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Former-commit-id: 76f4a121d3c2a67114414fc60e80eba4bf49aa8e [formerly b1ab47945a40e6b249c9aa205d61281301585ea6] Former-commit-id: 8e5c6e895eae22051a79a8d337a87cd2f431b6bc
4.4 KiB
Prepare WASM building environments
WASI-SDK version 7.0+ is the major tool supported by WAMR for building WASM applications. There are some other WASM compilers such as the standard clang compiler and Emscripten might also work here.
Install WASI SDK: Download the wasi-sdk and extract the archive to default path /opt/wasi-sdk
Build WASM applications
You can write a simple test.c as the first sample.
#include <stdio.h>
#include <stdlib.h>
int main(int argc, char **argv)
{
char *buf;
printf("Hello world!\n");
buf = malloc(1024);
if (!buf) {
printf("malloc buf failed\n");
return -1;
}
printf("buf ptr: %p\n", buf);
sprintf(buf, "%s", "1234\n");
printf("buf: %s", buf);
free(buf);
return 0;
}
To build the source file to WASM bytecode, input following command:
/opt/wasi-sdk/bin/clang test.c -o test.wasm
Build a project with cmake
If you have complex WASM application project which contains dozens of source files, you can consider using cmake for project building.
You can cross compile your project by using the toolchain provided by WAMR.
We can generate a CMakeLists.txt file for test.c:
cmake_minimum_required (VERSION 3.5)
project(hello_world)
set (CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS},--export=main")
add_executable(hello_world test.c)
It is simple to build this project by cmake:
mkdir build && cd build
cmake .. -DCMAKE_TOOLCHAIN_FILE=$WAMR_ROOT/wamr-sdk/app/wamr_toolchain.cmake
make
You will get hello_world which is the WASM app binary.
Note: If you have already built a SDK profile, then the DCMAKE_TOOLCHAIN_FILE should be changed into
$WAMR_ROOT/wamr-sdk/out/${PROFILE}/app-sdk/wamr_toolchain.cmake
Compile WASM to AoT module
Please ensure the wamrc was already generated and available in your shell PATH. Then we can use wamrc to compile WASM app binary to WAMR AoT binary.
wamrc -o test.aot test.wasm
wamrc supports a number of compilation options through the command line arguments:
wamrc --help
Usage: wamrc [options] -o output_file wasm_file
--target=<arch-name> Set the target arch, which has the general format: <arch><sub>
<arch> = x86_64, i386, arm, thumb, mips.
Default is host arch, e.g. x86_64
<sub> = for ex. on arm or thumb: v5, v6m, v7a, v7m, etc.
Use --target=help to list supported targets
--target-abi=<abi> Set the target ABI, e.g. gnu, eabi, gnueabihf, etc. (default: gnu)
Use --target-abi=help to list all the ABI supported
--cpu=<cpu> Set the target CPU (default: host CPU, e.g. skylake)
Use --cpu=help to list all the CPU supported
--cpu-features=<features> Enable or disable the CPU features
Use +feature to enable a feature, or -feature to disable it
For example, --cpu-features=+feature1,-feature2
Use --cpu-features=+help to list all the features supported
--opt-level=n Set the optimization level (0 to 3, default: 3, which is fastest)
--size-level=n Set the code size level (0 to 3, default: 3, which is smallest)
-sgx Generate code for SGX platform (Intel Software Guard Extention)
--format=<format> Specifies the format of the output file
The format supported:
aot (default) AoT file
object Native object file
llvmir-unopt Unoptimized LLVM IR
llvmir-opt Optimized LLVM IR
Examples: wamrc -o test.aot test.wasm
wamrc --target=i386 -o test.aot test.wasm
wamrc --target=i386 --format=object -o test.o test.wasm
Run WASM app in WAMR mini product build
Run the test.wasm or test.aot with WAMR mini product build:
./iwasm test.wasm or
./iwasm test.aot
You will get the following output:
Hello world!
buf ptr: 0x400002b0
buf: 1234
If you would like to run the test app on Zephyr, we have embedded a test sample into its OS image. You will need to execute:
ninja run