[150] | 1 | ; Project name : XTIDE Universal BIOS
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| 2 | ; Description : Serial Device Command functions.
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| 3 |
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| 4 | ; Section containing code
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| 5 | SECTION .text
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| 6 |
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[179] | 7 | ;--------------- UART Equates -----------------------------
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| 8 | ;
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| 9 | ; Serial Programming References:
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| 10 | ; http://en.wikibooks.org/wiki/Serial_Programming
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| 11 | ;
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[181] | 12 |
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[179] | 13 | SerialCommand_UART_base EQU 0
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| 14 | SerialCommand_UART_transmitByte EQU 0
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| 15 | SerialCommand_UART_receiveByte EQU 0
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[216] | 16 |
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| 17 | ;
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[181] | 18 | ; Values for UART_divisorLow:
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[233] | 19 | ; 60h = 1200, 30h = 2400, 18h = 4800, 0ch = 9600, 6 = 19200, 4 = 28800, 3 = 38400, 2 = 57600, 1 = 115200
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[216] | 20 | ;
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| 21 | SerialCommand_UART_divisorLow EQU 0
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[179] | 22 |
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[216] | 23 | ;
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| 24 | ; UART_divisorHigh is zero for all speeds including and above 1200 baud (which is all we do)
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| 25 | ;
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[179] | 26 | SerialCommand_UART_divisorHigh EQU 1
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| 27 |
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| 28 | SerialCommand_UART_interruptIdent EQU 2
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| 29 | SerialCommand_UART_FIFOControl EQU 2
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| 30 |
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| 31 | SerialCommand_UART_lineControl EQU 3
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[181] | 32 |
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[179] | 33 | SerialCommand_UART_modemControl EQU 4
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| 34 |
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| 35 | SerialCommand_UART_lineStatus EQU 5
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| 36 |
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| 37 | SerialCommand_UART_modemStatus EQU 6
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| 38 |
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| 39 | SerialCommand_UART_scratch EQU 7
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| 40 |
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| 41 | SerialCommand_Protocol_Write EQU 3
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| 42 | SerialCommand_Protocol_Read EQU 2
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| 43 | SerialCommand_Protocol_Inquire EQU 0
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| 44 | SerialCommand_Protocol_Header EQU 0a0h
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[181] | 45 |
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[150] | 46 | ;--------------------------------------------------------------------
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[179] | 47 | ; SerialCommand_OutputWithParameters
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[150] | 48 | ; Parameters:
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[179] | 49 | ; BH: Non-zero if 48-bit addressing used
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| 50 | ; (ignored at present as 48-bit addressing is not supported)
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| 51 | ; BL: IDE Status Register bit to poll after command
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| 52 | ; (ignored at present, since there is no IDE status register to poll)
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| 53 | ; ES:SI: Ptr to buffer (for data transfer commands)
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| 54 | ; DS:DI: Ptr to DPT (in RAMVARS segment)
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| 55 | ; SS:BP: Ptr to IDEREGS_AND_INTPACK
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[150] | 56 | ; Returns:
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| 57 | ; AH: INT 13h Error Code
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[258] | 58 | ; CX: Number of successfully transferred sectors (for transfer commands)
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[150] | 59 | ; CF: Cleared if success, Set if error
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| 60 | ; Corrupts registers:
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[179] | 61 | ; AL, BX, CX, DX, (ES:SI for data transfer commands)
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[150] | 62 | ;--------------------------------------------------------------------
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| 63 | ALIGN JUMP_ALIGN
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[179] | 64 | SerialCommand_OutputWithParameters:
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[181] | 65 |
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[179] | 66 | mov ah,(SerialCommand_Protocol_Header | SerialCommand_Protocol_Read)
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[181] | 67 |
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[179] | 68 | mov al,[bp+IDEPACK.bCommand]
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[150] | 69 |
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[179] | 70 | cmp al,20h ; Read Sectors IDE command
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| 71 | jz .readOrWrite
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| 72 | inc ah ; now SerialCommand_Protocol_Write
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| 73 | cmp al,30h ; Write Sectors IDE command
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| 74 | jz .readOrWrite
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[181] | 75 |
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[179] | 76 | ; all other commands return success
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| 77 | ; including function 0ech which should return drive information, this is handled with the identify functions
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[216] | 78 | ;
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[179] | 79 | xor ah,ah ; also clears carry
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| 80 | ret
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[181] | 81 |
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| 82 | .readOrWrite:
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[179] | 83 | mov [bp+IDEPACK.bFeatures],ah ; store protocol command
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[181] | 84 |
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[233] | 85 | mov dx, [di+DPT_SERIAL.wSerialPortAndBaud]
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[181] | 86 |
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[179] | 87 | ; fall-through
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[150] | 88 |
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| 89 | ;--------------------------------------------------------------------
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[233] | 90 | ; SerialCommand_OutputWithParameters_DeviceInDX
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[150] | 91 | ; Parameters:
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[181] | 92 | ; AH: Protocol Command
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[233] | 93 | ; DX: Packed I/O port and baud rate
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[150] | 94 | ; ES:SI: Ptr to buffer (for data transfer commands)
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| 95 | ; SS:BP: Ptr to IDEREGS_AND_INTPACK
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| 96 | ; Returns:
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| 97 | ; AH: INT 13h Error Code
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| 98 | ; CF: Cleared if success, Set if error
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| 99 | ; Corrupts registers:
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| 100 | ; AL, BX, CX, DX, (ES:SI for data transfer commands)
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[181] | 101 | ;--------------------------------------------------------------------
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[233] | 102 | SerialCommand_OutputWithParameters_DeviceInDX:
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[181] | 103 |
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[179] | 104 | push si
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| 105 | push di
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| 106 | push bp
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| 107 |
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[181] | 108 | ;
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[179] | 109 | ; Unpack I/O port and baud from DPT
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[233] | 110 | ; Port to DX for the remainder of the routine (+/- different register offsets)
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[179] | 111 | ; Baud in CH until UART initialization is complete
