This core driver will be used by a MIPS platform driver or by an ARM64 PCI driver. The core driver implements the mmc_host_ops and slot probe & remove functions. Callbacks are provided to allow platform specific interrupt enable and bus locking. The host controller supports: - up to 4 slots that can contain sd-cards or eMMC chips - 1, 4 and 8 bit bus width - SDR and DDR - transfers up to 52 Mhz (might be less when multiple slots are used) - DMA read/write - multi-block read/write (but not stream mode) Voltage is limited to 3.3v and shared for all slots. A global lock for all MMC devices is required because the host controller is shared. Signed-off-by: Jan Glauber <jglauber@xxxxxxxxxx> --- drivers/mmc/host/cavium_core_mmc.c | 1008 ++++++++++++++++++++++++++++++++++++ drivers/mmc/host/cavium_mmc.h | 303 +++++++++++ 2 files changed, 1311 insertions(+) create mode 100644 drivers/mmc/host/cavium_core_mmc.c create mode 100644 drivers/mmc/host/cavium_mmc.h diff --git a/drivers/mmc/host/cavium_core_mmc.c b/drivers/mmc/host/cavium_core_mmc.c new file mode 100644 index 0000000..89d23d3 --- /dev/null +++ b/drivers/mmc/host/cavium_core_mmc.c @@ -0,0 +1,1008 @@ +/* + * Shared part of driver for MMC/SDHC controller on Cavium OCTEON and + * ThunderX SOCs. + * + * This file is subject to the terms and conditions of the GNU General Public + * License. See the file "COPYING" in the main directory of this archive + * for more details. + * + * Copyright (C) 2012-2016 Cavium Inc. + * Authors: + * David Daney <david.daney@xxxxxxxxxx> + * Peter Swain <pswain@xxxxxxxxxx> + * Steven J. Hill <steven.hill@xxxxxxxxxx> + * Jan Glauber <jglauber@xxxxxxxxxx> + */ +#include <linux/delay.h> +#include <linux/dma-direction.h> +#include <linux/dma-mapping.h> +#include <linux/gpio/consumer.h> +#include <linux/interrupt.h> +#include <linux/mmc/mmc.h> +#include <linux/mmc/slot-gpio.h> +#include <linux/module.h> +#include <linux/scatterlist.h> +#include <linux/time.h> + +#include "cavium_mmc.h" + +/* + * The Cavium MMC host hardware assumes that all commands have fixed + * command and response types. These are correct if MMC devices are + * being used. However, non-MMC devices like SD use command and + * response types that are unexpected by the host hardware. + * + * The command and response types can be overridden by supplying an + * XOR value that is applied to the type. We calculate the XOR value + * from the values in this table and the flags passed from the MMC + * core. + */ +static struct cvm_mmc_cr_type cvm_mmc_cr_types[] = { + {0, 0}, /* CMD0 */ + {0, 3}, /* CMD1 */ + {0, 2}, /* CMD2 */ + {0, 1}, /* CMD3 */ + {0, 0}, /* CMD4 */ + {0, 1}, /* CMD5 */ + {0, 1}, /* CMD6 */ + {0, 1}, /* CMD7 */ + {1, 1}, /* CMD8 */ + {0, 2}, /* CMD9 */ + {0, 2}, /* CMD10 */ + {1, 1}, /* CMD11 */ + {0, 1}, /* CMD12 */ + {0, 1}, /* CMD13 */ + {1, 1}, /* CMD14 */ + {0, 0}, /* CMD15 */ + {0, 1}, /* CMD16 */ + {1, 1}, /* CMD17 */ + {1, 1}, /* CMD18 */ + {3, 1}, /* CMD19 */ + {2, 1}, /* CMD20 */ + {0, 0}, /* CMD21 */ + {0, 0}, /* CMD22 */ + {0, 1}, /* CMD23 */ + {2, 1}, /* CMD24 */ + {2, 1}, /* CMD25 */ + {2, 1}, /* CMD26 */ + {2, 1}, /* CMD27 */ + {0, 1}, /* CMD28 */ + {0, 1}, /* CMD29 */ + {1, 1}, /* CMD30 */ + {1, 1}, /* CMD31 */ + {0, 0}, /* CMD32 */ + {0, 0}, /* CMD33 */ + {0, 0}, /* CMD34 */ + {0, 1}, /* CMD35 */ + {0, 1}, /* CMD36 */ + {0, 0}, /* CMD37 */ + {0, 1}, /* CMD38 */ + {0, 4}, /* CMD39 */ + {0, 5}, /* CMD40 */ + {0, 0}, /* CMD41 */ + {2, 1}, /* CMD42 */ + {0, 0}, /* CMD43 */ + {0, 0}, /* CMD44 */ + {0, 0}, /* CMD45 */ + {0, 0}, /* CMD46 */ + {0, 0}, /* CMD47 */ + {0, 0}, /* CMD48 */ + {0, 0}, /* CMD49 */ + {0, 0}, /* CMD50 */ + {0, 0}, /* CMD51 */ + {0, 0}, /* CMD52 */ + {0, 0}, /* CMD53 */ + {0, 0}, /* CMD54 */ + {0, 1}, /* CMD55 */ + {0xff, 0xff}, /* CMD56 */ + {0, 0}, /* CMD57 */ + {0, 0}, /* CMD58 */ + {0, 0}, /* CMD59 */ + {0, 0}, /* CMD60 */ + {0, 0}, /* CMD61 */ + {0, 0}, /* CMD62 */ + {0, 0} /* CMD63 */ +}; + +static struct cvm_mmc_cr_mods cvm_mmc_get_cr_mods(struct mmc_command *cmd) +{ + struct cvm_mmc_cr_type *cr; + u8 hardware_ctype, hardware_rtype; + u8 desired_ctype = 0, desired_rtype = 0; + struct cvm_mmc_cr_mods r; + + cr = cvm_mmc_cr_types + (cmd->opcode & 0x3f); + hardware_ctype = cr->ctype; + hardware_rtype = cr->rtype; + if (cmd->opcode == MMC_GEN_CMD) + hardware_ctype = (cmd->arg & 1) ? 