zig/lib/std/wasm.zig

840 lines
22 KiB
Zig

///! Contains all constants and types representing the wasm
///! binary format, as specified by:
///! https://webassembly.github.io/spec/core/
const std = @import("std.zig");
const testing = std.testing;
// TODO: Add support for multi-byte ops (e.g. table operations)
/// Wasm instruction opcodes
///
/// All instructions are defined as per spec:
/// https://webassembly.github.io/spec/core/appendix/index-instructions.html
pub const Opcode = enum(u8) {
@"unreachable" = 0x00,
nop = 0x01,
block = 0x02,
loop = 0x03,
@"if" = 0x04,
@"else" = 0x05,
end = 0x0B,
br = 0x0C,
br_if = 0x0D,
br_table = 0x0E,
@"return" = 0x0F,
call = 0x10,
call_indirect = 0x11,
drop = 0x1A,
select = 0x1B,
local_get = 0x20,
local_set = 0x21,
local_tee = 0x22,
global_get = 0x23,
global_set = 0x24,
i32_load = 0x28,
i64_load = 0x29,
f32_load = 0x2A,
f64_load = 0x2B,
i32_load8_s = 0x2C,
i32_load8_u = 0x2D,
i32_load16_s = 0x2E,
i32_load16_u = 0x2F,
i64_load8_s = 0x30,
i64_load8_u = 0x31,
i64_load16_s = 0x32,
i64_load16_u = 0x33,
i64_load32_s = 0x34,
i64_load32_u = 0x35,
i32_store = 0x36,
i64_store = 0x37,
f32_store = 0x38,
f64_store = 0x39,
i32_store8 = 0x3A,
i32_store16 = 0x3B,
i64_store8 = 0x3C,
i64_store16 = 0x3D,
i64_store32 = 0x3E,
memory_size = 0x3F,
memory_grow = 0x40,
i32_const = 0x41,
i64_const = 0x42,
f32_const = 0x43,
f64_const = 0x44,
i32_eqz = 0x45,
i32_eq = 0x46,
i32_ne = 0x47,
i32_lt_s = 0x48,
i32_lt_u = 0x49,
i32_gt_s = 0x4A,
i32_gt_u = 0x4B,
i32_le_s = 0x4C,
i32_le_u = 0x4D,
i32_ge_s = 0x4E,
i32_ge_u = 0x4F,
i64_eqz = 0x50,
i64_eq = 0x51,
i64_ne = 0x52,
i64_lt_s = 0x53,
i64_lt_u = 0x54,
i64_gt_s = 0x55,
i64_gt_u = 0x56,
i64_le_s = 0x57,
i64_le_u = 0x58,
i64_ge_s = 0x59,
i64_ge_u = 0x5A,
f32_eq = 0x5B,
f32_ne = 0x5C,
f32_lt = 0x5D,
f32_gt = 0x5E,
f32_le = 0x5F,
f32_ge = 0x60,
f64_eq = 0x61,
f64_ne = 0x62,
f64_lt = 0x63,
f64_gt = 0x64,
f64_le = 0x65,
f64_ge = 0x66,
i32_clz = 0x67,
i32_ctz = 0x68,
i32_popcnt = 0x69,
i32_add = 0x6A,
i32_sub = 0x6B,
i32_mul = 0x6C,
i32_div_s = 0x6D,
i32_div_u = 0x6E,
i32_rem_s = 0x6F,
i32_rem_u = 0x70,
i32_and = 0x71,
i32_or = 0x72,
i32_xor = 0x73,
i32_shl = 0x74,
i32_shr_s = 0x75,
i32_shr_u = 0x76,
i32_rotl = 0x77,
i32_rotr = 0x78,
i64_clz = 0x79,
i64_ctz = 0x7A,
i64_popcnt = 0x7B,
i64_add = 0x7C,
i64_sub = 0x7D,
i64_mul = 0x7E,
i64_div_s = 0x7F,
i64_div_u = 0x80,
i64_rem_s = 0x81,
i64_rem_u = 0x82,
i64_and = 0x83,
i64_or = 0x84,
i64_xor = 0x85,
i64_shl = 0x86,
i64_shr_s = 0x87,
i64_shr_u = 0x88,
i64_rotl = 0x89,
i64_rotr = 0x8A,
f32_abs = 0x8B,
f32_neg = 0x8C,
f32_ceil = 0x8D,
f32_floor = 0x8E,
f32_trunc = 0x8F,
f32_nearest = 0x90,
f32_sqrt = 0x91,
f32_add = 0x92,
f32_sub = 0x93,
f32_mul = 0x94,
