IntelFsp2Pkg/Tools: Add FSP rebasing function into SplitFspBin tool

Enhanced the SplitFspBin tool in IntelFsp2Pkg to support:
  - Rebase FSP 2.0 components to a different base address
  - Display FSP 2.0 information header

Cc: Jiewen Yao <jiewen.yao@intel.com>
Cc: Giri P Mudusuru <giri.p.mudusuru@intel.com>
Contributed-under: TianoCore Contribution Agreement 1.0
Signed-off-by: Maurice Ma <maurice.ma@intel.com>
Reviewed-by: Giri P Mudusuru <giri.p.mudusuru@intel.com>
This commit is contained in:
Maurice Ma 2016-05-27 13:26:28 -07:00
parent 190895683a
commit c6ca1c011b
1 changed files with 568 additions and 252 deletions

View File

@ -20,18 +20,26 @@ import argparse
from ctypes import *
"""
This utility supports some operations for Intel FSP image.
This utility supports some operations for Intel FSP 2.0 image.
It supports:
- Split a FSP 2.0 compatibale image into individual FSP-T/M/S/C
and generate the mapping header file.
- Display FSP 2.0 information header
- Split FSP 2.0 image into individual FSP-T/M/S/O component
- Rebase FSP 2.0 components to a different base address
- Generate FSP mapping C header file
"""
CopyRightHeaderFile = """/*
*
* Automatically generated file; DO NOT EDIT.
* FSP mapping file
*
*/
"""
class c_uint24(Structure):
"""Little-Endian 24-bit Unsigned Integer"""
_pack_ = 1
_fields_ = [
('Data', (c_uint8 * 3))
]
_fields_ = [('Data', (c_uint8 * 3))]
def __init__(self, val=0):
self.set_value(val)
@ -39,324 +47,632 @@ class c_uint24(Structure):
def __str__(self, indent=0):
return '0x%.6x' % self.value
def get_value(self):
return (
(self.Data[0] ) +
(self.Data[1] << 8) +
(self.Data[2] << 16)
)
def __int__(self):
return self.get_value()
def set_value(self, val):
self.Data[0] = (val ) & 0xff
self.Data[1] = (val >> 8) & 0xff
self.Data[2] = (val >> 16) & 0xff
self.Data[0:3] = Val2Bytes(val, 3)
def get_value(self):
return Bytes2Val(self.Data[0:3])
value = property(get_value, set_value)
class EFI_FIRMWARE_VOLUME_HEADER(Structure):
_fields_ = [
('ZeroVector', ARRAY(c_uint8, 16)),
('FileSystemGuid', ARRAY(c_char, 16)),
('FvLength', c_uint64),
('Signature', c_uint32),
('Attributes', c_uint32),
('HeaderLength', c_uint16),
('Checksum', c_uint16),
('ExtHeaderOffset', c_uint16),
('Reserved', c_uint8),
('Revision', c_uint8)
('ZeroVector', ARRAY(c_uint8, 16)),
('FileSystemGuid', ARRAY(c_uint8, 16)),
('FvLength', c_uint64),
('Signature', ARRAY(c_char, 4)),
('Attributes', c_uint32),
('HeaderLength', c_uint16),
('Checksum', c_uint16),
('ExtHeaderOffset', c_uint16),
('Reserved', c_uint8),
('Revision', c_uint8)
]
class EFI_FIRMWARE_VOLUME_EXT_HEADER(Structure):
_fields_ = [
('FvName', ARRAY(c_char, 16)),
('ExtHeaderSize', c_uint32)
('FvName', ARRAY(c_uint8, 16)),
('ExtHeaderSize', c_uint32)
]
class EFI_FFS_INTEGRITY_CHECK(Structure):
_fields_ = [
('Header', c_uint8),
('File', c_uint8)
('Header', c_uint8),
('File', c_uint8)
]
class EFI_FFS_FILE_HEADER(Structure):
_fields_ = [
('Name', ARRAY(c_char, 16)),
('IntegrityCheck', EFI_FFS_INTEGRITY_CHECK),
('Type', c_uint8),
('Attributes', c_uint8),
('Size', c_uint24),
('State', c_uint8)
('Name', ARRAY(c_uint8, 16)),
