MySQL 9.1 Release Notes
Before using MySQL Enterprise Data Masking and De-Identification, install it according to the instructions provided at Section 8.5.2.1, “MySQL Enterprise Data Masking and De-Identification Component Installation”.
To use MySQL Enterprise Data Masking and De-Identification in applications, invoke the functions that are appropriate for the operations you wish to perform. For detailed function descriptions, see Section 8.5.2.4, “MySQL Enterprise Data Masking and De-Identification Component Function Descriptions”. This section demonstrates how to use the functions to carry out some representative tasks. It first presents an overview of the available functions, followed by some examples of how the functions might be used in real-world context:
MySQL provides general-purpose masking component functions that mask arbitrary strings, and special-purpose masking functions that mask specific types of values.
General-Purpose Masking Component Functions
mask_inner() and
mask_outer() are
general-purpose functions that mask parts of arbitrary strings
based on position within the string. Both functions support an
input string that is encoded in any character set:
mask_inner()masks the interior of its string argument, leaving the ends unmasked. Other arguments specify the sizes of the unmasked ends.mysql> SELECT mask_inner('This is a string', 5, 1); +--------------------------------------+ | mask_inner('This is a string', 5, 1) | +--------------------------------------+ | This XXXXXXXXXXg | +--------------------------------------+ mysql> SELECT mask_inner('This is a string', 1, 5); +--------------------------------------+ | mask_inner('This is a string', 1, 5) | +--------------------------------------+ | TXXXXXXXXXXtring | +--------------------------------------+ mysql> SELECT mask_inner("かすみがうら市", 3, 1); +----------------------------------+ | mask_inner("かすみがうら市", 3, 1) | +----------------------------------+ | かすみXXX市 | +----------------------------------+ mysql> SELECT mask_inner("かすみがうら市", 1, 3); +----------------------------------+ | mask_inner("かすみがうら市", 1, 3) | +----------------------------------+ | かXXXうら市 | +----------------------------------+mask_outer()does the reverse, masking the ends of its string argument, leaving the interior unmasked. Other arguments specify the sizes of the masked ends.mysql> SELECT mask_outer('This is a string', 5, 1); +--------------------------------------+ | mask_outer('This is a string', 5, 1) | +--------------------------------------+ | XXXXXis a strinX | +--------------------------------------+ mysql> SELECT mask_outer('This is a string', 1, 5); +--------------------------------------+ | mask_outer('This is a string', 1, 5) | +--------------------------------------+ | Xhis is a sXXXXX | +--------------------------------------+
By default, mask_inner() and
mask_outer() use
'X' as the masking character, but permit an
optional masking-character argument:
mysql> SELECT mask_inner('This is a string', 5, 1, '*');
+-------------------------------------------+
| mask_inner('This is a string', 5, 1, '*') |
+-------------------------------------------+
| This **********g |
+-------------------------------------------+
mysql> SELECT mask_inner("かすみがうら市", 2, 2, "#");
+---------------------------------------+
| mask_inner("かすみがうら市", 2, 2, "#") |
+---------------------------------------+
| かす###ら市 |
+---------------------------------------+Special-Purpose Masking Component Functions
Other masking functions expect a string argument representing a specific type of value and mask it to remove identifying characteristics.
Note
The examples here supply function arguments using the random value generation functions that return the appropriate type of value. For more information about generation functions, see Generating Random Data with Specific Characteristics.
Payment card Primary Account Number masking. Masking functions provide strict and relaxed masking of Primary Account numbers.
mask_pan()masks all but the last four digits of the number:mysql> SELECT mask_pan(gen_rnd_pan()); +-------------------------+ | mask_pan(gen_rnd_pan()) | +-------------------------+ | XXXXXXXXXXXX2461 | +-------------------------+mask_pan_relaxed()is similar but does not mask the first six digits that indicate the payment card issuer unmasked:mysql> SELECT mask_pan_relaxed(gen_rnd_pan()); +---------------------------------+ | mask_pan_relaxed(gen_rnd_pan()) | +---------------------------------+ | 770630XXXXXX0807 | +---------------------------------+
International Bank Account Number masking.
