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|
/*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file "COPYING" in the main directory of this archive
* for more details.
*
* Synthesize TLB refill handlers at runtime.
*
* Copyright (C) 2004, 2005, 2006, 2008 Thiemo Seufer
* Copyright (C) 2005, 2007, 2008, 2009 Maciej W. Rozycki
* Copyright (C) 2006 Ralf Baechle (ralf@linux-mips.org)
* Copyright (C) 2008, 2009 Cavium Networks, Inc.
* Copyright (C) 2011 MIPS Technologies, Inc.
*
* ... and the days got worse and worse and now you see
* I've gone completly out of my mind.
*
* They're coming to take me a away haha
* they're coming to take me a away hoho hihi haha
* to the funny farm where code is beautiful all the time ...
*
* (Condolences to Napoleon XIV)
*/
#include <linux/bug.h>
#include <linux/kernel.h>
#include <linux/types.h>
#include <linux/smp.h>
#include <linux/string.h>
#include <linux/init.h>
#include <linux/cache.h>
#include <asm/cacheflush.h>
#include <asm/pgtable.h>
#include <asm/war.h>
#include <asm/uasm.h>
#include <asm/setup.h>
/*
* TLB load/store/modify handlers.
*
* Only the fastpath gets synthesized at runtime, the slowpath for
* do_page_fault remains normal asm.
*/
extern void tlb_do_page_fault_0(void);
extern void tlb_do_page_fault_1(void);
struct work_registers {
int r1;
int r2;
int r3;
};
struct tlb_reg_save {
unsigned long a;
unsigned long b;
} ____cacheline_aligned_in_smp;
static struct tlb_reg_save handler_reg_save[NR_CPUS];
static inline int r45k_bvahwbug(void)
{
/* XXX: We should probe for the presence of this bug, but we don't. */
return 0;
}
static inline int r4k_250MHZhwbug(void)
{
/* XXX: We should probe for the presence of this bug, but we don't. */
return 0;
}
static inline int __maybe_unused bcm1250_m3_war(void)
{
return BCM1250_M3_WAR;
}
static inline int __maybe_unused r10000_llsc_war(void)
{
return R10000_LLSC_WAR;
}
static int use_bbit_insns(void)
{
switch (current_cpu_type()) {
case CPU_CAVIUM_OCTEON:
case CPU_CAVIUM_OCTEON_PLUS:
case CPU_CAVIUM_OCTEON2:
return 1;
default:
return 0;
}
}
static int use_lwx_insns(void)
{
switch (current_cpu_type()) {
case CPU_CAVIUM_OCTEON2:
return 1;
default:
return 0;
}
}
#if defined(CONFIG_CAVIUM_OCTEON_CVMSEG_SIZE) && \
CONFIG_CAVIUM_OCTEON_CVMSEG_SIZE > 0
static bool scratchpad_available(void)
{
return true;
}
static int scratchpad_offset(int i)
{
/*
* CVMSEG starts at address -32768 and extends for
* CAVIUM_OCTEON_CVMSEG_SIZE 128 byte cache lines.
*/
i += 1; /* Kernel use starts at the top and works down. */
return CONFIG_CAVIUM_OCTEON_CVMSEG_SIZE * 128 - (8 * i) - 32768;
}
#else
static bool scratchpad_available(void)
{
return false;
}
static int scratchpad_offset(int i)
{
BUG();
/* Really unreachable, but evidently some GCC want this. */
return 0;
}
#endif
/*
* Found by experiment: At least some revisions of the 4kc throw under
* some circumstances a machine check exception, triggered by invalid
* values in the index register. Delaying the tlbp instruction until
* after the next branch, plus adding an additional nop in front of
* tlbwi/tlbwr avoids the invalid index register values. Nobody knows
* why; it's not an issue caused by the core RTL.
*
*/
static int __cpuinit m4kc_tlbp_war(void)
{
return (current_cpu_data.processor_id & 0xffff00) ==
(PRID_COMP_MIPS | PRID_IMP_4KC);
}
/* Handle labels (which must be positive integers). */
enum label_id {
label_second_part = 1,
label_leave,
label_vmalloc,
label_vmalloc_done,
label_tlbw_hazard_0,
label_split = label_tlbw_hazard_0 + 8,
label_tlbl_goaround1,
label_tlbl_goaround2,
label_nopage_tlbl,
label_nopage_tlbs,
label_nopage_tlbm,
label_smp_pgtable_change,
label_r3000_write_probe_fail,
label_large_segbits_fault,
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
label_tlb_huge_update,
#endif
};
UASM_L_LA(_second_part)
UASM_L_LA(_leave)
UASM_L_LA(_vmalloc)
UASM_L_LA(_vmalloc_done)
/* _tlbw_hazard_x is handled differently. */
UASM_L_LA(_split)
UASM_L_LA(_tlbl_goaround1)
UASM_L_LA(_tlbl_goaround2)
UASM_L_LA(_nopage_tlbl)
UASM_L_LA(_nopage_tlbs)
UASM_L_LA(_nopage_tlbm)
UASM_L_LA(_smp_pgtable_change)
UASM_L_LA(_r3000_write_probe_fail)
UASM_L_LA(_large_segbits_fault)
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
UASM_L_LA(_tlb_huge_update)
#endif
static int __cpuinitdata hazard_instance;
static void uasm_bgezl_hazard(u32 **p, struct uasm_reloc **r, int instance)
{
switch (instance) {
case 0 ... 7:
uasm_il_bgezl(p, r, 0, label_tlbw_hazard_0 + instance);
return;
default:
BUG();
}
}
static void uasm_bgezl_label(struct uasm_label **l, u32 **p, int instance)
{
switch (instance) {
case 0 ... 7:
uasm_build_label(l, *p, label_tlbw_hazard_0 + instance);
break;
default:
BUG();
}
}
/*
* pgtable bits are assigned dynamically depending on processor feature
* and statically based on kernel configuration. This spits out the actual
* values the kernel is using. Required to make sense from disassembled
* TLB exception handlers.
*/
static void output_pgtable_bits_defines(void)
{
#define pr_define(fmt, ...) \
pr_debug("#define " fmt, ##__VA_ARGS__)
pr_debug("#include <asm/asm.h>\n");
pr_debug("#include <asm/regdef.h>\n");
pr_debug("\n");
pr_define("_PAGE_PRESENT_SHIFT %d\n", _PAGE_PRESENT_SHIFT);
pr_define("_PAGE_READ_SHIFT %d\n", _PAGE_READ_SHIFT);
pr_define("_PAGE_WRITE_SHIFT %d\n", _PAGE_WRITE_SHIFT);
pr_define("_PAGE_ACCESSED_SHIFT %d\n", _PAGE_ACCESSED_SHIFT);
pr_define("_PAGE_MODIFIED_SHIFT %d\n", _PAGE_MODIFIED_SHIFT);
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
pr_define("_PAGE_HUGE_SHIFT %d\n", _PAGE_HUGE_SHIFT);
pr_define("_PAGE_SPLITTING_SHIFT %d\n", _PAGE_SPLITTING_SHIFT);
#endif
if (cpu_has_rixi) {
#ifdef _PAGE_NO_EXEC_SHIFT
pr_define("_PAGE_NO_EXEC_SHIFT %d\n", _PAGE_NO_EXEC_SHIFT);
#endif
#ifdef _PAGE_NO_READ_SHIFT
pr_define("_PAGE_NO_READ_SHIFT %d\n", _PAGE_NO_READ_SHIFT);
#endif
}
pr_define("_PAGE_GLOBAL_SHIFT %d\n", _PAGE_GLOBAL_SHIFT);
pr_define("_PAGE_VALID_SHIFT %d\n", _PAGE_VALID_SHIFT);
pr_define("_PAGE_DIRTY_SHIFT %d\n", _PAGE_DIRTY_SHIFT);
pr_define("_PFN_SHIFT %d\n", _PFN_SHIFT);
pr_debug("\n");
}
static inline void dump_handler(const char *symbol, const u32 *handler, int count)
{
int i;
pr_debug("LEAF(%s)\n", symbol);
pr_debug("\t.set push\n");
pr_debug("\t.set noreorder\n");
for (i = 0; i < count; i++)
pr_debug("\t.word\t0x%08x\t\t# %p\n", handler[i], &handler[i]);
pr_debug("\t.set\tpop\n");
pr_debug("\tEND(%s)\n", symbol);
}
/* The only general purpose registers allowed in TLB handlers. */
#define K0 26
#define K1 27
/* Some CP0 registers */
#define C0_INDEX 0, 0
#define C0_ENTRYLO0 2, 0
#define C0_TCBIND 2, 2
#define C0_ENTRYLO1 3, 0
#define C0_CONTEXT 4, 0
#define C0_PAGEMASK 5, 0
#define C0_BADVADDR 8, 0
#define C0_ENTRYHI 10, 0
#define C0_EPC 14, 0
#define C0_XCONTEXT 20, 0
#ifdef CONFIG_64BIT
# define GET_CONTEXT(buf, reg) UASM_i_MFC0(buf, reg, C0_XCONTEXT)
#else
# define GET_CONTEXT(buf, reg) UASM_i_MFC0(buf, reg, C0_CONTEXT)
#endif
/* The worst case length of the handler is around 18 instructions for
* R3000-style TLBs and up to 63 instructions for R4000-style TLBs.
* Maximum space available is 32 instructions for R3000 and 64
* instructions for R4000.
*
* We deliberately chose a buffer size of 128, so we won't scribble
* over anything important on overflow before we panic.
