Merge branch 'master' of /home/wd/git/u-boot/master/
[platform/kernel/u-boot.git] / examples / standalone / timer.c
1 /*
2  * (C) Copyright 2000
3  * Wolfgang Denk, DENX Software Engineering, wd@denx.de.
4  *
5  * See file CREDITS for list of people who contributed to this
6  * project.
7  *
8  * This program is free software; you can redistribute it and/or
9  * modify it under the terms of the GNU General Public License as
10  * published by the Free Software Foundation; either version 2 of
11  * the License, or (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  * You should have received a copy of the GNU General Public License
19  * along with this program; if not, write to the Free Software
20  * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
21  * MA 02111-1307 USA
22  */
23
24 #include <common.h>
25 #include <commproc.h>
26 #include <mpc8xx_irq.h>
27 #include <exports.h>
28
29 DECLARE_GLOBAL_DATA_PTR;
30
31 #undef  DEBUG
32
33 #define TIMER_PERIOD    1000000         /* 1 second clock */
34
35 static void timer_handler (void *arg);
36
37
38 /* Access functions for the Machine State Register */
39 static __inline__ unsigned long get_msr(void)
40 {
41     unsigned long msr;
42
43     asm volatile("mfmsr %0" : "=r" (msr) :);
44     return msr;
45 }
46
47 static __inline__ void set_msr(unsigned long msr)
48 {
49     asm volatile("mtmsr %0" : : "r" (msr));
50 }
51
52 /*
53  * Definitions to access the CPM Timer registers
54  * See 8xx_immap.h for Internal Memory Map layout,
55  * and commproc.h for CPM Interrupt vectors (aka "IRQ"s)
56  */
57
58 typedef struct tid_8xx_cpmtimer_s {
59   int            cpm_vec;       /* CPM Interrupt Vector for this timer  */
60   ushort        *tgcrp;         /* Pointer to Timer Global Config Reg.  */
61   ushort        *tmrp;          /* Pointer to Timer Mode Register       */
62   ushort        *trrp;          /* Pointer to Timer Reference Register  */
63   ushort        *tcrp;          /* Pointer to Timer Capture Register    */
64   ushort        *tcnp;          /* Pointer to Timer Counter Register    */
65   ushort        *terp;          /* Pointer to Timer Event Register      */
66 } tid_8xx_cpmtimer_t;
67
68 #ifndef CLOCKRATE
69 #  define CLOCKRATE 64
70 #endif
71
72 #define CPMT_CLOCK_DIV          16
73 #define CPMT_MAX_PRESCALER      256
74 #define CPMT_MAX_REFERENCE      65535   /* max. unsigned short */
75
76 #define CPMT_MAX_TICKS          (CPMT_MAX_REFERENCE * CPMT_MAX_PRESCALER)
77 #define CPMT_MAX_TICKS_WITH_DIV (CPMT_MAX_REFERENCE * CPMT_MAX_PRESCALER * CPMT_CLOCK_DIV)
78 #define CPMT_MAX_INTERVAL       (CPMT_MAX_TICKS_WITH_DIV / CLOCKRATE)
79
80 /* For now: always use max. prescaler value */
81 #define CPMT_PRESCALER          (CPMT_MAX_PRESCALER)
82
83 /* CPM Timer Event Register Bits */
84 #define CPMT_EVENT_CAP          0x0001  /* Capture Event                */
85 #define CPMT_EVENT_REF          0x0002  /* Reference Counter Event      */
86
87 /* CPM Timer Global Config Register */
88 #define CPMT_GCR_RST            0x0001  /* Reset  Timer                 */
89 #define CPMT_GCR_STP            0x0002  /* Stop   Timer                 */
90 #define CPMT_GCR_FRZ            0x0004  /* Freeze Timer                 */
91 #define CPMT_GCR_GM_CAS         0x0008  /* Gate Mode / Cascade Timers   */
92 #define CPMT_GCR_MASK           (CPMT_GCR_RST|CPMT_GCR_STP|CPMT_GCR_FRZ|CPMT_GCR_GM_CAS)
93
94 /* CPM Timer Mode register */
95 #define CPMT_MR_GE              0x0001  /* Gate Enable                  */
96 #define CPMT_MR_ICLK_CASC       0x0000  /* Clock internally cascaded    */
