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coral / mt7668-wifi-mod / f850c5093c66ce84f5168f9b545e9b90d0c7df78 / . / os / linux / gl_wext_priv.c
blob: 10d9c8f519c3037cf414c4b29ac303614b14c9ee [file] [log] [blame]
/******************************************************************************
*
* This file is provided under a dual license. When you use or
* distribute this software, you may choose to be licensed under
* version 2 of the GNU General Public License ("GPLv2 License")
* or BSD License.
*
* GPLv2 License
*
* Copyright(C) 2016 MediaTek Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See http://www.gnu.org/licenses/gpl-2.0.html for more details.
*
* BSD LICENSE
*
* Copyright(C) 2016 MediaTek Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of the copyright holder nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
*****************************************************************************/
/*
** Id: //Department/DaVinci/BRANCHES/MT6620_WIFI_DRIVER_V2_3/os/linux/gl_wext_priv.c#8
*/
/*! \file gl_wext_priv.c
* \brief This file includes private ioctl support.
*/
/*******************************************************************************
* C O M P I L E R F L A G S
********************************************************************************
*/
/*******************************************************************************
* E X T E R N A L R E F E R E N C E S
********************************************************************************
*/
#include "precomp.h"
#include "gl_os.h"
#include "gl_wext_priv.h"
#if CFG_SUPPORT_QA_TOOL
#include "gl_ate_agent.h"
#include "gl_qa_agent.h"
#endif
#if CFG_SUPPORT_WAPI
#include "gl_sec.h"
#endif
#if CFG_ENABLE_WIFI_DIRECT
#include "gl_p2p_os.h"
#endif
/*
* #if CFG_SUPPORT_QA_TOOL
* extern UINT_16 g_u2DumpIndex;
* #endif
*/
/*******************************************************************************
* C O N S T A N T S
********************************************************************************
*/
#define NUM_SUPPORTED_OIDS (sizeof(arWlanOidReqTable) / sizeof(WLAN_REQ_ENTRY))
/*******************************************************************************
* F U N C T I O N D E C L A R A T I O N S
********************************************************************************
*/
static int
priv_get_ndis(IN struct net_device *prNetDev, IN NDIS_TRANSPORT_STRUCT * prNdisReq, OUT PUINT_32 pu4OutputLen);
static int
priv_set_ndis(IN struct net_device *prNetDev, IN NDIS_TRANSPORT_STRUCT * prNdisReq, OUT PUINT_32 pu4OutputLen);
#if 0 /* CFG_SUPPORT_WPS */
static int
priv_set_appie(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, OUT char *pcExtra);
static int
priv_set_filter(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, OUT char *pcExtra);
#endif /* CFG_SUPPORT_WPS */
static BOOLEAN reqSearchSupportedOidEntry(IN UINT_32 rOid, OUT P_WLAN_REQ_ENTRY * ppWlanReqEntry);
#if 0
static WLAN_STATUS
reqExtQueryConfiguration(IN P_GLUE_INFO_T prGlueInfo,
OUT PVOID pvQueryBuffer, IN UINT_32 u4QueryBufferLen, OUT PUINT_32 pu4QueryInfoLen);
static WLAN_STATUS
reqExtSetConfiguration(IN P_GLUE_INFO_T prGlueInfo,
IN PVOID pvSetBuffer, IN UINT_32 u4SetBufferLen, OUT PUINT_32 pu4SetInfoLen);
#endif
static WLAN_STATUS
reqExtSetAcpiDevicePowerState(IN P_GLUE_INFO_T prGlueInfo,
IN PVOID pvSetBuffer, IN UINT_32 u4SetBufferLen, OUT PUINT_32 pu4SetInfoLen);
/*******************************************************************************
* P R I V A T E D A T A
********************************************************************************
*/
static UINT_8 aucOidBuf[4096] = { 0 };
/* OID processing table */
/* Order is important here because the OIDs should be in order of
* increasing value for binary searching.
*/
static WLAN_REQ_ENTRY arWlanOidReqTable[] = {
#if 0
{(NDIS_OID)rOid,
(PUINT_8)pucOidName,
fgQryBufLenChecking, fgSetBufLenChecking, fgIsHandleInGlueLayerOnly, u4InfoBufLen,
pfOidQueryHandler,
pfOidSetHandler}
#endif
/* General Operational Characteristics */
/* Ethernet Operational Characteristics */
{OID_802_3_CURRENT_ADDRESS,
DISP_STRING("OID_802_3_CURRENT_ADDRESS"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, 6,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryCurrentAddr,
NULL},
/* OID_802_3_MULTICAST_LIST */
/* OID_802_3_MAXIMUM_LIST_SIZE */
/* Ethernet Statistics */
/* NDIS 802.11 Wireless LAN OIDs */
{OID_802_11_SUPPORTED_RATES,
DISP_STRING("OID_802_11_SUPPORTED_RATES"),
TRUE, FALSE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_RATES_EX),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQuerySupportedRates,
NULL}
,
/*
* {OID_802_11_CONFIGURATION,
* DISP_STRING("OID_802_11_CONFIGURATION"),
* TRUE, TRUE, ENUM_OID_GLUE_EXTENSION, sizeof(PARAM_802_11_CONFIG_T),
* (PFN_OID_HANDLER_FUNC_REQ)reqExtQueryConfiguration,
* (PFN_OID_HANDLER_FUNC_REQ)reqExtSetConfiguration},
*/
{OID_PNP_SET_POWER,
DISP_STRING("OID_PNP_SET_POWER"),
TRUE, FALSE, ENUM_OID_GLUE_EXTENSION, sizeof(PARAM_DEVICE_POWER_STATE),
NULL,
(PFN_OID_HANDLER_FUNC_REQ) reqExtSetAcpiDevicePowerState}
,
/* Custom OIDs */
{OID_CUSTOM_OID_INTERFACE_VERSION,
DISP_STRING("OID_CUSTOM_OID_INTERFACE_VERSION"),
TRUE, FALSE, ENUM_OID_DRIVER_CORE, 4,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryOidInterfaceVersion,
NULL}
,
#if 0
#if PTA_ENABLED
{OID_CUSTOM_BT_COEXIST_CTRL,
DISP_STRING("OID_CUSTOM_BT_COEXIST_CTRL"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_BT_COEXIST_T),
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetBtCoexistCtrl},
#endif
{OID_CUSTOM_POWER_MANAGEMENT_PROFILE,
DISP_STRING("OID_CUSTOM_POWER_MANAGEMENT_PROFILE"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryPwrMgmtProfParam,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetPwrMgmtProfParam},
{OID_CUSTOM_PATTERN_CONFIG,
DISP_STRING("OID_CUSTOM_PATTERN_CONFIG"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_PATTERN_SEARCH_CONFIG_STRUCT_T),
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetPatternConfig},
{OID_CUSTOM_BG_SSID_SEARCH_CONFIG,
DISP_STRING("OID_CUSTOM_BG_SSID_SEARCH_CONFIG"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetBgSsidParam},
{OID_CUSTOM_VOIP_SETUP,
DISP_STRING("OID_CUSTOM_VOIP_SETUP"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, 4,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryVoipConnectionStatus,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetVoipConnectionStatus},
{OID_CUSTOM_ADD_TS,
DISP_STRING("OID_CUSTOM_ADD_TS"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, 4,
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidAddTS},
{OID_CUSTOM_DEL_TS,
DISP_STRING("OID_CUSTOM_DEL_TS"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, 4,
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidDelTS},
#if CFG_LP_PATTERN_SEARCH_SLT
{OID_CUSTOM_SLT,
DISP_STRING("OID_CUSTOM_SLT"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQuerySltResult,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetSltMode},
#endif
{OID_CUSTOM_ROAMING_EN,
DISP_STRING("OID_CUSTOM_ROAMING_EN"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, 4,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryRoamingFunction,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetRoamingFunction},
{OID_CUSTOM_WMM_PS_TEST,
DISP_STRING("OID_CUSTOM_WMM_PS_TEST"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, 4,
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetWiFiWmmPsTest},
{OID_CUSTOM_COUNTRY_STRING,
DISP_STRING("OID_CUSTOM_COUNTRY_STRING"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryCurrentCountry,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetCurrentCountry},
#if CFG_SUPPORT_802_11D
{OID_CUSTOM_MULTI_DOMAIN_CAPABILITY,
DISP_STRING("OID_CUSTOM_MULTI_DOMAIN_CAPABILITY"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryMultiDomainCap,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetMultiDomainCap},
#endif
{OID_CUSTOM_GPIO2_MODE,
DISP_STRING("OID_CUSTOM_GPIO2_MODE"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(ENUM_PARAM_GPIO2_MODE_T),
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetGPIO2Mode},
{OID_CUSTOM_CONTINUOUS_POLL,
DISP_STRING("OID_CUSTOM_CONTINUOUS_POLL"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CONTINUOUS_POLL_T),
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryContinuousPollInterval,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetContinuousPollProfile},
{OID_CUSTOM_DISABLE_BEACON_DETECTION,
DISP_STRING("OID_CUSTOM_DISABLE_BEACON_DETECTION"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, 4,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryDisableBeaconDetectionFunc,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetDisableBeaconDetectionFunc},
/* WPS */
{OID_CUSTOM_DISABLE_PRIVACY_CHECK,
DISP_STRING("OID_CUSTOM_DISABLE_PRIVACY_CHECK"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, 4,
NULL,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetDisablePriavcyCheck},
#endif
{OID_CUSTOM_MCR_RW,
DISP_STRING("OID_CUSTOM_MCR_RW"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_MCR_RW_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryMcrRead,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetMcrWrite}
,
{OID_CUSTOM_EEPROM_RW,
DISP_STRING("OID_CUSTOM_EEPROM_RW"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_EEPROM_RW_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryEepromRead,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetEepromWrite}
,
{OID_CUSTOM_SW_CTRL,
DISP_STRING("OID_CUSTOM_SW_CTRL"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_SW_CTRL_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQuerySwCtrlRead,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetSwCtrlWrite}
,
{OID_CUSTOM_MEM_DUMP,
DISP_STRING("OID_CUSTOM_MEM_DUMP"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_MEM_DUMP_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryMemDump,
NULL}
,
{OID_CUSTOM_TEST_MODE,
DISP_STRING("OID_CUSTOM_TEST_MODE"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidRftestSetTestMode}
,
#if 0
{OID_CUSTOM_TEST_RX_STATUS,
DISP_STRING("OID_CUSTOM_TEST_RX_STATUS"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_RFTEST_RX_STATUS_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryRfTestRxStatus,
NULL},
{OID_CUSTOM_TEST_TX_STATUS,
DISP_STRING("OID_CUSTOM_TEST_TX_STATUS"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_RFTEST_TX_STATUS_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryRfTestTxStatus,
NULL},
#endif
{OID_CUSTOM_ABORT_TEST_MODE,
DISP_STRING("OID_CUSTOM_ABORT_TEST_MODE"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidRftestSetAbortTestMode}
,
{OID_CUSTOM_MTK_WIFI_TEST,
DISP_STRING("OID_CUSTOM_MTK_WIFI_TEST"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_MTK_WIFI_TEST_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidRftestQueryAutoTest,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidRftestSetAutoTest}
,
{OID_CUSTOM_TEST_ICAP_MODE,
DISP_STRING("OID_CUSTOM_TEST_ICAP_MODE"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidRftestSetTestIcapMode}
,
/* OID_CUSTOM_EMULATION_VERSION_CONTROL */
/* BWCS */
#if CFG_SUPPORT_BCM && CFG_SUPPORT_BCM_BWCS
{OID_CUSTOM_BWCS_CMD,
DISP_STRING("OID_CUSTOM_BWCS_CMD"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, sizeof(PTA_IPC_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryBT,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetBT}
,
#endif
#if 0
{OID_CUSTOM_SINGLE_ANTENNA,
DISP_STRING("OID_CUSTOM_SINGLE_ANTENNA"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 4,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryBtSingleAntenna,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetBtSingleAntenna},
{OID_CUSTOM_SET_PTA,
DISP_STRING("OID_CUSTOM_SET_PTA"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 4,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidQueryPta,
(PFN_OID_HANDLER_FUNC_REQ)wlanoidSetPta},
#endif
{OID_CUSTOM_MTK_NVRAM_RW,
DISP_STRING("OID_CUSTOM_MTK_NVRAM_RW"),
TRUE, TRUE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_CUSTOM_NVRAM_RW_STRUCT_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryNvramRead,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetNvramWrite}
,
{OID_CUSTOM_CFG_SRC_TYPE,
DISP_STRING("OID_CUSTOM_CFG_SRC_TYPE"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, sizeof(ENUM_CFG_SRC_TYPE_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryCfgSrcType,
NULL}
,
{OID_CUSTOM_EEPROM_TYPE,
DISP_STRING("OID_CUSTOM_EEPROM_TYPE"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, sizeof(ENUM_EEPROM_TYPE_T),
(PFN_OID_HANDLER_FUNC_REQ) wlanoidQueryEepromType,
NULL}
,
#if CFG_SUPPORT_WAPI
{OID_802_11_WAPI_MODE,
DISP_STRING("OID_802_11_WAPI_MODE"),
FALSE, TRUE, ENUM_OID_DRIVER_CORE, 4,
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetWapiMode}
,
{OID_802_11_WAPI_ASSOC_INFO,
DISP_STRING("OID_802_11_WAPI_ASSOC_INFO"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetWapiAssocInfo}
,
{OID_802_11_SET_WAPI_KEY,
DISP_STRING("OID_802_11_SET_WAPI_KEY"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, sizeof(PARAM_WPI_KEY_T),
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetWapiKey}
,
#endif
#if CFG_SUPPORT_WPS2
{OID_802_11_WSC_ASSOC_INFO,
DISP_STRING("OID_802_11_WSC_ASSOC_INFO"),
FALSE, FALSE, ENUM_OID_DRIVER_CORE, 0,
NULL,
(PFN_OID_HANDLER_FUNC_REQ) wlanoidSetWSCAssocInfo}
,
#endif
};
/*******************************************************************************
* F U N C T I O N S
********************************************************************************
*/
/*----------------------------------------------------------------------------*/
/*!
* \brief Dispatching function for private ioctl region (SIOCIWFIRSTPRIV ~
* SIOCIWLASTPRIV).
*
* \param[in] prNetDev Net device requested.
* \param[in] prIfReq Pointer to ifreq structure.
* \param[in] i4Cmd Command ID between SIOCIWFIRSTPRIV and SIOCIWLASTPRIV.
*
* \retval 0 for success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EFAULT For fail.
*
*/
/*----------------------------------------------------------------------------*/
int priv_support_ioctl(IN struct net_device *prNetDev, IN OUT struct ifreq *prIfReq, IN int i4Cmd)
{
/* prIfReq is verified in the caller function wlanDoIOCTL() */
struct iwreq *prIwReq = (struct iwreq *)prIfReq;
struct iw_request_info rIwReqInfo;
/* prNetDev is verified in the caller function wlanDoIOCTL() */
/* Prepare the call */
rIwReqInfo.cmd = (__u16) i4Cmd;
rIwReqInfo.flags = 0;
switch (i4Cmd) {
case IOCTL_SET_INT:
/* NOTE(Kevin): 1/3 INT Type <= IFNAMSIZ, so we don't need copy_from/to_user() */
return priv_set_int(prNetDev, &rIwReqInfo, &(prIwReq->u), (char *)&(prIwReq->u));
case IOCTL_GET_INT:
/* NOTE(Kevin): 1/3 INT Type <= IFNAMSIZ, so we don't need copy_from/to_user() */
return priv_get_int(prNetDev, &rIwReqInfo, &(prIwReq->u), (char *)&(prIwReq->u));
case IOCTL_SET_STRUCT:
case IOCTL_SET_STRUCT_FOR_EM:
return priv_set_struct(prNetDev, &rIwReqInfo, &prIwReq->u, (char *)&(prIwReq->u));
case IOCTL_GET_STRUCT:
return priv_get_struct(prNetDev, &rIwReqInfo, &prIwReq->u, (char *)&(prIwReq->u));
#if (CFG_SUPPORT_QA_TOOL)
case IOCTL_QA_TOOL_DAEMON:
return priv_qa_agent(prNetDev, &rIwReqInfo, &(prIwReq->u), (char *)&(prIwReq->u));
#endif
case IOCTL_GET_STR:
default:
return -EOPNOTSUPP;
} /* end of switch */
} /* priv_support_ioctl */
#if CFG_SUPPORT_BATCH_SCAN
EVENT_BATCH_RESULT_T g_rEventBatchResult[CFG_BATCH_MAX_MSCAN];
UINT_32 batchChannelNum2Freq(UINT_32 u4ChannelNum)
{
UINT_32 u4ChannelInMHz;
if (u4ChannelNum >= 1 && u4ChannelNum <= 13)
u4ChannelInMHz = 2412 + (u4ChannelNum - 1) * 5;
else if (u4ChannelNum == 14)
u4ChannelInMHz = 2484;
else if (u4ChannelNum == 133)
u4ChannelInMHz = 3665; /* 802.11y */
else if (u4ChannelNum == 137)
u4ChannelInMHz = 3685; /* 802.11y */
else if (u4ChannelNum >= 34 && u4ChannelNum <= 165)
u4ChannelInMHz = 5000 + u4ChannelNum * 5;
else if (u4ChannelNum >= 183 && u4ChannelNum <= 196)
u4ChannelInMHz = 4000 + u4ChannelNum * 5;
else
u4ChannelInMHz = 0;
return u4ChannelInMHz;
}
#define TMP_TEXT_LEN_S 40
#define TMP_TEXT_LEN_L 60
static UCHAR text1[TMP_TEXT_LEN_S], text2[TMP_TEXT_LEN_L], text3[TMP_TEXT_LEN_L]; /* A safe len */
WLAN_STATUS
batchConvertResult(IN P_EVENT_BATCH_RESULT_T prEventBatchResult,
OUT PVOID pvBuffer, IN UINT_32 u4MaxBufferLen, OUT PUINT_32 pu4RetLen)
{
CHAR *p = pvBuffer;
CHAR ssid[ELEM_MAX_LEN_SSID + 1];
INT_32 nsize, nsize1, nsize2, nsize3, scancount;
INT_32 i, j, nleft;
UINT_32 freq;
P_EVENT_BATCH_RESULT_ENTRY_T prEntry;
P_EVENT_BATCH_RESULT_T pBr;
nsize = 0;
nleft = u4MaxBufferLen;
pBr = prEventBatchResult;
scancount = 0;
for (j = 0; j < CFG_BATCH_MAX_MSCAN; j++) {
scancount += pBr->ucScanCount;
pBr++;
}
nsize1 = scnprintf(text1, TMP_TEXT_LEN_S, "scancount=%ld\nnextcount=%ld\n", scancount, scancount);
if (nsize1 < nleft) {
nsize1 = scnprintf(p, nleft, "%s", text1);
p += nsize1;
nleft -= nsize1;
} else
goto short_buf;
pBr = prEventBatchResult;
for (j = 0; j < CFG_BATCH_MAX_MSCAN; j++) {
DBGLOG(SCN, TRACE, "convert mscan = %d, apcount=%d, nleft=%d\n", j, pBr->ucScanCount, nleft);
if (pBr->ucScanCount == 0) {
pBr++;
continue;
}
nleft -= 5; /* -5 for "####\n" */
/* We only support one round scan result now. */
nsize1 = scnprintf(text1, TMP_TEXT_LEN_S, "apcount=%d\n", pBr->ucScanCount);
if (nsize1 < nleft) {
nsize1 = scnprintf(p, nleft, "%s", text1);
p += nsize1;
nleft -= nsize1;
} else
goto short_buf;
for (i = 0; i < pBr->ucScanCount; i++) {
prEntry = &pBr->arBatchResult[i];
nsize1 = scnprintf(text1, TMP_TEXT_LEN_S, "bssid=" MACSTR "\n",
MAC2STR(prEntry->aucBssid));
kalMemCopy(ssid,
prEntry->aucSSID,
(prEntry->ucSSIDLen < ELEM_MAX_LEN_SSID ? prEntry->ucSSIDLen : ELEM_MAX_LEN_SSID));
ssid[(prEntry->ucSSIDLen <
(ELEM_MAX_LEN_SSID - 1) ? prEntry->ucSSIDLen : (ELEM_MAX_LEN_SSID - 1))] = '\0';
nsize2 = scnprintf(text2, TMP_TEXT_LEN_L, "ssid=%s\n", ssid);
freq = batchChannelNum2Freq(prEntry->ucFreq);
nsize3 =
scnprintf(text3, TMP_TEXT_LEN_L,
"freq=%lu\nlevel=%d\ndist=%lu\ndistSd=%lu\n====\n", freq,
prEntry->cRssi, prEntry->u4Dist, prEntry->u4Distsd);
nsize = nsize1 + nsize2 + nsize3;
if (nsize < nleft) {
kalStrnCpy(p, text1, TMP_TEXT_LEN_S);
p += nsize1;
kalStrnCpy(p, text2, TMP_TEXT_LEN_L);
p += nsize2;
kalStrnCpy(p, text3, TMP_TEXT_LEN_L);
p += nsize3;
nleft -= nsize;
} else {
DBGLOG(SCN, TRACE, "Warning: Early break! (%d)\n", i);
break; /* discard following entries, TODO: apcount? */
}
}
nsize1 = kalSnprintf(text1, TMP_TEXT_LEN_S, "%s", "####\n");
if (nsize1 < nleft) {
nsize1 = scnprintf(p, nleft, "%s", text1);
p += nsize1;
nleft -= nsize1;
} else
goto short_buf;
pBr++;
}
nsize1 = scnprintf(text1, TMP_TEXT_LEN_S, "%s", "----\n");
if (nsize1 < nleft)
scnprintf(p, nleft, "%s", text1);
else
goto short_buf;
*pu4RetLen = u4MaxBufferLen - nleft;
DBGLOG(SCN, TRACE, "total len = %d (max len = %d)\n", *pu4RetLen, u4MaxBufferLen);
return WLAN_STATUS_SUCCESS;
short_buf:
DBGLOG(SCN, TRACE,
"Short buffer issue! %d > %d, %s\n", u4MaxBufferLen + (nsize - nleft), u4MaxBufferLen, pvBuffer);
return WLAN_STATUS_INVALID_LENGTH;
}
#endif
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl set int handler.
*
* \param[in] prNetDev Net device requested.
* \param[in] prIwReqInfo Pointer to iwreq structure.
* \param[in] prIwReqData The ioctl data structure, use the field of sub-command.
* \param[in] pcExtra The buffer with input value
*
* \retval 0 For success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EINVAL If a value is out of range.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_set_int(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN char *pcExtra)
{
UINT_32 u4SubCmd;
PUINT_32 pu4IntBuf;
P_NDIS_TRANSPORT_STRUCT prNdisReq;
P_GLUE_INFO_T prGlueInfo;
UINT_32 u4BufLen = 0;
int status = 0;
P_PTA_IPC_T prPtaIpc;
ASSERT(prNetDev);
ASSERT(prIwReqInfo);
ASSERT(prIwReqData);
ASSERT(pcExtra);
if (GLUE_CHK_PR3(prNetDev, prIwReqData, pcExtra) == FALSE)
return -EINVAL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
u4SubCmd = (UINT_32) prIwReqData->mode;
pu4IntBuf = (PUINT_32) pcExtra;
switch (u4SubCmd) {
case PRIV_CMD_TEST_MODE:
/* printk("TestMode=%ld\n", pu4IntBuf[1]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
if (pu4IntBuf[1] == PRIV_CMD_TEST_MAGIC_KEY) {
prNdisReq->ndisOidCmd = OID_CUSTOM_TEST_MODE;
} else if (pu4IntBuf[1] == 0) {
prNdisReq->ndisOidCmd = OID_CUSTOM_ABORT_TEST_MODE;
} else if (pu4IntBuf[1] == PRIV_CMD_TEST_MAGIC_KEY_ICAP) {
prNdisReq->ndisOidCmd = OID_CUSTOM_TEST_ICAP_MODE;
} else {
status = 0;
break;
}
prNdisReq->inNdisOidlength = 0;
prNdisReq->outNdisOidLength = 0;
/* Execute this OID */
status = priv_set_ndis(prNetDev, prNdisReq, &u4BufLen);
break;
case PRIV_CMD_TEST_CMD:
/* printk("CMD=0x%08lx, data=0x%08lx\n", pu4IntBuf[1], pu4IntBuf[2]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_MTK_WIFI_TEST;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
/* Execute this OID */
status = priv_set_ndis(prNetDev, prNdisReq, &u4BufLen);
break;
#if CFG_SUPPORT_PRIV_MCR_RW
case PRIV_CMD_ACCESS_MCR:
/* printk("addr=0x%08lx, data=0x%08lx\n", pu4IntBuf[1], pu4IntBuf[2]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
if (!prGlueInfo->fgMcrAccessAllowed) {
if (pu4IntBuf[1] == PRIV_CMD_TEST_MAGIC_KEY && pu4IntBuf[2] == PRIV_CMD_TEST_MAGIC_KEY)
prGlueInfo->fgMcrAccessAllowed = TRUE;
status = 0;
break;
}
if (pu4IntBuf[1] == PRIV_CMD_TEST_MAGIC_KEY && pu4IntBuf[2] == PRIV_CMD_TEST_MAGIC_KEY) {
status = 0;
break;
}
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_MCR_RW;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
/* Execute this OID */
status = priv_set_ndis(prNetDev, prNdisReq, &u4BufLen);
break;
#endif
case PRIV_CMD_SW_CTRL:
/* printk("addr=0x%08lx, data=0x%08lx\n", pu4IntBuf[1], pu4IntBuf[2]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_SW_CTRL;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
/* Execute this OID */
status = priv_set_ndis(prNetDev, prNdisReq, &u4BufLen);
break;
#if 0
case PRIV_CMD_BEACON_PERIOD:
/* pu4IntBuf[0] is used as input SubCmd */
rStatus = wlanSetInformation(prGlueInfo->prAdapter, wlanoidSetBeaconInterval, (PVOID)&pu4IntBuf[1],
sizeof(UINT_32), &u4BufLen);
break;
#endif
#if CFG_TCP_IP_CHKSUM_OFFLOAD
case PRIV_CMD_CSUM_OFFLOAD:
{
UINT_32 u4CSUMFlags;
if (pu4IntBuf[1] == 1)
u4CSUMFlags = CSUM_OFFLOAD_EN_ALL;
else if (pu4IntBuf[1] == 0)
u4CSUMFlags = 0;
else
return -EINVAL;
if (kalIoctl(prGlueInfo,
wlanoidSetCSUMOffload,
(PVOID)&u4CSUMFlags,
sizeof(UINT_32), FALSE, FALSE, TRUE, &u4BufLen) == WLAN_STATUS_SUCCESS) {
if (pu4IntBuf[1] == 1)
prNetDev->features |= NETIF_F_IP_CSUM | NETIF_F_IPV6_CSUM | NETIF_F_RXCSUM;
else if (pu4IntBuf[1] == 0)
prNetDev->features &= ~(NETIF_F_IP_CSUM | NETIF_F_IPV6_CSUM | NETIF_F_RXCSUM);
}
}
break;
#endif /* CFG_TCP_IP_CHKSUM_OFFLOAD */
case PRIV_CMD_POWER_MODE:
{
PARAM_POWER_MODE_T rPowerMode;
P_BSS_INFO_T prBssInfo = prGlueInfo->prAdapter->prAisBssInfo;
if (!prBssInfo)
break;
rPowerMode.ePowerMode = (PARAM_POWER_MODE) pu4IntBuf[1];
rPowerMode.ucBssIdx = prBssInfo->ucBssIndex;
/* pu4IntBuf[0] is used as input SubCmd */
kalIoctl(prGlueInfo, wlanoidSet802dot11PowerSaveProfile, &rPowerMode,
sizeof(PARAM_POWER_MODE_T), FALSE, FALSE, TRUE, &u4BufLen);
}
break;
case PRIV_CMD_WMM_PS:
{
PARAM_CUSTOM_WMM_PS_TEST_STRUCT_T rWmmPsTest;
rWmmPsTest.bmfgApsdEnAc = (UINT_8) pu4IntBuf[1];
rWmmPsTest.ucIsEnterPsAtOnce = (UINT_8) pu4IntBuf[2];
rWmmPsTest.ucIsDisableUcTrigger = (UINT_8) pu4IntBuf[3];
rWmmPsTest.reserved = 0;
kalIoctl(prGlueInfo,
wlanoidSetWiFiWmmPsTest,
(PVOID)&rWmmPsTest,
sizeof(PARAM_CUSTOM_WMM_PS_TEST_STRUCT_T), FALSE, FALSE, TRUE, &u4BufLen);
}
break;
#if 0
case PRIV_CMD_ADHOC_MODE:
/* pu4IntBuf[0] is used as input SubCmd */
rStatus = wlanSetInformation(prGlueInfo->prAdapter, wlanoidSetAdHocMode, (PVOID)&pu4IntBuf[1],
sizeof(UINT_32), &u4BufLen);
break;
#endif
case PRIV_CUSTOM_BWCS_CMD:
DBGLOG(REQ, INFO,
"pu4IntBuf[1] = %x, size of PTA_IPC_T = %d.\n", pu4IntBuf[1], sizeof(PARAM_PTA_IPC_T));
prPtaIpc = (P_PTA_IPC_T) aucOidBuf;
prPtaIpc->u.aucBTPParams[0] = (UINT_8) (pu4IntBuf[1] >> 24);
prPtaIpc->u.aucBTPParams[1] = (UINT_8) (pu4IntBuf[1] >> 16);
prPtaIpc->u.aucBTPParams[2] = (UINT_8) (pu4IntBuf[1] >> 8);
prPtaIpc->u.aucBTPParams[3] = (UINT_8) (pu4IntBuf[1]);
DBGLOG(REQ, INFO,
"BCM BWCS CMD : PRIV_CUSTOM_BWCS_CMD : aucBTPParams[0] = %02x, aucBTPParams[1] = %02x.\n",
prPtaIpc->u.aucBTPParams[0], prPtaIpc->u.aucBTPParams[1]);
DBGLOG(REQ, INFO,
"BCM BWCS CMD : PRIV_CUSTOM_BWCS_CMD : aucBTPParams[2] = %02x, aucBTPParams[3] = %02x.\n",
prPtaIpc->u.aucBTPParams[2], prPtaIpc->u.aucBTPParams[3]);
#if 0
status = wlanSetInformation(prGlueInfo->prAdapter,
wlanoidSetBT, (PVOID)&aucOidBuf[0], u4CmdLen, &u4BufLen);
#endif
status = wlanoidSetBT(prGlueInfo->prAdapter,
(PVOID)&aucOidBuf[0], sizeof(PARAM_PTA_IPC_T), &u4BufLen);
if (status != WLAN_STATUS_SUCCESS)
status = -EFAULT;
break;
case PRIV_CMD_BAND_CONFIG:
{
DBGLOG(INIT, INFO, "CMD set_band = %lu\n", (UINT_32) pu4IntBuf[1]);
}
break;
#if CFG_ENABLE_WIFI_DIRECT
case PRIV_CMD_P2P_MODE:
{
PARAM_CUSTOM_P2P_SET_STRUCT_T rSetP2P;
WLAN_STATUS rWlanStatus = WLAN_STATUS_SUCCESS;
rSetP2P.u4Enable = pu4IntBuf[1];
rSetP2P.u4Mode = pu4IntBuf[2];
#if 1
if (!rSetP2P.u4Enable)
p2pNetUnregister(prGlueInfo, TRUE);
/* pu4IntBuf[0] is used as input SubCmd */
rWlanStatus = kalIoctl(prGlueInfo, wlanoidSetP2pMode, (PVOID)&rSetP2P,
sizeof(PARAM_CUSTOM_P2P_SET_STRUCT_T), FALSE, FALSE, TRUE, &u4BufLen);
if ((rSetP2P.u4Enable) && (rWlanStatus == WLAN_STATUS_SUCCESS))
p2pNetRegister(prGlueInfo, TRUE);
#endif
}
break;
#endif
#if (CFG_MET_PACKET_TRACE_SUPPORT == 1)
case PRIV_CMD_MET_PROFILING:
{
/* PARAM_CUSTOM_WFD_DEBUG_STRUCT_T rWfdDebugModeInfo; */
/* rWfdDebugModeInfo.ucWFDDebugMode=(UINT_8)pu4IntBuf[1]; */
/* rWfdDebugModeInfo.u2SNPeriod=(UINT_16)pu4IntBuf[2]; */
/* DBGLOG(REQ, INFO, ("WFD Debug Mode:%d Period:%d\n",
* rWfdDebugModeInfo.ucWFDDebugMode, rWfdDebugModeInfo.u2SNPeriod));
*/
prGlueInfo->fgMetProfilingEn = (UINT_8) pu4IntBuf[1];
prGlueInfo->u2MetUdpPort = (UINT_16) pu4IntBuf[2];
/* DBGLOG(INIT, INFO, ("MET_PROF: Enable=%d UDP_PORT=%d\n",
* prGlueInfo->fgMetProfilingEn, prGlueInfo->u2MetUdpPort);
*/
}
break;
#endif
default:
return -EOPNOTSUPP;
}
return status;
}
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl get int handler.
*
* \param[in] pDev Net device requested.
* \param[out] pIwReq Pointer to iwreq structure.
* \param[in] prIwReqData The ioctl req structure, use the field of sub-command.
* \param[out] pcExtra The buffer with put the return value
*
* \retval 0 For success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EFAULT For fail.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_get_int(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN OUT char *pcExtra)
{
UINT_32 u4SubCmd;
PUINT_32 pu4IntBuf;
P_GLUE_INFO_T prGlueInfo;
UINT_32 u4BufLen = 0;
int status = 0;
P_NDIS_TRANSPORT_STRUCT prNdisReq;
INT_32 ch[50];
ASSERT(prNetDev);
ASSERT(prIwReqInfo);
ASSERT(prIwReqData);
ASSERT(pcExtra);
if (GLUE_CHK_PR3(prNetDev, prIwReqData, pcExtra) == FALSE)
return -EINVAL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
u4SubCmd = (UINT_32) prIwReqData->mode;
pu4IntBuf = (PUINT_32) pcExtra;
switch (u4SubCmd) {
case PRIV_CMD_TEST_CMD:
/* printk("CMD=0x%08lx, data=0x%08lx\n", pu4IntBuf[1], pu4IntBuf[2]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_MTK_WIFI_TEST;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
status = priv_get_ndis(prNetDev, prNdisReq, &u4BufLen);
if (status == 0) {
/* printk("Result=%ld\n", *(PUINT_32)&prNdisReq->ndisOidContent[4]); */
prIwReqData->mode = *(PUINT_32) &prNdisReq->ndisOidContent[4];
/*
* if (copy_to_user(prIwReqData->data.pointer,
* &prNdisReq->ndisOidContent[4], 4)) {
* printk(KERN_NOTICE "priv_get_int() copy_to_user oidBuf fail(3)\n");
* return -EFAULT;
* }
*/
}
return status;
#if CFG_SUPPORT_PRIV_MCR_RW
case PRIV_CMD_ACCESS_MCR:
/* printk("addr=0x%08lx\n", pu4IntBuf[1]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
if (!prGlueInfo->fgMcrAccessAllowed) {
status = 0;
return status;
}
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_MCR_RW;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
status = priv_get_ndis(prNetDev, prNdisReq, &u4BufLen);
if (status == 0) {
/* printk("Result=%ld\n", *(PUINT_32)&prNdisReq->ndisOidContent[4]); */
prIwReqData->mode = *(PUINT_32) &prNdisReq->ndisOidContent[4];
}
return status;
#endif
case PRIV_CMD_DUMP_MEM:
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
#if 1
if (!prGlueInfo->fgMcrAccessAllowed) {
status = 0;
return status;
}
#endif
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_MEM_DUMP;
prNdisReq->inNdisOidlength = sizeof(PARAM_CUSTOM_MEM_DUMP_STRUCT_T);
prNdisReq->outNdisOidLength = sizeof(PARAM_CUSTOM_MEM_DUMP_STRUCT_T);
status = priv_get_ndis(prNetDev, prNdisReq, &u4BufLen);
if (status == 0)
prIwReqData->mode = *(PUINT_32) &prNdisReq->ndisOidContent[0];
return status;
case PRIV_CMD_SW_CTRL:
/* printk(" addr=0x%08lx\n", pu4IntBuf[1]); */
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
kalMemCopy(&prNdisReq->ndisOidContent[0], &pu4IntBuf[1], 8);
prNdisReq->ndisOidCmd = OID_CUSTOM_SW_CTRL;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
status = priv_get_ndis(prNetDev, prNdisReq, &u4BufLen);
if (status == 0) {
/* printk("Result=%ld\n", *(PUINT_32)&prNdisReq->ndisOidContent[4]); */
prIwReqData->mode = *(PUINT_32) &prNdisReq->ndisOidContent[4];
}
return status;
#if 0
case PRIV_CMD_BEACON_PERIOD:
status = wlanQueryInformation(prGlueInfo->prAdapter,
wlanoidQueryBeaconInterval,
(PVOID) pu4IntBuf, sizeof(UINT_32), &u4BufLen);
return status;
case PRIV_CMD_POWER_MODE:
status = wlanQueryInformation(prGlueInfo->prAdapter,
wlanoidQuery802dot11PowerSaveProfile,
(PVOID) pu4IntBuf, sizeof(UINT_32), &u4BufLen);
return status;
case PRIV_CMD_ADHOC_MODE:
status = wlanQueryInformation(prGlueInfo->prAdapter,
wlanoidQueryAdHocMode, (PVOID) pu4IntBuf, sizeof(UINT_32), &u4BufLen);
return status;
#endif
case PRIV_CMD_BAND_CONFIG:
DBGLOG(INIT, INFO, "CMD get_band=\n");
prIwReqData->mode = 0;
return status;
default:
break;
}
u4SubCmd = (UINT_32) prIwReqData->data.flags;
switch (u4SubCmd) {
case PRIV_CMD_GET_CH_LIST:
{
UINT_16 i, j = 0;
UINT_8 NumOfChannel = 50;
UINT_8 ucMaxChannelNum = 50;
RF_CHANNEL_INFO_T aucChannelList[50];
DBGLOG(RLM, INFO, "Domain: Query Channel List.\n");
kalGetChannelList(prGlueInfo, BAND_NULL, ucMaxChannelNum, &NumOfChannel, aucChannelList);
if (NumOfChannel > 50)
NumOfChannel = 50;
if (kalIsAPmode(prGlueInfo)) {
for (i = 0; i < NumOfChannel; i++) {
if ((aucChannelList[i].ucChannelNum <= 13) ||
(aucChannelList[i].ucChannelNum == 36
|| aucChannelList[i].ucChannelNum == 40
|| aucChannelList[i].ucChannelNum == 44
|| aucChannelList[i].ucChannelNum == 48)) {
ch[j] = (INT_32) aucChannelList[i].ucChannelNum;
j++;
}
}
} else {
for (j = 0; j < NumOfChannel; j++)
ch[j] = (INT_32) aucChannelList[j].ucChannelNum;
}
prIwReqData->data.length = j;
if (copy_to_user(prIwReqData->data.pointer, ch, NumOfChannel * sizeof(INT_32)))
return -EFAULT;
else
return status;
}
default:
return -EOPNOTSUPP;
}
return status;
} /* priv_get_int */
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl set int array handler.
*
* \param[in] prNetDev Net device requested.
* \param[in] prIwReqInfo Pointer to iwreq structure.
* \param[in] prIwReqData The ioctl data structure, use the field of sub-command.
