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Trailing-Edge - PDP-10 Archives - BB-J724B-SM_1982 - sources/init2.p11
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	.SBTTL	INIT2 - initialization...phase 2(post CHK11)

; this section contains the second phase of initialization.
;  initialization has been separated into two phases
;  so that the first phase can be overlayed by buffers.

.REPT 0


                          COPYRIGHT (c) 1982,1981, 1980, 1979
            DIGITAL EQUIPMENT CORPORATION, maynard, mass.

THIS SOFTWARE IS FURNISHED UNDER A LICENSE AND MAY BE USED AND  COPIED
ONLY  IN  ACCORDANCE  WITH  THE  TERMS  OF  SUCH  LICENSE AND WITH THE
INCLUSION OF THE ABOVE COPYRIGHT NOTICE.  THIS SOFTWARE OR  ANY  OTHER
COPIES  THEREOF MAY NOT BE PROVIDED OR OTHERWISE MADE AVAILABLE TO ANY
OTHER PERSON.  NO TITLE TO AND OWNERSHIP OF  THE  SOFTWARE  IS  HEREBY
TRANSFERRED.

THE INFORMATION IN THIS SOFTWARE IS SUBJECT TO CHANGE  WITHOUT  NOTICE
AND  SHOULD  NOT  BE  CONSTRUED  AS  A COMMITMENT BY DIGITAL EQUIPMENT
CORPORATION.

DIGITAL ASSUMES NO RESPONSIBILITY FOR THE USE OR  RELIABILITY  OF  ITS
SOFTWARE ON EQUIPMENT WHICH IS NOT SUPPLIED BY DIGITAL.

.ENDR
;		REVISION HISTORY


; 4(001) BS	ADDED EDIT NUMBERS
;
; 4(002) BS	ADD CODE TO CREATE THE LINE ENABLE TASK FOR THE DL10 DRIVER
; 4(003) RLS	CHANGE INIT OF FREE STORAGE TO ACCOMODATE NEW STGMAN
; 4(004) RLS	Transform static flow control to static/line control


VINIT2=004

VEDIT=VEDIT+VINIT2
	.SBTTL		DN60 - start the crock

; here when check11 is complete.

DN60:	MTPS	#BR7		;ensure privacy for a while
	MOV	#L0,R1		;1st allocate necessary line blocks
	MOV	NSLINS,R2	;get actual # of lines
	BGT	1$
	STOPCD	BUG
1$:	CMP	R2,#NLINES	;limit to allowed number
	BLE	2$
	MOV	#NLINES,R2
	MOV	R2,NSLINS
2$:	MOV	#LINTBL,R3

5$:	MOV	R1,(R3)+	;stuff lcb ptr in global block
	MOV	R1,R4
	CALL	INITLB		;make it pure as the driven snow
	ADD	#LB.SIZ,R1	;advance to next
	SOB	R2,5$
				;now allocate chunks
	MOV	#CHFST,CHTAIL	;init free list tail ptr
	CLR	R5		;in case TRCCNK is turned on
	MOV	R1,CHLOW	;save location of lowest chunk
10$:	MOV	R1,R0
	ADD	#CHSIZE,R1	;advance to next chunk
	CMP	R1,PHYLIM	;check for memory bound
	BHIS	13$		;whole chunk not within bounds
	MOV	R0,CHHGH	;remember in case last
	CALL	RETCH		;put this chunk on free list
	BR	10$

; here when the list of free chunks is all built.

13$:	MOV	CHFREC,TOTCNT	;set total available chunks
	MOV	CHFREC,FRECNT	;they are all free initially

; now build the tentsk task.  this task interacts with
;  the pdp-10 via the configured interface hardware driver.

	CALL	GETTCB		;get a task control block
	BCS	15$		;failed, fatal error.
	MOV	R0,TCBP1	;TENTSK is the highest priority task
	MOV	#TENTSK,TCPC(R0);set initial pc
	BIS	#BR4,TCPS(R0)	;set its priority level
	CLR	R4		;no line block associated with TENTSK
	CALL	STKINI		;init the task stack
	MOV	R0,TCDLDR	;set task ptr in global

	CLR	TCBP2		;no medium priority tasks
	CLR	TCBP3		;or low order either

; now wait for the pdp-10 to come on line

14$:	CLR	TENALV		;make sure there are no false starts
	MOV	#-6,DLGONE	;pretend 10 has been down for awhile
	JMP	SKDINI		;and go init the scheduler

; here if there isn't enough free storage to get the
;  initial tcbs.  this is a fatal error.

15$:	STOPCD	NCI		;not enough core for initialization
	.SBTTL		INITLB - make line blocks pristine pure


INITLB:	SAVE	<R0,R1>		;make a line block pristine pure
	MOV	R4,R0		;R4/lcb ptr
	SAVE	LB.LNU(R4)	;save the line number

	MOV	#LB.SZ0/2,R1
10$:	CLR	(R0)+
	SOB	R1,10$

	RESTOR	R0		;replace the line number
	MOV	R0,LB.LNU(R4)	;get line number in line block
	ASL	R0		;make word offset
	MOV	LINCSR(R0),LB.SLA(R4) ;store csr address
	MOV	LINVEC(R0),LB.SLV(R4) ;store vector address
	MOV	LINTYP(R0),LB.TYP(R4) ;line driver type
	CALL	LDLENV		;stuff line driver entry vectors

	MOV	#LF.DAC,LB.FGS(R4);makes this line ready for enabling

	RESTOR	<R1,R0>
	RETURN

LDLENV:	SAVE	<R4,R1,R2>	;load line block with line  driver entry pts
				;R4/line block ptr
	MOV	#LB$ENL,R1	;set up line driver entry points
	MOV	LB.TYP(R4),R2	;get line driver type
	ASL	R2
	MOV	DRVTBL(R2),R2	;get entry vector block from line driver
	ADD	#LB.ENV,R4	;ptr to block in line block
10$:	MOV	(R2)+,(R4)+	;xfer to line block
	SOB	R1,10$
	RESTOR	<R2,R1,R4>	;get lcb back
	RETURN

	.MACRO	DRVE	DRIVER
.IF DF,DRIVER
	DRIVER
.IFF
	BUGGER
.ENDC	;.IF DF,DRIVER
.ENDM

DRVTBL:	BUGGER			;ptr's to line driver entry vector blocks
	DRVE	DQENT		;DQ11
	DRVE	KDPENT		;KMC/DUP
	DRVE	DUPENT		;DUP

BUGGER:				;default entry vector for non-resident drivers
	.REPT	T$ENL
	BUGHLT
	.ENDR