status-go/e2e/api/backend_test.go

291 lines
9.1 KiB
Go

package api_test
import (
"math/rand"
"testing"
"time"
"github.com/status-im/status-go/e2e"
"github.com/status-im/status-go/geth/account"
"github.com/status-im/status-go/geth/common"
"github.com/status-im/status-go/geth/jail"
"github.com/status-im/status-go/geth/log"
"github.com/status-im/status-go/geth/node"
"github.com/status-im/status-go/geth/params"
. "github.com/status-im/status-go/testing"
"github.com/stretchr/testify/suite"
)
func TestAPIBackendTestSuite(t *testing.T) {
suite.Run(t, new(APIBackendTestSuite))
}
type APIBackendTestSuite struct {
e2e.BackendTestSuite
}
// FIXME(tiabc): There's also a test with the same name in geth/node/manager_test.go
// so this test should only check StatusBackend logic with a mocked version of the underlying NodeManager.
func (s *APIBackendTestSuite) TestRaceConditions() {
require := s.Require()
require.NotNil(s.Backend)
cnt := 25
progress := make(chan struct{}, cnt)
rnd := rand.New(rand.NewSource(time.Now().UnixNano()))
nodeConfig1, err := e2e.MakeTestNodeConfig(GetNetworkID())
require.NoError(err)
nodeConfig2, err := e2e.MakeTestNodeConfig(GetNetworkID())
require.NoError(err)
nodeConfigs := []*params.NodeConfig{nodeConfig1, nodeConfig2}
var funcsToTest = []func(*params.NodeConfig){
func(config *params.NodeConfig) {
log.Info("StartNode()")
_, err := s.Backend.StartNode(config)
s.T().Logf("StartNode() for network: %d, error: %v", config.NetworkID, err)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("StopNode()")
_, err := s.Backend.StopNode()
s.T().Logf("StopNode() for network: %d, error: %v", config.NetworkID, err)
progress <- struct{}{}
},
// func(config *params.NodeConfig) {
// log.Info("ResetChainData()")
// _, err := s.Backend.ResetChainData()
// s.T().Logf("ResetChainData(), error: %v", err)
// progress <- struct{}{}
// },
func(config *params.NodeConfig) {
log.Info("RestartNode()")
_, err := s.Backend.RestartNode()
s.T().Logf("RestartNode(), error: %v", err)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("NodeManager()")
instance := s.Backend.NodeManager()
s.NotNil(instance)
s.IsType(&node.NodeManager{}, instance)
s.T().Logf("NodeManager(), result: %v", instance)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("AccountManager()")
instance := s.Backend.AccountManager()
s.NotNil(instance)
s.IsType(&account.Manager{}, instance)
s.T().Logf("Manager(), result: %v", instance)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("JailManager()")
instance := s.Backend.JailManager()
s.NotNil(instance)
s.IsType(&jail.Jail{}, instance)
s.T().Logf("JailManager(), result: %v", instance)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("CreateAccount()")
address, pubKey, mnemonic, err := s.Backend.AccountManager().CreateAccount("password")
s.T().Logf("CreateAccount(), error: %v (address: %v, pubKey: %v, mnemonic: %v)", err, address, pubKey, mnemonic)
if err != nil {
progress <- struct{}{}
return
}
// SelectAccount
log.Info("CreateAccount()")
err = s.Backend.AccountManager().SelectAccount(address, "password")
s.T().Logf("SelectAccount(%v, %v), error: %v", address, "password", err)
// CreateChildAccount
log.Info("CreateChildAccount()")
address, pubKey, err = s.Backend.AccountManager().CreateChildAccount(address, "password")
s.T().Logf("CreateAccount(), error: %v (address: %v, pubKey: %v)", err, address, pubKey)
// RecoverAccount
log.Info("RecoverAccount()")
address, pubKey, err = s.Backend.AccountManager().RecoverAccount("password", mnemonic)
s.T().Logf("RecoverAccount(), error: %v (address: %v, pubKey: %v)", err, address, pubKey)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("VerifyAccountPassword()")
_, err := s.Backend.AccountManager().VerifyAccountPassword(config.KeyStoreDir, "0x0", "bar")
s.T().Logf("VerifyAccountPassword(), err: %v", err)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("Logout()")
s.T().Logf("Logout(), result: %v", s.Backend.AccountManager().Logout())
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("IsNodeRunning()")
s.T().Logf("IsNodeRunning(), result: %v", s.Backend.IsNodeRunning())
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("CompleteTransaction()")
_, err := s.Backend.CompleteTransaction("id", "password")
s.T().Logf("CompleteTransaction(), error: %v", err)
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("DiscardTransaction()")
s.T().Logf("DiscardTransaction(), error: %v", s.Backend.DiscardTransaction("id"))
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("CompleteTransactions()")
ids := []common.QueuedTxID{"id1", "id2"}
s.T().Logf("CompleteTransactions(), result: %v", s.Backend.CompleteTransactions(ids, "password"))
progress <- struct{}{}
},
func(config *params.NodeConfig) {
log.Info("DiscardTransactions()")
ids := []common.QueuedTxID{"id1", "id2"}
s.T().Logf("DiscardTransactions(), result: %v", s.Backend.DiscardTransactions(ids))
progress <- struct{}{}
},
}
// increase StartNode()/StopNode() population
for i := 0; i < 5; i++ {
funcsToTest = append(funcsToTest, funcsToTest[0], funcsToTest[1])
}
for i := 0; i < cnt; i++ {
randConfig := nodeConfigs[rnd.Intn(len(nodeConfigs))]
randFunc := funcsToTest[rnd.Intn(len(funcsToTest))]
if rnd.Intn(100) > 75 { // introduce random delays
time.Sleep(500 * time.Millisecond)
}
go randFunc(randConfig)
}
for range progress {
cnt -= 1
if cnt <= 0 {
break
}
}
time.Sleep(2 * time.Second) // so that we see some logs
nodeStopped, _ := s.Backend.StopNode() // just in case we have a node running
if nodeStopped != nil {
<-nodeStopped
}
}
// FIXME(tiabc): There's also a test with the same name in geth/node/manager_test.go
// so this test should only check StatusBackend logic with a mocked version of the underlying NodeManager.
