9e012ecc93
This commit is a step to split the lnwallet package. It puts the Input interface and implementations in a separate package along with all their dependencies from lnwallet. |
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| .. | ||
| auth.go | ||
| constraints_test.go | ||
| constraints.go | ||
| README.md | ||
| service_test.go | ||
| service.go | ||
| store_test.go | ||
| store.go | ||
macaroons
This is a more detailed, technical description of how macaroons work and how
authentication and authorization is implemented in lnd.
For a more high-level overview see macaroons.md in the docs.
Root key
At startup, if the option --no-macaroons is not used, a Bolt DB key/value
store named data/macaroons.db is created with a bucket named macrootkeys.
In this DB the following two key/value pairs are stored:
- Key
0: the encrypted root key (32 bytes).- If the root key does not exist yet, 32 bytes of pseudo-random data is generated and used.
- Key
enckey: the parameters used to derive a secret encryption key from a passphrase.- The following parameters are stored:
<salt><digest><N><R><P>salt: 32 byte of random data used as salt for thescryptkey derivation.digest: sha256 hashed key derived from thescryptoperation. Is used to verify if the password is correct.N,P,R: Parameters used for thescryptoperation.
- The root key is symmetrically encrypted with the derived secret key, using
the
secretboxmethod of the library btcsuite/golangcrypto. - If the option
--noseedbackupis used, then the default passphrasehellois used to encrypt the root key.
- The following parameters are stored:
Generated macaroons
With the root key set up, lnd continues with creating three macaroon files:
invoice.macaroon: Grants read and write access to all invoice related gRPC commands (like generating an address or adding an invoice). Can be used for a web shop application for example. Paying an invoice is not possible, even if the name might suggest it. The permissionoffchainis needed to pay an invoice which is currently only granted in the admin macaroon.readonly.macaroon: Grants read-only access to all gRPC commands. Could be given to a monitoring application for example.admin.macaroon: Grants full read and write access to all gRPC commands. This is used by thelncliclient.
These three macaroons all have the location field set to lnd and have no
conditions/first party caveats or third party caveats set.
The access restrictions are implemented with a list of entity/action pairs that
is mapped to the gRPC functions by the rpcserver.go.
For example, the permissions for the invoice.macaroon looks like this:
// invoicePermissions is a slice of all the entities that allows a user
// to only access calls that are related to invoices, so: streaming
// RPCs, generating, and listening invoices.
invoicePermissions = []bakery.Op{
{
Entity: "invoices",
Action: "read",
},
{
Entity: "invoices",
Action: "write",
},
{
Entity: "address",
Action: "read",
},
{
Entity: "address",
Action: "write",
},
}
Constraints / First party caveats
There are currently two constraints implemented that can be used by lncli to
restrict the macaroon it uses to communicate with the gRPC interface. These can
be found in constraints.go:
TimeoutConstraint: Set a timeout in seconds after which the macaroon is no longer valid. This constraint can be set by adding the parameter--macaroontimeout xyto thelnclicommand.IPLockConstraint: Locks the macaroon to a specific IP address. This constraint can be set by adding the parameter--macaroonip a.b.c.dto thelnclicommand.