zolfa
/
tendermint


								package client


								import (

									"bytes"

									"context"

									"encoding/json"

									"errors"

									"fmt"

									"io"

									"net"

									"net/http"

									"net/url"

									"strings"

									"sync"

									"time"


									rpctypes "github.com/tendermint/tendermint/rpc/jsonrpc/types"

								)


								const (

									protoHTTP  = "http"

									protoHTTPS = "https"

									protoWSS   = "wss"

									protoWS    = "ws"

									protoTCP   = "tcp"

									protoUNIX  = "unix"

								)


								//-------------------------------------------------------------


								// Parsed URL structure

								type parsedURL struct {

									url.URL


									isUnixSocket bool

								}


								// Parse URL and set defaults

								func newParsedURL(remoteAddr string) (*parsedURL, error) {

									u, err := url.Parse(remoteAddr)

									if err != nil {

										return nil, err

									}


									// default to tcp if nothing specified

									if u.Scheme == "" {

										u.Scheme = protoTCP

									}


									pu := &parsedURL{

										URL:          *u,

										isUnixSocket: false,

									}


									if u.Scheme == protoUNIX {

										pu.isUnixSocket = true

									}


									return pu, nil

								}


								// Change protocol to HTTP for unknown protocols and TCP protocol - useful for RPC connections

								func (u *parsedURL) SetDefaultSchemeHTTP() {

									// protocol to use for http operations, to support both http and https

									switch u.Scheme {

									case protoHTTP, protoHTTPS, protoWS, protoWSS:

										// known protocols not changed

									default:

										// default to http for unknown protocols (ex. tcp)

										u.Scheme = protoHTTP

									}

								}


								// Get full address without the protocol - useful for Dialer connections

								func (u parsedURL) GetHostWithPath() string {

									// Remove protocol, userinfo and # fragment, assume opaque is empty

									return u.Host + u.EscapedPath()

								}


								// Get a trimmed address - useful for WS connections

								func (u parsedURL) GetTrimmedHostWithPath() string {

									// if it's not an unix socket we return the normal URL

									if !u.isUnixSocket {

										return u.GetHostWithPath()

									}

									// if it's a unix socket we replace the host slashes with a period

									// this is because otherwise the http.Client would think that the

									// domain is invalid.

									return strings.ReplaceAll(u.GetHostWithPath(), "/", ".")

								}


								// GetDialAddress returns the endpoint to dial for the parsed URL

								func (u parsedURL) GetDialAddress() string {

									// if it's not a unix socket we return the host, example: localhost:443

									if !u.isUnixSocket {

										return u.Host

									}

									// otherwise we return the path of the unix socket, ex /tmp/socket

									return u.GetHostWithPath()

								}


								// Get a trimmed address with protocol - useful as address in RPC connections

								func (u parsedURL) GetTrimmedURL() string {

									return u.Scheme + "://" + u.GetTrimmedHostWithPath()

								}


								//-------------------------------------------------------------


								// HTTPClient is a common interface for JSON-RPC HTTP clients.

								type HTTPClient interface {

									// Call calls the given method with the params and returns a result.

									Call(ctx context.Context, method string, params map[string]interface{}, result interface{}) (interface{}, error)

								}


								// Caller implementers can facilitate calling the JSON-RPC endpoint.

								type Caller interface {

									Call(ctx context.Context, method string, params map[string]interface{}, result interface{}) (interface{}, error)

								}


								//-------------------------------------------------------------


								// Client is a JSON-RPC client, which sends POST HTTP requests to the

								// remote server.

								//

								// Client is safe for concurrent use by multiple goroutines.

								type Client struct {

									address  string

									username string

									password string


									client *http.Client


									mtx       sync.Mutex

									nextReqID int

								}


								var _ HTTPClient = (*Client)(nil)


								// Both Client and RequestBatch can facilitate calls to the JSON

								// RPC endpoint.

								var _ Caller = (*Client)(nil)

								var _ Caller = (*RequestBatch)(nil)


								// New returns a Client pointed at the given address.

