source: xtideuniversalbios/trunk/XTIDE_Universal_BIOS/Src/Device/IDE/IdeTransfer.asm@ 534

Last change on this file since 534 was 526, checked in by krille_n_@…, 12 years ago

Changes:

  • Update of the copyright notices to include the year 2013.
File size: 10.6 KB
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1; Project name : XTIDE Universal BIOS
2; Description : IDE Device transfer functions.
3
4;
5; XTIDE Universal BIOS and Associated Tools
6; Copyright (C) 2009-2010 by Tomi Tilli, 2011-2013 by XTIDE Universal BIOS Team.
7;
8; This program is free software; you can redistribute it and/or modify
9; it under the terms of the GNU General Public License as published by
10; the Free Software Foundation; either version 2 of the License, or
11; (at your option) any later version.
12;
13; This program is distributed in the hope that it will be useful,
14; but WITHOUT ANY WARRANTY; without even the implied warranty of
15; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16; GNU General Public License for more details.
17; Visit http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
18;
19
20; Structure containing variables for PIO transfer functions.
21; This struct must not be larger than IDEPACK without INTPACK.
22struc PIOVARS ; Must not be larger than 9 bytes! See IDEPACK in RamVars.inc.
23 .wDataPort resb 2 ; 0-1, IDE Data Port
24 .fnXfer resb 2 ; 2-3, Offset to transfer function
25 .wSectorsInBlock resb 2 ; 4-5, Block size in sectors
26 .bSectorsLeft resb 1 ; 6, Sectors left to transfer
27 resb 1 ; 7, IDEPACK.bDeviceControl
28 .bSectorsDone resb 1 ; 8, Number of sectors xferred
29endstruc
30
31
32; Section containing code
33SECTION .text
34
35;--------------------------------------------------------------------
36; IdeTransfer_StartWithCommandInAL
37; Parameters:
38; AL: IDE command that was used to start the transfer
39; (all PIO read and write commands including Identify Device)
40; ES:SI: Ptr to data buffer
41; DS:DI: Ptr to DPT (in RAMVARS segment)
42; SS:BP: Ptr to IDEPACK
43; Returns:
44; AH: INT 13h Error Code
45; CX: Number of successfully transferred sectors
46; CF: Cleared if success, Set if error
47; Corrupts registers:
48; AL, BX, DX, SI, ES
49;--------------------------------------------------------------------
50ALIGN JUMP_ALIGN
51IdeTransfer_StartWithCommandInAL:
52 ; Are we reading or writing?
53 test al, 16 ; Bit 4 is cleared on all the read commands but set on 3 of the 4 write commands
54 mov ah, [bp+IDEPACK.bSectorCount]
55 jnz SHORT WriteToDrive
56 cmp al, COMMAND_WRITE_MULTIPLE
57 je SHORT WriteToDrive
58 ; Fall to ReadFromDrive
59
60;--------------------------------------------------------------------
61; ReadFromDrive
62; Parameters:
63; AH: Number of sectors to transfer (1...128)
64; ES:SI: Ptr to buffer to receive data
65; DS:DI: Ptr to DPT (in RAMVARS segment)
66; SS:BP: Ptr to PIOVARS
67; Returns:
68; DS:DI: Ptr to DPT (in RAMVARS segment)
69; AH: BIOS Error code
70; CX: Number of successfully transferred sectors
71; CF: 0 if transfer successful
72; 1 if any error
73; Corrupts registers:
74; AL, BX, DX, SI, ES
75;--------------------------------------------------------------------
76ReadFromDrive:
77 ; Prepare to read data to ESSI
78 mov bx, g_rgfnPioRead
79 call InitializePiovarsInSSBPwithSectorCountInAH
80
81 ; Wait until drive is ready to transfer
82 call IdeWait_IRQorDRQ ; Wait until ready to transfer
83 jc SHORT ReturnWithTransferErrorInAH
84 xchg si, di ; ES:DI now points buffer
85
86 mov cx, [bp+PIOVARS.wSectorsInBlock] ; Max 128
87
88ALIGN JUMP_ALIGN
89.ReadNextBlockFromDrive:
90 mov dx, [bp+PIOVARS.wDataPort]
91 cmp [bp+PIOVARS.bSectorsLeft], cl
92 jbe SHORT .ReadLastBlockFromDrive
93 call [bp+PIOVARS.fnXfer]
94
95 ; Wait until ready for next block and check for errors
96 xchg di, si ; DS:DI now points DPT
