lbcd/docs/README.md

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### Table of Contents
1. [About](#About)
2. [Getting Started](#GettingStarted)
1. [Installation](#Installation)
1. [Windows](#WindowsInstallation)
2. [Linux/BSD/MacOSX/POSIX](#PosixInstallation)
1. [Gentoo Linux](#GentooInstallation)
2. [Configuration](#Configuration)
3. [Controlling and Querying btcd via btcctl](#BtcctlConfig)
4. [Mining](#Mining)
3. [Help](#Help)
1. [Startup](#Startup)
1. [Using bootstrap.dat](#BootstrapDat)
2. [Network Configuration](#NetworkConfig)
3. [Wallet](#Wallet)
4. [Contact](#Contact)
1. [IRC](#ContactIRC)
2. [Mailing Lists](#MailingLists)
5. [Developer Resources](#DeveloperResources)
1. [Code Contribution Guidelines](#ContributionGuidelines)
2. [JSON-RPC Reference](#JSONRPCReference)
3. [The btcsuite Bitcoin-related Go Packages](#GoPackages)
<a name="About" />
### 1. About
btcd is a full node bitcoin implementation written in [Go](http://golang.org),
licensed under the [copyfree](http://www.copyfree.org) ISC License.
This project is currently under active development and is in a Beta state. It
is extremely stable and has been in production use since October 2013.
blockchain: Add block validation infrastructure. This adds a full-blown testing infrastructure in order to test consensus validation rules. It is built around the idea of dynamically generating full blocks that target specific rules linked together to form a block chain. In order to properly test the rules, each test instance starts with a valid block that is then modified in the specific way needed to test a specific rule. Blocks which exercise following rules have been added for this initial version. These tests were largely ported from the original Java-based 'official' block acceptance tests as well as some additional tests available in the Core python port. It is expected that further tests can be added over time as consensus rules change. * Enough valid blocks to have a stable base of mature coinbases to spend for futher tests * Basic forking and chain reorganization * Double spends on forks * Too much proof-of-work coinbase (extending main chain, in block that forces a reorg, and in a valid fork) * Max and too many signature operations via various combinations of OP_CHECKSIG, OP_MULTISIG, OP_CHECKSIGVERIFY, and OP_MULTISIGVERIFY * Too many and max signature operations with offending sigop after invalid data push * Max and too many signature operations via pay-to-script-hash redeem scripts * Attempt to spend tx created on a different fork * Attempt to spend immature coinbase (on main chain and fork) * Max size block and block that exceeds the max size * Children of rejected blocks are either orphans or rejected * Coinbase script too small and too large * Max length coinbase script * Attempt to spend tx in blocks that failed to connect * Valid non-coinbase tx in place of coinbase * Block with no transactions * Invalid proof-of-work * Block with a timestamp too far in the future * Invalid merkle root * Invalid proof-of-work limit (bits header field) * Negative proof-of-work limit (bits header field) * Two coinbase transactions * Duplicate transactions * Spend from transaction that does not exist * Timestamp exactly at and one second after the median time * Blocks with same hash via merkle root tricks * Spend from transaction index that is out of range * Transaction that spends more that its inputs provide * Transaction with same hash as an existing tx that has not been fully spent (BIP0030) * Non-final coinbase and non-coinbase txns * Max size block with canonical encoding which exceeds max size with non-canonical encoding * Spend from transaction earlier in same block * Spend from transaction later in same block * Double spend transaction from earlier in same block * Coinbase that pays more than subsidy + fees * Coinbase that includes subsidy + fees * Invalid opcode in dead execution path * Reorganization of txns with OP_RETURN outputs * Spend of an OP_RETURN output * Transaction with multiple OP_RETURN outputs * Large max-sized block reorganization test (disabled by default since it takes a long time and a lot of memory to run) Finally, the README.md files in the main and docs directories have been updated to reflect the use of the new testing framework.
2016-09-14 01:11:12 +02:00
It properly downloads, validates, and serves the block chain using the exact
rules (including consensus bugs) for block acceptance as Bitcoin Core. We have
taken great care to avoid btcd causing a fork to the block chain. It includes a
full block validation testing framework which contains all of the 'official'
block acceptance tests (and some additional ones) that is run on every pull
request to help ensure it properly follows consensus. Also, it passes all of
the JSON test data in the Bitcoin Core code.
