WLAN Development Example

/* Set parameters in the wlan_platform.hcs file based on hardware attributes. The following is an example of the WLAN platform configuration. */
hisi :& deviceList {
    device0 :: deviceInst {
        deviceInstId = 0;
        powers {
            power0 {
                powerSeqDelay = 0;  /* Power supply sequencing delay */
                powerType = 1;      /* Power supply type. Value 0 indicates that the power supply is always on, and value 1 indicates power supply through general-purpose input/output (GPIO). */
                gpioId = 1;         /* GPIO pin ID */
                activeLevel=1;      /* Active level. Value 0 indicates a low level, and value 1 indicates a high level. */
            }
            power1 {
                powerSeqDelay = 0;  /* Power supply sequencing delay */
                powerType = 0;      /* Power supply type. Value 0 indicates that the power supply is always on, and value 1 indicates power supply through GPIO. */
            }
        }
        reset {
            resetType = 0;         /* Reset type. Value 0 indicates that reset is not supported, and value 1 indicates reset through GPIO. */
            gpioId = 2;            /* GPIO pin ID */
            activeLevel=1;         /* Active level. Value 0 indicates a low level, and value 1 indicates a high level. */
            resetHoldTime = 30;    /* Hold time (ms) for a reset */
        }
        bootUpTimeout = 30;  /* Boot timeout duration (ms) */
        bus {
            busType = 0;     /* Bus type. Value 0 indicates secure digital input/output (SDIO). */
            busId = 2;      /* Bus ID */
            funcNum = [1];   /* SDIO function number */
            timeout = 1000;  /* Timeout duration for data read/write */
            blockSize = 512; /* Size of the data block to read or write */
        }
    }
}
/* Add configuration file wlan_chip_<Chip name>.hcs (for example, wlan_chip_hi3881.hcs) for each chip and set parameters. The following takes the Hi3881 chip as an example. */
root {
    wlan_config {
        hi3881 :& chipList {
            chipHi3881 :: chipInst {
                match_attr = "hdf_wlan_chips_hi3881"; /* Match attribute */
                chipName = "hi3881";                   /* WLAN chip name */
                sdio {
                    vendorId = 0x0296;    /* Vendor ID */
                    deviceId = [0x5347];  /* Device ID */
                }
            }
        }
    }
}

/* WLAN module initialization and mount process */
#include "hdf_device_desc.h"
#include "hdf_wifi_product.h"
#include "hdf_log.h"
#include "osal_mem.h"
#include "hdf_wlan_chipdriver_manager.h"
#include "securec.h"
#include "wifi_module.h"
#include "hi_wifi_api.h"
#include "hi_types_base.h"

#define HDF_LOG_TAG Hi3881Driver

/* Functions for initializing and deinitializing the WLAN chip */
int32_t InitHi3881Chip(struct HdfWlanDevice *device);
int32_t DeinitHi3881Chip(struct HdfWlanDevice *device);
/* Functions for initializing and deinitializing the WLAN chip driver */
int32_t Hi3881Deinit(struct HdfChipDriver* chipDriver, struct NetDevice *netDevice);
int32_t Hi3881Init(struct HdfChipDriver* chipDriver, struct NetDevice *netDevice);

/* Initialize mac80211 and mount functions of the chip. */
hi_void HiMac80211Init(struct HdfChipDriver *chipDriver);

static const char* const HI3881_DRIVER_NAME = "hisi";

/* Mount the WLAN chip driver and the functions of mac80211 and the chip. */
static struct HdfChipDriver *BuildHi3881Driver(struct HdfWlanDevice *device, uint8_t ifIndex)
{
    struct HdfChipDriver *specificDriver = NULL;
    if (device == NULL) {
        HDF_LOGE("%s fail : channel is NULL", __func__);
        return NULL;
    }
    (void)device;
    (void)ifIndex;
    specificDriver = (struct HdfChipDriver *)OsalMemCalloc(sizeof(struct HdfChipDriver));
    if (specificDriver == NULL) {
        HDF_LOGE("%s fail: OsalMemCalloc fail!", __func__);
        return NULL;
    }
    if (memset_s(specificDriver, sizeof(struct HdfChipDriver), 0, sizeof(struct HdfChipDriver)) != EOK) {
        HDF_LOGE("%s fail: memset_s fail!", __func__);
        OsalMemFree(specificDriver);
        return NULL;
    }

    if (strcpy_s(specificDriver->name, MAX_WIFI_COMPONENT_NAME_LEN, HI3881_DRIVER_NAME) != EOK) {
        HDF_LOGE("%s fail : strcpy_s fail", __func__);
        OsalMemFree(specificDriver);
        return NULL;
    }
    specificDriver->init = Hi3881Init;
    specificDriver->deinit = Hi3881Deinit;

