6 Working with Labeled Data

You can manage labeled data, view that data of security attributes for a session, and change the value of session attributes.

Topics:

How Policy Label Column and Label Tags Work

You should understand how policy label columns in a table or schema are created and filled.

Topics:

The Policy Label Column

You should understand how to use policy label columns.

Topics:

About the Policy Label Column

Each policy that is applied to a table creates a column in the database.

By default, the data type of the NUMBER.

Each row's label for that policy is represented by a tag in that column, using the numeric equivalent of the character-string label value. The label tag is automatically generated when the label is created, unless the administrator specifies the tag manually at that time.

The automatic label generation follows the rules established by the administrator while defining the label components, as described in Understanding Data Labels and User Labels.

Note:

The act of creating a policy does not in itself have any effect on tables or schemas. It only applies the policy to a table or schema. Refer to these sections:

Hiding the Policy Label Column

You can choose not to display the column representing a policy.

  • To hide the display of a column, apply the HIDE option to the table.

After a policy using HIDE is applied to a table, a user executing a SELECT * or performing a DESCRIBE operation will not see the policy label column. If the policy label column is not hidden, then the label tag is displayed as data type NUMBER. Refer to How the HIDE Policy Column Option Works.

Example 1: Numeric Column Data Type (NUMBER)

DESCRIBE EMP;
 Name                                      Null?    Type
 ----------------------------------------- -------- --------
 EMPNO                                     NOT NULL NUMBER(4)
 ENAME                                              CHAR(10)
 JOB                                                CHAR(9)
 MGR                                                NUMBER(4)
 SAL                                                NUMBER(7,2)
 DEPTNO                                    NOT NULL NUMBER(2)
 HR_LABEL                                           NUMBER(10)

Example 2: Numeric Column Data Type with Hidden Column

Notice that in this example, the HR_LABEL column is not displayed.

DESCRIBE EMP;
 Name                                      Null?    Type
 ----------------------------------------- -------- --------
 EMPNO                                     NOT NULL NUMBER(4)
 ENAME                                              CHAR(10)
 JOB                                                CHAR(9)
 MGR                                                NUMBER(4)
 SAL                                                NUMBER(7,2)
 DEPTNO                                    NOT NULL NUMBER(2)

Label Tags

You can create label tags, either manually or automatically generating them, that define the label components.

About Label Tags

The administrator first defines a set of label components to be used in a policy.

When creating labels, the administrator specifies the set of valid combinations of components that can make up a label, that is, a level optionally combined with one or more groups or compartments.

Each such valid label within a policy is uniquely identified by an associated numeric tag assigned by the administrator or generated automatically upon its first use. Manual definition has the advantage of allowing the administrator to control the ordering of label values when they are sorted or logically compared.

However, label tags must be unique across all policies in the database. When you use multiple policies in a database, you cannot use the same numeric label tag in different policies. Remember that each label tag uniquely identifies one label, and that numeric tag is what is stored in the data rows, not the label's character-string representation.

Manually Defined Label Tags to Order Labels

By manually defining label tags, you can implement a data manipulation strategy that permits labels to be meaningfully sorted and compared.

To do this, you must predefine all of the labels to be associated with protected data, and assigns to each label a meaningful label tag value. Manually assigned label tags can have up to eight digits. The value of a label tag must be greater than zero.

It may be advantageous to implement a strategy in which label tag values are related to the numeric values of label components. In this way, you can use the tags to group data rows in a meaningful way. This approach, however, is not mandatory. It is good practice to set tags for labels of higher sensitivity to a higher numeric value than tags for labels of lower sensitivity.

Table 6-1 illustrates a set of label tags that have been assigned. Notice that, in this example, the administrator has based the label tag value on the numeric form of the levels, compartments, and rows that were discussed in Understanding Data Labels and User Labels.