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| 112 | ;
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[233] | 113 | mov ch,dh
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| 114 | xor dh,dh
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[242] | 115 | eSHL_IM dx, 2 ; shift from one byte to two
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| 116 |
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[179] | 117 | mov al,[bp+IDEPACK.bSectorCount]
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| 118 |
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| 119 | ;
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| 120 | ; Command byte and sector count live at the top of the stack, pop/push are used to access
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[181] | 121 | ;
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[179] | 122 | push ax
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| 123 |
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[216] | 124 | %if 0
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| 125 | cld ; Shouldn't be needed. DF has already been cleared (line 24, Int13h.asm)
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| 126 | %endif
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[181] | 127 |
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[179] | 128 | ;----------------------------------------------------------------------
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| 129 | ;
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| 130 | ; Initialize UART
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| 131 | ;
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[181] | 132 | ; We do this each time since DOS (at boot) or another program may have
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[179] | 133 | ; decided to reprogram the UART
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| 134 | ;
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[214] | 135 | mov bl,dl ; setup BL with proper values for read/write loops (BH comes later)
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[223] | 136 |
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[179] | 137 | mov al,83h
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| 138 | add dl,SerialCommand_UART_lineControl
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| 139 | out dx,al
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| 140 |
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| 141 | mov al,ch
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[214] | 142 | mov dl,bl ; divisor low
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[179] | 143 | out dx,al
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| 144 |
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| 145 | xor ax,ax
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| 146 | inc dx ; divisor high
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| 147 | push dx
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| 148 | out dx,al
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| 149 |
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| 150 | mov al,047h
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| 151 | inc dx ; fifo
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[181] | 152 | out dx,al
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[179] | 153 |
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| 154 | mov al,03h
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| 155 | inc dx ; linecontrol
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| 156 | out dx,al
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| 157 |
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| 158 | mov al,0bh
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| 159 | inc dx ; modemcontrol
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| 160 | out dx,al
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| 161 |
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[214] | 162 | inc dx ; linestatus (no output now, just setting up BH for later use)
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| 163 | mov bh,dl
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| 164 |
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[179] | 165 | pop dx ; base, interrupts disabled
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| 166 | xor ax,ax
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| 167 | out dx,al
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| 168 |
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| 169 | ;----------------------------------------------------------------------
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| 170 | ;
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| 171 | ; Send Command
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| 172 | ;
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| 173 | ; Sends first six bytes of IDEREGS_AND_INTPACK as the command
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| 174 | ;
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| 175 | push es ; save off real buffer location
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[214] | 176 | push si
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[181] | 177 |
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[214] | 178 | mov si,bp ; point to IDEREGS for command dispatch;
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[179] | 179 | push ss
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| 180 | pop es
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| 181 |
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[214] | 182 | mov di,0ffffh ; initialize checksum for write
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| 183 | mov bp,di
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[179] | 184 |
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[214] | 185 | mov cx,4 ; writing 3 words (plus 1)
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[181] | 186 |
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[223] | 187 | cli ; interrupts off...
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[179] | 188 |
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[214] | 189 | call SerialCommand_WriteProtocol.entry
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| 190 |
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| 191 | pop di ; restore real buffer location (note change from SI to DI)
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| 192 | ; Buffer is primarily referenced through ES:DI throughout, since
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| 193 | ; we need to store (read sector) faster than we read (write sector)
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[179] | 194 | pop es
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| 195 |
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[220] | 196 | %if 0
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| 197 | ;;; no longer needed, since the pointer is normalized before we are called and we do not support
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| 198 | ;;; more than 128 sectors (and for 128 specifically, the pointer must be segment aligned).
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| 199 | ;;; See comments below at the point this entry point was called for more details...
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[223] | 200 | .nextSectorNormalize:
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[220] | 201 | call Registers_NormalizeESDI
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| 202 | %endif
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[223] | 203 |
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[179] | 204 | pop ax ; load command byte (done before call to .nextSector on subsequent iterations)
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| 205 | push ax
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| 206 |
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| 207 | ;
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| 208 | ; Top of the read/write loop, one iteration per sector
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[181] | 209 | ;
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[179] | 210 | .nextSector:
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[214] | 211 | mov si,0ffffh ; initialize checksum for read or write
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[179] | 212 | mov bp,si
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| 213 |
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[214] | 214 | mov cx,0101h ; writing 256 words (plus 1)
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[181] | 215 |
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[179] | 216 | shr ah,1 ; command byte, are we doing a write?
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[214] | 217 | jnc .readEntry
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[181] | 218 |
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[214] | 219 | xchg si,di
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| 220 | call SerialCommand_WriteProtocol.entry
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| 221 | xchg si,di
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[179] | 222 |
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[214] | 223 | inc cx ; CX = 1 now (0 out of WriteProtocol)
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| 224 | jmp .readEntry
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[181] | 225 |
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[179] | 226 | ;----------------------------------------------------------------------
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| 227 | ;
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| 228 | ; Timeout
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| 229 | ;
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| 230 | ; To save code space, we use the contents of DL to decide which byte in the word to return for reading.
