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linux-zen-desktop/drivers/scsi/ipr.c

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Initial commit
2023-08-30 17:31:07 +02:00
// SPDX-License-Identifier: GPL-2.0-or-later
/*
* ipr.c -- driver for IBM Power Linux RAID adapters
*
* Written By: Brian King <brking@us.ibm.com>, IBM Corporation
*
* Copyright (C) 2003, 2004 IBM Corporation
*/
/*
* Notes:
*
* This driver is used to control the following SCSI adapters:
*
* IBM iSeries: 5702, 5703, 2780, 5709, 570A, 570B
*
* IBM pSeries: PCI-X Dual Channel Ultra 320 SCSI RAID Adapter
* PCI-X Dual Channel Ultra 320 SCSI Adapter
* PCI-X Dual Channel Ultra 320 SCSI RAID Enablement Card
* Embedded SCSI adapter on p615 and p655 systems
*
* Supported Hardware Features:
* - Ultra 320 SCSI controller
* - PCI-X host interface
* - Embedded PowerPC RISC Processor and Hardware XOR DMA Engine
* - Non-Volatile Write Cache
* - Supports attachment of non-RAID disks, tape, and optical devices
* - RAID Levels 0, 5, 10
* - Hot spare
* - Background Parity Checking
* - Background Data Scrubbing
* - Ability to increase the capacity of an existing RAID 5 disk array
* by adding disks
*
* Driver Features:
* - Tagged command queuing
* - Adapter microcode download
* - PCI hot plug
* - SCSI device hot plug
*
*/
#include <linux/fs.h>
#include <linux/init.h>
#include <linux/types.h>
#include <linux/errno.h>
#include <linux/kernel.h>
#include <linux/slab.h>
#include <linux/vmalloc.h>
#include <linux/ioport.h>
#include <linux/delay.h>
#include <linux/pci.h>
#include <linux/wait.h>
#include <linux/spinlock.h>
#include <linux/sched.h>
#include <linux/interrupt.h>
#include <linux/blkdev.h>
#include <linux/firmware.h>
#include <linux/module.h>
#include <linux/moduleparam.h>
#include <linux/libata.h>
#include <linux/hdreg.h>
#include <linux/reboot.h>
#include <linux/stringify.h>
#include <asm/io.h>
#include <asm/irq.h>
#include <asm/processor.h>
#include <scsi/scsi.h>
#include <scsi/scsi_host.h>
#include <scsi/scsi_tcq.h>
#include <scsi/scsi_eh.h>
#include <scsi/scsi_cmnd.h>
#include "ipr.h"
/*
* Global Data
*/
static LIST_HEAD(ipr_ioa_head);
static unsigned int ipr_log_level = IPR_DEFAULT_LOG_LEVEL;
static unsigned int ipr_max_speed = 1;
static int ipr_testmode = 0;
static unsigned int ipr_fastfail = 0;
static unsigned int ipr_transop_timeout = 0;
static unsigned int ipr_debug = 0;
static unsigned int ipr_max_devs = IPR_DEFAULT_SIS64_DEVS;
static unsigned int ipr_dual_ioa_raid = 1;
static unsigned int ipr_number_of_msix = 16;
static unsigned int ipr_fast_reboot;
static DEFINE_SPINLOCK(ipr_driver_lock);
/* This table describes the differences between DMA controller chips */
static const struct ipr_chip_cfg_t ipr_chip_cfg[] = {
{ /* Gemstone, Citrine, Obsidian, and Obsidian-E */
.mailbox = 0x0042C,
.max_cmds = 100,
.cache_line_size = 0x20,
.clear_isr = 1,
.iopoll_weight = 0,
{
.set_interrupt_mask_reg = 0x0022C,
.clr_interrupt_mask_reg = 0x00230,
.clr_interrupt_mask_reg32 = 0x00230,
.sense_interrupt_mask_reg = 0x0022C,
.sense_interrupt_mask_reg32 = 0x0022C,
.clr_interrupt_reg = 0x00228,
.clr_interrupt_reg32 = 0x00228,
.sense_interrupt_reg = 0x00224,
.sense_interrupt_reg32 = 0x00224,
.ioarrin_reg = 0x00404,
.sense_uproc_interrupt_reg = 0x00214,
.sense_uproc_interrupt_reg32 = 0x00214,
.set_uproc_interrupt_reg = 0x00214,
.set_uproc_interrupt_reg32 = 0x00214,
.clr_uproc_interrupt_reg = 0x00218,
.clr_uproc_interrupt_reg32 = 0x00218
}
},
{ /* Snipe and Scamp */
.mailbox = 0x0052C,
.max_cmds = 100,
.cache_line_size = 0x20,
.clear_isr = 1,
.iopoll_weight = 0,
{
.set_interrupt_mask_reg = 0x00288,
.clr_interrupt_mask_reg = 0x0028C,
.clr_interrupt_mask_reg32 = 0x0028C,
.sense_interrupt_mask_reg = 0x00288,
.sense_interrupt_mask_reg32 = 0x00288,
.clr_interrupt_reg = 0x00284,
.clr_interrupt_reg32 = 0x00284,
.sense_interrupt_reg = 0x00280,
.sense_interrupt_reg32 = 0x00280,
.ioarrin_reg = 0x00504,
.sense_uproc_interrupt_reg = 0x00290,
.sense_uproc_interrupt_reg32 = 0x00290,
.set_uproc_interrupt_reg = 0x00290,
.set_uproc_interrupt_reg32 = 0x00290,
.clr_uproc_interrupt_reg = 0x00294,
.clr_uproc_interrupt_reg32 = 0x00294
}
},
{ /* CRoC */
.mailbox = 0x00044,
.max_cmds = 1000,
.cache_line_size = 0x20,
.clear_isr = 0,
.iopoll_weight = 64,
{
.set_interrupt_mask_reg = 0x00010,
.clr_interrupt_mask_reg = 0x00018,
.clr_interrupt_mask_reg32 = 0x0001C,
.sense_interrupt_mask_reg = 0x00010,
.sense_interrupt_mask_reg32 = 0x00014,
.clr_interrupt_reg = 0x00008,
.clr_interrupt_reg32 = 0x0000C,
.sense_interrupt_reg = 0x00000,
.sense_interrupt_reg32 = 0x00004,
.ioarrin_reg = 0x00070,
.sense_uproc_interrupt_reg = 0x00020,
.sense_uproc_interrupt_reg32 = 0x00024,
.set_uproc_interrupt_reg = 0x00020,
.set_uproc_interrupt_reg32 = 0x00024,
.clr_uproc_interrupt_reg = 0x00028,
.clr_uproc_interrupt_reg32 = 0x0002C,
.init_feedback_reg = 0x0005C,
.dump_addr_reg = 0x00064,
.dump_data_reg = 0x00068,
.endian_swap_reg = 0x00084
}
},
};
static const struct ipr_chip_t ipr_chip[] = {
{ PCI_VENDOR_ID_MYLEX, PCI_DEVICE_ID_IBM_GEMSTONE, false, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[0] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_CITRINE, false, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[0] },
{ PCI_VENDOR_ID_ADAPTEC2, PCI_DEVICE_ID_ADAPTEC2_OBSIDIAN, false, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[0] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_OBSIDIAN, false, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[0] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_OBSIDIAN_E, true, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[0] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_SNIPE, false, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[1] },
{ PCI_VENDOR_ID_ADAPTEC2, PCI_DEVICE_ID_ADAPTEC2_SCAMP, false, IPR_SIS32, IPR_PCI_CFG, &ipr_chip_cfg[1] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_CROC_FPGA_E2, true, IPR_SIS64, IPR_MMIO, &ipr_chip_cfg[2] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_CROCODILE, true, IPR_SIS64, IPR_MMIO, &ipr_chip_cfg[2] },
{ PCI_VENDOR_ID_IBM, PCI_DEVICE_ID_IBM_RATTLESNAKE, true, IPR_SIS64, IPR_MMIO, &ipr_chip_cfg[2] }
};
static int ipr_max_bus_speeds[] = {
IPR_80MBs_SCSI_RATE, IPR_U160_SCSI_RATE, IPR_U320_SCSI_RATE
};
MODULE_AUTHOR("Brian King <brking@us.ibm.com>");
MODULE_DESCRIPTION("IBM Power RAID SCSI Adapter Driver");
module_param_named(max_speed, ipr_max_speed, uint, 0);
MODULE_PARM_DESC(max_speed, "Maximum bus speed (0-2). Default: 1=U160. Speeds: 0=80 MB/s, 1=U160, 2=U320");
module_param_named(log_level, ipr_log_level, uint, 0);
MODULE_PARM_DESC(log_level, "Set to 0 - 4 for increasing verbosity of device driver");
module_param_named(testmode, ipr_testmode, int, 0);
MODULE_PARM_DESC(testmode, "DANGEROUS!!! Allows unsupported configurations");
module_param_named(fastfail, ipr_fastfail, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(fastfail, "Reduce timeouts and retries");
module_param_named(transop_timeout, ipr_transop_timeout, int, 0);
MODULE_PARM_DESC(transop_timeout, "Time in seconds to wait for adapter to come operational (default: 300)");
module_param_named(debug, ipr_debug, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(debug, "Enable device driver debugging logging. Set to 1 to enable. (default: 0)");
module_param_named(dual_ioa_raid, ipr_dual_ioa_raid, int, 0);
MODULE_PARM_DESC(dual_ioa_raid, "Enable dual adapter RAID support. Set to 1 to enable. (default: 1)");
module_param_named(max_devs, ipr_max_devs, int, 0);
MODULE_PARM_DESC(max_devs, "Specify the maximum number of physical devices. "
"[Default=" __stringify(IPR_DEFAULT_SIS64_DEVS) "]");
module_param_named(number_of_msix, ipr_number_of_msix, int, 0);
MODULE_PARM_DESC(number_of_msix, "Specify the number of MSIX interrupts to use on capable adapters (1 - 16). (default:16)");
module_param_named(fast_reboot, ipr_fast_reboot, int, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(fast_reboot, "Skip adapter shutdown during reboot. Set to 1 to enable. (default: 0)");
MODULE_LICENSE("GPL");
MODULE_VERSION(IPR_DRIVER_VERSION);
/* A constant array of IOASCs/URCs/Error Messages */
static const
struct ipr_error_table_t ipr_error_table[] = {
{0x00000000, 1, IPR_DEFAULT_LOG_LEVEL,
"8155: An unknown error was received"},
{0x00330000, 0, 0,
"Soft underlength error"},
{0x005A0000, 0, 0,
"Command to be cancelled not found"},
{0x00808000, 0, 0,
"Qualified success"},
{0x01080000, 1, IPR_DEFAULT_LOG_LEVEL,
"FFFE: Soft device bus error recovered by the IOA"},
{0x01088100, 0, IPR_DEFAULT_LOG_LEVEL,
"4101: Soft device bus fabric error"},
{0x01100100, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFC: Logical block guard error recovered by the device"},
{0x01100300, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFC: Logical block reference tag error recovered by the device"},
{0x01108300, 0, IPR_DEFAULT_LOG_LEVEL,
"4171: Recovered scatter list tag / sequence number error"},
{0x01109000, 0, IPR_DEFAULT_LOG_LEVEL,
"FF3D: Recovered logical block CRC error on IOA to Host transfer"},
{0x01109200, 0, IPR_DEFAULT_LOG_LEVEL,
"4171: Recovered logical block sequence number error on IOA to Host transfer"},
{0x0110A000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFD: Recovered logical block reference tag error detected by the IOA"},
{0x0110A100, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFD: Logical block guard error recovered by the IOA"},
{0x01170600, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF9: Device sector reassign successful"},
{0x01170900, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF7: Media error recovered by device rewrite procedures"},
{0x01180200, 0, IPR_DEFAULT_LOG_LEVEL,
"7001: IOA sector reassignment successful"},
{0x01180500, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF9: Soft media error. Sector reassignment recommended"},
