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Release 4.11 drivers/mmc/host/wmt-sdmmc.c

Directory: drivers/mmc/host
/*
 *  WM8505/WM8650 SD/MMC Host Controller
 *
 *  Copyright (C) 2010 Tony Prisk
 *  Copyright (C) 2008 WonderMedia Technologies, Inc.
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License version 2 as
 *  published by the Free Software Foundation
 */

#include <linux/init.h>
#include <linux/module.h>
#include <linux/platform_device.h>
#include <linux/ioport.h>
#include <linux/errno.h>
#include <linux/dma-mapping.h>
#include <linux/delay.h>
#include <linux/io.h>
#include <linux/irq.h>
#include <linux/clk.h>
#include <linux/gpio.h>
#include <linux/interrupt.h>

#include <linux/of.h>
#include <linux/of_address.h>
#include <linux/of_irq.h>
#include <linux/of_device.h>

#include <linux/mmc/host.h>
#include <linux/mmc/mmc.h>
#include <linux/mmc/sd.h>

#include <asm/byteorder.h>



#define DRIVER_NAME "wmt-sdhc"


/* MMC/SD controller registers */

#define SDMMC_CTLR			0x00

#define SDMMC_CMD			0x01

#define SDMMC_RSPTYPE			0x02

#define SDMMC_ARG			0x04

#define SDMMC_BUSMODE			0x08

#define SDMMC_BLKLEN			0x0C

#define SDMMC_BLKCNT			0x0E

#define SDMMC_RSP			0x10

#define SDMMC_CBCR			0x20

#define SDMMC_INTMASK0			0x24

#define SDMMC_INTMASK1			0x25

#define SDMMC_STS0			0x28

#define SDMMC_STS1			0x29

#define SDMMC_STS2			0x2A

#define SDMMC_STS3			0x2B

#define SDMMC_RSPTIMEOUT		0x2C

#define SDMMC_CLK			0x30	
/* VT8500 only */

#define SDMMC_EXTCTRL			0x34

#define SDMMC_SBLKLEN			0x38

#define SDMMC_DMATIMEOUT		0x3C


/* SDMMC_CTLR bit fields */

#define CTLR_CMD_START			0x01

#define CTLR_CMD_WRITE			0x04

#define CTLR_FIFO_RESET			0x08

/* SDMMC_BUSMODE bit fields */

#define BM_SPI_MODE			0x01

#define BM_FOURBIT_MODE			0x02

#define BM_EIGHTBIT_MODE		0x04

#define BM_SD_OFF			0x10

#define BM_SPI_CS			0x20

#define BM_SD_POWER			0x40

#define BM_SOFT_RESET			0x80

/* SDMMC_BLKLEN bit fields */

#define BLKL_CRCERR_ABORT		0x0800

#define BLKL_CD_POL_HIGH		0x1000

#define BLKL_GPI_CD			0x2000

#define BLKL_DATA3_CD			0x4000

#define BLKL_INT_ENABLE			0x8000

/* SDMMC_INTMASK0 bit fields */

#define INT0_MBLK_TRAN_DONE_INT_EN	0x10

#define INT0_BLK_TRAN_DONE_INT_EN	0x20

#define INT0_CD_INT_EN			0x40

#define INT0_DI_INT_EN			0x80

/* SDMMC_INTMASK1 bit fields */

#define INT1_CMD_RES_TRAN_DONE_INT_EN	0x02

#define INT1_CMD_RES_TOUT_INT_EN	0x04

#define INT1_MBLK_AUTO_STOP_INT_EN	0x08

#define INT1_DATA_TOUT_INT_EN		0x10

#define INT1_RESCRC_ERR_INT_EN		0x20

#define INT1_RCRC_ERR_INT_EN		0x40

#define INT1_WCRC_ERR_INT_EN		0x80

/* SDMMC_STS0 bit fields */

#define STS0_WRITE_PROTECT		0x02

#define STS0_CD_DATA3			0x04

#define STS0_CD_GPI			0x08

#define STS0_MBLK_DONE			0x10

#define STS0_BLK_DONE			0x20

#define STS0_CARD_DETECT		0x40

#define STS0_DEVICE_INS			0x80

/* SDMMC_STS1 bit fields */

#define STS1_SDIO_INT			0x01

#define STS1_CMDRSP_DONE		0x02

#define STS1_RSP_TIMEOUT		0x04

#define STS1_AUTOSTOP_DONE		0x08