								// An error is returned on invalid remote. The function panics when remote is nil.

								func New(remote string) (*Client, error) {

									httpClient, err := DefaultHTTPClient(remote)

									if err != nil {

										return nil, err

									}

									return NewWithHTTPClient(remote, httpClient)

								}


								// NewWithHTTPClient returns a Client pointed at the given address using a

								// custom http client. An error is returned on invalid remote. The function

								// panics when client is nil.

								func NewWithHTTPClient(remote string, c *http.Client) (*Client, error) {

									if c == nil {

										return nil, errors.New("nil client")

									}


									parsedURL, err := newParsedURL(remote)

									if err != nil {

										return nil, fmt.Errorf("invalid remote %s: %s", remote, err)

									}


									parsedURL.SetDefaultSchemeHTTP()


									address := parsedURL.GetTrimmedURL()

									username := parsedURL.User.Username()

									password, _ := parsedURL.User.Password()


									rpcClient := &Client{

										address:  address,

										username: username,

										password: password,

										client:   c,

									}


									return rpcClient, nil

								}


								// Call issues a POST HTTP request. Requests are JSON encoded. Content-Type:

								// application/json.

								func (c *Client) Call(

									ctx context.Context,

									method string,

									params map[string]interface{},

									result interface{},

								) (interface{}, error) {

									id := c.nextRequestID()


									request, err := rpctypes.MapToRequest(id, method, params)

									if err != nil {

										return nil, fmt.Errorf("failed to encode params: %w", err)

									}


									requestBytes, err := json.Marshal(request)

									if err != nil {

										return nil, fmt.Errorf("failed to marshal request: %w", err)

									}


									requestBuf := bytes.NewBuffer(requestBytes)

									httpRequest, err := http.NewRequestWithContext(ctx, http.MethodPost, c.address, requestBuf)

									if err != nil {

										return nil, fmt.Errorf("request setup failed: %w", err)

									}


									httpRequest.Header.Set("Content-Type", "application/json")


									if c.username != "" || c.password != "" {

										httpRequest.SetBasicAuth(c.username, c.password)

									}


									httpResponse, err := c.client.Do(httpRequest)

									if err != nil {

										return nil, err

									}


									defer httpResponse.Body.Close()


									responseBytes, err := io.ReadAll(httpResponse.Body)

									if err != nil {

										return nil, fmt.Errorf("failed to read response body: %w", err)

									}


									return unmarshalResponseBytes(responseBytes, id, result)

								}


								// NewRequestBatch starts a batch of requests for this client.

								func (c *Client) NewRequestBatch() *RequestBatch {

									return &RequestBatch{

										requests: make([]*jsonRPCBufferedRequest, 0),

										client:   c,

									}

								}


								func (c *Client) sendBatch(ctx context.Context, requests []*jsonRPCBufferedRequest) ([]interface{}, error) {

									reqs := make([]rpctypes.RPCRequest, 0, len(requests))

									results := make([]interface{}, 0, len(requests))

									for _, req := range requests {

										reqs = append(reqs, req.request)

										results = append(results, req.result)

									}


									// serialize the array of requests into a single JSON object

									requestBytes, err := json.Marshal(reqs)

									if err != nil {

										return nil, fmt.Errorf("json marshal: %w", err)

									}


									httpRequest, err := http.NewRequestWithContext(ctx, http.MethodPost, c.address, bytes.NewBuffer(requestBytes))

									if err != nil {

										return nil, fmt.Errorf("new request: %w", err)

									}


									httpRequest.Header.Set("Content-Type", "application/json")


									if c.username != "" || c.password != "" {

										httpRequest.SetBasicAuth(c.username, c.password)

									}


									httpResponse, err := c.client.Do(httpRequest)

									if err != nil {

										return nil, fmt.Errorf("post: %w", err)

									}


									defer httpResponse.Body.Close()


									responseBytes, err := io.ReadAll(httpResponse.Body)

									if err != nil {

										return nil, fmt.Errorf("read response body: %w", err)

									}


									// collect ids to check responses IDs in unmarshalResponseBytesArray

									ids := make([]rpctypes.JSONRPCIntID, len(requests))

									for i, req := range requests {

										ids[i] = req.request.ID.(rpctypes.JSONRPCIntID)

									}


									return unmarshalResponseBytesArray(responseBytes, ids, results)

								}


								func (c *Client) nextRequestID() rpctypes.JSONRPCIntID {

									c.mtx.Lock()

									id := c.nextReqID

									c.nextReqID++

									c.mtx.Unlock()

									return rpctypes.JSONRPCIntID(id)

								}


								//------------------------------------------------------------------------------------


								// jsonRPCBufferedRequest encapsulates a single buffered request, as well as its

								// anticipated response structure.

								type jsonRPCBufferedRequest struct {

									request rpctypes.RPCRequest

									result  interface{} // The result will be deserialized into this object.

