API reference (JSON-RPC): Difference between revisions

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== Controlling Bitcoin ==
== Controlling Bitcoin Core ==


Run ''bitcoind'' or ''bitcoin -server''. You can control it via the command-line or by HTTP-JSON-RPC commands.
Run ''bitcoind'' or ''bitcoin-qt -server''. You can control it via the command-line bitcoin-cli utility or by [http://json-rpc.org/wiki/specification HTTP JSON-RPC] commands.


You must create a bitcoin.conf configuration file setting an rpcuser and rpcpassword; see [[Running Bitcoin]] for details.
You must create a bitcoin.conf configuration file setting an rpcuser and rpcpassword; see [[Running Bitcoin]] for details.


Now run:
Now run:
   $ ./bitcoind
   $ ./bitcoind -daemon
   bitcoin server starting
   bitcoin server starting
   $ ./bitcoind help
   $ ./bitcoin-cli -rpcwait help
   # shows the help text
   # shows the help text


A [[Original Bitcoin client/API Calls list|list of RPC calls]] will be shown.
A [[Original Bitcoin client/API Calls list|list of RPC calls]] will be shown.


   $ ./bitcoind getbalance
   $ ./bitcoin-cli getbalance
   2000.00000
   2000.00000
If you are learning the API, it is a very good idea to use the test network (run bitcoind -testnet and bitcoin-cli -testnet).


== JSON-RPC ==
== JSON-RPC ==


Running Bitcoin with the -server argument (or running bitcoind) tells it to function as a [http://json-rpc.org/wiki/specification|HTTP JSON-RPC] server, but  
Running Bitcoin with the -server argument (or running bitcoind) tells it to function as a [http://json-rpc.org/wiki/specification HTTP JSON-RPC] server, but  
[http://en.wikipedia.org/wiki/Basic_access_authentication|HTTP Basic access authentication] must be used when communicating with it, and, for security, by default, the server only accepts connections from other processes on the same machine.  If your HTTP or JSON library requires you to specify which 'realm' is authenticated, use 'jsonrpc'.
[http://en.wikipedia.org/wiki/Basic_access_authentication Basic access authentication] must be used when communicating with it, and, for security, by default, the server only accepts connections from other processes on the same machine.  If your HTTP or JSON library requires you to specify which 'realm' is authenticated, use 'jsonrpc'.


Bitcoin supports SSL (https) JSON-RPC connections beginning with version 0.3.14.  See the [[Enabling SSL on original client daemon|rpcssl wiki page]] for setup instructions and a list of all bitcoin.conf configuration options.
Bitcoin supports SSL (https) JSON-RPC connections beginning with version 0.3.14.  See the [[Enabling SSL on original client daemon|rpcssl wiki page]] for setup instructions and a list of all bitcoin.conf configuration options.


To access the server you should find a [http://json-rpc.org/wiki/implementations|suitable library] for your language.
Allowing arbitrary machines to access the JSON-RPC port (using the rpcallowip [[Running_Bitcoin|configuration option]]) is dangerous and '''strongly discouraged'''-- access should be strictly limited to trusted machines.


== Proper money handling ==
== Proper money handling ==
Line 29: Line 31:
See the [[Proper Money Handling (JSON-RPC)|proper money handling page]] for notes on avoiding rounding errors when handling bitcoin values.
See the [[Proper Money Handling (JSON-RPC)|proper money handling page]] for notes on avoiding rounding errors when handling bitcoin values.


== Python ==
== Languages ==
 
=== Python ===
 
[http://json-rpc.org/wiki/python-json-rpc python-jsonrpc] is the official JSON-RPC implementation for Python.
It automatically generates Python methods for RPC calls.
However, due to its design for supporting old versions of Python, it is also rather inefficient.
[[User:jgarzik|jgarzik]] has forked it as [https://github.com/jgarzik/python-bitcoinrpc Python-BitcoinRPC] and optimized it for current versions.
Generally, this version is recommended.


For Python, [http://yyz.us/bitcoin/authproxy.py AuthServiceProxy] is perfect.
While BitcoinRPC lacks a few obscure features from jsonrpc, software using only the ServiceProxy class can be written the same to work with either version the user might choose to install:
AuthServiceProxy automatically generates Python methods corresponding to the functions above.


<source lang="python">
<source lang="python">
  from authproxy import AuthServiceProxy
from jsonrpc import ServiceProxy
    
    
  access = AuthServiceProxy("http://user:password@127.0.0.1:8332")
access = ServiceProxy("http://user:password@127.0.0.1:8332")
  access.getinfo()
access.getblockchaininfo()
  access.listreceivedbyaddress(6)
access.listreceivedbyaddress(6)
  #access.sendtoaddress("11yEmxiMso2RsFVfBcCa616npBvGgxiBX", 10)
#access.sendtoaddress("11yEmxiMso2RsFVfBcCa616npBvGgxiBX", 10)
</source>
</source>


== Ruby ==
The latest version of python-bitcoinrpc has a new syntax.
<source lang="python">
from bitcoinrpc.authproxy import AuthServiceProxy
</source>
 
=== Ruby ===


<source lang="ruby">
<source lang="ruby">
=begin
require 'net/http'
Make sure to do:
require 'uri'
    gem install rest-client
 
