2018-05-18 18:53:22 +04:00
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.. _proof-of-stake:
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2018-01-26 21:13:33 +04:00
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Proof-of-stake in Tezos
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=======================
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This document provides an in-depth description of the Tezos
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proof-of-stake algorithm. **WORK IN PROGRESS, CONSTANTS STILL SUBJECT TO
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ADJUSTMENT.** **THIS DOES NOT CONTAIN CHANGES INTRODUCED BY PVSS.**
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Blocks
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------
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The Tezos blockchain is a linked list of blocks. Blocks contain a
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header, and a list of operations. The header itself decomposes into a
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shell header (common to all protocols) and a protocol specific header.
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Shell header
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~~~~~~~~~~~~
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The shell header contains
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- ``level``: the height of the block, from the genesis block
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- ``proto``: number of protocol changes since genesis (mod 256)
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- ``predecessor``: the hash of the preceding block.
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- ``timestamp``: the timestamp at which the block is claimed to have
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been created.
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- ``validation_pass``: number of validation passes (also number of
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lists of lists of operations)
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- ``fitness``: a sequence of sequences of unsigned bytes, ordered by
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length and then lexicographically. It represents the claimed fitness
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of the chain ending in this block.
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- ``operations_hash`` The root hash of a merkle tree of a list of root
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hashes of merkle trees for various sets of operations in the block.
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- ``context`` Hash of the state of the context after application of
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this block. Useful for light clients.
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Protocol header (for tezos.alpha):
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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- ``signature``: a digital signature of the shell and protocol headers
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(excluding the signature itself).
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- ``priority``: every block height in tezos.alpha is associated with an
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ordered list of bakers. The first baker in that list is the first one
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who can bake a block at that height, one minute after the previous
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block. The second baker in the list can do so, but only two minutes
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after the previous block, etc., the third baker three minutes after.
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This integer is the priority of the block.
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- ``seed_nonce_hash``: a commitment to a random number, used to
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generate entropy on the chain. Present in only one out of
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(``BLOCKS_PER_COMMITMENT`` = 32) blocks.
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- ``proof_of_work_nonce``: a nonce used to pass a low-difficulty
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proof-of-work for the block, as a spam prevention measure.
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Block size
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~~~~~~~~~~
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Tezos does not download blocks all at once, but rather considers headers
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and various lists of operations separately. In Tezos.alpha, a maximum
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size in bytes is applied to the list of transactions
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``MAX_TRANSACTION_LIST_SIZE`` = 500kB (that's 5MB every 10 minutes at
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most).
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2018-05-10 08:46:16 +04:00
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Other lists of operations (endorsements, denunciations, reveals) are
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limited in terms of number of operations (though the defensive
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programming style also puts limits on the size of operations it
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expects).
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This ensure that consensus critical operations do not compete with
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transactions for block space.
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Delegation
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----------
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2018-06-04 11:45:59 +04:00
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Tezos.alpha uses a delegated proof-of-stake model. The acronym DPOS has come to
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2018-06-04 16:07:53 +04:00
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designate a specific type of algorithm used, for instance in Bitshares.
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This is *not* the model used in Tezos.alpha, though there is a concept
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of delegation.
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Delegates
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~~~~~~~~~
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In tezos.alpha, tokens are controlled through a private key called the
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*manager key*. Tezos.alpha accounts let the manager specify a public
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delegate key. This key may be controlled by the manager themselves, or
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by another party. The responsibility of the delegate is to take part in
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the proof-of-stake consensus algorithm and in the governance of Tezos.
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The manager can generally change the delegate at any time, though
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contract can be marked to specify an immutable delegate. Though
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delegation can be changed dynamically, the change only becomes effective
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after a few cycles.
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There are also default accounts in Tezos, which are just the hash of the
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public key. These accounts do not have an attached delegate key and do
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not participate in the proof-of-stake algorithm.
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Finally, delegate accounts (used for placing safety deposits) are
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automatically delegated to the delegate itself.
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Active and passive delegates
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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A delegate can be marked as either active or passive. A passive delegate
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cannot be selected for baking or endorsement.
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A delegate becomes passive for cycle ``n`` when they fail to create any
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of the blocks or endorsements in the past ``CYCLES_BEFORE_DEACTIVATION``
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= 5 cycles, or to change their security deposit. So, in this case, in
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cycles ``n-1``, ``n-3``, ..., ``n - CYCLES_BEFORE_DEACTIVATION``.