#define STS1_DATA_TIMEOUT		0x10

#define STS1_RSP_CRC_ERR		0x20

#define STS1_RCRC_ERR			0x40

#define STS1_WCRC_ERR			0x80

/* SDMMC_STS2 bit fields */

#define STS2_CMD_RES_BUSY		0x10

#define STS2_DATARSP_BUSY		0x20

#define STS2_DIS_FORCECLK		0x80

/* SDMMC_EXTCTRL bit fields */

#define EXT_EIGHTBIT			0x04

/* MMC/SD DMA Controller Registers */

#define SDDMA_GCR			0x100

#define SDDMA_IER			0x104

#define SDDMA_ISR			0x108

#define SDDMA_DESPR			0x10C

#define SDDMA_RBR			0x110

#define SDDMA_DAR			0x114

#define SDDMA_BAR			0x118

#define SDDMA_CPR			0x11C

#define SDDMA_CCR			0x120


/* SDDMA_GCR bit fields */

#define DMA_GCR_DMA_EN			0x00000001

#define DMA_GCR_SOFT_RESET		0x00000100

/* SDDMA_IER bit fields */

#define DMA_IER_INT_EN			0x00000001

/* SDDMA_ISR bit fields */

#define DMA_ISR_INT_STS			0x00000001

/* SDDMA_RBR bit fields */

#define DMA_RBR_FORMAT			0x40000000

#define DMA_RBR_END			0x80000000

/* SDDMA_CCR bit fields */

#define DMA_CCR_RUN			0x00000080

#define DMA_CCR_IF_TO_PERIPHERAL	0x00000000

#define DMA_CCR_PERIPHERAL_TO_IF	0x00400000

/* SDDMA_CCR event status */

#define DMA_CCR_EVT_NO_STATUS		0x00000000

#define DMA_CCR_EVT_UNDERRUN		0x00000001

#define DMA_CCR_EVT_OVERRUN		0x00000002

#define DMA_CCR_EVT_DESP_READ		0x00000003

#define DMA_CCR_EVT_DATA_RW		0x00000004

#define DMA_CCR_EVT_EARLY_END		0x00000005

#define DMA_CCR_EVT_SUCCESS		0x0000000F


#define PDMA_READ			0x00

#define PDMA_WRITE			0x01


#define WMT_SD_POWER_OFF		0

#define WMT_SD_POWER_ON			1


struct wmt_dma_descriptor {
	
u32 flags;
	
u32 data_buffer_addr;
	
u32 branch_addr;
	
u32 reserved1;
};


struct wmt_mci_caps {
	
unsigned int	f_min;
	
unsigned int	f_max;
	
u32		ocr_avail;
	
u32		caps;
	
u32		max_seg_size;
	
u32		max_segs;
	
u32		max_blk_size;
};


struct wmt_mci_priv {
	
struct mmc_host *mmc;
	
void __iomem *sdmmc_base;

	
int irq_regular;
	
int irq_dma;

	
void *dma_desc_buffer;
	
dma_addr_t dma_desc_device_addr;

	
struct completion cmdcomp;
	
struct completion datacomp;

	
struct completion *comp_cmd;
	
struct completion *comp_dma;

	
struct mmc_request *req;
	
struct mmc_command *cmd;

	
struct clk *clk_sdmmc;
	
struct device *dev;

	
u8 power_inverted;
	
u8 cd_inverted;
};


static void wmt_set_sd_power(struct wmt_mci_priv *priv, int enable) { u32 reg_tmp = readb(priv->sdmmc_base + SDMMC_BUSMODE); if (enable ^ priv->power_inverted) reg_tmp &= ~BM_SD_OFF; else reg_tmp |= BM_SD_OFF; writeb(reg_tmp, priv->sdmmc_base + SDMMC_BUSMODE); }

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static void wmt_mci_read_response(struct mmc_host *mmc) { struct wmt_mci_priv *priv; int idx1, idx2; u8 tmp_resp; u32 response; priv = mmc_priv(mmc); for (idx1 = 0; idx1 < 4; idx1++) { response = 0; for (idx2 = 0; idx2 < 4; idx2++) { if ((idx1 == 3) && (idx2 == 3)) tmp_resp = readb(priv->sdmmc_base + SDMMC_RSP); else tmp_resp = readb(priv->sdmmc_base + SDMMC_RSP + (idx1*4) + idx2 + 1); response |= (tmp_resp << (idx2 * 8)); } priv->cmd->resp[idx1] = cpu_to_be32(response); } }

