1 files changed, 890 insertions, 0 deletions

diff --git a/src/plugins/idpf/idpf_controlq.c b/src/plugins/idpf/idpf_controlq.c
new file mode 100644
index 00000000000..4887bf71c86
--- /dev/null
+++ b/src/plugins/idpf/idpf_controlq.c
@@ -0,0 +1,890 @@
+/*
+ *------------------------------------------------------------------
+ * Copyright (c) 2023 Intel and/or its affiliates.
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at:
+ *
+ *     http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ *------------------------------------------------------------------
+ */
+
+#include <idpf/idpf.h>
+
+/**
+ * idpf_ctlq_alloc_desc_ring - Allocate Control Queue (CQ) rings
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ */
+static int
+idpf_ctlq_alloc_desc_ring (vlib_main_t *vm, idpf_device_t *id,
+			   struct idpf_ctlq_info *cq)
+{
+  size_t size = cq->ring_size * sizeof (idpf_ctlq_desc_t);
+
+  /* Fixme: alloc dma va */
+  cq->desc_ring.va = idpf_alloc_dma_mem (vm, id, &cq->desc_ring, size);
+  if (!cq->desc_ring.va)
+    return IDPF_ERR_NO_MEMORY;
+
+  return IDPF_SUCCESS;
+}
+
+/**
+ * idpf_ctlq_alloc_bufs - Allocate Control Queue (CQ) buffers
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ *
+ * Allocate the buffer head for all control queues, and if it's a receive
+ * queue, allocate DMA buffers
+ */
+static int
+idpf_ctlq_alloc_bufs (vlib_main_t *vm, idpf_device_t *id,
+		      struct idpf_ctlq_info *cq)
+{
+  int i = 0;
+  u16 len;
+
+  /* Do not allocate DMA buffers for transmit queues */
+  if (cq->cq_type == IDPF_CTLQ_TYPE_MAILBOX_TX)
+    return IDPF_SUCCESS;
+
+  /* We'll be allocating the buffer info memory first, then we can
+   * allocate the mapped buffers for the event processing
+   */
+  len = cq->ring_size * sizeof (idpf_dma_mem_t *);
+  cq->bi.rx_buff = (idpf_dma_mem_t **) clib_mem_alloc (len);
+  if (!cq->bi.rx_buff)
+    return IDPF_ERR_NO_MEMORY;
+  clib_memset (cq->bi.rx_buff, 0, len);
+
+  /* allocate the mapped buffers (except for the last one) */
+  for (i = 0; i < cq->ring_size - 1; i++)
+    {
+      idpf_dma_mem_t *bi;
+      int num = 1; /* number of idpf_dma_mem to be allocated */
+
+      cq->bi.rx_buff[i] =
+	(idpf_dma_mem_t *) clib_mem_alloc (num * sizeof (idpf_dma_mem_t));
+      if (!cq->bi.rx_buff[i])
+	goto unwind_alloc_cq_bufs;
+
+      bi = cq->bi.rx_buff[i];
+
+      bi->va = idpf_alloc_dma_mem (vm, id, bi, cq->buf_size);
+      if (!bi->va)
+	{
+	  /* unwind will not free the failed entry */
+	  clib_mem_free (cq->bi.rx_buff[i]);
+	  goto unwind_alloc_cq_bufs;
+	}
+    }
+
+  return IDPF_SUCCESS;
+
+unwind_alloc_cq_bufs:
+  /* don't try to free the one that failed... */
+  i--;
+  for (; i >= 0; i--)
+    {
+      idpf_free_dma_mem (id, cq->bi.rx_buff[i]);
+      clib_mem_free (cq->bi.rx_buff[i]);
+    }
+  clib_mem_free (cq->bi.rx_buff);
+
+  return IDPF_ERR_NO_MEMORY;
+}
+
+/**
+ * idpf_ctlq_free_desc_ring - Free Control Queue (CQ) rings
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ *
+ * This assumes the posted send buffers have already been cleaned
+ * and de-allocated
