--- layout: api page_title: Transit - Secrets Engines - HTTP API description: This is the API documentation for the Vault Transit secrets engine. --- # Transit Secrets Engine (API) This is the API documentation for the Vault Transit secrets engine. For general information about the usage and operation of the Transit secrets engine, please see the [transit documentation](/docs/secrets/transit). This documentation assumes the transit secrets engine is enabled at the `/transit` path in Vault. Since it is possible to enable secrets engines at any location, please update your API calls accordingly. ## Create Key This endpoint creates a new named encryption key of the specified type. The values set here cannot be changed after key creation. | Method | Path | | :----- | :-------------------- | | `POST` | `/transit/keys/:name` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to create. This is specified as part of the URL. - `convergent_encryption` `(bool: false)` – If enabled, the key will support convergent encryption, where the same plaintext creates the same ciphertext. This requires _derived_ to be set to `true`. When enabled, each encryption(/decryption/rewrap/datakey) operation will derive a `nonce` value rather than randomly generate it. - `derived` `(bool: false)` – Specifies if key derivation is to be used. If enabled, all encrypt/decrypt requests to this named key must provide a context which is used for key derivation. - `exportable` `(bool: false)` - Enables keys to be exportable. This allows for all the valid keys in the key ring to be exported. Once set, this cannot be disabled. - `allow_plaintext_backup` `(bool: false)` - If set, enables taking backup of named key in the plaintext format. Once set, this cannot be disabled. - `type` `(string: "aes256-gcm96")` – Specifies the type of key to create. The currently-supported types are: - `aes128-gcm96` – AES-128 wrapped with GCM using a 96-bit nonce size AEAD (symmetric, supports derivation and convergent encryption) - `aes256-gcm96` – AES-256 wrapped with GCM using a 96-bit nonce size AEAD (symmetric, supports derivation and convergent encryption, default) - `chacha20-poly1305` – ChaCha20-Poly1305 AEAD (symmetric, supports derivation and convergent encryption) - `ed25519` – ED25519 (asymmetric, supports derivation). When using derivation, a sign operation with the same context will derive the same key and signature; this is a signing analogue to `convergent_encryption`. - `ecdsa-p256` – ECDSA using the P-256 elliptic curve (asymmetric) - `ecdsa-p384` – ECDSA using the P-384 elliptic curve (asymmetric) - `ecdsa-p521` – ECDSA using the P-521 elliptic curve (asymmetric) - `rsa-2048` - RSA with bit size of 2048 (asymmetric) - `rsa-3072` - RSA with bit size of 3072 (asymmetric) - `rsa-4096` - RSA with bit size of 4096 (asymmetric) ~> **Note**: In FIPS 140-2 mode, the following algorithms are not certified and thus should not be used: `chacha20-poly1305` and `ed25519`. - `auto_rotate_period` `(duration: "0", optional)` – The period at which this key should be rotated automatically. Setting this to "0" (the default) will disable automatic key rotation. This value cannot be shorter than one hour. Uses [duration format strings](/docs/concepts/duration-format). ### Sample Payload ```json { "type": "ecdsa-p256", "derived": true } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/keys/my-key ``` ## Read Key This endpoint returns information about a named encryption key. The `keys` object shows the creation time of each key version; the values are not the keys themselves. Depending on the type of key, different information may be returned, e.g. an asymmetric key will return its public key in a standard format for the type. | Method | Path | | :----- | :-------------------- | | `GET` | `/transit/keys/:name` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to read. This is specified as part of the URL. