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|
// Copyright 2019 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 riscv64
import (
"cmd/internal/obj/riscv"
"cmd/internal/objabi"
"cmd/internal/sys"
"cmd/link/internal/ld"
"cmd/link/internal/loader"
"cmd/link/internal/sym"
"debug/elf"
"fmt"
"log"
"sort"
)
// fakeLabelName matches the RISCV_FAKE_LABEL_NAME from binutils.
const fakeLabelName = ".L0 "
func gentext(ctxt *ld.Link, ldr *loader.Loader) {}
func findHI20Reloc(ldr *loader.Loader, s loader.Sym, val int64) *loader.Reloc {
outer := ldr.OuterSym(s)
if outer == 0 {
return nil
}
relocs := ldr.Relocs(outer)
start := sort.Search(relocs.Count(), func(i int) bool { return ldr.SymValue(outer)+int64(relocs.At(i).Off()) >= val })
for idx := start; idx < relocs.Count(); idx++ {
r := relocs.At(idx)
if ldr.SymValue(outer)+int64(r.Off()) != val {
break
}
if r.Type() == objabi.R_RISCV_GOT_HI20 || r.Type() == objabi.R_RISCV_PCREL_HI20 {
return &r
}
}
return nil
}
func adddynrel(target *ld.Target, ldr *loader.Loader, syms *ld.ArchSyms, s loader.Sym, r loader.Reloc, rIdx int) bool {
targ := r.Sym()
var targType sym.SymKind
if targ != 0 {
targType = ldr.SymType(targ)
}
switch r.Type() {
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_CALL),
objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_CALL_PLT):
if targType == sym.SDYNIMPORT {
addpltsym(target, ldr, syms, targ)
su := ldr.MakeSymbolUpdater(s)
su.SetRelocSym(rIdx, syms.PLT)
su.SetRelocAdd(rIdx, r.Add()+int64(ldr.SymPlt(targ)))
}
if targType == 0 || targType == sym.SXREF {
ldr.Errorf(s, "unknown symbol %s in RISCV call", ldr.SymName(targ))
}
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_CALL)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_GOT_HI20):
if targType != sym.SDYNIMPORT {
// TODO(jsing): Could convert to non-GOT reference.
}
ld.AddGotSym(target, ldr, syms, targ, uint32(elf.R_RISCV_64))
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_GOT_HI20)
su.SetRelocSym(rIdx, syms.GOT)
su.SetRelocAdd(rIdx, r.Add()+int64(ldr.SymGot(targ)))
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_PCREL_HI20):
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_PCREL_HI20)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_PCREL_LO12_I):
if r.Add() != 0 {
ldr.Errorf(s, "R_RISCV_PCREL_LO12_I with non-zero addend")
}
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_PCREL_LO12_I)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_PCREL_LO12_S):
if r.Add() != 0 {
ldr.Errorf(s, "R_RISCV_PCREL_LO12_S with non-zero addend")
}
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_PCREL_LO12_S)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_RVC_BRANCH):
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_RVC_BRANCH)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_RVC_JUMP):
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_RVC_JUMP)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_BRANCH):
su := ldr.MakeSymbolUpdater(s)
su.SetRelocType(rIdx, objabi.R_RISCV_BRANCH)
return true
case objabi.ElfRelocOffset + objabi.RelocType(elf.R_RISCV_RELAX):
// Ignore relaxations, at least for now.
return true
default:
if r.Type() >= objabi.ElfRelocOffset {
ldr.Errorf(s, "unexpected relocation type %d (%s)", r.Type(), sym.RelocName(target.Arch, r.Type()))
return false
}
}
// Reread the reloc to incorporate any changes in type above.
relocs := ldr.Relocs(s)
r = relocs.At(rIdx)
switch r.Type() {
case objabi.R_RISCV_CALL:
if targType != sym.SDYNIMPORT {
// nothing to do, the relocation will be laid out in reloc
return true
}
if target.IsExternal() {
// External linker will do this relocation.
return true
}
// Internal linking.
if r.Add() != 0 {
ldr.Errorf(s, "PLT reference with non-zero addend (%v)", r.Add())
}
// Build a PLT entry and change the relocation target to that entry.
