- Timestamp:
- Mar 29, 2012, 4:40:50 PM (13 years ago)
- google:author:
- krille_n_@hotmail.com
- Location:
- trunk
- Files:
-
- 22 edited
Legend:
- Unmodified
- Added
- Removed
-
trunk/Assembly_Library/Inc/Display.inc
r341 r370 50 50 .SetCursorShapeFromAX resb 2 51 51 .SetCursorCoordinatesFromAX resb 2 52 %ifndef EXCLUDE_FROM_XTIDECFG 52 53 .SetNewPageFromAL resb 2 54 %endif 53 55 .SynchronizeDisplayContextToHardware resb 2 54 56 -
trunk/Assembly_Library/Inc/Menu.inc
r205 r370 80 80 .RefreshInformation resb 2 81 81 82 %ifndef EXCLUDE_FROM_XTIDECFG 82 83 .StartSelectionTimeoutWithTicksInAX resb 2 84 %endif 83 85 84 86 %ifdef INCLUDE_MENU_DIALOGS -
trunk/Assembly_Library/Src/AssemblyLibrary.asm
r369 r370 16 16 %include "DisplayCursor.asm" 17 17 %include "DisplayPage.asm" 18 %include "DisplayPrint.asm" ; must come before DisplayFormat/DisplayFormatCompressed 18 %include "DisplayPrint.asm" ; must come before DisplayFormat/DisplayFormatCompressed 19 19 %ifdef MODULE_STRINGS_COMPRESSED 20 20 %include "DisplayFormatCompressed.asm" 21 21 %else 22 %include "DisplayFormat.asm" 22 %include "DisplayFormat.asm" 23 23 %endif 24 24 %endif … … 34 34 %ifndef KEYBOARD_JUMP_ALIGN 35 35 %define KEYBOARD_JUMP_ALIGN 1 36 %endif 36 %endif 37 37 %include "Keyboard.asm" 38 38 %endif … … 41 41 %ifndef MENU_JUMP_ALIGN 42 42 %define MENU_JUMP_ALIGN 1 43 %endif 43 %endif 44 44 %include "CharOutLineSplitter.asm" 45 45 %include "Menu.asm" … … 72 72 %ifndef STRING_JUMP_ALIGN 73 73 %define STRING_JUMP_ALIGN 1 74 %endif 74 %endif 75 75 %include "Char.asm" 76 76 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS … … 82 82 %ifdef INCLUDE_SERIAL_LIBRARY 83 83 %include "Serial.inc" 84 %endif 84 %endif 85 85 %ifdef INCLUDE_SERIALSERVER_LIBRARY 86 86 %include "SerialServer.asm" 87 87 %include "SerialServerScan.asm" 88 88 %define INCLUDE_TIME_LIBRARY 89 %endif 89 %endif 90 90 91 91 %ifdef INCLUDE_TIME_LIBRARY 92 92 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS 93 93 %include "Delay.asm" 94 %include "SystemTimer.asm" 94 %ifndef EXCLUDE_FROM_XTIDECFG 95 %include "SystemTimer.asm" 96 %endif 95 97 %endif 96 98 %include "TimerTicks.asm" … … 100 102 %ifndef UTIL_SIZE_JUMP_ALIGN 101 103 %define UTIL_SIZE_JUMP_ALIGN 1 102 %endif 104 %endif 103 105 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS 104 106 %include "Bit.asm" -
trunk/Assembly_Library/Src/Display/Display.asm
r369 r370 68 68 %define SetCursorShapeFromAX DisplayCursor_SetShapeFromAX 69 69 %define SetCursorCoordinatesFromAX DisplayCursor_SetCoordinatesFromAX 70 %ifndef EXCLUDE_FROM_XTIDECFG 70 71 %define SetNewPageFromAL DisplayPage_SetFromAL 72 %endif 71 73 %define SynchronizeDisplayContextToHardware DisplayContext_SynchronizeToHardware 72 74 -
trunk/Assembly_Library/Src/Display/DisplayPage.asm
