OpenCores

Rev 406	Rev 464
`#include "common.h"`	`#include "common.h"`
`#include "support.h"`	`#include "support.h"`
`#include "spr-defs.h"`	`#include "spr-defs.h"`
`#include "spincursor.h"`	`#include "spincursor.h"`

`void show_mem(int start, int stop)`	`void show_mem(int start, int stop)`
`{`	`{`
`unsigned long i = start;`	`unsigned long i = start;`
`if ((i & 0xf) != 0x0)`	`if ((i & 0xf) != 0x0)`
`printf("\n%08lx: ", i);`	`printf("\n%08lx: ", i);`
`for (; i <= stop; i += 4) {`	`for (; i <= stop; i += 4) {`
`if ((i & 0xf) == 0x0)`	`if ((i & 0xf) == 0x0)`
`printf("\n%08lx: ", i);`	`printf("\n%08lx: ", i);`
`/* Read one word */`	`/* Read one word */`
`printf("%08lx ", REG32(i));`	`printf("%08lx ", REG32(i));`
`}`	`}`
`printf("\n");`	`printf("\n");`
`}`	`}`

`void testram(unsigned long start_addr, unsigned long stop_addr,`	`void testram(unsigned long start_addr, unsigned long stop_addr,`
`unsigned long testno)`	`unsigned long testno)`
`{`	`{`
`unsigned long addr;`	`unsigned long addr;`
`unsigned long err_addr = 0;`	`unsigned long err_addr = 0;`
`unsigned long err_no = 0;`	`unsigned long err_no = 0;`

	`unsigned long stack_top = (unsigned long) &_src_addr;`

	`if (start_addr < stack_top)`
	`{`
	`printf("\n");`
	`printf("Warning: RAM test will overwrite stack.\n");`
	`printf(" Moving start of test to 0x%08x to avoid stack\n",`
	`stack_top);`
	`start_addr = stack_top;`
	`}`

	`if (start_addr >= stop_addr)`
	`{`
	`printf("ram_test: Start of test must be after end (0x%08x !< 0x%08x)\n",`
	`start_addr, stop_addr);`
	`printf("ram_test: Aborting.\n");`
	`return;`
	`}`

`/* Test 1: Write locations with their addresses */`	`/* Test 1: Write locations with their addresses */`
`if ((testno == 1) \|\| (testno == 0)) {`	`if ((testno == 1) \|\| (testno == 0)) {`
`printf("\n1. Writing locations with their addresses: ");`	`printf("\n1. Writing locations with their addresses: ");`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`REG32(addr) = addr;`	`REG32(addr) = addr;`

`/* Verify */`	`/* Verify */`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`if (REG32(addr) != addr) {`	`if (REG32(addr) != addr) {`
`err_no++;`	`err_no++;`
`err_addr = addr;`	`err_addr = addr;`
`}`	`}`
`if (err_no)`	`if (err_no)`
`printf("%04lx times failed. Last at location %08lx",`	`printf("%04lx times failed. Last at location %08lx",`
`err_no, err_addr);`	`err_no, err_addr);`
`else`	`else`
`printf("Passed");`	`printf("Passed");`
`err_no = 0;`	`err_no = 0;`
`}`	`}`

`/* Test 2: Write locations with their inverse address */`	`/* Test 2: Write locations with their inverse address */`
`if ((testno == 2) \|\| (testno == 0)) {`	`if ((testno == 2) \|\| (testno == 0)) {`
`printf("\n2. Writing locations with their inverse addresses: ");`	`printf("\n2. Writing locations with their inverse addresses: ");`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`REG32(addr) = ~addr;`	`REG32(addr) = ~addr;`

`/* Verify */`	`/* Verify */`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`if (REG32(addr) != ~addr) {`	`if (REG32(addr) != ~addr) {`
`err_no++;`	`err_no++;`
`err_addr = addr;`	`err_addr = addr;`
`}`	`}`
`if (err_no)`	`if (err_no)`
`printf("%04lx times failed. Last at location %08lx",`	`printf("%04lx times failed. Last at location %08lx",`
`err_no, err_addr);`	`err_no, err_addr);`
`else`	`else`
`printf("Passed");`	`printf("Passed");`
`err_no = 0;`	`err_no = 0;`
`}`	`}`

`/* Test 3: Write locations with walking ones */`	`/* Test 3: Write locations with walking ones */`
`if ((testno == 3) \|\| (testno == 0)) {`	`if ((testno == 3) \|\| (testno == 0)) {`
`printf("\n3. Writing locations with walking ones: ");`	`printf("\n3. Writing locations with walking ones: ");`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`REG32(addr) = 1 << (addr >> 2);`	`REG32(addr) = 1 << (addr >> 2);`

