descriptor
if ((descriptor & INPUT) && Location.l_line != NULL) {
if ((descriptor & FATAL) == FATAL) {
errlog(const int descriptor, const char *format, ...)
if ((Severity < (descriptor & FATAL)) &&
((descriptor & FATAL) != FATAL)) {
if ((descriptor & PRINTHDR) != 0) {
if (descriptor & INDENTED) {
} else if (descriptor & OUTDENTED) {
defect_hdr.descriptor = FDH_FOV | FDH_IMMED;
uint16_t descriptor[2]; /* descriptor (msb) */
GET_UNALIGN32(&segment.descriptor[0]),
uint16_t descriptor[2]; /* descriptor (msb) */
GET_UNALIGN32(&segment.descriptor[0]),
if (ptree_create_and_add_prop(nodehdl, &prop, &segment->descriptor,
desc = (fru_segdesc_t *)&segment[cnt].descriptor;
segment.descriptor = seg_def->desc.raw_data;
desc = (fru_segdesc_t *)&segment.descriptor;
desc = (fru_segdesc_t *)&seg_buf[cnt].descriptor;
desc = (fru_segdesc_t *)&seg_buffer[count].descriptor;
segment->descriptor = seg_object->u.seg_obj->segment.descriptor;
new_seg_desc = (fru_segdesc_t *)&segment->descriptor;
(void) memcpy(seg_layout->descriptor, &segment->descriptor,
desc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor;
segdesc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor;
segdesc = (fru_segdesc_t *)&segment_object->segment.descriptor;
desc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor;
desc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor;
desc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor;
seghdr->descriptor = GET_SEGMENT_DESCRIPTOR;
(void) memcpy(&segdesc, &segment->descriptor,
uint32_t descriptor; /* ditto */
uint16_t descriptor[2]; /* descriptor (msb) */
(seg_layout->descriptor[1]|seg_layout->descriptor[0] << 16)
uint16_t descriptor[2]; /* descriptor (msb) */
GET_UNALIGN32(&segment.descriptor[0]),
struct descriptor *next;
struct descriptor *prev;
fru_segdesc_t descriptor;
&descriptor,
sizeof (descriptor)))
if (descriptor.field.opaque)
if (descriptor.field.encrypted && (encrypt_func == NULL))
if ((descriptor.field.encrypted) &&
fru_segdesc_t descriptor;
&descriptor,
sizeof (descriptor)))
if (descriptor.field.opaque)
if (descriptor.field.encrypted && (encrypt_func == NULL))
if ((descriptor.field.encrypted) &&
uint32_t descriptor; /* ditto */
uint16_t descriptor[2]; /* descriptor (msb) */
(BE_16(seg_layout->descriptor[1])| \
BE_16(seg_layout->descriptor[0] << 16))
def->desc.raw_data = segment.descriptor;
fru_segdesc_t *descriptor;
descriptor = (fru_segdesc_t *)&tmp_list->segment->descriptor;
if (descriptor->field.opaque) {
if (descriptor->field.encrypted && (encrypt_func == NULL)) {
descriptor =
(fru_segdesc_t *)&tmp_list->segment->descriptor;
if ((descriptor->field.encrypted) &&
seghdr->descriptor = GET_SEGMENT_DESCRIPTOR;
segment->descriptor = seg_object->u.seg_obj->segment.descriptor;
segdesc = (fru_segdesc_t *)&seg_hash->u.seg_obj->segment.descriptor;
segdesc = (fru_segdesc_t *)&segment_object->segment.descriptor;
char *descriptor;
descriptor = NULL;
if (asprintf(&descriptor, "zfs:%s:", device) > 0)
fnvlist_add_string(nv, OS_BOOTONCE, descriptor);
free(descriptor);
struct e1000_rx_desc *descriptor;
descriptor = rx_data->rbd_first;
i++, packet = packet->next, descriptor++) {
ASSERT(descriptor != NULL);
descriptor->buffer_addr =
descriptor = rx_data->rbd_first;
ASSERT(descriptor != NULL);
descriptor->buffer_addr =
descriptor++;
sw_desc_t descriptor[4];
struct e1000_tx_desc *descriptor;
descriptor = tx_ring->tbd_oldest + (packet->num_desc - 1);
if (descriptor > tx_ring->tbd_last)
descriptor -= Adapter->tx_desc_num;
