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-rw-r--r--drivers/staging/otus/80211core/coid.c2695
1 files changed, 2695 insertions, 0 deletions
diff --git a/drivers/staging/otus/80211core/coid.c b/drivers/staging/otus/80211core/coid.c
new file mode 100644
index 000000000000..6007f3131f8f
--- /dev/null
+++ b/drivers/staging/otus/80211core/coid.c
@@ -0,0 +1,2695 @@
+/*
+ * Copyright (c) 2007-2008 Atheros Communications Inc.
+ *
+ * Permission to use, copy, modify, and/or distribute this software for any
+ * purpose with or without fee is hereby granted, provided that the above
+ * copyright notice and this permission notice appear in all copies.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
+ * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
+ * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
+ * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
+ * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
+ * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
+ * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
+ */
+/* */
+/* Module Name : iod.c */
+/* */
+/* Abstract */
+/* This module contains OID functions. */
+/* */
+/* NOTES */
+/* None */
+/* */
+/************************************************************************/
+#include "cprecomp.h"
+#include "../hal/hpreg.h"
+
+/************************************************************************/
+/* */
+/* FUNCTION DESCRIPTION zfiWlanQueryMacAddress */
+/* Query OWN MAC address. */
+/* */
+/* INPUTS */
+/* addr : for return MAC address */
+/* */
+/* OUTPUTS */
+/* None */
+/* */
+/* AUTHOR */
+/* Stephen Chen ZyDAS Technology Corporation 2005.10 */
+/* */
+/************************************************************************/
+void zfiWlanQueryMacAddress(zdev_t* dev, u8_t* addr)
+{
+ u16_t vapId = 0;
+ zmw_get_wlan_dev(dev);
+
+ vapId = zfwGetVapId(dev);
+
+ addr[0] = (u8_t)(wd->macAddr[0] & 0xff);
+ addr[1] = (u8_t)(wd->macAddr[0] >> 8);
+ addr[2] = (u8_t)(wd->macAddr[1] & 0xff);
+ addr[3] = (u8_t)(wd->macAddr[1] >> 8);
+ addr[4] = (u8_t)(wd->macAddr[2] & 0xff);
+ if (vapId == 0xffff)
+ addr[5] = (u8_t)(wd->macAddr[2] >> 8);
+ else
+ {
+#ifdef ZM_VAPMODE_MULTILE_SSID
+ addr[5] = (u8_t)(wd->macAddr[2] >> 8); // Multiple SSID
+#else
+ addr[5] = vapId + 1 + (u8_t)(wd->macAddr[2] >> 8); //VAP
+#endif
+ }
+
+ return;
+}
+
+void zfiWlanQueryBssList(zdev_t* dev, struct zsBssList* pBssList)
+{
+ struct zsBssInfo* pBssInfo;
+ struct zsBssInfo* pDstBssInfo;
+ u8_t i;
+ u8_t* pMemList;
+ u8_t* pMemInfo;
+
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ pMemList = (u8_t*) pBssList;
+ pMemInfo = pMemList + sizeof(struct zsBssList);
+ pBssList->head = (struct zsBssInfo*) pMemInfo;
+
+ zmw_enter_critical_section(dev);
+
+ pBssInfo = wd->sta.bssList.head;
+ pDstBssInfo = (struct zsBssInfo*) pMemInfo;
+ pBssList->bssCount = wd->sta.bssList.bssCount;
+
+ for( i=0; i<wd->sta.bssList.bssCount; i++ )
+ {
+ zfMemoryCopy((u8_t*)pDstBssInfo, (u8_t*)pBssInfo,
+ sizeof(struct zsBssInfo));
+
+ if ( pBssInfo->next != NULL )
+ {
+ pBssInfo = pBssInfo->next;
+ pDstBssInfo->next = pDstBssInfo + 1;
+ pDstBssInfo++;
+ }
+ else
+ {
+ zm_assert(i==(wd->sta.bssList.bssCount-1));
+ }
+ }
+
+ zmw_leave_critical_section(dev);
+
+ zfScanMgrScanAck(dev);
+}
+
+void zfiWlanQueryBssListV1(zdev_t* dev, struct zsBssListV1* bssListV1)
+{
+ struct zsBssInfo* pBssInfo;
+ //struct zsBssInfo* pDstBssInfo;
+ u8_t i, j, bdrop = 0, k = 0, Same_Count = 0;
+ u8_t bssid[6];
+ //u8_t* pMemList;
+ //u8_t* pMemInfo;
+ zmw_get_wlan_dev(dev);
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+
+ bssListV1->bssCount = wd->sta.bssList.bssCount;
+
+ pBssInfo = wd->sta.bssList.head;
+ ZM_MAC_WORD_TO_BYTE(wd->sta.bssid, bssid);
+
+ for( i=0; i<wd->sta.bssList.bssCount; i++ )
+ {
+ bdrop = 0;
+ if ( zfStaIsConnected(dev)
+ && (wd->wlanMode == ZM_MODE_INFRASTRUCTURE ) )
+ {
+ for (j = 0; j < 6; j++)
+ {
+ if ( pBssInfo->bssid[j] != bssid[j] )
+ {
+ break;
+ }
+ }
+
+ if ( (j == 6)
+ &&((pBssInfo->ssid[1] == wd->sta.ssidLen) || (pBssInfo->ssid[1] == 0) )&& (pBssInfo->frequency == wd->frequency) )
+ {
+ if(pBssInfo->ssid[1] == 0)
+ pBssInfo->ssid[1] = wd->sta.ssidLen;
+
+ if(Same_Count == 0)
+ {//First meet
+ Same_Count++;
+ }
+ else
+ {//same one
+ bdrop = 1;
+ bssListV1->bssCount--;
+ }
+
+ }
+ }
+
+ if (bdrop == 0)
+ {
+ zfMemoryCopy((u8_t*)(&bssListV1->bssInfo[k]), (u8_t*)pBssInfo,
+ sizeof(struct zsBssInfo));
+
+ if(Same_Count == 1)
+ {
+ zfMemoryCopy(&(bssListV1->bssInfo[k].ssid[2]), wd->sta.ssid, wd->sta.ssidLen);
+ Same_Count++;
+ }
+
+ k++;
+ }
+
+ if ( pBssInfo->next != NULL )
+ {
+ pBssInfo = pBssInfo->next;
+ }
+ else
+ {
+ zm_assert(i==(wd->sta.bssList.bssCount-1));
+ }
+ }
+
+ zmw_leave_critical_section(dev);
+
+ zfScanMgrScanAck(dev);
+}
+
+void zfiWlanQueryAdHocCreatedBssDesc(zdev_t* dev, struct zsBssInfo *pBssInfo)
+{
+ zmw_get_wlan_dev(dev);
+
+ zfMemoryCopy((u8_t *)pBssInfo, (u8_t *)&wd->sta.ibssBssDesc, sizeof(struct zsBssInfo));
+}
+
+u8_t zfiWlanQueryAdHocIsCreator(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->sta.ibssBssIsCreator;
+}
+
+u32_t zfiWlanQuerySupportMode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->supportMode;
+}
+
+u32_t zfiWlanQueryTransmitPower(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ u32_t ret = 0;
+
+ if (zfStaIsConnected(dev)) {
+ ret = wd->sta.connPowerInHalfDbm;
+ } else {
+ ret = zfHpGetTransmitPower(dev);
+ }
+
+ return ret;
+}
+
+/************************************************************************/
+/* */
+/* FUNCTION DESCRIPTION zfiWlanFlushBssList */
+/* Flush BSSID List. */
+/* */
+/* INPUTS */
+/* dev : device pointer */
+/* */
+/* OUTPUTS */
+/* none */
+/* */
+/* AUTHOR */
+/* Stephen Chen Atheros Communications, INC. 2006.12 */
+/* */
+/************************************************************************/
+void zfiWlanFlushBssList(zdev_t* dev)
+{
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ /* Call zfBssInfoRefresh() twice to remove all entry */
+ zfBssInfoRefresh(dev, 1);
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetWlanMode(zdev_t* dev, u8_t wlanMode)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->ws.wlanMode = wlanMode;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetAuthenticationMode(zdev_t* dev, u8_t authMode)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->ws.authMode = authMode;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetWepStatus(zdev_t* dev, u8_t wepStatus)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->ws.wepStatus = wepStatus;
+ zmw_leave_critical_section(dev);
+
+}
+
+void zfiWlanSetSSID(zdev_t* dev, u8_t* ssid, u8_t ssidLength)
+{
+ u16_t i;
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ if ( ssidLength <= 32 )
+ {
+ zmw_enter_critical_section(dev);
+
+ wd->ws.ssidLen = ssidLength;
+ zfMemoryCopy(wd->ws.ssid, ssid, ssidLength);
+
+ if ( ssidLength < 32 )
+ {
+ wd->ws.ssid[ssidLength] = 0;
+ }
+
+ wd->ws.probingSsidList[0].ssidLen = ssidLength;
+ zfMemoryCopy(wd->ws.probingSsidList[0].ssid, ssid, ssidLength);
+ for (i=1; i<ZM_MAX_PROBE_HIDDEN_SSID_SIZE; i++)
+ {
+ wd->ws.probingSsidList[i].ssidLen = 0;
+ }
+
+ zmw_leave_critical_section(dev);
+ }
+}
+
+void zfiWlanSetFragThreshold(zdev_t* dev, u16_t fragThreshold)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+
+ if (fragThreshold == 0)
+ { /* fragmentation is disabled */
+ wd->fragThreshold = 32767;
+ }
+ else if (fragThreshold < 256)
+ {
+ /* Minimum fragment threshold */
+ wd->fragThreshold = 256;
+ }
+ else if (fragThreshold > 2346)
+ {
+ wd->fragThreshold = 2346;
+ }
+ else
+ {
+ wd->fragThreshold = fragThreshold & 0xfffe;
+ }
+
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetRtsThreshold(zdev_t* dev, u16_t rtsThreshold)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->rtsThreshold = rtsThreshold;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetFrequency(zdev_t* dev, u32_t frequency, u8_t bImmediate)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ if ( bImmediate )
+ {
+ zmw_enter_critical_section(dev);
+ wd->frequency = (u16_t) (frequency/1000);
+ zmw_leave_critical_section(dev);
+ zfCoreSetFrequency(dev, wd->frequency);
+ }
+ else
+ {
+ zmw_enter_critical_section(dev);
+ if( frequency == 0 )
+ { // Auto select clean channel depend on wireless environment !
