Summary:
Splat, Memory, and Concat expressions are never used. Only the term
forms are needed.
Reviewed By: bennostein
Differential Revision: D17665259
fbshipit-source-id: cbfd7650d
Summary:
There are a number if issues with using the same type for expressions
in code and in formulas. One is that the type systems of the two
should be different. Another is that conflating the two compromises
the ability of Llair to correctly express aspects such as integer
overflow, floating point rounding, etc. Also, it could be beneficial
to have more source locations for program expressions than makes sense
for terms.
This diff simply unshares Exp, leading to a copy named Term. Likewise,
Reg is now a copy of Var. Simplifications to come.
Reviewed By: bennostein
Differential Revision: D17665250
fbshipit-source-id: 4359a80d5
Summary:
The generation of names for the function formal return and throw
parameters is not central to LLAIR, but a detail of the frontend,
since they are generated only because LLVM does not already have such
names.
Reviewed By: ngorogiannis
Differential Revision: D17665240
fbshipit-source-id: 684cbae92
Summary:
Using a type of keys richer than strings, which are the unique symbol
names at the C/LLVM level, is unnecessary.
Reviewed By: ngorogiannis
Differential Revision: D17665262
fbshipit-source-id: 6b8c31146
Summary:
The convenience wrappers for operations on signed 1-bit integers
represented by Z.t are not specific to Exp.
Reviewed By: ngorogiannis
Differential Revision: D17665252
fbshipit-source-id: d4b58e2a6
Summary:
Now that the relation domain construction is factored out and
generalized.
Reviewed By: ngorogiannis
Differential Revision: D17665253
fbshipit-source-id: eb156ce6b
Summary:
At some point it was thought that we can assume that any annotation starting with "On" means the method is on the UI thread.
That's too imprecise and has led to false positives and negatives. Restrict to a well-known safe set.
Reviewed By: ezgicicek
Differential Revision: D17769376
fbshipit-source-id: 0f8fee059
Summary:
Currently, lock state is a map from locks to stacks of lock acquisitions.
Since we now have the separate acquisitions component, we no longer need to
remember the stack of acquisitions for a lock. Instead we only need a lock count,
thus reducing the memory footprint.
At the same time, change acquire and release so that they make one tree operation per
component (map/acquisition) as opposed to two (search/update) operations.
Reviewed By: ezgicicek
Differential Revision: D17736727
fbshipit-source-id: 7579eb61e
Summary:
If we acquire n nested locks we end up with n critical pairs, and for each pair the held-locks component goes up linearly, thus total space/time is O(n^2).
If the sets of held-locks are constructed with maximal sharing (intuitively, if they derive from the same set by additions) then the total space/time is O(n logn).
To do this, we must avoid constructing a new set every time we ask what the currently held locks are. Here we maintain (care is needed in the presence of recursive locks) that set across lock acquisitons and removals.
Reviewed By: skcho
Differential Revision: D17736252
fbshipit-source-id: 0f9b292c4
Summary:
This diff tries to narrowing the fixpoint of outermost loops, so that over-approximated widened values do not flow to the following code.
Problem: There are two phases for finding a fixpoint, widening and narrowing. First, it finds a fixpoint with widening, in function level. After that, it finds a fixpoint with narrowing. A problem is that sometimes an overly-approximated, imprecise, values by widening are flowed to the following loops. They are hard to narrow in the narrowing phase because there is a cycle preventing it.
To mitigate the problem, it tries to do narrowing, in loop level, right after it found a fixpoint of a loop. Thus, it narrows before the widened values are flowed to the following loops. In order to guarantee the termination of the analysis, this eager narrowing is applied only to the outermost loops.
Reviewed By: ezgicicek
Differential Revision: D17740265
fbshipit-source-id: e2d454036
Summary:
Since version 2, none of the `opam pin` modes work reasonably well for
the standard llvm build procedure. As a workaround to prevent opam
from making several copies of the build directory when pinning, adjust
to move the llvm build and install directories out of the llvm source
tree.
