New PyKCS11 1.4.2 available

I just released a new version of PyKCS11, a Python wrapper above the PKCS#11 API.

See PyKCS11 introduction for more details about PyKCS11.

Changes:
1.4.2 - May 2017, Ludovic Rousseau

• Moved the project from https://bitbucket.org/PyKCS11/pykcs11 to https://github.com/LudovicRousseau/PyKCS11
• Makefile: use a better default value for PREFIX
• Fix PyKCS11.__del__(): test that every module is accessible
• getSlotList(): add optional tokenPresent parameter
  By default the method returns all the slots (like before the change).
• Always call C_Initialize() in ::Load() to work with some bogus PKCS#11 library (like libCryptoki2 from Safenet Luna SA HSM)
• LowLevel samples: use PYKCS11LIB environment variable
• some minor improvements

Available on:

• pypi https://pypi.python.org/pypi/pykcs11/1.4.2
• sourceforge.net https://sourceforge.net/projects/pkcs11wrap/files/pykcs11/pykcs11-1.4.2/

New version of libccid: 1.4.27

I just released a version 1.4.27 of libccid the Free Software CCID class smart card reader driver.

Changes:
1.4.27 - 21 May 2017, Ludovic Rousseau

• Add support of
• ACS ACR1255U-J1
• ACS CryptoMate (T2)
• ANCUD CCID USB Reader & RNG
• DUALi DE-620 Combi
• FT CCID
• FT CCID KB
• FT U2F CCID KB
• FT U2F CCID KBOARD
• HID Global OMNIKEY 5422 Smartcard Reader
• InfoThink IT-102MU Reader
• Kapsch TrafficCom USB SAM reader
• MK Technology KeyPass S1
• Mulann PVT
• Regula RFID Reader
• Spyrus Inc PocketVault P-3X
• Unicept GmbH AirID USB
• Add Microchip SEC1210 UART support (when connected on a serial port)
• Add Zero Length Packet (ZLP) support for Gemalto IDBridge CT30 and K30
  enable the patch using ./configure --enable-zlp
• Add support of HID Omnikey 5422 as multi slot reader (for macOS)
• Escape command: signals buffer overflow instead of silently truncating the buffer
• Fix a bug with multi readers and pcscd uses hotplug_libusb (not the recommended configuration)
• Some minor improvements

New version of pcsc-lite: 1.8.21

I just released a new version of pcsc-lite 1.8.21.
pcsc-lite is a Free Software implementation of the PC/SC (or WinSCard) API for Unix systems.

Changes:
1.8.21: Ludovic Rousseau
20 May 2017

• SCardCancel():
• fix a race condition bug
• fix a possible use after free
• improve Doxygen documentation
• SCardGetStatusChange(): fix a race condition when a reader is removed
• SCardDisconnect(): fix status update for SCARD_UNPOWER_CARD
• pcsc_stringify_error(): use Thread-local storage
• pcsc_stringify_error() now returns a const char *
• SCardControl() may return SCARD_E_INSUFFICIENT_BUFFER when pbRecvBuffer is not big enough to receive the card response.
• Fix compilation error with GCC 4.9
• UnitaryTests: add support of Python 3
• pcsc-spy: add support of Python 3
• Some other minor improvements

Google Open Source Peer Bonus winner

I am pleased to announce that I am one of the 2017 "Google Open Source Peer Bonus winners" for my work on pcsc-lite and the CCID driver.

The latest round of Google Open Source Peer Bonus winners

Monday, March 27, 2017
Google relies on open source software throughout our systems, much of it written by non-Googlers. We’re always looking for ways to say “thank you!” so 5 years ago we started asking Googlers to nominate open source contributors outside of the company who have made significant contributions to codebases we use or think are important. We’ve recognized more than 500 developers from 30+ countries who have contributed their time and talent to over 400 open source projects since the program’s inception in 2011. Today we are pleased to announce the latest round of awardees, 52 individuals we’d like to recognize for their dedication to open source communities. The following is a list of everyone who gave us permission to thank them publicly:

Name	Project	Name	Project
Philipp Hancke	Adapter.js	Fernando Perez	Jupyter & IPython
Geoff Greer	Ag	Michelle Noorali	Kubernetes & Helm
Dzmitry Shylovich	Angular	Prosper Otemuyiwa	Laravel Hackathon Starter
David Kalnischkies	Apt	Keith Busch	Linux kernel
Peter Mounce	Bazel	Thomas Caswell	matplotlib
Yuki Yugui Sonoda	Bazel	Tatsuhiro Tsujikawa	nghttp2
Eric Fiselier	benchmark	Anna Henningsen	Node.js
Rob Stradling	Certificate Transparency	Charles Harris	NumPy
Ke He	Chromium	Jeff Reback	pandas
Daniel Micay	CopperheadOS	Ludovic Rousseau	PCSC-Lite, CCID
Nico Huber	coreboot	Matti Picus	PyPy
Kyösti Mälkki	coreboot	Salvatore Sanfilippo	Redis
Jana Moudrá	Dart	Ralf Gommers	SciPy
John Wiegley	Emacs	Kevin O'Connor	SeaBIOS
Alex Saveau	FirebaseUI-Android	Sam Aaron	Sonic Pi
Toke Hoiland-Jorgensen	Flent	Michael Tyson	The Amazing Audio Engine
Hanno Böck	Fuzzing Project	Rob Landley	Toybox
Luca Milanesio	Gerrit	Bin Meng	U-Boot
Daniel Theophanes	Go programming language	Ben Noordhuis	V8
Josh Snyder	Go programming language	Fatih Arslan	vim-go
Brendan Tracey	Go programming language	Adam Treat	WebKit
Elias Naur	Go on Mobile	Chris Dumez	WebKit
Anthonios Partheniou	Google Cloud Datalab	Sean Larkin	Webpack
Marcus Meissner	gPhoto2	Tobias Koppers	Webpack
Matt Butcher	Helm	Alexis La Goutte	Wireshark dissector for QUIC

Congratulations to all of the awardees, past and present! Thank you for your contributions.
By Helen Hu, Open Source Programs Office

The bonus (I should receive) is a credit card with 250$.

That is not much compared to Google annual profit. Google operating profit for 2016 was 30 419 M$.
My bonus part is 250 / 30 419 000 000 = 0.000 000 008 218 548.

That is not much for Google, but this is twice the amount I received in bitcoin for now ("How to help my projects? Send me bitcoins!").

"PC/SC" sample in Objective-C (synchronous)

To continue the list of PC/SC wrappers initiated in 2010 with "PC/SC sample in different languages" I now present a new sample in Objective-C using the Apple Crypto Token Kit API.

I already proposed a sample code in Objective-C in "PCSC sample in Objective-C". This code used the asynchronous version of sendIns. The API is:

- (void)sendIns:(UInt8)ins 
             p1:(UInt8)p1 
             p2:(UInt8)p2 
           data:(NSData *)requestData 
             le:(NSNumber *)le 
          reply:(void (^)(NSData *replyData, UInt16 sw, NSError *error))reply;

The method returns immediately and a callback reply block is executed when the card response is received.

We will now use the synchronous version of sendIns. The API is:

- (NSData *)sendIns:(UInt8)ins 
                 p1:(UInt8)p1 
                 p2:(UInt8)p2 
               data:(NSData *)requestData 
                 le:(NSNumber *)le 
                 sw:(UInt16 *)sw 
              error:(NSError * _Nullable *)error;

Crypto Token Kit API

In Yosemite (Mac OS X 10.10) Apple introduced a new API to access smart cards. See OS X Yosemite and smart cards status.
This API is not a wrapper above PC/SC. It is the native API to be used on macOS. You do not need to install it, it comes with the OS.

Since PC/SC is not used here the blog title may be misleading. So I used " " around PC/SC this time.

Source code

Create a new Cocoa application in Xcode. You need to enable the App Sandbox and add/set the com.apple.security.smartcard entitlement to yes.

My sample HellloWorld application does not use Cocoa. It is a text only application.

