/* * Copyright (C) 2019 Intel Corporation. All rights reserved. * SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception */ #ifndef _WASM_EXPORT_H #define _WASM_EXPORT_H #include #include #ifdef __cplusplus extern "C" { #endif /* Uninstantiated WASM module loaded from WASM binary file or AoT binary file*/ struct WASMModuleCommon; typedef struct WASMModuleCommon *wasm_module_t; /* Instantiated WASM module */ struct WASMModuleInstanceCommon; typedef struct WASMModuleInstanceCommon *wasm_module_inst_t; /* Function instance */ struct WASMFunctionInstanceCommon; typedef struct WASMFunctionInstanceCommon *wasm_function_inst_t; /* WASM section */ typedef struct wasm_section { struct wasm_section *next; /* section type */ int section_type; /* section body, not include type and size */ uint8_t *section_body; /* section body size */ uint32_t section_body_size; } wasm_section_t, *wasm_section_list_t; typedef wasm_section_t aot_section_t, *aot_section_list_t; /* Execution environment, e.g. stack info */ struct WASMExecEnv; typedef struct WASMExecEnv *wasm_exec_env_t; /* Package Type */ typedef enum { Wasm_Module_Bytecode = 0, Wasm_Module_AoT, Package_Type_Unknown = 0xFFFF } package_type_t; /** * Initialize the WASM runtime environment. * * @return true if success, false otherwise */ bool wasm_runtime_init(); /** * Destroy the WASM runtime environment. */ void wasm_runtime_destroy(); /** * Get the package type of a buffer. * * @param buf the package buffer * @param size the package buffer size * * @return the package type, return Package_Type_Unknown if the type is unknown */ package_type_t get_package_type(const uint8_t *buf, uint32_t size); /** * Load a WASM module from a specified byte buffer. * * @param buf the byte buffer which contains the WASM binary data * @param size the size of the buffer * @param error_buf output of the exception info * @param error_buf_size the size of the exception string * * @return return WASM module loaded, NULL if failed */ wasm_module_t wasm_runtime_load(const uint8_t *buf, uint32_t size, char *error_buf, uint32_t error_buf_size); /** * Load a WASM module from a specified WASM or AOT section list. * * @param section_list the section list which contains each section data * @param is_aot whether the section list is AOT section list * @param error_buf output of the exception info * @param error_buf_size the size of the exception string * * @return return WASM module loaded, NULL if failed */ wasm_module_t wasm_runtime_load_from_sections(wasm_section_list_t section_list, bool is_aot, char *error_buf, uint32_t error_buf_size); /** * Unload a WASM module. * * @param module the module to be unloaded */ void wasm_runtime_unload(wasm_module_t module); void wasm_runtime_set_wasi_args(wasm_module_t module, const char *dir_list[], uint32_t dir_count, const char *map_dir_list[], uint32_t map_dir_count, const char *env[], uint32_t env_count, char *argv[], int argc); /** * Instantiate a WASM module. * * @param module the WASM module to instantiate * @param stack_size the default stack size of the module instance, a stack * will be created when function wasm_runtime_call_wasm() is called * to run WASM function and the exec_env argument passed to * wasm_runtime_call_wasm() is NULL. That means this parameter is * ignored if exec_env is not NULL. * @param heap_size the default heap size of the module instance, a heap will * be created besides the app memory space. Both wasm app and native * function can allocate memory from the heap. If heap_size is 0, the * default heap size will be used. * @param error_buf buffer to output the error info if failed * @param error_buf_size the size of the error buffer * * @return return the instantiated WASM module instance, NULL if failed */ wasm_module_inst_t wasm_runtime_instantiate(const wasm_module_t module, uint32_t stack_size, uint32_t heap_size, char *error_buf, uint32_t error_buf_size); /** * Deinstantiate a WASM module instance, destroy the resources. * * @param module_inst the WASM module instance to destroy */ void wasm_runtime_deinstantiate(wasm_module_inst_t module_inst); bool wasm_runtime_is_wasi_mode(wasm_module_inst_t module_inst); wasm_function_inst_t wasm_runtime_lookup_wasi_start_function(wasm_module_inst_t module_inst); /** * Lookup an exported