2 * Freescale MPC85xx/MPC86xx RapidIO support
4 * Copyright 2009 Sysgo AG
5 * Thomas Moll <thomas.moll@sysgo.com>
6 * - fixed maintenance access routines, check for aligned access
8 * Copyright 2009 Integrated Device Technology, Inc.
9 * Alex Bounine <alexandre.bounine@idt.com>
10 * - Added Port-Write message handling
11 * - Added Machine Check exception handling
13 * Copyright (C) 2007, 2008 Freescale Semiconductor, Inc.
14 * Zhang Wei <wei.zhang@freescale.com>
16 * Copyright 2005 MontaVista Software, Inc.
17 * Matt Porter <mporter@kernel.crashing.org>
19 * This program is free software; you can redistribute it and/or modify it
20 * under the terms of the GNU General Public License as published by the
21 * Free Software Foundation; either version 2 of the License, or (at your
22 * option) any later version.
25 #include <linux/init.h>
26 #include <linux/module.h>
27 #include <linux/types.h>
28 #include <linux/dma-mapping.h>
29 #include <linux/interrupt.h>
30 #include <linux/device.h>
31 #include <linux/rio.h>
32 #include <linux/rio_drv.h>
33 #include <linux/of_platform.h>
34 #include <linux/delay.h>
35 #include <linux/slab.h>
36 #include <linux/kfifo.h>
39 #include <asm/machdep.h>
40 #include <asm/uaccess.h>
42 #undef DEBUG_PW /* Port-Write debugging */
44 /* RapidIO definition irq, which read from OF-tree */
45 #define IRQ_RIO_BELL(m) (((struct rio_priv *)(m->priv))->bellirq)
46 #define IRQ_RIO_TX(m) (((struct rio_priv *)(m->priv))->txirq)
47 #define IRQ_RIO_RX(m) (((struct rio_priv *)(m->priv))->rxirq)
48 #define IRQ_RIO_PW(m) (((struct rio_priv *)(m->priv))->pwirq)
50 #define RIO_ATMU_REGS_OFFSET 0x10c00
51 #define RIO_P_MSG_REGS_OFFSET 0x11000
52 #define RIO_S_MSG_REGS_OFFSET 0x13000
53 #define RIO_GCCSR 0x13c
54 #define RIO_ESCSR 0x158
55 #define RIO_CCSR 0x15c
56 #define RIO_LTLEDCSR 0x0608
57 #define RIO_LTLEDCSR_IER 0x80000000
58 #define RIO_LTLEDCSR_PRT 0x01000000
59 #define RIO_LTLEECSR 0x060c
60 #define RIO_EPWISR 0x10010
61 #define RIO_ISR_AACR 0x10120
62 #define RIO_ISR_AACR_AA 0x1 /* Accept All ID */
63 #define RIO_MAINT_WIN_SIZE 0x400000
64 #define RIO_DBELL_WIN_SIZE 0x1000
66 #define RIO_MSG_OMR_MUI 0x00000002
67 #define RIO_MSG_OSR_TE 0x00000080
68 #define RIO_MSG_OSR_QOI 0x00000020
69 #define RIO_MSG_OSR_QFI 0x00000010
70 #define RIO_MSG_OSR_MUB 0x00000004
71 #define RIO_MSG_OSR_EOMI 0x00000002
72 #define RIO_MSG_OSR_QEI 0x00000001
74 #define RIO_MSG_IMR_MI 0x00000002
75 #define RIO_MSG_ISR_TE 0x00000080
76 #define RIO_MSG_ISR_QFI 0x00000010
77 #define RIO_MSG_ISR_DIQI 0x00000001
79 #define RIO_IPWMR_SEN 0x00100000
80 #define RIO_IPWMR_QFIE 0x00000100
81 #define RIO_IPWMR_EIE 0x00000020
82 #define RIO_IPWMR_CQ 0x00000002
83 #define RIO_IPWMR_PWE 0x00000001
85 #define RIO_IPWSR_QF 0x00100000
86 #define RIO_IPWSR_TE 0x00000080
87 #define RIO_IPWSR_QFI 0x00000010
88 #define RIO_IPWSR_PWD 0x00000008
89 #define RIO_IPWSR_PWB 0x00000004
91 #define RIO_EPWISR_PINT 0x80000000
92 #define RIO_EPWISR_PW 0x00000001
94 #define RIO_MSG_DESC_SIZE 32
95 #define RIO_MSG_BUFFER_SIZE 4096
96 #define RIO_MIN_TX_RING_SIZE 2
97 #define RIO_MAX_TX_RING_SIZE 2048
98 #define RIO_MIN_RX_RING_SIZE 2
99 #define RIO_MAX_RX_RING_SIZE 2048
101 #define DOORBELL_DMR_DI 0x00000002
102 #define DOORBELL_DSR_TE 0x00000080
103 #define DOORBELL_DSR_QFI 0x00000010
104 #define DOORBELL_DSR_DIQI 0x00000001
105 #define DOORBELL_TID_OFFSET 0x02
106 #define DOORBELL_SID_OFFSET 0x04
107 #define DOORBELL_INFO_OFFSET 0x06
109 #define DOORBELL_MESSAGE_SIZE 0x08
110 #define DBELL_SID(x) (*(u16 *)(x + DOORBELL_SID_OFFSET))
111 #define DBELL_TID(x) (*(u16 *)(x + DOORBELL_TID_OFFSET))
112 #define DBELL_INF(x) (*(u16 *)(x + DOORBELL_INFO_OFFSET))
114 struct rio_atmu_regs {
123 struct rio_msg_regs {
124 u32 omr; /* 0xD_3000 - Outbound message 0 mode register */
125 u32 osr; /* 0xD_3004 - Outbound message 0 status register */
127 u32 odqdpar; /* 0xD_300C - Outbound message 0 descriptor queue
128 dequeue pointer address register */
130 u32 osar; /* 0xD_3014 - Outbound message 0 source address
132 u32 odpr; /* 0xD_3018 - Outbound message 0 destination port
134 u32 odatr; /* 0xD_301C - Outbound message 0 destination attributes
136 u32 odcr; /* 0xD_3020 - Outbound message 0 double-word count
139 u32 odqepar; /* 0xD_3028 - Outbound message 0 descriptor queue
140 enqueue pointer address register */
142 u32 imr; /* 0xD_3060 - Inbound message 0 mode register */
143 u32 isr; /* 0xD_3064 - Inbound message 0 status register */
145 u32 ifqdpar; /* 0xD_306C - Inbound message 0 frame queue dequeue
146 pointer address register*/
148 u32 ifqepar; /* 0xD_3074 - Inbound message 0 frame queue enqueue
149 pointer address register */
151 u32 odmr; /* 0xD_3400 - Outbound doorbell mode register */
152 u32 odsr; /* 0xD_3404 - Outbound doorbell status register */
154 u32 oddpr; /* 0xD_3418 - Outbound doorbell destination port
156 u32 oddatr; /* 0xD_341c - Outbound doorbell destination attributes
159 u32 odretcr; /* 0xD_342C - Outbound doorbell retry error threshold
160 configuration register */
162 u32 dmr; /* 0xD_3460 - Inbound doorbell mode register */
163 u32 dsr; /* 0xD_3464 - Inbound doorbell status register */
