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pm: add new PM_EVENT codes for runtime power transitions
[linux-2.6/mini2440.git] / drivers / serial / mpsc.c
blob61d3ade5286c6a50a55d7735b03f93284a631de4
1 /*
2 * Generic driver for the MPSC (UART mode) on Marvell parts (e.g., GT64240,
3 * GT64260, MV64340, MV64360, GT96100, ... ).
4 *
5 * Author: Mark A. Greer <mgreer@mvista.com>
6 *
7 * Based on an old MPSC driver that was in the linuxppc tree. It appears to
8 * have been created by Chris Zankel (formerly of MontaVista) but there
9 * is no proper Copyright so I'm not sure. Apparently, parts were also
10 * taken from PPCBoot (now U-Boot). Also based on drivers/serial/8250.c
11 * by Russell King.
12 *
13 * 2004 (c) MontaVista, Software, Inc. This file is licensed under
14 * the terms of the GNU General Public License version 2. This program
15 * is licensed "as is" without any warranty of any kind, whether express
16 * or implied.
17 */
18 /*
19 * The MPSC interface is much like a typical network controller's interface.
20 * That is, you set up separate rings of descriptors for transmitting and
21 * receiving data. There is also a pool of buffers with (one buffer per
22 * descriptor) that incoming data are dma'd into or outgoing data are dma'd
23 * out of.
24 *
25 * The MPSC requires two other controllers to be able to work. The Baud Rate
26 * Generator (BRG) provides a clock at programmable frequencies which determines
27 * the baud rate. The Serial DMA Controller (SDMA) takes incoming data from the
28 * MPSC and DMA's it into memory or DMA's outgoing data and passes it to the
29 * MPSC. It is actually the SDMA interrupt that the driver uses to keep the
30 * transmit and receive "engines" going (i.e., indicate data has been
31 * transmitted or received).
32 *
33 * NOTES:
34 *
35 * 1) Some chips have an erratum where several regs cannot be
36 * read. To work around that, we keep a local copy of those regs in
37 * 'mpsc_port_info'.
38 *
39 * 2) Some chips have an erratum where the ctlr will hang when the SDMA ctlr
40 * accesses system mem with coherency enabled. For that reason, the driver
41 * assumes that coherency for that ctlr has been disabled. This means
42 * that when in a cache coherent system, the driver has to manually manage
43 * the data cache on the areas that it touches because the dma_* macro are
44 * basically no-ops.
45 *
46 * 3) There is an erratum (on PPC) where you can't use the instruction to do
47 * a DMA_TO_DEVICE/cache clean so DMA_BIDIRECTIONAL/flushes are used in places
48 * where a DMA_TO_DEVICE/clean would have [otherwise] sufficed.
49 *
50 * 4) AFAICT, hardware flow control isn't supported by the controller --MAG.
51 */
52
53
54 #if defined(CONFIG_SERIAL_MPSC_CONSOLE) && defined(CONFIG_MAGIC_SYSRQ)
55 #define SUPPORT_SYSRQ
56 #endif
57
58 #include <linux/module.h>
59 #include <linux/moduleparam.h>
60 #include <linux/tty.h>
61 #include <linux/tty_flip.h>
62 #include <linux/ioport.h>
63 #include <linux/init.h>
64 #include <linux/console.h>
65 #include <linux/sysrq.h>
66 #include <linux/serial.h>
67 #include <linux/serial_core.h>
68 #include <linux/delay.h>
69 #include <linux/device.h>
70 #include <linux/dma-mapping.h>
71 #include <linux/mv643xx.h>
72 #include <linux/platform_device.h>
73
74 #include <asm/io.h>
75 #include <asm/irq.h>
76
77 #define MPSC_NUM_CTLRS 2
78
79 /*
80 * Descriptors and buffers must be cache line aligned.
81 * Buffers lengths must be multiple of cache line size.
82 * Number of Tx & Rx descriptors must be powers of 2.
83 */
84 #define MPSC_RXR_ENTRIES 32
85 #define MPSC_RXRE_SIZE dma_get_cache_alignment()
86 #define MPSC_RXR_SIZE (MPSC_RXR_ENTRIES * MPSC_RXRE_SIZE)
87 #define MPSC_RXBE_SIZE dma_get_cache_alignment()
88 #define MPSC_RXB_SIZE (MPSC_RXR_ENTRIES * MPSC_RXBE_SIZE)
89
90 #define MPSC_TXR_ENTRIES 32
91 #define MPSC_TXRE_SIZE dma_get_cache_alignment()
92 #define MPSC_TXR_SIZE (MPSC_TXR_ENTRIES * MPSC_TXRE_SIZE)
93 #define MPSC_TXBE_SIZE dma_get_cache_alignment()
94 #define MPSC_TXB_SIZE (MPSC_TXR_ENTRIES * MPSC_TXBE_SIZE)
95
96 #define MPSC_DMA_ALLOC_SIZE (MPSC_RXR_SIZE + MPSC_RXB_SIZE + MPSC_TXR_SIZE \
97 + MPSC_TXB_SIZE + dma_get_cache_alignment() /* for alignment */)
98
99 /* Rx and Tx Ring entry descriptors -- assume entry size is <= cacheline size */
100 struct mpsc_rx_desc {
101 u16 bufsize;
102 u16 bytecnt;
103 u32 cmdstat;
104 u32 link;
105 u32 buf_ptr;
106 } __attribute((packed));
107
108 struct mpsc_tx_desc {
109 u16 bytecnt;
110 u16 shadow;
111 u32 cmdstat;
112 u32 link;
113 u32 buf_ptr;
114 } __attribute((packed));
115
116 /*
117 * Some regs that have the erratum that you can't read them are are shared
118 * between the two MPSC controllers. This struct contains those shared regs.
119 */
120 struct mpsc_shared_regs {
121 phys_addr_t mpsc_routing_base_p;
122 phys_addr_t sdma_intr_base_p;
123
124 void __iomem *mpsc_routing_base;
125 void __iomem *sdma_intr_base;
126
127 u32 MPSC_MRR_m;
128 u32 MPSC_RCRR_m;
129 u32 MPSC_TCRR_m;
130 u32 SDMA_INTR_CAUSE_m;
131 u32 SDMA_INTR_MASK_m;
132 };
133
134 /* The main driver data structure */
135 struct mpsc_port_info {
136 struct uart_port port; /* Overlay uart_port structure */
137
138 /* Internal driver state for this ctlr */
139 u8 ready;
140 u8 rcv_data;
141 tcflag_t c_iflag; /* save termios->c_iflag */
142 tcflag_t c_cflag; /* save termios->c_cflag */
143
144 /* Info passed in from platform */
145 u8 mirror_regs; /* Need to mirror regs? */
146 u8 cache_mgmt; /* Need manual cache mgmt? */
147 u8 brg_can_tune; /* BRG has baud tuning? */
148 u32 brg_clk_src;
149 u16 mpsc_max_idle;
150 int default_baud;
151 int default_bits;
152 int default_parity;
153 int default_flow;
154
155 /* Physical addresses of various blocks of registers (from platform) */
156 phys_addr_t mpsc_base_p;
157 phys_addr_t sdma_base_p;
158 phys_addr_t brg_base_p;
159
160 /* Virtual addresses of various blocks of registers (from platform) */
161 void __iomem *mpsc_base;
162 void __iomem *sdma_base;
163 void __iomem *brg_base;
164
165 /* Descriptor ring and buffer allocations */
166 void *dma_region;
167 dma_addr_t dma_region_p;
168
169 dma_addr_t rxr; /* Rx descriptor ring */
170 dma_addr_t rxr_p; /* Phys addr of rxr */
171 u8 *rxb; /* Rx Ring I/O buf */
172 u8 *rxb_p; /* Phys addr of rxb */
173 u32 rxr_posn; /* First desc w/ Rx data */
174
175 dma_addr_t txr; /* Tx descriptor ring */
176 dma_addr_t txr_p; /* Phys addr of txr */
177 u8 *txb; /* Tx Ring I/O buf */
178 u8 *txb_p; /* Phys addr of txb */
179 int txr_head; /* Where new data goes */
180 int txr_tail; /* Where sent data comes off */
181 spinlock_t tx_lock; /* transmit lock */
182
183 /* Mirrored values of regs we can't read (if 'mirror_regs' set) */
184 u32 MPSC_MPCR_m;
185 u32 MPSC_CHR_1_m;
186 u32 MPSC_CHR_2_m;
187 u32 MPSC_CHR_10_m;
188 u32 BRG_BCR_m;
189 struct mpsc_shared_regs *shared_regs;
190 };
191
192 /* Hooks to platform-specific code */
193 int mpsc_platform_register_driver(void);
194 void mpsc_platform_unregister_driver(void);
195
196 /* Hooks back in to mpsc common to be called by platform-specific code */
197 struct mpsc_port_info *mpsc_device_probe(int index);
198 struct mpsc_port_info *mpsc_device_remove(int index);
199
200 /* Main MPSC Configuration Register Offsets */
201 #define MPSC_MMCRL 0x0000
202 #define MPSC_MMCRH 0x0004
203 #define MPSC_MPCR 0x0008
204 #define MPSC_CHR_1 0x000c
205 #define MPSC_CHR_2 0x0010
206 #define MPSC_CHR_3 0x0014
207 #define MPSC_CHR_4 0x0018
208 #define MPSC_CHR_5 0x001c
209 #define MPSC_CHR_6 0x0020
210 #define MPSC_CHR_7 0x0024
211 #define MPSC_CHR_8 0x0028
212 #define MPSC_CHR_9 0x002c
213 #define MPSC_CHR_10 0x0030
214 #define MPSC_CHR_11 0x0034
215
216 #define MPSC_MPCR_FRZ (1 << 9)
217 #define MPSC_MPCR_CL_5 0
218 #define MPSC_MPCR_CL_6 1
219 #define MPSC_MPCR_CL_7 2
220 #define MPSC_MPCR_CL_8 3
221 #define MPSC_MPCR_SBL_1 0
222 #define MPSC_MPCR_SBL_2 1
223
224 #define MPSC_CHR_2_TEV (1<<1)
225 #define MPSC_CHR_2_TA (1<<7)
226 #define MPSC_CHR_2_TTCS (1<<9)
227 #define MPSC_CHR_2_REV (1<<17)
228 #define MPSC_CHR_2_RA (1<<23)
229 #define MPSC_CHR_2_CRD (1<<25)
230 #define MPSC_CHR_2_EH (1<<31)
231 #define MPSC_CHR_2_PAR_ODD 0
232 #define MPSC_CHR_2_PAR_SPACE 1
233 #define MPSC_CHR_2_PAR_EVEN 2
234 #define MPSC_CHR_2_PAR_MARK 3
235
236 /* MPSC Signal Routing */
