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kernel: update linux 3.2 to 3.2.13 and refresh patches
[openwrt/openwrt.git] / target / linux / lantiq / patches-3.2 / 0047-MIPS-lantiq-adds-GPTU-driver.patch
1 From b672c54f9ae4504687a80bb51cdfe102bdae96e1 Mon Sep 17 00:00:00 2001
2 From: John Crispin <blogic@openwrt.org>
3 Date: Thu, 29 Sep 2011 17:16:38 +0200
4 Subject: [PATCH 47/70] MIPS: lantiq: adds GPTU driver
5
6 ---
7 arch/mips/include/asm/mach-lantiq/lantiq_timer.h | 155 ++++
8 arch/mips/lantiq/xway/Makefile | 2 +-
9 arch/mips/lantiq/xway/sysctrl.c | 1 +
10 arch/mips/lantiq/xway/timer.c | 846 ++++++++++++++++++++++
11 4 files changed, 1003 insertions(+), 1 deletions(-)
12 create mode 100644 arch/mips/include/asm/mach-lantiq/lantiq_timer.h
13 create mode 100644 arch/mips/lantiq/xway/timer.c
14
15 --- /dev/null
16 +++ b/arch/mips/include/asm/mach-lantiq/lantiq_timer.h
17 @@ -0,0 +1,155 @@
18 +#ifndef __DANUBE_GPTU_DEV_H__2005_07_26__10_19__
19 +#define __DANUBE_GPTU_DEV_H__2005_07_26__10_19__
20 +
21 +
22 +/******************************************************************************
23 + Copyright (c) 2002, Infineon Technologies. All rights reserved.
24 +
25 + No Warranty
26 + Because the program is licensed free of charge, there is no warranty for
27 + the program, to the extent permitted by applicable law. Except when
28 + otherwise stated in writing the copyright holders and/or other parties
29 + provide the program "as is" without warranty of any kind, either
30 + expressed or implied, including, but not limited to, the implied
31 + warranties of merchantability and fitness for a particular purpose. The
32 + entire risk as to the quality and performance of the program is with
33 + you. should the program prove defective, you assume the cost of all
34 + necessary servicing, repair or correction.
35 +
36 + In no event unless required by applicable law or agreed to in writing
37 + will any copyright holder, or any other party who may modify and/or
38 + redistribute the program as permitted above, be liable to you for
39 + damages, including any general, special, incidental or consequential
40 + damages arising out of the use or inability to use the program
41 + (including but not limited to loss of data or data being rendered
42 + inaccurate or losses sustained by you or third parties or a failure of
43 + the program to operate with any other programs), even if such holder or
44 + other party has been advised of the possibility of such damages.
45 +******************************************************************************/
46 +
47 +
48 +/*
49 + * ####################################
50 + * Definition
51 + * ####################################
52 + */
53 +
54 +/*
55 + * Available Timer/Counter Index
56 + */
57 +#define TIMER(n, X) (n * 2 + (X ? 1 : 0))
58 +#define TIMER_ANY 0x00
59 +#define TIMER1A TIMER(1, 0)
60 +#define TIMER1B TIMER(1, 1)
61 +#define TIMER2A TIMER(2, 0)
62 +#define TIMER2B TIMER(2, 1)
63 +#define TIMER3A TIMER(3, 0)
64 +#define TIMER3B TIMER(3, 1)
65 +
66 +/*
67 + * Flag of Timer/Counter
68 + * These flags specify the way in which timer is configured.
69 + */
70 +/* Bit size of timer/counter. */
71 +#define TIMER_FLAG_16BIT 0x0000
72 +#define TIMER_FLAG_32BIT 0x0001
73 +/* Switch between timer and counter. */
74 +#define TIMER_FLAG_TIMER 0x0000
75 +#define TIMER_FLAG_COUNTER 0x0002
76 +/* Stop or continue when overflowing/underflowing. */
77 +#define TIMER_FLAG_ONCE 0x0000
78 +#define TIMER_FLAG_CYCLIC 0x0004
79 +/* Count up or counter down. */
80 +#define TIMER_FLAG_UP 0x0000
81 +#define TIMER_FLAG_DOWN 0x0008
82 +/* Count on specific level or edge. */
83 +#define TIMER_FLAG_HIGH_LEVEL_SENSITIVE 0x0000
84 +#define TIMER_FLAG_LOW_LEVEL_SENSITIVE 0x0040
85 +#define TIMER_FLAG_RISE_EDGE 0x0010
86 +#define TIMER_FLAG_FALL_EDGE 0x0020
87 +#define TIMER_FLAG_ANY_EDGE 0x0030
88 +/* Signal is syncronous to module clock or not. */
89 +#define TIMER_FLAG_UNSYNC 0x0000
90 +#define TIMER_FLAG_SYNC 0x0080
91 +/* Different interrupt handle type. */
92 +#define TIMER_FLAG_NO_HANDLE 0x0000
93 +#if defined(__KERNEL__)
94 + #define TIMER_FLAG_CALLBACK_IN_IRQ 0x0100
95 +#endif // defined(__KERNEL__)
96 +#define TIMER_FLAG_SIGNAL 0x0300
97 +/* Internal clock source or external clock source */
98 +#define TIMER_FLAG_INT_SRC 0x0000
99 +#define TIMER_FLAG_EXT_SRC 0x1000
100 +
101 +
102 +/*
103 + * ioctl Command
104 + */
105 +#define GPTU_REQUEST_TIMER 0x01 /* General method to setup timer/counter. */
106 +#define GPTU_FREE_TIMER 0x02 /* Free timer/counter. */
107 +#define GPTU_START_TIMER 0x03 /* Start or resume timer/counter. */
108 +#define GPTU_STOP_TIMER 0x04 /* Suspend timer/counter. */
109 +#define GPTU_GET_COUNT_VALUE 0x05 /* Get current count value. */