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static void wmt_mci_start_command(struct wmt_mci_priv *priv) { u32 reg_tmp; reg_tmp = readb(priv->sdmmc_base + SDMMC_CTLR); writeb(reg_tmp | CTLR_CMD_START, priv->sdmmc_base + SDMMC_CTLR); }

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static int wmt_mci_send_command(struct mmc_host *mmc, u8 command, u8 cmdtype, u32 arg, u8 rsptype) { struct wmt_mci_priv *priv; u32 reg_tmp; priv = mmc_priv(mmc); /* write command, arg, resptype registers */ writeb(command, priv->sdmmc_base + SDMMC_CMD); writel(arg, priv->sdmmc_base + SDMMC_ARG); writeb(rsptype, priv->sdmmc_base + SDMMC_RSPTYPE); /* reset response FIFO */ reg_tmp = readb(priv->sdmmc_base + SDMMC_CTLR); writeb(reg_tmp | CTLR_FIFO_RESET, priv->sdmmc_base + SDMMC_CTLR); /* ensure clock enabled - VT3465 */ wmt_set_sd_power(priv, WMT_SD_POWER_ON); /* clear status bits */ writeb(0xFF, priv->sdmmc_base + SDMMC_STS0); writeb(0xFF, priv->sdmmc_base + SDMMC_STS1); writeb(0xFF, priv->sdmmc_base + SDMMC_STS2); writeb(0xFF, priv->sdmmc_base + SDMMC_STS3); /* set command type */ reg_tmp = readb(priv->sdmmc_base + SDMMC_CTLR); writeb((reg_tmp & 0x0F) | (cmdtype << 4), priv->sdmmc_base + SDMMC_CTLR); return 0; }

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static void wmt_mci_disable_dma(struct wmt_mci_priv *priv) { writel(DMA_ISR_INT_STS, priv->sdmmc_base + SDDMA_ISR); writel(0, priv->sdmmc_base + SDDMA_IER); }

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static void wmt_complete_data_request(struct wmt_mci_priv *priv) { struct mmc_request *req; req = priv->req; req->data->bytes_xfered = req->data->blksz * req->data->blocks; /* unmap the DMA pages used for write data */ if (req->data->flags & MMC_DATA_WRITE) dma_unmap_sg(mmc_dev(priv->mmc), req->data->sg, req->data->sg_len, DMA_TO_DEVICE); else dma_unmap_sg(mmc_dev(priv->mmc), req->data->sg, req->data->sg_len, DMA_FROM_DEVICE); /* Check if the DMA ISR returned a data error */ if ((req->cmd->error) || (req->data->error)) mmc_request_done(priv->mmc, req); else { wmt_mci_read_response(priv->mmc); if (!req->data->stop) { /* single-block read/write requests end here */ mmc_request_done(priv->mmc, req); } else { /* * we change the priv->cmd variable so the response is * stored in the stop struct rather than the original * calling command struct */ priv->comp_cmd = &priv->cmdcomp; init_completion(priv->comp_cmd); priv->cmd = req->data->stop; wmt_mci_send_command(priv->mmc, req->data->stop->opcode, 7, req->data->stop->arg, 9); wmt_mci_start_command(priv); } } }

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static irqreturn_t wmt_mci_dma_isr(int irq_num, void *data) { struct wmt_mci_priv *priv; int status; priv = (struct wmt_mci_priv *)data; status = readl(priv->sdmmc_base + SDDMA_CCR) & 0x0F; if (status != DMA_CCR_EVT_SUCCESS) { dev_err(priv->dev, "DMA Error: Status = %d\n", status); priv->req->data->error = -ETIMEDOUT; complete(priv->comp_dma); return IRQ_HANDLED; } priv->req->data->error = 0; wmt_mci_disable_dma(priv); complete(priv->comp_dma); if (priv->comp_cmd) { if (completion_done(priv->comp_cmd)) { /* * if the command (regular) interrupt has already * completed, finish off the request otherwise we wait * for the command interrupt and finish from there. */ wmt_complete_data_request(priv); } } return IRQ_HANDLED; }

