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Add kaem-optional.hex0.

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Andrius Štikonas 2022-08-07 00:10:53 +01:00
parent fc79b4a153
commit 129bfcbd16
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# SPDX-FileCopyrightText: 2022 Andrius Štikonas <andrius@stikonas.eu>
# SPDX-FileCopyrightText: 2017 Jeremiah Orians <jeremiah@pdp10.guru>
#
# SPDX-License-Identifier: GPL-3.0-or-later
# DOS MZ header
4D 5A # Signature
00 00 # Number of bytes in the last page.
00 00 # Number of whole/partial pages
00 00 # Number of entries in the relocation table.
00 00 # Header size
00 00 # Minimum allocation
00 00 # Maximum allocation
00 00 # Relocatable segment address for SS
00 00 # Initial value for SP
00 00 # Checksum (I don't think is looked at)
00 00 # Initial value for IP (Seems ignored)
00 00 # Relocatable segment address for CS (Seems ignored)
00 00 # The (absolute) offset to the relocation table.
00 00 # Value used for overlay management. If zero, this is the main executable
00 00 00 00 00 00 00 00 # Reserved in PE
00 00 # OEM identifier
00 00 # OEM info
00 00 00 00 00 00 00 00 00 00 # The required reserved 20 bytes of NULLS
00 00 00 00 00 00 00 00 00 00
40 00 00 00 # Starting address of the PE header
# [0x40]
# PE header
50 45 00 00 # Signature "PE"
64 86 # Machine
01 00 # number of sections
00 00 00 00 # Timestamp supposedly
00 00 00 00 # PointerToSymbolTable
00 00 00 00 # number of symbols
F0 00 # SizeOfOptionalHeader
00 00 # 'Characteristics'
# [0x58]
# COFF header bits
0B 02 # Magic PE32+ (64 bit)
00 00 # Linker version
00 00 00 00 # size of code
00 00 00 00 # sizeOfInitializedData
00 00 00 00 # SizeOfUninitializedData
00 10 00 00 # AddressOfEntryPoint
00 10 00 00 # BaseOfCode
00 00 00 80 01 00 00 00 # ImageBase
01 00 00 00 # SectionAlignment
01 00 00 00 # FileAlignment
00 00 00 00 # OperatingSystemVersion
00 00 00 00 # ImageVersion
00 00 00 00 # SubsystemVersion
00 00 00 00 # Win32VersionValue
00 20 00 00 # SizeOfImage
70 01 00 00 # SizeOfHeaders
00 00 00 00 # CheckSum (isn't used at all)
0A 00 # Subsystem
00 00 # DllCharacteristics
00 00 00 00 # SizeOfStackReserve
00 00 00 00 # SizeOfStackCommit
00 00 00 00 # SizeOfHeapReserve
00 00 00 00 # SizeOfHeapCommit
00 00 00 00 # LoaderFlags
00 00 00 00 # NumberOfRvaAndSizes
# [0xB8]
# Data directories (has to be 16 entries always 16bytes per entry)
00 00 00 00 # Export Table
00 00 00 00 # Size of Export Table
00 00 00 00 # Import Table
10 00 00 00 # Size of Import Table
00 00 00 00 # Resource Table
00 00 00 00 # Size of Resource Table
00 00 00 00 # Exception Table
00 00 00 00 # Size of Exception Table
00 00 00 00 # Certificate Table
00 00 00 00 # Size of Certificate Table
00 00 00 00 # Base Relocation Table
00 00 00 00 # Size of Base Relocation Table
00 00 00 00 # Debug Table
00 00 00 00 # Size of Debug Table
00 00 00 00 # Architecture Data Table
00 00 00 00 # Size of Architecture Data Table
00 00 00 00 # Global Pointer
00 00 00 00 # NULL
00 00 00 00 # TLS Table
00 00 00 00 # Size of TLS Table
00 00 00 00 # Load Config Table
00 00 00 00 # Size of Load Config Table
