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1 
/*
 1 
/*
2 
 * Copyright (c) 2005 Jakub Jermar
 2 
 * Copyright (c) 2005 Jakub Jermar
3 
 * All rights reserved.
 3 
 * All rights reserved.
4 
 *
 4 
 *
5 
 * Redistribution and use in source and binary forms, with or without
 5 
 * Redistribution and use in source and binary forms, with or without
6 
 * modification, are permitted provided that the following conditions
 6 
 * modification, are permitted provided that the following conditions
7 
 * are met:
 7 
 * are met:
8 
 *
 8 
 *
9 
 * - Redistributions of source code must retain the above copyright
 9 
 * - Redistributions of source code must retain the above copyright
10 
 *   notice, this list of conditions and the following disclaimer.
 10 
 *   notice, this list of conditions and the following disclaimer.
11 
 * - Redistributions in binary form must reproduce the above copyright
 11 
 * - Redistributions in binary form must reproduce the above copyright
12 
 *   notice, this list of conditions and the following disclaimer in the
 12 
 *   notice, this list of conditions and the following disclaimer in the
13 
 *   documentation and/or other materials provided with the distribution.
 13 
 *   documentation and/or other materials provided with the distribution.
14 
 * - The name of the author may not be used to endorse or promote products
 14 
 * - The name of the author may not be used to endorse or promote products
15 
 *   derived from this software without specific prior written permission.
 15 
 *   derived from this software without specific prior written permission.
16 
 *
 16 
 *
17 
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
 17 
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
18 
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
 18 
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
19 
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
 19 
 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
20 
 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
 20 
 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
21 
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
 21 
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
22 
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 22 
 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
23 
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 23 
 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
24 
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 24 
 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
25 
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
 25 
 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
26 
 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 26 
 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
27 
 */
 27 
 */
28 
 
 28 
 
29 
/** @addtogroup sparc64
 29 
/** @addtogroup sparc64
30 
 * @{
 30 
 * @{
31 
 */
 31 
 */
32 
/** @file
 32 
/** @file
33 
 */
 33 
 */
34 
 
 34 
 
35 
#ifndef KERN_sparc64_ASM_H_
 35 
#ifndef KERN_sparc64_ASM_H_
36 
#define KERN_sparc64_ASM_H_
 36 
#define KERN_sparc64_ASM_H_
37 
 
 37 
 
38 
#include <arch/arch.h>
 38 
#include <arch/arch.h>
39 
#include <arch/types.h>
 39 
#include <arch/types.h>
40 
#include <typedefs.h>
 40 
#include <typedefs.h>
41 
#include <align.h>
 41 
#include <align.h>
42 
#include <arch/register.h>
 42 
#include <arch/register.h>
43 
#include <config.h>
 43 
#include <config.h>
44 
#include <arch/stack.h>
 44 
#include <arch/stack.h>
45 
#include <arch/barrier.h>
 45 
#include <arch/barrier.h>
46 
 
 46 
 
47 
static inline void outb(ioport_t port, uint8_t v)
 47 
static inline void outb(ioport_t port, uint8_t v)
48 
{
 48 
{
49 
    *((volatile uint8_t *)(port)) = v;
 49 
    *((volatile uint8_t *)(port)) = v;
50 
    memory_barrier();
 50 
    memory_barrier();
51 
}
 51 
}
52 
 
 52 
 
53 
static inline void outw(ioport_t port, uint16_t v)
 53 
static inline void outw(ioport_t port, uint16_t v)
54 
{
 54 
{
55 
    *((volatile uint16_t *)(port)) = v;
 55 
    *((volatile uint16_t *)(port)) = v;
56 
    memory_barrier();
 56 
    memory_barrier();
57 
}
 57 
}
58 
 
 58 
 
59 
static inline void outl(ioport_t port, uint32_t v)
 59 
static inline void outl(ioport_t port, uint32_t v)
60 
{
 60 
{
61 
    *((volatile uint32_t *)(port)) = v;
 61 
    *((volatile uint32_t *)(port)) = v;
62 
    memory_barrier();
 62 
    memory_barrier();
63 
}
 63 
}
64 
 
 64 
 
65 
static inline uint8_t inb(ioport_t port)
 65 
static inline uint8_t inb(ioport_t port)
66 
{
 66 
{
67 
    uint8_t rv;
 67 
    uint8_t rv;
68 
 
