CORE/CLD_TXRX/HTT/htt.c - imx-board-wlan-src - Git at Google

 /*
  * Copyright (c) 2011, 2014-2017 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 htt.c
  * @brief Provide functions to create+init and destroy a HTT instance.
  * @details
  *  This file contains functions for creating a HTT instance; initializing
  *  the HTT instance, e.g. by allocating a pool of HTT tx descriptors and
  *  connecting the HTT service with HTC; and deleting a HTT instance.
  */

 #include <adf_os_mem.h>      /* adf_os_mem_alloc */
 #include <adf_os_types.h>    /* adf_os_device_t, adf_os_print */

 #include <htt.h>             /* htt_tx_msdu_desc_t */
 #include <ol_cfg.h>
 #include <ol_txrx_htt_api.h> /* ol_tx_dowload_done_ll, etc. */
 #include <ol_htt_api.h>

 #include <htt_internal.h>
 #if defined(HIF_PCI)
 #include "if_pci.h"
 #endif

 #define HTT_HTC_PKT_POOL_INIT_SIZE 100 /* enough for a large A-MPDU */

 A_STATUS
 htt_h2t_rx_ring_cfg_msg_ll(struct htt_pdev_t *pdev);

 A_STATUS
 htt_h2t_rx_ring_cfg_msg_hl(struct htt_pdev_t *pdev);

 A_STATUS (*htt_h2t_rx_ring_cfg_msg)(
         struct htt_pdev_t *pdev);

 #ifdef IPA_UC_OFFLOAD
 A_STATUS
 htt_ipa_config(htt_pdev_handle pdev, A_STATUS status)
 {
     if ((A_OK == status) &&
         ol_cfg_ipa_uc_offload_enabled(pdev->ctrl_pdev)) {
         status = htt_h2t_ipa_uc_rsc_cfg_msg(pdev);
     }
     return status;
 }

 #define HTT_IPA_CONFIG htt_ipa_config
 #else
 #define HTT_IPA_CONFIG(pdev, status) status /* no-op */
 #endif /* IPA_UC_OFFLOAD */


 struct htt_htc_pkt *
 htt_htc_pkt_alloc(struct htt_pdev_t *pdev)
 {
     struct htt_htc_pkt_union *pkt = NULL;

     HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
     if (pdev->htt_htc_pkt_freelist) {
         pkt = pdev->htt_htc_pkt_freelist;
         pdev->htt_htc_pkt_freelist = pdev->htt_htc_pkt_freelist->u.next;
     }
     HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);

     if (pkt == NULL) {
         pkt = adf_os_mem_alloc(pdev->osdev, sizeof(*pkt));
     }
     return &pkt->u.pkt; /* not actually a dereference */
 }

 void
 htt_htc_pkt_free(struct htt_pdev_t *pdev, struct htt_htc_pkt *pkt)
 {
     struct htt_htc_pkt_union *u_pkt = (struct htt_htc_pkt_union *) pkt;

     HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
     u_pkt->u.next = pdev->htt_htc_pkt_freelist;
     pdev->htt_htc_pkt_freelist = u_pkt;
     HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);
 }

 void
 htt_htc_pkt_pool_free(struct htt_pdev_t *pdev)
 {
     struct htt_htc_pkt_union *pkt, *next;
     pkt = pdev->htt_htc_pkt_freelist;
     while (pkt) {
         next = pkt->u.next;
         adf_os_mem_free(pkt);
         pkt = next;
     }
     pdev->htt_htc_pkt_freelist = NULL;
 }

 #ifdef ATH_11AC_TXCOMPACT
 void
 htt_htc_misc_pkt_list_trim(struct htt_pdev_t *pdev, int level)
 {
     struct htt_htc_pkt_union *pkt, *next, *prev = NULL;
     int i = 0;
     adf_nbuf_t netbuf;

     HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
     pkt = pdev->htt_htc_pkt_misclist;
     while (pkt) {
         next = pkt->u.next;
         /* trim the out grown list*/
         if (++i > level) {
             netbuf = (adf_nbuf_t)(pkt->u.pkt.htc_pkt.pNetBufContext);
             adf_nbuf_unmap(pdev->osdev, netbuf, ADF_OS_DMA_TO_DEVICE);
             adf_nbuf_free(netbuf);
             adf_os_mem_free(pkt);
             pkt = NULL;
             if (prev)
                 prev->u.next = NULL;
         }
         prev = pkt;
         pkt = next;
     }
     HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);
 }

 void
 htt_htc_misc_pkt_list_add(struct htt_pdev_t *pdev, struct htt_htc_pkt *pkt)
 {
     struct htt_htc_pkt_union *u_pkt = (struct htt_htc_pkt_union *) pkt;

     HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
     if (pdev->htt_htc_pkt_misclist) {
         u_pkt->u.next = pdev->htt_htc_pkt_misclist;
         pdev->htt_htc_pkt_misclist = u_pkt;
     } else {
         pdev->htt_htc_pkt_misclist = u_pkt;
     }
     HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);
     htt_htc_misc_pkt_list_trim(pdev, HTT_HTC_PKT_MISCLIST_SIZE);
 }

 void
 htt_htc_misc_pkt_pool_free(struct htt_pdev_t *pdev)
 {
     struct htt_htc_pkt_union *pkt, *next;
     adf_nbuf_t netbuf;
     pkt = pdev->htt_htc_pkt_misclist;

     while (pkt) {
         next = pkt->u.next;
         netbuf = (adf_nbuf_t)(pkt->u.pkt.htc_pkt.pNetBufContext);
         adf_nbuf_unmap(pdev->osdev, netbuf, ADF_OS_DMA_TO_DEVICE);
         adf_nbuf_free(netbuf);
         adf_os_mem_free(pkt);
         pkt = next;
     }
     pdev->htt_htc_pkt_misclist = NULL;
 }
 #endif

 /*---*/

 htt_pdev_handle
 htt_attach(
     ol_txrx_pdev_handle txrx_pdev,
     ol_pdev_handle ctrl_pdev,
     HTC_HANDLE htc_pdev,
     adf_os_device_t osdev,
     int desc_pool_size)
 {
     struct htt_pdev_t *pdev;
     int i;

     pdev = adf_os_mem_alloc(osdev, sizeof(*pdev));

     if (!pdev) {
         goto fail1;
     }

     pdev->osdev = osdev;
     pdev->ctrl_pdev = ctrl_pdev;
     pdev->txrx_pdev = txrx_pdev;
     pdev->htc_pdev = htc_pdev;

     adf_os_mem_set(&pdev->stats, 0, sizeof(pdev->stats));
     pdev->htt_htc_pkt_freelist = NULL;
 #ifdef ATH_11AC_TXCOMPACT
     pdev->htt_htc_pkt_misclist = NULL;
 #endif

