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Ignore whitespace Rev 3741 → Rev 3742

/branches/sparc/kernel/arch/sparc64/src/smp/smp.c
106,9 → 106,10
 
waking_up_mid = mid;
if (waitq_sleep_timeout(&ap_completion_wq, 1000000, SYNCH_FLAGS_NONE) == ESYNCH_TIMEOUT)
printf("%s: waiting for processor (mid = %" PRIu32 ") timed out\n",
__func__, mid);
if (waitq_sleep_timeout(&ap_completion_wq, 1000000, SYNCH_FLAGS_NONE) ==
ESYNCH_TIMEOUT)
printf("%s: waiting for processor (mid = %" PRIu32
") timed out\n", __func__, mid);
}
 
/** Wake application processors up. */
/branches/sparc/kernel/arch/sparc64/src/console.c
63,7 → 63,7
 
/**
* Initialize kernel console to use framebuffer and keyboard directly.
* Called on UltraSPARC64 machines with standard keyboard and framebuffer.
* Called on UltraSPARC machines with standard keyboard and framebuffer.
*
* @param aliases the "/aliases" OBP node
*/
/branches/sparc/kernel/arch/sparc64/src/mm/tlb.c
54,14 → 54,13
#include <arch/mm/tsb.h>
#endif
 
static void dtlb_pte_copy(pte_t *t, index_t index, bool ro);
static void itlb_pte_copy(pte_t *t, index_t index);
static void do_fast_instruction_access_mmu_miss_fault(istate_t *istate,
const char *str);
static void do_fast_data_access_mmu_miss_fault(istate_t *istate,
tlb_tag_access_reg_t tag, const char *str);
static void do_fast_data_access_protection_fault(istate_t *istate,
tlb_tag_access_reg_t tag, const char *str);
static void dtlb_pte_copy(pte_t *, index_t, bool);
static void itlb_pte_copy(pte_t *, index_t);
static void do_fast_instruction_access_mmu_miss_fault(istate_t *, const char *);
static void do_fast_data_access_mmu_miss_fault(istate_t *, tlb_tag_access_reg_t,
const char *);
static void do_fast_data_access_protection_fault(istate_t *,
tlb_tag_access_reg_t, const char *);
 
char *context_encoding[] = {
"Primary",
86,11 → 85,11
 
/** Insert privileged mapping into DMMU TLB.
*
* @param page Virtual page address.
* @param frame Physical frame address.
* @param pagesize Page size.
* @param locked True for permanent mappings, false otherwise.
* @param cacheable True if the mapping is cacheable, false otherwise.
* @param page Virtual page address.
* @param frame Physical frame address.
* @param pagesize Page size.
* @param locked True for permanent mappings, false otherwise.
* @param cacheable True if the mapping is cacheable, false otherwise.
*/
void dtlb_insert_mapping(uintptr_t page, uintptr_t frame, int pagesize,
bool locked, bool cacheable)
126,10 → 125,10
 
/** Copy PTE to TLB.
*
* @param t Page Table Entry to be copied.
* @param index Zero if lower 8K-subpage, one if higher 8K-subpage.
* @param ro If true, the entry will be created read-only, regardless of its
* w field.
* @param t Page Table Entry to be copied.
* @param index Zero if lower 8K-subpage, one if higher 8K-subpage.
* @param ro If true, the entry will be created read-only, regardless
* of its w field.
*/
void dtlb_pte_copy(pte_t *t, index_t index, bool ro)
{
165,8 → 164,8
 
/** Copy PTE to ITLB.
*
* @param t Page Table Entry to be copied.
* @param index Zero if lower 8K-subpage, one if higher 8K-subpage.
* @param t Page Table Entry to be copied.
* @param index Zero if lower 8K-subpage, one if higher 8K-subpage.
*/
void itlb_pte_copy(pte_t *t, index_t index)
{
235,10 → 234,11
* Note that some faults (e.g. kernel faults) were already resolved by the
* low-level, assembly language part of the fast_data_access_mmu_miss handler.
*
* @param tag Content of the TLB Tag Access register as it existed when the
* trap happened. This is to prevent confusion created by clobbered
* Tag Access register during a nested DTLB miss.
* @param istate Interrupted state saved on the stack.
* @param tag Content of the TLB Tag Access register as it existed
* when the trap happened. This is to prevent confusion
* created by clobbered Tag Access register during a nested
* DTLB miss.
* @param istate Interrupted state saved on the stack.
*/
void fast_data_access_mmu_miss(tlb_tag_access_reg_t tag, istate_t *istate)
{
287,10 → 287,11
 