165 u32 dqdpar; /* 0xD_346C - Inbound doorbell queue dequeue Pointer
168 u32 dqepar; /* 0xD_3474 - Inbound doorbell Queue enqueue pointer
171 u32 pwmr; /* 0xD_34E0 - Inbound port-write mode register */
172 u32 pwsr; /* 0xD_34E4 - Inbound port-write status register */
173 u32 epwqbar; /* 0xD_34E8 - Extended Port-Write Queue Base Address
175 u32 pwqbar; /* 0xD_34EC - Inbound port-write queue base address
190 struct rio_dbell_ring {
195 struct rio_msg_tx_ring {
198 void *virt_buffer[RIO_MAX_TX_RING_SIZE];
199 dma_addr_t phys_buffer[RIO_MAX_TX_RING_SIZE];
205 struct rio_msg_rx_ring {
208 void *virt_buffer[RIO_MAX_RX_RING_SIZE];
214 struct rio_port_write_msg {
224 void __iomem *regs_win;
225 struct rio_atmu_regs __iomem *atmu_regs;
226 struct rio_atmu_regs __iomem *maint_atmu_regs;
227 struct rio_atmu_regs __iomem *dbell_atmu_regs;
228 void __iomem *dbell_win;
229 void __iomem *maint_win;
230 struct rio_msg_regs __iomem *msg_regs;
231 struct rio_dbell_ring dbell_ring;
232 struct rio_msg_tx_ring msg_tx_ring;
233 struct rio_msg_rx_ring msg_rx_ring;
234 struct rio_port_write_msg port_write_msg;
239 struct work_struct pw_work;
240 struct kfifo pw_fifo;
241 spinlock_t pw_fifo_lock;
244 #define __fsl_read_rio_config(x, addr, err, op) \
245 __asm__ __volatile__( \
246 "1: "op" %1,0(%2)\n" \
249 ".section .fixup,\"ax\"\n" \
253 ".section __ex_table,\"a\"\n" \
257 : "=r" (err), "=r" (x) \
258 : "b" (addr), "i" (-EFAULT), "0" (err))
260 static void __iomem *rio_regs_win;
263 static int (*saved_mcheck_exception)(struct pt_regs *regs);
265 static int fsl_rio_mcheck_exception(struct pt_regs *regs)
267 const struct exception_table_entry *entry = NULL;
268 unsigned long reason = mfspr(SPRN_MCSR);
270 if (reason & MCSR_BUS_RBERR) {
271 reason = in_be32((u32 *)(rio_regs_win + RIO_LTLEDCSR));
272 if (reason & (RIO_LTLEDCSR_IER | RIO_LTLEDCSR_PRT)) {
273 /* Check if we are prepared to handle this fault */
274 entry = search_exception_tables(regs->nip);
276 pr_debug("RIO: %s - MC Exception handled\n",
278 out_be32((u32 *)(rio_regs_win + RIO_LTLEDCSR),
281 regs->nip = entry->fixup;
287 if (saved_mcheck_exception)
288 return saved_mcheck_exception(regs);
290 return cur_cpu_spec->machine_check(regs);
295 * fsl_rio_doorbell_send - Send a MPC85xx doorbell message
296 * @mport: RapidIO master port info
297 * @index: ID of RapidIO interface
298 * @destid: Destination ID of target device
299 * @data: 16-bit info field of RapidIO doorbell message
301 * Sends a MPC85xx doorbell message. Returns %0 on success or
302 * %-EINVAL on failure.
304 static int fsl_rio_doorbell_send(struct rio_mport *mport,
305 int index, u16 destid, u16 data)
307 struct rio_priv *priv = mport->priv;
308 pr_debug("fsl_doorbell_send: index %d destid %4.4x data %4.4x\n",
309 index, destid, data);
310 switch (mport->phy_type) {
311 case RIO_PHY_PARALLEL:
312 out_be32(&priv->dbell_atmu_regs->rowtar, destid << 22);
313 out_be16(priv->dbell_win, data);
316 /* In the serial version silicons, such as MPC8548, MPC8641,
317 * below operations is must be.
319 out_be32(&priv->msg_regs->odmr, 0x00000000);
320 out_be32(&priv->msg_regs->odretcr, 0x00000004);
321 out_be32(&priv->msg_regs->oddpr, destid << 16);
322 out_be32(&priv->msg_regs->oddatr, data);
323 out_be32(&priv->msg_regs->odmr, 0x00000001);
331 * fsl_local_config_read - Generate a MPC85xx local config space read
332 * @mport: RapidIO master port info
333 * @index: ID of RapdiIO interface
334 * @offset: Offset into configuration space
335 * @len: Length (in bytes) of the maintenance transaction
336 * @data: Value to be read into
338 * Generates a MPC85xx local configuration space read. Returns %0 on
339 * success or %-EINVAL on failure.
341 static int fsl_local_config_read(struct rio_mport *mport,
342 int index, u32 offset, int len, u32 *data)
344 struct rio_priv *priv = mport->priv;
345 pr_debug("fsl_local_config_read: index %d offset %8.8x\n", index,
347 *data = in_be32(priv->regs_win + offset);
353 * fsl_local_config_write - Generate a MPC85xx local config space write
354 * @mport: RapidIO master port info
355 * @index: ID of RapdiIO interface
356 * @offset: Offset into configuration space
357 * @len: Length (in bytes) of the maintenance transaction
358 * @data: Value to be written
360 * Generates a MPC85xx local configuration space write. Returns %0 on
361 * success or %-EINVAL on failure.
363 static int fsl_local_config_write(struct rio_mport *mport,
364 int index, u32 offset, int len, u32 data)
366 struct rio_priv *priv = mport->priv;
368 ("fsl_local_config_write: index %d offset %8.8x data %8.8x\n",
369 index, offset, data);
370 out_be32(priv->regs_win + offset, data);
376 * fsl_rio_config_read - Generate a MPC85xx read maintenance transaction
377 * @mport: RapidIO master port info
378 * @index: ID of RapdiIO interface
379 * @destid: Destination ID of transaction
380 * @hopcount: Number of hops to target device
381 * @offset: Offset into configuration space
382 * @len: Length (in bytes) of the maintenance transaction
383 * @val: Location to be read into
385 * Generates a MPC85xx read maintenance transaction. Returns %0 on
386 * success or %-EINVAL on failure.
