51.8. pg_authid

The catalog pg_authid contains information about database authorization identifiers (roles). A role subsumes the concepts of users and groups. A user is essentially just a role with the rolcanlogin flag set. Any role (with or without rolcanlogin) can have other roles as members; see pg_auth_members.

Since this catalog contains passwords, it must not be publicly readable. pg_roles is a publicly readable view on pg_authid that blanks out the password field.

Chapter 21 contains detailed information about user and privilege management.

Because user identities are cluster-wide, pg_authid is shared across all databases of a cluster: there is only one copy of pg_authid per cluster, not one per database.

Table 51.8. pg_authid Columns

Column Type

Description

oid oid

Row identifier

rolname name

Role name

rolsuper bool

Role has superuser privileges

rolinherit bool

Role automatically inherits privileges of roles it is a member of

rolcreaterole bool

Role can create more roles

rolcreatedb bool

Role can create databases

rolcanlogin bool

Role can log in. That is, this role can be given as the initial session authorization identifier.

rolreplication bool

Role is a replication role. A replication role can initiate replication connections and create and drop replication slots.

rolbypassrls bool

Role bypasses every row level security policy, see Section 5.8 for more information.

rolconnlimit int4

For roles that can log in, this sets maximum number of concurrent connections this role can make. -1 means no limit.

rolpassword text

Password (possibly encrypted); null if none. The format depends on the form of encryption used.

rolvaliduntil timestamptz

Password expiry time (only used for password authentication); null if no expiration


For an MD5 encrypted password, rolpassword column will begin with the string md5 followed by a 32-character hexadecimal MD5 hash. The MD5 hash will be of the user's password concatenated to their user name. For example, if user joe has password xyzzy, PostgreSQL will store the md5 hash of xyzzyjoe.

If the password is encrypted with SCRAM-SHA-256, it has the format:

SCRAM-SHA-256$<iteration count>:<salt>$<StoredKey>:<ServerKey>

where salt, StoredKey and ServerKey are in Base64 encoded format. This format is the same as that specified by RFC 5803.

A password that does not follow either of those formats is assumed to be unencrypted.