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wasm: bug fixes and memory based changes (#17497)

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l-m 2023-03-04 20:24:33 +11:00 committed by GitHub
parent 72cbca9653
commit 6f7192359a
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8 changed files with 149 additions and 93 deletions

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@ -4,17 +4,7 @@ module builtin
// Shitty `sbrk` basic `malloc` and `free` impl
// TODO: implement pure V `walloc` later
const wasm_page_size = 64 * 1024
__global g_heap_base = isize(0)
fn init() {
g_heap_base = __memory_grow(3)
if g_heap_base == -1 {
panic('g_heap_base: malloc() == nil')
}
g_heap_base *= wasm_page_size
}
__global g_heap_base = usize(__heap_base())
// malloc dynamically allocates a `n` bytes block of memory on the heap.
// malloc returns a `byteptr` pointing to the memory address of the allocated space.
@ -26,7 +16,7 @@ pub fn malloc(n isize) &u8 {
}
res := g_heap_base
g_heap_base += n
g_heap_base += usize(n)
return &u8(res)
}
@ -37,45 +27,3 @@ pub fn malloc(n isize) &u8 {
pub fn free(ptr voidptr) {
_ := ptr
}
// vcalloc dynamically allocates a zeroed `n` bytes block of memory on the heap.
// vcalloc returns a `byteptr` pointing to the memory address of the allocated space.
// Unlike `v_calloc` vcalloc checks for negative values given in `n`.
[unsafe]
pub fn vcalloc(n isize) &u8 {
if n <= 0 {
panic('vcalloc(n <= 0)')
} else if n == 0 {
return &u8(0)
}
res := unsafe { malloc(n) }
__memory_fill(res, 0, n)
return res
}
// vmemcpy copies n bytes from memory area src to memory area dest.
// The memory areas **CAN** overlap. vmemcpy returns a pointer to `dest`.
[unsafe]
pub fn vmemcpy(dest voidptr, const_src voidptr, n isize) voidptr {
__memory_copy(dest, const_src, n)
return dest
}
// vmemmove copies n bytes from memory area src to memory area dest.
// The memory areas **CAN** overlap. vmemmove returns a pointer to `dest`.
[unsafe]
pub fn vmemmove(dest voidptr, const_src voidptr, n isize) voidptr {
__memory_copy(dest, const_src, n)
return dest
}
// vmemset fills the first `n` bytes of the memory area pointed to by `s`,
// with the constant byte `c`. It returns a pointer to the memory area `s`.
[unsafe]
pub fn vmemset(s voidptr, c int, n isize) voidptr {
__memory_fill(s, c, n)
return s
}

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@ -1,5 +1,55 @@
module builtin
fn __memory_grow(size isize) isize
fn __heap_base() voidptr
fn __memory_size() usize
fn __memory_grow(size usize) usize
fn __memory_fill(dest &u8, value isize, size isize)
fn __memory_copy(dest &u8, src &u8, size isize)
// vcalloc dynamically allocates a zeroed `n` bytes block of memory on the heap.
// vcalloc returns a `byteptr` pointing to the memory address of the allocated space.
// Unlike `v_calloc` vcalloc checks for negative values given in `n`.
[unsafe]
pub fn vcalloc(n isize) &u8 {
if n <= 0 {
panic('vcalloc(n <= 0)')
} else if n == 0 {
return &u8(0)
}
res := unsafe { malloc(n) }
__memory_fill(res, 0, n)
return res
}
// isnil returns true if an object is nil (only for C objects).
[inline]
pub fn isnil(v voidptr) bool {
return v == 0
}
// vmemcpy copies n bytes from memory area src to memory area dest.
// The memory areas **CAN** overlap. vmemcpy returns a pointer to `dest`.
[unsafe]
pub fn vmemcpy(dest voidptr, const_src voidptr, n isize) voidptr {
__memory_copy(dest, const_src, n)
return dest
}
// vmemmove copies n bytes from memory area src to memory area dest.
// The memory areas **CAN** overlap. vmemmove returns a pointer to `dest`.
[unsafe]
pub fn vmemmove(dest voidptr, const_src voidptr, n isize) voidptr {
__memory_copy(dest, const_src, n)
return dest
}
// vmemset fills the first `n` bytes of the memory area pointed to by `s`,
// with the constant byte `c`. It returns a pointer to the memory area `s`.
[unsafe]
pub fn vmemset(s voidptr, c int, n isize) voidptr {
__memory_fill(s, c, n)
return s
}

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@ -57,5 +57,6 @@ pub fn exit(code int) {
pub fn panic(s string) {
eprint('V panic: ')
eprintln(s)
_ := *&u8(-1)
exit(1)
}