addpltsym(target, ldr, syms, targ)
su := ldr.MakeSymbolUpdater(s)
su.SetRelocSym(rIdx, syms.PLT)
su.SetRelocAdd(rIdx, int64(ldr.SymPlt(targ)))
return true
}
return false
}
func genSymsLate(ctxt *ld.Link, ldr *loader.Loader) {
if ctxt.LinkMode != ld.LinkExternal {
return
}
// Generate a local text symbol for each relocation target, as the
// R_RISCV_PCREL_LO12_* relocations generated by elfreloc1 need it.
if ctxt.Textp == nil {
log.Fatal("genSymsLate called before Textp has been assigned")
}
var hi20Syms []loader.Sym
for _, s := range ctxt.Textp {
relocs := ldr.Relocs(s)
for ri := 0; ri < relocs.Count(); ri++ {
r := relocs.At(ri)
if r.Type() != objabi.R_RISCV_PCREL_ITYPE && r.Type() != objabi.R_RISCV_PCREL_STYPE &&
r.Type() != objabi.R_RISCV_TLS_IE {
continue
}
if r.Off() == 0 && ldr.SymType(s) == sym.STEXT {
// Use the symbol for the function instead of creating
// an overlapping symbol.
continue
}
// TODO(jsing): Consider generating ELF symbols without needing
// loader symbols, in order to reduce memory consumption. This
// would require changes to genelfsym so that it called
// putelfsym and putelfsyment as appropriate.
sb := ldr.MakeSymbolBuilder(fakeLabelName)
sb.SetType(sym.STEXT)
sb.SetValue(ldr.SymValue(s) + int64(r.Off()))
sb.SetLocal(true)
sb.SetReachable(true)
sb.SetVisibilityHidden(true)
sb.SetSect(ldr.SymSect(s))
if outer := ldr.OuterSym(s); outer != 0 {
ldr.AddInteriorSym(outer, sb.Sym())
}
hi20Syms = append(hi20Syms, sb.Sym())
}
}
ctxt.Textp = append(ctxt.Textp, hi20Syms...)
ldr.SortSyms(ctxt.Textp)
}
func findHI20Symbol(ctxt *ld.Link, ldr *loader.Loader, val int64) loader.Sym {
idx := sort.Search(len(ctxt.Textp), func(i int) bool { return ldr.SymValue(ctxt.Textp[i]) >= val })
if idx >= len(ctxt.Textp) {
return 0
}
if s := ctxt.Textp[idx]; ldr.SymValue(s) == val && ldr.SymType(s) == sym.STEXT {
return s
}
return 0
}
func elfreloc1(ctxt *ld.Link, out *ld.OutBuf, ldr *loader.Loader, s loader.Sym, r loader.ExtReloc, ri int, sectoff int64) bool {
elfsym := ld.ElfSymForReloc(ctxt, r.Xsym)
switch r.Type {
case objabi.R_ADDR, objabi.R_DWARFSECREF:
out.Write64(uint64(sectoff))
switch r.Size {
case 4:
out.Write64(uint64(elf.R_RISCV_32) | uint64(elfsym)<<32)
case 8:
out.Write64(uint64(elf.R_RISCV_64) | uint64(elfsym)<<32)
default:
ld.Errorf(nil, "unknown size %d for %v relocation", r.Size, r.Type)
return false
}
out.Write64(uint64(r.Xadd))
case objabi.R_RISCV_JAL, objabi.R_RISCV_JAL_TRAMP:
out.Write64(uint64(sectoff))
out.Write64(uint64(elf.R_RISCV_JAL) | uint64(elfsym)<<32)
out.Write64(uint64(r.Xadd))
case objabi.R_RISCV_CALL, objabi.R_RISCV_PCREL_ITYPE, objabi.R_RISCV_PCREL_STYPE, objabi.R_RISCV_TLS_IE:
// Find the text symbol for the AUIPC instruction targeted
// by this relocation.
relocs := ldr.Relocs(s)
offset := int64(relocs.At(ri).Off())
hi20Sym := findHI20Symbol(ctxt, ldr, ldr.SymValue(s)+offset)
if hi20Sym == 0 {
ld.Errorf(nil, "failed to find text symbol for HI20 relocation at %d (%x)", sectoff, ldr.SymValue(s)+offset)
return false
}
hi20ElfSym := ld.ElfSymForReloc(ctxt, hi20Sym)
// Emit two relocations - a R_RISCV_PCREL_HI20 relocation and a
// corresponding R_RISCV_PCREL_LO12_I or R_RISCV_PCREL_LO12_S relocation.