00 00 00 00 # Bound Import Table
00 00 00 00 # Size of Bound Import Table
00 00 00 00 # Import Address Table
00 00 00 00 # Size of Import Address Table
00 00 00 00 # Delay Import Descriptor Table
00 00 00 00 # Size of Delay Import Descriptor Table
00 00 00 00 # CLR Runtime header table
00 00 00 00 # Size of CLR Runtime Header table
00 00 00 00 00 00 00 00 # MUST BE NULL
# no idea what it is yet
00 00 00 00 00 00 00 00
00 00 00 00 00 00 00 00
# [0x148]
# Start of section headers
00 00 00 00 00 00 00 00 ; Name of the section (empty) but could set to ".text"
F6 03 00 00 ; VirtualSize
00 10 00 00 ; VirtualAddress
F6 03 00 00 ; SizeOfRawData
70 01 00 00 ; PointerToRawData
00 00 00 00 ; PointerToRelocations
00 00 00 00 ; PointerToLinenumbers
00 00 ; NumberOfRelocations
00 00 ; NumberOfLinenumbers
00 00 00 00 ; 'Characteristics'
# [0x170]
# :PE32_text
# efi_main(void *image_handle, struct efi_system_table *system)
# :_start
4889E5 ; COPY_RSP_to_RBP # save stack pointer
48890D D4030000 ; STORE64_from_RCX_rel32 %image_handle # save image_handle
488B42 40 ; LOAD64_into_RAX_from_Address_RDX_Immediate8 !64 # system->out
488905 D9030000 ; STORE64_from_RAX_rel32 %system_out # save system->out
4C8B72 60 ; LOAD64_into_R14_from_Address_RDX_Immediate8 !96 # system->boot
31C9 ; XOR_ECX_ECX # timeout = 0
31D2 ; XOR_EDX_EDX # watchdog_code = 0
4D31C0 ; XOR_R8_R8 # data_size = 0
4D31C9 ; XOR_R9_R9 # watchdog_data = 0
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
41FF96 F0000000 ; CALL_R14_Immediate32 %240 # system->boot->set_watchdog_timer
# Open Loaded Image protocol
50 ; PUSH_RAX # allocate stack for image
4989E0 ; COPY_RSP_to_R8 # arg3 = &image
488B15 3F030000 ; LOADI64_rel_RDX %LOADED_IMAGE_PROTOCOL_8 # EFI_LOADED_IMAGE_PROTOCOL_GUID (last 64 bits)
52 ; PUSH_RDX # push last 64 bits onto stack
488B15 2F030000 ; LOADI64_rel_RDX %LOADED_IMAGE_PROTOCOL # EFI_LOADED_IMAGE_PROTOCOL_GUID (first 64 bits)
52 ; PUSH_RDX # push first 64 bits onto
4889E2 ; COPY_RSP_to_RDX # arg2 = &guid
6A 01 ; PUSH !1 # arg6 = EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL
6A 00 ; PUSH !0 # arg5 = NULL
4C8B0D 8E030000 ; LOAD64_into_R9_rel32 %image_handle # arg4 = image_handle
4C89C9 ; COPY_R9_to_RCX # arg1 = image_handle
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
41FF96 18010000 ; CALL_R14_Immediate32 %280 # system->boot->open_protocol(image_handle, &guid, &image, image_handle, 0, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL)
488B4424 40 ; LOAD64_into_RAX_from_Address_RSP_Immediate8 !64 # get_image
488905 7C030000 ; STORE64_from_RAX_rel32 %image # save image
# Command line args
4889C1 ; COPY_RAX_to_RCX # copy image to rcx
488B58 38 ; LOAD64_into_RBX_from_Address_RAX_Immediate8 !56 # options = image->load_options
# Skip application name
# :loop_options1 [_start+0x71]
4883C3 02 ; ADDI8_RBX !2 # ++options
8A03 ; LOAD8_AL_from_Address_RBX # *options
3C 20 ; CMPI8_AL !0x20 # if *options == ' '
74 0D ; JE8 !loop_options2 # then jump
84C0 ; TEST_AL_AL # if options != 0
75 F2 ; JNE8 !loop_options1 # then loop
# Use default file
4C8D25 12030000 ; LEA_R12_rel %default_file # Use "kaem.amd64"
