191 lines
5.0 KiB
Ruby
191 lines
5.0 KiB
Ruby
methods {
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function balanceOf(address) external returns (uint) envfree;
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function ownerOf(uint256 tokenId) external returns (address) envfree;
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function transferable() external returns (bool) envfree;
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function totalSupply() external returns (uint) envfree;
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function maxSupply() external returns (uint) envfree;
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function mintedCount() external returns (uint) envfree;
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}
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rule integrityOfMintTo() {
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address[] addresses;
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uint index;
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env e;
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require addresses.length > 0;
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require index >= 0 && index < addresses.length;
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mathint supply_before = totalSupply();
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mathint max_supply = maxSupply();
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mathint minted_count = mintedCount();
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address a = addresses[index];
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mathint balance_before = balanceOf(a);
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require supply_before <= max_supply;
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require minted_count >= supply_before;
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mintTo(e, addresses);
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mathint supply_after = totalSupply();
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assert supply_after <= max_supply;
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assert supply_after == supply_before + to_mathint(addresses.length);
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assert to_mathint(balanceOf(a)) > balance_before;
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}
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//rule integrityOfMintToWithEmptyArray{
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//}
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rule mintToReverts() {
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address[] addresses;
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env e;
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mathint supply_before = totalSupply();
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mathint max_supply = maxSupply();
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mathint minted_count = mintedCount();
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require supply_before <= max_supply;
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require minted_count >= supply_before;
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mintTo@withrevert(e, addresses);
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bool reverted = lastReverted;
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assert (supply_before + addresses.length > max_supply) => reverted;
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satisfy supply_before == max_supply && addresses.length > 0 && reverted;
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}
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rule mintToRelations() {
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address[] addresses_1;
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address[] addresses_2;
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env e;
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require addresses_1.length == 2;
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require addresses_1.length == addresses_2.length;
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require addresses_1[0] != addresses_1[1];
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require addresses_1[0] == addresses_2[1];
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require addresses_1[1] == addresses_2[0];
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mathint supply_before = totalSupply();
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mathint max_supply = maxSupply();
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mathint minted_count = mintedCount();
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require supply_before <= max_supply;
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require minted_count >= supply_before;
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address a;
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storage s1 = lastStorage;
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mintTo(e, addresses_1);
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mathint balance_s1 = balanceOf(a);
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mintTo(e, addresses_2) at s1;
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mathint balance_s2 = balanceOf(a);
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assert balance_s1 == balance_s2;
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}
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rule shouldPass {
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assert true;
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}
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/* rule sanity(env e, method f) { */
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/* calldataarg args; */
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/* f(e, args); */
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/* assert false; */
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/* } */
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/// rule mintTo_FromOwner {
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/// // address owner;
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/// address recipient_1;
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/// address recipient_2;
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///
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/// env e;
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/// require recipient_1 != recipient_2;
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/// // require e.msg.sender == owner;
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/// // require owner() == owner;
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/// require maxSupply() == 100000;
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/// require totalSupply() == 0;
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/// require balanceOf(recipient_1) == 0;
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/// require balanceOf(recipient_2) == 0;
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///
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/// assert balanceOf(recipient_1) == 0, "balance of recipient_1 should be 0";
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/// assert balanceOf(recipient_2) == 0, "balance of recipient_2 should be 0";
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///
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/// mintTo(e, [recipient_1, recipient_2]);
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///
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/// assert balanceOf(recipient_1) == 1, "balance of recipient_1 should be 1";
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/// assert balanceOf(recipient_2) == 1, "balance of recipient_2 should be 1";
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/// }
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///
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/// rule transferNFT_validOwner {
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/// address sender;
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/// address recipient;
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/// uint token_id;
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///
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/// env e;
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/// require e.msg.sender == sender;
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/// require sender != recipient;
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/// require ownerOf(token_id) == sender;
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/// require transferable() == true;
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///
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/// mathint balance_sender_before = balanceOf(sender);
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/// mathint balance_recipient_before = balanceOf(recipient);
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///
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/// transferFrom(e, sender, recipient, token_id);
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///
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/// assert ownerOf(token_id) == recipient;
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/// assert balanceOf(sender) == assert_uint256(balance_sender_before - 1);
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/// /* assert balanceOf(recipient) == balance_recipient_before + 1; */
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/// }
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///
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/// rule transferNFT_invalidOwner {
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/// address sender;
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/// address recipient;
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/// uint token_id;
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///
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/// env e;
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/// require e.msg.sender == sender;
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/// require sender != recipient;
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/// require ownerOf(token_id) != sender;
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/// require transferable() == true;
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///
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/// transferFrom@withrevert(e, sender, recipient, token_id);
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/// assert lastReverted, "transfer should revert when the sender is not the owner of tokenId";
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/// }
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///
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/// rule transferSoulbound {
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/// address sender;
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/// address recipient;
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/// uint token_id;
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///
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/// env e;
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/// require e.msg.sender == sender;
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/// require sender != recipient;
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/// require ownerOf(token_id) == sender;
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/// require transferable() == false;
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///
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/// mathint balance_sender_before = balanceOf(sender);
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/// mathint balance_recipient_before = balanceOf(recipient);
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///
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/// transferFrom@withrevert(e, sender, recipient, token_id);
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///
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/// assert lastReverted, "transfer should revert if it's a Soulbound token";
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/// }
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///
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/// rule maxSupplyNotLowerThanTotalSupply(env e, method f) {
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/// require maxSupply() >= totalSupply();
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///
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/// calldataarg args;
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/// f(e, args); // call all public/external functions of a contract
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///
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/// assert maxSupply() >= totalSupply();
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/// }
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