lbcwallet/waddrmgr/manager_test.go

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2014-08-08 22:43:50 +02:00
/*
* Copyright (c) 2014 Conformal Systems LLC <info@conformal.com>
*
* Permission to use, copy, modify, and distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
*
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*/
package waddrmgr_test
import (
"encoding/hex"
"fmt"
"os"
"reflect"
"testing"
"github.com/btcsuite/btcnet"
"github.com/btcsuite/btcutil"
"github.com/btcsuite/btcwallet/waddrmgr"
"github.com/btcsuite/btcwallet/walletdb"
"github.com/btcsuite/btcwire"
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)
// newShaHash converts the passed big-endian hex string into a btcwire.ShaHash.
// It only differs from the one available in btcwire in that it panics on an
// error since it will only (and must only) be called with hard-coded, and
// therefore known good, hashes.
func newShaHash(hexStr string) *btcwire.ShaHash {
sha, err := btcwire.NewShaHashFromStr(hexStr)
if err != nil {
panic(err)
}
return sha
}
// testContext is used to store context information about a running test which
// is passed into helper functions. The useSpends field indicates whether or
// not the spend data should be empty or figure it out based on the specific
// test blocks provided. This is needed because the first loop where the blocks
// are inserted, the tests are running against the latest block and therefore
// none of the outputs can be spent yet. However, on subsequent runs, all
// blocks have been inserted and therefore some of the transaction outputs are
// spent.
type testContext struct {
t *testing.T
db walletdb.DB
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manager *waddrmgr.Manager
account uint32
create bool
unlocked bool
watchingOnly bool
}
// expectedAddr is used to house the expected return values from a managed
// address. Not all fields for used for all managed address types.
type expectedAddr struct {
address string
addressHash []byte
internal bool
compressed bool
imported bool
pubKey []byte
privKey []byte
privKeyWIF string
script []byte
}
// testNamePrefix is a helper to return a prefix to show for test errors based
// on the state of the test context.
func testNamePrefix(tc *testContext) string {
prefix := "Open "
if tc.create {
prefix = "Create "
}
return prefix + fmt.Sprintf("account #%d", tc.account)
}
// testManagedPubKeyAddress ensures the data returned by all exported functions
// provided by the passed managed p ublic key address matches the corresponding
// fields in the provided expected address.
//
// When the test context indicates the manager is unlocked, the private data
// will also be tested, otherwise, the functions which deal with private data
// are checked to ensure they return the correct error.
func testManagedPubKeyAddress(tc *testContext, prefix string, gotAddr waddrmgr.ManagedPubKeyAddress, wantAddr *expectedAddr) bool {
// Ensure pubkey is the expected value for the managed address.
var gpubBytes []byte
if gotAddr.Compressed() {
gpubBytes = gotAddr.PubKey().SerializeCompressed()
} else {
gpubBytes = gotAddr.PubKey().SerializeUncompressed()
}
if !reflect.DeepEqual(gpubBytes, wantAddr.pubKey) {
tc.t.Errorf("%s PubKey: unexpected public key - got %x, want "+
"%x", prefix, gpubBytes, wantAddr.pubKey)
return false
}
// Ensure exported pubkey string is the expected value for the managed
// address.
gpubHex := gotAddr.ExportPubKey()
wantPubHex := hex.EncodeToString(wantAddr.pubKey)
if gpubHex != wantPubHex {
tc.t.Errorf("%s ExportPubKey: unexpected public key - got %s, "+
"want %s", prefix, gpubHex, wantPubHex)
return false
}
// Ensure private key is the expected value for the managed address.
// Since this is only available when the manager is unlocked, also check
// for the expected error when the manager is locked.
gotPrivKey, err := gotAddr.PrivKey()
switch {
case tc.watchingOnly:
// Confirm expected watching-only error.
testName := fmt.Sprintf("%s PrivKey", prefix)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrWatchingOnly) {
return false
}
case tc.unlocked:
if err != nil {
tc.t.Errorf("%s PrivKey: unexpected error - got %v",
prefix, err)
return false
}
gpriv := gotPrivKey.Serialize()
if !reflect.DeepEqual(gpriv, wantAddr.privKey) {
tc.t.Errorf("%s PrivKey: unexpected private key - "+
"got %x, want %x", prefix, gpriv, wantAddr.privKey)
return false
}
default:
// Confirm expected locked error.
testName := fmt.Sprintf("%s PrivKey", prefix)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrLocked) {
return false
}
}
// Ensure exported private key in Wallet Import Format (WIF) is the
// expected value for the managed address. Since this is only available
// when the manager is unlocked, also check for the expected error when
// the manager is locked.
gotWIF, err := gotAddr.ExportPrivKey()
switch {
case tc.watchingOnly:
// Confirm expected watching-only error.
testName := fmt.Sprintf("%s ExportPrivKey", prefix)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrWatchingOnly) {
return false
}
case tc.unlocked:
if err != nil {
tc.t.Errorf("%s ExportPrivKey: unexpected error - "+
"got %v", prefix, err)
return false
}
if gotWIF.String() != wantAddr.privKeyWIF {
tc.t.Errorf("%s ExportPrivKey: unexpected WIF - got "+
"%v, want %v", prefix, gotWIF.String(),
wantAddr.privKeyWIF)
return false
}
default:
// Confirm expected locked error.
testName := fmt.Sprintf("%s ExportPrivKey", prefix)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrLocked) {
return false
}
}
return true
}
// testManagedScriptAddress ensures the data returned by all exported functions
// provided by the passed managed script address matches the corresponding
// fields in the provided expected address.
//
// When the test context indicates the manager is unlocked, the private data
// will also be tested, otherwise, the functions which deal with private data
// are checked to ensure they return the correct error.
func testManagedScriptAddress(tc *testContext, prefix string, gotAddr waddrmgr.ManagedScriptAddress, wantAddr *expectedAddr) bool {
// Ensure script is the expected value for the managed address.
// Ensure script is the expected value for the managed address. Since
// this is only available when the manager is unlocked, also check for
// the expected error when the manager is locked.
gotScript, err := gotAddr.Script()
switch {
case tc.watchingOnly:
// Confirm expected watching-only error.
testName := fmt.Sprintf("%s Script", prefix)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrWatchingOnly) {
return false
}
case tc.unlocked:
if err != nil {
tc.t.Errorf("%s Script: unexpected error - got %v",
prefix, err)
return false
}
if !reflect.DeepEqual(gotScript, wantAddr.script) {
tc.t.Errorf("%s Script: unexpected script - got %x, "+
"want %x", prefix, gotScript, wantAddr.script)
return false
}
default:
// Confirm expected locked error.
testName := fmt.Sprintf("%s Script", prefix)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrLocked) {
return false
}
}
return true
}
// testAddress ensures the data returned by all exported functions provided by
// the passed managed address matches the corresponding fields in the provided
// expected address. It also type asserts the managed address to determine its
// specific type and calls the corresponding testing functions accordingly.
