mirror of
https://github.com/reactos/reactos.git
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9393fc320e
Excluded: 3rd-party code (incl. wine) and most of the win32ss.
773 lines
19 KiB
ArmAsm
773 lines
19 KiB
ArmAsm
/*
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* PROJECT: FreeLoader
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* LICENSE: GPL-2.0+ (https://spdx.org/licenses/GPL-2.0+)
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* PURPOSE: BTRFS volume boot sector for FreeLoader
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* COPYRIGHT: Copyright 2018 Victor Perevertkin (victor@perevertkin.ru)
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*/
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#include <asm.inc>
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#include <freeldr/include/arch/pc/x86common.h>
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.code16
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CHUNK_MAP_OFFSET = HEX(8200) // max - 256 chunks (chunk is 24 bytes)
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DATA_BUFFER_SEGMENT = HEX(9a0) // here we will store FS structures read from disk
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FIRST_SUPERBLOCK_OFFSET = HEX(80) //in sectors
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ROOT_TREE_OBJECTID = 1
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EXTENT_TREE_OBJECTID = 2
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CHUNK_TREE_OBJECTID = 3
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DEV_TREE_OBJECTID = 4
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FS_TREE_OBJECTID = 5
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FIRST_CHUNK_TREE_OBJECTID = 256
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DIR_ITEM_KEY = 84
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EXTENT_DATA_KEY = 108
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ROOT_ITEM_KEY = 132
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EXTENT_ITEM_KEY = 168
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CHUNK_ITEM_KEY = 228
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BTRFS_FT_REG_FILE = 1
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KEY_SIZE = 17
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MAX_CHUNK_ITEMS = 255
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start:
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jmp short main
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nop
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// globals
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ChunkMapSize:
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.byte 0
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BootDrive:
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.byte 0
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PartitionStartLBA:
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.quad HEX(3f) // default value. Setup tool have to overwrite it upon installation
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TreeRootAddress:
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.quad 0
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ChunkRootAddress:
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.quad 0
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FsRootAddress:
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.quad 0
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NodeSize:
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.long 0
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LeafSize:
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.long 0
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StripeSize:
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.long 0
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SysChunkSize:
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.long 0
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TreeRootLevel:
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.byte 0
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ChunkRootLevel:
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.byte 0
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FsRootLevel:
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.byte 0
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main:
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xor eax, eax // Setup segment registers
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mov ds, ax // Make DS correct
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mov es, ax // Make ES correct
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mov ss, ax // Make SS correct
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mov sp, HEX(7c00) // Setup a stack
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mov bp, sp
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mov byte ptr [BootDrive], dl
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// Now check if this computer supports extended reads. This boot sector will not work without it
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CheckInt13hExtensions:
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mov ah, HEX(41) // AH = 41h
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mov bx, HEX(55aa) // BX = 55AAh
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int HEX(13) // IBM/MS INT 13 Extensions - INSTALLATION CHECK
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jc PrintDiskError // CF set on error (extensions not supported)
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cmp bx, HEX(aa55) // BX = AA55h if installed
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jne PrintDiskError
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test cl, 1 // si = API subset support bitmap
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jz PrintDiskError // Bit 0, extended disk access functions (AH=42h-44h,47h,48h) supported
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LoadExtraBootCode:
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// First we have to load our extra boot code into into memory at [0000:7e00h]
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xor edx, edx
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mov eax, 1 // read from the second sector - the first was already read
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mov cx, 2
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mov bx, HEX(7e00) // Read sector to [0000:7e00h]
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call ReadSectors
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mov ax, DATA_BUFFER_SEGMENT
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mov es, ax
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// reading superblock
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xor edx, edx
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mov eax, FIRST_SUPERBLOCK_OFFSET
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mov cx, 8 // superblock is 0x1000 bytes - 8 sectors
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xor bx, bx
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call ReadSectors
