OpenCloudOS-Kernel/drivers/scsi/constants.c

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/*
* ASCII values for a number of symbolic constants, printing functions,
* etc.
* Additions for SCSI 2 and Linux 2.2.x by D. Gilbert (990422)
* Additions for SCSI 3+ (SPC-3 T10/1416-D Rev 07 3 May 2002)
* by D. Gilbert and aeb (20020609)
* Updated to SPC-4 T10/1713-D Rev 36g, D. Gilbert 20130701
*/
#include <linux/blkdev.h>
#include <linux/module.h>
#include <linux/kernel.h>
#include <scsi/scsi.h>
#include <scsi/scsi_cmnd.h>
#include <scsi/scsi_device.h>
#include <scsi/scsi_host.h>
#include <scsi/scsi_eh.h>
#include <scsi/scsi_dbg.h>
/* Commands with service actions that change the command name */
#define THIRD_PARTY_COPY_OUT 0x83
#define THIRD_PARTY_COPY_IN 0x84
struct sa_name_list {
int opcode;
const struct value_name_pair *arr;
int arr_sz;
};
struct value_name_pair {
int value;
const char * name;
};
static const char * cdb_byte0_names[] = {
/* 00-03 */ "Test Unit Ready", "Rezero Unit/Rewind", NULL, "Request Sense",
/* 04-07 */ "Format Unit/Medium", "Read Block Limits", NULL,
"Reassign Blocks",
/* 08-0d */ "Read(6)", NULL, "Write(6)", "Seek(6)", NULL, NULL,
/* 0e-12 */ NULL, "Read Reverse", "Write Filemarks", "Space", "Inquiry",
/* 13-16 */ "Verify(6)", "Recover Buffered Data", "Mode Select(6)",
"Reserve(6)",
/* 17-1a */ "Release(6)", "Copy", "Erase", "Mode Sense(6)",
/* 1b-1d */ "Start/Stop Unit", "Receive Diagnostic", "Send Diagnostic",
/* 1e-1f */ "Prevent/Allow Medium Removal", NULL,
/* 20-22 */ NULL, NULL, NULL,
/* 23-28 */ "Read Format Capacities", "Set Window",
"Read Capacity(10)", NULL, NULL, "Read(10)",
/* 29-2d */ "Read Generation", "Write(10)", "Seek(10)", "Erase(10)",
"Read updated block",
/* 2e-31 */ "Write Verify(10)", "Verify(10)", "Search High", "Search Equal",
/* 32-34 */ "Search Low", "Set Limits", "Prefetch/Read Position",
/* 35-37 */ "Synchronize Cache(10)", "Lock/Unlock Cache(10)",
"Read Defect Data(10)",
/* 38-3c */ "Medium Scan", "Compare", "Copy Verify", "Write Buffer",
"Read Buffer",
/* 3d-3f */ "Update Block", "Read Long(10)", "Write Long(10)",
/* 40-41 */ "Change Definition", "Write Same(10)",
/* 42-48 */ "Unmap/Read sub-channel", "Read TOC/PMA/ATIP",
"Read density support", "Play audio(10)", "Get configuration",
"Play audio msf", "Sanitize/Play audio track/index",
/* 49-4f */ "Play track relative(10)", "Get event status notification",
"Pause/resume", "Log Select", "Log Sense", "Stop play/scan",
NULL,
/* 50-55 */ "Xdwrite", "Xpwrite, Read disk info", "Xdread, Read track info",
"Reserve track", "Send OPC info", "Mode Select(10)",
/* 56-5b */ "Reserve(10)", "Release(10)", "Repair track", "Read master cue",
"Mode Sense(10)", "Close track/session",
/* 5c-5f */ "Read buffer capacity", "Send cue sheet", "Persistent reserve in",
"Persistent reserve out",
/* 60-67 */ NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
/* 68-6f */ NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
/* 70-77 */ NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
/* 78-7f */ NULL, NULL, NULL, NULL, NULL, NULL, "Extended CDB",
"Variable length",
/* 80-84 */ "Xdwrite(16)", "Rebuild(16)", "Regenerate(16)",
"Third party copy out", "Third party copy in",
/* 85-89 */ "ATA command pass through(16)", "Access control in",
"Access control out", "Read(16)", "Compare and Write",
/* 8a-8f */ "Write(16)", "ORWrite", "Read attributes", "Write attributes",
"Write and verify(16)", "Verify(16)",