//
// When the test context indicates the manager is unlocked, the private data
// will also be tested, otherwise, the functions which deal with private data
// are checked to ensure they return the correct error.
func testAddress(tc *testContext, prefix string, gotAddr waddrmgr.ManagedAddress, wantAddr *expectedAddr) bool {
if gotAddr.Account() != tc.account {
tc.t.Errorf("ManagedAddress.Account: unexpected account - got "+
"%d, want %d", gotAddr.Account(), tc.account)
return false
}
if gotAddr.Address().EncodeAddress() != wantAddr.address {
tc.t.Errorf("%s EncodeAddress: unexpected address - got %s, "+
"want %s", prefix, gotAddr.Address().EncodeAddress(),
wantAddr.address)
return false
}
if !reflect.DeepEqual(gotAddr.AddrHash(), wantAddr.addressHash) {
tc.t.Errorf("%s AddrHash: unexpected address hash - got %x, "+
"want %x", prefix, gotAddr.AddrHash(),
wantAddr.addressHash)
return false
}
if gotAddr.Internal() != wantAddr.internal {
tc.t.Errorf("%s Internal: unexpected internal flag - got %v, "+
"want %v", prefix, gotAddr.Internal(), wantAddr.internal)
return false
}
if gotAddr.Compressed() != wantAddr.compressed {
tc.t.Errorf("%s Compressed: unexpected compressed flag - got "+
"%v, want %v", prefix, gotAddr.Compressed(),
wantAddr.compressed)
return false
}
if gotAddr.Imported() != wantAddr.imported {
tc.t.Errorf("%s Imported: unexpected imported flag - got %v, "+
"want %v", prefix, gotAddr.Imported(), wantAddr.imported)
return false
}
switch addr := gotAddr.(type) {
case waddrmgr.ManagedPubKeyAddress:
if !testManagedPubKeyAddress(tc, prefix, addr, wantAddr) {
return false
}
case waddrmgr.ManagedScriptAddress:
if !testManagedScriptAddress(tc, prefix, addr, wantAddr) {
return false
}
}
return true
}
// testExternalAddresses tests several facets of external addresses such as
// generating multiple addresses via NextExternalAddresses, ensuring they can be
// retrieved by Address, and that they work properly when the manager is locked
// and unlocked.
func testExternalAddresses(tc *testContext) bool {
// Define the expected addresses.
expectedAddrs := []expectedAddr{
{
address: "14wtcepMNiEazuN7YosWY8bwD9tcCtxXRB",
addressHash: hexToBytes("2b49ecd0cf72006173e6e95acf416b6735b5f889"),
internal: false,
compressed: true,
imported: false,
pubKey: hexToBytes("02d8f88468c5a2e8e1815faf555f59cbd1979e3dbdf823f80c271b6fb70d2d519b"),
privKey: hexToBytes("c27d6581b92785834b381fa697c4b0ffc4574b495743722e0acb7601b1b68b99"),
privKeyWIF: "L3jmpy54Pc7MLXTN2mL8Xas7BJziwKaUGmgnXXzgGbVRdiAniXZk",
},
{
address: "1N3D8jy2aQuUsKBsDgZ6ZPTVR9VhHgJYpE",
addressHash: hexToBytes("e6c59a1542138d1bf08f45cd18899557cf56b356"),
internal: false,
compressed: true,
imported: false,
pubKey: hexToBytes("02b9c175b908624f8a8eaac227d0e8c77c0eec327b8c512ad1b8b7a4b5b676971f"),
privKey: hexToBytes("18f3b191019e83878a81557abebb2afda199e31d22e150d8bf4df4561671be6c"),
privKeyWIF: "Kx4DNid19W8sjNFN3uPqQE7UYnCqyEp7unCvdkf2LrVUFpnDtwpB",
},
{
address: "1VTfwD4iHre2bMrR9qGiJMwoiZGQZ8e6s",
addressHash: hexToBytes("0561e9373986965b647a57a09718e9c050215cfe"),
internal: false,
compressed: true,
imported: false,
pubKey: hexToBytes("0329faddf1254d490d6add49e2b08cf52b561038c72baec0edb3cfacff71ff1021"),
privKey: hexToBytes("ccb8f6305b73136b363644b647f6efc0fd27b6b7d9c11c7e560662ed38db7b34"),
privKeyWIF: "L45fWF6Yd736fDohuB97vwRRLdQQJr3ZGvbokk9ubiT7aNrg7tTn",
},
{
address: "13TdEj4ehUuYFiSaB47eLVBwM2XhAhrK2J",
addressHash: hexToBytes("1af950be02584ca230b7078cec0cfd38dd71b468"),
internal: false,
compressed: true,
imported: false,
pubKey: hexToBytes("03d738324e2f0ce42e46975d7f8c7117c1670e3d7912b0291aea452add99674774"),
privKey: hexToBytes("d6bc8ff768814fede2adcdb74826bd846924341b3862e3b6e31cdc084e992940"),
privKeyWIF: "L4R8XyxYQyPSpTwj8w96tM86a6j3QA9jbRPj3RA7DVTVWk71ndeP",
},
{
address: "1LTjSghkBecT59VjEKke331HxVdqcFwUDa",
addressHash: hexToBytes("d578a267a7174c6ba7f76b0ab2397ce0ba0c5c3c"),
internal: false,
compressed: true,
imported: false,
pubKey: hexToBytes("03a917acd5cd5b6f544b43f1921a35677e4d5320e5d2add2056039b4b44fdf905e"),
privKey: hexToBytes("8563ade061110e03aee50695ffc5cb1c06c8310bde0a3674257c853c966968c0"),
privKeyWIF: "L1h16Hunxomww4FrpyQP2iFmWNgG7U1u3awp6Vd3s2uGf7v5VU8c",
},
}
prefix := testNamePrefix(tc) + " testExternalAddresses"
var addrs []waddrmgr.ManagedAddress
if tc.create {
prefix := prefix + " NextExternalAddresses"
var err error
addrs, err = tc.manager.NextExternalAddresses(tc.account, 5)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", prefix, err)
return false
}
if len(addrs) != len(expectedAddrs) {
tc.t.Errorf("%s: unexpected number of addresses - got "+
"%d, want %d", prefix, len(addrs),
len(expectedAddrs))
return false
}
}
// Setup a closure to test the results since the same tests need to be
// repeated with the manager locked and unlocked.
testResults := func() bool {
// Ensure the returned addresses are the expected ones. When
// not in the create phase, there will be no addresses in the
// addrs slice, so this really only runs during the first phase
// of the tests.
for i := 0; i < len(addrs); i++ {
prefix := fmt.Sprintf("%s ExternalAddress #%d", prefix, i)
if !testAddress(tc, prefix, addrs[i], &expectedAddrs[i]) {
return false
}
}
// Ensure the last external address is the expected one.