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static irqreturn_t wmt_mci_regular_isr(int irq_num, void *data) { struct wmt_mci_priv *priv; u32 status0; u32 status1; u32 status2; u32 reg_tmp; int cmd_done; priv = (struct wmt_mci_priv *)data; cmd_done = 0; status0 = readb(priv->sdmmc_base + SDMMC_STS0); status1 = readb(priv->sdmmc_base + SDMMC_STS1); status2 = readb(priv->sdmmc_base + SDMMC_STS2); /* Check for card insertion */ reg_tmp = readb(priv->sdmmc_base + SDMMC_INTMASK0); if ((reg_tmp & INT0_DI_INT_EN) && (status0 & STS0_DEVICE_INS)) { mmc_detect_change(priv->mmc, 0); if (priv->cmd) priv->cmd->error = -ETIMEDOUT; if (priv->comp_cmd) complete(priv->comp_cmd); if (priv->comp_dma) { wmt_mci_disable_dma(priv); complete(priv->comp_dma); } writeb(STS0_DEVICE_INS, priv->sdmmc_base + SDMMC_STS0); return IRQ_HANDLED; } if ((!priv->req->data) || ((priv->req->data->stop) && (priv->cmd == priv->req->data->stop))) { /* handle non-data & stop_transmission requests */ if (status1 & STS1_CMDRSP_DONE) { priv->cmd->error = 0; cmd_done = 1; } else if ((status1 & STS1_RSP_TIMEOUT) || (status1 & STS1_DATA_TIMEOUT)) { priv->cmd->error = -ETIMEDOUT; cmd_done = 1; } if (cmd_done) { priv->comp_cmd = NULL; if (!priv->cmd->error) wmt_mci_read_response(priv->mmc); priv->cmd = NULL; mmc_request_done(priv->mmc, priv->req); } } else { /* handle data requests */ if (status1 & STS1_CMDRSP_DONE) { if (priv->cmd) priv->cmd->error = 0; if (priv->comp_cmd) complete(priv->comp_cmd); } if ((status1 & STS1_RSP_TIMEOUT) || (status1 & STS1_DATA_TIMEOUT)) { if (priv->cmd) priv->cmd->error = -ETIMEDOUT; if (priv->comp_cmd) complete(priv->comp_cmd); if (priv->comp_dma) { wmt_mci_disable_dma(priv); complete(priv->comp_dma); } } if (priv->comp_dma) { /* * If the dma interrupt has already completed, finish * off the request; otherwise we wait for the DMA * interrupt and finish from there. */ if (completion_done(priv->comp_dma)) wmt_complete_data_request(priv); } } writeb(status0, priv->sdmmc_base + SDMMC_STS0); writeb(status1, priv->sdmmc_base + SDMMC_STS1); writeb(status2, priv->sdmmc_base + SDMMC_STS2); return IRQ_HANDLED; }

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static void wmt_reset_hardware(struct mmc_host *mmc) { struct wmt_mci_priv *priv; u32 reg_tmp; priv = mmc_priv(mmc); /* reset controller */ reg_tmp = readb(priv->sdmmc_base + SDMMC_BUSMODE); writeb(reg_tmp | BM_SOFT_RESET, priv->sdmmc_base + SDMMC_BUSMODE); /* reset response FIFO */ reg_tmp = readb(priv->sdmmc_base + SDMMC_CTLR); writeb(reg_tmp | CTLR_FIFO_RESET, priv->sdmmc_base + SDMMC_CTLR); /* enable GPI pin to detect card */ writew(BLKL_INT_ENABLE | BLKL_GPI_CD, priv->sdmmc_base + SDMMC_BLKLEN); /* clear interrupt status */ writeb(0xFF, priv->sdmmc_base + SDMMC_STS0); writeb(0xFF, priv->sdmmc_base + SDMMC_STS1); /* setup interrupts */ writeb(INT0_CD_INT_EN | INT0_DI_INT_EN, priv->sdmmc_base + SDMMC_INTMASK0); writeb(INT1_DATA_TOUT_INT_EN | INT1_CMD_RES_TRAN_DONE_INT_EN | INT1_CMD_RES_TOUT_INT_EN, priv->sdmmc_base + SDMMC_INTMASK1); /* set the DMA timeout */ writew(8191, priv->sdmmc_base + SDMMC_DMATIMEOUT); /* auto clock freezing enable */ reg_tmp = readb(priv->sdmmc_base + SDMMC_STS2); writeb(reg_tmp | STS2_DIS_FORCECLK, priv->sdmmc_base + SDMMC_STS2); /* set a default clock speed of 400Khz */ clk_set_rate(priv->clk_sdmmc, 400000); }