f32_div = 0x95,
f32_min = 0x96,
f32_max = 0x97,
f32_copysign = 0x98,
f64_abs = 0x99,
f64_neg = 0x9A,
f64_ceil = 0x9B,
f64_floor = 0x9C,
f64_trunc = 0x9D,
f64_nearest = 0x9E,
f64_sqrt = 0x9F,
f64_add = 0xA0,
f64_sub = 0xA1,
f64_mul = 0xA2,
f64_div = 0xA3,
f64_min = 0xA4,
f64_max = 0xA5,
f64_copysign = 0xA6,
i32_wrap_i64 = 0xA7,
i32_trunc_f32_s = 0xA8,
i32_trunc_f32_u = 0xA9,
i32_trunc_f64_s = 0xAA,
i32_trunc_f64_u = 0xAB,
i64_extend_i32_s = 0xAC,
i64_extend_i32_u = 0xAD,
i64_trunc_f32_s = 0xAE,
i64_trunc_f32_u = 0xAF,
i64_trunc_f64_s = 0xB0,
i64_trunc_f64_u = 0xB1,
f32_convert_i32_s = 0xB2,
f32_convert_i32_u = 0xB3,
f32_convert_i64_s = 0xB4,
f32_convert_i64_u = 0xB5,
f32_demote_f64 = 0xB6,
f64_convert_i32_s = 0xB7,
f64_convert_i32_u = 0xB8,
f64_convert_i64_s = 0xB9,
f64_convert_i64_u = 0xBA,
f64_promote_f32 = 0xBB,
i32_reinterpret_f32 = 0xBC,
i64_reinterpret_f64 = 0xBD,
f32_reinterpret_i32 = 0xBE,
f64_reinterpret_i64 = 0xBF,
i32_extend8_s = 0xC0,
i32_extend16_s = 0xC1,
i64_extend8_s = 0xC2,
i64_extend16_s = 0xC3,
i64_extend32_s = 0xC4,
misc_prefix = 0xFC,
simd_prefix = 0xFD,
atomics_prefix = 0xFE,
_,
};
/// Returns the integer value of an `Opcode`. Used by the Zig compiler
/// to write instructions to the wasm binary file
pub fn opcode(op: Opcode) u8 {
return @intFromEnum(op);
}
test "Wasm - opcodes" {
// Ensure our opcodes values remain intact as certain values are skipped due to them being reserved
const i32_const = opcode(.i32_const);
const end = opcode(.end);
const drop = opcode(.drop);
const local_get = opcode(.local_get);
const i64_extend32_s = opcode(.i64_extend32_s);
try testing.expectEqual(@as(u16, 0x41), i32_const);
try testing.expectEqual(@as(u16, 0x0B), end);
try testing.expectEqual(@as(u16, 0x1A), drop);
try testing.expectEqual(@as(u16, 0x20), local_get);
try testing.expectEqual(@as(u16, 0xC4), i64_extend32_s);
}
/// Opcodes that require a prefix `0xFC`.
/// Each opcode represents a varuint32, meaning
/// they are encoded as leb128 in binary.
pub const MiscOpcode = enum(u32) {
i32_trunc_sat_f32_s = 0x00,
i32_trunc_sat_f32_u = 0x01,
i32_trunc_sat_f64_s = 0x02,
i32_trunc_sat_f64_u = 0x03,
i64_trunc_sat_f32_s = 0x04,
i64_trunc_sat_f32_u = 0x05,
i64_trunc_sat_f64_s = 0x06,
i64_trunc_sat_f64_u = 0x07,
memory_init = 0x08,
data_drop = 0x09,
memory_copy = 0x0A,
memory_fill = 0x0B,
table_init = 0x0C,
elem_drop = 0x0D,
table_copy = 0x0E,
table_grow = 0x0F,
table_size = 0x10,
table_fill = 0x11,
_,
};
/// Returns the integer value of an `MiscOpcode`. Used by the Zig compiler
/// to write instructions to the wasm binary file
pub fn miscOpcode(op: MiscOpcode) u32 {
return @intFromEnum(op);
}
/// Simd opcodes that require a prefix `0xFD`.