+ */
+static void
+idpf_ctlq_free_desc_ring (idpf_device_t *id, struct idpf_ctlq_info *cq)
+{
+  idpf_free_dma_mem (id, &cq->desc_ring);
+}
+
+/**
+ * idpf_ctlq_free_bufs - Free CQ buffer info elements
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ *
+ * Free the DMA buffers for RX queues, and DMA buffer header for both RX and TX
+ * queues.  The upper layers are expected to manage freeing of TX DMA buffers
+ */
+static void
+idpf_ctlq_free_bufs (idpf_device_t *id, struct idpf_ctlq_info *cq)
+{
+  void *bi;
+
+  if (cq->cq_type == IDPF_CTLQ_TYPE_MAILBOX_RX)
+    {
+      int i;
+
+      /* free DMA buffers for rx queues*/
+      for (i = 0; i < cq->ring_size; i++)
+	{
+	  if (cq->bi.rx_buff[i])
+	    {
+	      idpf_free_dma_mem (id, cq->bi.rx_buff[i]);
+	      /* Attention */
+	      clib_mem_free (cq->bi.rx_buff[i]);
+	    }
+	}
+
+      bi = (void *) cq->bi.rx_buff;
+    }
+  else
+    {
+      bi = (void *) cq->bi.tx_msg;
+    }
+
+  /* free the buffer header */
+  clib_mem_free (bi);
+}
+
+/**
+ * idpf_ctlq_dealloc_ring_res - Free memory allocated for control queue
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ *
+ * Free the memory used by the ring, buffers and other related structures
+ */
+void
+idpf_ctlq_dealloc_ring_res (idpf_device_t *id, struct idpf_ctlq_info *cq)
+{
+  /* free ring buffers and the ring itself */
+  idpf_ctlq_free_bufs (id, cq);
+  idpf_ctlq_free_desc_ring (id, cq);
+}
+
+/**
+ * idpf_ctlq_alloc_ring_res - allocate memory for descriptor ring and bufs
+ * @hw: pointer to hw struct
+ * @cq: pointer to control queue struct
+ *
+ * Do *NOT* hold the lock when calling this as the memory allocation routines
+ * called are not going to be atomic context safe
+ */
+int
+idpf_ctlq_alloc_ring_res (vlib_main_t *vm, idpf_device_t *id,
+			  struct idpf_ctlq_info *cq)
+{
+  int ret_code;
+
+  /* verify input for valid configuration */
+  if (!cq->ring_size || !cq->buf_size)
+    return IDPF_ERR_CFG;
+
+  /* allocate the ring memory */
+  ret_code = idpf_ctlq_alloc_desc_ring (vm, id, cq);
+  if (ret_code)
+    return ret_code;
+
+  /* allocate buffers in the rings */
+  ret_code = idpf_ctlq_alloc_bufs (vm, id, cq);
+  if (ret_code)
+    goto idpf_init_cq_free_ring;
+
+  /* success! */
+  return IDPF_SUCCESS;
+
+idpf_init_cq_free_ring:
+  idpf_free_dma_mem (id, &cq->desc_ring);
+  return ret_code;
+}
+
+/**
+ * idpf_ctlq_setup_regs - initialize control queue registers
+ * @cq: pointer to the specific control queue
+ * @q_create_info: structs containing info for each queue to be initialized
+ */
+static void
+idpf_ctlq_setup_regs (struct idpf_ctlq_info *cq,
+		      idpf_ctlq_create_info_t *q_create_info)
+{
+  /* set head and tail registers in our local struct */
+  cq->reg.head = q_create_info->reg.head;
+  cq->reg.tail = q_create_info->reg.tail;
+  cq->reg.len = q_create_info->reg.len;
+  cq->reg.bah = q_create_info->reg.bah;
+  cq->reg.bal = q_create_info->reg.bal;
+  cq->reg.len_mask = q_create_info->reg.len_mask;
+  cq->reg.len_ena_mask = q_create_info->reg.len_ena_mask;
+  cq->reg.head_mask = q_create_info->reg.head_mask;