*/
static u32 tlb_handler[128] __cpuinitdata;
/* simply assume worst case size for labels and relocs */
static struct uasm_label labels[128] __cpuinitdata;
static struct uasm_reloc relocs[128] __cpuinitdata;
#ifdef CONFIG_64BIT
static int check_for_high_segbits __cpuinitdata;
#endif
static int check_for_high_segbits __cpuinitdata;
static unsigned int kscratch_used_mask __cpuinitdata;
static int __cpuinit allocate_kscratch(void)
{
int r;
unsigned int a = cpu_data[0].kscratch_mask & ~kscratch_used_mask;
r = ffs(a);
if (r == 0)
return -1;
r--; /* make it zero based */
kscratch_used_mask |= (1 << r);
return r;
}
static int scratch_reg __cpuinitdata;
static int pgd_reg __cpuinitdata;
enum vmalloc64_mode {not_refill, refill_scratch, refill_noscratch};
static struct work_registers __cpuinit build_get_work_registers(u32 **p)
{
struct work_registers r;
int smp_processor_id_reg;
int smp_processor_id_sel;
int smp_processor_id_shift;
if (scratch_reg > 0) {
/* Save in CPU local C0_KScratch? */
UASM_i_MTC0(p, 1, 31, scratch_reg);
r.r1 = K0;
r.r2 = K1;
r.r3 = 1;
return r;
}
if (num_possible_cpus() > 1) {
#ifdef CONFIG_MIPS_PGD_C0_CONTEXT
smp_processor_id_shift = 51;
smp_processor_id_reg = 20; /* XContext */
smp_processor_id_sel = 0;
#else
# ifdef CONFIG_32BIT
smp_processor_id_shift = 25;
smp_processor_id_reg = 4; /* Context */
smp_processor_id_sel = 0;
# endif
# ifdef CONFIG_64BIT
smp_processor_id_shift = 26;
smp_processor_id_reg = 4; /* Context */
smp_processor_id_sel = 0;
# endif
#endif
/* Get smp_processor_id */
UASM_i_MFC0(p, K0, smp_processor_id_reg, smp_processor_id_sel);
UASM_i_SRL_SAFE(p, K0, K0, smp_processor_id_shift);
/* handler_reg_save index in K0 */
UASM_i_SLL(p, K0, K0, ilog2(sizeof(struct tlb_reg_save)));
UASM_i_LA(p, K1, (long)&handler_reg_save);
UASM_i_ADDU(p, K0, K0, K1);
} else {
UASM_i_LA(p, K0, (long)&handler_reg_save);
}
/* K0 now points to save area, save $1 and $2 */
UASM_i_SW(p, 1, offsetof(struct tlb_reg_save, a), K0);
UASM_i_SW(p, 2, offsetof(struct tlb_reg_save, b), K0);
r.r1 = K1;
r.r2 = 1;
r.r3 = 2;
return r;
}
static void __cpuinit build_restore_work_registers(u32 **p)
{
if (scratch_reg > 0) {
UASM_i_MFC0(p, 1, 31, scratch_reg);
return;
}
/* K0 already points to save area, restore $1 and $2 */
UASM_i_LW(p, 1, offsetof(struct tlb_reg_save, a), K0);
UASM_i_LW(p, 2, offsetof(struct tlb_reg_save, b), K0);
}
#ifndef CONFIG_MIPS_PGD_C0_CONTEXT
/*
* CONFIG_MIPS_PGD_C0_CONTEXT implies 64 bit and lack of pgd_current,
* we cannot do r3000 under these circumstances.
*
* Declare pgd_current here instead of including mmu_context.h to avoid type
* conflicts for tlbmiss_handler_setup_pgd
*/
extern unsigned long pgd_current[];
/*
* The R3000 TLB handler is simple.
*/
static void __cpuinit build_r3000_tlb_refill_handler(void)
{
long pgdc = (long)pgd_current;
u32 *p;
memset(tlb_handler, 0, sizeof(tlb_handler));
p = tlb_handler;
uasm_i_mfc0(&p, K0, C0_BADVADDR);
uasm_i_lui(&p, K1, uasm_rel_hi(pgdc)); /* cp0 delay */
uasm_i_lw(&p, K1, uasm_rel_lo(pgdc), K1);
uasm_i_srl(&p, K0, K0, 22); /* load delay */
uasm_i_sll(&p, K0, K0, 2);
uasm_i_addu(&p, K1, K1, K0);
uasm_i_mfc0(&p, K0, C0_CONTEXT);
uasm_i_lw(&p, K1, 0, K1); /* cp0 delay */
uasm_i_andi(&p, K0, K0, 0xffc); /* load delay */
uasm_i_addu(&p, K1, K1, K0);
uasm_i_lw(&p, K0, 0, K1);
uasm_i_nop(&p); /* load delay */
uasm_i_mtc0(&p, K0, C0_ENTRYLO0);
uasm_i_mfc0(&p, K1, C0_EPC); /* cp0 delay */
uasm_i_tlbwr(&p); /* cp0 delay */
uasm_i_jr(&p, K1);
uasm_i_rfe(&p); /* branch delay */
if (p > tlb_handler + 32)
panic("TLB refill handler space exceeded");
pr_debug("Wrote TLB refill handler (%u instructions).\n",
(unsigned int)(p - tlb_handler));
memcpy((void *)ebase, tlb_handler, 0x80);
dump_handler("r3000_tlb_refill", (u32 *)ebase, 32);
}
#endif /* CONFIG_MIPS_PGD_C0_CONTEXT */
/*
* The R4000 TLB handler is much more complicated. We have two
* consecutive handler areas with 32 instructions space each.
* Since they aren't used at the same time, we can overflow in the
* other one.To keep things simple, we first assume linear space,
* then we relocate it to the final handler layout as needed.
*/
static u32 final_handler[64] __cpuinitdata;
/*
* Hazards
*
* From the IDT errata for the QED RM5230 (Nevada), processor revision 1.0:
* 2. A timing hazard exists for the TLBP instruction.
*
* stalling_instruction
* TLBP
*
* The JTLB is being read for the TLBP throughout the stall generated by the
* previous instruction. This is not really correct as the stalling instruction
* can modify the address used to access the JTLB. The failure symptom is that
* the TLBP instruction will use an address created for the stalling instruction
* and not the address held in C0_ENHI and thus report the wrong results.
*
* The software work-around is to not allow the instruction preceding the TLBP
* to stall - make it an NOP or some other instruction guaranteed not to stall.
*
* Errata 2 will not be fixed. This errata is also on the R5000.
*
* As if we MIPS hackers wouldn't know how to nop pipelines happy ...
*/
static void __cpuinit __maybe_unused build_tlb_probe_entry(u32 **p)
{
switch (current_cpu_type()) {
/* Found by experiment: R4600 v2.0/R4700 needs this, too. */
case CPU_R4600:
case CPU_R4700:
case CPU_R5000:
case CPU_NEVADA:
uasm_i_nop(p);
uasm_i_tlbp(p);
break;
default:
uasm_i_tlbp(p);
break;
}
}
/*
* Write random or indexed TLB entry, and care about the hazards from
* the preceding mtc0 and for the following eret.
*/
enum tlb_write_entry { tlb_random, tlb_indexed };
static void __cpuinit build_tlb_write_entry(u32 **p, struct uasm_label **l,
struct uasm_reloc **r,
enum tlb_write_entry wmode)
{
void(*tlbw)(u32 **) = NULL;
switch (wmode) {
case tlb_random: tlbw = uasm_i_tlbwr; break;
case tlb_indexed: tlbw = uasm_i_tlbwi; break;
}
if (cpu_has_mips_r2) {
/*
* The architecture spec says an ehb is required here,
* but a number of cores do not have the hazard and
* using an ehb causes an expensive pipeline stall.
*/
switch (current_cpu_type()) {
case CPU_M14KC:
case CPU_74K:
break;
default:
uasm_i_ehb(p);
break;
}
tlbw(p);
return;
}
switch (current_cpu_type()) {
case CPU_R4000PC:
case CPU_R4000SC:
case CPU_R4000MC:
case CPU_R4400PC:
case CPU_R4400SC:
case CPU_R4400MC:
/*
* This branch uses up a mtc0 hazard nop slot and saves
* two nops after the tlbw instruction.
