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What
Generates a signed JWS, with a configurable set of claims. The JWS can then be returned to clients, transmitted to backend targets, or used in other ways. See JWS and JWT policies overview for a detailed introduction.
To learn about the parts of a JWS and how they are encrypted and signed, refer to RFC7515 .
This policy is an Extensible policy and use of this policy might have cost or utilization implications, depending on your Apigee license. For information on policy types and usage implications, see Policy types .
Video
Watch a short video to learn how to generate a signed JWT. While this video is specific to generating a JWT, many of the concepts are the same for JWS.
Samples
Generate a JWS signed with HS256
This example policy generates a JWS that is signed using the HS256 algorithm. HS256 relies on a shared secret for both signing and verifying the signature. This JWS uses "attached" content, meaning the encoded header, payload, and signature are dot-concatenated to produce the final JWS:
[ header ] . [ payload ] . [ signature ]
Use the <Payload>
element to specify the raw, unencoded JWS payload.
In this example, a variable contains the payload. When this policy action is triggered,
Apigee encodes the JWS header and payload, then adds the encoded signature to digitally sign the JWS.
The policy configuration below creates a JWS from a payload contained in the variable my-payload
, and stores the resulting JWS in the variable output-variable
.
< GenerateJWS name = "JWS-Generate-HS256" > < DisplayName>JWS Generate HS256 < / DisplayName > < Algorithm>HS256 < / Algorithm > < IgnoreUnresolvedVariables>false < / IgnoreUnresolvedVariables > < SecretKey > < Value ref = "private.secretkey" / > < Id>1918290 < / Id > < / SecretKey > < Payload ref = "my-payload" / > < OutputVariable>output - variable < / OutputVariable > < / GenerateJWS >
Generate an HS256-signed JWT
This example also generates a JWS with attached content that is signed using the HS256
algorithm. In this case, the payload is JSON. Setting the typ
header to JWT
results in a signed JWS that is also a signed JWT.
( reference
)
The policy configuration below creates a JWS from a payload contained in the variable json-content
, and stores the resulting JWS in the variable output-variable
. The result will be a signed JWT if and only if the json-content
variable holds a JSON payload, and the properties within
that JSON payload are valid for JWT. For example, the exp
property, if it is
present, must hold a numeric value. The aud
property, if it is present,
must be a string or an array of strings. And so on. Consult IETF RFC7519
for
details on the valid values for JWT claims.
< GenerateJWS name = "JWS-Generate-HS256-JWT" > < Algorithm>HS256 < / Algorithm > < IgnoreUnresolvedVariables>false < / IgnoreUnresolvedVariables > < SecretKey > < Value ref = "private.secretkey" / > < / SecretKey > < Payload ref = "json-content" / > < AdditionalHeaders > < Claim name = "typ" > JWT < / Claim > < / AdditionalHeaders > < OutputVariable>output - variable < / OutputVariable > < / GenerateJWS >
Generate a detached JWS
This example policy generates a JWS with detached content, signed using the RS256 algorithm. Generating an RS256 signature relies on an RSA private key, which must be provided in PEM-encoded form.
A JWS with detached content omits the payload from the generated JWS:
[ header ] .. [ signature ]
Use the <Payload>
element to specify the raw, unencoded JWS payload.
When this policy is triggered, Apigee encodes the JWS header and payload, and then uses them
to generate the encoded signature. However, the generated JWS omits the encoded payload from
the serialized JWS. This is helpful when the signed content is large, or binary (such as an
image or PDF), or both. To allow validation, you must pass both elements, the JWS and the
payload that was included in the signed content, to the verifying party. If you are using the VerifyJWS policy
to verify the JWS, you can specify the variable containing the payload
with the <DetachedContent>
element of the VerifyJWS policy.
< GenerateJWS name = "JWS-Generate-RS256" > < DisplayName>JWS Generate RS256 < / DisplayName > < Algorithm>RS256 < / Algorithm > < IgnoreUnresolvedVariables>false < / IgnoreUnresolvedVariables > < PrivateKey > < Value ref = "private.privatekey" / > < Password ref = "private.privatekey-password" / > < Id ref = "private.privatekey-id" / > < / PrivateKey > < Payload ref = "my-payload" / > < DetachContent>true < / DetachContent > < OutputVariable>output - variable < / OutputVariable > < / GenerateJWS >
Setting the key elements
The elements that you use to specify the key used to generate the JWS depend on the chosen algorithm, as shown in the following table:
<SecretKey> <Value ref="private.secretkey"/> <Id>1918290</Id> </SecretKey>
<PrivateKey> <Value ref="private.privatekey"/> <Password ref="private.privatekey-password"/> <Id ref="private.privatekey-id"/> </PrivateKey>
The <Password>
and <Id>
elements are optional.