/// Each opcode represents a varuint32, meaning
/// they are encoded as leb128 in binary.
pub const SimdOpcode = enum(u32) {
v128_load = 0x00,
v128_load8x8_s = 0x01,
v128_load8x8_u = 0x02,
v128_load16x4_s = 0x03,
v128_load16x4_u = 0x04,
v128_load32x2_s = 0x05,
v128_load32x2_u = 0x06,
v128_load8_splat = 0x07,
v128_load16_splat = 0x08,
v128_load32_splat = 0x09,
v128_load64_splat = 0x0A,
v128_store = 0x0B,
v128_const = 0x0C,
i8x16_shuffle = 0x0D,
i8x16_swizzle = 0x0E,
i8x16_splat = 0x0F,
i16x8_splat = 0x10,
i32x4_splat = 0x11,
i64x2_splat = 0x12,
f32x4_splat = 0x13,
f64x2_splat = 0x14,
i8x16_extract_lane_s = 0x15,
i8x16_extract_lane_u = 0x16,
i8x16_replace_lane = 0x17,
i16x8_extract_lane_s = 0x18,
i16x8_extract_lane_u = 0x19,
i16x8_replace_lane = 0x1A,
i32x4_extract_lane = 0x1B,
i32x4_replace_lane = 0x1C,
i64x2_extract_lane = 0x1D,
i64x2_replace_lane = 0x1E,
f32x4_extract_lane = 0x1F,
f32x4_replace_lane = 0x20,
f64x2_extract_lane = 0x21,
f64x2_replace_lane = 0x22,
i8x16_eq = 0x23,
i16x8_eq = 0x2D,
i32x4_eq = 0x37,
i8x16_ne = 0x24,
i16x8_ne = 0x2E,
i32x4_ne = 0x38,
i8x16_lt_s = 0x25,
i16x8_lt_s = 0x2F,
i32x4_lt_s = 0x39,
i8x16_lt_u = 0x26,
i16x8_lt_u = 0x30,
i32x4_lt_u = 0x3A,
i8x16_gt_s = 0x27,
i16x8_gt_s = 0x31,
i32x4_gt_s = 0x3B,
i8x16_gt_u = 0x28,
i16x8_gt_u = 0x32,
i32x4_gt_u = 0x3C,
i8x16_le_s = 0x29,
i16x8_le_s = 0x33,
i32x4_le_s = 0x3D,
i8x16_le_u = 0x2A,
i16x8_le_u = 0x34,
i32x4_le_u = 0x3E,
i8x16_ge_s = 0x2B,
i16x8_ge_s = 0x35,
i32x4_ge_s = 0x3F,
i8x16_ge_u = 0x2C,
i16x8_ge_u = 0x36,
i32x4_ge_u = 0x40,
f32x4_eq = 0x41,
f64x2_eq = 0x47,
f32x4_ne = 0x42,
f64x2_ne = 0x48,
f32x4_lt = 0x43,
f64x2_lt = 0x49,
f32x4_gt = 0x44,
f64x2_gt = 0x4A,
f32x4_le = 0x45,
f64x2_le = 0x4B,
f32x4_ge = 0x46,
f64x2_ge = 0x4C,
v128_not = 0x4D,
v128_and = 0x4E,
v128_andnot = 0x4F,
v128_or = 0x50,
v128_xor = 0x51,
v128_bitselect = 0x52,
v128_any_true = 0x53,
v128_load8_lane = 0x54,
v128_load16_lane = 0x55,
v128_load32_lane = 0x56,
v128_load64_lane = 0x57,
v128_store8_lane = 0x58,
v128_store16_lane = 0x59,
v128_store32_lane = 0x5A,
v128_store64_lane = 0x5B,
v128_load32_zero = 0x5C,
v128_load64_zero = 0x5D,
f32x4_demote_f64x2_zero = 0x5E,
f64x2_promote_low_f32x4 = 0x5F,
