/* * Copyright (c) 2021 Microchip Technology Inc. and its subsidiaries. * * SPDX-License-Identifier: Apache-2.0 */ #ifndef _MEC172X_ESPI_IO_H #define _MEC172X_ESPI_IO_H #include #include /* Offsets from base for various register groups */ #define MCHP_ESPI_IO_PC_OFS 0x0100u #define MCHP_ESPI_IO_HOST_BAR_OFS 0x0120u #define MCHP_ESPI_IO_LTR_OFS 0x0220u #define MCHP_ESPI_IO_OOB_OFS 0x0240u #define MCHP_ESPI_IO_FC_OFS 0x0280u #define MCHP_ESPI_IO_CAP_OFS 0x02b0u #define MCHP_ESPI_IO_SIRQ_OFS 0x03a0u /* eSPI Global Capabilities 0 */ #define MCHP_ESPI_GBL_CAP0_MASK 0x0fu #define MCHP_ESPI_GBL_CAP0_PC_SUPP BIT(0) #define MCHP_ESPI_GBL_CAP0_VW_SUPP BIT(1) #define MCHP_ESPI_GBL_CAP0_OOB_SUPP BIT(2) #define MCHP_ESPI_GBL_CAP0_FC_SUPP BIT(3) /* eSPI Global Capabilities 1 */ #define MCHP_ESPI_GBL_CAP1_MASK 0xffu #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_POS 0u #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_MASK 0x07u #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_20M 0x00u #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_25M 0x01u #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_33M 0x02u #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_50M 0x03u #define MCHP_ESPI_GBL_CAP1_MAX_FREQ_66M 0x04u #define MCHP_ESPI_GBL_CAP1_ALERT_POS 3u /* Read-Only */ #define MCHP_ESPI_GBL_CAP1_ALERT_DED_PIN \ BIT(MCHP_ESPI_GBL_CAP1_ALERT_POS) #define MCHP_ESPI_GBL_CAP1_ALERT_ON_IO1 0u #define MCHP_ESPI_GBL_CAP1_IO_MODE_POS 4u #define MCHP_ESPI_GBL_CAP1_IO_MODE_MASK0 0x03u #define MCHP_ESPI_GBL_CAP1_IO_MODE_MASK SHLU32(0x03u, 4) #define MCHP_ESPI_GBL_CAP1_IO_MODE0_1 0u #define MCHP_ESPI_GBL_CAP1_IO_MODE0_12 1u #define MCHP_ESPI_GBL_CAP1_IO_MODE0_14 2u #define MCHP_ESPI_GBL_CAP1_IO_MODE0_124 3u #define MCHP_ESPI_GBL_CAP1_IO_MODE_1 \ SHLU32(MCHP_ESPI_GBL_CAP1_IO_MODE0_1, MCHP_ESPI_GBL_CAP1_IO_MODE_POS) #define MCHP_ESPI_GBL_CAP1_IO_MODE_12 \ SHLU32(MCHP_ESPI_GBL_CAP1_IO_MODE0_12, MCHP_ESPI_GBL_CAP1_IO_MODE_POS) #define MCHP_ESPI_GBL_CAP1_IO_MODE_14 \ SHLU32(MCHP_ESPI_GBL_CAP1_IO_MODE0_14, MCHP_ESPI_GBL_CAP1_IO_MODE_POS) #define MCHP_ESPI_GBL_CAP1_IO_MODE_124 \ SHLU32(MCHP_ESPI_GBL_CAP1_IO_MODE0_124, MCHP_ESPI_GBL_CAP1_IO_MODE_POS) /* * Support Open Drain ALERT pin configuration * EC sets this bit if it can support open-drain ESPI_ALERT# */ #define MCHP_ESPI_GBL_CAP1_ALERT_ODS_POS 6u #define MCHP_ESPI_GBL_CAP1_ALERT_ODS BIT(MCHP_ESPI_GBL_CAP1_ALERT_ODS_POS) /* * Read-Only ALERT Open Drain select. * If EC has indicated it can support open-drain ESPI_ALERT# then * the Host can enable open-drain ESPI_ALERT# by sending a configuration * message. This read-only bit reflects the configuration selection. */ #define MCHP_ESPI_GBL_CAP1_ALERT_ODS_SEL_POS 7u #define MCHP_ESPI_GBL_CAP1_ALERT_SEL_ODS \ BIT(MCHP_ESPI_GBL_CAP1_ALERT_ODS_SEL_POS) /* Peripheral Channel(PC) Capabilities */ #define MCHP_ESPI_PC_CAP_MASK 0x07u #define MCHP_ESPI_PC_CAP_MAX_PLD_SZ_MASK 0x07u #define MCHP_ESPI_PC_CAP_MAX_PLD_SZ_64 0x01u #define MCHP_ESPI_PC_CAP_MAX_PLD_SZ_128 0x02u #define MCHP_ESPI_PC_CAP_MAX_PLD_SZ_256 0x03u /* Virtual Wire(VW) Capabilities */ #define MCHP_ESPI_VW_CAP_MASK 0x3fu #define MCHP_ESPI_VW_CAP_MAX_VW_CNT_MASK 0x3fu /* Out-of-Band(OOB) Capabilities */ #define MCHP_ESPI_OOB_CAP_MASK 0x07u #define MCHP_ESPI_OOB_CAP_MAX_PLD_SZ_MASK 0x07u #define MCHP_ESPI_OOB_CAP_MAX_PLD_SZ_73 0x01u #define MCHP_ESPI_OOB_CAP_MAX_PLD_SZ_137 0x02u #define MCHP_ESPI_OOB_CAP_MAX_PLD_SZ_265 0x03u /* Flash Channel(FC) Capabilities */ #define MCHP_ESPI_FC_CAP_MASK 0xffu #define MCHP_ESPI_FC_CAP_MAX_PLD_SZ_MASK 0x07u #define MCHP_ESPI_FC_CAP_MAX_PLD_SZ_64 0x01u #define MCHP_ESPI_FC_CAP_SHARE_POS 3u #define MCHP_ESPI_FC_CAP_SHARE_MASK0 0x03u #define MCHP_ESPI_FC_CAP_SHARE_MASK \ SHLU32(MCHP_ESPI_FC_CAP_SHARE_MASK0, MCHP_ESPI_FC_CAP_SHARE_POS) #define MCHP_ESPI_FC_CAP_SHARE_MAF_ONLY 0u #define MCHP_ESPI_FC_CAP_SHARE_MAF2_ONLY \ SHLU32(1U, MCHP_ESPI_FC_CAP_SHARE_POS) #define MCHP_ESPI_FC_CAP_SHARE_SAF_ONLY \ SHLU32(2U, MCHP_ESPI_FC_CAP_SHARE_POS) #define MCHP_ESPI_FC_CAP_SHARE_MAF_SAF \ SHLU32(3U, MCHP_ESPI_FC_CAP_SHARE_POS) #define MCHP_ESPI_FC_CAP_MAX_RD_SZ_POS 5u #define MCHP_ESPI_FC_CAP_MAX_RD_SZ_MASK0 0x07u #define MCHP_ESPI_FC_CAP_MAX_RD_SZ_MASK \ SHLU32(MCHP_ESPI_FC_CAP_MAX_RD_SZ_MASK0, \ MCHP_ESPI_FC_CAP_MAX_RD_SZ_POS) #define MCHP_ESPI_FC_CAP_MAX_RD_SZ_64 \ BIT(MCHP_ESPI_FC_CAP_MAX_RD_SZ_POS) /* PC Ready */ #define MCHP_ESPI_PC_READY_MASK 0x01u; #define MCHP_ESPI_PC_READY 0x01u; /* OOB Ready */ #define