`/* Verify */`	`/* Verify */`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`if (REG32(addr) != (1 << (addr >> 2))) {`	`if (REG32(addr) != (1 << (addr >> 2))) {`
`err_no++;`	`err_no++;`
`err_addr = addr;`	`err_addr = addr;`
`}`	`}`
`if (err_no)`	`if (err_no)`
`printf("%04lx times failed. Last at location %08lx",`	`printf("%04lx times failed. Last at location %08lx",`
`err_no, err_addr);`	`err_no, err_addr);`
`else`	`else`
`printf("Passed");`	`printf("Passed");`
`err_no = 0;`	`err_no = 0;`
`}`	`}`

`/* Test 4: Write locations with walking zeros */`	`/* Test 4: Write locations with walking zeros */`
`if ((testno == 4) \|\| (testno == 0)) {`	`if ((testno == 4) \|\| (testno == 0)) {`
`printf("\n4. Writing locations with walking zeros: ");`	`printf("\n4. Writing locations with walking zeros: ");`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`REG32(addr) = ~(1 << (addr >> 2));`	`REG32(addr) = ~(1 << (addr >> 2));`

`/* Verify */`	`/* Verify */`
`for (addr = start_addr; addr <= stop_addr; addr += 4)`	`for (addr = start_addr; addr <= stop_addr; addr += 4)`
`if (REG32(addr) != ~(1 << (addr >> 2))) {`	`if (REG32(addr) != ~(1 << (addr >> 2))) {`
`err_no++;`	`err_no++;`
`err_addr = addr;`	`err_addr = addr;`
`}`	`}`
`if (err_no)`	`if (err_no)`
`printf("%04lx times failed. Last at location %08lx",`	`printf("%04lx times failed. Last at location %08lx",`
`err_no, err_addr);`	`err_no, err_addr);`
`else`	`else`
`printf("Passed");`	`printf("Passed");`
`err_no = 0;`	`err_no = 0;`
`}`	`}`
`}`	`}`

`// Do proper walking 0 as byte writes`	`// Do proper walking 0 as byte writes`
`void better_ram_test(unsigned long start_addr, unsigned long stop_addr,`	`void better_ram_test(unsigned long start_addr, unsigned long stop_addr,`
`unsigned test_no)`	`unsigned test_no)`
`{`	`{`
`unsigned long addr;`	`unsigned long addr;`
`unsigned long err_addr = 0;`	`unsigned long err_addr = 0;`
`unsigned long err_no = 0;`	`unsigned long err_no = 0;`
`int b;`	`int b;`
`printf("\nSetting memory contents to all 1'b1 ");`	`printf("\nSetting memory contents to all 1'b1 ");`
`//enable_spincursor();`	`//enable_spincursor();`
`for (addr = start_addr; addr <= stop_addr; addr += 1)`	`for (addr = start_addr; addr <= stop_addr; addr += 1)`
`REG8(addr) = 0xff;`	`REG8(addr) = 0xff;`
`//disable_spincursor();`	`//disable_spincursor();`
`printf("\rVerifying memory contents all set to 1'b1: ");`	`printf("\rVerifying memory contents all set to 1'b1: ");`
`//enable_spincursor();`	`//enable_spincursor();`
`/* Verify */`	`/* Verify */`
`for (addr = start_addr; addr <= stop_addr; addr += 1) {`	`for (addr = start_addr; addr <= stop_addr; addr += 1) {`
`if (REG8(addr) != 0xff) {`	`if (REG8(addr) != 0xff) {`
`err_no++;`	`err_no++;`
`err_addr = addr;`	`err_addr = addr;`
`//disable_spincursor();`	`//disable_spincursor();`
`printf("\n%04lx times failed. Last at location %08lx ",`	`printf("\n%04lx times failed. Last at location %08lx ",`
`err_no, err_addr);`	`err_no, err_addr);`
`//enable_spincursor();`	`//enable_spincursor();`
`}`	`}`
`}`	`}`

`if (err_no == 0)`	`if (err_no == 0)`
`printf("Passed");`	`printf("Passed");`
`else`	`else`
`printf("Finished");`	`printf("Finished");`

`err_no = 0;`	`err_no = 0;`

`printf("\nWalking zero through memory, verify just itself: ");`	`printf("\nWalking zero through memory, verify just itself: ");`
`for (addr = start_addr; addr <= stop_addr; addr += 1) {`	`for (addr = start_addr; addr <= stop_addr; addr += 1) {`
`for (b = 0; b < 8; b++) {`	`for (b = 0; b < 8; b++) {`
`// Write, verify`	`// Write, verify`
`REG8(addr) = ~(1 << b);`	`REG8(addr) = ~(1 << b);`

