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x86_64: split MCValue.tlv_reloc into .load_tlv and .lea_tlv

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`.load_tlv` signifies we want to load the value of a TLV
`.lea_tlv` signifies we want to load effective address of a TLV
This commit is contained in:
Jakub Konka 2023-04-15 00:57:17 +02:00
parent 0733c8c5ca
commit 179117c114
6 changed files with 126 additions and 63 deletions
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2
src/arch/aarch64/CodeGen.zig
View File

@ -6171,7 +6171,7 @@ fn genTypedValue(self: *Self, arg_tv: TypedValue) InnerError!MCValue {
.linker_load => |ll| .{ .linker_load = ll },
.immediate => |imm| .{ .immediate = imm },
.memory => |addr| .{ .memory = addr },
.tlv_reloc => unreachable, // TODO
.load_tlv => unreachable, // TODO
},
.fail => |msg| {
self.err_msg = msg;

2
src/arch/arm/CodeGen.zig
View File

@ -6114,7 +6114,7 @@ fn genTypedValue(self: *Self, arg_tv: TypedValue) InnerError!MCValue {
.mcv => |mcv| switch (mcv) {
.none => .none,
.undef => .undef,
.tlv_reloc, .linker_load => unreachable, // TODO
.load_tlv, .linker_load => unreachable, // TODO
.immediate => |imm| .{ .immediate = @truncate(u32, imm) },
.memory => |addr| .{ .memory = addr },
},

2
src/arch/riscv64/CodeGen.zig
View File

@ -2572,7 +2572,7 @@ fn genTypedValue(self: *Self, typed_value: TypedValue) InnerError!MCValue {
.mcv => |mcv| switch (mcv) {
.none => .none,
.undef => .undef,
.tlv_reloc, .linker_load => unreachable, // TODO
.load_tlv, .linker_load => unreachable, // TODO
.immediate => |imm| .{ .immediate = imm },
.memory => |addr| .{ .memory = addr },
},

2
src/arch/sparc64/CodeGen.zig
View File

@ -3931,7 +3931,7 @@ fn genTypedValue(self: *Self, typed_value: TypedValue) InnerError!MCValue {
.mcv => |mcv| switch (mcv) {
.none => .none,
.undef => .undef,
.tlv_reloc, .linker_load => unreachable, // TODO
.load_tlv, .linker_load => unreachable, // TODO
.immediate => |imm| .{ .immediate = imm },
.memory => |addr| .{ .memory = addr },
},

173
src/arch/x86_64/CodeGen.zig
View File

@ -132,10 +132,12 @@ pub const MCValue = union(enum) {
memory: u64,
/// The value is in memory but requires a linker relocation fixup.
linker_load: codegen.LinkerLoad,
/// Pointer to a threadlocal variable.
/// The address resolution will be deferred until the linker allocates everything in virtual memory.
/// The value is a threadlocal variable.
/// Payload is a symbol index.
tlv_reloc: u32,
load_tlv: u32,
/// The value is a pointer to threadlocal variable.
/// Payload is a symbol index.
lea_tlv: u32,
/// The value is one of the stack variables.
/// If the type is a pointer, it means the pointer address is in the stack at this offset.
