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403 lines
14 KiB
Markdown
403 lines
14 KiB
Markdown
---
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slug: /en/sql-reference/functions/encryption-functions
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sidebar_position: 70
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sidebar_label: Encryption
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---
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These functions implement encryption and decryption of data with AES (Advanced Encryption Standard) algorithm.
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Key length depends on encryption mode. It is 16, 24, and 32 bytes long for `-128-`, `-196-`, and `-256-` modes respectively.
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Initialization vector length is always 16 bytes (bytes in excess of 16 are ignored).
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Note that these functions work slowly until ClickHouse 21.1.
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## encrypt
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This function encrypts data using these modes:
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- aes-128-ecb, aes-192-ecb, aes-256-ecb
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- aes-128-cbc, aes-192-cbc, aes-256-cbc
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- aes-128-ofb, aes-192-ofb, aes-256-ofb
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- aes-128-gcm, aes-192-gcm, aes-256-gcm
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- aes-128-ctr, aes-192-ctr, aes-256-ctr
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**Syntax**
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``` sql
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encrypt('mode', 'plaintext', 'key' [, iv, aad])
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```
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**Arguments**
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- `mode` — Encryption mode. [String](../data-types/string.md#string).
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- `plaintext` — Text that need to be encrypted. [String](../data-types/string.md#string).
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- `key` — Encryption key. [String](../data-types/string.md#string).
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- `iv` — Initialization vector. Required for `-gcm` modes, optional for others. [String](../data-types/string.md#string).
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- `aad` — Additional authenticated data. It isn't encrypted, but it affects decryption. Works only in `-gcm` modes, for others would throw an exception. [String](../data-types/string.md#string).
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**Returned value**
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- Ciphertext binary string. [String](../data-types/string.md#string).
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**Examples**
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Create this table:
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Query:
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``` sql
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CREATE TABLE encryption_test
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(
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`comment` String,
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`secret` String
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)
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ENGINE = Memory;
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```
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Insert some data (please avoid storing the keys/ivs in the database as this undermines the whole concept of encryption), also storing 'hints' is unsafe too and used only for illustrative purposes:
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Query:
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``` sql
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INSERT INTO encryption_test VALUES('aes-256-ofb no IV', encrypt('aes-256-ofb', 'Secret', '12345678910121314151617181920212')),\
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('aes-256-ofb no IV, different key', encrypt('aes-256-ofb', 'Secret', 'keykeykeykeykeykeykeykeykeykeyke')),\
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('aes-256-ofb with IV', encrypt('aes-256-ofb', 'Secret', '12345678910121314151617181920212', 'iviviviviviviviv')),\
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('aes-256-cbc no IV', encrypt('aes-256-cbc', 'Secret', '12345678910121314151617181920212'));
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```
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Query:
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``` sql
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SELECT comment, hex(secret) FROM encryption_test;
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```
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Result:
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``` text
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┌─comment──────────────────────────┬─hex(secret)──────────────────────┐
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│ aes-256-ofb no IV │ B4972BDC4459 │
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│ aes-256-ofb no IV, different key │ 2FF57C092DC9 │
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│ aes-256-ofb with IV │ 5E6CB398F653 │
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│ aes-256-cbc no IV │ 1BC0629A92450D9E73A00E7D02CF4142 │
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└──────────────────────────────────┴──────────────────────────────────┘
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```
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Example with `-gcm`:
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Query:
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``` sql
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INSERT INTO encryption_test VALUES('aes-256-gcm', encrypt('aes-256-gcm', 'Secret', '12345678910121314151617181920212', 'iviviviviviviviv')), \
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('aes-256-gcm with AAD', encrypt('aes-256-gcm', 'Secret', '12345678910121314151617181920212', 'iviviviviviviviv', 'aad'));
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SELECT comment, hex(secret) FROM encryption_test WHERE comment LIKE '%gcm%';
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```
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Result:
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``` text
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┌─comment──────────────┬─hex(secret)──────────────────────────────────┐
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│ aes-256-gcm │ A8A3CCBC6426CFEEB60E4EAE03D3E94204C1B09E0254 │
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│ aes-256-gcm with AAD │ A8A3CCBC6426D9A1017A0A932322F1852260A4AD6837 │
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└──────────────────────┴──────────────────────────────────────────────┘
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```
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## aes_encrypt_mysql
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Compatible with mysql encryption and resulting ciphertext can be decrypted with [AES_DECRYPT](https://dev.mysql.com/doc/refman/8.0/en/encryption-functions.html#function_aes-decrypt) function.
