status-go/rpc/client.go

542 lines
16 KiB
Go

package rpc
import (
"context"
"database/sql"
"encoding/base64"
"encoding/json"
"errors"
"fmt"
"net/http"
"net/url"
"reflect"
"strings"
"sync"
"time"
"github.com/ethereum/go-ethereum/log"
gethrpc "github.com/ethereum/go-ethereum/rpc"
appCommon "github.com/status-im/status-go/common"
"github.com/status-im/status-go/params"
"github.com/status-im/status-go/rpc/chain"
"github.com/status-im/status-go/rpc/chain/ethclient"
"github.com/status-im/status-go/rpc/chain/rpclimiter"
"github.com/status-im/status-go/rpc/network"
"github.com/status-im/status-go/services/rpcstats"
"github.com/status-im/status-go/services/wallet/common"
)
const (
// DefaultCallTimeout is a default timeout for an RPC call
DefaultCallTimeout = time.Minute
// Names of providers
providerGrove = "grove"
providerInfura = "infura"
ProviderStatusProxy = "status-proxy"
mobile = "mobile"
desktop = "desktop"
// rpcUserAgentFormat 'procurator': *an agent representing others*, aka a "proxy"
// allows for the rpc client to have a dedicated user agent, which is useful for the proxy server logs.
rpcUserAgentFormat = "procuratee-%s/%s"
// rpcUserAgentUpstreamFormat a separate user agent format for upstream, because we should not be using upstream
// if we see this user agent in the logs that means parts of the application are using a malconfigured http client
rpcUserAgentUpstreamFormat = "procuratee-%s-upstream/%s"
)
// List of RPC client errors.
var (
ErrMethodNotFound = fmt.Errorf("the method does not exist/is not available")
)
var (
// rpcUserAgentName the user agent
rpcUserAgentName = fmt.Sprintf(rpcUserAgentFormat, "no-GOOS", params.Version)
rpcUserAgentUpstreamName = fmt.Sprintf(rpcUserAgentUpstreamFormat, "no-GOOS", params.Version)
)
func init() {
if appCommon.IsMobilePlatform() {
rpcUserAgentName = fmt.Sprintf(rpcUserAgentFormat, mobile, params.Version)
rpcUserAgentUpstreamName = fmt.Sprintf(rpcUserAgentUpstreamFormat, mobile, params.Version)
} else {
rpcUserAgentName = fmt.Sprintf(rpcUserAgentFormat, desktop, params.Version)
rpcUserAgentUpstreamName = fmt.Sprintf(rpcUserAgentUpstreamFormat, desktop, params.Version)
}
}
// Handler defines handler for RPC methods.
type Handler func(context.Context, uint64, ...interface{}) (interface{}, error)
type ClientInterface interface {
AbstractEthClient(chainID common.ChainID) (ethclient.BatchCallClient, error)
EthClient(chainID uint64) (chain.ClientInterface, error)
EthClients(chainIDs []uint64) (map[uint64]chain.ClientInterface, error)
CallContext(context context.Context, result interface{}, chainID uint64, method string, args ...interface{}) error
Call(result interface{}, chainID uint64, method string, args ...interface{}) error
CallRaw(body string) string
GetNetworkManager() *network.Manager
}
// Client represents RPC client with custom routing
// scheme. It automatically decides where RPC call
// goes - Upstream or Local node.
type Client struct {
sync.RWMutex
upstreamEnabled bool
upstreamURL string
UpstreamChainID uint64
local *gethrpc.Client
upstream chain.ClientInterface
rpcClientsMutex sync.RWMutex
rpcClients map[uint64]chain.ClientInterface
rpsLimiterMutex sync.RWMutex
limiterPerProvider map[string]*rpclimiter.RPCRpsLimiter
router *router
NetworkManager *network.Manager
handlersMx sync.RWMutex // mx guards handlers
handlers map[string]Handler // locally registered handlers
log log.Logger
walletNotifier func(chainID uint64, message string)
providerConfigs []params.ProviderConfig
}
// Is initialized in a build-tag-dependent module
var verifProxyInitFn func(c *Client)
// NewClient initializes Client and tries to connect to both,
// upstream and local node.