leaPrefix := prefix + " LastExternalAddress"
lastAddr, err := tc.manager.LastExternalAddress(tc.account)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", leaPrefix, err)
return false
}
if !testAddress(tc, leaPrefix, lastAddr, &expectedAddrs[len(expectedAddrs)-1]) {
return false
}
// Now, use the Address API to retrieve each of the expected new
// addresses and ensure they're accurate.
net := tc.manager.Net()
for i := 0; i < len(expectedAddrs); i++ {
pkHash := expectedAddrs[i].addressHash
utilAddr, err := btcutil.NewAddressPubKeyHash(pkHash, net)
if err != nil {
tc.t.Errorf("%s NewAddressPubKeyHash #%d: "+
"unexpected error: %v", prefix, i, err)
return false
}
prefix := fmt.Sprintf("%s Address #%d", prefix, i)
addr, err := tc.manager.Address(utilAddr)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", prefix,
err)
return false
}
if !testAddress(tc, prefix, addr, &expectedAddrs[i]) {
return false
}
}
return true
}
// Since the manager is locked at this point, the public address
// information is tested and the private functions are checked to ensure
// they return the expected error.
if !testResults() {
return false
}
// Everything after this point involves retesting with an unlocked
// address manager which is not possible for watching-only mode, so
// just exit now in that case.
if tc.watchingOnly {
return true
}
// Unlock the manager and retest all of the addresses to ensure the
// private information is valid as well.
if err := tc.manager.Unlock(privPassphrase); err != nil {
tc.t.Errorf("Unlock: unexpected error: %v", err)
return false
}
tc.unlocked = true
if !testResults() {
return false
}
// Relock the manager for future tests.
if err := tc.manager.Lock(); err != nil {
tc.t.Errorf("Lock: unexpected error: %v", err)
return false
}
tc.unlocked = false
return true
}
// testInternalAddresses tests several facets of internal addresses such as
// generating multiple addresses via NextInternalAddresses, ensuring they can be
// retrieved by Address, and that they work properly when the manager is locked
// and unlocked.
func testInternalAddresses(tc *testContext) bool {
// Define the expected addresses.
expectedAddrs := []expectedAddr{
{
address: "15HNivzKhsLaMs1qRdQN1ifoJYUnJ2xW9z",
addressHash: hexToBytes("2ef94abb9ee8f785d087c3ec8d6ee467e92d0d0a"),
internal: true,
compressed: true,
imported: false,
pubKey: hexToBytes("020a1290b997c0a234a95213962e7edcb761c7360f0230f698a1a3e71c37047bb0"),
privKey: hexToBytes("fe4f855fcf059ec6ddf7b25f63b19aa49c771d1fcb9850b68ae3d65e20657a60"),
privKeyWIF: "L5k4HivqXvohxBMpuwD38iUgi6uewffwZny91ZNYfM39RXH2x3QR",
},
{
address: "1LJpGrAP1vWHuvfHqmUutQqFVYca2qwxhy",
addressHash: hexToBytes("d3c8ec46891f599bfeaa4c25918bfb3d46ea334c"),
internal: true,
compressed: true,
imported: false,
pubKey: hexToBytes("03f79bbde32af42dde98195f011d95982602fcd0dab657fe4a1f49f9d5ada1e02d"),
privKey: hexToBytes("bfef521317c65b018ae7e6d7ecc3aa700d5d0f7ea84d567be9270382d0b5e3e6"),
privKeyWIF: "L3eomUajnTDM3Pc8GU47qqXUFuCjvpqY7NYN9mH3x1ZFjDgiY4BU",
},
{
address: "13NhXy2nCLMwNug1TZ6uwaWnxp3uTqdDQq",
addressHash: hexToBytes("1a0ad2a04fde3b2afe068057591e1871c289c4b8"),
internal: true,
compressed: true,
imported: false,
pubKey: hexToBytes("023ded84afe4fe91b52b45c3deb26fd263f749cbc27747dc964dae9e0739cbc579"),
privKey: hexToBytes("f506dffd4494c24006df7a35f3291f7ca0297a1a431557a1339bfed6f48738ca"),
privKeyWIF: "L5S1bVQUPqQb1Su82fLoSpnGCjcPfdAQE1pJxWRopJSBdYNDHESv",
},
{
address: "1AY6yAHvojvpFcevAichLMnJfxgE8eSe4N",
addressHash: hexToBytes("689b0249c628265215fd1de6142d5d5594eb8dc2"),
internal: true,
compressed: true,
imported: false,
pubKey: hexToBytes("030f1e79f06824e10a259914ec310528bb2d5b8d6356341fe9dff55498591af6af"),
privKey: hexToBytes("b3629de8ef6a275b4ffae41aa2bbbc2952eb92282ea6402435abbb010ecc1fb8"),
privKeyWIF: "L3EQsGeEnyXmKaux54cG4DQeCSQDvGuvEuy3W2ss4geum7AtWaHw",
},
{
address: "1Jc7An3JqjzRQULVr6Wh3iYR7miB6WPJCD",
addressHash: hexToBytes("c11dd8a3577978807a0453febedee2994a6144d4"),
internal: true,
compressed: true,
imported: false,
pubKey: hexToBytes("0317d7182e26b6ca3e0f3db531c474b9cab7a763a75eabff2e14ac92f62a793238"),
privKey: hexToBytes("ca747a7ef815ea0dbe68655272cecbfbd65f2a109019a9ed28e0d3dcaffe05c3"),
privKeyWIF: "L41Frac75RPbTELKzw1EGC2qCkdveiVumpmsyX4daAvyyCMxit1W",
},
}
// When the address manager is not in watching-only mode, unlocked it
// first to ensure that address generation works correctly when the
// address manager is unlocked and then locked later. These tests
// reverse the order done in the external tests which starts with a
// locked manager and unlock it afterwards.
if !tc.watchingOnly {
// Unlock the manager and retest all of the addresses to ensure the
// private information is valid as well.
if err := tc.manager.Unlock(privPassphrase); err != nil {
tc.t.Errorf("Unlock: unexpected error: %v", err)
return false
}
tc.unlocked = true
}
prefix := testNamePrefix(tc) + " testInternalAddresses"
var addrs []waddrmgr.ManagedAddress
if tc.create {
prefix := prefix + " NextInternalAddress"
var err error
addrs, err = tc.manager.NextInternalAddresses(tc.account, 5)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", prefix, err)
return false
}
if len(addrs) != len(expectedAddrs) {
tc.t.Errorf("%s: unexpected number of addresses - got "+
"%d, want %d", prefix, len(addrs),
len(expectedAddrs))
return false
}
}
// Setup a closure to test the results since the same tests need to be
// repeated with the manager locked and unlocked.
testResults := func() bool {
// Ensure the returned addresses are the expected ones. When
// not in the create phase, there will be no addresses in the
// addrs slice, so this really only runs during the first phase
// of the tests.
for i := 0; i < len(addrs); i++ {
prefix := fmt.Sprintf("%s InternalAddress #%d", prefix, i)
if !testAddress(tc, prefix, addrs[i], &expectedAddrs[i]) {
return false
}
}
// Ensure the last internal address is the expected one.