+ wd->ws.autoSetFrequency = 0;
+ }
+ wd->ws.frequency = (u16_t) (frequency/1000);
+ zmw_leave_critical_section(dev);
+ }
+}
+
+void zfiWlanSetBssid(zdev_t* dev, u8_t* bssid)
+{
+ u16_t i;
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ for (i=0; i<6; i++)
+ {
+ wd->ws.desiredBssid[i] = bssid[i];
+ }
+ wd->ws.bDesiredBssid = TRUE;
+ zmw_leave_critical_section(dev);
+
+}
+
+void zfiWlanSetBeaconInterval(zdev_t* dev,
+ u16_t beaconInterval,
+ u8_t bImmediate)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ if ( bImmediate )
+ {
+ zmw_enter_critical_section(dev);
+ wd->beaconInterval = beaconInterval;
+ zmw_leave_critical_section(dev);
+
+ /* update beacon interval here */
+ }
+ else
+ {
+ zmw_enter_critical_section(dev);
+ wd->ws.beaconInterval = beaconInterval;
+ zmw_leave_critical_section(dev);
+ }
+}
+
+
+void zfiWlanSetDtimCount(zdev_t* dev, u8_t dtim)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ if (dtim > 0)
+ {
+ wd->ws.dtim = dtim;
+ }
+ zmw_leave_critical_section(dev);
+}
+
+
+void zfiWlanSetAtimWindow(zdev_t* dev, u16_t atimWindow, u8_t bImmediate)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ if ( bImmediate )
+ {
+ zmw_enter_critical_section(dev);
+ wd->sta.atimWindow = atimWindow;
+ zmw_leave_critical_section(dev);
+
+ /* atim window here */
+ }
+ else
+ {
+ zmw_enter_critical_section(dev);
+ wd->ws.atimWindow = atimWindow;
+ zmw_leave_critical_section(dev);
+ }
+}
+
+
+void zfiWlanSetEncryMode(zdev_t* dev, u8_t encryMode)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ if (wd->wlanMode == ZM_MODE_AP)
+ {
+ /* Hostapd Issue */
+ if ((wd->ws.encryMode != ZM_AES) && (wd->ws.encryMode != ZM_TKIP))
+ wd->ws.encryMode = encryMode;
+ }
+ else
+ wd->ws.encryMode = encryMode;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetDefaultKeyId(zdev_t* dev, u8_t keyId)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.keyId = keyId;
+}
+
+u8_t zfiWlanQueryIsPKInstalled(zdev_t *dev, u8_t *staMacAddr)
+{
+ u8_t isInstalled = 0;
+
+#if 1
+//#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ u8_t res, peerIdx;
+
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ res = zfStaFindOppositeByMACAddr(dev, (u16_t *)staMacAddr, &peerIdx);
+ if( res == 0 )
+ {
+ isInstalled = wd->sta.oppositeInfo[peerIdx].pkInstalled;
+ }
+ zmw_leave_critical_section(dev);
+//#endif
+#endif
+
+ return isInstalled;
+}
+
+u8_t zfiWlanSetKey(zdev_t* dev, struct zsKeyInfo keyInfo)
+{
+ u16_t broadcast[3] = {0xffff, 0xffff, 0xffff};
+ u32_t* key;
+ u8_t encryMode = ZM_NO_WEP;
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ u8_t encryType = ZM_NO_WEP;
+#endif
+ u8_t micKey[16];
+ u16_t id = 0;
+ u8_t vapId, i, addr[6];
+ u8_t userIdx=0;
+
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ /* Determine opposite exist or not */
+ u8_t res, peerIdx;
+// u8_t userIdx=0;
+
+ zmw_get_wlan_dev(dev);
+
+ if ( wd->sta.ibssWpa2Psk == 1 )
+ {
+ zmw_enter_critical_section(dev);
+ res = zfStaFindOppositeByMACAddr(dev, (u16_t*)keyInfo.macAddr, &peerIdx);
+ if( res == 0 )
+ {
+ userIdx = peerIdx;
+ if ( wd->sta.oppositeInfo[userIdx].camIdx == 0xff )
+ wd->sta.oppositeInfo[userIdx].camIdx = userIdx;
+ }
+ zmw_leave_critical_section(dev);
+ }
+#else
+ zmw_get_wlan_dev(dev);
+#endif
+
+ if ( keyInfo.flag & ZM_KEY_FLAG_AUTHENTICATOR )
+ { /* set key by authenticator */
+ /* set pairwise key */
+ if (keyInfo.flag & ZM_KEY_FLAG_PK)
+ {
+ /* Find STA's information */
+ if ((id = zfApFindSta(dev, keyInfo.macAddr)) == 0xffff)
+ {
+ /* Can't STA in the staTable */
+ return ZM_STATUS_FAILURE;
+ }
+
+ wd->ap.staTable[id].iv16 = 0;
+ wd->ap.staTable[id].iv32 = 0;
+
+ if (keyInfo.keyLength == 32)
+ { /* TKIP */
+ //u8_t KeyRsc[6] = {0, 0, 0, 0, 0, 0};
+
+ /* In the current AP mode, we set KeyRsc to zero */
+ //zfTkipInit(keyInfo.key, (u8_t*) wd->macAddr,
+ // &(wd->ap.staTable[id].txSeed), KeyRsc);
+ //zfTkipInit(keyInfo.key, (u8_t*) keyInfo.macAddr,
+ // &(wd->ap.staTable[id].rxSeed), KeyRsc);
+#ifdef ZM_ENABLE_CENC
+ if (keyInfo.flag & ZM_KEY_FLAG_CENC)
+ {
+ zm_debug_msg0("Set CENC pairwise Key");
+
+ wd->ap.staTable[id].encryMode = ZM_CENC;
+
+ /* Reset txiv and rxiv */
+ wd->ap.staTable[id].txiv[0] = 0x5c365c37;
+ wd->ap.staTable[id].txiv[1] = 0x5c365c36;
+ wd->ap.staTable[id].txiv[2] = 0x5c365c36;
+ wd->ap.staTable[id].txiv[3] = 0x5c365c36;
+
+ wd->ap.staTable[id].rxiv[0] = 0x5c365c36;
+ wd->ap.staTable[id].rxiv[1] = 0x5c365c36;
+ wd->ap.staTable[id].rxiv[2] = 0x5c365c36;
+ wd->ap.staTable[id].rxiv[3] = 0x5c365c36;
+
+ /* Set Key Index */
+ wd->ap.staTable[id].cencKeyIdx = keyInfo.keyIndex;
+
+ //zfCoreSetKey(dev, id+1, 1, ZM_CENC, (u16_t *)keyInfo.macAddr,
+ // (u32_t*) &keyInfo.key[16]);
+ }
+ else
+#endif //ZM_ENABLE_CENC
+ {
+ wd->ap.staTable[id].encryMode = ZM_TKIP;
+
+ zfMemoryCopy(micKey, &keyInfo.key[16], 8);
+ zfMemoryCopy(&micKey[8], &keyInfo.key[24], 8);
+
+ //zfCoreSetKey(dev, id+1, 1, ZM_TKIP, (u16_t *)keyInfo.macAddr,
+ // (u32_t*) micKey);
+
+ /* For fragmentation, we use software MIC */
+ zfMemoryCopy((u8_t *)&(wd->ap.staTable[id].txMicKey), &(keyInfo.key[16]), 8);
+ zfMemoryCopy((u8_t *)&(wd->ap.staTable[id].rxMicKey), &(keyInfo.key[24]), 8);
+
+ }
+ }
+ else if (keyInfo.keyLength == 16)
+ { /* AES */
+ wd->ap.staTable[id].encryMode = ZM_AES;
+ }
+ else if (keyInfo.keyLength == 0)
+ {
+ /* Clear Key Info */
+ zfApClearStaKey(dev, (u16_t *)keyInfo.macAddr);
+
+ return ZM_STATUS_SUCCESS;
+ }
+ else
+ {
+ return ZM_STATUS_FAILURE;
+ }
+
+ //zfCoreSetKey(dev, id+1, 0, wd->ap.staTable[id].encryMode,
+ // (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ zfHpSetApPairwiseKey(dev, (u16_t *)keyInfo.macAddr,
+ wd->ap.staTable[id].encryMode, (u32_t*) keyInfo.key,
+ (u32_t*) &keyInfo.key[16], id+1);
+ wd->ap.staTable[id].keyIdx = id + 1 + 4;
+ }
+ else if (keyInfo.flag & ZM_KEY_FLAG_GK)
+ {
+ vapId = keyInfo.vapId;
+
+ wd->ap.iv16[vapId] = 0;
+ wd->ap.iv32[vapId] = 0;
+
+ if (keyInfo.keyLength == 32)
+ { /* TKIP */
+ //u8_t KeyRsc[6] = {0, 0, 0, 0, 0, 0};
+
+ //zfTkipInit(keyInfo.key, (u8_t*) wd->macAddr,
+ // &(wd->ap.bcSeed), KeyRsc);
+#ifdef ZM_ENABLE_CENC
+ if (keyInfo.flag & ZM_KEY_FLAG_CENC)
+ {
+ encryMode = ZM_CENC;
+ zm_debug_msg0("Set CENC group Key");
+
+ /* Reset txiv and rxiv */
+ wd->ap.txiv[vapId][0] = 0x5c365c36;
+ wd->ap.txiv[vapId][1] = 0x5c365c36;
+ wd->ap.txiv[vapId][2] = 0x5c365c36;
+ wd->ap.txiv[vapId][3] = 0x5c365c36;
+
+ //zfCoreSetKey(dev, 0, 1, ZM_CENC, keyInfo.vapAddr,
+ // (u32_t*) &keyInfo.key[16]);
+ key = (u32_t*) keyInfo.key;
+ }
+ else
+#endif //ZM_ENABLE_CENC
+ {
+ encryMode = ZM_TKIP;
+ key = (u32_t *)keyInfo.key;
+
+ /* set MIC key to HMAC */
+ //zfCoreSetKey(dev, 0, 1, ZM_TKIP, broadcast,
+ // (u32_t*) (&keyInfo.key[16]));
+ //zfCoreSetKey(dev, 0, 1, ZM_TKIP, keyInfo.vapAddr,
+ // (u32_t*) (&keyInfo.key[16]));
+
+ zfMicSetKey(&(keyInfo.key[16]), &(wd->ap.bcMicKey[0]));
+ key = (u32_t*) keyInfo.key;
+ }
+ }
+ else if (keyInfo.keyLength == 16)
+ { /* AES */
+ encryMode = ZM_AES;
+ key = (u32_t *)keyInfo.key;
+ zm_debug_msg0("CWY - Set AES Group Key");
+ }
+ else if (keyInfo.keyLength == 0)
+ {
+ /* Clear Key Info */
