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author | Linus Torvalds <torvalds@linux-foundation.org> | 2020-08-09 21:38:51 +0200 |
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committer | Linus Torvalds <torvalds@linux-foundation.org> | 2020-08-09 21:38:51 +0200 |
commit | dec1fbbc1d7c46aed9fc1d3ee1f7f4fc04d6ed51 (patch) | |
tree | a2d88e9bb259c7866be2129dedf77a828ca8911a /drivers/memory | |
parent | thunderbolt: merge fix for kunix_resource changes (diff) | |
parent | Merge tag 'nand/for-5.9' of git://git.kernel.org/pub/scm/linux/kernel/git/mtd... (diff) | |
download | linux-dec1fbbc1d7c46aed9fc1d3ee1f7f4fc04d6ed51.tar.xz linux-dec1fbbc1d7c46aed9fc1d3ee1f7f4fc04d6ed51.zip |
Merge tag 'mtd/for-5.9' of git://git.kernel.org/pub/scm/linux/kernel/git/mtd/linux
Pull mtd updates from Miquel Raynal:
"MTD core changes:
- Spelling
- http to https updates
NAND core changes:
- Drop useless 'depends on' in Kconfig
- Add an extra level in the Kconfig hierarchy
- Trivial spellings
- Dynamic allocation of the interface configurations
- Dropping the default ONFI timing mode
- Various cleanup (types, structures, naming, comments)
- Hide the chip->data_interface indirection
- Add the generic rb-gpios property
- Add the ->choose_interface_config() hook
- Introduce nand_choose_best_sdr_timings()
- Use default values for tPROG_max and tBERS_max
- Avoid redefining tR_max and tCCS_min
- Add a helper to find the closest ONFI mode
- bcm63xx MTD parsers: simplify CFE detection
Raw NAND controller drivers changes:
- fsl-upm: Deprecation of specific DT properties
- fsl_upm: Driver rework and cleanup in favor of ->exec_op()
- Ingenic: Cleanup ARRAY_SIZE() vs sizeof() use
- brcmnand: ECC error handling on EDU transfers
- brcmnand: Don't default to EDU transfers
- qcom: Set BAM mode only if not set already
- qcom: Avoid write to unavailable register
- gpio: Driver rework in favor of ->exec_op()
- tango: ->exec_op() conversion
- mtk: ->exec_op() conversion
Raw NAND chip drivers changes:
- toshiba: Implement ->choose_interface_config() for TH58NVG2S3HBAI4,
TC58NVG0S3E, and TC58TEG5DCLTA00
- hynix: Implement ->choose_interface_config() for H27UCG8T2ATR-BC
SPI NOR core changes:
- Disable Quad Mode in spi_nor_restore().
- Don't abort BFPT parsing when QER reserved value is used.
- Add support/update capabilities for few flashes.
- Drop s70fl01gs flash: it does not support RDSR(05h) which is
critical for erase/write.
- Merge the SPIMEM DTR bits in spi-nor/next to avoid conflicts during
the release cycle.
SPI NOR controller drivers changes:
- Move the cadence-quadspi driver to spi-mem. The series was taken
through the SPI tree. Merge it also in spi-nor/next to avoid
conflicts during the release cycle.
- intel-spi:
- Add new PCI IDs.
- Ignore the Write Disable command, the controller doesn't support
it.
- Fix performance regression"
* tag 'mtd/for-5.9' of git://git.kernel.org/pub/scm/linux/kernel/git/mtd/linux: (79 commits)
MTD: pfow.h: drop a duplicated word
MTD: mtd-abi.h: drop a duplicated word
mtd: rawnand: omap_elm: Replace HTTP links with HTTPS ones
mtd: Replace HTTP links with HTTPS ones
mtd: hyperbus: Replace HTTP links with HTTPS ones
mtd: revert "spi-nor: intel: provide a range for poll_timout"
mtd: spi-nor: update read capabilities for w25q64 and s25fl064k
mtd: spi-nor: micron: Add SPI_NOR_DUAL_READ flag on mt25qu02g
mtd: spi-nor: macronix: Add support for mx66u2g45g
mtd: spi-nor: intel-spi: Simulate WRDI command
mtd: spi-nor: Disable the flash quad mode in spi_nor_restore()
mtd: spi-nor: Add capability to disable flash quad mode
mtd: spi-nor: spansion: Remove s70fl01gs from flash_info
mtd: spi-nor: sfdp: do not make invalid quad enable fatal
dt-bindings: mtd: fsl-upm-nand: Deprecate chip-delay and fsl, upm-wait-flags
mtd: rawnand: stm32_fmc2: get resources from parent node
mtd: rawnand: stm32_fmc2: use regmap APIs
memory: stm32-fmc2-ebi: add STM32 FMC2 EBI controller driver
dt-bindings: memory-controller: add STM32 FMC2 EBI controller documentation
dt-bindings: mtd: update STM32 FMC2 NAND controller documentation
...
