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Commit e4a89040 authored by Adam Radford's avatar Adam Radford Committed by Linus Torvalds
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[PATCH] 3ware driver update for 2.5.6-pre3 

 - Fix bug in tw_aen_complete() where aen's could be lost.
   Fix tw_aen_drain_queue() to display useful info at init.
   Set tw_host->max_id for 12 port cards.
   Add ioctl support for raw command packet post from userspace
   with sglist fragments (parameter and io).
 - Fix read capacity to under report by 1 sector to fix get
   last sector ioctl.
 - Fix bug where more AEN codes weren't coming out during
   driver initialization.
   Improved handling of PCI aborts.
 - Fix bug in tw_findcards() where AEN code could be lost.
   Increase timeout in tw_aen_drain_queue() to 30 seconds.
 - Re-write raw command post with data ioctl method.
   Remove raid5 bounce buffers for raid5 for 6XXX for kernel 2.5
   Add tw_map/unmap_scsi_sg/single_data() for kernel 2.5
   Replace io_request_lock with host_lock for kernel 2.5
   Set max_cmd_len to 16 for 3dm for kernel 2.5
 - Set host->max_sectors back up to 256.
 - Modified pci parity error handling/clearing from config space
   during initialization.
 - Better handling of request sense opcode and sense information
   for failed commands.  Add tw_decode_sense().
   Replace all mdelay()'s with scsi_sleep().
 - Revert mdelay's and scsi_sleep's, this caused problems on
   some SMP systems.
 - Add pci_set_dma_mask(), rewrite kmalloc()/virt_to_bus() to
   pci_alloc/free_consistent().
parent fef4227e
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Showing with 550 additions and 374 deletions
drivers/scsi/3w-xxxx.c
View file @ e4a89040
......@@ -6,7 +6,7 @@
Arnaldo Carvalho de Melo <acme@conectiva.com.br>
Brad Strand <linux@3ware.com>
Copyright (C) 1999-2001 3ware Inc.
Copyright (C) 1999-2002 3ware Inc.
Kernel compatablity By: Andre Hedrick <andre@suse.com>
Non-Copyright (C) 2000 Andre Hedrick <andre@suse.com>
......@@ -106,17 +106,41 @@
Add entire aen code string list.
1.02.00.010 - Cleanup queueing code, fix jbod thoughput.
Fix get_param for specific units.
1.02.00.011 - Fix bug in tw_aen_complete() where aen's could be lost.
Fix tw_aen_drain_queue() to display useful info at init.
Set tw_host->max_id for 12 port cards.
Add ioctl support for raw command packet post from userspace
with sglist fragments (parameter and io).
1.02.00.012 - Fix read capacity to under report by 1 sector to fix get
last sector ioctl.
1.02.00.013 - Fix bug where more AEN codes weren't coming out during
driver initialization.
Improved handling of PCI aborts.
1.02.00.014 - Fix bug in tw_findcards() where AEN code could be lost.
Increase timeout in tw_aen_drain_queue() to 30 seconds.
1.02.00.015 - Re-write raw command post with data ioctl method.
Remove raid5 bounce buffers for raid5 for 6XXX for kernel 2.5
Add tw_map/unmap_scsi_sg/single_data() for kernel 2.5
Replace io_request_lock with host_lock for kernel 2.5
Set max_cmd_len to 16 for 3dm for kernel 2.5
1.02.00.016 - Set host->max_sectors back up to 256.
1.02.00.017 - Modified pci parity error handling/clearing from config space
during initialization.
1.02.00.018 - Better handling of request sense opcode and sense information
for failed commands. Add tw_decode_sense().
Replace all mdelay()'s with scsi_sleep().
1.02.00.019 - Revert mdelay's and scsi_sleep's, this caused problems on
some SMP systems.
1.02.00.020 - Add pci_set_dma_mask(), rewrite kmalloc()/virt_to_bus() to
pci_alloc/free_consistent().
*/
#error Please convert me to Documentation/DMA-mapping.txt
#include <linux/module.h>
MODULE_AUTHOR ("3ware Inc.");
MODULE_DESCRIPTION ("3ware Storage Controller Linux Driver");
MODULE_LICENSE("GPL");
#include <linux/kernel.h>
#include <linux/pci.h>
#include <linux/time.h>
......@@ -148,6 +172,9 @@ static int tw_copy_info(TW_Info *info, char *fmt, ...);
static void tw_copy_mem_info(TW_Info *info, char *data, int len);
static void tw_interrupt(int irq, void *dev_instance, struct pt_regs *regs);
static int tw_halt(struct notifier_block *nb, ulong event, void *buf);
static int tw_map_scsi_sg_data(struct pci_dev *pdev, Scsi_Cmnd *cmd);
static u32 tw_map_scsi_single_data(struct pci_dev *pdev, Scsi_Cmnd *cmd);
static void tw_unmap_scsi_data(struct pci_dev *pdev, Scsi_Cmnd *cmd);
/* Notifier block to get a notify on system shutdown/halt/reboot */
static struct notifier_block tw_notifier = {
......@@ -155,7 +182,7 @@ static struct notifier_block tw_notifier = {
};
/* Globals */
char *tw_driver_version="1.02.00.010";
char *tw_driver_version="1.02.00.020";
TW_Device_Extension *tw_device_extension_list[TW_MAX_SLOT];
int tw_device_extension_count = 0;
......@@ -166,6 +193,7 @@ int tw_aen_complete(TW_Device_Extension *tw_dev, int request_id)
{
TW_Param *param;
unsigned short aen;
int error = 0;
dprintk(KERN_WARNING "3w-xxxx: tw_aen_complete()\n");
if (tw_dev->alignment_virtual_address[request_id] == NULL) {
......@@ -184,11 +212,14 @@ int tw_aen_complete(TW_Device_Extension *tw_dev, int request_id)
if ((tw_aen_string[aen & 0xff][strlen(tw_aen_string[aen & 0xff])-1]) == '#') {
printk(KERN_WARNING "3w-xxxx: scsi%d: AEN: %s%d.\n", tw_dev->host->host_no, tw_aen_string[aen & 0xff], aen >> 8);
} else {
if (aen != 0x0)
printk(KERN_WARNING "3w-xxxx: scsi%d: AEN: %s.\n", tw_dev->host->host_no, tw_aen_string[aen & 0xff]);
}
} else
} else {
printk(KERN_WARNING "3w-xxxx: scsi%d: Received AEN %d.\n", tw_dev->host->host_no, aen);
}
}
if (aen != 0x0)
tw_dev->aen_count++;
/* Now queue the code */
......@@ -205,8 +236,18 @@ int tw_aen_complete(TW_Device_Extension *tw_dev, int request_id)
tw_dev->aen_head = tw_dev->aen_head + 1;
}
}
if (aen != TW_AEN_QUEUE_EMPTY) {
error = tw_aen_read_queue(tw_dev, request_id);
if (error) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Error completing AEN.\n", tw_dev->host->host_no);
tw_dev->state[request_id] = TW_S_COMPLETED;
tw_state_request_finish(tw_dev, request_id);
}
} else {
tw_dev->state[request_id] = TW_S_COMPLETED;
tw_state_request_finish(tw_dev, request_id);
}
return 0;
} /* End tw_aen_complete() */
......@@ -237,10 +278,11 @@ int tw_aen_drain_queue(TW_Device_Extension *tw_dev)
status_reg_addr = tw_dev->registers.status_reg_addr;
response_que_addr = tw_dev->registers.response_que_addr;
if (tw_poll_status(tw_dev, TW_STATUS_ATTENTION_INTERRUPT, 15)) {
if (tw_poll_status(tw_dev, TW_STATUS_ATTENTION_INTERRUPT, 30)) {
dprintk(KERN_WARNING "3w-xxxx: tw_aen_drain_queue(): No attention interrupt for card %d.\n", tw_device_extension_count);
return 1;
}
tw_clear_attention_interrupt(tw_dev);
/* Initialize command packet */
if (tw_dev->command_packet_virtual_address[request_id] == NULL) {
......@@ -311,8 +353,7 @@ int tw_aen_drain_queue(TW_Device_Extension *tw_dev)
if (command_packet->status != 0) {
if (command_packet->flags != TW_AEN_TABLE_UNDEFINED) {
/* Bad response */
dprintk(KERN_WARNING "3w-xxxx: tw_aen_drain_queue(): Bad response, status = 0x%x, flags = 0x%x.\n", command_packet->status, command_packet->flags);
