aave-protocol-v2/specs/StableDebtToken.spec

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RPMSpec
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methods {
getUserLastUpdated(address) returns uint40 envfree
}
rule integrityTimeStamp(address user, method f) {
env e;
require sinvoke getIncentivesController(e) == 0;
require getUserLastUpdated(user) <= e.block.timestamp;
calldataarg arg;
sinvoke f(e,arg);
assert getUserLastUpdated(user) <= e.block.timestamp;
}
/**
TotalSupply is the sum of all users balances
totalSupply(t) = Σaddress u. balanceOf(u,t)
Check that each possible opertaion changes the balance of at most one user
*/
rule balanceOfChange(address a, address b, method f )
{
env e;
require a!=b;
require sinvoke getIncentivesController(e) == 0;
uint256 balanceABefore = sinvoke balanceOf(e,a);
uint256 balanceBBefore = sinvoke balanceOf(e,b);
calldataarg arg;
sinvoke f(e, arg);
uint256 balanceAAfter = sinvoke balanceOf(e,a);
uint256 balanceBAfter = sinvoke balanceOf(e,b);
assert ( balanceABefore == balanceAAfter || balanceBBefore == balanceBAfter );
}
/**
Check that the change to total supply is coherent with the changes to balance
*/
rule integirtyBalanceOfTotalSupply(address a, method f )
{
env e;
require sinvoke getIncentivesController(e) == 0;
uint256 balanceABefore = sinvoke balanceOf(e,a);
uint256 totalSupplyBefore = sinvoke totalSupply(e);
calldataarg arg;
sinvoke f(e, arg);
require (f.selector != burn(address,uint256).selector );
uint256 balanceAAfter = sinvoke balanceOf(e,a);
uint256 totalSupplyAfter = sinvoke totalSupply(e);
assert (balanceAAfter != balanceABefore => ( balanceAAfter - balanceABefore == totalSupplyAfter - totalSupplyBefore));
}
/* Burn behaves differently and due to accumulation errors might have less total supply than the balance
*/
rule integirtyBalanceOfTotalSupplyOnBurn(address a, method f)
{
env e;
require sinvoke getIncentivesController(e) == 0;
uint256 balanceABefore = sinvoke balanceOf(e,a);
uint256 totalSupplyBefore = sinvoke totalSupply(e);
uint256 x;
sinvoke burn(e, a, x);
uint256 balanceAAfter = sinvoke balanceOf(e,a);
uint256 totalSupplyAfter = sinvoke totalSupply(e);
if (totalSupplyBefore > x)
assert (balanceAAfter != balanceABefore => ( balanceAAfter - balanceABefore == totalSupplyAfter - totalSupplyBefore));
else
assert (totalSupplyAfter == 0 );
}
/**
Mint inceases the balanceOf user a as expected
*/
rule integrityMint(address a, uint256 x) {
env e;
require sinvoke getIncentivesController(e) == 0;
uint256 index;
uint256 balancebefore = sinvoke balanceOf(e,a);
sinvoke mint(e,a,x,index);
uint256 balanceAfter = sinvoke balanceOf(e,a);
assert balanceAfter == balancebefore+x;
}
/**
Mint is additive, can performed either all at once or gradually
mint(u,x); mint(u,y) ~ mint(u,x+y) at the same timestamp
Note: We assume that the stable rate of the user is 0.
The case where the rate is non-zero takes much more time to prove,
and therefore it is currently excluded from the CI.
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*/
rule additiveMint(address a, uint256 x, uint256 y) {
env e;
require sinvoke getIncentivesController(e) == 0;
require getUserStableRate(e,a) == 0;
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uint256 index;
storage initialStorage = lastStorage;
sinvoke mint(e,a,x,index);
sinvoke mint(e,a,y,index);
uint256 balanceScenario1 = sinvoke balanceOf(e,a);
uint256 t = x + y;
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sinvoke mint(e,a, t ,index) at initialStorage;
uint256 balanceScenario2 = sinvoke balanceOf(e,a);
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assert balanceScenario1 == balanceScenario2, "mint is not additive";
}
rule integrityBurn(address a, uint256 x) {
env e;
require sinvoke getIncentivesController(e) == 0;
uint256 index;
uint256 balancebefore = sinvoke balanceOf(e,a);
sinvoke burn(e,a,x);
uint256 balanceAfter = sinvoke balanceOf(e,a);
assert balanceAfter == balancebefore - x;
}
rule additiveBurn(address a, uint256 x, uint256 y) {
env e;
require sinvoke getIncentivesController(e) == 0;
storage initialStorage = lastStorage;
sinvoke burn(e, a, x);
sinvoke burn(e, a, y);
uint256 balanceScenario1 = balanceOf(e, a);
uint256 t = x + y;
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sinvoke burn(e, a, t) at initialStorage;
uint256 balanceScenario2 = balanceOf(e, a);
assert balanceScenario1 == balanceScenario2, "burn is not additive";
}
/**
mint and burn are inverse operations
Thus, totalSupply is back to initial state
BalanceOf user is back to initial state */
rule inverseMintBurn(address a, uint256 x) {
env e;
require sinvoke getIncentivesController(e) == 0;
uint256 index;
uint256 balancebefore = sinvoke balanceOf(e,a);
sinvoke mint(e,a,x,index);
sinvoke burn(e,a,x);
uint256 balanceAfter = sinvoke balanceOf(e,a);
assert balancebefore == balanceAfter, "burn is not inverse of mint";
}