237 #define MPSC_MRR 0x0000
238 #define MPSC_RCRR 0x0004
239 #define MPSC_TCRR 0x0008
240
241 /* Serial DMA Controller Interface Registers */
242 #define SDMA_SDC 0x0000
243 #define SDMA_SDCM 0x0008
244 #define SDMA_RX_DESC 0x0800
245 #define SDMA_RX_BUF_PTR 0x0808
246 #define SDMA_SCRDP 0x0810
247 #define SDMA_TX_DESC 0x0c00
248 #define SDMA_SCTDP 0x0c10
249 #define SDMA_SFTDP 0x0c14
250
251 #define SDMA_DESC_CMDSTAT_PE (1<<0)
252 #define SDMA_DESC_CMDSTAT_CDL (1<<1)
253 #define SDMA_DESC_CMDSTAT_FR (1<<3)
254 #define SDMA_DESC_CMDSTAT_OR (1<<6)
255 #define SDMA_DESC_CMDSTAT_BR (1<<9)
256 #define SDMA_DESC_CMDSTAT_MI (1<<10)
257 #define SDMA_DESC_CMDSTAT_A (1<<11)
258 #define SDMA_DESC_CMDSTAT_AM (1<<12)
259 #define SDMA_DESC_CMDSTAT_CT (1<<13)
260 #define SDMA_DESC_CMDSTAT_C (1<<14)
261 #define SDMA_DESC_CMDSTAT_ES (1<<15)
262 #define SDMA_DESC_CMDSTAT_L (1<<16)
263 #define SDMA_DESC_CMDSTAT_F (1<<17)
264 #define SDMA_DESC_CMDSTAT_P (1<<18)
265 #define SDMA_DESC_CMDSTAT_EI (1<<23)
266 #define SDMA_DESC_CMDSTAT_O (1<<31)
267
268 #define SDMA_DESC_DFLT (SDMA_DESC_CMDSTAT_O \
269 | SDMA_DESC_CMDSTAT_EI)
270
271 #define SDMA_SDC_RFT (1<<0)
272 #define SDMA_SDC_SFM (1<<1)
273 #define SDMA_SDC_BLMR (1<<6)
274 #define SDMA_SDC_BLMT (1<<7)
275 #define SDMA_SDC_POVR (1<<8)
276 #define SDMA_SDC_RIFB (1<<9)
277
278 #define SDMA_SDCM_ERD (1<<7)
279 #define SDMA_SDCM_AR (1<<15)
280 #define SDMA_SDCM_STD (1<<16)
281 #define SDMA_SDCM_TXD (1<<23)
282 #define SDMA_SDCM_AT (1<<31)
283
284 #define SDMA_0_CAUSE_RXBUF (1<<0)
285 #define SDMA_0_CAUSE_RXERR (1<<1)
286 #define SDMA_0_CAUSE_TXBUF (1<<2)
287 #define SDMA_0_CAUSE_TXEND (1<<3)
288 #define SDMA_1_CAUSE_RXBUF (1<<8)
289 #define SDMA_1_CAUSE_RXERR (1<<9)
290 #define SDMA_1_CAUSE_TXBUF (1<<10)
291 #define SDMA_1_CAUSE_TXEND (1<<11)
292
293 #define SDMA_CAUSE_RX_MASK (SDMA_0_CAUSE_RXBUF | SDMA_0_CAUSE_RXERR \
294 | SDMA_1_CAUSE_RXBUF | SDMA_1_CAUSE_RXERR)
295 #define SDMA_CAUSE_TX_MASK (SDMA_0_CAUSE_TXBUF | SDMA_0_CAUSE_TXEND \
296 | SDMA_1_CAUSE_TXBUF | SDMA_1_CAUSE_TXEND)
297
298 /* SDMA Interrupt registers */
299 #define SDMA_INTR_CAUSE 0x0000
300 #define SDMA_INTR_MASK 0x0080
301
302 /* Baud Rate Generator Interface Registers */
303 #define BRG_BCR 0x0000
304 #define BRG_BTR 0x0004
305
306 /*
307 * Define how this driver is known to the outside (we've been assigned a
308 * range on the "Low-density serial ports" major).
309 */
310 #define MPSC_MAJOR 204
311 #define MPSC_MINOR_START 44
312 #define MPSC_DRIVER_NAME "MPSC"
313 #define MPSC_DEV_NAME "ttyMM"
314 #define MPSC_VERSION "1.00"
315
316 static struct mpsc_port_info mpsc_ports[MPSC_NUM_CTLRS];
317 static struct mpsc_shared_regs mpsc_shared_regs;
318 static struct uart_driver mpsc_reg;
319
320 static void mpsc_start_rx(struct mpsc_port_info *pi);
321 static void mpsc_free_ring_mem(struct mpsc_port_info *pi);
322 static void mpsc_release_port(struct uart_port *port);
323 /*
324 ******************************************************************************
325 *
326 * Baud Rate Generator Routines (BRG)
327 *
328 ******************************************************************************
329 */
330 static void mpsc_brg_init(struct mpsc_port_info *pi, u32 clk_src)
331 {
332 u32 v;
333
334 v = (pi->mirror_regs) ? pi->BRG_BCR_m : readl(pi->brg_base + BRG_BCR);
335 v = (v & ~(0xf << 18)) | ((clk_src & 0xf) << 18);
336
337 if (pi->brg_can_tune)
338 v &= ~(1 << 25);
339
340 if (pi->mirror_regs)
341 pi->BRG_BCR_m = v;
342 writel(v, pi->brg_base + BRG_BCR);
343
344 writel(readl(pi->brg_base + BRG_BTR) & 0xffff0000,
345 pi->brg_base + BRG_BTR);
346 }
347
348 static void mpsc_brg_enable(struct mpsc_port_info *pi)
349 {
350 u32 v;
351
352 v = (pi->mirror_regs) ? pi->BRG_BCR_m : readl(pi->brg_base + BRG_BCR);
353 v |= (1 << 16);
354
355 if (pi->mirror_regs)
356 pi->BRG_BCR_m = v;
357 writel(v, pi->brg_base + BRG_BCR);
358 }
359
360 static void mpsc_brg_disable(struct mpsc_port_info *pi)
361 {
362 u32 v;
363
364 v = (pi->mirror_regs) ? pi->BRG_BCR_m : readl(pi->brg_base + BRG_BCR);
365 v &= ~(1 << 16);
366
367 if (pi->mirror_regs)
368 pi->BRG_BCR_m = v;
369 writel(v, pi->brg_base + BRG_BCR);
370 }
371
372 /*
373 * To set the baud, we adjust the CDV field in the BRG_BCR reg.
374 * From manual: Baud = clk / ((CDV+1)*2) ==> CDV = (clk / (baud*2)) - 1.
375 * However, the input clock is divided by 16 in the MPSC b/c of how
376 * 'MPSC_MMCRH' was set up so we have to divide the 'clk' used in our
377 * calculation by 16 to account for that. So the real calculation
378 * that accounts for the way the mpsc is set up is:
379 * CDV = (clk / (baud*2*16)) - 1 ==> CDV = (clk / (baud << 5)) - 1.
380 */
381 static void mpsc_set_baudrate(struct mpsc_port_info *pi, u32 baud)
382 {
383 u32 cdv = (pi->port.uartclk / (baud << 5)) - 1;
384 u32 v;
385
386 mpsc_brg_disable(pi);
387 v = (pi->mirror_regs) ? pi->BRG_BCR_m : readl(pi->brg_base + BRG_BCR);
388 v = (v & 0xffff0000) | (cdv & 0xffff);
389
390 if (pi->mirror_regs)
391 pi->BRG_BCR_m = v;
392 writel(v, pi->brg_base + BRG_BCR);
393 mpsc_brg_enable(pi);
394 }
395
396 /*
397 ******************************************************************************
398 *
399 * Serial DMA Routines (SDMA)
400 *
401 ******************************************************************************
402 */
403
404 static void mpsc_sdma_burstsize(struct mpsc_port_info *pi, u32 burst_size)
405 {
406 u32 v;
407
408 pr_debug("mpsc_sdma_burstsize[%d]: burst_size: %d\n",
409 pi->port.line, burst_size);
410
411 burst_size >>= 3; /* Divide by 8 b/c reg values are 8-byte chunks */
412
413 if (burst_size < 2)
414 v = 0x0; /* 1 64-bit word */
415 else if (burst_size < 4)
416 v = 0x1; /* 2 64-bit words */
417 else if (burst_size < 8)
418 v = 0x2; /* 4 64-bit words */
419 else
420 v = 0x3; /* 8 64-bit words */
421
422 writel((readl(pi->sdma_base + SDMA_SDC) & (0x3 << 12)) | (v << 12),
423 pi->sdma_base + SDMA_SDC);
424 }
425
426 static void mpsc_sdma_init(struct mpsc_port_info *pi, u32 burst_size)
427 {
428 pr_debug("mpsc_sdma_init[%d]: burst_size: %d\n", pi->port.line,
429 burst_size);
430
431 writel((readl(pi->sdma_base + SDMA_SDC) & 0x3ff) | 0x03f,
432 pi->sdma_base + SDMA_SDC);
433 mpsc_sdma_burstsize(pi, burst_size);
434 }
435
436 static u32 mpsc_sdma_intr_mask(struct mpsc_port_info *pi, u32 mask)
437 {
438 u32 old, v;
439
440 pr_debug("mpsc_sdma_intr_mask[%d]: mask: 0x%x\n", pi->port.line, mask);
441
442 old = v = (pi->mirror_regs) ? pi->shared_regs->SDMA_INTR_MASK_m :
443 readl(pi->shared_regs->sdma_intr_base + SDMA_INTR_MASK);
444
445 mask &= 0xf;
446 if (pi->port.line)
447 mask <<= 8;
448 v &= ~mask;
449
450 if (pi->mirror_regs)
451 pi->shared_regs->SDMA_INTR_MASK_m = v;
452 writel(v, pi->shared_regs->sdma_intr_base + SDMA_INTR_MASK);
453
454 if (pi->port.line)
455 old >>= 8;
456 return old & 0xf;
457 }
458
459 static void mpsc_sdma_intr_unmask(struct mpsc_port_info *pi, u32 mask)
460 {
461 u32 v;
462
463 pr_debug("mpsc_sdma_intr_unmask[%d]: mask: 0x%x\n", pi->port.line,mask);
464
465 v = (pi->mirror_regs) ? pi->shared_regs->SDMA_INTR_MASK_m
466 : readl(pi->shared_regs->sdma_intr_base + SDMA_INTR_MASK);
467
468 mask &= 0xf;
469 if (pi->port.line)
470 mask <<= 8;
471 v |= mask;
472
473 if (pi->mirror_regs)
474 pi->shared_regs->SDMA_INTR_MASK_m = v;
475 writel(v, pi->shared_regs->sdma_intr_base + SDMA_INTR_MASK);
476 }
477
478 static void mpsc_sdma_intr_ack(struct mpsc_port_info *pi)
479 {
480 pr_debug("mpsc_sdma_intr_ack[%d]: Acknowledging IRQ\n", pi->port.line);
481
482 if (pi->mirror_regs)
483 pi->shared_regs->SDMA_INTR_CAUSE_m = 0;
484 writeb(0x00, pi->shared_regs->sdma_intr_base + SDMA_INTR_CAUSE
485 + pi->port.line);
486 }
487
488 static void mpsc_sdma_set_rx_ring(struct mpsc_port_info *pi,
489 struct mpsc_rx_desc *rxre_p)
490 {
491 pr_debug("mpsc_sdma_set_rx_ring[%d]: rxre_p: 0x%x\n",
492 pi->port.line, (u32)rxre_p);
493
494 writel((u32)rxre_p, pi->sdma_base + SDMA_SCRDP);
495 }
496
497 static void mpsc_sdma_set_tx_ring(struct mpsc_port_info *pi,
498 struct mpsc_tx_desc *txre_p)
499 {
500 writel((u32)txre_p, pi->sdma_base + SDMA_SFTDP);
501 writel((u32)txre_p, pi->sdma_base + SDMA_SCTDP);
502 }
503
504 static void mpsc_sdma_cmd(struct mpsc_port_info *pi, u32 val)
505 {
506 u32 v;
507
508 v = readl(pi->sdma_base + SDMA_SDCM);
509 if (val)
510 v |= val;
