source: xtideuniversalbios/trunk/XTIDE_Universal_BIOS/Src/Device/IDE/IdeTransfer.asm@ 465

; Project name  :   XTIDE Universal BIOS
; Description   :   IDE Device transfer functions.

;
; XTIDE Universal BIOS and Associated Tools
; Copyright (C) 2009-2010 by Tomi Tilli, 2011-2012 by XTIDE Universal BIOS Team.
;
; This program is free software; you can redistribute it and/or modify
; it under the terms of the GNU General Public License as published by
; the Free Software Foundation; either version 2 of the License, or
; (at your option) any later version.
;
; This program is distributed in the hope that it will be useful,
; but WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
; GNU General Public License for more details.
; Visit http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
;

; Structure containing variables for PIO transfer functions.
; This struct must not be larger than IDEPACK without INTPACK.
struc PIOVARS   ; Must not be larger than 9 bytes! See IDEPACK in RamVars.inc.
    .wDataPort              resb    2   ; 0-1, IDE Data Port
    .fnXfer                 resb    2   ; 2-3, Offset to transfer function
    .wSectorsInBlock        resb    2   ; 4-5, Block size in sectors
    .bSectorsLeft           resb    1   ; 6, Sectors left to transfer
                            resb    1   ; 7, IDEPACK.bDeviceControl
    .bSectorsDone           resb    1   ; 8, Number of sectors xferred
endstruc


; Section containing code
SECTION .text

;--------------------------------------------------------------------
; IdeTransfer_StartWithCommandInAL
;   Parameters:
;       AL:     IDE command that was used to start the transfer
;               (all PIO read and write commands including Identify Device)
;       ES:SI:  Ptr to normalized data buffer
;       DS:DI:  Ptr to DPT (in RAMVARS segment)
;       SS:BP:  Ptr to IDEPACK
;   Returns:
;       AH:     INT 13h Error Code
;       CX:     Number of successfully transferred sectors
;       CF:     Cleared if success, Set if error
;   Corrupts registers:
;       AL, BX, DX, SI, ES
;--------------------------------------------------------------------
ALIGN JUMP_ALIGN
IdeTransfer_StartWithCommandInAL:
    ; Are we reading or writing?
    test    al, 16  ; Bit 4 is cleared on all the read commands but set on 3 of the 4 write commands
    mov     ah, [bp+IDEPACK.bSectorCount]
    jnz     SHORT WriteToDrive
    cmp     al, COMMAND_WRITE_MULTIPLE
    je      SHORT WriteToDrive
    ; Fall to ReadFromDrive

;--------------------------------------------------------------------
; ReadFromDrive
;   Parameters:
;       AH:     Number of sectors to transfer (1...128)
;       ES:SI:  Normalized ptr to buffer to receive data
;       DS:DI:  Ptr to DPT (in RAMVARS segment)
;       SS:BP:  Ptr to PIOVARS
;   Returns:
;       DS:DI:  Ptr to DPT (in RAMVARS segment)
;       AH:     BIOS Error code
;       CX:     Number of successfully transferred sectors
;       CF:     0 if transfer successful
;               1 if any error
;   Corrupts registers:
;       AL, BX, DX, SI, ES
;--------------------------------------------------------------------
ReadFromDrive:
    ; Prepare to read data to ESSI
    mov     bx, g_rgfnPioRead
    call    InitializePiovarsInSSBPwithSectorCountInAH

    ; Wait until drive is ready to transfer
    call    IdeWait_IRQorDRQ                    ; Wait until ready to transfer
    jc      SHORT ReturnWithTransferErrorInAH
    xchg    si, di                              ; ES:DI now points buffer

    mov     cx, [bp+PIOVARS.wSectorsInBlock]    ; Max 128

ALIGN JUMP_ALIGN
.ReadNextBlockFromDrive:
    mov     dx, [bp+PIOVARS.wDataPort]
    cmp     [bp+PIOVARS.bSectorsLeft], cl
    jbe     SHORT .ReadLastBlockFromDrive
    call    [bp+PIOVARS.fnXfer]

    ; Wait until ready for next block and check for errors
    xchg    di, si                              ; DS:DI now points DPT
    call    IdeWait_IRQorDRQ                    ; Wait until ready to transfer
    jc      SHORT ReturnWithTransferErrorInAH
    xchg    si, di                              ; ES:DI now points buffer

    ; Increment number of successfully read sectors
    mov     cx, [bp+PIOVARS.wSectorsInBlock]
    sub     [bp+PIOVARS.bSectorsLeft], cl
    add     [bp+PIOVARS.bSectorsDone], cl
    jmp     SHORT .ReadNextBlockFromDrive

