py-algorand-sdk 0.2.0

Algorand SDK in Python

py-algorand-sdk

A python library for interacting with the Algorand network.

Installation

Run $ pip3 install py-algorand-sdk to install the package.

Alternatively, visit https://pypi.org/project/py-algorand-sdk/#files, download a file, and run $ pip3 install [file name] to install the package.

Node setup

Follow the instructions at https://developer.algorand.org/docs/introduction-installing-node to install a node on your computer.

Running example.py

Before trying the examples, start kmd:

$ ./goal kmd start -d [data directory]

Next, create a wallet and an account:

$ ./goal wallet new [wallet name] -d [data directory]

$ ./goal account new -d [data directory] -w [wallet name]

Now visit https://bank.testnet.algorand.network/ and enter the account address to fund your account.

Next, in params.py, either update the tokens and addresses, or provide a path to the data directory.

You're now ready to run example.py!

More examples

using the Wallet class

Instead of always having to keep track of handles, IDs, and passwords for wallets, create a Wallet object to manage everything for you.

import params
from algosdk import kmd
from algosdk.wallet import Wallet

# create a kmd client
kcl = kmd.KMDClient(params.kmd_token, params.kmd_address)

# create a wallet object
wallet = Wallet("wallet_name", "wallet_password", kcl)

# get wallet information
info = wallet.info()
print("Wallet name:", info["wallet"]["name"])

# create an account
address = wallet.generate_key()
print("New account:", address)

# delete the account
delete = wallet.delete_key(address)
print("Account deleted:", delete)

backing up a wallet with mnemonic

import params
from algosdk import kmd, mnemonic
from algosdk.wallet import Wallet

# create a kmd client
kcl = kmd.KMDClient(params.kmd_token, params.kmd_address)

# create a wallet object
wallet = Wallet("wallet_name", "wallet_password", kcl)

# get the wallet's master derivation key
mdk = wallet.export_master_derivation_key()
print("Master Derivation Key:", mdk)

# get the backup phrase
backup = mnemonic.from_master_derivation_key(mdk)
print("Wallet backup phrase:", backup)

You can also back up accounts using mnemonic.fromPrivateKey().

recovering a wallet using a backup phrase

import params
from algosdk import kmd, mnemonic

# get the master derivation key from the mnemonic
backup = "such chapter crane ugly uncover fun kitten duty culture giant skirt reunion pizza pill web monster upon dolphin aunt close marble dune kangaroo ability merit"
mdk = mnemonic.to_master_derivation_key(backup)

# create a kmd client
kcl = kmd.KMDClient(params.kmd_token, params.kmd_address)

# recover the wallet by passing mdk when creating a wallet
kcl.create_wallet("wallet_name", "wallet_password", master_deriv_key=mdk)

You can also recover accounts using mnemonic.toPrivateKey().

writing transactions to file

If you don't want to send your transactions now, you can write them to file. This works with both signed and unsigned transactions.

import params
from algosdk import algod, kmd, transaction

sender = "sender_address"
receiver = "receiver_address"

# create an algod and kmd client
acl = algod.AlgodClient(params.algod_token, params.algod_address)
kcl = kmd.KMDClient(params.kmd_token, params.kmd_address)

# get suggested parameters
params = acl.suggested_params()
gen = params["genesisID"]
gh = params["genesishashb64"]
last_round = params["lastRound"]
fee = params["fee"]

# create a transaction
txn = transaction.PaymentTxn(sender, fee, last_round, last_round+100, gh, receiver, 10000)

# write to file
txns = [txn]
transaction.write_to_file([txn], "pathtofile.tx")

We can also read transactions after writing them to file.

# read from file
read_txns = transaction.retrieve_from_file("pathtofile.tx")

manipulating multisig transactions

import params
from algosdk import crypto, transaction, algod

acl = algod.AlgodClient(params.algod_token, params.algod_address)

# generate three accounts
private_key_1, account_1 = crypto.generate_account()
private_key_2, account_2 = crypto.generate_account()
private_key_3, account_3 = crypto.generate_account()

# create a multisig account
msig = transaction.Multisig(1, 2, [account_1, account_2])

# get suggested parameters
params = acl.suggested_params()
gen = params["genesisID"]
gh = params["genesishashb64"]
last_round = params["lastRound"]
fee = params["fee"]

# create a transaction
sender = msig.address()
txn = transaction.PaymentTxn(sender, fee, last_round, last_round+100, gh, account_3, 10000)

# create a SignedTransaction object
mtx = transaction.MultisigTransaction(txn, msig)

# sign the transaction
mtx.sign(private_key_1)
mtx.sign(private_key_2)