Diffstat (limited to 'drivers/memory')
-rw-r--r-- | drivers/memory/Kconfig | 10 | ||||
-rw-r--r-- | drivers/memory/Makefile | 1 | ||||
-rw-r--r-- | drivers/memory/stm32-fmc2-ebi.c | 1206 |
3 files changed, 1217 insertions, 0 deletions
diff --git a/drivers/memory/Kconfig b/drivers/memory/Kconfig index 97440af499b0..2c79e95dd486 100644 --- a/drivers/memory/Kconfig +++ b/drivers/memory/Kconfig @@ -188,6 +188,16 @@ config RENESAS_RPCIF host or HyperFlash. You'll have to select individual components under the corresponding menu. +config STM32_FMC2_EBI + tristate "Support for FMC2 External Bus Interface on STM32MP SoCs" + depends on MACH_STM32MP157 || COMPILE_TEST + select MFD_SYSCON + help + Select this option to enable the STM32 FMC2 External Bus Interface + controller. This driver configures the transactions with external + devices (like SRAM, ethernet adapters, FPGAs, LCD displays, ...) on + SOCs containing the FMC2 External Bus Interface. + source "drivers/memory/samsung/Kconfig" source "drivers/memory/tegra/Kconfig" diff --git a/drivers/memory/Makefile b/drivers/memory/Makefile index d105f8ebe8b8..b4533ffff2bc 100644 --- a/drivers/memory/Makefile +++ b/drivers/memory/Makefile @@ -23,6 +23,7 @@ obj-$(CONFIG_MTK_SMI) += mtk-smi.o obj-$(CONFIG_DA8XX_DDRCTL) += da8xx-ddrctl.o obj-$(CONFIG_PL353_SMC) += pl353-smc.o obj-$(CONFIG_RENESAS_RPCIF) += renesas-rpc-if.o +obj-$(CONFIG_STM32_FMC2_EBI) += stm32-fmc2-ebi.o obj-$(CONFIG_SAMSUNG_MC) += samsung/ obj-$(CONFIG_TEGRA_MC) += tegra/ diff --git a/drivers/memory/stm32-fmc2-ebi.c b/drivers/memory/stm32-fmc2-ebi.c new file mode 100644 index 000000000000..4d5758c419c5 --- /dev/null +++ b/drivers/memory/stm32-fmc2-ebi.c @@ -0,0 +1,1206 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * Copyright (C) STMicroelectronics 2020 + */ + +#include <linux/bitfield.h> +#include <linux/clk.h> +#include <linux/mfd/syscon.h> +#include <linux/module.h> +#include <linux/of_platform.h> +#include <linux/pinctrl/consumer.h> +#include <linux/regmap.h> +#include <linux/reset.h> + +/* FMC2 Controller Registers */ +#define FMC2_BCR1 0x0 +#define FMC2_BTR1 0x4 +#define FMC2_BCR(x) ((x) * 0x8 + FMC2_BCR1) +#define FMC2_BTR(x) ((x) * 0x8 + FMC2_BTR1) +#define FMC2_PCSCNTR 0x20 +#define FMC2_BWTR1 0x104 +#define FMC2_BWTR(x) ((x) * 0x8 + FMC2_BWTR1) + +/* Register: FMC2_BCR1 */ +#define FMC2_BCR1_CCLKEN BIT(20) +#define FMC2_BCR1_FMC2EN BIT(31) + +/* Register: FMC2_BCRx */ +#define FMC2_BCR_MBKEN BIT(0) +#define FMC2_BCR_MUXEN BIT(1) +#define FMC2_BCR_MTYP GENMASK(3, 2) +#define FMC2_BCR_MWID GENMASK(5, 4) +#define FMC2_BCR_FACCEN BIT(6) +#define FMC2_BCR_BURSTEN BIT(8) +#define FMC2_BCR_WAITPOL BIT(9) +#define FMC2_BCR_WAITCFG BIT(11) +#define FMC2_BCR_WREN BIT(12) +#define FMC2_BCR_WAITEN BIT(13) +#define FMC2_BCR_EXTMOD BIT(14) +#define FMC2_BCR_ASYNCWAIT BIT(15) +#define FMC2_BCR_CPSIZE GENMASK(18, 16) +#define FMC2_BCR_CBURSTRW BIT(19) +#define FMC2_BCR_NBLSET GENMASK(23, 22) + +/* Register: FMC2_BTRx/FMC2_BWTRx */ +#define FMC2_BXTR_ADDSET GENMASK(3, 0) +#define FMC2_BXTR_ADDHLD GENMASK(7, 4) +#define FMC2_BXTR_DATAST GENMASK(15, 8) +#define FMC2_BXTR_BUSTURN GENMASK(19, 16) +#define FMC2_BTR_CLKDIV GENMASK(23, 20) +#define FMC2_BTR_DATLAT GENMASK(27, 24) +#define FMC2_BXTR_ACCMOD GENMASK(29, 28) +#define FMC2_BXTR_DATAHLD GENMASK(31, 30) + +/* Register: FMC2_PCSCNTR */ +#define FMC2_PCSCNTR_CSCOUNT GENMASK(15, 0) +#define FMC2_PCSCNTR_CNTBEN(x) BIT((x) + 16) + +#define FMC2_MAX_EBI_CE 4 +#define FMC2_MAX_BANKS 5 + +#define FMC2_BCR_CPSIZE_0 0x0 +#define FMC2_BCR_CPSIZE_128 0x1 +#define FMC2_BCR_CPSIZE_256 0x2 +#define FMC2_BCR_CPSIZE_512 0x3 +#define FMC2_BCR_CPSIZE_1024 0x4 + +#define FMC2_BCR_MWID_8 0x0 +#define FMC2_BCR_MWID_16 0x1 + +#define FMC2_BCR_MTYP_SRAM 0x0 +#define FMC2_BCR_MTYP_PSRAM 0x1 +#define FMC2_BCR_MTYP_NOR 0x2 + +#define FMC2_BXTR_EXTMOD_A 0x0 +#define FMC2_BXTR_EXTMOD_B 0x1 +#define FMC2_BXTR_EXTMOD_C 0x2 +#define FMC2_BXTR_EXTMOD_D 0x3 + +#define FMC2_BCR_NBLSET_MAX 0x3 +#define FMC2_BXTR_ADDSET_MAX 0xf +#define FMC2_BXTR_ADDHLD_MAX 0xf +#define FMC2_BXTR_DATAST_MAX 0xff +#define FMC2_BXTR_BUSTURN_MAX 0xf +#define FMC2_BXTR_DATAHLD_MAX 0x3 +#define FMC2_BTR_CLKDIV_MAX 0xf +#define FMC2_BTR_DATLAT_MAX 0xf +#define FMC2_PCSCNTR_CSCOUNT_MAX 0xff + +enum stm32_fmc2_ebi_bank { + FMC2_EBI1 = 0, + FMC2_EBI2, + FMC2_EBI3, + FMC2_EBI4, + FMC2_NAND +}; + +enum stm32_fmc2_ebi_register_type { + FMC2_REG_BCR = 1, + FMC2_REG_BTR, + FMC2_REG_BWTR, + FMC2_REG_PCSCNTR +}; + +enum stm32_fmc2_ebi_transaction_type { + FMC2_ASYNC_MODE_1_SRAM = 0, + FMC2_ASYNC_MODE_1_PSRAM, + FMC2_ASYNC_MODE_A_SRAM, + FMC2_ASYNC_MODE_A_PSRAM, + FMC2_ASYNC_MODE_2_NOR, + FMC2_ASYNC_MODE_B_NOR, + FMC2_ASYNC_MODE_C_NOR, + FMC2_ASYNC_MODE_D_NOR, + FMC2_SYNC_READ_SYNC_WRITE_PSRAM, + FMC2_SYNC_READ_ASYNC_WRITE_PSRAM, + FMC2_SYNC_READ_SYNC_WRITE_NOR, + FMC2_SYNC_READ_ASYNC_WRITE_NOR +}; + +enum stm32_fmc2_ebi_buswidth { + FMC2_BUSWIDTH_8 = 8, + FMC2_BUSWIDTH_16 = 16 +}; + +enum stm32_fmc2_ebi_cpsize { + FMC2_CPSIZE_0 = 0, + FMC2_CPSIZE_128 = 128, + FMC2_CPSIZE_256 = 256, + FMC2_CPSIZE_512 = 512, + FMC2_CPSIZE_1024 = 1024 +}; + +struct stm32_fmc2_ebi { + struct device *dev; + struct clk *clk; + struct regmap *regmap; + u8 bank_assigned; + + u32 bcr[FMC2_MAX_EBI_CE]; + u32 btr[FMC2_MAX_EBI_CE]; + u32 bwtr[FMC2_MAX_EBI_CE]; + u32 pcscntr; +}; + +/* + * struct stm32_fmc2_prop - STM32 FMC2 EBI property + * @name: the device tree binding name of the property + * @bprop: indicate that it is a boolean property + * @mprop: indicate that it is a mandatory property + * @reg_type: the register that have to be modified + * @reg_mask: the bit that have to be modified in the selected register + * in case of it is a boolean property + * @reset_val: the default value that have to be set in case the property + * has not been defined in the device tree + * @check: this callback ckecks that the property is compliant with the + * transaction type selected + * @calculate: this callback is called to calculate for exemple a timing + * set in nanoseconds in the device tree in clock cycles or in + * clock period + * @set: this callback applies the values in the registers + */ +struct stm32_fmc2_prop { + const char *name; + bool bprop; + bool mprop; + int reg_type; + u32 reg_mask; + u32 reset_val; + int (*check)(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, int cs); + u32 (*calculate)(struct stm32_fmc2_ebi *ebi, int cs, u32 setup); + int (*set)(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup); +}; + +static int stm32_fmc2_ebi_check_mux(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr; + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + + if (bcr & FMC2_BCR_MTYP) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_waitcfg(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr, val = FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + + if ((bcr & FMC2_BCR_MTYP) == val && bcr & FMC2_BCR_BURSTEN) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_sync_trans(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr; + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + + if (bcr & FMC2_BCR_BURSTEN) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_async_trans(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr; + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + + if (!(bcr & FMC2_BCR_BURSTEN) || !(bcr & FMC2_BCR_CBURSTRW)) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_cpsize(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr, val = FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_PSRAM); + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + + if ((bcr & FMC2_BCR_MTYP) == val && bcr & FMC2_BCR_BURSTEN) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_address_hold(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr, bxtr, val = FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_D); + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + if (prop->reg_type == FMC2_REG_BWTR) + regmap_read(ebi->regmap, FMC2_BWTR(cs), &bxtr); + else + regmap_read(ebi->regmap, FMC2_BTR(cs), &bxtr); + + if ((!(bcr & FMC2_BCR_BURSTEN) || !(bcr & FMC2_BCR_CBURSTRW)) && + ((bxtr & FMC2_BXTR_ACCMOD) == val || bcr & FMC2_BCR_MUXEN)) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_clk_period(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + u32 bcr, bcr1; + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + if (cs) + regmap_read(ebi->regmap, FMC2_BCR1, &bcr1); + else + bcr1 = bcr; + + if (bcr & FMC2_BCR_BURSTEN && (!cs || !