dev_state
mdb_printf(" %2d", xs.dev_state);
char dev_state[32], led_state[32];
dev_state);
if (strcmp(dev_state, PSVC_ERROR) == 0) {
enum dev_state state, int *reset);
enum dev_master master, enum dev_state *state);
enum dev_state state, int *reset)
enum dev_master master, enum dev_state *state)
enum dev_state state;
port_dev->dev_state = FC_STATE_OFFLINE;
port_dev->dev_state =
port_dev->dev_state =
port_dev->dev_state = port->ulp_statec;
port_dev->dev_state = FC_STATE_OFFLINE;
port_dev->dev_state = port->ulp_statec;
if (ha->dev_state != NX_DEV_READY) {
ha->dev_state == NX_DEV_READY) {
ha->dev_state = NX_DEV_READY;
ha->dev_state = NX_DEV_READY;
ha->dev_state = NX_DEV_READY;
if (ha->dev_state != NX_DEV_READY) {
uint32_t dev_state, drv_state, loop;
dev_state = new_state;
ql_8021_rd_32(ha, CRB_DEV_STATE, &dev_state);
switch (dev_state) {
if (ha->dev_state != dev_state) {
if (ha->dev_state != dev_state) {
if (ha->dev_state != dev_state) {
if (ha->dev_state != dev_state) {
ql_8021_rd_32(ha, CRB_DEV_STATE, &dev_state);
if (dev_state == NX_DEV_NEED_RESET) {
if (ha->dev_state != dev_state) {
if (ha->dev_state != dev_state) {
if (ha->dev_state != dev_state) {
if (ha->dev_state != dev_state) {
EL(ha, "dev_state=%x, default\n", dev_state);
ha->dev_state = dev_state;
uint32_t dev_state, fw_heartbeat_counter, cnt, data[7];
ql_8021_rd_32(ha, CRB_DEV_STATE, &dev_state);
if (dev_state != NX_DEV_READY) {
uint32_t dev_state, new_state = NX_DEV_POLL;
ql_8021_rd_32(ha, CRB_DEV_STATE, &dev_state);
switch (dev_state) {
EL(ha, "version check needs reset\n", dev_state);
EL(ha, "state=%xh needs reset\n", dev_state);
devlist[count].dev_state = pd->pd_state;
devlist[count].dev_state = pd->pd_state;
userbuf->dev_state = pd->pd_state;
userbuf->dev_state =
val->dev_state = port->fp_state;
val32->dev_state = val->dev_state;
target->dev_state = PMCS_DEVICE_STATE_OPERATIONAL;
} else if (*ds != xp->dev_state) {
*ds, xp->dev_state);
xp->dev_state = nds;
tgt_dev_state = tgt->dev_state;
tgt->dev_state = ds;
pmcs_send_err_recovery_cmd(pmcs_hw_t *pwp, uint8_t dev_state, pmcs_phy_t *phyp,
tgt_dev_state = tgt->dev_state;
"%s: ds: 0x%x, tgt ds(0x%x)", __func__, dev_state, tgt_dev_state);
switch (dev_state) {
tgt->dev_state = PMCS_DEVICE_STATE_NON_OPERATIONAL;
dev_state);
if ((tgt != NULL) && (tgt->dev_state !=
tgt->dev_state =
if (xp->dev_state !=
xp->dev_state =
tgt->dev_state = PMCS_DEVICE_STATE_OPERATIONAL;
tgt->dev_state = PMCS_DEVICE_STATE_OPERATIONAL;
if ((tgt->dev_state != PMCS_DEVICE_STATE_IN_RECOVERY) &&
(tgt->dev_state !=
if (tgt->dev_state == PMCS_DEVICE_STATE_IN_RECOVERY) {
if (xp->dev_state == PMCS_DEVICE_STATE_NON_OPERATIONAL) {
if (xp->dev_state != ds) {
if (xp->dev_state != ds) {
