Commit 7f75d473 authored by Greg Kroah-Hartman's avatar Greg Kroah-Hartman

Staging: slicoss: clean up SLIC_DUMP_ENABLED

As SLIC_DUMP_ENABLED was disabled, remove the code that it was keeping
from being built as it was not ever used.  This removed a lot.

Cc: Lior Dotan <liodot@gmail.com>
Signed-off-by: default avatarGreg Kroah-Hartman <gregkh@suse.de>
parent e1ecad27
...@@ -181,17 +181,6 @@ struct slic_cmdqueue { ...@@ -181,17 +181,6 @@ struct slic_cmdqueue {
#define SLIC_MAX_CARDS 32 #define SLIC_MAX_CARDS 32
#define SLIC_MAX_PORTS 4 /* Max # of ports per card */ #define SLIC_MAX_PORTS 4 /* Max # of ports per card */
#if SLIC_DUMP_ENABLED
/*
Dump buffer size
This cannot be bigger than the max DMA size the card supports,
given the current code structure in the host and ucode.
Mojave supports 16K, Oasis supports 16K-1, so
just set this at 15K, shouldnt make that much of a diff.
*/
#define DUMP_BUF_SIZE 0x3C00
#endif
struct mcast_address { struct mcast_address {
...@@ -347,30 +336,6 @@ struct sliccard { ...@@ -347,30 +336,6 @@ struct sliccard {
u32 max_isr_xmits; u32 max_isr_xmits;
u32 rcv_interrupt_yields; u32 rcv_interrupt_yields;
u32 tx_packets; u32 tx_packets;
#if SLIC_DUMP_ENABLED
u32 dumpstatus; /* Result of dump UPR */
void *cmdbuffer;
ulong cmdbuffer_phys;
u32 cmdbuffer_physl;
u32 cmdbuffer_physh;
u32 dump_count;
struct task_struct *dump_task_id;
u32 dump_wait_count;
uint dumpthread_running; /* has a dump thread been init'd */
uint dump_requested; /* 0 no, 1 = reqstd 2=curr 3=done */
u32 dumptime_start;
u32 dumptime_complete;
u32 dumptime_delta;
void *dumpbuffer;
ulong dumpbuffer_phys;
u32 dumpbuffer_physl;
u32 dumpbuffer_physh;
wait_queue_head_t dump_wq;
struct file *dumphandle;
mm_segment_t dumpfile_fs;
#endif
u32 debug_ix; u32 debug_ix;
ushort reg_type[32]; ushort reg_type[32];
ushort reg_offset[32]; ushort reg_offset[32];
...@@ -550,25 +515,6 @@ struct adapter { ...@@ -550,25 +515,6 @@ struct adapter {
struct net_device_stats stats; struct net_device_stats stats;
}; };
#if SLIC_DUMP_ENABLED
#define SLIC_DUMP_REQUESTED 1
#define SLIC_DUMP_IN_PROGRESS 2
#define SLIC_DUMP_DONE 3
/****************************************************************************
*
* Microcode crash information structure. This
* structure is written out to the card's SRAM when the microcode panic's.
*
****************************************************************************/
struct slic_crash_info {
ushort cpu_id;
ushort crash_pc;
};
#define CRASH_INFO_OFFSET 0x155C
#endif
#define UPDATE_STATS(largestat, newstat, oldstat) \ #define UPDATE_STATS(largestat, newstat, oldstat) \
{ \ { \
......
/*
*
* Copyright (c) 2000-2002 Alacritech, Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY ALACRITECH, INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL ALACRITECH, INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF
* USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
* OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT
* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* NO LICENSE TO ANY ALACRITECH PATENT CLAIM IS GRANTED BY ANY COPYRIGHT
* LICENSE TO THIS OR OTHER SOFTWARE. THIS SOFTWARE MAY BE COVERED BY
* ALACRITECH PATENTS INCLUDING BUT NOT LIMITED TO U.S. PATENT NOS. 6,226,680,
* 6,247,060, 6,334,153, 6,389,479, 6,393,487, 6,427,171, 6,427,173
* and 6,434,620.
* THIS SOFTWARE IS NOT SUBJECT TO THE GNU GENERAL PUBLIC LICENSE (GPL).
*
* The views and conclusions contained in the software and
* documentation are those of the authors and should not be
* interpreted as representing official policies, either
* expressed or implied, of Alacritech, Inc.
*/
#ifndef _SLIC_DUMP_H_
#define _SLIC_DUMP_H_
#define DEBUG_SUCCESS 0
/***********************************************************************
*
* Utility processor register locations
*
**********************************************************************/
#define UTILITY_RESET 0x0
#define UTILITY_ISP_ADDR 0x4 /* Interrupt status Pointer */
#define UTILITY_ISR_ADDR 0x8 /* Interrupt status Register */
#define UTILITY_ICR_ADDR 0xc /* Interrupt Control Register */
#define UTILITY_CPR_ADDR 0x10 /* Command Pointer Register */
#define UTILITY_DPR_ADDR 0x14 /* Data Pointer Register */
#define UTILITY_DMP_TRQ 0x18 /* Dump queue onto ALU for analyser */
#define UTILITY_UPP_ADDR 0x1c /* Bits 63-32 of cmd/data pointer */
/***********************************************************************
*
* INIC status register bits
*
***********************************************************************/
#define SLIC_ISR_CC 0x10000000 /* Command complete - synchronous */
#define SLIC_ISR_ERR 0x01000000 /* Command Error - synchronous */
#define SLIC_ISR_CMD_MASK 0x11000000 /* Command status mask */
#define SLIC_ISR_TPH 0x00080000 /* Transmit processor halted - async */
#define SLIC_ISR_RPH 0x00040000 /* Receive processor halted - async */
/***********************************************************************
*
* INIC Control register values
*
***********************************************************************/
#define SLIC_ICR_OFF 0 /* Interrupts disabled */
#define SLIC_ICR_ON 1 /* Interrupts enabled */
#define SLIC_ICR_MASK 2 /* Interrupts masked */
#define WRITE_DREG(reg, value, flush) \
{ \
writel((value), (reg)); \
if ((flush)) { \
mb(); \
} \
}
/************************************************************************
*
* Command Format
*
* Each command contains a command byte which is defined as follows:
*
* bits: 7-3 2 1-0
* ----------------------------------------------
* command Alt. Proc Processor
*
************************************************************************/
/*
* Macro to create the command byte given the command, Alt. Proc, and
* Processor values. Note that the macro assumes that the values are
* preshifted. That is, the values for alt. proc are 0 for transmit and
* 4 for receive.
*/
#define COMMAND_BYTE(command, alt_proc, proc) ((command) | (alt_proc) | (proc))
/*
* Command values
*/
#define CMD_HALT 0x0 /* Send a halt to the INIC */
#define CMD_RUN 0x8 /* Start the halted INIC */
#define CMD_STEP 0x10 /* Single step the inic */
#define CMD_BREAK 0x18 /* Set a breakpoint - 8 byte command */
#define CMD_RESET_BREAK 0x20 /* Reset a breakpoint - 8 byte cmd */
#define CMD_DUMP 0x28 /* Dump INIC memory - 8 byte command */
#define CMD_LOAD 0x30 /* Load INIC memory - 8 byte command */
#define CMD_MAP 0x38 /* Map out a ROM instruction - 8 BC */
#define CMD_CAM_OPS 0x38 /* perform ops on specific CAM */
#define CMD_XMT 0x40 /* Transmit frame */
#define CMD_RCV 0x48 /* Receive frame */
/*
* Alt. Proc values
*
* When the proc value is set to the utility processor, the Alt. Proc
* specifies which processor handles the debugging.