389 fsl_rio_config_read(struct rio_mport *mport, int index, u16 destid,
390 u8 hopcount, u32 offset, int len, u32 *val)
392 struct rio_priv *priv = mport->priv;
397 ("fsl_rio_config_read: index %d destid %d hopcount %d offset %8.8x len %d\n",
398 index, destid, hopcount, offset, len);
400 /* 16MB maintenance window possible */
401 /* allow only aligned access to maintenance registers */
402 if (offset > (0x1000000 - len) || !IS_ALIGNED(offset, len))
405 out_be32(&priv->maint_atmu_regs->rowtar,
406 (destid << 22) | (hopcount << 12) | (offset >> 12));
407 out_be32(&priv->maint_atmu_regs->rowtear, (destid >> 10));
409 data = (u8 *) priv->maint_win + (offset & (RIO_MAINT_WIN_SIZE - 1));
412 __fsl_read_rio_config(rval, data, err, "lbz");
415 __fsl_read_rio_config(rval, data, err, "lhz");
418 __fsl_read_rio_config(rval, data, err, "lwz");
425 pr_debug("RIO: cfg_read error %d for %x:%x:%x\n",
426 err, destid, hopcount, offset);
435 * fsl_rio_config_write - Generate a MPC85xx write maintenance transaction
436 * @mport: RapidIO master port info
437 * @index: ID of RapdiIO interface
438 * @destid: Destination ID of transaction
439 * @hopcount: Number of hops to target device
440 * @offset: Offset into configuration space
441 * @len: Length (in bytes) of the maintenance transaction
442 * @val: Value to be written
444 * Generates an MPC85xx write maintenance transaction. Returns %0 on
445 * success or %-EINVAL on failure.
448 fsl_rio_config_write(struct rio_mport *mport, int index, u16 destid,
449 u8 hopcount, u32 offset, int len, u32 val)
451 struct rio_priv *priv = mport->priv;
454 ("fsl_rio_config_write: index %d destid %d hopcount %d offset %8.8x len %d val %8.8x\n",
455 index, destid, hopcount, offset, len, val);
457 /* 16MB maintenance windows possible */
458 /* allow only aligned access to maintenance registers */
459 if (offset > (0x1000000 - len) || !IS_ALIGNED(offset, len))
462 out_be32(&priv->maint_atmu_regs->rowtar,
463 (destid << 22) | (hopcount << 12) | (offset >> 12));
464 out_be32(&priv->maint_atmu_regs->rowtear, (destid >> 10));
466 data = (u8 *) priv->maint_win + (offset & (RIO_MAINT_WIN_SIZE - 1));
469 out_8((u8 *) data, val);
472 out_be16((u16 *) data, val);
475 out_be32((u32 *) data, val);
485 * rio_hw_add_outb_message - Add message to the MPC85xx outbound message queue
486 * @mport: Master port with outbound message queue
487 * @rdev: Target of outbound message
488 * @mbox: Outbound mailbox
489 * @buffer: Message to add to outbound queue
490 * @len: Length of message
492 * Adds the @buffer message to the MPC85xx outbound message queue. Returns
493 * %0 on success or %-EINVAL on failure.
496 rio_hw_add_outb_message(struct rio_mport *mport, struct rio_dev *rdev, int mbox,
497 void *buffer, size_t len)
499 struct rio_priv *priv = mport->priv;
501 struct rio_tx_desc *desc = (struct rio_tx_desc *)priv->msg_tx_ring.virt
502 + priv->msg_tx_ring.tx_slot;
506 ("RIO: rio_hw_add_outb_message(): destid %4.4x mbox %d buffer %8.8x len %8.8x\n",
507 rdev->destid, mbox, (int)buffer, len);
509 if ((len < 8) || (len > RIO_MAX_MSG_SIZE)) {
514 /* Copy and clear rest of buffer */
515 memcpy(priv->msg_tx_ring.virt_buffer[priv->msg_tx_ring.tx_slot], buffer,
517 if (len < (RIO_MAX_MSG_SIZE - 4))
518 memset(priv->msg_tx_ring.virt_buffer[priv->msg_tx_ring.tx_slot]
519 + len, 0, RIO_MAX_MSG_SIZE - len);
521 switch (mport->phy_type) {
522 case RIO_PHY_PARALLEL:
523 /* Set mbox field for message */
524 desc->dport = mbox & 0x3;
526 /* Enable EOMI interrupt, set priority, and set destid */
527 desc->dattr = 0x28000000 | (rdev->destid << 2);
530 /* Set mbox field for message, and set destid */
531 desc->dport = (rdev->destid << 16) | (mbox & 0x3);
533 /* Enable EOMI interrupt and priority */
534 desc->dattr = 0x28000000;
538 /* Set transfer size aligned to next power of 2 (in double words) */
539 desc->dwcnt = is_power_of_2(len) ? len : 1 << get_bitmask_order(len);
541 /* Set snooping and source buffer address */
542 desc->saddr = 0x00000004
543 | priv->msg_tx_ring.phys_buffer[priv->msg_tx_ring.tx_slot];
545 /* Increment enqueue pointer */
546 omr = in_be32(&priv->msg_regs->omr);
547 out_be32(&priv->msg_regs->omr, omr | RIO_MSG_OMR_MUI);
549 /* Go to next descriptor */
550 if (++priv->msg_tx_ring.tx_slot == priv->msg_tx_ring.size)
551 priv->msg_tx_ring.tx_slot = 0;
557 EXPORT_SYMBOL_GPL(rio_hw_add_outb_message);
560 * fsl_rio_tx_handler - MPC85xx outbound message interrupt handler
561 * @irq: Linux interrupt number
562 * @dev_instance: Pointer to interrupt-specific data
564 * Handles outbound message interrupts. Executes a register outbound
565 * mailbox event handler and acks the interrupt occurrence.
568 fsl_rio_tx_handler(int irq, void *dev_instance)
571 struct rio_mport *port = (struct rio_mport *)dev_instance;
572 struct rio_priv *priv = port->priv;
574 osr = in_be32(&priv->msg_regs->osr);
576 if (osr & RIO_MSG_OSR_TE) {
577 pr_info("RIO: outbound message transmission error\n");
578 out_be32(&priv->msg_regs->osr, RIO_MSG_OSR_TE);
582 if (osr & RIO_MSG_OSR_QOI) {
583 pr_info("RIO: outbound message queue overflow\n");
584 out_be32(&priv->msg_regs->osr, RIO_MSG_OSR_QOI);
588 if (osr & RIO_MSG_OSR_EOMI) {
589 u32 dqp = in_be32(&priv->msg_regs->odqdpar);
590 int slot = (dqp - priv->msg_tx_ring.phys) >> 5;
591 port->outb_msg[0].mcback(port, priv->msg_tx_ring.dev_id, -1,
594 /* Ack the end-of-message interrupt */
595 out_be32(&priv->msg_regs->osr, RIO_MSG_OSR_EOMI);
603 * rio_open_outb_mbox - Initialize MPC85xx outbound mailbox
604 * @mport: Master port implementing the outbound message unit
605 * @dev_id: Device specific pointer to pass on event
606 * @mbox: Mailbox to open
607 * @entries: Number of entries in the outbound mailbox ring
609 * Initializes buffer ring, request the outbound message interrupt,
610 * and enables the outbound message unit. Returns %0 on success and
611 * %-EINVAL or %-ENOMEM on failure.
