eth-address-index/solidity/AddressDeclarator.sol

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pragma solidity >0.6.11;
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// SPDX-License-Identifier: AGPL-3.0-or-later
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contract AddressDeclarator {
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mapping( address => address[] ) declarationIndex;
mapping( bytes32 => uint256 ) declarationContentIndex; // the _latest_ content pointer for the declarator to subject mapping
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mapping( address => address[] ) declarator;
mapping( address => address[] ) declaratorReverse;
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bytes32[][] public contents;
event DeclarationAdded(address indexed _declarator, address indexed _subject, bytes32 indexed _topic, bytes32 _proof);
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constructor(bytes32 _initial) {
addDeclaration(address(this), _initial);
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}
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function toReference(address _declarator, address _subject) private pure returns ( bytes32 ) {
bytes32 k;
bytes memory addrMaterial = new bytes(40);
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bytes memory addrBytes = abi.encodePacked(_declarator);
for (uint256 i = 0; i < 20; i++) {
addrMaterial[i] = addrBytes[i];
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}
addrBytes = abi.encodePacked(_subject);
for (uint256 i = 0; i < 20; i++) {
addrMaterial[i+20] = addrBytes[i];
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}
k = sha256(addrMaterial);
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return k;
}
function toReference(address _declarator, address _subject, bytes32 _proof) private pure returns ( bytes32[2] memory ) {
bytes32 k;
bytes32[2] memory ks;
bytes memory signMaterial = new bytes(64);
k = toReference(_declarator, _subject);
for (uint256 i = 0; i < 32; i++) {
signMaterial[i] = k[i];
}
for (uint256 i = 0; i < 32; i++) {
signMaterial[i+32] = _proof[i];
}
ks[0] = k;
ks[1] = sha256(signMaterial);
return ks;
}
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// Implements Declarator
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function declaratorCount(address _subject) public view returns ( uint256 ) {
return declarator[_subject].length;
}
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// Implements Declarator
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function declaratorAddressAt(address _subject, uint256 _idx) public view returns ( address ) {
return declarator[_subject][_idx];
}
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// Implements Declarator
function addDeclaration(address _subject, bytes32 _proof, bytes32 _topic) public returns ( bool ) {
bytes32[2] memory ks;
bytes32[] memory declarationContents;
uint256 idx;
ks = toReference(tx.origin, _subject, _topic);
idx = declarationContentIndex[ks[1]];
if (idx == 0) { // This also works for the constructor :)
declarator[_subject].push(tx.origin);
contents.push(declarationContents);
declarationIndex[tx.origin].push(_subject);
idx = contents.length-1;
}
declarationContentIndex[ks[1]] = idx;
contents[idx].push(_proof);
return true;
}
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// Implements Declarator
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function addDeclaration(address _subject, bytes32 _proof) public returns ( bool ) {
return addDeclaration(_subject, _proof, bytes32(0));
// bytes32[2] memory ks;
// bytes32[] memory declarationContents;
// uint256 idx;
// ks = toReference(tx.origin, _subject, _proof);
// idx = declarationContentIndex[ks[0]];
// if (idx == 0) { // This also works for the constructor :)
// declarator[_subject].push(tx.origin);
// contents.push(declarationContents);
// declarationIndex[tx.origin].push(_subject);
// idx = contents.length-1;
// }
//
// declarationContentIndex[ks[0]] = idx;
// contents[idx].push(_proof);
//
// return true;
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}
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// Implements Declarator
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function declaration(address _declarator, address _subject) public view returns ( bytes32[] memory ) {
return declaration(_declarator, _subject, bytes32(0));
// bytes32 k;
// uint256 idx;
// k = toReference(_declarator, _subject);
// idx = declarationContentIndex[k];
// return contents[idx];
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}
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// Implements Declarator
function declaration(address _declarator, address _subject, bytes32 _topic) public view returns ( bytes32[] memory ) {
bytes32[2] memory k;
uint256 idx;
k = toReference(_declarator, _subject, _topic);
idx = declarationContentIndex[k[1]];
return contents[idx];
}
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// Implements Declarator
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function declarationCount(address _declarator) public view returns ( uint256 ) {
return declarationIndex[_declarator].length;
}
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// Implements Declarator
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function declarationAddressAt(address _declarator, uint256 _idx) public view returns ( address ) {
return declarationIndex[_declarator][_idx];
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}
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// Implements EIP165
function supportsInterface(bytes4 _sum) public pure returns (bool) {
if (_sum == 0x27beb910) { // Implements Declarator
return true;
}
if (_sum == 0x01ffc9a7) { // EIP165
return true;
}
return false;
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}
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}