;----------- Dandelion Processor Program - I/O Processor ----------- ; DESCRIPTION: Module containing the AltBoot switch subs. ; Last modification by Roy Ogus: January 14, 1982 4:10 PM ; File: AltBoot.asm ; Stored: [Iris]<Workstation>BootEPromRAM.dm ; Written by Roy Ogus. ; Modification History: ; - Created (January 14, 1982 2:25 PM) ; DEFNITIONS: get "SysDefs" get "BootDefs" get "BootLinkDefs" ; EXPORTS: EXP ReadAltBoot ; For PreBoot (and PreBootSimple) EXP DefaultBootVal ; For debugging with Burdock ; IMPORTS: (none) { This code contains the subroutine for reading the AltBoot switch and making the decision.} ; Subroutine: ReadAltBoot. ; After the Boot button is pressed, the AltBoot switch is checked. ; If it is true, then increment the maintenance panel and wait 1 second. ; Repeat until AltBoot is false. The number in the MP is the Boot type. ; Wrap the number around after the maximum Boot type number. ; On exit: ; BootType is set to the MP value. ; If there is no AltBoot, then BootType will be set to 0. ; If The BootType is diagnostic, then set DiagBoot to 1. ; A = 0 => normal AltBoot code ; A # 0 => floppy head cleaning ; Note: BootInit should be called before calling ReadAltBoot, to initialize the MiscClocks1 register. ReadAltBoot: call ClearMPanelExt ; MP = 0000 SetDefaultBoot: mvi a,DefaultBoot ; Set to default value sta BootType DefaultBootVal equ SetDefaultBoot+1 ; Byte for modification by Burdock command file. ReadAltLoop: lxi h,AltBootDelay1 ; Delay about 1/2 sec call DelayExt lxi h,AltBootDelay2 ; Delay about 1/4 sec call DelayExt in MiscInput1 ; Check if AltBoot is true ani AltBootMask jz EndReadAlt ; z => switch not down lxi h,BootType ; Point to BootType inr m ; Increment BootType call IncrMPExt mvi a,MaxBootType+1 ; Check for maximum number cmp m ; Compare Max+1 with BootType jnz ReadAltLoop ; nz => not maximum+1 yet xra a ; Set MP and BootType back to 0 mov m,a ; BootType ← 0 call ClearMPanelExt ; MP ← 0 jmp ReadAltLoop ; Table of DiagBoot values. Indexed by BootType. DiagBootTable: db 1 ; 0: diagnostic rigid db 0 ; 1: rigid db 0 ; 2: floppy db 0 ; 3: ethernet db 1 ; 4: diagnostic ethernet db 1 ; 5: diagnostic floppy db 0 ; 6: alternate ethernet db 1 ; 7: diagnostic Trident1 db 1 ; 8: diagnostic Trident2 db 1 ; 9: diagnostic Trident3 ; Entry for 10 is not needed, since it is the Head cleaning function. ; No more AltBoot. Check if diagnostic AltBoot. ; Note that the range of BootType is checked, in case the default boot was used. EndReadAlt: lda BootType ; Check range of BootType cpi MaxBootType+1 jnc BootTypeTooBig ; nc => BootType >= MaxBootType+1 cpi AltFloppyHeadClean ; Check if Floppy Head cleaning jz FloppyHeadCleanRet ; z => BootType = AltHeadClean ; Is BootType a diagnostic boot? A has BootType. mov c,a ; Form table index in B,C xra a mov b,a lxi h,DiagBootTable ; Point to start of table dad b ; H,L ← Start of Table + BootType mov a,m ; Read value for DiagBoot sta DiagBoot ; and store xra a ; A ← 0, for normal return ret ; Floppy head clean return: FloppyHeadCleanRet: mvi a,0FFH ; A ← #0 ret ; Value of BootType is larger than the maximum. BootTypeTooBig: lxi h,MPStartPhase0 ; Show a Phase 0 error shld MPOffset mvi c,ErrorInvalidBootType ; ERROR: Invalid BootType jmp ErrorReportExt END AltBoot