174 lines
7.7 KiB
Go
174 lines
7.7 KiB
Go
// Copyright (c) 2014 Conformal Systems LLC.
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// Use of this source code is governed by an ISC
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// license that can be found in the LICENSE file.
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/*
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Package btcrpcclient implements a websocket-enabled Bitcoin JSON-RPC client.
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Overview
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This client provides a robust and easy to use client for interfacing with a
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Bitcoin RPC server that uses a btcd/bitcoin core compatible Bitcoin JSON-RPC
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API. This client has been tested with btcd (https://github.com/conformal/btcd),
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btcwallet (https://github.com/conformal/btcwallet), and
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bitcoin core (https://github.com/bitcoin).
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In addition to the compatible standard HTTP POST JSON-RPC API, btcd and
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btcwallet provide a websocket interface that is more efficient than the standard
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HTTP POST method of accessing RPC. The section below discusses the differences
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between HTTP POST and websockets.
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By default, this client assumes the RPC server supports websockets and has
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TLS enabled. In practice, this currently means it assumes you are talking to
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btcd or btcwallet by default. However, configuration options are provided to
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fall back to HTTP POST and disable TLS to support talking with inferior bitcoin
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core style RPC servers.
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Websockets vs HTTP POST
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In HTTP POST-based JSON-RPC, every request creates a new HTTP connection,
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issues the call, waits for the response, and closes the connection. This adds
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quite a bit of overhead to every call and lacks flexibility for features such as
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notifications.
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In contrast, the websocket-based JSON-RPC interface provided by btcd and
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btcwallet only uses a single connection that remains open and allows
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asynchronous bi-directional communication.
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The websocket interface supports all of the same commands as HTTP POST, but they
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can be invoked without having to go through a connect/disconnect cycle for every
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call. In addition, the websocket interface provides other nice features such as
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the ability to register for asynchronous notifications of various events.
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Synchronous vs Asynchronous API
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The client provides both a synchronous (blocking) and asynchronous API.
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The synchronous (blocking) API is typically sufficient for most use cases. It
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works by issuing the RPC and blocking until the response is received. This
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allows straightforward code where you have the response as soon as the function
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returns.
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The asynchronous API works on the concept of futures. When you invoke the async
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version of a command, it will quickly return an instance of a type that promises
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to provide the result of the RPC at some future time. In the background, the
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RPC call is issued and the result is stored in the returned instance. Invoking
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the Receive method on the returned instance will either return the result
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immediately if it has already arrived, or block until it has. This is useful
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since it provides the caller with greater control over concurrency.
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Notifications
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The first important part of notifications is to realize that they will only
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work when connected via websockets. This should intuitively make sense
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because HTTP POST mode does not keep a connection open!
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All notifications provided by btcd require registration to opt-in. For example,
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if you want to be notified when funds are received by a set of addresses, you
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register the addresses via the NotifyReceived (or NotifyReceivedAsync) function.
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Notification Handlers
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Notifications are exposed by the client through the use of callback handlers
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which are setup via a NotificationHandlers instance that is specified by the
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caller when creating the client.
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It is important that these notification handlers complete quickly since they
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are intentionally in the main read loop and will block further reads until
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they complete. This provides the caller with the flexibility to decide what to
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do when notifications are coming in faster than they are being handled.
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In particular this means issuing a blocking RPC call from a callback handler
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will cause a deadlock as more server responses won't be read until the callback
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returns, but the callback would be waiting for a response. Thus, any
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additional RPCs must be issued an a completely decoupled manner.
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Automatic Reconnection
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By default, when running in websockets mode, this client will automatically
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keep trying to reconnect to the RPC server should the connection be lost. There
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is a back-off in between each connection attempt until it reaches one try per
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minute. Once a connection is re-established, all previously registered
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notifications are automatically re-registered and any in-flight commands are
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re-issued. This means from the caller's perspective, the request simply takes
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longer to complete.
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The caller may invoke the Shutdown method on the client to force the client
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to cease reconnect attempts and return ErrClientShutdown for all outstanding
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commands.
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The automatic reconnection can be disabled by setting the DisableAutoReconnect
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flag to true in the connection config when creating the client.
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Minor RPC Server Differences and Chain/Wallet Separation
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Some of the commands are extensions specific to a particular RPC server. For
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example, the DebugLevel call is an extension only provided by btcd (and
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btcwallet passthrough). Therefore if you call one of these commands against
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an RPC server that doesn't provide them, you will get an unimplemented error
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from the server. An effort has been made to call out which commmands are
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extensions in their documentation.
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Also, it is important to realize that btcd intentionally separates the wallet
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functionality into a separate process named btcwallet. This means if you are
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connected to the btcd RPC server directly, only the RPCs which are related to
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chain services will be available. Depending on your application, you might only
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need chain-related RPCs. In contrast, btcwallet provides pass through treatment
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for chain-related RPCs, so it supports them in addition to wallet-related RPCs.
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Errors
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There are 3 categories of errors that will be returned throughout this package:
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- Errors related to the client connection such as authentication, endpoint,
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disconnect, and shutdown
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- Errors that occur before communicating with the remote RPC server such as
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command creation and marshaling errors or issues talking to the remote
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server
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- Errors returned from the remote RPC server like unimplemented commands,
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nonexistent requested blocks and transactions, malformed data, and incorrect
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networks
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The first category of errors are typically one of ErrInvalidAuth,
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ErrInvalidEndpoint, ErrClientDisconnect, or ErrClientShutdown.
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NOTE: The ErrClientDisconnect will not be returned unless the
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DisableAutoReconnect flag is set since the client automatically handles
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reconnect by default as previously described.
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The second category of errors typically indicates a programmer error and as such
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the type can vary, but usually will be best handled by simply showing/logging
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it.
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The third category of errors, that is errors returned by the server, can be
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detected by type asserting the error in a *btcjson.Error. For example, to
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detect if a command is unimplemented by the remote RPC server:
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amount, err := client.GetBalance("")
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if err != nil {
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if jerr, ok := err.(*btcjson.Error); ok {
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switch jerr.Code {
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case btcjson.ErrUnimplemented.Code:
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// Handle not implemented error
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// Handle other specific errors you care about
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}
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}
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// Log or otherwise handle the error knowing it was not one returned
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// from the remote RPC server.
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}
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Example Usage
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The following full-blown client examples are in the examples directory:
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- bitcoincorehttp
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Connects to a bitcoin core RPC server using HTTP POST mode with TLS disabled
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and gets the current block count
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- btcdwebsockets
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Connects to a btcd RPC server using TLS-secured websockets, registers for
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block connected and block disconnected notifications, and gets the current
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block count
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*/
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package btcrpcclient
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