110 +#define GPTU_CALCULATE_DIVIDER 0x06 /* Calculate timer divider from given freq.*/
111 +#define GPTU_SET_TIMER 0x07 /* Simplified method to setup timer. */
112 +#define GPTU_SET_COUNTER 0x08 /* Simplified method to setup counter. */
113 +
114 +/*
115 + * Data Type Used to Call ioctl
116 + */
117 +struct gptu_ioctl_param {
118 + unsigned int timer; /* In command GPTU_REQUEST_TIMER, GPTU_SET_TIMER, and *
119 + * GPTU_SET_COUNTER, this field is ID of expected *
120 + * timer/counter. If it's zero, a timer/counter would *
121 + * be dynamically allocated and ID would be stored in *
122 + * this field. *
123 + * In command GPTU_GET_COUNT_VALUE, this field is *
124 + * ignored. *
125 + * In other command, this field is ID of timer/counter *
126 + * allocated. */
127 + unsigned int flag; /* In command GPTU_REQUEST_TIMER, GPTU_SET_TIMER, and *
128 + * GPTU_SET_COUNTER, this field contains flags to *
129 + * specify how to configure timer/counter. *
130 + * In command GPTU_START_TIMER, zero indicate start *
131 + * and non-zero indicate resume timer/counter. *
132 + * In other command, this field is ignored. */
133 + unsigned long value; /* In command GPTU_REQUEST_TIMER, this field contains *
134 + * init/reload value. *
135 + * In command GPTU_SET_TIMER, this field contains *
136 + * frequency (0.001Hz) of timer. *
137 + * In command GPTU_GET_COUNT_VALUE, current count *
138 + * value would be stored in this field. *
139 + * In command GPTU_CALCULATE_DIVIDER, this field *
140 + * contains frequency wanted, and after calculation, *
141 + * divider would be stored in this field to overwrite *
142 + * the frequency. *
143 + * In other command, this field is ignored. */
144 + int pid; /* In command GPTU_REQUEST_TIMER and GPTU_SET_TIMER, *
145 + * if signal is required, this field contains process *
146 + * ID to which signal would be sent. *
147 + * In other command, this field is ignored. */
148 + int sig; /* In command GPTU_REQUEST_TIMER and GPTU_SET_TIMER, *
149 + * if signal is required, this field contains signal *
150 + * number which would be sent. *
151 + * In other command, this field is ignored. */
152 +};
153 +
154 +/*
155 + * ####################################
156 + * Data Type
157 + * ####################################
158 + */
159 +typedef void (*timer_callback)(unsigned long arg);
160 +
161 +extern int lq_request_timer(unsigned int, unsigned int, unsigned long, unsigned long, unsigned long);
162 +extern int lq_free_timer(unsigned int);
163 +extern int lq_start_timer(unsigned int, int);
164 +extern int lq_stop_timer(unsigned int);
165 +extern int lq_reset_counter_flags(u32 timer, u32 flags);
166 +extern int lq_get_count_value(unsigned int, unsigned long *);
167 +extern u32 lq_cal_divider(unsigned long);
168 +extern int lq_set_timer(unsigned int, unsigned int, int, int, unsigned int, unsigned long, unsigned long);
169 +extern int lq_set_counter(unsigned int timer, unsigned int flag,
170 + u32 reload, unsigned long arg1, unsigned long arg2);
171 +
172 +#endif /* __DANUBE_GPTU_DEV_H__2005_07_26__10_19__ */
173 --- a/arch/mips/lantiq/xway/Makefile
174 +++ b/arch/mips/lantiq/xway/Makefile
175 @@ -1,4 +1,4 @@
176 -obj-y := sysctrl.o reset.o gpio.o gpio_stp.o gpio_ebu.o devices.o dma.o clk.o prom.o nand.o
177 +obj-y := sysctrl.o reset.o gpio.o gpio_stp.o gpio_ebu.o devices.o dma.o clk.o prom.o nand.o timer.o
178
179 obj-$(CONFIG_LANTIQ_MACH_EASY50712) += mach-easy50712.o
180 obj-$(CONFIG_LANTIQ_MACH_EASY50601) += mach-easy50601.o
181 --- a/arch/mips/lantiq/xway/sysctrl.c
182 +++ b/arch/mips/lantiq/xway/sysctrl.c
183 @@ -147,6 +147,7 @@ void __init ltq_soc_init(void)
184 clkdev_add_pmu("ltq_dma", NULL, 0, PMU_DMA);
185 clkdev_add_pmu("ltq_stp", NULL, 0, PMU_STP);
186 clkdev_add_pmu("ltq_spi", NULL, 0, PMU_SPI);
187 + clkdev_add_pmu("ltq_gptu", NULL, 0, PMU_GPT);
188 if (!ltq_is_vr9())
189 clkdev_add_pmu("ltq_etop", NULL, 0, PMU_PPE);
190 if (ltq_is_ase()) {
191 --- /dev/null
192 +++ b/arch/mips/lantiq/xway/timer.c
193 @@ -0,0 +1,846 @@
194 +#include <linux/kernel.h>
195 +#include <linux/module.h>
196 +#include <linux/version.h>
197 +#include <linux/types.h>
198 +#include <linux/fs.h>
199 +#include <linux/miscdevice.h>
200 +#include <linux/init.h>
201 +#include <linux/uaccess.h>
202 +#include <linux/unistd.h>
203 +#include <linux/errno.h>
204 +#include <linux/interrupt.h>
205 +#include <linux/sched.h>
206 +
207 +#include <asm/irq.h>
208 +#include <asm/div64.h>
209 +#include "../clk.h"
210 +
211 +#include <lantiq_soc.h>
212 +#include <lantiq_irq.h>
213 +#include <lantiq_timer.h>
214 +
215 +#define MAX_NUM_OF_32BIT_TIMER_BLOCKS 6
216 +
217 +#ifdef TIMER1A
218 +#define FIRST_TIMER TIMER1A
219 +#else
220 +#define FIRST_TIMER 2
221 +#endif
222 +
223 +/*
224 + * GPTC divider is set or not.