97 #define CPMT_MR_ICLK_CLK        0x0002  /* Clock = system clock         */
98 #define CPMT_MR_ICLK_CLKDIV     0x0004  /* Clock = system clock / 16    */
99 #define CPMT_MR_ICLK_TIN        0x0006  /* Clock = TINx signal          */
100 #define CPMT_MR_FRR             0x0008  /* Free Run / Restart           */
101 #define CPMT_MR_ORI             0x0010  /* Out. Reference Interrupt En. */
102 #define CPMT_MR_OM              0x0020  /* Output Mode                  */
103 #define CPMT_MR_CE_DIS          0x0000  /* Capture/Interrupt disabled   */
104 #define CPMT_MR_CE_RISE         0x0040  /* Capt./Interr. on rising  TIN */
105 #define CPMT_MR_CE_FALL         0x0080  /* Capt./Interr. on falling TIN */
106 #define CPMT_MR_CE_ANY          0x00C0  /* Capt./Interr. on any TIN edge*/
107
108
109 /*
110  * which CPM timer to use - index starts at 0 (= timer 1)
111  */
112 #define TID_TIMER_ID    0       /* use CPM timer 1              */
113
114 void setPeriod (tid_8xx_cpmtimer_t *hwp, ulong interval);
115
116 static char *usage = "\n[q, b, e, ?] ";
117
118 int timer (int argc, char *argv[])
119 {
120         cpmtimer8xx_t *cpmtimerp;       /* Pointer to the CPM Timer structure   */
121         tid_8xx_cpmtimer_t hw;
122         tid_8xx_cpmtimer_t *hwp = &hw;
123         int c;
124         int running;
125
126         app_startup(argv);
127
128         /* Pointer to CPM Timer structure */
129         cpmtimerp = &((immap_t *) gd->bd->bi_immr_base)->im_cpmtimer;
130
131         printf ("TIMERS=0x%x\n", (unsigned) cpmtimerp);
132
133         /* Initialize pointers depending on which timer we use */
134         switch (TID_TIMER_ID) {
135         case 0:
136                 hwp->tmrp = &(cpmtimerp->cpmt_tmr1);
137                 hwp->trrp = &(cpmtimerp->cpmt_trr1);
138                 hwp->tcrp = &(cpmtimerp->cpmt_tcr1);
139                 hwp->tcnp = &(cpmtimerp->cpmt_tcn1);
140                 hwp->terp = &(cpmtimerp->cpmt_ter1);
141                 hwp->cpm_vec = CPMVEC_TIMER1;
142                 break;
143         case 1:
144                 hwp->tmrp = &(cpmtimerp->cpmt_tmr2);
145                 hwp->trrp = &(cpmtimerp->cpmt_trr2);
146                 hwp->tcrp = &(cpmtimerp->cpmt_tcr2);
147                 hwp->tcnp = &(cpmtimerp->cpmt_tcn2);
148                 hwp->terp = &(cpmtimerp->cpmt_ter2);
149                 hwp->cpm_vec = CPMVEC_TIMER2;
150                 break;
151         case 2:
152                 hwp->tmrp = &(cpmtimerp->cpmt_tmr3);
153                 hwp->trrp = &(cpmtimerp->cpmt_trr3);
154                 hwp->tcrp = &(cpmtimerp->cpmt_tcr3);
155                 hwp->tcnp = &(cpmtimerp->cpmt_tcn3);
156                 hwp->terp = &(cpmtimerp->cpmt_ter3);
157                 hwp->cpm_vec = CPMVEC_TIMER3;
158                 break;
159         case 3:
160                 hwp->tmrp = &(cpmtimerp->cpmt_tmr4);
161                 hwp->trrp = &(cpmtimerp->cpmt_trr4);
162                 hwp->tcrp = &(cpmtimerp->cpmt_tcr4);
163                 hwp->tcnp = &(cpmtimerp->cpmt_tcn4);
164                 hwp->terp = &(cpmtimerp->cpmt_ter4);
165                 hwp->cpm_vec = CPMVEC_TIMER4;
166                 break;
167         }
168
169         hwp->tgcrp = &cpmtimerp->cpmt_tgcr;
170
171         printf ("Using timer %d\n"
172                         "tgcr @ 0x%x, tmr @ 0x%x, trr @ 0x%x,"
173                         " tcr @ 0x%x, tcn @ 0x%x, ter @ 0x%x\n",
174                         TID_TIMER_ID + 1,
175                         (unsigned) hwp->tgcrp,
176                         (unsigned) hwp->tmrp,
177                         (unsigned) hwp->trrp,