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ http://127.0.0.1:8200/v1/transit/keys/my-key ``` ### Sample Response ```json { "data": { "type": "aes256-gcm96", "deletion_allowed": false, "derived": false, "exportable": false, "allow_plaintext_backup": false, "keys": { "1": 1442851412 }, "min_decryption_version": 1, "min_encryption_version": 0, "name": "foo", "supports_encryption": true, "supports_decryption": true, "supports_derivation": true, "supports_signing": false } } ``` The `keys` attribute lists each version of the key, and the time that key was created as seconds since the Unix epoch. The sample response shows a key that was created on September 22, 2015 7:50:12 PM GMT, and has not been rotated. The fields `supports_encryption`, `supports_decryption`, `supports_derivation` and `supports_signing` are derived from the type of the key, and indicate which operations may be performed with it. ## List Keys This endpoint returns a list of keys. Only the key names are returned (not the actual keys themselves). | Method | Path | | :----- | :-------------- | | `LIST` | `/transit/keys` | ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request LIST \ http://127.0.0.1:8200/v1/transit/keys ``` ### Sample Response ```json { "data": { "keys": ["foo", "bar"] }, "lease_duration": 0, "lease_id": "", "renewable": false } ``` ## Delete Key This endpoint deletes a named encryption key. It will no longer be possible to decrypt any data encrypted with the named key. Because this is a potentially catastrophic operation, the `deletion_allowed` tunable must be set in the key's `/config` endpoint. | Method | Path | | :------- | :-------------------- | | `DELETE` | `/transit/keys/:name` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to delete. This is specified as part of the URL. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request DELETE \ http://127.0.0.1:8200/v1/transit/keys/my-key ``` ## Update Key Configuration This endpoint allows tuning configuration values for a given key. (These values are returned during a read operation on the named key.) | Method | Path | | :----- | :--------------------------- | | `POST` | `/transit/keys/:name/config` | ### Parameters - `min_decryption_version` `(int: 0)` – Specifies the minimum version of ciphertext allowed to be decrypted. Adjusting this as part of a key rotation policy can prevent old copies of ciphertext from being decrypted, should they fall into the wrong hands. For signatures, this value controls the minimum version of signature that can be verified against. For HMACs, this controls the minimum version of a key allowed to be used as the key for verification. - `min_encryption_version` `(int: 0)` – Specifies the minimum version of the key that can be used to encrypt plaintext, sign payloads, or generate HMACs. Must be `0` (which will use the latest version) or a value greater or equal to `min_decryption_version`. - `deletion_allowed` `(bool: false)` - Specifies if the key is allowed to be deleted. - `exportable` `(bool: false)` - Enables keys to be exportable. This allows for all the valid keys in the key ring to be exported. Once set, this cannot be disabled. - `allow_plaintext_backup` `(bool: false)` - If set, enables taking backup of named key in the plaintext format. Once set, this cannot be disabled. - `auto_rotate_period` `(duration: "", optional)` – The period at which this key should be rotated automatically. Setting this to "0" will disable automatic key rotation. This value cannot be shorter than one hour. When no value is provided, the period remains unchanged. Uses [duration format strings](/docs/concepts/duration-format). ### Sample Payload ```json { "deletion_allowed": true } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/keys/my-key/config ``` ## Rotate Key This endpoint rotates the version of the named key. After rotation, new plaintext requests will be encrypted with the new version of the key. To upgrade ciphertext to be encrypted with the latest version of the key, use the `rewrap` endpoint. This is only supported with keys that support encryption and decryption operations. | Method | Path | | :----- | :--------------------------- | | `POST` | `/transit/keys/:name/rotate` | ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ http://127.0.0.1:8200/v1/transit/keys/my-key/rotate ``` ## Export Key This endpoint returns the named key. The `keys` object shows the value of the key for each version. If `version` is specified, the specific version will be returned. If `latest` is provided as the version, the current key will be provided. Depending on the type of key, different information may be returned. The key must be exportable to support this operation and the version must still be valid. | Method | Path | | :----- | :------------------------------------------- | | `GET` | `/transit/export/:key_type/:name(/:version)` | ### Parameters - `key_type` `(string: )` – Specifies the type of the key to export. This is specified as part of the URL. Valid values are: - `encryption-key` - `signing-key` - `hmac-key` - `name` `(string: )` – Specifies the name of the key to read information about. This is specified as part of the URL. - `version` `(string: "")` – Specifies the version of the key to read. If omitted, all versions of the key will be returned. This is specified as part of the URL. If the version is set to `latest`, the current key will be returned. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ http://127.0.0.1:8200/v1/transit/export/encryption-key/my-key/1 ``` ### Sample Response ```json { "data": { "name": "foo", "keys": { "1": "eyXYGHbTmugUJn6EtYD/yVEoF6pCxm4R/cMEutUm3MY=", "2": "Euzymqx6iXjS3/NuGKDCiM2Ev6wdhnU+rBiKnJ7YpHE=" } } } ``` ## Encrypt Data This endpoint encrypts the provided plaintext using the named key. This path supports the `create` and `update` policy capabilities as follows: if the user has the `create` capability for this endpoint in their policies, and the key does not exist, it will be upserted with default values (whether the key requires derivation depends on whether the context parameter is empty or not). If the user only has `update` capability and the key does not exist, an error will be returned. | Method | Path | | :----- | :----------------------- | | `POST` | `/transit/encrypt/:name` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to encrypt against. This is specified as part of the URL. - `plaintext` `(string: )` – Specifies **base64 encoded** plaintext to be encoded. - `context` `(string: "")` – Specifies the **base64 encoded** context for key derivation. This is required if key derivation is enabled for this key. - `key_version` `(int: 0)` – Specifies the version of the key to use for encryption. If not set, uses the latest version. Must be greater than or equal to the key's `min_encryption_version`, if set. - `nonce` `(string: "")` – Specifies the **base64 encoded** nonce value. This must be provided if convergent encryption is enabled for this key and the key was generated with Vault 0.6.1. Not required for keys created in 0.6.2+. The value must be exactly 96 bits (12 bytes) long and the user must ensure that for any given context (and thus, any given encryption key) this nonce value is **never reused**. - `batch_input` `(array: nil)` – Specifies a list of items to be encrypted in a single batch. When this parameter is set, if the parameters 'plaintext', 'context' and 'nonce' are also set, they will be ignored. The format for the input is: ```json [ { "context": "c2FtcGxlY29udGV4dA==", "plaintext": "dGhlIHF1aWNrIGJyb3duIGZveA==" }, { "context": "YW5vdGhlcnNhbXBsZWNvbnRleHQ=", "plaintext": "dGhlIHF1aWNrIGJyb3duIGZveA==" } ] ``` - `type` `(string: "aes256-gcm96")` –This parameter is required when encryption key is expected to be created. When performing an upsert operation, the type of key to create. - `convergent_encryption` `(string: "")` – This parameter will only be used when a key is expected to be created. Whether to support convergent encryption. This is only supported when using a key with key derivation enabled and will require all requests to carry both a context and 96-bit (12-byte) nonce. The given nonce will be used in place of a randomly generated nonce. As a result, when the same context and nonce are supplied, the same ciphertext is generated. It is _very important_ when using this mode that you ensure that all nonces are unique for a given context. Failing to do so will severely impact the ciphertext's security. **NOTE:** All plaintext data **must be base64-encoded**. The reason for this requirement is that Vault does not require that the plaintext is "text". It could be a binary file such as a PDF or image. The easiest safe transport mechanism for this data as part of a JSON payload is to base64-encode it. ### Sample Payload Fist, encode the plaintext with base64: ```shell-session $ base64 <<< "the quick brown fox" dGhlIHF1aWNrIGJyb3duIGZveAo= ``` Use the base64-encoded plaintext in the payload: ```json { "plaintext": "dGhlIHF1aWNrIGJyb3duIGZveAo=" } ``` !> Vault HTTP API imposes a maximum request size of 32MB to prevent a denial of service attack. This can be tuned per [`listener` block](/docs/configuration/listener/tcp) in the Vault server configuration. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/encrypt/my-key ``` ### Sample Response ```json { "data": { "ciphertext": "vault:v1:XjsPWPjqPrBi1N2Ms2s1QM798YyFWnO4TR4lsFA=" } } ``` ## Decrypt Data This endpoint decrypts the provided ciphertext using the named key. | Method | Path | | :----- | :----------------------- | | `POST` | `/transit/decrypt/:name` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to decrypt against. This is specified as part of the URL. - `ciphertext` `(string: )` – Specifies the ciphertext to decrypt. - `context` `(string: "")` – Specifies the **base64 encoded** context for key derivation. This is required if key derivation is enabled. - `nonce` `(string: "")` – Specifies a base64 encoded nonce value used during encryption. Must be provided if convergent encryption is enabled for this key and the key was generated with Vault 0.6.1. Not required for keys created in 0.6.2+. - `batch_input` `(array: nil)` – Specifies a list of items to be decrypted in a single batch. When this parameter is set, if the parameters 'ciphertext', 'context' and 'nonce' are also set, they will be ignored. Format for the input goes like this: ```json [ { "context": "c2FtcGxlY29udGV4dA==", "ciphertext": "vault:v1:/DupSiSbX/ATkGmKAmhqD0tvukByrx6gmps7dVI=" }, { "context": "YW5vdGhlcnNhbXBsZWNvbnRleHQ=", "ciphertext": "vault:v1:XjsPWPjqPrBi1N2Ms2s1QM798YyFWnO4TR4lsFA=" } ] ``` ### Sample Payload ```json { "ciphertext": "vault:v1:XjsPWPjqPrBi1N2Ms2s1QM798YyFWnO4TR4lsFA=" } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/decrypt/my-key ``` ### Sample Response ```json { "data": { "plaintext": "dGhlIHF1aWNrIGJyb3duIGZveAo=" } } ``` ## Rewrap Data This endpoint rewraps the provided ciphertext using the latest version of the named key. Because this never returns plaintext, it is possible to delegate this functionality to untrusted users or scripts. | Method | Path | | :----- | :---------------------- | | `POST` | `/transit/rewrap/:name` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to re-encrypt against. This is specified as part of the URL. - `ciphertext` `(string: )` – Specifies the ciphertext to re-encrypt. - `context` `(string: "")` – Specifies the **base64 encoded** context for key derivation. This is required if key derivation is enabled. - `key_version` `(int: 0)` – Specifies the version of the key to use for the operation. If not set, uses the latest version. Must be greater than or equal to the key's `min_encryption_version`, if set. - `nonce` `(string: "")` – Specifies a base64 encoded nonce value used during encryption. Must be provided if convergent encryption is enabled for this key and the key was generated with Vault 0.6.1. Not required for keys created in 0.6.2+. - `batch_input` `(array: nil)` – Specifies a list of items to be decrypted in a single batch. When this parameter is set, if the parameters 'ciphertext', 'context' and 'nonce' are also set, they will be ignored. Format for the input goes like this: ```json [ { "context": "c2FtcGxlY29udGV4dA==", "ciphertext": "vault:v1:/DupSiSbX/ATkGmKAmhqD0tvukByrx6gmps7dVI=" }, { "context": "YW5vdGhlcnNhbXBsZWNvbnRleHQ=", "ciphertext": "vault:v1:XjsPWPjqPrBi1N2Ms2s1QM798YyFWnO4TR4lsFA=" } ] ``` ### Sample Payload ```json { "ciphertext": "vault:v1:XjsPWPjqPrBi1N2Ms2s1QM798YyFWnO4TR4lsFA=" } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/rewrap/my-key ``` ### Sample Response ```json { "data": { "ciphertext": "vault:v2:abcdefgh" } } ``` ## Generate Data Key This endpoint generates a new high-entropy key and the value encrypted with the named key. Optionally return the plaintext of the key as well. Whether plaintext is returned depends on the path; as a result, you can use Vault ACL policies to control whether a user is allowed to retrieve the plaintext value of a key. This is useful if you want an untrusted user or operation to generate keys that are then made available to trusted users. | Method | Path | | :----- | :----------------------------- | | `POST` | `/transit/datakey/:type/:name` | ### Parameters - `type` `(string: )` – Specifies the type of key to generate. If `plaintext`, the plaintext key will be returned along with the ciphertext. If `wrapped`, only the ciphertext value will be returned. This is specified as part of the URL. - `name` `(string: )` – Specifies the name of the encryption key to use to encrypt the datakey. This is specified as part of the URL. - `context` `(string: "")` – Specifies the key derivation context, provided as a base64-encoded string. This must be provided if derivation is enabled. - `nonce` `(string: "")` – Specifies a nonce value, provided as base64 encoded. Must be provided if convergent encryption is enabled for this key and the key was generated with Vault 0.6.1. Not required for