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static int wmt_dma_init(struct mmc_host *mmc) { struct wmt_mci_priv *priv; priv = mmc_priv(mmc); writel(DMA_GCR_SOFT_RESET, priv->sdmmc_base + SDDMA_GCR); writel(DMA_GCR_DMA_EN, priv->sdmmc_base + SDDMA_GCR); if ((readl(priv->sdmmc_base + SDDMA_GCR) & DMA_GCR_DMA_EN) != 0) return 0; else return 1; }

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static void wmt_dma_init_descriptor(struct wmt_dma_descriptor *desc, u16 req_count, u32 buffer_addr, u32 branch_addr, int end) { desc->flags = 0x40000000 | req_count; if (end) desc->flags |= 0x80000000; desc->data_buffer_addr = buffer_addr; desc->branch_addr = branch_addr; }

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static void wmt_dma_config(struct mmc_host *mmc, u32 descaddr, u8 dir) { struct wmt_mci_priv *priv; u32 reg_tmp; priv = mmc_priv(mmc); /* Enable DMA Interrupts */ writel(DMA_IER_INT_EN, priv->sdmmc_base + SDDMA_IER); /* Write DMA Descriptor Pointer Register */ writel(descaddr, priv->sdmmc_base + SDDMA_DESPR); writel(0x00, priv->sdmmc_base + SDDMA_CCR); if (dir == PDMA_WRITE) { reg_tmp = readl(priv->sdmmc_base + SDDMA_CCR); writel(reg_tmp & DMA_CCR_IF_TO_PERIPHERAL, priv->sdmmc_base + SDDMA_CCR); } else { reg_tmp = readl(priv->sdmmc_base + SDDMA_CCR); writel(reg_tmp | DMA_CCR_PERIPHERAL_TO_IF, priv->sdmmc_base + SDDMA_CCR); } }

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static void wmt_dma_start(struct wmt_mci_priv *priv) { u32 reg_tmp; reg_tmp = readl(priv->sdmmc_base + SDDMA_CCR); writel(reg_tmp | DMA_CCR_RUN, priv->sdmmc_base + SDDMA_CCR); }

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static void wmt_mci_request(struct mmc_host *mmc, struct mmc_request *req) { struct wmt_mci_priv *priv; struct wmt_dma_descriptor *desc; u8 command; u8 cmdtype; u32 arg; u8 rsptype; u32 reg_tmp; struct scatterlist *sg; int i; int sg_cnt; int offset; u32 dma_address; int desc_cnt; priv = mmc_priv(mmc); priv->req = req; /* * Use the cmd variable to pass a pointer to the resp[] structure * This is required on multi-block requests to pass the pointer to the * stop command */ priv->cmd = req->cmd; command = req->cmd->opcode; arg = req->cmd->arg; rsptype = mmc_resp_type(req->cmd); cmdtype = 0; /* rsptype=7 only valid for SPI commands - should be =2 for SD */ if (rsptype == 7) rsptype = 2; /* rsptype=21 is R1B, convert for controller */ if (rsptype == 21) rsptype = 9; if (!req->data) { wmt_mci_send_command(mmc, command, cmdtype, arg, rsptype); wmt_mci_start_command(priv); /* completion is now handled in the regular_isr() */ } if (req->data) { priv->comp_cmd = &priv->cmdcomp; init_completion(priv->comp_cmd); wmt_dma_init(mmc); /* set controller data length */ reg_tmp = readw(priv->sdmmc_base + SDMMC_BLKLEN); writew((reg_tmp & 0xF800) | (req->data->blksz - 1), priv->sdmmc_base + SDMMC_BLKLEN); /* set controller block count */ writew(req->data->blocks, priv->sdmmc_base + SDMMC_BLKCNT); desc = (struct wmt_dma_descriptor *)priv->dma_desc_buffer; if (req->data->flags & MMC_DATA_WRITE) { sg_cnt = dma_map_sg(mmc_dev(mmc), req->data->sg, req->data->sg_len, DMA_TO_DEVICE); cmdtype = 1; if (req->data->blocks > 1) cmdtype = 3; } else { sg_cnt = dma_map_sg(mmc_dev(mmc), req->data->sg, req->data->sg_len, DMA_FROM_DEVICE); cmdtype = 2; if (req->data->blocks > 1) cmdtype = 4; } dma_address = priv->dma_desc_device_addr + 16; desc_cnt = 0; for_each_sg(req->data->sg, sg, sg_cnt, i) { offset = 0; while (offset < sg_dma_len(sg)) { wmt_dma_init_descriptor(desc, req->data->blksz, sg_dma_address(sg)+offset, dma_address, 0); desc++; desc_cnt++; offset += req->data->blksz; dma_address += 16; if (desc_cnt == req->data->blocks) break; } } desc--; desc->flags |= 0x80000000; if (req->data->flags & MMC_DATA_WRITE) wmt_dma_config(mmc, priv->dma_desc_device_addr, PDMA_WRITE); else wmt_dma_config(mmc, priv->dma_desc_device_addr, PDMA_READ); wmt_mci_send_command(mmc, command, cmdtype, arg, rsptype); priv->comp_dma = &priv->datacomp; init_completion(priv->comp_dma); wmt_dma_start(priv); wmt_mci_start_command(priv); } }