liaPrefix := prefix + " LastInternalAddress"
lastAddr, err := tc.manager.LastInternalAddress(tc.account)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", liaPrefix, err)
return false
}
if !testAddress(tc, liaPrefix, lastAddr, &expectedAddrs[len(expectedAddrs)-1]) {
return false
}
// Now, use the Address API to retrieve each of the expected new
// addresses and ensure they're accurate.
net := tc.manager.Net()
for i := 0; i < len(expectedAddrs); i++ {
pkHash := expectedAddrs[i].addressHash
utilAddr, err := btcutil.NewAddressPubKeyHash(pkHash, net)
if err != nil {
tc.t.Errorf("%s NewAddressPubKeyHash #%d: "+
"unexpected error: %v", prefix, i, err)
return false
}
prefix := fmt.Sprintf("%s Address #%d", prefix, i)
addr, err := tc.manager.Address(utilAddr)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", prefix,
err)
return false
}
if !testAddress(tc, prefix, addr, &expectedAddrs[i]) {
return false
}
}
return true
}
// The address manager could either be locked or unlocked here depending
// on whether or not it's a watching-only manager. When it's unlocked,
// this will test both the public and private address data are accurate.
// When it's locked, it must be watching-only, so only the public
// address information is tested and the private functions are checked
// to ensure they return the expected ErrWatchingOnly error.
if !testResults() {
return false
}
// Everything after this point involves locking the address manager and
// retesting the addresses with a locked manager. However, for
// watching-only mode, this has already happened, so just exit now in
// that case.
if tc.watchingOnly {
return true
}
// Lock the manager and retest all of the addresses to ensure the
// public information remains valid and the private functions return
// the expected error.
if err := tc.manager.Lock(); err != nil {
tc.t.Errorf("Lock: unexpected error: %v", err)
return false
}
tc.unlocked = false
if !testResults() {
return false
}
return true
}
// testLocking tests the basic locking semantics of the address manager work
// as expected. Other tests ensure addresses behave as expected under locked
// and unlocked conditions.
func testLocking(tc *testContext) bool {
if tc.unlocked {
tc.t.Error("testLocking called with an unlocked manager")
return false
}
if !tc.manager.IsLocked() {
tc.t.Error("IsLocked: returned false on locked manager")
return false
}
// Locking an already lock manager should return an error. The error
// should be ErrLocked or ErrWatchingOnly depending on the type of the
// address manager.
err := tc.manager.Lock()
wantErrCode := waddrmgr.ErrLocked
if tc.watchingOnly {
wantErrCode = waddrmgr.ErrWatchingOnly
}
if !checkManagerError(tc.t, "Lock", err, wantErrCode) {
return false
}
// Ensure unlocking with the correct passphrase doesn't return any
// unexpected errors and the manager properly reports it is unlocked.
// Since watching-only address managers can't be unlocked, also ensure
// the correct error for that case.
err = tc.manager.Unlock(privPassphrase)
if tc.watchingOnly {
if !checkManagerError(tc.t, "Unlock", err, waddrmgr.ErrWatchingOnly) {
return false
}
} else if err != nil {
tc.t.Errorf("Unlock: unexpected error: %v", err)
return false
}
if !tc.watchingOnly && tc.manager.IsLocked() {
tc.t.Error("IsLocked: returned true on unlocked manager")
return false
}
// Unlocking the manager again is allowed. Since watching-only address
// managers can't be unlocked, also ensure the correct error for that
// case.
err = tc.manager.Unlock(privPassphrase)
if tc.watchingOnly {
if !checkManagerError(tc.t, "Unlock2", err, waddrmgr.ErrWatchingOnly) {
return false
}
} else if err != nil {
tc.t.Errorf("Unlock: unexpected error: %v", err)
return false
}
if !tc.watchingOnly && tc.manager.IsLocked() {
tc.t.Error("IsLocked: returned true on unlocked manager")
return false
}
// Unlocking the manager with an invalid passphrase must result in an
// error and a locked manager.
err = tc.manager.Unlock([]byte("invalidpassphrase"))
wantErrCode = waddrmgr.ErrWrongPassphrase
if tc.watchingOnly {
wantErrCode = waddrmgr.ErrWatchingOnly
}
if !checkManagerError(tc.t, "Unlock", err, wantErrCode) {
return false
}
if !tc.manager.IsLocked() {
tc.t.Error("IsLocked: manager is unlocked after failed unlock " +
"attempt")
return false
}
return true
}
// testImportPrivateKey tests that importing private keys works properly. It
// ensures they can be retrieved by Address after they have been imported and
// the addresses give the expected values when the manager is locked and
// unlocked.
//
// This function expects the manager is already locked when called and returns
// with the manager locked.
func testImportPrivateKey(tc *testContext) bool {
tests := []struct {
name string
in string
blockstamp waddrmgr.BlockStamp
expected expectedAddr
}{
{
name: "wif for uncompressed pubkey address",
in: "5HueCGU8rMjxEXxiPuD5BDku4MkFqeZyd4dZ1jvhTVqvbTLvyTJ",
expected: expectedAddr{
address: "1GAehh7TsJAHuUAeKZcXf5CnwuGuGgyX2S",
addressHash: hexToBytes("a65d1a239d4ec666643d350c7bb8fc44d2881128"),
internal: false,
imported: true,
compressed: false,
pubKey: hexToBytes("04d0de0aaeaefad02b8bdc8a01a1b8b11c696bd3" +
"d66a2c5f10780d95b7df42645cd85228a6fb29940e858e7e558" +
"42ae2bd115d1ed7cc0e82d934e929c97648cb0a"),
privKey: hexToBytes("0c28fca386c7a227600b2fe50b7cae11ec86d3bf1fbe471be89827e19d72aa1d"),
// privKeyWIF is set to the in field during tests
},
},
{
name: "wif for compressed pubkey address",
in: "KwdMAjGmerYanjeui5SHS7JkmpZvVipYvB2LJGU1ZxJwYvP98617",
expected: expectedAddr{
address: "1LoVGDgRs9hTfTNJNuXKSpywcbdvwRXpmK",
addressHash: hexToBytes("d9351dcbad5b8f3b8bfa2f2cdc85c28118ca9326"),
internal: false,
imported: true,
compressed: true,
pubKey: hexToBytes("02d0de0aaeaefad02b8bdc8a01a1b8b11c696bd3d66a2c5f10780d95b7df42645c"),
privKey: hexToBytes("0c28fca386c7a227600b2fe50b7cae11ec86d3bf1fbe471be89827e19d72aa1d"),
// privKeyWIF is set to the in field during tests
},
},
}
// The manager must be unlocked to import a private key, however a
// watching-only manager can't be unlocked.