MCHP_ESPI_OOB_READY_MASK 0x01u; #define MCHP_ESPI_OOB_READY 0x01u; /* FC Ready */ #define MCHP_ESPI_FC_READY_MASK 0x01u; #define MCHP_ESPI_FC_READY 0x01u; /* ESPI_RESET# Interrupt Status */ #define MCHP_ESPI_RST_ISTS_MASK 0x03u; #define MCHP_ESPI_RST_ISTS_POS 0u #define MCHP_ESPI_RST_ISTS BIT(MCHP_ESPI_RST_ISTS_POS) #define MCHP_ESPI_RST_ISTS_PIN_RO_POS 1u #define MCHP_ESPI_RST_ISTS_PIN_RO_HI BIT(MCHP_ESPI_RST_ISTS_PIN_RO_POS) /* ESPI_RESET# Interrupt Enable */ #define MCHP_ESPI_RST_IEN_MASK 0x01u #define MCHP_ESPI_RST_IEN 0x01u /* eSPI Platform Reset Source */ #define MCHP_ESPI_PLTRST_SRC_MASK 0x01u #define MCHP_ESPI_PLTRST_SRC_POS 0u #define MCHP_ESPI_PLTRST_SRC_IS_PIN 0x01u #define MCHP_ESPI_PLTRST_SRC_IS_VW 0x00u /* VW Ready */ #define MCHP_ESPI_VW_READY_MASK 0x01u #define MCHP_ESPI_VW_READY 0x01u /* SAF Erase Block size */ #define MCHP_ESPI_SERASE_SZ_1K_BITPOS 0 #define MCHP_ESPI_SERASE_SZ_2K_BITPOS 1 #define MCHP_ESPI_SERASE_SZ_4K_BITPOS 2 #define MCHP_ESPI_SERASE_SZ_8K_BITPOS 3 #define MCHP_ESPI_SERASE_SZ_16K_BITPOS 4 #define MCHP_ESPI_SERASE_SZ_32K_BITPOS 5 #define MCHP_ESPI_SERASE_SZ_64K_BITPOS 6 #define MCHP_ESPI_SERASE_SZ_128K_BITPOS 7 #define MCHP_ESPI_SERASE_SZ_1K BIT(0) #define MCHP_ESPI_SERASE_SZ_2K BIT(1) #define MCHP_ESPI_SERASE_SZ_4K BIT(2) #define MCHP_ESPI_SERASE_SZ_8K BIT(3) #define MCHP_ESPI_SERASE_SZ_16K BIT(4) #define MCHP_ESPI_SERASE_SZ_32K BIT(5) #define MCHP_ESPI_SERASE_SZ_64K BIT(6) #define MCHP_ESPI_SERASE_SZ_128K BIT(7) #define MCHP_ESPI_SERASE_SZ(bitpos) BIT((bitpos) + 10u) /* VW Error Status */ #define MCHP_ESPI_VW_ERR_STS_MASK 0x33u #define MCHP_ESPI_VW_ERR_STS_FATAL_POS 0u #define MCHP_ESPI_VW_ERR_STS_FATAL_RO \ BIT(MCHP_ESPI_VW_ERR_STS_FATAL_POS) #define MCHP_ESPI_VW_ERR_STS_FATAL_CLR_POS 1u #define MCHP_ESPI_VW_ERR_STS_FATAL_CLR_WO \ BIT(MCHP_ESPI_VW_ERR_STS_FATAL_CLR_POS) #define MCHP_ESPI_VW_ERR_STS_NON_FATAL_POS 4u #define MCHP_ESPI_VW_ERR_STS_NON_FATAL_RO \ BIT(MCHP_ESPI_VW_ERR_STS_NON_FATAL_POS) #define MCHP_ESPI_VW_ERR_STS_NON_FATAL_CLR_POS 5u #define MCHP_ESPI_VW_ERR_STS_NON_FATAL_CLR_WO \ BIT(MCHP_ESPI_VW_ERR_STS_NON_FATAL_CLR_POS) /* VW Channel Enable Status */ #define MCHP_ESPI_VW_EN_STS_MASK 0x01u #define MCHP_ESPI_VW_EN_STS_RO 0x01u /* * MCHP_ESPI_IO_PC - eSPI IO Peripheral Channel registers @ 0x400F3500 */ /* Peripheral Channel Last Cycle length, type, and tag. */ #define MCHP_ESPI_PC_LC_LEN_POS 0u #define MCHP_ESPI_PC_LC_LEN_MASK0 0x0fffu #define MCHP_ESPI_PC_LC_LEN_MASK 0x0fffu #define MCHP_ESPI_PC_LC_TYPE_POS 12u #define MCHP_ESPI_PC_LC_TYPE_MASK0 0xffu #define MCHP_ESPI_PC_LC_TYPE_MASK (0xffu << 12) #define MCHP_ESPI_PC_LC_TAG_POS 20u #define MCHP_ESPI_PC_LC_TAG_MASK0 0x0fu #define MCHP_ESPI_PC_LC_TAG_MASK (0x0fu << 20) /* * Peripheral Channel Status * Bus error, Channel enable change, and Bus master enable change. */ #define MCHP_ESPI_PC_STS_BUS_ERR_POS 16u /* RW1C */ #define MCHP_ESPI_PC_STS_BUS_ERR BIT(MCHP_ESPI_PC_STS_BUS_ERR_POS) #define MCHP_ESPI_PC_STS_EN_POS 24u /* RO */ #define MCHP_ESPI_PC_STS_EN BIT(MCHP_ESPI_PC_STS_EN_POS) #define MCHP_ESPI_PC_STS_EN_CHG_POS 25u /* RW1C */ #define MCHP_ESPI_PC_STS_EN_CHG BIT(MCHP_ESPI_PC_STS_EN_CHG_POS) #define MCHP_ESPI_PC_STS_BM_EN_POS 27u /* RO */ #define MCHP_ESPI_PC_STS_BM_EN BIT(MCHP_ESPI_PC_STS_BM_EN_POS) #define MCHP_ESPI_PC_STS_BM_EN_CHG_POS 28u /* RW1C */ #define MCHP_ESPI_PC_STS_BM_EN_CHG BIT(MCHP_ESPI_PC_STS_BM_EN_CHG_POS) /* * Peripheral Channel Interrupt Enables for * Bus error, Channel enable change, and Bus master enable change. * PC_LC_ADDR_LSW (@ 0x0000) Periph Chan Last Cycle address LSW * PC_LC_ADDR_MSW (@ 0x0004) Periph Chan Last Cycle address MSW * PC_LC_LEN_TYPE_TAG (@ 0x0008) Periph Chan Last Cycle length/type/tag * PC_ERR_ADDR_LSW (@ 0x000C) Periph Chan Error Address LSW * PC_ERR_ADDR_MSW (@ 0x0010) Periph Chan Error Address MSW * PC_STATUS (@ 0x0014) Periph Chan Status * PC_IEN (@ 0x0018) Periph Chan IEN */ #define MCHP_ESPI_PC_IEN_BUS_ERR_POS 16u #define MCHP_ESPI_PC_IEN_BUS_ERR BIT(MCHP_ESPI_PC_IEN_BUS_ERR_POS) #define MCHP_ESPI_PC_IEN_EN_CHG_POS 25u #define MCHP_ESPI_PC_IEN_EN_CHG BIT(MCHP_ESPI_PC_IEN_BUS_ERR_POS) #define MCHP_ESPI_PC_IEN_BM_EN_CHG_POS 28u #define MCHP_ESPI_PC_IEN_BM_EN_CHG BIT(MCHP_ESPI_PC_IEN_BUS_ERR_POS) /*---- ESPI_IO_LTR - eSPI IO LTR registers ----*/ #define MCHP_ESPI_LTR_STS_TX_DONE_POS 0u /* RW1C */ #define MCHP_ESPI_LTR_STS_TX_DONE BIT(MCHP_ESPI_LTR_STS_TX_DONE_POS) #define MCHP_ESPI_LTR_STS_OVRUN_POS 3u /* RW1C */ #define