Hive Developer logo

Hive Docs

PY: Using Keys Securely

Learn how Steem-Python library handles transaction signing with user’s key and how to securely manage your private keys.

Full, runnable src of Using Keys Securely can be downloaded as part of the PY tutorials repository.

Intro

Steem python library has 2 ways to handle your keys. One is from source code, another one is through command line interface called steempy. steempy cli is installed by default when you install steem-python library on your machine.

Steps

  1. App setup - Library install and import
  2. Key usage example - Example showing how to import keys

1. App setup

In this tutorial we are only using steem package - steem-python library.

  # initialize Steem class
  from steem import Steem

  # defining private keys inside source code is not secure way but possible
  s = Steem(keys=['<private_posting_key>', '<private_active_key>'])

Last line from above snippet shows how to define private keys for account that’s going to transact using script.

2. Key usage example

After defining private keys inside Steem class, we can quickly sign any transaction and broadcast it to the network.

  # above will allow accessing Commit methods such as
  # demo account sending 0.001 STEEM to demo1 account

  s.commit.transfer('demo','0.001','STEEM','memo text','demo1')

Above method works but it is not secure way of handling your keys because you have entered your keys within source code that you might leak accidentally. To avoid that, we can use CLI - command line interface steempy.

You can type following to learn more about steempy commands:

  steempy -h

steempy lets you leverage your BIP38 encrypted wallet to perform various actions on your accounts.

The first time you use steempy, you will be prompted to enter a password. This password will be used to encrypt the steempy wallet, which contains your private keys.

You can import your Steem username with following command:

steempy importaccount username

Next you can import individual private keys:

steempy addkey <private_key>

That’s it, now that your keys are securely stored on your local machine, you can easily sign transaction from any of your Python scripts by using defined keys.

  # if private keys are not defined
  # accessing Wallet methods are also possible and secure way
  s.wallet.get_active_key_for_account('demo')

Above line fetches private key for user demo from local machine and signs transaction.

steempy also allows you to sign and broadcast transactions from terminal. For example:

steempy transfer --account <account_name> <recipient_name> 1 STEEM memo

would sign and broadcast transfer operation,

steempy upvote --account <account_name> link

would sing and broadcast vote operation, etc.

That’s it!

To Run the tutorial

  1. review dev requirements
  2. clone this repo
  3. cd tutorials/001_using_keys_securely
  4. pip install -r requirements.txt
  5. python index.py
  6. After a few moments, you should see output in terminal/command prompt screen.