{0x01180600, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF7: Media error recovered by IOA rewrite procedures"},
{0x01418000, 0, IPR_DEFAULT_LOG_LEVEL,
"FF3D: Soft PCI bus error recovered by the IOA"},
{0x01440000, 1, IPR_DEFAULT_LOG_LEVEL,
"FFF6: Device hardware error recovered by the IOA"},
{0x01448100, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF6: Device hardware error recovered by the device"},
{0x01448200, 1, IPR_DEFAULT_LOG_LEVEL,
"FF3D: Soft IOA error recovered by the IOA"},
{0x01448300, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFA: Undefined device response recovered by the IOA"},
{0x014A0000, 1, IPR_DEFAULT_LOG_LEVEL,
"FFF6: Device bus error, message or command phase"},
{0x014A8000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFE: Task Management Function failed"},
{0x015D0000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF6: Failure prediction threshold exceeded"},
{0x015D9200, 0, IPR_DEFAULT_LOG_LEVEL,
"8009: Impending cache battery pack failure"},
{0x02040100, 0, 0,
"Logical Unit in process of becoming ready"},
{0x02040200, 0, 0,
"Initializing command required"},
{0x02040400, 0, 0,
"34FF: Disk device format in progress"},
{0x02040C00, 0, 0,
"Logical unit not accessible, target port in unavailable state"},
{0x02048000, 0, IPR_DEFAULT_LOG_LEVEL,
"9070: IOA requested reset"},
{0x023F0000, 0, 0,
"Synchronization required"},
{0x02408500, 0, 0,
"IOA microcode download required"},
{0x02408600, 0, 0,
"Device bus connection is prohibited by host"},
{0x024E0000, 0, 0,
"No ready, IOA shutdown"},
{0x025A0000, 0, 0,
"Not ready, IOA has been shutdown"},
{0x02670100, 0, IPR_DEFAULT_LOG_LEVEL,
"3020: Storage subsystem configuration error"},
{0x03110B00, 0, 0,
"FFF5: Medium error, data unreadable, recommend reassign"},
{0x03110C00, 0, 0,
"7000: Medium error, data unreadable, do not reassign"},
{0x03310000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF3: Disk media format bad"},
{0x04050000, 0, IPR_DEFAULT_LOG_LEVEL,
"3002: Addressed device failed to respond to selection"},
{0x04080000, 1, IPR_DEFAULT_LOG_LEVEL,
"3100: Device bus error"},
{0x04080100, 0, IPR_DEFAULT_LOG_LEVEL,
"3109: IOA timed out a device command"},
{0x04088000, 0, 0,
"3120: SCSI bus is not operational"},
{0x04088100, 0, IPR_DEFAULT_LOG_LEVEL,
"4100: Hard device bus fabric error"},
{0x04100100, 0, IPR_DEFAULT_LOG_LEVEL,
"310C: Logical block guard error detected by the device"},
{0x04100300, 0, IPR_DEFAULT_LOG_LEVEL,
"310C: Logical block reference tag error detected by the device"},
{0x04108300, 1, IPR_DEFAULT_LOG_LEVEL,
"4170: Scatter list tag / sequence number error"},
{0x04109000, 1, IPR_DEFAULT_LOG_LEVEL,
"8150: Logical block CRC error on IOA to Host transfer"},
{0x04109200, 1, IPR_DEFAULT_LOG_LEVEL,
"4170: Logical block sequence number error on IOA to Host transfer"},
{0x0410A000, 0, IPR_DEFAULT_LOG_LEVEL,
"310D: Logical block reference tag error detected by the IOA"},
{0x0410A100, 0, IPR_DEFAULT_LOG_LEVEL,
"310D: Logical block guard error detected by the IOA"},
{0x04118000, 0, IPR_DEFAULT_LOG_LEVEL,
"9000: IOA reserved area data check"},
{0x04118100, 0, IPR_DEFAULT_LOG_LEVEL,
"9001: IOA reserved area invalid data pattern"},
{0x04118200, 0, IPR_DEFAULT_LOG_LEVEL,
"9002: IOA reserved area LRC error"},
{0x04118300, 1, IPR_DEFAULT_LOG_LEVEL,
"Hardware Error, IOA metadata access error"},
{0x04320000, 0, IPR_DEFAULT_LOG_LEVEL,
"102E: Out of alternate sectors for disk storage"},
{0x04330000, 1, IPR_DEFAULT_LOG_LEVEL,
"FFF4: Data transfer underlength error"},
{0x04338000, 1, IPR_DEFAULT_LOG_LEVEL,
"FFF4: Data transfer overlength error"},
{0x043E0100, 0, IPR_DEFAULT_LOG_LEVEL,
"3400: Logical unit failure"},
{0x04408500, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF4: Device microcode is corrupt"},
{0x04418000, 1, IPR_DEFAULT_LOG_LEVEL,
"8150: PCI bus error"},
{0x04430000, 1, 0,
"Unsupported device bus message received"},
{0x04440000, 1, IPR_DEFAULT_LOG_LEVEL,
"FFF4: Disk device problem"},
{0x04448200, 1, IPR_DEFAULT_LOG_LEVEL,
"8150: Permanent IOA failure"},
{0x04448300, 0, IPR_DEFAULT_LOG_LEVEL,
"3010: Disk device returned wrong response to IOA"},
{0x04448400, 0, IPR_DEFAULT_LOG_LEVEL,
"8151: IOA microcode error"},
{0x04448500, 0, 0,
"Device bus status error"},
{0x04448600, 0, IPR_DEFAULT_LOG_LEVEL,
"8157: IOA error requiring IOA reset to recover"},
{0x04448700, 0, 0,
"ATA device status error"},
{0x04490000, 0, 0,
"Message reject received from the device"},
{0x04449200, 0, IPR_DEFAULT_LOG_LEVEL,
"8008: A permanent cache battery pack failure occurred"},
{0x0444A000, 0, IPR_DEFAULT_LOG_LEVEL,
"9090: Disk unit has been modified after the last known status"},
{0x0444A200, 0, IPR_DEFAULT_LOG_LEVEL,
"9081: IOA detected device error"},
{0x0444A300, 0, IPR_DEFAULT_LOG_LEVEL,
"9082: IOA detected device error"},
{0x044A0000, 1, IPR_DEFAULT_LOG_LEVEL,
"3110: Device bus error, message or command phase"},
{0x044A8000, 1, IPR_DEFAULT_LOG_LEVEL,
"3110: SAS Command / Task Management Function failed"},
{0x04670400, 0, IPR_DEFAULT_LOG_LEVEL,
"9091: Incorrect hardware configuration change has been detected"},
{0x04678000, 0, IPR_DEFAULT_LOG_LEVEL,
"9073: Invalid multi-adapter configuration"},
{0x04678100, 0, IPR_DEFAULT_LOG_LEVEL,
"4010: Incorrect connection between cascaded expanders"},
{0x04678200, 0, IPR_DEFAULT_LOG_LEVEL,
"4020: Connections exceed IOA design limits"},
{0x04678300, 0, IPR_DEFAULT_LOG_LEVEL,
"4030: Incorrect multipath connection"},
{0x04679000, 0, IPR_DEFAULT_LOG_LEVEL,
"4110: Unsupported enclosure function"},
{0x04679800, 0, IPR_DEFAULT_LOG_LEVEL,
"4120: SAS cable VPD cannot be read"},
{0x046E0000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFF4: Command to logical unit failed"},
{0x05240000, 1, 0,
"Illegal request, invalid request type or request packet"},
{0x05250000, 0, 0,
"Illegal request, invalid resource handle"},
{0x05258000, 0, 0,
"Illegal request, commands not allowed to this device"},
{0x05258100, 0, 0,
"Illegal request, command not allowed to a secondary adapter"},
{0x05258200, 0, 0,
"Illegal request, command not allowed to a non-optimized resource"},
{0x05260000, 0, 0,
"Illegal request, invalid field in parameter list"},
{0x05260100, 0, 0,
"Illegal request, parameter not supported"},
{0x05260200, 0, 0,
"Illegal request, parameter value invalid"},
{0x052C0000, 0, 0,
"Illegal request, command sequence error"},
{0x052C8000, 1, 0,
"Illegal request, dual adapter support not enabled"},
{0x052C8100, 1, 0,
"Illegal request, another cable connector was physically disabled"},
{0x054E8000, 1, 0,
"Illegal request, inconsistent group id/group count"},
{0x06040500, 0, IPR_DEFAULT_LOG_LEVEL,
"9031: Array protection temporarily suspended, protection resuming"},
{0x06040600, 0, IPR_DEFAULT_LOG_LEVEL,
"9040: Array protection temporarily suspended, protection resuming"},
{0x060B0100, 0, IPR_DEFAULT_LOG_LEVEL,
"4080: IOA exceeded maximum operating temperature"},
{0x060B8000, 0, IPR_DEFAULT_LOG_LEVEL,
"4085: Service required"},
{0x060B8100, 0, IPR_DEFAULT_LOG_LEVEL,
"4086: SAS Adapter Hardware Configuration Error"},
{0x06288000, 0, IPR_DEFAULT_LOG_LEVEL,
"3140: Device bus not ready to ready transition"},
{0x06290000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFB: SCSI bus was reset"},
{0x06290500, 0, 0,
"FFFE: SCSI bus transition to single ended"},
{0x06290600, 0, 0,
"FFFE: SCSI bus transition to LVD"},
{0x06298000, 0, IPR_DEFAULT_LOG_LEVEL,
"FFFB: SCSI bus was reset by another initiator"},
{0x063F0300, 0, IPR_DEFAULT_LOG_LEVEL,
"3029: A device replacement has occurred"},
{0x063F8300, 0, IPR_DEFAULT_LOG_LEVEL,
"4102: Device bus fabric performance degradation"},
{0x064C8000, 0, IPR_DEFAULT_LOG_LEVEL,
"9051: IOA cache data exists for a missing or failed device"},
{0x064C8100, 0, IPR_DEFAULT_LOG_LEVEL,
"9055: Auxiliary cache IOA contains cache data needed by the primary IOA"},
{0x06670100, 0, IPR_DEFAULT_LOG_LEVEL,
"9025: Disk unit is not supported at its physical location"},
{0x06670600, 0, IPR_DEFAULT_LOG_LEVEL,
"3020: IOA detected a SCSI bus configuration error"},
{0x06678000, 0, IPR_DEFAULT_LOG_LEVEL,
"3150: SCSI bus configuration error"},
{0x06678100, 0, IPR_DEFAULT_LOG_LEVEL,
"9074: Asymmetric advanced function disk configuration"},
{0x06678300, 0, IPR_DEFAULT_LOG_LEVEL,
"4040: Incomplete multipath connection between IOA and enclosure"},
{0x06678400, 0, IPR_DEFAULT_LOG_LEVEL,
"4041: Incomplete multipath connection between enclosure and device"},
{0x06678500, 0, IPR_DEFAULT_LOG_LEVEL,
"9075: Incomplete multipath connection between IOA and remote IOA"},
{0x06678600, 0, IPR_DEFAULT_LOG_LEVEL,
"9076: Configuration error, missing remote IOA"},
{0x06679100, 0, IPR_DEFAULT_LOG_LEVEL,
"4050: Enclosure does not support a required multipath function"},
{0x06679800, 0, IPR_DEFAULT_LOG_LEVEL,
"4121: Configuration error, required cable is missing"},
{0x06679900, 0, IPR_DEFAULT_LOG_LEVEL,
"4122: Cable is not plugged into the correct location on remote IOA"},
{0x06679A00, 0, IPR_DEFAULT_LOG_LEVEL,
"4123: Configuration error, invalid cable vital product data"},
{0x06679B00, 0, IPR_DEFAULT_LOG_LEVEL,
"4124: Configuration error, both cable ends are plugged into the same IOA"},
{0x06690000, 0, IPR_DEFAULT_LOG_LEVEL,
"4070: Logically bad block written on device"},
{0x06690200, 0, IPR_DEFAULT_LOG_LEVEL,
"9041: Array protection temporarily suspended"},
{0x06698200, 0, IPR_DEFAULT_LOG_LEVEL,
"9042: Corrupt array parity detected on specified device"},
{0x066B0200, 0, IPR_DEFAULT_LOG_LEVEL,
"9030: Array no longer protected due to missing or failed disk unit"},
{0x066B8000, 0, IPR_DEFAULT_LOG_LEVEL,
"9071: Link operational transition"},
{0x066B8100, 0, IPR_DEFAULT_LOG_LEVEL,
"9072: Link not operational transition"},
{0x066B8200, 0, IPR_DEFAULT_LOG_LEVEL,
"9032: Array exposed but still protected"},
{0x066B8300, 0, IPR_DEBUG_LOG_LEVEL,
"70DD: Device forced failed by disrupt device command"},