Usage:
    h = ServiceProxy.new('http://user:password@127.0.0.1:8332')
    puts h.getinfo.call
    puts h.getbalance.call '0'
=end
require 'json'
require 'json'
require 'rest_client'


class JSONRPCException < RuntimeError
class BitcoinRPC
    def initialize()
  def initialize(service_url)
        super()
    @uri = URI.parse(service_url)
    end
  end
end


class ServiceProxy
  def method_missing(name, *args)
    def initialize(service_url, service_name=nil)
    post_body = { 'method' => name, 'params' => args, 'id' => 'jsonrpc' }.to_json
        @service_url = service_url
    resp = JSON.parse( http_post_request(post_body) )
        @service_name = service_name
     raise JSONRPCError, resp['error'] if resp['error']
     end
    resp['result']
  end


     def method_missing(name, *args, &block)
  def http_post_request(post_body)
        if @service_name != nil
     http    = Net::HTTP.new(@uri.host, @uri.port)
            name = "%s.%s" % [@service_name, name]
    request = Net::HTTP::Post.new(@uri.request_uri)
        end
    request.basic_auth @uri.user, @uri.password
        return ServiceProxy.new(@service_url, name)
    request.content_type = 'application/json'
    end
    request.body = post_body
    http.request(request).body
  end


    def respond_to?(sym)
  class JSONRPCError < RuntimeError; end
    end
end


    def call(*args)
if $0 == __FILE__
        postdata = {"method" => @service_name, "params" => args, "id" => "jsonrpc"}.to_json
  h = BitcoinRPC.new('http://user:password@127.0.0.1:8332')
        respdata = RestClient.post @service_url, postdata
  p h.getbalance
        resp = JSON.parse respdata
  p h.getblockchaininfo
        if resp["error"] != nil
  p h.getnewaddress
            raise JSONRPCException.new, resp['error']
  p h.dumpprivkey( h.getnewaddress )
        end
  # also see: https://en.bitcoin.it/wiki/Original_Bitcoin_client/API_Calls_list
        return resp['result']
    end
end
end
</source>
</source>


== PHP ==
=== Erlang ===
Get the rebar dependency from https://github.com/edescourtis/ebitcoind . By default the client will use the configuration in <code>$HOME/.bitcoin/bitcoin.conf</code> or you can instead specify a URI like this:
<source lang="erlang">ebitcoind:start_link(<<"http://user:password@localhost:8332/">>).</source>
 
Here is a usage example:
<source lang="erlang">
1> {ok,Pid} = ebitcoind:start_link().
{ok,<0.177.0>}
2> ebitcoind:getbalance(Pid).
8437.02478294
3> ebitcoind:getblockchaininfo(Pid).
{ok, #{<<"balance">> => 8437.02478294,
  <<"blocks">> => 260404,
  <<"connections">> => 8,
  <<"difficulty">> => 148819199.80509263,
  <<"errors">> => <<>>,
  <<"keypoololdest">> => 1420307921,
  <<"keypoolsize">> => 102,
  <<"paytxfee">> => 0.0,
  <<"protocolversion">> => 70002,
  <<"proxy">> => <<>>,
  <<"relayfee">> => 1.0e-5,
  <<"testnet">> => false,
  <<"timeoffset">> => -3,
  <<"version">> => 90300,
  <<"walletversion">> => 60000}}
4> ebitcoind:setgenerate(Pid,true).
{ok, null}
5> ebitcoind:getblocktemplate(Pid, #{}).                   
{ok,#{<<"bits">> => <<"181b0dca">>,
      <<"coinbaseaux">> => #{<<"flags">> => <<"062f503253482f">>},
      <<"coinbasevalue">> => 2518690558,
      <<"curtime">> => 1420421249,
      <<"height">> => 337533,
      <<"mintime">> => 1420416332,
      <<"mutable">> => [<<"time">>,<<"transactions">>,<<"prevblock">>],
      <<"noncerange">> => <<"00000000ffffffff">>,
      <<"previousblockhash">> => <<"000000000000000017ce0a0d328bf84cc597785844393e899e9a971a81679a5f">>,
      <<"sigoplimit">> => 20000,
      <<"sizelimit">> => 1000000,
      <<"target">> => <<"00000000000000001b0dca00000000000000000000000000000000000000"...>>,
      <<"transactions">> => [#{<<"data">> => <<"01000000049b47ce225d29bff7c18b7df7d7df4693523a52"...>>,
        <<"depends">> => [],
        <<"fee">> => 0,
        <<"hash">> => <<"6d0d76e1f27b3a6f7325923710dcdb4107c9"...>>,
        <<"sigops">> => 1},
      ...
</source>
 
=== PHP ===


The [http://jsonrpcphp.org/ JSON-RPC PHP] library also makes it very easy to connect to Bitcoin.  For example:
The [http://jsonrpcphp.org/ JSON-RPC PHP] library also makes it very easy to connect to Bitcoin.  For example:
Line 102: Line 157:
    
    
   echo "<pre>\n";
   echo "<pre>\n";
   print_r($bitcoin->getinfo()); echo "\n";
   print_r($bitcoin->getblockchaininfo()); echo "\n";
   echo "Received: ".$bitcoin->getreceivedbylabel("Your Address")."\n";
   echo "Received: ".$bitcoin->getreceivedbylabel("Your Address")."\n";
   echo "</pre>";
   echo "</pre>";
</source>
</source>


== Java ==
'''Note:''' The jsonRPCClient library uses fopen() and will throw an exception saying "Unable to connect" if it receives a 404 or 500 error from bitcoind. This prevents you from being able to see error messages generated by bitcoind (as they are sent with status 404 or 500). The [https://github.com/aceat64/EasyBitcoin-PHP EasyBitcoin-PHP library] is similar in function to JSON-RPC PHP but does not have this issue.
 
=== Java ===


The easiest way to tell Java to use HTTP Basic authentication is to set a default Authenticator:
The easiest way to tell Java to use HTTP Basic authentication is to set a default Authenticator:
Line 122: Line 179:
</source>
</source>


Once that is done, any JSON-RPC library for Java (or ordinary URL POSTs) may be used to communicate with the Bitcoin server.
Once that is done, [http://json-rpc.org/wiki/implementations any JSON-RPC library for Java] (or ordinary URL POSTs) may be used to communicate with the Bitcoin server.


== Perl ==
Instead of writing your own implementation, consider using one of the existing wrappers like [https://github.com/johannbarbie/BitcoindClient4J BitcoindClient4J], [https://github.com/priiduneemre/btcd-cli4j btcd-cli4j] or [[Bitcoin-JSON-RPC-Client|Bitcoin-JSON-RPC-Client]] instead.
 