(bcr1 & FMC2_BCR1_CCLKEN))) + return 0; + + return -EINVAL; +} + +static int stm32_fmc2_ebi_check_cclk(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs) +{ + if (cs) + return -EINVAL; + + return stm32_fmc2_ebi_check_sync_trans(ebi, prop, cs); +} + +static u32 stm32_fmc2_ebi_ns_to_clock_cycles(struct stm32_fmc2_ebi *ebi, + int cs, u32 setup) +{ + unsigned long hclk = clk_get_rate(ebi->clk); + unsigned long hclkp = NSEC_PER_SEC / (hclk / 1000); + + return DIV_ROUND_UP(setup * 1000, hclkp); +} + +static u32 stm32_fmc2_ebi_ns_to_clk_period(struct stm32_fmc2_ebi *ebi, + int cs, u32 setup) +{ + u32 nb_clk_cycles = stm32_fmc2_ebi_ns_to_clock_cycles(ebi, cs, setup); + u32 bcr, btr, clk_period; + + regmap_read(ebi->regmap, FMC2_BCR1, &bcr); + if (bcr & FMC2_BCR1_CCLKEN || !cs) + regmap_read(ebi->regmap, FMC2_BTR1, &btr); + else + regmap_read(ebi->regmap, FMC2_BTR(cs), &btr); + + clk_period = FIELD_GET(FMC2_BTR_CLKDIV, btr) + 1; + + return DIV_ROUND_UP(nb_clk_cycles, clk_period); +} + +static int stm32_fmc2_ebi_get_reg(int reg_type, int cs, u32 *reg) +{ + switch (reg_type) { + case FMC2_REG_BCR: + *reg = FMC2_BCR(cs); + break; + case FMC2_REG_BTR: + *reg = FMC2_BTR(cs); + break; + case FMC2_REG_BWTR: + *reg = FMC2_BWTR(cs); + break; + case FMC2_REG_PCSCNTR: + *reg = FMC2_PCSCNTR; + break; + default: + return -EINVAL; + } + + return 0; +} + +static int stm32_fmc2_ebi_set_bit_field(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 reg; + int ret; + + ret = stm32_fmc2_ebi_get_reg(prop->reg_type, cs, ®); + if (ret) + return ret; + + regmap_update_bits(ebi->regmap, reg, prop->reg_mask, + setup ? prop->reg_mask : 0); + + return 0; +} + +static int stm32_fmc2_ebi_set_trans_type(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 bcr_mask, bcr = FMC2_BCR_WREN; + u32 btr_mask, btr = 0; + u32 bwtr_mask, bwtr = 0; + + bwtr_mask = FMC2_BXTR_ACCMOD; + btr_mask = FMC2_BXTR_ACCMOD; + bcr_mask = FMC2_BCR_MUXEN | FMC2_BCR_MTYP | FMC2_BCR_FACCEN | + FMC2_BCR_WREN | FMC2_BCR_WAITEN | FMC2_BCR_BURSTEN | + FMC2_BCR_EXTMOD | FMC2_BCR_CBURSTRW; + + switch (setup) { + case FMC2_ASYNC_MODE_1_SRAM: + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_SRAM); + /* + * MUXEN = 0, MTYP = 0, FACCEN = 0, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 0, ACCMOD = 0 + */ + break; + case FMC2_ASYNC_MODE_1_PSRAM: + /* + * MUXEN = 0, MTYP = 1, FACCEN = 0, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 0, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_PSRAM); + break; + case FMC2_ASYNC_MODE_A_SRAM: + /* + * MUXEN = 0, MTYP = 0, FACCEN = 0, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 1, CBURSTRW = 0, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_SRAM); + bcr |= FMC2_BCR_EXTMOD; + btr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_A); + bwtr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_A); + break; + case FMC2_ASYNC_MODE_A_PSRAM: + /* + * MUXEN = 0, MTYP = 1, FACCEN = 0, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 1, CBURSTRW = 0, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_PSRAM); + bcr |= FMC2_BCR_EXTMOD; + btr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_A); + bwtr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_A); + break; + case FMC2_ASYNC_MODE_2_NOR: + /* + * MUXEN = 0, MTYP = 2, FACCEN = 1, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 0, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + bcr |= FMC2_BCR_FACCEN; + break; + case FMC2_ASYNC_MODE_B_NOR: + /* + * MUXEN = 0, MTYP = 2, FACCEN = 1, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 1, CBURSTRW = 0, ACCMOD = 1 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + bcr |= FMC2_BCR_FACCEN | FMC2_BCR_EXTMOD; + btr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_B); + bwtr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_B); + break; + case FMC2_ASYNC_MODE_C_NOR: + /* + * MUXEN = 0, MTYP = 2, FACCEN = 1, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 1, CBURSTRW = 0, ACCMOD = 2 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + bcr |= FMC2_BCR_FACCEN | FMC2_BCR_EXTMOD; + btr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_C); + bwtr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_C); + break; + case FMC2_ASYNC_MODE_D_NOR: + /* + * MUXEN = 0, MTYP = 2, FACCEN = 1, BURSTEN = 0, WAITEN = 0, + * WREN = 1, EXTMOD = 1, CBURSTRW = 0, ACCMOD = 3 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + bcr |= FMC2_BCR_FACCEN | FMC2_BCR_EXTMOD; + btr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_D); + bwtr |= FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_D); + break; + case FMC2_SYNC_READ_SYNC_WRITE_PSRAM: + /* + * MUXEN = 0, MTYP = 1, FACCEN = 0, BURSTEN = 1, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 1, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_PSRAM); + bcr |= FMC2_BCR_BURSTEN | FMC2_BCR_CBURSTRW; + break; + case FMC2_SYNC_READ_ASYNC_WRITE_PSRAM: + /* + * MUXEN = 0, MTYP = 1, FACCEN = 0, BURSTEN = 1, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 0, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_PSRAM); + bcr |= FMC2_BCR_BURSTEN; + break; + case