tw_decode_error(tw_dev, command_packet->status, command_packet->flags, command_packet->byte3.unit);
tw_decode_sense(tw_dev, request_id, 0);
return 1;
} else {
/* We know this is a 3w-1x00, and doesn't support aen's */
......@@ -326,7 +367,7 @@ int tw_aen_drain_queue(TW_Device_Extension *tw_dev)
queue = 0;
switch (aen_code) {
case TW_AEN_QUEUE_EMPTY:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_QUEUE_EMPTY.\n");
dprintk(KERN_WARNING "3w-xxxx: AEN: %s.\n", tw_aen_string[aen & 0xff]);
if (first_reset != 1) {
continue;
} else {
......@@ -334,51 +375,28 @@ int tw_aen_drain_queue(TW_Device_Extension *tw_dev)
}
break;
case TW_AEN_SOFT_RESET:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_SOFT_RESET.\n");
if (first_reset == 0) {
first_reset = 1;
} else {
printk(KERN_WARNING "3w-xxxx: AEN: %s.\n", tw_aen_string[aen & 0xff]);
tw_dev->aen_count++;
queue = 1;
}
break;
case TW_AEN_DEGRADED_MIRROR:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_DEGRADED_MIRROR.\n");
queue = 1;
break;
case TW_AEN_CONTROLLER_ERROR:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_CONTROLLER_ERROR.\n");
queue = 1;
break;
case TW_AEN_REBUILD_FAIL:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_REBUILD_FAIL.\n");
queue = 1;
break;
case TW_AEN_REBUILD_DONE:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_REBUILD_DONE.\n");
queue = 1;
break;
case TW_AEN_QUEUE_FULL:
dprintk(KERN_NOTICE "3w-xxxx: tw_aen_drain_queue(): Found TW_AEN_QUEUE_FULL.\n");
queue = 1;
break;
case TW_AEN_APORT_TIMEOUT:
printk(KERN_WARNING "3w-xxxx: Received drive timeout AEN on port %d, check drive and drive cables.\n", aen >> 8);
queue = 1;
break;
case TW_AEN_DRIVE_ERROR:
printk(KERN_WARNING "3w-xxxx: Received drive error AEN on port %d, check/replace cabling, or possible bad drive.\n", aen >> 8);
queue = 1;
break;
case TW_AEN_SMART_FAIL:
printk(KERN_WARNING "3w-xxxx: Received S.M.A.R.T. threshold AEN on port %d, check drive/cooling, or possible bad drive.\n", aen >> 8);
queue = 1;
break;
case TW_AEN_SBUF_FAIL:
printk(KERN_WARNING "3w-xxxx: Received SBUF integrity check failure AEN, reseat card or bad card.\n");
queue = 1;
break;
default:
dprintk(KERN_WARNING "3w-xxxx: tw_aen_drain_queue(): Unknown AEN code 0x%x.\n", aen_code);
if (aen == 0x0ff) {
printk(KERN_WARNING "3w-xxxx: AEN: AEN queue overflow.\n");
} else {
if ((aen & 0x0ff) < TW_AEN_STRING_MAX) {
if ((tw_aen_string[aen & 0xff][strlen(tw_aen_string[aen & 0xff])-1]) == '#') {
printk(KERN_WARNING "3w-xxxx: AEN: %s%d.\n", tw_aen_string[aen & 0xff], aen >> 8);
} else {
printk(KERN_WARNING "3w-xxxx: AEN: %s.\n", tw_aen_string[aen & 0xff]);
}
} else
printk(KERN_WARNING "3w-xxxx: Received AEN %d.\n", aen);
}
tw_dev->aen_count++;
queue = 1;
}
......@@ -488,40 +506,44 @@ int tw_aen_read_queue(TW_Device_Extension *tw_dev, int request_id)
return 0;
} /* End tw_aen_read_queue() */
/* This function will allocate memory and check if it is 16 d-word aligned */
int tw_allocate_memory(TW_Device_Extension *tw_dev, int request_id, int size, int which)
/* This function will allocate memory */
int tw_allocate_memory(TW_Device_Extension *tw_dev, int size, int which)
{
u32 *virt_addr = kmalloc(size, GFP_ATOMIC);
int i;
dma_addr_t dma_handle;
u32 *cpu_addr = NULL;
dprintk(KERN_NOTICE "3w-xxxx: tw_allocate_memory()\n");
if (!virt_addr) {
printk(KERN_WARNING "3w-xxxx: tw_allocate_memory(): kmalloc() failed.\n");
for (i=0;i<TW_Q_LENGTH;i++) {
cpu_addr = pci_alloc_consistent(tw_dev->tw_pci_dev, size, &dma_handle);
if (cpu_addr == NULL) {
printk(KERN_WARNING "3w-xxxx: pci_alloc_consistent() failed.\n");
return 1;
}
if ((u32)virt_addr % TW_ALIGNMENT) {
kfree(virt_addr);
printk(KERN_WARNING "3w-xxxx: tw_allocate_memory(): Found unaligned address.\n");
if ((u32)cpu_addr % (tw_dev->tw_pci_dev->device == TW_DEVICE_ID ? TW_ALIGNMENT_6000 : TW_ALIGNMENT_7000)) {
printk(KERN_WARNING "3w-xxxx: Couldn't allocate correctly aligned memory.\n");
return 1;
}
switch(which) {
case 0:
tw_dev->command_packet_virtual_address[request_id] = virt_addr;
tw_dev->command_packet_physical_address[request_id] = virt_to_bus(virt_addr);
tw_dev->command_packet_virtual_address[i] = cpu_addr;
tw_dev->command_packet_physical_address[i] = dma_handle;
memset(tw_dev->command_packet_virtual_address[i], 0, size);
break;
case 1:
tw_dev->alignment_virtual_address[request_id] = virt_addr;
tw_dev->alignment_physical_address[request_id] = virt_to_bus(virt_addr);
break;
case 2:
tw_dev->bounce_buffer[request_id] = virt_addr;
tw_dev->alignment_virtual_address[i] = cpu_addr;
tw_dev->alignment_physical_address[i] = dma_handle;
memset(tw_dev->alignment_virtual_address[i], 0, size);
break;
default:
printk(KERN_WARNING "3w-xxxx: tw_allocate_memory(): case slip in tw_allocate_memory()\n");
return 1;
}
}
return 0;
} /* End tw_allocate_memory() */
......@@ -548,8 +570,10 @@ int tw_check_errors(TW_Device_Extension *tw_dev)
status_reg_addr = tw_dev->registers.status_reg_addr;
status_reg_value = inl(status_reg_addr);
if (TW_STATUS_ERRORS(status_reg_value) || tw_check_bits(status_reg_value))
if (TW_STATUS_ERRORS(status_reg_value) || tw_check_bits(status_reg_value)) {
tw_decode_bits(tw_dev, status_reg_value);
return 1;
}
return 0;
} /* End tw_check_errors() */
......@@ -614,37 +638,62 @@ void tw_decode_bits(TW_Device_Extension *tw_dev, u32 status_reg_value)
dprintk(KERN_WARNING "3w-xxxx: tw_decode_bits()\n");
switch (status_reg_value & TW_STATUS_UNEXPECTED_BITS) {
case TW_STATUS_PCI_PARITY_ERROR:
printk(KERN_WARNING "3w-xxxx: PCI Parity Error: Reseat card, move card, or buggy device on the bus.\n");
printk(KERN_WARNING "3w-xxxx: PCI Parity Error: clearing.\n");
outl(TW_CONTROL_CLEAR_PARITY_ERROR, tw_dev->registers.control_reg_addr);
pci_write_config_word(tw_dev->tw_pci_dev, PCI_STATUS, TW_PCI_CLEAR_PARITY_ERRORS);
break;
case TW_STATUS_MICROCONTROLLER_ERROR:
printk(KERN_WARNING "3w-xxxx: Microcontroller Error.\n");
break;
case TW_STATUS_PCI_ABORT:
printk(KERN_WARNING "3w-xxxx: PCI Abort: clearing.\n");
outl(TW_CONTROL_CLEAR_PCI_ABORT, tw_dev->registers.control_reg_addr);
pci_write_config_word(tw_dev->tw_pci_dev, PCI_STATUS, TW_PCI_CLEAR_PCI_ABORT);
break;
}
} /* End tw_decode_bits() */
/* This function will print readable messages from flags and status values */
void tw_decode_error(TW_Device_Extension *tw_dev, unsigned char status, unsigned char flags, unsigned char unit)
/* This function will return valid sense buffer information for failed cmds */
void tw_decode_sense(TW_Device_Extension *tw_dev, int request_id, int fill_sense)
{
dprintk(KERN_WARNING "3w-xxxx: tw_decode_error()\n");
switch (status) {
case 0xc7:
switch (flags) {
case 0x1b:
printk(KERN_WARNING "3w-xxxx: scsi%d: Drive timeout on unit %d, check drive and drive cables.\n", tw_dev->host->host_no, unit);
break;
case 0x51:
printk(KERN_WARNING "3w-xxxx: scsi%d: Unrecoverable drive error on unit %d, check/replace cabling, or possible bad drive.\n", tw_dev->host->host_no, unit);
break;
default:
printk(KERN_WARNING "3w-xxxx: scsi%d: Controller error: status = 0x%x, flags = 0x%x, unit #%d.\n", tw_dev->host->host_no, status, flags, unit);
int i, found=0;
