// Copyright 2020 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package test import ( "bufio" "cmd/compile/internal/abi" "cmd/compile/internal/base" "cmd/compile/internal/ssagen" "cmd/compile/internal/typecheck" "cmd/compile/internal/types" "cmd/internal/obj" "cmd/internal/obj/x86" "cmd/internal/src" "fmt" "os" "testing" ) // AMD64 registers available: // - integer: RAX, RBX, RCX, RDI, RSI, R8, R9, r10, R11 // - floating point: X0 - X14 var configAMD64 = abi.NewABIConfig(9, 15, 0) func TestMain(m *testing.M) { ssagen.Arch.LinkArch = &x86.Linkamd64 ssagen.Arch.REGSP = x86.REGSP ssagen.Arch.MAXWIDTH = 1 << 50 types.MaxWidth = ssagen.Arch.MAXWIDTH base.Ctxt = obj.Linknew(ssagen.Arch.LinkArch) base.Ctxt.DiagFunc = base.Errorf base.Ctxt.DiagFlush = base.FlushErrors base.Ctxt.Bso = bufio.NewWriter(os.Stdout) types.LocalPkg = types.NewPkg("", "local") types.LocalPkg.Prefix = `""` types.PtrSize = ssagen.Arch.LinkArch.PtrSize types.RegSize = ssagen.Arch.LinkArch.RegSize typecheck.InitUniverse() os.Exit(m.Run()) } func TestABIUtilsBasic1(t *testing.T) { // func(x int32) int32 i32 := types.Types[types.TINT32] ft := mkFuncType(nil, []*types.Type{i32}, []*types.Type{i32}) // expected results exp := makeExpectedDump(` IN 0: R{ I0 } spilloffset: 0 typ: int32 OUT 0: R{ I0 } spilloffset: -1 typ: int32 offsetToSpillArea: 0 spillAreaSize: 8 `) abitest(t, ft, exp) } func TestABIUtilsBasic2(t *testing.T) { // func(p1 int8, p2 int16, p3 int32, p4 int64, // p5 float32, p6 float32, p7 float64, p8 float64, // p9 int8, p10 int16, p11 int32, p12 int64, // p13 float32, p14 float32, p15 float64, p16 float64, // p17 complex128, p18 complex128, p19 complex12, p20 complex128, // p21 complex64, p22 int8, p23 in16, p24 int32, p25 int64, // p26 int8, p27 in16, p28 int32, p29 int64) // (r1 int32, r2 float64, r3 float64) { i8 := types.Types[types.TINT8] i16 := types.Types[types.TINT16] i32 := types.Types[types.TINT32] i64 := types.Types[types.TINT64] f32 := types.Types[types.TFLOAT32] f64 := types.Types[types.TFLOAT64] c64 := types.Types[types.TCOMPLEX64] c128 := types.Types[types.TCOMPLEX128] ft := mkFuncType(nil, []*types.Type{ i8, i16, i32, i64, f32, f32, f64, f64, i8, i16, i32, i64, f32, f32, f64, f64, c128, c128, c128, c128, c64, i8, i16, i32, i64, i8, i16, i32, i64}, []*types.Type{i32, f64, f64}) exp := makeExpectedDump(` IN 0: R{ I0 } spilloffset: 0 typ: int8 IN 1: R{ I1 } spilloffset: 2 typ: int16 IN 2: R{ I2 } spilloffset: 4 typ: int32 IN 3: R{ I3 } spilloffset: 8 typ: int64 IN 4: R{ F0 } spilloffset: 16 typ: float32 IN 5: R{ F1 } spilloffset: 20 typ: float32 IN 6: R{ F2 } spilloffset: 24 typ: float64 IN 7: R{ F3 } spilloffset: 32 typ: float64 IN 8: R{ I4 } spilloffset: 40 typ: int8 IN 9: R{ I5 } spilloffset: 42 typ: int16 IN 10: R{ I6 } spilloffset: 44 typ: int32 IN 11: R{ I7 } spilloffset: 48 typ: int64 IN 12: R{ F4 } spilloffset: 56 typ: float32 IN 13: R{ F5 } spilloffset: 60 typ: float32 IN 14: R{ F6 } spilloffset: 64 typ: float64 IN 15: R{ F7 } spilloffset: 72 typ: float64 IN 16: R{ F8 F9 } spilloffset: 80 typ: complex128 IN 17: R{ F10 F11 } spilloffset: 96 typ: complex128 IN 18: R{ F12 F13 } spilloffset: 112 typ: complex128 IN 19: R{ } offset: 0 typ: complex128 IN 20: R{ } offset: 16 typ: complex64 IN 21: R{ I8 } spilloffset: 128 typ: int8 IN 22: R{ } offset: 24 typ: int16 IN 23: R{ } offset: 28 typ: int32 IN 24: R{ } offset: 32 typ: int64 IN 