## Summary of my issue

I am using the libsparkcrypto library for my SHA256 function. I am finding that I cannot `Assert`

that `x = y`

implies `Sha256(x) = Sha256(y)`

. Any help would be greatly appreciated.

## Code

*testpackage.adb*

```
package body TestPackage with
SPARK_Mode
is
function Is_Equal (X, Y : LSC.Types.Bytes) return Boolean is
begin
if X = Y then
pragma Assert (LSC.SHA2.Hash_SHA256 (X) = LSC.SHA2.Hash_SHA256 (Y));
return True;
end if;
return (LSC.SHA2.Hash_SHA256 (X) = LSC.SHA2.Hash_SHA256 (Y));
end Is_Equal;
end TestPackage;
```

*testpackage.ads*

```
with LSC.Types; use LSC.Types;
with LSC.SHA2;
package TestPackage with
SPARK_Mode
is
function Is_Equal (X, Y : LSC.Types.Bytes) return Boolean with
Post => Is_Equal'Result = (LSC.SHA2.Hash_SHA256 (X) = LSC.SHA2.Hash_SHA256 (Y));
end TestPackage;
```

## Output

The error i receive is:

testpackage.adb:8:25: medium: assertion might fail, cannot prove LSC.SHA2.Hash_SHA256 (X) = LSC.SHA2.Hash_SHA256 (Y) [possible explanation: subprogram at testpackage.ads:8 should mention X and Y in a precondition][#0]

My `gnatprove.out`

:

```
Summary of SPARK analysis
=========================
-------------------------------------------------------------------------------------------
SPARK Analysis results Total Flow CodePeer Provers Justified Unproved
-------------------------------------------------------------------------------------------
Data Dependencies . . . . . .
Flow Dependencies . . . . . .
Initialization . . . . . .
Non-Aliasing . . . . . .
Run-time Checks 6 . . 6 (CVC4) . .
Assertions 1 . . . . 1
Functional Contracts 1 . . 1 (CVC4) . .
LSP Verification . . . . . .
Termination . . . . . .
Concurrency . . . . . .
-------------------------------------------------------------------------------------------
Total 8 . . 7 (88%) . 1 (13%)
max steps used for successful proof: 1
Analyzed 2 units
in unit main, 0 subprograms and packages out of 1 analyzed
Main at main.adb:8 skipped
in unit testpackage, 2 subprograms and packages out of 2 analyzed
TestPackage at testpackage.ads:4 flow analyzed (0 errors, 0 checks and 0 warnings) and proved (0 checks)
TestPackage.Is_Equal at testpackage.ads:8 flow analyzed (0 errors, 0 checks and 0 warnings) and not proved, 7 checks out of 8 proved
```

`LSC.SHA2.Hash_SHA256`

that somehow tells SPARK to assume the required property? – WhaleDancer Feb 20 at 21:17`pragma Assume`

to tell SPARK that if the two arrays are equal, then so are the results of the hashes. Obviously, this isn't ideal. – WhaleDancer Feb 22 at 10:32