source: xtideuniversalbios/trunk/XTIDE_Universal_BIOS/Src/Initialization/Interrupts.asm @ 592

Last change on this file since 592 was 592, checked in by krille_n_, 6 years ago

Changes:

  • The problem with NASM in the previous revision (r591) has been fixed.
  • The colors used by the boot menu and hotkey bar can now be customized by selecting one of a number of pre-defined color themes. Suggestions for additional themes are more than welcome!
  • Large builds are now 10 KB. Small builds are still 8 KB with the exception of the Tiny build which is now 4 KB. In other words, builds are now as small as possible to make it easier to combine them with other BIOSes.
  • Added code to the library to improve drive error handling. XTIDECFG can now handle "Drive Not Ready" errors.
  • Fixed a couple of potential bugs in AtaID.asm (AtaID_GetMaxPioModeToAXandMinCycleTimeToCX); 1) ATA1.bPioMode was treated as a WORD variable. 2) ATA2.bPIOSupp was assumed to be non-zero which would result in PIO mode 3 being returned if the assumption was wrong.
  • Made the same changes in the equivalent function used by BIOSDRVS (DisplayPioModeInformationUsingAtaInfoFromDSBX in AtaInfo.asm).
  • Fixed a bug from r587 in PDC20x30.asm in PDC20x30_GetMaxPioModeToALandMinPioCycleTimeToBX.
  • Fixed a bug from r523 in XTIDECFG where Auto Configure would only set the IRQ on one IDE interface on AT-builds.
  • XTIDECFG will now restore the default settings for the "Serial port virtual device" when reselecting it in the list of device types. This makes it behave consistently for all device types.
  • The eAAM macro is now used regardless if USE_UNDOC_INTEL is defined or not because it is apparently supported on all processors including the NEC V20/V30 CPUs.
  • Renamed the EXCLUDE_FROM_XTIDE_UNIVERSAL_BIOS define to EXCLUDE_FROM_XUB.
  • Added a define to exclude unused library code from BIOSDRVS (EXCLUDE_FROM_BIOSDRVS). This makes it a lot smaller than in previous revisions.
  • All unnecessary CLD-instructions are now under a new define 'CLD_NEEDED' which is only enabled for the BIOS. It is disabled for XTIDECFG and BIOSDRVS but can be enabled if needed by adding this define to the respective makefile. This change was made because these unnecessary instructions are wasteful and should never be needed. In fact, they only serve to hide bugs (in other peoples code) which I strongly believe should be avoided. I recommend people making their own BIOSes from source to not use this define as it's extremely unlikely to be needed.
  • Updated the copyright info in SerDrive and changed an URL to point to the new site.
  • Updated the copyright info and version number in BIOSDRVS.
  • Updated the copyright info in XTIDECFG.
  • Optimizations in general.
File size: 8.3 KB
Line 
1; Project name  :   XTIDE Universal BIOS
2; Description   :   Functions for initializing the BIOS.
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; Section containing code
21SECTION .text
22
23;--------------------------------------------------------------------
24; Drives must be detected before this function is called unless
25; MODULE_DRIVEXLATE has been included in the BIOS.
26;
27; Interrupts_InitializeInterruptVectors
28;   Parameters:
29;       DS:     RAMVARS segment
30;       ES:     BDA and Interrupt Vector segment (zero)
31;   Returns:
32;       Nothing
33;   Corrupts registers:
34;       All except segments
35;--------------------------------------------------------------------
36Interrupts_InitializeInterruptVectors:
37    ; Install INT 19h handler to properly reset the system
38    mov     al, BIOS_BOOT_LOADER_INTERRUPT_19h  ; INT 19h interrupt vector offset
39    mov     si, Int19hReset_Handler             ; INT 19h handler to reboot the system
40    call    Interrupts_InstallHandlerToVectorInALFromCSSI
41
42    ; If no drives detected, leave system INT 13h and 40h handlers
43    ; in place. We need our INT 13h handler to swap drive letters.
