Half a billion dollars’ worth of cryptocurrency was stolen — that’s gotten people’s attention.
The plunder of more than $500 million worth of digital coins from the Japanese cryptocurrency exchange Coincheck last week has added to a growing perception that cryptocurrencies are particularly vulnerable to hackers.
It’s an expensive reminder that like many things in the cryptocurrency world, security technologies — and the norms, best practices, and rules for using them — are still emerging. Not least because of its enormous size, the Coincheck hack could go down as a seminal moment in that process.
First, hackers laid bare the fact that Coincheck had opted not to implement some basic security measures. The company’s executives told news reporters that the stolen coins had been stored in an internet-connected “hot” wallet. It’s far more secure to keep funds offline, in “cold” storage — often hardware specially designed for the task. Many exchanges already claim in their marketing material that they hold the vast majority of their users’ funds offline. Going forward, this will presumably become standard practice.
With that taken care of, there’s a more weighty question on the table. Every public cryptocurrency address is associated with a private key; without it, money can’t be moved from that address. Someone who manages to acquire your private key, though, can send your money away. That’s what happened in the Coincheck heist. So how do we make the private cryptographic keys owners need to access their coins more secure?
One answer, known as a multisignature address, is conceptually simple: a “multisig” requires more than one cryptographic key in order execute a transaction. It’s a bit like the multifactor authentication process you may use to access your e-mail account. Business partners can use multisig technology to, for example, create a wallet that requires each of them to sign off on transactions. That would make it substantially more difficult for hackers to access funds.
Of course, multisig is not a silver bullet. In 2016, for example, hackers defeated a multisig system to steal $65 million from Bitfinex, one of the world’s largest exchanges. How exactly the perpetrators managed the feat isn’t clear, but it’s possible there was a flaw in the specific implementation.
Should financial regulators require exchanges to use multisig technology to secure any funds they keep in a hot wallet? Japanese officials are conducting an emergency security review of the country’s exchanges, and that might be a measure they consider.
Either way, a broader discussion about blockchain security is just beginning. Some say blockchains can revolutionize how we track a host of assets beyond just money, like land titles. Such a system might look different from the blockchain networks running today’s cryptocurrencies, but it would still rely on cryptographic keys that could fall into the wrong hands. The techniques and processes we adopt for securing them will be crucial for keeping hackers from running off with land that isn’t theirs.