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authorJassi Brar <jassisinghbrar@gmail.com>2010-05-14 10:18:54 -0400
committerRussell King <rmk+kernel@arm.linux.org.uk>2010-05-15 10:03:50 -0400
commit75070612c49c0bb976bb9221d051b20316ad1bc7 (patch)
tree4459727b25d1b1732f86cc6034879364801705c0 /arch/arm/common
parent64039be8226b9f6c80c704d94ac9891eee4a274c (diff)
ARM: 6132/1: PL330: Add common core driver
PL330 is a configurable DMA controller PrimeCell device. The register map of the device is well defined. The configuration of a particular implementation can be read from the six configuration registers CR0-4,Dn. This patch implements a driver for the specification:- http://infocenter.arm.com/help/topic/com.arm.doc.ddi0424a/DDI0424A_dmac_pl330_r0p0_trm.pdf The exported interface should be sufficient to implement a driver for any DMA API. Signed-off-by: Jassi Brar <jassisinghbrar@gmail.com> Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
Diffstat (limited to 'arch/arm/common')
-rw-r--r--arch/arm/common/Kconfig3
-rw-r--r--arch/arm/common/Makefile1
-rw-r--r--arch/arm/common/pl330.c1966
3 files changed, 1970 insertions, 0 deletions
diff --git a/arch/arm/common/Kconfig b/arch/arm/common/Kconfig
index b64bb78d784c..cf9059091884 100644
--- a/arch/arm/common/Kconfig
+++ b/arch/arm/common/Kconfig
@@ -18,6 +18,9 @@ config ICST525
18config ICST307 18config ICST307
19 bool 19 bool
20 20
21config PL330
22 bool
23
21config SA1111 24config SA1111
22 bool 25 bool
23 select DMABOUNCE if !ARCH_PXA 26 select DMABOUNCE if !ARCH_PXA
diff --git a/arch/arm/common/Makefile b/arch/arm/common/Makefile
index 76be7ff2a7ca..df20c2650206 100644
--- a/arch/arm/common/Makefile
+++ b/arch/arm/common/Makefile
@@ -6,6 +6,7 @@ obj-$(CONFIG_ARM_GIC) += gic.o
6obj-$(CONFIG_ARM_VIC) += vic.o 6obj-$(CONFIG_ARM_VIC) += vic.o
7obj-$(CONFIG_ICST525) += icst525.o 7obj-$(CONFIG_ICST525) += icst525.o
8obj-$(CONFIG_ICST307) += icst307.o 8obj-$(CONFIG_ICST307) += icst307.o
9obj-$(CONFIG_PL330) += pl330.o
9obj-$(CONFIG_SA1111) += sa1111.o 10obj-$(CONFIG_SA1111) += sa1111.o
10obj-$(CONFIG_PCI_HOST_VIA82C505) += via82c505.o 11obj-$(CONFIG_PCI_HOST_VIA82C505) += via82c505.o
11obj-$(CONFIG_DMABOUNCE) += dmabounce.o 12obj-$(CONFIG_DMABOUNCE) += dmabounce.o
diff --git a/arch/arm/common/pl330.c b/arch/arm/common/pl330.c
new file mode 100644
index 000000000000..5ebbab6242a7
--- /dev/null
+++ b/arch/arm/common/pl330.c
@@ -0,0 +1,1966 @@
1/* linux/arch/arm/common/pl330.c
2 *
3 * Copyright (C) 2010 Samsung Electronics Co Ltd.
4 * Jaswinder Singh <jassi.brar@samsung.com>
5 *
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License as published by
8 * the Free Software Foundation; either version 2 of the License, or
9 * (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
19 */
20
21#include <linux/kernel.h>
22#include <linux/init.h>
23#include <linux/slab.h>
24#include <linux/module.h>
25#include <linux/string.h>
26#include <linux/io.h>
27#include <linux/delay.h>
28#include <linux/interrupt.h>
29#include <linux/dma-mapping.h>
30
31#include <asm/hardware/pl330.h>
32
33/* Register and Bit field Definitions */
34#define DS 0x0
35#define DS_ST_STOP 0x0
36#define DS_ST_EXEC 0x1
37#define DS_ST_CMISS 0x2
38#define DS_ST_UPDTPC 0x3
39#define DS_ST_WFE 0x4
40#define DS_ST_ATBRR 0x5
41#define DS_ST_QBUSY 0x6
42#define DS_ST_WFP 0x7
43#define DS_ST_KILL 0x8
44#define DS_ST_CMPLT 0x9
45#define DS_ST_FLTCMP 0xe
46#define DS_ST_FAULT 0xf
47
48#define DPC 0x4
49#define INTEN 0x20
50#define ES 0x24
51#define INTSTATUS 0x28
52#define INTCLR 0x2c
53#define FSM 0x30
54#define FSC 0x34
55#define FTM 0x38
56
57#define _FTC 0x40
58#define FTC(n) (_FTC + (n)*0x4)
59
60#define _CS 0x100
61#define CS(n) (_CS + (n)*0x8)
62#define CS_CNS (1 << 21)
63
64#define _CPC 0x104
65#define CPC(n) (_CPC + (n)*0x8)
66
67#define _SA 0x400
68#define SA(n) (_SA + (n)*0x20)
69
70#define _DA 0x404
71#define DA(n) (_DA + (n)*0x20)
72
73#define _CC 0x408
74#define CC(n) (_CC + (n)*0x20)
75
76#define CC_SRCINC (1 << 0)
77#define CC_DSTINC (1 << 14)
78#define CC_SRCPRI (1 << 8)
79#define CC_DSTPRI (1 << 22)
80#define CC_SRCNS (1 << 9)
81#define CC_DSTNS (1 << 23)
82#define CC_SRCIA (1 << 10)
83#define CC_DSTIA (1 << 24)
84#define CC_SRCBRSTLEN_SHFT 4
85#define CC_DSTBRSTLEN_SHFT 18
86#define CC_SRCBRSTSIZE_SHFT 1
87#define CC_DSTBRSTSIZE_SHFT 15
88#define CC_SRCCCTRL_SHFT 11
89#define CC_SRCCCTRL_MASK 0x7
90#define CC_DSTCCTRL_SHFT 25
91#define CC_DRCCCTRL_MASK 0x7
92#define CC_SWAP_SHFT 28
93
94#define _LC0 0x40c
95#define LC0(n) (_LC0 + (n)*0x20)
96
97#define _LC1 0x410
98#define LC1(n) (_LC1 + (n)*0x20)
99
100#define DBGSTATUS 0xd00
101#define DBG_BUSY (1 << 0)
102
103#define DBGCMD 0xd04
104#define DBGINST0 0xd08
105#define DBGINST1 0xd0c
106
107#define CR0 0xe00
108#define CR1 0xe04
109#define CR2 0xe08
110#define CR3 0xe0c
111#define CR4 0xe10
112#define CRD 0xe14
113
114#define PERIPH_ID 0xfe0
115#define PCELL_ID 0xff0
116
117#define CR0_PERIPH_REQ_SET (1 << 0)
118#define CR0_BOOT_EN_SET (1 << 1)
119#define CR0_BOOT_MAN_NS (1 << 2)
120#define CR0_NUM_CHANS_SHIFT 4
121#define CR0_NUM_CHANS_MASK 0x7
122#define CR0_NUM_PERIPH_SHIFT 12
123#define CR0_NUM_PERIPH_MASK 0x1f
124#define CR0_NUM_EVENTS_SHIFT 17
125#define CR0_NUM_EVENTS_MASK 0x1f
126
127#define CR1_ICACHE_LEN_SHIFT 0
128#define CR1_ICACHE_LEN_MASK 0x7
129#define CR1_NUM_ICACHELINES_SHIFT 4
130#define CR1_NUM_ICACHELINES_MASK 0xf
131
132#define CRD_DATA_WIDTH_SHIFT 0
133#define CRD_DATA_WIDTH_MASK 0x7
134#define CRD_WR_CAP_SHIFT 4
135#define CRD_WR_CAP_MASK 0x7
136#define CRD_WR_Q_DEP_SHIFT 8
137#define CRD_WR_Q_DEP_MASK 0xf
138#define CRD_RD_CAP_SHIFT 12
139#define CRD_RD_CAP_MASK 0x7
140#define CRD_RD_Q_DEP_SHIFT 16
141#define CRD_RD_Q_DEP_MASK 0xf
142#define CRD_DATA_BUFF_SHIFT 20
143#define CRD_DATA_BUFF_MASK 0x3ff
144
145#define PART 0x330
146#define DESIGNER 0x41
147#define REVISION 0x0
148#define INTEG_CFG 0x0
149#define PERIPH_ID_VAL ((PART << 0) | (DESIGNER << 12) \
150 | (REVISION << 20) | (INTEG_CFG << 24))
151
152#define PCELL_ID_VAL 0xb105f00d
153
154#define PL330_STATE_STOPPED (1 << 0)
155#define PL330_STATE_EXECUTING (1 << 1)
156#define PL330_STATE_WFE (1 << 2)
157#define PL330_STATE_FAULTING (1 << 3)
158#define PL330_STATE_COMPLETING (1 << 4)
159#define PL330_STATE_WFP (1 << 5)
160#define PL330_STATE_KILLING (1 << 6)
161#define PL330_STATE_FAULT_COMPLETING (1 << 7)
162#define PL330_STATE_CACHEMISS (1 << 8)