keys created in 0.6.2+. The value must be exactly 96 bits (12 bytes) long and the user must ensure that for any given context (and thus, any given encryption key) this nonce value is **never reused**. - `bits` `(int: 256)` – Specifies the number of bits in the desired key. Can be 128, 256, or 512. ### Sample Payload ```json { "context": "Ab3==" } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/datakey/plaintext/my-key ``` ### Sample Response ```json { "data": { "plaintext": "dGhlIHF1aWNrIGJyb3duIGZveAo=", "ciphertext": "vault:v1:abcdefgh" } } ``` ## Generate Random Bytes This endpoint returns high-quality random bytes of the specified length. | Method | Path | | :----- | :----------------------------------- | | `POST` | `/transit/random(/:source)(/:bytes)` | ### Parameters - `bytes` `(int: 32)` – Specifies the number of bytes to return. This value can be specified either in the request body, or as a part of the URL. - `format` `(string: "base64")` – Specifies the output encoding. Valid options are `hex` or `base64`. - `source` `(string: "platform")` - Specifies the source of the requested bytes. `platform`, the default, sources bytes from the platform's entropy source. `seal` sources from entropy augmentation (enterprise only). `all` mixes bytes from all available sources. ### Sample Payload ```json { "format": "hex" } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/random/164 ``` ### Sample Response ```json { "data": { "random_bytes": "dGhlIHF1aWNrIGJyb3duIGZveAo=" } } ``` ## Hash Data This endpoint returns the cryptographic hash of given data using the specified algorithm. | Method | Path | | :----- | :--------------------------- | | `POST` | `/transit/hash(/:algorithm)` | ### Parameters - `algorithm` `(string: "sha2-256")` – Specifies the hash algorithm to use. This can also be specified as part of the URL. Currently-supported algorithms are: - `sha2-224` - `sha2-256` - `sha2-384` - `sha2-512` - `sha3-224` - `sha3-256` - `sha3-384` - `sha3-512` ~> **Note**: In FIPS 140-2 mode, the following algorithms are not certified and thus should not be used: `sha3-224`, `sha3-256`, `sha3-384`, and `sha3-512`. - `input` `(string: )` – Specifies the **base64 encoded** input data. - `format` `(string: "hex")` – Specifies the output encoding. This can be either `hex` or `base64`. ### Sample Payload ```json { "input": "adba32==" } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/hash/sha2-512 ``` ### Sample Response ```json { "data": { "sum": "dGhlIHF1aWNrIGJyb3duIGZveAo=" } } ``` ## Generate HMAC This endpoint returns the digest of given data using the specified hash algorithm and the named key. The key can be of any type supported by `transit`; the raw key will be marshaled into bytes to be used for the HMAC function. If the key is of a type that supports rotation, the latest (current) version will be used. | Method | Path | | :----- | :--------------------------------- | | `POST` | `/transit/hmac/:name(/:algorithm)` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to generate hmac against. This is specified as part of the URL. - `key_version` `(int: 0)` – Specifies the version of the key to use for the operation. If not set, uses the latest version. Must be greater than or equal to the key's `min_encryption_version`, if set. - `algorithm` `(string: "sha2-256")` – Specifies the hash algorithm to use. This can also be specified as part of the URL. Currently-supported algorithms are: - `sha2-224` - `sha2-256` - `sha2-384` - `sha2-512` - `sha3-224` - `sha3-256` - `sha3-384` - `sha3-512` ~> **Note**: In FIPS 140-2 mode, the following algorithms are not certified and thus should not be used: `sha3-224`, `sha3-256`, `sha3-384`, and `sha3-512`. - `input` `(string: "")` – Specifies the **base64 encoded** input data. One of `input` or `batch_input` must be supplied. - `batch_input` `(array: nil)` – Specifies a list of items for processing. When this parameter is set, if the parameter 'input' is also set, it will be ignored. Responses are returned in the 'batch_results' array component of the 'data' element of the response. If the input data value of an item is invalid, the corresponding item in the 'batch_results' will have the key 'error' with a value describing the error. The format for batch_input is: ```json { "batch_input": [ { "input": "adba32==" }, { "input": "aGVsbG8gd29ybGQuCg==" } ] } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/hmac/my-key/sha2-512 ``` ### Sample Payload ```json { "input": "adba32==" } ``` ### Sample Response ```json { "data": { "hmac": "dGhlIHF1aWNrIGJyb3duIGZveAo=" } } ``` ### Sample Payload with batch_input ```json { "batch_input": [ { "input": "adba32==" }, { "input": "adba32==" }, {}, { "input": "" } ] } ``` ### Sample Response for batch_input ```json { "data": { "batch_results": [ { "hmac": "vault:v1:1jFhRYWHiddSKgEFyVRpX8ieX7UU+748NBwHKecXE3hnGBoAxrfgoD5U0yAvji7b5X6V1fP" }, { "hmac": "vault:v1:1jFhRYWHiddSKgEFyVRpX8ieX7UU+748NBwHKecXE3hnGBoAxrfgoD5U0yAvji7b5X6V1fP" }, { "error": "missing input for HMAC" }, { "hmac": "vault:v1:/wsSP6iQ9ECO9RRkefKLXey9sDntzSjoiW0vBrWfUsYB0ISroyC6plUt/jN7gcOv9O+Ecow" } ] } } ``` ## Sign Data This endpoint returns the cryptographic signature of the given data using the named key and the specified hash algorithm. The key must be of a type that supports signing. | Method | Path | | :----- | :-------------------------------------- | | `POST` | `/transit/sign/:name(/:hash_algorithm)` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key to use for signing. This is specified as part of the URL. - `key_version` `(int: 0)` – Specifies the version of the key to use for signing. If not set, uses the latest version. Must be greater than or equal to the key's `min_encryption_version`, if set. - `hash_algorithm` `(string: "sha2-256")` – Specifies the hash algorithm to use for supporting key types (notably, not including `ed25519` which specifies its own hash algorithm). This can also be specified as part of the URL. Currently-supported algorithms are: - `sha1` - `sha2-224` - `sha2-256` - `sha2-384` - `sha2-512` - `sha3-224` - `sha3-256` - `sha3-384` - `sha3-512` ~> **Note**: In FIPS 140-2 mode, the following algorithms are not certified and thus should not be used: `sha3-224`, `sha3-256`, `sha3-384`, and `sha3-512`. ~> ** Warning:** `sha1` should be considered a compromised algorithm and used only for legacy applications. Signing using SHA-1 can be blocked by operators by assigning the following policy corresponding to a named key: ```hcl path "/transit/sign/:name/sha1" { capabilities = ["deny"] } ``` - `input` `(string: "")` – Specifies the **base64 encoded** input data. One of `input` or `batch_input` must be supplied. - `batch_input` `(array: nil)` – Specifies a list of items for processing. When this parameter is set, any supplied 'input' or 'context' parameters will be ignored. Responses are returned in the 'batch_results' array component of the 'data' element of the response. If the input data value of an item is invalid, the corresponding item in the 'batch_results' will have the key 'error' with a value describing the error. The format for batch_input is: ```json { "batch_input": [ { "input": "adba32==", "context": "abcd" }, { "input": "aGVsbG8gd29ybGQuCg==", "context": "efgh" } ] } ``` - `context` `(string: "")` - Base64 encoded context for key derivation. Required if key derivation is enabled; currently only available with ed25519 keys. - `prehashed` `(bool: false)` - Set to `true` when the input is already hashed. If the key type is `rsa-2048`, `rsa-3072` or `rsa-4096`, then the algorithm used to hash the input should be indicated by the `hash_algorithm` parameter. Just as the value to sign should be the base64-encoded representation of the exact binary data you want signed, when set, `input` is expected to be base64-encoded binary hashed data, not hex-formatted. (As an example, on the command line, you could generate a suitable input via `openssl dgst -sha256 -binary | base64`.) - `signature_algorithm` `(string: "pss")` – When using a RSA key, specifies the RSA signature algorithm to use for signing. Supported signature types are: - `pss` - `pkcs1v15` - `marshaling_algorithm` `(string: "asn1")` – Specifies the way in which the signature should be marshaled. This currently only applies to ECDSA keys. Supported types are: - `asn1`: The default, used by OpenSSL and X.509 - `jws`: The version used by JWS (and thus for JWTs). Selecting this will also change the output encoding to URL-safe Base64 encoding instead of standard Base64-encoding. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/sign/my-key/sha2-512 ``` ### Sample Payload ```json { "input": "adba32==" } ``` ### Sample Response ```json { "data": { "signature": "vault:v1:MEUCIQCyb869d7KWuA0hBM9b5NJrmWzMW3/pT+0XYCM9VmGR+QIgWWF6ufi4OS2xo1eS2V5IeJQfsi59qeMWtgX0LipxEHI=" } } ``` ### Sample Payload with batch_input Given an ed25519 key with derived keys set, the context parameter is expected for each batch_input item, and the response will include the derived public key for each item. ``` { "batch_input": [ { "input": "adba32==", "context": "efgh" }, { "input": "adba32==", "context": "abcd" }, {} ] } ``` ### Sample Response for batch_input ``` { "data": { "batch_results": [ { "signature": "vault:v1:+R3cxAy6j4KriYzAyExU6p1glnyT/eLDSaUZO7gr8a8kgi/zSynNbOBSDJcGaAfLD1OF2hGupYBYTjmZMNoVAA==", "publickey": "2fQIaaem7+EhSGs3jUebAS/8qP2+sUrmxOmgqZIZc0c=" }, { "signature": "vault:v1:3hBwA88lnuAVJqb5rCCEstzKYaBTeSdejk356BTCE/nKwySOhzQH3mWCvJZwbRptNGa7ia5ykosYYdJz+aIKDA==", "publickey": "goDXuePo7L9z6HOw+a54O4HeV189BLECK9nAUudwp4Y=" }, { "error": "missing input" } ] }, } ``` ## Verify Signed Data This endpoint returns whether the provided signature is valid for the given data. | Method | Path | | :----- | :---------------------------------------- | | `POST` | `/transit/verify/:name(/:hash_algorithm)` | ### Parameters - `name` `(string: )` – Specifies the name of the encryption key that was used to generate the signature or HMAC. - `hash_algorithm` `(string: "sha2-256")` – Specifies the hash algorithm to use. This can also be specified as part of the URL. Currently-supported algorithms are: - `sha1` - `sha2-224` - `sha2-256` - `sha2-384` - `sha2-512` - `sha3-224` - `sha3-256` - `sha3-384` - `sha3-512` ~> **Note**: In FIPS 140-2 mode, the following algorithms are not certified and thus should not be used: `sha3-224`, `sha3-256`, `sha3-384`, and `sha3-512`. ~> ** Warning:** `sha1` should be considered a compromised algorithm. Signatures verified using the algorithm could be forgeries. Verification using SHA-1 can be blocked by operators by assigning the following policy corresponding to a named key: ```hcl path "/transit/verify/:name/sha1" { capabilities = ["deny"] } ``` - `input` `(string: "")` – Specifies the **base64 encoded** input data. One of `input` or `batch_input` must be supplied. - `signature` `(string: "")` – Specifies the signature output from the `/transit/sign` function. Either this must be supplied or `hmac` must be supplied. - `hmac` `(string: "")` – Specifies the signature output from the `/transit/hmac` function. Either this must be supplied or `signature` must be supplied. - `batch_input` `(array: nil)` – Specifies a list of items for processing. When this parameter is set, any supplied 'input', 'hmac' or 'signature' parameters will be ignored. 'batch_input' items should contain an 'input' parameter and either an 'hmac' or 'signature' parameter. All items in the batch must consistently supply either 'hmac' or 'signature' parameters. It is an error for some items to supply 'hmac' while others supply 'signature'. Responses are returned in the 'batch_results' array component of the 'data' element of the response. If the input data value of an item is invalid, the corresponding item in the 'batch_results' will have the key 'error' with a value describing the error. The format for batch_input is: ```json { "batch_input": [ { "input": "adba32==", "hmac": "vault:v1:1jFhRYWHiddSKgEFyVRpX8ieX7UU+748NBwHKecXE3hnGBoAxrfgoD5U0yAvji7b5X6V1fP" }, { "input": "aGVsbG8gd29ybGQuCg==", "hmac": "vault:v1:/wsSP6iQ9ECO9RRkefKLXey9sDntzSjoiW0vBrWfUsYB0ISroyC6plUt/jN7gcOv9O+Ecow" } ] } ``` - `context` `(string: "")` - Base64 encoded context for key derivation. Required if key derivation is enabled; currently only available with ed25519 keys. - `prehashed` `(bool: false)` - Set to `true` when the input is already hashed. If the key type is `rsa-2048`, `rsa-3072` or `rsa-4096`, then the algorithm used to hash the input should be indicated by the `hash_algorithm` parameter. - `signature_algorithm` `(string: "pss")` – When using a RSA key, specifies the RSA signature algorithm to use for signature verification. Supported signature types are: - `pss` - `pkcs1v15` - `marshaling_algorithm` `(string: "asn1")` – Specifies the way in which the signature was originally marshaled. This currently only applies to ECDSA keys. Supported types are: - `asn1`: The default, used by OpenSSL and X.509 - `jws`: The version used by JWS (and thus for JWTs). Selecting this will also expect the input encoding to URL-safe Base64 encoding instead of standard Base64-encoding. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/verify/my-key/sha2-512 ``` ### Sample Payload ```json { "input": "abcd13==", "signature": "vault:v1:MEUCIQCyb869d7KWuA..." } ``` ### Sample Response ```json { "data": { "valid": true } } ``` ### Sample Payload with batch_input ``` { "batch_input": [ { "input": "adba32==", "context": "abcd", "signature": "vault:v1:3hBwA88lnuAVJqb5rCCEstzKYaBTeSdejk356BTCE/nKwySOhzQH3mWCvJZwbRptNGa7ia5ykosYYdJz+aIKDA==" }, { "input": "adba32==", "context": "efgh", "signature": "vault:v1:3hBwA88lnuAVJqb5rCCEstzKYaBTeSdejk356BTCE/nKwySOhzQH3mWCvJZwbRptNGa7ia5ykosYYdJz+aIKDA==" }, { "input": "", "context": "abcd", "signature": "vault:v1:C/pxm5V1RI6kqudLdbLdj5Bpm2P38FKgvxoV69oNXphvJukRcQIqjZO793jCa2JPYPG21Y7vquDWy/Ff4Ma4AQ==" } ] } ``` ### Sample Response for batch_input ``` { "data": { "batch_results": [ { "valid": true }, { "valid": false }, { "valid": true } ] }, } ``` ## Backup Key This endpoint returns a plaintext backup of a named key. The backup contains all the configuration data and keys of all the versions along with the HMAC key. The response from this endpoint can be used with the `/restore` endpoint to restore the key. | Method | Path | | :----- | :---------------------- | | `GET` | `/transit/backup/:name` | ### Parameters - `name` `(string: )` - Name of the key. ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ http://127.0.0.1:8200/v1/transit/backup/aes ``` ### Sample Response ```json { "data": { "backup": "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" } } ``` ## Restore Key This endpoint restores the backup as a named key. This will restore the key configurations and all the versions of the named key along with HMAC keys. The input to this endpoint should be the output of `/backup` endpoint. ~> For safety, by default the backend will refuse to restore to an existing key. If you want to reuse a key name, it is recommended you delete the key before restoring. It is a good idea to attempt restoring to a different key name first to verify that the operation successfully completes. | Method | Path | | :----- | :------------------------- | | `POST` | `/transit/restore(/:name)` | ### Parameters - `backup` `(string: )` - Backed up key data to be restored. This should be the output from the `/backup` endpoint. - `name` `(string: )` - If set, this will be the name of the restored key. - `force` `(bool: false)` - If set, force the restore to proceed even if a key by this name already exists. ### Sample Payload ```json "backup": "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" ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/restore ``` ## Trim Key This endpoint trims older key versions setting a minimum version for the keyring. Once trimmed, previous versions of the key cannot be recovered. | Method | Path | | :----- | :------------------------- | | `POST` | `/transit/keys/:name/trim` | ### Parameters - `min_available_version` `(int: )` - The minimum available version for the key ring. All versions before this version will be permanently deleted. This value can at most be equal to the lesser of `min_decryption_version` and `min_encryption_version`. This is not allowed to be set when either `min_encryption_version` or `min_decryption_version` is set to zero. ### Sample Payload ```json { "min_available_version": 2 } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." \ --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/keys/my-key/trim ``` ## Configure Cache This endpoint is used to configure the transit engine's cache. Note that configuration changes will not be applied until the transit plugin is reloaded which can be achieved using the [`/sys/plugins/reload/backend`][sys-plugin-reload-backend] endpoint. | Method | Path | | :----- | :---------------------- | | `POST` | `/transit/cache-config` | ### Parameters - `size` `(int: 0)` - Specifies the size in terms of number of entries. A size of `0` means unlimited. A _Least Recently Used_ (LRU) caching strategy is used for a non-zero cache size. Must be 0 (default) or a value greater or equal to 10 (minimum cache size). ### Sample Payload ```json { "size": 456 } ``` ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." --request POST \ --data @payload.json \ http://127.0.0.1:8200/v1/transit/cache-config ``` ## Read Transit Cache Configuration This endpoint retrieves configurations for the transit engine's cache. | Method | Path | | :----- | :---------------------- | | `GET` | `/transit/cache-config` | ### Sample Request ```shell-session $ curl \ --header "X-Vault-Token: ..." --request GET \ http://127.0.0.1:8200/v1/transit/cache-config ``` ### Sample Response ```json "data": { "size": 0 }, ``` [sys-plugin-reload-backend]: /api/system/plugins-reload-backend#reload-plugins