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Fundamental Soot objects
Soot has a large and complicated class hierarchy. This document will introduce the reader to some of the most important classes for developing extensions to Soot.
We describe here the notions of Body
, Unit
, Local
, Value
, UnitBox
and ValueBox
.
In the tutorial Creating a class from scratch, the concept of a Body
is introduced briefly. This section will describe Body
in more detail.
Soot uses a Body
to store code for a method. There are four kinds of Body in Soot - namely, BafBody
, JimpleBody
,ShimpleBody
and GrimpBody
- one for each intermediate representation.
Also, recall that a chain is a list-like data structure providing constant-time access to chain elements, including insertion and removal.
The three principal chains in a Body
are the Units
chain, the Locals
chain and the Traps
chain. The following example will illustrate the role of each of these chains.
Consider the following Java method:
public static void main(String[] argv) throws Exception
{
int x = 2, y = 6;
System.out.println("Hi!");
System.out.println(x * y + y);
try
{
int z = y * x;
}
catch (Exception e)
{
throw e;
}
}
After Jimplification, we have the following abbreviated jimple code:
public static void main(java.lang.String[]) throws java.lang.Exception
{
java.lang.String[] r0;
int i0, i1, i2, $i3, $i4;
java.io.PrintStream $r1, $r2;
java.lang.Exception $r3, r4;
r0 := @parameter0;
i0 = 2;
i1 = 6;
$r1 = java.lang.System.out;
$r1.println(``Hi!'');
$r2 = java.lang.System.out;
$i3 = i0 * i1;
$i4 = $i3 + i1;
$r2.println($i4);
label0:
i2 = i1 * i0;
label1:
goto label3;
label2:
$r3 := @caughtexception;
r4 = $r3;
throw r4;
label3:
return;
catch java.lang.Exception from label0 to label1 with label2;
}
The locals in this method are seen at the top of the method:
java.lang.String[] r0;
int i0, i1, i2, $i3, $i4;
java.io.PrintStream $r1, $r2;
java.lang.Exception $r3, r4;
The collection of Local
s is stored in the localChain
and accessible via body.getLocals()
. Each intermediate representation may define its own implementation of Local
; however, it must always be possible, for every Local r0
, to call r0.getName()
, r0.getType()
, r0.setName()
and r0.setType()
. Note that local variables must be typed.
To support Java exception handling, Soot Body
's define the notion of traps. The idea is that in Java bytecode, exception handlers are represented by a tuple (exception, start, stop, handler); between the start and stop units (including start, but not including stop), if the exception is thrown, execution continues at handler.
In the example, there is one trap:
catch java.lang.Exception from label0 to label1 with label2;
The most interesting part of a Body
is its chain of Unit
s. This is the actual code contained in the Body
. Jimple provides the Stmt
implementation of Unit
, while Grimp provides the Inst
implementation. This reflects the fact that each IR has its own notion of statement.
An example of a Jimple Stmt is the AssignStmt
, which represents a Jimple assignment statement. One AssignStmt
would be:
x = y + z;
Code always acts on data. To represent the data, Soot provides the Value
interface. Some different types of Value
s are:
-
Local
s -
Constant
s - Expressions (
Expr
) -
ParameterRef
s,CaughtExceptionRef
s andThisRef
s.
The Expr
interface, in turn, has a panoply of implementations; among them are NewExpr
and AddExpr
. In general, an Expr
carries out some action on one or several Value
s and returns another Value.
Here's a real live use of some Value
s:
x = y + 2;
This is an AssignStmt
. Its leftOp is x
and its rightOp is y+2
, an AddExpr
. The AddExpr
, in turn, contains the Values y
and 2
as its operands; the former is a Local
while the latter is a Constant
.
In Jimple, we enforce the requirement that all Value
s contain at most 1 expression. Grimp lifts this restriction, producing easier-to-read but harder-to-analyse code.
Boxes are ubiquitous in Soot. The main idea to keep in mind is that a Box is a pointer. It provides indirect access to Soot objects.
