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timeint.s@ c65a0e2

Last change on this file since c65a0e2 was c65a0e2, checked in by Thomas Lopatic <thomas@…>, 7 years ago
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1	* ------------------------------------------------------------------------------
2	* timeint.s -- MIDAS-VII timer interrupt handler
3	* Version 15 -- 1989-07-20 -- D.N. Lynx Crowe
4	* ------------------------------------------------------------------------------
5	*
6	* This code replaces the interrupt handler in bios.s, which is known to
7	* have a bug in it, and adds support for the VSDD and an array of programable
8	* timers with 1 Ms resolution.
9	*
10	* WARNING: There are equates to addresses in the bios EPROM which may change
11	* when the bios is reassembled. If the bios is reassembled be sure to update
12	* the equates flagged by "<<<=====".
13	*
14	* The addresses currently in the equates are for EPROMs dated 1988-04-18 or
15	* 1988-06-20 ONLY.
16	*
17	* ------------------------------------------------------------------------------
18	* Hardware timer usage:
19	* ---------------------
20	* Timer 1 PLL divider for score clock -- fixed at 64
21	* Timer 2 PLL divider for score clock -- nominally 3200
22	* Timer 3 1 Ms Real Time Clock
23	*
24	* ------------------------------------------------------------------------------
25	*
26	.text
27	*
28	.xdef _tsetup * tsetup() -- timer setup function
29	.xdef timeint * timer interrupt handler
30	*
31	.xdef _M1IoRec * MIDI channel 1 IoRec
32	.xdef _M2IoRec * MIDI channel 2 IoRec
33	.xdef _S1IoRec * RS232 channel 1 IoRec
34	.xdef _S2IoRec * RS232 channel 2 IoRec
35	.xdef _timers * timer array -- short timers[NTIMERS]
36	.xdef _vi_clk * VSDD scroll delay timer
37	.xdef _vi_tag * VSDD VI tag
38	*
39	.xref lclsadr * score object base address
40	.xref lclscrl * score object scroll offset
41	.xref _v_odtab * VSDD object descriptor table
42	*
43	.page
44	* ==============================================================================
45	*
46	FRAMES .equ 0 * set non-zero to enable frame pulses
47	*
48	* Equates to variables in bios.s:
49	* -------------------------------
50	* These variables are permanently assigned.
51	*
52	TIMEVEC .equ $00000400 * LONG - System timer trap vector
53	*
54	FC_SW .equ $00000420 * WORD - Frame clock switch
55	FC_VAL .equ $00000422 * LONG - Frame clock value
56	*
57	HZ_1K .equ $0000049A * LONG - 1000 Hz clock
58	HZ_200 .equ $0000049E * LONG - 200 Hz clock
59	FRCLOCK .equ $000004A2 * LONG - 50 Hz clock
60	*
61	T3COUNT .equ $000004AA * WORD - Timer 3 count
62	*
63	* ------------------------------------------------------------------------------
64	*
65	* WARNING: The address of "FLOCK" depends on the version of the bios EPROM.
66	* The address below is for EPROMs dated 1988-04-18 or 1988-06-20 ONLY.
67	*
68	FLOCK .equ $00000E0C * WORD - Floppy semaphore <<<=====
69	*
70	* ==============================================================================
71	*
72	* Equates to routines in bios.s:
73	* ------------------------------
74	*
75	* WARNING: The address of "FLOPVBL" depends on the version of the bios EPROM.
76	* The address below is for EPROMs dated 1988-04-18 or 1988-06-20 ONLY.