* \param[in] pcExtra The buffer with input value
*
* \retval 0 For success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EINVAL If a value is out of range.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_set_ints(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN char *pcExtra)
{
UINT_32 u4SubCmd, u4BufLen;
P_GLUE_INFO_T prGlueInfo;
int status = 0;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_SET_TXPWR_CTRL_T prTxpwr;
ASSERT(prNetDev);
ASSERT(prIwReqInfo);
ASSERT(prIwReqData);
ASSERT(pcExtra);
if (GLUE_CHK_PR3(prNetDev, prIwReqData, pcExtra) == FALSE)
return -EINVAL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
u4SubCmd = (UINT_32) prIwReqData->data.flags;
switch (u4SubCmd) {
case PRIV_CMD_SET_TX_POWER:
{
INT_32 *setting = prIwReqData->data.pointer;
UINT_16 i;
#if 0
DBGLOG(INIT, INFO, "Tx power num = %d\n", prIwReqData->data.length);
DBGLOG(INIT, INFO,
"Tx power setting = %d %d %d %d\n", setting[0], setting[1], setting[2], setting[3]);
#endif
prTxpwr = &prGlueInfo->rTxPwr;
if (setting[0] == 0 && prIwReqData->data.length == 4 /* argc num */) {
/* 0 (All networks), 1 (legacy STA), 2 (Hotspot AP), 3 (P2P), 4 (BT over Wi-Fi) */
if (setting[1] == 1 || setting[1] == 0) {
if (setting[2] == 0 || setting[2] == 1)
prTxpwr->c2GLegacyStaPwrOffset = setting[3];
if (setting[2] == 0 || setting[2] == 2)
prTxpwr->c5GLegacyStaPwrOffset = setting[3];
}
if (setting[1] == 2 || setting[1] == 0) {
if (setting[2] == 0 || setting[2] == 1)
prTxpwr->c2GHotspotPwrOffset = setting[3];
if (setting[2] == 0 || setting[2] == 2)
prTxpwr->c5GHotspotPwrOffset = setting[3];
}
if (setting[1] == 3 || setting[1] == 0) {
if (setting[2] == 0 || setting[2] == 1)
prTxpwr->c2GP2pPwrOffset = setting[3];
if (setting[2] == 0 || setting[2] == 2)
prTxpwr->c5GP2pPwrOffset = setting[3];
}
if (setting[1] == 4 || setting[1] == 0) {
if (setting[2] == 0 || setting[2] == 1)
prTxpwr->c2GBowPwrOffset = setting[3];
if (setting[2] == 0 || setting[2] == 2)
prTxpwr->c5GBowPwrOffset = setting[3];
}
} else if (setting[0] == 1 && prIwReqData->data.length == 2) {
prTxpwr->ucConcurrencePolicy = setting[1];
} else if (setting[0] == 2 && prIwReqData->data.length == 3) {
if (setting[1] == 0) {
for (i = 0; i < 14; i++)
prTxpwr->acTxPwrLimit2G[i] = setting[2];
} else if (setting[1] <= 14)
prTxpwr->acTxPwrLimit2G[setting[1] - 1] = setting[2];
} else if (setting[0] == 3 && prIwReqData->data.length == 3) {
if (setting[1] == 0) {
for (i = 0; i < 4; i++)
prTxpwr->acTxPwrLimit5G[i] = setting[2];
} else if (setting[1] <= 4)
prTxpwr->acTxPwrLimit5G[setting[1] - 1] = setting[2];
} else if (setting[0] == 4 && prIwReqData->data.length == 2) {
if (setting[1] == 0)
wlanDefTxPowerCfg(prGlueInfo->prAdapter);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetTxPower,
prTxpwr, sizeof(SET_TXPWR_CTRL_T), FALSE, FALSE, TRUE, &u4BufLen);
} else
return -EFAULT;
}
return status;
default:
break;
}
return status;
}
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl get int array handler.
*
* \param[in] pDev Net device requested.
* \param[out] pIwReq Pointer to iwreq structure.
* \param[in] prIwReqData The ioctl req structure, use the field of sub-command.
* \param[out] pcExtra The buffer with put the return value
*
* \retval 0 For success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EFAULT For fail.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_get_ints(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN OUT char *pcExtra)
{
UINT_32 u4SubCmd;
P_GLUE_INFO_T prGlueInfo;
int status = 0;
INT_32 ch[50];
ASSERT(prNetDev);
ASSERT(prIwReqInfo);
ASSERT(prIwReqData);
ASSERT(pcExtra);
if (GLUE_CHK_PR3(prNetDev, prIwReqData, pcExtra) == FALSE)
return -EINVAL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
u4SubCmd = (UINT_32) prIwReqData->data.flags;
switch (u4SubCmd) {
case PRIV_CMD_GET_CH_LIST:
{
UINT_16 i;
UINT_8 NumOfChannel = 50;
UINT_8 ucMaxChannelNum = 50;
RF_CHANNEL_INFO_T aucChannelList[50];
kalGetChannelList(prGlueInfo, BAND_NULL, ucMaxChannelNum, &NumOfChannel, aucChannelList);
if (NumOfChannel > 50)
NumOfChannel = 50;
for (i = 0; i < NumOfChannel; i++)
ch[i] = (INT_32) aucChannelList[i].ucChannelNum;
prIwReqData->data.length = NumOfChannel;
if (copy_to_user(prIwReqData->data.pointer, ch, NumOfChannel * sizeof(INT_32)))
return -EFAULT;
else
return status;
}
default:
break;
}
return status;
} /* priv_get_int */
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl set structure handler.
*
* \param[in] pDev Net device requested.
* \param[in] prIwReqData Pointer to iwreq_data structure.
*
* \retval 0 For success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EINVAL If a value is out of range.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_set_struct(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN char *pcExtra)
{
UINT_32 u4SubCmd = 0;
int status = 0;
/* WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS; */
UINT_32 u4CmdLen = 0;
P_NDIS_TRANSPORT_STRUCT prNdisReq;
PUINT_32 pu4IntBuf = NULL;
P_GLUE_INFO_T prGlueInfo = NULL;
UINT_32 u4BufLen = 0;
ASSERT(prNetDev);
/* ASSERT(prIwReqInfo); */
ASSERT(prIwReqData);
/* ASSERT(pcExtra); */
kalMemZero(&aucOidBuf[0], sizeof(aucOidBuf));
if (GLUE_CHK_PR2(prNetDev, prIwReqData) == FALSE)
return -EINVAL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
u4SubCmd = (UINT_32) prIwReqData->data.flags;
#if 0
DBGLOG(INIT, INFO, "priv_set_struct(): prIwReqInfo->cmd(0x%X), u4SubCmd(%ld)\n", prIwReqInfo->cmd, u4SubCmd);
#endif
switch (u4SubCmd) {
#if 0 /* PTA_ENABLED */
case PRIV_CMD_BT_COEXIST:
u4CmdLen = prIwReqData->data.length * sizeof(UINT_32);
ASSERT(sizeof(PARAM_CUSTOM_BT_COEXIST_T) >= u4CmdLen);
if (sizeof(PARAM_CUSTOM_BT_COEXIST_T) < u4CmdLen)
return -EFAULT;
if (copy_from_user(&aucOidBuf[0], prIwReqData->data.pointer, u4CmdLen)) {
status = -EFAULT; /* return -EFAULT; */
break;
}
rStatus = wlanSetInformation(prGlueInfo->prAdapter,
wlanoidSetBtCoexistCtrl, (PVOID)&aucOidBuf[0], u4CmdLen, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
status = -EFAULT;
break;
#endif
case PRIV_CUSTOM_BWCS_CMD:
u4CmdLen = prIwReqData->data.length * sizeof(UINT_32);
ASSERT(sizeof(PARAM_PTA_IPC_T) >= u4CmdLen);
if (sizeof(PARAM_PTA_IPC_T) < u4CmdLen)
return -EFAULT;
#if CFG_SUPPORT_BCM && CFG_SUPPORT_BCM_BWCS && CFG_SUPPORT_BCM_BWCS_DEBUG
DBGLOG(REQ, INFO,
"ucCmdLen = %d, size of PTA_IPC_T = %d, prIwReqData->data = 0x%x.\n",
u4CmdLen, sizeof(PARAM_PTA_IPC_T), prIwReqData->data);
DBGLOG(REQ, INFO, "priv_set_struct(): prIwReqInfo->cmd(0x%X), u4SubCmd(%ld)\n", prIwReqInfo->cmd,
u4SubCmd);
DBGLOG(REQ, INFO, "*pcExtra = 0x%x\n", *pcExtra);
#endif
if (copy_from_user(&aucOidBuf[0], prIwReqData->data.pointer, u4CmdLen)) {
status = -EFAULT; /* return -EFAULT; */
break;
}
#if CFG_SUPPORT_BCM && CFG_SUPPORT_BCM_BWCS && CFG_SUPPORT_BCM_BWCS_DEBUG
DBGLOG(REQ, INFO, "priv_set_struct(): BWCS CMD = %02x%02x%02x%02x\n", aucOidBuf[2], aucOidBuf[3],
aucOidBuf[4], aucOidBuf[5]);
#endif
#if 0
status = wlanSetInformation(prGlueInfo->prAdapter,
wlanoidSetBT, (PVOID)&aucOidBuf[0], u4CmdLen, &u4BufLen);
#endif
#if 1
status = wlanoidSetBT(prGlueInfo->prAdapter, (PVOID)&aucOidBuf[0], u4CmdLen, &u4BufLen);
#endif
if (status != WLAN_STATUS_SUCCESS)
status = -EFAULT;
break;
#if CFG_SUPPORT_WPS2
case PRIV_CMD_WSC_PROBE_REQ:
{
/* retrieve IE for Probe Request */
if (prIwReqData->data.length > 0) {
if (copy_from_user(prGlueInfo->aucWSCIE, prIwReqData->data.pointer,
prIwReqData->data.length)) {
status = -EFAULT;
break;
}
prGlueInfo->u2WSCIELen = prIwReqData->data.length;
} else {
prGlueInfo->u2WSCIELen = 0;
}
}
break;
#endif
case PRIV_CMD_OID:
if (copy_from_user(&aucOidBuf[0], prIwReqData->data.pointer, prIwReqData->data.length)) {
status = -EFAULT;
break;
}
if (!kalMemCmp(&aucOidBuf[0], pcExtra, prIwReqData->data.length)) {
/* ToDo:: DBGLOG */
DBGLOG(REQ, INFO, "pcExtra buffer is valid\n");
} else {
DBGLOG(REQ, INFO, "pcExtra 0x%p\n", pcExtra);
}
/* Execute this OID */
status = priv_set_ndis(prNetDev, (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0], &u4BufLen);
/* Copy result to user space */
((P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0])->outNdisOidLength = u4BufLen;
if (copy_to_user(prIwReqData->data.pointer,
&aucOidBuf[0], OFFSET_OF(NDIS_TRANSPORT_STRUCT, ndisOidContent))) {
DBGLOG(REQ, INFO, "copy_to_user oidBuf fail\n");
status = -EFAULT;
}
break;
case PRIV_CMD_SW_CTRL:
pu4IntBuf = (PUINT_32) prIwReqData->data.pointer;
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
/* kalMemCopy(&prNdisReq->ndisOidContent[0], prIwReqData->data.pointer, 8); */
if (copy_from_user(&prNdisReq->ndisOidContent[0],
prIwReqData->data.pointer, prIwReqData->data.length)) {
status = -EFAULT;
break;
}
prNdisReq->ndisOidCmd = OID_CUSTOM_SW_CTRL;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
/* Execute this OID */
status = priv_set_ndis(prNetDev, prNdisReq, &u4BufLen);
break;
default:
return -EOPNOTSUPP;
}
return status;
}
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl get struct handler.
*
* \param[in] pDev Net device requested.
* \param[out] pIwReq Pointer to iwreq structure.
* \param[in] cmd Private sub-command.
*
* \retval 0 For success.
* \retval -EFAULT If copy from user space buffer fail.
* \retval -EOPNOTSUPP Parameter "cmd" not recognized.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_get_struct(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN OUT char *pcExtra)
{
UINT_32 u4SubCmd = 0;
P_NDIS_TRANSPORT_STRUCT prNdisReq = NULL;
P_GLUE_INFO_T prGlueInfo = NULL;
UINT_32 u4BufLen = 0;
PUINT_32 pu4IntBuf = NULL;
PUINT_8 prDest = NULL;
int status = 0;
kalMemZero(&aucOidBuf[0], sizeof(aucOidBuf));
ASSERT(prNetDev);
ASSERT(prIwReqData);
if (!prNetDev || !prIwReqData) {
DBGLOG(REQ, INFO, "priv_get_struct(): invalid param(0x%p, 0x%p)\n", prNetDev, prIwReqData);
return -EINVAL;
}
u4SubCmd = (UINT_32) prIwReqData->data.flags;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prGlueInfo);
if (!prGlueInfo) {
DBGLOG(REQ, INFO, "priv_get_struct(): invalid prGlueInfo(0x%p, 0x%p)\n",
prNetDev, *((P_GLUE_INFO_T *) netdev_priv(prNetDev)));
return -EINVAL;
}
#if 0
DBGLOG(INIT, INFO, "priv_get_struct(): prIwReqInfo->cmd(0x%X), u4SubCmd(%ld)\n", prIwReqInfo->cmd, u4SubCmd);
#endif
memset(aucOidBuf, 0, sizeof(aucOidBuf));
switch (u4SubCmd) {
case PRIV_CMD_OID:
if (copy_from_user(&aucOidBuf[0], prIwReqData->data.pointer, sizeof(NDIS_TRANSPORT_STRUCT))) {
DBGLOG(REQ, INFO, "priv_get_struct() copy_from_user oidBuf fail\n");
return -EFAULT;
}
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
#if 0
DBGLOG(INIT, INFO, "\n priv_get_struct cmd 0x%02x len:%d OID:0x%08x OID Len:%d\n", cmd,
pIwReq->u.data.length, ndisReq->ndisOidCmd, ndisReq->inNdisOidlength);
#endif
if (priv_get_ndis(prNetDev, prNdisReq, &u4BufLen) == 0) {
prNdisReq->outNdisOidLength = u4BufLen;
if (copy_to_user(prIwReqData->data.pointer,
&aucOidBuf[0],
u4BufLen + sizeof(NDIS_TRANSPORT_STRUCT) -
sizeof(prNdisReq->ndisOidContent))) {
DBGLOG(REQ, INFO, "priv_get_struct() copy_to_user oidBuf fail(1)\n");
return -EFAULT;
}
return 0;
}
prNdisReq->outNdisOidLength = u4BufLen;
if (copy_to_user(prIwReqData->data.pointer,
&aucOidBuf[0], OFFSET_OF(NDIS_TRANSPORT_STRUCT, ndisOidContent))) {
DBGLOG(REQ, INFO, "priv_get_struct() copy_to_user oidBuf fail(2)\n");
}
return -EFAULT;
case PRIV_CMD_SW_CTRL:
pu4IntBuf = (PUINT_32) prIwReqData->data.pointer;
prNdisReq = (P_NDIS_TRANSPORT_STRUCT) &aucOidBuf[0];
prDest = (PUINT_8) &aucOidBuf[OFFSET_OF(NDIS_TRANSPORT_STRUCT, ndisOidContent)];
if (prIwReqData->data.length > (sizeof(aucOidBuf) - OFFSET_OF(NDIS_TRANSPORT_STRUCT, ndisOidContent))) {
DBGLOG(REQ, INFO, "priv_get_struct() exceeds length limit\n");
return -EFAULT;
}
if (copy_from_user(prDest, prIwReqData->data.pointer, prIwReqData->data.length)) {
DBGLOG(REQ, INFO, "priv_get_struct() copy_from_user oidBuf fail\n");
return -EFAULT;
}
prNdisReq->ndisOidCmd = OID_CUSTOM_SW_CTRL;
prNdisReq->inNdisOidlength = 8;
prNdisReq->outNdisOidLength = 8;
status = priv_get_ndis(prNetDev, prNdisReq, &u4BufLen);
if (status == 0) {
prNdisReq->outNdisOidLength = u4BufLen;
/* printk("len=%d Result=%08lx\n", u4BufLen, *(PUINT_32)&prNdisReq->ndisOidContent[4]); */
if (copy_to_user(prIwReqData->data.pointer, &prNdisReq->ndisOidContent[4], 4))
DBGLOG(REQ, INFO, "priv_get_struct() copy_to_user oidBuf fail(2)\n");
}
return 0;
default:
DBGLOG(REQ, WARN, "get struct cmd:0x%lx\n", u4SubCmd);
return -EOPNOTSUPP;
}
} /* priv_get_struct */
/*----------------------------------------------------------------------------*/
/*!
* \brief The routine handles a set operation for a single OID.
*
* \param[in] pDev Net device requested.
* \param[in] ndisReq Ndis request OID information copy from user.
* \param[out] outputLen_p If the call is successful, returns the number of
* bytes written into the query buffer. If the
* call failed due to invalid length of the query
* buffer, returns the amount of storage needed..
*
* \retval 0 On success.
* \retval -EOPNOTSUPP If cmd is not supported.
*
*/
/*----------------------------------------------------------------------------*/
static int
priv_set_ndis(IN struct net_device *prNetDev, IN NDIS_TRANSPORT_STRUCT * prNdisReq, OUT PUINT_32 pu4OutputLen)
{
P_WLAN_REQ_ENTRY prWlanReqEntry = NULL;
WLAN_STATUS status = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo = NULL;
UINT_32 u4SetInfoLen = 0;
ASSERT(prNetDev);
ASSERT(prNdisReq);
ASSERT(pu4OutputLen);
if (!prNetDev || !prNdisReq || !pu4OutputLen) {
DBGLOG(REQ, INFO, "priv_set_ndis(): invalid param(0x%p, 0x%p, 0x%p)\n",
prNetDev, prNdisReq, pu4OutputLen);
return -EINVAL;
}
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prGlueInfo);
if (!prGlueInfo) {
DBGLOG(REQ, INFO, "priv_set_ndis(): invalid prGlueInfo(0x%p, 0x%p)\n",
prNetDev, *((P_GLUE_INFO_T *) netdev_priv(prNetDev)));
return -EINVAL;
}
#if 0
DBGLOG(INIT, INFO, "priv_set_ndis(): prNdisReq->ndisOidCmd(0x%lX)\n", prNdisReq->ndisOidCmd);
#endif
if (reqSearchSupportedOidEntry(prNdisReq->ndisOidCmd, &prWlanReqEntry) == FALSE) {
/* WARNLOG(("Set OID: 0x%08lx (unknown)\n", prNdisReq->ndisOidCmd)); */
return -EOPNOTSUPP;
}
if (prWlanReqEntry->pfOidSetHandler == NULL) {
/* WARNLOG(("Set %s: Null set handler\n", prWlanReqEntry->pucOidName)); */
return -EOPNOTSUPP;
}
#if 0
DBGLOG(INIT, INFO, "priv_set_ndis(): %s\n", prWlanReqEntry->pucOidName);
#endif
if (prWlanReqEntry->fgSetBufLenChecking) {
if (prNdisReq->inNdisOidlength != prWlanReqEntry->u4InfoBufLen) {
DBGLOG(REQ, WARN, "Set %s: Invalid length (current=%ld, needed=%ld)\n",
prWlanReqEntry->pucOidName, prNdisReq->inNdisOidlength, prWlanReqEntry->u4InfoBufLen);
*pu4OutputLen = prWlanReqEntry->u4InfoBufLen;
return -EINVAL;
}
}
if (prWlanReqEntry->eOidMethod == ENUM_OID_GLUE_ONLY) {
/* GLUE sw info only */
status = prWlanReqEntry->pfOidSetHandler(prGlueInfo,
prNdisReq->ndisOidContent,
prNdisReq->inNdisOidlength, &u4SetInfoLen);
} else if (prWlanReqEntry->eOidMethod == ENUM_OID_GLUE_EXTENSION) {
/* multiple sw operations */
status = prWlanReqEntry->pfOidSetHandler(prGlueInfo,
prNdisReq->ndisOidContent,
prNdisReq->inNdisOidlength, &u4SetInfoLen);
} else if (prWlanReqEntry->eOidMethod == ENUM_OID_DRIVER_CORE) {
/* driver core */
status = kalIoctl(prGlueInfo,
(PFN_OID_HANDLER_FUNC) prWlanReqEntry->pfOidSetHandler,
prNdisReq->ndisOidContent,
prNdisReq->inNdisOidlength, FALSE, FALSE, TRUE, &u4SetInfoLen);
} else {
DBGLOG(REQ, INFO, "priv_set_ndis(): unsupported OID method:0x%x\n", prWlanReqEntry->eOidMethod);
return -EOPNOTSUPP;
}
*pu4OutputLen = u4SetInfoLen;
switch (status) {
case WLAN_STATUS_SUCCESS:
break;
case WLAN_STATUS_INVALID_LENGTH:
/* WARNLOG(("Set %s: Invalid length (current=%ld, needed=%ld)\n", */
/* prWlanReqEntry->pucOidName, */
/* prNdisReq->inNdisOidlength, */
/* u4SetInfoLen)); */
break;
}
if (status != WLAN_STATUS_SUCCESS)
return -EFAULT;
return 0;
} /* priv_set_ndis */
/*----------------------------------------------------------------------------*/
/*!
* \brief The routine handles a query operation for a single OID. Basically we
* return information about the current state of the OID in question.
*
* \param[in] pDev Net device requested.
* \param[in] ndisReq Ndis request OID information copy from user.
* \param[out] outputLen_p If the call is successful, returns the number of
* bytes written into the query buffer. If the
* call failed due to invalid length of the query
* buffer, returns the amount of storage needed..
*
* \retval 0 On success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EINVAL invalid input parameters
*
*/
/*----------------------------------------------------------------------------*/
static int
priv_get_ndis(IN struct net_device *prNetDev, IN NDIS_TRANSPORT_STRUCT * prNdisReq, OUT PUINT_32 pu4OutputLen)
{
P_WLAN_REQ_ENTRY prWlanReqEntry = NULL;
UINT_32 u4BufLen = 0;
WLAN_STATUS status = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo = NULL;
ASSERT(prNetDev);
ASSERT(prNdisReq);
ASSERT(pu4OutputLen);
if (!prNetDev || !prNdisReq || !pu4OutputLen) {
DBGLOG(REQ, INFO, "priv_get_ndis(): invalid param(0x%p, 0x%p, 0x%p)\n",
prNetDev, prNdisReq, pu4OutputLen);
return -EINVAL;
}
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prGlueInfo);
if (!prGlueInfo) {
DBGLOG(REQ, INFO, "priv_get_ndis(): invalid prGlueInfo(0x%p, 0x%p)\n",
prNetDev, *((P_GLUE_INFO_T *) netdev_priv(prNetDev)));
return -EINVAL;
}
#if 0
DBGLOG(INIT, INFO, "priv_get_ndis(): prNdisReq->ndisOidCmd(0x%lX)\n", prNdisReq->ndisOidCmd);
#endif
if (reqSearchSupportedOidEntry(prNdisReq->ndisOidCmd, &prWlanReqEntry) == FALSE) {
/* WARNLOG(("Query OID: 0x%08lx (unknown)\n", prNdisReq->ndisOidCmd)); */
return -EOPNOTSUPP;
}
if (prWlanReqEntry->pfOidQueryHandler == NULL) {
/* WARNLOG(("Query %s: Null query handler\n", prWlanReqEntry->pucOidName)); */
return -EOPNOTSUPP;
}
#if 0
DBGLOG(INIT, INFO, "priv_get_ndis(): %s\n", prWlanReqEntry->pucOidName);
#endif
if (prWlanReqEntry->fgQryBufLenChecking) {
if (prNdisReq->inNdisOidlength < prWlanReqEntry->u4InfoBufLen) {
/* Not enough room in InformationBuffer. Punt */
/* WARNLOG(("Query %s: Buffer too short (current=%ld, needed=%ld)\n", */
/* prWlanReqEntry->pucOidName, */
/* prNdisReq->inNdisOidlength, */
/* prWlanReqEntry->u4InfoBufLen)); */
*pu4OutputLen = prWlanReqEntry->u4InfoBufLen;
status = WLAN_STATUS_INVALID_LENGTH;
return -EINVAL;
}
}
if (prWlanReqEntry->eOidMethod == ENUM_OID_GLUE_ONLY) {
/* GLUE sw info only */
status = prWlanReqEntry->pfOidQueryHandler(prGlueInfo,
prNdisReq->ndisOidContent,
prNdisReq->inNdisOidlength, &u4BufLen);
} else if (prWlanReqEntry->eOidMethod == ENUM_OID_GLUE_EXTENSION) {
/* multiple sw operations */
status = prWlanReqEntry->pfOidQueryHandler(prGlueInfo,
prNdisReq->ndisOidContent,
prNdisReq->inNdisOidlength, &u4BufLen);
} else if (prWlanReqEntry->eOidMethod == ENUM_OID_DRIVER_CORE) {
/* driver core */
status = kalIoctl(prGlueInfo,
(PFN_OID_HANDLER_FUNC) prWlanReqEntry->pfOidQueryHandler,
prNdisReq->ndisOidContent, prNdisReq->inNdisOidlength, TRUE, TRUE, TRUE, &u4BufLen);
} else {
DBGLOG(REQ, INFO, "priv_set_ndis(): unsupported OID method:0x%x\n", prWlanReqEntry->eOidMethod);
return -EOPNOTSUPP;
}
*pu4OutputLen = u4BufLen;
switch (status) {
case WLAN_STATUS_SUCCESS:
break;
case WLAN_STATUS_INVALID_LENGTH:
/* WARNLOG(("Set %s: Invalid length (current=%ld, needed=%ld)\n", */
/* prWlanReqEntry->pucOidName, */
/* prNdisReq->inNdisOidlength, */
/* u4BufLen)); */
break;
}
if (status != WLAN_STATUS_SUCCESS)
return -EOPNOTSUPP;
return 0;
} /* priv_get_ndis */
#if CFG_SUPPORT_QA_TOOL
/*----------------------------------------------------------------------------*/
/*!
* \brief The routine handles ATE set operation.
*
* \param[in] pDev Net device requested.
* \param[in] ndisReq Ndis request OID information copy from user.
* \param[out] outputLen_p If the call is successful, returns the number of
* bytes written into the query buffer. If the
* call failed due to invalid length of the query
* buffer, returns the amount of storage needed..
*
* \retval 0 On success.
* \retval -EOPNOTSUPP If cmd is not supported.
* \retval -EFAULT If copy from user space buffer fail.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_ate_set(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN char *pcExtra)
{
P_GLUE_INFO_T GlueInfo;
INT_32 i4Status;
UINT_8 *InBuf;
/* UINT_8 *addr_str, *value_str; */
UINT_32 InBufLen;
UINT_32 u4SubCmd;
/* BOOLEAN isWrite = 0;
*UINT_32 u4BufLen = 0;
*P_NDIS_TRANSPORT_STRUCT prNdisReq;
*UINT_32 pu4IntBuf[2];
*/
/* sanity check */
ASSERT(prNetDev);
ASSERT(prIwReqInfo);
ASSERT(prIwReqData);
ASSERT(pcExtra);
/* init */
DBGLOG(REQ, INFO, "priv_set_string (%s)(%d)\n",
(UINT_8 *) prIwReqData->data.pointer, (INT_32) prIwReqData->data.length);
if (GLUE_CHK_PR3(prNetDev, prIwReqData, pcExtra) == FALSE)
return -EINVAL;
GlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
u4SubCmd = (UINT_32) prIwReqData->data.flags;
DBGLOG(REQ, INFO, "MT6632 : priv_ate_set u4SubCmd = %d\n", u4SubCmd);
switch (u4SubCmd) {
case PRIV_QACMD_SET:
DBGLOG(REQ, INFO, "MT6632 : priv_ate_set PRIV_QACMD_SET\n");
InBuf = aucOidBuf;
InBufLen = prIwReqData->data.length;
i4Status = 0;
if (copy_from_user(InBuf, prIwReqData->data.pointer, prIwReqData->data.length))
return -EFAULT;
i4Status = AteCmdSetHandle(prNetDev, InBuf, InBufLen);
break;
default:
return -EOPNOTSUPP;
}
return 0;
}
#endif
/*----------------------------------------------------------------------------*/
/*!
* \brief This routine is called to search desired OID.
*
* \param rOid[in] Desired NDIS_OID
* \param ppWlanReqEntry[out] Found registered OID entry
*
* \retval TRUE: Matched OID is found
* \retval FALSE: No matched OID is found
*/
/*----------------------------------------------------------------------------*/
static BOOLEAN reqSearchSupportedOidEntry(IN UINT_32 rOid, OUT P_WLAN_REQ_ENTRY *ppWlanReqEntry)
{
INT_32 i, j, k;
i = 0;
j = NUM_SUPPORTED_OIDS - 1;
while (i <= j) {
k = (i + j) / 2;
if (rOid == arWlanOidReqTable[k].rOid) {
*ppWlanReqEntry = &arWlanOidReqTable[k];
return TRUE;
} else if (rOid < arWlanOidReqTable[k].rOid) {
j = k - 1;
} else {
i = k + 1;
}
}
return FALSE;
} /* reqSearchSupportedOidEntry */
/*----------------------------------------------------------------------------*/
/*!
* \brief Private ioctl driver handler.
*
* \param[in] pDev Net device requested.
* \param[out] pIwReq Pointer to iwreq structure.
* \param[in] cmd Private sub-command.
*
* \retval 0 For success.
* \retval -EFAULT If copy from user space buffer fail.
* \retval -EOPNOTSUPP Parameter "cmd" not recognized.
*
*/
/*----------------------------------------------------------------------------*/
int
priv_set_driver(IN struct net_device *prNetDev,
IN struct iw_request_info *prIwReqInfo, IN union iwreq_data *prIwReqData, IN OUT char *pcExtra)
{
UINT_32 u4SubCmd = 0;
UINT_16 u2Cmd = 0;
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4BytesWritten = 0;
ASSERT(prNetDev);
ASSERT(prIwReqData);
if (!prNetDev || !prIwReqData) {
DBGLOG(REQ, INFO, "priv_set_driver(): invalid param(0x%p, 0x%p)\n", prNetDev, prIwReqData);
return -EINVAL;
}
u2Cmd = prIwReqInfo->cmd;
DBGLOG(REQ, INFO, "prIwReqInfo->cmd %u\n", u2Cmd);
u4SubCmd = (UINT_32) prIwReqData->data.flags;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prGlueInfo);
if (!prGlueInfo) {
DBGLOG(REQ, INFO, "priv_set_driver(): invalid prGlueInfo(0x%p, 0x%p)\n",
prNetDev, *((P_GLUE_INFO_T *) netdev_priv(prNetDev)));
return -EINVAL;
}
/* trick,hack in ./net/wireless/wext-priv.c ioctl_private_iw_point */
/* because the cmd number is odd (get), the input string will not be copy_to_user */
DBGLOG(REQ, INFO, "prIwReqData->data.length %u\n", prIwReqData->data.length);
/* Use GET type becauase large data by iwpriv. */
ASSERT(IW_IS_GET(u2Cmd));
if (prIwReqData->data.length != 0) {
if (!access_ok(VERIFY_READ, prIwReqData->data.pointer, prIwReqData->data.length)) {
DBGLOG(REQ, INFO, "%s access_ok Read fail written = %d\n", __func__, i4BytesWritten);
return -EFAULT;
}
if (copy_from_user(pcExtra, prIwReqData->data.pointer, prIwReqData->data.length)) {
DBGLOG(REQ, INFO, "%s copy_form_user fail written = %d\n", __func__, prIwReqData->data.length);
return -EFAULT;
}
}
if (pcExtra) {
DBGLOG(REQ, INFO, "pcExtra %s\n", pcExtra);
/* Please check max length in rIwPrivTable */
DBGLOG(REQ, INFO, "%s prIwReqData->data.length = %d\n", __func__, prIwReqData->data.length);
i4BytesWritten = priv_driver_cmds(prNetDev, pcExtra, 2000 /*prIwReqData->data.length */);
DBGLOG(REQ, INFO, "%s i4BytesWritten = %d\n", __func__, i4BytesWritten);
}
DBGLOG(REQ, INFO, "pcExtra done\n");
if (i4BytesWritten > 0) {
if (i4BytesWritten > 2000)
i4BytesWritten = 2000;
prIwReqData->data.length = i4BytesWritten; /* the iwpriv will use the length */
} else if (i4BytesWritten == 0) {
prIwReqData->data.length = i4BytesWritten;
}
#if 0
/* trick,hack in ./net/wireless/wext-priv.c ioctl_private_iw_point */
/* because the cmd number is even (set), the return string will not be copy_to_user */
ASSERT(IW_IS_SET(u2Cmd));
if (!access_ok(VERIFY_WRITE, prIwReqData->data.pointer, i4BytesWritten)) {
DBGLOG(REQ, INFO, "%s access_ok Write fail written = %d\n", __func__, i4BytesWritten);
return -EFAULT;
}
if (copy_to_user(prIwReqData->data.pointer, pcExtra, i4BytesWritten)) {
DBGLOG(REQ, INFO, "%s copy_to_user fail written = %d\n", __func__, i4BytesWritten);
return -EFAULT;
}
DBGLOG(RSN, INFO, "%s copy_to_user written = %d\n", __func__, i4BytesWritten);
#endif
return 0;
} /* priv_set_driver */
#if 0
/*----------------------------------------------------------------------------*/
/*!
* \brief This routine is called to query the radio configuration used in IBSS
* mode and RF test mode.
*
* \param[in] prGlueInfo Pointer to the GLUE_INFO_T structure.
* \param[out] pvQueryBuffer Pointer to the buffer that holds the result of the query.
* \param[in] u4QueryBufferLen The length of the query buffer.
* \param[out] pu4QueryInfoLen If the call is successful, returns the number of
* bytes written into the query buffer. If the call
* failed due to invalid length of the query buffer,
* returns the amount of storage needed.
*
* \retval WLAN_STATUS_SUCCESS
* \retval WLAN_STATUS_INVALID_LENGTH
*/
/*----------------------------------------------------------------------------*/
static WLAN_STATUS
reqExtQueryConfiguration(IN P_GLUE_INFO_T prGlueInfo,
OUT PVOID pvQueryBuffer, IN UINT_32 u4QueryBufferLen, OUT PUINT_32 pu4QueryInfoLen)
{
P_PARAM_802_11_CONFIG_T prQueryConfig = (P_PARAM_802_11_CONFIG_T) pvQueryBuffer;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4QueryInfoLen = 0;
DEBUGFUNC("wlanoidQueryConfiguration");
ASSERT(prGlueInfo);
ASSERT(pu4QueryInfoLen);
*pu4QueryInfoLen = sizeof(PARAM_802_11_CONFIG_T);
if (u4QueryBufferLen < sizeof(PARAM_802_11_CONFIG_T))
return WLAN_STATUS_INVALID_LENGTH;
ASSERT(pvQueryBuffer);
kalMemZero(prQueryConfig, sizeof(PARAM_802_11_CONFIG_T));
/* Update the current radio configuration. */
prQueryConfig->u4Length = sizeof(PARAM_802_11_CONFIG_T);
#if defined(_HIF_SDIO)
rStatus = sdio_io_ctrl(prGlueInfo,
wlanoidSetBeaconInterval,
&prQueryConfig->u4BeaconPeriod, sizeof(UINT_32), TRUE, TRUE, &u4QueryInfoLen);
#else
rStatus = wlanQueryInformation(prGlueInfo->prAdapter,
wlanoidQueryBeaconInterval,
&prQueryConfig->u4BeaconPeriod, sizeof(UINT_32), &u4QueryInfoLen);
#endif
if (rStatus != WLAN_STATUS_SUCCESS)
return rStatus;
#if defined(_HIF_SDIO)
rStatus = sdio_io_ctrl(prGlueInfo,
wlanoidQueryAtimWindow,
&prQueryConfig->u4ATIMWindow, sizeof(UINT_32), TRUE, TRUE, &u4QueryInfoLen);
#else
rStatus = wlanQueryInformation(prGlueInfo->prAdapter,
wlanoidQueryAtimWindow,
&prQueryConfig->u4ATIMWindow, sizeof(UINT_32), &u4QueryInfoLen);
#endif
if (rStatus != WLAN_STATUS_SUCCESS)
return rStatus;
#if defined(_HIF_SDIO)
rStatus = sdio_io_ctrl(prGlueInfo,
wlanoidQueryFrequency,
&prQueryConfig->u4DSConfig, sizeof(UINT_32), TRUE, TRUE, &u4QueryInfoLen);
#else
rStatus = wlanQueryInformation(prGlueInfo->prAdapter,
wlanoidQueryFrequency,
&prQueryConfig->u4DSConfig, sizeof(UINT_32), &u4QueryInfoLen);
#endif
if (rStatus != WLAN_STATUS_SUCCESS)
return rStatus;
prQueryConfig->rFHConfig.u4Length = sizeof(PARAM_802_11_CONFIG_FH_T);
return rStatus;
} /* end of reqExtQueryConfiguration() */
/*----------------------------------------------------------------------------*/
/*!
* \brief This routine is called to set the radio configuration used in IBSS
* mode.
*
* \param[in] prGlueInfo Pointer to the GLUE_INFO_T structure.
* \param[in] pvSetBuffer A pointer to the buffer that holds the data to be set.
* \param[in] u4SetBufferLen The length of the set buffer.
* \param[out] pu4SetInfoLen If the call is successful, returns the number of
* bytes read from the set buffer. If the call failed
* due to invalid length of the set buffer, returns
* the amount of storage needed.
*
* \retval WLAN_STATUS_SUCCESS
* \retval WLAN_STATUS_INVALID_LENGTH
* \retval WLAN_STATUS_NOT_ACCEPTED
*/
/*----------------------------------------------------------------------------*/
static WLAN_STATUS
reqExtSetConfiguration(IN P_GLUE_INFO_T prGlueInfo,
IN PVOID pvSetBuffer, IN UINT_32 u4SetBufferLen, OUT PUINT_32 pu4SetInfoLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_PARAM_802_11_CONFIG_T prNewConfig = (P_PARAM_802_11_CONFIG_T) pvSetBuffer;
UINT_32 u4SetInfoLen = 0;
DEBUGFUNC("wlanoidSetConfiguration");
ASSERT(prGlueInfo);
ASSERT(pu4SetInfoLen);
*pu4SetInfoLen = sizeof(PARAM_802_11_CONFIG_T);
if (u4SetBufferLen < *pu4SetInfoLen)
return WLAN_STATUS_INVALID_LENGTH;
/* OID_802_11_CONFIGURATION. If associated, NOT_ACCEPTED shall be returned. */
if (prGlueInfo->eParamMediaStateIndicated == PARAM_MEDIA_STATE_CONNECTED)
return WLAN_STATUS_NOT_ACCEPTED;
ASSERT(pvSetBuffer);
#if defined(_HIF_SDIO)
rStatus = sdio_io_ctrl(prGlueInfo,
wlanoidSetBeaconInterval,
&prNewConfig->u4BeaconPeriod, sizeof(UINT_32), FALSE, TRUE, &u4SetInfoLen);
#else
rStatus = wlanSetInformation(prGlueInfo->prAdapter,
wlanoidSetBeaconInterval,
&prNewConfig->u4BeaconPeriod, sizeof(UINT_32), &u4SetInfoLen);
#endif
if (rStatus != WLAN_STATUS_SUCCESS)
return rStatus;
#if defined(_HIF_SDIO)
rStatus = sdio_io_ctrl(prGlueInfo,
wlanoidSetAtimWindow,
&prNewConfig->u4ATIMWindow, sizeof(UINT_32), FALSE, TRUE, &u4SetInfoLen);
#else
rStatus = wlanSetInformation(prGlueInfo->prAdapter,
wlanoidSetAtimWindow, &prNewConfig->u4ATIMWindow, sizeof(UINT_32), &u4SetInfoLen);
#endif
if (rStatus != WLAN_STATUS_SUCCESS)
return rStatus;
#if defined(_HIF_SDIO)
rStatus = sdio_io_ctrl(prGlueInfo,
wlanoidSetFrequency,
&prNewConfig->u4DSConfig, sizeof(UINT_32), FALSE, TRUE, &u4SetInfoLen);
#else
rStatus = wlanSetInformation(prGlueInfo->prAdapter,
wlanoidSetFrequency, &prNewConfig->u4DSConfig, sizeof(UINT_32), &u4SetInfoLen);
#endif
if (rStatus != WLAN_STATUS_SUCCESS)
return rStatus;
return rStatus;
} /* end of reqExtSetConfiguration() */
#endif
/*----------------------------------------------------------------------------*/
/*!
* \brief This routine is called to set beacon detection function enable/disable state
* This is mainly designed for usage under BT inquiry state (disable function).
*
* \param[in] pvAdapter Pointer to the Adapter structure
* \param[in] pvSetBuffer A pointer to the buffer that holds the data to be set
* \param[in] u4SetBufferLen The length of the set buffer
* \param[out] pu4SetInfoLen If the call is successful, returns the number of
* bytes read from the set buffer. If the call failed due to invalid length of
* the set buffer, returns the amount of storage needed.
*
* \retval WLAN_STATUS_SUCCESS
* \retval WLAN_STATUS_INVALID_DATA If new setting value is wrong.