*/
#define ALT_PROC_TRANSMIT 0x0
#define ALT_PROC_RECEIVE 0x4
/*
* Proc values
*/
#define PROC_INVALID 0x0
#define PROC_NONE 0x0 /* Gigabit use */
#define PROC_TRANSMIT 0x1
#define PROC_RECEIVE 0x2
#define PROC_UTILITY 0x3
/******************************************************************
*
* 8 byte command structure definitions
*
******************************************************************/
/*
* Break and Reset Break command structure
*/
struct BREAK {
unsigned char command; /* Command word defined above */
unsigned char resvd;
ushort count; /* Number of executions before break */
u32 addr; /* Address of break point */
};
/*
* Dump and Load command structure
*/
struct dump_cmd {
unsigned char cmd; /* Command word defined above */
unsigned char desc; /* Descriptor values - defined below */
ushort count; /* number of 4 byte words to be transferred */
u32 addr; /* start address of dump or load */
};
/*
* Receive or Transmit a frame.
*/
struct RCV_OR_XMT_FRAME {
unsigned char command; /* Command word defined above */
unsigned char MacId; /* Mac ID of interface - transmit only */
ushort count; /* Length of frame in bytes */
u32 pad; /* not used */
};
/*
* Values of desc field in DUMP_OR_LOAD structure
*/
#define DESC_RFILE 0x0 /* Register file */
#define DESC_SRAM 0x1 /* SRAM */
#define DESC_DRAM 0x2 /* DRAM */
#define DESC_QUEUE 0x3 /* queues */
#define DESC_REG 0x4 /* General registers (pc, status, etc) */
#define DESC_SENSE 0x5 /* Sense register */
/* Descriptor field definitions for CMD_DUMP_CAM */
#define DUMP_CAM_A 0
#define DUMP_CAM_B 1 /* unused at present */
#define DUMP_CAM_C 2
#define DUMP_CAM_D 3
#define SEARCH_CAM_A 4
#define SEARCH_CAM_C 5
/*
* Map command to replace a command in ROM with a command in WCS
*/
struct MAP {
unsigned char command; /* Command word defined above */
unsigned char not_used[3];
ushort map_to; /* Instruction address in WCS */
ushort map_out; /* Instruction address in ROM */
};
/*
* Misc definitions
*/
#define SLIC_MAX_QUEUE 32 /* Total # of queues on the INIC (0-31)*/
#define SLIC_4MAX_REG 512 /* Total # of 4-port file-registers */
#define SLIC_1MAX_REG 384 /* Total # of file-registers */
#define SLIC_GBMAX_REG 1024 /* Total # of Gbit file-registers */
#define SLIC_NUM_REG 32 /* non-file-registers = NUM_REG in tm-simba.h */
#define SLIC_GB_CAMA_SZE 32
#define SLIC_GB_CAMB_SZE 16
#define SLIC_GB_CAMAB_SZE 32
#define SLIC_GB_CAMC_SZE 16
#define SLIC_GB_CAMD_SZE 16
#define SLIC_GB_CAMCD_SZE 32
/*
* Coredump header structure
*/
struct CORE_Q {
u32 queueOff; /* Offset of queue */
u32 queuesize; /* size of queue */
};
#define DRIVER_NAME_SIZE 32
struct sliccore_hdr {
unsigned char driver_version[DRIVER_NAME_SIZE]; /* Driver version string */
u32 RcvRegOff; /* Offset of receive registers */
u32 RcvRegsize; /* size of receive registers */
u32 XmtRegOff; /* Offset of transmit registers */
u32 XmtRegsize; /* size of transmit registers */
u32 FileRegOff; /* Offset of register file */
u32 FileRegsize; /* size of register file */
u32 SramOff; /* Offset of Sram */
u32 Sramsize; /* size of Sram */
u32 DramOff; /* Offset of Dram */
u32 Dramsize; /* size of Dram */
CORE_Q queues[SLIC_MAX_QUEUE]; /* size and offsets of queues */
u32 CamAMOff; /* Offset of CAM A contents */
u32 CamASize; /* Size of Cam A */
u32 CamBMOff; /* Offset of CAM B contents */
u32 CamBSize; /* Size of Cam B */
u32 CamCMOff; /* Offset of CAM C contents */
u32 CamCSize; /* Size of Cam C */
u32 CamDMOff; /* Offset of CAM D contents */
u32 CamDSize; /* Size of Cam D */
};
/*
* definitions needed for our kernel-mode gdb stub.
*/
/***********************************************************************
*
* Definitions & Typedefs
*
**********************************************************************/
#define BUFMAX 0x20000 /* 128k - size of input/output buffer */
#define BUFMAXP2 5 /* 2**5 (32) 4K pages */
#define IOCTL_SIMBA_BREAK _IOW('s', 0, unsigned long)
/* #define IOCTL_SIMBA_INIT _IOW('s', 1, unsigned long) */
#define IOCTL_SIMBA_KILL_TGT_PROC _IOW('s', 2, unsigned long)
/***********************************************************************
*
* Global variables
*
***********************************************************************/
#define THREADRECEIVE 1 /* bit 0 of StoppedThreads */
#define THREADTRANSMIT 2 /* bit 1 of StoppedThreads */
#define THREADBOTH 3 /* bit 0 and 1.. */
#endif /* _SLIC_DUMP_H */
...@@ -145,36 +145,4 @@ static int slic_upr_queue_request(struct adapter *adapter, ...@@ -145,36 +145,4 @@ static int slic_upr_queue_request(struct adapter *adapter,
static void slic_mcast_set_list(struct net_device *dev); static void slic_mcast_set_list(struct net_device *dev);
static void slic_mcast_init_crc32(void); static void slic_mcast_init_crc32(void);
#if SLIC_DUMP_ENABLED
static int slic_dump_thread(void *context);
static uint slic_init_dump_thread(struct sliccard *card);
static unsigned char slic_get_dump_index(char *path);
static u32 slic_dump_card(struct sliccard *card, bool resume);
static u32 slic_dump_halt(struct sliccard *card, unsigned char proc);
static u32 slic_dump_reg(struct sliccard *card, unsigned char proc);
static u32 slic_dump_data(struct sliccard *card, u32 addr,
ushort count, unsigned char desc);
static u32 slic_dump_queue(struct sliccard *card, u32 buf_phys,
u32 buf_physh, u32 queue);
static u32 slic_dump_load_queue(struct sliccard *card, u32 data,
u32 queue);
static u32 slic_dump_cam(struct sliccard *card, u32 addr,
u32 count, unsigned char desc);