Table 6-1 Administratively Defined Label Tags (Example)

Label Tag Label String

10000

P

20000

C

21000

C:FNCL

21100

C:FNCL,OP

30000

S

31110

S:OP:WR

40000

HS

42000

HS:OP

In this example, labels with a level of PUBLIC begin with "1", labels with a level of CONFIDENTIAL begin with "2", labels with a level of SENSITIVE begin with "3", and labels with a level of HIGHLY_SENSITIVE begin with "4".

Labels with the FINANCIAL compartment then come in the 1000 range, labels with the compartment OP are in the 1100 range, and so on. The tens place is used to indicate the group WR, for example.

Another strategy might be completely based on groups, where the tags might be 3110, 3120, 3130, and so on.

Note, however, that label tags identify the whole label, independent of the numeric values assigned for the individual label components. The label tag is used as a whole integer, not as a set of individually evaluated numbers.

Manually Defined Label Tags to Manipulate Data

An administratively defined label tag is a convenient way to reference a complete label string (that is, a combination of label components).

As illustrated in Table 6-1, for example, the tag "31110" could stand for the complete label string "S:OP:WR".

Label tags can be used as a convenient way to partition data. For example, all data with labels in the range 1000 - 1999 could be placed in tablespace A, all data with labels in the range 2000 - 2999 could be placed in tablespace B, and so on.

This simplified notation also comes in handy when there is a finite number of labels and you need to perform various operations upon them. Consider a situation in which one company hosts a human resources system for many other companies. Assume that all users from Company Y have the label "C:ALPHA:CY", for which the tag "210" has been set. To determine the total number of application users from Company Y, the host administrator can enter:

SELECT * FROM tab1
  WHERE hr_label = 210;

Automatically Generated Label Tags

Dynamically generated label tags have 10 digits, with no relationship to numbers assigned to any label component.

You cannot group the data by label.

Table 6-2 describes how automatically generated label tags work.

Table 6-2 Generated Label Tags (Example)

Label Tag Label String

100000020

P

100000052

C

100000503

C:FNCL

100000132

C:FNCL,OP

100000003

S

100000780

S:OP:WR

100000035

HS

100000036

HS:OP

Assignments of Labels to Data Rows

For existing data rows, labels can be assigned by a labeling function that you create.

In such a function, you specify the exact table and row conditions defining what label to insert. The function can be named in the call to apply a policy to a table or schema, or in an update by the administrator.

For rows that are being inserted, refer to Inserting Labeled Data.

Presenting the Label

When you retrieve labels, you do not automatically obtain the character string value.

By default, the label tag value is returned. Two label manipulation functions enable you to convert the label tag value to and from its character string representation.

Topics:

Converting a Character String to a Label Tag with CHAR_TO_LABEL

The CHAR_TO_LABEL function converts character strings to a label tag, returning the label tag for the specified character string.

  • To convert a character string to a label tab, use the following syntax for the CHAR_TO_LABEL function:

    FUNCTION CHAR_TO_LABEL (
         policy_name     IN VARCHAR2,
         label_string    IN VARCHAR2)
    RETURN NUMBER; 
    
    

For example:

INSERT INTO emp (empno,hr_label) 
VALUES (999, CHAR_TO_LABEL('HR','S:A,B:G5');

Here, HR is the label policy name, S is a sensitivity level, A,B compartments, and G5 a group.

FUNCTION CHAR_TO_LABEL (
     policy_name     IN VARCHAR2,
     label_string    IN VARCHAR2)
RETURN NUMBER; 

Here, HR is the label policy name, S is a sensitivity level, A,B compartments, and G5 a group.

Conversion of a Label Tag to a Character String, with LABEL_TO_CHAR

You can convert label tags to character strings.

Topics:

Converting a Label Tag to a Character String with LABEL_TO_CHAR

The LABEL_TO_CHAR function returns a VARCHAR2 string when it converts a label tag to a character string.

When you query a table or view, you automatically retrieve all of the rows in the table or view that satisfy the qualifications of the query and are dominated by your label. If the policy label column is not hidden, then the label tag value for each row is displayed. You must use the LABEL_TO_CHAR function to display the character string value of each label.