/* 90-94 */ "Pre-fetch(16)", "Synchronize cache(16)",
"Lock/unlock cache(16)", "Write same(16)", NULL,
/* 95-99 */ NULL, NULL, NULL, NULL, NULL,
/* 9a-9f */ NULL, NULL, NULL, "Service action bidirectional",
"Service action in(16)", "Service action out(16)",
/* a0-a5 */ "Report luns", "ATA command pass through(12)/Blank",
"Security protocol in", "Maintenance in", "Maintenance out",
"Move medium/play audio(12)",
/* a6-a9 */ "Exchange medium", "Move medium attached", "Read(12)",
"Play track relative(12)",
/* aa-ae */ "Write(12)", NULL, "Erase(12), Get Performance",
"Read DVD structure", "Write and verify(12)",
/* af-b1 */ "Verify(12)", "Search data high(12)", "Search data equal(12)",
/* b2-b4 */ "Search data low(12)", "Set limits(12)",
"Read element status attached",
/* b5-b6 */ "Security protocol out", "Send volume tag, set streaming",
/* b7-b9 */ "Read defect data(12)", "Read element status", "Read CD msf",
/* ba-bc */ "Redundancy group (in), Scan",
"Redundancy group (out), Set cd-rom speed", "Spare (in), Play cd",
/* bd-bf */ "Spare (out), Mechanism status", "Volume set (in), Read cd",
"Volume set (out), Send DVD structure",
};
static const struct value_name_pair maint_in_arr[] = {
{0x5, "Report identifying information"},
{0xa, "Report target port groups"},
{0xb, "Report aliases"},
{0xc, "Report supported operation codes"},
{0xd, "Report supported task management functions"},
{0xe, "Report priority"},
{0xf, "Report timestamp"},
{0x10, "Management protocol in"},
};
#define MAINT_IN_SZ ARRAY_SIZE(maint_in_arr)
static const struct value_name_pair maint_out_arr[] = {
{0x6, "Set identifying information"},
{0xa, "Set target port groups"},
{0xb, "Change aliases"},
{0xc, "Remove I_T nexus"},
{0xe, "Set priority"},
{0xf, "Set timestamp"},
{0x10, "Management protocol out"},
};
#define MAINT_OUT_SZ ARRAY_SIZE(maint_out_arr)
static const struct value_name_pair serv_in12_arr[] = {
{0x1, "Read media serial number"},
};
#define SERV_IN12_SZ ARRAY_SIZE(serv_in12_arr)
static const struct value_name_pair serv_out12_arr[] = {
{-1, "dummy entry"},
};
#define SERV_OUT12_SZ ARRAY_SIZE(serv_out12_arr)
static const struct value_name_pair serv_bidi_arr[] = {
{-1, "dummy entry"},
};
#define SERV_BIDI_SZ ARRAY_SIZE(serv_bidi_arr)
static const struct value_name_pair serv_in16_arr[] = {
{0x10, "Read capacity(16)"},
{0x11, "Read long(16)"},
{0x12, "Get LBA status"},
{0x13, "Report referrals"},
};
#define SERV_IN16_SZ ARRAY_SIZE(serv_in16_arr)
static const struct value_name_pair serv_out16_arr[] = {
{0x11, "Write long(16)"},
{0x1f, "Notify data transfer device(16)"},
};
#define SERV_OUT16_SZ ARRAY_SIZE(serv_out16_arr)
static const struct value_name_pair pr_in_arr[] = {
{0x0, "Persistent reserve in, read keys"},
{0x1, "Persistent reserve in, read reservation"},
{0x2, "Persistent reserve in, report capabilities"},
{0x3, "Persistent reserve in, read full status"},
};
#define PR_IN_SZ ARRAY_SIZE(pr_in_arr)
static const struct value_name_pair pr_out_arr[] = {
{0x0, "Persistent reserve out, register"},
{0x1, "Persistent reserve out, reserve"},
{0x2, "Persistent reserve out, release"},
{0x3, "Persistent reserve out, clear"},
{0x4, "Persistent reserve out, preempt"},
{0x5, "Persistent reserve out, preempt and abort"},
{0x6, "Persistent reserve out, register and ignore existing key"},
{0x7, "Persistent reserve out, register and move"},
};
#define PR_OUT_SZ ARRAY_SIZE(pr_out_arr)
/* SPC-4 rev 34 renamed the Extended Copy opcode to Third Party Copy Out.
