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Release 4.11 drivers/mtd/spi-nor/intel-spi.c

/*
 * Intel PCH/PCU SPI flash driver.
 *
 * Copyright (C) 2016, Intel Corporation
 * Author: Mika Westerberg <mika.westerberg@linux.intel.com>
 *
 * 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/err.h>
#include <linux/io.h>
#include <linux/iopoll.h>
#include <linux/module.h>
#include <linux/sched.h>
#include <linux/sizes.h>
#include <linux/mtd/mtd.h>
#include <linux/mtd/partitions.h>
#include <linux/mtd/spi-nor.h>
#include <linux/platform_data/intel-spi.h>

#include "intel-spi.h"

/* Offsets are from @ispi->base */

#define BFPREG				0x00


#define HSFSTS_CTL			0x04

#define HSFSTS_CTL_FSMIE		BIT(31)

#define HSFSTS_CTL_FDBC_SHIFT		24

#define HSFSTS_CTL_FDBC_MASK		(0x3f << HSFSTS_CTL_FDBC_SHIFT)


#define HSFSTS_CTL_FCYCLE_SHIFT		17

#define HSFSTS_CTL_FCYCLE_MASK		(0x0f << HSFSTS_CTL_FCYCLE_SHIFT)
/* HW sequencer opcodes */

#define HSFSTS_CTL_FCYCLE_READ		(0x00 << HSFSTS_CTL_FCYCLE_SHIFT)

#define HSFSTS_CTL_FCYCLE_WRITE		(0x02 << HSFSTS_CTL_FCYCLE_SHIFT)

#define HSFSTS_CTL_FCYCLE_ERASE		(0x03 << HSFSTS_CTL_FCYCLE_SHIFT)

#define HSFSTS_CTL_FCYCLE_ERASE_64K	(0x04 << HSFSTS_CTL_FCYCLE_SHIFT)

#define HSFSTS_CTL_FCYCLE_RDID		(0x06 << HSFSTS_CTL_FCYCLE_SHIFT)

#define HSFSTS_CTL_FCYCLE_WRSR		(0x07 << HSFSTS_CTL_FCYCLE_SHIFT)

#define HSFSTS_CTL_FCYCLE_RDSR		(0x08 << HSFSTS_CTL_FCYCLE_SHIFT)


#define HSFSTS_CTL_FGO			BIT(16)

#define HSFSTS_CTL_FLOCKDN		BIT(15)

#define HSFSTS_CTL_FDV			BIT(14)

#define HSFSTS_CTL_SCIP			BIT(5)

#define HSFSTS_CTL_AEL			BIT(2)

#define HSFSTS_CTL_FCERR		BIT(1)

#define HSFSTS_CTL_FDONE		BIT(0)


#define FADDR				0x08

#define DLOCK				0x0c

#define FDATA(n)			(0x10 + ((n) * 4))


#define FRACC				0x50


#define FREG(n)				(0x54 + ((n) * 4))

#define FREG_BASE_MASK			0x3fff

#define FREG_LIMIT_SHIFT		16

#define FREG_LIMIT_MASK			(0x03fff << FREG_LIMIT_SHIFT)

/* Offset is from @ispi->pregs */

#define PR(n)				((n) * 4)

#define PR_WPE				BIT(31)

#define PR_LIMIT_SHIFT			16

#define PR_LIMIT_MASK			(0x3fff << PR_LIMIT_SHIFT)

#define PR_RPE				BIT(15)

#define PR_BASE_MASK			0x3fff
/* Last PR is GPR0 */

#define PR_NUM				(5 + 1)

/* Offsets are from @ispi->sregs */

#define SSFSTS_CTL			0x00

#define SSFSTS_CTL_FSMIE		BIT(23)

#define SSFSTS_CTL_DS			BIT(22)

#define SSFSTS_CTL_DBC_SHIFT		16

#define SSFSTS_CTL_SPOP			BIT(11)

#define SSFSTS_CTL_ACS			BIT(10)

#define SSFSTS_CTL_SCGO			BIT(9)

#define SSFSTS_CTL_COP_SHIFT		12

#define SSFSTS_CTL_FRS			BIT(7)

#define SSFSTS_CTL_DOFRS		BIT(6)

#define SSFSTS_CTL_AEL			BIT(4)

#define SSFSTS_CTL_FCERR		BIT(3)