`if (REG8(addr) != ~(1 << b)) {`	`if (REG8(addr) != ~(1 << b)) {`
`err_no++;`	`err_no++;`
`err_addr = addr;`	`err_addr = addr;`
`printf`	`printf`
`("\n%04lx times failed. Last at location %08lx",`	`("\n%04lx times failed. Last at location %08lx",`
`err_no, err_addr);`	`err_no, err_addr);`
`}`	`}`
`REG8(addr) = 0xff;`	`REG8(addr) = 0xff;`
`}`	`}`
`}`	`}`
`if (err_no == 0)`	`if (err_no == 0)`
`printf("Passed");`	`printf("Passed");`
`else`	`else`
`printf("Finished");`	`printf("Finished");`
`err_no = 0;`	`err_no = 0;`

`printf("\nWriting across rows, row size configured as %d bytes",`	`printf("\nWriting across rows, row size configured as %d bytes",`
`SDRAM_ROW_SIZE);`	`SDRAM_ROW_SIZE);`
`unsigned long start_row = start_addr / SDRAM_ROW_SIZE;`	`unsigned long start_row = start_addr / SDRAM_ROW_SIZE;`
`unsigned long end_row = stop_addr / SDRAM_ROW_SIZE;`	`unsigned long end_row = stop_addr / SDRAM_ROW_SIZE;`
`for (addr = start_row; addr <= end_row; addr += 1) {`	`for (addr = start_row; addr <= end_row; addr += 1) {`
`REG32(addr * SDRAM_ROW_SIZE) = addr;`	`REG32(addr * SDRAM_ROW_SIZE) = addr;`
`}`	`}`

`printf("\rVerifying row write test: ");`	`printf("\rVerifying row write test: ");`

`for (addr = start_row; addr <= end_row; addr += 1) {`	`for (addr = start_row; addr <= end_row; addr += 1) {`
`if (REG32(addr * SDRAM_ROW_SIZE) != addr) {`	`if (REG32(addr * SDRAM_ROW_SIZE) != addr) {`
`err_no++;`	`err_no++;`
`err_addr = addr * SDRAM_ROW_SIZE;`	`err_addr = addr * SDRAM_ROW_SIZE;`
`printf`	`printf`
`("\n%04lx times failed. Last at location %08lx (row %d)",`	`("\n%04lx times failed. Last at location %08lx (row %d)",`
`err_no, err_addr, addr);`	`err_no, err_addr, addr);`
`}`	`}`
`}`	`}`

`if (err_no == 0)`	`if (err_no == 0)`
`printf("Passed");`	`printf("Passed");`
`else`	`else`
`printf("Finished");`	`printf("Finished");`
`err_no = 0;`	`err_no = 0;`

`}`	`}`

`int dm_cmd(int argc, char *argv[])`	`int dm_cmd(int argc, char *argv[])`
`{`	`{`
`unsigned long a1, a2;`	`unsigned long a1, a2;`
`a1 = strtoul(argv[0], 0, 0);`	`a1 = strtoul(argv[0], 0, 0);`
`switch (argc) {`	`switch (argc) {`
`case 1:`	`case 1:`
`show_mem(a1, a1);`	`show_mem(a1, a1);`
`return 0;`	`return 0;`
`case 2:`	`case 2:`
`a2 = strtoul(argv[1], 0, 0);`	`a2 = strtoul(argv[1], 0, 0);`
`show_mem(a1, a2);`	`show_mem(a1, a2);`
`return 0;`	`return 0;`
`default:`	`default:`
`return -1;`	`return -1;`
`}`	`}`
`}`	`}`

`int pm_cmd(int argc, char *argv[])`	`int pm_cmd(int argc, char *argv[])`
`{`	`{`
`unsigned long addr, stop_addr, value;`	`unsigned long addr, stop_addr, value;`
`if ((argc == 3) \|\| (argc == 2)) {`	`if ((argc == 3) \|\| (argc == 2)) {`
`addr = strtoul(argv[0], 0, 0);`	`addr = strtoul(argv[0], 0, 0);`

`if (argc == 2) {`	`if (argc == 2) {`
`stop_addr = strtoul(argv[0], 0, 0);`	`stop_addr = strtoul(argv[0], 0, 0);`
`value = strtoul(argv[1], 0, 0);`	`value = strtoul(argv[1], 0, 0);`
`} else {`	`} else {`
`stop_addr = strtoul(argv[1], 0, 0);`	`stop_addr = strtoul(argv[1], 0, 0);`
`value = strtoul(argv[2], 0, 0);`	`value = strtoul(argv[2], 0, 0);`
`}`	`}`

