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|
/*
* Filename: cregs.c
*
*
* Authors: Joshua Morris <josh.h.morris@us.ibm.com>
* Philip Kelleher <pjk1939@linux.vnet.ibm.com>
*
* (C) Copyright 2013 IBM Corporation
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <linux/completion.h>
#include <linux/slab.h>
#include "rsxx_priv.h"
#define CREG_TIMEOUT_MSEC 10000
typedef void (*creg_cmd_cb)(struct rsxx_cardinfo *card,
struct creg_cmd *cmd,
int st);
struct creg_cmd {
struct list_head list;
creg_cmd_cb cb;
void *cb_private;
unsigned int op;
unsigned int addr;
int cnt8;
void *buf;
unsigned int stream;
unsigned int status;
};
static struct kmem_cache *creg_cmd_pool;
/*------------ Private Functions --------------*/
#if defined(__LITTLE_ENDIAN)
#define LITTLE_ENDIAN 1
#elif defined(__BIG_ENDIAN)
#define LITTLE_ENDIAN 0
#else
#error Unknown endianess!!! Aborting...
#endif
static void copy_to_creg_data(struct rsxx_cardinfo *card,
int cnt8,
void *buf,
unsigned int stream)
{
int i = 0;
u32 *data = buf;
for (i = 0; cnt8 > 0; i++, cnt8 -= 4) {
/*
* Firmware implementation makes it necessary to byte swap on
* little endian processors.
*/
if (LITTLE_ENDIAN && stream)
iowrite32be(data[i], card->regmap + CREG_DATA(i));
else
iowrite32(data[i], card->regmap + CREG_DATA(i));
}
}
static void copy_from_creg_data(struct rsxx_cardinfo *card,
int cnt8,
void *buf,
unsigned int stream)
{
int i = 0;
u32 *data = buf;
for (i = 0; cnt8 > 0; i++, cnt8 -= 4) {
/*
* Firmware implementation makes it necessary to byte swap on
* little endian processors.
*/
if (LITTLE_ENDIAN && stream)
data[i] = ioread32be(card->regmap + CREG_DATA(i));
else
data[i] = ioread32(card->regmap + CREG_DATA(i));
}
}
static void creg_issue_cmd(struct rsxx_cardinfo *card, struct creg_cmd *cmd)
{
iowrite32(cmd->addr, card->regmap + CREG_ADD);
iowrite32(cmd->cnt8, card->regmap + CREG_CNT);
if (cmd->op == CREG_OP_WRITE) {
if (cmd->buf)
copy_to_creg_data(card, cmd->cnt8,
cmd->buf, cmd->stream);
}
/* Setting the valid bit will kick off the command. */
iowrite32(cmd->op, card->regmap + CREG_CMD);
}
static void creg_kick_queue(struct rsxx_cardinfo *card)
{
if (card->creg_ctrl.active || list_empty(&card->creg_ctrl.queue))
return;
card->creg_ctrl.active = 1;
card->creg_ctrl.active_cmd = list_first_entry(&card->creg_ctrl.queue,
struct creg_cmd, list);
list_del(&card->creg_ctrl.active_cmd->list);
card->creg_ctrl.q_depth--;
/*
* We have to set the timer before we push the new command. Otherwise,
* we could create a race condition that would occur if the timer
* was not canceled, and expired after the new command was pushed,
* but before the command was issued to hardware.
