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|
## @file
# This file contains the script to build UniversalPayload
#
# Copyright (c) 2021, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
##
import argparse
import subprocess
import os
import shutil
import sys
import pathlib
from ctypes import *
sys.dont_write_bytecode = True
class bcolors:
HEADER = '\033[95m'
OKBLUE = '\033[94m'
OKCYAN = '\033[96m'
OKGREEN = '\033[92m'
WARNING = '\033[93m'
FAIL = '\033[91m'
ENDC = '\033[0m'
BOLD = '\033[1m'
UNDERLINE = '\033[4m'
class UPLD_INFO_HEADER(LittleEndianStructure):
_pack_ = 1
_fields_ = [
('Identifier', ARRAY(c_char, 4)),
('HeaderLength', c_uint32),
('SpecRevision', c_uint16),
('Reserved', c_uint16),
('Revision', c_uint32),
('Attribute', c_uint32),
('Capability', c_uint32),
('ProducerId', ARRAY(c_char, 16)),
('ImageId', ARRAY(c_char, 16)),
]
def __init__(self):
self.Identifier = b'PLDH'
self.HeaderLength = sizeof(UPLD_INFO_HEADER)
self.SpecRevision = 0x0070
self.Revision = 0x0000010105
self.ImageId = b'UEFI'
self.ProducerId = b'INTEL'
def ValidateSpecRevision (Argument):
try:
(MajorStr, MinorStr) = Argument.split('.')
except:
raise argparse.ArgumentTypeError ('{} is not a valid SpecRevision format (Major[8-bits].Minor[8-bits]).'.format (Argument))
#
# Spec Revision Bits 15 : 8 - Major Version. Bits 7 : 0 - Minor Version.
#
if len(MinorStr) > 0 and len(MinorStr) < 3:
try:
Minor = int(MinorStr, 16) if len(MinorStr) == 2 else (int(MinorStr, 16) << 4)
except:
raise argparse.ArgumentTypeError ('{} Minor version of SpecRevision is not a valid integer value.'.format (Argument))
else:
raise argparse.ArgumentTypeError ('{} is not a valid SpecRevision format (Major[8-bits].Minor[8-bits]).'.format (Argument))
if len(MajorStr) > 0 and len(MajorStr) < 3:
try:
Major = int(MajorStr, 16)
except:
raise argparse.ArgumentTypeError ('{} Major version of SpecRevision is not a valid integer value.'.format (Argument))
else:
raise argparse.ArgumentTypeError ('{} is not a valid SpecRevision format (Major[8-bits].Minor[8-bits]).'.format (Argument))
return int('0x{0:02x}{1:02x}'.format(Major, Minor), 0)
def Validate32BitInteger (Argument):
try:
Value = int (Argument, 0)
except:
raise argparse.ArgumentTypeError ('{} is not a valid integer value.'.format (Argument))
if Value < 0:
raise argparse.ArgumentTypeError ('{} is a negative value.'.format (Argument))
if Value > 0xffffffff:
raise argparse.ArgumentTypeError ('{} is larger than 32-bits.'.format (Argument))
return Value
def ValidateAddFv (Argument):
Value = Argument.split ("=")
if len (Value) != 2:
raise argparse.ArgumentTypeError ('{} is incorrect format with "xxx_fv=xxx.fv"'.format (Argument))
if Value[0][-3:] != "_fv":
raise argparse.ArgumentTypeError ('{} is incorrect format with "xxx_fv=xxx.fv"'.format (Argument))
if Value[1][-3:].lower () != ".fv":
