; Copyright (c) 1999-2003 Apple Computer, Inc. All rights reserved. ; ; @APPLE_LICENSE_HEADER_START@ ; ; Portions Copyright (c) 1999-2003 Apple Computer, Inc. All Rights ; Reserved. This file contains Original Code and/or Modifications of ; Original Code as defined in and that are subject to the Apple Public ; Source License Version 2.0 (the "License"). You may not use this file ; except in compliance with the License. Please obtain a copy of the ; License at http://www.apple.com/publicsource and read it before using ; this file. ; ; The Original Code and all software distributed under the License are ; distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER ; EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, ; INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, ; FITNESS FOR A PARTICULAR PURPOSE OR NON- INFRINGEMENT. Please see the ; License for the specific language governing rights and limitations ; under the License. ; ; @APPLE_LICENSE_HEADER_END@ ; ; Partition Boot Loader: boot1h ; ; This program is designed to reside in sector 0+1 of an HFS+ partition. ; It expects that the MBR has left the drive number in DL ; and a pointer to the partition entry in SI. ; ; This version requires a BIOS with EBIOS (LBA) support. ; ; This code is written for the NASM assembler. ; nasm boot1.s -o boot1h ; ; This version of boot1h tries to find a stage2 boot file in the root folder. ; ; NOTE: this is an experimental version with multiple extent support. ; ; Written by Tamás Kosárszky on 2008-04-14 ; ; ; Set to 1 to enable obscure debug messages. ; DEBUG EQU 0 ; ; Set to 1 to enable unused code. ; UNUSED EQU 0 ; ; Set to 1 to enable verbose mode. ; VERBOSE EQU 0 ; ; Various constants. ; NULL EQU 0 CR EQU 0x0D LF EQU 0x0A mallocStart EQU 0x1000 ; start address of local workspace area maxSectorCount EQU 64 ; maximum sector count for readSectors maxNodeSize EQU 16384 kSectorBytes EQU 512 ; sector size in bytes kBootSignature EQU 0xAA55 ; boot sector signature kBoot1StackAddress EQU 0xFFF0 ; boot1 stack pointer kBoot1LoadAddr EQU 0x7C00 ; boot1 load address kBoot1RelocAddr EQU 0xE000 ; boot1 relocated address kBoot1Sector1Addr EQU kBoot1RelocAddr + kSectorBytes ; boot1 load address for sector 1 kHFSPlusBuffer EQU kBoot1Sector1Addr + kSectorBytes ; HFS+ Volume Header address kBoot2Sectors EQU (480 * 1024 - 512) / kSectorBytes ; max size of 'boot' file in sectors = 448 but I want 472 kBoot2Segment EQU 0x2000 ; boot2 load segment kBoot2Address EQU kSectorBytes ; boot2 load address ; ; Format of fdisk partition entry. ; ; The symbol 'part_size' is automatically defined as an `EQU' ; giving the size of the structure. ; struc part .bootid resb 1 ; bootable or not .head resb 1 ; starting head, sector, cylinder .sect resb 1 ; .cyl resb 1 ; .type resb 1 ; partition type .endhead resb 1 ; ending head, sector, cylinder .endsect resb 1 ; .endcyl resb 1 ; .lba resd 1 ; starting lba .sectors resd 1 ; size in sectors endstruc ;------------------------------------------------------------------------- ; HFS+ related structures and constants ; kHFSPlusSignature EQU 'H+' ; HFS+ volume signature kHFSPlusCaseSignature EQU 'HX' ; HFS+ volume case-sensitive signature kHFSPlusCaseSigX EQU 'X' ; upper byte of HFS+ volume case-sensitive signature kHFSPlusExtentDensity EQU 8 ; 8 extent descriptors / extent record ; ; HFSUniStr255 ; struc HFSUniStr255 .length resw 1 .unicode resw 255 endstruc ; ; HFSPlusExtentDescriptor ; struc HFSPlusExtentDescriptor .startBlock resd 1 .blockCount resd 1 endstruc ; ; HFSPlusForkData ; struc HFSPlusForkData .logicalSize resq 1 .clumpSize resd 1 .totalBlocks resd 1 .extents resb kHFSPlusExtentDensity * HFSPlusExtentDescriptor_size endstruc ; ; HFSPlusVolumeHeader ; struc HFSPlusVolumeHeader .signature resw 1 .version resw 1 .attributes resd 1 .lastMountedVersion resd 1 .journalInfoBlock resd 1 .createDate resd 1 .modifyDate resd 1 .backupDate resd 1 .checkedDate resd 1 .fileCount resd 1 .folderCount resd 1 .blockSize resd 1 .totalBlocks resd 1 .freeBlocks resd 1 .nextAllocation resd 1 .rsrcClumpSize resd 1 .dataClumpSize resd 1 .nextCatalogID resd 1 .writeCount resd 1 .encodingsBitmap resq 1 .finderInfo resd 8 .allocationFile resb HFSPlusForkData_size .extentsFile resb HFSPlusForkData_size .catalogFile resb HFSPlusForkData_size .attributesFile resb HFSPlusForkData_size .startupFile resb HFSPlusForkData_size endstruc ; ; B-tree related structures and constants ; kBTIndexNode EQU 0 kBTMaxRecordLength EQU 264 ; sizeof(kHFSPlusFileThreadRecord) kHFSRootParentID EQU 1 ; Parent ID of the root folder kHFSRootFolderID EQU 2 ; Folder ID of the root folder kHFSExtentsFileID EQU 3 ; File ID of the extents overflow file kHFSCatalogFileID EQU 4 ; File ID of the catalog file kHFSPlusFileRecord EQU 0x200 kForkTypeData EQU 0 kForkTypeResource EQU 0xFF ; ; BTNodeDescriptor ; struc BTNodeDescriptor .fLink resd 1 .bLink resd 1 .kind resb 1 .height resb 1 .numRecords resw 1 .reserved resw 1 endstruc ; ; BTHeaderRec ; struc BTHeaderRec .treeDepth resw 1 .rootNode resd 1 .leafRecords resd 1 .firstLeafNode resd 1 .lastLeafNode resd 1 .nodeSize resw 1 .maxKeyLength resw 1 .totalNodes resd 1 .freeNodes resd 1 .reserved1 resw 1 .clumpSize resd 1 .btreeType resb 1 .keyCompareType resb 1 .attributes resd 1 .reserved3 resd 16 endstruc ; ; BTIndexRec ; struc BTIndexRec .childID resd 1 endstruc ; ; HFSPlusCatalogKey ; struc HFSPlusCatalogKey ; ; won't use the keyLength field for easier addressing data inside this structure ; ;.keyLength resw 1 .parentID resd 1 .nodeName resb HFSUniStr255_size endstruc ; ; HFSPlusExtentKey ; struc HFSPlusExtentKey ; ; won't use the keyLength field for easier addressing data inside this structure ; ;.keyLength resw 1 .forkType resb 1 .pad resb 1 .fileID resd 1 .startBlock resd 1 endstruc ; ; HFSPlusBSDInfo ; struc HFSPlusBSDInfo .ownerID resd 1 .groupID resd 1 .adminFlags resb 1 .ownerFlags resb 1 .fileMode resw 1 .special resd 1 endstruc ; ; FileInfo ; struc FileInfo .fileType resd 1 .fileCreator resd 1 .finderFlags resw 1 .location resw 2 .reservedField resw 1 endstruc ; ; ExtendedFileInfo ; struc ExtendedFileInfo .reserved1 resw 4 .extFinderFlags resw 1 .reserved2 resw 1 .putAwayFolderID resd 1 endstruc ; ; HFSPlusCatalogFile ; struc HFSPlusCatalogFile .recordType resw 1 .flags resw 1 .reserved1 resd 1 .fileID resd 1 .createDate resd 1 .contentModDate resd 1 .attributeModDate resd 1 .accessDate resd 1 .backupDate resd 1 .permissions resb HFSPlusBSDInfo_size .userInfo resb FileInfo_size .finderInfo resb ExtendedFileInfo_size .textEncoding resd 1 .reserved2 resd 1 .dataFork resb HFSPlusForkData_size .resourceFork resb HFSPlusForkData_size endstruc ; ; Macros. ; %macro jmpabs 1 push WORD %1 ret %endmacro %macro DebugCharMacro 1 pushad mov al, %1 call print_char call getc popad %endmacro %macro PrintCharMacro 1 pushad mov al, %1 call print_char popad %endmacro %macro PutCharMacro 1 call print_char %endmacro %macro PrintHexMacro 1 call print_hex %endmacro %macro PrintString 1 mov si, %1 call print_string %endmacro %macro LogString 1 mov di, %1 call log_string %endmacro %if DEBUG %define DebugChar(x) DebugCharMacro x %define PrintChar(x) PrintCharMacro x %define PutChar(x) PutCharMacro %define PrintHex(x) PrintHexMacro x %else %define DebugChar(x) %define PrintChar(x) %define PutChar(x) %define PrintHex(x) %endif ;-------------------------------------------------------------------------- ; Start of text segment. SEGMENT .text ORG kBoot1RelocAddr ;-------------------------------------------------------------------------- ; Boot code is loaded at 0:7C00h. ; start: ; ; Set up the stack to grow down from kBoot1StackSegment:kBoot1StackAddress. ; Interrupts should be off while the stack is being manipulated. ; cli ; interrupts off xor ax, ax ; zero ax mov ss, ax ; ss <- 0 mov sp, kBoot1StackAddress ; sp <- top