diff --git a/src/aro/Compilation.zig b/src/aro/Compilation.zig index dcf5671a..7ca4cb99 100644 --- a/src/aro/Compilation.zig +++ b/src/aro/Compilation.zig @@ -909,7 +909,7 @@ fn generateNsConstantStringType(comp: *Compilation) !void { comp.types.ns_constant_string.fields[2] = .{ .name = try StrInt.intern(comp, "str"), .ty = const_char_ptr }; comp.types.ns_constant_string.fields[3] = .{ .name = try StrInt.intern(comp, "length"), .ty = .{ .specifier = .long } }; comp.types.ns_constant_string.ty = .{ .specifier = .@"struct", .data = .{ .record = &comp.types.ns_constant_string.record } }; - record_layout.compute(&comp.types.ns_constant_string.record, comp.types.ns_constant_string.ty, comp, null); + record_layout.compute(&comp.types.ns_constant_string.record, comp.types.ns_constant_string.ty, comp, null) catch unreachable; } fn generateVaListType(comp: *Compilation) !Type { @@ -957,7 +957,7 @@ fn generateVaListType(comp: *Compilation) !Type { record_ty.fields[3] = .{ .name = try StrInt.intern(comp, "__gr_offs"), .ty = .{ .specifier = .int } }; record_ty.fields[4] = .{ .name = try StrInt.intern(comp, "__vr_offs"), .ty = .{ .specifier = .int } }; ty = .{ .specifier = .@"struct", .data = .{ .record = record_ty } }; - record_layout.compute(record_ty, ty, comp, null); + record_layout.compute(record_ty, ty, comp, null) catch unreachable; }, .x86_64_va_list => { const record_ty = try arena.create(Type.Record); @@ -975,7 +975,7 @@ fn generateVaListType(comp: *Compilation) !Type { record_ty.fields[2] = .{ .name = try StrInt.intern(comp, "overflow_arg_area"), .ty = void_ptr }; record_ty.fields[3] = .{ .name = try StrInt.intern(comp, "reg_save_area"), .ty = void_ptr }; ty = .{ .specifier = .@"struct", .data = .{ .record = record_ty } }; - record_layout.compute(record_ty, ty, comp, null); + record_layout.compute(record_ty, ty, comp, null) catch unreachable; }, } if (kind == .char_ptr or kind == .void_ptr) { diff --git a/src/aro/Parser.zig b/src/aro/Parser.zig index 67b21739..687da78e 100644 --- a/src/aro/Parser.zig +++ b/src/aro/Parser.zig @@ -2263,7 +2263,9 @@ fn recordSpec(p: *Parser) Error!Type { // TODO: msvc considers `#pragma pack` on a per-field basis .msvc => p.pragma_pack, }; - record_layout.compute(record_ty, ty, p.comp, pragma_pack_value); + record_layout.compute(record_ty, ty, p.comp, pragma_pack_value) catch |er| switch (er) { + error.Overflow => {}, // TODO: handle + }; } // finish by creating a node diff --git a/src/aro/record_layout.zig b/src/aro/record_layout.zig index 2009a29b..0441b76c 100644 --- a/src/aro/record_layout.zig +++ b/src/aro/record_layout.zig @@ -19,6 +19,13 @@ const OngoingBitfield = struct { unused_size_bits: u64, }; +pub const Error = error{Overflow}; + +fn alignForward(addr: u64, alignment: u64) !u64 { + const forward_addr = try std.math.add(u64, addr, alignment - 1); + return std.mem.alignBackward(u64, forward_addr, alignment); +} + const SysVContext = struct { /// Does the record have an __attribute__((packed)) annotation. attr_packed: bool, @@ -36,14 +43,8 @@ const SysVContext = struct { comp: *const Compilation, fn init(ty: Type, comp: *const Compilation, pragma_pack: ?u8) SysVContext { - var pack_value: ?u64 = null; - if (pragma_pack) |pak| { - pack_value = pak * BITS_PER_BYTE; - } - var req_align: u29 = BITS_PER_BYTE; - if (ty.requestedAlignment(comp)) |aln| { - req_align = aln * BITS_PER_BYTE; - } + const pack_value: ?u64 = if (pragma_pack) |pak| @as(u64, pak) * BITS_PER_BYTE else null; + const req_align = @as(u32, (ty.requestedAlignment(comp) orelse 1)) * BITS_PER_BYTE; return SysVContext{ .attr_packed = ty.hasAttribute(.