     /* for efficiency, store a local copy of the is_high_latency flag */
     pdev->cfg.is_high_latency = ol_cfg_is_high_latency(pdev->ctrl_pdev);
     pdev->cfg.default_tx_comp_req =
          !ol_cfg_tx_free_at_download(pdev->ctrl_pdev);

     pdev->cfg.is_full_reorder_offload =
          ol_cfg_is_full_reorder_offload(pdev->ctrl_pdev);
     adf_os_print("is_full_reorder_offloaded? %d\n",
                   (int)pdev->cfg.is_full_reorder_offload);
     pdev->targetdef = htc_get_targetdef(htc_pdev);
     /*
      * Connect to HTC service.
      * This has to be done before calling htt_rx_attach,
      * since htt_rx_attach involves sending a rx ring configure
      * message to the target.
      */
 //AR6004 don't need HTT layer.
 #ifndef AR6004_HW
     if (htt_htc_attach(pdev)) {
         goto fail2;
     }
 #endif
     if (htt_tx_attach(pdev, desc_pool_size)) {
         goto fail2;
     }

     if (htt_rx_attach(pdev)) {
         goto fail3;
     }

     HTT_TX_MUTEX_INIT(&pdev->htt_tx_mutex);
     HTT_TX_NBUF_QUEUE_MUTEX_INIT(pdev);
     HTT_TX_MUTEX_INIT(&pdev->credit_mutex);

     /* pre-allocate some HTC_PACKET objects */
     for (i = 0; i < HTT_HTC_PKT_POOL_INIT_SIZE; i++) {
         struct htt_htc_pkt_union *pkt;
         pkt = adf_os_mem_alloc(pdev->osdev, sizeof(*pkt));
         if (! pkt) {
             break;
         }
         htt_htc_pkt_free(pdev, &pkt->u.pkt);
     }

     if (pdev->cfg.is_high_latency) {
         /*
          * HL - download the whole frame.
          * Specify a download length greater than the max MSDU size,
          * so the downloads will be limited by the actual frame sizes.
          */
         pdev->download_len = 5000;
         if (ol_cfg_tx_free_at_download(pdev->ctrl_pdev)) {
             pdev->tx_send_complete_part2 = ol_tx_download_done_hl_free;
         } else {
             pdev->tx_send_complete_part2 = ol_tx_download_done_hl_retain;
         }

         /*
          * For LL, the FW rx desc directly referenced at its location
          * inside the rx indication message.
          */
 /*
  * CHECK THIS LATER: does the HL HTT version of htt_rx_mpdu_desc_list_next
  * (which is not currently implemented) present the adf_nbuf_data(rx_ind_msg)
  * as the abstract rx descriptor?
  * If not, the rx_fw_desc_offset initialization here will have to be
  * adjusted accordingly.
  * NOTE: for HL, because fw rx desc is in ind msg, not in rx desc, so the
  * offset should be negtive value
  */
         pdev->rx_fw_desc_offset =
             HTT_ENDIAN_BYTE_IDX_SWAP(
                     HTT_RX_IND_FW_RX_DESC_BYTE_OFFSET
                     - HTT_RX_IND_HL_BYTES);

         htt_h2t_rx_ring_cfg_msg = htt_h2t_rx_ring_cfg_msg_hl;

         /* initialize the txrx credit count */
         ol_tx_target_credit_update(
             pdev->txrx_pdev, ol_cfg_target_tx_credit(ctrl_pdev));
     } else {
         /*
          * LL - download just the initial portion of the frame.
          * Download enough to cover the encapsulation headers checked
          * by the target's tx classification descriptor engine.
          */
         enum wlan_frm_fmt frm_type;

         /* account for the 802.3 or 802.11 header */
         frm_type = ol_cfg_frame_type(pdev->ctrl_pdev);
         if (frm_type == wlan_frm_fmt_native_wifi) {
             pdev->download_len = HTT_TX_HDR_SIZE_NATIVE_WIFI;
         } else if (frm_type == wlan_frm_fmt_802_3) {
             pdev->download_len = HTT_TX_HDR_SIZE_ETHERNET;
         } else {
             adf_os_print("Unexpected frame type spec: %d\n", frm_type);
             HTT_ASSERT0(0);
         }
         /*
          * Account for the optional L2 / ethernet header fields:
          * 802.1Q, LLC/SNAP
          */
         pdev->download_len +=
             HTT_TX_HDR_SIZE_802_1Q + HTT_TX_HDR_SIZE_LLC_SNAP;

         /*
          * Account for the portion of the L3 (IP) payload that the
          * target needs for its tx classification.
          */
         pdev->download_len += ol_cfg_tx_download_size(pdev->ctrl_pdev);

         /*
          * Account for the HTT tx descriptor, including the
          * HTC header + alignment padding.
          */
         pdev->download_len += sizeof(struct htt_host_tx_desc_t);

         /*
          * The TXCOMPACT htt_tx_sched function uses pdev->download_len
          * to apply for all requeued tx frames.  Thus, pdev->download_len
          * has to be the largest download length of any tx frame that will
          * be downloaded.
          * This maximum download length is for management tx frames,
          * which have an 802.11 header.
          */
         #ifdef ATH_11AC_TXCOMPACT
         pdev->download_len =
             sizeof(struct htt_host_tx_desc_t) +
             HTT_TX_HDR_SIZE_OUTER_HDR_MAX + /* worst case */
             HTT_TX_HDR_SIZE_802_1Q +
             HTT_TX_HDR_SIZE_LLC_SNAP +
             ol_cfg_tx_download_size(pdev->ctrl_pdev);
         #endif
         pdev->tx_send_complete_part2 = ol_tx_download_done_ll;