511 else
512 v = 0;
513 wmb();
514 writel(v, pi->sdma_base + SDMA_SDCM);
515 wmb();
516 }
517
518 static uint mpsc_sdma_tx_active(struct mpsc_port_info *pi)
519 {
520 return readl(pi->sdma_base + SDMA_SDCM) & SDMA_SDCM_TXD;
521 }
522
523 static void mpsc_sdma_start_tx(struct mpsc_port_info *pi)
524 {
525 struct mpsc_tx_desc *txre, *txre_p;
526
527 /* If tx isn't running & there's a desc ready to go, start it */
528 if (!mpsc_sdma_tx_active(pi)) {
529 txre = (struct mpsc_tx_desc *)(pi->txr
530 + (pi->txr_tail * MPSC_TXRE_SIZE));
531 dma_cache_sync(pi->port.dev, (void *)txre, MPSC_TXRE_SIZE,
532 DMA_FROM_DEVICE);
533 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
534 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
535 invalidate_dcache_range((ulong)txre,
536 (ulong)txre + MPSC_TXRE_SIZE);
537 #endif
538
539 if (be32_to_cpu(txre->cmdstat) & SDMA_DESC_CMDSTAT_O) {
540 txre_p = (struct mpsc_tx_desc *)
541 (pi->txr_p + (pi->txr_tail * MPSC_TXRE_SIZE));
542
543 mpsc_sdma_set_tx_ring(pi, txre_p);
544 mpsc_sdma_cmd(pi, SDMA_SDCM_STD | SDMA_SDCM_TXD);
545 }
546 }
547 }
548
549 static void mpsc_sdma_stop(struct mpsc_port_info *pi)
550 {
551 pr_debug("mpsc_sdma_stop[%d]: Stopping SDMA\n", pi->port.line);
552
553 /* Abort any SDMA transfers */
554 mpsc_sdma_cmd(pi, 0);
555 mpsc_sdma_cmd(pi, SDMA_SDCM_AR | SDMA_SDCM_AT);
556
557 /* Clear the SDMA current and first TX and RX pointers */
558 mpsc_sdma_set_tx_ring(pi, NULL);
559 mpsc_sdma_set_rx_ring(pi, NULL);
560
561 /* Disable interrupts */
562 mpsc_sdma_intr_mask(pi, 0xf);
563 mpsc_sdma_intr_ack(pi);
564 }
565
566 /*
567 ******************************************************************************
568 *
569 * Multi-Protocol Serial Controller Routines (MPSC)
570 *
571 ******************************************************************************
572 */
573
574 static void mpsc_hw_init(struct mpsc_port_info *pi)
575 {
576 u32 v;
577
578 pr_debug("mpsc_hw_init[%d]: Initializing hardware\n", pi->port.line);
579
580 /* Set up clock routing */
581 if (pi->mirror_regs) {
582 v = pi->shared_regs->MPSC_MRR_m;
583 v &= ~0x1c7;
584 pi->shared_regs->MPSC_MRR_m = v;
585 writel(v, pi->shared_regs->mpsc_routing_base + MPSC_MRR);
586
587 v = pi->shared_regs->MPSC_RCRR_m;
588 v = (v & ~0xf0f) | 0x100;
589 pi->shared_regs->MPSC_RCRR_m = v;
590 writel(v, pi->shared_regs->mpsc_routing_base + MPSC_RCRR);
591
592 v = pi->shared_regs->MPSC_TCRR_m;
593 v = (v & ~0xf0f) | 0x100;
594 pi->shared_regs->MPSC_TCRR_m = v;
595 writel(v, pi->shared_regs->mpsc_routing_base + MPSC_TCRR);
596 } else {
597 v = readl(pi->shared_regs->mpsc_routing_base + MPSC_MRR);
598 v &= ~0x1c7;
599 writel(v, pi->shared_regs->mpsc_routing_base + MPSC_MRR);
600
601 v = readl(pi->shared_regs->mpsc_routing_base + MPSC_RCRR);
602 v = (v & ~0xf0f) | 0x100;
603 writel(v, pi->shared_regs->mpsc_routing_base + MPSC_RCRR);
604
605 v = readl(pi->shared_regs->mpsc_routing_base + MPSC_TCRR);
606 v = (v & ~0xf0f) | 0x100;
607 writel(v, pi->shared_regs->mpsc_routing_base + MPSC_TCRR);
608 }
609
610 /* Put MPSC in UART mode & enabel Tx/Rx egines */
611 writel(0x000004c4, pi->mpsc_base + MPSC_MMCRL);
612
613 /* No preamble, 16x divider, low-latency, */
614 writel(0x04400400, pi->mpsc_base + MPSC_MMCRH);
615 mpsc_set_baudrate(pi, pi->default_baud);
616
617 if (pi->mirror_regs) {
618 pi->MPSC_CHR_1_m = 0;
619 pi->MPSC_CHR_2_m = 0;
620 }
621 writel(0, pi->mpsc_base + MPSC_CHR_1);
622 writel(0, pi->mpsc_base + MPSC_CHR_2);
623 writel(pi->mpsc_max_idle, pi->mpsc_base + MPSC_CHR_3);
624 writel(0, pi->mpsc_base + MPSC_CHR_4);
625 writel(0, pi->mpsc_base + MPSC_CHR_5);
626 writel(0, pi->mpsc_base + MPSC_CHR_6);
627 writel(0, pi->mpsc_base + MPSC_CHR_7);
628 writel(0, pi->mpsc_base + MPSC_CHR_8);
629 writel(0, pi->mpsc_base + MPSC_CHR_9);
630 writel(0, pi->mpsc_base + MPSC_CHR_10);
631 }
632
633 static void mpsc_enter_hunt(struct mpsc_port_info *pi)
634 {
635 pr_debug("mpsc_enter_hunt[%d]: Hunting...\n", pi->port.line);
636
637 if (pi->mirror_regs) {
638 writel(pi->MPSC_CHR_2_m | MPSC_CHR_2_EH,
639 pi->mpsc_base + MPSC_CHR_2);
640 /* Erratum prevents reading CHR_2 so just delay for a while */
641 udelay(100);
642 } else {
643 writel(readl(pi->mpsc_base + MPSC_CHR_2) | MPSC_CHR_2_EH,
644 pi->mpsc_base + MPSC_CHR_2);
645
646 while (readl(pi->mpsc_base + MPSC_CHR_2) & MPSC_CHR_2_EH)
647 udelay(10);
648 }
649 }
650
651 static void mpsc_freeze(struct mpsc_port_info *pi)
652 {
653 u32 v;
654
655 pr_debug("mpsc_freeze[%d]: Freezing\n", pi->port.line);
656
657 v = (pi->mirror_regs) ? pi->MPSC_MPCR_m :
658 readl(pi->mpsc_base + MPSC_MPCR);
659 v |= MPSC_MPCR_FRZ;
660
661 if (pi->mirror_regs)
662 pi->MPSC_MPCR_m = v;
663 writel(v, pi->mpsc_base + MPSC_MPCR);
664 }
665
666 static void mpsc_unfreeze(struct mpsc_port_info *pi)
667 {
668 u32 v;
669
670 v = (pi->mirror_regs) ? pi->MPSC_MPCR_m :
671 readl(pi->mpsc_base + MPSC_MPCR);
672 v &= ~MPSC_MPCR_FRZ;
673
674 if (pi->mirror_regs)
675 pi->MPSC_MPCR_m = v;
676 writel(v, pi->mpsc_base + MPSC_MPCR);
677
678 pr_debug("mpsc_unfreeze[%d]: Unfrozen\n", pi->port.line);
679 }
680
681 static void mpsc_set_char_length(struct mpsc_port_info *pi, u32 len)
682 {
683 u32 v;
684
685 pr_debug("mpsc_set_char_length[%d]: char len: %d\n", pi->port.line,len);
686
687 v = (pi->mirror_regs) ? pi->MPSC_MPCR_m :
688 readl(pi->mpsc_base + MPSC_MPCR);
689 v = (v & ~(0x3 << 12)) | ((len & 0x3) << 12);
690
691 if (pi->mirror_regs)
692 pi->MPSC_MPCR_m = v;
693 writel(v, pi->mpsc_base + MPSC_MPCR);
694 }
695
696 static void mpsc_set_stop_bit_length(struct mpsc_port_info *pi, u32 len)
697 {
698 u32 v;
699
700 pr_debug("mpsc_set_stop_bit_length[%d]: stop bits: %d\n",
701 pi->port.line, len);
702
703 v = (pi->mirror_regs) ? pi->MPSC_MPCR_m :
704 readl(pi->mpsc_base + MPSC_MPCR);
705
706 v = (v & ~(1 << 14)) | ((len & 0x1) << 14);
707
708 if (pi->mirror_regs)
709 pi->MPSC_MPCR_m = v;
710 writel(v, pi->mpsc_base + MPSC_MPCR);
711 }
712
713 static void mpsc_set_parity(struct mpsc_port_info *pi, u32 p)
714 {
715 u32 v;
716
717 pr_debug("mpsc_set_parity[%d]: parity bits: 0x%x\n", pi->port.line, p);
718
719 v = (pi->mirror_regs) ? pi->MPSC_CHR_2_m :
720 readl(pi->mpsc_base + MPSC_CHR_2);
721
722 p &= 0x3;
723 v = (v & ~0xc000c) | (p << 18) | (p << 2);
724
725 if (pi->mirror_regs)
726 pi->MPSC_CHR_2_m = v;
727 writel(v, pi->mpsc_base + MPSC_CHR_2);
728 }
729
730 /*
731 ******************************************************************************
732 *
733 * Driver Init Routines
734 *
735 ******************************************************************************
736 */
737
738 static void mpsc_init_hw(struct mpsc_port_info *pi)
739 {
740 pr_debug("mpsc_init_hw[%d]: Initializing\n", pi->port.line);
741
742 mpsc_brg_init(pi, pi->brg_clk_src);
743 mpsc_brg_enable(pi);
744 mpsc_sdma_init(pi, dma_get_cache_alignment()); /* burst a cacheline */
745 mpsc_sdma_stop(pi);
746 mpsc_hw_init(pi);
747 }
748
749 static int mpsc_alloc_ring_mem(struct mpsc_port_info *pi)
750 {
751 int rc = 0;
752
753 pr_debug("mpsc_alloc_ring_mem[%d]: Allocating ring mem\n",
754 pi->port.line);
755
756 if (!pi->dma_region) {
757 if (!dma_supported(pi->port.dev, 0xffffffff)) {
758 printk(KERN_ERR "MPSC: Inadequate DMA support\n");
759 rc = -ENXIO;
760 } else if ((pi->dma_region = dma_alloc_noncoherent(pi->port.dev,
761 MPSC_DMA_ALLOC_SIZE,
762 &pi->dma_region_p, GFP_KERNEL))
763 == NULL) {
764 printk(KERN_ERR "MPSC: Can't alloc Desc region\n");
765 rc = -ENOMEM;
766 }
767 }
768
769 return rc;
770 }
771
772 static void mpsc_free_ring_mem(struct mpsc_port_info *pi)
773 {
774 pr_debug("mpsc_free_ring_mem[%d]: Freeing ring mem\n", pi->port.line);
775
776 if (pi->dma_region) {
777 dma_free_noncoherent(pi->port.dev, MPSC_DMA_ALLOC_SIZE,
778 pi->dma_region, pi->dma_region_p);
779 pi->dma_region = NULL;
780 pi->dma_region_p = (dma_addr_t)NULL;
781 }
782 }
783
784 static void mpsc_init_rings(struct mpsc_port_info *pi)
785 {
786 struct mpsc_rx_desc *rxre;
787 struct mpsc_tx_desc *txre;
788 dma_addr_t dp, dp_p;
789 u8 *bp, *bp_p;
790 int i;
791
792 pr_debug("mpsc_init_rings[%d]: Initializing rings\n", pi->port.line);
793
794 BUG_ON(pi->dma_region == NULL);
795
796 memset(pi->dma_region, 0, MPSC_DMA_ALLOC_SIZE);
797
798 /*
799 * Descriptors & buffers are multiples of cacheline size and must be
800 * cacheline aligned.