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Will produce the same ciphertext as `encrypt` on equal inputs. But when `key` or `iv` are longer than they should normally be, `aes_encrypt_mysql` will stick to what MySQL's `aes_encrypt` does: 'fold' `key` and ignore excess bits of `iv`.
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Supported encryption modes:
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- aes-128-ecb, aes-192-ecb, aes-256-ecb
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- aes-128-cbc, aes-192-cbc, aes-256-cbc
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- aes-128-ofb, aes-192-ofb, aes-256-ofb
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**Syntax**
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``` sql
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aes_encrypt_mysql('mode', 'plaintext', 'key' [, iv])
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```
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**Arguments**
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- `mode` — Encryption mode. [String](../data-types/string.md#string).
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- `plaintext` — Text that needs to be encrypted. [String](../data-types/string.md#string).
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- `key` — Encryption key. If key is longer than required by mode, MySQL-specific key folding is performed. [String](../data-types/string.md#string).
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- `iv` — Initialization vector. Optional, only first 16 bytes are taken into account [String](../data-types/string.md#string).
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**Returned value**
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- Ciphertext binary string. [String](../data-types/string.md#string).
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**Examples**
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Given equal input `encrypt` and `aes_encrypt_mysql` produce the same ciphertext:
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Query:
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``` sql
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SELECT encrypt('aes-256-ofb', 'Secret', '12345678910121314151617181920212', 'iviviviviviviviv') = aes_encrypt_mysql('aes-256-ofb', 'Secret', '12345678910121314151617181920212', 'iviviviviviviviv') AS ciphertexts_equal;
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```
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Result:
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```
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┌─ciphertexts_equal─┐
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│ 1 │
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└───────────────────┘
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```
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But `encrypt` fails when `key` or `iv` is longer than expected:
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Query:
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``` sql
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SELECT encrypt('aes-256-ofb', 'Secret', '123456789101213141516171819202122', 'iviviviviviviviv123');
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```
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Result:
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``` text
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Received exception from server (version 22.6.1):
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Code: 36. DB::Exception: Received from localhost:9000. DB::Exception: Invalid key size: 33 expected 32: While processing encrypt('aes-256-ofb', 'Secret', '123456789101213141516171819202122', 'iviviviviviviviv123').
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```
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While `aes_encrypt_mysql` produces MySQL-compatible output:
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Query:
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``` sql
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SELECT hex(aes_encrypt_mysql('aes-256-ofb', 'Secret', '123456789101213141516171819202122', 'iviviviviviviviv123')) AS ciphertext;
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```
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Result:
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```text
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┌─ciphertext───┐
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│ 24E9E4966469 │
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└──────────────┘
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```
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Notice how supplying even longer `IV` produces the same result
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Query:
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``` sql
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SELECT hex(aes_encrypt_mysql('aes-256-ofb', 'Secret', '123456789101213141516171819202122', 'iviviviviviviviv123456')) AS ciphertext
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```
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Result:
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``` text
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┌─ciphertext───┐
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│ 24E9E4966469 │
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└──────────────┘
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```
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Which is binary equal to what MySQL produces on same inputs:
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``` sql
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mysql> SET block_encryption_mode='aes-256-ofb';
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Query OK, 0 rows affected (0.00 sec)
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mysql> SELECT aes_encrypt('Secret', '123456789101213141516171819202122', 'iviviviviviviviv123456') as ciphertext;
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+------------------------+
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| ciphertext |
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+------------------------+
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| 0x24E9E4966469 |
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+------------------------+
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1 row in set (0.00 sec)
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```
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## decrypt
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This function decrypts ciphertext into a plaintext using these modes:
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- aes-128-ecb, aes-192-ecb, aes-256-ecb
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- aes-128-cbc, aes-192-cbc, aes-256-cbc
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- aes-128-ofb, aes-192-ofb, aes-256-ofb
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- aes-128-gcm, aes-192-gcm, aes-256-gcm
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- aes-128-ctr, aes-192-ctr, aes-256-ctr
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**Syntax**
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``` sql
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decrypt('mode', 'ciphertext', 'key' [, iv, aad])
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```
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**Arguments**
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- `mode` — Decryption mode. [String](../data-types/string.md#string).