 68 
 
69 
    rv = *((volatile uint8_t *)(port));
 69 
    rv = *((volatile uint8_t *)(port));
70 
    memory_barrier();
 70 
    memory_barrier();
71 
 
 71 
 
72 
    return rv;
 72 
    return rv;
73 
}
 73 
}
74 
 
 74 
 
75 
static inline uint16_t inw(ioport_t port)
 75 
static inline uint16_t inw(ioport_t port)
76 
{
 76 
{
77 
    uint16_t rv;
 77 
    uint16_t rv;
78 
 
 78 
 
79 
    rv = *((volatile uint16_t *)(port));
 79 
    rv = *((volatile uint16_t *)(port));
80 
    memory_barrier();
 80 
    memory_barrier();
81 
 
 81 
 
82 
    return rv;
 82 
    return rv;
83 
}
 83 
}
84 
 
 84 
 
85 
static inline uint32_t inl(ioport_t port)
 85 
static inline uint32_t inl(ioport_t port)
86 
{
 86 
{
87 
    uint32_t rv;
 87 
    uint32_t rv;
88 
 
 88 
 
89 
    rv = *((volatile uint32_t *)(port));
 89 
    rv = *((volatile uint32_t *)(port));
90 
    memory_barrier();
 90 
    memory_barrier();
91 
 
 91 
 
92 
    return rv;
 92 
    return rv;
93 
}
 93 
}
94 
 
 94 
 
95 
/** Read Processor State register.
 95 
/** Read Processor State register.
96 
 *
 96 
 *
97 
 * @return Value of PSTATE register.
 97 
 * @return Value of PSTATE register.
98 
 */
 98 
 */
99 
static inline uint64_t pstate_read(void)
 99 
static inline uint64_t pstate_read(void)
100 
{
 100 
{
101 
    uint64_t v;
 101 
    uint64_t v;
102 
   
 102 
   
103 
    asm volatile ("rdpr %%pstate, %0\n" : "=r" (v));
 103 
    asm volatile ("rdpr %%pstate, %0\n" : "=r" (v));
104 
   
 104 
   
105 
    return v;
 105 
    return v;
106 
}
 106 
}
107 
 
 107 
 
108 
/** Write Processor State register.
 108 
/** Write Processor State register.
109 
 *
 109 
 *
110 
 * @param v New value of PSTATE register.
 110 
 * @param v New value of PSTATE register.
111 
 */
 111 
 */
112 
static inline void pstate_write(uint64_t v)
 112 
static inline void pstate_write(uint64_t v)
113 
{
 113 
{
114 
    asm volatile ("wrpr %0, %1, %%pstate\n" : : "r" (v), "i" (0));
 114 
    asm volatile ("wrpr %0, %1, %%pstate\n" : : "r" (v), "i" (0));
115 
}
 115 
}
116 
 
 116 
 
117 
/** Read TICK_compare Register.
 117 
/** Read TICK_compare Register.
118 
 *
 118 
 *
119 
 * @return Value of TICK_comapre register.
 119 
 * @return Value of TICK_comapre register.
120 
 */
 120 
 */
121 
static inline uint64_t tick_compare_read(void)
 121 
static inline uint64_t tick_compare_read(void)
122 
{
 122 
{
123 
    uint64_t v;
 123 
    uint64_t v;
124 
   
 124 
   
125 
    asm volatile ("rd %%tick_cmpr, %0\n" : "=r" (v));
 125 
    asm volatile ("rd %%tick_cmpr, %0\n" : "=r" (v));
126 
   
 126 
   
127 
    return v;
 127 
    return v;
128 
}
 128 
}
129 
 
 129 
 
130 
/** Write TICK_compare Register.
 130 
/** Write TICK_compare Register.
131 
 *
 131 
 *
132 
 * @param v New value of TICK_comapre register.
 132 
 * @param v New value of TICK_comapre register.
133 
 */
 133 
 */
134 
static inline void tick_compare_write(uint64_t v)
 134 
static inline void tick_compare_write(uint64_t v)
135 
{
 135 
{
136 
    asm volatile ("wr %0, %1, %%tick_cmpr\n" : : "r" (v), "i" (0));
 136 
    asm volatile ("wr %0, %1, %%tick_cmpr\n" : : "r" (v), "i" (0));
137 
}
 137 
}
138 
 
