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release-notes: Update from blog draft
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luke-jr committed Oct 25, 2016
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Expand Up @@ -44,28 +44,102 @@ Segregated witness soft fork

Segregated witness (segwit) is a soft fork that, if activated, will
allow transaction-producing software to separate (segregate) transaction
signatures (witnesses) from the rest of the data in a transaction, and
to allow miners to place those witnesses outside of the traditional
block structure. This provides two immediate benefits:

- **Elimination of malleability:** Segregating the witness allows both
existing software and upgraded software that receives transactions to
calculate the transaction identifier (txid) of segwit-using
transactions without referencing the witness. This solves all known
cases of unwanted third-party transaction malleability, which is a
problem that makes programming Bitcoin wallet software more difficult
and which seriously complicates the design of smart contracts for
Bitcoin.

- **Capacity increase:** Moving witness data outside of the traditional
block structure (but still inside a new-style block structure) means
new-style blocks can hold more data than older-style blocks, allowing
a modest increase to the amount of transaction data that can fit in a
block.

Segwit also simplifies the ability to add new features to Bitcoin and
improves the efficiency of full nodes, which will help provide long-term
benefits to Bitcoin users.
signatures (witnesses) from the part of the data in a transaction that is
covered by the txid. This provides several immediate benefits:

- **Elimination of unwanted transaction malleability:** Segregating the witness
allows both existing and upgraded software to calculate the transaction
identifier (txid) of transactions without referencing the witness, which can
sometimes be changed by third-parties (such as miners) or by co-signers in a
multisig spend. This solves all known cases of unwanted transaction
malleability, which is a problem that makes programming Bitcoin wallet
software more difficult and which seriously complicates the design of smart
contracts for Bitcoin.

- **Capacity increase:** Segwit transactions contain new fields that are not
part of the data currently used to calculate the size of a block, which
allows a block containing segwit transactions to hold more data than allowed
by the current maximum block size. Estimates based on the transactions
currently found in blocks indicate that if all wallets switch to using
segwit, the network will be able to support about 70% more transactions. The
network will also be able to support more of the advanced-style payments
(such as multisig) than it can support now because of the different weighting
given to different parts of a transaction after segwit activates (see the
following section for details).

- **Weighting data based on how it affects node performance:** Some parts of
each Bitcoin block need to be stored by nodes in order to validate future
blocks; other parts of a block can be immediately forgotten (pruned) or used
only for helping other nodes sync their copy of the block chain. One large
part of the immediately prunable data are transaction signatures (witnesses),
and segwit makes it possible to give a different "weight" to segregated
witnesses to correspond with the lower demands they place on node resources.
Specifically, each byte of a segregated witness is given a weight of 1, each
other byte in a block is given a weight of 4, and the maximum allowed weight
of a block is 4 million. Weighting the data this way better aligns the most
profitable strategy for creating blocks with the long-term costs of block
validation.

- **Signature covers value:** A simple improvement in the way signatures are
generated in segwit simplifies the design of secure signature generators
(such as hardware wallets), reduces the amount of data the signature
generator needs to download, and allows the signature generator to operate
more quickly. This is made possible by having the generator sign the amount
of bitcoins they think they are spending, and by having full nodes refuse to
accept those signatures unless the amount of bitcoins being spent is exactly
the same as was signed. For non-segwit transactions, wallets instead had to
download the complete previous transactions being spent for every payment
they made, which could be a slow operation on hardware wallets and in other
situations where bandwidth or computation speed was constrained.

- **Linear scaling of sighash operations:** In 2015 a block was produced that
required about 25 seconds to validate on modern hardware because of the way
transaction signature hashes are performed. Other similar blocks, or blocks
that could take even longer to validate, can still be produced today. The
problem that caused this can't be fixed in a soft fork without unwanted
side-effects, but transactions that opt-in to using segwit will now use a
different signature method that doesn't suffer from this problem and doesn't
have any unwanted side-effects.

- **Increased security for multisig:** Bitcoin addresses (both P2PKH addresses
that start with a '1' and P2SH addresses that start with a '3') use a hash
function known as RIPEMD-160. For P2PKH addresses, this provides about 160
bits of security---which is beyond what cryptographers believe can be broken
today. But because P2SH is more flexible, only about 80 bits of security is
provided per address. Although 80 bits is very strong security, it is within
the realm of possibility that it can be broken by a powerful adversary.
Segwit allows advanced transactions to use the SHA256 hash function instead,
which provides about 128 bits of security (that is 281 trillion times as
much security as 80 bits and is equivalent to the maximum bits of security
believed to be provided by Bitcoin's choice of parameters for its Elliptic
Curve Digital Security Algorithm [ECDSA].)

- **More efficient almost-full-node security** Satoshi Nakamoto's original
Bitcoin paper describes a method for allowing newly-started full nodes to
skip downloading and validating some data from historic blocks that are
protected by large amounts of proof of work. Unfortunately, Nakamoto's
method can't guarantee that a newly-started node using this method will
produce an accurate copy of Bitcoin's current ledger (called the UTXO set),
making the node vulnerable to falling out of consensus with other nodes.
Although the problems with Nakamoto's method can't be fixed in a soft fork,
Segwit accomplishes something similar to his original proposal: it makes it
possible for a node to optionally skip downloading some blockchain data
(specifically, the segregated witnesses) while still ensuring that the node
can build an accurate copy of the UTXO set for the block chain with the most
proof of work. Segwit enables this capability at the consensus layer, but
note that Bitcoin Core does not provide an option to use this capability as
of this 0.13.1 release.

- **Script versioning:** Segwit makes it easy for future soft forks to allow
Bitcoin users to individually opt-in to almost any change in the Bitcoin
Script language when those users receive new transactions. Features
currently being researched by Bitcoin Core contributors that may use this
capability include support for Schnorr signatures, which can improve the
privacy and efficiency of multisig transactions (or transactions with
multiple inputs), and Merklized Abstract Syntax Trees (MAST), which can
improve the privacy and efficiency of scripts with two or more conditions.
Other Bitcoin community members are studying several other improvements
that can be made using script versioning.

Activation for the segwit soft fork is being managed using BIP9
versionbits. Segwit's version bit is bit 1, and nodes will begin
Expand Down Expand Up @@ -93,8 +167,8 @@ signaling support for a soft fork.
Null dummy soft fork
-------------------

Combined with the segwit soft fork is a soft fork that turns a
long-existing network relay policy into a consensus rule. The
Combined with the segwit soft fork is an additional change that turns a
long-existing network relay policy into a consensus rule. The
`OP_CHECKMULTISIG` and `OP_CHECKMULTISIGVERIFY` opcodes consume an extra
stack element ("dummy element") after signature validation. The dummy
element is not inspected in any manner, and could be replaced by any
Expand Down

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