=== Perl ===


The JSON::RPC package from CPAN can be used to communicate with Bitcoin.  You must set the client's credentials; for example:
The JSON::RPC package from CPAN can be used to communicate with Bitcoin.  You must set the client's credentials; for example:
Line 140: Line 199:
   my $uri = 'http://localhost:8332/';
   my $uri = 'http://localhost:8332/';
   my $obj = {
   my $obj = {
       method  => 'getinfo',
       method  => 'getblockchaininfo',
       params  => [],
       params  => [],
   };
   };
Line 154: Line 213:
</source>
</source>


== .NET (C#) ==
=== Go ===
The communication with rpc service can be achieved using the standard httprequest/response objects.
 
A library for serialising and deserialising Json will make your life a lot easier:
The [https://github.com/btcsuite/btcrpcclient btcrpcclient package] can be used to communicate with Bitcoin.  You must provide credentials to match the client you are communicating with.
 
<source lang="go">
package main
 
import (
"github.com/btcsuite/btcd/chaincfg"
"github.com/btcsuite/btcrpcclient"
"github.com/btcsuite/btcutil"
"log"
)
 
func main() {
// create new client instance
client, err := btcrpcclient.New(&btcrpcclient.ConnConfig{
HTTPPostMode: true,
DisableTLS:  true,
Host:        "127.0.0.1:8332",
User:        "rpcUsername",
Pass:        "rpcPassword",
}, nil)
if err != nil {
log.Fatalf("error creating new btc client: %v", err)
}
 
// list accounts
accounts, err := client.ListAccounts()
if err != nil {
log.Fatalf("error listing accounts: %v", err)
}
// iterate over accounts (map[string]btcutil.Amount) and write to stdout
for label, amount := range accounts {
log.Printf("%s: %s", label, amount)
}
 
// prepare a sendMany transaction
receiver1, err := btcutil.DecodeAddress("1someAddressThatIsActuallyReal", &chaincfg.MainNetParams)
if err != nil {
log.Fatalf("address receiver1 seems to be invalid: %v", err)
}
receiver2, err := btcutil.DecodeAddress("1anotherAddressThatsPrettyReal", &chaincfg.MainNetParams)
if err != nil {
log.Fatalf("address receiver2 seems to be invalid: %v", err)
}
receivers := map[btcutil.Address]btcutil.Amount{
receiver1: 42,  // 42 satoshi
receiver2: 100, // 100 satoshi
}
 
// create and send the sendMany tx
txSha, err := client.SendMany("some-account-label-from-which-to-send", receivers)
if err != nil {
log.Fatalf("error sendMany: %v", err)
}
log.Printf("sendMany completed! tx sha is: %s", txSha.String())
}
</source>
 
=== .NET (C#) ===
The communication with the RPC service can be achieved using the standard http request/response objects.
A library for serializing and deserializing Json will make your life a lot easier:


* JayRock for .NET 4.0
Json.NET ( http://james.newtonking.com/json ) is a high performance JSON package for .NET. It is also available via NuGet from the package manager console ( Install-Package Newtonsoft.Json ).
* Json.Net for .NET 2.0 and above


The following example uses Json.Net:
The following example uses Json.NET:


<source lang="csharp">
<source lang="csharp">
Line 204: Line 322:
</source>
</source>


== Command line (cURL) ==
There is also a wrapper for Json.NET called Bitnet (https://sourceforge.net/projects/bitnet)
implementing Bitcoin API in more convenient way:
 
<source lang="csharp">
    BitnetClient bc = new BitnetClient("http://127.0.0.1:8332");
    bc.Credentials = new NetworkCredential("user", "pass");
 
    var p = bc.GetDifficulty();
    Console.WriteLine("Difficulty:" + p.ToString());
 
    var inf = bc.GetBlockchainInfo();
    Console.WriteLine("Balance:" + inf["balance"]);
</source>
 
A more complete library and wrapper for Bitcoin is [https://github.com/GeorgeKimionis/BitcoinLib BitcoinLib] (https://github.com/GeorgeKimionis/BitcoinLib) which is also available via [https://www.nuget.org/packages/BitcoinLib/ NuGet] from the package manager console (Install-Package BitcoinLib).
 
Querying the daemon with [https://github.com/GeorgeKimionis/BitcoinLib BitcoinLib] is as simple as:
 
<source lang="csharp">
    IBitcoinService bitcoinService = new BitcoinService();
 
    var networkDifficulty = bitcoinService.GetDifficulty();
    var myBalance = bitcoinService.GetBalance();
</source>
 
=== Node.js ===
 
* [https://github.com/ruimarinho/bitcoin-core bitcoin-core] (npm: [https://www.npmjs.com/package/bitcoin-core bitcoin-core])
 
Example using bitcoin-core:
 
<source lang="javascript">
const Client = require('bitcoin-core');
const client = new Client({
  network: 'regtest',
  username: 'user',
  password: 'pass',
  port: 18443
});
 
client.getBlockchainInfo().then((help) => console.log(help));
</source>
 
=== Deno ===
 
* Github: [https://github.com/timonson/gentle_rpc gentle_rpc] or deno.land: [https://deno.land/x/gentle_rpc gentle_rpc]
 
gentle_rpc is a TypeScript JSON-RPC 2.0 library for Deno and the browser, it works perfectly with lowercase function names. There is also a transpiled JavaScript bundle in the repository which you can import directly into the browser.
 
