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relocate.go
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relocate.go
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package goloader
import (
"cmd/objfile/sys"
"fmt"
"runtime"
"github.com/pkujhd/goloader/obj"
"github.com/pkujhd/goloader/objabi/reloctype"
"github.com/pkujhd/goloader/objabi/symkind"
"github.com/pkujhd/goloader/objabi/tls"
)
const (
maxExtraCodeSize_ADDRARM64 = 24
maxExtraCodeSize_CALLARM64 = 16
maxExtraCodeSize_ARM64_PCREL_LDST = 24
maxExtraCodeSize_PCRELxMOV = 18
maxExtraCodeSize_PCRELxCMPL = 21
maxExtraCodeSize_PCRELxCALL = 11
maxExtraCodeSize_PCRELxJMP = 14
maxExtraCodeSize_CALL = 11
)
func expandFunc(linker *Linker, objsym *obj.ObjSymbol, symbol *obj.Sym) {
// on linux/amd64, mmap force return < 32bit address, don't need add extra instructions
if linker.Arch.Name == sys.ArchAMD64.Name && runtime.GOOS == "linux" {
return
}
// Pessimistically pad the function text with extra bytes for any relocations which might add extra
// instructions at the end in the case of a 32 bit overflow. These epilogue PCs need to be added to
// the PCData, PCLine, PCFile, PCSP etc.
for i, reloc := range objsym.Reloc {
epilogue := &(objsym.Reloc[i].Epilogue)
epilogue.Offset = len(linker.Code) - symbol.Offset
switch reloc.Type {
case reloctype.R_ADDRARM64:
epilogue.Size = maxExtraCodeSize_ADDRARM64
case reloctype.R_CALLARM64:
epilogue.Size = maxExtraCodeSize_CALLARM64
case reloctype.R_ARM64_PCREL_LDST8, reloctype.R_ARM64_PCREL_LDST16, reloctype.R_ARM64_PCREL_LDST32, reloctype.R_ARM64_PCREL_LDST64:
epilogue.Size = maxExtraCodeSize_ARM64_PCREL_LDST
case reloctype.R_CALL:
epilogue.Size = maxExtraCodeSize_CALL
case reloctype.R_PCREL:
opCodes := objsym.Data[reloc.Offset-2 : reloc.Offset+reloc.Size]
switch opCodes[0] {
case x86amd64MOVcode:
epilogue.Size = maxExtraCodeSize_PCRELxMOV
case x86amd64CMPLcode:
epilogue.Size = maxExtraCodeSize_PCRELxCMPL
default:
switch opCodes[1] {
case x86amd64CALLcode:
epilogue.Size = maxExtraCodeSize_PCRELxCALL
case x86amd64JMPcode:
epilogue.Size = maxExtraCodeSize_PCRELxJMP
}
}
}
if epilogue.Size > 0 {
linker.Code = append(linker.Code, createArchNops(linker.Arch, epilogue.Size)...)
}
}
}
func (linker *Linker) relocateADRP(mCode []byte, loc obj.Reloc, segment *segment, symAddr uintptr) (err error) {
byteorder := linker.Arch.ByteOrder
offset := int64(symAddr) + int64(loc.Add) - ((int64(segment.codeBase) + int64(loc.Offset)) &^ 0xFFF)
//overflow
if offset >= 1<<32 || offset < -1<<32 {
epilogueOffset := loc.Epilogue.Offset
symAddr = symAddr + uintptr(loc.Add)
if symAddr < 0xFFFFFFFF && loc.Type == reloctype.R_ADDRARM64 {
addr := byteorder.Uint32(mCode)
//low: MOV reg imm
low := uint32(0xD2800000)
//high: MOVK reg imm LSL#16
high := uint32(0xF2A00000)
low = ((addr & 0x1F) | low) | ((uint32(symAddr) & 0xFFFF) << 5)
high = ((addr & 0x1F) | high) | (uint32(symAddr) >> 16 << 5)
byteorder.PutUint64(mCode, uint64(low)|(uint64(high)<<32))
} else {
addr := byteorder.Uint32(mCode)
if loc.Type != reloctype.R_ADDRARM64 {
addr = uint32(byteorder.Uint64(mCode) >> 32)
}
blcode := byteorder.Uint32(arm64Bcode)
blcode |= ((uint32(epilogueOffset) - uint32(loc.Offset)) >> 2) & 0x01FFFFFF
if epilogueOffset-loc.Offset < 0 {
blcode |= 0x02000000
}
byteorder.PutUint32(mCode, blcode)
//low: MOV reg imm
llow := uint32(0xD2800000)
//lhigh: MOVK reg imm LSL#16
lhigh := uint32(0xF2A00000)
//llow: MOVK reg imm LSL#32
hlow := uint32(0xF2C00000)
//lhigh: MOVK reg imm LSL#48
hhigh := uint32(0xF2E00000)
llow = ((addr & 0x1F) | llow) | ((uint32(symAddr) & 0xFFFF) << 5)
lhigh = ((addr & 0x1F) | lhigh) | (uint32(symAddr) >> 16 << 5)