('IntegrityCheck', EFI_FFS_INTEGRITY_CHECK),
('Type', c_uint8),
('Attributes', c_uint8),
('Size', c_uint24),
('State', c_uint8)
]
class EFI_COMMON_SECTION_HEADER(Structure):
_fields_ = [
('Size', c_uint24),
('Type', c_uint8)
('Size', c_uint24),
('Type', c_uint8)
]
class FSP_COMMON_HEADER(Structure):
_fields_ = [
('Signature', ARRAY(c_char, 4)),
('HeaderLength', c_uint32)
]
class FSP_INFORMATION_HEADER(Structure):
_fields_ = [
('Signature', c_uint32),
('HeaderLength', c_uint32),
('Reserved1', ARRAY(c_uint8, 3)),
('HeaderRevision', c_uint8),
('ImageRevision', c_uint32),
('ImageId', c_uint64),
('ImageSize', c_uint32),
('ImageBase', c_uint32),
('ImageAttribute', c_uint32),
('CfgRegionOffset', c_uint32),
('CfgRegionSize', c_uint32),
('ApiEntryNum', c_uint32),
('NemInitEntry', c_uint32),
('FspInitEntry', c_uint32),
('NotifyPhaseEntry', c_uint32),
('FspMemoryInitEntry', c_uint32),
('TempRamExitEntry', c_uint32),
('FspSiliconInitEntry', c_uint32)
('Signature', ARRAY(c_char, 4)),
('HeaderLength', c_uint32),
('Reserved1', c_uint16),
('SpecVersion', c_uint8),
('HeaderRevision', c_uint8),
('ImageRevision', c_uint32),
('ImageId', ARRAY(c_char, 8)),
('ImageSize', c_uint32),
('ImageBase', c_uint32),
('ImageAttribute', c_uint16),
('ComponentAttribute', c_uint16),
('CfgRegionOffset', c_uint32),
('CfgRegionSize', c_uint32),
('Reserved2', c_uint32),
('TempRamInitEntryOffset', c_uint32),
('Reserved3', c_uint32),
('NotifyPhaseEntryOffset', c_uint32),
('FspMemoryInitEntryOffset', c_uint32),
('TempRamExitEntryOffset', c_uint32),
('FspSiliconInitEntryOffset', c_uint32)
]
class FspFv:
HeaderFile = """/*
*
* Automatically generated file; DO NOT EDIT.
* FSP mapping file
*
*/
"""
FspNameDict = {
"0" : "-C.Fv",
"1" : "-T.Fv",
"2" : "-M.Fv",
"3" : "-S.Fv",
}
class FSP_PATCH_TABLE(Structure):
_fields_ = [
('Signature', ARRAY(c_char, 4)),
('HeaderLength', c_uint16),
('HeaderRevision', c_uint8),
('Reserved', c_uint8),
('PatchEntryNum', c_uint32)
]
def __init__(self, FvBin):
self.FspFv = {}
self.FvList = []
self.FspBin = FvBin
hfsp = open (self.FspBin, 'r+b')
self.FspDat = bytearray(hfsp.read())
class EFI_IMAGE_DATA_DIRECTORY(Structure):
_fields_ = [
('VirtualAddress', c_uint32),
('Size', c_uint32)
]
class EFI_TE_IMAGE_HEADER(Structure):
_fields_ = [
('Signature', ARRAY(c_char, 2)),
('Machine', c_uint16),
('NumberOfSections', c_uint8),
('Subsystem', c_uint8),
('StrippedSize', c_uint16),
('AddressOfEntryPoint', c_uint32),
('BaseOfCode', c_uint32),
('ImageBase', c_uint64),
('DataDirectoryBaseReloc', EFI_IMAGE_DATA_DIRECTORY),
('DataDirectoryDebug', EFI_IMAGE_DATA_DIRECTORY)
]
class PE_RELOC_BLOCK_HEADER(Structure):
_fields_ = [
('PageRVA', c_uint32),
('BlockSize', c_uint32)
]
class EFI_FV_FILETYPE:
ALL = 0x00
RAW = 0x01
FREEFORM = 0x02
SECURITY_CORE = 0x03
PEI_CORE = 0x04
DXE_CORE = 0x05
PEIM = 0x06
DRIVER = 0x07
COMBINED_PEIM_DRIVER = 0x08
APPLICATION = 0x09
SMM = 0x0a
FIRMWARE_VOLUME_IMAGE = 0x0b
COMBINED_SMM_DXE = 0x0c
SMM_CORE = 0x0d
OEM_MIN = 0xc0
OEM_MAX = 0xdf
DEBUG_MIN = 0xe0
DEBUG_MAX = 0xef
FFS_MIN = 0xf0
FFS_MAX = 0xff
FFS_PAD = 0xf0
class EFI_SECTION_TYPE:
"""Enumeration of all valid firmware file section types."""