Note that all conversions must be explicit. There is no automatic casting to and from tag and character string representations.

  • To convert a label tag to a character string, use the following syntax for the LABEL_TO_CHAR function:

    FUNCTION LABEL_TO_CHAR (
         label IN NUMBER)
    RETURN VARCHAR2; 
    

LABEL_TO_CHAR Examples

Oracle provides examples that illustrate the use of LABEL_TO_CHAR.

Example: Retrieving a Row Label from a Table or a View

To retrieve the label of a row from a table or view, specify the policy label column in the SELECT statement.

For example:

SELECT label_to_char (hr_label) AS label, ename FROM tab1;
  WHERE ename = 'RWRIGHT';

This statement returns the following:

LABEL          ENAME
------------   ----------
S:A,B:G1       RWRIGHT

Example: Retrieving a Policy Label Column

You can also specify the policy label column in the WHERE clause of a SELECT statement.

The following statement displays all rows that have the policy label S:A,B:G1

SELECT label_to_char (hr_label) AS label,ename FROM emp
  WHERE hr_label = char_to_label ('HR', 'S:A,B:G1');

This statement returns the following:

LABEL           ENAME
-------------   ---------
S:A,B:G1        RWRIGHT
S:A,B:G1        ESTANTON 

Alternatively, you could use a more flexible statement to look up data that contains the string "S:A,B:G1" anywhere in the text of the HR_LABEL column:

SELECT label_to_char (hr_label) AS label,ename FROM emp
  WHERE label_to_char (hr_label) like '%S:A,B:G1%';

If you do not use the LABEL_TO_CHAR function, then you will see the label tag.

Example: Retrieving a Numeric Column Data Type

The following example is with the numeric column data type (NUMBER) and dynamically generated label tags, but without using the LABEL_TO_CHAR function. If you do not use the LABEL_TO_CHAR function, then you will see the label tag.

SQL> select empno, hr_label from emp
     where ename='RWRIGHT';

EMPNO      HR_LABEL
---------- ----------
7839       1000000562

Retrieving All Columns from a Table When the Policy Label Column Is Hidden

If the policy label column is hidden, then it is not automatically returned when you execute SELECT * on the table.

  • To explicitly specify that you want to retrieve a label, use the LABEL_TO_CHAR function in the SELECT statement.

For example, to retrieve all columns from the DEPT table (including the policy label column in its character representation), enter the following:

COLUMN LABEL FORMAT a10
SELECT LABEL_TO_CHAR (hr_label) AS LABEL, DEPT.* FROM DEPT;

Running these SQL statements returns the following data:

Table 6-3 Data Returned from Sample SQL Statements re Hidden Column

LABEL DEPTNO DNAME LOC

L1

10

ACCOUNTING

NEW YORK

L1

20

RESEARCH

DALLAS

L1

30

SALES

CHICAGO

L1

40

OPERATIONS

BOSTON

By contrast, if you do not explicitly specify the HR_LABEL column, the label is not displayed at all. Note that while the policy column name is on a policy basis, the HIDE option is on a table-by-table basis.

Filtration of Data Using Labels

When SQL statements are processed, Oracle Label Security makes calls to the security policies defined in the database by create-and-apply procedures.

These create and apply procedures are discussed in SA_POLICY_ADMIN Policy Administration PL/SQL Package.

For SELECT statements, the policy filters the data rows that the user is authorized to see. For INSERT, UPDATE, and DELETE statements, Oracle Label Security permits or denies the requested operation, based on the user's authorizations.

Topics:

Use of Numeric Label Tags in WHERE Clauses

There are different techniques of using numeric label tags in WHERE clauses of SELECT statements.

When using labels in the NUMBER format, you can set up labels so that a list of your label tags distinguishes the different levels. Comparisons of these numeric label tags can be used for ORDER BY processing, and with the logical operators.

