# Authorizers
An Airnode can authorize requester contract access to its underlying API using authorizers. As an alternative, an API provider could also use Relayed Meta Data Authentication to authenticate requests. Authorizers require blockchain knowledge by the API provider, relayed meta data does not.
When an Airnode receives a request, it can use on-chain authorizer contracts to verify if a response is warranted. Authorizers allow Airnodes to implement a wide variety of policies. Below are some examples:
- Respond to requests from sponsors that have paid their monthly subscription fee in DAI.
- Respond to individual requests for which a per-call fee has been paid in API3 tokens.
- Respond to requests made by requesters that were whitelisted by the API3 DAO.
- Respond to requests made by sponsors who have been whitelisted by the Airnode owner's backend (for example, based on PayPal payments).
A common use case for an authorizer is the RequesterAuthorizerWithAirnode authorizer contract developed for Airnode operators to use right out-of-the-box. It allows the whitelisting of requester contracts (with or without expiration timestamps) on a per endpoint basis. This is the most common use case and may in fact satisfy the needs of many Airnodes.
The diagram below illustrates how Airnode utilizes authorizers.
When Airnode starts it reads its list of authorizer contracts declared in
config.json
.Airnode gathers requests from the event logs, during its run cycle.
Airnode sends each request, along with the list of authorizer contracts, to
checkAuthorizationStatus()
.
checkAuthorizationStatus()
executes theisAuthorized()
function in each authorizer contract. If any one authorizer contract returns true, then true is returned to the Airnode which in turn proceeds to fulfill the request.
# Airnode Authorizer Policies
Airnode provides two authorizer contracts, one of which
(RequesterAuthorizerWithAirnode
) can be used by any API provider. The other
(RequesterAuthorizerWithManager
) is meant to be used by the API3 DAO. They are
detailed within this doc in sections below.
Both these authorizer contracts inherit and extend the RequesterAuthorizer
abstract contract which also extends the Whitelist
contract. This means that
both authorizer contracts will need to whitelist requester contracts prior to
make them available to an Airnode. For RequesterAuthorizerWithAirnode
this can
be done using the
admin-cli.
The main difference between them is that RequesterAuthorizerWithAirnode
allows
the Airnode address to grant whitelisting roles for that specific Airnode. On
the other hand, RequesterAuthorizerWithManager
allows the manager address
(read: the API3 DAO) to grant whitelisting roles for all Airnodes that use it.
Some common functions available are:
requesterIsWhitelisted
: Called to check if a requester is whitelisted to use the Airnode–endpoint pair.airnodeToEndpointIdToRequesterToWhitelistStatus
: Called to get the detailed whitelist status of a requester for the Airnode–endpoint pair.
# Custom Authorizers
Custom authorizer contracts can implement any arbitrary authorization logic. An example might be where Airnode only responds to requests if the requester has made less than a specific number of requests to the Airnode in the last month, effectively implementing an on-chain call quota.
# Authorizer List
Airnode authorizers are listed in the config.json file at
chains[n].authorizers.
An authorizer typically checks for a single condition (has the requester made
their monthly payment, is the requester
whitelisted, etc.). Authorizers can be
combined to enforce more complex policies. If any of the authorizers in
chains[n].authorizers
gives access, the request will considered to be
authorized. From a logical standpoint, the authorization outcomes get ORed.
# Authorizer Interface
Authorizer contracts that inherit from IAuthorizer
can be used to implement an
arbitrary authorization policy based on its input parameters.
requestId
: bytes32airnode
: addressendpointId
: bytes32sponsor
: addressrequester
: address
Note that the authorizer does not have to use all of the arguments, and can even
decide on arbitrary on-chain criteria such as block.number
(e.g., do not
respond to anyone after block number N). An authorizer is a contract with the
following interface:
interface IAuthorizerV0 {
function isAuthorizedV0(
bytes32 requestId,
address airnode,
bytes32 endpointId,
address sponsor,
address requester
) external view returns (bool);
}
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Below is an example of how to create the simplest form of an authorizer. This authorizer allows any requester contract to call the endpointId (0xf2ee...).