         /*
          * For LL, the FW rx desc is alongside the HW rx desc fields in
          * the htt_host_rx_desc_base struct/.
          */
         pdev->rx_fw_desc_offset = RX_STD_DESC_FW_MSDU_OFFSET;

         htt_h2t_rx_ring_cfg_msg = htt_h2t_rx_ring_cfg_msg_ll;
     }

     return pdev;

 fail3:
     htt_tx_detach(pdev);

 fail2:
     adf_os_mem_free(pdev);

 fail1:
     return NULL;
 }

 A_STATUS
 htt_attach_target(htt_pdev_handle pdev)
 {
     A_STATUS status;
     status = htt_h2t_ver_req_msg(pdev);
     if (status != A_OK) {
         return status;
     }
     /*
      * If applicable, send the rx ring config message to the target.
      * The host could wait for the HTT version number confirmation message
      * from the target before sending any further HTT messages, but it's
      * reasonable to assume that the host and target HTT version numbers
      * match, and proceed immediately with the remaining configuration
      * handshaking.
      */

     status = htt_h2t_rx_ring_cfg_msg(pdev);
     status = HTT_IPA_CONFIG(pdev, status);

     return status;
 }

 void htt_htc_detach(struct htt_pdev_t *pdev)
 {
     htc_disconnect_service(pdev->htc_endpoint);
     return;
 }


 void
 htt_detach(htt_pdev_handle pdev)
 {
     htt_htc_detach(pdev);
     htt_rx_detach(pdev);
     htt_tx_detach(pdev);
     htt_htc_pkt_pool_free(pdev);
 #ifdef ATH_11AC_TXCOMPACT
     htt_htc_misc_pkt_pool_free(pdev);
 #endif
     HTT_TX_MUTEX_DESTROY(&pdev->htt_tx_mutex);
     HTT_TX_NBUF_QUEUE_MUTEX_DESTROY(pdev);
     HTT_TX_MUTEX_DESTROY(&pdev->credit_mutex);
 #ifdef DEBUG_RX_RING_BUFFER
     if (pdev->rx_buff_list)
         adf_os_mem_free(pdev->rx_buff_list);
 #endif
     adf_os_mem_free(pdev);
 }

 void
 htt_detach_target(htt_pdev_handle pdev)
 {
 }

 int
 htt_htc_attach(struct htt_pdev_t *pdev)
 {
     HTC_SERVICE_CONNECT_REQ connect;
     HTC_SERVICE_CONNECT_RESP response;
     A_STATUS status;

     adf_os_mem_set(&connect, 0, sizeof(connect));
     adf_os_mem_set(&response, 0, sizeof(response));

     connect.pMetaData = NULL;
     connect.MetaDataLength = 0;
     connect.EpCallbacks.pContext = pdev;
     connect.EpCallbacks.EpTxComplete = htt_h2t_send_complete;
     connect.EpCallbacks.EpTxCompleteMultiple = NULL;
     connect.EpCallbacks.EpRecv = htt_t2h_msg_handler;
     connect.EpCallbacks.EpResumeTxQueue = htt_tx_resume_handler;

     /* rx buffers currently are provided by HIF, not by EpRecvRefill */
     connect.EpCallbacks.EpRecvRefill = NULL;
     connect.EpCallbacks.RecvRefillWaterMark = 1; /* N/A, fill is done by HIF */

     connect.EpCallbacks.EpSendFull = htt_h2t_full;
     /*
      * Specify how deep to let a queue get before HTCSendPkt will
      * call the EpSendFull function due to excessive send queue depth.
      */
     connect.MaxSendQueueDepth = HTT_MAX_SEND_QUEUE_DEPTH;

     /* disable flow control for HTT data message service */
 #ifdef HIF_SDIO
     /*
      * HTC Credit mechanism is disabled based on
      * default_tx_comp_req as throughput will be lower
      * if we disable htc credit mechanism with default_tx_comp_req
      * set since txrx download packet will be limited by ota
      * completion.
      * TODO:Conditional disabling will be removed once firmware
      * with reduced tx completion is pushed into release builds.
      */
     if ((!pdev->cfg.default_tx_comp_req) ||
             ol_cfg_is_ptp_enabled(pdev->ctrl_pdev)) {
        connect.ConnectionFlags |= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL;
     }
 #else
     connect.ConnectionFlags |= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL;
 #endif

     /* connect to control service */
     connect.ServiceID = HTT_DATA_MSG_SVC;

     status = HTCConnectService(pdev->htc_pdev, &connect, &response);

     if (status != A_OK) {
         return 1; /* failure */
     }
     pdev->htc_endpoint = response.Endpoint;
 #if defined(HIF_PCI)
     hif_pci_save_htc_htt_config_endpoint(pdev->htc_endpoint);
 #endif

 #ifdef QCA_TX_HTT2_SUPPORT
     /* Start TX HTT2 service if the target support it. */
     if (pdev->cfg.is_high_latency) {
         adf_os_mem_set(&connect, 0, sizeof(connect));
         adf_os_mem_set(&response, 0, sizeof(response));

         /* The same as HTT service but no RX. */
         connect.EpCallbacks.pContext = pdev;
         connect.EpCallbacks.EpTxComplete = htt_h2t_send_complete;
         connect.EpCallbacks.EpSendFull = htt_h2t_full;
         connect.MaxSendQueueDepth = HTT_MAX_SEND_QUEUE_DEPTH;

         /* Should NOT support credit flow control. */
         connect.ConnectionFlags |= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL;
         /* Enable HTC schedule mechanism for TX HTT2 service. */
         connect.ConnectionFlags |= HTC_CONNECT_FLAGS_ENABLE_HTC_SCHEDULE;

         connect.ServiceID = HTT_DATA2_MSG_SVC;

         status = HTCConnectService(pdev->htc_pdev, &connect, &response);
         if (status != A_OK) {
             pdev->htc_tx_htt2_endpoint = ENDPOINT_UNUSED;
             pdev->htc_tx_htt2_max_size = 0;
         } else {
             pdev->htc_tx_htt2_endpoint = response.Endpoint;
             pdev->htc_tx_htt2_max_size = HTC_TX_HTT2_MAX_SIZE;
         }

         adf_os_print("TX HTT %s, ep %d size %d\n",
                      (status == A_OK ? "ON" : "OFF"),
                      pdev->htc_tx_htt2_endpoint,
                      pdev->htc_tx_htt2_max_size);
     }
 #endif /* QCA_TX_HTT2_SUPPORT */

