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><A
NAME="RULES-PRIVILEGES"
>37.4. Rules and Privileges</A
></H1
><P
>    Due to rewriting of queries by the <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
>
    rule system, other tables/views than those used in the original
    query get accessed. When update rules are used, this can include write access
    to tables.</P
><P
>    Rewrite rules don't have a separate owner. The owner of
    a relation (table or view) is automatically the owner of the
    rewrite rules that are defined for it.
    The <SPAN
CLASS="PRODUCTNAME"
>PostgreSQL</SPAN
> rule system changes the
    behavior of the default access control system. Relations that
    are used due to rules get checked against the
    privileges of the rule owner, not the user invoking the rule.
    This means that a user only needs the required privileges
    for the tables/views that he names explicitly in his queries.</P
><P
>    For example: A user has a list of phone numbers where some of
    them are private, the others are of interest for the secretary of the office.
    He can construct the following:

</P><PRE
CLASS="PROGRAMLISTING"
>CREATE TABLE phone_data (person text, phone text, private boolean);
CREATE VIEW phone_number AS
    SELECT person, CASE WHEN NOT private THEN phone END AS phone
    FROM phone_data;
GRANT SELECT ON phone_number TO secretary;</PRE
><P>

    Nobody except him (and the database superusers) can access the
    <TT
CLASS="LITERAL"
>phone_data</TT
> table. But because of the <TT
CLASS="COMMAND"
>GRANT</TT
>,
    the secretary can run a <TT
CLASS="COMMAND"
>SELECT</TT
> on the
    <TT
CLASS="LITERAL"
>phone_number</TT
> view. The rule system will rewrite the
    <TT
CLASS="COMMAND"
>SELECT</TT
> from <TT
CLASS="LITERAL"
>phone_number</TT
> into a
    <TT
CLASS="COMMAND"
>SELECT</TT
> from <TT
CLASS="LITERAL"
>phone_data</TT
>.
    Since the user is the owner of
    <TT
CLASS="LITERAL"
>phone_number</TT
> and therefore the owner of the rule, the
    read access to <TT
CLASS="LITERAL"
>phone_data</TT
> is now checked against his
    privileges and the query is permitted. The check for accessing
    <TT
CLASS="LITERAL"
>phone_number</TT
> is also performed, but this is done
    against the invoking user, so nobody but the user and the
    secretary can use it.</P
><P
>    The privileges are checked rule by rule. So the secretary is for now the
    only one who can see the public phone numbers. But the secretary can setup
    another view and grant access to that to the public. Then, anyone
    can see the <TT
CLASS="LITERAL"
>phone_number</TT
> data through the secretary's view.
    What the secretary cannot do is to create a view that directly
    accesses <TT
CLASS="LITERAL"
>phone_data</TT
>.  (Actually he can, but it will not work since
    every access will be denied during the permission checks.)
    And as soon as the user will notice, that the secretary opened
    his <TT
CLASS="LITERAL"
>phone_number</TT
> view, he can revoke his access. Immediately, any
    access to the secretary's view would fail.</P
><P
>    One might think that this rule-by-rule checking is a security
    hole, but in fact it isn't.   But if it did not work this way, the secretary
    could set up a table with the same columns as <TT
CLASS="LITERAL"
>phone_number</TT
> and
    copy the data to there once per day. Then it's his own data and
    he can grant access to everyone he wants. A
    <TT
CLASS="COMMAND"
>GRANT</TT
> command means, <SPAN
CLASS="QUOTE"
>"I trust you"</SPAN
>.
    If someone you trust does the thing above, it's time to
    think it over and then use <TT
CLASS="COMMAND"
>REVOKE</TT
>.</P
><P
>    Note that while views can be used to hide the contents of certain
    columns using the technique shown above, they cannot be used to reliably
    conceal the data in unseen rows unless the
    <TT
CLASS="LITERAL"
>security_barrier</TT
> flag has been set.  For example,
    the following view is insecure:
</P><PRE
CLASS="PROGRAMLISTING"
>CREATE VIEW phone_number AS
    SELECT person, phone FROM phone_data WHERE phone NOT LIKE '412%';</PRE
><P>
    This view might seem secure, since the rule system will rewrite any
    <TT
CLASS="COMMAND"
>SELECT</TT
> from <TT
CLASS="LITERAL"
>phone_number</TT
> into a
    <TT
CLASS="COMMAND"
>SELECT</TT
> from <TT
CLASS="LITERAL"
>phone_data</TT
> and add the
    qualification that only entries where <TT
CLASS="LITERAL"
>phone</TT
> does not begin
    with 412 are wanted.  But if the user can create his or her own functions,
    it is not difficult to convince the planner to execute the user-defined
    function prior to the <CODE
CLASS="FUNCTION"
>NOT LIKE</CODE
> expression.
    For example:
</P><PRE
CLASS="PROGRAMLISTING"
>CREATE FUNCTION tricky(text, text) RETURNS bool AS $$
BEGIN
    RAISE NOTICE '% =&#62; %', $1, $2;
    RETURN true;
END
$$ LANGUAGE plpgsql COST 0.0000000000000000000001;