It also properly relays newly mined blocks, maintains a transaction pool, and
blockchain: Add block validation infrastructure. This adds a full-blown testing infrastructure in order to test consensus validation rules. It is built around the idea of dynamically generating full blocks that target specific rules linked together to form a block chain. In order to properly test the rules, each test instance starts with a valid block that is then modified in the specific way needed to test a specific rule. Blocks which exercise following rules have been added for this initial version. These tests were largely ported from the original Java-based 'official' block acceptance tests as well as some additional tests available in the Core python port. It is expected that further tests can be added over time as consensus rules change. * Enough valid blocks to have a stable base of mature coinbases to spend for futher tests * Basic forking and chain reorganization * Double spends on forks * Too much proof-of-work coinbase (extending main chain, in block that forces a reorg, and in a valid fork) * Max and too many signature operations via various combinations of OP_CHECKSIG, OP_MULTISIG, OP_CHECKSIGVERIFY, and OP_MULTISIGVERIFY * Too many and max signature operations with offending sigop after invalid data push * Max and too many signature operations via pay-to-script-hash redeem scripts * Attempt to spend tx created on a different fork * Attempt to spend immature coinbase (on main chain and fork) * Max size block and block that exceeds the max size * Children of rejected blocks are either orphans or rejected * Coinbase script too small and too large * Max length coinbase script * Attempt to spend tx in blocks that failed to connect * Valid non-coinbase tx in place of coinbase * Block with no transactions * Invalid proof-of-work * Block with a timestamp too far in the future * Invalid merkle root * Invalid proof-of-work limit (bits header field) * Negative proof-of-work limit (bits header field) * Two coinbase transactions * Duplicate transactions * Spend from transaction that does not exist * Timestamp exactly at and one second after the median time * Blocks with same hash via merkle root tricks * Spend from transaction index that is out of range * Transaction that spends more that its inputs provide * Transaction with same hash as an existing tx that has not been fully spent (BIP0030) * Non-final coinbase and non-coinbase txns * Max size block with canonical encoding which exceeds max size with non-canonical encoding * Spend from transaction earlier in same block * Spend from transaction later in same block * Double spend transaction from earlier in same block * Coinbase that pays more than subsidy + fees * Coinbase that includes subsidy + fees * Invalid opcode in dead execution path * Reorganization of txns with OP_RETURN outputs * Spend of an OP_RETURN output * Transaction with multiple OP_RETURN outputs * Large max-sized block reorganization test (disabled by default since it takes a long time and a lot of memory to run) Finally, the README.md files in the main and docs directories have been updated to reflect the use of the new testing framework.
2016-09-14 01:11:12 +02:00
relays individual transactions that have not yet made it into a block. It
ensures all individual transactions admitted to the pool follow the rules
blockchain: Add block validation infrastructure. This adds a full-blown testing infrastructure in order to test consensus validation rules. It is built around the idea of dynamically generating full blocks that target specific rules linked together to form a block chain. In order to properly test the rules, each test instance starts with a valid block that is then modified in the specific way needed to test a specific rule. Blocks which exercise following rules have been added for this initial version. These tests were largely ported from the original Java-based 'official' block acceptance tests as well as some additional tests available in the Core python port. It is expected that further tests can be added over time as consensus rules change. * Enough valid blocks to have a stable base of mature coinbases to spend for futher tests * Basic forking and chain reorganization * Double spends on forks * Too much proof-of-work coinbase (extending main chain, in block that forces a reorg, and in a valid fork) * Max and too many signature operations via various combinations of OP_CHECKSIG, OP_MULTISIG, OP_CHECKSIGVERIFY, and OP_MULTISIGVERIFY * Too many and max signature operations with offending sigop after invalid data push * Max and too many signature operations via pay-to-script-hash redeem scripts * Attempt to spend tx created on a different fork * Attempt to spend immature coinbase (on main chain and fork) * Max size block and block that exceeds the max size * Children of rejected blocks are either orphans or rejected * Coinbase script too small and too large * Max length coinbase script * Attempt to spend tx in blocks that failed to connect * Valid non-coinbase tx in place of coinbase * Block with no transactions * Invalid proof-of-work * Block with a timestamp too far in the future * Invalid merkle root * Invalid proof-of-work limit (bits header field) * Negative proof-of-work limit (bits header field) * Two coinbase transactions * Duplicate transactions * Spend from transaction that does not exist * Timestamp exactly at and one second after the median time * Blocks with same hash via merkle root tricks * Spend from transaction index that is out of range * Transaction that spends more that its inputs provide * Transaction with same hash as an existing tx that has not been fully spent (BIP0030) * Non-final coinbase and non-coinbase txns * Max size block with canonical encoding which exceeds max size with non-canonical encoding * Spend from transaction earlier in same block * Spend from transaction later in same block * Double spend transaction from earlier in same block * Coinbase that pays more than subsidy + fees * Coinbase that includes subsidy + fees * Invalid opcode in dead execution path * Reorganization of txns with OP_RETURN outputs * Spend of an OP_RETURN output * Transaction with multiple OP_RETURN outputs * Large max-sized block reorganization test (disabled by default since it takes a long time and a lot of memory to run) Finally, the README.md files in the main and docs directories have been updated to reflect the use of the new testing framework.