MCHP_ESPI_LTR_STS_OVRUN BIT(MCHP_ESPI_LTR_STS_OVRUN_POS) #define MCHP_ESPI_LTR_STS_HDIS_POS 4u /* RW1C */ #define MCHP_ESPI_LTR_STS_HDIS BIT(MCHP_ESPI_LTR_STS_HDIS_POS) #define MCHP_ESPI_LTR_STS_TX_BUSY_POS 8u /* RO */ #define MCHP_ESPI_LTR_STS_TX_BUSY BIT(MCHP_ESPI_LTR_STS_TX_BUSY_POS) #define MCHP_ESPI_LTR_IEN_TX_DONE_POS 0u #define MCHP_ESPI_LTR_IEN_TX_DONE BIT(MCHP_ESPI_LTR_IEN_TX_DONE_POS) #define MCHP_ESPI_LTR_CTRL_START_POS 0u #define MCHP_ESPI_LTR_CTRL_START BIT(MCHP_ESPI_LTR_CTRL_START_POS) #define MCHP_ESPI_LTR_CTRL_TAG_POS 8u #define MCHP_ESPI_LTR_CTRL_TAG_MASK0 0x0fu #define MCHP_ESPI_LTR_CTRL_TAG_MASK \ SHLU32(MCHP_ESPI_LTR_CTRL_TAG_MASK0, MCHP_ESPI_LTR_CTRL_TAG_POS) #define MCHP_ESPI_LTR_MSG_VAL_POS 0u #define MCHP_ESPI_LTR_MSG_VAL_MASK0 0x3ffu #define MCHP_ESPI_LTR_MSG_VAL_MASK \ SHLU32(MCHP_ESPI_LTR_MSG_VAL_MASK0, MCHP_ESPI_LTR_MSG_VAL_POS) #define MCHP_ESPI_LTR_MSG_SC_POS 10u #define MCHP_ESPI_LTR_MSG_SC_MASK0 0x07u #define MCHP_ESPI_LTR_MSG_SC_MASK \ SHLU32(MCHP_ESPI_LTR_MSG_SC_MASK0, MCHP_ESPI_LTR_MSG_SC_POS) #define MCHP_ESPI_LTR_MSG_RT_POS 13u #define MCHP_ESPI_LTR_MSG_RT_MASK0 0x03u #define MCHP_ESPI_LTR_MSG_RT_MASK \ SHLU32(MCHP_ESPI_LTR_MSG_RT_MASK0, MCHP_ESPI_LTR_MSG_RT_POS) /* eSPI specification indicates RT field must be 00b */ #define MCHP_ESPI_LTR_MSG_RT_VAL 0u #define MCHP_ESPI_LTR_MSG_REQ_POS 15u /* infinite latency(default) */ #define MCHP_ESPI_LTR_MSG_REQ_INF 0u /* latency computed from VAL and SC(scale) fields */ #define MCHP_ESPI_LTR_MSG_REQ_VAL BIT(MCHP_ESPI_LTR_MSG_REQ_POS) /*---- ESPI_IO_OOB - eSPI IO OOB registers ----*/ #define MCHP_ESPI_OOB_RX_ADDR_LSW_MASK 0xfffffffcu #define MCHP_ESPI_OOB_TX_ADDR_LSW_MASK 0xfffffffcu /* OOB RX_LEN register */ /* Number of bytes received (RO) */ #define MCHP_ESPI_OOB_RX_LEN_POS 0u #define MCHP_ESPI_OOB_RX_LEN_MASK 0x1fffu /* Receive buffer length field (RW) */ #define MCHP_ESPI_OOB_RX_BUF_LEN_POS 16u #define MCHP_ESPI_OOB_RX_BUF_LEN_MASK0 0x1fffu #define MCHP_ESPI_OOB_RX_BUF_LEN_MASK \ SHLU32(MCHP_ESPI_OOB_RX_BUF_LEN_MASK0, MCHP_ESPI_OOB_RX_BUF_LEN_POS) /* OOB TX_LEN register */ #define MCHP_ESPI_OOB_TX_MSG_LEN_POS 0u #define MCHP_ESPI_OOB_TX_MSG_LEN_MASK 0x1fffu /* OOB RX_CTRL */ /* Set AVAIL bit to indicate SRAM Buffer and size has been configured */ #define MCHP_ESPI_OOB_RX_CTRL_AVAIL_POS 0u /* WO */ #define MCHP_ESPI_OOB_RX_CTRL_AVAIL BIT(MCHP_ESPI_OOB_RX_CTRL_AVAIL_POS) #define MCHP_ESPI_OOB_RX_CTRL_CHEN_POS 9u /* RO */ #define MCHP_ESPI_OOB_RX_CTRL_CHEN BIT(MCHP_ESPI_OOB_RX_CTRL_CHEN_POS) /* Copy of eSPI OOB Capabilities max. payload size */ #define MCHP_ESPI_OOB_RX_CTRL_MAX_SZ_POS 16u /* RO */ #define MCHP_ESPI_OOB_RX_CTRL_MAX_SZ_MASK0 0x07u #define MCHP_ESPI_OOB_RX_CTRL_MAX_SZ_MASK \ SHLU32(MCHP_ESPI_OOB_RX_CTRL_MAX_SZ_MASK0, \ MCHP_ESPI_OOB_RX_CTRL_MAX_SZ_POS) /* OOB RX_IEN */ #define MCHP_ESPI_OOB_RX_IEN_POS 0u #define MCHP_ESPI_OOB_RX_IEN BIT(MCHP_ESPI_OOB_RX_IEN_POS) /* OOB RX_STS */ #define MCHP_ESPI_OOB_RX_STS_DONE_POS 0u /* RW1C */ #define MCHP_ESPI_OOB_RX_STS_DONE BIT(MCHP_ESPI_OOB_RX_STS_DONE_POS) #define MCHP_ESPI_OOB_RX_STS_IBERR_POS 1u /* RW1C */ #define MCHP_ESPI_OOB_RX_STS_IBERR BIT(MCHP_ESPI_OOB_RX_STS_IBERR_POS) #define MCHP_ESPI_OOB_RX_STS_OVRUN_POS 2u /* RW1C */ #define MCHP_ESPI_OOB_RX_STS_OVRUN BIT(MCHP_ESPI_OOB_RX_STS_OVRUN_POS) #define MCHP_ESPI_OOB_RX_STS_RXEN_POS 3u /* RO */ #define MCHP_ESPI_OOB_RX_STS_RXEN BIT(MCHP_ESPI_OOB_RX_STS_RXEN_POS) #define MCHP_ESPI_OOB_RX_STS_TAG_POS 8u /* RO */ #define MCHP_ESPI_OOB_RX_STS_TAG_MASK0 0x0fu #define MCHP_ESPI_OOB_RX_STS_TAG_MASK \ SHLU32(MCHP_ESPI_OOB_RX_STS_TAG_MASK0, MCHP_ESPI_OOB_RX_STS_TAG_POS) #define MCHP_ESPI_OOB_RX_STS_ALL_RW1C 0x07u #define MCHP_ESPI_OOB_RX_STS_ALL 0x0fu /* OOB TX_CTRL */ #define MCHP_ESPI_OOB_TX_CTRL_START_POS 0u /* WO */ #define MCHP_ESPI_OOB_TX_CTRL_START BIT(MCHP_ESPI_OOB_TX_CTRL_START_POS) #define MCHP_ESPI_OOB_TX_CTRL_TAG_POS 8u /* RW */ #define MCHP_ESPI_OOB_TX_CTRL_TAG_MASK0 0x0fu #define MCHP_ESPI_OOB_TX_CTRL_TAG_MASK \ SHLU32(MCHP_ESPI_OOB_TX_CTRL_TAG_MASK0, MCHP_ESPI_OOB_TX_CTRL_TAG_POS) /* OOB TX_IEN */ #define MCHP_ESPI_OOB_TX_IEN_DONE_POS 0u #define MCHP_ESPI_OOB_TX_IEN_DONE BIT(MCHP_ESPI_OOB_TX_IEN_DONE_POS) #define MCHP_ESPI_OOB_TX_IEN_CHG_EN_POS 1u #define MCHP_ESPI_OOB_TX_IEN_CHG_EN BIT(MCHP_ESPI_OOB_TX_IEN_CHG_EN_POS) #define MCHP_ESPI_OOB_TX_IEN_ALL 0x03u /* OOB TX_STS */ #define MCHP_ESPI_OOB_TX_STS_DONE_POS 0u /* RW1C */ #define MCHP_ESPI_OOB_TX_STS_DONE BIT(MCHP_ESPI_OOB_TX_STS_DONE_POS) #define