filename | src/sh4/dmac.c |
changeset | 54:d8b73031289c |
next | 422:61a0598e07ff |
author | nkeynes |
date | Wed Mar 22 14:29:02 2006 +0000 (18 years ago) |
permissions | -rw-r--r-- |
last change | Rename IDE DMA registers appropriately Remove forced irq hack Add correct irq handling for IDE Miscellaneous WIP for the GD-rom drive |
view | annotate | diff | log | raw |
1 /**
2 * $Id: dmac.c,v 1.1 2006-01-01 08:08:40 nkeynes Exp $
3 *
4 * SH4 onboard DMA controller (DMAC) peripheral.
5 *
6 * Copyright (c) 2005 Nathan Keynes.
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 */
18 #define MODULE sh4_module
20 #include "dream.h"
21 #include "mem.h"
22 #include "sh4/sh4core.h"
23 #include "sh4/sh4mmio.h"
24 #include "sh4/intc.h"
25 #include "sh4/dmac.h"
27 static int DMAC_xfer_size[8] = {8, 1, 2, 4, 32, 1, 1, 1};
29 /* Control flags */
30 #define CHCR_IE 0x04 /* Interrupt Enable */
31 #define CHCR_TE 0x02 /* Transfer End */
32 #define CHCR_DE 0x01 /* DMAC Enable */
34 #define IS_DMAC_ENABLED() ((MMIO_READ(DMAC,DMAOR)&0x07) == 0x01)
36 #define IS_AUTO_REQUEST(val) ((val & 0x0C00) == 0x0400)
37 #define CHANNEL_RESOURCE(val) ((val >> 8) & 0x0F)
39 #define DMA_SOURCE(chan) MMIO_READ(DMAC, SAR0 + (chan<<4))
40 #define DMA_DEST(chan) MMIO_READ(DMAC, DAR0 + (chan<<4))
41 #define DMA_COUNT(chan) (MMIO_READ(DMAC, DMATCR0 + (chan<<4)) & 0x00FFFFFF)
42 #define DMA_CONTROL(chan) MMIO_READ(DMAC, CHCR0 + (chan<<4))
43 #define IS_CHANNEL_ENABLED(ctrl) ((ctrl & 0x03) == 0x01)
44 #define IS_CHANNEL_IRQ_ENABLED(ctrl) (ctrl & CHCR_IE)
45 #define IS_CHANNEL_IRQ_ACTIVE(ctrl) ((ctrl & (CHCR_IE|CHCR_TE)) == (CHCR_IE|CHCR_TE))
47 #define DMARES_MEMORY_TO_MEMORY 0x00
48 #define DMARES_MEMORY_TO_DEVICE 0x02
49 #define DMARES_DEVICE_TO_MEMORY 0x03
50 #define DMARES_MEMORY_TO_MEMORY_AUTO 0x04
51 #define DMARES_MEMORY_TO_PERIPH_AUTO 0x05
52 #define DMARES_PERIPH_TO_MEMORY_AUTO 0x06
53 #define DMARES_SCI_TRANSMIT_EMPTY 0x08
54 #define DMARES_SCI_RECEIVE_FULL 0x09
55 #define DMARES_SCIF_TRANSMIT_EMPTY 0x0A
56 #define DMARES_SCIF_RECEIVE_FULL 0x0B
57 #define DMARES_MEMORY_TO_MEMORY_TMU 0x0C
58 #define DMARES_MEMORY_TO_PERIPH_TMU 0x0D
59 #define DMARES_PERIPH_TO_MEMORY_TMU 0x0E
61 void DMAC_set_control( uint32_t channel, uint32_t val )
62 {
63 uint32_t oldval = DMA_CONTROL(channel);
64 int resource;
65 MMIO_WRITE( DMAC, CHCR0 + (channel<<4), val );
67 /* If TE or IE are cleared, clear the interrupt request */
68 if( IS_CHANNEL_IRQ_ACTIVE(oldval) &&
69 !IS_CHANNEL_IRQ_ACTIVE(val) )
70 intc_clear_interrupt( INT_DMA_DMTE0+channel );
72 resource = CHANNEL_RESOURCE(val);
73 if( IS_CHANNEL_ENABLED(val) ) {
74 if( resource >= DMARES_MEMORY_TO_MEMORY_AUTO &&
75 resource < DMARES_SCI_TRANSMIT_EMPTY ) {
76 /* Autorun */
77 }
78 }
80 /* Everything else we don't need to care about until we actually try to
81 * run the channel
82 */
83 }
85 int32_t mmio_region_DMAC_read( uint32_t reg )
86 {
87 return MMIO_READ( DMAC, reg );
88 }
90 void mmio_region_DMAC_write( uint32_t reg, uint32_t val )
91 {
92 switch( reg ) {
93 case DMAOR:
94 MMIO_WRITE( DMAC, reg, val );
95 break;
96 case CHCR0: DMAC_set_control( 0, val ); break;
97 case CHCR1: DMAC_set_control( 1, val ); break;
98 case CHCR2: DMAC_set_control( 2, val ); break;
99 case CHCR3: DMAC_set_control( 3, val ); break;
100 default:
101 MMIO_WRITE( DMAC, reg, val );
102 }
103 }
105 /**
106 * Execute up to run_count transfers on the specified channel. Assumes the
107 * trigger for the channel has been received.