EB 07 ; JMP8 !root_fs # jump
# :loop_options2 [_start+0x88]
4883C3 02 ; ADDI8_RBX !2 # ++options
4989DC ; COPY_RBX_to_R12 # save input file
# :root_fs [_start+0x8F]
# Get root file system
50 ; PUSH_RAX # allocate stack for rootfs
4989E0 ; COPY_RSP_to_R8 # arg3 = &rootfs
488B15 EE020000 ; LOADI64_rel_RDX %SIMPLE_FS_PROTOCOL_8 # EFI_SIMPLE_FILE_SYSTEM_PROTOCOL_GUID (last 64 bits)
52 ; PUSH_RDX # push last 64 bits onto stack
488B15 DE020000 ; LOADI64_rel_RDX %SIMPLE_FS_PROTOCOL # EFI_SIMPLE_FILE_SYSTEM_PROTOCOL_GUID (first 64 bits)
52 ; PUSH_RDX # push first 64 bits onto stack
4889E2 ; COPY_RSP_to_RDX # arg2 = &guid
6A 01 ; PUSH !1 # arg6 = EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL
6A 00 ; PUSH !0 # arg5 = NULL
4C8B0D 2D030000 ; LOAD64_into_R9_rel32 %image_handle # arg4 = image_handle
488B49 18 ; LOAD64_into_RCX_from_Address_RCX_Immediate8 !24 # arg1 = root_device = image->device
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
41FF96 18010000 ; CALL_R14_Immediate32 %280 # system->boot->open_protocol(root_device, &guid, &rootfs, image_handle, 0, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL)
488B4C24 40 ; LOAD64_into_RCX_from_Address_RSP_Immediate8 !64 # get rootfs
# Get root directory
52 ; PUSH_RDX # allocate stack for rootdir
4889E2 ; COPY_RSP_to_RDX # arg3 = &rootdir
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
FF51 08 ; CALL_RCX_Immediate8 !8 # rootfs->open_volume(rootfs, &rootdir)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
415D ; POP_R13 # save &rootdir
# Open file for reading
52 ; PUSH_RDX # allocate stack for fin
4889E2 ; COPY_RSP_to_RDX # arg2 = &fin
6A 01 ; PUSH !1 # arg5 = EFI_FILE_READ_ONLY
6A 01 ; PUSH !1 # prepare to set arg4 to EFI_FILE_MODE_READ
4159 ; POP_R9 # arg4 = EFI_FILE_MODE_READ
4D89E0 ; COPY_R12_to_R8 # arg3 = in
4C89E9 ; COPY_R13_to_RCX # arg1 = rootdir
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
FF51 08 ; CALL_RCX_Immediate8 !8 # rootdir->open()
85C0 ; TEST_EAX_EAX # if status != EFI_SUCCESS
0F85 50020000 ; JNE32 %abort # then exit without closing file
4C8B6424 28 ; LOAD64_into_R12_from_Address_RSP_Immediate8 !40 # get fin
# Allocate pool for command
52 ; PUSH_RDX # allocate stack for command
4989E0 ; COPY_RSP_to_R8 # arg3 = &command
31D2 ; XOR_EDX_EDX # zero RDX
B6 10 ; LOADI8_DH !0x10 # arg2 = 4096 = 0x1000
6A 02 ; PUSH !2
59 ; POP_RCX # arg1 = EFI_LOADER_DATA
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 40 ; CALL_R14_Immediate8 !64 # system->boot->allocate_pool(EFI_LOADER_DATA, 4096, &commmand)
488B5C24 18 ; LOAD64_into_RBX_from_Address_RSP_Immediate8 !24 # get command
# :next_command [_start+0x10D]
31F6 ; XOR_ESI_ESI # i = 0
4D31FF ; XOR_R15_R15 # command_length = 0
# :read_command [_start+0x112]
E8 3D020000 ; CALLI32 %read_byte # read another byte c
3C 0A ; CMPI8_AL !0xa # if c == '\n'
74 2A ; JE8 !read_command_done # then we are done with this command
3C 20 ; CMPI8_AL !0x20 # if c == ' '
75 08 ; JNE8 !read_command_comments
4D85FF ; TEST_R15_R15 # and command_length == 0
75 03 ; JNE8 !read_command_comments
4989F7 ; COPY_RSI_to_R15 # command_length = i
