[PATCH] Xilinx SystemACE device driver
Robertson, Joseph M.
joseph.robertson at sanmina-sci.com
Sat Jul 14 02:04:19 EST 2007
Hi,
Ok, so outlook is a problem. The horror is that, where I work thats all I can use. They block all the outside systems like gmail, yahoo, etc. So under linux, I have to use the web access for outlook. ugh.
Why I work here I don't know, they think all software HAS to be bought.
Um, so your patch creates another xsysace.c file, all by itself, which is a NEW driver?
This replaces the 8 files of the previous driver? What happens to all the low level funcs?
Where can I get your 2.6.22 tree to see how this is all supposed to go together? Is there a tar.bz2 package?
Thanks for your patience.
Joe Robertson
x8259
Joseph.Robertson at sanmina-sci.com
-----Original Message-----
From: glikely at secretlab.ca on behalf of Grant Likely
Sent: Fri 7/13/2007 10:41 AM
To: Robertson, Joseph M.; Linux PPC Linux PPC
Subject: Re: [PATCH] Xilinx SystemACE device driver
On 7/13/07, Robertson, Joseph M. <joseph.robertson at sanmina-sci.com> wrote:
>
>
>
> Hi,
>
> I apologize if I am just being dense, but cannot get this patch to work.
BTW, please make sure you CC the mailing list when asking questions.
That way more people than just me can offer answers.
You will probably get conflicts when applying the patch which you need
to fixup, but the conflicts should be limited to Kconfig and Makefile.
> I get the same problem.
> What command do you use to apply the patch? patch -p1 < filename
> I put file in kernel root and change b/drivers/block/xsysace.c ->
> b/drivers/block/xilinx_sysace/xsysace.c (the 'old'
> location?)
Yes, 'patch -p1 < file' is the correct command. Make sure you start
at the top of the Linux kernel source tree. Also make sure that you
are using the raw email that I sent you. Do *NOT* try to copy and
paste from your mail client. It will not work. Outlook is
particularly bad for working with patches, so if you can change mail
clients, or start using a gmail account, your life will get easier.
> I thought I had a too old version of patch, but its actually later than the
> gnu website(2.5.4), I have 2.5.9
The patch format is *very* stable. This is certainly not your problem.
>
> Can you post the complete file for xsysace v1.01a somewhere?
> Or tell me, does the xsysace.c code completely replace the previous
> xsysace.c file?
The new driver is a 100% rewrite. In fact, the old and new drivers
can coexist side-by-side. The new driver is fully contained in a
single source file (xsysace.c).
>
> Or perhaps point out what xsysace bug we need to fix?
I have no idea. I cannot say without trying to reproduce the problem,
and 2.6.17 is far to old for me to want to twiddle with.
What xilinx devices are you using? TEMAC, SystemACE I know. Any others?
>
> Thanks a lot. I hope to be able to contribute one day.
:-)
>
> Joe Robertson
> x8259
> Joseph.Robertson at sanmina-sci.com
>
>
>
> -----Original Message-----
> From: Grant Likely [mailto:grant.likely at secretlab.ca]
> Sent: Thu 7/12/2007 5:51 PM
> To: Robertson at secretlab.ca; Robertson, Joseph M.
> Subject: [PATCH] Xilinx SystemACE device driver
>
> From: Grant Likely <grant.likely at secretlab.ca>
>
> Add support for block device access to the Xilinx SystemACE Compact
> flash interface
>
> Signed-off-by: Grant Likely <grant.likely at secretlab.ca>
> ---
>
> drivers/block/Kconfig | 6
> drivers/block/Makefile | 1
> drivers/block/xsysace.c | 1167
> +++++++++++++++++++++++++++++++++++++++++++++++
> 3 files changed, 1174 insertions(+), 0 deletions(-)
>
> diff --git a/drivers/block/Kconfig b/drivers/block/Kconfig
> index b4c8319..184b30d 100644
> --- a/drivers/block/Kconfig
> +++ b/drivers/block/Kconfig
> @@ -453,6 +453,12 @@ config ATA_OVER_ETH
>
> source "drivers/s390/block/Kconfig"
>
> +config XILINX_SYSACE
> + tristate "Xilinx SystemACE support"
> + depends on 4xx
> + help
> + Include support for the Xilinx SystemACE CompactFlash interface
> +
> endmenu
>
> endif
> diff --git a/drivers/block/Makefile b/drivers/block/Makefile
> index dd88e33..31ea323 100644
> --- a/drivers/block/Makefile
> +++ b/drivers/block/Makefile
> @@ -28,4 +28,5 @@ obj-$(CONFIG_BLK_DEV_CRYPTOLOOP) +=
> cryptoloop.o
> obj-$(CONFIG_VIODASD) += viodasd.o
> obj-$(CONFIG_BLK_DEV_SX8) += sx8.o
> obj-$(CONFIG_BLK_DEV_UB) += ub.o
> +obj-$(CONFIG_XILINX_SYSACE) += xsysace.o
>
> diff --git a/drivers/block/xsysace.c b/drivers/block/xsysace.c
> new file mode 100644
> index 0000000..f8602e6
> --- /dev/null
> +++ b/drivers/block/xsysace.c
> @@ -0,0 +1,1167 @@
> +/*
> + * Xilinx SystemACE device driver
> + *
> + * Copyright 2007 Secret Lab Technologies Ltd.
> + *
> + * This program is free software; you can redistribute it and/or modify it
> + * under the terms of the GNU General Public License version 2 as
> published
> + * by the Free Software Foundation.
> + */
> +
> +/*
> + * The SystemACE chip is designed to configure FPGAs by loading an FPGA
> + * bitstream from a file on a CF card and squirting it into FPGAs
> connected
> + * to the SystemACE JTAG chain. It also has the advantage of providing an
> + * MPU interface which can be used to control the FPGA configuration
> process
> + * and to use the attached CF card for general purpose storage.
> + *
> + * This driver is a block device driver for the SystemACE.
> + *
> + * Initialization:
> + * The driver registers itself as a platform_device driver at module
> + * load time. The platform bus will take care of calling the
> + * ace_probe() method for all SystemACE instances in the system. Any
> + * number of SystemACE instances are supported. ace_probe() calls
> + * ace_setup() which initialized all data structures, reads the CF
> + * id structure and registers the device.
