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34 DBMS_CRYPTO

DBMS_CRYPTO provides an interface to encrypt and decrypt stored data, and can be used in conjunction with PL/SQL programs running network communications. It provides support for several industry-standard encryption and hashing algorithms, including the Advanced Encryption Standard (AES) encryption algorithm. AES has been approved by the National Institute of Standards and Technology (NIST) to replace the Data Encryption Standard (DES).

See Also:

Oracle Database Security Guide for further information about using this package and about encrypting data in general.

This chapter contains the following topics:


Using the DBMS_CRYPTO Subprograms


Overview

DBMS_CRYPTO contains basic cryptographic functions and procedures. To use this package correctly and securely, a general level of security expertise is assumed.

The DBMS_CRYPTO package enables encryption and decryption for common Oracle datatypes, including RAW and large objects (LOBs), such as images and sound. Specifically, it supports BLOBs and CLOBs. In addition, it provides Globalization Support for encrypting data across different database character sets.

The following cryptographic algorithms are supported:

Block cipher modifiers are also provided with DBMS_CRYPTO. You can choose from several padding options, including PKCS (Public Key Cryptographic Standard) #5, and from four block cipher chaining modes, including Cipher Block Chaining (CBC).

Table 34-1 lists the DBMS_CRYPTO package features in comparison to the other PL/SQL encryption package, the DBMS_OBFUSCATION_TOOLKIT.

Table 34-1 DBMS_CRYPTO and DBMS_OBFUSCATION_TOOLKIT Feature Comparison

Package Feature DBMS_CRYPTO DBMS_OBFUSCATION_TOOLKIT

Cryptographic algorithms

DES, 3DES, AES, RC4, 3DES_2KEY

DES, 3DES

Padding forms

PKCS5, zeroes

none supported

Block cipher chaining modes

CBC, CFB, ECB, OFB

CBC

Cryptographic hash algorithms

MD5, SHA-1, MD4

MD5

Keyed hash (MAC) algorithms

HMAC_MD5, HMAC_SH1

none supported

Cryptographic pseudo-random number generator

RAW, NUMBER, BINARY_INTEGER

RAW, VARCHAR2

Database types

RAW, CLOB, BLOB

RAW, VARCHAR2


DBMS_CRYPTO is intended to replace the DBMS_OBFUSCATION_TOOLKIT, providing greater ease of use and support for a range of algorithms to accommodate new and existing systems. Specifically, 3DES_2KEY and MD4 are provided for backward compatibility. It is not recommended that you use these algorithms because they do not provide the same level of security as provided by 3DES, AES, MD5, or SHA-1.


Security Model

Oracle Database installs this package in the SYS schema. You can then grant package access to existing users and roles as needed.


Types

Parameters for the DBMS_CRYPTO subprograms use these datatypes:

Table 34-2 DBMS_CRYPTO Datatypes

Type Description

BLOB

A source or destination binary LOB

CLOB

A source or destination character LOB (excluding NCLOB)

PLS_INTEGER

Specifies a cryptographic algorithm type (used with BLOB, CLOB, and RAW datatypes)

RAW

A source or destination RAW buffer



Algorithms

The following cryptographic algorithms, modifiers, and cipher suites are predefined in this package.

Table 34-3 DBMS_CRYPTO Cryptographic Hash Functions

Name Description

HASH_MD4

Produces a 128-bit hash, or message digest of the input message

HASH_MD5

Also produces a 128-bit hash, but is more complex than MD4

HASH_SH1

Secure Hash Algorithm (SHA). Produces a 160-bit hash.


Table 34-4 DBMS_CRYPTO MAC (Message Authentication Code) Functions

Name Description

HMAC_MD5Foot 1 

Same as MD5 hash function, except it requires a secret key to verify the hash value.

HMAC_SH1Footref 1

Same as SHA hash function, except it requires a secret key to verify the hash value.


Footnote 1 Complies with IETF RFC 2104 standard

Table 34-5 DBMS_CRYPTO Encryption Algorithms

Name Description

ENCRYPT_DES

Data Encryption Standard. Block cipher. Uses key length of 56 bits.

ENCRYPT_3DES_2KEY

Data Encryption Standard. Block cipher. Operates on a block 3 times with 2 keys. Effective key length of 112 bits.

