12874c5fdSThomas Gleixner /* SPDX-License-Identifier: GPL-2.0-or-later */
211a6f6abSAneesh Kumar K.V #ifndef _ASM_POWERPC_BOOK3S_64_MMU_HASH_H_
311a6f6abSAneesh Kumar K.V #define _ASM_POWERPC_BOOK3S_64_MMU_HASH_H_
48d2169e8SDavid Gibson /*
58d2169e8SDavid Gibson * PowerPC64 memory management structures
68d2169e8SDavid Gibson *
78d2169e8SDavid Gibson * Dave Engebretsen & Mike Corrigan <{engebret|mikejc}@us.ibm.com>
88d2169e8SDavid Gibson * PPC64 rework.
98d2169e8SDavid Gibson */
108d2169e8SDavid Gibson
118d2169e8SDavid Gibson #include <asm/page.h>
12891121e6SAneesh Kumar K.V #include <asm/bug.h>
13ec0c464cSChristophe Leroy #include <asm/asm-const.h>
148d2169e8SDavid Gibson
158d2169e8SDavid Gibson /*
1678f1dbdeSAneesh Kumar K.V * This is necessary to get the definition of PGTABLE_RANGE which we
1778f1dbdeSAneesh Kumar K.V * need for various slices related matters. Note that this isn't the
1878f1dbdeSAneesh Kumar K.V * complete pgtable.h but only a portion of it.
1978f1dbdeSAneesh Kumar K.V */
203dfcb315SAneesh Kumar K.V #include <asm/book3s/64/pgtable.h>
21*1408fca0SChristophe Leroy #include <asm/book3s/64/slice.h>
2292ab45c5SChristophe Leroy #include <asm/task_size_64.h>
23b92a226eSKevin Hao #include <asm/cpu_has_feature.h>
2478f1dbdeSAneesh Kumar K.V
2578f1dbdeSAneesh Kumar K.V /*
268d2169e8SDavid Gibson * SLB
278d2169e8SDavid Gibson */
288d2169e8SDavid Gibson
2985376e2aSNicholas Piggin #define SLB_NUM_BOLTED 2
308d2169e8SDavid Gibson #define SLB_CACHE_ENTRIES 8
3146db2f86SBrian King #define SLB_MIN_SIZE 32
328d2169e8SDavid Gibson
338d2169e8SDavid Gibson /* Bits in the SLB ESID word */
348d2169e8SDavid Gibson #define SLB_ESID_V ASM_CONST(0x0000000008000000) /* valid */
358d2169e8SDavid Gibson
368d2169e8SDavid Gibson /* Bits in the SLB VSID word */
378d2169e8SDavid Gibson #define SLB_VSID_SHIFT 12
38e6f81a92SAneesh Kumar K.V #define SLB_VSID_SHIFT_256M SLB_VSID_SHIFT
391189be65SPaul Mackerras #define SLB_VSID_SHIFT_1T 24
401189be65SPaul Mackerras #define SLB_VSID_SSIZE_SHIFT 62
418d2169e8SDavid Gibson #define SLB_VSID_B ASM_CONST(0xc000000000000000)
428d2169e8SDavid Gibson #define SLB_VSID_B_256M ASM_CONST(0x0000000000000000)
438d2169e8SDavid Gibson #define SLB_VSID_B_1T ASM_CONST(0x4000000000000000)
448d2169e8SDavid Gibson #define SLB_VSID_KS ASM_CONST(0x0000000000000800)
458d2169e8SDavid Gibson #define SLB_VSID_KP ASM_CONST(0x0000000000000400)
468d2169e8SDavid Gibson #define SLB_VSID_N ASM_CONST(0x0000000000000200) /* no-execute */
478d2169e8SDavid Gibson #define SLB_VSID_L ASM_CONST(0x0000000000000100)
488d2169e8SDavid Gibson #define SLB_VSID_C ASM_CONST(0x0000000000000080) /* class */
498d2169e8SDavid Gibson #define SLB_VSID_LP ASM_CONST(0x0000000000000030)
508d2169e8SDavid Gibson #define SLB_VSID_LP_00 ASM_CONST(0x0000000000000000)
518d2169e8SDavid Gibson #define SLB_VSID_LP_01 ASM_CONST(0x0000000000000010)
528d2169e8SDavid Gibson #define SLB_VSID_LP_10 ASM_CONST(0x0000000000000020)
538d2169e8SDavid Gibson #define SLB_VSID_LP_11 ASM_CONST(0x0000000000000030)
548d2169e8SDavid Gibson #define SLB_VSID_LLP (SLB_VSID_L|SLB_VSID_LP)
558d2169e8SDavid Gibson
568d2169e8SDavid Gibson #define SLB_VSID_KERNEL (SLB_VSID_KP)
578d2169e8SDavid Gibson #define SLB_VSID_USER (SLB_VSID_KP|SLB_VSID_KS|SLB_VSID_C)
588d2169e8SDavid Gibson
598d2169e8SDavid Gibson #define SLBIE_C (0x08000000)
601189be65SPaul Mackerras #define SLBIE_SSIZE_SHIFT 25
618d2169e8SDavid Gibson
628d2169e8SDavid Gibson /*
638d2169e8SDavid Gibson * Hash table
648d2169e8SDavid Gibson */
658d2169e8SDavid Gibson
668d2169e8SDavid Gibson #define HPTES_PER_GROUP 8
678d2169e8SDavid Gibson
682454c7e9SPaul Mackerras #define HPTE_V_SSIZE_SHIFT 62
698d2169e8SDavid Gibson #define HPTE_V_AVPN_SHIFT 7
706b243fcfSPaul Mackerras #define HPTE_V_COMMON_BITS ASM_CONST(0x000fffffffffffff)
712454c7e9SPaul Mackerras #define HPTE_V_AVPN ASM_CONST(0x3fffffffffffff80)
726b243fcfSPaul Mackerras #define HPTE_V_AVPN_3_0 ASM_CONST(0x000fffffffffff80)
738d2169e8SDavid Gibson #define HPTE_V_AVPN_VAL(x) (((x) & HPTE_V_AVPN) >> HPTE_V_AVPN_SHIFT)
7491bbbe22SGeert Uytterhoeven #define HPTE_V_COMPARE(x,y) (!(((x) ^ (y)) & 0xffffffffffffff80UL))
758d2169e8SDavid Gibson #define HPTE_V_BOLTED ASM_CONST(0x0000000000000010)
768d2169e8SDavid Gibson #define HPTE_V_LOCK ASM_CONST(0x0000000000000008)
778d2169e8SDavid Gibson #define HPTE_V_LARGE ASM_CONST(0x0000000000000004)
788d2169e8SDavid Gibson #define HPTE_V_SECONDARY ASM_CONST(0x0000000000000002)
798d2169e8SDavid Gibson #define HPTE_V_VALID ASM_CONST(0x0000000000000001)
808d2169e8SDavid Gibson
8150de596dSAneesh Kumar K.V /*
826b243fcfSPaul Mackerras * ISA 3.0 has a different HPTE format.
8350de596dSAneesh Kumar K.V */
8450de596dSAneesh Kumar K.V #define HPTE_R_3_0_SSIZE_SHIFT 58
856b243fcfSPaul Mackerras #define HPTE_R_3_0_SSIZE_MASK (3ull << HPTE_R_3_0_SSIZE_SHIFT)
868d2169e8SDavid Gibson #define HPTE_R_PP0 ASM_CONST(0x8000000000000000)
878d2169e8SDavid Gibson #define HPTE_R_TS ASM_CONST(0x4000000000000000)
88de56a948SPaul Mackerras #define HPTE_R_KEY_HI ASM_CONST(0x3000000000000000)
8933699023SAneesh Kumar K.V #define HPTE_R_KEY_BIT4 ASM_CONST(0x2000000000000000)
9033699023SAneesh Kumar K.V #define HPTE_R_KEY_BIT3 ASM_CONST(0x1000000000000000)
918d2169e8SDavid Gibson #define HPTE_R_RPN_SHIFT 12
92de56a948SPaul Mackerras #define HPTE_R_RPN ASM_CONST(0x0ffffffffffff000)
936b243fcfSPaul Mackerras #define HPTE_R_RPN_3_0 ASM_CONST(0x01fffffffffff000)
948d2169e8SDavid Gibson #define HPTE_R_PP ASM_CONST(0x0000000000000003)
958550e2faSAneesh Kumar K.V #define HPTE_R_PPP ASM_CONST(0x8000000000000003)
968d2169e8SDavid Gibson #define HPTE_R_N ASM_CONST(0x0000000000000004)
97de56a948SPaul Mackerras #define HPTE_R_G ASM_CONST(0x0000000000000008)
98de56a948SPaul Mackerras #define HPTE_R_M ASM_CONST(0x0000000000000010)
99de56a948SPaul Mackerras #define HPTE_R_I ASM_CONST(0x0000000000000020)
100de56a948SPaul Mackerras #define HPTE_R_W ASM_CONST(0x0000000000000040)
101de56a948SPaul Mackerras #define HPTE_R_WIMG ASM_CONST(0x0000000000000078)
1028d2169e8SDavid Gibson #define HPTE_R_C ASM_CONST(0x0000000000000080)
1038d2169e8SDavid Gibson #define HPTE_R_R ASM_CONST(0x0000000000000100)
104de56a948SPaul Mackerras #define HPTE_R_KEY_LO ASM_CONST(0x0000000000000e00)
105a6590ca5SRam Pai #define HPTE_R_KEY_BIT2 ASM_CONST(0x0000000000000800)
10633699023SAneesh Kumar K.V #define HPTE_R_KEY_BIT1 ASM_CONST(0x0000000000000400)
10733699023SAneesh Kumar K.V #define HPTE_R_KEY_BIT0 ASM_CONST(0x0000000000000200)
108d182b8fdSRam Pai #define HPTE_R_KEY (HPTE_R_KEY_LO | HPTE_R_KEY_HI)
1098d2169e8SDavid Gibson
110b7abc5c5SSachin P. Sant #define HPTE_V_1TB_SEG ASM_CONST(0x4000000000000000)
111b7abc5c5SSachin P. Sant #define HPTE_V_VRMA_MASK ASM_CONST(0x4001ffffff000000)
112b7abc5c5SSachin P. Sant
1138d2169e8SDavid Gibson /* Values for PP (assumes Ks=0, Kp=1) */
1148d2169e8SDavid Gibson #define PP_RWXX 0 /* Supervisor read/write, User none */
1158d2169e8SDavid Gibson #define PP_RWRX 1 /* Supervisor read/write, User read */
1168d2169e8SDavid Gibson #define PP_RWRW 2 /* Supervisor read/write, User read/write */
1178d2169e8SDavid Gibson #define PP_RXRX 3 /* Supervisor read, User read */
118697d3899SPaul Mackerras #define PP_RXXX (HPTE_R_PP0 | 2) /* Supervisor read, user none */
1198d2169e8SDavid Gibson
120b4072df4SPaul Mackerras /* Fields for tlbiel instruction in architecture 2.06 */
121b4072df4SPaul Mackerras #define TLBIEL_INVAL_SEL_MASK 0xc00 /* invalidation selector */
122b4072df4SPaul Mackerras #define TLBIEL_INVAL_PAGE 0x000 /* invalidate a single page */
123b4072df4SPaul Mackerras #define TLBIEL_INVAL_SET_LPID 0x800 /* invalidate a set for current LPID */
124b4072df4SPaul Mackerras #define TLBIEL_INVAL_SET 0xc00 /* invalidate a set for all LPIDs */
125b4072df4SPaul Mackerras #define TLBIEL_INVAL_SET_MASK 0xfff000 /* set number to inval. */
126b4072df4SPaul Mackerras #define TLBIEL_INVAL_SET_SHIFT 12
127b4072df4SPaul Mackerras
128b4072df4SPaul Mackerras #define POWER7_TLB_SETS 128 /* # sets in POWER7 TLB */
12945706bb5SMahesh Salgaonkar #define POWER8_TLB_SETS 512 /* # sets in POWER8 TLB */
130c3ab300eSMichael Neuling #define POWER9_TLB_SETS_HASH 256 /* # sets in POWER9 TLB Hash mode */
1311a472c9dSAneesh Kumar K.V #define POWER9_TLB_SETS_RADIX 128 /* # sets in POWER9 TLB Radix mode */
132b4072df4SPaul Mackerras
1338d2169e8SDavid Gibson #ifndef __ASSEMBLY__
1348d2169e8SDavid Gibson
1357025776eSBenjamin Herrenschmidt struct mmu_hash_ops {
1367025776eSBenjamin Herrenschmidt void (*hpte_invalidate)(unsigned long slot,
1377025776eSBenjamin Herrenschmidt unsigned long vpn,
1387025776eSBenjamin Herrenschmidt int bpsize, int apsize,
1397025776eSBenjamin Herrenschmidt int ssize, int local);
1407025776eSBenjamin Herrenschmidt long (*hpte_updatepp)(unsigned long slot,
1417025776eSBenjamin Herrenschmidt unsigned long newpp,
1427025776eSBenjamin Herrenschmidt unsigned long vpn,
1437025776eSBenjamin Herrenschmidt int bpsize, int apsize,
1447025776eSBenjamin Herrenschmidt int ssize, unsigned long flags);
1457025776eSBenjamin Herrenschmidt void (*hpte_updateboltedpp)(unsigned long newpp,
1467025776eSBenjamin Herrenschmidt unsigned long ea,
1477025776eSBenjamin Herrenschmidt int psize, int ssize);
1487025776eSBenjamin Herrenschmidt long (*hpte_insert)(unsigned long hpte_group,
1497025776eSBenjamin Herrenschmidt unsigned long vpn,
1507025776eSBenjamin Herrenschmidt unsigned long prpn,
1517025776eSBenjamin Herrenschmidt unsigned long rflags,
1527025776eSBenjamin Herrenschmidt unsigned long vflags,
1537025776eSBenjamin Herrenschmidt int psize, int apsize,
1547025776eSBenjamin Herrenschmidt int ssize);
1557025776eSBenjamin Herrenschmidt long (*hpte_remove)(unsigned long hpte_group);
1567025776eSBenjamin Herrenschmidt int (*hpte_removebolted)(unsigned long ea,
1577025776eSBenjamin Herrenschmidt int psize, int ssize);
1587025776eSBenjamin Herrenschmidt void (*flush_hash_range)(unsigned long number, int local);
1597025776eSBenjamin Herrenschmidt void (*hugepage_invalidate)(unsigned long vsid,
1607025776eSBenjamin Herrenschmidt unsigned long addr,
1617025776eSBenjamin Herrenschmidt unsigned char *hpte_slot_array,
1627025776eSBenjamin Herrenschmidt int psize, int ssize, int local);
163dbcf929cSDavid Gibson int (*resize_hpt)(unsigned long shift);
1647025776eSBenjamin Herrenschmidt /*
1657025776eSBenjamin Herrenschmidt * Special for kexec.
1667025776eSBenjamin Herrenschmidt * To be called in real mode with interrupts disabled. No locks are
1677025776eSBenjamin Herrenschmidt * taken as such, concurrent access on pre POWER5 hardware could result
1687025776eSBenjamin Herrenschmidt * in a deadlock.
1697025776eSBenjamin Herrenschmidt * The linear mapping is destroyed as well.
1707025776eSBenjamin Herrenschmidt */
1717025776eSBenjamin Herrenschmidt void (*hpte_clear_all)(void);
1727025776eSBenjamin Herrenschmidt };
1737025776eSBenjamin Herrenschmidt extern struct mmu_hash_ops mmu_hash_ops;
1747025776eSBenjamin Herrenschmidt
1758e561e7eSDavid Gibson struct hash_pte {
17612f04f2bSAnton Blanchard __be64 v;
17712f04f2bSAnton Blanchard __be64 r;
1788e561e7eSDavid Gibson };
1798d2169e8SDavid Gibson
1808e561e7eSDavid Gibson extern struct hash_pte *htab_address;
1818d2169e8SDavid Gibson extern unsigned long htab_size_bytes;
1828d2169e8SDavid Gibson extern unsigned long htab_hash_mask;
1838d2169e8SDavid Gibson
184cf9427b8SAneesh Kumar K.V
shift_to_mmu_psize(unsigned int shift)185cf9427b8SAneesh Kumar K.V static inline int shift_to_mmu_psize(unsigned int shift)
186cf9427b8SAneesh Kumar K.V {
187cf9427b8SAneesh Kumar K.V int psize;
188cf9427b8SAneesh Kumar K.V
189cf9427b8SAneesh Kumar K.V for (psize = 0; psize < MMU_PAGE_COUNT; ++psize)
190cf9427b8SAneesh Kumar K.V if (mmu_psize_defs[psize].shift == shift)
191cf9427b8SAneesh Kumar K.V return psize;
192cf9427b8SAneesh Kumar K.V return -1;
193cf9427b8SAneesh Kumar K.V }
194cf9427b8SAneesh Kumar K.V
mmu_psize_to_shift(unsigned int mmu_psize)195cf9427b8SAneesh Kumar K.V static inline unsigned int mmu_psize_to_shift(unsigned int mmu_psize)
196cf9427b8SAneesh Kumar K.V {
197cf9427b8SAneesh Kumar K.V if (mmu_psize_defs[mmu_psize].shift)
198cf9427b8SAneesh Kumar K.V return mmu_psize_defs[mmu_psize].shift;
199cf9427b8SAneesh Kumar K.V BUG();
200cf9427b8SAneesh Kumar K.V }
2018d2169e8SDavid Gibson
ap_to_shift(unsigned long ap)202e3b6b466SSuraj Jitindar Singh static inline unsigned int ap_to_shift(unsigned long ap)
203e3b6b466SSuraj Jitindar Singh {
204e3b6b466SSuraj Jitindar Singh int psize;
205e3b6b466SSuraj Jitindar Singh
206e3b6b466SSuraj Jitindar Singh for (psize = 0; psize < MMU_PAGE_COUNT; psize++) {
207e3b6b466SSuraj Jitindar Singh if (mmu_psize_defs[psize].ap == ap)
208e3b6b466SSuraj Jitindar Singh return mmu_psize_defs[psize].shift;
209e3b6b466SSuraj Jitindar Singh }
210e3b6b466SSuraj Jitindar Singh
211e3b6b466SSuraj Jitindar Singh return -1;
212e3b6b466SSuraj Jitindar Singh }
213e3b6b466SSuraj Jitindar Singh
get_sllp_encoding(int psize)214138ee7eeSAneesh Kumar K.V static inline unsigned long get_sllp_encoding(int psize)
215138ee7eeSAneesh Kumar K.V {
216138ee7eeSAneesh Kumar K.V unsigned long sllp;
217138ee7eeSAneesh Kumar K.V
218138ee7eeSAneesh Kumar K.V sllp = ((mmu_psize_defs[psize].sllp & SLB_VSID_L) >> 6) |
219138ee7eeSAneesh Kumar K.V ((mmu_psize_defs[psize].sllp & SLB_VSID_LP) >> 4);
220138ee7eeSAneesh Kumar K.V return sllp;
221138ee7eeSAneesh Kumar K.V }
222138ee7eeSAneesh Kumar K.V
2238d2169e8SDavid Gibson #endif /* __ASSEMBLY__ */
2248d2169e8SDavid Gibson
2258d2169e8SDavid Gibson /*
2262454c7e9SPaul Mackerras * Segment sizes.
2272454c7e9SPaul Mackerras * These are the values used by hardware in the B field of
2282454c7e9SPaul Mackerras * SLB entries and the first dword of MMU hashtable entries.
2292454c7e9SPaul Mackerras * The B field is 2 bits; the values 2 and 3 are unused and reserved.
2302454c7e9SPaul Mackerras */
2312454c7e9SPaul Mackerras #define MMU_SEGSIZE_256M 0
2322454c7e9SPaul Mackerras #define MMU_SEGSIZE_1T 1
2332454c7e9SPaul Mackerras
2345524a27dSAneesh Kumar K.V /*
2355524a27dSAneesh Kumar K.V * encode page number shift.
2365524a27dSAneesh Kumar K.V * in order to fit the 78 bit va in a 64 bit variable we shift the va by
2375524a27dSAneesh Kumar K.V * 12 bits. This enable us to address upto 76 bit va.
2385524a27dSAneesh Kumar K.V * For hpt hash from a va we can ignore the page size bits of va and for
2395524a27dSAneesh Kumar K.V * hpte encoding we ignore up to 23 bits of va. So ignoring lower 12 bits ensure
2405524a27dSAneesh Kumar K.V * we work in all cases including 4k page size.
2415524a27dSAneesh Kumar K.V */
2425524a27dSAneesh Kumar K.V #define VPN_SHIFT 12
2431189be65SPaul Mackerras
244b1022fbdSAneesh Kumar K.V /*
245b1022fbdSAneesh Kumar K.V * HPTE Large Page (LP) details
246b1022fbdSAneesh Kumar K.V */
247b1022fbdSAneesh Kumar K.V #define LP_SHIFT 12
248b1022fbdSAneesh Kumar K.V #define LP_BITS 8
249b1022fbdSAneesh Kumar K.V #define LP_MASK(i) ((0xFF >> (i)) << LP_SHIFT)
250b1022fbdSAneesh Kumar K.V
2518d2169e8SDavid Gibson #ifndef __ASSEMBLY__
2528d2169e8SDavid Gibson
slb_vsid_shift(int ssize)25373d16a6eSIan Munsie static inline int slb_vsid_shift(int ssize)
25473d16a6eSIan Munsie {
25573d16a6eSIan Munsie if (ssize == MMU_SEGSIZE_256M)
25673d16a6eSIan Munsie return SLB_VSID_SHIFT;
25773d16a6eSIan Munsie return SLB_VSID_SHIFT_1T;
25873d16a6eSIan Munsie }
25973d16a6eSIan Munsie
segment_shift(int ssize)2605524a27dSAneesh Kumar K.V static inline int segment_shift(int ssize)
2615524a27dSAneesh Kumar K.V {
2625524a27dSAneesh Kumar K.V if (ssize == MMU_SEGSIZE_256M)
2635524a27dSAneesh Kumar K.V return SID_SHIFT;
2645524a27dSAneesh Kumar K.V return SID_SHIFT_1T;
2655524a27dSAneesh Kumar K.V }
2665524a27dSAneesh Kumar K.V
2678d2169e8SDavid Gibson /*
2680eeede0cSPaul Mackerras * This array is indexed by the LP field of the HPTE second dword.
2690eeede0cSPaul Mackerras * Since this field may contain some RPN bits, some entries are
2700eeede0cSPaul Mackerras * replicated so that we get the same value irrespective of RPN.
2710eeede0cSPaul Mackerras * The top 4 bits are the page size index (MMU_PAGE_*) for the
2720eeede0cSPaul Mackerras * actual page size, the bottom 4 bits are the base page size.
2730eeede0cSPaul Mackerras */
2740eeede0cSPaul Mackerras extern u8 hpte_page_sizes[1 << LP_BITS];
2750eeede0cSPaul Mackerras
__hpte_page_size(unsigned long h,unsigned long l,bool is_base_size)2760eeede0cSPaul Mackerras static inline unsigned long __hpte_page_size(unsigned long h, unsigned long l,
2770eeede0cSPaul Mackerras bool is_base_size)
2780eeede0cSPaul Mackerras {
2790eeede0cSPaul Mackerras unsigned int i, lp;
2800eeede0cSPaul Mackerras
2810eeede0cSPaul Mackerras if (!(h & HPTE_V_LARGE))
2820eeede0cSPaul Mackerras return 1ul << 12;
2830eeede0cSPaul Mackerras
2840eeede0cSPaul Mackerras /* Look at the 8 bit LP value */
2850eeede0cSPaul Mackerras lp = (l >> LP_SHIFT) & ((1 << LP_BITS) - 1);
2860eeede0cSPaul Mackerras i = hpte_page_sizes[lp];
2870eeede0cSPaul Mackerras if (!i)
2880eeede0cSPaul Mackerras return 0;
2890eeede0cSPaul Mackerras if (!is_base_size)
2900eeede0cSPaul Mackerras i >>= 4;
2910eeede0cSPaul Mackerras return 1ul << mmu_psize_defs[i & 0xf].shift;
2920eeede0cSPaul Mackerras }
2930eeede0cSPaul Mackerras
hpte_page_size(unsigned long h,unsigned long l)2940eeede0cSPaul Mackerras static inline unsigned long hpte_page_size(unsigned long h, unsigned long l)
2950eeede0cSPaul Mackerras {
2960eeede0cSPaul Mackerras return __hpte_page_size(h, l, 0);
2970eeede0cSPaul Mackerras }
2980eeede0cSPaul Mackerras
hpte_base_page_size(unsigned long h,unsigned long l)2990eeede0cSPaul Mackerras static inline unsigned long hpte_base_page_size(unsigned long h, unsigned long l)
3000eeede0cSPaul Mackerras {
3010eeede0cSPaul Mackerras return __hpte_page_size(h, l, 1);
3020eeede0cSPaul Mackerras }
3030eeede0cSPaul Mackerras
3040eeede0cSPaul Mackerras /*
3051189be65SPaul Mackerras * The current system page and segment sizes
3068d2169e8SDavid Gibson */
3071189be65SPaul Mackerras extern int mmu_kernel_ssize;
3081189be65SPaul Mackerras extern int mmu_highuser_ssize;
309584f8b71SMichael Neuling extern u16 mmu_slb_size;
310572fb578SMichael Ellerman extern unsigned long tce_alloc_start, tce_alloc_end;
3118d2169e8SDavid Gibson
3128d2169e8SDavid Gibson /*
3138d2169e8SDavid Gibson * If the processor supports 64k normal pages but not 64k cache
3148d2169e8SDavid Gibson * inhibited pages, we have to be prepared to switch processes
3158d2169e8SDavid Gibson * to use 4k pages when they create cache-inhibited mappings.
3168d2169e8SDavid Gibson * If this is the case, mmu_ci_restrictions will be set to 1.
3178d2169e8SDavid Gibson */
3188d2169e8SDavid Gibson extern int mmu_ci_restrictions;
3198d2169e8SDavid Gibson
3208d2169e8SDavid Gibson /*
3215524a27dSAneesh Kumar K.V * This computes the AVPN and B fields of the first dword of a HPTE,
3225524a27dSAneesh Kumar K.V * for use when we want to match an existing PTE. The bottom 7 bits
3235524a27dSAneesh Kumar K.V * of the returned value are zero.
3248d2169e8SDavid Gibson */
hpte_encode_avpn(unsigned long vpn,int psize,int ssize)3255524a27dSAneesh Kumar K.V static inline unsigned long hpte_encode_avpn(unsigned long vpn, int psize,
3261189be65SPaul Mackerras int ssize)
3278d2169e8SDavid Gibson {
3281189be65SPaul Mackerras unsigned long v;
3295524a27dSAneesh Kumar K.V /*
3305524a27dSAneesh Kumar K.V * The AVA field omits the low-order 23 bits of the 78 bits VA.
3315524a27dSAneesh Kumar K.V * These bits are not needed in the PTE, because the
3325524a27dSAneesh Kumar K.V * low-order b of these bits are part of the byte offset
3335524a27dSAneesh Kumar K.V * into the virtual page and, if b < 23, the high-order
3345524a27dSAneesh Kumar K.V * 23-b of these bits are always used in selecting the
3355524a27dSAneesh Kumar K.V * PTEGs to be searched
3365524a27dSAneesh Kumar K.V */
3375524a27dSAneesh Kumar K.V v = (vpn >> (23 - VPN_SHIFT)) & ~(mmu_psize_defs[psize].avpnm);
3388d2169e8SDavid Gibson v <<= HPTE_V_AVPN_SHIFT;
3395524a27dSAneesh Kumar K.V v |= ((unsigned long) ssize) << HPTE_V_SSIZE_SHIFT;
3405524a27dSAneesh Kumar K.V return v;
3415524a27dSAneesh Kumar K.V }
3425524a27dSAneesh Kumar K.V
3435524a27dSAneesh Kumar K.V /*
3446b243fcfSPaul Mackerras * ISA v3.0 defines a new HPTE format, which differs from the old
3456b243fcfSPaul Mackerras * format in having smaller AVPN and ARPN fields, and the B field
3466b243fcfSPaul Mackerras * in the second dword instead of the first.
3476b243fcfSPaul Mackerras */
hpte_old_to_new_v(unsigned long v)3486b243fcfSPaul Mackerras static inline unsigned long hpte_old_to_new_v(unsigned long v)
3496b243fcfSPaul Mackerras {
3506b243fcfSPaul Mackerras /* trim AVPN, drop B */
3516b243fcfSPaul Mackerras return v & HPTE_V_COMMON_BITS;
3526b243fcfSPaul Mackerras }
3536b243fcfSPaul Mackerras
hpte_old_to_new_r(unsigned long v,unsigned long r)3546b243fcfSPaul Mackerras static inline unsigned long hpte_old_to_new_r(unsigned long v, unsigned long r)
3556b243fcfSPaul Mackerras {
3566b243fcfSPaul Mackerras /* move B field from 1st to 2nd dword, trim ARPN */
3576b243fcfSPaul Mackerras return (r & ~HPTE_R_3_0_SSIZE_MASK) |
3586b243fcfSPaul Mackerras (((v) >> HPTE_V_SSIZE_SHIFT) << HPTE_R_3_0_SSIZE_SHIFT);
3596b243fcfSPaul Mackerras }
3606b243fcfSPaul Mackerras
hpte_new_to_old_v(unsigned long v,unsigned long r)3616b243fcfSPaul Mackerras static inline unsigned long hpte_new_to_old_v(unsigned long v, unsigned long r)
3626b243fcfSPaul Mackerras {
3636b243fcfSPaul Mackerras /* insert B field */
3646b243fcfSPaul Mackerras return (v & HPTE_V_COMMON_BITS) |
3656b243fcfSPaul Mackerras ((r & HPTE_R_3_0_SSIZE_MASK) <<
3666b243fcfSPaul Mackerras (HPTE_V_SSIZE_SHIFT - HPTE_R_3_0_SSIZE_SHIFT));
3676b243fcfSPaul Mackerras }
3686b243fcfSPaul Mackerras
hpte_new_to_old_r(unsigned long r)3696b243fcfSPaul Mackerras static inline unsigned long hpte_new_to_old_r(unsigned long r)
3706b243fcfSPaul Mackerras {
3716b243fcfSPaul Mackerras /* clear out B field */
3726b243fcfSPaul Mackerras return r & ~HPTE_R_3_0_SSIZE_MASK;
3736b243fcfSPaul Mackerras }
3746b243fcfSPaul Mackerras
hpte_get_old_v(struct hash_pte * hptep)375a833280bSAneesh Kumar K.V static inline unsigned long hpte_get_old_v(struct hash_pte *hptep)
376a833280bSAneesh Kumar K.V {
377a833280bSAneesh Kumar K.V unsigned long hpte_v;
378a833280bSAneesh Kumar K.V
379a833280bSAneesh Kumar K.V hpte_v = be64_to_cpu(hptep->v);
380a833280bSAneesh Kumar K.V if (cpu_has_feature(CPU_FTR_ARCH_300))
381a833280bSAneesh Kumar K.V hpte_v = hpte_new_to_old_v(hpte_v, be64_to_cpu(hptep->r));
382a833280bSAneesh Kumar K.V return hpte_v;
383a833280bSAneesh Kumar K.V }
384a833280bSAneesh Kumar K.V
3856b243fcfSPaul Mackerras /*
3865524a27dSAneesh Kumar K.V * This function sets the AVPN and L fields of the HPTE appropriately
387b1022fbdSAneesh Kumar K.V * using the base page size and actual page size.
3885524a27dSAneesh Kumar K.V */
hpte_encode_v(unsigned long vpn,int base_psize,int actual_psize,int ssize)389b1022fbdSAneesh Kumar K.V static inline unsigned long hpte_encode_v(unsigned long vpn, int base_psize,
390b1022fbdSAneesh Kumar K.V int actual_psize, int ssize)
3915524a27dSAneesh Kumar K.V {
3925524a27dSAneesh Kumar K.V unsigned long v;
393b1022fbdSAneesh Kumar K.V v = hpte_encode_avpn(vpn, base_psize, ssize);
394b1022fbdSAneesh Kumar K.V if (actual_psize != MMU_PAGE_4K)
3958d2169e8SDavid Gibson v |= HPTE_V_LARGE;
3968d2169e8SDavid Gibson return v;
3978d2169e8SDavid Gibson }
3988d2169e8SDavid Gibson
3998d2169e8SDavid Gibson /*
4008d2169e8SDavid Gibson * This function sets the ARPN, and LP fields of the HPTE appropriately
4018d2169e8SDavid Gibson * for the page size. We assume the pa is already "clean" that is properly
4028d2169e8SDavid Gibson * aligned for the requested page size
4038d2169e8SDavid Gibson */
hpte_encode_r(unsigned long pa,int base_psize,int actual_psize)404b1022fbdSAneesh Kumar K.V static inline unsigned long hpte_encode_r(unsigned long pa, int base_psize,
4056b243fcfSPaul Mackerras int actual_psize)
4068d2169e8SDavid Gibson {
4078d2169e8SDavid Gibson /* A 4K page needs no special encoding */
408b1022fbdSAneesh Kumar K.V if (actual_psize == MMU_PAGE_4K)
4098d2169e8SDavid Gibson return pa & HPTE_R_RPN;
4108d2169e8SDavid Gibson else {
411b1022fbdSAneesh Kumar K.V unsigned int penc = mmu_psize_defs[base_psize].penc[actual_psize];
412b1022fbdSAneesh Kumar K.V unsigned int shift = mmu_psize_defs[actual_psize].shift;
413b1022fbdSAneesh Kumar K.V return (pa & ~((1ul << shift) - 1)) | (penc << LP_SHIFT);
4148d2169e8SDavid Gibson }
4158d2169e8SDavid Gibson }
4168d2169e8SDavid Gibson
4178d2169e8SDavid Gibson /*
4185524a27dSAneesh Kumar K.V * Build a VPN_SHIFT bit shifted va given VSID, EA and segment size.
4191189be65SPaul Mackerras */
hpt_vpn(unsigned long ea,unsigned long vsid,int ssize)4205524a27dSAneesh Kumar K.V static inline unsigned long hpt_vpn(unsigned long ea,
4215524a27dSAneesh Kumar K.V unsigned long vsid, int ssize)
4221189be65SPaul Mackerras {
4235524a27dSAneesh Kumar K.V unsigned long mask;
4245524a27dSAneesh Kumar K.V int s_shift = segment_shift(ssize);
4255524a27dSAneesh Kumar K.V
4265524a27dSAneesh Kumar K.V mask = (1ul << (s_shift - VPN_SHIFT)) - 1;
4275524a27dSAneesh Kumar K.V return (vsid << (s_shift - VPN_SHIFT)) | ((ea >> VPN_SHIFT) & mask);
4281189be65SPaul Mackerras }
4291189be65SPaul Mackerras
4301189be65SPaul Mackerras /*
4311189be65SPaul Mackerras * This hashes a virtual address
4328d2169e8SDavid Gibson */
hpt_hash(unsigned long vpn,unsigned int shift,int ssize)4335524a27dSAneesh Kumar K.V static inline unsigned long hpt_hash(unsigned long vpn,
4345524a27dSAneesh Kumar K.V unsigned int shift, int ssize)
4358d2169e8SDavid Gibson {
43659248aecSAneesh Kumar K.V unsigned long mask;
4371189be65SPaul Mackerras unsigned long hash, vsid;
4381189be65SPaul Mackerras
4395524a27dSAneesh Kumar K.V /* VPN_SHIFT can be atmost 12 */
4401189be65SPaul Mackerras if (ssize == MMU_SEGSIZE_256M) {
4415524a27dSAneesh Kumar K.V mask = (1ul << (SID_SHIFT - VPN_SHIFT)) - 1;
4425524a27dSAneesh Kumar K.V hash = (vpn >> (SID_SHIFT - VPN_SHIFT)) ^
4435524a27dSAneesh Kumar K.V ((vpn & mask) >> (shift - VPN_SHIFT));
4441189be65SPaul Mackerras } else {
4455524a27dSAneesh Kumar K.V mask = (1ul << (SID_SHIFT_1T - VPN_SHIFT)) - 1;
4465524a27dSAneesh Kumar K.V vsid = vpn >> (SID_SHIFT_1T - VPN_SHIFT);
4475524a27dSAneesh Kumar K.V hash = vsid ^ (vsid << 25) ^
4485524a27dSAneesh Kumar K.V ((vpn & mask) >> (shift - VPN_SHIFT)) ;
4491189be65SPaul Mackerras }
4501189be65SPaul Mackerras return hash & 0x7fffffffffUL;
4518d2169e8SDavid Gibson }
4528d2169e8SDavid Gibson
453aefa5688SAneesh Kumar K.V #define HPTE_LOCAL_UPDATE 0x1
454aefa5688SAneesh Kumar K.V #define HPTE_NOHPTE_UPDATE 0x2
455d94b827eSAneesh Kumar K.V #define HPTE_USE_KERNEL_KEY 0x4
456aefa5688SAneesh Kumar K.V
45711f9c1d2SCédric Le Goater long hpte_insert_repeating(unsigned long hash, unsigned long vpn, unsigned long pa,
45811f9c1d2SCédric Le Goater unsigned long rlags, unsigned long vflags, int psize, int ssize);
4598d2169e8SDavid Gibson extern int __hash_page_4K(unsigned long ea, unsigned long access,
4608d2169e8SDavid Gibson unsigned long vsid, pte_t *ptep, unsigned long trap,
461aefa5688SAneesh Kumar K.V unsigned long flags, int ssize, int subpage_prot);
4628d2169e8SDavid Gibson extern int __hash_page_64K(unsigned long ea, unsigned long access,
4638d2169e8SDavid Gibson unsigned long vsid, pte_t *ptep, unsigned long trap,
464aefa5688SAneesh Kumar K.V unsigned long flags, int ssize);
4658d2169e8SDavid Gibson struct mm_struct;
4660895ecdaSDavid Gibson unsigned int hash_page_do_lazy_icache(unsigned int pp, pte_t pte, int trap);
467aefa5688SAneesh Kumar K.V extern int hash_page_mm(struct mm_struct *mm, unsigned long ea,
468aefa5688SAneesh Kumar K.V unsigned long access, unsigned long trap,
469aefa5688SAneesh Kumar K.V unsigned long flags);
470aefa5688SAneesh Kumar K.V extern int hash_page(unsigned long ea, unsigned long access, unsigned long trap,
471aefa5688SAneesh Kumar K.V unsigned long dsisr);
472cccaf1a1SCédric Le Goater void low_hash_fault(struct pt_regs *regs, unsigned long address, int rc);
473cccaf1a1SCédric Le Goater int __hash_page(unsigned long trap, unsigned long ea, unsigned long dsisr, unsigned long msr);
474a4fe3ce7SDavid Gibson int __hash_page_huge(unsigned long ea, unsigned long access, unsigned long vsid,
475aefa5688SAneesh Kumar K.V pte_t *ptep, unsigned long trap, unsigned long flags,
476aefa5688SAneesh Kumar K.V int ssize, unsigned int shift, unsigned int mmu_psize);
4776d492eccSAneesh Kumar K.V #ifdef CONFIG_TRANSPARENT_HUGEPAGE
4786d492eccSAneesh Kumar K.V extern int __hash_page_thp(unsigned long ea, unsigned long access,
4796d492eccSAneesh Kumar K.V unsigned long vsid, pmd_t *pmdp, unsigned long trap,
480aefa5688SAneesh Kumar K.V unsigned long flags, int ssize, unsigned int psize);
4816d492eccSAneesh Kumar K.V #else
__hash_page_thp(unsigned long ea,unsigned long access,unsigned long vsid,pmd_t * pmdp,unsigned long trap,unsigned long flags,int ssize,unsigned int psize)4826d492eccSAneesh Kumar K.V static inline int __hash_page_thp(unsigned long ea, unsigned long access,
4836d492eccSAneesh Kumar K.V unsigned long vsid, pmd_t *pmdp,
484aefa5688SAneesh Kumar K.V unsigned long trap, unsigned long flags,
4856d492eccSAneesh Kumar K.V int ssize, unsigned int psize)
4866d492eccSAneesh Kumar K.V {
4876d492eccSAneesh Kumar K.V BUG();
488ff1e7683SNathan Fontenot return -1;
4896d492eccSAneesh Kumar K.V }
4906d492eccSAneesh Kumar K.V #endif
4914b8692c0SBenjamin Herrenschmidt extern void hash_failure_debug(unsigned long ea, unsigned long access,
4924b8692c0SBenjamin Herrenschmidt unsigned long vsid, unsigned long trap,
493d8139ebfSAneesh Kumar K.V int ssize, int psize, int lpsize,
494d8139ebfSAneesh Kumar K.V unsigned long pte);
4958d2169e8SDavid Gibson extern int htab_bolt_mapping(unsigned long vstart, unsigned long vend,
496bc033b63SBenjamin Herrenschmidt unsigned long pstart, unsigned long prot,
4971189be65SPaul Mackerras int psize, int ssize);
498f6026df1SAnton Blanchard int htab_remove_mapping(unsigned long vstart, unsigned long vend,
499f6026df1SAnton Blanchard int psize, int ssize);
50079cc38deSAneesh Kumar K.V extern void pseries_add_gpage(u64 addr, u64 page_size, unsigned long number_of_pages);
501fa28237cSPaul Mackerras extern void demote_segment_4k(struct mm_struct *mm, unsigned long addr);
5028d2169e8SDavid Gibson
503425d3314SNicholas Piggin extern void hash__setup_new_exec(void);
504425d3314SNicholas Piggin
5056364e84eSMichael Ellerman #ifdef CONFIG_PPC_PSERIES
5066364e84eSMichael Ellerman void hpte_init_pseries(void);
5076364e84eSMichael Ellerman #else
hpte_init_pseries(void)5086364e84eSMichael Ellerman static inline void hpte_init_pseries(void) { }
5096364e84eSMichael Ellerman #endif
5106364e84eSMichael Ellerman
5118d2169e8SDavid Gibson extern void hpte_init_native(void);
5128d2169e8SDavid Gibson
513c6d15258SMahesh Salgaonkar struct slb_entry {
514c6d15258SMahesh Salgaonkar u64 esid;
515c6d15258SMahesh Salgaonkar u64 vsid;
516c6d15258SMahesh Salgaonkar };
517c6d15258SMahesh Salgaonkar
5188d2169e8SDavid Gibson extern void slb_initialize(void);
51994ee4272SNicholas Piggin void slb_flush_and_restore_bolted(void);
520e7e81847SNicholas Piggin void slb_flush_all_realmode(void);
521e7e81847SNicholas Piggin void __slb_restore_bolted_realmode(void);
522e7e81847SNicholas Piggin void slb_restore_bolted_realmode(void);
523c6d15258SMahesh Salgaonkar void slb_save_contents(struct slb_entry *slb_ptr);
524c6d15258SMahesh Salgaonkar void slb_dump_contents(struct slb_entry *slb_ptr);
5258d2169e8SDavid Gibson
52667439b76SMichael Neuling extern void slb_vmalloc_update(void);
5271f55aefeSCédric Le Goater void preload_new_slb_context(unsigned long start, unsigned long sp);
528387e220aSNicholas Piggin
529387e220aSNicholas Piggin #ifdef CONFIG_PPC_64S_HASH_MMU
530387e220aSNicholas Piggin void slb_set_size(u16 size);
531387e220aSNicholas Piggin #else
slb_set_size(u16 size)532387e220aSNicholas Piggin static inline void slb_set_size(u16 size) { }
533387e220aSNicholas Piggin #endif
534387e220aSNicholas Piggin
5358d2169e8SDavid Gibson #endif /* __ASSEMBLY__ */
5368d2169e8SDavid Gibson
5378d2169e8SDavid Gibson /*
538f033d659SAneesh Kumar K.V * VSID allocation (256MB segment)
5398d2169e8SDavid Gibson *
540c60ac569SAneesh Kumar K.V * We first generate a 37-bit "proto-VSID". Proto-VSIDs are generated
541c60ac569SAneesh Kumar K.V * from mmu context id and effective segment id of the address.
5428d2169e8SDavid Gibson *
543941711a3SAneesh Kumar K.V * For user processes max context id is limited to MAX_USER_CONTEXT.
5444ffe713bSAneesh Kumar K.V * more details in get_user_context
5454ffe713bSAneesh Kumar K.V *
5464ffe713bSAneesh Kumar K.V * For kernel space get_kernel_context
5478d2169e8SDavid Gibson *
5488d2169e8SDavid Gibson * The proto-VSIDs are then scrambled into real VSIDs with the
5498d2169e8SDavid Gibson * multiplicative hash:
5508d2169e8SDavid Gibson *
5518d2169e8SDavid Gibson * VSID = (proto-VSID * VSID_MULTIPLIER) % VSID_MODULUS
5528d2169e8SDavid Gibson *
553f033d659SAneesh Kumar K.V * VSID_MULTIPLIER is prime, so in particular it is
5548d2169e8SDavid Gibson * co-prime to VSID_MODULUS, making this a 1:1 scrambling function.
5558d2169e8SDavid Gibson * Because the modulus is 2^n-1 we can compute it efficiently without
556c60ac569SAneesh Kumar K.V * a divide or extra multiply (see below). The scramble function gives
557c60ac569SAneesh Kumar K.V * robust scattering in the hash table (at least based on some initial
558c60ac569SAneesh Kumar K.V * results).
