# SPDX-FileCopyrightText: 2022 Andrius Štikonas # SPDX-FileCopyrightText: 2017 Jeremiah Orians # # SPDX-License-Identifier: GPL-3.0-or-later # efi_main(void *image_handle, struct efi_system_table *system) :_start 4889E5 ; COPY_RSP_to_RBP # save stack pointer 4989CF ; COPY_RCX_to_R15 # save image_handle 4C8B72 60 ; LOAD64_into_R14_from_Address_RDX_Immediate8 !96 # system->boot 4C8935 %SystemBoot ; STORE64_rel_R14 %SystemBoot # save system->boot # Allocate pool for single-character label table 52 ; PUSH_RDX # allocate stack for table 4989E0 ; COPY_RSP_to_R8 # arg3 = &table 31D2 ; XOR_EDX_EDX # zero rdx B6 08 ; LOADI8_DH !0x8 # arg2 = 256 * 8 = 2048 = 0x800 6A 02 ; PUSH !2 59 ; POP_RCX # arg1 = EFI_LOADER_DATA 4883EC 18 ; SUBI8_RSP !24 # allocate shadow stack space for UEFI 41FF56 40 ; CALL_R14_Immediate8 !64 # system->boot->allocate_pool(EFI_LOADER_DATA, 2048, &table) 4883C4 18 ; ADDI8_RSP !24 # deallocate stack 58 ; POP_RAX # get table 488905 %table ; STORE64_rel_RAX %table # save table # Open Loaded Image protocol 50 ; PUSH_RAX # allocate stack for image 4989E0 ; COPY_RSP_to_R8 # arg3 = &image 488B15 %LOADED_IMAGE_PROTOCOL_8 ; LOAD64_rel_RDX !LOADED_IMAGE_PROTOCOL_8 # EFI_LOADED_IMAGE_PROTOCOL_GUID (last 64 bits) 52 ; PUSH_RDX # push last 64 bits onto stack 488B15 %LOADED_IMAGE_PROTOCOL ; LOAD64_rel_RDX !LOADED_IMAGE_PROTOCOL # EFI_LOADED_IMAGE_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 4D89F9 ; COPY_R15_to_R9 # arg4 = image_handle 4C89F9 ; COPY_R15_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 4889C1 ; COPY_RCX_to_RAX # save image # Command line args 488B58 38 ; LOAD64_into_RBX_from_Address_RAX_Immediate8 !56 # options = image->load_options :loop_options1 # Skip application name 4883C3 02 ; ADDI8_RBX !2 # ++options 8A03 ; LOAD8_AL_from_Address_RBX # *options 3C 20 ; CMPI8_AL !0x20 # if *options != ' ' 75 !loop_options1 ; JNE8 !loop_options1 # then jump 4883C3 02 ; ADDI8_RBX !2 # ++options 4989DC ; COPY_RBX_to_R12 # save input file :loop_options2 # Skip argv[1] 4883C3 02 ; ADDI8_RBX !2 # ++options 8A03 ; LOAD8_AL_from_Address_RBX # *options 3C 20 ; CMPI8_AL !0x20 # if *options != ' ' 75 !loop_options2 ; JNE8 !loop_options2 # then jump C603 00 ; STOREI8_into_Address_RBX !0 # *options = 0; 4883C3 02 ; ADDI8_RBX !2 # ++options 4989DD ; COPY_RBX_to_R13 # save output file # Get root file system 50 ; PUSH_RAX # allocate stack for rootfs 4989E0 ; COPY_RSP_to_R8 # arg3 = &rootfs 488B15 %SIMPLE_FS_PROTOCOL_8 ; LOAD64_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 %SIMPLE_FS_PROTOCOL ; LOAD64_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 4D89F9 ; COPY_R15_to_R9 # 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 # arg2 = &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 415E ; POP_R14 # 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 4C89F1 ; COPY_R14_to_RCX # arg1 = rootdir 4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function FF51 08 ; CALL_RCX_Immediate8 !8 # rootdir->open() 488B7C24 28 ; LOAD64_into_RDI_from_Address_RSP_Immediate8 !40 # get fin # Open file for writing 52 ; PUSH_RDX # allocate stack for fout 4889E2 ; COPY_RSP_to_RDX # arg2 = &fout 6A 00 ; PUSH !0 # arg5 = 0 6A 07 ; PUSH !7 # to get 0x8000000000000003 we set the rightmost 3 bits 4159 ; POP_R9 # and then do right rotation by 1 49D1C9 ; ROR_R9 # arg4 = EFI_FILE_MODE_CREATE| EFI_FILE_MODE_WRITE | EFI_FILE_MODE_READ 4D89E8 ; COPY_R13_to_R8 # arg3 = out 4C89F1 ; COPY_R14_to_RCX # arg1 = rootdir 4883EC 20 ; SUBI8_RSP !32 # allocate shadow stack space for UEFI function FF51 08 ; CALL_RCX_Immediate8 !8 # rootdir->open() 488B5C24 28 ; LOAD64_into_RBX_from_Address_RSP_Immediate8 !40 # get fout 49C7C7 FFFFFFFF ; LOADI32_R15 %-1 # Our flag for byte processing 49C7C6 00000000 ; LOADI32_R14 %0 # temp storage for the sum 49C7C5 00000000 ; LOADI32_R13 %0 # Our starting IP E8 %First_pass ; CALLI32 %First_pass # Process it # rewind input file 4889F9 ; COPY_RDI_to_RCX # Using our input file 31D2 ; XOR_EDX_EDX # Offset Zero 50 ; PUSH_RAX # allocate shadow stack space for UEFI function 50 ; PUSH_RAX # allocate shadow stack space for UEFI function FF51 38 ; CALL_RCX_Immediate8 !56 # fin->set_position(fin, 0) 58 ; POP_RAX # deallocate stack 58 ; POP_RAX # deallocate stack 49C7C7 FFFFFFFF ; LOADI32_R15 %-1 # Our flag for byte processing 49C7C6 00000000 ; LOADI32_R14 %0 # temp storage for the sum 49C7C5 00000000 ; LOADI32_R13 %0 # Our starting IP E8 %Second_pass ; CALLI32 %Second_pass # Process it E9 %Done ; JMP32 %Done :First_pass E8 %Read_byte ; CALLI32 %Read_byte # Deal with EOF 483D FCFFFFFF ; CMPI32_RAX %-4 0F84 %First_pass_done ; JE32 %First_pass_done # Check for : 483D 3A000000 ; CMPI32_RAX %0x3a 0F85 %First_pass_0 ; JNE32 %First_pass_0 # Deal with label E8 %StoreLabel ; CALLI32 %StoreLabel :First_pass_0 # Check for % 483D 25000000 ; CMPI32_RAX %0x25 0F84 %First_pass_pointer ; JE32 %First_pass_pointer # Deal with everything else E8 %hex ; CALLI32 %hex # Process our char # Deal with EOF 483D FCFFFFFF ; CMPI32_RAX %-4 0F84 %First_pass_done ; JE32 %First_pass_done # deal with -1 values 483D 00000000 ; CMPI32_RAX %0 0F8C %First_pass ; JL32 %First_pass # deal with toggle 4981FF 00000000 ; CMPI32_R15 %0 0F84 %First_pass_1 ; JE32 %First_pass_1 4981C5 01000000 ; ADDI32_to_R13 %1 # Increment IP :First_pass_1 49F7D7 ; NOT_R15 E9 %First_pass ; JMP32 %First_pass :First_pass_pointer # Deal with Pointer to label E8 %Read_byte ; CALLI32 %Read_byte # Drop the char 4981C5 04000000 ; ADDI32_to_R13 %4 # Increment IP E9 %First_pass ; JMP32 %First_pass # Loop again :First_pass_done C3 ; RET :hex # deal with EOF 483D FCFFFFFF ; CMPI32_RAX %-4 0F84 %EOF ; JE32 %EOF # deal with line comments starting with # 483D 23000000 ; CMPI32_RAX %0x23 0F84 %ascii_comment ; JE32 %ascii_comment # deal with line comments starting with ; 483D 3B000000 ; CMPI32_RAX %0x3b 0F84 %ascii_comment ; JE32 %ascii_comment # deal all ascii less than 0 483D 30000000 ; CMPI32_RAX %0x30 0F8C %ascii_other ; JL32 %ascii_other # deal with 0-9 483D 3A000000 ; CMPI32_RAX %0x3a 0F8C %ascii_num ; JL32 %ascii_num # deal with all ascii less than A 483D 41000000 ; CMPI32_RAX %0x41 0F8C %ascii_other ; JL32 %ascii_other # deal with A-F 483D 47000000 ; CMPI32_RAX %0x47 0F8C %ascii_high ; JL32 %ascii_high # deal with all ascii less than a 483D 61000000 ; CMPI32_RAX %0x61 0F8C %ascii_other ; JL32 %ascii_other # deal with a-f 483D 67000000 ; CMPI32_RAX %0x67 0F8C %ascii_low ; JL32 %ascii_low # The rest that remains needs to be ignored E9 %ascii_other ; JMP32 %ascii_other :Second_pass E8 %Read_byte ; CALLI32 %Read_byte # Deal with EOF 483D FCFFFFFF ; CMPI32_RAX %-4 0F84 %Second_pass_done ; JE32 %Second_pass_done # Simply drop the label 483D 3A000000 ; CMPI32_RAX %0x3a 0F85 %Second_pass_0 ; JNE32 %Second_pass_0 E8 %Read_byte ; CALLI32 %Read_byte E9 %Second_pass ; JMP32 %Second_pass :Second_pass_0 # Deal with % pointer 483D 25000000 ; CMPI32_RAX %0x25 0F85 %Second_pass_1 ; JNE32 %Second_pass_1 E8 %StorePointer ; CALLI32 %StorePointer E9 %Second_pass ; JMP32 %Second_pass :Second_pass_1 # Deal with everything else E8 %hex ; CALLI32 %hex # Process our char # Deal with EOF 483D FCFFFFFF ; CMPI32_RAX %-4 0F84 %Second_pass_done ; JE32 %Second_pass_done # deal with -1 values 483D 00000000 ; CMPI32_RAX %0 0F8C %Second_pass ; JL32 %Second_pass # deal with toggle 4981FF 00000000 ; CMPI32_R15 %0 0F84 %print ; JE32 %print # process first byte of pair 4989C6 ; COPY_RAX_to_R14 49C7C7 00000000 ; LOADI32_R15 %0 E9 %Second_pass ; JMP32 %Second_pass :Second_pass_done C3 ; RET :EOF C3 ; RET :ascii_num 4883E8 30 ; SUBI8_from_RAX !0x30 C3 ; RET :ascii_low 4883E8 57 ; SUBI8_from_RAX !0x57 C3 ; RET :ascii_high 4883E8 37 ; SUBI8_from_RAX !0x37 C3 ; RET :ascii_other 48C7C0 FFFFFFFF ; LOADI32_RAX %-1 C3 ; RET :ascii_comment E8 %Read_byte ; CALLI32 %Read_byte 483D 0D000000 ; CMPI32_RAX %0xd 0F84 %ascii_comment_cr ; JE32 %ascii_comment_cr 483D 0A000000 ; CMPI32_RAX %0xa 0F85 %ascii_comment ; JNE32 %ascii_comment :ascii_comment_cr 48C7C0 FFFFFFFF ; LOADI32_RAX %-1 C3 ; RET # process second byte of pair :print # update the sum and store in output 49C1E6 04 ; SHL8_R14 !4 4C01F0 ; ADD_R14_to_RAX # flip the toggle 49F7D7 ; NOT_R15 # R15 = -1 48C7C2 01000000 ; LOADI32_RDX %1 # set the size of chars we want E8 %print_chars ; CALLI32 %print_chars 4981C5 01000000 ; ADDI32_to_R13 %1 # Increment IP E9 %Second_pass ; JMP32 %Second_pass :Read_byte 4889F9 ; COPY_RDI_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 = &input 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 input to rax 5E ; POP_RSI # save size to rsi # If the file ended (0 bytes read) return EOF 85F6 ; TEST_ESI_ESI # if size = 0 75 !Read_byte_1 ; JNE8 !Read_byte_1 48C7C0 FCFFFFFF ; LOADI32_RAX %-4 # Put EOF in rax :Read_byte_1 C3 ; RET # return # Writes bytes stored in rax :print_chars 4889D9 ; COPY_RBX_to_RCX # arg1 = fout 52 ; PUSH_RDX # set size 4889E2 ; COPY_RSP_to_RDX # arg2 = &size 50 ; PUSH_RAX # allocate stack 4989E0 ; COPY_RSP_to_R8 # arg3 = &output 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 28 ; CALL_RCX_Immediate8 !40 # fout->write() 4883C4 28 ; ADDI8_RSP !40 # deallocate stack C3 ; RET # return :Get_table_target E8 %Read_byte ; CALLI32 %Read_byte # Get single char label 48C1E0 03 ; SHL8_RAX !3 # Each label in table takes 8 bytes to store 488B0D %table ; LOAD64_rel_RCX %table # Get table 4801C8 ; ADD_RCX_to_RAX # Calculate offset C3 ; RET :StoreLabel E8 %Get_table_target ; CALLI32 %Get_table_target 4C8928 ; STORE32_R13_to_Address_in_RAX # Write out pointer to table C3 ; RET :StorePointer 4981C5 04000000 ; ADDI32_to_R13 %4 # Increment IP E8 %Get_table_target ; CALLI32 %Get_table_target # Get address of pointer 678B00 ; LOAD32_Address_in_RAX_into_RAX # Get pointer 4C29E8 ; SUB_R13_from_RAX # target - ip 48C7C2 04000000 ; LOADI32_RDX %4 # set the size of chars we want E8 %print_chars ; CALLI32 %print_chars C3 ; RET :Done # Free pool 488B0D %table ; LOAD64_rel_RCX %table # arg1 = table 50 ; PUSH_RAX # allocate shadow stack space for UEFI function 4C8B35 %SystemBoot ; LOAD64_rel_R14 %SystemBoot # get system->boot 41FF56 48 ; CALL_R14_Immediate8 !72 # system->boot->free_pool(table) 4889F9 ; COPY_RDI_to_RCX # arg1 = fin FF51 10 ; CALL_RCX_Immediate8 !16 # fin->close() 4889D9 ; COPY_RBX_to_RCX # arg1 = fout FF51 10 ; CALL_RCX_Immediate8 !16 # fout->close() 4889EC ; COPY_RBP_to_RSP # restore stack C3 ; RET # return to UEFI # Protocol GUIDs :LOADED_IMAGE_PROTOCOL A1 31 1B 5B ; %0x5b1b31a1 62 95 ; @0x9562 D2 11 ; @0x11d2 :LOADED_IMAGE_PROTOCOL_8 8E 3F 00 A0 C9 69 72 3B ; !0x8e !0x3f !0 !0xa0 !0xc9 !0x69 !0x72 !0x3b :SIMPLE_FS_PROTOCOL 22 5B 4E 96 ; %0x0964e5b22 59 64 ; @0x6459 D2 11 ; @0x11d2 :SIMPLE_FS_PROTOCOL_8 8E 39 00 A0 C9 69 72 3B ; !0x8e !0x39 !0 !0xa0 !0xc9 !0x69 !0x72 !0x3b :table 00000000 00000000 :SystemBoot 00000000 00000000 :PE32_end