/* * Copyright 2022 NXP * * SPDX-License-Identifier: Apache-2.0 */ /** * @file * @brief SD Host Controller public API header file. */ #ifndef ZEPHYR_INCLUDE_DRIVERS_SDHC_H_ #define ZEPHYR_INCLUDE_DRIVERS_SDHC_H_ #include #include #include /** * @brief SDHC interface * @defgroup sdhc_interface SDHC interface * @ingroup io_interfaces * @{ */ #ifdef __cplusplus extern "C" { #endif /** * @name SD command timeouts * @{ */ #define SDHC_TIMEOUT_FOREVER (-1) /** @} */ /** * @brief SD host controller command structure * * This command structure is used to send command requests to an SD * host controller, which will be sent to SD devices. */ struct sdhc_command { uint32_t opcode; /*!< SD Host specification CMD index */ uint32_t arg; /*!< SD host specification argument */ uint32_t response[4]; /*!< SD card response field */ uint32_t response_type; /*!< Expected SD response type */ unsigned int retries; /*!< Max number of retries */ int timeout_ms; /*!< Command timeout in milliseconds */ }; #define SDHC_NATIVE_RESPONSE_MASK 0xF #define SDHC_SPI_RESPONSE_TYPE_MASK 0xF0 /** * @brief SD host controller data structure * * This command structure is used to send data transfer requests to an SD * host controller, which will be sent to SD devices. */ struct sdhc_data { unsigned int block_addr; /*!< Block to start read from */ unsigned int block_size; /*!< Block size */ unsigned int blocks; /*!< Number of blocks */ unsigned int bytes_xfered; /*!< populated with number of bytes sent by SDHC */ void *data; /*!< Data to transfer or receive */ int timeout_ms; /*!< data timeout in milliseconds */ }; /** * @brief SD bus mode. * * Most controllers will use push/pull, including spi, but * SDHC controllers that implement SD host specification can support open * drain mode */ enum sdhc_bus_mode { SDHC_BUSMODE_OPENDRAIN = 1, SDHC_BUSMODE_PUSHPULL = 2, }; /** * @brief SD host controller power * * Many host controllers can control power to attached SD cards. * This enum allows applications to request the host controller power off * the SD card. */ enum sdhc_power { SDHC_POWER_OFF = 1, SDHC_POWER_ON = 2, }; /** * @brief SD host controller bus width * * Only relevant in SD mode, SPI does not support bus width. UHS cards will * use 4 bit data bus, all cards start in 1 bit mode */ enum sdhc_bus_width { SDHC_BUS_WIDTH1BIT = 1U, SDHC_BUS_WIDTH4BIT = 4U, SDHC_BUS_WIDTH8BIT = 8U, }; /** * @brief SD host controller timing mode * * Used by SD host controller to determine the timing of the cards attached * to the bus. Cards start with legacy timing, but UHS-II cards can go up to * SDR104. */ enum sdhc_timing_mode { SDHC_TIMING_LEGACY = 1U, /*!< Legacy 3.3V Mode */ SDHC_TIMING_HS = 2U, /*!< Legacy High speed mode (3.3V) */ SDHC_TIMING_SDR12 = 3U, /*!< Identification mode & SDR12 */ SDHC_TIMING_SDR25 = 4U, /*!< High speed mode & SDR25 */ SDHC_TIMING_SDR50 = 5U, /*!< SDR49 mode*/ SDHC_TIMING_SDR104 = 6U, /*!< SDR104 mode */ SDHC_TIMING_DDR50 = 7U, /*!< DDR50 mode */ SDHC_TIMING_DDR52 = 8U, /*!< DDR52 mode */ SDHC_TIMING_HS200 = 9U, /*!< HS200 mode */ SDHC_TIMING_HS400 = 10U, /*!< HS400 mode */ }; /** * @brief SD voltage * * UHS cards can run with 1.8V signalling for improved power consumption. Legacy * cards may support 3.0V signalling, and all cards start at 3.3V. * Only relevant for SD controllers, not SPI ones. */ enum sd_voltage { SD_VOL_3_3_V = 1U, /*!< card operation voltage around 3.3v */ SD_VOL_3_0_V = 2U, /*!< card operation voltage around 3.0v */ SD_VOL_1_8_V = 3U, /*!< card operation voltage around 1.8v */ SD_VOL_1_2_V = 4U, /*!