*/
mod_timer(&card->creg_ctrl.cmd_timer,
jiffies + msecs_to_jiffies(CREG_TIMEOUT_MSEC));
creg_issue_cmd(card, card->creg_ctrl.active_cmd);
}
static int creg_queue_cmd(struct rsxx_cardinfo *card,
unsigned int op,
unsigned int addr,
unsigned int cnt8,
void *buf,
int stream,
creg_cmd_cb callback,
void *cb_private)
{
struct creg_cmd *cmd;
/* Don't queue stuff up if we're halted. */
if (unlikely(card->halt))
return -EINVAL;
if (card->creg_ctrl.reset)
return -EAGAIN;
if (cnt8 > MAX_CREG_DATA8)
return -EINVAL;
cmd = kmem_cache_alloc(creg_cmd_pool, GFP_KERNEL);
if (!cmd)
return -ENOMEM;
INIT_LIST_HEAD(&cmd->list);
cmd->op = op;
cmd->addr = addr;
cmd->cnt8 = cnt8;
cmd->buf = buf;
cmd->stream = stream;
cmd->cb = callback;
cmd->cb_private = cb_private;
cmd->status = 0;
spin_lock_bh(&card->creg_ctrl.lock);
list_add_tail(&cmd->list, &card->creg_ctrl.queue);
card->creg_ctrl.q_depth++;
creg_kick_queue(card);
spin_unlock_bh(&card->creg_ctrl.lock);
return 0;
}
static void creg_cmd_timed_out(unsigned long data)
{
struct rsxx_cardinfo *card = (struct rsxx_cardinfo *) data;
struct creg_cmd *cmd;
spin_lock(&card->creg_ctrl.lock);
cmd = card->creg_ctrl.active_cmd;
card->creg_ctrl.active_cmd = NULL;
spin_unlock(&card->creg_ctrl.lock);
if (cmd == NULL) {
card->creg_ctrl.creg_stats.creg_timeout++;
dev_warn(CARD_TO_DEV(card),
"No active command associated with timeout!\n");
return;
}
if (cmd->cb)
cmd->cb(card, cmd, -ETIMEDOUT);
kmem_cache_free(creg_cmd_pool, cmd);
spin_lock(&card->creg_ctrl.lock);
card->creg_ctrl.active = 0;
creg_kick_queue(card);
spin_unlock(&card->creg_ctrl.lock);
}
static void creg_cmd_done(struct work_struct *work)
{
struct rsxx_cardinfo *card;
struct creg_cmd *cmd;
int st = 0;
card = container_of(work, struct rsxx_cardinfo,
creg_ctrl.done_work);
/*
* The timer could not be cancelled for some reason,
* race to pop the active command.
*/
if (del_timer_sync(&card->creg_ctrl.cmd_timer) == 0)
card->creg_ctrl.creg_stats.failed_cancel_timer++;
spin_lock_bh(&card->creg_ctrl.lock);
cmd = card->creg_ctrl.active_cmd;
card->creg_ctrl.active_cmd = NULL;
spin_unlock_bh(&card->creg_ctrl.lock);
if (cmd == NULL) {
dev_err(CARD_TO_DEV(card),
"Spurious creg interrupt!\n");
return;
}
card->creg_ctrl.creg_stats.stat = ioread32(card->regmap + CREG_STAT);
cmd->status = card->creg_ctrl.creg_stats.stat;
if ((cmd->status & CREG_STAT_STATUS_MASK) == 0) {
dev_err(CARD_TO_DEV(card),
"Invalid status on creg command\n");
/*
* At this point we're probably reading garbage from HW. Don't
* do anything else that could mess up the system and let
* the sync function return an error.
*/
st = -EIO;
goto creg_done;
} else if (cmd->status & CREG_STAT_ERROR) {
st = -EIO;
}
if ((cmd->op == CREG_OP_READ)) {
unsigned int cnt8 = ioread32(card->regmap + CREG_CNT);
/* Paranoid Sanity Checks */
if (!cmd->buf) {
dev_err(CARD_TO_DEV(card),
"Buffer not given for read.\n");
st = -EIO;
goto creg_done;
}
if (cnt8 != cmd->cnt8) {
dev_err(CARD_TO_DEV(card),
"count mismatch\n");
st = -EIO;
goto creg_done;
}
copy_from_creg_data(card, cnt8, cmd->buf, cmd->stream);
}
creg_done:
if (cmd->cb)
cmd->cb(card, cmd, st);
kmem_cache_free(creg_cmd_pool, cmd);
spin_lock_bh(&card->creg_ctrl.lock);
card->creg_ctrl.active = 0;
creg_kick_queue(card);
spin_unlock_bh(&card->creg_ctrl.lock);
}
static void creg_reset(struct rsxx_cardinfo *card)
{
struct creg_cmd *cmd = NULL;
struct creg_cmd *tmp;
unsigned long flags;
/*
* mutex_trylock is used here because if reset_lock is taken then a
* reset is already happening. So, we can just go ahead and return.