* \retval WLAN_STATUS_INVALID_LENGTH
*
*/
/*----------------------------------------------------------------------------*/
static WLAN_STATUS
reqExtSetAcpiDevicePowerState(IN P_GLUE_INFO_T prGlueInfo,
IN PVOID pvSetBuffer, IN UINT_32 u4SetBufferLen, OUT PUINT_32 pu4SetInfoLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
ASSERT(prGlueInfo);
ASSERT(pvSetBuffer);
ASSERT(pu4SetInfoLen);
/* WIFI is enabled, when ACPI is D0 (ParamDeviceStateD0 = 1). And vice versa */
/* rStatus = wlanSetInformation(prGlueInfo->prAdapter, */
/* wlanoidSetAcpiDevicePowerState, */
/* pvSetBuffer, */
/* u4SetBufferLen, */
/* pu4SetInfoLen); */
return rStatus;
}
#define CMD_START "START"
#define CMD_STOP "STOP"
#define CMD_SCAN_ACTIVE "SCAN-ACTIVE"
#define CMD_SCAN_PASSIVE "SCAN-PASSIVE"
#define CMD_RSSI "RSSI"
#define CMD_LINKSPEED "LINKSPEED"
#define CMD_RXFILTER_START "RXFILTER-START"
#define CMD_RXFILTER_STOP "RXFILTER-STOP"
#define CMD_RXFILTER_ADD "RXFILTER-ADD"
#define CMD_RXFILTER_REMOVE "RXFILTER-REMOVE"
#define CMD_BTCOEXSCAN_START "BTCOEXSCAN-START"
#define CMD_BTCOEXSCAN_STOP "BTCOEXSCAN-STOP"
#define CMD_BTCOEXMODE "BTCOEXMODE"
#define CMD_SETSUSPENDOPT "SETSUSPENDOPT"
#define CMD_SETSUSPENDMODE "SETSUSPENDMODE"
#define CMD_P2P_DEV_ADDR "P2P_DEV_ADDR"
#define CMD_SETFWPATH "SETFWPATH"
#define CMD_SETBAND "SETBAND"
#define CMD_GETBAND "GETBAND"
#define CMD_AP_START "AP_START"
#if CFG_SUPPORT_QA_TOOL
#define CMD_GET_RX_STATISTICS "GET_RX_STATISTICS"
#endif
#define CMD_GET_STAT "GET_STAT"
#define CMD_GET_BSS_STATISTICS "GET_BSS_STATISTICS"
#define CMD_GET_STA_STATISTICS "GET_STA_STATISTICS"
#define CMD_GET_WTBL_INFO "GET_WTBL"
#define CMD_GET_MIB_INFO "GET_MIB"
#if CFG_SUPPORT_LAST_SEC_MCS_INFO
#define CMD_GET_MCS_INFO "GET_MCS_INFO"
#endif
#define CMD_GET_STA_INFO "GET_STA"
#define CMD_SET_FW_LOG "SET_FWLOG"
#define CMD_GET_QUE_INFO "GET_QUE"
#define CMD_GET_MEM_INFO "GET_MEM"
#define CMD_GET_HIF_INFO "GET_HIF"
#define CMD_GET_STA_KEEP_CNT "KEEPCOUNTER"
#define CMD_STAT_RESET_CNT "RESETCOUNTER"
#define CMD_STAT_NOISE_SEL "NOISESELECT"
#define CMD_STAT_GROUP_SEL "GROUP"
#define CMD_SET_TXPOWER "SET_TXPOWER"
#define CMD_COUNTRY "COUNTRY"
#define CMD_GET_COUNTRY "GET_COUNTRY"
#define CMD_GET_CHANNELS "GET_CHANNELS"
#define CMD_P2P_SET_NOA "P2P_SET_NOA"
#define CMD_P2P_GET_NOA "P2P_GET_NOA"
#define CMD_P2P_SET_PS "P2P_SET_PS"
#define CMD_SET_AP_WPS_P2P_IE "SET_AP_WPS_P2P_IE"
#define CMD_SETROAMMODE "SETROAMMODE"
#define CMD_MIRACAST "MIRACAST"
#if (CFG_SUPPORT_DFS_MASTER == 1)
#define CMD_SHOW_DFS_STATE "SHOW_DFS_STATE"
#define CMD_SHOW_DFS_RADAR_PARAM "SHOW_DFS_RADAR_PARAM"
#define CMD_SHOW_DFS_HELP "SHOW_DFS_HELP"
#define CMD_SHOW_DFS_CAC_TIME "SHOW_DFS_CAC_TIME"
#endif
#define CMD_PNOSSIDCLR_SET "PNOSSIDCLR"
#define CMD_PNOSETUP_SET "PNOSETUP "
#define CMD_PNOENABLE_SET "PNOFORCE"
#define CMD_PNODEBUG_SET "PNODEBUG"
#define CMD_WLS_BATCHING "WLS_BATCHING"
#define CMD_OKC_SET_PMK "SET_PMK"
#define CMD_OKC_ENABLE "OKC_ENABLE"
#define CMD_SETMONITOR "MONITOR"
#define CMD_SETBUFMODE "BUFFER_MODE"
#define CMD_SETEEPROM_MODE "EEPROM_MODE"
#if CFG_AUTO_CHANNEL_SEL_SUPPORT
#define CMD_GET_CH_RANK_LIST "GET_CH_RANK_LIST"
#define CMD_GET_CH_DIRTINESS "GET_CH_DIRTINESS"
#endif
#define CMD_EFUSE "EFUSE"
/* miracast related definition */
#define MIRACAST_MODE_OFF 0
#define MIRACAST_MODE_SOURCE 1
#define MIRACAST_MODE_SINK 2
#ifndef MIRACAST_AMPDU_SIZE
#define MIRACAST_AMPDU_SIZE 8
#endif
#ifndef MIRACAST_MCHAN_ALGO
#define MIRACAST_MCHAN_ALGO 1
#endif
#ifndef MIRACAST_MCHAN_BW
#define MIRACAST_MCHAN_BW 25
#endif
#define CMD_BAND_AUTO 0
#define CMD_BAND_5G 1
#define CMD_BAND_2G 2
#define CMD_BAND_ALL 3
/* Mediatek private command */
#define CMD_SET_MCR "SET_MCR"
#define CMD_GET_MCR "GET_MCR"
#define CMD_SET_DRV_MCR "SET_DRV_MCR"
#define CMD_GET_DRV_MCR "GET_DRV_MCR"
#define CMD_SET_SW_CTRL "SET_SW_CTRL"
#define CMD_GET_SW_CTRL "GET_SW_CTRL"
#define CMD_SET_CFG "SET_CFG"
#define CMD_GET_CFG "GET_CFG"
#define CMD_SET_CHIP "SET_CHIP"
#define CMD_GET_CHIP "GET_CHIP"
#define CMD_SET_DBG_LEVEL "SET_DBG_LEVEL"
#define CMD_GET_DBG_LEVEL "GET_DBG_LEVEL"
#define PRIV_CMD_SIZE 2000
#define CMD_SET_FIXED_RATE "FixedRate"
#define CMD_GET_VERSION "VER"
#define CMD_SET_TEST_MODE "SET_TEST_MODE"
#define CMD_SET_TEST_CMD "SET_TEST_CMD"
#define CMD_GET_TEST_RESULT "GET_TEST_RESULT"
#define CMD_GET_STA_STAT "STAT"
#define CMD_GET_STA_STAT2 "STAT2"
#define CMD_GET_STA_RX_STAT "RX_STAT"
#define CMD_SET_ACL_POLICY "SET_ACL_POLICY"
#define CMD_ADD_ACL_ENTRY "ADD_ACL_ENTRY"
#define CMD_DEL_ACL_ENTRY "DEL_ACL_ENTRY"
#define CMD_SHOW_ACL_ENTRY "SHOW_ACL_ENTRY"
#define CMD_CLEAR_ACL_ENTRY "CLEAR_ACL_ENTRY"
#define CMD_GET_CURR_AR_RATE "GET_CURR_AR_RATE"
#define CMD_COEX_CONTROL "COEX_CONTROL"
#define CMD_SET_CSI "SET_CSI"
#define CMD_GET_CSI "GET_CSI"
#if CFG_WOW_SUPPORT
#define CMD_WOW_START "WOW_START"
#define CMD_SET_WOW_ENABLE "SET_WOW_ENABLE"
#define CMD_SET_WOW_PAR "SET_WOW_PAR"
#define CMD_SET_WOW_UDP "SET_WOW_UDP"
#define CMD_SET_WOW_TCP "SET_WOW_TCP"
#define CMD_GET_WOW_PORT "GET_WOW_PORT"
#define CMD_GET_WOW_REASON "GET_WOW_REASON"
#endif
#define CMD_SET_ADV_PWS "SET_ADV_PWS"
#define CMD_SET_MDTIM "SET_MDTIM"
#define CMD_SET_LISTEN_DTIM_INTERVAL "SET_LISTEN_DTIM_INTERVAL"
#define CMD_SET_DBDC "SET_DBDC"
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
#define CMD_SET_CALBACKUP_TEST_DRV_FW "SET_CALBACKUP_TEST_DRV_FW"
#endif
#define CMD_SET_P2P_PS "SET_P2P_PS"
#define CMD_SET_P2P_NOA "SET_P2P_NOA"
#define CMD_GET_CNM_INFO "GET_CNM"
#define CMD_GET_DSLP_CNT "GET_DSLEEP_CNT"
#if CFG_SUPPORT_ADVANCE_CONTROL
#define CMD_SW_DBGCTL_ADVCTL_SET_ID 0xa1260000
#define CMD_SW_DBGCTL_ADVCTL_GET_ID 0xb1260000
#define CMD_SET_NOISE "SET_NOISE"
#define CMD_GET_NOISE "GET_NOISE"
#define CMD_AFH_RANGE_CONFIG "AFH_RANGE_CONFIG"
#define CMD_PTA_CONFIG "PTA_CONFIG"
#define CMD_PTA_TAG_CONFIG "PTA_TAG_CONFIG"
#define CMD_BA_SIZE_CONFIG "BA_SIZE_CONFIG"
#define CMD_TRAFFIC_REPORT "TRAFFIC_REPORT"
#define CMD_SET_POP "SET_POP"
#define CMD_GET_POP "GET_POP"
#define CMD_SET_ED "SET_ED"
#define CMD_GET_ED "GET_ED"
#define CMD_SET_PD "SET_PD"
#define CMD_GET_PD "GET_PD"
#define CMD_SET_MAX_RFGAIN "SET_MAX_RFGAIN"
#define CMD_GET_MAX_RFGAIN "GET_MAX_RFGAIN"
#define CMD_NOISE_HISTOGRAM "NOISE_HISTOGRAM"
enum {
CMD_ADVCTL_NOISE_ID = 1,
CMD_ADVCTL_POP_ID,
CMD_ADVCTL_ED_ID,
CMD_ADVCTL_PD_ID,
CMD_ADVCTL_MAX_RFGAIN_ID,
CMD_ADVCTL_MAX
};
#endif
static UINT_8 g_ucMiracastMode = MIRACAST_MODE_OFF;
typedef struct cmd_tlv {
char prefix;
char version;
char subver;
char reserved;
} cmd_tlv_t;
typedef struct priv_driver_cmd_s {
char buf[PRIV_CMD_SIZE];
int used_len;
int total_len;
} priv_driver_cmd_t;
#ifdef CFG_ANDROID_AOSP_PRIV_CMD
struct android_wifi_priv_cmd {
char *buf;
int used_len;
int total_len;
};
#endif /* CFG_ANDROID_AOSP_PRIV_CMD */
int priv_driver_get_dbg_level(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4DbgIdx, u4DbgMask;
BOOLEAN fgIsCmdAccept = FALSE;
INT_32 u4Ret = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= 2) {
/* u4DbgIdx = kalStrtoul(apcArgv[1], NULL, 0); */
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4DbgIdx);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
if (wlanGetDebugLevel(u4DbgIdx, &u4DbgMask) == WLAN_STATUS_SUCCESS) {
fgIsCmdAccept = TRUE;
i4BytesWritten =
snprintf(pcCommand, i4TotalLen,
"Get DBG module[%lu] log level => [0x%02x]!", u4DbgIdx, (UINT_8) u4DbgMask);
}
}
if (!fgIsCmdAccept)
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "Get DBG module log level failed!");
return i4BytesWritten;
} /* priv_driver_get_sw_ctrl */
#if CFG_SUPPORT_QA_TOOL
#if CFG_SUPPORT_BUFFER_MODE
static int priv_driver_set_eeprom_mode(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
INT_32 i4Argc = 0;
INT_32 i4BytesWritten = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 arg;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
if (i4Argc >= 2) {
rStatus = kalkStrtou32(apcArgv[1], 0, &arg);
if (rStatus) {
DBGLOG(REQ, LOUD, "parse apcArgv error rStatus=%d\n", rStatus);
return -1;
}
rStatus = priv_set_eeprom_mode(arg);
if (rStatus) {
DBGLOG(REQ, LOUD, "priv_set_eeprom_mode rStatus=%d\n", rStatus);
return -1;
}
i4BytesWritten =
snprintf(pcCommand, i4TotalLen, "Switch eeprom source as %s",
(arg == EFUSE_MODE) ? "Efuse" : "Buffer Bin");
}
return i4BytesWritten;
}
static int priv_driver_set_efuse_buffer_mode(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
INT_32 i4BytesWritten = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
PARAM_CUSTOM_EFUSE_BUFFER_MODE_T *prSetEfuseBufModeInfo = NULL;
#if (CFG_EFUSE_BUFFER_MODE_DELAY_CAL == 0)
BIN_CONTENT_T *pBinContent;
int i = 0;
#endif
PUINT_8 pucConfigBuf = NULL;
UINT_32 u4ConfigReadLen;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
pucConfigBuf = (PUINT_8) kalMemAlloc(2048, VIR_MEM_TYPE);
if (!pucConfigBuf) {
DBGLOG(INIT, INFO, "allocate memory for pucConfigBuf failed\n");
i4BytesWritten = -1;
goto out;
}
kalMemZero(pucConfigBuf, 2048);
u4ConfigReadLen = 0;
if (kalReadToFile("/MT6632_eFuse_usage_table.xlsm.bin", pucConfigBuf, 2048, &u4ConfigReadLen) == 0) {
/* ToDo:: Nothing */
} else {
DBGLOG(INIT, INFO, "can't find file\n");
i4BytesWritten = -1;
goto out;
}
/* pucConfigBuf */
prSetEfuseBufModeInfo =
(PARAM_CUSTOM_EFUSE_BUFFER_MODE_T *) kalMemAlloc(sizeof(PARAM_CUSTOM_EFUSE_BUFFER_MODE_T), VIR_MEM_TYPE);
if (prSetEfuseBufModeInfo == NULL) {
DBGLOG(INIT, INFO, "allocate memory for prSetEfuseBufModeInfo failed\n");
i4BytesWritten = -1;
goto out;
}
kalMemZero(prSetEfuseBufModeInfo, sizeof(PARAM_CUSTOM_EFUSE_BUFFER_MODE_T));
prSetEfuseBufModeInfo->ucSourceMode = 1;
prSetEfuseBufModeInfo->ucCount = (UINT_8)EFUSE_CONTENT_SIZE;
#if (CFG_EFUSE_BUFFER_MODE_DELAY_CAL == 0)
pBinContent = (BIN_CONTENT_T *)prSetEfuseBufModeInfo->aBinContent;
for (i = 0; i < EFUSE_CONTENT_SIZE; i++) {
pBinContent->u2Addr = i;
pBinContent->ucValue = *(pucConfigBuf + i);
pBinContent++;
}
for (i = 0; i < 20; i++)
DBGLOG(INIT, INFO, "%x\n", prSetEfuseBufModeInfo->aBinContent[i].ucValue);
#endif
rStatus = kalIoctl(prGlueInfo,
wlanoidSetEfusBufferMode,
prSetEfuseBufModeInfo, sizeof(PARAM_CUSTOM_EFUSE_BUFFER_MODE_T), FALSE, FALSE, TRUE,
&u4BufLen);
i4BytesWritten =
snprintf(pcCommand, i4TotalLen, "set buffer mode %s",
(rStatus == WLAN_STATUS_SUCCESS) ? "success" : "fail");
out:
if (pucConfigBuf)
kalMemFree(pucConfigBuf, VIR_MEM_TYPE, 2048);
if (prSetEfuseBufModeInfo)
kalMemFree(prSetEfuseBufModeInfo, VIR_MEM_TYPE,
sizeof(PARAM_CUSTOM_EFUSE_BUFFER_MODE_T));
return i4BytesWritten;
}
#endif /* CFG_SUPPORT_BUFFER_MODE */
static int priv_driver_get_rx_statistics(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 u4Ret = 0;
PARAM_CUSTOM_ACCESS_RX_STAT rRxStatisticsTest;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
DBGLOG(INIT, ERROR, "MT6632 : priv_driver_get_rx_statistics\n");
if (i4Argc >= 2) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rRxStatisticsTest.u4SeqNum));
rRxStatisticsTest.u4TotalNum = sizeof(PARAM_RX_STAT_T) / 4;
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryRxStatistics,
&rRxStatisticsTest, sizeof(rRxStatisticsTest), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
}
#endif /* CFG_SUPPORT_QA_TOOL */
#if CFG_SUPPORT_MSP
#if 0
static int priv_driver_get_stat(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 i4ArgNum = 2;
PARAM_GET_STA_STA_STATISTICS rQueryStaStatistics;
PARAM_RSSI rRssi;
UINT_16 u2LinkSpeed;
UINT_32 u4Per;
UINTT_8 i;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
kalMemZero(&rQueryStaStatistics, sizeof(rQueryStaStatistics));
if (i4Argc >= i4ArgNum) {
wlanHwAddrToBin(apcArgv[1], &rQueryStaStatistics.aucMacAddr[0]);
rQueryStaStatistics.ucReadClear = TRUE;
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryStaStatistics,
&rQueryStaStatistics,
sizeof(rQueryStaStatistics), TRUE, FALSE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
rRssi = RCPI_TO_dBm(rQueryStaStatistics.ucRcpi);
u2LinkSpeed = rQueryStaStatistics.u2LinkSpeed == 0 ? 0 : rQueryStaStatistics.u2LinkSpeed/2;
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nSTA Stat:\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"CurrentTemperature = %d\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx success = %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx fail count = %ld, PER=%ld.%1ld%%\n", 0, 0, 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx success = %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx with CRC = %ld, PER=%ld.%1ld%%\n", 0, 0, 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx with PhyErr = %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx with PlcpErr = %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx drop due to out of resource= %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx duplicate frame = %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"False CCA = %lu\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"RSSI = %d %d %d %d\n", 0, 0, 0, 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Last TX Rate = %s, %s, %s, %s, %s\n", "NA", "NA", "NA", "NA", "NA");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Last RX Rate = %s, %s, %s, %s, %s\n", "NA", "NA", "NA", "NA", "NA");
for (i = 0; i < 2 /* band num */; i++) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"BandIdx: = %d\n", i);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\tRange: 1 2~5 6~15 16~22 23~33 34~49 50~57 58~64\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\t\t%d \t%d \t%d \t%d \t%d \t%d \t%d \t%d\n",
0, 0, 0, 0, 0, 0, 0, 0);
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx success = %ld\n",
rQueryStaStatistics.u4TransmitCount - rQueryStaStatistics.u4TransmitFailCount);
u4Per = rQueryStaStatistics.u4TransmitFailCount == 0 ? 0 :
(1000 * (rQueryStaStatistics.u4TransmitFailCount)) /
rQueryStaStatistics.u4TransmitCount;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx fail count = %ld, PER=%ld.%1ld%%\n",
rQueryStaStatistics.u4TransmitFailCount, u4Per/10, u4Per%10);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"RSSI = %d\n", rRssi);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"LinkSpeed = %d\n", u2LinkSpeed);
}
} else
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nNo STA Stat:\n");
return i4BytesWritten;
}
#endif
static int priv_driver_get_sta_statistics(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 i4ArgNum = 3;
PARAM_GET_STA_STA_STATISTICS rQueryStaStatistics;
PARAM_RSSI rRssi;
UINT_16 u2LinkSpeed;
UINT_32 u4Per;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
kalMemZero(&rQueryStaStatistics, sizeof(rQueryStaStatistics));
rQueryStaStatistics.ucReadClear = TRUE;
if (i4Argc >= i4ArgNum) {
if (strnicmp(apcArgv[1], CMD_GET_STA_KEEP_CNT,
strlen(CMD_GET_STA_KEEP_CNT)) == 0) {
wlanHwAddrToBin(apcArgv[2],
&rQueryStaStatistics.aucMacAddr[0]);
rQueryStaStatistics.ucReadClear = FALSE;
} else if (strnicmp(apcArgv[2], CMD_GET_STA_KEEP_CNT,
strlen(CMD_GET_STA_KEEP_CNT)) == 0) {
wlanHwAddrToBin(apcArgv[1],
&rQueryStaStatistics.aucMacAddr[0]);
rQueryStaStatistics.ucReadClear = FALSE;
}
} else {
/* Get AIS AP address for no argument */
if (prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP) {
COPY_MAC_ADDR(rQueryStaStatistics.aucMacAddr,
prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP->aucMacAddr);
DBGLOG(RSN, INFO, "use ais ap "MACSTR"\n",
MAC2STR(prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP->aucMacAddr));
} else {
DBGLOG(RSN, INFO, "not connect to ais ap %x\n",
prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP);
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nNo STA Stat:\n");
return i4BytesWritten;
}
if (i4Argc == 2) {
if (strnicmp(apcArgv[1], CMD_GET_STA_KEEP_CNT, strlen(CMD_GET_STA_KEEP_CNT)) == 0)
rQueryStaStatistics.ucReadClear = FALSE;
}
}
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryStaStatistics,
&rQueryStaStatistics,
sizeof(rQueryStaStatistics), TRUE, FALSE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
rRssi = RCPI_TO_dBm(rQueryStaStatistics.ucRcpi);
u2LinkSpeed = rQueryStaStatistics.u2LinkSpeed == 0 ? 0 : rQueryStaStatistics.u2LinkSpeed/2;
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nSTA Stat:\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx total cnt = %ld\n",
rQueryStaStatistics.u4TransmitCount);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx success = %ld\n",
rQueryStaStatistics.u4TransmitCount - rQueryStaStatistics.u4TransmitFailCount);
u4Per = rQueryStaStatistics.u4TransmitCount == 0 ? 0 :
(1000 * (rQueryStaStatistics.u4TransmitFailCount)) /
rQueryStaStatistics.u4TransmitCount;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx fail count = %ld, PER=%ld.%1ld%%\n",
rQueryStaStatistics.u4TransmitFailCount, u4Per/10, u4Per%10);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"RSSI = %d\n", rRssi);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"LinkSpeed = %d\n", u2LinkSpeed);
} else
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nNo STA Stat:\n");
return i4BytesWritten;
}
static int priv_driver_get_bss_statistics(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus;
PARAM_MAC_ADDRESS arBssid;
UINT_32 u4BufLen;
INT_32 i4Rssi;
PARAM_GET_BSS_STATISTICS rQueryBssStatistics;
P_NETDEV_PRIVATE_GLUE_INFO prNetDevPrivate = (P_NETDEV_PRIVATE_GLUE_INFO) NULL;
UINT_8 ucBssIndex;
INT_32 i4BytesWritten = 0;
#if 0
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4Argc = 0;
UINT_32 u4Index;
#endif
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prGlueInfo);
kalMemZero(arBssid, MAC_ADDR_LEN);
wlanQueryInformation(prGlueInfo->prAdapter, wlanoidQueryBssid, &arBssid[0], sizeof(arBssid), &u4BufLen);
#if 0 /* Todo:: Get the none-AIS statistics */
if (i4Argc >= 2)
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Index);
#endif
/* 2. fill RSSI */
if (prGlueInfo->eParamMediaStateIndicated != PARAM_MEDIA_STATE_CONNECTED) {
/* not connected */
DBGLOG(REQ, WARN, "not yet connected\n");
return WLAN_STATUS_SUCCESS;
}
rStatus = kalIoctl(prGlueInfo, wlanoidQueryRssi, &i4Rssi,
sizeof(i4Rssi), TRUE, FALSE, FALSE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
DBGLOG(REQ, WARN, "unable to retrieve rssi\n");
/* 3 get per-BSS link statistics */
if (rStatus == WLAN_STATUS_SUCCESS) {
/* get Bss Index from ndev */
prNetDevPrivate = (P_NETDEV_PRIVATE_GLUE_INFO) netdev_priv(prNetDev);
ASSERT(prNetDevPrivate->prGlueInfo == prGlueInfo);
ucBssIndex = prNetDevPrivate->ucBssIdx;
kalMemZero(&rQueryBssStatistics, sizeof(rQueryBssStatistics));
rQueryBssStatistics.ucBssIndex = ucBssIndex;
rQueryBssStatistics.ucReadClear = TRUE;
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryBssStatistics,
&rQueryBssStatistics,
sizeof(rQueryBssStatistics), TRUE, FALSE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nStat:\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "CurrentTemperature = -\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx success = %ld\n",
rQueryBssStatistics.u4TransmitCount - rQueryBssStatistics.u4TransmitFailCount);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx fail count = %ld\n", rQueryBssStatistics.u4TransmitFailCount);
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx success = %ld\n", 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx with CRC = %ld\n", prStatistics->rFCSErrorCount.QuadPart);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "Rx with PhyErr = 0\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "Rx with PlcpErr = 0\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "Rx drop due to out of resource = 0\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rx duplicate frame = %ld\n", prStatistics->rFrameDuplicateCount.QuadPart);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "False CCA = 0\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"RSSI = %d\n", i4Rssi);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Last TX Rate = %s, %s, %s, %s, %s\n", "NA", "NA", "NA", "NA", "NA");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Last RX Rate = %s, %s, %s, %s, %s\n", "NA", "NA", "NA", "NA", "NA");
#endif
}
} else {
DBGLOG(REQ, WARN, "unable to retrieve per-BSS link statistics\n");
}
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
return i4BytesWritten;
}
#define HW_TX_RATE_TO_MODE(_x) (((_x) & (0x7 << 6)) >> 6)
#define HW_TX_RATE_TO_MCS(_x, _mode) ((_x) & (0x3f))
#define HW_TX_RATE_TO_NSS(_x) (((_x) & (0x3 << 9)) >> 9)
#define HW_TX_RATE_TO_STBC(_x) (((_x) & (0x1 << 11)) >> 11)
#define TX_VECTOR_GET_TX_RATE(_txv) (((_txv)->u4TxVector1) & BITS(0, 6))
#define TX_VECTOR_GET_TX_LDPC(_txv) ((((_txv)->u4TxVector1) >> 7) & BIT(0))
#define TX_VECTOR_GET_TX_STBC(_txv) ((((_txv)->u4TxVector1) >> 8) & BITS(0, 1))
#define TX_VECTOR_GET_TX_FRMODE(_txv) ((((_txv)->u4TxVector1) >> 10) & BITS(0, 1))
#define TX_VECTOR_GET_TX_MODE(_txv) ((((_txv)->u4TxVector1) >> 12) & BITS(0, 2))
#define TX_VECTOR_GET_TX_NSTS(_txv) ((((_txv)->u4TxVector1) >> 21) & BITS(0, 1))
#define TX_VECTOR_GET_TX_PWR(_txv) ((((_txv)->u4TxVector1) >> 24) & BITS(0, 6))
#define TX_VECTOR_GET_BF_EN(_txv) ((((_txv)->u4TxVector2) >> 31) & BIT(0))
#define TX_VECTOR_GET_DYN_BW(_txv) ((((_txv)->u4TxVector4) >> 31) & BIT(0))
#define TX_VECTOR_GET_NO_SOUNDING(_txv) ((((_txv)->u4TxVector4) >> 28) & BIT(0))
#define TX_VECTOR_GET_TX_SGI(_txv) ((((_txv)->u4TxVector4) >> 27) & BIT(0))
#define TX_RATE_MODE_CCK 0
#define TX_RATE_MODE_OFDM 1
#define TX_RATE_MODE_HTMIX 2
#define TX_RATE_MODE_HTGF 3
#define TX_RATE_MODE_VHT 4
#define MAX_TX_MODE 5
static char *HW_TX_MODE_STR[] = {"CCK", "OFDM", "MM", "GF", "VHT", "N/A"};
static char *HW_TX_RATE_CCK_STR[] = {"1M", "2M", "5.5M", "11M", "N/A"};
static char *HW_TX_RATE_OFDM_STR[] = {"6M", "9M", "12M", "18M", "24M", "36M", "48M", "54M", "N/A"};
static char *HW_TX_RATE_BW[] = {"BW20", "BW40", "BW80", "BW160/BW8080", "N/A"};
enum {
RATE_TBL_B = 0,
RATE_TBL_G,
RATE_TBL_N,
RATE_TBL_N_2SS,
RATE_TBL_AC,
RATE_TBL_AC_2SS,
RATE_TBL_MAX
};
static char *RATE_TBLE[] = {
[RATE_TBL_B] = "B",
[RATE_TBL_G] = "G",
[RATE_TBL_N] = "N",
[RATE_TBL_N_2SS] = "N_2SS",
[RATE_TBL_AC] = "AC",
[RATE_TBL_AC_2SS] = "AC_2SS",
[RATE_TBL_MAX] = "N/A"
};
#if 0
static char *AR_STATE[] = {"NULL", "STEADY", "PROBE", "N/A"};
static char *AR_ACTION[] = {"NULL", "INDEX", "RATE_UP", "RATE_DOWN", "RATE_GRP", "RATE_BACK",
"GI", "SGI_EN", "SGI_DIS", "PWR", "PWR_UP", "PWR_DOWN",
"PWR_RESET_UP", "BF", "BF_EN", "BF_DIS", "N/A"};
#endif
#define BW_20 0
#define BW_40 1
#define BW_80 2
#define BW_160 3
#define BW_10 4
#define BW_5 6
#define BW_8080 7
#define BW_ALL 0xFF
static char *hw_rate_ofdm_str(UINT_16 ofdm_idx)
{
switch (ofdm_idx) {
case 11: /* 6M */
return HW_TX_RATE_OFDM_STR[0];
case 15: /* 9M */
return HW_TX_RATE_OFDM_STR[1];
case 10: /* 12M */
return HW_TX_RATE_OFDM_STR[2];
case 14: /* 18M */
return HW_TX_RATE_OFDM_STR[3];
case 9: /* 24M */
return HW_TX_RATE_OFDM_STR[4];
case 13: /* 36M */
return HW_TX_RATE_OFDM_STR[5];
case 8: /* 48M */
return HW_TX_RATE_OFDM_STR[6];
case 12: /* 54M */
return HW_TX_RATE_OFDM_STR[7];
default:
return HW_TX_RATE_OFDM_STR[8];
}
}
static BOOL priv_driver_get_sgi_info(IN P_PARAM_PEER_CAP_T prWtblPeerCap)
{
if (!prWtblPeerCap)
return FALSE;
switch (prWtblPeerCap->ucFrequencyCapability) {
case BW_20:
return prWtblPeerCap->fgG2;
case BW_40:
return prWtblPeerCap->fgG4;
case BW_80:
return prWtblPeerCap->fgG8;
case BW_160:
return prWtblPeerCap->fgG16;
default:
return FALSE;
}
}
static BOOL priv_driver_get_ldpc_info(IN P_PARAM_TX_CONFIG_T prWtblTxConfig)
{
if (!prWtblTxConfig)
return FALSE;
if (prWtblTxConfig->fgIsVHT)
return prWtblTxConfig->fgVhtLDPC;
else
return prWtblTxConfig->fgLDPC;
}
INT_32 priv_driver_rate_to_string(IN char *pcCommand, IN int i4TotalLen, UINT_8 TxRx,
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo)
{
UINT_8 i, txmode, rate, stbc;
UINT_8 nss;
INT_32 i4BytesWritten = 0;
for (i = 0; i < AUTO_RATE_NUM; i++) {
txmode = HW_TX_RATE_TO_MODE(prHwWlanInfo->rWtblRateInfo.au2RateCode[i]);
if (txmode >= MAX_TX_MODE)
txmode = MAX_TX_MODE;
rate = HW_TX_RATE_TO_MCS(prHwWlanInfo->rWtblRateInfo.au2RateCode[i], txmode);
nss = HW_TX_RATE_TO_NSS(prHwWlanInfo->rWtblRateInfo.au2RateCode[i]) + 1;
stbc = HW_TX_RATE_TO_STBC(prHwWlanInfo->rWtblRateInfo.au2RateCode[i]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRate index[%d] ", i);
if (prHwWlanInfo->rWtblRateInfo.ucRateIdx == i) {
if (TxRx == 0)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "[Last RX Rate] ");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "[Last TX Rate] ");
} else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", " ");
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? HW_TX_RATE_CCK_STR[rate] : HW_TX_RATE_CCK_STR[4]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", hw_rate_ofdm_str(rate));
else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"NSS%d_MCS%d, ", nss, rate);
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability]);
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? "LP" : "SP");
else if (txmode == TX_RATE_MODE_OFDM)
;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", priv_driver_get_sgi_info(&prHwWlanInfo->rWtblPeerCap) == 0 ? "LGI" : "SGI");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s%s %s\n", HW_TX_MODE_STR[txmode],
stbc ? "STBC" : " ",
priv_driver_get_ldpc_info(&prHwWlanInfo->rWtblTxConfig) == 0 ? "BCC" : "LDPC");
}
return i4BytesWritten;
}
static INT_32 priv_driver_dump_helper_wtbl_info(IN char *pcCommand, IN int i4TotalLen,
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo)
{
UINT_8 i;
INT_32 i4BytesWritten = 0;
ASSERT(pcCommand);
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nwtbl:\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Dump WTBL info of WLAN_IDX = %d\n", prHwWlanInfo->u4Index);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tAddr="MACSTR"\n", MAC2STR(prHwWlanInfo->rWtblTxConfig.aucPA));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tMUAR_Idx = %d\n", prHwWlanInfo->rWtblSecConfig.ucMUARIdx);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\trc_a1/rc_a2:%d/%d\n", prHwWlanInfo->rWtblSecConfig.fgRCA1, prHwWlanInfo->rWtblSecConfig.fgRCA2);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tKID:%d/RCID:%d/RKV:%d/RV:%d/IKV:%d/WPI_FLAG:%d\n", prHwWlanInfo->rWtblSecConfig.ucKeyID,
prHwWlanInfo->rWtblSecConfig.fgRCID, prHwWlanInfo->rWtblSecConfig.fgRKV,
prHwWlanInfo->rWtblSecConfig.fgRV, prHwWlanInfo->rWtblSecConfig.fgIKV,
prHwWlanInfo->rWtblSecConfig.fgEvenPN);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\tGID_SU:NA");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tsw/DIS_RHTR:%d/%d\n", prHwWlanInfo->rWtblTxConfig.fgSW, prHwWlanInfo->rWtblTxConfig.fgDisRxHdrTran);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tHT/VHT/HT-LDPC/VHT-LDPC/DYN_BW/MMSS:%d/%d/%d/%d/%d/%d\n",
prHwWlanInfo->rWtblTxConfig.fgIsHT, prHwWlanInfo->rWtblTxConfig.fgIsVHT,
prHwWlanInfo->rWtblTxConfig.fgLDPC, prHwWlanInfo->rWtblTxConfig.fgVhtLDPC,
prHwWlanInfo->rWtblTxConfig.fgDynBw, prHwWlanInfo->rWtblPeerCap.ucMMSS);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tFCAP/G2/G4/G8/G16/CBRN:%d/%d/%d/%d/%d/%d\n",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability, prHwWlanInfo->rWtblPeerCap.fgG2,
prHwWlanInfo->rWtblPeerCap.fgG4, prHwWlanInfo->rWtblPeerCap.fgG8, prHwWlanInfo->rWtblPeerCap.fgG16,
prHwWlanInfo->rWtblPeerCap.ucChangeBWAfterRateN);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tHT-TxBF(tibf/tebf):%d/%d, VHT-TxBF(tibf/tebf):%d/%d, PFMU_IDX=%d\n",
prHwWlanInfo->rWtblTxConfig.fgTIBF, prHwWlanInfo->rWtblTxConfig.fgTEBF,
prHwWlanInfo->rWtblTxConfig.fgVhtTIBF, prHwWlanInfo->rWtblTxConfig.fgVhtTEBF,
prHwWlanInfo->rWtblTxConfig.ucPFMUIdx);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\tSPE_IDX=NA\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tBA Enable:0x%x, BAFail Enable:%d\n", prHwWlanInfo->rWtblBaConfig.ucBaEn,
prHwWlanInfo->rWtblTxConfig.fgBAFEn);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tQoS Enable:%d\n", prHwWlanInfo->rWtblTxConfig.fgIsQoS);
if (prHwWlanInfo->rWtblTxConfig.fgIsQoS) {
for (i = 0; i < 8; i += 2) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\t\tBA WinSize: TID 0 - %d, TID 1 - %d\n",
(prHwWlanInfo->rWtblBaConfig.u4BaWinSize >> (i * 3)) & BITS(0, 2),
(prHwWlanInfo->rWtblBaConfig.u4BaWinSize >> ((i + 1) * 3)) & BITS(0, 2));
}
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tpartial_aid:%d\n", prHwWlanInfo->rWtblTxConfig.u2PartialAID);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\twpi_even:%d\n", prHwWlanInfo->rWtblSecConfig.fgEvenPN);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tAAD_OM/CipherSuit:%d/%d\n", prHwWlanInfo->rWtblTxConfig.fgAADOM,
prHwWlanInfo->rWtblSecConfig.ucCipherSuit);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\taf:%d\n", prHwWlanInfo->rWtblPeerCap.ucAmpduFactor);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\trdg_ba:%d/rdg capability:%d\n", prHwWlanInfo->rWtblTxConfig.fgRdgBA,
prHwWlanInfo->rWtblTxConfig.fgRDG);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tcipher_suit:%d\n", prHwWlanInfo->rWtblSecConfig.ucCipherSuit);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tFromDS:%d\n", prHwWlanInfo->rWtblTxConfig.fgIsFromDS);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tToDS:%d\n", prHwWlanInfo->rWtblTxConfig.fgIsToDS);
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRCPI = %d %d %d %d\n", prHwWlanInfo->rWtblRxCounter.ucRxRcpi0,
prHwWlanInfo->rWtblRxCounter.ucRxRcpi1,
prHwWlanInfo->rWtblRxCounter.ucRxRcpi2,
prHwWlanInfo->rWtblRxCounter.ucRxRcpi3);
#endif
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRSSI = %d %d %d %d\n", RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi0),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi1),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi2),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi3));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\tRate Info\n");
i4BytesWritten += priv_driver_rate_to_string(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, 1,
prHwWlanInfo);
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\t===Key======\n");
for (i = 0; i < 32; i += 8) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\t0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x 0x%02x\n",
prHwWlanInfo->rWtblKeyConfig.aucKey[i + 0], prHwWlanInfo->rWtblKeyConfig.aucKey[i + 1],
prHwWlanInfo->rWtblKeyConfig.aucKey[i + 2], prHwWlanInfo->rWtblKeyConfig.aucKey[i + 3],
prHwWlanInfo->rWtblKeyConfig.aucKey[i + 4], prHwWlanInfo->rWtblKeyConfig.aucKey[i + 5],
prHwWlanInfo->rWtblKeyConfig.aucKey[i + 6], prHwWlanInfo->rWtblKeyConfig.aucKey[i + 7]);
}
#endif
return i4BytesWritten;
}
static int priv_driver_get_wtbl_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
INT_32 u4Ret = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
/* DBGLOG(RSN, INFO, "MT6632 : priv_driver_get_wtbl_info\n"); */
prHwWlanInfo = (P_PARAM_HW_WLAN_INFO_T)kalMemAlloc(sizeof(PARAM_HW_WLAN_INFO_T), VIR_MEM_TYPE);
if (!prHwWlanInfo)
return -1;
if (i4Argc >= 2) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &prHwWlanInfo->u4Index);
DBGLOG(REQ, INFO, "MT6632 : index = %d\n", prHwWlanInfo->u4Index);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryWlanInfo,
prHwWlanInfo, sizeof(PARAM_HW_WLAN_INFO_T), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, INFO, "rStatus %u u4BufLen = %d\n", rStatus, u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
kalMemFree(prHwWlanInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_WLAN_INFO_T));
return -1;
}
i4BytesWritten = priv_driver_dump_helper_wtbl_info(pcCommand, i4TotalLen, prHwWlanInfo);
}
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
kalMemFree(prHwWlanInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_WLAN_INFO_T));
return i4BytesWritten;
}
static int priv_driver_get_sta_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_8 aucMacAddr[MAC_ADDR_LEN];
UINT_8 ucWlanIndex;
PUINT_8 pucMacAddr = NULL;
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo = NULL;
PARAM_GET_STA_STA_STATISTICS rQueryStaStatistics;
PARAM_RSSI rRssi;
UINT_16 u2LinkSpeed;
UINT_32 u4Per;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
kalMemZero(&rQueryStaStatistics, sizeof(rQueryStaStatistics));
rQueryStaStatistics.ucReadClear = TRUE;
/* DBGLOG(RSN, INFO, "MT6632 : priv_driver_get_sta_info\n"); */
if (i4Argc >= 3) {
if (strnicmp(apcArgv[1], CMD_GET_STA_KEEP_CNT, strlen(CMD_GET_STA_KEEP_CNT)) == 0) {
wlanHwAddrToBin(apcArgv[2], &aucMacAddr[0]);
rQueryStaStatistics.ucReadClear = FALSE;
} else if (strnicmp(apcArgv[2], CMD_GET_STA_KEEP_CNT, strlen(CMD_GET_STA_KEEP_CNT)) == 0) {
wlanHwAddrToBin(apcArgv[1], &aucMacAddr[0]);
rQueryStaStatistics.ucReadClear = FALSE;
}
if (!wlanGetWlanIdxByAddress(prGlueInfo->prAdapter, &aucMacAddr[0], &ucWlanIndex))
return i4BytesWritten;
} else {
/* Get AIS AP address for no argument */
if (prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP)
ucWlanIndex = prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP->ucWlanIndex;
else if (!wlanGetWlanIdxByAddress(prGlueInfo->prAdapter, NULL, &ucWlanIndex)) /* try get a peer */
return i4BytesWritten;
if (i4Argc == 2) {
if (strnicmp(apcArgv[1], CMD_GET_STA_KEEP_CNT, strlen(CMD_GET_STA_KEEP_CNT)) == 0)
rQueryStaStatistics.ucReadClear = FALSE;
}
}
prHwWlanInfo = (P_PARAM_HW_WLAN_INFO_T)kalMemAlloc(sizeof(PARAM_HW_WLAN_INFO_T), VIR_MEM_TYPE);
if (!prHwWlanInfo) {
DBGLOG(REQ, ERROR, "alloc memory for prHwWlanInfo failed!\n");
i4BytesWritten = -1;
goto out;
}
prHwWlanInfo->u4Index = ucWlanIndex;
DBGLOG(REQ, INFO, "MT6632 : index = %d i4TotalLen = %d\n", prHwWlanInfo->u4Index, i4TotalLen);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryWlanInfo,
prHwWlanInfo, sizeof(PARAM_HW_WLAN_INFO_T), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "query prHwWlanInfo failed!\n");
goto out;
}
i4BytesWritten = priv_driver_dump_helper_wtbl_info(pcCommand, i4TotalLen, prHwWlanInfo);
pucMacAddr = wlanGetStaAddrByWlanIdx(prGlueInfo->prAdapter, ucWlanIndex);
if (pucMacAddr) {
COPY_MAC_ADDR(rQueryStaStatistics.aucMacAddr, pucMacAddr);
/* i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
* "\tAddr="MACSTR"\n", MAC2STR(rQueryStaStatistics.aucMacAddr));
*/
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryStaStatistics,
&rQueryStaStatistics,
sizeof(rQueryStaStatistics), TRUE, FALSE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
rRssi = RCPI_TO_dBm(rQueryStaStatistics.ucRcpi);
u2LinkSpeed = rQueryStaStatistics.u2LinkSpeed == 0 ? 0 : rQueryStaStatistics.u2LinkSpeed/2;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n\nSTA Stat:\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx total cnt = %ld\n",
rQueryStaStatistics.u4TransmitCount);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx success = %ld\n",
rQueryStaStatistics.u4TransmitCount - rQueryStaStatistics.u4TransmitFailCount);
u4Per = rQueryStaStatistics.u4TransmitCount == 0 ? 0 :
(1000 * (rQueryStaStatistics.u4TransmitFailCount)) /
