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cmd/compile: handle field padding for register-passed structs
When constructing multi-piece DWARF location expressions for struct-typed parameters using the register ABI, make sure that the location expressions generated properly reflect padding between elements (this is required by debuggers). Example: type small struct { x uint16 ; y uint8 ; z int32 } func ABC(p1 int, p2 small, f1 float32) { ... In the DWARF location expression for "p2" on entry to the routine, we need pieces for each field, but for debuggers (such as GDB) to work properly, we also need to describe the padding between elements. Thus instead of <rbx> DW_OP_piece 2 <rcx> DW_OP_piece 1 <rdi> DW_OP_piece 4 we need to emit <rbx> DW_OP_piece 2 <rcx> DW_OP_piece 1 DW_OP_piece 1 <rdi> DW_OP_piece 4 This patch adds a new helper routine in abiutils to compute the correct padding amounts for a struct type, a unit test for the helper, and updates the debug generation code to call the helper and insert apadding "piece" ops in the right spots. Updates #40724. Updates #45720. Change-Id: Ie208bee25776b9eb70642041869e65e4fa65a005 Reviewed-on: https://go-review.googlesource.com/c/go/+/315071 Trust: Than McIntosh <thanm@google.com> Run-TryBot: Than McIntosh <thanm@google.com> TryBot-Result: Go Bot <gobot@golang.org> Reviewed-by: David Chase <drchase@google.com>
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@ -790,3 +790,51 @@ func (state *assignState) assignParamOrReturn(pt *types.Type, n types.Object, is
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return state.stackAllocate(pt, n)
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}
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}
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// ComputePadding returns a list of "post element" padding values in
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// the case where we have a structure being passed in registers. Give
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// a param assignment corresponding to a struct, it returns a list of
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// contaning padding values for each field, e.g. the Kth element in
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// the list is the amount of padding between field K and the following
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// field. For things that are not struct (or structs without padding)
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// it returns a list of zeros. Example:
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//
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// type small struct {
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// x uint16
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// y uint8
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// z int32
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// w int32
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// }
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//
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// For this struct we would return a list [0, 1, 0, 0], meaning that
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// we have one byte of padding after the second field, and no bytes of
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// padding after any of the other fields. Input parameter "storage"
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// is with enough capacity to accommodate padding elements for
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// the architected register set in question.
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func (pa *ABIParamAssignment) ComputePadding(storage []uint64) []uint64 {
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nr := len(pa.Registers)
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padding := storage[:nr]
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for i := 0; i < nr; i++ {
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padding[i] = 0
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}
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if pa.Type.Kind() != types.TSTRUCT || nr == 0 {
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return padding
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}
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types := make([]*types.Type, 0, nr)
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types = appendParamTypes(types, pa.Type)
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if len(types) != nr {
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panic("internal error")
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}
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off := int64(0)
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for idx, t := range types {
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ts := t.Size()
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off += int64(ts)
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if idx < len(types)-1 {
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noff := align(off, types[idx+1])
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if noff != off {
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padding[idx] = uint64(noff - off)
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}
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}
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}
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return padding
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}
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@ -1391,6 +1391,8 @@ func BuildFuncDebugNoOptimized(ctxt *obj.Link, f *Func, loggingEnabled bool, sta
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continue
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}
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rtypes, _ := inp.RegisterTypesAndOffsets()
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padding := make([]uint64, 0, 32)
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padding = inp.ComputePadding(padding)
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for k, r := range inp.Registers {
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reg := ObjRegForAbiReg(r, f.Config)
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dwreg := ctxt.Arch.DWARFRegisters[reg]
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@ -1404,6 +1406,10 @@ func BuildFuncDebugNoOptimized(ctxt *obj.Link, f *Func, loggingEnabled bool, sta
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list = append(list, dwarf.DW_OP_piece)
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ts := rtypes[k].Width
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list = dwarf.AppendUleb128(list, uint64(ts))
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if padding[k] > 0 {
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list = append(list, dwarf.DW_OP_piece)
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list = dwarf.AppendUleb128(list, padding[k])
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}
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}
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}
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// fill in length of location expression element
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@ -14,6 +14,7 @@ import (
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"cmd/internal/obj"
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"cmd/internal/obj/x86"
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"cmd/internal/src"
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"fmt"
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"os"
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"testing"
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)
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@ -359,3 +360,38 @@ func TestABINumParamRegs(t *testing.T) {
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nrtest(t, a, 12)
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}
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func TestABIUtilsComputePadding(t *testing.T) {
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// type s1 { f1 int8; f2 int16; f3 struct{}; f4 int32; f5 int64 }
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i8 := types.Types[types.TINT8]
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i16 := types.Types[types.TINT16]
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i32 := types.Types[types.TINT32]
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i64 := types.Types[types.TINT64]
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emptys := mkstruct([]*types.Type{})
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s1 := mkstruct([]*types.Type{i8, i16, emptys, i32, i64})
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// func (p1 int32, p2 s1, p3 emptys, p4 [1]int32)
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a1 := types.NewArray(i32, 1)
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ft := mkFuncType(nil, []*types.Type{i32, s1, emptys, a1}, []*types.Type{})
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// Run abitest() just to document what we're expected to see.
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exp := makeExpectedDump(`
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IN 0: R{ I0 } spilloffset: 0 typ: int32
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IN 1: R{ I1 I2 I3 I4 } spilloffset: 8 typ: struct { int8; int16; struct {}; int32; int64 }
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IN 2: R{ } offset: 0 typ: struct {}
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IN 3: R{ I5 } spilloffset: 24 typ: [1]int32
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offsetToSpillArea: 0 spillAreaSize: 32
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`)
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abitest(t, ft, exp)
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// Analyze with full set of registers, then call ComputePadding
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// on the second param, verifying the results.
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regRes := configAMD64.ABIAnalyze(ft, false)
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padding := make([]uint64, 32)
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parm := regRes.InParams()[1]
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padding = parm.ComputePadding(padding)
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want := "[1 1 1 0]"
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got := fmt.Sprintf("%+v", padding)
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if got != want {
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t.Errorf("padding mismatch: wanted %q got %q\n", got, want)
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}
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}
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