578 lines
20 KiB
Go
578 lines
20 KiB
Go
// Copyright 2017 The go-ethereum Authors
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// This file is part of the go-ethereum library.
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//
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// The go-ethereum library is free software: you can redistribute it and/or modify
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// it under the terms of the GNU Lesser General Public License as published by
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// the Free Software Foundation, either version 3 of the License, or
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// (at your option) any later version.
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//
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// The go-ethereum library is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU Lesser General Public License for more details.
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//
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// You should have received a copy of the GNU Lesser General Public License
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// along with the go-ethereum library. If not, see <http://www.gnu.org/licenses/>.
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// Package usbwallet implements support for USB hardware wallets.
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package usbwallet
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import (
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"context"
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"fmt"
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"io"
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"math/big"
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"sync"
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"time"
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ethereum "github.com/ethereum/go-ethereum"
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"github.com/ethereum/go-ethereum/accounts"
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"github.com/ethereum/go-ethereum/common"
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"github.com/ethereum/go-ethereum/core/types"
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/log"
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"github.com/karalabe/hid"
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)
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// Maximum time between wallet health checks to detect USB unplugs.
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const heartbeatCycle = time.Second
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// Minimum time to wait between self derivation attempts, even it the user is
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// requesting accounts like crazy.
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const selfDeriveThrottling = time.Second
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// driver defines the vendor specific functionality hardware wallets instances
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// must implement to allow using them with the wallet lifecycle management.
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type driver interface {
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// Status returns a textual status to aid the user in the current state of the
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// wallet. It also returns an error indicating any failure the wallet might have
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// encountered.
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Status() (string, error)
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// Open initializes access to a wallet instance. The passphrase parameter may
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// or may not be used by the implementation of a particular wallet instance.
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Open(device io.ReadWriter, passphrase string) error
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// Close releases any resources held by an open wallet instance.
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Close() error
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// Heartbeat performs a sanity check against the hardware wallet to see if it
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// is still online and healthy.
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Heartbeat() error
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// Derive sends a derivation request to the USB device and returns the Ethereum
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// address located on that path.
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Derive(path accounts.DerivationPath) (common.Address, error)
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// SignTx sends the transaction to the USB device and waits for the user to confirm
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// or deny the transaction.
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SignTx(path accounts.DerivationPath, tx *types.Transaction, chainID *big.Int) (common.Address, *types.Transaction, error)
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}
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// wallet represents the common functionality shared by all USB hardware
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// wallets to prevent reimplementing the same complex maintenance mechanisms
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// for different vendors.
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type wallet struct {
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hub *Hub // USB hub scanning
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driver driver // Hardware implementation of the low level device operations
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url *accounts.URL // Textual URL uniquely identifying this wallet
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info hid.DeviceInfo // Known USB device infos about the wallet
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device *hid.Device // USB device advertising itself as a hardware wallet
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accounts []accounts.Account // List of derive accounts pinned on the hardware wallet
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paths map[common.Address]accounts.DerivationPath // Known derivation paths for signing operations
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deriveNextPath accounts.DerivationPath // Next derivation path for account auto-discovery
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deriveNextAddr common.Address // Next derived account address for auto-discovery
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deriveChain ethereum.ChainStateReader // Blockchain state reader to discover used account with
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deriveReq chan chan struct{} // Channel to request a self-derivation on
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deriveQuit chan chan error // Channel to terminate the self-deriver with
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healthQuit chan chan error
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// Locking a hardware wallet is a bit special. Since hardware devices are lower
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// performing, any communication with them might take a non negligible amount of
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// time. Worse still, waiting for user confirmation can take arbitrarily long,
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// but exclusive communication must be upheld during. Locking the entire wallet
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// in the mean time however would stall any parts of the system that don't want
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// to communicate, just read some state (e.g. list the accounts).
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//
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// As such, a hardware wallet needs two locks to function correctly. A state
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// lock can be used to protect the wallet's software-side internal state, which
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// must not be held exclusively during hardware communication. A communication
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// lock can be used to achieve exclusive access to the device itself, this one
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// however should allow "skipping" waiting for operations that might want to
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// use the device, but can live without too (e.g. account self-derivation).
