Good morning.

I still do not see what this does that cannot be done by:

OP_RETURN <sidechain-id> <sidechain-block-id>

A transaction with such an output would allow sidechain-miners to bribe mainchain-miners by paying a transaction fee if the transaction containing this OP_RETURN is included in a block and committed to by a mainchain-miner in the Merkle tree root.

It would not require a softfork.

--

I have an alternate proposal that sidechains and altcoins that want to do "blinded" merge mining can use without a softfork:

1.  Encode a block header as a simple cons-pair, with the head as the block and the tail as the parent cons-pair.
1.1.  This can be encoded as a 32-byte hash of the block including its header, and the 32-byte hash of the parent cons-pair.
1.2.  This is now the actual "chain" in the sidecoin/altcoin blockchain.
2.  When a sidechain-node wants to know the consensus, it downloads mainchain-blocks and looks for OP_RETURN's.
2.1.  Starting with its genesis cons-pair hash (equivalent to the empty list) as the current cons-pair, it scans each OP_RETURN transaction.
2.1.1.  If an OP_RETURN is 64-byte and has the parent cons-pair equal to the current cons-pair, look for the side block indicated and confirm its correctness.  If correct, update the current cons-pair for the hash of the OP_RETURN data.
2.2.  When reaching the latest mainchain block, the current cons-pair is now the sidecoin/altcoin latest block.
2.3.  Note that if multiple OP_RETURN in a block match the current cons-pair, the first one is considered the correct chain.  This property means that the sidechain/altchain can only have a chainsplit if the mainchain has a chainsplit.
3.  When a sidechain-miner wants to create a side-block, it generates a new cons-pair and creates an OP_RETURN transaction for it, paying a mainchain-miner to include it in the next mainchain-block.
3.1.  The sidechain-miner risks that its competitors will outbid it and get its OP_RETURN earlier in a mainchain-block (or earlier in the order of transactions).  It can mitigate this risk by updating itself to become a mainchain-miner, it can then keep its OP_RETURN transaction private and put it earlier in the block, ensuring it will "win" the sidechain-consensus if it wins the mainchain-consensus.

Regards,
ZmnSCPxj

-------- Original Message --------
Subject: [bitcoin-dev] BIP: OP_BRIBVERIFY - the op code needed for Blind Merge Mined drivechains
Local Time: June 28, 2017 8:37 AM
UTC Time: June 28, 2017 12:37 AM
From: bitcoin-dev@lists.linuxfoundation.org
To: Bitcoin Protocol Discussion <bitcoin-dev@lists.linuxfoundation.org>

<pre> 
  BIP: <BIP number>
  Layer: Consensus (Soft fork)
  Title: OP_BRIBEVERIFY
  Author: Chris Stewart <chris@suredbits.com>
  Status: Draft
  Type: Standards Track
  Created: 2017-06-27
</pre>


==Abstract==

This BIP describes a new opcode, OP_BRIBEVERIFY, for the Bitcoin
scripting system that allows for a user to bribe a miner to include a hash
in the coinbase transaction's output.


==Summary==

BRIBEVERIFY redefines the existing NOP4 opcode. When executed, if the given
critical hash is included at the given vout index in the coinbase transaction
the script evaluates to true. Otherwise, the script will fail.

This allows sidechains to be merged mined against
bitcoin without burdening bitcoin miners with extra resource requirements.

==Motivation==

The current political climate of bitcoin is extremely contentious. Many community members
have different visions of what bitcoin is. This op code is meant to
enable [http://www.truthcoin.info/blog/blind-merged-mining/ Blind Merge Mining].
This enables sidechains in Bitcoin. With OP_BRIBEVERIFY, sidechains miners can
bribe bitcoin miners to to include their block hash in the bitcoin blockchain. If their block
is included in the coinbase transaction's vout, it is assumed that block is a mined block on the sidechain.

This will allow various factions of the community to realize their vision on their own separate
blockchain that is interoperable with the bitcoin blockchain. This allows those factions to use
bitcoin as a 'reserve currency' for their own network.


===Commitment Structure===

A new block rule is added which requires that the miner's coinbase reward be at index 0 in the coinbase transaction's output vector.

It also fixes the witness commitment output to be at index 1 of the coinbase transaction's output vector.

This is needed so we can reliably tell what vout corresponds to what drivechain. For instance, the mimblewimble sidechain
could correspond to index 2 of the vector outputs on the coinbase transaction.

The commitment is recorded in a <code>scriptPubKey</code> of the coinbase transaction. It must be at least 34 bytes in size
   1-byte - OP_RETURN (0x6a)
   1-byte - Push the following 32 bytes (0x20)
  32-byte - block hash

the 35th byte and onward have no consensus meaning.

===OP_BRIBEVERIFY op code===

This op code reads two arguments from the stack. The stack top is expected to be a sidechain id for which this user attempting to blind merge mine for.
The next element on the stack is expected to be a block hash. This op code looks into the coinbase transaction's output vector at the given index (which is derived from the sidechain id) and checks
to see if the hash in the block matches the hash inside of the BRIBEVERIFY program. If the hashes match, the OP_BRIBEVERIFY acts as an OP_NOP. If the
comparison between the two hashes fail, the script fails.

===BRIBEVERIFY program===

A standard BRIBEVERIFY program has the format:
  1-byte - Push the following 32 bytes (0x20)
 32-byte - block hash
  1 byte - Push operation? (needed if number can't be encoded as OP_0 - OP_16)
  1 byte - sidechain id
  1 byte - OP_BRIBEVERIFY op code

==Detailed Specification==

Refer to the reference implementation, reproduced below, for the precise
semantics and detailed rationale for those semantics.

 
 case OP_NOP4:
 {
    //format: block_hash sidechain_id OP_BRIBEVERIFY
    if (!(flags & SCRIPT_VERIFY_BRIBEVERIFY)) {
        // not enabled; treat as a NOP4
        if (flags & SCRIPT_VERIFY_DISCOURAGE_UPGRADABLE_NOPS) {
            return set_error(serror, SCRIPT_ERR_DISCOURAGE_UPGRADABLE_NOPS);
        }
        break;
    }
   
    if (stack.size() < 2)
        return set_error(serror, SCRIPT_ERR_INVALID_STACK_OPERATION);
 
    const CScriptNum scriptNumSidechainId(stacktop(-1),fRequireMinimal);
    uint8_t nSidechainId; 
    if (!checker.CheckSidechainId(scriptNumSidechainId,nSidechainId)) {
        return set_error(serror, SCRIPT_ERR_UNKNOWN_SIDECHAIN);
    }
 
    // Check block hash
    bool fHashCritical = checker.CheckCriticalHash(stacktop(-2),nSidechainId);
    if (!fHashCritical) {
        return set_error(serror, SCRIPT_ERR_UNSATISFIED_BRIBE);
    }
    break;
 }



https://github.com/Christewart/bitcoin/blob/94b6f33f2278c42d4d8758a3c8ffe2078e4ec933/src/script/interpreter.cpp#L427

https://github.com/drivechain-project/bitcoin/pull/13

==Deployment==

TODO

==Credits==

Credit to Paul Sztorc for the original idea of Blind Merge Mined sidechains.

Credit to CryptAxe for writing the foundational layer of software for drivechains so I could implement OP_BRIBEVERIFY.


==References==

Blind Merge Mined Sidechains - http://www.truthcoin.info/blog/blind-merged-mining/
Mailing list discussion - https://lists.linuxfoundation.org/pipermail/bitcoin-dev/2017-May/014408.html

==Copyright==

This document is placed in the public domain.