// The Wasmer C/C++ header file. #if !defined(WASMER_H_PRELUDE) #define WASMER_H_PRELUDE // Define the `ARCH_X86_X64` constant. #if defined(MSVC) && defined(_M_AMD64) # define ARCH_X86_64 #elif (defined(GCC) || defined(__GNUC__) || defined(__clang__)) && defined(__x86_64__) # define ARCH_X86_64 #endif // Compatibility with non-Clang compilers. #if !defined(__has_attribute) # define __has_attribute(x) 0 #endif // Compatibility with non-Clang compilers. #if !defined(__has_declspec_attribute) # define __has_declspec_attribute(x) 0 #endif // Define the `DEPRECATED` macro. #if defined(GCC) || defined(__GNUC__) || __has_attribute(deprecated) # define DEPRECATED(message) __attribute__((deprecated(message))) #elif defined(MSVC) || __has_declspec_attribute(deprecated) # define DEPRECATED(message) __declspec(deprecated(message)) #endif // The `wasi` feature has been enabled for this build. #define WASMER_WASI_ENABLED // This file corresponds to the following Wasmer version. #define WASMER_VERSION "1.0.1" #define WASMER_VERSION_MAJOR 1 #define WASMER_VERSION_MINOR 0 #define WASMER_VERSION_PATCH 1 #define WASMER_VERSION_PRE "" #endif // WASMER_H_PRELUDE // // OK, here we go. The code below is automatically generated. // #ifndef WASMER_H #define WASMER_H #include #include #include #include #include #if defined(WASMER_WASI_ENABLED) enum class Version : uint8_t { #if defined(WASMER_WASI_ENABLED) /// Version cannot be detected or is unknown. Unknown = 0, #endif #if defined(WASMER_WASI_ENABLED) /// Latest version. See `wasmer_wasi::WasiVersion::Latest` to /// learn more. Latest = 1, #endif #if defined(WASMER_WASI_ENABLED) /// `wasi_unstable`. Snapshot0 = 2, #endif #if defined(WASMER_WASI_ENABLED) /// `wasi_snapshot_preview1`. Snapshot1 = 3, #endif }; #endif /// List of export/import kinds. enum class wasmer_import_export_kind : uint32_t { /// The export/import is a function. WASM_FUNCTION = 0, /// The export/import is a global. WASM_GLOBAL = 1, /// The export/import is a memory. WASM_MEMORY = 2, /// The export/import is a table. WASM_TABLE = 3, }; /// The `wasmer_result_t` enum is a type that represents either a /// success, or a failure. enum class wasmer_result_t { /// Represents a success. WASMER_OK = 1, /// Represents a failure. WASMER_ERROR = 2, }; /// Represents all possibles WebAssembly value types. /// /// See `wasmer_value_t` to get a complete example. enum class wasmer_value_tag : uint32_t { /// Represents the `i32` WebAssembly type. WASM_I32, /// Represents the `i64` WebAssembly type. WASM_I64, /// Represents the `f32` WebAssembly type. WASM_F32, /// Represents the `f64` WebAssembly type. WASM_F64, }; struct wasmer_module_t { }; /// Opaque pointer to an Instance type plus metadata. /// /// This type represents a WebAssembly instance. It /// is generally generated by the `wasmer_instantiate()` function, or by /// the `wasmer_module_instantiate()` function for the most common paths. struct wasmer_instance_t { }; struct wasmer_byte_array { const uint8_t *bytes; uint32_t bytes_len; }; #if defined(WASMER_EMSCRIPTEN_ENABLED) /// Type used to construct an import_object_t with Emscripten imports. struct wasmer_emscripten_globals_t { }; #endif struct wasmer_import_object_t { }; /// Opaque pointer to `NamedExportDescriptor`. struct wasmer_export_descriptor_t { }; /// Opaque pointer to `NamedExportDescriptors`. struct wasmer_export_descriptors_t { }; /// Opaque pointer to `wasmer_export_t`. struct wasmer_export_func_t { }; /// Represents a WebAssembly value. /// /// This is a [Rust union][rust-union], which is equivalent to the C /// union. See `wasmer_value_t` to get a complete example. /// /// [rust-union]: https://doc.rust-lang.org/reference/items/unions.html union wasmer_value { int32_t I32; int64_t I64; float F32; double F64; }; /// Represents a WebAssembly type and value pair, /// i.e. `wasmer_value_tag` and `wasmer_value`. Since the latter is an /// union, it's the safe way to read or write a WebAssembly value in /// C. /// /// Example: /// /// ```c /// // Create a WebAssembly value. /// wasmer_value_t wasm_value = { /// .tag = WASM_I32, /// .value.I32 = 42, /// }; /// /// // Read a WebAssembly value. /// if (wasm_value.tag == WASM_I32) { /// int32_t x = wasm_value.value.I32; /// // … /// } /// ``` struct wasmer_value_t { /// The value type. wasmer_value_tag tag; /// The value. wasmer_value value; }; /// Opaque pointer to `ImportType`. struct wasmer_export_t { }; /// Opaque pointer to a `wasmer_vm::Memory` value in Rust. /// /// A `wasmer_vm::Memory` represents a WebAssembly memory. It is /// possible to create one with `wasmer_memory_new()` and pass it as /// imports of an instance, or to read it from exports of an instance /// with `wasmer_export_to_memory()`. struct wasmer_memory_t { }; /// Opaque pointer to the opaque structure /// `crate::deprecated::NamedExports`, which is a wrapper around a /// vector of the opaque