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//
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// Since we have two locks, it's important to know how to properly use them:
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// - Communication requires the `device` to not change, so obtaining the
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// commsLock should be done after having a stateLock.
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// - Communication must not disable read access to the wallet state, so it
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// must only ever hold a *read* lock to stateLock.
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commsLock chan struct{} // Mutex (buf=1) for the USB comms without keeping the state locked
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stateLock sync.RWMutex // Protects read and write access to the wallet struct fields
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log log.Logger // Contextual logger to tag the base with its id
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}
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// URL implements accounts.Wallet, returning the URL of the USB hardware device.
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func (w *wallet) URL() accounts.URL {
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return *w.url // Immutable, no need for a lock
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}
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// Status implements accounts.Wallet, returning a custom status message from the
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// underlying vendor-specific hardware wallet implementation.
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func (w *wallet) Status() (string, error) {
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w.stateLock.RLock() // No device communication, state lock is enough
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defer w.stateLock.RUnlock()
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status, failure := w.driver.Status()
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if w.device == nil {
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return "Closed", failure
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}
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return status, failure
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}
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// Open implements accounts.Wallet, attempting to open a USB connection to the
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// hardware wallet.
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func (w *wallet) Open(passphrase string) error {
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w.stateLock.Lock() // State lock is enough since there's no connection yet at this point
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defer w.stateLock.Unlock()
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// If the device was already opened once, refuse to try again
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if w.paths != nil {
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return accounts.ErrWalletAlreadyOpen
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}
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// Make sure the actual device connection is done only once
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if w.device == nil {
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device, err := w.info.Open()
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if err != nil {
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return err
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}
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w.device = device
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w.commsLock = make(chan struct{}, 1)
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w.commsLock <- struct{}{} // Enable lock
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}
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// Delegate device initialization to the underlying driver
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if err := w.driver.Open(w.device, passphrase); err != nil {
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return err
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}
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// Connection successful, start life-cycle management
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w.paths = make(map[common.Address]accounts.DerivationPath)
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w.deriveReq = make(chan chan struct{})
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w.deriveQuit = make(chan chan error)
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w.healthQuit = make(chan chan error)
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go w.heartbeat()
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go w.selfDerive()
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// Notify anyone listening for wallet events that a new device is accessible
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go w.hub.updateFeed.Send(accounts.WalletEvent{Wallet: w, Kind: accounts.WalletOpened})
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return nil
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}
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// heartbeat is a health check loop for the USB wallets to periodically verify
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// whether they are still present or if they malfunctioned.
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func (w *wallet) heartbeat() {
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w.log.Debug("USB wallet health-check started")
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defer w.log.Debug("USB wallet health-check stopped")
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// Execute heartbeat checks until termination or error
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var (
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errc chan error
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err error
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)
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for errc == nil && err == nil {
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// Wait until termination is requested or the heartbeat cycle arrives
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select {
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case errc = <-w.healthQuit:
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// Termination requested
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continue
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case <-time.After(heartbeatCycle):
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// Heartbeat time
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}
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// Execute a tiny data exchange to see responsiveness
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w.stateLock.RLock()
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if w.device == nil {
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// Terminated while waiting for the lock
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w.stateLock.RUnlock()
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continue
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}
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<-w.commsLock // Don't lock state while resolving version
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err = w.driver.Heartbeat()
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w.commsLock <- struct{}{}
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w.stateLock.RUnlock()
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if err != nil {
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w.stateLock.Lock() // Lock state to tear the wallet down
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w.close()
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w.stateLock.Unlock()
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}
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// Ignore non hardware related errors
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err = nil
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}
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// In case of error, wait for termination
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if err != nil {
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w.log.Debug("USB wallet health-check failed", "err", err)
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errc = <-w.healthQuit
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}
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errc <- err
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}
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// Close implements accounts.Wallet, closing the USB connection to the device.