ALIGN JUMP_ALIGN
.ReadLastBlockFromDrive:
    mov     cl, [bp+PIOVARS.bSectorsLeft]       ; CH is already zero
    push    cx
    call    [bp+PIOVARS.fnXfer]                 ; Transfer possibly partial block

    ; Check for errors in last block
    mov     di, si                              ; DS:DI now points DPT
CheckErrorsAfterTransferringLastBlock:
    mov     bx, TIMEOUT_AND_STATUS_TO_WAIT(TIMEOUT_DRQ, FLG_STATUS_BSY)
    call    IdeWait_PollStatusFlagInBLwithTimeoutInBH
    pop     cx  ; [bp+PIOVARS.bSectorsLeft]
    jc      SHORT ReturnWithTransferErrorInAH

    ; All sectors successfully transferred
    add     cx, [bp+PIOVARS.bSectorsDone]       ; Never sets CF
    ret

    ; Return number of successfully read sectors
ReturnWithTransferErrorInAH:
%ifdef USE_386
    movzx   cx, [bp+PIOVARS.bSectorsDone]
%else
    mov     cl, [bp+PIOVARS.bSectorsDone]
    mov     ch, 0                               ; Preserve CF
%endif
    ret


;--------------------------------------------------------------------
; WriteToDrive
;   Parameters:
;       AH:     Number of sectors to transfer (1...128)
;       DS:DI:  Ptr to DPT (in RAMVARS segment)
;       ES:SI:  Normalized ptr to buffer containing data
;       SS:BP:  Ptr to PIOVARS
;   Returns:
;       AH:     BIOS Error code
;       CX:     Number of successfully transferred sectors
;       CF:     0 if transfer successful
;               1 if any error
;   Corrupts registers:
;       AL, BX, DX, SI, ES
;--------------------------------------------------------------------
ALIGN JUMP_ALIGN
WriteToDrive:
    ; Prepare to write data from ESSI
    mov     bx, g_rgfnPioWrite
    call    InitializePiovarsInSSBPwithSectorCountInAH

    ; Always poll when writing first block (IRQs are generated for following blocks)
    mov     bx, TIMEOUT_AND_STATUS_TO_WAIT(TIMEOUT_DRQ, FLG_STATUS_DRQ)
    call    IdeWait_PollStatusFlagInBLwithTimeoutInBH
    jc      SHORT ReturnWithTransferErrorInAH

    mov     cx, [bp+PIOVARS.wSectorsInBlock]    ; Max 128

ALIGN JUMP_ALIGN
.WriteNextBlockToDrive:
    mov     dx, [bp+PIOVARS.wDataPort]
    cmp     [bp+PIOVARS.bSectorsLeft], cl
    jbe     SHORT .WriteLastBlockToDrive
    call    [bp+PIOVARS.fnXfer]

    ; Wait until ready for next block and check for errors
    call    IdeWait_IRQorDRQ                    ; Wait until ready to transfer
    jc      SHORT ReturnWithTransferErrorInAH

    ; Increment number of successfully written sectors
    mov     cx, [bp+PIOVARS.wSectorsInBlock]
    sub     [bp+PIOVARS.bSectorsLeft], cl
    add     [bp+PIOVARS.bSectorsDone], cl
    jmp     SHORT .WriteNextBlockToDrive

ALIGN JUMP_ALIGN
.WriteLastBlockToDrive:
    mov     cl, [bp+PIOVARS.bSectorsLeft]       ; CH is already zero
    push    cx
%ifdef USE_186
    push    CheckErrorsAfterTransferringLastBlock
    jmp     [bp+PIOVARS.fnXfer]                 ; Transfer possibly partial block
%else
    call    [bp+PIOVARS.fnXfer]                 ; Transfer possibly partial block
    jmp     SHORT CheckErrorsAfterTransferringLastBlock
%endif


;--------------------------------------------------------------------
; InitializePiovarsInSSBPwithSectorCountInAH
;   Parameters:
;       AH:     Number of sectors to transfer (1...128)
;       BX:     Offset to transfer function lookup table
;       DS:DI:  Ptr to DPT (in RAMVARS segment)
;       SS:BP:  Ptr to PIOVARS
;   Returns:
;       Nothing
;   Corrupts registers:
;       AX, BX, DX
;--------------------------------------------------------------------
ALIGN JUMP_ALIGN
InitializePiovarsInSSBPwithSectorCountInAH:
    ; Store sizes
    mov     [bp+PIOVARS.bSectorsLeft], ah
    eMOVZX  ax, [di+DPT_ATA.bBlockSize]
    mov     [bp+PIOVARS.wSectorsInBlock], ax
    mov     [bp+PIOVARS.bSectorsDone], ah       ; Zero

