Contributors: 1
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Total 2779 2


// SPDX-License-Identifier: GPL-2.0
/* Marvell Octeon EP (EndPoint) VF Ethernet Driver
 *
 * Copyright (C) 2020 Marvell.
 *
 */

#include <linux/pci.h>
#include <linux/netdevice.h>
#include <linux/etherdevice.h>

#include "octep_vf_config.h"
#include "octep_vf_main.h"
#include "octep_vf_regs_cn9k.h"

/* Dump useful hardware IQ/OQ CSRs for debug purpose */
static void cn93_vf_dump_q_regs(struct octep_vf_device *oct, int qno)
{
	struct device *dev = &oct->pdev->dev;

	dev_info(dev, "IQ-%d register dump\n", qno);
	dev_info(dev, "R[%d]_IN_INSTR_DBELL[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_INSTR_DBELL(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INSTR_DBELL(qno)));
	dev_info(dev, "R[%d]_IN_CONTROL[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_CONTROL(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_CONTROL(qno)));
	dev_info(dev, "R[%d]_IN_ENABLE[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_ENABLE(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_ENABLE(qno)));
	dev_info(dev, "R[%d]_IN_INSTR_BADDR[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_INSTR_BADDR(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INSTR_BADDR(qno)));
	dev_info(dev, "R[%d]_IN_INSTR_RSIZE[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_INSTR_RSIZE(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INSTR_RSIZE(qno)));
	dev_info(dev, "R[%d]_IN_CNTS[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_CNTS(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_CNTS(qno)));
	dev_info(dev, "R[%d]_IN_INT_LEVELS[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_INT_LEVELS(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(qno)));
	dev_info(dev, "R[%d]_IN_PKT_CNT[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_PKT_CNT(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_PKT_CNT(qno)));
	dev_info(dev, "R[%d]_IN_BYTE_CNT[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_IN_BYTE_CNT(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_BYTE_CNT(qno)));

	dev_info(dev, "OQ-%d register dump\n", qno);
	dev_info(dev, "R[%d]_OUT_SLIST_DBELL[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_SLIST_DBELL(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_DBELL(qno)));
	dev_info(dev, "R[%d]_OUT_CONTROL[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_CONTROL(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_CONTROL(qno)));
	dev_info(dev, "R[%d]_OUT_ENABLE[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_ENABLE(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_ENABLE(qno)));
	dev_info(dev, "R[%d]_OUT_SLIST_BADDR[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_SLIST_BADDR(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_BADDR(qno)));
	dev_info(dev, "R[%d]_OUT_SLIST_RSIZE[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_SLIST_RSIZE(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_RSIZE(qno)));
	dev_info(dev, "R[%d]_OUT_CNTS[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_CNTS(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_CNTS(qno)));
	dev_info(dev, "R[%d]_OUT_INT_LEVELS[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_INT_LEVELS(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(qno)));
	dev_info(dev, "R[%d]_OUT_PKT_CNT[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_PKT_CNT(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_PKT_CNT(qno)));
	dev_info(dev, "R[%d]_OUT_BYTE_CNT[0x%llx]: 0x%016llx\n",
		 qno, CN93_VF_SDP_R_OUT_BYTE_CNT(qno),
		 octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_BYTE_CNT(qno)));
}

/* Reset Hardware Tx queue */
static void cn93_vf_reset_iq(struct octep_vf_device *oct, int q_no)
{
	u64 val = ULL(0);

	dev_dbg(&oct->pdev->dev, "Reset VF IQ-%d\n", q_no);

	/* Disable the Tx/Instruction Ring */
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_ENABLE(q_no), val);

	/* clear the Instruction Ring packet/byte counts and doorbell CSRs */
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(q_no), val);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_PKT_CNT(q_no), val);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_BYTE_CNT(q_no), val);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INSTR_BADDR(q_no), val);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INSTR_RSIZE(q_no), val);

	val = GENMASK_ULL(31, 0);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INSTR_DBELL(q_no), val);

	val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_CNTS(q_no));
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_CNTS(q_no),
			     val & GENMASK_ULL(31, 0));
}