613 int rio_open_outb_mbox(struct rio_mport *mport, void *dev_id, int mbox, int entries)
616 struct rio_priv *priv = mport->priv;
618 if ((entries < RIO_MIN_TX_RING_SIZE) ||
619 (entries > RIO_MAX_TX_RING_SIZE) || (!is_power_of_2(entries))) {
624 /* Initialize shadow copy ring */
625 priv->msg_tx_ring.dev_id = dev_id;
626 priv->msg_tx_ring.size = entries;
628 for (i = 0; i < priv->msg_tx_ring.size; i++) {
629 priv->msg_tx_ring.virt_buffer[i] =
630 dma_alloc_coherent(priv->dev, RIO_MSG_BUFFER_SIZE,
631 &priv->msg_tx_ring.phys_buffer[i], GFP_KERNEL);
632 if (!priv->msg_tx_ring.virt_buffer[i]) {
634 for (j = 0; j < priv->msg_tx_ring.size; j++)
635 if (priv->msg_tx_ring.virt_buffer[j])
636 dma_free_coherent(priv->dev,
646 /* Initialize outbound message descriptor ring */
647 priv->msg_tx_ring.virt = dma_alloc_coherent(priv->dev,
648 priv->msg_tx_ring.size * RIO_MSG_DESC_SIZE,
649 &priv->msg_tx_ring.phys, GFP_KERNEL);
650 if (!priv->msg_tx_ring.virt) {
654 memset(priv->msg_tx_ring.virt, 0,
655 priv->msg_tx_ring.size * RIO_MSG_DESC_SIZE);
656 priv->msg_tx_ring.tx_slot = 0;
658 /* Point dequeue/enqueue pointers at first entry in ring */
659 out_be32(&priv->msg_regs->odqdpar, priv->msg_tx_ring.phys);
660 out_be32(&priv->msg_regs->odqepar, priv->msg_tx_ring.phys);
662 /* Configure for snooping */
663 out_be32(&priv->msg_regs->osar, 0x00000004);
665 /* Clear interrupt status */
666 out_be32(&priv->msg_regs->osr, 0x000000b3);
668 /* Hook up outbound message handler */
669 rc = request_irq(IRQ_RIO_TX(mport), fsl_rio_tx_handler, 0,
670 "msg_tx", (void *)mport);
675 * Configure outbound message unit
677 * Interrupts (all enabled, except QEIE)
681 out_be32(&priv->msg_regs->omr, 0x00100220);
683 /* Set number of entries */
684 out_be32(&priv->msg_regs->omr,
685 in_be32(&priv->msg_regs->omr) |
686 ((get_bitmask_order(entries) - 2) << 12));
688 /* Now enable the unit */
689 out_be32(&priv->msg_regs->omr, in_be32(&priv->msg_regs->omr) | 0x1);
695 dma_free_coherent(priv->dev,
696 priv->msg_tx_ring.size * RIO_MSG_DESC_SIZE,
697 priv->msg_tx_ring.virt, priv->msg_tx_ring.phys);
700 for (i = 0; i < priv->msg_tx_ring.size; i++)
701 dma_free_coherent(priv->dev, RIO_MSG_BUFFER_SIZE,
702 priv->msg_tx_ring.virt_buffer[i],
703 priv->msg_tx_ring.phys_buffer[i]);
709 * rio_close_outb_mbox - Shut down MPC85xx outbound mailbox
710 * @mport: Master port implementing the outbound message unit
711 * @mbox: Mailbox to close
713 * Disables the outbound message unit, free all buffers, and
714 * frees the outbound message interrupt.
716 void rio_close_outb_mbox(struct rio_mport *mport, int mbox)
718 struct rio_priv *priv = mport->priv;
719 /* Disable inbound message unit */
720 out_be32(&priv->msg_regs->omr, 0);
723 dma_free_coherent(priv->dev,
724 priv->msg_tx_ring.size * RIO_MSG_DESC_SIZE,
725 priv->msg_tx_ring.virt, priv->msg_tx_ring.phys);
728 free_irq(IRQ_RIO_TX(mport), (void *)mport);
732 * fsl_rio_rx_handler - MPC85xx inbound message interrupt handler
733 * @irq: Linux interrupt number
734 * @dev_instance: Pointer to interrupt-specific data
736 * Handles inbound message interrupts. Executes a registered inbound
737 * mailbox event handler and acks the interrupt occurrence.
740 fsl_rio_rx_handler(int irq, void *dev_instance)
743 struct rio_mport *port = (struct rio_mport *)dev_instance;
744 struct rio_priv *priv = port->priv;
746 isr = in_be32(&priv->msg_regs->isr);
748 if (isr & RIO_MSG_ISR_TE) {
749 pr_info("RIO: inbound message reception error\n");
750 out_be32((void *)&priv->msg_regs->isr, RIO_MSG_ISR_TE);
754 /* XXX Need to check/dispatch until queue empty */
755 if (isr & RIO_MSG_ISR_DIQI) {
757 * We implement *only* mailbox 0, but can receive messages
758 * for any mailbox/letter to that mailbox destination. So,
759 * make the callback with an unknown/invalid mailbox number
762 port->inb_msg[0].mcback(port, priv->msg_rx_ring.dev_id, -1, -1);
764 /* Ack the queueing interrupt */
765 out_be32(&priv->msg_regs->isr, RIO_MSG_ISR_DIQI);
773 * rio_open_inb_mbox - Initialize MPC85xx inbound mailbox
774 * @mport: Master port implementing the inbound message unit
775 * @dev_id: Device specific pointer to pass on event
776 * @mbox: Mailbox to open
777 * @entries: Number of entries in the inbound mailbox ring
779 * Initializes buffer ring, request the inbound message interrupt,
780 * and enables the inbound message unit. Returns %0 on success
781 * and %-EINVAL or %-ENOMEM on failure.
