common/cnxk: fix shift offset for TL3 length disable

[dpdk.git] / drivers / common / cnxk / roc_sso.c

/* SPDX-License-Identifier: BSD-3-Clause
 * Copyright(C) 2021 Marvell.
 */

#include "roc_api.h"
#include "roc_priv.h"

#define SSO_XAQ_CACHE_CNT (0x7)

/* Private functions. */
int
sso_lf_alloc(struct dev *dev, enum sso_lf_type lf_type, uint16_t nb_lf,
             void **rsp)
{
        int rc = -ENOSPC;

        switch (lf_type) {
        case SSO_LF_TYPE_HWS: {
                struct ssow_lf_alloc_req *req;

                req = mbox_alloc_msg_ssow_lf_alloc(dev->mbox);
                if (req == NULL)
                        return rc;
                req->hws = nb_lf;
        } break;
        case SSO_LF_TYPE_HWGRP: {
                struct sso_lf_alloc_req *req;

                req = mbox_alloc_msg_sso_lf_alloc(dev->mbox);
                if (req == NULL)
                        return rc;
                req->hwgrps = nb_lf;
        } break;
        default:
                break;
        }

        rc = mbox_process_msg(dev->mbox, rsp);
        if (rc < 0)
                return rc;

        return 0;
}

int
sso_lf_free(struct dev *dev, enum sso_lf_type lf_type, uint16_t nb_lf)
{
        int rc = -ENOSPC;

        switch (lf_type) {
        case SSO_LF_TYPE_HWS: {
                struct ssow_lf_free_req *req;

                req = mbox_alloc_msg_ssow_lf_free(dev->mbox);
                if (req == NULL)
                        return rc;
                req->hws = nb_lf;
        } break;
        case SSO_LF_TYPE_HWGRP: {
                struct sso_lf_free_req *req;

                req = mbox_alloc_msg_sso_lf_free(dev->mbox);
                if (req == NULL)
                        return rc;
                req->hwgrps = nb_lf;
        } break;
        default:
                break;
        }

        rc = mbox_process(dev->mbox);
        if (rc < 0)
                return rc;

        return 0;
}

static int
sso_rsrc_attach(struct roc_sso *roc_sso, enum sso_lf_type lf_type,
                uint16_t nb_lf)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct rsrc_attach_req *req;
        int rc = -ENOSPC;

        req = mbox_alloc_msg_attach_resources(dev->mbox);
        if (req == NULL)
                return rc;
        switch (lf_type) {
        case SSO_LF_TYPE_HWS:
                req->ssow = nb_lf;
                break;
        case SSO_LF_TYPE_HWGRP:
                req->sso = nb_lf;
                break;
        default:
                return SSO_ERR_PARAM;
        }

        req->modify = true;
        if (mbox_process(dev->mbox) < 0)
                return -EIO;

        return 0;
}

static int
sso_rsrc_detach(struct roc_sso *roc_sso, enum sso_lf_type lf_type)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct rsrc_detach_req *req;
        int rc = -ENOSPC;

        req = mbox_alloc_msg_detach_resources(dev->mbox);
        if (req == NULL)
                return rc;
        switch (lf_type) {
        case SSO_LF_TYPE_HWS:
                req->ssow = true;
                break;
        case SSO_LF_TYPE_HWGRP:
                req->sso = true;
                break;
        default:
                return SSO_ERR_PARAM;
        }

        req->partial = true;
        if (mbox_process(dev->mbox) < 0)
                return -EIO;

        return 0;
}

static int
sso_rsrc_get(struct roc_sso *roc_sso)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct free_rsrcs_rsp *rsrc_cnt;
        int rc;

        mbox_alloc_msg_free_rsrc_cnt(dev->mbox);
        rc = mbox_process_msg(dev->mbox, (void **)&rsrc_cnt);
        if (rc < 0) {
                plt_err("Failed to get free resource count\n");
                return rc;
        }

        roc_sso->max_hwgrp = rsrc_cnt->sso;
        roc_sso->max_hws = rsrc_cnt->ssow;

        return 0;
}

void
sso_hws_link_modify(uint8_t hws, uintptr_t base, struct plt_bitmap *bmp,
                    uint16_t hwgrp[], uint16_t n, uint16_t enable)
{
        uint64_t reg;
        int i, j, k;

        i = 0;
        while (n) {
                uint64_t mask[4] = {
                        0x8000,
                        0x8000,
                        0x8000,
                        0x8000,
                };

