CORE/SERVICES/COMMON/ol_txrx_osif_api.h - imx-board-wlan-src - Git at Google

 /*
  * Copyright (c) 2012, 2014, 2017-2018 The Linux Foundation. All rights reserved.
  *
  * Previously licensed under the ISC license by Qualcomm Atheros, Inc.
  *
  *
  * Permission to use, copy, modify, and/or distribute this software for
  * any purpose with or without fee is hereby granted, provided that the
  * above copyright notice and this permission notice appear in all
  * copies.
  *
  * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
  * WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
  * WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
  * AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
  * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
  * PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
  * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
  * PERFORMANCE OF THIS SOFTWARE.
  */

 /*
  * This file was originally distributed by Qualcomm Atheros, Inc.
  * under proprietary terms before Copyright ownership was assigned
  * to the Linux Foundation.
  */

 /**
  * @file ol_txrx_osif_api.h
  * @brief Define the host data API functions called by the host OS shim SW.
  */
 #ifndef _OL_TXRX_OSIF_API__H_
 #define _OL_TXRX_OSIF_API__H_

 #include <adf_nbuf.h>     /* adf_nbuf_t */

 #include <ol_osif_api.h> /* ol_osif_vdev_handle */
 #include <ol_txrx_api.h> /* ol_txrx_pdev_handle, etc. */

 /**
  * @typedef ol_txrx_tx_fp
  * @brief top-level transmit function
  */
 typedef adf_nbuf_t (*ol_txrx_tx_fp)(
     ol_txrx_vdev_handle data_vdev, adf_nbuf_t msdu_list);

 /**
  * @typedef ol_txrx_tx_non_std_fp
  * @brief top-level transmit function for non-standard tx frames
  * @details
  *  This function pointer provides an alternative to the ol_txrx_tx_fp
  *  to support non-standard transmits.  In particular, this function
  *  supports transmission of:
  *  1. "Raw" frames
  *     These raw frames already have an 802.11 header; the usual
  *     802.11 header encapsulation by the driver does not apply.
  *  2. TSO segments
  *     During tx completion, the txrx layer needs to reclaim the buffer
  *     that holds the ethernet/IP/TCP header created for the TSO segment.
  *     Thus, these tx frames need to be marked as TSO, to show that they
  *     need this special handling during tx completion.
  *
  * @param data_vdev - which virtual device should transmit the frame
  * @param tx_spec - what non-standard operations to apply to the tx frame
  * @param msdu_list - tx frame(s), in a null-terminated list
  */
 typedef adf_nbuf_t (*ol_txrx_tx_non_std_fp)(
     ol_txrx_vdev_handle data_vdev,
     enum ol_tx_spec tx_spec,
     adf_nbuf_t msdu_list);

 struct txrx_rx_metainfo;

 #ifdef OSIF_NEED_RX_PEER_ID
 /**
  * @typedef ol_txrx_rx_fp
  * @brief receive function to hand batches of data frames from txrx to OS shim
  * @details this version of rx callback is for the OS shim, for example CLD, which
  * depends on peer id information in data rx.
  */
 typedef void (*ol_txrx_rx_fp)(void *osif_dev, u_int16_t peer_id,
 			      adf_nbuf_t msdus);
 #else

 /**
  * @typedef ol_txrx_rx_fp
  * @brief receive function to hand batches of data frames from txrx to OS shim
  */
 typedef void (*ol_txrx_rx_fp)(void *osif_dev, adf_nbuf_t msdus);
 #endif /* OSIF_NEED_RX_PEER_ID */