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| 231 | ;
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| 232 | .readTimeout:
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[214] | 233 | push ax ; not only does this push preserve AX (which we need), but it also
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[223] | 234 | ; means the stack has the same number of bytes on it as when we are
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[214] | 235 | ; sending a packet, important for error cleanup and exit
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| 236 | mov ah,1
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| 237 | call SerialCommand_WaitAndPoll_Read
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| 238 | pop ax
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[179] | 239 | test dl,1
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| 240 | jz .readByte1Ready
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[223] | 241 | jmp .readByte2Ready
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[179] | 242 |
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| 243 | ;----------------------------------------------------------------------------
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| 244 | ;
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| 245 | ; Read Block (without interrupts, used when there is a FIFO, high speed)
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| 246 | ;
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[181] | 247 | ; NOTE: This loop is very time sensitive. Literally, another instruction
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[179] | 248 | ; cannot be inserted into this loop without us falling behind at high
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[181] | 249 | ; speed (460.8K baud) on a 4.77Mhz 8088, making it hard to receive
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[179] | 250 | ; a full 512 byte block.
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| 251 | ;
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[181] | 252 | .readLoop:
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| 253 | stosw ; store word in caller's data buffer
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| 254 |
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[179] | 255 | add bp, ax ; update Fletcher's checksum
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| 256 | adc bp, 0
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| 257 | add si, bp
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| 258 | adc si, 0
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| 259 |
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[223] | 260 | .readEntry:
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[181] | 261 | mov dl,bh
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| 262 | in al,dx
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[179] | 263 | shr al,1 ; data ready (byte 1)?
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[181] | 264 | mov dl,bl ; get ready to read data
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[179] | 265 | jnc .readTimeout ; nope not ready, update timeouts
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[181] | 266 |
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| 267 | ;
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[179] | 268 | ; Entry point after initial timeout. We enter here so that the checksum word
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| 269 | ; is not stored (and is left in AX after the loop is complete).
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[181] | 270 | ;
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| 271 | .readByte1Ready:
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[179] | 272 | in al, dx ; read data byte 1
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| 273 |
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| 274 | mov ah, al ; store byte in ah for now
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[181] | 275 |
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[179] | 276 | ;
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[181] | 277 | ; note the placement of this reset of dl to bh, and that it is
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| 278 | ; before the return, which is assymetric with where this is done
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| 279 | ; above for byte 1. The value of dl is used by the timeout routine
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| 280 | ; to know which byte to return to (.read_byte1_ready or
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[179] | 281 | ; .read_byte2_ready)
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| 282 | ;
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[181] | 283 | mov dl,bh
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| 284 |
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[179] | 285 | in al,dx
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| 286 | shr al,1 ; data ready (byte 2)?
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| 287 | jnc .readTimeout
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[181] | 288 | .readByte2Ready:
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| 289 | mov dl,bl
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[179] | 290 | in al, dx ; read data byte 2
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| 291 |
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| 292 | xchg al, ah ; ah was holding byte 1, reverse byte order
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[181] | 293 |
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[179] | 294 | loop .readLoop
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| 295 |
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[214] | 296 | sti ; interrupts back on ASAP, between packets
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[181] | 297 |
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[179] | 298 | ;
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| 299 | ; Compare checksums
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[181] | 300 | ;
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[208] | 301 | xchg ax,bp
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| 302 | xor ah,al
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| 303 | mov cx,si
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| 304 | xor cl,ch
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| 305 | mov al,cl
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[179] | 306 | cmp ax,bp
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| 307 | jnz SerialCommand_OutputWithParameters_Error
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| 308 |
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| 309 | pop ax ; sector count and command byte
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[223] | 310 | dec al ; decrement sector count
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[179] | 311 | push ax ; save
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[258] | 312 | jz SerialCommand_OutputWithParameters_ReturnCodeInAL
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[181] | 313 |
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[179] | 314 | cli ; interrupts back off for ACK byte to host
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| 315 | ; (host could start sending data immediately)
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| 316 | out dx,al ; ACK with next sector number
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[181] | 317 |
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[220] | 318 | %if 0
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| 319 | ;;; This code is no longer needed as we do not support more than 128 sectors, and for 128 the pointer
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| 320 | ;;; must be segment aligned. If we ever do want to support more sectors, the code can help...
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[223] | 321 |
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[214] | 322 | ;
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[216] | 323 | ; Normalize buffer pointer for next go round, if needed.
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[214] | 324 | ;
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[223] | 325 | ; We need to re-normalize the pointer in ES:DI after processing every 7f sectors. That number could
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[216] | 326 | ; have been 80 if we knew the offset was on a segment boundary, but this may not be the case.
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| 327 | ;
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| 328 | ; We re-normalize based on the sector count (flags from "dec al" above)...
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| 329 | ; a) we normalize before the first sector goes out, immediately after sending the command packet (above)
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| 330 | ; b) on transitions from FF to FE, very rare case for writing 255 or 256 sectors
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| 331 | ; c) on transitions from 80 to 7F, a large read/write
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[223] | 332 | ; d) on transitions from 00 to FF, very, very rare case of writing 256 sectors
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| 333 | ; We don't need to renormalize in this case, but it isn't worth the memory/effort to not do
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[216] | 334 | ; the extra work, and it does no harm.