*/
uasm_bgezl_hazard(p, r, hazard_instance);
tlbw(p);
uasm_bgezl_label(l, p, hazard_instance);
hazard_instance++;
uasm_i_nop(p);
break;
case CPU_R4600:
case CPU_R4700:
uasm_i_nop(p);
tlbw(p);
uasm_i_nop(p);
break;
case CPU_R5000:
case CPU_NEVADA:
uasm_i_nop(p); /* QED specifies 2 nops hazard */
uasm_i_nop(p); /* QED specifies 2 nops hazard */
tlbw(p);
break;
case CPU_R4300:
case CPU_5KC:
case CPU_TX49XX:
case CPU_PR4450:
case CPU_XLR:
uasm_i_nop(p);
tlbw(p);
break;
case CPU_R10000:
case CPU_R12000:
case CPU_R14000:
case CPU_4KC:
case CPU_4KEC:
case CPU_M14KC:
case CPU_SB1:
case CPU_SB1A:
case CPU_4KSC:
case CPU_20KC:
case CPU_25KF:
case CPU_BMIPS32:
case CPU_BMIPS3300:
case CPU_BMIPS4350:
case CPU_BMIPS4380:
case CPU_BMIPS5000:
case CPU_LOONGSON2:
case CPU_R5500:
if (m4kc_tlbp_war())
uasm_i_nop(p);
case CPU_ALCHEMY:
tlbw(p);
break;
case CPU_RM7000:
uasm_i_nop(p);
uasm_i_nop(p);
uasm_i_nop(p);
uasm_i_nop(p);
tlbw(p);
break;
case CPU_VR4111:
case CPU_VR4121:
case CPU_VR4122:
case CPU_VR4181:
case CPU_VR4181A:
uasm_i_nop(p);
uasm_i_nop(p);
tlbw(p);
uasm_i_nop(p);
uasm_i_nop(p);
break;
case CPU_VR4131:
case CPU_VR4133:
case CPU_R5432:
uasm_i_nop(p);
uasm_i_nop(p);
tlbw(p);
break;
case CPU_JZRISC:
tlbw(p);
uasm_i_nop(p);
break;
default:
panic("No TLB refill handler yet (CPU type: %d)",
current_cpu_data.cputype);
break;
}
}
static __cpuinit __maybe_unused void build_convert_pte_to_entrylo(u32 **p,
unsigned int reg)
{
if (cpu_has_rixi) {
UASM_i_ROTR(p, reg, reg, ilog2(_PAGE_GLOBAL));
} else {
#ifdef CONFIG_64BIT_PHYS_ADDR
uasm_i_dsrl_safe(p, reg, reg, ilog2(_PAGE_GLOBAL));
#else
UASM_i_SRL(p, reg, reg, ilog2(_PAGE_GLOBAL));
#endif
}
}
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
static __cpuinit void build_restore_pagemask(u32 **p,
struct uasm_reloc **r,
unsigned int tmp,
enum label_id lid,
int restore_scratch)
{
if (restore_scratch) {
/* Reset default page size */
if (PM_DEFAULT_MASK >> 16) {
uasm_i_lui(p, tmp, PM_DEFAULT_MASK >> 16);
uasm_i_ori(p, tmp, tmp, PM_DEFAULT_MASK & 0xffff);
uasm_i_mtc0(p, tmp, C0_PAGEMASK);
uasm_il_b(p, r, lid);
} else if (PM_DEFAULT_MASK) {
uasm_i_ori(p, tmp, 0, PM_DEFAULT_MASK);
uasm_i_mtc0(p, tmp, C0_PAGEMASK);
uasm_il_b(p, r, lid);
} else {
uasm_i_mtc0(p, 0, C0_PAGEMASK);
uasm_il_b(p, r, lid);
}
if (scratch_reg > 0)
UASM_i_MFC0(p, 1, 31, scratch_reg);
else
UASM_i_LW(p, 1, scratchpad_offset(0), 0);
} else {
/* Reset default page size */
if (PM_DEFAULT_MASK >> 16) {
uasm_i_lui(p, tmp, PM_DEFAULT_MASK >> 16);
uasm_i_ori(p, tmp, tmp, PM_DEFAULT_MASK & 0xffff);
uasm_il_b(p, r, lid);
uasm_i_mtc0(p, tmp, C0_PAGEMASK);
} else if (PM_DEFAULT_MASK) {
uasm_i_ori(p, tmp, 0, PM_DEFAULT_MASK);
uasm_il_b(p, r, lid);
uasm_i_mtc0(p, tmp, C0_PAGEMASK);
} else {
uasm_il_b(p, r, lid);
uasm_i_mtc0(p, 0, C0_PAGEMASK);
}
}
}
static __cpuinit void build_huge_tlb_write_entry(u32 **p,
struct uasm_label **l,
struct uasm_reloc **r,
unsigned int tmp,
enum tlb_write_entry wmode,
int restore_scratch)
{
/* Set huge page tlb entry size */
uasm_i_lui(p, tmp, PM_HUGE_MASK >> 16);
uasm_i_ori(p, tmp, tmp, PM_HUGE_MASK & 0xffff);
uasm_i_mtc0(p, tmp, C0_PAGEMASK);
build_tlb_write_entry(p, l, r, wmode);
build_restore_pagemask(p, r, tmp, label_leave, restore_scratch);
}
/*
* Check if Huge PTE is present, if so then jump to LABEL.
*/
static void __cpuinit
build_is_huge_pte(u32 **p, struct uasm_reloc **r, unsigned int tmp,
unsigned int pmd, int lid)
{
UASM_i_LW(p, tmp, 0, pmd);
if (use_bbit_insns()) {
uasm_il_bbit1(p, r, tmp, ilog2(_PAGE_HUGE), lid);
} else {
uasm_i_andi(p, tmp, tmp, _PAGE_HUGE);
uasm_il_bnez(p, r, tmp, lid);
}
}
static __cpuinit void build_huge_update_entries(u32 **p,
unsigned int pte,
unsigned int tmp)
{
int small_sequence;
/*
* A huge PTE describes an area the size of the
* configured huge page size. This is twice the
* of the large TLB entry size we intend to use.
* A TLB entry half the size of the configured
* huge page size is configured into entrylo0
* and entrylo1 to cover the contiguous huge PTE
* address space.
*/
small_sequence = (HPAGE_SIZE >> 7) < 0x10000;
/* We can clobber tmp. It isn't used after this.*/
if (!small_sequence)
uasm_i_lui(p, tmp, HPAGE_SIZE >> (7 + 16));
build_convert_pte_to_entrylo(p, pte);
UASM_i_MTC0(p, pte, C0_ENTRYLO0); /* load it */
/* convert to entrylo1 */
if (small_sequence)
UASM_i_ADDIU(p, pte, pte, HPAGE_SIZE >> 7);
else
UASM_i_ADDU(p, pte, pte, tmp);
UASM_i_MTC0(p, pte, C0_ENTRYLO1); /* load it */
}
static __cpuinit void build_huge_handler_tail(u32 **p,
struct uasm_reloc **r,
struct uasm_label **l,
unsigned int pte,
unsigned int ptr)
{
#ifdef CONFIG_SMP
UASM_i_SC(p, pte, 0, ptr);
uasm_il_beqz(p, r, pte, label_tlb_huge_update);
UASM_i_LW(p, pte, 0, ptr); /* Needed because SC killed our PTE */
#else
UASM_i_SW(p, pte, 0, ptr);
#endif
build_huge_update_entries(p, pte, ptr);
build_huge_tlb_write_entry(p, l, r, pte, tlb_indexed, 0);
}
#endif /* CONFIG_MIPS_HUGE_TLB_SUPPORT */
#ifdef CONFIG_64BIT
/*
* TMP and PTR are scratch.
* TMP will be clobbered, PTR will hold the pmd entry.
*/
static void __cpuinit
build_get_pmde64(u32 **p, struct uasm_label **l, struct uasm_reloc **r,
unsigned int tmp, unsigned int ptr)
{
#ifndef CONFIG_MIPS_PGD_C0_CONTEXT
long pgdc = (long)pgd_current;
#endif
/*
* The vmalloc handling is not in the hotpath.
*/
uasm_i_dmfc0(p, tmp, C0_BADVADDR);
if (check_for_high_segbits) {
/*
* The kernel currently implicitely assumes that the
* MIPS SEGBITS parameter for the processor is
* (PGDIR_SHIFT+PGDIR_BITS) or less, and will never
* allocate virtual addresses outside the maximum
* range for SEGBITS = (PGDIR_SHIFT+PGDIR_BITS). But
* that doesn't prevent user code from accessing the
* higher xuseg addresses. Here, we make sure that
* everything but the lower xuseg addresses goes down
* the module_alloc/vmalloc path.
*/
uasm_i_dsrl_safe(p, ptr, tmp, PGDIR_SHIFT + PGD_ORDER + PAGE_SHIFT - 3);
uasm_il_bnez(p, r, ptr, label_vmalloc);
} else {
uasm_il_bltz(p, r, tmp, label_vmalloc);
}
/* No uasm_i_nop needed here, since the next insn doesn't touch TMP. */
#ifdef CONFIG_MIPS_PGD_C0_CONTEXT
if (pgd_reg != -1) {
/* pgd is in pgd_reg */
UASM_i_MFC0(p, ptr, 31, pgd_reg);
} else {
/*
* &pgd << 11 stored in CONTEXT [23..63].
*/
UASM_i_MFC0(p, ptr, C0_CONTEXT);
/* Clear lower 23 bits of context. */
uasm_i_dins(p, ptr, 0, 0, 23);
/* 1 0 1 0 1 << 6 xkphys cached */
uasm_i_ori(p, ptr, ptr, 0x540);
uasm_i_drotr(p, ptr, ptr, 11);
}
#elif defined(CONFIG_SMP)
# ifdef CONFIG_MIPS_MT_SMTC
/*
* SMTC uses TCBind value as "CPU" index
*/
uasm_i_mfc0(p, ptr, C0_TCBIND);
uasm_i_dsrl_safe(p, ptr, ptr, 19);
# else
/*
* 64 bit SMP running in XKPHYS has smp_processor_id() << 3
* stored in CONTEXT.
*/
uasm_i_dmfc0(p, ptr, C0_CONTEXT);
uasm_i_dsrl_safe(p, ptr, ptr, 23);
# endif
UASM_i_LA_mostly(p, tmp, pgdc);
uasm_i_daddu(p, ptr, ptr, tmp);
uasm_i_dmfc0(p, tmp, C0_BADVADDR);
uasm_i_ld(p, ptr, uasm_rel_lo(pgdc), ptr);
#else
UASM_i_LA_mostly(p, ptr, pgdc);
uasm_i_ld(p, ptr, uasm_rel_lo(pgdc), ptr);
#endif
uasm_l_vmalloc_done(l, *p);
/* get pgd offset in bytes */
uasm_i_dsrl_safe(p, tmp, tmp, PGDIR_SHIFT - 3);
uasm_i_andi(p, tmp, tmp, (PTRS_PER_PGD - 1)<<3);
uasm_i_daddu(p, ptr, ptr, tmp); /* add in pgd offset */
#ifndef __PAGETABLE_PMD_FOLDED
uasm_i_dmfc0(p, tmp, C0_BADVADDR); /* get faulting address */
uasm_i_ld(p, ptr, 0, ptr); /* get pmd pointer */
uasm_i_dsrl_safe(p, tmp, tmp, PMD_SHIFT-3); /* get pmd offset in bytes */
uasm_i_andi(p, tmp, tmp, (PTRS_PER_PMD - 1)<<3);
uasm_i_daddu(p, ptr, ptr, tmp); /* add in pmd offset */
#endif
}
/*
* BVADDR is the faulting address, PTR is scratch.
* PTR will hold the pgd for vmalloc.
