diff --git a/litex/soc/software/libbase/spisdcard.c b/litex/soc/software/libbase/spisdcard.c index ab6cbe039..ae3ec7305 100644 --- a/litex/soc/software/libbase/spisdcard.c +++ b/litex/soc/software/libbase/spisdcard.c @@ -567,10 +567,9 @@ uint8_t spi_sdcard_readFile(char *filename, char *ext, unsigned long address) // Read each cluster sector by sector, i being number of clusters bytesRemaining=fileLength; - printf("Clusters: "); // Calculate number of clusters (always >1) for(i=0; i<1+((fileLength/sdCardFatBootSector.sectors_per_cluster)/sdCardFatBootSector.sector_size); i++) { - printf("%d ",fileClusterStart); + printf("\rCluster: %d",fileClusterStart); // Locate start of cluster on SD CARD and read appropraite number of sectors clusterSectorStart=rootDirSectorStart+(fileClusterStart-1)*sdCardFatBootSector.sectors_per_cluster; @@ -580,14 +579,14 @@ uint8_t spi_sdcard_readFile(char *filename, char *ext, unsigned long address) // Otherwise, read to sdCardSector buffer and transfer appropriate number of bytes if(bytesRemaining>sdCardFatBootSector.sector_size) { if( readSector(clusterSectorStart+sector,(uint8_t *)address) == FAILURE ) { - printf("Read Error\n"); + printf("\nRead Error\n"); return FAILURE; } bytesRemaining=bytesRemaining-sdCardFatBootSector.sector_size; address=address+sdCardFatBootSector.sector_size; } else { if( readSector(clusterSectorStart+sector,sdCardSector) == FAILURE ) { - printf("Read Error\n"); + printf("\nRead Error\n"); return FAILURE; } memcpy((uint8_t *)address, sdCardSector, bytesRemaining);