For example, if you have assigned all UNCLASSIFIED labels to the 1000 range, all SENSITIVE labels to the 2000 range, and all HIGHLY_SENSITIVE labels to the 3000 range, then you can list all SENSITIVE records.

SELECT * FROM emp
WHERE hr_label BETWEEN 2000 AND 2999;

To list all SENSITIVE and UNCLASSIFIED records, you can enter:

SELECT * FROM emp
WHERE hr_label <3000;

To list all HIGHLY_SENSITIVE records, you can enter:

SELECT * FROM emp
WHERE hr_label=3000;

Note:

Remember that such queries have meaning only if the administrator has applied a numeric ordering strategy to the label tags that he or she originally assigned to the labels. In this way, the administrator can provide for convenient dissemination of data. If, however, the label tag values are generated automatically, then there is no intrinsic relationship between the value of the tag and the order of the labels.

Alternatively, you can use dominance relationships to set up an ordering strategy.

Ordering Labeled Data Rows

The ORDER BY clause of a SELECT statement can be used to order rows by the numeric label tag.

  • To perform the ORDER BY operation, use a SELECT statement similar to the following:

    SELECT * from emp
    ORDER BY hr_label;
    

Notice that no functions were necessary in this statement. The statement made use of label tags set up by the administrator.

Note:

Again, such queries have meaning only if the administrator has applied a numeric ordering strategy to the label tags originally assigned to the labels.

Ordering by Character Representation of Label

The LABEL_TO_CHAR function orders data rows by the character representation of the label.

  • To order data rows by the character representation of a label, use a statement similar to the following, which returns all rows sorted by the text order of the label :

    SELECT * FROM emp
    ORDER BY label_to_char (hr_label);
    

Determination of the Upper and Lower Bounds of Labels

Oracle Label Security provides functions that determine the least upper bound or the greatest lower bound of two or more labels.

Two single-row functions operate on each row returned by a query. They return one result for each row.

Topics:

Finding Least Upper Bound with LEAST_UBOUND

The OLS_LEAST_UBOUND (OLS_LUBD) function returns a character string label that is the least upper bound of label1 and label2:.

That is, the one label that dominates both. The least upper bound is the highest level, the union of the compartments in the labels, and the union of the groups in the labels.

For example, the least upper bound of HIGHLY_SENSITIVE:ALPHA and SENSITIVE:BETA is HIGHLY_SENSITIVE:ALPHA,BETA.

  • To find the least upper bound, use the following syntax:

    FUNCTION OLS_LEAST_UBOUND (
         label1                    IN NUMBER,
         label2                    IN NUMBER) 
    RETURN VARCHAR2; 
    

The OLS_LEAST_UBOUND function is useful when joining rows with different labels, because it provides a high water mark label for joined rows.

The following query compares each employee's label with the label of his or her department, and returns the higher label, whether it be in the EMP table or the DEPT table.

SELECT ename,dept.deptno, 
  OLS_LEAST_UBOUND(emp.hr_label,dept.hr_label) as label
  FROM emp, dept
  WHERE emp.deptno=dept.deptno;

This query returns the following data:

Table 6-4 Data Returned from Sample SQL Statements re Least_UBound

ENAME DEPTNO LABEL

KING

10

L3:M:D10

BLAKE

30

L3:M:D30

CLARK

10

L3:M:D10

JONES

20

L3:M:D20

MARTIN

30

L2:E:D30

Note:

The old OLS functions, LEAST_UBOUND and LUBD have been deprecated in Oracle Database 12c release 1 (12.1).

You can still use the old functions in this release, but Oracle recommends that you use the OLS_LEAST_UBOUND and OLS_LUBD functions instead. Using the new function names avoids potential name conflicts with other database components.

Finding Greatest Lower Bound with GREATEST_LBOUND

The OLS_GREATEST_LBOUND (OLS_GLBD) standalone function determines the lowest label of the data that can be involved in an operation, given two different labels.