stack_offset: i32,
@ -150,7 +152,8 @@ pub const MCValue = union(enum) {
.stack_offset,
.ptr_stack_offset,
.linker_load,
.tlv_reloc,
.load_tlv,
.lea_tlv,
=> true,
else => false,
};
@ -2923,7 +2926,8 @@ fn airArrayElemVal(self: *Self, inst: Air.Inst.Index) !void {
}));
},
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.tlv_reloc => try self.genSetReg(array_ty, addr_reg, array),
.lea_tlv => unreachable,
.load_tlv => |sym_index| try self.genSetReg(array_ty, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -3650,7 +3654,8 @@ fn load(self: *Self, dst_mcv: MCValue, ptr: MCValue, ptr_ty: Type) InnerError!vo
else => return self.fail("TODO implement loading from register into {}", .{dst_mcv}),
}
},
.memory, .tlv_reloc => {
.load_tlv => |sym_index| try self.load(dst_mcv, .{ .lea_tlv = sym_index }, ptr_ty),
.memory, .lea_tlv => {
const reg = try self.copyToTmpRegister(ptr_ty, ptr);
try self.load(dst_mcv, .{ .register = reg }, ptr_ty);
},
@ -3806,7 +3811,7 @@ fn store(self: *Self, ptr: MCValue, value: MCValue, ptr_ty: Type, value_ty: Type
-@intCast(i32, overflow_bit_offset),
);
},
.memory, .linker_load => if (abi_size <= 8) {
.memory, .load_tlv, .linker_load => if (abi_size <= 8) {
const tmp_reg = try self.copyToTmpRegister(value_ty, value);
const tmp_lock = self.register_manager.lockRegAssumeUnused(tmp_reg);
defer self.register_manager.unlockReg(tmp_lock);
@ -3819,6 +3824,7 @@ fn store(self: *Self, ptr: MCValue, value: MCValue, ptr_ty: Type, value_ty: Type
switch (value) {
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -3855,7 +3861,7 @@ fn store(self: *Self, ptr: MCValue, value: MCValue, ptr_ty: Type, value_ty: Type
.{ .immediate = abi_size },
.{},
),
.ptr_stack_offset, .tlv_reloc => {
.ptr_stack_offset, .lea_tlv => {
const tmp_reg = try self.copyToTmpRegister(value_ty, value);
const tmp_lock = self.register_manager.lockRegAssumeUnused(tmp_reg);
defer self.register_manager.unlockReg(tmp_lock);
@ -3864,7 +3870,7 @@ fn store(self: *Self, ptr: MCValue, value: MCValue, ptr_ty: Type, value_ty: Type
},
}
},
.memory, .linker_load => {
.memory, .load_tlv, .linker_load => {
const value_lock: ?RegisterLock = switch (value) {
.register => |reg| self.register_manager.lockReg(reg),
else => null,
@ -3881,6 +3887,7 @@ fn store(self: *Self, ptr: MCValue, value: MCValue, ptr_ty: Type, value_ty: Type
// Load the pointer, which is stored in memory
try self.asmRegisterMemory(.mov, addr_reg, Memory.sib(.qword, .{ .base = addr_reg }));
},
.load_tlv => |sym_index| try self.genSetReg(ptr_ty, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -3900,8 +3907,8 @@ fn store(self: *Self, ptr: MCValue, value: MCValue, ptr_ty: Type, value_ty: Type
const new_ptr = MCValue{ .register = addr_reg };
try self.store(new_ptr, value, ptr_ty, value_ty);
},
.tlv_reloc => {
const addr_reg = try self.copyToTmpRegister(Type.usize, ptr);
.lea_tlv => {
const addr_reg = try self.copyToTmpRegister(ptr_ty, ptr);
const addr_reg_lock = self.register_manager.lockRegAssumeUnused(addr_reg);
defer self.register_manager.unlockReg(addr_reg_lock);
@ -3953,14 +3960,17 @@ fn fieldPtr(self: *Self, inst: Air.Inst.Index, operand: Air.Inst.Ref, index: u32
const dst_mcv: MCValue = result: {
switch (mcv) {
.stack_offset, .tlv_reloc => {
.stack_offset, .lea_tlv, .load_tlv => {
const offset_reg = try self.copyToTmpRegister(ptr_ty, .{