+ zfApClearStaKey(dev, broadcast);
+
+ /* Turn off WEP bit in the capability field */
+ wd->ap.capab[vapId] &= 0xffef;
+
+ return ZM_STATUS_SUCCESS;
+ }
+ else
+ { /* WEP */
+ if (keyInfo.keyLength == 5)
+ {
+ encryMode = ZM_WEP64;
+ }
+ else if (keyInfo.keyLength == 13)
+ {
+ encryMode = ZM_WEP128;
+ }
+ else if (keyInfo.keyLength == 29)
+ {
+ encryMode = ZM_WEP256;
+ }
+
+ key = (u32_t*) keyInfo.key;
+ }
+
+ // Modification for CAM not support VAP search
+ //zfCoreSetKey(dev, 0, 0, encryMode, broadcast, key);
+ //zfCoreSetKey(dev, 0, 0, encryMode, wd->macAddr, key);
+ //zfCoreSetKey(dev, 0, 0, encryMode, keyInfo.vapAddr, key);
+ zfHpSetApGroupKey(dev, wd->macAddr, encryMode,
+ key, (u32_t*) &keyInfo.key[16], vapId);
+
+ //zfiWlanSetEncryMode(dev, encryMode);
+ wd->ws.encryMode = encryMode;
+
+ /* set the multicast address encryption type */
+ wd->ap.encryMode[vapId] = encryMode;
+
+ /* set the multicast key index */
+ wd->ap.bcKeyIndex[vapId] = keyInfo.keyIndex;
+ wd->ap.bcHalKeyIdx[vapId] = vapId + 60;
+
+ /* Turn on WEP bit in the capability field */
+ wd->ap.capab[vapId] |= 0x10;
+ }
+ }
+ else
+ { /* set by supplicant */
+
+ if ( keyInfo.flag & ZM_KEY_FLAG_PK )
+ { /* set pairwise key */
+
+ //zfTkipInit(keyInfo.key, (u8_t*) wd->macAddr,
+ // &wd->sta.txSeed, keyInfo.initIv);
+ //zfTkipInit(keyInfo.key, (u8_t*) wd->sta.bssid,
+ // &wd->sta.rxSeed[keyInfo.keyIndex], keyInfo.initIv);
+
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ if ( wd->sta.ibssWpa2Psk == 1 )
+ {
+ /* unicast -- > pairwise key */
+ wd->sta.oppositeInfo[userIdx].iv16 = 0;
+ wd->sta.oppositeInfo[userIdx].iv32 = 0;
+ }
+ else
+ {
+ wd->sta.iv16 = 0;
+ wd->sta.iv32 = 0;
+ }
+
+ wd->sta.oppositeInfo[userIdx].pkInstalled = 1;
+#else
+ wd->sta.iv16 = 0;
+ wd->sta.iv32 = 0;
+
+ wd->sta.oppositeInfo[userIdx].pkInstalled = 1;
+#endif
+
+ if ( keyInfo.keyLength == 32 )
+ { /* TKIP */
+ zfTkipInit(keyInfo.key, (u8_t*) wd->macAddr,
+ &wd->sta.txSeed, keyInfo.initIv);
+ zfTkipInit(keyInfo.key, (u8_t*) wd->sta.bssid,
+ &wd->sta.rxSeed[keyInfo.keyIndex], keyInfo.initIv);
+
+#ifdef ZM_ENABLE_CENC
+ if (keyInfo.flag & ZM_KEY_FLAG_CENC)
+ {
+ zm_debug_msg0("Set CENC pairwise Key");
+
+ wd->sta.encryMode = ZM_CENC;
+
+ /* Reset txiv and rxiv */
+ wd->sta.txiv[0] = 0x5c365c36;
+ wd->sta.txiv[1] = 0x5c365c36;
+ wd->sta.txiv[2] = 0x5c365c36;
+ wd->sta.txiv[3] = 0x5c365c36;
+
+ wd->sta.rxiv[0] = 0x5c365c37;
+ wd->sta.rxiv[1] = 0x5c365c36;
+ wd->sta.rxiv[2] = 0x5c365c36;
+ wd->sta.rxiv[3] = 0x5c365c36;
+
+ /* Set Key Index */
+ wd->sta.cencKeyId = keyInfo.keyIndex;
+
+ //zfCoreSetKey(dev, id+1, 1, ZM_CENC, (u16_t *)keyInfo.macAddr,
+ // (u32_t*) &keyInfo.key[16]);
+ }
+ else
+#endif //ZM_ENABLE_CENC
+ {
+ wd->sta.encryMode = ZM_TKIP;
+
+ //zfCoreSetKey(dev, 0, 1, ZM_TKIP, wd->sta.bssid,
+ // (u32_t*) &keyInfo.key[16]);
+
+ zfMicSetKey(&keyInfo.key[16], &wd->sta.txMicKey);
+ zfMicSetKey(&keyInfo.key[24],
+ &wd->sta.rxMicKey[keyInfo.keyIndex]);
+ }
+ }
+ else if ( keyInfo.keyLength == 16 )
+ { /* AES */
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ if ( wd->sta.ibssWpa2Psk == 1 )
+ {
+ wd->sta.oppositeInfo[userIdx].encryMode = ZM_AES;
+ encryType = wd->sta.oppositeInfo[userIdx].encryMode;
+ }
+ else
+ {
+ wd->sta.encryMode = ZM_AES;
+ encryType = wd->sta.encryMode;
+ }
+#else
+ wd->sta.encryMode = ZM_AES;
+#endif
+ }
+ else
+ {
+ return ZM_STATUS_FAILURE;
+ }
+
+ /* user 0 */
+ //zfCoreSetKey(dev, 0, 0, wd->sta.encryMode,
+ // wd->sta.bssid, (u32_t*) keyInfo.key);
+ //zfHpSetStaPairwiseKey(dev, wd->sta.bssid, wd->sta.encryMode,
+ // (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ if ( (keyInfo.keyLength==16) && (wd->sta.ibssWpa2Psk==1) )
+ { /* If not AES-CCMP and ibss network , use traditional */
+ zfHpSetPerUserKey(dev,
+ userIdx,
+ keyInfo.keyIndex, // key id == 0 ( Pairwise key = 0 )
+ (u8_t*)keyInfo.macAddr, // RX need Source Address ( Address 2 )
+ encryType,
+// wd->sta.encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+ wd->sta.oppositeInfo[userIdx].wpaState = ZM_STA_WPA_STATE_PK_OK ;
+ }
+ else
+ {/* Big Endian and Little Endian Compatibility */
+ for (i = 0; i < 3; i++)
+ {
+ addr[2 * i] = wd->sta.bssid[i] & 0xff;
+ addr[2 * i + 1] = wd->sta.bssid[i] >> 8;
+ }
+ zfHpSetPerUserKey(dev,
+ ZM_USER_KEY_PK, // user id
+ 0, // key id
+ addr,//(u8_t *)wd->sta.bssid,
+ wd->sta.encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+ wd->sta.keyId = 4;
+ }
+#else
+ /* Big Endian and Little Endian Compatibility */
+ for (i = 0; i < 3; i++)
+ {
+ addr[2 * i] = wd->sta.bssid[i] & 0xff;
+ addr[2 * i + 1] = wd->sta.bssid[i] >> 8;
+ }
+ zfHpSetPerUserKey(dev,
+ ZM_USER_KEY_PK, // user id
+ 0, // key id
+ addr,//(u8_t *)wd->sta.bssid,
+ wd->sta.encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+ wd->sta.keyId = 4;
+#endif
+
+ wd->sta.wpaState = ZM_STA_WPA_STATE_PK_OK;
+ }
+ else if ( keyInfo.flag & ZM_KEY_FLAG_GK )
+ { /* set group key */
+
+ zfTkipInit(keyInfo.key, (u8_t*) wd->sta.bssid,
+ &wd->sta.rxSeed[keyInfo.keyIndex], keyInfo.initIv);
+
+ if ( keyInfo.keyLength == 32 )
+ { /* TKIP */
+#ifdef ZM_ENABLE_CENC
+ if (keyInfo.flag & ZM_KEY_FLAG_CENC)
+ {
+ encryMode = ZM_CENC;
+ zm_debug_msg0("Set CENC group Key");
+
+ /* Reset txiv and rxiv */
+ wd->sta.rxivGK[0] = 0x5c365c36;
+ wd->sta.rxivGK[1] = 0x5c365c36;
+ wd->sta.rxivGK[2] = 0x5c365c36;
+ wd->sta.rxivGK[3] = 0x5c365c36;
+
+ //zfCoreSetKey(dev, 0, 1, ZM_CENC, keyInfo.vapAddr,
+ // (u32_t*) &keyInfo.key[16]);
+ key = (u32_t*) keyInfo.key;
+ }
+ else
+#endif //ZM_ENABLE_CENC
+ {
+ encryMode = ZM_TKIP;
+ key = (u32_t*) wd->sta.rxSeed[keyInfo.keyIndex].tk;
+
+ if ( !(keyInfo.flag & ZM_KEY_FLAG_INIT_IV) )
+ {
+ wd->sta.rxSeed[keyInfo.keyIndex].iv16 = 0;
+ wd->sta.rxSeed[keyInfo.keyIndex].iv32 = 0;
+ }
+
+ /* set MIC key to HMAC */
+ //zfCoreSetKey(dev, 8, 1, ZM_TKIP, broadcast,
+ // (u32_t*) (&keyInfo.key[16]));
+
+ zfMicSetKey(&keyInfo.key[24],
+ &wd->sta.rxMicKey[keyInfo.keyIndex]);
+ }
+ }
+ else if ( keyInfo.keyLength == 16 )
+ { /* AES */
+ encryMode = ZM_AES;
+ //key = (u32_t*) wd->sta.rxSeed[keyInfo.keyIndex].tk;
+ }
+ else
+ { /* WEP */
+ if ( keyInfo.keyLength == 5 )
+ {
+ encryMode = ZM_WEP64;
+ }
+ else if ( keyInfo.keyLength == 13 )
+ {
+ encryMode = ZM_WEP128;
+ }
+ else if ( keyInfo.keyLength == 29 )
+ {
+ encryMode = ZM_WEP256;
+ }
+
+ key = (u32_t*) keyInfo.key;
+ }
+
+ /* user 8 */
+ //zfCoreSetKey(dev, 8, 0, encryMode, broadcast, key);
+ //zfHpSetStaGroupKey(dev, broadcast, encryMode,
+ // (u32_t*) keyInfo.key, (u32_t*) (&keyInfo.key[16]));
+
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ if ( (keyInfo.keyLength==16) && (wd->sta.ibssWpa2Psk==1) )
+ {/* If not AES-CCMP and ibss network , use traditional */
+ zfHpSetPerUserKey(dev,
+ userIdx,
+ keyInfo.keyIndex, // key id
+ // (u8_t *)broadcast, // for only 2 stations IBSS netwrl ( A2 )
+ (u8_t*)keyInfo.macAddr, // for multiple ( > 2 ) stations IBSS network ( A2 )
+ encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+ }
+ else
+ {
+ zfHpSetPerUserKey(dev,
+ ZM_USER_KEY_GK, // user id
+ 0, // key id
+ (u8_t *)broadcast,
+ encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+ wd->sta.wpaState = ZM_STA_WPA_STATE_GK_OK;
+ }
+#else
+ zfHpSetPerUserKey(dev,
+ ZM_USER_KEY_GK, // user id
+ 0, // key id
+ (u8_t *)broadcast,
+ encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+ wd->sta.wpaState = ZM_STA_WPA_STATE_GK_OK;
+#endif
+ }
+ else
+ { /* legacy WEP */
+ zm_debug_msg0("legacy WEP");
+
+ if ( keyInfo.keyIndex >= 4 )
+ {
+ return ZM_STATUS_FAILURE;
+ }
+
+ if ( keyInfo.keyLength == 5 )
+ {
+ zm_debug_msg0("WEP 64");
+
+ encryMode = ZM_WEP64;
+ }
+ else if ( keyInfo.keyLength == 13 )
+ {
+ zm_debug_msg0("WEP 128");
+
+ encryMode = ZM_WEP128;
+ }
+ else if ( keyInfo.keyLength == 32 )
+ {
+ /* TKIP */
+ #if 0
+ // Don't reset the IV since some AP would fail in IV check and drop our connection
+ if ( wd->sta.wpaState != ZM_STA_WPA_STATE_PK_OK )
+ {
+ wd->sta.iv16 = 0;
+ wd->sta.iv32 = 0;
+ }
+ #endif
+
+ encryMode = ZM_TKIP;
+
+ zfTkipInit(keyInfo.key, (u8_t*) wd->sta.bssid,
+ &wd->sta.rxSeed[keyInfo.keyIndex], keyInfo.initIv);
+ zfMicSetKey(&keyInfo.key[24],
+ &wd->sta.rxMicKey[keyInfo.keyIndex]);
+ }
+ else if ( keyInfo.keyLength == 16 )
+ {
+ /* AES */
+ #if 0
+ // Don't reset the IV since some AP would fail in IV check and drop our connection
+ if ( wd->sta.wpaState != ZM_STA_WPA_STATE_PK_OK )
+ {
+ /* broadcast -- > group key */
+ /* Only initialize when set our default key ! */
+ wd->sta.iv16 = 0;
+ wd->sta.iv32 = 0;
+ }
+ #endif
+
+ encryMode = ZM_AES;
+ }
+ else if ( keyInfo.keyLength == 29 )
+ {
+ zm_debug_msg0("WEP 256");
+
+ encryMode = ZM_WEP256;
+ //zfCoreSetKey(dev, 64, 1, wd->sta.encryMode,
+ // wd->sta.bssid, (u32_t*) (&keyInfo.key[16]));
+ }
+ else
+ {
+ return ZM_STATUS_FAILURE;
+ }
+
+ {
+ u8_t i;
+
+ zm_debug_msg0("key = ");
+ for(i = 0; i < keyInfo.keyLength; i++)
+ {
+ zm_debug_msg2("", keyInfo.key[i]);
+ }
+ }
+
+ if ( keyInfo.flag & ZM_KEY_FLAG_DEFAULT_KEY )
+ {
+ //for WEP default key 1~3 and ATOM platform--CWYang(+)
+ vapId = 0;
+ wd->ap.bcHalKeyIdx[vapId] = keyInfo.keyIndex;
+ wd->ap.bcKeyIndex[vapId] = keyInfo.keyIndex;
+ wd->sta.keyId = keyInfo.keyIndex;
+ }
+
+ if(encryMode == ZM_TKIP)
+ {
+ if(wd->TKIP_Group_KeyChanging == 0x1)
+ {
+ zm_debug_msg0("Countermeasure : Cancel Old Timer ");
+ zfTimerCancel(dev, ZM_EVENT_SKIP_COUNTERMEASURE);
+ }
+ else
+ {
+ zm_debug_msg0("Countermeasure : Create New Timer ");
+ }
+
+ wd->TKIP_Group_KeyChanging = 0x1;
+ zfTimerSchedule(dev, ZM_EVENT_SKIP_COUNTERMEASURE, 150);
+ }
+
+
+
+ //------------------------------------------------------------------------
+
+ /* use default key */
+ //zfCoreSetKey(dev, ZM_USER_KEY_DEFAULT+keyInfo.keyIndex, 0,
+ // wd->sta.encryMode, wd->sta.bssid, (u32_t*) keyInfo.key);
+
+ if ( encryMode == ZM_TKIP ||
+ encryMode == ZM_AES )
+ {
+ zfHpSetDefaultKey(dev, keyInfo.keyIndex, encryMode,
+ (u32_t*) keyInfo.key, (u32_t*) &keyInfo.key[16]);
+
+#ifdef ZM_ENABLE_IBSS_WPA2PSK
+ if ( (keyInfo.keyLength==16) && (wd->sta.ibssWpa2Psk==1) )
+ {/* If not AES-CCMP and ibss network , use traditional */
+ wd->sta.wpaState = ZM_STA_WPA_STATE_PK_OK;
+ }
+ else
+ {
+ if (wd->sta.wpaState == ZM_STA_WPA_STATE_PK_OK)
+ wd->sta.wpaState = ZM_STA_WPA_STATE_GK_OK;
+ else
+ {
+ wd->sta.wpaState = ZM_STA_WPA_STATE_PK_OK;
+ wd->sta.encryMode = encryMode;
+ wd->ws.encryMode = encryMode;
+ }
+ }
+#else
+ if (wd->sta.wpaState == ZM_STA_WPA_STATE_PK_OK)
+ wd->sta.wpaState = ZM_STA_WPA_STATE_GK_OK;
+ else if ( wd->sta.wpaState == ZM_STA_WPA_STATE_INIT )
+ {
+ wd->sta.wpaState = ZM_STA_WPA_STATE_PK_OK;
+ wd->sta.encryMode = encryMode;
+ wd->ws.encryMode = encryMode;
+ }
+#endif
+ }
+ else
+ {
+ zfHpSetDefaultKey(dev, keyInfo.keyIndex, encryMode,
+ (u32_t*) keyInfo.key, NULL);
+
+ /* Save key for software WEP */
+ zfMemoryCopy(wd->sta.wepKey[keyInfo.keyIndex], keyInfo.key,
+ keyInfo.keyLength);
+
+ /* TODO: Check whether we need to save the SWEncryMode */
+ wd->sta.SWEncryMode[keyInfo.keyIndex] = encryMode;
+
+ wd->sta.encryMode = encryMode;
+ wd->ws.encryMode = encryMode;
+ }
+ }
+ }
+
+// wd->sta.flagKeyChanging = 1;
+ return ZM_STATUS_SUCCESS;
+}
+
+/* PSEUDO test */
+u8_t zfiWlanPSEUDOSetKey(zdev_t* dev, struct zsKeyInfo keyInfo)
+{
+ //u16_t broadcast[3] = {0xffff, 0xffff, 0xffff};
+ //u32_t* key;
+ u8_t micKey[16];
+
+ zmw_get_wlan_dev(dev);
+
+ switch (keyInfo.keyLength)
+ {
+ case 5:
+ wd->sta.encryMode = ZM_WEP64;
+ /* use default key */
+ zfCoreSetKey(dev, 64, 0, ZM_WEP64, (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ break;
+
+ case 13:
+ wd->sta.encryMode = ZM_WEP128;
+ /* use default key */
+ zfCoreSetKey(dev, 64, 0, ZM_WEP128, (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ break;
+
+ case 29:
+ wd->sta.encryMode = ZM_WEP256;
+ /* use default key */
+ zfCoreSetKey(dev, 64, 1, ZM_WEP256, (u16_t *)keyInfo.macAddr, (u32_t*) (&keyInfo.key[16]));
+ zfCoreSetKey(dev, 64, 0, ZM_WEP256, (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ break;
+
+ case 16:
+ wd->sta.encryMode = ZM_AES;
+ //zfCoreSetKey(dev, 0, 0, ZM_AES, (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ zfCoreSetKey(dev, 64, 0, ZM_AES, (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ break;
+
+ case 32:
+#ifdef ZM_ENABLE_CENC
+ if (keyInfo.flag & ZM_KEY_FLAG_CENC)
+ {
+ u16_t boardcastAddr[3] = {0xffff, 0xffff, 0xffff};
+ u16_t Addr_a[] = { 0x0000, 0x0080, 0x0901};
+ u16_t Addr_b[] = { 0x0000, 0x0080, 0x0902};
+ /* CENC test: user0,1 and user2 for boardcast */
+ wd->sta.encryMode = ZM_CENC;
+ zfCoreSetKey(dev, 0, 1, ZM_CENC, (u16_t *)Addr_a, (u32_t*) (&keyInfo.key[16]));
+ zfCoreSetKey(dev, 0, 0, ZM_CENC, (u16_t *)Addr_a, (u32_t*) keyInfo.key);
+
+ zfCoreSetKey(dev, 1, 1, ZM_CENC, (u16_t *)Addr_b, (u32_t*) (&keyInfo.key[16]));
+ zfCoreSetKey(dev, 1, 0, ZM_CENC, (u16_t *)Addr_b, (u32_t*) keyInfo.key);
+
+ zfCoreSetKey(dev, 2, 1, ZM_CENC, (u16_t *)boardcastAddr, (u32_t*) (&keyInfo.key[16]));
+ zfCoreSetKey(dev, 2, 0, ZM_CENC, (u16_t *)boardcastAddr, (u32_t*) keyInfo.key);
+
+ /* Initialize PN sequence */
+ wd->sta.txiv[0] = 0x5c365c36;
+ wd->sta.txiv[1] = 0x5c365c36;
+ wd->sta.txiv[2] = 0x5c365c36;
+ wd->sta.txiv[3] = 0x5c365c36;
+ }
+ else
+#endif //ZM_ENABLE_CENC
+ {
+ wd->sta.encryMode = ZM_TKIP;
+ zfCoreSetKey(dev, 64, 1, ZM_TKIP, (u16_t *)keyInfo.macAddr, (u32_t*) micKey);
+ zfCoreSetKey(dev, 64, 0, ZM_TKIP, (u16_t *)keyInfo.macAddr, (u32_t*) keyInfo.key);
+ }
+ break;
+ default:
+ wd->sta.encryMode = ZM_NO_WEP;
+ }
+
+ return ZM_STATUS_SUCCESS;
+}
+
+void zfiWlanSetPowerSaveMode(zdev_t* dev, u8_t mode)
+{
+#if 0
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.powerSaveMode = mode;
+
+ /* send null data with PwrBit to inform AP */
+ if ( mode > ZM_STA_PS_NONE )
+ {
+ if ( wd->wlanMode == ZM_MODE_INFRASTRUCTURE )
+ {
+ zfSendNullData(dev, 1);
+ }
+
+ /* device into PS mode */
+ zfPSDeviceSleep(dev);
+ }
+#endif
+
+ zfPowerSavingMgrSetMode(dev, mode);
+}
+
+void zfiWlanSetMacAddress(zdev_t* dev, u16_t* mac)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->macAddr[0] = mac[0];
+ wd->macAddr[1] = mac[1];
+ wd->macAddr[2] = mac[2];
+
+ zfHpSetMacAddress(dev, mac, 0);
+}
+
+u8_t zfiWlanQueryWlanMode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->wlanMode;
