/* SPDX-License-Identifier: GPL-2.0-only */ /* * The mainboard must define a PNOT method to handle power * state notifications and Notify CPU device objects to * re-evaluate their _PPC and _CST tables. */ // DTT Power Participant Device Notification #define POWER_STATE_CHANGE_NOTIFICATION 0x81 // DTT OEM variables change notification #define EC_OEM_VARIABLE_DATA_MASK 0x7 #define INT3400_ODVP_CHANGED 0x88 #define ACPI_NOTIFY_CROS_EC_PANIC 0xB0 // Mainboard specific throttle handler #ifdef DPTF_ENABLE_CHARGER External (\_SB.DPTF.TCHG, DeviceObj) #endif /* Enable DPTC interface with AMD ALIB */ #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) External(\_SB.DPTC, MethodObj) #endif External (\_SB.DPTF.TPWR, DeviceObj) #ifdef DPTF_ENABLE_OEM_VARIABLES External (\_SB.DPTF.ODVP, MethodObj) External (\_SB.DPTF.ODGT, MethodObj) External (\_SB.DPTF.ODUP, MethodObj) #endif Device (EC0) { Name (_HID, EISAID ("PNP0C09")) Name (_UID, 1) Name (_GPE, EC_SCI_GPI) Name (TOFS, EC_TEMP_SENSOR_OFFSET) Name (TNCA, EC_TEMP_SENSOR_NOT_CALIBRATED) Name (TNOP, EC_TEMP_SENSOR_NOT_POWERED) Name (TBAD, EC_TEMP_SENSOR_ERROR) Name (TNPR, EC_TEMP_SENSOR_NOT_PRESENT) Name (DWRN, 15) // Battery capacity warning at 15% Name (DLOW, 10) // Battery capacity low at 10% OperationRegion (ERAM, EmbeddedControl, 0x00, EC_ACPI_MEM_MAPPED_BEGIN) Field (ERAM, ByteAcc, Lock, Preserve) { RAMV, 8, // EC RAM Version TSTB, 8, // Test Byte TSTC, 8, // Complement of Test Byte KBLV, 8, // Keyboard Backlight value FAND, 8, // Set Fan Duty Cycle PATI, 8, // Programmable Auxiliary Trip Sensor ID PATT, 8, // Programmable Auxiliary Trip Threshold PATC, 8, // Programmable Auxiliary Trip Commit CHGL, 8, // Charger Current Limit TBMD, 1, // Tablet mode DDPN, 3, // Device DPTF Profile Number STTB, 1, // Switch thermal table by body detection status // DFUD must be 0 for the other 31 values to be valid Offset (0x0a), DFUD, 1, // Device Features Undefined FLSH, 1, // Flash commands present PFAN, 1, // PWM Fan control present KBLE, 1, // Keyboard Backlight present LTBR, 1, // Lightbar present LEDC, 1, // LED control MTNS, 1, // Motion sensors present KEYB, 1, // EC is keyboard controller PSTR, 1, // Persistent storage P80P, 1, // EC serves I/O Port 80h THRM, 1, // EC supports thermal management SBKL, 1, // Screen backlight switch present WIFI, 1, // WIFI switch present HOST, 1, // EC monitors host events (eg SCI, SMI) GPIO, 1, // EC provides GPIO commands I2CB, 1, // EC provides I2C controller access CHRG, 1, // EC provides commands for charger control BATT, 1, // Simply Battery support SBAT, 1, // Smart Battery support HANG, 1, // EC can detect host hang PMUI, 1, // Power Information DSEC, 1, // another EC exists downstream UPDC, 1, // supports USB Power Delivery UMUX, 1, // supports USB Mux MSFF, 1, // Motion Sense has FIFO TVST, 1, // supports temporary secure vstore TCMV, 1, // USB Type C Muxing is virtual (host assisted) RTCD, 1, // EC provides an RTC device FPRD, 1, // EC provides a fingerprint reader device TPAD, 1, // EC provides a touchpad device RWSG, 1, // EC has RWSIG task enabled DEVE, 1, // EC supports device events // make sure we're within our space envelope Offset (0x0e), Offset (0x12), BTID, 8, // Battery index that host wants to read