97 call IdeWait_IRQorDRQ ; Wait until ready to transfer
98 jc SHORT ReturnWithTransferErrorInAH
99 xchg si, di ; ES:DI now points buffer
100
101 ; Increment number of successfully read sectors
102 mov cx, [bp+PIOVARS.wSectorsInBlock]
103 sub [bp+PIOVARS.bSectorsLeft], cl
104 add [bp+PIOVARS.bSectorsDone], cl
105 jmp SHORT .ReadNextBlockFromDrive
106
107ALIGN JUMP_ALIGN
108.ReadLastBlockFromDrive:
109 mov cl, [bp+PIOVARS.bSectorsLeft] ; CH is already zero
110 push cx
111 call [bp+PIOVARS.fnXfer] ; Transfer possibly partial block
112
113 ; Check for errors in last block
114 mov di, si ; DS:DI now points DPT
115CheckErrorsAfterTransferringLastBlock:
116 mov bx, TIMEOUT_AND_STATUS_TO_WAIT(TIMEOUT_DRQ, FLG_STATUS_BSY)
117 call IdeWait_PollStatusFlagInBLwithTimeoutInBH
118 pop cx ; [bp+PIOVARS.bSectorsLeft]
119 jc SHORT ReturnWithTransferErrorInAH
120
121 ; All sectors successfully transferred
122 add cx, [bp+PIOVARS.bSectorsDone] ; Never sets CF
123 ret
124
125 ; Return number of successfully read sectors
126ReturnWithTransferErrorInAH:
127%ifdef USE_386
128 movzx cx, [bp+PIOVARS.bSectorsDone]
129%else
130 mov cl, [bp+PIOVARS.bSectorsDone]
131 mov ch, 0 ; Preserve CF
132%endif
133 ret
134
135
136;--------------------------------------------------------------------
137; WriteToDrive
138; Parameters:
139; AH: Number of sectors to transfer (1...128)
140; DS:DI: Ptr to DPT (in RAMVARS segment)
141; ES:SI: Ptr to buffer containing data
142; SS:BP: Ptr to PIOVARS
143; Returns:
144; AH: BIOS Error code
145; CX: Number of successfully transferred sectors
146; CF: 0 if transfer successful
147; 1 if any error
148; Corrupts registers:
149; AL, BX, DX, SI, ES
150;--------------------------------------------------------------------
151ALIGN JUMP_ALIGN
152WriteToDrive:
153 ; Prepare to write data from ESSI
154 mov bx, g_rgfnPioWrite
155 call InitializePiovarsInSSBPwithSectorCountInAH
156
157 ; Always poll when writing first block (IRQs are generated for following blocks)
158 mov bx, TIMEOUT_AND_STATUS_TO_WAIT(TIMEOUT_DRQ, FLG_STATUS_DRQ)
159 call IdeWait_PollStatusFlagInBLwithTimeoutInBH
160 jc SHORT ReturnWithTransferErrorInAH
161
162 mov cx, [bp+PIOVARS.wSectorsInBlock] ; Max 128
163
164ALIGN JUMP_ALIGN
165.WriteNextBlockToDrive:
166 mov dx, [bp+PIOVARS.wDataPort]
167 cmp [bp+PIOVARS.bSectorsLeft], cl
168 jbe SHORT .WriteLastBlockToDrive
169 call [bp+PIOVARS.fnXfer]
170
171 ; Wait until ready for next block and check for errors
172 call IdeWait_IRQorDRQ ; Wait until ready to transfer
173 jc SHORT ReturnWithTransferErrorInAH
174
175 ; Increment number of successfully written sectors
176 mov cx, [bp+PIOVARS.wSectorsInBlock]
177 sub [bp+PIOVARS.bSectorsLeft], cl
178 add [bp+PIOVARS.bSectorsDone], cl
179 jmp SHORT .WriteNextBlockToDrive
180
181ALIGN JUMP_ALIGN
182.WriteLastBlockToDrive:
183 mov cl, [bp+PIOVARS.bSectorsLeft] ; CH is already zero
184 push cx
185%ifdef USE_186
186 push CheckErrorsAfterTransferringLastBlock
187 jmp [bp+PIOVARS.fnXfer] ; Transfer possibly partial block
188%else
189 call [bp+PIOVARS.fnXfer] ; Transfer possibly partial block
190 jmp SHORT CheckErrorsAfterTransferringLastBlock
191%endif
192
193
194;--------------------------------------------------------------------
195; InitializePiovarsInSSBPwithSectorCountInAH
196; Parameters:
197; AH: Number of sectors to transfer (1...128)
198; BX: Offset to transfer function lookup table
199; DS:DI: Ptr to DPT (in RAMVARS segment)
200; ES:SI: Ptr to data buffer
201; SS:BP: Ptr to PIOVARS
202; Returns:
203; Nothing
204; Corrupts registers:
205; AX, BX, DX
206;--------------------------------------------------------------------
207ALIGN JUMP_ALIGN
208InitializePiovarsInSSBPwithSectorCountInAH:
209 ; Store sizes and Data Port
210 mov [bp+PIOVARS.bSectorsLeft], ah
211 mov ax, [di+DPT.wBasePort]