TW_Command *command;
dprintk(KERN_WARNING "3w-xxxx: tw_decode_sense()\n");
command = (TW_Command *)tw_dev->command_packet_virtual_address[request_id];
printk(KERN_WARNING "3w-xxxx: scsi%d: Command failed: status = 0x%x, flags = 0x%x, unit #%d.\n", tw_dev->host->host_no, command->status, command->flags, command->byte3.unit);
/* Attempt to return intelligent sense information */
if (fill_sense) {
if ((command->status == 0xc7) || (command->status == 0xcb)) {
for (i=0;i<(sizeof(tw_sense_table)/sizeof(tw_sense_table[0]));i++) {
if (command->flags == tw_sense_table[i][0]) {
found=1;
/* Valid bit and 'current errors' */
tw_dev->srb[request_id]->sense_buffer[0] = (0x1 << 7 | 0x70);
/* Sense key */
tw_dev->srb[request_id]->sense_buffer[2] = tw_sense_table[i][1];
/* Additional sense length */
tw_dev->srb[request_id]->sense_buffer[7] = 0xa; /* 10 bytes */
/* Additional sense code */
tw_dev->srb[request_id]->sense_buffer[12] = tw_sense_table[i][2];
/* Additional sense code qualifier */
tw_dev->srb[request_id]->sense_buffer[13] = tw_sense_table[i][3];
tw_dev->srb[request_id]->result = (DID_OK << 16) | (CHECK_CONDITION << 1);
}
}
break;
default:
printk(KERN_WARNING "3w-xxxx: scsi%d: Controller error: status = 0x%x, flags = 0x%x, unit #%d.\n", tw_dev->host->host_no, status, flags, unit);
}
} /* End tw_decode_error() */
/* If no table match, error so we get a reset */
if (found == 0)
tw_dev->srb[request_id]->result = (DID_RESET << 16);
}
} /* End tw_decode_sense() */
/* This function will disable interrupts on the controller */
void tw_disable_interrupts(TW_Device_Extension *tw_dev)
......@@ -690,12 +739,23 @@ void tw_enable_interrupts(TW_Device_Extension *tw_dev)
{
u32 control_reg_value, control_reg_addr;
control_reg_addr = tw_dev->registers.control_reg_addr;
control_reg_value = (TW_CONTROL_ENABLE_INTERRUPTS |
TW_CONTROL_UNMASK_RESPONSE_INTERRUPT);
outl(control_reg_value, control_reg_addr);
} /* End tw_enable_interrupts() */
/* This function will enable interrupts on the controller */
void tw_enable_and_clear_interrupts(TW_Device_Extension *tw_dev)
{
u32 control_reg_value, control_reg_addr;
control_reg_addr = tw_dev->registers.control_reg_addr;
control_reg_value = (TW_CONTROL_CLEAR_ATTENTION_INTERRUPT |
TW_CONTROL_UNMASK_RESPONSE_INTERRUPT |
TW_CONTROL_ENABLE_INTERRUPTS);
outl(control_reg_value, control_reg_addr);
} /* End tw_enable_interrupts() */
} /* End tw_enable_and_clear_interrupts() */
/* This function will find and initialize all cards */
int tw_findcards(Scsi_Host_Template *tw_host)
......@@ -716,6 +776,13 @@ int tw_findcards(Scsi_Host_Template *tw_host)
while ((tw_pci_dev = pci_find_device(TW_VENDOR_ID, device[i], tw_pci_dev))) {
if (pci_enable_device(tw_pci_dev))
continue;
/* We only need 32-bit addressing for 5,6,7xxx cards */
if (pci_set_dma_mask(tw_pci_dev, 0xffffffff)) {
printk(KERN_WARNING "3w-xxxx: No suitable DMA available.\n");
continue;
}
/* Prepare temporary device extension */
tw_dev=(TW_Device_Extension *)kmalloc(sizeof(TW_Device_Extension), GFP_ATOMIC);
if (tw_dev == NULL) {
......@@ -724,6 +791,9 @@ int tw_findcards(Scsi_Host_Template *tw_host)
}
memset(tw_dev, 0, sizeof(TW_Device_Extension));
/* Save pci_dev struct to device extension */
tw_dev->tw_pci_dev = tw_pci_dev;
error = tw_initialize_device_extension(tw_dev);
if (error) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Couldn't initialize device extension for card %d.\n", numcards);
......@@ -738,8 +808,6 @@ int tw_findcards(Scsi_Host_Template *tw_host)
tw_dev->registers.status_reg_addr = pci_resource_start(tw_pci_dev, 0) + 0x4;
tw_dev->registers.command_que_addr = pci_resource_start(tw_pci_dev, 0) + 0x8;
tw_dev->registers.response_que_addr = pci_resource_start(tw_pci_dev, 0) + 0xC;
/* Save pci_dev struct to device extension */
tw_dev->tw_pci_dev = tw_pci_dev;
/* Check for errors and clear them */
status_reg_value = inl(tw_dev->registers.status_reg_addr);
......@@ -763,14 +831,14 @@ int tw_findcards(Scsi_Host_Template *tw_host)
error = tw_aen_drain_queue(tw_dev);
if (error) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): No attention interrupt for card %d.\n", numcards);
printk(KERN_WARNING "3w-xxxx: AEN drain failed for card %d.\n", numcards);
tries++;
continue;
}
/* Check for controller errors */
if (tw_check_errors(tw_dev)) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Controller errors found, soft resetting card %d.\n", numcards);
printk(KERN_WARNING "3w-xxxx: Controller errors found, retrying for card %d.\n", numcards);
tries++;
continue;
}
......@@ -778,7 +846,7 @@ int tw_findcards(Scsi_Host_Template *tw_host)
/* Empty the response queue */
error = tw_empty_response_que(tw_dev);
if (error) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Couldn't empty response queue for card %d.\n", numcards);
printk(KERN_WARNING "3w-xxxx: Couldn't empty response queue, retrying for card %d.\n", numcards);
tries++;
continue;
}
......@@ -788,7 +856,7 @@ int tw_findcards(Scsi_Host_Template *tw_host)
}
if (tries >= TW_MAX_RESET_TRIES) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Controller error or no attention interrupt: giving up for card %d.\n", numcards);
printk(KERN_WARNING "3w-xxxx: Controller errors, card not responding, check all cabling for card %d.\n", numcards);
tw_free_device_extension(tw_dev);
kfree(tw_dev);
continue;
......@@ -818,7 +886,7 @@ int tw_findcards(Scsi_Host_Template *tw_host)
error = tw_initconnection(tw_dev, TW_INIT_MESSAGE_CREDITS);
if (error) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Couldn't initconnection for card %d.\n", numcards);
printk(KERN_WARNING "3w-xxxx: Connection initialization failed for card %d.\n", numcards);
release_region((tw_dev->tw_pci_dev->resource[0].start), TW_IO_ADDRESS_RANGE);
tw_free_device_extension(tw_dev);
kfree(tw_dev);
......@@ -827,29 +895,28 @@ int tw_findcards(Scsi_Host_Template *tw_host)
/* Calculate max cmds per lun, and setup queues */
if (tw_dev->num_units > 0) {
if ((tw_dev->num_raid_five > 0) && (tw_dev->tw_pci_dev->device == TW_DEVICE_ID)) {
tw_host->cmd_per_lun = (TW_MAX_BOUNCEBUF-1)/tw_dev->num_units;
tw_dev->free_head = TW_Q_START;
tw_dev->free_tail = TW_MAX_BOUNCEBUF - 1;
tw_dev->free_wrap = TW_MAX_BOUNCEBUF - 1;
} else {
tw_host->cmd_per_lun = (TW_Q_LENGTH-1)/tw_dev->num_units;
tw_dev->free_head = TW_Q_START;
tw_dev->free_tail = TW_Q_LENGTH - 1;
tw_dev->free_wrap = TW_Q_LENGTH - 1;
}
}
/* Register the card with the kernel SCSI layer */
host = scsi_register(tw_host, sizeof(TW_Device_Extension));
if (host == NULL) {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): scsi_register() failed for card %d.\n", numcards-1);
printk(KERN_WARNING "3w-xxxx: tw_findcards(): scsi_register() failed for card %d.\n", numcards);
release_region((tw_dev->tw_pci_dev->resource[0].start), TW_IO_ADDRESS_RANGE);
tw_free_device_extension(tw_dev);
kfree(tw_dev);
continue;
}
/* Set max target id's */
host->max_id = TW_MAX_UNITS;
/* Set max cdb size in bytes */
host->max_cmd_len = 16;
/* Set max sectors per io */
#if LINUX_VERSION_CODE >= KERNEL_VERSION(2,4,7)
host->max_sectors = TW_MAX_SECTORS;