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static void wmt_mci_set_ios(struct mmc_host *mmc, struct mmc_ios *ios) { struct wmt_mci_priv *priv; u32 busmode, extctrl; priv = mmc_priv(mmc); if (ios->power_mode == MMC_POWER_UP) { wmt_reset_hardware(mmc); wmt_set_sd_power(priv, WMT_SD_POWER_ON); } if (ios->power_mode == MMC_POWER_OFF) wmt_set_sd_power(priv, WMT_SD_POWER_OFF); if (ios->clock != 0) clk_set_rate(priv->clk_sdmmc, ios->clock); busmode = readb(priv->sdmmc_base + SDMMC_BUSMODE); extctrl = readb(priv->sdmmc_base + SDMMC_EXTCTRL); busmode &= ~(BM_EIGHTBIT_MODE | BM_FOURBIT_MODE); extctrl &= ~EXT_EIGHTBIT; switch (ios->bus_width) { case MMC_BUS_WIDTH_8: busmode |= BM_EIGHTBIT_MODE; extctrl |= EXT_EIGHTBIT; break; case MMC_BUS_WIDTH_4: busmode |= BM_FOURBIT_MODE; break; case MMC_BUS_WIDTH_1: break; } writeb(busmode, priv->sdmmc_base + SDMMC_BUSMODE); writeb(extctrl, priv->sdmmc_base + SDMMC_EXTCTRL); }

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static int wmt_mci_get_ro(struct mmc_host *mmc) { struct wmt_mci_priv *priv = mmc_priv(mmc); return !(readb(priv->sdmmc_base + SDMMC_STS0) & STS0_WRITE_PROTECT); }

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static int wmt_mci_get_cd(struct mmc_host *mmc) { struct wmt_mci_priv *priv = mmc_priv(mmc); u32 cd = (readb(priv->sdmmc_base + SDMMC_STS0) & STS0_CD_GPI) >> 3; return !(cd ^ priv->cd_inverted); }