if !tc.watchingOnly {
if err := tc.manager.Unlock(privPassphrase); err != nil {
tc.t.Errorf("Unlock: unexpected error: %v", err)
return false
}
tc.unlocked = true
}
// Only import the private keys when in the create phase of testing.
tc.account = waddrmgr.ImportedAddrAccount
prefix := testNamePrefix(tc) + " testImportPrivateKey"
if tc.create {
for i, test := range tests {
test.expected.privKeyWIF = test.in
wif, err := btcutil.DecodeWIF(test.in)
if err != nil {
tc.t.Errorf("%s DecodeWIF #%d (%s): unexpected "+
"error: %v", prefix, i, test.name, err)
continue
}
addr, err := tc.manager.ImportPrivateKey(wif,
&test.blockstamp)
if err != nil {
tc.t.Errorf("%s ImportPrivateKey #%d (%s): "+
"unexpected error: %v", prefix, i,
test.name, err)
continue
}
if !testAddress(tc, prefix+" ImportPrivateKey", addr,
&test.expected) {
continue
}
}
}
// Setup a closure to test the results since the same tests need to be
// repeated with the manager unlocked and locked.
net := tc.manager.Net()
testResults := func() bool {
failed := false
for i, test := range tests {
test.expected.privKeyWIF = test.in
// Use the Address API to retrieve each of the expected
// new addresses and ensure they're accurate.
utilAddr, err := btcutil.NewAddressPubKeyHash(
test.expected.addressHash, net)
if err != nil {
tc.t.Errorf("%s NewAddressPubKeyHash #%d (%s): "+
"unexpected error: %v", prefix, i,
test.name, err)
failed = true
continue
}
taPrefix := fmt.Sprintf("%s Address #%d (%s)", prefix,
i, test.name)
ma, err := tc.manager.Address(utilAddr)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", taPrefix,
err)
failed = true
continue
}
if !testAddress(tc, taPrefix, ma, &test.expected) {
failed = true
continue
}
}
return !failed
}
// The address manager could either be locked or unlocked here depending
// on whether or not it's a watching-only manager. When it's unlocked,
// this will test both the public and private address data are accurate.
// When it's locked, it must be watching-only, so only the public
// address information is tested and the private functions are checked
// to ensure they return the expected ErrWatchingOnly error.
if !testResults() {
return false
}
// Everything after this point involves locking the address manager and
// retesting the addresses with a locked manager. However, for
// watching-only mode, this has already happened, so just exit now in
// that case.
if tc.watchingOnly {
return true
}
// Lock the manager and retest all of the addresses to ensure the
// private information returns the expected error.
if err := tc.manager.Lock(); err != nil {
tc.t.Errorf("Lock: unexpected error: %v", err)
return false
}
tc.unlocked = false
if !testResults() {
return false
}
return true
}
// testImportScript tests that importing scripts works properly. It ensures
// they can be retrieved by Address after they have been imported and the
// addresses give the expected values when the manager is locked and unlocked.
//
// This function expects the manager is already locked when called and returns
// with the manager locked.
func testImportScript(tc *testContext) bool {
tests := []struct {
name string
in []byte
blockstamp waddrmgr.BlockStamp
expected expectedAddr
}{
{
name: "p2sh uncompressed pubkey",
in: hexToBytes("41048b65a0e6bb200e6dac05e74281b1ab9a41e8" +
"0006d6b12d8521e09981da97dd96ac72d24d1a7d" +
"ed9493a9fc20fdb4a714808f0b680f1f1d935277" +
"48b5e3f629ffac"),
expected: expectedAddr{
address: "3MbyWAu9UaoBewR3cArF1nwf4aQgVwzrA5",
addressHash: hexToBytes("da6e6a632d96dc5530d7b3c9f3017725d023093e"),
internal: false,
imported: true,
compressed: false,
// script is set to the in field during tests.
},
},
{
name: "p2sh multisig",
in: hexToBytes("524104cb9c3c222c5f7a7d3b9bd152f363a0b6d5" +
"4c9eb312c4d4f9af1e8551b6c421a6a4ab0e2910" +
"5f24de20ff463c1c91fcf3bf662cdde4783d4799" +
"f787cb7c08869b4104ccc588420deeebea22a7e9" +
"00cc8b68620d2212c374604e3487ca08f1ff3ae1" +
"2bdc639514d0ec8612a2d3c519f084d9a00cbbe3" +
"b53d071e9b09e71e610b036aa24104ab47ad1939" +
"edcb3db65f7fedea62bbf781c5410d3f22a7a3a5" +
"6ffefb2238af8627363bdf2ed97c1f89784a1aec" +
"db43384f11d2acc64443c7fc299cef0400421a53ae"),
expected: expectedAddr{
address: "34CRZpt8j81rgh9QhzuBepqPi4cBQSjhjr",
addressHash: hexToBytes("1b800cec1fe92222f36a502c139bed47c5959715"),
internal: false,
imported: true,
compressed: false,
// script is set to the in field during tests.
},
},
}
// The manager must be unlocked to import a private key and also for
// testing private data. However, a watching-only manager can't be
// unlocked.
if !tc.watchingOnly {
if err := tc.manager.Unlock(privPassphrase); err != nil {
tc.t.Errorf("Unlock: unexpected error: %v", err)
return false
}
tc.unlocked = true
}
// Only import the scripts when in the create phase of testing.
tc.account = waddrmgr.ImportedAddrAccount
prefix := testNamePrefix(tc)
if tc.create {
for i, test := range tests {
test.expected.script = test.in
prefix := fmt.Sprintf("%s ImportScript #%d (%s)", prefix,
i, test.name)
addr, err := tc.manager.ImportScript(test.in,
&test.blockstamp)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", prefix,
err)
continue
}
if !testAddress(tc, prefix, addr, &test.expected) {
continue
}
}
}
// Setup a closure to test the results since the same tests need to be
// repeated with the manager unlocked and locked.
net := tc.manager.Net()
testResults := func() bool {
failed := false
for i, test := range tests {
test.expected.script = test.in
// Use the Address API to retrieve each of the expected
// new addresses and ensure they're accurate.
utilAddr, err := btcutil.NewAddressScriptHash(test.in, net)
if err != nil {
tc.t.Errorf("%s NewAddressScriptHash #%d (%s): "+
"unexpected error: %v", prefix, i,
test.name, err)
failed = true
continue
}
taPrefix := fmt.Sprintf("%s Address #%d (%s)", prefix,
i, test.name)
ma, err := tc.manager.Address(utilAddr)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", taPrefix,
err)
failed = true
continue
}
if !testAddress(tc, taPrefix, ma, &test.expected) {
failed = true
continue
}
}
return !failed
}
// The address manager could either be locked or unlocked here depending
// on whether or not it's a watching-only manager. When it's unlocked,
// this will test both the public and private address data are accurate.