if (tgt->dev_state != ds) {
xp->dev_state = 0;
ugenp->ug_ds.dev_stat, ugenp->ug_ds.dev_state);
int len = min(sizeof (ugenp->ug_ds.dev_state), bp->b_bcount);
ugenp->ug_ds.dev_state = USB_DEV_STAT_ONLINE;
ugenp->ug_ds.dev_state = USB_DEV_STAT_DISCONNECTED;
ugenp->ug_ds.dev_state = USB_DEV_STAT_RESUMED;
ugenp->ug_ds.dev_state = USB_DEV_STAT_UNAVAILABLE;
bcopy(&ugenp->ug_ds.dev_state, bp->b_un.b_addr, len);
static conv_table_t dev_state[] = {
return (usba_get_name(dev_state, state));
usb_common_pwrlvl0(dev_info_t *dip, uint8_t *pm, int *dev_state)
switch (*dev_state) {
*dev_state = USB_DEV_PWRED_DOWN;
usb_common_pwrlvl1(dev_info_t *dip, uint8_t *pm, int *dev_state)
usb_common_pwrlvl2(dev_info_t *dip, uint8_t *pm, int *dev_state)
usb_common_pwrlvl3(dev_info_t *dip, uint8_t *pm, int *dev_state)
switch (*dev_state) {
*dev_state = USB_DEV_ONLINE;
usb_str_dev_state(*dev_state));
usba_common_power(dev_info_t *dip, uint8_t *pm, int *dev_state, int level)
rval = usb_common_pwrlvl0(dip, pm, dev_state);
rval = usb_common_pwrlvl1(dip, pm, dev_state);
rval = usb_common_pwrlvl2(dip, pm, dev_state);
rval = usb_common_pwrlvl3(dip, pm, dev_state);
uint32_t dev_state;
uint32_t dev_state; /* port state */
uint32_t dev_state; /* port state */
dev_state : 4;
uint_t dev_state; /* exported state */
int dev_state = 0;
&dev_state) != AE_OK) {
slot_p->hs_phy_slot_num, dev_state);
slot_p->hs_phy_slot_num, dev_state);
int dev_state = 0;
&dev_state) != AE_OK)
slot_p->hs_phy_slot_num, dev_state);
slot_p->hs_phy_slot_num, dev_state, status);
int dev_state = 0;
&dev_state) != AE_OK)
slot_p->hs_phy_slot_num, dev_state);
slot_p->hs_phy_slot_num, dev_state, status);
if (dbp->dev_state & DB_PRIMARY_NEXUS) {
if (dbp->dev_state & DB_PRIMARY_NEXUS) {
if (dbp->dev_state & DB_SECONDARY_NEXUS) {
if (dbp->dev_state & DB_SECONDARY_NEXUS) {
if (dbp->dev_state & DB_SECONDARY_NEXUS)
if (dbp->dev_state & DB_SECONDARY_NEXUS) {
if (dbp->dev_state & DB_SECONDARY_NEXUS)
if (dbp->dev_state & DB_SECONDARY_NEXUS)
if (dbp->dev_state & DB_SECONDARY_NEXUS)
if (dbp->dev_state & DB_PRIMARY_NEXUS) {
if (dbp->dev_state & DB_PRIMARY_NEXUS) {
if (dbp->dev_state & DB_SECONDARY_NEXUS)
if (dbp->dev_state & DB_SECONDARY_NEXUS) {
if (dbp->dev_state & DB_SECONDARY_NEXUS)
dbp->dev_state |= DB_ATTACHED;
dbp->dev_state &= ~DB_SUSPENDED;
if (dbp->dev_state & DB_SECONDARY_NEXUS)
dbp->dev_state &= ~DB_ATTACHED;
dbp->dev_state |= DB_SUSPENDED;
if (dbp->dev_state & DB_SECONDARY_NEXUS)
dbp->dev_state = DB_SECONDARY_NEXUS;
dbp->dev_state = DB_PRIMARY_NEXUS;
dbp->dev_state = DB_PRIMARY_NEXUS;
dbp->dev_state = DB_SECONDARY_NEXUS;
if (dbp->dev_state & DB_PRIMARY_NEXUS) {
if (dbp->dev_state & DB_PRIMARY_NEXUS) {
uint32_t dev_state; /* device state */