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func (w *wallet) Close() error {
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// Ensure the wallet was opened
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w.stateLock.RLock()
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hQuit, dQuit := w.healthQuit, w.deriveQuit
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w.stateLock.RUnlock()
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// Terminate the health checks
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var herr error
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if hQuit != nil {
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errc := make(chan error)
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hQuit <- errc
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herr = <-errc // Save for later, we *must* close the USB
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}
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// Terminate the self-derivations
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var derr error
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if dQuit != nil {
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errc := make(chan error)
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dQuit <- errc
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derr = <-errc // Save for later, we *must* close the USB
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}
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// Terminate the device connection
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w.stateLock.Lock()
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defer w.stateLock.Unlock()
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w.healthQuit = nil
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w.deriveQuit = nil
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w.deriveReq = nil
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if err := w.close(); err != nil {
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return err
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}
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if herr != nil {
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return herr
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}
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return derr
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}
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// close is the internal wallet closer that terminates the USB connection and
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// resets all the fields to their defaults.
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//
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// Note, close assumes the state lock is held!
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func (w *wallet) close() error {
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// Allow duplicate closes, especially for health-check failures
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if w.device == nil {
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return nil
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}
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// Close the device, clear everything, then return
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w.device.Close()
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w.device = nil
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w.accounts, w.paths = nil, nil
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return w.driver.Close()
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}
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// Accounts implements accounts.Wallet, returning the list of accounts pinned to
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// the USB hardware wallet. If self-derivation was enabled, the account list is
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// periodically expanded based on current chain state.
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func (w *wallet) Accounts() []accounts.Account {
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// Attempt self-derivation if it's running
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reqc := make(chan struct{}, 1)
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select {
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case w.deriveReq <- reqc:
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// Self-derivation request accepted, wait for it
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<-reqc
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default:
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// Self-derivation offline, throttled or busy, skip
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}
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// Return whatever account list we ended up with
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w.stateLock.RLock()
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defer w.stateLock.RUnlock()
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cpy := make([]accounts.Account, len(w.accounts))
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copy(cpy, w.accounts)
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return cpy
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}
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// selfDerive is an account derivation loop that upon request attempts to find
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// new non-zero accounts.
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func (w *wallet) selfDerive() {
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w.log.Debug("USB wallet self-derivation started")
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defer w.log.Debug("USB wallet self-derivation stopped")
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// Execute self-derivations until termination or error
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var (
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reqc chan struct{}
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errc chan error
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err error
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)
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for errc == nil && err == nil {
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// Wait until either derivation or termination is requested
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select {
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case errc = <-w.deriveQuit:
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// Termination requested
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continue
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case reqc = <-w.deriveReq:
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// Account discovery requested
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}
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// Derivation needs a chain and device access, skip if either unavailable
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w.stateLock.RLock()
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if w.device == nil || w.deriveChain == nil {
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w.stateLock.RUnlock()
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reqc <- struct{}{}
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continue
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}
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select {
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case <-w.commsLock:
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default:
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w.stateLock.RUnlock()
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reqc <- struct{}{}
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continue
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}
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// Device lock obtained, derive the next batch of accounts
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var (
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accs []accounts.Account
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paths []accounts.DerivationPath
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nextAddr = w.deriveNextAddr
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nextPath = w.deriveNextPath
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context = context.Background()
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)
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for empty := false; !empty; {
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// Retrieve the next derived Ethereum account
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if nextAddr == (common.Address{}) {
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if nextAddr, err = w.driver.Derive(nextPath); err != nil {
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w.log.Warn("USB wallet account derivation failed", "err", err)
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break
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}
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}
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// Check the account's status against the current chain state
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var (
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balance *big.Int
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nonce uint64
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)
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balance, err = w.deriveChain.BalanceAt(context, nextAddr, nil)
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if err != nil {
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w.log.Warn("USB wallet balance retrieval failed", "err", err)
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break
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}
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nonce, err = w.deriveChain.NonceAt(context, nextAddr, nil)
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if err != nil {