Example using gentle_rpc:
 
<source lang="typescript">
import { createRemote } from "https://deno.land/x/gentle_rpc/mod.ts";
 
const Node = new URL("http://127.0.0.1");
Node.port = "18332";
Node.username = "BitcoinUser";
Node.password = "BitcoinPassword";
 
const remote = createRemote(Node);
const info = await remote.call("getblockchaininfo");
console.log(info);
</source>
 
=== Command line (cURL) ===


You can also send commands and see results using [http://curl.haxx.se/ cURL] or some other command-line HTTP-fetching utility; for example:
You can also send commands and see results using [http://curl.haxx.se/ cURL] or some other command-line HTTP-fetching utility; for example:


<source lang="bash">
<source lang="bash">
   curl --user user --data-binary '{"jsonrpc": "1.0", "id":"curltest", "method": "getinfo", "params": [] }'  
   curl --user user --data-binary '{"jsonrpc": "1.0", "id":"curltest", "method": "getblockchaininfo", "params": [] }'  
     -H 'content-type: text/plain;' http://127.0.0.1:8332/
     -H 'content-type: text/plain;' http://127.0.0.1:8332/
</source>
</source>
Line 217: Line 399:
<source lang="javascript">
<source lang="javascript">
   {"result":{"balance":0.000000000000000,"blocks":59952,"connections":48,"proxy":"","generate":false,
   {"result":{"balance":0.000000000000000,"blocks":59952,"connections":48,"proxy":"","generate":false,
     "genproclimit":-1,"difficulty":16.61907875185736,"error":null,"id":"curltest"}
     "genproclimit":-1,"difficulty":16.61907875185736},"error":null,"id":"curltest"}
</source>
</source>
=== Command line (jsonrpc-cli) ===
[https://github.com/dan-da/jsonrpc-cli jsonrpc-cli] provides simple json queries from the command-line with highlighted json results (colors) and the ability to view/debug raw http requests and responses.
<source lang="bash">
jsonrpc-cli --user=rpcuser --pass=rpcpassword  http://localhost:8332/ getblockchaininfo
</source>
<source lang="javascript">
{
    "version": 109900,
    "protocolversion": 70002,
    "walletversion": 60000,
    "balance": 0,
    "blocks": 588597,
    "timeoffset": -1,
    "connections": 9,
    "proxy": "127.0.0.1:9050",
    "difficulty": 9013786945891.682,
    "testnet": false,
    "keypoololdest": 1463279619,
    "keypoolsize": 101,
    "paytxfee": 0,
    "relayfee": 1.0e-5,
    "errors": null
}
</source>
=== Clojure ===
[https://github.com/aviad/clj-btc clj-btc] is a Clojure wrapper for the bitcoin API.
<source lang="clojure">
user=> (require '[clj-btc.core :as btc])
nil
user=> (btc/getblockchaininfo)
{"timeoffset" 0, "protocolversion" 70001, "blocks" 111908, "errors" "",
"testnet" true, "proxy" "", "connections" 4, "version" 80500,
"keypoololdest" 1380388750, "paytxfee" 0E-8M,
"difficulty" 4642.44443532M, "keypoolsize" 101, "balance" 0E-8M,
"walletversion" 60000}
</source>
=== C ===
The C API for processing JSON is [https://jansson.readthedocs.org/en/latest/ Jansson]. C applications like [https://github.com/bitcoin/libblkmaker libblkmaker] use [[API_reference_(JSON-RPC)#Command_line_.28cURL.29|cURL]] for making the calls and Jansson for interpreting the JSON that cURL fetches.
For example basic usage (which can be easily modified for Bitcoin RPC), see the Jansson example [https://jansson.readthedocs.org/en/latest/_downloads/github_commits.c github_commits.c] and [https://jansson.readthedocs.org/en/latest/tutorial.html#the-github-repo-commits-api the associated tutorial].
The following does with libcurl what the [[API_reference_(JSON-RPC)#Command_line_.28cURL.29|cURL example above]] does:<source lang="c">#include <stdlib.h>
#include <curl/curl.h>
int main()
{
    CURL *curl = curl_easy_init();
    struct curl_slist *headers = NULL;
    if (curl) {
const char *data =
    "{\"jsonrpc\": \"1.0\", \"id\":\"curltest\", \"method\": \"getblockchaininfo\", \"params\": [] }";
headers = curl_slist_append(headers, "content-type: text/plain;");
curl_easy_setopt(curl, CURLOPT_HTTPHEADER, headers);
curl_easy_setopt(curl, CURLOPT_URL, "http://127.0.0.1:8332/");
curl_easy_setopt(curl, CURLOPT_POSTFIELDSIZE, (long) strlen(data));
curl_easy_setopt(curl, CURLOPT_POSTFIELDS, data);
curl_easy_setopt(curl, CURLOPT_USERPWD,
"bitcoinrpcUSERNAME:bitcoinrpcPASSWORD");
curl_easy_setopt(curl, CURLOPT_USE_SSL, CURLUSESSL_TRY);
curl_easy_perform(curl);
    }
    return 0;
}
</source>This output can be parsed with Jansson, ''à la'' the Jansson tutorial linked to above.
(source: [https://bitcoin.stackexchange.com/a/41158/4334 Bitcoin StackExchange])
=== Qt/C++ ===
[https://bitbucket.org/devonit/qjsonrpc/overview QJsonRpc] is a Qt/C++ implementation of the JSON-RPC protocol. It integrates nicely with Qt, leveraging Qt's meta object system in order to provide services over the JSON-RPC protocol. QJsonRpc is licensed under the LGPLv2.1.
<source lang="cpp">
/*
* Copyright (C) 2012-2013 Matt Broadstone
* Contact: http://bitbucket.org/devonit/qjsonrpc
*
* This file is part of the QJsonRpc Library.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
* Lesser General Public License for more details.
*/
#include <QCoreApplication>
#include <QAuthenticator>
#include <QStringList>
#include <QDebug>
#include "qjsonrpchttpclient.h"
class HttpClient : public QJsonRpcHttpClient
{
    Q_OBJECT
public:
    HttpClient(const QString &endpoint, QObject *parent = 0)
        : QJsonRpcHttpClient(endpoint, parent)
    {
        // defaults added for my local test server
        m_username = "bitcoinrpc";
        m_password = "232fb3276bbb7437d265298ea48bdc46";
    }
    void setUsername(const QString &username) {
        m_username = username;
    }
    void setPassword(const QString &password) {
        m_password = password;
    }
private Q_SLOTS:
    virtual void handleAuthenticationRequired(QNetworkReply *reply, QAuthenticator * authenticator)
    {
        Q_UNUSED(reply)
        authenticator->setUser(m_username);
        authenticator->setPassword(m_password);
    }
private:
    QString m_username;
    QString m_password;
};
int main(int argc, char **argv)
{
    QCoreApplication app(argc, argv);
    if (app.arguments().size() < 2) {
        qDebug() << "usage: " << argv[0] << "[-u username] [-p password] <command> <arguments>";
        return -1;
    }
    HttpClient client("http://127.0.0.1:8332");
    if (app.arguments().contains("-u")) {
        int idx = app.arguments().indexOf("-u");
        app.arguments().removeAt(idx);
        if(idx<app.arguments().count())
              client.setUsername(app.arguments().takeAt(idx));
        else qDebug()<<"-u value not defined";
    }
    if (app.arguments().contains("-p")) {
        int idx = app.arguments().indexOf("-p");
        app.arguments().removeAt(idx);
        if(idx<app.arguments().count())
            client.setPassword(app.arguments().takeAt(idx));
        else qDebug()<<"-p value not defined";
    }
    QJsonRpcMessage message = QJsonRpcMessage::createRequest(app.arguments().at(1));
    QJsonRpcMessage response = client.sendMessageBlocking(message);
    if (response.type() == QJsonRpcMessage::Error) {
        qDebug() << response.errorData();
        return -1;
    }
    qDebug() << response.toJson();
}
</source>
== Multi-wallet RPC calls ==
[[Bitcoin Knots]] 0.13.1 added support for loading multiple, separate wallets.
Multi-wallet can be enabled by using more than one <code>-wallet</code> argument when starting Bitcoin, either on the command line or in the Bitcoin config file.
This was also included in [[Bitcoin Core]] 0.15.
Wallet-level RPC calls (like <code>importaddress</code> or <code>listtransactions</code>) can specify which wallet file will be accessed. This is done by setting the HTTP endpoint in the JSON-RPC request in the format <code><RPC IP address>:<RPC port>/wallet/<wallet name></code>, for example <code>https://127.0.0.1:8332/wallet/wallet1.dat</code>.
The command line utility bitcoin-cli can specify the wallet file using the <code>-rpcwallet</code> flag, for example <code>bitcoin-cli -rpcwallet=wallet1.dat getbalance</code>
For more details see the [https://github.com/bitcoin/bitcoin/blob/master/doc/release-notes/release-notes-0.15.0.md#multi-wallet-support Bitcoin Core 0.15 release notes]
Alternatively (but not available in Bitcoin Core at this time), an additional parameter can be specified to <code>-rpcauth</code> naming a default wallet for JSON-RPC accesses to the normal endpoint.


