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author | Mauro Carvalho Chehab <mchehab+samsung@kernel.org> | 2019-04-18 13:02:23 -0300 |
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committer | Mauro Carvalho Chehab <mchehab+samsung@kernel.org> | 2019-07-15 09:20:25 -0300 |
commit | 9e678dd886c11fad6511ffad4d400e3abde81d64 (patch) | |
tree | 199a96a1e8547672565ddda9be2aa31096782f6d /Documentation/nfc | |
parent | 20a78ae9ed297f217537211e3304f525326ee517 (diff) | |
download | linux-9e678dd886c11fad6511ffad4d400e3abde81d64.tar.bz2 |
docs: nfc: convert to ReST
Rename the nfc documentation files to ReST, add an
index for them and adjust in order to produce a nice html
output via the Sphinx build system.
At its new index.rst, let's add a :orphan: while this is not linked to
the main index.rst file, in order to avoid build warnings.
Signed-off-by: Mauro Carvalho Chehab <mchehab+samsung@kernel.org>
Diffstat (limited to 'Documentation/nfc')
-rw-r--r-- | Documentation/nfc/index.rst | 11 | ||||
-rw-r--r-- | Documentation/nfc/nfc-hci.rst (renamed from Documentation/nfc/nfc-hci.txt) | 167 | ||||
-rw-r--r-- | Documentation/nfc/nfc-pn544.rst (renamed from Documentation/nfc/nfc-pn544.txt) | 6 |
3 files changed, 109 insertions, 75 deletions
diff --git a/Documentation/nfc/index.rst b/Documentation/nfc/index.rst new file mode 100644 index 000000000000..4f4947fce80d --- /dev/null +++ b/Documentation/nfc/index.rst @@ -0,0 +1,11 @@ +:orphan: + +======================== +Near Field Communication +======================== + +.. toctree:: + :maxdepth: 1 + + nfc-hci + nfc-pn544 diff --git a/Documentation/nfc/nfc-hci.txt b/Documentation/nfc/nfc-hci.rst index 0dc078cab972..eb8a1a14e919 100644 --- a/Documentation/nfc/nfc-hci.txt +++ b/Documentation/nfc/nfc-hci.rst @@ -1,7 +1,9 @@ +======================== HCI backend for NFC Core +======================== -Author: Eric Lapuyade, Samuel Ortiz -Contact: eric.lapuyade@intel.com, samuel.ortiz@intel.com +- Author: Eric Lapuyade, Samuel Ortiz +- Contact: eric.lapuyade@intel.com, samuel.ortiz@intel.com General ------- @@ -24,12 +26,13 @@ HCI events can also be received from the host controller. They will be handled and a translation will be forwarded to NFC Core as needed. There are hooks to let the HCI driver handle proprietary events or override standard behavior. HCI uses 2 execution contexts: + - one for executing commands : nfc_hci_msg_tx_work(). Only one command -can be executing at any given moment. + can be executing at any given moment. - one for dispatching received events and commands : nfc_hci_msg_rx_work(). -HCI Session initialization: ---------------------------- +HCI Session initialization +-------------------------- The Session initialization is an HCI standard which must unfortunately support proprietary gates. This is the reason why the driver will pass a list @@ -58,9 +61,9 @@ HCI Management -------------- A driver would normally register itself with HCI and provide the following -entry points: +entry points:: -struct nfc_hci_ops { + struct nfc_hci_ops { int (*open)(struct nfc_hci_dev *hdev); void (*close)(struct nfc_hci_dev *hdev); int (*hci_ready) (struct nfc_hci_dev *hdev); @@ -82,38 +85,38 @@ struct nfc_hci_ops { struct nfc_target *target); int (*event_received)(struct nfc_hci_dev *hdev, u8 gate, u8 event, struct sk_buff *skb); -}; + }; - open() and close() shall turn the hardware on and off. - hci_ready() is an optional entry point that is called right after the hci -session has been set up. The driver can use it to do additional initialization -that must be performed using HCI commands. + session has been set up. The driver can use it to do additional initialization + that must be performed using HCI commands. - xmit() shall simply write a frame to the physical link. - start_poll() is an optional entrypoint that shall set the hardware in polling -mode. This must be implemented only if the hardware uses proprietary gates or a -mechanism slightly different from the HCI standard. + mode. This must be implemented only if the hardware uses proprietary gates or a + mechanism slightly different from the HCI standard. - dep_link_up() is called after a p2p target has been detected, to finish -the p2p connection setup with hardware parameters that need to be passed back -to nfc core. + the p2p connection setup with hardware parameters that need to be passed back + to nfc core. - dep_link_down() is called to bring the p2p link down. - target_from_gate() is an optional entrypoint to return the nfc protocols -corresponding to a proprietary gate. + corresponding to a proprietary gate. - complete_target_discovered() is an optional entry point to let the driver -perform additional proprietary processing necessary to auto activate the -discovered target. + perform additional proprietary processing necessary to auto activate the + discovered target. - im_transceive() must be implemented by the driver if proprietary HCI commands -are required to send data to the tag. Some tag types will require custom -commands, others can be written to using the standard HCI commands. The driver -can check the tag type and either do proprietary processing, or return 1 to ask -for standard processing. The data exchange command itself must be sent -asynchronously. + are required to send data to the tag. Some tag types will require custom + commands, others can be written to using the standard HCI commands. The driver + can check the tag type and either do proprietary processing, or return 1 to ask + for standard processing. The data exchange command itself must be sent + asynchronously. - tm_send() is called to send data in the case of a p2p connection - check_presence() is an optional entry point that will be called regularly -by the core to check that an activated tag is still in the field. If this is -not implemented, the core will not be able to push tag_lost events to the user -space + by the core to check that an activated tag is still in the field. If this is + not implemented, the core will not be able to push tag_lost events to the user + space - event_received() is called to handle an event coming from the chip. Driver -can handle the event or return 1 to let HCI attempt standard processing. + can handle the event or return 1 to let HCI attempt standard processing. On the rx path, the driver is responsible to push incoming HCP frames to HCI using nfc_hci_recv_frame(). HCI will take care of re-aggregation and handling @@ -122,20 +125,23 @@ This must be done from a context that can sleep. PHY Management -------------- -The physical link (i2c, ...) management is defined by the following structure: +The physical link (i2c, ...) management is defined by the following structure:: -struct nfc_phy_ops { + struct nfc_phy_ops { int (*write)(void *dev_id, struct sk_buff *skb); int (*enable)(void *dev_id); void (*disable)(void *dev_id); -}; - -enable(): turn the phy on (power on), make it ready to transfer data -disable(): turn the phy off -write(): Send a data frame to the chip. Note that to enable higher -layers such as an llc to store the frame for re-emission, this function must -not alter the skb. It must also not return a positive result (return 0 for -success, negative for failure). + }; + +enable(): + turn the phy on (power on), make it ready to transfer data +disable(): + turn the phy off +write(): + Send a data frame to the chip. Note that to enable higher + layers such as an llc to store the frame for re-emission, this + function must not alter the skb. It must also not return a positive + result (return 0 for success, negative for failure). Data coming from the chip shall be sent directly to nfc_hci_recv_frame(). @@ -145,9 +151,9 @@ LLC Communication between the CPU and the chip often requires some link layer protocol. Those are isolated as modules managed by the HCI layer. There are currently two modules : nop (raw transfert) and shdlc. -A new llc must implement the following functions: +A new llc must implement the following functions:: -struct nfc_llc_ops { + struct nfc_llc_ops { void *(*init) (struct nfc_hci_dev *hdev, xmit_to_drv_t xmit_to_drv, rcv_to_hci_t rcv_to_hci, int tx_headroom, int tx_tailroom, int *rx_headroom, int *rx_tailroom, @@ -157,17 +163,25 @@ struct nfc_llc_ops { int (*stop) (struct nfc_llc *llc); void (*rcv_from_drv) (struct nfc_llc *llc, struct sk_buff *skb); int (*xmit_from_hci) (struct nfc_llc *llc, struct sk_buff *skb); -}; - -- init() : allocate and init your private storage -- deinit() : cleanup -- start() : establish the logical connection -- stop () : terminate the logical connection -- rcv_from_drv() : handle data coming from the chip, going to HCI -- xmit_from_hci() : handle data sent by HCI, going to the chip + }; + +init(): + allocate and init your private storage +deinit(): + cleanup +start(): + establish the logical connection +stop (): + terminate the logical connection +rcv_from_drv(): + handle data coming from the chip, going to HCI +xmit_from_hci(): + handle data sent by HCI, going to the chip The llc must be registered with nfc before it can be used. Do that by -calling nfc_llc_register(const char *name, struct nfc_llc_ops *ops); +calling:: + + nfc_llc_register(const char *name, struct nfc_llc_ops *ops); Again, note that the llc does not handle the physical link. It is thus very easy to mix any physical link with any llc for a given chip driver. @@ -187,26 +201,32 @@ fast, cannot sleep. sends incoming frames to HCI where they are passed to the current llc. In case of shdlc, the frame is queued in shdlc rx queue. - SHDLC State Machine worker (SMW) -Only when llc_shdlc is used: handles shdlc rx & tx queues. -Dispatches HCI cmd responses. + + Only when llc_shdlc is used: handles shdlc rx & tx queues. + + Dispatches HCI cmd responses. - HCI Tx Cmd worker (MSGTXWQ) -Serializes execution of HCI commands. Completes execution in case of response -timeout. + + Serializes execution of HCI commands. + + Completes execution in case of response timeout. - HCI Rx worker (MSGRXWQ) -Dispatches incoming HCI commands or events. + + Dispatches incoming HCI commands or events. - Syscall context from a userspace call (SYSCALL) -Any entrypoint in HCI called from NFC Core + + Any entrypoint in HCI called from NFC Core Workflow executing an HCI command (using shdlc) ----------------------------------------------- Executing an HCI command can easily be performed synchronously using the -following API: +following API:: -int nfc_hci_send_cmd (struct nfc_hci_dev *hdev, u8 gate, u8 cmd, + int nfc_hci_send_cmd (struct nfc_hci_dev *hdev, u8 gate, u8 cmd, const u8 *param, size_t param_len, struct sk_buff **skb) The API must be invoked from a context that can sleep. Most of the time, this @@ -234,11 +254,11 @@ waiting command execution. Response processing involves invoking the completion callback that was provided by nfc_hci_msg_tx_work() when it sent the command. The completion callback will then wake the syscall context. -It is also possible to execute the command asynchronously using this API: +It is also possible to execute the command asynchronously using this API:: -static int nfc_hci_execute_cmd_async(struct nfc_hci_dev *hdev, u8 pipe, u8 cmd, - const u8 *param, size_t param_len, - data_exchange_cb_t cb, void *cb_context) + static int nfc_hci_execute_cmd_async(struct nfc_hci_dev *hdev, u8 pipe, u8 cmd, + const u8 *param, size_t param_len, + data_exchange_cb_t cb, void *cb_context) The workflow is the same, except that the API call returns immediately, and the callback will be called with the result from the SMW context. @@ -268,23 +288,24 @@ went wrong below and know that expected events will probably never happen. Handling of these errors is done as follows: - driver (pn544) fails to deliver an incoming frame: it stores the error such -that any subsequent call to the driver will result in this error. Then it calls -the standard nfc_shdlc_recv_frame() with a NULL argument to report the problem -above. shdlc stores a EREMOTEIO sticky status, which will trigger SMW to -report above in turn. + that any subsequent call to the driver will result in this error. Then it + calls the standard nfc_shdlc_recv_frame() with a NULL argument to report the + problem above. shdlc stores a EREMOTEIO sticky status, which will trigger + SMW to report above in turn. - SMW is basically a background thread to handle incoming and outgoing shdlc -frames. This thread will also check the shdlc sticky status and report to HCI -when it discovers it is not able to run anymore because of an unrecoverable -error that happened within shdlc or below. If the problem occurs during shdlc -connection, the error is reported through the connect completion. + frames. This thread will also check the shdlc sticky status and report to HCI + when it discovers it is not able to run anymore because of an unrecoverable + error that happened within shdlc or below. If the problem occurs during shdlc + connection, the error is reported through the connect completion. - HCI: if an internal HCI error happens (frame is lost), or HCI is reported an -error from a lower layer, HCI will either complete the currently executing -command with that error, or notify NFC Core directly if no command is executing. + error from a lower layer, HCI will either complete the currently executing + command with that error, or notify NFC Core directly if no command is + executing. - NFC Core: when NFC Core is notified of an error from below and polling is -active, it will send a tag discovered event with an empty tag list to the user -space to let it know that the poll operation will never be able to detect a tag. -If polling is not active and the error was sticky, lower levels will return it -at next invocation. + active, it will send a tag discovered event with an empty tag list to the user + space to let it know that the poll operation will never be able to detect a + tag. If polling is not active and the error was sticky, lower levels will + return it at next invocation. diff --git a/Documentation/nfc/nfc-pn544.txt b/Documentation/nfc/nfc-pn544.rst index b36ca14ca2d6..6b2d8aae0c4e 100644 --- a/Documentation/nfc/nfc-pn544.txt +++ b/Documentation/nfc/nfc-pn544.rst @@ -1,5 +1,7 @@ -Kernel driver for the NXP Semiconductors PN544 Near Field -Communication chip +============================================================================ +Kernel driver for the NXP Semiconductors PN544 Near Field Communication chip +============================================================================ + General ------- |