2 * Provides I2C support for Philips PNX010x/PNX4008 boards.
4 * Authors: Dennis Kovalev <dkovalev@ru.mvista.com>
5 * Vitaly Wool <vwool@ru.mvista.com>
7 * 2004-2006 (c) MontaVista Software, Inc. This file is licensed under
8 * the terms of the GNU General Public License version 2. This program
9 * is licensed "as is" without any warranty of any kind, whether express
13 #include <linux/module.h>
14 #include <linux/interrupt.h>
15 #include <linux/ioport.h>
16 #include <linux/delay.h>
17 #include <linux/i2c.h>
18 #include <linux/timer.h>
19 #include <linux/completion.h>
20 #include <linux/platform_device.h>
21 #include <linux/i2c-pnx.h>
23 #include <linux/err.h>
24 #include <linux/clk.h>
25 #include <linux/slab.h>
26 #include <linux/of_i2c.h>
28 #define I2C_PNX_TIMEOUT_DEFAULT 10 /* msec */
29 #define I2C_PNX_SPEED_KHZ_DEFAULT 100
30 #define I2C_PNX_REGION_SIZE 0x100
33 mstatus_tdi = 0x00000001,
34 mstatus_afi = 0x00000002,
35 mstatus_nai = 0x00000004,
36 mstatus_drmi = 0x00000008,
37 mstatus_active = 0x00000020,
38 mstatus_scl = 0x00000040,
39 mstatus_sda = 0x00000080,
40 mstatus_rff = 0x00000100,
41 mstatus_rfe = 0x00000200,
42 mstatus_tff = 0x00000400,
43 mstatus_tfe = 0x00000800,
47 mcntrl_tdie = 0x00000001,
48 mcntrl_afie = 0x00000002,
49 mcntrl_naie = 0x00000004,
50 mcntrl_drmie = 0x00000008,
51 mcntrl_daie = 0x00000020,
52 mcntrl_rffie = 0x00000040,
53 mcntrl_tffie = 0x00000080,
54 mcntrl_reset = 0x00000100,
55 mcntrl_cdbmode = 0x00000400,
64 #define I2C_REG_RX(a) ((a)->ioaddr) /* Rx FIFO reg (RO) */
65 #define I2C_REG_TX(a) ((a)->ioaddr) /* Tx FIFO reg (WO) */
66 #define I2C_REG_STS(a) ((a)->ioaddr + 0x04) /* Status reg (RO) */
67 #define I2C_REG_CTL(a) ((a)->ioaddr + 0x08) /* Ctl reg */
68 #define I2C_REG_CKL(a) ((a)->ioaddr + 0x0c) /* Clock divider low */
69 #define I2C_REG_CKH(a) ((a)->ioaddr + 0x10) /* Clock divider high */
70 #define I2C_REG_ADR(a) ((a)->ioaddr + 0x14) /* I2C address */
71 #define I2C_REG_RFL(a) ((a)->ioaddr + 0x18) /* Rx FIFO level (RO) */
72 #define I2C_REG_TFL(a) ((a)->ioaddr + 0x1c) /* Tx FIFO level (RO) */
73 #define I2C_REG_RXB(a) ((a)->ioaddr + 0x20) /* Num of bytes Rx-ed (RO) */
74 #define I2C_REG_TXB(a) ((a)->ioaddr + 0x24) /* Num of bytes Tx-ed (RO) */
75 #define I2C_REG_TXS(a) ((a)->ioaddr + 0x28) /* Tx slave FIFO (RO) */
76 #define I2C_REG_STFL(a) ((a)->ioaddr + 0x2c) /* Tx slave FIFO level (RO) */
78 static inline int wait_timeout(struct i2c_pnx_algo_data *data)
80 long timeout = data->timeout;
82 (ioread32(I2C_REG_STS(data)) & mstatus_active)) {
86 return (timeout <= 0);
89 static inline int wait_reset(struct i2c_pnx_algo_data *data)
91 long timeout = data->timeout;
93 (ioread32(I2C_REG_CTL(data)) & mcntrl_reset)) {
97 return (timeout <= 0);
100 static inline void i2c_pnx_arm_timer(struct i2c_pnx_algo_data *alg_data)
102 struct timer_list *timer = &alg_data->mif.timer;
103 unsigned long expires = msecs_to_jiffies(alg_data->timeout);
108 del_timer_sync(timer);
110 dev_dbg(&alg_data->adapter.dev, "Timer armed at %lu plus %lu jiffies.\n",
113 timer->expires = jiffies + expires;
114 timer->data = (unsigned long)alg_data;
120 * i2c_pnx_start - start a device
121 * @slave_addr: slave address
122 * @adap: pointer to adapter structure
124 * Generate a START signal in the desired mode.