rQueryStaStatistics.u4TransmitCount;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Tx fail count = %ld, PER=%ld.%1ld%%\n",
rQueryStaStatistics.u4TransmitFailCount, u4Per/10, u4Per%10);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"RSSI = %d\n", rRssi);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"LinkSpeed = %d\n", u2LinkSpeed);
}
}
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
out:
if (prHwWlanInfo)
kalMemFree(prHwWlanInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_WLAN_INFO_T));
return i4BytesWritten;
}
static int priv_driver_get_mib_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
UINT_8 i;
UINT_32 u4Per;
INT_32 u4Ret = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
P_PARAM_HW_MIB_INFO_T prHwMibInfo;
P_RX_CTRL_T prRxCtrl;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prRxCtrl = &prGlueInfo->prAdapter->rRxCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
DBGLOG(REQ, INFO, "MT6632 : priv_driver_get_mib_info\n");
prHwMibInfo = (P_PARAM_HW_MIB_INFO_T)kalMemAlloc(sizeof(PARAM_HW_MIB_INFO_T), VIR_MEM_TYPE);
if (!prHwMibInfo)
return -1;
if (i4Argc == 1)
prHwMibInfo->u4Index = 0;
if (i4Argc >= 2)
u4Ret = kalkStrtou32(apcArgv[1], 0, &prHwMibInfo->u4Index);
DBGLOG(REQ, INFO, "MT6632 : index = %d\n", prHwMibInfo->u4Index);
rStatus = kalIoctl(prGlueInfo, wlanoidQueryMibInfo,
prHwMibInfo, sizeof(PARAM_HW_MIB_INFO_T), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS) {
kalMemFree(prHwMibInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_MIB_INFO_T));
return -1;
}
if (prHwMibInfo->u4Index < 2) {
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\n\nmib state:\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Dump MIB info of IDX = %d\n", prHwMibInfo->u4Index);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "===Rx Related Counters===\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx with CRC=%ld\n", prHwMibInfo->rHwMibCnt.u4RxFcsErrCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx drop due to out of resource=%ld\n", prHwMibInfo->rHwMibCnt.u4RxFifoFullCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx Mpdu=%ld\n", prHwMibInfo->rHwMibCnt.u4RxMpduCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx AMpdu=%ld\n", prHwMibInfo->rHwMibCnt.u4RxAMPDUCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx PF Drop=%ld\n", prHwMibInfo->rHwMibCnt.u4PFDropCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx Len Mismatch=%ld\n", prHwMibInfo->rHwMibCnt.u4RxLenMismatchCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx data indicate total=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_INDICATION_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx data retain total=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_RETAINED_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx drop by SW total=%ld\n", RX_GET_CNT(prRxCtrl, RX_DROP_TOTAL_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx reorder miss=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_MISS_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx reorder within=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_WITHIN_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx reorder ahead=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_AHEAD_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx reorder behind=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_BEHIND_COUNT));
do {
UINT_32 u4AmsduCntx100 = 0;
if (RX_GET_CNT(prRxCtrl, RX_DATA_AMSDU_COUNT))
u4AmsduCntx100 = (UINT_32)div64_u64(RX_GET_CNT(prRxCtrl,
RX_DATA_MSDU_IN_AMSDU_COUNT) * 100,
RX_GET_CNT(prRxCtrl, RX_DATA_AMSDU_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx avg MSDU in AMSDU=%1ld.%02ld\n", u4AmsduCntx100 / 100, u4AmsduCntx100 % 100);
} while (FALSE);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx total MSDU in AMSDU=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_MSDU_IN_AMSDU_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx AMSDU=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_AMSDU_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx AMSDU miss=%ld\n", RX_GET_CNT(prRxCtrl, RX_DATA_AMSDU_MISS_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx no StaRec drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_NO_STA_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx inactive BSS drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_INACTIVE_BSS_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx HS20 drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_HS20_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx low SwRfb drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_LESS_SW_RFB_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx dupicate drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_DUPICATE_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx MIC err drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_MIC_ERROR_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx BAR handle=%ld\n", RX_GET_CNT(prRxCtrl, RX_BAR_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx non-interest drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_NO_INTEREST_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx type err drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_TYPE_ERR_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx class err drop=%ld\n", RX_GET_CNT(prRxCtrl, RX_CLASS_ERR_DROP_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "===Phy/Timing Related Counters===\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tChannelIdleCnt=%ld\n", prHwMibInfo->rHwMibCnt.u4ChannelIdleCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tCCA_NAV_Tx_Time=%ld\n", prHwMibInfo->rHwMibCnt.u4CcaNavTx);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRx_MDRDY_CNT=%ld\n", prHwMibInfo->rHwMibCnt.u4MdrdyCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tCCK_MDRDY=%ld, OFDM_MDRDY=0x%lx, OFDM_GREEN_MDRDY=0x%lx\n",
prHwMibInfo->rHwMibCnt.u4CCKMdrdyCnt, prHwMibInfo->rHwMibCnt.u4OFDMLGMixMdrdy,
prHwMibInfo->rHwMibCnt.u4OFDMGreenMdrdy);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tPrim CCA Time=%ld\n", prHwMibInfo->rHwMibCnt.u4PCcaTime);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tSec CCA Time=%ld\n", prHwMibInfo->rHwMibCnt.u4SCcaTime);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tPrim ED Time=%ld\n", prHwMibInfo->rHwMibCnt.u4PEDTime);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "===Tx Related Counters(Generic)===\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tBeaconTxCnt=%ld\n", prHwMibInfo->rHwMibCnt.u4BeaconTxCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tTx 40MHz Cnt=%ld\n", prHwMibInfo->rHwMib2Cnt.u4Tx40MHzCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tTx 80MHz Cnt=%ld\n", prHwMibInfo->rHwMib2Cnt.u4Tx80MHzCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tTx 160MHz Cnt=%ld\n", prHwMibInfo->rHwMib2Cnt.u4Tx160MHzCnt);
for (i = 0; i < BSSID_NUM; i++) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\t===BSSID[%d] Related Counters===\n", i);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tBA Miss Cnt=%ld\n", prHwMibInfo->rHwMibCnt.au4BaMissedCnt[i]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRTS Tx Cnt=%ld\n", prHwMibInfo->rHwMibCnt.au4RtsTxCnt[i]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tFrame Retry Cnt=%ld\n", prHwMibInfo->rHwMibCnt.au4FrameRetryCnt[i]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tFrame Retry 2 Cnt=%ld\n", prHwMibInfo->rHwMibCnt.au4FrameRetry2Cnt[i]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tRTS Retry Cnt=%ld\n", prHwMibInfo->rHwMibCnt.au4RtsRetryCnt[i]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tAck Failed Cnt=%ld\n", prHwMibInfo->rHwMibCnt.au4AckFailedCnt[i]);
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "===AMPDU Related Counters===\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tTx AMPDU_Pkt_Cnt=%ld\n", prHwMibInfo->rHwTxAmpduMts.u2TxAmpduCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tTx AMPDU_MPDU_Pkt_Cnt=%ld\n", prHwMibInfo->rHwTxAmpduMts.u4TxSfCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tAMPDU SuccessCnt=%ld\n", prHwMibInfo->rHwTxAmpduMts.u4TxAckSfCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tAMPDU Tx success = %ld\n", prHwMibInfo->rHwTxAmpduMts.u4TxAckSfCnt);
u4Per = prHwMibInfo->rHwTxAmpduMts.u4TxSfCnt == 0 ? 0 :
(1000 * (prHwMibInfo->rHwTxAmpduMts.u4TxSfCnt - prHwMibInfo->rHwTxAmpduMts.u4TxAckSfCnt)) /
prHwMibInfo->rHwTxAmpduMts.u4TxSfCnt;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\tAMPDU Tx fail count = %ld, PER=%ld.%1ld%%\n",
prHwMibInfo->rHwTxAmpduMts.u4TxSfCnt - prHwMibInfo->rHwTxAmpduMts.u4TxAckSfCnt,
u4Per/10, u4Per%10);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\tTx Agg\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\tRange: 1 2~5 6~15 16~22 23~33 34~49 50~57 58~64\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\t\t%d \t%d \t%d \t%d \t%d \t%d \t%d \t%d\n",
prHwMibInfo->rHwTxAmpduMts.u2TxRange1AmpduCnt, prHwMibInfo->rHwTxAmpduMts.u2TxRange2AmpduCnt,
prHwMibInfo->rHwTxAmpduMts.u2TxRange3AmpduCnt, prHwMibInfo->rHwTxAmpduMts.u2TxRange4AmpduCnt,
prHwMibInfo->rHwTxAmpduMts.u2TxRange5AmpduCnt, prHwMibInfo->rHwTxAmpduMts.u2TxRange6AmpduCnt,
prHwMibInfo->rHwTxAmpduMts.u2TxRange7AmpduCnt, prHwMibInfo->rHwTxAmpduMts.u2TxRange8AmpduCnt);
} else
i4BytesWritten = kalScnprintf(pcCommand, i4TotalLen, "%s", "\nClear All Statistics\n");
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
kalMemFree(prHwMibInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_MIB_INFO_T));
nicRxClearStatistics(prGlueInfo->prAdapter);
return i4BytesWritten;
}
/* Private Coex Ctrl Subcmd for Isolation Detection */
static int priv_driver_iso_detect(IN P_GLUE_INFO_T prGlueInfo,
IN struct CMD_COEX_CTRL *prCmdCoexCtrl, IN signed char *argv[])
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
UINT_32 u4Ret = 0;
struct CMD_COEX_ISO_DETECT rCmdCoexIsoDetect;
rCmdCoexIsoDetect.u4Isolation = 0;
u4Ret = kalkStrtou32(argv[2], 0, &(rCmdCoexIsoDetect.u4IsoPath));
if (u4Ret) {
DBGLOG(REQ, LOUD, " -priv_driver_coex_iso_detect - Parse Iso Path failed u4Ret=%d\n", u4Ret);
return -1;
}
u4Ret = kalkStrtou32(argv[3], 0, &(rCmdCoexIsoDetect.u4Channel));
if (u4Ret) {
DBGLOG(REQ, LOUD, " -priv_driver_coex_iso_detect - Parse channel failed u4Ret = %d\n", u4Ret);
return -1;
}
/* Copy Memory */
kalMemCopy(prCmdCoexCtrl->aucBuffer, &rCmdCoexIsoDetect, sizeof(struct CMD_COEX_ISO_DETECT));
/* Ioctl Isolation Detect */
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryCoexIso,
prCmdCoexCtrl,
sizeof(struct CMD_COEX_CTRL),
TRUE,
TRUE,
TRUE,
&u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
/* If all pass, return u4Ret to 0 */
return u4Ret;
}
/* Private Command for Coex Ctrl */
static int priv_driver_coex_ctrl(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
INT_32 i4ArgNum = 2;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret = 0;
enum ENUM_COEX_CTRL_CMD CoexCtrlCmd;
struct CMD_COEX_CTRL rCmdCoexCtrl;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
/* Prevent Kernel Panic, set default i4ArgNum to 2 */
if (i4Argc >= i4ArgNum) {
/* Parse Coex SubCmd */
u4Ret = kalkStrtou32(apcArgv[1], 0, &rCmdCoexCtrl.u4SubCmd);
if (u4Ret)
return -1;
CoexCtrlCmd = (enum ENUM_COEX_CTRL_CMD) rCmdCoexCtrl.u4SubCmd;
switch (CoexCtrlCmd) {
/* Isolation Detection */
case ENUM_COEX_CTRL_ISO_DETECT:
{
INT_32 i4SubArgNum = 4;
/* Safely dereference "argv[3]".*/
if (i4Argc >= i4SubArgNum) {
struct CMD_COEX_ISO_DETECT *prCmdCoexIsoDetect;
/* Isolation Detection Method */
u4Ret = priv_driver_iso_detect(prGlueInfo, &rCmdCoexCtrl, apcArgv);
if (u4Ret)
return -1;
/* Get Isolation value */
prCmdCoexIsoDetect = (struct CMD_COEX_ISO_DETECT *) rCmdCoexCtrl.aucBuffer;
/* Set Return i4BytesWritten Value */
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "%d", prCmdCoexIsoDetect->u4Isolation);
DBGLOG(REQ, INFO, "Isolation: %d\n", prCmdCoexIsoDetect->u4Isolation);
}
break;
}
/* Default Coex Cmd */
default:
break;
}
}
return i4BytesWritten;
}
static int priv_driver_set_fw_log(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4McuDest = 0;
UINT_32 u4LogType = 0;
#if CFG_SUPPORT_FW_DBG_LEVEL_CTRL
UINT_32 ucFwLogLevel = FW_DBG_LEVEL_DONT_SET;
#endif
P_CMD_FW_LOG_2_HOST_CTRL_T prFwLog2HostCtrl = NULL;
UINT_32 u4Ret = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(RSN, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
DBGLOG(RSN, INFO, "MT6632 : priv_driver_set_fw_log\n");
prFwLog2HostCtrl = (P_CMD_FW_LOG_2_HOST_CTRL_T)kalMemAlloc(sizeof(CMD_FW_LOG_2_HOST_CTRL_T), VIR_MEM_TYPE);
if (!prFwLog2HostCtrl) {
DBGLOG(REQ, ERROR, "allocate memory for prFwLog2HostCtrl failed\n");
i4BytesWritten = -1;
goto out;
}
#if CFG_SUPPORT_FW_DBG_LEVEL_CTRL
if ((i4Argc != 3) && (i4Argc != 4)) {
DBGLOG(REQ, ERROR, "argc %i must be 3 or 4\n", i4Argc);
i4BytesWritten = -1;
goto out;
}
#else
if (i4Argc != 3) {
DBGLOG(REQ, ERROR, "argc %i is not equal to 3\n", i4Argc);
i4BytesWritten = -1;
goto out;
}
#endif
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4McuDest);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse u4McuDest error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &u4LogType);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse u4LogType error u4Ret=%d\n", u4Ret);
#if CFG_SUPPORT_FW_DBG_LEVEL_CTRL
if (i4Argc == 4) {
u4Ret = kalkStrtou32(apcArgv[3], 0, &ucFwLogLevel);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ucFwLogLevel error u4Ret=%d\n", u4Ret);
}
prFwLog2HostCtrl->ucFwLogLevel = (UINT_8)ucFwLogLevel;
#endif
prFwLog2HostCtrl->ucMcuDest = (UINT_8)u4McuDest;
prFwLog2HostCtrl->ucFwLog2HostCtrl = (UINT_8)u4LogType;
if (prFwLog2HostCtrl->ucMcuDest == 0)
prGlueInfo->prAdapter->rWifiVar.ucN9Log2HostCtrl = prFwLog2HostCtrl->ucFwLog2HostCtrl;
else if (prFwLog2HostCtrl->ucMcuDest == 1)
prGlueInfo->prAdapter->rWifiVar.ucCR4Log2HostCtrl = prFwLog2HostCtrl->ucFwLog2HostCtrl;
rStatus = kalIoctl(prGlueInfo,
wlanoidSetFwLog2Host,
prFwLog2HostCtrl, sizeof(CMD_FW_LOG_2_HOST_CTRL_T), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, INFO, "%s: command result is %s (%d %d)\n", __func__, pcCommand, u4McuDest, u4LogType);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "send fw log to host cmd failed\n");
i4BytesWritten = -1;
goto out;
}
out:
if (prFwLog2HostCtrl)
kalMemFree(prFwLog2HostCtrl, VIR_MEM_TYPE,
sizeof(CMD_FW_LOG_2_HOST_CTRL_T));
return i4BytesWritten;
}
#endif
static int priv_driver_get_mcr(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret;
INT_32 i4ArgNum = 2;
CMD_ACCESS_REG rCmdAccessReg;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rCmdAccessReg.u4Address));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_mcr error (Address) u4Ret=%d\n", u4Ret);
/* rCmdAccessReg.u4Address = kalStrtoul(apcArgv[1], NULL, 0); */
rCmdAccessReg.u4Data = 0;
DBGLOG(REQ, LOUD, "address is %x\n", rCmdAccessReg.u4Address);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryMcrRead,
&rCmdAccessReg, sizeof(rCmdAccessReg), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "0x%08x", (unsigned int)rCmdAccessReg.u4Data);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
}
return i4BytesWritten;
} /* priv_driver_get_mcr */
int priv_driver_set_mcr(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret;
INT_32 i4ArgNum = 3;
CMD_ACCESS_REG rCmdAccessReg;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rCmdAccessReg.u4Address));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_mcr error (Address) u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &(rCmdAccessReg.u4Data));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_mcr error (Data) u4Ret=%d\n", u4Ret);
/* rCmdAccessReg.u4Address = kalStrtoul(apcArgv[1], NULL, 0); */
/* rCmdAccessReg.u4Data = kalStrtoul(apcArgv[2], NULL, 0); */
rStatus = kalIoctl(prGlueInfo,
wlanoidSetMcrWrite,
&rCmdAccessReg, sizeof(rCmdAccessReg), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
}
static int priv_driver_set_test_mode(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret;
INT_32 i4ArgNum = 2, u4MagicKey;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(u4MagicKey));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse Magic Key error u4Ret=%d\n", u4Ret);
DBGLOG(REQ, LOUD, "The Set Test Mode Magic Key is %d\n", u4MagicKey);
if (u4MagicKey == PRIV_CMD_TEST_MAGIC_KEY) {
rStatus = kalIoctl(prGlueInfo,
wlanoidRftestSetTestMode,
NULL, 0, FALSE, FALSE, TRUE, &u4BufLen);
} else if (u4MagicKey == 0) {
rStatus = kalIoctl(prGlueInfo,
wlanoidRftestSetAbortTestMode,
NULL, 0, FALSE, FALSE, TRUE, &u4BufLen);
}
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
} /* priv_driver_set_test_mode */
static int priv_driver_set_test_cmd(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret;
INT_32 i4ArgNum = 3;
PARAM_MTK_WIFI_TEST_STRUCT_T rRfATInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rRfATInfo.u4FuncIndex));
if (u4Ret)
DBGLOG(REQ, LOUD, "Parse Test CMD Index error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &(rRfATInfo.u4FuncData));
if (u4Ret)
DBGLOG(REQ, LOUD, "Parse Test CMD Data error u4Ret=%d\n", u4Ret);
DBGLOG(REQ, LOUD, "Set Test CMD FuncIndex = %d, FuncData = %d\n",
rRfATInfo.u4FuncIndex, rRfATInfo.u4FuncData);
rStatus = kalIoctl(prGlueInfo,
wlanoidRftestSetAutoTest,
&rRfATInfo, sizeof(rRfATInfo), FALSE, FALSE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
} /* priv_driver_set_test_cmd */
static int priv_driver_get_test_result(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret;
UINT_32 u4Data = 0;
INT_32 i4ArgNum = 3;
PARAM_MTK_WIFI_TEST_STRUCT_T rRfATInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rRfATInfo.u4FuncIndex));
if (u4Ret)
DBGLOG(REQ, LOUD, "Parse Test CMD Index error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &(rRfATInfo.u4FuncData));
if (u4Ret)
DBGLOG(REQ, LOUD, "Parse Test CMD Data error u4Ret=%d\n", u4Ret);
DBGLOG(REQ, LOUD, "Get Test CMD FuncIndex = %d, FuncData = %d\n",
rRfATInfo.u4FuncIndex, rRfATInfo.u4FuncData);
rStatus = kalIoctl(prGlueInfo,
wlanoidRftestQueryAutoTest,
&rRfATInfo, sizeof(rRfATInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u4Data = (unsigned int)rRfATInfo.u4FuncData;
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "%d[0x%08x]", u4Data, u4Data);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
}
return i4BytesWritten;
} /* priv_driver_get_test_result */
#if CFG_SUPPORT_LAST_SEC_MCS_INFO
INT_32 priv_driver_last_sec_mcs_info(IN P_ADAPTER_T prAdapter, IN char *pcCommand, IN int i4TotalLen,
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo, struct PARAM_TX_MCS_INFO *prTxMcsInfo)
{
UINT_8 i, j, txmode, rate, stbc;
UINT_8 nsts;
INT_32 i4BytesWritten = 0;
UINT_32 au4RxVect0Que[MCS_INFO_SAMPLE_CNT], au4RxVect1Que[MCS_INFO_SAMPLE_CNT];
UINT_8 ucStaIdx = prAdapter->prAisBssInfo->prStaRecOfAP->ucIndex;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, "\nTx MCS:\n");
for (i = 0; i < MCS_INFO_SAMPLE_CNT; i++) {
UINT_8 tmpPerSum = 0, cnt = 0;
UINT_16 tmpRateCode = 0xFFFF;
if (prTxMcsInfo->au2TxRateCode[i] == 0xFFFF)
continue;
if (tmpRateCode == 0xFFFF)
tmpRateCode = prTxMcsInfo->au2TxRateCode[i];
txmode = HW_TX_RATE_TO_MODE(prTxMcsInfo->au2TxRateCode[i]);
if (txmode >= MAX_TX_MODE)
txmode = MAX_TX_MODE;
rate = HW_TX_RATE_TO_MCS(prTxMcsInfo->au2TxRateCode[i], txmode);
nsts = HW_TX_RATE_TO_NSS(prTxMcsInfo->au2TxRateCode[i]) + 1;
stbc = HW_TX_RATE_TO_STBC(prTxMcsInfo->au2TxRateCode[i]);
for (j = 0; j < MCS_INFO_SAMPLE_CNT; j++) {
if (tmpRateCode == prTxMcsInfo->au2TxRateCode[j]) {
tmpPerSum += prTxMcsInfo->aucTxRatePer[j];
cnt++;
prTxMcsInfo->au2TxRateCode[j] = 0xFFFF;
}
}
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" %s, ", HW_TX_RATE_CCK_STR[rate & 0x3]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" %s, ", hw_rate_ofdm_str(rate));
else if ((txmode == TX_RATE_MODE_HTMIX) || (txmode == TX_RATE_MODE_HTGF))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" MCS%d, ", rate);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" NSS%d_MCS%d, ", nsts, rate);
if ((txmode == TX_RATE_MODE_CCK) || (txmode == TX_RATE_MODE_OFDM))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", HW_TX_RATE_BW[0]);
else
if (i > prHwWlanInfo->rWtblPeerCap.ucChangeBWAfterRateN)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%s, ",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
(prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability > BW_20 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability - 1] :
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability]) :
HW_TX_RATE_BW[4]);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%s, ",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability] :
HW_TX_RATE_BW[4]);
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? "LP" : "SP");
else if (txmode == TX_RATE_MODE_OFDM)
;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", priv_driver_get_sgi_info(&prHwWlanInfo->rWtblPeerCap) == 0 ? "LGI" : "SGI");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s%s%s [PER: %02d%]\t", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
stbc ? ", STBC, " : ", ",
((priv_driver_get_ldpc_info(&prHwWlanInfo->rWtblTxConfig) == 0) ||
(txmode == TX_RATE_MODE_CCK) || (txmode == TX_RATE_MODE_OFDM)) ? "BCC" : "LDPC",
tmpPerSum/cnt);
for (j = 0; j < cnt; j++)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, "*");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, "\n");
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, "\nRx MCS:\n");
kalMemCopy(au4RxVect0Que, prAdapter->arStaRec[ucStaIdx].au4RxVect0Que, sizeof(au4RxVect0Que));
kalMemCopy(au4RxVect1Que, prAdapter->arStaRec[ucStaIdx].au4RxVect1Que, sizeof(au4RxVect1Que));
for (i = 0; i < MCS_INFO_SAMPLE_CNT; i++) {
UINT_8 cnt = 0;
UINT_32 u4RxVector0 = 0xFFFFFFFF;
UINT_32 txmode, rate, frmode, sgi, nsts, ldpc, stbc, groupid, mu;
#define RX_MCS_INFO_MASK BITS(0, 17)
if (au4RxVect0Que[i] == 0xFFFFFFFF)
continue;
if (u4RxVector0 == 0xFFFFFFFF)
u4RxVector0 = au4RxVect0Que[i];
txmode = (au4RxVect0Que[i] & RX_VT_RX_MODE_MASK) >> RX_VT_RX_MODE_OFFSET;
rate = (au4RxVect0Que[i] & RX_VT_RX_RATE_MASK) >> RX_VT_RX_RATE_OFFSET;
frmode = (au4RxVect0Que[i] & RX_VT_FR_MODE_MASK) >> RX_VT_FR_MODE_OFFSET;
nsts = ((au4RxVect1Que[i] & RX_VT_NSTS_MASK) >> RX_VT_NSTS_OFFSET);
stbc = (au4RxVect0Que[i] & RX_VT_STBC_MASK) >> RX_VT_STBC_OFFSET;
sgi = au4RxVect0Que[i] & RX_VT_SHORT_GI;
ldpc = au4RxVect0Que[i] & RX_VT_LDPC;
groupid = (au4RxVect1Que[i] & RX_VT_GROUP_ID_MASK) >> RX_VT_GROUP_ID_OFFSET;
for (j = 0; j < MCS_INFO_SAMPLE_CNT; j++) {
if ((u4RxVector0 & RX_MCS_INFO_MASK) == (au4RxVect0Que[j] & RX_MCS_INFO_MASK)) {
au4RxVect0Que[j] = 0xFFFFFFFF;
cnt++;
}
}
if (groupid && groupid != 63) {
mu = 1;
} else {
mu = 0;
nsts += 1;
}
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" %s, ", rate < 4 ? HW_TX_RATE_CCK_STR[rate] : HW_TX_RATE_CCK_STR[4]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" %s, ", hw_rate_ofdm_str(rate));
else if ((txmode == TX_RATE_MODE_HTMIX) || (txmode == TX_RATE_MODE_HTGF))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" MCS%d, ", rate);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" NSS%d_MCS%d, ", nsts, rate);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", frmode < 4 ? HW_TX_RATE_BW[frmode] : HW_TX_RATE_BW[4]);
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? "LP" : "SP");
else if (txmode == TX_RATE_MODE_OFDM)
;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s,", sgi == 0 ? "LGI" : "SGI");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", stbc == 0 ? " " : " STBC, ");
if (mu) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, %s, %s (%d)\t", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
ldpc == 0 ? "BCC" : "LDPC", "MU", groupid);
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, %s\t", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
ldpc == 0 ? "BCC" : "LDPC");
}
for (j = 0; j < cnt; j++)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, "*");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten, "\n");
}
return i4BytesWritten;
}
#endif
INT_32 priv_driver_tx_rate_info(IN char *pcCommand, IN int i4TotalLen, BOOLEAN fgDumpAll,
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo, P_PARAM_GET_STA_STATISTICS prQueryStaStatistics)
{
UINT_8 i, txmode, rate, stbc;
UINT_8 nsts;
INT_32 i4BytesWritten = 0;
for (i = 0; i < AUTO_RATE_NUM; i++) {
txmode = HW_TX_RATE_TO_MODE(prHwWlanInfo->rWtblRateInfo.au2RateCode[i]);
if (txmode >= MAX_TX_MODE)
txmode = MAX_TX_MODE;
rate = HW_TX_RATE_TO_MCS(prHwWlanInfo->rWtblRateInfo.au2RateCode[i], txmode);
nsts = HW_TX_RATE_TO_NSS(prHwWlanInfo->rWtblRateInfo.au2RateCode[i]) + 1;
stbc = HW_TX_RATE_TO_STBC(prHwWlanInfo->rWtblRateInfo.au2RateCode[i]);
if (fgDumpAll) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"Rate index[%d] ", i);
if (prHwWlanInfo->rWtblRateInfo.ucRateIdx == i) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "--> ");
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", " ");
}
}
if (!fgDumpAll) {
if (prHwWlanInfo->rWtblRateInfo.ucRateIdx != i)
continue;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s", "AR TX Rate", " = ");
}
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", HW_TX_RATE_CCK_STR[rate & 0x3]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", hw_rate_ofdm_str(rate));
else if ((txmode == TX_RATE_MODE_HTMIX) || (txmode == TX_RATE_MODE_HTGF))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"MCS%d, ", rate);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"NSS%d_MCS%d, ", nsts, rate);
if (prQueryStaStatistics->ucSkipAr) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability] : HW_TX_RATE_BW[4]);
} else {
if ((txmode == TX_RATE_MODE_CCK) || (txmode == TX_RATE_MODE_OFDM))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", HW_TX_RATE_BW[0]);
else
if (i > prHwWlanInfo->rWtblPeerCap.ucChangeBWAfterRateN)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%s, ",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
(prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability > BW_20 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability - 1] :
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability]) :
HW_TX_RATE_BW[4]);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%s, ",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability] :
HW_TX_RATE_BW[4]);
}
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? "LP" : "SP");
else if (txmode == TX_RATE_MODE_OFDM)
;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", priv_driver_get_sgi_info(&prHwWlanInfo->rWtblPeerCap) == 0 ? "LGI" : "SGI");
if (prQueryStaStatistics->ucSkipAr) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s%s%s\n", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
stbc ? ", STBC, " : ", ",
priv_driver_get_ldpc_info(&prHwWlanInfo->rWtblTxConfig) == 0 ? "BCC" : "LDPC");
} else if (prQueryStaStatistics->aucArRatePer[prQueryStaStatistics->aucRateEntryIndex[i]] == 0xFF) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s%s%s (--)\n", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
stbc ? ", STBC, " : ", ",
((priv_driver_get_ldpc_info(&prHwWlanInfo->rWtblTxConfig) == 0) ||
(txmode == TX_RATE_MODE_CCK) || (txmode == TX_RATE_MODE_OFDM)) ? "BCC" : "LDPC");
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s%s%s (%d)\n", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
stbc ? ", STBC, " : ", ",
((priv_driver_get_ldpc_info(&prHwWlanInfo->rWtblTxConfig) == 0) ||
(txmode == TX_RATE_MODE_CCK) || (txmode == TX_RATE_MODE_OFDM)) ? "BCC" : "LDPC",
prQueryStaStatistics->aucArRatePer[prQueryStaStatistics->aucRateEntryIndex[i]]);
}
if (!fgDumpAll)
break;
}
return i4BytesWritten;
}
INT_32 priv_driver_last_rx_rssi(P_ADAPTER_T prAdapter, IN char *pcCommand, IN int i4TotalLen,
IN UINT_8 ucWlanIdx)
{
INT_32 i4RSSI0 = 0, i4RSSI1 = 0, i4RSSI2 = 0, i4RSSI3;
INT_32 i4BytesWritten = 0;
UINT_32 u4RxVector3 = 0;
UINT_8 ucStaIdx;
if (wlanGetStaIdxByWlanIdx(prAdapter, ucWlanIdx, &ucStaIdx) == WLAN_STATUS_SUCCESS) {
u4RxVector3 = prAdapter->arStaRec[ucStaIdx].u4RxVector3;
DBGLOG(REQ, LOUD, "****** RX Vector3 = 0x%08x ******\n", u4RxVector3);
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s", "Last RX RSSI", " = NOT SUPPORT");
return i4BytesWritten;
}
i4RSSI0 = RCPI_TO_dBm((u4RxVector3 & RX_VT_RCPI0_MASK) >> RX_VT_RCPI0_OFFSET);
i4RSSI1 = RCPI_TO_dBm((u4RxVector3 & RX_VT_RCPI1_MASK) >> RX_VT_RCPI1_OFFSET);
if (prAdapter->rWifiVar.ucNSS > 2) {
i4RSSI2 = RCPI_TO_dBm((u4RxVector3 & RX_VT_RCPI2_MASK) >> RX_VT_RCPI2_OFFSET);
i4RSSI3 = RCPI_TO_dBm((u4RxVector3 & RX_VT_RCPI3_MASK) >> RX_VT_RCPI3_OFFSET);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d %d %d %d\n", "Last RX Data RSSI", " = ", i4RSSI0, i4RSSI1, i4RSSI2, i4RSSI3);
} else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d %d\n", "Last RX Data RSSI", " = ", i4RSSI0, i4RSSI1);
return i4BytesWritten;
}
INT_32 priv_driver_rx_rate_info(P_ADAPTER_T prAdapter, IN char *pcCommand, IN int i4TotalLen,
IN UINT_8 ucWlanIdx)
{
UINT_32 txmode, rate, frmode, sgi, nsts, ldpc, stbc, groupid, mu;
INT_32 i4BytesWritten = 0;
UINT_32 u4RxVector0 = 0, u4RxVector1 = 0;
UINT_8 ucStaIdx;
if (wlanGetStaIdxByWlanIdx(prAdapter, ucWlanIdx, &ucStaIdx) == WLAN_STATUS_SUCCESS) {
u4RxVector0 = prAdapter->arStaRec[ucStaIdx].u4RxVector0;
u4RxVector1 = prAdapter->arStaRec[ucStaIdx].u4RxVector1;
DBGLOG(REQ, LOUD, "****** RX Vector0 = 0x%08x ******\n", u4RxVector0);
DBGLOG(REQ, LOUD, "****** RX Vector1 = 0x%08x ******\n", u4RxVector1);
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s", "Last RX Rate", " = NOT SUPPORT");
return i4BytesWritten;
}
txmode = (u4RxVector0 & RX_VT_RX_MODE_MASK) >> RX_VT_RX_MODE_OFFSET;
rate = (u4RxVector0 & RX_VT_RX_RATE_MASK) >> RX_VT_RX_RATE_OFFSET;
frmode = (u4RxVector0 & RX_VT_FR_MODE_MASK) >> RX_VT_FR_MODE_OFFSET;
nsts = ((u4RxVector1 & RX_VT_NSTS_MASK) >> RX_VT_NSTS_OFFSET);
stbc = (u4RxVector0 & RX_VT_STBC_MASK) >> RX_VT_STBC_OFFSET;
sgi = u4RxVector0 & RX_VT_SHORT_GI;
ldpc = u4RxVector0 & RX_VT_LDPC;
groupid = (u4RxVector1 & RX_VT_GROUP_ID_MASK) >> RX_VT_GROUP_ID_OFFSET;
if (groupid && groupid != 63) {
mu = 1;
} else {
mu = 0;
nsts += 1;
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s", "Last RX Rate", " = ");
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? HW_TX_RATE_CCK_STR[rate] : HW_TX_RATE_CCK_STR[4]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", hw_rate_ofdm_str(rate));
else if ((txmode == TX_RATE_MODE_HTMIX) || (txmode == TX_RATE_MODE_HTGF))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"MCS%d, ", rate);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"NSS%d_MCS%d, ", nsts, rate);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", frmode < 4 ? HW_TX_RATE_BW[frmode] : HW_TX_RATE_BW[4]);
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? "LP" : "SP");
else if (txmode == TX_RATE_MODE_OFDM)
;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s,", sgi == 0 ? "LGI" : "SGI");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", stbc == 0 ? " " : " STBC, ");
if (mu) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, %s, %s (%d)\n", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
ldpc == 0 ? "BCC" : "LDPC", "MU", groupid);
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, %s\n", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
ldpc == 0 ? "BCC" : "LDPC");
}
return i4BytesWritten;
}
INT_32 priv_driver_tx_vector_info(IN char *pcCommand, IN int i4TotalLen,
IN P_TX_VECTOR_BBP_LATCH_T prTxV)
{
UINT_8 rate, txmode, frmode, sgi, ldpc, nsts, stbc, txpwr;
INT_32 i4BytesWritten = 0;
rate = TX_VECTOR_GET_TX_RATE(prTxV);
txmode = TX_VECTOR_GET_TX_MODE(prTxV);
frmode = TX_VECTOR_GET_TX_FRMODE(prTxV);
nsts = TX_VECTOR_GET_TX_NSTS(prTxV) + 1;
sgi = TX_VECTOR_GET_TX_SGI(prTxV);
ldpc = TX_VECTOR_GET_TX_LDPC(prTxV);
stbc = TX_VECTOR_GET_TX_STBC(prTxV);
txpwr = TX_VECTOR_GET_TX_PWR(prTxV);
if (prTxV->u4TxVector1 == 0xFFFFFFFF) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Last TX Rate", " = ", "N/A");
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s", "Last TX Rate", " = ");
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? HW_TX_RATE_CCK_STR[rate] : HW_TX_RATE_CCK_STR[4]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", hw_rate_ofdm_str(rate));
else if ((txmode == TX_RATE_MODE_HTMIX) || (txmode == TX_RATE_MODE_HTGF))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"MCS%d, ", rate);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"NSS%d_MCS%d, ", nsts, rate);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", frmode < 4 ? HW_TX_RATE_BW[frmode] : HW_TX_RATE_BW[4]);
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", rate < 4 ? "LP" : "SP");
else if (txmode == TX_RATE_MODE_OFDM)
;
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s, ", sgi == 0 ? "LGI" : "SGI");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s%s%s\n", txmode < 5 ? HW_TX_MODE_STR[txmode] : HW_TX_MODE_STR[5],
stbc ? ", STBC, " : ", ", ldpc == 0 ? "BCC" : "LDPC");
}
return i4BytesWritten;
}
static INT_32 priv_driver_dump_stat_info(P_ADAPTER_T prAdapter, IN char *pcCommand, IN int i4TotalLen,
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo, P_PARAM_GET_STA_STATISTICS prQueryStaStatistics, BOOLEAN fgResetCnt,
UINT_32 u4StatGroup)
{
INT_32 i4BytesWritten = 0;
PARAM_RSSI rRssi = 0;
UINT_16 u2LinkSpeed;
UINT_32 u4Per, u4RxPer[ENUM_BAND_NUM], u4AmpduPer[ENUM_BAND_NUM], u4InstantPer;
UINT_8 ucDbdcIdx, ucStaIdx, ucNss;
UINT_8 ucSkipAr;
static UINT_32 u4TotalTxCnt, u4TotalFailCnt;
static UINT_32 u4Rate1TxCnt, u4Rate1FailCnt;
static UINT_32 au4RxMpduCnt[ENUM_BAND_NUM] = {0};
static UINT_32 au4FcsError[ENUM_BAND_NUM] = {0};
static UINT_32 au4RxFifoCnt[ENUM_BAND_NUM] = {0};
static UINT_32 au4AmpduTxSfCnt[ENUM_BAND_NUM] = {0};
static UINT_32 au4AmpduTxAckSfCnt[ENUM_BAND_NUM] = {0};
P_RX_CTRL_T prRxCtrl;
UINT_32 u4InstantRxPer[ENUM_BAND_NUM];
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
INT_16 i2Wf0AvgPwr;
INT_16 i2Wf1AvgPwr;
UINT_32 u4BufLen = 0;
ucSkipAr = prQueryStaStatistics->ucSkipAr;
prRxCtrl = &prAdapter->rRxCtrl;
ucNss = prAdapter->rWifiVar.ucNSS;
if (ucSkipAr) {
u4TotalTxCnt += prHwWlanInfo->rWtblTxCounter.u2CurBwTxCnt +
prHwWlanInfo->rWtblTxCounter.u2OtherBwTxCnt;
u4TotalFailCnt += prHwWlanInfo->rWtblTxCounter.u2CurBwFailCnt +
prHwWlanInfo->rWtblTxCounter.u2OtherBwFailCnt;
u4Rate1TxCnt += prHwWlanInfo->rWtblTxCounter.u2Rate1TxCnt;
u4Rate1FailCnt += prHwWlanInfo->rWtblTxCounter.u2Rate1FailCnt;
}
if (ucSkipAr) {
u4Per = (prHwWlanInfo->rWtblTxCounter.u2Rate1TxCnt == 0) ?
(0) : (1000 * u4Rate1FailCnt / u4Rate1TxCnt);
u4InstantPer = (prHwWlanInfo->rWtblTxCounter.u2Rate1TxCnt == 0) ?
(0) : (1000 * (prHwWlanInfo->rWtblTxCounter.u2Rate1FailCnt) /
(prHwWlanInfo->rWtblTxCounter.u2Rate1TxCnt));
} else {
u4Per = (prQueryStaStatistics->u4Rate1TxCnt == 0) ?
(0) : (1000 * (prQueryStaStatistics->u4Rate1FailCnt) /
(prQueryStaStatistics->u4Rate1TxCnt));
u4InstantPer = (prQueryStaStatistics->ucPer == 0) ?
