satip-axe/kernel/drivers/stm/stx7141_comms.c
2015-03-26 17:24:57 +01:00

616 lines
16 KiB
C

/*
* (c) 2010 STMicroelectronics Limited
*
* Author: Pawel Moll <pawel.moll@st.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/init.h>
#include <linux/platform_device.h>
#include <linux/i2c.h>
#include <linux/stm/pad.h>
#include <linux/stm/sysconf.h>
#include <linux/stm/stx7141.h>
#include <asm/irq-ilc.h>
/* ASC resources ---------------------------------------------------------- */
static struct stm_pad_config stx7141_asc0_mcard_pad_config = {
.sysconfs_num = 4, /* !!! see stx7141_configure_asc() */
.sysconfs = (struct stm_pad_sysconf []) {
/* MCARD_*: M-Card (0) or glue (1) */
STM_PAD_SYS_CFG(36, 16, 16, 1),
/* ASC0_TXD: output enabled, no pull-up, not open drain */
STM_PAD_SYS_CFG(36, 19, 21, 2),
/* ASC0_RXD: input */
STM_PAD_SYS_CFG(36, 22, 24, 0),
/* ASC0_CTS & ASC0_RTS: ??? */
STM_PAD_SYS_CFG(36, 17, 18, 2),
},
};
static struct stm_pad_config stx7141_asc1_pio10_pad_config = {
.gpios_num = 4,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(10, 0, 3), /* TX */
STM_PAD_PIO_IN(10, 1, -1), /* RX */
STM_PAD_PIO_IN_NAMED(10, 2, -1, "CTS"),
STM_PAD_PIO_OUT_NAMED(10, 3, 3, "RTS"),
},
.sysconfs_num = 1,
.sysconfs = (struct stm_pad_sysconf []) {
/* ASC1_RXD/ASC1_CTS: from PIO10 (0) or from MCard (1) */
STM_PAD_SYS_CFG(36, 29, 29, 0),
},
};
static struct stm_pad_config stx7141_asc1_mcard_pad_config = {
.sysconfs_num = 5,
.sysconfs = (struct stm_pad_sysconf []) {
/* MCARD_*: M-Card (0) or glue (1) */
STM_PAD_SYS_CFG(36, 16, 16, 1),
/* ASC1_TXD/ASC1_RTS: output enabled */
STM_PAD_SYS_CFG(36, 15, 15, 1),
/* ASC1_RXD/ASC1_CTS: from PIO10 (0) or from MCard (1) */
STM_PAD_SYS_CFG(36, 29, 29, 1),
/* ASC1_RXD: input */
STM_PAD_SYS_CFG(36, 14, 14, 0),
/* ASC1_RTS: input */
STM_PAD_SYS_CFG(36, 13, 13, 0),
},
};
static struct stm_pad_config stx7141_asc2_pio1_pad_config = {
.gpios_num = 4, /* !!! see stx7141_configure_asc() */
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(1, 0, 3), /* TX */
STM_PAD_PIO_IN(1, 1, -1), /* RX */
STM_PAD_PIO_IN_NAMED(1, 2, -1, "CTS"),
STM_PAD_PIO_OUT_NAMED(1, 3, 3, "RTS"),
},
.sysconfs_num = 1,
.sysconfs = (struct stm_pad_sysconf []) {
/* ASC2_RXD/ASC2_CTS: from PIO1 (0) or from PIO6 (3) */
STM_PAD_SYS_CFG(36, 30, 31, 0),
},
};
static struct stm_pad_config stx7141_asc2_pio6_pad_config = {
.gpios_num = 4,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(6, 0, 3), /* TX */
STM_PAD_PIO_IN(6, 1, -1), /* RX */
STM_PAD_PIO_IN_NAMED(6, 2, -1, "CTS"),
STM_PAD_PIO_OUT_NAMED(6, 3, 3, "RTS"),
},
.sysconfs_num = 1,
.sysconfs = (struct stm_pad_sysconf []) {
/* ASC2_RXD/ASC2_CTS: from PIO1 (0) or from PIO6 (3) */
STM_PAD_SYS_CFG(36, 30, 31, 3),
},
};
static struct platform_device stx7141_asc_devices[] = {
[0] = {
.name = "stm-asc",
/* .id set in stx7141_configure_asc() */
.num_resources = 4,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd030000, 0x2c),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(76), -1),
STM_PLAT_RESOURCE_DMA_NAMED("rx_half_full", 11),
STM_PLAT_RESOURCE_DMA_NAMED("tx_half_empty", 15),
},
.dev.platform_data = &(struct stm_plat_asc_data) {
.pad_config = &stx7141_asc0_mcard_pad_config,
},
},
[1] = {
.name = "stm-asc",
/* .id set in stx7141_configure_asc() */