== See Also==
== See Also==
* The Bitcoin Core documentation: https://github.com/bitcoin/bitcoin/blob/master/doc/JSON-RPC-interface.md#json-rpc-interface
* The Bitcoin Core RPC help for each call: https://bitcoincore.org/en/doc/
* The Bitcoin Core RPC error codes: https://github.com/bitcoin/bitcoin/blob/master/src/rpc/protocol.h
* Bitcoin Core RPC API version changes https://masonicboom.github.io/btcrpcapi/


* [[Original_Bitcoin_client/API_Calls_list|API calls list]]
* [[Original_Bitcoin_client/API_Calls_list|API calls list]]
* [[Running Bitcoin]]
* [[Running Bitcoin]]
* [[Lazy API]]
* [[Lazy API]]
* [[PHP developer intro]]
* [[Raw_Transactions|Raw Transactions API]]
* [https://gourl.io/bitcoin-payment-gateway-api.html GoUrl Bitcoin PHP Payment API]
* [http://blockchain.info/api/json_rpc_api Web Based JSON RPC interface.]


[[Category:Articles using content from the old wiki]]
[[Category:Technical]]
[[Category:Technical]]
[[Category:Developer]]
[[Category:Developer]]
[[zh-cn:API_reference_(JSON-RPC)]]
{{Bitcoin Core documentation}}

Latest revision as of 10:14, 28 October 2024

Controlling Bitcoin Core

Run bitcoind or bitcoin-qt -server. You can control it via the command-line bitcoin-cli utility or by HTTP JSON-RPC commands.

You must create a bitcoin.conf configuration file setting an rpcuser and rpcpassword; see Running Bitcoin for details.

Now run:

 $ ./bitcoind -daemon
 bitcoin server starting
 $ ./bitcoin-cli -rpcwait help
 # shows the help text

A list of RPC calls will be shown.

 $ ./bitcoin-cli getbalance
 2000.00000

If you are learning the API, it is a very good idea to use the test network (run bitcoind -testnet and bitcoin-cli -testnet).

JSON-RPC

Running Bitcoin with the -server argument (or running bitcoind) tells it to function as a HTTP JSON-RPC server, but Basic access authentication must be used when communicating with it, and, for security, by default, the server only accepts connections from other processes on the same machine. If your HTTP or JSON library requires you to specify which 'realm' is authenticated, use 'jsonrpc'.

Bitcoin supports SSL (https) JSON-RPC connections beginning with version 0.3.14. See the rpcssl wiki page for setup instructions and a list of all bitcoin.conf configuration options.

Allowing arbitrary machines to access the JSON-RPC port (using the rpcallowip configuration option) is dangerous and strongly discouraged-- access should be strictly limited to trusted machines.

Proper money handling

See the proper money handling page for notes on avoiding rounding errors when handling bitcoin values.

Languages

Python

python-jsonrpc is the official JSON-RPC implementation for Python. It automatically generates Python methods for RPC calls. However, due to its design for supporting old versions of Python, it is also rather inefficient. jgarzik has forked it as Python-BitcoinRPC and optimized it for current versions. Generally, this version is recommended.