    ; Get transfer function based on bus type
    xchg    ax, bx                              ; Lookup table offset to AX
    mov     bl, [di+DPT.bIdevarsOffset]         ; CS:BX now points to IDEVARS
    mov     dx, [cs:bx+IDEVARS.wPort]           ; Load IDE Data port address
    mov     bl, [di+DPT_ATA.bDevice]
    add     bx, ax

    mov     [bp+PIOVARS.wDataPort], dx
    mov     ax, [cs:bx]                         ; Load offset to transfer function
    mov     [bp+PIOVARS.fnXfer], ax
    ret


;--------------------------------------------------------------------
; ReadBlockFromXtideRev1        XTIDE rev 1
; ReadBlockFromXtideRev2        XTIDE rev 2 or rev 1 with swapped A0 and A3 (chuck-mod)
; ReadBlockFrom8bitDataPort     CF-XT when using 8-bit PIO
; ReadBlockFrom16bitDataPort    Normal 16-bit IDE
; ReadBlockFrom32bitDataPort    VLB/PCI 32-bit IDE
;   Parameters:
;       CX:     Block size in 512 byte sectors
;       DX:     IDE Data port address
;       ES:DI:  Normalized ptr to buffer to receive data
;   Returns:
;       Nothing
;   Corrupts registers:
;       AX, BX, CX
;--------------------------------------------------------------------
%ifdef MODULE_8BIT_IDE

    ALIGN JUMP_ALIGN
    ReadBlockFromXtideRev1:
        UNROLL_SECTORS_IN_CX_TO_OWORDS
        mov     bl, 8       ; Bit mask for toggling data low/high reg
    ALIGN JUMP_ALIGN
    .InswLoop:
    %rep 8  ; WORDs
        XTIDE_INSW
    %endrep
        loop    .InswLoop
        ret

    ;--------------------------------------------------------------------
    %ifndef USE_186         ; 8086/8088 compatible WORD read
        ALIGN JUMP_ALIGN
        ReadBlockFromXtideRev2:
            UNROLL_SECTORS_IN_CX_TO_OWORDS
        ALIGN JUMP_ALIGN
        .ReadNextOword:
        %rep 8  ; WORDs
            in      ax, dx      ; Read WORD
            stosw               ; Store WORD to [ES:DI]
        %endrep
            loop    .ReadNextOword
            ret
    %endif

    ;--------------------------------------------------------------------
    %ifdef USE_186
        ALIGN JUMP_ALIGN
        ReadBlockFrom8bitDataPort:
            shl     cx, 9       ; Sectors to BYTEs
            rep insb
            ret

    %else ; If 8088/8086
        ALIGN JUMP_ALIGN
        ReadBlockFrom8bitDataPort:
            UNROLL_SECTORS_IN_CX_TO_OWORDS
        ALIGN JUMP_ALIGN
        .ReadNextOword:
        %rep 16 ; BYTEs
            in      al, dx      ; Read BYTE
            stosb               ; Store BYTE to [ES:DI]
        %endrep
            loop    .ReadNextOword
            ret
    %endif
%endif  ; MODULE_8BIT_IDE

;--------------------------------------------------------------------
%ifdef USE_186
    ALIGN JUMP_ALIGN
    ReadBlockFrom16bitDataPort:
        xchg    cl, ch      ; Sectors to WORDs
        rep insw
        ret
%endif

;--------------------------------------------------------------------
%ifdef USE_AT
    ALIGN JUMP_ALIGN
    ReadBlockFrom32bitDataPort:
        shl     cx, 7       ; Sectors to DWORDs
        rep
        db      66h         ; Override operand size to 32-bit
        db      6Dh         ; INSW/INSD
        ret
%endif


;--------------------------------------------------------------------
; WriteBlockToXtideRev1         XTIDE rev 1
; WriteBlockToXtideRev2         XTIDE rev 2 or rev 1 with swapped A0 and A3 (chuck-mod)
; WriteBlockTo8bitDataPort      XT-CF when using 8-bit PIO
; WriteBlockTo16bitDataPort     Normal 16-bit IDE
; WriteBlockTo32bitDataPort     VLB/PCI 32-bit IDE
;   Parameters:
;       CX:     Block size in 512-byte sectors
;       DX:     IDE Data port address
;       ES:SI:  Normalized ptr to buffer containing data
;   Returns:
;       Nothing
;   Corrupts registers:
;       AX, BX, CX, DX
;--------------------------------------------------------------------
%ifdef MODULE_8BIT_IDE