126 static int i2c_pnx_start(unsigned char slave_addr,
127 struct i2c_pnx_algo_data *alg_data)
129 dev_dbg(&alg_data->adapter.dev, "%s(): addr 0x%x mode %d\n", __func__,
130 slave_addr, alg_data->mif.mode);
132 /* Check for 7 bit slave addresses only */
133 if (slave_addr & ~0x7f) {
134 dev_err(&alg_data->adapter.dev,
135 "%s: Invalid slave address %x. Only 7-bit addresses are supported\n",
136 alg_data->adapter.name, slave_addr);
140 /* First, make sure bus is idle */
141 if (wait_timeout(alg_data)) {
142 /* Somebody else is monopolizing the bus */
143 dev_err(&alg_data->adapter.dev,
144 "%s: Bus busy. Slave addr = %02x, cntrl = %x, stat = %x\n",
145 alg_data->adapter.name, slave_addr,
146 ioread32(I2C_REG_CTL(alg_data)),
147 ioread32(I2C_REG_STS(alg_data)));
149 } else if (ioread32(I2C_REG_STS(alg_data)) & mstatus_afi) {
150 /* Sorry, we lost the bus */
151 dev_err(&alg_data->adapter.dev,
152 "%s: Arbitration failure. Slave addr = %02x\n",
153 alg_data->adapter.name, slave_addr);
158 * OK, I2C is enabled and we have the bus.
159 * Clear the current TDI and AFI status flags.
161 iowrite32(ioread32(I2C_REG_STS(alg_data)) | mstatus_tdi | mstatus_afi,
162 I2C_REG_STS(alg_data));
164 dev_dbg(&alg_data->adapter.dev, "%s(): sending %#x\n", __func__,
165 (slave_addr << 1) | start_bit | alg_data->mif.mode);
167 /* Write the slave address, START bit and R/W bit */
168 iowrite32((slave_addr << 1) | start_bit | alg_data->mif.mode,
169 I2C_REG_TX(alg_data));
171 dev_dbg(&alg_data->adapter.dev, "%s(): exit\n", __func__);
177 * i2c_pnx_stop - stop a device
178 * @adap: pointer to I2C adapter structure
180 * Generate a STOP signal to terminate the master transaction.
