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Palmer Dabbelt fc662c281a target/riscv: Zero extend the inputs of divuw and remuw While running the GCC test suite against 4.0.0-rc0, Kito found a regression introduced by the decodetree conversion that caused divuw and remuw to sign-extend their inputs. The ISA manual says they are supposed to be zero extended: DIVW and DIVUW instructions are only valid for RV64, and divide the lower 32 bits of rs1 by the lower 32 bits of rs2, treating them as signed and unsigned integers respectively, placing the 32-bit quotient in rd, sign-extended to 64 bits. REMW and REMUW instructions are only valid for RV64, and provide the corresponding signed and unsigned remainder operations respectively. Both REMW and REMUW always sign-extend the 32-bit result to 64 bits, including on a divide by zero. Here's Kito's reduced test case from the GCC test suite unsigned calc_mp(unsigned mod) { unsigned a,b,c; c=-1; a=c/mod; b=0-amod; if (b > mod) { a += 1; b-=mod; } return b; } int main(int argc, char argv[]) { unsigned x = 1234; unsigned y = calc_mp(x); if ((sizeof (y) == 4 && y != 680) \|\| (sizeof (y) == 2 && y != 134)) abort (); exit (0); } I haven't done any other testing on this, but it does fix the test case. Backports commit f17e02cd3731bdfe2942d1d0b2a92f26da02408c from qemu		2019-03-26 20:38:17 -04:00
bindings	Added x86Msr functions for the go bindings (#986 )	2019-03-08 02:28:37 -05:00
docs	fix invalid script path (#975 ) (#976 )	2019-02-28 17:02:06 -05:00
include	target/riscv: Initial introduction of the RISC-V target	2019-03-08 21:46:10 -05:00
msvc	msvc: Define CONFIG_TCG	2019-01-30 13:52:30 -05:00
qemu	target/riscv: Zero extend the inputs of divuw and remuw	2019-03-26 20:38:17 -04:00
samples	target/riscv: Initial introduction of the RISC-V target	2019-03-08 21:46:10 -05:00
tests	Add missing x86_vec regression test	2019-02-28 17:08:19 -05:00
.appveyor.yml
.gitignore	target/riscv: Initial introduction of the RISC-V target	2019-03-08 21:46:10 -05:00
.travis.yml
AUTHORS.TXT
Brewfile
ChangeLog
config.mk
COPYING
COPYING.LGPL2
COPYING_GLIB
CREDITS.TXT	Adding Philippe Antoine to CREDITS	2018-10-06 04:50:10 -04:00
install-cmocka-linux.sh
list.c
make.sh
Makefile	target/riscv: Initial introduction of the RISC-V target	2019-03-08 21:46:10 -05:00
msvc.bat
pkgconfig.mk
README.md
uc.c	target/riscv: Initial introduction of the RISC-V target	2019-03-08 21:46:10 -05:00
windows_export.bat

README.md

Unicorn Engine

Unicorn is a lightweight, multi-platform, multi-architecture CPU emulator framework based on QEMU.

Unicorn offers some unparalleled features:

Multi-architecture: ARM, ARM64 (ARMv8), M68K, MIPS, SPARC, and X86 (16, 32, 64-bit)
Clean/simple/lightweight/intuitive architecture-neutral API
Implemented in pure C language, with bindings for Crystal, Clojure, Visual Basic, Perl, Rust, Ruby, Python, Java, .NET, Go, Delphi/Free Pascal and Haskell.
Native support for Windows & *nix (with Mac OSX, Linux, *BSD & Solaris confirmed)
High performance via Just-In-Time compilation
Support for fine-grained instrumentation at various levels
Thread-safety by design
Distributed under free software license GPLv2

Further information is available at http://www.unicorn-engine.org

License

This project is released under the GPL license.

Compilation & Docs

See docs/COMPILE.md file for how to compile and install Unicorn.

More documentation is available in docs/README.md.

Contact

Contribute

If you want to contribute, please pick up something from our Github issues.

We also maintain a list of more challenged problems in a TODO list.

CREDITS.TXT records important contributors of our project.