783 int rio_open_inb_mbox(struct rio_mport *mport, void *dev_id, int mbox, int entries)
786 struct rio_priv *priv = mport->priv;
788 if ((entries < RIO_MIN_RX_RING_SIZE) ||
789 (entries > RIO_MAX_RX_RING_SIZE) || (!is_power_of_2(entries))) {
794 /* Initialize client buffer ring */
795 priv->msg_rx_ring.dev_id = dev_id;
796 priv->msg_rx_ring.size = entries;
797 priv->msg_rx_ring.rx_slot = 0;
798 for (i = 0; i < priv->msg_rx_ring.size; i++)
799 priv->msg_rx_ring.virt_buffer[i] = NULL;
801 /* Initialize inbound message ring */
802 priv->msg_rx_ring.virt = dma_alloc_coherent(priv->dev,
803 priv->msg_rx_ring.size * RIO_MAX_MSG_SIZE,
804 &priv->msg_rx_ring.phys, GFP_KERNEL);
805 if (!priv->msg_rx_ring.virt) {
810 /* Point dequeue/enqueue pointers at first entry in ring */
811 out_be32(&priv->msg_regs->ifqdpar, (u32) priv->msg_rx_ring.phys);
812 out_be32(&priv->msg_regs->ifqepar, (u32) priv->msg_rx_ring.phys);
814 /* Clear interrupt status */
815 out_be32(&priv->msg_regs->isr, 0x00000091);
817 /* Hook up inbound message handler */
818 rc = request_irq(IRQ_RIO_RX(mport), fsl_rio_rx_handler, 0,
819 "msg_rx", (void *)mport);
821 dma_free_coherent(priv->dev, RIO_MSG_BUFFER_SIZE,
822 priv->msg_tx_ring.virt_buffer[i],
823 priv->msg_tx_ring.phys_buffer[i]);
828 * Configure inbound message unit:
830 * 4KB max message size
831 * Unmask all interrupt sources
834 out_be32(&priv->msg_regs->imr, 0x001b0060);
836 /* Set number of queue entries */
837 setbits32(&priv->msg_regs->imr, (get_bitmask_order(entries) - 2) << 12);
839 /* Now enable the unit */
840 setbits32(&priv->msg_regs->imr, 0x1);
847 * rio_close_inb_mbox - Shut down MPC85xx inbound mailbox
848 * @mport: Master port implementing the inbound message unit
849 * @mbox: Mailbox to close
851 * Disables the inbound message unit, free all buffers, and
852 * frees the inbound message interrupt.
854 void rio_close_inb_mbox(struct rio_mport *mport, int mbox)
856 struct rio_priv *priv = mport->priv;
857 /* Disable inbound message unit */
858 out_be32(&priv->msg_regs->imr, 0);
861 dma_free_coherent(priv->dev, priv->msg_rx_ring.size * RIO_MAX_MSG_SIZE,
862 priv->msg_rx_ring.virt, priv->msg_rx_ring.phys);
865 free_irq(IRQ_RIO_RX(mport), (void *)mport);
869 * rio_hw_add_inb_buffer - Add buffer to the MPC85xx inbound message queue
870 * @mport: Master port implementing the inbound message unit
871 * @mbox: Inbound mailbox number
872 * @buf: Buffer to add to inbound queue
874 * Adds the @buf buffer to the MPC85xx inbound message queue. Returns
875 * %0 on success or %-EINVAL on failure.
877 int rio_hw_add_inb_buffer(struct rio_mport *mport, int mbox, void *buf)
880 struct rio_priv *priv = mport->priv;
882 pr_debug("RIO: rio_hw_add_inb_buffer(), msg_rx_ring.rx_slot %d\n",
883 priv->msg_rx_ring.rx_slot);
885 if (priv->msg_rx_ring.virt_buffer[priv->msg_rx_ring.rx_slot]) {
887 "RIO: error adding inbound buffer %d, buffer exists\n",
888 priv->msg_rx_ring.rx_slot);
893 priv->msg_rx_ring.virt_buffer[priv->msg_rx_ring.rx_slot] = buf;
894 if (++priv->msg_rx_ring.rx_slot == priv->msg_rx_ring.size)
895 priv->msg_rx_ring.rx_slot = 0;
901 EXPORT_SYMBOL_GPL(rio_hw_add_inb_buffer);
904 * rio_hw_get_inb_message - Fetch inbound message from the MPC85xx message unit
905 * @mport: Master port implementing the inbound message unit
906 * @mbox: Inbound mailbox number
908 * Gets the next available inbound message from the inbound message queue.
909 * A pointer to the message is returned on success or NULL on failure.
911 void *rio_hw_get_inb_message(struct rio_mport *mport, int mbox)
913 struct rio_priv *priv = mport->priv;
914 u32 phys_buf, virt_buf;
918 phys_buf = in_be32(&priv->msg_regs->ifqdpar);
920 /* If no more messages, then bail out */
921 if (phys_buf == in_be32(&priv->msg_regs->ifqepar))
924 virt_buf = (u32) priv->msg_rx_ring.virt + (phys_buf
925 - priv->msg_rx_ring.phys);
926 buf_idx = (phys_buf - priv->msg_rx_ring.phys) / RIO_MAX_MSG_SIZE;
927 buf = priv->msg_rx_ring.virt_buffer[buf_idx];
931 "RIO: inbound message copy failed, no buffers\n");
935 /* Copy max message size, caller is expected to allocate that big */
936 memcpy(buf, (void *)virt_buf, RIO_MAX_MSG_SIZE);
938 /* Clear the available buffer */
939 priv->msg_rx_ring.virt_buffer[buf_idx] = NULL;
942 setbits32(&priv->msg_regs->imr, RIO_MSG_IMR_MI);
948 EXPORT_SYMBOL_GPL(rio_hw_get_inb_message);
951 * fsl_rio_dbell_handler - MPC85xx doorbell interrupt handler
952 * @irq: Linux interrupt number
953 * @dev_instance: Pointer to interrupt-specific data
955 * Handles doorbell interrupts. Parses a list of registered
956 * doorbell event handlers and executes a matching event handler.
959 fsl_rio_dbell_handler(int irq, void *dev_instance)
962 struct rio_mport *port = (struct rio_mport *)dev_instance;
963 struct rio_priv *priv = port->priv;
965 dsr = in_be32(&priv->msg_regs->dsr);
967 if (dsr & DOORBELL_DSR_TE) {
968 pr_info("RIO: doorbell reception error\n");
969 out_be32(&priv->msg_regs->dsr, DOORBELL_DSR_TE);
973 if (dsr & DOORBELL_DSR_QFI) {
974 pr_info("RIO: doorbell queue full\n");
975 out_be32(&priv->msg_regs->dsr, DOORBELL_DSR_QFI);
979 /* XXX Need to check/dispatch until queue empty */
980 if (dsr & DOORBELL_DSR_DIQI) {
982 (u32) priv->dbell_ring.virt +
983 (in_be32(&priv->msg_regs->dqdpar) & 0xfff);
984 struct rio_dbell *dbell;
988 ("RIO: processing doorbell, sid %2.2x tid %2.2x info %4.4x\n",
989 DBELL_SID(dmsg), DBELL_TID(dmsg), DBELL_INF(dmsg));
991 list_for_each_entry(dbell, &port->dbells, node) {
992 if ((dbell->res->start <= DBELL_INF(dmsg)) &&
993 (dbell->res->end >= DBELL_INF(dmsg))) {
999 dbell->dinb(port, dbell->dev_id, DBELL_SID(dmsg), DBELL_TID(dmsg),
1003 ("RIO: spurious doorbell, sid %2.2x tid %2.2x info %4.4x\n",
1004 DBELL_SID(dmsg), DBELL_TID(dmsg), DBELL_INF(dmsg));
1006 setbits32(&priv->msg_regs->dmr, DOORBELL_DMR_DI);
1007 out_be32(&priv->msg_regs->dsr, DOORBELL_DSR_DIQI);
1015 * fsl_rio_doorbell_init - MPC85xx doorbell interface init
1016 * @mport: Master port implementing the inbound doorbell unit
1018 * Initializes doorbell unit hardware and inbound DMA buffer
1019 * ring. Called from fsl_rio_setup(). Returns %0 on success
1020 * or %-ENOMEM on failure.