+}
+
+u8_t zfiWlanQueryAdapterState(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->state;
+}
+
+u8_t zfiWlanQueryAuthenticationMode(zdev_t* dev, u8_t bWrapper)
+{
+ u8_t authMode;
+
+ zmw_get_wlan_dev(dev);
+
+ if ( bWrapper )
+ {
+ authMode = wd->ws.authMode;
+ }
+ else
+ {
+ //authMode = wd->sta.authMode;
+ authMode = wd->sta.currentAuthMode;
+ }
+
+ return authMode;
+}
+
+u8_t zfiWlanQueryWepStatus(zdev_t* dev, u8_t bWrapper)
+{
+ u8_t wepStatus;
+
+ zmw_get_wlan_dev(dev);
+
+ if ( bWrapper )
+ {
+ wepStatus = wd->ws.wepStatus;
+ }
+ else
+ {
+ wepStatus = wd->sta.wepStatus;
+ }
+
+ return wepStatus;
+}
+
+void zfiWlanQuerySSID(zdev_t* dev, u8_t* ssid, u8_t* pSsidLength)
+{
+ u16_t vapId = 0;
+ zmw_get_wlan_dev(dev);
+
+ if (wd->wlanMode == ZM_MODE_AP)
+ {
+ vapId = zfwGetVapId(dev);
+
+ if (vapId == 0xffff)
+ {
+ *pSsidLength = wd->ap.ssidLen[0];
+ zfMemoryCopy(ssid, wd->ap.ssid[0], wd->ap.ssidLen[0]);
+ }
+ else
+ {
+ *pSsidLength = wd->ap.ssidLen[vapId + 1];
+ zfMemoryCopy(ssid, wd->ap.ssid[vapId + 1], wd->ap.ssidLen[vapId + 1]);
+ }
+ }
+ else
+ {
+ *pSsidLength = wd->sta.ssidLen;
+ zfMemoryCopy(ssid, wd->sta.ssid, wd->sta.ssidLen);
+ }
+}
+
+u16_t zfiWlanQueryFragThreshold(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->fragThreshold;
+}
+
+u16_t zfiWlanQueryRtsThreshold(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->rtsThreshold;
+}
+
+u32_t zfiWlanQueryFrequency(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return (wd->frequency*1000);
+}
+
+/***********************************************************
+ * Function: zfiWlanQueryCurrentFrequency
+ * Return value:
+ * - 0 : no validate current frequency
+ * - (>0): current frequency depend on "qmode"
+ * Input:
+ * - qmode:
+ * 0: return value depend on the support mode, this
+ qmode is use to solve the bug #31223
+ * 1: return the actually current frequency
+ ***********************************************************/
+u32_t zfiWlanQueryCurrentFrequency(zdev_t* dev, u8_t qmode)
+{
+ u32_t frequency;
+
+ zmw_get_wlan_dev(dev);
+
+ switch (qmode)
+ {
+ case 0:
+ if (wd->sta.currentFrequency > 3000)
+ {
+ if (wd->supportMode & ZM_WIRELESS_MODE_5)
+ {
+ frequency = wd->sta.currentFrequency;
+ }
+ else if (wd->supportMode & ZM_WIRELESS_MODE_24)
+ {
+ frequency = zfChGetFirst2GhzChannel(dev);
+ }
+ else
+ {
+ frequency = 0;
+ }
+ }
+ else
+ {
+ if (wd->supportMode & ZM_WIRELESS_MODE_24)
+ {
+ frequency = wd->sta.currentFrequency;
+ }
+ else if (wd->supportMode & ZM_WIRELESS_MODE_5)
+ {
+ frequency = zfChGetLast5GhzChannel(dev);
+ }
+ else
+ {
+ frequency = 0;
+ }
+ }
+ break;
+
+ case 1:
+ frequency = wd->sta.currentFrequency;
+ break;
+
+ default:
+ frequency = 0;
+ }
+
+ return (frequency*1000);
+}
+
+u32_t zfiWlanQueryFrequencyAttribute(zdev_t* dev, u32_t freq)
+{
+ zmw_get_wlan_dev(dev);
+
+ u8_t i;
+ u16_t frequency = (u16_t) (freq/1000);
+ u32_t ret = 0;
+
+ for (i = 0; i < wd->regulationTable.allowChannelCnt; i++)
+ {
+ if ( wd->regulationTable.allowChannel[i].channel == frequency )
+ {
+ ret = wd->regulationTable.allowChannel[i].channelFlags;
+ }
+ }
+
+ return ret;
+}
+
+/* BandWidth 0=>20 1=>40 */
+/* ExtOffset 0=>20 1=>high control 40 3=>low control 40 */
+void zfiWlanQueryFrequencyHT(zdev_t* dev, u32_t *bandWidth, u32_t *extOffset)
+{
+ zmw_get_wlan_dev(dev);
+
+ *bandWidth = wd->BandWidth40;
+ *extOffset = wd->ExtOffset;
+}
+
+u8_t zfiWlanQueryCWMode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->cwm.cw_mode;
+}
+
+u32_t zfiWlanQueryCWEnable(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->cwm.cw_enable;
+}
+
+void zfiWlanQueryBssid(zdev_t* dev, u8_t* bssid)
+{
+ u8_t addr[6];
+
+ zmw_get_wlan_dev(dev);
+
+ ZM_MAC_WORD_TO_BYTE(wd->sta.bssid, addr);
+ zfMemoryCopy(bssid, addr, 6);
+}
+
+u16_t zfiWlanQueryBeaconInterval(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->beaconInterval;
+}
+
+u32_t zfiWlanQueryRxBeaconTotal(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+ wd->sta.rxBeaconTotal += wd->sta.rxBeaconCount;
+
+ return wd->sta.rxBeaconTotal;
+}
+
+u16_t zfiWlanQueryAtimWindow(zdev_t* dev)
+{
+ u16_t atimWindow;
+
+ zmw_get_wlan_dev(dev);
+
+ atimWindow = wd->sta.atimWindow;
+
+ return atimWindow;
+}
+
+u8_t zfiWlanQueryEncryMode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ if (wd->wlanMode == ZM_MODE_AP)
+ return wd->ap.encryMode[0];
+ else
+ return wd->sta.encryMode;
+}
+
+u16_t zfiWlanQueryCapability(zdev_t* dev)
+{
+ u16_t capability;
+
+ zmw_get_wlan_dev(dev);
+
+ capability = wd->sta.capability[0] +
+ (((u16_t) wd->sta.capability[1]) << 8);
+
+ return capability;
+
+}
+
+u16_t zfiWlanQueryAid(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->sta.aid;
+}
+
+void zfiWlanQuerySupportRate(zdev_t* dev, u8_t* rateArray, u8_t* pLength)
+{
+ u8_t i, j=0;
+
+ zmw_get_wlan_dev(dev);
+
+ for( i=0; i<4; i++ )
+ {
+ if ( wd->bRate & (0x1 << i) )
+ {
+ rateArray[j] = zg11bRateTbl[i] +
+ ((wd->bRateBasic & (0x1<<i))<<(7-i));
+ j++;
+ }
+ }
+
+ *pLength = j;
+}
+
+void zfiWlanQueryExtSupportRate(zdev_t* dev, u8_t* rateArray, u8_t* pLength)
+{
+ u8_t i, j=0;
+
+ zmw_get_wlan_dev(dev);
+
+ for( i=0; i<8; i++ )
+ {
+ if ( wd->gRate & (0x1 << i) )
+ {
+ rateArray[j] = zg11gRateTbl[i] +
+ ((wd->gRateBasic & (0x1<<i))<<(7-i));
+ j++;
+ }
+ }
+
+ *pLength = j;
+}
+
+void zfiWlanQueryRsnIe(zdev_t* dev, u8_t* ie, u8_t* pLength)
+{
+ u8_t len;
+
+ zmw_get_wlan_dev(dev);
+
+ len = wd->sta.rsnIe[1] + 2;
+ zfMemoryCopy(ie, wd->sta.rsnIe, len);
+ *pLength = len;
+}
+
+void zfiWlanQueryWpaIe(zdev_t* dev, u8_t* ie, u8_t* pLength)
+{
+ u8_t len;
+
+ zmw_get_wlan_dev(dev);
+
+ len = wd->sta.wpaIe[1] + 2;
+ zfMemoryCopy(ie, wd->sta.wpaIe, len);
+ *pLength = len;
+
+}
+
+u8_t zfiWlanQueryMulticastCipherAlgo(zdev_t *dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ switch( wd->sta.currentAuthMode )
+ {
+ case ZM_AUTH_MODE_WPA2PSK:
+ case ZM_AUTH_MODE_WPA2:
+ if ( wd->sta.rsnIe[7] == 2 )
+ {
+ return ZM_TKIP;
+ }
+ else
+ {
+ return ZM_AES;
+ }
+ break;
+
+ case ZM_AUTH_MODE_WPAPSK:
+ case ZM_AUTH_MODE_WPA:
+ if ( wd->sta.rsnIe[11] == 2 )
+ {
+ return ZM_TKIP;
+ }
+ else
+ {
+ return ZM_AES;
+ }
+ break;
+
+ default:
+ return wd->sta.encryMode;
+ }
+}
+
+u8_t zfiWlanQueryHTMode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+ // 0:Legancy, 1:N
+ return wd->sta.EnableHT;
+}
+
+u8_t zfiWlanQueryBandWidth40(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+ // 0:20M, 1:40M
+ return wd->BandWidth40;
+}
+
+u16_t zfiWlanQueryRegionCode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->regulationTable.regionCode;
+}
+void zfiWlanSetWpaIe(zdev_t* dev, u8_t* ie, u8_t Length)
+{
+ u16_t vapId = 0;
+ zmw_get_wlan_dev(dev);
+
+ if (wd->wlanMode == ZM_MODE_AP) // AP Mode
+ {
+ vapId = zfwGetVapId(dev);
+
+ if (vapId == 0xffff)
+ vapId = 0;
+ else
+ vapId++;
+
+ zm_assert(Length < ZM_MAX_WPAIE_SIZE);
+ if (Length < ZM_MAX_WPAIE_SIZE)
+ {
+ wd->ap.wpaLen[vapId] = Length;
+ zfMemoryCopy(wd->ap.wpaIe[vapId], ie, wd->ap.wpaLen[vapId]);
+ }
+
+ }
+ else
+ {
+ wd->sta.wpaLen = Length;
+ zfMemoryCopy(wd->sta.wpaIe, ie, wd->sta.wpaLen);
+ }