ALL = 0x00
COMPRESSION = 0x01
GUID_DEFINED = 0x02
DISPOSABLE = 0x03
PE32 = 0x10
PIC = 0x11
TE = 0x12
DXE_DEPEX = 0x13
VERSION = 0x14
USER_INTERFACE = 0x15
COMPATIBILITY16 = 0x16
FIRMWARE_VOLUME_IMAGE = 0x17
FREEFORM_SUBTYPE_GUID = 0x18
RAW = 0x19
PEI_DEPEX = 0x1b
SMM_DEPEX = 0x1c
def AlignPtr (offset, alignment = 8):
return (offset + alignment - 1) & ~(alignment - 1)
def Bytes2Val (bytes):
return reduce(lambda x,y: (x<<8)|y, bytes[::-1] )
def Val2Bytes (value, blen):
return [(value>>(i*8) & 0xff) for i in range(blen)]
def OutputStruct (obj, indent = 0, plen = 0):
if indent:
body = ''
else:
body = (' ' * indent + '<%s>:\n') % obj.__class__.__name__
if plen == 0:
plen = sizeof(obj)
max_key_len = 26
pstr = (' ' * (indent + 1) + '{0:<%d} = {1}\n') % max_key_len
for field in obj._fields_:
key = field[0]
val = getattr(obj, key)
rep = ''
if not isinstance(val, c_uint24) and isinstance(val, Structure):
body += pstr.format(key, val.__class__.__name__)
body += OutputStruct (val, indent + 1)
plen -= sizeof(val)
else:
if type(val) is str:
rep = "0x%X ('%s')" % (Bytes2Val(bytearray(val)), val)
elif type(val) in (int, long):
rep = '0x%X' % val
elif isinstance(val, c_uint24):
rep = '0x%X' % val.get_value()
elif 'c_ubyte_Array' in str(type(val)):
if sizeof(val) == 16:
rep = str(uuid.UUID(bytes = str(bytearray(val)))).upper()
else:
res = ['0x%02X'%i for i in bytearray(val)]
rep = '[%s]' % (','.join(res))
else:
rep = str(val)
plen -= sizeof(field[1])
body += pstr.format(key, rep)
if plen <= 0:
break
return body
class Section:
def __init__(self, offset, secdata):
self.SecHdr = EFI_COMMON_SECTION_HEADER.from_buffer (secdata, 0)
self.SecData = secdata[0:int(self.SecHdr.Size)]
self.Offset = offset
class FirmwareFile:
def __init__(self, offset, filedata):
self.FfsHdr = EFI_FFS_FILE_HEADER.from_buffer (filedata, 0)
self.FfsData = filedata[0:int(self.FfsHdr.Size)]
self.Offset = offset
self.SecList = []
def ParseFfs(self):
ffssize = len(self.FfsData)
offset = sizeof(self.FfsHdr)
if self.FfsHdr.Name != '\xff' * 16:
while offset < ffssize:
sechdr = EFI_COMMON_SECTION_HEADER.from_buffer (self.FfsData, offset)
sec = Section (offset, self.FfsData[offset:offset + int(sechdr.Size)])
self.SecList.append(sec)
offset += int(sechdr.Size)
offset = AlignPtr(offset, 4)
class FirmwareVolume:
def __init__(self, offset, fvdata):
self.FvHdr = EFI_FIRMWARE_VOLUME_HEADER.from_buffer (fvdata, 0)
self.FvData = fvdata[0 : self.FvHdr.FvLength]
self.Offset = offset
if self.FvHdr.ExtHeaderOffset > 0:
self.FvExtHdr = EFI_FIRMWARE_VOLUME_EXT_HEADER.from_buffer (self.FvData, self.FvHdr.ExtHeaderOffset)
else:
self.FvExtHdr = None
self.FfsList = []
def ParseFv(self):
fvsize = len(self.FvData)
if self.FvExtHdr:
offset = self.FvHdr.ExtHeaderOffset + self.FvExtHdr.ExtHeaderSize
else:
offset = self.FvHdr.HeaderLength
offset = AlignPtr(offset)
while offset < fvsize:
ffshdr = EFI_FFS_FILE_HEADER.from_buffer (self.FvData, offset)
if (ffshdr.Name == '\xff' * 16) and (int(ffshdr.Size) == 0xFFFFFF):
offset = fvsize
else:
ffs = FirmwareFile (offset, self.FvData[offset:offset + int(ffshdr.Size)])
ffs.ParseFfs()
self.FfsList.append(ffs)
offset += int(ffshdr.Size)
offset = AlignPtr(offset)
class FspImage:
def __init__(self, offset, fih, fihoff, patch):
self.Fih = fih
self.FihOffset = fihoff
self.Offset = offset
self.FvIdxList = []
self.Type = "XTMSXXXXOXXXXXXX"[(fih.ComponentAttribute >> 12) & 0x0F]
self.PatchList = patch
self.PatchList.append(fihoff + 0x1C)
def AppendFv(self, FvIdx):
self.FvIdxList.append(FvIdx)
