internal GPT(byte[] GPTBuffer)
{
this.GPTBuffer = GPTBuffer;
UInt32?TempHeaderOffset = ByteOperations.FindAscii(GPTBuffer, "EFI PART");
if (TempHeaderOffset == null)
{
throw new WPinternalsException("Bad GPT");
}
HeaderOffset = (UInt32)TempHeaderOffset;
HeaderSize = ByteOperations.ReadUInt32(GPTBuffer, HeaderOffset + 0x0C);
TableOffset = HeaderOffset + 0x200;
FirstUsableSector = ByteOperations.ReadUInt64(GPTBuffer, HeaderOffset + 0x28);
LastUsableSector = ByteOperations.ReadUInt64(GPTBuffer, HeaderOffset + 0x30);
MaxPartitions = ByteOperations.ReadUInt32(GPTBuffer, HeaderOffset + 0x50);
PartitionEntrySize = ByteOperations.ReadUInt32(GPTBuffer, HeaderOffset + 0x54);
TableSize = MaxPartitions * PartitionEntrySize;
if ((TableOffset + TableSize) > GPTBuffer.Length)
{
throw new WPinternalsException("Bad GPT");
}
UInt32 PartitionOffset = TableOffset;
while (PartitionOffset < (TableOffset + TableSize))
{
string Name = ByteOperations.ReadUnicodeString(GPTBuffer, PartitionOffset + 0x38, 0x48).TrimEnd(new char[] { (char)0, ' ' });
if (Name.Length == 0)
{
break;
}
Partition CurrentPartition = new Partition();
CurrentPartition.Name = Name;
CurrentPartition.FirstSector = ByteOperations.ReadUInt64(GPTBuffer, PartitionOffset + 0x20);
CurrentPartition.LastSector = ByteOperations.ReadUInt64(GPTBuffer, PartitionOffset + 0x28);
CurrentPartition.PartitionTypeGuid = ByteOperations.ReadGuid(GPTBuffer, PartitionOffset + 0x00);
CurrentPartition.PartitionGuid = ByteOperations.ReadGuid(GPTBuffer, PartitionOffset + 0x10);
CurrentPartition.Attributes = ByteOperations.ReadUInt64(GPTBuffer, PartitionOffset + 0x30);
Partitions.Add(CurrentPartition);
PartitionOffset += PartitionEntrySize;
}
HasChanged = false;
}
private bool HasNewBootloaderFromMassStorage()
{
bool Result = false;
MassStorage Phone = (MassStorage)PhoneNotifier.CurrentModel;
Phone.OpenVolume(false);
byte[] GPTBuffer = Phone.ReadSectors(1, 33);
GPT GPT = new WPinternals.GPT(GPTBuffer);
Partition Partition = GPT.GetPartition("UEFI");
byte[] UefiBuffer = Phone.ReadSectors(Partition.FirstSector, Partition.LastSector - Partition.FirstSector + 1);
UEFI UEFI = new UEFI(UefiBuffer);
string BootMgrName = UEFI.EFIs.Where(efi => ((efi.Name != null) && ((efi.Name.Contains("BootMgrApp")) || (efi.Name.Contains("FlashApp"))))).First().Name;
byte[] BootMgr = UEFI.GetFile(BootMgrName);
// "Header V2"
Result = (ByteOperations.FindAscii(BootMgr, "Header V2") != null);
Phone.CloseVolume();
return(Result);
}
internal UEFI(byte[] UefiBinary)
{
Binary = UefiBinary;
string VolumeHeaderMagic;
UInt32?Offset = ByteOperations.FindAscii(Binary, "_FVH");
if (Offset == null)
{
throw new BadImageFormatException();
}
else
{
VolumeHeaderOffset = (UInt32)Offset - 0x28;
}
if (!VerifyVolumeChecksum(Binary, VolumeHeaderOffset))
{
throw new BadImageFormatException();
}
VolumeSize = ByteOperations.ReadUInt32(Binary, VolumeHeaderOffset + 0x20); // TODO: This is actually a QWORD
VolumeHeaderSize = ByteOperations.ReadUInt16(Binary, VolumeHeaderOffset + 0x30);
PaddingByteValue = (ByteOperations.ReadUInt32(Binary, VolumeHeaderOffset + 0x2C) & 0x00000800) > 0 ? (byte)0xFF : (byte)0x00; // EFI_FVB_ERASE_POLARITY = 0x00000800
// In the volume look for a file of type EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE (0x0B)
FileHeaderOffset = VolumeHeaderOffset + VolumeHeaderSize;
bool VolumeFound = false;
int FileType;
UInt32 FileSize;
do
{
if (!VerifyFileChecksum(Binary, FileHeaderOffset))
{
throw new BadImageFormatException();
}
FileType = ByteOperations.ReadUInt8(Binary, FileHeaderOffset + 0x12);
FileSize = ByteOperations.ReadUInt24(Binary, FileHeaderOffset + 0x14);
if (FileType == 0x0B) // EFI_FV_FILETYPE_FIRMWARE_VOLUME_IMAGE
{
VolumeFound = true;
}
else
{
FileHeaderOffset += FileSize;
// FileHeaderOffset in Volume-body must be Align 8
// In the file-header-attributes the file-alignment relative to the start of the volume is always set to 1,
// so that alignment can be ignored.
