xref: /illumos-gate/usr/src/uts/i86pc/sys/hpet_acpi.h (revision 3ed623140e27064f81020d9d47f9fb17489d1190)
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 2009 Sun Microsystems, Inc.  All rights reserved.
23  * Use is subject to license terms.
24  */
25 
26 #ifndef	_HPET_ACPI_H
27 #define	_HPET_ACPI_H
28 
29 #if defined(_KERNEL)
30 #include <sys/acpi/acpi.h>
31 #include <sys/acpi/actbl1.h>
32 #include <sys/acpica.h>
33 #endif	/* defined(_KERNEL) */
34 
35 #ifdef __cplusplus
36 extern "C" {
37 #endif
38 
39 /*
40  * Solaris uses an HPET Timer to generate interrupts for CPUs in Deep C-state
41  * with stalled LAPIC Timers.  All CPUs use one HPET timer.  The timer's
42  * interrupt targets one CPU (via the I/O APIC).  The one CPU that receives
43  * the HPET's interrupt wakes up other CPUs as needed during the HPET Interrupt
44  * Service Routing.  The HPET ISR uses poke_cpus to wake up other CPUs with an
45  * Inter Processor Interrupt.
46  *
47  * Please see the Intel Programmer's guides.  Interrupts are disabled before
48  * a CPU Halts into Deep C-state.  (This allows CPU-hardware-specific cleanup
49  * before servicing interrupts.)  When a Deep C-state CPU wakes up (due to
50  * an externally generated interrupt), it resume execution where it halted.
51  * The CPU returning from Deep C-state must enable interrupts before it will
52  * handle the pending interrupt that woke it from Deep C-state.
53  *
54  *
55  * HPET bits as defined in the Intel IA-PC HPET Specification Rev 1.0a.
56  *
57  * The physical address space layout of the memory mapped HPET looks like this:
58  *
59  * struct hpet {
60  *	uint64_t	gen_cap;
61  *	uint64_t	res1;
62  *	uint64_t	gen_config;
63  *	uint64_t	res2;
64  *	uint64_t	gen_inter_stat;
65  *	uint64_t	res3;
66  *	uint64_t	main_counter_value;
67  *	uint64_t	res4;
68  *	stuct hpet_timer {
69  *		uint64_t	config_and_capability;
70  *		uint64_t	comparator_value;
71  *		uint64_t	FSB_interrupt_route;
72  *		uint64_t	reserved;
73  *	} timers[32];
74  * }
75  *
76  * There are 32 possible timers in an hpet.  Only the first 3 timers are
77  * required.  The other 29 timers are optional.
78  *
79  * HPETs can have 64-bit or 32-bit timers.  Timers/compare registers can
80  * be 64-bit or 32-bit and can be a mixture of both.
81  * The first two timers are not used.  The HPET spec intends the first two
82  * timers to be used as "legacy replacement" for the PIT and RTC timers.
83  *
84  * Solaris uses the first available non-legacy replacement timer as a proxy
85  * timer for processor Local APIC Timers that stop in deep idle C-states.
86  */
87 
88 /*
89  * We only use HPET table 1 on x86.  Typical x86 systems only have 1 HPET.
90  * ACPI allows for multiple HPET tables to describe multiple HPETs.
91  */
92 #define	HPET_TABLE_1		(1)
93 
94 /*
95  * HPET Specification 1.0a defines the HPET to occupy 1024 bytes regardless of
96  * the number of counters (3 to 32) in this implementation.
97  */
98 #define	HPET_SIZE		(1024)
99 
100 /*
101  * Offsets of hpet registers and macros to access them from HPET base address.