/* Reset Hardware Rx queue */
static void cn93_vf_reset_oq(struct octep_vf_device *oct, int q_no)
{
	u64 val = ULL(0);

	/* Disable Output (Rx) Ring */
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_ENABLE(q_no), val);

	/* Clear count CSRs */
	val = octep_vf_read_csr(oct, CN93_VF_SDP_R_OUT_CNTS(q_no));
	octep_vf_write_csr(oct, CN93_VF_SDP_R_OUT_CNTS(q_no), val);

	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_PKT_CNT(q_no), GENMASK_ULL(35, 0));
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_DBELL(q_no), GENMASK_ULL(31, 0));
}

/* Reset all hardware Tx/Rx queues */
static void octep_vf_reset_io_queues_cn93(struct octep_vf_device *oct)
{
	struct pci_dev *pdev = oct->pdev;
	int q;

	dev_dbg(&pdev->dev, "Reset OCTEP_CN93 VF IO Queues\n");

	for (q = 0; q < CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf); q++) {
		cn93_vf_reset_iq(oct, q);
		cn93_vf_reset_oq(oct, q);
	}
}

/* Initialize configuration limits and initial active config */
static void octep_vf_init_config_cn93_vf(struct octep_vf_device *oct)
{
	struct octep_vf_config *conf = oct->conf;
	u64 reg_val;

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_CONTROL(0));
	conf->ring_cfg.max_io_rings = (reg_val >> CN93_VF_R_IN_CTL_RPVF_POS) &
				      CN93_VF_R_IN_CTL_RPVF_MASK;
	conf->ring_cfg.active_io_rings = conf->ring_cfg.max_io_rings;

	conf->iq.num_descs = OCTEP_VF_IQ_MAX_DESCRIPTORS;
	conf->iq.instr_type = OCTEP_VF_64BYTE_INSTR;
	conf->iq.db_min = OCTEP_VF_DB_MIN;
	conf->iq.intr_threshold = OCTEP_VF_IQ_INTR_THRESHOLD;

	conf->oq.num_descs = OCTEP_VF_OQ_MAX_DESCRIPTORS;
	conf->oq.buf_size = OCTEP_VF_OQ_BUF_SIZE;
	conf->oq.refill_threshold = OCTEP_VF_OQ_REFILL_THRESHOLD;
	conf->oq.oq_intr_pkt = OCTEP_VF_OQ_INTR_PKT_THRESHOLD;
	conf->oq.oq_intr_time = OCTEP_VF_OQ_INTR_TIME_THRESHOLD;

	conf->msix_cfg.ioq_msix = conf->ring_cfg.active_io_rings;
}

/* Setup registers for a hardware Tx Queue  */
static void octep_vf_setup_iq_regs_cn93(struct octep_vf_device *oct, int iq_no)
{
	struct octep_vf_iq *iq = oct->iq[iq_no];
	u32 reset_instr_cnt;
	u64 reg_val;

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_CONTROL(iq_no));

	/* wait for IDLE to set to 1 */
	if (!(reg_val & CN93_VF_R_IN_CTL_IDLE)) {
		do {
			reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_CONTROL(iq_no));
		} while (!(reg_val & CN93_VF_R_IN_CTL_IDLE));
	}
	reg_val |= CN93_VF_R_IN_CTL_RDSIZE;
	reg_val |= CN93_VF_R_IN_CTL_IS_64B;
	reg_val |= CN93_VF_R_IN_CTL_ESR;
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_CONTROL(iq_no), reg_val);

	/* Write the start of the input queue's ring and its size  */
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INSTR_BADDR(iq_no), iq->desc_ring_dma);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INSTR_RSIZE(iq_no), iq->max_count);

	/* Remember the doorbell & instruction count register addr for this queue */
	iq->doorbell_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_IN_INSTR_DBELL(iq_no);
	iq->inst_cnt_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_IN_CNTS(iq_no);
	iq->intr_lvl_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_IN_INT_LEVELS(iq_no);

	/* Store the current instruction counter (used in flush_iq calculation) */
	reset_instr_cnt = readl(iq->inst_cnt_reg);
	writel(reset_instr_cnt, iq->inst_cnt_reg);