225 + */
226 +#define GPTU_CLC_RMC_IS_SET 0
227 +
228 +/*
229 + * Timer Interrupt (IRQ)
230 + */
231 +/* Must be adjusted when ICU driver is available */
232 +#define TIMER_INTERRUPT (INT_NUM_IM3_IRL0 + 22)
233 +
234 +/*
235 + * Bits Operation
236 + */
237 +#define GET_BITS(x, msb, lsb) \
238 + (((x) & ((1 << ((msb) + 1)) - 1)) >> (lsb))
239 +#define SET_BITS(x, msb, lsb, value) \
240 + (((x) & ~(((1 << ((msb) + 1)) - 1) ^ ((1 << (lsb)) - 1))) | \
241 + (((value) & ((1 << (1 + (msb) - (lsb))) - 1)) << (lsb)))
242 +
243 +/*
244 + * GPTU Register Mapping
245 + */
246 +#define LQ_GPTU (KSEG1 + 0x1E100A00)
247 +#define LQ_GPTU_CLC ((volatile u32 *)(LQ_GPTU + 0x0000))
248 +#define LQ_GPTU_ID ((volatile u32 *)(LQ_GPTU + 0x0008))
249 +#define LQ_GPTU_CON(n, X) ((volatile u32 *)(LQ_GPTU + 0x0010 + ((X) * 4) + ((n) - 1) * 0x0020)) /* X must be either A or B */
250 +#define LQ_GPTU_RUN(n, X) ((volatile u32 *)(LQ_GPTU + 0x0018 + ((X) * 4) + ((n) - 1) * 0x0020)) /* X must be either A or B */
251 +#define LQ_GPTU_RELOAD(n, X) ((volatile u32 *)(LQ_GPTU + 0x0020 + ((X) * 4) + ((n) - 1) * 0x0020)) /* X must be either A or B */
252 +#define LQ_GPTU_COUNT(n, X) ((volatile u32 *)(LQ_GPTU + 0x0028 + ((X) * 4) + ((n) - 1) * 0x0020)) /* X must be either A or B */
253 +#define LQ_GPTU_IRNEN ((volatile u32 *)(LQ_GPTU + 0x00F4))
254 +#define LQ_GPTU_IRNICR ((volatile u32 *)(LQ_GPTU + 0x00F8))
255 +#define LQ_GPTU_IRNCR ((volatile u32 *)(LQ_GPTU + 0x00FC))
256 +
257 +/*
258 + * Clock Control Register
259 + */
260 +#define GPTU_CLC_SMC GET_BITS(*LQ_GPTU_CLC, 23, 16)
261 +#define GPTU_CLC_RMC GET_BITS(*LQ_GPTU_CLC, 15, 8)
262 +#define GPTU_CLC_FSOE (*LQ_GPTU_CLC & (1 << 5))
263 +#define GPTU_CLC_EDIS (*LQ_GPTU_CLC & (1 << 3))
264 +#define GPTU_CLC_SPEN (*LQ_GPTU_CLC & (1 << 2))
265 +#define GPTU_CLC_DISS (*LQ_GPTU_CLC & (1 << 1))
266 +#define GPTU_CLC_DISR (*LQ_GPTU_CLC & (1 << 0))
267 +
268 +#define GPTU_CLC_SMC_SET(value) SET_BITS(0, 23, 16, (value))
269 +#define GPTU_CLC_RMC_SET(value) SET_BITS(0, 15, 8, (value))
270 +#define GPTU_CLC_FSOE_SET(value) ((value) ? (1 << 5) : 0)
271 +#define GPTU_CLC_SBWE_SET(value) ((value) ? (1 << 4) : 0)
272 +#define GPTU_CLC_EDIS_SET(value) ((value) ? (1 << 3) : 0)
273 +#define GPTU_CLC_SPEN_SET(value) ((value) ? (1 << 2) : 0)
274 +#define GPTU_CLC_DISR_SET(value) ((value) ? (1 << 0) : 0)
275 +
276 +/*
277 + * ID Register
278 + */
279 +#define GPTU_ID_ID GET_BITS(*LQ_GPTU_ID, 15, 8)
280 +#define GPTU_ID_CFG GET_BITS(*LQ_GPTU_ID, 7, 5)
281 +#define GPTU_ID_REV GET_BITS(*LQ_GPTU_ID, 4, 0)
282 +
283 +/*
284 + * Control Register of Timer/Counter nX
285 + * n is the index of block (1 based index)
286 + * X is either A or B
287 + */
288 +#define GPTU_CON_SRC_EG(n, X) (*LQ_GPTU_CON(n, X) & (1 << 10))
289 +#define GPTU_CON_SRC_EXT(n, X) (*LQ_GPTU_CON(n, X) & (1 << 9))
290 +#define GPTU_CON_SYNC(n, X) (*LQ_GPTU_CON(n, X) & (1 << 8))
291 +#define GPTU_CON_EDGE(n, X) GET_BITS(*LQ_GPTU_CON(n, X), 7, 6)
292 +#define GPTU_CON_INV(n, X) (*LQ_GPTU_CON(n, X) & (1 << 5))
293 +#define GPTU_CON_EXT(n, X) (*LQ_GPTU_CON(n, A) & (1 << 4)) /* Timer/Counter B does not have this bit */
294 +#define GPTU_CON_STP(n, X) (*LQ_GPTU_CON(n, X) & (1 << 3))
295 +#define GPTU_CON_CNT(n, X) (*LQ_GPTU_CON(n, X) & (1 << 2))
296 +#define GPTU_CON_DIR(n, X) (*LQ_GPTU_CON(n, X) & (1 << 1))
297 +#define GPTU_CON_EN(n, X) (*LQ_GPTU_CON(n, X) & (1 << 0))
298 +
299 +#define GPTU_CON_SRC_EG_SET(value) ((value) ? 0 : (1 << 10))
300 +#define GPTU_CON_SRC_EXT_SET(value) ((value) ? (1 << 9) : 0)
301 +#define GPTU_CON_SYNC_SET(value) ((value) ? (1 << 8) : 0)
302 +#define GPTU_CON_EDGE_SET(value) SET_BITS(0, 7, 6, (value))
303 +#define GPTU_CON_INV_SET(value) ((value) ? (1 << 5) : 0)
304 +#define GPTU_CON_EXT_SET(value) ((value) ? (1 << 4) : 0)
305 +#define GPTU_CON_STP_SET(value) ((value) ? (1 << 3) : 0)
306 +#define GPTU_CON_CNT_SET(value) ((value) ? (1 << 2) : 0)
307 +#define GPTU_CON_DIR_SET(value) ((value) ? (1 << 1) : 0)
308 +
309 +#define GPTU_RUN_RL_SET(value) ((value) ? (1 << 2) : 0)
310 +#define GPTU_RUN_CEN_SET(value) ((value) ? (1 << 1) : 0)
311 +#define GPTU_RUN_SEN_SET(value) ((value) ? (1 << 0) : 0)
312 +
313 +#define GPTU_IRNEN_TC_SET(n, X, value) ((value) ? (1 << (((n) - 1) * 2 + (X))) : 0)
314 +#define GPTU_IRNCR_TC_SET(n, X, value) ((value) ? (1 << (((n) - 1) * 2 + (X))) : 0)
315 +
316 +#define TIMER_FLAG_MASK_SIZE(x) (x & 0x0001)
317 +#define TIMER_FLAG_MASK_TYPE(x) (x & 0x0002)
318 +#define TIMER_FLAG_MASK_STOP(x) (x & 0x0004)
319 +#define TIMER_FLAG_MASK_DIR(x) (x & 0x0008)
320 +#define TIMER_FLAG_NONE_EDGE 0x0000
321 +#define TIMER_FLAG_MASK_EDGE(x) (x & 0x0030)