// When it's locked, it must be watching-only, so only the public
// address information is tested and the private functions are checked
// to ensure they return the expected ErrWatchingOnly error.
if !testResults() {
return false
}
// Everything after this point involves locking the address manager and
// retesting the addresses with a locked manager. However, for
// watching-only mode, this has already happened, so just exit now in
// that case.
if tc.watchingOnly {
return true
}
// Lock the manager and retest all of the addresses to ensure the
// private information returns the expected error.
if err := tc.manager.Lock(); err != nil {
tc.t.Errorf("Lock: unexpected error: %v", err)
return false
}
tc.unlocked = false
if !testResults() {
return false
}
return true
}
// testChangePassphrase ensures changes both the public and privte passphrases
// works as intended.
func testChangePassphrase(tc *testContext) bool {
// Force an error when changing the passphrase due to failure to
// generate a new secret key by replacing the generation function one
// that intentionally errors.
testName := "ChangePassphrase (public) with invalid new secret key"
var err error
waddrmgr.TstRunWithReplacedNewSecretKey(func() {
err = tc.manager.ChangePassphrase(pubPassphrase, pubPassphrase2, false)
})
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if !checkManagerError(tc.t, testName, err, waddrmgr.ErrCrypto) {
return false
}
// Attempt to change public passphrase with invalid old passphrase.
testName = "ChangePassphrase (public) with invalid old passphrase"
err = tc.manager.ChangePassphrase([]byte("bogus"), pubPassphrase2, false)
if !checkManagerError(tc.t, testName, err, waddrmgr.ErrWrongPassphrase) {
return false
}
// Change the public passphrase.
testName = "ChangePassphrase (public)"
err = tc.manager.ChangePassphrase(pubPassphrase, pubPassphrase2, false)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", testName, err)
return false
}
// Ensure the public passphrase was successfully changed.
if !tc.manager.TstCheckPublicPassphrase(pubPassphrase2) {
tc.t.Errorf("%s: passphrase does not match", testName)
return false
}
// Change the private passphrase back to what it was.
err = tc.manager.ChangePassphrase(pubPassphrase2, pubPassphrase, false)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", testName, err)
return false
}
// Attempt to change private passphrase with invalid old passphrase.
// The error should be ErrWrongPassphrase or ErrWatchingOnly depending
// on the type of the address manager.
testName = "ChangePassphrase (private) with invalid old passphrase"
err = tc.manager.ChangePassphrase([]byte("bogus"), privPassphrase2, true)
wantErrCode := waddrmgr.ErrWrongPassphrase
if tc.watchingOnly {
wantErrCode = waddrmgr.ErrWatchingOnly
}
if !checkManagerError(tc.t, testName, err, wantErrCode) {
return false
}
// Everything after this point involves testing that the private
// passphrase for the address manager can be changed successfully.
// This is not possible for watching-only mode, so just exit now in that
// case.
if tc.watchingOnly {
return true
}
// Change the private passphrase.
testName = "ChangePassphrase (private)"
err = tc.manager.ChangePassphrase(privPassphrase, privPassphrase2, true)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", testName, err)
return false
}
// Unlock the manager with the new passphrase to ensure it changed as
// expected.
if err := tc.manager.Unlock(privPassphrase2); err != nil {
tc.t.Errorf("%s: failed to unlock with new private "+
"passphrase: %v", testName, err)
return false
}
tc.unlocked = true
// Change the private passphrase back to what it was while the manager
// is unlocked to ensure that path works properly as well.
err = tc.manager.ChangePassphrase(privPassphrase2, privPassphrase, true)
if err != nil {
tc.t.Errorf("%s: unexpected error: %v", testName, err)
return false
}
if tc.manager.IsLocked() {
tc.t.Errorf("%s: manager is locked", testName)
return false
}
// Relock the manager for future tests.
if err := tc.manager.Lock(); err != nil {
tc.t.Errorf("Lock: unexpected error: %v", err)
return false
}
tc.unlocked = false
return true
}
// testManagerAPI tests the functions provided by the Manager API as well as
// the ManagedAddress, ManagedPubKeyAddress, and ManagedScriptAddress
// interfaces.
func testManagerAPI(tc *testContext) {
testLocking(tc)
testExternalAddresses(tc)
testInternalAddresses(tc)
testImportPrivateKey(tc)
testImportScript(tc)
testChangePassphrase(tc)
}
// testWatchingOnly tests various facets of a watching-only address
// manager such as running the full set of API tests against a newly converted
// copy as well as when it is opened from an existing namespace.
func testWatchingOnly(tc *testContext) bool {
// Make a copy of the current database so the copy can be converted to
// watching only.
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woMgrName := "mgrtestwo.bin"
_ = os.Remove(woMgrName)
fi, err := os.OpenFile(woMgrName, os.O_CREATE|os.O_RDWR, 0600)
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if err != nil {
tc.t.Errorf("%v", err)
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return false
}
if err := tc.db.Copy(fi); err != nil {
fi.Close()
tc.t.Errorf("%v", err)
return false
}
fi.Close()
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defer os.Remove(woMgrName)
// Open the new database copy and get the address manager namespace.
db, namespace, err := openDbNamespace(woMgrName)
if err != nil {
tc.t.Errorf("openDbNamespace: unexpected error: %v", err)
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return false
}
defer db.Close()
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// Open the manager using the namespace and convert it to watching-only.
mgr, err := waddrmgr.Open(namespace, pubPassphrase,
&btcnet.MainNetParams, fastScrypt)
if err != nil {
tc.t.Errorf("%v", err)
return false
}
if err := mgr.ConvertToWatchingOnly(pubPassphrase); err != nil {
tc.t.Errorf("%v", err)
return false
}
// Run all of the manager API tests against the converted manager and
// close it.
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testManagerAPI(&testContext{
t: tc.t,
db: db,
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manager: mgr,
account: 0,
create: false,
watchingOnly: true,
})
mgr.Close()
// Open the watching-only manager and run all the tests again.
mgr, err = waddrmgr.Open(namespace, pubPassphrase, &btcnet.MainNetParams,
fastScrypt)
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if err != nil {
tc.t.Errorf("Open Watching-Only: unexpected error: %v", err)
return false
}
defer mgr.Close()
testManagerAPI(&testContext{
t: tc.t,
db: db,
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manager: mgr,
account: 0,
create: false,
watchingOnly: true,
})
return true
}
// testSync tests various facets of setting the manager sync state.