static u32 slic_dump_resume(struct sliccard *card, unsigned char proc);
static u32 slic_dump_send_cmd(struct sliccard *card, u32 cmd_phys,
u32 cmd_physh, u32 buf_phys,
u32 buf_physh);
#define create_file(x) STATUS_SUCCESS
#define write_file(w, x, y, z) STATUS_SUCCESS
#define close_file(x) STATUS_SUCCESS
#define read_file(w, x, y, z) STATUS_SUCCESS
#define open_file(x) STATUS_SUCCESS
/* PAGE_SIZE * 16 */
#define DUMP_PAGE_SIZE 0xFFFF
#define DUMP_PAGE_SIZE_HALF 0x7FFE
#endif
#endif /* _SLIC_INCLUDE_H_ */ #endif /* _SLIC_INCLUDE_H_ */
...@@ -55,7 +55,6 @@ ...@@ -55,7 +55,6 @@
*/ */
#define SLIC_DUMP_ENABLED 0
#define KLUDGE_FOR_4GB_BOUNDARY 1 #define KLUDGE_FOR_4GB_BOUNDARY 1
#define DEBUG_MICROCODE 1 #define DEBUG_MICROCODE 1
#define DBG 1 #define DBG 1
...@@ -105,10 +104,6 @@ ...@@ -105,10 +104,6 @@
#include <linux/uaccess.h> #include <linux/uaccess.h>
#include "slicinc.h" #include "slicinc.h"
#if SLIC_DUMP_ENABLED
#include "slicdump.h"
#endif
#define SLIC_POWER_MANAGEMENT 0 #define SLIC_POWER_MANAGEMENT 0
static uint slic_first_init = 1; static uint slic_first_init = 1;
...@@ -127,8 +122,6 @@ static struct net_device *head_netdevice; ...@@ -127,8 +122,6 @@ static struct net_device *head_netdevice;
static struct base_driver slic_global = { {}, 0, 0, 0, 1, NULL, NULL }; static struct base_driver slic_global = { {}, 0, 0, 0, 1, NULL, NULL };
static int intagg_delay = 100; static int intagg_delay = 100;
static u32 dynamic_intagg; static u32 dynamic_intagg;
static int errormsg;
static int goodmsg;
static unsigned int rcv_count; static unsigned int rcv_count;
static struct dentry *slic_debugfs; static struct dentry *slic_debugfs;
...@@ -541,25 +534,12 @@ static int slic_entry_open(struct net_device *dev) ...@@ -541,25 +534,12 @@ static int slic_entry_open(struct net_device *dev)
card->master, adapter); card->master, adapter);
if (!card->master) if (!card->master)
card->master = adapter; card->master = adapter;
#if SLIC_DUMP_ENABLED
if (!(card->dumpthread_running))
init_waitqueue_head(&card->dump_wq);
#endif
if (locked) { if (locked) {
spin_unlock_irqrestore(&slic_global.driver_lock.lock, spin_unlock_irqrestore(&slic_global.driver_lock.lock,
slic_global.driver_lock.flags); slic_global.driver_lock.flags);
locked = 0; locked = 0;
} }
#if SLIC_DUMP_ENABLED
if (!(card->dumpthread_running)) {
DBG_MSG("attempt to initialize dump thread\n");
status = slic_init_dump_thread(card);
/*
Even if the dump thread fails, we will continue at this point
*/
}
#endif
return STATUS_SUCCESS; return STATUS_SUCCESS;
} }
...@@ -672,30 +652,6 @@ static int slic_entry_halt(struct net_device *dev) ...@@ -672,30 +652,6 @@ static int slic_entry_halt(struct net_device *dev)
#ifdef AUTOMATIC_RESET #ifdef AUTOMATIC_RESET
if (!card->adapters_activated) { if (!card->adapters_activated) {
#if SLIC_DUMP_ENABLED
if (card->dumpthread_running) {
uint status;
DBG_MSG("attempt to terminate dump thread pid[%x]\n",
card->dump_task_id);
status = kill_proc(card->dump_task_id->pid, SIGKILL, 1);
if (!status) {
int count = 10 * 100;
while (card->dumpthread_running && --count) {
current->state = TASK_INTERRUPTIBLE;
schedule_timeout(1);
}
if (!count) {
DBG_MSG
("slicmon thread cleanup FAILED \
pid[%x]\n",
card->dump_task_id->pid);
}
}
}
#endif
DBG_MSG("slicoss: %s (%s) initiate CARD_HALT\n", __func__, DBG_MSG("slicoss: %s (%s) initiate CARD_HALT\n", __func__,
dev->name); dev->name);
...@@ -737,37 +693,6 @@ static int slic_ioctl(struct net_device *dev, struct ifreq *rq, int cmd) ...@@ -737,37 +693,6 @@ static int slic_ioctl(struct net_device *dev, struct ifreq *rq, int cmd)
slic_intagg_set(adapter, intagg); slic_intagg_set(adapter, intagg);
return 0; return 0;
} }
#ifdef SLIC_USER_REQUEST_DUMP_ENABLED
case SIOCSLICDUMPCARD:
{
struct adapter *adapter = netdev_priv(dev);
struct sliccard *card;
ASSERT(adapter);
ASSERT(adapter->card)
card = adapter->card;
DBG_IOCTL("slic_ioctl SIOCSLIC_DUMP_CARD\n");
if (card->dump_requested == SLIC_DUMP_DONE) {
printk(SLICLEVEL
"SLIC Card dump to be overwritten\n");
card->dump_requested = SLIC_DUMP_REQUESTED;
} else if ((card->dump_requested == SLIC_DUMP_REQUESTED)
|| (card->dump_requested ==
SLIC_DUMP_IN_PROGRESS)) {
printk(SLICLEVEL
"SLIC Card dump Requested but already \
in progress... ignore\n");
} else {
printk(SLICLEVEL
"SLIC Card #%d Dump Requested\n",
card->cardnum);
card->dump_requested = SLIC_DUMP_REQUESTED;
}
return 0;
}
#endif
#ifdef SLIC_TRACE_DUMP_ENABLED #ifdef SLIC_TRACE_DUMP_ENABLED
case SIOCSLICTRACEDUMP: case SIOCSLICTRACEDUMP:
...@@ -1418,8 +1343,7 @@ static void slic_init_cleanup(struct adapter *adapter) ...@@ -1418,8 +1343,7 @@ static void slic_init_cleanup(struct adapter *adapter)
del_timer(&adapter->statstimer); del_timer(&adapter->statstimer);
} }
#endif #endif
#if !SLIC_DUMP_ENABLED && SLIC_PING_TIMER_ENABLED #if SLIC_PING_TIMER_ENABLED
/*#if SLIC_DUMP_ENABLED && SLIC_PING_TIMER_ENABLED*/
if (adapter->pingtimerset) { if (adapter->pingtimerset) {
DBG_MSG("pingtimer "); DBG_MSG("pingtimer ");
adapter->pingtimerset = 0; adapter->pingtimerset = 0;
...@@ -1663,38 +1587,7 @@ static void slic_timer_ping(ulong dev) ...@@ -1663,38 +1587,7 @@ static void slic_timer_ping(ulong dev)
ASSERT(adapter); ASSERT(adapter);
card = adapter->card; card = adapter->card;
ASSERT(card); ASSERT(card);
#if !SLIC_DUMP_ENABLED
/*#if SLIC_DUMP_ENABLED*/
if ((adapter->state == ADAPT_UP) && (card->state == CARD_UP)) {
int status;
if (card->pingstatus != ISR_PINGMASK) {
if (errormsg++ < 5) {
DBG_MSG
("%s (%s) CARD HAS CRASHED PING_status == \