Element reference for Generate JWS
The policy reference describes the elements and attributes of the Generate JWS policy.
Note:Configuration will differ somewhat depending on the encryption algorithm you use. Refer to the Samples for examples that demonstrate configurations for specific use cases.
Attributes that apply to the top-level element
<GenerateJWS name="JWS" continueOnError="false" enabled="true" async="false">
The following attributes are common to all policy parent elements.
| Attribute | Description | Default | Presence |
|---|---|---|---|
|
name
|
The internal name of the policy. Characters you can use in the name are restricted to: A-Z0-9._\-$ %
. However, the Apigee UI enforces additional
restrictions, such as automatically removing characters that are not alphanumeric. Optionally, use the |
N/A | Required |
|
continueOnError
|
Set to false
to return an error when a policy fails. This is expected
behavior for most policies. Set to |
false | Optional |
|
enabled
|
Set to true
to enforce the policy. Set to |
true | Optional |
|
async
|
This attribute is deprecated. | false | Deprecated |
<DisplayName>
<DisplayName>Policy Display Name</DisplayName>
Use in addition to the name attribute to label the policy in the Apigee UI proxy editor with a different, natural-language name.
| Default | If you omit this element, the value of the policy's name attribute is used. |
|---|---|
| Presence | Optional |
| Type | String |
<Algorithm>
<Algorithm>algorithm-here</Algorithm>
Specifies the encryption algorithm to sign the token.
| Default | N/A |
| Presence | Required |
| Type | String |
| Valid values | HS256, HS384, HS512, RS256, RS384, RS512, ES256, ES384, ES512, PS256, PS384, PS512 |
<AdditionalHeaders/Claim>
< AdditionalHeaders > < Claim name = 'claim1' > explicit - value - of - claim - here < / Claim > < Claim name = 'claim2' ref = 'variable-name-here' / > < Claim name = 'claim3' ref = 'variable-name-here' type = 'boolean' / > < Claim name = 'claim4' ref = 'variable-name' type = 'string' array = 'true' / > < / AdditionalHeaders >
Puts the additional claim name/value pair(s) in the header for the JWS.
| Default | N/A |
| Presence | Optional |
| Valid values | Any value that you want to use for an additional claim. You can specify the claim explicitly as string, a number, a boolean, a map, or an array. |
The <Claim>
element takes these attributes:
- name - (Required) The name of the claim, also known as the parameter.
- ref - (Optional) The name of a flow variable. If present, the policy will use the value of this variable as the claim. If both a ref attribute and an explicit claim value are specified, the explicit value is the default, and is used if the referenced flow variable is unresolved.
- type - (Optional) One of: string (default), number, boolean, or map
- array - (Optional) Set to trueto indicate if the value is an array of types. Default: false.
<CriticalHeaders>
< CriticalHeaders>a , b , c < / CriticalHeaders > or : < CriticalHeaders ref = "variable_containing_headers" / >
Adds the critical header, crit, to the JWS. The critheader is an array of header names that must be known and recognized by the JWS receiver. For example, you can use this configuration element to produce a JWS header that when decoded, looks like this:
{
"typ": "...",
"alg" : "...",
"hyb" : "some-value-here",
"crit" : [ "hyb" ],
}
This JWS header asserts that the hybheader parameter is of critical importance, and any recipient of the JWS must understand the meaning and value of that parameter.
Per IETF RFC 7515
, the recipient of a JWS should reject the JWS as
invalid if the recipient does not understand one or more of the parameters referenced in the critparameter. In Apigee, the VerifyJWS policy
conforms to this behavior.
For each parameter listed in the critparameter, it checks that the <KnownHeaders>
element of the VerifyJWS policy also lists that parameter.
Any header that the VerifyJWS policy finds in critthat is not also listed
in <KnownHeaders>
causes the VerifyJWS policy to reject the JWS.
| Default | N/A |
| Presence | Optional |
| Type | Comma separated array of one or more strings |
| Valid values | Either an array or a reference to a variable containing the array. |
<DetachContent>
<DetachContent>true|false</DetachContent>
Specifies whether to generate the JWS with a detached payload, <DetachContent>true</DetachContent>
,
or not, <DetachContent>false</DetachContent>
.
