HTTP API Structure
The main interface to Consul is a RESTful HTTP API. The API can perform basic CRUD operations on nodes, services, checks, configuration, and more.
Authentication
When authentication is enabled, a Consul token should be provided to API
requests using the X-Consul-Token
header or with the
Bearer scheme in the authorization header.
This reduces the probability of the
token accidentally getting logged or exposed. When using authentication,
clients should communicate via TLS.
If no token is provided for an HTTP request then Consul will use the default ACL token if it has been configured. If no default ACL token was configured then the anonymous token will be used.
Below is an example using curl
with X-Consul-Token
.
Below is an example using curl
with a RFC6750 Bearer token.
Security Note: Though you could pass the token through the ?token=
query parameter,
this method is highly discouraged because the token can show up in access logs as part of the URL.
The ?token=
query parameter is deprecated and will be removed in a future Consul version.
To learn more about the ACL system read the documentation.
Version Prefix
All API routes are prefixed with /v1/
. This documentation is only for the v1 API.
Formatted JSON Output
By default, the output of all HTTP API requests is minimized JSON. If the client
passes pretty
on the query string, formatted JSON will be returned.
HTTP Methods
Consul's API aims to be RESTful, although there are some exceptions. The API responds to the standard HTTP verbs GET, PUT, and DELETE. Each API method will clearly document the verb(s) it responds to and the generated response. The same path with different verbs may trigger different behavior. For example:
Even though these share a path, the PUT
operation creates a new key whereas
the GET
operation reads an existing key.
Here is the same example using curl
:
URL-Encoded Resource Names
Some Consul HTTP API endpoints accept resource names in URL path or query parameters.
To pass a resource name containing URL-invalid characters, such as /
or
,
URL-encode the resource name into the URL.
However, we generally recommend using resource names that don't require URL-encoding. Depending on the validation that Consul applies to a resource name, Consul may still reject a request if it considers the resource name invalid for that endpoint. And even if Consul considers the resource name valid, it may degrade other functionality, such as failed DNS lookups for nodes or services with names containing invalid DNS characters.
This HTTP API capability also allows the CLI to accept arguments with URL-invalid characters.
Invalid Characters
The linefeed character (%0a
) will cause a request to be rejected even if it is URL-encoded.
Translated Addresses
Consul 0.7 added the ability to translate addresses in HTTP response based on
the configuration setting for
translate_wan_addrs
. In order
to allow clients to know if address translation is in effect, the
X-Consul-Translate-Addresses
header will be added if translation is enabled,
and will have a value of true
. If translation is not enabled then this header
will not be present.
Default ACL Policy
All API responses for Consul versions after 1.9 will include an HTTP response
header X-Consul-Default-ACL-Policy
set to either "allow" or "deny" which
mirrors the current value of the agent's
acl.default_policy
option.
This is also the default intention enforcement action if no intention matches.
This is returned even if ACLs are disabled.
Results Filtered by ACLs
As of Consul 1.11, most list endpoints support an X-Consul-Results-Filtered-By-ACLs
HTTP response header. This indicates that the response contains a partial subset
of results, because some have been filtered out by ACL policies.
In order to limit information leakage, this header is only present for requests authenticated by a valid ACL token.
The following example uses curl
to view the
X-Consul-Results-Filtered-By-ACLs
response header.
UUID Format
UUID-format identifiers generated by the Consul API use the hashicorp/go-uuid library.
These UUID-format strings are generated using high quality, purely random bytes. It is not intended to be RFC compliant, merely to use a well-understood string representation of a 128-bit value.