FileHeaderOffset = ByteOperations.Align(VolumeHeaderOffset + VolumeHeaderSize, FileHeaderOffset, 8);
}
}while (!VolumeFound && (FileHeaderOffset < (VolumeHeaderOffset + VolumeSize)));
if (!VolumeFound)
{
throw new BadImageFormatException();
}
// Look in file for section of type EFI_SECTION_GUID_DEFINED (0x02)
SectionHeaderOffset = FileHeaderOffset + 0x18;
int SectionType;
UInt32 SectionSize;
UInt16 SectionHeaderSize = 0;
bool DecompressedVolumeFound = false;
do
{
SectionType = ByteOperations.ReadUInt8(Binary, SectionHeaderOffset + 0x03);
SectionSize = ByteOperations.ReadUInt24(Binary, SectionHeaderOffset + 0x00);
if (SectionType == 0x02) // EFI_SECTION_GUID_DEFINED
{
SectionHeaderSize = ByteOperations.ReadUInt16(Binary, SectionHeaderOffset + 0x14);
DecompressedVolumeFound = true;
}
else
{
SectionHeaderOffset += SectionSize;
// SectionHeaderOffset in File-body must be Align 4
SectionHeaderOffset = ByteOperations.Align(FileHeaderOffset + 0x18, SectionHeaderOffset, 4);
}
}while (!DecompressedVolumeFound && (SectionHeaderOffset < (FileHeaderOffset + FileSize)));
if (!DecompressedVolumeFound)
{
throw new BadImageFormatException();
}
// Decompress subvolume
CompressedSubImageOffset = SectionHeaderOffset + SectionHeaderSize;
CompressedSubImageSize = SectionSize - SectionHeaderSize;
// DECOMPRESS HERE
DecompressedImage = LZMA.Decompress(Binary, CompressedSubImageOffset, CompressedSubImageSize);
// Extracted volume contains Sections at its root level
DecompressedVolumeSectionHeaderOffset = 0;
DecompressedVolumeFound = false;
do
{
SectionType = ByteOperations.ReadUInt8(DecompressedImage, DecompressedVolumeSectionHeaderOffset + 0x03);
SectionSize = ByteOperations.ReadUInt24(DecompressedImage, DecompressedVolumeSectionHeaderOffset + 0x00);
SectionHeaderSize = ByteOperations.ReadUInt16(DecompressedImage, DecompressedVolumeSectionHeaderOffset + 0x14);
if (SectionType == 0x17) // EFI_SECTION_FIRMWARE_VOLUME_IMAGE
{
DecompressedVolumeFound = true;
}
else
{
DecompressedVolumeSectionHeaderOffset += SectionSize;
// SectionHeaderOffset in File-body must be Align 4
DecompressedVolumeSectionHeaderOffset = ByteOperations.Align(FileHeaderOffset + 0x18, DecompressedVolumeSectionHeaderOffset, 4);
}
}while (!DecompressedVolumeFound && (DecompressedVolumeSectionHeaderOffset < DecompressedImage.Length));
if (!DecompressedVolumeFound)
{
throw new BadImageFormatException();
}
DecompressedVolumeHeaderOffset = DecompressedVolumeSectionHeaderOffset + 4;
// PARSE COMPRESSED VOLUME
VolumeHeaderMagic = ByteOperations.ReadAsciiString(DecompressedImage, DecompressedVolumeHeaderOffset + 0x28, 0x04);
if (VolumeHeaderMagic != "_FVH")
{
throw new BadImageFormatException();
}
if (!VerifyVolumeChecksum(DecompressedImage, DecompressedVolumeHeaderOffset))
{
throw new BadImageFormatException();
}
Int32 DecompressedVolumeSize = ByteOperations.ReadInt32(DecompressedImage, DecompressedVolumeHeaderOffset + 0x20); // TODO: This is actually a QWORD
UInt16 DecompressedVolumeHeaderSize = ByteOperations.ReadUInt16(DecompressedImage, DecompressedVolumeHeaderOffset + 0x30);
// The files in this decompressed volume are the real EFI's.
