kunlun/plc/halmac/hw2/misc/mac_hw_misc.c

/****************************************************************************

Copyright(c) 2019 by Aerospace C.Power (Chongqing) Microelectronics. ALL RIGHTS RESERVED.

This Information is proprietary to Aerospace C.Power (Chongqing) Microelectronics and MAY NOT
be copied by any method or incorporated into another program without
the express written consent of Aerospace C.Power. This Information or any portion
thereof remains the property of Aerospace C.Power. The Information contained herein
is believed to be accurate and Aerospace C.Power assumes no responsibility or
liability for its use in any way and conveys no license or title under
any patent or copyright and makes no representation or warranty that this
Information is free from patent or copyright infringement.

****************************************************************************/

/* os shim includes */
#include "os_types.h"

/* mac module internal includes */
#include "mac_vdev.h"
#include "mac_pdev.h"
#include "hw_reg_api.h"
#include "mac_sys_reg.h"
#include "mac_cmn_hw.h"
#include "mac_tmr_reg.h"

/* public api includes */
#include "plc_fr.h"
#include "plc_protocol.h"
#include "iot_io.h"

#if HW_PLATFORM == HW_PLATFORM_SIMU

#include "simulator_txrx.h"

void mac_config_nid(mac_vdev_t *vdev, uint32_t nid)
{
    simulator_config_nid(&g_mac_pdev[vdev->ref_pdev_id]->simu,
        vdev->vdev_id, nid);
}

uint32_t mac_get_hw_nid()
{
    return 0;
}

void mac_config_role(mac_vdev_t *vdev, uint8_t role)
{
    (void)vdev;
    (void)role;
}

uint32_t mac_get_hw_role()
{
    /* need kl2 version */
    return 0;
}

void mac_config_tei(mac_vdev_t *vdev, uint16_t tei)
{
    simulator_config_tei(&g_mac_pdev[vdev->ref_pdev_id]->simu,
        vdev->vdev_id, (uint32_t)tei);
}

uint32_t mac_get_hw_tei()
{
    /* TODO: kl2 version */
    return 0;
}

/* mac ppm calibration */
uint32_t mac_ppm_cal_set(PHY_CAL_UNIT_ID cal_unit, \
    int16_t ppm_err, uint32_t rate_mode)
{
    (void)cal_unit;
    (void)ppm_err;
    (void)rate_mode;
    return 0;
}

void mac_dump_buf_from_cvg(void)
{
    return;
}

uint32_t mac_enable_hw_ntb_adjust(uint32_t enable)
{
    (void)enable;
    return 0;
}

void mac_ena_hw_ntb_wrap_fix(uint8_t enable)
{
    (void)enable;
}

void mac_hw_sync_ppm_clr(uint8_t pdev_id)
{
    (void)pdev_id;
    return;
}

#else /* HW_PLATFORM */

int32_t IRAM_ATTR mac_config_ntb_delta_from_isr(uint8_t is_positive,
    uint32_t delta_ntb)
{
    int32_t ret = 0;
#if ENA_WAR_911
    /* war for hw bug, low bit overflow high bit not + 1 */
    uint32_t cur_ntb = mac_sched_get_ntb(NULL);
    if (is_positive) {
        /* positive */
        uint64_t temp_ntb = (uint64_t)cur_ntb + delta_ntb;
        if (iot_uint64_higher32(temp_ntb) >= 1) {
            uint32_t temp_delta = MAX_UINT32_NTB - cur_ntb;
            if (temp_delta > RESERVE_NTB) {
                uint32_t temp_delta_a = temp_delta - (RESERVE_NTB >> 1);
                ret = delta_ntb - temp_delta_a;
                delta_ntb = temp_delta_a;
                /* drop the other part of delta */
            } else {
                /* drop delta */
                ret = delta_ntb;
                delta_ntb = 0;
            }
        }
    } else {
        /* negative */
        if (cur_ntb < delta_ntb) {
            ret -= (delta_ntb - cur_ntb);
            delta_ntb = cur_ntb;
        }
    }
#endif

    uint32_t tmp;
    tmp = RGF_MAC_READ_REG(CFG_NTB_SYNC_1_ADDR);
    REG_FIELD_SET(CFG_NTB_DELTA_VAL, tmp, delta_ntb);
    RGF_MAC_WRITE_REG(CFG_NTB_SYNC_1_ADDR, tmp);

    tmp = RGF_MAC_READ_REG(CFG_NTB_SYNC_0_ADDR);
    REG_FIELD_SET(CFG_NTB_DELTA_VAL_SIGN, tmp, is_positive);
    REG_FIELD_SET(CFG_MODIFY_NTB_EN, tmp, 1);
    RGF_MAC_WRITE_REG(CFG_NTB_SYNC_0_ADDR, tmp);

    return ret;
}

/* mac_config_nid() - config network ID to HW
 * @vdev:   pointer to mac vdev
 * @nid:    the network ID to be set
 */
void mac_config_nid(mac_vdev_t *vdev, uint32_t nid)
{
    uint32_t value;
    (void)vdev;

    value = RGF_MAC_READ_REG(CFG_MYNID_ADDR);
    value &= ~CFG_MYNID_MASK;
    value |= (nid << CFG_MYNID_OFFSET) & CFG_MYNID_MASK;
    RGF_MAC_WRITE_REG(CFG_MYNID_ADDR, value);
}