%x ERRORMSG# %d\n",
__func__, adapter->netdev->name,
card->pingstatus, errormsg);
}
/* ASSERT(card->pingstatus == ISR_PINGMASK); */
} else {
if (goodmsg++ < 5) {
DBG_MSG
("slicoss: %s (%s) PING_status == %x \
GOOD!!!!!!!! msg# %d\n",
__func__, adapter->netdev->name,
card->pingstatus, errormsg);
}
}
card->pingstatus = 0;
status = slic_upr_request(adapter, SLIC_UPR_PING, 0, 0, 0, 0);
ASSERT(status == 0);
} else {
DBG_MSG("slicoss %s (%s) adapter[%p] NOT UP!!!!\n",
__func__, adapter->netdev->name, adapter);
}
#endif
adapter->pingtimer.expires = jiffies + (PING_TIMER_INTERVAL * HZ); adapter->pingtimer.expires = jiffies + (PING_TIMER_INTERVAL * HZ);
add_timer(&adapter->pingtimer); add_timer(&adapter->pingtimer);
} }
...@@ -1835,8 +1728,7 @@ static int slic_if_init(struct adapter *adapter) ...@@ -1835,8 +1728,7 @@ static int slic_if_init(struct adapter *adapter)
adapter->statstimerset = 1; adapter->statstimerset = 1;
} }
#endif #endif
#if !SLIC_DUMP_ENABLED && SLIC_PING_TIMER_ENABLED #if SLIC_PING_TIMER_ENABLED
/*#if SLIC_DUMP_ENABLED && SLIC_PING_TIMER_ENABLED*/
if (!adapter->pingtimerset) { if (!adapter->pingtimerset) {
DBG_MSG("slicoss: %s start card_ping_timer(slic)\n", DBG_MSG("slicoss: %s start card_ping_timer(slic)\n",
__func__); __func__);
...@@ -2121,23 +2013,6 @@ static void slic_card_cleanup(struct sliccard *card) ...@@ -2121,23 +2013,6 @@ static void slic_card_cleanup(struct sliccard *card)
{ {
DBG_MSG("slicoss: %s ENTER\n", __func__); DBG_MSG("slicoss: %s ENTER\n", __func__);
#if SLIC_DUMP_ENABLED
if (card->dumpbuffer) {
card->dumpbuffer_phys = 0;
card->dumpbuffer_physl = 0;
card->dumpbuffer_physh = 0;
kfree(card->dumpbuffer);
card->dumpbuffer = NULL;
}
if (card->cmdbuffer) {
card->cmdbuffer_phys = 0;
card->cmdbuffer_physl = 0;
card->cmdbuffer_physh = 0;
kfree(card->cmdbuffer);
card->cmdbuffer = NULL;
}
#endif
if (card->loadtimerset) { if (card->loadtimerset) {
card->loadtimerset = 0; card->loadtimerset = 0;
del_timer(&card->loadtimer); del_timer(&card->loadtimer);
...@@ -2616,43 +2491,6 @@ static int slic_card_init(struct sliccard *card, struct adapter *adapter) ...@@ -2616,43 +2491,6 @@ static int slic_card_init(struct sliccard *card, struct adapter *adapter)
*/ */
card->pingstatus = ISR_PINGMASK; card->pingstatus = ISR_PINGMASK;
#if SLIC_DUMP_ENABLED
if (!card->dumpbuffer) {
card->dumpbuffer = kmalloc(DUMP_PAGE_SIZE, GFP_KERNEL);
ASSERT(card->dumpbuffer);
if (card->dumpbuffer == NULL)
return -ENOMEM;
}
/*
* Smear the shared memory structure and then obtain
* the PHYSICAL address of this structure
*/
memset(card->dumpbuffer, 0, DUMP_PAGE_SIZE);
card->dumpbuffer_phys = virt_to_bus(card->dumpbuffer);
card->dumpbuffer_physh = SLIC_GET_ADDR_HIGH(card->dumpbuffer_phys);
card->dumpbuffer_physl = SLIC_GET_ADDR_LOW(card->dumpbuffer_phys);
/*
* Allocate COMMAND BUFFER
*/
if (!card->cmdbuffer) {
card->cmdbuffer = kmalloc(sizeof(struct dump_cmd), GFP_KERNEL);
ASSERT(card->cmdbuffer);
if (card->cmdbuffer == NULL)
return -ENOMEM;
}
/*
* Smear the shared memory structure and then obtain
* the PHYSICAL address of this structure
*/
memset(card->cmdbuffer, 0, sizeof(struct dump_cmd));
card->cmdbuffer_phys = virt_to_bus(card->cmdbuffer);
card->cmdbuffer_physh = SLIC_GET_ADDR_HIGH(card->cmdbuffer_phys);
card->cmdbuffer_physl = SLIC_GET_ADDR_LOW(card->cmdbuffer_phys);
#endif
/* /*
* Lastly, mark our card state as up and return success * Lastly, mark our card state as up and return success
*/ */
...@@ -3371,11 +3209,6 @@ static void slic_upr_request_complete(struct adapter *adapter, u32 isr) ...@@ -3371,11 +3209,6 @@ static void slic_upr_request_complete(struct adapter *adapter, u32 isr)
case SLIC_UPR_PING: case SLIC_UPR_PING:
card->pingstatus |= (isr & ISR_PINGDSMASK); card->pingstatus |= (isr & ISR_PINGDSMASK);
break; break;
#if SLIC_DUMP_ENABLED
case SLIC_UPR_DUMP:
card->dumpstatus |= (isr & ISR_UPCMASK);
break;
#endif
default: default:
ASSERT(0); ASSERT(0);
} }
...@@ -3434,19 +3267,6 @@ static void slic_upr_start(struct adapter *adapter) ...@@ -3434,19 +3267,6 @@ static void slic_upr_start(struct adapter *adapter)
upr->upr_data, &slic_regs->slic_addr_upper, upr->upr_data, &slic_regs->slic_addr_upper,
upr->upr_data_h, FLUSH); upr->upr_data_h, FLUSH);
break; break;
#if SLIC_DUMP_ENABLED
case SLIC_UPR_DUMP:
if (upr->upr_buffer || upr->upr_buffer_h) {
slic_reg64_write(adapter, &slic_regs->slic_dump_data,
upr->upr_buffer,
&slic_regs->slic_addr_upper,
upr->upr_buffer_h, FLUSH);
}
slic_reg64_write(adapter, &slic_regs->slic_dump_cmd,
upr->upr_data, slic_regs->slic_addr_upper,
upr->upr_data_h, FLUSH);
break;
#endif
case SLIC_UPR_PING: case SLIC_UPR_PING:
slic_reg32_write(&slic_regs->slic_ping, 1, FLUSH); slic_reg32_write(&slic_regs->slic_ping, 1, FLUSH);
break; break;
...@@ -4771,1030 +4591,6 @@ static void slic_debug_cleanup(void) ...@@ -4771,1030 +4591,6 @@ static void slic_debug_cleanup(void)
} }
} }
/*=============================================================================
=============================================================================
=== ===
=== SLIC DUMP MANAGEMENT SECTION ===
=== ===
=== ===
=== Dump routines ===
=== ===
=== ===
=============================================================================
============================================================================*/
#if SLIC_DUMP_ENABLED
#include <stdarg.h>
void *slic_dump_handle; /* thread handle */
/*
* These are the only things you should do on a core-file: use only these
* functions to write out all the necessary info.