> + *
> + * Processing:
> + * Just about all of the heavy lifting in this driver is performed by
> + * a Finite State Machine (FSM). The driver needs to wait on a number
> + * of events; some raised by interrupts, some which need to be polled
> + * for. Describing all of the behaviour in a FSM seems to be the
> + * easiest way to keep the complexity low and make it easy to
> + * understand what the driver is doing. If the block ops or the
> + * request function need to interact with the hardware, then they
> + * simply need to flag the request and kick of FSM processing.
> + *
> + * The FSM itself is atomic-safe code which can be run from any
> + * context. The general process flow is:
> + * 1. obtain the ace->lock spinlock.
> + * 2. loop on ace_fsm_dostate() until the ace->fsm_continue flag is
> + * cleared.
> + * 3. release the lock.
> + *
> + * Individual states do not sleep in any way. If a condition needs to
> + * be waited for then the state much clear the fsm_continue flag and
> + * either schedule the FSM to be run again at a later time, or expect
> + * an interrupt to call the FSM when the desired condition is met.
> + *
> + * In normal operation, the FSM is processed at interrupt context
> + * either when the driver's tasklet is scheduled, or when an irq is
> + * raised by the hardware. The tasklet can be scheduled at any time.
> + * The request method in particular schedules the tasklet when a new
> + * request has been indicated by the block layer. Once started, the
> + * FSM proceeds as far as it can processing the request until it
> + * needs on a hardware event. At this point, it must yield execution.
> + *
> + * A state has two options when yielding execution:
> + * 1. ace_fsm_yield()
> + * - Call if need to poll for event.
> + * - clears the fsm_continue flag to exit the processing loop
> + * - reschedules the tasklet to run again as soon as possible
> + * 2. ace_fsm_yieldirq()
> + * - Call if an irq is expected from the HW
> + * - clears the fsm_continue flag to exit the processing loop
> + * - does not reschedule the tasklet so the FSM will not be
> processed
> + * again until an irq is received.
> + * After calling a yield function, the state must return control back
> + * to the FSM main loop.
> + *
> + * Additionally, the driver maintains a kernel timer which can process
> + * the FSM. If the FSM gets stalled, typically due to a missed
> + * interrupt, then the kernel timer will expire and the driver can
> + * continue where it left off.
> + *
> + * To Do:
> + * - Add FPGA configuration control interface.
> + * - Request major number from lanana
> + */
> +
> +#undef DEBUG
> +
> +#include <linux/module.h>
> +#include <linux/ctype.h>
> +#include <linux/init.h>
> +#include <linux/interrupt.h>
> +#include <linux/errno.h>
> +#include <linux/kernel.h>
> +#include <linux/delay.h>
> +#include <linux/slab.h>
> +#include <linux/blkdev.h>
> +#include <linux/hdreg.h>
> +#include <linux/platform_device.h>
> +
> +MODULE_AUTHOR("Grant Likely <grant.likely at secretlab.ca>");
> +MODULE_DESCRIPTION("Xilinx SystemACE device driver");
> +MODULE_LICENSE("GPL");
> +
> +/* SystemACE register definitions */
> +#define ACE_BUSMODE (0x00)
> +
> +#define ACE_STATUS (0x04)
> +#define ACE_STATUS_CFGLOCK (0x00000001)
> +#define ACE_STATUS_MPULOCK (0x00000002)
> +#define ACE_STATUS_CFGERROR (0x00000004) /* config controller error
> */
> +#define ACE_STATUS_CFCERROR (0x00000008) /* CF controller error */
> +#define ACE_STATUS_CFDETECT (0x00000010)
> +#define ACE_STATUS_DATABUFRDY (0x00000020)
> +#define ACE_STATUS_DATABUFMODE (0x00000040)
> +#define ACE_STATUS_CFGDONE (0x00000080)
> +#define ACE_STATUS_RDYFORCFCMD (0x00000100)
> +#define ACE_STATUS_CFGMODEPIN (0x00000200)
> +#define ACE_STATUS_CFGADDR_MASK (0x0000e000)
> +#define ACE_STATUS_CFBSY (0x00020000)
> +#define ACE_STATUS_CFRDY (0x00040000)
> +#define ACE_STATUS_CFDWF (0x00080000)
> +#define ACE_STATUS_CFDSC (0x00100000)
> +#define ACE_STATUS_CFDRQ (0x00200000)
> +#define ACE_STATUS_CFCORR (0x00400000)
> +#define ACE_STATUS_CFERR (0x00800000)
> +
> +#define ACE_ERROR (0x08)
> +#define ACE_CFGLBA (0x0c)
> +#define ACE_MPULBA (0x10)
> +
> +#define ACE_SECCNTCMD (0x14)
> +#define ACE_SECCNTCMD_RESET (0x0100)
> +#define ACE_SECCNTCMD_IDENTIFY (0x0200)
> +#define ACE_SECCNTCMD_READ_DATA (0x0300)
> +#define ACE_SECCNTCMD_WRITE_DATA (0x0400)
> +#define ACE_SECCNTCMD_ABORT (0x0600)
> +
> +#define ACE_VERSION (0x16)
> +#define ACE_VERSION_REVISION_MASK (0x00FF)
> +#define ACE_VERSION_MINOR_MASK (0x0F00)
> +#define ACE_VERSION_MAJOR_MASK (0xF000)
> +
> +#define ACE_CTRL (0x18)
> +#define ACE_CTRL_FORCELOCKREQ (0x0001)
> +#define ACE_CTRL_LOCKREQ (0x0002)
> +#define ACE_CTRL_FORCECFGADDR (0x0004)