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push es // swapping segments for memory operations with superblock
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push ds // ds must be DATA_BUFFER_SEGMENT
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pop es
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pop ds
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mov si, HEX(40)
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lea di, [btrfsSignature]
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mov cx, 4 // magic string size (words)
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repe cmpsw
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je SignatureOk
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mov si, wrongSignatureError
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call PrintCustomError
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SignatureOk:
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// signature is ok - reading superblock data
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add si, 8 // logical address of the root tree root
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lea di, [TreeRootAddress]
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mov cx, 8 // read both root tree root and chunk tree root
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rep movsw
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// read sizes
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add si, HEX(34) // now pointing to nodesize field
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lea di, [NodeSize] // read all 4 values
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mov cx, 8
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rep movsw
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// read both levels
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add si, 34
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movsw // di is on the right place
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push es
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push ds
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pop es
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pop ds
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// read sys chunk array
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mov ax, HEX(32b) // sys_chunk_start
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ReadSysChunk:
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mov bx, ax
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add bx, KEY_SIZE
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push bx // start of the chunk
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call InsertChunk
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pop si
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mov bx, word ptr es:[si+44] // number of stripes
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shl bx, 5 // one stripe entry is 32 bytes
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lea si, [si+bx+48] // 48 - size of the chunk
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mov ax, si // save for next iteration
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sub si, HEX(32b)
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cmp si, word ptr [SysChunkSize] // the size cannot be more than 0xFFFF here so use word ptr
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jb ReadSysChunk
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jmp SetTreeRoots
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// Reads logical sectors from disk
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// INPUT:
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// - ES:[BX] address at which the data will be stored
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// - EDX:EAX logical sector number from which to read
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// - CX number of sectors to read
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// OUTPUT:
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// - 512*CX bytes of memory at ES:[BX]
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// LOCALS:
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// - [bp-2] - LBASectorsRead
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ReadSectors:
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push bp
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mov bp, sp
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sub sp, 2
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push es // we will spoil es register here
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add eax, dword ptr [PartitionStartLBA]
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adc edx, dword ptr [PartitionStartLBA+4]
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ReadSectors_loop:
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pushad // Save logical sector number & sector count
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cmp cx, 8 // Maximum sectors per call is 0x7F, but VirtualBox correctly works with only 8
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jbe ReadSectorsSetupDiskAddressPacket // If we are reading less than 9 sectors then just do the read
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mov cx, 8 // Otherwise read only 8 sectors on this loop iteration
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ReadSectorsSetupDiskAddressPacket:
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mov word ptr [bp-2], cx
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push edx
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push eax // Put 64-bit logical block address on stack
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push es // Put transfer segment on stack
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push bx // Put transfer offset on stack
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push cx // Set transfer count
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push 16 // Set size of packet to 10h
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mov si, sp // Setup disk address packet on stack
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mov dl, byte ptr [BootDrive] // Drive number
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mov ah, HEX(42) // Int 13h, AH = 42h - Extended Read
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int HEX(13) // Call BIOS
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jc PrintDiskError // If the read failed then abort
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add sp, 16 // Remove disk address packet from stack
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popad // Restore sector count & logical sector number
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push bx
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movzx ebx, word ptr [bp-2]
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add eax, ebx // Increment sector to read
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adc edx, 0
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shl ebx, 5 // Multiplying by 512=2^9 here.
