/* * Copyright (c) 2013-2020 ARM Limited. All rights reserved. * * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * $Date: 31. March 2020 * $Revision: V2.4 * * Project: MCI (Memory Card Interface) Driver definitions */ /* History: * Version 2.4 * Removed volatile from ARM_MCI_STATUS * Version 2.3 * ARM_MCI_STATUS made volatile * Version 2.2 * Added timeout and error flags to ARM_MCI_STATUS * Added support for controlling optional RST_n pin (eMMC) * Removed explicit Clock Control (ARM_MCI_CONTROL_CLOCK) * Removed event ARM_MCI_EVENT_BOOT_ACK_TIMEOUT * Version 2.1 * Decoupled SPI mode from MCI driver * Replaced function ARM_MCI_CardSwitchRead with ARM_MCI_ReadCD and ARM_MCI_ReadWP * Version 2.0 * Added support for: * SD UHS-I (Ultra High Speed) * SD I/O Interrupt * Read Wait (SD I/O) * Suspend/Resume (SD I/O) * MMC Interrupt * MMC Boot * Stream Data transfer (MMC) * VCCQ Power Supply Control (eMMC) * Command Completion Signal (CCS) for CE-ATA * Added ARM_MCI_Control function * Added ARM_MCI_GetStatus function * Removed ARM_MCI_BusMode, ARM_MCI_BusDataWidth, ARM_MCI_BusSingaling functions * (replaced by ARM_MCI_Control) * Changed ARM_MCI_CardPower function (voltage parameter) * Changed ARM_MCI_SendCommnad function (flags parameter) * Changed ARM_MCI_SetupTransfer function (mode parameter) * Removed ARM_MCI_ReadTransfer and ARM_MCI_WriteTransfer functions * Changed prefix ARM_DRV -> ARM_DRIVER * Changed return values of some functions to int32_t * Version 1.10 * Namespace prefix ARM_ added * Version 1.00 * Initial release */ #ifndef DRIVER_MCI_H_ #define DRIVER_MCI_H_ #ifdef __cplusplus extern "C" { #endif #include "Driver_Common.h" #define ARM_MCI_API_VERSION ARM_DRIVER_VERSION_MAJOR_MINOR(2,4) /* API version */ #define _ARM_Driver_MCI_(n) Driver_MCI##n #define ARM_Driver_MCI_(n) _ARM_Driver_MCI_(n) /****** MCI Send Command Flags *****/ #define ARM_MCI_RESPONSE_Pos 0 #define ARM_MCI_RESPONSE_Msk (3UL << ARM_MCI_RESPONSE_Pos) #define ARM_MCI_RESPONSE_NONE (0UL << ARM_MCI_RESPONSE_Pos) ///< No response expected (default) #define ARM_MCI_RESPONSE_SHORT (1UL << ARM_MCI_RESPONSE_Pos) ///< Short response (48-bit) #define ARM_MCI_RESPONSE_SHORT_BUSY (2UL << ARM_MCI_RESPONSE_Pos) ///< Short response with busy signal (48-bit) #define ARM_MCI_RESPONSE_LONG (3UL << ARM_MCI_RESPONSE_Pos) ///< Long response (136-bit) #define ARM_MCI_RESPONSE_INDEX (1UL << 2) ///< Check command index in response #define ARM_MCI_RESPONSE_CRC (1UL << 3) ///< Check CRC in response #define ARM_MCI_WAIT_BUSY (1UL << 4) ///< Wait until busy before sending the command #define ARM_MCI_TRANSFER_DATA (1UL << 5) ///< Activate Data transfer #define ARM_MCI_CARD_INITIALIZE (1UL << 6) ///< Execute Memory Card initialization sequence #define ARM_MCI_INTERRUPT_COMMAND (1UL << 7) ///< Send Interrupt command (CMD40 - MMC only) #define ARM_MCI_INTERRUPT_RESPONSE (1UL << 8) ///< Send Interrupt response (CMD40 - MMC only) #define ARM_MCI_BOOT_OPERATION (1UL << 9) ///< Execute Boot operation (MMC only) #define ARM_MCI_BOOT_ALTERNATIVE (1UL << 10) ///< Execute Alternative Boot operation (MMC only) #define ARM_MCI_BOOT_ACK (1UL << 11) ///< Expect Boot Acknowledge (MMC only) #define ARM_MCI_CCSD (1UL << 12) ///< Send Command