1 files changed, 274 insertions, 0 deletions

diff --git a/projects/cli-test/test_sdram.c b/projects/cli-test/test_sdram.c
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+++ b/projects/cli-test/test_sdram.c
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+/*

+ * test_sdram.c

+ * ------------

+ * Test code for the 2x512 MBit SDRAM working memory.

+ *

+ * Copyright (c) 2016, NORDUnet A/S All rights reserved.

+ *

+ * Redistribution and use in source and binary forms, with or without

+ * modification, are permitted provided that the following conditions are

+ * met:

+ * - Redistributions of source code must retain the above copyright notice,

+ *   this list of conditions and the following disclaimer.

+ *

+ * - Redistributions in binary form must reproduce the above copyright

+ *   notice, this list of conditions and the following disclaimer in the

+ *   documentation and/or other materials provided with the distribution.

+ *

+ * - Neither the name of the NORDUnet nor the names of its contributors may

+ *   be used to endorse or promote products derived from this software

+ *   without specific prior written permission.

+ *

+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS

+ * IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED

+ * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A

+ * PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT

+ * HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,

+ * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED

+ * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR

+ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF

+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING

+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS

+ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

+ */

+#include "stm32f4xx_hal.h"

+#include "stm-led.h"

+#include "stm-sdram.h"

+#include "test_sdram.h"

+

+

+uint32_t lfsr1;

+uint32_t lfsr2;

+

+

+int test_sdram_sequential(uint32_t *base_addr)

+{

+    // memory offset

+    int offset;

+

+    // readback value

+    uint32_t sdram_readback;

+

+

+    /* This test fills entire memory chip with some pseudo-random pattern

+       starting from the very first cell and going in linear fashion. It then

+       reads entire memory and compares read values with what was written. */

+

+

+    // turn on yellow led to indicate, that we're writing

+    led_on(LED_YELLOW);

+

+

+    //

+    // Note, that SDRAM_SIZE is in BYTES, and since we write using

+    // 32-bit words, total number of words is SDRAM_SIZE / 4.

+    //

+

+    // fill entire memory with "random" values

+    for (offset=0; offset<(SDRAM_SIZE >> 2); offset++)	{

+	// generate next "random" value to write

+	lfsr1 = lfsr_next_32(lfsr1);

+

+	// write to memory

+	base_addr[offset] = lfsr1;

+    }

+

+

+    // turn off yellow led to indicate, that we're going to read

+    led_off(LED_YELLOW);

+

+

+    // read entire memory and compare values

+    for (offset=0; offset<(SDRAM_SIZE >> 2); offset++)	{

+	// generate next "random" value (we use the second LFSR to catch up)

+	lfsr2 = lfsr_next_32(lfsr2);

+

+	// read from memory

+	sdram_readback = base_addr[offset];

+

+	// compare and abort test in case of mismatch

+	if (sdram_readback != lfsr2) return 0;

+    }

+

+    // done

+    return 1;

+}

+

+

+//-----------------------------------------------------------------------------

+int test_sdram_random(uint32_t *base_addr)

+//-----------------------------------------------------------------------------

+{

+    // cell counter, memory offset

+    int counter, offset;

+

+    // readback value

+    uint32_t sdram_readback;

+

+

+    /* This test fills entire memory chip with some pseudo-random pattern

+       starting from the very first cell, but then jumping around in pseudo-

+       random fashion to make sure, that SDRAM controller in STM32 handles

+       bank, row and column switching correctly. It then reads entire memory

+       and compares read values with what was written. */

+

+

+    // turn on yellow led to indicate, that we're writing

+    led_on(LED_YELLOW);

+

+

+    //

+    // Note, that SDRAM_SIZE is in BYTES, and since we write using

+    // 32-bit words, total number of words is SDRAM_SIZE / 4.

+    //

+

+    // start with the first cell

+    for (counter=0, offset=0; counter<(SDRAM_SIZE >> 2); counter++)	{

+	// generate next "random" value to write

+	lfsr1 = lfsr_next_32(lfsr1);

+

+	// write to memory

+	base_addr[offset] = lfsr1;

+

+	// generate next "random" address

+

+	//

+	// Note, that for 64 MB memory with 32-bit data bus we need 24 bits

+	// of address, so we use 24-bit LFSR here. Since LFSR has only 2^^24-1

+	// states, i.e. all possible 24-bit values excluding 0, we have to

+	// manually kick it into some arbitrary state during the first iteration.