*/
static int slic_dump_seek(struct file *SLIChandle, u32 file_offset)
{
if (SLIChandle->f_pos != file_offset) {
/*DBG_MSG("slic_dump_seek now needed [%x : %x]\n",
(u32)SLIChandle->f_pos, (u32)file_offset); */
if (SLIChandle->f_op->llseek) {
if (SLIChandle->f_op->
llseek(SLIChandle, file_offset, 0) != file_offset)
return 0;
} else {
SLIChandle->f_pos = file_offset;
}
}
return 1;
}
static int slic_dump_write(struct sliccard *card,
const void *addr, int size, u32 file_offset)
{
int r = 1;
u32 result = 0;
struct file *SLIChandle = card->dumphandle;
#ifdef HISTORICAL /* legacy */
down(&SLIChandle->f_dentry->d_inode->i_sem);
#endif
if (size) {
slic_dump_seek(SLIChandle, file_offset);
result =
SLIChandle->f_op->write(SLIChandle, addr, size,
&SLIChandle->f_pos);
r = result == size;
}
card->dumptime_complete = jiffies;
card->dumptime_delta = card->dumptime_complete - card->dumptime_start;
card->dumptime_start = jiffies;
#ifdef HISTORICAL
up(&SLIChandle->f_dentry->d_inode->i_sem);
#endif
if (!r) {
DBG_ERROR("%s: addr[%p] size[%x] result[%x] file_offset[%x]\n",
__func__, addr, size, result, file_offset);
}
return r;
}
static uint slic_init_dump_thread(struct sliccard *card)
{
card->dump_task_id = kthread_run(slic_dump_thread, (void *)card, 0);
/* DBG_MSG("create slic_dump_thread dump_pid[%x]\n", card->dump_pid); */
if (IS_ERR(card->dump_task_id)) {
DBG_MSG("create slic_dump_thread FAILED \n");
return STATUS_FAILURE;
}
return STATUS_SUCCESS;
}
static int slic_dump_thread(void *context)
{
struct sliccard *card = (struct sliccard *)context;
struct adapter *adapter;
struct adapter *dump_adapter = NULL;
u32 dump_complete = 0;
u32 delay = (PING_TIMER_INTERVAL * HZ);
struct slic_regs *pregs;
u32 i;
struct slic_upr *upr, *uprnext;
u32 dump_card;
ASSERT(card);
card->dumpthread_running = 1;
#ifdef HISTORICAL
lock_kernel();
/*
* This thread doesn't need any user-level access,
* so get rid of all our resources
*/
exit_files(current); /* daemonize doesn't do exit_files */
current->files = init_task.files;
atomic_inc(&current->files->count);
#endif
daemonize("%s", "slicmon");
/* Setup a nice name */
strcpy(current->comm, "slicmon");
DBG_ERROR
("slic_dump_thread[slicmon] daemon is alive card[%p] pid[%x]\n",
card, card->dump_task_id->pid);
/*
* Send me a signal to get me to die (for debugging)
*/
do {
/*
* If card state is not set to up, skip
*/
if (card->state != CARD_UP) {
if (card->adapters_activated)
goto wait;
else
goto end_thread;
}
/*
* Check the results of our last ping.
*/
dump_card = 0;
#ifdef SLIC_FAILURE_DUMP
if (card->pingstatus != ISR_PINGMASK) {
DBG_MSG
("\n[slicmon] CARD #%d TIMED OUT - status "
"%x: DUMP THE CARD!\n",
card->cardnum, card->pingstatus);
dump_card = 1;
}
#else
/*
* Cause a card RESET instead?
*/
if (card->pingstatus != ISR_PINGMASK) {
/* todo. do we want to reset the card in production */
/* DBG_MSG("\n[slicmon] CARD #%d TIMED OUT - "
status %x: RESET THE CARD!\n", card->cardnum,
card->pingstatus); */
DBG_ERROR
("\n[slicmon] CARD #%d TIMED OUT - status %x: "
"DUMP THE CARD!\n",
card->cardnum, card->pingstatus);
dump_card = 1;
}
#endif
if ((dump_card)
|| (card->dump_requested == SLIC_DUMP_REQUESTED)) {
if (card->dump_requested == SLIC_DUMP_REQUESTED) {
DBG_ERROR
("[slicmon]: Dump card Requested: Card %x\n",
card->cardnum);
}
if (card->pingstatus != ISR_PINGMASK) {
ushort cpuid = 0;
ushort crashpc = 0;
if (card->adapter[0]) {
if ((card->adapter[0])->memorylength >=
CRASH_INFO_OFFSET +
sizeof(slic_crash_info)) {
char *crashptr;
p_slic_crash_info crashinfo;
crashptr =
((char *)card->adapter[0]->
slic_regs) +
CRASH_INFO_OFFSET;
crashinfo =
(p_slic_crash_info)
crashptr;
cpuid = crashinfo->cpu_id;
crashpc = crashinfo->crash_pc;
}
}
DBG_ERROR
("[slicmon]: Dump card: Card %x crashed "
"and failed to answer PING. "
"CPUID[%x] PC[%x]\n ",
card->cardnum, cpuid, crashpc);
}
card->dump_requested = SLIC_DUMP_IN_PROGRESS;
/*
* Set the card state to DOWN and the adapter states
* to RESET.They will check this in SimbaCheckForHang
* and initiate interface reset (which in turn will
* reinitialize the card).
*/
card->state = CARD_DOWN;
for (i = 0; i < card->card_size; i++) {
adapter = card->adapter[i];
if (adapter) {
slic_if_stop_queue(adapter);
if (adapter->state == ADAPT_UP) {
adapter->state = ADAPT_RESET;
adapter->linkstate = LINK_DOWN;
DBG_ERROR
("[slicmon]: SLIC Card[%d] "
"Port[%d] adapter[%p] "
"down\n",
(uint) card->cardnum,
(uint) i, adapter);
}
#if SLIC_GET_STATS_TIMER_ENABLED
/* free stats timer */
if (adapter->statstimerset) {
adapter->statstimerset = 0;
del_timer(&adapter->statstimer);
}
#endif
}
}
for (i = 0; i < card->card_size; i++) {
adapter = card->adapter[i];
if ((adapter) && (adapter->activated)) {
pregs = adapter->slic_regs;
dump_adapter = adapter;
/*
* If the dump status is zero, then
* the utility processor has crashed.
* If this is the case, any pending
* utilityprocessor requests will not
* complete and our dump commands will
* not be issued.
*
* To avoid this we will clear any
* pending utility processor requests
* now.
