1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
|
#ifndef __THERM_PMAC_7_2_H__
#define __THERM_PMAC_7_2_H__
typedef unsigned short fu16;
typedef int fs32;
typedef short fs16;
struct mpu_data
{
u8 signature; /* 0x00 - EEPROM sig. */
u8 bytes_used; /* 0x01 - Bytes used in eeprom (160 ?) */
u8 size; /* 0x02 - EEPROM size (256 ?) */
u8 version; /* 0x03 - EEPROM version */
u32 data_revision; /* 0x04 - Dataset revision */
u8 processor_bin_code[3]; /* 0x08 - Processor BIN code */
u8 bin_code_expansion; /* 0x0b - ??? (padding ?) */
u8 processor_num; /* 0x0c - Number of CPUs on this MPU */
u8 input_mul_bus_div; /* 0x0d - Clock input multiplier/bus divider */
u8 reserved1[2]; /* 0x0e - */
u32 input_clk_freq_high; /* 0x10 - Input clock frequency high */
u8 cpu_nb_target_cycles; /* 0x14 - ??? */
u8 cpu_statlat; /* 0x15 - ??? */
u8 cpu_snooplat; /* 0x16 - ??? */
u8 cpu_snoopacc; /* 0x17 - ??? */
u8 nb_paamwin; /* 0x18 - ??? */
u8 nb_statlat; /* 0x19 - ??? */
u8 nb_snooplat; /* 0x1a - ??? */
u8 nb_snoopwin; /* 0x1b - ??? */
u8 api_bus_mode; /* 0x1c - ??? */
u8 reserved2[3]; /* 0x1d - */
u32 input_clk_freq_low; /* 0x20 - Input clock frequency low */
u8 processor_card_slot; /* 0x24 - Processor card slot number */
u8 reserved3[2]; /* 0x25 - */
u8 padjmax; /* 0x27 - Max power adjustment (Not in OF!) */
u8 ttarget; /* 0x28 - Target temperature */
u8 tmax; /* 0x29 - Max temperature */
u8 pmaxh; /* 0x2a - Max power */
u8 tguardband; /* 0x2b - Guardband temp ??? Hist. len in OSX */
fs32 pid_gp; /* 0x2c - PID proportional gain */
fs32 pid_gr; /* 0x30 - PID reset gain */
fs32 pid_gd; /* 0x34 - PID derivative gain */
fu16 voph; /* 0x38 - Vop High */
fu16 vopl; /* 0x3a - Vop Low */
fs16 nactual_die; /* 0x3c - nActual Die */
fs16 nactual_heatsink; /* 0x3e - nActual Heatsink */
fs16 nactual_system; /* 0x40 - nActual System */
u16 calibration_flags; /* 0x42 - Calibration flags */
fu16 mdiode; /* 0x44 - Diode M value (scaling factor) */
fs16 bdiode; /* 0x46 - Diode B value (offset) */
fs32 theta_heat_sink; /* 0x48 - Theta heat sink */
u16 rminn_intake_fan; /* 0x4c - Intake fan min RPM */
u16 rmaxn_intake_fan; /* 0x4e - Intake fan max RPM */
u16 rminn_exhaust_fan; /* 0x50 - Exhaust fan min RPM */
u16 rmaxn_exhaust_fan; /* 0x52 - Exhaust fan max RPM */
u8 processor_part_num[8]; /* 0x54 - Processor part number XX pumps min/max */
u32 processor_lot_num; /* 0x5c - Processor lot number */
u8 orig_card_sernum[0x10]; /* 0x60 - Card original serial number */
u8 curr_card_sernum[0x10]; /* 0x70 - Card current serial number */
u8 mlb_sernum[0x18]; /* 0x80 - MLB serial number */
u32 checksum1; /* 0x98 - */
u32 checksum2; /* 0x9c - */
}; /* Total size = 0xa0 */
/* Display a 16.16 fixed point value */
#define FIX32TOPRINT(f) ((f) >> 16),((((f) & 0xffff) * 1000) >> 16)
/*
* Maximum number of seconds to be in critical state (after a
* normal shutdown attempt). If the machine isn't down after
* this counter elapses, we force an immediate machine power
* off.
*/
#define MAX_CRITICAL_STATE 30
static char * critical_overtemp_path = "/sbin/critical_overtemp";
/*
* This option is "weird" :) Basically, if you define this to 1
* the control loop for the RPMs fans (not PWMs) will apply the
* correction factor obtained from the PID to the _actual_ RPM
* speed read from the FCU.
