307 lines
12 KiB
Markdown
307 lines
12 KiB
Markdown
RISC-V GNU Compiler Toolchain
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=============================
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This is the RISC-V C and C++ cross-compiler. It supports two build modes:
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a generic ELF/Newlib toolchain and a more sophisticated Linux-ELF/glibc
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toolchain.
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### Getting the sources
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This repository uses submodules, but submodules will fetch automatically on demand,
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so `--recursive` or `git submodule update --init --recursive` is not needed.
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$ git clone https://github.com/riscv/riscv-gnu-toolchain
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**Warning: git clone takes around 6.65 GB of disk and download size**
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### Prerequisites
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Several standard packages are needed to build the toolchain.
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On Ubuntu, executing the following command should suffice:
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$ sudo apt-get install autoconf automake autotools-dev curl python3 libmpc-dev libmpfr-dev libgmp-dev gawk build-essential bison flex texinfo gperf libtool patchutils bc zlib1g-dev libexpat-dev ninja-build
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On Fedora/CentOS/RHEL OS, executing the following command should suffice:
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$ sudo yum install autoconf automake python3 libmpc-devel mpfr-devel gmp-devel gawk bison flex texinfo patchutils gcc gcc-c++ zlib-devel expat-devel
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On Arch Linux, executing the following command should suffice:
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$ sudo pacman -Syyu autoconf automake curl python3 libmpc mpfr gmp gawk base-devel bison flex texinfo gperf libtool patchutils bc zlib expat
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Also available for Arch users on the AUR: [https://aur.archlinux.org/packages/riscv-gnu-toolchain-bin](https://aur.archlinux.org/packages/riscv-gnu-toolchain-bin)
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On OS X, you can use [Homebrew](http://brew.sh) to install the dependencies:
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$ brew install python3 gawk gnu-sed gmp mpfr libmpc isl zlib expat
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$ brew tap discoteq/discoteq
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$ brew install flock
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To build the glibc (Linux) on OS X, you will need to build within a case-sensitive file
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system. The simplest approach is to create and mount a new disk image with
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a case sensitive format. Make sure that the mount point does not contain spaces. This is not necessary to build newlib or gcc itself on OS X.
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This process will start by downloading about 200 MiB of upstream sources, then
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will patch, build, and install the toolchain. If a local cache of the
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upstream sources exists in $(DISTDIR), it will be used; the default location
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is /var/cache/distfiles. Your computer will need about 8 GiB of disk space to
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complete the process.
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### Installation (Newlib)
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To build the Newlib cross-compiler, pick an install path. If you choose,
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say, `/opt/riscv`, then add `/opt/riscv/bin` to your `PATH` now. Then, simply
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run the following command:
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./configure --prefix=/opt/riscv
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make
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You should now be able to use riscv64-unknown-elf-gcc and its cousins.
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### Installation (Linux)
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To build the Linux cross-compiler, pick an install path (that is writeable.)
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If you choose, say, `/opt/riscv`, then add `/opt/riscv/bin` to your `PATH`.
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Then, simply run the following command:
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./configure --prefix=/opt/riscv
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make linux
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The build defaults to targeting RV64GC (64-bit) with glibc, even on a 32-bit
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build environment. To build the 32-bit RV32GC toolchain, use:
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./configure --prefix=/opt/riscv --with-arch=rv32gc --with-abi=ilp32d
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make linux
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In case you prefer musl libc over glibc, configure just like above and opt for
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`make musl` instead of `make linux`.
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Supported architectures are rv32i or rv64i plus standard extensions (a)tomics,
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(m)ultiplication and division, (f)loat, (d)ouble, or (g)eneral for MAFD.
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Supported ABIs are ilp32 (32-bit soft-float), ilp32d (32-bit hard-float),
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ilp32f (32-bit with single-precision in registers and double in memory, niche
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use only), lp64 lp64f lp64d (same but with 64-bit long and pointers).