322 +#define TIMER_FLAG_REAL 0x0000
323 +#define TIMER_FLAG_INVERT 0x0040
324 +#define TIMER_FLAG_MASK_INVERT(x) (x & 0x0040)
325 +#define TIMER_FLAG_MASK_TRIGGER(x) (x & 0x0070)
326 +#define TIMER_FLAG_MASK_SYNC(x) (x & 0x0080)
327 +#define TIMER_FLAG_CALLBACK_IN_HB 0x0200
328 +#define TIMER_FLAG_MASK_HANDLE(x) (x & 0x0300)
329 +#define TIMER_FLAG_MASK_SRC(x) (x & 0x1000)
330 +
331 +struct timer_dev_timer {
332 + unsigned int f_irq_on;
333 + unsigned int irq;
334 + unsigned int flag;
335 + unsigned long arg1;
336 + unsigned long arg2;
337 +};
338 +
339 +struct timer_dev {
340 + struct mutex gptu_mutex;
341 + unsigned int number_of_timers;
342 + unsigned int occupation;
343 + unsigned int f_gptu_on;
344 + struct timer_dev_timer timer[MAX_NUM_OF_32BIT_TIMER_BLOCKS * 2];
345 +};
346 +
347 +unsigned long ltq_danube_fpi_bus_clock(int fpi);
348 +unsigned long ltq_vr9_fpi_bus_clock(int fpi);
349 +
350 +unsigned int ltq_get_fpi_bus_clock(int fpi) {
351 + if (ltq_is_ase())
352 + return CLOCK_133M;
353 + else if (ltq_is_vr9())
354 + return ltq_vr9_fpi_bus_clock(fpi);
355 +
356 + return ltq_danube_fpi_bus_clock(fpi);
357 +}
358 +
359 +
360 +static long gptu_ioctl(struct file *, unsigned int, unsigned long);
361 +static int gptu_open(struct inode *, struct file *);
362 +static int gptu_release(struct inode *, struct file *);
363 +
364 +static struct file_operations gptu_fops = {
365 + .owner = THIS_MODULE,
366 + .unlocked_ioctl = gptu_ioctl,
367 + .open = gptu_open,
368 + .release = gptu_release
369 +};
370 +
371 +static struct miscdevice gptu_miscdev = {
372 + .minor = MISC_DYNAMIC_MINOR,
373 + .name = "gptu",
374 + .fops = &gptu_fops,
375 +};
376 +
377 +static struct timer_dev timer_dev;
378 +
379 +static irqreturn_t timer_irq_handler(int irq, void *p)
380 +{
381 + unsigned int timer;
382 + unsigned int flag;
383 + struct timer_dev_timer *dev_timer = (struct timer_dev_timer *)p;
384 +
385 + timer = irq - TIMER_INTERRUPT;
386 + if (timer < timer_dev.number_of_timers
387 + && dev_timer == &timer_dev.timer[timer]) {
388 + /* Clear interrupt. */
389 + ltq_w32(1 << timer, LQ_GPTU_IRNCR);
390 +
391 + /* Call user hanler or signal. */
392 + flag = dev_timer->flag;
393 + if (!(timer & 0x01)
394 + || TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT) {
395 + /* 16-bit timer or timer A of 32-bit timer */
396 + switch (TIMER_FLAG_MASK_HANDLE(flag)) {
397 + case TIMER_FLAG_CALLBACK_IN_IRQ:
398 + case TIMER_FLAG_CALLBACK_IN_HB:
399 + if (dev_timer->arg1)
400 + (*(timer_callback)dev_timer->arg1)(dev_timer->arg2);
401 + break;
402 + case TIMER_FLAG_SIGNAL:
403 + send_sig((int)dev_timer->arg2, (struct task_struct *)dev_timer->arg1, 0);
404 + break;
405 + }
406 + }
407 + }
408 + return IRQ_HANDLED;
409 +}
410 +
411 +static inline void lq_enable_gptu(void)
412 +{
413 + struct clk *clk = clk_get_sys("ltq_gptu", NULL);
414 + clk_enable(clk);
415 +
416 + //ltq_pmu_enable(PMU_GPT);
417 +
418 + /* Set divider as 1, disable write protection for SPEN, enable module. */
419 + *LQ_GPTU_CLC =
420 + GPTU_CLC_SMC_SET(0x00) |
421 + GPTU_CLC_RMC_SET(0x01) |
422 + GPTU_CLC_FSOE_SET(0) |
423 + GPTU_CLC_SBWE_SET(1) |
424 + GPTU_CLC_EDIS_SET(0) |
425 + GPTU_CLC_SPEN_SET(0) |
426 + GPTU_CLC_DISR_SET(0);
427 +}
428 +
429 +static inline void lq_disable_gptu(void)
430 +{
431 + struct clk *clk = clk_get_sys("ltq_gptu", NULL);
432 + ltq_w32(0x00, LQ_GPTU_IRNEN);
433 + ltq_w32(0xfff, LQ_GPTU_IRNCR);
434 +
435 + /* Set divider as 0, enable write protection for SPEN, disable module. */
436 + *LQ_GPTU_CLC =
437 + GPTU_CLC_SMC_SET(0x00) |
438 + GPTU_CLC_RMC_SET(0x00) |
439 + GPTU_CLC_FSOE_SET(0) |
440 + GPTU_CLC_SBWE_SET(0) |
441 + GPTU_CLC_EDIS_SET(0) |
442 + GPTU_CLC_SPEN_SET(0) |
443 + GPTU_CLC_DISR_SET(1);
444 +
445 + clk_enable(clk);
446 +}
447 +
448 +int lq_request_timer(unsigned int timer, unsigned int flag,
449 + unsigned long value, unsigned long arg1, unsigned long arg2)
450 +{
451 + int ret = 0;
452 + unsigned int con_reg, irnen_reg;
453 + int n, X;
454 +
455 + if (timer >= FIRST_TIMER + timer_dev.number_of_timers)
456 + return -EINVAL;
457 +
458 + printk(KERN_INFO "request_timer(%d, 0x%08X, %lu)...",
459 + timer, flag, value);
460 +
461 + if (TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT)
462 + value &= 0xFFFF;
463 + else
464 + timer &= ~0x01;
465 +
466 + mutex_lock(&timer_dev.gptu_mutex);
467 +
468 + /*
469 + * Allocate timer.
470 + */
471 + if (timer < FIRST_TIMER) {
472 + unsigned int mask;
473 + unsigned int shift;
474 + /* This takes care of TIMER1B which is the only choice for Voice TAPI system */
475 + unsigned int offset = TIMER2A;
476 +
477 + /*
478 + * Pick up a free timer.