* If you define the below constant to 0, then it will be
* applied to the setpoint RPM speed, that is basically the
* speed we proviously "asked" for.
*
* I'm not sure which of these Apple's algorithm is supposed
* to use
*/
#define RPM_PID_USE_ACTUAL_SPEED 0
/*
* i2c IDs. Currently, we hard code those and assume that
* the FCU is on U3 bus 1 while all sensors are on U3 bus
* 0. This appear to be safe enough for this first version
* of the driver, though I would accept any clean patch
* doing a better use of the device-tree without turning the
* while i2c registration mechanism into a racy mess
*
* Note: Xserve changed this. We have some bits on the K2 bus,
* which I arbitrarily set to 0x200. Ultimately, we really want
* too lookup these in the device-tree though
*/
#define FAN_CTRLER_ID 0x15e
#define SUPPLY_MONITOR_ID 0x58
#define SUPPLY_MONITORB_ID 0x5a
#define DRIVES_DALLAS_ID 0x94
#define BACKSIDE_MAX_ID 0x98
#define XSERVE_DIMMS_LM87 0x25a
#define XSERVE_SLOTS_LM75 0x290
/*
* Some MAX6690, DS1775, LM87 register definitions
*/
#define MAX6690_INT_TEMP 0
#define MAX6690_EXT_TEMP 1
#define DS1775_TEMP 0
#define LM87_INT_TEMP 0x27
/*
* Scaling factors for the AD7417 ADC converters (except
* for the CPU diode which is obtained from the EEPROM).
* Those values are obtained from the property list of
* the darwin driver
*/
#define ADC_12V_CURRENT_SCALE 0x0320 /* _AD2 */
#define ADC_CPU_VOLTAGE_SCALE 0x00a0 /* _AD3 */
#define ADC_CPU_CURRENT_SCALE 0x1f40 /* _AD4 */
/*
* PID factors for the U3/Backside fan control loop. We have 2 sets
* of values here, one set for U3 and one set for U3H
*/
#define BACKSIDE_FAN_PWM_DEFAULT_ID 1
#define BACKSIDE_FAN_PWM_INDEX 0
#define BACKSIDE_PID_U3_G_d 0x02800000
#define BACKSIDE_PID_U3H_G_d 0x01400000
#define BACKSIDE_PID_RACK_G_d 0x00500000
#define BACKSIDE_PID_G_p 0x00500000
#define BACKSIDE_PID_RACK_G_p 0x0004cccc
#define BACKSIDE_PID_G_r 0x00000000
#define BACKSIDE_PID_U3_INPUT_TARGET 0x00410000
#define BACKSIDE_PID_U3H_INPUT_TARGET 0x004b0000
#define BACKSIDE_PID_RACK_INPUT_TARGET 0x00460000
#define BACKSIDE_PID_INTERVAL 5
#define BACKSIDE_PID_RACK_INTERVAL 1
#define BACKSIDE_PID_OUTPUT_MAX 100
#define BACKSIDE_PID_U3_OUTPUT_MIN 20
#define BACKSIDE_PID_U3H_OUTPUT_MIN 20
#define BACKSIDE_PID_HISTORY_SIZE 2
struct basckside_pid_params
{
s32 G_d;
s32 G_p;
s32 G_r;
s32 input_target;
s32 output_min;
s32 output_max;
s32 interval;
int additive;
};
struct backside_pid_state
{
int ticks;
struct i2c_client * monitor;
s32 sample_history[BACKSIDE_PID_HISTORY_SIZE];
s32 error_history[BACKSIDE_PID_HISTORY_SIZE];
int cur_sample;
s32 last_temp;
int pwm;
int first;
};
/*
* PID factors for the Drive Bay fan control loop
*/
#define DRIVES_FAN_RPM_DEFAULT_ID 2
#define DRIVES_FAN_RPM_INDEX 1
#define DRIVES_PID_G_d 0x01e00000
#define DRIVES_PID_G_p 0x00500000
#define DRIVES_PID_G_r 0x00000000
#define DRIVES_PID_INPUT_TARGET 0x00280000