This function returns a character string label that is the greatest lower bound of label1 and label2. The greatest lower bound is the lowest level, the intersection of the compartments in the labels and the groups in the labels. For example, the greatest lower bound of HIGHLY_SENSITIVE:ALPHA and SENSITIVE is SENSITIVE.

  • To find the greatest lower bound, use the following syntax:

    FUNCTION OLS_GREATEST_LBOUND (
         label1                  IN NUMBER,
         label2                  IN NUMBER) 
    RETURN VARCHAR2; 
    

Note:

The old OLS functions, GREATEST_LBOUND and GLBD were deprecated in Oracle Database 12c release 1 (12.1).

You can still use the old functions in this release, but Oracle recommends that you use the OLS_GREATEST_LBOUND and OLS_GLBD functions instead. Using the new function names avoids potential name conflicts with other database components.

Merging Labels with the MERGE_LABEL Function

The MERGE_LABEL function merges two labels together.

It accepts the character string form of two labels and the three-character specification of a merge format.

  • To merge labels, use the following syntax:

    FUNCTION merge_label (label1 IN number,
                          label2 IN number,
                          merge_format IN VARCHAR2)
    RETURN number;
    

The valid merge format is specified with a three-character string:

<highest level or lowest level><union or intersection of compartments><union or intersection of groups>

  • The first character indicates whether to merge using the highest level or the lowest level of the two labels.

  • The second character indicates whether to merge using the union or the intersection of the compartments in the two labels.

  • The third character indicates whether to merge using the union or the intersection of the groups in the two labels.

Table 6-5 defines the MERGE_LABEL format constants.

Table 6-5 MERGE_LABEL Format Constants

Format Specification Data Type Constant Meaning Positions in Which Format Is Used

max_lvl_fmt

CONSTANT varchar2(1)

H

Maximum level

First (level)

min_lvl_fmt

CONSTANT varchar2(1)

L

Minimum level

First (Level)

union_fmt

CONSTANT varchar2(1)

U

Union of the two labels

Second (compartments) and Third (groups)

inter_fmt

CONSTANT varchar2(1)

I

Intersection of the two labels

Second (compartments) and Third (groups)

minus_fmt

CONSTANT varchar2(1)

M

Remove second label from first label

Second (compartments) and Third (groups)

null_fmt

CONSTANT varchar2(1)

N

If specified in compartments column, returns no compartments. If specified in groups column, returns no groups.

Second (compartments) and Third (groups)

For example, HUI specifies the highest level of the two labels, union of the compartments, intersection of the groups.

The MERGE_LABEL function is particularly useful to developers if the LEAST_UBOUND function does not provide the intended result. The LEAST_UBOUND function, when used with two labels containing groups, may result in a less sensitive data label than expected. The MERGE_LABEL function enables you to compute an intersection on the groups, instead of the union of groups that is provided by the LEAST_UBOUND function.

For example, if the label of one data record contains the group UNITED_STATES, and the label of another data record contains the group UNITED_KINGDOM, and the LEAST_UBOUND function is used to compute the least upper bound of these two labels, then the resulting label would be accessible to users authorized for either the UNITED_STATES or the UNITED_KINGDOM.

If, by contrast, the MERGE_LABEL function is used with a format clause of HUI, then the resulting label would contain the highest level, the union of the compartments, and no groups. This is because UNITED_STATES and UNITED_KINGDOM do not intersect.

Inserting Labeled Data

You can insert labeled data in a variety of situations.

Topics:

About Inserting Labeled Data

When you insert data into a table protected by an Oracle Label Security policy, you must supply a numeric label value tag.

Usually, you can insert this value in the INSERT statement itself.

To do this, you must explicitly specify the tag for the desired label or explicitly convert the character string representation of the label into the correct tag. Note that this does not mean generating new label tags, but referencing the correct tag. When Oracle Label Security is using Oracle Internet Directory, the only permissible labels (and corresponding tags) are those pre-defined by the administrator and already in Oracle Internet Directory.