# :read_command_comments [_start+0x127]
3C 23 ; CMPI8_AL !0x23 # if c == '#' then process comment
75 0B ; JNE8 !read_command_store_char # else store char
# :read_command_skip_comment [_start+0x12B]
E8 24020000 ; CALLI32 %read_byte # get another char
3C 0A ; CMPI8_AL !0xa # if c == '\n'
75 F7 ; JNE8 !read_command_skip_comment # continue reading until newline
EB D7 ; JMP8 !next_command # deal with another line
# :read_command_store_char [_start+0x136]
4801F3 ; ADD_RSI_to_RBX # rbx = &command[i]
668903 ; STORE16_AX_into_Address_RBX # command[i] = c
4829F3 ; SUB_RSI_from_RBX # rbx = &command[0]
4883C6 02 ; ADDI8_RSI !2 # location of the next char
EB CD ; JMP8 !read_command # continue looping
# :read_command_done [_start+0x145]
4D85FF ; TEST_R15_R15 # if command_length == 0
74 C3 ; JE8 !next_command # deal with another line
4801F3 ; ADD_RSI_to_RBX # rbx = &command[i]
66C703 0000 ; STOREI16_into_Address_RBX @0 # command[i] = 0
4829F3 ; SUB_RSI_from_RBX # rbx = &command[0]
48D1EE ; SHR_RSI # divide i by 2 to go from char to wchar length
488D15 4F020000 ; LEA_RDX_rel %prefix # get prefix " +> "
E8 E1010000 ; CALLI32 %File_Print # print it
4889DA ; COPY_RBX_to_RDX # get command
E8 D9010000 ; CALLI32 %File_Print # print it
488D15 65020000 ; LEA_RDX_rel %suffix # get suffix "\n\r"
E8 CD010000 ; CALLI32 %File_Print # print it
# Remove command line options
4901DF ; ADD_RBX_to_R15 # go to the space separating command and its options
6641C707 0000 ; STOREI16_into_Address_R15 @0 # zero it to hide command line options
# Open executable file for reading
52 ; PUSH_RDX # allocate stack for fcmd
4889E2 ; COPY_RSP_to_RDX # arg2 = &fcmd
6A 01 ; PUSH !1 # arg5 = EFI_FILE_READ_ONLY
6A 01 ; PUSH !1 # prepare to set arg4 to EFI_FILE_MODE_READ
4159 ; POP_R9 # arg4 = EFI_FILE_MODE_READ
4989D8 ; COPY_RBX_to_R8 # arg3 = command
4C89E9 ; COPY_R13_to_RCX # arg1 = rootdir
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
FF51 08 ; CALL_RCX_Immediate8 !8 # rootdir->open()
85C0 ; TEST_EAX_EAX # if status != EFI_SUCCESS
0F85 82010000 ; JNE32 %print_error # then exit
4883C4 28 ; ADDI8_RSP !40 # deallocate stack
5F ; POP_RDI # get fcmd
# Restore command line arguments
6641C707 2000 ; STOREI16_into_Address_R15 @0x20 # restore command line options by readding ' '
# Allocate pool for file_info
52 ; PUSH_RDX # allocate stack for file_info
4989E0 ; COPY_RSP_to_R8 # arg3 = &file_info
31D2 ; XOR_EDX_EDX # zero RDX
B6 10 ; LOADI8_DH !0x10 # arg2 = 4096 = 0x1000
6A 02 ; PUSH !2
59 ; POP_RCX # arg1 = EFI_LOADER_DATA
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 40 ; CALL_R14_Immediate8 !64 # system->boot->allocate_pool(EFI_LOADER_DATA, 4096, &commmand)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
4159 ; POP_R9 # get file_info (arg4 for get_info)
# Get file info
4151 ; PUSH_R9 # save file_info
50 ; PUSH_RAX # allocate stack for file_size
4989E0 ; COPY_RSP_to_R8 # arg3 = &file_size
49C700 00100000 ; STOREI32_into_Address_R8 %0x1000 # file_size = 0x1000
488B15 B2010000 ; LOADI64_rel_RDX %SIMPLE_FS_PROTOCOL_8 # EFI_FILE_INFO_PROTOCOL (last 64 bits)
52 ; PUSH_RDX # push last 64 bits onto stack
