/* * Copyright 2018 WebAssembly Community Group participants * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef WASM_RT_H_ #define WASM_RT_H_ #include #ifdef __cplusplus extern "C" { #endif /** Maximum stack depth before trapping. This can be configured by defining * this symbol before including wasm-rt when building the generated c files, * for example: * * ``` * cc -c -DWASM_RT_MAX_CALL_STACK_DEPTH=100 my_module.c -o my_module.o * ``` * */ #ifndef WASM_RT_MAX_CALL_STACK_DEPTH #define WASM_RT_MAX_CALL_STACK_DEPTH 500 #endif /** Reason a trap occurred. Provide this to `wasm_rt_trap`. */ typedef enum { WASM_RT_TRAP_NONE, /** No error. */ WASM_RT_TRAP_OOB, /** Out-of-bounds access in linear memory. */ WASM_RT_TRAP_INT_OVERFLOW, /** Integer overflow on divide or truncation. */ WASM_RT_TRAP_DIV_BY_ZERO, /** Integer divide by zero. */ WASM_RT_TRAP_INVALID_CONVERSION, /** Conversion from NaN to integer. */ WASM_RT_TRAP_UNREACHABLE, /** Unreachable instruction executed. */ WASM_RT_TRAP_CALL_INDIRECT, /** Invalid call_indirect, for any reason. */ WASM_RT_TRAP_EXHAUSTION, /** Call stack exhausted. */ } wasm_rt_trap_t; /** Value types. Used to define function signatures. */ typedef enum { WASM_RT_I32, WASM_RT_I64, WASM_RT_F32, WASM_RT_F64, } wasm_rt_type_t; /** A function type for all `anyfunc` functions in a Table. All functions are * stored in this canonical form, but must be cast to their proper signature to * call. */ typedef void (*wasm_rt_anyfunc_t)(void); /** A single element of a Table. */ typedef struct { /** The index as returned from `wasm_rt_register_func_type`. */ uint32_t func_type; /** The function. The embedder must know the actual C signature of the * function and cast to it before calling. */ wasm_rt_anyfunc_t func; } wasm_rt_elem_t; /** A Memory object. */ typedef struct { /** The linear memory data, with a byte length of `size`. */ uint8_t* data; /** The current and maximum page count for this Memory object. If there is no * maximum, `max_pages` is 0xffffffffu (i.e. UINT32_MAX). */ uint32_t pages, max_pages; /** The current size of the linear memory, in bytes. */ uint32_t size; } wasm_rt_memory_t; /** A Table object. */ typedef struct { /** The table element data, with an element count of `size`. */ wasm_rt_elem_t* data; /** The maximum element count of this Table object. If there is no maximum, * `max_size` is 0xffffffffu (i.e. UINT32_MAX). */ uint32_t max_size; /** The current element count of the table. */ uint32_t size; } wasm_rt_table_t; /** Stop execution immediately and jump back to the call to `wasm_rt_try`. * The result of `wasm_rt_try` will be the provided trap reason. * * This is typically called by the generated code, and not the embedder. */ extern void wasm_rt_trap(wasm_rt_trap_t) __attribute__((noreturn)); /** Register a function type with the given signature. The returned function * index is guaranteed to be the same for all calls with the same signature. * The following varargs must all be of type `wasm_rt_type_t`, first the * params` and then the `results`. * * ``` * // Register (func (param i32 f32) (result i64)). * wasm_rt_register_func_type(2, 1, WASM_RT_I32, WASM_RT_F32, WASM_RT_I64); * => returns 1 * * // Register (func (result i64)). * wasm_rt_register_func_type(0, 1, WASM_RT_I32); * => returns 2 * * // Register (func (param i32 f32) (result i64)) again. * wasm_rt_register_func_type(2, 1, WASM_RT_I32, WASM_RT_F32, WASM_RT_I64); * => returns 1 * ``` */ extern uint32_t wasm_rt_register_func_type(uint32_t params, uint32_t results, ...); /** Initialize a Memory object with an initial page size of `initial_pages` and * a maximum page size of `max_pages`. * * ``` * wasm_rt_memory_t my_memory; * // 1 initial page (65536 bytes), and a maximum of 2 pages. * wasm_rt_allocate_memory(&my_memory, 1, 2); * ``` */ extern void wasm_rt_allocate_memory(wasm_rt_memory_t*, uint32_t initial_pages, uint32_t max_pages); /** Grow a Memory object by `pages`, and return the previous page count. If * this new page count is greater than the maximum page count, the grow fails * and 0xffffffffu (UINT32_MAX) is returned instead. * * ``` * wasm_rt_memory_t my_memory; * ... * // Grow memory by 10 pages. * uint32_t old_page_size = wasm_rt_grow_memory(&my_memory, 10); * if (old_page_size == UINT32_MAX) { * // Failed to grow memory. * } * ``` */ extern uint32_t wasm_rt_grow_memory(wasm_rt_memory_t*, uint32_t pages); /** Initialize a Table object with an element count of `elements` and a maximum * page size of `max_elements`. * * ``` * wasm_rt_table_t my_table; * // 5 elemnets and a maximum of 10 elements. * wasm_rt_allocate_table(&my_table, 5, 10); * ``` */ extern void wasm_rt_allocate_table(wasm_rt_table_t*, uint32_t elements, uint32_t max_elements); /** Current call stack depth. */ extern uint32_t wasm_rt_call_stack_depth; #ifdef __cplusplus } #endif #endif /* WASM_RT_H_ */