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Bitcoin: A Peer-to-Peer Electronic Cash System, by Satoshi Nakamoto, 2008 / explained

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why this paper? consensus with byzantine participants like SUNDR: signed log of operations, and forks if agreement on log content, then agreement on state unlike SUNDR agrees on a fork in decentralized manner more distributed than most systems -- decentralized, peer-to-peer identities of participants are not known, not even the number the agreement scheme is new and very interesting Bitcoin's success was a big surprise what are the technical challenges? outright forgery (easy to solve) double spending (hard, bitcoin does pretty well) theft (hard, bitcoin not particularly strong) what's in the ledger record? pub(user1): public key of new owner hash(prev): hash of this coin's previous transaction record sig(user2): signature over transaction by previous owner's private key (BitCoin is more complex: amount (fractional), multiple in/out, ...) transaction example: Y owns a coin, previously given to it by X: T6: pub(X), ... T7: pub(Y), hash(T6), sig(X) Y buys a hamburger from Z and pays with this coin Z sends public key to Y Y creates a new transaction and signs it T8: pub(Z), hash(T7), sig(Y) Y sends transaction record to Z Z verifies: T8's sig(Y) corresponds to T7's pub(Y) Z gives hamburger to Y only the transactions exist, not the coins themselves Z's "balance" is set of unspent transactions for which Z knows private key the "identity" of a coin is the (hash of) its most recent xaction can anyone other than the owner spend a coin? current owner's private key needed to sign next transaction danger: attacker can steal Z's private key, e.g. from PC or smartphone or online exchange this is a serious problem in practice, and hard to solve well can a coin's owner spend it twice in this scheme? Y creates two transactions for same coin: Y->Z, Y->Q both with hash(T7) Y shows different transactions to Z and Q both transactions look good, including signatures and hash now both Z and Q will give hamburgers to Y why was double-spending possible? b/c Z and Q didn't know complete set and order of transactions what do we need? publish a log of all transactions ensure everyone sees the same log (in same order!) ensure Y can't un-publish a transaction result: Z will see Y->Z came before Y->Q, and will accept Y->Z Q will see Y->Z came before Y->Q, and will reject Y->Q a "public ledger" how to create such a ledger? "Nakamoto consensus": longest chain rule Probabilistic guarantee, but a very surprising result when it came out! the BitCoin block chain the goal: agreement on transaction log to prevent double-spending the block chain contains transactions on all coins many peers each with a complete copy of the whole chain each with TCP connections to a few other peers -- a "mesh overlay" new blocks flooded to all peers, by forwarding over TCP proposed transactions also flooded to all peers each block: hash(prevblock) set of transactions "nonce" (can be anything, as we'll see) current time (wall clock timestamp) new block every 10 minutes containing xactions since prev block payee doesn't accept transaction until it's in the block chain who creates each new block? this is "mining" via "proof-of-work" requirement: hash(block) has N leading zeros each peer tries random nonce values until this works out trying one nonce is fast, but most nonces won't work it's like flipping a zillion-sided coin until it comes up heads each flip has an independent (small) chance of success mining a block *not* a specific fixed amount of work it would likely take one CPU months to create one block but thousands of peers are working on it such that expected time to first to find is about 10 minutes though the variance is high the winner floods the new block to all peers proof-of-work solves the Sybil problem -- your CPU must be real to win how does a Y->Z transaction work w/ block chain? start: all peers know ...<-B5 and are mining block B6 (trying different nonces) Y sends Y->Z transaction to peers, which flood it peers buffer the transaction until B6 computed peers that heard Y->Z include it in next block so eventually ...<-B5<-B6<-B7, where B7 includes Y->Z Q: could there be *two* different successors to B6? A: yes: 1) two peers find nonces at about the same time, or 2) slow network, 2nd block found before 1st is known two simultaneous blocks will be different miners know about slightly different sets of new transactions, &c. if two successors, the blockchain temporarily forks peers work on whichever block they heard first but switch to longer chain if they become aware of one how is a fork resolved? each peer initially believes whatever new block it sees first tries to create a successor if more saw Bx than By, more will mine for Bx, so Bx successor likely to be created first even if exactly half-and-half, one fork likely to be extended first since significant variance in mining time peers switch to mining the longest fork once they see it, re-inforcing agreement what about transactions in the abandoned fork? most will be in both forks but some may be in just the abandoned fork -- appear, then disappear! what if Y sends out Y->Z and Y->Q at the same time? i.e. Y attempts to double-spend correct peers will accept first they see, ignore second thus next block will have one but not both what happens if Y tells some peers about Y->Z, others about Y->Q? perhaps use network DoS to prevent full flooding of either perhaps there will be a fork: B6<-BZ and B6<-BQ thus: temporary double spending is possible, due to forks but one side or the other of the fork highly likely to disappear soon