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1/*
2 * Copyright (c) 2003 Apple Computer, Inc. All rights reserved.
3 *
4 * @APPLE_LICENSE_HEADER_START@
5 *
6 * Copyright (c) 1999-2003 Apple Computer, Inc. All Rights Reserved.
7 *
8 * This file contains Original Code and/or Modifications of Original Code
9 * as defined in and that are subject to the Apple Public Source License
10 * Version 2.0 (the 'License'). You may not use this file except in
11 * compliance with the License. Please obtain a copy of the License at
12 * http://www.opensource.apple.com/apsl/ and read it before using this
13 * file.
14 *
15 * The Original Code and all software distributed under the License are
16 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
17 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
18 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
19 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
20 * Please see the License for the specific language governing rights and
21 * limitations under the License.
22 *
23 * @APPLE_LICENSE_HEADER_END@
24 */
25
26/*
27 * Here's what to do if you want to add a new routine to the comm page:
28 *
29 * 1. Add a definition for it's address in osfmk/ppc/cpu_capabilities.h,
30 * being careful to reserve room for future expansion.
31 *
32 * 2. Write one or more versions of the routine, each with it's own
33 * commpage_descriptor. The tricky part is getting the "special",
34 * "musthave", and "canthave" fields right, so that exactly one
35 * version of the routine is selected for every machine.
36 * The source files should be in osfmk/ppc/commpage/.
37 *
38 * 3. Add a ptr to your new commpage_descriptor(s) in the "routines"
39 * array in commpage_populate(). Of course, you'll also have to
40 * declare them "extern" in commpage_populate().
41 *
42 * 4. Write the code in Libc to use the new routine.
43 */
44
45#include <mach/mach_types.h>
46#include <mach/machine.h>
47#include <i386/machine_routines.h>
48#include <machine/cpu_capabilities.h>
49#include <machine/commpage.h>
50#include <machine/pmap.h>
51#include <vm/vm_kern.h>
52#include <mach/vm_map.h>
53
54static uintptr_t next = 0; // next available byte in comm page
55static int cur_routine = 0; // comm page address of "current" routine
56static int matched; // true if we've found a match for "current" routine
57
58int _cpu_capabilities = 0; // define the capability vector
59
60char *commPagePtr = NULL; // virtual address of comm page in kernel map
61
62/* Allocate the commpage and add to the shared submap created by vm:
63 * 1. allocate a page in the kernel map (RW)
64 * 2. wire it down
65 * 3. make a memory entry out of it
66 * 4. map that entry into the shared comm region map (R-only)
67 */
68
69static void*
70commpage_allocate( void )
71{
72 extern vm_map_t com_region_map; // the shared submap, set up in vm init
73 vm_offset_t kernel_addr; // address of commpage in kernel map
74 vm_offset_t zero = 0;
75 vm_size_t size = _COMM_PAGE_AREA_LENGTH;
76 ipc_port_t handle;
77
78 if (com_region_map == NULL)
79 panic("commpage map is null");
80
81 if (vm_allocate(kernel_map,&kernel_addr,_COMM_PAGE_AREA_LENGTH,VM_FLAGS_ANYWHERE))
82 panic("cannot allocate commpage");
83
84 if (vm_map_wire(kernel_map,kernel_addr,kernel_addr+_COMM_PAGE_AREA_LENGTH,VM_PROT_DEFAULT,FALSE))
85 panic("cannot wire commpage");
86
87 if (mach_make_memory_entry( kernel_map, // target map
88 &size, // size
89 kernel_addr, // offset (address in kernel map)