                k = n % 4;
                k = k ? k : 4;
                for (j = 0; j < k; j++) {
                        mask[j] = hwgrp[i + j] | enable << 14;
                        if (bmp) {
                                enable ? plt_bitmap_set(bmp, hwgrp[i + j]) :
                                         plt_bitmap_clear(bmp, hwgrp[i + j]);
                        }
                        plt_sso_dbg("HWS %d Linked to HWGRP %d", hws,
                                    hwgrp[i + j]);
                }

                n -= j;
                i += j;
                reg = mask[0] | mask[1] << 16 | mask[2] << 32 | mask[3] << 48;
                plt_write64(reg, base + SSOW_LF_GWS_GRPMSK_CHG);
        }
}

static int
sso_msix_fill(struct roc_sso *roc_sso, uint16_t nb_hws, uint16_t nb_hwgrp)
{
        struct sso *sso = roc_sso_to_sso_priv(roc_sso);
        struct msix_offset_rsp *rsp;
        struct dev *dev = &sso->dev;
        int i, rc;

        mbox_alloc_msg_msix_offset(dev->mbox);
        rc = mbox_process_msg(dev->mbox, (void **)&rsp);
        if (rc < 0)
                return rc;

        for (i = 0; i < nb_hws; i++)
                sso->hws_msix_offset[i] = rsp->ssow_msixoff[i];
        for (i = 0; i < nb_hwgrp; i++)
                sso->hwgrp_msix_offset[i] = rsp->sso_msixoff[i];

        return 0;
}

/* Public Functions. */
uintptr_t
roc_sso_hws_base_get(struct roc_sso *roc_sso, uint8_t hws)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;

        return dev->bar2 + (RVU_BLOCK_ADDR_SSOW << 20 | hws << 12);
}

uintptr_t
roc_sso_hwgrp_base_get(struct roc_sso *roc_sso, uint16_t hwgrp)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;

        return dev->bar2 + (RVU_BLOCK_ADDR_SSO << 20 | hwgrp << 12);
}

uint64_t
roc_sso_ns_to_gw(struct roc_sso *roc_sso, uint64_t ns)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        uint64_t current_us, current_ns, new_ns;
        uintptr_t base;

        base = dev->bar2 + (RVU_BLOCK_ADDR_SSOW << 20);
        current_us = plt_read64(base + SSOW_LF_GWS_NW_TIM);
        /* From HRM, table 14-19:
         * The SSOW_LF_GWS_NW_TIM[NW_TIM] period is specified in n-1 notation.
         */
        current_us += 1;

        /* From HRM, table 14-1:
         * SSOW_LF_GWS_NW_TIM[NW_TIM] specifies the minimum timeout. The SSO
         * hardware times out a GET_WORK request within 2 usec of the minimum
         * timeout specified by SSOW_LF_GWS_NW_TIM[NW_TIM].
         */
        current_us += 2;
        current_ns = current_us * 1E3;
        new_ns = (ns - PLT_MIN(ns, current_ns));
        new_ns = !new_ns ? 1 : new_ns;
        return (new_ns * plt_tsc_hz()) / 1E9;
}

int
roc_sso_hws_link(struct roc_sso *roc_sso, uint8_t hws, uint16_t hwgrp[],
                 uint16_t nb_hwgrp)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct sso *sso;
        uintptr_t base;

        sso = roc_sso_to_sso_priv(roc_sso);
        base = dev->bar2 + (RVU_BLOCK_ADDR_SSOW << 20 | hws << 12);
        sso_hws_link_modify(hws, base, sso->link_map[hws], hwgrp, nb_hwgrp, 1);

        return nb_hwgrp;
}

int
roc_sso_hws_unlink(struct roc_sso *roc_sso, uint8_t hws, uint16_t hwgrp[],
                   uint16_t nb_hwgrp)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct sso *sso;
        uintptr_t base;

        sso = roc_sso_to_sso_priv(roc_sso);
        base = dev->bar2 + (RVU_BLOCK_ADDR_SSOW << 20 | hws << 12);
        sso_hws_link_modify(hws, base, sso->link_map[hws], hwgrp, nb_hwgrp, 0);

        return nb_hwgrp;
}

int
roc_sso_hws_stats_get(struct roc_sso *roc_sso, uint8_t hws,
                      struct roc_sso_hws_stats *stats)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct sso_hws_stats *req_rsp;
        int rc;