SELECT * FROM phone_number WHERE tricky(person, phone);</PRE
><P>
    Every person and phone number in the <TT
CLASS="LITERAL"
>phone_data</TT
> table will be
    printed as a <TT
CLASS="LITERAL"
>NOTICE</TT
>, because the planner will choose to
    execute the inexpensive <CODE
CLASS="FUNCTION"
>tricky</CODE
> function before the
    more expensive <CODE
CLASS="FUNCTION"
>NOT LIKE</CODE
>.  Even if the user is
    prevented from defining new functions, built-in functions can be used in
    similar attacks.  (For example, most casting functions include their
    input values in the error messages they produce.)</P
><P
>    Similar considerations apply to update rules. In the examples of
    the previous section, the owner of the tables in the example
    database could grant the privileges <TT
CLASS="LITERAL"
>SELECT</TT
>,
    <TT
CLASS="LITERAL"
>INSERT</TT
>, <TT
CLASS="LITERAL"
>UPDATE</TT
>, and <TT
CLASS="LITERAL"
>DELETE</TT
> on
    the <TT
CLASS="LITERAL"
>shoelace</TT
> view to someone else, but only
    <TT
CLASS="LITERAL"
>SELECT</TT
> on <TT
CLASS="LITERAL"
>shoelace_log</TT
>. The rule action to
    write log entries will still be executed successfully, and that
    other user could see the log entries.  But he cannot create fake
    entries, nor could he manipulate or remove existing ones.  In this
    case, there is no possibility of subverting the rules by convincing
    the planner to alter the order of operations, because the only rule
    which references <TT
CLASS="LITERAL"
>shoelace_log</TT
> is an unqualified
    <TT
CLASS="LITERAL"
>INSERT</TT
>.  This might not be true in more complex scenarios.</P
><P
>    When it is necessary for a view to provide row-level security, the
    <TT
CLASS="LITERAL"
>security_barrier</TT
> attribute should be applied to
    the view.  This prevents maliciously-chosen functions and operators from
    being invoked on rows until after the view has done its work.  For
    example, if the view shown above had been created like this, it would
    be secure:
</P><PRE
CLASS="PROGRAMLISTING"
>CREATE VIEW phone_number WITH (security_barrier) AS
    SELECT person, phone FROM phone_data WHERE phone NOT LIKE '412%';</PRE
><P>
    Views created with the <TT
CLASS="LITERAL"
>security_barrier</TT
> may perform
    far worse than views created without this option.  In general, there is
    no way to avoid this: the fastest possible plan must be rejected
    if it may compromise security.  For this reason, this option is not
    enabled by default.</P
><P
>    The query planner has more flexibility when dealing with functions that
    have no side effects.  Such functions are referred to as <TT
CLASS="LITERAL"
>LEAKPROOF</TT
>, and
    include many simple, commonly used operators, such as many equality
    operators.  The query planner can safely allow such functions to be evaluated
    at any point in the query execution process, since invoking them on rows
    invisible to the user will not leak any information about the unseen rows.
    In contrast, a function that might throw an error depending on the values
    received as arguments (such as one that throws an error in the event of
    overflow or division by zero) are not leak-proof, and could provide
    significant information about the unseen rows if applied before the security
    view's row filters.</P
><P
>    It is important to understand that even a view created with the
    <TT
CLASS="LITERAL"
>security_barrier</TT
> option is intended to be secure only
    in the limited sense that the contents of the invisible tuples will not be
    passed to possibly-insecure functions.  The user may well have other means
    of making inferences about the unseen data; for example, they can see the
    query plan using <TT
CLASS="COMMAND"
>EXPLAIN</TT
>, or measure the run time of
    queries against the view.  A malicious attacker might be able to infer
    something about the amount of unseen data, or even gain some information
    about the data distribution or most common values (since these things may
    affect the run time of the plan; or even, since they are also reflected in
    the optimizer statistics, the choice of plan).  If these types of "covert
    channel" attacks are of concern, it is probably unwise to grant any access
    to the data at all.</P
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