2016-09-14 01:11:12 +02:00
required by the block chain and also includes more strict checks which filter
transactions based on miner requirements ("standard" transactions).
One key difference between btcd and Bitcoin Core is that btcd does *NOT* include
wallet functionality and this was a very intentional design decision. See the
blog entry [here](https://blog.conformal.com/btcd-not-your-moms-bitcoin-daemon)
for more details. This means you can't actually make or receive payments
directly with btcd. That functionality is provided by the
[btcwallet](https://github.com/btcsuite/btcwallet) and
[Paymetheus](https://github.com/btcsuite/Paymetheus) (Windows-only) projects
which are both under active development.
<a name="GettingStarted" />
### 2. Getting Started
<a name="Installation" />
**2.1 Installation**<br />
The first step is to install btcd. See one of the following sections for
details on how to install on the supported operating systems.
<a name="WindowsInstallation" />
**2.1.1 Windows Installation**<br />
* Install the MSI available at: https://github.com/btcsuite/btcd/releases
* Launch btcd from the Start Menu
<a name="PosixInstallation" />
**2.1.2 Linux/BSD/MacOSX/POSIX Installation**<br />
- Install Go according to the installation instructions here:
http://golang.org/doc/install
- Ensure Go was installed properly and is a supported version:
```bash
$ go version
$ go env GOROOT GOPATH
```
NOTE: The `GOROOT` and `GOPATH` above must not be the same path. It is
recommended that `GOPATH` is set to a directory in your home directory such as
`~/goprojects` to avoid write permission issues. It is also recommended to add
`$GOPATH/bin` to your `PATH` at this point.
- Run the following commands to obtain btcd, all dependencies, and install it:
```bash
$ go get -u github.com/Masterminds/glide
$ git clone https://github.com/btcsuite/btcd $GOPATH/src/github.com/btcsuite/btcd
$ cd $GOPATH/src/github.com/btcsuite/btcd
$ glide install
$ go install . ./cmd/...
```
- btcd (and utilities) will now be installed in ```$GOPATH/bin```. If you did
not already add the bin directory to your system path during Go installation,
we recommend you do so now.
**Updating**
- Run the following commands to update btcd, all dependencies, and install it:
```bash
$ cd $GOPATH/src/github.com/btcsuite/btcd
$ git pull && glide install
$ go install . ./cmd/...
```
<a name="GentooInstallation" />
**2.1.2.1 Gentoo Linux Installation**<br />
* Install Layman and enable the Bitcoin overlay.
* https://gitlab.com/bitcoin/gentoo
* Copy or symlink `/var/lib/layman/bitcoin/Documentation/package.keywords/btcd-live` to `/etc/portage/package.keywords/`
* Install btcd: `$ emerge net-p2p/btcd`
<a name="Configuration" />
**2.2 Configuration**<br />
btcd has a number of [configuration](http://godoc.org/github.com/btcsuite/btcd)
options, which can be viewed by running: `$ btcd --help`.