putAddressAddOffset(byteorder, segment.codeByte, &epilogueOffset, uint64(llow)|(uint64(lhigh)<<32))
hlow = ((addr & 0x1F) | hlow) | uint32(((uint64(symAddr)>>32)&0xFFFF)<<5)
hhigh = ((addr & 0x1F) | hhigh) | uint32((uint64(symAddr)>>48)<<5)
putAddressAddOffset(byteorder, segment.codeByte, &epilogueOffset, uint64(hlow)|(uint64(hhigh)<<32))
if loc.Type != reloctype.R_ADDRARM64 {
//LDR or STR
ldrOrStr := (byteorder.Uint32(mCode[4:]) & 0xFFFFFC00) | addr&0x1F | ((addr & 0x1F) << 5)
byteorder.PutUint32(segment.codeByte[epilogueOffset:], ldrOrStr)
epilogueOffset += Uint32Size
}
blcode = byteorder.Uint32(arm64Bcode)
blcode |= ((uint32(loc.Offset) - uint32(epilogueOffset) + PtrSize) >> 2) & 0x01FFFFFF
if loc.Offset-epilogueOffset+PtrSize < 0 {
blcode |= 0x02000000
}
byteorder.PutUint32(segment.codeByte[epilogueOffset:], blcode)
}
} else {
// 2bit + 19bit + low(12bit) = 33bit
low := (uint32((offset>>12)&3) << 29) | (uint32((offset>>12>>2)&0x7FFFF) << 5)
high := uint32(0)
switch loc.Type {
case reloctype.R_ADDRARM64, reloctype.R_ARM64_PCREL_LDST8:
high = uint32(offset&0xFFF) << 10
case reloctype.R_ARM64_PCREL_LDST16:
if offset&0x1 != 0 {
err = fmt.Errorf("offset for 16-bit load/store has unaligned value %d", offset&0xFFF)
}
high = (uint32(offset&0xFFF) >> 1) << 10
case reloctype.R_ARM64_PCREL_LDST32:
if offset&0x3 != 0 {
err = fmt.Errorf("offset for 32-bit load/store has unaligned value %d", offset&0xFFF)
}
high = (uint32(offset&0xFFF) >> 2) << 10
case reloctype.R_ARM64_PCREL_LDST64:
if offset&0x7 != 0 {
err = fmt.Errorf("offset for 64-bit load/store has unaligned value %d", offset&0xFFF)
}
high = (uint32(offset&0xFFF) >> 3) << 10
}
value := byteorder.Uint64(mCode)
value = (uint64(uint32(value>>32)|high) << 32) | uint64(uint32(value&0xFFFFFFFF)|low)
byteorder.PutUint64(mCode, value)
}
return err
}
func (linker *Linker) relocateCALL(addr uintptr, loc obj.Reloc, segment *segment, relocByte []byte, addrBase int) {
byteorder := linker.Arch.ByteOrder
offset := int(addr) - (addrBase + loc.Offset + loc.Size) + loc.Add
if isOverflowInt32(offset) {
segment.dataOff = alignof(segment.dataOff, PtrSize)
epilogueOffset := loc.Epilogue.Offset
offset = (segment.codeBase + epilogueOffset) - (addrBase + loc.Offset + loc.Size)
relocByte[loc.Offset-1] = x86amd64JMPcode
copy(segment.codeByte[epilogueOffset:], x86amd64replaceCALLcode)
off := (segment.dataBase + segment.dataOff - segment.codeBase - epilogueOffset - 6)
byteorder.PutUint32(segment.codeByte[epilogueOffset+2:], uint32(off))
putAddressAddOffset(byteorder, segment.dataByte, &segment.dataOff, uint64(addr)+uint64(loc.Add))
epilogueOffset += len(x86amd64replaceCALLcode)
off = addrBase + loc.Offset + loc.Size - segment.codeBase - epilogueOffset
byteorder.PutUint32(segment.codeByte[epilogueOffset-4:], uint32(off))
}
byteorder.PutUint32(relocByte[loc.Offset:], uint32(offset))
}
func (linker *Linker) relocatePCREL(addr uintptr, loc obj.Reloc, segment *segment, relocByte []byte, addrBase int) (err error) {
byteorder := linker.Arch.ByteOrder
offset := int(addr) - (addrBase + loc.Offset + loc.Size) + loc.Add
if isOverflowInt32(offset) {
epilogueOffset := loc.Epilogue.Offset
offset = (segment.codeBase + epilogueOffset) - (addrBase + loc.Offset + loc.Size)
bytes := relocByte[loc.Offset-2:]
opcode := relocByte[loc.Offset-2]
register := ZeroByte
if opcode == x86amd64LEAcode {
bytes[0] = x86amd64MOVcode
//not append epilogue for LEA, put the address into data segment.
offset = (segment.dataBase + segment.dataOff) - (addrBase + loc.Offset + loc.Size)
} else if opcode == x86amd64MOVcode && loc.Size >= Uint32Size {
register = (relocByte[loc.Offset-1] >> 3) & 0x7
copy(bytes, append(x86amd64NOPcode, x86amd64JMPNcode...))