+}
+
+/**
+ * idpf_ctlq_init_regs - Initialize control queue registers
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ * @is_rxq: true if receive control queue, false otherwise
+ *
+ * Initialize registers. The caller is expected to have already initialized the
+ * descriptor ring memory and buffer memory
+ */
+static void
+idpf_ctlq_init_regs (vlib_main_t *vm, idpf_device_t *id,
+		     struct idpf_ctlq_info *cq, bool is_rxq)
+{
+  /* Update tail to post pre-allocated buffers for rx queues */
+  if (is_rxq)
+    idpf_reg_write (id, cq->reg.tail, (u32) (cq->ring_size - 1));
+
+  /* For non-Mailbox control queues only TAIL need to be set */
+  if (cq->q_id != -1)
+    return;
+
+  /* Clear Head for both send or receive */
+  idpf_reg_write (id, cq->reg.head, 0);
+
+  /* set starting point */
+  idpf_reg_write (id, cq->reg.bal, IDPF_LO_DWORD (cq->desc_ring.pa));
+  idpf_reg_write (id, cq->reg.bah, IDPF_HI_DWORD (cq->desc_ring.pa));
+  idpf_reg_write (id, cq->reg.len, (cq->ring_size | cq->reg.len_ena_mask));
+}
+
+/**
+ * idpf_ctlq_init_rxq_bufs - populate receive queue descriptors with buf
+ * @cq: pointer to the specific Control queue
+ *
+ * Record the address of the receive queue DMA buffers in the descriptors.
+ * The buffers must have been previously allocated.
+ */
+static void
+idpf_ctlq_init_rxq_bufs (struct idpf_ctlq_info *cq)
+{
+  int i = 0;
+
+  for (i = 0; i < cq->ring_size; i++)
+    {
+      idpf_ctlq_desc_t *desc = IDPF_CTLQ_DESC (cq, i);
+      idpf_dma_mem_t *bi = cq->bi.rx_buff[i];
+
+      /* No buffer to post to descriptor, continue */
+      if (!bi)
+	continue;
+
+      desc->flags = IDPF_CTLQ_FLAG_BUF | IDPF_CTLQ_FLAG_RD;
+      desc->opcode = 0;
+      desc->datalen = (u16) bi->size;
+      desc->ret_val = 0;
+      desc->cookie_high = 0;
+      desc->cookie_low = 0;
+      desc->params.indirect.addr_high = IDPF_HI_DWORD (bi->pa);
+      desc->params.indirect.addr_low = IDPF_LO_DWORD (bi->pa);
+      desc->params.indirect.param0 = 0;
+      desc->params.indirect.param1 = 0;
+    }
+}
+
+/**
+ * idpf_ctlq_shutdown - shutdown the CQ
+ * @hw: pointer to hw struct
+ * @cq: pointer to the specific Control queue
+ *
+ * The main shutdown routine for any controq queue
+ */
+static void
+idpf_ctlq_shutdown (idpf_device_t *id, struct idpf_ctlq_info *cq)
+{
+  clib_spinlock_init (&cq->cq_lock);
+
+  if (!cq->ring_size)
+    goto shutdown_sq_out;
+
+  /* free ring buffers and the ring itself */
+  idpf_ctlq_dealloc_ring_res (id, cq);
+
+  /* Set ring_size to 0 to indicate uninitialized queue */
+  cq->ring_size = 0;
+
+shutdown_sq_out:
+  clib_spinlock_unlock (&cq->cq_lock);
+  clib_spinlock_free (&cq->cq_lock);
+}
+
+/**
+ * idpf_ctlq_add - add one control queue
+ * @hw: pointer to hardware struct
+ * @qinfo: info for queue to be created
+ * @cq_out: (output) double pointer to control queue to be created
+ *
+ * Allocate and initialize a control queue and add it to the control queue
+ * list. The cq parameter will be allocated/initialized and passed back to the
+ * caller if no errors occur.