+ //zfiWlanSetWpaSupport(dev, 1);
+ if (wd->wlanMode == ZM_MODE_AP) // AP Mode
+ {
+ wd->ap.wpaSupport[vapId] = 1;
+ }
+ else
+ {
+ wd->sta.wpaSupport = 1;
+ }
+
+}
+
+void zfiWlanSetWpaSupport(zdev_t* dev, u8_t WpaSupport)
+{
+ u16_t vapId = 0;
+ zmw_get_wlan_dev(dev);
+
+ if (wd->wlanMode == ZM_MODE_AP) // AP Mode
+ {
+ vapId = zfwGetVapId(dev);
+
+ if (vapId == 0xffff)
+ vapId = 0;
+ else
+ vapId++;
+
+ wd->ap.wpaSupport[vapId] = WpaSupport;
+ }
+ else
+ {
+ wd->sta.wpaSupport = WpaSupport;
+ }
+
+}
+
+void zfiWlanSetProtectionMode(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.bProtectionMode = mode;
+ if (wd->sta.bProtectionMode == TRUE)
+ {
+ zfHpSetSlotTime(dev, 0);
+ }
+ else
+ {
+ zfHpSetSlotTime(dev, 1);
+ }
+
+ zm_msg1_mm(ZM_LV_1, "wd->protectionMode=", wd->sta.bProtectionMode);
+}
+
+void zfiWlanSetBasicRate(zdev_t* dev, u8_t bRateSet, u8_t gRateSet,
+ u32_t nRateSet)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.bRateBasic = bRateSet;
+ wd->ws.gRateBasic = gRateSet;
+ wd->ws.nRateBasic = nRateSet;
+}
+
+void zfiWlanSetBGMode(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.bgMode = mode;
+}
+
+void zfiWlanSetpreambleType(zdev_t* dev, u8_t type)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.preambleType = type;
+}
+
+u8_t zfiWlanQuerypreambleType(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->ws.preambleType;
+}
+
+u8_t zfiWlanQueryPowerSaveMode(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->sta.powerSaveMode;
+}
+
+u8_t zfiWlanSetPmkidInfo(zdev_t* dev, u16_t* bssid, u8_t* pmkid)
+{
+ u32_t i;
+
+ zmw_get_wlan_dev(dev);
+
+ for(i=0; i<wd->sta.pmkidInfo.bssidCount; i++)
+ {
+ if ( zfMemoryIsEqual((u8_t*) wd->sta.pmkidInfo.bssidInfo[i].bssid,
+ (u8_t*) bssid, 6) )
+ {
+ /* matched */
+ break;
+ }
+ }
+
+ if ( i < wd->sta.pmkidInfo.bssidCount )
+ {
+ /* overwrite the original one */
+ zfMemoryCopy(wd->sta.pmkidInfo.bssidInfo[i].pmkid, pmkid, 16);
+ }
+ else
+ {
+ if ( i < ZM_PMKID_MAX_BSS_CNT )
+ {
+ wd->sta.pmkidInfo.bssidInfo[i].bssid[0] = bssid[0];
+ wd->sta.pmkidInfo.bssidInfo[i].bssid[1] = bssid[1];
+ wd->sta.pmkidInfo.bssidInfo[i].bssid[2] = bssid[2];
+
+ zfMemoryCopy(wd->sta.pmkidInfo.bssidInfo[i].pmkid, pmkid, 16);
+ wd->sta.pmkidInfo.bssidCount++;
+ }
+ }
+
+ return 0;
+}
+
+u32_t zfiWlanQueryPmkidInfo(zdev_t* dev, u8_t* buf, u32_t len)
+{
+ //struct zsPmkidInfo* pPmkidInfo = ( struct zsPmkidInfo* ) buf;
+ u32_t size;
+
+ zmw_get_wlan_dev(dev);
+
+ size = sizeof(u32_t) +
+ wd->sta.pmkidInfo.bssidCount * sizeof(struct zsPmkidBssidInfo);
+
+ if ( len < size )
+ {
+ return wd->sta.pmkidInfo.bssidCount;
+ }
+
+ zfMemoryCopy(buf, (u8_t*) &wd->sta.pmkidInfo, (u16_t) size);
+
+ return 0;
+}
+
+void zfiWlanSetMulticastList(zdev_t* dev, u8_t size, u8_t* pList)
+{
+ struct zsMulticastAddr* pMacList = (struct zsMulticastAddr*) pList;
+ u8_t i;
+ u8_t bAllMulticast = 0;
+ //u32_t value;
+
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.multicastList.size = size;
+ for(i=0; i<size; i++)
+ {
+ zfMemoryCopy(wd->sta.multicastList.macAddr[i].addr,
+ pMacList[i].addr, 6);
+ }
+
+ if ( wd->sta.osRxFilter & ZM_PACKET_TYPE_ALL_MULTICAST )
+ bAllMulticast = 1;
+ zfHpSetMulticastList(dev, size, pList, bAllMulticast);
+
+}
+
+void zfiWlanRemoveKey(zdev_t* dev, u8_t keyType, u8_t keyId)
+{
+ u16_t fakeMacAddr[3] = {0, 0, 0};
+ u32_t fakeKey[4] = {0, 0, 0, 0};
+
+ zmw_get_wlan_dev(dev);
+
+ if ( keyType == 0 )
+ {
+ /* remove WEP key */
+ zm_debug_msg0("remove WEP key");
+ zfCoreSetKey(dev, ZM_USER_KEY_DEFAULT+keyId, 0,
+ ZM_NO_WEP, fakeMacAddr, fakeKey);
+ wd->sta.encryMode = ZM_NO_WEP;
+ }
+ else if ( keyType == 1 )
+ {
+ /* remove pairwise key */
+ zm_debug_msg0("remove pairwise key");
+ zfHpRemoveKey(dev, ZM_USER_KEY_PK);
+ wd->sta.encryMode = ZM_NO_WEP;
+ }
+ else
+ {
+ /* remove group key */
+ zm_debug_msg0("remove group key");
+ zfHpRemoveKey(dev, ZM_USER_KEY_GK);
+ }
+}
+
+
+void zfiWlanQueryRegulationTable(zdev_t* dev, struct zsRegulationTable* pEntry)
+{
+ zmw_get_wlan_dev(dev);
+
+ zfMemoryCopy((u8_t*) pEntry, (u8_t*) &wd->regulationTable,
+ sizeof(struct zsRegulationTable));
+}
+
+/* parameter "time" is specified in ms */
+void zfiWlanSetScanTimerPerChannel(zdev_t* dev, u16_t time)
+{
+ zmw_get_wlan_dev(dev);
+
+ zm_debug_msg1("scan time (ms) = ", time);
+
+ wd->sta.activescanTickPerChannel = time / ZM_MS_PER_TICK;
+}
+
+void zfiWlanSetAutoReconnect(zdev_t* dev, u8_t enable)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.bAutoReconnect = enable;
+ //wd->sta.bAutoReconnectEnabled = enable;
+}
+
+void zfiWlanSetStaWme(zdev_t* dev, u8_t enable, u8_t uapsdInfo)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.staWmeEnabled = enable & 0x3;
+ if ((enable & 0x2) != 0)
+ {
+ wd->ws.staWmeQosInfo = uapsdInfo & 0x6f;
+ }
+ else
+ {
+ wd->ws.staWmeQosInfo = 0;
+ }
+}
+
+void zfiWlanSetApWme(zdev_t* dev, u8_t enable)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.apWmeEnabled = enable;
+}
+
+u8_t zfiWlanQuerywmeEnable(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->ws.staWmeEnabled;
+}
+
+void zfiWlanSetProbingHiddenSsid(zdev_t* dev, u8_t* ssid, u8_t ssidLen,
+ u16_t entry)
+{
+ zmw_get_wlan_dev(dev);
+ zmw_declare_for_critical_section();
+
+
+ if ((ssidLen <= 32) && (entry < ZM_MAX_PROBE_HIDDEN_SSID_SIZE))
+ {
+ zmw_enter_critical_section(dev);
+ wd->ws.probingSsidList[entry].ssidLen = ssidLen;
+ zfMemoryCopy(wd->ws.probingSsidList[entry].ssid, ssid, ssidLen);
+ zmw_leave_critical_section(dev);
+ }
+
+ return;
+}
+
+void zfiWlanSetDisableProbingWithSsid(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.disableProbingWithSsid = mode;
+
+ return;
+}
+
+void zfiWlanSetDropUnencryptedPackets(zdev_t* dev, u8_t enable)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.dropUnencryptedPkts = enable;
+}
+
+void zfiWlanSetStaRxSecurityCheckCb(zdev_t* dev, zfpStaRxSecurityCheckCb pStaRxSecurityCheckCb)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.pStaRxSecurityCheckCb = pStaRxSecurityCheckCb;
+}
+
+void zfiWlanSetIBSSJoinOnly(zdev_t* dev, u8_t joinOnly)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.ibssJoinOnly = joinOnly;
+}
+
+/************************************************************************/
+/* */
+/* FUNCTION DESCRIPTION zfiConfigWdsPort */
+/* Configure WDS port. */
+/* */
+/* INPUTS */
+/* dev : device pointer */
+/* wdsPortId : WDS port ID, start from 0 */
+/* flag : 0=>disable WDS port, 1=>enable WDS port */
+/* wdsAddr : WDS neighbor MAC address */
+/* encType : encryption type for WDS port */
+/* wdsKey : encryption key for WDS port */
+/* */
+/* OUTPUTS */
+/* Error code */
+/* */
+/* AUTHOR */
+/* Stephen Chen ZyDAS Technology Corporation 2006.6 */
+/* */
+/************************************************************************/
+u16_t zfiConfigWdsPort(zdev_t* dev, u8_t wdsPortId, u16_t flag, u16_t* wdsAddr,
+ u16_t encType, u32_t* wdsKey)
+{
+ u16_t addr[3];
+ u32_t key[4];
+
+ zmw_get_wlan_dev(dev);
+
+ if (wdsPortId > ZM_MAX_WDS_SUPPORT)
+ {
+ return ZM_ERR_WDS_PORT_ID;
+ }
+
+ if (flag == 1)
+ {
+ /* Enable WDS port */
+ wd->ap.wds.macAddr[wdsPortId][0] = wdsAddr[0];
