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reloc.go
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reloc.go
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// Copyright 2018 Saferwall. All rights reserved.
// Use of this source code is governed by Apache v2 license
// license that can be found in the LICENSE file.
package pe
import (
"encoding/binary"
"errors"
)
var (
// ErrInvalidBaseRelocVA is reposed when base reloc lies outside of the image.
ErrInvalidBaseRelocVA = errors.New("invalid relocation information." +
" Base Relocation VirtualAddress is outside of PE Image")
// ErrInvalidBasicRelocSizeOfBloc is reposed when base reloc is too large.
ErrInvalidBasicRelocSizeOfBloc = errors.New("invalid relocation " +
"information. Base Relocation SizeOfBlock too large")
)
// ImageBaseRelocationEntryType represents the type of an in image base relocation entry.
type ImageBaseRelocationEntryType uint8
// The Type field of the relocation record indicates what kind of relocation
// should be performed. Different relocation types are defined for each type
// of machine.
const (
// The base relocation is skipped. This type can be used to pad a block.
ImageRelBasedAbsolute = 0
// The base relocation adds the high 16 bits of the difference to the 16-bit
// field at offset. The 16-bit field represents the high value of a 32-bit word.
ImageRelBasedHigh = 1
// The base relocation adds the low 16 bits of the difference to the 16-bit
// field at offset. The 16-bit field represents the low half of a 32-bit word.
ImageRelBasedLow = 2
// The base relocation applies all 32 bits of the difference to the 32-bit
// field at offset.
ImageRelBasedHighLow = 3
// The base relocation adds the high 16 bits of the difference to the 16-bit
// field at offset. The 16-bit field represents the high value of a 32-bit
// word. The low 16 bits of the 32-bit value are stored in the 16-bit word
// that follows this base relocation. This means that this base relocation
// occupies two slots.
ImageRelBasedHighAdj = 4
// The relocation interpretation is dependent on the machine type.
// When the machine type is MIPS, the base relocation applies to a MIPS jump
// instruction.
ImageRelBasedMIPSJmpAddr = 5
// This relocation is meaningful only when the machine type is ARM or Thumb.
// The base relocation applies the 32-bit address of a symbol across a
// consecutive MOVW/MOVT instruction pair.
ImageRelBasedARMMov32 = 5
// This relocation is only meaningful when the machine type is RISC-V. The
// base relocation applies to the high 20 bits of a 32-bit absolute address.
ImageRelBasedRISCVHigh20 = 5
// Reserved, must be zero.
ImageRelReserved = 6
// This relocation is meaningful only when the machine type is Thumb.
// The base relocation applies the 32-bit address of a symbol to a
// consecutive MOVW/MOVT instruction pair.
ImageRelBasedThumbMov32 = 7
// This relocation is only meaningful when the machine type is RISC-V.
// The base relocation applies to the low 12 bits of a 32-bit absolute
// address formed in RISC-V I-type instruction format.
ImageRelBasedRISCVLow12i = 7
// This relocation is only meaningful when the machine type is RISC-V.
// The base relocation applies to the low 12 bits of a 32-bit absolute
// address formed in RISC-V S-type instruction format.
ImageRelBasedRISCVLow12s = 8
// The relocation is only meaningful when the machine type is MIPS.
// The base relocation applies to a MIPS16 jump instruction.
ImageRelBasedMIPSJmpAddr16 = 9
// The base relocation applies the difference to the 64-bit field at offset.
ImageRelBasedDir64 = 10
)
const (
// MaxDefaultRelocEntriesCount represents the default maximum number of
// relocations entries to parse. Some malware uses a fake huge reloc entries that
// can slow significantly the parser.
// Example: 01008963d32f5cc17b64c31446386ee5b36a7eab6761df87a2989ba9394d8f3d
MaxDefaultRelocEntriesCount = 0x1000
)
// ImageBaseRelocation represents the IMAGE_BASE_RELOCATION structure.
// Each chunk of base relocation data begins with an IMAGE_BASE_RELOCATION structure.
type ImageBaseRelocation struct {
// The image base plus the page RVA is added to each offset to create the
// VA where the base relocation must be applied.
VirtualAddress uint32
// The total number of bytes in the base relocation block, including the
// Page RVA and Block Size fields and the Type/Offset fields that follow.
SizeOfBlock uint32
}
// ImageBaseRelocationEntry represents an image base relocation entry.
type ImageBaseRelocationEntry struct {
// Locate data that must be reallocated in buffer (data being an address
// we use pointer of pointer).
Data uint16
// The offset of the relocation. This value plus the VirtualAddress
// in IMAGE_BASE_RELOCATION is the complete RVA.