     return 0; /* success */
 }

 #if HTT_DEBUG_LEVEL > 5
 void
 htt_display(htt_pdev_handle pdev, int indent)
 {
     adf_os_print("%*s%s:\n", indent, " ", "HTT");
     adf_os_print(
         "%*stx desc pool: %d elems of %d bytes, "
         "%d currently allocated\n", indent+4, " ",
         pdev->tx_descs.pool_elems,
         pdev->tx_descs.size,
         pdev->tx_descs.alloc_cnt);
     adf_os_print(
         "%*srx ring: space for %d elems, filled with %d buffers\n",
         indent+4, " ",
         pdev->rx_ring.size,
         pdev->rx_ring.fill_level);
     adf_os_print("%*sat %pK (%#x paddr)\n", indent+8, " ",
         pdev->rx_ring.buf.paddrs_ring,
         pdev->rx_ring.base_paddr);
     adf_os_print("%*snetbuf ring @ %pK\n", indent+8, " ",
         pdev->rx_ring.buf.netbufs_ring);
     adf_os_print("%*sFW_IDX shadow register: vaddr = %pK, paddr = %#x\n",
         indent+8, " ",
         pdev->rx_ring.alloc_idx.vaddr,
         pdev->rx_ring.alloc_idx.paddr);
     adf_os_print(
         "%*sSW enqueue index = %d, SW dequeue index: desc = %d, buf = %d\n",
         indent+8, " ",
         *pdev->rx_ring.alloc_idx.vaddr,
         pdev->rx_ring.sw_rd_idx.msdu_desc,
         pdev->rx_ring.sw_rd_idx.msdu_payld);
 }
 #endif

 /* Disable ASPM : Disable PCIe low power */
 void htt_htc_disable_aspm(void)
 {
     htc_disable_aspm();
 }

 #ifdef IPA_UC_OFFLOAD
 /*
  * Attach resource for micro controller data path
  */
 int
 htt_ipa_uc_attach(struct htt_pdev_t *pdev)
 {
     int error;

     /* TX resource attach */
     error = htt_tx_ipa_uc_attach(pdev,
        ol_cfg_ipa_uc_tx_buf_size(pdev->ctrl_pdev),
        ol_cfg_ipa_uc_tx_max_buf_cnt(pdev->ctrl_pdev),
        ol_cfg_ipa_uc_tx_partition_base(pdev->ctrl_pdev));
     if (error) {
         adf_os_print("HTT IPA UC TX attach fail code %d\n", error);
         HTT_ASSERT0(0);
         return error;
     }

     /* RX resource attach */
     error = htt_rx_ipa_uc_attach(pdev,
        ol_cfg_ipa_uc_rx_ind_ring_size(pdev->ctrl_pdev));
     if (error) {
         adf_os_print("HTT IPA UC RX attach fail code %d\n", error);
         htt_tx_ipa_uc_detach(pdev);
         HTT_ASSERT0(0);
         return error;
     }

     return 0; /* success */
 }

 void
 htt_ipa_uc_detach(struct htt_pdev_t *pdev)
 {
     /* TX IPA micro controller detach */
     htt_tx_ipa_uc_detach(pdev);

     /* RX IPA micro controller detach */
     htt_rx_ipa_uc_detach(pdev);
 }

 /*
  * Distribute micro controller resource to control module
  */
 int
 htt_ipa_uc_get_resource(htt_pdev_handle pdev,
            u_int32_t *ce_sr_base_paddr,
            u_int32_t *ce_sr_ring_size,
            u_int32_t *ce_reg_paddr,
            u_int32_t *tx_comp_ring_base_paddr,
            u_int32_t *tx_comp_ring_size,
            u_int32_t *tx_num_alloc_buffer,
            u_int32_t *rx_rdy_ring_base_paddr,
            u_int32_t *rx_rdy_ring_size,
            u_int32_t *rx_proc_done_idx_paddr)
 {
     /* Release allocated resource to client */
     *tx_comp_ring_base_paddr =
         (u_int32_t)pdev->ipa_uc_tx_rsc.tx_comp_base.paddr;
     *tx_comp_ring_size =
         (u_int32_t)ol_cfg_ipa_uc_tx_max_buf_cnt(pdev->ctrl_pdev);
     *tx_num_alloc_buffer =
         (u_int32_t)pdev->ipa_uc_tx_rsc.alloc_tx_buf_cnt;
     *rx_rdy_ring_base_paddr =
         (u_int32_t)pdev->ipa_uc_rx_rsc.rx_ind_ring_base.paddr;
     *rx_rdy_ring_size =
         (u_int32_t)pdev->ipa_uc_rx_rsc.rx_ind_ring_size;
     *rx_proc_done_idx_paddr =
         (u_int32_t)pdev->ipa_uc_rx_rsc.rx_ipa_prc_done_idx.paddr;

     /* Get copy engine, bus resource */
     HTCIpaGetCEResource(pdev->htc_pdev,
         ce_sr_base_paddr, ce_sr_ring_size, ce_reg_paddr);


     return 0;
 }

 /*
  * Distribute micro controller doorbell register to firmware
  */
 int
 htt_ipa_uc_set_doorbell_paddr(htt_pdev_handle pdev,
            u_int32_t ipa_uc_tx_doorbell_paddr,
            u_int32_t ipa_uc_rx_doorbell_paddr)
 {
    pdev->ipa_uc_tx_rsc.tx_comp_idx_paddr = ipa_uc_tx_doorbell_paddr;
    pdev->ipa_uc_rx_rsc.rx_rdy_idx_paddr = ipa_uc_rx_doorbell_paddr;
    return 0;
 }
 #endif /* IPA_UC_OFFLOAD */

 #if defined(DEBUG_HL_LOGGING) && defined(CONFIG_HL_SUPPORT)

 void htt_dump_bundle_stats(htt_pdev_handle pdev)
 {
     HTCDumpBundleStats(pdev->htc_pdev);
 }

 void htt_clear_bundle_stats(htt_pdev_handle pdev)
 {
     HTCClearBundleStats(pdev->htc_pdev);
 }
 #endif

 /**
  * htt_mark_first_wakeup_packet() - set flag to indicate that
  *    fw is compatible for marking first packet after wow wakeup
  * @pdev: pointer to htt pdev
  * @value: 1 for enabled/ 0 for disabled
  *
  * Return: None
  */
 void htt_mark_first_wakeup_packet(htt_pdev_handle pdev,
 			uint8_t value)
 {
 	if (!pdev) {
 		adf_os_print("%s: htt pdev is NULL", __func__);
 		return;
 	}

 	pdev->cfg.is_first_wakeup_packet = value;
 }
	/*
	* Copyright (c) 2011, 2014-2017 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 htt.c
	* @brief Provide functions to create+init and destroy a HTT instance.
	* @details
	* This file contains functions for creating a HTT instance; initializing
	* the HTT instance, e.g. by allocating a pool of HTT tx descriptors and
	* connecting the HTT service with HTC; and deleting a HTT instance.
	*/