func testSync(tc *testContext) bool {
tests := []struct {
name string
hash *btcwire.ShaHash
}{
{
name: "Block 1",
hash: newShaHash("00000000839a8e6886ab5951d76f411475428afc90947ee320161bbf18eb6048"),
},
{
name: "Block 2",
hash: newShaHash("000000006a625f06636b8bb6ac7b960a8d03705d1ace08b1a19da3fdcc99ddbd"),
},
{
name: "Block 3",
hash: newShaHash("0000000082b5015589a3fdf2d4baff403e6f0be035a5d9742c1cae6295464449"),
},
{
name: "Block 4",
hash: newShaHash("000000004ebadb55ee9096c9a2f8880e09da59c0d68b1c228da88e48844a1485"),
},
{
name: "Block 5",
hash: newShaHash("000000009b7262315dbf071787ad3656097b892abffd1f95a1a022f896f533fc"),
},
{
name: "Block 6",
hash: newShaHash("000000003031a0e73735690c5a1ff2a4be82553b2a12b776fbd3a215dc8f778d"),
},
{
name: "Block 7",
hash: newShaHash("0000000071966c2b1d065fd446b1e485b2c9d9594acd2007ccbd5441cfc89444"),
},
{
name: "Block 8",
hash: newShaHash("00000000408c48f847aa786c2268fc3e6ec2af68e8468a34a28c61b7f1de0dc6"),
},
{
name: "Block 9",
hash: newShaHash("000000008d9dc510f23c2657fc4f67bea30078cc05a90eb89e84cc475c080805"),
},
{
name: "Block 10",
hash: newShaHash("000000002c05cc2e78923c34df87fd108b22221ac6076c18f3ade378a4d915e9"),
},
{
name: "Block 11",
hash: newShaHash("0000000097be56d606cdd9c54b04d4747e957d3608abe69198c661f2add73073"),
},
{
name: "Block 12",
hash: newShaHash("0000000027c2488e2510d1acf4369787784fa20ee084c258b58d9fbd43802b5e"),
},
{
name: "Block 13",
hash: newShaHash("000000005c51de2031a895adc145ee2242e919a01c6d61fb222a54a54b4d3089"),
},
{
name: "Block 14",
hash: newShaHash("0000000080f17a0c5a67f663a9bc9969eb37e81666d9321125f0e293656f8a37"),
},
{
name: "Block 15",
hash: newShaHash("00000000b3322c8c3ef7d2cf6da009a776e6a99ee65ec5a32f3f345712238473"),
},
{
name: "Block 16",
hash: newShaHash("00000000174a25bb399b009cc8deff1c4b3ea84df7e93affaaf60dc3416cc4f5"),
},
{
name: "Block 17",
hash: newShaHash("000000003ff1d0d70147acfbef5d6a87460ff5bcfce807c2d5b6f0a66bfdf809"),
},
{
name: "Block 18",
hash: newShaHash("000000008693e98cf893e4c85a446b410bb4dfa129bd1be582c09ed3f0261116"),
},
{
name: "Block 19",
hash: newShaHash("00000000841cb802ca97cf20fb9470480cae9e5daa5d06b4a18ae2d5dd7f186f"),
},
{
name: "Block 20",
hash: newShaHash("0000000067a97a2a37b8f190a17f0221e9c3f4fa824ddffdc2e205eae834c8d7"),
},
{
name: "Block 21",
hash: newShaHash("000000006f016342d1275be946166cff975c8b27542de70a7113ac6d1ef3294f"),
},
}
// Ensure there are enough test vectors to prove the maximum number of
// recent hashes is working properly.
maxRecentHashes := waddrmgr.TstMaxRecentHashes
if len(tests) < maxRecentHashes-1 {
tc.t.Errorf("Not enough hashes to test max recent hashes - "+
"need %d, have %d", maxRecentHashes-1, len(tests))
return false
}
for i, test := range tests {
blockStamp := waddrmgr.BlockStamp{
Height: int32(i) + 1,
Hash: *test.hash,
}
if err := tc.manager.SetSyncedTo(&blockStamp); err != nil {
tc.t.Errorf("SetSyncedTo unexpected err: %v", err)
return false
}
// Ensure the manager now claims it is synced to the block stamp
// that was just set.
gotBlockStamp := tc.manager.SyncedTo()
if gotBlockStamp != blockStamp {
tc.t.Errorf("SyncedTo unexpected block stamp -- got "+
"%v, want %v", gotBlockStamp, blockStamp)
return false
}
// Ensure the recent blocks iterator works properly.
j := 0
iter := tc.manager.NewIterateRecentBlocks()
for cont := iter != nil; cont; cont = iter.Prev() {
wantHeight := int32(i) - int32(j) + 1
var wantHash *btcwire.ShaHash
if wantHeight == 0 {
wantHash = btcnet.MainNetParams.GenesisHash
} else {
wantHash = tests[wantHeight-1].hash
}
gotBS := iter.BlockStamp()
if gotBS.Height != wantHeight {
tc.t.Errorf("NewIterateRecentBlocks block "+
"stamp height mismatch -- got %d, "+
"want %d", gotBS.Height, wantHeight)
return false
}
if gotBS.Hash != *wantHash {
tc.t.Errorf("NewIterateRecentBlocks block "+
"stamp hash mismatch -- got %v, "+
"want %v", gotBS.Hash, wantHash)
return false
}
j++
}
// Ensure the maximum number of recent hashes works as expected.
if i >= maxRecentHashes-1 && j != maxRecentHashes {
tc.t.Errorf("NewIterateRecentBlocks iterated more than "+
"the max number of expected blocks -- got %d, "+
"want %d", j, maxRecentHashes)
return false
}
}
// Ensure rollback to block in recent history works as expected.
blockStamp := waddrmgr.BlockStamp{
Height: 10,
Hash: *tests[9].hash,
}
if err := tc.manager.SetSyncedTo(&blockStamp); err != nil {
tc.t.Errorf("SetSyncedTo unexpected err on rollback to block "+
"in recent history: %v", err)
return false
}
gotBlockStamp := tc.manager.SyncedTo()
if gotBlockStamp != blockStamp {
tc.t.Errorf("SyncedTo unexpected block stamp on rollback -- "+
"got %v, want %v", gotBlockStamp, blockStamp)
return false
}
// Ensure syncing to a block that is in the future as compared to the
// current block stamp clears the old recent blocks.
blockStamp = waddrmgr.BlockStamp{
Height: 100,
Hash: *newShaHash("000000007bc154e0fa7ea32218a72fe2c1bb9f86cf8c9ebf9a715ed27fdb229a"),
}
if err := tc.manager.SetSyncedTo(&blockStamp); err != nil {
tc.t.Errorf("SetSyncedTo unexpected err on future block stamp: "+
"%v", err)
return false
}
numRecentBlocks := 0
iter := tc.manager.NewIterateRecentBlocks()
for cont := iter != nil; cont; cont = iter.Prev() {
numRecentBlocks++
}
if numRecentBlocks != 1 {
tc.t.Errorf("Unexpected number of blocks after future block "+
"stamp -- got %d, want %d", numRecentBlocks, 1)
return false
}
// Rollback to a block that is not in the recent block history and
// ensure it results in only that block.