`for (; addr <= stop_addr; addr += 4)`	`for (; addr <= stop_addr; addr += 4)`
`REG32(addr) = value;`	`REG32(addr) = value;`

`/show_mem(strtoul (argv[0], 0, 0), stop_addr); /`	`/show_mem(strtoul (argv[0], 0, 0), stop_addr); /`
`} else`	`} else`
`return -1;`	`return -1;`
`return 0;`	`return 0;`
`}`	`}`

`int ram_test_cmd(int argc, char *argv[])`	`int ram_test_cmd(int argc, char *argv[])`
`{`	`{`
`switch (argc) {`	`switch (argc) {`
`case 2:`	`case 2:`
`testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);`	`testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);`
`return 0;`	`return 0;`
`case 3:`	`case 3:`
`testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0),`	`testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0),`
`strtoul(argv[2], 0, 0));`	`strtoul(argv[2], 0, 0));`
`return 0;`	`return 0;`
`default:`	`default:`
`return -1;`	`return -1;`
`}`	`}`
`}`	`}`

`int better_ram_test_cmd(int argc, char *argv[])`	`int better_ram_test_cmd(int argc, char *argv[])`
`{`	`{`
`if (argc < 2)`	`if (argc < 2)`
`return -1;`	`return -1;`

`better_ram_test(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);`	`better_ram_test(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);`
`return 0;`	`return 0;`
`}`	`}`

`unsigned long crc32(unsigned long crc, const unsigned char *buf,`	`unsigned long crc32(unsigned long crc, const unsigned char *buf,`
`unsigned long len)`	`unsigned long len)`
`{`	`{`
`/* Create bitwise CRC table first */`	`/* Create bitwise CRC table first */`
`unsigned long crc_table[256];`	`unsigned long crc_table[256];`
`int i, k;`	`int i, k;`
`for (i = 0; i < 256; i++) {`	`for (i = 0; i < 256; i++) {`
`unsigned long c = (unsigned long)i;`	`unsigned long c = (unsigned long)i;`
`for (k = 0; k < 8; k++)`	`for (k = 0; k < 8; k++)`
`c = c & 1 ? 0xedb88320 ^ (c >> 1) : c >> 1;`	`c = c & 1 ? 0xedb88320 ^ (c >> 1) : c >> 1;`
`crc_table[i] = c;`	`crc_table[i] = c;`
`}`	`}`

`/* Calculate crc on buf */`	`/* Calculate crc on buf */`
`crc = crc ^ 0xffffffffL;`	`crc = crc ^ 0xffffffffL;`
`while (len--)`	`while (len--)`
`crc = crc_table[((int)crc ^ (*buf++)) & 0xff] ^ (crc >> 8);`	`crc = crc_table[((int)crc ^ (*buf++)) & 0xff] ^ (crc >> 8);`
`return crc ^ 0xffffffffL;`	`return crc ^ 0xffffffffL;`
`}`	`}`

`int crc_cmd(int argc, char *argv[])`	`int crc_cmd(int argc, char *argv[])`
`{`	`{`
`unsigned long addr = global.src_addr;`	`unsigned long addr = global.src_addr;`
`unsigned long len = global.length;`	`unsigned long len = global.length;`
`unsigned long init_crc = 0;`	`unsigned long init_crc = 0;`

`switch (argc) {`	`switch (argc) {`
`case 3:`	`case 3:`
`init_crc = strtoul(argv[2], 0, 0);`	`init_crc = strtoul(argv[2], 0, 0);`
`case 2:`	`case 2:`
`len = strtoul(argv[1], 0, 0);`	`len = strtoul(argv[1], 0, 0);`
`case 1:`	`case 1:`
`addr = strtoul(argv[0], 0, 0);`	`addr = strtoul(argv[0], 0, 0);`
`case 0:`	`case 0:`
`printf("CRC [%08lx-%08lx] = %08lx\n", addr, addr + len - 1,`	`printf("CRC [%08lx-%08lx] = %08lx\n", addr, addr + len - 1,`
`crc32(init_crc, (unsigned char *)addr, len));`	`crc32(init_crc, (unsigned char *)addr, len));`
`return 0;`	`return 0;`
`}`	`}`
`return -1;`	`return -1;`
`}`	`}`