ENCRYPT_3DES

Data Encryption Standard. Block cipher. Operates on a block 3 times.

ENCRYPT_AES128

Advanced Encryption Standard. Block cipher. Uses 128-bit key size.

ENCRYPT_AES192

Advanced Encryption Standard. Block cipher. Uses 192-bit key size.

ENCRYPT_AES256

Advanced Encryption Standard. Block cipher. Uses 256-bit key size.

ENCRYPT_RC4

Stream cipher. Uses a secret, randomly generated key unique to each session.


Table 34-6 DBMS_CRYPTO Block Cipher Suites

Name Description

DES_CBC_PKCS5

ENCRYPT_DESFoot 1  + CHAIN_CBCFoot 2 + PAD_PKCS5Foot 3 

DES3_CBC_PKCS5

ENCRYPT_3DESFootref 1 + CHAIN_CBCFootref 2 + PAD_PKCS5Footref 3


Footnote 1 See Table 34-5, "DBMS_CRYPTO Encryption Algorithms"

Footnote 2 See Table 34-7, "DBMS_CRYPTO Block Cipher Chaining Modifiers"

Footnote 3 See Table 34-8, "DBMS_CRYPTO Block Cipher Padding Modifiers"

Table 34-7 DBMS_CRYPTO Block Cipher Chaining Modifiers

Name Description

CHAIN_ECB

Electronic Codebook. Encrypts each plaintext block independently.

CHAIN_CBC

Cipher Block Chaining. Plaintext is XORed with the previous ciphertext block before it is encrypted.

CHAIN_CFB

Cipher-Feedback. Enables encrypting units of data smaller than the block size.

CHAIN_OFB

Output-Feedback. Enables running a block cipher as a synchronous stream cipher. Similar to CFB, except that n bits of the previous output block are moved into the right-most positions of the data queue waiting to be encrypted.


Table 34-8 DBMS_CRYPTO Block Cipher Padding Modifiers

Name Description

PAD_PKCS5

Provides padding which complies with the PKCS #5: Password-Based Cryptography Standard

PAD_NONE

Provides option to specify no padding. Caller must ensure that blocksize is correct, else the package returns an error.

PAD_ZERO

Provides padding consisting of zeroes.



Restrictions

The VARCHAR2 datatype is not directly supported by DBMS_CRYPTO. Before you can perform cryptographic operations on data of the type VARCHAR2, you must convert it to the uniform database character set AL32UTF8, and then convert it to the RAW datatype. After performing these conversions, you can then encrypt it with the DBMS_CRYPTO package.

See Also:

"Conversion Rules" for information about converting datatypes.

Exceptions

Table 34-9 lists exceptions that have been defined for DBMS_CRYPTO.

Table 34-9 DBMS_CRYPTO Exceptions

Exception Code Description

CipherSuiteInvalid

28827

The specified cipher suite is not defined.

CipherSuiteNull

28829

No value has been specified for the cipher suite to be used.

KeyNull

28239

The encryption key has not been specified or contains a NULL value.

KeyBadSize

28234

DES keys: Specified key size is too short. DES keys must be at least 8 bytes (64 bits).

AES keys: Specified key size is not supported. AES keys must be 128, 192, or 256 bits in length.

DoubleEncryption

28233

Source data was previously encrypted.



Operational Notes

When to Use Encrypt and Decrypt Procedures or Functions

This package includes both ENCRYPT and DECRYPT procedures and functions. The procedures are used to encrypt or decrypt LOB datatypes (overloaded for CLOB and BLOB datatypes). In contrast, the ENCRYPT and DECRYPT functions are used to encrypt and decrypt RAW datatypes. Data of type VARCHAR2 must be converted to RAW before you can use DBMS_CRYPTO functions to encrypt it.

When to Use Hash or Message Authentication Code (MAC) Functions

This package includes two different types of one-way hash functions: the HASH function and the MAC function. Hash functions operate on an arbitrary-length input message, and return a fixed-length hash value. One-way hash functions work in one direction only. It is easy to compute a hash value from an input message, but it is extremely difficult to generate an input message that hashes to a particular value. Note that hash values should be at least 128 bits in length to be considered secure.