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// Shifting only by 5, because it goes to segment
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// (segment will be shifter by another 4 when converted to real addr)
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mov si, es
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add si, bx // Setup read buffer for next sector
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mov es, si
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pop bx
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sub cx, word ptr [bp-2]
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jnz ReadSectors_loop // Read next sector
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pop es
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leave
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ret
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// Displays a disk error message
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// And reboots
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PrintDiskError:
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mov si, msgDiskError // Bad boot disk message
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PrintCustomError:
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call PutChars // Display it
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Reboot:
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lea si, [msgAnyKey] // Press any key message
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call PutChars // Display it
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xor ax,ax
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int HEX(16) // Wait for a keypress
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int HEX(19) // Reboot
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PutChars:
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lodsb
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or al,al
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jz short Done
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call PutCharsCallBios
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jmp short PutChars
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PutCharsCallBios:
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mov ah, HEX(0e)
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mov bx, HEX(07)
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int HEX(10)
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ret
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Done:
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mov al, HEX(0d)
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call PutCharsCallBios
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mov al, HEX(0a)
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call PutCharsCallBios
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ret
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msgDiskError:
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.asciz "Disk error"
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msgAnyKey:
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.asciz "Press any key to restart"
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.org 510
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.word HEX(aa55) // BootSector signature
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SetTreeRoots:
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// converting sizes to sectors. We dont need this sizes in bytes
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shr dword ptr [NodeSize], 9
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shr dword ptr [LeafSize], 9 // leafsize is deprecated
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// finding FS_TREE root
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// put the key on stack
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xor eax, eax
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push eax
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push eax
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dec sp
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mov byte ptr [esp], ROOT_ITEM_KEY
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push eax
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push 0
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push FS_TREE_OBJECTID
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mov eax, dword ptr [TreeRootAddress]
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mov edx, dword ptr [TreeRootAddress+4]
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mov cl, byte ptr [TreeRootLevel]
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call SearchTree
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add sp, 17 // setting stack back
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// bx - pointer to ROOT_ITEM
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mov al, byte ptr es:[bx+238] // moving level
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mov byte ptr [FsRootLevel], al
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cld
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mov eax, dword ptr es:[bx+176]
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mov dword ptr [FsRootAddress], eax
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mov eax, dword ptr es:[bx+176+4]
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mov dword ptr [FsRootAddress+4], eax
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// now we need to find DIR_ITEM_KEY with freeldr.sys hash
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xor eax, eax
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push eax
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push dword ptr [filenameCrc]
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dec sp
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mov byte ptr [esp], DIR_ITEM_KEY
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push eax
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push 0
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push 256 // root dir objectid
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mov eax, dword ptr [FsRootAddress]
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mov edx, dword ptr [FsRootAddress+4]
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mov cl, byte ptr [FsRootLevel]
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call SearchTree
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add sp, 17 // setting stack back
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// parsing DIR_ITEM
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// bx - item addr
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// cx - item length
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mov ax, cx
