_map[] = {

         {"CREATE", ACL_CREATE},

         {"CREATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"TEMPORARY", ACL_CREATE_TEMP},

         {"TEMPORARY WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE_TEMP)},

         {"TEMP", ACL_CREATE_TEMP},

         {"TEMP WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE_TEMP)},

         {"CONNECT", ACL_CONNECT},

         {"CONNECT WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CONNECT)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, database_priv_map);

 }


 /*

  * has_foreign_data_wrapper_privilege variants

  *      These are all named "has_foreign_data_wrapper_privilege" at the SQL level.

  *      They take various combinations of foreign-data wrapper name,

  *      fdw OID, user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.

  */


 /*

  * has_foreign_data_wrapper_privilege_name_name

  *      Check user privileges on a foreign-data wrapper given

  *      name username, text fdwname, and text priv name.

  */

 Datum

 has_foreign_data_wrapper_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *fdwname = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         fdwid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     fdwid = convert_foreign_data_wrapper_name(fdwname);

     mode = convert_foreign_data_wrapper_priv_string(priv_type_text);


     aclresult = object_aclcheck(ForeignDataWrapperRelationId, fdwid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_foreign_data_wrapper_privilege_name

  *      Check user privileges on a foreign-data wrapper given

  *      text fdwname and text priv name.

  *      current_user is assumed

  */

 Datum

 has_foreign_data_wrapper_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *fdwname = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         fdwid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     fdwid = convert_foreign_data_wrapper_name(fdwname);

     mode = convert_foreign_data_wrapper_priv_string(priv_type_text);


     aclresult = object_aclcheck(ForeignDataWrapperRelationId, fdwid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_foreign_data_wrapper_privilege_name_id

  *      Check user privileges on a foreign-data wrapper given

  *      name usename, foreign-data wrapper oid, and text priv name.

  */

 Datum

 has_foreign_data_wrapper_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         fdwid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_foreign_data_wrapper_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(FOREIGNDATAWRAPPEROID, ObjectIdGetDatum(fdwid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ForeignDataWrapperRelationId, fdwid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_foreign_data_wrapper_privilege_id

  *      Check user privileges on a foreign-data wrapper given

  *      foreign-data wrapper oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_foreign_data_wrapper_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         fdwid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_foreign_data_wrapper_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(FOREIGNDATAWRAPPEROID, ObjectIdGetDatum(fdwid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ForeignDataWrapperRelationId, fdwid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_foreign_data_wrapper_privilege_id_name

  *      Check user privileges on a foreign-data wrapper given

  *      roleid, text fdwname, and text priv name.

  */

 Datum

 has_foreign_data_wrapper_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *fdwname = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         fdwid;

     AclMode     mode;

     AclResult   aclresult;


     fdwid = convert_foreign_data_wrapper_name(fdwname);

     mode = convert_foreign_data_wrapper_priv_string(priv_type_text);


     aclresult = object_aclcheck(ForeignDataWrapperRelationId, fdwid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_foreign_data_wrapper_privilege_id_id

  *      Check user privileges on a foreign-data wrapper given

  *      roleid, fdw oid, and text priv name.

  */

 Datum

 has_foreign_data_wrapper_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         fdwid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_foreign_data_wrapper_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(FOREIGNDATAWRAPPEROID, ObjectIdGetDatum(fdwid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ForeignDataWrapperRelationId, fdwid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_foreign_data_wrapper_privilege family.

  */


 /*

  * Given a FDW name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_foreign_data_wrapper_name(text *fdwname)

 {

     char       *fdwstr = text_to_cstring(fdwname);


     return get_foreign_data_wrapper_oid(fdwstr, false);

 }


 /*

  * convert_foreign_data_wrapper_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_foreign_data_wrapper_priv_string(text *priv_type_text)

 {

     static const priv_map foreign_data_wrapper_priv_map[] = {

         {"USAGE", ACL_USAGE},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_USAGE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, foreign_data_wrapper_priv_map);

 }


 /*

  * has_function_privilege variants

  *      These are all named "has_function_privilege" at the SQL level.

  *      They take various combinations of function name, function OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not, or NULL if object doesn't exist.

  */


 /*

  * has_function_privilege_name_name

  *      Check user privileges on a function given

  *      name username, text functionname, and text priv name.

  */

 Datum

 has_function_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *functionname = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         functionoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     functionoid = convert_function_name(functionname);

     mode = convert_function_priv_string(priv_type_text);


     aclresult = object_aclcheck(ProcedureRelationId, functionoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_function_privilege_name

  *      Check user privileges on a function given

  *      text functionname and text priv name.

  *      current_user is assumed

  */

 Datum

 has_function_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *functionname = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         functionoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     functionoid = convert_function_name(functionname);

     mode = convert_function_priv_string(priv_type_text);


     aclresult = object_aclcheck(ProcedureRelationId, functionoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_function_privilege_name_id

  *      Check user privileges on a function given

  *      name usename, function oid, and text priv name.

  */

 Datum

 has_function_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         functionoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_function_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(PROCOID, ObjectIdGetDatum(functionoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ProcedureRelationId, functionoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_function_privilege_id

  *      Check user privileges on a function given

  *      function oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_function_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         functionoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_function_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(PROCOID, ObjectIdGetDatum(functionoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ProcedureRelationId, functionoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_function_privilege_id_name

  *      Check user privileges on a function given

  *      roleid, text functionname, and text priv name.

  */

 Datum

 has_function_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *functionname = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         functionoid;

     AclMode     mode;

     AclResult   aclresult;


     functionoid = convert_function_name(functionname);

     mode = convert_function_priv_string(priv_type_text);


     aclresult = object_aclcheck(ProcedureRelationId, functionoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_function_privilege_id_id

  *      Check user privileges on a function given

  *      roleid, function oid, and text priv name.

  */

 Datum

 has_function_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         functionoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_function_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(PROCOID, ObjectIdGetDatum(functionoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ProcedureRelationId, functionoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_function_privilege family.

  */


 /*

  * Given a function name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_function_name(text *functionname)

 {

     char       *funcname = text_to_cstring(functionname);

     Oid         oid;


     oid = DatumGetObjectId(DirectFunctionCall1(regprocedurein,

                                                CStringGetDatum(funcname)));


     if (!OidIsValid(oid))

         ereport(ERROR,

                 (errcode(ERRCODE_UNDEFINED_FUNCTION),

                  errmsg("function \"%s\" does not exist", funcname)));


     return oid;

 }


 /*

  * convert_function_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_function_priv_string(text *priv_type_text)

 {

     static const priv_map function_priv_map[] = {

         {"EXECUTE", ACL_EXECUTE},

         {"EXECUTE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_EXECUTE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, function_priv_map);

 }


 /*

  * has_language_privilege variants

  *      These are all named "has_language_privilege" at the SQL level.

  *      They take various combinations of language name, language OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not, or NULL if object doesn't exist.

  */


 /*

  * has_language_privilege_name_name

  *      Check user privileges on a language given

  *      name username, text languagename, and text priv name.

  */

 Datum

 has_language_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *languagename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         languageoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     languageoid = convert_language_name(languagename);

     mode = convert_language_priv_string(priv_type_text);


     aclresult = object_aclcheck(LanguageRelationId, languageoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_language_privilege_name

  *      Check user privileges on a language given

  *      text languagename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_language_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *languagename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         languageoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     languageoid = convert_language_name(languagename);

     mode = convert_language_priv_string(priv_type_text);


     aclresult = object_aclcheck(LanguageRelationId, languageoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_language_privilege_name_id

  *      Check user privileges on a language given

  *      name usename, language oid, and text priv name.

  */

 Datum

 has_language_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         languageoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_language_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(LANGOID, ObjectIdGetDatum(languageoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(LanguageRelationId, languageoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_language_privilege_id

  *      Check user privileges on a language given

  *      language oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_language_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         languageoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_language_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(LANGOID, ObjectIdGetDatum(languageoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(LanguageRelationId, languageoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_language_privilege_id_name

  *      Check user privileges on a language given

  *      roleid, text languagename, and text priv name.