r369 r370 15 15 ; AX, DX 16 16 ;-------------------------------------------------------------------- 17 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS 17 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS OR EXCLUDE_FROM_XTIDECFG 18 18 ALIGN DISPLAY_JUMP_ALIGN 19 19 DisplayPage_SetFromAL: -
trunk/Assembly_Library/Src/Menu/Menu.asm
r369 r370 50 50 %define RefreshInformation MenuText_RefreshInformation 51 51 52 %ifndef EXCLUDE_FROM_XTIDECFG 52 53 %define StartSelectionTimeoutWithTicksInAX MenuTime_StartSelectionTimeoutWithTicksInAX 54 %endif 53 55 54 56 %ifdef INCLUDE_MENU_DIALOGS -
trunk/Assembly_Library/Src/Menu/MenuTime.asm
r369 r370 15 15 ; AX, BX 16 16 ;-------------------------------------------------------------------- 17 %ifndef EXCLUDE_FROM_XTIDECFG 17 18 ALIGN MENU_JUMP_ALIGN 18 19 MenuTime_StartSelectionTimeoutWithTicksInAX: … … 23 24 pop ds 24 25 ret 26 %endif 25 27 26 28 -
trunk/Assembly_Library/Src/Time/TimerTicks.asm
r131 r370 24 24 ;-------------------------------------------------------------------- 25 25 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS 26 %ifndef EXCLUDE_FROM_XTIDECFG 26 27 ALIGN JUMP_ALIGN 27 28 TimerTicks_GetHoursToAXfromTicksInDXAX: … … 29 30 div cx ; Divide DX:AX by CX, Hours to AX, remainder ticks to DX 30 31 ret 32 %endif ; EXCLUDE_FROM_XTIDECFG 31 33 32 34 ALIGN JUMP_ALIGN … … 37 39 div cx ; Divide DX:AX by CX, Minutes to AX, remainder ticks to DX 38 40 ret 39 %endif 41 %endif ; EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS 40 42 41 43 ALIGN JUMP_ALIGN -
trunk/Assembly_Library/Src/Util/Registers.asm
r222 r370 69 69 ; Corrupts registers: 70 70 ; AX, CX 71 ; 72 ; Inline of NORMALIZE_FAR_POINTER so that we can share the last 2/3 of the 71 ; 72 ; Inline of NORMALIZE_FAR_POINTER so that we can share the last 2/3 of the 73 73 ; routine with Registers_NormalizeFinish. 74 ; 74 ; 75 75 ;-------------------------------------------------------------------- 76 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS 76 %ifndef EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS OR EXCLUDE_FROM_XTIDECFG 77 77 ALIGN JUMP_ALIGN 78 78 Registers_NormalizeESSI: … … 87 87 ;;; fall-through 88 88 89 ALIGN JUMP_ALIGN 90 Registers_NormalizeFinish: 89 ALIGN JUMP_ALIGN 90 Registers_NormalizeFinish: 91 91 eSHR_IM cx, 4 92 92 mov ax, es -
trunk/XTIDE_Universal_BIOS/Inc/ATA_ID.inc
r364 r370 21 21 PIO_3_MIN_ADDRESS_VALID_NS EQU 30 22 22 PIO_4_MIN_ADDRESS_VALID_NS EQU 25 23 PIO_5_MIN_ADDRESS_VALID_NS EQU 25 ; Could not find info24 PIO_6_MIN_ADDRESS_VALID_NS EQU 25 ; Could not find info23 PIO_5_MIN_ADDRESS_VALID_NS EQU 15 24 PIO_6_MIN_ADDRESS_VALID_NS EQU 10 25 25 26 26 ; PIO Minimum Active Times (t2) … … 30 30 PIO_3_MIN_ACTIVE_TIME_NS EQU 80 31 31 PIO_4_MIN_ACTIVE_TIME_NS EQU 70 32 PIO_5_MIN_ACTIVE_TIME_NS EQU 70 ; Could not find info33 PIO_6_MIN_ACTIVE_TIME_NS EQU 70 ; Could not find info32 PIO_5_MIN_ACTIVE_TIME_NS EQU 65 33 PIO_6_MIN_ACTIVE_TIME_NS EQU 55 34 34 35 35 ; PIO Minimum Recovery Times or Inactive Times (t2i) can be calculated 36 ; from Minimum Cycle Time (t0) - Minimum Active Time (t2) - Address Valid Time (t1). 