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/* SPDX-License-Identifier: GPL-2.0-only */
#include <acpi/acpigen.h>
#include <acpi/acpigen_dptf.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
/* Defaults */
#define DEFAULT_RAW_UNIT "ma"
/* DPTF-specific UUIDs */
#define DPTF_PASSIVE_POLICY_1_0_UUID "42A441D6-AE6A-462B-A84B-4A8CE79027D3"
#define DPTF_CRITICAL_POLICY_UUID "97C68AE7-15FA-499c-B8C9-5DA81D606E0A"
#define DPTF_ACTIVE_POLICY_UUID "3A95C389-E4B8-4629-A526-C52C88626BAE"
enum {
ART_REVISION = 0,
DEFAULT_PRIORITY = 100,
DEFAULT_TRIP_POINT = 0xFFFFFFFFull,
DEFAULT_WEIGHT = 100,
DPTF_MAX_ART_THRESHOLDS = 10,
FPS_REVISION = 0,
PPCC_REVISION = 2,
RAPL_PL1_INDEX = 0,
RAPL_PL2_INDEX = 1,
};
/* Convert degrees C to 1/10 degree Kelvin for ACPI */
static int to_acpi_temp(int deg_c)
{
return deg_c * 10 + 2732;
}
/* Converts ms to 1/10th second for ACPI */
static int to_acpi_time(int ms)
{
return ms / 100;
}
/* Writes out a 0-argument non-Serialized Method that returns an Integer */
static void write_simple_return_method(const char *name, int value)
{
acpigen_write_method(name, 0);
acpigen_write_return_integer(value);
acpigen_pop_len(); /* Method */
}
/* Writes out 'count' ZEROs in a row */
static void write_zeros(int count)
{
for (; count; --count)
acpigen_write_integer(0);
}
/* Return the assigned namestring of any participant */
static const char *namestring_of(enum dptf_participant participant)
{
switch (participant) {
case DPTF_CPU:
return "TCPU";
case DPTF_CHARGER:
return "TCHG";
case DPTF_FAN:
return "TFN1";
case DPTF_FAN_2:
return "TFN2";
case DPTF_TEMP_SENSOR_0:
return "TSR0";
case DPTF_TEMP_SENSOR_1:
return "TSR1";
case DPTF_TEMP_SENSOR_2:
return "TSR2";
case DPTF_TEMP_SENSOR_3:
return "TSR3";
case DPTF_TEMP_SENSOR_4:
return "TSR4";
case DPTF_TPCH:
return "TPCH";
case DPTF_POWER:
return "TPWR";
case DPTF_BATTERY:
return "TBAT";
default:
return "";
}
}
/* Helper to get Scope for participants underneath \_SB.DPTF */
static const char *scope_of(enum dptf_participant participant)
{
static char scope[16];
if (participant == DPTF_CPU)
snprintf(scope, sizeof(scope), TCPU_SCOPE ".%s", namestring_of(participant));
else
snprintf(scope, sizeof(scope), DPTF_DEVICE_PATH ".%s",
namestring_of(participant));
return scope;
}
/*
* Most of the DPTF participants are underneath the \_SB.DPTF scope, so we can just get away
* with using the simple namestring for references, but the TCPU has a different scope, so
* either an absolute or relative path must be used instead.
*/
static const char *path_of(enum dptf_participant participant)
{
if (participant == DPTF_CPU)
return scope_of(participant);
else
return namestring_of(participant);
}
/* Write out scope of a participant */
void dptf_write_scope(enum dptf_participant participant)
{
acpigen_write_scope(scope_of(participant));
}
/*
* This table describes active cooling relationships between the system's fan and the
* temperature sensors that it can have an effect on. As ever-increasing temperature thresholds
* are crossed (_AC9.._AC0, low to high), the corresponding fan percentages listed in this table
* are used to increase the speed of the fan in order to speed up cooling.