of stack sti ; reenable interrupts mov ds, ax ; ds <- 0 mov es, ax ; es <- 0 ; ; Relocate boot1 code. ; push si mov si, kBoot1LoadAddr ; si <- source mov di, kBoot1RelocAddr ; di <- destination cld ; auto-increment SI and/or DI registers mov cx, kSectorBytes ; copy 256 words rep movsb ; repeat string move (word) operation pop si ; ; Code relocated, jump to startReloc in relocated location. ; ; FIXME: Is there any way to instruct NASM to compile a near jump ; using absolute address instead of relative displacement? ; jmpabs startReloc ;-------------------------------------------------------------------------- ; Start execution from the relocated location. ; startReloc: ; ; Initializing global variables. ; mov eax, [si + part.lba] mov [gPartLBA], eax ; save the current partition LBA offset mov [gBIOSDriveNumber], dl ; save BIOS drive number mov WORD [gMallocPtr], mallocStart ; set free space pointer ; ; Loading upper 512 bytes of boot1h and HFS+ Volume Header. ; xor ecx, ecx ; sector 1 of current partition inc ecx mov al, 2 ; read 2 sectors: sector 1 of boot1h + HFS+ Volume Header mov edx, kBoot1Sector1Addr call readLBA ; ; Initializing more global variables. ; mov eax, [kHFSPlusBuffer + HFSPlusVolumeHeader.blockSize] bswap eax ; convert to little-endian shr eax, 9 ; convert to sector unit mov [gBlockSize], eax ; save blockSize as little-endian sector unit! ; ; Looking for HFSPlus ('H+') or HFSPlus case-sensitive ('HX') signature. ; mov ax, [kHFSPlusBuffer + HFSPlusVolumeHeader.signature] cmp ax, kHFSPlusCaseSignature je findRootBoot cmp ax, kHFSPlusSignature jne error ;-------------------------------------------------------------------------- ; Find stage2 boot file in a HFS+ Volume's root folder. ; findRootBoot: mov al, kHFSCatalogFileID lea si, [searchCatalogKey] lea di, [kHFSPlusBuffer + HFSPlusVolumeHeader.catalogFile + HFSPlusForkData.extents] call lookUpBTree jne error lea si, [bp + BTree.recordDataPtr] mov si, [si] cmp WORD [si], kHFSPlusFileRecord jne error ; EAX = Catalog File ID ; BX = read size in sectors ; ECX = file offset in sectors ; EDX = address of read buffer ; DI = address of HFSPlusForkData ; ; Use the second big-endian double-word as the file length in HFSPlusForkData.logicalSize ; mov ebx, [si + HFSPlusCatalogFile.dataFork + HFSPlusForkData.logicalSize + 4] bswap ebx ; convert file size to little-endian add ebx, kSectorBytes - 1 ; adjust size before unit conversion shr ebx, 9 ; convert file size to sector unit cmp bx, kBoot2Sectors ; check if bigger than max stage2 size ja error mov eax, [si + HFSPlusCatalogFile.fileID] bswap eax ; convert fileID to little-endian xor ecx, ecx mov edx, (kBoot2Segment << 4) + kBoot2Address lea di, [si + HFSPlusCatalogFile.dataFork + HFSPlusForkData.extents] call readExtent %if VERBOSE LogString(root_str) %endif boot2: %if DEBUG DebugChar ('!') %endif %if UNUSED ; ; Waiting for a key press. ; mov ah, 0 int 0x16 %endif mov ax, 0x1900 mov es, ax mov BYTE [es:4], 1 mov dl, [gBIOSDriveNumber] ; load BIOS drive number jmp kBoot2Segment:kBoot2Address error: %if VERBOSE LogString(error_str) %endif hang: hlt jmp hang ;-------------------------------------------------------------------------- ; readSectors - Reads more than 127 sectors using LBA addressing. ; ; Arguments: ; AX = number of 512-byte sectors to read (valid from 1-1280). ; EDX = pointer to where the sectors should be stored. ; ECX = sector offset in partition ; ; Returns: ; CF = 0 success ; 1 error ; readSectors: pushad mov bx, ax .loop: xor eax, eax ; EAX = 0 mov al, bl ; assume we reached the last block. cmp bx, maxSectorCount ; check if we really reached the last block jb .readBlock ; yes, BX < MaxSectorCount mov al, maxSectorCount ; no, read MaxSectorCount .readBlock: call readLBA sub bx, ax ; decrease remaning sectors with the read amount jz .exit ; exit if no more sectors left to be loaded add ecx, eax ; adjust LBA sector offset shl ax, 9 ; convert