36 ; from Minimum Cycle Time (t0) - Minimum Active Time (t2) - Address Valid Time (t1). 37 37 ; I'm not sure about this calculation so correct me if I'm wrong! 38 38 ; Recovery time should be calculated at run time since Cycle Time t0 can be … … 54 54 .wBpTrck resw 1 ; 4F, Number of unformatted bytes per track 55 55 .wBpSect resw 1 ; 5F, Number of unformatted bytes per sector 56 .wSPT resw 1 ; 6F, Number of sectors per track 56 .wSPT resw 1 ; 6F, Number of sectors per track 57 57 resw 3 ; 7...9X 58 58 .strSerial resb 20 ; 10...19F, Serial number (20 ASCII characters, 0000h=not specified) … … 136 136 resw 1 ; 4X 137 137 resw 1 ; 5X 138 .wSPT resw 1 ; 6F, Number of logical sectors per track 138 .wSPT resw 1 ; 6F, Number of logical sectors per track 139 139 resw 3 ; 7...9X 140 140 .strSerial resb 20 ; 10...19F, Serial number (20 ASCII characters, 0000h=not specified) … … 166 166 .bBlockSel resb 1 ; 59[0-7]V, Current setting for number of sectors that 167 167 ; can be transferred per interrupt on R/W multiple command 168 .bBlockFlgs resb 1 ; 59[8-15]VR, bit 0 set if Multiple sector setting is valid 168 .bBlockFlgs resb 1 ; 59[8-15]VR, bit 0 set if Multiple sector setting is valid 169 169 .dwLBACnt resd 1 ; 60...61F, Total number of user addressable sectors (LBA mode only) 170 170 .bSDMASupp resb 1 ; 62[0-7]F, Single word DMA transfer modes supported … … 172 172 .bMDMASupp resb 1 ; 63[0-7]F, Multiword DMA transfer modes supported 173 173 .bMDMAAct resb 1 ; 63[8-15]V, Multiword DMA transfer mode active 174 174 175 175 ; Words 64-70 are valid only if bit1 is set in .wFields (ATA2+) 176 176 .bPIOSupp resb 1 ; 64[0-7]F, Advanced PIO Transfer Modes Supported … … 220 220 resw 1 ; 4X 221 221 resw 1 ; 5X 222 resw 1 ; 6X, Obsolete (Number of logical sectors per track) 222 resw 1 ; 6X, Obsolete (Number of logical sectors per track) 223 223 resw 2 ; 7...8V, Reserved for assignment by the CompactFlash Association 224 224 resw 1 ; 9X -
trunk/XTIDE_Universal_BIOS/Inc/CustomDPT.inc
r365 r370 91 91 struc DPT_SERIAL 92 92 .dpt resb DPT_size 93 94 93 .wSerialPortAndBaud: 95 94 .bSerialPort resb 1 ; Serial connection I/O port address, divided by 4 … … 126 125 jnz SHORT %%LoadMaxValueToAX 127 126 cmp ax, MAX_LCHS_CYLINDERS 128 jb eSHORT %%NoNeedToModify127 jb SHORT %%NoNeedToModify 129 128 %%LoadMaxValueToAX: 130 129 mov ax, MAX_LCHS_CYLINDERS -
trunk/XTIDE_Universal_BIOS/Inc/IDE_8bit.inc