/** DTLB protection fault handler.
*
* @param tag Content of the TLB Tag Access register as it existed when the
* trap happened. This is to prevent confusion created by clobbered
* Tag Access register during a nested DTLB miss.
* @param istate Interrupted state saved on the stack.
* @param tag Content of the TLB Tag Access register as it existed
* when the trap happened. This is to prevent confusion
* created by clobbered Tag Access register during a nested
* DTLB miss.
* @param istate Interrupted state saved on the stack.
*/
void fast_data_access_protection(tlb_tag_access_reg_t tag, istate_t *istate)
{
336,9 → 337,9
* The diag field has been left out in order to make this function more generic
* (there is no diag field in US3 architeture).
*
* @param i TLB entry number
* @param t TLB entry tag
* @param d TLB entry data
* @param i TLB entry number
* @param t TLB entry tag
* @param d TLB entry data
*/
static void print_tlb_entry(int i, tlb_tag_read_reg_t t, tlb_data_t d)
{
473,8 → 474,8
sfsr.ow, sfsr.fv);
#elif defined (US3)
printf("DTLB SFSR: nf=%d, asi=%#x, tm=%d, ft=%#x, e=%d, ct=%d, pr=%d, "
"w=%d, ow=%d, fv=%d\n", sfsr.nf, sfsr.asi, sfsr.tm, sfsr.ft,
sfsr.e, sfsr.ct, sfsr.pr, sfsr.w, sfsr.ow, sfsr.fv);
"w=%d, ow=%d, fv=%d\n", sfsr.nf, sfsr.asi, sfsr.tm, sfsr.ft,
sfsr.e, sfsr.ct, sfsr.pr, sfsr.w, sfsr.ow, sfsr.fv);
#endif
printf("DTLB SFAR: address=%p\n", sfar);
485,10 → 486,9
#if defined (US3)
/** Invalidates given TLB entry if and only if it is non-locked or global.
*
* @param tlb
* TLB number (one of TLB_DSMALL, TLB_DBIG_0, TLB_DBIG_1,
* TLB_ISMALL, TLB_IBIG)
* @param entry entry index within the given TLB
* @param tlb TLB number (one of TLB_DSMALL, TLB_DBIG_0, TLB_DBIG_1,
* TLB_ISMALL, TLB_IBIG).
* @param entry Entry index within the given TLB.
*/
static void tlb_invalidate_entry(int tlb, index_t entry)
{
596,9 → 596,9
/** Invalidate all ITLB and DTLB entries for specified page range in specified
* address space.
*
* @param asid Address Space ID.
* @param page First page which to sweep out from ITLB and DTLB.
* @param cnt Number of ITLB and DTLB entries to invalidate.
* @param asid Address Space ID.
* @param page First page which to sweep out from ITLB and DTLB.
* @param cnt Number of ITLB and DTLB entries to invalidate.
*/
void tlb_invalidate_pages(asid_t asid, uintptr_t page, count_t cnt)
{
/branches/sparc/kernel/arch/sparc64/src/mm/as.c
174,7 → 174,7
* to have separate TSBs for primary, secondary and nucleus contexts.
* Clearing the extension registers will ensure that the value of the
* TSB Base register will be used as an address of TSB, making the code
* compatible with the US port.
* compatible with the US port.
*/
itsb_primary_extension_write(0);
itsb_nucleus_extension_write(0);
/branches/sparc/kernel/arch/sparc64/src/mm/tsb.c
173,3 → 173,4
 
/** @}
*/
 
/branches/sparc/kernel/arch/sparc64/src/mm/page.c
165,4 → 165,5
}
 
/** @}
*/
*/
 
/branches/sparc/kernel/arch/sparc64/src/drivers/kbd.c
86,21 → 86,20
*/
uint32_t interrupts;
prop = ofw_tree_getprop(node, "interrupts");
if (!prop || !prop->value)
if ((!prop) || (!prop->value))
panic("Can't find \"interrupts\" property.\n");
interrupts = *((uint32_t *) prop->value);
 
/*
* Read 'reg' property.
*/
prop = ofw_tree_getprop(node, "reg");
if (!prop || !prop->value)
if ((!prop) || (!prop->value))
panic("Can't find \"reg\" property.\n");
uintptr_t pa;
size_t size;
inr_t inr;
devno_t devno = device_assign_devno();
switch (kbd_type) {
case KBD_Z8530:
132,9 → 131,9
return;
};
break;
 
default:
panic("Unexpected type.\n");
panic("Unexpected keyboard type.\n");
}
/*
145,17 → 144,18
*/
aligned_addr = ALIGN_DOWN(pa, PAGE_SIZE);
offset = pa - aligned_addr;
uintptr_t vaddr = hw_map(aligned_addr, offset + size) + offset;
 
