Timo Hanke [ARCHIVE] on Nostr: 📅 Original date posted:2014-05-04 📝 Original message:> If changing the ...
📅 Original date posted:2014-05-04
📝 Original message:> If changing the structure of the block header, wouldnt you also need to
> increment the version number to 3?
No, in this case I don't think so. Incrementing the version number has
two purposes:
1. inform old clients that something new is going on
2. be able to phase out old version numbers and block them once the new
version number becomes a supermajority.
None of these two is necessary here. Old clients already recognize the
new block headers as something new because they look like very high
version numbers to them. And there is no reason to ever phase out blocks
that have zero in the MSBs of the version.
On Sun, Apr 27, 2014 at 10:17:11AM +0200, Melvin Carvalho wrote:
> On 27 April 2014 09:07, Timo Hanke <timo.hanke at web.de> wrote:
>
> I'd like to put the following draft of a BIP up for discussion.
>
> Timo
>
> # Abstract
> There are incentives for miners to find cheap, non-standard ways to
> generate new work, which are not necessarily in the best interest of the
> protocol.
> In order to reduce these incentives this proposal re-assigns 2 bytes from
> the version field of the block header to a new extra nonce field.
> # Copyright
> # Specification
> The block version number field in the block header is reduced in size from
> 4 to 2 bytes.
> The third and fourth byte in the block header are assigned to the new extra
> nonce field inside the block header.
> # Motivation
> The motivation of this proposal is to provide miners with a cheap
> constant-complexity method to create new work that does not require
> altering the transaction tree.
>
> Furthermore, the motivation is to protect the version and timestamp fields
> in the block header from abuse.
> # Rationale
> Traditionally, the extra nonce is part of the coinbase field of the
> generation transaction, which is always the very first transaction of a
> block.
> After incrementing the extra nonce the minimum amount of work a miner has
> to do to re-calculate the block header is a) to hash the coinbase
> transaction and b) to re-calculate the left-most branch of the merkle tree
> all the way to the merkle root.
> This is necessary overhead a miner has to do besides hashing the block
> header itself.
> We shall call the process that leads to a new block header from the same
> transaction set the _pre-hashing_.
>
> First it should be noted that the relative cost of pre-hashing in its
> traditional form depends
> on the block size, which may create an unwanted incentive for miners
> to keep the block size small. However, this is not the main motivation for
> the current proposal.
>
> While the block header is hashed by ASICs, pre-hashing typically happens on
> a CPU because of the greater flexibility required.
> Consequently, as ASIC cost per hash performance drops the relative cost of
> pre-hashing increases.
>
> This creates an incentive for miners to find cheaper ways to create new
> work than by means of pre-hashing.
> An example of this currently happening is the on-device rolling of the
> timestamp into the future.
> These ways of creating new work are unlikely to be in the best interest of
> the protocol.
> For example, rolling the timestamp faster than the real time is unwanted
> (more so on faster blockchains).
>
> The version number in the block header is a possible target for alteration
> with the goal of cheaply creating new work.
> Currently, blocks with arbitrarily large version numbers get relayed and
> accepted by the network.
> As this is unwanted behaviour, there should not exist any incentive for a
> miner to abuse the version number in this way.
>
> The solution is to reduce the range of version numbers from 2^32 to 2^16
> and to declare the third and forth bytes of the block header as legitimate
> space for an extra nonce.
> This will reduce the incentive for a miner to abuse the shortened version
> number by a factor in the order of 2^16.
>
> As a side effect, this proposal greatly reduces the bandwidth requirements
> of a blind pool protocol by only submitting the block header to the miner.
> # Backwards Compatibility
> Old versions of the client will accept blocks of this kind but will throw
> an alert at the user to upgrade.
> The only code change would be a cast of the version number to a short.
> Besides the upgrade alert, old and new versions of the client can co-exist
> and there is no need to introduce a new block version number or to
> phase-out old block versions.