Reviewed By: bennostein
Differential Revision: D17665242
fbshipit-source-id: ac84a4b0b
Summary:
This diff extends the alias domain to analyze loop with list comprehensions form in Java precisely.
```
list2 = new List();
for (Element e : list1) {
list2.add(e);
}
```
1. `IteratorOffset` is a relation between a iterator offset and a length of another array. For example, in the above example, after n-times of iterations, the offset of the iterator (if it exists) and the length of `list2` are the same as `n`.
2. `IteratorHasNext` is a relation between iterator and its `hasNext` result.
3. At the conditional nodes, it prunes the alias list length of `list2` by that of `list1`.
* if `hasNext(list1's iterator)` is true, `list2`'s length is pruned by `< list1's length`
* if `hasNext(list1's iterator)` is false, `list2`'s length is pruned by `= list1's length`
Reviewed By: ezgicicek
Differential Revision: D17667128
fbshipit-source-id: 41fb23a45
Summary: This diff fixes a potential race in writing to pipe channel.
Reviewed By: ngorogiannis
Differential Revision: D17710123
fbshipit-source-id: 477492750
Summary:
The old domain keeps two sets:
- `events` are things (including lock acquisitions) which eventually happen during the execution of a procedure.
- `order` are pairs of `(lock, event)` such that there is a trace through the procedure which at some point acquires `lock` and before releasing it performs `event`.
A deadlock would be reported if for two procedures, `(lock1,lock2)` is in `order` of procedure 1 and `(lock2,lock1)` is in `order` of procedure 2. This condition/domain allowed for the false positive fixed in the tests, as well as was unwieldy, because it required translating between the two sets.
The new domain has only one set of "critical pairs" `(locks, event)` such that there is a trace where `event` occurs, and *right before it occurs* the locks held are exactly `locks` (no over/under approximation). This allows keeping all information in one set, simplifies the procedure call handling and eliminates the known false positive.
Reviewed By: mityal
Differential Revision: D17686944
fbshipit-source-id: 3c68bb957
Summary: Holding a master lock and then acquiring two other locks inside can generate a false positive as shown.
Reviewed By: mityal
Differential Revision: D17710076
fbshipit-source-id: 5bc910ba2
Summary:
Previously deduplication was always on which is not great for testing.
Also split tests so that we can still test deduplication separately.
Reviewed By: mityal
Differential Revision: D17686877
fbshipit-source-id: 280d91473
Summary:
The documentation and uses of filtering disagree. One typical usage is deduplication.
Split that where obvious, add comments where not obvious, and leave alone when obviously unrelated to deduplication.
Reviewed By: mityal
Differential Revision: D17715329
fbshipit-source-id: ec757927b
Summary:
Ideally the analyser should equate locks `this.x.f` and `a.x.f` in different methods if they can alias.
The heuristic removed here was rarely used and is in the way of a re-write of the analysis.
It was also badly implemented, as this should ideally be the comparison relation of `Lock`.
Reviewed By: mityal
Differential Revision: D17602827
fbshipit-source-id: 4f4576c1a
Summary:
This diff generates a symbolic value when a function returns only
exceptions. Previously, the exception expression is evaluated to top,
thus it was propagated to other functions, which made those costs as
top. For preventing that situation, this diff changed:
* exception expressions are evaluated to bottom, and
* if callee's return value is bottom, it generates a symbolic value
for it.
Reviewed By: ezgicicek
Differential Revision: D17500386
fbshipit-source-id: 0fdcc710d
Summary: This diff introduces an inequality for the size alias targets, in order to get preciser array lengths after loops. The alias domain in inferbo was able to express strict equality between alias source and its targets, e.g. x=size(array). Now, for the size alias target, it can express less than or equal relations, e.g. x>=size(array).
Reviewed By: ezgicicek
Differential Revision: D17606222
fbshipit-source-id: 2557d3bd0
Summary: Component.Builder has its own non-required props that are inherited by the MyComponent.Builder. Add tests where these common props are set in the chain of calls.
