coreboot-libre-fam15h-rdimm/3rdparty/chromeec/board/discovery-stm32f072/board.c

/* Copyright 2014 The Chromium OS Authors. All rights reserved.
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 */
/* STM32F072-discovery board configuration */

#include "common.h"
#include "ec_version.h"
#include "gpio.h"
#include "hooks.h"
#include "queue_policies.h"
#include "registers.h"
#include "spi.h"
#include "task.h"
#include "usart-stm32f0.h"
#include "usart_tx_dma.h"
#include "usart_rx_dma.h"
#include "usb_gpio.h"
#include "usb_spi.h"
#include "usb-stream.h"
#include "util.h"

/******************************************************************************
 * Build GPIO tables and expose a subset of the GPIOs over USB.
 */
void button_event(enum gpio_signal signal);

#include "gpio_list.h"

static enum gpio_signal const usb_gpio_list[] = {
	GPIO_USER_BUTTON,
	GPIO_LED_U,
	GPIO_LED_D,
	GPIO_LED_L,
	GPIO_LED_R,
};

/*
 * This instantiates struct usb_gpio_config const usb_gpio, plus several other
 * variables, all named something beginning with usb_gpio_
 */
USB_GPIO_CONFIG(usb_gpio,
		usb_gpio_list,
		USB_IFACE_GPIO,
		USB_EP_GPIO);

/******************************************************************************
 * Setup USART1 as a loopback device, it just echo's back anything sent to it.
 */
static struct usart_config const loopback_usart;

static struct queue const loopback_queue =
	QUEUE_DIRECT(64, uint8_t,
		     loopback_usart.producer,
		     loopback_usart.consumer);

static struct usart_rx_dma const loopback_rx_dma =
	USART_RX_DMA(STM32_DMAC_CH3, 8);

static struct usart_tx_dma const loopback_tx_dma =
	USART_TX_DMA(STM32_DMAC_CH2, 16);

static struct usart_config const loopback_usart =
	USART_CONFIG(usart1_hw,
		     loopback_rx_dma.usart_rx,
		     loopback_tx_dma.usart_tx,
		     115200,
		     0,
		     loopback_queue,
		     loopback_queue);

/******************************************************************************
 * Forward USART4 as a simple USB serial interface.
 */
static struct usart_config const forward_usart;
struct usb_stream_config const forward_usb;

static struct queue const usart_to_usb = QUEUE_DIRECT(64, uint8_t,
						      forward_usart.producer,
						      forward_usb.consumer);
static struct queue const usb_to_usart = QUEUE_DIRECT(64, uint8_t,
						      forward_usb.producer,
						      forward_usart.consumer);

static struct usart_tx_dma const forward_tx_dma =
	USART_TX_DMA(STM32_DMAC_CH7, 16);

static struct usart_config const forward_usart =
	USART_CONFIG(usart4_hw,
		     usart_rx_interrupt,
		     forward_tx_dma.usart_tx,
		     115200,
		     0,
		     usart_to_usb,
		     usb_to_usart);

#define USB_STREAM_RX_SIZE	16
#define USB_STREAM_TX_SIZE	16

USB_STREAM_CONFIG(forward_usb,
		  USB_IFACE_STREAM,
		  USB_STR_STREAM_NAME,
		  USB_EP_STREAM,
		  USB_STREAM_RX_SIZE,
		  USB_STREAM_TX_SIZE,
		  usb_to_usart,
		  usart_to_usb)

/******************************************************************************
 * Handle button presses by cycling the LEDs on the board.  Also run a tick
 * handler to cycle them when they are not actively under USB control.
 */
void button_event(enum gpio_signal signal)
{
	static int count;

	gpio_set_level(GPIO_LED_U, (count & 0x03) == 0);
	gpio_set_level(GPIO_LED_R, (count & 0x03) == 1);
	gpio_set_level(GPIO_LED_D, (count & 0x03) == 2);
	gpio_set_level(GPIO_LED_L, (count & 0x03) == 3);

	count++;
}

void usb_gpio_tick(void)
{
	if (usb_gpio.state->set_mask || usb_gpio.state->clear_mask)
		return;

	button_event(0);
}
DECLARE_HOOK(HOOK_TICK, usb_gpio_tick, HOOK_PRIO_DEFAULT);

/******************************************************************************
 * Define the strings used in our USB descriptors.
 */
const void *const usb_strings[] = {
	[USB_STR_DESC]         = usb_string_desc,
	[USB_STR_VENDOR]       = USB_STRING_DESC("Google Inc."),
	[USB_STR_PRODUCT]      = USB_STRING_DESC("discovery-stm32f072"),
	[USB_STR_VERSION]      = USB_STRING_DESC(CROS_EC_VERSION32),
	[USB_STR_STREAM_NAME]  = USB_STRING_DESC("Forward"),
	[USB_STR_CONSOLE_NAME] = USB_STRING_DESC("Shell"),
};

BUILD_ASSERT(ARRAY_SIZE(usb_strings) == USB_STR_COUNT);


/******************************************************************************
 * Support SPI bridging over USB, this requires usb_spi_board_enable and
 * usb_spi_board_disable to be defined to enable and disable the SPI bridge.
 */

/* SPI devices */
const struct spi_device_t spi_devices[] = {
	{ CONFIG_SPI_FLASH_PORT, 0, GPIO_SPI_CS},
};
const unsigned int spi_devices_used = ARRAY_SIZE(spi_devices);

void usb_spi_board_enable(struct usb_spi_config const *config)
{
	/* Remap SPI2 to DMA channels 6 and 7 */
	STM32_SYSCFG_CFGR1 |= BIT(24);

	/* Configure SPI GPIOs */
	gpio_config_module(MODULE_SPI_FLASH, 1);

	/* Set all four SPI pins to high speed */
	STM32_GPIO_OSPEEDR(GPIO_B) |= 0xff000000;

	/* Enable clocks to SPI2 module */
	STM32_RCC_APB1ENR |= STM32_RCC_PB1_SPI2;

	/* Reset SPI2 */
	STM32_RCC_APB1RSTR |= STM32_RCC_PB1_SPI2;
	STM32_RCC_APB1RSTR &= ~STM32_RCC_PB1_SPI2;

	spi_enable(CONFIG_SPI_FLASH_PORT, 1);
}

void usb_spi_board_disable(struct usb_spi_config const *config)
{
	spi_enable(CONFIG_SPI_FLASH_PORT, 0);

	/* Disable clocks to SPI2 module */
	STM32_RCC_APB1ENR &= ~STM32_RCC_PB1_SPI2;

	/* Release SPI GPIOs */
	gpio_config_module(MODULE_SPI_FLASH, 0);
}

USB_SPI_CONFIG(usb_spi, USB_IFACE_SPI, USB_EP_SPI);

/******************************************************************************
 * Initialize board.
 */
static void board_init(void)
{
	gpio_enable_interrupt(GPIO_USER_BUTTON);

	queue_init(&loopback_queue);
	queue_init(&usart_to_usb);
	queue_init(&usb_to_usart);
	usart_init(&loopback_usart);
	usart_init(&forward_usart);

	usb_spi_enable(&usb_spi, 1);
}
DECLARE_HOOK(HOOK_INIT, board_init, HOOK_PRIO_DEFAULT);