Skip to Main Content.

This Thursday, a group of blockchain experts from academia, private practice, and government relations are sitting down together to do just that—define “blockchain” – at the Blockchain Definition on Capitol Hill event, hosted by MIT Media Lab, Congressman David Schweikert, the Chamber of Digital Commerce, and the DC Blockchain Center.   This article proposes one such definition, which I will be submitting for discussion at the event.

Goals of a Definition

Before parsing words, the goal of the definition has to be determined. Should the definition be broad and run the risk of including some “blockchain-like” systems that arguably should not be included? Or should it be narrowly focused so that only certain, known types of blockchain are included, creating space for blockchain operators to avoid government purview by tweaking their structure?

The greatest risk is defining “blockchain” in a way that forces its development to adapt to poorly written legislation, as opposed to the legislation adapting to the needs of the users of blockchains.  A broad definition, with enumerated exemptions, best accomplishes that goal.

Because no one knows exactly where the technology will go, it seems the safest bet would be a broad definition.

Broad Definitions with Exemptions

The government has often taken a broad approach to new concepts, which allows for greater flexibility in enforcement, and, as concepts firm up, exemptions can be added to narrow the number of entities covered.  Two laws that take this broad approach come to mind: the Stark law and the money transmitter definition.      

  • The Stark law essentially states that any physician or family member that has a financial relationship with a health care entity may not make a referral to that entity, unless it falls in certain safe harbors.  
  • Money transmitters, which are regulated by the Bank Secrecy Act, are defined as “[any] person engaged as a business in the transfer of funds” unless certain exemptions apply. 

Another feature of the money transmitter definition is whether a person is a “money transmitter” is a matter of “facts and circumstances.” Essentially, that means is that the government reserves the right to review each application to determine whether it is covered by the definition.  That strategy might be a good one for blockchain. The technology is new and evolving quickly. Who can guarantee that today’s blockchain will look substantially similar to a blockchain five, ten, or fifty years from now?

A Critical Assumption

Laws, essentially, govern how parties act toward one another. The ability to “trustlessly” share data between multiple parties is what makes blockchain so interesting. Thus, any definition of blockchain should focus on the data sharing aspects of blockchain among multiple parties with disparate interests.

The Definition

With this combination of goals, definitional trends, flexibility of definition, and the assumption that only blockchains affecting third parties with disparate interests need to be regulated, a proposed legal definition for blockchain is:

  1. Definition:
    1. A blockchain is an electronic distributed[1] store of data utilized by multiple unaffiliated[2] parties.
    2. Whether a “store of data” is a blockchain is a matter of facts and circumstances. Generally, if a store of data maintains a decentralized continuously growing list of records stored cryptographically, such as by a hashing process, it is a blockchain.
  2. Exceptions: for the purposes of this definition, a blockchain is not:
    1. A store of data where only one party or multiple affiliated parties have the ability to control which parties can add, delete or modify the data.
    2. A store of data which is retained on systems exclusively controlled by only one party or multiple affiliated parties.

“Store of Data” versus “Database”

Many articles refer to blockchain as databases, and that is not necessarily incorrect. Blockchains can store data, or they can store references to other data. In this way, they are like databases, but databases often include more features, such as the ability to query information.  Thus, to keep the definition broad, “store of data” is preferred to “databases.”

Exceptions

The exceptions are the most interesting part of the definition because they determined whether a concept should be legislated at all.  One crucial question is “who controls the blockchain”. If only one party (or affiliated parties) control the blockchain, it should not be covered in the definition of a blockchain. Many blockchains will be utilized in private, intra-firm environments—scenarios where regulation is can hopefully be avoided. Thus, those situations are exempt from this definition. 

The second exemption goes to where blockchains are located. Blockchains are often thought of as decentralized, but they need not be. A blockchain could, ostensibly, live in only one location (or more likely, multiple locations that reside on the systems of one entity affiliated with the other entities). In that situation, the owner of the system on which the blockchain resides exercises “control” of it by conditioning or terminating access to the data. This control exists regardless of which entity controls the ability to read or write on the blockchain. 

Definitions in Action: The Hypothetical

Assume you had unaffiliated Entity A and Entity B working through Consortium C to create a two-entity record for the settlement of funds between the two entities in an industry that requires a high level of systems security. Entity A and Entity B own an interest in Consortium C.[3] Should they be regulated by a hypothetical law that requires stringent security standards be applied to blockchains? Are they under the above definition?

As with all good legal analysis, the answer is “it depends:”

  • If the blockchain data is stored both on Entity A and Entity B’s systems, then yes, the entities would be regulated under this definition. The definition is met (they are using a blockchain) and none of the exclusions are met (they are not “affiliates” despite their interest in Consortium C), and the data is not housed in one location. This is a desirable outcome, as the government will presumably want to regulate the activity of Entity A and Entity B with its blockchain regulation, to ensure that both Entity A and Entity B are utilizing high levels of security. Entity A and Entity B could contract for this individually, because Entity A does not control Entity B, and vice versa.
  • If the blockchain data is stored exclusively on Consortium C’s systems, then no, the entities would not be regulated under this definition. Consortium C is controlled by Entity A and Entity B, and is therefore an affiliate. Thus, Exemption 2 would apply. This is a desirable outcome, because Entity A and Entity B can control the types of security are deployed by Consortium C.

[1] “Distributed” and “store of data” should be further defined, but for simplicity’s sake we decline to do so here.

[2] For this definition, “affiliate” has the same meaning as set forth in Rule 405 of the Securities Act: “a person or entity that directly or indirectly controls, is controlled by, or is under common control with, another person or entity.”

[3] Many examples might use banks, but that invokes the image of banks storing customer payment data. And customer data creates additional wrinkles to be discussed another day. For this example, let’s simply assume the data is confidential company data.]

View the original post of this article as an FBT legal update: A Legislative Definition of Blockchain