i8x16_abs = 0x60,
i16x8_abs = 0x80,
i32x4_abs = 0xA0,
i64x2_abs = 0xC0,
i8x16_neg = 0x61,
i16x8_neg = 0x81,
i32x4_neg = 0xA1,
i64x2_neg = 0xC1,
i8x16_popcnt = 0x62,
i16x8_q15mulr_sat_s = 0x82,
i8x16_all_true = 0x63,
i16x8_all_true = 0x83,
i32x4_all_true = 0xA3,
i64x2_all_true = 0xC3,
i8x16_bitmask = 0x64,
i16x8_bitmask = 0x84,
i32x4_bitmask = 0xA4,
i64x2_bitmask = 0xC4,
i8x16_narrow_i16x8_s = 0x65,
i16x8_narrow_i32x4_s = 0x85,
i8x16_narrow_i16x8_u = 0x66,
i16x8_narrow_i32x4_u = 0x86,
f32x4_ceil = 0x67,
i16x8_extend_low_i8x16_s = 0x87,
i32x4_extend_low_i16x8_s = 0xA7,
i64x2_extend_low_i32x4_s = 0xC7,
f32x4_floor = 0x68,
i16x8_extend_high_i8x16_s = 0x88,
i32x4_extend_high_i16x8_s = 0xA8,
i64x2_extend_high_i32x4_s = 0xC8,
f32x4_trunc = 0x69,
i16x8_extend_low_i8x16_u = 0x89,
i32x4_extend_low_i16x8_u = 0xA9,
i64x2_extend_low_i32x4_u = 0xC9,
f32x4_nearest = 0x6A,
i16x8_extend_high_i8x16_u = 0x8A,
i32x4_extend_high_i16x8_u = 0xAA,
i64x2_extend_high_i32x4_u = 0xCA,
i8x16_shl = 0x6B,
i16x8_shl = 0x8B,
i32x4_shl = 0xAB,
i64x2_shl = 0xCB,
i8x16_shr_s = 0x6C,
i16x8_shr_s = 0x8C,
i32x4_shr_s = 0xAC,
i64x2_shr_s = 0xCC,
i8x16_shr_u = 0x6D,
i16x8_shr_u = 0x8D,
i32x4_shr_u = 0xAD,
i64x2_shr_u = 0xCD,
i8x16_add = 0x6E,
i16x8_add = 0x8E,
i32x4_add = 0xAE,
i64x2_add = 0xCE,
i8x16_add_sat_s = 0x6F,
i16x8_add_sat_s = 0x8F,
i8x16_add_sat_u = 0x70,
i16x8_add_sat_u = 0x90,
i8x16_sub = 0x71,
i16x8_sub = 0x91,
i32x4_sub = 0xB1,
i64x2_sub = 0xD1,
i8x16_sub_sat_s = 0x72,
i16x8_sub_sat_s = 0x92,
i8x16_sub_sat_u = 0x73,
i16x8_sub_sat_u = 0x93,
f64x2_ceil = 0x74,
f64x2_nearest = 0x94,
f64x2_floor = 0x75,
i16x8_mul = 0x95,
i32x4_mul = 0xB5,
i64x2_mul = 0xD5,
i8x16_min_s = 0x76,
i16x8_min_s = 0x96,
i32x4_min_s = 0xB6,
i64x2_eq = 0xD6,
i8x16_min_u = 0x77,
i16x8_min_u = 0x97,
i32x4_min_u = 0xB7,
i64x2_ne = 0xD7,
i8x16_max_s = 0x78,
i16x8_max_s = 0x98,
i32x4_max_s = 0xB8,
i64x2_lt_s = 0xD8,
i8x16_max_u = 0x79,
i16x8_max_u = 0x99,
i32x4_max_u = 0xB9,
i64x2_gt_s = 0xD9,
f64x2_trunc = 0x7A,
i32x4_dot_i16x8_s = 0xBA,
i64x2_le_s = 0xDA,
i8x16_avgr_u = 0x7B,
i16x8_avgr_u = 0x9B,
i64x2_ge_s = 0xDB,
i16x8_extadd_pairwise_i8x16_s = 0x7C,
i16x8_extmul_low_i8x16_s = 0x9C,
i32x4_extmul_low_i16x8_s = 0xBC,