if (descriptor->upper.fields.status & E1000_TXD_STAT_DD) {
if (descriptor == tx_ring->tbd_last)
descriptor + 1;
desc_array->descriptor[0].address = address;
desc_array->descriptor[0].length = (uint32_t)length;
desc_array->descriptor[0].address = address;
desc_array->descriptor[0].length = (uint32_t)length;
desc_array->descriptor[0].address = address;
desc_array->descriptor[0].length = length - 4;
desc_array->descriptor[1].address = address + (length - 4);
desc_array->descriptor[1].length = 4;
desc_array.descriptor[counter].address;
desc_array.descriptor[counter].length;
struct e1000_tx_desc *descriptor;
descriptor = NULL;
descriptor = next_desc;
(struct e1000_context_desc *)descriptor);
if (descriptor == tx_ring->tbd_last)
descriptor = next_desc;
descriptor->buffer_addr =
descriptor->lower.data =
descriptor->upper.data = zeroed.upper.data;
descriptor->lower.data |=
descriptor->lower.data |=
descriptor->lower.data |= E1000_TXD_CMD_TSE;
if (descriptor == tx_ring->tbd_last)
descriptor == first_data_desc &&
((descriptor->lower.data & E1000G_TBD_LENGTH_MASK)
descriptor->lower.data &=
descriptor->lower.flags.length =
descriptor = next_desc;
((descriptor->lower.data & E1000G_TBD_LENGTH_MASK) > 8)) {
descriptor->lower.data -= 4;
descriptor->buffer_addr +
(descriptor->lower.data & E1000G_TBD_LENGTH_MASK);
descriptor = next_desc;
if (descriptor == tx_ring->tbd_last)
ASSERT(descriptor);
descriptor->lower.data |= E1000_TXD_CMD_IDE |
descriptor->lower.data |= E1000_TXD_CMD_EOP;
descriptor->lower.data |= E1000_TXD_CMD_IFCS;
hidparser_main(unsigned char *descriptor, size_t size, entity_item_t **item_ptr)
scan_ifp->hidparser_tok_entity_descriptor = descriptor;
hidparser_parse_report_descriptor(unsigned char *descriptor, size_t size,
error = hidparser_main(descriptor, size, &root);
uchar_t descriptor;
uchar_t descriptor;
uint8_t descriptor;
pNonphysical->RxBufDescQRead->descriptor = pMil->Rx_desc;
pNonphysical->RxBufDescQStart->descriptor = pMil->Rx_desc;
pNonphysical->RxBufDescQEnd->descriptor =
pNonphysical->RxBufDescQRead->descriptor->Rx_BCNT
pNonphysical->RxBufDescQRead->descriptor->Rx_Base_Addr
pNonphysical->RxBufDescQRead->descriptor->Rx_OWN = 1;
pNonphysical->RxBufDescQRead->descriptor++;
pNonphysical->RxBufDescQRead->descriptor =
pNonphysical->RxBufDescQStart->descriptor;
struct rx_desc *descriptor;
struct rx_desc *descriptor;
descriptor = pNonphysical->RxBufDescQRead->descriptor;
pNonphysical->RxBufDescQRead->descriptor -
pNonphysical->RxBufDescQStart->descriptor,
if ((descriptor->Rx_OWN) == 0) {
if (descriptor->Rx_ERR) {
descriptor->Rx_ERR = 0;
if (descriptor->Rx_FRAM == 1) {
descriptor->Rx_FRAM = 0;
if (descriptor->Rx_OFLO == 1) {
descriptor->Rx_OFLO = 0;
if (descriptor->Rx_CRC == 1) {
descriptor->Rx_CRC = 0;
if (descriptor->Rx_BUFF == 1) {
descriptor->Rx_BUFF = 0;
length = descriptor->Rx_MCNT -4;
length = descriptor->Rx_MCNT;
descriptor->Rx_MCNT = 0;
descriptor->Rx_SOP = 0;
descriptor->Rx_EOP = 0;
descriptor->Rx_PAM = 0;
descriptor->Rx_BAM = 0;
descriptor->TT = 0;
descriptor->Rx_OWN = 1;
pNonphysical->RxBufDescQRead->descriptor++;
if (pNonphysical->RxBufDescQRead->descriptor >
pNonphysical->RxBufDescQEnd->descriptor) {
pNonphysical->RxBufDescQRead->descriptor =
pNonphysical->RxBufDescQStart->descriptor;
bcopy(tdatap, (caddr_t)&sp->descriptor, DESCRIPTOR_SIZE);
bcopy((caddr_t)&segp->descriptor, tdatap, DESCRIPTOR_SIZE);
segment.descriptor, segment.offset, segment.length);
uint32_t descriptor; /* ditto */