+ wd->ap.wds.macAddr[wdsPortId][1] = wdsAddr[1];
+ wd->ap.wds.macAddr[wdsPortId][2] = wdsAddr[2];
+
+ wd->ap.wds.wdsBitmap |= (1 << wdsPortId);
+ wd->ap.wds.encryMode[wdsPortId] = (u8_t) encType;
+
+ zfCoreSetKey(dev, 10+ZM_MAX_WDS_SUPPORT, 0, (u8_t) encType, wdsAddr, wdsKey);
+ }
+ else
+ {
+ /* Disable WDS port */
+ addr[0] = addr[1] = addr[2] = 0;
+ key[0] = key[1] = key[2] = key[3] = 0;
+ wd->ap.wds.wdsBitmap &= (~(1 << wdsPortId));
+ zfCoreSetKey(dev, 10+ZM_MAX_WDS_SUPPORT, 0, ZM_NO_WEP, addr, key);
+ }
+
+ return ZM_SUCCESS;
+}
+#ifdef ZM_ENABLE_CENC
+/* CENC */
+void zfiWlanQueryGSN(zdev_t* dev, u8_t *gsn, u16_t vapId)
+{
+ //struct zsWlanDev* wd = (struct zsWlanDev*) zmw_wlan_dev(dev);
+ u32_t txiv[4];
+ zmw_get_wlan_dev(dev);
+
+ /* convert little endian to big endian for 32 bits */
+ txiv[3] = wd->ap.txiv[vapId][0];
+ txiv[2] = wd->ap.txiv[vapId][1];
+ txiv[1] = wd->ap.txiv[vapId][2];
+ txiv[0] = wd->ap.txiv[vapId][3];
+
+ zfMemoryCopy(gsn, (u8_t*)txiv, 16);
+}
+#endif //ZM_ENABLE_CENC
+//CWYang(+)
+void zfiWlanQuerySignalInfo(zdev_t* dev, u8_t *buffer)
+{
+ zmw_get_wlan_dev(dev);
+
+ /*Change Signal Strength/Quality Value to Human Sense Here*/
+
+ buffer[0] = wd->SignalStrength;
+ buffer[1] = wd->SignalQuality;
+}
+
+/* OS-XP */
+u16_t zfiStaAddIeWpaRsn(zdev_t* dev, zbuf_t* buf, u16_t offset, u8_t frameType)
+{
+ return zfStaAddIeWpaRsn(dev, buf, offset, frameType);
+}
+
+/* zfiDebugCmd */
+/* cmd value-description */
+/* 0 schedule timer */
+/* 1 cancel timer */
+/* 2 clear timer */
+/* 3 test timer */
+/* 4 */
+/* 5 */
+/* 6 checksum test 0/1 */
+/* 7 enableProtectionMode */
+/* 8 rx packet content dump 0/1 */
+
+u32_t zfiDebugCmd(zdev_t* dev, u32_t cmd, u32_t value)
+{
+ u16_t event;
+ u32_t tick;
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+
+ zmw_enter_critical_section(dev);
+
+ if ( cmd == 0 )
+ { /* schedule timer */
+ event = (u16_t) ((value >> 16) & 0xffff);
+ tick = value & 0xffff;
+ zfTimerSchedule(dev, event, tick);
+ }
+ else if ( cmd == 1 )
+ { /* cancel timer */
+ event = (u16_t) (value & 0xffff);
+ zfTimerCancel(dev, event);
+ }
+ else if ( cmd == 2 )
+ { /* clear timer */
+ zfTimerClear(dev);
+ }
+ else if ( cmd == 3 )
+ { /* test timer */
+ zfTimerSchedule(dev, 1, 500);
+ zfTimerSchedule(dev, 2, 1000);
+ zfTimerSchedule(dev, 3, 1000);
+ zfTimerSchedule(dev, 4, 1000);
+ zfTimerSchedule(dev, 5, 1500);
+ zfTimerSchedule(dev, 6, 2000);
+ zfTimerSchedule(dev, 7, 2200);
+ zfTimerSchedule(dev, 6, 2500);
+ zfTimerSchedule(dev, 8, 2800);
+ }
+ else if ( cmd == 4)
+ {
+ zfTimerSchedule(dev, 1, 500);
+ zfTimerSchedule(dev, 2, 1000);
+ zfTimerSchedule(dev, 3, 1000);
+ zfTimerSchedule(dev, 4, 1000);
+ zfTimerSchedule(dev, 5, 1500);
+ zfTimerSchedule(dev, 6, 2000);
+ zfTimerSchedule(dev, 7, 2200);
+ zfTimerSchedule(dev, 6, 2500);
+ zfTimerSchedule(dev, 8, 2800);
+ zfTimerCancel(dev, 1);
+ zfTimerCancel(dev, 3);
+ zfTimerCancel(dev, 6);
+ }
+ else if ( cmd == 5 )
+ {
+ wd->sta.keyId = (u8_t) value;
+ }
+ else if ( cmd == 6 )
+ {
+ /* 0: normal 1: always set TCP/UDP checksum zero */
+ wd->checksumTest = value;
+ }
+ else if ( cmd == 7 )
+ {
+ wd->enableProtectionMode = value;
+ zm_msg1_mm(ZM_LV_1, "wd->enableProtectionMode=", wd->enableProtectionMode);
+ }
+ else if ( cmd == 8 )
+ {
+ /* rx packet content dump */
+ if (value)
+ {
+ wd->rxPacketDump = 1;
+ }
+ else
+ {
+ wd->rxPacketDump = 0;
+ }
+ }
+
+
+ zmw_leave_critical_section(dev);
+
+ return 0;
+}
+
+#ifdef ZM_ENABLE_CENC
+u8_t zfiWlanSetCencPairwiseKey(zdev_t* dev, u8_t keyid, u32_t *txiv, u32_t *rxiv,
+ u8_t *key, u8_t *mic)
+{
+ struct zsKeyInfo keyInfo;
+ u8_t cencKey[32];
+ u8_t i;
+ u16_t macAddr[3];
+
+ zmw_get_wlan_dev(dev);
+
+ for (i = 0; i < 16; i++)
+ cencKey[i] = key[i];
+ for (i = 0; i < 16; i++)
+ cencKey[i + 16] = mic[i];
+ keyInfo.key = cencKey;
+ keyInfo.keyLength = 32;
+ keyInfo.keyIndex = keyid;
+ keyInfo.flag = ZM_KEY_FLAG_CENC | ZM_KEY_FLAG_PK;
+ for (i = 0; i < 3; i++)
+ macAddr[i] = wd->sta.bssid[i];
+ keyInfo.macAddr = macAddr;
+
+ zfiWlanSetKey(dev, keyInfo);
+
+ /* Reset txiv and rxiv */
+ //wd->sta.txiv[0] = txiv[0];
+ //wd->sta.txiv[1] = txiv[1];
+ //wd->sta.txiv[2] = txiv[2];
+ //wd->sta.txiv[3] = txiv[3];
+ //
+ //wd->sta.rxiv[0] = rxiv[0];
+ //wd->sta.rxiv[1] = rxiv[1];
+ //wd->sta.rxiv[2] = rxiv[2];
+ //wd->sta.rxiv[3] = rxiv[3];
+
+ return 0;
+}
+
+u8_t zfiWlanSetCencGroupKey(zdev_t* dev, u8_t keyid, u32_t *rxiv,
+ u8_t *key, u8_t *mic)
+{
+ struct zsKeyInfo keyInfo;
+ u8_t cencKey[32];
+ u8_t i;
+ u16_t macAddr[6] = {0xffff, 0xffff, 0xffff};
+
+ zmw_get_wlan_dev(dev);
+
+ for (i = 0; i < 16; i++)
+ cencKey[i] = key[i];
+ for (i = 0; i < 16; i++)
+ cencKey[i + 16] = mic[i];
+ keyInfo.key = cencKey;
+ keyInfo.keyLength = 32;
+ keyInfo.keyIndex = keyid;
+ keyInfo.flag = ZM_KEY_FLAG_CENC | ZM_KEY_FLAG_GK;
+ keyInfo.vapId = 0;
+ for (i = 0; i < 3; i++)
+ keyInfo.vapAddr[i] = wd->macAddr[i];
+ keyInfo.macAddr = macAddr;
+
+ zfiWlanSetKey(dev, keyInfo);
+
+ /* Reset txiv and rxiv */
+ wd->sta.rxivGK[0] = ((rxiv[3] >> 24) & 0xFF)
+ + (((rxiv[3] >> 16) & 0xFF) << 8)
+ + (((rxiv[3] >> 8) & 0xFF) << 16)
+ + ((rxiv[3] & 0xFF) << 24);
+ wd->sta.rxivGK[1] = ((rxiv[2] >> 24) & 0xFF)
+ + (((rxiv[2] >> 16) & 0xFF) << 8)
+ + (((rxiv[2] >> 8) & 0xFF) << 16)
+ + ((rxiv[2] & 0xFF) << 24);
+ wd->sta.rxivGK[2] = ((rxiv[1] >> 24) & 0xFF)
+ + (((rxiv[1] >> 16) & 0xFF) << 8)
+ + (((rxiv[1] >> 8) & 0xFF) << 16)
+ + ((rxiv[1] & 0xFF) << 24);
+ wd->sta.rxivGK[3] = ((rxiv[0] >> 24) & 0xFF)
+ + (((rxiv[0] >> 16) & 0xFF) << 8)
+ + (((rxiv[0] >> 8) & 0xFF) << 16)
+ + ((rxiv[0] & 0xFF) << 24);
+
+ wd->sta.authMode = ZM_AUTH_MODE_CENC;
+ wd->sta.currentAuthMode = ZM_AUTH_MODE_CENC;
+
+ return 0;
+}
+#endif //ZM_ENABLE_CENC
+
+u8_t zfiWlanSetDot11DMode(zdev_t* dev, u8_t mode)
+{
+ u8_t i;
+
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.b802_11D = mode;
+ if (mode) //Enable 802.11d
+ {
+ wd->regulationTable.regionCode = NO_ENUMRD;
+ for (i = 0; i < wd->regulationTable.allowChannelCnt; i++)
+ wd->regulationTable.allowChannel[i].channelFlags |= ZM_REG_FLAG_CHANNEL_PASSIVE;
+ }
+ else //Disable
+ {
+ for (i = 0; i < wd->regulationTable.allowChannelCnt; i++)
+ wd->regulationTable.allowChannel[i].channelFlags &= ~ZM_REG_FLAG_CHANNEL_PASSIVE;
+ }
+
+ return 0;
+}
+
+u8_t zfiWlanSetDot11HDFSMode(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ //zm_debug_msg0("CWY - Enable 802.11h DFS");
+
+ // TODO : DFS Enable in 5250 to 5350 MHz and 5470 to 5725 MHz .
+ //if ( Adapter->ZD80211HSupport &&
+ // Adapter->CardSetting.NetworkTypeInUse == Ndis802_11OFDM5 &&
+ // ((ChannelNo >=52 && ChannelNo <= 64) || //5250~5350 MHZ
+ // (ChannelNo >=100 && ChannelNo <= 140))) //5470~5725 MHZ
+ //{
+ // Adapter->ZD80211HSetting.DFSEnable=TRUE;
+ //}
+ //else
+ //{
+ // Adapter->ZD80211HSetting.DFSEnable=FALSE;
+ //}
+
+ wd->sta.DFSEnable = mode;
+ if (mode)
+ wd->sta.capability[1] |= ZM_BIT_0;
+ else
+ wd->sta.capability[1] &= (~ZM_BIT_0);
+
+ return 0;
+}
+
+u8_t zfiWlanSetDot11HTPCMode(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ // TODO : TPC Enable in 5150~5350 MHz and 5470~5725MHz.