*/
if (!mutex_trylock(&card->creg_ctrl.reset_lock))
return;
card->creg_ctrl.reset = 1;
spin_lock_irqsave(&card->irq_lock, flags);
rsxx_disable_ier_and_isr(card, CR_INTR_CREG | CR_INTR_EVENT);
spin_unlock_irqrestore(&card->irq_lock, flags);
dev_warn(CARD_TO_DEV(card),
"Resetting creg interface for recovery\n");
/* Cancel outstanding commands */
spin_lock_bh(&card->creg_ctrl.lock);
list_for_each_entry_safe(cmd, tmp, &card->creg_ctrl.queue, list) {
list_del(&cmd->list);
card->creg_ctrl.q_depth--;
if (cmd->cb)
cmd->cb(card, cmd, -ECANCELED);
kmem_cache_free(creg_cmd_pool, cmd);
}
cmd = card->creg_ctrl.active_cmd;
card->creg_ctrl.active_cmd = NULL;
if (cmd) {
if (timer_pending(&card->creg_ctrl.cmd_timer))
del_timer_sync(&card->creg_ctrl.cmd_timer);
if (cmd->cb)
cmd->cb(card, cmd, -ECANCELED);
kmem_cache_free(creg_cmd_pool, cmd);
card->creg_ctrl.active = 0;
}
spin_unlock_bh(&card->creg_ctrl.lock);
card->creg_ctrl.reset = 0;
spin_lock_irqsave(&card->irq_lock, flags);
rsxx_enable_ier_and_isr(card, CR_INTR_CREG | CR_INTR_EVENT);
spin_unlock_irqrestore(&card->irq_lock, flags);
mutex_unlock(&card->creg_ctrl.reset_lock);
}
/* Used for synchronous accesses */
struct creg_completion {
struct completion *cmd_done;
int st;
u32 creg_status;
};
static void creg_cmd_done_cb(struct rsxx_cardinfo *card,
struct creg_cmd *cmd,
int st)
{
struct creg_completion *cmd_completion;
cmd_completion = cmd->cb_private;
BUG_ON(!cmd_completion);
cmd_completion->st = st;
cmd_completion->creg_status = cmd->status;
complete(cmd_completion->cmd_done);
}
static int __issue_creg_rw(struct rsxx_cardinfo *card,
unsigned int op,
unsigned int addr,
unsigned int cnt8,
void *buf,
int stream,
unsigned int *hw_stat)
{
DECLARE_COMPLETION_ONSTACK(cmd_done);
struct creg_completion completion;
unsigned long timeout;
int st;
completion.cmd_done = &cmd_done;
completion.st = 0;
completion.creg_status = 0;
st = creg_queue_cmd(card, op, addr, cnt8, buf, stream, creg_cmd_done_cb,
&completion);
if (st)
return st;
/*
* This timeout is necessary for unresponsive hardware. The additional
* 20 seconds to used to guarantee that each cregs requests has time to
* complete.
*/
timeout = msecs_to_jiffies(CREG_TIMEOUT_MSEC *
card->creg_ctrl.q_depth + 20000);
/*
* The creg interface is guaranteed to complete. It has a timeout
* mechanism that will kick in if hardware does not respond.
*/
st = wait_for_completion_timeout(completion.cmd_done, timeout);
if (st == 0) {
/*
* This is really bad, because the kernel timer did not
* expire and notify us of a timeout!
