DATA
case DATA: {
case DATA: {
} else if (interface->IF_type == DATA) {
(p->IF_type == DATA) ? "data" : "unknown type",
case DATA:
dp->th_opcode = htons((ushort_t)DATA);
if (dp->th_opcode == DATA) {
case DATA:
dp->th_opcode = htons((ushort_t)DATA);
if (dp->th_opcode == DATA) {
dp->th_opcode == DATA && /* and got a data block */
case DATA:
case DATA: return ("data packet");
case DATA:
case DATA:
EPKT_DESC(MMU, XLAT, DATA, INV, RDWR),
EPKT_DESC(MMU, XLAT, DATA, PROT, RDWR),
EPKT_DESC(INTR, MSI32, DATA, ILL, IRR),
if (idesc->id_type != DATA)
idesc.id_type = DATA;
idesc.id_type = DATA;
idesc.id_type = DATA;
idesc.id_type = DATA;
idesc.id_type = DATA;
idesc.id_type = DATA;
idesc.id_type = DATA;
idelayed.id_type = DATA;
case DATA:
if (idesc->id_type == DATA) {
curino.id_type = DATA;
idesc.id_type = DATA;
idesc->id_type = DATA;
idesc.id_type = DATA;
if (idesc->id_type == DATA)
#define ALIST_TRAVERSE(LIST, IDX, DATA) \
((LIST) != NULL) && ((DATA) = (void *)(LIST)->al_data); \
(DATA) = (void *) (((LIST)->al_size * (IDX)) + (char *)(LIST)->al_data)
#define ALIST_TRAVERSE_BY_OFFSET(LIST, OFF, DATA) \
(((DATA) = (void *)((char *)(LIST) + (OFF))))); \
((DATA) = (void *)((char *)(LIST) + (OFF))))
val->data = DATA(cursorp->pagep, cursorp->pgndx);
val.data = DATA(temp_pagep, n);
#define BOTTOM(b) ((DATA(b) + SIZE(b) + WORDSIZE) == Baddr)
return (DATA(tp));
return (DATA(sp));
realfree(DATA(tp));
return (DATA(sp));
realfree(DATA(np));
(void) memmove(DATA(np), old, SIZE(tp));
old = DATA(np);
realfree(DATA(Bottom));
_free_unlocked(DATA(blk));
_free_unlocked(DATA(blk));
return (DATA(aligned_blk));
#define BOTTOM(b) ((DATA(b) + RSIZE(b) + WORDSIZE) == Baddr)
free_unlocked(DATA(blk));
free_unlocked(DATA(blk));
return (DATA(aligned_blk));
if (tp == NULL || DATA(tp) == Baddr)
if (tp == NULL || DATA(tp) == Baddr)
return (DATA(tp));
realfree(DATA(tp));
return (DATA(sp));
realfree(DATA(np));
(void) memmove(DATA(np), old, SIZE(tp));
old = DATA(np);
realfree(DATA(Bottom));
uint64_t *datap = (uint64_t *)DATA(tp);
uint8_t *DATA[] = { DATA0, DATA1, DATA2, DATA3, DATA4, DATA5, DATA6 };
uint8_t *DATA[] = { DATA0, DATA1, DATA2, DATA3, DATA4, DATA5, DATA6 };
uint8_t *DATA[] = { DATA0, DATA1, DATA2, DATA3, DATA4, DATA5, DATA6 };
uint8_t *DATA[] = { DATA0, DATA1, DATA2, DATA3, DATA4, DATA5, DATA6 };
extern uint8_t *DATA[];
args.in = DATA[i];
args.in = DATA[i];
errs += run_test(&args, DATA[i], DATALEN[i], DECR_FG);
uint8_t *DATA[] = {
args.in = DATA[i];
errs += run_test(&args, DATA[i], DATALEN[i], DECR_FG);
