I need to store items of varying length in a circular queue in a flash chip. Each item will have its encapsulation so I can figure out how big it is and where the next item begins. When there are enough items in the buffer, it will wrap to the beginning.
What is a good way to store a circular queue in a flash chip?
There is a possibility of tens of thousands of items I would like to store. So starting at the beginning and reading to the end of the buffer is not ideal because it will take time to search to the end.
Also, because it is circular, I need to be able to distinguish the first item from the last.
The last problem is that this is stored in flash, so erasing each block is both time consuming and can only be done a set number of times for each block.
First, block management:
Put a smaller header at the start of each block. The main thing you need to keep track of the "oldest" and "newest" is a block number, which simply increments modulo k. k must be greater than your total number of blocks. Ideally, make k less than your MAX value (e.g. 0xFFFF) so you can easily tell what is an erased block.
At start-up, your code reads the headers of each block in turn, and locates the first and last blocks in the sequence that is ni+1 = (ni + 1) MODULO k. Take care not to get confused by erased blocks (block number is e.g. 0xFFFF) or data that is somehow corrupted (e.g. incomplete erase).
Within each block
Each block initially starts empty (each byte is 0xFF). Each record is simply written one after the other. If you have fixed-size records, then you can access it with a simple index. If you have variable-size records, then to read it you have to scan from the start of the block, linked-list style.
If you want to have variable-size records, but avoid linear scan, then you could have a well defined header on each record. E.g. use 0 as a record delimiter, and COBS-encode (or COBS/R-encode) each record. Or use a byte of your choice as a delimiter, and 'escape' that byte if it occurs in each record (similar to the PPP protocol).
At start-up, once you know your latest block, you can do a linear scan for the latest record. Or if you have fixed-size records or record delimiters, you could do a binary search.
Erase scheduling
For some Flash memory chips, erasing a block can take significant time--e.g. 5 seconds. Consider scheduling an erase as a background task a bit "ahead of time". E.g. when the current block is x% full, then start erasing the next block.
Record numbering
You may want to number records. The way I've done it in the past is to put, in the header of each block, the record number of the first record. Then the software has to keep count of the numbers of each record within the block.
Checksum or CRC
If you want to detect corrupted data (e.g. incomplete writes or erases due to unexpected power failure), then you can add a checksum or CRC to each record, and perhaps to the block header. Note the block header CRC would only cover the header itself, not the records, since it could not be re-written when each new record is written.