LID1 (List Identifier length: 1 byte) is the Extended Copy found in SPC-2
and SPC-3 */
static const struct value_name_pair tpc_out_arr[] = {
{0x0, "Extended copy(LID1)"},
{0x1, "Extended copy(LID4)"},
{0x10, "Populate token"},
{0x11, "Write using token"},
{0x1c, "Copy operation abort"},
};
#define TPC_OUT_SZ ARRAY_SIZE(tpc_out_arr)
static const struct value_name_pair tpc_in_arr[] = {
{0x0, "Receive copy status(LID1)"},
{0x1, "Receive copy data(LID1)"},
{0x3, "Receive copy operating parameters"},
{0x4, "Receive copy failure details(LID1)"},
{0x5, "Receive copy status(LID4)"},
{0x6, "Receive copy data(LID4)"},
{0x7, "Receive ROD token information"},
{0x8, "Report all ROD tokens"},
};
#define TPC_IN_SZ ARRAY_SIZE(tpc_in_arr)
static const struct value_name_pair variable_length_arr[] = {
{0x1, "Rebuild(32)"},
{0x2, "Regenerate(32)"},
{0x3, "Xdread(32)"},
{0x4, "Xdwrite(32)"},
{0x5, "Xdwrite extended(32)"},
{0x6, "Xpwrite(32)"},
{0x7, "Xdwriteread(32)"},
{0x8, "Xdwrite extended(64)"},
{0x9, "Read(32)"},
{0xa, "Verify(32)"},
{0xb, "Write(32)"},
{0xc, "Write an verify(32)"},
{0xd, "Write same(32)"},
{0x8801, "Format OSD"},
{0x8802, "Create (osd)"},
{0x8803, "List (osd)"},
{0x8805, "Read (osd)"},
{0x8806, "Write (osd)"},
{0x8807, "Append (osd)"},
{0x8808, "Flush (osd)"},
{0x880a, "Remove (osd)"},
{0x880b, "Create partition (osd)"},
{0x880c, "Remove partition (osd)"},
{0x880e, "Get attributes (osd)"},
{0x880f, "Set attributes (osd)"},
{0x8812, "Create and write (osd)"},
{0x8815, "Create collection (osd)"},
{0x8816, "Remove collection (osd)"},
{0x8817, "List collection (osd)"},
{0x8818, "Set key (osd)"},
{0x8819, "Set master key (osd)"},
{0x881a, "Flush collection (osd)"},
{0x881b, "Flush partition (osd)"},
{0x881c, "Flush OSD"},
{0x8f7e, "Perform SCSI command (osd)"},
{0x8f7f, "Perform task management function (osd)"},
};
#define VARIABLE_LENGTH_SZ ARRAY_SIZE(variable_length_arr)
static struct sa_name_list sa_names_arr[] = {
{VARIABLE_LENGTH_CMD, variable_length_arr, VARIABLE_LENGTH_SZ},
{MAINTENANCE_IN, maint_in_arr, MAINT_IN_SZ},
{MAINTENANCE_OUT, maint_out_arr, MAINT_OUT_SZ},
{PERSISTENT_RESERVE_IN, pr_in_arr, PR_IN_SZ},
{PERSISTENT_RESERVE_OUT, pr_out_arr, PR_OUT_SZ},
{SERVICE_ACTION_IN_12, serv_in12_arr, SERV_IN12_SZ},
{SERVICE_ACTION_OUT_12, serv_out12_arr, SERV_OUT12_SZ},
{SERVICE_ACTION_BIDIRECTIONAL, serv_bidi_arr, SERV_BIDI_SZ},
{SERVICE_ACTION_IN_16, serv_in16_arr, SERV_IN16_SZ},
{SERVICE_ACTION_OUT_16, serv_out16_arr, SERV_OUT16_SZ},
{THIRD_PARTY_COPY_IN, tpc_in_arr, TPC_IN_SZ},
{THIRD_PARTY_COPY_OUT, tpc_out_arr, TPC_OUT_SZ},
{0, NULL, 0},
};
bool scsi_opcode_sa_name(int opcode, int service_action,
const char **cdb_name, const char **sa_name)
{
struct sa_name_list *sa_name_ptr;