func (s *APIBackendTestSuite) TestNetworkSwitching() {
// get Ropsten config
nodeConfig, err := e2e.MakeTestNodeConfig(GetNetworkID())
s.NoError(err)
s.False(s.Backend.IsNodeRunning())
nodeStarted, err := s.Backend.StartNode(nodeConfig)
s.NoError(err)
<-nodeStarted // wait till node is started
s.True(s.Backend.IsNodeRunning())
firstHash, err := e2e.FirstBlockHash(s.Backend.NodeManager())
s.NoError(err)
s.Equal(GetHeadHashForNetworkID(), firstHash)
// now stop node, and make sure that a new node, on different network can be started
nodeStopped, err := s.Backend.StopNode()
s.NoError(err)
<-nodeStopped
// start new node with completely different config
nodeConfig, err = e2e.MakeTestNodeConfig(GetNetworkID())
s.NoError(err)
s.False(s.Backend.IsNodeRunning())
nodeStarted, err = s.Backend.StartNode(nodeConfig)
s.NoError(err)
<-nodeStarted
s.True(s.Backend.IsNodeRunning())
// make sure we are on another network indeed
firstHash, err = e2e.FirstBlockHash(s.Backend.NodeManager())
s.NoError(err)
s.Equal(GetHeadHashForNetworkID(), firstHash)
nodeStopped, err = s.Backend.StopNode()
s.NoError(err)
<-nodeStopped
}
// FIXME(tiabc): There's also a test with the same name in geth/node/manager_test.go
// so this test should only check StatusBackend logic with a mocked version of the underlying NodeManager.
func (s *APIBackendTestSuite) TestResetChainData() {
s.T().Skip()
require := s.Require()
require.NotNil(s.Backend)
s.StartTestBackend()
defer s.StopTestBackend()
EnsureNodeSync(s.Backend.NodeManager())
s.True(s.Backend.IsNodeRunning())
nodeReady, err := s.Backend.ResetChainData()
require.NoError(err)
<-nodeReady
s.True(s.Backend.IsNodeRunning()) // new node, with previous config should be running
// make sure we can read the first byte, and it is valid (for Rinkeby)
firstHash, err := e2e.FirstBlockHash(s.Backend.NodeManager())
s.NoError(err)
s.Equal(GetHeadHashForNetworkID(), firstHash)
}
// FIXME(tiabc): There's also a test with the same name in geth/node/manager_test.go
// so this test should only check StatusBackend logic with a mocked version of the underlying NodeManager.
func (s *APIBackendTestSuite) TestRestartNode() {
require := s.Require()
require.NotNil(s.Backend)
// get Ropsten config
nodeConfig, err := e2e.MakeTestNodeConfig(params.RopstenNetworkID)
s.NoError(err)
s.False(s.Backend.IsNodeRunning())
nodeStarted, err := s.Backend.StartNode(nodeConfig)
s.NoError(err)
<-nodeStarted // wait till node is started
s.True(s.Backend.IsNodeRunning())
firstHash, err := e2e.FirstBlockHash(s.Backend.NodeManager())
s.NoError(err)
s.Equal(GetHeadHashForNetworkID(), firstHash)
s.True(s.Backend.IsNodeRunning())
nodeRestarted, err := s.Backend.RestartNode()
require.NoError(err)
<-nodeRestarted
s.True(s.Backend.IsNodeRunning()) // new node, with previous config should be running
// make sure we can read the first byte, and it is valid (for Rinkeby)
firstHash, err = e2e.FirstBlockHash(s.Backend.NodeManager())
s.NoError(err)
s.Equal(GetHeadHashForNetworkID(), firstHash)
}