xref: /titanic_41/usr/src/uts/sun4u/sys/pte.h (revision 2e02daeede04af58a9d4f18f8dfed1fda3ececa1)
1 /*
2  * CDDL HEADER START
3  *
4  * The contents of this file are subject to the terms of the
5  * Common Development and Distribution License (the "License").
6  * You may not use this file except in compliance with the License.
7  *
8  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9  * or http://www.opensolaris.org/os/licensing.
10  * See the License for the specific language governing permissions
11  * and limitations under the License.
12  *
13  * When distributing Covered Code, include this CDDL HEADER in each
14  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15  * If applicable, add the following below this CDDL HEADER, with the
16  * fields enclosed by brackets "[]" replaced with your own identifying
17  * information: Portions Copyright [yyyy] [name of copyright owner]
18  *
19  * CDDL HEADER END
20  */
21 /*
22  * Copyright 2008 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef _SYS_PTE_H
27 #define	_SYS_PTE_H
28 
29 #ifndef _ASM
30 #include <sys/types.h>
31 #endif /* _ASM */
32 
33 #ifdef	__cplusplus
34 extern "C" {
35 #endif
36 
37 #ifndef _ASM
38 /*
39  * The tte struct is a 64 bit data type.  Since we currently plan to
40  * use a V8 compiler all manipulations in C will be done using the bit fields
41  * or as 2 integers.  In assembly code we will deal with it as a double (using
42  * ldx and stx).  The structure is defined to force a double alignment.
43  * Note that USIIi uses bits [47:41] for diag, and [49:48] are reserved.
44  * Note that pa[46:32] includes USIIi diag bits [46:41] and USIII reserved
45  * bits [46:43].
46  */
47 typedef union {
48 	struct tte {
49 		uint32_t	v:1;		/* 1=valid mapping */
50 		uint32_t	sz:2;		/* 0=8k 1=64k 2=512k 3=4m */
51 		uint32_t	nfo:1;		/* 1=no-fault access only */
52 
53 		uint32_t	ie:1;		/* 1=invert endianness */
54 		uint32_t	hmenum:3;	/* sw - # of hment in hme_blk */
55 
56 		uint32_t	rsv:7;		/* former rsv:1 lockcnt:6 */
57 		uint32_t	sz2:1;		/* sz2[48] Panther, Olympus-C */
58 		uint32_t	diag:1;		/* See USII Note above. */
59 		uint32_t	pahi:15;	/* pa[46:32] See Note above */
60 		uint32_t	palo:19;	/* pa[31:13] */
61 		uint32_t	no_sync:1;	/* sw - ghost unload */
62 
63 		uint32_t	suspend:1;	/* sw bits - suspended */
64 		uint32_t	ref:1;		/* sw - reference */
65 		uint32_t	wr_perm:1;	/* sw - write permission */
66 		uint32_t	exec_synth:1;	/* sw bits - itlb synthesis */
67 
68 		uint32_t	exec_perm:1;	/* sw - execute permission */
69 		uint32_t	l:1;		/* 1=lock in tlb */
70 		uint32_t	cp:1;		/* 1=cache in ecache, icache */
71 		uint32_t	cv:1;		/* 1=cache in dcache */
72 
73 		uint32_t	e:1;		/* 1=side effect */
74 		uint32_t	p:1;		/* 1=privilege required */
75 		uint32_t	w:1;		/* 1=writes allowed */
76 		uint32_t	g:1;		/* 1=any context matches */
77 	} tte_bit;
78 	struct {
79 		int32_t		inthi;
80 		uint32_t	intlo;
81 	} tte_int;
82 	uint64_t		ll;
83 } tte_t;
84 
85 #define	tte_val 	tte_bit.v		/* use < 0 check in asm */
86 #define	tte_size	tte_bit.sz
87 #define	tte_size2	tte_bit.sz2
88 #define	tte_nfo		tte_bit.nfo
89 #define	tte_ie		tte_bit.ie		/* XXX? */
90 #define	tte_hmenum	tte_bit.hmenum
91 #define	tte_pahi	tte_bit.pahi
92 #define	tte_palo	tte_bit.palo
93 #define	tte_no_sync	tte_bit.no_sync
94 #define	tte_suspend	tte_bit.suspend
95 #define	tte_ref		tte_bit.ref
96 #define	tte_wr_perm	tte_bit.wr_perm
97 #define	tte_exec_synth	tte_bit.exec_synth
98 #define	tte_exec_perm	tte_bit.exec_perm
99 #define	tte_lock	tte_bit.l
100 #define	tte_cp		tte_bit.cp
101 #define	tte_cv		tte_bit.cv
102 #define	tte_se		tte_bit.e
103 #define	tte_priv	tte_bit.p
104 #define	tte_hwwr	tte_bit.w
105 #define	tte_glb		tte_bit.g
106 
107 #define	tte_inthi	tte_int.inthi
108 #define	tte_intlo	tte_int.intlo
109 
110 #endif /* !_ASM */
111 
112 /*
113  * Defines for valid, sz, sz2 fields in tte.