const struct value_name_pair *arr = NULL;
int arr_sz, k;
*cdb_name = NULL;
if (opcode >= VENDOR_SPECIFIC_CDB)
return false;
if (opcode < ARRAY_SIZE(cdb_byte0_names))
*cdb_name = cdb_byte0_names[opcode];
for (sa_name_ptr = sa_names_arr; sa_name_ptr->arr; ++sa_name_ptr) {
if (sa_name_ptr->opcode == opcode) {
arr = sa_name_ptr->arr;
arr_sz = sa_name_ptr->arr_sz;
break;
}
}
if (!arr)
return false;
for (k = 0; k < arr_sz; ++k, ++arr) {
if (service_action == arr->value)
break;
}
if (k < arr_sz)
*sa_name = arr->name;
return true;
}
struct error_info {
unsigned short code12; /* 0x0302 looks better than 0x03,0x02 */
const char * text;
};
static const struct error_info additional[] =
{
#define SENSE_CODE(c, s) {c, s},
#include "sense_codes.h"
#undef SENSE_CODE
{0, NULL}
};
struct error_info2 {
unsigned char code1, code2_min, code2_max;
const char * str;
const char * fmt;
};
static const struct error_info2 additional2[] =
{
{0x40, 0x00, 0x7f, "Ram failure", ""},
{0x40, 0x80, 0xff, "Diagnostic failure on component", ""},
{0x41, 0x00, 0xff, "Data path failure", ""},
{0x42, 0x00, 0xff, "Power-on or self-test failure", ""},
{0x4D, 0x00, 0xff, "Tagged overlapped commands", "task tag "},
{0x70, 0x00, 0xff, "Decompression exception", "short algorithm id of "},
{0, 0, 0, NULL, NULL}
};
/* description of the sense key values */
static const char * const snstext[] = {
"No Sense", /* 0: There is no sense information */
"Recovered Error", /* 1: The last command completed successfully
but used error correction */
"Not Ready", /* 2: The addressed target is not ready */
"Medium Error", /* 3: Data error detected on the medium */
"Hardware Error", /* 4: Controller or device failure */
"Illegal Request", /* 5: Error in request */
"Unit Attention", /* 6: Removable medium was changed, or
the target has been reset, or ... */
"Data Protect", /* 7: Access to the data is blocked */
"Blank Check", /* 8: Reached unexpected written or unwritten
region of the medium */
"Vendor Specific(9)",
"Copy Aborted", /* A: COPY or COMPARE was aborted */
"Aborted Command", /* B: The target aborted the command */
"Equal", /* C: A SEARCH DATA command found data equal,
reserved in SPC-4 rev 36 */
"Volume Overflow", /* D: Medium full with still data to be written */
"Miscompare", /* E: Source data and data on the medium
do not agree */
"Completed", /* F: command completed sense data reported,
may occur for successful command */
};
/* Get sense key string or NULL if not available */
const char *
scsi_sense_key_string(unsigned char key) {
if (key <= 0xE)
return snstext[key];
return NULL;
}
EXPORT_SYMBOL(scsi_sense_key_string);
/*
* Get additional sense code string or NULL if not available.
* This string may contain a "%x" and should be printed with ascq as arg.
