source: xtideuniversalbios/trunk/XTIDE_Universal_BIOS/Src/Initialization/AdvancedAta/Vision.asm@ 589

Last change on this file since 589 was 589, checked in by Krister Nordvall, 9 years ago

Changes:

  • BIOS: Fixed a purely cosmetic bug from r542 where, in builds containing MODULE_EBIOS, the boot menu would display an incorrect drive size (0.4 kB with MODULE_STRINGS_COMPRESSED or 0.5 kB without) for old drives with no support for LBA.
  • Fixed a bug from r392 where Vision_DetectAndReturnIDinAXandPortInDXifControllerPresent would return the ID in AL instead of AH (if DANGEROUS_DETECTION had been defined).
  • Fixed a bug from r587 in AdvAtaInit.asm that would prevent detection of QDI Vision controllers.
  • Also changed how the QDI Vision IDs are defined (removed the need for shifting) to avoid confusion. This fixed a potential bug from r587 in AdvAtaInit.asm where some IDs were not being shifted.
  • Fixed a bug in PDC20x30.asm from r587 where GetPdcIDtoAX would not return with the IDE base port in DX so DisablePdcProgrammingMode would fail.
  • Made some changes to ModuleDependency.inc and other files so that MODULE_ADVANCED_ATA now requires USE_386. Consequently it is no longer included in the regular AT-builds, only in the 386_8k-build.
  • Moved the UNROLL_SECTORS_IN_CX_TO_xWORDS macros from IDE_8bit.inc to IdeIO.inc which means it's now possible to build a BIOS without MODULE_8BIT_IDE.
  • XTIDECFG: Added a minimum DOS version check (since it needs DOS version 2+) to allow the program to quit gracefully in the unlikely scenario where someone tries to run it under DOS version 1.
  • Made some changes to Drive.asm to improve drive enumeration. The old method using GET_DOS_DRIVE_PARAMETER_BLOCK_FOR_SPECIFIC_DRIVE worked well in Windows XP but not in Windows 98 SE (in Windows or in DOS mode). The two problems were; 1) The function call would access the drives which on single floppy drive systems would cause Windows to swap between A: and B: (throwing a blue screen asking the user to insert a disk etc). 2) Only floppy drives and FAT16 drives would be available in the list of drives, no FAT32/optical/network drives.
  • Improved code in IdeControllerMenu.asm so that the default port addresses for all IDE interfaces are now restored when (re-)selecting the (same) type of IDE device.
  • Also made it impossible to select a device type unless the required module is included in the loaded BIOS.
  • The version check done when loading a BIOS now uses the FLASH_SIGNATURE definition from Version.inc. Any changes affecting RomVars now only requires updating that definition. This means that changes to RomVars must be implemented in both the BIOS and XTIDECFG before being committed to the repository.
  • Added a compatibility fix for 3Com 3C503 cards to the ROM checksumming code in Buffers.asm (Buffers_GenerateChecksum).
  • SerDrive: Made some minor changes to file names and paths to improve compatibility with case sensitive environments.
  • BIOSDRVS: Made a minor size optimization which as a side effect also makes it compatible with all DOS versions including DOS version 1.
  • Library: Renamed the WAIT_RETRACE_IF_NECESSARY_THEN macro to CALL_WAIT_FOR_RETRACE_IF_NECESSARY_THEN and made a tail-call-optimized version of it (JMP_WAIT_FOR_RETRACE_IF_NECESSARY_THEN).
  • A speed optimization to the eRCL_IM macro for 386 and higher. This change breaks emulation in the sense that the macro will fail when given a memory operand as the first parameter.
  • Other minor optimizations and fixes.
File size: 8.6 KB
Line 
1; Project name : XTIDE Universal BIOS
2; Description : Functions for initializing QDI Vision
3; QD6500 and QD6580 VLB IDE Controllers.
4
5;
6; XTIDE Universal BIOS and Associated Tools
7; Copyright (C) 2009-2010 by Tomi Tilli, 2011-2013 by XTIDE Universal BIOS Team.
8;
9; This program is free software; you can redistribute it and/or modify
10; it under the terms of the GNU General Public License as published by
11; the Free Software Foundation; either version 2 of the License, or
12; (at your option) any later version.
13;
14; This program is distributed in the hope that it will be useful,
15; but WITHOUT ANY WARRANTY; without even the implied warranty of
16; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17; GNU General Public License for more details.