> +#define ACE_CTRL_FORCECFGMODE (0x0008)
> +#define ACE_CTRL_CFGMODE (0x0010)
> +#define ACE_CTRL_CFGSTART (0x0020)
> +#define ACE_CTRL_CFGSEL (0x0040)
> +#define ACE_CTRL_CFGRESET (0x0080)
> +#define ACE_CTRL_DATABUFRDYIRQ (0x0100)
> +#define ACE_CTRL_ERRORIRQ (0x0200)
> +#define ACE_CTRL_CFGDONEIRQ (0x0400)
> +#define ACE_CTRL_RESETIRQ (0x0800)
> +#define ACE_CTRL_CFGPROG (0x1000)
> +#define ACE_CTRL_CFGADDR_MASK (0xe000)
> +
> +#define ACE_FATSTAT (0x1c)
> +
> +#define ACE_NUM_MINORS 16
> +#define ACE_SECTOR_SIZE (512)
> +#define ACE_FIFO_SIZE (32)
> +#define ACE_BUF_PER_SECTOR (ACE_SECTOR_SIZE / ACE_FIFO_SIZE)
> +
> +struct ace_reg_ops;
> +
> +struct ace_device {
> + /* driver state data */
> + int id;
> + int media_change;
> + int users;
> + struct list_head list;
> +
> + /* finite state machine data */
> + struct tasklet_struct fsm_tasklet;
> + uint fsm_task; /* Current activity (ACE_TASK_*) */
> + uint fsm_state; /* Current state (ACE_FSM_STATE_*) */
> + uint fsm_continue_flag; /* cleared to exit FSM mainloop */
> + uint fsm_iter_num;
> + struct timer_list stall_timer;
> +
> + /* Transfer state/result, use for both id and block request */
> + struct request *req; /* request being processed */
> + void *data_ptr; /* pointer to I/O buffer */
> + int data_count; /* number of buffers remaining */
> + int data_result; /* Result of transfer; 0 := success */
> +
> + int id_req_count; /* count of id requests */
> + int id_result;
> + struct completion id_completion; /* used when id req
> finishes */
> + int in_irq;
> +
> + /* Details of hardware device */
> + unsigned long physaddr;
> + void *baseaddr;
> + int irq;
> + int bus_width; /* 0 := 8 bit; 1 := 16 bit */
> + struct ace_reg_ops *reg_ops;
> + int lock_count;
> +
> + /* Block device data structures */
> + spinlock_t lock;
> + struct device *dev;
> + struct request_queue *queue;
> + struct gendisk *gd;
> +
> + /* Inserted CF card parameters */
> + struct hd_driveid cf_id;
> +};
> +
> +static int ace_major;
> +
> +/*
> ---------------------------------------------------------------------
> + * Low level register access
> + */
> +
> +struct ace_reg_ops {
> + u16(*in) (struct ace_device * ace, int reg);
> + void (*out) (struct ace_device * ace, int reg, u16 val);
> + void (*datain) (struct ace_device * ace);
> + void (*dataout) (struct ace_device * ace);
> +};
> +
> +/* 8 Bit bus width */
> +static u16 ace_in_8(struct ace_device *ace, int reg)
> +{
> + void *r = ace->baseaddr + reg;
> + return in_8(r) | (in_8(r + 1) << 8);
> +}
> +
> +static void ace_out_8(struct ace_device *ace, int reg, u16 val)
> +{
> + void *r = ace->baseaddr + reg;
> + out_8(r, val);
> + out_8(r + 1, val >> 8);
> +}
> +
> +static void ace_datain_8(struct ace_device *ace)
> +{
> + void *r = ace->baseaddr + 0x40;
> + u8 *dst = ace->data_ptr;
> + int i = ACE_FIFO_SIZE;
> + while (i--)
> + *dst++ = in_8(r++);
> + ace->data_ptr = dst;
> +}
> +
> +static void ace_dataout_8(struct ace_device *ace)
> +{
> + void *r = ace->baseaddr + 0x40;
> + u8 *src = ace->data_ptr;
> + int i = ACE_FIFO_SIZE;
> + while (i--)
> + out_8(r++, *src++);
> + ace->data_ptr = src;
> +}
> +
> +static struct ace_reg_ops ace_reg_8_ops = {
> + .in = ace_in_8,
> + .out = ace_out_8,
> + .datain = ace_datain_8,
> + .dataout = ace_dataout_8,
> +};
> +
> +/* 16 bit big endian bus attachment */
> +static u16 ace_in_be16(struct ace_device *ace, int reg)
> +{
> + return in_be16(ace->baseaddr + reg);
> +}
> +
> +static void ace_out_be16(struct ace_device *ace, int reg, u16 val)
> +{
> + out_be16(ace->baseaddr + reg, val);
> +}
> +
> +static void ace_datain_be16(struct ace_device *ace)
> +{
> + int i = ACE_FIFO_SIZE / 2;
> + u16 *dst = ace->data_ptr;
> + while (i--)
> + *dst++ = in_le16(ace->baseaddr + 0x40);
> + ace->data_ptr = dst;
> +}
> +
> +static void ace_dataout_be16(struct ace_device *ace)
> +{
> + int i = ACE_FIFO_SIZE / 2;
> + u16 *src = ace->data_ptr;
> + while (i--)
> + out_le16(ace->baseaddr + 0x40, *src++);
> + ace->data_ptr = src;
> +}
> +
> +/* 16 bit little endian bus attachment */
> +static u16 ace_in_le16(struct ace_device *ace, int reg)
> +{
> + return in_le16(ace->baseaddr + reg);
> +}
> +
> +static void ace_out_le16(struct ace_device *ace, int reg, u16 val)
> +{
> + out_le16(ace->baseaddr + reg, val);
> +}
> +
> +static void ace_datain_le16(struct ace_device *ace)
> +{
> + int i = ACE_FIFO_SIZE / 2;
> + u16 *dst = ace->data_ptr;
> + while (i--)
> + *dst++ = in_be16(ace->baseaddr + 0x40);
> + ace->data_ptr = dst;
> +}
> +
> +static void ace_dataout_le16(struct ace_device *ace)
> +{
> + int i = ACE_FIFO_SIZE / 2;
> + u16 *src = ace->data_ptr;
> + while (i--)
> + out_be16(ace->baseaddr + 0x40, *src++);
> + ace->data_ptr = src;
> +}
> +