def Patch(self, delta, fdbin):
count = 0
applied = 0
for idx, patch in enumerate(self.PatchList):
ptype = (patch>>24) & 0x0F
if ptype not in [0x00, 0x0F]:
raise Exception('ERROR: Invalid patch type %d !' % ptype)
if patch & 0x80000000:
patch = self.Fih.ImageSize - (0x1000000 - (patch & 0xFFFFFF))
else:
patch = patch & 0xFFFFFF
if (patch < self.Fih.ImageSize) and (patch + sizeof(c_uint32) <= self.Fih.ImageSize):
offset = patch + self.Offset
value = Bytes2Val(fdbin[offset:offset+sizeof(c_uint32)])
value += delta
fdbin[offset:offset+sizeof(c_uint32)] = Val2Bytes(value, sizeof(c_uint32))
applied += 1
count += 1
# Don't count the FSP base address patch entry appended at the end
if count != 0:
count -= 1
applied -= 1
return (count, applied)
class FirmwareDevice:
def __init__(self, offset, fdfile):
self.FvList = []
self.FspList = []
self.FdFile = fdfile
self.Offset = 0
hfsp = open (self.FdFile, 'rb')
self.FdData = bytearray(hfsp.read())
hfsp.close()
def OutputStruct (self, obj, indent = 0):
max_key_len = 20
pstr = (' ' * indent + '{0:<%d} = {1}\n') % max_key_len
if indent:
s = ''
else:
s = (' ' * indent + '<%s>:\n') % obj.__class__.__name__
for field in obj._fields_:
key = field[0]
val = getattr(obj, key)
rep = ''
if not isinstance(val, c_uint24) and isinstance(val, Structure):
s += pstr.format(key, val.__class__.__name__)
s += self.OutputStruct (val, indent + 1)
else:
if type(val) in (int, long):
rep = hex(val)
elif isinstance(val, str) and (len(val) == 16):
rep = str(uuid.UUID(bytes = val))
elif isinstance(val, c_uint24):
rep = hex(val.get_value())
elif 'c_ubyte_Array' in str(type(val)):
rep = str(list(bytearray(val)))
else:
rep = str(val)
s += pstr.format(key, rep)
return s
def PrintFv (self):
print ("FV LIST:")
idx = 0
for (fvh, fvhe, offset) in self.FvList:
guid = uuid.UUID(bytes = fvhe.FvName)
print ("FV%d FV GUID:%s Offset:0x%08X Length:0x%08X" % (idx, str(guid), offset, fvh.FvLength))
idx = idx + 1
print ("\nFSP LIST:")
for fsp in self.FspFv:
print "FSP%s contains FV%s" % (fsp, str(self.FspFv[fsp][1]))
print "\nFSP%s Info Header:" % fsp
fih = self.FspFv[fsp][0]
def AlaignPtr (self, offset, alignment = 8):
return (offset + alignment - 1) & ~(alignment - 1)
def GetFspInfoHdr (self, fvh, fvhe, fvoffset):
if fvhe:
offset = fvh.ExtHeaderOffset + fvhe.ExtHeaderSize
else:
offset = fvh.HeaderLength
offset = self.AlaignPtr(offset)
# Now it should be 1st FFS
ffs = EFI_FFS_FILE_HEADER.from_buffer (self.FspDat, offset)
offset += sizeof(ffs)
offset = self.AlaignPtr(offset)
# Now it should be 1st Section
sec = EFI_COMMON_SECTION_HEADER.from_buffer (self.FspDat, offset)
offset += sizeof(sec)
# Now it should be FSP_INFO_HEADER
offset += fvoffset
fih = FSP_INFORMATION_HEADER.from_buffer (self.FspDat, offset)
if 'FSPH' != bytearray.fromhex('%08X' % fih.Signature)[::-1]:
return None
return fih
def GetFvHdr (self, offset):
fvh = EFI_FIRMWARE_VOLUME_HEADER.from_buffer (self.FspDat, offset)
if '_FVH' != bytearray.fromhex('%08X' % fvh.Signature)[::-1]:
return None, None
if fvh.ExtHeaderOffset > 0:
offset += fvh.ExtHeaderOffset
fvhe = EFI_FIRMWARE_VOLUME_EXT_HEADER.from_buffer (self.FspDat, offset)
else:
fvhe = None
return fvh, fvhe
def GetFvData(self, idx):
(fvh, fvhe, offset) = self.FvList[idx]
return self.FspDat[offset:offset+fvh.FvLength]
def ParseFd(self):
offset = 0
fdsize = len(self.FdData)
self.FvList = []
while offset < fdsize:
fvh = EFI_FIRMWARE_VOLUME_HEADER.from_buffer (self.FdData, offset)
if '_FVH' != fvh.Signature:
raise Exception("ERROR: Invalid FV header !")