// Note that the LO12 relocation must point to a target that has a valid
// HI20 PC-relative relocation text symbol, which in turn points to the
// given symbol. For further details see section 8.4.9 of the RISC-V ABIs
// Specification:
//
// https://github.com/riscv-non-isa/riscv-elf-psabi-doc/releases/download/v1.0/riscv-abi.pdf
//
var hiRel, loRel elf.R_RISCV
switch r.Type {
case objabi.R_RISCV_CALL, objabi.R_RISCV_PCREL_ITYPE:
hiRel, loRel = elf.R_RISCV_PCREL_HI20, elf.R_RISCV_PCREL_LO12_I
case objabi.R_RISCV_PCREL_STYPE:
hiRel, loRel = elf.R_RISCV_PCREL_HI20, elf.R_RISCV_PCREL_LO12_S
case objabi.R_RISCV_TLS_IE:
hiRel, loRel = elf.R_RISCV_TLS_GOT_HI20, elf.R_RISCV_PCREL_LO12_I
}
out.Write64(uint64(sectoff))
out.Write64(uint64(hiRel) | uint64(elfsym)<<32)
out.Write64(uint64(r.Xadd))
out.Write64(uint64(sectoff + 4))
out.Write64(uint64(loRel) | uint64(hi20ElfSym)<<32)
out.Write64(uint64(0))
case objabi.R_RISCV_TLS_LE:
out.Write64(uint64(sectoff))
out.Write64(uint64(elf.R_RISCV_TPREL_HI20) | uint64(elfsym)<<32)
out.Write64(uint64(r.Xadd))
out.Write64(uint64(sectoff + 4))
out.Write64(uint64(elf.R_RISCV_TPREL_LO12_I) | uint64(elfsym)<<32)
out.Write64(uint64(r.Xadd))
default:
return false
}
return true
}
func elfsetupplt(ctxt *ld.Link, ldr *loader.Loader, plt, gotplt *loader.SymbolBuilder, dynamic loader.Sym) {
if plt.Size() != 0 {
return
}
if gotplt.Size() != 0 {
ctxt.Errorf(gotplt.Sym(), "got.plt is not empty")
}
// See section 8.4.6 of the RISC-V ABIs Specification:
//
// https://github.com/riscv-non-isa/riscv-elf-psabi-doc/releases/download/v1.0/riscv-abi.pdf
//
// 1: auipc t2, %pcrel_hi(.got.plt)
// sub t1, t1, t3 # shifted .got.plt offset + hdr size + 12
// l[w|d] t3, %pcrel_lo(1b)(t2) # _dl_runtime_resolve
// addi t1, t1, -(hdr size + 12) # shifted .got.plt offset
// addi t0, t2, %pcrel_lo(1b) # &.got.plt
// srli t1, t1, log2(16/PTRSIZE) # .got.plt offset
// l[w|d] t0, PTRSIZE(t0) # link map
// jr t3
plt.AddSymRef(ctxt.Arch, gotplt.Sym(), 0, objabi.R_RISCV_PCREL_HI20, 4)
plt.SetUint32(ctxt.Arch, plt.Size()-4, 0x00000397) // auipc t2,0x0
sb := ldr.MakeSymbolBuilder(fakeLabelName)
sb.SetType(sym.STEXT)
sb.SetValue(ldr.SymValue(plt.Sym()) + plt.Size() - 4)
sb.SetLocal(true)
sb.SetReachable(true)
sb.SetVisibilityHidden(true)
plt.AddInteriorSym(sb.Sym())
plt.AddUint32(ctxt.Arch, 0x41c30333) // sub t1,t1,t3
plt.AddSymRef(ctxt.Arch, sb.Sym(), 0, objabi.R_RISCV_PCREL_LO12_I, 4)
plt.SetUint32(ctxt.Arch, plt.Size()-4, 0x0003be03) // ld t3,0(t2)
plt.AddUint32(ctxt.Arch, 0xfd430313) // addi t1,t1,-44