182 static void i2c_pnx_stop(struct i2c_pnx_algo_data *alg_data)
184 /* Only 1 msec max timeout due to interrupt context */
187 dev_dbg(&alg_data->adapter.dev, "%s(): entering: stat = %04x.\n",
188 __func__, ioread32(I2C_REG_STS(alg_data)));
190 /* Write a STOP bit to TX FIFO */
191 iowrite32(0xff | stop_bit, I2C_REG_TX(alg_data));
193 /* Wait until the STOP is seen. */
194 while (timeout > 0 &&
195 (ioread32(I2C_REG_STS(alg_data)) & mstatus_active)) {
196 /* may be called from interrupt context */
201 dev_dbg(&alg_data->adapter.dev, "%s(): exiting: stat = %04x.\n",
202 __func__, ioread32(I2C_REG_STS(alg_data)));
206 * i2c_pnx_master_xmit - transmit data to slave
207 * @adap: pointer to I2C adapter structure
209 * Sends one byte of data to the slave
211 static int i2c_pnx_master_xmit(struct i2c_pnx_algo_data *alg_data)
215 dev_dbg(&alg_data->adapter.dev, "%s(): entering: stat = %04x.\n",
216 __func__, ioread32(I2C_REG_STS(alg_data)));
218 if (alg_data->mif.len > 0) {
219 /* We still have something to talk about... */
220 val = *alg_data->mif.buf++;
222 if (alg_data->mif.len == 1)
226 iowrite32(val, I2C_REG_TX(alg_data));
228 dev_dbg(&alg_data->adapter.dev, "%s(): xmit %#x [%d]\n",
229 __func__, val, alg_data->mif.len + 1);
231 if (alg_data->mif.len == 0) {
232 if (alg_data->last) {
233 /* Wait until the STOP is seen. */
234 if (wait_timeout(alg_data))
235 dev_err(&alg_data->adapter.dev,
236 "The bus is still active after timeout\n");
238 /* Disable master interrupts */
239 iowrite32(ioread32(I2C_REG_CTL(alg_data)) &
240 ~(mcntrl_afie | mcntrl_naie | mcntrl_drmie),
241 I2C_REG_CTL(alg_data));
243 del_timer_sync(&alg_data->mif.timer);
245 dev_dbg(&alg_data->adapter.dev,
246 "%s(): Waking up xfer routine.\n",
249 complete(&alg_data->mif.complete);
251 } else if (alg_data->mif.len == 0) {
252 /* zero-sized transfer */
253 i2c_pnx_stop(alg_data);
255 /* Disable master interrupts. */
256 iowrite32(ioread32(I2C_REG_CTL(alg_data)) &
257 ~(mcntrl_afie | mcntrl_naie | mcntrl_drmie),
258 I2C_REG_CTL(alg_data));
261 del_timer_sync(&alg_data->mif.timer);
262 dev_dbg(&alg_data->adapter.dev,
263 "%s(): Waking up xfer routine after zero-xfer.\n",
266 complete(&alg_data->mif.complete);
269 dev_dbg(&alg_data->adapter.dev, "%s(): exiting: stat = %04x.\n",
270 __func__, ioread32(I2C_REG_STS(alg_data)));
276 * i2c_pnx_master_rcv - receive data from slave
277 * @adap: pointer to I2C adapter structure
279 * Reads one byte data from the slave
281 static int i2c_pnx_master_rcv(struct i2c_pnx_algo_data *alg_data)
283 unsigned int val = 0;
286 dev_dbg(&alg_data->adapter.dev, "%s(): entering: stat = %04x.\n",
287 __func__, ioread32(I2C_REG_STS(alg_data)));
289 /* Check, whether there is already data,
290 * or we didn't 'ask' for it yet.
292 if (ioread32(I2C_REG_STS(alg_data)) & mstatus_rfe) {
293 dev_dbg(&alg_data->adapter.dev,
294 "%s(): Write dummy data to fill Rx-fifo...\n",
297 if (alg_data->mif.len == 1) {
298 /* Last byte, do not acknowledge next rcv. */
302 * Enable interrupt RFDAIE (data in Rx fifo),
303 * and disable DRMIE (need data for Tx)
305 ctl = ioread32(I2C_REG_CTL(alg_data));
306 ctl |= mcntrl_rffie | mcntrl_daie;
307 ctl &= ~mcntrl_drmie;
308 iowrite32(ctl, I2C_REG_CTL(alg_data));
312 * Now we'll 'ask' for data:
313 * For each byte we want to receive, we must
314 * write a (dummy) byte to the Tx-FIFO.