*/
dev_crit(CARD_TO_DEV(card),
"cregs timer failed\n");
creg_reset(card);
return -EIO;
}
*hw_stat = completion.creg_status;
if (completion.st) {
dev_warn(CARD_TO_DEV(card),
"creg command failed(%d x%08x)\n",
completion.st, addr);
return completion.st;
}
return 0;
}
static int issue_creg_rw(struct rsxx_cardinfo *card,
u32 addr,
unsigned int size8,
void *data,
int stream,
int read)
{
unsigned int hw_stat;
unsigned int xfer;
unsigned int op;
int st;
op = read ? CREG_OP_READ : CREG_OP_WRITE;
do {
xfer = min_t(unsigned int, size8, MAX_CREG_DATA8);
st = __issue_creg_rw(card, op, addr, xfer,
data, stream, &hw_stat);
if (st)
return st;
data = (char *)data + xfer;
addr += xfer;
size8 -= xfer;
} while (size8);
return 0;
}
/* ---------------------------- Public API ---------------------------------- */
int rsxx_creg_write(struct rsxx_cardinfo *card,
u32 addr,
unsigned int size8,
void *data,
int byte_stream)
{
return issue_creg_rw(card, addr, size8, data, byte_stream, 0);
}
int rsxx_creg_read(struct rsxx_cardinfo *card,
u32 addr,
unsigned int size8,
void *data,
int byte_stream)
{
return issue_creg_rw(card, addr, size8, data, byte_stream, 1);
}
int rsxx_get_card_state(struct rsxx_cardinfo *card, unsigned int *state)
{
return rsxx_creg_read(card, CREG_ADD_CARD_STATE,
sizeof(*state), state, 0);
}
int rsxx_get_card_size8(struct rsxx_cardinfo *card, u64 *size8)
{
unsigned int size;
int st;
st = rsxx_creg_read(card, CREG_ADD_CARD_SIZE,
sizeof(size), &size, 0);
if (st)
return st;
*size8 = (u64)size * RSXX_HW_BLK_SIZE;
return 0;
}
int rsxx_get_num_targets(struct rsxx_cardinfo *card,
unsigned int *n_targets)
{
return rsxx_creg_read(card, CREG_ADD_NUM_TARGETS,
sizeof(*n_targets), n_targets, 0);
}
int rsxx_get_card_capabilities(struct rsxx_cardinfo *card,
u32 *capabilities)
{
return rsxx_creg_read(card, CREG_ADD_CAPABILITIES,
sizeof(*capabilities), capabilities, 0);
}
int rsxx_issue_card_cmd(struct rsxx_cardinfo *card, u32 cmd)
{
return rsxx_creg_write(card, CREG_ADD_CARD_CMD,
sizeof(cmd), &cmd, 0);
}
/*----------------- HW Log Functions -------------------*/
static void hw_log_msg(struct rsxx_cardinfo *card, const char *str, int len)
{
static char level;
/*
* New messages start with "<#>", where # is the log level. Messages
* that extend past the log buffer will use the previous level
*/
if ((len > 3) && (str[0] == '<') && (str[2] == '>')) {
level = str[1];
str += 3; /* Skip past the log level. */
len -= 3;
}
switch (level) {
case '0':
dev_emerg(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '1':
dev_alert(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '2':
dev_crit(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '3':
dev_err(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '4':
dev_warn(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '5':
dev_notice(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '6':
dev_info(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
case '7':
dev_dbg(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
default:
dev_info(CARD_TO_DEV(card), "HW: %.*s", len, str);
break;
}
}
/*
* The substrncpy function copies the src string (which includes the
* terminating '\0' character), up to the count into the dest pointer.
* Returns the number of bytes copied to dest.
*/
static int substrncpy(char *dest, const char *src, int count)
{
int max_cnt = count;
while (count) {
count--;
*dest = *src;
if (*dest == '\0')
break;
src++;
dest++;
}
return max_cnt - count;
}
static void read_hw_log_done(struct rsxx_cardinfo *card,
struct creg_cmd *cmd,
int st)
{
char *buf;
char *log_str;
int cnt;
int len;
int off;
buf = cmd->buf;
off = 0;
/* Failed getting the log message */
if (st)
return;
while (off < cmd->cnt8) {
log_str = &card->log.buf[card->log.buf_len];
cnt = min(cmd->cnt8 - off, LOG_BUF_SIZE8 - card->log.buf_len);
len = substrncpy(log_str, &buf[off], cnt);
off += len;
card->log.buf_len += len;
/*
* Flush the log if we've hit the end of a message or if we've
* run out of buffer space.
