/* SPDX-License-Identifier: GPL-2.0-only */ #include Scope (\_SB.PCI0) { /* * Clear register 0x1C20/0x4820 * Arg0 - PCR Port ID */ Method(SCSC, 1, Serialized) { PCRA (Arg0, 0x1C20, 0x0) PCRA (Arg0, 0x4820, 0x0) } /* EMMC */ Device(PEMC) { Name(_ADR, 0x001A0000) Name (_DDN, "eMMC Controller") Name (TEMP, 0) OperationRegion(SCSR, PCI_Config, 0x00, 0x100) Field(SCSR, WordAcc, NoLock, Preserve) { Offset (0x84), /* PMECTRLSTATUS */ PMCR, 16, Offset (0xA2), /* PG_CONFIG */ , 2, PGEN, 1, /* PG_ENABLE */ } Method(_INI) { /* Clear register 0x1C20/0x4820 */ SCSC (PID_EMMC) } Method(_PS0, 0, Serialized) { Stall (50) // Sleep 50 us PGEN = 0 // Disable PG /* Clear register 0x1C20/0x4820 */ SCSC (PID_EMMC) /* Set Power State to D0 */ PMCR = PMCR & 0xFFFC TEMP = PMCR } Method(_PS3, 0, Serialized) { PGEN = 1 // Enable PG /* Set Power State to D3 */ PMCR = PMCR | 0x0003 TEMP = PMCR } Device (CARD) { Name (_ADR, 0x00000008) Method (_RMV, 0, NotSerialized) { Return (0) } } } /* SD CARD */ Device (SDXC) { Name (_ADR, 0x001A0001) Name (_DDN, "SD Controller") Name (TEMP, 0) Name (DSUU, ToUUID("f6c13ea5-65cd-461f-ab7a-29f7e8d5bd61")) OperationRegion (SDPC, PCI_Config, 0x00, 0x100) Field (SDPC, WordAcc, NoLock, Preserve) { Offset (0x84), /* PMECTRLSTATUS */ PMCR, 16, Offset (0xA2), /* PG_CONFIG */ , 2, PGEN, 1, /* PG_ENABLE */ } /* * _DSM x86 Device Specific Method * Arg0: UUID Unique function identifier * Arg1: Integer Revision Level * Arg2: Integer Function Index (0 = Return Supported Functions) * Arg3: Package Parameters */ Method (_DSM, 4) { If (Arg0 == DSUU) { /* Check the revision */ If (Arg1 >= 0) { /* * Function Index 0 the return value is a buffer containing * one bit for each function index, starting with zero. * Bit 0 - Indicates whether there is support for any * functions other than function 0. * Bit 1 - Indicates support to clear power control register * Bit 2 - Indicates support to set power control register * Bit 3 - Indicates support to set 1.8V signalling * Bit 4 - Indicates support to set 3.3V signalling * Bit 5 - Indicates support for HS200 mode * Bit 6 - Indicates support for HS400 mode * Bit 9 - Indicates eMMC I/O Driver Strength */ /* * For SD we have to support functions to * set 1.8V signalling and 3.3V signalling [BIT4, BIT3] */ If (Arg2 == 0) { Return (Buffer () { 0x19 }) } /* * Function Index 3: Set 1.8v signalling. * We put a sleep of 100ms in this method to * work around a known issue with detecting * UHS SD card on PCH. This is to compensate * for the SD VR slowness. */ If (Arg2 == 3) { Sleep (100) Return(Buffer () { 0x00 }) } /* * Function Index 4: Set 3.3v signalling. * We put a sleep of 100ms in this method to * work around a known issue with detecting * UHS SD card on PCH. This is to compensate * for the SD VR slowness. */ If (Arg2 == 4) { Sleep (100) Return(Buffer () { 0x00 }) } } } Return(Buffer() { 0x0 }) } Method(_INI) { /* Clear register 0x1C20/0x4820 */ SCSC (PID_SDX) } Method (_PS0, 0, Serialized) { PGEN = 0 /* Disable PG */ /* Clear register 0x1C20/0x4820 */ SCSC (PID_SDX) /* Set Power State to D0 */ PMCR = PMCR & 0xFFFC TEMP = PMCR /* Change pad mode to Native */ GPMO(SD_PWR_EN_PIN, 0x1) } Method (_PS3, 0, Serialized) { PGEN = 1 /* Enable PG */ /* Set Power State to D3 */ PMCR = PMCR | 0x0003 TEMP = PMCR /* Change pad mode to GPIO control */ GPMO(SD_PWR_EN_PIN, 0x0) /* Enable Tx Buffer */ GTXE(SD_PWR_EN_PIN, 0x1) /* Drive TX to zero */ CTXS(SD_PWR_EN_PIN) } Device (CARD) { Name (_ADR, 0x00000008) Method (_RMV, 0, NotSerialized) { Return (1) } } } /* Device (SDXC) */ }