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### Installation (Newlib/Linux multilib)
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To build either cross-compiler with support for both 32-bit and
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64-bit, run the following command:
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./configure --prefix=/opt/riscv --enable-multilib
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And then either `make`, `make linux` or `make musl` for the Newlib, Linux
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glibc-based or Linux musl libc-based cross-compiler, respectively.
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The multilib compiler will have the prefix riscv64-unknown-elf- or
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riscv64-unknown-linux-gnu- but will be able to target both 32-bit and 64-bit
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systems.
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It will support the most common `-march`/`-mabi` options, which can be seen by
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using the `--print-multi-lib` flag on either cross-compiler.
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The musl compiler (riscv64-unknown-linux-musl-) will only be able to target
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64-bit systems due to limitations in the upstream musl architecture support.
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The `--enable-multilib` flag therefore does not actually enable multilib support
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for musl libc.
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### Troubleshooting Build Problems
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Builds work best if installing into an empty directory. If you build a
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hard-float toolchain and then try to build a soft-float toolchain with
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the same --prefix directory, then the build scripts may get confused
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and exit with a linker error complaining that hard float code can't be
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linked with soft float code. Removing the existing toolchain first, or
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using a different prefix for the second build, avoids the problem. It
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is OK to build one newlib and one linux toolchain with the same prefix.
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But you should avoid building two newlib or two linux toolchains with
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the same prefix.
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If building a linux toolchain on a MacOS system, or on a Windows system
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using the Linux subsystem or cygwin, you must ensure that the filesystem
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is case-sensitive. A build on a case-insensitive filesystem will fail when
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building glibc because \*.os and \*.oS files will clobber each other during
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the build eventually resulting in confusing link errors.
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Centos (and RHEL) provide old GNU tools versions that may be too old to build
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a RISC-V toolchain. There is an alternate toolset provided that includes
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current versions of the GNU tools. This is the devtoolset provided as part
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of the Software Collection service. For more info, see the
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[devtoolset-7](https://www.softwarecollections.org/en/scls/rhscl/devtoolset-7/)
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URL. There are various versions of the devtoolset that are available, so you
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can also try other versions of it, but we have at least one report that
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devtoolset-7 works.
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### Advanced Options
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There are a number of additional options that may be passed to
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configure. See './configure --help' for more details.
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#### Set default ISA spec version
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`--with-isa-spec=` can specify the default version of the RISC-V Unprivileged
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(formerly User-Level) ISA specification.
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Possible options are: `2.2`, `20190608` and `20191213`.
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The default version is `2.2`.
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More details about this option you can refer this post [RISC-V GNU toolchain bumping default ISA spec to 20191213](https://groups.google.com/a/groups.riscv.org/g/sw-dev/c/aE1ZeHHCYf4).
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#### Build with customized multi-lib configure.
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`--with-multilib-generator=` can specify what multilibs to build. The argument
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is a semicolon separated list of values, possibly consisting of a single value.
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Currently only supported for riscv*-*-elf*. The accepted values and meanings
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are given below.
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Every config is constructed with four components: architecture string, ABI,
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reuse rule with architecture string and reuse rule with sub-extension.
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Re-use part support expansion operator (*) to simplify the combination of
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different sub-extensions, example 4 demonstrate how it uses and works.
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Example 1: Add multi-lib support for rv32i with ilp32.
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```
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./configure --with-multilib-generator="rv32i-ilp32--"
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```
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Example 2: Add multi-lib support for rv32i with ilp32 and rv32imafd with ilp32.
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```
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./configure --with-multilib-generator="rv32i-ilp32--;rv32imafd-ilp32--"
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```
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Example 3: Add multi-lib support for rv32i with ilp32; rv32im with ilp32 and
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rv32ic with ilp32 will reuse this multi-lib set.
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```
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./configure --with-multilib-generator="rv32i-ilp32-rv32im-c"
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```
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Example 4: Add multi-lib support for rv64ima with lp64; rv64imaf with lp64,
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rv64imac with lp64 and rv64imafc with lp64 will reuse this multi-lib set.