1022 static int fsl_rio_doorbell_init(struct rio_mport *mport)
1024 struct rio_priv *priv = mport->priv;
1027 /* Map outbound doorbell window immediately after maintenance window */
1028 priv->dbell_win = ioremap(mport->iores.start + RIO_MAINT_WIN_SIZE,
1029 RIO_DBELL_WIN_SIZE);
1030 if (!priv->dbell_win) {
1032 "RIO: unable to map outbound doorbell window\n");
1037 /* Initialize inbound doorbells */
1038 priv->dbell_ring.virt = dma_alloc_coherent(priv->dev, 512 *
1039 DOORBELL_MESSAGE_SIZE, &priv->dbell_ring.phys, GFP_KERNEL);
1040 if (!priv->dbell_ring.virt) {
1041 printk(KERN_ERR "RIO: unable allocate inbound doorbell ring\n");
1043 iounmap(priv->dbell_win);
1047 /* Point dequeue/enqueue pointers at first entry in ring */
1048 out_be32(&priv->msg_regs->dqdpar, (u32) priv->dbell_ring.phys);
1049 out_be32(&priv->msg_regs->dqepar, (u32) priv->dbell_ring.phys);
1051 /* Clear interrupt status */
1052 out_be32(&priv->msg_regs->dsr, 0x00000091);
1054 /* Hook up doorbell handler */
1055 rc = request_irq(IRQ_RIO_BELL(mport), fsl_rio_dbell_handler, 0,
1056 "dbell_rx", (void *)mport);
1058 iounmap(priv->dbell_win);
1059 dma_free_coherent(priv->dev, 512 * DOORBELL_MESSAGE_SIZE,
1060 priv->dbell_ring.virt, priv->dbell_ring.phys);
1062 "MPC85xx RIO: unable to request inbound doorbell irq");
1066 /* Configure doorbells for snooping, 512 entries, and enable */
1067 out_be32(&priv->msg_regs->dmr, 0x00108161);
1074 * fsl_rio_port_write_handler - MPC85xx port write interrupt handler
1075 * @irq: Linux interrupt number
1076 * @dev_instance: Pointer to interrupt-specific data
1078 * Handles port write interrupts. Parses a list of registered
1079 * port write event handlers and executes a matching event handler.
1082 fsl_rio_port_write_handler(int irq, void *dev_instance)
1085 struct rio_mport *port = (struct rio_mport *)dev_instance;
1086 struct rio_priv *priv = port->priv;
1089 epwisr = in_be32(priv->regs_win + RIO_EPWISR);
1090 if (!(epwisr & RIO_EPWISR_PW))
1093 ipwmr = in_be32(&priv->msg_regs->pwmr);
1094 ipwsr = in_be32(&priv->msg_regs->pwsr);
1097 pr_debug("PW Int->IPWMR: 0x%08x IPWSR: 0x%08x (", ipwmr, ipwsr);
1098 if (ipwsr & RIO_IPWSR_QF)
1100 if (ipwsr & RIO_IPWSR_TE)
1102 if (ipwsr & RIO_IPWSR_QFI)
1104 if (ipwsr & RIO_IPWSR_PWD)
1106 if (ipwsr & RIO_IPWSR_PWB)
1110 /* Schedule deferred processing if PW was received */
1111 if (ipwsr & RIO_IPWSR_QFI) {
1112 /* Save PW message (if there is room in FIFO),
1113 * otherwise discard it.
1115 if (kfifo_avail(&priv->pw_fifo) >= RIO_PW_MSG_SIZE) {
1116 priv->port_write_msg.msg_count++;
1117 kfifo_in(&priv->pw_fifo, priv->port_write_msg.virt,
1120 priv->port_write_msg.discard_count++;
1121 pr_debug("RIO: ISR Discarded Port-Write Msg(s) (%d)\n",
1122 priv->port_write_msg.discard_count);
1124 /* Clear interrupt and issue Clear Queue command. This allows
1125 * another port-write to be received.
1127 out_be32(&priv->msg_regs->pwsr, RIO_IPWSR_QFI);
1128 out_be32(&priv->msg_regs->pwmr, ipwmr | RIO_IPWMR_CQ);
1130 schedule_work(&priv->pw_work);
1133 if ((ipwmr & RIO_IPWMR_EIE) && (ipwsr & RIO_IPWSR_TE)) {
1134 priv->port_write_msg.err_count++;
1135 pr_debug("RIO: Port-Write Transaction Err (%d)\n",
1136 priv->port_write_msg.err_count);
1137 /* Clear Transaction Error: port-write controller should be
1138 * disabled when clearing this error
1140 out_be32(&priv->msg_regs->pwmr, ipwmr & ~RIO_IPWMR_PWE);
1141 out_be32(&priv->msg_regs->pwsr, RIO_IPWSR_TE);
1142 out_be32(&priv->msg_regs->pwmr, ipwmr);
1145 if (ipwsr & RIO_IPWSR_PWD) {
1146 priv->port_write_msg.discard_count++;
1147 pr_debug("RIO: Port Discarded Port-Write Msg(s) (%d)\n",
1148 priv->port_write_msg.discard_count);
1149 out_be32(&priv->msg_regs->pwsr, RIO_IPWSR_PWD);
1153 if (epwisr & RIO_EPWISR_PINT) {
1154 tmp = in_be32(priv->regs_win + RIO_LTLEDCSR);
1155 pr_debug("RIO_LTLEDCSR = 0x%x\n", tmp);
1156 out_be32(priv->regs_win + RIO_LTLEDCSR, 0);
1162 static void fsl_pw_dpc(struct work_struct *work)
1164 struct rio_priv *priv = container_of(work, struct rio_priv, pw_work);
1165 unsigned long flags;
1166 u32 msg_buffer[RIO_PW_MSG_SIZE/sizeof(u32)];
1169 * Process port-write messages
1171 spin_lock_irqsave(&priv->pw_fifo_lock, flags);
1172 while (kfifo_out(&priv->pw_fifo, (unsigned char *)msg_buffer,
1174 /* Process one message */
1175 spin_unlock_irqrestore(&priv->pw_fifo_lock, flags);
1179 pr_debug("%s : Port-Write Message:", __func__);
1180 for (i = 0; i < RIO_PW_MSG_SIZE/sizeof(u32); i++) {
1182 pr_debug("\n0x%02x: 0x%08x", i*4,
1185 pr_debug(" 0x%08x", msg_buffer[i]);
1190 /* Pass the port-write message to RIO core for processing */
1191 rio_inb_pwrite_handler((union rio_pw_msg *)msg_buffer);
1192 spin_lock_irqsave(&priv->pw_fifo_lock, flags);
1194 spin_unlock_irqrestore(&priv->pw_fifo_lock, flags);
1198 * fsl_rio_pw_enable - enable/disable port-write interface init
1199 * @mport: Master port implementing the port write unit
1200 * @enable: 1=enable; 0=disable port-write message handling
1202 static int fsl_rio_pw_enable(struct rio_mport *mport, int enable)
1204 struct rio_priv *priv = mport->priv;
1207 rval = in_be32(&priv->msg_regs->pwmr);
1210 rval |= RIO_IPWMR_PWE;
1212 rval &= ~RIO_IPWMR_PWE;
1214 out_be32(&priv->msg_regs->pwmr, rval);
1220 * fsl_rio_port_write_init - MPC85xx port write interface init
1221 * @mport: Master port implementing the port write unit
1223 * Initializes port write unit hardware and DMA buffer
1224 * ring. Called from fsl_rio_setup(). Returns %0 on success
1225 * or %-ENOMEM on failure.