MCHP_ESPI_OOB_TX_STS_CHG_EN_POS 1u /* RW1C */ #define MCHP_ESPI_OOB_TX_STS_CHG_EN BIT(MCHP_ESPI_OOB_TX_STS_CHG_EN_POS) #define MCHP_ESPI_OOB_TX_STS_IBERR_POS 2u /* RW1C */ #define MCHP_ESPI_OOB_TX_STS_IBERR BIT(MCHP_ESPI_OOB_TX_STS_IBERR_POS) #define MCHP_ESPI_OOB_TX_STS_OVRUN_POS 3u /* RW1C */ #define MCHP_ESPI_OOB_TX_STS_OVRUN BIT(MCHP_ESPI_OOB_TX_STS_OVRUN_POS) #define MCHP_ESPI_OOB_TX_STS_BADREQ_POS 5u /* RW1C */ #define MCHP_ESPI_OOB_TX_STS_BADREQ BIT(MCHP_ESPI_OOB_TX_STS_BADREQ_POS) #define MCHP_ESPI_OOB_TX_STS_BUSY_POS 8u /* RO */ #define MCHP_ESPI_OOB_TX_STS_BUSY BIT(MCHP_ESPI_OOB_TX_STS_BUSY_POS) /* Read-only copy of OOB Channel Enabled bit */ #define MCHP_ESPI_OOB_TX_STS_CHEN_POS 9u /* RO */ #define MCHP_ESPI_OOB_TX_STS_CHEN BIT(MCHP_ESPI_OOB_TX_STS_CHEN_POS) #define MCHP_ESPI_OOB_TX_STS_ALL_RW1C 0x2fu /*---- MCHP_ESPI_IO_FC - eSPI IO Flash channel registers ----*/ /* FC MEM_ADDR_LSW */ #define MCHP_ESPI_FC_MEM_ADDR_LSW_MASK 0xfffffffcu /* FC CTRL */ #define MCHP_ESPI_FC_CTRL_START_POS 0u /* WO */ #define MCHP_ESPI_FC_CTRL_START BIT(MCHP_ESPI_FC_CTRL_START_POS) #define MCHP_ESPI_FC_CTRL_FUNC_POS 2u /* RW */ #define MCHP_ESPI_FC_CTRL_FUNC_MASK0 0x03u #define MCHP_ESPI_FC_CTRL_FUNC_MASK \ SHLU32(MCHP_ESPI_FC_CTRL_FUNC_MASK0, MCHP_ESPI_FC_CTRL_FUNC_POS) #define MCHP_ESPI_FC_CTRL_RD0 0x00u #define MCHP_ESPI_FC_CTRL_WR0 0x01u #define MCHP_ESPI_FC_CTRL_ERS0 0x02u #define MCHP_ESPI_FC_CTRL_ERL0 0x03u #define MCHP_ESPI_FC_CTRL_FUNC(f) \ (SHLU32((uint32_t)(f), MCHP_ESPI_FC_CTRL_FUNC_POS) & \ MCHP_ESPI_FC_CTRL_FUNC_MASK) #define MCHP_ESPI_FC_CTRL_TAG_POS 4u #define MCHP_ESPI_FC_CTRL_TAG_MASK0 0x0fu #define MCHP_ESPI_FC_CTRL_TAG_MASK \ SHLU32(MCHP_ESPI_FC_CTRL_TAG_MASK0, MCHP_ESPI_FC_CTRL_TAG_POS) #define MCHP_ESPI_FC_CTRL_TAG(t) \ ((uint32_t)(t) & MCHP_ESPI_FC_CTRL_TAG_MASK) #define MCHP_ESPI_FC_CTRL_ABORT_POS 16u /* WO */ #define MCHP_ESPI_FC_CTRL_ABORT BIT(MCHP_ESPI_FC_CTRL_ABORT_POS) /* FC IEN */ #define MCHP_ESPI_FC_IEN_DONE_POS 0u #define MCHP_ESPI_FC_IEN_DONE BIT(MCHP_ESPI_FC_IEN_DONE_POS) #define MCHP_ESPI_FC_IEN_CHG_EN_POS 1u #define MCHP_ESPI_FC_IEN_CHG_EN BIT(MCHP_ESPI_FC_IEN_CHG_EN_POS) /* FC CFG */ #define MCHP_ESPI_FC_CFG_BUSY_POS 0u /* RO */ #define MCHP_ESPI_FC_CFG_BUSY BIT(MCHP_ESPI_FC_CFG_BUSY_POS) #define MCHP_ESPI_FC_CFG_ERBSZ_POS 2u /* RO */ #define MCHP_ESPI_FC_CFG_ERBSZ_MASK0 0x07u #define MCHP_ESPI_FC_CFG_ERBSZ_MASK \ SHLU32(MCHP_ESPI_FC_CFG_ERBSZ_MASK0, MCHP_ESPI_FC_CFG_ERBSZ_POS) #define MCHP_ESPI_FC_CFG_ERBSZ_4K \ SHLU32(0x01u, MCHP_ESPI_FC_CFG_ERBSZ_POS) #define MCHP_ESPI_FC_CFG_ERBSZ_64K \ SHLU32(0x02u, MCHP_ESPI_FC_CFG_ERBSZ_POS) #define MCHP_ESPI_FC_CFG_ERBSZ_4K_64K \ SHLU32(0x03u, MCHP_ESPI_FC_CFG_ERBSZ_POS) #define MCHP_ESPI_FC_CFG_ERBSZ_128K \ SHLU32(0x04u, MCHP_ESPI_FC_CFG_ERBSZ_POS) #define MCHP_ESPI_FC_CFG_ERBSZ_256K \ SHLU32(0x05u, MCHP_ESPI_FC_CFG_ERBSZ_POS) #define MCHP_ESPI_FC_CFG_MAXPLD_POS 8u /* RO */ #define MCHP_ESPI_FC_CFG_MAXPLD_MASK0 0x07u #define MCHP_ESPI_FC_CFG_MAXPLD_MASK \ SHLU32(MCHP_ESPI_FC_CFG_MAXPLD_MASK0, MCHP_ESPI_FC_CFG_MAXPLD_POS) #define MCHP_ESPI_FC_CFG_MAXPLD_64B \ SHLU32(0x01u, MCHP_ESPI_FC_CFG_MAXPLD_POS) #define MCHP_ESPI_FC_CFG_MAXPLD_128B \ SHLU32(0x02u, MCHP_ESPI_FC_CFG_MAXPLD_POS) #define MCHP_ESPI_FC_CFG_MAXPLD_256B \ SHLU32(0x03u, MCHP_ESPI_FC_CFG_MAXPLD_POS) #define MCHP_ESPI_FC_CFG_SAFS_SEL_POS 11u #define MCHP_ESPI_FC_CFG_SAFS_SEL BIT(MCHP_ESPI_FC_CFG_SAFS_SEL_POS) #define MCHP_ESPI_FC_CFG_MAXRD_POS 12u /* RO */ #define MCHP_ESPI_FC_CFG_MAXRD_MASK0 0x07u #define MCHP_ESPI_FC_CFG_MAXRD_MASK \ SHLU32(MCHP_ESPI_FC_CFG_MAXRD_MASK0, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_64B \ SHLU32(0x01u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_128B \ SHLU32(0x02u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_256B \ SHLU32(0x03u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_512B \ SHLU32(0x04u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_1K \ SHLU32(0x05u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_2K \ SHLU32(0x06u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_MAXRD_4K \ SHLU32(0x07u, MCHP_ESPI_FC_CFG_MAXRD_POS) #define MCHP_ESPI_FC_CFG_FORCE_MS_POS 28u /* RW */ #define MCHP_ESPI_FC_CFG_FORCE_MS_MASK0 0x03u #define MCHP_ESPI_FC_CFG_FORCE_MS_MASK \ SHLU32(MCHP_ESPI_FC_CFG_FORCE_MS_MASK0, MCHP_ESPI_FC_CFG_FORCE_MS_POS) /* Host (eSPI Master) can select MAFS or SAFS */ #define MCHP_ESPI_FC_CFG_FORCE_NONE 0u /* EC forces eSPI slave HW to only allow