Commit 85bbabd9 authored by Michael Munday's avatar Michael Munday Committed by Rob Pike

cmd/asm: add s390x support

s390x doesn't introduce any new assembly syntax. There are a few
instructions which require the operands to be reordered, notably
the storage-storage instructions that put the length into From3 so
that the memory operands can be put into From and To.

The assembly test currently covers a subset of instructions but
tries to hit edge cases as much as possible. Unlike the other ports
it can be linked as an executable to make disassembling it easy.
It would be nice to autogenerate it at some point in the future.

Change-Id: I7615ac6ecf239e3f347fad9ae1f8eede91742859
Reviewed-on: https://go-review.googlesource.com/20934
Run-TryBot: Rob Pike <r@golang.org>
Reviewed-by: default avatarRob Pike <r@golang.org>
parent cabf73ff
......@@ -10,6 +10,7 @@ import (
"cmd/internal/obj/arm64"
"cmd/internal/obj/mips"
"cmd/internal/obj/ppc64"
"cmd/internal/obj/s390x"
"cmd/internal/obj/x86"
"fmt"
"strings"
......@@ -74,6 +75,10 @@ func Set(GOARCH string) *Arch {
a := archPPC64()
a.LinkArch = &ppc64.Linkppc64le
return a
case "s390x":
a := archS390x()
a.LinkArch = &s390x.Links390x
return a
}
return nil
}
......@@ -416,3 +421,56 @@ func archMips64() *Arch {
IsJump: jumpMIPS64,
}
}
func archS390x() *Arch {
register := make(map[string]int16)
// Create maps for easy lookup of instruction names etc.
// Note that there is no list of names as there is for x86.
for i := s390x.REG_R0; i <= s390x.REG_R15; i++ {
register[obj.Rconv(i)] = int16(i)
}
for i := s390x.REG_F0; i <= s390x.REG_F15; i++ {
register[obj.Rconv(i)] = int16(i)
}
for i := s390x.REG_V0; i <= s390x.REG_V31; i++ {
register[obj.Rconv(i)] = int16(i)
}
for i := s390x.REG_AR0; i <= s390x.REG_AR15; i++ {
register[obj.Rconv(i)] = int16(i)
}
register["LR"] = s390x.REG_LR
// Pseudo-registers.
register["SB"] = RSB
register["FP"] = RFP
register["PC"] = RPC
// Avoid unintentionally clobbering g using R13.
delete(register, "R13")
register["g"] = s390x.REG_R13
registerPrefix := map[string]bool{
"AR": true,
"F": true,
"R": true,
}
instructions := make(map[string]obj.As)
for i, s := range obj.Anames {
instructions[s] = obj.As(i)
}
for i, s := range s390x.Anames {
if obj.As(i) >= obj.A_ARCHSPECIFIC {
instructions[s] = obj.As(i) + obj.ABaseS390X
}
}
// Annoying aliases.
instructions["BR"] = s390x.ABR
instructions["BL"] = s390x.ABL
return &Arch{
LinkArch: &s390x.Links390x,
Instructions: instructions,
Register: register,
RegisterPrefix: registerPrefix,
RegisterNumber: s390xRegisterNumber,
IsJump: jumpS390x,
}
}
// Copyright 2016 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.
// This file encapsulates some of the odd characteristics of the
// s390x instruction set, to minimize its interaction
// with the core of the assembler.
package arch
import (
"cmd/internal/obj"
"cmd/internal/obj/s390x"
)
func jumpS390x(word string) bool {
switch word {
case "BC",
"BCL",
"BEQ",
"BGE",
"BGT",
"BL",
"BLE",
"BLT",
"BNE",
"BR",
"BVC",
"BVS",
"CMPBEQ",
"CMPBGE",
"CMPBGT",
"CMPBLE",
"CMPBLT",
"CMPBNE",
"CMPUBEQ",
"CMPUBGE",
"CMPUBGT",
"CMPUBLE",
"CMPUBLT",
"CMPUBNE",
"CALL",
"JMP":
return true
}
return false
}
// IsS390xRLD reports whether the op (as defined by an s390x.A* constant) is
// one of the RLD-like instructions that require special handling.