structure `crate::deprecated::NamedExport`. /// /// Check the `wasmer_instance_exports()` function to learn more. struct wasmer_exports_t { }; struct wasmer_global_t { }; struct wasmer_global_descriptor_t { bool mutable_; wasmer_value_tag kind; }; struct wasmer_import_descriptor_t { }; struct wasmer_import_descriptors_t { }; struct wasmer_import_func_t { }; struct wasmer_table_t { }; /// Union of import/export value. union wasmer_import_export_value { const wasmer_import_func_t *func; const wasmer_table_t *table; const wasmer_memory_t *memory; const wasmer_global_t *global; }; struct wasmer_import_t { wasmer_byte_array module_name; wasmer_byte_array import_name; wasmer_import_export_kind tag; wasmer_import_export_value value; }; struct wasmer_import_object_iter_t { }; /// Opaque pointer to a `wasmer_vm::Ctx` value in Rust. /// /// An instance context is passed to any host function (aka imported /// function) as the first argument. It is necessary to read the /// instance data or the memory, respectively with the /// `wasmer_instance_context_data_get()` function, and the /// `wasmer_instance_context_memory()` function. /// /// It is also possible to get the instance context outside a host /// function by using the `wasmer_instance_context_get()` /// function. See also `wasmer_instance_context_data_set()` to set the /// instance context data. /// /// Example: /// /// ```c /// // A host function that prints data from the WebAssembly memory to /// // the standard output. /// void print(wasmer_instance_context_t *context, int32_t pointer, int32_t length) { /// // Use `wasmer_instance_context` to get back the first instance memory. /// const wasmer_memory_t *memory = wasmer_instance_context_memory(context, 0); /// /// // Continue… /// } /// ``` struct wasmer_instance_context_t { }; /// The `wasmer_limit_option_t` struct represents an optional limit /// for `wasmer_limits_t`. struct wasmer_limit_option_t { /// Whether the limit is set. bool has_some; /// The limit value. uint32_t some; }; /// The `wasmer_limits_t` struct is a type that describes the limits of something /// such as a memory or a table. See the `wasmer_memory_new()` function to get /// more information. struct wasmer_limits_t { /// The minimum number of allowed pages. uint32_t min; /// The maximum number of allowed pages. wasmer_limit_option_t max; }; struct wasmer_serialized_module_t { }; #if defined(WASMER_WASI_ENABLED) /// Opens a directory that's visible to the WASI module as `alias` but /// is backed by the host file at `host_file_path` struct wasmer_wasi_map_dir_entry_t { /// What the WASI module will see in its virtual root wasmer_byte_array alias; /// The backing file that the WASI module will interact with via the alias wasmer_byte_array host_file_path; }; #endif extern "C" { /// Creates a new Module from the given wasm bytes. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_compile(wasmer_module_t **module, uint8_t *wasm_bytes, uint32_t wasm_bytes_len); #if defined(WASMER_EMSCRIPTEN_ENABLED) /// Convenience function for setting up arguments and calling the Emscripten /// main function. /// /// WARNING: /// /// Do not call this function on untrusted code when operating without /// additional sandboxing in place. /// Emscripten has access to many host system calls and therefore may do very /// bad things. wasmer_result_t wasmer_emscripten_call_main(wasmer_instance_t *instance, const wasmer_byte_array *args, unsigned int args_len); #endif #if defined(WASMER_EMSCRIPTEN_ENABLED) /// Destroy `wasmer_emscrpten_globals_t` created by /// `wasmer_emscripten_get_emscripten_globals`. void wasmer_emscripten_destroy_globals(wasmer_emscripten_globals_t *globals); #endif #if defined(WASMER_EMSCRIPTEN_ENABLED) /// Create a `wasmer_import_object_t` with Emscripten imports, use /// `wasmer_emscripten_get_emscripten_globals` to get a /// `wasmer_emscripten_globals_t` from a `wasmer_module_t`. /// /// WARNING: /// /// This `import_object_t` contains thin-wrappers around host system calls. /// Do not use this to execute untrusted code without additional sandboxing. wasmer_import_object_t *wasmer_emscripten_generate_import_object(wasmer_emscripten_globals_t *globals); #endif #if defined(WASMER_EMSCRIPTEN_ENABLED) /// Create a `wasmer_emscripten_globals_t` from a Wasm module. wasmer_emscripten_globals_t *wasmer_emscripten_get_globals(const wasmer_module_t *module); #endif #if defined(WASMER_EMSCRIPTEN_ENABLED) /// Execute global constructors (required if the module is compiled from C++) /// and sets up the internal environment. /// /// This function sets the data pointer in the same way that /// [`wasmer_instance_context_data_set`] does. wasmer_result_t wasmer_emscripten_set_up(wasmer_instance_t *instance, wasmer_emscripten_globals_t *globals); #endif /// Gets export descriptor kind wasmer_import_export_kind wasmer_export_descriptor_kind(wasmer_export_descriptor_t *export_); /// Gets name for the export descriptor wasmer_byte_array wasmer_export_descriptor_name(wasmer_export_descriptor_t *export_descriptor); /// Gets export descriptors for the given module /// /// The caller owns the object and should call `wasmer_export_descriptors_destroy` to free it. void wasmer_export_descriptors(const wasmer_module_t *module, wasmer_export_descriptors_t **export_descriptors); /// Frees the memory for the given export descriptors void wasmer_export_descriptors_destroy(wasmer_export_descriptors_t *export_descriptors); /// Gets export descriptor by index wasmer_export_descriptor_t *wasmer_export_descriptors_get(wasmer_export_descriptors_t *export_descriptors, int idx); /// Gets the length of the export descriptors int wasmer_export_descriptors_len(wasmer_export_descriptors_t *exports); /// Calls a `func` with the provided parameters. /// Results are set using the provided `results` pointer. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_export_func_call(const wasmer_export_func_t *func, const wasmer_value_t *params, unsigned int params_len, wasmer_value_t *results, unsigned int results_len); /// Sets the params buffer to the parameter types of the given wasmer_export_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_export_func_params(const wasmer_export_func_t *func, wasmer_value_tag *params, uint32_t params_len); /// Sets the result parameter to the arity of the params of the wasmer_export_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_export_func_params_arity(const wasmer_export_func_t *func, uint32_t *result); /// Sets the returns buffer to the parameter types of the given wasmer_export_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_export_func_returns(const wasmer_export_func_t *func, wasmer_value_tag *returns, uint32_t returns_len); /// Sets the result parameter to the arity of the returns of the wasmer_export_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_export_func_returns_arity(const wasmer_export_func_t *func, uint32_t *result); /// Gets wasmer_export kind wasmer_import_export_kind wasmer_export_kind(wasmer_export_t *export_); /// Gets name from wasmer_export wasmer_byte_array wasmer_export_name(wasmer_export_t *export_); /// Gets export func from export const wasmer_export_func_t *wasmer_export_to_func(const wasmer_export_t *export_); /// Gets a memory pointer from an export pointer. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_export_to_memory(const wasmer_export_t *export_, wasmer_memory_t **memory); /// Frees the memory for the given exports. /// /// Check the `wasmer_instance_exports()` function to get a complete /// example. /// /// If `exports` is a null pointer, this function does nothing. /// /// Example: /// /// ```c /// // Get some exports. /// wasmer_exports_t *exports = NULL; /// wasmer_instance_exports(instance, &exports); /// /// // Destroy the exports. /// wasmer_exports_destroy(exports); /// ``` void wasmer_exports_destroy(wasmer_exports_t *exports); /// Gets wasmer_export by index wasmer_export_t *wasmer_exports_get(wasmer_exports_t *exports, int idx); /// Gets the length of the exports int wasmer_exports_len(wasmer_exports_t *exports); /// Frees memory for the given Global void wasmer_global_destroy(wasmer_global_t *global); /// Gets the value stored by the given Global wasmer_value_t wasmer_global_get(wasmer_global_t *global); /// Returns a descriptor (type, mutability) of the given Global wasmer_global_descriptor_t wasmer_global_get_descriptor(wasmer_global_t *global); /// Creates a new Global and returns a pointer to it. /// The caller owns the object and should call `wasmer_global_destroy` to free it. wasmer_global_t *wasmer_global_new(wasmer_value_t value, bool mutable_); /// Sets the value stored by the given Global void wasmer_global_set(wasmer_global_t *global, wasmer_value_t value); /// Gets export descriptor kind wasmer_import_export_kind wasmer_import_descriptor_kind(wasmer_import_descriptor_t *export_); /// Gets module name for the import descriptor wasmer_byte_array wasmer_import_descriptor_module_name(wasmer_import_descriptor_t *import_descriptor); /// Gets name for the import descriptor wasmer_byte_array wasmer_import_descriptor_name(wasmer_import_descriptor_t *import_descriptor); /// Gets import descriptors for the given module /// /// The caller owns the object and should call `wasmer_import_descriptors_destroy` to free it. void wasmer_import_descriptors(const wasmer_module_t *module, wasmer_import_descriptors_t **import_descriptors); /// Frees the memory for the given import descriptors void wasmer_import_descriptors_destroy(wasmer_import_descriptors_t *import_descriptors); /// Gets import descriptor by index wasmer_import_descriptor_t *wasmer_import_descriptors_get(wasmer_import_descriptors_t *import_descriptors, unsigned int idx); /// Gets the length of the import descriptors unsigned int