108 *
109 * @param channel Channel number (0-3) to run.
110 * @param run_count number of transfers to execute, or 0 to run to the
111 * end of the transfer count.
112 * @return actual number of transfers run
113 */
114 int DMAC_run_channel( uint32_t channel, uint32_t run_count )
115 {
116 char burst[32]; /* Transfer burst */
117 uint32_t control = DMA_CONTROL(channel);
119 if( IS_CHANNEL_ENABLED(control) ) {
120 uint32_t source = DMA_SOURCE(channel);
121 uint32_t dest = DMA_DEST(channel);
122 uint32_t count = DMA_COUNT( channel );
123 if( count == 0 )
124 count = 0x01000000;
125 if( run_count == 0 || run_count > count )
126 run_count = count;
127 uint32_t xfersize = DMAC_xfer_size[ (control >> 4)&0x07 ];
128 int source_step, dest_step;
129 int resource = (control >> 8) & 0x0F;
130 switch( (control >> 14) & 0x03 ) {
131 case 0: dest_step = 0; break;
132 case 1: dest_step = xfersize; break;
133 case 2: dest_step = -xfersize; break;
134 case 3: dest_step = 0; break; /* Illegal */
135 }
136 switch( (control >> 12) & 0x03 ) {
137 case 0: source_step = 0; break;
138 case 1: source_step = xfersize; break;
139 case 2: source_step = -xfersize; break;
140 case 3: source_step = 0; break; /* Illegal */
141 }
143 while( run_count > 0 ) {
144 /* Origin */
145 if( (resource & 0x02) == 0 ) {
146 /* Source is a normal memory address */
148 } else {
149 /* Device */
150 }
152 /* Destination */
153 if( (resource & 0x01) == 0 ) {
154 /* Destination is a normal memory address */
155 } else {
156 }
157 run_count--;
158 count--;
159 }
160 }
161 }
163 /**
164 * Fetch a block of data by DMA from memory to an external device (ie the
165 * ASIC). The DMA channel must be configured for Mem=>dev or it will return
166 * no bytes and whinge mightily. Note this is NOT used for SH4 peripheral
167 * transfers.
168 *
169 * @return the number of bytes actually transferred.
170 */
171 uint32_t DMAC_get_buffer( int channel, char *buf, uint32_t numBytes )
172 {
173 uint32_t control = DMA_CONTROL(channel);
174 uint32_t source, count, run_count, size, i;
175 char tmp[32];
177 if( !IS_CHANNEL_ENABLED(control) || !IS_DMAC_ENABLED() )
178 return 0;
180 if( ((control >> 8) & 0x0F) != DMARES_MEMORY_TO_DEVICE ) {
181 /* Error? */
183 return 0;
184 }
186 source = DMA_SOURCE(channel);
187 count = DMA_COUNT(channel);
188 if( count == 0 ) count = 0x01000000;
190 size = DMAC_xfer_size[ (control >> 4)&0x07 ];
191 run_count = numBytes / size;
192 if( run_count > count || run_count == 0 )
193 run_count = count;
195 /* Do copy - FIXME: doesn't work when crossing regions */
196 char *region = mem_get_region( source );
197 switch( (control >> 12) & 0x03 ) {
198 case 0:
199 memcpy( tmp, region, size );
200 for( i=0; i<run_count; i++ ) {
201 memcpy( buf, tmp, size );
202 buf += size;
203 }
204 break;
205 case 1:
206 i = run_count * size;
207 memcpy( buf, region, i );
208 source += i;
209 break;
210 case 2:
211 for( i=0; i<run_count; i++ ) {
212 memcpy( buf, region, size );
213 buf += size;
214 region -= size;
215 }
216 source -= (run_count * size);
217 break;
218 default:
219 return 0; /* Illegal */
220 }
222 /* Update the channel registers */