163#define PL330_STATE_UPDTPC (1 << 9)
164#define PL330_STATE_ATBARRIER (1 << 10)
165#define PL330_STATE_QUEUEBUSY (1 << 11)
166#define PL330_STATE_INVALID (1 << 15)
167
168#define PL330_STABLE_STATES (PL330_STATE_STOPPED | PL330_STATE_EXECUTING \
169 | PL330_STATE_WFE | PL330_STATE_FAULTING)
170
171#define CMD_DMAADDH 0x54
172#define CMD_DMAEND 0x00
173#define CMD_DMAFLUSHP 0x35
174#define CMD_DMAGO 0xa0
175#define CMD_DMALD 0x04
176#define CMD_DMALDP 0x25
177#define CMD_DMALP 0x20
178#define CMD_DMALPEND 0x28
179#define CMD_DMAKILL 0x01
180#define CMD_DMAMOV 0xbc
181#define CMD_DMANOP 0x18
182#define CMD_DMARMB 0x12
183#define CMD_DMASEV 0x34
184#define CMD_DMAST 0x08
185#define CMD_DMASTP 0x29
186#define CMD_DMASTZ 0x0c
187#define CMD_DMAWFE 0x36
188#define CMD_DMAWFP 0x30
189#define CMD_DMAWMB 0x13
190
191#define SZ_DMAADDH 3
192#define SZ_DMAEND 1
193#define SZ_DMAFLUSHP 2
194#define SZ_DMALD 1
195#define SZ_DMALDP 2
196#define SZ_DMALP 2
197#define SZ_DMALPEND 2
198#define SZ_DMAKILL 1
199#define SZ_DMAMOV 6
200#define SZ_DMANOP 1
201#define SZ_DMARMB 1
202#define SZ_DMASEV 2
203#define SZ_DMAST 1
204#define SZ_DMASTP 2
205#define SZ_DMASTZ 1
206#define SZ_DMAWFE 2
207#define SZ_DMAWFP 2
208#define SZ_DMAWMB 1
209#define SZ_DMAGO 6
210
211#define BRST_LEN(ccr) ((((ccr) >> CC_SRCBRSTLEN_SHFT) & 0xf) + 1)
212#define BRST_SIZE(ccr) (1 << (((ccr) >> CC_SRCBRSTSIZE_SHFT) & 0x7))
213
214#define BYTE_TO_BURST(b, ccr) ((b) / BRST_SIZE(ccr) / BRST_LEN(ccr))
215#define BURST_TO_BYTE(c, ccr) ((c) * BRST_SIZE(ccr) * BRST_LEN(ccr))
216
217/*
218 * With 256 bytes, we can do more than 2.5MB and 5MB xfers per req
219 * at 1byte/burst for P<->M and M<->M respectively.
220 * For typical scenario, at 1word/burst, 10MB and 20MB xfers per req
221 * should be enough for P<->M and M<->M respectively.
222 */
223#define MCODE_BUFF_PER_REQ 256
224
225/*
226 * Mark a _pl330_req as free.
227 * We do it by writing DMAEND as the first instruction
228 * because no valid request is going to have DMAEND as
229 * its first instruction to execute.
230 */
231#define MARK_FREE(req) do { \
232 _emit_END(0, (req)->mc_cpu); \
233 (req)->mc_len = 0; \
234 } while (0)
235
236/* If the _pl330_req is available to the client */
237#define IS_FREE(req) (*((u8 *)((req)->mc_cpu)) == CMD_DMAEND)
238
239/* Use this _only_ to wait on transient states */
240#define UNTIL(t, s) while (!(_state(t) & (s))) cpu_relax();
241
242#ifdef PL330_DEBUG_MCGEN
243static unsigned cmd_line;
244#define PL330_DBGCMD_DUMP(off, x...) do { \
245 printk("%x:", cmd_line); \
246 printk(x); \
247 cmd_line += off; \
248 } while (0)
249#define PL330_DBGMC_START(addr) (cmd_line = addr)
250#else
251#define PL330_DBGCMD_DUMP(off, x...) do {} while (0)
252#define PL330_DBGMC_START(addr) do {} while (0)
253#endif
254
255struct _xfer_spec {
256 u32 ccr;
257 struct pl330_req *r;
258 struct pl330_xfer *x;
259};
260
261enum dmamov_dst {
262 SAR = 0,
263 CCR,
264 DAR,
265};
266
267enum pl330_dst {
268 SRC = 0,
269 DST,
270};
271
272enum pl330_cond {
273 SINGLE,
274 BURST,
275 ALWAYS,
276};
277
278struct _pl330_req {
279 u32 mc_bus;
280 void *mc_cpu;
281 /* Number of bytes taken to setup MC for the req */
282 u32 mc_len;
283 struct pl330_req *r;
284 /* Hook to attach to DMAC's list of reqs with due callback */
285 struct list_head rqd;
286};
287
288/* ToBeDone for tasklet */
289struct _pl330_tbd {
290 bool reset_dmac;
291 bool reset_mngr;
292 u8 reset_chan;
293};
294
295/* A DMAC Thread */
296struct pl330_thread {
297 u8 id;
298 int ev;
299 /* If the channel is not yet acquired by any client */
300 bool free;
301 /* Parent DMAC */
302 struct pl330_dmac *dmac;
303 /* Only two at a time */
304 struct _pl330_req req[2];
305 /* Index of the last submitted request */
306 unsigned lstenq;
307};
308
309enum pl330_dmac_state {
310 UNINIT,
311 INIT,
312 DYING,
313};
314
315/* A DMAC */
316struct pl330_dmac {
317 spinlock_t lock;
318 /* Holds list of reqs with due callbacks */
319 struct list_head req_done;
320 /* Pointer to platform specific stuff */
321 struct pl330_info *pinfo;
322 /* Maximum possible events/irqs */
323 int events[32];
324 /* BUS address of MicroCode buffer */
325 u32 mcode_bus;
326 /* CPU address of MicroCode buffer */
327 void *mcode_cpu;
328 /* List of all Channel threads */
329 struct pl330_thread *channels;
330 /* Pointer to the MANAGER thread */
331 struct pl330_thread *manager;
332 /* To handle bad news in interrupt */
333 struct tasklet_struct tasks;
334 struct _pl330_tbd dmac_tbd;
335 /* State of DMAC operation */
336 enum pl330_dmac_state state;
337};
338
339static inline void _callback(struct pl330_req *r, enum pl330_op_err err)
340{
341 if (r && r->xfer_cb)
342 r->xfer_cb(r->token, err);
343}
344
345static inline bool _queue_empty(struct pl330_thread *thrd)
346{
347 return (IS_FREE(&thrd->req[0]) && IS_FREE(&thrd->req[1]))
348 ? true : false;
349}
350
351static inline bool _queue_full(struct pl330_thread *thrd)
352{
353 return (IS_FREE(&thrd->req[0]) || IS_FREE(&thrd->req[1]))
354 ? false : true;
355}
356
357static inline bool is_manager(struct pl330_thread *thrd)
358{
359 struct pl330_dmac *pl330 = thrd->dmac;
360
361 /* MANAGER is indexed at the end */
362 if (thrd->id == pl330->pinfo->pcfg.num_chan)
363 return true;
364 else
365 return false;
366}
367
368/* If manager of the thread is in Non-Secure mode */
369static inline bool _manager_ns(struct pl330_thread *thrd)
370{
371 struct pl330_dmac *pl330 = thrd->dmac;
372
373 return (pl330->pinfo->pcfg.mode & DMAC_MODE_NS) ? true : false;
374}
375
376static inline u32 get_id(struct pl330_info *pi, u32 off)
377{
378 void __iomem *regs = pi->base;
379 u32 id = 0;
380
381 id |= (readb(regs + off + 0x0) << 0);
382 id |= (readb(regs + off + 0x4) << 8);
383 id |= (readb(regs + off + 0x8) << 16);
384 id |= (readb(regs + off + 0xc) << 24);
385
386 return id;
387}
388
389static inline u32 _emit_ADDH(unsigned dry_run, u8 buf[],
390 enum pl330_dst da, u16 val)
391{
392 if (dry_run)
393 return SZ_DMAADDH;
394
395 buf[0] = CMD_DMAADDH;
396 buf[0] |= (da << 1);
397 *((u16 *)&buf[1]) = val;
398
399 PL330_DBGCMD_DUMP(SZ_DMAADDH, "\tDMAADDH %s %u\n",
400 da == 1 ? "DA" : "SA", val);
401
402 return SZ_DMAADDH;
403}
404
405static inline u32 _emit_END(unsigned dry_run, u8 buf[])
406{
407 if (dry_run)
408 return SZ_DMAEND;
409
410 buf[0] = CMD_DMAEND;
411
412 PL330_DBGCMD_DUMP(SZ_DMAEND, "\tDMAEND\n");
413