	/* INTR_THRESHOLD is set to max(FFFFFFFF) to disable the INTR */
	reg_val = CFG_GET_IQ_INTR_THRESHOLD(oct->conf) & GENMASK_ULL(31, 0);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(iq_no), reg_val);
}

/* Setup registers for a hardware Rx Queue  */
static void octep_vf_setup_oq_regs_cn93(struct octep_vf_device *oct, int oq_no)
{
	struct octep_vf_oq *oq = oct->oq[oq_no];
	u32 time_threshold = 0;
	u64 oq_ctl = ULL(0);
	u64 reg_val;

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_CONTROL(oq_no));

	/* wait for IDLE to set to 1 */
	if (!(reg_val & CN93_VF_R_OUT_CTL_IDLE)) {
		do {
			reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_CONTROL(oq_no));
		} while (!(reg_val & CN93_VF_R_OUT_CTL_IDLE));
	}

	reg_val &= ~(CN93_VF_R_OUT_CTL_IMODE);
	reg_val &= ~(CN93_VF_R_OUT_CTL_ROR_P);
	reg_val &= ~(CN93_VF_R_OUT_CTL_NSR_P);
	reg_val &= ~(CN93_VF_R_OUT_CTL_ROR_I);
	reg_val &= ~(CN93_VF_R_OUT_CTL_NSR_I);
	reg_val &= ~(CN93_VF_R_OUT_CTL_ES_I);
	reg_val &= ~(CN93_VF_R_OUT_CTL_ROR_D);
	reg_val &= ~(CN93_VF_R_OUT_CTL_NSR_D);
	reg_val &= ~(CN93_VF_R_OUT_CTL_ES_D);
	reg_val |= (CN93_VF_R_OUT_CTL_ES_P);

	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_CONTROL(oq_no), reg_val);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_BADDR(oq_no), oq->desc_ring_dma);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_RSIZE(oq_no), oq->max_count);

	oq_ctl = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_CONTROL(oq_no));
	oq_ctl &= ~GENMASK_ULL(22, 0);	//clear the ISIZE and BSIZE (22-0)
	oq_ctl |= (oq->buffer_size & GENMASK_ULL(15, 0));	//populate the BSIZE (15-0)
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_CONTROL(oq_no), oq_ctl);

	/* Get the mapped address of the pkt_sent and pkts_credit regs */
	oq->pkts_sent_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_OUT_CNTS(oq_no);
	oq->pkts_credit_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_OUT_SLIST_DBELL(oq_no);

	time_threshold = CFG_GET_OQ_INTR_TIME(oct->conf);
	reg_val = ((u64)time_threshold << 32) | CFG_GET_OQ_INTR_PKT(oct->conf);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(oq_no), reg_val);
}

/* Setup registers for a VF mailbox */
static void octep_vf_setup_mbox_regs_cn93(struct octep_vf_device *oct, int q_no)
{
	struct octep_vf_mbox *mbox = oct->mbox;

	/* PF to VF DATA reg. VF reads from this reg */
	mbox->mbox_read_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_MBOX_PF_VF_DATA(q_no);

	/* VF mbox interrupt reg */
	mbox->mbox_int_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_MBOX_PF_VF_INT(q_no);

	/* VF to PF DATA reg. VF writes into this reg */
	mbox->mbox_write_reg = oct->mmio.hw_addr + CN93_VF_SDP_R_MBOX_VF_PF_DATA(q_no);
}

/* Mailbox Interrupt handler */
static void cn93_handle_vf_mbox_intr(struct octep_vf_device *oct)
{
	if (oct->mbox)
		schedule_work(&oct->mbox->wk.work);
	else
		dev_err(&oct->pdev->dev, "cannot schedule work on invalid mbox\n");
}

