1 | ; Project name : Assembly Library
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2 | ; Description : Serial Server Support
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3 |
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4 | ;
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5 | ; XTIDE Universal BIOS and Associated Tools
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6 | ; Copyright (C) 2009-2010 by Tomi Tilli, 2011-2013 by XTIDE Universal BIOS Team.
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7 | ;
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8 | ; This program is free software; you can redistribute it and/or modify
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9 | ; it under the terms of the GNU General Public License as published by
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10 | ; the Free Software Foundation; either version 2 of the License, or
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11 | ; (at your option) any later version.
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12 | ;
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13 | ; This program is distributed in the hope that it will be useful,
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14 | ; but WITHOUT ANY WARRANTY; without even the implied warranty of
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15 | ; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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16 | ; GNU General Public License for more details.
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17 | ; Visit http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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18 | ;
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19 |
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20 |
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21 | %include "SerialServer.inc"
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22 |
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23 | ; Section containing code
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24 | SECTION .text
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25 |
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26 | ;--------------------------------------------------------------------
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27 | ; SerialServer_SendReceive:
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28 | ; Parameters:
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29 | ; DX: Packed I/O port and baud rate
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30 | ; ES:SI: Ptr to buffer (for data transfer commands)
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31 | ; SS:BP: Ptr to SerialServer_Command structure
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32 | ; Returns:
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33 | ; AH: INT 13h Error Code
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34 | ; CX: Number of 512-byte blocks transferred
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35 | ; CF: Cleared if success, Set if error
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36 | ; Corrupts registers:
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37 | ; AL, BX, CX, DX
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38 | ;--------------------------------------------------------------------
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39 | SerialServer_SendReceive:
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40 | push si
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41 | push di
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42 | push bp
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43 |
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44 | ;
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45 | ; Unpack I/O port and baud from DPT
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46 | ; Port to DX for the remainder of the routine (+/- different register offsets)
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47 | ; Baud in CH until UART initialization is complete
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48 | ;
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49 | mov ch, dh
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50 | xor dh, dh
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51 | eSHL_IM dx, 2 ; shift from one byte to two
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52 |
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53 | mov al, [bp+SerialServer_Command.bSectorCount]
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54 | mov ah, [bp+SerialServer_Command.bCommand]
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55 |
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56 | ;
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57 | ; Command byte and sector count live at the top of the stack, pop/push are used to access
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58 | ;
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59 | push ax ; save sector count for return value
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60 | push ax ; working copy on the top of the stack
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61 |
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62 | %ifndef EXCLUDE_FROM_XUB ; DF already cleared in Int13h.asm
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63 | %ifdef CLD_NEEDED
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64 | cld
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65 | %endif
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66 | %endif
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67 |
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68 | ;----------------------------------------------------------------------
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69 | ;
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70 | ; Initialize UART
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71 | ;
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72 | ; We do this each time since DOS (at boot) or another program may have
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73 | ; decided to reprogram the UART
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74 | ;
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75 | mov bl, dl ; setup BL with proper values for read/write loops (BH comes later)
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76 | mov al, 83h
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77 | add dl, Serial_UART_lineControl ; Clears CF
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78 | out dx, al
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79 |
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80 | mov al, ch
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81 | mov dl, bl ; divisor low
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82 | out dx, al
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83 |
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84 | %ifdef USE_UNDOC_INTEL
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85 | salc ; Clear AL using CF
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86 | %else
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87 | xor al, al
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88 | %endif
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89 | inc dx ; divisor high
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90 | push dx
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91 | out dx, al
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92 |
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93 | mov al, 47h
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94 | inc dx ; fifo
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95 | out dx, al
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96 |
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97 | mov al, 03h
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98 | inc dx ; linecontrol
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99 | out dx, al
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100 |
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101 | mov al, 0Bh
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102 | inc dx ; modemcontrol
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103 | out dx, al
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104 |
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105 | inc dx ; linestatus (no output now, just setting up BH for later use)
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106 | mov bh, dl
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107 |
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108 | pop dx ; base, interrupts disabled
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109 | %ifdef USE_UNDOC_INTEL
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110 | salc ; Clear AL using CF
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111 | %else
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112 | xor al, al
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113 | %endif
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114 | out dx, al
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115 |
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116 | ;----------------------------------------------------------------------
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117 | ;
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118 | ; Send Command
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119 | ;
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120 | ; Sends first six bytes of IDEREGS_AND_INTPACK as the command
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121 | ;
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122 | push es ; save off real buffer location
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123 | push si
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124 |
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125 | mov si, bp ; point to IDEREGS for command dispatch;
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126 | push ss
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127 | pop es
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128 |
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129 | mov di, 0FFFFh ; initialize checksum for write
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130 | mov bp, di
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131 |
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132 | mov cx, 4 ; writing 3 words (plus 1)
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133 |
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134 | cli ; interrupts off...