r363 r370 30 30 ; XTIDE_INSW 31 31 ; Parameters: 32 ; B X: Bit mask for toggling XTIDE data low/high reg32 ; BL: Bit mask for toggling XTIDE data low/high reg 33 33 ; DX: XTIDE Data Low Register address 34 34 ; ES:DI: Ptr to destination buffer … … 41 41 %ifdef USE_186 ; INS instruction available 42 42 insb ; Load low byte from port DX to [ES:DI] 43 xor d x, bx; IDE Data Reg to XTIDE Data High Reg43 xor dl, bl ; IDE Data Reg to XTIDE Data High Reg 44 44 insb ; Load high byte from port DX to [ES:DI] 45 xor d x, bx; Restore to IDE Data Register45 xor dl, bl ; Restore to IDE Data Register 46 46 %else ; If 8088/8086 47 47 in al, dx ; Load low byte from port 48 xor d x, bx; IDE Data Reg to XTIDE Data High Reg48 xor dl, bl ; IDE Data Reg to XTIDE Data High Reg 49 49 stosb ; Store byte to [ES:DI] 50 50 in al, dx ; Load high byte from port 51 xor d x, bx; Restore to IDE Data Register51 xor dl, bl ; Restore to IDE Data Register 52 52 stosb ; Store byte to [ES:DI] 53 53 %endif … … 60 60 ; XTIDE_OUTSW 61 61 ; Parameters: 62 ; B X: Bit mask for toggling XTIDE data low/high reg62 ; BL: Bit mask for toggling XTIDE data low/high reg 63 63 ; DX: XTIDE Data Low Register address 64 64 ; DS:SI: Ptr to source buffer … … 71 71 %ifdef USE_186 ; OUTS instruction available 72 72 lodsb ; Load low byte from [DS:SI] to AL 73 xor d x, bx; IDE Data Reg to XTIDE Data High Reg73 xor dl, bl ; IDE Data Reg to XTIDE Data High Reg 74 74 outsb ; Output high byte from [DS:SI] 75 xor d x, bx; XTIDE Data High Reg to Data Low Reg75 xor dl, bl ; XTIDE Data High Reg to Data Low Reg 76 76 out dx, al ; Output low byte from AL 77 77 %else ; If 8088/8086 78 78 lodsw ; Load word from [DS:SI] 79 xor d x, bx; IDE Data Reg to XTIDE Data High Reg79 xor dl, bl ; IDE Data Reg to XTIDE Data High Reg 80 80 xchg al, ah ; => AL=high byte, AH=low byte 81 81 out dx, al ; Output high byte 82 xor d x, bx; XTIDE Data High Reg to Data Low Reg82 xor dl, bl ; XTIDE Data High Reg to Data Low Reg 83 83 mov al, ah ; Copy low byte to AL 84 84 out dx, al ; Output low byte -
trunk/XTIDE_Universal_BIOS/Src/Device/IDE/IdeTransfer.asm
r365 r370 102 102 ; Return number of successfully read sectors 103 103 ReturnWithTransferErrorInAH: 104 %ifdef USE_386 105 movzx cx, [bp+PIOVARS.bSectorsDone] 106 %else 104 107 mov cl, [bp+PIOVARS.bSectorsDone] 105 108 mov ch, 0 ; Preserve CF 109 %endif 106 110 ret 107 111 … … 180 184 ; Store sizes 181 185 mov [bp+PIOVARS.bSectorsLeft], ah 182 eMOVZX ax, BYTE[di+DPT_ATA.bBlockSize]186 eMOVZX ax, [di+DPT_ATA.bBlockSize] 183 187 mov [bp+PIOVARS.wSectorsInBlock], ax 184 188 mov [bp+PIOVARS.bSectorsDone], ah ; Zero … … 218 222 ReadBlockFromXtideRev1: 219 223 UNROLL_SECTORS_IN_CX_TO_QWORDS 220 mov b x, 8 ; Bit mask for toggling data low/high reg224 mov bl, 8 ; Bit mask for toggling data low/high reg 221 225 ALIGN JUMP_ALIGN 222 226 .InswLoop: … … 287 291 push bx 288 292 UNROLL_SECTORS_IN_CX_TO_QWORDS 289 mov b x, 8 ; Bit mask for toggling data low/high reg293 mov bl, 8 ; Bit mask for toggling data low/high reg 290 294 push es ; Copy ES... 291 295 pop ds ; ...to DS -
trunk/XTIDE_Universal_BIOS/Src/Handlers/Int13h/AH9h_HInit.asm