.num_resources = 4,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd031000, 0x2c),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(77), -1),
STM_PLAT_RESOURCE_DMA_NAMED("rx_half_full", 12),
STM_PLAT_RESOURCE_DMA_NAMED("tx_half_empty", 16),
},
.dev.platform_data = &(struct stm_plat_asc_data) {
/* .pad_config set in stx7141_configure_asc() */
},
},
[2] = {
.name = "stm-asc",
/* .id set in stx7141_configure_asc() */
.num_resources = 4,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd032000, 0x2c),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(78), -1),
STM_PLAT_RESOURCE_DMA_NAMED("rx_half_full", 13),
STM_PLAT_RESOURCE_DMA_NAMED("tx_half_empty", 17),
},
.dev.platform_data = &(struct stm_plat_asc_data) {
/* .pad_config set in stx7141_configure_asc() */
},
},
};
/* Note these three variables are global, and shared with the stasc driver
* for console bring up prior to platform initialisation. */
/* the serial console device */
int __initdata stm_asc_console_device;
/* Platform devices to register */
unsigned int __initdata stm_asc_configured_devices_num = 0;
struct platform_device __initdata
*stm_asc_configured_devices[ARRAY_SIZE(stx7141_asc_devices)];
void __init stx7141_configure_asc(int asc, struct stx7141_asc_config *config)
{
static int configured[ARRAY_SIZE(stx7141_asc_devices)];
static int tty_id;
struct stx7141_asc_config default_config = {};
struct platform_device *pdev;
struct stm_plat_asc_data *plat_data;
struct stm_pad_config *pad_config = NULL;
BUG_ON(asc < 0 || asc >= ARRAY_SIZE(stx7141_asc_devices));
BUG_ON(configured[asc]);
configured[asc] = 1;
if (!config)
config = &default_config;
pdev = &stx7141_asc_devices[asc];
plat_data = pdev->dev.platform_data;
pdev->id = tty_id++;
plat_data->hw_flow_control = config->hw_flow_control;
switch (asc) {
case 0:
pad_config = &stx7141_asc0_mcard_pad_config;
if (!config->hw_flow_control) {
stm_pad_set_pio_ignored(pad_config, "RTS");
stm_pad_set_pio_ignored(pad_config, "CTS");
pad_config->sysconfs_num--;
}
BUG_ON(config->routing.asc0 != stx7141_asc0_mcard);
break;
case 1:
switch (config->routing.asc1) {
case stx7141_asc1_pio10:
pad_config = &stx7141_asc1_pio10_pad_config;
if (!config->hw_flow_control) {
stm_pad_set_pio_ignored(pad_config, "RTS");
stm_pad_set_pio_ignored(pad_config, "CTS");
}
break;
case stx7141_asc1_mcard:
pad_config = &stx7141_asc1_mcard_pad_config;
/* The HW flow control will be available anyway */
WARN_ON(!config->hw_flow_control);
break;
default:
BUG();
break;
}
break;
case 2:
switch (config->routing.asc2) {
case stx7141_asc2_pio1:
pad_config = &stx7141_asc2_pio1_pad_config;
break;
case stx7141_asc2_pio6:
pad_config = &stx7141_asc2_pio6_pad_config;
break;
default:
BUG();
break;
}
if (!config->hw_flow_control) {
stm_pad_set_pio_ignored(pad_config, "RTS");
stm_pad_set_pio_ignored(pad_config, "CTS");
}
break;
default:
BUG();
break;
}
plat_data->pad_config = pad_config;
if (config->is_console)
stm_asc_console_device = pdev->id;
stm_asc_configured_devices[stm_asc_configured_devices_num++] = pdev;
}
/* Add platform device as configured by board specific code */
static int __init stx7141_add_asc(void)
{
return platform_add_devices(stm_asc_configured_devices,
stm_asc_configured_devices_num);
}
arch_initcall(stx7141_add_asc);
/* SSC resources ---------------------------------------------------------- */
/* WARNING! SSCs were numbered starting from 1 in early documents.