25: R{ } offset: 40 typ: int8 IN 26: R{ } offset: 42 typ: int16 IN 27: R{ } offset: 44 typ: int32 IN 28: R{ } offset: 48 typ: int64 OUT 0: R{ I0 } spilloffset: -1 typ: int32 OUT 1: R{ F0 } spilloffset: -1 typ: float64 OUT 2: R{ F1 } spilloffset: -1 typ: float64 offsetToSpillArea: 56 spillAreaSize: 136 `) abitest(t, ft, exp) } func TestABIUtilsArrays(t *testing.T) { // func(p1 [1]int32, p2 [0]int32, p3 [1][1]int32, p4 [2]int32) // (r1 [2]int32, r2 [1]int32, r3 [0]int32, r4 [1][1]int32) { i32 := types.Types[types.TINT32] ae := types.NewArray(i32, 0) a1 := types.NewArray(i32, 1) a2 := types.NewArray(i32, 2) aa1 := types.NewArray(a1, 1) ft := mkFuncType(nil, []*types.Type{a1, ae, aa1, a2}, []*types.Type{a2, a1, ae, aa1}) exp := makeExpectedDump(` IN 0: R{ I0 } spilloffset: 0 typ: [1]int32 IN 1: R{ } offset: 0 typ: [0]int32 IN 2: R{ I1 } spilloffset: 4 typ: [1][1]int32 IN 3: R{ } offset: 0 typ: [2]int32 OUT 0: R{ } offset: 8 typ: [2]int32 OUT 1: R{ I0 } spilloffset: -1 typ: [1]int32 OUT 2: R{ } offset: 16 typ: [0]int32 OUT 3: R{ I1 } spilloffset: -1 typ: [1][1]int32 offsetToSpillArea: 16 spillAreaSize: 8 `) abitest(t, ft, exp) } func TestABIUtilsStruct1(t *testing.T) { // type s struct { f1 int8; f2 int8; f3 struct {}; f4 int8; f5 int16) } // func(p1 int6, p2 s, p3 int64) // (r1 s, r2 int8, r3 int32) { i8 := types.Types[types.TINT8] i16 := types.Types[types.TINT16] i32 := types.Types[types.TINT32] i64 := types.Types[types.TINT64] s := mkstruct([]*types.Type{i8, i8, mkstruct([]*types.Type{}), i8, i16}) ft := mkFuncType(nil, []*types.Type{i8, s, i64}, []*types.Type{s, i8, i32}) exp := makeExpectedDump(` IN 0: R{ I0 } spilloffset: 0 typ: int8 IN 1: R{ I1 I2 I3 I4 } spilloffset: 2 typ: struct { int8; int8; struct {}; int8; int16 } IN 2: R{ I5 } spilloffset: 8 typ: int64 OUT 0: R{ I0 I1 I2 I3 } spilloffset: -1 typ: struct { int8; int8; struct {}; int8; int16 } OUT 1: R{ I4 } spilloffset: -1 typ: int8 OUT 2: R{ I5 } spilloffset: -1 typ: int32 offsetToSpillArea: 0 spillAreaSize: 16 `) abitest(t, ft, exp) } func TestABIUtilsStruct2(t *testing.T) { // type s struct { f1 int64; f2 struct { } } // type fs struct { f1 float64; f2 s; f3 struct { } } // func(p1 s, p2 s, p3 fs) // (r1 fs, r2 fs) f64 := types.Types[types.TFLOAT64] i64 := types.Types[types.TINT64] s := mkstruct([]*types.Type{i64, mkstruct([]*types.Type{})}) fs := mkstruct([]*types.Type{f64, s, mkstruct([]*types.Type{})}) ft := mkFuncType(nil, []*types.Type{s, s, fs}, []*types.Type{fs, fs}) exp := makeExpectedDump(` IN 0: R{ I0 } spilloffset: 0 typ: struct { int64; struct {} } IN 1: R{ I1 } spilloffset: 16 typ: struct { int64; struct {} } IN 2: R{ F0 I2 } spilloffset: 32 typ: struct { float64; struct { int64; struct {} }; struct {} } OUT 0: R{ F0 I0 } spilloffset: -1 typ: struct { float64; struct { int64; struct {} }; struct {} } OUT 1: R{ F1 I1 } spilloffset: -1 typ: struct { float64; struct { int64; struct {} }; struct {} } offsetToSpillArea: 0 spillAreaSize: 64 `) abitest(t, ft, exp) } // TestABIUtilsEmptyFieldAtEndOfStruct is testing to make sure // the abi code is doing the right thing for struct types that have // a trailing zero-sized field (where the we need to add padding). func TestABIUtilsEmptyFieldAtEndOfStruct(t *testing.T) { // type s struct { f1 [2]int64; f2 struct { } } // type s2 struct { f1 [3]int16; f2 struct { } } // type fs struct { f1 float64; f s; f3 struct { } } // func(p1 s, p2 s, p3 fs) (r1 fs, r2 fs) f64 := types.Types[types.TFLOAT64] i64 := types.Types[types.TINT64] i16 := types.Types[types.TINT16] tb := types.Types[types.TBOOL] ab2 := types.NewArray(tb, 2) a2 := types.NewArray(i64, 2) a3 := types.NewArray(i16, 3) s := mkstruct([]*types.Type{a2, mkstruct([]*types.Type{})}) s2 := mkstruct([]*types.Type{a3, mkstruct([]*types.Type{})}) fs := mkstruct([]*types.Type{f64, s, mkstruct([]*types.Type{})}) ft := mkFuncType(nil, []*types.Type{s, ab2, s2, fs, fs}, []*types.Type{fs, ab2, fs}) exp := makeExpectedDump(` IN 0: R{ } offset: 0 typ: struct { [2]int64; struct {} } IN 1: R{ } offset: 24 typ: [2]bool IN 2: R{ } offset: 26 typ: struct { [3]int16; struct {} } IN 3: R{ } offset: 40 typ: struct { float64; struct { [2]int64; struct {} }; struct {} } IN 4: R{ } offset: 80 typ: struct { float64; struct { [2]int64; struct {} }; struct {} } OUT 0: R{ } offset: 120 typ: struct { float64; struct { [2]int64; struct {} }; struct {} } OUT 1: R{ } offset: 160 typ: [2]bool OUT 2: R{ } offset: 168 typ: struct { float64; struct { [2]int64; struct {} }; struct {} } offsetToSpillArea: 208 spillAreaSize: 0 `) abitest(t, ft, exp) // Check to make sure that NumParamRegs yields 2 and not 3 // for struct "s" (e.g. that it handles the padding properly). nps := configAMD64.NumParamRegs(s) if nps != 2 { t.Errorf("NumParams(%v) returned %d expected %d\n", s, nps, 2) } } func TestABIUtilsSliceString(t *testing.T) { // func(p1 []int32, p2 int8, p3 []int32, p4 int8, p5 string, // p6 int64, p6 []intr32) (r1 string, r2 int64, r3 string, r4 []int32) i32 := types.Types[types.TINT32] sli32 := types.NewSlice(i32) str := types.Types[types.TSTRING] i8 := types.Types[types.TINT8] i64 := types.Types[types.TINT64] ft := mkFuncType(nil, []*types.Type{sli32, i8, sli32, i8, str, i8, i64, sli32}, []*types.Type{str, i64, str, sli32}) exp := makeExpectedDump(` IN 0: R{ I0 I1 I2 } spilloffset: 0 typ: []int32 IN 1: R{ I3 } spilloffset: 24 typ: int8 IN 2: R{ I4 I5 I6 } spilloffset: 32 typ: []int32 IN 3: R{ I7 } spilloffset: 56 typ: int8 IN 4: R{ } offset: 0 typ: string IN 5: R{ I8 } spilloffset: 57 typ: int8 IN 6: R{ } offset: 16 typ: int64 IN 7: R{ } offset: 24 typ: []int32 OUT 0: R{ I0 I1 } spilloffset: -1 typ: string OUT 1: R{ I2 } spilloffset: -1 typ: int64 OUT 2: R{ I3 I4 } spilloffset: -1 typ: string OUT 3: R{ I5 I6 I7 } spilloffset: -1 typ: []int32 offsetToSpillArea: 48 spillAreaSize: 64 `) abitest(t, ft, exp) } func TestABIUtilsMethod(t *testing.T) { // type s1 struct { f1 int16; f2 int16; f3 int16 } // func(p1 *s1, p2 [7]*s1, p3 float64, p4 int16, p5 int16, p6 int16) // (r1 [7]*s1, r2 float64, r3 int64) i16 := types.Types[types.TINT16] i64 := types.Types[types.TINT64] f64 := types.Types[types.TFLOAT64] s1 := mkstruct([]*types.Type{i16, i16, i16}) ps1 := types.NewPtr(s1) a7 := types.NewArray(ps1, 7) ft := mkFuncType(s1, []*types.Type{ps1, a7, f64, i16, i16, i16}, []*types.Type{a7, f64, i64}) exp := makeExpectedDump(` IN 0: R{ I0 I1 I2 } spilloffset: 0 typ: struct { int16; int16; int16 } IN 1: R{ I3 } spilloffset: 8 typ: *struct { int16; int16; int16 } IN 2: R{ } offset: 0 typ: [7]*struct { int16; int16; int16 } IN 3: R{ F0 } spilloffset: 16 typ: float64 IN 4: R{ I4 } spilloffset: 24 typ: int16 IN 5: R{ I5 } spilloffset: 26 typ: int16 IN 6: R{ I6 } spilloffset: 28 typ: int16 OUT 0: R{ } offset: 56 typ: [7]*struct { int16; int16; int16 } OUT 1: R{ F0 } spilloffset: -1 typ: float64 OUT 2: R{ I0 } spilloffset: -1 typ: int64 offsetToSpillArea: 112 spillAreaSize: 32 `) abitest(t, ft, exp) } func TestABIUtilsInterfaces(t *testing.T) { // type s1 { f1 int16; f2 int16; f3 bool) // type nei interface { ...