 138 
 
139 
/** Read STICK_compare Register.
 139 
/** Read STICK_compare Register.
140 
 *
 140 
 *
141 
 * @return Value of STICK_compare register.
 141 
 * @return Value of STICK_compare register.
142 
 */
 142 
 */
143 
static inline uint64_t stick_compare_read(void)
 143 
static inline uint64_t stick_compare_read(void)
144 
{
 144 
{
145 
    uint64_t v;
 145 
    uint64_t v;
146 
   
 146 
   
147 
    asm volatile ("rd %%asr25, %0\n" : "=r" (v));
 147 
    asm volatile ("rd %%asr25, %0\n" : "=r" (v));
148 
   
 148 
   
149 
    return v;
 149 
    return v;
150 
}
 150 
}
151 
 
 151 
 
152 
/** Write STICK_compare Register.
 152 
/** Write STICK_compare Register.
153 
 *
 153 
 *
154 
 * @param v New value of STICK_comapre register.
 154 
 * @param v New value of STICK_comapre register.
155 
 */
 155 
 */
156 
static inline void stick_compare_write(uint64_t v)
 156 
static inline void stick_compare_write(uint64_t v)
157 
{
 157 
{
158 
    asm volatile ("wr %0, %1, %%asr25\n" : : "r" (v), "i" (0));
 158 
    asm volatile ("wr %0, %1, %%asr25\n" : : "r" (v), "i" (0));
159 
}
 159 
}
160 
 
 160 
 
161 
/** Read TICK Register.
 161 
/** Read TICK Register.
162 
 *
 162 
 *
163 
 * @return Value of TICK register.
 163 
 * @return Value of TICK register.
164 
 */
 164 
 */
165 
static inline uint64_t tick_read(void)
 165 
static inline uint64_t tick_read(void)
166 
{
 166 
{
167 
    uint64_t v;
 167 
    uint64_t v;
168 
   
 168 
   
169 
    asm volatile ("rdpr %%tick, %0\n" : "=r" (v));
 169 
    asm volatile ("rdpr %%tick, %0\n" : "=r" (v));
170 
   
 170 
   
171 
    return v;
 171 
    return v;
172 
}
 172 
}
173 
 
 173 
 
174 
/** Write TICK Register.
 174 
/** Write TICK Register.
175 
 *
 175 
 *
176 
 * @param v New value of TICK register.
 176 
 * @param v New value of TICK register.
177 
 */
 177 
 */
178 
static inline void tick_write(uint64_t v)
 178 
static inline void tick_write(uint64_t v)
179 
{
 179 
{
180 
    asm volatile ("wrpr %0, %1, %%tick\n" : : "r" (v), "i" (0));
 180 
    asm volatile ("wrpr %0, %1, %%tick\n" : : "r" (v), "i" (0));
181 
}
 181 
}
182 
 
 182 
 
183 
/** Read FPRS Register.
 183 
/** Read FPRS Register.
184 
 *
 184 
 *
185 
 * @return Value of FPRS register.
 185 
 * @return Value of FPRS register.
186 
 */
 186 
 */
187 
static inline uint64_t fprs_read(void)
 187 
static inline uint64_t fprs_read(void)
188 
{
 188 
{
189 
    uint64_t v;
 189 
    uint64_t v;
190 
   
 190 
   
191 
    asm volatile ("rd %%fprs, %0\n" : "=r" (v));
 191 
    asm volatile ("rd %%fprs, %0\n" : "=r" (v));
192 
   
 192 
   
193 
    return v;
 193 
    return v;
194 
}
 194 
}
195 
 
 195 
 
196 
/** Write FPRS Register.
 196 
/** Write FPRS Register.
197 
 *
 197 
 *
198 
 * @param v New value of FPRS register.
 198 
 * @param v New value of FPRS register.
199 
 */
 199 
 */
200 
static inline void fprs_write(uint64_t v)
 200 
static inline void fprs_write(uint64_t v)
201 
{
 201 
{
202 
    asm volatile ("wr %0, %1, %%fprs\n" : : "r" (v), "i" (0));
 202 
    asm volatile ("wr %0, %1, %%fprs\n" : : "r" (v), "i" (0));
203 
}
 203 
}
204 
 