mask_iban() masks all but the
first two letters (denoting the country) of the number:
mysql> SELECT mask_iban(gen_rnd_iban());
+---------------------------+
| mask_iban(gen_rnd_iban()) |
+---------------------------+
| ZZ** **** **** **** |
+---------------------------+Universally Unique Identifier masking.
mask_uuid() masks all
meaningful characters:
mysql> SELECT mask_uuid(gen_rnd_uuid());
+--------------------------------------+
| mask_uuid(gen_rnd_uuid()) |
+--------------------------------------+
| ********-****-****-****-************ |
+--------------------------------------+US Social Security Number masking.
mask_ssn() masks all but the
last four digits of the number:
mysql> SELECT mask_ssn(gen_rnd_ssn());
+-------------------------+
| mask_ssn(gen_rnd_ssn()) |
+-------------------------+
| ***-**-1723 |
+-------------------------+Canada Social Insurance Number masking.
mask_canada_sin() masks
meaningful digits of the number:
mysql> SELECT mask_canada_sin(gen_rnd_canada_sin());
+---------------------------------------+
| mask_canada_sin(gen_rnd_canada_sin()) |
+---------------------------------------+
| XXX-XXX-XXX |
+---------------------------------------+United Kingdom National Insurance Number masking.
mask_uk_nin() masks all but
the first two digits of the number:
mysql> SELECT mask_uk_nin(gen_rnd_uk_nin());
+-------------------------------+
| mask_uk_nin(gen_rnd_uk_nin()) |
+-------------------------------+
| ZH******* |
+-------------------------------+Several component functions generate random values. These values can be used for testing, simulation, and so forth.
gen_range() returns a random
integer selected from a given range:
mysql> SELECT gen_range(1, 10);
+------------------+
| gen_range(1, 10) |
+------------------+
| 6 |
+------------------+
gen_rnd_canada_sin() returns a
random number chosen from a range not used for legitimate
numbers:
mysql> SELECT gen_rnd_canada_sin();
+----------------------+
| gen_rnd_canada_sin() |
+----------------------+
(The gen_rnd_canada_sin()
function result is not shown because its return values should
be used only for testing purposes, and not for publication. It
cannot be guaranteed the number is not assigned to a
legitimate Canada SIN.)
gen_rnd_email() returns a
random email address with a specified number of digits for the
name and surname parts in the specified domain,
mynet.com in the following example:
mysql> SELECT gen_rnd_email(6, 8, 'mynet.com');
+------------------------------+
| gen_rnd_email(6, 8, 'mynet') |
+------------------------------+
| ayxnqu.xmkpvvyr@mynet.com |
+------------------------------+
gen_rnd_iban() returns a number
chosen from a range not used for legitimate numbers:
mysql> SELECT gen_rnd_iban('XO', 24);
+-------------------------------+
| gen_rnd_iban('XO', 24) |
+-------------------------------+
| XO25 SL7A PGQR B9NN 6IVB RFE8 |
+-------------------------------+
gen_rnd_pan() returns a random
payment card Primary Account Number:
mysql> SELECT gen_rnd_pan();
(The gen_rnd_pan() function
result is not shown because its return values should be used
only for testing purposes, and not for publication. It cannot
be guaranteed the number is not assigned to a legitimate
payment account.)
gen_rnd_ssn() returns a random
US Social Security Number with the first and second parts each
chosen from a range not used for legitimate numbers:
mysql> SELECT gen_rnd_ssn();
+---------------+
| gen_rnd_ssn() |
+---------------+
| 912-45-1615 |
+---------------+
gen_rnd_uk_nin() returns a
number chosen from a range not used for legitimate numbers:
mysql> SELECT gen_rnd_uk_nin();
+------------------+
| gen_rnd_uk_nin() |
+------------------+
(The gen_rnd_uk_nin() function
result is not shown because its return values should be used
only for testing purposes, and not for publication. It cannot
be guaranteed the number is not assigned to a legitimate NIN.)
gen_rnd_us_phone() returns a
random US phone number in the 555 area code not used for
legitimate numbers:
mysql> SELECT gen_rnd_us_phone();
+--------------------+
| gen_rnd_us_phone() |
+--------------------+
| 1-555-747-5627 |
+--------------------+
gen_rnd_uuid() returns a number
chosen from a range not used for legitimate identifiers:
mysql> SELECT gen_rnd_uuid();
+--------------------------------------+
| gen_rnd_uuid() |
+--------------------------------------+
| 68946384-6880-3150-6889-928076732539 |
+--------------------------------------+
MySQL Enterprise Data Masking and De-Identification enables dictionaries to be used as sources of random
values called terms. To use a
dictionary, it must first be added to the
masking_dictionaries system table and given
a name. The dictionaries are read from the table and loaded to
the cache during initialization of the components (on server
startup). Terms then can then be added, removed, and selected
from dictionaries and used as random values or as replacements
for other values.