//
// Client is safe for concurrent use and will automatically
// reconnect to the server if connection is lost.
func NewClient(client *gethrpc.Client, upstreamChainID uint64, upstream params.UpstreamRPCConfig, networks []params.Network, db *sql.DB, providerConfigs []params.ProviderConfig) (*Client, error) {
var err error
log := log.New("package", "status-go/rpc.Client")
networkManager := network.NewManager(db)
if networkManager == nil {
return nil, errors.New("failed to create network manager")
}
err = networkManager.Init(networks)
if err != nil {
log.Error("Network manager failed to initialize", "error", err)
}
c := Client{
local: client,
NetworkManager: networkManager,
handlers: make(map[string]Handler),
rpcClients: make(map[uint64]chain.ClientInterface),
limiterPerProvider: make(map[string]*rpclimiter.RPCRpsLimiter),
log: log,
providerConfigs: providerConfigs,
}
var opts []gethrpc.ClientOption
opts = append(opts,
gethrpc.WithHeaders(http.Header{
"User-Agent": {rpcUserAgentUpstreamName},
}),
)
if upstream.Enabled {
c.UpstreamChainID = upstreamChainID
c.upstreamEnabled = upstream.Enabled
c.upstreamURL = upstream.URL
upstreamClient, err := gethrpc.DialOptions(context.Background(), c.upstreamURL, opts...)
if err != nil {
return nil, fmt.Errorf("dial upstream server: %s", err)
}
limiter, err := c.getRPCRpsLimiter(c.upstreamURL)
if err != nil {
return nil, fmt.Errorf("get RPC limiter: %s", err)
}
hostPortUpstream, err := extractHostFromURL(c.upstreamURL)
if err != nil {
hostPortUpstream = "upstream"
}
// Include the chain-id in the rpc client
rpcName := fmt.Sprintf("%s-chain-id-%d", hostPortUpstream, upstreamChainID)
ethClients := []ethclient.RPSLimitedEthClientInterface{
ethclient.NewRPSLimitedEthClient(upstreamClient, limiter, rpcName),
}
c.upstream = chain.NewClient(ethClients, upstreamChainID)
}
c.router = newRouter(c.upstreamEnabled)
if verifProxyInitFn != nil {
verifProxyInitFn(&c)
}
return &c, nil
}
func (c *Client) GetNetworkManager() *network.Manager {
return c.NetworkManager
}
func (c *Client) SetWalletNotifier(notifier func(chainID uint64, message string)) {
c.walletNotifier = notifier
}
func extractHostFromURL(inputURL string) (string, error) {
parsedURL, err := url.Parse(inputURL)
if err != nil {
return "", err
}
return parsedURL.Host, nil
}
func (c *Client) getRPCRpsLimiter(key string) (*rpclimiter.RPCRpsLimiter, error) {
c.rpsLimiterMutex.Lock()
defer c.rpsLimiterMutex.Unlock()
if limiter, ok := c.limiterPerProvider[key]; ok {
return limiter, nil
}
limiter := rpclimiter.NewRPCRpsLimiter()
c.limiterPerProvider[key] = limiter
return limiter, nil
}
func getProviderConfig(providerConfigs []params.ProviderConfig, providerName string) (params.ProviderConfig, error) {
for _, providerConfig := range providerConfigs {
if providerConfig.Name == providerName {
return providerConfig, nil
}
}
return params.ProviderConfig{}, fmt.Errorf("provider config not found for provider: %s", providerName)
}
func (c *Client) getClientUsingCache(chainID uint64) (chain.ClientInterface, error) {
c.rpcClientsMutex.Lock()
defer c.rpcClientsMutex.Unlock()
if rpcClient, ok := c.rpcClients[chainID]; ok {
if rpcClient.GetWalletNotifier() == nil {
rpcClient.SetWalletNotifier(c.walletNotifier)
}
return rpcClient, nil
}
network := c.NetworkManager.Find(chainID)
if network == nil {
if c.UpstreamChainID == chainID {
return c.upstream, nil
}
return nil, fmt.Errorf("could not find network: %d", chainID)
}
ethClients := c.getEthClients(network)
if len(ethClients) == 0 {
return nil, fmt.Errorf("could not find any RPC URL for chain: %d", chainID)
}
client := chain.NewClient(ethClients, chainID)
client.SetWalletNotifier(c.walletNotifier)
c.rpcClients[chainID] = client
return client, nil
}
func (c *Client) getEthClients(network *params.Network) []ethclient.RPSLimitedEthClientInterface {
urls := make(map[string]string)
keys := make([]string, 0)
authMap := make(map[string]string)
// find proxy provider
proxyProvider, err := getProviderConfig(c.providerConfigs, ProviderStatusProxy)
if err != nil {
c.log.Warn("could not find provider config for status-proxy", "error", err)
}
if proxyProvider.Enabled {
key := ProviderStatusProxy
keyFallback := ProviderStatusProxy + "-fallback"
keyFallback2 := ProviderStatusProxy + "-fallback2"
urls[key] = network.DefaultRPCURL
urls[keyFallback] = network.DefaultFallbackURL
urls[keyFallback2] = network.DefaultFallbackURL2
keys = []string{key, keyFallback, keyFallback2}
authMap[key] = proxyProvider.User + ":" + proxyProvider.Password
authMap[keyFallback] = authMap[key]
authMap[keyFallback2] = authMap[key]
}
keys = append(keys, []string{"main", "fallback"}...)
