-----BEGIN PGP SIGNED MESSAGE----- Update on the digital cash project I am having some problems with the port to MSDOS, mostly due to implicitly assuming 32-bit integers in a few places. Probably I won't get it working until next weekend. To recap, the program provides Chaum-style digital cash via two executables, one for the "players" and one for the "banker". The banker creates a public key which has a single modulus n and multiple exponents, the prime numbers starting with 17. He sends n to the players and all is ready. Players withdraw money by running their programs and specifying the denominations they want to withdraw. For example, you could withdraw a 1, two 5's, a 10 and a 20. This would create a file with 5 entries to be sent to the bank. PGP should be used to encrypt and ascii-encode this file (for privacy) and it should be mailed to the banker. The banker receives this file and runs his program to RSA-sign the values in each of the withdrawal-request entries. This is the "blinded cash" that Chaum describes. Again, PGP should be used for mailing this back to the user. The player then has to "unblind" the file to make it "real" digital cash. This also changes it so that the bank won't recognize it when it is deposited. He uses his version of the program to do this, producing an actual digital money file with the five "digital bills" in it. To pay another user, he runs another function to extract the desired bills from this file. Suppose he wants to extract a 1 and a 5. This leaves a 5, a 10 and a 20 in the original file, and creates a new digital cash file with a 1 and a 5. He would then use PGP again to encrypt this for safety and mail it to the person he wants to pay. That person can run a "check" function on the incoming digital money to make sure it has a proper bank signature on it and is not a forgery. He would then mail it directly to the bank so that it could get credited to his account. The banker runs his program which checks the signatures on the incoming money, looks in a database file to make sure these bills haven't been used before, and adds these bills to the database. (The database stores 16 bytes per bill.) He should then record the deposit and perhaps send a confirmation to the depositor (my program doesn't get involved with that). I hope this gives a clearer picture of how the electronic money program works. It is a simple implementation but I think many systems would work similarly. I appreciated the suggestion to use cash as part of the list management itself. Rather than paying people who post, I wonder if it would be better to make people pay to post. Many people have complained about the volume. :) Unfortunately, I suspect that this would involve too much overhead for the mailing list maintainer. Maybe the thing to do is to just get the software out there and let people decide what they want to do with it (if anything). I'm probably going to take a couple more weeks to clean up the user interface and get these bugs out, then I'll try sending it someone to be put on the cypherpunks ftp archive. It's nice to be able to finally sign these messages! - -----BEGIN PGP PUBLIC KEY BLOCK----- Version: 2.1 mQCNAisiUPkAAAED/i1Pf1DaubveDsgjh360rNJ7kWkhssobaVmmWa70l4lOTwy/ sGwhJaA+JdScO9g3B66DIAaU0GiNrTS4YEl/b5ohNDZFdqKlxZ7NW9A5JYjUlhGE a53cRwqUXs42kbPbMh/uKxXBgbUnKrKZnWAh29irDWb+G8OEPQrkCJ6S8691AAUR tAl4UGhhZWRydXM= =HVRq - -----END PGP PUBLIC KEY BLOCK----- -----BEGIN PGP SIGNATURE----- Version: 2.1 iQCVAgUBKyZADQrkCJ6S8691AQHneQP8DRdkOFfG9TwjGDJAX4IxymvzAITqYIJC aMhytyzqFwP6Dku955ZHEPL1SDpNCU8DwK7eKDOgvHRS3m+kihs1l6VR3Gf0AgGw 7jjRJlt7hcqfT16fLHVXtn27A16rUhl2hKrD702wjGzX+MN7mS/8MW2kchVfvQYX M/McOuwuIjs= =/HGX -----END PGP SIGNATURE-----
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nobody@rosebud.ee.uh.edu