I'm currently trying to code a FAT system in C on a Xillinx Kintex 7 card. It is equipped with a MicroBlaze and I've already managed to create most of the required functions.
The problem I'm facing is about the total capacity of a folder, I've read on the web that in FAT32 a folder should be able to contain more than 65 000 files but with the system I've put in place I'm limited to 509 files per folder. I think it's because of my comprehension of the way FAT32 works but here's what I've made so far:
Here, the thing is that a folder has a size of 1 cluster which means that it has a capacity of 64 sectors = 32KB and I can create only 512 (minus 2) files in a directory! Then, my question is: is it possible to change the size of a folder in number of cluster? Currently I use only 1 cluster and I don't understand how to change it. Is it related to the FAT of the drive?
Thanks in advance for your help!
NOTE: My drive is recognized by Windows when I plug it in, I can access and read every file (except those that exceed the 510 limit) and I can create new files through the Windows Explorer. It obviously comes from the way I understand file creation and folder creation!
A directory in the FAT filesystem is only a special type of file. So use more clusters for this "file" just as you would with any other file.
The cluster number of the root directory is stored at offset 0x2c of the FAT32 header and is usually cluster 2. The entry in the cluster map for cluster 2 contains the value 0x0FFFFFFF (end-of-clusters) if this is the only cluster for the root directory. You can use two clusters (for example cluster 2 and 3) for the root directory if you set cluster 3 in the cluster map as the next cluster for cluster 2 (set 0x00000003 as value for the entry of cluster 2 in the cluster map). Now, cluster 3 can either be the last cluster (by setting its entry to 0x0FFFFFFF) or can point in turn to another cluster, to make the space for the root directory even bigger.
The clusters do not need to be subsequent, but it usually has a performance gain on sequential reading (that's why defragmenting a volume can largly increase performance).