  */

 Datum

 has_language_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *languagename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         languageoid;

     AclMode     mode;

     AclResult   aclresult;


     languageoid = convert_language_name(languagename);

     mode = convert_language_priv_string(priv_type_text);


     aclresult = object_aclcheck(LanguageRelationId, languageoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_language_privilege_id_id

  *      Check user privileges on a language given

  *      roleid, language oid, and text priv name.

  */

 Datum

 has_language_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         languageoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_language_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(LANGOID, ObjectIdGetDatum(languageoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(LanguageRelationId, languageoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_language_privilege family.

  */


 /*

  * Given a language name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_language_name(text *languagename)

 {

     char       *langname = text_to_cstring(languagename);


     return get_language_oid(langname, false);

 }


 /*

  * convert_language_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_language_priv_string(text *priv_type_text)

 {

     static const priv_map language_priv_map[] = {

         {"USAGE", ACL_USAGE},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_USAGE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, language_priv_map);

 }


 /*

  * has_schema_privilege variants

  *      These are all named "has_schema_privilege" at the SQL level.

  *      They take various combinations of schema name, schema OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not, or NULL if object doesn't exist.

  */


 /*

  * has_schema_privilege_name_name

  *      Check user privileges on a schema given

  *      name username, text schemaname, and text priv name.

  */

 Datum

 has_schema_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *schemaname = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         schemaoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     schemaoid = convert_schema_name(schemaname);

     mode = convert_schema_priv_string(priv_type_text);


     aclresult = object_aclcheck(NamespaceRelationId, schemaoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_schema_privilege_name

  *      Check user privileges on a schema given

  *      text schemaname and text priv name.

  *      current_user is assumed

  */

 Datum

 has_schema_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *schemaname = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         schemaoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     schemaoid = convert_schema_name(schemaname);

     mode = convert_schema_priv_string(priv_type_text);


     aclresult = object_aclcheck(NamespaceRelationId, schemaoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_schema_privilege_name_id

  *      Check user privileges on a schema given

  *      name usename, schema oid, and text priv name.

  */

 Datum

 has_schema_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         schemaoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_schema_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(NAMESPACEOID, ObjectIdGetDatum(schemaoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(NamespaceRelationId, schemaoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_schema_privilege_id

  *      Check user privileges on a schema given

  *      schema oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_schema_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         schemaoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_schema_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(NAMESPACEOID, ObjectIdGetDatum(schemaoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(NamespaceRelationId, schemaoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_schema_privilege_id_name

  *      Check user privileges on a schema given

  *      roleid, text schemaname, and text priv name.

  */

 Datum

 has_schema_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *schemaname = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         schemaoid;

     AclMode     mode;

     AclResult   aclresult;


     schemaoid = convert_schema_name(schemaname);

     mode = convert_schema_priv_string(priv_type_text);


     aclresult = object_aclcheck(NamespaceRelationId, schemaoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_schema_privilege_id_id

  *      Check user privileges on a schema given

  *      roleid, schema oid, and text priv name.

  */

 Datum

 has_schema_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         schemaoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_schema_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(NAMESPACEOID, ObjectIdGetDatum(schemaoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(NamespaceRelationId, schemaoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_schema_privilege family.

  */


 /*

  * Given a schema name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_schema_name(text *schemaname)

 {

     char       *nspname = text_to_cstring(schemaname);


     return get_namespace_oid(nspname, false);

 }


 /*

  * convert_schema_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_schema_priv_string(text *priv_type_text)

 {

     static const priv_map schema_priv_map[] = {

         {"CREATE", ACL_CREATE},

         {"CREATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"USAGE", ACL_USAGE},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_USAGE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, schema_priv_map);

 }


 /*

  * has_server_privilege variants

  *      These are all named "has_server_privilege" at the SQL level.

  *      They take various combinations of foreign server name,

  *      server OID, user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.

  */


 /*

  * has_server_privilege_name_name

  *      Check user privileges on a foreign server given

  *      name username, text servername, and text priv name.

  */

 Datum

 has_server_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *servername = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         serverid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     serverid = convert_server_name(servername);

     mode = convert_server_priv_string(priv_type_text);


     aclresult = object_aclcheck(ForeignServerRelationId, serverid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_server_privilege_name

  *      Check user privileges on a foreign server given

  *      text servername and text priv name.

  *      current_user is assumed

  */

 Datum

 has_server_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *servername = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         serverid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     serverid = convert_server_name(servername);

     mode = convert_server_priv_string(priv_type_text);


     aclresult = object_aclcheck(ForeignServerRelationId, serverid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_server_privilege_name_id

  *      Check user privileges on a foreign server given

  *      name usename, foreign server oid, and text priv name.

  */

 Datum

 has_server_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         serverid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_server_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(FOREIGNSERVEROID, ObjectIdGetDatum(serverid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ForeignServerRelationId, serverid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_server_privilege_id

  *      Check user privileges on a foreign server given

  *      server oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_server_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         serverid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_server_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(FOREIGNSERVEROID, ObjectIdGetDatum(serverid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ForeignServerRelationId, serverid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_server_privilege_id_name

  *      Check user privileges on a foreign server given

  *      roleid, text servername, and text priv name.

  */

 Datum

 has_server_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *servername = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         serverid;

     AclMode     mode;

     AclResult   aclresult;


     serverid = convert_server_name(servername);

     mode = convert_server_priv_string(priv_type_text);


     aclresult = object_aclcheck(ForeignServerRelationId, serverid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_server_privilege_id_id

  *      Check user privileges on a foreign server given

  *      roleid, server oid, and text priv name.

  */

 Datum

 has_server_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         serverid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_server_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(FOREIGNSERVEROID, ObjectIdGetDatum(serverid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(ForeignServerRelationId, serverid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_server_privilege family.

  */


 /*

  * Given a server name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_server_name(text *servername)

 {

     char       *serverstr = text_to_cstring(servername);


     return get_foreign_server_oid(serverstr, false);

 }


 /*

  * convert_server_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_server_priv_string(text *priv_type_text)

 {

     static const priv_map server_priv_map[] = {

         {"USAGE", ACL_USAGE},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_USAGE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, server_priv_map);

 }


 /*

  * has_tablespace_privilege variants

  *      These are all named "has_tablespace_privilege" at the SQL level.

  *      They take various combinations of tablespace name, tablespace OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.

  */


 /*

  * has_tablespace_privilege_name_name

  *      Check user privileges on a tablespace given

  *      name username, text tablespacename, and text priv name.

  */

 Datum

 has_tablespace_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *tablespacename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         tablespaceoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     tablespaceoid = convert_tablespace_name(tablespacename);

     mode = convert_tablespace_priv_string(priv_type_text);


     aclresult = object_aclcheck(TableSpaceRelationId, tablespaceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_tablespace_privilege_name

  *      Check user privileges on a tablespace given

  *      text tablespacename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_tablespace_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *tablespacename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         tablespaceoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     tablespaceoid = convert_tablespace_name(tablespacename);

     mode = convert_tablespace_priv_string(priv_type_text);


     aclresult = object_aclcheck(TableSpaceRelationId, tablespaceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_tablespace_privilege_name_id

  *      Check user privileges on a tablespace given

  *      name usename, tablespace oid, and text priv name.

  */

 Datum

 has_tablespace_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         tablespaceoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_tablespace_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(TABLESPACEOID, ObjectIdGetDatum(tablespaceoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(TableSpaceRelationId, tablespaceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_tablespace_privilege_id

  *      Check user privileges on a tablespace given

  *      tablespace oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_tablespace_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         tablespaceoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_tablespace_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(TABLESPACEOID, ObjectIdGetDatum(tablespaceoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(TableSpaceRelationId, tablespaceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_tablespace_privilege_id_name

  *      Check user privileges on a tablespace given

  *      roleid, text tablespacename, and text priv name.