Completion Signal Disable (CCSD) for CE-ATA device #define ARM_MCI_CCS (1UL << 13) ///< Expect Command Completion Signal (CCS) for CE-ATA device /****** MCI Setup Transfer Mode *****/ #define ARM_MCI_TRANSFER_READ (0UL << 0) ///< Data Read Transfer (from MCI) #define ARM_MCI_TRANSFER_WRITE (1UL << 0) ///< Data Write Transfer (to MCI) #define ARM_MCI_TRANSFER_BLOCK (0UL << 1) ///< Block Data transfer (default) #define ARM_MCI_TRANSFER_STREAM (1UL << 1) ///< Stream Data transfer (MMC only) /****** MCI Control Codes *****/ #define ARM_MCI_BUS_SPEED (0x01UL) ///< Set Bus Speed; arg = requested speed in bits/s; returns configured speed in bits/s #define ARM_MCI_BUS_SPEED_MODE (0x02UL) ///< Set Bus Speed Mode as specified with arg #define ARM_MCI_BUS_CMD_MODE (0x03UL) ///< Set CMD Line Mode as specified with arg #define ARM_MCI_BUS_DATA_WIDTH (0x04UL) ///< Set Bus Data Width as specified with arg #define ARM_MCI_DRIVER_STRENGTH (0x05UL) ///< Set SD UHS-I Driver Strength as specified with arg #define ARM_MCI_CONTROL_RESET (0x06UL) ///< Control optional RST_n Pin (eMMC); arg: 0=inactive, 1=active #define ARM_MCI_CONTROL_CLOCK_IDLE (0x07UL) ///< Control Clock generation on CLK Pin when idle; arg: 0=disabled, 1=enabled #define ARM_MCI_UHS_TUNING_OPERATION (0x08UL) ///< Sampling clock Tuning operation (SD UHS-I); arg: 0=reset, 1=execute #define ARM_MCI_UHS_TUNING_RESULT (0x09UL) ///< Sampling clock Tuning result (SD UHS-I); returns: 0=done, 1=in progress, -1=error #define ARM_MCI_DATA_TIMEOUT (0x0AUL) ///< Set Data timeout; arg = timeout in bus cycles #define ARM_MCI_CSS_TIMEOUT (0x0BUL) ///< Set Command Completion Signal (CCS) timeout; arg = timeout in bus cycles #define ARM_MCI_MONITOR_SDIO_INTERRUPT (0x0CUL) ///< Monitor SD I/O interrupt: arg: 0=disabled, 1=enabled #define ARM_MCI_CONTROL_READ_WAIT (0x0DUL) ///< Control Read/Wait for SD I/O; arg: 0=disabled, 1=enabled #define ARM_MCI_SUSPEND_TRANSFER (0x0EUL) ///< Suspend Data transfer (SD I/O); returns number of remaining bytes to transfer #define ARM_MCI_RESUME_TRANSFER (0x0FUL) ///< Resume Data transfer (SD I/O) /*----- MCI Bus Speed Mode -----*/ #define ARM_MCI_BUS_DEFAULT_SPEED (0x00UL) ///< SD/MMC: Default Speed mode up to 25/26MHz #define ARM_MCI_BUS_HIGH_SPEED (0x01UL) ///< SD/MMC: High Speed mode up to 50/52MHz #define ARM_MCI_BUS_UHS_SDR12 (0x02UL) ///< SD: SDR12 (Single Data Rate) up to 25MHz, 12.5MB/s: UHS-I (Ultra High Speed) 1.8V signaling #define ARM_MCI_BUS_UHS_SDR25 (0x03UL) ///< SD: SDR25 (Single Data Rate) up to 50MHz, 25 MB/s: UHS-I (Ultra High Speed) 1.8V signaling #define ARM_MCI_BUS_UHS_SDR50 (0x04UL) ///< SD: SDR50 (Single Data Rate) up to 100MHz, 50 MB/s: UHS-I (Ultra High Speed) 1.8V signaling #define ARM_MCI_BUS_UHS_SDR104 (0x05UL) ///< SD: SDR104 (Single Data Rate) up to 208MHz, 104 MB/s: UHS-I (Ultra High Speed) 1.8V signaling #define ARM_MCI_BUS_UHS_DDR50 (0x06UL) ///< SD: DDR50 (Dual Data Rate) up to 50MHz, 50 MB/s: UHS-I (Ultra High Speed) 1.8V signaling /*----- MCI CMD Line Mode -----*/ #define ARM_MCI_BUS_CMD_PUSH_PULL (0x00UL) ///< Push-Pull CMD line (default) #define ARM_MCI_BUS_CMD_OPEN_DRAIN (0x01UL) ///< Open Drain CMD line (MMC only) /*----- MCI Bus Data Width -----*/ #define