    ALIGN JUMP_ALIGN
    WriteBlockToXtideRev1:
        push    ds
        UNROLL_SECTORS_IN_CX_TO_QWORDS
        mov     bl, 8       ; Bit mask for toggling data low/high reg
        push    es          ; Copy ES...
        pop     ds          ; ...to DS
    ALIGN JUMP_ALIGN
    .OutswLoop:
    %rep 4  ; WORDs
        XTIDE_OUTSW
    %endrep
        loop    .OutswLoop
        pop     ds
        ret

    ;--------------------------------------------------------------------
    ALIGN JUMP_ALIGN
    WriteBlockToXtideRev2:
        UNROLL_SECTORS_IN_CX_TO_QWORDS
        push    ds
        push    es          ; Copy ES...
        pop     ds          ; ...to DS
    ALIGN JUMP_ALIGN
    .WriteNextQword:
    %rep 4  ; WORDs
        XTIDE_MOD_OUTSW
    %endrep
        loop    .WriteNextQword
        pop     ds
        ret

    ;--------------------------------------------------------------------
    %ifdef USE_186
        ALIGN JUMP_ALIGN
        WriteBlockTo8bitDataPort:
            shl     cx, 9       ; Sectors to BYTEs
            es                  ; Source is ES segment
            rep outsb
            ret

    %else ; If 8088/8086
        ALIGN JUMP_ALIGN
        WriteBlockTo8bitDataPort:
            UNROLL_SECTORS_IN_CX_TO_DWORDS
            push    ds
            push    es
            pop     ds
        ALIGN JUMP_ALIGN
        .WriteNextDword:
        %rep 4  ; BYTEs
            lodsb               ; Load BYTE from [DS:SI]
            out     dx, al      ; Write BYTE
        %endrep
            loop    .WriteNextDword
            pop     ds
            ret
    %endif
%endif  ; MODULE_8BIT_IDE

;--------------------------------------------------------------------
%ifdef USE_AT
ALIGN JUMP_ALIGN
WriteBlockTo16bitDataPort:
    xchg    cl, ch      ; Sectors to WORDs
    es                  ; Source is ES segment
    rep outsw
    ret

;--------------------------------------------------------------------
ALIGN JUMP_ALIGN
WriteBlockTo32bitDataPort:
    shl     cx, 7       ; Sectors to DWORDs
    es                  ; Source is ES segment
    rep
    db      66h         ; Override operand size to 32-bit
    db      6Fh         ; OUTSW/OUTSD
    ret
%endif ; USE_AT



; Lookup tables to get transfer function based on bus type
ALIGN WORD_ALIGN
g_rgfnPioRead:
%ifdef MODULE_8BIT_IDE
        dw      0                           ; 0, DEVICE_8BIT_JRIDE_ISA
        dw      ReadBlockFrom8bitDataPort   ; 1, DEVICE_8BIT_XTCF
    %ifdef USE_186
        dw      ReadBlockFrom16bitDataPort  ; 2, DEVICE_8BIT_XTIDE_REV2
    %else
        dw      ReadBlockFromXtideRev2      ; 2, DEVICE_8BIT_XTIDE_REV2
    %endif
        dw      ReadBlockFromXtideRev1      ; 3, DEVICE_XTIDE_REV1

%else
        times   COUNT_OF_8BIT_IDE_DEVICES   dw  0
%endif
%ifdef USE_AT
        dw      ReadBlockFrom16bitDataPort  ; 4, DEVICE_16BIT_ATA
        dw      ReadBlockFrom32bitDataPort  ; 5, DEVICE_32BIT_ATA
%endif


g_rgfnPioWrite:
%ifdef MODULE_8BIT_IDE
        dw      0                           ; 0, DEVICE_8BIT_JRIDE_ISA
        dw      WriteBlockTo8bitDataPort    ; 1, DEVICE_8BIT_XTCF
        dw      WriteBlockToXtideRev2       ; 2, DEVICE_XTIDE_REV2
        dw      WriteBlockToXtideRev1       ; 3, DEVICE_XTIDE_REV1

%else
        times   COUNT_OF_8BIT_IDE_DEVICES   dw  0
%endif
%ifdef USE_AT
        dw      WriteBlockTo16bitDataPort   ; 4, DEVICE_16BIT_ATA
        dw      WriteBlockTo32bitDataPort   ; 5, DEVICE_32BIT_ATA
%endif