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rustup Let's see if that version still all works |
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bench-cargo-miri | ||
benches | ||
cargo-miri | ||
src | ||
test-cargo-miri | ||
tests | ||
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CONTRIBUTING.md | ||
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miri | ||
README.md | ||
rust-version | ||
rustfmt.toml | ||
rustup-toolchain |
Miri
An experimental interpreter for Rust's mid-level intermediate representation (MIR). It can run binaries and test suites of cargo projects and detect certain classes of undefined behavior, for example:
- Out-of-bounds memory accesses and use-after-free
- Invalid use of uninitialized data
- Violation of intrinsic preconditions (an
unreachable_unchecked
being reached, callingcopy_nonoverlapping
with overlapping ranges, ...) - Not sufficiently aligned memory accesses and references
- Violation of some basic type invariants (a
bool
that is not 0 or 1, for example, or an invalid enum discriminant) - Experimental: Violations of the Stacked Borrows rules governing aliasing for reference types
- Experimental: Data races (but no weak memory effects)
On top of that, Miri will also tell you about memory leaks: when there is memory
still allocated at the end of the execution, and that memory is not reachable
from a global static
, Miri will raise an error.
You can use Miri to emulate programs on other targets, e.g. to ensure that byte-level data manipulation works correctly both on little-endian and big-endian systems. See cross-interpretation below.
Miri has already discovered some real-world bugs. If you found a bug with Miri, we'd appreciate if you tell us and we'll add it to the list!
However, be aware that Miri will not catch all cases of undefined behavior in your program, and cannot run all programs:
-
There are still plenty of open questions around the basic invariants for some types and when these invariants even have to hold. Miri tries to avoid false positives here, so if you program runs fine in Miri right now that is by no means a guarantee that it is UB-free when these questions get answered.
In particular, Miri does currently not check that integers/floats are initialized or that references point to valid data.
-
If the program relies on unspecified details of how data is laid out, it will still run fine in Miri -- but might break (including causing UB) on different compiler versions or different platforms.
-
Program execution is non-deterministic when it depends, for example, on where exactly in memory allocations end up, or on the exact interleaving of concurrent threads. Miri tests one of many possible executions of your program. You can alleviate this to some extent by running Miri with different values for
-Zmiri-seed
, but that will still by far not explore all possible executions. -
Miri runs the program as a platform-independent interpreter, so the program has no access to most platform-specific APIs or FFI. A few APIs have been implemented (such as printing to stdout) but most have not: for example, Miri currently does not support SIMD or networking.
Using Miri
Install Miri on Rust nightly via rustup
:
rustup +nightly component add miri
If rustup
says the miri
component is unavailable, that's because not all
nightly releases come with all tools. Check out
this website to
determine a nightly version that comes with Miri and install that using
rustup toolchain install nightly-YYYY-MM-DD
.
Now you can run your project in Miri:
- Run
cargo clean
to eliminate any cached dependencies. Miri needs your dependencies to be compiled the right way, that would not happen if they have previously already been compiled. - To run all tests in your project through Miri, use
cargo miri test
. - If you have a binary project, you can run it through Miri using
cargo miri run
.
The first time you run Miri, it will perform some extra setup and install some dependencies. It will ask you for confirmation before installing anything.
cargo miri run/test
supports the exact same flags as cargo run/test
. You
can pass arguments to Miri via MIRIFLAGS
. For example,
MIRIFLAGS="-Zmiri-disable-stacked-borrows" cargo miri run
runs the program
without checking the aliasing of references.
When compiling code via cargo miri
, the cfg(miri)
config flag is set. You
can use this to ignore test cases that fail under Miri because they do things
Miri does not support:
#[test]
#[cfg_attr(miri, ignore)]
fn does_not_work_on_miri() {
std::thread::spawn(|| println!("Hello Thread!"))
.join()
.unwrap();
}
There is no way to list all the infinite things Miri cannot do, but the interpreter will explicitly tell you when it finds something unsupported:
error: unsupported operation: can't call foreign function: bind
...