414 return SZ_DMAEND;
415}
416
417static inline u32 _emit_FLUSHP(unsigned dry_run, u8 buf[], u8 peri)
418{
419 if (dry_run)
420 return SZ_DMAFLUSHP;
421
422 buf[0] = CMD_DMAFLUSHP;
423
424 peri &= 0x1f;
425 peri <<= 3;
426 buf[1] = peri;
427
428 PL330_DBGCMD_DUMP(SZ_DMAFLUSHP, "\tDMAFLUSHP %u\n", peri >> 3);
429
430 return SZ_DMAFLUSHP;
431}
432
433static inline u32 _emit_LD(unsigned dry_run, u8 buf[], enum pl330_cond cond)
434{
435 if (dry_run)
436 return SZ_DMALD;
437
438 buf[0] = CMD_DMALD;
439
440 if (cond == SINGLE)
441 buf[0] |= (0 << 1) | (1 << 0);
442 else if (cond == BURST)
443 buf[0] |= (1 << 1) | (1 << 0);
444
445 PL330_DBGCMD_DUMP(SZ_DMALD, "\tDMALD%c\n",
446 cond == SINGLE ? 'S' : (cond == BURST ? 'B' : 'A'));
447
448 return SZ_DMALD;
449}
450
451static inline u32 _emit_LDP(unsigned dry_run, u8 buf[],
452 enum pl330_cond cond, u8 peri)
453{
454 if (dry_run)
455 return SZ_DMALDP;
456
457 buf[0] = CMD_DMALDP;
458
459 if (cond == BURST)
460 buf[0] |= (1 << 1);
461
462 peri &= 0x1f;
463 peri <<= 3;
464 buf[1] = peri;
465
466 PL330_DBGCMD_DUMP(SZ_DMALDP, "\tDMALDP%c %u\n",
467 cond == SINGLE ? 'S' : 'B', peri >> 3);
468
469 return SZ_DMALDP;
470}
471
472static inline u32 _emit_LP(unsigned dry_run, u8 buf[],
473 unsigned loop, u8 cnt)
474{
475 if (dry_run)
476 return SZ_DMALP;
477
478 buf[0] = CMD_DMALP;
479
480 if (loop)
481 buf[0] |= (1 << 1);
482
483 cnt--; /* DMAC increments by 1 internally */
484 buf[1] = cnt;
485
486 PL330_DBGCMD_DUMP(SZ_DMALP, "\tDMALP_%c %u\n", loop ? '1' : '0', cnt);
487
488 return SZ_DMALP;
489}
490
491struct _arg_LPEND {
492 enum pl330_cond cond;
493 bool forever;
494 unsigned loop;
495 u8 bjump;
496};
497
498static inline u32 _emit_LPEND(unsigned dry_run, u8 buf[],
499 const struct _arg_LPEND *arg)
500{
501 enum pl330_cond cond = arg->cond;
502 bool forever = arg->forever;
503 unsigned loop = arg->loop;
504 u8 bjump = arg->bjump;
505
506 if (dry_run)
507 return SZ_DMALPEND;
508
509 buf[0] = CMD_DMALPEND;
510
511 if (loop)
512 buf[0] |= (1 << 2);
513
514 if (!forever)
515 buf[0] |= (1 << 4);
516
517 if (cond == SINGLE)
518 buf[0] |= (0 << 1) | (1 << 0);
519 else if (cond == BURST)
520 buf[0] |= (1 << 1) | (1 << 0);
521
522 buf[1] = bjump;
523
524 PL330_DBGCMD_DUMP(SZ_DMALPEND, "\tDMALP%s%c_%c bjmpto_%x\n",
525 forever ? "FE" : "END",
526 cond == SINGLE ? 'S' : (cond == BURST ? 'B' : 'A'),
527 loop ? '1' : '0',
528 bjump);
529
530 return SZ_DMALPEND;
531}
532
533static inline u32 _emit_KILL(unsigned dry_run, u8 buf[])
534{
535 if (dry_run)
536 return SZ_DMAKILL;
537
538 buf[0] = CMD_DMAKILL;
539
540 return SZ_DMAKILL;
541}
542
543static inline u32 _emit_MOV(unsigned dry_run, u8 buf[],
544 enum dmamov_dst dst, u32 val)
545{
546 if (dry_run)
547 return SZ_DMAMOV;
548
549 buf[0] = CMD_DMAMOV;
550 buf[1] = dst;
551 *((u32 *)&buf[2]) = val;
552
553 PL330_DBGCMD_DUMP(SZ_DMAMOV, "\tDMAMOV %s 0x%x\n",
554 dst == SAR ? "SAR" : (dst == DAR ? "DAR" : "CCR"), val);
555
556 return SZ_DMAMOV;
557}
558
559static inline u32 _emit_NOP(unsigned dry_run, u8 buf[])
560{
561 if (dry_run)
562 return SZ_DMANOP;
563
564 buf[0] = CMD_DMANOP;
565
566 PL330_DBGCMD_DUMP(SZ_DMANOP, "\tDMANOP\n");
567
568 return SZ_DMANOP;
569}
570
571static inline u32 _emit_RMB(unsigned dry_run, u8 buf[])
572{
573 if (dry_run)
574 return SZ_DMARMB;
575
576 buf[0] = CMD_DMARMB;
577
578 PL330_DBGCMD_DUMP(SZ_DMARMB, "\tDMARMB\n");
579
580 return SZ_DMARMB;
581}
582
583static inline u32 _emit_SEV(unsigned dry_run, u8 buf[], u8 ev)
584{
585 if (dry_run)
586 return SZ_DMASEV;
587
588 buf[0] = CMD_DMASEV;
589
590 ev &= 0x1f;
591 ev <<= 3;
592 buf[1] = ev;
593
594 PL330_DBGCMD_DUMP(SZ_DMASEV, "\tDMASEV %u\n", ev >> 3);
595
596 return SZ_DMASEV;
597}
598
599static inline u32 _emit_ST(unsigned dry_run, u8 buf[], enum pl330_cond cond)
600{
601 if (dry_run)
602 return SZ_DMAST;
603
604 buf[0] = CMD_DMAST;
605
606 if (cond == SINGLE)
607 buf[0] |= (0 << 1) | (1 << 0);
608 else if (cond == BURST)
609 buf[0] |= (1 << 1) | (1 << 0);
610
611 PL330_DBGCMD_DUMP(SZ_DMAST, "\tDMAST%c\n",
612 cond == SINGLE ? 'S' : (cond == BURST ? 'B' : 'A'));
613
614 return SZ_DMAST;
615}
616
617static inline u32 _emit_STP(unsigned dry_run, u8 buf[],
618 enum pl330_cond cond, u8 peri)
619{
620 if (dry_run)
621 return SZ_DMASTP;
622
623 buf[0] = CMD_DMASTP;
624
625 if (cond == BURST)
626 buf[0] |= (1 << 1);
627
628 peri &= 0x1f;
629 peri <<= 3;
630 buf[1] = peri;
631
632 PL330_DBGCMD_DUMP(SZ_DMASTP, "\tDMASTP%c %u\n",
633 cond == SINGLE ? 'S' : 'B', peri >> 3);
634
635 return SZ_DMASTP;
636}
637
638static inline u32 _emit_STZ(unsigned dry_run, u8 buf[])
639{
640 if (dry_run)
641 return SZ_DMASTZ;
642
643 buf[0] = CMD_DMASTZ;
644
645 PL330_DBGCMD_DUMP(SZ_DMASTZ, "\tDMASTZ\n");
646
647 return SZ_DMASTZ;
648}
649
650static inline u32 _emit_WFE(unsigned dry_run, u8 buf[], u8 ev,
651 unsigned invalidate)
652{
653 if (dry_run)
654 return SZ_DMAWFE;
655
656 buf[0] = CMD_DMAWFE;
657
658 ev &= 0x1f;
659 ev <<= 3;
660 buf[1] = ev;
661
662 if (invalidate)
663 buf[1] |= (1 << 1);
664
665 PL330_DBGCMD_DUMP(SZ_DMAWFE, "\tDMAWFE %u%s\n",
666 ev >> 3, invalidate ? ", I" : "");
667
668 return SZ_DMAWFE;
669}
670
671static inline u32 _emit_WFP(unsigned dry_run, u8 buf[],
672 enum pl330_cond cond, u8 peri)
673{
674 if (dry_run)
675 return SZ_DMAWFP;
676
677 buf[0] = CMD_DMAWFP;
678
679 if (cond == SINGLE)
680 buf[0] |= (0 << 1) | (0 << 0);
681 else if (cond == BURST)
682 buf[0] |= (1 << 1) | (0 << 0);
683 else
684 buf[0] |= (0 << 1) | (1 << 0);
685
686 peri &= 0x1f;
687 peri <<= 3;
688 buf[1] = peri;
689
690 PL330_DBGCMD_DUMP(SZ_DMAWFP, "\tDMAWFP%c %u\n",
691 cond == SINGLE ? 'S' : (cond == BURST ? 'B' : 'P'), peri >> 3);
692
693 return SZ_DMAWFP;
694}
695
696static inline u32 _emit_WMB(unsigned dry_run, u8 buf[])
697{
698 if (dry_run)
699 return SZ_DMAWMB;
700
701 buf[0] = CMD_DMAWMB;
702
703 PL330_DBGCMD_DUMP(SZ_DMAWMB, "\tDMAWMB\n");
704
705 return SZ_DMAWMB;
706}
707
708struct _arg_GO {
709 u8 chan;
710 u32 addr;
711 unsigned ns;
712};
713
714static inline u32 _emit_GO(unsigned dry_run, u8 buf[],
715 const struct _arg_GO *arg)
716{
717 u8 chan = arg->chan;
718 u32 addr = arg->addr;
719 unsigned ns = arg->ns;
720
721 if (dry_run)
722 return SZ_DMAGO;
723
724 buf[0] = CMD_DMAGO;
725 buf[0] |= (ns << 1);
726
727 buf[1] = chan & 0x7;
728
729 *((u32 *)&buf[2]) = addr;
730
731 return SZ_DMAGO;
732}
733
734#define msecs_to_loops(t) (loops_per_jiffy / 1000 * HZ * t)
735