raise argparse.ArgumentTypeError ('{} is incorrect format with "xxx_fv=xxx.fv"'.format (Argument))
if os.path.exists (Value[1]) == False:
raise argparse.ArgumentTypeError ('File {} is not found.'.format (Value[1]))
return Value
def RunCommand(cmd):
print(cmd)
p = subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.STDOUT,cwd=os.environ['WORKSPACE'])
while True:
line = p.stdout.readline()
if not line:
break
print(line.strip().decode(errors='ignore'))
p.communicate()
if p.returncode != 0:
print("- Failed - error happened when run command: %s"%cmd)
raise Exception("ERROR: when run command: %s"%cmd)
def BuildUniversalPayload(Args):
BuildTarget = Args.Target
ToolChain = Args.ToolChain
Quiet = "--quiet" if Args.Quiet else ""
if Args.Fit == True:
PayloadEntryToolChain = ToolChain
Args.Macro.append("UNIVERSAL_PAYLOAD_FORMAT=FIT")
UpldEntryFile = "FitUniversalPayloadEntry"
else:
PayloadEntryToolChain = 'CLANGDWARF'
Args.Macro.append("UNIVERSAL_PAYLOAD_FORMAT=ELF")
UpldEntryFile = "UniversalPayloadEntry"
BuildDir = os.path.join(os.environ['WORKSPACE'], os.path.normpath("Build/UefiPayloadPkg{}").format (Args.Arch))
if Args.Arch == 'X64':
BuildArch = "X64"
FitArch = "x86_64"
elif Args.Arch == 'IA32':
BuildArch = "IA32 -a X64"
FitArch = "x86"
elif Args.Arch == 'RISCV64':
BuildArch = "RISCV64"
FitArch = "RISCV64"
else:
print("Incorrect arch option provided")
EntryOutputDir = os.path.join(BuildDir, "{}_{}".format (BuildTarget, PayloadEntryToolChain), os.path.normpath("{}/UefiPayloadPkg/UefiPayloadEntry/{}/DEBUG/{}.dll".format (Args.Arch, UpldEntryFile, UpldEntryFile)))
EntryModuleInf = os.path.normpath("UefiPayloadPkg/UefiPayloadEntry/{}.inf".format (UpldEntryFile))
DscPath = os.path.normpath("UefiPayloadPkg/UefiPayloadPkg.dsc")
DxeFvOutputDir = os.path.join(BuildDir, "{}_{}".format (BuildTarget, ToolChain), os.path.normpath("FV/DXEFV.Fv"))
BdsFvOutputDir = os.path.join(BuildDir, "{}_{}".format (BuildTarget, ToolChain), os.path.normpath("FV/BDSFV.Fv"))
NetworkFvOutputDir = os.path.join(BuildDir, "{}_{}".format (BuildTarget, ToolChain), os.path.normpath("FV/NETWORKFV.Fv"))
PayloadReportPath = os.path.join(BuildDir, "UefiUniversalPayload.txt")
ModuleReportPath = os.path.join(BuildDir, "UefiUniversalPayloadEntry.txt")
UpldInfoFile = os.path.join(BuildDir, "UniversalPayloadInfo.bin")
Pcds = ""
if (Args.pcd != None):
for PcdItem in Args.pcd:
Pcds += " --pcd {}".format (PcdItem)
Defines = ""
Defines += " -D BUILD_ARCH={}".format(Args.Arch)
if (Args.Macro != None):
for MacroItem in Args.Macro:
Defines += " -D {}".format (MacroItem)
#
# Building DXE core and DXE drivers as DXEFV.
#
if Args.BuildEntryOnly == False:
BuildPayload = "build -p {} -b {} -a {} -t {} -y {} {}".format (DscPath, BuildTarget, BuildArch, ToolChain, PayloadReportPath, Quiet)
BuildPayload += Pcds
BuildPayload += Defines
RunCommand(BuildPayload)