fv = FirmwareVolume (offset, self.FdData[offset:offset + fvh.FvLength])
fv.ParseFv ()
self.FvList.append(fv)
offset += fv.FvHdr.FvLength
def CheckFsp (self):
if len(self.FspFv) == 0:
if len(self.FspList) == 0:
return
fih = None
for fv in self.FspFv:
for fsp in self.FspList:
if fsp.Fih.HeaderRevision < 3:
raise Exception("ERROR: FSP 1.x is not supported by this tool !")
if not fih:
fih = self.FspFv[fv][0]
fih = fsp.Fih
else:
newfih = self.FspFv[fv][0]
newfih = fsp.Fih
if (newfih.ImageId != fih.ImageId) or (newfih.ImageRevision != fih.ImageRevision):
raise Exception("Inconsistent FSP ImageId or ImageRevision detected !")
return
raise Exception("ERROR: Inconsistent FSP ImageId or ImageRevision detected !")
def WriteFsp(self, dir, name):
def ParseFsp(self):
flen = 0
for idx, fv in enumerate(self.FvList):
# Check if this FV contains FSP header
if flen == 0:
if len(fv.FfsList) == 0:
continue
ffs = fv.FfsList[0]
if len(ffs.SecList) == 0:
continue
sec = ffs.SecList[0]
if sec.SecHdr.Type != EFI_SECTION_TYPE.RAW:
continue
fihoffset = ffs.Offset + sec.Offset + sizeof(sec.SecHdr)
fspoffset = fv.Offset
offset = fspoffset + fihoffset
fih = FSP_INFORMATION_HEADER.from_buffer (self.FdData, offset)
if 'FSPH' != fih.Signature:
continue
offset += fih.HeaderLength
offset = AlignPtr(offset, 4)
plist = []
while True:
fch = FSP_COMMON_HEADER.from_buffer (self.FdData, offset)
if 'FSPP' != fch.Signature:
offset += fch.HeaderLength
offset = AlignPtr(offset, 4)
else:
fspp = FSP_PATCH_TABLE.from_buffer (self.FdData, offset)
offset += sizeof(fspp)
pdata = (c_uint32 * fspp.PatchEntryNum).from_buffer(self.FdData, offset)
plist = list(pdata)
break
fsp = FspImage (fspoffset, fih, fihoffset, plist)
fsp.AppendFv (idx)
self.FspList.append(fsp)
flen = fsp.Fih.ImageSize - fv.FvHdr.FvLength
else:
fsp.AppendFv (idx)
flen -= fv.FvHdr.FvLength
if flen < 0:
raise Exception("ERROR: Incorrect FV size in image !")
self.CheckFsp ()
class TeImage:
def __init__(self, offset, tedata):
self.Offset = offset
self.TeHdr = EFI_TE_IMAGE_HEADER.from_buffer (tedata, 0)
self.TeData = tedata
self.RelocList = []
def ParseReloc(self):
rsize = self.TeHdr.DataDirectoryBaseReloc.Size
roffset = sizeof(self.TeHdr) - self.TeHdr.StrippedSize + self.TeHdr.DataDirectoryBaseReloc.VirtualAddress
alignment = 4
offset = roffset
while offset < roffset + rsize:
offset = AlignPtr(offset, 4)
blkhdr = PE_RELOC_BLOCK_HEADER.from_buffer(self.TeData, offset)
offset += sizeof(blkhdr)
# Read relocation type,offset pairs
rlen = blkhdr.BlockSize - sizeof(PE_RELOC_BLOCK_HEADER)
rnum = rlen/sizeof(c_uint16)
rdata = (c_uint16 * rnum).from_buffer(self.TeData, offset)
for each in rdata:
roff = each & 0xfff
rtype = each >> 12
if rtype == 0: # IMAGE_REL_BASED.ABSOLUTE:
continue
if rtype != 3: # IMAGE_REL_BASED_HIGHLOW
raise Exception("ERROR: Unsupported relocation type %d!" % rtype)
# Calculate the offset of the relocation
aoff = sizeof(self.TeHdr) - self.TeHdr.StrippedSize + blkhdr.PageRVA + roff
self.RelocList.append((rtype, aoff))
offset += sizeof(rdata)
def Rebase(self, delta, fdbin):
count = 0
if delta == 0:
return count
for (rtype, roff) in self.RelocList:
if rtype == 0x03: # HIGHLOW
offset = roff + self.Offset
value = Bytes2Val(fdbin[offset:offset+sizeof(c_uint32)])
value += delta
fdbin[offset:offset+sizeof(c_uint32)] = Val2Bytes(value, sizeof(c_uint32))
count += 1
else:
raise Exception('ERROR: Unknown relocation type %d !' % rtype)
tehdr = self.TeHdr