> +static struct ace_reg_ops ace_reg_be16_ops = {
> + .in = ace_in_be16,
> + .out = ace_out_be16,
> + .datain = ace_datain_be16,
> + .dataout = ace_dataout_be16,
> +};
> +
> +static struct ace_reg_ops ace_reg_le16_ops = {
> + .in = ace_in_le16,
> + .out = ace_out_le16,
> + .datain = ace_datain_le16,
> + .dataout = ace_dataout_le16,
> +};
> +
> +static inline u16 ace_in(struct ace_device *ace, int reg)
> +{
> + return ace->reg_ops->in(ace, reg);
> +}
> +
> +static inline u32 ace_in32(struct ace_device *ace, int reg)
> +{
> + return ace_in(ace, reg) | (ace_in(ace, reg + 2) << 16);
> +}
> +
> +static inline void ace_out(struct ace_device *ace, int reg, u16 val)
> +{
> + ace->reg_ops->out(ace, reg, val);
> +}
> +
> +static inline void ace_out32(struct ace_device *ace, int reg, u32 val)
> +{
> + ace_out(ace, reg, val);
> + ace_out(ace, reg + 2, val >> 16);
> +}
> +
> +/*
> ---------------------------------------------------------------------
> + * Debug support functions
> + */
> +
> +#if defined(DEBUG)
> +static void ace_dump_mem(void *base, int len)
> +{
> + const char *ptr = base;
> + int i, j;
> +
> + for (i = 0; i < len; i += 16) {
> + printk(KERN_INFO "%.8x:", i);
> + for (j = 0; j < 16; j++) {
> + if (!(j % 4))
> + printk(" ");
> + printk("%.2x", ptr[i + j]);
> + }
> + printk(" ");
> + for (j = 0; j < 16; j++)
> + printk("%c", isprint(ptr[i + j]) ? ptr[i + j] :
> '.');
> + printk("\n");
> + }
> +}
> +#else
> +static inline void ace_dump_mem(void *base, int len)
> +{
> +}
> +#endif
> +
> +static void ace_dump_regs(struct ace_device *ace)
> +{
> + dev_info(ace->dev, " ctrl: %.8x seccnt/cmd: %.4x
> ver:%.4x\n"
> + " status:%.8x mpu_lba:%.8x busmode:%4x\n"
> + " error: %.8x cfg_lba:%.8x fatstat:%.4x\n",
> + ace_in32(ace, ACE_CTRL),
> + ace_in(ace, ACE_SECCNTCMD),
> + ace_in(ace, ACE_VERSION),
> + ace_in32(ace, ACE_STATUS),
> + ace_in32(ace, ACE_MPULBA),
> + ace_in(ace, ACE_BUSMODE),
> + ace_in32(ace, ACE_ERROR),
> + ace_in32(ace, ACE_CFGLBA), ace_in(ace, ACE_FATSTAT));
> +}
> +
> +void ace_fix_driveid(struct hd_driveid *id)
> +{
> +#if defined(__BIG_ENDIAN)
> + u16 *buf = (void *)id;
> + int i;
> +
> + /* All half words have wrong byte order; swap the bytes */
> + for (i = 0; i < sizeof(struct hd_driveid); i += 2, buf++)
> + *buf = le16_to_cpu(*buf);
> +
> + /* Some of the data values are 32bit; swap the half words */
> + id->lba_capacity = ((id->lba_capacity >> 16) & 0x0000FFFF) |
> + ((id->lba_capacity << 16) & 0xFFFF0000);
> + id->spg = ((id->spg >> 16) & 0x0000FFFF) |
> + ((id->spg << 16) & 0xFFFF0000);
> +#endif
> +}
> +
> +/*
> ---------------------------------------------------------------------
> + * Finite State Machine (FSM) implementation
> + */
> +
> +/* FSM tasks; used to direct state transitions */
> +#define ACE_TASK_IDLE 0
> +#define ACE_TASK_IDENTIFY 1
> +#define ACE_TASK_READ 2
> +#define ACE_TASK_WRITE 3
> +#define ACE_FSM_NUM_TASKS 4
> +
> +/* FSM state definitions */
> +#define ACE_FSM_STATE_IDLE 0
> +#define ACE_FSM_STATE_REQ_LOCK 1
> +#define ACE_FSM_STATE_WAIT_LOCK 2
> +#define ACE_FSM_STATE_WAIT_CFREADY 3
> +#define ACE_FSM_STATE_IDENTIFY_PREPARE 4
> +#define ACE_FSM_STATE_IDENTIFY_TRANSFER 5
> +#define ACE_FSM_STATE_IDENTIFY_COMPLETE 6
> +#define ACE_FSM_STATE_REQ_PREPARE 7
> +#define ACE_FSM_STATE_REQ_TRANSFER 8
> +#define ACE_FSM_STATE_REQ_COMPLETE 9
> +#define ACE_FSM_STATE_ERROR 10
> +#define ACE_FSM_NUM_STATES 11
> +
> +/* Set flag to exit FSM loop and reschedule tasklet */
> +static inline void ace_fsm_yield(struct ace_device *ace)
> +{
> + dev_dbg(ace->dev, "ace_fsm_yield()\n");
> + tasklet_schedule(&ace->fsm_tasklet);
> + ace->fsm_continue_flag = 0;
> +}
> +
> +/* Set flag to exit FSM loop and wait for IRQ to reschedule tasklet */
> +static inline void ace_fsm_yieldirq(struct ace_device *ace)
> +{
> + dev_dbg(ace->dev, "ace_fsm_yieldirq()\n");
> +
> + if (ace->irq == NO_IRQ)
> + /* No IRQ assigned, so need to poll */
> + tasklet_schedule(&ace->fsm_tasklet);
> + ace->fsm_continue_flag = 0;
> +}
> +
> +/* Get the next read/write request; ending requests that we don't handle
> */
> +struct request *ace_get_next_request(request_queue_t * q)
> +{
> + struct request *req;
> +
> + while ((req = elv_next_request(q)) != NULL) {
> + if (blk_fs_request(req))
> + break;
> + end_request(req, 0);
> + }
> + return req;
> +}
> +
> +static void ace_fsm_dostate(struct ace_device *ace)
> +{
> + struct request *req;
> + u32 status;
> + u16 val;
> + int count;
> + int i;
> +
> +#if defined(DEBUG)
> + dev_dbg(ace->dev, "fsm_state=%i, id_req_count=%i\n",
> + ace->fsm_state, ace->id_req_count);
> +#endif
> +
> + switch (ace->fsm_state) {
> + case ACE_FSM_STATE_IDLE:
> + /* See if there is anything to do */
> + if (ace->id_req_count ||
> ace_get_next_request(ace->queue)) {