{0x066B9100, 0, IPR_DEFAULT_LOG_LEVEL,
"4061: Multipath redundancy level got better"},
{0x066B9200, 0, IPR_DEFAULT_LOG_LEVEL,
"4060: Multipath redundancy level got worse"},
{0x06808100, 0, IPR_DEBUG_LOG_LEVEL,
"9083: Device raw mode enabled"},
{0x06808200, 0, IPR_DEBUG_LOG_LEVEL,
"9084: Device raw mode disabled"},
{0x07270000, 0, 0,
"Failure due to other device"},
{0x07278000, 0, IPR_DEFAULT_LOG_LEVEL,
"9008: IOA does not support functions expected by devices"},
{0x07278100, 0, IPR_DEFAULT_LOG_LEVEL,
"9010: Cache data associated with attached devices cannot be found"},
{0x07278200, 0, IPR_DEFAULT_LOG_LEVEL,
"9011: Cache data belongs to devices other than those attached"},
{0x07278400, 0, IPR_DEFAULT_LOG_LEVEL,
"9020: Array missing 2 or more devices with only 1 device present"},
{0x07278500, 0, IPR_DEFAULT_LOG_LEVEL,
"9021: Array missing 2 or more devices with 2 or more devices present"},
{0x07278600, 0, IPR_DEFAULT_LOG_LEVEL,
"9022: Exposed array is missing a required device"},
{0x07278700, 0, IPR_DEFAULT_LOG_LEVEL,
"9023: Array member(s) not at required physical locations"},
{0x07278800, 0, IPR_DEFAULT_LOG_LEVEL,
"9024: Array not functional due to present hardware configuration"},
{0x07278900, 0, IPR_DEFAULT_LOG_LEVEL,
"9026: Array not functional due to present hardware configuration"},
{0x07278A00, 0, IPR_DEFAULT_LOG_LEVEL,
"9027: Array is missing a device and parity is out of sync"},
{0x07278B00, 0, IPR_DEFAULT_LOG_LEVEL,
"9028: Maximum number of arrays already exist"},
{0x07278C00, 0, IPR_DEFAULT_LOG_LEVEL,
"9050: Required cache data cannot be located for a disk unit"},
{0x07278D00, 0, IPR_DEFAULT_LOG_LEVEL,
"9052: Cache data exists for a device that has been modified"},
{0x07278F00, 0, IPR_DEFAULT_LOG_LEVEL,
"9054: IOA resources not available due to previous problems"},
{0x07279100, 0, IPR_DEFAULT_LOG_LEVEL,
"9092: Disk unit requires initialization before use"},
{0x07279200, 0, IPR_DEFAULT_LOG_LEVEL,
"9029: Incorrect hardware configuration change has been detected"},
{0x07279600, 0, IPR_DEFAULT_LOG_LEVEL,
"9060: One or more disk pairs are missing from an array"},
{0x07279700, 0, IPR_DEFAULT_LOG_LEVEL,
"9061: One or more disks are missing from an array"},
{0x07279800, 0, IPR_DEFAULT_LOG_LEVEL,
"9062: One or more disks are missing from an array"},
{0x07279900, 0, IPR_DEFAULT_LOG_LEVEL,
"9063: Maximum number of functional arrays has been exceeded"},
{0x07279A00, 0, 0,
"Data protect, other volume set problem"},
{0x0B260000, 0, 0,
"Aborted command, invalid descriptor"},
{0x0B3F9000, 0, 0,
"Target operating conditions have changed, dual adapter takeover"},
{0x0B530200, 0, 0,
"Aborted command, medium removal prevented"},
{0x0B5A0000, 0, 0,
"Command terminated by host"},
{0x0B5B8000, 0, 0,
"Aborted command, command terminated by host"}
};
static const struct ipr_ses_table_entry ipr_ses_table[] = {
{ "2104-DL1 ", "XXXXXXXXXXXXXXXX", 80 },
{ "2104-TL1 ", "XXXXXXXXXXXXXXXX", 80 },
{ "HSBP07M P U2SCSI", "XXXXXXXXXXXXXXXX", 80 }, /* Hidive 7 slot */
{ "HSBP05M P U2SCSI", "XXXXXXXXXXXXXXXX", 80 }, /* Hidive 5 slot */
{ "HSBP05M S U2SCSI", "XXXXXXXXXXXXXXXX", 80 }, /* Bowtie */
{ "HSBP06E ASU2SCSI", "XXXXXXXXXXXXXXXX", 80 }, /* MartinFenning */
{ "2104-DU3 ", "XXXXXXXXXXXXXXXX", 160 },
{ "2104-TU3 ", "XXXXXXXXXXXXXXXX", 160 },
{ "HSBP04C RSU2SCSI", "XXXXXXX*XXXXXXXX", 160 },
{ "HSBP06E RSU2SCSI", "XXXXXXX*XXXXXXXX", 160 },
{ "St V1S2 ", "XXXXXXXXXXXXXXXX", 160 },
{ "HSBPD4M PU3SCSI", "XXXXXXX*XXXXXXXX", 160 },
{ "VSBPD1H U3SCSI", "XXXXXXX*XXXXXXXX", 160 }
};
/*
* Function Prototypes
*/
static int ipr_reset_alert(struct ipr_cmnd *);
static void ipr_process_ccn(struct ipr_cmnd *);
static void ipr_process_error(struct ipr_cmnd *);
static void ipr_reset_ioa_job(struct ipr_cmnd *);
static void ipr_initiate_ioa_reset(struct ipr_ioa_cfg *,
enum ipr_shutdown_type);
#ifdef CONFIG_SCSI_IPR_TRACE
/**
* ipr_trc_hook - Add a trace entry to the driver trace
* @ipr_cmd: ipr command struct
* @type: trace type
* @add_data: additional data
*
* Return value:
* none
**/
static void ipr_trc_hook(struct ipr_cmnd *ipr_cmd,
u8 type, u32 add_data)
{
struct ipr_trace_entry *trace_entry;
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
unsigned int trace_index;
trace_index = atomic_add_return(1, &ioa_cfg->trace_index) & IPR_TRACE_INDEX_MASK;
trace_entry = &ioa_cfg->trace[trace_index];
trace_entry->time = jiffies;
trace_entry->op_code = ipr_cmd->ioarcb.cmd_pkt.cdb[0];
trace_entry->type = type;
if (ipr_cmd->ioa_cfg->sis64)
trace_entry->ata_op_code = ipr_cmd->i.ata_ioadl.regs.command;
else
trace_entry->ata_op_code = ipr_cmd->ioarcb.u.add_data.u.regs.command;
trace_entry->cmd_index = ipr_cmd->cmd_index & 0xff;
trace_entry->res_handle = ipr_cmd->ioarcb.res_handle;
trace_entry->u.add_data = add_data;
wmb();
}
#else
#define ipr_trc_hook(ipr_cmd, type, add_data) do { } while (0)
#endif
/**
* ipr_lock_and_done - Acquire lock and complete command
* @ipr_cmd: ipr command struct
*
* Return value:
* none
**/
static void ipr_lock_and_done(struct ipr_cmnd *ipr_cmd)
{
unsigned long lock_flags;
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
spin_lock_irqsave(ioa_cfg->host->host_lock, lock_flags);
ipr_cmd->done(ipr_cmd);
spin_unlock_irqrestore(ioa_cfg->host->host_lock, lock_flags);
}
/**
* ipr_reinit_ipr_cmnd - Re-initialize an IPR Cmnd block for reuse
* @ipr_cmd: ipr command struct
*
* Return value:
* none
**/
static void ipr_reinit_ipr_cmnd(struct ipr_cmnd *ipr_cmd)
{
struct ipr_ioarcb *ioarcb = &ipr_cmd->ioarcb;
struct ipr_ioasa *ioasa = &ipr_cmd->s.ioasa;
struct ipr_ioasa64 *ioasa64 = &ipr_cmd->s.ioasa64;
dma_addr_t dma_addr = ipr_cmd->dma_addr;
int hrrq_id;
hrrq_id = ioarcb->cmd_pkt.hrrq_id;
memset(&ioarcb->cmd_pkt, 0, sizeof(struct ipr_cmd_pkt));
ioarcb->cmd_pkt.hrrq_id = hrrq_id;
ioarcb->data_transfer_length = 0;
ioarcb->read_data_transfer_length = 0;
ioarcb->ioadl_len = 0;
ioarcb->read_ioadl_len = 0;
if (ipr_cmd->ioa_cfg->sis64) {
ioarcb->u.sis64_addr_data.data_ioadl_addr =
cpu_to_be64(dma_addr + offsetof(struct ipr_cmnd, i.ioadl64));
ioasa64->u.gata.status = 0;
} else {
ioarcb->write_ioadl_addr =
cpu_to_be32(dma_addr + offsetof(struct ipr_cmnd, i.ioadl));
ioarcb->read_ioadl_addr = ioarcb->write_ioadl_addr;
ioasa->u.gata.status = 0;
}
ioasa->hdr.ioasc = 0;
ioasa->hdr.residual_data_len = 0;
ipr_cmd->scsi_cmd = NULL;
ipr_cmd->qc = NULL;
ipr_cmd->sense_buffer[0] = 0;
ipr_cmd->dma_use_sg = 0;
}
/**
* ipr_init_ipr_cmnd - Initialize an IPR Cmnd block
* @ipr_cmd: ipr command struct
* @fast_done: fast done function call-back
*
* Return value:
* none
**/
static void ipr_init_ipr_cmnd(struct ipr_cmnd *ipr_cmd,
void (*fast_done) (struct ipr_cmnd *))
{
ipr_reinit_ipr_cmnd(ipr_cmd);
ipr_cmd->u.scratch = 0;
ipr_cmd->sibling = NULL;
ipr_cmd->eh_comp = NULL;
ipr_cmd->fast_done = fast_done;
timer_setup(&ipr_cmd->timer, NULL, 0);
}
/**
* __ipr_get_free_ipr_cmnd - Get a free IPR Cmnd block
* @hrrq: hrr queue
*
* Return value:
* pointer to ipr command struct
**/
static
struct ipr_cmnd *__ipr_get_free_ipr_cmnd(struct ipr_hrr_queue *hrrq)
{
struct ipr_cmnd *ipr_cmd = NULL;
if (likely(!list_empty(&hrrq->hrrq_free_q))) {
ipr_cmd = list_entry(hrrq->hrrq_free_q.next,
struct ipr_cmnd, queue);
list_del(&ipr_cmd->queue);
}
return ipr_cmd;
}
/**
* ipr_get_free_ipr_cmnd - Get a free IPR Cmnd block and initialize it
* @ioa_cfg: ioa config struct
*
* Return value:
* pointer to ipr command struct
**/
static
struct ipr_cmnd *ipr_get_free_ipr_cmnd(struct ipr_ioa_cfg *ioa_cfg)
{
struct ipr_cmnd *ipr_cmd =
__ipr_get_free_ipr_cmnd(&ioa_cfg->hrrq[IPR_INIT_HRRQ]);
ipr_init_ipr_cmnd(ipr_cmd, ipr_lock_and_done);
return ipr_cmd;
}
/**
* ipr_mask_and_clear_interrupts - Mask all and clear specified interrupts
* @ioa_cfg: ioa config struct
* @clr_ints: interrupts to clear
*
* This function masks all interrupts on the adapter, then clears the
* interrupts specified in the mask
*
* Return value:
* none
**/
static void ipr_mask_and_clear_interrupts(struct ipr_ioa_cfg *ioa_cfg,
u32 clr_ints)
{
int i;
/* Stop new interrupts */
for (i = 0; i < ioa_cfg->hrrq_num; i++) {
spin_lock(&ioa_cfg->hrrq[i]._lock);
ioa_cfg->hrrq[i].allow_interrupts = 0;
spin_unlock(&ioa_cfg->hrrq[i]._lock);
}
/* Set interrupt mask to stop all new interrupts */
if (ioa_cfg->sis64)
writeq(~0, ioa_cfg->regs.set_interrupt_mask_reg);
else
writel(~0, ioa_cfg->regs.set_interrupt_mask_reg);
/* Clear any pending interrupts */
if (ioa_cfg->sis64)
writel(~0, ioa_cfg->regs.clr_interrupt_reg);
writel(clr_ints, ioa_cfg->regs.clr_interrupt_reg32);
readl(ioa_cfg->regs.sense_interrupt_reg);
}
/**
* ipr_save_pcix_cmd_reg - Save PCI-X command register
* @ioa_cfg: ioa config struct
*
* Return value:
* 0 on success / -EIO on failure
**/
static int ipr_save_pcix_cmd_reg(struct ipr_ioa_cfg *ioa_cfg)
{
int pcix_cmd_reg = pci_find_capability(ioa_cfg->pdev, PCI_CAP_ID_PCIX);
if (pcix_cmd_reg == 0)
return 0;
if (pci_read_config_word(ioa_cfg->pdev, pcix_cmd_reg + PCI_X_CMD,
&ioa_cfg->saved_pcix_cmd_reg) != PCIBIOS_SUCCESSFUL) {
dev_err(&ioa_cfg->pdev->dev, "Failed to save PCI-X command register\n");
return -EIO;
}
ioa_cfg->saved_pcix_cmd_reg |= PCI_X_CMD_DPERR_E | PCI_X_CMD_ERO;
return 0;
}
/**
* ipr_set_pcix_cmd_reg - Setup PCI-X command register
* @ioa_cfg: ioa config struct
*
* Return value:
* 0 on success / -EIO on failure
**/
static int ipr_set_pcix_cmd_reg(struct ipr_ioa_cfg *ioa_cfg)
{
int pcix_cmd_reg = pci_find_capability(ioa_cfg->pdev, PCI_CAP_ID_PCIX);
if (pcix_cmd_reg) {
if (pci_write_config_word(ioa_cfg->pdev, pcix_cmd_reg + PCI_X_CMD,
ioa_cfg->saved_pcix_cmd_reg) != PCIBIOS_SUCCESSFUL) {
dev_err(&ioa_cfg->pdev->dev, "Failed to setup PCI-X command register\n");
return -EIO;
}
}
return 0;
}
/**
* __ipr_sata_eh_done - done function for aborted SATA commands
* @ipr_cmd: ipr command struct
*
* This function is invoked for ops generated to SATA
* devices which are being aborted.