uint8_t *DATA[] = {
for (i = 0; i < sizeof (DATA) / sizeof (DATA[0]); i++) {
args.in = DATA[i];
for (i = 0; i < sizeof (DATA) / sizeof (DATA[0]); i++) {
errs += run_test(&args, DATA[i], DATALEN[i], ENCR_FG);
uint8_t *DATA[] = {
for (i = 0; i < sizeof (DATA) / sizeof (DATA[0]); i++) {
args.in = DATA[i];
for (i = 0; i < sizeof (DATA) / sizeof (DATA[0]); i++) {
errs += run_test(&args, DATA[i], DATALEN[i], DECR_FG);
uint8_t *DATA[] = {
args.in = &DATA[i][DATALEN[i] / 2];
gmac_init_params(param, IV[i], DATA[i], DATALEN[i] / 2);
args.in = &DATA[i][16];
gmac_init_params(param, IV[i], DATA[i], 16);
int ndata = sizeof (DATA) / sizeof (DATA[0]);
args.in = DATA[i];
gmac_init_params(param, IV[i], DATA[i], DATALEN[i]);
uint8_t *DATA[] = {
args.in = &DATA[i][DATALEN[i] / 2];
gmac_init_params(param, IV[i], DATA[i], DATALEN[i] / 2);
args.in = &DATA[i][16];
gmac_init_params(param, IV[i], DATA[i], 16);
gmac_init_params(param, IV[i], DATA[i], DATALEN[i]);
int ndata = sizeof (DATA) / sizeof (DATA[0]);
args.in = DATA[i];
gmac_init_params(param, IV[i], DATA[i], DATALEN[i]);
uchar_t fillchar = DATA;
uchar_t fillchar = DATA;
#define OHCI_SWAP32(DATA) (ddi_swap32(DATA))
#define OHCI_SWAP32(DATA) (DATA)
#define dbwritel(DATA, ADDRESS) \
ddi_put32(adapter->db_handle, (uint32_t *)(ADDRESS), (DATA))
#define UNM_NIC_PCI_WRITE_8(DATA, ADDRESS) \
ddi_put8(adapter->regs_handle, (uint8_t *)(ADDRESS), (DATA))
#define UNM_NIC_PCI_WRITE_16(DATA, ADDRESS) \
ddi_put16(adapter->regs_handle, (uint16_t *)(ADDRESS), (DATA))
#define UNM_NIC_PCI_WRITE_32(DATA, ADDRESS) \
ddi_put32(adapter->regs_handle, (uint32_t *)(ADDRESS), (DATA))
#define UNM_NIC_PCI_WRITE_64(DATA, ADDRESS) \
ddi_put64(adapter->regs_handle, (uint64_t *)(ADDRESS), (DATA))
MCDI_EV_FIELD(eqp, DATA));
MCDI_EV_FIELD(eqp, DATA));
EFSYS_PROBE1(tx_descq_err, uint32_t, MCDI_EV_FIELD(eqp, DATA));
EFSYS_PROBE1(rx_descq_err, uint32_t, MCDI_EV_FIELD(eqp, DATA));
MCDI_EV_FIELD(eqp, DATA));
MCDI_EV_FIELD(eqp, DATA));
#define FIT_MXD_CONS(TYPE, PARAM, DATA) \
(((DATA) & 0xFFFFu) << 0u))
if ((tw->tw_ctrl_state == DATA) &&
tw->tw_ctrl_state = DATA;
case DATA:
tw->tw_ctrl_state = DATA;
#define IEEE1394_NODE_NUM(DATA) ((DATA) & IEEE1394_NODE_NUM_MASK)
#define T1394_DATA32(DATA) ddi_swap32(DATA)
#define T1394_DATA64(DATA) ddi_swap64(DATA)
#define T1394_DATA32(DATA) (DATA)
#define T1394_DATA64(DATA) (DATA)
#define EPIC_WRITE(HANDLE, REG, ADDR, MASK, DATA)\
EPIC_IND_DATA, (DATA));
#define EPIC_WR(HANDLE, REG, DATA)\
EPIC_ATOM_ADDR, (DATA));