*/
static void __cpuinit
build_get_pgd_vmalloc64(u32 **p, struct uasm_label **l, struct uasm_reloc **r,
unsigned int bvaddr, unsigned int ptr,
enum vmalloc64_mode mode)
{
long swpd = (long)swapper_pg_dir;
int single_insn_swpd;
int did_vmalloc_branch = 0;
single_insn_swpd = uasm_in_compat_space_p(swpd) && !uasm_rel_lo(swpd);
uasm_l_vmalloc(l, *p);
if (mode != not_refill && check_for_high_segbits) {
if (single_insn_swpd) {
uasm_il_bltz(p, r, bvaddr, label_vmalloc_done);
uasm_i_lui(p, ptr, uasm_rel_hi(swpd));
did_vmalloc_branch = 1;
/* fall through */
} else {
uasm_il_bgez(p, r, bvaddr, label_large_segbits_fault);
}
}
if (!did_vmalloc_branch) {
if (uasm_in_compat_space_p(swpd) && !uasm_rel_lo(swpd)) {
uasm_il_b(p, r, label_vmalloc_done);
uasm_i_lui(p, ptr, uasm_rel_hi(swpd));
} else {
UASM_i_LA_mostly(p, ptr, swpd);
uasm_il_b(p, r, label_vmalloc_done);
if (uasm_in_compat_space_p(swpd))
uasm_i_addiu(p, ptr, ptr, uasm_rel_lo(swpd));
else
uasm_i_daddiu(p, ptr, ptr, uasm_rel_lo(swpd));
}
}
if (mode != not_refill && check_for_high_segbits) {
uasm_l_large_segbits_fault(l, *p);
/*
* We get here if we are an xsseg address, or if we are
* an xuseg address above (PGDIR_SHIFT+PGDIR_BITS) boundary.
*
* Ignoring xsseg (assume disabled so would generate
* (address errors?), the only remaining possibility
* is the upper xuseg addresses. On processors with
* TLB_SEGBITS <= PGDIR_SHIFT+PGDIR_BITS, these
* addresses would have taken an address error. We try
* to mimic that here by taking a load/istream page
* fault.
*/
UASM_i_LA(p, ptr, (unsigned long)tlb_do_page_fault_0);
uasm_i_jr(p, ptr);
if (mode == refill_scratch) {
if (scratch_reg > 0)
UASM_i_MFC0(p, 1, 31, scratch_reg);
else
UASM_i_LW(p, 1, scratchpad_offset(0), 0);
} else {
uasm_i_nop(p);
}
}
}
#else /* !CONFIG_64BIT */
/*
* TMP and PTR are scratch.
* TMP will be clobbered, PTR will hold the pgd entry.
*/
static void __cpuinit __maybe_unused
build_get_pgde32(u32 **p, unsigned int tmp, unsigned int ptr)
{
long pgdc = (long)pgd_current;
/* 32 bit SMP has smp_processor_id() stored in CONTEXT. */
#ifdef CONFIG_SMP
#ifdef CONFIG_MIPS_MT_SMTC
/*
* SMTC uses TCBind value as "CPU" index
*/
uasm_i_mfc0(p, ptr, C0_TCBIND);
UASM_i_LA_mostly(p, tmp, pgdc);
uasm_i_srl(p, ptr, ptr, 19);
#else
/*
* smp_processor_id() << 3 is stored in CONTEXT.
*/
uasm_i_mfc0(p, ptr, C0_CONTEXT);
UASM_i_LA_mostly(p, tmp, pgdc);
uasm_i_srl(p, ptr, ptr, 23);
#endif
uasm_i_addu(p, ptr, tmp, ptr);
#else
UASM_i_LA_mostly(p, ptr, pgdc);
#endif
uasm_i_mfc0(p, tmp, C0_BADVADDR); /* get faulting address */
uasm_i_lw(p, ptr, uasm_rel_lo(pgdc), ptr);
if (cpu_has_mips_r2) {
uasm_i_ext(p, tmp, tmp, PGDIR_SHIFT, (32 - PGDIR_SHIFT));
uasm_i_ins(p, ptr, tmp, PGD_T_LOG2, (32 - PGDIR_SHIFT));
return;
}
uasm_i_srl(p, tmp, tmp, PGDIR_SHIFT); /* get pgd only bits */
uasm_i_sll(p, tmp, tmp, PGD_T_LOG2);
uasm_i_addu(p, ptr, ptr, tmp); /* add in pgd offset */
}
#endif /* !CONFIG_64BIT */
static void __cpuinit build_adjust_context(u32 **p, unsigned int ctx)
{
unsigned int shift = 4 - (PTE_T_LOG2 + 1) + PAGE_SHIFT - 12;
unsigned int mask = (PTRS_PER_PTE / 2 - 1) << (PTE_T_LOG2 + 1);
switch (current_cpu_type()) {
case CPU_VR41XX:
case CPU_VR4111:
case CPU_VR4121:
case CPU_VR4122:
case CPU_VR4131:
case CPU_VR4181:
case CPU_VR4181A:
case CPU_VR4133:
shift += 2;
break;
default:
break;
}
if (shift)
UASM_i_SRL(p, ctx, ctx, shift);
uasm_i_andi(p, ctx, ctx, mask);
}
static void __cpuinit build_get_ptep(u32 **p, unsigned int tmp, unsigned int ptr)
{
if (cpu_has_mips_r2) {
/* PTE ptr offset is obtained from BadVAddr */
UASM_i_MFC0(p, tmp, C0_BADVADDR);
UASM_i_LW(p, ptr, 0, ptr);
uasm_i_ext(p, tmp, tmp, PAGE_SHIFT+1, PGDIR_SHIFT-PAGE_SHIFT-1);
uasm_i_ins(p, ptr, tmp, PTE_T_LOG2+1, PGDIR_SHIFT-PAGE_SHIFT-1);
return;
}
/*
* Bug workaround for the Nevada. It seems as if under certain
* circumstances the move from cp0_context might produce a
* bogus result when the mfc0 instruction and its consumer are
* in a different cacheline or a load instruction, probably any
* memory reference, is between them.
*/
switch (current_cpu_type()) {
case CPU_NEVADA:
UASM_i_LW(p, ptr, 0, ptr);
GET_CONTEXT(p, tmp); /* get context reg */
break;
default:
GET_CONTEXT(p, tmp); /* get context reg */
UASM_i_LW(p, ptr, 0, ptr);
break;
}
build_adjust_context(p, tmp);
UASM_i_ADDU(p, ptr, ptr, tmp); /* add in offset */
}
static void __cpuinit build_update_entries(u32 **p, unsigned int tmp,
unsigned int ptep)
{
/*
* 64bit address support (36bit on a 32bit CPU) in a 32bit
* Kernel is a special case. Only a few CPUs use it.
*/
#ifdef CONFIG_64BIT_PHYS_ADDR
if (cpu_has_64bits) {
uasm_i_ld(p, tmp, 0, ptep); /* get even pte */
uasm_i_ld(p, ptep, sizeof(pte_t), ptep); /* get odd pte */
if (cpu_has_rixi) {
UASM_i_ROTR(p, tmp, tmp, ilog2(_PAGE_GLOBAL));
UASM_i_MTC0(p, tmp, C0_ENTRYLO0); /* load it */
UASM_i_ROTR(p, ptep, ptep, ilog2(_PAGE_GLOBAL));
} else {
uasm_i_dsrl_safe(p, tmp, tmp, ilog2(_PAGE_GLOBAL)); /* convert to entrylo0 */
UASM_i_MTC0(p, tmp, C0_ENTRYLO0); /* load it */
uasm_i_dsrl_safe(p, ptep, ptep, ilog2(_PAGE_GLOBAL)); /* convert to entrylo1 */
}
UASM_i_MTC0(p, ptep, C0_ENTRYLO1); /* load it */
} else {
int pte_off_even = sizeof(pte_t) / 2;
int pte_off_odd = pte_off_even + sizeof(pte_t);
/* The pte entries are pre-shifted */
uasm_i_lw(p, tmp, pte_off_even, ptep); /* get even pte */
UASM_i_MTC0(p, tmp, C0_ENTRYLO0); /* load it */
uasm_i_lw(p, ptep, pte_off_odd, ptep); /* get odd pte */
UASM_i_MTC0(p, ptep, C0_ENTRYLO1); /* load it */
}
#else
UASM_i_LW(p, tmp, 0, ptep); /* get even pte */
UASM_i_LW(p, ptep, sizeof(pte_t), ptep); /* get odd pte */
if (r45k_bvahwbug())
build_tlb_probe_entry(p);
if (cpu_has_rixi) {
UASM_i_ROTR(p, tmp, tmp, ilog2(_PAGE_GLOBAL));
if (r4k_250MHZhwbug())
UASM_i_MTC0(p, 0, C0_ENTRYLO0);
UASM_i_MTC0(p, tmp, C0_ENTRYLO0); /* load it */
UASM_i_ROTR(p, ptep, ptep, ilog2(_PAGE_GLOBAL));
} else {
UASM_i_SRL(p, tmp, tmp, ilog2(_PAGE_GLOBAL)); /* convert to entrylo0 */
if (r4k_250MHZhwbug())
UASM_i_MTC0(p, 0, C0_ENTRYLO0);
UASM_i_MTC0(p, tmp, C0_ENTRYLO0); /* load it */
UASM_i_SRL(p, ptep, ptep, ilog2(_PAGE_GLOBAL)); /* convert to entrylo1 */
if (r45k_bvahwbug())
uasm_i_mfc0(p, tmp, C0_INDEX);
}
if (r4k_250MHZhwbug())
UASM_i_MTC0(p, 0, C0_ENTRYLO1);
UASM_i_MTC0(p, ptep, C0_ENTRYLO1); /* load it */
#endif
}
struct mips_huge_tlb_info {
int huge_pte;
int restore_scratch;
};
static struct mips_huge_tlb_info __cpuinit
build_fast_tlb_refill_handler (u32 **p, struct uasm_label **l,
struct uasm_reloc **r, unsigned int tmp,
unsigned int ptr, int c0_scratch)
{
struct mips_huge_tlb_info rv;
unsigned int even, odd;
int vmalloc_branch_delay_filled = 0;
const int scratch = 1; /* Our extra working register */
rv.huge_pte = scratch;
rv.restore_scratch = 0;
if (check_for_high_segbits) {
UASM_i_MFC0(p, tmp, C0_BADVADDR);
if (pgd_reg != -1)
UASM_i_MFC0(p, ptr, 31, pgd_reg);
else
UASM_i_MFC0(p, ptr, C0_CONTEXT);
if (c0_scratch >= 0)
UASM_i_MTC0(p, scratch, 31, c0_scratch);
else
UASM_i_SW(p, scratch, scratchpad_offset(0), 0);
uasm_i_dsrl_safe(p, scratch, tmp,
PGDIR_SHIFT + PGD_ORDER + PAGE_SHIFT - 3);
uasm_il_bnez(p, r, scratch, label_vmalloc);
if (pgd_reg == -1) {
vmalloc_branch_delay_filled = 1;
