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authorThierry Escande <thierry.escande@linux.intel.com>2013-09-19 17:55:27 +0200
committerSamuel Ortiz <sameo@linux.intel.com>2013-09-25 02:02:23 +0200
commit2c66daecc4092e6049673c281b2e6f0d5e59a94c (patch)
tree6aef21e592f00dc55ef5ad582aaaded57f4676c2 /net/nfc/Kconfig
parent59ee2361c9248f07846f7a6e585768dcce18fb16 (diff)
downloadblackbird-op-linux-2c66daecc4092e6049673c281b2e6f0d5e59a94c.tar.gz
blackbird-op-linux-2c66daecc4092e6049673c281b2e6f0d5e59a94c.zip
NFC Digital: Add NFC-A technology support
This adds support for NFC-A technology at 106 kbits/s. The stack can detect tags of type 1 and 2. There is no support for collision detection. Tags can be read and written by using a user space application or a daemon like neard. The flow of polling operations for NFC-A detection is as follow: 1 - The digital stack sends the SENS_REQ command to the NFC device. 2 - The NFC device receives a SENS_RES response from a peer device and passes it to the digital stack. 3 - If the SENS_RES response identifies a type 1 tag, detection ends. NFC core is notified through nfc_targets_found(). 4 - Otherwise, the digital stack sets the cascade level of NFCID1 to CL1 and sends the SDD_REQ command. 5 - The digital stack selects SEL_CMD and SEL_PAR according to the cascade level and sends the SDD_REQ command. 4 - The digital stack receives a SDD_RES response for the cascade level passed in the SDD_REQ command. 5 - The digital stack analyses (part of) NFCID1 and verify BCC. 6 - The digital stack sends the SEL_REQ command with the NFCID1 received in the SDD_RES. 6 - The peer device replies with a SEL_RES response 7 - Detection ends if NFCID1 is complete. NFC core notified of new target by nfc_targets_found(). 8 - If NFCID1 is not complete, the cascade level is incremented (up to and including CL3) and the execution continues at step 5 to get the remaining bytes of NFCID1. Once target detection is done, type 1 and 2 tag commands must be handled by a user space application (i.e neard) through the NFC core. Responses for type 1 tag are returned directly to user space via NFC core. Responses of type 2 commands are handled differently. The digital stack doesn't analyse the type of commands sent through im_transceive() and must differentiate valid responses from error ones. The response process flow is as follow: 1 - If the response length is 16 bytes, it is a valid response of a READ command. the packet is returned to the NFC core through the callback passed to im_transceive(). Processing stops. 2 - If the response is 1 byte long and is a ACK byte (0x0A), it is a valid response of a WRITE command for example. First packet byte is set to 0 for no-error and passed back to the NFC core. Processing stops. 3 - Any other response is treated as an error and -EIO error code is returned to the NFC core through the response callback. Moreover, since the driver can't differentiate success response from a NACK response, the digital stack has to handle CRC calculation. Thus, this patch also adds support for CRC calculation. If the driver doesn't handle it, the digital stack will calculate CRC and will add it to sent frames. CRC will also be checked and removed from received frames. Pointers to the correct CRC calculation functions are stored in the digital stack device structure when a target is detected. This avoids the need to check the current target type for every call to im_transceive() and for every response received from a peer device. Signed-off-by: Thierry Escande <thierry.escande@linux.intel.com> Signed-off-by: Samuel Ortiz <sameo@linux.intel.com>
Diffstat (limited to 'net/nfc/Kconfig')
-rw-r--r--net/nfc/Kconfig1
1 files changed, 1 insertions, 0 deletions
diff --git a/net/nfc/Kconfig b/net/nfc/Kconfig
index 13e1237e1ea1..4f4d2481325a 100644
--- a/net/nfc/Kconfig
+++ b/net/nfc/Kconfig
@@ -16,6 +16,7 @@ menuconfig NFC
config NFC_DIGITAL
depends on NFC
+ select CRC_CCITT
tristate "NFC Digital Protocol stack support"
default n
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