`void module_memory_init(void)`	`void module_memory_init(void)`
`{`	`{`
`register_command("dm", "<start addr> [<end addr>]",`	`register_command("dm", "<start addr> [<end addr>]",`
`"display 32-bit memory location(s)", dm_cmd);`	`"display 32-bit memory location(s)", dm_cmd);`
`register_command("pm", "<addr> [<stop_addr>] <value>",`	`register_command("pm", "<addr> [<stop_addr>] <value>",`
`"patch 32-bit memory location(s)", pm_cmd);`	`"patch 32-bit memory location(s)", pm_cmd);`
`register_command("ram_test", "<start_addr> <stop_addr> [<test_no>]",`	`register_command("ram_test", "<start_addr> <stop_addr> [<test_no>]",`
`"run a simple RAM test", ram_test_cmd);`	`"run a simple RAM test", ram_test_cmd);`
`register_command("better_ram_test", "<start_addr> <stop_addr>",`	`register_command("better_ram_test", "<start_addr> <stop_addr>",`
`"run a better RAM test", better_ram_test_cmd);`	`"run a better RAM test", better_ram_test_cmd);`

`register_command("crc", "[<src_addr> [<length> [<init_crc>]]]",`	`register_command("crc", "[<src_addr> [<length> [<init_crc>]]]",`
`"Calculates a 32-bit CRC on specified memory region",`	`"Calculates a 32-bit CRC on specified memory region",`
`crc_cmd);`	`crc_cmd);`
`}`	`}`

#include "common.h"

#include "common.h"

#include "support.h"

#include "support.h"

#include "spr-defs.h"

#include "spr-defs.h"

#include "spincursor.h"

#include "spincursor.h"

void show_mem(int start, int stop)

void show_mem(int start, int stop)

        unsigned long i = start;

        unsigned long i = start;

        if ((i & 0xf) != 0x0)

        if ((i & 0xf) != 0x0)

                printf("\n%08lx: ", i);

                printf("\n%08lx: ", i);

        for (; i <= stop; i += 4) {

        for (; i <= stop; i += 4) {

                if ((i & 0xf) == 0x0)

                if ((i & 0xf) == 0x0)

                        printf("\n%08lx: ", i);

                        printf("\n%08lx: ", i);

                /* Read one word */

                /* Read one word */

                printf("%08lx ", REG32(i));

                printf("%08lx ", REG32(i));

        printf("\n");

        printf("\n");

void testram(unsigned long start_addr, unsigned long stop_addr,

void testram(unsigned long start_addr, unsigned long stop_addr,

             unsigned long testno)

             unsigned long testno)

        unsigned long addr;

        unsigned long addr;

        unsigned long err_addr = 0;

        unsigned long err_addr = 0;

        unsigned long err_no = 0;

        unsigned long err_no = 0;

        unsigned long stack_top = (unsigned long) &_src_addr;

        if (start_addr < stack_top)

                printf("\n");

                printf("Warning: RAM test will overwrite stack.\n");

                printf("         Moving start of test to 0x%08x to avoid stack\n",

                       stack_top);

                start_addr = stack_top;

        if (start_addr >= stop_addr)

                printf("ram_test: Start of test must be after end (0x%08x !< 0x%08x)\n",

                       start_addr, stop_addr);

                printf("ram_test: Aborting.\n");

                return;

        /* Test 1: Write locations with their addresses */

        /* Test 1: Write locations with their addresses */

        if ((testno == 1) || (testno == 0)) {

        if ((testno == 1) || (testno == 0)) {

                printf("\n1. Writing locations with their addresses: ");

                printf("\n1. Writing locations with their addresses: ");

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        REG32(addr) = addr;

                        REG32(addr) = addr;

                /* Verify */

                /* Verify */

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        if (REG32(addr) != addr) {

                        if (REG32(addr) != addr) {

                                err_no++;

                                err_no++;

                                err_addr = addr;

                                err_addr = addr;

                if (err_no)

                if (err_no)

                        printf("%04lx times failed. Last at location %08lx",

                        printf("%04lx times failed. Last at location %08lx",

                               err_no, err_addr);

                               err_no, err_addr);

                else

                else

                        printf("Passed");

                        printf("Passed");

                err_no = 0;

                err_no = 0;

        /* Test 2: Write locations with their inverse address */

        /* Test 2: Write locations with their inverse address */

        if ((testno == 2) || (testno == 0)) {

        if ((testno == 2) || (testno == 0)) {

                printf("\n2. Writing locations with their inverse addresses: ");

                printf("\n2. Writing locations with their inverse addresses: ");

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        REG32(addr) = ~addr;

                        REG32(addr) = ~addr;

                /* Verify */

                /* Verify */

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        if (REG32(addr) != ~addr) {

                        if (REG32(addr) != ~addr) {

                                err_no++;

                                err_no++;

                                err_addr = addr;

                                err_addr = addr;

                if (err_no)

                if (err_no)

                        printf("%04lx times failed. Last at location %08lx",

                        printf("%04lx times failed. Last at location %08lx",

                               err_no, err_addr);

                               err_no, err_addr);

                else

                else

                        printf("Passed");

                        printf("Passed");

                err_no = 0;

                err_no = 0;