316 iowrite32(val, I2C_REG_TX(alg_data));
322 if (alg_data->mif.len > 0) {
323 val = ioread32(I2C_REG_RX(alg_data));
324 *alg_data->mif.buf++ = (u8) (val & 0xff);
325 dev_dbg(&alg_data->adapter.dev, "%s(): rcv 0x%x [%d]\n",
326 __func__, val, alg_data->mif.len);
329 if (alg_data->mif.len == 0) {
331 /* Wait until the STOP is seen. */
332 if (wait_timeout(alg_data))
333 dev_err(&alg_data->adapter.dev,
334 "The bus is still active after timeout\n");
336 /* Disable master interrupts */
337 ctl = ioread32(I2C_REG_CTL(alg_data));
338 ctl &= ~(mcntrl_afie | mcntrl_naie | mcntrl_rffie |
339 mcntrl_drmie | mcntrl_daie);
340 iowrite32(ctl, I2C_REG_CTL(alg_data));
343 del_timer_sync(&alg_data->mif.timer);
344 complete(&alg_data->mif.complete);
348 dev_dbg(&alg_data->adapter.dev, "%s(): exiting: stat = %04x.\n",
349 __func__, ioread32(I2C_REG_STS(alg_data)));
354 static irqreturn_t i2c_pnx_interrupt(int irq, void *dev_id)
356 struct i2c_pnx_algo_data *alg_data = dev_id;
359 dev_dbg(&alg_data->adapter.dev,
360 "%s(): mstat = %x mctrl = %x, mode = %d\n",
362 ioread32(I2C_REG_STS(alg_data)),
363 ioread32(I2C_REG_CTL(alg_data)),
365 stat = ioread32(I2C_REG_STS(alg_data));
367 /* let's see what kind of event this is */
368 if (stat & mstatus_afi) {
369 /* We lost arbitration in the midst of a transfer */
370 alg_data->mif.ret = -EIO;
372 /* Disable master interrupts. */
373 ctl = ioread32(I2C_REG_CTL(alg_data));
374 ctl &= ~(mcntrl_afie | mcntrl_naie | mcntrl_rffie |
376 iowrite32(ctl, I2C_REG_CTL(alg_data));
378 /* Stop timer, to prevent timeout. */
379 del_timer_sync(&alg_data->mif.timer);
380 complete(&alg_data->mif.complete);
381 } else if (stat & mstatus_nai) {
382 /* Slave did not acknowledge, generate a STOP */
383 dev_dbg(&alg_data->adapter.dev,
384 "%s(): Slave did not acknowledge, generating a STOP.\n",
386 i2c_pnx_stop(alg_data);
388 /* Disable master interrupts. */
389 ctl = ioread32(I2C_REG_CTL(alg_data));
390 ctl &= ~(mcntrl_afie | mcntrl_naie | mcntrl_rffie |
392 iowrite32(ctl, I2C_REG_CTL(alg_data));
394 /* Our return value. */
395 alg_data->mif.ret = -EIO;
397 /* Stop timer, to prevent timeout. */
398 del_timer_sync(&alg_data->mif.timer);
399 complete(&alg_data->mif.complete);
403 * - Master Tx needs data.
404 * - There is data in the Rx-fifo
405 * The latter is only the case if we have requested for data,
406 * via a dummy write. (See 'i2c_pnx_master_rcv'.)
407 * We therefore check, as a sanity check, whether that interrupt
410 if ((stat & mstatus_drmi) || !(stat & mstatus_rfe)) {
411 if (alg_data->mif.mode == I2C_SMBUS_WRITE) {
412 i2c_pnx_master_xmit(alg_data);
413 } else if (alg_data->mif.mode == I2C_SMBUS_READ) {
414 i2c_pnx_master_rcv(alg_data);