The only times an INSERT statement may omit a label value are:

  • If the LABEL_DEFAULT enforcement option was specified when the policy was applied, or

  • If no enforcement options were specified when the policy was applied and LABEL_DEFAULT was specified when the policy was created

  • If the statement applying the policy named a labeling function.

In the first two cases, the user's session default row label is used as the inserted row's label. In the third case, the inserted row's label is created by that labeling function.

See Also:

Inserting Labels Using CHAR_TO_LABEL

To insert a row label, you can specify the label character string and then transform it into a label using the CHAR_TO_LABEL function.

The CHAR_TO_LABEL function automatically creates a valid data label.

  • To insert labels, use an INSERT INTO statement.

Using the definition for table emp, the following example shows how to insert data with explicit labels:

INSERT INTO emp (ename,empno,hr_label)
VALUES ('ESTANTON',10,char_to_label ('HR', 'SENSITIVE'));

Inserting Labels Using Numeric Label Tag Values

You can insert data using the numeric label tag value of a label, rather than using the CHAR_TO_LABEL function.

  • To insert labels using numeric label tag values, use an INSERT INTO statement.

For example, if the numeric label tag for SENSITIVE is 3000, it would appear as follows:

INSERT INTO emp (ename, empno, hr_label)
VALUES ('ESTANTON', 10, 3000);

Inserting Data Without Specifying a Label

There are two situations in which you do not need to specify a label in INSERT statements.

If LABEL_DEFAULT is set, or if there is a labeling function applied to the table, then you do not need to specify a label in your INSERT statements. The label will be provided automatically.

  • To insert data without specifying a label, use an INSERT INTO statement.

For example:

INSERT INTO emp (ename, empno)
VALUES ('ESTANTON', 10);

The resulting row label is set according to the default value (or by a labeling function).

Inserting Data When the Policy Label Column Is Hidden

If the label column is hidden, then the existence of the column is transparent to the insertion of data.

INSERT statements can be written that do not explicitly list the table columns and do not include a value for the label column.

The session's row label is used to label the data, or a labeling function is used if one was specified when the policy was applied to the table or schema.

You can insert into a table without explicitly naming the columns, as long as you specify a value for each non-hidden column in the table. The following example shows how to insert a row into the table described in Example 2: Numeric Column Data Type with Hidden Column:

  • To insert data when the policy label column is hidden, use the following syntax:

    INSERT INTO emp
    VALUES ('196','ESTANTON',Technician,RSTOUT,50000,10);
    

Its label will be one of the following three possibilities:

  • The label you specify

  • The label established by the LABEL_DEFAULT option of the policy being applied

  • The label created by a labeling function named by the policy being applied

    Note:

    If the policy label column is not hidden, then you must explicitly include a label value (possibly null, indicated by a comma) in the INSERT statement.

Inserting Labels Using TO_DATA_LABEL

The TO_DATA_LABEL function can generate new labels dynamically.

This approach guarantees that the data labels are valid. However, be aware that when Oracle Label Security is installed to work with Oracle Internet Directory, dynamic label generation is not allowed, because labels are managed centrally in Oracle Internet Directory, using olsadmintool commands. Refer to Command-line Tools for Label Security Using Oracle Internet Directory for more information. Therefore, when Oracle Label Security is directory-enabled, this function, TO_DATA_LABEL, is not available and will generate an error message if used.

  1. Ensure that you have the EXECUTE privilege on the TO_DATA_LABEL function.

  2. Use the TO_DATA_LABEL as necessary, for example, in an INSERT INTO statement.

For example:

INSERT INTO emp (ename, empno, hr_label)
VALUES ('ESTANTON', 10, to_data_label ('HR', 'SENSITIVE'));

Note:

The TO_DATA_LABEL function must be explicitly granted to individuals, in order to be used. Its usage should be tightly controlled.

Changing Session and Row Labels

During a session, a user can change labels based on the authorizations an administrator sets.