OpenSolaris_b135/cmd/fcinfo/printAttrs.c
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2008 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
#include <stdio.h>
#include <hbaapi.h>
#include <string.h>
#include <sys/types.h>
#include <netinet/in.h>
#include <inttypes.h>
#include <ctype.h>
#include "fcinfo.h"
#ifdef _BIG_ENDIAN
#define htonll(x) (x)
#define ntohll(x) (x)
#else
#define htonll(x) ((((unsigned long long)htonl(x)) << 32) + htonl(x >> 32))
#define ntohll(x) ((((unsigned long long)ntohl(x)) << 32) + ntohl(x >> 32))
#endif
/* Fc4 Types Format */
#define FC4_TYPE_WORD_POS(x) ((uint_t)((uint_t)(x) >> 5))
#define FC4_TYPE_BIT_POS(x) ((uchar_t)(x) & 0x1F)
#define TYPE_IP_FC 0x05
#define TYPE_SCSI_FCP 0x08
static int fc4_map_is_set(uint32_t *map, uchar_t ulp_type);
static char *getPortType(HBA_PORTTYPE portType);
static char *getPortState(HBA_PORTSTATE portState);
static void printPortSpeed(HBA_PORTSPEED portSpeed);
static char *getDTypeString(uchar_t dType);
uint64_t wwnConversion(uchar_t *wwn) {
uint64_t tmp;
memcpy(&tmp, wwn, sizeof (uint64_t));
return (ntohll(tmp));
}
static char *
getPortType(HBA_PORTTYPE portType) {
switch (portType) {
case HBA_PORTTYPE_UNKNOWN:
return ("unknown");
case HBA_PORTTYPE_OTHER:
return ("other");
case HBA_PORTTYPE_NOTPRESENT:
return ("not present");
case HBA_PORTTYPE_NPORT:
return ("N-port");
case HBA_PORTTYPE_NLPORT:
return ("NL-port");
case HBA_PORTTYPE_FLPORT:
return ("FL-port");
case HBA_PORTTYPE_FPORT:
return ("F-port");
case HBA_PORTTYPE_LPORT:
return ("L-port");
case HBA_PORTTYPE_PTP:
return ("point-to-point");
default:
return ("unrecognized type");
}
}
static char *
getPortState(HBA_PORTSTATE portState) {
switch (portState) {
case HBA_PORTSTATE_UNKNOWN:
return ("unknown");
case HBA_PORTSTATE_ONLINE:
return ("online");
case HBA_PORTSTATE_OFFLINE:
return ("offline");
case HBA_PORTSTATE_BYPASSED:
return ("bypassed");
case HBA_PORTSTATE_DIAGNOSTICS:
return ("diagnostics");
case HBA_PORTSTATE_LINKDOWN:
return ("link down");
case HBA_PORTSTATE_ERROR:
return ("error");
case HBA_PORTSTATE_LOOPBACK:
return ("loopback");
default:
return ("unrecognized state");
}
}
static void
printPortSpeed(HBA_PORTSPEED portSpeed) {
int foundSpeed = 0;
if ((portSpeed & HBA_PORTSPEED_1GBIT) == HBA_PORTSPEED_1GBIT) {
fprintf(stdout, "1Gb ");
foundSpeed = 1;
}
if ((portSpeed & HBA_PORTSPEED_2GBIT) == HBA_PORTSPEED_2GBIT) {
fprintf(stdout, "2Gb ");
foundSpeed = 1;
}
if ((portSpeed & HBA_PORTSPEED_4GBIT) == HBA_PORTSPEED_4GBIT) {
fprintf(stdout, "4Gb ");
foundSpeed = 1;
}
if ((portSpeed & HBA_PORTSPEED_8GBIT) == HBA_PORTSPEED_8GBIT) {
fprintf(stdout, "8Gb ");
foundSpeed = 1;
}
if ((portSpeed & HBA_PORTSPEED_10GBIT) == HBA_PORTSPEED_10GBIT) {
fprintf(stdout, "10Gb ");
foundSpeed = 1;
}
if ((portSpeed & HBA_PORTSPEED_16GBIT) == HBA_PORTSPEED_16GBIT) {