736/* Returns Time-Out */
737static bool _until_dmac_idle(struct pl330_thread *thrd)
738{
739 void __iomem *regs = thrd->dmac->pinfo->base;
740 unsigned long loops = msecs_to_loops(5);
741
742 do {
743 /* Until Manager is Idle */
744 if (!(readl(regs + DBGSTATUS) & DBG_BUSY))
745 break;
746
747 cpu_relax();
748 } while (--loops);
749
750 if (!loops)
751 return true;
752
753 return false;
754}
755
756static inline void _execute_DBGINSN(struct pl330_thread *thrd,
757 u8 insn[], bool as_manager)
758{
759 void __iomem *regs = thrd->dmac->pinfo->base;
760 u32 val;
761
762 val = (insn[0] << 16) | (insn[1] << 24);
763 if (!as_manager) {
764 val |= (1 << 0);
765 val |= (thrd->id << 8); /* Channel Number */
766 }
767 writel(val, regs + DBGINST0);
768
769 val = *((u32 *)&insn[2]);
770 writel(val, regs + DBGINST1);
771
772 /* If timed out due to halted state-machine */
773 if (_until_dmac_idle(thrd)) {
774 dev_err(thrd->dmac->pinfo->dev, "DMAC halted!\n");
775 return;
776 }
777
778 /* Get going */
779 writel(0, regs + DBGCMD);
780}
781
782static inline u32 _state(struct pl330_thread *thrd)
783{
784 void __iomem *regs = thrd->dmac->pinfo->base;
785 u32 val;
786
787 if (is_manager(thrd))
788 val = readl(regs + DS) & 0xf;
789 else
790 val = readl(regs + CS(thrd->id)) & 0xf;
791
792 switch (val) {
793 case DS_ST_STOP:
794 return PL330_STATE_STOPPED;
795 case DS_ST_EXEC:
796 return PL330_STATE_EXECUTING;
797 case DS_ST_CMISS:
798 return PL330_STATE_CACHEMISS;
799 case DS_ST_UPDTPC:
800 return PL330_STATE_UPDTPC;
801 case DS_ST_WFE:
802 return PL330_STATE_WFE;
803 case DS_ST_FAULT:
804 return PL330_STATE_FAULTING;
805 case DS_ST_ATBRR:
806 if (is_manager(thrd))
807 return PL330_STATE_INVALID;
808 else
809 return PL330_STATE_ATBARRIER;
810 case DS_ST_QBUSY:
811 if (is_manager(thrd))
812 return PL330_STATE_INVALID;
813 else
814 return PL330_STATE_QUEUEBUSY;
815 case DS_ST_WFP:
816 if (is_manager(thrd))
817 return PL330_STATE_INVALID;
818 else
819 return PL330_STATE_WFP;
820 case DS_ST_KILL:
821 if (is_manager(thrd))
822 return PL330_STATE_INVALID;
823 else
824 return PL330_STATE_KILLING;
825 case DS_ST_CMPLT:
826 if (is_manager(thrd))
827 return PL330_STATE_INVALID;
828 else
829 return PL330_STATE_COMPLETING;
830 case DS_ST_FLTCMP:
831 if (is_manager(thrd))
832 return PL330_STATE_INVALID;
833 else
834 return PL330_STATE_FAULT_COMPLETING;
835 default:
836 return PL330_STATE_INVALID;
837 }
838}
839
840/* If the request 'req' of thread 'thrd' is currently active */
841static inline bool _req_active(struct pl330_thread *thrd,
842 struct _pl330_req *req)
843{
844 void __iomem *regs = thrd->dmac->pinfo->base;
845 u32 buf = req->mc_bus, pc = readl(regs + CPC(thrd->id));
846
847 if (IS_FREE(req))
848 return false;
849
850 return (pc >= buf && pc <= buf + req->mc_len) ? true : false;
851}
852
853/* Returns 0 if the thread is inactive, ID of active req + 1 otherwise */
854static inline unsigned _thrd_active(struct pl330_thread *thrd)
855{
856 if (_req_active(thrd, &thrd->req[0]))
857 return 1; /* First req active */
858
859 if (_req_active(thrd, &thrd->req[1]))
860 return 2; /* Second req active */
861
862 return 0;
863}
864
865static void _stop(struct pl330_thread *thrd)
866{
867 void __iomem *regs = thrd->dmac->pinfo->base;
868 u8 insn[6] = {0, 0, 0, 0, 0, 0};
869
870 if (_state(thrd) == PL330_STATE_FAULT_COMPLETING)
871 UNTIL(thrd, PL330_STATE_FAULTING | PL330_STATE_KILLING);
872
873 /* Return if nothing needs to be done */
874 if (_state(thrd) == PL330_STATE_COMPLETING
875 || _state(thrd) == PL330_STATE_KILLING
876 || _state(thrd) == PL330_STATE_STOPPED)
877 return;
878
879 _emit_KILL(0, insn);
880
881 /* Stop generating interrupts for SEV */
882 writel(readl(regs + INTEN) & ~(1 << thrd->ev), regs + INTEN);
883
884 _execute_DBGINSN(thrd, insn, is_manager(thrd));
885}
886
887/* Start doing req 'idx' of thread 'thrd' */
888static bool _trigger(struct pl330_thread *thrd)
889{
890 void __iomem *regs = thrd->dmac->pinfo->base;
891 struct _pl330_req *req;
892 struct pl330_req *r;
893 struct _arg_GO go;
894 unsigned ns;
895 u8 insn[6] = {0, 0, 0, 0, 0, 0};
896
897 /* Return if already ACTIVE */
898 if (_state(thrd) != PL330_STATE_STOPPED)
899 return true;
900
901 if (!IS_FREE(&thrd->req[1 - thrd->lstenq]))
902 req = &thrd->req[1 - thrd->lstenq];
903 else if (!IS_FREE(&thrd->req[thrd->lstenq]))
904 req = &thrd->req[thrd->lstenq];
905 else
906 req = NULL;
907
908 /* Return if no request */
909 if (!req || !req->r)
910 return true;
911
912 r = req->r;
913
914 if (r->cfg)
915 ns = r->cfg->nonsecure ? 1 : 0;
916 else if (readl(regs + CS(thrd->id)) & CS_CNS)
917 ns = 1;
918 else
919 ns = 0;
920
921 /* See 'Abort Sources' point-4 at Page 2-25 */
922 if (_manager_ns(thrd) && !ns)
923 dev_info(thrd->dmac->pinfo->dev, "%s:%d Recipe for ABORT!\n",
924 __func__, __LINE__);
925
926 go.chan = thrd->id;
927 go.addr = req->mc_bus;
928 go.ns = ns;
929 _emit_GO(0, insn, &go);
930
931 /* Set to generate interrupts for SEV */
932 writel(readl(regs + INTEN) | (1 << thrd->ev), regs + INTEN);
933
934 /* Only manager can execute GO */
935 _execute_DBGINSN(thrd, insn, true);
936
937 return true;
938}
939
940static bool _start(struct pl330_thread *thrd)
941{
942 switch (_state(thrd)) {
943 case PL330_STATE_FAULT_COMPLETING:
944 UNTIL(thrd, PL330_STATE_FAULTING | PL330_STATE_KILLING);
945
946 if (_state(thrd) == PL330_STATE_KILLING)
947 UNTIL(thrd, PL330_STATE_STOPPED)
948
949 case PL330_STATE_FAULTING:
950 _stop(thrd);
951
952 case PL330_STATE_KILLING:
953 case PL330_STATE_COMPLETING:
954 UNTIL(thrd, PL330_STATE_STOPPED)
955
956 case PL330_STATE_STOPPED:
957 return _trigger(thrd);
958
959 case PL330_STATE_WFP:
960 case PL330_STATE_QUEUEBUSY:
961 case PL330_STATE_ATBARRIER:
962 case PL330_STATE_UPDTPC:
963 case PL330_STATE_CACHEMISS:
964 case PL330_STATE_EXECUTING:
965 return true;
966
967 case PL330_STATE_WFE: /* For RESUME, nothing yet */
968 default:
969 return false;
970 }
971}
972
973static inline int _ldst_memtomem(unsigned dry_run, u8 buf[],
974 const struct _xfer_spec *pxs, int cyc)
975{
976 int off = 0;
977
978 while (cyc--) {
979 off += _emit_LD(dry_run, &buf[off], ALWAYS);
980 off += _emit_RMB(dry_run, &buf[off]);
981 off += _emit_ST(dry_run, &buf[off], ALWAYS);
982 off += _emit_WMB(dry_run, &buf[off]);
983 }
984
985 return off;
986}
987
988static inline int _ldst_devtomem(unsigned dry_run, u8 buf[],
989 const struct _xfer_spec *pxs, int cyc)