plt.AddSymRef(ctxt.Arch, sb.Sym(), 0, objabi.R_RISCV_PCREL_LO12_I, 4)
plt.SetUint32(ctxt.Arch, plt.Size()-4, 0x00038293) // addi t0,t2,0
plt.AddUint32(ctxt.Arch, 0x00135313) // srli t1,t1,0x1
plt.AddUint32(ctxt.Arch, 0x0082b283) // ld t0,8(t0)
plt.AddUint32(ctxt.Arch, 0x00008e02) // jr t3
gotplt.AddAddrPlus(ctxt.Arch, dynamic, 0) // got.plt[0] = _dl_runtime_resolve
gotplt.AddUint64(ctxt.Arch, 0) // got.plt[1] = link map
}
func addpltsym(target *ld.Target, ldr *loader.Loader, syms *ld.ArchSyms, s loader.Sym) {
if ldr.SymPlt(s) >= 0 {
return
}
ld.Adddynsym(ldr, target, syms, s)
plt := ldr.MakeSymbolUpdater(syms.PLT)
gotplt := ldr.MakeSymbolUpdater(syms.GOTPLT)
rela := ldr.MakeSymbolUpdater(syms.RelaPLT)
if plt.Size() == 0 {
panic("plt is not set up")
}
// See section 8.4.6 of the RISC-V ABIs Specification:
//
// https://github.com/riscv-non-isa/riscv-elf-psabi-doc/releases/download/v1.0/riscv-abi.pdf
//
// 1: auipc t3, %pcrel_hi(function@.got.plt)
// l[w|d] t3, %pcrel_lo(1b)(t3)
// jalr t1, t3
// nop
plt.AddSymRef(target.Arch, gotplt.Sym(), gotplt.Size(), objabi.R_RISCV_PCREL_HI20, 4)
plt.SetUint32(target.Arch, plt.Size()-4, 0x00000e17) // auipc t3,0x0
sb := ldr.MakeSymbolBuilder(fakeLabelName)
sb.SetType(sym.STEXT)
sb.SetValue(ldr.SymValue(plt.Sym()) + plt.Size() - 4)
sb.SetLocal(true)
sb.SetReachable(true)
sb.SetVisibilityHidden(true)
plt.AddInteriorSym(sb.Sym())
plt.AddSymRef(target.Arch, sb.Sym(), 0, objabi.R_RISCV_PCREL_LO12_I, 4)
plt.SetUint32(target.Arch, plt.Size()-4, 0x000e3e03) // ld t3,0(t3)
plt.AddUint32(target.Arch, 0x000e0367) // jalr t1,t3
plt.AddUint32(target.Arch, 0x00000001) // nop
ldr.SetPlt(s, int32(plt.Size()-16))
// add to got.plt: pointer to plt[0]
gotplt.AddAddrPlus(target.Arch, plt.Sym(), 0)
// rela
rela.AddAddrPlus(target.Arch, gotplt.Sym(), gotplt.Size()-8)
sDynid := ldr.SymDynid(s)
rela.AddUint64(target.Arch, elf.R_INFO(uint32(sDynid), uint32(elf.R_RISCV_JUMP_SLOT)))
rela.AddUint64(target.Arch, 0)
}
func machoreloc1(*sys.Arch, *ld.OutBuf, *loader.Loader, loader.Sym, loader.ExtReloc, int64) bool {
log.Fatalf("machoreloc1 not implemented")
return false
}
func archreloc(target *ld.Target, ldr *loader.Loader, syms *ld.ArchSyms, r loader.Reloc, s loader.Sym, val int64) (o int64, nExtReloc int, ok bool) {
rs := r.Sym()
pc := ldr.SymValue(s) + int64(r.Off())
// If the call points to a trampoline, see if we can reach the symbol
// directly. This situation can occur when the relocation symbol is
// not assigned an address until after the trampolines are generated.