*/
static void write_active_relationship_table(const struct dptf_active_policy *policies,
int max_count, bool dptf_multifan_support)
{
char *pkg_count;
int i, j;
/* Nothing to do */
if (!max_count || policies[0].target == DPTF_NONE)
return;
acpigen_write_scope(DPTF_DEVICE_PATH);
acpigen_write_method("_ART", 0);
/* Return this package */
acpigen_emit_byte(RETURN_OP);
/* Keep track of items added to the package */
pkg_count = acpigen_write_package(1); /* The '1' here is for the revision */
acpigen_write_integer(ART_REVISION);
for (i = 0; i < max_count; ++i) {
/*
* These have to be filled out from AC0 down to AC9, filling in only as many
* as are used. As soon as one isn't filled in, we're done.
*/
if (policies[i].target == DPTF_NONE)
break;
(*pkg_count)++;
/* Source, Target, Percent, Fan % for each of _AC0 ... _AC9 */
acpigen_write_package(13);
if (dptf_multifan_support)
acpigen_emit_namestring(path_of(policies[i].source));
else
acpigen_emit_namestring(path_of(DPTF_FAN));
acpigen_emit_namestring(path_of(policies[i].target));
acpigen_write_integer(DEFAULT_IF_0(policies[i].weight, DEFAULT_WEIGHT));
/* Write out fan %; corresponds with target's _ACx methods */
for (j = 0; j < DPTF_MAX_ART_THRESHOLDS; ++j)
acpigen_write_integer(policies[i].thresholds[j].fan_pct);
acpigen_pop_len(); /* inner Package */
}
acpigen_pop_len(); /* outer Package */
acpigen_pop_len(); /* Method _ART */
acpigen_pop_len(); /* Scope */
}
/*
* _AC9 through _AC0 represent temperature thresholds, in increasing order, defined from _AC0
* down, that, when reached, DPTF will activate TFN1 in order to actively cool the temperature
* sensor(s). As increasing thresholds are reached, the fan is spun faster.
*/
static void write_active_cooling_methods(const struct dptf_active_policy *policies,
int max_count)
{
char name[5];
int i, j;
/* Nothing to do */
if (!max_count || policies[0].target == DPTF_NONE)
return;
for (i = 0; i < max_count; ++i) {
if (policies[i].target == DPTF_NONE)
break;
dptf_write_scope(policies[i].target);
/* Write out as many of _AC0 through _AC9 that are applicable */
for (j = 0; j < DPTF_MAX_ACX; ++j) {
if (!policies[i].thresholds[j].temp)
break;
snprintf(name, sizeof(name), "_AC%1X", j);
write_simple_return_method(name, to_acpi_temp(
policies[i].thresholds[j].temp));
}
acpigen_pop_len(); /* Scope */
}
}
void dptf_write_active_policies(const struct dptf_active_policy *policies,
int max_count, bool dptf_multifan_support)
{
write_active_relationship_table(policies, max_count, dptf_multifan_support);
write_active_cooling_methods(policies, max_count);
}
/*
* This writes out the Thermal Relationship Table, which describes the thermal relationships
* between participants in a thermal zone. This information is used to passively cool (i.e.,
* throttle) the Source (source of heat), in order to indirectly cool the Target (temperature
* sensor).
*/
static void write_thermal_relationship_table(const struct dptf_passive_policy *policies,
int max_count)
{
char *pkg_count;
int i;
/* Nothing to do */
if (!max_count || policies[0].source == DPTF_NONE)
return;
acpigen_write_scope(DPTF_DEVICE_PATH);
/*
* A _TRT Revision (TRTR) of 1 means that the 'Priority' field is an arbitrary priority
* value to be used for this specific relationship. The priority value determines the
* order in which various sources are used in a passive thermal action for a given
* target.
*/
acpigen_write_name_integer("TRTR", 1);
/* Thermal Relationship Table */
acpigen_write_method("_TRT", 0);
/* Return this package */
acpigen_emit_byte(RETURN_OP);
pkg_count = acpigen_write_package(0);
for (i = 0; i < max_count; ++i) {
/* Stop writing the table once an entry is empty */
if (policies[i].source == DPTF_NONE)
break;
/* Keep track of outer package item count */
(*pkg_count)++;
acpigen_write_package(8);
/* Source, Target, Priority, Sampling Period */
acpigen_emit_namestring(path_of(policies[i].source));
acpigen_emit_namestring(path_of(policies[i].target));
acpigen_write_integer(DEFAULT_IF_0(policies[i].priority, DEFAULT_PRIORITY));
acpigen_write_integer(to_acpi_time(policies[i].period));
/* Reserved */
write_zeros(4);
acpigen_pop_len(); /* Package */
}
acpigen_pop_len(); /* Package */
acpigen_pop_len(); /* Method */
acpigen_pop_len(); /* Scope */
}
/*
* When a temperature sensor measures above its the temperature returned in its _PSV Method,
* DPTF will begin throttling Sources in order to indirectly cool the sensor.