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A small delegate who is afraid they might be deactivated because they
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were not given the opportunity to create any block or endorsement can
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ensure they do not become deactivated by making small, meaningless
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transactions with their security deposits once every two cycles.
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Discussion: giving ``CYCLES_BEFORE_DEACTIVATION`` a small value means
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the chain adapts more quickly to participants disappearing. It's not
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unlike the "difficulty adjustment" of Bitcoin. However, a long value
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would ensure that a minority fork progresses more slowly for a longer
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period of time than the majority fork. ``CYCLES_BEFORE_DEACTIVATION``
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gives the majority chain a "headstart".
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This does not affect voting rights for protocol changes.
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Rolls
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~~~~~
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In theory, it would be possible to give each token a serial number, and
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track the specific tokens assigned to specific delegates. However, it
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would be too demanding of nodes to track assignment at such a granular
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level. Instead we introduce the concept of rolls. A roll represents a
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set of coins delegated to a given key. When tokens are moved, or a
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delegate for a contract is changed, the rolls change delegate according
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to the following algorithm.
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Each delegate has a stack of roll ids plus some "change" which is always
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an amount smaller than ``TOKENS_PER_ROLLS``. When tokens are moved from
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one delegate to the other, first, the change is used. If it is not
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enough, rolls need to be "broken" which means that they move from the
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delegate stack to a global, unallocated, roll stack. This is done until
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the amount is covered, and some change possibly remains.
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Then, the other delegate is credited. First the amount is added to the
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"change". If it becomes greater than ``TOKENS_PER_ROLLS``, then rolls
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are unstacked from the global unallocated roll stack onto the delegate
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stack. If the global stack is empty, a fresh roll is created.
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This preserves the property that if the delegate is changed through
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several transactions, the roll assignment is preserved, even if each
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operation moves less than a full roll.
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The advantage of tracking tokens in this way is that a delegate creating
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a malicious fork cannot easily change the specific rolls assigned to
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them, even if they control the underlying tokens and shuffle them
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around.
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Rolls hold ``TOKENS_PER_ROLLS`` = 10,000 tokens and thus there should be
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about 80,000 rolls in the Tezos foundation's planned genesis block,
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though the number of rolls will increase with inflation and / or
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participation in the delegation.
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Roll snapshots
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~~~~~~~~~~~~~~
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Roll snapshots represent the state of rolls for a given block. Roll
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snapshots are taken every ``BLOCKS_PER_ROLL_SNAPSHOT`` = 256 blocks,
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that is 16 times per cycle. There is a tradeoff between memory
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consumption and economic efficiency. If roll snapshots are too frequent,
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they will consume a lot of memory. If they are too rare, strategic
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participants could purchase many tokens in anticipation of a snapshot
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and resell them right after.
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Cycles
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------
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2018-05-18 18:53:22 +04:00
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Blocks in the Tezos.Alpha Blockchain are grouped into *cycles* of
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``BLOCKS_PER_CYCLE`` = 4,096 blocks. Since blocks are at least
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``TIME_BETWEEN_BLOCKS`` = one minute apart, this means a cycle lasts *at
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least* 2 days, 20 hours, and 16 minutes. In the following description,
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the current cycle is referred to as ``n``, it is the nth cycle from the
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beginning of the chain. Cycle ``(n-1)`` is the cycle that took place
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before the current one, cycle ``(n-2)`` the one before, cycle ``(n+1)``
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the one after, etc.
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At any point, the tezos shell will not implicitly accept a branch whose
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fork point is in a cycle more than ``PRESERVED_CYCLES`` = 5 cycles in the
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past (that is *at least* 14 days, 5 hours, and 20 minutes).
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Security deposits
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~~~~~~~~~~~~~~~~~
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The cost of a security deposit is ``BLOCK_SECURITY_DEPOSIT`` = 512 XTZ
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per block created and ``ENDORSEMENT_SECURITY_DEPOSIT`` = 64 XTZ per
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endorsement.
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Each delegate key has an attached security deposit account controlled by
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the same key. Delegates can withdraw and deposit in this account, but
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they cannot withdraw more than the "frozen" amount. Each blocks created,
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each endorsement signed increases the amount that is frozen.
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It is possible to deposit a bond just prior to creating a block
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requiring this deposit. Deposits for blocks and endorsements in cycle
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``n`` are "unfrozen" at the end of cycle ``n+PRESERVED_CYCLES``.