Reviewed By: Katalune
Differential Revision: D17710294
fbshipit-source-id: f3c5ef28c
Summary:
This reverts commit 9d5c322202a479e73b60f00ffb318f1c7948e407.
INFERVERSION forcing a version check proved to be problematic for
integrations, thus is reverted.
Reviewed By: ngorogiannis
Differential Revision: D17627638
fbshipit-source-id: f988207aa
Summary:
Since the correcteness of the mapping from LLVM to llair depends on
LLVM being SSA, we need to formalise what that means. We also prove that
the domination relation is a strict partial order, which will probably
be helpful when reasoning about the translation.
Reviewed By: jberdine
Differential Revision: D17631456
fbshipit-source-id: a00eb3f87
Summary:
This diff is to refactoring some stuffs for the following diff.
* revised pretty print of the alias domain
* moved `eval_array_locs_length` to `BufferOverrunSemantics`.
Reviewed By: jvillard
Differential Revision: D17667123
fbshipit-source-id: c95611df5
Summary:
Sawja and Javalib have recently released new versions that drop off
the camlp4 dependency. This is a minimal diff in order to update infer
opam depedencies.
Last (1.5.7) generates invokedynamic, but work on InvokeDynamic is still
in progress in Infer and not activated here yet. In this version, the
Java frontend will still replace any InvokeDynamic by a dummy
InvokeStatic call (as introduced by Jeremy a long time ago).
Reviewed By: jvillard
Differential Revision: D17662979
fbshipit-source-id: f686ba442
Summary:
Unfortunately it is very hard to predict when
`Typ.Procname.describe` will add `()` after the function name, so we
cannot make sure it is always there.
Right now we report clowny stuff like "error while calling `foo()()`",
which this change fixes.
Reviewed By: ezgicicek
Differential Revision: D17665470
fbshipit-source-id: ef290d9c0
Summary:
Having just numbers for abstract values is a tad confusing. The change
is also needed for having actual constant values later.
Reviewed By: ezgicicek
Differential Revision: D17665469
fbshipit-source-id: 20dff7bbe
Summary: `Prop(varArg = myProp) List <?> myPropList` can also be set via `myPropList()` or `myProp()`. Add support for picking up the `varArg` and checking this form of required props.
Reviewed By: ngorogiannis
Differential Revision: D17571997
fbshipit-source-id: 7956cb972
Summary:
Turns out `Memory.add_attributes` was only used to add singletons so
deleted that in the process.
Reviewed By: skcho
Differential Revision: D17627725
fbshipit-source-id: 0abe3889d
Summary:
This was bogus: when evaluating `e[e']` we were checking that `e'` is a
valid pointer.
Reviewed By: ezgicicek
Differential Revision: D17627727
fbshipit-source-id: 536384e95
Summary:
This is a preparation for coming introducing of Unknown nullability.
When this happens, a value will be able to be neither nullable, nor
non-nullable.
This will break many checks that implicitly assume "not nullable means non-null".
In this diff, we review all such checks and change them accordingly.
Reviewed By: artempyanykh
Differential Revision: D17600177
fbshipit-source-id: c38d87175
Summary:
It took a while for me to figure out what does this method do; the
reasons were:
1. a lot of names were cryptic and/or misleading
2. because everything is inline one needs to read everything to figure
out what is going on here.
So this diff changes the names a bit and moves some of methods outside.
This is still far not perfect, but I believe it is better than was
before.
Reviewed By: artempyanykh
Differential Revision: D17600175
fbshipit-source-id: ca7175b2e
Summary:
Eradicate.ml is way too big to reason about.
This diff is shallow, it does only the following:
1. Moves the module
2. Adds documentation in the header.
3. Exports two public methods as is
4. Adds corresponding params to all methods for values that were
captured in the module-as-closure before
Reviewed By: artempyanykh
Differential Revision: D17600173
fbshipit-source-id: ba7981228
Summary:
Turns out, we did not have such a test in place.