 204 
 
205 
/** Read SOFTINT Register.
 205 
/** Read SOFTINT Register.
206 
 *
 206 
 *
207 
 * @return Value of SOFTINT register.
 207 
 * @return Value of SOFTINT register.
208 
 */
 208 
 */
209 
static inline uint64_t softint_read(void)
 209 
static inline uint64_t softint_read(void)
210 
{
 210 
{
211 
    uint64_t v;
 211 
    uint64_t v;
212 
 
 212 
 
213 
    asm volatile ("rd %%softint, %0\n" : "=r" (v));
 213 
    asm volatile ("rd %%softint, %0\n" : "=r" (v));
214 
 
 214 
 
215 
    return v;
 215 
    return v;
216 
}
 216 
}
217 
 
 217 
 
218 
/** Write SOFTINT Register.
 218 
/** Write SOFTINT Register.
219 
 *
 219 
 *
220 
 * @param v New value of SOFTINT register.
 220 
 * @param v New value of SOFTINT register.
221 
 */
 221 
 */
222 
static inline void softint_write(uint64_t v)
 222 
static inline void softint_write(uint64_t v)
223 
{
 223 
{
224 
    asm volatile ("wr %0, %1, %%softint\n" : : "r" (v), "i" (0));
 224 
    asm volatile ("wr %0, %1, %%softint\n" : : "r" (v), "i" (0));
225 
}
 225 
}
226 
 
 226 
 
227 
/** Write CLEAR_SOFTINT Register.
 227 
/** Write CLEAR_SOFTINT Register.
228 
 *
 228 
 *
229 
 * Bits set in CLEAR_SOFTINT register will be cleared in SOFTINT register.
 229 
 * Bits set in CLEAR_SOFTINT register will be cleared in SOFTINT register.
230 
 *
 230 
 *
231 
 * @param v New value of CLEAR_SOFTINT register.
 231 
 * @param v New value of CLEAR_SOFTINT register.
232 
 */
 232 
 */
233 
static inline void clear_softint_write(uint64_t v)
 233 
static inline void clear_softint_write(uint64_t v)
234 
{
 234 
{
235 
    asm volatile ("wr %0, %1, %%clear_softint\n" : : "r" (v), "i" (0));
 235 
    asm volatile ("wr %0, %1, %%clear_softint\n" : : "r" (v), "i" (0));
236 
}
 236 
}
237 
 
 237 
 
238 
/** Write SET_SOFTINT Register.
 238 
/** Write SET_SOFTINT Register.
239 
 *
 239 
 *
240 
 * Bits set in SET_SOFTINT register will be set in SOFTINT register.
 240 
 * Bits set in SET_SOFTINT register will be set in SOFTINT register.
241 
 *
 241 
 *
242 
 * @param v New value of SET_SOFTINT register.
 242 
 * @param v New value of SET_SOFTINT register.
243 
 */
 243 
 */
244 
static inline void set_softint_write(uint64_t v)
 244 
static inline void set_softint_write(uint64_t v)
245 
{
 245 
{
246 
    asm volatile ("wr %0, %1, %%set_softint\n" : : "r" (v), "i" (0));
 246 
    asm volatile ("wr %0, %1, %%set_softint\n" : : "r" (v), "i" (0));
247 
}
 247 
}
248 
 
 248 
 
249 
/** Enable interrupts.
 249 
/** Enable interrupts.
250 
 *
 250 
 *
251 
 * Enable interrupts and return previous
 251 
 * Enable interrupts and return previous
252 
 * value of IPL.
 252 
 * value of IPL.
253 
 *
 253 
 *
254 
 * @return Old interrupt priority level.
 254 
 * @return Old interrupt priority level.
255 
 */
 255 
 */
256 
static inline ipl_t interrupts_enable(void) {
 256 
static inline ipl_t interrupts_enable(void) {
257 
    pstate_reg_t pstate;
 257 
    pstate_reg_t pstate;
258 
    uint64_t value;
 258 
    uint64_t value;
259 
   
 259 
   
260 
    value = pstate_read();
 260 
    value = pstate_read();
261 
    pstate.value = value;
 261 
    pstate.value = value;
262 
    pstate.ie = true;
 262 
    pstate.ie = true;
263 
    pstate_write(pstate.value);
 263 
    pstate_write(pstate.value);
264 
   