= help: this is likely not a bug in the program; it indicates that the program \
performed an operation that the interpreter does not support
Cross-interpretation: running for different targets
Miri can not only run a binary or test suite for your host target, it can also
perform cross-interpretation for arbitrary foreign targets: cargo miri run --target x86_64-unknown-linux-gnu
will run your program as if it was a Linux
program, no matter your host OS. This is particularly useful if you are using
Windows, as the Linux target is much better supported than Windows targets.
You can also use this to test platforms with different properties than your host
platform. For example cargo miri test --target mips64-unknown-linux-gnuabi64
will run your test suite on a big-endian target, which is useful for testing
endian-sensitive code.
Running Miri on CI
To run Miri on CI, make sure that you handle the case where the latest nightly does not ship the Miri component because it currently does not build. For example, you can use the following snippet to always test with the latest nightly that does come with Miri:
MIRI_NIGHTLY=nightly-$(curl -s https://rust-lang.github.io/rustup-components-history/x86_64-unknown-linux-gnu/miri)
echo "Installing latest nightly with Miri: $MIRI_NIGHTLY"
rustup set profile minimal
rustup default "$MIRI_NIGHTLY"
rustup component add miri
cargo miri test
Common Problems
When using the above instructions, you may encounter a number of confusing compiler errors.
"note: run with RUST_BACKTRACE=1
environment variable to display a backtrace"
You may see this when trying to get Miri to display a backtrace. By default, Miri
doesn't expose any environment to the program, so running
RUST_BACKTRACE=1 cargo miri test
will not do what you expect.
To get a backtrace, you need to disable isolation
using -Zmiri-disable-isolation
:
RUST_BACKTRACE=1 MIRIFLAGS="-Zmiri-disable-isolation" cargo miri test
"found possibly newer version of crate std
which <dependency>
depends on"
Your build directory may contain artifacts from an earlier build that have/have
not been built for Miri. Run cargo clean
before switching from non-Miri to
Miri builds and vice-versa.
"found crate std
compiled by an incompatible version of rustc"
You may be running cargo miri
with a different compiler version than the one
used to build the custom libstd that Miri uses, and Miri failed to detect that.
Try deleting ~/.cache/miri
.
"no mir for std::rt::lang_start_internal
"
This means the sysroot you are using was not compiled with Miri in mind. This
should never happen when you use cargo miri
because that takes care of setting
up the sysroot. If you are using miri
(the Miri driver) directly, see the
contributors' guide for how to use ./miri
to best do that.
Miri -Z
flags and environment variables
Miri adds its own set of -Z
flags, which are usually set via the MIRIFLAGS
environment variable:
-Zmiri-compare-exchange-weak-failure-rate=<rate>
changes the failure rate ofcompare_exchange_weak
operations. The default is0.8
(so 4 out of 5 weak ops will fail). You can change it to any value between0.0
and1.0
, where1.0
means it will always fail and0.0
means it will never fail.-Zmiri-disable-alignment-check
disables checking pointer alignment, so you can focus on other failures, but it means Miri can miss bugs in your program. Using this flag is unsound.-Zmiri-disable-data-race-detector
disables checking for data races. Using this flag is unsound.-Zmiri-disable-stacked-borrows
disables checking the experimental Stacked Borrows aliasing rules. This can make Miri run faster, but it also means no aliasing violations will be detected. Using this flag is unsound (but the affected soundness rules are experimental).-Zmiri-disable-validation
disables enforcing validity invariants, which are enforced by default. This is mostly useful to focus on other failures (such as out-of-bounds accesses) first. Setting this flag means Miri can miss bugs in your program. However, this can also help to make Miri run faster. Using this flag is unsound.-Zmiri-disable-isolation
disables host isolation. As a consequence, the program has access to host resources such as environment variables, file systems, and randomness.-Zmiri-env-exclude=<var>
keeps thevar
environment variable isolated from the host so that it cannot be accessed by the program. Can be used multiple times to exclude several variables. On Windows, theTERM
environment variable is excluded by default.-Zmiri-ignore-leaks
disables the memory leak checker.-Zmiri-seed=<hex>