sectors to bytes add edx, eax ; adjust target memory location jmp .loop ; read remaining sectors .exit: popad ret ;-------------------------------------------------------------------------- ; readLBA - Read sectors from a partition using LBA addressing. ; ; Arguments: ; AL = number of 512-byte sectors to read (valid from 1-127). ; EDX = pointer to where the sectors should be stored. ; ECX = sector offset in partition ; [bios_drive_number] = drive number (0x80 + unit number) ; ; Returns: ; CF = 0 success ; 1 error ; readLBA: pushad ; save all registers push es ; save ES mov bp, sp ; save current SP ; ; Convert EDX to segment:offset model and set ES:BX ; ; Some BIOSes do not like offset to be negative while reading ; from hard drives. This usually leads to "boot1: error" when trying ; to boot from hard drive, while booting normally from USB flash. ; The routines, responsible for this are apparently different. ; Thus we split linear address slightly differently for these ; capricious BIOSes to make sure offset is always positive. ; mov bx, dx ; save offset to BX and bh, 0x0f ; keep low 12 bits shr edx, 4 ; adjust linear address to segment base xor dl, dl ; mask low 8 bits mov es, dx ; save segment to ES ; ; Create the Disk Address Packet structure for the ; INT13/F42 (Extended Read Sectors) on the stack. ; ; push DWORD 0 ; offset 12, upper 32-bit LBA push ds ; For sake of saving memory, push ds ; push DS register, which is 0. add ecx, [gPartLBA] ; offset 8, lower 32-bit LBA push ecx push es ; offset 6, memory segment push bx ; offset 4, memory offset xor ah, ah ; offset 3, must be 0 push ax ; offset 2, number of sectors push WORD 16 ; offset 0-1, packet size ; ; INT13 Func 42 - Extended Read Sectors ; ; Arguments: ; AH = 0x42 ; [bios_drive_number] = drive number (0x80 + unit number) ; DS:SI = pointer to Disk Address Packet ; ; Returns: ; AH = return status (sucess is 0) ; carry = 0 success ; 1 error ; ; Packet offset 2 indicates the number of sectors read ; successfully. ; mov dl, [gBIOSDriveNumber] ; load BIOS drive number mov si, sp mov ah, 0x42 int 0x13 jc error ; ; Issue a disk reset on error. ; Should this be changed to Func 0xD to skip the diskette controller ; reset? ; ; xor ax, ax ; Func 0 ; int 0x13 ; INT 13 ; stc ; set carry to indicate error .exit: mov sp, bp ; restore SP pop es ; restore ES popad ret %if VERBOSE ;-------------------------------------------------------------------------- ; Write a string with 'boot1: ' prefix to the console. ; ; Arguments: ; ES:DI pointer to a NULL terminated string. ; ; Clobber list: ; DI ; log_string: pushad push di mov si, log_title_str call print_string pop si call print_string popad ret ;------------------------------------------------------------------------- ; Write a string to the console. ; ; Arguments: ; DS:SI pointer to a NULL terminated string. ; ; Clobber list: ; AX, BX, SI ; print_string: mov bx, 1 ; BH=0, BL=1 (blue) .loop: lodsb ; load a byte from DS:SI into AL cmp al, 0 ; Is it a NULL? je .exit ; yes, all done mov ah, 0xE ; INT10 Func 0xE int 0x10 ; display byte in tty mode jmp .loop .exit: ret %endif ; VERBOSE %if DEBUG ;-------------------------------------------------------------------------- ; Write the 4-byte value to the console in hex. ; ; Arguments: ; EAX = Value to be displayed in hex. ; print_hex: pushad mov cx, WORD 4 bswap eax .loop: push ax ror al, 4 call print_nibble ; display upper nibble pop ax call print_nibble ; display lower nibble ror eax, 8 loop .loop %if UNUSED mov al, 10 ; carriage return call print_char mov al, 13 call print_char %endif ; UNUSED popad ret print_nibble: and al, 0x0f add al, '0' cmp al, '9' jna .print_ascii add al, 'A' - '9' - 1 .print_ascii: call print_char ret ;-------------------------------------------------------------------------- ; getc - wait for a key press ; getc: pushad mov ah, 0 int 0x16 popad ret ;-------------------------------------------------------------------------- ; Write