MAFS */ #define MCHP_ESPI_FC_CFG_FORCE_MAFS \ SHLU32(0x02u, MCHP_ESPI_FC_CFG_FORCE_MS_POS) /* EC forces eSPI slave HW to only allow SAFS */ #define MCHP_ESPI_FC_CFG_FORCE_SAFS \ SHLU32(0x03u, MCHP_ESPI_FC_CFG_FORCE_MS_POS) /* FC STS */ #define MCHP_ESPI_FC_STS_CHAN_EN_POS 0u /* RO */ #define MCHP_ESPI_FC_STS_CHAN_EN BIT(MCHP_ESPI_FC_STS_CHAN_EN_POS) #define MCHP_ESPI_FC_STS_CHAN_EN_CHG_POS 1u /* RW1C */ #define MCHP_ESPI_FC_STS_CHAN_EN_CHG BIT(MCHP_ESPI_FC_STS_CHAN_EN_CHG_POS) #define MCHP_ESPI_FC_STS_DONE_POS 2u /* RW1C */ #define MCHP_ESPI_FC_STS_DONE BIT(MCHP_ESPI_FC_STS_DONE_POS) #define MCHP_ESPI_FC_STS_MDIS_POS 3u /* RW1C */ #define MCHP_ESPI_FC_STS_MDIS BIT(MCHP_ESPI_FC_STS_MDIS_POS) #define MCHP_ESPI_FC_STS_IBERR_POS 4u /* RW1C */ #define MCHP_ESPI_FC_STS_IBERR BIT(MCHP_ESPI_FC_STS_IBERR_POS) #define MCHP_ESPI_FC_STS_ABS_POS 5u /* RW1C */ #define MCHP_ESPI_FC_STS_ABS BIT(MCHP_ESPI_FC_STS_ABS_POS) #define MCHP_ESPI_FC_STS_OVRUN_POS 6u /* RW1C */ #define MCHP_ESPI_FC_STS_OVRUN BIT(MCHP_ESPI_FC_STS_OVRUN_POS) #define MCHP_ESPI_FC_STS_INC_POS 7u /* RW1C */ #define MCHP_ESPI_FC_STS_INC BIT(MCHP_ESPI_FC_STS_INC_POS) #define MCHP_ESPI_FC_STS_FAIL_POS 8u /* RW1C */ #define MCHP_ESPI_FC_STS_FAIL BIT(MCHP_ESPI_FC_STS_FAIL_POS) #define MCHP_ESPI_FC_STS_OVFL_POS 9u /* RW1C */ #define MCHP_ESPI_FC_STS_OVFL BIT(MCHP_ESPI_FC_STS_OVFL_POS) #define MCHP_ESPI_FC_STS_BADREQ_POS 11u /* RW1C */ #define MCHP_ESPI_FC_STS_BADREQ BIT(MCHP_ESPI_FC_STS_BADREQ_POS) #define MCHP_ESPI_FC_STS_ALL_RW1C 0x0bfeu /*---- MCHP_ESPI_IO_BAR_HOST - eSPI IO Host visible BAR registers ----*/ /* * IOBAR_INH_LSW/MSW 64-bit register: each bit = 1 inhibits an I/O BAR * independent of the BAR's Valid bit. * Logical Device Number = bit position. */ #define MCHP_ESPI_IOBAR_LDN_MBOX 0u #define MCHP_ESPI_IOBAR_LDN_KBC 1u #define MCHP_ESPI_IOBAR_LDN_ACPI_EC_0 2u #define MCHP_ESPI_IOBAR_LDN_ACPI_EC_1 3u #define MCHP_ESPI_IOBAR_LDN_ACPI_EC_2 4u #define MCHP_ESPI_IOBAR_LDN_ACPI_EC_3 5u #define MCHP_ESPI_IOBAR_LDN_ACPI_EC_4 6u #define MCHP_ESPI_IOBAR_LDN_ACPI_PM1 7u #define MCHP_ESPI_IOBAR_LDN_PORT92 8u #define MCHP_ESPI_IOBAR_LDN_UART_0 9u #define MCHP_ESPI_IOBAR_LDN_UART_1 10u #define MCHP_ESPI_IOBAR_LDN_IOC 13u #define MCHP_ESPI_IOBAR_LDN_MEM 14u #define MCHP_ESPI_IOBAR_LDN_GLUE_LOG 15u #define MCHP_ESPI_IOBAR_LDN_EMI_0 16u #define MCHP_ESPI_IOBAR_LDN_EMI_1 17u #define MCHP_ESPI_IOBAR_LDN_EMI_2 18u #define MCHP_ESPI_IOBAR_LDN_RTC 20u #define MCHP_ESPI_IOBAR_LDN_P80CAP_0 32u /* BDP Port80 Capture */ #define MCHP_ESPI_IOBAR_LDN_P80CAP_1 31u /* BDP Alias Capture */ #define MCHP_ESPI_IOBAR_LDN_T32B 47u #define MCHP_ESPI_IOBAR_LDN_LASIC 48u /* * IOBAR_INIT: Default address of I/O Plug and Play Super-IO index/data * configuration registers. (Defaults to 0x2E/0x2F) */ #define MCHP_ESPI_IOBAR_INIT_DFLT 0x2eu /* * EC_IRQ: A write to bit[0] triggers EC SERIRQ. The actual * SERIRQ slot is configured in MCHP_ESPI_IO_SIRQ.EC_SIRQ */ #define MCHP_ESPI_EC_IRQ_GEN (1u << 0) /* 32-bit Host IO BAR */ #define MCHP_ESPI_IO_BAR_HOST_VALID_POS 0u #define MCHP_ESPI_IO_BAR_HOST_VALID \ BIT(MCHP_ESPI_IO_BAR_HOST_VALID_POS) #define MCHP_ESPI_IO_BAR_HOST_ADDR_POS 16u #define MCHP_ESPI_IO_BAR_HOST_ADDR_MASK0 0xffffu #define MCHP_ESPI_IO_BAR_HOST_ADDR_MASK 0xffff0000u /* Offsets from first SIRQ */ #define MCHP_ESPI_SIRQ_MBOX_SIRQ 0u #define MCHP_ESPI_SIRQ_MBOX_SMI 1u #define MCHP_ESPI_SIRQ_KBC_KIRQ 2u #define MCHP_ESPI_SIRQ_KBC_MIRQ 3u #define MCHP_ESPI_SIRQ_ACPI_EC0 4u #define MCHP_ESPI_SIRQ_ACPI_EC1 5u #define MCHP_ESPI_SIRQ_ACPI_EC2 6u #define MCHP_ESPI_SIRQ_ACPI_EC3 7u #define MCHP_ESPI_SIRQ_ACPI_EC4 8u #define MCHP_ESPI_SIRQ_UART0 9u #define MCHP_ESPI_SIRQ_UART1 10u #define MCHP_ESPI_SIRQ_EMI0_HOST 11u #define MCHP_ESPI_SIRQ_EMI0_E2H 12u #define MCHP_ESPI_SIRQ_EMI1_HOST 13u #define MCHP_ESPI_SIRQ_EMI1_E2H 14u #define MCHP_ESPI_SIRQ_EMI2_HOST 15u #define MCHP_ESPI_SIRQ_EMI2_E2H 16u #define MCHP_ESPI_SIRQ_RTC 17u #define MCHP_ESPI_SIRQ_EC 18u #define MCHP_ESPI_SIRQ_RSVD19 19u #define MCHP_ESPI_SIRQ_MAX 20u /* * Values for Logical Device SIRQ registers. * Unless disabled each logical device must have a unique value * programmed to its SIRQ register. * Values 0x00u through 0x7Fu are sent using VWire host index 0x00 * Values 0x80h through 0xFEh are sent using VWire host index 0x01 * All registers reset default is 0xFFu (disabled). */ #define MCHP_ESPI_IO_SIRQ_DIS 0xFFu /* eSPI Memory component registers */ /* BM_STS */ #define MCHP_ESPI_BM_STS_DONE_1_POS 