if r.Type() == objabi.R_RISCV_JAL_TRAMP {
relocs := ldr.Relocs(rs)
if relocs.Count() != 1 {
ldr.Errorf(s, "trampoline %v has %d relocations", ldr.SymName(rs), relocs.Count())
}
tr := relocs.At(0)
if tr.Type() != objabi.R_RISCV_CALL {
ldr.Errorf(s, "trampoline %v has unexpected relocation %v", ldr.SymName(rs), tr.Type())
}
trs := tr.Sym()
if ldr.SymValue(trs) != 0 && ldr.SymType(trs) != sym.SDYNIMPORT && ldr.SymType(trs) != sym.SUNDEFEXT {
trsOff := ldr.SymValue(trs) + tr.Add() - pc
if trsOff >= -(1<<20) && trsOff < (1<<20) {
r.SetType(objabi.R_RISCV_JAL)
r.SetSym(trs)
r.SetAdd(tr.Add())
rs = trs
}
}
}
if target.IsExternal() {
switch r.Type() {
case objabi.R_RISCV_JAL, objabi.R_RISCV_JAL_TRAMP:
return val, 1, true
case objabi.R_RISCV_CALL, objabi.R_RISCV_PCREL_ITYPE, objabi.R_RISCV_PCREL_STYPE, objabi.R_RISCV_TLS_IE, objabi.R_RISCV_TLS_LE:
return val, 2, true
}
return val, 0, false
}
off := ldr.SymValue(rs) + r.Add() - pc
switch r.Type() {
case objabi.R_RISCV_JAL, objabi.R_RISCV_JAL_TRAMP:
// Generate instruction immediates.
imm, err := riscv.EncodeJImmediate(off)
if err != nil {
ldr.Errorf(s, "cannot encode J-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
immMask := int64(riscv.JTypeImmMask)
val = (val &^ immMask) | int64(imm)
return val, 0, true
case objabi.R_RISCV_TLS_IE:
log.Fatalf("cannot handle R_RISCV_TLS_IE (sym %s) when linking internally", ldr.SymName(s))
return val, 0, false
case objabi.R_RISCV_TLS_LE:
// Generate LUI and ADDIW instruction immediates.
off := r.Add()
low, high, err := riscv.Split32BitImmediate(off)
if err != nil {
ldr.Errorf(s, "relocation does not fit in 32-bits: %d", off)
}
luiImm, err := riscv.EncodeUImmediate(high)
if err != nil {
ldr.Errorf(s, "cannot encode R_RISCV_TLS_LE LUI relocation offset for %s: %v", ldr.SymName(rs), err)
}
addiwImm, err := riscv.EncodeIImmediate(low)
if err != nil {
ldr.Errorf(s, "cannot encode R_RISCV_TLS_LE I-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
lui := int64(uint32(val))
addiw := int64(uint32(val >> 32))
lui = (lui &^ riscv.UTypeImmMask) | int64(uint32(luiImm))
addiw = (addiw &^ riscv.ITypeImmMask) | int64(uint32(addiwImm))
return addiw<<32 | lui, 0, true
case objabi.R_RISCV_BRANCH:
pc := ldr.SymValue(s) + int64(r.Off())
off := ldr.SymValue(rs) + r.Add() - pc
imm, err := riscv.EncodeBImmediate(off)
if err != nil {
ldr.Errorf(s, "cannot encode B-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
ins := (int64(uint32(val)) &^ riscv.BTypeImmMask) | int64(uint32(imm))
return ins, 0, true
case objabi.R_RISCV_RVC_BRANCH, objabi.R_RISCV_RVC_JUMP:
pc := ldr.SymValue(s) + int64(r.Off())
off := ldr.SymValue(rs) + r.Add() - pc
var err error
var imm, immMask int64
switch r.Type() {
case objabi.R_RISCV_RVC_BRANCH:
immMask = riscv.CBTypeImmMask
imm, err = riscv.EncodeCBImmediate(off)
if err != nil {
ldr.Errorf(s, "cannot encode CB-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
case objabi.R_RISCV_RVC_JUMP:
immMask = riscv.CJTypeImmMask
imm, err = riscv.EncodeCJImmediate(off)
if err != nil {
ldr.Errorf(s, "cannot encode CJ-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
default:
panic(fmt.Sprintf("unknown relocation type: %v", r.Type()))
}
ins := (int64(uint16(val)) &^ immMask) | int64(uint16(imm))
return ins, 0, true
case objabi.R_RISCV_GOT_HI20, objabi.R_RISCV_PCREL_HI20:
pc := ldr.SymValue(s) + int64(r.Off())
off := ldr.SymValue(rs) + r.Add() - pc
// Generate AUIPC immediates.
