This module provides the implementation of the Ledger Ethereum signer of the Device Management Kit. It enables interaction with the Ethereum application on a Ledger device including:
- Retrieving the Ethereum address using a given derivation path;
- Signing an Ethereum transaction (Clear Signing);
- Signing a message displayed on a Ledger device;
- Signing an EIP-712 specified message.
The Ledger Ethereum Signer utilizes the advanced capabilities of the Ledger device to provide secure operations for end users. It takes advantage of the interface provided by the Device Management Kit to establish communication with the Ledger device and execute various operations, including signing transactions. The communication with the Ledger device is performed using APDUs (Application Protocol Data Units), which are encapsulated within the Command
object. These commands are then organized into tasks, allowing for the execution of complex operations with one or more APDUs. The tasks are further encapsulated within DeviceAction
objects to handle different real-world scenarios. Finally, the Signer exposes dedicated and independent use cases that can be directly utilized by end users.
Note: This module is not standalone; it depends on the @ledgerhq/device-management-kit package, so you need to install it first.
To install the device-signer-kit-ethereum
package, run the following command:
npm install @ledgerhq/device-signer-kit-ethereum
To initialize an Ethereum signer instance, you need a Ledger Device Management Kit instance and the ID of the session of the connected device. Use the SignerEthBuilder
along with the Context Module by default developed by Ledger:
// Initialize an Ethereum signer instance using default context module
const signerEth = new SignerEthBuilder({ sdk, sessionId }).build();
You can also configure the context module yourself:
// Initialize an Ethereum signer instance using customized context module
const signerEth = new SignerEthBuilder({ sdk, sessionId })
.withContextModule(customContextModule)
.build();
The SignerEthBuilder.build()
method will return a SignerEth
instance that exposes 4 dedicated methods, each of which calls an independent use case. Each use case will return an object that contains an observable and a method called cancel
.
This method allows users to retrieve the Ethereum address according to given derivationPath
.
const { observable, cancel } = signerEth.getAddress(derivationPath, options);
Parameters
-
derivationPath
- Required
-
Type:
string
(e.g.,"44'/60'/0'/0/0"
) - The derivation path used for the Ethereum address. See here for more information.
-
options
-
Optional
-
Type:
AddressOptions
type AddressOptions = { checkOnDevice?: boolean; returnChainCode?: boolean; };
-
checkOnDevice
: An optional boolean indicating whether user confirmation on the device is required (true
) or not (false
). -
returnChainCode
: An optional boolean indicating whether the chain code should be returned (true
) or not (false
).
-
Returns
-
observable
-
An Observable object that contains the
DeviceActionState
derived instance, which reprensents the operation's state. For example:observable.subscribe({ next: (state: DeviceActionState) => { switch (state.status) { case DeviceActionStatus.NotStarted: { console.log("The action is not started yet."); break; } case DeviceActionStatus.Pending: { const { intermediateValue: { requiredUserInteraction }, } = state; // Access the intermediate value here, explained below console.log( "The action is pending and the intermediate value is: ", intermediateValue, ); break; } case DeviceActionStatus.Stopped: { console.log("The action has been stopped."); break; } case DeviceActionStatus.Completed: { const { output } = state; // Access the output of the completed action here console.log("The action has been completed: ", output); break; } case DeviceActionStatus.Error: { const { error } = state; // Access the error here if occured console.log("An error occured during the action: ", error); break; } } }, });
-
When the action status is
DeviceActionStatus.Pending
, the state will include anintermediateValue
object that provides useful information for interaction:const { requiredUserInteraction } = intermediateValue; switch (requiredUserInteraction) { case UserInteractionRequired.VerifyAddress: { // User needs to verify the address displayed on the device console.log( "User needs to verify the address displayed on the device.", ); break; } case UserInteractionRequired.None: { // No user action required console.log("No user action needed."); break; } case UserInteractionRequired.UnlockDevice: { // User needs to unlock the device console.log("The user needs to unlock the device."); break; } case UserInteractionRequired.ConfirmOpenApp: { // User needs to confirm on the device to open the app console.log("The user needs to confirm on the device to open the app."); break; } default: // Type guard to ensure all cases are handled const uncaughtUserInteraction: never = requiredUserInteraction; console.error( "Unhandled user interaction case:", uncaughtUserInteraction, ); }
-
When the action status is
DeviceActionStatus.Completed
, the execution result can be accessed through theoutput
property in the state. Theoutput
property is of typeGetAddressCommandResponse
, which has the following structure:type GetAddressCommandResponse = { publicKey: string; address: `0x${string}`; chainCode?: string; };
-
-
cancel
- The function without a return value to cancel the action on the Ledger device.