  */

 Datum

 has_tablespace_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *tablespacename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         tablespaceoid;

     AclMode     mode;

     AclResult   aclresult;


     tablespaceoid = convert_tablespace_name(tablespacename);

     mode = convert_tablespace_priv_string(priv_type_text);


     aclresult = object_aclcheck(TableSpaceRelationId, tablespaceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_tablespace_privilege_id_id

  *      Check user privileges on a tablespace given

  *      roleid, tablespace oid, and text priv name.

  */

 Datum

 has_tablespace_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         tablespaceoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_tablespace_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(TABLESPACEOID, ObjectIdGetDatum(tablespaceoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(TableSpaceRelationId, tablespaceoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_tablespace_privilege family.

  */


 /*

  * Given a tablespace name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_tablespace_name(text *tablespacename)

 {

     char       *spcname = text_to_cstring(tablespacename);


     return get_tablespace_oid(spcname, false);

 }


 /*

  * convert_tablespace_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_tablespace_priv_string(text *priv_type_text)

 {

     static const priv_map tablespace_priv_map[] = {

         {"CREATE", ACL_CREATE},

         {"CREATE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, tablespace_priv_map);

 }


 /*

  * has_type_privilege variants

  *      These are all named "has_type_privilege" at the SQL level.

  *      They take various combinations of type name, type OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not, or NULL if object doesn't exist.

  */


 /*

  * has_type_privilege_name_name

  *      Check user privileges on a type given

  *      name username, text typename, and text priv name.

  */

 Datum

 has_type_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *typename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         typeoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     typeoid = convert_type_name(typename);

     mode = convert_type_priv_string(priv_type_text);


     aclresult = object_aclcheck(TypeRelationId, typeoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_type_privilege_name

  *      Check user privileges on a type given

  *      text typename and text priv name.

  *      current_user is assumed

  */

 Datum

 has_type_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *typename = PG_GETARG_TEXT_PP(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         typeoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     typeoid = convert_type_name(typename);

     mode = convert_type_priv_string(priv_type_text);


     aclresult = object_aclcheck(TypeRelationId, typeoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_type_privilege_name_id

  *      Check user privileges on a type given

  *      name usename, type oid, and text priv name.

  */

 Datum

 has_type_privilege_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         typeoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid_or_public(NameStr(*username));

     mode = convert_type_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(TYPEOID, ObjectIdGetDatum(typeoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(TypeRelationId, typeoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_type_privilege_id

  *      Check user privileges on a type given

  *      type oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 has_type_privilege_id(PG_FUNCTION_ARGS)

 {

     Oid         typeoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_type_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(TYPEOID, ObjectIdGetDatum(typeoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(TypeRelationId, typeoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_type_privilege_id_name

  *      Check user privileges on a type given

  *      roleid, text typename, and text priv name.

  */

 Datum

 has_type_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *typename = PG_GETARG_TEXT_PP(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         typeoid;

     AclMode     mode;

     AclResult   aclresult;


     typeoid = convert_type_name(typename);

     mode = convert_type_priv_string(priv_type_text);


     aclresult = object_aclcheck(TypeRelationId, typeoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * has_type_privilege_id_id

  *      Check user privileges on a type given

  *      roleid, type oid, and text priv name.

  */

 Datum

 has_type_privilege_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         typeoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_type_priv_string(priv_type_text);


     if (!SearchSysCacheExists1(TYPEOID, ObjectIdGetDatum(typeoid)))

         PG_RETURN_NULL();


     aclresult = object_aclcheck(TypeRelationId, typeoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for has_type_privilege family.

  */


 /*

  * Given a type name expressed as a string, look it up and return Oid

  */

 static Oid

 convert_type_name(text *typename)

 {

     char       *typname = text_to_cstring(typename);

     Oid         oid;


     oid = DatumGetObjectId(DirectFunctionCall1(regtypein,

                                                CStringGetDatum(typname)));


     if (!OidIsValid(oid))

         ereport(ERROR,

                 (errcode(ERRCODE_UNDEFINED_OBJECT),

                  errmsg("type \"%s\" does not exist", typname)));


     return oid;

 }


 /*

  * convert_type_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_type_priv_string(text *priv_type_text)

 {

     static const priv_map type_priv_map[] = {

         {"USAGE", ACL_USAGE},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_USAGE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, type_priv_map);

 }


 /*

  * has_parameter_privilege variants

  *      These are all named "has_parameter_privilege" at the SQL level.

  *      They take various combinations of parameter name with

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has been granted

  *      the indicated privilege or false if not.

  */


 /*

  * has_param_priv_byname

  *

  *      Helper function to check user privileges on a parameter given the

  *      role by Oid, parameter by text name, and privileges as AclMode.

  */

 static bool

 has_param_priv_byname(Oid roleid, const text *parameter, AclMode priv)

 {

     char       *paramstr = text_to_cstring(parameter);


     return pg_parameter_aclcheck(paramstr, roleid, priv) == ACLCHECK_OK;

 }


 /*

  * has_parameter_privilege_name_name

  *      Check user privileges on a parameter given name username, text

  *      parameter, and text priv name.

  */

 Datum

 has_parameter_privilege_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     text       *parameter = PG_GETARG_TEXT_PP(1);

     AclMode     priv = convert_parameter_priv_string(PG_GETARG_TEXT_PP(2));

     Oid         roleid = get_role_oid_or_public(NameStr(*username));


     PG_RETURN_BOOL(has_param_priv_byname(roleid, parameter, priv));

 }


 /*

  * has_parameter_privilege_name

  *      Check user privileges on a parameter given text parameter and text priv

  *      name.  current_user is assumed

  */

 Datum

 has_parameter_privilege_name(PG_FUNCTION_ARGS)

 {

     text       *parameter = PG_GETARG_TEXT_PP(0);

     AclMode     priv = convert_parameter_priv_string(PG_GETARG_TEXT_PP(1));


     PG_RETURN_BOOL(has_param_priv_byname(GetUserId(), parameter, priv));

 }


 /*

  * has_parameter_privilege_id_name

  *      Check user privileges on a parameter given roleid, text parameter, and

  *      text priv name.

  */

 Datum

 has_parameter_privilege_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     text       *parameter = PG_GETARG_TEXT_PP(1);

     AclMode     priv = convert_parameter_priv_string(PG_GETARG_TEXT_PP(2));


     PG_RETURN_BOOL(has_param_priv_byname(roleid, parameter, priv));

 }


 /*

  *      Support routines for has_parameter_privilege family.

  */


 /*

  * convert_parameter_priv_string

  *      Convert text string to AclMode value.

  */

 static AclMode

 convert_parameter_priv_string(text *priv_text)

 {

     static const priv_map parameter_priv_map[] = {

         {"SET", ACL_SET},

         {"SET WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_SET)},

         {"ALTER SYSTEM", ACL_ALTER_SYSTEM},

         {"ALTER SYSTEM WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_ALTER_SYSTEM)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_text, parameter_priv_map);

 }


 /*

  * pg_has_role variants

  *      These are all named "pg_has_role" at the SQL level.

  *      They take various combinations of role name, role OID,

  *      user name, user OID, or implicit user = current_user.

  *

  *      The result is a boolean value: true if user has the indicated

  *      privilege, false if not.

  */


 /*

  * pg_has_role_name_name

  *      Check user privileges on a role given

  *      name username, name rolename, and text priv name.

  */

 Datum

 pg_has_role_name_name(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Name        rolename = PG_GETARG_NAME(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     Oid         roleoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid(NameStr(*username), false);

     roleoid = get_role_oid(NameStr(*rolename), false);

     mode = convert_role_priv_string(priv_type_text);


     aclresult = pg_role_aclcheck(roleoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * pg_has_role_name

  *      Check user privileges on a role given

  *      name rolename and text priv name.