+	//

+

+	offset = offset ? lfsr_next_24(offset) : 0x00DEC0DE;

+    }

+

+

+    // turn off yellow led to indicate, that we're going to read

+    led_off(LED_YELLOW);

+

+

+    // read entire memory and compare values

+    for (counter=0, offset=0; counter<(SDRAM_SIZE >> 2); counter++) {

+	// generate next "random" value (we use the second LFSR to catch up)

+	lfsr2 = lfsr_next_32(lfsr2);

+

+	// read from memory

+	sdram_readback = base_addr[offset];

+

+	// compare and abort test in case of mismatch

+	if (sdram_readback != lfsr2) return 0;

+

+	// generate next "random" address

+	offset = offset ? lfsr_next_24(offset) : 0x00DEC0DE;

+    }

+

+    //

+    // we should have walked exactly 2**24 iterations and returned

+    // back to the arbitrary starting address...

+    //

+

+    if (offset != 0x00DEC0DE) return 0;

+

+

+    // done

+    return 1;

+}

+

+

+//-----------------------------------------------------------------------------

+int test_sdrams_interleaved(uint32_t *base_addr1, uint32_t *base_addr2)

+//-----------------------------------------------------------------------------

+{

+    // cell counter, memory offsets

+    int counter, offset1, offset2;

+

+    // readback value

+    uint32_t sdram_readback;

+

+

+    /* Basically this is the same as test_sdram_random() except that it

+       tests both memory chips at the same time. */

+

+

+    // turn on yellow led to indicate, that we're writing

+    led_on(LED_YELLOW);

+

+

+    //

+    // Note, that SDRAM_SIZE is in BYTES, and since we write using

+    // 32-bit words, total number of words is SDRAM_SIZE / 4.

+    //

+

+    // start with the first cell

+    for (counter=0, offset1=0, offset2=0; counter<(SDRAM_SIZE >> 2); counter++)	{

+	// generate next "random" value to write

+	lfsr1 = lfsr_next_32(lfsr1);

+

+	// write to memory

+	base_addr1[offset1] = lfsr1;

+	base_addr2[offset2] = lfsr1;

+

+	// generate next "random" addresses (use different starting states!)

+

+	offset1 = offset1 ? lfsr_next_24(offset1) : 0x00ABCDEF;

+	offset2 = offset2 ? lfsr_next_24(offset2) : 0x00FEDCBA;

+    }

+

+

+    // turn off yellow led to indicate, that we're going to read

+    led_off(LED_YELLOW);

+

+

+    // read entire memory and compare values

+    for (counter=0, offset1=0, offset2=0; counter<(SDRAM_SIZE >> 2); counter++)	{

+	// generate next "random" value (we use the second LFSR to catch up)

+	lfsr2 = lfsr_next_32(lfsr2);

+

+	// read from the first memory and compare

+	sdram_readback = base_addr1[offset1];

+	if (sdram_readback != lfsr2) return 0;

+

+	// read from the second memory and compare

+	sdram_readback = base_addr2[offset2];

+	if (sdram_readback != lfsr2) return 0;

+

+	// generate next "random" addresses

+	offset1 = offset1 ? lfsr_next_24(offset1) : 0x00ABCDEF;

+	offset2 = offset2 ? lfsr_next_24(offset2) : 0x00FEDCBA;

+    }

+

+    //

+    // we should have walked exactly 2**24 iterations and returned

+    // back to the arbitrary starting address...

+    //

+

+    if (offset1 != 0x00ABCDEF) return 0;

+    if (offset2 != 0x00FEDCBA) return 0;

+

+    // done

+    return 1;

+}

+

+uint32_t lfsr_next_32(uint32_t lfsr)

+{

+    uint32_t tap = 0;

+

+    tap ^= (lfsr >> 31);

+    tap ^= (lfsr >> 30);

+    tap ^= (lfsr >> 29);

+    tap ^= (lfsr >> 9);

+

+    return (lfsr << 1) | (tap & 1);

+}

+

+uint32_t lfsr_next_24(uint32_t lfsr)

+{

+    unsigned int tap = 0;

+

+    tap ^= (lfsr >> 23);

+    tap ^= (lfsr >> 22);

+    tap ^= (lfsr >> 21);

+    tap ^= (lfsr >> 16);

+

+    return ((lfsr << 1) | (tap & 1)) & 0x00FFFFFF;

+}