 /**
  * @typedef ol_txrx_tx_fc_fp
  * @brief tx flow control notification function from txrx to OS shim
  * @param osif_dev - the virtual device's OS shim object
  * @param vdev_id - virtual device id
  * @param tx_resume - tx os q should be resumed or not
  */
 typedef void (*ol_txrx_tx_flow_control_fp)(void *osif_dev,
                                            u_int8_t vdev_id, a_bool_t tx_resume);
 /**
  * @typedef ol_txrx_vir_mon_rx_fp
  * @brief receive function to hand montior frames from txrx to OS shim
  * @param msdus - rx monitor frame(s), in a null-terminated list
  */
 typedef void (*ol_txrx_vir_mon_rx_fp)(adf_nbuf_t msdus);

 /**
  * @typedef ol_txrx_rx_fp
  * @brief receive function to hand batches of data frames from txrx to OS shim
  */

 struct ol_txrx_osif_ops {
     /* tx function pointers - specified by txrx, stored by OS shim */
     struct {
         ol_txrx_tx_fp              std;
         ol_txrx_tx_non_std_fp      non_std;
         ol_txrx_tx_flow_control_fp flow_control_cb;
     } tx;

     /* rx function pointers - specified by OS shim, stored by txrx */
     struct {
         ol_txrx_rx_fp         std;
     } rx;
 };

 /**
  * @brief Link a vdev's data object with the matching OS shim vdev object.
  * @details
  *  The data object for a virtual device is created by the function
  *  ol_txrx_vdev_attach.  However, rather than fully linking the
  *  data vdev object with the vdev objects from the other subsystems
  *  that the data vdev object interacts with, the txrx_vdev_attach
  *  function focuses primarily on creating the data vdev object.
  *  After the creation of both the data vdev object and the OS shim
  *  vdev object, this txrx_osif_vdev_attach function is used to connect
  *  the two vdev objects, so the data SW can use the OS shim vdev handle
  *  when passing rx data received by a vdev up to the OS shim.
  *
  * @param txrx_vdev - the virtual device's data object
  * @param osif_vdev - the virtual device's OS shim object
  * @param txrx_ops - (pointers to) the functions used for tx and rx data xfer
  *      There are two portions of these txrx operations.
  *      The rx portion is filled in by OSIF SW before calling
  *      ol_txrx_osif_vdev_register; inside the ol_txrx_osif_vdev_register
  *      the txrx SW stores a copy of these rx function pointers, to use
  *      as it delivers rx data frames to the OSIF SW.
  *      The tx portion is filled in by the txrx SW inside
  *      ol_txrx_osif_vdev_register; when the function call returns,
  *      the OSIF SW stores a copy of these tx functions to use as it
  *      delivers tx data frames to the txrx SW.
  *      The rx function pointer inputs consist of the following:
  *      rx: the OS shim rx function to deliver rx data frames to.
  *          This can have different values for different virtual devices,
  *          e.g. so one virtual device's OS shim directly hands rx frames to
  *          the OS, but another virtual device's OS shim filters out P2P
  *          messages before sending the rx frames to the OS.
  *          The netbufs delivered to the osif_rx function are in the format
  *          specified by the OS to use for tx and rx frames (either 802.3 or
  *          native WiFi).
  *      rx_mon: the OS shim rx monitor function to deliver monitor data to
  *          Though in practice, it is probable that the same function will
  *          be used for delivering rx monitor data for all virtual devices,
  *          in theory each different virtual device can have a different
  *          OS shim function for accepting rx monitor data.
  *          The netbufs delivered to the osif_rx_mon function are in 802.11
  *          format.  Each netbuf holds a 802.11 MPDU, not an 802.11 MSDU.
  *          Depending on compile-time configuration, each netbuf may also
  *          have a monitor-mode encapsulation header such as a radiotap
  *          header added before the MPDU contents.
  *      The tx function pointer outputs consist of the following:
  *      tx: the tx function pointer for standard data frames
  *          This function pointer is set by the txrx SW to perform
  *          host-side transmit operations based on whether a HL or LL
  *          host/target interface is in use.
  *      tx_non_std: the tx function pointer for non-standard data frames,
  *          such as TSO frames, explicitly-prioritized frames, or "raw"
  *          frames which skip some of the tx operations, such as 802.11
  *          MAC header encapsulation.
  */
 void
 ol_txrx_osif_vdev_register(
     ol_txrx_vdev_handle txrx_vdev,
     void *osif_vdev,
     struct ol_txrx_osif_ops *txrx_ops);