 264 
   
265 
    return (ipl_t) value;
 265 
    return (ipl_t) value;
266 
}
 266 
}
267 
 
 267 
 
268 
/** Disable interrupts.
 268 
/** Disable interrupts.
269 
 *
 269 
 *
270 
 * Disable interrupts and return previous
 270 
 * Disable interrupts and return previous
271 
 * value of IPL.
 271 
 * value of IPL.
272 
 *
 272 
 *
273 
 * @return Old interrupt priority level.
 273 
 * @return Old interrupt priority level.
274 
 */
 274 
 */
275 
static inline ipl_t interrupts_disable(void) {
 275 
static inline ipl_t interrupts_disable(void) {
276 
    pstate_reg_t pstate;
 276 
    pstate_reg_t pstate;
277 
    uint64_t value;
 277 
    uint64_t value;
278 
   
 278 
   
279 
    value = pstate_read();
 279 
    value = pstate_read();
280 
    pstate.value = value;
 280 
    pstate.value = value;
281 
    pstate.ie = false;
 281 
    pstate.ie = false;
282 
    pstate_write(pstate.value);
 282 
    pstate_write(pstate.value);
283 
   
 283 
   
284 
    return (ipl_t) value;
 284 
    return (ipl_t) value;
285 
}
 285 
}
286 
 
 286 
 
287 
/** Restore interrupt priority level.
 287 
/** Restore interrupt priority level.
288 
 *
 288 
 *
289 
 * Restore IPL.
 289 
 * Restore IPL.
290 
 *
 290 
 *
291 
 * @param ipl Saved interrupt priority level.
 291 
 * @param ipl Saved interrupt priority level.
292 
 */
 292 
 */
293 
static inline void interrupts_restore(ipl_t ipl) {
 293 
static inline void interrupts_restore(ipl_t ipl) {
294 
    pstate_reg_t pstate;
 294 
    pstate_reg_t pstate;
295 
   
 295 
   
296 
    pstate.value = pstate_read();
 296 
    pstate.value = pstate_read();
297 
    pstate.ie = ((pstate_reg_t) ipl).ie;
 297 
    pstate.ie = ((pstate_reg_t) ipl).ie;
298 
    pstate_write(pstate.value);
 298 
    pstate_write(pstate.value);
299 
}
 299 
}
300 
 
 300 
 
301 
/** Return interrupt priority level.
 301 
/** Return interrupt priority level.
302 
 *
 302 
 *
303 
 * Return IPL.
 303 
 * Return IPL.
304 
 *
 304 
 *
305 
 * @return Current interrupt priority level.
 305 
 * @return Current interrupt priority level.
306 
 */
 306 
 */
307 
static inline ipl_t interrupts_read(void) {
 307 
static inline ipl_t interrupts_read(void) {
308 
    return (ipl_t) pstate_read();
 308 
    return (ipl_t) pstate_read();
309 
}
 309 
}
310 
 
 310 
 
311 
/** Return base address of current stack.
 311 
/** Return base address of current stack.
312 
 *
 312 
 *
313 
 * Return the base address of the current stack.
 313 
 * Return the base address of the current stack.
314 
 * The stack is assumed to be STACK_SIZE bytes long.
 314 
 * The stack is assumed to be STACK_SIZE bytes long.
315 
 * The stack must start on page boundary.
 315 
 * The stack must start on page boundary.
316 
 */
 316 
 */
317 
static inline uintptr_t get_stack_base(void)
 317 
static inline uintptr_t get_stack_base(void)
318 
{
 318 
{
319 
    uintptr_t unbiased_sp;
 319 
    uintptr_t unbiased_sp;
320 
   
 320 
   
321 
    asm volatile ("add %%sp, %1, %0\n" : "=r" (unbiased_sp) : "i" (STACK_BIAS));
 321 
    asm volatile ("add %%sp, %1, %0\n" : "=r" (unbiased_sp) : "i" (STACK_BIAS));
322 
   
 322 
   
323 
    return ALIGN_DOWN(unbiased_sp, STACK_SIZE);
 323 
    return ALIGN_DOWN(unbiased_sp, STACK_SIZE);
324 
}
 324 
}
325 
 