#import <CryptoTokenKit/CryptoTokenKit.h>

int main(int argc, const char * argv[])
{
    TKSmartCardSlotManager * mngr;
    mngr = [TKSmartCardSlotManager defaultManager];

    // Use the first reader/slot found
    NSString *slotName = (NSString *)mngr.slotNames[0];
    NSLog(@"slotName: %@", slotName);

    dispatch_semaphore_t sem = dispatch_semaphore_create(0);

    // connect to the slot
    [mngr getSlotWithName:slotName reply:^(TKSmartCardSlot *slot)
     {
         // connect to the card
         TKSmartCard *card = [slot makeSmartCard];
         if (nil == card)
         {
             NSLog(@"No card found");

             // signals end of getSlotWithName block
             dispatch_semaphore_signal(sem);

             return;
         }

         // begin a session
         [card beginSessionWithReply:^(BOOL success, NSError *error)
          {
              if (success)
              {
                  NSData *response;
                  UInt16 sw;
                  NSString *newString;

                  // explicitly set the CLA byte even if 0 is already the default value
                  card.cla = 0x00;

                  // send 1st APDU
                  uint8_t aid[] = {0xA0, 0x00, 0x00, 0x00, 0x62, 0x03, 0x01, 0x0C, 0x06, 0x01};
                  NSData *data = [NSData dataWithBytes:aid length:sizeof aid];

                  response = [card sendIns:0xA4 p1:0x04 p2:0x00 data:data le:nil sw:&sw error:&error];

                  if (nil == response)
                  {
                      NSLog(@"sendIns error: %@", error);
                      goto out;
                  }

                  NSLog(@"Response: %@ 0x%04X", response, sw);

                  // send 2nd APDU
                  response = [card sendIns:0x00 p1:0x00 p2:0x00 data:nil le:@0 sw:&sw error:&error];

                  if (nil == response)
                  {
                      NSLog(@"sendIns error: %@", error);
                      goto out;
                  }

                  NSLog(@"Response: %@ 0x%04X", response, sw);

                  newString = [[NSString alloc] initWithData:response encoding:NSASCIIStringEncoding];
                  NSLog(@"%@", newString);

out:
                  // end the session
                  [card endSession];
              }
              else
              {
                  NSLog(@"Session error: %@", error);
              }

              // signals end of beginSessionWithReply block
              dispatch_semaphore_signal(sem);
          }];
     }];

    // wait for the asynchronous blocks to finish
    dispatch_semaphore_wait(sem, DISPATCH_TIME_FOREVER);

    return 0;
}

Output

2017-03-31 10:54:24.990581+0200 HelloWorld[19931:85555] slotName: Gemalto PC Twin Reader
2017-03-31 10:54:25.103855+0200 HelloWorld[19931:85584] Response: <> 0x9000
2017-03-31 10:54:25.115946+0200 HelloWorld[19931:85584] Response: <48656c6c 6f20776f="" 726c6421=""> 0x9000
2017-03-31 10:54:25.115993+0200 HelloWorld[19931:85584] Hello world!

Comments

Compared to the previous Objective-C sample in "PCSC sample in Objective-C" this code has some improvements/bugs fixes:

• [card endSession]; is called.
  This is needed to close the session started by [card beginSessionWithReply:...].
• The main thread is waiting for the callbacks from [mngr getSlotWithName:...] and [card beginSessionWithReply:...] to finish using a semaphore (instead of a sleep()).

The CryptoTokenKit API provides a in​Session​With​Error:​execute​Block: to synchronously begin a session instead of using begin​Session​With​Reply:​ and end​Session. But this method has some limitations/bugs and is not (yet) easy to use. I may use it in a next sample code when it will be fixed (in macOS 10.13?).

Conclusion

In general, I prefer to use synchronous calls. So the possibility to use a synchronous sendIns: method is nice.
Depending on your needs, the CryptoTokenKit TKSmart​Card API offers you the choice between a synchronous or asynchronous version.

Gemalto IDBridge K30, K50, CT30 and Zero Length Packet issue

Some Gemalto smart card readers with a specific firmware version have a problem and send bogus USB frames.

Possibly affected devices

Some firmware versions of the following devices are affected

• K30
  
• CT30
  

Symptoms

If you generate a pcscd log as described in "How to get support" and see:

00000023 commands.c:2251:SetParameters() length: 7 bytes
00000037 -> 000000 61 07 00 00 00 00 0E 01 00 00 18 10 02 58 00 FE 00
00001776 <- 000000
00000025 commands.c:2271:SetParameters() Not enough data received: 0 bytes

Then your reader may suffer from the Zero Length Packet issue. The reader, sometimes, sends a USB packet with no data (so a size of 0 bytes).

Problem

The problem is that it is not possible to specifically and uniquely identify the problematic devices.

In the CCID driver version 1.4.11 (12 June 2013) I added two patches ("ReadUSB: Zero Length Packet (ZLP) support", "Add Zero Length Packet (ZLP) support for Gemalto IDBridge CT30 and K30") to circumvent the problem.