ARM_MCI_BUS_DATA_WIDTH_1 (0x00UL) ///< Bus data width: 1 bit (default) #define ARM_MCI_BUS_DATA_WIDTH_4 (0x01UL) ///< Bus data width: 4 bits #define ARM_MCI_BUS_DATA_WIDTH_8 (0x02UL) ///< Bus data width: 8 bits #define ARM_MCI_BUS_DATA_WIDTH_4_DDR (0x03UL) ///< Bus data width: 4 bits, DDR (Dual Data Rate) - MMC only #define ARM_MCI_BUS_DATA_WIDTH_8_DDR (0x04UL) ///< Bus data width: 8 bits, DDR (Dual Data Rate) - MMC only /*----- MCI Driver Strength -----*/ #define ARM_MCI_DRIVER_TYPE_A (0x01UL) ///< SD UHS-I Driver Type A #define ARM_MCI_DRIVER_TYPE_B (0x00UL) ///< SD UHS-I Driver Type B (default) #define ARM_MCI_DRIVER_TYPE_C (0x02UL) ///< SD UHS-I Driver Type C #define ARM_MCI_DRIVER_TYPE_D (0x03UL) ///< SD UHS-I Driver Type D /****** MCI Card Power *****/ #define ARM_MCI_POWER_VDD_Pos 0 #define ARM_MCI_POWER_VDD_Msk (0x0FUL << ARM_MCI_POWER_VDD_Pos) #define ARM_MCI_POWER_VDD_OFF (0x01UL << ARM_MCI_POWER_VDD_Pos) ///< VDD (VCC) turned off #define ARM_MCI_POWER_VDD_3V3 (0x02UL << ARM_MCI_POWER_VDD_Pos) ///< VDD (VCC) = 3.3V #define ARM_MCI_POWER_VDD_1V8 (0x03UL << ARM_MCI_POWER_VDD_Pos) ///< VDD (VCC) = 1.8V #define ARM_MCI_POWER_VCCQ_Pos 4 #define ARM_MCI_POWER_VCCQ_Msk (0x0FUL << ARM_MCI_POWER_VCCQ_Pos) #define ARM_MCI_POWER_VCCQ_OFF (0x01UL << ARM_MCI_POWER_VCCQ_Pos) ///< eMMC VCCQ turned off #define ARM_MCI_POWER_VCCQ_3V3 (0x02UL << ARM_MCI_POWER_VCCQ_Pos) ///< eMMC VCCQ = 3.3V #define ARM_MCI_POWER_VCCQ_1V8 (0x03UL << ARM_MCI_POWER_VCCQ_Pos) ///< eMMC VCCQ = 1.8V #define ARM_MCI_POWER_VCCQ_1V2 (0x04UL << ARM_MCI_POWER_VCCQ_Pos) ///< eMMC VCCQ = 1.2V /** \brief MCI Status */ typedef struct _ARM_MCI_STATUS { uint32_t command_active : 1; ///< Command active flag uint32_t command_timeout : 1; ///< Command timeout flag (cleared on start of next command) uint32_t command_error : 1; ///< Command error flag (cleared on start of next command) uint32_t transfer_active : 1; ///< Transfer active flag uint32_t transfer_timeout : 1; ///< Transfer timeout flag (cleared on start of next command) uint32_t transfer_error : 1; ///< Transfer error flag (cleared on start of next command) uint32_t sdio_interrupt : 1; ///< SD I/O Interrupt flag (cleared on start of monitoring) uint32_t ccs : 1; ///< CCS flag (cleared on start of next command) uint32_t reserved : 24; } ARM_MCI_STATUS; /****** MCI Card Event *****/ #define ARM_MCI_EVENT_CARD_INSERTED (1UL << 0) ///< Memory Card inserted #define ARM_MCI_EVENT_CARD_REMOVED (1UL << 1) ///< Memory Card removed #define ARM_MCI_EVENT_COMMAND_COMPLETE (1UL << 2) ///< Command completed #define ARM_MCI_EVENT_COMMAND_TIMEOUT (1UL << 3) ///< Command timeout #define ARM_MCI_EVENT_COMMAND_ERROR (1UL << 4) ///< Command response error (CRC error or invalid response) #define ARM_MCI_EVENT_TRANSFER_COMPLETE (1UL << 5) ///< Data transfer completed #define ARM_MCI_EVENT_TRANSFER_TIMEOUT (1UL << 6) ///< Data transfer timeout #define ARM_MCI_EVENT_TRANSFER_ERROR (1UL << 7) ///< Data transfer CRC failed #define ARM_MCI_EVENT_SDIO_INTERRUPT (1UL << 8) ///< SD I/O Interrupt #define ARM_MCI_EVENT_CCS (1UL << 9) ///< Command Completion Signal (CCS) #define ARM_MCI_EVENT_CCS_TIMEOUT (1UL << 10) ///< Command Completion Signal (CCS) Timeout // Function documentation /** \fn