/* Clear lower 23 bits of context. */
uasm_i_dins(p, ptr, 0, 0, 23);
}
} else {
if (pgd_reg != -1)
UASM_i_MFC0(p, ptr, 31, pgd_reg);
else
UASM_i_MFC0(p, ptr, C0_CONTEXT);
UASM_i_MFC0(p, tmp, C0_BADVADDR);
if (c0_scratch >= 0)
UASM_i_MTC0(p, scratch, 31, c0_scratch);
else
UASM_i_SW(p, scratch, scratchpad_offset(0), 0);
if (pgd_reg == -1)
/* Clear lower 23 bits of context. */
uasm_i_dins(p, ptr, 0, 0, 23);
uasm_il_bltz(p, r, tmp, label_vmalloc);
}
if (pgd_reg == -1) {
vmalloc_branch_delay_filled = 1;
/* 1 0 1 0 1 << 6 xkphys cached */
uasm_i_ori(p, ptr, ptr, 0x540);
uasm_i_drotr(p, ptr, ptr, 11);
}
#ifdef __PAGETABLE_PMD_FOLDED
#define LOC_PTEP scratch
#else
#define LOC_PTEP ptr
#endif
if (!vmalloc_branch_delay_filled)
/* get pgd offset in bytes */
uasm_i_dsrl_safe(p, scratch, tmp, PGDIR_SHIFT - 3);
uasm_l_vmalloc_done(l, *p);
/*
* tmp ptr
* fall-through case = badvaddr *pgd_current
* vmalloc case = badvaddr swapper_pg_dir
*/
if (vmalloc_branch_delay_filled)
/* get pgd offset in bytes */
uasm_i_dsrl_safe(p, scratch, tmp, PGDIR_SHIFT - 3);
#ifdef __PAGETABLE_PMD_FOLDED
GET_CONTEXT(p, tmp); /* get context reg */
#endif
uasm_i_andi(p, scratch, scratch, (PTRS_PER_PGD - 1) << 3);
if (use_lwx_insns()) {
UASM_i_LWX(p, LOC_PTEP, scratch, ptr);
} else {
uasm_i_daddu(p, ptr, ptr, scratch); /* add in pgd offset */
uasm_i_ld(p, LOC_PTEP, 0, ptr); /* get pmd pointer */
}
#ifndef __PAGETABLE_PMD_FOLDED
/* get pmd offset in bytes */
uasm_i_dsrl_safe(p, scratch, tmp, PMD_SHIFT - 3);
uasm_i_andi(p, scratch, scratch, (PTRS_PER_PMD - 1) << 3);
GET_CONTEXT(p, tmp); /* get context reg */
if (use_lwx_insns()) {
UASM_i_LWX(p, scratch, scratch, ptr);
} else {
uasm_i_daddu(p, ptr, ptr, scratch); /* add in pmd offset */
UASM_i_LW(p, scratch, 0, ptr);
}
#endif
/* Adjust the context during the load latency. */
build_adjust_context(p, tmp);
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
uasm_il_bbit1(p, r, scratch, ilog2(_PAGE_HUGE), label_tlb_huge_update);
/*
* The in the LWX case we don't want to do the load in the
* delay slot. It cannot issue in the same cycle and may be
* speculative and unneeded.
*/
if (use_lwx_insns())
uasm_i_nop(p);
#endif /* CONFIG_MIPS_HUGE_TLB_SUPPORT */
/* build_update_entries */
if (use_lwx_insns()) {
even = ptr;
odd = tmp;
UASM_i_LWX(p, even, scratch, tmp);
UASM_i_ADDIU(p, tmp, tmp, sizeof(pte_t));
UASM_i_LWX(p, odd, scratch, tmp);
} else {
UASM_i_ADDU(p, ptr, scratch, tmp); /* add in offset */
even = tmp;
odd = ptr;
UASM_i_LW(p, even, 0, ptr); /* get even pte */
UASM_i_LW(p, odd, sizeof(pte_t), ptr); /* get odd pte */
}
if (cpu_has_rixi) {
uasm_i_drotr(p, even, even, ilog2(_PAGE_GLOBAL));
UASM_i_MTC0(p, even, C0_ENTRYLO0); /* load it */
uasm_i_drotr(p, odd, odd, ilog2(_PAGE_GLOBAL));
} else {
uasm_i_dsrl_safe(p, even, even, ilog2(_PAGE_GLOBAL));
UASM_i_MTC0(p, even, C0_ENTRYLO0); /* load it */
uasm_i_dsrl_safe(p, odd, odd, ilog2(_PAGE_GLOBAL));
}
UASM_i_MTC0(p, odd, C0_ENTRYLO1); /* load it */
if (c0_scratch >= 0) {
UASM_i_MFC0(p, scratch, 31, c0_scratch);
build_tlb_write_entry(p, l, r, tlb_random);
uasm_l_leave(l, *p);
rv.restore_scratch = 1;
} else if (PAGE_SHIFT == 14 || PAGE_SHIFT == 13) {
build_tlb_write_entry(p, l, r, tlb_random);
uasm_l_leave(l, *p);
UASM_i_LW(p, scratch, scratchpad_offset(0), 0);
} else {
UASM_i_LW(p, scratch, scratchpad_offset(0), 0);
build_tlb_write_entry(p, l, r, tlb_random);
uasm_l_leave(l, *p);
rv.restore_scratch = 1;
}
uasm_i_eret(p); /* return from trap */
return rv;
}
/*
* For a 64-bit kernel, we are using the 64-bit XTLB refill exception
* because EXL == 0. If we wrap, we can also use the 32 instruction
* slots before the XTLB refill exception handler which belong to the
* unused TLB refill exception.
*/
#define MIPS64_REFILL_INSNS 32
static void __cpuinit build_r4000_tlb_refill_handler(void)
{
u32 *p = tlb_handler;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
u32 *f;
unsigned int final_len;
struct mips_huge_tlb_info htlb_info __maybe_unused;
enum vmalloc64_mode vmalloc_mode __maybe_unused;
memset(tlb_handler, 0, sizeof(tlb_handler));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
memset(final_handler, 0, sizeof(final_handler));
if ((scratch_reg > 0 || scratchpad_available()) && use_bbit_insns()) {
htlb_info = build_fast_tlb_refill_handler(&p, &l, &r, K0, K1,
scratch_reg);
vmalloc_mode = refill_scratch;
} else {
htlb_info.huge_pte = K0;
htlb_info.restore_scratch = 0;
vmalloc_mode = refill_noscratch;
/*
* create the plain linear handler
*/
if (bcm1250_m3_war()) {
unsigned int segbits = 44;
uasm_i_dmfc0(&p, K0, C0_BADVADDR);
uasm_i_dmfc0(&p, K1, C0_ENTRYHI);
uasm_i_xor(&p, K0, K0, K1);
uasm_i_dsrl_safe(&p, K1, K0, 62);
uasm_i_dsrl_safe(&p, K0, K0, 12 + 1);
uasm_i_dsll_safe(&p, K0, K0, 64 + 12 + 1 - segbits);
uasm_i_or(&p, K0, K0, K1);
uasm_il_bnez(&p, &r, K0, label_leave);
/* No need for uasm_i_nop */
}
#ifdef CONFIG_64BIT
build_get_pmde64(&p, &l, &r, K0, K1); /* get pmd in K1 */
#else
build_get_pgde32(&p, K0, K1); /* get pgd in K1 */
#endif
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
build_is_huge_pte(&p, &r, K0, K1, label_tlb_huge_update);
#endif
build_get_ptep(&p, K0, K1);
build_update_entries(&p, K0, K1);
build_tlb_write_entry(&p, &l, &r, tlb_random);
uasm_l_leave(&l, p);
uasm_i_eret(&p); /* return from trap */
}
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
uasm_l_tlb_huge_update(&l, p);
build_huge_update_entries(&p, htlb_info.huge_pte, K1);
build_huge_tlb_write_entry(&p, &l, &r, K0, tlb_random,
htlb_info.restore_scratch);
#endif
#ifdef CONFIG_64BIT
build_get_pgd_vmalloc64(&p, &l, &r, K0, K1, vmalloc_mode);
#endif
/*
* Overflow check: For the 64bit handler, we need at least one
* free instruction slot for the wrap-around branch. In worst
* case, if the intended insertion point is a delay slot, we
* need three, with the second nop'ed and the third being
* unused.
*/
/* Loongson2 ebase is different than r4k, we have more space */
#if defined(CONFIG_32BIT) || defined(CONFIG_CPU_LOONGSON2)
if ((p - tlb_handler) > 64)
panic("TLB refill handler space exceeded");
#else
if (((p - tlb_handler) > (MIPS64_REFILL_INSNS * 2) - 1)
|| (((p - tlb_handler) > (MIPS64_REFILL_INSNS * 2) - 3)
&& uasm_insn_has_bdelay(relocs,
tlb_handler + MIPS64_REFILL_INSNS - 3)))
panic("TLB refill handler space exceeded");
#endif
/*
* Now fold the handler in the TLB refill handler space.
*/
#if defined(CONFIG_32BIT) || defined(CONFIG_CPU_LOONGSON2)
f = final_handler;
/* Simplest case, just copy the handler. */
uasm_copy_handler(relocs, labels, tlb_handler, p, f);
final_len = p - tlb_handler;
#else /* CONFIG_64BIT */
f = final_handler + MIPS64_REFILL_INSNS;
if ((p - tlb_handler) <= MIPS64_REFILL_INSNS) {
/* Just copy the handler. */
uasm_copy_handler(relocs, labels, tlb_handler, p, f);
final_len = p - tlb_handler;
} else {
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
const enum label_id ls = label_tlb_huge_update;
#else
const enum label_id ls = label_vmalloc;
#endif
u32 *split;
int ov = 0;
int i;
for (i = 0; i < ARRAY_SIZE(labels) && labels[i].lab != ls; i++)
;
BUG_ON(i == ARRAY_SIZE(labels));
split = labels[i].addr;
/*
* See if we have overflown one way or the other.