function in the WASM module instance. * * @param module_inst the module instance * @param name the name of the function * @param signature the signature of the function, use "i32"/"i64"/"f32"/"f64" * to represent the type of i32/i64/f32/f64, e.g. "(i32i64)" "(i32)f32" * * @return the function instance found */ wasm_function_inst_t wasm_runtime_lookup_function(const wasm_module_inst_t module_inst, const char *name, const char *signature); /** * Create execution environment for a WASM module instance. * * @param module_inst the module instance * @param stack_size the stack size to execute a WASM function * * @return the execution environment */ wasm_exec_env_t wasm_runtime_create_exec_env(wasm_module_inst_t module_inst, uint32_t stack_size); /** * Destroy the execution environment. * * @param env the execution environment to destroy */ void wasm_runtime_destroy_exec_env(wasm_exec_env_t exec_env); /** * Get WASM module instance from execution environment * * @param exec_env the execution environment to retrieve * * @return the WASM module instance */ wasm_module_inst_t wasm_runtime_get_module_inst(wasm_exec_env_t exec_env); /** * Call the given WASM function of a WASM module instance with * arguments (bytecode and AoT). * * @param exec_env the execution environment to call the function * which must be created from wasm_create_exec_env() * @param function the function to be called * @param argc the number of arguments * @param argv the arguments. If the function method has return value, * the first (or first two in case 64-bit return value) element of * argv stores the return value of the called WASM function after this * function returns. * * @return true if success, false otherwise and exception will be thrown, * the caller can call wasm_runtime_get_exception to get exception info. */ bool wasm_runtime_call_wasm(wasm_exec_env_t exec_env, wasm_function_inst_t function, uint32_t argc, uint32_t argv[]); /** * Find the unique main function from a WASM module instance * and execute that function. * * @param module_inst the WASM module instance * @param argc the number of arguments * @param argv the arguments array * * @return true if the main function is called, false otherwise and exception will be thrown, * the caller can call wasm_runtime_get_exception to get exception info. */ bool wasm_application_execute_main(wasm_module_inst_t module_inst, int32_t argc, char *argv[]); /** * Find the specified function in argv[0] from a WASM module instance * and execute that function. * * @param module_inst the WASM module instance * @param name the name of the function to execute * @param argc the number of arguments * @param argv the arguments array * * @return true if the specified function is called, false otherwise and exception will be thrown, * the caller can call wasm_runtime_get_exception to get exception info. */ bool wasm_application_execute_func(wasm_module_inst_t module_inst, const char *name, int32_t argc, char *argv[]); /** * Get exception info of the WASM module instance. * * @param module_inst the WASM module instance * * @return the exception string */ const char * wasm_runtime_get_exception(wasm_module_inst_t module_inst); /** * Clear exception info of the WASM module instance. * * @param module_inst the WASM module instance */ void wasm_runtime_clear_exception(wasm_module_inst_t module_inst); /** * Set custom data to WASM module instance. * * @param module_inst the WASM module instance * @param custom_data the custom data to be set */ void wasm_runtime_set_custom_data(wasm_module_inst_t module_inst, void *custom_data); /** * Get the custom data within a WASM module instance. * * @param module_inst the WASM module instance * * @return the custom data (NULL if not set yet) */ void * wasm_runtime_get_custom_data(wasm_module_inst_t module_inst); /** * Allocate memory from the heap of WASM module instance * * @param module_inst the WASM module instance which contains heap * @param size the size bytes to allocate * * @return the allocated memory address, which is a relative offset to the * base address of the module instance's memory space, the value range * is (-heap_size, 0). Note that it is not an absolute address. * Return non-zero if success, zero if failed. */ int32_t wasm_runtime_module_malloc(wasm_module_inst_t