You can use hash values to verify whether data has been altered. For example, before storing data, Laurel runs DBMS_CRYPTO.HASH against the stored data to create a hash value. When she retrieves the stored data at a later date, she can again run the hash function against it, using the same algorithm. If the second hash value is identical to the first one, then the data has not been altered. Hash values are similar to "file fingerprints" and are used to ensure data integrity.

The HASH function included with DBMS_CRYPTO, is a one-way hash function that you can use to generate a hash value from either RAW or LOB data. The MAC function is also a one-way hash function, but with the addition of a secret key. It works the same way as the DBMS_CRYPTO.HASH function, except only someone with the key can verify the hash value.

MACs can be used to authenticate files between users. They can also be used by a single user to determine if her files have been altered, perhaps by a virus. A user could compute the MAC of his files and store that value in a table. If the user did not use a MAC function, then the virus could compute the new hash value after infection and replace the table entry. A virus cannot do that with a MAC because the virus does not know the key.

About Generating and Storing Encryption Keys

The DBMS_CRYPTO package can generate random material for encryption keys, but it does not provide a mechanism for maintaining them. Application developers must take care to ensure that the encryption keys used with this package are securely generated and stored. Also note that the encryption and decryption operations performed by DBMS_CRYPTO occur on the server, not on the client. Consequently, if the key is sent over the connection between the client and the server, the connection must be protected by using network encryption. Otherwise, the key is vulnerable to capture over the wire.

Although DBMS_CRYPTO cannot generate keys on its own, it does provide tools you can use to aid in key generation. For example, you can use the RANDOMBYTES function to generate random material for keys. (Calls to the RANDOMBYTES function behave like calls to the DESGETKEY and DES3GETKEY functions of the DBMS_OBFUSCATION_TOOLKIT package.)

When generating encryption keys for DES, it is important to remember that some numbers are considered weak and semiweak keys. Keys are considered weak or semiweak when the pattern of the algorithm combines with the pattern of the initial key value to produce ciphertext that is more susceptible to cryptanalysis. To avoid this, filter out the known weak DES keys. Lists of the known weak and semiweak DES keys are available on several public Internet sites.

See Also:

Conversion Rules


Examples

The following listing shows PL/SQL block encrypting and decrypting pre-defined 'input_string' using 256-bit AES algorithm with Cipher Block Chaining and PKCS#5 compliant padding.

DECLARE
   input_string       VARCHAR2 (200) :=  'Secret Message';
   output_string      VARCHAR2 (200);
   encrypted_raw      RAW (2000);             -- stores encrypted binary text
   decrypted_raw      RAW (2000);             -- stores decrypted binary text
   num_key_bytes      NUMBER := 256/8;        -- key length 256 bits (32 bytes)
   key_bytes_raw      RAW (32);               -- stores 256-bit encryption key
   encryption_type    PLS_INTEGER :=          -- total encryption type
                            DBMS_CRYPTO.ENCRYPT_AES256
                          + DBMS_CRYPTO.CHAIN_CBC
                          + DBMS_CRYPTO.PAD_PKCS5;
BEGIN
   DBMS_OUTPUT.PUT_LINE ( 'Original string: ' || input_string);
   key_bytes_raw := DBMS_CRYPTO.RANDOMBYTES (num_key_bytes);
   encrypted_raw := DBMS_CRYPTO.ENCRYPT
      (
         src => UTL_I18N.STRING_TO_RAW (input_string,  'AL32UTF8'),
         typ => encryption_type,
         key => key_bytes_raw
      );
    -- The encrypted value "encrypted_raw" can be used here
 
   decrypted_raw := DBMS_CRYPTO.DECRYPT
      (
         src => encrypted_raw,
         typ => encryption_type,
         key => key_bytes_raw
      );
   output_string := UTL_I18N.RAW_TO_CHAR (decrypted_raw, 'AL32UTF8');
 
   DBMS_OUTPUT.PUT_LINE ('Decrypted string: ' || output_string);
END;

Summary of DBMS_CRYPTO Subprograms

Table 34-10 DBMS_CRYPTO Package Subprograms

Subprogram Description

DECRYPT Function

Decrypts RAW data using a stream or block cipher with a user supplied key and optional IV (initialization vector)

DECRYPT Procedures

Decrypts LOB data using a stream or block cipher with a user supplied key and optional IV

