xref: /titanic_50/usr/src/uts/i86pc/sys/cpupm_mach.h (revision 356f72340a69936724c69f2f87fffa6f5887f885)
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  * Copyright (c) 2009,  Intel Corporation.
27  * All Rights Reserved.
28  */
29 
30 #ifndef	_CPUPM_MACH_H
31 #define	_CPUPM_MACH_H
32 
33 #ifdef __cplusplus
34 extern "C" {
35 #endif
36 
37 #include <sys/ddi.h>
38 #include <sys/sunddi.h>
39 #include <sys/cpuvar.h>
40 #include <sys/ksynch.h>
41 #include <sys/cpu_pm.h>
42 
43 /*
44  * CPU power domains
45  */
46 typedef struct cpupm_state_domains {
47 	struct cpupm_state_domains	*pm_next;
48 	uint32_t			pm_domain;
49 	uint32_t			pm_type;
50 	cpuset_t			pm_cpus;
51 	kmutex_t			pm_lock;
52 } cpupm_state_domains_t;
53 
54 extern cpupm_state_domains_t *cpupm_pstate_domains;
55 extern cpupm_state_domains_t *cpupm_tstate_domains;
56 extern cpupm_state_domains_t *cpupm_cstate_domains;
57 
58 /*
59  * Different processor families have their own technologies for supporting
60  * CPU power management (i.e., Intel has Enhanced SpeedStep for some of its
61  * processors and AMD has PowerNow! for some of its processors). We support
62  * these different technologies via modules that export the interfaces
63  * described below.
64  *
65  * If a module implements the technology that should be used to manage
66  * the current CPU device, then the cpus_init() module should return
67  * succesfully (i.e., return code of 0) and perform any initialization
68  * such that future power transistions can be performed by calling
69  * the cpus_change() interface. And the cpups_fini() interface can be
70  * used to free any resources allocated by cpus_init().
71  */
72 typedef struct cpupm_state_ops {
73 	char	*cpups_label;
74 	int	(*cpus_init)(cpu_t *);
75 	void	(*cpus_fini)(cpu_t *);
76 	void	(*cpus_change)(cpuset_t, uint32_t);
77 	void	(*cpus_stop)(cpu_t *);
78 } cpupm_state_ops_t;
79 
80 /*
81  * Data kept for each C-state power-domain.
82  */
83 typedef struct cma_c_state {
84 	uint32_t	cs_next_cstate;	/* computed best C-state */
85 
86 	uint32_t	cs_cnt;		/* times accessed */
87 	uint32_t	cs_type;	/* current ACPI idle type */
88 
89 	hrtime_t	cs_idle_enter;	/* entered idle */
90 	hrtime_t	cs_idle_exit;	/* left idle */
91 
92 	hrtime_t	cs_smpl_start;	/* accounting sample began */
93 	hrtime_t	cs_idle;	/* time idle */
94 	hrtime_t	cs_smpl_len;	/* sample duration */
95 	hrtime_t	cs_smpl_idle;	/* idle time in last sample */
96 	uint64_t	cs_smpl_idle_pct;	/* % idle time in last smpl */
97 } cma_c_state_t;
98 
99 typedef union cma_state {
100 	cma_c_state_t	*cstate;
101 	uint32_t	pstate;
102 } cma_state_t;
103 
104 typedef struct cpupm_mach_acpi_state {
105 	cpupm_state_ops_t	*cma_ops;
106 	cpupm_state_domains_t   *cma_domain;
107 	cma_state_t		cma_state;
108 } cpupm_mach_acpi_state_t;
109 
110 typedef struct cpupm_mach_turbo_info {
111 	kstat_t		*turbo_ksp;		/* turbo kstat */
112 	int		in_turbo;		/* in turbo? */
113 	int		turbo_supported;	/* turbo flag */
114 	uint64_t	t_mcnt;			/* turbo mcnt */
115 	uint64_t	t_acnt;			/* turbo acnt */
116 } cpupm_mach_turbo_info_t;
117 
118 typedef struct cpupm_mach_state {
119 	void			*ms_acpi_handle;
120 	cpupm_mach_acpi_state_t	ms_pstate;
121 	cpupm_mach_acpi_state_t	ms_cstate;
122 	cpupm_mach_acpi_state_t	ms_tstate;
123 	uint32_t		ms_caps;
124 	dev_info_t		*ms_dip;
125 	kmutex_t		ms_lock;
126 	cpupm_mach_turbo_info_t	*ms_turbo;
127 	struct cpupm_notification *ms_handlers;
128 } cpupm_mach_state_t;
129 
130 /*
131  * Constants used by the Processor Device Notification handler
132  * that identify what kind of change has occurred.