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@ -36,7 +36,7 @@ mut:
stack_patches []BlockPatch
needs_stack bool // If true, will use `memory` and `__vsp`
constant_data []ConstantData
constant_data_offset int
constant_data_offset int = 1024 // Low 1KiB of data unused, for optimisations
module_import_namespace string // `[wasm_import_namespace: 'wasi_snapshot_preview1']` else `env`
globals map[string]GlobalData
}
@ -159,7 +159,7 @@ fn (mut g Gen) function_return_wasm_type(typ ast.Type) binaryen.Type {
if typ == ast.void_type {
return type_none
}
types := g.unpack_type(typ).filter(g.table.sym(it).info !is ast.Struct).map(g.get_wasm_type(it))
types := g.unpack_type(typ).filter(it.is_real_pointer() || g.table.sym(it).info !is ast.Struct).map(g.get_wasm_type(it))
if types.len == 0 {
return type_none
}
@ -216,8 +216,10 @@ fn (mut g Gen) bare_function(name string, expr binaryen.Expression) binaryen.Fun
temporaries << g.local_temporaries[idx].typ
}
wasm_expr := g.setup_stack_frame(expr)
func := binaryen.addfunction(g.mod, name.str, type_none, type_none, temporaries.data,
temporaries.len, expr)
temporaries.len, wasm_expr)
g.local_temporaries.clear()
g.local_addresses = map[string]Stack{}
@ -272,7 +274,7 @@ fn (mut g Gen) fn_decl(node ast.FnDecl) {
for idx, typ in g.curr_ret {
sym := g.table.sym(typ)
if sym.info is ast.Struct {
if sym.info is ast.Struct && !typ.is_real_pointer() {
g.local_temporaries << Temporary{
name: '__return${idx}'
typ: type_i32 // pointer
@ -318,7 +320,7 @@ fn (mut g Gen) fn_decl(node ast.FnDecl) {
node.pos.col)
}
if g.pref.printfn_list.len > 0 && node.name in g.pref.printfn_list {
if g.pref.printfn_list.len > 0 && name in g.pref.printfn_list {
binaryen.expressionprint(wasm_expr)
}
@ -346,7 +348,7 @@ fn (mut g Gen) literalint(val i64, expected ast.Type) binaryen.Expression {
type_i64 { return binaryen.constant(g.mod, binaryen.literalint64(val)) }
else {}
}
g.w_error('literalint: bad type `${expected}`')
g.w_error('literalint: bad type `${*g.table.sym(expected)}`')
}
fn (mut g Gen) literal(val string, expected ast.Type) binaryen.Expression {
@ -360,14 +362,23 @@ fn (mut g Gen) literal(val string, expected ast.Type) binaryen.Expression {
g.w_error('literal: bad type `${expected}`')
}
fn (mut g Gen) handle_ptr_arithmetic(typ ast.Type, expr binaryen.Expression) binaryen.Expression {
return if typ.is_ptr() {
size, _ := g.get_type_size_align(typ)
binaryen.binary(g.mod, binaryen.mulint32(), expr, g.literalint(size, ast.voidptr_type))
} else {
expr
}
}
fn (mut g Gen) postfix_expr(node ast.PostfixExpr) binaryen.Expression {
kind := if node.op == .inc { token.Kind.plus } else { token.Kind.minus }
var := g.get_var_from_expr(node.expr)
op := g.infix_from_typ(node.typ, kind)
expr := binaryen.binary(g.mod, op, g.get_or_lea_lop(var, node.typ), g.literal('1',
node.typ))
expr := binaryen.binary(g.mod, op, g.get_or_lea_lop(var, node.typ), g.handle_ptr_arithmetic(node.typ,
g.literal('0', node.typ)))
return g.set_var(var, expr, ast_typ: node.typ)
}
@ -395,8 +406,8 @@ fn (mut g Gen) infix_expr(node ast.InfixExpr, expected ast.Type) binaryen.Expres
op := g.infix_from_typ(node.left_type, node.op)
infix := binaryen.binary(g.mod, op, g.expr(node.left, node.left_type), g.expr_with_cast(node.right,
node.right_type, node.left_type))
infix := binaryen.binary(g.mod, op, g.expr(node.left, node.left_type), g.handle_ptr_arithmetic(node.left_type,
g.expr_with_cast(node.right, node.right_type, node.left_type)))
res_typ := if infix_kind_return_bool(node.op) {
ast.bool_type
@ -492,7 +503,8 @@ fn (mut g Gen) if_expr(ifexpr ast.IfExpr) binaryen.Expression {
return g.if_branch(ifexpr, 0)
}
const wasm_builtins = ['__memory_grow', '__memory_fill', '__memory_copy']
const wasm_builtins = ['__memory_grow', '__memory_fill', '__memory_copy', '__memory_size',
'__heap_base']
fn (mut g Gen) wasm_builtin(name string, node ast.CallExpr) binaryen.Expression {
mut args := []binaryen.Expression{cap: node.args.len}
@ -510,6 +522,12 @@ fn (mut g Gen) wasm_builtin(name string, node ast.CallExpr) binaryen.Expression
'__memory_copy' {