fprintf(stdout, "16Gb ");
foundSpeed = 1;
}
if ((portSpeed & HBA_PORTSPEED_NOT_NEGOTIATED)
== HBA_PORTSPEED_NOT_NEGOTIATED) {
fprintf(stdout, "not established ");
foundSpeed = 1;
}
if (foundSpeed == 0) {
fprintf(stdout, "not established ");
}
}
void
printDiscoPortInfo(HBA_PORTATTRIBUTES *discoPort, int scsiTargetType) {
int fc4_types = 0;
fprintf(stdout, gettext("Remote Port WWN: %016llx\n"),
wwnConversion(discoPort->PortWWN.wwn));
fprintf(stdout, gettext("\tActive FC4 Types: "));
if (fc4_map_is_set(
(uint32_t *)discoPort->PortActiveFc4Types.bits,
TYPE_SCSI_FCP)) {
fprintf(stdout, gettext("SCSI"));
fc4_types++;
}
if (fc4_map_is_set(
(uint32_t *)discoPort->PortActiveFc4Types.bits,
TYPE_IP_FC)) {
if (fc4_types != 0) {
fprintf(stdout, ",");
}
fprintf(stdout, gettext("IP"));
fc4_types++;
}
fprintf(stdout, "\n");
/* print out scsi target type information */
fprintf(stdout, gettext("\tSCSI Target: "));
if (scsiTargetType == SCSI_TARGET_TYPE_YES) {
fprintf(stdout, gettext("yes\n"));
} else if (scsiTargetType == SCSI_TARGET_TYPE_NO) {
fprintf(stdout, gettext("no\n"));
} else {
fprintf(stdout, gettext("unknown\n"));
}
fprintf(stdout, gettext("\tPort Symbolic Name: %s\n"),
discoPort->PortSymbolicName);
fprintf(stdout, gettext("\tNode WWN: %016llx\n"),
wwnConversion(discoPort->NodeWWN.wwn));
}
/*
* scan the bitmap array for the specifed ULP type. The bit map array
* is 32 bytes long
*/
static int
fc4_map_is_set(uint32_t *map, uchar_t ulp_type)
{
map += FC4_TYPE_WORD_POS(ulp_type) * 4;
if (ntohl((*(uint32_t *)map)) & (1 << FC4_TYPE_BIT_POS(ulp_type))) {
return (1);
}
return (0);
}
/*
* prints out all the HBA port information
*/
void
printHBAPortInfo(HBA_PORTATTRIBUTES *port,
HBA_ADAPTERATTRIBUTES *attrs, int mode) {
if (attrs == NULL || port == NULL) {
return;
}
fprintf(stdout, gettext("HBA Port WWN: %016llx\n"),
wwnConversion(port->PortWWN.wwn));
fprintf(stdout, gettext("\tPort Mode: %s\n"),
(mode == INITIATOR_MODE) ? "Initiator" : "Target");
fprintf(stdout, gettext("\tPort ID: %x\n"),
port->PortFcId);
fprintf(stdout, gettext("\tOS Device Name: %s\n"), port->OSDeviceName);
fprintf(stdout, gettext("\tManufacturer: %s\n"),
attrs->Manufacturer);
fprintf(stdout, gettext("\tModel: %s\n"), attrs->Model);
fprintf(stdout, gettext("\tFirmware Version: %s\n"),
attrs->FirmwareVersion);
fprintf(stdout, gettext("\tFCode/BIOS Version: %s\n"),
attrs->OptionROMVersion);
fprintf(stdout, gettext("\tSerial Number: %s\n"),
attrs->SerialNumber[0] == 0? "not available":attrs->SerialNumber);
fprintf(stdout, gettext("\tDriver Name: %s\n"),
attrs->DriverName[0] == 0? "not available":attrs->DriverName);
fprintf(stdout, gettext("\tDriver Version: %s\n"),
attrs->DriverVersion[0] == 0? "not available":attrs->DriverVersion);
fprintf(stdout, gettext("\tType: %s\n"),