@"packed"), .max_field_align_bits = pack_value, @@ -55,7 +56,7 @@ const SysVContext = struct { }; } - fn layoutFields(self: *SysVContext, rec: *const Record) void { + fn layoutFields(self: *SysVContext, rec: *const Record) !void { for (rec.fields, 0..) |*fld, fld_indx| { if (fld.ty.specifier == .invalid) continue; const type_layout = computeLayout(fld.ty, self.comp); @@ -65,12 +66,12 @@ const SysVContext = struct { field_attrs = attrs[fld_indx]; } if (self.comp.target.isMinGW()) { - fld.layout = self.layoutMinGWField(fld, field_attrs, type_layout); + fld.layout = try self.layoutMinGWField(fld, field_attrs, type_layout); } else { if (fld.isRegularField()) { - fld.layout = self.layoutRegularField(field_attrs, type_layout); + fld.layout = try self.layoutRegularField(field_attrs, type_layout); } else { - fld.layout = self.layoutBitField(field_attrs, type_layout, fld.isNamed(), fld.specifiedBitWidth()); + fld.layout = try self.layoutBitField(field_attrs, type_layout, fld.isNamed(), fld.specifiedBitWidth()); } } } @@ -99,7 +100,7 @@ const SysVContext = struct { field: *const Field, field_attrs: ?[]const Attribute, field_layout: TypeLayout, - ) FieldLayout { + ) !FieldLayout { const annotation_alignment_bits = BITS_PER_BYTE * (Type.annotationAlignment(self.comp, field_attrs) orelse 1); const is_attr_packed = self.attr_packed or isPacked(field_attrs); const ignore_type_alignment = ignoreTypeAlignment(is_attr_packed, field.bit_width, self.ongoing_bitfield, field_layout); @@ -157,7 +158,7 @@ const SysVContext = struct { field_alignment_bits: u64, is_named: bool, width: u64, - ) FieldLayout { + ) !FieldLayout { std.debug.assert(width <= ty_size_bits); // validated in parser // In a union, the size of the underlying type does not affect the size of the union. @@ -194,8 +195,8 @@ const SysVContext = struct { .unused_size_bits = ty_size_bits - width, }; } - const offset_bits = std.mem.alignForward(u64, self.size_bits, field_alignment_bits); - self.size_bits = if (width == 0) offset_bits else offset_bits + ty_size_bits; + const offset_bits = try alignForward(self.size_bits, field_alignment_bits); + self.size_bits = if (width == 0) offset_bits else try std.math.add(u64, offset_bits, ty_size_bits); if (!is_named) return .{}; return .{ .offset_bits = offset_bits, @@ -207,16 +208,16 @@ const SysVContext = struct { self: *SysVContext, ty_size_bits: u64, field_alignment_bits: u64, - ) FieldLayout { + ) !FieldLayout { self.ongoing_bitfield = null; // A struct field starts at the next offset in the struct that is properly // aligned with respect to the start of the struct. See test case 0033. // A union field always starts at offset 0. - const offset_bits = if (self.is_union) 0 else std.mem.alignForward(u64, self.size_bits, field_alignment_bits); + const offset_bits = if (self.is_union) 0 else try alignForward(self.size_bits, field_alignment_bits); // Set the size of the record to the maximum of the current size and the end of // the field. See test case 0034. - self.size_bits = @max(self.size_bits, offset_bits + ty_size_bits); + self.size_bits = @max(self.size_bits, try std.math.add(u64, offset_bits, ty_size_bits)); return .{ .offset_bits = offset_bits, @@ -228,7 +229,7 @@ const SysVContext = struct { self: *SysVContext, fld_attrs: ?