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| 335 | ;
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| 336 | ; I really don't care much about (d) because I have not seen cases where any OS makes a request
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| 337 | ; for more than 127 sectors. Back in the day, it appears that some BIOS could not support more than 127
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| 338 | ; sectors, so that may be the practical limit for OS and application developers. The Extended BIOS
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[223] | 339 | ; function also appear to be capped at 127 sectors. So although this can support the full 256 sectors
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[216] | 340 | ; if needed, we are optimized for that 1-127 range.
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| 341 | ;
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| 342 | ; Assume we start with 0000:000f, with 256 sectors to write...
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| 343 | ; After first packet, 0000:020f
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| 344 | ; First decrement of AL, transition from 00 to FF: renormalize to 0020:000f (unnecessary)
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| 345 | ; After second packet, 0020:020f
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| 346 | ; Second derement of AL, transition from FF to FE: renormalize to 0040:000f
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| 347 | ; After 7f more packets, 0040:fe0f
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| 348 | ; Decrement of AL, transition from 80 to 7F: renormalize to 1020:000f
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| 349 | ; After 7f more packets, 1020:fe0f or 2000:000f if normalized
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| 350 | ; Decrement of AL, from 1 to 0: exit
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| 351 | ;
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| 352 | jge short .nextSector ; OF=SF, branch for 1-7e, most common case
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| 353 | ; (0 kicked out above for return success)
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[179] | 354 |
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[216] | 355 | add al,2 ; 7f-ff moves to 81-01
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| 356 | ; (0-7e kicked out before we get here)
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| 357 | ; 7f moves to 81 and OF=1, so OF=SF
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[223] | 358 | ; fe moves to 0 and OF=0, SF=0, so OF=SF
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[216] | 359 | ; ff moves to 1 and OF=0, SF=0, so OF=SF
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| 360 | ; 80-fd moves to 82-ff and OF=0, so OF<>SF
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| 361 |
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| 362 | jl short .nextSector ; OF<>SF, branch for all cases but 7f, fe, and ff
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| 363 |
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[220] | 364 | ; jpo short .nextSector ; if we really wanted to avoid normalizing for ff, this
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[216] | 365 | ; is one way to do it, but it adds more memory and more
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| 366 | ; cycles for the 7f and fe cases. IMHO, given that I've
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| 367 | ; never seen a request for more than 7f, this seems unnecessary.
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| 368 |
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| 369 | jmp short .nextSectorNormalize ; our two renormalization cases (plus one for ff)
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| 370 |
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[220] | 371 | %else
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[223] | 372 |
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| 373 | jmp short .nextSector
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| 374 |
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[220] | 375 | %endif
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| 376 |
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[179] | 377 | ;---------------------------------------------------------------------------
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| 378 | ;
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| 379 | ; Cleanup, error reporting, and exit
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| 380 | ;
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[181] | 381 |
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| 382 | ;
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[179] | 383 | ; Used in situations where a call is underway, such as with SerialCommand_WaitAndPoll
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[181] | 384 | ;
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[214] | 385 | ALIGN JUMP_ALIGN
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| 386 | SerialCommand_OutputWithParameters_ErrorAndPop4Words:
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| 387 | add sp,8
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[216] | 388 | ;;; fall-through
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[179] | 389 |
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[214] | 390 | ALIGN JUMP_ALIGN
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[181] | 391 | SerialCommand_OutputWithParameters_Error:
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[216] | 392 | ;----------------------------------------------------------------------
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| 393 | ;
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| 394 | ; Clear read buffer
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| 395 | ;
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| 396 | ; In case there are extra characters or an error in the FIFO, clear it out.
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| 397 | ; In theory the initialization of the UART registers above should have
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| 398 | ; taken care of this, but I have seen cases where this is not true.
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| 399 | ;
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[233] | 400 | xor cx,cx ; timeout this clearing routine, in case the UART isn't there
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[216] | 401 | .clearBuffer:
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| 402 | mov dl,bh
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| 403 | in al,dx
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| 404 | mov dl,bl
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| 405 | test al,08fh
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| 406 | jz .clearBufferComplete
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[233] | 407 | test al,1
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[216] | 408 | in al,dx
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[233] | 409 | loopnz .clearBuffer ; note ZF from test above
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[216] | 410 |
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[223] | 411 | .clearBufferComplete:
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[258] | 412 | mov al, 3 ; error return code and CF (low order bit)
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[179] | 413 |
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[214] | 414 | ALIGN JUMP_ALIGN
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[258] | 415 | SerialCommand_OutputWithParameters_ReturnCodeInAL:
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[216] | 416 | %if 0
|
---|
| 417 | sti ; all paths here will already have interrupts turned back on
|
---|
| 418 | %endif
|
---|
[258] | 419 | mov ah, al ; for success, AL will already be zero
|
---|
[179] | 420 |
|
---|
[258] | 421 | pop bx ; recover "ax" (command and count) from stack
|
---|
[179] | 422 |
|
---|
| 423 | pop bp
|
---|
| 424 | pop di
|
---|
| 425 | pop si
|
---|
| 426 |
|
---|
[258] | 427 | mov ch, 0
|
---|
| 428 | mov cl,[bp+IDEPACK.bSectorCount]
|
---|
| 429 | sub cl, bl ; subtract off the number of sectors that remained
|
---|
| 430 |
|
---|
| 431 | shr ah, 1 ; shift down return code and CF
|
---|
| 432 |
|
---|
[179] | 433 | ret
|
---|
| 434 |
|
---|
[150] | 435 | ;--------------------------------------------------------------------
|
---|
[214] | 436 | ; SerialCommand_WriteProtocol
|
---|
[179] | 437 | ;
|
---|
[223] | 438 | ; NOTE: As with its read counterpart, this loop is very time sensitive.