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- `ciphertext` — Encrypted text that needs to be decrypted. [String](../data-types/string.md#string).
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- `key` — Decryption key. [String](../data-types/string.md#string).
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- `iv` — Initialization vector. Required for `-gcm` modes, Optional for others. [String](../data-types/string.md#string).
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- `aad` — Additional authenticated data. Won't decrypt if this value is incorrect. Works only in `-gcm` modes, for others would throw an exception. [String](../data-types/string.md#string).
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**Returned value**
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- Decrypted String. [String](../data-types/string.md#string).
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**Examples**
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Re-using table from [encrypt](#encrypt).
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Query:
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``` sql
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SELECT comment, hex(secret) FROM encryption_test;
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```
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Result:
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``` text
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┌─comment──────────────┬─hex(secret)──────────────────────────────────┐
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│ aes-256-gcm │ A8A3CCBC6426CFEEB60E4EAE03D3E94204C1B09E0254 │
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│ aes-256-gcm with AAD │ A8A3CCBC6426D9A1017A0A932322F1852260A4AD6837 │
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└──────────────────────┴──────────────────────────────────────────────┘
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┌─comment──────────────────────────┬─hex(secret)──────────────────────┐
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│ aes-256-ofb no IV │ B4972BDC4459 │
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│ aes-256-ofb no IV, different key │ 2FF57C092DC9 │
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│ aes-256-ofb with IV │ 5E6CB398F653 │
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│ aes-256-cbc no IV │ 1BC0629A92450D9E73A00E7D02CF4142 │
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└──────────────────────────────────┴──────────────────────────────────┘
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```
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Now let's try to decrypt all that data.
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Query:
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``` sql
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SELECT comment, decrypt('aes-256-cfb128', secret, '12345678910121314151617181920212') as plaintext FROM encryption_test
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```
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Result:
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``` text
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┌─comment──────────────┬─plaintext──┐
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│ aes-256-gcm │ OQ<4F>E
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<20>t<EFBFBD>7T<37>\<5C><><EFBFBD>\<5C> │
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│ aes-256-gcm with AAD │ OQ<4F>E
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<20>\<5C><>si<73><69><EFBFBD><EFBFBD>;<3B>o<EFBFBD><6F> │
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└──────────────────────┴────────────┘
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┌─comment──────────────────────────┬─plaintext─┐
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│ aes-256-ofb no IV │ Secret │
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│ aes-256-ofb no IV, different key │ <20>4<EFBFBD>
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<20> │
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│ aes-256-ofb with IV │ <20><><EFBFBD>6<EFBFBD>~ │
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│aes-256-cbc no IV │ <20>2*4<>h3c<33>4w<34><77>@
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└──────────────────────────────────┴───────────┘
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```
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Notice how only a portion of the data was properly decrypted, and the rest is gibberish since either `mode`, `key`, or `iv` were different upon encryption.
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## tryDecrypt
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Similar to `decrypt`, but returns NULL if decryption fails because of using the wrong key.
