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linux-next/drivers/scsi/constants.c
Tyrel Datwyler a87eeb900d scsi: fix upper bounds check of sense key in scsi_sense_key_string()
Commit 655ee63cf3 ("scsi constants: command, sense key + additional
sense string") added a "Completed" sense string with key 0xF to
snstext[], but failed to updated the upper bounds check of the sense key
in scsi_sense_key_string().

Fixes: 655ee63cf3 ("[SCSI] scsi constants: command, sense key + additional sense strings")
Cc: <stable@vger.kernel.org> # v3.12+
Signed-off-by: Tyrel Datwyler <tyreld@linux.vnet.ibm.com>
Reviewed-by: Bart Van Assche <bart.vanassche@sandisk.com>
Signed-off-by: Martin K. Petersen <martin.petersen@oracle.com>
2016-08-16 00:49:32 -04:00

459 lines
15 KiB
C

/*
* 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 */
unsigned short size;
};
/*
* There are 700+ entries in this table. To save space, we don't store
* (code, pointer) pairs, which would make sizeof(struct
* error_info)==16 on 64 bits. Rather, the second element just stores
* the size (including \0) of the corresponding string, and we use the
* sum of these to get the appropriate offset into additional_text
* defined below. This approach saves 12 bytes per entry.
*/
static const struct error_info additional[] =
{
#define SENSE_CODE(c, s) {c, sizeof(s)},
#include "sense_codes.h"
#undef SENSE_CODE
};
static const char *additional_text =
#define SENSE_CODE(c, s) s "\0"
#include "sense_codes.h"
#undef SENSE_CODE
;
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 < ARRAY_SIZE(snstext))
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);
unsigned offset = 0;
*fmt = NULL;
for (i = 0; i < ARRAY_SIZE(additional); i++) {
if (additional[i].code12 == code)
return additional_text + offset;
offset += additional[i].size;
}
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",
"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);