#define SSFSTS_CTL_FDONE		BIT(2)

#define SSFSTS_CTL_SCIP			BIT(0)


#define PREOP_OPTYPE			0x04

#define OPMENU0				0x08

#define OPMENU1				0x0c

/* CPU specifics */

#define BYT_PR				0x74

#define BYT_SSFSTS_CTL			0x90

#define BYT_BCR				0xfc

#define BYT_BCR_WPD			BIT(0)

#define BYT_FREG_NUM			5


#define LPT_PR				0x74

#define LPT_SSFSTS_CTL			0x90

#define LPT_FREG_NUM			5


#define BXT_PR				0x84

#define BXT_SSFSTS_CTL			0xa0

#define BXT_FREG_NUM			12


#define INTEL_SPI_TIMEOUT		5000 
/* ms */

#define INTEL_SPI_FIFO_SZ		64

/**
 * struct intel_spi - Driver private data
 * @dev: Device pointer
 * @info: Pointer to board specific info
 * @nor: SPI NOR layer structure
 * @base: Beginning of MMIO space
 * @pregs: Start of protection registers
 * @sregs: Start of software sequencer registers
 * @nregions: Maximum number of regions
 * @writeable: Is the chip writeable
 * @swseq: Use SW sequencer in register reads/writes
 * @erase_64k: 64k erase supported
 * @opcodes: Opcodes which are supported. This are programmed by BIOS
 *           before it locks down the controller.
 * @preopcodes: Preopcodes which are supported.
 */

struct intel_spi {
	
struct device *dev;
	
const struct intel_spi_boardinfo *info;
	
struct spi_nor nor;
	
void __iomem *base;
	
void __iomem *pregs;
	
void __iomem *sregs;
	
size_t nregions;
	
bool writeable;
	
bool swseq;
	
bool erase_64k;
	
u8 opcodes[8];
	
u8 preopcodes[2];
};


static bool writeable;
module_param(writeable, bool, 0);
MODULE_PARM_DESC(writeable, "Enable write access to SPI flash chip (default=0)");


static void intel_spi_dump_regs(struct intel_spi *ispi) { u32 value; int i; dev_dbg(ispi->dev, "BFPREG=0x%08x\n", readl(ispi->base + BFPREG)); value = readl(ispi->base + HSFSTS_CTL); dev_dbg(ispi->dev, "HSFSTS_CTL=0x%08x\n", value); if (value & HSFSTS_CTL_FLOCKDN) dev_dbg(ispi->dev, "-> Locked\n"); dev_dbg(ispi->dev, "FADDR=0x%08x\n", readl(ispi->base + FADDR)); dev_dbg(ispi->dev, "DLOCK=0x%08x\n", readl(ispi->base + DLOCK)); for (i = 0; i < 16; i++) dev_dbg(ispi->dev, "FDATA(%d)=0x%08x\n", i, readl(ispi->base + FDATA(i))); dev_dbg(ispi->dev, "FRACC=0x%08x\n", readl(ispi->base + FRACC)); for (i = 0; i < ispi->nregions; i++) dev_dbg(ispi->dev, "FREG(%d)=0x%08x\n", i, readl(ispi->base + FREG(i))); for (i = 0; i < PR_NUM; i++) dev_dbg(ispi->dev, "PR(%d)=0x%08x\n", i, readl(ispi->pregs + PR(i))); value = readl(ispi->sregs + SSFSTS_CTL); dev_dbg(ispi->dev, "SSFSTS_CTL=0x%08x\n", value); dev_dbg(ispi->dev, "PREOP_OPTYPE=0x%08x\n", readl(ispi->sregs + PREOP_OPTYPE)); dev_dbg(ispi->dev, "OPMENU0=0x%08x\n", readl(ispi->sregs + OPMENU0)); dev_dbg(ispi->dev, "OPMENU1=0x%08x\n", readl(ispi->sregs + OPMENU1)); if (ispi->info->type == INTEL_SPI_BYT) dev_dbg(ispi->dev, "BCR=0x%08x\n", readl(ispi->base + BYT_BCR)); dev_dbg(ispi->dev, "Protected regions:\n"); for (i = 0; i < PR_NUM; i++) { u32 base, limit; value = readl(ispi->pregs + PR(i)); if (!(value & (PR_WPE | PR_RPE))) continue; limit = (value & PR_LIMIT_MASK) >> PR_LIMIT_SHIFT; base = value & PR_BASE_MASK; dev_dbg(ispi->dev, " %02d base: 0x%08x limit: 0x%08x [%c%c]\n", i, base << 12, (limit << 12) | 0xfff, value & PR_WPE ? 'W' : '.', value & PR_RPE ? 'R' : '.'); } dev_dbg(ispi->dev, "Flash regions:\n"); for (i = 0; i < ispi->nregions; i++) { u32 region, base, limit; region = readl(ispi->base + FREG(i)); base = region & FREG_BASE_MASK; limit = (region & FREG_LIMIT_MASK) >> FREG_LIMIT_SHIFT; if (base >= limit || (i > 0 && limit == 0)) dev_dbg(ispi->dev, " %02d disabled\n", i); else dev_dbg(ispi->dev, " %02d base: 0x%08x limit: 0x%08x\n", i, base << 12, (limit << 12) | 0xfff); } dev_dbg(ispi->dev, "Using %cW sequencer for register access\n", ispi->swseq ? 'S' : 'H'); }