|
---|
| 439 | ; Although it will still function, adding additional instructions will
|
---|
| 440 | ; impact the write throughput, especially on slower machines.
|
---|
[214] | 441 | ;
|
---|
[179] | 442 | ; Parameters:
|
---|
[214] | 443 | ; ES:SI: Ptr to buffer
|
---|
| 444 | ; CX: Words to write, plus 1
|
---|
| 445 | ; BP/DI: Initialized for Checksum (-1 in each)
|
---|
| 446 | ; DH: I/O Port high byte
|
---|
| 447 | ; BX: LineStatus Register address (BH) and Receive/Transmit Register address (BL)
|
---|
[179] | 448 | ; Returns:
|
---|
[214] | 449 | ; BP/DI: Checksum for written bytes, compared against ACK from server in .readLoop
|
---|
| 450 | ; CX: Zero
|
---|
| 451 | ; DL: Receive/Transmit Register address
|
---|
[181] | 452 | ; Corrupts registers:
|
---|
[214] | 453 | ; AX
|
---|
[179] | 454 | ;--------------------------------------------------------------------
|
---|
[214] | 455 | ALIGN JUMP_ALIGN
|
---|
| 456 | SerialCommand_WriteProtocol:
|
---|
| 457 | .writeLoop:
|
---|
| 458 | es lodsw ; fetch next word
|
---|
[179] | 459 |
|
---|
[214] | 460 | out dx,al ; output first byte
|
---|
[179] | 461 |
|
---|
[214] | 462 | add bp,ax ; update checksum
|
---|
| 463 | adc bp,0
|
---|
| 464 | add di,bp
|
---|
| 465 | adc di,0
|
---|
[181] | 466 |
|
---|
[214] | 467 | mov dl,bh ; transmit buffer empty?
|
---|
[179] | 468 | in al,dx
|
---|
[214] | 469 | test al,20h
|
---|
| 470 | jz .writeTimeout2 ; nope, use our polling routine
|
---|
[181] | 471 |
|
---|
[214] | 472 | .writeByte2Ready:
|
---|
| 473 | mov dl,bl
|
---|
| 474 | mov al,ah ; output second byte
|
---|
| 475 | out dx,al
|
---|
| 476 |
|
---|
| 477 | .entry:
|
---|
| 478 | mov dl,bh ; transmit buffer empty?
|
---|
| 479 | in al,dx
|
---|
| 480 | test al,20h
|
---|
| 481 | mov dl,bl
|
---|
| 482 | jz .writeTimeout1 ; nope, use our polling routine
|
---|
| 483 |
|
---|
| 484 | .writeByte1Ready:
|
---|
| 485 | loop .writeLoop
|
---|
| 486 |
|
---|
| 487 | mov ax,di ; fold Fletcher's checksum and output
|
---|
| 488 | xor al,ah
|
---|
| 489 | out dx,al ; byte 1
|
---|
| 490 |
|
---|
| 491 | call SerialCommand_WaitAndPoll_Write
|
---|
| 492 |
|
---|
| 493 | mov ax,bp
|
---|
| 494 | xor al,ah
|
---|
| 495 | out dx,al ; byte 2
|
---|
| 496 |
|
---|
[179] | 497 | ret
|
---|
| 498 |
|
---|
[214] | 499 | .writeTimeout2:
|
---|
| 500 | mov dl,ah ; need to preserve AH, but don't need DL (will be reset upon return)
|
---|
| 501 | call SerialCommand_WaitAndPoll_Write
|
---|
| 502 | mov ah,dl
|
---|
| 503 | jmp .writeByte2Ready
|
---|
[223] | 504 |
|
---|
[214] | 505 | .writeTimeout1:
|
---|
[223] | 506 | %ifndef USE_186
|
---|
[214] | 507 | mov ax,.writeByte1Ready
|
---|
| 508 | push ax ; return address for ret at end of SC_writeTimeout2
|
---|
[223] | 509 | %else
|
---|
| 510 | push .writeByte1Ready
|
---|
| 511 | %endif
|
---|
[214] | 512 | ;;; fall-through
|
---|
| 513 |
|
---|
[179] | 514 | ;--------------------------------------------------------------------
|
---|
[214] | 515 | ; SerialCommand_WaitAndPoll
|
---|
[179] | 516 | ;
|
---|
| 517 | ; Parameters:
|
---|
[214] | 518 | ; AH: UART_LineStatus bit to test (20h for write, or 1h for read)
|
---|
| 519 | ; One entry point fills in AH with 20h for write
|
---|
| 520 | ; DX: Port address (OK if already incremented to UART_lineStatus)
|
---|
[223] | 521 | ; BX:
|
---|
[214] | 522 | ; Stack: 2 words on the stack below the command/count word
|
---|
[179] | 523 | ; Returns:
|
---|
[214] | 524 | ; Returns when desired UART_LineStatus bit is cleared
|
---|
| 525 | ; Jumps directly to error exit if timeout elapses (and cleans up stack)
|
---|
[179] | 526 | ; Corrupts registers:
|
---|
[214] | 527 | ; AX
|
---|
[179] | 528 | ;--------------------------------------------------------------------
|
---|
[181] | 529 |
|
---|
[214] | 530 | SerialCommand_WaitAndPoll_SoftDelayTicks EQU 20
|
---|
[181] | 531 |
|
---|
[214] | 532 | ALIGN JUMP_ALIGN
|
---|
| 533 | SerialCommand_WaitAndPoll_Write:
|
---|
| 534 | mov ah,20h
|
---|
| 535 | ;;; fall-through
|
---|
[181] | 536 |
|
---|
[214] | 537 | ALIGN JUMP_ALIGN
|
---|
| 538 | SerialCommand_WaitAndPoll_Read:
|
---|
| 539 | push cx
|
---|
| 540 | push dx
|
---|
[150] | 541 |
|
---|
[214] | 542 | ;
|
---|
| 543 | ; We first poll in a tight loop, interrupts off, for the next character to come in/be sent
|
---|
| 544 | ;
|
---|
| 545 | xor cx,cx
|
---|
| 546 | .readTimeoutLoop:
|
---|
[223] | 547 | mov dl,bh
|
---|
[214] | 548 | in al,dx
|
---|
| 549 | test al,ah
|
---|
| 550 | jnz .readTimeoutComplete
|
---|
| 551 | loop .readTimeoutLoop
|
---|
[181] | 552 |
|
---|
[214] | 553 | ;
|
---|
| 554 | ; If that loop completes, then we assume there is a long delay involved, turn interrupts back on
|
---|
| 555 | ; and wait for a given number of timer ticks to pass.
