src/drivers/uart/util.c - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */

 #include <console/uart.h>
 #include <types.h>
 #include <timer.h>

 /* Calculate divisor. Do not floor but round to nearest integer. */
 unsigned int uart_baudrate_divisor(unsigned int baudrate,
 	unsigned int refclk, unsigned int oversample)
 {
 	return (1 + (2 * refclk) / (baudrate * oversample)) / 2;
 }

 #if !CONFIG(UART_OVERRIDE_INPUT_CLOCK_DIVIDER)
 unsigned int uart_input_clock_divider(void)
 {
 	/* Specify the default oversample rate for the UART.
 	 *
 	 * UARTs oversample the receive data.  The UART's input clock first
 	 * enters the baud-rate divider to generate the oversample clock.  Then
 	 * the UART typically divides the result by 16.  The asynchronous
 	 * receive data is synchronized with the oversample clock and when a
 	 * start bit is detected the UART delays half a bit time using the
 	 * oversample clock.  Samples are then taken to verify the start bit and
 	 * if present, samples are taken for the rest of the frame.
 	 */
 	return 16;
 }
 #endif

 #if !CONFIG(UART_OVERRIDE_REFCLK)
 unsigned int uart_platform_refclk(void)
 {
 	/* Specify the default input clock frequency for the UART.
 	 *
 	 * The older UART's used an input clock frequency of 1.8432 MHz which
 	 * with the 16x oversampling provided the maximum baud-rate of 115200.
 	 * Specify this as maximum baud-rate multiplied by oversample so that
 	 * it is obvious that the maximum baud rate is 115200 when divided by
 	 * oversample clock.  Also note that crystal on the board does not
 	 * change when software selects another input clock divider.
 	 */
 	return 115200 * 16;
 }
 #endif

 /* Helper function to allow bitbanging an 8n1 UART. */
 void uart_bitbang_tx_byte(unsigned char data, void (*set_tx)(int line_state))
 {
 	const int baud_rate = get_uart_baudrate();
 	int i;
 	struct stopwatch sw;
 	stopwatch_init(&sw);

 	/* Send start bit */
 	set_tx(0);
 	while (stopwatch_duration_usecs(&sw) < MHz / baud_rate)
 		stopwatch_tick(&sw);

 	/* 'i' counts the total bits sent at the end of the loop */
 	for (i = 2; i < 10; i++) {
 		set_tx(data & 1);
 		data >>= 1;
 		while (stopwatch_duration_usecs(&sw) < i * MHz / baud_rate)
 			stopwatch_tick(&sw);
 	}

 	/* Send stop bit */
 	set_tx(1);
 	while (stopwatch_duration_usecs(&sw) < i * MHz / baud_rate)
 		stopwatch_tick(&sw);
 }
	/* SPDX-License-Identifier: GPL-2.0-only */

	#include <console/uart.h>
	#include <types.h>
	#include <timer.h>

	/* Calculate divisor. Do not floor but round to nearest integer. */
	unsigned int uart_baudrate_divisor(unsigned int baudrate,
	unsigned int refclk, unsigned int oversample)
	{
	return (1 + (2 * refclk) / (baudrate * oversample)) / 2;
	}

	#if !CONFIG(UART_OVERRIDE_INPUT_CLOCK_DIVIDER)
	unsigned int uart_input_clock_divider(void)
	{
	/* Specify the default oversample rate for the UART.
	*
	* UARTs oversample the receive data. The UART's input clock first
	* enters the baud-rate divider to generate the oversample clock. Then
	* the UART typically divides the result by 16. The asynchronous
	* receive data is synchronized with the oversample clock and when a
	* start bit is detected the UART delays half a bit time using the
	* oversample clock. Samples are then taken to verify the start bit and
	* if present, samples are taken for the rest of the frame.
	*/
	return 16;
	}
	#endif

	#if !CONFIG(UART_OVERRIDE_REFCLK)
	unsigned int uart_platform_refclk(void)
	{
	/* Specify the default input clock frequency for the UART.
	*
	* The older UART's used an input clock frequency of 1.8432 MHz which
	* with the 16x oversampling provided the maximum baud-rate of 115200.
	* Specify this as maximum baud-rate multiplied by oversample so that
	* it is obvious that the maximum baud rate is 115200 when divided by
	* oversample clock. Also note that crystal on the board does not
	* change when software selects another input clock divider.
	*/
	return 115200 * 16;
	}
	#endif

	/* Helper function to allow bitbanging an 8n1 UART. */
	void uart_bitbang_tx_byte(unsigned char data, void (*set_tx)(int line_state))
	{
	const int baud_rate = get_uart_baudrate();
	int i;
	struct stopwatch sw;
	stopwatch_init(&sw);

	/* Send start bit */
	set_tx(0);
	while (stopwatch_duration_usecs(&sw) < MHz / baud_rate)
	stopwatch_tick(&sw);

	/* 'i' counts the total bits sent at the end of the loop */
	for (i = 2; i < 10; i++) {
	set_tx(data & 1);
	data >>= 1;
	while (stopwatch_duration_usecs(&sw) < i * MHz / baud_rate)
	stopwatch_tick(&sw);
	}

	/* Send stop bit */
	set_tx(1);
	while (stopwatch_duration_usecs(&sw) < i * MHz / baud_rate)
	stopwatch_tick(&sw);
	}