1 : 2; + + switch (mmc_cmd_type(cmd)) { + case MMC_CMD_ADTC: + desired_ctype = (cmd->data->flags & MMC_DATA_WRITE) ? 2 : 1; + break; + case MMC_CMD_AC: + case MMC_CMD_BC: + case MMC_CMD_BCR: + desired_ctype = 0; + break; + } + + switch (mmc_resp_type(cmd)) { + case MMC_RSP_NONE: + desired_rtype = 0; + break; + case MMC_RSP_R1:/* MMC_RSP_R5, MMC_RSP_R6, MMC_RSP_R7 */ + case MMC_RSP_R1B: + desired_rtype = 1; + break; + case MMC_RSP_R2: + desired_rtype = 2; + break; + case MMC_RSP_R3: /* MMC_RSP_R4 */ + desired_rtype = 3; + break; + } + r.ctype_xor = desired_ctype ^ hardware_ctype; + r.rtype_xor = desired_rtype ^ hardware_rtype; + return r; +} + +static void check_switch_errors(struct cvm_mmc_host *host) +{ + union mio_emm_switch emm_switch; + + emm_switch.val = readq(host->base + MIO_EMM_SWITCH); + if (emm_switch.s.switch_err0) + dev_err(host->dev, "Switch power class error\n"); + if (emm_switch.s.switch_err1) + dev_err(host->dev, "Switch hs timing error\n"); + if (emm_switch.s.switch_err2) + dev_err(host->dev, "Switch bus width error\n"); +} + +/* + * We never set the switch_exe bit since that would interfere + * with the commands send by the MMC core. + */ +static void do_switch(struct cvm_mmc_host *host, u64 val) +{ + union mio_emm_rsp_sts rsp_sts; + union mio_emm_switch emm_switch; + int retries = 100; + int bus_id; + + emm_switch.val = val; + + /* + * Modes setting only taken from slot 0. Work around that hardware + * issue by first switching to slot 0. + */ + bus_id = emm_switch.s.bus_id; + emm_switch.s.bus_id = 0; + writeq(emm_switch.val, host->base + MIO_EMM_SWITCH); + + emm_switch.s.bus_id = bus_id; + writeq(emm_switch.val, host->base + MIO_EMM_SWITCH); + + /* wait for the switch to finish */ + do { + rsp_sts.val = readq(host->base + MIO_EMM_RSP_STS); + if (!rsp_sts.s.switch_val) + break; + udelay(10); + } while (--retries); + + check_switch_errors(host); +} + +static bool switch_val_changed(struct cvm_mmc_slot *slot, u64 new_val) +{ + /* Match BUS_ID, HS_TIMING, BUS_WIDTH, POWER_CLASS, CLK_HI, CLK_LO */ + u64 match = 0x3001070fffffffffull; + + return (slot->cached_switch & match) != (new_val & match); +} + +static void set_wdog(struct cvm_mmc_slot *slot, unsigned int ns) +{ + u64 timeout; + + WARN_ON_ONCE(!slot->clock); + if (ns) + timeout = (slot->clock * ns) / NSEC_PER_SEC; + else + timeout = (slot->clock * 850ull) / 1000ull; + writeq(timeout, slot->host->base + MIO_EMM_WDOG); +} + +static void cvm_mmc_reset_bus(struct cvm_mmc_slot *slot) +{ + union mio_emm_switch emm_switch; + u64 wdog = 0; + + emm_switch.val = readq(slot->host->base + MIO_EMM_SWITCH); + wdog = readq(slot->host->base + MIO_EMM_WDOG); + + emm_switch.s.switch_exe = 0; + emm_switch.s.switch_err0 = 0; + emm_switch.s.switch_err1 = 0; + emm_switch.s.switch_err2 = 0; + emm_switch.s.bus_id = slot->bus_id; + do_switch(slot->host, emm_switch.val); + + slot->cached_switch = emm_switch.val; + + msleep(20); + + writeq(wdog, slot->host->base + MIO_EMM_WDOG); +} + +/* Switch to another slot if needed */ +static void cvm_mmc_switch_to(struct cvm_mmc_slot *slot) +{ + struct cvm_mmc_host *host = slot->host; + struct cvm_mmc_slot *old_slot; + union mio_emm_switch emm_switch; + union mio_emm_sample emm_sample; + + if (slot->bus_id == host->last_slot) + return; + + if (host->last_slot >= 0 && host->slot[host->last_slot]) { + old_slot = host->slot[host->last_slot]; + old_slot->cached_switch = readq(host->base + MIO_EMM_SWITCH); + old_slot->cached_rca = readq(host->base + MIO_EMM_RCA); + } + + writeq(slot->cached_rca, host->base + MIO_EMM_RCA); + emm_switch.val = slot->cached_switch; + emm_switch.s.bus_id = slot->bus_id; + do_switch(host, emm_switch.val); + + emm_sample.val = 0; + emm_sample.s.cmd_cnt = slot->cmd_cnt; + emm_sample.s.dat_cnt = slot->dat_cnt; + writeq(emm_sample.val, host->base + MIO_EMM_SAMPLE); + + host->last_slot = slot->bus_id; +} + +static void do_read(struct cvm_mmc_host *host, struct