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/* Reads max INTEL_SPI_FIFO_SZ bytes from the device fifo */
static int intel_spi_read_block(struct intel_spi *ispi, void *buf, size_t size) { size_t bytes; int i = 0; if (size > INTEL_SPI_FIFO_SZ) return -EINVAL; while (size > 0) { bytes = min_t(size_t, size, 4); memcpy_fromio(buf, ispi->base + FDATA(i), bytes); size -= bytes; buf += bytes; i++; } return 0; }

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/* Writes max INTEL_SPI_FIFO_SZ bytes to the device fifo */
static int intel_spi_write_block(struct intel_spi *ispi, const void *buf, size_t size) { size_t bytes; int i = 0; if (size > INTEL_SPI_FIFO_SZ) return -EINVAL; while (size > 0) { bytes = min_t(size_t, size, 4); memcpy_toio(ispi->base + FDATA(i), buf, bytes); size -= bytes; buf += bytes; i++; } return 0; }

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static int intel_spi_wait_hw_busy(struct intel_spi *ispi) { u32 val; return readl_poll_timeout(ispi->base + HSFSTS_CTL, val, !(val & HSFSTS_CTL_SCIP), 0, INTEL_SPI_TIMEOUT * 1000); }

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static int intel_spi_wait_sw_busy(struct intel_spi *ispi) { u32 val; return readl_poll_timeout(ispi->sregs + SSFSTS_CTL, val, !(val & SSFSTS_CTL_SCIP), 0, INTEL_SPI_TIMEOUT * 1000); }

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static int intel_spi_init(struct intel_spi *ispi) { u32 opmenu0, opmenu1, val; int i; switch (ispi->info->type) { case INTEL_SPI_BYT: ispi->sregs = ispi->base + BYT_SSFSTS_CTL; ispi->pregs = ispi->base + BYT_PR; ispi->nregions = BYT_FREG_NUM; if (writeable) { /* Disable write protection */ val = readl(ispi->base + BYT_BCR); if (!(val & BYT_BCR_WPD)) { val |= BYT_BCR_WPD; writel(val, ispi->base + BYT_BCR); val = readl(ispi->base + BYT_BCR); } ispi->writeable = !!(val & BYT_BCR_WPD); } break; case INTEL_SPI_LPT: ispi->sregs = ispi->base + LPT_SSFSTS_CTL; ispi->pregs = ispi->base + LPT_PR; ispi->nregions = LPT_FREG_NUM; break; case INTEL_SPI_BXT: ispi->sregs = ispi->base + BXT_SSFSTS_CTL; ispi->pregs = ispi->base + BXT_PR; ispi->nregions = BXT_FREG_NUM; ispi->erase_64k = true; break; default: return -EINVAL; } /* Disable #SMI generation */ val = readl(ispi->base + HSFSTS_CTL); val &= ~HSFSTS_CTL_FSMIE; writel(val, ispi->base + HSFSTS_CTL); /* * BIOS programs allowed opcodes and then locks down the register. * So read back what opcodes it decided to support. That's the set * we are going to support as well. */ opmenu0 = readl(ispi->sregs + OPMENU0); opmenu1 = readl(ispi->sregs + OPMENU1); /* * Some controllers can only do basic operations using hardware * sequencer. All other operations are supposed to be carried out * using software sequencer. If we find that BIOS has programmed * opcodes for the software sequencer we use that over the hardware * sequencer. */ if (opmenu0 && opmenu1) { for (i = 0; i < ARRAY_SIZE(ispi->opcodes) / 2; i++) { ispi->opcodes[i] = opmenu0 >> i * 8; ispi->opcodes[i + 4] = opmenu1 >> i * 8; } val = readl(ispi->sregs + PREOP_OPTYPE); ispi->preopcodes[0] = val; ispi->preopcodes[1] = val >> 8; /* Disable #SMI generation from SW sequencer */ val = readl(ispi->sregs + SSFSTS_CTL); val &= ~SSFSTS_CTL_FSMIE; writel(val, ispi->sregs + SSFSTS_CTL); ispi->swseq = true; } intel_spi_dump_regs(ispi); return 0; }