479 + */
480 + if (TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT) {
481 + mask = 1 << offset;
482 + shift = 1;
483 + } else {
484 + mask = 3 << offset;
485 + shift = 2;
486 + }
487 + for (timer = offset;
488 + timer < offset + timer_dev.number_of_timers;
489 + timer += shift, mask <<= shift)
490 + if (!(timer_dev.occupation & mask)) {
491 + timer_dev.occupation |= mask;
492 + break;
493 + }
494 + if (timer >= offset + timer_dev.number_of_timers) {
495 + printk("failed![%d]\n", __LINE__);
496 + mutex_unlock(&timer_dev.gptu_mutex);
497 + return -EINVAL;
498 + } else
499 + ret = timer;
500 + } else {
501 + register unsigned int mask;
502 +
503 + /*
504 + * Check if the requested timer is free.
505 + */
506 + mask = (TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT ? 1 : 3) << timer;
507 + if ((timer_dev.occupation & mask)) {
508 + printk("failed![%d] mask %#x, timer_dev.occupation %#x\n",
509 + __LINE__, mask, timer_dev.occupation);
510 + mutex_unlock(&timer_dev.gptu_mutex);
511 + return -EBUSY;
512 + } else {
513 + timer_dev.occupation |= mask;
514 + ret = 0;
515 + }
516 + }
517 +
518 + /*
519 + * Prepare control register value.
520 + */
521 + switch (TIMER_FLAG_MASK_EDGE(flag)) {
522 + default:
523 + case TIMER_FLAG_NONE_EDGE:
524 + con_reg = GPTU_CON_EDGE_SET(0x00);
525 + break;
526 + case TIMER_FLAG_RISE_EDGE:
527 + con_reg = GPTU_CON_EDGE_SET(0x01);
528 + break;
529 + case TIMER_FLAG_FALL_EDGE:
530 + con_reg = GPTU_CON_EDGE_SET(0x02);
531 + break;
532 + case TIMER_FLAG_ANY_EDGE:
533 + con_reg = GPTU_CON_EDGE_SET(0x03);
534 + break;
535 + }
536 + if (TIMER_FLAG_MASK_TYPE(flag) == TIMER_FLAG_TIMER)
537 + con_reg |=
538 + TIMER_FLAG_MASK_SRC(flag) ==
539 + TIMER_FLAG_EXT_SRC ? GPTU_CON_SRC_EXT_SET(1) :
540 + GPTU_CON_SRC_EXT_SET(0);
541 + else
542 + con_reg |=
543 + TIMER_FLAG_MASK_SRC(flag) ==
544 + TIMER_FLAG_EXT_SRC ? GPTU_CON_SRC_EG_SET(1) :
545 + GPTU_CON_SRC_EG_SET(0);
546 + con_reg |=
547 + TIMER_FLAG_MASK_SYNC(flag) ==
548 + TIMER_FLAG_UNSYNC ? GPTU_CON_SYNC_SET(0) :
549 + GPTU_CON_SYNC_SET(1);
550 + con_reg |=
551 + TIMER_FLAG_MASK_INVERT(flag) ==
552 + TIMER_FLAG_REAL ? GPTU_CON_INV_SET(0) : GPTU_CON_INV_SET(1);
553 + con_reg |=
554 + TIMER_FLAG_MASK_SIZE(flag) ==
555 + TIMER_FLAG_16BIT ? GPTU_CON_EXT_SET(0) :
556 + GPTU_CON_EXT_SET(1);
557 + con_reg |=
558 + TIMER_FLAG_MASK_STOP(flag) ==
559 + TIMER_FLAG_ONCE ? GPTU_CON_STP_SET(1) : GPTU_CON_STP_SET(0);
560 + con_reg |=
561 + TIMER_FLAG_MASK_TYPE(flag) ==
562 + TIMER_FLAG_TIMER ? GPTU_CON_CNT_SET(0) :
563 + GPTU_CON_CNT_SET(1);
564 + con_reg |=
565 + TIMER_FLAG_MASK_DIR(flag) ==
566 + TIMER_FLAG_UP ? GPTU_CON_DIR_SET(1) : GPTU_CON_DIR_SET(0);
567 +
568 + /*
569 + * Fill up running data.
570 + */
571 + timer_dev.timer[timer - FIRST_TIMER].flag = flag;
572 + timer_dev.timer[timer - FIRST_TIMER].arg1 = arg1;
573 + timer_dev.timer[timer - FIRST_TIMER].arg2 = arg2;
574 + if (TIMER_FLAG_MASK_SIZE(flag) != TIMER_FLAG_16BIT)
575 + timer_dev.timer[timer - FIRST_TIMER + 1].flag = flag;
576 +
577 + /*
578 + * Enable GPTU module.
579 + */
580 + if (!timer_dev.f_gptu_on) {
581 + lq_enable_gptu();
582 + timer_dev.f_gptu_on = 1;
583 + }
584 +
585 + /*
586 + * Enable IRQ.
587 + */
588 + if (TIMER_FLAG_MASK_HANDLE(flag) != TIMER_FLAG_NO_HANDLE) {
589 + if (TIMER_FLAG_MASK_HANDLE(flag) == TIMER_FLAG_SIGNAL)
590 + timer_dev.timer[timer - FIRST_TIMER].arg1 =
591 + (unsigned long) find_task_by_vpid((int) arg1);
592 +
593 + irnen_reg = 1 << (timer - FIRST_TIMER);
594 +
595 + if (TIMER_FLAG_MASK_HANDLE(flag) == TIMER_FLAG_SIGNAL
596 + || (TIMER_FLAG_MASK_HANDLE(flag) ==
597 + TIMER_FLAG_CALLBACK_IN_IRQ
598 + && timer_dev.timer[timer - FIRST_TIMER].arg1)) {
599 + enable_irq(timer_dev.timer[timer - FIRST_TIMER].irq);
600 + timer_dev.timer[timer - FIRST_TIMER].f_irq_on = 1;
601 + }
602 + } else
603 + irnen_reg = 0;
604 +
605 + /*
606 + * Write config register, reload value and enable interrupt.