18; Visit http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
19;
20
21; Section containing code
22SECTION .text
23
24;--------------------------------------------------------------------
25; Vision_DetectAndReturnIDinAXandPortInDXifControllerPresent
26; Parameters:
27; Nothing
28; Returns:
29; AX: ID WORD specific for QDI Vision Controllers
30; (AL = QD65xx Config Register contents)
31; (AH = QDI Vision Controller ID)
32; DX: Controller port (not IDE port)
33; ZF: Set if controller found
34; Cleared if supported controller not found (AX,DX = undefined)
35; Corrupts registers:
36; Nothing
37;--------------------------------------------------------------------
38Vision_DetectAndReturnIDinAXandPortInDXifControllerPresent:
39 ; Check QD65xx base port
40 mov dx, QD65XX_BASE_PORT
41 in al, QD65XX_BASE_PORT + QD65XX_CONFIG_REGISTER_in
42
43%ifdef DANGEROUS_DETECTION
44 ; Checking alternative base port is currently commented away
45 ; since Intel PIIX4 south bridge mirrors Interrupt Controller registers
46 ; from Axh to Bxh.
47 call IsConfigRegisterWithIDinAL
48 je SHORT VisionControllerDetected.Return
49
50 ; Check QD65xx alternative base port
51 mov dl, QD65XX_ALTERNATIVE_BASE_PORT
52 in al, QD65XX_ALTERNATIVE_BASE_PORT + QD65XX_CONFIG_REGISTER_in
53%endif ; DANGEROUS_DETECTION
54 ; Fall to IsConfigRegisterWithIDinAL
55
56;--------------------------------------------------------------------
57; IsConfigRegisterWithIDinAL
58; Parameters:
59; AL: Possible QD65xx Config Register contents
60; Returns:
61; AH QDI Vision Controller ID or undefined
62; ZF: Set if controller found
63; Cleared if supported controller not found (AH = undefined)
64; Corrupts registers:
65; Nothing
66;--------------------------------------------------------------------
67IsConfigRegisterWithIDinAL:
68 mov ah, al
69 and al, MASK_QDCONFIG_CONTROLLER_ID
70 cmp al, ID_QD6500
71 je SHORT VisionControllerDetected
72 cmp al, ID_QD6580
73 je SHORT VisionControllerDetected
74 cmp al, ID_QD6580_ALTERNATE
75VisionControllerDetected:
76 xchg ah, al
77.Return:
78 ret
79
80
81;--------------------------------------------------------------------
82; Vision_DoesIdePortInBXbelongToControllerWithIDinAX
83; Parameters:
84; AL: QD65xx Config Register contents
85; AH: QDI Vision Controller ID
86; BX: IDE Base port to check
87; DX: Vision Controller port
88; Returns:
89; ZF: Set if port belongs to controller
90; Cleared if port belongs to another controller
91; Corrupts registers:
92; Nothing
93;--------------------------------------------------------------------
94Vision_DoesIdePortInBXbelongToControllerWithIDinAX:
95 cmp ah, ID_QD6500
96 je SHORT .DoesIdePortInDXbelongToQD6500
97
98 ; QD6580 always have Primary IDE at 1F0h
99 ; Secondary IDE at 170h can be enabled or disabled
100 cmp bx, DEVICE_ATA_PRIMARY_PORT
101 je SHORT .ReturnResultInZF
102
103 ; Check if Secondary IDE channel is enabled
104 push ax
105 push dx
106 add dx, BYTE QD6580_CONTROL_REGISTER
107 in al, dx
108 test al, FLG_QDCONTROL_SECONDARY_DISABLED_in
109 pop dx
110 pop ax
111 jz SHORT .CompareBXtoSecondaryIDE
112 ret
113
114 ; QD6500 has only one IDE channel that can be at 1F0h or 170h
115.DoesIdePortInDXbelongToQD6500:
116 test al, FLG_QDCONFIG_PRIMARY_IDE
117 jz SHORT .CompareBXtoSecondaryIDE
118 cmp bx, DEVICE_ATA_PRIMARY_PORT
119 ret
120
121.CompareBXtoSecondaryIDE:
122 cmp bx, DEVICE_ATA_SECONDARY_PORT
123.ReturnResultInZF:
124 ret
125
126
127;--------------------------------------------------------------------
128; Vision_GetMaxPioModeToALandMinCycleTimeToBX
129; Parameters:
130; AL: QD65xx Config Register contents
131; AH: QDI Vision Controller ID
132; Returns:
133; AL: Max supported PIO mode
134; AH: FLGH_DPT_IORDY if IORDY supported, zero otherwise
135; BX: Min PIO Cycle Time (only if ZF set)
136; ZF: Set if PIO limit necessary
137; Cleared if no need to limit timings
138; Corrupts registers:
139; Nothing
140;--------------------------------------------------------------------
141Vision_GetMaxPioModeToALandMinCycleTimeToBX:
142 cmp ah, ID_QD6500
143 jne SHORT .NoNeedToLimitForQD6580
144
145 mov ax, 2 ; Limit to PIO 2 because QD6500 does not support IORDY
146 mov bx, PIO_2_MIN_CYCLE_TIME_NS
147.NoNeedToLimitForQD6580:
148 ret
149
150
151;--------------------------------------------------------------------
152; Vision_InitializeWithIDinAH
153; Parameters:
154; AH: QDI Vision Controller ID
155; DS:DI: Ptr to DPT for Single or Slave Drive
156; SI: Offset to Master DPT if Slave Drive present
157; Zero if Slave Drive not present
158; Returns:
159; CF: Cleared if success
160; Set if error
161; Corrupts registers:
162; AX, BX, CX, DX, BP
163;--------------------------------------------------------------------
164Vision_InitializeWithIDinAH:
165 ; QD6580 has a Control Register that needs to be programmed
166 cmp ah, ID_QD6500
167 mov dx, [di+DPT_ADVANCED_ATA.wControllerBasePort]
168 mov bp, QD6500_MAX_ACTIVE_TIME_CLOCKS | (QD6500_MIN_ACTIVE_TIME_CLOCKS << 8) ; Assume QD6500
169 je SHORT .CalculateTimingsForQD65xx
170 mov bp, QD6580_MAX_ACTIVE_TIME_CLOCKS | (QD6580_MIN_ACTIVE_TIME_CLOCKS << 8) ; It's a QD6580
171
172 ; Program QD6580 Control Register (not available on QD6500) to
173 ; Enable or Disable Read-Ahead and Post-Write Buffer to match
174 ; jumper setting on the multi I/O card.
