Age | Commit message (Collapse) | Author |
|
Based on work by @ccadeptic23 and @delcypher.
Formatting fixed by @snf.
Fix compiler warning by @martijnthe.
Further fixes by @mchalupa.
Refactored, so that changes can be reviewed -- no massive changes in
whitespace and in the surrounding code.
Signed-off-by: Jiri Slaby <jirislaby@gmail.com>
|
|
|
|
finding a bug with the `-exit-on-error` option enabled.
|
|
Core: explicitly create CallSite from Instruction
|
|
Core: MCJIT functions need unique names
|
|
Moved printFileLine() to be part of KInstruction
|
|
|
|
|
|
Newer LLVMs do not allow implicit conversion from Instruction to
CallSite. We see this error:
Internal/Support/ModuleUtil.h:36:19: note: candidate function not viable: no known conversion from 'llvm::Instruction *' to 'llvm::CallSite' for 1st argument
llvm::Function *getDirectCallTarget(llvm::CallSite);
^
So explicitly create a CallSite from Instruction.
Signed-off-by: Jiri Slaby <jirislaby@gmail.com>
|
|
We will use newer MCJIT with newer LLVM versions. But it needs unique
names of functions or a wrong function can be called. So prepend
"dispatcher_" to function names (even for older LLVMs).
Signed-off-by: Jiri Slaby <jirislaby@gmail.com>
|
|
Newer versions of LLVM do not allow to implicitly cast iterators to
pointers where they point. So convert all such uses to explicit
static_cast, the same as LLVM code does.
Otherwise we see errors like:
lib/Core/Executor.cpp:548:15: error: no viable conversion from 'Module::iterator' (aka 'ilist_iterator<llvm::Function>') to 'llvm::Function *'
Function *f = i;
^ ~
Signed-off-by: Jiri Slaby <jirislaby@gmail.com>
|
|
Teach KLEE to respect the requested memory alignment of allocated memory
|
|
It was marked as deprecated long time ago and finally removed in LLVM
3.9. Remove all uses of getGlobalContext and create our own context.
Propagate it all over the code then.
[v2] use ctx, not C as name
Signed-off-by: Jiri Slaby <jirislaby@gmail.com>
|
|
variables when possible.
Previously an alignment 8 was always used which did not faithfully
emulate what was either explicitly requested in the LLVM IR or what
the default alignment was for the target.
|
|
controlled by a new parameter `moduleIsFullyLinked`. When
true the linkage type of a weak alias is ignored. It is legal to do
this when the module is fully linked because there won't be another
function that could override the weak alias.
This fixes a previous assertion failure in `klee::getDirectCallTarget()`
triggered by the `test/regression/2016-11-24-bitcast-weak-alias.c` test case.
|
|
too strict limitations (LLVM >= 3.0)
|
|
compiler warnings, one by adding an assert, and the other by refactoring the choose() function.
|
|
a…"
|
|
too strict limitations
|
|
|
|
Replaced an incorrect comma with a semicolon in the Executor constructor.
|
|
|
|
implement it in the solver.
|
|
|
|
MartinNowack-fix_bfs2
|
|
add nicer error messages for --use-merge and add explanation why it currently cannot be used with random-path
|
|
|
|
transitive dependencies on KLEE's libraries rather than on the final
binaries. This is better because it means we can build
other tools that use KLEE's libraries and not need to express the
needed LLVM dependencies.
It also makes it clearer what the dependencies are between KLEE
libraries. This has illustrated a problem with the `kleeBasic`
library. It contains `ConstructSolverChain.cpp` which clearly
belongs in `kleaverSolver` not in `kleeBasic`. This will be fixed
later.
|
|
For performance reasons, if KLEE branches, one state is reused
and it is progressed by adding new constraints.
Make sure both new states end up at the end of the BFS searcher queue.
|
|
currently cannot be used with random-path
|
|
This is based off intial work by @jirislaby in #481. However it
has been substantially modified.
Notably it includes a separate build sytem to build the runtimes which
is inspired by the old build system. The reason for doing this is
because CMake is not well suited for building the runtime:
* CMake is configured to use the host compiler, not the bitcode
compiler. These are not the same thing.
* Building the runtime using `add_custom_command()` is flawed
because we can't automatically get transitive depencies (i.e.
header file dependencies) unless the CMake generator is makefiles.
(See `IMPLICIT_DEPENDS` of `add_custom_command()` in CMake).
So for now we have a very simple build system for building the runtimes.
In the future we can replace this with something more sophisticated if
we need it.