607 + */
608 + n = timer >> 1;
609 + X = timer & 0x01;
610 + *LQ_GPTU_CON(n, X) = con_reg;
611 + *LQ_GPTU_RELOAD(n, X) = value;
612 + /* printk("reload value = %d\n", (u32)value); */
613 + *LQ_GPTU_IRNEN |= irnen_reg;
614 +
615 + mutex_unlock(&timer_dev.gptu_mutex);
616 + printk("successful!\n");
617 + return ret;
618 +}
619 +EXPORT_SYMBOL(lq_request_timer);
620 +
621 +int lq_free_timer(unsigned int timer)
622 +{
623 + unsigned int flag;
624 + unsigned int mask;
625 + int n, X;
626 +
627 + if (!timer_dev.f_gptu_on)
628 + return -EINVAL;
629 +
630 + if (timer < FIRST_TIMER || timer >= FIRST_TIMER + timer_dev.number_of_timers)
631 + return -EINVAL;
632 +
633 + mutex_lock(&timer_dev.gptu_mutex);
634 +
635 + flag = timer_dev.timer[timer - FIRST_TIMER].flag;
636 + if (TIMER_FLAG_MASK_SIZE(flag) != TIMER_FLAG_16BIT)
637 + timer &= ~0x01;
638 +
639 + mask = (TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT ? 1 : 3) << timer;
640 + if (((timer_dev.occupation & mask) ^ mask)) {
641 + mutex_unlock(&timer_dev.gptu_mutex);
642 + return -EINVAL;
643 + }
644 +
645 + n = timer >> 1;
646 + X = timer & 0x01;
647 +
648 + if (GPTU_CON_EN(n, X))
649 + *LQ_GPTU_RUN(n, X) = GPTU_RUN_CEN_SET(1);
650 +
651 + *LQ_GPTU_IRNEN &= ~GPTU_IRNEN_TC_SET(n, X, 1);
652 + *LQ_GPTU_IRNCR |= GPTU_IRNCR_TC_SET(n, X, 1);
653 +
654 + if (timer_dev.timer[timer - FIRST_TIMER].f_irq_on) {
655 + disable_irq(timer_dev.timer[timer - FIRST_TIMER].irq);
656 + timer_dev.timer[timer - FIRST_TIMER].f_irq_on = 0;
657 + }
658 +
659 + timer_dev.occupation &= ~mask;
660 + if (!timer_dev.occupation && timer_dev.f_gptu_on) {
661 + lq_disable_gptu();
662 + timer_dev.f_gptu_on = 0;
663 + }
664 +
665 + mutex_unlock(&timer_dev.gptu_mutex);
666 +
667 + return 0;
668 +}
669 +EXPORT_SYMBOL(lq_free_timer);
670 +
671 +int lq_start_timer(unsigned int timer, int is_resume)
672 +{
673 + unsigned int flag;
674 + unsigned int mask;
675 + int n, X;
676 +
677 + if (!timer_dev.f_gptu_on)
678 + return -EINVAL;
679 +
680 + if (timer < FIRST_TIMER || timer >= FIRST_TIMER + timer_dev.number_of_timers)
681 + return -EINVAL;
682 +
683 + mutex_lock(&timer_dev.gptu_mutex);
684 +
685 + flag = timer_dev.timer[timer - FIRST_TIMER].flag;
686 + if (TIMER_FLAG_MASK_SIZE(flag) != TIMER_FLAG_16BIT)
687 + timer &= ~0x01;
688 +
689 + mask = (TIMER_FLAG_MASK_SIZE(flag) ==
690 + TIMER_FLAG_16BIT ? 1 : 3) << timer;
691 + if (((timer_dev.occupation & mask) ^ mask)) {
692 + mutex_unlock(&timer_dev.gptu_mutex);
693 + return -EINVAL;
694 + }
695 +
696 + n = timer >> 1;
697 + X = timer & 0x01;
698 +
699 + *LQ_GPTU_RUN(n, X) = GPTU_RUN_RL_SET(!is_resume) | GPTU_RUN_SEN_SET(1);
700 +
701 + mutex_unlock(&timer_dev.gptu_mutex);
702 +
703 + return 0;
704 +}
705 +EXPORT_SYMBOL(lq_start_timer);
706 +
707 +int lq_stop_timer(unsigned int timer)
708 +{
709 + unsigned int flag;
710 + unsigned int mask;
711 + int n, X;
712 +
713 + if (!timer_dev.f_gptu_on)
714 + return -EINVAL;
715 +
716 + if (timer < FIRST_TIMER
717 + || timer >= FIRST_TIMER + timer_dev.number_of_timers)
718 + return -EINVAL;
719 +
720 + mutex_lock(&timer_dev.gptu_mutex);
721 +
722 + flag = timer_dev.timer[timer - FIRST_TIMER].flag;
723 + if (TIMER_FLAG_MASK_SIZE(flag) != TIMER_FLAG_16BIT)
724 + timer &= ~0x01;
725 +
726 + mask = (TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT ? 1 : 3) << timer;
727 + if (((timer_dev.occupation & mask) ^ mask)) {
728 + mutex_unlock(&timer_dev.gptu_mutex);
729 + return -EINVAL;
730 + }
731 +
732 + n = timer >> 1;
733 + X = timer & 0x01;
734 +
735 + *LQ_GPTU_RUN(n, X) = GPTU_RUN_CEN_SET(1);
736 +
737 + mutex_unlock(&timer_dev.gptu_mutex);
738 +
739 + return 0;
740 +}
741 +EXPORT_SYMBOL(lq_stop_timer);
742 +
743 +int lq_reset_counter_flags(u32 timer, u32 flags)
744 +{
745 + unsigned int oflag;
746 + unsigned int mask, con_reg;
747 + int n, X;
748 +
749 + if (!timer_dev.f_gptu_on)
750 + return -EINVAL;
751 +
752 + if (timer < FIRST_TIMER || timer >= FIRST_TIMER + timer_dev.number_of_timers)
753 + return -EINVAL;
754 +
755 + mutex_lock(&timer_dev.gptu_mutex);
756 +
757 + oflag = timer_dev.timer[timer - FIRST_TIMER].flag;
758 + if (TIMER_FLAG_MASK_SIZE(oflag) != TIMER_FLAG_16BIT)
759 + timer &= ~0x01;
760 +
761 + mask = (TIMER_FLAG_MASK_SIZE(oflag) == TIMER_FLAG_16BIT ? 1 : 3) << timer;
762 + if (((timer_dev.occupation & mask) ^ mask)) {
763 + mutex_unlock(&timer_dev.gptu_mutex);
764 + return -EINVAL;
765 + }
766 +
767 + switch (TIMER_FLAG_MASK_EDGE(flags)) {
768 + default:
769 + case TIMER_FLAG_NONE_EDGE:
770 + con_reg = GPTU_CON_EDGE_SET(0x00);
771 + break;
772 + case TIMER_FLAG_RISE_EDGE:
773 + con_reg = GPTU_CON_EDGE_SET(0x01);
774 + break;
775 + case TIMER_FLAG_FALL_EDGE:
776 + con_reg = GPTU_CON_EDGE_SET(0x02);
777 + break;
778 + case TIMER_FLAG_ANY_EDGE:
779 + con_reg = GPTU_CON_EDGE_SET(0x03);
780 + break;
781 + }
782 + if (TIMER_FLAG_MASK_TYPE(flags) == TIMER_FLAG_TIMER)
783 + con_reg |= TIMER_FLAG_MASK_SRC(flags) == TIMER_FLAG_EXT_SRC ? GPTU_CON_SRC_EXT_SET(1) : GPTU_CON_SRC_EXT_SET(0);
784 + else
785 + con_reg |= TIMER_FLAG_MASK_SRC(flags) == TIMER_FLAG_EXT_SRC ? GPTU_CON_SRC_EG_SET(1) : GPTU_CON_SRC_EG_SET(0);
786 + con_reg |= TIMER_FLAG_MASK_SYNC(flags) == TIMER_FLAG_UNSYNC ? GPTU_CON_SYNC_SET(0) : GPTU_CON_SYNC_SET(1);
787 + con_reg |= TIMER_FLAG_MASK_INVERT(flags) == TIMER_FLAG_REAL ? GPTU_CON_INV_SET(0) : GPTU_CON_INV_SET(1);
788 + con_reg |= TIMER_FLAG_MASK_SIZE(flags) == TIMER_FLAG_16BIT ? GPTU_CON_EXT_SET(0) : GPTU_CON_EXT_SET(1);
789 + con_reg |= TIMER_FLAG_MASK_STOP(flags) == TIMER_FLAG_ONCE ? GPTU_CON_STP_SET(1) : GPTU_CON_STP_SET(0);
790 + con_reg |= TIMER_FLAG_MASK_TYPE(flags) == TIMER_FLAG_TIMER ? GPTU_CON_CNT_SET(0) : GPTU_CON_CNT_SET(1);
791 + con_reg |= TIMER_FLAG_MASK_DIR(flags) == TIMER_FLAG_UP ? GPTU_CON_DIR_SET(1) : GPTU_CON_DIR_SET(0);
792 +
793 + timer_dev.timer[timer - FIRST_TIMER].flag = flags;
794 + if (TIMER_FLAG_MASK_SIZE(flags) != TIMER_FLAG_16BIT)
795 + timer_dev.timer[timer - FIRST_TIMER + 1].flag = flags;
796 +
797 + n = timer >> 1;
798 + X = timer & 0x01;
799 +
800 + *LQ_GPTU_CON(n, X) = con_reg;
801 + smp_wmb();
802 + printk(KERN_INFO "[%s]: counter%d oflags %#x, nflags %#x, GPTU_CON %#x\n", __func__, timer, oflag, flags, *LQ_GPTU_CON(n, X));
803 + mutex_unlock(&timer_dev.gptu_mutex);
804 + return 0;
805 +}
806 +EXPORT_SYMBOL(lq_reset_counter_flags);
807 +
808 +int lq_get_count_value(unsigned int timer, unsigned long *value)
809 +{
810 + unsigned int flag;
811 + unsigned int mask;
812 + int n, X;
813 +
814 + if (!timer_dev.f_gptu_on)
815 + return -EINVAL;
816 +
817 + if (timer < FIRST_TIMER
818 + || timer >= FIRST_TIMER + timer_dev.number_of_timers)
819 + return -EINVAL;
820 +
821 + mutex_lock(&timer_dev.gptu_mutex);
822 +
823 + flag = timer_dev.timer[timer - FIRST_TIMER].flag;
824 + if (TIMER_FLAG_MASK_SIZE(flag) != TIMER_FLAG_16BIT)
825 + timer &= ~0x01;
826 +
827 + mask = (TIMER_FLAG_MASK_SIZE(flag) == TIMER_FLAG_16BIT ? 1 : 3) << timer;
828 + if (((timer_dev.occupation & mask) ^ mask)) {
829 + mutex_unlock(&timer_dev.gptu_mutex);
830 + return -EINVAL;
831 + }
832 +
833 + n = timer >> 1;
834 + X = timer & 0x01;
835 +
836 + *value = *LQ_GPTU_COUNT(n, X);
837 +
838 + mutex_unlock(&timer_dev.gptu_mutex);
839 +
840 + return 0;
841 +}
842 +EXPORT_SYMBOL(lq_get_count_value);
843 +
844 +u32 lq_cal_divider(unsigned long freq)
845 +{
846 + u64 module_freq, fpi = ltq_get_fpi_bus_clock(2);
847 + u32 clock_divider = 1;
848 + module_freq = fpi * 1000;
849 + do_div(module_freq, clock_divider * freq);
850 + return module_freq;
851 +}
852 +EXPORT_SYMBOL(lq_cal_divider);
853 +
854 +int lq_set_timer(unsigned int timer, unsigned int freq, int is_cyclic,
855 + int is_ext_src, unsigned int handle_flag, unsigned long arg1,
856 + unsigned long arg2)
857 +{
858 + unsigned long divider;
859 + unsigned int flag;
860 +
861 + divider = lq_cal_divider(freq);
862 + if (divider == 0)
863 + return -EINVAL;
864 + flag = ((divider & ~0xFFFF) ? TIMER_FLAG_32BIT : TIMER_FLAG_16BIT)
865 + | (is_cyclic ? TIMER_FLAG_CYCLIC : TIMER_FLAG_ONCE)
866 + | (is_ext_src ? TIMER_FLAG_EXT_SRC : TIMER_FLAG_INT_SRC)
867 + | TIMER_FLAG_TIMER | TIMER_FLAG_DOWN
868 + | TIMER_FLAG_MASK_HANDLE(handle_flag);
869 +
870 + printk(KERN_INFO "lq_set_timer(%d, %d), divider = %lu\n",
871 + timer, freq, divider);
872 + return lq_request_timer(timer, flag, divider, arg1, arg2);
873 +}
874 +EXPORT_SYMBOL(lq_set_timer);
875 +
876 +int lq_set_counter(unsigned int timer, unsigned int flag, u32 reload,
877 + unsigned long arg1, unsigned long arg2)
878 +{
879 + printk(KERN_INFO "lq_set_counter(%d, %#x, %d)\n", timer, flag, reload);
880 + return lq_request_timer(timer, flag, reload, arg1, arg2);
881 +}
882 +EXPORT_SYMBOL(lq_set_counter);
883 +
884 +static long gptu_ioctl(struct file *file, unsigned int cmd,
885 + unsigned long arg)
886 +{
887 + int ret;
888 + struct gptu_ioctl_param param;
889 +
890 + if (!access_ok(VERIFY_READ, arg, sizeof(struct gptu_ioctl_param)))
891 + return -EFAULT;
892 + copy_from_user(&param, (void *) arg, sizeof(param));
893 +