< card operation voltage around 1.2v */ }; /** * @brief SD host controller capabilities * * SD host controller capability flags. These flags should be set by the SDHC * driver, using the @ref sdhc_get_host_props api. */ struct sdhc_host_caps { unsigned int timeout_clk_freq: 5; /**< Timeout clock frequency */ unsigned int _rsvd_6: 1; /**< Reserved */ unsigned int timeout_clk_unit: 1; /**< Timeout clock unit */ unsigned int sd_base_clk: 8; /**< SD base clock frequency */ unsigned int max_blk_len: 2; /**< Max block length */ unsigned int bus_8_bit_support: 1; /**< 8-bit Support for embedded device */ unsigned int bus_4_bit_support: 1; /**< 4 bit bus support */ unsigned int adma_2_support: 1; /**< ADMA2 support */ unsigned int _rsvd_20: 1; /**< Reserved */ unsigned int high_spd_support: 1; /**< High speed support */ unsigned int sdma_support: 1; /**< SDMA support */ unsigned int suspend_res_support: 1; /**< Suspend/Resume support */ unsigned int vol_330_support: 1; /**< Voltage support 3.3V */ unsigned int vol_300_support: 1; /**< Voltage support 3.0V */ unsigned int vol_180_support: 1; /**< Voltage support 1.8V */ unsigned int address_64_bit_support_v4: 1; /**< 64-bit system address support for V4 */ unsigned int address_64_bit_support_v3: 1; /**< 64-bit system address support for V3 */ unsigned int sdio_async_interrupt_support: 1; /**< Asynchronous interrupt support */ unsigned int slot_type: 2; /**< Slot type */ unsigned int sdr50_support: 1; /**< SDR50 support */ unsigned int sdr104_support: 1; /**< SDR104 support */ unsigned int ddr50_support: 1; /**< DDR50 support */ unsigned int uhs_2_support: 1; /**< UHS-II support */ unsigned int drv_type_a_support: 1; /**< Driver type A support */ unsigned int drv_type_c_support: 1; /**< Driver type C support */ unsigned int drv_type_d_support: 1; /**< Driver type D support */ unsigned int _rsvd_39: 1; /**< Reserved */ unsigned int retune_timer_count: 4; /**< Timer count for re-tuning */ unsigned int sdr50_needs_tuning: 1; /**< Use tuning for SDR50 */ unsigned int retuning_mode: 2; /**< Re-tuning mode */ unsigned int clk_multiplier: 8; /**< Clock multiplier */ unsigned int _rsvd_56: 3; /**< Reserved */ unsigned int adma3_support: 1; /**< ADMA3 support */ unsigned int vdd2_180_support: 1; /**< 1.8V VDD2 support */ unsigned int _rsvd_61: 3; /**< Reserved */ unsigned int hs200_support: 1; /**< HS200 support */ unsigned int hs400_support: 1; /**< HS400 support */ }; /** * @brief SD host controller I/O control structure * * Controls I/O settings for the SDHC. Note that only a subset of these settings * apply to host controllers in SPI mode. Populate this struct, then call * @ref sdhc_set_io to apply I/O settings */ struct sdhc_io { enum sdhc_clock_speed clock; /*!< Clock rate */ enum sdhc_bus_mode bus_mode; /*!< command output mode */ enum sdhc_power power_mode; /*!< SD power supply mode */ enum sdhc_bus_width bus_width; /*!< SD bus width */ enum sdhc_timing_mode timing; /*!< SD bus timing */ enum sd_driver_type driver_type; /*!< SD driver type */ enum sd_voltage signal_voltage; /*!< IO signalling voltage (usually 1.8 or 3.3V) */ }; /** * @brief SD host controller properties * * Populated by the host controller using @ref sdhc_get_host_props api. */ struct sdhc_host_props { unsigned int f_max; /*!< Max bus frequency */ unsigned int f_min; /*!< Min bus frequency */ unsigned int power_delay; /*!< Delay to allow SD to power up or down (in ms) */ struct sdhc_host_caps host_caps; /*!< Host capability bitfield */ uint32_t max_current_330; /*!< Max current (in mA) at 3.3V */ uint32_t max_current_300; /*!< Max current (in mA) at 3.0V */ uint32_t max_current_180; /*!< Max current (in mA) at 1.8V */ bool is_spi; /*!< Is the host using SPI mode */ }; __subsystem struct sdhc_driver_api { int (*reset)(const struct device *dev); int (*request)(const struct device *dev, struct sdhc_command *cmd, struct sdhc_data *data); int (*set_io)(const struct device *dev, struct sdhc_io *ios); int (*get_card_present)(const struct device *dev); int (*execute_tuning)(const struct device *dev); int (*card_busy)(const struct device *dev); int (*get_host_props)(const struct device *dev, struct sdhc_host_props *props); }; /** * @brief reset SDHC controller state * * Used when the SDHC has encountered an error. Resetting the SDHC controller * should clear all errors on the SDHC, but does not necessarily reset I/O * settings to boot (this can be done with @ref sdhc_set_io) * * @param dev: SD host controller device * @retval 0 reset succeeded * @retval -ETIMEDOUT: controller reset timed out * @retval -EIO: reset failed */ __syscall int sdhc_hw_reset(const struct device *dev); static inline int z_impl_sdhc_hw_reset(const struct device *dev) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->reset) { return -ENOSYS; } return