  *      current_user is assumed

  */

 Datum

 pg_has_role_name(PG_FUNCTION_ARGS)

 {

     Name        rolename = PG_GETARG_NAME(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     Oid         roleoid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     roleoid = get_role_oid(NameStr(*rolename), false);

     mode = convert_role_priv_string(priv_type_text);


     aclresult = pg_role_aclcheck(roleoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * pg_has_role_name_id

  *      Check user privileges on a role given

  *      name usename, role oid, and text priv name.

  */

 Datum

 pg_has_role_name_id(PG_FUNCTION_ARGS)

 {

     Name        username = PG_GETARG_NAME(0);

     Oid         roleoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = get_role_oid(NameStr(*username), false);

     mode = convert_role_priv_string(priv_type_text);


     aclresult = pg_role_aclcheck(roleoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * pg_has_role_id

  *      Check user privileges on a role given

  *      role oid, and text priv name.

  *      current_user is assumed

  */

 Datum

 pg_has_role_id(PG_FUNCTION_ARGS)

 {

     Oid         roleoid = PG_GETARG_OID(0);

     text       *priv_type_text = PG_GETARG_TEXT_PP(1);

     Oid         roleid;

     AclMode     mode;

     AclResult   aclresult;


     roleid = GetUserId();

     mode = convert_role_priv_string(priv_type_text);


     aclresult = pg_role_aclcheck(roleoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * pg_has_role_id_name

  *      Check user privileges on a role given

  *      roleid, name rolename, and text priv name.

  */

 Datum

 pg_has_role_id_name(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Name        rolename = PG_GETARG_NAME(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     Oid         roleoid;

     AclMode     mode;

     AclResult   aclresult;


     roleoid = get_role_oid(NameStr(*rolename), false);

     mode = convert_role_priv_string(priv_type_text);


     aclresult = pg_role_aclcheck(roleoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  * pg_has_role_id_id

  *      Check user privileges on a role given

  *      roleid, role oid, and text priv name.

  */

 Datum

 pg_has_role_id_id(PG_FUNCTION_ARGS)

 {

     Oid         roleid = PG_GETARG_OID(0);

     Oid         roleoid = PG_GETARG_OID(1);

     text       *priv_type_text = PG_GETARG_TEXT_PP(2);

     AclMode     mode;

     AclResult   aclresult;


     mode = convert_role_priv_string(priv_type_text);


     aclresult = pg_role_aclcheck(roleoid, roleid, mode);


     PG_RETURN_BOOL(aclresult == ACLCHECK_OK);

 }


 /*

  *      Support routines for pg_has_role family.

  */


 /*

  * convert_role_priv_string

  *      Convert text string to AclMode value.

  *

  * We use USAGE to denote whether the privileges of the role are accessible

  * (has_privs), MEMBER to denote is_member, and MEMBER WITH GRANT OPTION

  * (or ADMIN OPTION) to denote is_admin.  There is no ACL bit corresponding

  * to MEMBER so we cheat and use ACL_CREATE for that.  This convention

  * is shared only with pg_role_aclcheck, below.

  */

 static AclMode

 convert_role_priv_string(text *priv_type_text)

 {

     static const priv_map role_priv_map[] = {

         {"USAGE", ACL_USAGE},

         {"MEMBER", ACL_CREATE},

         {"SET", ACL_SET},

         {"USAGE WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"USAGE WITH ADMIN OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"MEMBER WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"MEMBER WITH ADMIN OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"SET WITH GRANT OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {"SET WITH ADMIN OPTION", ACL_GRANT_OPTION_FOR(ACL_CREATE)},

         {NULL, 0}

     };


     return convert_any_priv_string(priv_type_text, role_priv_map);

 }


 /*

  * pg_role_aclcheck

  *      Quick-and-dirty support for pg_has_role

  */

 static AclResult

 pg_role_aclcheck(Oid role_oid, Oid roleid, AclMode mode)

 {

     if (mode & ACL_GRANT_OPTION_FOR(ACL_CREATE))

     {

         if (is_admin_of_role(roleid, role_oid))

             return ACLCHECK_OK;

     }

     if (mode & ACL_CREATE)

     {

         if (is_member_of_role(roleid, role_oid))

             return ACLCHECK_OK;

     }

     if (mode & ACL_USAGE)

     {

         if (has_privs_of_role(roleid, role_oid))

             return ACLCHECK_OK;

     }

     if (mode & ACL_SET)

     {

         if (member_can_set_role(roleid, role_oid))

             return ACLCHECK_OK;

     }

     return ACLCHECK_NO_PRIV;

 }


 /*

  * initialization function (called by InitPostgres)

  */

 void

 initialize_acl(void)

 {

     if (!IsBootstrapProcessingMode())

     {

         cached_db_hash =

             GetSysCacheHashValue1(DATABASEOID,

                                   ObjectIdGetDatum(MyDatabaseId));


         /*

          * In normal mode, set a callback on any syscache invalidation of rows

          * of pg_auth_members (for roles_is_member_of()) pg_database (for

          * roles_is_member_of())

          */

         CacheRegisterSyscacheCallback(AUTHMEMROLEMEM,

                                       RoleMembershipCacheCallback,

                                       (Datum) 0);

         CacheRegisterSyscacheCallback(AUTHOID,

                                       RoleMembershipCacheCallback,

                                       (Datum) 0);

         CacheRegisterSyscacheCallback(DATABASEOID,

                                       RoleMembershipCacheCallback,

                                       (Datum) 0);

     }

 }


 /*

  * RoleMembershipCacheCallback

  *      Syscache inval callback function

  */

 static void

 RoleMembershipCacheCallback(Datum arg, int cacheid, uint32 hashvalue)

 {

     if (cacheid == DATABASEOID &&

         hashvalue != cached_db_hash &&

         hashvalue != 0)

     {

         return;                 /* ignore pg_database changes for other DBs */

     }


     /* Force membership caches to be recomputed on next use */

     cached_role[ROLERECURSE_MEMBERS] = InvalidOid;

     cached_role[ROLERECURSE_PRIVS] = InvalidOid;

     cached_role[ROLERECURSE_SETROLE] = InvalidOid;

 }


 /*

  * Get a list of roles that the specified roleid is a member of

  *

  * Type ROLERECURSE_MEMBERS recurses through all grants; ROLERECURSE_PRIVS

  * recurses only through inheritable grants; and ROLERECURSE_SETROLe recurses

  * only through grants with set_option.

  *

  * Since indirect membership testing is relatively expensive, we cache

  * a list of memberships.  Hence, the result is only guaranteed good until

  * the next call of roles_is_member_of()!

  *

  * For the benefit of select_best_grantor, the result is defined to be

  * in breadth-first order, ie, closer relationships earlier.

  *

  * If admin_of is not InvalidOid, this function sets *admin_role, either

  * to the OID of the first role in the result list that directly possesses

  * ADMIN OPTION on the role corresponding to admin_of, or to InvalidOid if

  * there is no such role.

  */

 static List *

 roles_is_member_of(Oid roleid, enum RoleRecurseType type,

                    Oid admin_of, Oid *admin_role)

 {

     Oid         dba;

     List       *roles_list;

     ListCell   *l;

     List       *new_cached_roles;

     MemoryContext oldctx;


     Assert(OidIsValid(admin_of) == PointerIsValid(admin_role));

     if (admin_role != NULL)

         *admin_role = InvalidOid;


     /* If cache is valid and ADMIN OPTION not sought, just return the list */

     if (cached_role[type] == roleid && !OidIsValid(admin_of) &&

         OidIsValid(cached_role[type]))

         return cached_roles[type];


     /*

      * Role expansion happens in a non-database backend when guc.c checks

      * ROLE_PG_READ_ALL_SETTINGS for a physical walsender SHOW command.  In

      * that case, no role gets pg_database_owner.

