rt-thread/bsp/apollo2/board/spi.c

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/*
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* Copyright (c) 2006-2021, RT-Thread Development Team
*
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* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2017-12-04 Haley the first version
*/
#include <rtthread.h>
#include <rtdevice.h>
#include "am_mcu_apollo.h"
#include "spi.h"
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/* SPI0 */
#define AM_SPI0_IOM_INST 0
#define SPI0_GPIO_SCK 5
#define SPI0_GPIO_CFG_SCK AM_HAL_PIN_5_M0SCK
#define SPI0_GPIO_MISO 6
#define SPI0_GPIO_CFG_MISO AM_HAL_PIN_6_M0MISO
#define SPI0_GPIO_MOSI 7
#define SPI0_GPIO_CFG_MOSI AM_HAL_PIN_7_M0MOSI
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/* SPI1 */
#define AM_SPI1_IOM_INST 1
static am_hal_iom_config_t g_sIOMConfig =
{
AM_HAL_IOM_SPIMODE, // ui32InterfaceMode
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AM_HAL_IOM_400KHZ, // ui32ClockFrequency
0, // bSPHA
0, // bSPOL
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80, // ui8WriteThreshold
80, // ui8ReadThreshold
};
/* AM spi driver */
struct am_spi_bus
{
struct rt_spi_bus parent;
rt_uint32_t u32Module;
};
//connect am drv to rt drv.
static rt_err_t configure(struct rt_spi_device* device, struct rt_spi_configuration* configuration)
{
struct am_spi_bus * am_spi_bus = (struct am_spi_bus *)device->bus;
rt_uint32_t max_hz = configuration->max_hz;
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if(max_hz >= 24000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_24MHZ;
}
else if(max_hz >= 16000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_16MHZ;
}
else if(max_hz >= 12000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_12MHZ;
}
else if(max_hz >= 8000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_8MHZ;
}
else if(max_hz >= 6000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_6MHZ;
}
else if(max_hz >= 4000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_4MHZ;
}
else if(max_hz >= 3000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_3MHZ;
}
else if(max_hz >= 2000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_2MHZ;
}
else if(max_hz >= 1500000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_1_5MHZ;
}
else if(max_hz >= 1000000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_1MHZ;
}
else if(max_hz >= 750000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_750KHZ;
}
else if(max_hz >= 500000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_500KHZ;
}
else if(max_hz >= 400000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_400KHZ;
}
else if(max_hz >= 375000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_375KHZ;
}
else if(max_hz >= 250000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_250KHZ;
}
else if(max_hz >= 100000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_100KHZ;
}
else if(max_hz >= 50000)
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_50KHZ;
}
else
{
g_sIOMConfig.ui32ClockFrequency = AM_HAL_IOM_10KHZ;
}
/* CPOL */
if(configuration->mode & RT_SPI_CPOL)
{
g_sIOMConfig.bSPOL = 1;
}
else
{
g_sIOMConfig.bSPOL = 0;
}
/* CPHA */
if(configuration->mode & RT_SPI_CPHA)
{
g_sIOMConfig.bSPHA= 1;
}
else
{
g_sIOMConfig.bSPHA= 0;
}
/* init SPI */
am_hal_iom_disable(am_spi_bus->u32Module);
am_hal_iom_config(am_spi_bus->u32Module, &g_sIOMConfig);
am_hal_iom_enable(am_spi_bus->u32Module);
return RT_EOK;
};
static rt_uint32_t xfer(struct rt_spi_device *device, struct rt_spi_message* message)
{
struct am_spi_bus * am_spi_bus = (struct am_spi_bus *)device->bus;
//struct rt_spi_configuration * config = &device->config;
struct am_spi_cs * am_spi_cs = device->parent.user_data;
rt_uint32_t * send_ptr = (rt_uint32_t *)message->send_buf;
rt_uint32_t * recv_ptr = message->recv_buf;
rt_uint32_t u32BytesRemaining = message->length;
rt_uint32_t u32TransferSize = 0;
/* take CS */
if (message->cs_take)
{
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am_hal_gpio_out_bit_clear(am_spi_cs->chip_select);