990{
991 int off = 0;
992
993 while (cyc--) {
994 off += _emit_WFP(dry_run, &buf[off], SINGLE, pxs->r->peri);
995 off += _emit_LDP(dry_run, &buf[off], SINGLE, pxs->r->peri);
996 off += _emit_ST(dry_run, &buf[off], ALWAYS);
997 off += _emit_FLUSHP(dry_run, &buf[off], pxs->r->peri);
998 }
999
1000 return off;
1001}
1002
1003static inline int _ldst_memtodev(unsigned dry_run, u8 buf[],
1004 const struct _xfer_spec *pxs, int cyc)
1005{
1006 int off = 0;
1007
1008 while (cyc--) {
1009 off += _emit_WFP(dry_run, &buf[off], SINGLE, pxs->r->peri);
1010 off += _emit_LD(dry_run, &buf[off], ALWAYS);
1011 off += _emit_STP(dry_run, &buf[off], SINGLE, pxs->r->peri);
1012 off += _emit_FLUSHP(dry_run, &buf[off], pxs->r->peri);
1013 }
1014
1015 return off;
1016}
1017
1018static int _bursts(unsigned dry_run, u8 buf[],
1019 const struct _xfer_spec *pxs, int cyc)
1020{
1021 int off = 0;
1022
1023 switch (pxs->r->rqtype) {
1024 case MEMTODEV:
1025 off += _ldst_memtodev(dry_run, &buf[off], pxs, cyc);
1026 break;
1027 case DEVTOMEM:
1028 off += _ldst_devtomem(dry_run, &buf[off], pxs, cyc);
1029 break;
1030 case MEMTOMEM:
1031 off += _ldst_memtomem(dry_run, &buf[off], pxs, cyc);
1032 break;
1033 default:
1034 off += 0x40000000; /* Scare off the Client */
1035 break;
1036 }
1037
1038 return off;
1039}
1040
1041/* Returns bytes consumed and updates bursts */
1042static inline int _loop(unsigned dry_run, u8 buf[],
1043 unsigned long *bursts, const struct _xfer_spec *pxs)
1044{
1045 int cyc, cycmax, szlp, szlpend, szbrst, off;
1046 unsigned lcnt0, lcnt1, ljmp0, ljmp1;
1047 struct _arg_LPEND lpend;
1048
1049 /* Max iterations possibile in DMALP is 256 */
1050 if (*bursts >= 256*256) {
1051 lcnt1 = 256;
1052 lcnt0 = 256;
1053 cyc = *bursts / lcnt1 / lcnt0;
1054 } else if (*bursts > 256) {
1055 lcnt1 = 256;
1056 lcnt0 = *bursts / lcnt1;
1057 cyc = 1;
1058 } else {
1059 lcnt1 = *bursts;
1060 lcnt0 = 0;
1061 cyc = 1;
1062 }
1063
1064 szlp = _emit_LP(1, buf, 0, 0);
1065 szbrst = _bursts(1, buf, pxs, 1);
1066
1067 lpend.cond = ALWAYS;
1068 lpend.forever = false;
1069 lpend.loop = 0;
1070 lpend.bjump = 0;
1071 szlpend = _emit_LPEND(1, buf, &lpend);
1072
1073 if (lcnt0) {
1074 szlp *= 2;
1075 szlpend *= 2;
1076 }
1077
1078 /*
1079 * Max bursts that we can unroll due to limit on the
1080 * size of backward jump that can be encoded in DMALPEND
1081 * which is 8-bits and hence 255
1082 */
1083 cycmax = (255 - (szlp + szlpend)) / szbrst;
1084
1085 cyc = (cycmax < cyc) ? cycmax : cyc;
1086
1087 off = 0;
1088
1089 if (lcnt0) {
1090 off += _emit_LP(dry_run, &buf[off], 0, lcnt0);
1091 ljmp0 = off;
1092 }
1093
1094 off += _emit_LP(dry_run, &buf[off], 1, lcnt1);
1095 ljmp1 = off;
1096
1097 off += _bursts(dry_run, &buf[off], pxs, cyc);
1098
1099 lpend.cond = ALWAYS;
1100 lpend.forever = false;
1101 lpend.loop = 1;
1102 lpend.bjump = off - ljmp1;
1103 off += _emit_LPEND(dry_run, &buf[off], &lpend);
1104
1105 if (lcnt0) {
1106 lpend.cond = ALWAYS;
1107 lpend.forever = false;
1108 lpend.loop = 0;
1109 lpend.bjump = off - ljmp0;
1110 off += _emit_LPEND(dry_run, &buf[off], &lpend);
1111 }
1112
1113 *bursts = lcnt1 * cyc;
1114 if (lcnt0)
1115 *bursts *= lcnt0;
1116
1117 return off;
1118}
1119
1120static inline int _setup_loops(unsigned dry_run, u8 buf[],
1121 const struct _xfer_spec *pxs)
1122{
1123 struct pl330_xfer *x = pxs->x;
1124 u32 ccr = pxs->ccr;
1125 unsigned long c, bursts = BYTE_TO_BURST(x->bytes, ccr);
1126 int off = 0;
1127
1128 while (bursts) {
1129 c = bursts;
1130 off += _loop(dry_run, &buf[off], &c, pxs);
1131 bursts -= c;
1132 }
1133
1134 return off;
1135}
1136
1137static inline int _setup_xfer(unsigned dry_run, u8 buf[],
1138 const struct _xfer_spec *pxs)
1139{
1140 struct pl330_xfer *x = pxs->x;
1141 int off = 0;
1142
1143 /* DMAMOV SAR, x->src_addr */
1144 off += _emit_MOV(dry_run, &buf[off], SAR, x->src_addr);
1145 /* DMAMOV DAR, x->dst_addr */
1146 off += _emit_MOV(dry_run, &buf[off], DAR, x->dst_addr);
1147
1148 /* Setup Loop(s) */
1149 off += _setup_loops(dry_run, &buf[off], pxs);
1150
1151 return off;
1152}
1153
1154/*
1155 * A req is a sequence of one or more xfer units.
1156 * Returns the number of bytes taken to setup the MC for the req.
1157 */
1158static int _setup_req(unsigned dry_run, struct pl330_thread *thrd,
1159 unsigned index, struct _xfer_spec *pxs)
1160{
1161 struct _pl330_req *req = &thrd->req[index];
1162 struct pl330_xfer *x;
1163 u8 *buf = req->mc_cpu;
1164 int off = 0;
1165
1166 PL330_DBGMC_START(req->mc_bus);
1167
1168 /* DMAMOV CCR, ccr */
1169 off += _emit_MOV(dry_run, &buf[off], CCR, pxs->ccr);
1170
1171 x = pxs->r->x;
1172 do {
1173 /* Error if xfer length is not aligned at burst size */
1174 if (x->bytes % (BRST_SIZE(pxs->ccr) * BRST_LEN(pxs->ccr)))
1175 return -EINVAL;
1176
1177 pxs->x = x;
1178 off += _setup_xfer(dry_run, &buf[off], pxs);
1179
1180 x = x->next;
1181 } while (x);
1182
1183 /* DMASEV peripheral/event */
1184 off += _emit_SEV(dry_run, &buf[off], thrd->ev);
1185 /* DMAEND */
1186 off += _emit_END(dry_run, &buf[off]);
1187
1188 return off;
1189}
1190
1191static inline u32 _prepare_ccr(const struct pl330_reqcfg *rqc)
1192{
1193 u32 ccr = 0;
1194
1195 if (rqc->src_inc)
1196 ccr |= CC_SRCINC;
1197
1198 if (rqc->dst_inc)
1199 ccr |= CC_DSTINC;
1200
1201 /* We set same protection levels for Src and DST for now */
1202 if (rqc->privileged)
1203 ccr |= CC_SRCPRI | CC_DSTPRI;
1204 if (rqc->nonsecure)
1205 ccr |= CC_SRCNS | CC_DSTNS;
1206 if (rqc->insnaccess)
1207 ccr |= CC_SRCIA | CC_DSTIA;
1208
1209 ccr |= (((rqc->brst_len - 1) & 0xf) << CC_SRCBRSTLEN_SHFT);
1210 ccr |= (((rqc->brst_len - 1) & 0xf) << CC_DSTBRSTLEN_SHFT);
1211
1212 ccr |= (rqc->brst_size << CC_SRCBRSTSIZE_SHFT);
1213 ccr |= (rqc->brst_size << CC_DSTBRSTSIZE_SHFT);
1214
1215 ccr |= (rqc->dcctl << CC_SRCCCTRL_SHFT);
1216 ccr |= (rqc->scctl << CC_DSTCCTRL_SHFT);
1217
1218 ccr |= (rqc->swap << CC_SWAP_SHFT);
1219
1220 return ccr;
1221}
1222
1223static inline bool _is_valid(u32 ccr)
1224{
1225 enum pl330_dstcachectrl dcctl;
1226 enum pl330_srccachectrl scctl;
1227
1228 dcctl = (ccr >> CC_DSTCCTRL_SHFT) & CC_DRCCCTRL_MASK;
1229 scctl = (ccr >> CC_SRCCCTRL_SHFT) & CC_SRCCCTRL_MASK;
1230
1231 if (dcctl == DINVALID1 || dcctl == DINVALID2
1232 || scctl == SINVALID1 || scctl == SINVALID2)
1233 return false;
1234 else
1235 return true;
1236}
1237
1238/*
1239 * Submit a list of xfers after which the client wants notification.