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135 |
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136 | call SerialServer_WriteProtocol.entry
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137 |
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138 | pop di ; restore real buffer location (note change from SI to DI)
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139 | ; Buffer is primarily referenced through ES:DI throughout, since
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140 | ; we need to store (read sector) faster than we read (write sector)
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141 | pop es
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142 |
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143 | pop ax ; load command byte (done before call to .nextSector on subsequent iterations)
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144 | push ax
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145 |
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146 | %ifndef SERIALSERVER_NO_ZERO_SECTOR_COUNTS
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147 | test al, al ; if no sectors to be transferred, wait for the ACK checksum on the command
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148 | jz SHORT .zeroSectors
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149 | %endif
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150 |
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151 | ;
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152 | ; Top of the read/write loop, one iteration per sector
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153 | ;
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154 | .nextSector:
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155 | mov si, 0FFFFh ; initialize checksum for read or write
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156 | mov bp, si
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157 |
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158 | mov cx, 0101h ; writing 256 words (plus 1)
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159 |
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160 | sahf ; command byte, are we doing a write?
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161 | jnc SHORT .readEntry
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162 |
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163 | xchg si, di ; swap pointer and checksum, will be re-swap'ed in WriteProtocol
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164 | call SerialServer_WriteProtocol.entry
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165 |
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166 | .zeroSectors:
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167 | inc cx ; CX = 1 now (0 out of WriteProtocol)
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168 | jmp SHORT .readEntry
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169 |
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170 | ;----------------------------------------------------------------------
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171 | ;
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172 | ; Timeout
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173 | ;
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174 | ; 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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175 | ;
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176 | .readTimeout:
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177 | push ax ; not only does this push preserve AX (which we need), but it also
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178 | ; means the stack has the same number of bytes on it as when we are
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179 | ; sending a packet, important for error cleanup and exit
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180 | mov ah, 1
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181 | call SerialServer_WaitAndPoll_Read
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182 | pop ax
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183 | test dl, 1
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184 | jz SHORT .readByte1Ready
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185 | jmp SHORT .readByte2Ready
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186 |
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187 | ;----------------------------------------------------------------------------
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188 | ;
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189 | ; Read Block (without interrupts, used when there is a FIFO, high speed)
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190 | ;
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191 | ; NOTE: This loop is very time sensitive. Literally, another instruction
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192 | ; cannot be inserted into this loop without us falling behind at high
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193 | ; speed (460.8K baud) on a 4.77Mhz 8088, making it hard to receive
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194 | ; a full 512 byte block.
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195 | ;
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196 | .readLoop:
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197 | stosw ; store word in caller's data buffer
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198 |
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199 | add bp, ax ; update Fletcher's checksum
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200 | adc bp, 0
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201 | add si, bp
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202 | adc si, 0
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203 |
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204 | .readEntry:
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205 | mov dl, bh
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206 | in al, dx
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207 | shr al, 1 ; data ready (byte 1)?
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208 | mov dl, bl ; get ready to read data
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209 | jnc SHORT .readTimeout ; nope not ready, update timeouts
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210 |
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211 | ;
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212 | ; Entry point after initial timeout. We enter here so that the checksum word
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213 | ; is not stored (and is left in AX after the loop is complete).
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214 | ;
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215 | .readByte1Ready:
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216 | in al, dx ; read data byte 1
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217 | mov ah, al ; store byte in ah for now
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218 |
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219 | ;
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220 | ; note the placement of this reset of dl to bh, and that it is
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221 | ; before the return, which is assymetric with where this is done
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222 | ; above for byte 1. The value of dl is used by the timeout routine
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223 | ; to know which byte to return to (.read_byte1_ready or
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224 | ; .read_byte2_ready)
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225 | ;
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226 | mov dl, bh
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227 |
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228 | in al, dx
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229 | shr al, 1 ; data ready (byte 2)?