USPP, 8, // USB Port Power RFWU, 8, // Retimer Firmware Update PBOK, 8, // Power source change count from dptf BSRF, 8, // Battery string readout FIFO } #if CONFIG(EC_GOOGLE_CHROMEEC_ACPI_MEMMAP) OperationRegion (EMEM, EmbeddedControl, EC_ACPI_MEM_MAPPED_BEGIN, EC_ACPI_MEM_MAPPED_SIZE) Field (EMEM, ByteAcc, Lock, Preserve) #else OperationRegion (EMEM, SystemIO, EC_LPC_ADDR_MEMMAP, EC_MEMMAP_SIZE) Field (EMEM, ByteAcc, NoLock, Preserve) #endif { #include "emem.asl" } #ifdef EC_ENABLE_LID_SWITCH /* LID Switch */ Device (LID0) { Name (_HID, EisaId ("PNP0C0D")) Method (_LID, 0) { Return (^^LIDS) } #ifdef EC_ENABLE_WAKE_PIN Name (_PRW, Package () { EC_ENABLE_WAKE_PIN, 0x5 }) #endif } #endif /* EC_ENABLE_LID_SWITCH */ Method (TINS, 1, Serialized) { Switch (ToInteger (Arg0)) { Case (0) { Return (TIN0) } Case (1) { Return (TIN1) } Case (2) { Return (TIN2) } Case (3) { Return (TIN3) } Case (4) { Return (TIN4) } Case (5) { Return (TIN5) } Case (6) { Return (TIN6) } Case (7) { Return (TIN7) } Case (8) { Return (TIN8) } Case (9) { Return (TIN9) } Default { Return (TIN0) } } } Method (_CRS, 0, Serialized) { Name (ECMD, ResourceTemplate() { IO (Decode16, EC_LPC_ADDR_ACPI_DATA, EC_LPC_ADDR_ACPI_DATA, 0, 1) IO (Decode16, EC_LPC_ADDR_ACPI_CMD, EC_LPC_ADDR_ACPI_CMD, 0, 1) }) Return (ECMD) } Method (_REG, 2, NotSerialized) { // Initialize AC power state \PWRS = ACEX /* * Call PNOT (Platform Notify) to inform platform code * about the current AC/battery state. This handles all cases, * the battery transitioning into and out of having critically * low charge. * PWRS isn't valid before this point. */ \PNOT () #ifndef EC_ENABLE_LID_SWITCH // Initialize LID switch state \LIDS = LIDS #endif #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) /* * Per the device mode (clamshell or tablet) to initialize * the thermal setting on OS startup. */ If (CondRefOf (\_SB.DPTC)) { \_SB.DPTC() } #endif } /* Read requested temperature and check against EC error values */ Method (TSRD, 1, Serialized) { Local0 = \_SB.PCI0.LPCB.EC0.TINS (Arg0) /* Check for sensor not calibrated */ If (Local0 == \_SB.PCI0.LPCB.EC0.TNCA) { Return (0) } /* Check for sensor not present */ If (Local0 == \_SB.PCI0.LPCB.EC0.TNPR) { Return (0) } /* Check for sensor not powered */ If (Local0 == \_SB.PCI0.LPCB.EC0.TNOP) { Return (0) } /* Check for sensor bad reading */ If (Local0 == \_SB.PCI0.LPCB.EC0.TBAD) { Return (0) } /* Adjust by offset to get Kelvin */ Local0 += \_SB.PCI0.LPCB.EC0.TOFS /* Convert to 1/10 Kelvin */ Local0 *= 10 Return (Local0) } // Lid Closed Event Method (_Q01, 0, NotSerialized) { Printf ("EC: LID CLOSE") #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) If (CondRefOf (\_SB.DPTC)) { \_SB.DPTC() } #endif #ifdef EC_ENABLE_LID_SWITCH Notify (LID0, 0x80) #else \LIDS = LIDS #endif } // Lid Open Event Method (_Q02, 0, NotSerialized) { Printf ("EC: LID OPEN") #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) If (CondRefOf (\_SB.DPTC)) { \_SB.DPTC() } #endif Notify (CREC, 0x2) #ifdef EC_ENABLE_LID_SWITCH Notify (LID0, 0x80) #else \LIDS = LIDS #endif } // Power Button Method (_Q03, 0, NotSerialized) { Printf ("EC: POWER BUTTON") } // AC Connected Method (_Q04, 0, NotSerialized) { Printf ("EC: AC CONNECTED") \PWRS = ACEX Notify (AC, 