tehdr.ImageBase += delta
offset = self.Offset
fdbin[offset:offset+sizeof(tehdr)] = bytearray(tehdr)
return count
def ShowFspInfo (fspfile):
fd = FirmwareDevice(0, fspfile)
fd.ParseFd ()
fd.ParseFsp ()
print ("\nFound the following %d Firmware Volumes in FSP binary:" % (len(fd.FvList)))
for idx, fv in enumerate(fd.FvList):
name = fv.FvExtHdr.FvName
if not name:
name = self.FspBin
fspname, ext = os.path.splitext(os.path.basename(name))
for fv in self.FspFv:
filename = os.path.join(dir, fspname + fv + ext)
hfsp = open(filename, 'w+b')
for fvidx in self.FspFv[fv][1]:
hfsp.write (self.GetFvData(fvidx))
hfsp.close()
name = '\xff' * 16
else:
name = str(bytearray(name))
guid = uuid.UUID(bytes = name)
print ("FV%d:" % idx)
print (" GUID : %s" % str(guid).upper())
print (" Offset : 0x%08X" % fv.Offset)
print (" Length : 0x%08X" % fv.FvHdr.FvLength)
print ("\n")
def WriteMap(self, dir, hfile):
if not hfile:
hfile = os.path.splitext(os.path.basename(self.FspBin))[0] + '.h'
fspname, ext = os.path.splitext(os.path.basename(hfile))
filename = os.path.join(dir, fspname + ext)
hfsp = open(filename, 'w')
hfsp.write ('%s\n\n' % self.HeaderFile)
for fsp in fd.FspList:
fvlist = map(lambda x : 'FV%d' % x, fsp.FvIdxList)
print ("FSP_%s contains %s" % (fsp.Type, ','.join(fvlist)))
print ("%s" % (OutputStruct(fsp.Fih, 0, fsp.Fih.HeaderLength)))
firstfv = True
for fsp in self.FspFv:
fih = self.FspFv[fsp][0]
fvs = self.FspFv[fsp][1]
if firstfv:
IdStr = str(bytearray.fromhex('%016X' % fih.ImageId)[::-1])
hfsp.write("#define FSP_IMAGE_ID 0x%016X /* '%s' */\n" % (fih.ImageId, IdStr))
hfsp.write("#define FSP_IMAGE_REV 0x%08X \n\n" % fih.ImageRevision)
firstfv = False
hfsp.write ('#define FSP%s_BASE 0x%08X\n' % (fsp, fih.ImageBase))
hfsp.write ('#define FSP%s_OFFSET 0x%08X\n' % (fsp, self.FvList[fvs[0]][-1]))
hfsp.write ('#define FSP%s_LENGTH 0x%08X\n\n' % (fsp, fih.ImageSize))
def GenFspHdr (fspfile, outdir, hfile):
fd = FirmwareDevice(0, fspfile)
fd.ParseFd ()
fd.ParseFsp ()
if not hfile:
hfile = os.path.splitext(os.path.basename(fspfile))[0] + '.h'
fspname, ext = os.path.splitext(os.path.basename(hfile))
filename = os.path.join(outdir, fspname + ext)
hfsp = open(filename, 'w')
hfsp.write ('%s\n\n' % CopyRightHeaderFile)
firstfv = True
for fsp in fd.FspList:
fih = fsp.Fih
if firstfv:
hfsp.write("#define FSP_IMAGE_ID 0x%016X /* '%s' */\n" % (Bytes2Val(bytearray(fih.ImageId)), fih.ImageId))
hfsp.write("#define FSP_IMAGE_REV 0x%08X \n\n" % fih.ImageRevision)
firstfv = False
fv = fd.FvList[fsp.FvIdxList[0]]
hfsp.write ('#define FSP%s_BASE 0x%08X\n' % (fsp.Type, fih.ImageBase))
hfsp.write ('#define FSP%s_OFFSET 0x%08X\n' % (fsp.Type, fv.Offset))
hfsp.write ('#define FSP%s_LENGTH 0x%08X\n\n' % (fsp.Type, fih.ImageSize))
hfsp.close()
def SplitFspBin (fspfile, outdir, nametemplate):
fd = FirmwareDevice(0, fspfile)
fd.ParseFd ()
fd.ParseFsp ()
for fsp in fd.FspList:
ftype = fsp.Type
if not nametemplate:
nametemplate = fspfile
fspname, ext = os.path.splitext(os.path.basename(nametemplate))
filename = os.path.join(outdir, fspname + '_' + fsp.Type + ext)
hfsp = open(filename, 'wb')
print ("Ceate FSP component file '%s'" % filename)
for fvidx in fsp.FvIdxList:
fv = fd.FvList[fvidx]
hfsp.write(fv.FvData)
hfsp.close()
def ParseFsp (self):
self.FspFv = {}
flen = 0
for (fvh, fvhe, offset) in self.FvList:
fih = self.GetFspInfoHdr (fvh, fvhe, offset)
if fih:
if flen != 0:
raise Exception("Incorrect FV size in image !")