// The FMADD-like instructions behave similarly.
func IsS390xRLD(op obj.As) bool {
switch op {
case s390x.AFMADD,
s390x.AFMADDS,
s390x.AFMSUB,
s390x.AFMSUBS,
s390x.AFNMADD,
s390x.AFNMADDS,
s390x.AFNMSUB,
s390x.AFNMSUBS:
return true
}
return false
}
// IsS390xCMP reports whether the op (as defined by an s390x.A* constant) is
// one of the CMP instructions that require special handling.
func IsS390xCMP(op obj.As) bool {
switch op {
case s390x.ACMP, s390x.ACMPU, s390x.ACMPW, s390x.ACMPWU:
return true
}
return false
}
// IsS390xNEG reports whether the op (as defined by an s390x.A* constant) is
// one of the NEG-like instructions that require special handling.
func IsS390xNEG(op obj.As) bool {
switch op {
case s390x.AADDME,
s390x.AADDZE,
s390x.ANEG,
s390x.ASUBME,
s390x.ASUBZE:
return true
}
return false
}
// IsS390xWithLength reports whether the op (as defined by an s390x.A* constant)
// refers to an instruction which takes a length as its first argument.
func IsS390xWithLength(op obj.As) bool {
switch op {
case s390x.AMVC, s390x.ACLC, s390x.AXC, s390x.AOC, s390x.ANC:
return true
case s390x.AVLL, s390x.AVSTL:
return true
}
return false
}
// IsS390xWithIndex reports whether the op (as defined by an s390x.A* constant)
// refers to an instruction which takes an index as its first argument.
func IsS390xWithIndex(op obj.As) bool {
switch op {
case s390x.AVSCEG, s390x.AVSCEF, s390x.AVGEG, s390x.AVGEF:
return true
case s390x.AVGMG, s390x.AVGMF, s390x.AVGMH, s390x.AVGMB:
return true
case s390x.AVLEIG, s390x.AVLEIF, s390x.AVLEIH, s390x.AVLEIB:
return true
case s390x.AVPDI:
return true
}
return false
}
func s390xRegisterNumber(name string, n int16) (int16, bool) {
switch name {
case "AR":
if 0 <= n && n <= 15 {
return s390x.REG_AR0 + n, true
}
case "F":
if 0 <= n && n <= 15 {
return s390x.REG_F0 + n, true
}
case "R":
if 0 <= n && n <= 15 {
return s390x.REG_R0 + n, true
}
case "V":
if 0 <= n && n <= 31 {
return s390x.REG_V0 + n, true
}
}
return 0, false
}
......@@ -386,6 +386,20 @@ func (p *Parser) asmJump(op obj.As, cond string, a []obj.Addr) {
prog.Reg = p.getRegister(prog, op, &a[1])
break
}
if p.arch.Thechar == 'z' {
// 3-operand jumps.
target = &a[2]
prog.From = a[0]
if a[1].Reg != 0 {
// Compare two registers and jump.
prog.Reg = p.getRegister(prog, op, &a[1])
} else {
// Compare register with immediate and jump.
prog.From3 = newAddr(a[1])
}
break
}
fallthrough
default:
p.errorf("wrong number of arguments to %s instruction", obj.Aconv(op))
......@@ -598,6 +612,15 @@ func (p *Parser) asmInstruction(op obj.As, cond string, a []obj.Addr) {
p.errorf("invalid addressing modes for %s instruction", obj.Aconv(op))
return
}
case 'z':
if arch.IsS390xWithLength(op) || arch.IsS390xWithIndex(op) {
prog.From = a[1]
prog.From3 = newAddr(a[0])
} else {
prog.Reg = p.getRegister(prog, op, &a[1])
prog.From = a[0]
}
prog.To = a[2]
default:
p.errorf("TODO: implement three-operand instructions for this architecture")
return
......@@ -633,6 +656,13 @@ func (p *Parser) asmInstruction(op obj.As, cond string, a []obj.Addr) {
prog.To = a[3]
break
}
if p.arch.Thechar == 'z' {
prog.From = a[1]
prog.Reg = p.getRegister(prog, op, &a[2])
prog.From3 = newAddr(a[0])
prog.To = a[3]
break
}
p.errorf("can't handle %s instruction with 4 operands", obj.Aconv(op))
return
case 5:
......