      */

     if (!OidIsValid(MyDatabaseId))

         dba = InvalidOid;

     else

     {

         HeapTuple   dbtup;


         dbtup = SearchSysCache1(DATABASEOID, ObjectIdGetDatum(MyDatabaseId));

         if (!HeapTupleIsValid(dbtup))

             elog(ERROR, "cache lookup failed for database %u", MyDatabaseId);

         dba = ((Form_pg_database) GETSTRUCT(dbtup))->datdba;

         ReleaseSysCache(dbtup);

     }


     /*

      * Find all the roles that roleid is a member of, including multi-level

      * recursion.  The role itself will always be the first element of the

      * resulting list.

      *

      * Each element of the list is scanned to see if it adds any indirect

      * memberships.  We can use a single list as both the record of

      * already-found memberships and the agenda of roles yet to be scanned.

      * This is a bit tricky but works because the foreach() macro doesn't

      * fetch the next list element until the bottom of the loop.

      */

     roles_list = list_make1_oid(roleid);


     foreach(l, roles_list)

     {

         Oid         memberid = lfirst_oid(l);

         CatCList   *memlist;

         int         i;


         /* Find roles that memberid is directly a member of */

         memlist = SearchSysCacheList1(AUTHMEMMEMROLE,

                                       ObjectIdGetDatum(memberid));

         for (i = 0; i < memlist->n_members; i++)

         {

             HeapTuple   tup = &memlist->members[i]->tuple;

             Form_pg_auth_members form = (Form_pg_auth_members) GETSTRUCT(tup);

             Oid         otherid = form->roleid;


             /*

              * While otherid==InvalidOid shouldn't appear in the catalog, the

              * OidIsValid() avoids crashing if that arises.

              */

             if (otherid == admin_of && form->admin_option &&

                 OidIsValid(admin_of) && !OidIsValid(*admin_role))

                 *admin_role = memberid;


             /* If we're supposed to ignore non-heritable grants, do so. */

             if (type == ROLERECURSE_PRIVS && !form->inherit_option)

                 continue;


             /* If we're supposed to ignore non-SET grants, do so. */

             if (type == ROLERECURSE_SETROLE && !form->set_option)

                 continue;


             /*

              * Even though there shouldn't be any loops in the membership

              * graph, we must test for having already seen this role. It is

              * legal for instance to have both A->B and A->C->B.

              */

             roles_list = list_append_unique_oid(roles_list, otherid);

         }

         ReleaseSysCacheList(memlist);


         /* implement pg_database_owner implicit membership */

         if (memberid == dba && OidIsValid(dba))

             roles_list = list_append_unique_oid(roles_list,

                                                 ROLE_PG_DATABASE_OWNER);

     }


     /*

      * Copy the completed list into TopMemoryContext so it will persist.

      */

     oldctx = MemoryContextSwitchTo(TopMemoryContext);

     new_cached_roles = list_copy(roles_list);

     MemoryContextSwitchTo(oldctx);

     list_free(roles_list);


     /*

      * Now safe to assign to state variable

      */

     cached_role[type] = InvalidOid; /* just paranoia */

     list_free(cached_roles[type]);

     cached_roles[type] = new_cached_roles;

     cached_role[type] = roleid;


     /* And now we can return the answer */

     return cached_roles[type];

 }


 /*

  * Does member have the privileges of role (directly or indirectly)?

  *

  * This is defined not to recurse through grants that are not inherited,

  * and only inherited grants confer the associated privileges automatically.

  *

  * See also member_can_set_role, below.

  */

 bool

 has_privs_of_role(Oid member, Oid role)

 {

     /* Fast path for simple case */

     if (member == role)

         return true;


     /* Superusers have every privilege, so are part of every role */

     if (superuser_arg(member))

         return true;


     /*

      * Find all the roles that member has the privileges of, including

      * multi-level recursion, then see if target role is any one of them.

      */

     return list_member_oid(roles_is_member_of(member, ROLERECURSE_PRIVS,

                                               InvalidOid, NULL),

                            role);

 }


 /*

  * Can member use SET ROLE to this role?

  *

  * There must be a chain of grants from 'member' to 'role' each of which

  * permits SET ROLE; that is, each of which has set_option = true.

  *

  * It doesn't matter whether the grants are inheritable. That's a separate

  * question; see has_privs_of_role.

  *

  * This function should be used to determine whether the session user can

  * use SET ROLE to become the target user. We also use it to determine whether

  * the session user can change an existing object to be owned by the target

  * user, or create new objects owned by the target user.

  */

 bool

 member_can_set_role(Oid member, Oid role)

 {

     /* Fast path for simple case */

     if (member == role)

         return true;


     /* Superusers have every privilege, so can always SET ROLE */

     if (superuser_arg(member))

         return true;


     /*

      * Find all the roles that member can access via SET ROLE, including

      * multi-level recursion, then see if target role is any one of them.

      */

     return list_member_oid(roles_is_member_of(member, ROLERECURSE_SETROLE,

                                               InvalidOid, NULL),

                            role);

 }


 /*

  * Permission violation eror unless able to SET ROLE to target role.

  */

 void

 check_can_set_role(Oid member, Oid role)

 {

     if (!member_can_set_role(member, role))

         ereport(ERROR,

                 (errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),

                  errmsg("must be able to SET ROLE \"%s\"",

                         GetUserNameFromId(role, false))));

 }


 /*

  * Is member a member of role (directly or indirectly)?

  *

  * This is defined to recurse through grants whether they are inherited or not.

  *

  * Do not use this for privilege checking, instead use has_privs_of_role().

  * Don't use it for determining whether it's possible to SET ROLE to some

  * other role; for that, use member_can_set_role(). And don't use it for

  * determining whether it's OK to create an object owned by some other role:

  * use member_can_set_role() for that, too.

  *

  * In short, calling this function is the wrong thing to do nearly everywhere.

  */

 bool

 is_member_of_role(Oid member, Oid role)

 {

     /* Fast path for simple case */

     if (member == role)

         return true;


     /* Superusers have every privilege, so are part of every role */

     if (superuser_arg(member))

         return true;


     /*

      * Find all the roles that member is a member of, including multi-level

      * recursion, then see if target role is any one of them.

      */

     return list_member_oid(roles_is_member_of(member, ROLERECURSE_MEMBERS,

                                               InvalidOid, NULL),

                            role);

 }


 /*

  * Is member a member of role, not considering superuserness?

  *

  * This is identical to is_member_of_role except we ignore superuser

  * status.

  *

  * Do not use this for privilege checking, instead use has_privs_of_role()

  */

 bool

 is_member_of_role_nosuper(Oid member, Oid role)

 {

     /* Fast path for simple case */

     if (member == role)

         return true;


     /*

      * Find all the roles that member is a member of, including multi-level

      * recursion, then see if target role is any one of them.

      */

     return list_member_oid(roles_is_member_of(member, ROLERECURSE_MEMBERS,

                                               InvalidOid, NULL),

                            role);

 }


 /*

  * Is member an admin of role?  That is, is member the role itself (subject to

  * restrictions below), a member (directly or indirectly) WITH ADMIN OPTION,

  * or a superuser?

  */

 bool

 is_admin_of_role(Oid member, Oid role)

 {

     Oid         admin_role;


     if (superuser_arg(member))

         return true;


     /* By policy, a role cannot have WITH ADMIN OPTION on itself. */

     if (member == role)

         return false;


     (void) roles_is_member_of(member, ROLERECURSE_MEMBERS, role, &admin_role);

     return OidIsValid(admin_role);

 }


 /*

  * Find a role whose privileges "member" inherits which has ADMIN OPTION

  * on "role", ignoring super-userness.

  *

  * There might be more than one such role; prefer one which involves fewer

  * hops. That is, if member has ADMIN OPTION, prefer that over all other

  * options; if not, prefer a role from which member inherits more directly

  * over more indirect inheritance.