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Since deposits are locked for a period of ``PRESERVED_CYCLES`` one can
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compute that at any given time, about ((``BLOCK_SECURITY_DEPOSIT`` +
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``ENDORSEMENT_SECURITY_DEPOSIT`` \* ``ENDORSERS_PER_BLOCK``) \*
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(``PRESERVED_CYCLES`` + 1) \* ``BLOCKS_PER_CYCLE``) / ``763e6`` = 8.25% of
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all tokens should be held as security deposits. It also means that a
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delegate should own over 8.25% of the amount of token delegated to them
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in order to not miss out on creating any block.
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Baking rights
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~~~~~~~~~~~~~
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Baking in tezos.alpha is the action of signing and publishing a block.
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In Bitcoin, the right to publish a block is associated with solving a
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proof-of-work puzzle. In tezos.alpha, the right to publish a block in
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cycle ``n`` is assigned to a randomly selected roll in a randomly
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selected roll snapshot from cycle ``n-PRESERVED_CYCLES-2``.
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We admit, for the time being, that the protocol generates a random seed
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for each cycle. From this random seed, we can seed a CSPRNG which is
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used to draw baking rights for a cycle.
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To each position, or slot, in the cycle, is associated a priority list
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of bakers. This is drawn randomly, with replacement, from the set of
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active rolls. Each roll is associated with the public key of a delegate,
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therefore, for each slot in the cycle, we have an ordered list of public
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keys which may create and sign a block. It is possible that the same
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public key appears multiple times in this list.
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The delegate with the highest priority can bake a block with a timestamp
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greater than ``timestamp_of_previous_block`` plus
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``TIME_BETWEEN_BLOCKS`` = one minute. The one with the kth highest
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priority, ``TIME_BETWEEN_BLOCKS + k * TIME_DELAY_FOR_PRIORITY`` = (1 +
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k) minutes.
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In future versions, ``TIME_DELAY_FOR_PRIORITY`` may be set to a lower
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value than ``TIME_BETWEEN_BLOCKS``.
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Baking a block gives a block reward of ``BLOCK_REWARD`` = 16 XTZ plus
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all fees paid by transactions inside the block.
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Endorsements
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~~~~~~~~~~~~
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To each baking slot, we associate a list of ``ENDORSERS_PER_BLOCK`` = 32
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*endorsers*. Endorsers are drawn from the set of delegates, by randomly
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selecting 32 rolls with replacement.
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Endorsers receive a reward (at the same time as block creators do). The
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reward is ``ENDORSEMENT_REWARD`` = 2 / ``BLOCK_PRIORITY`` where block
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priority starts at 1. So the endorsement reward is only half if the
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block of priority 2 for a given slot is being endorsed.
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Inflation
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~~~~~~~~~
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Inflation from block rewards and endorsement reward is at most
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``ENDORSERS_PER_BLOCK`` \* ``ENDORSEMENT_REWARD`` + ``BLOCK_REWARD`` =
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80 XTZ. This means at most 5.51% annual inflation.
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Random seed
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~~~~~~~~~~~
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Cycle ``n`` is associated with a random seed, a 256 bit number generated
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at the end of cycle ``(n-PRESERVED_CYCLES-1)`` using commitments made during
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cycle ``(n-PRESERVED_CYCLES-2)``, in one out of every
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``BLOCKS_PER_COMMITMENT`` = 32 blocks.
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The commitment must be revealed by the original baker during cycle
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``(n-PRESERVED_CYCLES-1)`` under penalty of forfeiting the rewards and
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fees of the block that included the seed commitment (the associated
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security deposit is not forfeited).
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A *revelation* is an operation, and multiple revelations can thus be
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included in a block. The revelations are hashed together to generate a
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random seed at the very end of cycle ``(n-PRESERVED_CYCLES-1)``.
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Revelations are free operations which do not compete with transactions
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for block space. Up to ``MAX_REVELATIONS_PER_BLOCK`` = 32 revelations
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can be contained in any given block. Thus, 1 /
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(``MAX_REVELATIONS_PER_BLOCK`` \* ``BLOCKS_PER_COMMITMENT``) = 1/1024 of
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the blocks in the cycle are sufficient to include all revelations.
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Denunciations
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-------------
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If two endorsements are made for the same slot or two blocks at the same
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height by a delegate, this can be denounced. The denunciation would be
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typically be made by the baker, who includes it as a special operation.
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In a first time, denunciation will only forfeit the security deposit
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for the doubly signed operation. However, over time, as the risk of
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accidental double signing becomes small enough, denunciation will
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forfeit the entirety of the safety deposits. Half is burned, and half is
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added to the block reward.
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