 /**
  * @brief Divide a jumbo TCP frame into smaller segments.
  * @details
  *  For efficiency, the protocol stack above the WLAN driver may operate
  *  on jumbo tx frames, which are larger than the 802.11 MTU.
  *  The OSIF SW uses this txrx API function to divide the jumbo tx TCP frame
  *  into a series of segment frames.
  *  The segments are created as clones of the input jumbo frame.
  *  The txrx SW generates a new encapsulation header (ethernet + IP + TCP)
  *  for each of the output segment frames.  The exact format of this header,
  *  e.g. 802.3 vs. Ethernet II, and IPv4 vs. IPv6, is chosen to match the
  *  header format of the input jumbo frame.
  *  The input jumbo frame is not modified.
  *  After the ol_txrx_osif_tso_segment returns, the OSIF SW needs to perform
  *  DMA mapping on each of the segment network buffers, and also needs to
  *
  * @param txrx_vdev - which virtual device will transmit the TSO segments
  * @param max_seg_payload_bytes - the maximum size for the TCP payload of
  *      each segment frame.
  *      This does not include the ethernet + IP + TCP header sizes.
  * @param jumbo_tcp_frame - jumbo frame which needs to be cloned+segmented
  * @return
  *      NULL if the segmentation fails, - OR -
  *      a NULL-terminated list of segment network buffers
  */
 adf_nbuf_t ol_txrx_osif_tso_segment(
     ol_txrx_vdev_handle txrx_vdev,
     int max_seg_payload_bytes,
     adf_nbuf_t jumbo_tcp_frame);

 /**
  * @brief register the TLSHIM montior callback to OL pdev context
  * @details
  * For the virtual monitor interface which real VDEV is not created case,
  * just store the TLSHIM RX montior callback into TXRX_PDEV context.
  * later when receive RX montior packets from HTT layer, call the callback
  * stored in TXRX_PDEV to deliver packets to TLSHIM.
  *
  * @param txrx_pdev - TXRX physical device context
  * @param cbk - TLSHIM montior callback to be registered
  */
 void
 ol_txrx_osif_pdev_mon_register_cbk(
 	ol_txrx_pdev_handle txrx_pdev,
 	ol_txrx_vir_mon_rx_fp cbk);

 #ifdef QCA_SUPPORT_TXRX_DRIVER_TCP_DEL_ACK
 void
 ol_tx_vdev_set_driver_del_ack_enable(uint8_t vdev_id, unsigned long tx_packets,
 			uint32_t time_in_ms, uint32_t high_th, uint32_t low_th);
 void
 ol_tx_pdev_reset_driver_del_ack(void *pdev);

 #else
 static inline void
 ol_tx_vdev_set_driver_del_ack_enable(uint8_t vdev_id, unsigned long tx_packets,
 			uint32_t time_in_ms, uint32_t high_th, uint32_t low_th)
 {
 	return;
 }
 static inline void
 ol_tx_pdev_reset_driver_del_ack(void *pdev)
 {
 	return;
 }

 #endif

 #ifdef QCA_SUPPORT_TXRX_HL_BUNDLE
 void
 ol_tx_vdev_set_bundle_require(uint8_t vdev_id, unsigned long tx_packets,
 			uint32_t time_in_ms, uint32_t high_th, uint32_t low_th);
 void
 ol_tx_pdev_reset_bundle_require(void* pdev);

 #else
 static inline void
 ol_tx_vdev_set_bundle_require(uint8_t vdev_id, unsigned long tx_packets,
 			uint32_t time_in_ms, uint32_t high_th, uint32_t low_th)
 {
 	return;
 }
 static inline void
 ol_tx_pdev_reset_bundle_require(void* pdev)
 {
 	return;
 }