114  * The TTE_CSZ macro combines the sz and sz2 fields.
115  */
116 #define	TTE8K			0x0
117 #define	TTE64K			0x1
118 #define	TTE512K			0x2
119 #define	TTE4M			0x3
120 #define	TTE32M			0x4
121 #define	TTE256M			0x5
122 #define	TTESZ_VALID		0x4
123 
124 #define	TTE_SZ_SHFT_INT		29
125 #define	TTE_SZ_SHFT		32+29
126 #define	TTE_SZ_BITS		0x3
127 
128 #define	TTE_SZ2_SHFT_INT	14
129 #define	TTE_SZ2_SHFT		32+14
130 #define	TTE_SZ2_BITS		0x4
131 #define	TTE_CSZ_BITS		0x7
132 #define	TTE_CSZ(ttep)	(((ttep)->tte_size2 << 2) | ((ttep)->tte_size))
133 
134 /*
135  * the tte lock cnt now lives in the hme blk and is 16 bits long. See
136  * comments in hme_blk declaration.
137  */
138 #define	MAX_TTE_LCKCNT		(0x10000 - 1)
139 
140 #define	TTE_BSZS_SHIFT(sz)	((sz) * 3)
141 #define	TTEBYTES(sz)		(MMU_PAGESIZE << TTE_BSZS_SHIFT(sz))
142 #define	TTEPAGES(sz)		(1 << TTE_BSZS_SHIFT(sz))
143 #define	TTE_PAGE_SHIFT(sz)	(MMU_PAGESHIFT + TTE_BSZS_SHIFT(sz))
144 #define	TTE_PAGE_OFFSET(sz)	(TTEBYTES(sz) - 1)
145 #define	TTE_PAGEMASK(sz)	(~TTE_PAGE_OFFSET(sz))
146 #define	TTE_PFNMASK(sz)		(~(TTE_PAGE_OFFSET(sz) >> MMU_PAGESHIFT))
147 
148 #define	TTE_PA_LSHIFT		17	/* used to do sllx on tte to get pa */
149 
150 #ifndef _ASM
151 
152 #define	TTE_PASHIFT		19	/* used to manage pahi and palo */
153 #define	TTE_PALOMASK		((1 << TTE_PASHIFT) -1)
154 /*
155  * Spitfire PFN is defined as bits [40:13] of the physical address.
156  * Cheetah PFN is defined as bits [42:13] of the physical address.
157  * Olympus-C PFN is defined as bits [46:13] of the physical address.
158  */
159 #define	TTE_TO_TTEPFN(ttep)						\
160 	(((((pfn_t)((ttep)->tte_pahi)) << TTE_PASHIFT) |		\
161 	(ttep)->tte_palo) & TTE_PFNMASK(TTE_CSZ(ttep)))
162 /*
163  * This define adds the vaddr page offset to obtain a correct pfn
164  */
165 #define	TTE_TO_PFN(vaddr, ttep)						\
166 	(sfmmu_ttetopfn(ttep, vaddr))
167 
168 #define	PFN_TO_TTE(entry, pfn) {		\
169 	entry.tte_pahi = pfn >> TTE_PASHIFT;	\
170 	entry.tte_palo = pfn & TTE_PALOMASK;	\
171 	}
172 
173 #endif /* !_ASM */
174 
175 /*
176  * The tte defines are separated into integers because the compiler doesn't
177  * support 64bit defines.