/* Tx/Rx queue interrupt handler */
static irqreturn_t octep_vf_ioq_intr_handler_cn93(void *data)
{
	struct octep_vf_ioq_vector *vector = data;
	struct octep_vf_device *oct;
	struct octep_vf_oq *oq;
	u64 reg_val;

	oct = vector->octep_vf_dev;
	oq = vector->oq;
	/* Mailbox interrupt arrives along with interrupt of tx/rx ring pair 0 */
	if (oq->q_no == 0) {
		reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_MBOX_PF_VF_INT(0));
		if (reg_val & CN93_VF_SDP_R_MBOX_PF_VF_INT_STATUS) {
			cn93_handle_vf_mbox_intr(oct);
			octep_vf_write_csr64(oct, CN93_VF_SDP_R_MBOX_PF_VF_INT(0), reg_val);
		}
	}
	napi_schedule_irqoff(oq->napi);
	return IRQ_HANDLED;
}

/* Re-initialize Octeon hardware registers */
static void octep_vf_reinit_regs_cn93(struct octep_vf_device *oct)
{
	u32 i;

	for (i = 0; i < CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf); i++)
		oct->hw_ops.setup_iq_regs(oct, i);

	for (i = 0; i < CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf); i++)
		oct->hw_ops.setup_oq_regs(oct, i);

	oct->hw_ops.enable_interrupts(oct);
	oct->hw_ops.enable_io_queues(oct);

	for (i = 0; i < CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf); i++)
		writel(oct->oq[i]->max_count, oct->oq[i]->pkts_credit_reg);
}

/* Enable all interrupts */
static void octep_vf_enable_interrupts_cn93(struct octep_vf_device *oct)
{
	int num_rings, q;
	u64 reg_val;

	num_rings = CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf);
	for (q = 0; q < num_rings; q++) {
		reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(q));
		reg_val |= BIT_ULL_MASK(62);
		octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(q), reg_val);

		reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(q));
		reg_val |= BIT_ULL_MASK(62);
		octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(q), reg_val);
	}
	/* Enable PF to VF mbox interrupt by setting 2nd bit*/
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_MBOX_PF_VF_INT(0),
			     CN93_VF_SDP_R_MBOX_PF_VF_INT_ENAB);
}

/* Disable all interrupts */
static void octep_vf_disable_interrupts_cn93(struct octep_vf_device *oct)
{
	int num_rings, q;
	u64 reg_val;

	/* Disable PF to VF mbox interrupt by setting 2nd bit*/
	if (oct->mbox)
		octep_vf_write_csr64(oct, CN93_VF_SDP_R_MBOX_PF_VF_INT(0), 0x0);

	num_rings = CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf);
	for (q = 0; q < num_rings; q++) {
		reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(q));
		reg_val &= ~BIT_ULL_MASK(62);
		octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(q), reg_val);

		reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(q));
		reg_val &= ~BIT_ULL_MASK(62);
		octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(q), reg_val);
	}
}

/* Get new Octeon Read Index: index of descriptor that Octeon reads next. */
static u32 octep_vf_update_iq_read_index_cn93(struct octep_vf_iq *iq)
{
	u32 pkt_in_done = readl(iq->inst_cnt_reg);
	u32 last_done, new_idx;

	last_done = pkt_in_done - iq->pkt_in_done;
	iq->pkt_in_done = pkt_in_done;

	new_idx = (iq->octep_vf_read_index + last_done) % iq->max_count;

	return new_idx;
}

/* Enable a hardware Tx Queue */
static void octep_vf_enable_iq_cn93(struct octep_vf_device *oct, int iq_no)
{
	u64 loop = HZ;
	u64 reg_val;

	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INSTR_DBELL(iq_no), GENMASK_ULL(31, 0));

	while (octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_INSTR_DBELL(iq_no)) &&
	       loop--) {
		schedule_timeout_interruptible(1);
	}

	reg_val = octep_vf_read_csr64(oct,  CN93_VF_SDP_R_IN_INT_LEVELS(iq_no));
	reg_val |= BIT_ULL_MASK(62);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_INT_LEVELS(iq_no), reg_val);

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_ENABLE(iq_no));
	reg_val |= ULL(1);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_ENABLE(iq_no), reg_val);
}

/* Enable a hardware Rx Queue */
static void octep_vf_enable_oq_cn93(struct octep_vf_device *oct, int oq_no)
{
	u64 reg_val;

	reg_val = octep_vf_read_csr64(oct,  CN93_VF_SDP_R_OUT_INT_LEVELS(oq_no));
	reg_val |= BIT_ULL_MASK(62);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_INT_LEVELS(oq_no), reg_val);

