openssl_public_encrypt function limits the size of the data you can encrypt to the length of the key, if you use padding (recommended), you'll lose an extra 11 bytes.
However, the PKCS#1 standard, which OpenSSL uses, specifies a padding scheme (so you can encrypt smaller quantities without losing security), and that padding scheme takes a minimum of 11 bytes (it will be longer if the value you're encrypting is smaller). So the highest number of bits you can encrypt with a 1024-bit key is 936 bits because of this (unless you disable the padding by adding the OPENSSL_NO_PADDING flag, in which case you can go up to 1023-1024 bits). With a 2048-bit key it's 1960 bits instead.
Of course you should never disable padding, because that will make the same passwords to encrypt to the same value.
So for a 1024-bit key the maximum password input length is 117 chars.
For a 2048-bit key it's 245 chars.
I'm not 100% sure of the output length, but a simple trail should confirm this, the output is a simple function of the keylength, so for a 2048-bit key I suspect it is 256 bytes.
You should use a
binary string with the required length to store the password.
For speed reasons it's best to use a limited length index on the field.
Do not use blob (!) because that will slow things way down for no benefit.
CREATE TABLE user
id unsigned integer auto_increment primary key,
username varchar(50) not null,
passRSA binary(256), <<-- doublecheck the length.
index ipass(passRSA(10)) <<-- only indexes the first 10 bytes for speed reasons.
) ENGINE = InnoDB
Adding extra bytes to the index will just slow things down and grow the index file for no benefit.