        req_rsp = (struct sso_hws_stats *)mbox_alloc_msg_sso_hws_get_stats(
                dev->mbox);
        if (req_rsp == NULL) {
                rc = mbox_process(dev->mbox);
                if (rc < 0)
                        return rc;
                req_rsp = (struct sso_hws_stats *)
                        mbox_alloc_msg_sso_hws_get_stats(dev->mbox);
                if (req_rsp == NULL)
                        return -ENOSPC;
        }
        req_rsp->hws = hws;
        rc = mbox_process_msg(dev->mbox, (void **)&req_rsp);
        if (rc)
                return rc;

        stats->arbitration = req_rsp->arbitration;
        return 0;
}

int
roc_sso_hwgrp_stats_get(struct roc_sso *roc_sso, uint8_t hwgrp,
                        struct roc_sso_hwgrp_stats *stats)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct sso_grp_stats *req_rsp;
        int rc;

        req_rsp = (struct sso_grp_stats *)mbox_alloc_msg_sso_grp_get_stats(
                dev->mbox);
        if (req_rsp == NULL) {
                rc = mbox_process(dev->mbox);
                if (rc < 0)
                        return rc;
                req_rsp = (struct sso_grp_stats *)
                        mbox_alloc_msg_sso_grp_get_stats(dev->mbox);
                if (req_rsp == NULL)
                        return -ENOSPC;
        }
        req_rsp->grp = hwgrp;
        rc = mbox_process_msg(dev->mbox, (void **)&req_rsp);
        if (rc)
                return rc;

        stats->aw_status = req_rsp->aw_status;
        stats->dq_pc = req_rsp->dq_pc;
        stats->ds_pc = req_rsp->ds_pc;
        stats->ext_pc = req_rsp->ext_pc;
        stats->page_cnt = req_rsp->page_cnt;
        stats->ts_pc = req_rsp->ts_pc;
        stats->wa_pc = req_rsp->wa_pc;
        stats->ws_pc = req_rsp->ws_pc;
        return 0;
}

int
roc_sso_hwgrp_hws_link_status(struct roc_sso *roc_sso, uint8_t hws,
                              uint16_t hwgrp)
{
        struct sso *sso;

        sso = roc_sso_to_sso_priv(roc_sso);
        return plt_bitmap_get(sso->link_map[hws], hwgrp);
}

int
roc_sso_hwgrp_qos_config(struct roc_sso *roc_sso, struct roc_sso_hwgrp_qos *qos,
                         uint8_t nb_qos, uint32_t nb_xaq)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct sso_grp_qos_cfg *req;
        int i, rc;

        for (i = 0; i < nb_qos; i++) {
                uint8_t xaq_prcnt = qos[i].xaq_prcnt;
                uint8_t iaq_prcnt = qos[i].iaq_prcnt;
                uint8_t taq_prcnt = qos[i].taq_prcnt;

                req = mbox_alloc_msg_sso_grp_qos_config(dev->mbox);
                if (req == NULL) {
                        rc = mbox_process(dev->mbox);
                        if (rc < 0)
                                return rc;
                        req = mbox_alloc_msg_sso_grp_qos_config(dev->mbox);
                        if (req == NULL)
                                return -ENOSPC;
                }
                req->grp = qos[i].hwgrp;
                req->xaq_limit = (nb_xaq * (xaq_prcnt ? xaq_prcnt : 100)) / 100;
                req->taq_thr = (SSO_HWGRP_IAQ_MAX_THR_MASK *
                                (iaq_prcnt ? iaq_prcnt : 100)) /
                               100;
                req->iaq_thr = (SSO_HWGRP_TAQ_MAX_THR_MASK *
                                (taq_prcnt ? taq_prcnt : 100)) /
                               100;
        }

        return mbox_process(dev->mbox);
}

int
sso_hwgrp_init_xaq_aura(struct dev *dev, struct roc_sso_xaq_data *xaq,
                        uint32_t nb_xae, uint32_t xae_waes,
                        uint32_t xaq_buf_size, uint16_t nb_hwgrp)
{
        struct npa_pool_s pool;
        struct npa_aura_s aura;
        plt_iova_t iova;
        uint32_t i;
        int rc;

        if (xaq->mem != NULL) {
                rc = sso_hwgrp_release_xaq(dev, nb_hwgrp);
                if (rc < 0) {
                        plt_err("Failed to release XAQ %d", rc);
                        return rc;
                }
                roc_npa_pool_destroy(xaq->aura_handle);
                plt_free(xaq->fc);
                plt_free(xaq->mem);
                memset(xaq, 0, sizeof(struct roc_sso_xaq_data));
        }

        xaq->fc = plt_zmalloc(ROC_ALIGN, ROC_ALIGN);
        if (xaq->fc == NULL) {
                plt_err("Failed to allocate XAQ FC");
                rc = -ENOMEM;
                goto fail;
        }

        xaq->nb_xae = nb_xae;

