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1. Rename 'loongson3.c' to 'virt.c' and change the meson.build file. 2. Rename 'loongson3.rst' to 'virt.rst'. Signed-off-by: Xiaojuan Yang <yangxiaojuan@loongson.cn> Message-Id: <20220729073018.27037-2-yangxiaojuan@loongson.cn> Signed-off-by: Richard Henderson <richard.henderson@linaro.org> |
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insn_trans | ||
constant_timer.c | ||
cpu-csr.h | ||
cpu-param.h | ||
cpu.c | ||
cpu.h | ||
csr_helper.c | ||
disas.c | ||
fpu_helper.c | ||
gdbstub.c | ||
helper.h | ||
insns.decode | ||
internals.h | ||
iocsr_helper.c | ||
Kconfig | ||
machine.c | ||
meson.build | ||
op_helper.c | ||
README | ||
tlb_helper.c | ||
translate.c | ||
translate.h |
- Introduction LoongArch is the general processor architecture of Loongson. The following versions of the LoongArch core are supported core: 3A5000 https://github.com/loongson/LoongArch-Documentation/releases/download/2021.08.17/LoongArch-Vol1-v1.00-EN.pdf We can get the latest loongarch documents at https://github.com/loongson/LoongArch-Documentation/tags. - System emulation Mainly emulate a virt 3A5000 board and ls7a bridge that is not exactly the same as the host. 3A5000 support multiple interrupt cascading while here we just emulate the extioi interrupt cascading. LS7A1000 host bridge support multiple devices, such as sata, gmac, uart, rtc and so on. But we just realize the rtc. Others use the qemu common devices. It does not affect the general use. We also introduced the emulation of devices at docs/system/loongarch/virt.rst. This version only supports running binary files in ELF format, and does not depend on BIOS and kernel file. You can compile the test program with 'make & make check-tcg' and run the test case with the following command: 1. Install LoongArch cross-tools on X86 machines. Download cross-tools. wget https://github.com/loongson/build-tools/releases/download/2022.05.29/loongarch64-clfs-5.0-cross-tools-gcc-full.tar.xz tar -vxf loongarch64-clfs-5.0-cross-tools-gcc-full.tar.xz -C /opt Config cross-tools env. . setenv.sh setenv.sh: #!/bin/sh set -x CC_PREFIX=/opt/cross-tools export PATH=$CC_PREFIX/bin:$PATH export LD_LIBRARY_PATH=$CC_PREFIX/lib:$LD_LIBRARY_PATH export LD_LIBRARY_PATH=$CC_PREFIX/loongarch64-unknown-linux-gnu/lib/:$LD_LIBRARY_PATH set +x 2. Test tests/tcg/multiarch. ./configure --disable-rdma --disable-pvrdma --prefix=/usr \ --target-list="loongarch64-softmmu" \ --disable-libiscsi --disable-libnfs --disable-libpmem \ --disable-glusterfs --enable-libusb --enable-usb-redir \ --disable-opengl --disable-xen --enable-spice --disable-werror \ --enable-debug --disable-capstone --disable-kvm --enable-profiler cd build/ make && make check-tcg or ./build/qemu-system-loongarch64 -machine virt -m 4G -cpu Loongson-3A5000 -smp 1 -kernel build/tests/tcg/loongarch64-softmmu/hello -monitor none -display none -chardev file,path=hello.out,id=output -serial chardev:output - Linux-user emulation We already support Linux user emulation. We can use LoongArch cross-tools to build LoongArch executables on X86 machines, and We can also use qemu-loongarch64 to run LoongArch executables. 1. Config cross-tools env. see System emulation. 2. Test tests/tcg/multiarch. ./configure --static --prefix=/usr --disable-werror --target-list="loongarch64-linux-user" --enable-debug cd build make && make check-tcg 3. Run LoongArch system basic command with loongarch-clfs-system. - Config clfs env. wget https://github.com/loongson/build-tools/releases/download/2022.05.29/loongarch64-clfs-system-5.0.tar.bz2 tar -vxf loongarch64-clfs-system-5.0.tar.bz2 -C /opt/clfs cp /opt/clfs/lib64/ld-linux-loongarch-lp64d.so.1 /lib64 export LD_LIBRARY_PATH="/opt/clfs/lib64" - Run LoongArch system basic command. ./qemu-loongarch64 /opt/clfs/usr/bin/bash ./qemu-loongarch64 /opt/clfs/usr/bin/ls ./qemu-loongarch64 /opt/clfs/usr/bin/pwd - Note. We can get the latest LoongArch documents or LoongArch tools at https://github.com/loongson/