+ *
+ * Note: idpf_ctlq_init must be called prior to any calls to idpf_ctlq_add
+ */
+int
+idpf_ctlq_add (vlib_main_t *vm, idpf_device_t *id,
+	       idpf_ctlq_create_info_t *qinfo, struct idpf_ctlq_info **cq_out)
+{
+  bool is_rxq = false;
+  int status = IDPF_SUCCESS;
+
+  if (!qinfo->len || !qinfo->buf_size ||
+      qinfo->len > IDPF_CTLQ_MAX_RING_SIZE ||
+      qinfo->buf_size > IDPF_CTLQ_MAX_BUF_LEN)
+    return IDPF_ERR_CFG;
+
+  /* Fixme: memory allocation */
+  *cq_out = vlib_physmem_alloc_aligned_on_numa (
+    vm, sizeof (struct idpf_ctlq_info), CLIB_CACHE_LINE_BYTES, id->numa_node);
+  if (!(*cq_out))
+    return IDPF_ERR_NO_MEMORY;
+
+  if ((vlib_pci_map_dma (vm, id->pci_dev_handle, *cq_out)))
+    {
+      status = IDPF_ERR_NO_MEMORY;
+      goto init_free_q;
+    }
+
+  (*cq_out)->cq_type = qinfo->type;
+  (*cq_out)->q_id = qinfo->id;
+  (*cq_out)->buf_size = qinfo->buf_size;
+  (*cq_out)->ring_size = qinfo->len;
+
+  (*cq_out)->next_to_use = 0;
+  (*cq_out)->next_to_clean = 0;
+  (*cq_out)->next_to_post = (*cq_out)->ring_size - 1;
+
+  switch (qinfo->type)
+    {
+    case IDPF_CTLQ_TYPE_MAILBOX_RX:
+      is_rxq = true;
+    case IDPF_CTLQ_TYPE_MAILBOX_TX:
+      status = idpf_ctlq_alloc_ring_res (vm, id, *cq_out);
+      break;
+    default:
+      status = IDPF_ERR_PARAM;
+      break;
+    }
+
+  if (status)
+    goto init_free_q;
+
+  if (is_rxq)
+    {
+      idpf_ctlq_init_rxq_bufs (*cq_out);
+    }
+  else
+    {
+      /* Allocate the array of msg pointers for TX queues */
+      (*cq_out)->bi.tx_msg = (idpf_ctlq_msg_t **) clib_mem_alloc (
+	qinfo->len * sizeof (idpf_ctlq_msg_t *));
+      if (!(*cq_out)->bi.tx_msg)
+	{
+	  status = IDPF_ERR_NO_MEMORY;
+	  goto init_dealloc_q_mem;
+	}
+    }
+
+  idpf_ctlq_setup_regs (*cq_out, qinfo);
+
+  idpf_ctlq_init_regs (vm, id, *cq_out, is_rxq);
+
+  /* Fixeme: lock issue */
+  clib_spinlock_init (&(*cq_out)->cq_lock);
+
+  LIST_INSERT_HEAD (&id->cq_list_head, (*cq_out), cq_list);
+
+  return status;
+
+init_dealloc_q_mem:
+  /* free ring buffers and the ring itself */
+  idpf_ctlq_dealloc_ring_res (id, *cq_out);
+init_free_q:
+  clib_mem_free (*cq_out);
+
+  return status;
+}
+
+/**
+ * idpf_ctlq_remove - deallocate and remove specified control queue
+ * @hw: pointer to hardware struct
+ * @cq: pointer to control queue to be removed
+ */
+void
+idpf_ctlq_remove (idpf_device_t *id, struct idpf_ctlq_info *cq)
+{
+  LIST_REMOVE (cq, cq_list);
+  idpf_ctlq_shutdown (id, cq);
+  clib_mem_free (cq);
+}
+
+/**
+ * idpf_ctlq_init - main initialization routine for all control queues
+ * @hw: pointer to hardware struct
+ * @num_q: number of queues to initialize
+ * @q_info: array of structs containing info for each queue to be initialized
+ *
+ * This initializes any number and any type of control queues. This is an all
+ * or nothing routine; if one fails, all previously allocated queues will be
+ * destroyed. This must be called prior to using the individual add/remove
+ * APIs.