* Later it was changed and this approach is used below,
* so the first SSC is SSC0 (zero). */
/* Pad configuration for I2C mode */
static struct stm_pad_config stx7141_ssc_i2c_pad_configs[] = {
[0] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(2, 0, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(2, 1, 1, "SDA"),
},
},
[1] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(2, 3, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(2, 4, 1, "SDA"),
},
},
[2] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(2, 6, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(2, 7, 1, "SDA"),
},
},
[3] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(3, 0, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(3, 1, 1, "SDA"),
},
},
[4] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(3, 2, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(3, 3, 1, "SDA"),
},
},
[5] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(3, 4, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(3, 5, 1, "SDA"),
},
},
[6] = {
.gpios_num = 2,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_BIDIR_NAMED(4, 0, 1, "SCL"),
STM_PAD_PIO_BIDIR_NAMED(4, 1, 1, "SDA"),
},
},
};
/* Pad configuration for SPI mode */
static struct stm_pad_config stx7141_ssc_spi_pad_configs[] = {
[0] = {
.gpios_num = 3,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(2, 0, 1), /* SCK */
STM_PAD_PIO_OUT(2, 1, 1), /* MOSI */
STM_PAD_PIO_IN(2, 2, -1), /* MISO */
},
},
[1] = {
.gpios_num = 3,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(2, 3, 1), /* SCK */
STM_PAD_PIO_OUT(2, 4, 1), /* MOSI */
STM_PAD_PIO_IN(2, 5, -1), /* MISO */
},
},
[5] = {
.gpios_num = 3,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(3, 4, 1), /* SCK */
STM_PAD_PIO_OUT(3, 5, 1), /* MOSI */
STM_PAD_PIO_IN(3, 6, -1), /* MISO */
},
},
};
static struct platform_device stx7141_ssc_devices[] = {
[0] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd040000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(69), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
[1] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd041000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(70), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
[2] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd042000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(71), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
[3] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd043000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(72), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
[4] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd044000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(73), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
[5] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd045000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(74), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
[6] = {
/* .name & .id set in stx7141_configure_ssc_*() */
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd046000, 0x110),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(75), -1),
},
.dev.platform_data = &(struct stm_plat_ssc_data) {
/* .pad_config_* set in stx7141_configure_ssc_*() */
},
},
};
static int __initdata stx7141_ssc_configured[ARRAY_SIZE(stx7141_ssc_devices)];
int __init stx7141_configure_ssc_i2c(int ssc)
{
static int i2c_busnum;
struct stm_plat_ssc_data *plat_data;
BUG_ON(ssc < 0 || ssc >= ARRAY_SIZE(stx7141_ssc_devices));
BUG_ON(stx7141_ssc_configured[ssc]);
stx7141_ssc_configured[ssc] = 1;
stx7141_ssc_devices[ssc].name = "i2c-stm";
stx7141_ssc_devices[ssc].id = i2c_busnum;
plat_data = stx7141_ssc_devices[ssc].dev.platform_data;
plat_data->pad_config = &stx7141_ssc_i2c_pad_configs[ssc];
/* I2C bus number reservation (to prevent any hot-plug device
* from using it) */
i2c_register_board_info(i2c_busnum, NULL, 0);
platform_device_register(&stx7141_ssc_devices[ssc]);
return i2c_busnum++;
}
int __init stx7141_configure_ssc_spi(int ssc,
struct stx7141_ssc_spi_config *config)
