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I am trying to read a smartcard(German Gesundheitskarte) using javax.smartcardio

In the definition of the EF "PD" its length is specified as 850 bytes. The content should be a gzipped ISO5589-15 encoded XML string as specified here

As CommandAPDU I send

00 B0 00 00 00

to get the first 256 bytes. After sending

00 B0 00 FF 00

I get the next 256 bytes.

But how do I get the rest?

How will I know when the binary data ends?

German Specification Part 1 | German Specification Part 2

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3 Answers 3

up vote 4 down vote accepted

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 offset;
int P1, P2;

while (continueReading)
{
    // ...
    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.

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1  
P3 is not the number of bytes to be read. It holds Le, which is the encoding of the maximum number of bytes to be returned in the response APDU. It's almost the same. –  Maarten Bodewes - owlstead Jul 2 '12 at 17:42
    
depends on who you ask really. I spent too much time with GSM specs, where P3 = Length, but you're point is still a good one, most folks use Le and it is clearer. –  pb2q Jul 2 '12 at 17:45
    
That was not meant as an attack on your stance. The problem is that many creators of specifications don't understand the difference, so by default it has become either one of the two (or sometimes a mix of the two). –  Maarten Bodewes - owlstead Jul 2 '12 at 17:59
    
Not at all. Your comments are useful. In fact the distinction probably deserves a mention in the [smartcard] tag wiki. –  pb2q Jul 2 '12 at 18:11

The offset is in P1 & P2, although the highest bit is used to indicate that you want to select something with a given SFI. So you can use P1 as well for the bytes. After that you will have to move towards READ BINARY with an odd INS (B1).

So you can read up to 2^15 - 1 bytes using the normal read binary. That's 32Ki - 1. And of course an additional few bytes because of the returned bytes by the APDU.

I would always read out files from smart cards using the following method: 1 determine file size, e.g. using the FCI (File Control Information) returned with a SELECT by FILE ID (00 A4 02 00 02 ${FILE_ID}), you need to parse the response. Then increase the offset by the number of returned bytes each time. Never ask more than the maximum file size, as the behaviour of most cards differs, is not defined or just plain wrong).

Advanced topic: If you use READ BINARY with ODD INS, you need to substract the header of the DO each time you increase the offset. In that case reading up to the end becomes a bit troublesome because you would need to add the overhead of the header to the Le byte.

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Note that this information can be found in ISO 7816-4. It's payware but usually you can find the spec illegally without cost, or you can extract the information from other libs. If you are creating commercial software, buy the spec! –  Maarten Bodewes - owlstead Jul 2 '12 at 18:04

if the card supports it you probably can use the extended length format. if you specify 00 in the lc/le field you can use two following bytes for the length

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