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**Examples**
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Let's create a table where `user_id` is the unique user id, `encrypted` is an encrypted string field, `iv` is an initial vector for decrypt/encrypt. Assume that users know their id and the key to decrypt the encrypted field:
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```sql
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CREATE TABLE decrypt_null (
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dt DateTime,
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user_id UInt32,
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encrypted String,
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iv String
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) ENGINE = Memory;
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```
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Insert some data:
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```sql
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INSERT INTO decrypt_null VALUES
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('2022-08-02 00:00:00', 1, encrypt('aes-256-gcm', 'value1', 'keykeykeykeykeykeykeykeykeykey01', 'iv1'), 'iv1'),
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('2022-09-02 00:00:00', 2, encrypt('aes-256-gcm', 'value2', 'keykeykeykeykeykeykeykeykeykey02', 'iv2'), 'iv2'),
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('2022-09-02 00:00:01', 3, encrypt('aes-256-gcm', 'value3', 'keykeykeykeykeykeykeykeykeykey03', 'iv3'), 'iv3');
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```
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Query:
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```sql
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SELECT
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dt,
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user_id,
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tryDecrypt('aes-256-gcm', encrypted, 'keykeykeykeykeykeykeykeykeykey02', iv) AS value
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FROM decrypt_null
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ORDER BY user_id ASC
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```
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Result:
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```
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┌──────────────────dt─┬─user_id─┬─value──┐
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│ 2022-08-02 00:00:00 │ 1 │ ᴺᵁᴸᴸ │
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│ 2022-09-02 00:00:00 │ 2 │ value2 │
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│ 2022-09-02 00:00:01 │ 3 │ ᴺᵁᴸᴸ │
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└─────────────────────┴─────────┴────────┘
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```
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## aes_decrypt_mysql
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Compatible with mysql encryption and decrypts data encrypted with [AES_ENCRYPT](https://dev.mysql.com/doc/refman/8.0/en/encryption-functions.html#function_aes-encrypt) function.
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Will produce same plaintext as `decrypt` on equal inputs. But when `key` or `iv` are longer than they should normally be, `aes_decrypt_mysql` will stick to what MySQL's `aes_decrypt` does: 'fold' `key` and ignore excess bits of `IV`.
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Supported decryption modes:
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- aes-128-ecb, aes-192-ecb, aes-256-ecb
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- aes-128-cbc, aes-192-cbc, aes-256-cbc
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- aes-128-cfb128
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- aes-128-ofb, aes-192-ofb, aes-256-ofb
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**Syntax**
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``` sql
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aes_decrypt_mysql('mode', 'ciphertext', 'key' [, iv])
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```
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**Arguments**
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- `mode` — Decryption mode. [String](../data-types/string.md#string).
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- `ciphertext` — Encrypted text that needs to be decrypted. [String](../data-types/string.md#string).
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- `key` — Decryption key. [String](../data-types/string.md#string).
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- `iv` — Initialization vector. Optional. [String](../data-types/string.md#string).
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**Returned value**
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- Decrypted String. [String](../data-types/string.md#string).
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**Examples**
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Let's decrypt data we've previously encrypted with MySQL:
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``` sql
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mysql> SET block_encryption_mode='aes-256-ofb';
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Query OK, 0 rows affected (0.00 sec)
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mysql> SELECT aes_encrypt('Secret', '123456789101213141516171819202122', 'iviviviviviviviv123456') as ciphertext;
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+------------------------+
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| ciphertext |
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+------------------------+
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| 0x24E9E4966469 |
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+------------------------+
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1 row in set (0.00 sec)
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```
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Query:
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``` sql
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SELECT aes_decrypt_mysql('aes-256-ofb', unhex('24E9E4966469'), '123456789101213141516171819202122', 'iviviviviviviviv123456') AS plaintext
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```
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Result:
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``` text
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┌─plaintext─┐
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│ Secret │
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└───────────┘
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```
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