But this code caused problem with some smart card reader that had not the problem and failed to work with the "fix" ("[#314691] Gemalto ID Bridge K50 Smart card Reader does not work on USB2 with ZLP fix").

So in CCID driver version 1.4.19 (13 May 2014) I removed the patch in "Remove ZLP patch for Gemalto IDBridge CT30 and K30.".

Solution

I added the patch again in the CCID driver ("Add Zero Length Packet (ZLP) support for Gemalto IDBridge CT30 and K30", "ZLP: enable the patch only if --enable-zlp is used") but this time the patch is disabled by default. So no bad side effect can happen.

You have to build the driver using the configure option --enable-zlp to explicitly enable the modification.

The new code will be provided in the next CCID driver release: 1.4.27 (not yet released).

Conclusion

I am sorry to not be able to correctly circumvent the problem in the CCID driver itself.

If your reader has the problem then you will have to (re)build the CCID driver yourself at each new CCID driver upgrade.

[Update] 21 May 2017

The CCID driver version 1.4.27 is now available.

PC/SC sample in Rust

To continue the list of PC/SC wrappers initiated in 2010 with "PC/SC sample in different languages" I now present a sample in Rust.

pcsc-rust

pcsc-rust is written by Ran Benita since January 2017 and uses the MIT license.

Project web site: https://github.com/bluetech/pcsc-rust

Installation

pcsc-rust is easy to use. Installation is automatic using cargo (the Rust package manager).

Source code

You only need 2 files: one file Cargo.toml indicating the dependency on pcsc-rust, and the source code itself in the default file src/main.rs.

File Cargo.toml:

[package]
name = "hello_world"
version = "0.1.0"
authors = ["Your Name <you@example.com>"]

[dependencies]
pcsc = "0.1"

File src/main.rs:

extern crate pcsc;

use pcsc::*;
use std::str;

fn main() {
    // Establish a PC/SC context.
    let ctx = Context::establish(Scope::User)
        .expect("failed to establish context");

    // List available readers.
    let mut readers_buf = [0; 2048];
    let mut readers = ctx.list_readers(&mut readers_buf)
        .expect("failed to list readers");

    // Use the first reader.
    let reader = readers.next().ok_or(())
        .expect("no readers are connected");
    println!("Using reader: {:?}", reader);

    // Connect to the card.
    let card = ctx.connect(reader, ShareMode::Shared, PROTOCOL_ANY)
        .expect("failed to connect to card");

    // Send an SELECT APDU command.
    let apdu = b"\x00\xA4\x04\x00\x0A\xA0\x00\x00\x00\x62\x03\x01\x0C\x06\x01";
    let mut rapdu_buf = [0; MAX_BUFFER_SIZE];
    let rapdu = card.transmit(apdu, &mut rapdu_buf)
        .expect("failed to transmit APDU to card");
    println!("{:?}", rapdu);

    // Send an COMMAND APDU command.
    let apdu = b"\x00\x00\x00\x00";
    let mut rapdu_buf = [0; MAX_BUFFER_SIZE];
    let rapdu = card.transmit(apdu, &mut rapdu_buf)
        .expect("failed to transmit APDU to card");
    println!("{:?}", rapdu);

    // remove the extra 2 SW bytes at the end
    let text = &rapdu[0 .. rapdu.len()-2];

    // convert to UTF-8 (ASCII in fact)
    println!("{}", str::from_utf8(&text).unwrap());
}

The source code is an adaptation of the already existing pcsc-rust project example: https://github.com/bluetech/pcsc-rust#example

Build

$ cargo build
   Compiling pkg-config v0.3.9
   Compiling bitflags v0.7.0
   Compiling pcsc-sys v0.1.0
   Compiling pcsc v0.1.0
   Compiling hello_world v0.1.0 (file:///Users/rousseau/Documents/sc/HelloWorld%20Rust)
    Finished debug [unoptimized + debuginfo] target(s) in 3.4 secs

Output

$ ./target/debug/hello_world
Using reader: "Gemalto PC Twin Reader"
[144, 0]
[72, 101, 108, 108, 111, 32, 119, 111, 114, 108, 100, 33, 144, 0]
Hello world!

Conclusion

pcsc-rust API seems complete, is easy to use and is well documented.

If you know a PC/SC wrapper that is not yet in my list then please contact me.