	#include <adf_os_mem.h> /* adf_os_mem_alloc */
	#include <adf_os_types.h> /* adf_os_device_t, adf_os_print */

	#include <htt.h> /* htt_tx_msdu_desc_t */
	#include <ol_cfg.h>
	#include <ol_txrx_htt_api.h> /* ol_tx_dowload_done_ll, etc. */
	#include <ol_htt_api.h>

	#include <htt_internal.h>
	#if defined(HIF_PCI)
	#include "if_pci.h"
	#endif

	#define HTT_HTC_PKT_POOL_INIT_SIZE 100 /* enough for a large A-MPDU */

	A_STATUS
	htt_h2t_rx_ring_cfg_msg_ll(struct htt_pdev_t *pdev);

	A_STATUS
	htt_h2t_rx_ring_cfg_msg_hl(struct htt_pdev_t *pdev);

	A_STATUS (*htt_h2t_rx_ring_cfg_msg)(
	struct htt_pdev_t *pdev);

	#ifdef IPA_UC_OFFLOAD
	A_STATUS
	htt_ipa_config(htt_pdev_handle pdev, A_STATUS status)
	{
	if ((A_OK == status) &&
	ol_cfg_ipa_uc_offload_enabled(pdev->ctrl_pdev)) {
	status = htt_h2t_ipa_uc_rsc_cfg_msg(pdev);
	}
	return status;
	}

	#define HTT_IPA_CONFIG htt_ipa_config
	#else
	#define HTT_IPA_CONFIG(pdev, status) status /* no-op */
	#endif /* IPA_UC_OFFLOAD */


	struct htt_htc_pkt *
	htt_htc_pkt_alloc(struct htt_pdev_t *pdev)
	{
	struct htt_htc_pkt_union *pkt = NULL;

	HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
	if (pdev->htt_htc_pkt_freelist) {
	pkt = pdev->htt_htc_pkt_freelist;
	pdev->htt_htc_pkt_freelist = pdev->htt_htc_pkt_freelist->u.next;
	}
	HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);

	if (pkt == NULL) {
	pkt = adf_os_mem_alloc(pdev->osdev, sizeof(*pkt));
	}
	return &pkt->u.pkt; /* not actually a dereference */
	}

	void
	htt_htc_pkt_free(struct htt_pdev_t pdev, struct htt_htc_pkt pkt)
	{
	struct htt_htc_pkt_union u_pkt = (struct htt_htc_pkt_union ) pkt;

	HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
	u_pkt->u.next = pdev->htt_htc_pkt_freelist;
	pdev->htt_htc_pkt_freelist = u_pkt;
	HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);
	}

	void
	htt_htc_pkt_pool_free(struct htt_pdev_t *pdev)
	{
	struct htt_htc_pkt_union pkt, next;
	pkt = pdev->htt_htc_pkt_freelist;
	while (pkt) {
	next = pkt->u.next;
	adf_os_mem_free(pkt);
	pkt = next;
	}
	pdev->htt_htc_pkt_freelist = NULL;
	}

	#ifdef ATH_11AC_TXCOMPACT
	void
	htt_htc_misc_pkt_list_trim(struct htt_pdev_t *pdev, int level)
	{
	struct htt_htc_pkt_union pkt, next, *prev = NULL;
	int i = 0;
	adf_nbuf_t netbuf;

	HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
	pkt = pdev->htt_htc_pkt_misclist;
	while (pkt) {
	next = pkt->u.next;
	/* trim the out grown list*/
	if (++i > level) {
	netbuf = (adf_nbuf_t)(pkt->u.pkt.htc_pkt.pNetBufContext);
	adf_nbuf_unmap(pdev->osdev, netbuf, ADF_OS_DMA_TO_DEVICE);
	adf_nbuf_free(netbuf);
	adf_os_mem_free(pkt);
	pkt = NULL;
	if (prev)
	prev->u.next = NULL;
	}
	prev = pkt;
	pkt = next;
	}
	HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);
	}

	void
	htt_htc_misc_pkt_list_add(struct htt_pdev_t pdev, struct htt_htc_pkt pkt)
	{
	struct htt_htc_pkt_union u_pkt = (struct htt_htc_pkt_union ) pkt;

	HTT_TX_MUTEX_ACQUIRE(&pdev->htt_tx_mutex);
	if (pdev->htt_htc_pkt_misclist) {
	u_pkt->u.next = pdev->htt_htc_pkt_misclist;
	pdev->htt_htc_pkt_misclist = u_pkt;
	} else {
	pdev->htt_htc_pkt_misclist = u_pkt;
	}
	HTT_TX_MUTEX_RELEASE(&pdev->htt_tx_mutex);
	htt_htc_misc_pkt_list_trim(pdev, HTT_HTC_PKT_MISCLIST_SIZE);
	}

	void
	htt_htc_misc_pkt_pool_free(struct htt_pdev_t *pdev)
	{
	struct htt_htc_pkt_union pkt, next;
	adf_nbuf_t netbuf;
	pkt = pdev->htt_htc_pkt_misclist;

	while (pkt) {
	next = pkt->u.next;
	netbuf = (adf_nbuf_t)(pkt->u.pkt.htc_pkt.pNetBufContext);
	adf_nbuf_unmap(pdev->osdev, netbuf, ADF_OS_DMA_TO_DEVICE);
	adf_nbuf_free(netbuf);
	adf_os_mem_free(pkt);
	pkt = next;
	}
	pdev->htt_htc_pkt_misclist = NULL;
	}
	#endif

	/---/

	htt_pdev_handle
	htt_attach(
	ol_txrx_pdev_handle txrx_pdev,
	ol_pdev_handle ctrl_pdev,
	HTC_HANDLE htc_pdev,
	adf_os_device_t osdev,
	int desc_pool_size)
	{
	struct htt_pdev_t *pdev;
	int i;

	pdev = adf_os_mem_alloc(osdev, sizeof(*pdev));

	if (!pdev) {
	goto fail1;
	}

	pdev->osdev = osdev;
	pdev->ctrl_pdev = ctrl_pdev;
	pdev->txrx_pdev = txrx_pdev;
	pdev->htc_pdev = htc_pdev;

	adf_os_mem_set(&pdev->stats, 0, sizeof(pdev->stats));
	pdev->htt_htc_pkt_freelist = NULL;
	#ifdef ATH_11AC_TXCOMPACT
	pdev->htt_htc_pkt_misclist = NULL;
	#endif