ftype = str((fih.ImageAttribute >> 28) & 0xF)
if ftype not in self.FspNameDict:
raise Exception("Unknown Attribute in image !")
fname = self.FspNameDict[str(ftype)]
if fname in self.FspFv:
raise Exception("Multiple '%s' in image !" % fname)
self.FspFv[fname] = (copy.deepcopy(fih), [])
flen = fih.ImageSize
if flen > 0:
flen = flen - fvh.FvLength
if flen < 0:
raise Exception("Incorrect FV size in image !")
self.FspFv[fname][1].append(self.FvList.index((fvh, fvhe, offset)))
def RebaseFspBin (FspBinary, FspComponent, FspBase, OutputDir, OutputFile):
fd = FirmwareDevice(0, FspBinary)
fd.ParseFd ()
fd.ParseFsp ()
def AddFv(self, offset):
fvh, fvhe = self.GetFvHdr (offset)
if fvh is None:
raise Exception('FV signature is not valid !')
fvitem = (copy.deepcopy(fvh), copy.deepcopy(fvhe), offset)
self.FvList.append(fvitem)
return fvh.FvLength
numcomp = len(FspComponent)
baselist = FspBase
if numcomp != len(baselist):
print "ERROR: Required number of base does not match number of FSP component !"
return
def ParseFv(self):
offset = 0
while (offset < len(self.FspDat)):
fv_len = self.AddFv (offset)
offset += fv_len
newfspbin = fd.FdData[:]
def GenFspHdr (fspfile, outdir, hfile, show):
fsp_fv = FspFv(fspfile)
fsp_fv.ParseFv()
fsp_fv.ParseFsp()
fsp_fv.CheckFsp()
if show:
fsp_fv.PrintFv()
fsp_fv.WriteMap(outdir, hfile)
for idx, fspcomp in enumerate(FspComponent):
def SplitFspBin (fspfile, outdir, nametemplate, show):
fsp_fv = FspFv(fspfile)
fsp_fv.ParseFv()
fsp_fv.ParseFsp()
if show:
fsp_fv.PrintFv()
fsp_fv.WriteFsp(outdir, nametemplate)
found = False
for fsp in fd.FspList:
ftype = fsp.Type.lower()
if ftype == fspcomp:
found = True
break
if not found:
print "ERROR: Could not find FSP_%c component to rebase !" % fspcomp.upper()
return
fspbase = baselist[idx]
if fspbase.startswith('0x'):
newbase = int(fspbase, 16)
else:
newbase = int(fspbase)
oldbase = fsp.Fih.ImageBase
delta = newbase - oldbase
print "Rebase FSP-%c from 0x%08X to 0x%08X:" % (ftype.upper(),oldbase,newbase)
telist = []
for fvidx in fsp.FvIdxList:
fv = fd.FvList[fvidx]
for ffs in fv.FfsList:
for sec in ffs.SecList:
if sec.SecHdr.Type == EFI_SECTION_TYPE.TE: # TE
offset = fd.Offset + fv.Offset + ffs.Offset + sec.Offset + sizeof(sec.SecHdr)
telist.append ((offset, len(sec.SecData) - sizeof(sec.SecHdr)))
elif sec.SecHdr.Type == EFI_SECTION_TYPE.PE32: # PE
raise Exception("ERROR: PE32 Section is not supported !")
fcount = 0
tecount = 0
for (teoffset, telen) in telist:
tehdr = EFI_TE_IMAGE_HEADER.from_buffer (fd.FdData, teoffset)
if 'VZ' != tehdr.Signature:
raise Exception("ERROR: Invalid TE header !")