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230 | jnc SHORT .readTimeout
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231 | .readByte2Ready:
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232 | mov dl, bl
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233 | in al, dx ; read data byte 2
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234 | xchg al, ah ; ah was holding byte 1, reverse byte order
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235 | loop .readLoop
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236 | sti ; interrupts back on ASAP, between packets
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237 |
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238 | ;
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239 | ; Compare checksums
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240 | ;
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241 | xchg ax, bp
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242 | xor ah, al
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243 | mov cx, si
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244 | xor cl, ch
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245 | mov al, cl
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246 | cmp ax, bp
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247 | jne SHORT SerialServer_OutputWithParameters_Error
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248 |
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249 | pop ax ; sector count and command byte
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250 | dec al ; decrement sector count
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251 | push ax ; save
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252 | jz SHORT SerialServer_OutputWithParameters_ReturnCodeInAL
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253 |
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254 | cli ; interrupts back off for ACK byte to host
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255 | ; (host could start sending data immediately)
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256 | out dx, al ; ACK with next sector number
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257 | jmp SHORT .nextSector
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258 |
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259 | ;---------------------------------------------------------------------------
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260 | ;
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261 | ; Cleanup, error reporting, and exit
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262 | ;
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263 |
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264 | ;
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265 | ; Used in situations where a call is underway, such as with SerialServer_WaitAndPoll
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266 | ;
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267 | ALIGN JUMP_ALIGN
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268 | SerialServer_OutputWithParameters_ErrorAndPop4Words:
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269 | add sp, 8
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270 | ;;; fall-through
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271 |
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272 | ALIGN JUMP_ALIGN
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273 | SerialServer_OutputWithParameters_Error:
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274 | ;----------------------------------------------------------------------
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275 | ;
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276 | ; Clear read buffer
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277 | ;
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278 | ; In case there are extra characters or an error in the FIFO, clear it out.
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279 | ; In theory the initialization of the UART registers above should have
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280 | ; taken care of this, but I have seen cases where this is not true.
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281 | ;
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282 | xor cx, cx ; timeout this clearing routine, in case the UART isn't there
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283 | .clearBuffer:
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284 | mov dl, bh
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285 | in al, dx
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286 | mov dl, bl
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287 | test al, 8Fh
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288 | jz SHORT .clearBufferComplete
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289 | test al, 1
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290 | in al, dx
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291 | loopnz .clearBuffer ; note ZF from test above
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292 |
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293 | .clearBufferComplete:
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294 | mov al, 1 ; error return code
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295 |
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296 | ALIGN JUMP_ALIGN
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297 | SerialServer_OutputWithParameters_ReturnCodeInAL:
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298 | %if 0
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299 | sti ; all paths here will already have interrupts turned back on
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300 | %endif
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301 | mov ah, al ; for success, AL will already be zero
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302 |
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303 | pop bx ; recover "ax" (command and count) from stack
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304 | pop cx ; recover saved sector count
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305 | xor ch, ch
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306 | sub cl, bl ; subtract off the number of sectors that remained
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307 |
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308 | pop bp
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309 | pop di
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310 | pop si
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311 |
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312 | sahf ; error return code to CF
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313 | ret
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314 |
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315 |
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316 | ;--------------------------------------------------------------------
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317 | ; SerialServer_WriteProtocol
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318 | ;
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319 | ; NOTE: As with its read counterpart, this loop is very time sensitive.
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320 | ; Although it will still function, adding additional instructions will
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321 | ; impact the write throughput, especially on slower machines.
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322 | ;
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323 | ; Parameters:
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324 | ; ES:SI: Ptr to buffer
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325 | ; CX: Words to write, plus 1
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326 | ; BP/DI: Initialized for Checksum (-1 in each)
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327 | ; DH: I/O Port high byte
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328 | ; BX: LineStatus Register address (BH) and Receive/Transmit Register address (BL)
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329 | ; Returns:
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330 | ; BP/SI: Checksum for written bytes, compared against ACK from server in .readLoop
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331 | ; CX: Zero
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332 | ; DL: Receive/Transmit Register address
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333 | ; ES:DI: Ptr to buffer
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334 | ; Corrupts registers:
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335 | ; AX
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336 | ;--------------------------------------------------------------------
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337 | ALIGN JUMP_ALIGN
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338 | SerialServer_WriteProtocol:
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339 | .writeLoop:
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340 | es lodsw ; fetch next word
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341 |
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342 | out dx, al ; output first byte
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343 |
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344 | add bp, ax ; update checksum
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345 | adc bp, 0
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346 | add di, bp
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347 | adc di, 0
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348 |
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349 | mov dl, bh ; transmit buffer empty?