90 VM_PROT_DEFAULT, // map it RW
91 &handle, // this is the object handle we get
92 NULL )) // parent_entry (what is this?)
93 panic("cannot make entry for commpage");
94
95 if (vm_map_64( com_region_map, // target map (shared submap)
96 &zero, // address (map into 1st page in submap)
97 _COMM_PAGE_AREA_LENGTH, // size
98 0, // mask
99 VM_FLAGS_FIXED, // flags (it must be 1st page in submap)
100 handle, // port is the memory entry we just made
101 0, // offset (map 1st page in memory entry)
102 FALSE, // copy
103 VM_PROT_READ, // cur_protection (R-only in user map)
104 VM_PROT_READ, // max_protection
105 VM_INHERIT_SHARE )) // inheritance
106 panic("cannot map commpage");
107
108 ipc_port_release(handle);
109
110 return (void*) kernel_addr; // return address in kernel map
111}
112
113/* Get address (in kernel map) of a commpage field. */
114
115static void*
116commpage_addr_of(
117 int addr_at_runtime )
118{
119 return (void*) ((uintptr_t)commPagePtr + addr_at_runtime - _COMM_PAGE_BASE_ADDRESS);
120}
121
122/* Determine number of CPUs on this system. We cannot rely on
123 * machine_info.max_cpus this early in the boot.
124 */
125static int
126commpage_cpus( void )
127{
128 int cpus;
129
130 cpus = ml_get_max_cpus(); // NB: this call can block
131
132 if (cpus == 0)
133 panic("commpage cpus==0");
134 if (cpus > 0xFF)
135 cpus = 0xFF;
136
137 return cpus;
138}
139
140/* Initialize kernel version of _cpu_capabilities vector (used by KEXTs.) */
141
142static void
143commpage_init_cpu_capabilities( void )
144{
145 int bits;
146 int cpus;
147 ml_cpu_info_t cpu_info;
148
149 bits = 0;
150 ml_cpu_get_info(&cpu_info);
151
152 switch (cpu_info.vector_unit) {
153 case 5:
154 bits |= kHasPNI;
155 /* fall thru */
156 case 4:
157 bits |= kHasSSE2;
158 /* fall thru */
159 case 3:
160 bits |= kHasSSE;
161 /* fall thru */
162 case 2:
163 bits |= kHasMMX;
164 default:
165 break;
166 }
167 switch (cpu_info.cache_line_size) {
168 case 128:
169 bits |= kCache128;
170 break;
171 case 64:
172 bits |= kCache64;
173 break;
174 case 32:
175 bits |= kCache32;
176 break;
177 default:
178 break;
179 }
180 cpus = commpage_cpus(); // how many CPUs do we have
181
182 if (cpus == 1)
183 bits |= kUP;
184
185 bits |= (cpus << kNumCPUsShift);
186
187 _cpu_capabilities = bits; // set kernel version for use by drivers etc
188}
189
190/* Copy data into commpage. */
191
192static void
193commpage_stuff(
194 int address,
195 void *source,
196 int length )
197{
198 void *dest = commpage_addr_of(address);
199
200 if ((uintptr_t)dest < next)
201 panic("commpage overlap");
202
203 bcopy(source,dest,length);
204
205 next = ((uintptr_t)dest + length);
206}
207
208/* Copy a routine into comm page if it matches running machine.
209 */
210static void
211commpage_stuff_routine(
212 commpage_descriptor *rd )
213{
214 int must,cant;
215
216 if (rd->commpage_address != cur_routine) {
217 if ((cur_routine!=0) && (matched==0))
218 panic("commpage no match");
219 cur_routine = rd->commpage_address;
220 matched = 0;
221 }
222
223 must = _cpu_capabilities & rd->musthave;
224 cant = _cpu_capabilities & rd->canthave;
225
226 if ((must == rd->musthave) && (cant == 0)) {
227 if (matched)
228 panic("commpage duplicate matches");
229 matched = 1;
230
231 commpage_stuff(rd->commpage_address,rd->code_address,rd->code_length);
232 }
233}
234
235/* Fill in commpage: called once, during kernel initialization, from the
236 * startup thread before user-mode code is running.
237 * See the top of this file for a list of what you have to do to add
238 * a new routine to the commpage.