894 + if ((((cmd == GPTU_REQUEST_TIMER || cmd == GPTU_SET_TIMER
895 + || GPTU_SET_COUNTER) && param.timer < 2)
896 + || cmd == GPTU_GET_COUNT_VALUE || cmd == GPTU_CALCULATE_DIVIDER)
897 + && !access_ok(VERIFY_WRITE, arg,
898 + sizeof(struct gptu_ioctl_param)))
899 + return -EFAULT;
900 +
901 + switch (cmd) {
902 + case GPTU_REQUEST_TIMER:
903 + ret = lq_request_timer(param.timer, param.flag, param.value,
904 + (unsigned long) param.pid,
905 + (unsigned long) param.sig);
906 + if (ret > 0) {
907 + copy_to_user(&((struct gptu_ioctl_param *) arg)->
908 + timer, &ret, sizeof(&ret));
909 + ret = 0;
910 + }
911 + break;
912 + case GPTU_FREE_TIMER:
913 + ret = lq_free_timer(param.timer);
914 + break;
915 + case GPTU_START_TIMER:
916 + ret = lq_start_timer(param.timer, param.flag);
917 + break;
918 + case GPTU_STOP_TIMER:
919 + ret = lq_stop_timer(param.timer);
920 + break;
921 + case GPTU_GET_COUNT_VALUE:
922 + ret = lq_get_count_value(param.timer, &param.value);
923 + if (!ret)
924 + copy_to_user(&((struct gptu_ioctl_param *) arg)->
925 + value, &param.value,
926 + sizeof(param.value));
927 + break;
928 + case GPTU_CALCULATE_DIVIDER:
929 + param.value = lq_cal_divider(param.value);
930 + if (param.value == 0)
931 + ret = -EINVAL;
932 + else {
933 + copy_to_user(&((struct gptu_ioctl_param *) arg)->
934 + value, &param.value,
935 + sizeof(param.value));
936 + ret = 0;
937 + }
938 + break;
939 + case GPTU_SET_TIMER:
940 + ret = lq_set_timer(param.timer, param.value,
941 + TIMER_FLAG_MASK_STOP(param.flag) !=
942 + TIMER_FLAG_ONCE ? 1 : 0,
943 + TIMER_FLAG_MASK_SRC(param.flag) ==
944 + TIMER_FLAG_EXT_SRC ? 1 : 0,
945 + TIMER_FLAG_MASK_HANDLE(param.flag) ==
946 + TIMER_FLAG_SIGNAL ? TIMER_FLAG_SIGNAL :
947 + TIMER_FLAG_NO_HANDLE,
948 + (unsigned long) param.pid,
949 + (unsigned long) param.sig);
950 + if (ret > 0) {
951 + copy_to_user(&((struct gptu_ioctl_param *) arg)->
952 + timer, &ret, sizeof(&ret));
953 + ret = 0;
954 + }
955 + break;
956 + case GPTU_SET_COUNTER:
957 + lq_set_counter(param.timer, param.flag, param.value, 0, 0);
958 + if (ret > 0) {
959 + copy_to_user(&((struct gptu_ioctl_param *) arg)->
960 + timer, &ret, sizeof(&ret));
961 + ret = 0;
962 + }
963 + break;
964 + default:
965 + ret = -ENOTTY;
966 + }
967 +
968 + return ret;
969 +}
970 +
971 +static int gptu_open(struct inode *inode, struct file *file)
972 +{
973 + return 0;
974 +}
975 +
976 +static int gptu_release(struct inode *inode, struct file *file)
977 +{
978 + return 0;
979 +}
980 +
981 +int __init lq_gptu_init(void)
982 +{
983 + int ret;
984 + unsigned int i;
985 +
986 + ltq_w32(0, LQ_GPTU_IRNEN);
987 + ltq_w32(0xfff, LQ_GPTU_IRNCR);
988 +
989 + memset(&timer_dev, 0, sizeof(timer_dev));
990 + mutex_init(&timer_dev.gptu_mutex);
991 +
992 + lq_enable_gptu();
993 + timer_dev.number_of_timers = GPTU_ID_CFG * 2;
994 + lq_disable_gptu();
995 + if (timer_dev.number_of_timers > MAX_NUM_OF_32BIT_TIMER_BLOCKS * 2)
996 + timer_dev.number_of_timers = MAX_NUM_OF_32BIT_TIMER_BLOCKS * 2;
997 + printk(KERN_INFO "gptu: totally %d 16-bit timers/counters\n", timer_dev.number_of_timers);
998 +
999 + ret = misc_register(&gptu_miscdev);
1000 + if (ret) {
1001 + printk(KERN_ERR "gptu: can't misc_register, get error %d\n", -ret);
1002 + return ret;
1003 + } else {
1004 + printk(KERN_INFO "gptu: misc_register on minor %d\n", gptu_miscdev.minor);
1005 + }
1006 +
1007 + for (i = 0; i < timer_dev.number_of_timers; i++) {
1008 + ret = request_irq(TIMER_INTERRUPT + i, timer_irq_handler, IRQF_TIMER, gptu_miscdev.name, &timer_dev.timer[i]);
1009 + if (ret) {
1010 + for (; i >= 0; i--)
1011 + free_irq(TIMER_INTERRUPT + i, &timer_dev.timer[i]);
1012 + misc_deregister(&gptu_miscdev);
1013 + printk(KERN_ERR "gptu: failed in requesting irq (%d), get error %d\n", i, -ret);
1014 + return ret;
1015 + } else {
1016 + timer_dev.timer[i].irq = TIMER_INTERRUPT + i;
1017 + disable_irq(timer_dev.timer[i].irq);
1018 + printk(KERN_INFO "gptu: succeeded to request irq %d\n", timer_dev.timer[i].irq);
1019 + }
1020 + }
1021 +
1022 + return 0;
1023 +}
1024 +
1025 +void __exit lq_gptu_exit(void)
1026 +{
1027 + unsigned int i;
1028 +
1029 + for (i = 0; i < timer_dev.number_of_timers; i++) {
1030 + if (timer_dev.timer[i].f_irq_on)
1031 + disable_irq(timer_dev.timer[i].irq);
1032 + free_irq(timer_dev.timer[i].irq, &timer_dev.timer[i]);
1033 + }
1034 + lq_disable_gptu();
1035 + misc_deregister(&gptu_miscdev);
1036 +}
1037 +
1038 +module_init(lq_gptu_init);
1039 +module_exit(lq_gptu_exit);
OpenWrt Source Repository