[]const Attribute, fld_layout: TypeLayout, - ) FieldLayout { + ) !FieldLayout { var fld_align_bits = fld_layout.field_alignment_bits; // If the struct or the field is packed, then the alignment of the underlying type is @@ -240,7 +241,7 @@ const SysVContext = struct { // The field alignment can be increased by __attribute__((aligned)) annotations on the // field. See test case 0085. if (Type.annotationAlignment(self.comp, fld_attrs)) |anno| { - fld_align_bits = @max(fld_align_bits, anno * BITS_PER_BYTE); + fld_align_bits = @max(fld_align_bits, @as(u32, anno) * BITS_PER_BYTE); } // #pragma pack takes precedence over all other attributes. See test cases 0084 and @@ -251,12 +252,12 @@ const SysVContext = struct { // A struct field starts at the next offset in the struct that is properly // aligned with respect to the start of the struct. - const offset_bits = if (self.is_union) 0 else std.mem.alignForward(u64, self.size_bits, fld_align_bits); + const offset_bits = if (self.is_union) 0 else try alignForward(self.size_bits, fld_align_bits); const size_bits = fld_layout.size_bits; // The alignment of a record is the maximum of its field alignments. See test cases // 0084, 0085, 0086. - self.size_bits = @max(self.size_bits, offset_bits + size_bits); + self.size_bits = @max(self.size_bits, try std.math.add(u64, offset_bits, size_bits)); self.aligned_bits = @max(self.aligned_bits, fld_align_bits); return .{ @@ -271,7 +272,7 @@ const SysVContext = struct { fld_layout: TypeLayout, is_named: bool, bit_width: u64, - ) FieldLayout { + ) !FieldLayout { const ty_size_bits = fld_layout.size_bits; var ty_fld_algn_bits: u32 = fld_layout.field_alignment_bits; @@ -301,7 +302,7 @@ const SysVContext = struct { const attr_packed = self.attr_packed or isPacked(fld_attrs); const has_packing_annotation = attr_packed or self.max_field_align_bits != null; - const annotation_alignment: u32 = if (Type.annotationAlignment(self.comp, fld_attrs)) |anno| anno * BITS_PER_BYTE else 1; + const annotation_alignment = if (Type.annotationAlignment(self.comp, fld_attrs)) |anno| @as(u32, anno) * BITS_PER_BYTE else 1; const first_unused_bit: u64 = if (self.is_union) 0 else self.size_bits; var field_align_bits: u64 = 1; @@ -322,7 +323,7 @@ const SysVContext = struct { // - the alignment of the type is larger than its size, // then it is aligned to the type's field alignment. See test case 0083. if (!has_packing_annotation) { - const start_bit = std.mem.alignForward(u64, first_unused_bit, field_align_bits); + const start_bit = try alignForward(first_unused_bit, field_align_bits); const does_field_cross_boundary = start_bit % ty_fld_algn_bits + bit_width > ty_size_bits; @@ -349,8 +350,8 @@ const SysVContext = struct { } } - const offset_bits = std.mem.alignForward(u64, first_unused_bit, field_align_bits); - self.size_bits = @max(self.size_bits, offset_bits + bit_width); + const offset_bits = try alignForward(first_unused_bit, field_align_bits); + self.size_bits = @max(self.size_bits, try std.math.add(u64, offset_bits, bit_width)); // Unnamed fields do not contribute to the record alignment except on a few targets. // See test case 0079. @@ -419,10 +420,7 @@ const MsvcContext = struct { // The required alignment can be increased by adding a __declspec(align) // annotation. See test case 0023. - var must_align: u29 = BITS_PER_BYTE; - if (ty.requestedAlignment(comp)) |req_align| { - must_align = req_align * BITS_PER_BYTE; - } + const must_align = @as(u32, (ty.requestedAlignment(comp) orelse 1)) * BITS_PER_BYTE; return MsvcContext{ .req_align_bits = must_align, .pointer_align_bits = must_align, @@ -436,7 +434,7 @@ const MsvcContext = struct { }; } - fn layoutField(self: *MsvcContext, fld: *const Field, fld_attrs: ?[]const Attribute) FieldLayout { + fn layoutField(self: *MsvcContext, fld: *const Field, fld_attrs: ?