	/* for efficiency, store a local copy of the is_high_latency flag */
	pdev->cfg.is_high_latency = ol_cfg_is_high_latency(pdev->ctrl_pdev);
	pdev->cfg.default_tx_comp_req =
	!ol_cfg_tx_free_at_download(pdev->ctrl_pdev);

	pdev->cfg.is_full_reorder_offload =
	ol_cfg_is_full_reorder_offload(pdev->ctrl_pdev);
	adf_os_print("is_full_reorder_offloaded? %d\n",
	(int)pdev->cfg.is_full_reorder_offload);
	pdev->targetdef = htc_get_targetdef(htc_pdev);
	/*
	* Connect to HTC service.
	* This has to be done before calling htt_rx_attach,
	* since htt_rx_attach involves sending a rx ring configure
	* message to the target.
	*/
	//AR6004 don't need HTT layer.
	#ifndef AR6004_HW
	if (htt_htc_attach(pdev)) {
	goto fail2;
	}
	#endif
	if (htt_tx_attach(pdev, desc_pool_size)) {
	goto fail2;
	}

	if (htt_rx_attach(pdev)) {
	goto fail3;
	}

	HTT_TX_MUTEX_INIT(&pdev->htt_tx_mutex);
	HTT_TX_NBUF_QUEUE_MUTEX_INIT(pdev);
	HTT_TX_MUTEX_INIT(&pdev->credit_mutex);

	/* pre-allocate some HTC_PACKET objects */
	for (i = 0; i < HTT_HTC_PKT_POOL_INIT_SIZE; i++) {
	struct htt_htc_pkt_union *pkt;
	pkt = adf_os_mem_alloc(pdev->osdev, sizeof(*pkt));
	if (! pkt) {
	break;
	}
	htt_htc_pkt_free(pdev, &pkt->u.pkt);
	}

	if (pdev->cfg.is_high_latency) {
	/*
	* HL - download the whole frame.
	* Specify a download length greater than the max MSDU size,
	* so the downloads will be limited by the actual frame sizes.
	*/
	pdev->download_len = 5000;
	if (ol_cfg_tx_free_at_download(pdev->ctrl_pdev)) {
	pdev->tx_send_complete_part2 = ol_tx_download_done_hl_free;
	} else {
	pdev->tx_send_complete_part2 = ol_tx_download_done_hl_retain;
	}

	/*
	* For LL, the FW rx desc directly referenced at its location
	* inside the rx indication message.
	*/
	/*
	* CHECK THIS LATER: does the HL HTT version of htt_rx_mpdu_desc_list_next
	* (which is not currently implemented) present the adf_nbuf_data(rx_ind_msg)
	* as the abstract rx descriptor?
	* If not, the rx_fw_desc_offset initialization here will have to be
	* adjusted accordingly.
	* NOTE: for HL, because fw rx desc is in ind msg, not in rx desc, so the
	* offset should be negtive value
	*/
	pdev->rx_fw_desc_offset =
	HTT_ENDIAN_BYTE_IDX_SWAP(
	HTT_RX_IND_FW_RX_DESC_BYTE_OFFSET
	- HTT_RX_IND_HL_BYTES);

	htt_h2t_rx_ring_cfg_msg = htt_h2t_rx_ring_cfg_msg_hl;

	/* initialize the txrx credit count */
	ol_tx_target_credit_update(
	pdev->txrx_pdev, ol_cfg_target_tx_credit(ctrl_pdev));
	} else {
	/*
	* LL - download just the initial portion of the frame.
	* Download enough to cover the encapsulation headers checked
	* by the target's tx classification descriptor engine.
	*/
	enum wlan_frm_fmt frm_type;

	/* account for the 802.3 or 802.11 header */
	frm_type = ol_cfg_frame_type(pdev->ctrl_pdev);
	if (frm_type == wlan_frm_fmt_native_wifi) {
	pdev->download_len = HTT_TX_HDR_SIZE_NATIVE_WIFI;
	} else if (frm_type == wlan_frm_fmt_802_3) {
	pdev->download_len = HTT_TX_HDR_SIZE_ETHERNET;
	} else {
	adf_os_print("Unexpected frame type spec: %d\n", frm_type);
	HTT_ASSERT0(0);
	}
	/*
	* Account for the optional L2 / ethernet header fields:
	* 802.1Q, LLC/SNAP
	*/
	pdev->download_len +=
	HTT_TX_HDR_SIZE_802_1Q + HTT_TX_HDR_SIZE_LLC_SNAP;

	/*
	* Account for the portion of the L3 (IP) payload that the
	* target needs for its tx classification.
	*/
	pdev->download_len += ol_cfg_tx_download_size(pdev->ctrl_pdev);

	/*
	* Account for the HTT tx descriptor, including the
	* HTC header + alignment padding.
	*/
	pdev->download_len += sizeof(struct htt_host_tx_desc_t);

	/*
	* The TXCOMPACT htt_tx_sched function uses pdev->download_len
	* to apply for all requeued tx frames. Thus, pdev->download_len
	* has to be the largest download length of any tx frame that will
	* be downloaded.
	* This maximum download length is for management tx frames,
	* which have an 802.11 header.
	*/
	#ifdef ATH_11AC_TXCOMPACT
	pdev->download_len =
	sizeof(struct htt_host_tx_desc_t) +
	HTT_TX_HDR_SIZE_OUTER_HDR_MAX + /* worst case */
	HTT_TX_HDR_SIZE_802_1Q +
	HTT_TX_HDR_SIZE_LLC_SNAP +
	ol_cfg_tx_download_size(pdev->ctrl_pdev);
	#endif
	pdev->tx_send_complete_part2 = ol_tx_download_done_ll;

	/*
	* For LL, the FW rx desc is alongside the HW rx desc fields in
	* the htt_host_rx_desc_base struct/.
	*/
	pdev->rx_fw_desc_offset = RX_STD_DESC_FW_MSDU_OFFSET;

	htt_h2t_rx_ring_cfg_msg = htt_h2t_rx_ring_cfg_msg_ll;
	}

	return pdev;

	fail3:
	htt_tx_detach(pdev);

	fail2:
	adf_os_mem_free(pdev);

	fail1:
	return NULL;
	}

	A_STATUS
	htt_attach_target(htt_pdev_handle pdev)
	{
	A_STATUS status;
	status = htt_h2t_ver_req_msg(pdev);
	if (status != A_OK) {
	return status;
	}
	/*
	* If applicable, send the rx ring config message to the target.
	* The host could wait for the HTT version number confirmation message
	* from the target before sending any further HTT messages, but it's
	* reasonable to assume that the host and target HTT version numbers
	* match, and proceed immediately with the remaining configuration
	* handshaking.
	*/

	status = htt_h2t_rx_ring_cfg_msg(pdev);
	status = HTT_IPA_CONFIG(pdev, status);

	return status;
	}

	void htt_htc_detach(struct htt_pdev_t *pdev)
	{
	htc_disconnect_service(pdev->htc_endpoint);
	return;
	}


	void
	htt_detach(htt_pdev_handle pdev)
	{
	htt_htc_detach(pdev);
	htt_rx_detach(pdev);
	htt_tx_detach(pdev);
	htt_htc_pkt_pool_free(pdev);
	#ifdef ATH_11AC_TXCOMPACT
	htt_htc_misc_pkt_pool_free(pdev);
	#endif
	HTT_TX_MUTEX_DESTROY(&pdev->htt_tx_mutex);
	HTT_TX_NBUF_QUEUE_MUTEX_DESTROY(pdev);
	HTT_TX_MUTEX_DESTROY(&pdev->credit_mutex);
	#ifdef DEBUG_RX_RING_BUFFER
	if (pdev->rx_buff_list)
	adf_os_mem_free(pdev->rx_buff_list);
	#endif
	adf_os_mem_free(pdev);
	}

	void
	htt_detach_target(htt_pdev_handle pdev)
	{
	}

	int
	htt_htc_attach(struct htt_pdev_t *pdev)
	{
	HTC_SERVICE_CONNECT_REQ connect;
	HTC_SERVICE_CONNECT_RESP response;
	A_STATUS status;

	adf_os_mem_set(&connect, 0, sizeof(connect));
	adf_os_mem_set(&response, 0, sizeof(response));

	connect.pMetaData = NULL;
	connect.MetaDataLength = 0;
	connect.EpCallbacks.pContext = pdev;
	connect.EpCallbacks.EpTxComplete = htt_h2t_send_complete;
	connect.EpCallbacks.EpTxCompleteMultiple = NULL;
	connect.EpCallbacks.EpRecv = htt_t2h_msg_handler;
	connect.EpCallbacks.EpResumeTxQueue = htt_tx_resume_handler;

	/* rx buffers currently are provided by HIF, not by EpRecvRefill */
	connect.EpCallbacks.EpRecvRefill = NULL;
	connect.EpCallbacks.RecvRefillWaterMark = 1; /* N/A, fill is done by HIF */

	connect.EpCallbacks.EpSendFull = htt_h2t_full;
	/*
	* Specify how deep to let a queue get before HTCSendPkt will
	* call the EpSendFull function due to excessive send queue depth.
	*/
	connect.MaxSendQueueDepth = HTT_MAX_SEND_QUEUE_DEPTH;

	/* disable flow control for HTT data message service */
	#ifdef HIF_SDIO
	/*
	* HTC Credit mechanism is disabled based on
	* default_tx_comp_req as throughput will be lower
	* if we disable htc credit mechanism with default_tx_comp_req
	* set since txrx download packet will be limited by ota
	* completion.
	* TODO:Conditional disabling will be removed once firmware
	* with reduced tx completion is pushed into release builds.
	*/
	if ((!pdev->cfg.default_tx_comp_req) \|\|
	ol_cfg_is_ptp_enabled(pdev->ctrl_pdev)) {
	connect.ConnectionFlags \|= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL;
	}
	#else
	connect.ConnectionFlags \|= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL;
	#endif

	/* connect to control service */
	connect.ServiceID = HTT_DATA_MSG_SVC;

	status = HTCConnectService(pdev->htc_pdev, &connect, &response);

	if (status != A_OK) {
	return 1; /* failure */
	}
	pdev->htc_endpoint = response.Endpoint;
	#if defined(HIF_PCI)
	hif_pci_save_htc_htt_config_endpoint(pdev->htc_endpoint);
	#endif

	#ifdef QCA_TX_HTT2_SUPPORT
	/* Start TX HTT2 service if the target support it. */
	if (pdev->cfg.is_high_latency) {
	adf_os_mem_set(&connect, 0, sizeof(connect));
	adf_os_mem_set(&response, 0, sizeof(response));

	/* The same as HTT service but no RX. */
	connect.EpCallbacks.pContext = pdev;
	connect.EpCallbacks.EpTxComplete = htt_h2t_send_complete;
	connect.EpCallbacks.EpSendFull = htt_h2t_full;
	connect.MaxSendQueueDepth = HTT_MAX_SEND_QUEUE_DEPTH;

	/* Should NOT support credit flow control. */
	connect.ConnectionFlags \|= HTC_CONNECT_FLAGS_DISABLE_CREDIT_FLOW_CTRL;
	/* Enable HTC schedule mechanism for TX HTT2 service. */
	connect.ConnectionFlags \|= HTC_CONNECT_FLAGS_ENABLE_HTC_SCHEDULE;

	connect.ServiceID = HTT_DATA2_MSG_SVC;

	status = HTCConnectService(pdev->htc_pdev, &connect, &response);
	if (status != A_OK) {
	pdev->htc_tx_htt2_endpoint = ENDPOINT_UNUSED;
	pdev->htc_tx_htt2_max_size = 0;
	} else {
	pdev->htc_tx_htt2_endpoint = response.Endpoint;
	pdev->htc_tx_htt2_max_size = HTC_TX_HTT2_MAX_SIZE;
	}

	adf_os_print("TX HTT %s, ep %d size %d\n",
	(status == A_OK ? "ON" : "OFF"),
	pdev->htc_tx_htt2_endpoint,
	pdev->htc_tx_htt2_max_size);
	}
	#endif /* QCA_TX_HTT2_SUPPORT */