......@@ -389,3 +389,7 @@ func TestMIPS64EndToEnd(t *testing.T) {
func TestPPC64EndToEnd(t *testing.T) {
testEndToEnd(t, "ppc64", "ppc64")
}
func TestS390XEndToEnd(t *testing.T) {
testEndToEnd(t, "s390x", "s390x")
}
......@@ -70,6 +70,11 @@ func TestMIPS64OperandParser(t *testing.T) {
testOperandParser(t, parser, mips64OperandTests)
}
func TestS390XOperandParser(t *testing.T) {
parser := newParser("s390x")
testOperandParser(t, parser, s390xOperandTests)
}
type operandTest struct {
input, output string
}
......@@ -526,3 +531,101 @@ var mips64OperandTests = []operandTest{
{"·trunc(SB)", "\"\".trunc(SB)"},
{"[):[o-FP", ""}, // Issue 12469 - asm hung parsing the o-FP range on non ARM platforms.
}
var s390xOperandTests = []operandTest{
{"$((1<<63)-1)", "$9223372036854775807"},
{"$(-64*1024)", "$-65536"},
{"$(1024 * 8)", "$8192"},
{"$-1", "$-1"},
{"$-24(R4)", "$-24(R4)"},
{"$0", "$0"},
{"$0(R1)", "$(R1)"},
{"$0.5", "$(0.5)"},
{"$0x7000", "$28672"},
{"$0x88888eef", "$2290650863"},
{"$1", "$1"},
{"$_main<>(SB)", "$_main<>(SB)"},
{"$argframe(FP)", "$argframe(FP)"},
{"$~3", "$-4"},
{"(-288-3*8)(R1)", "-312(R1)"},
{"(16)(R7)", "16(R7)"},
{"(8)(g)", "8(g)"},
{"(R0)", "(R0)"},
{"(R3)", "(R3)"},
{"(R4)", "(R4)"},
{"(R5)", "(R5)"},
{"-1(R4)", "-1(R4)"},
{"-1(R5)", "-1(R5)"},
{"6(PC)", "6(PC)"},
{"R0", "R0"},
{"R1", "R1"},
{"R2", "R2"},
{"R3", "R3"},
{"R4", "R4"},
{"R5", "R5"},
{"R6", "R6"},
{"R7", "R7"},
{"R8", "R8"},
{"R9", "R9"},
{"R10", "R10"},
{"R11", "R11"},
{"R12", "R12"},
// {"R13", "R13"}, R13 is g
{"R14", "R14"},
{"R15", "R15"},
{"F0", "F0"},
{"F1", "F1"},
{"F2", "F2"},
{"F3", "F3"},
{"F4", "F4"},
{"F5", "F5"},
{"F6", "F6"},
{"F7", "F7"},
{"F8", "F8"},
{"F9", "F9"},
{"F10", "F10"},
{"F11", "F11"},
{"F12", "F12"},
{"F13", "F13"},
{"F14", "F14"},
{"F15", "F15"},
{"V0", "V0"},
{"V1", "V1"},
{"V2", "V2"},
{"V3", "V3"},
{"V4", "V4"},
{"V5", "V5"},
{"V6", "V6"},
{"V7", "V7"},
{"V8", "V8"},
{"V9", "V9"},
{"V10", "V10"},
{"V11", "V11"},
{"V12", "V12"},
{"V13", "V13"},
{"V14", "V14"},
{"V15", "V15"},
{"V16", "V16"},
{"V17", "V17"},
{"V18", "V18"},
{"V19", "V19"},
{"V20", "V20"},
{"V21", "V21"},
{"V22", "V22"},
{"V23", "V23"},
{"V24", "V24"},
{"V25", "V25"},
{"V26", "V26"},
{"V27", "V27"},
{"V28", "V28"},
{"V29", "V29"},
{"V30", "V30"},
{"V31", "V31"},
{"a(FP)", "a(FP)"},
{"g", "g"},
{"ret+8(FP)", "ret+8(FP)"},
{"runtime·abort(SB)", "runtime.abort(SB)"},
{"·AddUint32(SB)", "\"\".AddUint32(SB)"},
{"·trunc(SB)", "\"\".trunc(SB)"},
{"[):[o-FP", ""}, // Issue 12469 - asm hung parsing the o-FP range on non ARM platforms.