*/
if (!card->pingstatus) {
spin_lock_irqsave(
&adapter->upr_lock.lock,
adapter->upr_lock.flags);
upr = adapter->upr_list;
while (upr) {
uprnext = upr->next;
kfree(upr);
upr = uprnext;
}
adapter->upr_list = 0;
adapter->upr_busy = 0;
spin_unlock_irqrestore(
&adapter->upr_lock.lock,
adapter->upr_lock.flags);
}
slic_dump_card(card, false);
dump_complete = 1;
}
if (dump_complete) {
DBG_ERROR("SLIC Dump Complete\n");
/* Only dump the card one time */
break;
}
}
if (dump_adapter) {
DBG_ERROR
("slic dump completed. "
"Reenable interfaces\n");
slic_card_init(card, dump_adapter);
/*
* Reenable the adapters that were reset
*/
for (i = 0; i < card->card_size; i++) {
adapter = card->adapter[i];
if (adapter) {
if (adapter->state ==
ADAPT_RESET) {
DBG_ERROR
("slicdump: SLIC "
"Card[%d] Port[%d] adapter[%p] "
"bring UP\n",
(uint) card->
cardnum, (uint) i,
adapter);
adapter->state =
ADAPT_DOWN;
adapter->linkstate =
LINK_DOWN;
slic_entry_open
(adapter->netdev);
}
}
}
card->dump_requested = SLIC_DUMP_DONE;
}
} else {
/* if pingstatus != ISR_PINGMASK) || dump_requested...ELSE
* We received a valid ping response.
* Clear the Pingstatus field, find a valid adapter
* structure and send another ping.
*/
for (i = 0; i < card->card_size; i++) {
adapter = card->adapter[i];
if (adapter && (adapter->state == ADAPT_UP)) {
card->pingstatus = 0;
slic_upr_request(adapter, SLIC_UPR_PING,
0, 0, 0, 0);
break; /* Only issue one per card */
}
}
}
wait:
SLIC_INTERRUPTIBLE_SLEEP_ON_TIMEOUT(card->dump_wq, delay);
} while (!signal_pending(current));
end_thread:
/* DBG_MSG("[slicmon] slic_dump_thread card[%p] pid[%x] ENDING\n",
card, card->dump_pid); */
card->dumpthread_running = 0;
return 0;
}
/*
* Read a single byte from our dump index file. This
* value is used as our suffix for our dump path. The
* value is incremented and written back to the file
*/
static unsigned char slic_get_dump_index(char *path)
{
unsigned char index = 0;
#ifdef SLIC_DUMP_INDEX_SUPPORT
u32 status;
void *FileHandle;
u32 offset;
offset = 0;
/*
* Open the index file. If one doesn't exist, create it
*/
status = create_file(&FileHandle);
if (status != STATUS_SUCCESS)
return (unsigned char) 0;
status = read_file(FileHandle, &index, 1, &offset);
index++;
status = write_file(FileHandle, &index, 1, &offset);
close_file(FileHandle);
#else
index = 0;
#endif
return index;
}
static struct file *slic_dump_open_file(struct sliccard *card)
{
struct file *SLIChandle = NULL;
struct dentry *dentry = NULL;
struct inode *inode = NULL;
char SLICfile[50];
card->dumpfile_fs = get_fs();
set_fs(KERNEL_DS);
memset(SLICfile, 0, sizeof(SLICfile));
sprintf(SLICfile, "/var/tmp/slic%d-dump-%d", card->cardnum,
(uint) card->dump_count);
card->dump_count++;
SLIChandle =
filp_open(SLICfile, O_CREAT | O_RDWR | O_SYNC | O_LARGEFILE, 0666);
DBG_MSG("[slicmon]: Dump Card #%d to file: %s \n", card->cardnum,
SLICfile);
/* DBG_MSG("[slicmon] filp_open %s SLIChandle[%p]\n", SLICfile, SLIChandle);*/
if (IS_ERR(SLIChandle))
goto end_slicdump;
dentry = SLIChandle->f_dentry;
inode = dentry->d_inode;
/* DBG_MSG("[slicmon] inode[%p] i_nlink[%x] i_mode[%x] i_op[%p] i_fop[%p]\n"
"f_op->write[%p]\n",
inode, inode->i_nlink, inode->i_mode, inode->i_op,
inode->i_fop, SLIChandle->f_op->write); */
if (inode->i_nlink > 1)
goto close_slicdump; /* multiple links - don't dump */
#ifdef HISTORICAL
if (!S_ISREG(inode->i_mode))
goto close_slicdump;
#endif
if (!inode->i_op || !inode->i_fop)
goto close_slicdump;
if (!SLIChandle->f_op->write)
goto close_slicdump;
/*
* If we got here we have SUCCESSFULLY OPENED the dump file
*/
/* DBG_MSG("opened %s SLIChandle[%p]\n", SLICfile, SLIChandle); */
return SLIChandle;
close_slicdump:
DBG_MSG("[slicmon] slic_dump_open_file failed close SLIChandle[%p]\n",
SLIChandle);
filp_close(SLIChandle, NULL);
end_slicdump:
set_fs(card->dumpfile_fs);
return NULL;
}
static void slic_dump_close_file(struct sliccard *card)
{
/* DBG_MSG("[slicmon] slic_dump_CLOSE_file close SLIChandle[%p]\n",
card->dumphandle); */
filp_close(card->dumphandle, NULL);
set_fs(card->dumpfile_fs);
}
static u32 slic_dump_card(struct sliccard *card, bool resume)
{
struct adapter *adapter = card->master;
u32 status;
u32 queue;
u32 len, offset;
u32 sram_size, dram_size, regs;
struct sliccore_hdr corehdr;
u32 file_offset;
char *namestr;
u32 i;
u32 max_queues = 0;
u32 result;
card->dumphandle = slic_dump_open_file(card);
if (card->dumphandle == NULL) {
DBG_MSG("[slicmon] Cant create Dump file - dump failed\n");
return -ENOMEM;
}
if (!card->dumpbuffer) {
DBG_MSG("[slicmon] Insufficient memory for dump\n");
return -ENOMEM;
}
if (!card->cmdbuffer) {
DBG_MSG("[slicmon] Insufficient cmd memory for dump\n");
return -ENOMEM;
}
/*
* Write the file version to the core header.