	return 0; /* success */
	}

	#if HTT_DEBUG_LEVEL > 5
	void
	htt_display(htt_pdev_handle pdev, int indent)
	{
	adf_os_print("%*s%s:\n", indent, " ", "HTT");
	adf_os_print(
	"%*stx desc pool: %d elems of %d bytes, "
	"%d currently allocated\n", indent+4, " ",
	pdev->tx_descs.pool_elems,
	pdev->tx_descs.size,
	pdev->tx_descs.alloc_cnt);
	adf_os_print(
	"%*srx ring: space for %d elems, filled with %d buffers\n",
	indent+4, " ",
	pdev->rx_ring.size,
	pdev->rx_ring.fill_level);
	adf_os_print("%*sat %pK (%#x paddr)\n", indent+8, " ",
	pdev->rx_ring.buf.paddrs_ring,
	pdev->rx_ring.base_paddr);
	adf_os_print("%*snetbuf ring @ %pK\n", indent+8, " ",
	pdev->rx_ring.buf.netbufs_ring);
	adf_os_print("%*sFW_IDX shadow register: vaddr = %pK, paddr = %#x\n",
	indent+8, " ",
	pdev->rx_ring.alloc_idx.vaddr,
	pdev->rx_ring.alloc_idx.paddr);
	adf_os_print(
	"%*sSW enqueue index = %d, SW dequeue index: desc = %d, buf = %d\n",
	indent+8, " ",
	*pdev->rx_ring.alloc_idx.vaddr,
	pdev->rx_ring.sw_rd_idx.msdu_desc,
	pdev->rx_ring.sw_rd_idx.msdu_payld);
	}
	#endif

	/* Disable ASPM : Disable PCIe low power */
	void htt_htc_disable_aspm(void)
	{
	htc_disable_aspm();
	}

	#ifdef IPA_UC_OFFLOAD
	/*
	* Attach resource for micro controller data path
	*/
	int
	htt_ipa_uc_attach(struct htt_pdev_t *pdev)
	{
	int error;

	/* TX resource attach */
	error = htt_tx_ipa_uc_attach(pdev,
	ol_cfg_ipa_uc_tx_buf_size(pdev->ctrl_pdev),
	ol_cfg_ipa_uc_tx_max_buf_cnt(pdev->ctrl_pdev),
	ol_cfg_ipa_uc_tx_partition_base(pdev->ctrl_pdev));
	if (error) {
	adf_os_print("HTT IPA UC TX attach fail code %d\n", error);
	HTT_ASSERT0(0);
	return error;
	}

	/* RX resource attach */
	error = htt_rx_ipa_uc_attach(pdev,
	ol_cfg_ipa_uc_rx_ind_ring_size(pdev->ctrl_pdev));
	if (error) {
	adf_os_print("HTT IPA UC RX attach fail code %d\n", error);
	htt_tx_ipa_uc_detach(pdev);
	HTT_ASSERT0(0);
	return error;
	}

	return 0; /* success */
	}

	void
	htt_ipa_uc_detach(struct htt_pdev_t *pdev)
	{
	/* TX IPA micro controller detach */
	htt_tx_ipa_uc_detach(pdev);

	/* RX IPA micro controller detach */
	htt_rx_ipa_uc_detach(pdev);
	}

	/*
	* Distribute micro controller resource to control module
	*/
	int
	htt_ipa_uc_get_resource(htt_pdev_handle pdev,
	u_int32_t *ce_sr_base_paddr,
	u_int32_t *ce_sr_ring_size,
	u_int32_t *ce_reg_paddr,
	u_int32_t *tx_comp_ring_base_paddr,
	u_int32_t *tx_comp_ring_size,
	u_int32_t *tx_num_alloc_buffer,
	u_int32_t *rx_rdy_ring_base_paddr,
	u_int32_t *rx_rdy_ring_size,
	u_int32_t *rx_proc_done_idx_paddr)
	{
	/* Release allocated resource to client */
	*tx_comp_ring_base_paddr =
	(u_int32_t)pdev->ipa_uc_tx_rsc.tx_comp_base.paddr;
	*tx_comp_ring_size =
	(u_int32_t)ol_cfg_ipa_uc_tx_max_buf_cnt(pdev->ctrl_pdev);
	*tx_num_alloc_buffer =
	(u_int32_t)pdev->ipa_uc_tx_rsc.alloc_tx_buf_cnt;
	*rx_rdy_ring_base_paddr =
	(u_int32_t)pdev->ipa_uc_rx_rsc.rx_ind_ring_base.paddr;
	*rx_rdy_ring_size =
	(u_int32_t)pdev->ipa_uc_rx_rsc.rx_ind_ring_size;
	*rx_proc_done_idx_paddr =
	(u_int32_t)pdev->ipa_uc_rx_rsc.rx_ipa_prc_done_idx.paddr;

	/* Get copy engine, bus resource */
	HTCIpaGetCEResource(pdev->htc_pdev,
	ce_sr_base_paddr, ce_sr_ring_size, ce_reg_paddr);


	return 0;
	}

	/*
	* Distribute micro controller doorbell register to firmware
	*/
	int
	htt_ipa_uc_set_doorbell_paddr(htt_pdev_handle pdev,
	u_int32_t ipa_uc_tx_doorbell_paddr,
	u_int32_t ipa_uc_rx_doorbell_paddr)
	{
	pdev->ipa_uc_tx_rsc.tx_comp_idx_paddr = ipa_uc_tx_doorbell_paddr;
	pdev->ipa_uc_rx_rsc.rx_rdy_idx_paddr = ipa_uc_rx_doorbell_paddr;
	return 0;
	}
	#endif /* IPA_UC_OFFLOAD */

	#if defined(DEBUG_HL_LOGGING) && defined(CONFIG_HL_SUPPORT)

	void htt_dump_bundle_stats(htt_pdev_handle pdev)
	{
	HTCDumpBundleStats(pdev->htc_pdev);
	}

	void htt_clear_bundle_stats(htt_pdev_handle pdev)
	{
	HTCClearBundleStats(pdev->htc_pdev);
	}
	#endif

	/**
	* htt_mark_first_wakeup_packet() - set flag to indicate that
	* fw is compatible for marking first packet after wow wakeup
	* @pdev: pointer to htt pdev
	* @value: 1 for enabled/ 0 for disabled
	*
	* Return: None
	*/
	void htt_mark_first_wakeup_packet(htt_pdev_handle pdev,
	uint8_t value)
	{
	if (!pdev) {
	adf_os_print("%s: htt pdev is NULL", __func__);
	return;
	}

	pdev->cfg.is_first_wakeup_packet = value;
	}