wasmer_import_descriptors_len(wasmer_import_descriptors_t *exports); /// Frees memory for the given Func void wasmer_import_func_destroy(wasmer_import_func_t *func); /// Creates new host function, aka imported function. `func` is a /// function pointer, where the first argument is the famous `vm::Ctx` /// (in Rust), or `wasmer_instance_context_t` (in C). All arguments /// must be typed with compatible WebAssembly native types: /// /// | WebAssembly type | C/C++ type | /// | ---------------- | ---------- | /// | `i32` | `int32_t` | /// | `i64` | `int64_t` | /// | `f32` | `float` | /// | `f64` | `double` | /// /// The function pointer must have a lifetime greater than the /// WebAssembly instance lifetime. /// /// The caller owns the object and should call /// `wasmer_import_func_destroy` to free it. wasmer_import_func_t *wasmer_import_func_new(void (*func)(void *data), const wasmer_value_tag *params, unsigned int params_len, const wasmer_value_tag *returns, unsigned int returns_len); /// Sets the params buffer to the parameter types of the given wasmer_import_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_import_func_params(const wasmer_import_func_t *func, wasmer_value_tag *params, unsigned int params_len); /// Sets the result parameter to the arity of the params of the wasmer_import_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_import_func_params_arity(const wasmer_import_func_t *func, uint32_t *result); /// Sets the returns buffer to the parameter types of the given wasmer_import_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_import_func_returns(const wasmer_import_func_t *func, wasmer_value_tag *returns, unsigned int returns_len); /// Sets the result parameter to the arity of the returns of the wasmer_import_func_t /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_import_func_returns_arity(const wasmer_import_func_t *func, uint32_t *result); /// Frees memory of the given ImportObject void wasmer_import_object_destroy(wasmer_import_object_t *import_object); /// Extends an existing import object with new imports wasmer_result_t wasmer_import_object_extend(wasmer_import_object_t *import_object, const wasmer_import_t *imports, unsigned int imports_len); /// Gets an entry from an ImportObject at the name and namespace. /// Stores `name`, `namespace`, and `import_export_value` in `import`. /// Thus these must remain valid for the lifetime of `import`. /// /// The caller owns all data involved. /// `import_export_value` will be written to based on `tag`. wasmer_result_t wasmer_import_object_get_import(const wasmer_import_object_t *import_object, wasmer_byte_array namespace_, wasmer_byte_array name, wasmer_import_t *import, wasmer_import_export_value *import_export_value, uint32_t tag); /// Frees the memory allocated in `wasmer_import_object_iter_next` /// /// This function does not free the memory in `wasmer_import_object_t`; /// it only frees memory allocated while querying a `wasmer_import_object_t`. void wasmer_import_object_imports_destroy(wasmer_import_t *imports, uint32_t imports_len); /// Returns true if further calls to `wasmer_import_object_iter_next` will /// not return any new data bool wasmer_import_object_iter_at_end(wasmer_import_object_iter_t *import_object_iter); /// Frees the memory allocated by `wasmer_import_object_iterate_functions` void wasmer_import_object_iter_destroy(wasmer_import_object_iter_t *import_object_iter); /// Writes the next value to `import`. `WASMER_ERROR` is returned if there /// was an error or there's nothing left to return. /// /// To free the memory allocated here, pass the import to `wasmer_import_object_imports_destroy`. /// To check if the iterator is done, use `wasmer_import_object_iter_at_end`. wasmer_result_t wasmer_import_object_iter_next(wasmer_import_object_iter_t *import_object_iter, wasmer_import_t *import); /// Create an iterator over the functions in the import object. /// Get the next import with `wasmer_import_object_iter_next` /// Free the iterator with `wasmer_import_object_iter_destroy` wasmer_import_object_iter_t *wasmer_import_object_iterate_functions(const wasmer_import_object_t *import_object); /// Creates a new empty import object. /// See also `wasmer_import_object_append` wasmer_import_object_t *wasmer_import_object_new(); /// Calls an exported function of a WebAssembly instance by `name` /// with the provided parameters. The exported function results are /// stored on the provided `results` pointer. /// /// This function returns `wasmer_result_t::WASMER_OK` upon success, /// `wasmer_result_t::WASMER_ERROR` otherwise. You can use /// `wasmer_last_error_message()` to get the generated error message. /// /// Potential errors are the following: /// /// * `instance` is a null pointer, /// * `name` is a null pointer, /// * `params` is a null pointer. /// /// Example of calling an exported function that needs two parameters, and returns