/* $NetBSD: sdmmcvar.h,v 1.30.4.2 2020/08/09 14:03:07 martin Exp $ */ /* $OpenBSD: sdmmcvar.h,v 1.13 2009/01/09 10:55:22 jsg Exp $ */ /* * Copyright (c) 2006 Uwe Stuehler * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef _SDMMCVAR_H_ #define _SDMMCVAR_H_ #ifdef _KERNEL_OPT #include "opt_sdmmc.h" #endif #include #include #include #include #include #include #include #define SDMMC_SECTOR_SIZE_SB 9 #define SDMMC_SECTOR_SIZE (1 << SDMMC_SECTOR_SIZE_SB) /* =512 */ struct sdmmc_csd { int csdver; /* CSD structure format */ u_int mmcver; /* MMC version (for CID format) */ int capacity; /* total number of sectors */ int read_bl_len; /* block length for reads */ int write_bl_len; /* block length for writes */ int r2w_factor; int tran_speed; /* transfer speed (kbit/s) */ int ccc; /* Card Command Class for SD */ /* ... */ }; struct sdmmc_ext_csd { uint8_t rev; uint8_t rst_n_function; /* RST_n_FUNCTION */ uint32_t cache_size; }; struct sdmmc_cid { int mid; /* manufacturer identification number */ int oid; /* OEM/product identification number */ char pnm[8]; /* product name (MMC v1 has the longest) */ int rev; /* product revision */ int psn; /* product serial number */ int mdt; /* manufacturing date */ }; struct sdmmc_scr { int sd_spec; int bus_width; }; typedef uint32_t sdmmc_response[4]; struct sdmmc_softc; struct sdmmc_task { void (*func)(void *arg); void *arg; int onqueue; struct sdmmc_softc *sc; TAILQ_ENTRY(sdmmc_task) next; }; #define sdmmc_init_task(xtask, xfunc, xarg) \ do { \ (xtask)->func = (xfunc); \ (xtask)->arg = (xarg); \ (xtask)->onqueue = 0; \ (xtask)->sc = NULL; \ } while (/*CONSTCOND*/0) struct sdmmc_command { struct sdmmc_task c_task; /* task queue entry */ uint16_t c_opcode; /* SD or MMC command index */ uint32_t c_arg; /* SD/MMC command argument */ sdmmc_response c_resp; /* response buffer */ bus_dmamap_t c_dmamap; int c_dmaseg; /* DMA segment number */ int c_dmaoff; /* offset in DMA segment */ void *c_data; /* buffer to send or read into */ int c_datalen; /* length of data buffer */ int c_blklen; /* block length */ int c_flags; /* see below */ #define SCF_ITSDONE (1U << 0) /* command is complete */ #define SCF_RSP_PRESENT (1U << 1) #define SCF_RSP_BSY (1U << 2) #define SCF_RSP_136 (1U << 3) #define SCF_RSP_CRC (1U << 4) #define SCF_RSP_IDX (1U << 5) #define SCF_CMD_READ (1U << 6) /* read command (data expected) */ /* non SPI */ #define SCF_CMD_AC (0U << 8) #define SCF_CMD_ADTC (1U << 8) #define SCF_CMD_BC (2U << 8) #define SCF_CMD_BCR (3U << 8) #define SCF_CMD_MASK (3U << 8) /* SPI */ #define SCF_RSP_SPI_S1 (1U << 10) #define SCF_RSP_SPI_S2 (1U << 11) #define SCF_RSP_SPI_B4 (1U << 12) #define SCF_RSP_SPI_BSY (1U << 13) /* Probing */ #define SCF_TOUT_OK (1U << 14) /* command timeout expected */ /* Command hints */ #define SCF_XFER_SDHC (1U << 15) /* card is SDHC */ #define SCF_POLL (1U << 16) /* polling required */ #define SCF_NEED_BOUNCE (1U << 17) /* (driver) transfer requires bounce buffer */ /* response types */ #define SCF_RSP_R0 0 /* none */ #define SCF_RSP_R1 (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_IDX) #define SCF_RSP_R1B (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_IDX|SCF_RSP_BSY) #define SCF_RSP_R2 (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_136) #define SCF_RSP_R3 (SCF_RSP_PRESENT) #define