*
* Return value:
* none
**/
static void __ipr_sata_eh_done(struct ipr_cmnd *ipr_cmd)
{
struct ata_queued_cmd *qc = ipr_cmd->qc;
struct ipr_sata_port *sata_port = qc->ap->private_data;
qc->err_mask |= AC_ERR_OTHER;
sata_port->ioasa.status |= ATA_BUSY;
ata_qc_complete(qc);
if (ipr_cmd->eh_comp)
complete(ipr_cmd->eh_comp);
list_add_tail(&ipr_cmd->queue, &ipr_cmd->hrrq->hrrq_free_q);
}
/**
* ipr_sata_eh_done - done function for aborted SATA commands
* @ipr_cmd: ipr command struct
*
* This function is invoked for ops generated to SATA
* devices which are being aborted.
*
* Return value:
* none
**/
static void ipr_sata_eh_done(struct ipr_cmnd *ipr_cmd)
{
struct ipr_hrr_queue *hrrq = ipr_cmd->hrrq;
unsigned long hrrq_flags;
spin_lock_irqsave(&hrrq->_lock, hrrq_flags);
__ipr_sata_eh_done(ipr_cmd);
spin_unlock_irqrestore(&hrrq->_lock, hrrq_flags);
}
/**
* __ipr_scsi_eh_done - mid-layer done function for aborted ops
* @ipr_cmd: ipr command struct
*
* This function is invoked by the interrupt handler for
* ops generated by the SCSI mid-layer which are being aborted.
*
* Return value:
* none
**/
static void __ipr_scsi_eh_done(struct ipr_cmnd *ipr_cmd)
{
struct scsi_cmnd *scsi_cmd = ipr_cmd->scsi_cmd;
scsi_cmd->result |= (DID_ERROR << 16);
scsi_dma_unmap(ipr_cmd->scsi_cmd);
scsi_done(scsi_cmd);
if (ipr_cmd->eh_comp)
complete(ipr_cmd->eh_comp);
list_add_tail(&ipr_cmd->queue, &ipr_cmd->hrrq->hrrq_free_q);
}
/**
* ipr_scsi_eh_done - mid-layer done function for aborted ops
* @ipr_cmd: ipr command struct
*
* This function is invoked by the interrupt handler for
* ops generated by the SCSI mid-layer which are being aborted.
*
* Return value:
* none
**/
static void ipr_scsi_eh_done(struct ipr_cmnd *ipr_cmd)
{
unsigned long hrrq_flags;
struct ipr_hrr_queue *hrrq = ipr_cmd->hrrq;
spin_lock_irqsave(&hrrq->_lock, hrrq_flags);
__ipr_scsi_eh_done(ipr_cmd);
spin_unlock_irqrestore(&hrrq->_lock, hrrq_flags);
}
/**
* ipr_fail_all_ops - Fails all outstanding ops.
* @ioa_cfg: ioa config struct
*
* This function fails all outstanding ops.
*
* Return value:
* none
**/
static void ipr_fail_all_ops(struct ipr_ioa_cfg *ioa_cfg)
{
struct ipr_cmnd *ipr_cmd, *temp;
struct ipr_hrr_queue *hrrq;
ENTER;
for_each_hrrq(hrrq, ioa_cfg) {
spin_lock(&hrrq->_lock);
list_for_each_entry_safe(ipr_cmd,
temp, &hrrq->hrrq_pending_q, queue) {
list_del(&ipr_cmd->queue);
ipr_cmd->s.ioasa.hdr.ioasc =
cpu_to_be32(IPR_IOASC_IOA_WAS_RESET);
ipr_cmd->s.ioasa.hdr.ilid =
cpu_to_be32(IPR_DRIVER_ILID);
if (ipr_cmd->scsi_cmd)
ipr_cmd->done = __ipr_scsi_eh_done;
else if (ipr_cmd->qc)
ipr_cmd->done = __ipr_sata_eh_done;
ipr_trc_hook(ipr_cmd, IPR_TRACE_FINISH,
IPR_IOASC_IOA_WAS_RESET);
del_timer(&ipr_cmd->timer);
ipr_cmd->done(ipr_cmd);
}
spin_unlock(&hrrq->_lock);
}
LEAVE;
}
/**
* ipr_send_command - Send driver initiated requests.
* @ipr_cmd: ipr command struct
*
* This function sends a command to the adapter using the correct write call.
* In the case of sis64, calculate the ioarcb size required. Then or in the
* appropriate bits.
*
* Return value:
* none
**/
static void ipr_send_command(struct ipr_cmnd *ipr_cmd)
{
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
dma_addr_t send_dma_addr = ipr_cmd->dma_addr;
if (ioa_cfg->sis64) {
/* The default size is 256 bytes */
send_dma_addr |= 0x1;
/* If the number of ioadls * size of ioadl > 128 bytes,
then use a 512 byte ioarcb */
if (ipr_cmd->dma_use_sg * sizeof(struct ipr_ioadl64_desc) > 128 )
send_dma_addr |= 0x4;
writeq(send_dma_addr, ioa_cfg->regs.ioarrin_reg);
} else
writel(send_dma_addr, ioa_cfg->regs.ioarrin_reg);
}
/**
* ipr_do_req - Send driver initiated requests.
* @ipr_cmd: ipr command struct
* @done: done function
* @timeout_func: timeout function
* @timeout: timeout value
*
* This function sends the specified command to the adapter with the
* timeout given. The done function is invoked on command completion.
*
* Return value:
* none
**/
static void ipr_do_req(struct ipr_cmnd *ipr_cmd,
void (*done) (struct ipr_cmnd *),
void (*timeout_func) (struct timer_list *), u32 timeout)
{
list_add_tail(&ipr_cmd->queue, &ipr_cmd->hrrq->hrrq_pending_q);
ipr_cmd->done = done;
ipr_cmd->timer.expires = jiffies + timeout;
ipr_cmd->timer.function = timeout_func;
add_timer(&ipr_cmd->timer);
ipr_trc_hook(ipr_cmd, IPR_TRACE_START, 0);
ipr_send_command(ipr_cmd);
}
/**
* ipr_internal_cmd_done - Op done function for an internally generated op.
* @ipr_cmd: ipr command struct
*
* This function is the op done function for an internally generated,
* blocking op. It simply wakes the sleeping thread.
*
* Return value:
* none
**/
static void ipr_internal_cmd_done(struct ipr_cmnd *ipr_cmd)
{
if (ipr_cmd->sibling)
ipr_cmd->sibling = NULL;
else
complete(&ipr_cmd->completion);
}
/**
* ipr_init_ioadl - initialize the ioadl for the correct SIS type
* @ipr_cmd: ipr command struct
* @dma_addr: dma address
* @len: transfer length
* @flags: ioadl flag value
*
* This function initializes an ioadl in the case where there is only a single
* descriptor.
*
* Return value:
* nothing
**/
static void ipr_init_ioadl(struct ipr_cmnd *ipr_cmd, dma_addr_t dma_addr,
u32 len, int flags)
{
struct ipr_ioadl_desc *ioadl = ipr_cmd->i.ioadl;
struct ipr_ioadl64_desc *ioadl64 = ipr_cmd->i.ioadl64;
ipr_cmd->dma_use_sg = 1;
if (ipr_cmd->ioa_cfg->sis64) {
ioadl64->flags = cpu_to_be32(flags);
ioadl64->data_len = cpu_to_be32(len);
ioadl64->address = cpu_to_be64(dma_addr);
ipr_cmd->ioarcb.ioadl_len =
cpu_to_be32(sizeof(struct ipr_ioadl64_desc));
ipr_cmd->ioarcb.data_transfer_length = cpu_to_be32(len);
} else {
ioadl->flags_and_data_len = cpu_to_be32(flags | len);
ioadl->address = cpu_to_be32(dma_addr);
if (flags == IPR_IOADL_FLAGS_READ_LAST) {
ipr_cmd->ioarcb.read_ioadl_len =
cpu_to_be32(sizeof(struct ipr_ioadl_desc));
ipr_cmd->ioarcb.read_data_transfer_length = cpu_to_be32(len);
} else {
ipr_cmd->ioarcb.ioadl_len =
cpu_to_be32(sizeof(struct ipr_ioadl_desc));
ipr_cmd->ioarcb.data_transfer_length = cpu_to_be32(len);
}
}
}
/**
* ipr_send_blocking_cmd - Send command and sleep on its completion.
* @ipr_cmd: ipr command struct
* @timeout_func: function to invoke if command times out
* @timeout: timeout
*
* Return value:
* none
**/
static void ipr_send_blocking_cmd(struct ipr_cmnd *ipr_cmd,
void (*timeout_func) (struct timer_list *),
u32 timeout)
{
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
init_completion(&ipr_cmd->completion);
ipr_do_req(ipr_cmd, ipr_internal_cmd_done, timeout_func, timeout);
spin_unlock_irq(ioa_cfg->host->host_lock);
wait_for_completion(&ipr_cmd->completion);
spin_lock_irq(ioa_cfg->host->host_lock);
}
static int ipr_get_hrrq_index(struct ipr_ioa_cfg *ioa_cfg)
{
unsigned int hrrq;
if (ioa_cfg->hrrq_num == 1)
hrrq = 0;
else {
hrrq = atomic_add_return(1, &ioa_cfg->hrrq_index);
hrrq = (hrrq % (ioa_cfg->hrrq_num - 1)) + 1;
}
return hrrq;
}
/**
* ipr_send_hcam - Send an HCAM to the adapter.
* @ioa_cfg: ioa config struct
* @type: HCAM type
* @hostrcb: hostrcb struct
*
* This function will send a Host Controlled Async command to the adapter.
* If HCAMs are currently not allowed to be issued to the adapter, it will
* place the hostrcb on the free queue.
*
* Return value:
* none
**/
static void ipr_send_hcam(struct ipr_ioa_cfg *ioa_cfg, u8 type,
struct ipr_hostrcb *hostrcb)
{
struct ipr_cmnd *ipr_cmd;
struct ipr_ioarcb *ioarcb;
if (ioa_cfg->hrrq[IPR_INIT_HRRQ].allow_cmds) {
ipr_cmd = ipr_get_free_ipr_cmnd(ioa_cfg);
list_add_tail(&ipr_cmd->queue, &ipr_cmd->hrrq->hrrq_pending_q);
list_add_tail(&hostrcb->queue, &ioa_cfg->hostrcb_pending_q);
ipr_cmd->u.hostrcb = hostrcb;
ioarcb = &ipr_cmd->ioarcb;
ioarcb->res_handle = cpu_to_be32(IPR_IOA_RES_HANDLE);
ioarcb->cmd_pkt.request_type = IPR_RQTYPE_HCAM;
ioarcb->cmd_pkt.cdb[0] = IPR_HOST_CONTROLLED_ASYNC;
ioarcb->cmd_pkt.cdb[1] = type;
ioarcb->cmd_pkt.cdb[7] = (sizeof(hostrcb->hcam) >> 8) & 0xff;
ioarcb->cmd_pkt.cdb[8] = sizeof(hostrcb->hcam) & 0xff;
ipr_init_ioadl(ipr_cmd, hostrcb->hostrcb_dma,
sizeof(hostrcb->hcam), IPR_IOADL_FLAGS_READ_LAST);
if (type == IPR_HCAM_CDB_OP_CODE_CONFIG_CHANGE)
ipr_cmd->done = ipr_process_ccn;
else
ipr_cmd->done = ipr_process_error;
ipr_trc_hook(ipr_cmd, IPR_TRACE_START, IPR_IOA_RES_ADDR);
ipr_send_command(ipr_cmd);
} else {
list_add_tail(&hostrcb->queue, &ioa_cfg->hostrcb_free_q);
}
}
/**
* ipr_update_ata_class - Update the ata class in the resource entry
* @res: resource entry struct
* @proto: cfgte device bus protocol value
*
* Return value:
* none
**/
static void ipr_update_ata_class(struct ipr_resource_entry *res, unsigned int proto)
{
switch (proto) {
case IPR_PROTO_SATA:
case IPR_PROTO_SAS_STP:
res->ata_class = ATA_DEV_ATA;
break;
case IPR_PROTO_SATA_ATAPI:
case IPR_PROTO_SAS_STP_ATAPI:
res->ata_class = ATA_DEV_ATAPI;
break;
default:
res->ata_class = ATA_DEV_UNKNOWN;
break;
}
}
/**
* ipr_init_res_entry - Initialize a resource entry struct.