*/
if ((log_str[len - 1] == '\0') ||
(card->log.buf_len == LOG_BUF_SIZE8)) {
if (card->log.buf_len != 1) /* Don't log blank lines. */
hw_log_msg(card, card->log.buf,
card->log.buf_len);
card->log.buf_len = 0;
}
}
if (cmd->status & CREG_STAT_LOG_PENDING)
rsxx_read_hw_log(card);
}
int rsxx_read_hw_log(struct rsxx_cardinfo *card)
{
int st;
st = creg_queue_cmd(card, CREG_OP_READ, CREG_ADD_LOG,
sizeof(card->log.tmp), card->log.tmp,
1, read_hw_log_done, NULL);
if (st)
dev_err(CARD_TO_DEV(card),
"Failed getting log text\n");
return st;
}
/*-------------- IOCTL REG Access ------------------*/
static int issue_reg_cmd(struct rsxx_cardinfo *card,
struct rsxx_reg_access *cmd,
int read)
{
unsigned int op = read ? CREG_OP_READ : CREG_OP_WRITE;
return __issue_creg_rw(card, op, cmd->addr, cmd->cnt, cmd->data,
cmd->stream, &cmd->stat);
}
int rsxx_reg_access(struct rsxx_cardinfo *card,
struct rsxx_reg_access __user *ucmd,
int read)
{
struct rsxx_reg_access cmd;
int st;
st = copy_from_user(&cmd, ucmd, sizeof(cmd));
if (st)
return -EFAULT;
if (cmd.cnt > RSXX_MAX_REG_CNT)
return -EFAULT;
st = issue_reg_cmd(card, &cmd, read);
if (st)
return st;
st = put_user(cmd.stat, &ucmd->stat);
if (st)
return -EFAULT;
if (read) {
st = copy_to_user(ucmd->data, cmd.data, cmd.cnt);
if (st)
return -EFAULT;
}
return 0;
}
/*------------ Initialization & Setup --------------*/
int rsxx_creg_setup(struct rsxx_cardinfo *card)
{
card->creg_ctrl.active_cmd = NULL;
INIT_WORK(&card->creg_ctrl.done_work, creg_cmd_done);
mutex_init(&card->creg_ctrl.reset_lock);
INIT_LIST_HEAD(&card->creg_ctrl.queue);
spin_lock_init(&card->creg_ctrl.lock);
setup_timer(&card->creg_ctrl.cmd_timer, creg_cmd_timed_out,
(unsigned long) card);
return 0;
}
void rsxx_creg_destroy(struct rsxx_cardinfo *card)
{
struct creg_cmd *cmd;
struct creg_cmd *tmp;
int cnt = 0;
/* Cancel outstanding commands */
spin_lock_bh(&card->creg_ctrl.lock);
list_for_each_entry_safe(cmd, tmp, &card->creg_ctrl.queue, list) {
list_del(&cmd->list);
if (cmd->cb)
cmd->cb(card, cmd, -ECANCELED);
kmem_cache_free(creg_cmd_pool, cmd);
cnt++;
}
if (cnt)
dev_info(CARD_TO_DEV(card),
"Canceled %d queue creg commands\n", cnt);
cmd = card->creg_ctrl.active_cmd;
card->creg_ctrl.active_cmd = NULL;
if (cmd) {
if (timer_pending(&card->creg_ctrl.cmd_timer))
del_timer_sync(&card->creg_ctrl.cmd_timer);
if (cmd->cb)
cmd->cb(card, cmd, -ECANCELED);
dev_info(CARD_TO_DEV(card),
"Canceled active creg command\n");
kmem_cache_free(creg_cmd_pool, cmd);
}
spin_unlock_bh(&card->creg_ctrl.lock);
cancel_work_sync(&card->creg_ctrl.done_work);
}
int rsxx_creg_init(void)
{
creg_cmd_pool = KMEM_CACHE(creg_cmd, SLAB_HWCACHE_ALIGN);
if (!creg_cmd_pool)
return -ENOMEM;
return 0;
}
void rsxx_creg_cleanup(void)
{
kmem_cache_destroy(creg_cmd_pool);
}
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