If you specify false, the default, the generated JWS is in the form:
[ header ] . [ payload ] . [ signature ]
If you specify true to create a JWS with a detached payload, the generated JWS omits the payload and is in the form:
[ header ] .. [ signature ]
With a JWS using a detached payload, it is up to you to pass the original unencoded payload to the verifying party, along with the serialized JWS.
| Default | false |
|---|---|
| Presence | Optional |
| Type | Boolean |
| Valid values | true or false |
<IgnoreUnresolvedVariables>
<IgnoreUnresolvedVariables>true|false</IgnoreUnresolvedVariables>
Set to false if you want the policy to throw an error when any referenced variable specified in the policy is unresolvable. Set to true to treat any unresolvable variable as an empty string (null).
| Default | false |
|---|---|
| Presence | Optional |
| Type | Boolean |
| Valid values | true or false |
<OutputVariable>
< OutputVariable>output - variable < / OutputVariable >
Specifies the name of the context variable that the policy will set with the generated JWS.
By default, the policy places the JWS into the context variable named jws. POLICYNAME
.generated_jws
.
| Default | jws. POLICYNAME
.generated_jws
|
| Presence | Optional |
| Type | String (a flow variable name) |
<Payload>
< Payload ref = "flow-variable-name-here" / > or < Payload> payload - value < / Payload >
Specifies the raw, unencoded JWS payload. Specify a variable containing the payload, or a string.
| Default | N/A |
| Presence | Required |
| Type | String, byte array, stream, or any other representation of the unencoded JWS payload. |
| Valid values | Either a message template, or a reference to a variable containing the payload. |
<PrivateKey> element
This is optional, for use only when the <Algorithm>
is one of the RS*, PS*,
or ES* options. It specifies the private key to use for signing, as well as other information
related to the private key. It is used when the algorithm is an asymmetric algorithm.
<PrivateKey><Value ref="private.privatekey"</Value> </PrivateKey>
| Default: | N/A |
| Presence: | Optional. However, you must include exactly one of either the <PrivateKey>
or <SecretKey>
element.
Use the <PrivateKey>
element when the algorithm is RS*, PS*, or ES*,
and use the <SecretKey>
element when the algorithm is HS*. |
| Type: | N/A |
<PrivateKey/Id>
< PrivateKey > < Id ref = "flow-variable-name-here" / >< / PrivateKey > or < PrivateKey > < Id>your - id - value - here < / Id >< / PrivateKey >
Specifies the key ID (kid) to include in the JWS header.
| Default | N/A |
| Presence | Optional |
| Type | String |
| Valid values | A flow variable or string |
<PrivateKey/Password>
<PrivateKey> <Password ref="private.privatekey-password"/></PrivateKey>
Specify the password the policy should use to decrypt the private key, if necessary. Use the refattribute to pass the key in a flow variable.
| Default | N/A |
| Presence | Optional |
| Type | String |
| Valid values | A flow variable reference. Note:You must specify a flow variable
with the refattribute. Apigee will reject as invalid a policy
configuration in which the password is specified in plaintext. The flow variable
must have the prefix "private". For example, |
<PrivateKey/Value>
< PrivateKey > < Value ref = "private.variable-name-here" / >< / PrivateKey >
Specifies a PEM-encoded private key used to sign the JWS. Use the ref attribute to pass the key in a flow variable.
| Default | N/A |
| Presence | Required when using the policy to generate a JWS using one of the RS*, PS*, or ES* algorithms. |
| Type | String |
| Valid values | A flow variable containing a string representing a PEM-encoded private key value. Note: The flow variable must have the prefix "private". For example, |
<SecretKey>
< SecretKey encoding = "base16|hex|base64|base64url" > < Id ref = "variable-containing-key-id-here" > secret - key - id < / Id > < Value ref = "private.variable-here" / > < / SecretKey >
Specifies the secret key to use when generating a JWS that uses a symmetric (HS*) algorithm, one of HS256, HS384, or HS512.
This element is optional. However, you must include exactly one of either the <PrivateKey>
or <SecretKey>
element.
Use the <PrivateKey>
element when generating a JWS signed with
an asymmetric algorithm (one of RS*, PS*, or ES*),
and use the <SecretKey>
element when generating a JWS signed with a
symmetric algorithm (algorithm like HS*).