*/
if (split > tlb_handler + MIPS64_REFILL_INSNS ||
split < p - MIPS64_REFILL_INSNS)
ov = 1;
if (ov) {
/*
* Split two instructions before the end. One
* for the branch and one for the instruction
* in the delay slot.
*/
split = tlb_handler + MIPS64_REFILL_INSNS - 2;
/*
* If the branch would fall in a delay slot,
* we must back up an additional instruction
* so that it is no longer in a delay slot.
*/
if (uasm_insn_has_bdelay(relocs, split - 1))
split--;
}
/* Copy first part of the handler. */
uasm_copy_handler(relocs, labels, tlb_handler, split, f);
f += split - tlb_handler;
if (ov) {
/* Insert branch. */
uasm_l_split(&l, final_handler);
uasm_il_b(&f, &r, label_split);
if (uasm_insn_has_bdelay(relocs, split))
uasm_i_nop(&f);
else {
uasm_copy_handler(relocs, labels,
split, split + 1, f);
uasm_move_labels(labels, f, f + 1, -1);
f++;
split++;
}
}
/* Copy the rest of the handler. */
uasm_copy_handler(relocs, labels, split, p, final_handler);
final_len = (f - (final_handler + MIPS64_REFILL_INSNS)) +
(p - split);
}
#endif /* CONFIG_64BIT */
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB refill handler (%u instructions).\n",
final_len);
memcpy((void *)ebase, final_handler, 0x100);
dump_handler("r4000_tlb_refill", (u32 *)ebase, 64);
}
/*
* 128 instructions for the fastpath handler is generous and should
* never be exceeded.
*/
#define FASTPATH_SIZE 128
u32 handle_tlbl[FASTPATH_SIZE] __cacheline_aligned;
u32 handle_tlbs[FASTPATH_SIZE] __cacheline_aligned;
u32 handle_tlbm[FASTPATH_SIZE] __cacheline_aligned;
#ifdef CONFIG_MIPS_PGD_C0_CONTEXT
u32 tlbmiss_handler_setup_pgd[16] __cacheline_aligned;
static void __cpuinit build_r4000_setup_pgd(void)
{
const int a0 = 4;
const int a1 = 5;
u32 *p = tlbmiss_handler_setup_pgd;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
memset(tlbmiss_handler_setup_pgd, 0, sizeof(tlbmiss_handler_setup_pgd));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
pgd_reg = allocate_kscratch();
if (pgd_reg == -1) {
/* PGD << 11 in c0_Context */
/*
* If it is a ckseg0 address, convert to a physical
* address. Shifting right by 29 and adding 4 will
* result in zero for these addresses.
*
*/
UASM_i_SRA(&p, a1, a0, 29);
UASM_i_ADDIU(&p, a1, a1, 4);
uasm_il_bnez(&p, &r, a1, label_tlbl_goaround1);
uasm_i_nop(&p);
uasm_i_dinsm(&p, a0, 0, 29, 64 - 29);
uasm_l_tlbl_goaround1(&l, p);
UASM_i_SLL(&p, a0, a0, 11);
uasm_i_jr(&p, 31);
UASM_i_MTC0(&p, a0, C0_CONTEXT);
} else {
/* PGD in c0_KScratch */
uasm_i_jr(&p, 31);
UASM_i_MTC0(&p, a0, 31, pgd_reg);
}
if (p - tlbmiss_handler_setup_pgd > ARRAY_SIZE(tlbmiss_handler_setup_pgd))
panic("tlbmiss_handler_setup_pgd space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote tlbmiss_handler_setup_pgd (%u instructions).\n",
(unsigned int)(p - tlbmiss_handler_setup_pgd));
dump_handler("tlbmiss_handler",
tlbmiss_handler_setup_pgd,
ARRAY_SIZE(tlbmiss_handler_setup_pgd));
}
#endif
static void __cpuinit
iPTE_LW(u32 **p, unsigned int pte, unsigned int ptr)
{
#ifdef CONFIG_SMP
# ifdef CONFIG_64BIT_PHYS_ADDR
if (cpu_has_64bits)
uasm_i_lld(p, pte, 0, ptr);
else
# endif
UASM_i_LL(p, pte, 0, ptr);
#else
# ifdef CONFIG_64BIT_PHYS_ADDR
if (cpu_has_64bits)
uasm_i_ld(p, pte, 0, ptr);
else
# endif
UASM_i_LW(p, pte, 0, ptr);
#endif
}
static void __cpuinit
iPTE_SW(u32 **p, struct uasm_reloc **r, unsigned int pte, unsigned int ptr,
unsigned int mode)
{
#ifdef CONFIG_64BIT_PHYS_ADDR
unsigned int hwmode = mode & (_PAGE_VALID | _PAGE_DIRTY);
#endif
uasm_i_ori(p, pte, pte, mode);
#ifdef CONFIG_SMP
# ifdef CONFIG_64BIT_PHYS_ADDR
if (cpu_has_64bits)
uasm_i_scd(p, pte, 0, ptr);
else
# endif
UASM_i_SC(p, pte, 0, ptr);
if (r10000_llsc_war())
uasm_il_beqzl(p, r, pte, label_smp_pgtable_change);
else
uasm_il_beqz(p, r, pte, label_smp_pgtable_change);
# ifdef CONFIG_64BIT_PHYS_ADDR
if (!cpu_has_64bits) {
/* no uasm_i_nop needed */
uasm_i_ll(p, pte, sizeof(pte_t) / 2, ptr);
uasm_i_ori(p, pte, pte, hwmode);
uasm_i_sc(p, pte, sizeof(pte_t) / 2, ptr);
uasm_il_beqz(p, r, pte, label_smp_pgtable_change);
/* no uasm_i_nop needed */
uasm_i_lw(p, pte, 0, ptr);
} else
uasm_i_nop(p);
# else
uasm_i_nop(p);
# endif
#else
# ifdef CONFIG_64BIT_PHYS_ADDR
if (cpu_has_64bits)
uasm_i_sd(p, pte, 0, ptr);
else
# endif
UASM_i_SW(p, pte, 0, ptr);
# ifdef CONFIG_64BIT_PHYS_ADDR
if (!cpu_has_64bits) {
uasm_i_lw(p, pte, sizeof(pte_t) / 2, ptr);
uasm_i_ori(p, pte, pte, hwmode);
uasm_i_sw(p, pte, sizeof(pte_t) / 2, ptr);
uasm_i_lw(p, pte, 0, ptr);
}
# endif
#endif
}
/*
* Check if PTE is present, if not then jump to LABEL. PTR points to
* the page table where this PTE is located, PTE will be re-loaded
* with it's original value.
*/
static void __cpuinit
build_pte_present(u32 **p, struct uasm_reloc **r,
int pte, int ptr, int scratch, enum label_id lid)
{
int t = scratch >= 0 ? scratch : pte;
if (cpu_has_rixi) {
if (use_bbit_insns()) {
uasm_il_bbit0(p, r, pte, ilog2(_PAGE_PRESENT), lid);
uasm_i_nop(p);
} else {
uasm_i_andi(p, t, pte, _PAGE_PRESENT);
uasm_il_beqz(p, r, t, lid);
if (pte == t)
/* You lose the SMP race :-(*/
iPTE_LW(p, pte, ptr);
}
} else {
uasm_i_andi(p, t, pte, _PAGE_PRESENT | _PAGE_READ);
uasm_i_xori(p, t, t, _PAGE_PRESENT | _PAGE_READ);
uasm_il_bnez(p, r, t, lid);
if (pte == t)
/* You lose the SMP race :-(*/
iPTE_LW(p, pte, ptr);
}
}
/* Make PTE valid, store result in PTR. */
static void __cpuinit
build_make_valid(u32 **p, struct uasm_reloc **r, unsigned int pte,
unsigned int ptr)
{
unsigned int mode = _PAGE_VALID | _PAGE_ACCESSED;
iPTE_SW(p, r, pte, ptr, mode);
}
/*
* Check if PTE can be written to, if not branch to LABEL. Regardless
* restore PTE with value from PTR when done.
*/
static void __cpuinit
build_pte_writable(u32 **p, struct uasm_reloc **r,
unsigned int pte, unsigned int ptr, int scratch,
enum label_id lid)
{
int t = scratch >= 0 ? scratch : pte;
uasm_i_andi(p, t, pte, _PAGE_PRESENT | _PAGE_WRITE);
uasm_i_xori(p, t, t, _PAGE_PRESENT | _PAGE_WRITE);
uasm_il_bnez(p, r, t, lid);
if (pte == t)
/* You lose the SMP race :-(*/
iPTE_LW(p, pte, ptr);
else
uasm_i_nop(p);
}
/* Make PTE writable, update software status bits as well, then store
* at PTR.
*/
static void __cpuinit
build_make_write(u32 **p, struct uasm_reloc **r, unsigned int pte,
unsigned int ptr)
{
unsigned int mode = (_PAGE_ACCESSED | _PAGE_MODIFIED | _PAGE_VALID
| _PAGE_DIRTY);
iPTE_SW(p, r, pte, ptr, mode);
}
/*
* Check if PTE can be modified, if not branch to LABEL. Regardless
* restore PTE with value from PTR when done.
*/
static void __cpuinit
build_pte_modifiable(u32 **p, struct uasm_reloc **r,
unsigned int pte, unsigned int ptr, int scratch,
enum label_id lid)
{
if (use_bbit_insns()) {
uasm_il_bbit0(p, r, pte, ilog2(_PAGE_WRITE), lid);
uasm_i_nop(p);
} else {
int t = scratch >= 0 ? scratch : pte;
uasm_i_andi(p, t, pte, _PAGE_WRITE);
uasm_il_beqz(p, r, t, lid);
if (pte == t)
/* You lose the SMP race :-(*/
iPTE_LW(p, pte, ptr);
}
}
#ifndef CONFIG_MIPS_PGD_C0_CONTEXT
/*
* R3000 style TLB load/store/modify handlers.
*/
/*
* This places the pte into ENTRYLO0 and writes it with tlbwi.
* Then it returns.