}
// Copyright 2016 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.
TEXT main·foo(SB),7,$16-0 // TEXT main.foo(SB), 7, $16-0
MOVD R1, R2 // b9040021
MOVW R3, R4 // b9140043
MOVH R5, R6 // b9070065
MOVB R7, R8 // b9060087
MOVWZ R1, R2 // b9160021
MOVHZ R2, R3 // b9850032
MOVBZ R4, R5 // b9840054
MOVDBR R1, R2 // b90f0021
MOVWBR R3, R4 // b91f0043
MOVD (R15), R1 // e310f0000004
MOVW (R15), R2 // e320f0000014
MOVH (R15), R3 // e330f0000015
MOVB (R15), R4 // e340f0000077
MOVWZ (R15), R5 // e350f0000016
MOVHZ (R15), R6 // e360f0000091
MOVBZ (R15), R7 // e370f0000090
MOVDBR (R15), R8 // e380f000000f
MOVWBR (R15), R9 // e390f000001e
MOVD R1, n-8(SP) // e310f0100024
MOVW R2, n-8(SP) // e320f0100050
MOVH R3, n-8(SP) // e330f0100070
MOVB R4, n-8(SP) // e340f0100072
MOVWZ R5, n-8(SP) // e350f0100050
MOVHZ R6, n-8(SP) // e360f0100070
MOVBZ R7, n-8(SP) // e370f0100072
MOVDBR R8, n-8(SP) // e380f010002f
MOVWBR R9, n-8(SP) // e390f010003e
MOVD $-8589934592, R1 // c01efffffffe
MOVW $-131072, R2 // c021fffe0000
MOVH $-512, R3 // a739fe00
MOVB $-1, R4 // a749ffff
MOVD $-2147483648, n-8(SP) // c0b180000000e3b0f0100024
MOVW $-131072, n-8(SP) // c0b1fffe0000e3b0f0100050
MOVH $-512, n-8(SP) // e544f010fe00
MOVB $-1, n-8(SP) // 92fff010
ADD R1, R2 // b9e81022
ADD R1, R2, R3 // b9e81032
ADD $8192, R1 // c21800002000
ADD $8192, R1, R2 // ec21200000d9
ADDC R1, R2 // b9ea1022
ADDC $1, R1, R2 // b9040021c22a00000001
ADDC R1, R2, R3 // b9ea1032
SUB R3, R4 // b9090043
SUB R3, R4, R5 // b9e93054
SUB $8192, R3 // c238ffffe000
SUB $8192, R3, R4 // ec43e00000d9
SUBC R1, R2 // b90b0021
SUBC $1, R1, R2 // b9040021c22affffffff
SUBC R2, R3, R4 // b9eb2043
MULLW R6, R7 // b91c0076
MULLW R6, R7, R8 // b9040087b91c0086
MULLW $8192, R6 // c26000002000
MULLW $8192, R6, R7 // b9040076c27000002000
DIVD R1, R2 // b90400b2b90d00a1b904002b
DIVD R1, R2, R3 // b90400b2b90d00a1b904003b
DIVW R4, R5 // b90400b5b91d00a4b904005b
DIVW R4, R5, R6 // b90400b5b91d00a4b904006b
DIVDU R7, R8 // b90400a0b90400b8b98700a7b904008b
DIVDU R7, R8, R9 // b90400a0b90400b8b98700a7b904009b
DIVWU R1, R2 // b90400a0b90400b2b99700a1b904002b
DIVWU R1, R2, R3 // b90400a0b90400b2b99700a1b904003b
XC $8, (R15), n-8(SP) // XC (R15), $8, n-8(SP) // d707f010f000
NC $8, (R15), n-8(SP) // NC (R15), $8, n-8(SP) // d407f010f000
OC $8, (R15), n-8(SP) // OC (R15), $8, n-8(SP) // d607f010f000
