Encrypts plaintext of up to 4,096 bytes using a KMS key. You can use a symmetric or asymmetric KMS key with a KeyUsage
of ENCRYPT_DECRYPT
.
You can use this operation to encrypt small amounts of arbitrary data, such as a personal identifier or database password, or other sensitive information. You don’t need to use the Encrypt
operation to encrypt a data key. The GenerateDataKey and GenerateDataKeyPair operations return a plaintext data key and an encrypted copy of that data key.
If you use a symmetric encryption KMS key, you can use an encryption context to add additional security to your encryption operation. If you specify an EncryptionContext
when encrypting data, you must specify the same encryption context (a case-sensitive exact match) when decrypting the data. Otherwise, the request to decrypt fails with an InvalidCiphertextException
. For more information, see Encryption Context in the Key Management Service Developer Guide .
If you specify an asymmetric KMS key, you must also specify the encryption algorithm. The algorithm must be compatible with the KMS key type.
Warning
When you use an asymmetric KMS key to encrypt or reencrypt data, be sure to record the KMS key and encryption algorithm that you choose. You will be required to provide the same KMS key and encryption algorithm when you decrypt the data. If the KMS key and algorithm do not match the values used to encrypt the data, the decrypt operation fails.
You are not required to supply the key ID and encryption algorithm when you decrypt with symmetric encryption KMS keys because KMS stores this information in the ciphertext blob. KMS cannot store metadata in ciphertext generated with asymmetric keys. The standard format for asymmetric key ciphertext does not include configurable fields.
The maximum size of the data that you can encrypt varies with the type of KMS key and the encryption algorithm that you choose.
Symmetric encryption KMS keys
SYMMETRIC_DEFAULT
: 4096 bytes
RSA_2048
RSAES_OAEP_SHA_1
: 214 bytes
RSAES_OAEP_SHA_256
: 190 bytes
RSA_3072
RSAES_OAEP_SHA_1
: 342 bytes
RSAES_OAEP_SHA_256
: 318 bytes
RSA_4096
RSAES_OAEP_SHA_1
: 470 bytes
RSAES_OAEP_SHA_256
: 446 bytes
The KMS key that you use for this operation must be in a compatible key state. For details, see Key states of KMS keys in the Key Management Service Developer Guide .
Cross-account use : Yes. To perform this operation with a KMS key in a different Amazon Web Services account, specify the key ARN or alias ARN in the value of the
KeyId
parameter.Required permissions : kms:Encrypt (key policy)
Related operations:
Decrypt
GenerateDataKey
GenerateDataKeyPair
See also: AWS API Documentation
See ‘aws help’ for descriptions of global parameters.
encrypt
--key-id <value>
--plaintext <value>
[--encryption-context <value>]
[--grant-tokens <value>]
[--encryption-algorithm <value>]
[--cli-input-json | --cli-input-yaml]
[--generate-cli-skeleton <value>]
--key-id
(string)
Identifies the KMS key to use in the encryption operation. The KMS key must have a
KeyUsage
ofENCRYPT_DECRYPT
. To find theKeyUsage
of a KMS key, use the DescribeKey operation.To specify a KMS key, use its key ID, key ARN, alias name, or alias ARN. When using an alias name, prefix it with
"alias/"
. To specify a KMS key in a different Amazon Web Services account, you must use the key ARN or alias ARN.For example:
Key ID:
1234abcd-12ab-34cd-56ef-1234567890ab
Key ARN:
arn:aws:kms:us-east-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab
Alias name:
alias/ExampleAlias
Alias ARN:
arn:aws:kms:us-east-2:111122223333:alias/ExampleAlias
To get the key ID and key ARN for a KMS key, use ListKeys or DescribeKey . To get the alias name and alias ARN, use ListAliases .
--plaintext
(blob)
Data to be encrypted.
--encryption-context
(map)
Specifies the encryption context that will be used to encrypt the data. An encryption context is valid only for cryptographic operations with a symmetric encryption KMS key. The standard asymmetric encryption algorithms and HMAC algorithms that KMS uses do not support an encryption context.
An encryption context is a collection of non-secret key-value pairs that represent additional authenticated data. When you use an encryption context to encrypt data, you must specify the same (an exact case-sensitive match) encryption context to decrypt the data. An encryption context is supported only on operations with symmetric encryption KMS keys. On operations with symmetric encryption KMS keys, an encryption context is optional, but it is strongly recommended.