801 */
802 dp = ALIGN((u32)pi->dma_region, dma_get_cache_alignment());
803 dp_p = ALIGN((u32)pi->dma_region_p, dma_get_cache_alignment());
804
805 /*
806 * Partition dma region into rx ring descriptor, rx buffers,
807 * tx ring descriptors, and tx buffers.
808 */
809 pi->rxr = dp;
810 pi->rxr_p = dp_p;
811 dp += MPSC_RXR_SIZE;
812 dp_p += MPSC_RXR_SIZE;
813
814 pi->rxb = (u8 *)dp;
815 pi->rxb_p = (u8 *)dp_p;
816 dp += MPSC_RXB_SIZE;
817 dp_p += MPSC_RXB_SIZE;
818
819 pi->rxr_posn = 0;
820
821 pi->txr = dp;
822 pi->txr_p = dp_p;
823 dp += MPSC_TXR_SIZE;
824 dp_p += MPSC_TXR_SIZE;
825
826 pi->txb = (u8 *)dp;
827 pi->txb_p = (u8 *)dp_p;
828
829 pi->txr_head = 0;
830 pi->txr_tail = 0;
831
832 /* Init rx ring descriptors */
833 dp = pi->rxr;
834 dp_p = pi->rxr_p;
835 bp = pi->rxb;
836 bp_p = pi->rxb_p;
837
838 for (i = 0; i < MPSC_RXR_ENTRIES; i++) {
839 rxre = (struct mpsc_rx_desc *)dp;
840
841 rxre->bufsize = cpu_to_be16(MPSC_RXBE_SIZE);
842 rxre->bytecnt = cpu_to_be16(0);
843 rxre->cmdstat = cpu_to_be32(SDMA_DESC_CMDSTAT_O
844 | SDMA_DESC_CMDSTAT_EI | SDMA_DESC_CMDSTAT_F
845 | SDMA_DESC_CMDSTAT_L);
846 rxre->link = cpu_to_be32(dp_p + MPSC_RXRE_SIZE);
847 rxre->buf_ptr = cpu_to_be32(bp_p);
848
849 dp += MPSC_RXRE_SIZE;
850 dp_p += MPSC_RXRE_SIZE;
851 bp += MPSC_RXBE_SIZE;
852 bp_p += MPSC_RXBE_SIZE;
853 }
854 rxre->link = cpu_to_be32(pi->rxr_p); /* Wrap last back to first */
855
856 /* Init tx ring descriptors */
857 dp = pi->txr;
858 dp_p = pi->txr_p;
859 bp = pi->txb;
860 bp_p = pi->txb_p;
861
862 for (i = 0; i < MPSC_TXR_ENTRIES; i++) {
863 txre = (struct mpsc_tx_desc *)dp;
864
865 txre->link = cpu_to_be32(dp_p + MPSC_TXRE_SIZE);
866 txre->buf_ptr = cpu_to_be32(bp_p);
867
868 dp += MPSC_TXRE_SIZE;
869 dp_p += MPSC_TXRE_SIZE;
870 bp += MPSC_TXBE_SIZE;
871 bp_p += MPSC_TXBE_SIZE;
872 }
873 txre->link = cpu_to_be32(pi->txr_p); /* Wrap last back to first */
874
875 dma_cache_sync(pi->port.dev, (void *)pi->dma_region,
876 MPSC_DMA_ALLOC_SIZE, DMA_BIDIRECTIONAL);
877 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
878 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
879 flush_dcache_range((ulong)pi->dma_region,
880 (ulong)pi->dma_region
881 + MPSC_DMA_ALLOC_SIZE);
882 #endif
883
884 return;
885 }
886
887 static void mpsc_uninit_rings(struct mpsc_port_info *pi)
888 {
889 pr_debug("mpsc_uninit_rings[%d]: Uninitializing rings\n",pi->port.line);
890
891 BUG_ON(pi->dma_region == NULL);
892
893 pi->rxr = 0;
894 pi->rxr_p = 0;
895 pi->rxb = NULL;
896 pi->rxb_p = NULL;
897 pi->rxr_posn = 0;
898
899 pi->txr = 0;
900 pi->txr_p = 0;
901 pi->txb = NULL;
902 pi->txb_p = NULL;
903 pi->txr_head = 0;
904 pi->txr_tail = 0;
905 }
906
907 static int mpsc_make_ready(struct mpsc_port_info *pi)
908 {
909 int rc;
910
911 pr_debug("mpsc_make_ready[%d]: Making cltr ready\n", pi->port.line);
912
913 if (!pi->ready) {
914 mpsc_init_hw(pi);
915 if ((rc = mpsc_alloc_ring_mem(pi)))
916 return rc;
917 mpsc_init_rings(pi);
918 pi->ready = 1;
919 }
920
921 return 0;
922 }
923
924 #ifdef CONFIG_CONSOLE_POLL
925 static int serial_polled;
926 #endif
927
928 /*
929 ******************************************************************************
930 *
931 * Interrupt Handling Routines
932 *
933 ******************************************************************************
934 */
935
936 static int mpsc_rx_intr(struct mpsc_port_info *pi)
937 {
938 struct mpsc_rx_desc *rxre;
939 struct tty_struct *tty = pi->port.info->port.tty;
940 u32 cmdstat, bytes_in, i;
941 int rc = 0;
942 u8 *bp;
943 char flag = TTY_NORMAL;
944
945 pr_debug("mpsc_rx_intr[%d]: Handling Rx intr\n", pi->port.line);
946
947 rxre = (struct mpsc_rx_desc *)(pi->rxr + (pi->rxr_posn*MPSC_RXRE_SIZE));
948
949 dma_cache_sync(pi->port.dev, (void *)rxre, MPSC_RXRE_SIZE,
950 DMA_FROM_DEVICE);
951 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
952 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
953 invalidate_dcache_range((ulong)rxre,
954 (ulong)rxre + MPSC_RXRE_SIZE);
955 #endif
956
957 /*
958 * Loop through Rx descriptors handling ones that have been completed.
959 */
960 while (!((cmdstat = be32_to_cpu(rxre->cmdstat))
961 & SDMA_DESC_CMDSTAT_O)) {
962 bytes_in = be16_to_cpu(rxre->bytecnt);
963 #ifdef CONFIG_CONSOLE_POLL
964 if (unlikely(serial_polled)) {
965 serial_polled = 0;
966 return 0;
967 }
968 #endif
969 /* Following use of tty struct directly is deprecated */
970 if (unlikely(tty_buffer_request_room(tty, bytes_in)
971 < bytes_in)) {
972 if (tty->low_latency)
973 tty_flip_buffer_push(tty);
974 /*
975 * If this failed then we will throw away the bytes
976 * but must do so to clear interrupts.
977 */
978 }
979
980 bp = pi->rxb + (pi->rxr_posn * MPSC_RXBE_SIZE);
981 dma_cache_sync(pi->port.dev, (void *)bp, MPSC_RXBE_SIZE,
982 DMA_FROM_DEVICE);
983 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
984 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
985 invalidate_dcache_range((ulong)bp,
986 (ulong)bp + MPSC_RXBE_SIZE);
987 #endif
988
989 /*
990 * Other than for parity error, the manual provides little
991 * info on what data will be in a frame flagged by any of
992 * these errors. For parity error, it is the last byte in
993 * the buffer that had the error. As for the rest, I guess
994 * we'll assume there is no data in the buffer.
995 * If there is...it gets lost.