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push ds
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push es
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pop ds
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pop es
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ParseDirItem_loop:
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cmp byte ptr [bx+29], BTRFS_FT_REG_FILE // checking dir_item type
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jne ParseDirItem_loop_2
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cmp word ptr [bx+27], 11 // checking name length
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jne ParseDirItem_loop_2
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lea si, [bx+30]
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lea di, [freeldrFilename]
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mov cx, 11
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repe cmpsb
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je FreeLdrFound
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ParseDirItem_loop_2:
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mov dx, 30
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add dx, word ptr [bx+27]
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cmp dx, ax
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jae FreeLdrNotFound
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add bx, dx
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jmp ParseDirItem_loop
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FreeLdrNotFound:
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lea si, [notFoundError]
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call PrintCustomError
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FreeLdrFound:
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// freeldr objectid is the first qword of DIR_ITEM structure
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xor eax, eax
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push eax
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push eax
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dec sp
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mov byte ptr [esp], EXTENT_DATA_KEY
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push dword ptr [bx+4]
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push dword ptr [bx]
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push es
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pop ds
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mov eax, dword ptr [FsRootAddress]
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mov edx, dword ptr [FsRootAddress+4]
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mov cl, byte ptr [FsRootLevel]
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call SearchTree
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add sp, 17
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// here we have an EXTENT_ITEM with freeldr.sys
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mov eax, dword ptr es:[bx+29]
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shr eax, 9 // getting the number of clusters
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mov cx, ax
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push cx
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lea di, [bx+21]
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call ConvertAddress
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pop cx
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xor bx, bx
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mov ds, bx
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mov es, bx
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mov bx, FREELDR_BASE
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call ReadSectors
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mov dl, byte ptr [BootDrive] // Load boot drive into DL
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//mov dh, 0 // Load boot partition into DH (not needed, FreeLbr detects it itself)
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/* Transfer execution to the bootloader */
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ljmp16 0, FREELDR_BASE
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// Insert chunk into chunk map (located at DS:[CHUNK_MAP_OFFSET])
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// INPUT:
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// - ES:[AX] chunk key address
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// - ES:[BX] chunk item address
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// TODO: add max items checking
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InsertChunk:
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push bx
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push ax
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push es
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xor ecx, ecx // index
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InsertChunk_loop:
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std // numbers are little-engian, going right-to-left
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mov si, CHUNK_MAP_OFFSET
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lea si, [esi+ecx*8]
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lea si, [esi+ecx*8]
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lea si, [esi+ecx*8] // shift by 24 bytes
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inc cx
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cmp cl, byte ptr [ChunkMapSize]
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ja InsertChunk_insert
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lea si, [si+4] // set to the high dword of the 8-byte number
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lea di, [eax+KEY_SIZE-4] // set to high dword of key's offset field (offset=logical addr)
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cmpsd
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jb InsertChunk_loop
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cmpsd
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jb InsertChunk_loop
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lea si, [si+4] // set back to the beginning of key
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// numbers are greater - need to insert Here
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// shifting all to right by one element
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InsertChunk_insert:
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push si // here we will store new chunk
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dec cx // because we increased it before comparison
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mov dx, ds