Children of <SecretKey>
The following table provides a description of the child elements and attributes of <SecretKey>
:
| Child | Presence | Description |
|---|---|---|
|
encoding (attribute)
|
Optional | Specifies how the key is encoded in the referenced variable. By default, when no < SecretKey encoding = "hex" > < Id ref = "variable-containing-key-id-here" > secret - key - id < / Id > < Value ref = "private.secretkey" / > < / SecretKey > In the above example, because the encoding is |
|
Id (element)
|
Optional | The key identifier. The value can be any string. You can specify the value as a
literal text value, or indirectly, via a variable reference, with the < SecretKey > < Id ref = "flow-variable-name-here" / > < Value ref = "private.variable-here" / > < / SecretKey > or < SecretKey > < Id>your - id - value - here < / Id > < Value ref = "private.variable-here" / > < / SecretKey > The policy will include this key identifier as the |
|
Value (element)
|
Required | An encoded secret key. Specifies the secret key used to sign the payload.
Use the < SecretKey > < Id ref = "flow-variable-name-here" / > < Value ref = "private.my-secret-variable" / >< / SecretKey > Apigee enforces a minimum key strength for the HS256/HS384/HS512 algorithms. The minimum key length for HS256 is 32 bytes, for HS384 it is 48 bytes, and for HS512 it is 64 bytes. Using a lower-strength key causes a runtime error. |
<Type>
< Type>type - string - here < / Type >
Optional element whose only allowed value is Signed
, specifying that the policy
generates a signed JWS. <Type>
is provided
just to match the corresponding element for the GenerateJWT and VerifyJWT policies (where
it can take on either of the values Signed
or Encrypted
).
| Default | N/A |
|---|---|
| Presence | Optional |
| Type | String |
| Valid value | Signed
|
Flow variables
The Generate JWS policy does not set flow variables.
Error reference
This section describes the fault codes and error messages that are returned and fault variables that are set by Apigee when this policy triggers an error. This information is important to know if you are developing fault rules to handle faults. To learn more, see What you need to know about policy errors and Handling faults .
Runtime errors
These errors can occur when the policy executes.
| Fault code | HTTP status | Occurs when |
|---|---|---|
steps.jws.GenerationFailed
|
401
|
The policy was unable to generate the JWS. |
steps.jws.InsufficientKeyLength
|
401
|
For a key less than 32 bytes for the HS256 algorithm |
steps.jws.InvalidClaim
|
401
|
For a missing claim or claim mismatch, or a missing header or header mismatch. |
steps.jws.InvalidCurve
|
401
|
The curve specified by the key is not valid for the Elliptic Curve algorithm. |
steps.jws.InvalidJsonFormat
|
401
|
Invalid JSON found in the JWS header. |
steps.jws.InvalidPayload
|
401
|
The JWS payload is invalid. |
steps.jws.InvalidSignature
|
401
|
<DetachedContent>
is omitted and the JWS has a detached content payload. |
steps.jws.KeyIdMissing
|
401
|
The Verify policy uses a JWKS as a source for public keys, but the signed JWS does not
include a kid
property in the header. |
steps.jws.KeyParsingFailed
|
401
|
The public key could not be parsed from the given key information. |
steps.jws.MissingPayload
|
401
|
The JWS payload is missing. |
steps.jws.NoAlgorithmFoundInHeader
|
401
|
Occurs when the JWS omits the algorithm header. |
steps.jws.SigningFailed
|
401
|
In GenerateJWS, for a key less than the minimum size for the HS384 or HS512 algorithms |
steps.jws.UnknownException
|
401
|
An unknown exception occurred. |
steps.jws.WrongKeyType
|
401
|
Wrong type of key specified. For example, if you specify an RSA key for an Elliptic Curve algorithm, or a curve key for an RSA algorithm. |
Deployment errors
These errors can occur when you deploy a proxy containing this policy.
| Error name | Occurs when |
|---|---|
InvalidAlgorithm
|
The only valid values are: RS256, RS384, RS512, PS256, PS384, PS512, ES256, ES384, ES512,
HS256, HS384, HS512
. |
| |
Other possible deployment errors. |
Fault variables
These variables are set when a runtime error occurs. For more information, see What you need to know about policy errors .
| Variables | Where | Example |
|---|---|---|
fault.name=" fault_name
"
|
fault_name is the name of the fault, as listed in the Runtime errors table above. The fault name is the last part of the fault code. | fault.name Matches "TokenExpired"
|
JWS.failed
|
All JWS policies set the same variable in the case of a failure. | jws.JWS-Policy.failed = true
|
Example error response
For error handling, the best practice is to trap the errorcode
part of the error
response. Do not rely on the text in the faultstring
, because it could change.
Example fault rule
<FaultRules>
<FaultRule name="JWS Policy Errors">
<Step>
<Name>JavaScript-1</Name>
<Condition>(fault.name Matches "TokenExpired")</Condition>
</Step>
<Condition>JWS.failed=true</Condition>
</FaultRule>
</FaultRules>