996 */
997 if (unlikely(cmdstat & (SDMA_DESC_CMDSTAT_BR
998 | SDMA_DESC_CMDSTAT_FR
999 | SDMA_DESC_CMDSTAT_OR))) {
1000
1001 pi->port.icount.rx++;
1002
1003 if (cmdstat & SDMA_DESC_CMDSTAT_BR) { /* Break */
1004 pi->port.icount.brk++;
1005
1006 if (uart_handle_break(&pi->port))
1007 goto next_frame;
1008 } else if (cmdstat & SDMA_DESC_CMDSTAT_FR) {
1009 pi->port.icount.frame++;
1010 } else if (cmdstat & SDMA_DESC_CMDSTAT_OR) {
1011 pi->port.icount.overrun++;
1012 }
1013
1014 cmdstat &= pi->port.read_status_mask;
1015
1016 if (cmdstat & SDMA_DESC_CMDSTAT_BR)
1017 flag = TTY_BREAK;
1018 else if (cmdstat & SDMA_DESC_CMDSTAT_FR)
1019 flag = TTY_FRAME;
1020 else if (cmdstat & SDMA_DESC_CMDSTAT_OR)
1021 flag = TTY_OVERRUN;
1022 else if (cmdstat & SDMA_DESC_CMDSTAT_PE)
1023 flag = TTY_PARITY;
1024 }
1025
1026 if (uart_handle_sysrq_char(&pi->port, *bp)) {
1027 bp++;
1028 bytes_in--;
1029 #ifdef CONFIG_CONSOLE_POLL
1030 if (unlikely(serial_polled)) {
1031 serial_polled = 0;
1032 return 0;
1033 }
1034 #endif
1035 goto next_frame;
1036 }
1037
1038 if ((unlikely(cmdstat & (SDMA_DESC_CMDSTAT_BR
1039 | SDMA_DESC_CMDSTAT_FR
1040 | SDMA_DESC_CMDSTAT_OR)))
1041 && !(cmdstat & pi->port.ignore_status_mask)) {
1042 tty_insert_flip_char(tty, *bp, flag);
1043 } else {
1044 for (i=0; i<bytes_in; i++)
1045 tty_insert_flip_char(tty, *bp++, TTY_NORMAL);
1046
1047 pi->port.icount.rx += bytes_in;
1048 }
1049
1050 next_frame:
1051 rxre->bytecnt = cpu_to_be16(0);
1052 wmb();
1053 rxre->cmdstat = cpu_to_be32(SDMA_DESC_CMDSTAT_O
1054 | SDMA_DESC_CMDSTAT_EI | SDMA_DESC_CMDSTAT_F
1055 | SDMA_DESC_CMDSTAT_L);
1056 wmb();
1057 dma_cache_sync(pi->port.dev, (void *)rxre, MPSC_RXRE_SIZE,
1058 DMA_BIDIRECTIONAL);
1059 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1060 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1061 flush_dcache_range((ulong)rxre,
1062 (ulong)rxre + MPSC_RXRE_SIZE);
1063 #endif
1064
1065 /* Advance to next descriptor */
1066 pi->rxr_posn = (pi->rxr_posn + 1) & (MPSC_RXR_ENTRIES - 1);
1067 rxre = (struct mpsc_rx_desc *)
1068 (pi->rxr + (pi->rxr_posn * MPSC_RXRE_SIZE));
1069 dma_cache_sync(pi->port.dev, (void *)rxre, MPSC_RXRE_SIZE,
1070 DMA_FROM_DEVICE);
1071 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1072 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1073 invalidate_dcache_range((ulong)rxre,
1074 (ulong)rxre + MPSC_RXRE_SIZE);
1075 #endif
1076 rc = 1;
1077 }
1078
1079 /* Restart rx engine, if its stopped */
1080 if ((readl(pi->sdma_base + SDMA_SDCM) & SDMA_SDCM_ERD) == 0)
1081 mpsc_start_rx(pi);
1082
1083 tty_flip_buffer_push(tty);
1084 return rc;
1085 }
1086
1087 static void mpsc_setup_tx_desc(struct mpsc_port_info *pi, u32 count, u32 intr)
1088 {
1089 struct mpsc_tx_desc *txre;
1090
1091 txre = (struct mpsc_tx_desc *)(pi->txr
1092 + (pi->txr_head * MPSC_TXRE_SIZE));
1093
1094 txre->bytecnt = cpu_to_be16(count);
1095 txre->shadow = txre->bytecnt;
1096 wmb(); /* ensure cmdstat is last field updated */
1097 txre->cmdstat = cpu_to_be32(SDMA_DESC_CMDSTAT_O | SDMA_DESC_CMDSTAT_F
1098 | SDMA_DESC_CMDSTAT_L
1099 | ((intr) ? SDMA_DESC_CMDSTAT_EI : 0));
1100 wmb();
1101 dma_cache_sync(pi->port.dev, (void *)txre, MPSC_TXRE_SIZE,
1102 DMA_BIDIRECTIONAL);
1103 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1104 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1105 flush_dcache_range((ulong)txre,
1106 (ulong)txre + MPSC_TXRE_SIZE);
1107 #endif
1108 }
1109
1110 static void mpsc_copy_tx_data(struct mpsc_port_info *pi)
1111 {
1112 struct circ_buf *xmit = &pi->port.info->xmit;
1113 u8 *bp;
1114 u32 i;
1115
1116 /* Make sure the desc ring isn't full */
1117 while (CIRC_CNT(pi->txr_head, pi->txr_tail, MPSC_TXR_ENTRIES)
1118 < (MPSC_TXR_ENTRIES - 1)) {
1119 if (pi->port.x_char) {
1120 /*
1121 * Ideally, we should use the TCS field in
1122 * CHR_1 to put the x_char out immediately but
1123 * errata prevents us from being able to read
1124 * CHR_2 to know that its safe to write to
1125 * CHR_1. Instead, just put it in-band with
1126 * all the other Tx data.
1127 */
1128 bp = pi->txb + (pi->txr_head * MPSC_TXBE_SIZE);
1129 *bp = pi->port.x_char;
1130 pi->port.x_char = 0;
1131 i = 1;
1132 } else if (!uart_circ_empty(xmit)
1133 && !uart_tx_stopped(&pi->port)) {
1134 i = min((u32)MPSC_TXBE_SIZE,
1135 (u32)uart_circ_chars_pending(xmit));
1136 i = min(i, (u32)CIRC_CNT_TO_END(xmit->head, xmit->tail,
1137 UART_XMIT_SIZE));
1138 bp = pi->txb + (pi->txr_head * MPSC_TXBE_SIZE);
1139 memcpy(bp, &xmit->buf[xmit->tail], i);
1140 xmit->tail = (xmit->tail + i) & (UART_XMIT_SIZE - 1);
1141
1142 if (uart_circ_chars_pending(xmit) < WAKEUP_CHARS)
1143 uart_write_wakeup(&pi->port);
1144 } else { /* All tx data copied into ring bufs */
1145 return;
1146 }
1147
1148 dma_cache_sync(pi->port.dev, (void *)bp, MPSC_TXBE_SIZE,
1149 DMA_BIDIRECTIONAL);
1150 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1151 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1152 flush_dcache_range((ulong)bp,
1153 (ulong)bp + MPSC_TXBE_SIZE);
1154 #endif
1155 mpsc_setup_tx_desc(pi, i, 1);
1156
1157 /* Advance to next descriptor */
1158 pi->txr_head = (pi->txr_head + 1) & (MPSC_TXR_ENTRIES - 1);
1159 }
1160 }
1161
1162 static int mpsc_tx_intr(struct mpsc_port_info *pi)
1163 {
1164 struct mpsc_tx_desc *txre;
1165 int rc = 0;
1166 unsigned long iflags;
1167
1168 spin_lock_irqsave(&pi->tx_lock, iflags);
1169
1170 if (!mpsc_sdma_tx_active(pi)) {
1171 txre = (struct mpsc_tx_desc *)(pi->txr
1172 + (pi->txr_tail * MPSC_TXRE_SIZE));
1173
1174 dma_cache_sync(pi->port.dev, (void *)txre, MPSC_TXRE_SIZE,
1175 DMA_FROM_DEVICE);
1176 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1177 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1178 invalidate_dcache_range((ulong)txre,
1179 (ulong)txre + MPSC_TXRE_SIZE);
1180 #endif
1181
1182 while (!(be32_to_cpu(txre->cmdstat) & SDMA_DESC_CMDSTAT_O)) {
1183 rc = 1;
1184 pi->port.icount.tx += be16_to_cpu(txre->bytecnt);
1185 pi->txr_tail = (pi->txr_tail+1) & (MPSC_TXR_ENTRIES-1);
1186
1187 /* If no more data to tx, fall out of loop */
1188 if (pi->txr_head == pi->txr_tail)
1189 break;
1190
1191 txre = (struct mpsc_tx_desc *)(pi->txr
1192 + (pi->txr_tail * MPSC_TXRE_SIZE));
1193 dma_cache_sync(pi->port.dev, (void *)txre,
1194 MPSC_TXRE_SIZE, DMA_FROM_DEVICE);
1195 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1196 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1197 invalidate_dcache_range((ulong)txre,
1198 (ulong)txre + MPSC_TXRE_SIZE);
1199 #endif
1200 }
1201
1202 mpsc_copy_tx_data(pi);
1203 mpsc_sdma_start_tx(pi); /* start next desc if ready */
1204 }
1205
1206 spin_unlock_irqrestore(&pi->tx_lock, iflags);
1207 return rc;
1208 }
1209
1210 /*
1211 * This is the driver's interrupt handler. To avoid a race, we first clear
1212 * the interrupt, then handle any completed Rx/Tx descriptors. When done
1213 * handling those descriptors, we restart the Rx/Tx engines if they're stopped.
1214 */
1215 static irqreturn_t mpsc_sdma_intr(int irq, void *dev_id)
1216 {
1217 struct mpsc_port_info *pi = dev_id;
1218 ulong iflags;
1219 int rc = IRQ_NONE;
1220
1221 pr_debug("mpsc_sdma_intr[%d]: SDMA Interrupt Received\n",pi->port.line);
1222
1223 spin_lock_irqsave(&pi->port.lock, iflags);
1224 mpsc_sdma_intr_ack(pi);
1225 if (mpsc_rx_intr(pi))
1226 rc = IRQ_HANDLED;
1227 if (mpsc_tx_intr(pi))
1228 rc = IRQ_HANDLED;
1229 spin_unlock_irqrestore(&pi->port.lock, iflags);
1230
1231 pr_debug("mpsc_sdma_intr[%d]: SDMA Interrupt Handled\n", pi->port.line);
1232 return rc;
1233 }
1234
1235 /*
1236 ******************************************************************************
1237 *
1238 * serial_core.c Interface routines
1239 *
1240 ******************************************************************************
1241 */
1242 static uint mpsc_tx_empty(struct uart_port *port)
1243 {
1244 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1245 ulong iflags;
1246 uint rc;
1247
1248 spin_lock_irqsave(&pi->port.lock, iflags);
1249 rc = mpsc_sdma_tx_active(pi) ? 0 : TIOCSER_TEMT;
1250 spin_unlock_irqrestore(&pi->port.lock, iflags);
1251
1252 return rc;
1253 }
1254
1255 static void mpsc_set_mctrl(struct uart_port *port, uint mctrl)
1256 {
1257 /* Have no way to set modem control lines AFAICT */
1258 }
1259
1260 static uint mpsc_get_mctrl(struct uart_port *port)
1261 {
1262 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1263 u32 mflags, status;
1264
1265 status = (pi->mirror_regs) ? pi->MPSC_CHR_10_m
1266 : readl(pi->mpsc_base + MPSC_CHR_10);