While BitcoinRPC lacks a few obscure features from jsonrpc, software using only the ServiceProxy class can be written the same to work with either version the user might choose to install:

from jsonrpc import ServiceProxy
  
access = ServiceProxy("http://user:password@127.0.0.1:8332")
access.getblockchaininfo()
access.listreceivedbyaddress(6)
#access.sendtoaddress("11yEmxiMso2RsFVfBcCa616npBvGgxiBX", 10)

The latest version of python-bitcoinrpc has a new syntax.

from bitcoinrpc.authproxy import AuthServiceProxy

Ruby

require 'net/http'
require 'uri'
require 'json'

class BitcoinRPC
  def initialize(service_url)
    @uri = URI.parse(service_url)
  end

  def method_missing(name, *args)
    post_body = { 'method' => name, 'params' => args, 'id' => 'jsonrpc' }.to_json
    resp = JSON.parse( http_post_request(post_body) )
    raise JSONRPCError, resp['error'] if resp['error']
    resp['result']
  end

  def http_post_request(post_body)
    http    = Net::HTTP.new(@uri.host, @uri.port)
    request = Net::HTTP::Post.new(@uri.request_uri)
    request.basic_auth @uri.user, @uri.password
    request.content_type = 'application/json'
    request.body = post_body
    http.request(request).body
  end

  class JSONRPCError < RuntimeError; end
end

if $0 == __FILE__
  h = BitcoinRPC.new('http://user:password@127.0.0.1:8332')
  p h.getbalance
  p h.getblockchaininfo
  p h.getnewaddress
  p h.dumpprivkey( h.getnewaddress )
  # also see: https://en.bitcoin.it/wiki/Original_Bitcoin_client/API_Calls_list
end

Erlang

Get the rebar dependency from https://github.com/edescourtis/ebitcoind . By default the client will use the configuration in $HOME/.bitcoin/bitcoin.conf or you can instead specify a URI like this:

ebitcoind:start_link(<<"http://user:password@localhost:8332/">>).

Here is a usage example:

1> {ok,Pid} = ebitcoind:start_link().
{ok,<0.177.0>}
2> ebitcoind:getbalance(Pid).
8437.02478294
3> ebitcoind:getblockchaininfo(Pid).
{ok, #{<<"balance">> => 8437.02478294,
  <<"blocks">> => 260404,
  <<"connections">> => 8,
  <<"difficulty">> => 148819199.80509263,
  <<"errors">> => <<>>,
  <<"keypoololdest">> => 1420307921,
  <<"keypoolsize">> => 102,
  <<"paytxfee">> => 0.0,
  <<"protocolversion">> => 70002,
  <<"proxy">> => <<>>,
  <<"relayfee">> => 1.0e-5,
  <<"testnet">> => false,
  <<"timeoffset">> => -3,
  <<"version">> => 90300,
  <<"walletversion">> => 60000}}
4> ebitcoind:setgenerate(Pid,true).
{ok, null}
5> ebitcoind:getblocktemplate(Pid, #{}).                     
{ok,#{<<"bits">> => <<"181b0dca">>,
      <<"coinbaseaux">> => #{<<"flags">> => <<"062f503253482f">>},
      <<"coinbasevalue">> => 2518690558,
      <<"curtime">> => 1420421249,
      <<"height">> => 337533,
      <<"mintime">> => 1420416332,
      <<"mutable">> => [<<"time">>,<<"transactions">>,<<"prevblock">>],
      <<"noncerange">> => <<"00000000ffffffff">>,
      <<"previousblockhash">> => <<"000000000000000017ce0a0d328bf84cc597785844393e899e9a971a81679a5f">>,
      <<"sigoplimit">> => 20000,
      <<"sizelimit">> => 1000000,
      <<"target">> => <<"00000000000000001b0dca00000000000000000000000000000000000000"...>>,
      <<"transactions">> => [#{<<"data">> => <<"01000000049b47ce225d29bff7c18b7df7d7df4693523a52"...>>,
         <<"depends">> => [],
         <<"fee">> => 0,
         <<"hash">> => <<"6d0d76e1f27b3a6f7325923710dcdb4107c9"...>>,
         <<"sigops">> => 1},
      ...

PHP

The JSON-RPC PHP library also makes it very easy to connect to Bitcoin. For example:

  require_once 'jsonRPCClient.php';
  
  $bitcoin = new jsonRPCClient('http://user:password@127.0.0.1:8332/');
   
  echo "<pre>\n";
  print_r($bitcoin->getblockchaininfo()); echo "\n";
  echo "Received: ".$bitcoin->getreceivedbylabel("Your Address")."\n";
  echo "</pre>";

Note: The jsonRPCClient library uses fopen() and will throw an exception saying "Unable to connect" if it receives a 404 or 500 error from bitcoind. This prevents you from being able to see error messages generated by bitcoind (as they are sent with status 404 or 500). The EasyBitcoin-PHP library is similar in function to JSON-RPC PHP but does not have this issue.

Java

The easiest way to tell Java to use HTTP Basic authentication is to set a default Authenticator:

  final String rpcuser ="...";
  final String rpcpassword ="...";
  
  Authenticator.setDefault(new Authenticator() {
      protected PasswordAuthentication getPasswordAuthentication() {
          return new PasswordAuthentication (rpcuser, rpcpassword.toCharArray());
      }
  });

Once that is done, any JSON-RPC library for Java (or ordinary URL POSTs) may be used to communicate with the Bitcoin server.

Instead of writing your own implementation, consider using one of the existing wrappers like BitcoindClient4J, btcd-cli4j or Bitcoin-JSON-RPC-Client instead.

Perl

The JSON::RPC package from CPAN can be used to communicate with Bitcoin. You must set the client's credentials; for example:

  use JSON::RPC::Client;
  use Data::Dumper;
   
  my $client = new JSON::RPC::Client;
  
  $client->ua->credentials(
     'localhost:8332', 'jsonrpc', 'user' => 'password'  # REPLACE WITH YOUR bitcoin.conf rpcuser/rpcpassword
      );
  
  my $uri = 'http://localhost:8332/';
  my $obj = {
      method  => 'getblockchaininfo',
      params  => [],
   };
   
  my $res = $client->call( $uri, $obj );
   
  if ($res){
      if ($res->is_error) { print "Error : ", $res->error_message; }
      else { print Dumper($res->result); }
  } else {
      print $client->status_line;
  }

Go

The btcrpcclient package can be used to communicate with Bitcoin. You must provide credentials to match the client you are communicating with.

