freebsd-nq/sys/dev/mly/mly_tables.h
Pedro F. Giffuni 718cf2ccb9 sys/dev: further adoption of SPDX licensing ID tags.
Mainly focus on files that use BSD 2-Clause license, however the tool I
was using misidentified many licenses so this was mostly a manual - error
prone - task.

The Software Package Data Exchange (SPDX) group provides a specification
to make it easier for automated tools to detect and summarize well known
opensource licenses. We are gradually adopting the specification, noting
that the tags are considered only advisory and do not, in any way,
superceed or replace the license texts.
2017-11-27 14:52:40 +00:00

326 lines
12 KiB
C

/*-
* SPDX-License-Identifier: BSD-2-Clause-FreeBSD
*
* Copyright (c) 2000 Michael Smith
* Copyright (c) 2000 BSDi
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* $FreeBSD$
*/
/*
* Lookup table for code-to-text translations.
*/
struct mly_code_lookup {
char *string;
u_int32_t code;
};
static char *mly_describe_code(struct mly_code_lookup *table, u_int32_t code);
/********************************************************************************
* Look up a text description of a numeric code and return a pointer to same.
*/
static char *
mly_describe_code(struct mly_code_lookup *table, u_int32_t code)
{
int i;
for (i = 0; table[i].string != NULL; i++)
if (table[i].code == code)
return(table[i].string);
return(table[i+1].string);
}
#if 0
static struct mly_code_lookup mly_table_bustype[] = {
{"SCSI", 0x00},
{"FC-AL", 0x01},
{"PCI", 0x03},
{NULL, 0},
{"unknown bus", 0}
};
#endif
static struct mly_code_lookup mly_table_controllertype[] = {
#if 0 /* not supported by this driver */
{"DAC960E", 0x01}, /* EISA */
{"DAC960M", 0x08}, /* MCA */
{"DAC960PD", 0x10}, /* PCI Dual */
{"DAC960PL", 0x11}, /* PCU low-cost */
{"DAC960PDU", 0x12}, /* PD Ultra */
{"DAC960PE", 0x13}, /* Peregrine low-cost */
{"DAC960PG", 0x14}, /* Peregrine high-performance */
{"DAC960PJ", 0x15}, /* Road Runner */
{"DAC960PTL0", 0x16}, /* Jaguar */
{"DAC960PR", 0x17}, /* Road Runner (again?) */
{"DAC960PRL", 0x18}, /* Tomcat */
{"DAC960PT", 0x19}, /* Road Runner (yet again?) */
{"DAC1164P", 0x1a}, /* Little Apple */
{"DAC960PTL1", 0x1b}, /* Jaguar+ */
#endif
{"EXR2000P", 0x1c}, /* Big Apple */
{"EXR3000P", 0x1d}, /* Fibre Apple */
{"AcceleRAID 352", 0x1e}, /* Leopard */
{"AcceleRAID 170", 0x1f}, /* Lynx */
{"AcceleRAID 160", 0x20}, /* Bobcat */
{NULL, 0},
{"unknown adapter", 0}
};
static struct mly_code_lookup mly_table_oemname[] = {
{"Mylex", MLY_OEM_MYLEX},
{"IBM", MLY_OEM_IBM},
{"Hewlett-Packard", MLY_OEM_HP},
{"DEC/Compaq", MLY_OEM_DEC},
{"Siemens", MLY_OEM_SIEMENS},
{"Intel", MLY_OEM_INTEL},
{NULL, 0},
{"unknown OEM", 0}
};
static struct mly_code_lookup mly_table_memorytype[] = {
{"DRAM", 0x01},
{"EDRAM", 0x02},
{"EDO RAM", 0x03},
{"SDRAM", 0x04},
{NULL, 0},
{"unknown memory", 0}
};
static struct mly_code_lookup mly_table_cputype[] = {
{"i960CA", 0x01},
{"i960RD", 0x02},
{"i960RN", 0x03},
{"i960RP", 0x04},
{"NorthBay(?)", 0x05},
{"StrongArm", 0x06},
{"i960RM", 0x07},
{NULL, 0},
{"unknown CPU", 0}
};
/*
* This table is directly derived from the corresponding table in the
* Linux driver, and uses a derivative encoding for simplicity's sake.
*
* The first character of the string determines the format of the message.
*
* p "physical device <channel>:<target> <text>" (physical device status)
* s "physical device <channel>:<target> <text>" (scsi message or error)
* " sense key <key> asc <asc> ascq <ascq>"
* " info <info> csi <csi>"
* l "logical drive <unit>: <text>" (logical device status)
* m "logical drive <unit>: <text>" (logical device message)
*
* Messages which are typically suppressed have the first character capitalised.