te = TeImage(teoffset, fd.FdData[teoffset:teoffset + telen])
te.ParseReloc()
tecount += te.Rebase(delta, newfspbin)
fcount += 1
print " Patched %d entries in %d TE images." % (tecount, fcount)
(count, applied) = fsp.Patch(delta, newfspbin)
print " Patched %d entries using FSP patch table." % applied
if count != applied:
print " %d invalid entries are ignored !" % (count - applied)
if OutputFile == '':
filename = os.path.basename(FspBinary)
base, ext = os.path.splitext(filename)
OutputFile = base + "_%08X" % newbase + ext
fspname, ext = os.path.splitext(os.path.basename(OutputFile))
filename = os.path.join(OutputDir, fspname + ext)
fd = open(filename, "wb")
fd.write(newfspbin)
fd.close()
def main ():
parser = argparse.ArgumentParser()
subparsers = parser.add_subparsers(title='commands')
parser = argparse.ArgumentParser()
subparsers = parser.add_subparsers(title='commands')
parser_rebase = subparsers.add_parser('rebase', help='rebase a FSP into a new base address')
parser_rebase.set_defaults(which='rebase')
parser_rebase.add_argument('-f', '--fspbin' , dest='FspBinary', type=str, help='FSP binary file path', required = True)
parser_rebase.add_argument('-c', '--fspcomp', choices=['t','m','s','o'], nargs='+', dest='FspComponent', type=str, help='FSP component to rebase', default = "['t']", required = True)
parser_rebase.add_argument('-b', '--newbase', dest='FspBase', nargs='+', type=str, help='Rebased FSP binary file name', default = '', required = True)
parser_rebase.add_argument('-o', '--outdir' , dest='OutputDir', type=str, help='Output directory path', default = '.')
parser_rebase.add_argument('-n', '--outfile', dest='OutputFile', type=str, help='Rebased FSP binary file name', default = '')
parser_split = subparsers.add_parser('split', help='split a FSP into multiple components')
parser_split.set_defaults(which='split')
parser_split.add_argument('-f', '--fspbin' , dest='FspBinary', type=str, help='FSP binary file path', required = True)
parser_split.add_argument('-o', '--outdir' , dest='OutputDir', type=str, help='Output directory path', default = '.')
parser_split.add_argument('-n', '--nametpl', dest='NameTemplate', type=str, help='Output name template', default = '')
parser_split.add_argument('-p', action='store_true', help='Print FSP FV information', default = False)
parser_genhdr = subparsers.add_parser('genhdr', help='generate a header file for FSP binary')
parser_genhdr.set_defaults(which='genhdr')
parser_genhdr.add_argument('-f', '--fspbin' , dest='FspBinary', type=str, help='FSP binary file path', required = True)
parser_genhdr.add_argument('-o', '--outdir' , dest='OutputDir', type=str, help='Output directory path', default = '.')
parser_genhdr.add_argument('-n', '--hfile', dest='HFileName', type=str, help='Output header file name', default = '')
parser_genhdr.add_argument('-p', action='store_true', help='Print FSP FV information', default = False)
parser_info = subparsers.add_parser('info', help='display FSP information')
parser_info.set_defaults(which='info')
parser_info.add_argument('-f', '--fspbin' , dest='FspBinary', type=str, help='FSP binary file path', required = True)
args = parser.parse_args()
if args.which in ['split', 'genhdr']:
if args.which in ['rebase', 'split', 'genhdr', 'info']:
if not os.path.exists(args.FspBinary):
raise Exception ("Could not locate FSP binary file '%s' !" % args.FspBinary)
if not os.path.exists(args.OutputDir):
raise Exception ("Invalid output directory '%s' !" % args.OutputDir)
raise Exception ("ERROR: Could not locate FSP binary file '%s' !" % args.FspBinary)
if hasattr(args, 'OutputDir') and not os.path.exists(args.OutputDir):
raise Exception ("ERROR: Invalid output directory '%s' !" % args.OutputDir)
if args.which == 'split':
SplitFspBin (args.FspBinary, args.OutputDir, args.NameTemplate, args.p)
if args.which == 'rebase':
RebaseFspBin (args.FspBinary, args.FspComponent, args.FspBase, args.OutputDir, args.OutputFile)
elif args.which == 'split':
SplitFspBin (args.FspBinary, args.OutputDir, args.NameTemplate)
elif args.which == 'genhdr':
GenFspHdr (args.FspBinary, args.OutputDir, args.HFileName, args.p)
GenFspHdr (args.FspBinary, args.OutputDir, args.HFileName)
elif args.which == 'info':
ShowFspInfo (args.FspBinary)
else:
pass
print 'Done!'
return 0
if __name__ == '__main__':