SCF_RSP_R4 (SCF_RSP_PRESENT) #define SCF_RSP_R5 (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_IDX) #define SCF_RSP_R5B (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_IDX|SCF_RSP_BSY) #define SCF_RSP_R6 (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_IDX) #define SCF_RSP_R7 (SCF_RSP_PRESENT|SCF_RSP_CRC|SCF_RSP_IDX) #define SCF_RSP_MASK (0x1f << 1) /* SPI */ #define SCF_RSP_SPI_R1 (SCF_RSP_SPI_S1) #define SCF_RSP_SPI_R1B (SCF_RSP_SPI_S1|SCF_RSP_SPI_BSY) #define SCF_RSP_SPI_R2 (SCF_RSP_SPI_S1|SCF_RSP_SPI_S2) #define SCF_RSP_SPI_R3 (SCF_RSP_SPI_S1|SCF_RSP_SPI_B4) #define SCF_RSP_SPI_R4 (SCF_RSP_SPI_S1|SCF_RSP_SPI_B4) #define SCF_RSP_SPI_R5 (SCF_RSP_SPI_S1|SCF_RSP_SPI_S2) #define SCF_RSP_SPI_R7 (SCF_RSP_SPI_S1|SCF_RSP_SPI_B4) #define SCF_RSP_SPI_MASK (0xf << 10) int c_error; /* errno value on completion */ /* Host controller owned fields for data xfer in progress */ int c_resid; /* remaining I/O */ u_char *c_buf; /* remaining data */ }; /* * Decoded PC Card 16 based Card Information Structure (CIS), * per card (function 0) and per function (1 and greater). */ struct sdmmc_cis { uint16_t manufacturer; #define SDMMC_VENDOR_INVALID 0xffff uint16_t product; #define SDMMC_PRODUCT_INVALID 0xffff uint8_t function; #define SDMMC_FUNCTION_INVALID 0xff u_char cis1_major; u_char cis1_minor; char cis1_info_buf[256]; char *cis1_info[4]; }; /* * Structure describing either an SD card I/O function or a SD/MMC * memory card from a "stack of cards" that responded to CMD2. For a * combo card with one I/O function and one memory card, there will be * two of these structures allocated. Each card slot has such a list * of sdmmc_function structures. */ struct sdmmc_function { /* common members */ struct sdmmc_softc *sc; /* card slot softc */ uint16_t rca; /* relative card address */ int interface; /* SD/MMC:0, SDIO:standard interface */ int width; /* bus width */ u_int blklen; /* block length */ int flags; #define SFF_ERROR 0x0001 /* function is poo; ignore it */ #define SFF_SDHC 0x0002 /* SD High Capacity card */ #define SFF_CACHE_ENABLED 0x0004 /* cache enabled */ SIMPLEQ_ENTRY(sdmmc_function) sf_list; /* SD card I/O function members */ int number; /* I/O function number or -1 */ device_t child; /* function driver */ struct sdmmc_cis cis; /* decoded CIS */ /* SD/MMC memory card members */ struct sdmmc_csd csd; /* decoded CSD value */ struct sdmmc_ext_csd ext_csd; /* decoded EXT_CSD value */ struct sdmmc_cid cid; /* decoded CID value */ sdmmc_response raw_cid; /* temp. storage for decoding */ uint32_t raw_scr[2]; struct sdmmc_scr scr; /* decoded SCR value */ void *bbuf; /* bounce buffer */ bus_dmamap_t bbuf_dmap; /* DMA map for bounce buffer */ bus_dmamap_t sseg_dmap; /* DMA map for single segment */ }; /* * Structure describing a single SD/MMC/SDIO card slot. */ struct sdmmc_softc { device_t sc_dev; /* base device */ #define SDMMCDEVNAME(sc) (device_xname(sc->sc_dev)) sdmmc_chipset_tag_t sc_sct; /* host controller chipset tag */ sdmmc_spi_chipset_tag_t sc_spi_sct; sdmmc_chipset_handle_t sc_sch; /* host controller chipset handle */ bus_dma_tag_t sc_dmat; bus_dmamap_t sc_dmap; #define SDMMC_MAXNSEGS ((MAXPHYS / PAGE_SIZE) + 1) struct kmutex sc_mtx; /* lock around host controller */ int sc_dying; /* bus driver is shutting down */ uint32_t sc_flags; #define SMF_INITED 0x0001 #define SMF_SD_MODE 0x0002 /* host in SD mode (MMC otherwise) */ #define SMF_IO_MODE 0x0004 /* host in I/O mode (SD mode only) */ #define SMF_MEM_MODE 0x0008 /* host in memory mode (SD or MMC) */ #define SMF_CARD_PRESENT 0x4000 /* card presence noticed */ #define SMF_CARD_ATTACHED 0x8000 /* card driver(s) attached */ #define SMF_UHS_MODE 0x10000 /* host in UHS mode */ uint32_t sc_caps; /* host capability */ #define SMC_CAPS_AUTO_STOP __BIT(0) /* send CMD12 automagically by host */ #define SMC_CAPS_4BIT_MODE __BIT(1) /* 4-bits data bus width */ #define SMC_CAPS_DMA __BIT(2) /* DMA transfer */ #define SMC_CAPS_SPI_MODE __BIT(3) /* SPI mode */ #define SMC_CAPS_POLL_CARD_DET __BIT(4) /* Polling card detect */ #define SMC_CAPS_SINGLE_ONLY __BIT(5) /* only single read/write */ #define SMC_CAPS_8BIT_MODE __BIT(6) /* 8-bits data bus width */ #define SMC_CAPS_MULTI_SEG_DMA __BIT(7) /* multiple segment DMA transfer */ #define SMC_CAPS_SD_HIGHSPEED __BIT(8) /* SD high-speed timing */ #define SMC_CAPS_MMC_HIGHSPEED __BIT(9) /* MMC high-speed timing */ #define SMC_CAPS_MMC_DDR52 __BIT(10) /* MMC HS DDR52 timing */ /* __BIT(11) */ #define SMC_CAPS_UHS_SDR50 __BIT(12) /* UHS SDR50 timing */ #define SMC_CAPS_UHS_SDR104 __BIT(13) /* UHS SDR104 timing */ #define SMC_CAPS_UHS_DDR50 __BIT(14) /* UHS DDR50 timing */ #define SMC_CAPS_UHS_MASK (SMC_CAPS_UHS_SDR50 \ | SMC_CAPS_UHS_SDR104 \ | SMC_CAPS_UHS_DDR50) #define SMC_CAPS_MMC_HS200 __BIT(15) /* eMMC HS200 timing */ #define SMC_CAPS_POLLING __BIT(30) /* driver supports cmd polling */ /* function */ int sc_function_count; /* number of I/O functions (SDIO) */ struct sdmmc_function *sc_card; /* selected card */ struct sdmmc_function *sc_fn0; /* function 0, the card itself */ SIMPLEQ_HEAD(, sdmmc_function) sf_head; /* list of card functions */ /* task queue */ struct lwp *sc_tskq_lwp; /* asynchronous tasks */ TAILQ_HEAD(, sdmmc_task) sc_tskq; /* task thread work queue */ struct kmutex sc_tskq_mtx; struct kcondvar sc_tskq_cv; struct sdmmc_task *sc_curtask; /* discover task */ struct sdmmc_task sc_discover_task; /* card attach/detach task */ struct kmutex sc_discover_task_mtx; /* interrupt task */ struct sdmmc_task sc_intr_task; /* card interrupt task */ TAILQ_HEAD(, sdmmc_intr_handler) sc_intrq; /* interrupt handlers */ u_int sc_clkmin; /* host min bus clock */ u_int sc_clkmax; /* host max bus clock */ u_int sc_busclk; /* host bus clock */ bool sc_busddr; /* host bus clock is in DDR mode */ int sc_buswidth; /* host bus width */ const char *sc_transfer_mode; /* current transfer mode */ callout_t sc_card_detect_ch; /* polling card insert/remove */ /* event counters */ struct evcnt sc_ev_xfer; /* xfer count */ struct evcnt sc_ev_xfer_aligned[8]; /* aligned xfer counts */ struct evcnt sc_ev_xfer_unaligned; /* unaligned xfer count */ struct evcnt sc_ev_xfer_error; /* error xfer count */ }; /* * Attach devices at the sdmmc bus. */ struct sdmmc_attach_args { uint16_t manufacturer; uint16_t product; int interface; struct sdmmc_function *sf; }; struct sdmmc_product { uint16_t pp_vendor; uint16_t pp_product; const char *pp_cisinfo[4]; }; #ifndef IPL_SDMMC #define IPL_SDMMC IPL_BIO #endif #ifndef splsdmmc #define splsdmmc() splbio() #endif #define SDMMC_LOCK(sc) #define