1227 static int fsl_rio_port_write_init(struct rio_mport *mport)
1229 struct rio_priv *priv = mport->priv;
1232 /* Following configurations require a disabled port write controller */
1233 out_be32(&priv->msg_regs->pwmr,
1234 in_be32(&priv->msg_regs->pwmr) & ~RIO_IPWMR_PWE);
1236 /* Initialize port write */
1237 priv->port_write_msg.virt = dma_alloc_coherent(priv->dev,
1239 &priv->port_write_msg.phys, GFP_KERNEL);
1240 if (!priv->port_write_msg.virt) {
1241 pr_err("RIO: unable allocate port write queue\n");
1245 priv->port_write_msg.err_count = 0;
1246 priv->port_write_msg.discard_count = 0;
1248 /* Point dequeue/enqueue pointers at first entry */
1249 out_be32(&priv->msg_regs->epwqbar, 0);
1250 out_be32(&priv->msg_regs->pwqbar, (u32) priv->port_write_msg.phys);
1252 pr_debug("EIPWQBAR: 0x%08x IPWQBAR: 0x%08x\n",
1253 in_be32(&priv->msg_regs->epwqbar),
1254 in_be32(&priv->msg_regs->pwqbar));
1256 /* Clear interrupt status IPWSR */
1257 out_be32(&priv->msg_regs->pwsr,
1258 (RIO_IPWSR_TE | RIO_IPWSR_QFI | RIO_IPWSR_PWD));
1260 /* Configure port write contoller for snooping enable all reporting,
1262 out_be32(&priv->msg_regs->pwmr,
1263 RIO_IPWMR_SEN | RIO_IPWMR_QFIE | RIO_IPWMR_EIE | RIO_IPWMR_CQ);
1266 /* Hook up port-write handler */
1267 rc = request_irq(IRQ_RIO_PW(mport), fsl_rio_port_write_handler, 0,
1268 "port-write", (void *)mport);
1270 pr_err("MPC85xx RIO: unable to request inbound doorbell irq");
1274 INIT_WORK(&priv->pw_work, fsl_pw_dpc);
1275 spin_lock_init(&priv->pw_fifo_lock);
1276 if (kfifo_alloc(&priv->pw_fifo, RIO_PW_MSG_SIZE * 32, GFP_KERNEL)) {
1277 pr_err("FIFO allocation failed\n");
1282 pr_debug("IPWMR: 0x%08x IPWSR: 0x%08x\n",
1283 in_be32(&priv->msg_regs->pwmr),
1284 in_be32(&priv->msg_regs->pwsr));
1289 free_irq(IRQ_RIO_PW(mport), (void *)mport);
1291 dma_free_coherent(priv->dev, RIO_PW_MSG_SIZE,
1292 priv->port_write_msg.virt,
1293 priv->port_write_msg.phys);
1297 static char *cmdline = NULL;
1299 static int fsl_rio_get_hdid(int index)
1301 /* XXX Need to parse multiple entries in some format */
1305 return simple_strtol(cmdline, NULL, 0);
1308 static int fsl_rio_get_cmdline(char *s)
1317 __setup("riohdid=", fsl_rio_get_cmdline);
1319 static inline void fsl_rio_info(struct device *dev, u32 ccsr)
1324 switch (ccsr >> 30) {
1335 dev_info(dev, "Hardware port width: %s\n", str);
1337 switch ((ccsr >> 27) & 7) {
1339 str = "Single-lane 0";
1342 str = "Single-lane 2";
1351 dev_info(dev, "Training connection status: %s\n", str);
1354 if (!(ccsr & 0x80000000))
1355 dev_info(dev, "Output port operating in 8-bit mode\n");
1356 if (!(ccsr & 0x08000000))
1357 dev_info(dev, "Input port operating in 8-bit mode\n");
1362 * fsl_rio_setup - Setup Freescale PowerPC RapidIO interface
1363 * @dev: platform_device pointer
1365 * Initializes MPC85xx RapidIO hardware interface, configures
1366 * master port with system-specific info, and registers the
1367 * master port with the RapidIO subsystem.
1369 int fsl_rio_setup(struct platform_device *dev)
1371 struct rio_ops *ops;
1372 struct rio_mport *port;
1373 struct rio_priv *priv;
1375 const u32 *dt_range, *cell;
1376 struct resource regs;
1379 u64 law_start, law_size;
1382 if (!dev->dev.of_node) {
1383 dev_err(&dev->dev, "Device OF-Node is NULL");
1387 rc = of_address_to_resource(dev->dev.of_node, 0, ®s);
1389 dev_err(&dev->dev, "Can't get %s property 'reg'\n",
1390 dev->dev.of_node->full_name);
1393 dev_info(&dev->dev, "Of-device full name %s\n", dev->dev.of_node->full_name);
1394 dev_info(&dev->dev, "Regs: %pR\n", ®s);
1396 dt_range = of_get_property(dev->dev.of_node, "ranges", &rlen);
1398 dev_err(&dev->dev, "Can't get %s property 'ranges'\n",
1399 dev->dev.of_node->full_name);
1403 /* Get node address wide */
1404 cell = of_get_property(dev->dev.of_node, "#address-cells", NULL);
1408 aw = of_n_addr_cells(dev->dev.of_node);
1409 /* Get node size wide */
1410 cell = of_get_property(dev->dev.of_node, "#size-cells", NULL);
1414 sw = of_n_size_cells(dev->dev.of_node);
1415 /* Get parent address wide wide */
1416 paw = of_n_addr_cells(dev->dev.of_node);
1418 law_start = of_read_number(dt_range + aw, paw);
1419 law_size = of_read_number(dt_range + aw + paw, sw);
1421 dev_info(&dev->dev, "LAW start 0x%016llx, size 0x%016llx.\n",
1422 law_start, law_size);
1424 ops = kzalloc(sizeof(struct rio_ops), GFP_KERNEL);
1429 ops->lcread = fsl_local_config_read;
1430 ops->lcwrite = fsl_local_config_write;
1431 ops->cread = fsl_rio_config_read;
1432 ops->cwrite = fsl_rio_config_write;
1433 ops->dsend = fsl_rio_doorbell_send;
1434 ops->pwenable = fsl_rio_pw_enable;
1436 port = kzalloc(sizeof(struct rio_mport), GFP_KERNEL);
1444 priv = kzalloc(sizeof(struct rio_priv), GFP_KERNEL);