package main

import (
	"github.com/btcsuite/btcd/chaincfg"
	"github.com/btcsuite/btcrpcclient"
	"github.com/btcsuite/btcutil"
	"log"
)

func main() {
	// create new client instance
	client, err := btcrpcclient.New(&btcrpcclient.ConnConfig{
		HTTPPostMode: true,
		DisableTLS:   true,
		Host:         "127.0.0.1:8332",
		User:         "rpcUsername",
		Pass:         "rpcPassword",
	}, nil)
	if err != nil {
		log.Fatalf("error creating new btc client: %v", err)
	}

	// list accounts
	accounts, err := client.ListAccounts()
	if err != nil {
		log.Fatalf("error listing accounts: %v", err)
	}
	// iterate over accounts (map[string]btcutil.Amount) and write to stdout
	for label, amount := range accounts {
		log.Printf("%s: %s", label, amount)
	}

	// prepare a sendMany transaction
	receiver1, err := btcutil.DecodeAddress("1someAddressThatIsActuallyReal", &chaincfg.MainNetParams)
	if err != nil {
		log.Fatalf("address receiver1 seems to be invalid: %v", err)
	}
	receiver2, err := btcutil.DecodeAddress("1anotherAddressThatsPrettyReal", &chaincfg.MainNetParams)
	if err != nil {
		log.Fatalf("address receiver2 seems to be invalid: %v", err)
	}
	receivers := map[btcutil.Address]btcutil.Amount{
		receiver1: 42,  // 42 satoshi
		receiver2: 100, // 100 satoshi
	}

	// create and send the sendMany tx
	txSha, err := client.SendMany("some-account-label-from-which-to-send", receivers)
	if err != nil {
		log.Fatalf("error sendMany: %v", err)
	}
	log.Printf("sendMany completed! tx sha is: %s", txSha.String())
}

.NET (C#)

The communication with the RPC service can be achieved using the standard http request/response objects. A library for serializing and deserializing Json will make your life a lot easier:

Json.NET ( http://james.newtonking.com/json ) is a high performance JSON package for .NET. It is also available via NuGet from the package manager console ( Install-Package Newtonsoft.Json ).

The following example uses Json.NET:

 HttpWebRequest webRequest = (HttpWebRequest)WebRequest.Create("http://localhost.:8332");
 webRequest.Credentials = new NetworkCredential("user", "pwd");
 /// important, otherwise the service can't desirialse your request properly
 webRequest.ContentType = "application/json-rpc";
 webRequest.Method = "POST";
  
 JObject joe = new JObject();
 joe.Add(new JProperty("jsonrpc", "1.0"));
 joe.Add(new JProperty("id", "1"));
 joe.Add(new JProperty("method", Method));
 // params is a collection values which the method requires..
 if (Params.Keys.Count == 0)
 {
  joe.Add(new JProperty("params", new JArray()));
 }
 else
 {
     JArray props = new JArray();
     // add the props in the reverse order!
     for (int i = Params.Keys.Count - 1; i >= 0; i--)
     {
        .... // add the params
     }
     joe.Add(new JProperty("params", props));
     }
  
     // serialize json for the request
     string s = JsonConvert.SerializeObject(joe);
     byte[] byteArray = Encoding.UTF8.GetBytes(s);
     webRequest.ContentLength = byteArray.Length;
     Stream dataStream = webRequest.GetRequestStream();
     dataStream.Write(byteArray, 0, byteArray.Length);
     dataStream.Close();
     
     
     WebResponse webResponse = webRequest.GetResponse();
     
     ... // deserialze the response

There is also a wrapper for Json.NET called Bitnet (https://sourceforge.net/projects/bitnet) implementing Bitcoin API in more convenient way:

     BitnetClient bc = new BitnetClient("http://127.0.0.1:8332");
     bc.Credentials = new NetworkCredential("user", "pass");

     var p = bc.GetDifficulty();
     Console.WriteLine("Difficulty:" + p.ToString());

     var inf = bc.GetBlockchainInfo();
     Console.WriteLine("Balance:" + inf["balance"]);

A more complete library and wrapper for Bitcoin is BitcoinLib (https://github.com/GeorgeKimionis/BitcoinLib) which is also available via NuGet from the package manager console (Install-Package BitcoinLib).

Querying the daemon with BitcoinLib is as simple as:

     IBitcoinService bitcoinService = new BitcoinService();

     var networkDifficulty = bitcoinService.GetDifficulty();
     var myBalance = bitcoinService.GetBalance();

Node.js

Example using bitcoin-core:

const Client = require('bitcoin-core');
const client = new Client({ 
  network: 'regtest', 
  username: 'user', 
  password: 'pass', 
  port: 18443 
});

client.getBlockchainInfo().then((help) => console.log(help));

Deno

gentle_rpc is a TypeScript JSON-RPC 2.0 library for Deno and the browser, it works perfectly with lowercase function names. There is also a transpiled JavaScript bundle in the repository which you can import directly into the browser.

Example using gentle_rpc:

import { createRemote } from "https://deno.land/x/gentle_rpc/mod.ts";

const Node = new URL("http://127.0.0.1");
Node.port = "18332";
Node.username = "BitcoinUser";
Node.password = "BitcoinPassword";

const remote = createRemote(Node);
const info = await remote.call("getblockchaininfo");
console.log(info);

Command line (cURL)

You can also send commands and see results using cURL or some other command-line HTTP-fetching utility; for example:

  curl --user user --data-binary '{"jsonrpc": "1.0", "id":"curltest", "method": "getblockchaininfo", "params": [] }' 
    -H 'content-type: text/plain;' http://127.0.0.1:8332/

You will be prompted for your rpcpassword, and then will see something like:

  {"result":{"balance":0.000000000000000,"blocks":59952,"connections":48,"proxy":"","generate":false,
     "genproclimit":-1,"difficulty":16.61907875185736},"error":null,"id":"curltest"}

Command line (jsonrpc-cli)

jsonrpc-cli provides simple json queries from the command-line with highlighted json results (colors) and the ability to view/debug raw http requests and responses.