For more information, see Encryption context in the Key Management Service Developer Guide .
key -> (string)
value -> (string)
Shorthand Syntax:
KeyName1=string,KeyName2=string
JSON Syntax:
{"string": "string"
...}
--grant-tokens
(list)
A list of grant tokens.
Use a grant token when your permission to call this operation comes from a new grant that has not yet achieved eventual consistency . For more information, see Grant token and Using a grant token in the Key Management Service Developer Guide .
(string)
Syntax:
"string" "string" ...
--encryption-algorithm
(string)
Specifies the encryption algorithm that KMS will use to encrypt the plaintext message. The algorithm must be compatible with the KMS key that you specify.
This parameter is required only for asymmetric KMS keys. The default value,
SYMMETRIC_DEFAULT
, is the algorithm used for symmetric encryption KMS keys. If you are using an asymmetric KMS key, we recommend RSAES_OAEP_SHA_256.Possible values:
SYMMETRIC_DEFAULT
RSAES_OAEP_SHA_1
RSAES_OAEP_SHA_256
--cli-input-json
| --cli-input-yaml
(string)
Reads arguments from the JSON string provided. The JSON string follows the format provided by --generate-cli-skeleton
. If other arguments are provided on the command line, those values will override the JSON-provided values. It is not possible to pass arbitrary binary values using a JSON-provided value as the string will be taken literally. This may not be specified along with --cli-input-yaml
.
--generate-cli-skeleton
(string)
Prints a JSON skeleton to standard output without sending an API request. If provided with no value or the value input
, prints a sample input JSON that can be used as an argument for --cli-input-json
. Similarly, if provided yaml-input
it will print a sample input YAML that can be used with --cli-input-yaml
. If provided with the value output
, it validates the command inputs and returns a sample output JSON for that command.
See ‘aws help’ for descriptions of global parameters.
Example 1: To encrypt the contents of a file on Linux or MacOS
The following encrypt
command demonstrates the recommended way to encrypt data with the AWS CLI.
aws kms encrypt \
--key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
--plaintext fileb://ExamplePlaintextFile \
--output text \
--query CiphertextBlob | base64 \
--decode > ExampleEncryptedFile
The command does several things:
Uses the fileb://
prefix to specify the --plaintext
parameter.
The
fileb://
prefix instructs the CLI to read the data to encrypt, called the plaintext, from a file and pass the file’s contents to the command’s--plaintext
parameter. If the file is not in the current directory, type the full path to file. For example:fileb:///var/tmp/ExamplePlaintextFile
orfileb://C:\Temp\ExamplePlaintextFile
.For more information about reading AWS CLI parameter values from a file, see Loading Parameters from a File in the AWS Command Line Interface User Guide and Best Practices for Local File Parameters on the AWS Command Line Tool Blog
Uses the --output
and --query
parameters to control the command’s output.
These parameters extract the encrypted data, called the ciphertext, from the command’s output.
For more information about controlling output, see Controlling Command Output in the AWS Command Line Interface User Guide.
Uses the base64
utility to decode the extracted output.
This utility decodes the extracted ciphertext to binary data. The ciphertext that is returned by a successful
encrypt
command is base64-encoded text. You must decode this text before you can use the AWS CLI to decrypt it.
Saves the binary ciphertext to a file.
The final part of the command (
> ExampleEncryptedFile
) saves the binary ciphertext to a file to make decryption easier. For an example command that uses the AWS CLI to decrypt data, see the decrypt examples.
Example 2: Using the AWS CLI to encrypt data on Windows
The preceding example assumes the base64
utility is available, which is commonly the case on Linux and MacOS. For the Windows command prompt, use certutil
instead of base64
. This requires two commands, as shown in the following examples.
aws kms encrypt \
--key-id 1234abcd-12ab-34cd-56ef-1234567890ab \
--plaintext fileb://ExamplePlaintextFile \
--output text \
--query CiphertextBlob > C:\Temp\ExampleEncryptedFile.base64
certutil -decode C:\Temp\ExampleEncryptedFile.base64 C:\Temp\ExampleEncryptedFile
CiphertextBlob -> (blob)
The encrypted plaintext. When you use the HTTP API or the Amazon Web Services CLI, the value is Base64-encoded. Otherwise, it is not Base64-encoded.
KeyId -> (string)
The Amazon Resource Name (key ARN ) of the KMS key that was used to encrypt the plaintext.
EncryptionAlgorithm -> (string)
The encryption algorithm that was used to encrypt the plaintext.