thus if Z sees Y->Z with a few blocks after it, it's very unlikely that it could be overtaken by a different fork containing Y->Q if Z is selling a high-value item, Z should wait for a few blocks before shipping it if Z is selling something cheap, maybe OK to wait just for some peers to see Y->Z and validate it (but not in block) can an attacker modify just an existing block in the middle of the block chain? and tell newly starting peers about the modified block? e.g. to delete the first spend of the attacker's coin? no: then "prev" hash in next block will be wrong, peers will detect could attacker start a fork from an old block, with Y->Q instead of Y->Z? yes -- but fork must be longer in order for peers to accept it since attacker's fork starts behind main fork, attacker must mine blocks *faster* than total of other peers with just one CPU, will take months to create even a few blocks by that time the main chain will be much longer no peer will switch to the attacker's shorter chain if the attacker has more CPU power than all the honest bitcoin peers -- then the attacker can create the longest fork, everyone will switch to it, allowing the attacker to double-spend why does the mining scheme work? random choice over all participants for who gets to choose which fork to extend weighted by CPU power if most participants are honest, they will re-inforce agreement on longest fork if attacker controls majority of CPU power, it can force honest peers to switch from real chain to one created by the attacker why mine? first txn in block pays miner miner gets 6.25 bitcoins (currently) it puts its public key in first transaction this is incentive for people to operate bitcoin peers consequences: arms race special hardware for mining to win pools of miners that collaborate energy waste "selfish-mining" attack even if an attacker controls less (> /1/3), it can pull of a "selfish-mining" attack a pool of miners keeps the next block secret after finding it when the remainder of the network catches up, the pool publishes the withheld block makes the pool's private fork, the public one validation checks: peer, new xaction: no other transaction spends the same previous transaction signature is by private key of pub key in previous transaction then will add transaction to txn list for next block to mine peer, new block: hash value has enough leading zeroes (i.e. nonce is right, proves work) previous block hash exists all transactions in block are valid peer switches to new chain if longer than current longest Z: (some clients rely on peers to do above checks, some don't) Y->Z is in a block Z's public key / address is in the transaction there's several more blocks in the chain (other stuff has to be checked as well, lots of details) Q: 10 minutes is annoying; could it be made much shorter? Q: if lots of miners join, will blocks be created at a higher rate? Q: why does Bitcoin extend the longest chain? why not some other rule? Q: are transactions anonymous? Q: if I steal bitcoins, is it safe to spend them? Q: can bitcoins be forged, i.e. a totally fake coin created? Q: what can adversary do with a majority of CPU power in the world? can double-spend and un-spend, by forking cannot steal others' bitcoins can prevent xaction from entering chain Q: what if the block format needs to be changed? esp if new format wouldn't be acceptable to previous s/w version? "hard fork" Q: how do peers find each other? Q: what if a peer has been tricked into only talking to corrupt peers? how about if it talks to one good peer and many colluding bad peers? Q: could a brand-new peer be tricked into using the wrong chain entirely? what if a peer rejoins after a few years disconnection? a few days of disconnection? Q: how rich are you likely to get with one machine mining? Q: why does it make sense for the mining reward to decrease with time? Q: is it a problem that there will be a fixed number of coins? what if the real economy grows (or shrinks)? Q: why do bitcoins have value? e.g. people seem willing to pay $8,935 per bitcoin (on may 5 2020). may 9 2021: $56,812 Q: will bitcoin scale well? in terms of CPU time? apparently CPU limits to 4,000 tps (signature checks) more than Visa but less than cash in terms of storage? do you ever need to look at very old blocks? do you ever need to xfer the whole block chain? merkle tree: block headers vs txn data. in terms of network traffic? a few megabytes (one block) every ten minutes sadly, the maximum block size is limited to a few megabytes Q: could Bitcoin have been just a ledger w/o a new currency? e.g. have dollars be the currency? since the currency part is pretty awkward. (settlement... mining incentive...) weak points in the design? too bad it's a new currency as well as a payment system transaction confirmation takes at least 10 minutes, or 60 for high confidence flooding limits performance, may be a point of attack maximum block size plus 10 minutes limits max transactions per second vulnerable to majority attack proof-of-work wastes CPU time, power not very anonmyous too anonymous -- illegal uses may trigger legal response users have trouble securing private keys key idea: block chain public agreed-on ledger is a great idea decentralization might be good mining is a clever way to avoid sybil attacks in an open system, and ensure most blocks are created by benign peers ---- References ---- Bitcoin SoK: https://www.ieee-security.org/TC/SP2015/papers-archived/6949a104.pdf Scripting language: https://en.bitcoin.it/wiki/Script https://www.oreilly.com/library/view/mastering-bitcoin/9781491902639/ch08.html 

Source: https://pdos.csail.mit.edu/6.824/notes/l-bitcoin.txt

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