ARM_DRIVER_VERSION ARM_MCI_GetVersion (void) \brief Get driver version. \return \ref ARM_DRIVER_VERSION */ /** \fn ARM_MCI_CAPABILITIES ARM_MCI_GetCapabilities (void) \brief Get driver capabilities. \return \ref ARM_MCI_CAPABILITIES */ /** \fn int32_t ARM_MCI_Initialize (ARM_MCI_SignalEvent_t cb_event) \brief Initialize the Memory Card Interface \param[in] cb_event Pointer to \ref ARM_MCI_SignalEvent \return \ref execution_status */ /** \fn int32_t ARM_MCI_Uninitialize (void) \brief De-initialize Memory Card Interface. \return \ref execution_status */ /** \fn int32_t ARM_MCI_PowerControl (ARM_POWER_STATE state) \brief Control Memory Card Interface Power. \param[in] state Power state \ref ARM_POWER_STATE \return \ref execution_status */ /** \fn int32_t ARM_MCI_CardPower (uint32_t voltage) \brief Set Memory Card Power supply voltage. \param[in] voltage Memory Card Power supply voltage \return \ref execution_status */ /** \fn int32_t ARM_MCI_ReadCD (void) \brief Read Card Detect (CD) state. \return 1:card detected, 0:card not detected, or error */ /** \fn int32_t ARM_MCI_ReadWP (void) \brief Read Write Protect (WP) state. \return 1:write protected, 0:not write protected, or error */ /** \fn int32_t ARM_MCI_SendCommand (uint32_t cmd, uint32_t arg, uint32_t flags, uint32_t *response) \brief Send Command to card and get the response. \param[in] cmd Memory Card command \param[in] arg Command argument \param[in] flags Command flags \param[out] response Pointer to buffer for response \return \ref execution_status */ /** \fn int32_t ARM_MCI_SetupTransfer (uint8_t *data, uint32_t block_count, uint32_t block_size, uint32_t mode) \brief Setup read or write transfer operation. \param[in,out] data Pointer to data block(s) to be written or read \param[in] block_count Number of blocks \param[in] block_size Size of a block in bytes \param[in] mode Transfer mode \return \ref execution_status */ /** \fn int32_t ARM_MCI_AbortTransfer (void) \brief Abort current read/write data transfer. \return \ref execution_status */ /** \fn int32_t ARM_MCI_Control (uint32_t control, uint32_t arg) \brief Control MCI Interface. \param[in] control Operation \param[in] arg Argument of operation (optional) \return \ref execution_status */ /** \fn ARM_MCI_STATUS ARM_MCI_GetStatus (void) \brief Get MCI status. \return MCI status \ref ARM_MCI_STATUS */ /** \fn void ARM_MCI_SignalEvent (uint32_t event) \brief Callback function that signals a MCI Card Event. \param[in] event \ref mci_event_gr \return none */ typedef void (*ARM_MCI_SignalEvent_t) (uint32_t event); ///< Pointer to \ref ARM_MCI_SignalEvent : Signal MCI Card Event. /** \brief MCI Driver Capabilities. */ typedef struct _ARM_MCI_CAPABILITIES { uint32_t cd_state : 1; ///< Card Detect State available uint32_t cd_event : 1; ///< Signal Card Detect change event uint32_t wp_state : 1; ///< Write Protect State available uint32_t vdd : 1; ///< Supports VDD Card Power Supply Control uint32_t vdd_1v8 : 1; ///< Supports 1.8 VDD Card Power Supply uint32_t vccq : 1; ///< Supports VCCQ Card Power Supply Control (eMMC) uint32_t vccq_1v8 : 1; ///< Supports 1.8 VCCQ Card Power Supply (eMMC) uint32_t vccq_1v2 : 1; ///< Supports 1.2 VCCQ Card Power Supply (eMMC) uint32_t