*/
static void __cpuinit
build_r3000_pte_reload_tlbwi(u32 **p, unsigned int pte, unsigned int tmp)
{
uasm_i_mtc0(p, pte, C0_ENTRYLO0); /* cp0 delay */
uasm_i_mfc0(p, tmp, C0_EPC); /* cp0 delay */
uasm_i_tlbwi(p);
uasm_i_jr(p, tmp);
uasm_i_rfe(p); /* branch delay */
}
/*
* This places the pte into ENTRYLO0 and writes it with tlbwi
* or tlbwr as appropriate. This is because the index register
* may have the probe fail bit set as a result of a trap on a
* kseg2 access, i.e. without refill. Then it returns.
*/
static void __cpuinit
build_r3000_tlb_reload_write(u32 **p, struct uasm_label **l,
struct uasm_reloc **r, unsigned int pte,
unsigned int tmp)
{
uasm_i_mfc0(p, tmp, C0_INDEX);
uasm_i_mtc0(p, pte, C0_ENTRYLO0); /* cp0 delay */
uasm_il_bltz(p, r, tmp, label_r3000_write_probe_fail); /* cp0 delay */
uasm_i_mfc0(p, tmp, C0_EPC); /* branch delay */
uasm_i_tlbwi(p); /* cp0 delay */
uasm_i_jr(p, tmp);
uasm_i_rfe(p); /* branch delay */
uasm_l_r3000_write_probe_fail(l, *p);
uasm_i_tlbwr(p); /* cp0 delay */
uasm_i_jr(p, tmp);
uasm_i_rfe(p); /* branch delay */
}
static void __cpuinit
build_r3000_tlbchange_handler_head(u32 **p, unsigned int pte,
unsigned int ptr)
{
long pgdc = (long)pgd_current;
uasm_i_mfc0(p, pte, C0_BADVADDR);
uasm_i_lui(p, ptr, uasm_rel_hi(pgdc)); /* cp0 delay */
uasm_i_lw(p, ptr, uasm_rel_lo(pgdc), ptr);
uasm_i_srl(p, pte, pte, 22); /* load delay */
uasm_i_sll(p, pte, pte, 2);
uasm_i_addu(p, ptr, ptr, pte);
uasm_i_mfc0(p, pte, C0_CONTEXT);
uasm_i_lw(p, ptr, 0, ptr); /* cp0 delay */
uasm_i_andi(p, pte, pte, 0xffc); /* load delay */
uasm_i_addu(p, ptr, ptr, pte);
uasm_i_lw(p, pte, 0, ptr);
uasm_i_tlbp(p); /* load delay */
}
static void __cpuinit build_r3000_tlb_load_handler(void)
{
u32 *p = handle_tlbl;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
memset(handle_tlbl, 0, sizeof(handle_tlbl));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
build_r3000_tlbchange_handler_head(&p, K0, K1);
build_pte_present(&p, &r, K0, K1, -1, label_nopage_tlbl);
uasm_i_nop(&p); /* load delay */
build_make_valid(&p, &r, K0, K1);
build_r3000_tlb_reload_write(&p, &l, &r, K0, K1);
uasm_l_nopage_tlbl(&l, p);
uasm_i_j(&p, (unsigned long)tlb_do_page_fault_0 & 0x0fffffff);
uasm_i_nop(&p);
if ((p - handle_tlbl) > FASTPATH_SIZE)
panic("TLB load handler fastpath space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB load handler fastpath (%u instructions).\n",
(unsigned int)(p - handle_tlbl));
dump_handler("r3000_tlb_load", handle_tlbl, ARRAY_SIZE(handle_tlbl));
}
static void __cpuinit build_r3000_tlb_store_handler(void)
{
u32 *p = handle_tlbs;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
memset(handle_tlbs, 0, sizeof(handle_tlbs));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
build_r3000_tlbchange_handler_head(&p, K0, K1);
build_pte_writable(&p, &r, K0, K1, -1, label_nopage_tlbs);
uasm_i_nop(&p); /* load delay */
build_make_write(&p, &r, K0, K1);
build_r3000_tlb_reload_write(&p, &l, &r, K0, K1);
uasm_l_nopage_tlbs(&l, p);
uasm_i_j(&p, (unsigned long)tlb_do_page_fault_1 & 0x0fffffff);
uasm_i_nop(&p);
if ((p - handle_tlbs) > FASTPATH_SIZE)
panic("TLB store handler fastpath space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB store handler fastpath (%u instructions).\n",
(unsigned int)(p - handle_tlbs));
dump_handler("r3000_tlb_store", handle_tlbs, ARRAY_SIZE(handle_tlbs));
}
static void __cpuinit build_r3000_tlb_modify_handler(void)
{
u32 *p = handle_tlbm;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
memset(handle_tlbm, 0, sizeof(handle_tlbm));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
build_r3000_tlbchange_handler_head(&p, K0, K1);
build_pte_modifiable(&p, &r, K0, K1, -1, label_nopage_tlbm);
uasm_i_nop(&p); /* load delay */
build_make_write(&p, &r, K0, K1);
build_r3000_pte_reload_tlbwi(&p, K0, K1);
uasm_l_nopage_tlbm(&l, p);
uasm_i_j(&p, (unsigned long)tlb_do_page_fault_1 & 0x0fffffff);
uasm_i_nop(&p);
if ((p - handle_tlbm) > FASTPATH_SIZE)
panic("TLB modify handler fastpath space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB modify handler fastpath (%u instructions).\n",
(unsigned int)(p - handle_tlbm));
dump_handler("r3000_tlb_modify", handle_tlbm, ARRAY_SIZE(handle_tlbm));
}
#endif /* CONFIG_MIPS_PGD_C0_CONTEXT */
/*
* R4000 style TLB load/store/modify handlers.
*/
static struct work_registers __cpuinit
build_r4000_tlbchange_handler_head(u32 **p, struct uasm_label **l,
struct uasm_reloc **r)
{
struct work_registers wr = build_get_work_registers(p);
#ifdef CONFIG_64BIT
build_get_pmde64(p, l, r, wr.r1, wr.r2); /* get pmd in ptr */
#else
build_get_pgde32(p, wr.r1, wr.r2); /* get pgd in ptr */
#endif
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
/*
* For huge tlb entries, pmd doesn't contain an address but
* instead contains the tlb pte. Check the PAGE_HUGE bit and
* see if we need to jump to huge tlb processing.
*/
build_is_huge_pte(p, r, wr.r1, wr.r2, label_tlb_huge_update);
#endif
UASM_i_MFC0(p, wr.r1, C0_BADVADDR);
UASM_i_LW(p, wr.r2, 0, wr.r2);
UASM_i_SRL(p, wr.r1, wr.r1, PAGE_SHIFT + PTE_ORDER - PTE_T_LOG2);
uasm_i_andi(p, wr.r1, wr.r1, (PTRS_PER_PTE - 1) << PTE_T_LOG2);
UASM_i_ADDU(p, wr.r2, wr.r2, wr.r1);
#ifdef CONFIG_SMP
uasm_l_smp_pgtable_change(l, *p);
#endif
iPTE_LW(p, wr.r1, wr.r2); /* get even pte */
if (!m4kc_tlbp_war())
build_tlb_probe_entry(p);
return wr;
}
static void __cpuinit
build_r4000_tlbchange_handler_tail(u32 **p, struct uasm_label **l,
struct uasm_reloc **r, unsigned int tmp,
unsigned int ptr)
{
uasm_i_ori(p, ptr, ptr, sizeof(pte_t));
uasm_i_xori(p, ptr, ptr, sizeof(pte_t));
build_update_entries(p, tmp, ptr);
build_tlb_write_entry(p, l, r, tlb_indexed);
uasm_l_leave(l, *p);
build_restore_work_registers(p);
uasm_i_eret(p); /* return from trap */
#ifdef CONFIG_64BIT
build_get_pgd_vmalloc64(p, l, r, tmp, ptr, not_refill);
#endif
}
static void __cpuinit build_r4000_tlb_load_handler(void)
{
u32 *p = handle_tlbl;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
struct work_registers wr;
memset(handle_tlbl, 0, sizeof(handle_tlbl));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
if (bcm1250_m3_war()) {
unsigned int segbits = 44;
uasm_i_dmfc0(&p, K0, C0_BADVADDR);
uasm_i_dmfc0(&p, K1, C0_ENTRYHI);
uasm_i_xor(&p, K0, K0, K1);
uasm_i_dsrl_safe(&p, K1, K0, 62);
uasm_i_dsrl_safe(&p, K0, K0, 12 + 1);
uasm_i_dsll_safe(&p, K0, K0, 64 + 12 + 1 - segbits);
uasm_i_or(&p, K0, K0, K1);
uasm_il_bnez(&p, &r, K0, label_leave);
/* No need for uasm_i_nop */
}
wr = build_r4000_tlbchange_handler_head(&p, &l, &r);
build_pte_present(&p, &r, wr.r1, wr.r2, wr.r3, label_nopage_tlbl);
if (m4kc_tlbp_war())
build_tlb_probe_entry(&p);
if (cpu_has_rixi) {
/*
* If the page is not _PAGE_VALID, RI or XI could not
* have triggered it. Skip the expensive test..
*/
if (use_bbit_insns()) {
uasm_il_bbit0(&p, &r, wr.r1, ilog2(_PAGE_VALID),
label_tlbl_goaround1);
} else {
uasm_i_andi(&p, wr.r3, wr.r1, _PAGE_VALID);
uasm_il_beqz(&p, &r, wr.r3, label_tlbl_goaround1);
}
uasm_i_nop(&p);
uasm_i_tlbr(&p);
/* Examine entrylo 0 or 1 based on ptr. */
if (use_bbit_insns()) {
uasm_i_bbit0(&p, wr.r2, ilog2(sizeof(pte_t)), 8);
} else {
uasm_i_andi(&p, wr.r3, wr.r2, sizeof(pte_t));
uasm_i_beqz(&p, wr.r3, 8);
}
/* load it in the delay slot*/
UASM_i_MFC0(&p, wr.r3, C0_ENTRYLO0);
/* load it if ptr is odd */
UASM_i_MFC0(&p, wr.r3, C0_ENTRYLO1);
/*
* If the entryLo (now in wr.r3) is valid (bit 1), RI or
* XI must have triggered it.