> + ace->fsm_iter_num++;
> + ace->fsm_state = ACE_FSM_STATE_REQ_LOCK;
> + mod_timer(&ace->stall_timer, jiffies + HZ);
> + if
> (!timer_pending(&ace->stall_timer))
> + add_timer(&ace->stall_timer);
> + break;
> + }
> + del_timer(&ace->stall_timer);
> + ace->fsm_continue_flag = 0;
> + break;
> +
> + case ACE_FSM_STATE_REQ_LOCK:
> + if (ace_in(ace, ACE_STATUS) & ACE_STATUS_MPULOCK) {
> + /* Already have the lock, jump to next state */
> + ace->fsm_state = ACE_FSM_STATE_WAIT_CFREADY;
> + break;
> + }
> +
> + /* Request the lock */
> + val = ace_in(ace, ACE_CTRL);
> + ace_out(ace, ACE_CTRL, val | ACE_CTRL_LOCKREQ);
> + ace->fsm_state = ACE_FSM_STATE_WAIT_LOCK;
> + break;
> +
> + case ACE_FSM_STATE_WAIT_LOCK:
> + if (ace_in(ace, ACE_STATUS) & ACE_STATUS_MPULOCK) {
> + /* got the lock; move to next state */
> + ace->fsm_state = ACE_FSM_STATE_WAIT_CFREADY;
> + break;
> + }
> +
> + /* wait a bit for the lock */
> + ace_fsm_yield(ace);
> + break;
> +
> + case ACE_FSM_STATE_WAIT_CFREADY:
> + status = ace_in32(ace, ACE_STATUS);
> + if (!(status & ACE_STATUS_RDYFORCFCMD) ||
> + (status & ACE_STATUS_CFBSY)) {
> + /* CF card isn't ready; it needs to be polled */
> + ace_fsm_yield(ace);
> + break;
> + }
> +
> + /* Device is ready for command; determine what to do next
> */
> + if (ace->id_req_count)
> + ace->fsm_state = ACE_FSM_STATE_IDENTIFY_PREPARE;
> + else
> + ace->fsm_state = ACE_FSM_STATE_REQ_PREPARE;
> + break;
> +
> + case ACE_FSM_STATE_IDENTIFY_PREPARE:
> + /* Send identify command */
> + ace->fsm_task = ACE_TASK_IDENTIFY;
> + ace->data_ptr = &ace->cf_id;
> + ace->data_count = ACE_BUF_PER_SECTOR;
> + ace_out(ace, ACE_SECCNTCMD, ACE_SECCNTCMD_IDENTIFY);
> +
> + /* As per datasheet, put config controller in reset */
> + val = ace_in(ace, ACE_CTRL);
> + ace_out(ace, ACE_CTRL, val | ACE_CTRL_CFGRESET);
> +
> + /* irq handler takes over from this point; wait for the
> + * transfer to complete */
> + ace->fsm_state =
> ACE_FSM_STATE_IDENTIFY_TRANSFER;
> + ace_fsm_yieldirq(ace);
> + break;
> +
> + case ACE_FSM_STATE_IDENTIFY_TRANSFER:
> + /* Check that the sysace is ready to receive data */
> + status = ace_in32(ace, ACE_STATUS);
> + if (status & ACE_STATUS_CFBSY) {
> + dev_dbg(ace->dev, "CFBSY set; t=%i iter=%i
> dc=%i\n",
> + ace->fsm_task, ace->fsm_iter_num,
> + ace->data_count);
> + ace_fsm_yield(ace);
> + break;
> + }
> + if (!(status & ACE_STATUS_DATABUFRDY)) {
> + ace_fsm_yield(ace);
> + break;
> + }
> +
> + /* Transfer the next buffer */
> + ace->reg_ops->datain(ace);
> + ace->data_count--;
> +
> + /* If there are still buffers to be transfers; jump out
> here */
> + if (ace->data_count != 0) {
> + ace_fsm_yieldirq(ace);
> + break;
> + }
> +
> + /* transfer finished; kick state machine */
> + dev_dbg(ace->dev, "identify finished\n");
> + ace->fsm_state =
> ACE_FSM_STATE_IDENTIFY_COMPLETE;
> + break;
> +
> + case ACE_FSM_STATE_IDENTIFY_COMPLETE:
> + ace_fix_driveid(&ace->cf_id);
> + ace_dump_mem(&ace->cf_id, 512); /* Debug: Dump out disk ID
> */
> +
> + if (ace->data_result) {
> + /* Error occured, disable the disk */
> + ace->media_change = 1;
> + set_capacity(ace->gd, 0);
> + dev_err(ace->dev, "error fetching CF id (%i)\n",
> + ace->data_result);
> + } else {
> + ace->media_change = 0;
> +
> + /* Record disk parameters */
> + set_capacity(ace->gd, ace->cf_id.lba_capacity);
> + dev_info(ace->dev, "capacity: %i sectors\n",
> + ace->cf_id.lba_capacity);
> + }
> +
> + /* We're done, drop to IDLE state and notify waiters */
> + ace->fsm_state = ACE_FSM_STATE_IDLE;
> + ace->id_result = ace->data_result;
> + while (ace->id_req_count) {
> + complete(&ace->id_completion);
> + ace->id_req_count--;
> + }
> + break;
> +
> + case ACE_FSM_STATE_REQ_PREPARE:
> + req = ace_get_next_request(ace->queue);
> + if (!req) {
> + ace->fsm_state = ACE_FSM_STATE_IDLE;
> + break;
> + }
> +
> + /* Okay, it's a data request, set it up for transfer */
> + dev_dbg(ace->dev,
> + "request: sec=%lx hcnt=%lx, ccnt=%x, dir=%i\n",
> + req->sector, req->hard_nr_sectors,
> + req->current_nr_sectors, rq_data_dir(req));
> +
> + ace->req = req;
> + ace->data_ptr = req->buffer;
> + ace->data_count = req->current_nr_sectors *
> ACE_BUF_PER_SECTOR;
> + ace_out32(ace, ACE_MPULBA, req->sector & 0x0FFFFFFF);
> +
> + count = req->hard_nr_sectors;
> + if (rq_data_dir(req)) {
> + /* Kick off write request */
> + dev_dbg(ace->dev, "write data\n");
> + ace->fsm_task = ACE_TASK_WRITE;
> + ace_out(ace, ACE_SECCNTCMD,
> + count | ACE_SECCNTCMD_WRITE_DATA);
> + } else {
> + /* Kick off read request */
> + dev_dbg(ace->dev, "read data\n");
> + ace->fsm_task = ACE_TASK_READ;
> + ace_out(ace, ACE_SECCNTCMD,
> + count | ACE_SECCNTCMD_READ_DATA);
> + }
> +
> + /* As per datasheet, put config controller in reset */