#
# Building Universal Payload entry.
#
if Args.PreBuildUplBinary is None:
BuildModule = "build -p {} -b {} -a {} -m {} -t {} -y {} {}".format (DscPath, BuildTarget, BuildArch, EntryModuleInf, PayloadEntryToolChain, ModuleReportPath, Quiet)
BuildModule += Pcds
BuildModule += Defines
RunCommand(BuildModule)
if Args.PreBuildUplBinary is not None:
if Args.Fit == False:
EntryOutputDir = os.path.join(BuildDir, "UniversalPayload.elf")
else:
EntryOutputDir = os.path.join(BuildDir, "UniversalPayload.fit")
shutil.copy (os.path.abspath(Args.PreBuildUplBinary), EntryOutputDir)
#
# Build Universal Payload Information Section ".upld_info"
#
if Args.Fit == False:
upld_info_hdr = UPLD_INFO_HEADER()
upld_info_hdr.SpecRevision = Args.SpecRevision
upld_info_hdr.Revision = Args.Revision
upld_info_hdr.ProducerId = Args.ProducerId.encode()[:16]
upld_info_hdr.ImageId = Args.ImageId.encode()[:16]
upld_info_hdr.Attribute |= 1 if BuildTarget == "DEBUG" else 0
fp = open(UpldInfoFile, 'wb')
fp.write(bytearray(upld_info_hdr))
fp.close()
if Args.BuildEntryOnly == False:
import Tools.ElfFv as ElfFv
ElfFv.ReplaceFv (EntryOutputDir, UpldInfoFile, '.upld_info', Alignment = 4)
if Args.PreBuildUplBinary is None:
if Args.Fit == False:
shutil.copy (EntryOutputDir, os.path.join(BuildDir, 'UniversalPayload.elf'))
else:
shutil.copy (EntryOutputDir, os.path.join(BuildDir, 'UniversalPayload.fit'))
MultiFvList = []
if Args.BuildEntryOnly == False:
MultiFvList = [
['uefi_fv', os.path.join(BuildDir, "{}_{}".format (BuildTarget, ToolChain), os.path.normpath("FV/DXEFV.Fv")) ],
['bds_fv', os.path.join(BuildDir, "{}_{}".format (BuildTarget, ToolChain), os.path.normpath("FV/BDSFV.Fv")) ],
['network_fv', os.path.join(BuildDir, "{}_{}".format (BuildTarget, ToolChain), os.path.normpath("FV/NETWORKFV.Fv"))],
]
if Args.Fit == True:
import Tools.MkFitImage as MkFitImage
import pefile
fit_image_info_header = MkFitImage.FIT_IMAGE_INFO_HEADER()
fit_image_info_header.Description = 'Uefi Universal Payload'
fit_image_info_header.UplVersion = Args.SpecRevision
fit_image_info_header.Type = 'flat-binary'
fit_image_info_header.Arch = FitArch
fit_image_info_header.Compression = 'none'
fit_image_info_header.Revision = Args.Revision
fit_image_info_header.BuildType = Args.Target.lower()
fit_image_info_header.Capabilities = None
fit_image_info_header.Producer = Args.ProducerId.lower()
fit_image_info_header.ImageId = Args.ImageId.lower()
fit_image_info_header.Binary = os.path.join(BuildDir, 'UniversalPayload.fit')
fit_image_info_header.TargetPath = os.path.join(BuildDir, 'UniversalPayload.fit')
fit_image_info_header.UefifvPath = DxeFvOutputDir
fit_image_info_header.BdsfvPath = BdsFvOutputDir
fit_image_info_header.NetworkfvPath = NetworkFvOutputDir
fit_image_info_header.DataOffset = 0x1000
fit_image_info_header.LoadAddr = Args.LoadAddress
fit_image_info_header.Project = 'tianocore'
TargetRebaseFile = fit_image_info_header.Binary.replace (pathlib.Path(fit_image_info_header.Binary).suffix, ".pecoff")
TargetRebaseEntryFile = fit_image_info_header.Binary.replace (pathlib.Path(fit_image_info_header.Binary).suffix, ".entry")
#
# Rebase PECOFF to load address
#
RunCommand (
"GenFw -e SEC -o {} {}".format (
TargetRebaseFile,
fit_image_info_header.Binary
))
RunCommand (
"GenFw --rebase 0x{:02X} -o {} {} ".format (
fit_image_info_header.LoadAddr + fit_image_info_header.DataOffset,
TargetRebaseFile,
TargetRebaseFile,
))
#
# Open PECOFF relocation table binary.
#
RelocBinary = b''
PeCoff = pefile.PE (TargetRebaseFile)
for reloc in PeCoff.DIRECTORY_ENTRY_BASERELOC:
for entry in reloc.entries:
if (entry.type == 0):
continue
Type = entry.type
Offset = entry.rva + fit_image_info_header.DataOffset
RelocBinary += Type.to_bytes (8, 'little') + Offset.to_bytes (8, 'little')
RelocBinary += b'\x00' * (0x1000 - (len(RelocBinary) % 0x1000))
#
# Output UniversalPayload.entry
#
TempBinary = open (TargetRebaseFile, 'rb')
TianoBinary = TempBinary.read ()
TempBinary.close ()
TianoEntryBinary = TianoBinary + RelocBinary
TianoEntryBinary += (b'\x00' * (0x1000 - (len(TianoBinary) % 0x1000)))
TianoEntryBinarySize = len (TianoEntryBinary)
TempBinary = open(TargetRebaseEntryFile, "wb")
TempBinary.truncate()
TempBinary.write(TianoEntryBinary)
TempBinary.close()