This method enables users to securely sign transactions using clear signing on Ledger devices.
const { observable, cancel } = signerEth.signTransaction(
derivationPath,
transaction,
options,
);
Parameters
-
derivationPath
- Required
-
Type:
string
(e.g.,"44'/60'/0'/0/0"
) - The derivation path used in the transaction. See here for more information.
-
transaction
-
options
-
Optional
-
Type:
TransactionOptions
type TransactionOptions = { domain?: string; };
-
domain
An optional string representing the domain present in the transaction. Currently, only ENS domains are supported.
-
Returns
-
observable
-
An Observable object that contains the
DeviceActionState
derived instance which reprensents the operation's state. For example:observable.subscribe({ next: (state: SignTransactionDAState) => { switch (state.status) { case DeviceActionStatus.NotStarted: { console.log("The action is not started yet."); break; } case DeviceActionStatus.Pending: { const { intermediateValue: { requiredUserInteraction }, } = state; // Access the intermediate value here, explained below console.log( "The action is pending and the intermediate value is: ", intermediateValue, ); break; } case DeviceActionStatus.Stopped: { console.log("The action has been stopped."); break; } case DeviceActionStatus.Completed: { const { output } = state; // Access the output of the completed action here console.log("The action has been completed: ", output); break; } case DeviceActionStatus.Error: { const { error } = state; // Access the error here if occured console.log("An error occured during the action: ", error); break; } } }, });
-
When the action status is
DeviceActionStatus.Pending
, the state will include anintermediateValue
object that provides useful information for interaction:const { requiredUserInteraction } = intermediateValue; switch (requiredUserInteraction) { case UserInteractionRequired.SignTransaction: { // User needs to sign the transaction displayed on the device console.log( "User needs to sign the transaction displayed on the device.", ); break; } case UserInteractionRequired.None: { // No user action required console.log("No user action needed."); break; } case UserInteractionRequired.UnlockDevice: { // User needs to unlock the device console.log("The user needs to unlock the device."); break; } case UserInteractionRequired.ConfirmOpenApp: { // User needs to confirm on the device to open the app console.log("The user needs to confirm on the device to open the app."); break; } default: // Type guard to ensure all cases are handled const uncaughtUserInteraction: never = requiredUserInteraction; console.error( "Unhandled user interaction case:", uncaughtUserInteraction, ); }
-
When the action status is
DeviceActionStatus.Completed
, the execution result can be accessed through theoutput
property in the state. This property is aSignature
object with the following structure:type Signature = { r: `0x${string}`; s: `0x${string}`; v: number; };
-
-
cancel
- The function without a return value to cancel the action on the Ledger device.
This method allows users to sign a text string that is displayed on Ledger devices.
const { observable, cancel } = signerEth.signMessage(derivationPath, message);
Parameters
-
derivationPath
- Required
-
Type:
string
(e.g.,"44'/60'/0'/0/0"
) - The derivation path used by the Ethereum message. See here for more information.
-
message
- Required
-
Type:
string
- The message to be signed, which will be displayed on the Ledger device.