0u /* RW1C */ #define MCHP_ESPI_BM_STS_DONE_1 BIT(MCHP_ESPI_BM_STS_DONE_1_POS) #define MCHP_ESPI_BM_STS_BUSY_1_POS 1u /* RO */ #define MCHP_ESPI_BM_STS_BUSY_1 BIT(MCHP_ESPI_BM_STS_BUSY_1_POS) #define MCHP_ESPI_BM_STS_AB_EC_1_POS 2u /* RW1C */ #define MCHP_ESPI_BM_STS_AB_EC_1 BIT(MCHP_ESPI_BM_STS_AB_EC_1_POS) #define MCHP_ESPI_BM_STS_AB_HOST_1_POS 3u /* RW1C */ #define MCHP_ESPI_BM_STS_AB_HOST_1 BIT(MCHP_ESPI_BM_STS_AB_HOST_1_POS) #define MCHP_ESPI_BM_STS_AB_CH2_1_POS 4u /* RW1C */ #define MCHP_ESPI_BM_STS_CH2_AB_1 BIT(MCHP_ESPI_BM_STS_AB_CH2_1_POS) #define MCHP_ESPI_BM_STS_OVFL_1_POS 5u /* RW1C */ #define MCHP_ESPI_BM_STS_OVFL_1_CH2 BIT(MCHP_ESPI_BM_STS_OVFL_1_POS) #define MCHP_ESPI_BM_STS_OVRUN_1_POS 6u /* RW1C */ #define MCHP_ESPI_BM_STS_OVRUN_1_CH2 BIT(MCHP_ESPI_BM_STS_OVRUN_1_POS) #define MCHP_ESPI_BM_STS_INC_1_POS 7u /* RW1C */ #define MCHP_ESPI_BM_STS_INC_1 BIT(MCHP_ESPI_BM_STS_INC_1_POS) #define MCHP_ESPI_BM_STS_FAIL_1_POS 8u /* RW1C */ #define MCHP_ESPI_BM_STS_FAIL_1 BIT(MCHP_ESPI_BM_STS_FAIL_1_POS) #define MCHP_ESPI_BM_STS_IBERR_1_POS 9u /* RW1C */ #define MCHP_ESPI_BM_STS_IBERR_1 BIT(MCHP_ESPI_BM_STS_IBERR_1_POS) #define MCHP_ESPI_BM_STS_BADREQ_1_POS 11u /* RW1C */ #define MCHP_ESPI_BM_STS_BADREQ_1 BIT(MCHP_ESPI_BM_STS_BADREQ_1_POS) #define MCHP_ESPI_BM_STS_DONE_2_POS 16u /* RW1C */ #define MCHP_ESPI_BM_STS_DONE_2 BIT(MCHP_ESPI_BM_STS_DONE_2_POS) #define MCHP_ESPI_BM_STS_BUSY_2_POS 17u /* RO */ #define MCHP_ESPI_BM_STS_BUSY_2 BIT(MCHP_ESPI_BM_STS_BUSY_2_POS) #define MCHP_ESPI_BM_STS_AB_EC_2_POS 18u /* RW1C */ #define MCHP_ESPI_BM_STS_AB_EC_2 BIT(MCHP_ESPI_BM_STS_AB_EC_2_POS) #define MCHP_ESPI_BM_STS_AB_HOST_2_POS 19u /* RW1C */ #define MCHP_ESPI_BM_STS_AB_HOST_2 BIT(MCHP_ESPI_BM_STS_AB_HOST_2_POS) #define MCHP_ESPI_BM_STS_AB_CH1_2_POS 20u /* RW1C */ #define MCHP_ESPI_BM_STS_AB_CH1_2 BIT(MCHP_ESPI_BM_STS_AB_CH1_2_POS) #define MCHP_ESPI_BM_STS_OVFL_2_POS 21u /* RW1C */ #define MCHP_ESPI_BM_STS_OVFL_2_CH2 BIT(MCHP_ESPI_BM_STS_OVFL_2_POS) #define MCHP_ESPI_BM_STS_OVRUN_2_POS 22u /* RW1C */ #define MCHP_ESPI_BM_STS_OVRUN_CH2_2 BIT(MCHP_ESPI_BM_STS_OVRUN_2_POS) #define MCHP_ESPI_BM_STS_INC_2_POS 23u /* RW1C */ #define MCHP_ESPI_BM_STS_INC_2 BIT(MCHP_ESPI_BM_STS_INC_2_POS) #define MCHP_ESPI_BM_STS_FAIL_2_POS 24u /* RW1C */ #define MCHP_ESPI_BM_STS_FAIL_2 BIT(MCHP_ESPI_BM_STS_FAIL_2_POS) #define MCHP_ESPI_BM_STS_IBERR_2_POS 25u /* RW1C */ #define MCHP_ESPI_BM_STS_IBERR_2 BIT(MCHP_ESPI_BM_STS_IBERR_2_POS) #define MCHP_ESPI_BM_STS_BADREQ_2_POS 27u /* RW1C */ #define MCHP_ESPI_BM_STS_BADREQ_2 BIT(MCHP_ESPI_BM_STS_BADREQ_2_POS) #define MCHP_ESPI_BM_STS_ALL_RW1C_1 0x0bfdu #define MCHP_ESPI_BM_STS_ALL_RW1C_2 0x0bfd0000u /* BM_IEN */ #define MCHP_ESPI_BM1_IEN_DONE_POS 0u #define MCHP_ESPI_BM1_IEN_DONE BIT(MCHP_ESPI_BM1_IEN_DONE_POS) #define MCHP_ESPI_BM2_IEN_DONE_POS 16u #define MCHP_ESPI_BM2_IEN_DONE BIT(MCHP_ESPI_BM2_IEN_DONE_POS) /* BM_CFG */ #define MCHP_ESPI_BM1_CFG_TAG_POS 0u #define MCHP_ESPI_BM1_CFG_TAG_MASK0 0x0fu #define MCHP_ESPI_BM1_CFG_TAG_MASK 0x0fu #define MCHP_ESPI_BM2_CFG_TAG_POS 16u #define MCHP_ESPI_BM2_CFG_TAG_MASK0 0x0fu #define MCHP_ESPI_BM2_CFG_TAG_MASK 0x0f0000u /* BM1_CTRL */ #define MCHP_ESPI_BM1_CTRL_START_POS 0u /* WO */ #define MCHP_ESPI_BM1_CTRL_START BIT(MCHP_ESPI_BM1_CTRL_START_POS) #define MCHP_ESPI_BM1_CTRL_ABORT_POS 1u /* WO */ #define MCHP_ESPI_BM1_CTRL_ABORT BIT(MCHP_ESPI_BM1_CTRL_ABORT_POS) #define MCHP_ESPI_BM1_CTRL_EN_INC_POS 2u /* RW */ #define MCHP_ESPI_BM1_CTRL_EN_INC BIT(MCHP_ESPI_BM1_CTRL_EN_INC_POS) #define MCHP_ESPI_BM1_CTRL_WAIT_NB2_POS 3u /* RW */ #define MCHP_ESPI_BM1_CTRL_WAIT_NB2 BIT(MCHP_ESPI_BM1_CTRL_WAIT_NB2_POS) #define MCHP_ESPI_BM1_CTRL_CTYPE_POS 8u #define MCHP_ESPI_BM1_CTRL_CTYPE_MASK0 0x03u #define MCHP_ESPI_BM1_CTRL_CTYPE_MASK \ SHLU32(MCHP_ESPI_BM1_CTRL_CTYPE_MASK0, MCHP_ESPI_BM1_CTRL_CTYPE_POS) #define MCHP_ESPI_BM1_CTRL_CTYPE_RD_ADDR32 0x00u #define MCHP_ESPI_BM1_CTRL_CTYPE_WR_ADDR32 \ SHLU32(0x01u, MCHP_ESPI_BM1_CTRL_CTYPE_POS) #define MCHP_ESPI_BM1_CTRL_CTYPE_RD_ADDR64 \ SHLU32(0x02u, MCHP_ESPI_BM1_CTRL_CTYPE_POS) #define MCHP_ESPI_BM1_CTRL_CTYPE_WR_ADDR64 \ SHLU32(0x03u, MCHP_ESPI_BM1_CTRL_CTYPE_POS) #define MCHP_ESPI_BM1_CTRL_LEN_POS 16u #define MCHP_ESPI_BM1_CTRL_LEN_MASK0 0x1fffu #define MCHP_ESPI_BM1_CTRL_LEN_MASK 0x1fff0000u /* BM1_EC_ADDR_LSW */ #define MCHP_ESPI_BM1_EC_ADDR_LSW_MASK 0xfffffffcu /* BM2_CTRL */ #define MCHP_ESPI_BM2_CTRL_START_POS 0u /* WO */ #define MCHP_ESPI_BM2_CTRL_START