/* SPDX-License-Identifier: GPL-2.0-only */ Device (BAT) { Name (_HID, EisaId ("PNP0C0A")) Name (_UID, 1) Name (_PCL, Package () { \_SB }) Name (PBIF, Package () { 0x00000001, /* 0x00: Power Unit: mAh */ 0xFFFFFFFF, /* 0x01: Design Capacity */ 0xFFFFFFFF, /* 0x02: Last Full Charge Capacity */ 0x00000001, /* 0x03: Battery Technology: Rechargeable */ 0xFFFFFFFF, /* 0x04: Design Voltage */ 0x00000003, /* 0x05: Design Capacity of Warning */ 0xFFFFFFFF, /* 0x06: Design Capacity of Low */ 0x00000001, /* 0x07: Capacity Granularity 1 */ 0x00000001, /* 0x08: Capacity Granularity 2 */ "S10", /* 0x09: Model Number */ "", /* 0x0a: Serial Number */ "LION", /* 0x0b: Battery Type */ "TPS" /* 0x0c: OEM Information */ }) Name (PBIX, Package () { 0x00000000, // 0x00: Revision 0x00000001, // 0x01: Power Unit: mAh 0xFFFFFFFF, // 0x02: Design Capacity 0xFFFFFFFF, // 0x03: Last Full Charge Capacity 0x00000001, // 0x04: Battery Technology: Rechargeable 0xFFFFFFFF, // 0x05: Design Voltage 0x00000003, // 0x06: Design Capacity of Warning 0xFFFFFFFF, // 0x07: Design Capacity of Low 0x00000000, // 0x08: Cycle Count 0x00018000, // 0x09: Measurement Accuracy (98.3%?) 0x000001F4, // 0x0a: Max Sampling Time (500ms) 0x0000000a, // 0x0b: Min Sampling Time (10ms) 0xFFFFFFFF, // 0x0c: Max Averaging Interval 0xFFFFFFFF, // 0x0d: Min Averaging Interval 0x00000001, // 0x0e: Capacity Granularity 1 0x00000001, // 0x0f: Capacity Granularity 2 "S10", // 0x10: Model Number "", // 0x11: Serial Number "LION", // 0x12: Battery Type "TPS" // 0x13: OEM Information }) Name (PBST, Package () { 0x00000000, /* 0x00: Battery State */ 0xFFFFFFFF, /* 0x01: Battery Present Rate */ 0xFFFFFFFF, /* 0x02: Battery Remaining Capacity */ 0xFFFFFFFF, /* 0x03: Battery Present Voltage */ }) Name (BSTP, Zero) /* Battery Capacity warning at 15% */ Name (DWRN, 15) /* Battery Capacity low at 10% */ Name (DLOW, 10) /* Workaround for full battery status, enabled by default */ Name (BFWK, 1) /* Method to enable full battery workaround */ Method (BFWE) { BFWK = 1 } /* Method to disable full battery workaround */ Method (BFWD) { BFWK = 0 } Method (_STA, 0, Serialized) { If (BTEX) { Return (0x1F) } Else { Return (0x0F) } } Method (_BIF, 0, Serialized) { /* Last Full Charge Capacity */ PBIF [2] = BTDF /* Design Voltage */ PBIF [4] = BTDV /* Design Capacity */ Local0 = BTDA PBIF [1] = Local0 /* Design Capacity of Warning */ Local2 = (Local0 * DWRN) / 100 PBIF [5] = Local2 /* Design Capacity of Low */ Local2 = (Local0 * DLOW) / 100 PBIF [6] = Local2 Return (PBIF) } Method (_BIX, 0, Serialized) { /* Last Full Charge Capacity */ PBIX [3] = BTDF /* Design Voltage */ PBIX [5] = BTDV /* Design Capacity */ Local0 = BTDA PBIX [2] = Local0 /* Design Capacity of Warning */ Local2 = (Local0 * DWRN) / 100 PBIX [6] = Local2 /* Design Capacity of Low */ Local2 = (Local0 * DLOW) / 100 PBIX [7] = Local2 Return (PBIX) } Method (_BST, 0, Serialized) { /* * 0: BATTERY STATE * * bit 0 = discharging * bit 1 = charging * bit 2 = critical level */ /* Check if AC is present */ If (ACEX) { /* Read battery status from EC */ Local0 = BSTS } Else { /* Always discharging when on battery power */ Local0 = 0x01 } /* Check for critical battery level */ If (BFCR) { Local0 |= 0x04 } PBST [0] = Local0 /* Notify if battery state has changed since last time */ If (Local0 != BSTP) { BSTP = Local0 Notify (BAT, 0x80) } /* * 1: BATTERY PRESENT RATE */ Local1 = BTPR If (Local1 & 0x8000) { Local0 = ~Local1 & 0x7FFF Local0++ } Else { Local0 = Local1 & 0x7FFF } If(Local0 < 0x0352) { Local0 = 0x0352 } PBST [1] = Local0 /* * 2: BATTERY REMAINING CAPACITY */ Local0 = BTRA If (BFWK && ACEX && !BSTS) { Local1 = BTDF /* See if within ~6% of full */ Local2 = Local1 >> 4 If ((Local0 > (Local1 - Local2)) && (Local0 < (Local1 + Local2))) { Local0 = Local1 } } PBST [2] = Local0 /* * 3: BATTERY PRESENT VOLTAGE */ PBST [3] = BTVO Return (PBST) } }