1240 * Client is not notified after each xfer unit, just once after all
1241 * xfer units are done or some error occurs.
1242 */
1243int pl330_submit_req(void *ch_id, struct pl330_req *r)
1244{
1245 struct pl330_thread *thrd = ch_id;
1246 struct pl330_dmac *pl330;
1247 struct pl330_info *pi;
1248 struct _xfer_spec xs;
1249 unsigned long flags;
1250 void __iomem *regs;
1251 unsigned idx;
1252 u32 ccr;
1253 int ret = 0;
1254
1255 /* No Req or Unacquired Channel or DMAC */
1256 if (!r || !thrd || thrd->free)
1257 return -EINVAL;
1258
1259 pl330 = thrd->dmac;
1260 pi = pl330->pinfo;
1261 regs = pi->base;
1262
1263 if (pl330->state == DYING
1264 || pl330->dmac_tbd.reset_chan & (1 << thrd->id)) {
1265 dev_info(thrd->dmac->pinfo->dev, "%s:%d\n",
1266 __func__, __LINE__);
1267 return -EAGAIN;
1268 }
1269
1270 /* If request for non-existing peripheral */
1271 if (r->rqtype != MEMTOMEM && r->peri >= pi->pcfg.num_peri) {
1272 dev_info(thrd->dmac->pinfo->dev,
1273 "%s:%d Invalid peripheral(%u)!\n",
1274 __func__, __LINE__, r->peri);
1275 return -EINVAL;
1276 }
1277
1278 spin_lock_irqsave(&pl330->lock, flags);
1279
1280 if (_queue_full(thrd)) {
1281 ret = -EAGAIN;
1282 goto xfer_exit;
1283 }
1284
1285 /* Prefer Secure Channel */
1286 if (!_manager_ns(thrd))
1287 r->cfg->nonsecure = 0;
1288 else
1289 r->cfg->nonsecure = 1;
1290
1291 /* Use last settings, if not provided */
1292 if (r->cfg)
1293 ccr = _prepare_ccr(r->cfg);
1294 else
1295 ccr = readl(regs + CC(thrd->id));
1296
1297 /* If this req doesn't have valid xfer settings */
1298 if (!_is_valid(ccr)) {
1299 ret = -EINVAL;
1300 dev_info(thrd->dmac->pinfo->dev, "%s:%d Invalid CCR(%x)!\n",
1301 __func__, __LINE__, ccr);
1302 goto xfer_exit;
1303 }
1304
1305 idx = IS_FREE(&thrd->req[0]) ? 0 : 1;
1306
1307 xs.ccr = ccr;
1308 xs.r = r;
1309
1310 /* First dry run to check if req is acceptable */
1311 ret = _setup_req(1, thrd, idx, &xs);
1312 if (ret < 0)
1313 goto xfer_exit;
1314
1315 if (ret > pi->mcbufsz / 2) {
1316 dev_info(thrd->dmac->pinfo->dev,
1317 "%s:%d Trying increasing mcbufsz\n",
1318 __func__, __LINE__);
1319 ret = -ENOMEM;
1320 goto xfer_exit;
1321 }
1322
1323 /* Hook the request */
1324 thrd->lstenq = idx;
1325 thrd->req[idx].mc_len = _setup_req(0, thrd, idx, &xs);
1326 thrd->req[idx].r = r;
1327
1328 ret = 0;
1329
1330xfer_exit:
1331 spin_unlock_irqrestore(&pl330->lock, flags);
1332
1333 return ret;
1334}
1335EXPORT_SYMBOL(pl330_submit_req);
1336
1337static void pl330_dotask(unsigned long data)
1338{
1339 struct pl330_dmac *pl330 = (struct pl330_dmac *) data;
1340 struct pl330_info *pi = pl330->pinfo;
1341 unsigned long flags;
1342 int i;
1343
1344 spin_lock_irqsave(&pl330->lock, flags);
1345
1346 /* The DMAC itself gone nuts */
1347 if (pl330->dmac_tbd.reset_dmac) {
1348 pl330->state = DYING;
1349 /* Reset the manager too */
1350 pl330->dmac_tbd.reset_mngr = true;
1351 /* Clear the reset flag */
1352 pl330->dmac_tbd.reset_dmac = false;
1353 }
1354
1355 if (pl330->dmac_tbd.reset_mngr) {
1356 _stop(pl330->manager);
1357 /* Reset all channels */
1358 pl330->dmac_tbd.reset_chan = (1 << pi->pcfg.num_chan) - 1;
1359 /* Clear the reset flag */
1360 pl330->dmac_tbd.reset_mngr = false;
1361 }
1362
1363 for (i = 0; i < pi->pcfg.num_chan; i++) {
1364
1365 if (pl330->dmac_tbd.reset_chan & (1 << i)) {
1366 struct pl330_thread *thrd = &pl330->channels[i];
1367 void __iomem *regs = pi->base;
1368 enum pl330_op_err err;
1369
1370 _stop(thrd);
1371
1372 if (readl(regs + FSC) & (1 << thrd->id))
1373 err = PL330_ERR_FAIL;
1374 else
1375 err = PL330_ERR_ABORT;
1376
1377 spin_unlock_irqrestore(&pl330->lock, flags);
1378
1379 _callback(thrd->req[1 - thrd->lstenq].r, err);
1380 _callback(thrd->req[thrd->lstenq].r, err);
1381
1382 spin_lock_irqsave(&pl330->lock, flags);
1383
1384 thrd->req[0].r = NULL;
1385 thrd->req[1].r = NULL;
1386 MARK_FREE(&thrd->req[0]);
1387 MARK_FREE(&thrd->req[1]);
1388
1389 /* Clear the reset flag */
1390 pl330->dmac_tbd.reset_chan &= ~(1 << i);
1391 }
1392 }
1393
1394 spin_unlock_irqrestore(&pl330->lock, flags);
1395
1396 return;
1397}
1398
1399/* Returns 1 if state was updated, 0 otherwise */
1400int pl330_update(const struct pl330_info *pi)
1401{
1402 struct _pl330_req *rqdone;
1403 struct pl330_dmac *pl330;
1404 unsigned long flags;
1405 void __iomem *regs;
1406 u32 val;
1407 int id, ev, ret = 0;
1408
1409 if (!pi || !pi->pl330_data)
1410 return 0;
1411
1412 regs = pi->base;
1413 pl330 = pi->pl330_data;
1414
1415 spin_lock_irqsave(&pl330->lock, flags);
1416
1417 val = readl(regs + FSM) & 0x1;
1418 if (val)
1419 pl330->dmac_tbd.reset_mngr = true;
1420 else
1421 pl330->dmac_tbd.reset_mngr = false;
1422
1423 val = readl(regs + FSC) & ((1 << pi->pcfg.num_chan) - 1);
1424 pl330->dmac_tbd.reset_chan |= val;
1425 if (val) {
1426 int i = 0;
1427 while (i < pi->pcfg.num_chan) {
1428 if (val & (1 << i)) {
1429 dev_info(pi->dev,
1430 "Reset Channel-%d\t CS-%x FTC-%x\n",
1431 i, readl(regs + CS(i)),
1432 readl(regs + FTC(i)));
1433 _stop(&pl330->channels[i]);
1434 }
1435 i++;
1436 }
1437 }
1438
1439 /* Check which event happened i.e, thread notified */
1440 val = readl(regs + ES);
1441 if (pi->pcfg.num_events < 32
1442 && val & ~((1 << pi->pcfg.num_events) - 1)) {
1443 pl330->dmac_tbd.reset_dmac = true;
1444 dev_err(pi->dev, "%s:%d Unexpected!\n", __func__, __LINE__);
1445 ret = 1;
1446 goto updt_exit;
1447 }
1448
1449 for (ev = 0; ev < pi->pcfg.num_events; ev++) {
1450 if (val & (1 << ev)) { /* Event occured */
1451 struct pl330_thread *thrd;
1452 u32 inten = readl(regs + INTEN);
1453 int active;
1454
1455 /* Clear the event */
1456 if (inten & (1 << ev))
1457 writel(1 << ev, regs + INTCLR);
1458
1459 ret = 1;
1460
1461 id = pl330->events[ev];
1462
1463 thrd = &pl330->channels[id];
1464
1465 active = _thrd_active(thrd);
1466 if (!active) /* Aborted */
1467 continue;
1468
1469 active -= 1;
1470
1471 rqdone = &thrd->req[active];
1472 MARK_FREE(rqdone);
1473
1474 /* Get going again ASAP */
1475 _start(thrd);
1476
1477 /* For now, just make a list of callbacks to be done */
1478 list_add_tail(&rqdone->rqd, &pl330->req_done);
1479 }
1480 }