// SPDX-License-Identifier: MIT
pragma solidity 0.8.9;
import "@api3/airnode-protocol/contracts/authorizers/interfaces/IAuthorizerV0.sol";
contract MyAuthorizer is IAuthorizerV0
{
function isAuthorizedV0(
bytes32 requestId,
address airnode,
bytes32 endpointId,
address sponsor,
address requester
) external view override returns (bool) {
bytes32 expected = 0xf2ee...;
return endpointId == expected;
}
}
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# Why is an authorizers scheme needed?
Airnodes need the ability to fulfill requests selectively. This is required for two main reasons:
- The Airnode only fulfills requests made by requesters who have made payment to the Airnode owner, which allows them to monetize their services.
- The services of the Airnode are sensitive and can only be accessed by certain requesters, e.g., who have gone through KYC.
A protocol that does not have the authorizers
scheme or equivalent
functionality cannot be considered as permissionless, and will not be able to
achieve wide-spread adoption.
Currently there is only one authorizers
scheme type, see
requesterEndpointAuthorizers (opens new window).
The authorizers
scheme type is set in
chains[n].authorizers.{<authorizerSchemeType>}
of config.json
.
chains[n].authorizers:{requesterEndpointAuthorizers:[]},
# Are authorizers required?
Authorizers are not required. An Airnode operator could use Authorizations or Relayed Meta Data Security Schemes. It is possible to use both authorizers, authorizations, and relay security schemes together.
# How are authorizers implemented?
There are two main points to consider about how authorization policies are implemented:
- If the policies are kept off-chain, the requester cannot see them or check if they satisfy them. Furthermore, the Airnode owner updating the policies (e.g., increasing the service fees) requires off-chain coordination with the requester.
- Embedding the policies in the request–response loop results in a gas cost overhead.
Based on these considerations, Airnode uses a hybrid method. An Airnode announces its authorization policy through off-chain channels as the addresses of a list of authorizer contracts. Whenever the Airnode receives a request, it checks if it should fulfill this request by making a static call that queries this on-chain policy. Similarly, the requester can use this on-chain policy by making a static call to check if they are authorized. This scheme both allows the Airnode to set transparent and flexible policies, and this to be done with no gas overhead.
# Access (allow, filter)
How authorizer contracts impact access is based on the chains
field of
config.json
for a given Airnode.
# Allow All
When chains[n].authorizers.{<authorizerSchemeType>}
(such as the
requesterEndpointAuthorizers
type) is an empty array, this means "let everyone
through". In the example below, all chain 2 requests are authorized.
"chains": [
{
"id": "2",
"authorizers": { "requesterEndpointAuthorizers": [] }
...
},
...
]
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# Filter All
If the Airnode wants to give access selectively, it should use one or more
authorizer contracts that implement filtering logic. In the example below, a
request would be authorized on chain 2 if either of the two
requesterEndpointAuthorizers
contracts authorize the request.
"chains": [
{
"id": "2",
"authorizers": { "requesterEndpointAuthorizers": ["0xcd...cd8d", "0xff...d19c"] }
...
}
]
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# Pre-built Authorizer Contracts
Airnode provides two authorizer contracts, one of which (RequesterAuthorizerWithAirnode) can be used by any API provider. The other (RequesterAuthorizerWithManager) is meant to be used by the API3 DAO. Custom authorizer contract can also be created to provide other verification logic.
# RequesterAuthorizerWithAirnode
This contract implements a requester-based RRP authorizer with three types of roles.
- Whitelist expiration extender: Is allowed to extend temporary whitelisting expiration.
- Whitelist expiration setter: Is allowed to set the temporary whitelisting expiration (i.e., they can also reduce the expiration time).