ENCRYPT Function

Encrypts RAW data using a stream or block cipher with a user supplied key and optional IV

ENCRYPT Procedures

Encrypts LOB data using a stream or block cipher with a user supplied key and optional IV

HASH Function

Applies one of the supported cryptographic hash algorithms (MD4, MD5, or SHA-1) to data

MAC Function

Applies Message Authentication Code algorithms (MD5 or SHA-1) to data to provide keyed message protection

RANDOMBYTES Function

Returns a RAW value containing a cryptographically secure pseudo-random sequence of bytes, and can be used to generate random material for encryption keys

RANDOMINTEGER Function

Returns a random BINARY_INTEGER

RANDOMNUMBER Function

Returns a random 128-bit integer of the NUMBER datatype



DECRYPT Function

This function decrypts RAW data using a stream or block cipher with a user supplied key and optional IV (initialization vector).

Syntax

DBMS_CRYPTO.DECRYPT(
   src IN RAW,
   typ IN PLS_INTEGER,
   key IN RAW,
   iv  IN RAW DEFAULT NULL)
 RETURN RAW;

Pragmas

pragma restrict_references(decrypt,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-11 DECRYPT Function Parameters

Parameter Name Description

src

RAW data to be decrypted.

typ

Stream or block cipher type and modifiers to be used.

key

Key to be used for decryption.

iv

Optional initialization vector for block ciphers. Default is NULL.


Usage Notes


DECRYPT Procedures

These procedures decrypt LOB data using a stream or block cipher with a user supplied key and optional IV (initialization vector).

Syntax

DBMS_CRYPTO.DECRYPT(
   dst IN OUT NOCOPY BLOB,
   src IN            BLOB,
   typ IN            PLS_INTEGER,
   key IN            RAW,
   iv  IN            RAW          DEFAULT NULL);

DBMS_CRYPT.DECRYPT(
   dst IN OUT NOCOPY CLOB         CHARACTER SET ANY_CS,
   src IN            BLOB,
   typ IN            PLS_INTEGER,
   key IN            RAW,
   iv  IN            RAW          DEFAULT NULL);

Pragmas

pragma restrict_references(decrypt,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-12 DECRYPT Procedure Parameters

Parameter Name Description

dst

LOB locator of output data. The value in the output LOB <dst> will be overwritten.

src

LOB locator of input data.

typ

Stream or block cipher type and modifiers to be used.

key

Key to be used for decryption.

iv

Optional initialization vector for block ciphers. Default is all zeroes.



ENCRYPT Function

This function encrypts RAW data using a stream or block cipher with a user supplied key and optional IV (initialization vector).

Syntax

DBMS_CRYPTO.ENCRYPT(
   src IN RAW,
   typ IN PLS_INTEGER,
   key IN RAW,
   iv  IN RAW          DEFAULT NULL)
 RETURN RAW;

Pragmas

pragma restrict_references(encrypt,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-13 ENCRYPT Function Parameters

Parameter Name Description

src

RAW data to be encrypted.

typ

Stream or block cipher type and modifiers to be used.

key

Encryption key to be used for encrypting data.

iv

Optional initialization vector for block ciphers. Default is NULL.


Usage Notes


ENCRYPT Procedures

These procedures encrypt LOB data using a stream or block cipher with a user supplied key and optional IV (initialization vector).

Syntax

DBMS_CRYPTO.ENCRYPT(
   dst IN OUT NOCOPY BLOB,
   src IN            BLOB,
   typ IN            PLS_INTEGER,
   key IN            RAW,
   iv  IN            RAW          DEFAULT NULL);

DBMS_CRYPTO.ENCRYPT(
   dst IN OUT NOCOPY BLOB,
   src IN            CLOB         CHARACTER SET ANY_CS,
   typ IN            PLS_INTEGER,
   key IN            RAW,
   iv  IN            RAW          DEFAULT NULL);

Pragmas

pragma restrict_references(encrypt,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-14 ENCRYPT Procedure Parameters

Parameter Name Description

dst

LOB locator of output data. The value in the output LOB <dst> will be overwritten.

src

LOB locator of input data.

typ

Stream or block cipher type and modifiers to be used.

key

Encryption key to be used for encrypting data.

iv

Optional initialization vector for block ciphers. Default is NULL.