r365 r370 227 227 ; Set if error flag was set 228 228 ; Corrupts registers: 229 ; BX, ES229 ; Nothing 230 230 ;-------------------------------------------------------------------- 231 231 SetErrorFlagFromALwithErrorCodeInAH: -
trunk/XTIDE_Universal_BIOS/Src/Handlers/Int13h/AHDh_HReset.asm
r369 r370 52 52 53 53 ; Initialize Master and Slave drives 54 eMOVZX ax, BYTE [di+DPT.bIdevarsOffset]; (AL) pointer to controller we are looking to reset54 eMOVZX ax, [di+DPT.bIdevarsOffset] ; (AL) pointer to controller we are looking to reset 55 55 ; (AH) initialize error code, assume success 56 56 … … 85 85 IterateAndResetDrives: 86 86 cmp al, [di+DPT.bIdevarsOffset] ; The right controller? 87 jne .done 87 jne .Done 88 push cx 88 89 push ax 89 push cx90 90 call AH9h_InitializeDriveForUse ; Reset Master and Slave (Master will come first in DPT list) 91 91 92 92 %ifdef MODULE_ADVANCED_ATA 93 93 jc SHORT .SkipControllerInitSinceError 94 call InitializeAdvancedIdeControllers ; Done after drive init so drives are first set to advanced PIO mode, then the controller 94 ; Here we initialize the more advanced controllers (VLB and PCI) to get better performance for systems with 32-bit bus. 95 ; This step is optional since the controllers use slowest possible settings by default if they are not initialized. 96 97 pop ax 98 push ax 99 cmp al, [di+LARGEST_DPT_SIZE+DPT.bIdevarsOffset] ; We check if next DPT is for the same IDE controller. 100 je SHORT .SkipInitializationUntilNextDrive ; If it is, we skip the initialization. 101 call AdvAtaInit_InitializeControllerForDPTinDSDI ; Done after drive init so drives are first set to advanced PIO mode, then the controller 102 .SkipInitializationUntilNextDrive: 95 103 .SkipControllerInitSinceError: 96 %endif 104 %endif ; MODULE_ADVANCED_ATA 97 105 106 pop ax 98 107 pop cx 99 pop ax 100 jnc .done 108 jnc .Done 101 109 or ah, (RET_HD_RESETFAIL << 1) | 1 ; OR in Reset Failed error code and CF, will SHR into position later 102 . done:110 .Done: 103 111 stc ; From IterateAllDPTs perspective, the DPT is never found (continue iteration) 104 112 ret 105 113 106 107 %ifdef MODULE_ADVANCED_ATA108 ;--------------------------------------------------------------------109 ; Here we initialize the more advanced controllers (VLB and PCI)110 ; to get better performance for systems with 32-bit bus.111 ;112 ; This step is optional since the controllers use slowest possible113 ; settings by default if they are not initialized.114 ;115 ; InitializeAdvancedIdeController116 ; Parameters:117 ; DS:DI: Ptr to DPT118 ; Returns:119 ; CF: Cleared if success or no controller to initialize120 ; Set if error121 ; Corrupts registers:122 ; AX, BX, CX, DX123 ;--------------------------------------------------------------------124 InitializeAdvancedIdeControllers:125 ; We want to initialize the advanced controller only after both126 ; Master and Slave drive are initialized to correct PIO mode.127 ; We check if next DPT is for the same IDE controller. If it is,128 ; we skip the initialization.129 mov al, [di+DPT.bIdevarsOffset]130 cmp al, [di++LARGEST_DPT_SIZE+DPT.bIdevarsOffset]131 je SHORT .SkipInitializationUntilNextDrive ; CF cleared132 133 jmp AdvAtaInit_InitializeControllerForDPTinDSDI134 .SkipInitializationUntilNextDrive:135 clc136 ret137 138 %endif ; MODULE_ADVANCED_ATA -