*/
namestr = slic_proc_version;
for (i = 0; i < (DRIVER_NAME_SIZE - 1); i++, namestr++) {
if (!namestr)
break;
corehdr.driver_version[i] = *namestr;
}
corehdr.driver_version[i] = 0;
file_offset = sizeof(struct sliccore_hdr);
/*
* Issue the following debug commands to the SLIC:
* - Halt both receive and transmit
* - Dump receive registers
* - Dump transmit registers
* - Dump sram
* - Dump dram
* - Dump queues
*/
DBG_MSG("slicDump HALT Receive Processor\n");
card->dumptime_start = jiffies;
status = slic_dump_halt(card, PROC_RECEIVE);
if (status != STATUS_SUCCESS) {
DBG_ERROR
("Cant halt receive sequencer - dump failed status[%x]\n",
status);
goto done;
}
DBG_MSG("slicDump HALT Transmit Processor\n");
status = slic_dump_halt(card, PROC_TRANSMIT);
if (status != STATUS_SUCCESS) {
DBG_ERROR("Cant halt transmit sequencer - dump failed\n");
goto done;
}
/* Dump receive regs */
status = slic_dump_reg(card, PROC_RECEIVE);
if (status != STATUS_SUCCESS) {
DBG_ERROR("Cant dump receive registers - dump failed\n");
goto done;
}
DBG_MSG("slicDump Write Receive REGS len[%x] offset[%x]\n",
(SLIC_NUM_REG * 4), file_offset);
result =
slic_dump_write(card, card->dumpbuffer, SLIC_NUM_REG * 4,
file_offset);
if (!result) {
DBG_ERROR
("Cant write rcv registers to dump file - dump failed\n");
goto done;
}
corehdr.RcvRegOff = file_offset;
corehdr.RcvRegsize = SLIC_NUM_REG * 4;
file_offset += SLIC_NUM_REG * 4;
/* Dump transmit regs */
status = slic_dump_reg(card, PROC_TRANSMIT);
if (status != STATUS_SUCCESS) {
DBG_ERROR("Cant dump transmit registers - dump failed\n");
goto done;
}
DBG_MSG("slicDump Write XMIT REGS len[%x] offset[%x]\n",
(SLIC_NUM_REG * 4), file_offset);
result =
slic_dump_write(card, card->dumpbuffer, SLIC_NUM_REG * 4,
file_offset);
if (!result) {
DBG_ERROR
("Cant write xmt registers to dump file - dump failed\n");
goto done;
}
corehdr.XmtRegOff = file_offset;
corehdr.XmtRegsize = SLIC_NUM_REG * 4;
file_offset += SLIC_NUM_REG * 4;
regs = SLIC_GBMAX_REG;
corehdr.FileRegOff = file_offset;
corehdr.FileRegsize = regs * 4;
for (offset = 0; regs;) {
len = MIN(regs, 16); /* Can only xfr 16 regs at a time */
status = slic_dump_data(card, offset, (ushort) len, DESC_RFILE);
if (status != STATUS_SUCCESS) {
DBG_ERROR("Cant dump register file - dump failed\n");
goto done;
}
DBG_MSG("slicDump Write RegisterFile len[%x] offset[%x]\n",
(len * 4), file_offset);
result =
slic_dump_write(card, card->dumpbuffer, len * 4,
file_offset);
if (!result) {
DBG_ERROR
("Cant write register file to dump file - "
"dump failed\n");
goto done;
}
file_offset += len * 4;
offset += len;
regs -= len;
}
dram_size = card->config.DramSize * 0x10000;
switch (adapter->devid) {
case SLIC_2GB_DEVICE_ID:
sram_size = SLIC_SRAM_SIZE2GB;
break;
case SLIC_1GB_DEVICE_ID:
sram_size = SLIC_SRAM_SIZE1GB;
break;
default:
sram_size = 0;
ASSERT(0);
break;
}
corehdr.SramOff = file_offset;
corehdr.Sramsize = sram_size;
for (offset = 0; sram_size;) {
len = MIN(sram_size, DUMP_BUF_SIZE);
status = slic_dump_data(card, offset, (ushort) len, DESC_SRAM);
if (status != STATUS_SUCCESS) {
DBG_ERROR
("[slicmon] Cant dump SRAM at offset %x - "
"dump failed\n", (uint) offset);
goto done;
}
DBG_MSG("[slicmon] slicDump Write SRAM len[%x] offset[%x]\n",
len, file_offset);
result =
slic_dump_write(card, card->dumpbuffer, len, file_offset);
if (!result) {
DBG_ERROR
("[slicmon] Cant write SRAM to dump file - "
"dump failed\n");
goto done;
}
file_offset += len;
offset += len;
sram_size -= len;
}
corehdr.DramOff = file_offset;
corehdr.Dramsize = dram_size;
for (offset = 0; dram_size;) {
len = MIN(dram_size, DUMP_BUF_SIZE);
status = slic_dump_data(card, offset, (ushort) len, DESC_DRAM);
if (status != STATUS_SUCCESS) {
DBG_ERROR
("[slicmon] Cant dump dram at offset %x - "
"dump failed\n", (uint) offset);
goto done;
}
DBG_MSG("slicDump Write DRAM len[%x] offset[%x]\n", len,
file_offset);
result =
slic_dump_write(card, card->dumpbuffer, len, file_offset);
if (!result) {
DBG_ERROR
("[slicmon] Cant write DRAM to dump file - "
"dump failed\n");
goto done;
}
file_offset += len;
offset += len;
dram_size -= len;
}
max_queues = SLIC_MAX_QUEUE;
for (queue = 0; queue < max_queues; queue++) {
u32 *qarray = (u32 *) card->dumpbuffer;
u32 qarray_physl = card->dumpbuffer_physl;
u32 qarray_physh = card->dumpbuffer_physh;
u32 qstart;
u32 qdelta;
u32 qtotal = 0;
DBG_MSG("[slicmon] Start Dump of QUEUE #0x%x\n", (uint) queue);
for (offset = 0; offset < (DUMP_BUF_SIZE >> 2); offset++) {
qstart = jiffies;
qdelta = 0;
status = slic_dump_queue(card,
qarray_physl,
qarray_physh, queue);
qarray_physl += 4;
if (status != STATUS_SUCCESS)
break;
if (jiffies > qstart) {
qdelta = jiffies - qstart;
qtotal += qdelta;
}
}
if (offset)
qdelta = qtotal / offset;
else
qdelta = 0;
/* DBG_MSG(" slicDump Write QUEUE #0x%x len[%x] offset[%x] "
"avgjiffs[%x]\n", queue, (offset*4), file_offset, qdelta); */
result =
slic_dump_write(card, card->dumpbuffer, offset * 4,
file_offset);
if (!result) {
DBG_ERROR
("[slicmon] Cant write QUEUES to dump file - "
"dump failed\n");
goto done;
}
corehdr.queues[queue].queueOff = file_offset;
corehdr.queues[queue].queuesize = offset * 4;
file_offset += offset * 4;
/* DBG_MSG(" Reload QUEUE #0x%x elements[%x]\n", (uint)queue, offset);*/
/*
* Fill the queue back up
*/
for (i = 0; i < offset; i++) {
qstart = jiffies;
qdelta = 0;
status = slic_dump_load_queue(card, qarray[i], queue);
if (status != STATUS_SUCCESS)
break;
if (jiffies > qstart) {
qdelta = jiffies - qstart;
qtotal += qdelta;
}
}
if (offset)
qdelta = qtotal / offset;
else
qdelta = 0;
/* DBG_MSG(" Reload DONE avgjiffs[%x]\n", qdelta); */
resume = 1;
}
len = SLIC_GB_CAMAB_SZE * 4;
status = slic_dump_cam(card, 0, len, DUMP_CAM_A);
if (status != STATUS_SUCCESS) {
DBG_ERROR("[slicmon] Can't dump CAM_A - dump failed\n");
goto done;
}
result = slic_dump_write(card, card->dumpbuffer, len, file_offset);
if (result) {
DBG_ERROR
("[slicmon] Can't write CAM_A data to dump file - "
"dump failed\n");
goto done;
}
corehdr.CamAMOff = file_offset;
corehdr.CamASize = len;
file_offset += len;
len = SLIC_GB_CAMCD_SZE * 4;
status = slic_dump_cam(card, 0, len, DUMP_CAM_C);