223 count -= run_count;
224 MMIO_WRITE( DMAC, SAR0 + (channel<<4), source );
225 MMIO_WRITE( DMAC, DMATCR0 + (channel<<4), count );
226 if( count == 0 ) {
227 control |= CHCR_TE;
228 if( IS_CHANNEL_IRQ_ENABLED(control) )
229 intc_raise_interrupt( INT_DMA_DMTE0 + channel );
230 MMIO_WRITE( DMAC, CHCR0 + (channel<<4), control );
231 }
233 return run_count * size;
234 }
236 uint32_t DMAC_put_buffer( int channel, char *buf, uint32_t numBytes )
237 {
238 uint32_t control = DMA_CONTROL(channel);
239 uint32_t dest, count, run_count, size, i;
240 char tmp[32];
242 if( !IS_CHANNEL_ENABLED(control) || !IS_DMAC_ENABLED() )
243 return 0;
245 if( ((control >> 8) & 0x0F) != DMARES_DEVICE_TO_MEMORY ) {
246 /* Error? */
247 return 0;
248 }
250 dest = DMA_DEST(channel);
251 count = DMA_COUNT(channel);
252 if( count == 0 ) count = 0x01000000;
254 size = DMAC_xfer_size[ (control >> 4)&0x07 ];
255 run_count = numBytes / size;
256 if( run_count > count || run_count == 0 )
257 run_count = count;
259 /* Do copy - FIXME: doesn't work when crossing regions */
260 char *region = mem_get_region( dest );
261 switch( (control >> 12) & 0x03 ) {
262 case 0:
263 for( i=0; i<run_count; i++ ) {
264 /* Doesn't make a whole lot of sense, but hey... */
265 memcpy( region, buf, size );
266 buf += size;
267 }
268 break;
269 case 1:
270 i = run_count * size;
271 memcpy( region, buf, i );
272 dest += i;
273 break;
274 case 2:
275 for( i=0; i<run_count; i++ ) {
276 memcpy( region, buf, size );
277 buf += size;
278 region -= size;
279 }
280 dest -= (run_count * size);
281 break;
282 default:
283 return 0; /* Illegal */
284 }
286 /* Update the channel registers */
287 count -= run_count;
288 MMIO_WRITE( DMAC, DAR0 + (channel<<4), dest );
289 MMIO_WRITE( DMAC, DMATCR0 + (channel<<4), count );
290 if( count == 0 ) {
291 control |= CHCR_TE;
292 if( IS_CHANNEL_IRQ_ENABLED(control) )
293 intc_raise_interrupt( INT_DMA_DMTE0 + channel );
294 MMIO_WRITE( DMAC, CHCR0 + (channel<<4), control );
295 }
296 return run_count * size;
297 }
299 void DMAC_reset( void )
300 {
302 }
304 void DMAC_save_state( FILE *F )
305 {
307 }
309 int DMAC_load_state( FILE *f )
310 {
311 return 0;
312 }
314 void DMAC_trigger( int resource )
315 {
316 int i;
317 if( !IS_DMAC_ENABLED() )
318 return;
319 for( i=0; i<4; i++ ) {
320 uint32_t control = DMA_CONTROL(i);
321 if( IS_CHANNEL_ENABLED(control) ) {
322 uint32_t channel_res = CHANNEL_RESOURCE(control);
323 switch( resource ) {
324 case DMAC_EXTERNAL:
325 if( channel_res == DMARES_MEMORY_TO_MEMORY )
326 DMAC_run_channel(i,1);
327 break;
328 case DMAC_SCI_TDE:
329 if( channel_res == DMARES_SCI_TRANSMIT_EMPTY )
330 DMAC_run_channel(i,1);
331 break;
332 case DMAC_SCI_RDF:
333 if( channel_res == DMARES_SCI_RECEIVE_FULL )
334 DMAC_run_channel(i,1);
335 break;
336 case DMAC_SCIF_TDE:
337 if( channel_res == DMARES_SCIF_TRANSMIT_EMPTY )
338 DMAC_run_channel(i,1);
339 break;
340 case DMAC_SCIF_RDF:
341 if( channel_res == DMARES_SCIF_RECEIVE_FULL )
342 DMAC_run_channel(i,1);
343 break;
344 case DMAC_TMU_ICI:
345 if( channel_res >= DMARES_MEMORY_TO_MEMORY_TMU )
346 DMAC_run_channel(i,1);
347 break;
348 }
349 }
350 }
351 }
.