mmc_request *req, + u64 dbuf) +{ + struct sg_mapping_iter *smi = &host->smi; + int data_len = req->data->blocks * req->data->blksz; + int bytes_xfered, shift = -1; + u64 dat = 0; + + /* Auto inc from offset zero */ + writeq((0x10000 | (dbuf << 6)), host->base + MIO_EMM_BUF_IDX); + + for (bytes_xfered = 0; bytes_xfered < data_len;) { + if (smi->consumed >= smi->length) { + if (!sg_miter_next(smi)) + break; + smi->consumed = 0; + } + + if (shift < 0) { + dat = readq(host->base + MIO_EMM_BUF_DAT); + shift = 56; + } + + while (smi->consumed < smi->length && shift >= 0) { + ((u8 *)smi->addr)[smi->consumed] = (dat >> shift) & 0xff; + bytes_xfered++; + smi->consumed++; + shift -= 8; + } + } + + sg_miter_stop(smi); + req->data->bytes_xfered = bytes_xfered; + req->data->error = 0; +} + +static void do_write(struct mmc_request *req) +{ + req->data->bytes_xfered = req->data->blocks * req->data->blksz; + req->data->error = 0; +} + +static void set_cmd_response(struct cvm_mmc_host *host, struct mmc_request *req, + union mio_emm_rsp_sts *rsp_sts) +{ + u64 rsp_hi, rsp_lo; + + if (!rsp_sts->s.rsp_val) + return; + + rsp_lo = readq(host->base + MIO_EMM_RSP_LO); + + switch (rsp_sts->s.rsp_type) { + case 1: + case 3: + req->cmd->resp[0] = (rsp_lo >> 8) & 0xffffffff; + req->cmd->resp[1] = 0; + req->cmd->resp[2] = 0; + req->cmd->resp[3] = 0; + break; + case 2: + req->cmd->resp[3] = rsp_lo & 0xffffffff; + req->cmd->resp[2] = (rsp_lo >> 32) & 0xffffffff; + rsp_hi = readq(host->base + MIO_EMM_RSP_HI); + req->cmd->resp[1] = rsp_hi & 0xffffffff; + req->cmd->resp[0] = (rsp_hi >> 32) & 0xffffffff; + break; + } +} + +static int get_dma_dir(struct mmc_data *data) +{ + return (data->flags & MMC_DATA_WRITE) ? DMA_TO_DEVICE : DMA_FROM_DEVICE; +} + +static int finish_dma_single(struct cvm_mmc_host *host, struct mmc_data *data) +{ + data->bytes_xfered = data->blocks * data->blksz; + data->error = 0; + return 1; +} + +static int finish_dma(struct cvm_mmc_host *host, struct mmc_data *data) +{ + return finish_dma_single(host, data); +} + +static bool bad_status(union mio_emm_rsp_sts *rsp_sts) +{ + if (rsp_sts->s.rsp_bad_sts || rsp_sts->s.rsp_crc_err || + rsp_sts->s.rsp_timeout || rsp_sts->s.blk_crc_err || + rsp_sts->s.blk_timeout || rsp_sts->s.dbuf_err) + return true; + + return false; +} + +/* Try to clean up failed DMA. */ +static void cleanup_dma(struct cvm_mmc_host *host, + union mio_emm_rsp_sts *rsp_sts) +{ + union mio_emm_dma emm_dma; + + emm_dma.val = readq(host->base + MIO_EMM_DMA); + emm_dma.s.dma_val = 1; + emm_dma.s.dat_null = 1; + emm_dma.s.bus_id = rsp_sts->s.bus_id; + writeq(emm_dma.val, host->base + MIO_EMM_DMA); +} + +irqreturn_t cvm_mmc_interrupt(int irq, void *dev_id) +{ + struct cvm_mmc_host *host = dev_id; + union mio_emm_rsp_sts rsp_sts; + union mio_emm_int emm_int; + struct mmc_request *req; + bool host_done; + + /* Clear interrupt bits (write 1 clears ). */ + emm_int.val = readq(host->base + MIO_EMM_INT); + writeq(emm_int.val, host->base + MIO_EMM_INT); + + if (emm_int.s.switch_err) + check_switch_errors(host); + + req = host->current_req; + if (!req) + goto out; + + rsp_sts.val = readq(host->base + MIO_EMM_RSP_STS); + /* + * dma_val set means DMA is still in progress. Don't touch + * the request and wait for the interrupt indicating that + * the DMA is finished. + */ + if (rsp_sts.s.dma_val && host->dma_active) + goto out; + + if (!host->dma_active && emm_int.s.buf_done && req->data) { + unsigned int type = (rsp_sts.val >> 7) & 3; + + if (type == 1) + do_read(host, req, rsp_sts.s.dbuf); + else if (type == 2) + do_write(req); + } + + host_done = emm_int.s.cmd_done || emm_int.s.dma_done || + emm_int.s.cmd_err || emm_int.s.dma_err; + + if (!