*/
static void write_all_PSV(const struct dptf_passive_policy *policies, int max_count)
{
int i;
for (i = 0; i < max_count; ++i) {
if (policies[i].source == DPTF_NONE)
break;
dptf_write_scope(policies[i].target);
write_simple_return_method("_PSV", to_acpi_temp(policies[i].temp));
acpigen_pop_len(); /* Scope */
}
}
void dptf_write_passive_policies(const struct dptf_passive_policy *policies, int max_count)
{
write_thermal_relationship_table(policies, max_count);
write_all_PSV(policies, max_count);
}
void dptf_write_critical_policies(const struct dptf_critical_policy *policies, int max_count)
{
int i;
for (i = 0; i < max_count; ++i) {
if (policies[i].source == DPTF_NONE)
break;
dptf_write_scope(policies[i].source);
/* Choose _CRT or _HOT */
write_simple_return_method(policies[i].type == DPTF_CRITICAL_SHUTDOWN ?
"_CRT" : "_HOT", to_acpi_temp(policies[i].temp));
acpigen_pop_len(); /* Scope */
}
}
void dptf_write_charger_perf(const struct dptf_charger_perf *states, int max_count)
{
char *pkg_count;
int i;
if (!max_count || !states[0].control)
return;
dptf_write_scope(DPTF_CHARGER);
/* PPSS - Participant Performance Supported States */
acpigen_write_method("PPSS", 0);
acpigen_emit_byte(RETURN_OP);
pkg_count = acpigen_write_package(0);
for (i = 0; i < max_count; ++i) {
if (!states[i].control)
break;
(*pkg_count)++;
/*
* 0, 0, 0, 0, # Reserved
* Control, Raw Performance, Raw Unit, 0 # Reserved
*/
acpigen_write_package(8);
write_zeros(4);
acpigen_write_integer(states[i].control);
acpigen_write_integer(states[i].raw_perf);
acpigen_write_string(DEFAULT_RAW_UNIT);
acpigen_write_integer(0);
acpigen_pop_len(); /* inner Package */
}
acpigen_pop_len(); /* outer Package */
acpigen_pop_len(); /* Method PPSS */
acpigen_pop_len(); /* Scope */
}
int dptf_write_fan_perf_fps(uint8_t percent, uint16_t power, uint16_t speed,
uint16_t noise_level)
{
/*
* Some _FPS tables do include a last entry where Percent is 0, but Power is
* called out, so this table is finished when both are zero.
*/
if (!percent && !power)
return 1;
acpigen_write_package(5);
acpigen_write_integer(percent);
acpigen_write_integer(DEFAULT_TRIP_POINT);
acpigen_write_integer(speed);
acpigen_write_integer(noise_level);
acpigen_write_integer(power);
acpigen_pop_len(); /* inner Package */
return 0;
}
void dptf_write_fan_perf(const struct dptf_fan_perf *states, int max_count,
enum dptf_participant participant)
{
char *pkg_count;
int i;
if (!max_count || !states[0].percent)
return;
dptf_write_scope(participant);
/* _FPS - Fan Performance States */
acpigen_write_name("_FPS");
pkg_count = acpigen_write_package(1); /* 1 for Revision */
acpigen_write_integer(FPS_REVISION); /* revision */
for (i = 0; i < max_count; ++i) {
(*pkg_count)++;
if (dptf_write_fan_perf_fps(states[i].percent, states[i].power,
states[i].speed, states[i].noise_level))
break;
}
acpigen_pop_len(); /* Package */
acpigen_pop_len(); /* Scope */
}
void dptf_write_multifan_perf(
const struct dptf_multifan_perf
states[DPTF_MAX_FAN_PARTICIPANTS][DPTF_MAX_FAN_PERF_STATES],
int max_count, enum dptf_participant participant, int fan_num)
{
char *pkg_count;
int i;
if (!max_count || !states[fan_num][0].percent)
return;
dptf_write_scope(participant);
/* _FPS - Fan Performance States */
acpigen_write_name("_FPS");