44%ifndef MODULE_DRIVEXLATE
45    cmp     BYTE [RAMVARS.bDrvCnt], 0
46    je      SHORT Interrupts_InstallHandlerToVectorInALFromCSSI.Interrupts_Return
47%endif
48    ; Fall to .InitializeInt13hAnd40h
49
50;--------------------------------------------------------------------
51; .InitializeInt13hAnd40h
52;   Parameters:
53;       DS:     RAMVARS segment
54;       ES:     BDA and Interrupt Vector segment (zero)
55;   Returns:
56;       Nothing
57;   Corrupts registers:
58;       AX, BX, CX, DX, SI, DI
59;--------------------------------------------------------------------
60.InitializeInt13hAnd40h:
61    mov     ax, [es:BIOS_DISK_INTERRUPT_13h*4+2]; Load old INT 13h segment
62    mov     [RAMVARS.fpOldI13h+2], ax           ; Store old INT 13h segment
63    xchg    dx, ax
64    mov     ax, [es:BIOS_DISK_INTERRUPT_13h*4]  ; Load old INT 13h offset
65    mov     [RAMVARS.fpOldI13h], ax             ; Store old INT 13h offset
66
67    ; Only store INT 13h handler to 40h if 40h is not already installed.
68    ; At least AMI BIOS for 286 stores 40h handler by itself and calls
69    ; 40h from 13h. That system locks to infinite loop if we blindly copy 13h to 40h.
70    call    FloppyDrive_IsInt40hInstalled
71    jc      SHORT .Int40hAlreadyInstalled
72    mov     [es:BIOS_DISKETTE_INTERRUPT_40h*4], ax      ; Store old INT 13h offset
73    mov     [es:BIOS_DISKETTE_INTERRUPT_40h*4+2], dx    ; Store old INT 13h segment
74.Int40hAlreadyInstalled:
75
76    mov     al, BIOS_DISK_INTERRUPT_13h         ; INT 13h interrupt vector offset
77%ifdef RELOCATE_INT13H_STACK
78    mov     si, Int13h_DiskFunctionsHandlerWithStackChange
79%else
80    mov     si, Int13h_DiskFunctionsHandler
81%endif
82
83%ifndef MODULE_IRQ
84    ; Fall to Interrupts_InstallHandlerToVectorInALFromCSSI
85%else
86    call    Interrupts_InstallHandlerToVectorInALFromCSSI
87    ; Fall to .InitializeHardwareIrqHandlers
88
89;--------------------------------------------------------------------
90; .InitializeHardwareIrqHandlers
91;   Parameters:
92;       ES:     BDA and Interrupt Vector segment (zero)
93;   Returns:
94;       Nothing
95;   Corrupts registers:
96;       BX, CX, DX, SI, DI, AX
97;--------------------------------------------------------------------
98.InitializeHardwareIrqHandlers:
99    call    RamVars_GetIdeControllerCountToCX
100    mov     di, ROMVARS.ideVars0+IDEVARS.bIRQ
101.IdeControllerLoop:
102    mov     al, [cs:di]
103    add     di, BYTE IDEVARS_size           ; Increment to next controller
104    call    .InstallLowOrHighIrqHandler
105    loop    .IdeControllerLoop
106.Return:
107    ret     ; This ret is shared with .InstallLowOrHighIrqHandler
108
109;--------------------------------------------------------------------
110; .InstallLowOrHighIrqHandler
111;   Parameters:
112;       AL:     IRQ number, 0 if IRQ disabled
113;       ES:     BDA and Interrupt Vector segment (zero)
114;   Returns:
115;       Nothing
116;   Corrupts registers:
117;       BX, SI
118;--------------------------------------------------------------------
119.InstallLowOrHighIrqHandler:
120    test    al, al
121    jz      SHORT .Return   ; IRQ not used
122%ifdef USE_AT
123    cmp     al, 8
124    jb      SHORT .InstallLowIrqHandler
125    ; Fall to .InstallHighIrqHandler
126
127;--------------------------------------------------------------------
128; .InstallHighIrqHandler
129;   Parameters:
130;       BX:     IRQ number (8...15)
131;       ES:     BDA and Interrupt Vector segment (zero)
132;   Returns:
133;       Nothing
134;   Corrupts registers:
135;       AL, BX, SI
136;--------------------------------------------------------------------
137.InstallHighIrqHandler:
138    add     al, BYTE HARDWARE_IRQ_8_INTERRUPT_70h - 8   ; Interrupt vector number
139    mov     si, IdeIrq_InterruptServiceRoutineForIrqs8to15
140    jmp     SHORT Interrupts_InstallHandlerToVectorInALFromCSSI
141%endif ; USE_AT
142
143;--------------------------------------------------------------------
144; .InstallLowIrqHandler