FMC2_SYNC_READ_SYNC_WRITE_NOR: + /* + * MUXEN = 0, MTYP = 2, FACCEN = 1, BURSTEN = 1, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 1, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + bcr |= FMC2_BCR_FACCEN | FMC2_BCR_BURSTEN | FMC2_BCR_CBURSTRW; + break; + case FMC2_SYNC_READ_ASYNC_WRITE_NOR: + /* + * MUXEN = 0, MTYP = 2, FACCEN = 1, BURSTEN = 1, WAITEN = 0, + * WREN = 1, EXTMOD = 0, CBURSTRW = 0, ACCMOD = 0 + */ + bcr |= FIELD_PREP(FMC2_BCR_MTYP, FMC2_BCR_MTYP_NOR); + bcr |= FMC2_BCR_FACCEN | FMC2_BCR_BURSTEN; + break; + default: + /* Type of transaction not supported */ + return -EINVAL; + } + + if (bcr & FMC2_BCR_EXTMOD) + regmap_update_bits(ebi->regmap, FMC2_BWTR(cs), + bwtr_mask, bwtr); + regmap_update_bits(ebi->regmap, FMC2_BTR(cs), btr_mask, btr); + regmap_update_bits(ebi->regmap, FMC2_BCR(cs), bcr_mask, bcr); + + return 0; +} + +static int stm32_fmc2_ebi_set_buswidth(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val; + + switch (setup) { + case FMC2_BUSWIDTH_8: + val = FIELD_PREP(FMC2_BCR_MWID, FMC2_BCR_MWID_8); + break; + case FMC2_BUSWIDTH_16: + val = FIELD_PREP(FMC2_BCR_MWID, FMC2_BCR_MWID_16); + break; + default: + /* Buswidth not supported */ + return -EINVAL; + } + + regmap_update_bits(ebi->regmap, FMC2_BCR(cs), FMC2_BCR_MWID, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_cpsize(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val; + + switch (setup) { + case FMC2_CPSIZE_0: + val = FIELD_PREP(FMC2_BCR_CPSIZE, FMC2_BCR_CPSIZE_0); + break; + case FMC2_CPSIZE_128: + val = FIELD_PREP(FMC2_BCR_CPSIZE, FMC2_BCR_CPSIZE_128); + break; + case FMC2_CPSIZE_256: + val = FIELD_PREP(FMC2_BCR_CPSIZE, FMC2_BCR_CPSIZE_256); + break; + case FMC2_CPSIZE_512: + val = FIELD_PREP(FMC2_BCR_CPSIZE, FMC2_BCR_CPSIZE_512); + break; + case FMC2_CPSIZE_1024: + val = FIELD_PREP(FMC2_BCR_CPSIZE, FMC2_BCR_CPSIZE_1024); + break; + default: + /* Cpsize not supported */ + return -EINVAL; + } + + regmap_update_bits(ebi->regmap, FMC2_BCR(cs), FMC2_BCR_CPSIZE, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_bl_setup(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val; + + val = min_t(u32, setup, FMC2_BCR_NBLSET_MAX); + val = FIELD_PREP(FMC2_BCR_NBLSET, val); + regmap_update_bits(ebi->regmap, FMC2_BCR(cs), FMC2_BCR_NBLSET, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_address_setup(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 bcr, bxtr, reg; + u32 val = FIELD_PREP(FMC2_BXTR_ACCMOD, FMC2_BXTR_EXTMOD_D); + int ret; + + ret = stm32_fmc2_ebi_get_reg(prop->reg_type, cs, ®); + if (ret) + return ret; + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + if (prop->reg_type == FMC2_REG_BWTR) + regmap_read(ebi->regmap, FMC2_BWTR(cs), &bxtr); + else + regmap_read(ebi->regmap, FMC2_BTR(cs), &bxtr); + + if ((bxtr & FMC2_BXTR_ACCMOD) == val || bcr & FMC2_BCR_MUXEN) + val = clamp_val(setup, 1, FMC2_BXTR_ADDSET_MAX); + else + val = min_t(u32, setup, FMC2_BXTR_ADDSET_MAX); + val = FIELD_PREP(FMC2_BXTR_ADDSET, val); + regmap_update_bits(ebi->regmap, reg, FMC2_BXTR_ADDSET, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_address_hold(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val, reg; + int ret; + + ret = stm32_fmc2_ebi_get_reg(prop->reg_type, cs, ®); + if (ret) + return ret; + + val = clamp_val(setup, 1, FMC2_BXTR_ADDHLD_MAX); + val = FIELD_PREP(FMC2_BXTR_ADDHLD, val); + regmap_update_bits(ebi->regmap, reg, FMC2_BXTR_ADDHLD, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_data_setup(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val, reg; + int ret; + + ret = stm32_fmc2_ebi_get_reg(prop->reg_type, cs, ®); + if (ret) + return ret; + + val = clamp_val(setup, 1, FMC2_BXTR_DATAST_MAX); + val = FIELD_PREP(FMC2_BXTR_DATAST, val); + regmap_update_bits(ebi->regmap, reg, FMC2_BXTR_DATAST, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_bus_turnaround(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val, reg; + int ret; + + ret = stm32_fmc2_ebi_get_reg(prop->reg_type, cs, ®); + if (ret) + return ret; + + val = setup ? min_t(u32, setup - 1, FMC2_BXTR_BUSTURN_MAX) : 0; + val = FIELD_PREP(FMC2_BXTR_BUSTURN, val); + regmap_update_bits(ebi->regmap, reg, FMC2_BXTR_BUSTURN, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_data_hold(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val, reg; + int ret; + + ret = stm32_fmc2_ebi_get_reg(prop->reg_type, cs, ®); + if (ret) + return ret; + + if (prop->reg_type == FMC2_REG_BWTR) + val = setup ? min_t(u32, setup - 1, FMC2_BXTR_DATAHLD_MAX) : 0; + else + val = min_t(u32, setup, FMC2_BXTR_DATAHLD_MAX); + val = FIELD_PREP(FMC2_BXTR_DATAHLD, val); + regmap_update_bits(ebi->regmap, reg, FMC2_BXTR_DATAHLD, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_clk_period(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val; + + val = setup ? clamp_val(setup - 1, 1, FMC2_BTR_CLKDIV_MAX) : 1; + val = FIELD_PREP(FMC2_BTR_CLKDIV, val); + regmap_update_bits(ebi->regmap, FMC2_BTR(cs), FMC2_BTR_CLKDIV, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_data_latency(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 val; + + val = setup > 1 ? min_t(u32, setup - 2, FMC2_BTR_DATLAT_MAX) : 0; + val = FIELD_PREP(FMC2_BTR_DATLAT, val); + regmap_update_bits(ebi->regmap, FMC2_BTR(cs), FMC2_BTR_DATLAT, val); + + return 0; +} + +static int stm32_fmc2_ebi_set_max_low_pulse(struct stm32_fmc2_ebi *ebi, + const struct stm32_fmc2_prop *prop, + int cs, u32 setup) +{ + u32 old_val, new_val, pcscntr; + + if (setup < 1) + return 0; + + regmap_read(ebi->regmap, FMC2_PCSCNTR, &pcscntr); + + /* Enable counter for the bank */ + regmap_update_bits(ebi->regmap, FMC2_PCSCNTR, + FMC2_PCSCNTR_CNTBEN(cs), + FMC2_PCSCNTR_CNTBEN(cs)); + + new_val = min_t(u32, setup - 1, FMC2_PCSCNTR_CSCOUNT_MAX); + old_val = FIELD_GET(FMC2_PCSCNTR_CSCOUNT, pcscntr); + if (old_val && new_val > old_val) + /* Keep current counter value */ + return 0; + + new_val = FIELD_PREP(FMC2_PCSCNTR_CSCOUNT, new_val); + regmap_update_bits(ebi->regmap, FMC2_PCSCNTR, + FMC2_PCSCNTR_CSCOUNT, new_val); + + return 0; +} + +static const struct stm32_fmc2_prop stm32_fmc2_child_props[] = { + /* st,fmc2-ebi-cs-trans-type must be the first property */ + { + .name = "st,fmc2-ebi-cs-transaction-type", + .mprop = true, + .set = stm32_fmc2_ebi_set_trans_type, + }, + { + .name = "st,fmc2-ebi-cs-cclk-enable", + .bprop = true, + .reg_type = FMC2_REG_BCR, + .reg_mask = FMC2_BCR1_CCLKEN, + .check = stm32_fmc2_ebi_check_cclk, + .set = stm32_fmc2_ebi_set_bit_field, + }, + { + .name = "st,fmc2-ebi-cs-mux-enable", + .bprop = true, + .reg_type = FMC2_REG_BCR, + .reg_mask = FMC2_BCR_MUXEN, + .check = stm32_fmc2_ebi_check_mux, + .set = stm32_fmc2_ebi_set_bit_field, + }, + { + .name = "st,fmc2-ebi-cs-buswidth", + .reset_val = FMC2_BUSWIDTH_16, + .set = stm32_fmc2_ebi_set_buswidth, + }, + { + .name = "st,fmc2-ebi-cs-waitpol-high", + .bprop = true, + .reg_type = FMC2_REG_BCR, + .reg_mask = FMC2_BCR_WAITPOL, + .set = stm32_fmc2_ebi_set_bit_field, + }, + { + .name = "st,fmc2-ebi-cs-waitcfg-enable", + .bprop = true, + .reg_type = FMC2_REG_BCR, + .reg_mask = FMC2_BCR_WAITCFG, + .check = stm32_fmc2_ebi_check_waitcfg, + .set = stm32_fmc2_ebi_set_bit_field, + }, + { + .name = "st,fmc2-ebi-cs-wait-enable", + .bprop = true, + .reg_type = FMC2_REG_BCR, + .reg_mask = FMC2_BCR_WAITEN, + .check = stm32_fmc2_ebi_check_sync_trans, + .set = stm32_fmc2_ebi_set_bit_field, + }, + { + .name = "st,fmc2-ebi-cs-asyncwait-enable", + .bprop = true, + .reg_type = FMC2_REG_BCR, + .reg_mask = FMC2_BCR_ASYNCWAIT, + .check = stm32_fmc2_ebi_check_async_trans, + .set = stm32_fmc2_ebi_set_bit_field, + }, + { + .name = "st,fmc2-ebi-cs-cpsize", + .check = stm32_fmc2_ebi_check_cpsize, + .set = stm32_fmc2_ebi_set_cpsize, + }, + { + .name = "st,fmc2-ebi-cs-byte-lane-setup-ns", + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_bl_setup, + }, + { + .name = "st,fmc2-ebi-cs-address-setup-ns", + .reg_type = FMC2_REG_BTR, + .reset_val = FMC2_BXTR_ADDSET_MAX, + .check = stm32_fmc2_ebi_check_async_trans, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_address_setup, + }, + { + .name = "st,fmc2-ebi-cs-address-hold-ns", + .reg_type = FMC2_REG_BTR, + .reset_val = FMC2_BXTR_ADDHLD_MAX, + .check = stm32_fmc2_ebi_check_address_hold, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_address_hold, + }, + { + .name = "st,fmc2-ebi-cs-data-setup-ns", + .reg_type = FMC2_REG_BTR, + .reset_val = FMC2_BXTR_DATAST_MAX, + .check = stm32_fmc2_ebi_check_async_trans, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_data_setup, + }, + { + .name = "st,fmc2-ebi-cs-bus-turnaround-ns", + .reg_type = FMC2_REG_BTR, + .reset_val = FMC2_BXTR_BUSTURN_MAX + 1, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_bus_turnaround, + }, + { + .name = "st,fmc2-ebi-cs-data-hold-ns", + .reg_type = FMC2_REG_BTR, + .check = stm32_fmc2_ebi_check_async_trans, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_data_hold, + }, + { + .name = "st,fmc2-ebi-cs-clk-period-ns", + .reset_val = FMC2_BTR_CLKDIV_MAX + 1, + .check = stm32_fmc2_ebi_check_clk_period, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_clk_period, + }, + { + .name = "st,fmc2-ebi-cs-data-latency-ns", + .check = stm32_fmc2_ebi_check_sync_trans, + .calculate = stm32_fmc2_ebi_ns_to_clk_period, + .set = stm32_fmc2_ebi_set_data_latency, + }, + { + .name = "st,fmc2-ebi-cs-write-address-setup-ns", + .reg_type = FMC2_REG_BWTR, + .reset_val = FMC2_BXTR_ADDSET_MAX, + .check = stm32_fmc2_ebi_check_async_trans, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_address_setup, + }, + { + .name = "st,fmc2-ebi-cs-write-address-hold-ns", + .reg_type = FMC2_REG_BWTR, + .reset_val = FMC2_BXTR_ADDHLD_MAX, + .check = stm32_fmc2_ebi_check_address_hold, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_address_hold, + }, + { + .name = "st,fmc2-ebi-cs-write-data-setup-ns", + .reg_type = FMC2_REG_BWTR, + .reset_val = FMC2_BXTR_DATAST_MAX, + .check = stm32_fmc2_ebi_check_async_trans, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_data_setup, + }, + { + .name = "st,fmc2-ebi-cs-write-bus-turnaround-ns", + .reg_type = FMC2_REG_BWTR, + .reset_val = FMC2_BXTR_BUSTURN_MAX + 1, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_bus_turnaround, + }, + { + .name = "st,fmc2-ebi-cs-write-data-hold-ns", + .reg_type = FMC2_REG_BWTR, + .check = stm32_fmc2_ebi_check_async_trans, + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_data_hold, + }, + { + .name = "st,fmc2-ebi-cs-max-low-pulse-ns", + .calculate = stm32_fmc2_ebi_ns_to_clock_cycles, + .set = stm32_fmc2_ebi_set_max_low_pulse, + }, +}; + +static int stm32_fmc2_ebi_parse_prop(struct stm32_fmc2_ebi *ebi, + struct device_node *dev_node, + const struct stm32_fmc2_prop *prop, + int cs) +{ + struct device *dev = ebi->dev; + u32 setup = 0; + + if (!prop->set) { + dev_err(dev, "property %s is not well defined\n", prop->name); + return -EINVAL; + } + + if (prop->check && prop->check(ebi, prop, cs)) + /* Skeep this property */ + return 0; + + if (prop->bprop) { + bool bprop; + + bprop = of_property_read_bool(dev_node, prop->name); + if (prop->mprop && !bprop) { + dev_err(dev, "mandatory property %s not defined in the device tree\n", + prop->name); + return -EINVAL; + } + + if (bprop) + setup = 1; + } else { + u32 val; + int ret; + + ret = of_property_read_u32(dev_node, prop->name, &val); + if (prop->mprop && ret) { + dev_err(dev, "mandatory property %s not defined in the device tree\n", + prop->name); + return ret; + } + + if (ret) + setup = prop->reset_val; + else if (prop->calculate) + setup = prop->calculate(ebi, cs, val); + else + setup = val; + } + + return prop->set(ebi, prop, cs, setup); +} + +static void stm32_fmc2_ebi_enable_bank(struct stm32_fmc2_ebi *ebi, int cs) +{ + regmap_update_bits(ebi->regmap, FMC2_BCR(cs), + FMC2_BCR_MBKEN, FMC2_BCR_MBKEN); +} + +static void stm32_fmc2_ebi_disable_bank(struct stm32_fmc2_ebi *ebi, int cs) +{ + regmap_update_bits(ebi->regmap, FMC2_BCR(cs), FMC2_BCR_MBKEN, 0); +} + +static void stm32_fmc2_ebi_save_setup(struct stm32_fmc2_ebi *ebi) +{ + unsigned int cs; + + for (cs = 0; cs < FMC2_MAX_EBI_CE; cs++) { + regmap_read(ebi->regmap, FMC2_BCR(cs), &ebi->bcr[cs]); + regmap_read(ebi->regmap, FMC2_BTR(cs), &ebi->btr[cs]); + regmap_read(ebi->regmap, FMC2_BWTR(cs), &ebi->bwtr[cs]); + } + + regmap_read(ebi->regmap, FMC2_PCSCNTR, &ebi->pcscntr); +} + +static void stm32_fmc2_ebi_set_setup(struct stm32_fmc2_ebi *ebi) +{ + unsigned int cs; + + for (cs = 0; cs < FMC2_MAX_EBI_CE; cs++) { + regmap_write(ebi->regmap, FMC2_BCR(cs), ebi->bcr[cs]); + regmap_write(ebi->regmap, FMC2_BTR(cs), ebi->btr[cs]); + regmap_write(ebi->regmap, FMC2_BWTR(cs), ebi->bwtr[cs]); + } + + regmap_write(ebi->regmap, FMC2_PCSCNTR, ebi->pcscntr); +} + +static void stm32_fmc2_ebi_disable_banks(struct stm32_fmc2_ebi *ebi) +{ + unsigned int cs; + + for (cs = 0; cs < FMC2_MAX_EBI_CE; cs++) { + if (!(ebi->bank_assigned & BIT(cs))) + continue; + + stm32_fmc2_ebi_disable_bank(ebi, cs); + } +} + +/* NWAIT signal can not be connected to EBI controller and NAND controller */ +static bool stm32_fmc2_ebi_nwait_used_by_ctrls(struct stm32_fmc2_ebi *ebi) +{ + unsigned int cs; + u32 bcr; + + for (cs = 0; cs < FMC2_MAX_EBI_CE; cs++) { + if (!