1481
1482 /* Now that we are in no hurry, do the callbacks */
1483 while (!list_empty(&pl330->req_done)) {
1484 rqdone = container_of(pl330->req_done.next,
1485 struct _pl330_req, rqd);
1486
1487 list_del_init(&rqdone->rqd);
1488
1489 spin_unlock_irqrestore(&pl330->lock, flags);
1490 _callback(rqdone->r, PL330_ERR_NONE);
1491 spin_lock_irqsave(&pl330->lock, flags);
1492 }
1493
1494updt_exit:
1495 spin_unlock_irqrestore(&pl330->lock, flags);
1496
1497 if (pl330->dmac_tbd.reset_dmac
1498 || pl330->dmac_tbd.reset_mngr
1499 || pl330->dmac_tbd.reset_chan) {
1500 ret = 1;
1501 tasklet_schedule(&pl330->tasks);
1502 }
1503
1504 return ret;
1505}
1506EXPORT_SYMBOL(pl330_update);
1507
1508int pl330_chan_ctrl(void *ch_id, enum pl330_chan_op op)
1509{
1510 struct pl330_thread *thrd = ch_id;
1511 struct pl330_dmac *pl330;
1512 unsigned long flags;
1513 int ret = 0, active;
1514
1515 if (!thrd || thrd->free || thrd->dmac->state == DYING)
1516 return -EINVAL;
1517
1518 pl330 = thrd->dmac;
1519
1520 spin_lock_irqsave(&pl330->lock, flags);
1521
1522 switch (op) {
1523 case PL330_OP_FLUSH:
1524 /* Make sure the channel is stopped */
1525 _stop(thrd);
1526
1527 thrd->req[0].r = NULL;
1528 thrd->req[1].r = NULL;
1529 MARK_FREE(&thrd->req[0]);
1530 MARK_FREE(&thrd->req[1]);
1531 break;
1532
1533 case PL330_OP_ABORT:
1534 active = _thrd_active(thrd);
1535
1536 /* Make sure the channel is stopped */
1537 _stop(thrd);
1538
1539 /* ABORT is only for the active req */
1540 if (!active)
1541 break;
1542
1543 active--;
1544
1545 thrd->req[active].r = NULL;
1546 MARK_FREE(&thrd->req[active]);
1547
1548 /* Start the next */
1549 case PL330_OP_START:
1550 if (!_start(thrd))
1551 ret = -EIO;
1552 break;
1553
1554 default:
1555 ret = -EINVAL;
1556 }
1557
1558 spin_unlock_irqrestore(&pl330->lock, flags);
1559 return ret;
1560}
1561EXPORT_SYMBOL(pl330_chan_ctrl);
1562
1563int pl330_chan_status(void *ch_id, struct pl330_chanstatus *pstatus)
1564{
1565 struct pl330_thread *thrd = ch_id;
1566 struct pl330_dmac *pl330;
1567 struct pl330_info *pi;
1568 void __iomem *regs;
1569 int active;
1570 u32 val;
1571
1572 if (!pstatus || !thrd || thrd->free)
1573 return -EINVAL;
1574
1575 pl330 = thrd->dmac;
1576 pi = pl330->pinfo;
1577 regs = pi->base;
1578
1579 /* The client should remove the DMAC and add again */
1580 if (pl330->state == DYING)
1581 pstatus->dmac_halted = true;
1582 else
1583 pstatus->dmac_halted = false;
1584
1585 val = readl(regs + FSC);
1586 if (val & (1 << thrd->id))
1587 pstatus->faulting = true;
1588 else
1589 pstatus->faulting = false;
1590
1591 active = _thrd_active(thrd);
1592
1593 if (!active) {
1594 /* Indicate that the thread is not running */
1595 pstatus->top_req = NULL;
1596 pstatus->wait_req = NULL;
1597 } else {
1598 active--;
1599 pstatus->top_req = thrd->req[active].r;
1600 pstatus->wait_req = !IS_FREE(&thrd->req[1 - active])
1601 ? thrd->req[1 - active].r : NULL;
1602 }
1603
1604 pstatus->src_addr = readl(regs + SA(thrd->id));
1605 pstatus->dst_addr = readl(regs + DA(thrd->id));
1606
1607 return 0;
1608}
1609EXPORT_SYMBOL(pl330_chan_status);
1610
1611/* Reserve an event */
1612static inline int _alloc_event(struct pl330_thread *thrd)
1613{
1614 struct pl330_dmac *pl330 = thrd->dmac;
1615 struct pl330_info *pi = pl330->pinfo;
1616 int ev;
1617
1618 for (ev = 0; ev < pi->pcfg.num_events; ev++)
1619 if (pl330->events[ev] == -1) {
1620 pl330->events[ev] = thrd->id;
1621 return ev;
1622 }
1623
1624 return -1;
1625}
1626
1627/* Upon success, returns IdentityToken for the
1628 * allocated channel, NULL otherwise.
1629 */
1630void *pl330_request_channel(const struct pl330_info *pi)
1631{
1632 struct pl330_thread *thrd = NULL;
1633 struct pl330_dmac *pl330;
1634 unsigned long flags;
1635 int chans, i;
1636
1637 if (!pi || !pi->pl330_data)
1638 return NULL;
1639
1640 pl330 = pi->pl330_data;
1641
1642 if (pl330->state == DYING)
1643 return NULL;
1644
1645 chans = pi->pcfg.num_chan;
1646
1647 spin_lock_irqsave(&pl330->lock, flags);
1648
1649 for (i = 0; i < chans; i++) {
1650 thrd = &pl330->channels[i];
1651 if (thrd->free) {
1652 thrd->ev = _alloc_event(thrd);
1653 if (thrd->ev >= 0) {
1654 thrd->free = false;
1655 thrd->lstenq = 1;
1656 thrd->req[0].r = NULL;
1657 MARK_FREE(&thrd->req[0]);
1658 thrd->req[1].r = NULL;
1659 MARK_FREE(&thrd->req[1]);
1660 break;
1661 }
1662 }
1663 thrd = NULL;
1664 }
1665
1666 spin_unlock_irqrestore(&pl330->lock, flags);
1667
1668 return thrd;
1669}
1670EXPORT_SYMBOL(pl330_request_channel);
1671
1672/* Release an event */
1673static inline void _free_event(struct pl330_thread *thrd, int ev)
1674{
1675 struct pl330_dmac *pl330 = thrd->dmac;
1676 struct pl330_info *pi = pl330->pinfo;
1677
1678 /* If the event is valid and was held by the thread */
1679 if (ev >= 0 && ev < pi->pcfg.num_events
1680 && pl330->events[ev] == thrd->id)
1681 pl330->events[ev] = -1;
1682}
1683
1684void pl330_release_channel(void *ch_id)
1685{
1686 struct pl330_thread *thrd = ch_id;
1687 struct pl330_dmac *pl330;
1688 unsigned long flags;
1689
1690 if (!thrd || thrd->free)
1691 return;
1692
1693 _stop(thrd);
1694
1695 _callback(thrd->req[1 - thrd->lstenq].r, PL330_ERR_ABORT);
1696 _callback(thrd->req[thrd->lstenq].r, PL330_ERR_ABORT);
1697
1698 pl330 = thrd->dmac;
1699
1700 spin_lock_irqsave(&pl330->lock, flags);
1701 _free_event(thrd, thrd->ev);
1702 thrd->free = true;
1703 spin_unlock_irqrestore(&pl330->lock, flags);
1704}
1705EXPORT_SYMBOL(pl330_release_channel);
1706
1707/* Initialize the structure for PL330 configuration, that can be used
1708 * by the client driver the make best use of the DMAC
1709 */
1710static void read_dmac_config(struct pl330_info *pi)
1711{
1712 void __iomem *regs = pi->base;
1713 u32 val;
1714
1715 val = readl(regs + CRD) >> CRD_DATA_WIDTH_SHIFT;
1716 val &= CRD_DATA_WIDTH_MASK;
1717 pi->pcfg.data_bus_width = 8 * (1 << val);
1718
1719 val = readl(regs + CRD) >> CRD_DATA_BUFF_SHIFT;
1720 val &= CRD_DATA_BUFF_MASK;
1721 pi->pcfg.data_buf_dep = val + 1;
1722
1723 val = readl(regs + CR0) >> CR0_NUM_CHANS_SHIFT;
1724 val &= CR0_NUM_CHANS_MASK;
1725 val += 1;
