READ BINARY APDUs allow 2 bytes for the file offset, coded in P1 and P2, and use Le for the length, for
READ BINARY the number of bytes in the response. P1 is the high byte, or the most significant byte.
I can't read the specs that you've linked but let's assume that the
READ BINARY APDU on your card works the same way.
Your command to read the first 256 bytes seems correct, noting that
Le==0x00 indicates a read for 256 bytes.
To read the bytes beginning at offset 256, 512, etc., start incrementing P1, e.g.:
00 B0 01 00 00
00 B0 02 00 00
00 B0 03 00 00
To read 256 bytes beginning at offset 257 (0x101):
00 B0 01 01 00
Offset 600 (0x258):
00 B0 02 58 00
In your code, if you're using
ints to store the offset, you'll usually end up incrementing P1 with something like this:
int P1, P2;
P1 = (offset >> 8);
P2 = (offset & 0x00FF);
// send APDU
Knowing when the data ends depends upon the implementation. You can get the file size from the File Control Information (FCI) structure returned by a SELECT on the EF (
00 A4 00 00 02 fileId), but otherwise the structure of the data is implementation-dependent. A header/magic number can be used at the beginning of the data to indicate total data size, for instance string length bytes in an EF preceding the string data.