* These messages will only be printed if bootverbose is set.
*
* The second character in the string indicates an action to be taken as a
* result of the event.
*
* r rescan the device for possible state change
*
*/
static struct mly_code_lookup mly_table_event[] = {
/* physical device events (0x0000 - 0x007f) */
{"pr online", 0x0001},
{"pr standby", 0x0002},
{"p automatic rebuild started", 0x0005},
{"p manual rebuild started", 0x0006},
{"pr rebuild completed", 0x0007},
{"pr rebuild cancelled", 0x0008},
{"pr rebuild failed for unknown reasons", 0x0009},
{"pr rebuild failed due to new physical device", 0x000a},
{"pr rebuild failed due to logical drive failure", 0x000b},
{"sr offline", 0x000c},
{"pr found", 0x000d},
{"pr gone", 0x000e},
{"p unconfigured", 0x000f},
{"p expand capacity started", 0x0010},
{"pr expand capacity completed", 0x0011},
{"pr expand capacity failed", 0x0012},
{"p parity error", 0x0016},
{"p soft error", 0x0017},
{"p miscellaneous error", 0x0018},
{"p reset", 0x0019},
{"p active spare found", 0x001a},
{"p warm spare found", 0x001b},
{"s sense data received", 0x001c},
{"p initialization started", 0x001d},
{"pr initialization completed", 0x001e},
{"pr initialization failed", 0x001f},
{"pr initialization cancelled", 0x0020},
{"P write recovery failed", 0x0021},
{"p scsi bus reset failed", 0x0022},
{"p double check condition", 0x0023},
{"p device cannot be accessed", 0x0024},
{"p gross error on scsi processor", 0x0025},
{"p bad tag from device", 0x0026},
{"p command timeout", 0x0027},
{"pr system reset", 0x0028},
{"p busy status or parity error", 0x0029},
{"pr host set device to failed state", 0x002a},
{"pr selection timeout", 0x002b},
{"p scsi bus phase error", 0x002c},
{"pr device returned unknown status", 0x002d},
{"pr device not ready", 0x002e},
{"p device not found at startup", 0x002f},
{"p COD write operation failed", 0x0030},
{"p BDT write operation failed", 0x0031},
{"p missing at startup", 0x0039},
{"p start rebuild failed due to physical drive too small", 0x003a},
/* logical device events (0x0080 - 0x00ff) */
{"m consistency check started", 0x0080},
{"mr consistency check completed", 0x0081},
{"mr consistency check cancelled", 0x0082},
{"mr consistency check completed with errors", 0x0083},
{"mr consistency check failed due to logical drive failure", 0x0084},
{"mr consistency check failed due to physical device failure", 0x0085},
{"lr offline", 0x0086},
{"lr critical", 0x0087},
{"lr online", 0x0088},
{"m automatic rebuild started", 0x0089},
{"m manual rebuild started", 0x008a},
{"mr rebuild completed", 0x008b},
{"mr rebuild cancelled", 0x008c},
{"mr rebuild failed for unknown reasons", 0x008d},
{"mr rebuild failed due to new physical device", 0x008e},
{"mr rebuild failed due to logical drive failure", 0x008f},
{"l initialization started", 0x0090},
{"lr initialization completed", 0x0091},
{"lr initialization cancelled", 0x0092},
{"lr initialization failed", 0x0093},
{"lr found", 0x0094},
{"lr gone", 0x0095},
{"l expand capacity started", 0x0096},
{"lr expand capacity completed", 0x0097},
{"lr expand capacity failed", 0x0098},
{"l bad block found", 0x0099},
{"lr size changed", 0x009a},
{"lr type changed", 0x009b},
{"l bad data block found", 0x009c},
{"l read of data block in bdt", 0x009e},
{"l write back data for disk block lost", 0x009f},
/* enclosure management events (0x0100 - 0x017f) */
{"e enclosure %d fan %d failed", 0x0140},
{"e enclosure %d fan %d ok", 0x0141},
{"e enclosure %d fan %d not present", 0x0142},
{"e enclosure %d power supply %d failed", 0x0143},
{"e enclosure %d power supply %d ok", 0x0144},
{"e enclosure %d power supply %d not present", 0x0145},
{"e enclosure %d temperature sensor %d failed", 0x0146},
{"e enclosure %d temperature sensor %d critical", 0x0147},
{"e enclosure %d temperature sensor %d ok", 0x0148},
{"e enclosure %d temperature sensor %d not present", 0x0149},
{"e enclosure %d unit %d access critical", 0x014a},
{"e enclosure %d unit %d access ok", 0x014b},
{"e enclosure %d unit %d access offline", 0x014c},
/* controller events (0x0180 - 0x01ff) */
{"c cache write back error", 0x0181},
{"c battery backup unit found", 0x0188},
{"c battery backup unit charge level low", 0x0189},
{"c battery backup unit charge level ok", 0x018a},
{"c installation aborted", 0x0193},
{"c mirror race recovery in progress", 0x0195},
{"c mirror race on critical drive", 0x0196},
{"c memory soft ecc error", 0x019e},
{"c memory hard ecc error", 0x019f},
{"c battery backup unit failed", 0x01a2},
{NULL, 0},
{"? unknown event code", 0}
};
/*
* Values here must be 16 characters or less, as they are packed into
* the 'product' field in the SCSI inquiry data.