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w.log.Warn("USB wallet nonce retrieval failed", "err", err)
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break
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}
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// If the next account is empty, stop self-derivation, but add it nonetheless
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if balance.Sign() == 0 && nonce == 0 {
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empty = true
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}
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// We've just self-derived a new account, start tracking it locally
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path := make(accounts.DerivationPath, len(nextPath))
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copy(path[:], nextPath[:])
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paths = append(paths, path)
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account := accounts.Account{
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Address: nextAddr,
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URL: accounts.URL{Scheme: w.url.Scheme, Path: fmt.Sprintf("%s/%s", w.url.Path, path)},
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}
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accs = append(accs, account)
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// Display a log message to the user for new (or previously empty accounts)
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if _, known := w.paths[nextAddr]; !known || (!empty && nextAddr == w.deriveNextAddr) {
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w.log.Info("USB wallet discovered new account", "address", nextAddr, "path", path, "balance", balance, "nonce", nonce)
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}
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// Fetch the next potential account
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if !empty {
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nextAddr = common.Address{}
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nextPath[len(nextPath)-1]++
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}
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}
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// Self derivation complete, release device lock
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w.commsLock <- struct{}{}
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w.stateLock.RUnlock()
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// Insert any accounts successfully derived
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w.stateLock.Lock()
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for i := 0; i < len(accs); i++ {
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if _, ok := w.paths[accs[i].Address]; !ok {
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w.accounts = append(w.accounts, accs[i])
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w.paths[accs[i].Address] = paths[i]
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}
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}
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// Shift the self-derivation forward
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// TODO(karalabe): don't overwrite changes from wallet.SelfDerive
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w.deriveNextAddr = nextAddr
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w.deriveNextPath = nextPath
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w.stateLock.Unlock()
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// Notify the user of termination and loop after a bit of time (to avoid trashing)
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reqc <- struct{}{}
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if err == nil {
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select {
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case errc = <-w.deriveQuit:
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// Termination requested, abort
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case <-time.After(selfDeriveThrottling):
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// Waited enough, willing to self-derive again
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}
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}
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}
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// In case of error, wait for termination
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if err != nil {
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w.log.Debug("USB wallet self-derivation failed", "err", err)
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errc = <-w.deriveQuit
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}
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errc <- err
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}
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// Contains implements accounts.Wallet, returning whether a particular account is
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// or is not pinned into this wallet instance. Although we could attempt to resolve
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// unpinned accounts, that would be an non-negligible hardware operation.
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func (w *wallet) Contains(account accounts.Account) bool {
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w.stateLock.RLock()
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defer w.stateLock.RUnlock()
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_, exists := w.paths[account.Address]
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return exists
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}
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// Derive implements accounts.Wallet, deriving a new account at the specific
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// derivation path. If pin is set to true, the account will be added to the list
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// of tracked accounts.
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func (w *wallet) Derive(path accounts.DerivationPath, pin bool) (accounts.Account, error) {
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// Try to derive the actual account and update its URL if successful
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w.stateLock.RLock() // Avoid device disappearing during derivation
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if w.device == nil {
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w.stateLock.RUnlock()
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return accounts.Account{}, accounts.ErrWalletClosed
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}
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<-w.commsLock // Avoid concurrent hardware access
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address, err := w.driver.Derive(path)
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w.commsLock <- struct{}{}
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w.stateLock.RUnlock()
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// If an error occurred or no pinning was requested, return
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if err != nil {
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return accounts.Account{}, err
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}
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account := accounts.Account{
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Address: address,
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URL: accounts.URL{Scheme: w.url.Scheme, Path: fmt.Sprintf("%s/%s", w.url.Path, path)},
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}
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if !pin {
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return account, nil
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}
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// Pinning needs to modify the state
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w.stateLock.Lock()
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defer w.stateLock.Unlock()
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if _, ok := w.paths[address]; !ok {
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w.accounts = append(w.accounts, account)
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w.paths[address] = path
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}
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return account, nil
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}
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// SelfDerive implements accounts.Wallet, trying to discover accounts that the
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// user used previously (based on the chain state), but ones that he/she did not
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// explicitly pin to the wallet manually. To avoid chain head monitoring, self
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// derivation only runs during account listing (and even then throttled).
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func (w *wallet) SelfDerive(base accounts.DerivationPath, chain ethereum.ChainStateReader) {
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w.stateLock.Lock()
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defer w.stateLock.Unlock()
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w.deriveNextPath = make(accounts.DerivationPath, len(base))
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copy(w.deriveNextPath[:], base[:])
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w.deriveNextAddr = common.Address{}
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w.deriveChain = chain
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}
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// signHash implements accounts.Wallet, however signing arbitrary data is not
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// supported for hardware wallets, so this method will always return an error.