.immediate = field_offset,
});
const offset_reg_lock = self.register_manager.lockRegAssumeUnused(offset_reg);
defer self.register_manager.unlockReg(offset_reg_lock);
const dst_mcv = try self.copyToRegisterWithInstTracking(inst, ptr_ty, mcv);
const dst_mcv = try self.copyToRegisterWithInstTracking(inst, ptr_ty, switch (mcv) {
.load_tlv => |sym_index| .{ .lea_tlv = sym_index },
else => mcv,
});
try self.genBinOpMir(.add, ptr_ty, dst_mcv, .{ .register = offset_reg });
break :result dst_mcv;
},
@ -4235,14 +4245,15 @@ fn genUnOpMir(self: *Self, mir_tag: Mir.Inst.Tag, dst_ty: Type, dst_mcv: MCValue
}));
},
.ptr_stack_offset => unreachable,
.tlv_reloc => unreachable,
.memory, .linker_load => {
.lea_tlv => unreachable,
.memory, .load_tlv, .linker_load => {
const addr_reg = (try self.register_manager.allocReg(null, gp)).to64();
const addr_reg_lock = self.register_manager.lockRegAssumeUnused(addr_reg);
defer self.register_manager.unlockReg(addr_reg_lock);
switch (dst_mcv) {
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -4756,7 +4767,10 @@ fn genBinOp(
}
}
const dst_mcv = try self.allocRegOrMemAdvanced(lhs_ty, maybe_inst, true);
try self.setRegOrMem(lhs_ty, dst_mcv, lhs);
try self.setRegOrMem(lhs_ty, dst_mcv, switch (lhs) {
.load_tlv => |sym_index| .{ .lea_tlv = sym_index },
else => lhs,
});
break :dst dst_mcv;
};
const dst_mcv_lock: ?RegisterLock = switch (dst_mcv) {
@ -4897,7 +4911,7 @@ fn genBinOp(
.eflags,
.register_overflow,
.ptr_stack_offset,
.tlv_reloc,
.lea_tlv,
=> unreachable,
.register => |src_reg| try self.asmCmovccRegisterRegister(
registerAlias(tmp_reg, cmov_abi_size),
@ -4912,13 +4926,14 @@ fn genBinOp(
}),
cc,
),
.memory, .linker_load => {
.memory, .load_tlv, .linker_load => {
const addr_reg = (try self.register_manager.allocReg(null, gp)).to64();
const addr_reg_lock = self.register_manager.lockRegAssumeUnused(addr_reg);
defer self.register_manager.unlockReg(addr_reg_lock);
switch (mat_src_mcv) {
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -4982,13 +4997,6 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
.undef => unreachable,
.dead, .unreach => unreachable,
.register_overflow => unreachable,
.ptr_stack_offset, .tlv_reloc => {
const dst_reg_lock = self.register_manager.lockReg(dst_reg);
defer if (dst_reg_lock) |lock| self.register_manager.unlockReg(lock);
const reg = try self.copyToTmpRegister(ty, src_mcv);
return self.genBinOpMir(mir_tag, ty, dst_mcv, .{ .register = reg });
},
.register => |src_reg| switch (ty.zigTypeTag()) {
.Float => {
if (intrinsicsAllowed(self.target.*, ty)) {
@ -5037,7 +5045,7 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
)),
else => unreachable,
},
.memory, .linker_load, .eflags => {
.ptr_stack_offset, .memory, .lea_tlv, .load_tlv, .linker_load, .eflags => {
assert(abi_size <= 8);
const dst_reg_lock = self.register_manager.lockReg(dst_reg);
defer if (dst_reg_lock) |lock| self.register_manager.unlockReg(lock);
@ -5052,19 +5060,20 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
),
}
},
.memory, .linker_load, .stack_offset => {
.memory, .load_tlv, .linker_load, .stack_offset => {
const dst: ?struct {
addr_reg: Register,
addr_lock: RegisterLock,
} = switch (dst_mcv) {
else => unreachable,
.memory, .linker_load => dst: {
.memory, .load_tlv, .linker_load => dst: {
