board/mv_feroceon/USP/mvDiag.c - uboot/prism - Git at Google


 #include "uart/mvUart.h"
 #include "rtc/integ_rtc/mvRtc.h"

 /* UART timeout = UART_TIMEOUT * 100 usec */
 #define UART_TIMEOUT 500

 /* Function prototypes */
 MV_VOID mvBoardEnvInit(MV_VOID);
 MV_STATUS mvCtrlEnvInit(MV_VOID);
 MV_VOID mvCpuIfInit(MV_VOID);

 MV_U32 mvGppValueGet(MV_U32 group, MV_U32 mask);
 MV_U32 mvDramIfBankBaseGet(MV_U32 bankNum);
 MV_U32 mvDramIfSizeGet(MV_VOID);

 /* Global variables */
 extern unsigned int _TEXT_BASE;

 /* Source code */

 void diag_board_init(char *board_name)
 {
 	mvBoardEnvInit();
 	mvCtrlEnvInit();
 	mvCpuIfInit();

 	mvBoardNameGet(board_name);
 }

 void diag_get_mem_detail(unsigned int **mem_test_start_offset,
                          unsigned int **mem_test_end_offset)
 {
 	unsigned int start_offset, end_offset;

 	/* Get the base address of memory bank 0 */
 	end_offset = start_offset = mvDramIfBankBaseGet(0);

 	/* Start from the location where u-boot ends
          * FIXME: Additional _1M is added for heap size
 	 */
 	start_offset += _TEXT_BASE + _1M + _1M;

 	/* TODO: If we are using same DRAM register init file for base and
 	 * client, we need to hard-code end-offset for base to be 256M */
 	end_offset += mvDramIfSizeGet();

 	*mem_test_start_offset = (unsigned int *)start_offset;
 	*mem_test_end_offset = (unsigned int *)end_offset;
 }

 void diag_serial_init(int port, int baud_rate)
 {
 	mvUartInit(port, CFG_TCLK / (16 * baud_rate), mvUartBase(port));

 #if defined(LCP_88F6281)
 	unsigned int reg_val = 0;
 	if(port)
 	{
 		/* Change MPP settings for UART1 */
 		reg_val = MV_REG_READ(mvCtrlMppRegGet(1));

 		reg_val &= ~(0xFF << 20);
 		reg_val |= (0x33 << 20);

 		MV_REG_WRITE(mvCtrlMppRegGet(1), reg_val);

 		/* Select UART from SD/UART selection switch - MPP34 */
 		MV_REG_WRITE(0x10140, MV_REG_READ(0x10140) | BIT2);

 		/* Output enable */
 		MV_REG_WRITE(0x10144, MV_REG_READ(0x10144) & ~(BIT2));
 	}
 #endif

 }

 void diag_int_lpbk(int port, int set)
 {
 	volatile MV_UART_PORT *pUartPort = (volatile MV_UART_PORT *)mvUartBase(port);

 	if(set)
 		pUartPort->mcr |= 0x10;
 	else
 		pUartPort->mcr &= ~(0x10);
 }

 void diag_uart_putc(int port, unsigned char c)
 {
 	mvUartPutc(port, c);
 }

 int diag_uart_getc(int port, unsigned char *c)
 {
 	volatile MV_UART_PORT *pUartPort = (volatile MV_UART_PORT *)mvUartBase(port);
 	int timeout = 0;

 	while ( ((pUartPort->lsr & LSR_DR) == 0) && (++timeout < UART_TIMEOUT) )
 	{
 		udelay(100);
 	}

 	if (timeout == UART_TIMEOUT)
 		return 1;

 	*c = pUartPort->rbr;
 	return 0;
 }

 void diag_get_rtc_time(int *hour, int *minute, int *second)
 {
 	MV_RTC_TIME mvRtcTime;

 	mvRtcTimeGet(&mvRtcTime);

 	*hour   = mvRtcTime.hours;
 	*minute = mvRtcTime.minutes;
 	*second = mvRtcTime.seconds;
 }

 void diag_set_rtc_time(int hour, int minute, int second)
 {
 	MV_RTC_TIME mvRtcTime;

 	mvRtcTime.hours   = hour;
 	mvRtcTime.minutes = minute;
 	mvRtcTime.seconds = second;

 	mvRtcTimeSet(&mvRtcTime);
 }

	#include "uart/mvUart.h"
	#include "rtc/integ_rtc/mvRtc.h"