1267
1268 mflags = 0;
1269 if (status & 0x1)
1270 mflags |= TIOCM_CTS;
1271 if (status & 0x2)
1272 mflags |= TIOCM_CAR;
1273
1274 return mflags | TIOCM_DSR; /* No way to tell if DSR asserted */
1275 }
1276
1277 static void mpsc_stop_tx(struct uart_port *port)
1278 {
1279 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1280
1281 pr_debug("mpsc_stop_tx[%d]\n", port->line);
1282
1283 mpsc_freeze(pi);
1284 }
1285
1286 static void mpsc_start_tx(struct uart_port *port)
1287 {
1288 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1289 unsigned long iflags;
1290
1291 spin_lock_irqsave(&pi->tx_lock, iflags);
1292
1293 mpsc_unfreeze(pi);
1294 mpsc_copy_tx_data(pi);
1295 mpsc_sdma_start_tx(pi);
1296
1297 spin_unlock_irqrestore(&pi->tx_lock, iflags);
1298
1299 pr_debug("mpsc_start_tx[%d]\n", port->line);
1300 }
1301
1302 static void mpsc_start_rx(struct mpsc_port_info *pi)
1303 {
1304 pr_debug("mpsc_start_rx[%d]: Starting...\n", pi->port.line);
1305
1306 if (pi->rcv_data) {
1307 mpsc_enter_hunt(pi);
1308 mpsc_sdma_cmd(pi, SDMA_SDCM_ERD);
1309 }
1310 }
1311
1312 static void mpsc_stop_rx(struct uart_port *port)
1313 {
1314 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1315
1316 pr_debug("mpsc_stop_rx[%d]: Stopping...\n", port->line);
1317
1318 if (pi->mirror_regs) {
1319 writel(pi->MPSC_CHR_2_m | MPSC_CHR_2_RA,
1320 pi->mpsc_base + MPSC_CHR_2);
1321 /* Erratum prevents reading CHR_2 so just delay for a while */
1322 udelay(100);
1323 } else {
1324 writel(readl(pi->mpsc_base + MPSC_CHR_2) | MPSC_CHR_2_RA,
1325 pi->mpsc_base + MPSC_CHR_2);
1326
1327 while (readl(pi->mpsc_base + MPSC_CHR_2) & MPSC_CHR_2_RA)
1328 udelay(10);
1329 }
1330
1331 mpsc_sdma_cmd(pi, SDMA_SDCM_AR);
1332 }
1333
1334 static void mpsc_enable_ms(struct uart_port *port)
1335 {
1336 }
1337
1338 static void mpsc_break_ctl(struct uart_port *port, int ctl)
1339 {
1340 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1341 ulong flags;
1342 u32 v;
1343
1344 v = ctl ? 0x00ff0000 : 0;
1345
1346 spin_lock_irqsave(&pi->port.lock, flags);
1347 if (pi->mirror_regs)
1348 pi->MPSC_CHR_1_m = v;
1349 writel(v, pi->mpsc_base + MPSC_CHR_1);
1350 spin_unlock_irqrestore(&pi->port.lock, flags);
1351 }
1352
1353 static int mpsc_startup(struct uart_port *port)
1354 {
1355 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1356 u32 flag = 0;
1357 int rc;
1358
1359 pr_debug("mpsc_startup[%d]: Starting up MPSC, irq: %d\n",
1360 port->line, pi->port.irq);
1361
1362 if ((rc = mpsc_make_ready(pi)) == 0) {
1363 /* Setup IRQ handler */
1364 mpsc_sdma_intr_ack(pi);
1365
1366 /* If irq's are shared, need to set flag */
1367 if (mpsc_ports[0].port.irq == mpsc_ports[1].port.irq)
1368 flag = IRQF_SHARED;
1369
1370 if (request_irq(pi->port.irq, mpsc_sdma_intr, flag,
1371 "mpsc-sdma", pi))
1372 printk(KERN_ERR "MPSC: Can't get SDMA IRQ %d\n",
1373 pi->port.irq);
1374
1375 mpsc_sdma_intr_unmask(pi, 0xf);
1376 mpsc_sdma_set_rx_ring(pi, (struct mpsc_rx_desc *)(pi->rxr_p
1377 + (pi->rxr_posn * MPSC_RXRE_SIZE)));
1378 }
1379
1380 return rc;
1381 }
1382
1383 static void mpsc_shutdown(struct uart_port *port)
1384 {
1385 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1386
1387 pr_debug("mpsc_shutdown[%d]: Shutting down MPSC\n", port->line);
1388
1389 mpsc_sdma_stop(pi);
1390 free_irq(pi->port.irq, pi);
1391 }
1392
1393 static void mpsc_set_termios(struct uart_port *port, struct ktermios *termios,
1394 struct ktermios *old)
1395 {
1396 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1397 u32 baud;
1398 ulong flags;
1399 u32 chr_bits, stop_bits, par;
1400
1401 pi->c_iflag = termios->c_iflag;
1402 pi->c_cflag = termios->c_cflag;
1403
1404 switch (termios->c_cflag & CSIZE) {
1405 case CS5:
1406 chr_bits = MPSC_MPCR_CL_5;
1407 break;
1408 case CS6:
1409 chr_bits = MPSC_MPCR_CL_6;
1410 break;
1411 case CS7:
1412 chr_bits = MPSC_MPCR_CL_7;
1413 break;
1414 case CS8:
1415 default:
1416 chr_bits = MPSC_MPCR_CL_8;
1417 break;
1418 }
1419
1420 if (termios->c_cflag & CSTOPB)
1421 stop_bits = MPSC_MPCR_SBL_2;
1422 else
1423 stop_bits = MPSC_MPCR_SBL_1;
1424
1425 par = MPSC_CHR_2_PAR_EVEN;
1426 if (termios->c_cflag & PARENB)
1427 if (termios->c_cflag & PARODD)
1428 par = MPSC_CHR_2_PAR_ODD;
1429 #ifdef CMSPAR
1430 if (termios->c_cflag & CMSPAR) {
1431 if (termios->c_cflag & PARODD)
1432 par = MPSC_CHR_2_PAR_MARK;
1433 else
1434 par = MPSC_CHR_2_PAR_SPACE;
1435 }
1436 #endif
1437
1438 baud = uart_get_baud_rate(port, termios, old, 0, port->uartclk);
1439
1440 spin_lock_irqsave(&pi->port.lock, flags);
1441
1442 uart_update_timeout(port, termios->c_cflag, baud);
1443
1444 mpsc_set_char_length(pi, chr_bits);
1445 mpsc_set_stop_bit_length(pi, stop_bits);
1446 mpsc_set_parity(pi, par);
1447 mpsc_set_baudrate(pi, baud);
1448
1449 /* Characters/events to read */
1450 pi->port.read_status_mask = SDMA_DESC_CMDSTAT_OR;
1451
1452 if (termios->c_iflag & INPCK)
1453 pi->port.read_status_mask |= SDMA_DESC_CMDSTAT_PE
1454 | SDMA_DESC_CMDSTAT_FR;
1455
1456 if (termios->c_iflag & (BRKINT | PARMRK))
1457 pi->port.read_status_mask |= SDMA_DESC_CMDSTAT_BR;
1458
1459 /* Characters/events to ignore */
1460 pi->port.ignore_status_mask = 0;
1461
1462 if (termios->c_iflag & IGNPAR)
1463 pi->port.ignore_status_mask |= SDMA_DESC_CMDSTAT_PE
1464 | SDMA_DESC_CMDSTAT_FR;
1465
1466 if (termios->c_iflag & IGNBRK) {
1467 pi->port.ignore_status_mask |= SDMA_DESC_CMDSTAT_BR;
1468
1469 if (termios->c_iflag & IGNPAR)
1470 pi->port.ignore_status_mask |= SDMA_DESC_CMDSTAT_OR;
1471 }
1472
1473 if ((termios->c_cflag & CREAD)) {
1474 if (!pi->rcv_data) {
1475 pi->rcv_data = 1;
1476 mpsc_start_rx(pi);
1477 }
1478 } else if (pi->rcv_data) {
1479 mpsc_stop_rx(port);
1480 pi->rcv_data = 0;
1481 }
1482
1483 spin_unlock_irqrestore(&pi->port.lock, flags);
1484 }
1485
1486 static const char *mpsc_type(struct uart_port *port)
1487 {
1488 pr_debug("mpsc_type[%d]: port type: %s\n", port->line,MPSC_DRIVER_NAME);
1489 return MPSC_DRIVER_NAME;
1490 }
1491
1492 static int mpsc_request_port(struct uart_port *port)
1493 {
1494 /* Should make chip/platform specific call */
1495 return 0;
1496 }
1497
1498 static void mpsc_release_port(struct uart_port *port)
1499 {
1500 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1501
1502 if (pi->ready) {
1503 mpsc_uninit_rings(pi);
1504 mpsc_free_ring_mem(pi);
1505 pi->ready = 0;
1506 }
1507 }
1508
1509 static void mpsc_config_port(struct uart_port *port, int flags)
1510 {
1511 }
1512
1513 static int mpsc_verify_port(struct uart_port *port, struct serial_struct *ser)
1514 {
1515 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1516 int rc = 0;
1517
1518 pr_debug("mpsc_verify_port[%d]: Verifying port data\n", pi->port.line);
1519
1520 if (ser->type != PORT_UNKNOWN && ser->type != PORT_MPSC)
1521 rc = -EINVAL;
1522 else if (pi->port.irq != ser->irq)
1523 rc = -EINVAL;
1524 else if (ser->io_type != SERIAL_IO_MEM)
1525 rc = -EINVAL;
1526 else if (pi->port.uartclk / 16 != ser->baud_base) /* Not sure */
1527 rc = -EINVAL;
1528 else if ((void *)pi->port.mapbase != ser->iomem_base)
1529 rc = -EINVAL;
1530 else if (pi->port.iobase != ser->port)
1531 rc = -EINVAL;
1532 else if (ser->hub6 != 0)
1533 rc = -EINVAL;
1534
1535 return rc;
1536 }
1537 #ifdef CONFIG_CONSOLE_POLL
1538 /* Serial polling routines for writing and reading from the uart while
1539 * in an interrupt or debug context.
1540 */
1541
1542 static char poll_buf[2048];
1543 static int poll_ptr;
1544 static int poll_cnt;
1545 static void mpsc_put_poll_char(struct uart_port *port,
1546 unsigned char c);
1547
1548 static int mpsc_get_poll_char(struct uart_port *port)
1549 {
1550 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1551 struct mpsc_rx_desc *rxre;
1552 u32 cmdstat, bytes_in, i;
1553 u8 *bp;
1554
1555 if (!serial_polled)
1556 serial_polled = 1;
1557
1558 pr_debug("mpsc_rx_intr[%d]: Handling Rx intr\n", pi->port.line);
1559
1560 if (poll_cnt) {
1561 poll_cnt--;
1562 return poll_buf[poll_ptr++];
1563 }
1564 poll_ptr = 0;
1565 poll_cnt = 0;
1566
1567 while (poll_cnt == 0) {
1568 rxre = (struct mpsc_rx_desc *)(pi->rxr +
1569 (pi->rxr_posn*MPSC_RXRE_SIZE));
1570 dma_cache_sync(pi->port.dev, (void *)rxre,
1571 MPSC_RXRE_SIZE, DMA_FROM_DEVICE);
1572 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1573 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1574 invalidate_dcache_range((ulong)rxre,
1575 (ulong)rxre + MPSC_RXRE_SIZE);
1576 #endif
1577 /*
1578 * Loop through Rx descriptors handling ones that have
1579 * been completed.