Usage Notes

See "Conversion Rules" for usage notes about using the ENCRYPT procedure.


HASH Function

A one-way hash function takes a variable-length input string, the data, and converts it to a fixed-length (generally smaller) output string called a hash value. The hash value serves as a unique identifier (like a fingerprint) of the input data. You can use the hash value to verify whether data has been changed or not.

Note that a one-way hash function is a hash function that works in one direction. It is easy to compute a hash value from the input data, but it is hard to generate data that hashes to a particular value. Consequently, one-way hash functions work well to ensure data integrity. Refer to "When to Use Hash or Message Authentication Code (MAC) Functions" for more information about using one-way hash functions.

This function applies to data one of the supported cryptographic hash algorithms listed in Table 34-3.

Syntax

DBMS_CRYPTO.Hash (
   src IN RAW,
   typ IN PLS_INTEGER)
 RETURN RAW;

DBMS_CRYPTO.Hash (
   src IN BLOB,
   typ IN PLS_INTEGER)
 RETURN RAW;

DBMS_CRYPTO.Hash (
   src IN CLOB CHARACTER SET ANY_CS,
   typ IN PLS_INTEGER)
 RETURN RAW;

Pragmas

pragma restrict_references(hash,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-15 HASH Function Parameters

Parameter Name Description

src

The source data to be hashed.

typ

The hash algorithm to be used.


Usage Note

Oracle recommends that you use the SHA-1 (Secure Hash Algorithm), specified with the constant, HASH_SH1, because it is more resistant to brute-force attacks than MD4 or MD5. If you must use a Message Digest algorithm, then MD5 provides greater security than MD4.


MAC Function

A Message Authentication Code, or MAC, is a key-dependent one-way hash function. MACs have the same properties as the one-way hash function described in "HASH Function", but they also include a key. Only someone with the identical key can verify the hash. Also refer to "When to Use Hash or Message Authentication Code (MAC) Functions" for more information about using MACs.

This function applies MAC algorithms to data to provide keyed message protection. See Table 34-4 for a list of MAC algorithms that have been defined for this package.

Syntax

DBMS_CRYPTO.MAC (
   src IN RAW,
   typ IN PLS_INTEGER,
   key IN RAW)
 RETURN RAW;

DBMS_CRYPTO.MAC (
   src IN BLOB,
   typ IN PLS_INTEGER
   key IN RAW)
 RETURN RAW;

DBMS_CRYPTO.MAC (
   src IN CLOB CHARACTER SET ANY_CS,
   typ IN PLS_INTEGER
   key IN RAW)
 RETURN RAW;

Pragmas

pragma restrict_references(mac,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-16 MAC Function Parameters

Parameter Name Description

src

Source data to which MAC algorithms are to be applied.

typ

MAC algorithm to be used.

key

Key to be used for MAC algorithm.



RANDOMBYTES Function

This function returns a RAW value containing a cryptographically secure pseudo-random sequence of bytes, which can be used to generate random material for encryption keys. The RANDOMBYTES function is based on the RSA X9.31 PRNG (Pseudo-Random Number Generator), and it draws its entropy (seed) from the sqlnet.ora file parameter SQLNET.CRYPTO_SEED.

Syntax

DBMS_CRYPTO.RANDOMBYTES (
   number_bytes IN POSITIVE)
 RETURN RAW;

Pragmas

pragma restrict_references(randombytes,WNDS,RNDS,WNPS,RNPS);

Parameters

Table 34-17 RANDOMBYTES Function Parameter

Parameter Name Description

number_bytes

The number of pseudo-random bytes to be generated.


Usage Note


RANDOMINTEGER Function

This function returns an integer in the complete range available for the Oracle BINARY_INTEGER datatype.

Syntax

DBMS_CRYPTO.RANDOMINTEGER
 RETURN BINARY_INTEGER;

Pragmas

pragma restrict_references(randominteger,WNDS,RNDS,WNPS,RNPS);

RANDOMNUMBER Function

This function returns an integer in the Oracle NUMBER datatype in the range of [0..2**128-1].

Syntax

DBMS_CRYPTO.RANDOMNUMBER
 RETURN NUMBER;

Pragmas

pragma restrict_references(randomnumber,WNDS,RNDS,WNPS,RNPS);