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static struct mmc_host_ops wmt_mci_ops = { .request = wmt_mci_request, .set_ios = wmt_mci_set_ios, .get_ro = wmt_mci_get_ro, .get_cd = wmt_mci_get_cd, }; /* Controller capabilities */ static struct wmt_mci_caps wm8505_caps = { .f_min = 390425, .f_max = 50000000, .ocr_avail = MMC_VDD_32_33 | MMC_VDD_33_34, .caps = MMC_CAP_4_BIT_DATA | MMC_CAP_MMC_HIGHSPEED | MMC_CAP_SD_HIGHSPEED, .max_seg_size = 65024, .max_segs = 128, .max_blk_size = 2048, }; static const struct of_device_id wmt_mci_dt_ids[] = { { .compatible = "wm,wm8505-sdhc", .data = &wm8505_caps }, { /* Sentinel */ }, };
static int wmt_mci_probe(struct platform_device *pdev) { struct mmc_host *mmc; struct wmt_mci_priv *priv; struct device_node *np = pdev->dev.of_node; const struct of_device_id *of_id = of_match_device(wmt_mci_dt_ids, &pdev->dev); const struct wmt_mci_caps *wmt_caps; int ret; int regular_irq, dma_irq; if (!of_id || !of_id->data) { dev_err(&pdev->dev, "Controller capabilities data missing\n"); return -EFAULT; } wmt_caps = of_id->data; if (!np) { dev_err(&pdev->dev, "Missing SDMMC description in devicetree\n"); return -EFAULT; } regular_irq = irq_of_parse_and_map(np, 0); dma_irq = irq_of_parse_and_map(np, 1); if (!regular_irq || !dma_irq) { dev_err(&pdev->dev, "Getting IRQs failed!\n"); ret = -ENXIO; goto fail1; } mmc = mmc_alloc_host(sizeof(struct wmt_mci_priv), &pdev->dev); if (!mmc) { dev_err(&pdev->dev, "Failed to allocate mmc_host\n"); ret = -ENOMEM; goto fail1; } mmc->ops = &wmt_mci_ops; mmc->f_min = wmt_caps->f_min; mmc->f_max = wmt_caps->f_max; mmc->ocr_avail = wmt_caps->ocr_avail; mmc->caps = wmt_caps->caps; mmc->max_seg_size = wmt_caps->max_seg_size; mmc->max_segs = wmt_caps->max_segs; mmc->max_blk_size = wmt_caps->max_blk_size; mmc->max_req_size = (16*512*mmc->max_segs); mmc->max_blk_count = mmc->max_req_size / 512; priv = mmc_priv(mmc); priv->mmc = mmc; priv->dev = &pdev->dev; priv->power_inverted = 0; priv->cd_inverted = 0; if (of_get_property(np, "sdon-inverted", NULL)) priv->power_inverted = 1; if (of_get_property(np, "cd-inverted", NULL)) priv->cd_inverted = 1; priv->sdmmc_base = of_iomap(np, 0); if (!priv->sdmmc_base) { dev_err(&pdev->dev, "Failed to map IO space\n"); ret = -ENOMEM; goto fail2; } priv->irq_regular = regular_irq; priv->irq_dma = dma_irq; ret = request_irq(regular_irq, wmt_mci_regular_isr, 0, "sdmmc", priv); if (ret) { dev_err(&pdev->dev, "Register regular IRQ fail\n"); goto fail3; } ret = request_irq(dma_irq, wmt_mci_dma_isr, 0, "sdmmc", priv); if (ret) { dev_err(&pdev->dev, "Register DMA IRQ fail\n"); goto fail4; } /* alloc some DMA buffers for descriptors/transfers */ priv->dma_desc_buffer = dma_alloc_coherent(&pdev->dev, mmc->max_blk_count * 16, &priv->dma_desc_device_addr, GFP_KERNEL); if (!priv->dma_desc_buffer) { dev_err(&pdev->dev, "DMA alloc fail\n"); ret = -EPERM; goto fail5; } platform_set_drvdata(pdev, mmc); priv->clk_sdmmc = of_clk_get(np, 0); if (IS_ERR(priv->clk_sdmmc)) { dev_err(&pdev->dev, "Error getting clock\n"); ret = PTR_ERR(priv->clk_sdmmc); goto fail5; } clk_prepare_enable(priv->clk_sdmmc); /* configure the controller to a known 'ready' state */ wmt_reset_hardware(mmc); mmc_add_host(mmc); dev_info(&pdev->dev, "WMT SDHC Controller initialized\n"); return 0; fail5: free_irq(dma_irq, priv); fail4: free_irq(regular_irq, priv); fail3: iounmap(priv->sdmmc_base); fail2: mmc_free_host(mmc); fail1: return ret; }

Contributors

PersonTokensPropCommitsCommitProp
Tony Prisk64198.77%125.00%
Sachin Kamat60.92%125.00%
Axel Lin20.31%250.00%
Total649100.00%4100.00%


static int wmt_mci_remove(struct platform_device *pdev) { struct mmc_host *mmc; struct wmt_mci_priv *priv; struct resource *res; u32 reg_tmp; mmc = platform_get_drvdata(pdev); priv = mmc_priv(mmc); /* reset SD controller */ reg_tmp = readb(priv->sdmmc_base + SDMMC_BUSMODE); writel(reg_tmp | BM_SOFT_RESET, priv->sdmmc_base + SDMMC_BUSMODE); reg_tmp = readw(priv->sdmmc_base + SDMMC_BLKLEN); writew(reg_tmp & ~(0xA000), priv->sdmmc_base + SDMMC_BLKLEN); writeb(0xFF, priv->sdmmc_base + SDMMC_STS0); writeb(0xFF, priv->sdmmc_base + SDMMC_STS1); /* release the dma buffers */ dma_free_coherent(&pdev->dev, priv->mmc->max_blk_count * 16, priv->dma_desc_buffer, priv->dma_desc_device_addr); mmc_remove_host(mmc); free_irq(priv->irq_regular, priv); free_irq(priv->irq_dma, priv); iounmap(priv->sdmmc_base); clk_disable_unprepare(priv->clk_sdmmc); clk_put(priv->clk_sdmmc); res = platform_get_resource(pdev, IORESOURCE_MEM, 0); release_mem_region(res->start, resource_size(res)); mmc_free_host(mmc); dev_info(&pdev->dev, "WMT MCI device removed\n"); return 0; }