419 /* Clear TDI and AFI bits */
420 stat = ioread32(I2C_REG_STS(alg_data));
421 iowrite32(stat | mstatus_tdi | mstatus_afi, I2C_REG_STS(alg_data));
423 dev_dbg(&alg_data->adapter.dev,
424 "%s(): exiting, stat = %x ctrl = %x.\n",
425 __func__, ioread32(I2C_REG_STS(alg_data)),
426 ioread32(I2C_REG_CTL(alg_data)));
431 static void i2c_pnx_timeout(unsigned long data)
433 struct i2c_pnx_algo_data *alg_data = (struct i2c_pnx_algo_data *)data;
436 dev_err(&alg_data->adapter.dev,
437 "Master timed out. stat = %04x, cntrl = %04x. Resetting master...\n",
438 ioread32(I2C_REG_STS(alg_data)),
439 ioread32(I2C_REG_CTL(alg_data)));
441 /* Reset master and disable interrupts */
442 ctl = ioread32(I2C_REG_CTL(alg_data));
443 ctl &= ~(mcntrl_afie | mcntrl_naie | mcntrl_rffie | mcntrl_drmie);
444 iowrite32(ctl, I2C_REG_CTL(alg_data));
447 iowrite32(ctl, I2C_REG_CTL(alg_data));
448 wait_reset(alg_data);
449 alg_data->mif.ret = -EIO;
450 complete(&alg_data->mif.complete);
453 static inline void bus_reset_if_active(struct i2c_pnx_algo_data *alg_data)
457 if ((stat = ioread32(I2C_REG_STS(alg_data))) & mstatus_active) {
458 dev_err(&alg_data->adapter.dev,
459 "%s: Bus is still active after xfer. Reset it...\n",
460 alg_data->adapter.name);
461 iowrite32(ioread32(I2C_REG_CTL(alg_data)) | mcntrl_reset,
462 I2C_REG_CTL(alg_data));
463 wait_reset(alg_data);
464 } else if (!(stat & mstatus_rfe) || !(stat & mstatus_tfe)) {
465 /* If there is data in the fifo's after transfer,
466 * flush fifo's by reset.
468 iowrite32(ioread32(I2C_REG_CTL(alg_data)) | mcntrl_reset,
469 I2C_REG_CTL(alg_data));
470 wait_reset(alg_data);
471 } else if (stat & mstatus_nai) {
472 iowrite32(ioread32(I2C_REG_CTL(alg_data)) | mcntrl_reset,
473 I2C_REG_CTL(alg_data));
474 wait_reset(alg_data);
479 * i2c_pnx_xfer - generic transfer entry point
480 * @adap: pointer to I2C adapter structure
481 * @msgs: array of messages
482 * @num: number of messages
484 * Initiates the transfer
487 i2c_pnx_xfer(struct i2c_adapter *adap, struct i2c_msg *msgs, int num)
489 struct i2c_msg *pmsg;
490 int rc = 0, completed = 0, i;
491 struct i2c_pnx_algo_data *alg_data = adap->algo_data;
492 u32 stat = ioread32(I2C_REG_STS(alg_data));
494 dev_dbg(&alg_data->adapter.dev,
495 "%s(): entering: %d messages, stat = %04x.\n",
496 __func__, num, ioread32(I2C_REG_STS(alg_data)));
498 bus_reset_if_active(alg_data);
500 /* Process transactions in a loop. */
501 for (i = 0; rc >= 0 && i < num; i++) {
507 if (pmsg->flags & I2C_M_TEN) {
508 dev_err(&alg_data->adapter.dev,
509 "%s: 10 bits addr not supported!\n",
510 alg_data->adapter.name);
515 alg_data->mif.buf = pmsg->buf;
516 alg_data->mif.len = pmsg->len;
517 alg_data->mif.mode = (pmsg->flags & I2C_M_RD) ?
