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Various DV fixes #2183
Various DV fixes #2183
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This looks sensible, but there are a couple of slight tidy-ups that I think are worth doing.
I also notice that Verible claims some over-long lines (not caused by this PR). Are you happy to address those in a separate PR?
Where an access is unaligned Ibex splits it into two transactions, each of which undergoes a PMP check. It is possible for the first half to fail a PMP check and the second to succeed and hence produce a request on the memory interface. In Spike it accesses memory byte by byte and if it encounters a PMP error for a particular byte it won't try any further bytes. This results in a mis-match between Ibex and spike when an unaligned transaction is split across two PMP regions, one of which allows the access and the other doesn't. Ibex generates a transaction and spike doesn't producing an error. This adds a fixup into the co-simulation environment. It detects when we have an access that fails PMP that is misaligned. Where this has resulted in Ibex producing a memory request that spike would not we remove it from the list of memory requests to check after checking that the request passes PMP within spike.
The 'pre_val' MIP addresses the scenario where MIP changes as an instruction is excuting, this means a CSR instruction can observe a different MIP from the one that decides whether or not that instruction will be interrupted.
The cosimulation environment does not know if a memory access from spike is due to an instruction fetch or a data memory access. It uses a heuristic to differentiate the two. Any access between the PC and the PC + 8 is considered an instruction fetch. This heuristic did not correctly handle addresses at the top of the range where the PC + 8 calculation overflows. This commit fixes the top of range handling.
When an interrupt is raised the Ibex controller will move from the DECODE state to the IRQ_TAKEN state when it chooses to handle the interrupt. When in IRQ_TAKEN it's possible for the interrupt state to change again which aborts the interrupt entry. This leads to mis-matches against cosim. This change adds a warning to flag up cases where this has occurred to enable quick triage of failures related to this scenario.
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Looks great, thanks.
As part of my deep dive regression triage I've been fixing up a few things.
With this set of fixes we can hit 95 - 96% pass rate
They require an updated spike, PR is here: lowRISC/riscv-isa-sim#25.
Once that's merged I can kick off a binary build in CI and then update the cosim version we point to which will allow CI to pass on this commit.