() string } // func(p1 s1, p2 interface{}, p3 interface{}, p4 nei, // p5 *interface{}, p6 nei, p7 int64) // (r1 interface{}, r2 nei, r3 bool) ei := types.Types[types.TINTER] // interface{} pei := types.NewPtr(ei) // *interface{} fldt := mkFuncType(types.FakeRecvType(), []*types.Type{}, []*types.Type{types.Types[types.TSTRING]}) field := types.NewField(src.NoXPos, typecheck.Lookup("F"), fldt) nei := types.NewInterface(types.LocalPkg, []*types.Field{field}, false) i16 := types.Types[types.TINT16] tb := types.Types[types.TBOOL] s1 := mkstruct([]*types.Type{i16, i16, tb}) ft := mkFuncType(nil, []*types.Type{s1, ei, ei, nei, pei, nei, i16}, []*types.Type{ei, nei, pei}) exp := makeExpectedDump(` IN 0: R{ I0 I1 I2 } spilloffset: 0 typ: struct { int16; int16; bool } IN 1: R{ I3 I4 } spilloffset: 8 typ: interface {} IN 2: R{ I5 I6 } spilloffset: 24 typ: interface {} IN 3: R{ I7 I8 } spilloffset: 40 typ: interface { F() string } IN 4: R{ } offset: 0 typ: *interface {} IN 5: R{ } offset: 8 typ: interface { F() string } IN 6: R{ } offset: 24 typ: int16 OUT 0: R{ I0 I1 } spilloffset: -1 typ: interface {} OUT 1: R{ I2 I3 } spilloffset: -1 typ: interface { F() string } OUT 2: R{ I4 } spilloffset: -1 typ: *interface {} offsetToSpillArea: 32 spillAreaSize: 56 `) abitest(t, ft, exp) } func TestABINumParamRegs(t *testing.T) { i8 := types.Types[types.TINT8] i16 := types.Types[types.TINT16] i32 := types.Types[types.TINT32] i64 := types.Types[types.TINT64] f32 := types.Types[types.TFLOAT32] f64 := types.Types[types.TFLOAT64] c64 := types.Types[types.TCOMPLEX64] c128 := types.Types[types.TCOMPLEX128] s := mkstruct([]*types.Type{i8, i8, mkstruct([]*types.Type{}), i8, i16}) a := types.NewArray(s, 3) nrtest(t, i8, 1) nrtest(t, i16, 1) nrtest(t, i32, 1) nrtest(t, i64, 1) nrtest(t, f32, 1) nrtest(t, f64, 1) nrtest(t, c64, 2) nrtest(t, c128, 2) nrtest(t, s, 4) nrtest(t, a, 12) } func TestABIUtilsComputePadding(t *testing.T) { // type s1 { f1 int8; f2 int16; f3 struct{}; f4 int32; f5 int64 } i8 := types.Types[types.TINT8] i16 := types.Types[types.TINT16] i32 := types.Types[types.TINT32] i64 := types.Types[types.TINT64] emptys := mkstruct([]*types.Type{}) s1 := mkstruct([]*types.Type{i8, i16, emptys, i32, i64}) // func (p1 int32, p2 s1, p3 emptys, p4 [1]int32) a1 := types.NewArray(i32, 1) ft := mkFuncType(nil, []*types.Type{i32, s1, emptys, a1}, []*types.Type{}) // Run abitest() just to document what we're expected to see. exp := makeExpectedDump(` IN 0: R{ I0 } spilloffset: 0 typ: int32 IN 1: R{ I1 I2 I3 I4 } spilloffset: 8 typ: struct { int8; int16; struct {}; int32; int64 } IN 2: R{ } offset: 0 typ: struct {} IN 3: R{ I5 } spilloffset: 24 typ: [1]int32 offsetToSpillArea: 0 spillAreaSize: 32 `) abitest(t, ft, exp) // Analyze with full set of registers, then call ComputePadding // on the second param, verifying the results. regRes := configAMD64.ABIAnalyze(ft, false) padding := make([]uint64, 32) parm := regRes.InParams()[1] padding = parm.ComputePadding(padding) want := "[1 1 1 0]" got := fmt.Sprintf("%+v", padding) if got != want { t.Errorf("padding mismatch: wanted %q got %q\n", got, want) } }