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What makes a BitVM2 peg-out proof actually trustworthy? The answer lies deeper than you might think.
At its core, a peg-out verification is only as reliable as the canonical state it's anchored to. Here's where things get tricky: if an operator controlling the protocol gains the ability to dictate the public inputs during dispute resolution, they essentially unlock the power to craft valid proofs from thin air.
This reveals a critical vulnerability in state proof architectures. The integrity of the entire system hinges on one fundamental constraint—the operator cannot unilaterally manipulate the input parameters. The moment that boundary erodes, so does the guarantee that any proof actually represents legitimate, on-chain state.
Understanding this dependency becomes crucial for anyone building or auditing Bitcoin layer-2 solutions. It's not just about having a proof mechanism; it's about ensuring the mechanism's inputs remain genuinely independent from the actors seeking to exploit them.