const dst_addr_reg = (try self.register_manager.allocReg(null, gp)).to64();
const dst_addr_lock = self.register_manager.lockRegAssumeUnused(dst_addr_reg);
errdefer self.register_manager.unlockReg(dst_addr_lock);
switch (dst_mcv) {
.memory => |addr| try self.genSetReg(Type.usize, dst_addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, dst_addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -5099,7 +5108,7 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
addr_lock: RegisterLock,
} = switch (src_mcv) {
else => null,
.memory, .linker_load => src: {
.memory, .load_tlv, .linker_load => src: {
const src_limb_reg = try self.register_manager.allocReg(null, gp);
const src_limb_lock = self.register_manager.lockRegAssumeUnused(src_limb_reg);
errdefer self.register_manager.unlockReg(src_limb_lock);
@ -5110,6 +5119,7 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
switch (src_mcv) {
.memory => |addr| try self.genSetReg(Type.usize, src_addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, src_addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -5233,7 +5243,7 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
else => unreachable,
}
},
.memory, .linker_load, .tlv_reloc => {
.memory, .linker_load, .lea_tlv, .load_tlv => {
try self.asmRegisterMemory(
.mov,
registerAlias(src.?.limb_reg, limb_abi_size),
@ -5272,7 +5282,7 @@ fn genBinOpMir(self: *Self, mir_tag: Mir.Inst.Tag, ty: Type, dst_mcv: MCValue, s
}
},
.ptr_stack_offset => unreachable,
.tlv_reloc => unreachable,
.lea_tlv => unreachable,
}
}
@ -5286,7 +5296,7 @@ fn genIntMulComplexOpMir(self: *Self, dst_ty: Type, dst_mcv: MCValue, src_mcv: M
.dead, .unreach, .immediate => unreachable,
.eflags => unreachable,
.ptr_stack_offset => unreachable,
.tlv_reloc => unreachable,
.lea_tlv => unreachable,
.register_overflow => unreachable,
.register => |dst_reg| {
const dst_alias = registerAlias(dst_reg, abi_size);
@ -5298,7 +5308,7 @@ fn genIntMulComplexOpMir(self: *Self, dst_ty: Type, dst_mcv: MCValue, src_mcv: M
.undef => try self.genSetReg(dst_ty, dst_reg, .undef),
.dead, .unreach => unreachable,
.ptr_stack_offset => unreachable,
.tlv_reloc => unreachable,
.lea_tlv => unreachable,
.register_overflow => unreachable,
.register => |src_reg| try self.asmRegisterRegister(
.imul,
@ -5325,7 +5335,7 @@ fn genIntMulComplexOpMir(self: *Self, dst_ty: Type, dst_mcv: MCValue, src_mcv: M
Memory.sib(Memory.PtrSize.fromSize(abi_size), .{ .base = .rbp, .disp = -off }),
);
},
.memory => {
.memory, .load_tlv => {
return self.fail("TODO implement x86 multiply source memory", .{});
},
.linker_load => {
@ -5342,7 +5352,7 @@ fn genIntMulComplexOpMir(self: *Self, dst_ty: Type, dst_mcv: MCValue, src_mcv: M
.undef => return self.genSetStack(dst_ty, off, .undef, .{}),
.dead, .unreach => unreachable,
.ptr_stack_offset => unreachable,
.tlv_reloc => unreachable,
.lea_tlv => unreachable,
.register_overflow => unreachable,
.register => |src_reg| {
// copy dst to a register
@ -5365,7 +5375,7 @@ fn genIntMulComplexOpMir(self: *Self, dst_ty: Type, dst_mcv: MCValue, src_mcv: M
return self.genSetStack(dst_ty, off, .{ .register = dst_reg }, .{});
},
.memory, .stack_offset => {
.memory, .load_tlv, .stack_offset => {
return self.fail("TODO implement x86 multiply source memory", .{});
},
.linker_load => {
@ -5376,7 +5386,7 @@ fn genIntMulComplexOpMir(self: *Self, dst_ty: Type, dst_mcv: MCValue, src_mcv: M