- Indefinite whitelister: Is allowed to whitelist/unwhitelist indefinitely Each Airnode's address is treated as if they have all these three roles for the respective Airnode, and they can also grant these roles to other accounts, which includes contracts that implement arbitrary business logic.
# extendWhitelistExpiration
The extendWhitelistExpiration()
function can be called by a whitelist
expiration extender or the Airnode address to extend the whitelist expiration of
a requester for the Airnode–endpoint pair.
This function emits a ExtendedWhitelistExpiration
event with the following
signature:
event ExtendedWhitelistExpiration(
address indexed airnode,
bytes32 endpointId,
address indexed requester,
address indexed sender,
uint256 expiration
);
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# setWhitelistExpiration
The setWhitelistExpiration()
function can be called by a whitelist expiration
setter or the Airnode address to set the whitelisting expiration of a requester
for the Airnode–endpoint pair. This can hasten expiration.
This function emits a SetWhitelistExpiration
event with the following
signature:
event SetWhitelistExpiration(
address indexed airnode,
bytes32 endpointId,
address indexed requester,
address indexed sender,
uint256 expiration
);
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# setWhitelistStatusPastExpiration
The setWhitelistStatusPastExpiration()
function can be called by an indefinite
whitelister or the Airnode address to set the whitelist status of a requester
past expiration for the Airnode–endpoint pair. This is useful to allow access to
an API even if the expiration date has passed. For example, keep authorizing
requests while a sum of API3 tokens is locked.
This function emits a ExtendedWhitelistExpiration
event with the following
signature:
event SetWhitelistStatusPastExpiration(
address indexed airnode,
bytes32 endpointId,
address indexed requester,
address indexed sender,
bool status
);
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# isAuthorized
The isAuthorized()
function will be called by AirnodeRrpV0 to verify the
authorization status of a request. This function will return true for all
whitelisted requester contracts, admins and Airnode operator address.
# RequesterAuthorizerWithManager
This contract implements a requester-based RRP authorizer and assigns the API3 DAO as the manager or in other words, the highest ranking admin across all Airnodes.
The manager and the accounts that it has granted the whitelist expiration
extender, whitelist expiration setter and the indefinite whitelister roles will
use RequesterAuthorizerWithManager
to whitelist requesters across all
Airnodes.
# extendWhitelistExpiration
The extendWhitelistExpiration()
function can be called by a whitelist
expiration extender or the manager to extend the whitelist expiration of a
requester for the Airnode–endpoint pair.
This function emits a ExtendedWhitelistExpiration
event with the following
signature:
event ExtendedWhitelistExpiration(
address indexed airnode,
bytes32 endpointId,
address indexed requester,
address indexed sender,
uint256 expiration
);
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# setWhitelistExpiration
The setWhitelistExpiration()
function can be called by a whitelist expiration
setter or the manager to set the whitelisting expiration of a requester for the
Airnode–endpoint pair. This can hasten expiration.
This function emits a SetWhitelistExpiration
event with the following
signature:
event SetWhitelistExpiration(
address indexed airnode,
bytes32 endpointId,
address indexed requester,
address indexed sender,
uint256 expiration
);
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# setWhitelistStatusPastExpiration
The setWhitelistStatusPastExpiration()
function can be called by an indefinite
whitelister or the manager to set the whitelist status of a requester past
expiration for the Airnode–endpoint pair. This is useful to allow access to an
API even if the expiration date has passed. For example, keep authorizing
requests while a sum of API3 tokens is locked.
This function emits a ExtendedWhitelistExpiration
event with the following
signature:
event SetWhitelistStatusPastExpiration(
address indexed airnode,
bytes32 endpointId,
address indexed requester,
address indexed sender,
bool status
);
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# isAuthorized
The isAuthorized()
function will be called by AirnodeRrpV0 to verify the
authorization status of a request. This function will return true for all
whitelisted requester contracts, admins and the meta-admin address.