        /* Test 3: Write locations with walking ones */

        /* Test 3: Write locations with walking ones */

        if ((testno == 3) || (testno == 0)) {

        if ((testno == 3) || (testno == 0)) {

                printf("\n3. Writing locations with walking ones: ");

                printf("\n3. Writing locations with walking ones: ");

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        REG32(addr) = 1 << (addr >> 2);

                        REG32(addr) = 1 << (addr >> 2);

                /* Verify */

                /* Verify */

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        if (REG32(addr) != (1 << (addr >> 2))) {

                        if (REG32(addr) != (1 << (addr >> 2))) {

                                err_no++;

                                err_no++;

                                err_addr = addr;

                                err_addr = addr;

                if (err_no)

                if (err_no)

                        printf("%04lx times failed. Last at location %08lx",

                        printf("%04lx times failed. Last at location %08lx",

                               err_no, err_addr);

                               err_no, err_addr);

                else

                else

                        printf("Passed");

                        printf("Passed");

                err_no = 0;

                err_no = 0;

        /* Test 4: Write locations with walking zeros */

        /* Test 4: Write locations with walking zeros */

        if ((testno == 4) || (testno == 0)) {

        if ((testno == 4) || (testno == 0)) {

                printf("\n4. Writing locations with walking zeros: ");

                printf("\n4. Writing locations with walking zeros: ");

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        REG32(addr) = ~(1 << (addr >> 2));

                        REG32(addr) = ~(1 << (addr >> 2));

                /* Verify */

                /* Verify */

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                for (addr = start_addr; addr <= stop_addr; addr += 4)

                        if (REG32(addr) != ~(1 << (addr >> 2))) {

                        if (REG32(addr) != ~(1 << (addr >> 2))) {

                                err_no++;

                                err_no++;

                                err_addr = addr;

                                err_addr = addr;

                if (err_no)

                if (err_no)

                        printf("%04lx times failed. Last at location %08lx",

                        printf("%04lx times failed. Last at location %08lx",

                               err_no, err_addr);

                               err_no, err_addr);

                else

                else

                        printf("Passed");

                        printf("Passed");

                err_no = 0;

                err_no = 0;

// Do proper walking 0 as byte writes

// Do proper walking 0 as byte writes

void better_ram_test(unsigned long start_addr, unsigned long stop_addr,

void better_ram_test(unsigned long start_addr, unsigned long stop_addr,

                     unsigned test_no)

                     unsigned test_no)

        unsigned long addr;

        unsigned long addr;

        unsigned long err_addr = 0;

        unsigned long err_addr = 0;

        unsigned long err_no = 0;

        unsigned long err_no = 0;

        int b;

        int b;

        printf("\nSetting memory contents to all 1'b1  ");

        printf("\nSetting memory contents to all 1'b1  ");

        //enable_spincursor();

        //enable_spincursor();

        for (addr = start_addr; addr <= stop_addr; addr += 1)

        for (addr = start_addr; addr <= stop_addr; addr += 1)

                REG8(addr) = 0xff;

                REG8(addr) = 0xff;

        //disable_spincursor();

        //disable_spincursor();

        printf("\rVerifying memory contents all set to 1'b1:  ");

        printf("\rVerifying memory contents all set to 1'b1:  ");

        //enable_spincursor();

        //enable_spincursor();

        /* Verify */

        /* Verify */

        for (addr = start_addr; addr <= stop_addr; addr += 1) {

        for (addr = start_addr; addr <= stop_addr; addr += 1) {

                if (REG8(addr) != 0xff) {

                if (REG8(addr) != 0xff) {

                        err_no++;

                        err_no++;

                        err_addr = addr;

                        err_addr = addr;

                        //disable_spincursor();

                        //disable_spincursor();

                        printf("\n%04lx times failed. Last at location %08lx  ",

                        printf("\n%04lx times failed. Last at location %08lx  ",

                               err_no, err_addr);

                               err_no, err_addr);

                        //enable_spincursor();

                        //enable_spincursor();

        if (err_no == 0)

        if (err_no == 0)

                printf("Passed");

                printf("Passed");

        else

        else

                printf("Finished");

                printf("Finished");

        err_no = 0;

        err_no = 0;

        printf("\nWalking zero through memory, verify just itself: ");

        printf("\nWalking zero through memory, verify just itself: ");

        for (addr = start_addr; addr <= stop_addr; addr += 1) {

        for (addr = start_addr; addr <= stop_addr; addr += 1) {

                for (b = 0; b < 8; b++) {

                for (b = 0; b < 8; b++) {

                        // Write, verify

                        // Write, verify

                        REG8(addr) = ~(1 << b);

                        REG8(addr) = ~(1 << b);