	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_SLIST_DBELL(oq_no), GENMASK_ULL(31, 0));

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_ENABLE(oq_no));
	reg_val |= ULL(1);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_ENABLE(oq_no), reg_val);
}

/* Enable all hardware Tx/Rx Queues assigned to VF */
static void octep_vf_enable_io_queues_cn93(struct octep_vf_device *oct)
{
	u8 q;

	for (q = 0; q < CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf); q++) {
		octep_vf_enable_iq_cn93(oct, q);
		octep_vf_enable_oq_cn93(oct, q);
	}
}

/* Disable a hardware Tx Queue assigned to VF */
static void octep_vf_disable_iq_cn93(struct octep_vf_device *oct, int iq_no)
{
	u64 reg_val;

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_IN_ENABLE(iq_no));
	reg_val &= ~ULL(1);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_IN_ENABLE(iq_no), reg_val);
}

/* Disable a hardware Rx Queue assigned to VF */
static void octep_vf_disable_oq_cn93(struct octep_vf_device *oct, int oq_no)
{
	u64 reg_val;

	reg_val = octep_vf_read_csr64(oct, CN93_VF_SDP_R_OUT_ENABLE(oq_no));
	reg_val &= ~ULL(1);
	octep_vf_write_csr64(oct, CN93_VF_SDP_R_OUT_ENABLE(oq_no), reg_val);
}

/* Disable all hardware Tx/Rx Queues assigned to VF */
static void octep_vf_disable_io_queues_cn93(struct octep_vf_device *oct)
{
	int q;

	for (q = 0; q < CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf); q++) {
		octep_vf_disable_iq_cn93(oct, q);
		octep_vf_disable_oq_cn93(oct, q);
	}
}

/* Dump hardware registers (including Tx/Rx queues) for debugging. */
static void octep_vf_dump_registers_cn93(struct octep_vf_device *oct)
{
	u8 num_rings, q;

	num_rings = CFG_GET_PORTS_ACTIVE_IO_RINGS(oct->conf);
	for (q = 0; q < num_rings; q++)
		cn93_vf_dump_q_regs(oct, q);
}

/**
 * octep_vf_device_setup_cn93() - Setup Octeon device.
 *
 * @oct: Octeon device private data structure.
 *
 * - initialize hardware operations.
 * - get target side pcie port number for the device.
 * - set initial configuration and max limits.
 */
void octep_vf_device_setup_cn93(struct octep_vf_device *oct)
{
	oct->hw_ops.setup_iq_regs = octep_vf_setup_iq_regs_cn93;
	oct->hw_ops.setup_oq_regs = octep_vf_setup_oq_regs_cn93;
	oct->hw_ops.setup_mbox_regs = octep_vf_setup_mbox_regs_cn93;

	oct->hw_ops.ioq_intr_handler = octep_vf_ioq_intr_handler_cn93;
	oct->hw_ops.reinit_regs = octep_vf_reinit_regs_cn93;

	oct->hw_ops.enable_interrupts = octep_vf_enable_interrupts_cn93;
	oct->hw_ops.disable_interrupts = octep_vf_disable_interrupts_cn93;

	oct->hw_ops.update_iq_read_idx = octep_vf_update_iq_read_index_cn93;

	oct->hw_ops.enable_iq = octep_vf_enable_iq_cn93;
	oct->hw_ops.enable_oq = octep_vf_enable_oq_cn93;
	oct->hw_ops.enable_io_queues = octep_vf_enable_io_queues_cn93;

	oct->hw_ops.disable_iq = octep_vf_disable_iq_cn93;
	oct->hw_ops.disable_oq = octep_vf_disable_oq_cn93;
	oct->hw_ops.disable_io_queues = octep_vf_disable_io_queues_cn93;
	oct->hw_ops.reset_io_queues = octep_vf_reset_io_queues_cn93;

	oct->hw_ops.dump_registers = octep_vf_dump_registers_cn93;
	octep_vf_init_config_cn93_vf(oct);
}