},
}
},
.memory => {
.memory, .load_tlv => {
return self.fail("TODO implement x86 multiply destination memory", .{});
},
.linker_load => {
@ -5565,7 +5575,8 @@ fn airCall(self: *Self, inst: Air.Inst.Index, modifier: std.builtin.CallModifier
.linker_load => unreachable,
.eflags => unreachable,
.register_overflow => unreachable,
.tlv_reloc => unreachable,
.lea_tlv => unreachable,
.load_tlv => unreachable,
}
}
@ -5604,7 +5615,8 @@ fn airCall(self: *Self, inst: Air.Inst.Index, modifier: std.builtin.CallModifier
.linker_load => unreachable,
.eflags => unreachable,
.register_overflow => unreachable,
.tlv_reloc => unreachable,
.lea_tlv => unreachable,
.load_tlv => unreachable,
}
}
@ -6126,7 +6138,7 @@ fn isNull(self: *Self, inst: Air.Inst.Index, opt_ty: Type, opt_mcv: MCValue) !MC
.register_overflow,
.ptr_stack_offset,
.eflags,
.tlv_reloc,
.lea_tlv,
=> unreachable,
.register => |opt_reg| {
@ -6147,13 +6159,14 @@ fn isNull(self: *Self, inst: Air.Inst.Index, opt_ty: Type, opt_mcv: MCValue) !MC
return .{ .eflags = .nc };
},
.memory, .linker_load => {
.memory, .load_tlv, .linker_load => {
const addr_reg = (try self.register_manager.allocReg(null, gp)).to64();
const addr_reg_lock = self.register_manager.lockRegAssumeUnused(addr_reg);
defer self.register_manager.unlockReg(addr_reg_lock);
switch (opt_mcv) {
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -7099,7 +7112,7 @@ fn genSetStackArg(self: *Self, ty: Type, stack_offset: i32, mcv: MCValue) InnerE
else => return self.fail("TODO implement inputs on stack for {} with abi size > 8", .{mcv}),
}
},
.memory, .linker_load => {
.memory, .load_tlv, .linker_load => {
if (abi_size <= 8) {
const reg = try self.copyToTmpRegister(ty, mcv);
return self.genSetStackArg(ty, stack_offset, MCValue{ .register = reg });
@ -7111,6 +7124,7 @@ fn genSetStackArg(self: *Self, ty: Type, stack_offset: i32, mcv: MCValue) InnerE
switch (mcv) {
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -7170,7 +7184,7 @@ fn genSetStackArg(self: *Self, ty: Type, stack_offset: i32, mcv: MCValue) InnerE
},
}
},
.ptr_stack_offset, .tlv_reloc => {
.ptr_stack_offset, .lea_tlv => {
const reg = try self.copyToTmpRegister(ty, mcv);
return self.genSetStackArg(ty, stack_offset, MCValue{ .register = reg });
},
@ -7328,7 +7342,7 @@ fn genSetStack(self: *Self, ty: Type, stack_offset: i32, mcv: MCValue, opts: Inl
},
}
},
.memory, .linker_load => if (abi_size <= 8) {
.memory, .load_tlv, .linker_load => if (abi_size <= 8) {
const reg = try self.copyToTmpRegister(ty, mcv);
return self.genSetStack(ty, stack_offset, MCValue{ .register = reg }, opts);
} else {
@ -7338,6 +7352,7 @@ fn genSetStack(self: *Self, ty: Type, stack_offset: i32, mcv: MCValue, opts: Inl
switch (mcv) {
.memory => |addr| try self.genSetReg(Type.usize, addr_reg, .{ .immediate = addr }),
.load_tlv => |sym_index| try self.genSetReg(Type.usize, addr_reg, .{ .lea_tlv = sym_index }),
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -7375,7 +7390,7 @@ fn genSetStack(self: *Self, ty: Type, stack_offset: i32, mcv: MCValue, opts: Inl
.{ .immediate = abi_size },
.{},
),
.ptr_stack_offset, .tlv_reloc => {
.ptr_stack_offset, .lea_tlv => {
const tmp_reg = try self.copyToTmpRegister(ty, mcv);
const tmp_lock = self.register_manager.lockRegAssumeUnused(tmp_reg);