[]const Attribute) !FieldLayout { const type_layout = computeLayout(fld.ty, self.comp); // The required alignment of the field is the maximum of the required alignment of the @@ -444,7 +442,7 @@ const MsvcContext = struct { // See test case 0028. var req_align = type_layout.required_alignment_bits; if (Type.annotationAlignment(self.comp, fld_attrs)) |anno| { - req_align = @max(anno * BITS_PER_BYTE, req_align); + req_align = @max(@as(u32, anno) * BITS_PER_BYTE, req_align); } // The required alignment of a record is the maximum of the required alignments of its @@ -480,7 +478,7 @@ const MsvcContext = struct { } } - fn layoutBitField(self: *MsvcContext, ty_size_bits: u64, field_align: u32, bit_width: u32) FieldLayout { + fn layoutBitField(self: *MsvcContext, ty_size_bits: u64, field_align: u32, bit_width: u32) !FieldLayout { if (bit_width == 0) { // A zero-sized bit-field that does not follow a non-zero-sized bit-field does not affect // the overall layout of the record. Even in a union where the order would otherwise @@ -522,7 +520,7 @@ const MsvcContext = struct { self.pointer_align_bits = @max(self.pointer_align_bits, p_align); self.field_align_bits = @max(self.field_align_bits, field_align); - const offset_bits = std.mem.alignForward(u64, self.size_bits, field_align); + const offset_bits = try alignForward(self.size_bits, field_align); self.size_bits = if (bit_width == 0) offset_bits else offset_bits + ty_size_bits; break :bits offset_bits; @@ -534,7 +532,7 @@ const MsvcContext = struct { return .{ .offset_bits = offset_bits, .size_bits = bit_width }; } - fn layoutRegularField(self: *MsvcContext, size_bits: u64, field_align: u32) FieldLayout { + fn layoutRegularField(self: *MsvcContext, size_bits: u64, field_align: u32) !FieldLayout { self.contains_non_bitfield = true; self.ongoing_bitfield = null; // The alignment of the field affects both the pointer alignment and the field @@ -543,7 +541,7 @@ const MsvcContext = struct { self.field_align_bits = @max(self.field_align_bits, field_align); const offset_bits = switch (self.is_union) { true => 0, - false => std.mem.alignForward(u64, self.size_bits, field_align), + false => try alignForward(self.size_bits, field_align), }; self.size_bits = @max(self.size_bits, offset_bits + size_bits); return .{ .offset_bits = offset_bits, .size_bits = size_bits }; @@ -569,14 +567,14 @@ const MsvcContext = struct { } }; -pub fn compute(rec: *Type.Record, ty: Type, comp: *const Compilation, pragma_pack: ?u8) void { +pub fn compute(rec: *Type.Record, ty: Type, comp: *const Compilation, pragma_pack: ?u8) Error!void { switch (comp.langopts.emulate) { .gcc, .clang => { var context = SysVContext.init(ty, comp, pragma_pack); - context.layoutFields(rec); + try context.layoutFields(rec); - context.size_bits = std.mem.alignForward(u64, context.size_bits, context.aligned_bits); + context.size_bits = try alignForward(context.size_bits, context.aligned_bits); rec.type_layout = .{ .size_bits = context.size_bits, @@ -594,7 +592,7 @@ pub fn compute(rec: *Type.Record, ty: Type, comp: *const Compilation, pragma_pac field_attrs = attrs[fld_indx]; } - fld.layout = context.layoutField(fld, field_attrs); + fld.layout = try context.layoutField(fld, field_attrs); } if (context.size_bits == 0) { // As an extension, MSVC allows records that only contain zero-sized bitfields and empty @@ -602,7 +600,7 @@ pub fn compute(rec: *Type.Record, ty: Type, comp: *const Compilation, pragma_pac // ensure that there are no zero-sized records. context.handleZeroSizedRecord(); } - context.size_bits = std.mem.alignForward(u64, context.size_bits, context.pointer_align_bits); + context.size_bits = try alignForward(context.size_bits, context.pointer_align_bits); rec.type_layout = .{ .size_bits = context.size_bits, .field_alignment_bits = context.field_align_bits,