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mov es, dx
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movzx eax, byte ptr [ChunkMapSize] // number of elements
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mov si, CHUNK_MAP_OFFSET
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lea si, [esi+eax*8]
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lea si, [esi+eax*8]
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lea si, [esi+eax*8-4] // setting to the high dword of the last element
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mov di, si
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add di, 20 // last byte of the last + 1 element (-4 bytes)
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sub ax, cx
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mov bx, 6
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mul bx // 24/4 because of dwords
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mov cx, ax // number of elements to shift
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rep movsd
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// finally we can write the element
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cld
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pop di // here we will store new chunk
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pop ds // key-to-insert address segment
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pop si // key-to-insert address
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add si, 9 // move to 'offset' field
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movsd
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movsd // logical address loaded!
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// time for stripes
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pop si // chunk item address, length is the first field
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movsd
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movsd
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add si, 48 // move to offset of the first stripe (we read only first one)
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movsd
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movsd
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push es // swapping segments back to original
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push ds
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pop es
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pop ds
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inc byte ptr [ChunkMapSize]
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ret
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// Searches a key in a BTRFS tree
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// INPUT:
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// - [bp+4] BTRFS key to find
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// - EDX:EAX logical address of root header
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// - CL leaf node level
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// OUTPUT:
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// - ES:[SI] pointer to found item's key
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// - ES:[BX] pointer to found item
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// - ECX item length
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// LOCALS:
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// - [bp-8] - block number/current node offset
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// - [bp-9] - current level
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SearchTree:
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push bp
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mov bp, sp
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sub sp, 9 // set stack frame
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mov dword ptr [bp-4], edx
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mov dword ptr [bp-8], eax
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mov byte ptr [bp-9], cl
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SearchTree_readHeader:
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push ss
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pop es
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lea di, [bp-8]
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call ConvertAddress
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// LBA is in edx:eax now
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mov bx, DATA_BUFFER_SEGMENT
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mov es, bx
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xor bx, bx
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mov cl, byte ptr [bp-9]
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test cl, cl
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jz SearchTree_readLeaf
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// read node
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mov cx, word ptr [NodeSize] // word btr because we cannot read more than 65536 bytes yet
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call ReadSectors // reading node to the memory
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// every node begins with header
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//mov ax, word ptr [DATA_BUFFER_OFFSET + HEX(60)] // number of items in this leaf
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mov cx, -1 // index
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// finding the key
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SearchTree_findLoop_1:
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inc cx
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cmp word ptr es:[HEX(60)], cx
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je SearchTree_findLoop_1_equal // we are at the end - taking the last element
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lea si, [bp+4] // key to find
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mov di, HEX(65) // first key in leaf
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mov ax, 33
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call CompareKeys
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jb SearchTree_findLoop_1
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je SearchTree_findLoop_1_equal
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sub di, 33 // setting to previous element
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// we are here if key is equal or greater
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// (si points to the start of the key)
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SearchTree_findLoop_1_equal:
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push ds