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static int intel_spi_opcode_index(struct intel_spi *ispi, u8 opcode) { int i; for (i = 0; i < ARRAY_SIZE(ispi->opcodes); i++) if (ispi->opcodes[i] == opcode) return i; return -EINVAL; }

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static int intel_spi_hw_cycle(struct intel_spi *ispi, u8 opcode, u8 *buf, int len) { u32 val, status; int ret; val = readl(ispi->base + HSFSTS_CTL); val &= ~(HSFSTS_CTL_FCYCLE_MASK | HSFSTS_CTL_FDBC_MASK); switch (opcode) { case SPINOR_OP_RDID: val |= HSFSTS_CTL_FCYCLE_RDID; break; case SPINOR_OP_WRSR: val |= HSFSTS_CTL_FCYCLE_WRSR; break; case SPINOR_OP_RDSR: val |= HSFSTS_CTL_FCYCLE_RDSR; break; default: return -EINVAL; } val |= (len - 1) << HSFSTS_CTL_FDBC_SHIFT; val |= HSFSTS_CTL_FCERR | HSFSTS_CTL_FDONE; val |= HSFSTS_CTL_FGO; writel(val, ispi->base + HSFSTS_CTL); ret = intel_spi_wait_hw_busy(ispi); if (ret) return ret; status = readl(ispi->base + HSFSTS_CTL); if (status & HSFSTS_CTL_FCERR) return -EIO; else if (status & HSFSTS_CTL_AEL) return -EACCES; return 0; }

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static int intel_spi_sw_cycle(struct intel_spi *ispi, u8 opcode, u8 *buf, int len) { u32 val, status; int ret; ret = intel_spi_opcode_index(ispi, opcode); if (ret < 0) return ret; val = (len << SSFSTS_CTL_DBC_SHIFT) | SSFSTS_CTL_DS; val |= ret << SSFSTS_CTL_COP_SHIFT; val |= SSFSTS_CTL_FCERR | SSFSTS_CTL_FDONE; val |= SSFSTS_CTL_SCGO; writel(val, ispi->sregs + SSFSTS_CTL); ret = intel_spi_wait_sw_busy(ispi); if (ret) return ret; status = readl(ispi->base + SSFSTS_CTL); if (status & SSFSTS_CTL_FCERR) return -EIO; else if (status & SSFSTS_CTL_AEL) return -EACCES; return 0; }

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static int intel_spi_read_reg(struct spi_nor *nor, u8 opcode, u8 *buf, int len) { struct intel_spi *ispi = nor->priv; int ret; /* Address of the first chip */ writel(0, ispi->base + FADDR); if (ispi->swseq) ret = intel_spi_sw_cycle(ispi, opcode, buf, len); else ret = intel_spi_hw_cycle(ispi, opcode, buf, len); if (ret) return ret; return intel_spi_read_block(ispi, buf, len); }

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static int intel_spi_write_reg(struct spi_nor *nor, u8 opcode, u8 *buf, int len) { struct intel_spi *ispi = nor->priv; int ret; /* * This is handled with atomic operation and preop code in Intel * controller so skip it here now. */ if (opcode == SPINOR_OP_WREN) return 0; writel(0, ispi->base + FADDR); /* Write the value beforehand */ ret = intel_spi_write_block(ispi, buf, len); if (ret) return ret; if (ispi->swseq) return intel_spi_sw_cycle(ispi, opcode, buf, len); return intel_spi_hw_cycle(ispi, opcode, buf, len); }