212 mov [bp+PIOVARS.wDataPort], ax
213 eMOVZX ax, [di+DPT_ATA.bBlockSize]
214 mov [bp+PIOVARS.wSectorsInBlock], ax
215 mov [bp+PIOVARS.bSectorsDone], ah ; Zero
216
217 ; Get transfer function based on bus type
218 xchg ax, bx ; Lookup table offset to AX
219 mov bl, [di+DPT_ATA.bDevice]
220%ifdef MODULE_8BIT_IDE_ADVANCED
221 mov dl, bl
222%endif
223 add bx, ax
224 mov ax, [cs:bx] ; Load offset to transfer function
225 mov [bp+PIOVARS.fnXfer], ax
226
227 ; Normalize pointer for PIO-transfers and convert to physical address for DMA transfers
228%ifdef MODULE_8BIT_IDE_ADVANCED
229 cmp dl, DEVICE_8BIT_XTCF_DMA
230 jb SHORT IdeTransfer_NormalizePointerInESSI
231
232 ; Convert ES:SI to physical address
233%ifdef USE_186 ; Bytes EU Cycles(286)
234 mov ax, es ; 2 2
235 rol ax, 4 ; 3 9
236 mov dx, ax ; 2 2
237 and ax, BYTE 0Fh; 3 3
238 xor dx, ax ; 2 2
239 add si, dx ; 2 2
240 adc al, ah ; 2 2
241 mov es, ax ; 2 2
242 ;------------------------------------
243 ; 18 24
244%else ; 808x
245
246%if 0
247 ; Bytes EU Cycles(808x)
248 mov al, 4 ; 2 4
249 mov dx, es ; 2 2
250 xchg cx, ax ; 1 3
251 rol dx, cl ; 2 24
252 mov cx, dx ; 2 2
253 xchg cx, ax ; 1 3
254 and ax, BYTE 0Fh; 3 4
255 xor dx, ax ; 2 3
256 add si, dx ; 2 3
257 adc al, ah ; 2 3
258 mov es, ax ; 2 2
259 ;------------------------------------
260 ; 21 53
261;
262; Judging by the Execution Unit cycle count the above block of code is
263; apparently slower. However, the shifts and rotates in the block below
264; execute faster than the Bus Interface Unit on an 8088 can fetch them,
265; thus causing the EU to starve. The difference in true execution speed
266; (if any) might not be worth the extra 5 bytes.
267; In other words, we could use a real world test here.
268;
269%endif ; 0
270 ; Bytes EU Cycles(808x/286)
271 xor dx, dx ; 2 3/2
272 mov ax, es ; 2 2/2
273%rep 4
274 shl ax, 1 ; 8 8/8
275 rcl dx, 1 ; 8 8/8
276%endrep
277 add si, ax ; 2 3/2
278 adc dl, dh ; 2 3/2
279 mov es, dx ; 2 2/2
280 ;------------------------------------
281%endif ; 26 29/26
282 ret
283%endif ; MODULE_8BIT_IDE_ADVANCED
284 ; Fall to IdeTransfer_NormalizePointerInESSI if no MODULE_8BIT_IDE
285
286
287;--------------------------------------------------------------------
288; IdeTransfer_NormalizePointerInESSI
289; Parameters:
290; ES:SI: Ptr to be normalized
291; Returns:
292; ES:SI: Normalized pointer (SI = 0...15)
293; Corrupts registers:
294; AX, DX
295;--------------------------------------------------------------------
296IdeTransfer_NormalizePointerInESSI:
297 NORMALIZE_FAR_POINTER es, si, ax, dx
298 ret
299
300
301; Lookup tables to get transfer function based on bus type
302ALIGN WORD_ALIGN
303g_rgfnPioRead:
304 dw IdePioBlock_ReadFrom16bitDataPort ; 0, DEVICE_16BIT_ATA
305 dw IdePioBlock_ReadFrom32bitDataPort ; 1, DEVICE_32BIT_ATA
306%ifdef MODULE_8BIT_IDE
307 dw IdePioBlock_ReadFrom8bitDataPort ; 2, DEVICE_8BIT_ATA
308 dw IdePioBlock_ReadFromXtideRev1 ; 3, DEVICE_8BIT_XTIDE_REV1
309 dw IdePioBlock_ReadFromXtideRev2 ; 4, DEVICE_8BIT_XTIDE_REV2
310%ifdef MODULE_8BIT_IDE_ADVANCED
311 dw IdePioBlock_ReadFrom8bitDataPort ; 5, DEVICE_8BIT_XTCF_PIO8
312 dw IdeDmaBlock_ReadFromXTCF ; 6, DEVICE_8BIT_XTCF_DMA
313%endif
314%endif
315
316
317g_rgfnPioWrite:
318 dw IdePioBlock_WriteTo16bitDataPort ; 0, DEVICE_16BIT_ATA
319 dw IdePioBlock_WriteTo32bitDataPort ; 1, DEVICE_32BIT_ATA
320%ifdef MODULE_8BIT_IDE
321 dw IdePioBlock_WriteTo8bitDataPort ; 2, DEVICE_8BIT_ATA
322 dw IdePioBlock_WriteToXtideRev1 ; 3, DEVICE_8BIT_XTIDE_REV1
323 dw IdePioBlock_WriteToXtideRev2 ; 4, DEVICE_8BIT_XTIDE_REV2
324%ifdef MODULE_8BIT_IDE_ADVANCED
325 dw IdePioBlock_WriteTo8bitDataPort ; 5, DEVICE_8BIT_XTCF_PIO8
326 dw IdeDmaBlock_WriteToXTCF ; 6, DEVICE_8BIT_XTCF_DMA
327%endif
328%endif
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