Note
Always edit dictionaries using dictionary administration functions rather than modifying the table directly. If you manipulate the table manually, the dictionary cache becomes inconsistent with the table.
A valid masking_dictionaries table has
these characteristics:
An administrator created the
masking_dictionariessystem table in themysqlschema as follows:CREATE TABLE IF NOT EXISTS masking_dictionaries( Dictionary VARCHAR(256) NOT NULL, Term VARCHAR(256) NOT NULL, UNIQUE INDEX dictionary_term_idx (Dictionary, Term), INDEX dictionary_idx (Dictionary) ) ENGINE = InnoDB DEFAULT CHARSET=utf8mb4;MASKING_DICTIONARY_ADMIN privilege is required to add and remove terms, or to remove an entire dictionary.
The table may contain multiple dictionaries and their terms.
Any user account can view the dictionaries. Given enough queries, all of the terms in dictionaries are retrievable. Avoid adding sensitive data to the dictionary table.
Suppose that a dictionary named DE_cities
includes these city names in Germany:
Berlin
Munich
Bremen
Use masking_dictionary_term_add() to assign
a dictionary name and one term:
mysql> SELECT masking_dictionary_term_add('DE_Cities', 'Berlin');
+----------------------------------------------------+
| masking_dictionary_term_add('DE_Cities', 'Berlin') |
+----------------------------------------------------+
| 1 |
+----------------------------------------------------+
mysql> SELECT masking_dictionary_term_add('DE_Cities', 'Munich');
+----------------------------------------------------+
| masking_dictionary_term_add('DE_Cities', 'Munich') |
+----------------------------------------------------+
| 1 |
+----------------------------------------------------+
mysql> SELECT masking_dictionary_term_add('DE_Cities', 'Bremen');
+----------------------------------------------------+
| masking_dictionary_term_add('DE_Cities', 'Bremen') |
+----------------------------------------------------+
| 1 |
+----------------------------------------------------+
Also suppose that a dictionary named
US_Cities contains these city names in the
United States:
Houston
Phoenix
Detroitmysql> SELECT masking_dictionary_term_add('US_Cities', 'Houston');
+-----------------------------------------------------+
| masking_dictionary_term_add('US_Cities', 'Houston') |
+-----------------------------------------------------+
| 1 |
+-----------------------------------------------------+
mysql> SELECT masking_dictionary_term_add('US_Cities', 'Phoenix');
+-----------------------------------------------------+
| masking_dictionary_term_add('US_Cities', 'Phoenix') |
+-----------------------------------------------------+
| 1 |
+-----------------------------------------------------+
mysql> SELECT masking_dictionary_term_add('US_Cities', 'Detroit');
+-----------------------------------------------------+
| masking_dictionary_term_add('US_Cities', 'Detroit') |
+-----------------------------------------------------+
| 1 |
+-----------------------------------------------------+
To select a random term from a dictionary, use
gen_dictionary():
mysql> SELECT gen_dictionary('DE_Cities');
+-----------------------------+
| gen_dictionary('DE_Cities') |
+-----------------------------+
| Berlin |
+-----------------------------+
mysql> SELECT gen_dictionary('US_Cities');
+-----------------------------+
| gen_dictionary('US_Cities') |
+-----------------------------+
| Phoenix |
+-----------------------------+To select a random term from multiple dictionaries, randomly select one of the dictionaries, then select a term from it:
mysql> SELECT gen_dictionary(ELT(gen_range(1,2), 'DE_Cities', 'US_Cities'));
+---------------------------------------------------------------+
| gen_dictionary(ELT(gen_range(1,2), 'DE_Cities', 'US_Cities')) |
+---------------------------------------------------------------+
| Detroit |
+---------------------------------------------------------------+
mysql> SELECT gen_dictionary(ELT(gen_range(1,2), 'DE_Cities', 'US_Cities'));
+---------------------------------------------------------------+
| gen_dictionary(ELT(gen_range(1,2), 'DE_Cities', 'US_Cities')) |
+---------------------------------------------------------------+
| Bremen |
+---------------------------------------------------------------+