+ //if ( Adapter->ZD80211HSupport &&
+ // Adapter->CardSetting.NetworkTypeInUse == Ndis802_11OFDM5 &&
+ // ((ChannelNo == 36 || ChannelNo == 40 || ChannelNo == 44 || ChannelNo == 48) || //5150~5250 MHZ , Not Japan
+ // (ChannelNo >=52 && ChannelNo <= 64) || //5250~5350 MHZ
+ // (ChannelNo >=100 && ChannelNo <= 140))) //5470~5725 MHZ
+ //{
+ // Adapter->ZD80211HSetting.TPCEnable=TRUE;
+ //}
+ //else
+ //{
+ // Adapter->ZD80211HSetting.TPCEnable=FALSE;
+ //}
+
+ wd->sta.TPCEnable = mode;
+ if (mode)
+ wd->sta.capability[1] |= ZM_BIT_0;
+ else
+ wd->sta.capability[1] &= (~ZM_BIT_0);
+
+ return 0;
+}
+
+u8_t zfiWlanSetAniMode(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->aniEnable = mode;
+ if (mode)
+ zfHpAniAttach(dev);
+
+ return 0;
+}
+
+#ifdef ZM_OS_LINUX_FUNC
+void zfiWlanShowTally(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ zm_msg1_mm(ZM_LV_0, "Hw_UnderrunCnt = ", wd->commTally.Hw_UnderrunCnt);
+ zm_msg1_mm(ZM_LV_0, "Hw_TotalRxFrm = ", wd->commTally.Hw_TotalRxFrm);
+ zm_msg1_mm(ZM_LV_0, "Hw_CRC32Cnt = ", wd->commTally.Hw_CRC32Cnt);
+ zm_msg1_mm(ZM_LV_0, "Hw_CRC16Cnt = ", wd->commTally.Hw_CRC16Cnt);
+ zm_msg1_mm(ZM_LV_1, "Hw_DecrypErr_UNI = ", wd->commTally.Hw_DecrypErr_UNI);
+ zm_msg1_mm(ZM_LV_0, "Hw_RxFIFOOverrun = ", wd->commTally.Hw_RxFIFOOverrun);
+ zm_msg1_mm(ZM_LV_1, "Hw_DecrypErr_Mul = ", wd->commTally.Hw_DecrypErr_Mul);
+ zm_msg1_mm(ZM_LV_1, "Hw_RetryCnt = ", wd->commTally.Hw_RetryCnt);
+ zm_msg1_mm(ZM_LV_0, "Hw_TotalTxFrm = ", wd->commTally.Hw_TotalTxFrm);
+ zm_msg1_mm(ZM_LV_0, "Hw_RxTimeOut = ", wd->commTally.Hw_RxTimeOut);
+ zm_msg1_mm(ZM_LV_0, "Tx_MPDU = ", wd->commTally.Tx_MPDU);
+ zm_msg1_mm(ZM_LV_0, "BA_Fail = ", wd->commTally.BA_Fail);
+ zm_msg1_mm(ZM_LV_0, "Hw_Tx_AMPDU = ", wd->commTally.Hw_Tx_AMPDU);
+ zm_msg1_mm(ZM_LV_0, "Hw_Tx_MPDU = ", wd->commTally.Hw_Tx_MPDU);
+
+ zm_msg1_mm(ZM_LV_1, "Hw_RxMPDU = ", wd->commTally.Hw_RxMPDU);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxDropMPDU = ", wd->commTally.Hw_RxDropMPDU);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxDelMPDU = ", wd->commTally.Hw_RxDelMPDU);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxPhyMiscError = ", wd->commTally.Hw_RxPhyMiscError);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxPhyXRError = ", wd->commTally.Hw_RxPhyXRError);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxPhyOFDMError = ", wd->commTally.Hw_RxPhyOFDMError);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxPhyCCKError = ", wd->commTally.Hw_RxPhyCCKError);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxPhyHTError = ", wd->commTally.Hw_RxPhyHTError);
+ zm_msg1_mm(ZM_LV_1, "Hw_RxPhyTotalCount = ", wd->commTally.Hw_RxPhyTotalCount);
+
+ if (!((wd->commTally.Tx_MPDU == 0) && (wd->commTally.BA_Fail == 0)))
+ {
+ zm_debug_msg_p("BA Fail Ratio(%) = ", wd->commTally.BA_Fail * 100,
+ (wd->commTally.BA_Fail + wd->commTally.Tx_MPDU));
+ }
+
+ if (!((wd->commTally.Hw_Tx_MPDU == 0) && (wd->commTally.Hw_Tx_AMPDU == 0)))
+ {
+ zm_debug_msg_p("Avg Agg Number = ",
+ wd->commTally.Hw_Tx_MPDU, wd->commTally.Hw_Tx_AMPDU);
+ }
+}
+#endif
+
+void zfiWlanSetMaxTxPower(zdev_t* dev, u8_t power2, u8_t power5)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->maxTxPower2 = power2;
+ wd->maxTxPower5 = power5;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanQueryMaxTxPower(zdev_t* dev, u8_t *power2, u8_t *power5)
+{
+ zmw_get_wlan_dev(dev);
+
+ *power2 = wd->maxTxPower2;
+ *power5 = wd->maxTxPower5;
+}
+
+void zfiWlanSetConnectMode(zdev_t* dev, u8_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->connectMode = mode;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetSupportMode(zdev_t* dev, u32_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->supportMode = mode;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanSetAdhocMode(zdev_t* dev, u32_t mode)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->ws.adhocMode = mode;
+}
+
+u32_t zfiWlanQueryAdhocMode(zdev_t* dev, u8_t bWrapper)
+{
+ u32_t adhocMode;
+
+ zmw_get_wlan_dev(dev);
+
+ if ( bWrapper )
+ {
+ adhocMode = wd->ws.adhocMode;
+ }
+ else
+ {
+ adhocMode = wd->wfc.bIbssGMode;
+ }
+
+ return adhocMode;
+}
+
+
+u8_t zfiWlanSetCountryIsoName(zdev_t* dev, u8_t *countryIsoName, u8_t length)
+{
+ u8_t buf[5];
+ zmw_get_wlan_dev(dev);
+
+ if (length == 4)
+ {
+ buf[2] = wd->ws.countryIsoName[0] = countryIsoName[2];
+ buf[3] = wd->ws.countryIsoName[1] = countryIsoName[1];
+ buf[4] = wd->ws.countryIsoName[2] = countryIsoName[0];
+ }
+ else if (length == 3)
+ {
+ buf[2] = wd->ws.countryIsoName[0] = countryIsoName[1];
+ buf[3] = wd->ws.countryIsoName[1] = countryIsoName[0];
+ buf[4] = wd->ws.countryIsoName[2] = '\0';
+ }
+ else
+ {
+ return 1;
+ }
+
+ return zfHpGetRegulationTablefromISO(dev, buf, length);
+}
+
+
+const char* zfiWlanQueryCountryIsoName(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->ws.countryIsoName;
+}
+
+
+
+void zfiWlanSetRegulatory(zdev_t* dev, u8_t CCS, u16_t Code, u8_t bfirstChannel)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ if (CCS)
+ {
+ /* Reset Regulation Table by Country Code */
+ zfHpGetRegulationTablefromCountry(dev, Code);
+ }
+ else
+ {
+ /* Reset Regulation Table by Region Code */
+ zfHpGetRegulationTablefromRegionCode(dev, Code);
+ }
+
+ if (bfirstChannel) {
+ zmw_enter_critical_section(dev);
+ wd->frequency = zfChGetFirstChannel(dev, NULL);
+ zmw_leave_critical_section(dev);
+ zfCoreSetFrequency(dev, wd->frequency);
+ }
+}
+
+
+const char* zfiHpGetisoNamefromregionCode(zdev_t* dev, u16_t regionCode)
+{
+ return zfHpGetisoNamefromregionCode(dev, regionCode);
+}
+
+u16_t zfiWlanChannelToFrequency(zdev_t* dev, u8_t channel)
+{
+ return zfChNumToFreq(dev, channel, 0);
+}
+
+u8_t zfiWlanFrequencyToChannel(zdev_t* dev, u16_t freq)
+{
+ u8_t is5GBand = 0;
+
+ return zfChFreqToNum(freq, &is5GBand);
+}
+
+void zfiWlanDisableDfsChannel(zdev_t* dev, u8_t disableFlag)
+{
+ zfHpDisableDfsChannel(dev, disableFlag);
+ return;
+}
+
+void zfiWlanSetLEDCtrlParam(zdev_t* dev, u8_t type, u8_t flag)
+{
+ zmw_get_wlan_dev(dev);
+
+ zmw_declare_for_critical_section();
+
+ zmw_enter_critical_section(dev);
+ wd->ledStruct.LEDCtrlType = type;
+ wd->ledStruct.LEDCtrlFlagFromReg = flag;
+ zmw_leave_critical_section(dev);
+}
+
+void zfiWlanEnableLeapConfig(zdev_t* dev, u8_t leapEnabled)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.leapEnabled = leapEnabled;
+}
+
+u32_t zfiWlanQueryHwCapability(zdev_t* dev)
+{
+ return zfHpCapability(dev);
+}
+
+u32_t zfiWlanQueryReceivedPacket(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->sta.ReceivedPktRatePerSecond;
+}
+
+void zfiWlanCheckSWEncryption(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ if (wd->sta.SWEncryptEnable != 0)
+ {
+ zfHpSWDecrypt(dev, 1);
+ }
+}
+
+u16_t zfiWlanQueryAllowChannels(zdev_t* dev, u16_t *channels)
+{
+ u16_t ii;
+ zmw_get_wlan_dev(dev);
+
+ for (ii = 0; ii < wd->regulationTable.allowChannelCnt; ii++)
+ {
+ channels[ii] = wd->regulationTable.allowChannel[ii].channel;
+ }
+
+ return wd->regulationTable.allowChannelCnt;
+}
+
+void zfiWlanSetDynamicSIFSParam(zdev_t* dev, u8_t val)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->dynamicSIFSEnable = val;
+
+ zm_debug_msg1("wd->dynamicSIFSEnable = ", wd->dynamicSIFSEnable)
+}
+
+u16_t zfiWlanGetMulticastAddressCount(zdev_t* dev)
+{
+ zmw_get_wlan_dev(dev);
+
+ return wd->sta.multicastList.size;
+}
+
+void zfiWlanGetMulticastList(zdev_t* dev, u8_t* pMCList)
+{
+ struct zsMulticastAddr* pMacList = (struct zsMulticastAddr*) pMCList;
+ u8_t i;
+
+ zmw_get_wlan_dev(dev);
+
+ for ( i=0; i<wd->sta.multicastList.size; i++ )
+ {
+ zfMemoryCopy(pMacList[i].addr, wd->sta.multicastList.macAddr[i].addr, 6);
+ }
+}
+
+void zfiWlanSetPacketFilter(zdev_t* dev, u32_t PacketFilter)
+{
+ u8_t bAllMulticast = 0;
+ u32_t oldFilter;
+
+ zmw_get_wlan_dev(dev);
+
+ oldFilter = wd->sta.osRxFilter;
+
+ wd->sta.osRxFilter = PacketFilter;
+
+ if ((oldFilter & ZM_PACKET_TYPE_ALL_MULTICAST) !=
+ (wd->sta.osRxFilter & ZM_PACKET_TYPE_ALL_MULTICAST))
+ {
+ if ( wd->sta.osRxFilter & ZM_PACKET_TYPE_ALL_MULTICAST )
+ bAllMulticast = 1;
+ zfHpSetMulticastList(dev, wd->sta.multicastList.size,
+ (u8_t*)wd->sta.multicastList.macAddr, bAllMulticast);
+ }
+}
+
+u8_t zfiCompareWithMulticastListAddress(zdev_t* dev, u16_t* dstMacAddr)
+{
+ u8_t i;
+ u8_t bIsInMCListAddr = 0;
+
+ zmw_get_wlan_dev(dev);
+
+ for ( i=0; i<wd->sta.multicastList.size; i++ )
+ {
+ if ( zfwMemoryIsEqual((u8_t*)dstMacAddr, (u8_t*)wd->sta.multicastList.macAddr[i].addr, 6) )
+ {
+ bIsInMCListAddr = 1;
+ break;
+ }
+ }
+
+ return bIsInMCListAddr;
+}
+
+void zfiWlanSetSafeModeEnabled(zdev_t* dev, u8_t safeMode)
+{
+ zmw_get_wlan_dev(dev);
+
+ wd->sta.bSafeMode = safeMode;
+
+ if ( safeMode )
+ zfStaEnableSWEncryption(dev, 1);
+ else
+ zfStaDisableSWEncryption(dev);
+}
+
+void zfiWlanSetIBSSAdditionalIELength(zdev_t* dev, u32_t ibssAdditionalIESize, u8_t* ibssAdditionalIE)
+{
+ zmw_get_wlan_dev(dev);
+
+ if ( ibssAdditionalIESize )
+ {
+ wd->sta.ibssAdditionalIESize = ibssAdditionalIESize;
+ zfMemoryCopy(wd->sta.ibssAdditionalIE, ibssAdditionalIE, (u16_t)ibssAdditionalIESize);
+ }
+ else
+ wd->sta.ibssAdditionalIESize = 0;
+}
Copyright © 1996 – 2023 Jason A. Donenfeld. All Rights Reverse Engineered.