Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Colin Foster | 1015 | 99.32% | 1 | 50.00% |
Yang Yingliang | 7 | 0.68% | 1 | 50.00% |
Total | 1022 | 2 |
// SPDX-License-Identifier: (GPL-2.0 OR MIT) /* * SPI core driver for the Ocelot chip family. * * This driver will handle everything necessary to allow for communication over * SPI to the VSC7511, VSC7512, VSC7513 and VSC7514 chips. The main functions * are to prepare the chip's SPI interface for a specific bus speed, and a host * processor's endianness. This will create and distribute regmaps for any * children. * * Copyright 2021-2022 Innovative Advantage Inc. * * Author: Colin Foster <colin.foster@in-advantage.com> */ #include <linux/device.h> #include <linux/err.h> #include <linux/errno.h> #include <linux/export.h> #include <linux/ioport.h> #include <linux/mod_devicetable.h> #include <linux/module.h> #include <linux/regmap.h> #include <linux/spi/spi.h> #include <linux/types.h> #include <linux/units.h> #include "ocelot.h" #define REG_DEV_CPUORG_IF_CTRL 0x0000 #define REG_DEV_CPUORG_IF_CFGSTAT 0x0004 #define CFGSTAT_IF_NUM_VCORE (0 << 24) #define CFGSTAT_IF_NUM_VRAP (1 << 24) #define CFGSTAT_IF_NUM_SI (2 << 24) #define CFGSTAT_IF_NUM_MIIM (3 << 24) #define VSC7512_DEVCPU_ORG_RES_START 0x71000000 #define VSC7512_DEVCPU_ORG_RES_SIZE 0x38 #define VSC7512_CHIP_REGS_RES_START 0x71070000 #define VSC7512_CHIP_REGS_RES_SIZE 0x14 static const struct resource vsc7512_dev_cpuorg_resource = DEFINE_RES_REG_NAMED(VSC7512_DEVCPU_ORG_RES_START, VSC7512_DEVCPU_ORG_RES_SIZE, "devcpu_org"); static const struct resource vsc7512_gcb_resource = DEFINE_RES_REG_NAMED(VSC7512_CHIP_REGS_RES_START, VSC7512_CHIP_REGS_RES_SIZE, "devcpu_gcb_chip_regs"); static int ocelot_spi_initialize(struct device *dev) { struct ocelot_ddata *ddata = dev_get_drvdata(dev); u32 val, check; int err; val = OCELOT_SPI_BYTE_ORDER; /* * The SPI address must be big-endian, but we want the payload to match * our CPU. These are two bits (0 and 1) but they're repeated such that * the write from any configuration will be valid. The four * configurations are: * * 0b00: little-endian, MSB first * | 111111 | 22221111 | 33222222 | * | 76543210 | 54321098 | 32109876 | 10987654 | * * 0b01: big-endian, MSB first * | 33222222 | 22221111 | 111111 | | * | 10987654 | 32109876 | 54321098 | 76543210 | * * 0b10: little-endian, LSB first * | 111111 | 11112222 | 22222233 | * | 01234567 | 89012345 | 67890123 | 45678901 | * * 0b11: big-endian, LSB first * | 22222233 | 11112222 | 111111 | | * | 45678901 | 67890123 | 89012345 | 01234567 | */ err = regmap_write(ddata->cpuorg_regmap, REG_DEV_CPUORG_IF_CTRL, val); if (err) return err; /* * Apply the number of padding bytes between a read request and the data * payload. Some registers have access times of up to 1us, so if the * first payload bit is shifted out too quickly, the read will fail. */ val = ddata->spi_padding_bytes; err = regmap_write(ddata->cpuorg_regmap, REG_DEV_CPUORG_IF_CFGSTAT, val); if (err) return err; /* * After we write the interface configuration, read it back here. This * will verify several different things. The first is that the number of * padding bytes actually got written correctly. These are found in bits * 0:3. * * The second is that bit 16 is cleared. Bit 16 is IF_CFGSTAT:IF_STAT, * and will be set if the register access is too fast. This would be in * the condition that the number of padding bytes is insufficient for * the SPI bus frequency. * * The last check is for bits 31:24, which define the interface by which * the registers are being accessed. Since we're accessing them via the * serial interface, it must return IF_NUM_SI. */ check = val | CFGSTAT_IF_NUM_SI; err = regmap_read(ddata->cpuorg_regmap, REG_DEV_CPUORG_IF_CFGSTAT, &val); if (err) return err; if (check != val) return -ENODEV; return 0; } static const struct regmap_config ocelot_spi_regmap_config = { .reg_bits = 24, .reg_stride = 4, .reg_downshift = 2, .val_bits = 32, .write_flag_mask = 0x80, .use_single_write = true, .can_multi_write = false, .reg_format_endian = REGMAP_ENDIAN_BIG, .val_format_endian = REGMAP_ENDIAN_NATIVE, }; static int ocelot_spi_regmap_bus_read(void *context, const void *reg, size_t reg_size, void *val, size_t val_size) { struct spi_transfer xfers[3] = {0}; struct device *dev = context; struct ocelot_ddata *ddata; struct spi_device *spi; struct spi_message msg; unsigned int index = 0; ddata = dev_get_drvdata(dev); spi = to_spi_device(dev); xfers[index].tx_buf = reg; xfers[index].len = reg_size; index++; if (ddata->spi_padding_bytes) { xfers[index].len = ddata->spi_padding_bytes; xfers[index].tx_buf = ddata->dummy_buf; xfers[index].dummy_data = 1; index++; } xfers[index].rx_buf = val; xfers[index].len = val_size; index++; spi_message_init_with_transfers(&msg, xfers, index); return spi_sync(spi, &msg); } static int ocelot_spi_regmap_bus_write(void *context, const void *data, size_t count) { struct device *dev = context; struct spi_device *spi = to_spi_device(dev); return spi_write(spi, data, count); } static const struct regmap_bus ocelot_spi_regmap_bus = { .write = ocelot_spi_regmap_bus_write, .read = ocelot_spi_regmap_bus_read, }; struct regmap *ocelot_spi_init_regmap(struct device *dev, const struct resource *res) { struct regmap_config regmap_config; memcpy(®map_config, &ocelot_spi_regmap_config, sizeof(regmap_config)); regmap_config.name = res->name; regmap_config.max_register = resource_size(res) - 1; regmap_config.reg_base = res->start; return devm_regmap_init(dev, &ocelot_spi_regmap_bus, dev, ®map_config); } EXPORT_SYMBOL_NS(ocelot_spi_init_regmap, MFD_OCELOT_SPI); static int ocelot_spi_probe(struct spi_device *spi) { struct device *dev = &spi->dev; struct ocelot_ddata *ddata; struct regmap *r; int err; ddata = devm_kzalloc(dev, sizeof(*ddata), GFP_KERNEL); if (!ddata) return -ENOMEM; spi_set_drvdata(spi, ddata); if (spi->max_speed_hz <= 500000) { ddata->spi_padding_bytes = 0; } else { /* * Calculation taken from the manual for IF_CFGSTAT:IF_CFG. * Register access time is 1us, so we need to configure and send * out enough padding bytes between the read request and data * transmission that lasts at least 1 microsecond. */ ddata->spi_padding_bytes = 1 + (spi->max_speed_hz / HZ_PER_MHZ + 2) / 8; ddata->dummy_buf = devm_kzalloc(dev, ddata->spi_padding_bytes, GFP_KERNEL); if (!ddata->dummy_buf) return -ENOMEM; } spi->bits_per_word = 8; err = spi_setup(spi); if (err) return dev_err_probe(&spi->dev, err, "Error performing SPI setup\n"); r = ocelot_spi_init_regmap(dev, &vsc7512_dev_cpuorg_resource); if (IS_ERR(r)) return PTR_ERR(r); ddata->cpuorg_regmap = r; r = ocelot_spi_init_regmap(dev, &vsc7512_gcb_resource); if (IS_ERR(r)) return PTR_ERR(r); ddata->gcb_regmap = r; /* * The chip must be set up for SPI before it gets initialized and reset. * This must be done before calling init, and after a chip reset is * performed. */ err = ocelot_spi_initialize(dev); if (err) return dev_err_probe(dev, err, "Error initializing SPI bus\n"); err = ocelot_chip_reset(dev); if (err) return dev_err_probe(dev, err, "Error resetting device\n"); /* * A chip reset will clear the SPI configuration, so it needs to be done * again before we can access any registers. */ err = ocelot_spi_initialize(dev); if (err) return dev_err_probe(dev, err, "Error initializing SPI bus after reset\n"); err = ocelot_core_init(dev); if (err) return dev_err_probe(dev, err, "Error initializing Ocelot core\n"); return 0; } static const struct spi_device_id ocelot_spi_ids[] = { { "vsc7512", 0 }, { } }; MODULE_DEVICE_TABLE(spi, ocelot_spi_ids); static const struct of_device_id ocelot_spi_of_match[] = { { .compatible = "mscc,vsc7512" }, { } }; MODULE_DEVICE_TABLE(of, ocelot_spi_of_match); static struct spi_driver ocelot_spi_driver = { .driver = { .name = "ocelot-soc", .of_match_table = ocelot_spi_of_match, }, .id_table = ocelot_spi_ids, .probe = ocelot_spi_probe, }; module_spi_driver(ocelot_spi_driver); MODULE_DESCRIPTION("SPI Controlled Ocelot Chip Driver"); MODULE_AUTHOR("Colin Foster <colin.foster@in-advantage.com>"); MODULE_LICENSE("Dual MIT/GPL"); MODULE_IMPORT_NS(MFD_OCELOT);
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