SDMMC_UNLOCK(sc) #ifdef SDMMC_DEBUG extern int sdmmcdebug; #endif void sdmmc_add_task(struct sdmmc_softc *, struct sdmmc_task *); bool sdmmc_del_task(struct sdmmc_softc *, struct sdmmc_task *, kmutex_t *); struct sdmmc_function *sdmmc_function_alloc(struct sdmmc_softc *); void sdmmc_function_free(struct sdmmc_function *); int sdmmc_set_bus_power(struct sdmmc_softc *, uint32_t, uint32_t); int sdmmc_mmc_command(struct sdmmc_softc *, struct sdmmc_command *); int sdmmc_app_command(struct sdmmc_softc *, struct sdmmc_function *, struct sdmmc_command *); void sdmmc_stop_transmission(struct sdmmc_softc *); void sdmmc_go_idle_state(struct sdmmc_softc *); int sdmmc_select_card(struct sdmmc_softc *, struct sdmmc_function *); int sdmmc_set_relative_addr(struct sdmmc_softc *, struct sdmmc_function *); void sdmmc_intr_enable(struct sdmmc_function *); void sdmmc_intr_disable(struct sdmmc_function *); void *sdmmc_intr_establish(device_t, int (*)(void *), void *, const char *); void sdmmc_intr_disestablish(void *); void sdmmc_intr_task(void *); int sdmmc_decode_csd(struct sdmmc_softc *, sdmmc_response, struct sdmmc_function *); int sdmmc_decode_cid(struct sdmmc_softc *, sdmmc_response, struct sdmmc_function *); void sdmmc_print_cid(struct sdmmc_cid *); #ifdef SDMMC_DUMP_CSD void sdmmc_print_csd(sdmmc_response, struct sdmmc_csd *); #endif void sdmmc_dump_data(const char *, void *, size_t); int sdmmc_io_enable(struct sdmmc_softc *); void sdmmc_io_scan(struct sdmmc_softc *); int sdmmc_io_init(struct sdmmc_softc *, struct sdmmc_function *); int sdmmc_io_set_blocklen(struct sdmmc_function *, int); uint8_t sdmmc_io_read_1(struct sdmmc_function *, int); uint16_t sdmmc_io_read_2(struct sdmmc_function *, int); uint32_t sdmmc_io_read_4(struct sdmmc_function *, int); int sdmmc_io_read_multi_1(struct sdmmc_function *, int, u_char *, int); int sdmmc_io_read_region_1(struct sdmmc_function *, int, u_char *, int); void sdmmc_io_write_1(struct sdmmc_function *, int, uint8_t); void sdmmc_io_write_2(struct sdmmc_function *, int, uint16_t); void sdmmc_io_write_4(struct sdmmc_function *, int, uint32_t); int sdmmc_io_write_multi_1(struct sdmmc_function *, int, u_char *, int); int sdmmc_io_write_region_1(struct sdmmc_function *, int, u_char *, int); int sdmmc_io_function_enable(struct sdmmc_function *); void sdmmc_io_function_disable(struct sdmmc_function *); int sdmmc_io_function_abort(struct sdmmc_function *); int sdmmc_read_cis(struct sdmmc_function *, struct sdmmc_cis *); void sdmmc_print_cis(struct sdmmc_function *); void sdmmc_check_cis_quirks(struct sdmmc_function *); int sdmmc_mem_enable(struct sdmmc_softc *); void sdmmc_mem_scan(struct sdmmc_softc *); int sdmmc_mem_init(struct sdmmc_softc *, struct sdmmc_function *); int sdmmc_mem_send_op_cond(struct sdmmc_softc *, uint32_t, uint32_t *); int sdmmc_mem_send_if_cond(struct sdmmc_softc *, uint32_t, uint32_t *); int sdmmc_mem_set_blocklen(struct sdmmc_softc *, struct sdmmc_function *, int); int sdmmc_mem_read_block(struct sdmmc_function *, uint32_t, u_char *, size_t); int sdmmc_mem_write_block(struct sdmmc_function *, uint32_t, u_char *, size_t); int sdmmc_mem_discard(struct sdmmc_function *, uint32_t, uint32_t); int sdmmc_mem_flush_cache(struct sdmmc_function *, bool); void sdmmc_pause(u_int, kmutex_t *); #endif /* _SDMMCVAR_H_ */