    HiMac80211Init(specificDriver);

    return specificDriver;
}

/* Release the WLAN chip driver. */
static void ReleaseHi3881Driver(struct HdfChipDriver *chipDriver)
{
    if (chipDriver == NULL) {
        return;
    }
    if (strcmp(chipDriver->name, HI3881_DRIVER_NAME) != 0) {
        HDF_LOGE("%s:Not my driver!", __func__);
        return;
    }
    OsalMemFree(chipDriver);
}

static uint8_t GetHi3881GetMaxIFCount(struct HdfChipDriverFactory *factory) {
    (void)factory;
    return 1;
}

/* Register functions related to the WLAN chip. */
static int32_t HDFWlanRegHisiDriverFactory(void)
{
    static struct HdfChipDriverFactory tmpFactory = { 0 };
    struct HdfChipDriverManager *driverMgr = NULL;
    driverMgr = HdfWlanGetChipDriverMgr();
    if (driverMgr == NULL && driverMgr->RegChipDriver != NULL) {
        HDF_LOGE("%s fail: driverMgr is NULL!", __func__);
        return HDF_FAILURE;
    }
    tmpFactory.driverName = HI3881_DRIVER_NAME;
    tmpFactory.GetMaxIFCount = GetHi3881GetMaxIFCount;
    tmpFactory.InitChip = InitHi3881Chip;
    tmpFactory.DeinitChip = DeinitHi3881Chip;
    tmpFactory.Build = BuildHi3881Driver;
    tmpFactory.Release = ReleaseHi3881Driver;
    tmpFactory.ReleaseFactory = NULL;
    if (driverMgr->RegChipDriver(&tmpFactory) != HDF_SUCCESS) {
        HDF_LOGE("%s fail: driverMgr is NULL!", __func__);
        return HDF_FAILURE;
    }

    return HDF_SUCCESS;
}

static int32_t HdfWlanHisiChipDriverInit(struct HdfDeviceObject *device)
{
    (void)device;
    return HDFWlanRegHisiDriverFactory();
}

struct HdfDriverEntry g_hdfHisiChipEntry = {
    .moduleVersion = 1,
    .Init = HdfWlanHisiChipDriverInit,
    .moduleName = "HDF_WLAN_CHIPS"
};

HDF_INIT(g_hdfHisiChipEntry);

#include "hdf_wifi_product.h"
#include "hi_wifi_api.h"
#if (_PRE_OS_VERSION_LINUX == _PRE_OS_VERSION)
#include "oal_thread.h"
#include "osal_time.h"
#endif
#include "wifi_mac80211_ops.h"
#include "wal_cfg80211.h"
#include "net_adpater.h"
#include "hdf_wlan_utils.h"

#define HDF_LOG_TAG Hi3881Driver

/* Initialize the WLAN chip. */
int32_t InitHi3881Chip(struct HdfWlanDevice *device)
{
    uint8_t maxPortCount = 1;
    int32_t ret = HI_SUCCESS;
    uint8_t maxRetryCount = 2;
    if (device == NULL) {
        HDF_LOGE("%s:NULL ptr!", __func__);
        return HI_FAIL;
    }

    do {
        if (ret != HI_SUCCESS) {
            if (device->reset != NULL && device->reset->Reset != NULL) {
                device->reset->Reset(device->reset);
            }
            HDF_LOGE("%s:Retry init hi3881!last ret=%d", __func__, ret);
        }
        ret = hi_wifi_init(maxPortCount);
    } while (ret != 0 && --maxRetryCount > 0);

    if (ret != 0) {
        HDF_LOGE("%s:Init hi3881 driver failed!", __func__);
        return ret;
    }
    return HI_SUCCESS;
}

/* Deinitialize the WLAN chip. */
int32_t DeinitHi3881Chip(struct HdfWlanDevice *device)
{
    (void)device;
    int32_t ret = hi_wifi_deinit();
    if (ret != 0) {
        HDF_LOGE("%s:Deinit failed!ret=%d", __func__, ret);
    }
    return ret;
}

/* Initialize the WLAN chip driver. */
int32_t Hi3881Init(struct HdfChipDriver *chipDriver, struct NetDevice *netDevice)
{
    HDF_LOGI("%s: start...", __func__);
    hi_u16 mode = wal_get_vap_mode();
    int32_t ret;
    nl80211_iftype_uint8 type;
    (void)chipDriver;

    if (mode >= WAL_WIFI_MODE_BUTT) {
        oam_error_log1(0, 0, "wal_init_drv_netdev:: invalid mode[%d]", mode);
        return HI_FAIL;
    }

    if (mode == WAL_WIFI_MODE_STA) {
        type = NL80211_IFTYPE_STATION;
    } else if (mode == WAL_WIFI_MODE_AP) {
        type = NL80211_IFTYPE_AP;
    } else {
        oam_error_log1(0, 0, "wal_init_drv_netdev:: invalid mode[%d]", mode);
        return HI_FAIL;
    }

    ret = wal_init_drv_wlan_netdev(type, WAL_PHY_MODE_11N, netDevice);
    if (ret != HI_SUCCESS) {
        oam_error_log2(0, OAM_SF_ANY, "wal_init_drv_netdev %s failed.l_return:%d\n", netDevice->name, ret);
    }
    return ret;
}