a ASCII character to the console. ; ; Arguments: ; AL = ASCII character. ; print_char: pushad mov bx, 1 ; BH=0, BL=1 (blue) mov ah, 0x0e ; bios INT 10, Function 0xE int 0x10 ; display byte in tty mode popad ret %endif ; DEBUG %if UNUSED ;-------------------------------------------------------------------------- ; Convert null terminated string to HFSUniStr255 ; ; Arguments: ; DS:DX pointer to a NULL terminated string. ; ES:DI pointer to result. ; ConvertStrToUni: pushad ; save registers push di ; save DI for unicode string length pointer mov si, dx ; use SI as source string pointer xor ax, ax ; AX = unicode character mov cl, al ; CL = string length .loop: stosw ; store unicode character (length 0 at first run) lodsb ; load next character to AL inc cl ; increment string length count cmp al, NULL ; check for string terminator jne .loop pop di ; restore unicode string length pointer dec cl ; ignoring terminator from length count mov [di], cl ; save string length popad ; restore registers ret %endif ; UNUSED ;-------------------------------------------------------------------------- ; Convert big-endian HFSUniStr255 to little-endian ; ; Arguments: ; DS:SI = pointer to big-endian HFSUniStr255 ; ES:DI = pointer to result buffer ; ConvertHFSUniStr255ToLE: pushad lodsw xchg ah, al stosw cmp al, 0 je .exit mov cx, ax .loop: lodsw xchg ah, al ; convert AX to little-endian ; ; When working with a case-sensitive HFS+ (HX) filesystem, we shouldn't change the case. ; cmp BYTE [kHFSPlusBuffer + HFSPlusVolumeHeader.signature + 1], kHFSPlusCaseSigX je .keepcase or ax, ax jne .convertToLE dec ax ; NULL must be the strongest char .convertToLE: cmp ah, 0 ja .keepcase cmp al, 'A' jb .keepcase cmp al, 'Z' ja .keepcase add al, 32 ; convert to lower-case .keepcase: stosw loop .loop .exit: popad ret ;-------------------------------------------------------------------------- ; compare HFSPlusExtentKey structures ; ; Arguments: ; DS:SI = search key ; ES:DI = trial key ; ; Returns: ; [BTree.searchResult] = result ; FLAGS = relation between search and trial keys ; compareHFSPlusExtentKeys: pushad mov dl, 0 ; DL = result of comparison, DH = bestGuess mov eax, [si + HFSPlusExtentKey.fileID] cmp eax, [di + HFSPlusExtentKey.fileID] jne .checkFlags cmp BYTE [si + HFSPlusExtentKey.forkType], kForkTypeData jne .checkFlags mov eax, [si + HFSPlusExtentKey.startBlock] cmp eax, [di + HFSPlusExtentKey.startBlock] je compareHFSPlusCatalogKeys.exit .checkFlags: ja compareHFSPlusCatalogKeys.searchKeyGreater ; search key > trial key jb compareHFSPlusCatalogKeys.trialKeyGreater ; search key < trial key ;-------------------------------------------------------------------------- ; Compare HFSPlusCatalogKey structures ; ; Arguments: ; DS:SI = search key ; ES:DI = trial key ; ; Returns: ; [BTree.searchResult] = result ; FLAGS = relation between search and trial keys ; compareHFSPlusCatalogKeys: pushad xor dx, dx ; DL = result of comparison, DH = bestGuess xchg si, di lodsd mov ecx, eax ; ECX = trial parentID xchg si, di lodsd ; EAX = search parentID cmp eax, ecx ja .searchKeyGreater ; search parentID > trial parentID jb .trialKeyGreater ; search parentID < trial parentID .compareNodeName: ; search parentID = trial parentID xchg si, di lodsw mov cx, ax ; CX = trial nodeName.length xchg si, di lodsw ; AX = search nodeName.length cmp cl, 0 ; trial nodeName.length = 0? je .searchKeyGreater cmp ax, cx je .strCompare ja .searchStrLonger .trialStrLonger: dec dh mov cx, ax jmp .strCompare .searchStrLonger: inc dh .strCompare: repe cmpsw ja .searchKeyGreater jb .trialKeyGreater mov dl, dh jmp .exit .trialKeyGreater: dec dl jmp .exit .searchKeyGreater: inc dl .exit: mov [bp + BTree.searchResult], dl cmp dl, 0 ; set flags to check relation between keys popad ret ;-------------------------------------------------------------------------- ; Allocate memory ; ; Arguments: ; CX = size of requested memory ; ; Returns: ; BP = start address of allocated memory ; ; Clobber list: ; CX ; malloc: push ax ; save AX push di ; save DI mov di, [gMallocPtr] ; start address of free space push di ; save free space start address inc di ; inc di ; keep the first word untouched dec cx ; for the last memory block pointer. dec cx ; mov al, NULL ; fill with zero rep stosb ; repeat fill mov [gMallocPtr], di ; adjust free space pointer pop bp ; BP = start address of allocated memory mov [di], bp ; set start address of allocated memory at next ; allocation block's free space address. pop di ; restore DI pop ax ; restore AX ret %if UNUSED ;-------------------------------------------------------------------------- ; Free allocated memory ; ; Returns: ; BP = start address of previously allocated memory ; free: lea bp, [gMallocPtr] mov bp, [bp] mov [gMallocPtr], bp ret %endif ; UNUSED ;-------------------------------------------------------------------------- ; Static data. ; %if VERBOSE root_str db '/boot', NULL %endif ;-------------------------------------------------------------------------- ; Pad the rest of the 512 byte sized sector with zeroes. The last ; two bytes is the mandatory boot sector signature. ; ; If the booter code becomes too large, then nasm will complain ; that the 'times' argument is negative. pad_table_and_sig: times 510-($-$$) db 0 dw kBootSignature ; ; Sector 1 code area ; ;-------------------------------------------------------------------------- ; lookUpBTree - initializes a new BTree instance and ; look up for HFSPlus Catalog File or Extent Overflow keys ; ; Arguments: ; AL = kHFSPlusFileID (Catalog or Extents Overflow) ; SI = address of searchKey ; DI = address of HFSPlusForkData.extents ; ; Returns: ; BP = address of BTree instance ; ECX = rootNode's logical offset in sectors ; lookUpBTree: mov cx, BTree_size ; allocate memory with BTree_size call malloc ; BP = start address of allocated memory. mov [bp + BTree.fileID], al ; save fileFileID mov edx, [di] ; first extent of current file call blockToSector ; ECX = converted to sector unit mov al, 1 ; 1 sector is enough for xor edx, edx ; reading current file's header. lea dx, [bp + BTree.BTHeaderBuffer] ; load into BTreeHeaderBuffer call readLBA ; read mov ax, [bp + BTree.BTHeaderBuffer + BTNodeDescriptor_size + BTHeaderRec.nodeSize] xchg ah, al ; convert to little-endian mov [bp + BTree.nodeSize], ax ; save nodeSize ; ; Always start the lookup process with the root node. ; mov edx, [bp + BTree.BTHeaderBuffer + BTNodeDescriptor_size + BTHeaderRec.rootNode] .readNode: ; ; Converting nodeID to sector unit ; mov ax, [bp + BTree.nodeSize] shr ax, 9 ; convert nodeSize to sectors mov bx, ax ; BX = read sector count cwde bswap edx ; convert node ID to little-endian mul edx ; multiply with nodeSize converted to sector unit mov ecx, eax ; ECX = file offset in BTree mov eax, [bp + BTree.fileID] lea edx, [bp + BTree.nodeBuffer] call readExtent ; ; AX = lowerBound = 0 ; xor ax, ax ; ; BX = upperBound = numRecords - 1 ; mov bx, [bp + BTree.nodeBuffer + BTNodeDescriptor.numRecords] xchg bh, bl dec bx .bsearch: cmp ax, bx ja .checkResult ; jump if lowerBound > upperBound mov cx, ax add cx, bx shr cx, 1 ; test index = (lowerBound + upperBound / 2) call getBTreeRecord %if UNUSED pushad jl .csearchLessThanTrial jg .csearchGreaterThanTrial PrintChar('=') jmp .csearchCont .csearchGreaterThanTrial: PrintChar('>') jmp .csearchCont .csearchLessThanTrial: PrintChar('<') .csearchCont: popad %endif ; UNUSED .adjustBounds: je .checkResult jl .searchLessThanTrial jg .searchGreaterThanTrial jmp .bsearch .searchLessThanTrial: mov bx, cx dec bx ; upperBound = index - 1 jmp .bsearch .searchGreaterThanTrial: mov ax, cx inc ax ; lowerBound = index + 1 jmp .bsearch .checkResult: cmp BYTE [bp + BTree.searchResult], 0 jge .foundKey mov cx, bx call getBTreeRecord .foundKey: cmp BYTE [bp + BTree.nodeBuffer + BTNodeDescriptor.kind], kBTIndexNode jne .exit lea bx, [bp + BTree.recordDataPtr] mov bx, [bx] mov edx, [bx] jmp .readNode .exit: cmp BYTE [bp + BTree.searchResult], 0 ret ;-------------------------------------------------------------------------- ; getBTreeRecord - read and compare BTree record ; ; Arguments: ; CX = record index ; SI = address of search key ; ; Returns: ; [BTree.searchResult] = result of key compare ; [BTree.recordDataPtr] = address of record data ; getBTreeRecord: pushad push si ; save SI lea di, [bp + BTree.nodeBuffer] ; DI = start of nodeBuffer push di ; use later mov ax, [bp + BTree.nodeSize] ; get nodeSize add di, ax ; DI = beyond nodeBuffer inc cx ; increment index shl cx, 1 ; * 2 sub di, cx ; DI = pointer to record mov ax, [di] ; offset to record xchg ah, al ; convert to little-endian pop di ; start of nodeBuffer add di, ax ; DI = address of record key mov si, di ; save to SI mov ax, [di] ; keyLength xchg ah, al ; convert to little-endian inc ax ; suppress keySize (2 bytes) inc ax ; add di, ax ; DI = address of record data mov [bp + BTree.recordDataPtr], di ; save address of record data lea di, [bp + BTree.trialKey] push di ; save address of trialKey lodsw ; suppress keySize (2 bytes) ; ; Don't need to compare as DWORD since all reserved CNIDs fits to a single byte ; cmp BYTE [bp + BTree.fileID], kHFSCatalogFileID je .prepareTrialCatalogKey .prepareTrialExtentKey: mov bx, compareHFSPlusExtentKeys movsw ; copy forkType + pad mov cx, 2 ; copy fileID + startBlock .extentLoop: lodsd bswap eax ; convert to little-endian stosd loop .extentLoop jmp .exit .prepareTrialCatalogKey: mov bx, compareHFSPlusCatalogKeys lodsd bswap eax ; convert ParentID to little-endian stosd call ConvertHFSUniStr255ToLE ; convert nodeName to little-endian .exit: pop di ; restore address of trialKey %if UNUSED ; ; Print catalog trial key ; pushad mov si, di lodsd PrintChar('k') PrintHex() lodsw cmp ax, 0 je .printExit mov cx, ax .printLoop: lodsw call print_char loop .printLoop .printExit: popad ; ; ; %endif ; UNUSED %if UNUSED ; ; Print extent trial key ; pushad PrintChar('k') mov si, di xor eax, eax lodsw PrintHex() lodsd PrintHex() lodsd PrintHex() popad ; ; ; %endif ; UNUSED pop si ; restore SI call bx ; call key compare proc popad ret ;-------------------------------------------------------------------------- ; readExtent - read extents from a HFS+ file (multiple extent support) ; ; Arguments: ; EAX = Catalog File ID ; BX = read size in sectors ; ECX = file offset in sectors ; EDX = address of read buffer ; DI = address of HFSPlusForkData.extents ; readExtent: pushad ; ; Save Catalog File ID as part of a search HFSPlusExtentKey ; for a possible Extents Overflow lookup. ; mov [bp + BTree.searchExtentKey + HFSPlusExtentKey.fileID], eax mov [bp + BTree.readBufferPtr], edx mov ax, bx cwde mov [bp + BTree.readSize], eax mov ebx, ecx ; EBX = file offset xor eax, eax mov [bp + BTree.currentExtentOffs], eax .beginExtentBlock: mov BYTE [bp + BTree.extentCount], 0 .extentSearch: cmp BYTE [bp + BTree.extentCount], kHFSPlusExtentDensity jb .continue .getNextExtentBlock: push ebx mov eax, [bp + BTree.currentExtentOffs] ; ; Converting sector unit to HFS+ allocation block unit. ; xor edx, edx div DWORD [gBlockSize] ; divide with blockSize ; ; Preparing searchExtentKey's startBlock field. ; mov [bp + BTree.searchExtentKey + HFSPlusExtentKey.startBlock], eax mov al, kHFSExtentsFileID lea si, [bp + BTree.searchExtentKey] lea di, [kHFSPlusBuffer + HFSPlusVolumeHeader.extentsFile + HFSPlusForkData.extents] call lookUpBTree jnz NEAR .exit ; ; BP points to the new workspace allocated by lookUpBTree. ; lea di, [bp + BTree.recordDataPtr] mov di, [di] ; ; Switch back to the previous workspace. ; lea bp, [gMallocPtr] mov bp, [bp] mov [gMallocPtr], bp pop ebx jmp .beginExtentBlock .continue: mov edx, [di + HFSPlusExtentDescriptor.blockCount] call blockToSector ; ECX = converted current extent's