11 releases
0.1.11 | Mar 9, 2024 |
---|---|
0.1.10 | Mar 4, 2024 |
0.1.7 | Feb 13, 2024 |
0.1.5 | Jan 31, 2024 |
#4 in #strace
29 downloads per month
Used in 2 crates
380KB
11K
SLoC
pai
Process Analyzer and Instrumenter
Recommended way to include the crate, even though API is not expected to be
stable until version 0.2.0
, is:
pai = { version = "0.1", features = ["syscalls"] }
The feature syscalls
is only needed if you want to resolve the arguments of
system calls. So if you want to resolve the system call number to a name, an
argument to strings, etc.
There are some example of use under examples/
more information will be written
when the API is more stable.
Standalone tools using pai
- pai-strace - strace-like tool
- pai-inject-so - inject SO-file into process
Compilation
A regular build for native can be compiled with:
cargo build --all-features
Cross-compilation
The recommended way to cross-compile is to use cross
This is setup in Makefile.toml, so you can build for all desired targets with:
cargo make build i686-unknown-linux-gnu x86_64-unknown-linux-gnu ...
Build output from cross
will sometimes interfere with build output from
cargo
so all cross
builds will go to directory output/
, leaving target/
for regular cargo commands.
Builds will then work as expected, but most test-targets will fail because the
testing method used doesn't support ptrace
.
To run cross-architecture tests correctly see testing.md
Targets tested
We don't want to test all cross-combination of builds, but try to test all platforms supported and all architectures supported.
- platforms: GNU, Android, Musl
- architectures: x86_64, x86, Aarch64, Aarch32
The Makefile.toml target fulltest
is executed before new
versions are published.
Known issues
PTRACE_SINGLESTEP
is not working correctly onAarch32
orRiscv64
. This is a deliberate limitation ofAarch32
, I'm unsure if the same is the case forRiscv64
.- As a workaround, we insert a new breakpoint after the instruction to simulate a single-step.
- This workaround is obviously flawed as the next instruction may be a branch. This is currently not detected and the step would then be missed completely.
- This bug may appear even if you don't use single-stepping since single-stepping is used internally in those cases we need to redo something on the next instruction, like re-inserting a breakppoint.
Known cross-compilation issues
mips-unknown-linux-musl
- Presumably also for other mips targets
- https://github.com/rust-lang/rust/issues/108835#issuecomment-1636983993
- Build with:
RUSTFLAGS='-C opt-level=1' cargo build -Zbuild-std=std --target mips-unknown-linux-musl
Dependencies
~7–16MB
~244K SLoC