Returns
-
observable
-
An Observable object that contains the
DeviceActionState
derived instance which reprensents the operation's state. For example:observable.subscribe({ next: (state: SignPersonalMessageDAState) => { switch (state.status) { case DeviceActionStatus.NotStarted: { console.log("The action is not started yet."); break; } case DeviceActionStatus.Pending: { const { intermediateValue: { requiredUserInteraction }, } = state; // Access the intermediate value here, explained below console.log( "The action is pending and the intermediate value is: ", intermediateValue, ); break; } case DeviceActionStatus.Stopped: { console.log("The action has been stopped."); break; } case DeviceActionStatus.Completed: { const { output } = state; // Access the output of the completed action here console.log("The action has been completed: ", output); break; } case DeviceActionStatus.Error: { const { error } = state; // Access the error here if occured console.log("An error occured during the action: ", error); break; } } }, });
-
When the action status is
DeviceActionStatus.Pending
, the state will include anintermediateValue
object that provides useful information for interaction:const { requiredUserInteraction } = intermediateValue; switch (requiredUserInteraction) { case UserInteractionRequired.SignPersonalMessage: { // User needs to sign the message displayed on the device console.log("User needs to sign the message displayed on the device."); break; } case UserInteractionRequired.None: { // No user action required console.log("No user action needed."); break; } case UserInteractionRequired.UnlockDevice: { // User needs to unlock the device console.log("The user needs to unlock the device."); break; } case UserInteractionRequired.ConfirmOpenApp: { // User needs to confirm on the device to open the app console.log("The user needs to confirm on the device to open the app."); break; } default: // Type guard to ensure all cases are handled const uncaughtUserInteraction: never = requiredUserInteraction; console.error( "Unhandled user interaction case:", uncaughtUserInteraction, ); }
-
When the action status is
DeviceActionStatus.Completed
, the execution result can be accessed through theoutput
property in the state. This property is aSignature
object with the following structure:type Signature = { r: `0x${string}`; s: `0x${string}`; v: number; };
-
-
cancel
- The function without a return value to cancel the action on the Ledger device.
This method enables users to sign an Ethereum message following the EIP-712 specification.
const { observable, cancel } = signerEth.signTypedData(
derivationPath,
typedData,
);
Parameters
-
derivationPath
- Required
-
Type:
string
(e.g.,"44'/60'/0'/0/0"
) - The derivation path used by the Ethereum message. See here for more information.
-
typedData
-
Required
-
Type:
TypedData
interface TypedData { domain: TypedDataDomain; types: Record<string, Array<TypedDataField>>; primaryType: string; message: Record<string, unknown>; } interface TypedDataDomain { name?: string; version?: string; chainId?: number; verifyingContract?: string; salt?: string; } interface TypedDataField { name: string; type: string; }
-
The typed data as defined at EIP-712.
-
Returns
-
observable
-
An Observable object that contains the
DeviceActionState
derived instance which reprensents the operation's state. For example:observable.subscribe({ next: (state: SignTypedDataDAState) => { switch (state.status) { case DeviceActionStatus.NotStarted: { console.log("The action is not started yet."); break; } case DeviceActionStatus.Pending: { const { intermediateValue } = state; // Access the intermediate value here, explained below console.log( "The action is pending and the intermediate value is: ", requiredUserInteraction, ); break; } case DeviceActionStatus.Stopped: { console.log("The action has been stopped."); break; } case DeviceActionStatus.Completed: { const { output } = state; // Access the output of the completed action here, explained below console.log("The action has been completed: ", output); break; } case DeviceActionStatus.Error: { const { error } = state; // Access the error here if occured console.log("An error occured during the action: ", error); break; } } }, });
-
When the action status is
DeviceActionStatus.Pending
, the state will include anintermediateValue
object that provides useful information for interaction:const { requiredUserInteraction } = intermediateValue; switch (requiredUserInteraction) { case UserInteractionRequired.SignTypedData: { // User needs to sign the typed data displayed on the device console.log( "User needs to sign the typed data displayed on the device.", ); break; } case UserInteractionRequired.None: { // No user action required console.log("No user action needed."); break; } case UserInteractionRequired.UnlockDevice: { // User needs to unlock the device console.log("The user needs to unlock the device."); break; } case UserInteractionRequired.ConfirmOpenApp: { // User needs to confirm on the device to open the app console.log("The user needs to confirm on the device to open the app."); break; } default: // Type guard to ensure all cases are handled const uncaughtUserInteraction: never = requiredUserInteraction; console.error( "Unhandled user interaction case:", uncaughtUserInteraction, ); }
-
When the action status is
DeviceActionStatus.Completed
, the execution result can be accessed through theoutput
property in the state. This property is aSignature
object with the following structure:type Signature = { r: `0x${string}`; s: `0x${string}`; v: number; };
-
-
cancel
- The function without a return value to cancel the action on the Ledger device.
We encourage you to explore the Ethereum Signer by trying it out in our online sample application. Experience how it works and see its capabilities in action. Of course, you will need a Ledger device connected.