UInt32 DecompressedFileHeaderOffset = DecompressedVolumeHeaderOffset + DecompressedVolumeHeaderSize;
EFI CurrentEFI;
do
{
if ((DecompressedFileHeaderOffset + 0x18) >= (DecompressedVolumeHeaderOffset + DecompressedVolumeSize))
{
break;
}
bool ContentFound = false;
for (int i = 0; i < 0x18; i++)
{
if (DecompressedImage[DecompressedFileHeaderOffset + i] != PaddingByteValue)
{
ContentFound = true;
break;
}
}
if (!ContentFound)
{
break;
}
FileSize = ByteOperations.ReadUInt24(DecompressedImage, DecompressedFileHeaderOffset + 0x14);
if ((DecompressedFileHeaderOffset + FileSize) >= (DecompressedVolumeHeaderOffset + DecompressedVolumeSize))
{
break;
}
if (!VerifyFileChecksum(DecompressedImage, DecompressedFileHeaderOffset))
{
throw new BadImageFormatException();
}
CurrentEFI = new EFI();
CurrentEFI.Type = ByteOperations.ReadUInt8(DecompressedImage, DecompressedFileHeaderOffset + 0x12);
byte[] FileGuidBytes = new byte[0x10];
System.Buffer.BlockCopy(DecompressedImage, (int)DecompressedFileHeaderOffset + 0x00, FileGuidBytes, 0, 0x10);
CurrentEFI.Guid = new Guid(FileGuidBytes);
// Parse sections of the EFI
CurrentEFI.FileOffset = DecompressedFileHeaderOffset;
UInt32 DecompressedSectionHeaderOffset = DecompressedFileHeaderOffset + 0x18;
do
{
SectionType = ByteOperations.ReadUInt8(DecompressedImage, DecompressedSectionHeaderOffset + 0x03);
SectionSize = ByteOperations.ReadUInt24(DecompressedImage, DecompressedSectionHeaderOffset + 0x00);
// SectionTypes that are relevant here:
// 0x10 = PE File
// 0x19 = RAW
// 0x15 = Description
// Not all section headers in the UEFI specs are 4 bytes long,
// but the sections that are used in Windows Phone EFI's all have a header of 4 bytes.
if (SectionType == 0x15)
{
CurrentEFI.Name = ByteOperations.ReadUnicodeString(DecompressedImage, DecompressedSectionHeaderOffset + 0x04, SectionSize - 0x04).TrimEnd(new char[] { (char)0, ' ' });
}
else if ((SectionType == 0x10) || (SectionType == 0x19))
{
CurrentEFI.SectionOffset = DecompressedSectionHeaderOffset;
CurrentEFI.BinaryOffset = DecompressedSectionHeaderOffset + 0x04;
CurrentEFI.Size = SectionSize - 0x04;
}
DecompressedSectionHeaderOffset += SectionSize;
// SectionHeaderOffset in File-body must be Align 4
DecompressedSectionHeaderOffset = ByteOperations.Align(DecompressedFileHeaderOffset + 0x18, DecompressedSectionHeaderOffset, 4);
}while (DecompressedSectionHeaderOffset < (DecompressedFileHeaderOffset + FileSize));
DecompressedFileHeaderOffset += FileSize;
// FileHeaderOffset in Volume-body must be Align 8
// In the file-header-attributes the file-alignment relative to the start of the volume is always set to 1,
// so that alignment can be ignored.
DecompressedFileHeaderOffset = ByteOperations.Align(DecompressedVolumeHeaderOffset + DecompressedVolumeHeaderSize, DecompressedFileHeaderOffset, 8);
EFIs.Add(CurrentEFI);
}while (DecompressedFileHeaderOffset < (DecompressedVolumeHeaderOffset + DecompressedVolumeSize));
}
