Towards The Token Economy — Governments Start To Adopt Blockchain Into Legal Frameworks
Sign the petition here:
Petition: The UK should create a Blockchain Act to support the new tokenized economy
Our legal infrastructure needs to provide a foundation for proper digital signing with private keys, and support the…
Well, you can lead a horse to water, but you can’t make it drink. Many large countries around the world still see blockchain as a new type of technology, and so no need to rush to create legal frameworks. But some countries are now defining the required legal infrastructure around blockchain, and finding ways to integrate into their existing legal frameworks, and also provided increased trust in the new economy — the token economy. This world sees tokens being trading in the same way that we would pass financial transactions, but the need for banks to handle financial transactions will be much reduced.
The implementation of the regulations of blockchain and cryptocurrencies must thus aim to preserve the core of existing regulations within financial markets including for money laundering, terrorist financing, and cyber-enabled crime, but also not suppress innovation. The key requirement is for national regulation infrastructure and which builds on a total anonymous distributed ledger infrastructure, as well as mapping trusted identities into a regulation infrastructure.
In a traditional finance infrastructure, Bob trusts his bank (Bank A) and Alice trusts her bank (Bank B). A transfer of funds involves Bob finding out the identifier of Alice’s bank (such as the sort code) and her account identifier. The transfer of funds then involves him informing his bank that he wants to transfer the funds to Alice (Figure 1). Bob’s bank then checks the transaction, and if it is valid, his account will be debited by the defined amount. His bank will then forward the transaction to Bank B, and where Alice’s bank will credit her account. In this way, both Bank A and Bank B have a ledger which can be checked for the transaction. This method works well in investigating crime, as each bank must report on Bob and Alice’s transactions, especially if they see any unusual transactions.
The cyberpunks of the 1990s started to question the need for banks to provide the intermediate exchanged, especially in their demands to make profits from transactions. Their approach was to use the methods defined by public key encryption to sign a peer-to-peer transaction onto a publicly available ledger — the blockchain. The first running infrastructure was the Bitcoin infrastructure, and where Bob and Alice each generate a private key and then derive an associated public key. This public key is then used to create a public address for transactions (Figure 2).
When Bob now wants to send Alice some funds, he determines her public address, and then creates a transaction for bitcoins. This is then signed with his private key and then picked up by miners who will gather together all the other recent transactions. The miners then create a consensus for current transactions and then added to a new block on the blockchain.
Before this can happen, the transaction needs to be checked to see if Bob has enough bitcoins in his account to pay Alice. This checking is the reason that the transactions need to be public, as miners should not process the transaction if Bob does not have enough funds to pay Alice. At the time of the creation of the Bitcoin network, there were no feasible methods which could hide the fact that Bob was the payer and Alice was the payee. This results in a pseudo-anonymised identification of the transaction. While difficult, law enforcement can, at least, trace known addresses for their transactions.
A worry with this model, though, is that the funds will never hit a bank account unless there is a cash-out of funds into a fiat currency. This type of approach worries both tax raising authorities and also law enforcement agencies. Many governments around the world are thus now looking to regulate for cryptocurrencies, and provide an opportunity to audit their flows.
Liechtenstein’s leads the way
Liechtenstein’s Government is the first in the world to aim to enact a Blockchain Act. This will support a legal infrastructure for blockchain technology, and to also support a token economy. Within tokens, we define applications which trade only with tokens. These tokens can then define costs of effort, and eventually could be “cashed-out” into fiat currency. Economic activity could then be enacted with tokens rather than currency — the creation of the token economy [details]:
Recently I visited Jersey, and they, too, see the benefits of a token economy. A legal definition is thus key to define the legal infrastructure for the trading tokens and smart contract, and to thus protect clients. It should also guard against reputations risks for countries which have a high reputation within the finance industry.
The consultation document [here] defines a trusted technology transaction systems (VT systems). For the first time, we see blockchain methods being translated into legal speak, with a token being defined as:
enable the transformation of the ‘real’ world to blockchain systems while ensuring legal certainty, thereby opening up the full application potential of the token economy.
The Act also defines methods which aim to protect client interests from scam agents, and these are at the core of cleaning up the cryptocurrency market place. It defines “legal certainty” for blockchain implementation and projects a world where our existing assets are added onto blockchain, and then traded there. Our centralised economic trading models may thus disappear, and a fully distributed and more trusted model replaces old fashioned practices.
The tokens that are likely to be defined are:
- Payment tokens (currency coins). This includes cryptocurrency coins.
- Utility tokens. This allows for a spend against a service.
- Security tokens (equity and assets). These could define the ownership of an asset.
Overall the Act aims to properly define the key legal consequences of the ownership, possession and transfer of tokens:
The Act defines:
- Subject and purpose (Art. 1 VE-VTG): This defines that the main focus is around the protection of users, and to thus build confidence in tokens.
- Trusted technologies (Art. 3 VE-VTG): This defines the technology that is required to build a VT.
- Definitions (Art. 5 VE-VTG): This defines a token as something that defines claims of a person to the rights to goods.
- Rights of disposal (Art. 6 ff. VE-VTG): This defines the rights to transfer tokens, and is normally defined by the owner of a private key signing the transaction. A disposition is defined as the transfer of the disposition authorization on the token. Within the Act, it is defined that a buyer has the rights to dispose of a token, even if the seller was not authorized to dispose of the same token.
- Requirements for VT service providers (Art. 13 ff. VE-VTG): This defines the entities who will perform services within the VT. These entities must provide an organisational structure, control mechanisms and a minimum amount of capital.
- Basic information on the issuance of tokens (Art. 28 ff. VE-VTG): This defines the assurance in the issuing of tokens and their legal requirements. They must provide a minimum amount of information, such as the technology used, the purpose of the token, and any risks. There should be at least 10 years of issuance, and to also prevent token cloning, along with prevention of a token not being released with the same rights.
- Obligation to register (Art. 36 ff. VE-VTG): This defines that service providers must register into the Financial Market Authority (FMA) before starting their commercial operation.
- Supervision (Art. 42 ff. VE-VTG): This defines that the FMA implements the Act.
- Penal provisions (Art. 49 ff. VE-VTG)
A token protector is defined as someone who holds the token in their own name, and on behalf of the owner. Custodians are then defined as a person who can provide custodial services for the private keys of a third party. Overall the custodian should be able to operate without disruption. They should also provide strong controls against the loss or misuse of private keys, and provide separation between business assets and the private keys of their customer.
In order to clean-up on those to operation within the token economy, the Act requires the following entities to registered with the FMA: Token issuers; token service protectors; token service custodians; token service exchange platforms; physical validators; and token service identity service providers.
The Act then defines that tokens held by a company will not be part of their estate in the case of bankruptcy, and must be held separately from the companies other assets. A fine for beaches of the Blockchain Act will range from CHF20,000 (around 20K) to CHF30,000 (around $30K).
And in the future, smart contracts could enact contracts. The following defines the provision of care services:
Liechtenstein’s consultation on the Act ends on 16 November 2018. For Scotland and UK, I say, “Hurry up, and get on with it”, and prove a legal infrastructure for regulation of a token economy, and one which recognises a new world.
So I buy 10 Edinburgh Bus Tokens, and each token equates to one journey. Each time I travel I just pass one token to the bus company, and there’s no need for a bank to get involved in any transaction between me and the bus company, unless I want to convert my currency into tokens.
In a decade’s time, our kids are likely to grow up without the requirement for physical cash, and where we trade in tokens, without banks required to be involved in our transactions (apart from a cash-in and cash-out). We will keep our tokens. That’s the world that our kids will grow up in.
I will outline this new world next week: