libese: clean up error messages

This added more granularity to error logging (verbose -> warning and
error as needed) as well as moving to C99 designated initializers
for T=1 and NXP hardware error messages.

Test: unit tests pass; hw tests pass; moving the device node yielded the
correct platform init error.
Bug: 35105409

Change-Id: I374f1a1e45862e6e28a230baabda78c4c525687d
5 files changed
tree: 02738a50c838636b76d7a443e0893411a403b00b
  1. Android.bp
  2. CPPLINT.cfg
  3. MODULE_LICENSE_APACHE
  4. NOTICE
  5. PREUPLOAD.cfg
  6. README.md
  7. examples/
  8. libese-hw/
  9. libese-sysdeps/
  10. libese-teq1/
  11. libese/
  12. tools/
README.md

libese

Document last updated: 13 Jan 2017

Introduction

libese provides a minimal transport wrapper for communicating with embedded secure elements. Embedded secure elements typically adhere to smart card standards whose translation is not always smooth when migrated to an always connected bus, like SPI. The interfaces exposed by libese should enable higher level “terminal” implementations to be written on top and/or a service which provides a similar interface.

Behind the interface, libese should help smooth over the differences between eSEs and smart cards use in the hardware adapter implementations. Additionally, a T=1 implementation is supplied, as it appears to be the most common wire transport for these chips.

Usage

Public client interface for Embedded Secure Elements.

Prior to use in a file, import all necessary variables with:

ESE_INCLUDE_HW(SOME_HAL_IMPL);

Instantiate in a function with:

ESE_DECLARE(my_ese, SOME_HAL_IMPL);

or

struct EseInterface my_ese = ESE_INITIALIZER(SOME_HAL_IMPL);

or

struct EseInterface *my_ese = malloc(sizeof(struct EseInterface));
...
ese_init(my_ese, SOME_HAL_IMPL);

To initialize the hardware abstraction, call:

ese_open(my_ese);

To release any claimed resources, call

ese_close(my_ese)

when interface use is complete.

To perform a transmit-receive cycle, call

ese_transceive(my_ese, ...);

with a filled transmit buffer with total data length and an empty receive buffer and a maximum fill length. A negative return value indicates an error and a hardware specific code and string may be collected with calls to

ese_error_code(my_ese);
ese_error_message(my_ese);

The EseInterface is not safe for concurrent access. (Patches welcome! ;).

Components

libese is broken into multiple pieces:

  • libese
  • libese-sysdeps
  • libese-hw
  • libese-teq1

libese provides the headers and wrappers for writing libese clients and for implementing hardware backends. It depends on a backend being provided as per libese-hw and on libese-sysdeps.

libese-sysdeps provides the system level libraries that are needed by libese provided software. If libese is being ported to a new environment, like a bootloader or non-Linux OS, this library may need to be replaced. (Also take a look at libese/include/ese/log.h for the macro definitions that may be needed.)

libese-hw provides existing libese hardware backends.

libese-teq1 provides a T=1 compatible transcieve function that may be used by a hardware backend. It comes with some prequisites for use, such as a specifically structured set of error messages and EseInteface pad usage, but otherwise it does not depends on any specific functionality not abstracted via the libese EseOperations structure.

Supported backends

There are two test backends, fake and echo, as well as one real backend for the NXP PN80T/PN81A.

The NXP backends support both a direct kernel driver and a Linux SPIdev interface.