} else if opcode == x86amd64CMPLcode && loc.Size >= Uint32Size {
copy(bytes, append(x86amd64NOPcode, x86amd64JMPNcode...))
} else if (bytes[1] == x86amd64CALLcode) && byteorder.Uint32(relocByte[loc.Offset:]) == 0 {
opcode = bytes[1]
} else if bytes[1] == x86amd64JMPcode {
opcode = bytes[1]
} else {
return fmt.Errorf("do not support x86 opcode: %x for symbol %s (offset %d)!\n", relocByte[loc.Offset-2:loc.Offset], loc.SymName, offset)
}
byteorder.PutUint32(relocByte[loc.Offset:], uint32(offset))
switch opcode {
case x86amd64CMPLcode:
copy(segment.codeByte[epilogueOffset:], x86amd64replaceCMPLcode)
segment.codeByte[epilogueOffset+0x11] = relocByte[loc.Offset+loc.Size]
putAddress(byteorder, segment.codeByte[epilogueOffset+3:], uint64(addr)+uint64(loc.Add))
epilogueOffset += len(x86amd64replaceCMPLcode)
case x86amd64MOVcode:
copy(segment.codeByte[epilogueOffset:], x86amd64replaceMOVQcode)
segment.codeByte[epilogueOffset+1] |= register
segment.codeByte[epilogueOffset+0xC] |= register | (register << 3)
putAddress(byteorder, segment.codeByte[epilogueOffset+2:], uint64(addr)+uint64(loc.Add))
epilogueOffset += len(x86amd64replaceMOVQcode)
case x86amd64CALLcode:
segment.dataOff = alignof(segment.dataOff, PtrSize)
bytes[1] = x86amd64JMPcode
copy(segment.codeByte[epilogueOffset:], x86amd64replaceCALLcode)
off := (segment.dataBase + segment.dataOff - segment.codeBase - epilogueOffset - 6)
byteorder.PutUint32(segment.codeByte[epilogueOffset+2:], uint32(off))
epilogueOffset += len(x86amd64replaceCALLcode)
putAddressAddOffset(byteorder, segment.dataByte, &segment.dataOff, uint64(addr)+uint64(loc.Add))
off = addrBase + loc.Offset + loc.Size - segment.codeBase - epilogueOffset
byteorder.PutUint32(segment.codeByte[epilogueOffset-4:], uint32(off))
case x86amd64JMPcode:
copy(segment.codeByte[epilogueOffset:], x86amd64JMPLcode)
epilogueOffset += len(x86amd64JMPLcode)
copy2Slice(segment.codeByte[epilogueOffset:], addr, PtrSize)
epilogueOffset += PtrSize
case x86amd64LEAcode:
putAddressAddOffset(byteorder, segment.dataByte, &segment.dataOff, uint64(addr)+uint64(loc.Add))
default:
return fmt.Errorf("unexpected x86 opcode %x: %x for symbol %s (offset %d)!\n", opcode, relocByte[loc.Offset-2:loc.Offset], loc.SymName, offset)
}
switch opcode {
case x86amd64CMPLcode, x86amd64MOVcode:
copy(segment.codeByte[epilogueOffset:], x86amd64JMPNcode)
epilogueOffset += len(x86amd64JMPNcode)
returnOffset := (loc.Offset + loc.Size - loc.Add) - epilogueOffset
byteorder.PutUint32(segment.codeByte[epilogueOffset-4:], uint32(returnOffset))
}
} else {
byteorder.PutUint32(relocByte[loc.Offset:], uint32(offset))
}
return nil
}
func (linker *Linker) relocteCALLARM(addr uintptr, loc obj.Reloc, segment *segment) {
byteorder := linker.Arch.ByteOrder
add := loc.Add
if loc.Type == reloctype.R_CALLARM {
add = int(signext24(int64(loc.Add&0xFFFFFF)) * 4)
}
offset := (int(addr) + add - (segment.codeBase + loc.Offset)) / 4
if isOverflowInt24(offset) {
epilogueOffset := loc.Epilogue.Offset
off := uint32(epilogueOffset-loc.Offset) / 4
if loc.Type == reloctype.R_CALLARM {
add = int(signext24(int64(loc.Add&0xFFFFFF)+2) * 4)
off = uint32(epilogueOffset-loc.Offset-8) / 4
}
putUint24(segment.codeByte[loc.Offset:], off)
if loc.Type == reloctype.R_CALLARM64 {
copy(segment.codeByte[epilogueOffset:], arm64ReplaceCALLCode)