+ */
+int
+idpf_ctlq_init (vlib_main_t *vm, idpf_device_t *id, u8 num_q,
+		idpf_ctlq_create_info_t *q_info)
+{
+  struct idpf_ctlq_info *cq = NULL;
+  int ret_code = IDPF_SUCCESS;
+  int i = 0;
+
+  LIST_INIT (&id->cq_list_head);
+
+  for (i = 0; i < num_q; i++)
+    {
+      idpf_ctlq_create_info_t *qinfo = q_info + i;
+
+      ret_code = idpf_ctlq_add (vm, id, qinfo, &cq);
+      if (ret_code)
+	goto init_destroy_qs;
+    }
+
+  return ret_code;
+
+init_destroy_qs:
+  LIST_FOR_EACH_ENTRY_SAFE (cq, NULL, &id->cq_list_head, struct idpf_ctlq_info,
+			    cq_list)
+  {
+    idpf_ctlq_remove (id, cq);
+  }
+
+  return ret_code;
+}
+
+/**
+ * idpf_ctlq_deinit - destroy all control queues
+ * @hw: pointer to hw struct
+ */
+void
+idpf_ctlq_deinit (idpf_device_t *id)
+{
+  struct idpf_ctlq_info *cq = NULL;
+
+  LIST_FOR_EACH_ENTRY_SAFE (cq, NULL, &id->cq_list_head, struct idpf_ctlq_info,
+			    cq_list)
+  {
+    idpf_ctlq_remove (id, cq);
+  }
+
+  return;
+}
+
+/**
+ * idpf_ctlq_send - send command to Control Queue (CTQ)
+ * @id: pointer to device struct
+ * @cq: handle to control queue struct to send on
+ * @num_q_msg: number of messages to send on control queue
+ * @q_msg: pointer to array of queue messages to be sent
+ *
+ * The caller is expected to allocate DMAable buffers and pass them to the
+ * send routine via the q_msg struct / control queue specific data struct.
+ * The control queue will hold a reference to each send message until
+ * the completion for that message has been cleaned.
+ */
+int
+idpf_ctlq_send (idpf_device_t *id, struct idpf_ctlq_info *cq, u16 num_q_msg,
+		idpf_ctlq_msg_t q_msg[])
+{
+  idpf_ctlq_desc_t *desc;
+  int num_desc_avail = 0;
+  int status = IDPF_SUCCESS;
+  int i = 0;
+
+  if (!cq || !cq->ring_size)
+    return -ENOBUFS;
+
+  clib_spinlock_lock (&cq->cq_lock);
+
+  /* Ensure there are enough descriptors to send all messages */
+  num_desc_avail = IDPF_CTLQ_DESC_UNUSED (cq);
+  if (num_desc_avail == 0 || num_desc_avail < num_q_msg)
+    {
+      status = -ENOSPC;
+      goto sq_send_command_out;
+    }
+
+  for (i = 0; i < num_q_msg; i++)
+    {
+      idpf_ctlq_msg_t *msg = &q_msg[i];
+      u64 msg_cookie;
+
+      desc = IDPF_CTLQ_DESC (cq, cq->next_to_use);
+
+      /* Pay attention to CPU_TO_LE16 */
+      desc->opcode = msg->opcode;
+      desc->pfid_vfid = msg->func_id;
+
+      msg_cookie = msg->cookie.cookie;
+      desc->cookie_high = IDPF_HI_DWORD (msg_cookie);
+      desc->cookie_low = IDPF_LO_DWORD (msg_cookie);
+
+      desc->flags = (msg->host_id & IDPF_HOST_ID_MASK)
+		    << IDPF_CTLQ_FLAG_HOST_ID_S;
+      if (msg->data_len)
+	{
+	  idpf_dma_mem_t *buff = msg->ctx.indirect.payload;
+
+	  desc->datalen |= msg->data_len;
+	  desc->flags |= IDPF_CTLQ_FLAG_BUF;
+	  desc->flags |= IDPF_CTLQ_FLAG_RD;
+
+	  /* Update the address values in the desc with the pa
+	   * value for respective buffer
+	   */
+	  desc->params.indirect.addr_high = IDPF_HI_DWORD (buff->pa);
+	  desc->params.indirect.addr_low = IDPF_LO_DWORD (buff->pa);
+
+	  clib_memcpy (&desc->params, msg->ctx.indirect.context,
+		       IDPF_INDIRECT_CTX_SIZE);
+	}
+      else
+	{
+	  clib_memcpy (&desc->params, msg->ctx.direct, IDPF_DIRECT_CTX_SIZE);
+	}
+
+      /* Store buffer info */
+      cq->bi.tx_msg[cq->next_to_use] = msg;
+
+      (cq->next_to_use)++;
+      if (cq->next_to_use == cq->ring_size)
+	cq->next_to_use = 0;
+    }
+
+  /* Force memory write to complete before letting hardware
+   * know that there are new descriptors to fetch.