 325 
 
326 
/** Read Version Register.
 326 
/** Read Version Register.
327 
 *
 327 
 *
328 
 * @return Value of VER register.
 328 
 * @return Value of VER register.
329 
 */
 329 
 */
330 
static inline uint64_t ver_read(void)
 330 
static inline uint64_t ver_read(void)
331 
{
 331 
{
332 
    uint64_t v;
 332 
    uint64_t v;
333 
   
 333 
   
334 
    asm volatile ("rdpr %%ver, %0\n" : "=r" (v));
 334 
    asm volatile ("rdpr %%ver, %0\n" : "=r" (v));
335 
   
 335 
   
336 
    return v;
 336 
    return v;
337 
}
 337 
}
338 
 
 338 
 
339 
/** Read Trap Program Counter register.
 339 
/** Read Trap Program Counter register.
340 
 *
 340 
 *
341 
 * @return Current value in TPC.
 341 
 * @return Current value in TPC.
342 
 */
 342 
 */
343 
static inline uint64_t tpc_read(void)
 343 
static inline uint64_t tpc_read(void)
344 
{
 344 
{
345 
    uint64_t v;
 345 
    uint64_t v;
346 
   
 346 
   
347 
    asm volatile ("rdpr %%tpc, %0\n" : "=r" (v));
 347 
    asm volatile ("rdpr %%tpc, %0\n" : "=r" (v));
348 
   
 348 
   
349 
    return v;
 349 
    return v;
350 
}
 350 
}
351 
 
 351 
 
352 
/** Read Trap Level register.
 352 
/** Read Trap Level register.
353 
 *
 353 
 *
354 
 * @return Current value in TL.
 354 
 * @return Current value in TL.
355 
 */
 355 
 */
356 
static inline uint64_t tl_read(void)
 356 
static inline uint64_t tl_read(void)
357 
{
 357 
{
358 
    uint64_t v;
 358 
    uint64_t v;
359 
   
 359 
   
360 
    asm volatile ("rdpr %%tl, %0\n" : "=r" (v));
 360 
    asm volatile ("rdpr %%tl, %0\n" : "=r" (v));
361 
   
 361 
   
362 
    return v;
 362 
    return v;
363 
}
 363 
}
364 
 
 364 
 
365 
/** Read Trap Base Address register.
 365 
/** Read Trap Base Address register.
366 
 *
 366 
 *
367 
 * @return Current value in TBA.
 367 
 * @return Current value in TBA.
368 
 */
 368 
 */
369 
static inline uint64_t tba_read(void)
 369 
static inline uint64_t tba_read(void)
370 
{
 370 
{
371 
    uint64_t v;
 371 
    uint64_t v;
372 
   
 372 
   
373 
    asm volatile ("rdpr %%tba, %0\n" : "=r" (v));
 373 
    asm volatile ("rdpr %%tba, %0\n" : "=r" (v));
374 
   
 374 
   
375 
    return v;
 375 
    return v;
376 
}
 376 
}
377 
 
 377 
 
378 
/** Write Trap Base Address register.
 378 
/** Write Trap Base Address register.
379 
 *
 379 
 *
380 
 * @param v New value of TBA.
 380 
 * @param v New value of TBA.
381 
 */
 381 
 */
382 
static inline void tba_write(uint64_t v)
 382 
static inline void tba_write(uint64_t v)
383 
{
 383 
{
384 
    asm volatile ("wrpr %0, %1, %%tba\n" : : "r" (v), "i" (0));
 384 
    asm volatile ("wrpr %0, %1, %%tba\n" : : "r" (v), "i" (0));
385 
}
 385 
}
386 
 
 386 
 
387 
/** Load uint64_t from alternate space.
 387 
/** Load uint64_t from alternate space.
388 
 *
 388 
 *
389 
 * @param asi ASI determining the alternate space.
 389 
 * @param asi ASI determining the alternate space.
390 
 * @param va Virtual address within the ASI.
 390 
 * @param va Virtual address within the ASI.
391 
 *
 391 
 *
392 
 * @return Value read from the virtual address in the specified address space.
 392 
 * @return Value read from the virtual address in the specified address space.
393 
 */
 393 
 */
394 
static inline uint64_t asi_u64_read(asi_t asi, uintptr_t va)
 394 
static inline uint64_t asi_u64_read(asi_t asi, uintptr_t va)
395 
{
 395 
{
396 
    uint64_t v;
 396 
    uint64_t v;
397 
   