BIT(MCHP_ESPI_BM2_CTRL_START_POS) #define MCHP_ESPI_BM2_CTRL_ABORT_POS 1u /* WO */ #define MCHP_ESPI_BM2_CTRL_ABORT BIT(MCHP_ESPI_BM2_CTRL_ABORT_POS) #define MCHP_ESPI_BM2_CTRL_EN_INC_POS 2u /* RW */ #define MCHP_ESPI_BM2_CTRL_EN_INC BIT(MCHP_ESPI_BM2_CTRL_EN_INC_POS) #define MCHP_ESPI_BM2_CTRL_WAIT_NB2_POS 3u /* RW */ #define MCHP_ESPI_BM2_CTRL_WAIT_NB2 BIT(MCHP_ESPI_BM2_CTRL_WAIT_NB2_POS) #define MCHP_ESPI_BM2_CTRL_CTYPE_POS 8u #define MCHP_ESPI_BM2_CTRL_CTYPE_MASK0 0x03u #define MCHP_ESPI_BM2_CTRL_CTYPE_MASK 0x0300u #define MCHP_ESPI_BM2_CTRL_CTYPE_RD_ADDR32 0x00u #define MCHP_ESPI_BM2_CTRL_CTYPE_WR_ADDR32 0x0100u #define MCHP_ESPI_BM2_CTRL_CTYPE_RD_ADDR64 0x0200u #define MCHP_ESPI_BM2_CTRL_CTYPE_WR_ADDR64 0x0300u #define MCHP_ESPI_BM2_CTRL_LEN_POS 16u #define MCHP_ESPI_BM2_CTRL_LEN_MASK0 0x1fffu #define MCHP_ESPI_BM2_CTRL_LEN_MASK 0x1fff0000u /* BM2_EC_ADDR_LSW */ #define MCHP_ESPI_BM2_EC_ADDR_LSW_MASK 0xfffffffcu /* * MCHP_ESPI_MEM_BAR_EC @ 0x400F3930 * Half-word H0 of each EC Memory BAR contains * Memory BAR memory address mask bits in bits[7:0] * Logical Device Number in bits[13:8] */ #define MCHP_ESPI_EBAR_H0_MEM_MASK_POS 0u #define MCHP_ESPI_EBAR_H0_MEM_MASK_MASK 0xffu #define MCHP_ESPI_EBAR_H0_LDN_POS 8u #define MCHP_ESPI_EBAR_H0_LDN_MASK0 0x3fu #define MCHP_ESPI_EBAR_H0_LDN_MASK 0x3f00u /* * MCHP_ESPI_MEM_BAR_HOST @ 0x400F3B30 * Each Host BAR contains: * bit[0] (RW) = Valid bit * bits[15:1] = Reserved, read-only 0 * bits[47:16] (RW) = bits[31:0] of the Host Memory address. */ /* Memory BAR Host address valid */ #define MCHP_ESPI_HBAR_VALID_POS 0u #define MCHP_ESPI_HBAR_VALID_MASK 0x01u /* * Host address is in bits[47:16] of the HBAR * HBAR's are spaced every 10 bytes (80 bits) but * only implement bits[47:0] */ #define MCHP_ESPI_HBAR_VALID_OFS 0x00u /* byte 0 */ /* 32-bit Host Address */ #define MCHP_ESPI_HBAR_ADDR_B0_OFS 0x02u /* byte 2 */ #define MCHP_ESPI_HBAR_ADDR_B1_OFS 0x03u /* byte 3 */ #define MCHP_ESPI_HBAR_ADDR_B2_OFS 0x04u /* byte 4 */ #define MCHP_ESPI_HBAR_ADDR_B3_OFS 0x05u /* byte 5 */ #define MCHP_EC_SRAM_BAR_H0_VALID_POS 0u #define MCHP_EC_SRAM_BAR_H0_VALID_MASK0 0x01u #define MCHP_EC_SRAM_BAR_H0_VALID_MASK 0x01u #define MCHP_EC_SRAM_BAR_H0_VALID 0x01u #define MCHP_EC_SRAM_BAR_H0_ACCESS_POS 1u #define MCHP_EC_SRAM_BAR_H0_ACCESS_MASK0 0x03u #define MCHP_EC_SRAM_BAR_H0_ACCESS_MASK 0x06u #define MCHP_EC_SRAM_BAR_H0_ACCESS_NONE 0x00u #define MCHP_EC_SRAM_BAR_H0_ACCESS_RO 0x02u #define MCHP_EC_SRAM_BAR_H0_ACCESS_WO 0x04u #define MCHP_EC_SRAM_BAR_H0_ACCESS_RW 0x06u #define MCHP_EC_SRAM_BAR_H0_SIZE_POS 4u #define MCHP_EC_SRAM_BAR_H0_SIZE_MASK0 0x0fu #define MCHP_EC_SRAM_BAR_H0_SIZE_MASK 0xf0u #define MCHP_EC_SRAM_BAR_H0_SIZE_1B 0x00u #define MCHP_EC_SRAM_BAR_H0_SIZE_2B 0x10u #define MCHP_EC_SRAM_BAR_H0_SIZE_4B 0x20u #define MCHP_EC_SRAM_BAR_H0_SIZE_8B 0x30u #define MCHP_EC_SRAM_BAR_H0_SIZE_16B 0x40u #define MCHP_EC_SRAM_BAR_H0_SIZE_32B 0x50u #define MCHP_EC_SRAM_BAR_H0_SIZE_64B 0x60u #define MCHP_EC_SRAM_BAR_H0_SIZE_128B 0x70u #define MCHP_EC_SRAM_BAR_H0_SIZE_256B 0x80u #define MCHP_EC_SRAM_BAR_H0_SIZE_512B 0x90u #define MCHP_EC_SRAM_BAR_H0_SIZE_1KB 0xa0u #define MCHP_EC_SRAM_BAR_H0_SIZE_2KB 0xb0u #define MCHP_EC_SRAM_BAR_H0_SIZE_4KB 0xc0u #define MCHP_EC_SRAM_BAR_H0_SIZE_8KB 0xd0u #define MCHP_EC_SRAM_BAR_H0_SIZE_16KB 0xe0u #define MCHP_EC_SRAM_BAR_H0_SIZE_32KB 0xf0u /* EC and Host SRAM BAR start offset of EC or Host memory address */ #define MCHP_EC_SRAM_BAR_MADDR_OFS1 2u #define MCHP_EC_SRAM_BAR_MADDR_OFS2 4u /* Interfaces to any C modules */ #ifdef __cplusplus extern "C" { #endif /* Array indices for eSPI IO BAR Host and EC-only register structures */ enum espi_io_bar_idx { IOB_IOC = 0, IOB_MEM, IOB_MBOX, IOB_KBC, IOB_ACPI_EC0, IOB_ACPI_EC1, IOB_ACPI_EC2, IOB_ACPI_EC3, IOB_ACPI_EC4, IOB_ACPI_PM1, IOB_PORT92, IOB_UART0, IOB_UART1, IOB_EMI0, IOB_EMI1, IOB_EMI2, IOB_P80BD, /* MEC152x IOB_P80_CAP0 */ IOB_P80BD_ALIAS, /* MEC152x IOB_P80_CAP1 */ IOB_RTC, IOB_RSVD19, IOB_T32B, IOB_RSVD21, IOB_GLUE, IOB_MAX }; /** @brief Serial IRQ byte register indices */ enum espi_io_sirq_idx { SIRQ_MBOX = 0, SIRQ_MBOX_SMI, SIRQ_KBC_KIRQ, SIRQ_KBC_MIRQ, SIRQ_ACPI_EC0_OBF, SIRQ_ACPI_EC1_OBF, SIRQ_ACPI_EC2_OBF, SIRQ_ACPI_EC3_OBF, SIRQ_ACPI_EC4_OBF, SIRQ_UART0, SIRQ_UART1, SIRQ_EMI0_HEV, SIRQ_EMI0_E2H, SIRQ_EMI1_HEV, SIRQ_EMI1_E2H, SIRQ_EMI2_HEV, SIRQ_EMI2_E2H, SIRQ_RTC, SIRQ_EC, SIRQ_MAX }; enum espi_mem_bar_idx { MEMB_MBOX = 0, MEMB_ACPI_EC0, MEMB_ACPI_EC1, MEMB_ACPI_EC2, MEMB_ACPI_EC3, MEMB_ACPI_EC4, MEMB_EMI0, MEMB_EMI1, MEMB_EMI2, MEMB_T32B, MEMB_MAX }; /* eSPI */ struct espi_io_mbar { /* 80-bit register */ volatile uint16_t LDN_MASK; volatile uint16_t RESERVED[4]; }; /* Size = 10 (0xa) */ struct espi_mbar_host { volatile uint16_t VALID; volatile uint16_t HADDR_LSH; volatile uint16_t HADDR_MSH; volatile uint16_t RESERVED[2]; }; /* Size = 10 (0xa) */ struct espi_sram_bar { volatile uint16_t VACCSZ; volatile uint16_t EC_SRAM_BASE_LSH; volatile uint16_t EC_SRAM_BASE_MSH; volatile uint16_t RESERVED[2]; }; /* Size = 10 (0xa) */ struct espi_sram_host_bar { volatile uint16_t ACCSZ; volatile uint16_t HBASE_LSH; volatile uint16_t HBASE_MSH; volatile uint16_t RESERVED[2]; }; /* Size = 10 (0xa) */ /** @brief eSPI Capabilities, I/O and Memory components in one structure */ struct espi_iom_regs { /* @ 0x400F3400 */ volatile uint8_t RTIDX; /* @ 0x0000 */ volatile uint8_t RTDAT; /* @ 0x0001 */ volatile uint16_t RESERVED; volatile uint32_t RESERVED1[63]; volatile uint32_t PCLC[3]; /* @ 0x0100 */ volatile uint32_t PCERR[2]; /* @ 0x010C */ volatile uint32_t PCSTS; /* @ 0x0114 */ volatile uint32_t PCIEN; /* @ 0x0118 */ volatile uint32_t RESERVED2; volatile uint32_t PCBINH[2]; /* @ 0x0120 */ volatile uint32_t PCBINIT; /* @ 0x0128 */ volatile uint32_t PCECIRQ; /* @ 0x012C */ volatile uint32_t PCCKNP; /* @ 0x0130 */ volatile uint32_t PCBARI[29]; /* @ 0x0134 */ volatile uint32_t RESERVED3[30]; volatile uint32_t PCLTRSTS; /* @ 0x0220 */ volatile uint32_t PCLTREN; /* @ 0x0224 */ volatile uint32_t PCLTRCTL; /* @ 0x0228 */ volatile uint32_t PCLTRM; /* @ 0x022C */ volatile uint32_t RESERVED4[4]; volatile uint32_t OOBRXA[2]; /* @ 0x0240 */ volatile uint32_t OOBTXA[2]; /* @ 0x0248 */ volatile uint32_t OOBRXL; /* @ 0x0250 */ volatile uint32_t OOBTXL; /* @ 0x0254 */ volatile uint32_t OOBRXC; /* @ 0x0258 */ volatile uint32_t OOBRXIEN; /* @ 0x025C */ volatile uint32_t OOBRXSTS; /* @ 0x0260 */ volatile uint32_t OOBTXC; /* @ 0x0264 */ volatile uint32_t OOBTXIEN; /* @ 0x0268 */ volatile uint32_t OOBTXSTS; /* @ 0x026C */ volatile uint32_t RESERVED5[4]; volatile uint32_t FCFA[2]; /* @ 0x0280 */ volatile uint32_t FCBA[2]; /* @ 0x0288 */ volatile uint32_t FCLEN; /* @ 0x0290 */ volatile uint32_t FCCTL; /* @ 0x0294 */ volatile uint32_t FCIEN; /* @ 0x0298 */ volatile uint32_t FCCFG; /* @ 0x029C */ volatile uint32_t FCSTS; /* @ 0x02A0 */ volatile uint32_t RESERVED6[3]; volatile uint32_t VWSTS; /* @ 0x02B0 */ volatile uint32_t RESERVED7[11]; volatile uint8_t CAPID; /* @ 0x02E0 */ volatile uint8_t CAP0; /* @ 0x02E1 */ volatile uint8_t CAP1; /* @ 0x02E2 */ volatile uint8_t CAPPC; /* @ 0x02E3 */ volatile uint8_t CAPVW; /* @ 0x02E4 */ volatile uint8_t CAPOOB; /* @ 0x02E5 */ volatile uint8_t CAPFC; /* @ 0x02E6 */ volatile uint8_t PCRDY; /* @ 0x02E7 */ volatile uint8_t OOBRDY; /* @ 0x02E8 */ volatile uint8_t FCRDY; /* @ 0x02E9 */ volatile uint8_t ERIS; /* @ 0x02EA */ volatile uint8_t ERIE; /* @ 0x02EB */ volatile uint8_t PLTSRC; /* @ 0x02EC */ volatile uint8_t VWRDY; /* @ 0x02ED */ volatile uint8_t SAFEBS; /* @ 0x02EE */ volatile uint8_t RESERVED8; volatile uint32_t RESERVED9[16]; volatile uint32_t ACTV; /* @ 0x0330 */ volatile uint32_t IOHBAR[29]; /* @ 0x0334 */ volatile uint32_t RESERVED10; volatile uint8_t SIRQ[19]; /* @ 0x03ac */ volatile uint8_t RESERVED11; volatile uint32_t RESERVED12[12]; volatile uint32_t VWERREN; /* @ 0x03f0 */ volatile uint32_t RESERVED13[79]; struct espi_io_mbar MBAR[10]; /* @ 0x0530 */ volatile uint32_t RESERVED14[6]; struct espi_sram_bar SRAMBAR[2]; /* @ 0x05AC */ volatile uint32_t RESERVED15[16]; volatile uint32_t BM_STATUS; /* @ 0x0600 */ volatile uint32_t BM_IEN; /* @ 0x0604 */ volatile uint32_t BM_CONFIG; /* @ 0x0608 */ volatile uint32_t RESERVED16; volatile uint32_t BM_CTRL1; /* @ 0x0610 */ volatile uint32_t BM_HADDR1_LSW; /* @ 0x0614 */ volatile uint32_t BM_HADDR1_MSW; /* @ 0x0618 */ volatile uint32_t BM_EC_ADDR1_LSW; /* @ 0x061C */ volatile uint32_t BM_EC_ADDR1_MSW; /* @ 0x0620 */ volatile uint32_t BM_CTRL2; /* @ 0x0624 */ volatile uint32_t BM_HADDR2_LSW; /* @ 0x0628 */ volatile uint32_t BM_HADDR2_MSW; /* @ 0x062C */ volatile uint32_t BM_EC_ADDR2_LSW; /* @ 0x0630 */ volatile uint32_t BM_EC_ADDR2_MSW; /* @ 0x0634 */ volatile uint32_t RESERVED17[62]; struct espi_mbar_host HMBAR[10]; /* @ 0x0730 */ volatile uint32_t RESERVED18[6]; struct espi_sram_host_bar HSRAMBAR[2]; /* @ 0x07AC */ }; /* Size = 1984 (0x7c0) */ #ifdef __cplusplus } #endif #endif /* #ifndef _MEC172X_ESPI_IO_H */