- B-money 白皮书

I am fascinated by Tim May's crypto-anarchy. Unlike the communities

traditionally associated with the word "anarchy", in a crypto-anarchy the

government is not temporarily destroyed but permanently forbidden and

permanently unnecessary. It's a community where the threat of violence is

impotent because violence is impossible, and violence is impossible

because its participants cannot be linked to their true names or physical

locations.

Until now it's not clear, even theoretically, how such a community could

operate. A community is defined by the cooperation of its participants,

and efficient cooperation requires a medium of exchange (money) and a way

to enforce contracts. Traditionally these services have been provided by

the government or government sponsored institutions and only to legal

entities. In this article I describe a protocol by which these services

can be provided to and by untraceable entities.

I will actually describe two protocols. The first one is impractical,

because it makes heavy use of a synchronous and unjammable anonymous

broadcast channel. However it will motivate the second, more practical

protocol. In both cases I will assume the existence of an untraceable

network, where senders and receivers are identified only by digital

pseudonyms (i.e. public keys) and every messages is signed by its sender

and encrypted to its receiver.

In the first protocol, every participant maintains a (seperate) database

of how much money belongs to each pseudonym. These accounts collectively

define the ownership of money, and how these accounts are updated is the

subject of this protocol.

1. The creation of money. Anyone can create money by broadcasting the

solution to a previously unsolved computational problem. The only

conditions are that it must be easy to determine how much computing effort

it took to solve the problem and the solution must otherwise have no

value, either practical or intellectual. The number of monetary units

created is equal to the cost of the computing effort in terms of a

standard basket of commodities. For example if a problem takes 100 hours

to solve on the computer that solves it most economically, and it takes 3

standard baskets to purchase 100 hours of computing time on that computer

on the open market, then upon the broadcast of the solution to that

problem everyone credits the broadcaster's account by 3 units.

2. The transfer of money. If Alice (owner of pseudonym K_A) wishes to

transfer X units of money to Bob (owner of pseudonym K_B), she broadcasts

the message "I give X units of money to K_B" signed by K_A. Upon the

broadcast of this message, everyone debits K_A's account by X units and

credits K_B's account by X units, unless this would create a negative

balance in K_A's account in which case the message is ignored.

3. The effecting of contracts. A valid contract must include a maximum

reparation in case of default for each participant party to it. It should

also include a party who will perform arbitration should there be a

dispute. All parties to a contract including the arbitrator must broadcast

their signatures of it before it becomes effective. Upon the broadcast of

the contract and all signatures, every participant debits the account of

each party by the amount of his maximum reparation and credits a special

account identified by a secure hash of the contract by the sum the maximum

reparations. The contract becomes effective if the debits succeed for

every party without producing a negative balance, otherwise the contract

is ignored and the accounts are rolled back. A sample contract might look

like this:

K_A agrees to send K_B the solution to problem P before 0:0:0 1/1/2000.

K_B agrees to pay K_A 100 MU (monetary units) before 0:0:0 1/1/2000. K_C

agrees to perform arbitration in case of dispute. K_A agrees to pay a

maximum of 1000 MU in case of default. K_B agrees to pay a maximum of 200

MU in case of default. K_C agrees to pay a maximum of 500 MU in case of

default.

4. The conclusion of contracts. If a contract concludes without dispute,

each party broadcasts a signed message "The contract with SHA-1 hash H

concludes without reparations." or possibly "The contract with SHA-1 hash

H concludes with the following reparations: ..." Upon the broadcast of all

signatures, every participant credits the account of each party by the

amount of his maximum reparation, removes the contract account, then

credits or debits the account of each party according to the reparation

schedule if there is one.

5. The enforcement of contracts. If the parties to a contract cannot agree

on an appropriate conclusion even with the help of the arbitrator, each

party broadcasts a suggested reparation/fine schedule and any arguments or

evidence in his favor. Each participant makes a determination as to the

actual reparations and/or fines, and modifies his accounts accordingly.

In the second protocol, the accounts of who has how much money are kept by

a subset of the participants (called servers from now on) instead of

everyone. These servers are linked by a Usenet-style broadcast channel.

The format of transaction messages broadcasted on this channel remain the

same as in the first protocol, but the affected participants of each

transaction should verify that the message has been received and

successfully processed by a randomly selected subset of the servers.

Since the servers must be trusted to a degree, some mechanism is needed to

keep them honest. Each server is required to deposit a certain amount of

money in a special account to be used as potential fines or rewards for

proof of misconduct. Also, each server must periodically publish and

commit to its current money creation and money ownership databases. Each

participant should verify that his own account balances are correct and

that the sum of the account balances is not greater than the total amount

of money created. This prevents the servers, even in total collusion, from

permanently and costlessly expanding the money supply. New servers can

also use the published databases to synchronize with existing servers.

The protocol proposed in this article allows untraceable pseudonymous

entities to cooperate with each other more efficiently, by providing them

with a medium of exchange and a method of enforcing contracts. The

protocol can probably be made more efficient and secure, but I hope this

is a step toward making crypto-anarchy a practical as well as theoretical

possibility.

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Appendix A: alternative b-money creation

One of the more problematic parts in the b-money protocol is money

creation. This part of the protocol requires that all of the account

keepers decide and agree on the cost of particular computations.

Unfortunately because computing technology tends to advance rapidly and

not always publicly, this information may be unavailable, inaccurate, or

outdated, all of which would cause serious problems for the protocol.

So I propose an alternative money creation subprotocol, in which account

keepers (everyone in the first protocol, or the servers in the second

protocol) instead decide and agree on the amount of b-money to be created

each period, with the cost of creating that money determined by an

auction. Each money creation period is divided up into four phases, as

follows:

1. Planning. The account keepers compute and negotiate with each other to

determine an optimal increase in the money supply for the next period.

Whether or not the account keepers can reach a consensus, they each

broadcast their money creation quota and any macroeconomic calculations

done to support the figures.

2. Bidding. Anyone who wants to create b-money broadcasts a bid in the

form of <x, y> where x is the amount of b-money he wants to create, and y

is an unsolved problem from a predetermined problem class. Each problem in

this class should have a nominal cost (in MIPS-years say) which is

publicly agreed on.

3. Computation. After seeing the bids, the ones who placed bids in the

bidding phase may now solve the problems in their bids and broadcast the

solutions.

4. Money creation. Each account keeper accepts the highest bids (among

those who actually broadcasted solutions) in terms of nominal cost per

unit of b-money created and credits the bidders' accounts accordingly.