(host_done && req->done)) + goto no_req_done; + + if (bad_status(&rsp_sts)) + req->cmd->error = -EILSEQ; + else + req->cmd->error = 0; + + if (host->dma_active && req->data) + if (!finish_dma(host, req->data)) + goto no_req_done; + + set_cmd_response(host, req, &rsp_sts); + if (emm_int.s.dma_err && rsp_sts.s.dma_pend) + cleanup_dma(host, &rsp_sts); + + host->current_req = NULL; + req->done(req); + +no_req_done: + if (host_done) + host->release_bus(host); +out: + return IRQ_RETVAL(emm_int.val != 0); +} + +/* + * Program DMA_CFG and if needed DMA_ADR. + * Returns 0 on error, DMA address otherwise. + */ +static u64 prepare_dma_single(struct cvm_mmc_host *host, struct mmc_data *data) +{ + union mio_emm_dma_cfg dma_cfg; + int count; + u64 addr; + + count = dma_map_sg(host->dev, data->sg, data->sg_len, + get_dma_dir(data)); + if (!count) + return 0; + + dma_cfg.val = 0; + dma_cfg.s.en = 1; + dma_cfg.s.rw = (data->flags & MMC_DATA_WRITE) ? 1 : 0; +#ifdef __LITTLE_ENDIAN + dma_cfg.s.endian = 1; +#endif + dma_cfg.s.size = (sg_dma_len(&data->sg[0]) / 8) - 1; + + addr = sg_dma_address(&data->sg[0]); + dma_cfg.s.adr = addr; + writeq(dma_cfg.val, host->dma_base + MIO_EMM_DMA_CFG); + + pr_debug("[%s] sg_dma_len: %u total sg_elem: %d\n", + (dma_cfg.s.rw) ? "W" : "R", sg_dma_len(&data->sg[0]), count); + return addr; +} + +static u64 prepare_dma(struct cvm_mmc_host *host, struct mmc_data *data) +{ + return prepare_dma_single(host, data); +} + +static void prepare_ext_dma(struct mmc_host *mmc, struct mmc_request *mrq, + union mio_emm_dma *emm_dma) +{ + struct cvm_mmc_slot *slot = mmc_priv(mmc); + + /* + * Our MMC host hardware does not issue single commands, + * because that would require the driver and the MMC core + * to do work to determine the proper sequence of commands. + * Instead, our hardware is superior to most other MMC bus + * hosts. The sequence of MMC commands required to execute + * a transfer are issued automatically by the bus hardware. + * + * - David Daney <ddaney@xxxxxxxxxx> + */ + emm_dma->val = 0; + emm_dma->s.bus_id = slot->bus_id; + emm_dma->s.dma_val = 1; + emm_dma->s.sector = mmc_card_blockaddr(mmc->card) ? 1 : 0; + emm_dma->s.rw = (mrq->data->flags & MMC_DATA_WRITE) ? 1 : 0; + emm_dma->s.block_cnt = mrq->data->blocks; + emm_dma->s.card_addr = mrq->cmd->arg; + if (mmc_card_mmc(mmc->card) || (mmc_card_sd(mmc->card) && + (mmc->card->scr.cmds & SD_SCR_CMD23_SUPPORT))) + emm_dma->s.multi = 1; + + pr_debug("[%s] blocks: %u multi: %d\n", (emm_dma->s.rw) ? "W" : "R", + mrq->data->blocks, emm_dma->s.multi); +} + +static void prepare_emm_int(union mio_emm_int *emm_int) +{ + emm_int->val = 0; + emm_int->s.cmd_err = 1; + emm_int->s.dma_done = 1; + emm_int->s.dma_err = 1; +} + +static void cvm_mmc_dma_request(struct mmc_host *mmc, + struct mmc_request *mrq) +{ + struct cvm_mmc_slot *slot = mmc_priv(mmc); + struct cvm_mmc_host *host = slot->host; + union mio_emm_dma emm_dma; + union mio_emm_int emm_int; + struct mmc_data *data; + u64 addr; + + if (!mrq->data || !mrq->data->sg || !mrq->data->sg_len || + !mrq->stop || mrq->stop->opcode != MMC_STOP_TRANSMISSION) { + dev_err(&mmc->card->dev, + "Error: cmv_mmc_dma_request no data\n"); + goto error; + } + + cvm_mmc_switch_to(slot); + + data = mrq->data; + pr_debug("DMA request blocks: %d block_size: %d total_size: %d\n", + data->blocks, data->blksz, data->blocks * data->blksz); + if (data->timeout_ns) + set_wdog(slot, data->timeout_ns); + + WARN_ON(host->current_req); + host->current_req = mrq; + + prepare_ext_dma(mmc, mrq, &emm_dma); + addr = prepare_dma(host, data); + if (!addr) { + dev_err(host->dev, "prepare_dma failed\n"); + goto error; + } + prepare_emm_int(&emm_int); + + host->dma_active = true; + host->int_enable(host, emm_int.val); + + /* + * If we have a valid SD card in the slot, we set the response + * bit mask to check for CRC errors and timeouts only. + * Otherwise, use the default power reset value. + */ + if (mmc->card && mmc_card_sd(mmc->card)) + writeq(0x00b00000ull, host->base + MIO_EMM_STS_MASK); + else + writeq(0xe4390080ull, host->base + MIO_EMM_STS_MASK); + writeq(emm_dma.val, host->base + MIO_EMM_DMA); + return; + +error: + mrq->cmd->error = -EINVAL; + if (mrq->done) + mrq->done(mrq); + host->release_bus(host); +} + +static void do_read_request(struct cvm_mmc_host *host, struct mmc_request *mrq) +{ + sg_miter_start(&host->smi, mrq->data->sg, mrq->data->sg_len, + SG_MITER_ATOMIC | SG_MITER_TO_SG); +} + +static void do_write_request(struct cvm_mmc_host *host, struct mmc_request *mrq) +{ + unsigned int data_len = mrq->data->blocks * mrq->data->blksz; + struct sg_mapping_iter *smi = &host->smi; + unsigned int bytes_xfered; + int shift = 56; + u64 dat = 0; + + /* Copy data to the xmit buffer before issuing the command. */ + sg_miter_start(smi, mrq->data->sg, mrq->data->sg_len, SG_MITER_FROM_SG); + + /* Auto inc from offset zero, dbuf zero */ + writeq(0x10000ull, host->base + MIO_EMM_BUF_IDX); + + for (bytes_xfered = 0; bytes_xfered < data_len;) { + if (smi->consumed >= smi->length) { + if (!sg_miter_next(smi)) + break; + smi->consumed = 0; + } + + while (smi->consumed < smi->length && shift >= 0) { + dat |= ((u8 *)smi->addr)[smi->consumed] << shift; + bytes_xfered++; + smi->consumed++; + shift -= 8; + } + + if (shift < 0) { + writeq(dat, host->base + MIO_EMM_BUF_DAT); + shift = 56; + dat = 0; + } + } + sg_miter_stop(smi); +} + +static void cvm_mmc_request(struct mmc_host *mmc, struct mmc_request *mrq) +{ + struct cvm_mmc_slot *slot = mmc_priv(mmc); + struct cvm_mmc_host *host = slot->host; + struct mmc_command *cmd = mrq->cmd; + union mio_emm_int emm_int; + union mio_emm_cmd emm_cmd; + struct cvm_mmc_cr_mods mods; + union mio_emm_rsp_sts rsp_sts; + int retries = 100; + + /* + * Note about locking: + * All MMC devices share the same bus and controller. Allow only a + * single user of the bootbus/MMC bus at a time. The lock is acquired + * on all entry points from the MMC layer. + * + * For requests the lock is only released after the completion + * interrupt! + */ + host->acquire_bus(host); + + if (cmd->opcode == MMC_READ_MULTIPLE_BLOCK || + cmd->opcode == MMC_WRITE_MULTIPLE_BLOCK) + return cvm_mmc_dma_request(mmc, mrq); + + cvm_mmc_switch_to(slot); + + mods = cvm_mmc_get_cr_mods(cmd); + + WARN_ON(host->current_req); + host->current_req = mrq; + + emm_int.val = 0; + emm_int.s.cmd_done = 1; + emm_int.s.cmd_err = 1; + + if (cmd->data) { + if (cmd->data->flags & MMC_DATA_READ) + do_read_request(host, mrq); + else + do_write_request(host, mrq); + + if (cmd->data->timeout_ns) + set_wdog(slot, cmd->data->timeout_ns); + } else + set_wdog(slot, 0); + + host->dma_active = false; + host->int_enable(host, emm_int.val); + + emm_cmd.val = 0; + emm_cmd.s.cmd_val = 1; + emm_cmd.s.ctype_xor = mods.ctype_xor; + emm_cmd.s.rtype_xor = mods.rtype_xor; + if (mmc_cmd_type(cmd) == MMC_CMD_ADTC) + emm_cmd.s.offset = 64 - ((cmd->data->blocks * cmd->data->blksz) / 8); + emm_cmd.s.bus_id = slot->bus_id; + emm_cmd.s.cmd_idx = cmd->opcode; + emm_cmd.s.arg = cmd->arg; + + writeq(0, host->base + MIO_EMM_STS_MASK); + +retry: + rsp_sts.val = readq(host->base + MIO_EMM_RSP_STS); + if (rsp_sts.s.dma_val || rsp_sts.s.cmd_val || + rsp_sts.s.switch_val || rsp_sts.s.dma_pend) { + udelay(10); + if (--retries) + goto retry; + } + if (!retries) + dev_err(host->dev, "Bad status: %Lx before command write\n", rsp_sts.val); + writeq(emm_cmd.val, host->base + MIO_EMM_CMD); +} + +static void cvm_mmc_set_ios(struct mmc_host *mmc, struct mmc_ios *ios) +{ + struct cvm_mmc_slot *slot = mmc_priv(mmc); + struct cvm_mmc_host *host = slot->host; + int clk_period, power_class = 10, bus_width = 0; + union mio_emm_switch emm_switch; + u64 clock; + + host->acquire_bus(host); + cvm_mmc_switch_to(slot); + + /* Reset the chip on each POWER_OFF. */ + if (ios->power_mode == MMC_POWER_OFF) { + cvm_mmc_reset_bus(slot); + gpiod_set_value_cansleep(host->global_pwr_gpiod, 0); + } else + gpiod_set_value_cansleep(host->global_pwr_gpiod, 1); + + switch (ios->bus_width) { + case MMC_BUS_WIDTH_8: + bus_width = 2; + break; + case MMC_BUS_WIDTH_4: + bus_width = 1; + break; + case MMC_BUS_WIDTH_1: + bus_width = 0; + break; + } + + slot->bus_width = bus_width; + + if (!ios->clock) + goto out; + + /* Change the clock frequency. */ + clock = ios->clock; + if (clock > 52000000) + clock = 52000000; + slot->clock = clock; + clk_period = (host->sys_freq + clock - 1) / (2 * clock); + + emm_switch.val = 0; + emm_switch.s.hs_timing = (ios->timing == MMC_TIMING_MMC_HS); + emm_switch.s.bus_width = bus_width; + emm_switch.s.power_class = power_class; + emm_switch.s.clk_hi = clk_period; + emm_switch.s.clk_lo = clk_period; + emm_switch.s.bus_id = slot->bus_id; + + if (!switch_val_changed(slot, emm_switch.val)) + goto out; + + set_wdog(slot, 0); + do_switch(host, emm_switch.val); + slot->cached_switch = emm_switch.val; +out: + host->release_bus(host); +} + +const struct mmc_host_ops cvm_mmc_ops = { + .request = cvm_mmc_request, + .set_ios = cvm_mmc_set_ios, + .get_ro = mmc_gpio_get_ro, + .get_cd = mmc_gpio_get_cd, +}; + +static void cvm_mmc_set_clock(struct cvm_mmc_slot *slot, unsigned int clock) +{ + struct mmc_host *mmc = slot->mmc; + + clock = min(clock, mmc->f_max); + clock = max(clock, mmc->f_min); + slot->clock = clock; +} + +static int cvm_mmc_init_lowlevel(struct cvm_mmc_slot *slot) +{ + struct cvm_mmc_host *host = slot->host; + union mio_emm_switch emm_switch; + + /* Enable this bus slot. */ + host->emm_cfg |= (1ull << slot->bus_id); + writeq(host->emm_cfg, slot->host->base + MIO_EMM_CFG); + udelay(10); + + /* Program initial clock speed and power. */ + cvm_mmc_set_clock(slot, slot->mmc->f_min); + emm_switch.val = 0; + emm_switch.s.power_class = 10; + emm_switch.s.clk_hi = (slot->sclock / slot->clock) / 2; + emm_switch.s.clk_lo = (slot->sclock / slot->clock) / 2; + + /* Make the changes take effect on this bus slot. */ + emm_switch.s.bus_id = slot->bus_id; + do_switch(host, emm_switch.val); + + slot->cached_switch = emm_switch.val; + + /* + * Set watchdog timeout value and default reset value + * for the mask register. Finally, set the CARD_RCA + * bit so that we can get the card address relative + * to the CMD register for CMD7 transactions. + */ + set_wdog(slot, 0); + writeq(0xe4390080ull, host->base + MIO_EMM_STS_MASK); + writeq(1, host->base + MIO_EMM_RCA); + return 0; +} + +static int set_bus_width(struct device *dev, struct cvm_mmc_slot *slot, u32 id) +{ + u32 bus_width; + int ret; + + /* + * The "cavium,bus-max-width" property is DEPRECATED and should + * not be used. We handle it here to support older firmware. + * Going forward, the standard "bus-width" property is used + * instead of the Cavium-specific property. + */ + if (!(slot->mmc->caps & (MMC_CAP_8_BIT_DATA | MMC_CAP_4_BIT_DATA))) { + /* Try legacy "cavium,bus-max-width" property. */ + ret = of_property_read_u32(dev->of_node, "cavium,bus-max-width", + &bus_width); + if (ret) { + /* No bus width specified, use default. */ + bus_width = 8; + dev_info(dev, "Default width 8 used for slot %u\n", id); + } + } else { + /* Hosts capable of 8-bit transfers can also do 4 bits */ + bus_width = (slot->mmc->caps & MMC_CAP_8_BIT_DATA) ? 8 : 4; + } + + switch (bus_width) { + case 8: + slot->bus_width = (MMC_BUS_WIDTH_8 - 1); + slot->mmc->caps = MMC_CAP_8_BIT_DATA | MMC_CAP_4_BIT_DATA; + break; + case 4: + slot->bus_width = (MMC_BUS_WIDTH_4 - 1); + slot->mmc->caps = MMC_CAP_4_BIT_DATA; + break; + case 1: + slot->bus_width = MMC_BUS_WIDTH_1; + break; + default: + dev_err(dev, "Invalid bus width for slot %u\n", id); + return -EINVAL; + } + return 0; +} + +static void set_frequency(struct device *dev, struct mmc_host *mmc, u32 id) +{ + int ret; + + /* + * The "spi-max-frequency" property is DEPRECATED and should + * not be used. We handle it here to support older firmware. + * Going forward, the standard "max-frequency" property is + * used instead of the Cavium-specific property. + */ + if (mmc->f_max == 0) { + /* Try legacy "spi-max-frequency" property. */ + ret = of_property_read_u32(dev->of_node, "spi-max-frequency", + &mmc->f_max); + if (ret) { + /* No frequency properties found, use default. */ + mmc->f_max = 52000000; + dev_info(dev, "Default %u frequency used for slot %u\n", + mmc->f_max, id); + } + } else if (mmc->f_max > 52000000) + mmc->f_max = 52000000; + + /* Set minimum frequency */ + mmc->f_min = 400000; +} + +int cvm_mmc_slot_probe(struct device *dev, struct cvm_mmc_host *host) +{ + struct device_node *node = dev->of_node; + u32 id, cmd_skew, dat_skew; + struct cvm_mmc_slot *slot; + struct mmc_host *mmc; + u64 clock_period; + int ret; + + ret = of_property_read_u32(node, "reg", &id); + if (ret) { + dev_err(dev, "Missing or invalid reg property on %s\n", + of_node_full_name(node)); + return ret; + } + + if (id >= CAVIUM_MAX_MMC || host->slot[id]) { + dev_err(dev, "Invalid