switch (kbd_type) {
#ifdef CONFIG_Z8530
case KBD_Z8530:
z8530_init(devno, vaddr, inr, cir, cir_arg);
z8530_init(device_assign_devno(),
hw_map(aligned_addr, offset + size) + offset, inr, cir, cir_arg);
break;
#endif
#ifdef CONFIG_NS16550
case KBD_NS16550:
ns16550_init(devno, (ioport_t)vaddr, inr, cir, cir_arg);
ns16550_init(device_assign_devno(),
(ioport_t) (hw_map(aligned_addr, offset + size) + offset), inr, cir, cir_arg);
break;
#endif
default:
/branches/sparc/kernel/arch/sparc64/src/drivers/scr.c
55,6 → 55,10
void scr_init(ofw_tree_node_t *node)
{
ofw_tree_property_t *prop;
ofw_pci_reg_t *pci_reg;
ofw_pci_reg_t pci_abs_reg;
ofw_upa_reg_t *upa_reg;
ofw_sbus_reg_t *sbus_reg;
const char *name;
name = ofw_tree_node_name(node);
74,6 → 78,7
}
uintptr_t fb_addr;
unsigned int fb_offset = 0;
uint32_t fb_width = 0;
uint32_t fb_height = 0;
uint32_t fb_depth = 0;
108,15 → 113,15
return;
}
ofw_pci_reg_t *fb_reg = &((ofw_pci_reg_t *) prop->value)[1];
ofw_pci_reg_t abs_reg;
pci_reg = &((ofw_pci_reg_t *) prop->value)[1];
if (!ofw_pci_reg_absolutize(node, fb_reg, &abs_reg)) {
if (!ofw_pci_reg_absolutize(node, pci_reg, &pci_abs_reg)) {
printf("Failed to absolutize fb register.\n");
return;
}
if (!ofw_pci_apply_ranges(node->parent, &abs_reg , &fb_addr)) {
if (!ofw_pci_apply_ranges(node->parent, &pci_abs_reg,
&fb_addr)) {
printf("Failed to determine screen address.\n");
return;
}
145,29 → 150,30
break;
case SCR_XVR:
{
if (prop->size / sizeof(ofw_pci_reg_t) < 2) {
printf("Too few screen registers.\n");
return;
}
ofw_pci_reg_t *fb_reg = &((ofw_pci_reg_t *) prop->value)[1];
ofw_pci_reg_t abs_reg;
pci_reg = &((ofw_pci_reg_t *) prop->value)[1];
if (!ofw_pci_reg_absolutize(node, fb_reg, &abs_reg)) {
if (!ofw_pci_reg_absolutize(node, pci_reg, &pci_abs_reg)) {
printf("Failed to absolutize fb register.\n");
return;
}
if (!ofw_pci_apply_ranges(node->parent, &abs_reg , &fb_addr)) {
if (!ofw_pci_apply_ranges(node->parent, &pci_abs_reg,
&fb_addr)) {
printf("Failed to determine screen address.\n");
return;
}
 
fb_offset = 4 * 0x2000;
 
switch (fb_depth) {
case 8:
fb_scanline = fb_linebytes * (fb_depth >> 3);
visual = VISUAL_SB1500_PALETTE;
visual = VISUAL_INDIRECT_8;
break;
case 16:
fb_scanline = fb_linebytes * (fb_depth >> 3);
187,13 → 193,12
}
break;
}
case SCR_FFB:
fb_scanline = 8192;
visual = VISUAL_BGR_0_8_8_8;
 
ofw_upa_reg_t *reg = &((ofw_upa_reg_t *) prop->value)[FFB_REG_24BPP];
if (!ofw_upa_apply_ranges(node->parent, reg, &fb_addr)) {
upa_reg = &((ofw_upa_reg_t *) prop->value)[FFB_REG_24BPP];
if (!ofw_upa_apply_ranges(node->parent, upa_reg, &fb_addr)) {
printf("Failed to determine screen address.\n");
return;
}
210,8 → 215,8
return;
}
ofw_sbus_reg_t *cg6_reg = &((ofw_sbus_reg_t *) prop->value)[0];
if (!ofw_sbus_apply_ranges(node->parent, cg6_reg, &fb_addr)) {
sbus_reg = &((ofw_sbus_reg_t *) prop->value)[0];
if (!ofw_sbus_apply_ranges(node->parent, sbus_reg, &fb_addr)) {
printf("Failed to determine screen address.\n");
return;
}
221,13 → 226,14
panic("Unexpected type.\n");
}
 
fb_properties_t props;
props.addr = fb_addr;
props.fb_start = 0;
props.x = fb_width;
props.y = fb_height;
props.scan = fb_scanline;
props.visual = visual;
fb_properties_t props = {
.addr = fb_addr,
.offset = fb_offset,
.x = fb_width,
.y = fb_height,
.scan = fb_scanline,
.visual = visual,
};
fb_init(&props);
}
 
/branches/sparc/kernel/arch/sparc64/src/drivers/tick.c
50,6 → 50,7
{
/* initialize TICK interrupt */
tick_compare_reg_t compare;
 
interrupt_register(14, "tick_int", tick_interrupt);
compare.int_dis = false;
compare.tick_cmpr = CPU->arch.clock_frequency / HZ;
80,7 → 81,6
*/
void tick_interrupt(int n, istate_t *istate)
{
 
softint_reg_t softint, clear;
uint64_t drift;