(0) : (prQueryStaStatistics->ucPer);
}
for (ucDbdcIdx = 0; ucDbdcIdx < ENUM_BAND_NUM; ucDbdcIdx++) {
au4RxMpduCnt[ucDbdcIdx] += prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4RxMpduCnt;
au4FcsError[ucDbdcIdx] += prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4FcsError;
au4RxFifoCnt[ucDbdcIdx] += prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4RxFifoFull;
au4AmpduTxSfCnt[ucDbdcIdx] += prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4AmpduTxSfCnt;
au4AmpduTxAckSfCnt[ucDbdcIdx] += prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4AmpduTxAckSfCnt;
u4RxPer[ucDbdcIdx] = ((au4RxMpduCnt[ucDbdcIdx] + au4FcsError[ucDbdcIdx]) == 0) ?
(0) : (1000 * au4FcsError[ucDbdcIdx] /
(au4RxMpduCnt[ucDbdcIdx] + au4FcsError[ucDbdcIdx]));
u4AmpduPer[ucDbdcIdx] = (au4AmpduTxSfCnt[ucDbdcIdx] == 0) ?
(0) : (1000 * (au4AmpduTxSfCnt[ucDbdcIdx] - au4AmpduTxAckSfCnt[ucDbdcIdx]) /
au4AmpduTxSfCnt[ucDbdcIdx]);
u4InstantRxPer[ucDbdcIdx] = ((prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4RxMpduCnt +
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4FcsError) == 0) ?
(0) : (1000 * prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4FcsError /
(prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4RxMpduCnt +
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u4FcsError));
}
/* get Beacon RSSI */
rStatus = kalIoctl(prAdapter->prGlueInfo,
wlanoidQueryRssi, &rRssi, sizeof(rRssi), TRUE, FALSE, FALSE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
DBGLOG(REQ, WARN, "unable to retrieve rssi\n");
u2LinkSpeed = (prQueryStaStatistics->u2LinkSpeed == 0) ? 0 : prQueryStaStatistics->u2LinkSpeed / 2;
/* =========== Group 0x0001 =========== */
if (u4StatGroup & 0x0001) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- STA Stat (Group 0x01) -----\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CurrTemperature", " = ",
prQueryStaStatistics->ucTemperature);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Tx Total cnt", " = ", ucSkipAr ?
(u4TotalTxCnt) : (prQueryStaStatistics->u4TransmitCount));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Tx Fail Cnt", " = ", ucSkipAr ?
(u4TotalFailCnt) : (prQueryStaStatistics->u4TransmitFailCount));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Rate1 Tx Cnt", " = ", ucSkipAr ?
(u4Rate1TxCnt) : (prQueryStaStatistics->u4Rate1TxCnt));
if (ucSkipAr)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d, PER = %d.%1d%%, instant PER = %d.%1d%%\n", "Rate1 Fail Cnt", " = ",
u4Rate1FailCnt, u4Per/10, u4Per%10, u4InstantPer/10, u4InstantPer%10);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d, PER = %d.%1d%%, instant PER = %d%%\n", "Rate1 Fail Cnt", " = ",
prQueryStaStatistics->u4Rate1FailCnt, u4Per/10, u4Per%10, u4InstantPer);
if ((ucSkipAr) && (fgResetCnt)) {
u4TotalTxCnt = 0;
u4TotalFailCnt = 0;
u4Rate1TxCnt = 0;
u4Rate1FailCnt = 0;
}
}
/* =========== Group 0x0002 =========== */
if (u4StatGroup & 0x0002) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "----- MIB Info (Group 0x02) -----\n");
if (!prAdapter->rWifiVar.fgDbDcModeEn) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX Success", " = ", au4RxMpduCnt[ENUM_BAND_0]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d, PER = %d.%1d%%, instant PER = %d.%1d%%\n", "RX with CRC", " = ",
au4FcsError[ENUM_BAND_0], u4RxPer[ENUM_BAND_0]/10, u4RxPer[ENUM_BAND_0]%10,
u4InstantRxPer[ENUM_BAND_0]/10, u4InstantRxPer[ENUM_BAND_0]%10);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX drop FIFO full", " = ", au4RxFifoCnt[ENUM_BAND_0]);
} else {
for (ucDbdcIdx = 0; ucDbdcIdx < ENUM_BAND_NUM; ucDbdcIdx++) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"[DBDC_%d] :\n", ucDbdcIdx);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX Success", " = ", au4RxMpduCnt[ucDbdcIdx]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d, PER = %d.%1d%%, instant PER = %d.%1d%%\n", "RX with CRC", " = ",
au4FcsError[ucDbdcIdx], u4RxPer[ucDbdcIdx]/10, u4RxPer[ucDbdcIdx]%10,
u4InstantRxPer[ucDbdcIdx]/10, u4InstantRxPer[ucDbdcIdx]%10);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX drop FIFO full", " = ", au4RxFifoCnt[ucDbdcIdx]);
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "AMPDU Tx success", " = ", au4AmpduTxSfCnt[ucDbdcIdx]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d, PER = %d.%1d%%\n", "AMPDU Tx fail count", " = ",
(au4AmpduTxSfCnt[ucDbdcIdx] - au4AmpduTxAckSfCnt[ucDbdcIdx]),
u4AmpduPer[ucDbdcIdx]/10, u4AmpduPer[ucDbdcIdx]%10);
#endif
}
}
if (fgResetCnt) {
kalMemZero(au4RxMpduCnt, sizeof(au4RxMpduCnt));
kalMemZero(au4FcsError, sizeof(au4RxMpduCnt));
kalMemZero(au4RxFifoCnt, sizeof(au4RxMpduCnt));
kalMemZero(au4AmpduTxSfCnt, sizeof(au4RxMpduCnt));
kalMemZero(au4AmpduTxAckSfCnt, sizeof(au4RxMpduCnt));
}
}
/* =========== Group 0x0004 =========== */
if (u4StatGroup & 0x0004) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "----- Last Rx Info (Group 0x04) -----\n");
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = CMD_SW_DBGCTL_ADVCTL_GET_ID + 1;
rStatus = kalIoctl(prAdapter->prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u, rSwCtrlInfo.u4Data 0x%x\n", rStatus, rSwCtrlInfo.u4Data);
if (rStatus == WLAN_STATUS_SUCCESS) {
i2Wf0AvgPwr = rSwCtrlInfo.u4Data & 0xFFFF;
i2Wf1AvgPwr = (rSwCtrlInfo.u4Data >> 16) & 0xFFFF;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d %d\n", "NOISE", " = ", i2Wf0AvgPwr, i2Wf1AvgPwr);
}
/* Last RX Rate */
i4BytesWritten += priv_driver_rx_rate_info(prAdapter, pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, (UINT_8)(prHwWlanInfo->u4Index));
/* Last RX RSSI */
i4BytesWritten += priv_driver_last_rx_rssi(prAdapter, pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, (UINT_8)(prHwWlanInfo->u4Index));
/* Last RX Resp RSSI */
if (ucNss > 2)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d %d %d %d\n", "Tx Response RSSI", " = ",
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi0),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi1),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi2),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi3));
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d %d\n", "Tx Response RSSI", " = ",
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi0),
RCPI_TO_dBm(prHwWlanInfo->rWtblRxCounter.ucRxRcpi1));
/* Last Beacon RSSI */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Beacon RSSI", " = ", rRssi);
}
/* =========== Group 0x0008 =========== */
if (u4StatGroup & 0x0008) {
/* TxV */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "----- Last TX Info (Group 0x08) -----\n");
if (!prAdapter->rWifiVar.fgDbDcModeEn) {
i4BytesWritten += priv_driver_tx_vector_info(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, &prQueryStaStatistics->rTxVector[ENUM_BAND_0]);
if (prQueryStaStatistics->rTxVector[ENUM_BAND_0].u4TxVector1 == 0xFFFFFFFF)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Chip Out TX Power", " = ", "N/A");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%ld.%1ld dBm\n", "Chip Out TX Power", " = ",
TX_VECTOR_GET_TX_PWR(&prQueryStaStatistics->rTxVector[ENUM_BAND_0]) >> 1,
5 * (TX_VECTOR_GET_TX_PWR(&prQueryStaStatistics->rTxVector[ENUM_BAND_0]) % 2));
} else {
for (ucDbdcIdx = 0; ucDbdcIdx < ENUM_BAND_NUM; ucDbdcIdx++) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"[DBDC_%d] :\n", ucDbdcIdx);
i4BytesWritten += priv_driver_tx_vector_info(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, &prQueryStaStatistics->rTxVector[ucDbdcIdx]);
if (prQueryStaStatistics->rTxVector[ucDbdcIdx].u4TxVector1 == 0xFFFFFFFF)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%s\n", "Chip Out TX Power", " = ", "N/A");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%ld.%1ld dBm\n", "ChipOut TX Power", " = ",
TX_VECTOR_GET_TX_PWR(&prQueryStaStatistics->rTxVector[ucDbdcIdx]) >> 1,
5 * (TX_VECTOR_GET_TX_PWR(&prQueryStaStatistics->rTxVector[ucDbdcIdx]) % 2));
#if 0
if (prQueryStaStatistics->rTxVector[ucDbdcIdx].u4TxVector2 == 0xFFFFFFFF)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%s\n", "Beamform Enable", " = ", "N/A");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%d\n", "Beamform Enable", " = ",
TX_VECTOR_GET_BF_EN(&prQueryStaStatistics->rTxVector[ucDbdcIdx]) ? 1 : 0);
if (prQueryStaStatistics->rTxVector[ucDbdcIdx].u4TxVector4 == 0xFFFFFFFF) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
"%-20s%s%s\n", "Dynamic BW", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%s\n", "Sounding Pkt", " = ", "N/A");
} else {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%d\n", "Dynamic BW", " = ",
TX_VECTOR_GET_DYN_BW(&prQueryStaStatistics->rTxVector[ucDbdcIdx]) ? 1 : 0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%-20s%s%d\n", "Sounding Pkt", " = ",
TX_VECTOR_GET_NO_SOUNDING(&prQueryStaStatistics->rTxVector[ucDbdcIdx]) ? 1 : 0);
}
#endif
}
}
}
/* =========== Group 0x0010 =========== */
if (u4StatGroup & 0x0010) {
/* RX Reorder */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "------ RX Reorder (Group 0x10) -----\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Rx reorder miss", " = ", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_MISS_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Rx reorder within", " = ", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_WITHIN_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Rx reorder ahead", " = ", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_AHEAD_COUNT));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Rx reorder behind", " = ", RX_GET_CNT(prRxCtrl, RX_DATA_REORDER_BEHIND_COUNT));
}
/* =========== Group 0x0020 =========== */
if (u4StatGroup & 0x0020) {
/* AR info */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "------ AR Info (Group 0x20) -----\n");
/* Last TX Rate */
i4BytesWritten += priv_driver_tx_rate_info(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, FALSE, prHwWlanInfo, prQueryStaStatistics);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "LinkSpeed", " = ", u2LinkSpeed);
if (!prQueryStaStatistics->ucSkipAr) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "RateTable", " = ", prQueryStaStatistics->ucArTableIdx < RATE_TBL_MAX ?
RATE_TBLE[prQueryStaStatistics->ucArTableIdx] : RATE_TBLE[RATE_TBL_MAX]);
if (wlanGetStaIdxByWlanIdx(prAdapter, (UINT_8)(prHwWlanInfo->u4Index), &ucStaIdx) ==
WLAN_STATUS_SUCCESS){
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "2G Support 256QAM TX", " = ",
(prAdapter->arStaRec[ucStaIdx].u4Flags & MTK_SYNERGY_CAP_SUPPORT_24G_MCS89) ?
1 : 0);
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d%%\n", "Rate1 instantPer", " = ", u4InstantPer);
if (prQueryStaStatistics->ucAvePer == 0xFF) {
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "average RSSI", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Rate1 AvePer", " = ", "N/A");
#endif
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Train Down", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Train Up", " = ", "N/A");
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Highest Rate Cnt", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Lowest Rate Cnt", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "SGI Pass Cnt", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "AR State Prev", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "AR State Curr", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "AR Action Type", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Rate Entry Idx", " = ", "N/A");
#endif
} else {
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "average RSSI", " = ", rRssi);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d%%\n", "Rate1 AvePer", " = ", prQueryStaStatistics->ucAvePer);
#endif
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d -> %d\n", "Train Down", " = ",
(prQueryStaStatistics->u2TrainDown) & BITS(0, 7),
((prQueryStaStatistics->u2TrainDown) >> 8) & BITS(0, 7));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d -> %d\n", "Train Up", " = ",
(prQueryStaStatistics->u2TrainUp) & BITS(0, 7),
((prQueryStaStatistics->u2TrainUp) >> 8) & BITS(0, 7));
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Highest Rate Cnt", " = ",
prQueryStaStatistics->ucHighestRateCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Lowest Rate Cnt", " = ", prQueryStaStatistics->ucLowestRateCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "SGI Pass Cnt", " = ",
prQueryStaStatistics->ucTxSgiDetectPassCnt);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "AR State Prev", " = ",
prQueryStaStatistics->ucArStatePrev < 3 ?
AR_STATE[prQueryStaStatistics->ucArStatePrev] : AR_STATE[3]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "AR State Curr", " = ",
prQueryStaStatistics->ucArStateCurr < 3 ?
AR_STATE[prQueryStaStatistics->ucArStateCurr] : AR_STATE[3]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "AR Action Type", " = ",
prQueryStaStatistics->ucArActionType < 16 ?
AR_ACTION[prQueryStaStatistics->ucArActionType] : AR_ACTION[16]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d -> %d\n", "Rate Entry Idx", " = ",
(prQueryStaStatistics->ucRateEntryIdxPrev == AR_RATE_ENTRY_INDEX_NULL) ?
(prQueryStaStatistics->ucRateEntryIdx) :
(prQueryStaStatistics->ucRateEntryIdxPrev),
prQueryStaStatistics->ucRateEntryIdx);
#endif
}
if (prQueryStaStatistics->fgIsForceTxStream == 0)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Force Tx Stream", " = ", "N/A");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Force Tx Stream", " = ",
prQueryStaStatistics->fgIsForceTxStream);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Force SE off", " = ", prQueryStaStatistics->fgIsForceSeOff);
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CBRN", " = ", prHwWlanInfo->rWtblPeerCap.ucChangeBWAfterRateN);
/* Rate1~Rate8 */
i4BytesWritten += priv_driver_tx_rate_info(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, TRUE, prHwWlanInfo, prQueryStaStatistics);
}
/* =========== Group 0x0040 =========== */
if (u4StatGroup & 0x0040) {
/* Tx Agg */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "------ TX AGG (Group 0x40) -----\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-12s%s", "Range:", "1 2~5 6~15 16~22 23~33 34~49 50~57 58~64\n");
for (ucDbdcIdx = 0; ucDbdcIdx < ENUM_BAND_NUM; ucDbdcIdx++) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"DBDC%d:", ucDbdcIdx);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%7d%8d%9d%9d%9d%9d%9d%9d\n",
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange1AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange2AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange3AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange4AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange5AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange6AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange7AmpduCnt,
prQueryStaStatistics->rMibInfo[ucDbdcIdx].u2TxRange8AmpduCnt);
}
}
return i4BytesWritten;
}
static int priv_driver_get_sta_stat(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0, u4Ret, u4StatGroup = 0xFFFFFFFF;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_8 aucMacAddr[MAC_ADDR_LEN];
UINT_8 ucWlanIndex;
PUINT_8 pucMacAddr = NULL;
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo = NULL;
P_PARAM_GET_STA_STATISTICS prQueryStaStatistics = NULL;
BOOLEAN fgResetCnt = FALSE;
BOOLEAN fgRxCCSel = FALSE;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= 3) {
if (strnicmp(apcArgv[1], CMD_STAT_GROUP_SEL, strlen(CMD_STAT_GROUP_SEL)) == 0) {
u4Ret = kalkStrtou32(apcArgv[2], 0, &(u4StatGroup));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_mcr error (Address) u4Ret=%d\n", u4Ret);
if (u4StatGroup == 0)
u4StatGroup = 0xFFFFFFFF;
if (prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP) {
ucWlanIndex = prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP->ucWlanIndex;
} else if (!wlanGetWlanIdxByAddress(prGlueInfo->prAdapter, NULL, &ucWlanIndex)) {
DBGLOG(REQ, INFO, "Can't find the wlan index of MAC addr %pM!\n", aucMacAddr);
goto out;
}
} else {
if (strnicmp(apcArgv[1], CMD_STAT_RESET_CNT, strlen(CMD_STAT_RESET_CNT)) == 0) {
wlanHwAddrToBin(apcArgv[2], &aucMacAddr[0]);
fgResetCnt = TRUE;
} else if (strnicmp(apcArgv[2], CMD_STAT_RESET_CNT, strlen(CMD_STAT_RESET_CNT)) == 0) {
wlanHwAddrToBin(apcArgv[1], &aucMacAddr[0]);
fgResetCnt = TRUE;
} else {
wlanHwAddrToBin(apcArgv[1], &aucMacAddr[0]);
fgResetCnt = FALSE;
}
if (!wlanGetWlanIdxByAddress(prGlueInfo->prAdapter, &aucMacAddr[0], &ucWlanIndex)) {
DBGLOG(REQ, INFO, "Can't find the wlan index of MAC addr %pM!\n", aucMacAddr);
goto out;
}
}
} else {
/* Get AIS AP address for no argument */
if (prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP) {
ucWlanIndex = prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP->ucWlanIndex;
} else if (!wlanGetWlanIdxByAddress(prGlueInfo->prAdapter, NULL, &ucWlanIndex)) {
DBGLOG(REQ, INFO, "No connected peer found!\n");
goto out;
}
if (i4Argc == 2) {
if (strnicmp(apcArgv[1], CMD_STAT_RESET_CNT, strlen(CMD_STAT_RESET_CNT)) == 0)
fgResetCnt = TRUE;
else if (strnicmp(apcArgv[1], CMD_STAT_NOISE_SEL, strlen(CMD_STAT_NOISE_SEL)) == 0)
fgRxCCSel = TRUE;
}
}
prHwWlanInfo = (P_PARAM_HW_WLAN_INFO_T)kalMemAlloc(sizeof(PARAM_HW_WLAN_INFO_T), VIR_MEM_TYPE);
if (!prHwWlanInfo) {
DBGLOG(REQ, ERROR, "Allocate memory for prHwWlanInfo failed!\n");
i4BytesWritten = -1;
goto out;
}
prHwWlanInfo->u4Index = ucWlanIndex;
if (fgRxCCSel == TRUE)
prHwWlanInfo->rWtblRxCounter.fgRxCCSel = TRUE;
else
prHwWlanInfo->rWtblRxCounter.fgRxCCSel = FALSE;
DBGLOG(REQ, INFO, "MT6632 : index = %d i4TotalLen = %d\n", prHwWlanInfo->u4Index, i4TotalLen);
/* Get WTBL info */
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryWlanInfo,
prHwWlanInfo, sizeof(PARAM_HW_WLAN_INFO_T), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "Query prHwWlanInfo failed!\n");
i4BytesWritten = -1;
goto out;
}
/* Get Statistics info */
prQueryStaStatistics =
(P_PARAM_GET_STA_STATISTICS)kalMemAlloc(sizeof(PARAM_GET_STA_STA_STATISTICS), VIR_MEM_TYPE);
if (!prQueryStaStatistics) {
DBGLOG(REQ, ERROR, "Allocate memory for prQueryStaStatistics failed!\n");
i4BytesWritten = -1;
goto out;
}
prQueryStaStatistics->ucResetCounter = fgResetCnt;
pucMacAddr = wlanGetStaAddrByWlanIdx(prGlueInfo->prAdapter, ucWlanIndex);
if (!pucMacAddr) {
DBGLOG(REQ, ERROR, "Couldn't find the MAC addr of WlanIndex %d!\n",
ucWlanIndex);
i4BytesWritten = -1;
goto out;
}
COPY_MAC_ADDR(prQueryStaStatistics->aucMacAddr, pucMacAddr);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryStaStatistics,
prQueryStaStatistics,
sizeof(PARAM_GET_STA_STA_STATISTICS), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "Query prQueryStaStatistics failed!\n");
i4BytesWritten = -1;
goto out;
}
if (pucMacAddr) {
i4BytesWritten = priv_driver_dump_stat_info(prAdapter, pcCommand, i4TotalLen,
prHwWlanInfo, prQueryStaStatistics, fgResetCnt, u4StatGroup);
}
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
out:
if (prHwWlanInfo)
kalMemFree(prHwWlanInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_WLAN_INFO_T));
if (prQueryStaStatistics)
kalMemFree(prQueryStaStatistics, VIR_MEM_TYPE, sizeof(PARAM_GET_STA_STA_STATISTICS));
if (fgResetCnt)
nicRxClearStatistics(prGlueInfo->prAdapter);
return i4BytesWritten;
}
static INT_32 priv_driver_dump_stat2_info(P_ADAPTER_T prAdapter, IN char *pcCommand, IN int i4TotalLen,
P_UMAC_STAT2_GET_T prUmacStat2GetInfo, P_PARAM_GET_DRV_STATISTICS prQueryDrvStatistics)
{
INT_32 i4BytesWritten = 0;
UINT_16 u2PleTotalRevPage = 0;
UINT_16 u2PleTotalSrcPage = 0;
UINT_16 u2PseTotalRevPage = 0;
UINT_16 u2PseTotalSrcPage = 0;
u2PleTotalRevPage = prUmacStat2GetInfo->u2PleRevPgHif0Group0 +
prUmacStat2GetInfo->u2PleRevPgCpuGroup2;
u2PleTotalSrcPage = prUmacStat2GetInfo->u2PleSrvPgHif0Group0 +
prUmacStat2GetInfo->u2PleSrvPgCpuGroup2;
u2PseTotalRevPage = prUmacStat2GetInfo->u2PseRevPgHif0Group0 +
prUmacStat2GetInfo->u2PseRevPgHif1Group1 +
prUmacStat2GetInfo->u2PseRevPgCpuGroup2 +
prUmacStat2GetInfo->u2PseRevPgLmac0Group3 +
prUmacStat2GetInfo->u2PseRevPgLmac1Group4 +
prUmacStat2GetInfo->u2PseRevPgLmac2Group5 +
prUmacStat2GetInfo->u2PseRevPgPleGroup6;
u2PseTotalSrcPage = prUmacStat2GetInfo->u2PseSrvPgHif0Group0 +
prUmacStat2GetInfo->u2PseSrvPgHif1Group1 +
prUmacStat2GetInfo->u2PseSrvPgCpuGroup2 +
prUmacStat2GetInfo->u2PseSrvPgLmac0Group3 +
prUmacStat2GetInfo->u2PseSrvPgLmac1Group4 +
prUmacStat2GetInfo->u2PseSrvPgLmac2Group5 +
prUmacStat2GetInfo->u2PseSrvPgPleGroup6;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- Stat2 Info -----\n");
/* Rev Page number Info. */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- PLE Reservation Page Info. -----\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Ple Hif0 Group0 RevPage", " = ",
prUmacStat2GetInfo->u2PleRevPgHif0Group0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Ple Cpu Group2 RevPage", " = ",
prUmacStat2GetInfo->u2PleRevPgCpuGroup2);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Ple Total RevPage", " = ",
u2PleTotalRevPage);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- PLE Source Page Info. ----------\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Ple Hif0 Group0 SrcPage", " = ",
prUmacStat2GetInfo->u2PleSrvPgHif0Group0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Ple Cpu Group2 SrcPage", " = ",
prUmacStat2GetInfo->u2PleSrvPgCpuGroup2);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Ple Total SrcPage", " = ",
u2PleTotalSrcPage);
/* umac MISC Info. */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- PLE Misc Info. -----------------\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "ple Total Page Number", " = ",
prUmacStat2GetInfo->u2PleTotalPageNum);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "ple Free Page Number", " = ",
prUmacStat2GetInfo->u2PleFreePageNum);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "ple FFA Page Number", " = ",
prUmacStat2GetInfo->u2PleFfaNum);
/* PSE Info. */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- PSE Reservation Page Info. -----\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Hif0 Group0 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgHif0Group0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Hif1 Group1 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgHif1Group1);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Cpu Group2 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgCpuGroup2);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Lmac0 Group3 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgLmac0Group3);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Lmac1 Group4 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgLmac1Group4);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Lmac2 Group5 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgLmac2Group5);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Ple Group6 RevPage", " = ",
prUmacStat2GetInfo->u2PseRevPgPleGroup6);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Total RevPage", " = ",
u2PseTotalRevPage);
/* PSE Info. */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- PSE Source Page Info. ----------\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Hif0 Group0 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgHif0Group0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Hif1 Group1 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgHif1Group1);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Cpu Group2 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgCpuGroup2);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Lmac0 Group3 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgLmac0Group3);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Lmac1 Group4 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgLmac1Group4);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Lmac2 Group5 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgLmac2Group5);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Ple Group6 SrcPage", " = ",
prUmacStat2GetInfo->u2PseSrvPgPleGroup6);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pse Total SrcPage", " = ",
u2PseTotalSrcPage);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n----- PSE Misc Info. -----------------\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "pse Total Page Number", " = ",
prUmacStat2GetInfo->u2PseTotalPageNum);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "pse Free Page Number", " = ",
prUmacStat2GetInfo->u2PseFreePageNum);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "pse FFA Page Number", " = ",
prUmacStat2GetInfo->u2PseFfaNum);
/* driver info */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n\n----- DRV Stat -----------------------\n\n");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pending Data", " = ",
prQueryDrvStatistics->i4TxPendingFrameNum);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Pending Sec", " = ",
prQueryDrvStatistics->i4TxPendingSecurityFrameNum);
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%s\n", "Tx Pending Cmd Number", " = ",
prQueryDrvStatistics->i4TxPendingCmdNum);
#endif
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Tx Pending For-pkt Number", " = ",
prQueryDrvStatistics->i4PendingFwdFrameCount);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "MsduInfo Available Number", " = ",
prQueryDrvStatistics->u4MsduNumElem);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "MgmtTxRing Pending Number", " = ",
prQueryDrvStatistics->u4TxMgmtTxringQueueNumElem);
/* Driver Rx Info. */
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Rx Free Sw Rfb Number", " = ",
prQueryDrvStatistics->u4RxFreeSwRfbMsduNumElem);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Rx Received Sw Rfb Number", " = ",
prQueryDrvStatistics->u4RxReceivedRfbNumElem);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-26s%s%d\n", "Rx Indicated Sw Rfb Number", " = ",
prQueryDrvStatistics->u4RxIndicatedNumElem);
return i4BytesWritten;
}
static int priv_driver_get_sta_stat2(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
INT_32 i4BytesWritten = 0;
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4ArgNum = 1;
P_UMAC_STAT2_GET_T prUmacStat2GetInfo = NULL;
P_PARAM_GET_DRV_STATISTICS prQueryDrvStatistics = NULL;
P_QUE_T prQueList, prTxMgmtTxRingQueList;
P_RX_CTRL_T prRxCtrl;
KAL_SPIN_LOCK_DECLARATION();
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc < i4ArgNum)
return -1;
prQueList = &prAdapter->rTxCtrl.rFreeMsduInfoList;
prTxMgmtTxRingQueList = &prAdapter->rTxCtrl.rTxMgmtTxingQueue;
prRxCtrl = &prAdapter->rRxCtrl;
ASSERT(prRxCtrl);
/* to do for UMAC Dump */
prUmacStat2GetInfo = (P_UMAC_STAT2_GET_T)kalMemAlloc(sizeof(UMAC_STAT2_GET_T), VIR_MEM_TYPE);
if (!prUmacStat2GetInfo) {
DBGLOG(REQ, ERROR, "allocate memory for prUmacStat2GetInfo failed\n");
i4BytesWritten = -1;
goto out;
}
halUmacInfoGetMiscStatus(prAdapter, prUmacStat2GetInfo);
/* Get Driver stat info */
prQueryDrvStatistics =
(P_PARAM_GET_DRV_STATISTICS)kalMemAlloc(sizeof(PARAM_GET_DRV_STATISTICS), VIR_MEM_TYPE);
if (!prQueryDrvStatistics) {
DBGLOG(REQ, ERROR, "allocate memory for prQueryDrvStatistics failed\n");
i4BytesWritten = -1;
goto out;
}
prQueryDrvStatistics->i4TxPendingFrameNum =
(UINT_32) GLUE_GET_REF_CNT(prGlueInfo->i4TxPendingFrameNum);
prQueryDrvStatistics->i4TxPendingSecurityFrameNum =
(UINT_32) GLUE_GET_REF_CNT(prGlueInfo->i4TxPendingSecurityFrameNum);
#if 0
prQueryDrvStatistics->i4TxPendingCmdNum =
(UINT_32) GLUE_GET_REF_CNT(prGlueInfo->i4TxPendingCmdNum);
#endif
prQueryDrvStatistics->i4PendingFwdFrameCount = prAdapter->rTxCtrl.i4PendingFwdFrameCount;
KAL_ACQUIRE_SPIN_LOCK(prAdapter, SPIN_LOCK_TX_MSDU_INFO_LIST);
prQueryDrvStatistics->u4MsduNumElem = prQueList->u4NumElem;
KAL_RELEASE_SPIN_LOCK(prAdapter, SPIN_LOCK_TX_MSDU_INFO_LIST);
KAL_ACQUIRE_SPIN_LOCK(prAdapter, SPIN_LOCK_TXING_MGMT_LIST);
prQueryDrvStatistics->u4TxMgmtTxringQueueNumElem = prTxMgmtTxRingQueList->u4NumElem;
KAL_RELEASE_SPIN_LOCK(prAdapter, SPIN_LOCK_TXING_MGMT_LIST);
KAL_ACQUIRE_SPIN_LOCK(prAdapter, SPIN_LOCK_RX_FREE_QUE);
prQueryDrvStatistics->u4RxFreeSwRfbMsduNumElem = prRxCtrl->rFreeSwRfbList.u4NumElem;
KAL_RELEASE_SPIN_LOCK(prAdapter, SPIN_LOCK_RX_FREE_QUE);
KAL_ACQUIRE_SPIN_LOCK(prAdapter, SPIN_LOCK_RX_QUE);
prQueryDrvStatistics->u4RxReceivedRfbNumElem = prRxCtrl->rReceivedRfbList.u4NumElem;
KAL_RELEASE_SPIN_LOCK(prAdapter, SPIN_LOCK_RX_QUE);
KAL_ACQUIRE_SPIN_LOCK(prAdapter, SPIN_LOCK_RX_FREE_QUE);
prQueryDrvStatistics->u4RxIndicatedNumElem = prRxCtrl->rIndicatedRfbList.u4NumElem;
KAL_RELEASE_SPIN_LOCK(prAdapter, SPIN_LOCK_RX_FREE_QUE);
i4BytesWritten = priv_driver_dump_stat2_info(prAdapter, pcCommand, i4TotalLen,
prUmacStat2GetInfo, prQueryDrvStatistics);
out:
if (prUmacStat2GetInfo)
kalMemFree(prUmacStat2GetInfo, VIR_MEM_TYPE, sizeof(UMAC_STAT2_GET_T));
if (prQueryDrvStatistics)
kalMemFree(prQueryDrvStatistics, VIR_MEM_TYPE, sizeof(PARAM_GET_DRV_STATISTICS));
return i4BytesWritten;
}
static INT_32 priv_driver_dump_rx_stat_info(P_ADAPTER_T prAdapter, IN char *pcCommand, IN int i4TotalLen,
IN BOOLEAN fgResetCnt)
{
INT_32 i4BytesWritten = 0;
UINT_32 u4RxVector0 = 0, u4RxVector2 = 0, u4RxVector3 = 0, u4RxVector4 = 0;
UINT_8 ucStaIdx, ucWlanIndex, cbw;
BOOLEAN fgWlanIdxFound = TRUE, fgSkipRxV = FALSE;
UINT_32 u4FAGCRssiWBR0, u4FAGCRssiIBR0;
UINT_32 u4Value, u4Foe, foe_const;
static UINT_32 au4MacMdrdy[ENUM_BAND_NUM] = {0};
static UINT_32 au4FcsError[ENUM_BAND_NUM] = {0};
static UINT_32 au4OutOfResource[ENUM_BAND_NUM] = {0};
static UINT_32 au4LengthMismatch[ENUM_BAND_NUM] = {0};
au4MacMdrdy[ENUM_BAND_0] += htonl(g_HqaRxStat.MAC_Mdrdy);
au4MacMdrdy[ENUM_BAND_1] += htonl(g_HqaRxStat.MAC_Mdrdy1);
au4FcsError[ENUM_BAND_0] += htonl(g_HqaRxStat.MAC_FCS_Err);
au4FcsError[ENUM_BAND_1] += htonl(g_HqaRxStat.MAC_FCS_Err1);
au4OutOfResource[ENUM_BAND_0] += htonl(g_HqaRxStat.OutOfResource);
au4OutOfResource[ENUM_BAND_1] += htonl(g_HqaRxStat.OutOfResource1);
au4LengthMismatch[ENUM_BAND_0] += htonl(g_HqaRxStat.LengthMismatchCount_B0);
au4LengthMismatch[ENUM_BAND_1] += htonl(g_HqaRxStat.LengthMismatchCount_B1);
if (fgResetCnt) {
kalMemZero(au4MacMdrdy, sizeof(au4MacMdrdy));
kalMemZero(au4FcsError, sizeof(au4FcsError));
kalMemZero(au4OutOfResource, sizeof(au4OutOfResource));
kalMemZero(au4LengthMismatch, sizeof(au4LengthMismatch));
}
if (prAdapter->prAisBssInfo->prStaRecOfAP)
ucWlanIndex = prAdapter->prAisBssInfo->prStaRecOfAP->ucWlanIndex;
else if (!wlanGetWlanIdxByAddress(prAdapter, NULL, &ucWlanIndex))
fgWlanIdxFound = FALSE;
if (fgWlanIdxFound) {
if (wlanGetStaIdxByWlanIdx(prAdapter, ucWlanIndex, &ucStaIdx) == WLAN_STATUS_SUCCESS) {
u4RxVector0 = prAdapter->arStaRec[ucStaIdx].u4RxVector0;
u4RxVector2 = prAdapter->arStaRec[ucStaIdx].u4RxVector2;
u4RxVector3 = prAdapter->arStaRec[ucStaIdx].u4RxVector3;
u4RxVector4 = prAdapter->arStaRec[ucStaIdx].u4RxVector4;
} else{
fgSkipRxV = TRUE;
}
} else{
fgSkipRxV = TRUE;
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", "\n\nRX Stat:\n");
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "PER0", " = ",
g_HqaRxStat.PER0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "PER1", " = ",
g_HqaRxStat.PER1);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX OK0", " = ",
g_HqaRxStat.RXOK0);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX OK1", " = ",
g_HqaRxStat.RXOK1);
#endif
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "MAC Mdrdy0", " = ",
au4MacMdrdy[ENUM_BAND_0]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "MAC Mdrdy1", " = ",
au4MacMdrdy[ENUM_BAND_1]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "FCS Err0", " = ",
au4FcsError[ENUM_BAND_0]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "FCS Err1", " = ",
au4FcsError[ENUM_BAND_1]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK PD Cnt B0", " = ",
htonl(g_HqaRxStat.CCK_PD));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK PD Cnt B1", " = ",
htonl(g_HqaRxStat.CCK_PD_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK SIG Err B0", " = ",
htonl(g_HqaRxStat.CCK_SIG_Err));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK SIG Err B1", " = ",
htonl(g_HqaRxStat.CCK_SIG_Err_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM PD Cnt B0", " = ",
htonl(g_HqaRxStat.OFDM_PD));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM PD Cnt B1", " = ",
htonl(g_HqaRxStat.OFDM_PD_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM TAG Error", " = ",
htonl(g_HqaRxStat.OFDM_TAG_Err));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK SFD Err B0", " = ",
htonl(g_HqaRxStat.CCK_SFD_Err));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK SFD Err B1", " = ",
htonl(g_HqaRxStat.CCK_SFD_Err_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM SIG Err B0", " = ",
htonl(g_HqaRxStat.OFDM_SIG_Err));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM SIG Err B1", " = ",
htonl(g_HqaRxStat.OFDM_SIG_Err_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK FCS Err B0", " = ",
htonl(g_HqaRxStat.FCSErr_CCK));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK FCS Err B1", " = ",
htonl(g_HqaRxStat.CCK_FCS_Err_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM FCS Err B0", " = ",
htonl(g_HqaRxStat.FCSErr_OFDM));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM FCS Err B1", " = ",
htonl(g_HqaRxStat.OFDM_FCS_Err_Band1));
if (!fgSkipRxV) {
u4FAGCRssiIBR0 = (u4RxVector2 & BITS(16, 23)) >> 16;
u4FAGCRssiWBR0 = (u4RxVector2 & BITS(24, 31)) >> 24;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "FAGC RSSI W", " = ",
(u4FAGCRssiWBR0 >= 128) ? (u4FAGCRssiWBR0 - 256) : (u4FAGCRssiWBR0));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "FAGC RSSI I", " = ",
(u4FAGCRssiIBR0 >= 128) ? (u4FAGCRssiIBR0 - 256) : (u4FAGCRssiIBR0));
} else{
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "FAGC RSSI W", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "FAGC RSSI I", " = ", "N/A");
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK MDRDY B0", " = ",
htonl(g_HqaRxStat.PhyMdrdyCCK));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "CCK MDRDY B1", " = ",
htonl(g_HqaRxStat.PHY_CCK_MDRDY_Band1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM MDRDY B0", " = ",
htonl(g_HqaRxStat.PhyMdrdyOFDM));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OFDM MDRDY B1", " = ",
htonl(g_HqaRxStat.PHY_OFDM_MDRDY_Band1));
if (!fgSkipRxV) {
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Driver RX Cnt0", " = ",
htonl(g_HqaRxStat.DriverRxCount));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Driver RX Cnt1", " = ",
htonl(g_HqaRxStat.DriverRxCount1));
#endif
u4Value = (u4RxVector0 & BITS(12, 14)) >> 12;
if (u4Value == 0) {
u4Foe = (((u4RxVector4 & BITS(7, 31)) >> 7) & 0x7ff);
u4Foe = (u4Foe * 1000)>>11;
} else{
cbw = ((u4RxVector0 & BITS(15, 16)) >> 15);
foe_const = ((1 << (cbw + 1)) & 0xf) * 10000;
u4Foe = (((u4RxVector4 & BITS(7, 31)) >> 7) & 0xfff);
u4Foe = (u4Foe * foe_const) >> 15;
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Freq Offset From RX", " = ", u4Foe);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RX SNR (dB)", " = ",
((u4RxVector4 & BITS(26, 31)) >> 26) - 16);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RCPI RX0", " = ",
u4RxVector3 & BITS(0, 7));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RCPI RX1", " = ",
(u4RxVector3 & BITS(8, 15)) >> 8);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RCPI RX2", " = ",
((u4RxVector3 & BITS(16, 23)) >> 16) == 0xFF ? (0) : ((u4RxVector3 & BITS(16, 23)) >> 16));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "RCPI RX3", " = ",
((u4RxVector3 & BITS(24, 31)) >> 24) == 0xFF ? (0) : ((u4RxVector3 & BITS(24, 31)) >> 24));
} else{
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Driver RX Cnt0", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Driver RX Cnt1", " = ", "N/A");
#endif
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "Freq Offset From RX", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "RX SNR (dB)", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "RCPI RX0", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "RCPI RX1", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "RCPI RX2", " = ", "N/A");
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%s\n", "RCPI RX3", " = ", "N/A");
}
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI IB R0", " = ",
htonl(g_HqaRxStat.InstRssiIBR0));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI WB R0", " = ",
htonl(g_HqaRxStat.InstRssiWBR0));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI IB R1", " = ",
htonl(g_HqaRxStat.InstRssiIBR1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI WB R1", " = ",
htonl(g_HqaRxStat.InstRssiWBR1));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI IB R2", " = ",
htonl(g_HqaRxStat.InstRssiIBR2));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI WB R2", " = ",
htonl(g_HqaRxStat.InstRssiWBR2));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI IB R3", " = ",
htonl(g_HqaRxStat.InstRssiIBR3));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Inst RSSI WB R3", " = ",
htonl(g_HqaRxStat.InstRssiWBR3));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "ACI Hit Lower", " = ",
htonl(g_HqaRxStat.ACIHitLower));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "ACI Hit Higher", " = ",
htonl(g_HqaRxStat.ACIHitUpper));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OutOf Resource Pkt0", " = ",
au4OutOfResource[ENUM_BAND_0]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "OutOf Resource Pkt1", " = ",
au4OutOfResource[ENUM_BAND_1]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Len Mismatch Cnt B0", " = ",
au4LengthMismatch[ENUM_BAND_0]);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "Len Mismatch Cnt B1", " = ",
au4LengthMismatch[ENUM_BAND_1]);
#if 0
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%-20s%s%d\n", "MU RX Cnt", " = ",
htonl(g_HqaRxStat.MRURxCount));
#endif
return i4BytesWritten;
}
static int priv_driver_show_rx_stat(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
P_PARAM_CUSTOM_ACCESS_RX_STAT prRxStatisticsTest;
BOOLEAN fgResetCnt = FALSE;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
UINT_32 u4Id = 0x99980000;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
DBGLOG(INIT, ERROR, "MT6632 : priv_driver_show_rx_stat\n");
if (i4Argc >= 2) {
if (strnicmp(apcArgv[1], CMD_STAT_RESET_CNT, strlen(CMD_STAT_RESET_CNT)) == 0)
fgResetCnt = TRUE;
}
if (i4Argc >= 1) {
if (fgResetCnt) {
rSwCtrlInfo.u4Id = u4Id;
rSwCtrlInfo.u4Data = 0;
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo),
FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
prRxStatisticsTest =
(P_PARAM_CUSTOM_ACCESS_RX_STAT)kalMemAlloc(sizeof(PARAM_CUSTOM_ACCESS_RX_STAT), VIR_MEM_TYPE);
if (!prRxStatisticsTest)
return -1;
prRxStatisticsTest->u4SeqNum = u4RxStatSeqNum;
prRxStatisticsTest->u4TotalNum = sizeof(PARAM_RX_STAT_T) / 4;
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryRxStatistics,
prRxStatisticsTest, sizeof(PARAM_CUSTOM_ACCESS_RX_STAT),
TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
kalMemFree(prRxStatisticsTest, VIR_MEM_TYPE, sizeof(PARAM_CUSTOM_ACCESS_RX_STAT));
return -1;
}
i4BytesWritten = priv_driver_dump_rx_stat_info(prAdapter, pcCommand, i4TotalLen, fgResetCnt);
kalMemFree(prRxStatisticsTest, VIR_MEM_TYPE, sizeof(PARAM_CUSTOM_ACCESS_RX_STAT));
}
return i4BytesWritten;
}
/*----------------------------------------------------------------------------*/
/*!