uint32_t mac_get_hw_nid()
{
    return RGF_MAC_READ_REG(CFG_MYNID_ADDR) & CFG_MYNID_MASK;
}

void mac_config_role(mac_vdev_t *vdev, uint8_t role)
{
    uint32_t value;
    (void)vdev;

    value = RGF_MAC_READ_REG(CFG_MYSTAT_ADDR);
    if (role == PLC_DEV_ROLE_CCO) {
        value |= CFG_CCO_MODE_MASK;
    } else {
        value &= ~CFG_CCO_MODE_MASK;
    }
    RGF_MAC_WRITE_REG(CFG_MYSTAT_ADDR, value);
}

uint32_t mac_get_hw_role()
{
    return RGF_MAC_READ_REG(CFG_MYSTAT_ADDR) & CFG_CCO_MODE_MASK;
}


void mac_config_tei(mac_vdev_t *vdev, uint16_t tei)
{
    uint32_t value;
    (void)vdev;

    value = RGF_MAC_READ_REG(CFG_MYTEI_ADDR);
    value &= ~CFG_MYTEI_MASK;
    value |= (((uint32_t)tei) << CFG_MYTEI_OFFSET) & CFG_MYTEI_MASK;
    RGF_MAC_WRITE_REG(CFG_MYTEI_ADDR, value);
}

uint32_t mac_get_hw_tei()
{
    return RGF_MAC_READ_REG(CFG_MYTEI_ADDR) & CFG_MYTEI_MASK;
}

void mac_set_sg_sack_snr(uint32_t ena_sw_cfg, int8_t snr)
{
    uint32_t tmp;
    tmp = RGF_MAC_READ_REG(CFG_TX_CTRL1_ADDR);
    REG_FIELD_SET(CFG_SG_SNR_BY_SW, tmp, ena_sw_cfg);
    REG_FIELD_SET(CFG_SG_SNR, tmp, snr);
    RGF_MAC_WRITE_REG(CFG_TX_CTRL1_ADDR, tmp);
    return;
}

uint32_t mac_enable_hw_ntb_adjust(uint32_t enable)
{
    /* calibration calculate */
    uint32_t tmp = RGF_TMR_READ_REG(CFG_NTB_HW_ADJUST_ADDR);
    REG_FIELD_SET(CFG_NTB_ADJUST_USE_HW, tmp, !!enable);
    RGF_TMR_WRITE_REG(CFG_NTB_HW_ADJUST_ADDR,tmp);
    return 0;
}

uint32_t mac_get_hw_ntb_adjust_sts()
{
    uint32_t tmp = RGF_TMR_READ_REG(CFG_NTB_HW_ADJUST_ADDR);
    return !!REG_FIELD_GET(CFG_NTB_ADJUST_USE_HW, tmp);
}

void mac_ena_hw_ntb_wrap_fix(uint8_t enable)
{
    /* kunlun2 not supported */
    (void)enable;
}

/* mac ppm calibration */
uint32_t mac_ppm_cal_set(PHY_CAL_UNIT_ID cal_unit,
    int16_t ppm_err, uint32_t rate_mode)
{
#if HW_PLATFORM >= HW_PLATFORM_FPGA
    uint32_t tmp = 0;
    int16_t ppm_cal = 0;
    uint32_t frac = 0;

    if (!mac_get_hw_ntb_adjust_sts()) {
        /* kl2 if not enable hw ntb adjust function,
           maybe not want use this function, so assert.
         */
        IOT_ASSERT(0);
    }

    /* calibration calculate */
    tmp = RGF_TMR_READ_REG(CFG_NTB_HW_ADJUST_ADDR);
    ppm_cal = REG_FIELD_GET(CFG_SW_PPM,tmp);

    /* precision */
    (void)rate_mode;
    /* KL2 sw ppm reg unit: 1/16 ppm */
    ppm_err = ppm_err >> 2;

    if (cal_unit != PHY_CAL_UNIT_1_1)
    {
        /* for roundup */
        uint32_t sign_num = cal_unit;
        while (sign_num) {
            tmp = 1 << (sign_num - 1);
            frac |= ppm_err & tmp;
            sign_num--;
        }
        if (!frac) {
            ppm_cal = ppm_cal + ppm_err / (1 << cal_unit);
        }
        else {
            if (ppm_err > 0) {
                ppm_cal = ppm_cal + ppm_err / (1 << cal_unit) + 1;
            }
            else {
                ppm_cal = ppm_cal + ppm_err / (1 << cal_unit) - 1;
            }
        }
    }
    else {
        /* set directly if no need approaching method */
        ppm_cal = ppm_err;
    }

    tmp = RGF_TMR_READ_REG(CFG_NTB_HW_ADJUST_ADDR);
    //REG_FIELD_SET(SW_RX_PPM, tmp, ~ppm_cal + 1);
    REG_FIELD_SET(CFG_SW_PPM, tmp, -ppm_cal);
    RGF_TMR_WRITE_REG(CFG_NTB_HW_ADJUST_ADDR,tmp);

    iot_printf("mac ppm_cal:%hd, ppm_err:%hd\r\n",ppm_cal,ppm_err);
#else
    (void)cal_unit;
    (void)ppm_err;
    (void)rate_mode;
#endif
    return 0;
}

void mac_dump_buf_from_cvg(void)
{
    return;
}

void IRAM_ATTR mac_hw_sync_ppm_clr(uint8_t pdev_id)
{
    (void)pdev_id;
    return;
}

#endif /* HW_PLATFORM */