1446 printk(KERN_ERR "Can't alloc memory for 'priv'\n");
1451 INIT_LIST_HEAD(&port->dbells);
1452 port->iores.start = law_start;
1453 port->iores.end = law_start + law_size - 1;
1454 port->iores.flags = IORESOURCE_MEM;
1455 port->iores.name = "rio_io_win";
1457 priv->pwirq = irq_of_parse_and_map(dev->dev.of_node, 0);
1458 priv->bellirq = irq_of_parse_and_map(dev->dev.of_node, 2);
1459 priv->txirq = irq_of_parse_and_map(dev->dev.of_node, 3);
1460 priv->rxirq = irq_of_parse_and_map(dev->dev.of_node, 4);
1461 dev_info(&dev->dev, "pwirq: %d, bellirq: %d, txirq: %d, rxirq %d\n",
1462 priv->pwirq, priv->bellirq, priv->txirq, priv->rxirq);
1464 rio_init_dbell_res(&port->riores[RIO_DOORBELL_RESOURCE], 0, 0xffff);
1465 rio_init_mbox_res(&port->riores[RIO_INB_MBOX_RESOURCE], 0, 0);
1466 rio_init_mbox_res(&port->riores[RIO_OUTB_MBOX_RESOURCE], 0, 0);
1467 strcpy(port->name, "RIO0 mport");
1469 priv->dev = &dev->dev;
1472 port->host_deviceid = fsl_rio_get_hdid(port->id);
1475 port->phys_efptr = 0x100;
1476 rio_register_mport(port);
1478 priv->regs_win = ioremap(regs.start, regs.end - regs.start + 1);
1479 rio_regs_win = priv->regs_win;
1481 /* Probe the master port phy type */
1482 ccsr = in_be32(priv->regs_win + RIO_CCSR);
1483 port->phy_type = (ccsr & 1) ? RIO_PHY_SERIAL : RIO_PHY_PARALLEL;
1484 dev_info(&dev->dev, "RapidIO PHY type: %s\n",
1485 (port->phy_type == RIO_PHY_PARALLEL) ? "parallel" :
1486 ((port->phy_type == RIO_PHY_SERIAL) ? "serial" :
1488 /* Checking the port training status */
1489 if (in_be32((priv->regs_win + RIO_ESCSR)) & 1) {
1490 dev_err(&dev->dev, "Port is not ready. "
1491 "Try to restart connection...\n");
1492 switch (port->phy_type) {
1493 case RIO_PHY_SERIAL:
1495 out_be32(priv->regs_win + RIO_CCSR, 0);
1497 setbits32(priv->regs_win + RIO_CCSR, 0x02000000);
1499 setbits32(priv->regs_win + RIO_CCSR, 0x00600000);
1501 case RIO_PHY_PARALLEL:
1503 out_be32(priv->regs_win + RIO_CCSR, 0x22000000);
1505 out_be32(priv->regs_win + RIO_CCSR, 0x44000000);
1509 if (in_be32((priv->regs_win + RIO_ESCSR)) & 1) {
1510 dev_err(&dev->dev, "Port restart failed.\n");
1514 dev_info(&dev->dev, "Port restart success!\n");
1516 fsl_rio_info(&dev->dev, ccsr);
1518 port->sys_size = (in_be32((priv->regs_win + RIO_PEF_CAR))
1519 & RIO_PEF_CTLS) >> 4;
1520 dev_info(&dev->dev, "RapidIO Common Transport System size: %d\n",
1521 port->sys_size ? 65536 : 256);
1523 if (port->host_deviceid >= 0)
1524 out_be32(priv->regs_win + RIO_GCCSR, RIO_PORT_GEN_HOST |
1525 RIO_PORT_GEN_MASTER | RIO_PORT_GEN_DISCOVERED);
1527 out_be32(priv->regs_win + RIO_GCCSR, 0x00000000);
1529 priv->atmu_regs = (struct rio_atmu_regs *)(priv->regs_win
1530 + RIO_ATMU_REGS_OFFSET);
1531 priv->maint_atmu_regs = priv->atmu_regs + 1;
1532 priv->dbell_atmu_regs = priv->atmu_regs + 2;
1533 priv->msg_regs = (struct rio_msg_regs *)(priv->regs_win +
1534 ((port->phy_type == RIO_PHY_SERIAL) ?
1535 RIO_S_MSG_REGS_OFFSET : RIO_P_MSG_REGS_OFFSET));
1537 /* Set to receive any dist ID for serial RapidIO controller. */
1538 if (port->phy_type == RIO_PHY_SERIAL)
1539 out_be32((priv->regs_win + RIO_ISR_AACR), RIO_ISR_AACR_AA);
1541 /* Configure maintenance transaction window */
1542 out_be32(&priv->maint_atmu_regs->rowbar, law_start >> 12);
1543 out_be32(&priv->maint_atmu_regs->rowar,
1544 0x80077000 | (ilog2(RIO_MAINT_WIN_SIZE) - 1));
1546 priv->maint_win = ioremap(law_start, RIO_MAINT_WIN_SIZE);
1548 /* Configure outbound doorbell window */
1549 out_be32(&priv->dbell_atmu_regs->rowbar,
1550 (law_start + RIO_MAINT_WIN_SIZE) >> 12);
1551 out_be32(&priv->dbell_atmu_regs->rowar, 0x8004200b); /* 4k */
1552 fsl_rio_doorbell_init(port);
1553 fsl_rio_port_write_init(port);
1556 saved_mcheck_exception = ppc_md.machine_check_exception;
1557 ppc_md.machine_check_exception = fsl_rio_mcheck_exception;
1559 /* Ensure that RFXE is set */
1560 mtspr(SPRN_HID1, (mfspr(SPRN_HID1) | 0x20000));
1564 iounmap(priv->regs_win);
1574 /* The probe function for RapidIO peer-to-peer network.
1576 static int __devinit fsl_of_rio_rpn_probe(struct platform_device *dev,
1577 const struct of_device_id *match)
1580 printk(KERN_INFO "Setting up RapidIO peer-to-peer network %s\n",
1581 dev->dev.of_node->full_name);
1583 rc = fsl_rio_setup(dev);
1587 /* Enumerate all registered ports */
1588 rc = rio_init_mports();
1593 static const struct of_device_id fsl_of_rio_rpn_ids[] = {
1595 .compatible = "fsl,rapidio-delta",
1600 static struct of_platform_driver fsl_of_rio_rpn_driver = {
1602 .name = "fsl-of-rio",
1603 .owner = THIS_MODULE,
1604 .of_match_table = fsl_of_rio_rpn_ids,
1606 .probe = fsl_of_rio_rpn_probe,
1609 static __init int fsl_of_rio_rpn_init(void)
1611 return of_register_platform_driver(&fsl_of_rio_rpn_driver);
1614 subsys_initcall(fsl_of_rio_rpn_init);