178  */
179 /* Defines for tte using inthi */
180 #define	TTE_VALID_INT			0x80000000
181 #define	TTE_NFO_INT			0x10000000
182 #define	TTE_NFO_SHIFT			0x3	/* makes for an easy check */
183 #define	TTE_IE_INT			0x08000000
184 
185 /* Defines for tte using intlo */
186 #define	TTE_SUSPEND_SHIFT		0
187 #define	TTE_NOSYNC_INT			0x00001000
188 #define	TTE_SUSPEND			0x00000800
189 #define	TTE_REF_INT			0x00000400
190 #define	TTE_WRPRM_INT			0x00000200
191 #define	TTE_E_SYNTH_INT			0x00000100
192 #define	TTE_EXECPRM_INT			0x00000080
193 #define	TTE_LCK_INT			0x00000040
194 #define	TTE_CP_INT			0x00000020
195 #define	TTE_CV_INT			0x00000010
196 #define	TTE_SIDEFF_INT			0x00000008
197 #define	TTE_PRIV_INT			0x00000004
198 #define	TTE_HWWR_INT			0x00000002
199 #define	TTE_GLB_INT			0x00000001
200 
201 #define	TTE_PROT_INT			(TTE_WRPRM_INT | TTE_PRIV_INT)
202 
203 /*
204  * Define to clear the high-order 6 bits of the 47-bit PA in a tte.  The
205  * Spitfire tte has PFN in [40:13] and uses [46:41] as part of Diag bits.
206  */
207 #define	TTE_SPITFIRE_PFNHI_CLEAR	0x3f
208 #define	TTE_SPITFIRE_PFNHI_SHIFT	41
209 
210 #ifndef ASM
211 
212 /* Defines to help build ttes using inthi */
213 #define	TTE_SZ_INT(sz)	\
214 	((sz & TTE_SZ_BITS) << TTE_SZ_SHFT_INT) | \
215 	((sz & TTE_SZ2_BITS) << TTE_SZ2_SHFT_INT)
216 #define	TTE_HMENUM_INT(hmenum)		((hmenum) << 24)
217 /* XXX PFN is defined as bits [40-13] of the physical address */
218 #define	TTE_PFN_INTHI(pfn)		((pfn) >> TTE_PASHIFT)
219 #define	TTE_VALID_CHECK(attr)	\
220 	(((attr) & PROT_ALL) ? TTE_VALID_INT : 0)
221 #define	TTE_IE_CHECK(attr)	\
222 	(((attr) & HAT_STRUCTURE_LE) ? TTE_IE_INT : 0)
223 #define	TTE_NFO_CHECK(attr)	\
224 	(((attr) & HAT_NOFAULT) ? TTE_NFO_INT : 0)
225 
226 /* Defines to help build ttes using intlo */
227 #define	TTE_PFN_INTLO(pfn)		(((pfn) & TTE_PALOMASK) << 13)
228 #define	TTE_WRPRM_CHECK(attr)	 \
229 	(((attr) & PROT_WRITE) ? TTE_WRPRM_INT : 0)
230 #define	TTE_EXECPRM_CHECK(attr)	 \
231 	(((attr) & PROT_EXEC) ? TTE_EXECPRM_INT : 0)
232 #define	TTE_NOSYNC_CHECK(attr)	 \
233 	(((attr) & HAT_NOSYNC) ? TTE_NOSYNC_INT : 0)
234 #define	TTE_CP_CHECK(attr)	\
235 	(((attr) & SFMMU_UNCACHEPTTE) ? 0: TTE_CP_INT)
236 #define	TTE_CV_CHECK(attr)	\
237 	(((attr) & SFMMU_UNCACHEVTTE) ? 0: TTE_CV_INT)
238 #define	TTE_SE_CHECK(attr)	\
239 	(((attr) & SFMMU_SIDEFFECT) ? TTE_SIDEFF_INT : 0)
240 #define	TTE_PRIV_CHECK(attr)	\
241 	(((attr) & PROT_USER) ? 0 : TTE_PRIV_INT)
242 
243 #define	MAKE_TTEATTR_INTHI(attr)				\
244 	(TTE_VALID_CHECK(attr) | TTE_NFO_CHECK(attr) | TTE_IE_CHECK(attr))
245 
246 #define	MAKE_TTE_INTHI(pfn, attr, sz, hmenum)			\
247 	(MAKE_TTEATTR_INTHI(attr) | TTE_SZ_INT(sz) |		\
248 	TTE_HMENUM_INT(hmenum) | TTE_PFN_INTHI(pfn))
249 
250 #define	MAKE_TTEATTR_INTLO(attr)					\
251 	(TTE_WRPRM_CHECK(attr) | TTE_NOSYNC_CHECK(attr) |		\
252 	TTE_CP_CHECK(attr) | TTE_CV_CHECK(attr) | TTE_SE_CHECK(attr) |	\
253 	TTE_PRIV_CHECK(attr) | TTE_EXECPRM_CHECK(attr))
254 
255 #define	MAKE_TTE_INTLO(pfn, attr, sz, hmenum)				\
256 	(TTE_PFN_INTLO(pfn) | TTE_REF_INT | MAKE_TTEATTR_INTLO(attr))
257 
258 #define	TTEINTHI_ATTR	(TTE_VALID_INT | TTE_IE_INT | TTE_NFO_INT)
259 
260 #define	TTEINTLO_ATTR							\
261 	(TTE_WRPRM_INT | TTE_NOSYNC_INT | TTE_CP_INT | TTE_CV_INT |	\
262 	TTE_SIDEFF_INT | TTE_PRIV_INT | TTE_EXECPRM_INT)
263 
264 #define	MAKE_TTE_MASK(ttep)			\
265 	{					\
266 		(ttep)->tte_bit.v = 1;		\
267 		(ttep)->tte_bit.sz = 3;		\
268 		(ttep)->tte_bit.nfo = 1;	\
269 		(ttep)->tte_bit.ie = 1;		\
270 		(ttep)->tte_bit.sz2 = 1;	\
271 		(ttep)->tte_bit.pahi = 0x7fff;	\
272 		(ttep)->tte_bit.palo = 0x7ffff;	\
273 		(ttep)->tte_bit.exec_perm = 1;	\
274 		(ttep)->tte_bit.l = 1;		\
275 		(ttep)->tte_bit.cp = 1;		\
276 		(ttep)->tte_bit.cv = 1;		\
277 		(ttep)->tte_bit.e = 1;		\
278 		(ttep)->tte_bit.p = 1;		\
279 		(ttep)->tte_bit.w = 1;		\
280 		(ttep)->tte_bit.g = 1;		\
281 	}
282 
283 /*
284  * Defines to check/set TTE bits.
285  */
286 #define	TTE_IS_VALID(ttep)	((ttep)->tte_inthi < 0)
287 #define	TTE_SET_INVALID(ttep)	((ttep)->tte_val = 0)
288 #define	TTE_IS_8K(ttep)		(TTE_CSZ(ttep) == TTE8K)
289 #define	TTE_IS_WRITABLE(ttep)	((ttep)->tte_wr_perm)
290 #define	TTE_IS_EXECUTABLE(ttep)	((ttep)->tte_exec_perm)
291 #define	TTE_IS_PRIVILEGED(ttep)	((ttep)->tte_priv)
292 #define	TTE_IS_NOSYNC(ttep)	((ttep)->tte_no_sync)
293 #define	TTE_IS_LOCKED(ttep)	((ttep)->tte_lock)
294 #define	TTE_IS_GLOBAL(ttep)	((ttep)->tte_glb)
295 #define	TTE_IS_SIDEFFECT(ttep)	((ttep)->tte_se)
296 #define	TTE_IS_NFO(ttep)	((ttep)->tte_nfo)
297 
298 #define	TTE_IS_REF(ttep)	((ttep)->tte_ref)
299 #define	TTE_IS_MOD(ttep)	((ttep)->tte_hwwr)
300 #define	TTE_IS_IE(ttep)		((ttep)->tte_ie)
301 #define	TTE_SET_SUSPEND(ttep)	((ttep)->tte_suspend = 1)
302 #define	TTE_CLR_SUSPEND(ttep)	((ttep)->tte_suspend = 0)
303 #define	TTE_IS_SUSPEND(ttep)	((ttep)->tte_suspend)
304 #define	TTE_SET_REF(ttep)	((ttep)->tte_ref = 1)
305 #define	TTE_CLR_REF(ttep)	((ttep)->tte_ref = 0)
306 #define	TTE_SET_LOCKED(ttep)	((ttep)->tte_lock = 1)
307 #define	TTE_CLR_LOCKED(ttep)	((ttep)->tte_lock = 0)
308 #define	TTE_SET_MOD(ttep)	((ttep)->tte_hwwr = 1)
309 #define	TTE_CLR_MOD(ttep)	((ttep)->tte_hwwr = 0)
310 #define	TTE_SET_RM(ttep)						\