A more descriptive name for Box
would have been Ref
. Unfortunately, Ref
has a different meaning for Soot.
There are two kinds of Box
es in Soot - the ValueBox
and the UnitBox
. Not surprisingly, a UnitBox
contains Unit
s while a ValueBox
contains Value
s. In C++, these would be simply (Unit
*) and (Value
*) respectively.
We now describe each type of Box
.
Some types of Unit
s will need to contain references to other Unit
s. For instance, a GotoStmt
needs to know what its target is. Hence, Soot provides the UnitBox
, a Box that contains a Unit.
Consider the following jimp code:
x = 5;
goto l2;
y = 3;
l2: z = 9;
Each Unit
must provide getUnitBoxes()
. For most UnitBox
es, this returns the empty list. However, in the cast of a GotoStmt
, then getUnitBoxes()
returns a one-element list, containing a Box
pointing to l2.
Note that a SwitchStmt
will, in general, return a list with many boxes.
The notion of a Box comes in especially useful for modifying code. Say we have a statement s:
s: goto l2;
and a stmt at l2:
l2: goto l3;
It is clear that s can point to l3
instead of l2
, regardless of the actual type of s
; we can do this uniformly, for all kinds of Unit
s:
public void readjustJumps(Unit s, Unit oldU, Unit newU)
{
Iterator ubIt = s.getUnitBoxes.iterator();
while (ubIt.hasNext())
{
StmtBox tb = (StmtBox)ubIt.next();
Stmt targ = (Stmt)tb.getUnit();
if (targ == oldU)
tb.setUnit(newU);
}
}
Some code similar to this is used in Unit
itself, to enable the creation of PatchingChain
, an implementation of Chain
which adjusts pointers to Unit
s which get removed from the Chain
.
Analogously to Unit
s, we often need a notion of a pointer to a Value. This is represented by the ValueBox
class. For a Unit
, we can always get a list of ValueBox
es, containing values used and defined in that Unit
.
We can use these boxes to carry out constant folding: if an AssignStmt
evaluates an AddExpr
adding two constant values, we can statically add them and put the result into the UseBox
.
Here is an example of folding AddExpr
s.
public void foldAdds(Unit u)
{
Iterator ubIt = u.getUseBoxes().iterator();
while (ubIt.hasNext())
{
ValueBox vb = (ValueBox) ubIt.next();
Value v = vb.getValue();
if (v instanceof AddExpr)
{
AddExpr ae = (AddExpr) v;
Value lo = ae.getOp1(), ro = ae.getOp2();
if (lo instanceof IntConstant && ro instanceof IntConstant)
{
IntConstant l = (IntConstant) lo,
r = (IntConstant) ro;
int sum = l.value + r.value;
vb.setValue(IntConstant.v(sum));
}
}
}
}
Note how this works for any Unit
, regardless of type.
We now discuss the different methods that any Unit
must provide.
public List getUseBoxes();
public List getDefBoxes();
public List getUseAndDefBoxes();
These methods return List
s of ValueBox
es for values used, defined, or both, in this Unit
. For the getUseBoxes()
method, all values used are returned; this includes expressions as well as their constituent parts.
public List getUnitBoxes();
This method returns a List
of UnitBox
es for units pointed to by this method.
public List getBoxesPointingToThis();
This method returns a List of UnitBox
es which contain this Unit as their target.
public boolean fallsThrough();
public boolean branches();
These methods have to do with the flow of execution after this Unit
. The former method returns true if execution can continue to the following Unit
, while the latter returns true if execution might continue to some Unit which isn't immediately after this one.
public void redirectJumpsToThisTo(Unit newLocation);
This method uses getBoxesPointingToThis
to change all jumps to this Unit
, pointing them instead at newLocation
.
Also check out Soot's webpage.
NOTE: If you find any bugs in those tutorials (or other parts of Soot) please help us out by reporting them in our issue tracker.
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- Using Soot as a Command-Line Tool
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