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b628d72766
This changes the CI / release builds to use the latest Go version. It also upgrades golangci-lint to a newer version compatible with Go 1.19. In Go 1.19, godoc has gained official support for links and lists. The syntax for code blocks in doc comments has changed and now requires a leading tab character. gofmt adapts comments to the new syntax automatically, so there are a lot of comment re-formatting changes in this PR. We need to apply the new format in order to pass the CI lint stage with Go 1.19. With the linter upgrade, I have decided to disable 'gosec' - it produces too many false-positive warnings. The 'deadcode' and 'varcheck' linters have also been removed because golangci-lint warns about them being unmaintained. 'unused' provides similar coverage and we already have it enabled, so we don't lose much with this change.
227 lines
10 KiB
Go
227 lines
10 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 accounts implements high level Ethereum account management.
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package accounts
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import (
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"fmt"
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"math/big"
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"github.com/ethereum/go-ethereum"
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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/event"
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"golang.org/x/crypto/sha3"
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)
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// Account represents an Ethereum account located at a specific location defined
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// by the optional URL field.
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type Account struct {
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Address common.Address `json:"address"` // Ethereum account address derived from the key
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URL URL `json:"url"` // Optional resource locator within a backend
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}
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const (
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MimetypeDataWithValidator = "data/validator"
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MimetypeTypedData = "data/typed"
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MimetypeClique = "application/x-clique-header"
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MimetypeTextPlain = "text/plain"
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)
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// Wallet represents a software or hardware wallet that might contain one or more
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// accounts (derived from the same seed).
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type Wallet interface {
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// URL retrieves the canonical path under which this wallet is reachable. It is
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// used by upper layers to define a sorting order over all wallets from multiple
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// backends.
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URL() URL
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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. It is not meant to unlock or
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// decrypt account keys, rather simply to establish a connection to hardware
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// wallets and/or to access derivation seeds.
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//
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// The passphrase parameter may or may not be used by the implementation of a
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// particular wallet instance. The reason there is no passwordless open method
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// is to strive towards a uniform wallet handling, oblivious to the different
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// backend providers.
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//
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// Please note, if you open a wallet, you must close it to release any allocated
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// resources (especially important when working with hardware wallets).
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Open(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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// Accounts retrieves the list of signing accounts the wallet is currently aware
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// of. For hierarchical deterministic wallets, the list will not be exhaustive,
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// rather only contain the accounts explicitly pinned during account derivation.
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Accounts() []Account
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// Contains returns whether an account is part of this particular wallet or not.
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Contains(account Account) bool
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// Derive attempts to explicitly derive a hierarchical deterministic account at
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// the specified derivation path. If requested, the derived account will be added
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// to the wallet's tracked account list.
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Derive(path DerivationPath, pin bool) (Account, error)
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// SelfDerive sets a base account derivation path from which the wallet attempts
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// to discover non zero accounts and automatically add them to list of tracked
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// accounts.
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//
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// Note, self derivation will increment the last component of the specified path
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// opposed to descending into a child path to allow discovering accounts starting
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// from non zero components.
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//
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// Some hardware wallets switched derivation paths through their evolution, so
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// this method supports providing multiple bases to discover old user accounts
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// too. Only the last base will be used to derive the next empty account.
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//
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// You can disable automatic account discovery by calling SelfDerive with a nil
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// chain state reader.
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SelfDerive(bases []DerivationPath, chain ethereum.ChainStateReader)
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// SignData requests the wallet to sign the hash of the given data
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// It looks up the account specified either solely via its address contained within,
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// or optionally with the aid of any location metadata from the embedded URL field.
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//
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// If the wallet requires additional authentication to sign the request (e.g.
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// a password to decrypt the account, or a PIN code to verify the transaction),
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// an AuthNeededError instance will be returned, containing infos for the user
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// about which fields or actions are needed. The user may retry by providing
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// the needed details via SignDataWithPassphrase, or by other means (e.g. unlock
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// the account in a keystore).
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SignData(account Account, mimeType string, data []byte) ([]byte, error)
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// SignDataWithPassphrase is identical to SignData, but also takes a password
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// NOTE: there's a chance that an erroneous call might mistake the two strings, and
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// supply password in the mimetype field, or vice versa. Thus, an implementation
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// should never echo the mimetype or return the mimetype in the error-response
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SignDataWithPassphrase(account Account, passphrase, mimeType string, data []byte) ([]byte, error)
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// SignText requests the wallet to sign the hash of a given piece of data, prefixed
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// by the Ethereum prefix scheme
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// It looks up the account specified either solely via its address contained within,
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// or optionally with the aid of any location metadata from the embedded URL field.