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push es
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pop ds
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pop es
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lea si, [di+17]
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lea di, [bp-8]
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movsd
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movsd
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push es
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pop ds
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dec byte ptr [bp-9] // decrement level
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jmp SearchTree_readHeader
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SearchTree_readLeaf:
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mov cx, word ptr [LeafSize]
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call ReadSectors
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// every node begins with header
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//mov ax, word ptr [DATA_BUFFER_OFFSET + HEX(60)] // number of items in this leaf
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mov cx, -1 // index
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// finding the key
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SearchTree_findLoop_2:
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inc cx
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cmp word ptr es:[HEX(60)], cx
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je SearchTree_foundEqual
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lea si, [bp+4] // key to find
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mov di, HEX(65) // first key in leaf
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mov ax, 25
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call CompareKeys
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jb SearchTree_findLoop_2
|
|
je SearchTree_foundEqual
|
|
|
|
// set pointer to previous element if greater
|
|
sub di, 25
|
|
|
|
SearchTree_foundEqual:
|
|
// found equal or greater key
|
|
mov bx, word ptr es:[di+17] // data offset relative to end of header
|
|
mov cx, word ptr es:[di+21] // data size
|
|
add bx, HEX(65) // end of header
|
|
mov si, di
|
|
|
|
leave
|
|
ret
|
|
|
|
SearchTree_notFound:
|
|
xor ecx, ecx // return ecx=0 if nothing found
|
|
|
|
leave
|
|
ret
|
|
|
|
|
|
// Converts logical address into physical LBA addr using chunk map
|
|
// INPUT:
|
|
// - ES:[DI] pointer to logical addr
|
|
// OUTPUT:
|
|
// - EDX:EAX target LBA
|
|
// - sets ZF on failure
|
|
ConvertAddress:
|
|
// NOTE: SearchTree will overwrite data buffer area and our logical addr will be erased!
|
|
// so putting it on stack
|
|
push dword ptr es:[di+4]
|
|
push dword ptr es:[di]
|
|
|
|
mov bl, 1 // indicates first try. On second try BL must be set to 0
|
|
ConvertAddress_secondTry:
|
|
push ds
|
|
pop es
|
|
xor ecx, ecx // set index to 0
|
|
ConvertAddress_loop:
|
|
cmp cl, byte ptr [ChunkMapSize]
|
|
jae ConvertAddress_checkInclusion // greater chunk is not found in chunk map - checking the last one
|
|
|
|
std // numbers are little-engian, going right-to-left
|
|
mov si, CHUNK_MAP_OFFSET
|
|
lea si, [esi+ecx*8]
|
|
lea si, [esi+ecx*8]
|
|
lea si, [esi+ecx*8] // shift by 24 bytes
|
|
|
|
lea di, [esp+4] // set to the second dword the 8-byte number
|
|
lea si, [si+4]
|
|
inc cl
|
|
|
|
cmpsd
|
|
jb ConvertAddress_loop
|
|
cmpsd
|
|
jb ConvertAddress_loop
|
|
|
|
ConvertAddress_checkInclusion:
|
|
dec cl
|
|
cld
|
|
// found chunk map item, checking inclusion with length
|
|
mov si, CHUNK_MAP_OFFSET
|
|
lea si, [esi+ecx*8]
|
|
lea si, [esi+ecx*8]
|
|
lea si, [esi+ecx*8] // shift by 24 bytes
|
|
|
|
// logical_addr + length
|
|
mov eax, dword ptr [si] // low dword of address
|
|
mov edx, dword ptr [si+4] // high dword of address
|
|
add eax, dword ptr [si+8] // low dword of length
|
|
adc edx, dword ptr [si+12] // high dword of length
|
|
// edx:eax is the end of the chunk
|
|
|
|
// (logical_addr + length) - addr_to_find
|
|
cmp edx, dword ptr [esp+4]
|
|
ja ConvertAddress_found
|
|
cmp eax, dword ptr [esp]
|
|
ja ConvertAddress_found // address is greater than end of the chunk
|
|
test bl, bl
|
|
jnz ConvertAddress_notFound
|
|
ret 8
|
|
|
|
ConvertAddress_found:
|
|
// found chunk. Calculating the address
|
|
// addr_to_find - logical_addr
|
|
pop eax // low dword of addr_to_find
|
|
pop edx // high dword of addr_to_find
|
|
sub eax, dword ptr [si]
|
|
sbb edx, dword ptr [si+4]
|
|
// (addr_to_find - logical_addr) + physical_addr
|
|
add eax, dword ptr [si+16]
|
|
adc edx, dword ptr [si+20]
|
|
|
|
// edx:eax is physical address. Converting to LBA (shifting by 9 bits)
|
|
shrd eax, edx, 9
|
|
shr edx, 9
|
|
inc bl // clears ZF (bl is 0 or 1 here)
|
|
ret
|
|
|
|
ConvertAddress_notFound:
|
|
// offset is alredy on stack
|
|
//push dword ptr [esp+4]
|
|
//push dword ptr [esp]
|
|
dec sp
|
|
mov byte ptr [esp], CHUNK_ITEM_KEY
|
|
data32 push 0
|
|
push 0
|
|
push FIRST_CHUNK_TREE_OBJECTID
|
|
|
|
mov eax, dword ptr [ChunkRootAddress]
|
|
mov edx, dword ptr [ChunkRootAddress+4]
|
|
mov cl, byte ptr [ChunkRootLevel]
|
|
|
|
call SearchTree
|
|
add sp, 9 // setting stack back
|
|
|
|
mov ax, si // ES:[SI] - found key pointer
|
|
call InsertChunk
|
|
|
|
mov bl, 0 // indicates second try
|
|
jmp ConvertAddress_secondTry
|
|
|
|
|
|
// Compare key (key1) with key in array identified by base and index (key2)
|
|
// INPUT:
|
|
// - DS:[SI] key1 pointer
|
|
// - ES:[DI] start of the array
|
|
// - AX size of one key in array
|
|
// - CX key index
|
|
// OUTPUT:
|
|
// - DS:[SI] key1 pointer
|
|
// - ES:[DI] key2 pointer
|
|
// - sets flags according to comparison
|
|
CompareKeys:
|
|
//xchg si, di
|
|
|
|
mul cx
|
|
add di, ax
|
|
push ds
|
|
push si
|
|
push es
|
|
push di
|
|
|
|
// must be replaced for proper flags after cmps
|
|
push ds
|
|
push es
|
|
pop ds
|
|
pop es
|
|
xchg si, di
|
|
|
|
lea si, [si+4] // key in array
|
|
lea di, [di+4] // searchable key
|
|
std
|
|
|
|
// comparing objectid
|
|
cmpsd
|
|
jne CompareKeys_end
|
|
cmpsd
|
|
jne CompareKeys_end
|
|
// comparing type
|
|
lea si, [si+12]
|
|
lea di, [di+12]
|
|
|
|
cmpsb
|
|
jne CompareKeys_end
|
|
// comparing offset
|
|
lea si, [si+1+1+4]
|
|
lea di, [di+1+1+4]
|
|
|
|
cmpsd
|
|
jne CompareKeys_end
|
|
cmpsd
|
|
CompareKeys_end:
|
|
cld
|
|
pop di
|
|
pop es
|
|
pop si
|
|
pop ds
|
|
ret
|
|
|
|
|
|
|
|
btrfsSignature:
|
|
.ascii "_BHRfS_M"
|
|
|
|
//.org 1022
|
|
// .word HEX(aa55)
|
|
|
|
|
|
wrongSignatureError:
|
|
.asciz "BTRFS read error"
|
|
MaxItemsError:
|
|
.asciz "Max items error"
|
|
filenameCrc:
|
|
.long HEX(68cba33d) // computed hashsum of "freeldr.sys"
|
|
freeldrFilename:
|
|
.ascii "freeldr.sys"
|
|
notFoundError:
|
|
.asciz "NFE"
|
|
.org 1534
|
|
.word HEX(aa55)
|
|
.endcode16
|
|
|
|
END
|