1726 pi->pcfg.num_chan = val;
1727
1728 val = readl(regs + CR0);
1729 if (val & CR0_PERIPH_REQ_SET) {
1730 val = (val >> CR0_NUM_PERIPH_SHIFT) & CR0_NUM_PERIPH_MASK;
1731 val += 1;
1732 pi->pcfg.num_peri = val;
1733 pi->pcfg.peri_ns = readl(regs + CR4);
1734 } else {
1735 pi->pcfg.num_peri = 0;
1736 }
1737
1738 val = readl(regs + CR0);
1739 if (val & CR0_BOOT_MAN_NS)
1740 pi->pcfg.mode |= DMAC_MODE_NS;
1741 else
1742 pi->pcfg.mode &= ~DMAC_MODE_NS;
1743
1744 val = readl(regs + CR0) >> CR0_NUM_EVENTS_SHIFT;
1745 val &= CR0_NUM_EVENTS_MASK;
1746 val += 1;
1747 pi->pcfg.num_events = val;
1748
1749 pi->pcfg.irq_ns = readl(regs + CR3);
1750
1751 pi->pcfg.periph_id = get_id(pi, PERIPH_ID);
1752 pi->pcfg.pcell_id = get_id(pi, PCELL_ID);
1753}
1754
1755static inline void _reset_thread(struct pl330_thread *thrd)
1756{
1757 struct pl330_dmac *pl330 = thrd->dmac;
1758 struct pl330_info *pi = pl330->pinfo;
1759
1760 thrd->req[0].mc_cpu = pl330->mcode_cpu
1761 + (thrd->id * pi->mcbufsz);
1762 thrd->req[0].mc_bus = pl330->mcode_bus
1763 + (thrd->id * pi->mcbufsz);
1764 thrd->req[0].r = NULL;
1765 MARK_FREE(&thrd->req[0]);
1766
1767 thrd->req[1].mc_cpu = thrd->req[0].mc_cpu
1768 + pi->mcbufsz / 2;
1769 thrd->req[1].mc_bus = thrd->req[0].mc_bus
1770 + pi->mcbufsz / 2;
1771 thrd->req[1].r = NULL;
1772 MARK_FREE(&thrd->req[1]);
1773}
1774
1775static int dmac_alloc_threads(struct pl330_dmac *pl330)
1776{
1777 struct pl330_info *pi = pl330->pinfo;
1778 int chans = pi->pcfg.num_chan;
1779 struct pl330_thread *thrd;
1780 int i;
1781
1782 /* Allocate 1 Manager and 'chans' Channel threads */
1783 pl330->channels = kzalloc((1 + chans) * sizeof(*thrd),
1784 GFP_KERNEL);
1785 if (!pl330->channels)
1786 return -ENOMEM;
1787
1788 /* Init Channel threads */
1789 for (i = 0; i < chans; i++) {
1790 thrd = &pl330->channels[i];
1791 thrd->id = i;
1792 thrd->dmac = pl330;
1793 _reset_thread(thrd);
1794 thrd->free = true;
1795 }
1796
1797 /* MANAGER is indexed at the end */
1798 thrd = &pl330->channels[chans];
1799 thrd->id = chans;
1800 thrd->dmac = pl330;
1801 thrd->free = false;
1802 pl330->manager = thrd;
1803
1804 return 0;
1805}
1806
1807static int dmac_alloc_resources(struct pl330_dmac *pl330)
1808{
1809 struct pl330_info *pi = pl330->pinfo;
1810 int chans = pi->pcfg.num_chan;
1811 int ret;
1812
1813 /*
1814 * Alloc MicroCode buffer for 'chans' Channel threads.
1815 * A channel's buffer offset is (Channel_Id * MCODE_BUFF_PERCHAN)
1816 */
1817 pl330->mcode_cpu = dma_alloc_coherent(pi->dev,
1818 chans * pi->mcbufsz,
1819 &pl330->mcode_bus, GFP_KERNEL);
1820 if (!pl330->mcode_cpu) {
1821 dev_err(pi->dev, "%s:%d Can't allocate memory!\n",
1822 __func__, __LINE__);
1823 return -ENOMEM;
1824 }
1825
1826 ret = dmac_alloc_threads(pl330);
1827 if (ret) {
1828 dev_err(pi->dev, "%s:%d Can't to create channels for DMAC!\n",
1829 __func__, __LINE__);
1830 dma_free_coherent(pi->dev,
1831 chans * pi->mcbufsz,
1832 pl330->mcode_cpu, pl330->mcode_bus);
1833 return ret;
1834 }
1835
1836 return 0;
1837}
1838
1839int pl330_add(struct pl330_info *pi)
1840{
1841 struct pl330_dmac *pl330;
1842 void __iomem *regs;
1843 int i, ret;
1844
1845 if (!pi || !pi->dev)
1846 return -EINVAL;
1847
1848 /* If already added */
1849 if (pi->pl330_data)
1850 return -EINVAL;
1851
1852 /*
1853 * If the SoC can perform reset on the DMAC, then do it
1854 * before reading its configuration.
1855 */
1856 if (pi->dmac_reset)
1857 pi->dmac_reset(pi);
1858
1859 regs = pi->base;
1860
1861 /* Check if we can handle this DMAC */
1862 if (get_id(pi, PERIPH_ID) != PERIPH_ID_VAL
1863 || get_id(pi, PCELL_ID) != PCELL_ID_VAL) {
1864 dev_err(pi->dev, "PERIPH_ID 0x%x, PCELL_ID 0x%x !\n",
1865 readl(regs + PERIPH_ID), readl(regs + PCELL_ID));
1866 return -EINVAL;
1867 }
1868
1869 /* Read the configuration of the DMAC */
1870 read_dmac_config(pi);
1871
1872 if (pi->pcfg.num_events == 0) {
1873 dev_err(pi->dev, "%s:%d Can't work without events!\n",
1874 __func__, __LINE__);
1875 return -EINVAL;
1876 }
1877
1878 pl330 = kzalloc(sizeof(*pl330), GFP_KERNEL);
1879 if (!pl330) {
1880 dev_err(pi->dev, "%s:%d Can't allocate memory!\n",
1881 __func__, __LINE__);
1882 return -ENOMEM;
1883 }
1884
1885 /* Assign the info structure and private data */
1886 pl330->pinfo = pi;
1887 pi->pl330_data = pl330;
1888
1889 spin_lock_init(&pl330->lock);
1890
1891 INIT_LIST_HEAD(&pl330->req_done);
1892
1893 /* Use default MC buffer size if not provided */
1894 if (!pi->mcbufsz)
1895 pi->mcbufsz = MCODE_BUFF_PER_REQ * 2;
1896
1897 /* Mark all events as free */
1898 for (i = 0; i < pi->pcfg.num_events; i++)
1899 pl330->events[i] = -1;
1900
1901 /* Allocate resources needed by the DMAC */
1902 ret = dmac_alloc_resources(pl330);
1903 if (ret) {
1904 dev_err(pi->dev, "Unable to create channels for DMAC\n");
1905 kfree(pl330);
1906 return ret;
1907 }
1908
1909 tasklet_init(&pl330->tasks, pl330_dotask, (unsigned long) pl330);
1910
1911 pl330->state = INIT;
1912
1913 return 0;
1914}
1915EXPORT_SYMBOL(pl330_add);
1916
1917static int dmac_free_threads(struct pl330_dmac *pl330)
1918{
1919 struct pl330_info *pi = pl330->pinfo;
1920 int chans = pi->pcfg.num_chan;
1921 struct pl330_thread *thrd;
1922 int i;
1923
1924 /* Release Channel threads */
1925 for (i = 0; i < chans; i++) {
1926 thrd = &pl330->channels[i];
1927 pl330_release_channel((void *)thrd);
1928 }
1929
1930 /* Free memory */
1931 kfree(pl330->channels);
1932
1933 return 0;
1934}
1935
1936static void dmac_free_resources(struct pl330_dmac *pl330)
1937{
1938 struct pl330_info *pi = pl330->pinfo;
1939 int chans = pi->pcfg.num_chan;
1940
1941 dmac_free_threads(pl330);
1942
1943 dma_free_coherent(pi->dev, chans * pi->mcbufsz,
1944 pl330->mcode_cpu, pl330->mcode_bus);
1945}
1946
1947void pl330_del(struct pl330_info *pi)
1948{
1949 struct pl330_dmac *pl330;
1950
1951 if (!pi || !pi->pl330_data)
1952 return;
1953
1954 pl330 = pi->pl330_data;
1955
1956 pl330->state = UNINIT;
1957
1958 tasklet_kill(&pl330->tasks);
1959
1960 /* Free DMAC resources */
1961 dmac_free_resources(pl330);
1962
1963 kfree(pl330);
1964 pi->pl330_data = NULL;
1965}
1966EXPORT_SYMBOL(pl330_del);