102  */
103 #define	HPET_GEN_CAP_OFFSET		(0)
104 #define	HPET_GEN_CONFIG_OFFSET		(0x10)
105 #define	HPET_GEN_INTR_STAT_OFFSET	(0x20)
106 #define	HPET_MAIN_COUNTER_OFFSET	(0xF0)
107 #define	HPET_TIMER_N_CONF_OFFSET(n)	(0x100 + (n * 0x20))
108 #define	HPET_TIMER_N_COMP_OFFSET(n)	(0x108 + (n * 0x20))
109 
110 #define	OFFSET_ADDR(a, o)		(((uintptr_t)(a)) + (o))
111 #define	HPET_GEN_CAP_ADDRESS(la)				\
112 		    OFFSET_ADDR(la, HPET_GEN_CAP_OFFSET)
113 #define	HPET_GEN_CONFIG_ADDRESS(la)				\
114 		    OFFSET_ADDR(la, HPET_GEN_CONFIG_OFFSET)
115 #define	HPET_GEN_INTR_STAT_ADDRESS(la)				\
116 		    OFFSET_ADDR(la, HPET_GEN_INTR_STAT_OFFSET)
117 #define	HPET_MAIN_COUNTER_ADDRESS(la)				\
118 		    OFFSET_ADDR(la, HPET_MAIN_COUNTER_OFFSET)
119 #define	HPET_TIMER_N_CONF_ADDRESS(la, n)			\
120 		    OFFSET_ADDR(la, HPET_TIMER_N_CONF_OFFSET(n))
121 #define	HPET_TIMER_N_COMP_ADDRESS(la, n)			\
122 		    OFFSET_ADDR(la, HPET_TIMER_N_COMP_OFFSET(n))
123 
124 /*
125  * HPET General Capabilities and ID Register
126  */
127 typedef struct hpet_gen_cap {
128 	uint32_t	counter_clk_period;	/* period in femtoseconds */
129 	uint32_t	vendor_id	:16;	/* vendor */
130 	uint32_t	leg_route_cap	:1;	/* 1=LegacyReplacemnt support */
131 	uint32_t	res1		:1;	/* reserved */
132 	uint32_t	count_size_cap	:1;	/* 0=32bit, 1=64bit wide */
133 	uint32_t	num_tim_cap	:5;	/* number of timers -1 */
134 	uint32_t	rev_id		:8;	/* revision number */
135 } hpet_gen_cap_t;
136 
137 /*
138  * Macros to parse fields of the hpet General Capabilities and ID Register.
139  */
140 #define	HPET_GCAP_CNTR_CLK_PERIOD(l)	(l >> 32)
141 #define	HPET_GCAP_VENDOR_ID(l)		BITX(l, 31, 16)
142 #define	HPET_GCAP_LEG_ROUTE_CAP(l)	BITX(l, 15, 15)
143 #define	HPET_GCAP_CNT_SIZE_CAP(l)	BITX(l, 13, 13)
144 #define	HPET_GCAP_NUM_TIM_CAP(l)	BITX(l, 12, 8)
145 #define	HPET_GCAP_REV_ID(l)		BITX(l, 7, 0)
146 
147 /*
148  * From HPET spec "The value in this field must be less than or equal to":
149  */
150 #define	HPET_MAX_CLK_PERIOD	(0x5F5E100)
151 
152 /*
153  * Femto seconds in a second.
154  */
155 #if defined(__i386)
156 #define	HPET_FEMTO_TO_NANO	(1000000LL)
157 #define	HRTIME_TO_HPET_TICKS(t)	(((t) * HPET_FEMTO_TO_NANO) / hpet_info.period)
158 #else
159 #define	HPET_FEMTO_TO_NANO	(1000000L)
160 #define	HRTIME_TO_HPET_TICKS(t)	(((t) * HPET_FEMTO_TO_NANO) / hpet_info.period)
161 #endif	/* (__i386) */
162 
163 /*
164  * HPET General Configuration Register
165  */
166 typedef struct hpet_gen_config_bitfield {
167 	uint32_t	leg_rt_cnf :1;		/* legacy replacement route */
168 	uint32_t	enable_cnf :1;		/* overal enable */
169 } hpet_gen_conf_t;
170 
171 /*
172  * General Configuration Register fields.
173  */
174 #define	HPET_GCFR_LEG_RT_CNF		(0x2)		/* bit field value */
175 #define	HPET_GCFR_ENABLE_CNF		(0x1)		/* bit field value */
176 #define	HPET_GCFR_LEG_RT_CNF_BITX(l)	BITX(l, 1, 1)
177 #define	HPET_GCFR_ENABLE_CNF_BITX(l)	BITX(l, 0, 0)
178 
179 /*
180  * General Interrupt Status Register.
