201 lines
6.0 KiB
Solidity
201 lines
6.0 KiB
Solidity
// Copyright 2017 Christian Reitwiessner
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// Copyright 2019 OKIMS
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// Copyright 2024 Codex
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// Permission is hereby granted, free of charge, to any person obtaining a copy
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// of this software and associated documentation files (the "Software"), to deal
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// in the Software without restriction, including without limitation the rights
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// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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// copies of the Software, and to permit persons to whom the Software is
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// furnished to do so, subject to the following conditions:
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// The above copyright notice and this permission notice shall be included in
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// all copies or substantial portions of the Software.
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
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// SOFTWARE.
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// SPDX-License-Identifier: MIT
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pragma solidity 0.8.23;
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import "./Groth16.sol";
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library Pairing {
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// The prime q in the base field F_q for G1
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uint private constant _Q =
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21888242871839275222246405745257275088696311157297823662689037894645226208583;
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/// The negation of p, i.e. p.addition(p.negate()) should be zero.
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function negate(G1Point memory p) internal pure returns (G1Point memory) {
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if (p.x == 0 && p.y == 0) return G1Point(0, 0);
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return G1Point(p.x, _Q - (p.y % _Q));
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}
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/// The sum of two points of G1
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function addition(
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G1Point memory p1,
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G1Point memory p2
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) internal view returns (G1Point memory r) {
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uint[4] memory input;
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input[0] = p1.x;
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input[1] = p1.y;
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input[2] = p2.x;
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input[3] = p2.y;
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bool success;
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// solhint-disable-next-line no-inline-assembly
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assembly {
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success := staticcall(sub(gas(), 2000), 6, input, 0xc0, r, 0x60)
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// Use "invalid" to make gas estimation work
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switch success
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case 0 {
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invalid()
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}
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}
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require(success, "pairing-add-failed");
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}
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/// The product of a point on G1 and a scalar, i.e.
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/// p == p.scalarMul(1) and p.addition(p) == p.scalarMul(2) for all points p.
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function scalarMul(
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G1Point memory p,
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uint s
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) internal view returns (G1Point memory r) {
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uint[3] memory input;
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input[0] = p.x;
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input[1] = p.y;
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input[2] = s;
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bool success;
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// solhint-disable-next-line no-inline-assembly
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assembly {
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success := staticcall(sub(gas(), 2000), 7, input, 0x80, r, 0x60)
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// Use "invalid" to make gas estimation work
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switch success
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case 0 {
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invalid()
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}
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}
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require(success, "pairing-mul-failed");
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}
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/// The result of computing the pairing check
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/// e(p1[0], p2[0]) * .... * e(p1[n], p2[n]) == 1
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/// For example pairing([P1(), P1().negate()], [P2(), P2()]) should
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/// return true.
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function pairing(
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G1Point[] memory p1,
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G2Point[] memory p2
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) internal view returns (bool) {
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require(p1.length == p2.length, "pairing-lengths-failed");
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uint elements = p1.length;
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uint inputSize = elements * 6;
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uint[] memory input = new uint[](inputSize);
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for (uint i = 0; i < elements; i++) {
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input[i * 6 + 0] = p1[i].x;
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input[i * 6 + 1] = p1[i].y;
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input[i * 6 + 2] = p2[i].x[0];
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input[i * 6 + 3] = p2[i].x[1];
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input[i * 6 + 4] = p2[i].y[0];
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input[i * 6 + 5] = p2[i].y[1];
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}
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uint[1] memory out;
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bool success;
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// solhint-disable-next-line no-inline-assembly
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assembly {
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success := staticcall(
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sub(gas(), 2000),
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8,
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add(input, 0x20),
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mul(inputSize, 0x20),
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out,
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0x20
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)
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// Use "invalid" to make gas estimation work
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switch success
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case 0 {
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invalid()
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}
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}
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require(success, "pairing-opcode-failed");
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return out[0] != 0;
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}
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/// Convenience method for a pairing check for four pairs.
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function pairingProd4(
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G1Point memory a1,
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G2Point memory a2,
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G1Point memory b1,
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G2Point memory b2,
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G1Point memory c1,
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G2Point memory c2,
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G1Point memory d1,
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G2Point memory d2
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) internal view returns (bool) {
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G1Point[] memory p1 = new G1Point[](4);
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G2Point[] memory p2 = new G2Point[](4);
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p1[0] = a1;
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p1[1] = b1;
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p1[2] = c1;
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p1[3] = d1;
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p2[0] = a2;
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p2[1] = b2;
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p2[2] = c2;
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p2[3] = d2;
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return pairing(p1, p2);
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}
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}
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contract Groth16Verifier {
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using Pairing for *;
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uint256 private constant _SNARK_SCALAR_FIELD =
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21888242871839275222246405745257275088548364400416034343698204186575808495617;
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VerifyingKey private _verifyingKey;
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struct VerifyingKey {
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G1Point alpha1;
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G2Point beta2;
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G2Point gamma2;
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G2Point delta2;
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G1Point[] ic;
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}
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constructor(VerifyingKey memory key) {
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_verifyingKey.alpha1 = key.alpha1;
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_verifyingKey.beta2 = key.beta2;
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_verifyingKey.gamma2 = key.gamma2;
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_verifyingKey.delta2 = key.delta2;
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for (uint i = 0; i < key.ic.length; i++) {
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_verifyingKey.ic.push(key.ic[i]);
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}
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}
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function verify(
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Groth16Proof calldata proof,
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uint[] memory input
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) public view returns (bool) {
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require(input.length + 1 == _verifyingKey.ic.length, "verifier-bad-input");
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// Compute the linear combination vkX
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G1Point memory vkX = G1Point(0, 0);
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for (uint i = 0; i < input.length; i++) {
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require(
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input[i] < _SNARK_SCALAR_FIELD,
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"verifier-gte-snark-scalar-field"
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);
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vkX = Pairing.addition(
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vkX,
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Pairing.scalarMul(_verifyingKey.ic[i + 1], input[i])
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);
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}
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vkX = Pairing.addition(vkX, _verifyingKey.ic[0]);
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return
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Pairing.pairingProd4(
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Pairing.negate(proof.a),
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proof.b,
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_verifyingKey.alpha1,
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_verifyingKey.beta2,
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vkX,
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_verifyingKey.gamma2,
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proof.c,
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_verifyingKey.delta2
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);
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}
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}
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