module_inst, uint32_t size); /** * Free memory to the heap of WASM module instance * * @param module_inst the WASM module instance which contains heap * @param ptr the pointer to free */ void wasm_runtime_module_free(wasm_module_inst_t module_inst, int32_t ptr); /** * Allocate memory from the heap of WASM module instance and initialize * the memory with src * * @param module_inst the WASM module instance which contains heap * @param src the source data to copy * @param size the size of the source data * * @return the allocated memory address, which is a relative offset to the * base address of the module instance's memory space, the value range * is (-heap_size, 0). Note that it is not an absolute address. * Return non-zero if success, zero if failed. */ int32_t wasm_runtime_module_dup_data(wasm_module_inst_t module_inst, const char *src, uint32_t size); /** * Validate the app address, check whether it belongs to WASM module * instance's address space, or in its heap space or memory space. * * @param module_inst the WASM module instance * @param app_offset the app address to validate, which is a relative address * @param size the size bytes of the app address * * @return true if success, false otherwise. If failed, an exception will * be thrown. */ bool wasm_runtime_validate_app_addr(wasm_module_inst_t module_inst, int32_t app_offset, uint32_t size); /** * Similar to wasm_runtime_validate_app_addr(), except that the size parameter * is not provided. This function validates the app string address, check whether it * belongs to WASM module instance's address space, or in its heap space or * memory space. Moreover, it checks whether it is the offset of a string that * is end with '\0'. * @param module_inst the WASM module instance * @param app_str_offset the app address of the string to validate, which is a * relative address * * @return true if success, false otherwise. If failed, an exception will * be thrown. */ bool wasm_runtime_validate_app_str_addr(wasm_module_inst_t module_inst, int32_t app_str_offset); /** * Validate the native address, check whether it belongs to WASM module * instance's address space, or in its heap space or memory space. * * @param module_inst the WASM module instance * @param native_ptr the native address to validate, which is an absolute * address * @param size the size bytes of the app address * * @return true if success, false otherwise. If failed, an exception will * be thrown. */ bool wasm_runtime_validate_native_addr(wasm_module_inst_t module_inst, void *native_ptr, uint32_t size); /** * Convert app address(relative address) to native address(absolute address) * * @param module_inst the WASM module instance * @param app_offset the app adress * * @return the native address converted */ void* wasm_runtime_addr_app_to_native(wasm_module_inst_t module_inst, int32_t app_offset); /** * Convert native address(absolute address) to app address(relative address) * * @param module_inst the WASM module instance * @param native_ptr the native address * * @return the app address converted */ int32_t wasm_runtime_addr_native_to_app(wasm_module_inst_t module_inst, void *native_ptr); /** * Get the app address range (relative address) that a app address belongs to * * @param module_inst the WASM module instance * @param app_offset the app address to retrieve * @param p_app_start_offset buffer to output the app start offset if not NULL * @param p_app_end_offset buffer to output the app end offset if not NULL * * @return true if success, false otherwise. */ bool wasm_runtime_get_app_addr_range(wasm_module_inst_t module_inst, int32_t app_offset, int32_t *p_app_start_offset, int32_t *p_app_end_offset); /** * Get the native address range (absolute address) that a native address belongs to * * @param module_inst the WASM module instance * @param native_ptr the native address to retrieve * @param p_native_start_addr buffer to output the native start address if not NULL * @param p_native_end_addr buffer to output the native end address if not NULL * * @return true if success, false otherwise. */ bool wasm_runtime_get_native_addr_range(wasm_module_inst_t module_inst, uint8_t *native_ptr, uint8_t **p_native_start_addr, uint8_t **p_native_end_addr); #ifdef __cplusplus } #endif #endif /* end of _WASM_EXPORT_H */