77	*
78	FLOPVBL .equ $001015EE * floppy VI handler address <<<=====
79	*
80	* ==============================================================================
81	*
82	.page
83	*
84	* Hardware address equates:
85	* -------------------------
86	TI_VEC .equ $00000070 * Timer interrupt autovector
87	*
88	TIMER .equ $003A0001 * Timer base address
89	M1_ACIA .equ $003AC001 * MIDI ACIA channel 1 base address
90	*
91	* ------------------------------------------------------------------------------
92	*
93	* Timer register equates:
94	* -----------------------
95	TIME_CRX .equ TIMER * Control register 1 or 3
96	TIME_CR2 .equ TIMER+2 * Control register 2
97	TIME_T1H .equ TIMER+4 * Timer 1 high byte
98	TIME_T1L .equ TIMER+6 * Timer 1 low byte
99	TIME_T2H .equ TIMER+8 * Timer 2 high byte
100	TIME_T2L .equ TIMER+10 * Timer 2 low byte
101	TIME_T3H .equ TIMER+12 * Timer 3 high byte
102	TIME_T3L .equ TIMER+14 * Timer 3 low byte
103	*
104	* Serial I/O equates:
105	* -------------------
106	ACIA_CFR .equ 2 * CFR offset from ACIA base
107	DTR_BIT .equ 1 * DTR bit in ACIA CFR1
108	*
109	IO_CFR1 .equ 29 * cfr1 offset in M1IoRec
110	*
111	* ==============================================================================
112	*
113	* Miscellaneous equates:
114	* ----------------------
115	IPL7 .equ $0700 * IPL mask for interrupt disable
116	*
117	FCMAX .equ $00FFFFFF * Maximum frame counter value
118	FCMIN .equ $00000000 * Minimum frame counter value
119	*
120	NTIMERS .equ 8 * Number of timers in the timer array
121	*
122	XBIOS .equ 14 * XBIOS TRAP number
123	X_PIOREC .equ 0 * X_PIOREC code
124	SR1_DEV .equ 0 * RS232 ACIA channel 1
125	SR2_DEV .equ 1 * RS232 ACIA channel 2
126	MC1_DEV .equ 3 * MIDI ACIA channel 1
127	MC2_DEV .equ 4 * MIDI ACIA channel 2
128	* ==============================================================================
129	*
130	.page
131	* ==============================================================================
132	* _tsetup -- tsetup() -- timer setup function
133	* ==============================================================================
134	*
135	_tsetup: move.w sr,-(a7) * Save old interrupt mask
136	ori.w #IPL7,sr * Disable interrupts
137	*
138	move.w #SR1_DEV,-(a7) * Establish S1IoRec
139	move.w #X_PIOREC,-(a7) * ...
140	trap #XBIOS * ...
141	add.l #4,a7 * ...
142	move.l d0,_S1IoRec * ...
143	*
144	move.w #SR2_DEV,-(a7) * Establish S2IoRec
145	move.w #X_PIOREC,-(a7) * ...
146	trap #XBIOS * ...
147	add.l #4,a7 * ...
148	move.l d0,_S2IoRec * ...
149	*
150	move.w #MC1_DEV,-(a7) * Establish M1IoRec
151	move.w #X_PIOREC,-(a7) * ...
152	trap #XBIOS * ...
153	add.l #4,a7 * ...
154	move.l d0,_M1IoRec * ...
155	*
156	move.w #MC2_DEV,-(a7) * Establish M2IoRec
157	move.w #X_PIOREC,-(a7) * ...
158	trap #XBIOS * ...
159	add.l #4,a7 * ...
160	move.l d0,_M2IoRec * ...
161	*
162	.page
163	*
164	clr.w FC_SW * Stop the frame clock
165	clr.l FC_VAL * ... and reset it
166	clr.w _vi_tag * Clear VSDD VI tag
167	clr.w _vi_clk * Clear VSDD delay timer
168	clr.w lclsadr * Clear score scroll address
169	clr.w lclscrl * Clear score scroll offset
170	*
171	lea _timers,a0 * Point at timer array
172	move.w #NTIMERS-1,d0 * Setup to clear timer array
173	*
174	tclr: clr.w (a0)+ * Clear a timer array entry
175	dbra d0,tclr * Loop until done
176	*
177	move.l #nullrts,TIMEVEC * Set timer interrupt vector
178	move.l #timeint,TI_VEC * Set timer trap vector
179	*
180	move.b #$00,TIME_T1H * Setup timer 1 (PLL)
181	move.b #$1F,TIME_T1L * ... for divide by 64
182	move.b #$0C,TIME_T2H * Setup timer 2 (FC)
183	move.b #$7F,TIME_T2L * ... for divide by 3200
184	move.b #$03,TIME_T3H * Setup timer 3 (RTC)
185	move.b #$20,TIME_T3L * ... for 1Ms interval
186	move.b #$42,TIME_CRX * Setup CR3
187	move.b #$41,TIME_CR2 * Setup CR2
188	move.b #$81,TIME_CRX * Setup CR1
189	move.b #$80,TIME_CRX * Start the timers
190	*
191	move.w (a7)+,sr * Restore interrupts
192	*
193	nullrts: rts * Return to caller
194	*
195	.page
196	* ==============================================================================
197	* timeint -- timer interrupt handler
198	* ==============================================================================
199	*
200	timeint: movem.l d0-d7/a0-a6,-(a7) * Save registers
201	move.b TIME_CR2,d0 * Get timer interrupt status
202	* ------------------------------------------------------------------------------
203	* process 1 MS timer
204	* ------------------------------------------------------------------------------
205	btst.l #2,d0 * Check timer 3 status
206	beq tmi02 * Jump if not active
207	*
208	move.b TIME_T3H,d1 * Read timer 3 count
209	lsl.w #8,d1 * ...