}
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// 读数据
if (recv_ptr != RT_NULL)
{
while (u32BytesRemaining)
{
/* Set the transfer size to either 64, or the number of remaining
bytes, whichever is smaller */
if (u32BytesRemaining > 64)
{
u32TransferSize = 64;
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am_hal_gpio_pin_config(SPI0_GPIO_MOSI, AM_HAL_GPIO_OUTPUT | AM_HAL_GPIO_PULL6K);
am_hal_gpio_out_bit_set(SPI0_GPIO_MOSI);
am_hal_iom_spi_read(am_spi_bus->u32Module, am_spi_cs->chip_select,
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(uint32_t *)recv_ptr, u32TransferSize, AM_HAL_IOM_RAW);
am_hal_gpio_pin_config(SPI0_GPIO_MOSI, SPI0_GPIO_CFG_MOSI | AM_HAL_GPIO_PULL6K);
}
else
{
u32TransferSize = u32BytesRemaining;
{
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am_hal_gpio_pin_config(SPI0_GPIO_MOSI, AM_HAL_GPIO_OUTPUT | AM_HAL_GPIO_PULL6K);
am_hal_gpio_out_bit_set(SPI0_GPIO_MOSI);
am_hal_iom_spi_read(am_spi_bus->u32Module, am_spi_cs->chip_select,
(uint32_t *)recv_ptr, u32TransferSize, AM_HAL_IOM_RAW);
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am_hal_gpio_pin_config(SPI0_GPIO_MOSI, SPI0_GPIO_CFG_MOSI | AM_HAL_GPIO_PULL6K);
}
}
u32BytesRemaining -= u32TransferSize;
recv_ptr = (rt_uint32_t *)((rt_uint32_t)recv_ptr + u32TransferSize);
}
}
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// 写数据
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else
{
while (u32BytesRemaining)
{
/* Set the transfer size to either 32, or the number of remaining
bytes, whichever is smaller */
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if (u32BytesRemaining > 64)
{
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u32TransferSize = 64;
am_hal_iom_spi_write(am_spi_bus->u32Module, am_spi_cs->chip_select,
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(uint32_t *)send_ptr, u32TransferSize, AM_HAL_IOM_RAW);
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}
else
{
u32TransferSize = u32BytesRemaining;
{
am_hal_iom_spi_write(am_spi_bus->u32Module, am_spi_cs->chip_select,
(uint32_t *)send_ptr, u32TransferSize, AM_HAL_IOM_RAW);
}
}
u32BytesRemaining -= u32TransferSize;
send_ptr = (rt_uint32_t *)((rt_uint32_t)send_ptr + u32TransferSize);
}
}
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/* release CS */
if(message->cs_release)
{
am_hal_gpio_out_bit_set(am_spi_cs->chip_select);
}
return message->length;
}
static const struct rt_spi_ops am_spi_ops =
{
configure,
xfer
};
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#ifdef RT_USING_SPI0
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static struct am_spi_bus am_spi_bus_0 =
{
{0},
AM_SPI0_IOM_INST
};
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#endif /* #ifdef RT_USING_SPI0 */
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#ifdef RT_USING_SPI1
static struct am_spi_bus am_spi_bus_1 =
{
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{0},
AM_SPI1_IOM_INST
};
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#endif /* #ifdef RT_USING_SPI1 */
int yr_hw_spi_init(void)
{
struct am_spi_bus* am_spi;
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#ifdef RT_USING_SPI0
/* init spi gpio */
am_hal_gpio_pin_config(SPI0_GPIO_SCK, SPI0_GPIO_CFG_SCK);
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am_hal_gpio_pin_config(SPI0_GPIO_MISO, SPI0_GPIO_CFG_MISO | AM_HAL_GPIO_PULL6K);
am_hal_gpio_pin_config(SPI0_GPIO_MOSI, SPI0_GPIO_CFG_MOSI | AM_HAL_GPIO_PULL6K);
/* Initialize IOM 0 in SPI mode at 100KHz */
am_hal_iom_pwrctrl_enable(AM_SPI0_IOM_INST);
am_hal_iom_config(AM_SPI0_IOM_INST, &g_sIOMConfig);
am_hal_iom_enable(AM_SPI0_IOM_INST);
//init spi bus device
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am_spi = &am_spi_bus_0;
rt_spi_bus_register(&am_spi->parent, "spi0", &am_spi_ops);
#endif
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//rt_kprintf("spi init!\n");
return 0;
}
#ifdef RT_USING_COMPONENTS_INIT
INIT_BOARD_EXPORT(yr_hw_spi_init);
#endif
/*@}*/