> + val = ace_in(ace, ACE_CTRL);
> + ace_out(ace, ACE_CTRL, val | ACE_CTRL_CFGRESET);
> +
> + /* Move to the transfer state. The systemace will raise
> + * an interrupt once there is something to do
> + */
> + ace->fsm_state = ACE_FSM_STATE_REQ_TRANSFER;
> + if (ace->fsm_task == ACE_TASK_READ)
> + ace_fsm_yieldirq(ace); /* wait for data ready */
> + break;
> +
> + case ACE_FSM_STATE_REQ_TRANSFER:
> + /* Check that the sysace is ready to receive data */
> + status = ace_in32(ace, ACE_STATUS);
> + if (status & ACE_STATUS_CFBSY) {
> + dev_dbg(ace->dev,
> + "CFBSY set; t=%i iter=%i c=%i dc=%i
> irq=%i\n",
> + ace->fsm_task, ace->fsm_iter_num,
> + ace->req->current_nr_sectors * 16,
> + ace->data_count, ace->in_irq);
> + ace_fsm_yield(ace); /* need to poll CFBSY bit
> */
> + break;
> + }
> + if (!(status & ACE_STATUS_DATABUFRDY)) {
> + dev_dbg(ace->dev,
> + "DATABUF not set; t=%i iter=%i c=%i dc=%i
> irq=%i\n",
> + ace->fsm_task, ace->fsm_iter_num,
> + ace->req->current_nr_sectors * 16,
> + ace->data_count, ace->in_irq);
> + ace_fsm_yieldirq(ace);
> + break;
> + }
> +
> + /* Transfer the next buffer */
> + i = 16;
> + if (ace->fsm_task == ACE_TASK_WRITE)
> + ace->reg_ops->dataout(ace);
> + else
> + ace->reg_ops->datain(ace);
> + ace->data_count--;
> +
> + /* If there are still buffers to be transfers; jump out
> here */
> + if (ace->data_count != 0) {
> + ace_fsm_yieldirq(ace);
> + break;
> + }
> +
> + /* bio finished; is there another one? */
> + i = ace->req->current_nr_sectors;
> + if (end_that_request_first(ace->req, 1,
> i)) {
> + /* dev_dbg(ace->dev, "next block; h=%li c=%i\n",
> + * ace->req->hard_nr_sectors,
> + * ace->req->current_nr_sectors);
> + */
> + ace->data_ptr = ace->req->buffer;
> + ace->data_count = ace->req->current_nr_sectors *
> 16;
> + ace_fsm_yieldirq(ace);
> + break;
> + }
> +
> + ace->fsm_state = ACE_FSM_STATE_REQ_COMPLETE;
> + break;
> +
> + case ACE_FSM_STATE_REQ_COMPLETE:
> + /* Complete the block request */
> + blkdev_dequeue_request(ace->req);
> + end_that_request_last(ace->req, 1);
> + ace->req = NULL;
> +
> + /* Finished request; go to idle state */
> + ace->fsm_state = ACE_FSM_STATE_IDLE;
> + break;
> +
> + default:
> + ace->fsm_state = ACE_FSM_STATE_IDLE;
> + break;
> + }
> +}
> +
> +static void ace_fsm_tasklet(unsigned long data)
> +{
> + struct ace_device *ace = (void *)data;
> + unsigned long flags;
> +
> + spin_lock_irqsave(&ace->lock, flags);
> +
> + /* Loop over state machine until told to stop */
> + ace->fsm_continue_flag = 1;
> + while (ace->fsm_continue_flag)
> + ace_fsm_dostate(ace);
> +
> + spin_unlock_irqrestore(&ace->lock, flags);
> +}
> +
> +static void ace_stall_timer(unsigned long data)
> +{
> + struct ace_device *ace = (void *)data;
> + unsigned long flags;
> +
> + dev_warn(ace->dev,
> + "kicking stalled fsm; state=%i task=%i iter=%i dc=%i\n",
> + ace->fsm_state, ace->fsm_task, ace->fsm_iter_num,
> + ace->data_count);
> + spin_lock_irqsave(&ace->lock, flags);
> +
> + /* Rearm the stall timer *before* entering FSM (which may then
> + * delete the timer) */
> + mod_timer(&ace->stall_timer, jiffies + HZ);
> +
> + /* Loop over state machine until told to stop */
> + ace->fsm_continue_flag = 1;
> + while (ace->fsm_continue_flag)
> + ace_fsm_dostate(ace);
> +
> + spin_unlock_irqrestore(&ace->lock, flags);
> +}
> +
> +/*
> ---------------------------------------------------------------------
> + * Interrupt handling routines
> + */
> +static int ace_interrupt_checkstate(struct ace_device *ace)
> +{
> + u32 sreg = ace_in32(ace, ACE_STATUS);
> + u16 creg = ace_in(ace, ACE_CTRL);
> +
> + /* Check for error occurance */
> + if ((sreg & (ACE_STATUS_CFGERROR | ACE_STATUS_CFCERROR)) &&
> + (creg & ACE_CTRL_ERRORIRQ)) {
> + dev_err(ace->dev, "transfer failure\n");
> + ace_dump_regs(ace);
> + return -EIO;
> + }
> +
> + return 0;
> +}
> +
> +static irqreturn_t ace_interrupt(int irq, void *dev_id)
> +{
> + u16 creg;
> + struct ace_device *ace = dev_id;
> +
> + /* be safe and get the lock */
> + spin_lock(&ace->lock);
> + ace->in_irq = 1;
> +
> + /* clear the interrupt */
> + creg = ace_in(ace, ACE_CTRL);
> + ace_out(ace, ACE_CTRL, creg | ACE_CTRL_RESETIRQ);
> + ace_out(ace, ACE_CTRL, creg);
> +
> + /* check for IO failures */
> + if (ace_interrupt_checkstate(ace))
> + ace->data_result = -EIO;
> +
> + if (ace->fsm_task == 0) {
> + dev_err(ace->dev,
> + "spurious irq; stat=%.8x ctrl=%.8x cmd=%.4x\n",
> + ace_in32(ace, ACE_STATUS), ace_in32(ace, ACE_CTRL),
> + ace_in(ace, ACE_SECCNTCMD));
> + dev_err(ace->dev, "fsm_task=%i fsm_state=%i
> data_count=%i\n",
> + ace->fsm_task, ace->fsm_state, ace->data_count);
> + }
> +
> + /* Loop over state machine until told to stop */
> + ace->fsm_continue_flag = 1;