145;   Parameters:
146;       AL:     IRQ number (0...7)
147;       ES:     BDA and Interrupt Vector segment (zero)
148;   Returns:
149;       Nothing
150;   Corrupts registers:
151;       AL, BX, SI
152;--------------------------------------------------------------------
153.InstallLowIrqHandler:
154    add     al, BYTE HARDWARE_IRQ_0_INTERRUPT_08h       ; Interrupt vector number
155    mov     si, IdeIrq_InterruptServiceRoutineForIrqs2to7
156    ; Fall to Interrupts_InstallHandlerToVectorInALFromCSSI
157%endif ; MODULE_IRQ
158
159
160;--------------------------------------------------------------------
161; Interrupts_InstallHandlerToVectorInALFromCSSI
162;   Parameters:
163;       AL:     Interrupt vector number (for example 13h)
164;       ES:     BDA and Interrupt Vector segment (zero)
165;       CS:SI:  Ptr to interrupt handler
166;   Returns:
167;       Nothing
168;   Corrupts registers:
169;       AX, BX
170;--------------------------------------------------------------------
171Interrupts_InstallHandlerToVectorInALFromCSSI:
172    mov     bl, 4                   ; Shift for DWORD offset, MUL smaller than other alternatives
173    mul     bl
174    xchg    ax, bx
175    mov     [es:bx], si             ; Store offset
176    mov     [es:bx+2], cs           ; Store segment
177.Interrupts_Return:
178    ret
179
180
181%ifdef MODULE_IRQ
182;--------------------------------------------------------------------
183; Interrupts_UnmaskInterruptControllerForDriveInDSDI
184;   Parameters:
185;       DS:DI:  Ptr to DPT
186;   Returns:
187;       Nothing
188;   Corrupts registers:
189;       AX, BX, DX
190;--------------------------------------------------------------------
191Interrupts_UnmaskInterruptControllerForDriveInDSDI:
192    eMOVZX  bx, [di+DPT.bIdevarsOffset]
193    mov     al, [cs:bx+IDEVARS.bIRQ]
194    test    al, al
195    jz      SHORT .Return   ; Interrupts disabled
196    cmp     al, 8
197    jb      SHORT .UnmaskLowIrqController
198    ; Fall to .UnmaskHighIrqController
199
200;--------------------------------------------------------------------
201; .UnmaskHighIrqController
202;   Parameters:
203;       AL:     IRQ number (8...15)
204;   Returns:
205;       Nothing
206;   Corrupts registers:
207;       AX, DX
208;--------------------------------------------------------------------
209.UnmaskHighIrqController:
210    sub     al, 8               ; Slave interrupt number
211    mov     dx, SLAVE_8259_IMR
212    call    .ClearBitFrom8259MaskRegister
213    mov     al, 2               ; Master IRQ 2 to allow slave IRQs
214    ; Fall to .UnmaskLowIrqController
215
216;--------------------------------------------------------------------
217; .UnmaskLowIrqController
218;   Parameters:
219;       AL:     IRQ number (0...7)
220;   Returns:
221;       Nothing
222;   Corrupts registers:
223;       AX, DX
224;--------------------------------------------------------------------
225.UnmaskLowIrqController:
226    mov     dx, MASTER_8259_IMR
227    ; Fall to .ClearBitFrom8259MaskRegister
228
229;--------------------------------------------------------------------
230; .ClearBitFrom8259MaskRegister
231;   Parameters:
232;       AL:     8259 interrupt index (0...7)
233;       DX:     Port address to Interrupt Mask Register
234;   Returns:
235;       Nothing
236;   Corrupts registers:
237;       AX
238;--------------------------------------------------------------------
239.ClearBitFrom8259MaskRegister:
240    push    cx
241    xchg    cx, ax              ; IRQ index to CL
242    in      al, dx              ; Read Interrupt Mask Register
243    mov     ch, ~1              ; Load bit mask to be rotated
244    rol     ch, cl              ; Rotate mask to correct position for clearing
245    and     al, ch              ; Clear wanted bit
246    out     dx, al              ; Write modified Interrupt Mask Register
247    pop     cx
248.Return:
249    ret
250
251%endif ; MODULE_IRQ
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