* \brief Handle command to get current Tx rate from rate table and respond
* string buffer. Example: VHT-2SS-BW80-SGI-MCS7
*
* \param[in] net_device Pointer to the Adapter structure.
* \param[out] pcCommand Pointer to the command buffer to respond.
* \param[in] i4TotalLen The length of buffer.
*
* \retval Length of response buffer
*/
/*----------------------------------------------------------------------------*/
static int priv_driver_get_sta_curr_ar_rate(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
UINT_8 ucWlanIndex = 0;
PUINT_8 pucMacAddr = NULL;
UINT_8 idx, txmode, rate;
P_PARAM_GET_STA_STATISTICS prQueryStaStatistics = NULL;
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo = NULL;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -EINVAL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
/* Get AIS AP address for no argument */
if (prAdapter->prAisBssInfo->prStaRecOfAP)
ucWlanIndex = prAdapter->prAisBssInfo->prStaRecOfAP->ucWlanIndex;
else if (!wlanGetWlanIdxByAddress(prAdapter, NULL, &ucWlanIndex))
return i4BytesWritten;
pucMacAddr = wlanGetStaAddrByWlanIdx(prAdapter, ucWlanIndex);
if (!pucMacAddr) {
DBGLOG(REQ, WARN, "%s: MAC address is invalid!\n", __func__);
return -EFAULT;
}
/* Get WTBL info */
prHwWlanInfo = (P_PARAM_HW_WLAN_INFO_T)kalMemAlloc(sizeof(PARAM_HW_WLAN_INFO_T), VIR_MEM_TYPE);
if (!prHwWlanInfo)
return -ENOMEM;
prHwWlanInfo->u4Index = ucWlanIndex;
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryWlanInfo,
prHwWlanInfo, sizeof(PARAM_HW_WLAN_INFO_T), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
i4BytesWritten = -EFAULT;
goto out_get_curr_ar_rate;
}
prQueryStaStatistics =
(P_PARAM_GET_STA_STATISTICS)kalMemAlloc(sizeof(PARAM_GET_STA_STA_STATISTICS), VIR_MEM_TYPE);
if (!prQueryStaStatistics) {
i4BytesWritten = -ENOMEM;
goto out_get_curr_ar_rate;
}
/* Get Statistics info */
COPY_MAC_ADDR(prQueryStaStatistics->aucMacAddr, pucMacAddr);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryStaStatistics,
prQueryStaStatistics,
sizeof(PARAM_GET_STA_STA_STATISTICS), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
i4BytesWritten = -EFAULT;
goto out_get_curr_ar_rate;
}
idx = prHwWlanInfo->rWtblRateInfo.ucRateIdx;
if (idx >= AUTO_RATE_NUM) {
DBGLOG(REQ, WARN, "%s: Rate index is incorrect (%d)\n", __func__, idx);
i4BytesWritten = -EFAULT;
goto out_get_curr_ar_rate;
}
txmode = HW_TX_RATE_TO_MODE(prHwWlanInfo->rWtblRateInfo.au2RateCode[idx]);
if (txmode >= MAX_TX_MODE)
txmode = MAX_TX_MODE;
rate = HW_TX_RATE_TO_MCS(prHwWlanInfo->rWtblRateInfo.au2RateCode[idx], txmode);
/* Mode: [CCK | OFDM | HT | VHT] */
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"CCK-");
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"OFDM-");
else if (txmode == TX_RATE_MODE_HTGF || txmode == TX_RATE_MODE_HTMIX)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"HT-");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"VHT-");
/* Spatial Streams: [1SS | 2SS | N/A] */
if (prQueryStaStatistics->ucArTableIdx == RATE_TBL_N_2SS ||
prQueryStaStatistics->ucArTableIdx == RATE_TBL_AC_2SS)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"2SS-");
else if (prQueryStaStatistics->ucArTableIdx == RATE_TBL_N ||
prQueryStaStatistics->ucArTableIdx == RATE_TBL_AC)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"1SS-");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"N/A-");
/* BW mode: [BW20 | BW40 | BW80 | BW160/BW8080] */
if ((txmode == TX_RATE_MODE_CCK) || (txmode == TX_RATE_MODE_OFDM))
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s-", HW_TX_RATE_BW[0]);
else
if (idx > prHwWlanInfo->rWtblPeerCap.ucChangeBWAfterRateN)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%s-",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
(prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability > BW_20 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability - 1] :
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability]) :
HW_TX_RATE_BW[4]);
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten, "%s-",
prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability < 4 ?
HW_TX_RATE_BW[prHwWlanInfo->rWtblPeerCap.ucFrequencyCapability] :
HW_TX_RATE_BW[4]);
/* GI mode: [LGI | SGI | X] */
if (txmode == TX_RATE_MODE_CCK || txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"N/A-");
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s-", priv_driver_get_sgi_info(&prHwWlanInfo->rWtblPeerCap) == 0 ?
"LGI" : "SGI");
/* Rate index: [1M | 2M | 5.5M | 11M |
* 6M | 9M | 12M | 18M | 24M | 36M | 48M | 54M |
* MCS# ]
*/
if (txmode == TX_RATE_MODE_CCK)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", rate < 4 ? HW_TX_RATE_CCK_STR[rate] : HW_TX_RATE_CCK_STR[4]);
else if (txmode == TX_RATE_MODE_OFDM)
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"%s", hw_rate_ofdm_str(rate));
else
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"MCS%d", rate);
out_get_curr_ar_rate:
if (prHwWlanInfo)
kalMemFree(prHwWlanInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_WLAN_INFO_T));
if (prQueryStaStatistics)
kalMemFree(prQueryStaStatistics, VIR_MEM_TYPE, sizeof(PARAM_GET_STA_STA_STATISTICS));
return i4BytesWritten;
}
/*----------------------------------------------------------------------------*/
/*
* @ The function will set policy of ACL.
* 0: disable ACL
* 1: enable accept list
* 2: enable deny list
* example: iwpriv p2p0 driver "set_acl_policy 1"
*/
/*----------------------------------------------------------------------------*/
static int priv_driver_set_acl_policy(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
P_BSS_INFO_T prBssInfo = NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4Argc = 0, i4BytesWritten = 0, i4Ret = 0, i4Policy = 0;
UINT_8 ucRoleIdx = 0, ucBssIdx = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
/* get Bss Index from ndev */
if (mtk_Netdev_To_RoleIdx(prGlueInfo, prNetDev, &ucRoleIdx) != 0)
return -1;
if (p2pFuncRoleToBssIdx(prGlueInfo->prAdapter, ucRoleIdx, &ucBssIdx) !=
WLAN_STATUS_SUCCESS)
return -1;
prBssInfo = prAdapter->aprBssInfo[ucBssIdx];
DBGLOG(REQ, LOUD, "ucRoleIdx %hhu ucBssIdx %hhu\n", ucRoleIdx, ucBssIdx);
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc < 2)
return -1;
i4Ret = kalkStrtou32(apcArgv[1], 0, &i4Policy);
if (i4Ret) {
DBGLOG(REQ, ERROR, "integer format error i4Ret=%d\n", i4Ret);
return -1;
}
switch (i4Policy) {
case PARAM_CUSTOM_ACL_POLICY_DISABLE:
case PARAM_CUSTOM_ACL_POLICY_ACCEPT:
case PARAM_CUSTOM_ACL_POLICY_DENY:
prBssInfo->rACL.ePolicy = i4Policy;
break;
default: /*Invalid argument */
DBGLOG(REQ, ERROR, "Invalid ACL Policy=%d\n", i4Policy);
return -1;
}
DBGLOG(REQ, TRACE, "ucBssIdx[%hhu] ACL Policy=%d\n", ucBssIdx, prBssInfo->rACL.ePolicy);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"ucBssIdx[%hhu] ACL Policy=%d\n", ucBssIdx, prBssInfo->rACL.ePolicy);
/* check if the change in ACL affects any existent association */
if (prBssInfo->rACL.ePolicy != PARAM_CUSTOM_ACL_POLICY_DISABLE)
p2pRoleUpdateACLEntry(prAdapter, ucBssIdx);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
return i4BytesWritten;
} /* priv_driver_set_acl_policy */
static INT_32 priv_driver_inspect_mac_addr(IN char *pcMacAddr)
{
INT_32 i = 0;
if (pcMacAddr == NULL)
return -1;
for (i = 0; i < 17; i++) {
if ((i % 3 != 2) && (!kalIsXdigit(pcMacAddr[i]))) {
DBGLOG(REQ, ERROR, "[%c] is not hex digit\n", pcMacAddr[i]);
return -1;
}
if ((i % 3 == 2) && (pcMacAddr[i] != ':')) {
DBGLOG(REQ, ERROR, "[%c]separate symbol is error\n", pcMacAddr[i]);
return -1;
}
}
if (pcMacAddr[17] != '\0') {
DBGLOG(REQ, ERROR, "no null-terminated character\n");
return -1;
}
return 0;
}
/*----------------------------------------------------------------------------*/
/*
* @ The function will add entry to ACL for accept or deny list.
* example: iwpriv p2p0 driver "add_acl_entry 01:02:03:04:05:06"
*/
/*----------------------------------------------------------------------------*/
static int priv_driver_add_acl_entry(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
P_BSS_INFO_T prBssInfo = NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_8 aucMacAddr[MAC_ADDR_LEN] = {0};
INT_32 i = 0, i4Argc = 0, i4BytesWritten = 0, i4Ret = 0;
UINT_8 ucRoleIdx = 0, ucBssIdx = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
/* get Bss Index from ndev */
if (mtk_Netdev_To_RoleIdx(prGlueInfo, prNetDev, &ucRoleIdx) != 0)
return -1;
if (p2pFuncRoleToBssIdx(prGlueInfo->prAdapter, ucRoleIdx, &ucBssIdx) !=
WLAN_STATUS_SUCCESS)
return -1;
prBssInfo = prAdapter->aprBssInfo[ucBssIdx];
DBGLOG(REQ, LOUD, "ucRoleIdx %hhu ucBssIdx %hhu\n", ucRoleIdx, ucBssIdx);
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc < 2)
return -1;
i4Ret = priv_driver_inspect_mac_addr(apcArgv[1]);
if (i4Ret) {
DBGLOG(REQ, ERROR, "inspect mac format error u4Ret=%d\n", i4Ret);
return -1;
}
i4Ret = sscanf(apcArgv[1], "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx",
&aucMacAddr[0], &aucMacAddr[1], &aucMacAddr[2],
&aucMacAddr[3], &aucMacAddr[4], &aucMacAddr[5]);
if (i4Ret != MAC_ADDR_LEN) {
DBGLOG(REQ, ERROR, "sscanf mac format fail u4Ret=%d\n", i4Ret);
return -1;
}
for (i = 0; i <= prBssInfo->rACL.u4Num; i++) {
if (memcmp(prBssInfo->rACL.rEntry[i].aucAddr, &aucMacAddr, MAC_ADDR_LEN) == 0) {
DBGLOG(REQ, ERROR, "add this mac [" MACSTR "] is duplicate.\n", MAC2STR(aucMacAddr));
return -1;
}
}
if ((i < 1) || (i > MAX_NUMBER_OF_ACL)) {
DBGLOG(REQ, ERROR, "idx[%d] error or ACL is full.\n", i);
return -1;
}
memcpy(prBssInfo->rACL.rEntry[i-1].aucAddr, &aucMacAddr, MAC_ADDR_LEN);
prBssInfo->rACL.u4Num = i;
DBGLOG(REQ, TRACE, "add mac addr [" MACSTR "] to ACL(%d).\n",
MAC2STR(prBssInfo->rACL.rEntry[i-1].aucAddr), i);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"add mac addr [" MACSTR "] to ACL(%d)\n", MAC2STR(prBssInfo->rACL.rEntry[i-1].aucAddr), i);
/* Check if the change in ACL affects any existent association. */
if (prBssInfo->rACL.ePolicy == PARAM_CUSTOM_ACL_POLICY_DENY)
p2pRoleUpdateACLEntry(prAdapter, ucBssIdx);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
return i4BytesWritten;
} /* priv_driver_add_acl_entry */
/*----------------------------------------------------------------------------*/
/*
* @ The function will delete entry to ACL for accept or deny list.
* example: iwpriv p2p0 driver "add_del_entry 01:02:03:04:05:06"
*/
/*----------------------------------------------------------------------------*/
static int priv_driver_del_acl_entry(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
P_BSS_INFO_T prBssInfo = NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_8 aucMacAddr[MAC_ADDR_LEN] = {0};
INT_32 i = 0, j = 0, i4Argc = 0, i4BytesWritten = 0, i4Ret = 0;
UINT_8 ucRoleIdx = 0, ucBssIdx = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
/* get Bss Index from ndev */
if (mtk_Netdev_To_RoleIdx(prGlueInfo, prNetDev, &ucRoleIdx) != 0)
return -1;
if (p2pFuncRoleToBssIdx(prGlueInfo->prAdapter, ucRoleIdx, &ucBssIdx) !=
WLAN_STATUS_SUCCESS)
return -1;
prBssInfo = prAdapter->aprBssInfo[ucBssIdx];
DBGLOG(REQ, LOUD, "ucRoleIdx %hhu ucBssIdx %hhu\n", ucRoleIdx, ucBssIdx);
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc < 2)
return -1;
i4Ret = priv_driver_inspect_mac_addr(apcArgv[1]);
if (i4Ret) {
DBGLOG(REQ, ERROR, "inspect mac format error u4Ret=%d\n", i4Ret);
return -1;
}
i4Ret = sscanf(apcArgv[1], "%hhx:%hhx:%hhx:%hhx:%hhx:%hhx",
&aucMacAddr[0], &aucMacAddr[1], &aucMacAddr[2],
&aucMacAddr[3], &aucMacAddr[4], &aucMacAddr[5]);
if (i4Ret != MAC_ADDR_LEN) {
DBGLOG(REQ, ERROR, "sscanf mac format fail u4Ret=%d\n", i4Ret);
return -1;
}
for (i = 0; i < prBssInfo->rACL.u4Num; i++) {
if (memcmp(prBssInfo->rACL.rEntry[i].aucAddr, &aucMacAddr, MAC_ADDR_LEN) == 0) {
memset(&prBssInfo->rACL.rEntry[i], 0x00, sizeof(PARAM_CUSTOM_ACL_ENTRY));
DBGLOG(REQ, TRACE, "delete this mac [" MACSTR "]\n", MAC2STR(aucMacAddr));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"delete this mac [" MACSTR "] from ACL(%d)\n", MAC2STR(aucMacAddr), i+1);
break;
}
}
if ((prBssInfo->rACL.u4Num == 0) || (i == MAX_NUMBER_OF_ACL)) {
DBGLOG(REQ, ERROR, "delete entry fail, num of entries=%d\n", i);
return -1;
}
for (j = i+1; j < prBssInfo->rACL.u4Num; j++)
memcpy(prBssInfo->rACL.rEntry[j-1].aucAddr, prBssInfo->rACL.rEntry[j].aucAddr, MAC_ADDR_LEN);
prBssInfo->rACL.u4Num = j-1;
memset(prBssInfo->rACL.rEntry[j-1].aucAddr, 0x00, MAC_ADDR_LEN);
/* check if the change in ACL affects any existent association */
if (prBssInfo->rACL.ePolicy == PARAM_CUSTOM_ACL_POLICY_ACCEPT)
p2pRoleUpdateACLEntry(prAdapter, ucBssIdx);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
return i4BytesWritten;
} /* priv_driver_del_acl_entry */
/*----------------------------------------------------------------------------*/
/*
* @ The function will show all entries to ACL for accept or deny list.
* example: iwpriv p2p0 driver "show_acl_entry"
*/
/*----------------------------------------------------------------------------*/
static int priv_driver_show_acl_entry(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
P_BSS_INFO_T prBssInfo = NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i = 0, i4Argc = 0, i4BytesWritten = 0;
UINT_8 ucRoleIdx = 0, ucBssIdx = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
/* get Bss Index from ndev */
if (mtk_Netdev_To_RoleIdx(prGlueInfo, prNetDev, &ucRoleIdx) != 0)
return -1;
if (p2pFuncRoleToBssIdx(prGlueInfo->prAdapter, ucRoleIdx, &ucBssIdx) !=
WLAN_STATUS_SUCCESS)
return -1;
prBssInfo = prAdapter->aprBssInfo[ucBssIdx];
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
DBGLOG(REQ, TRACE, "ACL Policy = %d\n", prBssInfo->rACL.ePolicy);
DBGLOG(REQ, TRACE, "Total ACLs = %d\n", prBssInfo->rACL.u4Num);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"ACL Policy = %d, Total ACLs = %d\n", prBssInfo->rACL.ePolicy, prBssInfo->rACL.u4Num);
for (i = 0; i < prBssInfo->rACL.u4Num; i++) {
DBGLOG(REQ, TRACE, "ACL(%d): [" MACSTR "]\n", i+1, MAC2STR(prBssInfo->rACL.rEntry[i].aucAddr));
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"ACL(%d): [" MACSTR "]\n", i+1, MAC2STR(prBssInfo->rACL.rEntry[i].aucAddr));
}
return i4BytesWritten;
} /* priv_driver_show_acl_entry */
/*----------------------------------------------------------------------------*/
/*
* @ The function will clear all entries to ACL for accept or deny list.
* example: iwpriv p2p0 driver "clear_acl_entry"
*/
/*----------------------------------------------------------------------------*/
static int priv_driver_clear_acl_entry(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
P_BSS_INFO_T prBssInfo = NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4Argc = 0, i4BytesWritten = 0;
UINT_8 ucRoleIdx = 0, ucBssIdx = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
/* get Bss Index from ndev */
if (mtk_Netdev_To_RoleIdx(prGlueInfo, prNetDev, &ucRoleIdx) != 0)
return -1;
if (p2pFuncRoleToBssIdx(prGlueInfo->prAdapter, ucRoleIdx, &ucBssIdx) !=
WLAN_STATUS_SUCCESS)
return -1;
prBssInfo = prAdapter->aprBssInfo[ucBssIdx];
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (prBssInfo->rACL.u4Num) {
memset(&prBssInfo->rACL.rEntry[0], 0x00, sizeof(PARAM_CUSTOM_ACL_ENTRY)*MAC_ADDR_LEN);
prBssInfo->rACL.u4Num = 0;
}
DBGLOG(REQ, TRACE, "ACL Policy = %d\n", prBssInfo->rACL.ePolicy);
DBGLOG(REQ, TRACE, "Total ACLs = %d\n", prBssInfo->rACL.u4Num);
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"ACL Policy = %d, Total ACLs = %d\n", prBssInfo->rACL.ePolicy, prBssInfo->rACL.u4Num);
/* check if the change in ACL affects any existent association */
if (prBssInfo->rACL.ePolicy == PARAM_CUSTOM_ACL_POLICY_ACCEPT)
p2pRoleUpdateACLEntry(prAdapter, ucBssIdx);
return i4BytesWritten;
} /* priv_driver_clear_acl_entry */
static int priv_driver_get_drv_mcr(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret;
/* INT_32 i4ArgNum_with_ant_sel = 3; */ /* Add Antenna Selection Input */
INT_32 i4ArgNum = 2;
CMD_ACCESS_REG rCmdAccessReg;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rCmdAccessReg.u4Address));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_drv_mcr error (Address) u4Ret=%d\n", u4Ret);
/* rCmdAccessReg.u4Address = kalStrtoul(apcArgv[1], NULL, 0); */
rCmdAccessReg.u4Data = 0;
DBGLOG(REQ, LOUD, "address is %x\n", rCmdAccessReg.u4Address);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryDrvMcrRead,
&rCmdAccessReg, sizeof(rCmdAccessReg), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "0x%08x", (unsigned int)rCmdAccessReg.u4Data);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
}
return i4BytesWritten;
} /* priv_driver_get_drv_mcr */
int priv_driver_set_drv_mcr(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret;
/* INT_32 i4ArgNum_with_ant_sel = 4; */ /* Add Antenna Selection Input */
INT_32 i4ArgNum = 3;
CMD_ACCESS_REG rCmdAccessReg;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rCmdAccessReg.u4Address));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_drv_mcr error (Address) u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &(rCmdAccessReg.u4Data));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse get_drv_mcr error (Data) u4Ret=%d\n", u4Ret);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetDrvMcrWrite,
&rCmdAccessReg, sizeof(rCmdAccessReg), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
}
static int priv_driver_get_sw_ctrl(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 u4Ret = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= 2) {
/* rSwCtrlInfo.u4Id = kalStrtoul(apcArgv[1], NULL, 0); */
rSwCtrlInfo.u4Data = 0;
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rSwCtrlInfo.u4Id));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
DBGLOG(REQ, LOUD, "id is %x\n", rSwCtrlInfo.u4Id);
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "0x%08x", (unsigned int)rSwCtrlInfo.u4Data);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
}
return i4BytesWritten;
} /* priv_driver_get_sw_ctrl */
int priv_driver_set_sw_ctrl(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= 3) {
/* rSwCtrlInfo.u4Id = kalStrtoul(apcArgv[1], NULL, 0);
* rSwCtrlInfo.u4Data = kalStrtoul(apcArgv[2], NULL, 0);
*/
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rSwCtrlInfo.u4Id));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &(rSwCtrlInfo.u4Data));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
} /* priv_driver_set_sw_ctrl */
int priv_driver_set_fixed_rate(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = {0};
/* INT_32 u4Ret = 0; */
UINT_32 u4WCID = 0;
UINT_32 u4Mode = 0, u4Bw = 0, u4Mcs = 0, u4VhtNss = 0;
UINT_32 u4SGI = 0, u4Preamble = 0, u4STBC = 0, u4LDPC = 0, u4SpeEn = 0;
INT_32 i4Recv = 0;
CHAR *this_char = NULL;
UINT_32 u4Id = 0xa0610000;
UINT_32 u4Data = 0x80000000;
UINT_32 u4Id2 = 0xa0600000;
UINT_8 u4Nsts = 1;
BOOLEAN fgStatus = TRUE;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %d, apcArgv[0] = %s\n\n", i4Argc, *apcArgv);
this_char = kalStrStr(*apcArgv, "=");
if (!this_char)
return -1;
this_char++;
DBGLOG(REQ, LOUD, "string = %s\n", this_char);
if (strnicmp(this_char, "auto", strlen("auto")) == 0) {
i4Recv = 1;
} else {
i4Recv = sscanf(this_char, "%d-%d-%d-%d-%d-%d-%d-%d-%d-%d", &(u4WCID),
&(u4Mode), &(u4Bw), &(u4Mcs), &(u4VhtNss),
&(u4SGI), &(u4Preamble), &(u4STBC), &(u4LDPC), &(u4SpeEn));
DBGLOG(REQ, LOUD, "u4WCID=%d\nu4Mode=%d\nu4Bw=%d\n", u4WCID, u4Mode, u4Bw);
DBGLOG(REQ, LOUD, "u4Mcs=%d\nu4VhtNss=%d\nu4SGI=%d\n", u4Mcs, u4VhtNss, u4SGI);
DBGLOG(REQ, LOUD, "u4Preamble=%d\nu4STBC=%d\n", u4Preamble, u4STBC);
DBGLOG(REQ, LOUD, "u4LDPC=%d\nu4SpeEn=%d\n", u4LDPC, u4SpeEn);
}
if (i4Recv == 1) {
rSwCtrlInfo.u4Id = u4Id2;
rSwCtrlInfo.u4Data = 0;
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo),
FALSE, FALSE, TRUE, &u4BufLen);
} else if (i4Recv == 10) {
rSwCtrlInfo.u4Id = u4Id;
rSwCtrlInfo.u4Data = u4Data;
if (u4SGI)
rSwCtrlInfo.u4Data |= BIT(30);
if (u4LDPC)
rSwCtrlInfo.u4Data |= BIT(29);
if (u4SpeEn)
rSwCtrlInfo.u4Data |= BIT(28);
if (u4STBC)
rSwCtrlInfo.u4Data |= BIT(11);
if (u4Bw <= 3)
rSwCtrlInfo.u4Data |= ((u4Bw << 26) & BITS(26, 27));
else {
fgStatus = FALSE;
DBGLOG(INIT, ERROR, "Wrong BW! BW20=0, BW40=1, BW80=2,BW160=3\n");
}
if (u4Mode <= 4) {
rSwCtrlInfo.u4Data |= ((u4Mode << 6) & BITS(6, 8));
switch (u4Mode) {
case 0:
if (u4Mcs <= 3)
rSwCtrlInfo.u4Data |= u4Mcs;
else {
fgStatus = FALSE;
DBGLOG(INIT, ERROR, "CCK mode but wrong MCS!\n");
}
if (u4Preamble)
rSwCtrlInfo.u4Data |= BIT(2);
else
rSwCtrlInfo.u4Data &= ~BIT(2);
break;
case 1:
switch (u4Mcs) {
case 0:
/* 6'b001011 */
rSwCtrlInfo.u4Data |= 11;
break;
case 1:
/* 6'b001111 */
rSwCtrlInfo.u4Data |= 15;
break;
case 2:
/* 6'b001010 */
rSwCtrlInfo.u4Data |= 10;
break;
case 3:
/* 6'b001110 */
rSwCtrlInfo.u4Data |= 14;
break;
case 4:
/* 6'b001001 */
rSwCtrlInfo.u4Data |= 9;
break;
case 5:
/* 6'b001101 */
rSwCtrlInfo.u4Data |= 13;
break;
case 6:
/* 6'b001000 */
rSwCtrlInfo.u4Data |= 8;
break;
case 7:
/* 6'b001100 */
rSwCtrlInfo.u4Data |= 12;
break;
default:
fgStatus = FALSE;
DBGLOG(INIT, ERROR, "OFDM mode but wrong MCS!\n");
break;
}
break;
case 2:
case 3:
if (u4Mcs <= 32)
rSwCtrlInfo.u4Data |= u4Mcs;
else {
fgStatus = FALSE;
DBGLOG(INIT, ERROR, "HT mode but wrong MCS!\n");
}
if (u4Mcs != 32) {
u4Nsts += (u4Mcs >> 3);
if (u4STBC && (u4Nsts == 1))
u4Nsts++;
}
break;
case 4:
if (u4Mcs <= 9)
rSwCtrlInfo.u4Data |= u4Mcs;
else {
fgStatus = FALSE;
DBGLOG(INIT, ERROR, "VHT mode but wrong MCS!\n");
}
if (u4STBC && (u4VhtNss == 1))
u4Nsts++;
else
u4Nsts = u4VhtNss;
break;
default:
break;
}
} else {
fgStatus = FALSE;
DBGLOG(INIT, ERROR, "Wrong TxMode! CCK=0, OFDM=1, HT=2, GF=3, VHT=4\n");
}
rSwCtrlInfo.u4Data |= (((u4Nsts - 1) << 9) & BITS(9, 10));
if (fgStatus) {
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo),
FALSE, FALSE, TRUE, &u4BufLen);
}
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
} else {
DBGLOG(INIT, ERROR, "iwpriv wlanXX driver FixedRate=Option\n");
DBGLOG(INIT, ERROR,
"Option:[WCID]-[Mode]-[BW]-[MCS]-[VhtNss]-[SGI]-[Preamble]-[STBC]-[LDPC]-[SPE_EN]\n");
DBGLOG(INIT, ERROR, "[WCID]Wireless Client ID\n");
DBGLOG(INIT, ERROR, "[Mode]CCK=0, OFDM=1, HT=2, GF=3, VHT=4\n");
DBGLOG(INIT, ERROR, "[BW]BW20=0, BW40=1, BW80=2,BW160=3\n");
DBGLOG(INIT, ERROR, "[MCS]CCK=0~3, OFDM=0~7, HT=0~32, VHT=0~9\n");
DBGLOG(INIT, ERROR, "[VhtNss]VHT=1~4, Other=ignore\n");
DBGLOG(INIT, ERROR, "[Preamble]Long=0, Other=Short\n");
}
return i4BytesWritten;
} /* priv_driver_set_fixed_rate */
int priv_driver_set_cfg(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
PARAM_CUSTOM_KEY_CFG_STRUCT_T rKeyCfgInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
prAdapter = prGlueInfo->prAdapter;
kalMemZero(&rKeyCfgInfo, sizeof(rKeyCfgInfo));
if (i4Argc >= 3) {
CHAR ucTmp[WLAN_CFG_VALUE_LEN_MAX];
PUINT_8 pucCurrBuf = ucTmp;
UINT_8 i = 0;
INT_32 i4TmpBufLen = 0;
kalMemZero(ucTmp, WLAN_CFG_VALUE_LEN_MAX);
if (i4Argc == 3) {
/*no space for it, driver can't accept space in the end of the line*/
/*ToDo: skip the space when parsing*/
scnprintf(pucCurrBuf, sizeof(ucTmp), "%s", apcArgv[2]);
} else {
for (i = 2; i < i4Argc; i++)
i4TmpBufLen += scnprintf((pucCurrBuf + i4TmpBufLen),
(sizeof(ucTmp) - i4TmpBufLen), "%s", apcArgv[i]);
}
DBGLOG(INIT, WARN, "Update to driver temp buffer as [%s]\n", ucTmp);
/* wlanCfgSet(prAdapter, apcArgv[1], apcArgv[2], 0); */
/* Call by wlanoid because the set_cfg will trigger callback */
kalStrnCpy(rKeyCfgInfo.aucKey, apcArgv[1], WLAN_CFG_KEY_LEN_MAX);
kalStrnCpy(rKeyCfgInfo.aucValue, ucTmp, WLAN_CFG_KEY_LEN_MAX);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetKeyCfg, &rKeyCfgInfo, sizeof(rKeyCfgInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return i4BytesWritten;
} /* priv_driver_set_cfg */
int priv_driver_get_cfg(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
CHAR aucValue[WLAN_CFG_VALUE_LEN_MAX];
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
prAdapter = prGlueInfo->prAdapter;
if (i4Argc >= 2) {
/* by wlanoid ? */
if (wlanCfgGet(prAdapter, apcArgv[1], aucValue, "", 0) == WLAN_STATUS_SUCCESS) {
kalStrnCpy(pcCommand, aucValue, WLAN_CFG_VALUE_LEN_MAX);
i4BytesWritten = kalStrnLen(pcCommand, WLAN_CFG_VALUE_LEN_MAX);
}
}
return i4BytesWritten;
} /* priv_driver_get_cfg */
int priv_driver_set_chip_config(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
UINT_32 u4CmdLen = 0;
UINT_32 u4PrefixLen = 0;
/* INT_32 i4Argc = 0; */
/* PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = {0}; */
PARAM_CUSTOM_CHIP_CONFIG_STRUCT_T rChipConfigInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
/* wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv); */
/* DBGLOG(REQ, LOUD,("argc is %i\n",i4Argc)); */
/* */
u4CmdLen = kalStrnLen(pcCommand, i4TotalLen);
u4PrefixLen = kalStrLen(CMD_SET_CHIP) + 1 /*space */;
kalMemZero(&rChipConfigInfo, sizeof(rChipConfigInfo));
/* if(i4Argc >= 2) { */
if (u4CmdLen > u4PrefixLen) {
rChipConfigInfo.ucType = CHIP_CONFIG_TYPE_WO_RESPONSE;
/* rChipConfigInfo.u2MsgSize = kalStrnLen(apcArgv[1],CHIP_CONFIG_RESP_SIZE); */
rChipConfigInfo.u2MsgSize = u4CmdLen - u4PrefixLen;
/* kalStrnCpy(rChipConfigInfo.aucCmd,apcArgv[1],CHIP_CONFIG_RESP_SIZE); */
kalStrnCpy(rChipConfigInfo.aucCmd, pcCommand + u4PrefixLen, CHIP_CONFIG_RESP_SIZE - 1);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetChipConfig,
&rChipConfigInfo, sizeof(rChipConfigInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, INFO, "%s: kalIoctl ret=%d\n", __func__, rStatus);
i4BytesWritten = -1;
}
}
return i4BytesWritten;
} /* priv_driver_set_chip_config */
void
priv_driver_get_chip_config_16(PUINT_8 pucStartAddr, UINT_32 u4Length, UINT_32 u4Line, int i4TotalLen,
INT_32 i4BytesWritten, char *pcCommand)
{
while (u4Length >= 16) {
if (i4TotalLen > i4BytesWritten) {
i4BytesWritten +=
snprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten,
"%04lx %02x %02x %02x %02x %02x %02x %02x %02x - %02x %02x %02x %02x %02x %02x %02x %02x\n",
u4Line, pucStartAddr[0],
pucStartAddr[1],
pucStartAddr[2],
pucStartAddr[3],
pucStartAddr[4],
pucStartAddr[5],
pucStartAddr[6],
pucStartAddr[7],
pucStartAddr[8],
pucStartAddr[9],
pucStartAddr[10],
pucStartAddr[11],
pucStartAddr[12], pucStartAddr[13], pucStartAddr[14], pucStartAddr[15]);
}
pucStartAddr += 16;
u4Length -= 16;
u4Line += 16;
} /* u4Length */
}
void
priv_driver_get_chip_config_4(PUINT_32 pu4StartAddr, UINT_32 u4Length, UINT_32 u4Line, int i4TotalLen,
INT_32 i4BytesWritten, char *pcCommand)
{
while (u4Length >= 16) {
if (i4TotalLen > i4BytesWritten) {
i4BytesWritten +=
snprintf(pcCommand +
i4BytesWritten,
i4TotalLen -
i4BytesWritten,
"%04lx %08lx %08lx %08lx %08lx\n",
u4Line, pu4StartAddr[0], pu4StartAddr[1], pu4StartAddr[2], pu4StartAddr[3]);
}
pu4StartAddr += 4;
u4Length -= 16;
u4Line += 4;
} /* u4Length */
}
int priv_driver_get_chip_config(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
INT_32 i4BytesWritten = 0;
UINT_32 u4BufLen = 0;
UINT_32 u2MsgSize = 0;
UINT_32 u4CmdLen = 0;
UINT_32 u4PrefixLen = 0;
/* INT_32 i4Argc = 0; */
/* PCHAR apcArgv[WLAN_CFG_ARGV_MAX]; */
PARAM_CUSTOM_CHIP_CONFIG_STRUCT_T rChipConfigInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
/* wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv); */
/* DBGLOG(REQ, LOUD,("argc is %i\n",i4Argc)); */
u4CmdLen = kalStrnLen(pcCommand, i4TotalLen);
u4PrefixLen = kalStrLen(CMD_GET_CHIP) + 1 /*space */;
/* if(i4Argc >= 2) { */
if (u4CmdLen > u4PrefixLen) {
rChipConfigInfo.ucType = CHIP_CONFIG_TYPE_ASCII;
/* rChipConfigInfo.u2MsgSize = kalStrnLen(apcArgv[1],CHIP_CONFIG_RESP_SIZE); */
rChipConfigInfo.u2MsgSize = u4CmdLen - u4PrefixLen;
/* kalStrnCpy(rChipConfigInfo.aucCmd,apcArgv[1],CHIP_CONFIG_RESP_SIZE); */
kalStrnCpy(rChipConfigInfo.aucCmd, pcCommand + u4PrefixLen, CHIP_CONFIG_RESP_SIZE - 1);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryChipConfig,
&rChipConfigInfo, sizeof(rChipConfigInfo), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, INFO, "%s: kalIoctl ret=%d\n", __func__, rStatus);
return -1;
}
/* Check respType */
u2MsgSize = rChipConfigInfo.u2MsgSize;
DBGLOG(REQ, INFO, "%s: RespTyep %u\n", __func__, rChipConfigInfo.ucRespType);
DBGLOG(REQ, INFO, "%s: u2MsgSize %u\n", __func__, rChipConfigInfo.u2MsgSize);
if (u2MsgSize > sizeof(rChipConfigInfo.aucCmd)) {
DBGLOG(REQ, INFO, "%s: u2MsgSize error ret=%u\n", __func__, rChipConfigInfo.u2MsgSize);
return -1;
}
if (u2MsgSize > 0) {
if (rChipConfigInfo.ucRespType == CHIP_CONFIG_TYPE_ASCII) {
i4BytesWritten =
snprintf(pcCommand + i4BytesWritten, i4TotalLen, "%s", rChipConfigInfo.aucCmd);
} else {
UINT_32 u4Length;
UINT_32 u4Line;
if (rChipConfigInfo.ucRespType == CHIP_CONFIG_TYPE_MEM8) {
PUINT_8 pucStartAddr = NULL;
pucStartAddr = (PUINT_8) rChipConfigInfo.aucCmd;
/* align 16 bytes because one print line is 16 bytes */
u4Length = (((u2MsgSize + 15) >> 4)) << 4;
u4Line = 0;
priv_driver_get_chip_config_16(pucStartAddr, u4Length, u4Line, i4TotalLen,
i4BytesWritten, pcCommand);
} else {
PUINT_32 pu4StartAddr = NULL;
pu4StartAddr = (PUINT_32) rChipConfigInfo.aucCmd;
/* align 16 bytes because one print line is 16 bytes */
u4Length = (((u2MsgSize + 15) >> 4)) << 4;
u4Line = 0;
if (IS_ALIGN_4((ULONG) pu4StartAddr)) {
priv_driver_get_chip_config_4(pu4StartAddr, u4Length, u4Line,
i4TotalLen, i4BytesWritten, pcCommand);
} else {
DBGLOG(REQ, INFO,
"%s: rChipConfigInfo.aucCmd is not 4 bytes alignment %p\n",
__func__, rChipConfigInfo.aucCmd);
}
} /* ChipConfigInfo.ucRespType */
}
}
/* u2MsgSize > 0 */
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
}
/* i4Argc */
return i4BytesWritten;
} /* priv_driver_get_chip_config */
int priv_driver_set_ap_start(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
PARAM_CUSTOM_P2P_SET_STRUCT_T rSetP2P;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret;
INT_32 i4ArgNum = 2;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &(rSetP2P.u4Mode));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ap-start error (u4Enable) u4Ret=%d\n", u4Ret);
if (rSetP2P.u4Mode >= RUNNING_P2P_MODE_NUM) {
rSetP2P.u4Mode = 0;
rSetP2P.u4Enable = 0;
} else
rSetP2P.u4Enable = 1;
set_p2p_mode_handler(prNetDev, rSetP2P);
}
return 0;
}
int priv_driver_get_linkspeed(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
UINT_32 u4Rate = 0;
UINT_32 u4LinkSpeed = 0;
INT_32 i4BytesWritten = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
if (!netif_carrier_ok(prNetDev))
return -1;
rStatus = kalIoctl(prGlueInfo, wlanoidQueryLinkSpeed, &u4Rate, sizeof(u4Rate), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u4LinkSpeed = u4Rate * 100;
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "LinkSpeed %u", (unsigned int)u4LinkSpeed);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
return i4BytesWritten;
} /* priv_driver_get_linkspeed */
int priv_driver_set_band(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_ADAPTER_T prAdapter = NULL;
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
UINT_32 ucBand = 0;
UINT_8 ucBssIndex;
ENUM_BAND_T eBand = BAND_NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 u4Ret = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
prAdapter = prGlueInfo->prAdapter;
if (i4Argc >= 2) {
/* ucBand = kalStrtoul(apcArgv[1], NULL, 0); */
u4Ret = kalkStrtou32(apcArgv[1], 0, &ucBand);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ucBand error u4Ret=%d\n", u4Ret);
ucBssIndex = wlanGetAisBssIndex(prGlueInfo->prAdapter);
eBand = BAND_NULL;
if (ucBand == CMD_BAND_5G)
eBand = BAND_5G;
else if (ucBand == CMD_BAND_2G)
eBand = BAND_2G4;
prAdapter->aePreferBand[ucBssIndex] = eBand;
/* XXX call wlanSetPreferBandByNetwork directly in different thread */
/* wlanSetPreferBandByNetwork (prAdapter, eBand, ucBssIndex); */
}
return 0;
}
int priv_driver_set_txpower(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
P_SET_TXPWR_CTRL_T prTxpwr;
UINT_16 i;
INT_32 u4Ret = 0;
INT_32 ai4Setting[4];
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
prTxpwr = &prGlueInfo->rTxPwr;
if (i4Argc >= 3 && i4Argc <= 5) {
for (i = 0; i < (i4Argc - 1); i++) {
/* ai4Setting[i] = kalStrtol(apcArgv[i + 1], NULL, 0); */
u4Ret = kalkStrtos32(apcArgv[i + 1], 0, &(ai4Setting[i]));
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
/* printk("PeiHsuan setting[%d] = %d\n", i, setting[i]); */
}
} else {
DBGLOG(REQ, INFO, "set_txpower wrong argc : %d\n", i4Argc);
return -1;
}
/*
* ai4Setting[0]
* 0 : Set TX power offset for specific network
* 1 : Set TX power offset policy when multiple networks are in the same channel
* 2 : Set TX power limit for specific channel in 2.4GHz band
* 3 : Set TX power limit of specific sub-band in 5GHz band
* 4 : Enable or reset setting
*/
if (ai4Setting[0] == 0 && (i4Argc - 1) == 4 /* argc num */) {
/* ai4Setting[1] : 0 (All networks), 1 (legacy STA), 2 (Hotspot AP), 3 (P2P), 4 (BT over Wi-Fi) */
/* ai4Setting[2] : 0 (All bands),1 (2.4G), 2 (5G) */
/* ai4Setting[3] : -30 ~ 20 in unit of 0.5dBm (default: 0) */
if (ai4Setting[1] == 1 || ai4Setting[1] == 0) {
if (ai4Setting[2] == 0 || ai4Setting[2] == 1)
prTxpwr->c2GLegacyStaPwrOffset = ai4Setting[3];
if (ai4Setting[2] == 0 || ai4Setting[2] == 2)
prTxpwr->c5GLegacyStaPwrOffset = ai4Setting[3];
}
if (ai4Setting[1] == 2 || ai4Setting[1] == 0) {
if (ai4Setting[2] == 0 || ai4Setting[2] == 1)
prTxpwr->c2GHotspotPwrOffset = ai4Setting[3];