 #endif

 #endif /* _OL_TXRX_OSIF_API__H_ */
	/*
	* Copyright (c) 2012, 2014, 2017-2018 The Linux Foundation. All rights reserved.
	*
	* Previously licensed under the ISC license by Qualcomm Atheros, Inc.
	*
	*
	* Permission to use, copy, modify, and/or distribute this software for
	* any purpose with or without fee is hereby granted, provided that the
	* above copyright notice and this permission notice appear in all
	* copies.
	*
	* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL
	* WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE
	* AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL
	* DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR
	* PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER
	* TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR
	* PERFORMANCE OF THIS SOFTWARE.
	*/

	/*
	* This file was originally distributed by Qualcomm Atheros, Inc.
	* under proprietary terms before Copyright ownership was assigned
	* to the Linux Foundation.
	*/

	/**
	* @file ol_txrx_osif_api.h
	* @brief Define the host data API functions called by the host OS shim SW.
	*/
	#ifndef _OL_TXRX_OSIF_API__H_
	#define _OL_TXRX_OSIF_API__H_

	#include <adf_nbuf.h> /* adf_nbuf_t */

	#include <ol_osif_api.h> /* ol_osif_vdev_handle */
	#include <ol_txrx_api.h> /* ol_txrx_pdev_handle, etc. */

	/**
	* @typedef ol_txrx_tx_fp
	* @brief top-level transmit function
	*/
	typedef adf_nbuf_t (*ol_txrx_tx_fp)(
	ol_txrx_vdev_handle data_vdev, adf_nbuf_t msdu_list);

	/**
	* @typedef ol_txrx_tx_non_std_fp
	* @brief top-level transmit function for non-standard tx frames
	* @details
	* This function pointer provides an alternative to the ol_txrx_tx_fp
	* to support non-standard transmits. In particular, this function
	* supports transmission of:
	* 1. "Raw" frames
	* These raw frames already have an 802.11 header; the usual
	* 802.11 header encapsulation by the driver does not apply.
	* 2. TSO segments
	* During tx completion, the txrx layer needs to reclaim the buffer
	* that holds the ethernet/IP/TCP header created for the TSO segment.
	* Thus, these tx frames need to be marked as TSO, to show that they
	* need this special handling during tx completion.
	*
	* @param data_vdev - which virtual device should transmit the frame
	* @param tx_spec - what non-standard operations to apply to the tx frame
	* @param msdu_list - tx frame(s), in a null-terminated list
	*/
	typedef adf_nbuf_t (*ol_txrx_tx_non_std_fp)(
	ol_txrx_vdev_handle data_vdev,
	enum ol_tx_spec tx_spec,
	adf_nbuf_t msdu_list);

	struct txrx_rx_metainfo;

	#ifdef OSIF_NEED_RX_PEER_ID
	/**
	* @typedef ol_txrx_rx_fp
	* @brief receive function to hand batches of data frames from txrx to OS shim
	* @details this version of rx callback is for the OS shim, for example CLD, which
	* depends on peer id information in data rx.
	*/
	typedef void (ol_txrx_rx_fp)(void osif_dev, u_int16_t peer_id,
	adf_nbuf_t msdus);
	#else

	/**
	* @typedef ol_txrx_rx_fp
	* @brief receive function to hand batches of data frames from txrx to OS shim
	*/
	typedef void (ol_txrx_rx_fp)(void osif_dev, adf_nbuf_t msdus);
	#endif /* OSIF_NEED_RX_PEER_ID */

	/**
	* @typedef ol_txrx_tx_fc_fp
	* @brief tx flow control notification function from txrx to OS shim
	* @param osif_dev - the virtual device's OS shim object
	* @param vdev_id - virtual device id
	* @param tx_resume - tx os q should be resumed or not
	*/
	typedef void (ol_txrx_tx_flow_control_fp)(void osif_dev,
	u_int8_t vdev_id, a_bool_t tx_resume);
	/**
	* @typedef ol_txrx_vir_mon_rx_fp
	* @brief receive function to hand montior frames from txrx to OS shim
	* @param msdus - rx monitor frame(s), in a null-terminated list
	*/
	typedef void (*ol_txrx_vir_mon_rx_fp)(adf_nbuf_t msdus);

	/**
	* @typedef ol_txrx_rx_fp
	* @brief receive function to hand batches of data frames from txrx to OS shim
	*/

	struct ol_txrx_osif_ops {
	/* tx function pointers - specified by txrx, stored by OS shim */
	struct {
	ol_txrx_tx_fp std;
	ol_txrx_tx_non_std_fp non_std;
	ol_txrx_tx_flow_control_fp flow_control_cb;
	} tx;

	/* rx function pointers - specified by OS shim, stored by txrx */
	struct {
	ol_txrx_rx_fp std;
	} rx;
	};

	/**
	* @brief Link a vdev's data object with the matching OS shim vdev object.
	* @details
	* The data object for a virtual device is created by the function
	* ol_txrx_vdev_attach. However, rather than fully linking the
	* data vdev object with the vdev objects from the other subsystems
	* that the data vdev object interacts with, the txrx_vdev_attach
	* function focuses primarily on creating the data vdev object.
	* After the creation of both the data vdev object and the OS shim
	* vdev object, this txrx_osif_vdev_attach function is used to connect
	* the two vdev objects, so the data SW can use the OS shim vdev handle
	* when passing rx data received by a vdev up to the OS shim.
	*
	* @param txrx_vdev - the virtual device's data object
	* @param osif_vdev - the virtual device's OS shim object
	* @param txrx_ops - (pointers to) the functions used for tx and rx data xfer
	* There are two portions of these txrx operations.
	* The rx portion is filled in by OSIF SW before calling
	* ol_txrx_osif_vdev_register; inside the ol_txrx_osif_vdev_register
	* the txrx SW stores a copy of these rx function pointers, to use
	* as it delivers rx data frames to the OSIF SW.
	* The tx portion is filled in by the txrx SW inside
	* ol_txrx_osif_vdev_register; when the function call returns,
	* the OSIF SW stores a copy of these tx functions to use as it
	* delivers tx data frames to the txrx SW.
	* The rx function pointer inputs consist of the following:
	* rx: the OS shim rx function to deliver rx data frames to.
	* This can have different values for different virtual devices,
	* e.g. so one virtual device's OS shim directly hands rx frames to
	* the OS, but another virtual device's OS shim filters out P2P
	* messages before sending the rx frames to the OS.
	* The netbufs delivered to the osif_rx function are in the format
	* specified by the OS to use for tx and rx frames (either 802.3 or
	* native WiFi).
	* rx_mon: the OS shim rx monitor function to deliver monitor data to
	* Though in practice, it is probable that the same function will
	* be used for delivering rx monitor data for all virtual devices,
	* in theory each different virtual device can have a different
	* OS shim function for accepting rx monitor data.
	* The netbufs delivered to the osif_rx_mon function are in 802.11
	* format. Each netbuf holds a 802.11 MPDU, not an 802.11 MSDU.
	* Depending on compile-time configuration, each netbuf may also
	* have a monitor-mode encapsulation header such as a radiotap
	* header added before the MPDU contents.
	* The tx function pointer outputs consist of the following:
	* tx: the tx function pointer for standard data frames
	* This function pointer is set by the txrx SW to perform
	* host-side transmit operations based on whether a HL or LL
	* host/target interface is in use.
	* tx_non_std: the tx function pointer for non-standard data frames,
	* such as TSO frames, explicitly-prioritized frames, or "raw"
	* frames which skip some of the tx operations, such as 802.11
	* MAC header encapsulation.
	*/
	void
	ol_txrx_osif_vdev_register(
	ol_txrx_vdev_handle txrx_vdev,
	void *osif_vdev,
	struct ol_txrx_osif_ops *txrx_ops);

	/**
	* @brief Divide a jumbo TCP frame into smaller segments.
	* @details
	* For efficiency, the protocol stack above the WLAN driver may operate
	* on jumbo tx frames, which are larger than the 802.11 MTU.
	* The OSIF SW uses this txrx API function to divide the jumbo tx TCP frame
	* into a series of segment frames.
	* The segments are created as clones of the input jumbo frame.
	* The txrx SW generates a new encapsulation header (ethernet + IP + TCP)
	* for each of the output segment frames. The exact format of this header,
	* e.g. 802.3 vs. Ethernet II, and IPv4 vs. IPv6, is chosen to match the
	* header format of the input jumbo frame.
	* The input jumbo frame is not modified.
	* After the ol_txrx_osif_tso_segment returns, the OSIF SW needs to perform
	* DMA mapping on each of the segment network buffers, and also needs to
	*
	* @param txrx_vdev - which virtual device will transmit the TSO segments
	* @param max_seg_payload_bytes - the maximum size for the TCP payload of
	* each segment frame.
	* This does not include the ethernet + IP + TCP header sizes.
	* @param jumbo_tcp_frame - jumbo frame which needs to be cloned+segmented
	* @return
	* NULL if the segmentation fails, - OR -
	* a NULL-terminated list of segment network buffers
	*/
	adf_nbuf_t ol_txrx_osif_tso_segment(
	ol_txrx_vdev_handle txrx_vdev,
	int max_seg_payload_bytes,
	adf_nbuf_t jumbo_tcp_frame);

	/**
	* @brief register the TLSHIM montior callback to OL pdev context
	* @details
	* For the virtual monitor interface which real VDEV is not created case,
	* just store the TLSHIM RX montior callback into TXRX_PDEV context.
	* later when receive RX montior packets from HTT layer, call the callback
	* stored in TXRX_PDEV to deliver packets to TLSHIM.
	*
	* @param txrx_pdev - TXRX physical device context
	* @param cbk - TLSHIM montior callback to be registered
	*/
	void
	ol_txrx_osif_pdev_mon_register_cbk(
	ol_txrx_pdev_handle txrx_pdev,
	ol_txrx_vir_mon_rx_fp cbk);

	#ifdef QCA_SUPPORT_TXRX_DRIVER_TCP_DEL_ACK
	void
	ol_tx_vdev_set_driver_del_ack_enable(uint8_t vdev_id, unsigned long tx_packets,
	uint32_t time_in_ms, uint32_t high_th, uint32_t low_th);
	void
	ol_tx_pdev_reset_driver_del_ack(void *pdev);

	#else
	static inline void
	ol_tx_vdev_set_driver_del_ack_enable(uint8_t vdev_id, unsigned long tx_packets,
	uint32_t time_in_ms, uint32_t high_th, uint32_t low_th)
	{
	return;
	}
	static inline void
	ol_tx_pdev_reset_driver_del_ack(void *pdev)
	{
	return;
	}

	#endif

	#ifdef QCA_SUPPORT_TXRX_HL_BUNDLE
	void
	ol_tx_vdev_set_bundle_require(uint8_t vdev_id, unsigned long tx_packets,
	uint32_t time_in_ms, uint32_t high_th, uint32_t low_th);
	void
	ol_tx_pdev_reset_bundle_require(void* pdev);

	#else
	static inline void
	ol_tx_vdev_set_bundle_require(uint8_t vdev_id, unsigned long tx_packets,
	uint32_t time_in_ms, uint32_t high_th, uint32_t low_th)
	{
	return;
	}
	static inline void
	ol_tx_pdev_reset_bundle_require(void* pdev)
	{
	return;
	}

	#endif

	#endif /* _OL_TXRX_OSIF_API__H_ */