The gen_blocklist() function
enables a term from one dictionary to be replaced by a term
from another dictionary, which effects masking by
substitution. Its arguments are the term to replace, the
dictionary in which the term appears, and the dictionary from
which to choose a replacement. For example, to substitute a US
city for a German city, or vice versa, use
gen_blocklist() like this:
mysql> SELECT gen_blocklist('Munich', 'DE_Cities', 'US_Cities');
+---------------------------------------------------+
| gen_blocklist('Munich', 'DE_Cities', 'US_Cities') |
+---------------------------------------------------+
| Houston |
+---------------------------------------------------+
mysql> SELECT gen_blocklist('El Paso', 'US_Cities', 'DE_Cities');
+----------------------------------------------------+
| gen_blocklist('El Paso', 'US_Cities', 'DE_Cities') |
+----------------------------------------------------+
| Bremen |
+----------------------------------------------------+
If the term to replace is not in the first dictionary,
gen_blocklist() returns it
unchanged:
mysql> SELECT gen_blocklist('Moscow', 'DE_Cities', 'US_Cities');
+---------------------------------------------------+
| gen_blocklist('Moscow', 'DE_Cities', 'US_Cities') |
+---------------------------------------------------+
| Moscow |
+---------------------------------------------------+
At customer-service call centers, one common identity
verification technique is to ask customers to provide their
last four Social Security Number (SSN) digits. For example, a
customer might say her name is Joanna Bond and that her last
four SSN digits are 0007.
Suppose that a customer table containing
customer records has these columns:
id: Customer ID number.first_name: Customer first name.last_name: Customer last name.ssn: Customer Social Security Number.
For example, the table might be defined as follows:
CREATE TABLE customer
(
id BIGINT NOT NULL AUTO_INCREMENT PRIMARY KEY,
first_name VARCHAR(40),
last_name VARCHAR(40),
ssn VARCHAR(11)
);The application used by customer-service representatives to check the customer SSN might execute a query like this:
mysql> SELECT id, ssn
mysql> FROM customer
mysql> WHERE first_name = 'Joanna' AND last_name = 'Bond';
+-----+-------------+
| id | ssn |
+-----+-------------+
| 786 | 906-39-0007 |
+-----+-------------+However, that exposes the SSN to the customer-service representative, who has no need to see anything but the last four digits. Instead, the application can use this query to display only the masked SSN:
mysql> SELECT id, mask_ssn(CONVERT(ssn USING binary)) AS masked_ssn
mysql> FROM customer
mysql> WHERE first_name = 'Joanna' AND last_name = 'Bond';
+-----+-------------+
| id | masked_ssn |
+-----+-------------+
| 786 | ***-**-0007 |
+-----+-------------+Now the representative sees only what is necessary, and customer privacy is preserved.
Why was the CONVERT() function
used for the argument to
mask_ssn()? Because
mask_ssn() requires an argument
of length 11. Thus, even though ssn is
defined as VARCHAR(11), if the
ssn column has a multibyte character set,
it may appear to be longer than 11 bytes when passed to a
loadable function, and returns NULL while
logging the error. Converting the value to a binary string
ensures that the function sees an argument of length 11.
A similar technique may be needed for other data masking functions when string arguments do not have a single-byte character set.
If masked data from a table is used for multiple queries, it may be convenient to define a view that produces masked data. That way, applications can select from the view without performing masking in individual queries.
For example, a masking view on the customer
table from the previous section can be defined like this:
CREATE VIEW masked_customer AS
SELECT id, first_name, last_name,
mask_ssn(CONVERT(ssn USING binary)) AS masked_ssn
FROM customer;Then the query to look up a customer becomes simpler but still returns masked data:
mysql> SELECT id, masked_ssn
mysql> FROM masked_customer
mysql> WHERE first_name = 'Joanna' AND last_name = 'Bond';
+-----+-------------+
| id | masked_ssn |
+-----+-------------+
| 786 | ***-**-0007 |
+-----+-------------+