        /* Taken from HRM 14.3.3(4) */
        xaq->nb_xaq = (SSO_XAQ_CACHE_CNT * nb_hwgrp);
        xaq->nb_xaq += PLT_MAX(1 + ((xaq->nb_xae - 1) / xae_waes), xaq->nb_xaq);

        xaq->mem = plt_zmalloc(xaq_buf_size * xaq->nb_xaq, xaq_buf_size);
        if (xaq->mem == NULL) {
                plt_err("Failed to allocate XAQ mem");
                rc = -ENOMEM;
                goto free_fc;
        }

        memset(&pool, 0, sizeof(struct npa_pool_s));
        pool.nat_align = 1;

        memset(&aura, 0, sizeof(aura));
        aura.fc_ena = 1;
        aura.fc_addr = (uint64_t)xaq->fc;
        aura.fc_hyst_bits = 0; /* Store count on all updates */
        rc = roc_npa_pool_create(&xaq->aura_handle, xaq_buf_size, xaq->nb_xaq,
                                 &aura, &pool);
        if (rc) {
                plt_err("Failed to create XAQ pool");
                goto npa_fail;
        }

        iova = (uint64_t)xaq->mem;
        for (i = 0; i < xaq->nb_xaq; i++) {
                roc_npa_aura_op_free(xaq->aura_handle, 0, iova);
                iova += xaq_buf_size;
        }
        roc_npa_aura_op_range_set(xaq->aura_handle, (uint64_t)xaq->mem, iova);

        if (roc_npa_aura_op_available_wait(xaq->aura_handle, xaq->nb_xaq, 0) !=
            xaq->nb_xaq) {
                plt_err("Failed to free all pointers to the pool");
                rc = -ENOMEM;
                goto npa_fill_fail;
        }

        /* When SW does addwork (enqueue) check if there is space in XAQ by
         * comparing fc_addr above against the xaq_lmt calculated below.
         * There should be a minimum headroom of 7 XAQs per HWGRP for SSO
         * to request XAQ to cache them even before enqueue is called.
         */
        xaq->xaq_lmt = xaq->nb_xaq - (nb_hwgrp * SSO_XAQ_CACHE_CNT);

        return 0;
npa_fill_fail:
        roc_npa_pool_destroy(xaq->aura_handle);
npa_fail:
        plt_free(xaq->mem);
free_fc:
        plt_free(xaq->fc);
fail:
        memset(xaq, 0, sizeof(struct roc_sso_xaq_data));
        return rc;
}

int
roc_sso_hwgrp_init_xaq_aura(struct roc_sso *roc_sso, uint32_t nb_xae)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;

        return sso_hwgrp_init_xaq_aura(dev, &roc_sso->xaq, nb_xae,
                                       roc_sso->xae_waes, roc_sso->xaq_buf_size,
                                       roc_sso->nb_hwgrp);
}

int
sso_hwgrp_free_xaq_aura(struct dev *dev, struct roc_sso_xaq_data *xaq,
                        uint16_t nb_hwgrp)
{
        int rc;

        if (xaq->mem != NULL) {
                if (nb_hwgrp) {
                        rc = sso_hwgrp_release_xaq(dev, nb_hwgrp);
                        if (rc < 0) {
                                plt_err("Failed to release XAQ %d", rc);
                                return rc;
                        }
                }
                roc_npa_pool_destroy(xaq->aura_handle);
                plt_free(xaq->fc);
                plt_free(xaq->mem);
        }
        memset(xaq, 0, sizeof(struct roc_sso_xaq_data));

        return 0;
}

int
roc_sso_hwgrp_free_xaq_aura(struct roc_sso *roc_sso, uint16_t nb_hwgrp)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;