data_width_4 : 1; ///< Supports 4-bit data uint32_t data_width_8 : 1; ///< Supports 8-bit data uint32_t data_width_4_ddr : 1; ///< Supports 4-bit data, DDR (Dual Data Rate) - MMC only uint32_t data_width_8_ddr : 1; ///< Supports 8-bit data, DDR (Dual Data Rate) - MMC only uint32_t high_speed : 1; ///< Supports SD/MMC High Speed Mode uint32_t uhs_signaling : 1; ///< Supports SD UHS-I (Ultra High Speed) 1.8V signaling uint32_t uhs_tuning : 1; ///< Supports SD UHS-I tuning uint32_t uhs_sdr50 : 1; ///< Supports SD UHS-I SDR50 (Single Data Rate) up to 50MB/s uint32_t uhs_sdr104 : 1; ///< Supports SD UHS-I SDR104 (Single Data Rate) up to 104MB/s uint32_t uhs_ddr50 : 1; ///< Supports SD UHS-I DDR50 (Dual Data Rate) up to 50MB/s uint32_t uhs_driver_type_a : 1; ///< Supports SD UHS-I Driver Type A uint32_t uhs_driver_type_c : 1; ///< Supports SD UHS-I Driver Type C uint32_t uhs_driver_type_d : 1; ///< Supports SD UHS-I Driver Type D uint32_t sdio_interrupt : 1; ///< Supports SD I/O Interrupt uint32_t read_wait : 1; ///< Supports Read Wait (SD I/O) uint32_t suspend_resume : 1; ///< Supports Suspend/Resume (SD I/O) uint32_t mmc_interrupt : 1; ///< Supports MMC Interrupt uint32_t mmc_boot : 1; ///< Supports MMC Boot uint32_t rst_n : 1; ///< Supports RST_n Pin Control (eMMC) uint32_t ccs : 1; ///< Supports Command Completion Signal (CCS) for CE-ATA uint32_t ccs_timeout : 1; ///< Supports Command Completion Signal (CCS) timeout for CE-ATA uint32_t reserved : 3; ///< Reserved (must be zero) } ARM_MCI_CAPABILITIES; /** \brief Access structure of the MCI Driver. */ typedef struct _ARM_DRIVER_MCI { ARM_DRIVER_VERSION (*GetVersion) (void); ///< Pointer to \ref ARM_MCI_GetVersion : Get driver version. ARM_MCI_CAPABILITIES (*GetCapabilities)(void); ///< Pointer to \ref ARM_MCI_GetCapabilities : Get driver capabilities. int32_t (*Initialize) (ARM_MCI_SignalEvent_t cb_event); ///< Pointer to \ref ARM_MCI_Initialize : Initialize MCI Interface. int32_t (*Uninitialize) (void); ///< Pointer to \ref ARM_MCI_Uninitialize : De-initialize MCI Interface. int32_t (*PowerControl) (ARM_POWER_STATE state); ///< Pointer to \ref ARM_MCI_PowerControl : Control MCI Interface Power. int32_t (*CardPower) (uint32_t voltage); ///< Pointer to \ref ARM_MCI_CardPower : Set card power supply voltage. int32_t (*ReadCD) (void); ///< Pointer to \ref ARM_MCI_ReadCD : Read Card Detect (CD) state. int32_t (*ReadWP) (void); ///< Pointer to \ref ARM_MCI_ReadWP : Read Write Protect (WP) state. int32_t (*SendCommand) (uint32_t cmd, uint32_t arg, uint32_t flags, uint32_t *response); ///< Pointer to \ref ARM_MCI_SendCommand : Send Command to card and get the response. int32_t (*SetupTransfer) (uint8_t *data, uint32_t block_count, uint32_t block_size, uint32_t mode); ///< Pointer to \ref ARM_MCI_SetupTransfer : Setup data transfer operation. int32_t (*AbortTransfer) (void); ///< Pointer to \ref ARM_MCI_AbortTransfer : Abort current data transfer. int32_t (*Control) (uint32_t control, uint32_t arg); ///< Pointer to \ref ARM_MCI_Control : Control MCI Interface. ARM_MCI_STATUS (*GetStatus) (void); ///< Pointer to \ref ARM_MCI_GetStatus : Get MCI status. } const ARM_DRIVER_MCI; #ifdef __cplusplus } #endif #endif /* DRIVER_MCI_H_ */