> # Reference Implementation
> # Final implementation
>
>
> If changing the structure of the block header, wouldnt you also need to
> increment the version number to 3?
📝 Original message:> If changing the structure of the block header, wouldnt you also need to
> increment the version number to 3?
No, in this case I don't think so. Incrementing the version number has
two purposes:
1. inform old clients that something new is going on
2. be able to phase out old version numbers and block them once the new
version number becomes a supermajority.
None of these two is necessary here. Old clients already recognize the
new block headers as something new because they look like very high
version numbers to them. And there is no reason to ever phase out blocks
that have zero in the MSBs of the version.
On Sun, Apr 27, 2014 at 10:17:11AM +0200, Melvin Carvalho wrote:
> On 27 April 2014 09:07, Timo Hanke <timo.hanke at web.de> wrote:
>
> I'd like to put the following draft of a BIP up for discussion.
>
> Timo
>
> # Abstract
> There are incentives for miners to find cheap, non-standard ways to
> generate new work, which are not necessarily in the best interest of the
> protocol.
> In order to reduce these incentives this proposal re-assigns 2 bytes from
> the version field of the block header to a new extra nonce field.
> # Copyright
> # Specification
> The block version number field in the block header is reduced in size from
> 4 to 2 bytes.
> The third and fourth byte in the block header are assigned to the new extra
> nonce field inside the block header.
> # Motivation
> The motivation of this proposal is to provide miners with a cheap
> constant-complexity method to create new work that does not require
> altering the transaction tree.
>
> Furthermore, the motivation is to protect the version and timestamp fields
> in the block header from abuse.
> # Rationale
> Traditionally, the extra nonce is part of the coinbase field of the
> generation transaction, which is always the very first transaction of a
> block.
> After incrementing the extra nonce the minimum amount of work a miner has
> to do to re-calculate the block header is a) to hash the coinbase
> transaction and b) to re-calculate the left-most branch of the merkle tree
> all the way to the merkle root.
> This is necessary overhead a miner has to do besides hashing the block
> header itself.
> We shall call the process that leads to a new block header from the same
> transaction set the _pre-hashing_.
>
> First it should be noted that the relative cost of pre-hashing in its
> traditional form depends
> on the block size, which may create an unwanted incentive for miners
> to keep the block size small. However, this is not the main motivation for
> the current proposal.
>
> While the block header is hashed by ASICs, pre-hashing typically happens on
> a CPU because of the greater flexibility required.
> Consequently, as ASIC cost per hash performance drops the relative cost of
> pre-hashing increases.
>
> This creates an incentive for miners to find cheaper ways to create new
> work than by means of pre-hashing.
> An example of this currently happening is the on-device rolling of the
> timestamp into the future.
> These ways of creating new work are unlikely to be in the best interest of
> the protocol.
> For example, rolling the timestamp faster than the real time is unwanted
> (more so on faster blockchains).
>
> The version number in the block header is a possible target for alteration
> with the goal of cheaply creating new work.
> Currently, blocks with arbitrarily large version numbers get relayed and
> accepted by the network.
> As this is unwanted behaviour, there should not exist any incentive for a
> miner to abuse the version number in this way.
>
> The solution is to reduce the range of version numbers from 2^32 to 2^16
> and to declare the third and forth bytes of the block header as legitimate
> space for an extra nonce.
> This will reduce the incentive for a miner to abuse the shortened version
> number by a factor in the order of 2^16.
>
> As a side effect, this proposal greatly reduces the bandwidth requirements
> of a blind pool protocol by only submitting the block header to the miner.
> # Backwards Compatibility
> Old versions of the client will accept blocks of this kind but will throw
> an alert at the user to upgrade.
> The only code change would be a cast of the version number to a short.
> Besides the upgrade alert, old and new versions of the client can co-exist
> and there is no need to introduce a new block version number or to
> phase-out old block versions.
> # Reference Implementation
> # Final implementation
>
>
> If changing the structure of the block header, wouldnt you also need to
> increment the version number to 3?