one value: /// /// ```c /// // First argument. /// wasmer_value_t argument_one = { /// .tag = WASM_I32, /// .value.I32 = 3, /// }; /// /// // Second argument. /// wasmer_value_t argument_two = { /// .tag = WASM_I32, /// .value.I32 = 4, /// }; /// /// // First result. /// wasmer_value_t result_one; /// /// // All arguments and results. /// wasmer_value_t arguments[] = {argument_one, argument_two}; /// wasmer_value_t results[] = {result_one}; /// /// wasmer_result_t call_result = wasmer_instance_call( /// instance, // instance pointer /// "sum", // the exported function name /// arguments, // the arguments /// 2, // the number of arguments /// results, // the results /// 1 // the number of results /// ); /// /// if (call_result == WASMER_OK) { /// printf("Result is: %d\n", results[0].value.I32); /// } /// ``` wasmer_result_t wasmer_instance_call(wasmer_instance_t *instance, const char *name, const wasmer_value_t *params, uint32_t params_len, wasmer_value_t *results, uint32_t results_len); /// Gets the data that can be hold by an instance. /// /// This function is complementary of /// `wasmer_instance_context_data_set()`. Please read its /// documentation. You can also read the documentation of /// `wasmer_instance_context_t` to get other examples. /// /// This function returns nothing if `ctx` is a null pointer. void *wasmer_instance_context_data_get(const wasmer_instance_context_t *ctx); /// Sets the data that can be hold by an instance context. /// /// An instance context (represented by the opaque /// `wasmer_instance_context_t` structure) can hold user-defined /// data. This function sets the data. This function is complementary /// of `wasmer_instance_context_data_get()`. /// /// This function does nothing if `instance` is a null pointer. /// /// Example: /// /// ```c /// // Define your own data. /// typedef struct { /// // … /// } my_data; /// /// // Allocate them and set them on the given instance. /// my_data *data = malloc(sizeof(my_data)); /// data->… = …; /// wasmer_instance_context_data_set(instance, (void*) data); /// /// // You can read your data. /// { /// my_data *data = (my_data*) wasmer_instance_context_data_get(wasmer_instance_context_get(instance)); /// // … /// } /// ``` void wasmer_instance_context_data_set(wasmer_instance_t *instance, void *data_ptr); /// Returns the instance context. Learn more by looking at the /// `wasmer_instance_context_t` struct. /// /// This function returns `null` if `instance` is a null pointer. /// /// Example: /// /// ```c /// const wasmer_instance_context_get *context = wasmer_instance_context_get(instance); /// my_data *data = (my_data *) wasmer_instance_context_data_get(context); /// // Do something with `my_data`. /// ``` /// /// It is often useful with `wasmer_instance_context_data_set()`. const wasmer_instance_context_t *wasmer_instance_context_get(wasmer_instance_t *instance); /// Gets the `memory_idx`th memory of the instance. /// /// Note that the index is always `0` until multiple memories are supported. /// /// This function is mostly used inside host functions (aka imported /// functions) to read the instance memory. /// /// Example of a _host function_ that reads and prints a string based on a pointer and a length: /// /// ```c /// void print_string(const wasmer_instance_context_t *context, int32_t pointer, int32_t length) { /// // Get the 0th memory. /// const wasmer_memory_t *memory = wasmer_instance_context_memory(context, 0); /// /// // Get the memory data as a pointer. /// uint8_t *memory_bytes = wasmer_memory_data(memory); /// /// // Print what we assumed to be a string! /// printf("%.*s", length, memory_bytes + pointer); /// } /// ``` const wasmer_memory_t *wasmer_instance_context_memory(const wasmer_instance_context_t *ctx, uint32_t _memory_idx); /// Frees memory for the given `wasmer_instance_t`. /// /// Check the `wasmer_instantiate()` function to get a complete /// example. /// /// If `instance` is a null pointer, this function does nothing. /// /// Example: /// /// ```c /// // Get an instance. /// wasmer_instance_t *instance = NULL; /// wasmer_instantiate(&instance, bytes, bytes_length, imports, 0); /// /// // Destroy the instance. /// wasmer_instance_destroy(instance); /// ``` void wasmer_instance_destroy(wasmer_instance_t *instance); /// Gets all the exports of the given WebAssembly instance. /// /// This function stores a Rust vector of exports into `exports` as an /// opaque pointer of kind `wasmer_exports_t`. /// /// As is, you can do anything with `exports` except using the /// companion functions, like `wasmer_exports_len()`, /// `wasmer_exports_get()` or `wasmer_export_kind()`. See the example below. /// /// **Warning**: The caller owns the object and should call /// `wasmer_exports_destroy()` to free it. /// /// Example: /// /// ```c /// // Get the exports. /// wasmer_exports_t *exports = NULL; /// wasmer_instance_exports(instance, &exports); /// /// // Get