Support for all features of the old build system are implemented apart
from recording the git revision and showing it in the output of
`klee --help`.
Another notable change is the CMake build system works much better with
LLVM installs which don't ship with testing tools. The build system
will download the sources for `FileCheck` and `not` tools if the
corresponding binaries aren't available and will build them. However
`lit` (availabe via `pip install lit`) and GTest must already be
installed.
Apart from better support for testing a significant advantage of the
new CMake build system compared to the existing "Autoconf/Makefile"
build system is that it is **not** coupled to LLVM's build system
(unlike the existing build system). This means that LLVM's
autoconf/Makefiles don't need to be installed somewhere on the system.
Currently all tests pass.
Support has been implemented in TravisCI and the Dockerfile for
building with CMake.
The existing "Autoconf/Makefile" build system has been left intact
and so both build systems can coexist for a short while. We should
remove the old build system as soon as possible though because it
creates an unnecessary maintance burden.
|
|
klee_warning, and klee_error
|
|
Improved support for assembler handling.
Providing additional triple information
to raise assembler for supported architectures
only.
Implemented support for raising full assembly
memory fence.
Added initial support for memory fences in Executor.
|
|
Fix to PTree pointer use-after-delete
|
|
|
|
Fix for klee_get_obj_size() crashing on 64-bit, resolves #446
|
|
|
|
It allows stopping the execution on some conditions like assertions.
The use is like:
klee -exit-on-error-type=Assert -exit-on-error-type=External file.llvm
This is especially useful in the SV-COMP.
A test to cover the new parameter was added too.
Signed-off-by: Jiri Slaby <jslaby@suse.cz>
|
|
Sometimes, globals are not sized and ->getTypeStoreSize on such type
crashes inside the LLVM. Check whether type is sized prior to calling
the function above.
A minimalistic example of Y being unsized with no effect on the actual
code is put to tests.
[v2]
Use klee_warning for printing. And use %.*s formatting string given
StringRef.data() need not be null terminated.
Signed-off-by: Jiri Slaby <jslaby@suse.cz>
|
|
Allows to provide 0 as an address to allocate deterministic memory
area at any free space.
|
|
|
|
Deterministic allocation provides an internal allocator which
mmaps memory to a fixed static address.
This way, same allocation is assured across different KLEE runs
for the same application assuming a deterministic searcher.
In addition, this patch provides following options:
-allocate-determ: switch on/off deterministic allocation
-allocate-determ-size: adjust preallocated memory
-null-on-zero-malloc: returns null pointer in case a malloc
of size 0 was requested. According to standard, also a non-null pointer
can be returned (which happens with the default glibc malloc implementation)
-allocation-space: space between allocations can be adjusted. KLEE is not able
to detect out-of-bound accesses which are inside another but wrong object.
Due the implementation of typical allocators adjacent mallocs have space
in between for management purposes. This spaces helped KLEE to detect off-by-1/2 accesses.
For higher numbers, the allocation space has to be increased.
-allocate-determ-start-address: adjust deterministic start address. The addres
has to be page aligned. KLEE fails if it cannot acquire this address
|
|
For vararg handling, arguments of size bigger than 64 bit need
to be handled 128bit aligned according to AMD calling conventions
AMD64-ABI 3.5.7p5.
To handle that case correctly, we do:
1) make sure that every argument is aligned correctly in
an allocation for function arguments
2) the allocation itself is aligned correctly
|
|
This patch generates the states based on the order of switch-cases.
Before, switch-constraints were randomly assigned to forked states.
As generated code might be different between LLVM versions,
we use the case values, order them, and iterate in that order
over the cases.
This way we can also support deterministic execution of older LLVM
versions.
|
|
Deterministic adding/removing of states.
|
|
|
|
|
|
Support gzip-based compression of raw_outstreams
|
|
Provide initial zlib-based compression support for
raw_outstreams. Replacing llvm::raw_fd_outstreams
with compressed_fd_outstreams automatically compresses
data in gzip format before writing to file.
Options added:
* --compress-log to compress all query log files (e.g. *.pc, *.smt2) on
the fly. Every query log file gets extended with .gz.
* --debug-compress-instructions to compress logfile for instruction
stream on the fly.
|
|
Add -stats-write-after-instructions and -istats-write-after-instructions
to update each statistic after n steps.
Furthermore, the metric "minimal distance to uncovered state" is now
updated independently if statistics are enabled or not.
This metric is needed i.e. by weighted random searchers directed towards
uncovered instructions.
Remove some dead code.
|