add stable struct to HocClkContext

This commit is contained in:
Lightos1
2026-05-08 17:58:27 +02:00
parent 9ee4d79f77
commit c766ab1569
3 changed files with 40 additions and 4 deletions

View File

@@ -30,8 +30,24 @@
#include <stdint.h> #include <stdint.h>
#include "board.h" #include "board.h"
typedef struct typedef struct {
{
struct {
#define HocClkModuleStable_EnumMax 5
#define HocClkThermalSensorStable_EnumMax 11
#define HocClkPowerSensorStable_EnumMax 2
#define HocClkRamLoadStable_EnumMax 10
#define HocClkVoltageStable_EnumMax 7
u32 freqs[HocClkModuleStable_EnumMax];
u32 realFreqs[HocClkModuleStable_EnumMax];
u32 overrideFreqs[HocClkModuleStable_EnumMax];
s32 temps[HocClkThermalSensorStable_EnumMax];
u32 power[HocClkPowerSensorStable_EnumMax];
u32 partLoad[HocClkRamLoadStable_EnumMax];
u32 voltages[HocClkVoltageStable_EnumMax];
} stable;
uint64_t applicationId; uint64_t applicationId;
HocClkProfile profile; HocClkProfile profile;
uint32_t freqs[HocClkModule_EnumMax]; uint32_t freqs[HocClkModule_EnumMax];
@@ -60,7 +76,7 @@ typedef struct
u16 resolutionHeight; u16 resolutionHeight;
// Reserved for future use // Reserved for future use
u8 reserved[0x41C]; u8 reserved[0x368];
} HocClkContext; } HocClkContext;
typedef struct typedef struct

View File

@@ -375,6 +375,9 @@ namespace clockManager {
board::SetHz(HocClkModule_Display, targetHz); board::SetHz(HocClkModule_Display, targetHz);
gContext.freqs[HocClkModule_Display] = targetHz; gContext.freqs[HocClkModule_Display] = targetHz;
gContext.realFreqs[HocClkModule_Display] = targetHz; gContext.realFreqs[HocClkModule_Display] = targetHz;
gContext.stable.freqs[HocClkModule_Display] = targetHz;
gContext.stable.realFreqs[HocClkModule_Display] = targetHz;
} else { } else {
HandleFreqReset(HocClkModule_Display, isBoost, didHijackPcv); HandleFreqReset(HocClkModule_Display, isBoost, didHijackPcv);
} }
@@ -409,6 +412,7 @@ namespace clockManager {
board::SetHz((HocClkModule)module, nearestHz); board::SetHz((HocClkModule)module, nearestHz);
gContext.freqs[module] = nearestHz; gContext.freqs[module] = nearestHz;
gContext.stable.freqs[module] = nearestHz;
if (module == HocClkModule_CPU && config::GetConfigValue(HocClkConfigValue_LiveCpuUv)) { if (module == HocClkModule_CPU && config::GetConfigValue(HocClkConfigValue_LiveCpuUv)) {
HandleCpuUv(); HandleCpuUv();
@@ -465,6 +469,7 @@ namespace clockManager {
if (hz != 0 && hz != gContext.freqs[module]) { if (hz != 0 && hz != gContext.freqs[module]) {
fileUtils::LogLine("[mgr] %s clock change: %u.%u MHz", board::GetModuleName((HocClkModule)module, true), hz / 1000000, hz / 100000 - hz / 1000000 * 10); fileUtils::LogLine("[mgr] %s clock change: %u.%u MHz", board::GetModuleName((HocClkModule)module, true), hz / 1000000, hz / 100000 - hz / 1000000 * 10);
gContext.freqs[module] = hz; gContext.freqs[module] = hz;
gContext.stable.freqs[module] = hz;
hasChanged = true; hasChanged = true;
} }
@@ -474,6 +479,7 @@ namespace clockManager {
fileUtils::LogLine("[mgr] %s override change: %u.%u MHz", board::GetModuleName((HocClkModule)module, true), hz / 1000000, hz / 100000 - hz / 1000000 * 10); fileUtils::LogLine("[mgr] %s override change: %u.%u MHz", board::GetModuleName((HocClkModule)module, true), hz / 1000000, hz / 100000 - hz / 1000000 * 10);
} }
gContext.overrideFreqs[module] = hz; gContext.overrideFreqs[module] = hz;
gContext.stable.overrideFreqs[module] = hz;
hasChanged = true; hasChanged = true;
} }
} }
@@ -489,6 +495,7 @@ namespace clockManager {
fileUtils::LogLine("[mgr] %s temp: %u.%u °C", board::GetThermalSensorName((HocClkThermalSensor)sensor, true), millis / 1000, (millis - millis / 1000 * 1000) / 100); fileUtils::LogLine("[mgr] %s temp: %u.%u °C", board::GetThermalSensorName((HocClkThermalSensor)sensor, true), millis / 1000, (millis - millis / 1000 * 1000) / 100);
} }
gContext.temps[sensor] = millis; gContext.temps[sensor] = millis;
gContext.stable.temps[sensor] = millis;
} }
// power stats do not and should not force a refresh, hasChanged untouched // power stats do not and should not force a refresh, hasChanged untouched
@@ -500,6 +507,7 @@ namespace clockManager {
fileUtils::LogLine("[mgr] Power %s: %d mW", board::GetPowerSensorName((HocClkPowerSensor)sensor, false), mw); fileUtils::LogLine("[mgr] Power %s: %d mW", board::GetPowerSensorName((HocClkPowerSensor)sensor, false), mw);
} }
gContext.power[sensor] = mw; gContext.power[sensor] = mw;
gContext.stable.power[sensor] = mw;
} }
// real freqs do not and should not force a refresh, hasChanged untouched // real freqs do not and should not force a refresh, hasChanged untouched
@@ -511,15 +519,18 @@ namespace clockManager {
fileUtils::LogLine("[mgr] %s real freq: %u.%u MHz", board::GetModuleName((HocClkModule)module, true), realHz / 1000000, realHz / 100000 - realHz / 1000000 * 10); fileUtils::LogLine("[mgr] %s real freq: %u.%u MHz", board::GetModuleName((HocClkModule)module, true), realHz / 1000000, realHz / 100000 - realHz / 1000000 * 10);
} }
gContext.realFreqs[module] = realHz; gContext.realFreqs[module] = realHz;
gContext.stable.realFreqs[module] = realHz;
} }
// ram load do not and should not force a refresh, hasChanged untouched // ram load do not and should not force a refresh, hasChanged untouched
for (unsigned int loadSource = 0; loadSource < HocClkPartLoad_EnumMax; loadSource++) { for (unsigned int loadSource = 0; loadSource < HocClkPartLoad_EnumMax; loadSource++) {
gContext.partLoad[loadSource] = board::GetPartLoad((HocClkPartLoad)loadSource); gContext.partLoad[loadSource] = board::GetPartLoad((HocClkPartLoad)loadSource);
gContext.stable.partLoad[loadSource] = board::GetPartLoad((HocClkPartLoad)loadSource);
} }
for (unsigned int voltageSource = 0; voltageSource < HocClkVoltage_EnumMax; voltageSource++) { for (unsigned int voltageSource = 0; voltageSource < HocClkVoltage_EnumMax; voltageSource++) {
gContext.voltages[voltageSource] = board::GetVoltage((HocClkVoltage)voltageSource); gContext.voltages[voltageSource] = board::GetVoltage((HocClkVoltage)voltageSource);
gContext.stable.voltages[voltageSource] = board::GetVoltage((HocClkVoltage)voltageSource);
} }
if (ConfigIntervalTimeout(HocClkConfigValue_CsvWriteIntervalMs, ns, &gLastCsvWriteNs)) { if (ConfigIntervalTimeout(HocClkConfigValue_CsvWriteIntervalMs, ns, &gLastCsvWriteNs)) {
@@ -559,6 +570,9 @@ namespace clockManager {
gContext.freqs[module] = 0; gContext.freqs[module] = 0;
gContext.realFreqs[module] = 0; gContext.realFreqs[module] = 0;
gContext.overrideFreqs[module] = 0; gContext.overrideFreqs[module] = 0;
gContext.stable.freqs[module] = 0;
gContext.stable.realFreqs[module] = 0;
gContext.stable.overrideFreqs[module] = 0;
RefreshFreqTableRow((HocClkModule)module); RefreshFreqTableRow((HocClkModule)module);
} }