181  */
182 #define	HPET_GIS_T2_INT_STS(l)		BITX(l, 2, 2)
183 #define	HPET_GIS_T1_INT_STS(l)		BITX(l, 1, 1)
184 #define	HPET_GIS_T0_INT_STS(l)		BITX(l, 0, 0)
185 #define	HPET_GIS_TN_INT_STS(l, n)	BITX(l, n, n)
186 
187 #define	HPET_INTR_STATUS_MASK(timer)	((uint64_t)1 << (timer))
188 
189 /*
190  * HPET Timer N Configuration and Capabilities Register
191  */
192 typedef struct hpet_TN_conf_cap {
193 	uint32_t	int_route_cap;		/* available I/O APIC intrups */
194 	uint32_t	res1		:16;	/* reserved */
195 	uint32_t	fsb_int_del_cap	:1;	/* FSB interrupt supported */
196 	uint32_t	fsb_int_en_cnf	:1;	/* Set FSB intr delivery */
197 	uint32_t	int_route_cnf	:5;	/* I/O APIC interrupt to use */
198 	uint32_t	mode32_cnf	:1;	/* Force 32-bit mode */
199 	uint32_t	res2		:1;	/* reserved */
200 	uint32_t	val_set_cnf	:1;	/* Set periodic mode accumula */
201 	uint32_t	size_cap	:1;	/* 1=64bit, 0=32bit timer */
202 	uint32_t	per_int_cap	:1;	/* 1=periodic mode supported */
203 	uint32_t	type_cnf	:1;	/* Enable periodic mode */
204 	uint32_t	int_enb_cnf	:1;	/* Enable interrupt generat */
205 	uint32_t	int_type_cnf	:1;	/* 0=edge, 1=level triggered */
206 	uint32_t	res3		:1;	/* reserved */
207 } hpet_TN_conf_cap_t;
208 
209 /*
210  * There are 3 to 32 timers on each HPET.
211  */
212 #define	HPET_TIMER_N_INT_ROUTE_CAP(l)	(l >> 32)
213 #define	HPET_TIMER_N_INT_TYPE_CNF(l)	BITX(l, 1, 1)
214 #define	HPET_TIMER_N_INT_ENB_CNF(l)	BITX(l, 2, 2)
215 #define	HPET_TIMER_N_TYPE_CNF(l)	BITX(l, 3, 3)
216 #define	HPET_TIMER_N_PER_INT_CAP(l)	BITX(l, 4, 4)
217 #define	HPET_TIMER_N_SIZE_CAP(l)	BITX(l, 5, 5)
218 #define	HPET_TIMER_N_VAL_SET_CNF(l)	BITX(l, 6, 6)
219 #define	HPET_TIMER_N_MODE32_CNF(l)	BITX(l, 8, 8)
220 #define	HPET_TIMER_N_INT_ROUTE_CNF(l)	BITX(l, 13, 9)
221 #define	HPET_TIMER_N_FSB_EN_CNF(l)	BITX(l, 14, 14)
222 #define	HPET_TIMER_N_FSB_INT_DEL_CAP(l)	BITX(l, 15, 15)
223 
224 #define	HPET_TIMER_N_INT_TYPE_CNF_BIT	(1 << 1)
225 #define	HPET_TIMER_N_INT_ENB_CNF_BIT	(1 << 2)
226 #define	HPET_TIMER_N_TYPE_CNF_BIT	(1 << 3)
227 #define	HPET_TIMER_N_FSB_EN_CNF_BIT	(1 << 14)
228 #define	HPET_TIMER_N_INT_ROUTE_SHIFT(i)	(i << 9)
229 
230 /*
231  * HPET Spec reserves timers 0 and 1 for legacy timer replacement (PIT and RTC).
232  * Available timers for other use such as LACPI proxy during Deep C-State
233  * start at timer 2.
234  */
235 #define	HPET_FIRST_NON_LEGACY_TIMER	(2)
236 
237 /*
238  * HPET timer and interrupt used as LAPIC proxy during deep C-State.
239  */
240 typedef struct cstate_timer {
241 	int	timer;
242 	int	intr;
243 } cstate_timer_t;
244 
245 /*
246  * Data structure of useful HPET device information.
247  */
248 typedef struct hpet_info {
249 	hpet_gen_cap_t	gen_cap;
250 	hpet_gen_conf_t	gen_config;
251 	uint64_t	gen_intrpt_stat;
252 	uint64_t	main_counter_value;
253 	void		*logical_address;	/* HPET VA memory map */
254 	hpet_TN_conf_cap_t *timer_n_config;	/* N Timer config and cap */
255 	uint32_t	num_timers;		/* number of timers */
256 	uint32_t	allocated_timers;	/* bitmap of timers in use */
257 	cstate_timer_t	cstate_timer;	/* HPET Timer used for LAPIC proxy */
258 	uint64_t	hpet_main_counter_reads[2];
259 	hrtime_t	tsc[3];
260 	hrtime_t	period;		/* counter_clk_period in Femto Secs */
261 } hpet_info_t;
262 
263 #if defined(_KERNEL)
264 
265 /*
266  * Spin mutexes are used in several places because idle threads cannot block.