518 I2C_SMBUS_READ : I2C_SMBUS_WRITE;
519 alg_data->mif.ret = 0;
520 alg_data->last = (i == num - 1);
522 dev_dbg(&alg_data->adapter.dev, "%s(): mode %d, %d bytes\n",
523 __func__, alg_data->mif.mode, alg_data->mif.len);
525 i2c_pnx_arm_timer(alg_data);
527 /* initialize the completion var */
528 init_completion(&alg_data->mif.complete);
530 /* Enable master interrupt */
531 iowrite32(ioread32(I2C_REG_CTL(alg_data)) | mcntrl_afie |
532 mcntrl_naie | mcntrl_drmie,
533 I2C_REG_CTL(alg_data));
535 /* Put start-code and slave-address on the bus. */
536 rc = i2c_pnx_start(addr, alg_data);
540 /* Wait for completion */
541 wait_for_completion(&alg_data->mif.complete);
543 if (!(rc = alg_data->mif.ret))
545 dev_dbg(&alg_data->adapter.dev,
546 "%s(): Complete, return code = %d.\n",
549 /* Clear TDI and AFI bits in case they are set. */
550 if ((stat = ioread32(I2C_REG_STS(alg_data))) & mstatus_tdi) {
551 dev_dbg(&alg_data->adapter.dev,
552 "%s: TDI still set... clearing now.\n",
553 alg_data->adapter.name);
554 iowrite32(stat, I2C_REG_STS(alg_data));
556 if ((stat = ioread32(I2C_REG_STS(alg_data))) & mstatus_afi) {
557 dev_dbg(&alg_data->adapter.dev,
558 "%s: AFI still set... clearing now.\n",
559 alg_data->adapter.name);
560 iowrite32(stat, I2C_REG_STS(alg_data));
564 bus_reset_if_active(alg_data);
566 /* Cleanup to be sure... */
567 alg_data->mif.buf = NULL;
568 alg_data->mif.len = 0;
570 dev_dbg(&alg_data->adapter.dev, "%s(): exiting, stat = %x\n",
571 __func__, ioread32(I2C_REG_STS(alg_data)));
573 if (completed != num)
574 return ((rc < 0) ? rc : -EREMOTEIO);
579 static u32 i2c_pnx_func(struct i2c_adapter *adapter)
581 return I2C_FUNC_I2C | I2C_FUNC_SMBUS_EMUL;
584 static struct i2c_algorithm pnx_algorithm = {
585 .master_xfer = i2c_pnx_xfer,
586 .functionality = i2c_pnx_func,
590 static int i2c_pnx_controller_suspend(struct device *dev)
592 struct i2c_pnx_algo_data *alg_data = dev_get_drvdata(dev);
594 clk_disable(alg_data->clk);
599 static int i2c_pnx_controller_resume(struct device *dev)
601 struct i2c_pnx_algo_data *alg_data = dev_get_drvdata(dev);
603 return clk_enable(alg_data->clk);
606 static SIMPLE_DEV_PM_OPS(i2c_pnx_pm,
607 i2c_pnx_controller_suspend, i2c_pnx_controller_resume);
608 #define PNX_I2C_PM (&i2c_pnx_pm)
610 #define PNX_I2C_PM NULL
613 static int __devinit i2c_pnx_probe(struct platform_device *pdev)
617 struct i2c_pnx_algo_data *alg_data;
619 struct resource *res;
620 u32 speed = I2C_PNX_SPEED_KHZ_DEFAULT * 1000;
622 alg_data = kzalloc(sizeof(*alg_data), GFP_KERNEL);
628 platform_set_drvdata(pdev, alg_data);
630 alg_data->adapter.dev.parent = &pdev->dev;
631 alg_data->adapter.algo = &pnx_algorithm;
632 alg_data->adapter.algo_data = alg_data;
633 alg_data->adapter.nr = pdev->id;
635 alg_data->timeout = I2C_PNX_TIMEOUT_DEFAULT;
637 alg_data->adapter.dev.of_node = of_node_get(pdev->dev.of_node);
638 if (pdev->dev.of_node) {
639 of_property_read_u32(pdev->dev.of_node, "clock-frequency",
642 * At this point, it is planned to add an OF timeout property.
643 * As soon as there is a consensus about how to call and handle
644 * this, sth. like the following can be put here:
646 * of_property_read_u32(pdev->dev.of_node, "timeout",
647 * &alg_data->timeout);
651 alg_data->clk = clk_get(&pdev->dev, NULL);
652 if (IS_ERR(alg_data->clk)) {
653 ret = PTR_ERR(alg_data->clk);
657 init_timer(&alg_data->mif.timer);
658 alg_data->mif.timer.function = i2c_pnx_timeout;
659 alg_data->mif.timer.data = (unsigned long)alg_data;
661 snprintf(alg_data->adapter.name, sizeof(alg_data->adapter.name),
664 /* Register I/O resource */
665 res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
667 dev_err(&pdev->dev, "Unable to get mem resource.\n");
671 if (!request_mem_region(res->start, I2C_PNX_REGION_SIZE,
674 "I/O region 0x%08x for I2C already in use.\n",
680 alg_data->base = res->start;
681 alg_data->ioaddr = ioremap(res->start, I2C_PNX_REGION_SIZE);
682 if (!alg_data->ioaddr) {
683 dev_err(&pdev->dev, "Couldn't ioremap I2C I/O region\n");
688 ret = clk_enable(alg_data->clk);
692 freq = clk_get_rate(alg_data->clk);
695 * Clock Divisor High This value is the number of system clocks
696 * the serial clock (SCL) will be high.