i64x2_extmul_low_i32x4_s = 0xDC,
i16x8_extadd_pairwise_i8x16_u = 0x7D,
i16x8_extmul_high_i8x16_s = 0x9D,
i32x4_extmul_high_i16x8_s = 0xBD,
i64x2_extmul_high_i32x4_s = 0xDD,
i32x4_extadd_pairwise_i16x8_s = 0x7E,
i16x8_extmul_low_i8x16_u = 0x9E,
i32x4_extmul_low_i16x8_u = 0xBE,
i64x2_extmul_low_i32x4_u = 0xDE,
i32x4_extadd_pairwise_i16x8_u = 0x7F,
i16x8_extmul_high_i8x16_u = 0x9F,
i32x4_extmul_high_i16x8_u = 0xBF,
i64x2_extmul_high_i32x4_u = 0xDF,
f32x4_abs = 0xE0,
f64x2_abs = 0xEC,
f32x4_neg = 0xE1,
f64x2_neg = 0xED,
f32x4_sqrt = 0xE3,
f64x2_sqrt = 0xEF,
f32x4_add = 0xE4,
f64x2_add = 0xF0,
f32x4_sub = 0xE5,
f64x2_sub = 0xF1,
f32x4_mul = 0xE6,
f64x2_mul = 0xF2,
f32x4_div = 0xE7,
f64x2_div = 0xF3,
f32x4_min = 0xE8,
f64x2_min = 0xF4,
f32x4_max = 0xE9,
f64x2_max = 0xF5,
f32x4_pmin = 0xEA,
f64x2_pmin = 0xF6,
f32x4_pmax = 0xEB,
f64x2_pmax = 0xF7,
i32x4_trunc_sat_f32x4_s = 0xF8,
i32x4_trunc_sat_f32x4_u = 0xF9,
f32x4_convert_i32x4_s = 0xFA,
f32x4_convert_i32x4_u = 0xFB,
i32x4_trunc_sat_f64x2_s_zero = 0xFC,
i32x4_trunc_sat_f64x2_u_zero = 0xFD,
f64x2_convert_low_i32x4_s = 0xFE,
f64x2_convert_low_i32x4_u = 0xFF,
// relaxed-simd opcodes
i8x16_relaxed_swizzle = 0x100,
i32x4_relaxed_trunc_f32x4_s = 0x101,
i32x4_relaxed_trunc_f32x4_u = 0x102,
i32x4_relaxed_trunc_f64x2_s_zero = 0x103,
i32x4_relaxed_trunc_f64x2_u_zero = 0x104,
f32x4_relaxed_madd = 0x105,
f32x4_relaxed_nmadd = 0x106,
f64x2_relaxed_madd = 0x107,
f64x2_relaxed_nmadd = 0x108,
i8x16_relaxed_laneselect = 0x109,
i16x8_relaxed_laneselect = 0x10a,
i32x4_relaxed_laneselect = 0x10b,
i64x2_relaxed_laneselect = 0x10c,
f32x4_relaxed_min = 0x10d,
f32x4_relaxed_max = 0x10e,
f64x2_relaxed_min = 0x10f,
f64x2_relaxed_max = 0x110,
i16x8_relaxed_q15mulr_s = 0x111,
i16x8_relaxed_dot_i8x16_i7x16_s = 0x112,
i32x4_relaxed_dot_i8x16_i7x16_add_s = 0x113,
f32x4_relaxed_dot_bf16x8_add_f32x4 = 0x114,
};
/// Returns the integer value of an `SimdOpcode`. Used by the Zig compiler
/// to write instructions to the wasm binary file
pub fn simdOpcode(op: SimdOpcode) u32 {
return @intFromEnum(op);
}
/// Atomic opcodes that require a prefix `0xFE`.
/// Each opcode represents a varuint32, meaning
/// they are encoded as leb128 in binary.