if (status) {
DBG_ERROR("[slicmon] Can't dump CAM_C - dump failed\n");
goto done;
}
result = slic_dump_write(card, card->dumpbuffer, len, file_offset);
if (result) {
DBG_ERROR
("[slicmon] Can't write CAM_C data to dump file - "
"dump failed\n");
goto done;
}
corehdr.CamCMOff = file_offset;
corehdr.CamCSize = len;
file_offset += len;
done:
/*
* Write out the core header
*/
file_offset = 0;
DBG_MSG("[slicmon] Write CoreHeader len[%x] offset[%x]\n",
(uint) sizeof(struct sliccore_hdr), file_offset);
result =
slic_dump_write(card, &corehdr, sizeof(struct sliccore_hdr),
file_offset);
DBG_MSG("[slicmon] corehdr xoff[%x] xsz[%x]\n"
" roff[%x] rsz[%x] fileoff[%x] filesz[%x]\n"
" sramoff[%x] sramsz[%x], dramoff[%x] dramsz[%x]\n"
" corehdr_offset[%x]\n", corehdr.XmtRegOff,
corehdr.XmtRegsize, corehdr.RcvRegOff, corehdr.RcvRegsize,
corehdr.FileRegOff, corehdr.FileRegsize, corehdr.SramOff,
corehdr.Sramsize, corehdr.DramOff, corehdr.Dramsize,
(uint) sizeof(struct sliccore_hdr));
for (i = 0; i < max_queues; i++) {
DBG_MSG("[slicmon] QUEUE 0x%x offset[%x] size[%x]\n",
(uint) i, corehdr.queues[i].queueOff,
corehdr.queues[i].queuesize);
}
slic_dump_close_file(card);
if (resume) {
DBG_MSG("slicDump RESTART RECEIVE and XMIT PROCESSORS\n\n");
slic_dump_resume(card, PROC_RECEIVE);
slic_dump_resume(card, PROC_TRANSMIT);
}
return status;
}
static u32 slic_dump_halt(struct sliccard *card, unsigned char proc)
{
unsigned char *cmd = card->cmdbuffer;
*cmd = COMMAND_BYTE(CMD_HALT, 0, proc);
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh, 0, 0);
}
static u32 slic_dump_resume(struct sliccard *card, unsigned char proc)
{
unsigned char *cmd = card->cmdbuffer;
*cmd = COMMAND_BYTE(CMD_RUN, 0, proc);
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh, 0, 0);
}
static u32 slic_dump_reg(struct sliccard *card, unsigned char proc)
{
struct dump_cmd *dump = (struct dump_cmd *)card->cmdbuffer;
dump->cmd = COMMAND_BYTE(CMD_DUMP, 0, proc);
dump->desc = DESC_REG;
dump->count = 0;
dump->addr = 0;
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh,
card->dumpbuffer_physl,
card->dumpbuffer_physh);
}
static u32 slic_dump_data(struct sliccard *card,
u32 addr, ushort count, unsigned char desc)
{
struct dump_cmd *dump = (struct dump_cmd *)card->cmdbuffer;
dump->cmd = COMMAND_BYTE(CMD_DUMP, 0, PROC_RECEIVE);
dump->desc = desc;
dump->count = count;
dump->addr = addr;
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh,
card->dumpbuffer_physl,
card->dumpbuffer_physh);
}
static u32 slic_dump_queue(struct sliccard *card,
u32 addr, u32 buf_physh, u32 queue)
{
struct dump_cmd *dump = (struct dump_cmd *)card->cmdbuffer;
dump->cmd = COMMAND_BYTE(CMD_DUMP, 0, PROC_RECEIVE);
dump->desc = DESC_QUEUE;
dump->count = 1;
dump->addr = queue;
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh,
addr, card->dumpbuffer_physh);
}
static u32 slic_dump_load_queue(struct sliccard *card, u32 data,
u32 queue)
{
struct dump_cmd *load = (struct dump_cmd *) card->cmdbuffer;
load->cmd = COMMAND_BYTE(CMD_LOAD, 0, PROC_RECEIVE);
load->desc = DESC_QUEUE;
load->count = (ushort) queue;
load->addr = data;
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh, 0, 0);
}
static u32 slic_dump_cam(struct sliccard *card,
u32 addr, u32 count, unsigned char desc)
{
struct dump_cmd *dump = (struct dump_cmd *)card->cmdbuffer;
dump->cmd = COMMAND_BYTE(CMD_CAM_OPS, 0, PROC_NONE);
dump->desc = desc;
dump->count = count;
dump->addr = 0;
return slic_dump_send_cmd(card,
card->cmdbuffer_physl,
card->cmdbuffer_physh,
addr, card->dumpbuffer_physh);
}
static u32 slic_dump_send_cmd(struct sliccard *card,
u32 cmd_physl,
u32 cmd_physh,
u32 buf_physl, u32 buf_physh)
{
ulong timeout = msecs_to_jiffies(500); /* 500 msec */
u32 attempts = 5;
u32 delay = msecs_to_jiffies(10); /* 10 msec */
struct adapter *adapter = card->master;
ASSERT(adapter);
do {
/*
* Zero the Dumpstatus field of the adapter structure
*/
card->dumpstatus = 0;
/*
* Issue the dump command via a utility processor request.
*
* Kludge: We use the Informationbuffer parameter to hold
* the buffer address
*/
slic_upr_request(adapter, SLIC_UPR_DUMP, cmd_physl, cmd_physh,
buf_physl, buf_physh);
timeout += jiffies;
/*
* Spin until completion or timeout.
*/
while (!card->dumpstatus) {
int num_sleeps = 0;
if (jiffies > timeout) {
/*
* Complete the timed-out DUMP UPR request.
*/
slic_upr_request_complete(adapter, 0);
DBG_ERROR
("%s: TIMED OUT num_sleeps[%x] "
"status[%x]\n",
__func__, num_sleeps, STATUS_FAILURE);
return STATUS_FAILURE;
}
num_sleeps++;
SLIC_INTERRUPTIBLE_SLEEP_ON_TIMEOUT(card->dump_wq,
delay);
}
if (card->dumpstatus & ISR_UPCERR) {
/*
* Error (or queue empty)
*/
/* DBG_ERROR("[slicmon] %s: DUMP_STATUS & ISR_UPCERR status[%x]\n",
__func__, STATUS_FAILURE); */
return STATUS_FAILURE;
} else if (card->dumpstatus & ISR_UPCBSY) {
/*
* Retry
*/
DBG_ERROR("%s: ISR_UPCBUSY attempt[%x]\n", __func__,
attempts);
attempts--;
} else {
/*
* success
*/
return STATUS_SUCCESS;
}
} while (attempts);
DBG_ERROR("%s: GAVE UP AFTER SEVERAL ATTEMPTS status[%x]\n",
__func__, STATUS_FAILURE);
/*
* Gave up after several attempts
*/
return STATUS_FAILURE;
}
#endif
/*=============================================================================
=============================================================================
=== ===
=== *** END **** END **** END **** END *** ===
=== SLIC DUMP MANAGEMENT SECTION ===
=== ===
=== ===
=== ===
=============================================================================
============================================================================*/
/******************************************************************************/ /******************************************************************************/
/**************** MODULE INITIATION / TERMINATION FUNCTIONS ***************/ /**************** MODULE INITIATION / TERMINATION FUNCTIONS ***************/
/******************************************************************************/ /******************************************************************************/
......
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