178                         (unsigned) hwp->tcrp,
179                         (unsigned) hwp->tcnp,
180                         (unsigned) hwp->terp
181                         );
182
183         /* reset timer    */
184         *hwp->tgcrp &= ~(CPMT_GCR_MASK << TID_TIMER_ID);
185
186         /* clear all events */
187         *hwp->terp = (CPMT_EVENT_CAP | CPMT_EVENT_REF);
188
189         printf (usage);
190         running = 0;
191         while ((c = getc()) != 'q') {
192             if (c == 'b') {
193
194                 setPeriod (hwp, TIMER_PERIOD);  /* Set period and start ticking */
195
196                 /* Install interrupt handler (enable timer in CIMR) */
197                 install_hdlr (hwp->cpm_vec, timer_handler, hwp);
198
199                 printf ("Enabling timer\n");
200
201                 /* enable timer */
202                 *hwp->tgcrp |= (CPMT_GCR_RST << TID_TIMER_ID);
203                 running = 1;
204
205 #ifdef  DEBUG
206                 printf ("tgcr=0x%x, tmr=0x%x, trr=0x%x,"
207                         " tcr=0x%x, tcn=0x%x, ter=0x%x\n",
208                                 *hwp->tgcrp, *hwp->tmrp, *hwp->trrp,
209                                 *hwp->tcrp,  *hwp->tcnp, *hwp->terp
210                                 );
211 #endif
212             } else if (c == 'e') {
213
214                 printf ("Stopping timer\n");
215
216                 *hwp->tgcrp &= ~(CPMT_GCR_MASK << TID_TIMER_ID);
217                 running = 0;
218
219 #ifdef  DEBUG
220                 printf ("tgcr=0x%x, tmr=0x%x, trr=0x%x,"
221                         " tcr=0x%x, tcn=0x%x, ter=0x%x\n",
222                                 *hwp->tgcrp, *hwp->tmrp, *hwp->trrp,
223                                 *hwp->tcrp,  *hwp->tcnp, *hwp->terp
224                         );
225 #endif
226                 /* Uninstall interrupt handler */
227                 free_hdlr (hwp->cpm_vec);
228
229             } else if (c == '?') {
230 #ifdef  DEBUG
231                 cpic8xx_t *cpm_icp = &((immap_t *) gd->bd->bi_immr_base)->im_cpic;
232                 sysconf8xx_t *siup = &((immap_t *) gd->bd->bi_immr_base)->im_siu_conf;
233 #endif
234
235                 printf ("\ntgcr=0x%x, tmr=0x%x, trr=0x%x,"
236                         " tcr=0x%x, tcn=0x%x, ter=0x%x\n",
237                                 *hwp->tgcrp, *hwp->tmrp, *hwp->trrp,
238                                 *hwp->tcrp,  *hwp->tcnp, *hwp->terp
239                         );
240 #ifdef  DEBUG
241                 printf ("SIUMCR=0x%08lx, SYPCR=0x%08lx,"
242                         " SIMASK=0x%08lx, SIPEND=0x%08lx\n",
243                                 siup->sc_siumcr,
244                                 siup->sc_sypcr,
245                                 siup->sc_simask,
246                                 siup->sc_sipend
247                         );
248
249                 printf ("CIMR=0x%08lx, CICR=0x%08lx, CIPR=0x%08lx\n",
250                         cpm_icp->cpic_cimr,
251                         cpm_icp->cpic_cicr,
252                         cpm_icp->cpic_cipr
253                         );
254 #endif
255             } else {
256                 printf ("\nEnter: q - quit, b - start timer, e - stop timer, ? - get status\n");
257             }
258             printf (usage);
259         }
260         if (running) {
261                 printf ("Stopping timer\n");
262                 *hwp->tgcrp &= ~(CPMT_GCR_MASK << TID_TIMER_ID);
263                 free_hdlr (hwp->cpm_vec);
264         }
265
266         return (0);
267 }
268
269
270 /* Set period in microseconds and start.