pub const AtomicsOpcode = enum(u32) {
memory_atomic_notify = 0x00,
memory_atomic_wait32 = 0x01,
memory_atomic_wait64 = 0x02,
atomic_fence = 0x03,
i32_atomic_load = 0x10,
i64_atomic_load = 0x11,
i32_atomic_load8_u = 0x12,
i32_atomic_load16_u = 0x13,
i64_atomic_load8_u = 0x14,
i64_atomic_load16_u = 0x15,
i64_atomic_load32_u = 0x16,
i32_atomic_store = 0x17,
i64_atomic_store = 0x18,
i32_atomic_store8 = 0x19,
i32_atomic_store16 = 0x1A,
i64_atomic_store8 = 0x1B,
i64_atomic_store16 = 0x1C,
i64_atomic_store32 = 0x1D,
i32_atomic_rmw_add = 0x1E,
i64_atomic_rmw_add = 0x1F,
i32_atomic_rmw8_add_u = 0x20,
i32_atomic_rmw16_add_u = 0x21,
i64_atomic_rmw8_add_u = 0x22,
i64_atomic_rmw16_add_u = 0x23,
i64_atomic_rmw32_add_u = 0x24,
i32_atomic_rmw_sub = 0x25,
i64_atomic_rmw_sub = 0x26,
i32_atomic_rmw8_sub_u = 0x27A,
i32_atomic_rmw16_sub_u = 0x28A,
i64_atomic_rmw8_sub_u = 0x29A,
i64_atomic_rmw16_sub_u = 0x2A,
i64_atomic_rmw32_sub_u = 0x2B,
i32_atomic_rmw_and = 0x2C,
i64_atomic_rmw_and = 0x2D,
i32_atomic_rmw8_and_u = 0x2E,
i32_atomic_rmw16_and_u = 0x2F,
i64_atomic_rmw8_and_u = 0x30,
i64_atomic_rmw16_and_u = 0x31,
i64_atomic_rmw32_and_u = 0x32,
i32_atomic_rmw_or = 0x33,
i64_atomic_rmw_or = 0x34,
i32_atomic_rmw8_or_u = 0x35,
i32_atomic_rmw16_or_u = 0x36,
i64_atomic_rmw8_or_u = 0x37,
i64_atomic_rmw16_or_u = 0x38,
i64_atomic_rmw32_or_u = 0x39,
i32_atomic_rmw_xor = 0x3A,
i64_atomic_rmw_xor = 0x3B,
i32_atomic_rmw8_xor_u = 0x3C,
i32_atomic_rmw16_xor_u = 0x3D,
i64_atomic_rmw8_xor_u = 0x3E,
i64_atomic_rmw16_xor_u = 0x3F,
i64_atomic_rmw32_xor_u = 0x40,
i32_atomic_rmw_xchg = 0x41,
i64_atomic_rmw_xchg = 0x42,
i32_atomic_rmw8_xchg_u = 0x43,
i32_atomic_rmw16_xchg_u = 0x44,
i64_atomic_rmw8_xchg_u = 0x45,
i64_atomic_rmw16_xchg_u = 0x46,
i64_atomic_rmw32_xchg_u = 0x47,
i32_atomic_rmw_cmpxchg = 0x48,
i64_atomic_rmw_cmpxchg = 0x49,
i32_atomic_rmw8_cmpxchg_u = 0x4A,
i32_atomic_rmw16_cmpxchg_u = 0x4B,
i64_atomic_rmw8_cmpxchg_u = 0x4C,
i64_atomic_rmw16_cmpxchg_u = 0x4D,
i64_atomic_rmw32_cmpxchg_u = 0x4E,
};
/// Returns the integer value of an `AtomicsOpcode`. Used by the Zig compiler
/// to write instructions to the wasm binary file
pub fn atomicsOpcode(op: AtomicsOpcode) u32 {
return @intFromEnum(op);
}
/// Enum representing all Wasm value types as per spec:
/// https://webassembly.github.io/spec/core/binary/types.html
pub const Valtype = enum(u8) {
i32 = 0x7F,
i64 = 0x7E,
f32 = 0x7D,
f64 = 0x7C,
v128 = 0x7B,
};
/// Returns the integer value of a `Valtype`
pub fn valtype(value: Valtype) u8 {
return @intFromEnum(value);
}
/// Reference types, where the funcref references to a function regardless of its type
/// and ref references an object from the embedder.
pub const RefType = enum(u8) {
funcref = 0x70,
externref = 0x6F,
};
/// Returns the integer value of a `Reftype`
pub fn reftype(value: RefType) u8 {
return @intFromEnum(value);
}
test "Wasm - valtypes" {
const _i32 = valtype(.i32);
const _i64 = valtype(.i64);
const _f32 = valtype(.f32);
const _f64 = valtype(.f64);
try testing.expectEqual(@as(u8, 0x7F), _i32);
try testing.expectEqual(@as(u8, 0x7E), _i64);
try testing.expectEqual(@as(u8, 0x7D), _f32);
try testing.expectEqual(@as(u8, 0x7C), _f64);
}
/// Limits classify the size range of resizeable storage associated with memory types and table types.
pub const Limits = struct {
flags: u8,
min: u32,
max: u32,
pub const Flags = enum(u8) {
WASM_LIMITS_FLAG_HAS_MAX = 0x1,
WASM_LIMITS_FLAG_IS_SHARED = 0x2,
};
pub fn hasFlag(limits: Limits, flag: Flags) bool {
return limits.flags & @intFromEnum(flag) != 0;
}
pub fn setFlag(limits: *Limits, flag: Flags) void {
limits.flags |= @intFromEnum(flag);
}
};
/// Initialization expressions are used to set the initial value on an object
/// when a wasm module is being loaded.
pub const InitExpression = union(enum) {
i32_const: i32,
i64_const: i64,
f32_const: f32,
f64_const: f64,
global_get: u32,
};
/// Represents a function entry, holding the index to its type
pub const Func = struct {
type_index: u32,
};
/// Tables are used to hold pointers to opaque objects.