488B15 B2010000 ; LOADI64_rel_RDX %FILE_INFO_PROTOCOL # EFI_FILE_INFO_PROTOCOL (first 64 bits)
52 ; PUSH_RDX # push first 64 bits onto stack
4889E2 ; COPY_RSP_to_RDX # arg2 = &guid
4889F9 ; COPY_RDI_to_RCX # arg1 = fcmd
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
FF51 40 ; CALL_RCX_Immediate8 !64 # fcmd->get_info(fcmd, &guid, &file_size, file_info)
4883C4 38 ; ADDI8_RSP !56 # deallocate stack
59 ; POP_RCX # restore file_info
488B51 08 ; LOAD64_into_RDX_from_Address_RCX_Immediate8 !8 # get file_size
# Free file_info pool
52 ; PUSH_RDX # save file_size onto stack
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 48 ; CALL_R14_Immediate8 !72 # system->boot->free_pool(file_info)
58 ; POP_RAX # deallocate stack
5A ; POP_RDX # restore file_size from stack (arg2 for allocate_pool)
# Allocate pool for executable
52 ; PUSH_RDX # save file_size onto stack
52 ; PUSH_RDX # allocate stack for executable
4989E0 ; COPY_RSP_to_R8 # arg3 = &executable
6A 02 ; PUSH !2
59 ; POP_RCX # arg1 = EFI_LOADER_DATA
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 40 ; CALL_R14_Immediate8 !64 # system->boot->allocate_pool(EFI_LOADER_DATA, file_size, &executable)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
415F ; POP_R15 # get executable
5A ; POP_RDX # restore file_size
# Load executable into memory
52 ; PUSH_RDX # save file_size onto stack
4D89F8 ; COPY_R15_to_R8 # arg3 = executable
4889E2 ; COPY_RSP_to_RDX # arg2 = &file_size
4889F9 ; COPY_RDI_to_RCX # arg1 = fcmd
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
FF51 20 ; CALL_RCX_Immediate8 !32 # fcmd->read(fcmd, &file_size, executable)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
# Close fcmd
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
4889F9 ; COPY_RDI_to_RCX # arg1 = fcmd
FF51 10 ; CALL_RCX_Immediate8 !16 # fcmd->close(fcmd)
58 ; POP_RAX # deallocate stack
5F ; POP_RDI # restore file_size
# Allocate memory for device_path struct
52 ; PUSH_RDX # allocate stack for device_path
4989E0 ; COPY_RSP_to_R8 # arg3 = &device_path
6A 1C ; PUSH !28 # 4 + sizeof(struct efi_device_path_protocol)
5A ; POP_RDX # arg2 = 28
6A 02 ; PUSH !2
59 ; POP_RCX # arg1 = EFI_LOADER_DATA
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 40 ; CALL_R14_Immediate8 !64 # system->boot->allocate_pool(EFI_LOADER_DATA, 28, &device_path)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
4158 ; POP_R8 # get device_path
# Initialize struct
4C89C0 ; COPY_R8_to_RAX # Make a pointer to device_path members
C600 01 ; STOREI8_into_Address_RAX !1 # device_path->type = HARDWARE_DEVICE_PATH
48FFC0 ; INC_RAX # next member
C600 03 ; STOREI8_into_Address_RAX !3 # device_path->subtype = MEMORY_MAPPED
48FFC0 ; INC_RAX # next member
66C700 1800 ; STOREI16_into_Address_RAX @24 # device_path->length = 24
4883C0 02 ; ADDI8_RAX !2 # next member
C700 01000000 ; STOREI32_into_Address_RAX %1 # device_path->memory_type = EFI_LOADER_CODE
4883C0 04 ; ADDI8_RAX !4 # next member
4C8938 ; STORE64_R15_into_Address_RAX # device_path->start_address = executable
4883C0 08 ; ADDI8_RAX !8 # next member
4901FF ; ADD_RDI_to_R15 # end_address = executable + file_size