reg property on %s\n", + of_node_full_name(node)); + return -EINVAL; + } + + mmc = mmc_alloc_host(sizeof(struct cvm_mmc_slot), dev); + if (!mmc) + return -ENOMEM; + + slot = mmc_priv(mmc); + slot->mmc = mmc; + slot->host = host; + + ret = mmc_of_parse(mmc); + if (ret) + goto err; + + ret = set_bus_width(dev, slot, id); + if (ret) + goto err; + + set_frequency(dev, mmc, id); + + /* Octeon-specific DT properties. */ + ret = of_property_read_u32(node, "cavium,cmd-clk-skew", &cmd_skew); + if (ret) + cmd_skew = 0; + ret = of_property_read_u32(node, "cavium,dat-clk-skew", &dat_skew); + if (ret) + dat_skew = 0; + + /* + * We only have a 3.3v supply, so we are calling this mostly + * to get a sane OCR mask for other parts of the MMC subsytem. + */ + ret = mmc_of_parse_voltage(node, &mmc->ocr_avail); + if (ret == -EINVAL) + goto err; + + /* + * We do not have a voltage regulator, just a single + * GPIO line to control power to all of the slots. It + * is registered in the platform code. We can, however, + * still set the POWER_OFF capability as long as the + * GPIO was registered correctly. + */ + if (!IS_ERR(host->global_pwr_gpiod)) { + mmc->caps |= MMC_CAP_POWER_OFF_CARD; + dev_info(dev, "Got global power GPIO\n"); + } else + dev_info(dev, "Did not get global power GPIO\n"); + + /* Set up host parameters */ + mmc->ops = &cvm_mmc_ops; + + mmc->caps |= MMC_CAP_MMC_HIGHSPEED | MMC_CAP_SD_HIGHSPEED | + MMC_CAP_ERASE | MMC_CAP_CMD23; + + mmc->max_segs = 1; + + /* DMA size field can address up to 8 MB */ + mmc->max_seg_size = 8 * 1024 * 1024; + mmc->max_req_size = mmc->max_seg_size; + /* External DMA is in 512 byte blocks */ + mmc->max_blk_size = 512; + /* DMA block count field is 15 bits */ + mmc->max_blk_count = 32767; + + slot->clock = mmc->f_min; + slot->sclock = host->sys_freq; + + /* Period in picoseconds. */ + clock_period = 1000000000000ull / slot->sclock; + slot->cmd_cnt = (cmd_skew + clock_period / 2) / clock_period; + slot->dat_cnt = (dat_skew + clock_period / 2) / clock_period; + + slot->bus_id = id; + slot->cached_rca = 1; + + host->acquire_bus(host); + host->slot[id] = slot; + cvm_mmc_switch_to(slot); + cvm_mmc_init_lowlevel(slot); + host->release_bus(host); + + ret = mmc_add_host(mmc); + if (ret) { + dev_err(dev, "mmc_add_host() returned %d\n", ret); + goto err; + } + + return 0; + +err: + slot->host->slot[id] = NULL; + + gpiod_set_value_cansleep(host->global_pwr_gpiod, 0); + + mmc_free_host(slot->mmc); + return ret; +} + +int cvm_mmc_slot_remove(struct cvm_mmc_slot *slot) +{ + mmc_remove_host(slot->mmc); + slot->host->slot[slot->bus_id] = NULL; + gpiod_set_value_cansleep(slot->host->global_pwr_gpiod, 0); + mmc_free_host(slot->mmc); + + return 0; +} diff --git a/drivers/mmc/host/cavium_mmc.h b/drivers/mmc/host/cavium_mmc.h new file mode 100644 index 0000000..27fb02b --- /dev/null +++ b/drivers/mmc/host/cavium_mmc.h @@ -0,0 +1,303 @@ +/* + * Driver for MMC and SSD cards for Cavium OCTEON and ThunderX SOCs. + * + * This file is subject to the terms and conditions of the GNU General Public + * License. See the file "COPYING" in the main directory of this archive + * for more details. + * + * Copyright (C) 2012-2016 Cavium Inc. + */ +#include <linux/clk.h> +#include <linux/io.h> +#include <linux/mmc/host.h> +#include <linux/of.h> +#include <linux/scatterlist.h> +#include <linux/semaphore.h> + +#define CAVIUM_MAX_MMC 4 + +struct cvm_mmc_host { + struct device *dev; + void __iomem *base; + void __iomem *dma_base; + u64 emm_cfg; + int last_slot; + struct clk *clk; + int sys_freq; + + struct mmc_request *current_req; + struct sg_mapping_iter smi; + bool dma_active; + + struct gpio_desc *global_pwr_gpiod; + + struct cvm_mmc_slot *slot[CAVIUM_MAX_MMC]; + + void (*acquire_bus)(struct cvm_mmc_host *); + void (*release_bus)(struct cvm_mmc_host *); + void (*int_enable)(struct cvm_mmc_host *, u64); +}; + +struct cvm_mmc_slot { + struct mmc_host *mmc; /* slot-level mmc_core object */ + struct cvm_mmc_host *host; /* common hw for all slots */ + + u64 clock; + unsigned int sclock; + + u64 cached_switch; + u64 cached_rca; + + unsigned int cmd_cnt; /* sample delay */ + unsigned