MVC $8, (R15), n-8(SP) // MVC (R15), $8, n-8(SP) // d207f010f000
CLC $8, (R15), n-8(SP) // CLC (R15), $8, n-8(SP) // d507f000f010
XC $256, -8(R15), -8(R15) // XC -8(R15), $256, -8(R15) // b90400afc2a8fffffff8d7ffa000a000
MVC $256, 8192(R1), 8192(R2) // MVC 8192(R1), $256, 8192(R2) // b90400a2c2a800002000b90400b1c2b800002000d2ffa000b000
CMP R1, R2 // b9200012
CMP R3, $-2147483648 // c23c80000000
CMPU R4, R5 // b9210045
CMPU R6, $4294967295 // c26effffffff
CMPW R7, R8 // 1978
CMPW R9, $-2147483648 // c29d80000000
CMPWU R1, R2 // 1512
CMPWU R3, $4294967295 // c23fffffffff
BNE 0(PC) // a7740000
BEQ 0(PC) // a7840000
BLT 0(PC) // a7440000
BLE 0(PC) // a7c40000
BGT 0(PC) // a7240000
BGE 0(PC) // a7a40000
CMPBNE R1, R2, 0(PC) // ec1200007064
CMPBEQ R3, R4, 0(PC) // ec3400008064
CMPBLT R5, R6, 0(PC) // ec5600004064
CMPBLE R7, R8, 0(PC) // ec780000c064
CMPBGT R9, R1, 0(PC) // ec9100002064
CMPBGE R2, R3, 0(PC) // ec230000a064
CMPBNE R1, $-127, 0(PC) // ec170000817c
CMPBEQ R3, $0, 0(PC) // ec380000007c
CMPBLT R5, $128, 0(PC) // ec540000807c
CMPBLE R7, $127, 0(PC) // ec7c00007f7c
CMPBGT R9, $0, 0(PC) // ec920000007c
CMPBGE R2, $128, 0(PC) // ec2a0000807c
CMPUBNE R1, R2, 0(PC) // ec1200007065
CMPUBEQ R3, R4, 0(PC) // ec3400008065
CMPUBLT R5, R6, 0(PC) // ec5600004065
CMPUBLE R7, R8, 0(PC) // ec780000c065
CMPUBGT R9, R1, 0(PC) // ec9100002065
CMPUBGE R2, R3, 0(PC) // ec230000a065
CMPUBNE R1, $256, 0(PC) // ec170000007d
CMPUBEQ R3, $0, 0(PC) // ec380000007d
CMPUBLT R5, $256, 0(PC) // ec540000007d
CMPUBLE R7, $0, 0(PC) // ec7c0000007d
CMPUBGT R9, $256, 0(PC) // ec920000007d
CMPUBGE R2, $0, 0(PC) // ec2a0000007d
CEFBRA R0, F15 // b39400f0
CDFBRA R1, F14 // b39500e1
CEGBRA R2, F13 // b3a400d2
CDGBRA R3, F12 // b3a500c3
CELFBR R0, F15 // b39000f0
CDLFBR R1, F14 // b39100e1
CELGBR R2, F13 // b3a000d2
CDLGBR R3, F12 // b3a100c3
CFEBRA F15, R1 // b398501f
CFDBRA F14, R2 // b399502e
CGEBRA F13, R3 // b3a8503d
CGDBRA F12, R4 // b3a9504c
CLFEBR F15, R1 // b39c501f
CLFDBR F14, R2 // b39d502e
CLGEBR F13, R3 // b3ac503d
CLGDBR F12, R4 // b3ad504c
FMOVS $0, F11 // b37400b0
FMOVD $0, F12 // b37500c0
FMOVS (R1)(R2*1), F0 // ed0210000064
FMOVS n-8(SP), F15 // edf0f0100064
FMOVD -9999999(R8)(R9*1), F8 // c0a1ff67698141aa9000ed8a80000065
FMOVD F4, F5 // 2854
FADDS F0, F15 // b30a00f0
FADD F1, F14 // b31a00e1
FSUBS F2, F13 // b30b00d2
FSUB F3, F12 // b31b00c3
FMULS F4, F11 // b31700b4