/// This can either by any function, or an object from the host.
pub const Table = struct {
limits: Limits,
reftype: RefType,
};
/// Describes the layout of the memory where `min` represents
/// the minimal amount of pages, and the optional `max` represents
/// the max pages. When `null` will allow the host to determine the
/// amount of pages.
pub const Memory = struct {
limits: Limits,
};
/// Represents the type of a `Global` or an imported global.
pub const GlobalType = struct {
valtype: Valtype,
mutable: bool,
};
pub const Global = struct {
global_type: GlobalType,
init: InitExpression,
};
/// Notates an object to be exported from wasm
/// to the host.
pub const Export = struct {
name: []const u8,
kind: ExternalKind,
index: u32,
};
/// Element describes the layout of the table that can
/// be found at `table_index`
pub const Element = struct {
table_index: u32,
offset: InitExpression,
func_indexes: []const u32,
};
/// Imports are used to import objects from the host
pub const Import = struct {
module_name: []const u8,
name: []const u8,
kind: Kind,
pub const Kind = union(ExternalKind) {
function: u32,
table: Table,
memory: Limits,
global: GlobalType,
};
};
/// `Type` represents a function signature type containing both
/// a slice of parameters as well as a slice of return values.
pub const Type = struct {
params: []const Valtype,
returns: []const Valtype,
pub fn format(self: Type, comptime fmt: []const u8, opt: std.fmt.FormatOptions, writer: anytype) !void {
if (fmt.len != 0) std.fmt.invalidFmtError(fmt, self);
_ = opt;
try writer.writeByte('(');
for (self.params, 0..) |param, i| {
try writer.print("{s}", .{@tagName(param)});
if (i + 1 != self.params.len) {
try writer.writeAll(", ");
}
}
try writer.writeAll(") -> ");
if (self.returns.len == 0) {
try writer.writeAll("nil");
} else {
for (self.returns, 0..) |return_ty, i| {
try writer.print("{s}", .{@tagName(return_ty)});
if (i + 1 != self.returns.len) {
try writer.writeAll(", ");
}
}
}
}
pub fn eql(self: Type, other: Type) bool {
return std.mem.eql(Valtype, self.params, other.params) and
std.mem.eql(Valtype, self.returns, other.returns);
}
pub fn deinit(self: *Type, gpa: std.mem.Allocator) void {
gpa.free(self.params);
gpa.free(self.returns);
self.* = undefined;
}
};
/// Wasm module sections as per spec:
/// https://webassembly.github.io/spec/core/binary/modules.html
pub const Section = enum(u8) {
custom,
type,
import,
function,
table,
memory,
global,
@"export",
start,
element,
code,
data,
data_count,
_,
};
/// Returns the integer value of a given `Section`
pub fn section(val: Section) u8 {
return @intFromEnum(val);
}
/// The kind of the type when importing or exporting to/from the host environment.
/// https://webassembly.github.io/spec/core/syntax/modules.html
pub const ExternalKind = enum(u8) {
function,
table,
memory,
global,
};
/// Returns the integer value of a given `ExternalKind`
pub fn externalKind(val: ExternalKind) u8 {
return @intFromEnum(val);
}
/// Defines the enum values for each subsection id for the "Names" custom section
/// as described by:
/// https://webassembly.github.io/spec/core/appendix/custom.html?highlight=name#name-section
pub const NameSubsection = enum(u8) {
module,
function,
local,
label,
type,
table,
memory,
global,
elem_segment,
data_segment,
};
// type constants
pub const element_type: u8 = 0x70;
pub const function_type: u8 = 0x60;
pub const result_type: u8 = 0x40;
/// Represents a block which will not return a value
pub const block_empty: u8 = 0x40;
// binary constants
pub const magic = [_]u8{ 0x00, 0x61, 0x73, 0x6D }; // \0asm
pub const version = [_]u8{ 0x01, 0x00, 0x00, 0x00 }; // version 1 (MVP)
// Each wasm page size is 64kB
pub const page_size = 64 * 1024;