configures the seed of the RNG that Miri uses to resolve non-determinism. This RNG is used to pick base addresses for allocations. When isolation is enabled (the default), this is also used to emulate system entropy. The default seed is 0. NOTE: This entropy is not good enough for cryptographic use! Do not generate secret keys in Miri or perform other kinds of cryptographic operations that rely on proper random numbers.-Zmiri-symbolic-alignment-check
makes the alignment check more strict. By default, alignment is checked by casting the pointer to an integer, and making sure that is a multiple of the alignment. This can lead to cases where a program passes the alignment check by pure chance, because things "happened to be" sufficiently aligned -- there is no UB in this execution but there would be UB in others. To avoid such cases, the symbolic alignment check only takes into account the requested alignment of the relevant allocation, and the offset into that allocation. This avoids missing such bugs, but it also incurs some false positives when the code does manual integer arithmetic to ensure alignment. (The standard libraryalign_to
method works fine in both modes; under symbolic alignment it only fills the middle slice when the allocation guarantees sufficient alignment.)-Zmiri-track-alloc-id=<id>
shows a backtrace when the given allocation is being allocated or freed. This helps in debugging memory leaks and use after free bugs.-Zmiri-track-call-id=<id>
shows a backtrace when the given call id is assigned to a stack frame. This helps in debugging UB related to Stacked Borrows "protectors".-Zmiri-track-pointer-tag=<tag>
shows a backtrace when the given pointer tag is popped from a borrow stack (which is where the tag becomes invalid and any future use of it will error). This helps you in finding out why UB is happening and where in your code would be a good place to look for it.-Zmiri-track-raw-pointers
makes Stacked Borrows track a pointer tag even for raw pointers. This can make valid code fail to pass the checks, but also can help identify latent aliasing issues in code that Miri accepts by default. You can recognize false positives by "" occurring in the message -- this indicates a pointer that was cast from an integer, so Miri was unable to track this pointer.
Some native rustc -Z
flags are also very relevant for Miri:
-Zmir-opt-level
controls how many MIR optimizations are performed. Miri overrides the default to be0
; be advised that using any higher level can make Miri miss bugs in your program because they got optimized away.-Zalways-encode-mir
makes rustc dump MIR even for completely monomorphic functions. This is needed so that Miri can execute such functions, so Miri sets this flag per default.-Zmir-emit-retag
controls whetherRetag
statements are emitted. Miri enables this per default because it is needed for Stacked Borrows.
Moreover, Miri recognizes some environment variables:
MIRI_LOG
,MIRI_BACKTRACE
control logging and backtrace printing during Miri executions, also see "Testing the Miri driver" inCONTRIBUTING.md
.MIRIFLAGS
(recognized bycargo miri
and the test suite) defines extra flags to be passed to Miri.MIRI_SYSROOT
(recognized bycargo miri
and the test suite) indicates the sysroot to use. To do the same thing withmiri
directly, use the--sysroot
flag.MIRI_TEST_TARGET
(recognized by the test suite) indicates which target architecture to test against.miri
andcargo miri
accept the--target
flag for the same purpose.
The following environment variables are internal, but used to communicate between different Miri binaries, and as such worth documenting:
MIRI_BE_RUSTC
when set to any value tells the Miri driver to actually not interpret the code but compile it like rustc would. This is useful to be sure that the compiledrlib
s are compatible with Miri. When set while runningcargo-miri
, it indicates that we are part of a sysroot build (for which some crates need special treatment).MIRI_CWD
when set to any value tells the Miri driver to change to the given directory after loading all the source files, but before commencing interpretation. This is useful if the interpreted program wants a different working directory at run-time than at build-time.MIRI_VERBOSE
when set to any value tells the variouscargo-miri
phases to perform verbose logging.
Miri extern
functions
Miri provides some extern
functions that programs can import to access
Miri-specific functionality:
#[cfg(miri)]
extern "Rust" {
/// Miri-provided extern function to mark the block `ptr` points to as a "root"
/// for some static memory. This memory and everything reachable by it is not
/// considered leaking even if it still exists when the program terminates.
///
/// `ptr` has to point to the beginning of an allocated block.
fn miri_static_root(ptr: *const u8);
/// Miri-provided extern function to obtain a backtrace of the current call stack.