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func (w *wallet) signHash(account accounts.Account, hash []byte) ([]byte, error) {
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return nil, accounts.ErrNotSupported
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}
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// SignData signs keccak256(data). The mimetype parameter describes the type of data being signed
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func (w *wallet) SignData(account accounts.Account, mimeType string, data []byte) ([]byte, error) {
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return w.signHash(account, crypto.Keccak256(data))
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}
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// SignDataWithPassphrase implements accounts.Wallet, attempting to sign the given
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// data with the given account using passphrase as extra authentication.
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|
// Since USB wallets don't rely on passphrases, these are silently ignored.
|
|
func (w *wallet) SignDataWithPassphrase(account accounts.Account, passphrase, mimeType string, data []byte) ([]byte, error) {
|
|
return w.SignData(account, mimeType, data)
|
|
}
|
|
|
|
func (w *wallet) SignText(account accounts.Account, text []byte) ([]byte, error) {
|
|
return w.signHash(account, accounts.TextHash(text))
|
|
}
|
|
|
|
// SignTx implements accounts.Wallet. It sends the transaction over to the Ledger
|
|
// wallet to request a confirmation from the user. It returns either the signed
|
|
// transaction or a failure if the user denied the transaction.
|
|
//
|
|
// Note, if the version of the Ethereum application running on the Ledger wallet is
|
|
// too old to sign EIP-155 transactions, but such is requested nonetheless, an error
|
|
// will be returned opposed to silently signing in Homestead mode.
|
|
func (w *wallet) SignTx(account accounts.Account, tx *types.Transaction, chainID *big.Int) (*types.Transaction, error) {
|
|
w.stateLock.RLock() // Comms have own mutex, this is for the state fields
|
|
defer w.stateLock.RUnlock()
|
|
|
|
// If the wallet is closed, abort
|
|
if w.device == nil {
|
|
return nil, accounts.ErrWalletClosed
|
|
}
|
|
// Make sure the requested account is contained within
|
|
path, ok := w.paths[account.Address]
|
|
if !ok {
|
|
return nil, accounts.ErrUnknownAccount
|
|
}
|
|
// All infos gathered and metadata checks out, request signing
|
|
<-w.commsLock
|
|
defer func() { w.commsLock <- struct{}{} }()
|
|
|
|
// Ensure the device isn't screwed with while user confirmation is pending
|
|
// TODO(karalabe): remove if hotplug lands on Windows
|
|
w.hub.commsLock.Lock()
|
|
w.hub.commsPend++
|
|
w.hub.commsLock.Unlock()
|
|
|
|
defer func() {
|
|
w.hub.commsLock.Lock()
|
|
w.hub.commsPend--
|
|
w.hub.commsLock.Unlock()
|
|
}()
|
|
// Sign the transaction and verify the sender to avoid hardware fault surprises
|
|
sender, signed, err := w.driver.SignTx(path, tx, chainID)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
if sender != account.Address {
|
|
return nil, fmt.Errorf("signer mismatch: expected %s, got %s", account.Address.Hex(), sender.Hex())
|
|
}
|
|
return signed, nil
|
|
}
|
|
|
|
// SignHashWithPassphrase implements accounts.Wallet, however signing arbitrary
|
|
// data is not supported for Ledger wallets, so this method will always return
|
|
// an error.
|
|
func (w *wallet) SignTextWithPassphrase(account accounts.Account, passphrase string, text []byte) ([]byte, error) {
|
|
return w.SignText(account, accounts.TextHash(text))
|
|
}
|
|
|
|
// SignTxWithPassphrase implements accounts.Wallet, attempting to sign the given
|
|
// transaction with the given account using passphrase as extra authentication.
|
|
// Since USB wallets don't rely on passphrases, these are silently ignored.
|
|
func (w *wallet) SignTxWithPassphrase(account accounts.Account, passphrase string, tx *types.Transaction, chainID *big.Int) (*types.Transaction, error) {
|
|
return w.SignTx(account, tx, chainID)
|
|
}
|