4C8938 ; STORE64_R15_into_Address_RAX # device_path->end_address = end_address
4929FF ; SUB_RDI_from_R15 # restore r15 = executable
4883C0 08 ; ADDI8_RAX !8 # next member
C600 7F ; STOREI8_into_Address_RAX !0x7f # device_path[1].type = END_HARDWARE_DEVICE_PATH
48FFC0 ; INC_RAX # next member
C600 FF ; STOREI8_into_Address_RAX !0xff # device_path[1].subtype = END_ENTIRE_DEVICE_PATH
48FFC0 ; INC_RAX # next member
66C700 0400 ; STOREI16_into_Address_RAX @4 # device_path[1].length = 4
# Load image
4150 ; PUSH_R8 # save device_path
50 ; PUSH_RAX # allocate stack for child_ih
54 ; PUSH_RSP # arg6 = &child_ih
57 ; PUSH_RDI # arg5 = file size
4D89F9 ; COPY_R15_to_R9 # arg4 = executable
# arg3 = device_path
488B15 44010000 ; LOAD64_into_RDX_rel32 %image_handle # arg2 = image_handle
31C9 ; XOR_ECX_ECX # arg1 = 0
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
41FF96 C8000000 ; CALL_R14_Immediate32 %200 # system->boot->load_image()
4883C4 30 ; ADDI8_RSP !48 # deallocate stack
5F ; POP_RDI # save child_ih
# Free device_path pool
59 ; POP_RCX # arg1 = device_path
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 48 ; CALL_R14_Immediate8 !72 # system->boot->free_pool(device_path)
58 ; POP_RAX # deallocate stack
# Free executable pool
4C89F9 ; COPY_R15_to_RCX # arg1 = executable
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 48 ; CALL_R14_Immediate8 !72 # system->boot->free_pool(executable)
58 ; POP_RAX # deallocate stack
# Open Child Image
50 ; PUSH_RAX # allocate stack for child_image
4989E0 ; COPY_RSP_to_R8 # arg3 = &child_image
488B15 B1000000 ; LOADI64_rel_RDX %LOADED_IMAGE_PROTOCOL_8 # EFI_LOADED_IMAGE_PROTOCOL_GUID (last 64 bits)
52 ; PUSH_RDX # push last 64 bits onto stack
488B15 A1000000 ; LOADI64_rel_RDX %LOADED_IMAGE_PROTOCOL # EFI_LOADED_IMAGE_PROTOCOL_GUID (first 64 bits)
52 ; PUSH_RDX # push first 64 bits onto
4889E2 ; COPY_RSP_to_RDX # arg2 = &guid
6A 01 ; PUSH !1 # arg6 = EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL
6A 00 ; PUSH !0 # arg5 = NULL
4989F9 ; COPY_RDI_to_R9 # arg4 = child_ih
4889F9 ; COPY_RDI_to_RCX # arg1 = child_ih
4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function
41FF96 18010000 ; CALL_R14_Immediate32 %280 # system->boot->open_protocol(child_ih, &guid, &child_image, child_ih, 0, EFI_OPEN_PROTOCOL_BY_HANDLE_PROTOCOL)
4883C4 40 ; ADDI8_RSP !64 # deallocate stack
58 ; POP_RAX # get child_image
488958 38 ; STORE64_from_RBX_into_Address_RAX_Immediate8 !56 # child_image->load_options = command
488970 30 ; STORE64_from_RSI_into_Address_RAX_Immediate8 !48 # set child_image->load_options_size
488B0D EA000000 ; LOADI64_rel_RCX %image # get image
488B49 18 ; LOAD64_into_RCX_from_Address_RCX_Immediate8 !24 # image->device
488948 18 ; STORE64_from_RCX_into_Address_RCX_Immediate8 !24 # child_image->device = image->device
# Run command
4D31C0 ; XOR_R8_R8 # arg3 = 0 (ExitData)
31D2 ; XOR_EDX_EDX # arg2 = 0 (ExitData size)
4889F9 ; COPY_RDI_to_RCX # arg1 = child_ih
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF96 D0000000 ; CALL_R14_Immediate32 %208 # system->boot->start_image()
59 ; POP_RCX # deallocate stack
59 ; POP_RCX # deallocate stack
59 ; POP_RCX # deallocate stack