......@@ -874,7 +941,7 @@ int tw_findcards(Scsi_Host_Template *tw_host)
tw_device_extension_count = numcards;
tw_dev2->host = host;
} else {
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Bad scsi host data for card %d.\n", numcards-1);
printk(KERN_WARNING "3w-xxxx: tw_findcards(): Bad scsi host data for card %d.\n", numcards);
scsi_unregister(host);
release_region((tw_dev->tw_pci_dev->resource[0].start), TW_IO_ADDRESS_RANGE);
tw_free_device_extension(tw_dev);
......@@ -924,15 +991,10 @@ void tw_free_device_extension(TW_Device_Extension *tw_dev)
/* Free command packet and generic buffer memory */
for (i=0;i<TW_Q_LENGTH;i++) {
if (tw_dev->command_packet_virtual_address[i])
kfree(tw_dev->command_packet_virtual_address[i]);
pci_free_consistent(tw_dev->tw_pci_dev, sizeof(TW_Sector), tw_dev->command_packet_virtual_address[i], tw_dev->command_packet_physical_address[i]);
if (tw_dev->alignment_virtual_address[i])
kfree(tw_dev->alignment_virtual_address[i]);
}
for (i=0;i<TW_MAX_BOUNCEBUF;i++) {
if (tw_dev->bounce_buffer[i])
kfree(tw_dev->bounce_buffer[i]);
pci_free_consistent(tw_dev->tw_pci_dev, sizeof(TW_Sector), tw_dev->alignment_virtual_address[i], tw_dev->alignment_physical_address[i]);
}
} /* End tw_free_device_extension() */
......@@ -1015,8 +1077,7 @@ int tw_initconnection(TW_Device_Extension *tw_dev, int message_credits)
}
if (command_packet->status != 0) {
/* bad response */
dprintk(KERN_WARNING "3w-xxxx: tw_initconnection(): Bad response, status = 0x%x, flags = 0x%x.\n", command_packet->status, command_packet->flags);
tw_decode_error(tw_dev, command_packet->status, command_packet->flags, command_packet->byte3.unit);
tw_decode_sense(tw_dev, request_id, 0);
return 1;
}
break; /* Response was okay, so we exit */
......@@ -1028,57 +1089,33 @@ int tw_initconnection(TW_Device_Extension *tw_dev, int message_credits)
/* This function will initialize the fields of a device extension */
int tw_initialize_device_extension(TW_Device_Extension *tw_dev)
{
int i, imax;
int i, error=0;
dprintk(KERN_NOTICE "3w-xxxx: tw_initialize_device_extension()\n");
imax = TW_Q_LENGTH;
for (i=0; i<imax; i++) {
/* Initialize command packet buffers */
tw_allocate_memory(tw_dev, i, sizeof(TW_Sector), 0);
if (tw_dev->command_packet_virtual_address[i] == NULL) {
printk(KERN_WARNING "3w-xxxx: tw_initialize_device_extension(): Bad command packet virtual address.\n");
error = tw_allocate_memory(tw_dev, sizeof(TW_Command), 0);
if (error) {
printk(KERN_WARNING "3w-xxxx: Command packet memory allocation failed.\n");
return 1;
}
memset(tw_dev->command_packet_virtual_address[i], 0, sizeof(TW_Sector));
/* Initialize generic buffer */
tw_allocate_memory(tw_dev, i, sizeof(TW_Sector), 1);
if (tw_dev->alignment_virtual_address[i] == NULL) {
printk(KERN_WARNING "3w-xxxx: tw_initialize_device_extension(): Bad alignment virtual address.\n");
error = tw_allocate_memory(tw_dev, sizeof(TW_Sector), 1);
if (error) {
printk(KERN_WARNING "3w-xxxx: Generic memory allocation failed.\n");
return 1;
}
memset(tw_dev->alignment_virtual_address[i], 0, sizeof(TW_Sector));
for (i=0;i<TW_Q_LENGTH;i++) {
tw_dev->free_queue[i] = i;
tw_dev->state[i] = TW_S_INITIAL;
tw_dev->ioctl_size[i] = 0;
tw_dev->aen_queue[i] = 0;
}
for (i=0;i<TW_MAX_UNITS;i++) {
tw_dev->is_unit_present[i] = 0;
tw_dev->is_raid_five[i] = 0;
}
tw_dev->num_units = 0;
tw_dev->num_aborts = 0;
tw_dev->num_resets = 0;
tw_dev->posted_request_count = 0;
tw_dev->max_posted_request_count = 0;
tw_dev->max_sgl_entries = 0;
tw_dev->sgl_entries = 0;
tw_dev->host = NULL;
tw_dev->pending_head = TW_Q_START;
tw_dev->pending_tail = TW_Q_START;
tw_dev->aen_head = 0;
tw_dev->aen_tail = 0;
tw_dev->sector_count = 0;
tw_dev->max_sector_count = 0;
tw_dev->aen_count = 0;
tw_dev->num_raid_five = 0;
spin_lock_init(&tw_dev->tw_lock);
tw_dev->flags = 0;
return 0;
} /* End tw_initialize_device_extension() */
......@@ -1089,14 +1126,13 @@ int tw_initialize_units(TW_Device_Extension *tw_dev)
unsigned char request_id = 0;
TW_Command *command_packet;
TW_Param *param;
int i, j, imax, num_units = 0, num_raid_five = 0;
int i, imax, num_units = 0;
u32 status_reg_addr, status_reg_value;
u32 command_que_addr, command_que_value;
u32 response_que_addr;
TW_Response_Queue response_queue;
u32 param_value;
unsigned char *is_unit_present;
unsigned char *raid_level;
dprintk(KERN_NOTICE "3w-xxxx: tw_initialize_units()\n");
......@@ -1168,8 +1204,7 @@ int tw_initialize_units(TW_Device_Extension *tw_dev)
}
if (command_packet->status != 0) {
/* bad response */
dprintk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Bad response, status = 0x%x, flags = 0x%x.\n", command_packet->status, command_packet->flags);
tw_decode_error(tw_dev, command_packet->status, command_packet->flags, command_packet->byte3.unit);
tw_decode_sense(tw_dev, request_id, 0);
return 1;
}
found = 1;
......@@ -1205,109 +1240,6 @@ int tw_initialize_units(TW_Device_Extension *tw_dev)
return 1;
}
/* Find raid 5 arrays */
for (j=0;j<TW_MAX_UNITS;j++) {
if (tw_dev->is_unit_present[j] == 0)
continue;
command_packet = (TW_Command *)tw_dev->command_packet_virtual_address[request_id];
if (command_packet == NULL) {
printk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Bad command packet virtual address.\n");
return 1;
}
memset(command_packet, 0, sizeof(TW_Sector));
command_packet->byte0.opcode = TW_OP_GET_PARAM;
command_packet->byte0.sgl_offset = 2;
command_packet->size = 4;
command_packet->request_id = request_id;
command_packet->byte3.unit = 0;
command_packet->byte3.host_id = 0;
command_packet->status = 0;
command_packet->flags = 0;
command_packet->byte6.block_count = 1;
/* Now setup the param */
if (tw_dev->alignment_virtual_address[request_id] == NULL) {
printk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Bad alignment virtual address.\n");
return 1;
}
param = (TW_Param *)tw_dev->alignment_virtual_address[request_id];
memset(param, 0, sizeof(TW_Sector));
param->table_id = 0x300+j; /* unit summary table */
param->parameter_id = 0x6; /* unit descriptor */
param->parameter_size_bytes = 0xc;
param_value = tw_dev->alignment_physical_address[request_id];
if (param_value == 0) {
printk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Bad alignment physical address.\n");
return 1;
}
command_packet->byte8.param.sgl[0].address = param_value;
command_packet->byte8.param.sgl[0].length = sizeof(TW_Sector);
/* Post the command packet to the board */
command_que_value = tw_dev->command_packet_physical_address[request_id];
if (command_que_value == 0) {
printk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Bad command packet physical address.\n");
return 1;
}
outl(command_que_value, command_que_addr);
/* Poll for completion */
imax = TW_POLL_MAX_RETRIES;
for(i=0; i<imax; i++) {
mdelay(5);
status_reg_value = inl(status_reg_addr);
if (tw_check_bits(status_reg_value)) {
dprintk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Unexpected bits.\n");
tw_decode_bits(tw_dev, status_reg_value);
return 1;
}
if ((status_reg_value & TW_STATUS_RESPONSE_QUEUE_EMPTY) == 0) {
response_queue.value = inl(response_que_addr);