#
# Calculate entry and update relocation table start address and data-size.
#
fit_image_info_header.Entry = PeCoff.OPTIONAL_HEADER.ImageBase + PeCoff.OPTIONAL_HEADER.AddressOfEntryPoint
fit_image_info_header.RelocStart = fit_image_info_header.DataOffset + len(TianoBinary)
fit_image_info_header.DataSize = TianoEntryBinarySize
fit_image_info_header.Binary = TargetRebaseEntryFile
if MkFitImage.MakeFitImage(fit_image_info_header, Args.Arch) is True:
print('\nSuccessfully build Fit Image')
else:
sys.exit(1)
return MultiFvList, os.path.join(BuildDir, 'UniversalPayload.fit')
else:
return MultiFvList, os.path.join(BuildDir, 'UniversalPayload.elf')
def main():
parser = argparse.ArgumentParser(description='For building Universal Payload')
parser.add_argument('-t', '--ToolChain')
parser.add_argument('-b', '--Target', default='DEBUG')
parser.add_argument('-a', '--Arch', choices=['IA32', 'X64', 'RISCV64'], help='Specify the ARCH for payload entry module. Default build X64 image.', default ='X64')
parser.add_argument("-D", "--Macro", action="append", default=["UNIVERSAL_PAYLOAD=TRUE"])
parser.add_argument('-i', '--ImageId', type=str, help='Specify payload ID (16 bytes maximal).', default ='UEFI')
parser.add_argument('-q', '--Quiet', action='store_true', help='Disable all build messages except FATAL ERRORS.')
parser.add_argument("-p", "--pcd", action="append")
parser.add_argument("-s", "--SpecRevision", type=ValidateSpecRevision, default ='0.7', help='Indicates compliance with a revision of this specification in the BCD format.')
parser.add_argument("-r", "--Revision", type=Validate32BitInteger, default ='0x0000010105', help='Revision of the Payload binary. Major.Minor.Revision.Build')
parser.add_argument("-o", "--ProducerId", default ='INTEL', help='A null-terminated OEM-supplied string that identifies the payload producer (16 bytes maximal).')
parser.add_argument("-e", "--BuildEntryOnly", action='store_true', help='Build UniversalPayload Entry file')
parser.add_argument("-pb", "--PreBuildUplBinary", default=None, help='Specify the UniversalPayload file')
parser.add_argument("-sk", "--SkipBuild", action='store_true', help='Skip UniversalPayload build')
parser.add_argument("-af", "--AddFv", type=ValidateAddFv, action='append', help='Add or replace specific FV into payload, Ex: uefi_fv=XXX.fv')
parser.add_argument("-f", "--Fit", action='store_true', help='Build UniversalPayload file as UniversalPayload.fit', default=False)
parser.add_argument('-l', "--LoadAddress", type=int, help='Specify payload load address', default =0x000800000)
args = parser.parse_args()
MultiFvList = []
UniversalPayloadBinary = args.PreBuildUplBinary
if (args.SkipBuild == False):
MultiFvList, UniversalPayloadBinary = BuildUniversalPayload(args)
if (args.AddFv != None):
for (SectionName, SectionFvFile) in args.AddFv:
MultiFvList.append ([SectionName, SectionFvFile])
def ReplaceFv (UplBinary, SectionFvFile, SectionName, Arch):
print (bcolors.OKGREEN + "Patch {}={} into {}".format (SectionName, SectionFvFile, UplBinary) + bcolors.ENDC)
if (args.Fit == False):
import Tools.ElfFv as ElfFv
return ElfFv.ReplaceFv (UplBinary, SectionFvFile, '.upld.{}'.format (SectionName))
else:
import Tools.MkFitImage as MkFitImage
return MkFitImage.ReplaceFv (UplBinary, SectionFvFile, SectionName, Arch)
if (UniversalPayloadBinary != None):
for (SectionName, SectionFvFile) in MultiFvList:
if os.path.exists (SectionFvFile) == False:
continue
if (args.Fit == False):
status = ReplaceFv (UniversalPayloadBinary, SectionFvFile, SectionName, args.Arch)
else:
status = ReplaceFv (UniversalPayloadBinary, SectionFvFile, SectionName.replace ("_", "-"), args.Arch)
if status != 0:
print (bcolors.FAIL + "[Fail] Patch {}={}".format (SectionName, SectionFvFile) + bcolors.ENDC)
return status
print ("\nSuccessfully build Universal Payload")
if __name__ == '__main__':
main()
|