1580 */
1581 while (poll_cnt == 0 &&
1582 !((cmdstat = be32_to_cpu(rxre->cmdstat)) &
1583 SDMA_DESC_CMDSTAT_O)){
1584 bytes_in = be16_to_cpu(rxre->bytecnt);
1585 bp = pi->rxb + (pi->rxr_posn * MPSC_RXBE_SIZE);
1586 dma_cache_sync(pi->port.dev, (void *) bp,
1587 MPSC_RXBE_SIZE, DMA_FROM_DEVICE);
1588 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1589 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1590 invalidate_dcache_range((ulong)bp,
1591 (ulong)bp + MPSC_RXBE_SIZE);
1592 #endif
1593 if ((unlikely(cmdstat & (SDMA_DESC_CMDSTAT_BR |
1594 SDMA_DESC_CMDSTAT_FR | SDMA_DESC_CMDSTAT_OR))) &&
1595 !(cmdstat & pi->port.ignore_status_mask)) {
1596 poll_buf[poll_cnt] = *bp;
1597 poll_cnt++;
1598 } else {
1599 for (i = 0; i < bytes_in; i++) {
1600 poll_buf[poll_cnt] = *bp++;
1601 poll_cnt++;
1602 }
1603 pi->port.icount.rx += bytes_in;
1604 }
1605 rxre->bytecnt = cpu_to_be16(0);
1606 wmb();
1607 rxre->cmdstat = cpu_to_be32(SDMA_DESC_CMDSTAT_O |
1608 SDMA_DESC_CMDSTAT_EI |
1609 SDMA_DESC_CMDSTAT_F |
1610 SDMA_DESC_CMDSTAT_L);
1611 wmb();
1612 dma_cache_sync(pi->port.dev, (void *)rxre,
1613 MPSC_RXRE_SIZE, DMA_BIDIRECTIONAL);
1614 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1615 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1616 flush_dcache_range((ulong)rxre,
1617 (ulong)rxre + MPSC_RXRE_SIZE);
1618 #endif
1619
1620 /* Advance to next descriptor */
1621 pi->rxr_posn = (pi->rxr_posn + 1) &
1622 (MPSC_RXR_ENTRIES - 1);
1623 rxre = (struct mpsc_rx_desc *)(pi->rxr +
1624 (pi->rxr_posn * MPSC_RXRE_SIZE));
1625 dma_cache_sync(pi->port.dev, (void *)rxre,
1626 MPSC_RXRE_SIZE, DMA_FROM_DEVICE);
1627 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1628 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1629 invalidate_dcache_range((ulong)rxre,
1630 (ulong)rxre + MPSC_RXRE_SIZE);
1631 #endif
1632 }
1633
1634 /* Restart rx engine, if its stopped */
1635 if ((readl(pi->sdma_base + SDMA_SDCM) & SDMA_SDCM_ERD) == 0)
1636 mpsc_start_rx(pi);
1637 }
1638 if (poll_cnt) {
1639 poll_cnt--;
1640 return poll_buf[poll_ptr++];
1641 }
1642
1643 return 0;
1644 }
1645
1646
1647 static void mpsc_put_poll_char(struct uart_port *port,
1648 unsigned char c)
1649 {
1650 struct mpsc_port_info *pi = (struct mpsc_port_info *)port;
1651 u32 data;
1652
1653 data = readl(pi->mpsc_base + MPSC_MPCR);
1654 writeb(c, pi->mpsc_base + MPSC_CHR_1);
1655 mb();
1656 data = readl(pi->mpsc_base + MPSC_CHR_2);
1657 data |= MPSC_CHR_2_TTCS;
1658 writel(data, pi->mpsc_base + MPSC_CHR_2);
1659 mb();
1660
1661 while (readl(pi->mpsc_base + MPSC_CHR_2) & MPSC_CHR_2_TTCS);
1662 }
1663 #endif
1664
1665 static struct uart_ops mpsc_pops = {
1666 .tx_empty = mpsc_tx_empty,
1667 .set_mctrl = mpsc_set_mctrl,
1668 .get_mctrl = mpsc_get_mctrl,
1669 .stop_tx = mpsc_stop_tx,
1670 .start_tx = mpsc_start_tx,
1671 .stop_rx = mpsc_stop_rx,
1672 .enable_ms = mpsc_enable_ms,
1673 .break_ctl = mpsc_break_ctl,
1674 .startup = mpsc_startup,
1675 .shutdown = mpsc_shutdown,
1676 .set_termios = mpsc_set_termios,
1677 .type = mpsc_type,
1678 .release_port = mpsc_release_port,
1679 .request_port = mpsc_request_port,
1680 .config_port = mpsc_config_port,
1681 .verify_port = mpsc_verify_port,
1682 #ifdef CONFIG_CONSOLE_POLL
1683 .poll_get_char = mpsc_get_poll_char,
1684 .poll_put_char = mpsc_put_poll_char,
1685 #endif
1686 };
1687
1688 /*
1689 ******************************************************************************
1690 *
1691 * Console Interface Routines
1692 *
1693 ******************************************************************************
1694 */
1695
1696 #ifdef CONFIG_SERIAL_MPSC_CONSOLE
1697 static void mpsc_console_write(struct console *co, const char *s, uint count)
1698 {
1699 struct mpsc_port_info *pi = &mpsc_ports[co->index];
1700 u8 *bp, *dp, add_cr = 0;
1701 int i;
1702 unsigned long iflags;
1703
1704 spin_lock_irqsave(&pi->tx_lock, iflags);
1705
1706 while (pi->txr_head != pi->txr_tail) {
1707 while (mpsc_sdma_tx_active(pi))
1708 udelay(100);
1709 mpsc_sdma_intr_ack(pi);
1710 mpsc_tx_intr(pi);
1711 }
1712
1713 while (mpsc_sdma_tx_active(pi))
1714 udelay(100);
1715
1716 while (count > 0) {
1717 bp = dp = pi->txb + (pi->txr_head * MPSC_TXBE_SIZE);
1718
1719 for (i = 0; i < MPSC_TXBE_SIZE; i++) {
1720 if (count == 0)
1721 break;
1722
1723 if (add_cr) {
1724 *(dp++) = '\r';
1725 add_cr = 0;
1726 } else {
1727 *(dp++) = *s;
1728
1729 if (*(s++) == '\n') { /* add '\r' after '\n' */
1730 add_cr = 1;
1731 count++;
1732 }
1733 }
1734
1735 count--;
1736 }
1737
1738 dma_cache_sync(pi->port.dev, (void *)bp, MPSC_TXBE_SIZE,
1739 DMA_BIDIRECTIONAL);
1740 #if defined(CONFIG_PPC32) && !defined(CONFIG_NOT_COHERENT_CACHE)
1741 if (pi->cache_mgmt) /* GT642[46]0 Res #COMM-2 */
1742 flush_dcache_range((ulong)bp,
1743 (ulong)bp + MPSC_TXBE_SIZE);
1744 #endif
1745 mpsc_setup_tx_desc(pi, i, 0);
1746 pi->txr_head = (pi->txr_head + 1) & (MPSC_TXR_ENTRIES - 1);
1747 mpsc_sdma_start_tx(pi);
1748
1749 while (mpsc_sdma_tx_active(pi))
1750 udelay(100);
1751
1752 pi->txr_tail = (pi->txr_tail + 1) & (MPSC_TXR_ENTRIES - 1);
1753 }
1754
1755 spin_unlock_irqrestore(&pi->tx_lock, iflags);
1756 }
1757
1758 static int __init mpsc_console_setup(struct console *co, char *options)
1759 {
1760 struct mpsc_port_info *pi;
1761 int baud, bits, parity, flow;
1762
1763 pr_debug("mpsc_console_setup[%d]: options: %s\n", co->index, options);
1764
1765 if (co->index >= MPSC_NUM_CTLRS)
1766 co->index = 0;
1767
1768 pi = &mpsc_ports[co->index];
1769
1770 baud = pi->default_baud;
1771 bits = pi->default_bits;
1772 parity = pi->default_parity;
1773 flow = pi->default_flow;
1774
1775 if (!pi->port.ops)
1776 return -ENODEV;
1777
1778 spin_lock_init(&pi->port.lock); /* Temporary fix--copied from 8250.c */
1779
1780 if (options)
1781 uart_parse_options(options, &baud, &parity, &bits, &flow);
1782
1783 return uart_set_options(&pi->port, co, baud, parity, bits, flow);
1784 }
1785
1786 static struct console mpsc_console = {
1787 .name = MPSC_DEV_NAME,
1788 .write = mpsc_console_write,
1789 .device = uart_console_device,
1790 .setup = mpsc_console_setup,
1791 .flags = CON_PRINTBUFFER,
1792 .index = -1,
1793 .data = &mpsc_reg,
1794 };
1795
1796 static int __init mpsc_late_console_init(void)
1797 {
1798 pr_debug("mpsc_late_console_init: Enter\n");
1799
1800 if (!(mpsc_console.flags & CON_ENABLED))
1801 register_console(&mpsc_console);
1802 return 0;
1803 }
1804
1805 late_initcall(mpsc_late_console_init);
1806
1807 #define MPSC_CONSOLE &mpsc_console
1808 #else
1809 #define MPSC_CONSOLE NULL
1810 #endif
1811 /*
1812 ******************************************************************************
1813 *
1814 * Dummy Platform Driver to extract & map shared register regions
1815 *
1816 ******************************************************************************
1817 */
1818 static void mpsc_resource_err(char *s)
1819 {
1820 printk(KERN_WARNING "MPSC: Platform device resource error in %s\n", s);
1821 }
1822
1823 static int mpsc_shared_map_regs(struct platform_device *pd)
1824 {
1825 struct resource *r;
1826
1827 if ((r = platform_get_resource(pd, IORESOURCE_MEM,
1828 MPSC_ROUTING_BASE_ORDER))
1829 && request_mem_region(r->start,
1830 MPSC_ROUTING_REG_BLOCK_SIZE,
1831 "mpsc_routing_regs")) {
1832 mpsc_shared_regs.mpsc_routing_base = ioremap(r->start,
1833 MPSC_ROUTING_REG_BLOCK_SIZE);
1834 mpsc_shared_regs.mpsc_routing_base_p = r->start;
1835 } else {
1836 mpsc_resource_err("MPSC routing base");
1837 return -ENOMEM;
1838 }
1839
1840 if ((r = platform_get_resource(pd, IORESOURCE_MEM,
1841 MPSC_SDMA_INTR_BASE_ORDER))
1842 && request_mem_region(r->start,
1843 MPSC_SDMA_INTR_REG_BLOCK_SIZE,
1844 "sdma_intr_regs")) {
1845 mpsc_shared_regs.sdma_intr_base = ioremap(r->start,
1846 MPSC_SDMA_INTR_REG_BLOCK_SIZE);
1847 mpsc_shared_regs.sdma_intr_base_p = r->start;
1848 } else {
1849 iounmap(mpsc_shared_regs.mpsc_routing_base);
1850 release_mem_region(mpsc_shared_regs.mpsc_routing_base_p,
1851 MPSC_ROUTING_REG_BLOCK_SIZE);
1852 mpsc_resource_err("SDMA intr base");
1853 return -ENOMEM;
1854 }
1855
1856 return 0;
1857 }
1858
1859 static void mpsc_shared_unmap_regs(void)
1860 {
1861 if (!mpsc_shared_regs.mpsc_routing_base) {
1862 iounmap(mpsc_shared_regs.mpsc_routing_base);
1863 release_mem_region(mpsc_shared_regs.mpsc_routing_base_p,