request_id = (unsigned char)response_queue.u.response_id;
if (request_id != 0) {
/* unexpected request id */
printk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Unexpected request id.\n");
return 1;
}
if (command_packet->status != 0) {
/* bad response */
dprintk(KERN_WARNING "3w-xxxx: tw_initialize_units(): Bad response, status = 0x%x, flags = 0x%x.\n", command_packet->status, command_packet->flags);
tw_decode_error(tw_dev, command_packet->status, command_packet->flags, command_packet->byte3.unit);
return 1;
}
found = 1;
break;
}
}
if (found == 0) {
/* response never received */
printk(KERN_WARNING "3w-xxxx: tw_initialize_units(): No response.\n");
return 1;
}
param = (TW_Param *)tw_dev->alignment_virtual_address[request_id];
raid_level = (unsigned char *)&(param->data[1]);
if (*raid_level == 5) {
dprintk(KERN_WARNING "3w-xxxx: Found unit %d to be a raid5 unit.\n", j);
tw_dev->is_raid_five[j] = 1;
num_raid_five++;
}
}
tw_dev->num_raid_five = num_raid_five;
/* Now allocate raid5 bounce buffers */
if ((num_raid_five != 0) && (tw_dev->tw_pci_dev->device == TW_DEVICE_ID)) {
for (i=0;i<TW_MAX_BOUNCEBUF;i++) {
tw_allocate_memory(tw_dev, i, sizeof(TW_Sector)*TW_MAX_SECTORS, 2);
if (tw_dev->bounce_buffer[i] == NULL) {
printk(KERN_WARNING "3w-xxxx: Bounce buffer allocation failed.\n");
return 1;
}
memset(tw_dev->bounce_buffer[i], 0, sizeof(TW_Sector)*TW_MAX_SECTORS);
}
}
return 0;
} /* End tw_initialize_units() */
......@@ -1332,13 +1264,18 @@ static void tw_interrupt(int irq, void *dev_instance, struct pt_regs *regs)
if (tw_dev->tw_pci_dev->irq == irq) {
spin_lock(&tw_dev->tw_lock);
dprintk(KERN_NOTICE "3w-xxxx: tw_interrupt()\n");
dprintk(KERN_WARNING "3w-xxxx: tw_interrupt()\n");
/* Read the registers */
status_reg_addr = tw_dev->registers.status_reg_addr;
response_que_addr = tw_dev->registers.response_que_addr;
status_reg_value = inl(status_reg_addr);
if (tw_check_bits(status_reg_value)) {
dprintk(KERN_WARNING "3w-xxxx: tw_interrupt(): Unexpected bits.\n");
tw_decode_bits(tw_dev, status_reg_value);
}
/* Check which interrupt */
if (status_reg_value & TW_STATUS_HOST_INTERRUPT)
do_host_interrupt=1;
......@@ -1403,9 +1340,10 @@ static void tw_interrupt(int irq, void *dev_instance, struct pt_regs *regs)
command_packet = (TW_Command *)tw_dev->command_packet_virtual_address[request_id];
error = 0;
if (command_packet->status != 0) {
dprintk(KERN_WARNING "3w-xxxx: tw_interrupt(): Bad response, status = 0x%x, flags = 0x%x, unit = 0x%x.\n", command_packet->status, command_packet->flags, command_packet->byte3.unit);
tw_decode_error(tw_dev, command_packet->status, command_packet->flags, command_packet->byte3.unit);
error = 1;
/* Bad response */
if (tw_dev->srb[request_id] != 0)
tw_decode_sense(tw_dev, request_id, 1);
error = 3;
}
if (tw_dev->state[request_id] != TW_S_POSTED) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Received a request id (%d) (opcode = 0x%x) that wasn't posted.\n", tw_dev->host->host_no, request_id, command_packet->byte0.opcode);
......@@ -1455,18 +1393,23 @@ static void tw_interrupt(int irq, void *dev_instance, struct pt_regs *regs)
tw_dev->srb[request_id]->result = (DID_BAD_TARGET << 16);
tw_dev->srb[request_id]->scsi_done(tw_dev->srb[request_id]);
}
if (error) {
if (error == 1) {
/* Tell scsi layer there was an error */
dprintk(KERN_WARNING "3w-xxxx: tw_interrupt(): Scsi Error.\n");
tw_dev->srb[request_id]->result = (DID_RESET << 16);
} else {
}
if (error == 0) {
/* Tell scsi layer command was a success */
tw_dev->srb[request_id]->result = (DID_OK << 16);
}
if (error != 2) {
tw_dev->state[request_id] = TW_S_COMPLETED;
tw_state_request_finish(tw_dev, request_id);
tw_dev->posted_request_count--;
tw_dev->srb[request_id]->scsi_done(tw_dev->srb[request_id]);
tw_unmap_scsi_data(tw_dev->tw_pci_dev, tw_dev->srb[request_id]);
}
status_reg_value = inl(status_reg_addr);
if (tw_check_bits(status_reg_value)) {
dprintk(KERN_WARNING "3w-xxxx: tw_interrupt(): Unexpected bits.\n");
......@@ -1485,13 +1428,16 @@ static void tw_interrupt(int irq, void *dev_instance, struct pt_regs *regs)
int tw_ioctl(TW_Device_Extension *tw_dev, int request_id)
{
unsigned char opcode;
int bufflen;
int bufflen, error = 0;
TW_Param *param;
TW_Command *command_packet;
TW_Command *command_packet, *command_save;
u32 param_value;
TW_Ioctl *ioctl = NULL;
TW_Passthru *passthru = NULL;
int tw_aen_code;
int tw_aen_code, i, use_sg;
char *data_ptr;
int total_bytes = 0;
dma_addr_t dma_handle;
ioctl = (TW_Ioctl *)tw_dev->srb[request_id]->request_buffer;
if (ioctl == NULL) {
......@@ -1598,7 +1544,7 @@ int tw_ioctl(TW_Device_Extension *tw_dev, int request_id)
printk(KERN_WARNING "3w-xxxx: tw_ioctl(): Passthru size (%ld) too big.\n", passthru->sg_list[0].length);
return 1;
}
passthru->sg_list[0].address = virt_to_bus(tw_dev->alignment_virtual_address[request_id]);
passthru->sg_list[0].address = tw_dev->alignment_physical_address[request_id];
tw_post_command_packet(tw_dev, request_id);
return 0;
case TW_CMD_PACKET:
......@@ -1612,6 +1558,161 @@ int tw_ioctl(TW_Device_Extension *tw_dev, int request_id)
printk(KERN_WARNING "3w-xxxx: tw_ioctl(): ioctl->data NULL.\n");
return 1;
}
case TW_CMD_PACKET_WITH_DATA:
dprintk(KERN_WARNING "3w-xxxx: tw_ioctl(): caught TW_CMD_PACKET_WITH_DATA.\n");
command_save = (TW_Command *)tw_dev->alignment_virtual_address[request_id];
if (command_save == NULL) {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Bad alignment virtual address.\n", tw_dev->host->host_no);
return 1;
}
if (ioctl->data != NULL) {
/* Copy down the command packet */
memcpy(command_packet, ioctl->data, sizeof(TW_Command));
memcpy(command_save, ioctl->data, sizeof(TW_Command));
command_packet->request_id = request_id;
/* Now deal with the two possible sglists */
if (command_packet->byte0.sgl_offset == 2) {
use_sg = command_packet->size - 3;
for (i=0;i<use_sg;i++)
total_bytes+=command_packet->byte8.param.sgl[i].length;
tw_dev->ioctl_data[request_id] = pci_alloc_consistent(tw_dev->tw_pci_dev, total_bytes, &dma_handle);
if (!tw_dev->ioctl_data[request_id]) {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): kmalloc failed for request_id %d.\n", tw_dev->host->host_no, request_id);
return 1;
}
/* Copy param sglist into the kernel */
data_ptr = tw_dev->ioctl_data[request_id];
for (i=0;i<use_sg;i++) {
if ((u32 *)command_packet->byte8.param.sgl[i].address != NULL) {
error = copy_from_user(data_ptr, (u32 *)command_packet->byte8.param.sgl[i].address, command_packet->byte8.param.sgl[i].length);
if (error) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Error copying param sglist from userspace.\n", tw_dev->host->host_no);
goto tw_ioctl_bail;
}
} else {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Bad param sgl address.\n", tw_dev->host->host_no);
tw_dev->srb[request_id]->result = (DID_RESET << 16);
goto tw_ioctl_bail;
}
data_ptr+=command_packet->byte8.param.sgl[i].length;
}
command_packet->size = 4;
command_packet->byte8.param.sgl[0].address = dma_handle;
command_packet->byte8.param.sgl[0].length = total_bytes;
}
if (command_packet->byte0.sgl_offset == 3) {
use_sg = command_packet->size - 4;