int dat_cnt; /* sample delay */ + + int bus_width; + int bus_id; +}; + +struct cvm_mmc_cr_type { + u8 ctype; + u8 rtype; +}; + +struct cvm_mmc_cr_mods { + u8 ctype_xor; + u8 rtype_xor; +}; + +/* Bitfield definitions */ + +union mio_emm_cmd { + u64 val; + struct mio_emm_cmd_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 :2; + u64 bus_id:2; + u64 cmd_val:1; + u64 :3; + u64 dbuf:1; + u64 offset:6; + u64 :6; + u64 ctype_xor:2; + u64 rtype_xor:3; + u64 cmd_idx:6; + u64 arg:32; +#else + u64 arg:32; + u64 cmd_idx:6; + u64 rtype_xor:3; + u64 ctype_xor:2; + u64 :6; + u64 offset:6; + u64 dbuf:1; + u64 :3; + u64 cmd_val:1; + u64 bus_id:2; + u64 :2; +#endif + } s; +}; + +union mio_emm_dma { + u64 val; + struct mio_emm_dma_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 :2; + u64 bus_id:2; + u64 dma_val:1; + u64 sector:1; + u64 dat_null:1; + u64 thres:6; + u64 rel_wr:1; + u64 rw:1; + u64 multi:1; + u64 block_cnt:16; + u64 card_addr:32; +#else + u64 card_addr:32; + u64 block_cnt:16; + u64 multi:1; + u64 rw:1; + u64 rel_wr:1; + u64 thres:6; + u64 dat_null:1; + u64 sector:1; + u64 dma_val:1; + u64 bus_id:2; + u64 :2; +#endif + } s; +}; + +union mio_emm_dma_cfg { + u64 val; + struct mio_emm_dma_cfg_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 en:1; + u64 rw:1; + u64 clr:1; + u64 :1; + u64 swap32:1; + u64 swap16:1; + u64 swap8:1; + u64 endian:1; + u64 size:20; + u64 adr:36; +#else + u64 adr:36; + u64 size:20; + u64 endian:1; + u64 swap8:1; + u64 swap16:1; + u64 swap32:1; + u64 :1; + u64 clr:1; + u64 rw:1; + u64 en:1; +#endif + } s; +}; + +union mio_emm_int { + u64 val; + struct mio_emm_int_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 :57; + u64 switch_err:1; + u64 switch_done:1; + u64 dma_err:1; + u64 cmd_err:1; + u64 dma_done:1; + u64 cmd_done:1; + u64 buf_done:1; +#else + u64 buf_done:1; + u64 cmd_done:1; + u64 dma_done:1; + u64 cmd_err:1; + u64 dma_err:1; + u64 switch_done:1; + u64 switch_err:1; + u64 :57; +#endif + } s; +}; + +union mio_emm_rsp_sts { + u64 val; + struct mio_emm_rsp_sts_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 :2; + u64 bus_id:2; + u64 cmd_val:1; + u64 switch_val:1; + u64 dma_val:1; + u64 dma_pend:1; + u64 :27; + u64 dbuf_err:1; + u64 :4; + u64 dbuf:1; + u64 blk_timeout:1; + u64 blk_crc_err:1; + u64 rsp_busybit:1; + u64 stp_timeout:1; + u64 stp_crc_err:1; + u64 stp_bad_sts:1; + u64 stp_val:1; + u64 rsp_timeout:1; + u64 rsp_crc_err:1; + u64 rsp_bad_sts:1; + u64 rsp_val:1; + u64 rsp_type:3; + u64 cmd_type:2; + u64 cmd_idx:6; + u64 cmd_done:1; +#else + u64 cmd_done:1; + u64 cmd_idx:6; + u64 cmd_type:2; + u64 rsp_type:3; + u64 rsp_val:1; + u64 rsp_bad_sts:1; + u64 rsp_crc_err:1; + u64 rsp_timeout:1; + u64 stp_val:1; + u64 stp_bad_sts:1; + u64 stp_crc_err:1; + u64 stp_timeout:1; + u64 rsp_busybit:1; + u64 blk_crc_err:1; + u64 blk_timeout:1; + u64 dbuf:1; + u64 :4; + u64 dbuf_err:1; + u64 :27; + u64 dma_pend:1; + u64 dma_val:1; + u64 switch_val:1; + u64 cmd_val:1; + u64 bus_id:2; + u64 :2; +#endif + } s; +}; + +union mio_emm_sample { + u64 val; + struct mio_emm_sample_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 :38; + u64 cmd_cnt:10; + u64 :6; + u64 dat_cnt:10; +#else + u64 dat_cnt:10; + u64 :6; + u64 cmd_cnt:10; + u64 :38; +#endif + } s; +}; + +union mio_emm_switch { + u64 val; + struct mio_emm_switch_s { +#ifdef __BIG_ENDIAN_BITFIELD + u64 :2; + u64 bus_id:2; + u64 switch_exe:1; + u64 switch_err0:1; + u64 switch_err1:1; + u64 switch_err2:1; + u64 :7; + u64 hs_timing:1; + u64 :5; + u64 bus_width:3; + u64 :4; + u64 power_class:4; + u64 clk_hi:16; + u64 clk_lo:16; +#else + u64 clk_lo:16; + u64 clk_hi:16; + u64 power_class:4; + u64 :4; + u64 bus_width:3; + u64 :5; + u64 hs_timing:1; + u64 :7; + u64 switch_err2:1; + u64 switch_err1:1; + u64 switch_err0:1; + u64 switch_exe:1; + u64 bus_id:2; + u64 :2; +#endif + } s; +}; + +/* Protoypes */ +irqreturn_t cvm_mmc_interrupt(int irq, void *dev_id); +int cvm_mmc_slot_probe(struct device *dev, struct cvm_mmc_host *host); +int cvm_mmc_slot_remove(struct cvm_mmc_slot *slot); +extern const struct mmc_host_ops cvm_mmc_ops; 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