This sample demonstrates how to write required interfaces in native library, build it into a shared library and register the shared library to iwasm.
The native library should provide get_native_lib
API for iwasm to return the native library info, including the module name, the native symbol list and the native symbol count, so that iwasm can use them to regiter the native library, for example:
static int
foo_wrapper(wasm_exec_env_t exec_env, int x, int y)
{
return x + y;
}
#define REG_NATIVE_FUNC(func_name, signature) \
{ #func_name, func_name##_wrapper, signature, NULL }
static NativeSymbol native_symbols[] = {
REG_NATIVE_FUNC(foo, "(ii)i")
};
uint32_t
get_native_lib(char **p_module_name, NativeSymbol **p_native_symbols)
{
*p_module_name = "env";
*p_native_symbols = native_symbols;
return sizeof(native_symbols) / sizeof(NativeSymbol);
}
Please install WASI SDK, download the wasi-sdk release and extract the archive to default path /opt/wasi-sdk
.
mkdir build
cd build
cmake ..
make
iwasm
, one wasm module test.wasm
and two shared libraries libtest_add.so
, libtest_sqrt.so
will be generated.
cd build
./iwasm --native-lib=./libtest_add.so --native-lib=./libtest_sqrt.so --native-lib=./libtest_hello.so --native-lib=./libtest_hello2.so wasm-app/test.wasm
cd build
./iwasm --native-lib=libtest_add.dylib --native-lib=libtest_sqrt.dylib --native-lib=libtest_hello.dylib --native-lib=libtest_hello2.dylib wasm-app/test.wasm
The output is:
init_native_lib in test_hello2.c called
Hello World!
10 + 20 = 30
sqrt(10, 20) = 500
test_hello("main", 0x0, 0) = 41
malloc(42) = 0x24e8
test_hello("main", 0x24e8, 42) = 41
Message from test_hello: Hello, main. This is test_hello_wrapper!
test_hello2("main", 0x0, 0) = 85
malloc(86) = 0x24e8
test_hello2("main", 0x24e8, 86) = 85
Message from test_hello2: Hello, main. This is test_hello2_wrapper! Your wasm_module_inst_t is 0x7fe0e6804280.
deinit_native_lib in test_hello2.c called