697 * For example, if the system clock period is 50 ns and the maximum
698 * desired serial period is 10000 ns (100 kHz), then CLKHI would be
699 * set to 0.5*(f_sys/f_i2c)-2=0.5*(20e6/100e3)-2=98. The actual value
700 * programmed into CLKHI will vary from this slightly due to
701 * variations in the output pad's rise and fall times as well as
702 * the deglitching filter length.
705 tmp = (freq / speed) / 2 - 2;
708 iowrite32(tmp, I2C_REG_CKH(alg_data));
709 iowrite32(tmp, I2C_REG_CKL(alg_data));
711 iowrite32(mcntrl_reset, I2C_REG_CTL(alg_data));
712 if (wait_reset(alg_data)) {
716 init_completion(&alg_data->mif.complete);
718 alg_data->irq = platform_get_irq(pdev, 0);
719 if (alg_data->irq < 0) {
720 dev_err(&pdev->dev, "Failed to get IRQ from platform resource\n");
723 ret = request_irq(alg_data->irq, i2c_pnx_interrupt,
724 0, pdev->name, alg_data);
728 /* Register this adapter with the I2C subsystem */
729 ret = i2c_add_numbered_adapter(&alg_data->adapter);
731 dev_err(&pdev->dev, "I2C: Failed to add bus\n");
735 of_i2c_register_devices(&alg_data->adapter);
737 dev_dbg(&pdev->dev, "%s: Master at %#8x, irq %d.\n",
738 alg_data->adapter.name, res->start, alg_data->irq);
743 free_irq(alg_data->irq, alg_data);
745 clk_disable(alg_data->clk);
747 iounmap(alg_data->ioaddr);
749 release_mem_region(res->start, I2C_PNX_REGION_SIZE);
751 clk_put(alg_data->clk);
755 platform_set_drvdata(pdev, NULL);
759 static int __devexit i2c_pnx_remove(struct platform_device *pdev)
761 struct i2c_pnx_algo_data *alg_data = platform_get_drvdata(pdev);
763 free_irq(alg_data->irq, alg_data);
764 i2c_del_adapter(&alg_data->adapter);
765 clk_disable(alg_data->clk);
766 iounmap(alg_data->ioaddr);
767 release_mem_region(alg_data->base, I2C_PNX_REGION_SIZE);
768 clk_put(alg_data->clk);
770 platform_set_drvdata(pdev, NULL);
776 static const struct of_device_id i2c_pnx_of_match[] = {
777 { .compatible = "nxp,pnx-i2c" },
780 MODULE_DEVICE_TABLE(of, i2c_pnx_of_match);
783 static struct platform_driver i2c_pnx_driver = {
786 .owner = THIS_MODULE,
787 .of_match_table = of_match_ptr(i2c_pnx_of_match),
790 .probe = i2c_pnx_probe,
791 .remove = __devexit_p(i2c_pnx_remove),
794 static int __init i2c_adap_pnx_init(void)
796 return platform_driver_register(&i2c_pnx_driver);
799 static void __exit i2c_adap_pnx_exit(void)
801 platform_driver_unregister(&i2c_pnx_driver);
804 MODULE_AUTHOR("Vitaly Wool, Dennis Kovalev <source@mvista.com>");
805 MODULE_DESCRIPTION("I2C driver for Philips IP3204-based I2C busses");
806 MODULE_LICENSE("GPL");
807 MODULE_ALIAS("platform:pnx-i2c");
809 /* We need to make sure I2C is initialized before USB */
810 subsys_initcall(i2c_adap_pnx_init);
811 module_exit(i2c_adap_pnx_exit);