  */

 Oid

 select_best_admin(Oid member, Oid role)

 {

     Oid         admin_role;


     /* By policy, a role cannot have WITH ADMIN OPTION on itself. */

     if (member == role)

         return InvalidOid;


     (void) roles_is_member_of(member, ROLERECURSE_PRIVS, role, &admin_role);

     return admin_role;

 }


 /* does what it says ... */

 static int

 count_one_bits(AclMode mask)

 {

     int         nbits = 0;


     /* this code relies on AclMode being an unsigned type */

     while (mask)

     {

         if (mask & 1)

             nbits++;

         mask >>= 1;

     }

     return nbits;

 }


 /*

  * Select the effective grantor ID for a GRANT or REVOKE operation.

  *

  * The grantor must always be either the object owner or some role that has

  * been explicitly granted grant options.  This ensures that all granted

  * privileges appear to flow from the object owner, and there are never

  * multiple "original sources" of a privilege.  Therefore, if the would-be

  * grantor is a member of a role that has the needed grant options, we have

  * to do the grant as that role instead.

  *

  * It is possible that the would-be grantor is a member of several roles

  * that have different subsets of the desired grant options, but no one

  * role has 'em all.  In this case we pick a role with the largest number

  * of desired options.  Ties are broken in favor of closer ancestors.

  *

  * roleId: the role attempting to do the GRANT/REVOKE

  * privileges: the privileges to be granted/revoked

  * acl: the ACL of the object in question

  * ownerId: the role owning the object in question

  * *grantorId: receives the OID of the role to do the grant as

  * *grantOptions: receives the grant options actually held by grantorId

  *

  * If no grant options exist, we set grantorId to roleId, grantOptions to 0.

  */

 void

 select_best_grantor(Oid roleId, AclMode privileges,

                     const Acl *acl, Oid ownerId,

                     Oid *grantorId, AclMode *grantOptions)

 {

     AclMode     needed_goptions = ACL_GRANT_OPTION_FOR(privileges);

     List       *roles_list;

     int         nrights;

     ListCell   *l;


     /*

      * The object owner is always treated as having all grant options, so if

      * roleId is the owner it's easy.  Also, if roleId is a superuser it's

      * easy: superusers are implicitly members of every role, so they act as

      * the object owner.

      */

     if (roleId == ownerId || superuser_arg(roleId))

     {

         *grantorId = ownerId;

         *grantOptions = needed_goptions;

         return;

     }


     /*

      * Otherwise we have to do a careful search to see if roleId has the

      * privileges of any suitable role.  Note: we can hang onto the result of

      * roles_is_member_of() throughout this loop, because aclmask_direct()

      * doesn't query any role memberships.

      */

     roles_list = roles_is_member_of(roleId, ROLERECURSE_PRIVS,

                                     InvalidOid, NULL);


     /* initialize candidate result as default */

     *grantorId = roleId;

     *grantOptions = ACL_NO_RIGHTS;

     nrights = 0;


     foreach(l, roles_list)

     {

         Oid         otherrole = lfirst_oid(l);

         AclMode     otherprivs;


         otherprivs = aclmask_direct(acl, otherrole, ownerId,

                                     needed_goptions, ACLMASK_ALL);

         if (otherprivs == needed_goptions)

         {

             /* Found a suitable grantor */

             *grantorId = otherrole;

             *grantOptions = otherprivs;

             return;

         }


         /*

          * If it has just some of the needed privileges, remember best

          * candidate.

          */

         if (otherprivs != ACL_NO_RIGHTS)

         {

             int         nnewrights = count_one_bits(otherprivs);


             if (nnewrights > nrights)

             {

                 *grantorId = otherrole;

                 *grantOptions = otherprivs;

                 nrights = nnewrights;

             }

         }

     }

 }


 /*

  * get_role_oid - Given a role name, look up the role's OID.

  *

  * If missing_ok is false, throw an error if role name not found.  If

  * true, just return InvalidOid.

  */

 Oid

 get_role_oid(const char *rolname, bool missing_ok)

 {

     Oid         oid;


     oid = GetSysCacheOid1(AUTHNAME, Anum_pg_authid_oid,

                           CStringGetDatum(rolname));

     if (!OidIsValid(oid) && !missing_ok)

         ereport(ERROR,

                 (errcode(ERRCODE_UNDEFINED_OBJECT),

                  errmsg("role \"%s\" does not exist", rolname)));

     return oid;

 }


 /*

  * get_role_oid_or_public - As above, but return ACL_ID_PUBLIC if the

  *      role name is "public".

  */

 Oid

 get_role_oid_or_public(const char *rolname)

 {

     if (strcmp(rolname, "public") == 0)

         return ACL_ID_PUBLIC;


     return get_role_oid(rolname, false);

 }


 /*

  * Given a RoleSpec node, return the OID it corresponds to.  If missing_ok is

  * true, return InvalidOid if the role does not exist.

  *

  * PUBLIC is always disallowed here.  Routines wanting to handle the PUBLIC

  * case must check the case separately.

  */

 Oid

 get_rolespec_oid(const RoleSpec *role, bool missing_ok)

 {

     Oid         oid;


     switch (role->roletype)

     {

         case ROLESPEC_CSTRING:

             Assert(role->rolename);

             oid = get_role_oid(role->rolename, missing_ok);

             break;


         case ROLESPEC_CURRENT_ROLE:

         case ROLESPEC_CURRENT_USER:

             oid = GetUserId();

             break;


         case ROLESPEC_SESSION_USER:

             oid = GetSessionUserId();

             break;


         case ROLESPEC_PUBLIC:

             ereport(ERROR,

                     (errcode(ERRCODE_UNDEFINED_OBJECT),

                      errmsg("role \"%s\" does not exist", "public")));

             oid = InvalidOid;   /* make compiler happy */

             break;


         default:

             elog(ERROR, "unexpected role type %d", role->roletype);

     }


     return oid;

 }


 /*

  * Given a RoleSpec node, return the pg_authid HeapTuple it corresponds to.

  * Caller must ReleaseSysCache when done with the result tuple.

  */

 HeapTuple

 get_rolespec_tuple(const RoleSpec *role)

 {

     HeapTuple   tuple;


     switch (role->roletype)

     {

         case ROLESPEC_CSTRING:

             Assert(role->rolename);

             tuple = SearchSysCache1(AUTHNAME, CStringGetDatum(role->rolename));

             if (!HeapTupleIsValid(tuple))

                 ereport(ERROR,

                         (errcode(ERRCODE_UNDEFINED_OBJECT),

                          errmsg("role \"%s\" does not exist", role->rolename)));

             break;


         case ROLESPEC_CURRENT_ROLE:

         case ROLESPEC_CURRENT_USER:

             tuple = SearchSysCache1(AUTHOID, GetUserId());

             if (!HeapTupleIsValid(tuple))

                 elog(ERROR, "cache lookup failed for role %u", GetUserId());

             break;


         case ROLESPEC_SESSION_USER:

             tuple = SearchSysCache1(AUTHOID, GetSessionUserId());

             if (!HeapTupleIsValid(tuple))

                 elog(ERROR, "cache lookup failed for role %u", GetSessionUserId());

             break;


         case ROLESPEC_PUBLIC:

             ereport(ERROR,

                     (errcode(ERRCODE_UNDEFINED_OBJECT),

                      errmsg("role \"%s\" does not exist", "public")));

             tuple = NULL;       /* make compiler happy */

             break;


         default:

             elog(ERROR, "unexpected role type %d", role->roletype);

     }


     return tuple;

 }


 /*

  * Given a RoleSpec, returns a palloc'ed copy of the corresponding role's name.

  */

 char *

 get_rolespec_name(const RoleSpec *role)

 {

     HeapTuple   tp;

     Form_pg_authid authForm;

     char       *rolename;


     tp = get_rolespec_tuple(role);

     authForm = (Form_pg_authid) GETSTRUCT(tp);

     rolename = pstrdup(NameStr(authForm->rolname));

     ReleaseSysCache(tp);


     return rolename;

 }


 /*

  * Given a RoleSpec, throw an error if the name is reserved, using detail_msg,

  * if provided (which must be already translated).