the number of exports. /// int exports_length = wasmer_exports_len(exports); /// printf("Number of exports: %d\n", exports_length); /// /// // Read the first export. /// wasmer_export_t *export = wasmer_exports_get(exports, 0); /// /// // Get the kind of the export. /// wasmer_import_export_kind export_kind = wasmer_export_kind(export); /// /// // Assert it is a function (why not). /// assert(export_kind == WASM_FUNCTION); /// /// // Read the export name. /// wasmer_byte_array name_bytes = wasmer_export_name(export); /// /// assert(name_bytes.bytes_len == sizeof("sum") - 1); /// assert(memcmp(name_bytes.bytes, "sum", sizeof("sum") - 1) == 0); /// /// // Destroy the exports. /// wasmer_exports_destroy(exports); /// ``` void wasmer_instance_exports(wasmer_instance_t *instance, wasmer_exports_t **exports); /// Creates a new WebAssembly instance from the given bytes and imports. /// /// The result is stored in the first argument `instance` if /// successful, i.e. when the function returns /// `wasmer_result_t::WASMER_OK`. Otherwise /// `wasmer_result_t::WASMER_ERROR` is returned, and /// `wasmer_last_error_length()` with `wasmer_last_error_message()` must /// be used to read the error message. /// /// The caller is responsible to free the instance with /// `wasmer_instance_destroy()`. /// /// Example: /// /// ```c /// // 1. Read a WebAssembly module from a file. /// FILE *file = fopen("sum.wasm", "r"); /// fseek(file, 0, SEEK_END); /// long bytes_length = ftell(file); /// uint8_t *bytes = malloc(bytes_length); /// fseek(file, 0, SEEK_SET); /// fread(bytes, 1, bytes_length, file); /// fclose(file); /// /// // 2. Declare the imports (here, none). /// wasmer_import_t imports[] = {}; /// /// // 3. Instantiate the WebAssembly module. /// wasmer_instance_t *instance = NULL; /// wasmer_result_t result = wasmer_instantiate(&instance, bytes, bytes_length, imports, 0); /// /// // 4. Check for errors. /// if (result != WASMER_OK) { /// int error_length = wasmer_last_error_length(); /// char *error = malloc(error_length); /// wasmer_last_error_message(error, error_length); /// // Do something with `error`… /// } /// /// // 5. Free the memory! /// wasmer_instance_destroy(instance); /// ``` wasmer_result_t wasmer_instantiate(wasmer_instance_t **instance, uint8_t *wasm_bytes, uint32_t wasm_bytes_len, wasmer_import_t *imports, int imports_len); /// Gets the length in bytes of the last error if any, zero otherwise. /// /// This can be used to dynamically allocate a buffer with the correct number of /// bytes needed to store a message. /// /// # Example /// /// See this module's documentation to get a complete example. int wasmer_last_error_length(); /// Gets the last error message if any into the provided buffer /// `buffer` up to the given `length`. /// /// The `length` parameter must be large enough to store the last /// error message. Ideally, the value should come from /// [`wasmer_last_error_length`]. /// /// The function returns the length of the string in bytes, `-1` if an /// error occurs. Potential errors are: /// /// * The `buffer` is a null pointer, /// * The `buffer` is too small to hold the error message. /// /// Note: The error message always has a trailing NUL character. /// /// Important note: If the provided `buffer` is non-null, once this /// function has been called, regardless whether it fails or succeeds, /// the error is cleared. /// /// # Example /// /// See this module's documentation to get a complete example. int wasmer_last_error_message(char *buffer, int length); /// Gets a pointer to the beginning of the contiguous memory data /// bytes. /// /// The function returns `NULL` if `memory` is a null pointer. /// /// Note that when the memory grows, it can be reallocated, and thus /// the returned pointer can be invalidated. /// /// Example: /// /// ```c /// uint8_t *memory_data = wasmer_memory_data(memory); /// char *str = (char*) malloc(sizeof(char) * 7); /// /// for (uint32_t nth = 0; nth < 7; ++nth) { /// str[nth] = (char) memory_data[nth]; /// } /// ``` uint8_t *wasmer_memory_data(const wasmer_memory_t *memory); /// Gets the size in bytes of the memory data. /// /// This function returns 0 if `memory` is a null pointer. /// /// Example: /// /// ```c /// uint32_t memory_data_length = wasmer_memory_data_length(memory); /// ``` uint32_t wasmer_memory_data_length(const wasmer_memory_t *memory); /// Frees memory for the given `wasmer_memory_t`. /// /// Check the `wasmer_memory_new()` function to get a complete /// example. /// /// If `memory` is a null pointer, this function does nothing. /// /// Example: /// /// ```c /// // Get a memory. /// wasmer_memory_t *memory = NULL; /// wasmer_result_t result = wasmer_memory_new(&memory, memory_descriptor); /// /// // Destroy the memory. /// wasmer_memory_destroy(memory); /// ``` void wasmer_memory_destroy(wasmer_memory_t *memory); /// Grows