* @res: resource entry struct
* @cfgtew: config table entry wrapper struct
*
* Return value:
* none
**/
static void ipr_init_res_entry(struct ipr_resource_entry *res,
struct ipr_config_table_entry_wrapper *cfgtew)
{
int found = 0;
unsigned int proto;
struct ipr_ioa_cfg *ioa_cfg = res->ioa_cfg;
struct ipr_resource_entry *gscsi_res = NULL;
res->needs_sync_complete = 0;
res->in_erp = 0;
res->add_to_ml = 0;
res->del_from_ml = 0;
res->resetting_device = 0;
res->reset_occurred = 0;
res->sdev = NULL;
res->sata_port = NULL;
if (ioa_cfg->sis64) {
proto = cfgtew->u.cfgte64->proto;
res->flags = be16_to_cpu(cfgtew->u.cfgte64->flags);
res->res_flags = be16_to_cpu(cfgtew->u.cfgte64->res_flags);
res->qmodel = IPR_QUEUEING_MODEL64(res);
res->type = cfgtew->u.cfgte64->res_type;
memcpy(res->res_path, &cfgtew->u.cfgte64->res_path,
sizeof(res->res_path));
res->bus = 0;
memcpy(&res->dev_lun.scsi_lun, &cfgtew->u.cfgte64->lun,
sizeof(res->dev_lun.scsi_lun));
res->lun = scsilun_to_int(&res->dev_lun);
if (res->type == IPR_RES_TYPE_GENERIC_SCSI) {
list_for_each_entry(gscsi_res, &ioa_cfg->used_res_q, queue) {
if (gscsi_res->dev_id == cfgtew->u.cfgte64->dev_id) {
found = 1;
res->target = gscsi_res->target;
break;
}
}
if (!found) {
res->target = find_first_zero_bit(ioa_cfg->target_ids,
ioa_cfg->max_devs_supported);
set_bit(res->target, ioa_cfg->target_ids);
}
} else if (res->type == IPR_RES_TYPE_IOAFP) {
res->bus = IPR_IOAFP_VIRTUAL_BUS;
res->target = 0;
} else if (res->type == IPR_RES_TYPE_ARRAY) {
res->bus = IPR_ARRAY_VIRTUAL_BUS;
res->target = find_first_zero_bit(ioa_cfg->array_ids,
ioa_cfg->max_devs_supported);
set_bit(res->target, ioa_cfg->array_ids);
} else if (res->type == IPR_RES_TYPE_VOLUME_SET) {
res->bus = IPR_VSET_VIRTUAL_BUS;
res->target = find_first_zero_bit(ioa_cfg->vset_ids,
ioa_cfg->max_devs_supported);
set_bit(res->target, ioa_cfg->vset_ids);
} else {
res->target = find_first_zero_bit(ioa_cfg->target_ids,
ioa_cfg->max_devs_supported);
set_bit(res->target, ioa_cfg->target_ids);
}
} else {
proto = cfgtew->u.cfgte->proto;
res->qmodel = IPR_QUEUEING_MODEL(res);
res->flags = cfgtew->u.cfgte->flags;
if (res->flags & IPR_IS_IOA_RESOURCE)
res->type = IPR_RES_TYPE_IOAFP;
else
res->type = cfgtew->u.cfgte->rsvd_subtype & 0x0f;
res->bus = cfgtew->u.cfgte->res_addr.bus;
res->target = cfgtew->u.cfgte->res_addr.target;
res->lun = cfgtew->u.cfgte->res_addr.lun;
res->lun_wwn = get_unaligned_be64(cfgtew->u.cfgte->lun_wwn);
}
ipr_update_ata_class(res, proto);
}
/**
* ipr_is_same_device - Determine if two devices are the same.
* @res: resource entry struct
* @cfgtew: config table entry wrapper struct
*
* Return value:
* 1 if the devices are the same / 0 otherwise
**/
static int ipr_is_same_device(struct ipr_resource_entry *res,
struct ipr_config_table_entry_wrapper *cfgtew)
{
if (res->ioa_cfg->sis64) {
if (!memcmp(&res->dev_id, &cfgtew->u.cfgte64->dev_id,
sizeof(cfgtew->u.cfgte64->dev_id)) &&
!memcmp(&res->dev_lun.scsi_lun, &cfgtew->u.cfgte64->lun,
sizeof(cfgtew->u.cfgte64->lun))) {
return 1;
}
} else {
if (res->bus == cfgtew->u.cfgte->res_addr.bus &&
res->target == cfgtew->u.cfgte->res_addr.target &&
res->lun == cfgtew->u.cfgte->res_addr.lun)
return 1;
}
return 0;
}
/**
* __ipr_format_res_path - Format the resource path for printing.
* @res_path: resource path
* @buffer: buffer
* @len: length of buffer provided
*
* Return value:
* pointer to buffer
**/
static char *__ipr_format_res_path(u8 *res_path, char *buffer, int len)
{
int i;
char *p = buffer;
*p = '\0';
p += scnprintf(p, buffer + len - p, "%02X", res_path[0]);
for (i = 1; res_path[i] != 0xff && i < IPR_RES_PATH_BYTES; i++)
p += scnprintf(p, buffer + len - p, "-%02X", res_path[i]);
return buffer;
}
/**
* ipr_format_res_path - Format the resource path for printing.
* @ioa_cfg: ioa config struct
* @res_path: resource path
* @buffer: buffer
* @len: length of buffer provided
*
* Return value:
* pointer to buffer
**/
static char *ipr_format_res_path(struct ipr_ioa_cfg *ioa_cfg,
u8 *res_path, char *buffer, int len)
{
char *p = buffer;
*p = '\0';
p += scnprintf(p, buffer + len - p, "%d/", ioa_cfg->host->host_no);
__ipr_format_res_path(res_path, p, len - (p - buffer));
return buffer;
}
/**
* ipr_update_res_entry - Update the resource entry.
* @res: resource entry struct
* @cfgtew: config table entry wrapper struct
*
* Return value:
* none
**/
static void ipr_update_res_entry(struct ipr_resource_entry *res,
struct ipr_config_table_entry_wrapper *cfgtew)
{
char buffer[IPR_MAX_RES_PATH_LENGTH];
unsigned int proto;
int new_path = 0;
if (res->ioa_cfg->sis64) {
res->flags = be16_to_cpu(cfgtew->u.cfgte64->flags);
res->res_flags = be16_to_cpu(cfgtew->u.cfgte64->res_flags);
res->type = cfgtew->u.cfgte64->res_type;
memcpy(&res->std_inq_data, &cfgtew->u.cfgte64->std_inq_data,
sizeof(struct ipr_std_inq_data));
res->qmodel = IPR_QUEUEING_MODEL64(res);
proto = cfgtew->u.cfgte64->proto;
res->res_handle = cfgtew->u.cfgte64->res_handle;
res->dev_id = cfgtew->u.cfgte64->dev_id;
memcpy(&res->dev_lun.scsi_lun, &cfgtew->u.cfgte64->lun,
sizeof(res->dev_lun.scsi_lun));
if (memcmp(res->res_path, &cfgtew->u.cfgte64->res_path,
sizeof(res->res_path))) {
memcpy(res->res_path, &cfgtew->u.cfgte64->res_path,
sizeof(res->res_path));
new_path = 1;
}
if (res->sdev && new_path)
sdev_printk(KERN_INFO, res->sdev, "Resource path: %s\n",
ipr_format_res_path(res->ioa_cfg,
res->res_path, buffer, sizeof(buffer)));
} else {
res->flags = cfgtew->u.cfgte->flags;
if (res->flags & IPR_IS_IOA_RESOURCE)
res->type = IPR_RES_TYPE_IOAFP;
else
res->type = cfgtew->u.cfgte->rsvd_subtype & 0x0f;
memcpy(&res->std_inq_data, &cfgtew->u.cfgte->std_inq_data,
sizeof(struct ipr_std_inq_data));
res->qmodel = IPR_QUEUEING_MODEL(res);
proto = cfgtew->u.cfgte->proto;
res->res_handle = cfgtew->u.cfgte->res_handle;
}
ipr_update_ata_class(res, proto);
}
/**
* ipr_clear_res_target - Clear the bit in the bit map representing the target
* for the resource.
* @res: resource entry struct
*
* Return value:
* none
**/
static void ipr_clear_res_target(struct ipr_resource_entry *res)
{
struct ipr_resource_entry *gscsi_res = NULL;
struct ipr_ioa_cfg *ioa_cfg = res->ioa_cfg;
if (!ioa_cfg->sis64)
return;
if (res->bus == IPR_ARRAY_VIRTUAL_BUS)
clear_bit(res->target, ioa_cfg->array_ids);
else if (res->bus == IPR_VSET_VIRTUAL_BUS)
clear_bit(res->target, ioa_cfg->vset_ids);
else if (res->bus == 0 && res->type == IPR_RES_TYPE_GENERIC_SCSI) {
list_for_each_entry(gscsi_res, &ioa_cfg->used_res_q, queue)
if (gscsi_res->dev_id == res->dev_id && gscsi_res != res)
return;
clear_bit(res->target, ioa_cfg->target_ids);
} else if (res->bus == 0)
clear_bit(res->target, ioa_cfg->target_ids);
}
/**
* ipr_handle_config_change - Handle a config change from the adapter
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb
*
* Return value:
* none
**/
static void ipr_handle_config_change(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_resource_entry *res = NULL;
struct ipr_config_table_entry_wrapper cfgtew;
__be32 cc_res_handle;
u32 is_ndn = 1;
if (ioa_cfg->sis64) {
cfgtew.u.cfgte64 = &hostrcb->hcam.u.ccn.u.cfgte64;
cc_res_handle = cfgtew.u.cfgte64->res_handle;
} else {
cfgtew.u.cfgte = &hostrcb->hcam.u.ccn.u.cfgte;
cc_res_handle = cfgtew.u.cfgte->res_handle;
}
list_for_each_entry(res, &ioa_cfg->used_res_q, queue) {
if (res->res_handle == cc_res_handle) {
is_ndn = 0;
break;
}
}
if (is_ndn) {
if (list_empty(&ioa_cfg->free_res_q)) {
ipr_send_hcam(ioa_cfg,
IPR_HCAM_CDB_OP_CODE_CONFIG_CHANGE,
hostrcb);
return;
}
res = list_entry(ioa_cfg->free_res_q.next,
struct ipr_resource_entry, queue);
list_del(&res->queue);
ipr_init_res_entry(res, &cfgtew);
list_add_tail(&res->queue, &ioa_cfg->used_res_q);
}
ipr_update_res_entry(res, &cfgtew);
if (hostrcb->hcam.notify_type == IPR_HOST_RCB_NOTIF_TYPE_REM_ENTRY) {
if (res->sdev) {
res->del_from_ml = 1;
res->res_handle = IPR_INVALID_RES_HANDLE;
schedule_work(&ioa_cfg->work_q);
} else {
ipr_clear_res_target(res);
list_move_tail(&res->queue, &ioa_cfg->free_res_q);
}
} else if (!res->sdev || res->del_from_ml) {
res->add_to_ml = 1;
schedule_work(&ioa_cfg->work_q);
}
ipr_send_hcam(ioa_cfg, IPR_HCAM_CDB_OP_CODE_CONFIG_CHANGE, hostrcb);
}
/**
* ipr_process_ccn - Op done function for a CCN.
* @ipr_cmd: ipr command struct
*
* This function is the op done function for a configuration
* change notification host controlled async from the adapter.
*
* Return value:
* none
**/
static void ipr_process_ccn(struct ipr_cmnd *ipr_cmd)
{
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
struct ipr_hostrcb *hostrcb = ipr_cmd->u.hostrcb;
u32 ioasc = be32_to_cpu(ipr_cmd->s.ioasa.hdr.ioasc);
list_del_init(&hostrcb->queue);
list_add_tail(&ipr_cmd->queue, &ipr_cmd->hrrq->hrrq_free_q);
if (ioasc) {
if (ioasc != IPR_IOASC_IOA_WAS_RESET &&
ioasc != IPR_IOASC_ABORTED_CMD_TERM_BY_HOST)
dev_err(&ioa_cfg->pdev->dev,
"Host RCB failed with IOASC: 0x%08X\n", ioasc);
ipr_send_hcam(ioa_cfg, IPR_HCAM_CDB_OP_CODE_CONFIG_CHANGE, hostrcb);
} else {
ipr_handle_config_change(ioa_cfg, hostrcb);
}
}
/**
* strip_whitespace - Strip and pad trailing whitespace.
* @i: size of buffer
* @buf: string to modify
*
* This function will strip all trailing whitespace and
* NUL terminate the string.
*
**/
static void strip_whitespace(int i, char *buf)
{
if (i < 1)
return;
i--;
while (i && buf[i] == ' ')
i--;
buf[i+1] = '\0';
}
/**
* ipr_log_vpd_compact - Log the passed extended VPD compactly.
* @prefix: string to print at start of printk
* @hostrcb: hostrcb pointer
* @vpd: vendor/product id/sn struct
*
* Return value:
* none
**/
static void ipr_log_vpd_compact(char *prefix, struct ipr_hostrcb *hostrcb,
struct ipr_vpd *vpd)
{
char vendor_id[IPR_VENDOR_ID_LEN + 1];
char product_id[IPR_PROD_ID_LEN + 1];
char sn[IPR_SERIAL_NUM_LEN + 1];
memcpy(vendor_id, vpd->vpids.vendor_id, IPR_VENDOR_ID_LEN);
strip_whitespace(IPR_VENDOR_ID_LEN, vendor_id);
memcpy(product_id, vpd->vpids.product_id, IPR_PROD_ID_LEN);
strip_whitespace(IPR_PROD_ID_LEN, product_id);
memcpy(sn, vpd->sn, IPR_SERIAL_NUM_LEN);
strip_whitespace(IPR_SERIAL_NUM_LEN, sn);
ipr_hcam_err(hostrcb, "%s VPID/SN: %s %s %s\n", prefix,
vendor_id, product_id, sn);
}
/**
* ipr_log_vpd - Log the passed VPD to the error log.