*/
static struct mly_code_lookup mly_table_device_state[] = {
{"offline", MLY_DEVICE_STATE_OFFLINE},
{"unconfigured", MLY_DEVICE_STATE_UNCONFIGURED},
{"online", MLY_DEVICE_STATE_ONLINE},
{"critical", MLY_DEVICE_STATE_CRITICAL},
{"writeonly", MLY_DEVICE_STATE_WRITEONLY},
{"standby", MLY_DEVICE_STATE_STANDBY},
{"missing", MLY_DEVICE_STATE_MISSING},
{NULL, 0},
{"unknown state", 0}
};
/*
* Values here must be 8 characters or less, as they are packed into
* the 'vendor' field in the SCSI inquiry data.
*/
static struct mly_code_lookup mly_table_device_type[] = {
{"RAID 0", MLY_DEVICE_TYPE_RAID0},
{"RAID 1", MLY_DEVICE_TYPE_RAID1},
{"RAID 3", MLY_DEVICE_TYPE_RAID3}, /* right asymmetric parity */
{"RAID 5", MLY_DEVICE_TYPE_RAID5}, /* right asymmetric parity */
{"RAID 6", MLY_DEVICE_TYPE_RAID6}, /* Mylex RAID 6 */
{"RAID 7", MLY_DEVICE_TYPE_RAID7}, /* JBOD */
{"SPAN", MLY_DEVICE_TYPE_NEWSPAN}, /* New Mylex SPAN */
{"RAID 3", MLY_DEVICE_TYPE_RAID3F}, /* fixed parity */
{"RAID 3", MLY_DEVICE_TYPE_RAID3L}, /* left symmetric parity */
{"SPAN", MLY_DEVICE_TYPE_SPAN}, /* current spanning implementation */
{"RAID 5", MLY_DEVICE_TYPE_RAID5L}, /* left symmetric parity */
{"RAID E", MLY_DEVICE_TYPE_RAIDE}, /* concatenation */
{"PHYSICAL", MLY_DEVICE_TYPE_PHYSICAL}, /* physical device */
{NULL, 0},
{"UNKNOWN", 0}
};
#if 0
static struct mly_code_lookup mly_table_stripe_size[] = {
{"NONE", MLY_STRIPE_ZERO},
{"512B", MLY_STRIPE_512b},
{"1k", MLY_STRIPE_1k},
{"2k", MLY_STRIPE_2k},
{"4k", MLY_STRIPE_4k},
{"8k", MLY_STRIPE_8k},
{"16k", MLY_STRIPE_16k},
{"32k", MLY_STRIPE_32k},
{"64k", MLY_STRIPE_64k},
{"128k", MLY_STRIPE_128k},
{"256k", MLY_STRIPE_256k},
{"512k", MLY_STRIPE_512k},
{"1M", MLY_STRIPE_1m},
{NULL, 0},
{"unknown", 0}
};
static struct mly_code_lookup mly_table_cacheline_size[] = {
{"NONE", MLY_CACHELINE_ZERO},
{"512B", MLY_CACHELINE_512b},
{"1k", MLY_CACHELINE_1k},
{"2k", MLY_CACHELINE_2k},
{"4k", MLY_CACHELINE_4k},
{"8k", MLY_CACHELINE_8k},
{"16k", MLY_CACHELINE_16k},
{"32k", MLY_CACHELINE_32k},
{"64k", MLY_CACHELINE_64k},
{NULL, 0},
{"unknown", 0}
};
#endif