for (i=0;i<use_sg;i++)
total_bytes+=command_packet->byte8.io.sgl[i].length;
tw_dev->ioctl_data[request_id] = pci_alloc_consistent(tw_dev->tw_pci_dev, total_bytes, &dma_handle);
if (!tw_dev->ioctl_data[request_id]) {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): pci_alloc_consistent() failed for request_id %d.\n", tw_dev->host->host_no, request_id);
return 1;
}
if (command_packet->byte0.opcode == TW_OP_WRITE) {
/* Copy io sglist into the kernel */
data_ptr = tw_dev->ioctl_data[request_id];
for (i=0;i<use_sg;i++) {
if ((u32 *)command_packet->byte8.io.sgl[i].address != NULL) {
error = copy_from_user(data_ptr, (u32 *)command_packet->byte8.io.sgl[i].address, command_packet->byte8.io.sgl[i].length);
if (error) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Error copying io sglist from userspace.\n", tw_dev->host->host_no);
goto tw_ioctl_bail;
}
} else {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Bad io sgl address.\n", tw_dev->host->host_no);
tw_dev->srb[request_id]->result = (DID_RESET << 16);
goto tw_ioctl_bail;
}
data_ptr+=command_packet->byte8.io.sgl[i].length;
}
}
command_packet->size = 5;
command_packet->byte8.io.sgl[0].address = dma_handle;
command_packet->byte8.io.sgl[0].length = total_bytes;
}
spin_unlock_irq(tw_dev->host->host_lock);
spin_unlock_irq(&tw_dev->tw_lock);
/* Finally post the command packet */
tw_post_command_packet(tw_dev, request_id);
mdelay(TW_IOCTL_WAIT_TIME);
spin_lock_irq(&tw_dev->tw_lock);
spin_lock_irq(tw_dev->host->host_lock);
if (signal_pending(current)) {
dprintk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Signal pending, aborting ioctl().\n", tw_dev->host->host_no);
tw_dev->srb[request_id]->result = (DID_OK << 16);
goto tw_ioctl_bail;
}
tw_dev->srb[request_id]->result = (DID_OK << 16);
/* Now copy up the param or io sglist to userspace */
if (command_packet->byte0.sgl_offset == 2) {
use_sg = command_save->size - 3;
data_ptr = phys_to_virt(command_packet->byte8.param.sgl[0].address);
for (i=0;i<use_sg;i++) {
if ((u32 *)command_save->byte8.param.sgl[i].address != NULL) {
error = copy_to_user((u32 *)command_save->byte8.param.sgl[i].address, data_ptr, command_save->byte8.param.sgl[i].length);
if (error) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Error copying param sglist to userspace.\n", tw_dev->host->host_no);
goto tw_ioctl_bail;
}
dprintk(KERN_WARNING "3w-xxxx: scsi%d: Copied %ld bytes to pid %d.\n", tw_dev->host->host_no, command_save->byte8.param.sgl[i].length, current->pid);
data_ptr+=command_save->byte8.param.sgl[i].length;
} else {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Bad param sgl address.\n", tw_dev->host->host_no);
tw_dev->srb[request_id]->result = (DID_RESET << 16);
goto tw_ioctl_bail;
}
}
}
if (command_packet->byte0.sgl_offset == 3) {
use_sg = command_save->size - 4;
if (command_packet->byte0.opcode == TW_OP_READ) {
data_ptr = phys_to_virt(command_packet->byte8.io.sgl[0].address);
for(i=0;i<use_sg;i++) {
if ((u32 *)command_save->byte8.io.sgl[i].address != NULL) {
error = copy_to_user((u32 *)command_save->byte8.io.sgl[i].address, data_ptr, command_save->byte8.io.sgl[i].length);
if (error) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Error copying io sglist to userspace.\n", tw_dev->host->host_no);
goto tw_ioctl_bail;
}
dprintk(KERN_WARNING "3w-xxxx: scsi%d: Copied %ld bytes to pid %d.\n", tw_dev->host->host_no, command_save->byte8.io.sgl[i].length, current->pid);
data_ptr+=command_save->byte8.io.sgl[i].length;
} else {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Bad io sgl address.\n", tw_dev->host->host_no);
tw_dev->srb[request_id]->result = (DID_RESET << 16);
goto tw_ioctl_bail;
}
}
}
}
tw_ioctl_bail:
/* Free up sglist memory */
if (tw_dev->ioctl_data[request_id])
pci_free_consistent(tw_dev->tw_pci_dev, total_bytes, tw_dev->ioctl_data[request_id], dma_handle);
else
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl(): Error freeing ioctl data.\n", tw_dev->host->host_no);
/* Now complete the io */
tw_dev->state[request_id] = TW_S_COMPLETED;
tw_state_request_finish(tw_dev, request_id);
tw_dev->posted_request_count--;
tw_dev->srb[request_id]->scsi_done(tw_dev->srb[request_id]);
return 0;
} else {
printk(KERN_WARNING "3w-xxxx: tw_ioctl(): ioctl->data NULL.\n");
return 1;
}
default:
printk(KERN_WARNING "3w-xxxx: Unknown ioctl 0x%x.\n", opcode);
tw_dev->state[request_id] = TW_S_COMPLETED;
......@@ -1655,6 +1756,7 @@ int tw_ioctl_complete(TW_Device_Extension *tw_dev, int request_id)
TW_Param *param;
TW_Ioctl *ioctl = NULL;
TW_Passthru *passthru = NULL;
TW_Command *command_packet;
ioctl = (TW_Ioctl *)tw_dev->srb[request_id]->request_buffer;
dprintk(KERN_NOTICE "3w-xxxx: tw_ioctl_complete()\n");
......@@ -1663,6 +1765,13 @@ int tw_ioctl_complete(TW_Device_Extension *tw_dev, int request_id)
printk(KERN_WARNING "3w-xxxx: tw_ioctl_complete(): Request buffer NULL.\n");
return 1;
}
command_packet = (TW_Command *)tw_dev->command_packet_virtual_address[request_id];
if (command_packet == NULL) {
printk(KERN_WARNING "3w-xxxx: scsi%d: tw_ioctl_complete(): Bad command packet virtual address.\n", tw_dev->host->host_no);
return 1;
}
dprintk(KERN_NOTICE "3w-xxxx: tw_ioctl_complete(): Request_bufflen = %d\n", tw_dev->srb[request_id]->request_bufflen);
ioctl = (TW_Ioctl *)buff;
......@@ -1671,6 +1780,9 @@ int tw_ioctl_complete(TW_Device_Extension *tw_dev, int request_id)
passthru = (TW_Passthru *)ioctl->data;
memcpy(buff, tw_dev->alignment_virtual_address[request_id], passthru->sector_count * 512);
break;
case TW_CMD_PACKET_WITH_DATA:
dprintk(KERN_WARNING "3w-xxxx: tw_ioctl_complete(): caught TW_CMD_PACKET_WITH_DATA.\n");
return 2; /* Special case for isr to not complete io */
default:
memset(buff, 0, tw_dev->srb[request_id]->request_bufflen);
param = (TW_Param *)tw_dev->alignment_virtual_address[request_id];
......@@ -1684,6 +1796,40 @@ int tw_ioctl_complete(TW_Device_Extension *tw_dev, int request_id)
return 0;
} /* End tw_ioctl_complete() */
static int tw_map_scsi_sg_data(struct pci_dev *pdev, Scsi_Cmnd *cmd)
{
int use_sg;
int dma_dir = scsi_to_pci_dma_dir(cmd->sc_data_direction);
dprintk(KERN_WARNING "3w-xxxx: tw_map_scsi_sg_data()\n");
if (cmd->use_sg == 0)
return 0;
use_sg = pci_map_sg(pdev, cmd->buffer, cmd->use_sg, dma_dir);
cmd->SCp.phase = 2;
cmd->SCp.have_data_in = use_sg;
return use_sg;
} /* End tw_map_scsi_sg_data() */
static u32 tw_map_scsi_single_data(struct pci_dev *pdev, Scsi_Cmnd *cmd)
{
dma_addr_t mapping;
int dma_dir = scsi_to_pci_dma_dir(cmd->sc_data_direction);
dprintk(KERN_WARNING "3w-xxxx: tw_map_scsi_single_data()\n");
if (cmd->request_bufflen == 0)
return 0;
mapping = pci_map_single(pdev, cmd->request_buffer, cmd->request_bufflen, dma_dir);
cmd->SCp.phase = 2;
cmd->SCp.have_data_in = mapping;
return mapping;
} /* End tw_map_scsi_single_data() */
/* This function will mask the command interrupt */
void tw_mask_command_interrupt(TW_Device_Extension *tw_dev)
{
......@@ -1704,14 +1850,25 @@ int tw_poll_status(TW_Device_Extension *tw_dev, u32 flag, int seconds)
do_gettimeofday(&before);
status_reg_value = inl(status_reg_addr);