/// This returns a boxed slice of pointers - each pointer is an opaque value
/// that is only useful when passed to `miri_resolve_frame`
/// The `flags` argument must be `0`.
fn miri_get_backtrace(flags: u64) -> Box<[*mut ()]>;
/// Miri-provided extern function to resolve a frame pointer obtained
/// from `miri_get_backtrace`. The `flags` argument must be `0`,
/// and `MiriFrame` should be declared as follows:
///
/// ```rust
/// #[repr(C)]
/// struct MiriFrame {
/// // The name of the function being executed, encoded in UTF-8
/// name: Box<[u8]>,
/// // The filename of the function being executed, encoded in UTF-8
/// filename: Box<[u8]>,
/// // The line number currently being executed in `filename`, starting from '1'.
/// lineno: u32,
/// // The column number currently being executed in `filename`, starting from '1'.
/// colno: u32,
/// // The function pointer to the function currently being executed.
/// // This can be compared against function pointers obtained by
/// // casting a function (e.g. `my_fn as *mut ()`)
/// fn_ptr: *mut ()
/// }
/// ```
///
/// The fields must be declared in exactly the same order as they appear in `MiriFrame` above.
/// This function can be called on any thread (not just the one which obtained `frame`).
fn miri_resolve_frame(frame: *mut (), flags: u64) -> MiriFrame;
/// Miri-provided extern function to begin unwinding with the given payload.
///
/// This is internal and unstable and should not be used; we give it here
/// just to be complete.
fn miri_start_panic(payload: *mut u8) -> !;
}
Contributing and getting help
If you want to contribute to Miri, great! Please check out our contribution guide.
For help with running Miri, you can open an issue here on GitHub or use the Miri stream on the Rust Zulip.
History
This project began as part of an undergraduate research course in 2015 by
@solson at the University of Saskatchewan. There are slides and a
report available from that project. In 2016, @oli-obk joined to prepare miri
for eventually being used as const evaluator in the Rust compiler itself
(basically, for const
and static
stuff), replacing the old evaluator that
worked directly on the AST. In 2017, @RalfJung did an internship with Mozilla
and began developing miri towards a tool for detecting undefined behavior, and
also using miri as a way to explore the consequences of various possible
definitions for undefined behavior in Rust. @oli-obk's move of the miri engine
into the compiler finally came to completion in early 2018. Meanwhile, later
that year, @RalfJung did a second internship, developing miri further with
support for checking basic type invariants and verifying that references are
used according to their aliasing restrictions.
Bugs found by Miri
Miri has already found a number of bugs in the Rust standard library and beyond, which we collect here.
Definite bugs found:
Debug for vec_deque::Iter
accessing uninitialized memoryVec::into_iter
doing an unaligned ZST readFrom<&[T]> for Rc
creating a not sufficiently aligned referenceBTreeMap
creating a shared reference pointing to a too small allocationVec::append
creating a dangling reference- Futures turning a shared reference into a mutable one
str
turning a shared reference into a mutable onerand
performing unaligned reads- The Unix allocator calling
posix_memalign
in an invalid way getrandom
calling thegetrandom
syscall in an invalid wayVec
andBTreeMap
leaking memory under some (panicky) conditionsbeef
leaking memoryEbrCell
using uninitialized memory incorrectly- TiKV performing an unaligned pointer access
servo_arc
creating a dangling shared reference- TiKV constructing out-of-bounds pointers (and overlapping mutable references)
encoding_rs
doing out-of-bounds pointer arithmetic- TiKV using
Vec::from_raw_parts
incorrectly
Violations of Stacked Borrows found that are likely bugs (but Stacked Borrows is currently just an experiment):
VecDeque::drain
creating overlapping mutable references- Various
BTreeMap
problems LinkedList
cursor insertion creating overlapping mutable referencesVec::push
invalidating existing references into the vectoralign_to_mut
violating uniqueness of mutable referencessized-chunks
creating aliasing mutable referencesString::push_str
invalidating existing references into the stringryu
using raw pointers outside their valid memory area- ink! creating overlapping mutable references
- TiKV creating overlapping mutable reference and raw pointer
- Windows
Env
iterator using a raw pointer outside its valid memory area VecDeque::iter_mut
creating overlapping mutable references- Various standard library aliasing issues involving raw pointers
License
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you shall be dual licensed as above, without any additional terms or conditions.