                        if (REG8(addr) != ~(1 << b)) {

                        if (REG8(addr) != ~(1 << b)) {

                                err_no++;

                                err_no++;

                                err_addr = addr;

                                err_addr = addr;

                                printf

                                printf

                                    ("\n%04lx times failed. Last at location %08lx",

                                    ("\n%04lx times failed. Last at location %08lx",

                                     err_no, err_addr);

                                     err_no, err_addr);

                        REG8(addr) = 0xff;

                        REG8(addr) = 0xff;

        if (err_no == 0)

        if (err_no == 0)

                printf("Passed");

                printf("Passed");

        else

        else

                printf("Finished");

                printf("Finished");

        err_no = 0;

        err_no = 0;

        printf("\nWriting across rows, row size configured as %d bytes",

        printf("\nWriting across rows, row size configured as %d bytes",

               SDRAM_ROW_SIZE);

               SDRAM_ROW_SIZE);

        unsigned long start_row = start_addr / SDRAM_ROW_SIZE;

        unsigned long start_row = start_addr / SDRAM_ROW_SIZE;

        unsigned long end_row = stop_addr / SDRAM_ROW_SIZE;

        unsigned long end_row = stop_addr / SDRAM_ROW_SIZE;

        for (addr = start_row; addr <= end_row; addr += 1) {

        for (addr = start_row; addr <= end_row; addr += 1) {

                REG32(addr * SDRAM_ROW_SIZE) = addr;

                REG32(addr * SDRAM_ROW_SIZE) = addr;

        printf("\rVerifying row write test: ");

        printf("\rVerifying row write test: ");

        for (addr = start_row; addr <= end_row; addr += 1) {

        for (addr = start_row; addr <= end_row; addr += 1) {

                if (REG32(addr * SDRAM_ROW_SIZE) != addr) {

                if (REG32(addr * SDRAM_ROW_SIZE) != addr) {

                        err_no++;

                        err_no++;

                        err_addr = addr * SDRAM_ROW_SIZE;

                        err_addr = addr * SDRAM_ROW_SIZE;

                        printf

                        printf

                            ("\n%04lx times failed. Last at location %08lx (row %d)",

                            ("\n%04lx times failed. Last at location %08lx (row %d)",

                             err_no, err_addr, addr);

                             err_no, err_addr, addr);

        if (err_no == 0)

        if (err_no == 0)

                printf("Passed");

                printf("Passed");

        else

        else

                printf("Finished");

                printf("Finished");

        err_no = 0;

        err_no = 0;

int dm_cmd(int argc, char *argv[])

int dm_cmd(int argc, char *argv[])

        unsigned long a1, a2;

        unsigned long a1, a2;

        a1 = strtoul(argv[0], 0, 0);

        a1 = strtoul(argv[0], 0, 0);

        switch (argc) {

        switch (argc) {

        case 1:

        case 1:

                show_mem(a1, a1);

                show_mem(a1, a1);

                return 0;

                return 0;

        case 2:

        case 2:

                a2 = strtoul(argv[1], 0, 0);

                a2 = strtoul(argv[1], 0, 0);

                show_mem(a1, a2);

                show_mem(a1, a2);

                return 0;

                return 0;

        default:

        default:

                return -1;

                return -1;

int pm_cmd(int argc, char *argv[])

int pm_cmd(int argc, char *argv[])

        unsigned long addr, stop_addr, value;

        unsigned long addr, stop_addr, value;

        if ((argc == 3) || (argc == 2)) {

        if ((argc == 3) || (argc == 2)) {

                addr = strtoul(argv[0], 0, 0);

                addr = strtoul(argv[0], 0, 0);

                if (argc == 2) {

                if (argc == 2) {

                        stop_addr = strtoul(argv[0], 0, 0);

                        stop_addr = strtoul(argv[0], 0, 0);

                        value = strtoul(argv[1], 0, 0);

                        value = strtoul(argv[1], 0, 0);

                } else {

                } else {

                        stop_addr = strtoul(argv[1], 0, 0);

                        stop_addr = strtoul(argv[1], 0, 0);

                        value = strtoul(argv[2], 0, 0);

                        value = strtoul(argv[2], 0, 0);

                for (; addr <= stop_addr; addr += 4)

                for (; addr <= stop_addr; addr += 4)

                        REG32(addr) = value;

                        REG32(addr) = value;

                /*show_mem(strtoul (argv[0], 0, 0), stop_addr); */

                /*show_mem(strtoul (argv[0], 0, 0), stop_addr); */

        } else

        } else

                return -1;

                return -1;

        return 0;

        return 0;

int ram_test_cmd(int argc, char *argv[])

int ram_test_cmd(int argc, char *argv[])

        switch (argc) {

        switch (argc) {

        case 2:

        case 2:

                testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);

                testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);

                return 0;

                return 0;

        case 3:

        case 3:

                testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0),

                testram(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0),

                        strtoul(argv[2], 0, 0));

