# Multiple Modules as Dependencies A WASM module can _import_ _functions_, _globals_, _memories_ and _tables_ from other modules as dependencies. A module can also _export_ those entities for other modules like a library. WAMR loads all dependencies recursively according to the _import section_ of a module. > WAMR only implements the load-time dynamic linking. Please refer to [dynamic linking](https://webassembly.org/docs/dynamic-linking/) for more details. WAMR follows [WASI Command/Reactor Model](https://github.com/WebAssembly/WASI/blob/main/legacy/application-abi.md#current-unstable-abi). The WASI model separates modules into commands and reactors. A Command is the main module that requires exports of reactors(submodules). if `WASM_ENABLE_LIBC_WASI` is enabled, any module imports a WASI APIs, like `(import "wasi_snapshot_preview1" "XXX")`, should follow restrictions of the _WASI application ABI_: - a main module(a command) should include `_start()` - a submodule(a reactor) should include `_initialize()` - both a command and a reactor should include an exported `memory` ## Multi-Module Related APIs ### Register a module ```c bool wasm_runtime_register_module(const char *module_name, wasm_module_t module, char *error_buf, uint32_t error_buf_size); ``` It is used to register a _module_ with a _module_name_ to WASM runtime, especially for the main module, which is loaded by `wasm_runtime_load()` and doesn't have a chance to tell runtime its _module name_. WAMR will get submodules' names(according to the _import section_ of the main module) and load .wasm files from the filesystem or stream and then register them internally. ### Find a registered module ```c wasm_module_t wasm_runtime_find_module_registered( const char *module_name); ``` It is used to check whether a module with a given _module_name_ has been registered before or not. Return the module if yes. ### Module reader and destroyer ```c typedef bool (*module_reader)(const char *module_name, uint8_t **p_buffer, uint32_t *p_size); typedef void (*module_destroyer)(uint8_t *buffer, uint32_t size); void wasm_runtime_set_module_reader(const module_reader reader, const module_destroyer destroyer); ``` WAMR hopes that the native host or embedding environment loads/unloads the module WASM files by themselves and only passes runtime the binary content without worrying about filesystem or storage issues. `module_reader` and `module_destroyer` are two callbacks called when dynamic-loading/unloading submodules. Developers must implement the two callbacks by themselves. ### Call function of a submodule ```c wasm_function_inst_t wasm_runtime_lookup_function(wasm_module_inst_t const module_inst, const char *name); ``` Multi-module allows one to look up an exported function of a submodule. There are two ways to indicate the function _name_: - parent function name only by default, used to look up the function of the parent module - submodule name, function name and two $ symbols, e.g. `$submodule_name$function_name`, used to lookup function of submodule - `signature` can be NULL ## Example ### Attributes in C/C++ Suppose there are three C files, _mA.c_, _mB.c_ and _mC.c_. Each of them exports functions and imports from others except mA. import/export with two kinds of `__attribute__`: - `__attribute__((import_module("MODULE_NAME"))) __attribute__((import_name("FUNCTION_NAME")))`. to indicate dependencies of the current module. - `__attribute__((export_name("FUNCTION_NAME")))`. to expose functions. ```C // mA.c __attribute__((export_name("A1"))) int A1() { return 11; } ``` ```C // mB.c __attribute__((import_module("mA"))) __attribute__((import_name("A1"))) extern int A1(); __attribute__((export_name("B1"))) int B1() { return 21; } ``` ### Compile Options to generate a wasm module as a command ``` $ /path/to/wasi-sdk/bin/clang -o command.wasm main_module.c ``` to generate a wasm module as a reactor ``` $ /path/to/wasi-sdk/bin/clang -mexec-model=reactor -o reactor.wasm submodule.c ``` In the above case, _mA_ and _mB_ are reactors(submodules), _mC_ is the command(main module). Their _import relationships_ will be like: ![import relationships](./pics/multi_module_pic1.png) ### libvmlib We need to enable _WAMR_BUILD_MULTI_MODULE_ option when building WAMR vmlib. Please ref to [Build WAMR core](./build_wamr.md) for a thoughtful guide. ### code After all the preparation, we can call some functions from native code with APIs First, create two callbacks to load WASM module files into memory and unload them later ```c static bool module_reader_cb(const char *module_name, uint8 **p_buffer, uint32 *p_size) { // ... *p_buffer = (uint8_t *)bh_read_file_to_buffer(wasm_file_path, p_size); // ... } static void module_destroyer_cb(uint8 *buffer, uint32 size) { BH_FREE(buffer); } ``` Second, create a large buffer and tell WAMR malloc any resource only from this buffer later. More details ```c static char sandbox_memory_space[10 * 1024 * 1024] = { 0 }; ``` Third, put all together. Please refer to [main.c](../samples/multi-module/src/main.c)