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I want to extend the u-boot SPL code with some fuzzy extractor logic by adding code into {u-boot_sources}/arch/arm/cpu/armv7/omap-common/hwinit-common.c. U-boot shall be used on a PandaBoard ES (omap4460 SoC).

Thus, first I successfully implemented the code on my x86 pc and I am porting it to the ARM-based PandaBoard. The complete code can be found here (as a side note the "main" function is s_init()):

However, I am expecting dozens of unexptected effects, which results in either stopping during the execution of the code, stopping u-boot after reading u-boot.img or not sending output (and thus not booting) at all.

For example, I want to call two functions (computeSyndrome, decodeErrors) inside a for-loop, which is part of another function golayDecode.

For my first problem please ignore the code below the multiline comment starting with /* >>>> These lines of code below totally break u-boot. Also only the function computeSyndrome in conjunction with the calling function golayDecode is important.

The issue: If comment out both functions computeSyndrome and decodeErrors everything works fine and the OS (Android) is booting. However, if computeSyndrome is not commented out and thus gets processed, u-boot stucks after displaying reading u-boot.img. The funny thing about it: even if I replace computeSyndrome with a bogus function which does not but iterating a values or displaying stuff, u-boot stucks as well.

Furthermore, if I remove the multiline comment furhter below to also include the residual code, u-boot doesn't display ony character. (1*)

I am a beginner regarding microprocessor programming but I can not figure out a possible error in these 12 lines of the computeSyndrome function or the general behaviour of u-boot at all. (2*)

Does anyone have a clue what I am missing?

Thanks, P.

1* I am using minicom to display the output of u-boot, which I receive over serial-usb-converter.
2* I am using the following compiler flags to make sure there are no errors at compile time: -Wall -Wstrict-prototypes -Wdisabled-optimization -W -pedantic

void golayDecode(volatile int x[12], volatile int y[12], volatile unsigned int golayEncodedSecret[30], volatile unsigned int s, volatile unsigned char repetitionDecodedSecretBits[360]){

printf("\n[I] - Performing Golay decoding\r\n");
volatile unsigned char secret[22] = {0};
volatile unsigned char currentByte = 0, tmpByte = 0;
volatile unsigned int golayDecodedSecret[30] ={0};
volatile int twelveBitCounter = 0;//, j = 0, k = 0, q = 0, aux = 0, found = 0, bitCounter = 0, i_2 = 7, currentSecretEncByte = 0x00;
volatile int c_hat[2] = {0}, e[2] = {0};
e[0] = s;
e[1] = 0;

for(twelveBitCounter = 0; twelveBitCounter < 30; twelveBitCounter+=2){
    printf("Computing syndrome and decoding errors for bytes %03x & %03x\n", golayEncodedSecret[twelveBitCounter], golayEncodedSecret[twelveBitCounter+1]);
      computeSyndrome(golayEncodedSecret[twelveBitCounter], golayEncodedSecret[twelveBitCounter+1], x, y, s);
      decodeErrors(golayEncodedSecret[i], golayEncodedSecret[i+1], x, y, s);

printf("\n[D] - Reconstructing secret bytes\r\n");

/*        >>>> These lines of code below totally break u-boot
for(i = 0; i < 30; i+=2){
    currentSecretEncByte = golayDecodedSecret[i];
    volatile int j = 11;

    // Access each source bit       
    for(; 0<=j; j--){           
        volatile int currentSourceBit = (currentSecretEncByte >> j) & 0x01; 

        repetitionDecodedSecretBits[bitCounter] = currentSourceBit;

k = 0;
for(i = 0; i<176; i++){
    tmpByte =  repetitionDecodedSecretBits[i] << i_2;
    currentByte = currentByte | tmpByte;
    if(i_2==0){ // We collected 8 bits and created a byte
        secret[k] = currentByte;
        i_2 = 7;
        tmpByte = 0x00;
        currentByte = 0x00;

SHA256_CTX ctx;
unsigned char hash[32];

printf("\n[I] - Generating secret key K\n");
sha256_update(&ctx,secret,strlen((const char*)secret));

printf("\n[I] - This is our secret key K\n\t==================================\n\t");

/* Function for syndrome computation */
void computeSyndrome(int r0, int r1, volatile int x[12], volatile int y[12], volatile unsigned int s){
unsigned int syndromeBitCounter, syndromeMatrixCounter, syndromeAux;

s = 0;
for(syndromeMatrixCounter=0; syndromeMatrixCounter<12; syndromeMatrixCounter++){
    syndromeAux = 0;

    for(syndromeBitCounter=0; syndromeBitCounter<12; syndromeBitCounter++){
        syndromeAux = syndromeAux^((x[syndromeMatrixCounter]&r0)>>syndromeBitCounter &0x01);
    for(syndromeBitCounter=0; syndromeBitCounter<12; syndromeBitCounter++){
        syndromeAux = syndromeAux^((y[syndromeMatrixCounter]&r1)>>syndromeBitCounter &0x01);
    s = (s<<1)^syndromeAux;


/* Funcion to recover original byte */
void decodeErrors(int r0, int r1, volatile int x[12], volatile int y[12], volatile unsigned int s){
//printf("\n[D] - Starting to decode errors for %3x | %3x\n", r0, r1);
volatile unsigned int c_hat[2] = {0xaa}, e[2] = {0xaa};
volatile unsigned int q;
unsigned int i, j, aux, found;

//printf("Step 2\n");
    e[0] = s;
    e[1] = 0;
    /******* STEP 3 */
    //printf("Step 3\n");
    i = 0;
    found = 0;
        if (weight(s^y[i]) <=2){
                e[0] = s^y[i];
                e[1] = x[i];
                found = 1;
            printf("\ntest 2\n");
        }while ((i<12) && (!found));

        if (( i==12 ) && (!found)){
         /******* STEP 4 */
        //printf("Step 4\n");
        q = 0;
        for (j=0; j<12; j++){
                aux = 0;
                for (i=0; i<12; i++)
                aux = aux ^ ( (y[j]&s)>>i & 0x01 ); 
                q = (q<<1) ^ aux;

        /******* STEP 5 */
        //printf("Step 5\n");
        if (weight(q) <=3){
                e[0] = 0;
                e[1] = q;
                /******* STEP 6 */
                //printf("Step 6\n");
                i = 0;
                found = 0;
                if (weight(q^y[i]) <=2){
                        e[0] = x[i];
                        e[1] = q^y[i];
                        found = 1;
            }while((i<12) && (!found));

                if ((i==12) && (!found)){
                /******* STEP 7 */
                printf("\n[E] - uncorrectable error pattern! (%3x | %3x)\n", r0, r1);
                /* You can raise a flag here, or output the vector as is */

c_hat[0] = r0^e[0];
c_hat[1] = r1^e[1];
//printf("\t\tEstimated codeword = %x%x\n", c_hat[0], c_hat[1]);
share|improve this question
Your new code doesn't belong in hwinit-common.c(because that's for CPU code) and should not be executed so early with CPU initialization. The primary function of U-Boot (like any other bootloader) is to initialize the minimum amount of hardware, load the target program and execute it. You should probably create a new source file for your code, probably in the panda board directory. Then try executing your code as part of the "late (board) initialization" phase. –  sawdust Aug 28 '13 at 20:18

1 Answer 1

Indeed, the code was a little bit too complex to be executed at this point of boot time. At this time there is ne real CRT and I only have a minimal stack.
Thus, I moved the code to board_init_f() which is still part of the SPL. It gave more stable results and my algorithm now works as expected.

share|improve this answer

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