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350 | in al, dx
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351 | test al, 20h
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352 | jz SHORT .writeTimeout2 ; nope, use our polling routine
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353 |
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354 | .writeByte2Ready:
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355 | mov dl, bl
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356 | mov al, ah ; output second byte
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357 | out dx, al
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358 |
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359 | .entry:
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360 | mov dl, bh ; transmit buffer empty?
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361 | in al, dx
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362 | test al, 20h
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363 | mov dl, bl
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364 | jz SHORT .writeTimeout1 ; nope, use our polling routine
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365 |
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366 | .writeByte1Ready:
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367 | loop .writeLoop
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368 |
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369 | mov ax, di ; fold Fletcher's checksum and output
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370 | xor al, ah
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371 | out dx, al ; byte 1
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372 |
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373 | call SerialServer_WaitAndPoll_Write
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374 |
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375 | mov ax, bp
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376 | xor al, ah
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377 | out dx, al ; byte 2
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378 |
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379 | xchg si, di ; preserve checksum word in si, move pointer back to di
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380 | ret
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381 |
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382 | .writeTimeout2:
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383 | mov dl, ah ; need to preserve AH, but don't need DL (will be reset upon return)
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384 | call SerialServer_WaitAndPoll_Write
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385 | mov ah, dl
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386 | jmp SHORT .writeByte2Ready
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387 |
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388 | .writeTimeout1:
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389 | ePUSH_T ax, .writeByte1Ready ; return address for ret at end of SC_writeTimeout2
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390 | ;;; fall-through
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391 |
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392 | ;--------------------------------------------------------------------
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393 | ; SerialServer_WaitAndPoll
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394 | ;
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395 | ; Parameters:
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396 | ; AH: UART_LineStatus bit to test (20h for write, or 1h for read)
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397 | ; One entry point fills in AH with 20h for write
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398 | ; DX: Port address (OK if already incremented to UART_lineStatus)
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399 | ; BX:
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400 | ; Stack: 2 words on the stack below the command/count word
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401 | ; Returns:
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402 | ; Returns when desired UART_LineStatus bit is cleared
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403 | ; Jumps directly to error exit if timeout elapses (and cleans up stack)
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404 | ; Corrupts registers:
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405 | ; AX
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406 | ;--------------------------------------------------------------------
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407 |
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408 | SerialServer_WaitAndPoll_SoftDelayTicks EQU 20
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409 |
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410 | ALIGN JUMP_ALIGN
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411 | SerialServer_WaitAndPoll_Write:
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412 | mov ah, 20h
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413 | ;;; fall-through
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414 |
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415 | ALIGN JUMP_ALIGN
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416 | SerialServer_WaitAndPoll_Read:
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417 | push cx
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418 | push dx
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419 |
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420 | ;
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421 | ; We first poll in a tight loop, interrupts off, for the next character to come in/be sent
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422 | ;
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423 | xor cx, cx
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424 | .readTimeoutLoop:
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425 | mov dl, bh
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426 | in al, dx
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427 | test al, ah
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428 | jnz SHORT .readTimeoutComplete
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429 | loop .readTimeoutLoop
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430 |
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431 | ;
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432 | ; If that loop completes, then we assume there is a long delay involved, turn interrupts back on
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433 | ; and wait for a given number of timer ticks to pass.
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434 | ;
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435 | sti
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436 | %ifndef SERIALSERVER_TIMER_LOCATION
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437 | mov cl, SerialServer_WaitAndPoll_SoftDelayTicks
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438 | call Timer_InitializeTimeoutWithTicksInCL
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439 | %else
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440 | push ax
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441 | push bx
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442 | mov ax, SerialServer_WaitAndPoll_SoftDelayTicks
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443 | mov bx, SERIALSERVER_TIMER_LOCATION
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444 | call TimerTicks_InitializeTimeoutFromAX
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445 | pop bx
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446 | pop ax
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447 | %endif
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448 |
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449 | .WaitAndPoll:
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450 | %ifndef SERIALSERVER_TIMER_LOCATION
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451 | call Timer_SetCFifTimeout
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452 | %else
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453 | push ax
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454 | push bx
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455 | mov bx, SERIALSERVER_TIMER_LOCATION
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456 | call TimerTicks_GetTimeoutTicksLeftToAXfromDSBX
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457 | pop bx
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458 | pop ax
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459 | %endif
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460 | jc SerialServer_OutputWithParameters_ErrorAndPop4Words
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461 | in al, dx
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462 | test al, ah
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463 | jz SHORT .WaitAndPoll
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464 | cli
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465 |
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466 | .readTimeoutComplete:
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467 | pop dx
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468 | pop cx
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469 | ret
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470 |
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