* @vpd: vendor/product id/sn struct
*
* Return value:
* none
**/
static void ipr_log_vpd(struct ipr_vpd *vpd)
{
char buffer[IPR_VENDOR_ID_LEN + IPR_PROD_ID_LEN
+ IPR_SERIAL_NUM_LEN];
memcpy(buffer, vpd->vpids.vendor_id, IPR_VENDOR_ID_LEN);
memcpy(buffer + IPR_VENDOR_ID_LEN, vpd->vpids.product_id,
IPR_PROD_ID_LEN);
buffer[IPR_VENDOR_ID_LEN + IPR_PROD_ID_LEN] = '\0';
ipr_err("Vendor/Product ID: %s\n", buffer);
memcpy(buffer, vpd->sn, IPR_SERIAL_NUM_LEN);
buffer[IPR_SERIAL_NUM_LEN] = '\0';
ipr_err(" Serial Number: %s\n", buffer);
}
/**
* ipr_log_ext_vpd_compact - Log the passed extended VPD compactly.
* @prefix: string to print at start of printk
* @hostrcb: hostrcb pointer
* @vpd: vendor/product id/sn/wwn struct
*
* Return value:
* none
**/
static void ipr_log_ext_vpd_compact(char *prefix, struct ipr_hostrcb *hostrcb,
struct ipr_ext_vpd *vpd)
{
ipr_log_vpd_compact(prefix, hostrcb, &vpd->vpd);
ipr_hcam_err(hostrcb, "%s WWN: %08X%08X\n", prefix,
be32_to_cpu(vpd->wwid[0]), be32_to_cpu(vpd->wwid[1]));
}
/**
* ipr_log_ext_vpd - Log the passed extended VPD to the error log.
* @vpd: vendor/product id/sn/wwn struct
*
* Return value:
* none
**/
static void ipr_log_ext_vpd(struct ipr_ext_vpd *vpd)
{
ipr_log_vpd(&vpd->vpd);
ipr_err(" WWN: %08X%08X\n", be32_to_cpu(vpd->wwid[0]),
be32_to_cpu(vpd->wwid[1]));
}
/**
* ipr_log_enhanced_cache_error - Log a cache error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_enhanced_cache_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_12_error *error;
if (ioa_cfg->sis64)
error = &hostrcb->hcam.u.error64.u.type_12_error;
else
error = &hostrcb->hcam.u.error.u.type_12_error;
ipr_err("-----Current Configuration-----\n");
ipr_err("Cache Directory Card Information:\n");
ipr_log_ext_vpd(&error->ioa_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_ext_vpd(&error->cfc_vpd);
ipr_err("-----Expected Configuration-----\n");
ipr_err("Cache Directory Card Information:\n");
ipr_log_ext_vpd(&error->ioa_last_attached_to_cfc_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_ext_vpd(&error->cfc_last_attached_to_ioa_vpd);
ipr_err("Additional IOA Data: %08X %08X %08X\n",
be32_to_cpu(error->ioa_data[0]),
be32_to_cpu(error->ioa_data[1]),
be32_to_cpu(error->ioa_data[2]));
}
/**
* ipr_log_cache_error - Log a cache error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_cache_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_02_error *error =
&hostrcb->hcam.u.error.u.type_02_error;
ipr_err("-----Current Configuration-----\n");
ipr_err("Cache Directory Card Information:\n");
ipr_log_vpd(&error->ioa_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_vpd(&error->cfc_vpd);
ipr_err("-----Expected Configuration-----\n");
ipr_err("Cache Directory Card Information:\n");
ipr_log_vpd(&error->ioa_last_attached_to_cfc_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_vpd(&error->cfc_last_attached_to_ioa_vpd);
ipr_err("Additional IOA Data: %08X %08X %08X\n",
be32_to_cpu(error->ioa_data[0]),
be32_to_cpu(error->ioa_data[1]),
be32_to_cpu(error->ioa_data[2]));
}
/**
* ipr_log_enhanced_config_error - Log a configuration error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_enhanced_config_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
int errors_logged, i;
struct ipr_hostrcb_device_data_entry_enhanced *dev_entry;
struct ipr_hostrcb_type_13_error *error;
error = &hostrcb->hcam.u.error.u.type_13_error;
errors_logged = be32_to_cpu(error->errors_logged);
ipr_err("Device Errors Detected/Logged: %d/%d\n",
be32_to_cpu(error->errors_detected), errors_logged);
dev_entry = error->dev;
for (i = 0; i < errors_logged; i++, dev_entry++) {
ipr_err_separator;
ipr_phys_res_err(ioa_cfg, dev_entry->dev_res_addr, "Device %d", i + 1);
ipr_log_ext_vpd(&dev_entry->vpd);
ipr_err("-----New Device Information-----\n");
ipr_log_ext_vpd(&dev_entry->new_vpd);
ipr_err("Cache Directory Card Information:\n");
ipr_log_ext_vpd(&dev_entry->ioa_last_with_dev_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_ext_vpd(&dev_entry->cfc_last_with_dev_vpd);
}
}
/**
* ipr_log_sis64_config_error - Log a device error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_sis64_config_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
int errors_logged, i;
struct ipr_hostrcb64_device_data_entry_enhanced *dev_entry;
struct ipr_hostrcb_type_23_error *error;
char buffer[IPR_MAX_RES_PATH_LENGTH];
error = &hostrcb->hcam.u.error64.u.type_23_error;
errors_logged = be32_to_cpu(error->errors_logged);
ipr_err("Device Errors Detected/Logged: %d/%d\n",
be32_to_cpu(error->errors_detected), errors_logged);
dev_entry = error->dev;
for (i = 0; i < errors_logged; i++, dev_entry++) {
ipr_err_separator;
ipr_err("Device %d : %s", i + 1,
__ipr_format_res_path(dev_entry->res_path,
buffer, sizeof(buffer)));
ipr_log_ext_vpd(&dev_entry->vpd);
ipr_err("-----New Device Information-----\n");
ipr_log_ext_vpd(&dev_entry->new_vpd);
ipr_err("Cache Directory Card Information:\n");
ipr_log_ext_vpd(&dev_entry->ioa_last_with_dev_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_ext_vpd(&dev_entry->cfc_last_with_dev_vpd);
}
}
/**
* ipr_log_config_error - Log a configuration error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_config_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
int errors_logged, i;
struct ipr_hostrcb_device_data_entry *dev_entry;
struct ipr_hostrcb_type_03_error *error;
error = &hostrcb->hcam.u.error.u.type_03_error;
errors_logged = be32_to_cpu(error->errors_logged);
ipr_err("Device Errors Detected/Logged: %d/%d\n",
be32_to_cpu(error->errors_detected), errors_logged);
dev_entry = error->dev;
for (i = 0; i < errors_logged; i++, dev_entry++) {
ipr_err_separator;
ipr_phys_res_err(ioa_cfg, dev_entry->dev_res_addr, "Device %d", i + 1);
ipr_log_vpd(&dev_entry->vpd);
ipr_err("-----New Device Information-----\n");
ipr_log_vpd(&dev_entry->new_vpd);
ipr_err("Cache Directory Card Information:\n");
ipr_log_vpd(&dev_entry->ioa_last_with_dev_vpd);
ipr_err("Adapter Card Information:\n");
ipr_log_vpd(&dev_entry->cfc_last_with_dev_vpd);
ipr_err("Additional IOA Data: %08X %08X %08X %08X %08X\n",
be32_to_cpu(dev_entry->ioa_data[0]),
be32_to_cpu(dev_entry->ioa_data[1]),
be32_to_cpu(dev_entry->ioa_data[2]),
be32_to_cpu(dev_entry->ioa_data[3]),
be32_to_cpu(dev_entry->ioa_data[4]));
}
}
/**
* ipr_log_enhanced_array_error - Log an array configuration error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_enhanced_array_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
int i, num_entries;
struct ipr_hostrcb_type_14_error *error;
struct ipr_hostrcb_array_data_entry_enhanced *array_entry;
const u8 zero_sn[IPR_SERIAL_NUM_LEN] = { [0 ... IPR_SERIAL_NUM_LEN-1] = '0' };
error = &hostrcb->hcam.u.error.u.type_14_error;
ipr_err_separator;
ipr_err("RAID %s Array Configuration: %d:%d:%d:%d\n",
error->protection_level,
ioa_cfg->host->host_no,
error->last_func_vset_res_addr.bus,
error->last_func_vset_res_addr.target,
error->last_func_vset_res_addr.lun);
ipr_err_separator;
array_entry = error->array_member;
num_entries = min_t(u32, be32_to_cpu(error->num_entries),
ARRAY_SIZE(error->array_member));
for (i = 0; i < num_entries; i++, array_entry++) {
if (!memcmp(array_entry->vpd.vpd.sn, zero_sn, IPR_SERIAL_NUM_LEN))
continue;
if (be32_to_cpu(error->exposed_mode_adn) == i)
ipr_err("Exposed Array Member %d:\n", i);
else
ipr_err("Array Member %d:\n", i);
ipr_log_ext_vpd(&array_entry->vpd);
ipr_phys_res_err(ioa_cfg, array_entry->dev_res_addr, "Current Location");
ipr_phys_res_err(ioa_cfg, array_entry->expected_dev_res_addr,
"Expected Location");
ipr_err_separator;
}
}
/**
* ipr_log_array_error - Log an array configuration error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_array_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
int i;
struct ipr_hostrcb_type_04_error *error;
struct ipr_hostrcb_array_data_entry *array_entry;
const u8 zero_sn[IPR_SERIAL_NUM_LEN] = { [0 ... IPR_SERIAL_NUM_LEN-1] = '0' };
error = &hostrcb->hcam.u.error.u.type_04_error;
ipr_err_separator;
ipr_err("RAID %s Array Configuration: %d:%d:%d:%d\n",
error->protection_level,
ioa_cfg->host->host_no,
error->last_func_vset_res_addr.bus,
error->last_func_vset_res_addr.target,
error->last_func_vset_res_addr.lun);
ipr_err_separator;
array_entry = error->array_member;
for (i = 0; i < 18; i++) {
if (!memcmp(array_entry->vpd.sn, zero_sn, IPR_SERIAL_NUM_LEN))
continue;
if (be32_to_cpu(error->exposed_mode_adn) == i)
ipr_err("Exposed Array Member %d:\n", i);
else
ipr_err("Array Member %d:\n", i);
ipr_log_vpd(&array_entry->vpd);
ipr_phys_res_err(ioa_cfg, array_entry->dev_res_addr, "Current Location");
ipr_phys_res_err(ioa_cfg, array_entry->expected_dev_res_addr,
"Expected Location");
ipr_err_separator;
if (i == 9)
array_entry = error->array_member2;
else
array_entry++;
}
}
/**
* ipr_log_hex_data - Log additional hex IOA error data.