	/* UART timeout = UART_TIMEOUT * 100 usec */
	#define UART_TIMEOUT 500

	/* Function prototypes */
	MV_VOID mvBoardEnvInit(MV_VOID);
	MV_STATUS mvCtrlEnvInit(MV_VOID);
	MV_VOID mvCpuIfInit(MV_VOID);

	MV_U32 mvGppValueGet(MV_U32 group, MV_U32 mask);
	MV_U32 mvDramIfBankBaseGet(MV_U32 bankNum);
	MV_U32 mvDramIfSizeGet(MV_VOID);

	/* Global variables */
	extern unsigned int _TEXT_BASE;

	/* Source code */

	void diag_board_init(char *board_name)
	{
	mvBoardEnvInit();
	mvCtrlEnvInit();
	mvCpuIfInit();

	mvBoardNameGet(board_name);
	}

	void diag_get_mem_detail(unsigned int **mem_test_start_offset,
	unsigned int **mem_test_end_offset)
	{
	unsigned int start_offset, end_offset;

	/* Get the base address of memory bank 0 */
	end_offset = start_offset = mvDramIfBankBaseGet(0);

	/* Start from the location where u-boot ends
	* FIXME: Additional _1M is added for heap size
	*/
	start_offset += _TEXT_BASE + _1M + _1M;

	/* TODO: If we are using same DRAM register init file for base and
	* client, we need to hard-code end-offset for base to be 256M */
	end_offset += mvDramIfSizeGet();

	mem_test_start_offset = (unsigned int )start_offset;
	mem_test_end_offset = (unsigned int )end_offset;
	}

	void diag_serial_init(int port, int baud_rate)
	{
	mvUartInit(port, CFG_TCLK / (16 * baud_rate), mvUartBase(port));

	#if defined(LCP_88F6281)
	unsigned int reg_val = 0;
	if(port)
	{
	/* Change MPP settings for UART1 */
	reg_val = MV_REG_READ(mvCtrlMppRegGet(1));

	reg_val &= ~(0xFF << 20);
	reg_val \|= (0x33 << 20);

	MV_REG_WRITE(mvCtrlMppRegGet(1), reg_val);

	/* Select UART from SD/UART selection switch - MPP34 */
	MV_REG_WRITE(0x10140, MV_REG_READ(0x10140) \| BIT2);

	/* Output enable */
	MV_REG_WRITE(0x10144, MV_REG_READ(0x10144) & ~(BIT2));
	}
	#endif

	}

	void diag_int_lpbk(int port, int set)
	{
	volatile MV_UART_PORT pUartPort = (volatile MV_UART_PORT )mvUartBase(port);

	if(set)
	pUartPort->mcr \|= 0x10;
	else
	pUartPort->mcr &= ~(0x10);
	}

	void diag_uart_putc(int port, unsigned char c)
	{
	mvUartPutc(port, c);
	}

	int diag_uart_getc(int port, unsigned char *c)
	{
	volatile MV_UART_PORT pUartPort = (volatile MV_UART_PORT )mvUartBase(port);
	int timeout = 0;

	while ( ((pUartPort->lsr & LSR_DR) == 0) && (++timeout < UART_TIMEOUT) )
	{
	udelay(100);
	}

	if (timeout == UART_TIMEOUT)
	return 1;

	*c = pUartPort->rbr;
	return 0;
	}

	void diag_get_rtc_time(int hour, int minute, int *second)
	{
	MV_RTC_TIME mvRtcTime;

	mvRtcTimeGet(&mvRtcTime);

	*hour = mvRtcTime.hours;
	*minute = mvRtcTime.minutes;
	*second = mvRtcTime.seconds;
	}

	void diag_set_rtc_time(int hour, int minute, int second)
	{
	MV_RTC_TIME mvRtcTime;

	mvRtcTime.hours = hour;
	mvRtcTime.minutes = minute;
	mvRtcTime.seconds = second;

	mvRtcTimeSet(&mvRtcTime);
	}