+   */
+  CLIB_MEMORY_BARRIER ();
+
+  idpf_reg_write (id, cq->reg.tail, cq->next_to_use);
+
+sq_send_command_out:
+  clib_spinlock_unlock (&cq->cq_lock);
+
+  return status;
+}
+
+/**
+ * idpf_ctlq_clean_sq - reclaim send descriptors on HW write back for the
+ * requested queue
+ * @cq: pointer to the specific Control queue
+ * @clean_count: (input|output) number of descriptors to clean as input, and
+ * number of descriptors actually cleaned as output
+ * @msg_status: (output) pointer to msg pointer array to be populated; needs
+ * to be allocated by caller
+ *
+ * Returns an array of message pointers associated with the cleaned
+ * descriptors. The pointers are to the original ctlq_msgs sent on the cleaned
+ * descriptors.  The status will be returned for each; any messages that failed
+ * to send will have a non-zero status. The caller is expected to free original
+ * ctlq_msgs and free or reuse the DMA buffers.
+ */
+int
+idpf_ctlq_clean_sq (struct idpf_ctlq_info *cq, u16 *clean_count,
+		    idpf_ctlq_msg_t *msg_status[])
+{
+  idpf_ctlq_desc_t *desc;
+  u16 i = 0, num_to_clean;
+  u16 ntc, desc_err;
+  int ret = IDPF_SUCCESS;
+
+  if (!cq || !cq->ring_size)
+    return IDPF_ERR_CTLQ_EMPTY;
+
+  if (*clean_count == 0)
+    return IDPF_SUCCESS;
+  if (*clean_count > cq->ring_size)
+    return IDPF_ERR_PARAM;
+
+  /* Fixme rte func */
+  clib_spinlock_lock (&cq->cq_lock);
+
+  ntc = cq->next_to_clean;
+
+  num_to_clean = *clean_count;
+
+  for (i = 0; i < num_to_clean; i++)
+    {
+      /* Fetch next descriptor and check if marked as done */
+      desc = IDPF_CTLQ_DESC (cq, ntc);
+      if (!(desc->flags & IDPF_CTLQ_FLAG_DD))
+	break;
+
+      desc_err = desc->ret_val;
+      if (desc_err)
+	{
+	  /* strip off FW internal code */
+	  desc_err &= 0xff;
+	}
+
+      msg_status[i] = cq->bi.tx_msg[ntc];
+      msg_status[i]->status = desc_err;
+
+      cq->bi.tx_msg[ntc] = NULL;
+
+      /* Zero out any stale data */
+      clib_memset (desc, 0, sizeof (*desc));
+
+      ntc++;
+      if (ntc == cq->ring_size)
+	ntc = 0;
+    }
+
+  cq->next_to_clean = ntc;
+
+  clib_spinlock_unlock (&cq->cq_lock);
+
+  /* Return number of descriptors actually cleaned */
+  *clean_count = i;
+
+  return ret;
+}
+
+/**
+ * idpf_ctlq_post_rx_buffs - post buffers to descriptor ring
+ * @hw: pointer to hw struct
+ * @cq: pointer to control queue handle
+ * @buff_count: (input|output) input is number of buffers caller is trying to
+ * return; output is number of buffers that were not posted
+ * @buffs: array of pointers to dma mem structs to be given to hardware
+ *
+ * Caller uses this function to return DMA buffers to the descriptor ring after
+ * consuming them; buff_count will be the number of buffers.