FMUL F5, F10 // b31c00a5
FDIVS F6, F9 // b30d0096
FDIV F7, F8 // b31d0087
FABS F1, F2 // b3100021
FSQRTS F3, F4 // b3140043
FSQRT F5, F15 // b31500f5
VL (R15), V1 // e710f0000006
VST V1, (R15) // e710f000000e
VL (R15), V31 // e7f0f0000806
VST V31, (R15) // e7f0f000080e
VESLB $5, V14 // e7ee00050030
VESRAG $0, V15, V16 // e70f0000383a
VLM (R15), V8, V23 // e787f0000436
VSTM V8, V23, (R15) // e787f000043e
VONE V1 // e710ffff0044
VZERO V16 // e70000000844
VGBM $52428, V31 // e7f0cccc0844
VREPIB $255, V4 // e74000ff0045
VREPG $1, V4, V16 // e7040001384d
VREPB $4, V31, V1 // e71f0004044d
VFTCIDB $4095, V1, V2 // e721fff0304a
WFTCIDB $3276, V15, V16 // e70fccc8384a
VPOPCT V8, V19 // e73800000850
VFEEZBS V1, V2, V31 // e7f120300880
WFCHDBS V22, V23, V4 // e746701836eb
VMNH V1, V2, V30 // e7e1200018fe
VO V2, V1, V0 // e7021000006a
VERLLVF V2, V30, V27 // e7be20002c73
VSCBIB V0, V23, V24 // e78700000cf5
VNOT V16, V1 // e7101000046b
VCLZF V16, V17 // e71000002c53
VLVGP R3, R4, V8 // e78340000062
// Some vector instructions have their inputs reordered.
// Typically the reordering puts the length/index input into From3.
VGEG $1, 8(R15)(V30*1), V31 // VGEG 8(R15)(V30*1), $1, V31 // e7fef0081c12
VSCEG $1, V31, 16(R15)(V30*1) // VSCEG V31, $1, 16(R15)(V30*1) // e7fef0101c1a
VGEF $0, 2048(R15)(V1*1), V2 // VGEF 2048(R15)(V1*1), $0, V2 // e721f8000013
VSCEF $0, V2, 4095(R15)(V1*1) // VSCEF V2, $0, 4095(R15)(V1*1) // e721ffff001b
VLL R0, (R15), V1 // VLL (R15), R0, V1 // e710f0000037
VSTL R0, V16, (R15) // VSTL V16, R0, (R15) // e700f000083f
VGMH $8, $16, V12 // VGMH $16, $8, V12 // e7c008101046
VLEIF $2, $-43, V16 // VLEIF $-43, $2, V16 // e700ffd52843
VSLDB $3, V1, V16, V18 // VSLDB V1, V16, $3, V18 // e72100030a77
VERIMB $2, V31, V1, V2 // VERIMB V31, V1, $2, V2 // e72f10020472
VSEL V1, V2, V3, V4 // VSEL V2, V3, V1, V4 // e7412000308d
VGFMAH V21, V31, V24, V0 // VGFMAH V31, V24, V21, V0 // e705f10087bc
WFMSDB V2, V25, V24, V31 // WFMSDB V25, V24, V2, V31 // e7f298038b8e
VPERM V31, V0, V2, V3 // VPERM V0, V2, V31, V3 // e73f0000248c
VPDI $1, V2, V31, V1 // VPDI V2, V31, $1, V1 // e712f0001284
RET
TEXT main·init(SB),7,$0 // TEXT main.init(SB), 7, $0
RET
TEXT main·main(SB),7,$0 // TEXT main.main(SB), 7, $0
BL main·foo(SB) // CALL main.foo(SB)
RET
Markdown is supported
0%
or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment