go-algorand
Algorand's official implementation in Go.
Algorand is a permissionless, pure proof-of-stake blockchain that delivers decentralization, scalability, security, and transaction finality.
Getting Started
Our developer website has the most up to date information about using and installing the algorand platform.
Building from source
Development is done using the Go Programming Language, and this document assumes that you have a functioning environment setup. If you need assistance setting up an environment please visit the official Go documentation website.
Linux / OSX
We currently strive to support Debian based distributions with Ubuntu 18.04 being our official release target. Our core engineering team uses Linux and OSX, so both environments are well supported for development.
Initial environment setup:
mkdir -p ${GOPATH}/src/github.com/algorand
cd ${GOPATH}/src/github.com/algorand
git clone https://github.com/algorand/go-algorand
cd go-algorand
sh ./scripts/configure_dev.sh
At this point you are ready to build go-algorand. We use make
and have a number of targets to automate common tasks.
build
make install
test
# unit tests
make test
# integration tests
make integration
style and checks
make fmt
make lint
make fix
make vet
or alternatively
make sanity
Running a node
Once the software is built you'll find binaries in ${GOPATH}/bin
, and a data directory will be initialized at ~/.algorand
. Start your node with ${GOPATH}/bin/goal node start -d ~/.algorand
, use ${GOPATH}/bin/carpenter -d ~/.algorand
to see activity. Refer to the developer website for how to use the different tools.
Contributing (Code, Documentation, Bugs, Etc)
Please refer to our CONTRIBUTING document.
Project Layout
go-algorand
is split into various subpackages.
The following packages provide core functionality to the algod
and kmd
daemons, as well as other tools and commands:
crypto
contains the cryptographic constructions we're using for hashing, signatures, and VRFs. There are also some Algorand-specific details here about spending keys, protocols keys, one-time-use signing keys, and how they relate to each other.config
holds configuration parameters. These include parameters used locally by the node as well as parameters which must be agreed upon by the protocol.data
defines various types used throughout the codebase.basics
holds basic types such as MicroAlgos, account data, and addresses.account
defines accounts, including "root" accounts (which can spend money) and "participation" accounts (which can participate in the agreement protocol).transactions
defines transactions that accounts can issue against the Algorand state. These include standard payments and also participation key registration transactions.bookkeeping
defines blocks, which are batches of transactions atomically committed to Algorand.pools
implements the transaction pool. The transaction pool holds transactions seen by a node in memory before they are proposed in a block.committee
implements the credentials that authenticate a participating account's membership in the agreement protocol.
ledger
contains the Algorand Ledger state machine, which holds the sequence of blocks. The Ledger executes the state transitions that result from applying these blocks. It answers queries on blocks (e.g., what transactions were in the last committed block?) and on accounts (e.g., what is my balance?).protocol
declares constants used to identify protocol versions, tags for routing network messages, and prefixes for domain separation of cryptographic inputs. It also implements the canonical encoder.network
contains the code for participating in a mesh network based on websockets. Maintains connection to some number of peers, (optionally) accepts connections from peers, sends point to point and broadcast messages, and receives messages routing them to various handler code (e.g. agreement/gossip/network.go registers three handlers).rpcs
contains the HTTP RPCs used byalgod
processes to query one another.
agreement
contains the agreement service, which implements Algorand's Byzantine Agreement protocol. This protocol allows participating accounts to quickly confirm blocks in a fork-safe manner, provided that sufficient account stake is correctly executing the protocol.node
integrates the components above and handles initialization and shutdown. It provides queries into these components.
daemon
defines the two daemons which provide Algorand clients with services:
daemon/algod
holds thealgod
daemon, which implements a participating node.algod
allows a node to participate in the agreement protocol, submit and confirm transactions, and view the state of the Algorand Ledger.daemon/kmd
holds thekmd
daemon. This daemon allows a node to sign transactions. Becausekmd
is separate fromalgod
,kmd
allows a user to sign transactions on an air-gapped computer.
The following packages allow developers to interface with the Algorand system:
cmd
holds the primary commands defining entry points into the system.libgoal
exports a Go interface useful for developers of Algorand clients.debug
holds secondary commands which assist developers during debugging.
The auction
package implements the Algorand auctions.
The following packages contain tools to help Algorand developers deploy networks of their own:
nodecontrol
tools
docker
commandandcontrol
components
netdeploy
A number of packages provide utilities for the various components:
logging
is a wrapper aroundlogrus
.util
contains a variety of utilities, including a codec, a sqlite wrapper, a goroutine pool, a timer interface, node metrics, and more.
test
contains end-to-end tests for the above components.
License
Please see the COPYING_FAQ for details about how to apply our license.
Copyright (C) 2019, Algorand Inc