210	move.b TIME_T3L,d1 * ...
211	move.w d1,T3COUNT * ... and save it
212	*
213	addq.l #1,HZ_1K * Update 1ms clock (1 KHz)
214	*
215	move.l d0,-(a7) * Preserve D0
216	* ------------------------------------------------------------------------------
217	* process VSDD timer
218	* ------------------------------------------------------------------------------
219	tst.w _vi_tag * Does the VSDD need service ?
220	beq updtime * Jump if not
221	*
222	move.w _vi_clk,d0 * Get VSDD scroll delay timer
223	subq.w #1,d0 * Decrement timer
224	move.w d0,_vi_clk * Update timer
225	bne updtime * Jump if it's not zero yet
226	*
227	move.w lclsadr,_v_odtab+12 * Update scroll address
228	move.w lclscrl,_v_odtab+10 * Update scroll offset
229	clr.w _vi_tag * Reset the tag
230	*
231	.page
232	*
233	* ------------------------------------------------------------------------------
234	* process programable timers
235	* ------------------------------------------------------------------------------
236	*
237	updtime: move.w #NTIMERS-1,d0 * Setup timer array counter
238	lea _timers,a0 * Point at timer array
239	*
240	tdcr: move.w (a0),d1 * Get timer array entry
241	beq tdcr1 * Jump if already 0
242	*
243	subq.w #1,d1 * Decrement timer
244	*
245	tdcr1: move.w d1,(a0)+ * Store updated timer value
246	dbra d0,tdcr * Loop until done
247	*
248	* ------------------------------------------------------------------------------
249	* process timer hook vector
250	* ------------------------------------------------------------------------------
251	movea.l TIMEVEC,a0 * Get RTC vector
252	move.w #1,-(a7) * Pass 1 msec on stack
253	jsr (a0) * Process RTC vector
254	addq.l #2,a7 * Clean up stack
255	*
256	move.l (a7)+,d0 * Restore D0
257	*
258	.page
259	* ------------------------------------------------------------------------------
260	* process 5 Ms clock
261	* ------------------------------------------------------------------------------
262	move.w tdiv1,d1 * Update divider
263	addq.w #1,d1 * ...
264	move.w d1,tdiv1 * ...
265	*
266	cmpi.w #5,d1 * Do we need to update HZ_200 ?
267	blt tmi02 * Jump if not
268	*
269	addq.l #1,HZ_200 * Update 5ms clock (200 Hz)
270	* ------------------------------------------------------------------------------
271	* process 20 Ms floppy clock
272	* ------------------------------------------------------------------------------
273	move.w tdiv2,d1 * Update divider
274	addq.w #1,d1 * ...
275	move.w d1,tdiv2 * ...
276	*
277	cmpi.w #4,d1 * Do we need to update FRCLOCK ?