*/
const char *
scsi_extd_sense_format(unsigned char asc, unsigned char ascq, const char **fmt)
{
int i;
unsigned short code = ((asc << 8) | ascq);
*fmt = NULL;
for (i = 0; additional[i].text; i++)
if (additional[i].code12 == code)
return additional[i].text;
for (i = 0; additional2[i].fmt; i++) {
if (additional2[i].code1 == asc &&
ascq >= additional2[i].code2_min &&
ascq <= additional2[i].code2_max) {
*fmt = additional2[i].fmt;
return additional2[i].str;
}
}
return NULL;
}
EXPORT_SYMBOL(scsi_extd_sense_format);
static const char * const hostbyte_table[]={
"DID_OK", "DID_NO_CONNECT", "DID_BUS_BUSY", "DID_TIME_OUT", "DID_BAD_TARGET",
"DID_ABORT", "DID_PARITY", "DID_ERROR", "DID_RESET", "DID_BAD_INTR",
[SCSI] scsi: add transport host byte errors (v3) Currently, if there is a transport problem the iscsi drivers will return outstanding commands (commands being exeucted by the driver/fw/hw) with DID_BUS_BUSY and block the session so no new commands can be queued. Commands that are caught between the failure handling and blocking are failed with DID_IMM_RETRY or one of the scsi ml queuecommand return values. When the recovery_timeout fires, the iscsi drivers then fail IO with DID_NO_CONNECT. For fcp, some drivers will fail some outstanding IO (disk but possibly not tape) with DID_BUS_BUSY or DID_ERROR or some other value that causes a retry and hits the scsi_error.c failfast check, block the rport, and commands caught in the race are failed with DID_IMM_RETRY. Other drivers, may hold onto all IO and wait for the terminate_rport_io or dev_loss_tmo_callbk to be called. The following patches attempt to unify what upper layers will see drivers like multipath can make a good guess. This relies on drivers being hooked into their transport class. This first patch just defines two new host byte errors so drivers can return the same value for when a rport/session is blocked and for when the fast_io_fail_tmo fires. The idea is that if the LLD/class detects a problem and is going to block a rport/session, then if the LLD wants or must return the command to scsi-ml, then it can return it with DID_TRANSPORT_DISRUPTED. This will requeue the IO into the same scsi queue it came from, until the fast io fail timer fires and the class decides what to do. When using multipath and the fast_io_fail_tmo fires then the class can fail commands with DID_TRANSPORT_FAILFAST or drivers can use DID_TRANSPORT_FAILFAST in their terminate_rport_io callbacks or the equivlent in iscsi if we ever implement more advanced recovery methods. A LLD, like lpfc, could continue to return DID_ERROR and then it will hit the normal failfast path, so drivers do not have fully be ported to work better. The point of the patches is that upper layers will not see a failure that could be recovered from while the rport/session is blocked until fast_io_fail_tmo/recovery_timeout fires. V3 Remove some comments. V2 Fixed patch/diff errors and renamed DID_TRANSPORT_BLOCKED to DID_TRANSPORT_DISRUPTED. V1 initial patch. Signed-off-by: Mike Christie <michaelc@cs.wisc.edu> Signed-off-by: James Bottomley <James.Bottomley@HansenPartnership.com>
2008-08-20 07:45:25 +08:00
"DID_PASSTHROUGH", "DID_SOFT_ERROR", "DID_IMM_RETRY", "DID_REQUEUE",
"DID_TRANSPORT_DISRUPTED", "DID_TRANSPORT_FAILFAST", "DID_TARGET_FAILURE",
"DID_NEXUS_FAILURE" };
static const char * const driverbyte_table[]={
"DRIVER_OK", "DRIVER_BUSY", "DRIVER_SOFT", "DRIVER_MEDIA", "DRIVER_ERROR",
"DRIVER_INVALID", "DRIVER_TIMEOUT", "DRIVER_HARD", "DRIVER_SENSE"};
const char *scsi_hostbyte_string(int result)
{
const char *hb_string = NULL;
int hb = host_byte(result);
if (hb < ARRAY_SIZE(hostbyte_table))
hb_string = hostbyte_table[hb];
return hb_string;
}
EXPORT_SYMBOL(scsi_hostbyte_string);
const char *scsi_driverbyte_string(int result)
{
const char *db_string = NULL;
int db = driver_byte(result);
if (db < ARRAY_SIZE(driverbyte_table))
db_string = driverbyte_table[db];
return db_string;
}
EXPORT_SYMBOL(scsi_driverbyte_string);
#define scsi_mlreturn_name(result) { result, #result }
static const struct value_name_pair scsi_mlreturn_arr[] = {
scsi_mlreturn_name(NEEDS_RETRY),
scsi_mlreturn_name(SUCCESS),
scsi_mlreturn_name(FAILED),
scsi_mlreturn_name(QUEUED),
scsi_mlreturn_name(SOFT_ERROR),
scsi_mlreturn_name(ADD_TO_MLQUEUE),
scsi_mlreturn_name(TIMEOUT_ERROR),
scsi_mlreturn_name(SCSI_RETURN_NOT_HANDLED),
scsi_mlreturn_name(FAST_IO_FAIL)
};
const char *scsi_mlreturn_string(int result)
{
const struct value_name_pair *arr = scsi_mlreturn_arr;
int k;
for (k = 0; k < ARRAY_SIZE(scsi_mlreturn_arr); ++k, ++arr) {
if (result == arr->value)
return arr->name;
}
return NULL;
}
EXPORT_SYMBOL(scsi_mlreturn_string);