 397 
   
398 
    asm volatile ("ldxa [%1] %2, %0\n" : "=r" (v) : "r" (va), "i" ((unsigned) asi));
 398 
    asm volatile ("ldxa [%1] %2, %0\n" : "=r" (v) : "r" (va), "i" ((unsigned) asi));
399 
   
 399 
   
400 
    return v;
 400 
    return v;
401 
}
 401 
}
402 
 
 402 
 
403 
/** Store uint64_t to alternate space.
 403 
/** Store uint64_t to alternate space.
404 
 *
 404 
 *
405 
 * @param asi ASI determining the alternate space.
 405 
 * @param asi ASI determining the alternate space.
406 
 * @param va Virtual address within the ASI.
 406 
 * @param va Virtual address within the ASI.
407 
 * @param v Value to be written.
 407 
 * @param v Value to be written.
408 
 */
 408 
 */
409 
static inline void asi_u64_write(asi_t asi, uintptr_t va, uint64_t v)
 409 
static inline void asi_u64_write(asi_t asi, uintptr_t va, uint64_t v)
410 
{
 410 
{
411 
    asm volatile ("stxa %0, [%1] %2\n" : :  "r" (v), "r" (va), "i" ((unsigned) asi) : "memory");
 411 
    asm volatile ("stxa %0, [%1] %2\n" : :  "r" (v), "r" (va), "i" ((unsigned) asi) : "memory");
412 
}
 412 
}
413 
 
 413 
 
414 
/** Flush all valid register windows to memory. */
 414 
/** Flush all valid register windows to memory. */
415 
static inline void flushw(void)
 415 
static inline void flushw(void)
416 
{
 416 
{
417 
    asm volatile ("flushw\n");
 417 
    asm volatile ("flushw\n");
418 
}
 418 
}
419 
 
 419 
 
420 
/** Switch to nucleus by setting TL to 1. */
 420 
/** Switch to nucleus by setting TL to 1. */
421 
static inline void nucleus_enter(void)
 421 
static inline void nucleus_enter(void)
422 
{
 422 
{
423 
    asm volatile ("wrpr %g0, 1, %tl\n");
 423 
    asm volatile ("wrpr %g0, 1, %tl\n");
424 
}
 424 
}
425 
 
 425 
 
426 
/** Switch from nucleus by setting TL to 0. */
 426 
/** Switch from nucleus by setting TL to 0. */
427 
static inline void nucleus_leave(void)
 427 
static inline void nucleus_leave(void)
428 
{
 428 
{
429 
    asm volatile ("wrpr %g0, %g0, %tl\n");
 429 
    asm volatile ("wrpr %g0, %g0, %tl\n");
430 
}
 430 
}
431 
 
 431 
 
432 
extern void cpu_halt(void);
 432 
extern void cpu_halt(void);
433 
extern void cpu_sleep(void);
 433 
extern void cpu_sleep(void);
434 
extern void asm_delay_loop(const uint32_t usec);
 434 
extern void asm_delay_loop(const uint32_t usec);
435 
 
 435 
 
436 
extern uint64_t read_from_ag_g7(void);
 - 
 
437 
extern void write_to_ag_g6(uint64_t val);
 - 
 
438 
extern void write_to_ag_g7(uint64_t val);
 - 
 
439 
extern void write_to_ig_g6(uint64_t val);
 - 
 
440 
 
 - 
 
441 
extern void switch_to_userspace(uint64_t pc, uint64_t sp, uint64_t uarg);
 436 
extern void switch_to_userspace(uint64_t pc, uint64_t sp, uint64_t uarg);
442 
 
 437 
 
- 
 
 438 
#if defined(SUN4U)
- 
 
 439 
#include <arch/sun4u/asm.h>
- 
 
 440 
#elif defined (SUN4V)
- 
 
 441 
#include <arch/sun4v/asm.h>
- 
 
 442 
#endif
- 
 
 443 
 
443 
#endif
 444 
#endif
444 
 
 445 
 
445 
/** @}
 446 
/** @}
446 
 */
 447 
 */
447 
 
 448