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macaw/doc/AddingInstructionSemantics.org

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Overview

This document describes the process for adding support (i.e., semantics) for new instructions to a semmc-based macaw backend.

When do I need this

Missing instruction semantics will manifest in one of two ways:

  • Pattern match failures in the generated execInstruction function (e.g., Data.Macaw.PPC.Semantics.PPC64.execInstruction)
  • Basic blocks returned by macaw that are terminated by a TranslateError terminator

The first signal will only appear in debug mode. Later, we will add a fallthrough case to prevent noisy failures and turn them into the second case.

The second case can happen for two reasons. First, we may not have support in the disassembler for the instruction. We know we are missing some PowerPC instructions, and we don't have any support right now for system management instructions.

Process

  1. Identify the instruction with missing semantics This is included in the exception for a missing case in execInstruction. If there is no exception there, it can be determined from the address in the TranslateError.
  2. Find the semantics for the instruction in the relevant architecture manual PowerPC: http://www.iman1.jo/iman1/images/IMAN1-User-Site-Files/Architecure/PPC_Vers202_Book1_public.pdf
  3. Implement the semantics using the semantics DSL For PowerPC, this lives in the semmc-ppc package in the semmc repository. The relevant module is SemMC.Architecture.PPC.Base. Find the most appropriate sub-module under the Base hierarchy (or add a new one) and add a new opcode definition. For most instructions, you should use defineOpcodeWithIP, which automatically handles updating the instruction pointer.
  4. Regenerate the semantics files After the definition is added to the DSL, we need to regenerate the semantics files to actually put the definition on disk. To do this, run the genbase.sh script for your architecture. For PowerPC, this script is semmc/semmc-ppc/scripts/genbase.sh. Verify that the new expected file is generated. It should be a file with a .sem extension in the data directory of your architecture. These files are an extended version of the SMTLib format.
  5. Force a rebuild of the opcode module

    We use TH to store the contents of the semantics files as bytestrings. This is inconvenient at development time, but important for distribution and run-time (so that the locations of the semantics files on disk are not important). Unfortunately, TH can't tell when we add files to a directory, so we have to trick it into rebuilding the necessary modules.

    For PowerPC, the relevant modules are:

    • SemMC.Architecture.PPC64.Opcodes.Internal
    • SemMC.Architecture.PPC32.Opcodes.Internal

    The easiest way to force a rebuild is just to add another newline to each file and then rebuild.

  6. Rebuild your macaw backend This would be macaw-ppc or macaw-arm. After rebuilding these, try to analyze your binary again to make sure the changes worked.

Adding new operations

Sometimes, new operations are required in the formula language. For example, we will need to add support for the popcount (population count) instruction at some point. There are two cases:

  1. SimpleBuilder (in crucible) supports the operation
  2. SimpleBuilder does not support the operation

SimpleBuilder supports the operation

In this case, we:

  1. Add a wrapper in the DSL (SemMC.DSL in the semmc package)
  2. Update the formula parser to parse the new operation The formula parser is located in the semmc package (SemMC.Formula.Parser) and converts s-expression formulas into SimpleBuilder terms. The parser will call into SimpleBuilder, mostly via the IsExprBuilder interface, to construct these terms.
  3. Update the TH-macaw IR conversion to handle the new construct This code is located in macaw-semmc in the architecture-specific backends. For example, the PowerPC version is in macaw-ppc under Data.Macaw.PPC.Semantics.TH. The function of interest is crucAppToExprTH, which converts SimpleBuilder terms into macaw terms. Add a new case that performs the conversion as necessary.
  4. Rebuild

SimpleBuilder does not support the operation

Ideally, we can modify SimpleBuilder, but that is more involved. Sometimes we can get away with the following:

  1. Add a wrapper in the DSL (SemMC.DSL) that wraps the necessary functionality into an uninterpreted function
  2. Add a type signature for the uninterpreted function for your architecture The signatures for PowerPC are in SemMC.Architecture.PPC.UF in the semmc-ppc package. These signatures give types to the uninterpreted functions instantiated into SimpleBuilder. Note that we don't need to update the parser, since it treats all uninterpreted functions uniformly.
  3. Add an interpretation for the uninterpreted function in the TH-macaw translator Instantiate the necessary macaw IR fragment to implement the uninterpreted function. Right now, there are a few macaw operations not supported in SimpleBuilder, so this might be necessary.