/* Deinitialize the WLAN chip driver. */
int32_t Hi3881Deinit(struct HdfChipDriver *chipDriver, struct NetDevice *netDevice)
{
    (void)chipDriver;
    int32_t ret = wal_deinit_drv_wlan_netdev(netDevice);
    if (ret != HDF_SUCCESS) {
        return ret;
    }
    return ReleasePlatformNetDevice(netDevice);
}

hi_s32 wal_init_drv_wlan_netdev(nl80211_iftype_uint8 type, wal_phy_mode mode, hi_char* ifname, hi_u32* len)
{
    oal_net_device_stru *netdev          = HI_NULL;

    ......
    /* Initialize the network device and obtain the initialized instance. */
    netdev = NetDeviceInit(ifname, *len, LITE_OS);
    oal_wireless_dev *wdev = (oal_wireless_dev *)oal_mem_alloc(OAL_MEM_POOL_ID_LOCAL, sizeof(oal_wireless_dev));
    ret = wal_init_netif(type, netdev, wdev);

    ......

    return HI_SUCCESS;
}
/* Mount some function pointers of {@link NetDeviceInterFace}. */
oal_net_device_ops_stru g_wal_net_dev_ops =
{
    .getStats          = wal_netdev_get_stats,
    .open               = wal_netdev_open,
    .stop               = wal_netdev_stop,
    .xmit         = hmac_bridge_vap_xmit,
    .ioctl           = wal_net_device_ioctl,
    .changeMtu         = oal_net_device_change_mtu,
    .init              = oal_net_device_init,
    .deInit            = oal_net_free_netdev,
#if (defined(_PRE_WLAN_FEATURE_FLOWCTL) || defined(_PRE_WLAN_FEATURE_OFFLOAD_FLOWCTL))
    .selectQueue       = wal_netdev_select_queue,
#endif
    .setMacAddr    = wal_netdev_set_mac_addr,
#if (_PRE_OS_VERSION_LITEOS == _PRE_OS_VERSION)
    .netifNotify       = HI_NULL,
#endif
    .specialEtherTypeProcess = SpecialEtherTypeProcess,
};

hi_s32 wal_init_netif(nl80211_iftype_uint8 type, oal_net_device_stru *netdev, const oal_wireless_dev *wdev)
{
    /* Add the network device to a protocol stack. */
    hi_u32 ret = NetDeviceAdd(netdev, (Protocol80211IfType)type);

    ......

    return HI_SUCCESS;
}

/* Mount some function pointers of mac80211. */

/* MAC-layer APIs for basic capabilities that need to be implemented by the driver */
static struct HdfMac80211BaseOps g_baseOps = {
    .SetMode = WalSetMode,
    .AddKey = WalAddKey,
    .DelKey = WalDelKey,
    .SetDefaultKey = WalSetDefaultKey,
    .GetDeviceMacAddr = WalGetDeviceMacAddr,
    .SetMacAddr = WalSetMacAddr,
    .SetTxPower = WalSetTxPower,
    .GetValidFreqsWithBand = WalGetValidFreqsWithBand,
    .GetHwCapability = WalGetHwCapability
};

/* MAC-layer APIs for station capabilities that need to be implemented by the driver */
static struct HdfMac80211STAOps g_staOps = {
    .Connect = WalConnect,
    .Disconnect = WalDisconnect,
    .StartScan = WalStartScan,
    .AbortScan = WalAbortScan,
    .SetScanningMacAddress = WalSetScanningMacAddress,
};

/* MAC-layer APIs for AP capabilities that need to be implemented by the driver */
static struct HdfMac80211APOps g_apOps = {
    .ConfigAp = WalConfigAp,
    .StartAp = WalStartAp,
    .StopAp = WalStopAp,
    .ConfigBeacon = WalChangeBeacon,
    .DelStation = WalDelStation,
    .SetCountryCode = WalSetCountryCode,
    .GetAssociatedStasCount = WalGetAssociatedStasCount,
    .GetAssociatedStasInfo = WalGetAssociatedStasInfo
};

/* Initialize mac80211 and mount functions of the chip. */
hi_void HiMac80211Init(struct HdfChipDriver *chipDriver)
{
    if (chipDriver == NULL) {
        oam_error_log(0, OAM_SF_ANY, "%s:input is NULL!", __func__);
        return;
    }
    chipDriver->ops = &g_baseOps;
    chipDriver->staOps = &g_staOps;
    chipDriver->apOps = &g_apOps;
}