trunk/XTIDE_Universal_BIOS/Src/Initialization/AdvAtaInit.asm
r364 r370 114 114 ;-------------------------------------------------------------------- 115 115 AdvAtaInit_SelectSlowestCommonPioTimingsToBXandCXfromDSSIandDSDI: 116 eMOVZX bx, BYTE[di+DPT_ADVANCED_ATA.bPioMode]116 eMOVZX bx, [di+DPT_ADVANCED_ATA.bPioMode] 117 117 mov cx, [di+DPT_ADVANCED_ATA.wMinPioCycleTime] 118 118 test si, si -
trunk/XTIDE_Universal_BIOS/Src/Initialization/AtaID.asm
r364 r370 89 89 ; Get PIO mode and cycle time for PIO 0...2 90 90 mov bx, [es:si+ATA1.bPioMode] 91 mov ax, bx ; AH = 0, AL = PIO mode 0, 1 or 2 91 92 shl bx, 1 ; Shift for WORD lookup 92 93 mov cx, [cs:bx+.rgwPio0to2CycleTimeInNanosecs] 93 shr bx, 194 xchg ax, bx ; AH = 0, AL = PIO mode 0, 1 or 295 94 96 95 ; Check if IORDY is supported … … 105 104 ; Get Advanced PIO mode 106 105 ; (Hard Disks supports up to 4 but CF cards can support 5 and 6) 107 mov b x, [es:si+ATA2.bPIOSupp]106 mov bl, [es:si+ATA2.bPIOSupp] 108 107 .CheckNextFlag: 109 108 inc ax 110 shr b x, 1109 shr bl, 1 111 110 jnz SHORT .CheckNextFlag 112 111 MIN_U al, 6 ; Make sure not above lookup tables -
trunk/XTIDE_Universal_BIOS/Src/Initialization/Vision.asm
r364 r370 45 45 IsConfigRegisterWithIDinAL: 46 46 mov ah, al 47 and a h, MASK_QDCONFIG_CONTROLLER_ID48 cmp a h, ID_QD6500 << 447 and al, MASK_QDCONFIG_CONTROLLER_ID 48 cmp al, ID_QD6500 << 4 49 49 je SHORT VisionControllerDetected 50 cmp a h, ID_QD6580 << 450 cmp al, ID_QD6580 << 4 51 51 je SHORT VisionControllerDetected 52 cmp a h, ID_QD6580_ALTERNATE << 452 cmp al, ID_QD6580_ALTERNATE << 4 53 53 VisionControllerDetected: 54 xchg ah, al 54 55 ret 55 56 … … 175 176 mov bp, QD6500_MAX_ACTIVE_TIME_CLOCKS | (QD6500_MIN_ACTIVE_TIME_CLOCKS << 8) 176 177 177 ; We need the PIO Cycle Time in CX to calculate Active and Recovery Times. 178 ; We need the PIO Cycle Time in CX to calculate Active and Recovery Times. 178 179 .CalculateTimingsForQD65xx: 179 180 call AdvAtaInit_SelectSlowestCommonPioTimingsToBXandCXfromDSSIandDSDI -
trunk/XTIDE_Universal_BIOS/makefile
r369 r370 196 196 197 197 xt_unused: xt 198 $(AS) "$(SRC_ASM)" $(ASFLAGS) $(DEFS_XT) -o"$(TARGET)_xt_unused.asm" -E -DCHECK_FOR_UNUSED_ENTRYPOINTS199 perl ..\tools\unused.pl $(TARGET)_xt.lst $(TARGET)_xt_unused.asm200 198 @$(AS) "$(SRC_ASM)" $(ASFLAGS) $(DEFS_XT) -o"$(TARGET)_xt_unused.asm" -E -DCHECK_FOR_UNUSED_ENTRYPOINTS 199 @perl ..\tools\unused.pl $(TARGET)_xt.lst $(TARGET)_xt_unused.asm 200 -
trunk/XTIDE_Universal_BIOS_Configurator_v2/Inc/Help/Configuration_FullMode.txt