getPortType(port->PortType));
fprintf(stdout, gettext("\tState: %s\n"),
getPortState(port->PortState));
fprintf(stdout, gettext("\tSupported Speeds: "));
printPortSpeed(port->PortSupportedSpeed);
fprintf(stdout, "\n");
fprintf(stdout, gettext("\tCurrent Speed: "));
printPortSpeed(port->PortSpeed);
fprintf(stdout, "\n");
fprintf(stdout, gettext("\tNode WWN: %016llx\n"),
wwnConversion(port->NodeWWN.wwn));
}
void
printStatus(HBA_STATUS status) {
switch (status) {
case HBA_STATUS_OK:
fprintf(stderr, gettext("OK"));
return;
case HBA_STATUS_ERROR:
fprintf(stderr, gettext("ERROR"));
return;
case HBA_STATUS_ERROR_NOT_SUPPORTED:
fprintf(stderr, gettext("NOT SUPPORTED"));
return;
case HBA_STATUS_ERROR_INVALID_HANDLE:
fprintf(stderr, gettext("INVALID HANDLE"));
return;
case HBA_STATUS_ERROR_ARG:
fprintf(stderr, gettext("ERROR ARG"));
return;
case HBA_STATUS_ERROR_ILLEGAL_WWN:
fprintf(stderr, gettext("ILLEGAL WWN"));
return;
case HBA_STATUS_ERROR_ILLEGAL_INDEX:
fprintf(stderr, gettext("ILLEGAL INDEX"));
return;
case HBA_STATUS_ERROR_MORE_DATA:
fprintf(stderr, gettext("MORE DATA"));
return;
case HBA_STATUS_ERROR_STALE_DATA:
fprintf(stderr, gettext("STALE DATA"));
return;
case HBA_STATUS_SCSI_CHECK_CONDITION:
fprintf(stderr, gettext("SCSI CHECK CONDITION"));
return;
case HBA_STATUS_ERROR_BUSY:
fprintf(stderr, gettext("BUSY"));
return;
case HBA_STATUS_ERROR_TRY_AGAIN:
fprintf(stderr, gettext("TRY AGAIN"));
return;
case HBA_STATUS_ERROR_UNAVAILABLE:
fprintf(stderr, gettext("UNAVAILABLE"));
return;
default:
fprintf(stderr, "%s %d",
gettext("Undefined error code "), status);
return;
}
}
void
printLUNInfo(struct scsi_inquiry *inq, HBA_UINT32 scsiLUN, char *devpath) {
fprintf(stdout, "\tLUN: %d\n", scsiLUN);
fprintf(stdout, "\t Vendor: %c%c%c%c%c%c%c%c\n",
inq->inq_vid[0],
inq->inq_vid[1],
inq->inq_vid[2],
inq->inq_vid[3],
inq->inq_vid[4],
inq->inq_vid[5],
inq->inq_vid[6],
inq->inq_vid[7]);
fprintf(stdout, "\t Product: %c%c%c%c%c%c%c%c%c%c%c%c%c%c%c%c\n",
inq->inq_pid[0],
inq->inq_pid[1],
inq->inq_pid[2],
inq->inq_pid[3],
inq->inq_pid[4],
inq->inq_pid[5],
inq->inq_pid[6],
inq->inq_pid[7],
inq->inq_pid[8],
inq->inq_pid[9],
inq->inq_pid[10],
inq->inq_pid[11],
inq->inq_pid[12],
inq->inq_pid[13],
inq->inq_pid[14],
inq->inq_pid[15]);
fprintf(stdout, gettext("\t OS Device Name: %s\n"), devpath);
}
void
printPortStat(fc_rls_acc_t *rls_payload) {
fprintf(stdout, gettext("\tLink Error Statistics:\n"));
fprintf(stdout, gettext("\t\tLink Failure Count: %u\n"),
rls_payload->rls_link_fail);
fprintf(stdout, gettext("\t\tLoss of Sync Count: %u\n"),
rls_payload->rls_sync_loss);
fprintf(stdout, gettext("\t\tLoss of Signal Count: %u\n"),
rls_payload->rls_sig_loss);
fprintf(stdout, gettext("\t\tPrimitive Seq Protocol Error Count: %u\n"),
rls_payload->rls_prim_seq_err);