epilogueOffset += len(arm64ReplaceCALLCode)
} else {
copy(segment.codeByte[epilogueOffset:], armReplaceCallCode)
epilogueOffset += len(armReplaceCallCode)
}
putAddressAddOffset(byteorder, segment.codeByte, &epilogueOffset, uint64(int(addr)+add))
} else {
val := byteorder.Uint32(segment.codeByte[loc.Offset:])
if loc.Type == reloctype.R_CALLARM {
val |= uint32(offset) & 0x00FFFFFF
} else {
val |= uint32(offset) & 0x03FFFFFF
}
byteorder.PutUint32(segment.codeByte[loc.Offset:], val)
}
}
func (linker *Linker) relocate(codeModule *CodeModule, symbolMap, symPtr map[string]uintptr) (err error) {
segment := &codeModule.segment
byteorder := linker.Arch.ByteOrder
tlsOffset := uint32(tls.GetTLSOffset(linker.Arch, linker.Arch.PtrSize))
for _, symbol := range linker.SymMap {
for _, loc := range symbol.Reloc {
addr := symbolMap[loc.SymName]
relocByte := segment.dataByte
addrBase := segment.dataBase
if symbol.Kind == symkind.STEXT {
addrBase = segment.codeBase
relocByte = segment.codeByte
}
if addr != InvalidHandleValue {
switch loc.Type {
case reloctype.R_TLS_LE, reloctype.R_TLS_IE:
byteorder.PutUint32(relocByte[loc.Offset:], tlsOffset)
case reloctype.R_CALL, reloctype.R_CALL | reloctype.R_WEAK:
linker.relocateCALL(addr, loc, segment, relocByte, addrBase)
case reloctype.R_PCREL:
err = linker.relocatePCREL(addr, loc, segment, relocByte, addrBase)
case reloctype.R_CALLARM, reloctype.R_CALLARM64, reloctype.R_CALLARM64 | reloctype.R_WEAK:
linker.relocteCALLARM(addr, loc, segment)
case reloctype.R_ADDRARM64, reloctype.R_ARM64_PCREL_LDST8, reloctype.R_ARM64_PCREL_LDST16, reloctype.R_ARM64_PCREL_LDST32, reloctype.R_ARM64_PCREL_LDST64:
if symbol.Kind != symkind.STEXT {
err = fmt.Errorf("impossible!Sym:%s locate not in code segment!\n", loc.SymName)
}
err = linker.relocateADRP(relocByte[loc.Offset:], loc, segment, addr)
case reloctype.R_ADDR, reloctype.R_WEAKADDR:
address := uintptr(int(addr) + loc.Add)
putAddress(byteorder, relocByte[loc.Offset:], uint64(address))
case reloctype.R_CALLIND:
//nothing todo
case reloctype.R_ADDROFF, reloctype.R_WEAKADDROFF:
offset := int(addr) - addrBase + loc.Add
if isOverflowInt32(offset) {
err = fmt.Errorf("symName:%s relocateType:%s, offset:%d is overflow!\n", loc.SymName, reloctype.RelocTypeString(loc.Type), offset)
}
byteorder.PutUint32(relocByte[loc.Offset:], uint32(offset))
case reloctype.R_METHODOFF:
if linker.SymMap[loc.SymName].Kind == symkind.STEXT {
addrBase = segment.codeBase
}
offset := int(addr) - addrBase + loc.Add
if isOverflowInt32(offset) {
err = fmt.Errorf("symName:%s relocateType:%s, offset:%d is overflow!\n", loc.SymName, reloctype.RelocTypeString(loc.Type), offset)
}
byteorder.PutUint32(relocByte[loc.Offset:], uint32(offset))
case reloctype.R_GOTPCREL, reloctype.R_ARM64_GOTPCREL:
offset := uint32(segment.dataBase + segment.dataOff - addrBase - loc.Offset - loc.Size)
byteorder.PutUint32(relocByte[loc.Offset:], offset)
putAddressAddOffset(byteorder, segment.dataByte, &segment.dataOff, uint64(addr))
case reloctype.R_USETYPE,
reloctype.R_USEIFACE,
reloctype.R_USEIFACEMETHOD,
reloctype.R_ADDRCUOFF,
reloctype.R_INITORDER:
//nothing todo
case reloctype.R_KEEP:
//nothing todo
default:
err = fmt.Errorf("unknown reloc type:%s sym:%s", reloctype.RelocTypeString(loc.Type), loc.SymName)
}
}
if err != nil {
return err
}
}
}
return err
}