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```
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./configure --with-multilib-generator="rv64ima-lp64--f*c"
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```
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### Test Suite
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The Dejagnu test suite has been ported to RISC-V. This can be run with a
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simulator for the elf and linux toolchains. The simulator can be selected
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by the SIM variable in the Makefile, e.g. SIM=qemu, SIM=gdb, or SIM=spike
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(experimental).In addition, the simulator can also be selected with the
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configure time option `--with-sim=`.However, the testsuite allowlist is
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only mintained for qemu.Other simulators might get extra failures.
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To test GCC, run the following commands:
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./configure --prefix=$RISCV --disable-linux --with-arch=rv64ima # or --with-arch=rv32ima
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make newlib
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make report-newlib SIM=gdb # Run with gdb simulator
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./configure --prefix=$RISCV
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make linux
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make report-linux SIM=qemu # Run with qemu
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./configure --prefix=$RISCV --with-sim=spike
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make linux
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make report # Run with spike
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Note:
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- spike only support rv64* bare-metal/elf toolchain.
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- gdb simulator only support bare-metal/elf toolchain.
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#### Selecting the tests to run in GCC's regression test suite
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By default GCC will execute all tests of its regression test suite.
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While running them in parallel (e.g. `make -j$(nproc) report`) will
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significanlty speed up the execution time on multi-processor systems,
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the required time for executing all tests is usually too high for
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typical development cycles. Therefore GCC allows to select the tests
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that are being executed using the environment variable `RUNTESTFLAGS`.
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To restrict a test run to only RISC-V specific tests
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the following command can be used:
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RUNTESTFLAGS="riscv.exp" make report
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To to restrict a test run to only RISC-V specific tests with match the
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pattern "zb*.c" and "sm*.c" the following command can be used:
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RUNTESTFLAGS="riscv.exp=zb*.c\ sm*.c" make report
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#### Testing GCC, Binutils, and glibc of a Linux toolchain
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The default Makefile target to run toolchain tests is `report`.
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This will run all tests of the GCC regression test suite.
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Alternatively, the following command can be used to do the same:
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make check-gcc
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The following command can be used to run the Binutils tests:
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make check-binutils
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The command below can be used to run the glibc tests:
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make check-glibc-linux
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### Development
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This section is only for developer or advanced user, or you want to build
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toolchain with your own source tree.
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#### Update Source Tree
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`riscv-gnu-toolchain` contain stable but not latest source for each submodule,
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in case you want to using latest develoment tree, you can use following command
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to upgrade all submodule.
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git submodule update --remote
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Or you can upgrade specific submodule only.
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git submodule update --remote <component>
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For example, upgrade riscv-gcc only, you can using following command:
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git submodule update --remote riscv-gcc
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#### How to Check Which Branch are Used for Specific submodule
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The branch info has recorded in `.gitmodules` file, which can set or update via
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`git submodule add -b` or `git submodule set-branch`.
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However the only way to check which branch are using is to check `.gitmodules`
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file, here is the example for `riscv-gcc`, it using riscv-gcc-10.2.0 branch, so
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it will has a section named `riscv-gcc` and has a field `branch` is
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`riscv-gcc-10.2.0`.
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```
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[submodule "riscv-gcc"]
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path = riscv-gcc
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url = ../riscv-gcc.git
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branch = riscv-gcc-10.2.0
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```
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#### Use Source Tree Other Than `riscv-gnu-toolchain`
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`riscv-gnu-toolchain` also support using out-of-tree source to build toolchain,
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there is couple configure option to specify the source tree of each
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submodule/component.
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For example you have a gcc in `$HOME/gcc`, use `--with-gcc-src` can specify that:
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./configure --with-gcc-src=$HOME/gcc
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Here is the list of configure option for specify source tree:
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--with-gcc-src
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--with-binutils-src
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--with-newlib-src
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--with-glibc-src
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--with-musl-src
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--with-gdb-src
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--with-linux-headers-src
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--with-qemu-src
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--with-spike-src
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--with-pk-src
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