5598d2169e8SDavid Gibson *
560941711a3SAneesh Kumar K.V * We use VSID 0 to indicate an invalid VSID. The means we can't use context id
561941711a3SAneesh Kumar K.V * 0, because a context id of 0 and an EA of 0 gives a proto-VSID of 0, which
562941711a3SAneesh Kumar K.V * will produce a VSID of 0.
5638d2169e8SDavid Gibson *
564c60ac569SAneesh Kumar K.V * We also need to avoid the last segment of the last context, because that
565c60ac569SAneesh Kumar K.V * would give a protovsid of 0x1fffffffff. That will result in a VSID 0
566941711a3SAneesh Kumar K.V * because of the modulo operation in vsid scramble.
5678d2169e8SDavid Gibson */
5688d2169e8SDavid Gibson
569e6f81a92SAneesh Kumar K.V /*
570e6f81a92SAneesh Kumar K.V * Max Va bits we support as of now is 68 bits. We want 19 bit
571e6f81a92SAneesh Kumar K.V * context ID.
572e6f81a92SAneesh Kumar K.V * Restrictions:
573e6f81a92SAneesh Kumar K.V * GPU has restrictions of not able to access beyond 128TB
574e6f81a92SAneesh Kumar K.V * (47 bit effective address). We also cannot do more than 20bit PID.
575e6f81a92SAneesh Kumar K.V * For p4 and p5 which can only do 65 bit VA, we restrict our CONTEXT_BITS
576e6f81a92SAneesh Kumar K.V * to 16 bits (ie, we can only have 2^16 pids at the same time).
577e6f81a92SAneesh Kumar K.V */
578e6f81a92SAneesh Kumar K.V #define VA_BITS 68
579e39d1a47SAneesh Kumar K.V #define CONTEXT_BITS 19
580e6f81a92SAneesh Kumar K.V #define ESID_BITS (VA_BITS - (SID_SHIFT + CONTEXT_BITS))
581e6f81a92SAneesh Kumar K.V #define ESID_BITS_1T (VA_BITS - (SID_SHIFT_1T + CONTEXT_BITS))
582e39d1a47SAneesh Kumar K.V
58379270e0aSAneesh Kumar K.V #define ESID_BITS_MASK ((1 << ESID_BITS) - 1)
58479270e0aSAneesh Kumar K.V #define ESID_BITS_1T_MASK ((1 << ESID_BITS_1T) - 1)
58579270e0aSAneesh Kumar K.V
586048ee099SAneesh Kumar K.V /*
5874ffe713bSAneesh Kumar K.V * Now certain config support MAX_PHYSMEM more than 512TB. Hence we will need
5884ffe713bSAneesh Kumar K.V * to use more than one context for linear mapping the kernel.
5894ffe713bSAneesh Kumar K.V * For vmalloc and memmap, we use just one context with 512TB. With 64 byte
5904ffe713bSAneesh Kumar K.V * struct page size, we need ony 32 TB in memmap for 2PB (51 bits (MAX_PHYSMEM_BITS)).
5914ffe713bSAneesh Kumar K.V */
592b32d5d7eSAneesh Kumar K.V #if (H_MAX_PHYSMEM_BITS > MAX_EA_BITS_PER_CONTEXT)
593b32d5d7eSAneesh Kumar K.V #define MAX_KERNEL_CTX_CNT (1UL << (H_MAX_PHYSMEM_BITS - MAX_EA_BITS_PER_CONTEXT))
5944ffe713bSAneesh Kumar K.V #else
5954ffe713bSAneesh Kumar K.V #define MAX_KERNEL_CTX_CNT 1
5964ffe713bSAneesh Kumar K.V #endif
5974ffe713bSAneesh Kumar K.V
5984ffe713bSAneesh Kumar K.V #define MAX_VMALLOC_CTX_CNT 1
5990034d395SAneesh Kumar K.V #define MAX_IO_CTX_CNT 1
6000034d395SAneesh Kumar K.V #define MAX_VMEMMAP_CTX_CNT 1
6014ffe713bSAneesh Kumar K.V
6024ffe713bSAneesh Kumar K.V /*
603c60ac569SAneesh Kumar K.V * 256MB segment
604af81d787SAneesh Kumar K.V * The proto-VSID space has 2^(CONTEX_BITS + ESID_BITS) - 1 segments
605941711a3SAneesh Kumar K.V * available for user + kernel mapping. VSID 0 is reserved as invalid, contexts
606941711a3SAneesh Kumar K.V * 1-4 are used for kernel mapping. Each segment contains 2^28 bytes. Each
607e6f81a92SAneesh Kumar K.V * context maps 2^49 bytes (512TB).
608941711a3SAneesh Kumar K.V *
609941711a3SAneesh Kumar K.V * We also need to avoid the last segment of the last context, because that
610941711a3SAneesh Kumar K.V * would give a protovsid of 0x1fffffffff. That will result in a VSID 0
611941711a3SAneesh Kumar K.V * because of the modulo operation in vsid scramble.
6124ffe713bSAneesh Kumar K.V *
613c60ac569SAneesh Kumar K.V */
614941711a3SAneesh Kumar K.V #define MAX_USER_CONTEXT ((ASM_CONST(1) << CONTEXT_BITS) - 2)
6155d2e5dd5SAneesh Kumar K.V
6165d2e5dd5SAneesh Kumar K.V // The + 2 accounts for INVALID_REGION and 1 more to avoid overlap with kernel
6174ffe713bSAneesh Kumar K.V #define MIN_USER_CONTEXT (MAX_KERNEL_CTX_CNT + MAX_VMALLOC_CTX_CNT + \
6185d2e5dd5SAneesh Kumar K.V MAX_IO_CTX_CNT + MAX_VMEMMAP_CTX_CNT + 2)
6195d2e5dd5SAneesh Kumar K.V
620c60ac569SAneesh Kumar K.V /*
621e6f81a92SAneesh Kumar K.V * For platforms that support on 65bit VA we limit the context bits
622048ee099SAneesh Kumar K.V */
623e6f81a92SAneesh Kumar K.V #define MAX_USER_CONTEXT_65BIT_VA ((ASM_CONST(1) << (65 - (SID_SHIFT + ESID_BITS))) - 2)
6248d2169e8SDavid Gibson
6258d2169e8SDavid Gibson /*
626e6f81a92SAneesh Kumar K.V * This should be computed such that protovosid * vsid_mulitplier
627e6f81a92SAneesh Kumar K.V * doesn't overflow 64 bits. The vsid_mutliplier should also be
628e6f81a92SAneesh Kumar K.V * co-prime to vsid_modulus. We also need to make sure that number
629e6f81a92SAneesh Kumar K.V * of bits in multiplied result (dividend) is less than twice the number of
630e6f81a92SAneesh Kumar K.V * protovsid bits for our modulus optmization to work.
6318d2169e8SDavid Gibson *
632e6f81a92SAneesh Kumar K.V * The below table shows the current values used.
633e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+-------------------|
634e6f81a92SAneesh Kumar K.V * | | Prime Bits | proto VSID_BITS_65VA | Total Bits | 2* prot VSID_BITS |
635e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+-------------------|
636e6f81a92SAneesh Kumar K.V * | 1T | 24 | 25 | 49 | 50 |
637e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+-------------------|
638e6f81a92SAneesh Kumar K.V * | 256MB | 24 | 37 | 61 | 74 |
639e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+-------------------|
6408d2169e8SDavid Gibson *
641e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+--------------------|
642e6f81a92SAneesh Kumar K.V * | | Prime Bits | proto VSID_BITS_68VA | Total Bits | 2* proto VSID_BITS |
643e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+--------------------|
644e6f81a92SAneesh Kumar K.V * | 1T | 24 | 28 | 52 | 56 |
645e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+--------------------|
646e6f81a92SAneesh Kumar K.V * | 256MB | 24 | 40 | 64 | 80 |
647e6f81a92SAneesh Kumar K.V * |-------+------------+----------------------+------------+--------------------|
648e6f81a92SAneesh Kumar K.V *
6498d2169e8SDavid Gibson */
650e6f81a92SAneesh Kumar K.V #define VSID_MULTIPLIER_256M ASM_CONST(12538073) /* 24-bit prime */
651e6f81a92SAneesh Kumar K.V #define VSID_BITS_256M (VA_BITS - SID_SHIFT)
652e6f81a92SAneesh Kumar K.V #define VSID_BITS_65_256M (65 - SID_SHIFT)
65382228e36SAneesh Kumar K.V /*
65482228e36SAneesh Kumar K.V * Modular multiplicative inverse of VSID_MULTIPLIER under modulo VSID_MODULUS
65582228e36SAneesh Kumar K.V */
65682228e36SAneesh Kumar K.V #define VSID_MULINV_256M ASM_CONST(665548017062)
657e6f81a92SAneesh Kumar K.V
658e6f81a92SAneesh Kumar K.V #define VSID_MULTIPLIER_1T ASM_CONST(12538073) /* 24-bit prime */
659e6f81a92SAneesh Kumar K.V #define VSID_BITS_1T (VA_BITS - SID_SHIFT_1T)
660e6f81a92SAneesh Kumar K.V #define VSID_BITS_65_1T (65 - SID_SHIFT_1T)
66182228e36SAneesh Kumar K.V #define VSID_MULINV_1T ASM_CONST(209034062)
662e6f81a92SAneesh Kumar K.V
66382228e36SAneesh Kumar K.V /* 1TB VSID reserved for VRMA */
66482228e36SAneesh Kumar K.V #define VRMA_VSID 0x1ffffffUL
665e6f81a92SAneesh Kumar K.V #define USER_VSID_RANGE (1UL << (ESID_BITS + SID_SHIFT))
6668d2169e8SDavid Gibson
66778f1dbdeSAneesh Kumar K.V /* 4 bits per slice and we have one slice per 1TB */
668dd1842a2SAneesh Kumar K.V #define SLICE_ARRAY_SIZE (H_PGTABLE_RANGE >> 41)
66960458fbaSAneesh Kumar K.V #define LOW_SLICE_ARRAY_SZ (BITS_PER_LONG / BITS_PER_BYTE)
67070110186SAneesh Kumar K.V #define TASK_SLICE_ARRAY_SZ(x) ((x)->hash_context->slb_addr_limit >> 41)
6718d2169e8SDavid Gibson #ifndef __ASSEMBLY__
6728d2169e8SDavid Gibson
673d28513bcSDavid Gibson #ifdef CONFIG_PPC_SUBPAGE_PROT
674d28513bcSDavid Gibson /*
675d28513bcSDavid Gibson * For the sub-page protection option, we extend the PGD with one of
676d28513bcSDavid Gibson * these. Basically we have a 3-level tree, with the top level being
677d28513bcSDavid Gibson * the protptrs array. To optimize speed and memory consumption when
678d28513bcSDavid Gibson * only addresses < 4GB are being protected, pointers to the first
679d28513bcSDavid Gibson * four pages of sub-page protection words are stored in the low_prot
680d28513bcSDavid Gibson * array.