pkg_count = acpigen_write_package(1); /* 1 for Revision */
acpigen_write_integer(FPS_REVISION); /* revision */
for (i = 0; i < max_count; ++i) {
(*pkg_count)++;
if (dptf_write_fan_perf_fps(states[fan_num][i].percent, states[fan_num][i].power,
states[fan_num][i].speed, states[fan_num][i].noise_level))
break;
}
acpigen_pop_len(); /* Package */
acpigen_pop_len(); /* Scope */
}
void dptf_write_power_limits(const struct dptf_power_limits *limits)
{
char *pkg_count;
/* Nothing to do */
if (!limits->pl1.min_power && !limits->pl2.min_power)
return;
dptf_write_scope(DPTF_CPU);
acpigen_write_method("PPCC", 0);
acpigen_emit_byte(RETURN_OP);
pkg_count = acpigen_write_package(1); /* 1 for the Revision */
acpigen_write_integer(PPCC_REVISION); /* revision */
if (limits->pl1.min_power) {
(*pkg_count)++;
acpigen_write_package(6);
acpigen_write_integer(RAPL_PL1_INDEX);
acpigen_write_integer(limits->pl1.min_power);
acpigen_write_integer(limits->pl1.max_power);
acpigen_write_integer(limits->pl1.time_window_min);
acpigen_write_integer(limits->pl1.time_window_max);
acpigen_write_integer(limits->pl1.granularity);
acpigen_pop_len(); /* inner Package */
}
if (limits->pl2.min_power) {
(*pkg_count)++;
acpigen_write_package(6);
acpigen_write_integer(RAPL_PL2_INDEX);
acpigen_write_integer(limits->pl2.min_power);
acpigen_write_integer(limits->pl2.max_power);
acpigen_write_integer(limits->pl2.time_window_min);
acpigen_write_integer(limits->pl2.time_window_max);
acpigen_write_integer(limits->pl2.granularity);
acpigen_pop_len(); /* inner Package */
}
acpigen_pop_len(); /* outer Package */
acpigen_pop_len(); /* Method */
acpigen_pop_len(); /* Scope */
}
void dptf_write_STR(const char *str)
{
if (!str)
return;
acpigen_write_name_unicode("_STR", str);
}
void dptf_write_fan_options(bool fine_grained, int step_size, bool low_speed_notify)
{
acpigen_write_name("_FIF");
acpigen_write_package(4);
acpigen_write_integer(0); /* Revision */
acpigen_write_integer(fine_grained);
acpigen_write_integer(step_size);
acpigen_write_integer(low_speed_notify);
acpigen_pop_len(); /* Package */
}
void dptf_write_tsr_hysteresis(uint8_t hysteresis)
{
if (!hysteresis)
return;
acpigen_write_name_integer("GTSH", hysteresis);
}
void dptf_write_enabled_policies(const struct dptf_active_policy *active_policies,
int active_count,
const struct dptf_passive_policy *passive_policies,
int passive_count,
const struct dptf_critical_policy *critical_policies,
int critical_count)
{
bool is_active_used;
bool is_passive_used;
bool is_critical_used;
int pkg_count;
is_active_used = (active_count && active_policies[0].target != DPTF_NONE);
is_passive_used = (passive_count && passive_policies[0].target != DPTF_NONE);
is_critical_used = (critical_count && critical_policies[0].source != DPTF_NONE);
pkg_count = is_active_used + is_passive_used + is_critical_used;
if (!pkg_count)
return;
acpigen_write_scope(DPTF_DEVICE_PATH);
acpigen_write_name("IDSP");
acpigen_write_package(pkg_count);
if (is_active_used)
acpigen_write_uuid(DPTF_ACTIVE_POLICY_UUID);
if (is_passive_used)
acpigen_write_uuid(DPTF_PASSIVE_POLICY_1_0_UUID);
if (is_critical_used)
acpigen_write_uuid(DPTF_CRITICAL_POLICY_UUID);
acpigen_pop_len(); /* Package */
acpigen_pop_len(); /* Scope */
}
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