<a name="BtcctlConfig" />
**2.3 Controlling and Querying btcd via btcctl**<br />
btcctl is a command line utility that can be used to both control and query btcd
via [RPC](http://www.wikipedia.org/wiki/Remote_procedure_call). btcd does
**not** enable its RPC server by default; You must configure at minimum both an
RPC username and password or both an RPC limited username and password:
* btcd.conf configuration file
```
[Application Options]
rpcuser=myuser
rpcpass=SomeDecentp4ssw0rd
rpclimituser=mylimituser
rpclimitpass=Limitedp4ssw0rd
```
* btcctl.conf configuration file
```
[Application Options]
rpcuser=myuser
rpcpass=SomeDecentp4ssw0rd
```
OR
```
[Application Options]
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rpclimituser=mylimituser
rpclimitpass=Limitedp4ssw0rd
```
For a list of available options, run: `$ btcctl --help`
<a name="Mining" />
**2.4 Mining**<br />
btcd supports the `getblocktemplate` RPC.
The limited user cannot access this RPC.<br />
**1. Add the payment addresses with the `miningaddr` option.**<br />
```
[Application Options]
rpcuser=myuser
rpcpass=SomeDecentp4ssw0rd
miningaddr=12c6DSiU4Rq3P4ZxziKxzrL5LmMBrzjrJX
miningaddr=1M83ju3EChKYyysmM2FXtLNftbacagd8FR
```
**2. Add btcd's RPC TLS certificate to system Certificate Authority list.**<br />
`cgminer` uses [curl](http://curl.haxx.se/) to fetch data from the RPC server.
Since curl validates the certificate by default, we must install the `btcd` RPC
certificate into the default system Certificate Authority list.
**Ubuntu**<br />
1. Copy rpc.cert to /usr/share/ca-certificates: `# cp /home/user/.btcd/rpc.cert /usr/share/ca-certificates/btcd.crt`<br />
2. Add btcd.crt to /etc/ca-certificates.conf: `# echo btcd.crt >> /etc/ca-certificates.conf`<br />
3. Update the CA certificate list: `# update-ca-certificates`<br />
**3. Set your mining software url to use https.**<br />
`$ cgminer -o https://127.0.0.1:8334 -u rpcuser -p rpcpassword`
<a name="Help" />
### 3. Help
<a name="Startup" />
**3.1 Startup**<br />
Typically btcd will run and start downloading the block chain with no extra
configuration necessary, however, there is an optional method to use a
`bootstrap.dat` file that may speed up the initial block chain download process.
<a name="BootstrapDat" />
**3.1.1 bootstrap.dat**<br />
* [Using bootstrap.dat](https://github.com/btcsuite/btcd/tree/master/docs/using_bootstrap_dat.md)
<a name="NetworkConfig" />
**3.1.2 Network Configuration**<br />
* [What Ports Are Used by Default?](https://github.com/btcsuite/btcd/tree/master/docs/default_ports.md)
* [How To Listen on Specific Interfaces](https://github.com/btcsuite/btcd/tree/master/docs/configure_peer_server_listen_interfaces.md)
* [How To Configure RPC Server to Listen on Specific Interfaces](https://github.com/btcsuite/btcd/tree/master/docs/configure_rpc_server_listen_interfaces.md)
* [Configuring btcd with Tor](https://github.com/btcsuite/btcd/tree/master/docs/configuring_tor.md)
<a name="Wallet" />
**3.1 Wallet**<br />
btcd was intentionally developed without an integrated wallet for security
reasons. Please see [btcwallet](https://github.com/btcsuite/btcwallet) for more
information.
<a name="Contact" />
### 4. Contact
<a name="ContactIRC" />
**4.1 IRC**<br />
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* [irc.freenode.net](irc://irc.freenode.net), channel #btcd
<a name="MailingLists" />
**4.2 Mailing Lists**<br />
* <a href="mailto:btcd+subscribe@opensource.conformal.com">btcd</a>: discussion
of btcd and its packages.
* <a href="mailto:btcd-commits+subscribe@opensource.conformal.com">btcd-commits</a>:
readonly mail-out of source code changes.