fprintf(stdout, gettext("\t\tInvalid Tx Word Count: %u\n"),
rls_payload->rls_invalid_word);
fprintf(stdout, gettext("\t\tInvalid CRC Count: %u\n"),
rls_payload->rls_invalid_crc);
}
/*
* return device type description
*
* Arguments:
* dType - Device type returned from Standard INQUIRY
* Returns:
* char string description for device type
*/
static char *
getDTypeString(uchar_t dType)
{
switch (dType & DTYPE_MASK) {
case DTYPE_DIRECT:
return ("Disk Device");
case DTYPE_SEQUENTIAL:
return ("Tape Device");
case DTYPE_PRINTER:
return ("Printer Device");
case DTYPE_PROCESSOR:
return ("Processor Device");
case DTYPE_WORM:
return ("WORM Device");
case DTYPE_RODIRECT:
return ("CD/DVD Device");
case DTYPE_SCANNER:
return ("Scanner Device");
case DTYPE_OPTICAL:
return ("Optical Memory Device");
case DTYPE_CHANGER:
return ("Medium Changer Device");
case DTYPE_COMM:
return ("Communications Device");
case DTYPE_ARRAY_CTRL:
return ("Storage Array Controller Device");
case DTYPE_ESI:
return ("Enclosure Services Device");
case DTYPE_RBC:
return ("Simplified Direct-access Device");
case DTYPE_OCRW:
return ("Optical Card Reader/Writer Device");
case DTYPE_BCC:
return ("Bridge Controller Commands");
case DTYPE_OSD:
return ("Object-based Storage Device");
case DTYPE_ADC:
return ("Automation/Drive Interface");
case DTYPE_WELLKNOWN:
return ("Well Known Logical Unit");
case DTYPE_UNKNOWN:
return ("Unknown Device");
default:
return ("Undefined");
}
}
/*
* print the OS device name for the logical-unit object
*
* Arguments:
* devListWalk - OS device path info
* verbose - boolean indicating whether to display additional info
*
* returns:
* none
*/
void
printOSDeviceNameInfo(discoveredDevice *devListWalk, boolean_t verbose)
{
portWWNList *WWNList;
tgtPortWWNList *tgtWWNList;
int i, count;
fprintf(stdout, "OS Device Name: %s\n", devListWalk->OSDeviceName);
if (verbose == B_TRUE) {
for (WWNList = devListWalk->HBAPortWWN;
WWNList != NULL; WWNList = WWNList->next) {
fprintf(stdout, "\tHBA Port WWN: ");
fprintf(stdout, "%016llx",
wwnConversion(WWNList->portWWN.wwn));
for (tgtWWNList = WWNList->tgtPortWWN;
tgtWWNList != NULL; tgtWWNList = tgtWWNList->next) {
fprintf(stdout, "\n\t\tRemote Port WWN: ");
fprintf(stdout, "%016llx",
wwnConversion(tgtWWNList->portWWN.wwn));
fprintf(stdout, "\n\t\t\tLUN: %d",
tgtWWNList->scsiOSLun);
}
fprintf(stdout, "\n");
}
fprintf(stdout, "\tVendor: ");
for (count = sizeof (devListWalk->VID), i = 0; i < count; i++) {
if (isprint(devListWalk->VID[i]))
fprintf(stdout, "%c", devListWalk->VID[i]);
}
fprintf(stdout, "\n\tProduct: ");
for (count = sizeof (devListWalk->PID), i = 0; i < count; i++) {
if (isprint(devListWalk->PID[i]))
fprintf(stdout, "%c", devListWalk->PID[i]);
}
fprintf(stdout, "\n\tDevice Type: %s\n",
getDTypeString(devListWalk->dType));
}
}