defer self.register_manager.unlockReg(tmp_lock);
@ -7484,7 +7499,10 @@ fn genInlineMemcpy(
.got, .direct => try self.asmMovLinker(.rdi, atom_index, load_struct),
}
},
.tlv_reloc => try self.genSetReg(Type.usize, .rdi, dst_ptr),
.lea_tlv, .load_tlv => try self.genSetReg(Type.usize, .rdi, switch (dst_ptr) {
.load_tlv => |sym_index| .{ .lea_tlv = sym_index },
else => dst_ptr,
}),
.stack_offset, .ptr_stack_offset => |off| {
try self.asmRegisterMemory(switch (dst_ptr) {
.stack_offset => .mov,
@ -7527,7 +7545,10 @@ fn genInlineMemcpy(
.got, .direct => try self.asmMovLinker(.rsi, atom_index, load_struct),
}
},
.tlv_reloc => try self.genSetReg(Type.usize, .rsi, src_ptr),
.lea_tlv, .load_tlv => try self.genSetReg(Type.usize, .rsi, switch (src_ptr) {
.load_tlv => |sym_index| .{ .lea_tlv = sym_index },
else => src_ptr,
}),
.stack_offset, .ptr_stack_offset => |off| {
try self.asmRegisterMemory(switch (src_ptr) {
.stack_offset => .mov,
@ -7593,7 +7614,10 @@ fn genInlineMemset(
.got, .direct => try self.asmMovLinker(.rdi, atom_index, load_struct),
}
},
.tlv_reloc => try self.genSetReg(Type.usize, .rdi, dst_ptr),
.lea_tlv, .load_tlv => try self.genSetReg(Type.usize, .rdi, switch (dst_ptr) {
.load_tlv => |sym_index| .{ .lea_tlv = sym_index },
else => dst_ptr,
}),
.stack_offset, .ptr_stack_offset => |off| {
try self.asmRegisterMemory(switch (dst_ptr) {
.stack_offset => .mov,
@ -7769,7 +7793,7 @@ fn genSetReg(self: *Self, ty: Type, reg: Register, mcv: MCValue) InnerError!void
}
},
},
.tlv_reloc => |sym_index| {
.lea_tlv => |sym_index| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
break :blk macho_file.getAtom(atom).getSymbolIndex().?;
@ -7793,6 +7817,33 @@ fn genSetReg(self: *Self, ty: Type, reg: Register, mcv: MCValue) InnerError!void
try self.genSetReg(Type.usize, reg, .{ .register = .rax });
} else return self.fail("TODO emit ptr to TLV sequence on {s}", .{@tagName(self.bin_file.tag)});
},
.load_tlv => |sym_index| {
const base_reg = switch (ty.zigTypeTag()) {
.Float => (try self.register_manager.allocReg(null, gp)).to64(),
else => reg.to64(),
};
try self.genSetReg(Type.usize, base_reg, .{ .lea_tlv = sym_index });
switch (ty.zigTypeTag()) {
.Float => if (intrinsicsAllowed(self.target.*, ty)) {
return self.asmRegisterMemory(
switch (ty.tag()) {
.f32 => .movss,
.f64 => .movsd,
else => return self.fail("TODO genSetReg from memory for {}", .{
ty.fmt(self.bin_file.options.module.?),
}),
},
reg.to128(),
Memory.sib(Memory.PtrSize.fromSize(abi_size), .{ .base = base_reg }),
);
} else return self.fail("TODO genSetReg from memory for float with no intrinsics", .{}),
else => try self.asmRegisterMemory(
.mov,
registerAlias(reg, abi_size),
Memory.sib(Memory.PtrSize.fromSize(abi_size), .{ .base = base_reg }),
),
}
},
.linker_load => |load_struct| {
const atom_index = if (self.bin_file.cast(link.File.MachO)) |macho_file| blk: {
const atom = try macho_file.getOrCreateAtomForDecl(self.mod_fn.owner_decl);
@ -8586,7 +8637,11 @@ fn airAggregateInit(self: *Self, inst: Air.Inst.Index) !void {
const elem_byte_off = @intCast(i32, elem_off / elem_abi_bits * elem_abi_size);
const elem_bit_off = elem_off % elem_abi_bits;
const elem_mcv = try self.resolveInst(elem);
const elem_lock = switch (elem_mcv) {
const mat_elem_mcv = switch (elem_mcv) {
.load_tlv => |sym_index| MCValue{ .lea_tlv = sym_index },