if (ai4Setting[2] == 0 || ai4Setting[2] == 2)
prTxpwr->c5GHotspotPwrOffset = ai4Setting[3];
}
if (ai4Setting[1] == 3 || ai4Setting[1] == 0) {
if (ai4Setting[2] == 0 || ai4Setting[2] == 1)
prTxpwr->c2GP2pPwrOffset = ai4Setting[3];
if (ai4Setting[2] == 0 || ai4Setting[2] == 2)
prTxpwr->c5GP2pPwrOffset = ai4Setting[3];
}
if (ai4Setting[1] == 4 || ai4Setting[1] == 0) {
if (ai4Setting[2] == 0 || ai4Setting[2] == 1)
prTxpwr->c2GBowPwrOffset = ai4Setting[3];
if (ai4Setting[2] == 0 || ai4Setting[2] == 2)
prTxpwr->c5GBowPwrOffset = ai4Setting[3];
}
} else if (ai4Setting[0] == 1 && (i4Argc - 1) == 2) {
/* ai4Setting[1] : 0 (highest power is used) (default), 1 (lowest power is used) */
prTxpwr->ucConcurrencePolicy = ai4Setting[1];
} else if (ai4Setting[0] == 2 && (i4Argc - 1) == 3) {
/* ai4Setting[1] : 0 (all channels in 2.4G), 1~14 */
/* ai4Setting[2] : 10 ~ 46 in unit of 0.5dBm (default: 46) */
if (ai4Setting[1] == 0) {
for (i = 0; i < 14; i++)
prTxpwr->acTxPwrLimit2G[i] = ai4Setting[2];
} else if (ai4Setting[1] <= 14)
prTxpwr->acTxPwrLimit2G[ai4Setting[1] - 1] = ai4Setting[2];
} else if (ai4Setting[0] == 3 && (i4Argc - 1) == 3) {
/* ai4Setting[1] : 0 (all sub-bands in 5G),
* 1 (5000 ~ 5250MHz),
* 2 (5255 ~ 5350MHz),
* 3 (5355 ~ 5725MHz),
* 4 (5730 ~ 5825MHz)
*/
/* ai4Setting[2] : 10 ~ 46 in unit of 0.5dBm (default: 46) */
if (ai4Setting[1] == 0) {
for (i = 0; i < 4; i++)
prTxpwr->acTxPwrLimit5G[i] = ai4Setting[2];
} else if (ai4Setting[1] <= 4)
prTxpwr->acTxPwrLimit5G[ai4Setting[1] - 1] = ai4Setting[2];
} else if (ai4Setting[0] == 4 && (i4Argc - 1) == 2) {
/* ai4Setting[1] : 1 (enable), 0 (reset and disable) */
if (ai4Setting[1] == 0)
wlanDefTxPowerCfg(prGlueInfo->prAdapter);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetTxPower, prTxpwr, sizeof(SET_TXPWR_CTRL_T), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
} else
return -EFAULT;
return 0;
}
int priv_driver_set_country(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_8 aucCountry[2];
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (regd_is_single_sku_en()) {
UINT_8 aucCountry_code[4] = {0, 0, 0, 0};
UINT_8 i, count;
/* command like "COUNTRY US", "COUNTRY US1" and "COUNTRY US01" */
count = kalStrnLen(apcArgv[1], sizeof(aucCountry_code));
for (i = 0; i < count; i++)
aucCountry_code[i] = apcArgv[1][i];
rStatus = kalIoctl(prGlueInfo, wlanoidSetCountryCode,
&aucCountry_code[0], count, FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
return 0;
}
if (i4Argc >= 2) {
/* command like "COUNTRY US", "COUNTRY EU" and "COUNTRY JP" */
aucCountry[0] = apcArgv[1][0];
aucCountry[1] = apcArgv[1][1];
rStatus = kalIoctl(prGlueInfo, wlanoidSetCountryCode, &aucCountry[0], 2, FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
}
return 0;
}
int priv_driver_get_country(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 i4BytesWritten = 0;
UINT_32 country = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (!regd_is_single_sku_en()) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "Not Supported.");
return i4BytesWritten;
}
country = rlmDomainGetCountryCode();
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nCountry Code: \"%s\" (0x%x)",
&country, country);
return i4BytesWritten;
}
int priv_driver_get_channels(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
UINT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
#if (CFG_SUPPORT_SINGLE_SKU == 1)
UINT_32 ch_idx, start_idx, end_idx;
struct channel *pCh;
UINT_32 ch_num = 0;
UINT_8 maxbw = 160;
UINT_32 u4Ret = 0;
#endif
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (!regd_is_single_sku_en()) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "Not Supported.");
return i4BytesWritten;
}
#if (CFG_SUPPORT_SINGLE_SKU == 1)
/**
* Usage: iwpriv wlan0 driver "get_channels [2g |5g |ch_num]"
**/
if (i4Argc >= 2 && (apcArgv[1][0] == '2') && (apcArgv[1][1] == 'g')) {
start_idx = 0;
end_idx = rlmDomainGetActiveChannelCount(KAL_BAND_2GHZ);
} else if (i4Argc >= 2 && (apcArgv[1][0] == '5') && (apcArgv[1][1] == 'g')) {
start_idx = rlmDomainGetActiveChannelCount(KAL_BAND_2GHZ);
end_idx = rlmDomainGetActiveChannelCount(KAL_BAND_2GHZ)
+ rlmDomainGetActiveChannelCount(KAL_BAND_5GHZ);
} else {
start_idx = 0;
end_idx = rlmDomainGetActiveChannelCount(KAL_BAND_2GHZ)
+ rlmDomainGetActiveChannelCount(KAL_BAND_5GHZ);
if (i4Argc >= 2)
/* Dump only specified channel */
u4Ret = kalkStrtou32(apcArgv[1], 0, &ch_num);
}
if (regd_is_single_sku_en()) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n");
for (ch_idx = start_idx; ch_idx < end_idx; ch_idx++) {
pCh = (rlmDomainGetActiveChannels() + ch_idx);
if (ch_num && (ch_num != pCh->chNum))
continue; /*show specific channel information*/
/* Channel number */
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "CH-%d:",
pCh->chNum);
/* Active/Passive */
if (pCh->flags & IEEE80211_CHAN_PASSIVE_FLAG)
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, " " IEEE80211_CHAN_PASSIVE_STR);
else
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, " ACTIVE");
/* Max BW */
if ((pCh->flags & IEEE80211_CHAN_NO_160MHZ) == IEEE80211_CHAN_NO_160MHZ)
maxbw = 80;
if ((pCh->flags & IEEE80211_CHAN_NO_80MHZ) == IEEE80211_CHAN_NO_80MHZ)
maxbw = 40;
if ((pCh->flags & IEEE80211_CHAN_NO_HT40) == IEEE80211_CHAN_NO_HT40)
maxbw = 20;
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, " BW_%dMHz", maxbw);
/* Channel flags */
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, " (flags=0x%x)\n", pCh->flags);
}
}
#endif
return i4BytesWritten;
}
#if (CFG_SUPPORT_DFS_MASTER == 1)
int priv_driver_show_dfs_state(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4BytesWritten = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nDFS State: \"%s\"",
p2pFuncShowDfsState());
return i4BytesWritten;
}
int priv_driver_show_dfs_radar_param(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4BytesWritten = 0;
UINT_8 ucCnt = 0;
struct P2P_RADAR_INFO *prP2pRadarInfo = NULL;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prP2pRadarInfo = (struct P2P_RADAR_INFO *) cnmMemAlloc(prGlueInfo->prAdapter,
RAM_TYPE_MSG, sizeof(*prP2pRadarInfo));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
p2pFuncGetRadarInfo(prP2pRadarInfo);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nRDD idx: %d\n",
prP2pRadarInfo->ucRddIdx);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nLong Pulse detected: %d\n",
prP2pRadarInfo->ucLongDetected);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nPeriodic Pulse detected: %d\n",
prP2pRadarInfo->ucPeriodicDetected);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nLPB Num: %d\n",
prP2pRadarInfo->ucLPBNum);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nPPB Num: %d\n",
prP2pRadarInfo->ucPPBNum);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n===========================");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nLong Pulse Buffer Contents:\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\npulse_time pulse_width PRI\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n%-10d %-11d -\n"
, prP2pRadarInfo->arLpbContent[ucCnt].u4LongStartTime
, prP2pRadarInfo->arLpbContent[ucCnt].u2LongPulseWidth);
for (ucCnt = 1; ucCnt < prP2pRadarInfo->ucLPBNum; ucCnt++) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n%-10d %-11d %d\n"
, prP2pRadarInfo->arLpbContent[ucCnt].u4LongStartTime
, prP2pRadarInfo->arLpbContent[ucCnt].u2LongPulseWidth
, (prP2pRadarInfo->arLpbContent[ucCnt].u4LongStartTime
- prP2pRadarInfo->arLpbContent[ucCnt-1].u4LongStartTime) * 2 / 5);
}
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nLPB Period Valid: %d",
prP2pRadarInfo->ucLPBPeriodValid);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nLPB Period Valid: %d\n",
prP2pRadarInfo->ucLPBWidthValid);
ucCnt = 0;
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n===========================");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nPeriod Pulse Buffer Contents:\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\npulse_time pulse_width PRI\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n%-10d %-11d -\n"
, prP2pRadarInfo->arPpbContent[ucCnt].u4PeriodicStartTime
, prP2pRadarInfo->arPpbContent[ucCnt].u2PeriodicPulseWidth);
for (ucCnt = 1; ucCnt < prP2pRadarInfo->ucPPBNum; ucCnt++) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n%-10d %-11d %d\n"
, prP2pRadarInfo->arPpbContent[ucCnt].u4PeriodicStartTime
, prP2pRadarInfo->arPpbContent[ucCnt].u2PeriodicPulseWidth
, (prP2pRadarInfo->arPpbContent[ucCnt].u4PeriodicStartTime
- prP2pRadarInfo->arPpbContent[ucCnt-1].u4PeriodicStartTime) * 2 / 5);
}
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nPRI Count M1 TH: %d; PRI Count M1: %d",
prP2pRadarInfo->ucPRICountM1TH, prP2pRadarInfo->ucPRICountM1);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nPRI Count M2 TH: %d; PRI Count M2: %d",
prP2pRadarInfo->ucPRICountM2TH, prP2pRadarInfo->ucPRICountM2);
cnmMemFree(prGlueInfo->prAdapter, prP2pRadarInfo);
return i4BytesWritten;
}
int priv_driver_show_dfs_help(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4BytesWritten = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n--iwpriv wlanX driver \"show_dfs_state\"\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nINACTIVE: RDD disable or temporary RDD disable");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nCHECKING: During CAC time");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nACTIVE : In-serive monitoring");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten,
"\nDETECTED: Has detected radar but hasn't moved to new channel\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n--iwpriv wlanX driver \"show_dfs_radar_param\"\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nShow the latest pulse information\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n--iwpriv wlanX driver \"show_dfs_cac_time\"\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nShow the remaining time of CAC\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n--iwpriv wlanX set ByPassCac=yy\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nValue yy: set the time of CAC\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n--iwpriv wlanX set RDDReport=yy\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nValue yy is \"0\" or \"1\"");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n\"0\": Emulate RDD0 manual radar event");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n\"1\": Emulate RDD1 manual radar event\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n--iwpriv wlanX set RadarDetectMode=yy\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nValue yy is \"0\" or \"1\"");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n\"0\": Switch channel when radar detected (default)");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n\"1\": Do not switch channel when radar detected");
return i4BytesWritten;
}
int priv_driver_show_dfs_cac_time(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 i4BytesWritten = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (p2pFuncGetDfsState() != DFS_STATE_CHECKING) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nNot in CAC period");
return i4BytesWritten;
}
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nRemaining time of CAC: %dsec", p2pFuncGetCacRemainingTime());
return i4BytesWritten;
}
#endif
int priv_driver_set_miracast(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_ADAPTER_T prAdapter = NULL;
P_GLUE_INFO_T prGlueInfo = NULL;
UINT_32 i4BytesWritten = 0;
/* WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS; */
/* UINT_32 u4BufLen = 0; */
INT_32 i4Argc = 0;
UINT_32 ucMode = 0;
P_WFD_CFG_SETTINGS_T prWfdCfgSettings = (P_WFD_CFG_SETTINGS_T) NULL;
P_MSG_WFD_CONFIG_SETTINGS_CHANGED_T prMsgWfdCfgUpdate = (P_MSG_WFD_CONFIG_SETTINGS_CHANGED_T) NULL;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
INT_32 u4Ret = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
prAdapter = prGlueInfo->prAdapter;
if (i4Argc >= 2) {
/* ucMode = kalStrtoul(apcArgv[1], NULL, 0); */
u4Ret = kalkStrtou32(apcArgv[1], 0, &ucMode);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ucMode error u4Ret=%d\n", u4Ret);
if (g_ucMiracastMode == (UINT_8) ucMode) {
/* XXX: continue or skip */
/* XXX: continue or skip */
}
g_ucMiracastMode = (UINT_8) ucMode;
prMsgWfdCfgUpdate = cnmMemAlloc(prAdapter, RAM_TYPE_MSG, sizeof(MSG_WFD_CONFIG_SETTINGS_CHANGED_T));
if (prMsgWfdCfgUpdate != NULL) {
prWfdCfgSettings = &(prAdapter->rWifiVar.rWfdConfigureSettings);
prMsgWfdCfgUpdate->rMsgHdr.eMsgId = MID_MNY_P2P_WFD_CFG_UPDATE;
prMsgWfdCfgUpdate->prWfdCfgSettings = prWfdCfgSettings;
if (ucMode == MIRACAST_MODE_OFF) {
prWfdCfgSettings->ucWfdEnable = 0;
snprintf(pcCommand, i4TotalLen, CMD_SET_CHIP " mira 0");
} else if (ucMode == MIRACAST_MODE_SOURCE) {
prWfdCfgSettings->ucWfdEnable = 1;
snprintf(pcCommand, i4TotalLen, CMD_SET_CHIP " mira 1");
} else if (ucMode == MIRACAST_MODE_SINK) {
prWfdCfgSettings->ucWfdEnable = 2;
snprintf(pcCommand, i4TotalLen, CMD_SET_CHIP " mira 2");
} else {
prWfdCfgSettings->ucWfdEnable = 0;
snprintf(pcCommand, i4TotalLen, CMD_SET_CHIP " mira 0");
}
mboxSendMsg(prAdapter, MBOX_ID_0, (P_MSG_HDR_T) prMsgWfdCfgUpdate, MSG_SEND_METHOD_BUF);
priv_driver_set_chip_config(prNetDev, pcCommand, i4TotalLen);
} /* prMsgWfdCfgUpdate */
else {
ASSERT(FALSE);
i4BytesWritten = -1;
}
}
/* i4Argc */
return i4BytesWritten;
}
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
/*
* Memo
* 00 : Reset All Cal Data in Driver
* 01 : Trigger All Cal Function
* 02 : Get Thermal Temp from FW
* 03 : Get Cal Data Size from FW
* 04 : Get Cal Data from FW (Rom)
* 05 : Get Cal Data from FW (Ram)
* 06 : Print Cal Data in Driver (Rom)
* 07 : Print Cal Data in Driver (Ram)
* 08 : Print Cal Data in FW (Rom)
* 09 : Print Cal Data in FW (Ram)
* 10 : Send Cal Data to FW (Rom)
* 11 : Send Cal Data to FW (Ram)
*/
static int priv_driver_set_calbackup_test_drv_fw(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret, u4GetInput;
INT_32 i4ArgNum = 2;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(RFTEST, INFO, "%s\r\n", __func__);
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= i4ArgNum) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4GetInput);
if (u4Ret)
DBGLOG(RFTEST, INFO, "priv_driver_set_calbackup_test_drv_fw Parsing Fail\n");
if (u4GetInput == 0) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#0 : Reset All Cal Data in Driver.\n");
/* (New Flow 20160720) Step 0 : Reset All Cal Data Structure */
memset(&g_rBackupCalDataAllV2, 1, sizeof(RLM_CAL_RESULT_ALL_V2_T));
g_rBackupCalDataAllV2.u4MagicNum1 = 6632;
g_rBackupCalDataAllV2.u4MagicNum2 = 6632;
} else if (u4GetInput == 1) {
DBGLOG(RFTEST, INFO, "CMD#1 : Trigger FW Do All Cal.\n");
/* Step 1 : Trigger All Cal Function */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 1, 2, 0);
DBGLOG(RFTEST, INFO, "Trigger FW Do All Cal, rStatus = 0x%08x\n", rStatus);
} else if (u4GetInput == 2) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#2 : Get Thermal Temp from FW.\n");
/* (New Flow 20160720) Step 2 : Get Thermal Temp from FW */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 0, 0, 0);
DBGLOG(RFTEST, INFO, "Get Thermal Temp from FW, rStatus = 0x%08x\n", rStatus);
} else if (u4GetInput == 3) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#3 : Get Cal Data Size from FW.\n");
/* (New Flow 20160720) Step 3 : Get Cal Data Size from FW */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 0, 1, 0);
DBGLOG(RFTEST, INFO, "Get Rom Cal Data Size, rStatus = 0x%08x\n", rStatus);
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 0, 1, 1);
DBGLOG(RFTEST, INFO, "Get Ram Cal Data Size, rStatus = 0x%08x\n", rStatus);
} else if (u4GetInput == 4) {
#if 1
DBGLOG(RFTEST, INFO, "(New Flow) CMD#4 : Print Cal Data in FW (Ram) (Part 1 - [0]~[3327]).\n");
/* Debug Use : Print Cal Data in FW (Ram) */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 4, 6, 1);
DBGLOG(RFTEST, INFO, "Print Cal Data in FW (Ram), rStatus = 0x%08x\n", rStatus);
#else /* For Temp Use this Index */
DBGLOG(RFTEST, INFO, "(New Flow) CMD#4 : Get Cal Data from FW (Rom). Start!!!!!!!!!!!\n");
DBGLOG(RFTEST, INFO, "Thermal Temp = %d\n", g_rBackupCalDataAllV2.u4ThermalInfo);
DBGLOG(RFTEST, INFO, "Total Length (Rom) = %d\n",
g_rBackupCalDataAllV2.u4ValidRomCalDataLength);
/* (New Flow 20160720) Step 3 : Get Cal Data from FW */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 2, 4, 0);
DBGLOG(RFTEST, INFO, "Get Cal Data from FW (Rom), rStatus = 0x%08x\n", rStatus);
#endif
} else if (u4GetInput == 5) {
#if 1
DBGLOG(RFTEST, INFO,
"(New Flow) CMD#5 : Print RAM Cal Data in Driver (Part 1 - [0]~[3327]).\n");
DBGLOG(RFTEST, INFO, "==================================================================\n");
/* RFTEST_INFO_LOGDUMP32(&(g_rBackupCalDataAllV2.au4RamCalData[0]), 3328*sizeof(UINT_32)); */
DBGLOG(RFTEST, INFO, "==================================================================\n");
DBGLOG(RFTEST, INFO, "Dumped Ram Cal Data Szie : %d bytes\n", 3328*sizeof(UINT_32));
DBGLOG(RFTEST, INFO, "Total Ram Cal Data Szie : %d bytes\n",
g_rBackupCalDataAllV2.u4ValidRamCalDataLength);
DBGLOG(RFTEST, INFO, "==================================================================\n");
#else /* For Temp Use this Index */
DBGLOG(RFTEST, INFO, "(New Flow) CMD#5 : Get Cal Data from FW (Ram). Start!!!!!!!!!!!\n");
DBGLOG(RFTEST, INFO, "Thermal Temp = %d\n", g_rBackupCalDataAllV2.u4ThermalInfo);
DBGLOG(RFTEST, INFO, "Total Length (Ram) = %d\n",
g_rBackupCalDataAllV2.u4ValidRamCalDataLength);
/* (New Flow 20160720) Step 3 : Get Cal Data from FW */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 2, 4, 1);
DBGLOG(RFTEST, INFO, "Get Cal Data from FW (Ram), rStatus = 0x%08x\n", rStatus);
#endif
} else if (u4GetInput == 6) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#6 : Print ROM Cal Data in Driver.\n");
DBGLOG(RFTEST, INFO, "==================================================================\n");
/* RFTEST_INFO_LOGDUMP32(&(g_rBackupCalDataAllV2.au4RomCalData[0]), */
/* g_rBackupCalDataAllV2.u4ValidRomCalDataLength); */
DBGLOG(RFTEST, INFO, "==================================================================\n");
DBGLOG(RFTEST, INFO, "Total Rom Cal Data Szie : %d bytes\n",
g_rBackupCalDataAllV2.u4ValidRomCalDataLength);
DBGLOG(RFTEST, INFO, "==================================================================\n");
} else if (u4GetInput == 7) {
DBGLOG(RFTEST, INFO,
"(New Flow) CMD#7 : Print RAM Cal Data in Driver (Part 2 - [3328]~[6662]).\n");
DBGLOG(RFTEST, INFO, "==================================================================\n");
/* RFTEST_INFO_LOGDUMP32(&(g_rBackupCalDataAllV2.au4RamCalData[3328]), */
/*(g_rBackupCalDataAllV2.u4ValidRamCalDataLength - 3328*sizeof(UINT_32))); */
DBGLOG(RFTEST, INFO, "==================================================================\n");
DBGLOG(RFTEST, INFO, "Dumped Ram Cal Data Szie : %d bytes\n",
(g_rBackupCalDataAllV2.u4ValidRamCalDataLength - 3328*sizeof(UINT_32)));
DBGLOG(RFTEST, INFO, "Total Ram Cal Data Szie : %d bytes\n",
g_rBackupCalDataAllV2.u4ValidRamCalDataLength);
DBGLOG(RFTEST, INFO, "==================================================================\n");
} else if (u4GetInput == 8) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#8 : Print Cal Data in FW (Rom).\n");
/* Debug Use : Print Cal Data in FW (Rom) */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 4, 6, 0);
DBGLOG(RFTEST, INFO, "Print Cal Data in FW (Rom), rStatus = 0x%08x\n", rStatus);
} else if (u4GetInput == 9) {
DBGLOG(RFTEST, INFO,
"(New Flow) CMD#9 : Print Cal Data in FW (Ram) (Part 2 - [3328]~[6662]).\n");
/* Debug Use : Print Cal Data in FW (Ram) */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 4, 6, 2);
DBGLOG(RFTEST, INFO, "Print Cal Data in FW (Ram), rStatus = 0x%08x\n", rStatus);
} else if (u4GetInput == 10) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#10 : Send Cal Data to FW (Rom).\n");
/* Send Cal Data to FW (Rom) */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 3, 5, 0);
DBGLOG(RFTEST, INFO, "Send Cal Data to FW (Rom), rStatus = 0x%08x\n", rStatus);
} else if (u4GetInput == 11) {
DBGLOG(RFTEST, INFO, "(New Flow) CMD#11 : Send Cal Data to FW (Ram).\n");
/* Send Cal Data to FW (Ram) */
rStatus = rlmCalBackup(prGlueInfo->prAdapter, 3, 5, 1);
DBGLOG(RFTEST, INFO, "Send Cal Data to FW (Ram), rStatus = 0x%08x\n", rStatus);
}
}
return i4BytesWritten;
} /* priv_driver_set_calbackup_test_drv_fw */
#endif
#if CFG_WOW_SUPPORT
static int priv_driver_set_wow(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_WOW_CTRL_T pWOW_CTRL = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret = 0;
UINT_32 Enable = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
u4Ret = kalkStrtou32(apcArgv[1], 0, &Enable);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse bEnable error u4Ret=%d\n", u4Ret);
DBGLOG(INIT, INFO, "CMD set_wow_enable = %d\n", Enable);
DBGLOG(INIT, INFO, "Scenario ID %d\n", pWOW_CTRL->ucScenarioId);
DBGLOG(INIT, INFO, "ucBlockCount %d\n", pWOW_CTRL->ucBlockCount);
DBGLOG(INIT, INFO, "interface %d\n", pWOW_CTRL->astWakeHif[0].ucWakeupHif);
DBGLOG(INIT, INFO, "gpio_pin %d\n", pWOW_CTRL->astWakeHif[0].ucGpioPin);
DBGLOG(INIT, INFO, "gpio_level 0x%x\n", pWOW_CTRL->astWakeHif[0].ucTriggerLvl);
DBGLOG(INIT, INFO, "gpio_timer %d\n", pWOW_CTRL->astWakeHif[0].u4GpioInterval);
kalWowProcess(prGlueInfo, Enable);
return 0;
}
static int priv_driver_set_wow_enable(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_WOW_CTRL_T pWOW_CTRL = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret = 0;
UINT_8 ucEnable = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
u4Ret = kalkStrtou8(apcArgv[1], 0, &ucEnable);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse bEnable error u4Ret=%d\n", u4Ret);
pWOW_CTRL->fgWowEnable = ucEnable;
DBGLOG(PF, INFO, "WOW enable %d\n", pWOW_CTRL->fgWowEnable);
return 0;
}
static int priv_driver_set_wow_par(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_WOW_CTRL_T pWOW_CTRL = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0;
UINT_8 ucWakeupHif = 0, GpioPin = 0, ucGpioLevel = 0, ucBlockCount, ucScenario = 0;
UINT_32 u4GpioTimer = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc > 3) {
u4Ret = kalkStrtou8(apcArgv[1], 0, &ucWakeupHif);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ucWakeupHif error u4Ret=%d\n", u4Ret);
pWOW_CTRL->astWakeHif[0].ucWakeupHif = ucWakeupHif;
u4Ret = kalkStrtou8(apcArgv[2], 0, &GpioPin);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse GpioPin error u4Ret=%d\n", u4Ret);
pWOW_CTRL->astWakeHif[0].ucGpioPin = GpioPin;
u4Ret = kalkStrtou8(apcArgv[3], 0, &ucGpioLevel);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse Gpio level error u4Ret=%d\n", u4Ret);
pWOW_CTRL->astWakeHif[0].ucTriggerLvl = ucGpioLevel;
u4Ret = kalkStrtou32(apcArgv[4], 0, &u4GpioTimer);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse u4GpioTimer error u4Ret=%d\n", u4Ret);
pWOW_CTRL->astWakeHif[0].u4GpioInterval = u4GpioTimer;
u4Ret = kalkStrtou8(apcArgv[5], 0, &ucScenario);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ucScenario error u4Ret=%d\n", u4Ret);
pWOW_CTRL->ucScenarioId = ucScenario;
u4Ret = kalkStrtou8(apcArgv[6], 0, &ucBlockCount);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse ucBlockCnt error u4Ret=%d\n", u4Ret);
pWOW_CTRL->ucBlockCount = ucBlockCount;
DBGLOG(INIT, INFO, "gpio_scenario%d\n", pWOW_CTRL->ucScenarioId);
DBGLOG(INIT, INFO, "interface %d\n", pWOW_CTRL->astWakeHif[0].ucWakeupHif);
DBGLOG(INIT, INFO, "gpio_pin %d\n", pWOW_CTRL->astWakeHif[0].ucGpioPin);
DBGLOG(INIT, INFO, "gpio_level %d\n", pWOW_CTRL->astWakeHif[0].ucTriggerLvl);
DBGLOG(INIT, INFO, "gpio_timer %d\n", pWOW_CTRL->astWakeHif[0].u4GpioInterval);
return 0;
} else
return -1;
}
static int priv_driver_set_wow_udpport(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_WOW_CTRL_T pWOW_CTRL = NULL;
INT_32 i4Argc = 0;
PCHAR apcPortArgv[WLAN_CFG_ARGV_MAX_LONG] = { 0 }; /* to input 20 port */
INT_32 u4Ret = 0, ii;
UINT_8 ucVer, ucCount;
UINT_16 u2Port = 0;
PUINT_16 pausPortArry;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgumentLong(pcCommand, &i4Argc, apcPortArgv);
DBGLOG(REQ, WARN, "argc is %i\n", i4Argc);
/* example: set_wow_udp 0 5353,8080 (set) */
/* example: set_wow_udp 1 (clear) */
if (i4Argc >= 3) {
/* Pick Max */
ucCount = ((i4Argc - 2) > MAX_TCP_UDP_PORT) ? MAX_TCP_UDP_PORT : (i4Argc - 2);
DBGLOG(PF, INFO, "UDP ucCount=%d\n", ucCount);
u4Ret = kalkStrtou8(apcPortArgv[1], 0, &ucVer);
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucWakeupHif error u4Ret=%d\n", u4Ret);
return -1;
}
/* IPv4/IPv6 */
DBGLOG(PF, INFO, "ucVer=%d\n", ucVer);
if (ucVer == 0) {
pWOW_CTRL->stWowPort.ucIPv4UdpPortCnt = ucCount;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv4UdpPort;
} else {
pWOW_CTRL->stWowPort.ucIPv6UdpPortCnt = ucCount;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv6UdpPort;
}
/* Port */
for (ii = 0; ii < ucCount; ii++) {
u4Ret = kalkStrtou16(apcPortArgv[ii+2], 0, &u2Port);
if (u4Ret) {
DBGLOG(PF, ERROR, "parse u2Port error u4Ret=%d\n", u4Ret);
return -1;
}
pausPortArry[ii] = u2Port;
DBGLOG(PF, INFO, "ucPort=%d, idx=%d\n", u2Port, ii);
}
return 0;
} else if (i4Argc == 2) {
u4Ret = kalkStrtou8(apcPortArgv[1], 0, &ucVer);
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucWakeupHif error u4Ret=%d\n", u4Ret);
return -1;
}
if (ucVer == 0) {
kalMemZero(prGlueInfo->prAdapter->rWowCtrl.stWowPort.ausIPv4UdpPort,
sizeof(UINT_16) * MAX_TCP_UDP_PORT);
prGlueInfo->prAdapter->rWowCtrl.stWowPort.ucIPv4UdpPortCnt = 0;
} else {
kalMemZero(prGlueInfo->prAdapter->rWowCtrl.stWowPort.ausIPv6UdpPort,
sizeof(UINT_16) * MAX_TCP_UDP_PORT);
prGlueInfo->prAdapter->rWowCtrl.stWowPort.ucIPv6UdpPortCnt = 0;
}
return 0;
} else
return -1;
}
static int priv_driver_set_wow_tcpport(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_WOW_CTRL_T pWOW_CTRL = NULL;
INT_32 i4Argc = 0;
PCHAR apcPortArgv[WLAN_CFG_ARGV_MAX_LONG] = { 0 }; /* to input 20 port */
INT_32 u4Ret = 0, ii;
UINT_8 ucVer, ucCount;
UINT_16 u2Port = 0;
PUINT_16 pausPortArry;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgumentLong(pcCommand, &i4Argc, apcPortArgv);
DBGLOG(REQ, WARN, "argc is %i\n", i4Argc);
/* example: set_wow_tcp 0 5353,8080 (Set) */
/* example: set_wow_tcp 1 (clear) */
if (i4Argc >= 3) {
/* Pick Max */
ucCount = ((i4Argc - 2) > MAX_TCP_UDP_PORT) ? MAX_TCP_UDP_PORT : (i4Argc - 2);
DBGLOG(PF, INFO, "TCP ucCount=%d\n", ucCount);
u4Ret = kalkStrtou8(apcPortArgv[1], 0, &ucVer);
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucWakeupHif error u4Ret=%d\n", u4Ret);
return -1;
}
/* IPv4/IPv6 */
DBGLOG(PF, INFO, "Ver=%d\n", ucVer);
if (ucVer == 0) {
pWOW_CTRL->stWowPort.ucIPv4TcpPortCnt = ucCount;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv4TcpPort;
} else {
pWOW_CTRL->stWowPort.ucIPv6TcpPortCnt = ucCount;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv6TcpPort;
}
/* Port */
for (ii = 0; ii < ucCount; ii++) {
u4Ret = kalkStrtou16(apcPortArgv[ii+2], 0, &u2Port);
if (u4Ret) {
DBGLOG(PF, ERROR, "parse u2Port error u4Ret=%d\n", u4Ret);
return -1;
}
pausPortArry[ii] = u2Port;
DBGLOG(PF, INFO, "ucPort=%d, idx=%d\n", u2Port, ii);
}
return 0;
} else if (i4Argc == 2) {
u4Ret = kalkStrtou8(apcPortArgv[1], 0, &ucVer);
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucWakeupHif error u4Ret=%d\n", u4Ret);
return -1;
}
if (ucVer == 0) {
kalMemZero(prGlueInfo->prAdapter->rWowCtrl.stWowPort.ausIPv4UdpPort,
sizeof(UINT_16) * MAX_TCP_UDP_PORT);
prGlueInfo->prAdapter->rWowCtrl.stWowPort.ucIPv4UdpPortCnt = 0;
} else {
kalMemZero(prGlueInfo->prAdapter->rWowCtrl.stWowPort.ausIPv6UdpPort,
sizeof(UINT_16) * MAX_TCP_UDP_PORT);
prGlueInfo->prAdapter->rWowCtrl.stWowPort.ucIPv6UdpPortCnt = 0;
}
return 0;
} else
return -1;
}
static int priv_driver_get_wow_port(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_WOW_CTRL_T pWOW_CTRL = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0, ii;
UINT_8 ucVer, ucProto;
UINT_16 ucCount;
PUINT_16 pausPortArry;
PCHAR aucIp[2] = {"IPv4", "IPv6"};
PCHAR aucProto[2] = {"UDP", "TCP"};
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
/* example: get_wow_port 0 0 (ipv4-udp) */
/* example: get_wow_port 0 1 (ipv4-tcp) */
/* example: get_wow_port 1 0 (ipv6-udp) */
/* example: get_wow_port 1 1 (ipv6-tcp) */
if (i4Argc >= 3) {
/* 0=IPv4, 1=IPv6 */
u4Ret = kalkStrtou8(apcArgv[1], 0, &ucVer);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse argc[1] error u4Ret=%d\n", u4Ret);
/* 0=UDP, 1=TCP */
u4Ret = kalkStrtou8(apcArgv[2], 0, &ucProto);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse argc[2] error u4Ret=%d\n", u4Ret);
if (ucVer > 1)
ucVer = 0;
if (ucProto > 1)
ucProto = 0;
if (ucVer == 0) {
if (ucProto == 0) {
/* IPv4/UDP */
ucCount = pWOW_CTRL->stWowPort.ucIPv4UdpPortCnt;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv4UdpPort;
} else {
/* IPv4/TCP */
ucCount = pWOW_CTRL->stWowPort.ucIPv4TcpPortCnt;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv4TcpPort;
}
} else {
if (ucProto == 0) {
/* IPv6/UDP */
ucCount = pWOW_CTRL->stWowPort.ucIPv6UdpPortCnt;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv6UdpPort;
} else {
/* IPv6/TCP */
ucCount = pWOW_CTRL->stWowPort.ucIPv6TcpPortCnt;
pausPortArry = pWOW_CTRL->stWowPort.ausIPv6TcpPort;
}
}
/* Dunp Port */
for (ii = 0; ii < ucCount; ii++)
DBGLOG(PF, INFO, "ucPort=%d, idx=%d\n", pausPortArry[ii], ii);
DBGLOG(PF, INFO, "[%s/%s] count:%d\n", aucIp[ucVer], aucProto[ucProto], ucCount);
return 0;
} else
return -1;
}
static int priv_driver_get_wow_reason(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
INT_32 i4BytesWritten = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
P_WOW_CTRL_T pWOW_CTRL = NULL;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
pWOW_CTRL = &prGlueInfo->prAdapter->rWowCtrl;
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (pWOW_CTRL->ucReason != INVALID_WOW_WAKE_UP_REASON)
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nwakeup_reason:%d", pWOW_CTRL->ucReason);
return i4BytesWritten;
}
#endif
static int priv_driver_set_adv_pws(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret = 0;
UINT_8 ucAdvPws = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
u4Ret = kalkStrtou8(apcArgv[1], 0, &ucAdvPws);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse bEnable error u4Ret=%d\n", u4Ret);
prGlueInfo->prAdapter->rWifiVar.ucAdvPws = ucAdvPws;
DBGLOG(INIT, INFO, "AdvPws:%d\n", &prGlueInfo->prAdapter->rWifiVar.ucAdvPws);
return 0;
}
static int priv_driver_set_mdtim(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret = 0;
UINT_8 ucMultiDtim = 0, ucVer;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
/* iwpriv wlan0 driver "set_mdtim 1 3 */
if (i4Argc >= 3) {
u4Ret = kalkStrtou8(apcArgv[1], 0, &ucVer);
if (u4Ret) {
DBGLOG(REQ, ERROR, "parse apcArgv1 error u4Ret=%d\n", u4Ret);
return -1;
}
u4Ret = kalkStrtou8(apcArgv[2], 0, &ucMultiDtim);
if (u4Ret) {
DBGLOG(REQ, ERROR, "parse apcArgv2 error u4Ret=%d\n", u4Ret);
return -1;
}
if (ucVer == 0) {
prGlueInfo->prAdapter->rWifiVar.ucWowOnMdtim = ucMultiDtim;
DBGLOG(REQ, INFO, "WOW On MDTIM:%d\n", &prGlueInfo->prAdapter->rWifiVar.ucWowOnMdtim);
} else {
prGlueInfo->prAdapter->rWifiVar.ucWowOffMdtim = ucMultiDtim;
DBGLOG(REQ, INFO, "WOW Off MDTIM:%d\n", &prGlueInfo->prAdapter->rWifiVar.ucWowOffMdtim);
}
}
return 0;
}
static int priv_driver_set_listen_dtim_interval(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Ret = 0;
UINT_8 ucInterval = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
/* iwpriv wlan0 driver "set_listen_dtim_interval x */
if (i4Argc >= 2) {
u4Ret = kalkStrtou8(apcArgv[1], 0, &ucInterval);
if (u4Ret) {
DBGLOG(REQ, ERROR, "parse apcArgv1 error u4Ret=%d\n", u4Ret);
return -1;
}
prGlueInfo->prAdapter->rWifiVar.ucListenDtimInterval = ucInterval;
DBGLOG(REQ, INFO, "Listen Interval(DTIM) :%d\n", &prGlueInfo->prAdapter->rWifiVar.ucListenDtimInterval);
}
return 0;
}
int priv_driver_set_suspend_mode(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
BOOLEAN fgEnable;
UINT_32 u4Enable;
INT_32 u4Ret = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc >= 2) {
/* fgEnable = (kalStrtoul(apcArgv[1], NULL, 0) == 1) ? TRUE : FALSE; */
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Enable);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse u4Enable error u4Ret=%d\n", u4Ret);
if (u4Enable == 1)
fgEnable = TRUE;
else
fgEnable = FALSE;
DBGLOG(REQ, INFO, "%s: Set suspend mode [%u]\n", __func__, fgEnable);
if (prGlueInfo->fgIsInSuspendMode == fgEnable) {
DBGLOG(REQ, INFO, "%s: Already in suspend mode, SKIP!\n", __func__);
return 0;
}
prGlueInfo->fgIsInSuspendMode = fgEnable;
wlanSetSuspendMode(prGlueInfo, fgEnable);
p2pSetSuspendMode(prGlueInfo, fgEnable);
}
return 0;
}
#if CFG_SUPPORT_SNIFFER
int priv_driver_set_monitor(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
INT_32 i4BytesWritten = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
PARAM_CUSTOM_MONITOR_SET_STRUCT_T rMonitorSetInfo;
UINT_8 ucEnable = 0;
UINT_8 ucPriChannel = 0;
UINT_8 ucChannelWidth = 0;
UINT_8 ucExt = 0;
UINT_8 ucSco = 0;
UINT_8 ucChannelS1 = 0;