if (tw_check_bits(status_reg_value)) {
dprintk(KERN_WARNING "3w-xxxx: tw_poll_status(): Unexpected bits.\n");
tw_decode_bits(tw_dev, status_reg_value);
}
while ((status_reg_value & flag) != flag) {
status_reg_value = inl(status_reg_addr);
if (tw_check_bits(status_reg_value)) {
dprintk(KERN_WARNING "3w-xxxx: tw_poll_status(): Unexpected bits.\n");
tw_decode_bits(tw_dev, status_reg_value);
}
do_gettimeofday(&timeout);
if (before.tv_sec + seconds < timeout.tv_sec) {
dprintk(KERN_WARNING "3w-xxxx: tw_poll_status(): Flag 0x%x not found.\n", flag);
return 1;
}
mdelay(1);
mdelay(5);
}
return 0;
} /* End tw_poll_status() */
......@@ -1787,6 +1944,7 @@ int tw_reset_device_extension(TW_Device_Extension *tw_dev)
srb = tw_dev->srb[i];
srb->result = (DID_RESET << 16);
tw_dev->srb[i]->scsi_done(tw_dev->srb[i]);
tw_unmap_scsi_data(tw_dev->tw_pci_dev, tw_dev->srb[i]);
}
}
}
......@@ -1821,7 +1979,7 @@ int tw_reset_sequence(TW_Device_Extension *tw_dev)
error = tw_aen_drain_queue(tw_dev);
if (error) {
printk(KERN_WARNING "3w-xxxx: scsi%d: Card not responding, retrying.\n", tw_dev->host->host_no);
printk(KERN_WARNING "3w-xxxx: scsi%d: AEN drain failed, retrying.\n", tw_dev->host->host_no);
tries++;
continue;
}
......@@ -1857,7 +2015,7 @@ int tw_reset_sequence(TW_Device_Extension *tw_dev)
}
/* Re-enable interrupts */
tw_enable_interrupts(tw_dev);
tw_enable_and_clear_interrupts(tw_dev);
return 0;
} /* End tw_reset_sequence() */
......@@ -2381,6 +2539,9 @@ int tw_scsiop_read_capacity_complete(TW_Device_Extension *tw_dev, int request_id
capacity = (param_data[3] << 24) | (param_data[2] << 16) |
(param_data[1] << 8) | param_data[0];
/* Subtract one sector to fix get last sector ioctl */
capacity -= 1;
dprintk(KERN_NOTICE "3w-xxxx: tw_scsiop_read_capacity_complete(): Capacity = 0x%x.\n", capacity);
/* Number of LBA's */
......@@ -2403,8 +2564,8 @@ int tw_scsiop_read_write(TW_Device_Extension *tw_dev, int request_id)
{
TW_Command *command_packet;
u32 command_que_addr, command_que_value = 0;
u32 lba = 0x0, num_sectors = 0x0;
int i, count = 0;
u32 lba = 0x0, num_sectors = 0x0, buffaddr = 0x0;
int i, use_sg;
Scsi_Cmnd *srb;
struct scatterlist *sglist;
......@@ -2461,45 +2622,25 @@ int tw_scsiop_read_write(TW_Device_Extension *tw_dev, int request_id)
command_packet->byte8.io.lba = lba;
command_packet->byte6.block_count = num_sectors;
if ((tw_dev->is_raid_five[tw_dev->srb[request_id]->target] == 0) || (srb->cmnd[0] == READ_6) || (srb->cmnd[0] == READ_10) || (tw_dev->tw_pci_dev->device == TW_DEVICE_ID2)) {
/* Do this if there are no sg list entries */
if (tw_dev->srb[request_id]->use_sg == 0) {
dprintk(KERN_NOTICE "3w-xxxx: tw_scsiop_read_write(): SG = 0\n");
command_packet->byte8.io.sgl[0].address = virt_to_bus(tw_dev->srb[request_id]->request_buffer);
buffaddr = tw_map_scsi_single_data(tw_dev->tw_pci_dev, tw_dev->srb[request_id]);
command_packet->byte8.io.sgl[0].address = buffaddr;
command_packet->byte8.io.sgl[0].length = tw_dev->srb[request_id]->request_bufflen;
}
/* Do this if we have multiple sg list entries */
if (tw_dev->srb[request_id]->use_sg > 0) {
for (i=0;i<tw_dev->srb[request_id]->use_sg; i++) {
command_packet->byte8.io.sgl[i].address = virt_to_bus(sglist[i].address);
command_packet->byte8.io.sgl[i].length = sglist[i].length;
use_sg = tw_map_scsi_sg_data(tw_dev->tw_pci_dev, tw_dev->srb[request_id]);;
for (i=0;i<use_sg; i++) {
command_packet->byte8.io.sgl[i].address = sg_dma_address(&sglist[i]);
command_packet->byte8.io.sgl[i].length = sg_dma_len(&sglist[i]);
command_packet->size+=2;
}
if (tw_dev->srb[request_id]->use_sg >= 1)
command_packet->size-=2;
}
} else {
/* Do this if there are no sg list entries for raid 5 */
if (tw_dev->srb[request_id]->use_sg == 0) {
dprintk(KERN_WARNING "doing raid 5 write use_sg = 0, bounce_buffer[%d] = 0x%p\n", request_id, tw_dev->bounce_buffer[request_id]);
memcpy(tw_dev->bounce_buffer[request_id], tw_dev->srb[request_id]->request_buffer, tw_dev->srb[request_id]->request_bufflen);
command_packet->byte8.io.sgl[0].address = virt_to_bus(tw_dev->bounce_buffer[request_id]);
command_packet->byte8.io.sgl[0].length = tw_dev->srb[request_id]->request_bufflen;
}
/* Do this if we have multiple sg list entries for raid 5 */
if (tw_dev->srb[request_id]->use_sg > 0) {
dprintk(KERN_WARNING "doing raid 5 write use_sg = %d, sglist[0].length = %d\n", tw_dev->srb[request_id]->use_sg, sglist[0].length);
for (i=0;i<tw_dev->srb[request_id]->use_sg; i++) {
memcpy((char *)(tw_dev->bounce_buffer[request_id])+count, sglist[i].address, sglist[i].length);
count+=sglist[i].length;
}
command_packet->byte8.io.sgl[0].address = virt_to_bus(tw_dev->bounce_buffer[request_id]);
command_packet->byte8.io.sgl[0].length = count;
command_packet->size = 5; /* single sgl */
}
}
/* Update SG statistics */
tw_dev->sgl_entries = tw_dev->srb[request_id]->use_sg;
......@@ -2523,7 +2664,7 @@ int tw_scsiop_request_sense(TW_Device_Extension *tw_dev, int request_id)
{
dprintk(KERN_NOTICE "3w-xxxx: tw_scsiop_request_sense()\n");
/* For now we just zero the sense buffer */
/* For now we just zero the request buffer */
memset(tw_dev->srb[request_id]->request_buffer, 0, tw_dev->srb[request_id]->request_bufflen);
tw_dev->state[request_id] = TW_S_COMPLETED;
tw_state_request_finish(tw_dev, request_id);
......@@ -2626,8 +2767,7 @@ int tw_setfeature(TW_Device_Extension *tw_dev, int parm, int param_size,
}
if (command_packet->status != 0) {
/* bad response */
dprintk(KERN_WARNING "3w-xxxx: tw_setfeature(): Bad response, status = 0x%x, flags = 0x%x.\n", command_packet->status, command_packet->flags);
tw_decode_error(tw_dev, command_packet->status, command_packet->flags, command_packet->byte3.unit);
tw_decode_sense(tw_dev, request_id, 0);
return 1;
}
break; /* Response was okay, so we exit */
......@@ -2671,7 +2811,7 @@ int tw_shutdown_device(TW_Device_Extension *tw_dev)
}
/* Re-enable interrupts */
tw_enable_interrupts(tw_dev);
tw_enable_and_clear_interrupts(tw_dev);
return 0;
} /* End tw_shutdown_device() */
......@@ -2738,6 +2878,19 @@ int tw_state_request_start(TW_Device_Extension *tw_dev, int *request_id)
return 0;
} /* End tw_state_request_start() */
static void tw_unmap_scsi_data(struct pci_dev *pdev, Scsi_Cmnd *cmd)
{
int dma_dir = scsi_to_pci_dma_dir(cmd->sc_data_direction);
dprintk(KERN_WARNING "3w-xxxx: tw_unmap_scsi_data()\n");
if (cmd->use_sg) {
pci_unmap_sg(pdev, cmd->request_buffer, cmd->use_sg, dma_dir);
} else {
pci_unmap_single(pdev, cmd->SCp.have_data_in, cmd->request_bufflen, dma_dir);
}
} /* End tw_unmap_scsi_data() */
/* This function will unmask the command interrupt on the controller */
void tw_unmask_command_interrupt(TW_Device_Extension *tw_dev)
{
......@@ -2749,7 +2902,6 @@ void tw_unmask_command_interrupt(TW_Device_Extension *tw_dev)
} /* End tw_unmask_command_interrupt() */
/* Now get things going */
static Scsi_Host_Template driver_template = TWXXXX;
#include "scsi_module.c"
drivers/scsi/3w-xxxx.h
View file @ e4a89040
......@@ -6,7 +6,7 @@
Arnaldo Carvalho de Melo <acme@conectiva.com.br>
Brad Strand <linux@3ware.com>
Copyright (C) 1999-2001 3ware Inc.