<a name="DeveloperResources" />
### 5. Developer Resources
<a name="ContributionGuidelines" />
* [Code Contribution Guidelines](https://github.com/btcsuite/btcd/tree/master/docs/code_contribution_guidelines.md)
<a name="JSONRPCReference" />
* [JSON-RPC Reference](https://github.com/btcsuite/btcd/tree/master/docs/json_rpc_api.md)
* [RPC Examples](https://github.com/btcsuite/btcd/tree/master/docs/json_rpc_api.md#ExampleCode)
<a name="GoPackages" />
* The btcsuite Bitcoin-related Go Packages:
* [btcrpcclient](https://github.com/btcsuite/btcrpcclient) - Implements a
robust and easy to use Websocket-enabled Bitcoin JSON-RPC client
* [btcjson](https://github.com/btcsuite/btcjson) - Provides an extensive API
for the underlying JSON-RPC command and return values
* [wire](https://github.com/btcsuite/btcd/tree/master/wire) - Implements the
Bitcoin wire protocol
peer: Refactor peer code into its own package. This commit introduces package peer which contains peer related features refactored from peer.go. The following is an overview of the features the package provides: - Provides a basic concurrent safe bitcoin peer for handling bitcoin communications via the peer-to-peer protocol - Full duplex reading and writing of bitcoin protocol messages - Automatic handling of the initial handshake process including protocol version negotiation - Automatic periodic keep-alive pinging and pong responses - Asynchronous message queueing of outbound messages with optional channel for notification when the message is actually sent - Inventory message batching and send trickling with known inventory detection and avoidance - Ability to wait for shutdown/disconnect - Flexible peer configuration - Caller is responsible for creating outgoing connections and listening for incoming connections so they have flexibility to establish connections as they see fit (proxies, etc.) - User agent name and version - Bitcoin network - Service support signalling (full nodes, bloom filters, etc.) - Maximum supported protocol version - Ability to register callbacks for handling bitcoin protocol messages - Proper handling of bloom filter related commands when the caller does not specify the related flag to signal support - Disconnects the peer when the protocol version is high enough - Does not invoke the related callbacks for older protocol versions - Snapshottable peer statistics such as the total number of bytes read and written, the remote address, user agent, and negotiated protocol version - Helper functions for pushing addresses, getblocks, getheaders, and reject messages - These could all be sent manually via the standard message output function, but the helpers provide additional nice functionality such as duplicate filtering and address randomization - Full documentation with example usage - Test coverage In addition to the addition of the new package, btcd has been refactored to make use of the new package by extending the basic peer it provides to work with the blockmanager and server to act as a full node. The following is a broad overview of the changes to integrate the package: - The server is responsible for all connection management including persistent peers and banning - Callbacks for all messages that are required to implement a full node are registered - Logic necessary to serve data and behave as a full node is now in the callback registered with the peer Finally, the following peer-related things have been improved as a part of this refactor: - Don't log or send reject message due to peer disconnects - Remove trace logs that aren't particularly helpful - Finish an old TODO to switch the queue WaitGroup over to a channel - Improve various comments and fix some code consistency cases - Improve a few logging bits - Implement a most-recently-used nonce tracking for detecting self connections and generate a unique nonce for each peer
2015-10-02 08:03:20 +02:00
* [peer](https://github.com/btcsuite/btcd/tree/master/peer) -
Provides a common base for creating and managing Bitcoin network peers.
* [blockchain](https://github.com/btcsuite/btcd/tree/master/blockchain) -
Implements Bitcoin block handling and chain selection rules
* [blockchain/fullblocktests](https://github.com/btcsuite/btcd/tree/master/blockchain/fullblocktests) -
Provides a set of block tests for testing the consensus validation rules
* [txscript](https://github.com/btcsuite/btcd/tree/master/txscript) -
Implements the Bitcoin transaction scripting language
* [btcec](https://github.com/btcsuite/btcd/tree/master/btcec) - Implements
support for the elliptic curve cryptographic functions needed for the
Bitcoin scripts
* [database](https://github.com/btcsuite/btcd/tree/master/database) -
Provides a database interface for the Bitcoin block chain
* [mempool](https://github.com/btcsuite/btcd/tree/master/mempool) -
Package mempool provides a policy-enforced pool of unmined bitcoin
transactions.
* [btcutil](https://github.com/btcsuite/btcutil) - Provides Bitcoin-specific
convenience functions and types
* [chainhash](https://github.com/btcsuite/btcd/tree/master/chaincfg/chainhash) -
Provides a generic hash type and associated functions that allows the
specific hash algorithm to be abstracted.
* [connmgr](https://github.com/btcsuite/btcd/tree/master/connmgr) -
Package connmgr implements a generic Bitcoin network connection manager.