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static ssize_t intel_spi_read(struct spi_nor *nor, loff_t from, size_t len, u_char *read_buf) { struct intel_spi *ispi = nor->priv; size_t block_size, retlen = 0; u32 val, status; ssize_t ret; switch (nor->read_opcode) { case SPINOR_OP_READ: case SPINOR_OP_READ_FAST: break; default: return -EINVAL; } while (len > 0) { block_size = min_t(size_t, len, INTEL_SPI_FIFO_SZ); writel(from, ispi->base + FADDR); val = readl(ispi->base + HSFSTS_CTL); val &= ~(HSFSTS_CTL_FDBC_MASK | HSFSTS_CTL_FCYCLE_MASK); val |= HSFSTS_CTL_AEL | HSFSTS_CTL_FCERR | HSFSTS_CTL_FDONE; val |= (block_size - 1) << HSFSTS_CTL_FDBC_SHIFT; val |= HSFSTS_CTL_FCYCLE_READ; val |= HSFSTS_CTL_FGO; writel(val, ispi->base + HSFSTS_CTL); ret = intel_spi_wait_hw_busy(ispi); if (ret) return ret; status = readl(ispi->base + HSFSTS_CTL); if (status & HSFSTS_CTL_FCERR) ret = -EIO; else if (status & HSFSTS_CTL_AEL) ret = -EACCES; if (ret < 0) { dev_err(ispi->dev, "read error: %llx: %#x\n", from, status); return ret; } ret = intel_spi_read_block(ispi, read_buf, block_size); if (ret) return ret; len -= block_size; from += block_size; retlen += block_size; read_buf += block_size; } return retlen; }

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static ssize_t intel_spi_write(struct spi_nor *nor, loff_t to, size_t len, const u_char *write_buf) { struct intel_spi *ispi = nor->priv; size_t block_size, retlen = 0; u32 val, status; ssize_t ret; while (len > 0) { block_size = min_t(size_t, len, INTEL_SPI_FIFO_SZ); writel(to, ispi->base + FADDR); val = readl(ispi->base + HSFSTS_CTL); val &= ~(HSFSTS_CTL_FDBC_MASK | HSFSTS_CTL_FCYCLE_MASK); val |= HSFSTS_CTL_AEL | HSFSTS_CTL_FCERR | HSFSTS_CTL_FDONE; val |= (block_size - 1) << HSFSTS_CTL_FDBC_SHIFT; val |= HSFSTS_CTL_FCYCLE_WRITE; /* Write enable */ if (ispi->preopcodes[1] == SPINOR_OP_WREN) val |= SSFSTS_CTL_SPOP; val |= SSFSTS_CTL_ACS; writel(val, ispi->base + HSFSTS_CTL); ret = intel_spi_write_block(ispi, write_buf, block_size); if (ret) { dev_err(ispi->dev, "failed to write block\n"); return ret; } /* Start the write now */ val = readl(ispi->base + HSFSTS_CTL); writel(val | HSFSTS_CTL_FGO, ispi->base + HSFSTS_CTL); ret = intel_spi_wait_hw_busy(ispi); if (ret) { dev_err(ispi->dev, "timeout\n"); return ret; } status = readl(ispi->base + HSFSTS_CTL); if (status & HSFSTS_CTL_FCERR) ret = -EIO; else if (status & HSFSTS_CTL_AEL) ret = -EACCES; if (ret < 0) { dev_err(ispi->dev, "write error: %llx: %#x\n", to, status); return ret; } len -= block_size; to += block_size; retlen += block_size; write_buf += block_size; } return retlen; }

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static int intel_spi_erase(struct spi_nor *nor, loff_t offs) { size_t erase_size, len = nor->mtd.erasesize; struct intel_spi *ispi = nor->priv; u32 val, status, cmd; int ret; /* If the hardware can do 64k erase use that when possible */ if (len >= SZ_64K && ispi->erase_64k) { cmd = HSFSTS_CTL_FCYCLE_ERASE_64K; erase_size = SZ_64K; } else { cmd = HSFSTS_CTL_FCYCLE_ERASE; erase_size = SZ_4K; } while (len > 0) { writel(offs, ispi->base + FADDR); val = readl(ispi->base + HSFSTS_CTL); val &= ~(HSFSTS_CTL_FDBC_MASK | HSFSTS_CTL_FCYCLE_MASK); val |= HSFSTS_CTL_AEL | HSFSTS_CTL_FCERR | HSFSTS_CTL_FDONE; val |= cmd; val |= HSFSTS_CTL_FGO; writel(val, ispi->base + HSFSTS_CTL); ret = intel_spi_wait_hw_busy(ispi); if (ret) return ret; status = readl(ispi->base + HSFSTS_CTL); if (status & HSFSTS_CTL_FCERR) return -EIO; else if (status & HSFSTS_CTL_AEL) return -EACCES; offs += erase_size; len -= erase_size; } return 0; }

