Mercurial > public > ostc4
view ostc4pack/src/checksum_final_add_fletcher.cpp @ 263:a6c0375bc950 IPC_Sync_Improvment_2
Forward 100ms time stamp to RTE and handle logbook in main loop
Because of code execution variance between 100ms cycle event and start of SPI communication, the synchronization between Main and RTE may shift. To avoid these shifts the time stamp of the 100ms event is forwarded to the RTE which is now able to adapt to small variations.
One variation point was the storage of dive samples within the external flash. Taking a closer look how this function works, moving it from the timer callback to the main loop should not be an issue.
A critical point of having the function in the timer call back was the sector clean function which is called (depending on dive data) every ~300minutes and may take 250ms - 1500ms.
author | ideenmodellierer |
---|---|
date | Sun, 14 Apr 2019 11:38:14 +0200 |
parents | 1e707b34667e |
children | 01f40cb1057e |
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#include <iostream> #include <stdlib.h> #include <stdio.h> #include <string.h> #include <time.h> void fletcher16(unsigned char *result1, unsigned char *result2, unsigned char const *data, size_t bytes ) { unsigned short sum1 = 0xff, sum2 = 0xff; size_t tlen; while (bytes) { tlen = bytes >= 20 ? 20 : bytes; bytes -= tlen; do { sum2 += sum1 += *data++; } while (--tlen); sum1 = (sum1 & 0xff) + (sum1 >> 8); sum2 = (sum2 & 0xff) + (sum2 >> 8); } /* Second reduction step to reduce sums to 8 bits */ sum1 = (sum1 & 0xff) + (sum1 >> 8); sum2 = (sum2 & 0xff) + (sum2 >> 8); *result2 = (sum2 & 0xff); *result1 = (sum1 & 0xff); // return sum2 << 8 | sum1; } // This is a variant of fletcher16 with a 16 bit sum instead of an 8 bit sum, // and modulo 2^16 instead of 2^16-1 void hw_ostc3_firmware_checksum (unsigned char *result1, unsigned char *result2, unsigned char *result3, unsigned char *result4, unsigned char const *data, size_t bytes ) { unsigned short low = 0; unsigned short high = 0; for (unsigned int i = 0; i < bytes; i++) { low += data[i]; high += low; } *result1 = (low & 0xff); *result2 = (low/256 & 0xff); *result3 = (unsigned char)(high & 0xff); *result4 = (unsigned char)((high/256) & 0xff); // return (((unsigned int)high) << 16) + low; } int main(int argc, char** argv) { FILE *fp, * fpout; size_t lenTotal,lenTemp; unsigned char buf[2000000]; char *file = argv[1]; char *file2 = argv[2]; char *file3 = argv[3]; unsigned int pruefsumme; unsigned char buf2[4]; printf("1: %s\n", file); printf("2: %s\n", file2); printf("3: %s\n", file3); printf("\n"); //write File with length and cheksum char filename[500], filenameout[510] ; sprintf(filename,"%s",file); int filelength = strlen(filename); filename[filelength -4] = 0; lenTotal = 0; if (NULL == (fp = fopen(file, "rb"))) { printf("Unable to open %s for reading\n", file); return -1; } lenTemp = fread(&buf[lenTotal], sizeof(char), sizeof(buf), fp); // lenTemp = fread(buf, sizeof(char), sizeof(buf), fp); lenTotal = lenTemp; printf("%d bytes read (hex: %#x )\n", lenTemp,lenTemp); fclose(fp); if(file2) { if (NULL == (fp = fopen(file2, "rb"))) { printf("Unable to open %s for reading\n", file2); return -1; } lenTemp = fread(&buf[lenTotal], sizeof(char), sizeof(buf)-lenTotal, fp); lenTotal += lenTemp; printf("%d bytes read (hex: %#x )\n", lenTemp,lenTemp); fclose(fp); } if(file3) { if (NULL == (fp = fopen(file3, "rb"))) { printf("Unable to open %s for reading\n", file3); return -1; } lenTemp = fread(&buf[lenTotal], sizeof(char), sizeof(buf)-lenTotal, fp); lenTotal += lenTemp; printf("%d bytes read (hex: %#x )\n", lenTemp,lenTemp); fclose(fp); } printf("\n"); printf("%d bytes read (hex: %#x ) total \n", lenTotal,lenTotal); time_t rawtime; time (&rawtime); struct tm *timeinfo; timeinfo = localtime(&rawtime); // sprintf(filenameout,"fwupdate_%s.bin",ctime(&rawtime)); sprintf(filenameout,"OSTC4update_%02u%02u%02u.bin",timeinfo->tm_year-100,timeinfo->tm_mon+1,timeinfo->tm_mday); fpout = fopen(filenameout, "wb"); for(int i = 0;i <lenTotal;i++) { if(fwrite(&buf[i],1,1,fpout) != 1) printf("error writing\n"); } hw_ostc3_firmware_checksum(&buf2[0],&buf2[1],&buf2[2],&buf2[3],buf,lenTotal); printf("checksum %#x %#x %#x %#x\n", buf2[0],buf2[1], buf2[2], buf2[3]); if(fwrite(&buf2[0],1,4,fpout) != 4) printf("error writing checksum\n"); ; fclose(fpout); }