#define DRIVES_PID_INTERVAL 5
#define DRIVES_PID_OUTPUT_MAX 4000
#define DRIVES_PID_OUTPUT_MIN 300
#define DRIVES_PID_HISTORY_SIZE 2
struct drives_pid_state
{
int ticks;
struct i2c_client * monitor;
s32 sample_history[BACKSIDE_PID_HISTORY_SIZE];
s32 error_history[BACKSIDE_PID_HISTORY_SIZE];
int cur_sample;
s32 last_temp;
int rpm;
int first;
};
#define SLOTS_FAN_PWM_DEFAULT_ID 2
#define SLOTS_FAN_PWM_INDEX 2
#define SLOTS_FAN_DEFAULT_PWM 40 /* Do better here ! */
/*
* PID factors for the Xserve DIMM control loop
*/
#define DIMM_PID_G_d 0
#define DIMM_PID_G_p 0
#define DIMM_PID_G_r 0x06553600
#define DIMM_PID_INPUT_TARGET 3276800
#define DIMM_PID_INTERVAL 1
#define DIMM_PID_OUTPUT_MAX 14000
#define DIMM_PID_OUTPUT_MIN 4000
#define DIMM_PID_HISTORY_SIZE 20
struct dimm_pid_state
{
int ticks;
struct i2c_client * monitor;
s32 sample_history[DIMM_PID_HISTORY_SIZE];
s32 error_history[DIMM_PID_HISTORY_SIZE];
int cur_sample;
s32 last_temp;
int first;
int output;
};
/*
* PID factors for the Xserve Slots control loop
*/
#define SLOTS_PID_G_d 0
#define SLOTS_PID_G_p 0
#define SLOTS_PID_G_r 0x00100000
#define SLOTS_PID_INPUT_TARGET 3200000
#define SLOTS_PID_INTERVAL 1
#define SLOTS_PID_OUTPUT_MAX 100
#define SLOTS_PID_OUTPUT_MIN 20
#define SLOTS_PID_HISTORY_SIZE 20
struct slots_pid_state
{
int ticks;
struct i2c_client * monitor;
s32 sample_history[SLOTS_PID_HISTORY_SIZE];
s32 error_history[SLOTS_PID_HISTORY_SIZE];
int cur_sample;
s32 last_temp;
int first;
int pwm;
};
/* Desktops */
#define CPUA_INTAKE_FAN_RPM_DEFAULT_ID 3
#define CPUA_EXHAUST_FAN_RPM_DEFAULT_ID 4
#define CPUB_INTAKE_FAN_RPM_DEFAULT_ID 5
#define CPUB_EXHAUST_FAN_RPM_DEFAULT_ID 6
#define CPUA_INTAKE_FAN_RPM_INDEX 3
#define CPUA_EXHAUST_FAN_RPM_INDEX 4
#define CPUB_INTAKE_FAN_RPM_INDEX 5
#define CPUB_EXHAUST_FAN_RPM_INDEX 6
#define CPU_INTAKE_SCALE 0x0000f852
#define CPU_TEMP_HISTORY_SIZE 2
#define CPU_POWER_HISTORY_SIZE 10
#define CPU_PID_INTERVAL 1
#define CPU_MAX_OVERTEMP 90
#define CPUA_PUMP_RPM_INDEX 7
#define CPUB_PUMP_RPM_INDEX 8
#define CPU_PUMP_OUTPUT_MAX 3200
#define CPU_PUMP_OUTPUT_MIN 1250
/* Xserve */
#define CPU_A1_FAN_RPM_INDEX 9
#define CPU_A2_FAN_RPM_INDEX 10
#define CPU_A3_FAN_RPM_INDEX 11
#define CPU_B1_FAN_RPM_INDEX 12
#define CPU_B2_FAN_RPM_INDEX 13
#define CPU_B3_FAN_RPM_INDEX 14
struct cpu_pid_state
{
int index;
struct i2c_client * monitor;
struct mpu_data mpu;
int overtemp;
s32 temp_history[CPU_TEMP_HISTORY_SIZE];
int cur_temp;
s32 power_history[CPU_POWER_HISTORY_SIZE];
s32 error_history[CPU_POWER_HISTORY_SIZE];
int cur_power;
int count_power;
int rpm;
int intake_rpm;
s32 voltage;
s32 current_a;
s32 last_temp;
s32 last_power;
int first;
u8 adc_config;
s32 pump_min;
s32 pump_max;
};
/* Tickle FCU every 10 seconds */
#define FCU_TICKLE_TICKS 10
/*
* Driver state
*/
enum {
state_detached,
state_attaching,
state_attached,
state_detaching,
};
#endif /* __THERM_PMAC_7_2_H__ */
|