return binaryen.memorycopy(g.mod, args[0], args[1], args[2], c'memory', c'memory')
}
'__memory_size' {
return binaryen.memorysize(g.mod, c'memory', false)
}
'__heap_base' {
return binaryen.globalget(g.mod, c'__heap_base', type_i32)
}
else {
panic('unreachable')
}
@ -666,6 +684,9 @@ fn (mut g Gen) expr_impl(node ast.Expr, expected ast.Type) binaryen.Expression {
g.literalint(off, ast.u32_type)
}
ast.SizeOf {
if !g.table.known_type_idx(node.typ) {
g.v_error('unknown type `${*g.table.sym(node.typ)}`', node.pos)
}
size, _ := g.table.type_size(node.typ)
g.literalint(size, ast.u32_type)
}
@ -705,6 +726,9 @@ fn (mut g Gen) expr_impl(node ast.Expr, expected ast.Type) binaryen.Expression {
ast.IntegerLiteral, ast.FloatLiteral {
g.literal(node.val, expected)
}
ast.Nil {
g.literalint(0, expected)
}
ast.IfExpr {
if node.branches.len == 2 && node.is_expr {
left := g.expr_stmts(node.branches[0].stmts, expected)
@ -755,7 +779,7 @@ fn (mut g Gen) expr_impl(node ast.Expr, expected ast.Type) binaryen.Expression {
}
ret_types := g.unpack_type(node.return_type)
structs := ret_types.filter(g.table.sym(it).info is ast.Struct)
structs := ret_types.filter(g.table.sym(it).info is ast.Struct && !it.is_real_pointer())
mut structs_addrs := []int{cap: structs.len}
// ABI: {return structs} {method `self`}, then {arguments}
@ -926,7 +950,8 @@ fn (mut g Gen) expr_stmt(node ast.Stmt, expected ast.Type) binaryen.Expression {
mut leave_expr_list := []binaryen.Expression{cap: node.exprs.len}
mut exprs := []binaryen.Expression{cap: node.exprs.len}
for idx, expr in node.exprs {
if g.table.sym(g.curr_ret[idx]).info is ast.Struct {
typ := g.curr_ret[idx]
if g.table.sym(typ).info is ast.Struct && !typ.is_real_pointer() {
// Could be adapted to use random pointers?
/*
if expr is ast.StructInit {
@ -934,12 +959,12 @@ fn (mut g Gen) expr_stmt(node ast.Stmt, expected ast.Type) binaryen.Expression {
leave_expr_list << g.init_struct(var, expr)
}*/
var := g.local_temporaries[g.get_local_temporary('__return${idx}')]
address := g.expr(expr, g.curr_ret[idx])
address := g.expr(expr, typ)
leave_expr_list << g.blit(address, g.curr_ret[idx], binaryen.localget(g.mod,
var.idx, var.typ))
leave_expr_list << g.blit(address, typ, binaryen.localget(g.mod, var.idx,
var.typ))
} else {
exprs << g.expr(expr, g.curr_ret[idx])
exprs << g.expr(expr, typ)
}
}
@ -1179,9 +1204,11 @@ pub fn gen(files []&ast.File, table &ast.Table, out_name string, w_pref &pref.Pr
mod: binaryen.modulecreate()
}
g.table.pointer_size = 4
// Offset all pointers by 8, so that 0 never points to valid memory
g.constant_data_offset = 8
binaryen.modulesetfeatures(g.mod, binaryen.featureall())
binaryen.setlowmemoryunused(true) // Low 1KiB of memory is unused.
defer {
binaryen.moduledispose(g.mod)
}
if g.pref.os == .browser {
eprintln('`-os browser` is experimental and will not live up to expectations...')
@ -1202,26 +1229,31 @@ pub fn gen(files []&ast.File, table &ast.Table, out_name string, w_pref &pref.Pr
g.needs_stack = true
}
g.housekeeping()
if binaryen.modulevalidate(g.mod) {
mut valid := binaryen.modulevalidate(g.mod)
if valid {
binaryen.setdebuginfo(w_pref.is_debug)
if w_pref.is_prod {
binaryen.setoptimizelevel(3)
binaryen.moduleoptimize(g.mod)
}
if out_name == '-' {
if g.pref.is_verbose {
binaryen.moduleprint(g.mod)
} else {
binaryen.moduleprintstackir(g.mod, w_pref.is_prod)
}
}
if out_name == '-' {
if g.pref.is_verbose {
binaryen.moduleprint(g.mod)
} else {
bytes := binaryen.moduleallocateandwrite(g.mod, unsafe { nil })
str := unsafe { (&char(bytes.binary)).vstring_with_len(int(bytes.binaryBytes)) }
os.write_file(out_name, str) or { panic(err) }
binaryen.moduleprintstackir(g.mod, w_pref.is_prod)
}
} else {
binaryen.moduledispose(g.mod)
}
if !valid {
g.w_error('validation failed, this should not happen. report an issue with the above messages')
}
binaryen.moduledispose(g.mod)
if out_name != '-' {
bytes := binaryen.moduleallocateandwrite(g.mod, unsafe { nil })
str := unsafe { (&char(bytes.binary)).vstring_with_len(int(bytes.binaryBytes)) }
os.write_file(out_name, str) or { panic(err) }
}
}