* @ioa_cfg: ioa config struct
* @data: IOA error data
* @len: data length
*
* Return value:
* none
**/
static void ipr_log_hex_data(struct ipr_ioa_cfg *ioa_cfg, __be32 *data, int len)
{
int i;
if (len == 0)
return;
if (ioa_cfg->log_level <= IPR_DEFAULT_LOG_LEVEL)
len = min_t(int, len, IPR_DEFAULT_MAX_ERROR_DUMP);
for (i = 0; i < len / 4; i += 4) {
ipr_err("%08X: %08X %08X %08X %08X\n", i*4,
be32_to_cpu(data[i]),
be32_to_cpu(data[i+1]),
be32_to_cpu(data[i+2]),
be32_to_cpu(data[i+3]));
}
}
/**
* ipr_log_enhanced_dual_ioa_error - Log an enhanced dual adapter error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_enhanced_dual_ioa_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_17_error *error;
if (ioa_cfg->sis64)
error = &hostrcb->hcam.u.error64.u.type_17_error;
else
error = &hostrcb->hcam.u.error.u.type_17_error;
error->failure_reason[sizeof(error->failure_reason) - 1] = '\0';
strim(error->failure_reason);
ipr_hcam_err(hostrcb, "%s [PRC: %08X]\n", error->failure_reason,
be32_to_cpu(hostrcb->hcam.u.error.prc));
ipr_log_ext_vpd_compact("Remote IOA", hostrcb, &error->vpd);
ipr_log_hex_data(ioa_cfg, error->data,
be32_to_cpu(hostrcb->hcam.length) -
(offsetof(struct ipr_hostrcb_error, u) +
offsetof(struct ipr_hostrcb_type_17_error, data)));
}
/**
* ipr_log_dual_ioa_error - Log a dual adapter error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_dual_ioa_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_07_error *error;
error = &hostrcb->hcam.u.error.u.type_07_error;
error->failure_reason[sizeof(error->failure_reason) - 1] = '\0';
strim(error->failure_reason);
ipr_hcam_err(hostrcb, "%s [PRC: %08X]\n", error->failure_reason,
be32_to_cpu(hostrcb->hcam.u.error.prc));
ipr_log_vpd_compact("Remote IOA", hostrcb, &error->vpd);
ipr_log_hex_data(ioa_cfg, error->data,
be32_to_cpu(hostrcb->hcam.length) -
(offsetof(struct ipr_hostrcb_error, u) +
offsetof(struct ipr_hostrcb_type_07_error, data)));
}
static const struct {
u8 active;
char *desc;
} path_active_desc[] = {
{ IPR_PATH_NO_INFO, "Path" },
{ IPR_PATH_ACTIVE, "Active path" },
{ IPR_PATH_NOT_ACTIVE, "Inactive path" }
};
static const struct {
u8 state;
char *desc;
} path_state_desc[] = {
{ IPR_PATH_STATE_NO_INFO, "has no path state information available" },
{ IPR_PATH_HEALTHY, "is healthy" },
{ IPR_PATH_DEGRADED, "is degraded" },
{ IPR_PATH_FAILED, "is failed" }
};
/**
* ipr_log_fabric_path - Log a fabric path error
* @hostrcb: hostrcb struct
* @fabric: fabric descriptor
*
* Return value:
* none
**/
static void ipr_log_fabric_path(struct ipr_hostrcb *hostrcb,
struct ipr_hostrcb_fabric_desc *fabric)
{
int i, j;
u8 path_state = fabric->path_state;
u8 active = path_state & IPR_PATH_ACTIVE_MASK;
u8 state = path_state & IPR_PATH_STATE_MASK;
for (i = 0; i < ARRAY_SIZE(path_active_desc); i++) {
if (path_active_desc[i].active != active)
continue;
for (j = 0; j < ARRAY_SIZE(path_state_desc); j++) {
if (path_state_desc[j].state != state)
continue;
if (fabric->cascaded_expander == 0xff && fabric->phy == 0xff) {
ipr_hcam_err(hostrcb, "%s %s: IOA Port=%d\n",
path_active_desc[i].desc, path_state_desc[j].desc,
fabric->ioa_port);
} else if (fabric->cascaded_expander == 0xff) {
ipr_hcam_err(hostrcb, "%s %s: IOA Port=%d, Phy=%d\n",
path_active_desc[i].desc, path_state_desc[j].desc,
fabric->ioa_port, fabric->phy);
} else if (fabric->phy == 0xff) {
ipr_hcam_err(hostrcb, "%s %s: IOA Port=%d, Cascade=%d\n",
path_active_desc[i].desc, path_state_desc[j].desc,
fabric->ioa_port, fabric->cascaded_expander);
} else {
ipr_hcam_err(hostrcb, "%s %s: IOA Port=%d, Cascade=%d, Phy=%d\n",
path_active_desc[i].desc, path_state_desc[j].desc,
fabric->ioa_port, fabric->cascaded_expander, fabric->phy);
}
return;
}
}
ipr_err("Path state=%02X IOA Port=%d Cascade=%d Phy=%d\n", path_state,
fabric->ioa_port, fabric->cascaded_expander, fabric->phy);
}
/**
* ipr_log64_fabric_path - Log a fabric path error
* @hostrcb: hostrcb struct
* @fabric: fabric descriptor
*
* Return value:
* none
**/
static void ipr_log64_fabric_path(struct ipr_hostrcb *hostrcb,
struct ipr_hostrcb64_fabric_desc *fabric)
{
int i, j;
u8 path_state = fabric->path_state;
u8 active = path_state & IPR_PATH_ACTIVE_MASK;
u8 state = path_state & IPR_PATH_STATE_MASK;
char buffer[IPR_MAX_RES_PATH_LENGTH];
for (i = 0; i < ARRAY_SIZE(path_active_desc); i++) {
if (path_active_desc[i].active != active)
continue;
for (j = 0; j < ARRAY_SIZE(path_state_desc); j++) {
if (path_state_desc[j].state != state)
continue;
ipr_hcam_err(hostrcb, "%s %s: Resource Path=%s\n",
path_active_desc[i].desc, path_state_desc[j].desc,
ipr_format_res_path(hostrcb->ioa_cfg,
fabric->res_path,
buffer, sizeof(buffer)));
return;
}
}
ipr_err("Path state=%02X Resource Path=%s\n", path_state,
ipr_format_res_path(hostrcb->ioa_cfg, fabric->res_path,
buffer, sizeof(buffer)));
}
static const struct {
u8 type;
char *desc;
} path_type_desc[] = {
{ IPR_PATH_CFG_IOA_PORT, "IOA port" },
{ IPR_PATH_CFG_EXP_PORT, "Expander port" },
{ IPR_PATH_CFG_DEVICE_PORT, "Device port" },
{ IPR_PATH_CFG_DEVICE_LUN, "Device LUN" }
};
static const struct {
u8 status;
char *desc;
} path_status_desc[] = {
{ IPR_PATH_CFG_NO_PROB, "Functional" },
{ IPR_PATH_CFG_DEGRADED, "Degraded" },
{ IPR_PATH_CFG_FAILED, "Failed" },
{ IPR_PATH_CFG_SUSPECT, "Suspect" },
{ IPR_PATH_NOT_DETECTED, "Missing" },
{ IPR_PATH_INCORRECT_CONN, "Incorrectly connected" }
};
static const char *link_rate[] = {
"unknown",
"disabled",
"phy reset problem",
"spinup hold",
"port selector",
"unknown",
"unknown",
"unknown",
"1.5Gbps",
"3.0Gbps",
"unknown",
"unknown",
"unknown",
"unknown",
"unknown",
"unknown"
};
/**
* ipr_log_path_elem - Log a fabric path element.
* @hostrcb: hostrcb struct
* @cfg: fabric path element struct
*
* Return value:
* none
**/
static void ipr_log_path_elem(struct ipr_hostrcb *hostrcb,
struct ipr_hostrcb_config_element *cfg)
{
int i, j;
u8 type = cfg->type_status & IPR_PATH_CFG_TYPE_MASK;
u8 status = cfg->type_status & IPR_PATH_CFG_STATUS_MASK;
if (type == IPR_PATH_CFG_NOT_EXIST)
return;
for (i = 0; i < ARRAY_SIZE(path_type_desc); i++) {
if (path_type_desc[i].type != type)
continue;
for (j = 0; j < ARRAY_SIZE(path_status_desc); j++) {
if (path_status_desc[j].status != status)
continue;
if (type == IPR_PATH_CFG_IOA_PORT) {
ipr_hcam_err(hostrcb, "%s %s: Phy=%d, Link rate=%s, WWN=%08X%08X\n",
path_status_desc[j].desc, path_type_desc[i].desc,
cfg->phy, link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
} else {
if (cfg->cascaded_expander == 0xff && cfg->phy == 0xff) {
ipr_hcam_err(hostrcb, "%s %s: Link rate=%s, WWN=%08X%08X\n",
path_status_desc[j].desc, path_type_desc[i].desc,
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
} else if (cfg->cascaded_expander == 0xff) {
ipr_hcam_err(hostrcb, "%s %s: Phy=%d, Link rate=%s, "
"WWN=%08X%08X\n", path_status_desc[j].desc,
path_type_desc[i].desc, cfg->phy,
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
} else if (cfg->phy == 0xff) {
ipr_hcam_err(hostrcb, "%s %s: Cascade=%d, Link rate=%s, "
"WWN=%08X%08X\n", path_status_desc[j].desc,
path_type_desc[i].desc, cfg->cascaded_expander,
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
} else {
ipr_hcam_err(hostrcb, "%s %s: Cascade=%d, Phy=%d, Link rate=%s "
"WWN=%08X%08X\n", path_status_desc[j].desc,
path_type_desc[i].desc, cfg->cascaded_expander, cfg->phy,
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
}
}
return;
}
}
ipr_hcam_err(hostrcb, "Path element=%02X: Cascade=%d Phy=%d Link rate=%s "
"WWN=%08X%08X\n", cfg->type_status, cfg->cascaded_expander, cfg->phy,
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
}
/**
* ipr_log64_path_elem - Log a fabric path element.
* @hostrcb: hostrcb struct
* @cfg: fabric path element struct
*
* Return value:
* none
**/
static void ipr_log64_path_elem(struct ipr_hostrcb *hostrcb,
struct ipr_hostrcb64_config_element *cfg)
{
int i, j;
u8 desc_id = cfg->descriptor_id & IPR_DESCRIPTOR_MASK;
u8 type = cfg->type_status & IPR_PATH_CFG_TYPE_MASK;
u8 status = cfg->type_status & IPR_PATH_CFG_STATUS_MASK;
char buffer[IPR_MAX_RES_PATH_LENGTH];
if (type == IPR_PATH_CFG_NOT_EXIST || desc_id != IPR_DESCRIPTOR_SIS64)
return;
for (i = 0; i < ARRAY_SIZE(path_type_desc); i++) {
if (path_type_desc[i].type != type)
continue;
for (j = 0; j < ARRAY_SIZE(path_status_desc); j++) {
if (path_status_desc[j].status != status)
continue;
ipr_hcam_err(hostrcb, "%s %s: Resource Path=%s, Link rate=%s, WWN=%08X%08X\n",
path_status_desc[j].desc, path_type_desc[i].desc,
ipr_format_res_path(hostrcb->ioa_cfg,
cfg->res_path, buffer, sizeof(buffer)),
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]),
be32_to_cpu(cfg->wwid[1]));
return;
}
}
ipr_hcam_err(hostrcb, "Path element=%02X: Resource Path=%s, Link rate=%s "
"WWN=%08X%08X\n", cfg->type_status,
ipr_format_res_path(hostrcb->ioa_cfg,
cfg->res_path, buffer, sizeof(buffer)),
link_rate[cfg->link_rate & IPR_PHY_LINK_RATE_MASK],
be32_to_cpu(cfg->wwid[0]), be32_to_cpu(cfg->wwid[1]));
}
/**
* ipr_log_fabric_error - Log a fabric error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_fabric_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_20_error *error;
struct ipr_hostrcb_fabric_desc *fabric;
struct ipr_hostrcb_config_element *cfg;
int i, add_len;
error = &hostrcb->hcam.u.error.u.type_20_error;
error->failure_reason[sizeof(error->failure_reason) - 1] = '\0';
ipr_hcam_err(hostrcb, "%s\n", error->failure_reason);
add_len = be32_to_cpu(hostrcb->hcam.length) -
(offsetof(struct ipr_hostrcb_error, u) +
offsetof(struct ipr_hostrcb_type_20_error, desc));
for (i = 0, fabric = error->desc; i < error->num_entries; i++) {
ipr_log_fabric_path(hostrcb, fabric);
for_each_fabric_cfg(fabric, cfg)
ipr_log_path_elem(hostrcb, cfg);
add_len -= be16_to_cpu(fabric->length);
fabric = (struct ipr_hostrcb_fabric_desc *)
((unsigned long)fabric + be16_to_cpu(fabric->length));
}
ipr_log_hex_data(ioa_cfg, (__be32 *)fabric, add_len);
}
/**
* ipr_log_sis64_array_error - Log a sis64 array error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_sis64_array_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
int i, num_entries;
struct ipr_hostrcb_type_24_error *error;
struct ipr_hostrcb64_array_data_entry *array_entry;
char buffer[IPR_MAX_RES_PATH_LENGTH];
const u8 zero_sn[IPR_SERIAL_NUM_LEN] = { [0 ... IPR_SERIAL_NUM_LEN-1] = '0' };
error = &hostrcb->hcam.u.error64.u.type_24_error;
ipr_err_separator;
ipr_err("RAID %s Array Configuration: %s\n",
error->protection_level,
ipr_format_res_path(ioa_cfg, error->last_res_path,
buffer, sizeof(buffer)));
ipr_err_separator;
array_entry = error->array_member;
num_entries = min_t(u32, error->num_entries,
ARRAY_SIZE(error->array_member));
for (i = 0; i < num_entries; i++, array_entry++) {
if (!memcmp(array_entry->vpd.vpd.sn, zero_sn, IPR_SERIAL_NUM_LEN))
continue;
if (error->exposed_mode_adn == i)
ipr_err("Exposed Array Member %d:\n", i);
else
ipr_err("Array Member %d:\n", i);
ipr_err("Array Member %d:\n", i);
ipr_log_ext_vpd(&array_entry->vpd);
ipr_err("Current Location: %s\n",
ipr_format_res_path(ioa_cfg, array_entry->res_path,
buffer, sizeof(buffer)));
ipr_err("Expected Location: %s\n",
ipr_format_res_path(ioa_cfg,
array_entry->expected_res_path,
buffer, sizeof(buffer)));
ipr_err_separator;
}
}
/**
* ipr_log_sis64_fabric_error - Log a sis64 fabric error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_sis64_fabric_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_30_error *error;
struct ipr_hostrcb64_fabric_desc *fabric;
struct ipr_hostrcb64_config_element *cfg;
int i, add_len;
error = &hostrcb->hcam.u.error64.u.type_30_error;
error->failure_reason[sizeof(error->failure_reason) - 1] = '\0';
ipr_hcam_err(hostrcb, "%s\n", error->failure_reason);
add_len = be32_to_cpu(hostrcb->hcam.length) -
(offsetof(struct ipr_hostrcb64_error, u) +
offsetof(struct ipr_hostrcb_type_30_error, desc));
for (i = 0, fabric = error->desc; i < error->num_entries; i++) {
ipr_log64_fabric_path(hostrcb, fabric);
for_each_fabric_cfg(fabric, cfg)
ipr_log64_path_elem(hostrcb, cfg);
add_len -= be16_to_cpu(fabric->length);
fabric = (struct ipr_hostrcb64_fabric_desc *)
((unsigned long)fabric + be16_to_cpu(fabric->length));
}
ipr_log_hex_data(ioa_cfg, (__be32 *)fabric, add_len);
}
/**
* ipr_log_sis64_service_required_error - Log a sis64 service required error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_sis64_service_required_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_41_error *error;
error = &hostrcb->hcam.u.error64.u.type_41_error;
error->failure_reason[sizeof(error->failure_reason) - 1] = '\0';
ipr_err("Primary Failure Reason: %s\n", error->failure_reason);
ipr_log_hex_data(ioa_cfg, error->data,
be32_to_cpu(hostrcb->hcam.length) -
(offsetof(struct ipr_hostrcb_error, u) +
offsetof(struct ipr_hostrcb_type_41_error, data)));
}
/**
* ipr_log_generic_error - Log an adapter error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_generic_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
ipr_log_hex_data(ioa_cfg, hostrcb->hcam.u.raw.data,
be32_to_cpu(hostrcb->hcam.length));
}
/**
* ipr_log_sis64_device_error - Log a cache error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* Return value:
* none
**/
static void ipr_log_sis64_device_error(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
struct ipr_hostrcb_type_21_error *error;
char buffer[IPR_MAX_RES_PATH_LENGTH];
error = &hostrcb->hcam.u.error64.u.type_21_error;
ipr_err("-----Failing Device Information-----\n");
ipr_err("World Wide Unique ID: %08X%08X%08X%08X\n",
be32_to_cpu(error->wwn[0]), be32_to_cpu(error->wwn[1]),
be32_to_cpu(error->wwn[2]), be32_to_cpu(error->wwn[3]));
ipr_err("Device Resource Path: %s\n",
__ipr_format_res_path(error->res_path,
buffer, sizeof(buffer)));
error->primary_problem_desc[sizeof(error->primary_problem_desc) - 1] = '\0';
error->second_problem_desc[sizeof(error->second_problem_desc) - 1] = '\0';
ipr_err("Primary Problem Description: %s\n", error->primary_problem_desc);
ipr_err("Secondary Problem Description: %s\n", error->second_problem_desc);
ipr_err("SCSI Sense Data:\n");
ipr_log_hex_data(ioa_cfg, error->sense_data, sizeof(error->sense_data));
ipr_err("SCSI Command Descriptor Block: \n");
ipr_log_hex_data(ioa_cfg, error->cdb, sizeof(error->cdb));
ipr_err("Additional IOA Data:\n");
ipr_log_hex_data(ioa_cfg, error->ioa_data, be32_to_cpu(error->length_of_error));
}
/**
* ipr_get_error - Find the specfied IOASC in the ipr_error_table.