a memory by the given number of pages (of 65Kb each). /// /// The functions return `wasmer_result_t::WASMER_OK` upon success, /// `wasmer_result_t::WASMER_ERROR` otherwise. Use /// `wasmer_last_error_length()` with `wasmer_last_error_message()` to /// read the error message. /// /// Example: /// /// ```c /// wasmer_result_t result = wasmer_memory_grow(memory, 10); /// /// if (result != WASMER_OK) { /// // … /// } /// ``` wasmer_result_t wasmer_memory_grow(wasmer_memory_t *memory, uint32_t delta); /// Reads the current length (in pages) of the given memory. /// /// The function returns zero if `memory` is a null pointer. /// /// Example: /// /// ```c /// uint32_t memory_length = wasmer_memory_length(memory); /// /// printf("Memory pages length: %d\n", memory_length); /// ``` uint32_t wasmer_memory_length(const wasmer_memory_t *memory); /// Creates a new empty WebAssembly memory for the given descriptor. /// /// The result is stored in the first argument `memory` if successful, /// i.e. when the function returns /// `wasmer_result_t::WASMER_OK`. Otherwise, /// `wasmer_result_t::WASMER_ERROR` is returned, and /// `wasmer_last_error_length()` with `wasmer_last_error_message()` /// must be used to read the error message. /// /// The caller owns the memory and is responsible to free it with /// `wasmer_memory_destroy()`. /// /// Example: /// /// ```c /// // 1. The memory object. /// wasmer_memory_t *memory = NULL; /// /// // 2. The memory descriptor. /// wasmer_limits_t memory_descriptor = { /// .min = 10, /// .max = { /// .has_some = true, /// .some = 15, /// }, /// }; /// /// // 3. Initialize the memory. /// wasmer_result_t result = wasmer_memory_new(&memory, memory_descriptor); /// /// if (result != WASMER_OK) { /// int error_length = wasmer_last_error_length(); /// char *error = malloc(error_length); /// wasmer_last_error_message(error, error_length); /// // Do something with `error`… /// } /// /// // 4. Free the memory! /// wasmer_memory_destroy(memory); /// ``` wasmer_result_t wasmer_memory_new(wasmer_memory_t **memory, wasmer_limits_t limits); /// Deserialize the given serialized module. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_module_deserialize(wasmer_module_t **module, const wasmer_serialized_module_t *serialized_module); /// Frees memory for the given Module void wasmer_module_destroy(wasmer_module_t *module); /// Given: /// * A prepared `wasmer` import-object /// * A compiled wasmer module /// /// Instantiates a wasmer instance wasmer_result_t wasmer_module_import_instantiate(wasmer_instance_t **instance, const wasmer_module_t *module, const wasmer_import_object_t *import_object); /// Creates a new Instance from the given module and imports. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_module_instantiate(const wasmer_module_t *module, wasmer_instance_t **instance, wasmer_import_t *imports, int imports_len); /// Serialize the given Module. /// /// The caller owns the object and should call `wasmer_serialized_module_destroy` to free it. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_module_serialize(wasmer_serialized_module_t **serialized_module_out, const wasmer_module_t *module); /// Get bytes of the serialized module. wasmer_byte_array wasmer_serialized_module_bytes(const wasmer_serialized_module_t *serialized_module); /// Frees memory for the given serialized Module. void wasmer_serialized_module_destroy(wasmer_serialized_module_t *serialized_module); /// Transform a sequence of bytes into a serialized module. /// /// The caller owns the object and should call `wasmer_serialized_module_destroy` to free it. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_serialized_module_from_bytes(wasmer_serialized_module_t **serialized_module, const uint8_t *serialized_module_bytes, uint32_t serialized_module_bytes_length); /// Frees memory for the given Table void wasmer_table_destroy(wasmer_table_t *table); /// Grows a Table by the given number of elements. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_table_grow(wasmer_table_t *table, uint32_t delta); /// Returns the current length of the given Table uint32_t wasmer_table_length(wasmer_table_t *table); /// Creates a new Table for the given descriptor and initializes the given /// pointer to pointer to a pointer to the new Table. /// /// The caller owns the object and should call `wasmer_table_destroy` to free it. /// /// Returns `wasmer_result_t::WASMER_OK` upon success. /// /// Returns `wasmer_result_t::WASMER_ERROR` upon failure. Use `wasmer_last_error_length` /// and `wasmer_last_error_message` to get an error message. wasmer_result_t wasmer_table_new(wasmer_table_t **table, wasmer_limits_t limits); /// Stop the execution of a host function, aka imported function. The /// function must be used _only_ inside a host function. /// /// The pointer to `wasmer_instance_context_t` is received by the host /// function as its first