133  */
134 #define	CPUPM_PPC_CHANGE_NOTIFICATION 0x80
135 #define	CPUPM_CST_CHANGE_NOTIFICATION 0x81
136 #define	CPUPM_TPC_CHANGE_NOTIFICATION 0x82
137 
138 typedef void (*CPUPM_NOTIFY_HANDLER)(void *handle, uint32_t val,
139     void *ctx);
140 
141 typedef struct cpupm_notification {
142 	struct cpupm_notification	*nq_next;
143 	CPUPM_NOTIFY_HANDLER		nq_handler;
144 	void				*nq_ctx;
145 } cpupm_notification_t;
146 
147 /*
148  * If any states are added, then make sure to add them to
149  * CPUPM_ALL_STATES.
150  */
151 #define	CPUPM_NO_STATES		0x00
152 #define	CPUPM_P_STATES		0x01
153 #define	CPUPM_T_STATES		0x02
154 #define	CPUPM_C_STATES		0x04
155 #define	CPUPM_ALL_STATES	(CPUPM_P_STATES \
156 				| CPUPM_T_STATES \
157 				| CPUPM_C_STATES)
158 
159 /*
160  * An error in initializing any of the CPU PM results in disabling
161  * CPU power management.
162  */
163 #define	CPUPM_DISABLE() cpupm_disable(CPUPM_ALL_STATES)
164 
165 #define	CPUPM_SPEED_HZ(unused, mhz) ((uint64_t)mhz * 1000000)
166 
167 /*
168  * Callbacks used for CPU power management.
169  */
170 extern void (*cpupm_ppm_alloc_pstate_domains)(cpu_t *);
171 extern void (*cpupm_ppm_free_pstate_domains)(cpu_t *);
172 extern void (*cpupm_redefine_topspeed)(void *);
173 extern int (*cpupm_get_topspeed_callb)(void *);
174 extern void (*cpupm_set_topspeed_callb)(void *, int);
175 
176 extern void cpupm_init(cpu_t *);
177 extern void cpupm_fini(cpu_t *);
178 extern void cpupm_start(cpu_t *);
179 extern void cpupm_stop(cpu_t *);
180 extern boolean_t cpupm_is_ready(cpu_t *);
181 extern boolean_t cpupm_is_enabled(uint32_t);
182 extern void cpupm_disable(uint32_t);
183 extern void cpupm_alloc_domains(cpu_t *, int);
184 extern void cpupm_free_domains(cpupm_state_domains_t **);
185 extern void cpupm_remove_domains(cpu_t *, int, cpupm_state_domains_t **);
186 extern void cpupm_alloc_ms_cstate(cpu_t *cp);
187 extern void cpupm_free_ms_cstate(cpu_t *cp);
188 extern void cpupm_state_change(cpu_t *, int, int);
189 extern id_t cpupm_plat_domain_id(cpu_t *cp, cpupm_dtype_t type);
190 extern uint_t cpupm_plat_state_enumerate(cpu_t *, cpupm_dtype_t,
191     cpupm_state_t *);
192 extern int cpupm_plat_change_state(cpu_t *, cpupm_state_t *);
193 extern uint_t cpupm_get_speeds(cpu_t *, int **);
194 extern void cpupm_free_speeds(int *, uint_t);
195 extern boolean_t cpupm_power_ready(cpu_t *);
196 extern boolean_t cpupm_throttle_ready(cpu_t *);
197 extern boolean_t cpupm_cstate_ready(cpu_t *);
198 extern void cpupm_add_notify_handler(cpu_t *, CPUPM_NOTIFY_HANDLER, void *);
199 extern int cpupm_get_top_speed(cpu_t *);
200 extern void cpupm_idle_cstate_data(cma_c_state_t *, int);
201 extern void cpupm_wakeup_cstate_data(cma_c_state_t *, hrtime_t);
202 extern void cpupm_record_turbo_info(cpupm_mach_turbo_info_t *, uint32_t,
203     uint32_t);
204 extern cpupm_mach_turbo_info_t *cpupm_turbo_init(cpu_t *);
205 extern void cpupm_turbo_fini(cpupm_mach_turbo_info_t *);
206 
207 #ifdef __cplusplus
208 }
209 #endif
210 
211 #endif	/* _CPUPM_MACH_H */
212