_, high, err := riscv.Split32BitImmediate(off)
if err != nil {
ldr.Errorf(s, "relocation does not fit in 32-bits: %d", off)
}
auipcImm, err := riscv.EncodeUImmediate(high)
if err != nil {
ldr.Errorf(s, "cannot encode R_RISCV_PCREL_ AUIPC relocation offset for %s: %v", ldr.SymName(rs), err)
}
auipc := int64(uint32(val))
auipc = (auipc &^ riscv.UTypeImmMask) | int64(uint32(auipcImm))
return auipc, 0, true
case objabi.R_RISCV_PCREL_LO12_I, objabi.R_RISCV_PCREL_LO12_S:
hi20Reloc := findHI20Reloc(ldr, rs, ldr.SymValue(rs))
if hi20Reloc == nil {
ldr.Errorf(s, "missing HI20 relocation for LO12 relocation with %s (%d)", ldr.SymName(rs), rs)
}
pc := ldr.SymValue(s) + int64(hi20Reloc.Off())
off := ldr.SymValue(hi20Reloc.Sym()) + hi20Reloc.Add() - pc
low, _, err := riscv.Split32BitImmediate(off)
if err != nil {
ldr.Errorf(s, "relocation does not fit in 32-bits: %d", off)
}
var imm, immMask int64
switch r.Type() {
case objabi.R_RISCV_PCREL_LO12_I:
immMask = riscv.ITypeImmMask
imm, err = riscv.EncodeIImmediate(low)
if err != nil {
ldr.Errorf(s, "cannot encode objabi.R_RISCV_PCREL_LO12_I I-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
case objabi.R_RISCV_PCREL_LO12_S:
immMask = riscv.STypeImmMask
imm, err = riscv.EncodeSImmediate(low)
if err != nil {
ldr.Errorf(s, "cannot encode R_RISCV_PCREL_LO12_S S-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
default:
panic(fmt.Sprintf("unknown relocation type: %v", r.Type()))
}
ins := int64(uint32(val))
ins = (ins &^ immMask) | int64(uint32(imm))
return ins, 0, true
case objabi.R_RISCV_CALL, objabi.R_RISCV_PCREL_ITYPE, objabi.R_RISCV_PCREL_STYPE:
// Generate AUIPC and second instruction immediates.
low, high, err := riscv.Split32BitImmediate(off)
if err != nil {
ldr.Errorf(s, "pc-relative relocation does not fit in 32 bits: %d", off)
}
auipcImm, err := riscv.EncodeUImmediate(high)
if err != nil {
ldr.Errorf(s, "cannot encode AUIPC relocation offset for %s: %v", ldr.SymName(rs), err)
}
var secondImm, secondImmMask int64
switch r.Type() {
case objabi.R_RISCV_CALL, objabi.R_RISCV_PCREL_ITYPE:
secondImmMask = riscv.ITypeImmMask
secondImm, err = riscv.EncodeIImmediate(low)
if err != nil {
ldr.Errorf(s, "cannot encode I-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
case objabi.R_RISCV_PCREL_STYPE:
secondImmMask = riscv.STypeImmMask
secondImm, err = riscv.EncodeSImmediate(low)
if err != nil {
ldr.Errorf(s, "cannot encode S-type instruction relocation offset for %s: %v", ldr.SymName(rs), err)
}
default:
panic(fmt.Sprintf("unknown relocation type: %v", r.Type()))
}
auipc := int64(uint32(val))
second := int64(uint32(val >> 32))
auipc = (auipc &^ riscv.UTypeImmMask) | int64(uint32(auipcImm))
second = (second &^ secondImmMask) | int64(uint32(secondImm))
return second<<32 | auipc, 0, true
}
return val, 0, false
}
func archrelocvariant(*ld.Target, *loader.Loader, loader.Reloc, sym.RelocVariant, loader.Sym, int64, []byte) int64 {
log.Fatalf("archrelocvariant")
return -1
}
func extreloc(target *ld.Target, ldr *loader.Loader, r loader.Reloc, s loader.Sym) (loader.ExtReloc, bool) {
switch r.Type() {
case objabi.R_RISCV_JAL, objabi.R_RISCV_JAL_TRAMP:
return ld.ExtrelocSimple(ldr, r), true
case objabi.R_RISCV_CALL, objabi.R_RISCV_PCREL_ITYPE, objabi.R_RISCV_PCREL_STYPE, objabi.R_RISCV_TLS_IE, objabi.R_RISCV_TLS_LE:
return ld.ExtrelocViaOuterSym(ldr, r, s), true
}
return loader.ExtReloc{}, false
}
func trampoline(ctxt *ld.Link, ldr *loader.Loader, ri int, rs, s loader.Sym) {
relocs := ldr.Relocs(s)
r := relocs.At(ri)
switch r.Type() {
case objabi.R_RISCV_JAL:
pc := ldr.SymValue(s) + int64(r.Off())
off := ldr.SymValue(rs) + r.Add() - pc
// Relocation symbol has an address and is directly reachable,
// therefore there is no need for a trampoline.