681d28513bcSDavid Gibson * Each page of sub-page protection words protects 1GB (4 bytes
682d28513bcSDavid Gibson * protects 64k). For the 3-level tree, each page of pointers then
683d28513bcSDavid Gibson * protects 8TB.
684d28513bcSDavid Gibson */
685d28513bcSDavid Gibson struct subpage_prot_table {
686d28513bcSDavid Gibson unsigned long maxaddr; /* only addresses < this are protected */
687dad6f37cSAneesh Kumar K.V unsigned int **protptrs[(TASK_SIZE_USER64 >> 43)];
688d28513bcSDavid Gibson unsigned int *low_prot[4];
689d28513bcSDavid Gibson };
690d28513bcSDavid Gibson
691d28513bcSDavid Gibson #define SBP_L1_BITS (PAGE_SHIFT - 2)
692d28513bcSDavid Gibson #define SBP_L2_BITS (PAGE_SHIFT - 3)
693d28513bcSDavid Gibson #define SBP_L1_COUNT (1 << SBP_L1_BITS)
694d28513bcSDavid Gibson #define SBP_L2_COUNT (1 << SBP_L2_BITS)
695d28513bcSDavid Gibson #define SBP_L2_SHIFT (PAGE_SHIFT + SBP_L1_BITS)
696d28513bcSDavid Gibson #define SBP_L3_SHIFT (SBP_L2_SHIFT + SBP_L2_BITS)
697d28513bcSDavid Gibson
698d28513bcSDavid Gibson extern void subpage_prot_free(struct mm_struct *mm);
699d28513bcSDavid Gibson #else
subpage_prot_free(struct mm_struct * mm)700d28513bcSDavid Gibson static inline void subpage_prot_free(struct mm_struct *mm) {}
701d28513bcSDavid Gibson #endif /* CONFIG_PPC_SUBPAGE_PROT */
702d28513bcSDavid Gibson
70370110186SAneesh Kumar K.V /*
70470110186SAneesh Kumar K.V * One bit per slice. We have lower slices which cover 256MB segments
70570110186SAneesh Kumar K.V * upto 4G range. That gets us 16 low slices. For the rest we track slices
70670110186SAneesh Kumar K.V * in 1TB size.
70770110186SAneesh Kumar K.V */
70870110186SAneesh Kumar K.V struct slice_mask {
70970110186SAneesh Kumar K.V u64 low_slices;
71070110186SAneesh Kumar K.V DECLARE_BITMAP(high_slices, SLICE_NUM_HIGH);
71170110186SAneesh Kumar K.V };
71270110186SAneesh Kumar K.V
71370110186SAneesh Kumar K.V struct hash_mm_context {
71470110186SAneesh Kumar K.V u16 user_psize; /* page size index */
71570110186SAneesh Kumar K.V
71670110186SAneesh Kumar K.V /* SLB page size encodings*/
71770110186SAneesh Kumar K.V unsigned char low_slices_psize[LOW_SLICE_ARRAY_SZ];
71870110186SAneesh Kumar K.V unsigned char high_slices_psize[SLICE_ARRAY_SIZE];
71970110186SAneesh Kumar K.V unsigned long slb_addr_limit;
72070110186SAneesh Kumar K.V #ifdef CONFIG_PPC_64K_PAGES
72170110186SAneesh Kumar K.V struct slice_mask mask_64k;
72270110186SAneesh Kumar K.V #endif
72370110186SAneesh Kumar K.V struct slice_mask mask_4k;
72470110186SAneesh Kumar K.V #ifdef CONFIG_HUGETLB_PAGE
72570110186SAneesh Kumar K.V struct slice_mask mask_16m;
72670110186SAneesh Kumar K.V struct slice_mask mask_16g;
72770110186SAneesh Kumar K.V #endif
72870110186SAneesh Kumar K.V
72970110186SAneesh Kumar K.V #ifdef CONFIG_PPC_SUBPAGE_PROT
730ef629cc5SAneesh Kumar K.V struct subpage_prot_table *spt;
73170110186SAneesh Kumar K.V #endif /* CONFIG_PPC_SUBPAGE_PROT */
73270110186SAneesh Kumar K.V };
73370110186SAneesh Kumar K.V
7348d2169e8SDavid Gibson #if 0
7351189be65SPaul Mackerras /*
7361189be65SPaul Mackerras * The code below is equivalent to this function for arguments
7378d2169e8SDavid Gibson * < 2^VSID_BITS, which is all this should ever be called
7388d2169e8SDavid Gibson * with. However gcc is not clever enough to compute the
7391189be65SPaul Mackerras * modulus (2^n-1) without a second multiply.