View File

@@ -171,6 +171,7 @@ namespace governor {
if ((!goingDown || (cpuDownHoldRemaining == 0)) && clockManager::IsAssignableHz(HocClkModule_CPU, newHz)) { if ((!goingDown || (cpuDownHoldRemaining == 0)) && clockManager::IsAssignableHz(HocClkModule_CPU, newHz)) {
board::SetHz(HocClkModule_CPU, newHz); board::SetHz(HocClkModule_CPU, newHz);
clockManager::gContext.freqs[HocClkModule_CPU] = newHz; clockManager::gContext.freqs[HocClkModule_CPU] = newHz;
clockManager::gContext.stable.freqs[HocClkModule_CPU] = newHz;
cpuLastHz = newHz; cpuLastHz = newHz;
} }
} }
@@ -209,6 +210,7 @@ namespace governor {
if ((!goingDown || (gpuDownHoldRemaining == 0)) && clockManager::IsAssignableHz(HocClkModule_GPU, newHz)) { if ((!goingDown || (gpuDownHoldRemaining == 0)) && clockManager::IsAssignableHz(HocClkModule_GPU, newHz)) {
board::SetHz(HocClkModule_GPU, newHz); board::SetHz(HocClkModule_GPU, newHz);
clockManager::gContext.freqs[HocClkModule_GPU] = newHz; clockManager::gContext.freqs[HocClkModule_GPU] = newHz;
clockManager::gContext.stable.freqs[HocClkModule_GPU] = newHz;
gpuLastHz = newHz; gpuLastHz = newHz;
} }
} else { } else {
@@ -250,6 +252,8 @@ namespace governor {
board::SetHz(HocClkModule_Display, fps); board::SetHz(HocClkModule_Display, fps);
clockManager::gContext.freqs[HocClkModule_Display] = fps; clockManager::gContext.freqs[HocClkModule_Display] = fps;
clockManager::gContext.realFreqs[HocClkModule_Display] = fps; clockManager::gContext.realFreqs[HocClkModule_Display] = fps;
clockManager::gContext.stable.freqs[HocClkModule_Display] = fps;
clockManager::gContext.stable.realFreqs[HocClkModule_Display] = fps;
} else { } else {
for (u32 i = 0; i < 10; i++) { for (u32 i = 0; i < 10; i++) {
u32 compareHz = fps * i; u32 compareHz = fps * i;
@@ -257,6 +261,8 @@ namespace governor {
board::SetHz(HocClkModule_Display, compareHz); board::SetHz(HocClkModule_Display, compareHz);
clockManager::gContext.freqs[HocClkModule_Display] = compareHz; clockManager::gContext.freqs[HocClkModule_Display] = compareHz;
clockManager::gContext.realFreqs[HocClkModule_Display] = compareHz; clockManager::gContext.realFreqs[HocClkModule_Display] = compareHz;
clockManager::gContext.stable.freqs[HocClkModule_Display] = compareHz;
clockManager::gContext.stable.realFreqs[HocClkModule_Display] = compareHz;
break; break;
} }
} }