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uboot-1.1.4-kirkwood/diag/diag_memory.c

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2024-01-09 13:43:28 +01:00
#include <common.h>
#include "diag.h"
/*******************************************************************************
*
* Name : mem_data_bus_test
* Description : The function tests data bus of the DRAM. It writes walking one
* pattern to a fixed memory location.
* Input arg : None
* Output arg : None
* Return : Returns 1 on failure, else 0
*******************************************************************************/
int mem_data_bus_test(void)
{
unsigned int pattern = 1;
unsigned int *address = mem_test_start_offset;
printf("\tDDR2 data bus test ");
for(; pattern != 0; pattern <<= 1)
{
*address = pattern;
if(pattern != *address)
{
printf("FAILED\n");
printf("\t\tTest failed at offset = 0x%X\n"
"\t\tData written = 0x%X\n"
"\t\tData read = 0x%X\n", address,
pattern, *address);
return 1;
}
}
printf("PASSED\n");
return 0;
}
/*******************************************************************************
*
* Name : mem_address_bus_test
* Description : The function tests address bus of the DRAM. It writes walking
* one pattern while changes the addresses in the same way. i.e.
* write 1 to offset 1, 8 to offset 8, etc. Verify the data after
* writting to the buffer with length MEM_ADD_TEST_SIZE.
* Input arg : None
* Output arg : None
* Return : Returns 1 on failure, else 0
*******************************************************************************/
int mem_address_bus_test(void)
{
unsigned int offset = 1, size;
unsigned int *base_address = mem_test_start_offset;
size = mem_test_end_offset - mem_test_start_offset;
printf("\tDDR2 address bus test ");
/* We should start with pattern = 1. As we want to use offset and
* pattern the same variable, we will decrement base address by 1.
* So, even if we start with offset = pattern = 1, we have actually
* started from the given base address. */
base_address--;
for(; offset < size; offset <<= 1)
{
base_address[offset] = offset;
}
for(offset = 1; offset < size; offset <<= 1)
{
if(base_address[offset] != offset)
{
printf("FAILED\n");
printf("\t\tTest failed at offset = 0x%X\n"
"\t\tData written = 0x%X\n"
"\t\tData read = 0x%X\n", base_address
+ offset, offset, base_address[offset]);
return 1;
}
}
printf("PASSED\n");
return 0;
}
/*******************************************************************************
*
* Name : mem_device_test
* Description : The function tests address bus of the DRAM. It writes walking
* one pattern while changes the addresses in the same way. i.e.
* write 1 to offset 1, 8 to offset 8, etc. Verify the data after
* writting to the buffer with length MEM_ADD_TEST_SIZE.
* Input arg : None
* Output arg : None
* Return : Returns 1 on failure, else 0
*******************************************************************************/
int mem_device_test(void)
{
unsigned int offset = 1, size;
unsigned int *base_address = mem_test_start_offset;
size = mem_test_end_offset - mem_test_start_offset;
printf("\tDDR2 device test ");
/* Debug print */
#ifdef DEBUG
printf("Start address = %#X\n", base_address);
printf("size = %#X\n", size);
#endif
/* We should start with pattern = 1. As we want to use offset and
* pattern the same variable, we will decrement base address by 1.
* So, even if we start with offset = pattern = 1, we have actually
* started from the given base address. */
base_address--;
for(; offset < size; offset++)
{
base_address[offset] = offset;
}
/* Check previously written pattern and write anti-pattern */
for(offset = 1; offset < size; offset++)
{
if(base_address[offset] != offset)
{
printf("FAILED\n");
printf("\t\tTest failed at offset = 0x%X\n"
"\t\tData written = 0x%X\n"
"\t\tData read = 0x%X\n", base_address
+ offset, offset, base_address[offset]);
return 1;
}
/* Write anti-pattern */
base_address[offset] = ~offset;
}
/* Debug print */
#ifdef DEBUG
printf("Checking anti-pattern\n");
#endif
/* Check anti-pattern */
for(offset = 1; offset < size; offset++)
{
if(base_address[offset] != ~offset)
{
printf("FAILED\n");
printf("\t\tTest failed at offset = 0x%X\n"
"\t\tData written = 0x%X\n"
"\t\tData read = 0x%X\n", base_address
+ offset, ~offset, base_address[offset]);
return 1;
}
}
printf("PASSED\n");
return 0;
}