        return sso_hwgrp_free_xaq_aura(dev, &roc_sso->xaq, nb_hwgrp);
}

int
sso_hwgrp_alloc_xaq(struct dev *dev, uint32_t npa_aura_id, uint16_t hwgrps)
{
        struct sso_hw_setconfig *req;
        int rc = -ENOSPC;

        req = mbox_alloc_msg_sso_hw_setconfig(dev->mbox);
        if (req == NULL)
                return rc;
        req->npa_pf_func = idev_npa_pffunc_get();
        req->npa_aura_id = npa_aura_id;
        req->hwgrps = hwgrps;

        return mbox_process(dev->mbox);
}

int
roc_sso_hwgrp_alloc_xaq(struct roc_sso *roc_sso, uint32_t npa_aura_id,
                        uint16_t hwgrps)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;

        return sso_hwgrp_alloc_xaq(dev, npa_aura_id, hwgrps);
}

int
sso_hwgrp_release_xaq(struct dev *dev, uint16_t hwgrps)
{
        struct sso_hw_xaq_release *req;

        req = mbox_alloc_msg_sso_hw_release_xaq_aura(dev->mbox);
        if (req == NULL)
                return -EINVAL;
        req->hwgrps = hwgrps;

        return mbox_process(dev->mbox);
}

int
roc_sso_hwgrp_release_xaq(struct roc_sso *roc_sso, uint16_t hwgrps)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;

        return sso_hwgrp_release_xaq(dev, hwgrps);
}

int
roc_sso_hwgrp_set_priority(struct roc_sso *roc_sso, uint16_t hwgrp,
                           uint8_t weight, uint8_t affinity, uint8_t priority)
{
        struct dev *dev = &roc_sso_to_sso_priv(roc_sso)->dev;
        struct sso_grp_priority *req;
        int rc = -ENOSPC;

        req = mbox_alloc_msg_sso_grp_set_priority(dev->mbox);
        if (req == NULL)
                return rc;
        req->grp = hwgrp;
        req->weight = weight;
        req->affinity = affinity;
        req->priority = priority;

        rc = mbox_process(dev->mbox);
        if (rc < 0)
                return rc;
        plt_sso_dbg("HWGRP %d weight %d affinity %d priority %d", hwgrp, weight,
                    affinity, priority);

        return 0;
}

int
roc_sso_rsrc_init(struct roc_sso *roc_sso, uint8_t nb_hws, uint16_t nb_hwgrp)
{
        struct sso *sso = roc_sso_to_sso_priv(roc_sso);
        struct sso_lf_alloc_rsp *rsp_hwgrp;
        int rc;

        if (roc_sso->max_hwgrp < nb_hwgrp)
                return -ENOENT;
        if (roc_sso->max_hws < nb_hws)
                return -ENOENT;

        rc = sso_rsrc_attach(roc_sso, SSO_LF_TYPE_HWS, nb_hws);
        if (rc < 0) {
                plt_err("Unable to attach SSO HWS LFs");
                return rc;
        }

        rc = sso_rsrc_attach(roc_sso, SSO_LF_TYPE_HWGRP, nb_hwgrp);
        if (rc < 0) {
                plt_err("Unable to attach SSO HWGRP LFs");
                goto hwgrp_atch_fail;
        }

        rc = sso_lf_alloc(&sso->dev, SSO_LF_TYPE_HWS, nb_hws, NULL);
        if (rc < 0) {
                plt_err("Unable to alloc SSO HWS LFs");
                goto hws_alloc_fail;
        }

        rc = sso_lf_alloc(&sso->dev, SSO_LF_TYPE_HWGRP, nb_hwgrp,
                          (void **)&rsp_hwgrp);
        if (rc < 0) {
                plt_err("Unable to alloc SSO HWGRP Lfs");
                goto hwgrp_alloc_fail;
        }

        roc_sso->xaq_buf_size = rsp_hwgrp->xaq_buf_size;
        roc_sso->xae_waes = rsp_hwgrp->xaq_wq_entries;
        roc_sso->iue = rsp_hwgrp->in_unit_entries;

        rc = sso_msix_fill(roc_sso, nb_hws, nb_hwgrp);
        if (rc < 0) {
                plt_err("Unable to get MSIX offsets for SSO LFs");
                goto sso_msix_fail;
        }

        rc = sso_register_irqs_priv(roc_sso, sso->pci_dev->intr_handle, nb_hws,
                                    nb_hwgrp);
        if (rc < 0) {
                plt_err("Failed to register SSO LF IRQs");
                goto sso_msix_fail;
        }