7401189be65SPaul Mackerras */
74134692708SAnton Blanchard #define vsid_scramble(protovsid, size) \
7421189be65SPaul Mackerras ((((protovsid) * VSID_MULTIPLIER_##size) % VSID_MODULUS_##size))
7438d2169e8SDavid Gibson
744e6f81a92SAneesh Kumar K.V /* simplified form avoiding mod operation */
7451189be65SPaul Mackerras #define vsid_scramble(protovsid, size) \
7461189be65SPaul Mackerras ({ \
7471189be65SPaul Mackerras unsigned long x; \
7481189be65SPaul Mackerras x = (protovsid) * VSID_MULTIPLIER_##size; \
7491189be65SPaul Mackerras x = (x >> VSID_BITS_##size) + (x & VSID_MODULUS_##size); \
7501189be65SPaul Mackerras (x + ((x+1) >> VSID_BITS_##size)) & VSID_MODULUS_##size; \
7511189be65SPaul Mackerras })
752e6f81a92SAneesh Kumar K.V
753e6f81a92SAneesh Kumar K.V #else /* 1 */
vsid_scramble(unsigned long protovsid,unsigned long vsid_multiplier,int vsid_bits)754e6f81a92SAneesh Kumar K.V static inline unsigned long vsid_scramble(unsigned long protovsid,
755e6f81a92SAneesh Kumar K.V unsigned long vsid_multiplier, int vsid_bits)
756e6f81a92SAneesh Kumar K.V {
757e6f81a92SAneesh Kumar K.V unsigned long vsid;
758e6f81a92SAneesh Kumar K.V unsigned long vsid_modulus = ((1UL << vsid_bits) - 1);
759e6f81a92SAneesh Kumar K.V /*
760e6f81a92SAneesh Kumar K.V * We have same multipler for both 256 and 1T segements now
761e6f81a92SAneesh Kumar K.V */
762e6f81a92SAneesh Kumar K.V vsid = protovsid * vsid_multiplier;
763e6f81a92SAneesh Kumar K.V vsid = (vsid >> vsid_bits) + (vsid & vsid_modulus);
764e6f81a92SAneesh Kumar K.V return (vsid + ((vsid + 1) >> vsid_bits)) & vsid_modulus;
765e6f81a92SAneesh Kumar K.V }
766e6f81a92SAneesh Kumar K.V
7678d2169e8SDavid Gibson #endif /* 1 */
7688d2169e8SDavid Gibson
7691189be65SPaul Mackerras /* Returns the segment size indicator for a user address */
user_segment_size(unsigned long addr)7701189be65SPaul Mackerras static inline int user_segment_size(unsigned long addr)
7718d2169e8SDavid Gibson {
7721189be65SPaul Mackerras /* Use 1T segments if possible for addresses >= 1T */
7731189be65SPaul Mackerras if (addr >= (1UL << SID_SHIFT_1T))
7741189be65SPaul Mackerras return mmu_highuser_ssize;
7751189be65SPaul Mackerras return MMU_SEGSIZE_256M;
7761189be65SPaul Mackerras }
7771189be65SPaul Mackerras
get_vsid(unsigned long context,unsigned long ea,int ssize)7781189be65SPaul Mackerras static inline unsigned long get_vsid(unsigned long context, unsigned long ea,
7791189be65SPaul Mackerras int ssize)
7801189be65SPaul Mackerras {
781e6f81a92SAneesh Kumar K.V unsigned long va_bits = VA_BITS;
782e6f81a92SAneesh Kumar K.V unsigned long vsid_bits;
783e6f81a92SAneesh Kumar K.V unsigned long protovsid;
784e6f81a92SAneesh Kumar K.V
785c60ac569SAneesh Kumar K.V /*
786c60ac569SAneesh Kumar K.V * Bad address. We return VSID 0 for that
787c60ac569SAneesh Kumar K.V */
7880034d395SAneesh Kumar K.V if ((ea & EA_MASK) >= H_PGTABLE_RANGE)
789c60ac569SAneesh Kumar K.V return 0;
790c60ac569SAneesh Kumar K.V
791e6f81a92SAneesh Kumar K.V if (!mmu_has_feature(MMU_FTR_68_BIT_VA))
792e6f81a92SAneesh Kumar K.V va_bits = 65;
793e6f81a92SAneesh Kumar K.V
794e6f81a92SAneesh Kumar K.V if (ssize == MMU_SEGSIZE_256M) {
795e6f81a92SAneesh Kumar K.V vsid_bits = va_bits - SID_SHIFT;
796e6f81a92SAneesh Kumar K.V protovsid = (context << ESID_BITS) |
797e6f81a92SAneesh Kumar K.V ((ea >> SID_SHIFT) & ESID_BITS_MASK);
798e6f81a92SAneesh Kumar K.V return vsid_scramble(protovsid, VSID_MULTIPLIER_256M, vsid_bits);
799e6f81a92SAneesh Kumar K.V }
800e6f81a92SAneesh Kumar K.V /* 1T segment */
801e6f81a92SAneesh Kumar K.V vsid_bits = va_bits - SID_SHIFT_1T;
802e6f81a92SAneesh Kumar K.V protovsid = (context << ESID_BITS_1T) |
803e6f81a92SAneesh Kumar K.V ((ea >> SID_SHIFT_1T) & ESID_BITS_1T_MASK);
804e6f81a92SAneesh Kumar K.V return vsid_scramble(protovsid, VSID_MULTIPLIER_1T, vsid_bits);
8058d2169e8SDavid Gibson }
8068d2169e8SDavid Gibson
807c60ac569SAneesh Kumar K.V /*
80810a4a016SRandy Dunlap * For kernel space, we use context ids as
8094ffe713bSAneesh Kumar K.V * below. Range is 512TB per context.
8104ffe713bSAneesh Kumar K.V *
8114ffe713bSAneesh Kumar K.V * 0x00001 - [ 0xc000000000000000 - 0xc001ffffffffffff]
8124ffe713bSAneesh Kumar K.V * 0x00002 - [ 0xc002000000000000 - 0xc003ffffffffffff]
8134ffe713bSAneesh Kumar K.V * 0x00003 - [ 0xc004000000000000 - 0xc005ffffffffffff]
8144ffe713bSAneesh Kumar K.V * 0x00004 - [ 0xc006000000000000 - 0xc007ffffffffffff]
8154ffe713bSAneesh Kumar K.V *
8160034d395SAneesh Kumar K.V * vmap, IO, vmemap
8170034d395SAneesh Kumar K.V *
8180034d395SAneesh Kumar K.V * 0x00005 - [ 0xc008000000000000 - 0xc009ffffffffffff]
8190034d395SAneesh Kumar K.V * 0x00006 - [ 0xc00a000000000000 - 0xc00bffffffffffff]
8200034d395SAneesh Kumar K.V * 0x00007 - [ 0xc00c000000000000 - 0xc00dffffffffffff]
8210034d395SAneesh Kumar K.V *
8224ffe713bSAneesh Kumar K.V */
get_kernel_context(unsigned long ea)8234ffe713bSAneesh Kumar K.V static inline unsigned long get_kernel_context(unsigned long ea)
8244ffe713bSAneesh Kumar K.V {
8250034d395SAneesh Kumar K.V unsigned long region_id = get_region_id(ea);
8264ffe713bSAneesh Kumar K.V unsigned long ctx;
8274ffe713bSAneesh Kumar K.V /*
8280034d395SAneesh Kumar K.V * Depending on Kernel config, kernel region can have one context
8290034d395SAneesh Kumar K.V * or more.
8304ffe713bSAneesh Kumar K.V */
8315f53d286SAneesh Kumar K.V if (region_id == LINEAR_MAP_REGION_ID) {
8324ffe713bSAneesh Kumar K.V /*
8334ffe713bSAneesh Kumar K.V * We already verified ea to be not beyond the addr limit.
8344ffe713bSAneesh Kumar K.V */
8350034d395SAneesh Kumar K.V ctx = 1 + ((ea & EA_MASK) >> MAX_EA_BITS_PER_CONTEXT);
8364ffe713bSAneesh Kumar K.V } else
8371c946c1bSAneesh Kumar K.V ctx = region_id + MAX_KERNEL_CTX_CNT - 1;
8384ffe713bSAneesh Kumar K.V return ctx;
8394ffe713bSAneesh Kumar K.V }
8404ffe713bSAneesh Kumar K.V
8414ffe713bSAneesh Kumar K.V /*
842c60ac569SAneesh Kumar K.V * This is only valid for addresses >= PAGE_OFFSET
843c60ac569SAneesh Kumar K.V */
get_kernel_vsid(unsigned long ea,int ssize)844c60ac569SAneesh Kumar K.V static inline unsigned long get_kernel_vsid(unsigned long ea, int ssize)
845c60ac569SAneesh Kumar K.V {
846c60ac569SAneesh Kumar K.V unsigned long context;
847c60ac569SAneesh Kumar K.V
84885beb1c4SMichael Ellerman if (!is_kernel_addr(ea))
84985beb1c4SMichael Ellerman return 0;
85085beb1c4SMichael Ellerman
8514ffe713bSAneesh Kumar K.V context = get_kernel_context(ea);
852c60ac569SAneesh Kumar K.V return get_vsid(context, ea, ssize);
853c60ac569SAneesh Kumar K.V }
8545c3c7edeSDavid Gibson
8555c3c7edeSDavid Gibson unsigned htab_shift_for_mem_size(unsigned long mem_size);
8565c3c7edeSDavid Gibson
8573ba150fbSGanesh Goudar enum slb_index {
8583ba150fbSGanesh Goudar LINEAR_INDEX = 0, /* Kernel linear map (0xc000000000000000) */
8593ba150fbSGanesh Goudar KSTACK_INDEX = 1, /* Kernel stack map */
8603ba150fbSGanesh Goudar };
8618d2169e8SDavid Gibson
8623ba150fbSGanesh Goudar #define slb_esid_mask(ssize) \
8633ba150fbSGanesh Goudar (((ssize) == MMU_SEGSIZE_256M) ? ESID_MASK : ESID_MASK_1T)
8643ba150fbSGanesh Goudar
mk_esid_data(unsigned long ea,int ssize,enum slb_index index)8653ba150fbSGanesh Goudar static inline unsigned long mk_esid_data(unsigned long ea, int ssize,
8663ba150fbSGanesh Goudar enum slb_index index)
8673ba150fbSGanesh Goudar {
8683ba150fbSGanesh Goudar return (ea & slb_esid_mask(ssize)) | SLB_ESID_V | index;
8693ba150fbSGanesh Goudar }
8703ba150fbSGanesh Goudar
__mk_vsid_data(unsigned long vsid,int ssize,unsigned long flags)8713ba150fbSGanesh Goudar static inline unsigned long __mk_vsid_data(unsigned long vsid, int ssize,
8723ba150fbSGanesh Goudar unsigned long flags)
8733ba150fbSGanesh Goudar {
8743ba150fbSGanesh Goudar return (vsid << slb_vsid_shift(ssize)) | flags |
8753ba150fbSGanesh Goudar ((unsigned long)ssize << SLB_VSID_SSIZE_SHIFT);
8763ba150fbSGanesh Goudar }
8773ba150fbSGanesh Goudar
mk_vsid_data(unsigned long ea,int ssize,unsigned long flags)8783ba150fbSGanesh Goudar static inline unsigned long mk_vsid_data(unsigned long ea, int ssize,
8793ba150fbSGanesh Goudar unsigned long flags)
8803ba150fbSGanesh Goudar {
8813ba150fbSGanesh Goudar return __mk_vsid_data(get_kernel_vsid(ea, ssize), ssize, flags);
8823ba150fbSGanesh Goudar }
8833ba150fbSGanesh Goudar
8843ba150fbSGanesh Goudar #endif /* __ASSEMBLY__ */
88511a6f6abSAneesh Kumar K.V #endif /* _ASM_POWERPC_BOOK3S_64_MMU_HASH_H_ */
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