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- Linux NFC subsystem
- ===================
- The Near Field Communication (NFC) subsystem is required to standardize the
- NFC device drivers development and to create an unified userspace interface.
- This document covers the architecture overview, the device driver interface
- description and the userspace interface description.
- Architecture overview
- ---------------------
- The NFC subsystem is responsible for:
- - NFC adapters management;
- - Polling for targets;
- - Low-level data exchange;
- The subsystem is divided in some parts. The 'core' is responsible for
- providing the device driver interface. On the other side, it is also
- responsible for providing an interface to control operations and low-level
- data exchange.
- The control operations are available to userspace via generic netlink.
- The low-level data exchange interface is provided by the new socket family
- PF_NFC. The NFC_SOCKPROTO_RAW performs raw communication with NFC targets.
- +--------------------------------------+
- | USER SPACE |
- +--------------------------------------+
- ^ ^
- | low-level | control
- | data exchange | operations
- | |
- | v
- | +-----------+
- | AF_NFC | netlink |
- | socket +-----------+
- | raw ^
- | |
- v v
- +---------+ +-----------+
- | rawsock | <--------> | core |
- +---------+ +-----------+
- ^
- |
- v
- +-----------+
- | driver |
- +-----------+
- Device Driver Interface
- -----------------------
- When registering on the NFC subsystem, the device driver must inform the core
- of the set of supported NFC protocols and the set of ops callbacks. The ops
- callbacks that must be implemented are the following:
- * start_poll - setup the device to poll for targets
- * stop_poll - stop on progress polling operation
- * activate_target - select and initialize one of the targets found
- * deactivate_target - deselect and deinitialize the selected target
- * data_exchange - send data and receive the response (transceive operation)
- Userspace interface
- --------------------
- The userspace interface is divided in control operations and low-level data
- exchange operation.
- CONTROL OPERATIONS:
- Generic netlink is used to implement the interface to the control operations.
- The operations are composed by commands and events, all listed below:
- * NFC_CMD_GET_DEVICE - get specific device info or dump the device list
- * NFC_CMD_START_POLL - setup a specific device to polling for targets
- * NFC_CMD_STOP_POLL - stop the polling operation in a specific device
- * NFC_CMD_GET_TARGET - dump the list of targets found by a specific device
- * NFC_EVENT_DEVICE_ADDED - reports an NFC device addition
- * NFC_EVENT_DEVICE_REMOVED - reports an NFC device removal
- * NFC_EVENT_TARGETS_FOUND - reports START_POLL results when 1 or more targets
- are found
- The user must call START_POLL to poll for NFC targets, passing the desired NFC
- protocols through NFC_ATTR_PROTOCOLS attribute. The device remains in polling
- state until it finds any target. However, the user can stop the polling
- operation by calling STOP_POLL command. In this case, it will be checked if
- the requester of STOP_POLL is the same of START_POLL.
- If the polling operation finds one or more targets, the event TARGETS_FOUND is
- sent (including the device id). The user must call GET_TARGET to get the list of
- all targets found by such device. Each reply message has target attributes with
- relevant information such as the supported NFC protocols.
- All polling operations requested through one netlink socket are stopped when
- it's closed.
- LOW-LEVEL DATA EXCHANGE:
- The userspace must use PF_NFC sockets to perform any data communication with
- targets. All NFC sockets use AF_NFC:
- struct sockaddr_nfc {
- sa_family_t sa_family;
- __u32 dev_idx;
- __u32 target_idx;
- __u32 nfc_protocol;
- };
- To establish a connection with one target, the user must create an
- NFC_SOCKPROTO_RAW socket and call the 'connect' syscall with the sockaddr_nfc
- struct correctly filled. All information comes from NFC_EVENT_TARGETS_FOUND
- netlink event. As a target can support more than one NFC protocol, the user
- must inform which protocol it wants to use.
- Internally, 'connect' will result in an activate_target call to the driver.
- When the socket is closed, the target is deactivated.
- The data format exchanged through the sockets is NFC protocol dependent. For
- instance, when communicating with MIFARE tags, the data exchanged are MIFARE
- commands and their responses.
- The first received package is the response to the first sent package and so
- on. In order to allow valid "empty" responses, every data received has a NULL
- header of 1 byte.
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