+ *
+ * Note: this function needs to be called after a receive call even
+ * if there are no DMA buffers to be returned, i.e. buff_count = 0,
+ * buffs = NULL to support direct commands
+ */
+int
+idpf_ctlq_post_rx_buffs (idpf_device_t *id, struct idpf_ctlq_info *cq,
+			 u16 *buff_count, idpf_dma_mem_t **buffs)
+{
+  idpf_ctlq_desc_t *desc;
+  u16 ntp = cq->next_to_post;
+  bool buffs_avail = false;
+  u16 tbp = ntp + 1;
+  int status = IDPF_SUCCESS;
+  int i = 0;
+
+  if (*buff_count > cq->ring_size)
+    return IDPF_ERR_PARAM;
+
+  if (*buff_count > 0)
+    buffs_avail = true;
+
+  clib_spinlock_lock (&cq->cq_lock);
+
+  if (tbp >= cq->ring_size)
+    tbp = 0;
+
+  if (tbp == cq->next_to_clean)
+    /* Nothing to do */
+    goto post_buffs_out;
+
+  /* Post buffers for as many as provided or up until the last one used */
+  while (ntp != cq->next_to_clean)
+    {
+      desc = IDPF_CTLQ_DESC (cq, ntp);
+
+      if (cq->bi.rx_buff[ntp])
+	goto fill_desc;
+      if (!buffs_avail)
+	{
+	  /* If the caller hasn't given us any buffers or
+	   * there are none left, search the ring itself
+	   * for an available buffer to move to this
+	   * entry starting at the next entry in the ring
+	   */
+	  tbp = ntp + 1;
+
+	  /* Wrap ring if necessary */
+	  if (tbp >= cq->ring_size)
+	    tbp = 0;
+
+	  while (tbp != cq->next_to_clean)
+	    {
+	      if (cq->bi.rx_buff[tbp])
+		{
+		  cq->bi.rx_buff[ntp] = cq->bi.rx_buff[tbp];
+		  cq->bi.rx_buff[tbp] = NULL;
+
+		  /* Found a buffer, no need to
+		   * search anymore
+		   */
+		  break;
+		}
+
+	      /* Wrap ring if necessary */
+	      tbp++;
+	      if (tbp >= cq->ring_size)
+		tbp = 0;
+	    }
+
+	  if (tbp == cq->next_to_clean)
+	    goto post_buffs_out;
+	}
+      else
+	{
+	  /* Give back pointer to DMA buffer */
+	  cq->bi.rx_buff[ntp] = buffs[i];
+	  i++;
+
+	  if (i >= *buff_count)
+	    buffs_avail = false;
+	}
+
+    fill_desc:
+      desc->flags = IDPF_CTLQ_FLAG_BUF | IDPF_CTLQ_FLAG_RD;
+
+      /* Post buffers to descriptor */
+      desc->datalen = cq->bi.rx_buff[ntp]->size;
+      desc->params.indirect.addr_high =
+	IDPF_HI_DWORD (cq->bi.rx_buff[ntp]->pa);
+      desc->params.indirect.addr_low = IDPF_LO_DWORD (cq->bi.rx_buff[ntp]->pa);
+
+      ntp++;
+      if (ntp == cq->ring_size)
+	ntp = 0;
+    }
+
+post_buffs_out:
+  /* Only update tail if buffers were actually posted */
+  if (cq->next_to_post != ntp)
+    {
+      if (ntp)
+	/* Update next_to_post to ntp - 1 since current ntp
+	 * will not have a buffer
+	 */
+	cq->next_to_post = ntp - 1;
+      else
+	/* Wrap to end of end ring since current ntp is 0 */
+	cq->next_to_post = cq->ring_size - 1;
+
+      idpf_reg_write (id, cq->reg.tail, cq->next_to_post);
+    }
+
+  clib_spinlock_unlock (&cq->cq_lock);
+