(ebi->bank_assigned & BIT(cs))) + continue; + + regmap_read(ebi->regmap, FMC2_BCR(cs), &bcr); + if ((bcr & FMC2_BCR_WAITEN || bcr & FMC2_BCR_ASYNCWAIT) && + ebi->bank_assigned & BIT(FMC2_NAND)) + return true; + } + + return false; +} + +static void stm32_fmc2_ebi_enable(struct stm32_fmc2_ebi *ebi) +{ + regmap_update_bits(ebi->regmap, FMC2_BCR1, + FMC2_BCR1_FMC2EN, FMC2_BCR1_FMC2EN); +} + +static void stm32_fmc2_ebi_disable(struct stm32_fmc2_ebi *ebi) +{ + regmap_update_bits(ebi->regmap, FMC2_BCR1, FMC2_BCR1_FMC2EN, 0); +} + +static int stm32_fmc2_ebi_setup_cs(struct stm32_fmc2_ebi *ebi, + struct device_node *dev_node, + u32 cs) +{ + unsigned int i; + int ret; + + stm32_fmc2_ebi_disable_bank(ebi, cs); + + for (i = 0; i < ARRAY_SIZE(stm32_fmc2_child_props); i++) { + const struct stm32_fmc2_prop *p = &stm32_fmc2_child_props[i]; + + ret = stm32_fmc2_ebi_parse_prop(ebi, dev_node, p, cs); + if (ret) { + dev_err(ebi->dev, "property %s could not be set: %d\n", + p->name, ret); + return ret; + } + } + + stm32_fmc2_ebi_enable_bank(ebi, cs); + + return 0; +} + +static int stm32_fmc2_ebi_parse_dt(struct stm32_fmc2_ebi *ebi) +{ + struct device *dev = ebi->dev; + struct device_node *child; + bool child_found = false; + u32 bank; + int ret; + + for_each_available_child_of_node(dev->of_node, child) { + ret = of_property_read_u32(child, "reg", &bank); + if (ret) { + dev_err(dev, "could not retrieve reg property: %d\n", + ret); + return ret; + } + + if (bank >= FMC2_MAX_BANKS) { + dev_err(dev, "invalid reg value: %d\n", bank); + return -EINVAL; + } + + if (ebi->bank_assigned & BIT(bank)) { + dev_err(dev, "bank already assigned: %d\n", bank); + return -EINVAL; + } + + if (bank < FMC2_MAX_EBI_CE) { + ret = stm32_fmc2_ebi_setup_cs(ebi, child, bank); + if (ret) { + dev_err(dev, "setup chip select %d failed: %d\n", + bank, ret); + return ret; + } + } + + ebi->bank_assigned |= BIT(bank); + child_found = true; + } + + if (!child_found) { + dev_warn(dev, "no subnodes found, disable the driver.\n"); + return -ENODEV; + } + + if (stm32_fmc2_ebi_nwait_used_by_ctrls(ebi)) { + dev_err(dev, "NWAIT signal connected to EBI and NAND controllers\n"); + return -EINVAL; + } + + stm32_fmc2_ebi_enable(ebi); + + return of_platform_populate(dev->of_node, NULL, NULL, dev); +} + +static int stm32_fmc2_ebi_probe(struct platform_device *pdev) +{ + struct device *dev = &pdev->dev; + struct stm32_fmc2_ebi *ebi; + struct reset_control *rstc; + int ret; + + ebi = devm_kzalloc(&pdev->dev, sizeof(*ebi), GFP_KERNEL); + if (!ebi) + return -ENOMEM; + + ebi->dev = dev; + + ebi->regmap = device_node_to_regmap(dev->of_node); + if (IS_ERR(ebi->regmap)) + return PTR_ERR(ebi->regmap); + + ebi->clk = devm_clk_get(dev, NULL); + if (IS_ERR(ebi->clk)) + return PTR_ERR(ebi->clk); + + rstc = devm_reset_control_get(dev, NULL); + if (PTR_ERR(rstc) == -EPROBE_DEFER) + return -EPROBE_DEFER; + + ret = clk_prepare_enable(ebi->clk); + if (ret) + return ret; + + if (!IS_ERR(rstc)) { + reset_control_assert(rstc); + reset_control_deassert(rstc); + } + + ret = stm32_fmc2_ebi_parse_dt(ebi); + if (ret) + goto err_release; + + stm32_fmc2_ebi_save_setup(ebi); + platform_set_drvdata(pdev, ebi); + + return 0; + +err_release: + stm32_fmc2_ebi_disable_banks(ebi); + stm32_fmc2_ebi_disable(ebi); + clk_disable_unprepare(ebi->clk); + + return ret; +} + +static int stm32_fmc2_ebi_remove(struct platform_device *pdev) +{ + struct stm32_fmc2_ebi *ebi = platform_get_drvdata(pdev); + + of_platform_depopulate(&pdev->dev); + stm32_fmc2_ebi_disable_banks(ebi); + stm32_fmc2_ebi_disable(ebi); + clk_disable_unprepare(ebi->clk); + + return 0; +} + +static int __maybe_unused stm32_fmc2_ebi_suspend(struct device *dev) +{ + struct stm32_fmc2_ebi *ebi = dev_get_drvdata(dev); + + stm32_fmc2_ebi_disable(ebi); + clk_disable_unprepare(ebi->clk); + pinctrl_pm_select_sleep_state(dev); + + return 0; +} + +static int __maybe_unused stm32_fmc2_ebi_resume(struct device *dev) +{ + struct stm32_fmc2_ebi *ebi = dev_get_drvdata(dev); + int ret; + + pinctrl_pm_select_default_state(dev); + + ret = clk_prepare_enable(ebi->clk); + if (ret) + return ret; + + stm32_fmc2_ebi_set_setup(ebi); + stm32_fmc2_ebi_enable(ebi); + + return 0; +} + +static SIMPLE_DEV_PM_OPS(stm32_fmc2_ebi_pm_ops, stm32_fmc2_ebi_suspend, + stm32_fmc2_ebi_resume); + +static const struct of_device_id stm32_fmc2_ebi_match[] = { + {.compatible = "st,stm32mp1-fmc2-ebi"}, + {} +}; +MODULE_DEVICE_TABLE(of, stm32_fmc2_ebi_match); + +static struct platform_driver stm32_fmc2_ebi_driver = { + .probe = stm32_fmc2_ebi_probe, + .remove = stm32_fmc2_ebi_remove, + .driver = { + .name = "stm32_fmc2_ebi", + .of_match_table = stm32_fmc2_ebi_match, + .pm = &stm32_fmc2_ebi_pm_ops, + }, +}; +module_platform_driver(stm32_fmc2_ebi_driver); + +MODULE_ALIAS("platform:stm32_fmc2_ebi"); +MODULE_AUTHOR("Christophe Kerello <christophe.kerello@st.com>"); +MODULE_DESCRIPTION("STMicroelectronics STM32 FMC2 ebi driver"); +MODULE_LICENSE("GPL v2"); |