                        strtoul(argv[2], 0, 0));

                return 0;

                return 0;

        default:

        default:

                return -1;

                return -1;

int better_ram_test_cmd(int argc, char *argv[])

int better_ram_test_cmd(int argc, char *argv[])

        if (argc < 2)

        if (argc < 2)

                return -1;

                return -1;

        better_ram_test(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);

        better_ram_test(strtoul(argv[0], 0, 0), strtoul(argv[1], 0, 0), 0);

        return 0;

        return 0;

unsigned long crc32(unsigned long crc, const unsigned char *buf,

unsigned long crc32(unsigned long crc, const unsigned char *buf,

                    unsigned long len)

                    unsigned long len)

        /* Create bitwise CRC table first */

        /* Create bitwise CRC table first */

        unsigned long crc_table[256];

        unsigned long crc_table[256];

        int i, k;

        int i, k;

        for (i = 0; i < 256; i++) {

        for (i = 0; i < 256; i++) {

                unsigned long c = (unsigned long)i;

                unsigned long c = (unsigned long)i;

                for (k = 0; k < 8; k++)

                for (k = 0; k < 8; k++)

                        c = c & 1 ? 0xedb88320 ^ (c >> 1) : c >> 1;

                        c = c & 1 ? 0xedb88320 ^ (c >> 1) : c >> 1;

                crc_table[i] = c;

                crc_table[i] = c;

        /* Calculate crc on buf */

        /* Calculate crc on buf */

        crc = crc ^ 0xffffffffL;

        crc = crc ^ 0xffffffffL;

        while (len--)

        while (len--)

                crc = crc_table[((int)crc ^ (*buf++)) & 0xff] ^ (crc >> 8);

                crc = crc_table[((int)crc ^ (*buf++)) & 0xff] ^ (crc >> 8);

        return crc ^ 0xffffffffL;

        return crc ^ 0xffffffffL;

int crc_cmd(int argc, char *argv[])

int crc_cmd(int argc, char *argv[])

        unsigned long addr = global.src_addr;

        unsigned long addr = global.src_addr;

        unsigned long len = global.length;

        unsigned long len = global.length;

        unsigned long init_crc = 0;

        unsigned long init_crc = 0;

        switch (argc) {

        switch (argc) {

        case 3:

        case 3:

                init_crc = strtoul(argv[2], 0, 0);

                init_crc = strtoul(argv[2], 0, 0);

        case 2:

        case 2:

                len = strtoul(argv[1], 0, 0);

                len = strtoul(argv[1], 0, 0);

        case 1:

        case 1:

                addr = strtoul(argv[0], 0, 0);

                addr = strtoul(argv[0], 0, 0);

        case 0:

        case 0:

                printf("CRC [%08lx-%08lx] = %08lx\n", addr, addr + len - 1,

                printf("CRC [%08lx-%08lx] = %08lx\n", addr, addr + len - 1,

                       crc32(init_crc, (unsigned char *)addr, len));

                       crc32(init_crc, (unsigned char *)addr, len));

                return 0;

                return 0;

        return -1;

        return -1;

void module_memory_init(void)

void module_memory_init(void)

        register_command("dm", "<start addr> [<end addr>]",

        register_command("dm", "<start addr> [<end addr>]",

                         "display 32-bit memory location(s)", dm_cmd);

                         "display 32-bit memory location(s)", dm_cmd);

        register_command("pm", "<addr> [<stop_addr>] <value>",

        register_command("pm", "<addr> [<stop_addr>] <value>",

                         "patch 32-bit memory location(s)", pm_cmd);

                         "patch 32-bit memory location(s)", pm_cmd);

        register_command("ram_test", "<start_addr> <stop_addr> [<test_no>]",

        register_command("ram_test", "<start_addr> <stop_addr> [<test_no>]",

                         "run a simple RAM test", ram_test_cmd);

                         "run a simple RAM test", ram_test_cmd);

        register_command("better_ram_test", "<start_addr> <stop_addr>",

        register_command("better_ram_test", "<start_addr> <stop_addr>",

                         "run a better RAM test", better_ram_test_cmd);

                         "run a better RAM test", better_ram_test_cmd);

        register_command("crc", "[<src_addr> [<length> [<init_crc>]]]",

        register_command("crc", "[<src_addr> [<length> [<init_crc>]]]",

                         "Calculates a 32-bit CRC on specified memory region",

                         "Calculates a 32-bit CRC on specified memory region",

                         crc_cmd);

                         crc_cmd);

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