Contributors

PersonTokensPropCommitsCommitProp
Tony Prisk22498.68%150.00%
Alexandru Gheorghiu31.32%150.00%
Total227100.00%2100.00%

#ifdef CONFIG_PM
static int wmt_mci_suspend(struct device *dev) { u32 reg_tmp; struct platform_device *pdev = to_platform_device(dev); struct mmc_host *mmc = platform_get_drvdata(pdev); struct wmt_mci_priv *priv; if (!mmc) return 0; priv = mmc_priv(mmc); reg_tmp = readb(priv->sdmmc_base + SDMMC_BUSMODE); writeb(reg_tmp | BM_SOFT_RESET, priv->sdmmc_base + SDMMC_BUSMODE); reg_tmp = readw(priv->sdmmc_base + SDMMC_BLKLEN); writew(reg_tmp & 0x5FFF, priv->sdmmc_base + SDMMC_BLKLEN); writeb(0xFF, priv->sdmmc_base + SDMMC_STS0); writeb(0xFF, priv->sdmmc_base + SDMMC_STS1); clk_disable(priv->clk_sdmmc); return 0; }

Contributors

PersonTokensPropCommitsCommitProp
Tony Prisk13399.25%150.00%
Ulf Hansson10.75%150.00%
Total134100.00%2100.00%


static int wmt_mci_resume(struct device *dev) { u32 reg_tmp; struct platform_device *pdev = to_platform_device(dev); struct mmc_host *mmc = platform_get_drvdata(pdev); struct wmt_mci_priv *priv; if (mmc) { priv = mmc_priv(mmc); clk_enable(priv->clk_sdmmc); reg_tmp = readb(priv->sdmmc_base + SDMMC_BUSMODE); writeb(reg_tmp | BM_SOFT_RESET, priv->sdmmc_base + SDMMC_BUSMODE); reg_tmp = readw(priv->sdmmc_base + SDMMC_BLKLEN); writew(reg_tmp | (BLKL_GPI_CD | BLKL_INT_ENABLE), priv->sdmmc_base + SDMMC_BLKLEN); reg_tmp = readb(priv->sdmmc_base + SDMMC_INTMASK0); writeb(reg_tmp | INT0_DI_INT_EN, priv->sdmmc_base + SDMMC_INTMASK0); } return 0; }

Contributors

PersonTokensPropCommitsCommitProp
Tony Prisk13799.28%150.00%
Ulf Hansson10.72%150.00%
Total138100.00%2100.00%

static const struct dev_pm_ops wmt_mci_pm = { .suspend = wmt_mci_suspend, .resume = wmt_mci_resume, }; #define wmt_mci_pm_ops (&wmt_mci_pm) #else /* !CONFIG_PM */ #define wmt_mci_pm_ops NULL #endif static struct platform_driver wmt_mci_driver = { .probe = wmt_mci_probe, .remove = wmt_mci_remove, .driver = { .name = DRIVER_NAME, .pm = wmt_mci_pm_ops, .of_match_table = wmt_mci_dt_ids, }, }; module_platform_driver(wmt_mci_driver); MODULE_DESCRIPTION("Wondermedia MMC/SD Driver"); MODULE_AUTHOR("Tony Prisk"); MODULE_LICENSE("GPL v2"); MODULE_DEVICE_TABLE(of, wmt_mci_dt_ids);

Overall Contributors

PersonTokensPropCommitsCommitProp
Tony Prisk439698.34%110.00%
Axel Lin591.32%440.00%
Sachin Kamat60.13%110.00%
Ulf Hansson50.11%220.00%
Alexandru Gheorghiu30.07%110.00%
Fabian Frederick10.02%110.00%
Total4470100.00%10100.00%
Directory: drivers/mmc/host
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