if ldr.SymValue(rs) != 0 && off >= -(1<<20) && off < (1<<20) && (*ld.FlagDebugTramp <= 1 || ldr.SymPkg(s) == ldr.SymPkg(rs)) {
break
}
// Relocation symbol is too far for a direct call or has not
// yet been given an address. See if an existing trampoline is
// reachable and if so, reuse it. Otherwise we need to create
// a new trampoline.
var tramp loader.Sym
for i := 0; ; i++ {
oName := ldr.SymName(rs)
name := fmt.Sprintf("%s-tramp%d", oName, i)
if r.Add() != 0 {
name = fmt.Sprintf("%s%+x-tramp%d", oName, r.Add(), i)
}
tramp = ldr.LookupOrCreateSym(name, int(ldr.SymVersion(rs)))
ldr.SetAttrReachable(tramp, true)
if ldr.SymType(tramp) == sym.SDYNIMPORT {
// Do not reuse trampoline defined in other module.
continue
}
if oName == "runtime.deferreturn" {
ldr.SetIsDeferReturnTramp(tramp, true)
}
if ldr.SymValue(tramp) == 0 {
// Either trampoline does not exist or we found one
// that does not have an address assigned and will be
// laid down immediately after the current function.
break
}
trampOff := ldr.SymValue(tramp) - (ldr.SymValue(s) + int64(r.Off()))
if trampOff >= -(1<<20) && trampOff < (1<<20) {
// An existing trampoline that is reachable.
break
}
}
if ldr.SymType(tramp) == 0 {
trampb := ldr.MakeSymbolUpdater(tramp)
ctxt.AddTramp(trampb)
genCallTramp(ctxt.Arch, ctxt.LinkMode, ldr, trampb, rs, int64(r.Add()))
}
sb := ldr.MakeSymbolUpdater(s)
if ldr.SymValue(rs) == 0 {
// In this case the target symbol has not yet been assigned an
// address, so we have to assume a trampoline is required. Mark
// this as a call via a trampoline so that we can potentially
// switch to a direct call during relocation.
sb.SetRelocType(ri, objabi.R_RISCV_JAL_TRAMP)
}
relocs := sb.Relocs()
r := relocs.At(ri)
r.SetSym(tramp)
r.SetAdd(0)
case objabi.R_RISCV_CALL:
// Nothing to do, already using AUIPC+JALR.
default:
ctxt.Errorf(s, "trampoline called with non-jump reloc: %d (%s)", r.Type(), sym.RelocName(ctxt.Arch, r.Type()))
}
}
func genCallTramp(arch *sys.Arch, linkmode ld.LinkMode, ldr *loader.Loader, tramp *loader.SymbolBuilder, target loader.Sym, offset int64) {
tramp.AddUint32(arch, 0x00000f97) // AUIPC $0, X31
tramp.AddUint32(arch, 0x000f8067) // JALR X0, (X31)
r, _ := tramp.AddRel(objabi.R_RISCV_CALL)
r.SetSiz(8)
r.SetSym(target)
r.SetAdd(offset)
}
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