  *

  * If node is NULL, no error is thrown.  If detail_msg is NULL then no detail

  * message is provided.

  */

 void

 check_rolespec_name(const RoleSpec *role, const char *detail_msg)

 {

     if (!role)

         return;


     if (role->roletype != ROLESPEC_CSTRING)

         return;


     if (IsReservedName(role->rolename))

     {

         if (detail_msg)

             ereport(ERROR,

                     (errcode(ERRCODE_RESERVED_NAME),

                      errmsg("role name \"%s\" is reserved",

                             role->rolename),

                      errdetail_internal("%s", detail_msg)));

         else

             ereport(ERROR,

                     (errcode(ERRCODE_RESERVED_NAME),

                      errmsg("role name \"%s\" is reserved",

                             role->rolename)));

     }

 }

idx
Datum idx(PG_FUNCTION_ARGS)
Definition: _int_op.c:259

pg_has_role_id_id
Datum pg_has_role_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:4676

has_schema_privilege_id
Datum has_schema_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:3770

hash_aclitem
Datum hash_aclitem(PG_FUNCTION_ARGS)
Definition: acl.c:720

initialize_acl
void initialize_acl(void)
Definition: acl.c:4759

has_sequence_privilege_name
Datum has_sequence_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:2087

has_table_privilege_id_id
Datum has_table_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:1969

has_server_privilege_id
Datum has_server_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:3963

aclupdate
Acl * aclupdate(const Acl *old_acl, const AclItem *mod_aip, int modechg, Oid ownerId, DropBehavior behavior)
Definition: acl.c:944

has_tablespace_privilege_id_id
Datum has_tablespace_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:4202

has_column_privilege_id_id_attnum
Datum has_column_privilege_id_id_attnum(PG_FUNCTION_ARGS)
Definition: acl.c:2687

has_server_privilege_name_name
Datum has_server_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:3886

aclinsert
Datum aclinsert(PG_FUNCTION_ARGS)
Definition: acl.c:1538

convert_function_priv_string
static AclMode convert_function_priv_string(text *priv_type_text)
Definition: acl.c:3474

convert_aclright_to_string
static const char * convert_aclright_to_string(int aclright)
Definition: acl.c:1682

is_admin_of_role
bool is_admin_of_role(Oid member, Oid role)
Definition: acl.c:5079

has_column_privilege_id_name
Datum has_column_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:2767

aclitem_match
static bool aclitem_match(const AclItem *a1, const AclItem *a2)
Definition: acl.c:665

pg_has_role_name_name
Datum pg_has_role_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:4557

has_language_privilege_name_name
Datum has_language_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:3502

has_schema_privilege_name_name
Datum has_schema_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:3693

aclitem_eq
Datum aclitem_eq(PG_FUNCTION_ARGS)
Definition: acl.c:700

has_tablespace_privilege_name_id
Datum has_tablespace_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:4127

makeaclitem
Datum makeaclitem(PG_FUNCTION_ARGS)
Definition: acl.c:1580

has_table_privilege_id_name
Datum has_table_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:1946

has_server_privilege_name_id
Datum has_server_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:3936

has_column_privilege_name_id_attnum
Datum has_column_privilege_name_id_attnum(PG_FUNCTION_ARGS)
Definition: acl.c:2585

has_language_privilege_id_name
Datum has_language_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:3604

column_privilege_check
static int column_privilege_check(Oid tableoid, AttrNumber attnum, Oid roleid, AclMode mode)
Definition: acl.c:2462

convert_type_name
static Oid convert_type_name(text *typename)
Definition: acl.c:4418

get_rolespec_name
char * get_rolespec_name(const RoleSpec *role)
Definition: acl.c:5354

select_best_admin
Oid select_best_admin(Oid member, Oid role)
Definition: acl.c:5104

aclexplode
Datum aclexplode(PG_FUNCTION_ARGS)
Definition: acl.c:1740

convert_database_name
static Oid convert_database_name(text *databasename)
Definition: acl.c:3065

aclitemout
Datum aclitemout(PG_FUNCTION_ARGS)
Definition: acl.c:598

get_role_oid_or_public
Oid get_role_oid_or_public(const char *rolname)
Definition: acl.c:5253

has_foreign_data_wrapper_privilege_name_id
Datum has_foreign_data_wrapper_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:3161

has_foreign_data_wrapper_privilege_id_id
Datum has_foreign_data_wrapper_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:3236

aclequal
bool aclequal(const Acl *left_acl, const Acl *right_acl)
Definition: acl.c:516

hash_aclitem_extended
Datum hash_aclitem_extended(PG_FUNCTION_ARGS)
Definition: acl.c:734

check_acl
static void check_acl(const Acl *acl)
Definition: acl.c:547

has_parameter_privilege_name_name
Datum has_parameter_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:4480

has_foreign_data_wrapper_privilege_id
Datum has_foreign_data_wrapper_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:3188

has_database_privilege_name
Datum has_database_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:2940

cached_db_hash
static uint32 cached_db_hash
Definition: acl.c:81

has_type_privilege_name_name
Datum has_type_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:4267

has_column_privilege_name_name_name
Datum has_column_privilege_name_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:2502

pg_has_role_name
Datum pg_has_role_name(PG_FUNCTION_ARGS)
Definition: acl.c:4583

has_sequence_privilege_id
Datum has_sequence_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:2149

convert_type_priv_string
static AclMode convert_type_priv_string(text *priv_type_text)
Definition: acl.c:4439

has_tablespace_privilege_name
Datum has_tablespace_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:4103

convert_table_priv_string
static AclMode convert_table_priv_string(text *priv_type_text)
Definition: acl.c:2010

convert_server_priv_string
static AclMode convert_server_priv_string(text *priv_type_text)
Definition: acl.c:4049

has_table_privilege_name_id
Datum has_table_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:1894

has_foreign_data_wrapper_privilege_name_name
Datum has_foreign_data_wrapper_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:3111

has_tablespace_privilege_id_name
Datum has_tablespace_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:4179

recursive_revoke
static Acl * recursive_revoke(Acl *acl, Oid grantee, AclMode revoke_privs, Oid ownerId, DropBehavior behavior)
Definition: acl.c:1248

RoleMembershipCacheCallback
static void RoleMembershipCacheCallback(Datum arg, int cacheid, uint32 hashvalue)
Definition: acl.c:4789

has_database_privilege_name_id
Datum has_database_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:2964

convert_schema_name
static Oid convert_schema_name(text *schemaname)
Definition: acl.c:3844

has_column_privilege_name_name
Datum has_column_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:2711

putid
static void putid(char *p, const char *s)
Definition: acl.c:192

has_schema_privilege_id_name
Datum has_schema_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:3795

check_circularity
static void check_circularity(const Acl *old_acl, const AclItem *mod_aip, Oid ownerId)
Definition: acl.c:1168

has_param_priv_byname
static bool has_param_priv_byname(Oid roleid, const text *parameter, AclMode priv)
Definition: acl.c:4467

is_member_of_role
bool is_member_of_role(Oid member, Oid role)
Definition: acl.c:5029

has_sequence_privilege_id_name
Datum has_sequence_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:2180

has_database_privilege_id_name
Datum has_database_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:3016

convert_foreign_data_wrapper_name
static Oid convert_foreign_data_wrapper_name(text *fdwname)
Definition: acl.c:3262

has_language_privilege_id
Datum has_language_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:3579

convert_database_priv_string
static AclMode convert_database_priv_string(text *priv_type_text)
Definition: acl.c:3077

has_foreign_data_wrapper_privilege_name
Datum has_foreign_data_wrapper_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:3137

has_column_privilege_name_attnum
Datum has_column_privilege_name_attnum(PG_FUNCTION_ARGS)
Definition: acl.c:2740

has_column_privilege_id_attnum
Datum has_column_privilege_id_attnum(PG_FUNCTION_ARGS)
Definition: acl.c:2794

