ldxa
tte = ldxa(pa, ASI_PHYS_CACHED);
ldxa(sf->sbf_flushpa, ASI_PHYS_CACHED), sf->sbf_flushpa));
flush = ldxa(sf->sbf_flushpa, ASI_PHYS_CACHED);
ldxa(sf->sbf_flushpa, ASI_PHYS_CACHED),
#define CPU_UPAID UPA_CR_MID(ldxa(0, ASI_MID_REG))
#define CPU_FIREPLANEID FIREPLANE_CR_AID(ldxa(0, ASI_MID_REG))
#define CPU_JUPITERID JUPITER_CR_ITID(ldxa(0, ASI_MID_REG))
LDNC_GEN(u_int64_t, ldxa);
r = ldxa(h.bh_ptr + o, t->asi);
r = ldxa(h.bh_ptr + o, t->sasi);
reg = ldxa(HB_MC0, ASI_PHYS_NON_CACHED);
reg = ldxa(HB_MC0, ASI_PHYS_NON_CACHED);
reg = ldxa(HB_MC0, ASI_PHYS_NON_CACHED);
reg = ldxa(HB_MC0, ASI_PHYS_NON_CACHED);
reg = ldxa(HB_MC0, ASI_PHYS_NON_CACHED);
reg = ldxa(HB_MC0, ASI_PHYS_NON_CACHED);
reg = ldxa(HB_ESTAR, ASI_PHYS_NON_CACHED);
int64_t tmp = ldxa(0, ASI_MCCR);
int64_t tmp = ldxa(0, ASI_MCCR);
db_printf("%8.8lx\n", (long)ldxa(addr, asi));
if((pdir = (paddr_t *)(u_long)ldxa((vaddr_t)&pm->pm_segs[i], ASI_PHYS_CACHED))) {
if ((ptbl = (paddr_t *)(u_long)ldxa((vaddr_t)&pdir[k], ASI_PHYS_CACHED))) {
data0 = ldxa((vaddr_t)&ptbl[j], ASI_PHYS_CACHED);
data1 = ldxa((vaddr_t)&ptbl[j], ASI_PHYS_CACHED);
long seg = (long)ldxa((vaddr_t)&kernel_pmap_.pm_segs[i], ASI_PHYS_CACHED);
long seg = (long)ldxa((vaddr_t)&kernel_pmap_.pm_segs[i], ASI_PHYS_CACHED);
if ((ldxa(0, ASR_IDSR) & (IDSR_NACK << shift)) == 0)
if (ldxa(0, ASR_IDSR) & (IDSR_BUSY << shift)) {
if (ldxa(0, ASR_IDSR) & (IDSR_BUSY << shift))
va = ldxa(pa, ASI_PHYS_CACHED);
stxa(0x00, ASI_SCRATCHPAD, ldxa(pa, ASI_PHYS_CACHED));
if((pdir = (paddr_t *)(u_long)ldxa((vaddr_t)psegentp,
if ((ptbl = (paddr_t *)(u_long)ldxa(
data = ldxa((vaddr_t)&ptbl[j],