{
static int spi_busnum;
struct stm_plat_ssc_data *plat_data;
BUG_ON(ssc < 0 || ssc >= ARRAY_SIZE(stx7141_ssc_devices));
BUG_ON(stx7141_ssc_configured[ssc]);
stx7141_ssc_configured[ssc] = 1;
/* These two SSC can't be used in SPI mode - there is no
* MRST pin available */
BUG_ON(ssc == 2 || ssc == 4);
stx7141_ssc_devices[ssc].name = "spi-stm";
stx7141_ssc_devices[ssc].id = spi_busnum;
plat_data = stx7141_ssc_devices[ssc].dev.platform_data;
if (config)
plat_data->spi_chipselect = config->chipselect;
plat_data->pad_config = &stx7141_ssc_spi_pad_configs[ssc];
platform_device_register(&stx7141_ssc_devices[ssc]);
return spi_busnum++;
}
/* LiRC resources --------------------------------------------------------- */
static struct platform_device stx7141_lirc_device = {
.name = "lirc-stm",
.id = -1,
.num_resources = 2,
.resource = (struct resource []) {
STM_PLAT_RESOURCE_MEM(0xfd018000, 0x234),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(81), -1),
STM_PLAT_RESOURCE_IRQ(COMMS_ILC_EXT_IRQ(86), -1),
},
.dev.platform_data = &(struct stm_plat_lirc_data) {
/* The clock settings will be calculated by
* the driver from the system clock */
.irbclock = 0, /* use current_cpu data */
.irbclkdiv = 0, /* automatically calculate */
.irbperiodmult = 0,
.irbperioddiv = 0,
.irbontimemult = 0,
.irbontimediv = 0,
.irbrxmaxperiod = 0x5000,
.sysclkdiv = 1,
.rxpolarity = 1,
},
};
void __init stx7141_configure_lirc(struct stx7141_lirc_config *config)
{
static int configured;
struct stx7141_lirc_config default_config = {};
struct stm_plat_lirc_data *plat_data =
stx7141_lirc_device.dev.platform_data;
struct stm_pad_config *pad_config;
BUG_ON(configured);
configured = 1;
if (!config)
config = &default_config;
pad_config = stm_pad_config_alloc(3, 0);
BUG_ON(!pad_config);
plat_data->txenabled = config->tx_enabled || config->tx_od_enabled;
plat_data->pads = pad_config;
switch (config->rx_mode) {
case stx7141_lirc_rx_disabled:
/* Nothing to do */
break;
case stx7141_lirc_rx_mode_ir:
plat_data->rxuhfmode = 0;
stm_pad_config_add_pio_in(pad_config, 5, 2, -1);
break;
case stx7141_lirc_rx_mode_uhf:
plat_data->rxuhfmode = 1;
stm_pad_config_add_pio_in(pad_config, 3, 7, -1);
break;
default:
BUG();
break;
}
if (config->tx_enabled)
stm_pad_config_add_pio_out(pad_config, 5, 3, 1);
if (config->tx_od_enabled)
stm_pad_config_add_pio_out(pad_config, 5, 4, 1);
platform_device_register(&stx7141_lirc_device);
}
/* PWM resources ---------------------------------------------------------- */
static struct stm_plat_pwm_data stx7141_pwm_platform_data = {
.channel_pad_config = {
[0] = &(struct stm_pad_config) {
.gpios_num = 1,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(4, 3, 2),
},
},
[1] = &(struct stm_pad_config) {
.gpios_num = 1,
.gpios = (struct stm_pad_gpio []) {
STM_PAD_PIO_OUT(4, 2, 2),
},
},
},
};
static struct platform_device stx7141_pwm_device = {
.name = "stm-pwm",
.id = -1,
.num_resources = 2,
.resource = (struct resource[]) {
STM_PLAT_RESOURCE_MEM(0xfd010000, 0x68),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(85), -1),
},
.dev.platform_data = &stx7141_pwm_platform_data,
};
void __init stx7141_configure_pwm(struct stx7141_pwm_config *config)
{
static int configured;
BUG_ON(configured);
configured = 1;
if (config) {
stx7141_pwm_platform_data.channel_enabled[0] =
config->out0_enabled;
stx7141_pwm_platform_data.channel_enabled[1] =
config->out1_enabled;
}
platform_device_register(&stx7141_pwm_device);
}
/* Low Power Controller ---------------------------------------------------- */
static struct platform_device stx7141_lpc_device = {
.name = "stm-rtc",
.id = -1,
.num_resources = 2,
.resource = (struct resource[]){
STM_PLAT_RESOURCE_MEM(0xfd008000, 0x600),
STM_PLAT_RESOURCE_IRQ(ILC_IRQ(83), -1),
},
.dev.platform_data = &(struct stm_plat_rtc_lpc) {
.clk_id = "CLKB_LPC",
.need_wdt_reset = 1,
.irq_edge_level = IRQ_TYPE_EDGE_FALLING,
}
};
static int __init stx7141_add_lpc(void)
{
return platform_device_register(&stx7141_lpc_device);
}
module_init(stx7141_add_lpc);