        roc_sso->nb_hwgrp = nb_hwgrp;
        roc_sso->nb_hws = nb_hws;

        return 0;
sso_msix_fail:
        sso_lf_free(&sso->dev, SSO_LF_TYPE_HWGRP, nb_hwgrp);
hwgrp_alloc_fail:
        sso_lf_free(&sso->dev, SSO_LF_TYPE_HWS, nb_hws);
hws_alloc_fail:
        sso_rsrc_detach(roc_sso, SSO_LF_TYPE_HWGRP);
hwgrp_atch_fail:
        sso_rsrc_detach(roc_sso, SSO_LF_TYPE_HWS);
        return rc;
}

void
roc_sso_rsrc_fini(struct roc_sso *roc_sso)
{
        struct sso *sso = roc_sso_to_sso_priv(roc_sso);

        if (!roc_sso->nb_hws && !roc_sso->nb_hwgrp)
                return;

        sso_unregister_irqs_priv(roc_sso, sso->pci_dev->intr_handle,
                                 roc_sso->nb_hws, roc_sso->nb_hwgrp);
        sso_lf_free(&sso->dev, SSO_LF_TYPE_HWS, roc_sso->nb_hws);
        sso_lf_free(&sso->dev, SSO_LF_TYPE_HWGRP, roc_sso->nb_hwgrp);

        sso_rsrc_detach(roc_sso, SSO_LF_TYPE_HWS);
        sso_rsrc_detach(roc_sso, SSO_LF_TYPE_HWGRP);

        roc_sso->nb_hwgrp = 0;
        roc_sso->nb_hws = 0;
}

int
roc_sso_dev_init(struct roc_sso *roc_sso)
{
        struct plt_pci_device *pci_dev;
        uint32_t link_map_sz;
        struct sso *sso;
        void *link_mem;
        int i, rc;

        if (roc_sso == NULL || roc_sso->pci_dev == NULL)
                return SSO_ERR_PARAM;

        PLT_STATIC_ASSERT(sizeof(struct sso) <= ROC_SSO_MEM_SZ);
        sso = roc_sso_to_sso_priv(roc_sso);
        memset(sso, 0, sizeof(*sso));
        pci_dev = roc_sso->pci_dev;

        rc = dev_init(&sso->dev, pci_dev);
        if (rc < 0) {
                plt_err("Failed to init roc device");
                goto fail;
        }

        rc = sso_rsrc_get(roc_sso);
        if (rc < 0) {
                plt_err("Failed to get SSO resources");
                goto rsrc_fail;
        }
        rc = -ENOMEM;

        sso->link_map =
                plt_zmalloc(sizeof(struct plt_bitmap *) * roc_sso->max_hws, 0);
        if (sso->link_map == NULL) {
                plt_err("Failed to allocate memory for link_map array");
                goto rsrc_fail;
        }

        link_map_sz = plt_bitmap_get_memory_footprint(roc_sso->max_hwgrp);
        sso->link_map_mem = plt_zmalloc(link_map_sz * roc_sso->max_hws, 0);
        if (sso->link_map_mem == NULL) {
                plt_err("Failed to get link_map memory");
                goto rsrc_fail;
        }

        link_mem = sso->link_map_mem;
        for (i = 0; i < roc_sso->max_hws; i++) {
                sso->link_map[i] = plt_bitmap_init(roc_sso->max_hwgrp, link_mem,
                                                   link_map_sz);
                if (sso->link_map[i] == NULL) {
                        plt_err("Failed to allocate link map");
                        goto link_mem_free;
                }
                link_mem = PLT_PTR_ADD(link_mem, link_map_sz);
        }
        idev_sso_pffunc_set(sso->dev.pf_func);
        idev_sso_set(roc_sso);
        sso->pci_dev = pci_dev;
        sso->dev.drv_inited = true;
        roc_sso->lmt_base = sso->dev.lmt_base;

        return 0;
link_mem_free:
        plt_free(sso->link_map_mem);
rsrc_fail:
        rc |= dev_fini(&sso->dev, pci_dev);
fail:
        return rc;
}

int
roc_sso_dev_fini(struct roc_sso *roc_sso)
{
        struct sso *sso;

        sso = roc_sso_to_sso_priv(roc_sso);
        sso->dev.drv_inited = false;

        return dev_fini(&sso->dev, sso->pci_dev);
}