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@ -142,7 +142,7 @@ fn (mut g Gen) get_or_lea_lop(lp LocalOrPointer, expected ast.Type) binaryen.Exp
}
}
if !is_expr && parent_typ == expected {
if (!is_expr && parent_typ == expected) || !g.is_pure_type(expected) {
return expr
}
@ -235,6 +235,9 @@ fn (mut g Gen) get_var_from_expr(node ast.Expr) LocalOrPointer {
ast.Ident {
g.get_var_from_ident(node)
}
ast.ParExpr {
g.get_var_from_expr(node.expr)
}
ast.SelectorExpr {
address := g.get_var_from_expr(node.expr)
offset := g.get_field_offset(node.expr_type, node.field_name)

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@ -21,6 +21,7 @@ fn (mut g Gen) get_wasm_type(typ_ ast.Type) binaryen.Type {
return wasm.type_none
}
if typ.is_real_pointer() {
g.needs_stack = true
return wasm.type_i32
}
if typ in ast.number_type_idxs {
@ -64,6 +65,9 @@ fn (mut g Gen) get_wasm_type(typ_ ast.Type) binaryen.Type {
ast.ArrayFixed {
return wasm.type_i32
}
ast.Enum {
return g.get_wasm_type(ts.info.typ)
}
else {}
}

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@ -130,6 +130,13 @@ fn (mut g Gen) housekeeping() {
// `_vinit` should be used to initialise the WASM module,
// then `main.main` can be called safely.
vinit := g.make_vinit()
stack_base := round_up_to_multiple(g.constant_data_offset, 1024)
heap_base := if g.needs_stack {
stack_base + 1024 * 16 // 16KiB of stack
} else {
stack_base
}
pages_needed := heap_base / (1024 * 64) + 1
if g.needs_stack || g.constant_data.len != 0 {
data := g.constant_data.map(it.data.data)
@ -137,14 +144,14 @@ fn (mut g Gen) housekeeping() {
data_offsets := g.constant_data.map(binaryen.constant(g.mod, binaryen.literalint32(it.offset)))
passive := []bool{len: g.constant_data.len, init: false}
binaryen.setmemory(g.mod, 1, 4, c'memory', data.data, passive.data, data_offsets.data,
data_len.data, data.len, false, false, c'memory')
binaryen.setmemory(g.mod, pages_needed, pages_needed + 4, c'memory', data.data,
passive.data, data_offsets.data, data_len.data, data.len, false, false, c'memory')
binaryen.addglobal(g.mod, c'__heap_base', type_i32, false, g.literalint(heap_base,
ast.int_type))
}
if g.needs_stack {
// `g.constant_data_offset` rounded up to a multiple of 1024
offset := round_up_to_multiple(g.constant_data_offset, 1024)
binaryen.addglobal(g.mod, c'__vsp', type_i32, true, g.literalint(offset, ast.int_type))
binaryen.addglobal(g.mod, c'__vsp', type_i32, true, g.literalint(stack_base, ast.int_type))
}
if g.pref.os == .wasi {
main_expr := g.mkblock([binaryen.call(g.mod, c'_vinit', unsafe { nil }, 0, type_none),

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@ -26,3 +26,14 @@ fn test_this(index int) int {
}
return 10
}
struct AA {
a [10]&int
}
fn main() {
a := AA{}
mut b := &int(0)
b = a.a[2]
}