> + while (ace->fsm_continue_flag)
> + ace_fsm_dostate(ace);
> +
> + /* done with interrupt; drop the lock */
> + ace->in_irq = 0;
> + spin_unlock(&ace->lock);
> +
> + return IRQ_HANDLED;
> +}
> +
> +/*
> ---------------------------------------------------------------------
> + * Block ops
> + */
> +static void ace_request(request_queue_t * q)
> +{
> + struct request *req;
> + struct ace_device *ace;
> +
> + req = ace_get_next_request(q);
> +
> + if (req) {
> + ace = req->rq_disk->private_data;
> + tasklet_schedule(&ace->fsm_tasklet);
> + }
> +}
> +
> +static int ace_media_changed(struct gendisk *gd)
> +{
> + struct ace_device *ace = gd->private_data;
> + dev_dbg(ace->dev, "ace_media_changed(): %i\n", ace->media_change);
> +
> + return ace->media_change;
> +}
> +
> +static int ace_revalidate_disk(struct gendisk *gd)
> +{
> + struct ace_device *ace = gd->private_data;
> + unsigned long flags;
> +
> + dev_dbg(ace->dev, "ace_revalidate_disk()\n");
> +
> + if (ace->media_change) {
> + dev_dbg(ace->dev, "requesting cf id and scheduling
> tasklet\n");
> +
> + spin_lock_irqsave(&ace->lock, flags);
> + ace->id_req_count++;
> + spin_unlock_irqrestore(&ace->lock, flags);
> +
> + tasklet_schedule(&ace->fsm_tasklet);
> + wait_for_completion(&ace->id_completion);
> + }
> +
> + dev_dbg(ace->dev, "revalidate complete\n");
> + return ace->id_result;
> +}
> +
> +static int ace_open(struct inode *inode, struct file *filp)
> +{
> + struct ace_device *ace =
> inode->i_bdev->bd_disk->private_data;
> + unsigned long flags;
> +
> + dev_dbg(ace->dev, "ace_open() users=%i\n", ace->users + 1);
> +
> + filp->private_data = ace;
> + spin_lock_irqsave(&ace->lock, flags);
> + ace->users++;
> + spin_unlock_irqrestore(&ace->lock, flags);
> +
> + check_disk_change(inode->i_bdev);
> + return 0;
> +}
> +
> +static int ace_release(struct inode *inode, struct file *filp)
> +{
> + struct ace_device *ace =
> inode->i_bdev->bd_disk->private_data;
> + unsigned long flags;
> + u16 val;
> +
> + dev_dbg(ace->dev, "ace_release() users=%i\n", ace->users - 1);
> +
> + spin_lock_irqsave(&ace->lock, flags);
> + ace->users--;
> + if (ace->users == 0) {
> + val = ace_in(ace, ACE_CTRL);
> + ace_out(ace, ACE_CTRL, val & ~ACE_CTRL_LOCKREQ);
> + }
> + spin_unlock_irqrestore(&ace->lock, flags);
> + return 0;
> +}
> +
> +static int ace_ioctl(struct inode *inode, struct file *filp,
> + unsigned int cmd, unsigned long arg)
> +{
> + struct ace_device *ace =
> inode->i_bdev->bd_disk->private_data;
> + struct hd_geometry __user *geo = (struct hd_geometry __user *)arg;
> + struct hd_geometry g;
> + dev_dbg(ace->dev, "ace_ioctl()\n");
> +
> + switch (cmd) {
> + case HDIO_GETGEO:
> + g.heads = ace->cf_id.heads;
> + g.sectors = ace->cf_id.sectors;
> + g.cylinders = ace->cf_id.cyls;
> + g.start = 0;
> + return copy_to_user(geo, &g, sizeof(g)) ? -EFAULT : 0;
> +
> + default:
> + return -ENOTTY;
> + }
> + return -ENOTTY;
> +}
> +
> +static struct block_device_operations ace_fops = {
> + .owner = THIS_MODULE,
> + .open = ace_open,
> + .release = ace_release,
> + .media_changed = ace_media_changed,
> + .revalidate_disk = ace_revalidate_disk,
> + .ioctl = ace_ioctl,
> +};
> +
> +/*
> --------------------------------------------------------------------
> + * SystemACE device setup/teardown code
> + */
> +static int __devinit ace_setup(struct ace_device *ace)
> +{
> + u16 version;
> + u16 val;
> +
> + int rc;
> +
> + spin_lock_init(&ace->lock);
> + init_completion(&ace->id_completion);
> +
> + /*
> + * Map the device
> + */
> + ace->baseaddr = ioremap(ace->physaddr, 0x80);
> + if (!ace->baseaddr)
> + goto err_ioremap;
> +
> + if (ace->irq != NO_IRQ) {
> + rc = request_irq(ace->irq, ace_interrupt, 0, "systemace",
> ace);
> + if (rc) {
> + /* Failure - fall back to polled mode */
> + dev_err(ace->dev, "request_irq failed\n");
> + ace->irq = NO_IRQ;
> + }
> + }
> +
> + /*
> + * Initialize the state machine tasklet and stall timer
> + */
> + tasklet_init(&ace->fsm_tasklet, ace_fsm_tasklet, (unsigned
> long)ace);
> + setup_timer(&ace->stall_timer, ace_stall_timer, (unsigned
> long)ace);
> +
> + /*
> + * Initialize the request queue
> + */
> + ace->queue = blk_init_queue(ace_request, &ace->lock);
> + if (ace->queue == NULL)
> + goto err_blk_initq;
> + blk_queue_hardsect_size(ace->queue, 512);
> +
> + /*
> + * Allocate and initialize GD structure
> + */
> + ace->gd = alloc_disk(ACE_NUM_MINORS);
> + if (!ace->gd)
> + goto err_alloc_disk;
> +
> + ace->gd->major = ace_major;
> + ace->gd->first_minor = ace->id * ACE_NUM_MINORS;
> + ace->gd->fops = &ace_fops;
> + ace->gd->queue = ace->queue;
> + ace->gd->private_data = ace;
> + snprintf(ace->gd->disk_name, 32, "xs%c", ace->id + 'a');
> + device_rename(ace->dev, ace->gd->disk_name);