239 */
240
241void
242commpage_populate( void )
243{
244 commpage_descriptor **rd;
245 short version = _COMM_PAGE_THIS_VERSION;
246 void *sig_addr;
247
248 extern char commpage_sigs_begin[];
249 extern char commpage_sigs_end[];
250
251 extern commpage_descriptor commpage_mach_absolute_time;
252 extern commpage_descriptor commpage_spin_lock_try_mp;
253 extern commpage_descriptor commpage_spin_lock_try_up;
254 extern commpage_descriptor commpage_spin_lock_mp;
255 extern commpage_descriptor commpage_spin_lock_up;
256 extern commpage_descriptor commpage_spin_unlock;
257 extern commpage_descriptor commpage_pthread_getspecific;
258 extern commpage_descriptor commpage_gettimeofday;
259 extern commpage_descriptor commpage_sys_flush_dcache;
260 extern commpage_descriptor commpage_sys_icache_invalidate;
261 extern commpage_descriptor commpage_pthread_self;
262 extern commpage_descriptor commpage_relinquish;
263 extern commpage_descriptor commpage_bzero_scalar;
264 extern commpage_descriptor commpage_bcopy_scalar;
265
266 static commpage_descriptor *routines[] = {
267 &commpage_mach_absolute_time,
268 &commpage_spin_lock_try_mp,
269 &commpage_spin_lock_try_up,
270 &commpage_spin_lock_mp,
271 &commpage_spin_lock_up,
272 &commpage_spin_unlock,
273 &commpage_pthread_getspecific,
274 &commpage_gettimeofday,
275 &commpage_sys_flush_dcache,
276 &commpage_sys_icache_invalidate,
277 &commpage_pthread_self,
278 &commpage_relinquish,
279 &commpage_bzero_scalar,
280 &commpage_bcopy_scalar,
281 NULL
282 };
283
284 commPagePtr = (char *)commpage_allocate();
285
286 commpage_init_cpu_capabilities();
287
288 /* Stuff in the constants. We move things into the comm page in strictly
289 * ascending order, so we can check for overlap and panic if so.
290 */
291
292 commpage_stuff(_COMM_PAGE_VERSION,&version,sizeof(short));
293 commpage_stuff(_COMM_PAGE_CPU_CAPABILITIES,&_cpu_capabilities,
294 sizeof(int));
295
296 for( rd = routines; *rd != NULL ; rd++ )
297 commpage_stuff_routine(*rd);
298
299 if (!matched)
300 panic("commpage no match on last routine");
301
302 if (next > ((uintptr_t)commPagePtr + PAGE_SIZE))
303 panic("commpage overflow");
304
305#define STUFF_SIG(addr, func) \
306 extern char commpage_sig_ ## func []; \
307 sig_addr = (void *)( (uintptr_t)_COMM_PAGE_BASE_ADDRESS + \
308 (uintptr_t)_COMM_PAGE_SIGS_OFFSET + 0x1000 + \
309 (uintptr_t)&commpage_sig_ ## func - \
310 (uintptr_t)&commpage_sigs_begin ); \
311 commpage_stuff(addr + _COMM_PAGE_SIGS_OFFSET, &sig_addr, sizeof(void *));
312
313 STUFF_SIG(_COMM_PAGE_ABSOLUTE_TIME, mach_absolute_time);
314 STUFF_SIG(_COMM_PAGE_SPINLOCK_TRY, spin_lock_try);
315 STUFF_SIG(_COMM_PAGE_SPINLOCK_LOCK, spin_lock);
316 STUFF_SIG(_COMM_PAGE_SPINLOCK_UNLOCK, spin_unlock);
317 STUFF_SIG(_COMM_PAGE_PTHREAD_GETSPECIFIC, pthread_getspecific);
318 STUFF_SIG(_COMM_PAGE_GETTIMEOFDAY, gettimeofday);
319 STUFF_SIG(_COMM_PAGE_FLUSH_DCACHE, sys_dcache_flush);
320 STUFF_SIG(_COMM_PAGE_FLUSH_ICACHE, sys_icache_invalidate);
321 STUFF_SIG(_COMM_PAGE_PTHREAD_SELF, pthread_self);
322 STUFF_SIG(_COMM_PAGE_BZERO, bzero);
323 STUFF_SIG(_COMM_PAGE_BCOPY, bcopy);
324 STUFF_SIG(_COMM_PAGE_MEMCPY, memmove);
325
326 commpage_stuff(_COMM_PAGE_BASE_ADDRESS + _COMM_PAGE_SIGS_OFFSET + 0x1000, &commpage_sigs_begin,
327 (uintptr_t)&commpage_sigs_end - (uintptr_t)&commpage_sigs_begin);
328}