HTTP binding spec
Detailed documentation on the HTTP binding component
Alternative
The service invocation API allows invoking non-Dapr HTTP endpoints and is the recommended approach. Read “How-To: Invoke Non-Dapr Endpoints using HTTP” for more information.
Setup Dapr component
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: <NAME>
spec:
type: bindings.http
version: v1
metadata:
- name: url
value: "http://something.com"
#- name: maxResponseBodySize
# value: "100Mi" # OPTIONAL maximum amount of data to read from a response
#- name: MTLSRootCA
# value: "/Users/somepath/root.pem" # OPTIONAL path to root CA or PEM-encoded string
#- name: MTLSClientCert
# value: "/Users/somepath/client.pem" # OPTIONAL path to client cert or PEM-encoded string
#- name: MTLSClientKey
# value: "/Users/somepath/client.key" # OPTIONAL path to client key or PEM-encoded string
#- name: MTLSRenegotiation
# value: "RenegotiateOnceAsClient" # OPTIONAL one of: RenegotiateNever, RenegotiateOnceAsClient, RenegotiateFreelyAsClient
#- name: securityToken # OPTIONAL <token to include as a header on HTTP requests>
# secretKeyRef:
# name: mysecret
# key: "mytoken"
#- name: securityTokenHeader
# value: "Authorization: Bearer" # OPTIONAL <header name for the security token>
#- name: errorIfNot2XX
# value: "false" # OPTIONAL
Spec metadata fields
Field | Required | Binding support | Details | Example | ||
---|---|---|---|---|---|---|
url | Y | Output | The base URL of the HTTP endpoint to invoke | http://host:port/path , http://myservice:8000/customers | ||
maxResponseBodySize | N | Output | Maximum length of the response to read. A whole number is interpreted as bytes; units such as Ki, Mi, Gi (SI) or k</td><td>M</td><td>G<code>(decimal) can be added for convenience. The default value is</code>100Mi | “1Gi”, “100Mi”, “20Ki”, “200” (bytes) | ||
MTLSRootCA | N | Output | Path to root CA certificate or PEM-encoded string | |||
MTLSClientCert | N | Output | Path to client certificate or PEM-encoded string | |||
MTLSClientKey | N | Output | Path client private key or PEM-encoded string | |||
MTLSRenegotiation | N | Output | Type of mTLS renegotiation to be used | RenegotiateOnceAsClient | ||
securityToken | N | Output | The value of a token to be added to a HTTP request as a header. Used together with securityTokenHeader | |||
securityTokenHeader | N | Output | The name of the header for securityToken on a HTTP request | |||
errorIfNot2XX | N | Output | If a binding error should be thrown when the response is not in the 2xx range. Defaults to true |
The values for MTLSRootCA, MTLSClientCert and MTLSClientKey can be provided in three ways:
Secret store reference:
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: <NAME>
spec:
type: bindings.http
version: v1
metadata:
- name: url
value: http://something.com
- name: MTLSRootCA
secretKeyRef:
name: mysecret
key: myrootca
auth:
secretStore: <NAME_OF_SECRET_STORE_COMPONENT>
Path to the file: the absolute path to the file can be provided as a value for the field.
PEM encoded string: the PEM-encoded string can also be provided as a value for the field.
Note
Metadata fields MTLSRootCA, MTLSClientCert and MTLSClientKey are used to configure (m)TLS authentication. To use mTLS authentication, you must provide all three fields. See mTLS for more details. You can also provide only MTLSRootCA, to enable HTTPS connection with a certificate signed by a custom CA. See HTTPS section for more details.
Binding support
This component supports output binding with the following HTTP methods/verbs:
create
: For backward compatibility and treated like a postget
: Read data/recordshead
: Identical to get except that the server does not return a response bodypost
: Typically used to create records or send commandsput
: Update data/recordspatch
: Sometimes used to update a subset of fields of a recorddelete
: Delete a data/recordoptions
: Requests for information about the communication options available (not commonly used)trace
: Used to invoke a remote, application-layer loop- back of the request message (not commonly used)
Request
Operation metadata fields
All of the operations above support the following metadata fields
Field | Required | Details | Example |
---|---|---|---|
path | N | The path to append to the base URL. Used for accessing specific URIs. | “/1234” , “/search?lastName=Jones” |
Field with a capitalized first letter | N | Any fields that have a capital first letter are sent as request headers | “Content-Type” , “Accept” |
Retrieving data
To retrieve data from the HTTP endpoint, invoke the HTTP binding with a GET
method and the following JSON body:
{
"operation": "get"
}
Optionally, a path can be specified to interact with resource URIs:
{
"operation": "get",
"metadata": {
"path": "/things/1234"
}
}
Response
The response body contains the data returned by the HTTP endpoint. The data
field contains the HTTP response body as a byte slice (Base64 encoded via curl). The metadata
field contains:
Field | Required | Details | Example |
---|---|---|---|
statusCode | Y | The HTTP status code | 200 , 404 , 503 |
status | Y | The status description | “200 OK” , “201 Created” |
Field with a capitalized first letter | N | Any fields that have a capital first letter are sent as request headers | “Content-Type” |
Example
Requesting the base URL
curl -d "{ \"operation\": \"get\" }" \
http://localhost:<dapr-port>/v1.0/bindings/<binding-name>
curl -d '{ "operation": "get" }' \
http://localhost:<dapr-port>/v1.0/bindings/<binding-name>
Requesting a specific path
curl -d "{ \"operation\": \"get\", \"metadata\": { \"path\": \"/things/1234\" } }" \
http://localhost:<dapr-port>/v1.0/bindings/<binding-name>
curl -d '{ "operation": "get", "metadata": { "path": "/things/1234" } }' \
http://localhost:<dapr-port>/v1.0/bindings/<binding-name>
Sending and updating data
To send data to the HTTP endpoint, invoke the HTTP binding with a POST
, PUT
, or PATCH
method and the following JSON body:
Note
Any metadata field that starts with a capital letter is passed as a request header. For example, the default content type is application/json; charset=utf-8
. This can be overridden be setting the Content-Type
metadata field.