+  /* return the number of buffers that were not posted */
+  *buff_count = *buff_count - i;
+
+  return status;
+}
+
+/**
+ * idpf_ctlq_recv - receive control queue message call back
+ * @cq: pointer to control queue handle to receive on
+ * @num_q_msg: (input|output) input number of messages that should be received;
+ * output number of messages actually received
+ * @q_msg: (output) array of received control queue messages on this q;
+ * needs to be pre-allocated by caller for as many messages as requested
+ *
+ * Called by interrupt handler or polling mechanism. Caller is expected
+ * to free buffers
+ */
+int
+idpf_ctlq_recv (struct idpf_ctlq_info *cq, u16 *num_q_msg,
+		idpf_ctlq_msg_t *q_msg)
+{
+  u16 num_to_clean, ntc, ret_val, flags;
+  idpf_ctlq_desc_t *desc;
+  int ret_code = 0;
+  u16 i = 0;
+
+  if (!cq || !cq->ring_size)
+    return -ENOBUFS;
+
+  if (*num_q_msg == 0)
+    return 0;
+  else if (*num_q_msg > cq->ring_size)
+    return -EINVAL;
+
+  /* Fixme: take the lock before we start messing with the ring */
+  clib_spinlock_lock (&cq->cq_lock);
+
+  ntc = cq->next_to_clean;
+
+  num_to_clean = *num_q_msg;
+
+  for (i = 0; i < num_to_clean; i++)
+    {
+      u64 msg_cookie;
+
+      /* Fetch next descriptor and check if marked as done */
+      desc = IDPF_CTLQ_DESC (cq, ntc);
+      flags = desc->flags;
+
+      if (!(flags & IDPF_CTLQ_FLAG_DD))
+	break;
+
+      ret_val = desc->ret_val;
+
+      q_msg[i].vmvf_type =
+	(flags & (IDPF_CTLQ_FLAG_FTYPE_VM | IDPF_CTLQ_FLAG_FTYPE_PF)) >>
+	IDPF_CTLQ_FLAG_FTYPE_S;
+
+      if (flags & IDPF_CTLQ_FLAG_ERR)
+	ret_code = IDPF_ERR_CTLQ_ERROR;
+
+      msg_cookie = (u64) desc->cookie_high << 32;
+      msg_cookie |= (u64) desc->cookie_low;
+      clib_memcpy_fast (&q_msg[i].cookie, &msg_cookie, sizeof (u64));
+
+      q_msg[i].opcode = desc->opcode;
+      q_msg[i].data_len = desc->datalen;
+      q_msg[i].status = ret_val;
+
+      if (desc->datalen)
+	{
+	  clib_memcpy_fast (q_msg[i].ctx.indirect.context,
+			    &desc->params.indirect, IDPF_INDIRECT_CTX_SIZE);
+
+	  /* Assign pointer to dma buffer to ctlq_msg array
+	   * to be given to upper layer
+	   */
+	  q_msg[i].ctx.indirect.payload = cq->bi.rx_buff[ntc];
+
+	  /* Zero out pointer to DMA buffer info;
+	   * will be repopulated by post buffers API
+	   */
+	  cq->bi.rx_buff[ntc] = NULL;
+	}
+      else
+	{
+	  clib_memcpy_fast (q_msg[i].ctx.direct, desc->params.raw,
+			    IDPF_DIRECT_CTX_SIZE);
+	}
+
+      /* Zero out stale data in descriptor */
+      clib_memset (desc, 0, sizeof (idpf_ctlq_desc_t));
+
+      ntc++;
+      if (ntc == cq->ring_size)
+	ntc = 0;
+    };
+
+  cq->next_to_clean = ntc;
+
+  /* Fixme */
+  clib_spinlock_unlock (&cq->cq_lock);
+
+  *num_q_msg = i;
+  if (*num_q_msg == 0)
+    ret_code = -ENOMSG;
+
+  return ret_code;
+}