urls["main"] = network.RPCURL
urls["fallback"] = network.FallbackURL
ethClients := make([]ethclient.RPSLimitedEthClientInterface, 0)
for index, key := range keys {
var rpcClient *gethrpc.Client
var rpcLimiter *rpclimiter.RPCRpsLimiter
var err error
var hostPort string
url := urls[key]
if len(url) > 0 {
// For now, we only support auth for status-proxy.
authStr, ok := authMap[key]
var opts []gethrpc.ClientOption
if ok {
authEncoded := base64.StdEncoding.EncodeToString([]byte(authStr))
opts = append(opts,
gethrpc.WithHeaders(http.Header{
"Authorization": {"Basic " + authEncoded},
"User-Agent": {rpcUserAgentName},
}),
)
}
rpcClient, err = gethrpc.DialOptions(context.Background(), url, opts...)
if err != nil {
c.log.Error("dial server "+key, "error", err)
}
// If using the status-proxy, consider each endpoint as a separate provider
circuitKey := fmt.Sprintf("%s-%d", key, index)
// Otherwise host is good enough
if !strings.Contains(url, "status.im") {
hostPort, err = extractHostFromURL(url)
if err == nil {
circuitKey = hostPort
}
}
rpcLimiter, err = c.getRPCRpsLimiter(circuitKey)
if err != nil {
c.log.Error("get RPC limiter "+key, "error", err)
}
ethClients = append(ethClients, ethclient.NewRPSLimitedEthClient(rpcClient, rpcLimiter, circuitKey))
}
}
return ethClients
}
// EthClient returns ethclient.Client per chain
func (c *Client) EthClient(chainID uint64) (chain.ClientInterface, error) {
client, err := c.getClientUsingCache(chainID)
if err != nil {
return nil, err
}
return client, nil
}
// AbstractEthClient returns a partial abstraction used by new components for testing purposes
func (c *Client) AbstractEthClient(chainID common.ChainID) (ethclient.BatchCallClient, error) {
client, err := c.getClientUsingCache(uint64(chainID))
if err != nil {
return nil, err
}
return client, nil
}
func (c *Client) EthClients(chainIDs []uint64) (map[uint64]chain.ClientInterface, error) {
clients := make(map[uint64]chain.ClientInterface, 0)
for _, chainID := range chainIDs {
client, err := c.getClientUsingCache(chainID)
if err != nil {
return nil, err
}
clients[chainID] = client
}
return clients, nil
}
// SetClient strictly for testing purposes
func (c *Client) SetClient(chainID uint64, client chain.ClientInterface) {
c.rpcClientsMutex.Lock()
defer c.rpcClientsMutex.Unlock()
c.rpcClients[chainID] = client
}
// UpdateUpstreamURL changes the upstream RPC client URL, if the upstream is enabled.
func (c *Client) UpdateUpstreamURL(url string) error {
if c.upstream == nil {
return nil
}
rpcClient, err := gethrpc.Dial(url)
if err != nil {
return err
}
rpsLimiter, err := c.getRPCRpsLimiter(url)
if err != nil {
return err
}
c.Lock()
hostPortUpstream, err := extractHostFromURL(url)
if err != nil {
hostPortUpstream = "upstream"
}
ethClients := []ethclient.RPSLimitedEthClientInterface{
ethclient.NewRPSLimitedEthClient(rpcClient, rpsLimiter, hostPortUpstream),
}
c.upstream = chain.NewClient(ethClients, c.UpstreamChainID)
c.upstreamURL = url
c.Unlock()
return nil
}
// Call performs a JSON-RPC call with the given arguments and unmarshals into
// result if no error occurred.