|
---|
| 556 | ;
|
---|
| 557 | sti
|
---|
| 558 | mov cl,SerialCommand_WaitAndPoll_SoftDelayTicks
|
---|
| 559 | call Timer_InitializeTimeoutWithTicksInCL
|
---|
| 560 | .WaitAndPoll:
|
---|
| 561 | call Timer_SetCFifTimeout
|
---|
| 562 | jc SerialCommand_OutputWithParameters_ErrorAndPop4Words
|
---|
| 563 | in al,dx
|
---|
| 564 | test al,ah
|
---|
| 565 | jz .WaitAndPoll
|
---|
| 566 | cli
|
---|
[150] | 567 |
|
---|
[214] | 568 | .readTimeoutComplete:
|
---|
| 569 | pop dx
|
---|
| 570 | pop cx
|
---|
| 571 | ret
|
---|
[181] | 572 |
|
---|
[179] | 573 | ;--------------------------------------------------------------------
|
---|
| 574 | ; SerialCommand_IdentifyDeviceToBufferInESSIwithDriveSelectByteInBH
|
---|
| 575 | ; Parameters:
|
---|
| 576 | ; BH: Drive Select byte for Drive and Head Select Register
|
---|
| 577 | ; DS: Segment to RAMVARS
|
---|
| 578 | ; ES:SI: Ptr to buffer to receive 512-byte IDE Information
|
---|
| 579 | ; CS:BP: Ptr to IDEVARS
|
---|
| 580 | ; Returns:
|
---|
| 581 | ; AH: INT 13h Error Code
|
---|
[223] | 582 | ; NOTE: Not set (or checked) during drive detection
|
---|
[179] | 583 | ; CF: Cleared if success, Set if error
|
---|
| 584 | ; Corrupts registers:
|
---|
| 585 | ; AL, BL, CX, DX, SI, DI, ES
|
---|
| 586 | ;--------------------------------------------------------------------
|
---|
| 587 | ALIGN JUMP_ALIGN
|
---|
| 588 | SerialCommand_IdentifyDeviceToBufferInESSIwithDriveSelectByteInBH:
|
---|
[203] | 589 | ;
|
---|
[223] | 590 | ; To improve boot time, we do our best to avoid looking for slave serial drives when we already know the results
|
---|
| 591 | ; from the looking for a master. This is particularly true when doing a COM port scan, as we will end up running
|
---|
| 592 | ; through all the COM ports and baud rates a second time.
|
---|
[203] | 593 | ;
|
---|
[223] | 594 | ; But drive detection isn't the only case - we also need to get the right drive when called on int13h/25h.
|
---|
[203] | 595 | ;
|
---|
| 596 | ; The decision tree:
|
---|
| 597 | ;
|
---|
| 598 | ; Master:
|
---|
[234] | 599 | ; wSerialPortAndBaud Non-Zero: -> Continue with wSerialPortAndBaud (1)
|
---|
| 600 | ; wSerialPortAndBaud Zero:
|
---|
| 601 | ; previous serial drive not found: -> Scan (2)
|
---|
| 602 | ; previous serial drive found: -> Continue with previous serial drive info (3)
|
---|
[223] | 603 | ;
|
---|
[203] | 604 | ; Slave:
|
---|
[234] | 605 | ; wSerialPortAndBaud Non-Zero:
|
---|
| 606 | ; previous serial drive not found: -> Error - Not Found (4)
|
---|
[242] | 607 | ; previous serial drive found: -> Continue with wSerialPackedAndBaud (5)
|
---|
[234] | 608 | ; wSerialPortAndBaud Zero:
|
---|
| 609 | ; previous serial drive not found: -> Error - Not Found (4)
|
---|
| 610 | ; previous serial drive found: -> Continue with previous serial drive info (6)
|
---|
[203] | 611 | ;
|
---|
[223] | 612 | ; (1) This was a port/baud that was explicitly set with the configurator. In the drive detection case, as this
|
---|
[234] | 613 | ; is the Master, we are checking out a new controller, and so don't care if we already have a serial drive.