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//
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// If the wallet requires additional authentication to sign the request (e.g.
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// a password to decrypt the account, or a PIN code to verify the transaction),
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// an AuthNeededError instance will be returned, containing infos for the user
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// about which fields or actions are needed. The user may retry by providing
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// the needed details via SignTextWithPassphrase, or by other means (e.g. unlock
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// the account in a keystore).
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//
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// This method should return the signature in 'canonical' format, with v 0 or 1.
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SignText(account Account, text []byte) ([]byte, error)
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// SignTextWithPassphrase is identical to Signtext, but also takes a password
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SignTextWithPassphrase(account Account, passphrase string, hash []byte) ([]byte, error)
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// SignTx requests the wallet to sign the given transaction.
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//
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// It looks up the account specified either solely via its address contained within,
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// or optionally with the aid of any location metadata from the embedded URL field.
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//
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// If the wallet requires additional authentication to sign the request (e.g.
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// a password to decrypt the account, or a PIN code to verify the transaction),
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// an AuthNeededError instance will be returned, containing infos for the user
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// about which fields or actions are needed. The user may retry by providing
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// the needed details via SignTxWithPassphrase, or by other means (e.g. unlock
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// the account in a keystore).
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SignTx(account Account, tx *types.Transaction, chainID *big.Int) (*types.Transaction, error)
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// SignTxWithPassphrase is identical to SignTx, but also takes a password
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SignTxWithPassphrase(account Account, passphrase string, tx *types.Transaction, chainID *big.Int) (*types.Transaction, error)
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}
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// Backend is a "wallet provider" that may contain a batch of accounts they can
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// sign transactions with and upon request, do so.
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type Backend interface {
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// Wallets retrieves the list of wallets the backend is currently aware of.
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//
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// The returned wallets are not opened by default. For software HD wallets this
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// means that no base seeds are decrypted, and for hardware wallets that no actual
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// connection is established.
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//
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// The resulting wallet list will be sorted alphabetically based on its internal
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// URL assigned by the backend. Since wallets (especially hardware) may come and
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// go, the same wallet might appear at a different positions in the list during
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// subsequent retrievals.
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Wallets() []Wallet
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// Subscribe creates an async subscription to receive notifications when the
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// backend detects the arrival or departure of a wallet.
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Subscribe(sink chan<- WalletEvent) event.Subscription
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}
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// TextHash is a helper function that calculates a hash for the given message that can be
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// safely used to calculate a signature from.
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//
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// The hash is calculated as
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//
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// keccak256("\x19Ethereum Signed Message:\n"${message length}${message}).
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//
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// This gives context to the signed message and prevents signing of transactions.
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func TextHash(data []byte) []byte {
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hash, _ := TextAndHash(data)
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return hash
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}
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// TextAndHash is a helper function that calculates a hash for the given message that can be
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// safely used to calculate a signature from.
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//
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// The hash is calculated as
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//
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// keccak256("\x19Ethereum Signed Message:\n"${message length}${message}).
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//
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// This gives context to the signed message and prevents signing of transactions.
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func TextAndHash(data []byte) ([]byte, string) {
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msg := fmt.Sprintf("\x19Ethereum Signed Message:\n%d%s", len(data), string(data))
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hasher := sha3.NewLegacyKeccak256()
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hasher.Write([]byte(msg))
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return hasher.Sum(nil), msg
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}
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// WalletEventType represents the different event types that can be fired by
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// the wallet subscription subsystem.
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type WalletEventType int
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const (
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// WalletArrived is fired when a new wallet is detected either via USB or via
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// a filesystem event in the keystore.
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WalletArrived WalletEventType = iota
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// WalletOpened is fired when a wallet is successfully opened with the purpose
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// of starting any background processes such as automatic key derivation.
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WalletOpened
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// WalletDropped
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WalletDropped
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)
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// WalletEvent is an event fired by an account backend when a wallet arrival or
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// departure is detected.
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type WalletEvent struct {
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Wallet Wallet // Wallet instance arrived or departed
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Kind WalletEventType // Event type that happened in the system
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}
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