271  * Truncate to maximum period if more than this is requested - but warn about it.
272  */
273
274 void setPeriod (tid_8xx_cpmtimer_t *hwp, ulong interval)
275 {
276         unsigned short prescaler;
277         unsigned long ticks;
278
279         printf ("Set interval %ld us\n", interval);
280
281         /* Warn if requesting longer period than possible */
282         if (interval > CPMT_MAX_INTERVAL) {
283                 printf ("Truncate interval %ld to maximum (%d)\n",
284                                 interval, CPMT_MAX_INTERVAL);
285                 interval = CPMT_MAX_INTERVAL;
286         }
287         /*
288          * Check if we want to use clock divider:
289          * Since the reference counter can be incremented only in integer steps,
290          * we try to keep it as big as possible to allow the resulting period to be
291          * as precise as possible.
292          */
293         /* prescaler, enable interrupt, restart after ref count is reached */
294         prescaler = (ushort) ((CPMT_PRESCALER - 1) << 8) |
295                         CPMT_MR_ORI |
296                         CPMT_MR_FRR;
297
298         ticks = ((ulong) CLOCKRATE * interval);
299
300         if (ticks > CPMT_MAX_TICKS) {
301                 ticks /= CPMT_CLOCK_DIV;
302                 prescaler |= CPMT_MR_ICLK_CLKDIV;       /* use system clock divided by 16 */
303         } else {
304                 prescaler |= CPMT_MR_ICLK_CLK;  /* use system clock without divider */
305         }
306
307 #ifdef  DEBUG
308         printf ("clock/%d, prescale factor %d, reference %ld, ticks %ld\n",
309                         (ticks > CPMT_MAX_TICKS) ? CPMT_CLOCK_DIV : 1,
310                         CPMT_PRESCALER,
311                         (ticks / CPMT_PRESCALER),
312                         ticks
313                         );
314 #endif
315
316         /* set prescaler register */
317         *hwp->tmrp = prescaler;
318
319         /* clear timer counter */
320         *hwp->tcnp = 0;
321
322         /* set reference register */
323         *hwp->trrp = (unsigned short) (ticks / CPMT_PRESCALER);
324
325 #ifdef  DEBUG
326         printf ("tgcr=0x%x, tmr=0x%x, trr=0x%x,"
327                 " tcr=0x%x, tcn=0x%x, ter=0x%x\n",
328                         *hwp->tgcrp, *hwp->tmrp, *hwp->trrp,
329                         *hwp->tcrp,  *hwp->tcnp, *hwp->terp
330                 );
331 #endif
332 }
333
334 /*
335  * Handler for CPMVEC_TIMER1 interrupt
336  */
337 static
338 void timer_handler (void *arg)
339 {
340         tid_8xx_cpmtimer_t *hwp = (tid_8xx_cpmtimer_t *)arg;
341
342         /* printf ("** TER1=%04x ** ", *hwp->terp); */
343
344         /* just for demonstration */
345         printf (".");
346
347         /* clear all possible events: Ref. and Cap. */
348         *hwp->terp = (CPMT_EVENT_CAP | CPMT_EVENT_REF);
349 }