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static bool intel_spi_is_protected(const struct intel_spi *ispi, unsigned int base, unsigned int limit) { int i; for (i = 0; i < PR_NUM; i++) { u32 pr_base, pr_limit, pr_value; pr_value = readl(ispi->pregs + PR(i)); if (!(pr_value & (PR_WPE | PR_RPE))) continue; pr_limit = (pr_value & PR_LIMIT_MASK) >> PR_LIMIT_SHIFT; pr_base = pr_value & PR_BASE_MASK; if (pr_base >= base && pr_limit <= limit) return true; } return false; }

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/* * There will be a single partition holding all enabled flash regions. We * call this "BIOS". */
static void intel_spi_fill_partition(struct intel_spi *ispi, struct mtd_partition *part) { u64 end; int i; memset(part, 0, sizeof(*part)); /* Start from the mandatory descriptor region */ part->size = 4096; part->name = "BIOS"; /* * Now try to find where this partition ends based on the flash * region registers. */ for (i = 1; i < ispi->nregions; i++) { u32 region, base, limit; region = readl(ispi->base + FREG(i)); base = region & FREG_BASE_MASK; limit = (region & FREG_LIMIT_MASK) >> FREG_LIMIT_SHIFT; if (base >= limit || limit == 0) continue; /* * If any of the regions have protection bits set, make the * whole partition read-only to be on the safe side. */ if (intel_spi_is_protected(ispi, base, limit)) ispi->writeable = 0; end = (limit << 12) + 4096; if (end > part->size) part->size = end; } }

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struct intel_spi *intel_spi_probe(struct device *dev, struct resource *mem, const struct intel_spi_boardinfo *info) { struct mtd_partition part; struct intel_spi *ispi; int ret; if (!info || !mem) return ERR_PTR(-EINVAL); ispi = devm_kzalloc(dev, sizeof(*ispi), GFP_KERNEL); if (!ispi) return ERR_PTR(-ENOMEM); ispi->base = devm_ioremap_resource(dev, mem); if (IS_ERR(ispi->base)) return ispi->base; ispi->dev = dev; ispi->info = info; ispi->writeable = info->writeable; ret = intel_spi_init(ispi); if (ret) return ERR_PTR(ret); ispi->nor.dev = ispi->dev; ispi->nor.priv = ispi; ispi->nor.read_reg = intel_spi_read_reg; ispi->nor.write_reg = intel_spi_write_reg; ispi->nor.read = intel_spi_read; ispi->nor.write = intel_spi_write; ispi->nor.erase = intel_spi_erase; ret = spi_nor_scan(&ispi->nor, NULL, SPI_NOR_NORMAL); if (ret) { dev_info(dev, "failed to locate the chip\n"); return ERR_PTR(ret); } intel_spi_fill_partition(ispi, &part); /* Prevent writes if not explicitly enabled */ if (!ispi->writeable || !writeable) ispi->nor.mtd.flags &= ~MTD_WRITEABLE; ret = mtd_device_parse_register(&ispi->nor.mtd, NULL, NULL, &part, 1); if (ret) return ERR_PTR(ret); return ispi; }

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EXPORT_SYMBOL_GPL(intel_spi_probe);
int intel_spi_remove(struct intel_spi *ispi) { return mtd_device_unregister(&ispi->nor.mtd); }

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Mika Westerberg21100.00%1100.00%
Total21100.00%1100.00%

EXPORT_SYMBOL_GPL(intel_spi_remove); MODULE_DESCRIPTION("Intel PCH/PCU SPI flash core driver"); MODULE_AUTHOR("Mika Westerberg <mika.westerberg@linux.intel.com>"); MODULE_LICENSE("GPL v2");

Overall Contributors

PersonTokensPropCommitsCommitProp
Mika Westerberg3525100.00%1100.00%
Total3525100.00%1100.00%
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