0x80) #ifdef DPTF_ENABLE_CHARGER If (CondRefOf (\_SB.DPTF.TCHG)) { Notify (\_SB.DPTF.TCHG, 0x80) } #endif /* * Call PNOT (Platform Notify) to inform platform code * about the current battery state. This handles all cases, * the battery transitioning into and out of having critically * low charge. */ \PNOT () } // AC Disconnected Method (_Q05, 0, NotSerialized) { Printf ("EC: AC DISCONNECTED") \PWRS = ACEX Notify (AC, 0x80) #ifdef DPTF_ENABLE_CHARGER If (CondRefOf (\_SB.DPTF.TCHG)) { Notify (\_SB.DPTF.TCHG, 0x80) } #endif /* * Call PNOT (Platform Notify) to inform platform code * about the current battery state. This handles all cases, * the battery transitioning into and out of having critically * low charge. */ \PNOT () } // Battery Low Event Method (_Q06, 0, NotSerialized) { Printf ("EC: BATTERY LOW") Notify (BAT0, 0x80) } // Battery Critical Event Method (_Q07, 0, NotSerialized) { Printf ("EC: BATTERY CRITICAL") Notify (BAT0, 0x80) } // Battery Info Event Method (_Q08, 0, NotSerialized) { Printf ("EC: BATTERY INFO") Notify (BAT0, 0x81) #ifdef EC_ENABLE_SECOND_BATTERY_DEVICE If (CondRefOf (BAT1)) { Notify (BAT1, 0x81) } #endif } // Thermal Overload Event Method (_Q0A, 0, NotSerialized) { Printf ("EC: THERMAL OVERLOAD") Notify (\_TZ, 0x80) } // Thermal Event Method (_Q0B, 0, NotSerialized) { Printf ("EC: THERMAL") Notify (\_TZ, 0x80) } // Key Pressed Method (_Q0D, 0, NotSerialized) { Printf ("EC: KEY PRESSED") Notify (CREC, 0x2) } // Thermal Shutdown Imminent Method (_Q10, 0, NotSerialized) { Printf ("EC: THERMAL SHUTDOWN") Notify (\_TZ, 0x80) } // Battery Shutdown Imminent Method (_Q11, 0, NotSerialized) { Printf ("EC: BATTERY SHUTDOWN") Notify (BAT0, 0x80) } // Throttle Start Method (_Q12, 0, NotSerialized) { #ifdef EC_ENABLE_THROTTLING_HANDLER Printf ("EC: THROTTLE START") \_TZ.THRT (1) #endif #ifdef DPTF_ENABLE_OEM_VARIABLES Local0 = ToInteger(EOVD) & EC_OEM_VARIABLE_DATA_MASK \_SB.DPTF.ODUP(0, Local0) Local0 = \_SB.DPTF.ODGT(0) \_SB.DPTF.ODVP() Notify (\_SB.DPTF, INT3400_ODVP_CHANGED) #endif } // Throttle Stop Method (_Q13, 0, NotSerialized) { #ifdef EC_ENABLE_THROTTLING_HANDLER Printf ("EC: THROTTLE STOP") \_TZ.THRT (0) #endif } #ifdef EC_ENABLE_PD_MCU_DEVICE // PD event Method (_Q16, 0, NotSerialized) { Printf ("EC: GOT PD EVENT") Notify (\_SB.PCI0.LPCB.EC0.CREC.ECPD, 0x80) If (CondRefOf (\_SB.DPTF.TPWR)) { Notify (\_SB.DPTF.TPWR, POWER_STATE_CHANGE_NOTIFICATION) } } #endif // Battery Status Method (_Q17, 0, NotSerialized) { Printf ("EC: BATTERY STATUS") Notify (BAT0, 0x80) #ifdef EC_ENABLE_SECOND_BATTERY_DEVICE If (CondRefOf (BAT1)) { Notify (BAT1, 0x80) } #endif /* * Call PNOT (Platform Notify) to inform platform code * about the current battery state. This handles all cases, * the battery transitioning into and out of having critically * low charge. */ \PNOT () } // EC Panic Method (_Q18, 0, NotSerialized) { Printf ("EC: PANIC") Notify (CREC, ACPI_NOTIFY_CROS_EC_PANIC) } // MKBP interrupt. Method (_Q1B, 0, NotSerialized) { Printf ("EC: MKBP") Notify (CREC, 0x80) } #ifdef EC_ENABLE_PD_MCU_DEVICE // USB MUX Interrupt Method (_Q1C, 0, NotSerialized) { Printf ("EC: USB MUX") Notify (\_SB.PCI0.LPCB.EC0.CREC.ECPD, 0x80) } #endif // TABLET mode switch Event Method (_Q1D, 0, NotSerialized) { Printf ("EC: TABLET mode switch Event") Notify (CREC, 0x2) #ifdef EC_ENABLE_MULTIPLE_DPTF_PROFILES \_SB.DPTF.TPET() #endif #ifdef EC_ENABLE_TBMC_DEVICE Notify (^CREC.TBMC, 0x80) #endif #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) If (CondRefOf (\_SB.DPTC)) { \_SB.DPTC() } #endif } // Body Detect Change Event Method (_Q21, 0, NotSerialized) { Printf ("EC: Body Detect Change Event") #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) If (CondRefOf (\_SB.DPTC)) { \_SB.DPTC() } #endif } /* * Dynamic Platform Thermal Framework support */ /* Mutex for EC PAT interface */ Mutex (PATM, 1) /* * Set Aux Trip Point 0 * Arg0 = Temp Sensor ID * Arg1 = Value to set */ Method (PAT0, 2, Serialized) { If (Acquire (^PATM, 1000)) { Return (0) } /* Set sensor ID */ ^PATI = ToInteger (Arg0) /* Temperature is passed in 1/10 Kelvin */ Local1 = ToInteger (Arg1) / 10 /* Adjust by EC temperature offset */ ^PATT = Local1 - ^TOFS /* Set commit value with SELECT=0 and ENABLE=1 */ ^PATC = 0x02 Release (^PATM) Return (1) } /* * Set Aux Trip Point 1 * Arg0 = Temp Sensor ID * Arg1 = Value to set */ Method (PAT1, 2, Serialized) { If (Acquire (^PATM, 1000)) { Return (0) } /* Set sensor ID */ ^PATI = ToInteger (Arg0) /* Temperature is passed in 1/10 Kelvin */ Local1 = ToInteger (Arg1) / 10 /* Adjust by EC temperature offset */ ^PATT = Local1 - ^TOFS /* Set commit value with SELECT=1 and ENABLE=1 */ ^PATC = 0x03 Release (^PATM) Return (1) } /* Disable Aux Trip Points * Arg0 = Temp Sensor ID */ Method (PATD, 1, Serialized) { If (Acquire (^PATM, 1000)) { Return (0) } ^PATI = ToInteger (Arg0) ^PATT = 0x00 /* Disable PAT0 */ ^PATC = 0x00 /* Disable PAT1 */ ^PATC = 0x01 Release (^PATM) Return (1) } /* * Thermal Threshold Event */ Method (_Q09, 0, NotSerialized) { #if CONFIG(SOC_AMD_COMMON_BLOCK_ACPI_DPTC) If (CondRefOf (\_SB.DPTC)) { \_SB.DPTC() } #endif If (!Acquire (^PATM, 1000)) { /* Read sensor ID for event */ Local0 = ^PATI /* When sensor ID returns 0xFF then no more events */ While (Local0 != EC_TEMP_SENSOR_NOT_PRESENT) { #ifdef HAVE_THERM_EVENT_HANDLER \_SB.DPTF.TEVT (Local0) #endif /* Keep reaading sensor ID for event */ Local0 = ^PATI } Release (^PATM) } } /* * Set Charger Current Limit * Arg0 = Current Limit in 64mA steps */ Method (CHGS, 1, Serialized) { ^CHGL = ToInteger (Arg0) } /* * Disable Charger Current Limit */ Method (CHGD, 0, Serialized) { ^CHGL = 0xFF } /* Read current Tablet mode */ Method (RCTM, 0, NotSerialized) { Return (^TBMD) } #ifdef EC_ENABLE_MULTIPLE_DPTF_PROFILES /* Read current Device DPTF Profile Number */ Method (RCDP, 0, NotSerialized) { /* * DDPN = 0 is reserved for backwards compatibility. * If DDPN == 0 use TBMD to load appropriate DPTF table. */ If (^DDPN == 0) { Return (^TBMD) } Else { Local0 = ^DDPN - 1 Return (Local0) } } #endif #if CONFIG(EC_GOOGLE_CHROMEEC_ACPI_USB_PORT_POWER) /* * Enable USB Port Power * Arg0 = USB port ID */ Method (UPPS, 1, Serialized) { USPP |= 1 << Arg0 } /* * Disable USB Port Power * Arg0 = USB port ID */ Method (UPPC, 1, Serialized) { USPP &= ~(1 << Arg0) } #endif #include "ac.asl" #include "battery.asl" #include "cros_ec.asl" #ifdef EC_ENABLE_ALS_DEVICE #include "als.asl" #endif #ifdef EC_ENABLE_KEYBOARD_BACKLIGHT #include "keyboard_backlight.asl" #endif }