api->reset(dev); } /** * @brief Send command to SDHC * * Sends a command to the SD host controller, which will send this command to * attached SD cards. * @param dev: SDHC device * @param cmd: SDHC command * @param data: SDHC data. Leave NULL to send SD command without data. * @retval 0 command was sent successfully * @retval -ETIMEDOUT command timed out while sending * @retval -ENOTSUP host controller does not support command * @retval -EIO: I/O error */ __syscall int sdhc_request(const struct device *dev, struct sdhc_command *cmd, struct sdhc_data *data); static inline int z_impl_sdhc_request(const struct device *dev, struct sdhc_command *cmd, struct sdhc_data *data) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->request) { return -ENOSYS; } return api->request(dev, cmd, data); } /** * @brief set I/O properties of SDHC * * I/O properties should be reconfigured when the card has been sent a command * to change its own SD settings. This function can also be used to toggle * power to the SD card. * @param dev: SDHC device * @param io: I/O properties * @return 0 I/O was configured correctly * @return -ENOTSUP controller does not support these I/O settings * @return -EIO controller could not configure I/O settings */ __syscall int sdhc_set_io(const struct device *dev, struct sdhc_io *io); static inline int z_impl_sdhc_set_io(const struct device *dev, struct sdhc_io *io) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->set_io) { return -ENOSYS; } return api->set_io(dev, io); } /** * @brief check for SDHC card presence * * Checks if card is present on the SD bus. Note that if a controller * requires cards be powered up to detect presence, it should do so in * this function. * @param dev: SDHC device * @retval 1 card is present * @retval 0 card is not present * @retval -EIO I/O error */ __syscall int sdhc_card_present(const struct device *dev); static inline int z_impl_sdhc_card_present(const struct device *dev) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->get_card_present) { return -ENOSYS; } return api->get_card_present(dev); } /** * @brief run SDHC tuning * * SD cards require signal tuning for UHS modes SDR104 and SDR50. This function * allows an application to request the SD host controller to tune the card. * @param dev: SDHC device * @retval 0 tuning succeeded, card is ready for commands * @retval -ETIMEDOUT: tuning failed after timeout * @retval -ENOTSUP: controller does not support tuning * @retval -EIO: I/O error while tuning */ __syscall int sdhc_execute_tuning(const struct device *dev); static inline int z_impl_sdhc_execute_tuning(const struct device *dev) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->execute_tuning) { return -ENOSYS; } return api->execute_tuning(dev); } /** * @brief check if SD card is busy * * This check should generally be implemented as checking the line level of the * DAT[0:3] lines of the SD bus. No SD commands need to be sent, the controller * simply needs to report the status of the SD bus. * @param dev: SDHC device * @retval 0 card is not busy * @retval 1 card is busy * @retval -EIO I/O error */ __syscall int sdhc_card_busy(const struct device *dev); static inline int z_impl_sdhc_card_busy(const struct device *dev) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->card_busy) { return -ENOSYS; } return api->card_busy(dev); } /** * @brief Get SD host controller properties * * Gets host properties from the host controller. Host controller should * initialize all values in the @ref sdhc_host_props structure provided. * @param dev: SDHC device * @param props property structure to be filled by sdhc driver * @retval 0 function succeeded. * @retval -ENOTSUP host controller does not support this call */ __syscall int sdhc_get_host_props(const struct device *dev, struct sdhc_host_props *props); static inline int z_impl_sdhc_get_host_props(const struct device *dev, struct sdhc_host_props *props) { const struct sdhc_driver_api *api = (const struct sdhc_driver_api *)dev->api; if (!api->get_host_props) { return -ENOSYS; } return api->get_host_props(dev, props); } /** * @} */ #ifdef __cplusplus } #endif #include #endif /* ZEPHYR_INCLUDE_DRIVERS_SDHC_H_ */