RoleRecurseType
RoleRecurseType
Definition: acl.c:74

ROLERECURSE_PRIVS
@ ROLERECURSE_PRIVS
Definition: acl.c:76

ROLERECURSE_MEMBERS
@ ROLERECURSE_MEMBERS
Definition: acl.c:75

ROLERECURSE_SETROLE
@ ROLERECURSE_SETROLE
Definition: acl.c:77

has_type_privilege_name_id
Datum has_type_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:4317

has_any_column_privilege_name_id
Datum has_any_column_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:2328

has_server_privilege_id_name
Datum has_server_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:3988

has_language_privilege_name_id
Datum has_language_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:3552

has_foreign_data_wrapper_privilege_id_name
Datum has_foreign_data_wrapper_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:3213

has_schema_privilege_name_id
Datum has_schema_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:3743

has_function_privilege_name_name
Datum has_function_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:3302

select_best_grantor
void select_best_grantor(Oid roleId, AclMode privileges, const Acl *acl, Oid ownerId, Oid *grantorId, AclMode *grantOptions)
Definition: acl.c:5159

has_any_column_privilege_name_name
Datum has_any_column_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:2270

is_member_of_role_nosuper
bool is_member_of_role_nosuper(Oid member, Oid role)
Definition: acl.c:5057

has_sequence_privilege_name_id
Datum has_sequence_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:2116

has_schema_privilege_name
Datum has_schema_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:3719

acldefault_sql
Datum acldefault_sql(PG_FUNCTION_ARGS)
Definition: acl.c:872

has_privs_of_role
bool has_privs_of_role(Oid member, Oid role)
Definition: acl.c:4949

convert_language_name
static Oid convert_language_name(text *languagename)
Definition: acl.c:3653

has_language_privilege_id_id
Datum has_language_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:3627

convert_any_priv_string
static AclMode convert_any_priv_string(text *priv_type_text, const priv_map *privileges)
Definition: acl.c:1634

has_database_privilege_id_id
Datum has_database_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:3039

has_function_privilege_name
Datum has_function_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:3328

aclmembers
int aclmembers(const Acl *acl, Oid **roleids)
Definition: acl.c:1486

has_language_privilege_name
Datum has_language_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:3528

aclconcat
Acl * aclconcat(const Acl *left_acl, const Acl *right_acl)
Definition: acl.c:434

aclcopy
Acl * aclcopy(const Acl *orig_acl)
Definition: acl.c:414

has_server_privilege_name
Datum has_server_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:3912

member_can_set_role
bool member_can_set_role(Oid member, Oid role)
Definition: acl.c:4983

aclremove
Datum aclremove(PG_FUNCTION_ARGS)
Definition: acl.c:1548

has_function_privilege_id
Datum has_function_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:3379

aclitemsort
void aclitemsort(Acl *acl)
Definition: acl.c:502

has_table_privilege_id
Datum has_table_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:1921

has_function_privilege_id_id
Datum has_function_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:3427

aclmask
AclMode aclmask(const Acl *acl, Oid roleid, Oid ownerId, AclMode mask, AclMaskHow how)
Definition: acl.c:1334

convert_server_name
static Oid convert_server_name(text *servername)
Definition: acl.c:4037

acldefault
Acl * acldefault(ObjectType objtype, Oid ownerId)
Definition: acl.c:755

convert_tablespace_name
static Oid convert_tablespace_name(text *tablespacename)
Definition: acl.c:4228

make_empty_acl
Acl * make_empty_acl(void)
Definition: acl.c:405

getid
static const char * getid(const char *s, char *n)
Definition: acl.c:140

has_column_privilege_name_name_attnum
Datum has_column_privilege_name_name_attnum(PG_FUNCTION_ARGS)
Definition: acl.c:2531

convert_parameter_priv_string
static AclMode convert_parameter_priv_string(text *priv_text)
Definition: acl.c:4528

convert_table_name
static Oid convert_table_name(text *tablename)
Definition: acl.c:1995

has_column_privilege_name_id_name
Datum has_column_privilege_name_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:2558

count_one_bits
static int count_one_bits(AclMode mask)
Definition: acl.c:5119

convert_tablespace_priv_string
static AclMode convert_tablespace_priv_string(text *priv_type_text)
Definition: acl.c:4240

convert_language_priv_string
static AclMode convert_language_priv_string(text *priv_type_text)
Definition: acl.c:3665

aclitemin
Datum aclitemin(PG_FUNCTION_ARGS)
Definition: acl.c:572

convert_sequence_priv_string
static AclMode convert_sequence_priv_string(text *priv_type_text)
Definition: acl.c:2237

pg_has_role_id
Datum pg_has_role_id(PG_FUNCTION_ARGS)
Definition: acl.c:4631

has_parameter_privilege_id_name
Datum has_parameter_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:4510

aclnewowner
Acl * aclnewowner(const Acl *old_acl, Oid oldOwnerId, Oid newOwnerId)
Definition: acl.c:1065

allocacl
static Acl * allocacl(int n)
Definition: acl.c:383

convert_column_name
static AttrNumber convert_column_name(Oid tableoid, text *column)
Definition: acl.c:2822

convert_role_priv_string
static AclMode convert_role_priv_string(text *priv_type_text)
Definition: acl.c:4706

get_role_oid
Oid get_role_oid(const char *rolname, bool missing_ok)
Definition: acl.c:5235

cached_role
static Oid cached_role[]
Definition: acl.c:79

has_tablespace_privilege_name_name
Datum has_tablespace_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:4077

has_parameter_privilege_name
Datum has_parameter_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:4496

has_any_column_privilege_name
Datum has_any_column_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:2300

has_sequence_privilege_name_name
Datum has_sequence_privilege_name_name(PG_FUNCTION_ARGS)
Definition: acl.c:2056

has_function_privilege_name_id
Datum has_function_privilege_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:3352

has_type_privilege_id_id
Datum has_type_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:4392

has_server_privilege_id_id
Datum has_server_privilege_id_id(PG_FUNCTION_ARGS)
Definition: acl.c:4011

pg_role_aclcheck
static AclResult pg_role_aclcheck(Oid role_oid, Oid roleid, AclMode mode)
Definition: acl.c:4729

has_function_privilege_id_name
Datum has_function_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:3404

has_table_privilege_name
Datum has_table_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:1870

has_type_privilege_id_name
Datum has_type_privilege_id_name(PG_FUNCTION_ARGS)
Definition: acl.c:4369

has_column_privilege_id_name_attnum
Datum has_column_privilege_id_name_attnum(PG_FUNCTION_ARGS)
Definition: acl.c:2637

check_can_set_role
void check_can_set_role(Oid member, Oid role)
Definition: acl.c:5006

check_rolespec_name
void check_rolespec_name(const RoleSpec *role, const char *detail_msg)
Definition: acl.c:5376

has_type_privilege_name
Datum has_type_privilege_name(PG_FUNCTION_ARGS)
Definition: acl.c:4293

cached_roles
static List * cached_roles[]
Definition: acl.c:80

aclmask_direct
static AclMode aclmask_direct(const Acl *acl, Oid roleid, Oid ownerId, AclMode mask, AclMaskHow how)
Definition: acl.c:1423

has_tablespace_privilege_id
Datum has_tablespace_privilege_id(PG_FUNCTION_ARGS)
Definition: acl.c:4154

pg_has_role_name_id
Datum pg_has_role_name_id(PG_FUNCTION_ARGS)
Definition: acl.c:4607

aclcontains
Datum aclcontains(PG_FUNCTION_ARGS)
Definition: acl.c:1558

convert_function_name
static Oid convert_function_name(text *functionname)
Definition: acl.c:3453

has_column_privilege_id_name_name