|
---|
[203] | 614 | ; And as with the int13h/25h case, we just go off and get the needed information using the user's setting.
|
---|
[223] | 615 | ; (2) We are using the special .ideVarsSerialAuto structure. During drive detection, we would only be here
|
---|
[242] | 616 | ; if we hadn't already seen a serial drive (since we only scan if no explicit drives are set),
|
---|
[234] | 617 | ; so we go off to scan.
|
---|
[223] | 618 | ; (3) We are using the special .ideVarsSerialAuto structure. We won't get here during drive detection, but
|
---|
[203] | 619 | ; we might get here on an int13h/25h call. If we have scanned COM drives, they are the ONLY serial drives
|
---|
[234] | 620 | ; in use, and so we use the values from the previously seen serial drive DPT.
|
---|
[223] | 621 | ; (4) No master has been found yet, therefore no slave should be found. Avoiding the slave reduces boot time,
|
---|
[203] | 622 | ; especially in the full COM port scan case. Note that this is different from the hardware IDE, where we
|
---|
| 623 | ; will scan for a slave even if a master is not present. Note that if ANY master had been previously found,
|
---|
[223] | 624 | ; we will do the slave scan, which isn't harmful, it just wastes time. But the most common case (by a wide
|
---|
[203] | 625 | ; margin) will be just one serial controller.
|
---|
| 626 | ; (5) A COM port scan for a master had been previously completed, and a drive was found. In a multiple serial
|
---|
[223] | 627 | ; controller scenario being called with int13h/25h, we need to use the value in bSerialPackedPortAndBaud
|
---|
[203] | 628 | ; to make sure we get the proper drive.
|
---|
[223] | 629 | ; (6) A COM port scan for a master had been previously completed, and a drive was found. We would only get here
|
---|
| 630 | ; if no serial drive was explicitly set by the user in the configurator or that drive had not been found.
|
---|
| 631 | ; Instead of performing the full COM port scan for the slave, use the port/baud value stored during the
|
---|
[203] | 632 | ; master scan.
|
---|
[223] | 633 | ;
|
---|
[233] | 634 | mov cx,1 ; 1 sector to move, 0 for non-scan
|
---|
| 635 | mov dx,[cs:bp+IDEVARS.wSerialPortAndBaud]
|
---|
| 636 | xor ax,ax
|
---|
| 637 | push si
|
---|
| 638 | call FindDPT_ToDSDIforSerialDevice
|
---|
| 639 | pop si
|
---|
[258] | 640 | %ifdef MODULE_SERIAL_FLOPPY
|
---|
[262] | 641 | jnc .founddpt
|
---|
[258] | 642 | ;
|
---|
| 643 | ; If not found above with FindDPT_ToDSDIforSerialDevice, DI will point to the DPT after the last hard disk DPT
|
---|
| 644 | ;
|
---|
| 645 | cmp byte [RAMVARS.xlateVars+XLATEVARS.bFlopCntAndFirst], 0
|
---|
| 646 | jz .notfounddpt
|
---|
| 647 | .founddpt:
|
---|
| 648 | %else
|
---|
[233] | 649 | jnc .notfounddpt
|
---|
[258] | 650 | %endif
|
---|
[242] | 651 | mov ax, [di+DPT_SERIAL.wSerialPortAndBaud]
|
---|
| 652 | .notfounddpt:
|
---|
[223] | 653 |
|
---|
[203] | 654 | test bh, FLG_DRVNHEAD_DRV
|
---|
| 655 | jz .master
|
---|
[179] | 656 |
|
---|
[233] | 657 | test ax,ax ; Take care of the case that is different between master and slave.
|
---|
[203] | 658 | jz .error ; Because we do this here, the jz after the "or" below will not be taken
|
---|
| 659 |
|
---|
| 660 | ; fall-through
|
---|
[223] | 661 | .master:
|
---|
[233] | 662 | test dx,dx
|
---|
| 663 | jnz .identifyDeviceInDX
|
---|
[179] | 664 |
|
---|
[242] | 665 | or dx,ax ; Since DX is zero, this effectively moves the previously found serial drive
|
---|
[234] | 666 | ; information to dx, as well as test for zero
|
---|
[203] | 667 | jz .scanSerial
|
---|
[223] | 668 |
|
---|
[179] | 669 | ; fall-through
|
---|
[233] | 670 | .identifyDeviceInDX:
|
---|
[179] | 671 |
|
---|
| 672 | push bp ; setup fake IDEREGS_AND_INTPACK
|
---|
| 673 |
|
---|
| 674 | push dx
|
---|
| 675 |
|
---|
| 676 | push cx
|
---|
| 677 |
|
---|
| 678 | mov bl,0a0h ; protocol command to ah and onto stack with bh
|
---|
| 679 | mov ah,bl
|
---|
[181] | 680 |
|
---|
[179] | 681 | push bx
|
---|
| 682 |
|
---|
| 683 | mov bp,sp
|
---|
[233] | 684 | call SerialCommand_OutputWithParameters_DeviceInDX
|
---|
[179] | 685 |
|
---|
| 686 | pop bx
|
---|
[181] | 687 |
|
---|
| 688 | pop cx
|
---|
[179] | 689 | pop dx
|
---|
[242] | 690 |
|
---|
[179] | 691 | pop bp
|
---|
[223] | 692 | ;
|
---|
[242] | 693 | ; place port and baud word in to the return sector, in a vendor specific area,
|
---|
[234] | 694 | ; which is read by FinalizeDPT and DetectDrives
|
---|
[203] | 695 | ;
|
---|
[258] | 696 | mov [es:si+ATA6.wSerialPortAndBaud],dx
|
---|
[179] | 697 |
|
---|
[223] | 698 | .notFound:
|
---|
[179] | 699 | ret
|
---|
| 700 |
|
---|
| 701 | ;----------------------------------------------------------------------
|
---|
| 702 | ;
|
---|
| 703 | ; SerialCommand_AutoSerial
|
---|
| 704 | ;
|
---|
| 705 | ; When the SerialAuto IDEVARS entry is used, scans the COM ports on the machine for a possible serial connection.