* @ioasc: IOASC
*
* This function will return the index of into the ipr_error_table
* for the specified IOASC. If the IOASC is not in the table,
* 0 will be returned, which points to the entry used for unknown errors.
*
* Return value:
* index into the ipr_error_table
**/
static u32 ipr_get_error(u32 ioasc)
{
int i;
for (i = 0; i < ARRAY_SIZE(ipr_error_table); i++)
if (ipr_error_table[i].ioasc == (ioasc & IPR_IOASC_IOASC_MASK))
return i;
return 0;
}
/**
* ipr_handle_log_data - Log an adapter error.
* @ioa_cfg: ioa config struct
* @hostrcb: hostrcb struct
*
* This function logs an adapter error to the system.
*
* Return value:
* none
**/
static void ipr_handle_log_data(struct ipr_ioa_cfg *ioa_cfg,
struct ipr_hostrcb *hostrcb)
{
u32 ioasc;
int error_index;
struct ipr_hostrcb_type_21_error *error;
if (hostrcb->hcam.notify_type != IPR_HOST_RCB_NOTIF_TYPE_ERROR_LOG_ENTRY)
return;
if (hostrcb->hcam.notifications_lost == IPR_HOST_RCB_NOTIFICATIONS_LOST)
dev_err(&ioa_cfg->pdev->dev, "Error notifications lost\n");
if (ioa_cfg->sis64)
ioasc = be32_to_cpu(hostrcb->hcam.u.error64.fd_ioasc);
else
ioasc = be32_to_cpu(hostrcb->hcam.u.error.fd_ioasc);
if (!ioa_cfg->sis64 && (ioasc == IPR_IOASC_BUS_WAS_RESET ||
ioasc == IPR_IOASC_BUS_WAS_RESET_BY_OTHER)) {
/* Tell the midlayer we had a bus reset so it will handle the UA properly */
scsi_report_bus_reset(ioa_cfg->host,
hostrcb->hcam.u.error.fd_res_addr.bus);
}
error_index = ipr_get_error(ioasc);
if (!ipr_error_table[error_index].log_hcam)
return;
if (ioasc == IPR_IOASC_HW_CMD_FAILED &&
hostrcb->hcam.overlay_id == IPR_HOST_RCB_OVERLAY_ID_21) {
error = &hostrcb->hcam.u.error64.u.type_21_error;
if (((be32_to_cpu(error->sense_data[0]) & 0x0000ff00) >> 8) == ILLEGAL_REQUEST &&
ioa_cfg->log_level <= IPR_DEFAULT_LOG_LEVEL)
return;
}
ipr_hcam_err(hostrcb, "%s\n", ipr_error_table[error_index].error);
/* Set indication we have logged an error */
ioa_cfg->errors_logged++;
if (ioa_cfg->log_level < ipr_error_table[error_index].log_hcam)
return;
if (be32_to_cpu(hostrcb->hcam.length) > sizeof(hostrcb->hcam.u.raw))
hostrcb->hcam.length = cpu_to_be32(sizeof(hostrcb->hcam.u.raw));
switch (hostrcb->hcam.overlay_id) {
case IPR_HOST_RCB_OVERLAY_ID_2:
ipr_log_cache_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_3:
ipr_log_config_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_4:
case IPR_HOST_RCB_OVERLAY_ID_6:
ipr_log_array_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_7:
ipr_log_dual_ioa_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_12:
ipr_log_enhanced_cache_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_13:
ipr_log_enhanced_config_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_14:
case IPR_HOST_RCB_OVERLAY_ID_16:
ipr_log_enhanced_array_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_17:
ipr_log_enhanced_dual_ioa_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_20:
ipr_log_fabric_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_21:
ipr_log_sis64_device_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_23:
ipr_log_sis64_config_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_24:
case IPR_HOST_RCB_OVERLAY_ID_26:
ipr_log_sis64_array_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_30:
ipr_log_sis64_fabric_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_41:
ipr_log_sis64_service_required_error(ioa_cfg, hostrcb);
break;
case IPR_HOST_RCB_OVERLAY_ID_1:
case IPR_HOST_RCB_OVERLAY_ID_DEFAULT:
default:
ipr_log_generic_error(ioa_cfg, hostrcb);
break;
}
}
static struct ipr_hostrcb *ipr_get_free_hostrcb(struct ipr_ioa_cfg *ioa)
{
struct ipr_hostrcb *hostrcb;
hostrcb = list_first_entry_or_null(&ioa->hostrcb_free_q,
struct ipr_hostrcb, queue);
if (unlikely(!hostrcb)) {
dev_info(&ioa->pdev->dev, "Reclaiming async error buffers.");
hostrcb = list_first_entry_or_null(&ioa->hostrcb_report_q,
struct ipr_hostrcb, queue);
}
list_del_init(&hostrcb->queue);
return hostrcb;
}
/**
* ipr_process_error - Op done function for an adapter error log.
* @ipr_cmd: ipr command struct
*
* This function is the op done function for an error log host
* controlled async from the adapter. It will log the error and
* send the HCAM back to the adapter.
*
* Return value:
* none
**/
static void ipr_process_error(struct ipr_cmnd *ipr_cmd)
{
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
struct ipr_hostrcb *hostrcb = ipr_cmd->u.hostrcb;
u32 ioasc = be32_to_cpu(ipr_cmd->s.ioasa.hdr.ioasc);
u32 fd_ioasc;
if (ioa_cfg->sis64)
fd_ioasc = be32_to_cpu(hostrcb->hcam.u.error64.fd_ioasc);
else
fd_ioasc = be32_to_cpu(hostrcb->hcam.u.error.fd_ioasc);
list_del_init(&hostrcb->queue);
list_add_tail(&ipr_cmd->queue, &ipr_cmd->hrrq->hrrq_free_q);
if (!ioasc) {
ipr_handle_log_data(ioa_cfg, hostrcb);
if (fd_ioasc == IPR_IOASC_NR_IOA_RESET_REQUIRED)
ipr_initiate_ioa_reset(ioa_cfg, IPR_SHUTDOWN_ABBREV);
} else if (ioasc != IPR_IOASC_IOA_WAS_RESET &&
ioasc != IPR_IOASC_ABORTED_CMD_TERM_BY_HOST) {
dev_err(&ioa_cfg->pdev->dev,
"Host RCB failed with IOASC: 0x%08X\n", ioasc);
}
list_add_tail(&hostrcb->queue, &ioa_cfg->hostrcb_report_q);
schedule_work(&ioa_cfg->work_q);
hostrcb = ipr_get_free_hostrcb(ioa_cfg);
ipr_send_hcam(ioa_cfg, IPR_HCAM_CDB_OP_CODE_LOG_DATA, hostrcb);
}
/**
* ipr_timeout - An internally generated op has timed out.
* @t: Timer context used to fetch ipr command struct
*
* This function blocks host requests and initiates an
* adapter reset.
*
* Return value:
* none
**/
static void ipr_timeout(struct timer_list *t)
{
struct ipr_cmnd *ipr_cmd = from_timer(ipr_cmd, t, timer);
unsigned long lock_flags = 0;
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
ENTER;
spin_lock_irqsave(ioa_cfg->host->host_lock, lock_flags);
ioa_cfg->errors_logged++;
dev_err(&ioa_cfg->pdev->dev,
"Adapter being reset due to command timeout.\n");
if (WAIT_FOR_DUMP == ioa_cfg->sdt_state)
ioa_cfg->sdt_state = GET_DUMP;
if (!ioa_cfg->in_reset_reload || ioa_cfg->reset_cmd == ipr_cmd)
ipr_initiate_ioa_reset(ioa_cfg, IPR_SHUTDOWN_NONE);
spin_unlock_irqrestore(ioa_cfg->host->host_lock, lock_flags);
LEAVE;
}
/**
* ipr_oper_timeout - Adapter timed out transitioning to operational
* @t: Timer context used to fetch ipr command struct
*
* This function blocks host requests and initiates an
* adapter reset.
*
* Return value:
* none
**/
static void ipr_oper_timeout(struct timer_list *t)
{
struct ipr_cmnd *ipr_cmd = from_timer(ipr_cmd, t, timer);
unsigned long lock_flags = 0;
struct ipr_ioa_cfg *ioa_cfg = ipr_cmd->ioa_cfg;
ENTER;
spin_lock_irqsave(ioa_cfg->host->host_lock, lock_flags);
ioa_cfg->errors_logged++;
dev_err(&ioa_cfg->pdev->dev,
"Adapter timed out transitioning to operational.\n");
if (WAIT_FOR_DUMP == ioa_cfg->sdt_state)
ioa_cfg->sdt_state = GET_DUMP;
if (!ioa_cfg->in_reset_reload || ioa_cfg->reset_cmd == ipr_cmd) {
if (ipr_fastfail)
ioa_cfg->reset_retries += IPR_NUM_RESET_RELOAD_RETRIES;
ipr_initiate_ioa_reset(ioa_cfg, IPR_SHUTDOWN_NONE);
}
spin_unlock_irqrestore(ioa_cfg->host->host_lock, lock_flags);
LEAVE;
}
/**
* ipr_find_ses_entry - Find matching SES in SES table
* @res: resource entry struct of SES
*
* Return value:
* pointer to SES table entry / NULL on failure
**/
static const struct ipr_ses_table_entry *
ipr_find_ses_entry(struct ipr_resource_entry *res)
{
int i, j, matches;
struct ipr_std_inq_vpids *vpids;
const struct ipr_ses_table_entry *ste = ipr_ses_table;
for (i = 0; i < ARRAY_SIZE(ipr_ses_table); i++, ste++) {
for (j = 0, matches = 0; j < IPR_PROD_ID_LEN; j++) {
if (ste->compare_product_id_byte[j] == 'X') {
vpids = &res->std_inq_data.vpids;
if (vpids->product_id[j] == ste->product_id[j])
matches++;
else
break;
} else
matches++;
}
if (matches == IPR_PROD_ID_LEN)
return ste;
}
return NULL;
}
/**
* ipr_get_max_scsi_speed - Determine max SCSI speed for a given bus
* @ioa_cfg: ioa config struct
* @bus: SCSI bus
* @bus_width: bus width
*
* Return value:
* SCSI bus speed in units of 100KHz, 1600 is 160 MHz