{
"operation": "post",
"data": "content (default is JSON)",
"metadata": {
"path": "/things",
"Content-Type": "application/json; charset=utf-8"
}
}
Example
Posting a new record
curl -d "{ \"operation\": \"post\", \"data\": \"YOUR_BASE_64_CONTENT\", \"metadata\": { \"path\": \"/things\" } }" \
http://localhost:<dapr-port>/v1.0/bindings/<binding-name>
curl -d '{ "operation": "post", "data": "YOUR_BASE_64_CONTENT", "metadata": { "path": "/things" } }' \
http://localhost:<dapr-port>/v1.0/bindings/<binding-name>
Using HTTPS
The HTTP binding can also be used with HTTPS endpoints by configuring the Dapr sidecar to trust the server’s SSL certificate.
- Update the binding URL to use
https
instead ofhttp
. - If you need to add a custom TLS certificate, refer How-To: Install certificates in the Dapr sidecar, to install the TLS certificates in the sidecar.
Example
Update the binding component
apiVersion: dapr.io/v1alpha1
kind: Component
metadata:
name: <NAME>
namespace: <NAMESPACE>
spec:
type: bindings.http
version: v1
metadata:
- name: url
value: https://my-secured-website.com # Use HTTPS
Install the TLS certificate in the sidecar
When the sidecar is not running inside a container, the TLS certificate can be directly installed on the host operating system.
Below is an example when the sidecar is running as a container. The SSL certificate is located on the host computer at /tmp/ssl/cert.pem
.
version: '3'
services:
my-app:
# ...
dapr-sidecar:
image: "daprio/daprd:1.8.0"
command: [
"./daprd",
"-app-id", "myapp",
"-app-port", "3000",
]
volumes:
- "./components/:/components"
- "/tmp/ssl/:/certificates" # Mount the certificates folder to the sidecar container at /certificates
environment:
- "SSL_CERT_DIR=/certificates" # Set the environment variable to the path of the certificates folder
depends_on:
- my-app
The sidecar can read the TLS certificate from a variety of sources. See How-to: Mount Pod volumes to the Dapr sidecar for more. In this example, we store the TLS certificate as a Kubernetes secret.
kubectl create secret generic myapp-cert --from-file /tmp/ssl/cert.pem
The YAML below is an example of the Kubernetes deployment that mounts the above secret to the sidecar and sets SSL_CERT_DIR
to install the certificates.
apiVersion: apps/v1
kind: Deployment
metadata:
name: myapp
namespace: default
labels:
app: myapp
spec:
replicas: 1
selector:
matchLabels:
app: myapp
template:
metadata:
labels:
app: myapp
annotations:
dapr.io/enabled: "true"
dapr.io/app-id: "myapp"
dapr.io/app-port: "8000"
dapr.io/volume-mounts: "cert-vol:/certificates" # Mount the certificates folder to the sidecar container at /certificates
dapr.io/env: "SSL_CERT_DIR=/certificates" # Set the environment variable to the path of the certificates folder
spec:
volumes:
- name: cert-vol
secret:
secretName: myapp-cert
...
Invoke the binding securely
curl -d "{ \"operation\": \"get\" }" \
https://localhost:<dapr-port>/v1.0/bindings/<binding-name>
curl -d '{ "operation": "get" }' \
https://localhost:<dapr-port>/v1.0/bindings/<binding-name>
Note
HTTPS binding support can also be configured using the MTLSRootCA metadata option. This will add the specified certificate to the list of trusted certificates for the binding. There’s no specific preference for either method. While the MTLSRootCA option is easy to use and doesn’t require any changes to the sidecar, it accepts only one certificate. If you need to trust multiple certificates, you need to install them in the sidecar by following the steps above.
Using mTLS or enabling client TLS authentication along with HTTPS
You can configure the HTTP binding to use mTLS or client TLS authentication along with HTTPS by providing the MTLSRootCA
, MTLSClientCert
, and MTLSClientKey
metadata fields in the binding component.
These fields can be passed as a file path or as a pem encoded string:
- If the file path is provided, the file is read and the contents are used.
- If the PEM-encoded string is provided, the string is used as is.
When these fields are configured, the Dapr sidecar uses the provided certificate to authenticate itself with the server during the TLS handshake process.
If the remote server is enforcing TLS renegotiation, you also need to set the metadata field MTLSRenegotiation
. This field accepts one of following options:
RenegotiateNever
RenegotiateOnceAsClient
RenegotiateFreelyAsClient
For more details see the Go RenegotiationSupport documentation.
You can use this when the server with which the HTTP binding is configured to communicate requires mTLS or client TLS authentication.