argument. Just passing it to `ctx` is fine. /// /// The error message must have a greater lifetime than the host /// function itself since the error is read outside the host function /// with `wasmer_last_error_message`. /// /// This function returns `wasmer_result_t::WASMER_ERROR` if `ctx` or /// `error_message` are null. /// /// This function never returns otherwise. wasmer_result_t wasmer_trap(const wasmer_instance_context_t *_ctx, const char *error_message); /// Validates a sequence of bytes hoping it represents a valid WebAssembly module. /// /// The function returns true if the bytes are valid, false otherwise. /// /// Example: /// /// ```c /// bool result = wasmer_validate(bytes, bytes_length); /// /// if (false == result) { /// // Do something… /// } /// ``` bool wasmer_validate(const uint8_t *wasm_bytes, uint32_t wasm_bytes_len); /// Get the version of the Wasmer C API. /// /// The `.h` files already define variables like `WASMER_VERSION*`, /// but if this file is unreachable, one can use this function to /// retrieve the full semver version of the Wasmer C API. /// /// The returned string is statically allocated. It must _not_ be /// freed! /// /// # Example /// /// See the module's documentation. const char *wasmer_version(); /// Get the major version of the Wasmer C API. /// /// See [`wasmer_version`] to learn more. /// /// # Example /// /// ```rust /// # use inline_c::assert_c; /// # fn main() { /// # (assert_c! { /// # #include "tests/wasmer_wasm.h" /// # /// int main() { /// // Get and print the version components. /// uint8_t version_major = wasmer_version_major(); /// uint8_t version_minor = wasmer_version_minor(); /// uint8_t version_patch = wasmer_version_patch(); /// /// printf("%d.%d.%d", version_major, version_minor, version_patch); /// /// return 0; /// } /// # }) /// # .success() /// # .stdout( /// # format!( /// # "{}.{}.{}", /// # env!("CARGO_PKG_VERSION_MAJOR"), /// # env!("CARGO_PKG_VERSION_MINOR"), /// # env!("CARGO_PKG_VERSION_PATCH") /// # ) /// # ); /// # } /// ``` uint8_t wasmer_version_major(); /// Get the minor version of the Wasmer C API. /// /// See [`wasmer_version_major`] to learn more and get an example. uint8_t wasmer_version_minor(); /// Get the patch version of the Wasmer C API. /// /// See [`wasmer_version_major`] to learn more and get an example. uint8_t wasmer_version_patch(); /// Get the minor version of the Wasmer C API. /// /// See [`wasmer_version_major`] to learn more. /// /// The returned string is statically allocated. It must _not_ be /// freed! /// /// # Example /// /// ```rust /// # use inline_c::assert_c; /// # fn main() { /// # (assert_c! { /// # #include "tests/wasmer_wasm.h" /// # /// int main() { /// // Get and print the pre version. /// const char* version_pre = wasmer_version_pre(); /// printf("%s", version_pre); /// /// // No need to free the string. It's statically allocated on /// // the Rust side. /// /// return 0; /// } /// # }) /// # .success() /// # .stdout(env!("CARGO_PKG_VERSION_PRE")); /// # } /// ``` const char *wasmer_version_pre(); #if defined(WASMER_WASI_ENABLED) /// Convenience function that creates a WASI import object with no arguments, /// environment variables, preopened files, or mapped directories. /// /// This function is the same as calling [`wasmer_wasi_generate_import_object`] with all /// empty values. wasmer_import_object_t *wasmer_wasi_generate_default_import_object(); #endif #if defined(WASMER_WASI_ENABLED) /// Creates a WASI import object. /// /// This function treats null pointers as empty collections. /// For example, passing null for a string in `args`, will lead to a zero /// length argument in that position. wasmer_import_object_t *wasmer_wasi_generate_import_object(const wasmer_byte_array *args, unsigned int args_len, const wasmer_byte_array *envs, unsigned int envs_len, const wasmer_byte_array *preopened_files, unsigned int preopened_files_len, const wasmer_wasi_map_dir_entry_t *mapped_dirs, unsigned int mapped_dirs_len); #endif #if defined(WASMER_WASI_ENABLED) /// Creates a WASI import object for a specific version. /// /// This function is similar to `wasmer_wasi_generate_import_object` /// except that the first argument describes the WASI version. /// /// The version is expected to be of kind `Version`. wasmer_import_object_t *wasmer_wasi_generate_import_object_for_version(unsigned char version, const wasmer_byte_array *args, unsigned int args_len, const wasmer_byte_array *envs, unsigned int envs_len, const wasmer_byte_array *preopened_files, unsigned int preopened_files_len, const wasmer_wasi_map_dir_entry_t *mapped_dirs, unsigned int mapped_dirs_len); #endif #if defined(WASMER_WASI_ENABLED) /// Find the version of WASI used by the module. /// /// In case of error, the returned version is `Version::Unknown`. Version wasmer_wasi_get_version(const wasmer_module_t *module); #endif } // extern "C" #endif // WASMER_H