else => elem_mcv,
};
const elem_lock = switch (mat_elem_mcv) {
.register => |reg| self.register_manager.lockReg(reg),
.immediate => |imm| lock: {
if (imm == 0) continue;
@ -8596,7 +8651,7 @@ fn airAggregateInit(self: *Self, inst: Air.Inst.Index) !void {
};
defer if (elem_lock) |lock| self.register_manager.unlockReg(lock);
const elem_reg = registerAlias(
try self.copyToTmpRegister(elem_ty, elem_mcv),
try self.copyToTmpRegister(elem_ty, mat_elem_mcv),
elem_abi_size,
);
const elem_extra_bits = self.regExtraBits(elem_ty);
@ -8616,7 +8671,7 @@ fn airAggregateInit(self: *Self, inst: Air.Inst.Index) !void {
.{ .register = elem_reg },
);
if (elem_bit_off > elem_extra_bits) {
const reg = try self.copyToTmpRegister(elem_ty, elem_mcv);
const reg = try self.copyToTmpRegister(elem_ty, mat_elem_mcv);
if (elem_extra_bits > 0) {
try self.truncateRegister(elem_ty, registerAlias(reg, elem_abi_size));
}
@ -8641,7 +8696,11 @@ fn airAggregateInit(self: *Self, inst: Air.Inst.Index) !void {
const elem_ty = result_ty.structFieldType(elem_i);
const elem_off = @intCast(i32, result_ty.structFieldOffset(elem_i, self.target.*));
const elem_mcv = try self.resolveInst(elem);
try self.genSetStack(elem_ty, stack_offset - elem_off, elem_mcv, .{});
const mat_elem_mcv = switch (elem_mcv) {
.load_tlv => |sym_index| MCValue{ .lea_tlv = sym_index },
else => elem_mcv,
};
try self.genSetStack(elem_ty, stack_offset - elem_off, mat_elem_mcv, .{});
}
break :res .{ .stack_offset = stack_offset };
},
@ -8652,8 +8711,12 @@ fn airAggregateInit(self: *Self, inst: Air.Inst.Index) !void {
for (elements, 0..) |elem, elem_i| {
const elem_mcv = try self.resolveInst(elem);
const mat_elem_mcv = switch (elem_mcv) {
.load_tlv => |sym_index| MCValue{ .lea_tlv = sym_index },
else => elem_mcv,
};
const elem_off = @intCast(i32, elem_size * elem_i);
try self.genSetStack(elem_ty, stack_offset - elem_off, elem_mcv, .{});
try self.genSetStack(elem_ty, stack_offset - elem_off, mat_elem_mcv, .{});
}
break :res MCValue{ .stack_offset = stack_offset };
},
@ -8779,7 +8842,7 @@ fn genTypedValue(self: *Self, arg_tv: TypedValue) InnerError!MCValue {
.linker_load => |ll| .{ .linker_load = ll },
.immediate => |imm| .{ .immediate = imm },
.memory => |addr| .{ .memory = addr },
.tlv_reloc => |sym_index| .{ .tlv_reloc = sym_index },
.load_tlv => |sym_index| .{ .load_tlv = sym_index },
},
.fail => |msg| {
self.err_msg = msg;

8
src/codegen.zig
View File

@ -932,10 +932,10 @@ pub const GenResult = union(enum) {
/// such as ARM, the immediate will never exceed 32-bits.
immediate: u64,
linker_load: LinkerLoad,
/// Pointer to a threadlocal variable.
/// The address resolution will be deferred until the linker allocates everything in virtual memory.
/// Threadlocal variable with address deferred until the linker allocates
/// everything in virtual memory.
/// Payload is a symbol index.
tlv_reloc: u32,
load_tlv: u32,
/// Direct by-address reference to memory location.
memory: u64,
};
@ -1005,7 +1005,7 @@ fn genDeclRef(
const atom_index = try macho_file.getOrCreateAtomForDecl(decl_index);
const sym_index = macho_file.getAtom(atom_index).getSymbolIndex().?;
if (is_threadlocal) {
return GenResult.mcv(.{ .tlv_reloc = sym_index });
return GenResult.mcv(.{ .load_tlv = sym_index });
}
return GenResult.mcv(.{ .linker_load = .{
.type = .got,