r68 r370 1 Full mode supports up to 5 IDE controllers (10 drives). Full mode reserves a bit of RAM from top of Conventional memory. This makes possible to use ROM BASIC and software that requires top ofinterrupt vectors where XTIDE Universal BIOS parameters would be stored in Lite mode.1 Full mode supports up to 4 IDE controllers (8 drives). Full mode reserves a bit of RAM from the top of Conventional memory. This makes it possible to use ROM BASIC and other software that requires the interrupt vectors where XTIDE Universal BIOS parameters would be stored in Lite mode. 2 2 3 Lite mode supports only one IDE controller (2 drives) and stores parameters to t op of interrupt vectors (30:0h) so no Conventional memory needs to be reserved. Lite mode cannot be used if some software requirestop of interrupt vectors. Usually this is not a problem since only IBM ROM BASIC uses them.3 Lite mode supports only one IDE controller (2 drives) and stores parameters to the top of the interrupt vectors (30:0h) so no Conventional memory needs to be reserved. Lite mode cannot be used if some software requires the top of interrupt vectors. Usually this is not a problem since only IBM ROM BASIC uses them. 4 4 5 Tandy 1000 models with 640 kiB or less memory need to use Lite mode since t op of Conventional memory gets dynamically reserved by video hardware. This happens only with Tandy integrated video controller and not when using expansion graphics cards. It is possible to use Full mode if reserving RAM for video memory + what is required for XTIDE Universal BIOS. This would mean 129 kiB but most software should work with 65 kiB reserved.5 Tandy 1000 models with 640 kiB or less memory need to use Lite mode since the top of Conventional memory gets dynamically reserved by video hardware. This happens only with Tandy integrated video controller and not when using expansion graphics cards. It is possible to use Full mode if reserving RAM for video memory + what is required for XTIDE Universal BIOS. This would mean 129 kiB but most software should work with 65 kiB reserved. -
trunk/XTIDE_Universal_BIOS_Configurator_v2/Src/Flash.asm
r293 r370 33 33 34 34 loop .FlashNextPage 35 %ifndef CHECK_FOR_UNUSED_ENTRYPOINTS 35 36 %if FLASH_RESULT.success = 0 ; Just in case this should ever change 36 37 mov [bp+FLASHVARS.flashResult], cl 37 38 %else 38 39 mov BYTE [bp+FLASHVARS.flashResult], FLASH_RESULT.success 40 %endif 39 41 %endif 40 42 ret -
trunk/XTIDE_Universal_BIOS_Configurator_v2/makefile
r293 r370 131 131 @upx -qq --8086 --ultra-brute $(TARGET).$(EXTENSION) 132 132 @echo Done! XT version is ready for release. 133 134 xt_unused: xt 135 @$(AS) "$(SRC_ASM)" $(ASFLAGS) $(DEFS_XT) -o"$(TARGET)_xt_unused.asm" -E -DCHECK_FOR_UNUSED_ENTRYPOINTS 136 @perl ..\tools\unused.pl $(TARGET)_xt.lst $(TARGET)_xt_unused.asm 137
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