								}


								// RequestBatch allows us to buffer multiple request/response structures

								// into a single batch request. Note that this batch acts like a FIFO queue, and

								// is thread-safe.

								type RequestBatch struct {

									client *Client


									mtx      sync.Mutex

									requests []*jsonRPCBufferedRequest

								}


								// Count returns the number of enqueued requests waiting to be sent.

								func (b *RequestBatch) Count() int {

									b.mtx.Lock()

									defer b.mtx.Unlock()

									return len(b.requests)

								}


								func (b *RequestBatch) enqueue(req *jsonRPCBufferedRequest) {

									b.mtx.Lock()

									defer b.mtx.Unlock()

									b.requests = append(b.requests, req)

								}


								// Clear empties out the request batch.

								func (b *RequestBatch) Clear() int {

									b.mtx.Lock()

									defer b.mtx.Unlock()

									return b.clear()

								}


								func (b *RequestBatch) clear() int {

									count := len(b.requests)

									b.requests = make([]*jsonRPCBufferedRequest, 0)

									return count

								}


								// Send will attempt to send the current batch of enqueued requests, and then

								// will clear out the requests once done. On success, this returns the

								// deserialized list of results from each of the enqueued requests.

								func (b *RequestBatch) Send(ctx context.Context) ([]interface{}, error) {

									b.mtx.Lock()

									defer func() {

										b.clear()

										b.mtx.Unlock()

									}()

									return b.client.sendBatch(ctx, b.requests)

								}


								// Call enqueues a request to call the given RPC method with the specified

								// parameters, in the same way that the `Client.Call` function would.

								func (b *RequestBatch) Call(

									_ context.Context,

									method string,

									params map[string]interface{},

									result interface{},

								) (interface{}, error) {

									id := b.client.nextRequestID()

									request, err := rpctypes.MapToRequest(id, method, params)

									if err != nil {

										return nil, err

									}

									b.enqueue(&jsonRPCBufferedRequest{request: request, result: result})

									return result, nil

								}


								//-------------------------------------------------------------


								func makeHTTPDialer(remoteAddr string) (func(string, string) (net.Conn, error), error) {

									u, err := newParsedURL(remoteAddr)

									if err != nil {

										return nil, err

									}


									protocol := u.Scheme

									padding := u.Scheme


									// accept http(s) as an alias for tcp

									switch protocol {

									case protoHTTP, protoHTTPS:

										protocol = protoTCP

									}


									dialFn := func(proto, addr string) (net.Conn, error) {

										var timeout = 10 * time.Second

										if !u.isUnixSocket && strings.LastIndex(u.Host, ":") == -1 {

											u.Host = fmt.Sprintf("%s:%s", u.Host, padding)

											return net.DialTimeout(protocol, u.GetDialAddress(), timeout)

										}


										return net.DialTimeout(protocol, u.GetDialAddress(), timeout)

									}


									return dialFn, nil

								}


								// DefaultHTTPClient is used to create an http client with some default parameters.

								// We overwrite the http.Client.Dial so we can do http over tcp or unix.

								// remoteAddr should be fully featured (eg. with tcp:// or unix://).

								// An error will be returned in case of invalid remoteAddr.

								func DefaultHTTPClient(remoteAddr string) (*http.Client, error) {

									dialFn, err := makeHTTPDialer(remoteAddr)

									if err != nil {

										return nil, err

									}


									client := &http.Client{

										Transport: &http.Transport{

											// Set to true to prevent GZIP-bomb DoS attacks

											DisableCompression: true,

											Dial:               dialFn,

										},

									}


									return client, nil

								}