Copyright (C) 1999-2002 3ware Inc.
Kernel compatablity By: Andre Hedrick <andre@suse.com>
Non-Copyright (C) 2000 Andre Hedrick <andre@suse.com>
......@@ -62,7 +62,7 @@
static char *tw_aen_string[] = {
"AEN queue empty", // 0x000
"Soft reset occurred", // 0x001
"Mirorr degraded: Unit #", // 0x002
"Unit degraded: Unit #", // 0x002
"Controller error", // 0x003
"Rebuild failed: Unit #", // 0x004
"Rebuild complete: Unit #", // 0x005
......@@ -90,10 +90,36 @@ static char *tw_aen_string[] = {
"DCB unsupported version: Port #", // 0x028
"Verify started: Unit #", // 0x029
"Verify failed: Port #", // 0x02A
"Verify complete: Unit #" // 0x02B
"Verify complete: Unit #", // 0x02B
"Overwrote bad sector during rebuild: Port #", //0x2C
"Encountered bad sector during rebuild: Port #" //0x2D
};
#define TW_AEN_STRING_MAX 0x02C
#define TW_AEN_STRING_MAX 0x02E
/*
Sense key lookup table
Format: ESDC/flags,SenseKey,AdditionalSenseCode,AdditionalSenseCodeQualifier
*/
static unsigned char tw_sense_table[][4] =
{
/* Codes for newer firmware */
// ATA Error SCSI Error
{0x01, 0x03, 0x13, 0x00}, // Address mark not found Address mark not found for data field
{0x04, 0x0b, 0x00, 0x00}, // Aborted command Aborted command
{0x10, 0x0b, 0x14, 0x00}, // ID not found Recorded entity not found
{0x40, 0x03, 0x11, 0x00}, // Uncorrectable ECC error Unrecovered read error
{0x61, 0x04, 0x00, 0x00}, // Device fault Hardware error
{0x84, 0x0b, 0x47, 0x00}, // Data CRC error SCSI parity error
{0xd0, 0x0b, 0x00, 0x00}, // Device busy Aborted command
{0xd1, 0x0b, 0x00, 0x00}, // Device busy Aborted command
/* Codes for older firmware */
// 3ware Error SCSI Error
{0x09, 0x0b, 0x00, 0x00}, // Unrecovered disk error Aborted command
{0x37, 0x0b, 0x04, 0x00}, // Unit offline Logical unit not ready
{0x51, 0x0b, 0x00, 0x00} // Unspecified Aborted command
};
/* Control register bit definitions */
#define TW_CONTROL_CLEAR_HOST_INTERRUPT 0x00080000
......@@ -108,6 +134,7 @@ static char *tw_aen_string[] = {
#define TW_CONTROL_DISABLE_INTERRUPTS 0x00000040
#define TW_CONTROL_ISSUE_HOST_INTERRUPT 0x00000020
#define TW_CONTROL_CLEAR_PARITY_ERROR 0x00800000
#define TW_CONTROL_CLEAR_PCI_ABORT 0x00100000
/* Status register bit definitions */
#define TW_STATUS_MAJOR_VERSION_MASK 0xF0000000
......@@ -140,6 +167,7 @@ static char *tw_aen_string[] = {
#define TW_DEVICE_ID2 (0x1001) /* 7000 series controller */
#define TW_NUMDEVICES 2
#define TW_PCI_CLEAR_PARITY_ERRORS 0xc100
#define TW_PCI_CLEAR_PCI_ABORT 0x2000
/* Command packet opcodes */
#define TW_OP_NOP 0x0
......@@ -153,6 +181,7 @@ static char *tw_aen_string[] = {
#define TW_OP_AEN_LISTEN 0x1c
#define TW_CMD_PACKET 0x1d
#define TW_ATA_PASSTHRU 0x1e
#define TW_CMD_PACKET_WITH_DATA 0x1f
/* Asynchronous Event Notification (AEN) Codes */
#define TW_AEN_QUEUE_EMPTY 0x0000
......@@ -169,7 +198,8 @@ static char *tw_aen_string[] = {
#define TW_AEN_SBUF_FAIL 0x0024
/* Misc defines */
#define TW_ALIGNMENT 0x200 /* 16 D-WORDS */
#define TW_ALIGNMENT_6000 64 /* 64 bytes */
#define TW_ALIGNMENT_7000 4 /* 4 bytes */
#define TW_MAX_UNITS 16
#define TW_COMMAND_ALIGNMENT_MASK 0x1ff
#define TW_INIT_MESSAGE_CREDITS 0x100
......@@ -179,7 +209,6 @@ static char *tw_aen_string[] = {
#define TW_ATA_PASS_SGL_MAX 60
#define TW_MAX_PASSTHRU_BYTES 4096
#define TW_Q_LENGTH 256
#define TW_MAX_BOUNCEBUF 16
#define TW_Q_START 0
#define TW_MAX_SLOT 32
#define TW_MAX_PCI_BUSES 255
......@@ -191,12 +220,9 @@ static char *tw_aen_string[] = {
#define TW_MAX_AEN_TRIES 100
#define TW_UNIT_ONLINE 1
#define TW_IN_INTR 1
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,4,7)
#define TW_MAX_SECTORS 256
#else
#define TW_MAX_SECTORS 128
#endif
#define TW_AEN_WAIT_TIME 1000
#define TW_IOCTL_WAIT_TIME (1 * HZ) /* 1 second */
/* Macros */
#define TW_STATUS_ERRORS(x) \
......@@ -262,7 +288,6 @@ typedef struct TW_Command {
} TW_Command;
typedef struct TAG_TW_Ioctl {
int buffer;
unsigned char opcode;
unsigned short table_id;
unsigned char parameter_id;
......@@ -345,11 +370,8 @@ typedef struct TAG_TW_Device_Extension {
TW_Registers registers;
u32 *alignment_virtual_address[TW_Q_LENGTH];
u32 alignment_physical_address[TW_Q_LENGTH];
u32 *bounce_buffer[TW_Q_LENGTH];
int is_unit_present[TW_MAX_UNITS];
int is_raid_five[TW_MAX_UNITS];
int num_units;
int num_raid_five;
u32 *command_packet_virtual_address[TW_Q_LENGTH];
u32 command_packet_physical_address[TW_Q_LENGTH];
struct pci_dev *tw_pci_dev;
......@@ -381,22 +403,24 @@ typedef struct TAG_TW_Device_Extension {
unsigned char aen_head;
unsigned char aen_tail;
long flags; /* long req'd for set_bit --RR */
char *ioctl_data[TW_Q_LENGTH];
} TW_Device_Extension;
/* Function prototypes */
int tw_aen_complete(TW_Device_Extension *tw_dev, int request_id);
int tw_aen_drain_queue(TW_Device_Extension *tw_dev);
int tw_aen_read_queue(TW_Device_Extension *tw_dev, int request_id);
int tw_allocate_memory(TW_Device_Extension *tw_dev, int request_id, int size, int which);
int tw_allocate_memory(TW_Device_Extension *tw_dev, int size, int which);
int tw_check_bits(u32 status_reg_value);
int tw_check_errors(TW_Device_Extension *tw_dev);
void tw_clear_attention_interrupt(TW_Device_Extension *tw_dev);
void tw_clear_host_interrupt(TW_Device_Extension *tw_dev);
void tw_decode_bits(TW_Device_Extension *tw_dev, u32 status_reg_value);
void tw_decode_error(TW_Device_Extension *tw_dev, unsigned char status, unsigned char flags, unsigned char unit);
void tw_decode_sense(TW_Device_Extension *tw_dev, int request_id, int fill_sense);
void tw_disable_interrupts(TW_Device_Extension *tw_dev);
int tw_empty_response_que(TW_Device_Extension *tw_dev);
void tw_enable_interrupts(TW_Device_Extension *tw_dev);
void tw_enable_and_clear_interrupts(TW_Device_Extension *tw_dev);
int tw_findcards(Scsi_Host_Template *tw_host);
void tw_free_device_extension(TW_Device_Extension *tw_dev);
int tw_initconnection(TW_Device_Extension *tw_dev, int message_credits);
......
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