175 add dx, BYTE QD6580_CONTROL_REGISTER
176 in al, dx ; Read to get ATAPI jumper status
177 test al, FLG_QDCONTROL_HDONLY_in
178 mov al, MASK_QDCONTROL_FLAGS_TO_SET
179 eCMOVNZ al, FLG_QDCONTROL_NONATAPI | MASK_QDCONTROL_FLAGS_TO_SET ; Enable Read-Ahead and Post-Write Buffers
180 out dx, al
181 dec dx ; Secondary Channel IDE Timing Register
182
183 ; Now we need to determine is the drive connected to the Primary or Secondary channel.
184 ; QD6500 has only one channel that can be Primary at 1F0h or Secondary at 170h.
185 ; QD6580 always has Primary channel at 1F0h. Secondary channel at 170h can be Enabled or Disabled.
186 cmp BYTE [di+DPT.wBasePort], DEVICE_ATA_SECONDARY_PORT & 0FFh
187 je SHORT .CalculateTimingsForQD65xx ; Secondary Channel so no need to modify DX
188 dec dx
189 dec dx ; Primary Channel IDE Timing Register
190
191 ; We need the PIO Cycle Time in CX to calculate Active and Recovery Times.
192.CalculateTimingsForQD65xx:
193 call AdvAtaInit_SelectSlowestCommonPioTimingsToBXandCXfromDSSIandDSDI
194
195 ; Calculate Active Time value for QD65xx IDE Timing Register
196 call AtaID_GetActiveTimeToAXfromPioModeInBX
197 call ConvertNanosecsFromAXwithLimitsInBPtoRegisterValue
198 xchg bp, ax
199
200 ; Calculate Recovery Time value for QD65xx IDE Timing Register
201 call AtaID_GetRecoveryTimeToAXfromPioModeInBXandCycleTimeInCX
202 mov bx, bp ; Active Time value now in BL
203 mov bp, QD65xx_MAX_RECOVERY_TIME_CLOCKS | (QD65xx_MIN_RECOVERY_TIME_CLOCKS << 8)
204 call ConvertNanosecsFromAXwithLimitsInBPtoRegisterValue
205
206 ; Merge the values to a single byte to output
207 eSHL_IM al, POSITION_QD65XXIDE_RECOVERY_TIME
208 or al, bl
209 out dx, al
210 ret ; Return with CF cleared
211
212
213;--------------------------------------------------------------------
214; ConvertNanosecsFromAXwithLimitsInBPtoRegisterValue
215; Parameters:
216; AX: Nanosecs to convert
217; BP: Low Byte: Maximum allowed ticks
218; High Byte: Minimum allowed ticks
219; DS:DI: Ptr to DPT for Single or Slave Drive
220; Returns:
221; AL: Timing value for QD65xx register
222; Corrupts registers:
223; Nothing
224;--------------------------------------------------------------------
225ConvertNanosecsFromAXwithLimitsInBPtoRegisterValue:
226 push cx
227
228 ; Get VLB Cycle Time in nanosecs
229 mov cl, VLB_33MHZ_CYCLE_TIME ; Assume 33 MHz or slower VLB bus
230 test BYTE [di+DPT_ADVANCED_ATA.wControllerID], FLG_QDCONFIG_ID3
231 eCMOVZ cl, VLB_40MHZ_CYCLE_TIME
232
233 ; Convert value in AX to VLB ticks
234 div cl ; AL = VLB ticks
235 inc ax ; Round up
236
237 ; Limit value to QD65xx limits
238 mov cx, bp
239 MAX_U al, ch ; Make sure not below minimum
240 MIN_U al, cl ; Make sure not above maximum
241
242 ; Not done yet, we need to invert the ticks since 0 is the slowest
243 ; value on the timing register
244 sub cl, al
245 xchg ax, cx ; Return in AL
246
247 pop cx
248 ret
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