85C0 ; TEST_EAX_EAX # check if return code is 0
75 05 ; JNE8 !print_error # print error and exit
E9 EBFDFFFF ; JMP32 %next_command # process another line from kaem script
# :print_error [_start+0x322]
50 ; PUSH_RAX # save exit code
488B15 8E000000 ; LOAD64_into_RDX_rel32 %subprocess_error # get error message
E8 16000000 ; CALLI32 %File_Print # print it
58 ; POP_RAX # restore exit code
# Close script file and exit
# :terminate [_start+0x330]
# Free pool
4889C3 ; COPY_RBX_to_RCX # arg1 = command
50 ; PUSH_RAX # save exit code
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
41FF56 48 ; CALL_R14_Immediate8 !72 # system->boot->free_pool(commmand)
4C89E1 ; COPY_R12_to_RCX # arg1 = fin
FF51 10 ; CALL_RCX_Immediate8 !16 # fin->close(fin)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # restore exit code
# Exit without closing script file
# :abort [_start+0x341]
4889EC ; COPY_RBP_to_RSP # restore stack
C3 ; RET
# :File_Print [_start+0x345]
488B0D A2000000 ; LOADI64_rel_RCX %system_out # get system_out
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
FF51 08 ; CALL_RCX_Immediate8 !8 # system->out->output_string(system->out, WCHAR*)
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
C3 ; RET
# read_byte function
# reads a single character
# :read_byte [_start+0x354]
4C89E1 ; COPY_R12_to_RCX # arg1 = fin
6A 01 ; PUSH !1 # size = 1
4889E2 ; COPY_RSP_to_RDX # arg2 = &size
56 ; PUSH_RSI # allocate stack
4989E0 ; COPY_RSP_to_R8 # arg3 = &c
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
50 ; PUSH_RAX # allocate shadow stack space for UEFI function
FF51 20 ; CALL_RCX_Immediate8 !32 # fin->read()
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # deallocate stack
58 ; POP_RAX # save c to rax
59 ; POP_RCX # save size to rcx
# If the file ended (0 bytes read) terminate
85C9 ; TEST_ECX_ECX # if size = 0
74 C1 ; JE8 !terminate # then we are done
C3 ; RET # return
# Protocol GUIDs
# :LOADED_IMAGE_PROTOCOL [_start+0x370]
A1 31 1B 5B ; %0x5b1b31a1:SIMPLE_FS_PROTOCOL
62 95 ; @0x9562 22 5B 4E 96 ; %0x0964e5b22
D2 11 ; @0x11d2 59 64 ; @0x6459
# :LOADED_IMAGE_PROTOCOL_8 [_start+0x378]
8E 3F 00 A0 C9 69 72 3B ; !0x8e !0x3f !0 !0xa0 !0xc9 !0x69 !0x72 !0x3b
# :SIMPLE_FS_PROTOCOL [_start+0x380]
22 5B 4E 96 ; %0x0964e5b22
59 64 ; @0x6459
D2 11 ; @0x11d2
# :SIMPLE_FS_PROTOCOL_8 [_start+0x388]
8E 39 00 A0 C9 69 72 3B ; !0x8e !0x39 !0 !0xa0 !0xc9 !0x69 !0x72 !0x3b
# :FILE_INFO_PROTOCOL [_start+0x390]
92 6E 57 09 ; %0x09576e92
3F 6D ; @0x6d3f
D2 11 ; @0x11d2
# last 64-bits of GUID are identical to SIMPLE_FS_PROTOCOL
# :default_file [_start+0x398]
6B 00 61 00 65 00 6D 00 2E 00 61 00 6D 00 64 00 36 00 34 00 00 00 ; L"kaem.amd64"
# :prefix [_start+0x3AE]
20 00 2B 00 3E 00 20 00 00 00 ; L" +> "
# :subprocess_error [_start+0x3B8]
53 00 75 00 62 00 70 00 72 00 6F 00 63 00 65 00
73 00 73 00 20 00 65 00 72 00 72 00 6F 00 72 00
# :suffix [_start+0x3D8]
0A 00 0D 00 00 00 ; L"Subprocess error\n\r"
# :image_handle [_start+0x3DE]
00 00 00 00 00 00 00 00
# :image [_start+0x3E6]
00 00 00 00 00 00 00 00
# :system_out [_start+0x3EE]
00 00 00 00 00 00 00 00
# :PE32_end [_start+0x3F6]