//
// The result must be a pointer so that package json can unmarshal into it. You
// can also pass nil, in which case the result is ignored.
//
// It uses custom routing scheme for calls.
func (c *Client) Call(result interface{}, chainID uint64, method string, args ...interface{}) error {
ctx := context.Background()
return c.CallContext(ctx, result, chainID, method, args...)
}
// CallContext performs a JSON-RPC call with the given arguments. If the context is
// canceled before the call has successfully returned, CallContext returns immediately.
//
// The result must be a pointer so that package json can unmarshal into it. You
// can also pass nil, in which case the result is ignored.
//
// It uses custom routing scheme for calls.
// If there are any local handlers registered for this call, they will handle it.
func (c *Client) CallContext(ctx context.Context, result interface{}, chainID uint64, method string, args ...interface{}) error {
rpcstats.CountCall(method)
if c.router.routeBlocked(method) {
return ErrMethodNotFound
}
// check locally registered handlers first
if handler, ok := c.handler(method); ok {
return c.callMethod(ctx, result, chainID, handler, args...)
}
return c.CallContextIgnoringLocalHandlers(ctx, result, chainID, method, args...)
}
// CallContextIgnoringLocalHandlers performs a JSON-RPC call with the given
// arguments.
//
// If there are local handlers registered for this call, they would
// be ignored. It is useful if the call is happening from within a local
// handler itself.
// Upstream calls routing will be used anyway.
func (c *Client) CallContextIgnoringLocalHandlers(ctx context.Context, result interface{}, chainID uint64, method string, args ...interface{}) error {
if c.router.routeBlocked(method) {
return ErrMethodNotFound
}
if c.router.routeRemote(method) {
client, err := c.getClientUsingCache(chainID)
if err != nil {
return err
}
return client.CallContext(ctx, result, method, args...)
}
if c.local == nil {
c.log.Warn("Local JSON-RPC endpoint missing", "method", method)
return errors.New("missing local JSON-RPC endpoint")
}
return c.local.CallContext(ctx, result, method, args...)
}
// RegisterHandler registers local handler for specific RPC method.
//
// If method is registered, it will be executed with given handler and
// never routed to the upstream or local servers.
func (c *Client) RegisterHandler(method string, handler Handler) {
c.handlersMx.Lock()
defer c.handlersMx.Unlock()
c.handlers[method] = handler
}
// UnregisterHandler removes a previously registered handler.
func (c *Client) UnregisterHandler(method string) {
c.handlersMx.Lock()
defer c.handlersMx.Unlock()
delete(c.handlers, method)
}
// callMethod calls registered RPC handler with given args and pointer to result.
// It handles proper params and result converting
//
// TODO(divan): use cancellation via context here?
func (c *Client) callMethod(ctx context.Context, result interface{}, chainID uint64, handler Handler, args ...interface{}) error {
response, err := handler(ctx, chainID, args...)
if err != nil {
return err
}
// if result is nil, just ignore result -
// the same way as gethrpc.CallContext() caller would expect
if result == nil {
return nil
}
return setResultFromRPCResponse(result, response)
}
// handler is a concurrently safe method to get registered handler by name.
func (c *Client) handler(method string) (Handler, bool) {
c.handlersMx.RLock()
defer c.handlersMx.RUnlock()
handler, ok := c.handlers[method]
return handler, ok
}
// setResultFromRPCResponse tries to set result value from response using reflection
// as concrete types are unknown.
func setResultFromRPCResponse(result, response interface{}) (err error) {
defer func() {
if r := recover(); r != nil {
err = fmt.Errorf("invalid result type: %s", r)
}
}()
responseValue := reflect.ValueOf(response)
// If it is called via CallRaw, result has type json.RawMessage and
// we should marshal the response before setting it.
// Otherwise, it is called with CallContext and result is of concrete type,
// thus we should try to set it as it is.
// If response type and result type are incorrect, an error should be returned.
// TODO(divan): add additional checks for result underlying value, if needed:
// some example: https://golang.org/src/encoding/json/decode.go#L596
switch reflect.ValueOf(result).Elem().Type() {
case reflect.TypeOf(json.RawMessage{}), reflect.TypeOf([]byte{}):
data, err := json.Marshal(response)
if err != nil {
return err
}
responseValue = reflect.ValueOf(data)
}
value := reflect.ValueOf(result).Elem()
if !value.CanSet() {
return errors.New("can't assign value to result")
}
value.Set(responseValue)
return nil
}