public ProjectionFilter(IProcessorArchitecture arch, SsaState ssa, SegmentedAccessClassifier sac)
{
this.arch = arch;
this.ssa = ssa;
this.sac = sac;
this.NewStatements = new HashSet <Statement>();
this.cmp = new ExpressionValueComparer();
}
public void AssociateConsts()
{
Identifier ptr = new Identifier("ptr", PrimitiveType.SegmentSelector, null);
SegmentedAccessClassifier mpc = new SegmentedAccessClassifier(null, null);
mpc.Associate(ptr, Constant.Word32(3));
mpc.Associate(ptr, Constant.Word32(4));
Assert.IsTrue(mpc.IsOnlyAssociatedWithConstants(ptr), "Should only have been associated with constants");
}
public ProjectionFilter(SsaState ssa, Statement stm, SegmentedAccessClassifier sac)
{
this.ssa = ssa;
this.Statement = stm;
this.sac = sac;
this.arch = ssa.Procedure.Architecture;
this.NewStatements = new HashSet <Statement>();
this.cmp = new ExpressionValueComparer();
}
public void DisassociateConsts()
{
Identifier ptr = new Identifier("ptr", PrimitiveType.SegmentSelector, null);
Identifier mp = new Identifier("mp", PrimitiveType.SegmentSelector, null);
SegmentedAccessClassifier mpc = new SegmentedAccessClassifier(null, null);
mpc.Associate(ptr, Constant.Word32(3));
mpc.Associate(ptr, mp);
mpc.Associate(ptr, Constant.Word32(4));
Assert.IsFalse(mpc.IsOnlyAssociatedWithConstants(ptr), "Should have been disassociated");
}
public void Disassociate()
{
Identifier foo = new Identifier("foo", PrimitiveType.SegmentSelector, null);
Identifier bar = new Identifier("bar", PrimitiveType.Word16, null);
Identifier baz = new Identifier("baz", PrimitiveType.Word16, null);
SegmentedAccessClassifier mpc = new SegmentedAccessClassifier(null, null);
mpc.Associate(foo, bar);
mpc.Associate(foo, baz);
Assert.IsNull(mpc.AssociatedIdentifier(foo), "Bar should no longer be associated");
}
public void Associate()
{
var foo = new Identifier("foo", PrimitiveType.SegmentSelector, null);
var bar = new Identifier("bar", PrimitiveType.Word16, null);
var mpc = new SegmentedAccessClassifier(null, null);
mpc.Associate(foo, bar);
Assert.IsNotNull(mpc.AssociatedIdentifier(foo), "Bar should be associated");
mpc.Associate(foo, bar);
Assert.IsNotNull(mpc.AssociatedIdentifier(foo), "Bar should still be associated");
}
/// <summary>
/// This callback is called from the SccFinder, which passes it a list
/// of Procedures that form a SCC.
/// </summary>
/// <param name="procs"></param>
private void UntangleProcedureScc(IList <Procedure> procs)
{
this.sccProcs = procs.ToHashSet();
flow.CreateFlowsFor(procs);
// Convert all procedures in the SCC to SSA form and perform
// value propagation.
var ssts = procs.Select(ConvertToSsa).ToArray();
this.ssts.AddRange(ssts);
DumpWatchedProcedure("After extra stack vars", ssts);
// At this point, the computation of ProcedureFlow is possible.
var trf = new TrashedRegisterFinder(program, flow, ssts, this.eventListener);
trf.Compute();
// New stack based variables may be available now.
foreach (var sst in ssts)
{
var vp = new ValuePropagator(program.SegmentMap, sst.SsaState, program.CallGraph, dynamicLinker, this.eventListener);
vp.Transform();
sst.RenameFrameAccesses = true;
sst.Transform();
DumpWatchedProcedure("After extra stack vars", sst.SsaState.Procedure);
}
foreach (var ssa in ssts.Select(sst => sst.SsaState))
{
RemoveImplicitRegistersFromHellNodes(ssa);
var sac = new SegmentedAccessClassifier(ssa);
sac.Classify();
var prj = new ProjectionPropagator(ssa, sac);
prj.Transform();
DumpWatchedProcedure("After projection propagation", ssa.Procedure);
}
var uid = new UsedRegisterFinder(flow, procs, this.eventListener);
foreach (var sst in ssts)
{
var ssa = sst.SsaState;
RemovePreservedUseInstructions(ssa);
DeadCode.Eliminate(ssa);
uid.ComputeLiveIn(ssa, true);
var procFlow = flow[ssa.Procedure];
RemoveDeadArgumentsFromCalls(ssa.Procedure, procFlow, ssts);
DumpWatchedProcedure("After dead call argument removal", ssa.Procedure);
}
eventListener.Advance(procs.Count);
}
public ProjectionPropagator(SsaState ssa, SegmentedAccessClassifier sac)
{
this.ssa = ssa;
this.sac = sac;
}
public ProjectionPropagator(SsaState ssa, SegmentedAccessClassifier sac)
{
this.ssa = ssa;
this.sac = sac;
this.arch = ssa.Procedure.Architecture;
}
public void Classify2()
{
Prepare(new Mp2());
SegmentedAccessClassifier mpc = new SegmentedAccessClassifier(proc, ssaIds);
mpc.Classify();
Identifier ds = ssaIds.Where(s => s.Identifier.Name == "ds").Single().Identifier;
Assert.AreEqual("ds", ds.Name);
Identifier bx = ssaIds.Where(s => s.Identifier.Name == "bx").Single().Identifier;
Assert.AreEqual("bx", bx.Name);
Identifier a = mpc.AssociatedIdentifier(ds);
Assert.AreSame(a, bx);
}
public void Classify3()
{
Prepare(new Mp3());
SegmentedAccessClassifier mpc = new SegmentedAccessClassifier(proc, ssaIds);
mpc.Classify();
Identifier ds = ssaIds.Where(s => s.Identifier.Name == "ds").Single().Identifier;
Assert.AreEqual("ds", ds.Name);
Identifier bx = ssaIds.Where(s => s.Identifier.Name == "bx").Single().Identifier;
Assert.AreEqual("bx", bx.Name);
Identifier a = mpc.AssociatedIdentifier(ds);
Assert.IsNull(a, "ds is used both as ds:[bx+4] and ds:[0x3000], it should't be strongly associated with a register");
}