278	blt tmi01 * Jump if not
279	*
280	addq.l #1,FRCLOCK * Update 20 Ms clock (50 Hz)
281	tst.w FLOCK * See if floppy is active
282	bne tmi00 * Don't call FLOPVBL if so
283	*
284	jsr FLOPVBL * Check on the floppy
285	*
286	tmi00: move.w #0,tdiv2 * Reset tdiv2
287	*
288	tmi01: move.w #0,tdiv1 * Reset tdiv1
289	*
290	.page
291	* ------------------------------------------------------------------------------
292	* process PLL timers
293	* ------------------------------------------------------------------------------
294	*
295	tmi02: btst.l #0,d0 * Check timer 1 int
296	beq tmi03 * Jump if not set
297	*
298	move.b TIME_T1H,d1 * Read timer 1 to clear int.
299	move.b TIME_T1L,d1 * ...
300	*
301	tmi03: btst.l #1,d0 * Check for timer 2 int.
302	beq tmi04 * Jump if not set
303	*
304	move.b TIME_T2H,d1 * Read timer 2 to clear int.
305	move.b TIME_T2L,d1 * ...
306	*
307	.page
308	* ------------------------------------------------------------------------------
309	* update score frame counter
310	* ------------------------------------------------------------------------------
311	tst.w FC_SW * Should we update the frame ?
312	beq tmi04 * Jump if not
313	*
314	bmi tmi05 * Jump if we count down
315	*
316	move.l FC_VAL,d0 * Get the frame count
317	cmp.l #FCMAX,d0 * See it we've topped out
318	bge tmi06 * Jump if limit was hit
319	*
320	addq.l #1,d0 * Count up 1 frame
321	move.l d0,FC_VAL * Store updated frame count
322	*
323	.ifne FRAMES
324	move.w sr,d1 * Preserve interrupt status
325	ori.w #$0700,sr * Disable interrupts
326	*
327	movea.l _M1IoRec,a0 * Point at M1IoRec
328	move.b IO_CFR1(a0),d0 * Get MIDI-1 CFR1 value
329	or.b #$80,d0 * Force MSB = 1 for CFR1 output
330	movea.l #M1_ACIA,a0 * Point at MIDI-1 ACIA channel
331	bchg.l #DTR_BIT,d0 * Toggle DTR for output
332	move.b d0,ACIA_CFR(a0) * Output toggled DTR
333	bchg.l #DTR_BIT,d0 * Toggle DTR for output
334	move.b d0,ACIA_CFR(a0) * Output toggled DTR
335	move.w d1,sr * Restore interrupts
336	.endc
337	*
338	bra tmi04 * Done
339	*
340	tmi07: move.l #FCMIN,FC_VAL * Force hard limit, just in case
341	bra tmi04 * Done
342	*
343	tmi06: move.l #FCMAX,FC_VAL * Force hard limit, just in case
344	bra tmi04 * Done
345	*
346	tmi05: move.l FC_VAL,d0 * Get the frame count
347	ble tmi07 * Done if already counted down
348	*
349	subq.l #1,d0 * Count down 1 frame
350	move.l d0,FC_VAL * Store udpated frame count
351	bra tmi04 * Done
352	*
353	nop * Filler to force equal paths
354	*
355	tmi04: movem.l (a7)+,d0-d7/a0-a6 * Restore registers
356	rte * Return to interrupted code
357	*
358	.page
359	* ==============================================================================
360	.bss
361	* ==============================================================================
362	*
363	* A note on tdiv1 and tdiv2:
364	* --------------------------
365	*
366	* tdiv1 and tdiv2 are actually defined in the bios, but since they could move
367	* we define them here and ignore the ones in the bios.
368	*
369	tdiv1: ds.w 1 * Timer divider 1 (divides HZ_1K)
370	tdiv2: ds.w 1 * Timer divider 2 (divides HZ_200)
371	*
372	* ------------------------------------------------------------------------------
373	*
374	_timers: ds.w NTIMERS * Timer array -- short timers[NTIMERS];
375	*
376	_vi_clk: ds.w 1 * VSDD scroll delay timer
377	_vi_tag: ds.w 1 * VSDD VI 'needs service' tag
378	*
379	_S1IoRec: ds.l 1 * address of RS232 channel 1 IoRec
380	_S2IoRec: ds.l 1 * address of RS232 channel 2 IoRec
381	_M1IoRec: ds.l 1 * address of MIDI channel 1 IoRec
382	_M2IoRec: ds.l 1 * address of MIDI channel 2 IoRec
383	* ==============================================================================
384	*
385	.end

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