blockCount to sectors mov eax, [bp + BTree.currentExtentOffs] ; EAX = current extent's start offset (sector) mov edx, eax add edx, ecx ; EDX = next extent's start offset (sector) cmp ebx, edx mov [bp + BTree.currentExtentOffs], edx ; set currentExtentOffs as the next extent's start offset jae .nextExtent ; jump to next extent if file offset > next extent's start offset .foundExtent: mov edx, ebx sub edx, eax ; EDX = relative offset within current extent mov eax, edx ; will be used below to determine read size mov esi, [bp + BTree.readSize] ; ESI = remaining sectors to be read add edx, esi cmp edx, ecx ; test if relative offset + readSize fits to this extent jbe .read ; read all remaining sectors from this extent .splitRead: sub ecx, eax ; read amount of sectors beginning at relative offset mov esi, ecx ; of current extent up to the end of current extent .read: mov edx, [di + HFSPlusExtentDescriptor.startBlock] call blockToSector ; ECX = converted to sectors add ecx, eax ; file offset converted to sectors push si mov ax, si mov edx, [bp + BTree.readBufferPtr] call readSectors pop si add ebx, esi mov ax, si cwde shl ax, 9 ; convert SI (read sector count) to byte unit add [bp + BTree.readBufferPtr], eax sub [bp + BTree.readSize], esi jz .exit .nextExtent: add di, kHFSPlusExtentDensity inc BYTE [bp + BTree.extentCount] jmp .extentSearch .exit: popad ret ;-------------------------------------------------------------------------- ; Convert big-endian HFSPlus allocation block to sector unit ; ; Arguments: ; EDX = allocation block ; ; Returns: ; ECX = allocation block converted to sector unit ; ; Clobber list: ; EDX ; blockToSector: push eax mov eax, [gBlockSize] bswap edx ; convert allocation block to little-endian mul edx ; multiply with block number mov ecx, eax ; result in EAX pop eax ret %if UNUSED ;-------------------------------------------------------------------------- ; Convert sector unit to HFSPlus allocation block unit ; ; Arguments: ; EDX = sector ; ; Returns: ; ECX = converted to allocation block unit ; ; Clobber list: ; EDX ; sectorToBlock: push eax mov eax, edx xor edx, edx div DWORD [gBlockSize] ; divide with blockSize mov ecx, eax ; result in EAX pop eax ret %endif ; UNUSED %if UNUSED ;-------------------------------------------------------------------------- ; Convert big-endian BTree node ID to sector unit ; ; Arguments: ; EDX = node ID ; ; Returns: ; ECX = node ID converted to sector unit ; ; Clobber list: ; EDX ; nodeToSector: push eax mov ax, [bp + BTree.nodeSize] shr ax, 9 ; convert nodeSize to sectors cwde bswap edx ; convert node ID to little-endian mul edx ; multiply with node ID mov ecx, eax ; result in EAX pop eax ret %endif ; UNUSED ;-------------------------------------------------------------------------- ; Static data. ; %if VERBOSE log_title_str db CR, LF, 'boot1: ', NULL error_str db 'error', NULL %endif searchCatalogKey dd kHFSRootFolderID dw searchCatKeyNameLen searchCatKeyName dw 'b', 'o', 'o', 't' ; must be lower case searchCatKeyNameLen EQU ($ - searchCatKeyName) / 2 ;-------------------------------------------------------------------------- ; Pad the rest of the 512 byte sized sector with zeroes. The last ; two bytes is the mandatory boot sector signature. ; pad_sector_1: times 1022-($-$$) db 0 dw kBootSignature ; ; Local BTree variables ; struc BTree .mallocLink resw 1 ; pointer to previously allocated memory block .fileID resd 1 ; will use as BYTE .nodeSize resd 1 ; will use as WORD .searchExtentKey resb HFSPlusExtentKey_size .searchResult resb 1 .trialKey resb kBTMaxRecordLength .recordDataPtr resw 1 .readBufferPtr resd 1 .currentExtentOffs resd 1 .readSize resd 1 .extentCount resb 1 ALIGNB 2 .BTHeaderBuffer resb kSectorBytes .nodeBuffer resb maxNodeSize endstruc ; ; Global variables ; ABSOLUTE kHFSPlusBuffer + HFSPlusVolumeHeader_size gPartLBA resd 1 gBIOSDriveNumber resw 1 gBlockSize resd 1 gMallocPtr resw 1 ; END