 jsonrpc-cli --user=rpcuser --pass=rpcpassword  http://localhost:8332/ getblockchaininfo
{
    "version": 109900,
    "protocolversion": 70002,
    "walletversion": 60000,
    "balance": 0,
    "blocks": 588597,
    "timeoffset": -1,
    "connections": 9,
    "proxy": "127.0.0.1:9050",
    "difficulty": 9013786945891.682,
    "testnet": false,
    "keypoololdest": 1463279619,
    "keypoolsize": 101,
    "paytxfee": 0,
    "relayfee": 1.0e-5,
    "errors": null
}

Clojure

clj-btc is a Clojure wrapper for the bitcoin API.

user=> (require '[clj-btc.core :as btc])
nil
user=> (btc/getblockchaininfo)
{"timeoffset" 0, "protocolversion" 70001, "blocks" 111908, "errors" "",
 "testnet" true, "proxy" "", "connections" 4, "version" 80500,
 "keypoololdest" 1380388750, "paytxfee" 0E-8M,
 "difficulty" 4642.44443532M, "keypoolsize" 101, "balance" 0E-8M,
 "walletversion" 60000}

C

The C API for processing JSON is Jansson. C applications like libblkmaker use cURL for making the calls and Jansson for interpreting the JSON that cURL fetches.

For example basic usage (which can be easily modified for Bitcoin RPC), see the Jansson example github_commits.c and the associated tutorial.

The following does with libcurl what the cURL example above does:

#include <stdlib.h>

#include <curl/curl.h>

int main()
{
    CURL *curl = curl_easy_init();
    struct curl_slist *headers = NULL;

    if (curl) {
	const char *data =
	    "{\"jsonrpc\": \"1.0\", \"id\":\"curltest\", \"method\": \"getblockchaininfo\", \"params\": [] }";

	headers = curl_slist_append(headers, "content-type: text/plain;");
	curl_easy_setopt(curl, CURLOPT_HTTPHEADER, headers);

	curl_easy_setopt(curl, CURLOPT_URL, "http://127.0.0.1:8332/");

	curl_easy_setopt(curl, CURLOPT_POSTFIELDSIZE, (long) strlen(data));
	curl_easy_setopt(curl, CURLOPT_POSTFIELDS, data);

	curl_easy_setopt(curl, CURLOPT_USERPWD,
			 "bitcoinrpcUSERNAME:bitcoinrpcPASSWORD");

	curl_easy_setopt(curl, CURLOPT_USE_SSL, CURLUSESSL_TRY);

	curl_easy_perform(curl);
    }
    return 0;
}

This output can be parsed with Jansson, à la the Jansson tutorial linked to above.

(source: Bitcoin StackExchange)

Qt/C++

QJsonRpc is a Qt/C++ implementation of the JSON-RPC protocol. It integrates nicely with Qt, leveraging Qt's meta object system in order to provide services over the JSON-RPC protocol. QJsonRpc is licensed under the LGPLv2.1.

/*
 * Copyright (C) 2012-2013 Matt Broadstone
 * Contact: http://bitbucket.org/devonit/qjsonrpc
 *
 * This file is part of the QJsonRpc Library.
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 */
#include <QCoreApplication>
#include <QAuthenticator>
#include <QStringList>
#include <QDebug>

#include "qjsonrpchttpclient.h"

class HttpClient : public QJsonRpcHttpClient
{
    Q_OBJECT
public:
    HttpClient(const QString &endpoint, QObject *parent = 0)
        : QJsonRpcHttpClient(endpoint, parent)
    {
        // defaults added for my local test server
        m_username = "bitcoinrpc";
        m_password = "232fb3276bbb7437d265298ea48bdc46";
    }

    void setUsername(const QString &username) {
        m_username = username;
    }

    void setPassword(const QString &password) {
        m_password = password;
    }

private Q_SLOTS:
    virtual void handleAuthenticationRequired(QNetworkReply *reply, QAuthenticator * authenticator)
    {
        Q_UNUSED(reply)
        authenticator->setUser(m_username);
        authenticator->setPassword(m_password);
    }

private:
    QString m_username;
    QString m_password;

};

int main(int argc, char **argv)
{
    QCoreApplication app(argc, argv);
    if (app.arguments().size() < 2) {
        qDebug() << "usage: " << argv[0] << "[-u username] [-p password] <command> <arguments>";
        return -1;
    }

    HttpClient client("http://127.0.0.1:8332");
    if (app.arguments().contains("-u")) {
        int idx = app.arguments().indexOf("-u");
        app.arguments().removeAt(idx);
        if(idx<app.arguments().count())
              client.setUsername(app.arguments().takeAt(idx));
        else qDebug()<<"-u value not defined";
    }

    if (app.arguments().contains("-p")) {
        int idx = app.arguments().indexOf("-p");
        app.arguments().removeAt(idx);
        if(idx<app.arguments().count())
            client.setPassword(app.arguments().takeAt(idx));
        else qDebug()<<"-p value not defined";
    }

    QJsonRpcMessage message = QJsonRpcMessage::createRequest(app.arguments().at(1));
    QJsonRpcMessage response = client.sendMessageBlocking(message);
    if (response.type() == QJsonRpcMessage::Error) {
        qDebug() << response.errorData();
        return -1;
    }

    qDebug() << response.toJson();
}

Multi-wallet RPC calls

Bitcoin Knots 0.13.1 added support for loading multiple, separate wallets. Multi-wallet can be enabled by using more than one -wallet argument when starting Bitcoin, either on the command line or in the Bitcoin config file. This was also included in Bitcoin Core 0.15.

Wallet-level RPC calls (like importaddress or listtransactions) can specify which wallet file will be accessed. This is done by setting the HTTP endpoint in the JSON-RPC request in the format <RPC IP address>:<RPC port>/wallet/<wallet name>, for example https://127.0.0.1:8332/wallet/wallet1.dat.

The command line utility bitcoin-cli can specify the wallet file using the -rpcwallet flag, for example bitcoin-cli -rpcwallet=wallet1.dat getbalance

For more details see the Bitcoin Core 0.15 release notes

Alternatively (but not available in Bitcoin Core at this time), an additional parameter can be specified to -rpcauth naming a default wallet for JSON-RPC accesses to the normal endpoint.

See Also