# Wasmer Engine Staticlib This is an [engine](https://crates.io/crates/wasmer-engine) for the [wasmer](https://crates.io/crates/wasmer) WebAssembly VM. This engine is used to produce a native static object library that can be linked against providing a sandboxed WebAssembly runtime environment for the compiled module with no need for runtime compilation. ## Example of use First we compile our WebAssembly file with Wasmer ```sh wasmer compile path/to/wasm/file.wasm --llvm --staticlib -o my_wasm.o --header my_wasm.h ``` You will then see output like: ``` Engine: staticlib Compiler: llvm Target: x86_64-apple-darwin ✔ File compiled successfully to `my_wasm.o`. ✔ Header file generated successfully at `my_wasm.h`. ``` Now let's create a program to link with this static object file. ```c #include "wasmer.h" #include "my_wasm.h" #include #include #define own static void print_wasmer_error() { int error_len = wasmer_last_error_length(); printf("Error len: `%d`\n", error_len); char* error_str = (char*) malloc(error_len); wasmer_last_error_message(error_str, error_len); printf("Error str: `%s`\n", error_str); free(error_str); } int main() { printf("Initializing...\n"); wasm_config_t* config = wasm_config_new(); wasm_config_set_engine(config, STATICLIB); wasm_engine_t* engine = wasm_engine_new_with_config(config); wasm_store_t* store = wasm_store_new(engine); wasm_module_t* module = wasmer_staticlib_engine_new(store, "qjs.wasm"); if (!module) { printf("Failed to create module\n"); print_wasmer_error(); return -1; } // We have now finished the memory buffer book keeping and we have a valid Module. // In this example we're passing some JavaScript source code as a command line argument // to a WASI module that can evaluate JavaScript. wasi_config_t* wasi_config = wasi_config_new("constant_value_here"); const char* js_string = "function greet(name) { return JSON.stringify('Hello, ' + name); }; print(greet('World'));"; wasi_config_arg(wasi_config, "--eval"); wasi_config_arg(wasi_config, js_string); wasi_env_t* wasi_env = wasi_env_new(wasi_config); if (!wasi_env) { printf("> Error building WASI env!\n"); print_wasmer_error(); return 1; } wasm_importtype_vec_t import_types; wasm_module_imports(module, &import_types); int num_imports = import_types.size; wasm_extern_t** imports = (wasm_extern_t**) malloc(num_imports * sizeof(wasm_extern_t*)); wasm_importtype_vec_delete(&import_types); bool get_imports_result = wasi_get_imports(store, module, wasi_env, imports); wasi_env_delete(wasi_env); if (!get_imports_result) { printf("> Error getting WASI imports!\n"); print_wasmer_error(); return 1; } wasm_instance_t* instance = wasm_instance_new(store, module, (const wasm_extern_t* const*) imports, NULL); if (! instance) { printf("Failed to create instance\n"); print_wasmer_error(); return -1; } // WASI is now set up. own wasm_func_t* start_function = wasi_get_start_function(instance); if (!start_function) { fprintf(stderr, "`_start` function not found\n"); print_wasmer_error(); return -1; } fflush(stdout); own wasm_trap_t* trap = wasm_func_call(start_function, NULL, NULL); if (trap) { fprintf(stderr, "Trap is not NULL: TODO:\n"); return -1; } wasm_instance_delete(instance); wasm_module_delete(module); wasm_store_delete(store); wasm_engine_delete(engine); return 0; } ``` We save that source code into `test.c` and run: ```sh clang -O2 -c test.c -o test.o ``` Now we just need to link everything together: ```sh clang -O2 test.o my_wasm.o libwasmer.a ``` We link the static object file we created with our C code, the object file we generated with Wasmer, and `libwasmer` together and produce an executable that can call into our compiled WebAssembly!