> +
> + /* set bus width */
> + if (ace->bus_width == 1) {
> + /* 0x0101 should work regardless of endianess */
> + ace_out_le16(ace, ACE_BUSMODE, 0x0101);
> +
> + /* read it back to determine endianess */
> + if (ace_in_le16(ace, ACE_BUSMODE) == 0x0001)
> + ace->reg_ops = &ace_reg_le16_ops;
> + else
> + ace->reg_ops = &ace_reg_be16_ops;
> + } else {
> + ace_out_8(ace, ACE_BUSMODE, 0x00);
> + ace->reg_ops = &ace_reg_8_ops;
> + }
> +
> + /* Make sure version register is sane */
> + version = ace_in(ace, ACE_VERSION);
> + if ((version == 0) || (version == 0xFFFF))
> + goto err_read;
> +
> + /* Put sysace in a sane state by clearing most control reg bits */
> + ace_out(ace, ACE_CTRL, ACE_CTRL_FORCECFGMODE |
> + ACE_CTRL_DATABUFRDYIRQ | ACE_CTRL_ERRORIRQ);
> +
> + /* Enable interrupts */
> + val = ace_in(ace, ACE_CTRL);
> + val |= ACE_CTRL_DATABUFRDYIRQ | ACE_CTRL_ERRORIRQ;
> + ace_out(ace, ACE_CTRL, val);
> +
> + /* Print the identification */
> + dev_info(ace->dev, "Xilinx SystemACE revision %i.%i.%i\n",
> + (version >> 12) & 0xf, (version >> 8) & 0x0f, version &
> 0xff);
> + dev_dbg(ace->dev, "physaddr 0x%lx, mapped to 0x%p, irq=%i\n",
> + ace->physaddr, ace->baseaddr, ace->irq);
> +
> + ace->media_change = 1;
> + ace_revalidate_disk(ace->gd);
> +
> + /* Make the sysace device 'live' */
> + add_disk(ace->gd);
> +
> + return 0;
> +
> + err_read:
> + put_disk(ace->gd);
> + err_alloc_disk:
> + blk_cleanup_queue(ace->queue);
> + err_blk_initq:
> + iounmap(ace->baseaddr);
> + if (ace->irq != NO_IRQ)
> + free_irq(ace->irq, ace);
> + err_ioremap:
> + printk(KERN_INFO "xsysace: error initializing device at 0x%lx\n",
> + ace->physaddr);
> + return -ENOMEM;
> +}
> +
> +static void __devexit ace_teardown(struct ace_device *ace)
> +{
> + if (ace->gd) {
> + del_gendisk(ace->gd);
> + put_disk(ace->gd);
> + }
> +
> + if (ace->queue)
> + blk_cleanup_queue(ace->queue);
> +
> + tasklet_kill(&ace->fsm_tasklet);
> +
> + if (ace->irq != NO_IRQ)
> + free_irq(ace->irq, ace);
> +
> + iounmap(ace->baseaddr);
> +}
> +
> +/*
> ---------------------------------------------------------------------
> + * Platform Bus Support
> + */
> +
> +static int __devinit ace_probe(struct device *device)
> +{
> + struct platform_device *dev = to_platform_device(device);
> + struct ace_device *ace;
> + int i;
> +
> + dev_dbg(device, "ace_probe(%p)\n", device);
> +
> + /*
> + * Allocate the ace device structure
> + */
> + ace = kzalloc(sizeof(struct ace_device), GFP_KERNEL);
> + if (!ace)
> + goto err_alloc;
> +
> + ace->dev = device;
> + ace->id = dev->id;
> + ace->irq = NO_IRQ;
> +
> + for (i = 0; i < dev->num_resources; i++) {
> + if (dev->resource[i].flags & IORESOURCE_MEM)
> + ace->physaddr = dev->resource[i].start;
> + if (dev->resource[i].flags & IORESOURCE_IRQ)
> + ace->irq = dev->resource[i].start;
> + }
> +
> + /* FIXME: Should get bus_width from the platform_device struct */
> + ace->bus_width = 1;
> +
> + dev_set_drvdata(&dev->dev, ace);
> +
> + /* Call the bus-independant setup code */
> + if (ace_setup(ace) != 0)
> + goto err_setup;
> +
> + return 0;
> +
> + err_setup:
> + dev_set_drvdata(&dev->dev, NULL);
> + kfree(ace);
> + err_alloc:
> + printk(KERN_ERR "xsysace: could not initialize device\n");
> + return -ENOMEM;
> +}
> +
> +/*
> + * Platform bus remove() method
> + */
> +static int __devexit ace_remove(struct device *device)
> +{
> + struct ace_device *ace = dev_get_drvdata(device);
> +
> + dev_dbg(device, "ace_remove(%p)\n", device);
> +
> + if (ace) {
> + ace_teardown(ace);
> + kfree(ace);
> + }
> +
> + return 0;
> +}
> +
> +static struct device_driver ace_driver = {
> + .name = "xsysace",
> + .bus = &platform_bus_type,
> + .probe = ace_probe,
> + .remove = __devexit_p(ace_remove),
> +};
> +
> +/*
> ---------------------------------------------------------------------
> + * Module init/exit routines
> + */
> +static int __init ace_init(void)
> +{
> + ace_major = register_blkdev(ace_major, "xsysace");
> + if (ace_major <= 0) {
> + printk(KERN_WARNING "xsysace: register_blkdev() failed\n");
> + return ace_major;
> + }
> +
> + pr_debug("Registering Xilinx SystemACE driver, major=%i\n",
> ace_major);
> + return driver_register(&ace_driver);
> +}
> +
> +static void __exit ace_exit(void)
> +{
> + pr_debug("Unregistering Xilinx SystemACE driver\n");
> + driver_unregister(&ace_driver);
> + if (unregister_blkdev(ace_major, "xsysace"))
> + printk(KERN_WARNING "systemace unregister_blkdev(%i)
> failed\n",
> + ace_major);
> +}
> +
> +module_init(ace_init);
> +module_exit(ace_exit);
>
>
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--
Grant Likely, B.Sc., P.Eng.
Secret Lab Technologies Ltd.
grant.likely at secretlab.ca
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