|
---|
[181] | 706 | ;
|
---|
| 707 |
|
---|
[203] | 708 | .scanPortAddresses: db DEVICE_SERIAL_COM7 >> 2
|
---|
| 709 | db DEVICE_SERIAL_COM6 >> 2
|
---|
| 710 | db DEVICE_SERIAL_COM5 >> 2
|
---|
| 711 | db DEVICE_SERIAL_COM4 >> 2
|
---|
| 712 | db DEVICE_SERIAL_COM3 >> 2
|
---|
| 713 | db DEVICE_SERIAL_COM2 >> 2
|
---|
| 714 | db DEVICE_SERIAL_COM1 >> 2
|
---|
| 715 | db 0
|
---|
[179] | 716 |
|
---|
[181] | 717 | ALIGN JUMP_ALIGN
|
---|
[203] | 718 | .scanSerial:
|
---|
| 719 | mov di,.scanPortAddresses-1
|
---|
[233] | 720 | mov ch,1 ; tell server that we are scanning
|
---|
[181] | 721 |
|
---|
[179] | 722 | .nextPort:
|
---|
| 723 | inc di ; load next port address
|
---|
[223] | 724 | xor dh, dh
|
---|
[179] | 725 | mov dl,[cs:di]
|
---|
[223] | 726 | eSHL_IM dx, 2 ; shift from one byte to two
|
---|
[203] | 727 | jz .error
|
---|
[179] | 728 |
|
---|
| 729 | ;
|
---|
| 730 | ; Test for COM port presence, write to and read from registers
|
---|
[181] | 731 | ;
|
---|
| 732 | push dx
|
---|
[179] | 733 | add dl,SerialCommand_UART_lineControl
|
---|
| 734 | mov al, 09ah
|
---|
| 735 | out dx, al
|
---|
| 736 | in al, dx
|
---|
| 737 | pop dx
|
---|
| 738 | cmp al, 09ah
|
---|
[181] | 739 | jnz .nextPort
|
---|
[179] | 740 |
|
---|
| 741 | mov al, 0ch
|
---|
| 742 | out dx, al
|
---|
| 743 | in al, dx
|
---|
| 744 | cmp al, 0ch
|
---|
| 745 | jnz .nextPort
|
---|
| 746 |
|
---|
| 747 | ;
|
---|
[233] | 748 | ; Begin baud rate scan on this port...
|
---|
[181] | 749 | ;
|
---|
[242] | 750 | ; On a scan, we support 6 baud rates, starting here and going higher by a factor of two each step, with a
|
---|
[233] | 751 | ; small jump between 9600 and 38800. These 6 were selected since we wanted to support 9600 baud and 115200,
|
---|
[242] | 752 | ; *on the server side* if the client side had a 4x clock multiplier, a 2x clock multiplier, or no clock multiplier.
|
---|
[179] | 753 | ;
|
---|
[233] | 754 | ; Starting with 30h, that means 30h (2400 baud), 18h (4800 baud), 0ch (9600 baud), and
|
---|
| 755 | ; 04h (28800 baud), 02h (57600 baud), 01h (115200 baud)
|
---|
[181] | 756 | ;
|
---|
[233] | 757 | ; Note: hardware baud multipliers (2x, 4x) will impact the final baud rate and are not known at this level
|
---|
| 758 | ;
|
---|
| 759 | mov dh,030h * 2 ; multiply by 2 since we are about to divide by 2
|
---|
| 760 | mov dl,[cs:di] ; restore single byte port address for scan
|
---|
| 761 |
|
---|
[181] | 762 | .nextBaud:
|
---|
[233] | 763 | shr dh,1
|
---|
[179] | 764 | jz .nextPort
|
---|
[242] | 765 | cmp dh,6 ; skip from 6 to 4, to move from the top of the 9600 baud range
|
---|
[233] | 766 | jnz .testBaud ; to the bottom of the 115200 baud range
|
---|
| 767 | mov dh,4
|
---|
[181] | 768 |
|
---|
[233] | 769 | .testBaud:
|
---|
| 770 | call .identifyDeviceInDX
|
---|
[179] | 771 | jc .nextBaud
|
---|
| 772 |
|
---|
| 773 | ret
|
---|
[181] | 774 |
|
---|
[223] | 775 | .error:
|
---|
[181] | 776 | stc
|
---|
[216] | 777 | %if 0
|
---|
| 778 | mov ah,1 ; setting the error code is unnecessary as this path can only be taken during
|
---|
| 779 | ; drive detection, and drive detection works off CF and does not check AH
|
---|
| 780 | %endif
|
---|
[203] | 781 | ret
|
---|
[179] | 782 |
|
---|
[203] | 783 |
|
---|