1864 MPSC_ROUTING_REG_BLOCK_SIZE);
1865 }
1866 if (!mpsc_shared_regs.sdma_intr_base) {
1867 iounmap(mpsc_shared_regs.sdma_intr_base);
1868 release_mem_region(mpsc_shared_regs.sdma_intr_base_p,
1869 MPSC_SDMA_INTR_REG_BLOCK_SIZE);
1870 }
1871
1872 mpsc_shared_regs.mpsc_routing_base = NULL;
1873 mpsc_shared_regs.sdma_intr_base = NULL;
1874
1875 mpsc_shared_regs.mpsc_routing_base_p = 0;
1876 mpsc_shared_regs.sdma_intr_base_p = 0;
1877 }
1878
1879 static int mpsc_shared_drv_probe(struct platform_device *dev)
1880 {
1881 struct mpsc_shared_pdata *pdata;
1882 int rc = -ENODEV;
1883
1884 if (dev->id == 0) {
1885 if (!(rc = mpsc_shared_map_regs(dev))) {
1886 pdata = (struct mpsc_shared_pdata *)
1887 dev->dev.platform_data;
1888
1889 mpsc_shared_regs.MPSC_MRR_m = pdata->mrr_val;
1890 mpsc_shared_regs.MPSC_RCRR_m= pdata->rcrr_val;
1891 mpsc_shared_regs.MPSC_TCRR_m= pdata->tcrr_val;
1892 mpsc_shared_regs.SDMA_INTR_CAUSE_m =
1893 pdata->intr_cause_val;
1894 mpsc_shared_regs.SDMA_INTR_MASK_m =
1895 pdata->intr_mask_val;
1896
1897 rc = 0;
1898 }
1899 }
1900
1901 return rc;
1902 }
1903
1904 static int mpsc_shared_drv_remove(struct platform_device *dev)
1905 {
1906 int rc = -ENODEV;
1907
1908 if (dev->id == 0) {
1909 mpsc_shared_unmap_regs();
1910 mpsc_shared_regs.MPSC_MRR_m = 0;
1911 mpsc_shared_regs.MPSC_RCRR_m = 0;
1912 mpsc_shared_regs.MPSC_TCRR_m = 0;
1913 mpsc_shared_regs.SDMA_INTR_CAUSE_m = 0;
1914 mpsc_shared_regs.SDMA_INTR_MASK_m = 0;
1915 rc = 0;
1916 }
1917
1918 return rc;
1919 }
1920
1921 static struct platform_driver mpsc_shared_driver = {
1922 .probe = mpsc_shared_drv_probe,
1923 .remove = mpsc_shared_drv_remove,
1924 .driver = {
1925 .name = MPSC_SHARED_NAME,
1926 },
1927 };
1928
1929 /*
1930 ******************************************************************************
1931 *
1932 * Driver Interface Routines
1933 *
1934 ******************************************************************************
1935 */
1936 static struct uart_driver mpsc_reg = {
1937 .owner = THIS_MODULE,
1938 .driver_name = MPSC_DRIVER_NAME,
1939 .dev_name = MPSC_DEV_NAME,
1940 .major = MPSC_MAJOR,
1941 .minor = MPSC_MINOR_START,
1942 .nr = MPSC_NUM_CTLRS,
1943 .cons = MPSC_CONSOLE,
1944 };
1945
1946 static int mpsc_drv_map_regs(struct mpsc_port_info *pi,
1947 struct platform_device *pd)
1948 {
1949 struct resource *r;
1950
1951 if ((r = platform_get_resource(pd, IORESOURCE_MEM, MPSC_BASE_ORDER))
1952 && request_mem_region(r->start, MPSC_REG_BLOCK_SIZE,
1953 "mpsc_regs")) {
1954 pi->mpsc_base = ioremap(r->start, MPSC_REG_BLOCK_SIZE);
1955 pi->mpsc_base_p = r->start;
1956 } else {
1957 mpsc_resource_err("MPSC base");
1958 goto err;
1959 }
1960
1961 if ((r = platform_get_resource(pd, IORESOURCE_MEM,
1962 MPSC_SDMA_BASE_ORDER))
1963 && request_mem_region(r->start,
1964 MPSC_SDMA_REG_BLOCK_SIZE, "sdma_regs")) {
1965 pi->sdma_base = ioremap(r->start,MPSC_SDMA_REG_BLOCK_SIZE);
1966 pi->sdma_base_p = r->start;
1967 } else {
1968 mpsc_resource_err("SDMA base");
1969 if (pi->mpsc_base) {
1970 iounmap(pi->mpsc_base);
1971 pi->mpsc_base = NULL;
1972 }
1973 goto err;
1974 }
1975
1976 if ((r = platform_get_resource(pd,IORESOURCE_MEM,MPSC_BRG_BASE_ORDER))
1977 && request_mem_region(r->start,
1978 MPSC_BRG_REG_BLOCK_SIZE, "brg_regs")) {
1979 pi->brg_base = ioremap(r->start, MPSC_BRG_REG_BLOCK_SIZE);
1980 pi->brg_base_p = r->start;
1981 } else {
1982 mpsc_resource_err("BRG base");
1983 if (pi->mpsc_base) {
1984 iounmap(pi->mpsc_base);
1985 pi->mpsc_base = NULL;
1986 }
1987 if (pi->sdma_base) {
1988 iounmap(pi->sdma_base);
1989 pi->sdma_base = NULL;
1990 }
1991 goto err;
1992 }
1993 return 0;
1994
1995 err:
1996 return -ENOMEM;
1997 }
1998
1999 static void mpsc_drv_unmap_regs(struct mpsc_port_info *pi)
2000 {
2001 if (!pi->mpsc_base) {
2002 iounmap(pi->mpsc_base);
2003 release_mem_region(pi->mpsc_base_p, MPSC_REG_BLOCK_SIZE);
2004 }
2005 if (!pi->sdma_base) {
2006 iounmap(pi->sdma_base);
2007 release_mem_region(pi->sdma_base_p, MPSC_SDMA_REG_BLOCK_SIZE);
2008 }
2009 if (!pi->brg_base) {
2010 iounmap(pi->brg_base);
2011 release_mem_region(pi->brg_base_p, MPSC_BRG_REG_BLOCK_SIZE);
2012 }
2013
2014 pi->mpsc_base = NULL;
2015 pi->sdma_base = NULL;
2016 pi->brg_base = NULL;
2017
2018 pi->mpsc_base_p = 0;
2019 pi->sdma_base_p = 0;
2020 pi->brg_base_p = 0;
2021 }
2022
2023 static void mpsc_drv_get_platform_data(struct mpsc_port_info *pi,
2024 struct platform_device *pd, int num)
2025 {
2026 struct mpsc_pdata *pdata;
2027
2028 pdata = (struct mpsc_pdata *)pd->dev.platform_data;
2029
2030 pi->port.uartclk = pdata->brg_clk_freq;
2031 pi->port.iotype = UPIO_MEM;
2032 pi->port.line = num;
2033 pi->port.type = PORT_MPSC;
2034 pi->port.fifosize = MPSC_TXBE_SIZE;
2035 pi->port.membase = pi->mpsc_base;
2036 pi->port.mapbase = (ulong)pi->mpsc_base;
2037 pi->port.ops = &mpsc_pops;
2038
2039 pi->mirror_regs = pdata->mirror_regs;
2040 pi->cache_mgmt = pdata->cache_mgmt;
2041 pi->brg_can_tune = pdata->brg_can_tune;
2042 pi->brg_clk_src = pdata->brg_clk_src;
2043 pi->mpsc_max_idle = pdata->max_idle;
2044 pi->default_baud = pdata->default_baud;
2045 pi->default_bits = pdata->default_bits;
2046 pi->default_parity = pdata->default_parity;
2047 pi->default_flow = pdata->default_flow;
2048
2049 /* Initial values of mirrored regs */
2050 pi->MPSC_CHR_1_m = pdata->chr_1_val;
2051 pi->MPSC_CHR_2_m = pdata->chr_2_val;
2052 pi->MPSC_CHR_10_m = pdata->chr_10_val;
2053 pi->MPSC_MPCR_m = pdata->mpcr_val;
2054 pi->BRG_BCR_m = pdata->bcr_val;
2055
2056 pi->shared_regs = &mpsc_shared_regs;
2057
2058 pi->port.irq = platform_get_irq(pd, 0);
2059 }
2060
2061 static int mpsc_drv_probe(struct platform_device *dev)
2062 {
2063 struct mpsc_port_info *pi;
2064 int rc = -ENODEV;
2065
2066 pr_debug("mpsc_drv_probe: Adding MPSC %d\n", dev->id);
2067
2068 if (dev->id < MPSC_NUM_CTLRS) {
2069 pi = &mpsc_ports[dev->id];
2070
2071 if (!(rc = mpsc_drv_map_regs(pi, dev))) {
2072 mpsc_drv_get_platform_data(pi, dev, dev->id);
2073
2074 if (!(rc = mpsc_make_ready(pi))) {
2075 spin_lock_init(&pi->tx_lock);
2076 if (!(rc = uart_add_one_port(&mpsc_reg,
2077 &pi->port))) {
2078 rc = 0;
2079 } else {
2080 mpsc_release_port((struct uart_port *)
2081 pi);
2082 mpsc_drv_unmap_regs(pi);
2083 }
2084 } else {
2085 mpsc_drv_unmap_regs(pi);
2086 }
2087 }
2088 }
2089
2090 return rc;
2091 }
2092
2093 static int mpsc_drv_remove(struct platform_device *dev)
2094 {
2095 pr_debug("mpsc_drv_exit: Removing MPSC %d\n", dev->id);
2096
2097 if (dev->id < MPSC_NUM_CTLRS) {
2098 uart_remove_one_port(&mpsc_reg, &mpsc_ports[dev->id].port);
2099 mpsc_release_port((struct uart_port *)
2100 &mpsc_ports[dev->id].port);
2101 mpsc_drv_unmap_regs(&mpsc_ports[dev->id]);
2102 return 0;
2103 } else {
2104 return -ENODEV;
2105 }
2106 }
2107
2108 static struct platform_driver mpsc_driver = {
2109 .probe = mpsc_drv_probe,
2110 .remove = mpsc_drv_remove,
2111 .driver = {
2112 .name = MPSC_CTLR_NAME,
2113 .owner = THIS_MODULE,
2114 },
2115 };
2116
2117 static int __init mpsc_drv_init(void)
2118 {
2119 int rc;
2120
2121 printk(KERN_INFO "Serial: MPSC driver\n");
2122
2123 memset(mpsc_ports, 0, sizeof(mpsc_ports));
2124 memset(&mpsc_shared_regs, 0, sizeof(mpsc_shared_regs));
2125
2126 if (!(rc = uart_register_driver(&mpsc_reg))) {
2127 if (!(rc = platform_driver_register(&mpsc_shared_driver))) {
2128 if ((rc = platform_driver_register(&mpsc_driver))) {
2129 platform_driver_unregister(&mpsc_shared_driver);
2130 uart_unregister_driver(&mpsc_reg);
2131 }
2132 } else {
2133 uart_unregister_driver(&mpsc_reg);
2134 }
2135 }
2136
2137 return rc;
2138 }
2139
2140 static void __exit mpsc_drv_exit(void)
2141 {
2142 platform_driver_unregister(&mpsc_driver);
2143 platform_driver_unregister(&mpsc_shared_driver);
2144 uart_unregister_driver(&mpsc_reg);
2145 memset(mpsc_ports, 0, sizeof(mpsc_ports));
2146 memset(&mpsc_shared_regs, 0, sizeof(mpsc_shared_regs));
2147 }
2148
2149 module_init(mpsc_drv_init);
2150 module_exit(mpsc_drv_exit);
2151
2152 MODULE_AUTHOR("Mark A. Greer <mgreer@mvista.com>");
2153 MODULE_DESCRIPTION("Generic Marvell MPSC serial/UART driver");
2154 MODULE_VERSION(MPSC_VERSION);
2155 MODULE_LICENSE("GPL");
2156 MODULE_ALIAS_CHARDEV_MAJOR(MPSC_MAJOR);
2157 MODULE_ALIAS("platform:" MPSC_CTLR_NAME);
Support for the Chinese Samsung S3C2440 based development boards