Known issue: we report over-annotated warnings for each fields N times,
one per constructor, which is wrong.
Reviewed By: artempyanykh
Differential Revision: D17574791
fbshipit-source-id: def992691
Summary:
Now, that we consistently use `AnnotatedType`, `AnnotatedNullability`,
and `AnnotatedSignature`, `AnnotatedField` is a natural name for this
datatype.
Together `AnnotatedSignature` and `AnnotatedField` represent two entry
points for fetching information about Java type from the codebase.
Reviewed By: artempyanykh
Differential Revision: D17570534
fbshipit-source-id: 31ef52033
Summary:
1. This diff finishes the work of getting rid of using `Annot.Item.t`
for making judgements about nullability. Instead, `AnnotatedNullability`
is now used consistently in the codebase. Corresponding TODO items are
deleted.
2. This diff proceeds consolidating checks to `NullsafeRules` (which
will simplify introducing non-binary nullability in follow up diffs).
3. Code is simplified: we get rid of `fold2/ignore` + inlined
calculation of the param position in favor of
more straightward `zip` + `iteri` combo.
Reviewed By: artempyanykh
Differential Revision: D17570439
fbshipit-source-id: 52acf2c66
Summary:
This continues work of getting rid of using low-level Annot.Item.t in
favor of a new, more specific and flexible data structure.
Migrating this code further to NullsafeRules is bit tricky right now, so
let's defer it.
Reviewed By: ngorogiannis
Differential Revision: D17549479
fbshipit-source-id: 418b4b394
Summary:
This diff also introduces "subtyping function" into NullsafeRule, which
will be the core check for other rules we will introduce in follow up
diffs
Reviewed By: ngorogiannis
Differential Revision: D17500466
fbshipit-source-id: 5821caa6e
Summary:
As suggested by artempyanykh:
1. Since we recently introduced InferredNullability, AnnotatedNullability deserves its own class which now plays nicely with its counterpart.
2. AnnotatedType is more specific then NullsafeType
Reviewed By: artempyanykh
Differential Revision: D17547988
fbshipit-source-id: 785def23a
Summary:
The LLVM semantics and translation was not consistently treating the
1-bit word value condition as signed or unsigned.
Reviewed By: jberdine
Differential Revision: D17605766
fbshipit-source-id: 77edf63b7
Summary:
Previously the LLVM semantics did the phi instructions at the head of a
block as part of executing the branch into that block. This looked a bit
weird, but had the advantage that the semantics knew which block was
being jumped from, which is necessary to run the phi instructions.
However, it meant that the rules for doing phi instructions would need
to show up with each branching construct. It was also annoying for the
LLVM->llair proof, since the phis are removed and their effect happens as
a distinct step from the branch.
Here we add a distinct Phi_ip instruction pointer to indicate that the
phi instructions at the start of the block should execute next, and then
be incremented to the usual numeric instruction pointer that points to
the non-phi instructions. The Phi_ip contains the identity of the
previous block.
Reviewed By: jberdine
Differential Revision: D17452416
fbshipit-source-id: 78fef7cca
Summary:
Give the llair semantics observable side effects (writes to global
variables) and a semantic function mirroring the LLVM semantics. Start
sketching out the LLVM/llair translation equivalence proof in a top-down
way from the obvious statement of equality of the semantics.
Reviewed By: jberdine
Differential Revision: D17399654
fbshipit-source-id: 2170678a8
Summary:
The simple LLVM semantics steps one instruction at a time, but the
generated llair does whole blocks at a time, since many individual LLVM
instructions can become a single llair expression. We add a bigger-step
LLVM semantics that does whole blocks at a time (except that it also
stops at function calls, since those end blocks in llair). The steps in
this bigger-step semantics should be at the same granularity as the
llair steps, making it easier to verify the translation.
We add a notion of observation to the LLVM semantics (right now, just
global variable writes) and use that to define two top-level semantic
functions, which we prove to be equivalent.
Reviewed By: jberdine
Differential Revision: D17396016
fbshipit-source-id: ee632fb92