Offset uint16
// A value that indicates the kind of relocation that should be performed.
// Valid relocation types depend on machine type.
Type ImageBaseRelocationEntryType
}
// Relocation represents the relocation table which holds the data that needs to
// be relocated.
type Relocation struct {
// Points to the ImageBaseRelocation structure.
Data ImageBaseRelocation
// holds the list of entries for each chunk.
Entries []ImageBaseRelocationEntry
}
func (pe *File) parseRelocations(dataRVA, rva, size uint32) ([]ImageBaseRelocationEntry, error) {
var relocEntries []ImageBaseRelocationEntry
relocEntriesCount := size / 2
if relocEntriesCount > pe.opts.MaxRelocEntriesCount {
pe.Anomalies = append(pe.Anomalies, AnoAddressOfDataBeyondLimits)
}
offset := pe.GetOffsetFromRva(dataRVA)
var err error
for i := uint32(0); i < relocEntriesCount; i++ {
entry := ImageBaseRelocationEntry{}
entry.Data, err = pe.ReadUint16(offset + (i * 2))
if err != nil {
break
}
entry.Type = ImageBaseRelocationEntryType(entry.Data >> 12)
entry.Offset = entry.Data & 0x0fff
relocEntries = append(relocEntries, entry)
}
return relocEntries, nil
}
func (pe *File) parseRelocDirectory(rva, size uint32) error {
var sizeOfImage uint32
switch pe.Is64 {
case true:
sizeOfImage = pe.NtHeader.OptionalHeader.(ImageOptionalHeader64).SizeOfImage
case false:
sizeOfImage = pe.NtHeader.OptionalHeader.(ImageOptionalHeader32).SizeOfImage
}
relocSize := uint32(binary.Size(ImageBaseRelocation{}))
end := rva + size
for rva < end {
baseReloc := ImageBaseRelocation{}
offset := pe.GetOffsetFromRva(rva)
err := pe.structUnpack(&baseReloc, offset, relocSize)
if err != nil {
return err
}
// VirtualAddress must lie within the Image.
if baseReloc.VirtualAddress > sizeOfImage {
return ErrInvalidBaseRelocVA
}
// SizeOfBlock must be less or equal than the size of the image.
// It's a rather loose sanity test.
if baseReloc.SizeOfBlock > sizeOfImage {
return ErrInvalidBasicRelocSizeOfBloc
}
relocEntries, err := pe.parseRelocations(rva+relocSize,
baseReloc.VirtualAddress, baseReloc.SizeOfBlock-relocSize)
if err != nil {
return err
}
pe.Relocations = append(pe.Relocations, Relocation{
Data: baseReloc,
Entries: relocEntries,
})
if baseReloc.SizeOfBlock == 0 {
break
}
rva += baseReloc.SizeOfBlock
}
if len(pe.Relocations) > 0 {
pe.HasReloc = true
}
return nil
}
// String returns the string representation of the `Type` field of a base reloc entry.
func (t ImageBaseRelocationEntryType) String(pe *File) string {
relocTypesMap := map[ImageBaseRelocationEntryType]string{
ImageRelBasedAbsolute: "Absolute",
ImageRelBasedHigh: "High",
ImageRelBasedLow: "Low",
ImageRelBasedHighLow: "HighLow",
ImageRelBasedHighAdj: "HighAdj",
ImageRelReserved: "Reserved",
ImageRelBasedRISCVLow12s: "RISC-V Low12s",
ImageRelBasedMIPSJmpAddr16: "MIPS Jmp Addr16",
ImageRelBasedDir64: "DIR64",
}
if value, ok := relocTypesMap[t]; ok {
return value
}
switch pe.NtHeader.FileHeader.Machine {
case ImageFileMachineMIPS16, ImageFileMachineMIPSFPU, ImageFileMachineMIPSFPU16, ImageFileMachineWCEMIPSv2:
if t == ImageRelBasedMIPSJmpAddr {
return "MIPS JMP Addr"
}
case ImageFileMachineARM, ImageFileMachineARM64, ImageFileMachineARMNT:
if t == ImageRelBasedARMMov32 {
return "ARM MOV 32"
}
if t == ImageRelBasedThumbMov32 {
return "Thumb MOV 32"
}
case ImageFileMachineRISCV32, ImageFileMachineRISCV64, ImageFileMachineRISCV128:
if t == ImageRelBasedRISCVHigh20 {
return "RISC-V High 20"
}
if t == ImageRelBasedRISCVLow12i {
return "RISC-V Low 12"
}
}
return "?"
}