267  * These defines provide a mechanism to break out of spin loops to prevent
268  * system hangs if a CPU can never get the lock (due to an unknown
269  * hardware/software bug).  100 microsecond was chosen after extensive stress
270  * testing.
271  */
272 #define	HPET_SPIN_CHECK		(1000)
273 #define	HPET_SPIN_TIMEOUT	(100000)
274 
275 /*
276  * There is one of these per CPU using the HPET as a proxy for its stalled
277  * local APIC while in c-state >= C2.
278  */
279 typedef hrtime_t hpet_proxy_t;
280 
281 extern ACPI_TABLE_HPET	*hpet_table;
282 extern hpet_info_t	hpet_info;
283 
284 static int hpet_init_proxy(int *hpet_vect, iflag_t *hpet_flags);
285 static boolean_t hpet_install_proxy(void);
286 static boolean_t hpet_callback(int code);
287 static boolean_t hpet_cpr(int code);
288 static boolean_t hpet_resume(void);
289 static void hpet_cst_callback(uint32_t code);
290 static boolean_t hpet_deep_idle_config(int code);
291 static int hpet_validate_table(ACPI_TABLE_HPET *hpet_table);
292 static boolean_t hpet_checksum_table(unsigned char *table, unsigned int len);
293 static void *hpet_memory_map(ACPI_TABLE_HPET *hpet_table);
294 static int hpet_start_main_counter(hpet_info_t *hip);
295 static int hpet_stop_main_counter(hpet_info_t *hip);
296 static uint64_t hpet_read_main_counter_value(hpet_info_t *hip);
297 static uint64_t hpet_set_leg_rt_cnf(hpet_info_t *hip, uint32_t new_value);
298 static uint64_t hpet_read_gen_cap(hpet_info_t *hip);
299 static uint64_t hpet_read_gen_config(hpet_info_t *hip);
300 static uint64_t hpet_read_gen_intrpt_stat(hpet_info_t *hip);
301 static uint64_t hpet_read_timer_N_config(hpet_info_t *hip, uint_t n);
302 static hpet_TN_conf_cap_t hpet_convert_timer_N_config(uint64_t conf);
303 static uint64_t hpet_read_timer_N_comp(hpet_info_t *hip, uint_t n);
304 static void hpet_write_gen_cap(hpet_info_t *hip, uint64_t l);
305 static void hpet_write_gen_config(hpet_info_t *hip, uint64_t l);
306 static void hpet_write_gen_intrpt_stat(hpet_info_t *hip, uint64_t l);
307 static void hpet_write_timer_N_config(hpet_info_t *hip, uint_t n, uint64_t l);
308 static void hpet_write_timer_N_comp(hpet_info_t *hip, uint_t n, uint64_t l);
309 static void hpet_disable_timer(hpet_info_t *hip, uint32_t timer_n);
310 static void hpet_enable_timer(hpet_info_t *hip, uint32_t timer_n);
311 static void hpet_write_main_counter_value(hpet_info_t *hip, uint64_t l);
312 static int hpet_get_FSB_intr_capable_timer(hpet_info_t *hip, uint32_t mask);
313 static int hpet_get_IOAPIC_intr_capable_timer(hpet_info_t *hip);
314 static int hpet_timer_available(uint32_t allocated_timers, uint32_t n);
315 static void hpet_timer_alloc(uint32_t *allocated_timers, uint32_t n);
316 static void hpet_timer_set_up(hpet_info_t *hip, uint32_t timer_n,
317     uint32_t interrupt);
318 static uint_t hpet_isr(char *arg);
319 static uint32_t hpet_install_interrupt_handler(uint_t (*func)(char *),
320     int vector);
321 static void hpet_uninstall_interrupt_handler(void);
322 static void hpet_expire_all(void);
323 static boolean_t hpet_guaranteed_schedule(hrtime_t required_wakeup_time);
324 static boolean_t hpet_use_hpet_timer(hrtime_t *expire);
325 static void hpet_use_lapic_timer(hrtime_t expire);
326 static void hpet_init_proxy_data(void);
327 
328 #endif	/* defined(_KERNEL) */
329 
330 #ifdef __cplusplus
331 }
332 #endif
333 
334 #endif	/* _HPET_ACPI_H */
335