311 	(((ttep)->tte_intlo) = (ttep)->tte_intlo | TTE_HWWR_INT | TTE_REF_INT)
312 #define	TTE_CLR_RM(ttep)						\
313 	(((ttep)->tte_intlo) = (ttep)->tte_intlo &			\
314 	~(TTE_HWWR_INT | TTE_REF_INT))
315 
316 #define	TTE_SET_WRT(ttep)	((ttep)->tte_wr_perm = 1)
317 #define	TTE_CLR_WRT(ttep)	((ttep)->tte_wr_perm = 0)
318 #define	TTE_SET_EXEC(ttep)	((ttep)->tte_exec_perm = 1)
319 #define	TTE_CLR_EXEC(ttep)	((ttep)->tte_exec_perm = 0)
320 #define	TTE_SET_PRIV(ttep)	((ttep)->tte_priv = 1)
321 #define	TTE_CLR_PRIV(ttep)	((ttep)->tte_priv = 0)
322 
323 #define	TTE_IS_VCACHEABLE(ttep)		((ttep)->tte_cv)
324 #define	TTE_SET_VCACHEABLE(ttep)	((ttep)->tte_cv = 1)
325 #define	TTE_CLR_VCACHEABLE(ttep)	((ttep)->tte_cv = 0)
326 #define	TTE_IS_PCACHEABLE(ttep)		((ttep)->tte_cp)
327 #define	TTE_SET_PCACHEABLE(ttep)	((ttep)->tte_cp = 1)
328 #define	TTE_CLR_PCACHEABLE(ttep)	((ttep)->tte_cp = 0)
329 
330 
331 #define	KPM_TTE_VCACHED(tte64, pfn, tte_sz)				\
332 	tte64 = (((uint64_t)(TTE_VALID_INT |				\
333 	    (tte_sz) << TTE_SZ_SHFT_INT)) << 32) |			\
334 	    (((pfn) >> TTE_BSZS_SHIFT(tte_sz)) <<			\
335 	    (TTE_BSZS_SHIFT(tte_sz) + MMU_PAGESHIFT)) |			\
336 	    (TTE_CP_INT | TTE_CV_INT | TTE_PRIV_INT | TTE_HWWR_INT)
337 
338 #define	KPM_TTE_VUNCACHED(tte64, pfn, tte_sz)				\
339 	tte64 = (((uint64_t)(TTE_VALID_INT |				\
340 	    (tte_sz) << TTE_SZ_SHFT_INT)) << 32) |			\
341 	    (((pfn) >> TTE_BSZS_SHIFT(tte_sz)) <<			\
342 	    (TTE_BSZS_SHIFT(tte_sz) + MMU_PAGESHIFT)) |			\
343 	    (TTE_CP_INT | TTE_PRIV_INT | TTE_HWWR_INT)
344 
345 /*
346  * This define provides a generic method to set and clear multiple tte flags.
347  * A bitmask of all flags to be affected is passed in "flags" and a bitmask
348  * of the new values is passed in "newflags".
349  */
350 #define	TTE_SET_LOFLAGS(ttep, flags, newflags)				\
351 	((ttep)->tte_intlo = ((ttep)->tte_intlo & ~(flags)) | (newflags))
352 
353 #define	TTE_GET_LOFLAGS(ttep, flags)	((ttep)->tte_intlo & flags)
354 
355 #endif /* !_ASM */
356 
357 /*
358  * There is no support for non-coherent I-cache in sun4u
359  */
360 #define	TTE_SOFTEXEC_INT	0x00000000
361 #ifndef _ASM
362 #ifdef lint
363 /* fix lint warnings about constant conditionals and empty if */
364 #define	TTE_IS_SOFTEXEC(ttep)	TTE_IS_EXECUTABLE(ttep)
365 #define	TTE_SET_SOFTEXEC(ttep)	TTE_SET_EXEC(ttep)
366 #define	TTE_CLR_SOFTEXEC(ttep)	TTE_CLR_EXEC(ttep)
367 #else
368 #define	TTE_IS_SOFTEXEC(ttep)	(0)
369 #define	TTE_SET_SOFTEXEC(ttep)
370 #define	TTE_CLR_SOFTEXEC(ttep)
371 #endif	/* lint */
372 #endif /* !_ASM */
373 
374 #ifdef	__cplusplus
375 }
376 #endif
377 
378 #endif /* !_SYS_PTE_H */
379