*/
if (use_bbit_insns()) {
uasm_il_bbit1(&p, &r, wr.r3, 1, label_nopage_tlbl);
uasm_i_nop(&p);
uasm_l_tlbl_goaround1(&l, p);
} else {
uasm_i_andi(&p, wr.r3, wr.r3, 2);
uasm_il_bnez(&p, &r, wr.r3, label_nopage_tlbl);
uasm_i_nop(&p);
}
uasm_l_tlbl_goaround1(&l, p);
}
build_make_valid(&p, &r, wr.r1, wr.r2);
build_r4000_tlbchange_handler_tail(&p, &l, &r, wr.r1, wr.r2);
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
/*
* This is the entry point when build_r4000_tlbchange_handler_head
* spots a huge page.
*/
uasm_l_tlb_huge_update(&l, p);
iPTE_LW(&p, wr.r1, wr.r2);
build_pte_present(&p, &r, wr.r1, wr.r2, wr.r3, label_nopage_tlbl);
build_tlb_probe_entry(&p);
if (cpu_has_rixi) {
/*
* If the page is not _PAGE_VALID, RI or XI could not
* have triggered it. Skip the expensive test..
*/
if (use_bbit_insns()) {
uasm_il_bbit0(&p, &r, wr.r1, ilog2(_PAGE_VALID),
label_tlbl_goaround2);
} else {
uasm_i_andi(&p, wr.r3, wr.r1, _PAGE_VALID);
uasm_il_beqz(&p, &r, wr.r3, label_tlbl_goaround2);
}
uasm_i_nop(&p);
uasm_i_tlbr(&p);
/* Examine entrylo 0 or 1 based on ptr. */
if (use_bbit_insns()) {
uasm_i_bbit0(&p, wr.r2, ilog2(sizeof(pte_t)), 8);
} else {
uasm_i_andi(&p, wr.r3, wr.r2, sizeof(pte_t));
uasm_i_beqz(&p, wr.r3, 8);
}
/* load it in the delay slot*/
UASM_i_MFC0(&p, wr.r3, C0_ENTRYLO0);
/* load it if ptr is odd */
UASM_i_MFC0(&p, wr.r3, C0_ENTRYLO1);
/*
* If the entryLo (now in wr.r3) is valid (bit 1), RI or
* XI must have triggered it.
*/
if (use_bbit_insns()) {
uasm_il_bbit0(&p, &r, wr.r3, 1, label_tlbl_goaround2);
} else {
uasm_i_andi(&p, wr.r3, wr.r3, 2);
uasm_il_beqz(&p, &r, wr.r3, label_tlbl_goaround2);
}
if (PM_DEFAULT_MASK == 0)
uasm_i_nop(&p);
/*
* We clobbered C0_PAGEMASK, restore it. On the other branch
* it is restored in build_huge_tlb_write_entry.
*/
build_restore_pagemask(&p, &r, wr.r3, label_nopage_tlbl, 0);
uasm_l_tlbl_goaround2(&l, p);
}
uasm_i_ori(&p, wr.r1, wr.r1, (_PAGE_ACCESSED | _PAGE_VALID));
build_huge_handler_tail(&p, &r, &l, wr.r1, wr.r2);
#endif
uasm_l_nopage_tlbl(&l, p);
build_restore_work_registers(&p);
uasm_i_j(&p, (unsigned long)tlb_do_page_fault_0 & 0x0fffffff);
uasm_i_nop(&p);
if ((p - handle_tlbl) > FASTPATH_SIZE)
panic("TLB load handler fastpath space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB load handler fastpath (%u instructions).\n",
(unsigned int)(p - handle_tlbl));
dump_handler("r4000_tlb_load", handle_tlbl, ARRAY_SIZE(handle_tlbl));
}
static void __cpuinit build_r4000_tlb_store_handler(void)
{
u32 *p = handle_tlbs;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
struct work_registers wr;
memset(handle_tlbs, 0, sizeof(handle_tlbs));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
wr = build_r4000_tlbchange_handler_head(&p, &l, &r);
build_pte_writable(&p, &r, wr.r1, wr.r2, wr.r3, label_nopage_tlbs);
if (m4kc_tlbp_war())
build_tlb_probe_entry(&p);
build_make_write(&p, &r, wr.r1, wr.r2);
build_r4000_tlbchange_handler_tail(&p, &l, &r, wr.r1, wr.r2);
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
/*
* This is the entry point when
* build_r4000_tlbchange_handler_head spots a huge page.
*/
uasm_l_tlb_huge_update(&l, p);
iPTE_LW(&p, wr.r1, wr.r2);
build_pte_writable(&p, &r, wr.r1, wr.r2, wr.r3, label_nopage_tlbs);
build_tlb_probe_entry(&p);
uasm_i_ori(&p, wr.r1, wr.r1,
_PAGE_ACCESSED | _PAGE_MODIFIED | _PAGE_VALID | _PAGE_DIRTY);
build_huge_handler_tail(&p, &r, &l, wr.r1, wr.r2);
#endif
uasm_l_nopage_tlbs(&l, p);
build_restore_work_registers(&p);
uasm_i_j(&p, (unsigned long)tlb_do_page_fault_1 & 0x0fffffff);
uasm_i_nop(&p);
if ((p - handle_tlbs) > FASTPATH_SIZE)
panic("TLB store handler fastpath space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB store handler fastpath (%u instructions).\n",
(unsigned int)(p - handle_tlbs));
dump_handler("r4000_tlb_store", handle_tlbs, ARRAY_SIZE(handle_tlbs));
}
static void __cpuinit build_r4000_tlb_modify_handler(void)
{
u32 *p = handle_tlbm;
struct uasm_label *l = labels;
struct uasm_reloc *r = relocs;
struct work_registers wr;
memset(handle_tlbm, 0, sizeof(handle_tlbm));
memset(labels, 0, sizeof(labels));
memset(relocs, 0, sizeof(relocs));
wr = build_r4000_tlbchange_handler_head(&p, &l, &r);
build_pte_modifiable(&p, &r, wr.r1, wr.r2, wr.r3, label_nopage_tlbm);
if (m4kc_tlbp_war())
build_tlb_probe_entry(&p);
/* Present and writable bits set, set accessed and dirty bits. */
build_make_write(&p, &r, wr.r1, wr.r2);
build_r4000_tlbchange_handler_tail(&p, &l, &r, wr.r1, wr.r2);
#ifdef CONFIG_MIPS_HUGE_TLB_SUPPORT
/*
* This is the entry point when
* build_r4000_tlbchange_handler_head spots a huge page.
*/
uasm_l_tlb_huge_update(&l, p);
iPTE_LW(&p, wr.r1, wr.r2);
build_pte_modifiable(&p, &r, wr.r1, wr.r2, wr.r3, label_nopage_tlbm);
build_tlb_probe_entry(&p);
uasm_i_ori(&p, wr.r1, wr.r1,
_PAGE_ACCESSED | _PAGE_MODIFIED | _PAGE_VALID | _PAGE_DIRTY);
build_huge_handler_tail(&p, &r, &l, wr.r1, wr.r2);
#endif
uasm_l_nopage_tlbm(&l, p);
build_restore_work_registers(&p);
uasm_i_j(&p, (unsigned long)tlb_do_page_fault_1 & 0x0fffffff);
uasm_i_nop(&p);
if ((p - handle_tlbm) > FASTPATH_SIZE)
panic("TLB modify handler fastpath space exceeded");
uasm_resolve_relocs(relocs, labels);
pr_debug("Wrote TLB modify handler fastpath (%u instructions).\n",
(unsigned int)(p - handle_tlbm));
dump_handler("r4000_tlb_modify", handle_tlbm, ARRAY_SIZE(handle_tlbm));
}
void __cpuinit build_tlb_refill_handler(void)
{
/*
* The refill handler is generated per-CPU, multi-node systems
* may have local storage for it. The other handlers are only
* needed once.
*/
static int run_once = 0;
output_pgtable_bits_defines();
#ifdef CONFIG_64BIT
check_for_high_segbits = current_cpu_data.vmbits > (PGDIR_SHIFT + PGD_ORDER + PAGE_SHIFT - 3);
#endif
switch (current_cpu_type()) {
case CPU_R2000:
case CPU_R3000:
case CPU_R3000A:
case CPU_R3081E:
case CPU_TX3912:
case CPU_TX3922:
case CPU_TX3927:
#ifndef CONFIG_MIPS_PGD_C0_CONTEXT
build_r3000_tlb_refill_handler();
if (!run_once) {
build_r3000_tlb_load_handler();
build_r3000_tlb_store_handler();
build_r3000_tlb_modify_handler();
run_once++;
}
#else
panic("No R3000 TLB refill handler");
#endif
break;
case CPU_R6000:
case CPU_R6000A:
panic("No R6000 TLB refill handler yet");
break;
case CPU_R8000:
panic("No R8000 TLB refill handler yet");
break;
default:
if (!run_once) {
scratch_reg = allocate_kscratch();
#ifdef CONFIG_MIPS_PGD_C0_CONTEXT
build_r4000_setup_pgd();
#endif
build_r4000_tlb_load_handler();
build_r4000_tlb_store_handler();
build_r4000_tlb_modify_handler();
run_once++;
}
build_r4000_tlb_refill_handler();
}
}
void __cpuinit flush_tlb_handlers(void)
{
local_flush_icache_range((unsigned long)handle_tlbl,
(unsigned long)handle_tlbl + sizeof(handle_tlbl));
local_flush_icache_range((unsigned long)handle_tlbs,
(unsigned long)handle_tlbs + sizeof(handle_tlbs));
local_flush_icache_range((unsigned long)handle_tlbm,
(unsigned long)handle_tlbm + sizeof(handle_tlbm));
#ifdef CONFIG_MIPS_PGD_C0_CONTEXT
local_flush_icache_range((unsigned long)tlbmiss_handler_setup_pgd,
(unsigned long)tlbmiss_handler_setup_pgd + sizeof(handle_tlbm));
#endif
}
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