blockStamp = waddrmgr.BlockStamp{
Height: 1,
Hash: *tests[0].hash,
}
if err := tc.manager.SetSyncedTo(&blockStamp); err != nil {
tc.t.Errorf("SetSyncedTo unexpected err on rollback to block "+
"not in recent history: %v", err)
return false
}
gotBlockStamp = tc.manager.SyncedTo()
if gotBlockStamp != blockStamp {
tc.t.Errorf("SyncedTo unexpected block stamp on rollback to "+
"block not in recent history -- got %v, want %v",
gotBlockStamp, blockStamp)
return false
}
numRecentBlocks = 0
iter = tc.manager.NewIterateRecentBlocks()
for cont := iter != nil; cont; cont = iter.Prev() {
numRecentBlocks++
}
if numRecentBlocks != 1 {
tc.t.Errorf("Unexpected number of blocks after rollback to "+
"block not in recent history -- got %d, want %d",
numRecentBlocks, 1)
return false
}
// Ensure syncing the manager to nil results in the synced to state
// being the earliest block (genesis block in this case).
if err := tc.manager.SetSyncedTo(nil); err != nil {
tc.t.Errorf("SetSyncedTo unexpected err on nil: %v", err)
return false
}
blockStamp = waddrmgr.BlockStamp{
Height: 0,
Hash: *btcnet.MainNetParams.GenesisHash,
}
gotBlockStamp = tc.manager.SyncedTo()
if gotBlockStamp != blockStamp {
tc.t.Errorf("SyncedTo unexpected block stamp on nil -- "+
"got %v, want %v", gotBlockStamp, blockStamp)
return false
}
return true
}
// TestManager performs a full suite of tests against the address manager API.
// It makes use of a test context because the address manager is persistent and
// much of the testing involves having specific state.
func TestManager(t *testing.T) {
t.Parallel()
dbName := "mgrtest.bin"
_ = os.Remove(dbName)
db, mgrNamespace, err := createDbNamespace(dbName)
if err != nil {
t.Errorf("createDbNamespace: unexpected error: %v", err)
return
}
defer os.Remove(dbName)
defer db.Close()
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// Open manager that does not exist to ensure the expected error is
// returned.
_, err = waddrmgr.Open(mgrNamespace, pubPassphrase,
&btcnet.MainNetParams, fastScrypt)
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if !checkManagerError(t, "Open non-existant", err, waddrmgr.ErrNoExist) {
return
}
// Create a new manager.
mgr, err := waddrmgr.Create(mgrNamespace, seed, pubPassphrase,
privPassphrase, &btcnet.MainNetParams, fastScrypt)
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if err != nil {
t.Errorf("Create: unexpected error: %v", err)
return
}
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// NOTE: Not using deferred close here since part of the tests is
// explicitly closing the manager and then opening the existing one.
// Attempt to create the manager again to ensure the expected error is
// returned.
_, err = waddrmgr.Create(mgrNamespace, seed, pubPassphrase,
privPassphrase, &btcnet.MainNetParams, fastScrypt)
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if !checkManagerError(t, "Create existing", err, waddrmgr.ErrAlreadyExists) {
mgr.Close()
return
}
// Run all of the manager API tests in create mode and close the
// manager after they've completed
testManagerAPI(&testContext{
t: t,
db: db,
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manager: mgr,
account: 0,
create: true,
watchingOnly: false,
})
mgr.Close()
// Open the manager and run all the tests again in open mode which
// avoids reinserting new addresses like the create mode tests do.
mgr, err = waddrmgr.Open(mgrNamespace, pubPassphrase,
&btcnet.MainNetParams, fastScrypt)
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if err != nil {
t.Errorf("Open: unexpected error: %v", err)
return
}
defer mgr.Close()
tc := &testContext{
t: t,
db: db,
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manager: mgr,
account: 0,
create: false,
watchingOnly: false,
}
testManagerAPI(tc)
// Now that the address manager has been tested in both the newly
// created and opened modes, test a watching-only version.
testWatchingOnly(tc)
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// Ensure that the manager sync state functionality works as expected.
testSync(tc)
// Unlock the manager so it can be closed with it unlocked to ensure
// it works without issue.
if err := mgr.Unlock(privPassphrase); err != nil {
t.Errorf("Unlock: unexpected error: %v", err)
}
}
// TestEncryptDecryptErrors ensures that errors which occur while encrypting and
// decrypting data return the expected errors.
func TestEncryptDecryptErrors(t *testing.T) {
teardown, mgr := setupManager(t)
defer teardown()
invalidKeyType := waddrmgr.CryptoKeyType(0xff)
if _, err := mgr.Encrypt(invalidKeyType, []byte{}); err == nil {
t.Fatalf("Encrypt accepted an invalid key type!")
}
if _, err := mgr.Decrypt(invalidKeyType, []byte{}); err == nil {
t.Fatalf("Encrypt accepted an invalid key type!")
}
if !mgr.IsLocked() {
t.Fatal("Manager should be locked at this point.")
}
var err error
// Now the mgr is locked and encrypting/decrypting with private
// keys should fail.
_, err = mgr.Encrypt(waddrmgr.CKTPrivate, []byte{})
checkManagerError(t, "encryption with private key fails when manager is locked",
err, waddrmgr.ErrLocked)
_, err = mgr.Decrypt(waddrmgr.CKTPrivate, []byte{})
checkManagerError(t, "decryption with private key fails when manager is locked",
err, waddrmgr.ErrLocked)
// Unlock the manager for these tests
if err = mgr.Unlock(privPassphrase); err != nil {
t.Fatal("Attempted to unlock the manager, but failed:", err)
}
// Make sure to cover the ErrCrypto error path in Encrypt.
waddrmgr.TstRunWithFailingCryptoKeyPriv(mgr, func() {
_, err = mgr.Encrypt(waddrmgr.CKTPrivate, []byte{})
})
checkManagerError(t, "failed encryption", err, waddrmgr.ErrCrypto)
// Make sure to cover the ErrCrypto error path in Decrypt.
waddrmgr.TstRunWithFailingCryptoKeyPriv(mgr, func() {
_, err = mgr.Decrypt(waddrmgr.CKTPrivate, []byte{})
})
checkManagerError(t, "failed decryption", err, waddrmgr.ErrCrypto)
}
// TestEncryptDecrypt ensures that encrypting and decrypting data with the
// the various crypto key types works as expected.
func TestEncryptDecrypt(t *testing.T) {
teardown, mgr := setupManager(t)
defer teardown()
plainText := []byte("this is a plaintext")
// Make sure address manager is unlocked
if err := mgr.Unlock(privPassphrase); err != nil {
t.Fatal("Attempted to unlock the manager, but failed:", err)
}
keyTypes := []waddrmgr.CryptoKeyType{
waddrmgr.CKTPublic,
waddrmgr.CKTPrivate,
waddrmgr.CKTScript,
}
for _, keyType := range keyTypes {
cipherText, err := mgr.Encrypt(keyType, plainText)
if err != nil {
t.Fatalf("Failed to encrypt plaintext: %v", err)
}
decryptedCipherText, err := mgr.Decrypt(keyType, cipherText)
if err != nil {
t.Fatalf("Failed to decrypt plaintext: %v", err)
}
if !reflect.DeepEqual(decryptedCipherText, plainText) {
t.Fatal("Got:", decryptedCipherText, ", want:", plainText)
}
}
}