Prelude
- My question disregards "the largest value you actually can transmit between the client and server is determined by the amount of available memory and the size of the communications buffers".
- I also don't take Unicode into account here. I'm aware that if a character uses more than 1 byte of storage, the actual maximum length (number of characters) of TEXT columns will decrease.
When consulting the MySql docs here: http://dev.mysql.com/doc/refman/5.5/en/storage-requirements.html, I can derive 2 answers for my question...
1) The more obvious answer:
TINYBLOB : 2 ^ 8 - 1 = 255
BLOB : 2 ^ 16 - 1 = 65535
MEDIUMBLOB : 2 ^ 24 - 1 = 16777215
LONGBLOB : 2 ^ 32 - 1 = 4294967295
2) The bit more complicated answer:
TINYBLOB : 2 ^ 8 - 1 = 255
BLOB : 2 ^ 16 - 2 = 65534
MEDIUMBLOB : 2 ^ 24 - 3 = 16777213
LONGBLOB : 2 ^ 32 - 4 = 4294967292
MySql stores the size of the actual data along with that data. And in order to store that size it will need:
- 1 byte when data < 256 B
- 2 bytes when data < 64 KB
- 3 bytes when data < 16 MB
- 4 bytes when data < 4 GB
So to store the data plus the size of the data, and prevent it from exceeding 256 / 64K / 16M / 4G bytes of needed storage, you will need the -1 / -2 / -3 / -4 factor when determining the maximum declared column length (not -1 / -1 / -1 / -1). I hope this makes sense :)
The question
Which of these 2 answers is correct? (Assuming one of them is.)