UINT_8 ucChannelS2 = 0;
BOOLEAN fgIsLegalChannel = FALSE;
BOOLEAN fgError = FALSE;
BOOLEAN fgEnable = FALSE;
ENUM_BAND_T eBand = BAND_NULL;
UINT_32 u4Parse = 0;
INT_32 u4Ret = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
if (i4Argc >= 5) {
/* ucEnable = (UINT_8) (kalStrtoul(apcArgv[1], NULL, 0));
* ucPriChannel = (UINT_8) (kalStrtoul(apcArgv[2], NULL, 0));
* ucChannelWidth = (UINT_8) (kalStrtoul(apcArgv[3], NULL, 0));
* ucExt = (UINT_8) (kalStrtoul(apcArgv[4], NULL, 0));
*/
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Parse);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
ucEnable = (UINT_8) u4Parse;
u4Ret = kalkStrtou32(apcArgv[2], 0, &u4Parse);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
ucPriChannel = (UINT_8) u4Parse;
u4Ret = kalkStrtou32(apcArgv[3], 0, &u4Parse);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
ucChannelWidth = (UINT_8) u4Parse;
u4Ret = kalkStrtou32(apcArgv[4], 0, &u4Parse);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
ucExt = (UINT_8) u4Parse;
eBand = (ucPriChannel <= 14) ? BAND_2G4 : BAND_5G;
fgIsLegalChannel = rlmDomainIsLegalChannel(prAdapter, eBand, ucPriChannel);
if (fgIsLegalChannel == FALSE) {
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "Illegal primary channel %d", ucPriChannel);
return i4BytesWritten;
}
switch (ucChannelWidth) {
case 160:
ucChannelWidth = (UINT_8) CW_160MHZ;
ucSco = (UINT_8) CHNL_EXT_SCN;
if (ucPriChannel >= 36 && ucPriChannel <= 64)
ucChannelS2 = 50;
else if (ucPriChannel >= 100 && ucPriChannel <= 128)
ucChannelS2 = 114;
else
fgError = TRUE;
break;
case 80:
ucChannelWidth = (UINT_8) CW_80MHZ;
ucSco = (UINT_8) CHNL_EXT_SCN;
if (ucPriChannel >= 36 && ucPriChannel <= 48)
ucChannelS1 = 42;
else if (ucPriChannel >= 52 && ucPriChannel <= 64)
ucChannelS1 = 58;
else if (ucPriChannel >= 100 && ucPriChannel <= 112)
ucChannelS1 = 106;
else if (ucPriChannel >= 116 && ucPriChannel <= 128)
ucChannelS1 = 122;
else if (ucPriChannel >= 132 && ucPriChannel <= 144)
ucChannelS1 = 138;
else if (ucPriChannel >= 149 && ucPriChannel <= 161)
ucChannelS1 = 155;
else
fgError = TRUE;
break;
case 40:
ucChannelWidth = (UINT_8) CW_20_40MHZ;
ucSco = (ucExt) ? (UINT_8) CHNL_EXT_SCA : (UINT_8) CHNL_EXT_SCB;
break;
case 20:
ucChannelWidth = (UINT_8) CW_20_40MHZ;
ucSco = (UINT_8) CHNL_EXT_SCN;
break;
default:
fgError = TRUE;
break;
}
if (fgError) {
i4BytesWritten =
snprintf(pcCommand, i4TotalLen, "Invalid primary channel %d with bandwidth %d",
ucPriChannel, ucChannelWidth);
return i4BytesWritten;
}
fgEnable = (ucEnable) ? TRUE : FALSE;
if (prGlueInfo->fgIsEnableMon != fgEnable) {
prGlueInfo->fgIsEnableMon = fgEnable;
schedule_work(&prGlueInfo->monWork);
}
kalMemZero(&rMonitorSetInfo, sizeof(rMonitorSetInfo));
rMonitorSetInfo.ucEnable = ucEnable;
rMonitorSetInfo.ucPriChannel = ucPriChannel;
rMonitorSetInfo.ucSco = ucSco;
rMonitorSetInfo.ucChannelWidth = ucChannelWidth;
rMonitorSetInfo.ucChannelS1 = ucChannelS1;
rMonitorSetInfo.ucChannelS2 = ucChannelS2;
rStatus = kalIoctl(prGlueInfo,
wlanoidSetMonitor,
&rMonitorSetInfo, sizeof(rMonitorSetInfo), FALSE, FALSE, TRUE, &u4BufLen);
i4BytesWritten =
snprintf(pcCommand, i4TotalLen, "set monitor config %s",
(rStatus == WLAN_STATUS_SUCCESS) ? "success" : "fail");
return i4BytesWritten;
}
i4BytesWritten = snprintf(pcCommand, i4TotalLen, "monitor [Enable][PriChannel][ChannelWidth][Sco]");
return i4BytesWritten;
}
#endif
static int priv_driver_get_version(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
P_ADAPTER_T prAdapter;
INT_32 i4BytesWritten = 0;
UINT_32 u4Offset = 0;
P_WIFI_VER_INFO_T prVerInfo;
tailer_format_t *prTailer;
UINT_8 aucBuf[32], aucDate[32];
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
prVerInfo = &prAdapter->rVerInfo;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"\nChip ROM ver [%u]\n", prAdapter->chip_info->eco_ver);
wlanPrintVersion(prAdapter);
kalStrnCpy(aucBuf, prVerInfo->aucFwBranchInfo, 4);
aucBuf[4] = '\0';
kalStrnCpy(aucDate, prVerInfo->aucFwDateCode, 16);
aucDate[16] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"\nN9 FW version %s-%u.%u.%u[DEC] (%s)\n", aucBuf, (prVerInfo->u2FwOwnVersion >> 8),
(prVerInfo->u2FwOwnVersion & BITS(0, 7)), prVerInfo->ucFwBuildNumber, aucDate);
#if CFG_SUPPORT_COMPRESSION_FW_OPTION
if (prVerInfo->fgIsN9CompressedFW) {
tailer_format_t_2 *prTailer;
prTailer = &prVerInfo->rN9Compressedtailer;
kalMemCopy(aucBuf, prTailer->ram_version, 10);
aucBuf[10] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"N9 tailer version %s (%s) info %u:E%u\n",
aucBuf, prTailer->ram_built_date, prTailer->chip_info,
prTailer->eco_code + 1);
} else {
prTailer = &prVerInfo->rN9tailer;
kalMemCopy(aucBuf, prTailer->ram_version, 10);
aucBuf[10] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"N9 tailer version %s (%s) info %u:E%u\n",
aucBuf, prTailer->ram_built_date, prTailer->chip_info,
prTailer->eco_code + 1);
}
if (prVerInfo->fgIsCR4CompressedFW) {
tailer_format_t_2 *prTailer;
prTailer = &prVerInfo->rCR4Compressedtailer;
kalMemCopy(aucBuf, prTailer->ram_version, 10);
aucBuf[10] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"CR4 tailer version %s (%s) info %u:E%u\n",
aucBuf, prTailer->ram_built_date, prTailer->chip_info,
prTailer->eco_code + 1);
} else {
prTailer = &prVerInfo->rCR4tailer;
kalMemCopy(aucBuf, prTailer->ram_version, 10);
aucBuf[10] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"CR4 tailer version %s (%s) info %u:E%u\n",
aucBuf, prTailer->ram_built_date, prTailer->chip_info,
prTailer->eco_code + 1);
}
#else
prTailer = &prVerInfo->rN9tailer;
kalMemCopy(aucBuf, prTailer->ram_version, 10);
aucBuf[10] = '\0';
kalMemCopy(aucDate, prTailer->ram_built_date, sizeof(prTailer->ram_built_date));
aucDate[sizeof(prTailer->ram_built_date)] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"N9 tailer version %s (%s) info %u:E%u\n",
aucBuf, aucDate, prTailer->chip_info,
prTailer->eco_code + 1);
prTailer = &prVerInfo->rCR4tailer;
kalMemCopy(aucBuf, prTailer->ram_version, 10);
aucBuf[10] = '\0';
kalMemCopy(aucDate, prTailer->ram_built_date, sizeof(prTailer->ram_built_date));
aucDate[sizeof(prTailer->ram_built_date)] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"CR4 tailer version %s (%s) info %u:E%u\n",
aucBuf, aucDate, prTailer->chip_info,
prTailer->eco_code + 1);
#endif
if (!prVerInfo->fgPatchIsDlByDrv) {
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Patch is not downloaded by driver, read patch binary\n");
wlanGetPatchInfo(prAdapter);
}
kalStrnCpy(aucBuf, prVerInfo->rPatchHeader.aucPlatform, 4);
aucBuf[4] = '\0';
kalStrnCpy(aucDate, prVerInfo->rPatchHeader.aucBuildDate, 16);
aucDate[16] = '\0';
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Patch platform %s version 0x%04X %s\n",
aucBuf, prVerInfo->rPatchHeader.u4PatchVersion, aucDate);
#if 0
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Drv version %u.%u[DEC]", (prVerInfo->u2FwPeerVersion >> 8),
(prVerInfo->u2FwPeerVersion & BITS(0, 7)));
#endif
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"WiFi Driver Version " NIC_DRIVER_VERSION_STRING "\n");
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
}
#if CFG_SUPPORT_DBDC
int priv_driver_set_dbdc(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = {0};
UINT_32 u4Ret, u4Parse;
UINT_8 ucDBDCEnable;
/*UINT_8 ucBssIndex;*/
/*P_BSS_INFO_T prBssInfo;*/
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
#if 0
for (ucBssIndex = 0; ucBssIndex < (HW_BSSID_NUM+1); ucBssIndex++) {
prBssInfo = prGlueInfo->prAdapter->aprBssInfo[ucBssIndex];
pr_info("****BSS %u inUse %u active %u Mode %u priCh %u state %u rfBand %u\n",
ucBssIndex,
prBssInfo->fgIsInUse,
prBssInfo->fgIsNetActive,
prBssInfo->eCurrentOPMode,
prBssInfo->ucPrimaryChannel,
prBssInfo->eConnectionState,
prBssInfo->eBand);
}
#endif
if (prGlueInfo->prAdapter->rWifiVar.ucDbdcMode != DBDC_MODE_DYNAMIC) {
DBGLOG(REQ, LOUD, "Current DBDC mode %u cannot enable/disable DBDC!!\n",
prGlueInfo->prAdapter->rWifiVar.ucDbdcMode);
return -1;
}
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
if (i4Argc == 2) {
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Parse);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv error u4Ret=%d\n", u4Ret);
ucDBDCEnable = (UINT_8) u4Parse;
if ((!prGlueInfo->prAdapter->rWifiVar.fgDbDcModeEn && !ucDBDCEnable) ||
(prGlueInfo->prAdapter->rWifiVar.fgDbDcModeEn && ucDBDCEnable))
return i4BytesWritten;
rStatus = kalIoctl(prGlueInfo,
wlanoidSetDbdcEnable,
&ucDBDCEnable, 1,
FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
} else {
DBGLOG(INIT, ERROR, "iwpriv wlanXX driver SET_DBDC <enable>\n");
DBGLOG(INIT, ERROR, "<enable> 1: enable. 0: disable.\n");
}
return i4BytesWritten;
}
#endif /*CFG_SUPPORT_DBDC*/
#if CFG_SUPPORT_BATCH_SCAN
#define CMD_BATCH_SET "WLS_BATCHING SET"
#define CMD_BATCH_GET "WLS_BATCHING GET"
#define CMD_BATCH_STOP "WLS_BATCHING STOP"
#endif
static int priv_driver_get_que_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
return qmDumpQueueStatus(prGlueInfo->prAdapter, pcCommand, i4TotalLen);
}
static int priv_driver_get_mem_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
return cnmDumpMemoryStatus(prGlueInfo->prAdapter, pcCommand, i4TotalLen);
}
static int priv_driver_get_hif_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
return halDumpHifStatus(prGlueInfo->prAdapter, pcCommand, i4TotalLen);
}
int priv_driver_set_p2p_ps(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = {0};
UINT_32 u4Ret;
INT_32 i4Parameter;
PARAM_CUSTOM_OPPPS_PARAM_STRUCT_T rOpppsParamInfo;
UINT_8 ucRoleIdx = 0;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
if (i4Argc >= 3) {
/* get Bss Index from ndev */
if (mtk_Netdev_To_RoleIdx(prGlueInfo, prNetDev, &ucRoleIdx) != 0)
return -1;
if (p2pFuncRoleToBssIdx(prGlueInfo->prAdapter, ucRoleIdx, &rOpppsParamInfo.ucBssIdx) !=
WLAN_STATUS_SUCCESS)
return -1;
DBGLOG(REQ, LOUD, "priv_driver_set_p2p_ps bss Idx %u\n", rOpppsParamInfo.ucBssIdx);
u4Ret = kalkStrtos32(apcArgv[1], 0, &i4Parameter);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv[1] error u4Ret=%d\n", u4Ret);
if (i4Parameter >= 1)
rOpppsParamInfo.ucLegcyPS = 1;
else
rOpppsParamInfo.ucLegcyPS = 0;
u4Ret = kalkStrtos32(apcArgv[2], 0, &i4Parameter);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv[2] error u4Ret=%d\n", u4Ret);
if (i4Parameter >= 1)
rOpppsParamInfo.ucOppPs = 1;
else
rOpppsParamInfo.ucOppPs = 0;
u4Ret = kalkStrtos32(apcArgv[3], 0, &i4Parameter);
if (u4Ret)
DBGLOG(REQ, LOUD, "parse apcArgv[2] error u4Ret=%d\n", u4Ret);
if (rOpppsParamInfo.ucOppPs)
rOpppsParamInfo.u4CTwindowMs = (UINT_32)i4Parameter;
rStatus = kalIoctl(prGlueInfo,
wlanoidSetOppPsParam,
&rOpppsParamInfo, sizeof(rOpppsParamInfo),
FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
} else {
DBGLOG(INIT, ERROR, "ERR, iwpriv wlanXX driver SET_P2P_PS <legacy ps> <Oppps> <CTW>\n");
}
return i4BytesWritten;
}
#if CFG_SUPPORT_LAST_SEC_MCS_INFO
static int priv_driver_get_mcs_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0, i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
P_PARAM_HW_WLAN_INFO_T prHwWlanInfo = NULL;
struct PARAM_TX_MCS_INFO *prTxMcsInfo = NULL;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (prGlueInfo->prAdapter->rRxMcsInfoTimer.pfMgmtTimeOutFunc == NULL) {
cnmTimerInitTimer(prGlueInfo->prAdapter,
&prGlueInfo->prAdapter->rRxMcsInfoTimer,
(PFN_MGMT_TIMEOUT_FUNC) aisRxMcsCollectionTimeout, (ULONG) NULL);
}
if (i4Argc >= 2) {
if (strnicmp(apcArgv[1], "START", strlen("START")) == 0) {
cnmTimerStartTimer(prGlueInfo->prAdapter, &prGlueInfo->prAdapter->rRxMcsInfoTimer, 100);
prGlueInfo->prAdapter->fgIsMcsInfoValid = TRUE;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten,
"\nStart the MCS Info Function\n");
return i4BytesWritten;
} else if (strnicmp(apcArgv[1], "STOP", strlen("STOP")) == 0) {
cnmTimerStopTimer(prGlueInfo->prAdapter, &prGlueInfo->prAdapter->rRxMcsInfoTimer);
prGlueInfo->prAdapter->fgIsMcsInfoValid = FALSE;
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten,
"\nStop the MCS Info Function\n");
return i4BytesWritten;
}
}
if (prGlueInfo->prAdapter->fgIsMcsInfoValid != TRUE) {
i4BytesWritten += kalScnprintf(pcCommand + i4BytesWritten,
i4TotalLen - i4BytesWritten,
"\nUse GET_MCS_INFO [START/STOP] to control the MCS Info Function\n");
return i4BytesWritten;
}
if (prGlueInfo->prAdapter->prAisBssInfo->eConnectionState != PARAM_MEDIA_STATE_CONNECTED)
return -1;
prHwWlanInfo = (P_PARAM_HW_WLAN_INFO_T)kalMemAlloc(sizeof(PARAM_HW_WLAN_INFO_T), VIR_MEM_TYPE);
if (!prHwWlanInfo)
return -1;
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryWlanInfo,
prHwWlanInfo, sizeof(PARAM_HW_WLAN_INFO_T), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, INFO, "rStatus %u u4BufLen = %d\n", rStatus, u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
goto out;
prTxMcsInfo = (struct PARAM_TX_MCS_INFO *)kalMemAlloc(sizeof(struct PARAM_TX_MCS_INFO), VIR_MEM_TYPE);
if (!prTxMcsInfo)
goto out;
prTxMcsInfo->ucStaIndex = prGlueInfo->prAdapter->prAisBssInfo->prStaRecOfAP->ucIndex;
rStatus = kalIoctl(prGlueInfo,
wlanoidTxMcsInfo,
prTxMcsInfo, sizeof(struct PARAM_TX_MCS_INFO), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, INFO, "rStatus %u u4BufLen = %d\n", rStatus, u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS)
goto out;
i4BytesWritten = priv_driver_last_sec_mcs_info(prGlueInfo->prAdapter,
pcCommand, i4TotalLen, prHwWlanInfo, prTxMcsInfo);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
out:
if (prHwWlanInfo)
kalMemFree(prHwWlanInfo, VIR_MEM_TYPE, sizeof(PARAM_HW_WLAN_INFO_T));
if (prTxMcsInfo)
kalMemFree(prTxMcsInfo, VIR_MEM_TYPE, sizeof(struct PARAM_TX_MCS_INFO));
return i4BytesWritten;
}
#endif
static int priv_driver_get_deep_sleep_cnt(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
CNM_STATUS_T rCnmStatus;
PUINT_32 pu4Ptr;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = 0xb0100000;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
pu4Ptr = (PUINT_32)&rCnmStatus;
*pu4Ptr = rSwCtrlInfo.u4Data;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Deep Sleep Cnt %d\n", rSwCtrlInfo.u4Data);
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
}
static int priv_driver_get_cnm_info(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
CNM_STATUS_T rCnmStatus;
PUINT_32 pu4Ptr;
P_CNM_CH_LIST_T prChList;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = 0xb0000000;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
pu4Ptr = (PUINT_32)&rCnmStatus;
*pu4Ptr = rSwCtrlInfo.u4Data;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"DBDC is %s, %u CHs in BAND0, %u CHs in BAND1\n",
rCnmStatus.fgDbDcModeEn ? "ON" : "OFF", rCnmStatus.ucChNumB0, rCnmStatus.ucChNumB1);
if (rCnmStatus.ucChNumB0 > 0) {
rSwCtrlInfo.u4Id = 0xb0010000;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
prChList = (P_CNM_CH_LIST_T)&rSwCtrlInfo.u4Data;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"BAND0 channels : %u %u %u\n",
prChList->ucChNum[0], prChList->ucChNum[1], prChList->ucChNum[2]);
}
if (rCnmStatus.ucChNumB1 > 0) {
rSwCtrlInfo.u4Id = 0xb0010001;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
prChList = (P_CNM_CH_LIST_T)&rSwCtrlInfo.u4Data;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"BAND1 channels : %u %u %u\n",
prChList->ucChNum[0], prChList->ucChNum[1], prChList->ucChNum[2]);
}
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
} /* priv_driver_get_sw_ctrl */
#if CFG_AUTO_CHANNEL_SEL_SUPPORT
static int priv_driver_get_ch_rank_list(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
UINT_32 i4BytesWritten = 0;
INT_8 ucIdx = 0, ucIdx2 = 0, ucChannelNum = 0,
ucNumOf2gChannel = 0, ucNumOf5gChannel = 0;
P_PARAM_GET_CHN_INFO prChnLoadInfo = NULL;
RF_CHANNEL_INFO_T *prChannelList = NULL,
auc2gChannelList[MAX_2G_BAND_CHN_NUM],
auc5gChannelList[MAX_5G_BAND_CHN_NUM];
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prChnLoadInfo = &(prGlueInfo->prAdapter->rWifiVar.rChnLoadInfo);
kalMemZero(pcCommand, i4TotalLen);
rlmDomainGetChnlList(prGlueInfo->prAdapter, BAND_2G4, TRUE,
MAX_2G_BAND_CHN_NUM, &ucNumOf2gChannel, auc2gChannelList);
rlmDomainGetChnlList(prGlueInfo->prAdapter, BAND_5G, TRUE,
MAX_5G_BAND_CHN_NUM, &ucNumOf5gChannel, auc5gChannelList);
for (ucIdx = 0; ucIdx < MAX_CHN_NUM; ucIdx++) {
if (prChnLoadInfo->rChnRankList[ucIdx].ucChannel > 14) {
prChannelList = auc5gChannelList;
ucChannelNum = ucNumOf5gChannel;
} else {
prChannelList = auc2gChannelList;
ucChannelNum = ucNumOf2gChannel;
}
for (ucIdx2 = 0; ucIdx2 < ucChannelNum; ucIdx2++) {
if (prChnLoadInfo->rChnRankList[ucIdx].ucChannel ==
prChannelList[ucIdx2].ucChannelNum) {
pcCommand[i4BytesWritten++] =
prChnLoadInfo->rChnRankList[ucIdx].ucChannel;
DBGLOG(SCN, TRACE, "ch %u, dirtiness %d\n",
prChnLoadInfo->rChnRankList[ucIdx].ucChannel,
prChnLoadInfo->rChnRankList[ucIdx].u4Dirtiness);
break;
}
}
}
return i4BytesWritten;
}
static int priv_driver_get_ch_dirtiness(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_8 cIdx = 0;
UINT_8 ucNumOf2gChannel = 0;
UINT_8 ucNumOf5gChannel = 0;
UINT_32 i4BytesWritten = 0;
P_PARAM_GET_CHN_INFO prChnLoadInfo = NULL;
RF_CHANNEL_INFO_T ar2gChannelList[MAX_2G_BAND_CHN_NUM];
RF_CHANNEL_INFO_T ar5gChannelList[MAX_5G_BAND_CHN_NUM];
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prChnLoadInfo = &(prGlueInfo->prAdapter->rWifiVar.rChnLoadInfo);
kalMemZero(pcCommand, i4TotalLen);
rlmDomainGetChnlList(prGlueInfo->prAdapter, BAND_2G4, TRUE,
MAX_2G_BAND_CHN_NUM, &ucNumOf2gChannel, ar2gChannelList);
rlmDomainGetChnlList(prGlueInfo->prAdapter, BAND_5G, TRUE,
MAX_5G_BAND_CHN_NUM, &ucNumOf5gChannel, ar5gChannelList);
for (cIdx = 0; cIdx < MAX_CHN_NUM; cIdx++) {
INT_8 cIdx2 = 0;
UINT_8 ucChannelNum = 0;
UINT_32 u4Offset = 0;
RF_CHANNEL_INFO_T *prChannelList = NULL;
if (prChnLoadInfo->rChnRankList[cIdx].ucChannel > 14) {
prChannelList = ar5gChannelList;
ucChannelNum = ucNumOf5gChannel;
} else {
prChannelList = ar2gChannelList;
ucChannelNum = ucNumOf2gChannel;
}
for (cIdx2 = 0; cIdx2 < ucChannelNum; cIdx2++) {
if (prChnLoadInfo->rChnRankList[cIdx].ucChannel ==
prChannelList[cIdx2].ucChannelNum) {
u4Offset = kalSprintf(pcCommand + i4BytesWritten,
"\nch %03u -> dirtiness %lu",
prChnLoadInfo->rChnRankList[cIdx].ucChannel,
prChnLoadInfo->rChnRankList[cIdx].u4Dirtiness);
i4BytesWritten += u4Offset;
break;
}
}
}
return i4BytesWritten;
}
#endif
static int priv_driver_efuse_ops(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
enum EFUSE_OP_MODE {
EFUSE_READ,
EFUSE_WRITE,
EFUSE_FREE,
EFUSE_INVALID,
};
UINT_8 ucOpMode = EFUSE_INVALID;
UCHAR ucOpChar;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_32 u4Ret;
INT_32 i4Parameter;
UINT_32 u4Efuse_addr = 0;
UINT_8 ucEfuse_value = 0;
#if (CFG_EEPROM_PAGE_ACCESS == 1)
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4Offset = 0;
UINT_32 u4BufLen = 0;
UINT_8 u4Index = 0;
P_GLUE_INFO_T prGlueInfo = NULL;
PARAM_CUSTOM_ACCESS_EFUSE_T rAccessEfuseInfo;
#endif
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
/* Sanity check */
if (i4Argc < 2)
goto efuse_op_invalid;
ucOpChar = (UCHAR)apcArgv[1][0];
if ((i4Argc == 3) && (ucOpChar == 'r' || ucOpChar == 'R'))
ucOpMode = EFUSE_READ;
else if ((i4Argc == 4) && (ucOpChar == 'w' || ucOpChar == 'W'))
ucOpMode = EFUSE_WRITE;
else if ((ucOpChar == 'f' || ucOpChar == 'F'))
ucOpMode = EFUSE_FREE;
/* Print out help if input format is wrong */
if (ucOpMode == EFUSE_INVALID)
goto efuse_op_invalid;
/* convert address */
if (ucOpMode == EFUSE_READ || ucOpMode == EFUSE_WRITE) {
u4Ret = kalkStrtos32(apcArgv[2], 16, &i4Parameter);
u4Efuse_addr = (UINT_32)i4Parameter;
}
/* convert value */
if (ucOpMode == EFUSE_WRITE) {
u4Ret = kalkStrtos32(apcArgv[3], 16, &i4Parameter);
ucEfuse_value = (UINT_8)i4Parameter;
}
/* Start operation */
#if (CFG_EEPROM_PAGE_ACCESS == 1)
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
kalMemSet(&rAccessEfuseInfo, 0, sizeof(PARAM_CUSTOM_ACCESS_EFUSE_T));
rAccessEfuseInfo.u4Address = (u4Efuse_addr / EFUSE_BLOCK_SIZE) * EFUSE_BLOCK_SIZE;
u4Index = u4Efuse_addr % EFUSE_BLOCK_SIZE;
if (ucOpMode == EFUSE_READ) {
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryProcessAccessEfuseRead,
&rAccessEfuseInfo,
sizeof(PARAM_CUSTOM_ACCESS_EFUSE_T), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Read success 0x%X = 0x%X\n", u4Efuse_addr
, prGlueInfo->prAdapter->aucEepromVaule[u4Index]);
}
} else if (ucOpMode == EFUSE_WRITE) {
prGlueInfo->prAdapter->aucEepromVaule[u4Index] = ucEfuse_value;
kalMemCopy(rAccessEfuseInfo.aucData, prGlueInfo->prAdapter->aucEepromVaule, 16);
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryProcessAccessEfuseWrite,
&rAccessEfuseInfo,
sizeof(PARAM_CUSTOM_ACCESS_EFUSE_T), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Write success 0x%X = 0x%X\n"
, u4Efuse_addr
, ucEfuse_value);
}
} else if (ucOpMode == EFUSE_FREE) {
PARAM_CUSTOM_EFUSE_FREE_BLOCK_T rEfuseFreeBlock = {};
if (prGlueInfo->prAdapter->fgIsSupportGetFreeEfuseBlockCount == FALSE) {
u4Offset += snprintf(pcCommand + u4Offset,
i4TotalLen - u4Offset, "Cannot read free block size\n");
return (INT_32)u4Offset;
}
rStatus = kalIoctl(prGlueInfo,
wlanoidQueryEfuseFreeBlock,
&rEfuseFreeBlock,
sizeof(PARAM_CUSTOM_EFUSE_FREE_BLOCK_T), TRUE, TRUE, TRUE, &u4BufLen);
if (rStatus == WLAN_STATUS_SUCCESS) {
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Free block size 0x%X\n", prGlueInfo->prAdapter->u4FreeBlockNum);
}
}
#else
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"efuse ops is invalid\n");
#endif
return (INT_32)u4Offset;
efuse_op_invalid:
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"\nHelp menu\n");
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"\tRead:\t\"efuse read addr_hex\"\n");
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"\tWrite:\t\"efuse write addr_hex val_hex\"\n");
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"\tFree Blocks:\t\"efuse free\"\n");
return (INT_32)u4Offset;
}
#if CFG_SUPPORT_ADVANCE_CONTROL
static int priv_driver_set_noise(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0;
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_SET_ID + CMD_ADVCTL_NOISE_ID;
UINT_32 u4Sel = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
rSwCtrlInfo.u4Id = u4Id;
if (i4Argc <= 1) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_NOISE <Sel>\n", i4Argc);
return -1;
}
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Sel);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
rSwCtrlInfo.u4Data = u4Sel << 30;
DBGLOG(REQ, LOUD, "u4Sel=%d u4Data=0x%x,\n", u4Sel, rSwCtrlInfo.u4Data);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "ERR: kalIoctl fail (%d)\n", rStatus);
return -1;
}
return i4BytesWritten;
}
static int priv_driver_get_noise(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_GET_ID + CMD_ADVCTL_NOISE_ID;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
INT_16 u2Wf0AvgPwr, u2Wf1AvgPwr;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = u4Id;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u2Wf0AvgPwr = rSwCtrlInfo.u4Data & 0xFFFF;
u2Wf1AvgPwr = (rSwCtrlInfo.u4Data >> 16) & 0xFFFF;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Noise Idle Avg. Power: WF0:%ddB WF1:%ddB\n", u2Wf0AvgPwr, u2Wf1AvgPwr);
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
} /* priv_driver_get_sw_ctrl */
static int priv_driver_get_traffic_report(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo;
INT_32 i4BytesWritten = 0;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
struct CMD_GET_TRAFFIC_REPORT *cmd = NULL;
UINT_8 ucBand = ENUM_BAND_0;
UINT_16 u2Val = 0;
UINT_8 ucVal = 0;
INT_32 u4Ret = 0;
BOOL fgWaitResp = FALSE;
BOOL fgRead = FALSE;
BOOL fgGetDbg = FALSE;
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
if (!prGlueInfo)
goto get_report_invalid;
cmd = (struct CMD_GET_TRAFFIC_REPORT *)kalMemAlloc(sizeof(*cmd), VIR_MEM_TYPE);
if (!cmd)
goto get_report_invalid;
if ((i4Argc > 4) || (i4Argc < 2))
goto get_report_invalid;
memset(cmd, 0, sizeof(*cmd));
cmd->u2Type = CMD_GET_REPORT_TYPE;
cmd->u2Len = sizeof(*cmd);
cmd->ucBand = ucBand;
if (strnicmp(apcArgv[1], "ENABLE", strlen("ENABLE")) == 0) {
cmd->ucAction = CMD_GET_REPORT_ENABLE;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
} else if (strnicmp(apcArgv[1], "DISABLE", strlen("DISABLE")) == 0) {
cmd->ucAction = CMD_GET_REPORT_DISABLE;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
} else if (strnicmp(apcArgv[1], "RESET", strlen("RESET")) == 0) {
cmd->ucAction = CMD_GET_REPORT_RESET;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
} else if ((strnicmp(apcArgv[1], "GET", strlen("GET")) == 0) ||
(strnicmp(apcArgv[1], "GETDBG", strlen("GETDBG")) == 0)) {
cmd->ucAction = CMD_GET_REPORT_GET;
fgWaitResp = TRUE;
fgRead = TRUE;
if ((i4Argc == 4) && (strnicmp(apcArgv[2], "BAND", strlen("BAND")) == 0)) {
u4Ret = kalkStrtou8(apcArgv[3], 0, &ucVal);
cmd->ucBand = ucVal;
}
if (strnicmp(apcArgv[1], "GETDBG", strlen("GETDBG")) == 0)
fgGetDbg = TRUE;
} else if ((strnicmp(apcArgv[1], "SAMPLEPOINTS", strlen("SAMPLEPOINTS")) == 0) && (i4Argc == 3)) {
u4Ret = kalkStrtou16(apcArgv[2], 0, &u2Val);
cmd->u2SamplePoints = u2Val;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
cmd->ucAction = CMD_SET_REPORT_SAMPLE_POINT;
} else if ((strnicmp(apcArgv[1], "TXTHRES", strlen("TXTHRES")) == 0) && (i4Argc == 3)) {
u4Ret = kalkStrtou8(apcArgv[2], 0, &ucVal);
/* valid val range is from 0 - 100% */
if (ucVal > 100)
ucVal = 100;
cmd->ucTxThres = ucVal;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
cmd->ucAction = CMD_SET_REPORT_TXTHRES;
} else if ((strnicmp(apcArgv[1], "RXTHRES", strlen("RXTHRES")) == 0) && (i4Argc == 3)) {
u4Ret = kalkStrtou8(apcArgv[2], 0, &ucVal);
/* valid val range is from 0 - 100% */
if (ucVal > 100)
ucVal = 100;
cmd->ucRxThres = ucVal;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
cmd->ucAction = CMD_SET_REPORT_RXTHRES;
} else
goto get_report_invalid;
DBGLOG(REQ, LOUD, "%s(%s) action %x band %x wait_resp %x\n"
, __func__, pcCommand, cmd->ucAction, ucBand, fgWaitResp);
rStatus = kalIoctl(prGlueInfo, wlanoidAdvCtrl, cmd, sizeof(*cmd), TRUE, TRUE, TRUE, &u4BufLen);
if ((rStatus != WLAN_STATUS_SUCCESS) && (rStatus != WLAN_STATUS_PENDING))
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\ncommand failed %x", rStatus);
else if (cmd->ucAction == CMD_GET_REPORT_GET) {
int persentage = 0;
int sample_dur = cmd->u4FetchEd - cmd->u4FetchSt;
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nCCK false detect cnt: %d"
, (cmd->u4FalseCCA >> EVENT_REPORT_CCK_FCCA) & EVENT_REPORT_CCK_FCCA_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nOFDM false detect cnt: %d"
, (cmd->u4FalseCCA >> EVENT_REPORT_OFDM_FCCA) & EVENT_REPORT_OFDM_FCCA_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nCCK Sig CRC cnt: %d"
, (cmd->u4HdrCRC >> EVENT_REPORT_CCK_SIGERR) & EVENT_REPORT_CCK_SIGERR_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nOFDM Sig CRC cnt: %d"
, (cmd->u4HdrCRC >> EVENT_REPORT_OFDM_SIGERR) & EVENT_REPORT_OFDM_SIGERR_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nBand%d Info:", cmd->ucBand);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tSample every %u ms with %u points", cmd->u4TimerDur, cmd->u2SamplePoints);
if (fgGetDbg) {
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
" from systime %u - %u total_dur %u us f_cost %u us t_drift %d ms"
, cmd->u4FetchSt, cmd->u4FetchEd
, sample_dur
, cmd->u4FetchCost, cmd->TimerDrift);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tbusy-RMAC %u us, idle-TMAC %u us, t_total %u"
, cmd->u4ChBusy, cmd->u4ChIdle, cmd->u4ChBusy + cmd->u4ChIdle);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\theavy tx threshold %u%% rx threshold %u%%"
, cmd->ucTxThres, cmd->ucRxThres);
}
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tch_busy %u us, ch_idle %u us, total_period %u us"
, sample_dur - cmd->u4ChIdle
, cmd->u4ChIdle, sample_dur);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tmy_tx_time: %u us"
, cmd->u4TxAirTime);
if (cmd->u4FetchEd - cmd->u4FetchSt) {
persentage = cmd->u4TxAirTime / (sample_dur / 1000);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
", tx utility: %d.%1d%%"
, persentage / 10
, persentage % 10);
}
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tmy_data_rx_time (no BMC data): %u us"
, cmd->u4RxAirTime);
if (cmd->u4FetchEd - cmd->u4FetchSt) {
persentage = cmd->u4RxAirTime / (sample_dur / 1000);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
", rx utility: %d.%1d%%"
, persentage / 10
, persentage % 10);
}
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tTotal packet transmitted: %u", cmd->u4PktSent);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tTotal tx ok packet: %u", cmd->u4PktSent - cmd->u4PktTxfailed);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tTotal tx failed packet: %u", cmd->u4PktTxfailed);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tTotal tx retried packet: %u", cmd->u4PktRetried);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tTotal rx mpdu: %u", cmd->u4RxMPDU);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\tTotal rx fcs: %u", cmd->u4RxFcs);
} else
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\ncommand sent %x", rStatus);
if (cmd)
kalMemFree(cmd, VIR_MEM_TYPE, sizeof(*cmd));
return i4BytesWritten;
get_report_invalid:
if (cmd)
kalMemFree(cmd, VIR_MEM_TYPE, sizeof(*cmd));
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nformat:get_report [enable|disable|get|reset]");
return i4BytesWritten;
}
static int priv_driver_pta_config(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo;
INT_32 i4BytesWritten = 0;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
UINT_32 u4Val = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
P_CMD_PTA_CONFIG_T cmd = NULL;
INT_32 u4Ret = 0;
INT_32 i = 0;
DBGLOG(REQ, LOUD, "%s(%s)>\n", __func__, pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
if (i4Argc < 2)
goto set_pta_invalid;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
if (!prGlueInfo)
goto set_pta_invalid;
cmd = (P_CMD_PTA_CONFIG_T)kalMemAlloc(sizeof(*cmd), VIR_MEM_TYPE);
if (!cmd)
goto set_pta_invalid;
memset(cmd, 0, sizeof(*cmd));
cmd->u2Type = CMD_PTA_CONFIG_TYPE;
cmd->u2Len = sizeof(*cmd);
/* set command + parameter must be even number */
if ((strnicmp(apcArgv[1], "SET", strlen("SET")) == 0) && (i4Argc >= 4) && !(i4Argc & 1)) {
cmd->u2Type |= CMD_ADV_CONTROL_SET;
for (i = 2; i < i4Argc; i += 2) {
u4Ret = kalkStrtou32(apcArgv[i+1], 0, &u4Val);
if (u4Ret) {
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nparsing err(%d) %s %s", u4Ret, apcArgv[i], apcArgv[i+1]);
goto set_pta_invalid;
}
DBGLOG(REQ, LOUD, "arg[%d] %s %s (0x%x)\n", i, apcArgv[i], apcArgv[i+1], u4Val);
if (strnicmp(apcArgv[i], "ENABLE", strlen("ENABLE")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_PTA;
if (u4Val)
cmd->u4PtaConfig |= CMD_PTA_CONFIG_PTA_EN;
} else if (strnicmp(apcArgv[i], "TXDATA", strlen("TXDATA")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_TXDATA_TAG;
cmd->u4TxDataTag = u4Val;
} else if (strnicmp(apcArgv[i], "RXDATAACK", strlen("RXDATAACK")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_RXDATAACK_TAG;
cmd->u4RxDataAckTag = u4Val;
} else if (strnicmp(apcArgv[i], "RXDATA", strlen("RXDATA")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_RX_NSW_TAG;
cmd->u4RxNswTag = u4Val;
} else if (strnicmp(apcArgv[i], "TXACK", strlen("TXACK")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_TXACK_TAG;
cmd->u4TxAckTag = u4Val;
} else if (strnicmp(apcArgv[i], "PROTTAG", strlen("PROTTAG")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_TXPROTFRAME_TAG;
cmd->u4ConfigMask |= CMD_PTA_CONFIG_RXPROTFRAMEACK_TAG;
cmd->u4TxProtFrameTag = u4Val;
cmd->u4RxProtFrameAckTag = u4Val;
} else if (strnicmp(apcArgv[i], "TXBMC", strlen("TXBMC")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_TX_BMC_TAG;
cmd->u4TxBMCTag = u4Val;
} else if (strnicmp(apcArgv[i], "TXBCN", strlen("TXBCN")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_TX_BCN_TAG;
cmd->u4TxBCNTag = u4Val;
} else if (strnicmp(apcArgv[i], "RXBCN", strlen("RXBCN")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_RX_SP_TAG;
cmd->u4RxSPTag = u4Val;
} else if (strnicmp(apcArgv[i], "TXMGMT", strlen("TXMGMT")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_TX_MGMT_TAG;
cmd->u4TxMgmtTag = u4Val;
} else if (strnicmp(apcArgv[i], "RXMGMTACK", strlen("RXMGMTACK")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_RXMGMTACK_TAG;
cmd->u4RxMgmtAckTag = u4Val;
} else if (strnicmp(apcArgv[i], "STATENABLE", strlen("STATENABLE")) == 0) {
cmd->u4ConfigMask |= CMD_PTA_CONFIG_PTA_STAT;
if (!u4Val)
cmd->u4PtaConfig &= ~CMD_PTA_CONFIG_PTA_STAT_EN;
else
cmd->u4PtaConfig |= CMD_PTA_CONFIG_PTA_STAT_EN;
} else if (strnicmp(apcArgv[i], "STATRESET", strlen("STATRESET")) == 0)
cmd->u4ConfigMask |= CMD_PTA_CONFIG_PTA_STAT_RESET;
else {
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nunknown parameter %s %s", apcArgv[i], apcArgv[i+1]);
goto set_pta_invalid;
}
}
rStatus = wlanSendSetQueryCmd(prGlueInfo->prAdapter,
CMD_ID_ADV_CONTROL,
TRUE,
FALSE,
FALSE,
NULL, NULL, sizeof(*cmd), (PUINT_8) cmd, NULL, 0);
} else if (strnicmp(apcArgv[1], "GET", strlen("GET")) == 0) {
rStatus = kalIoctl(prGlueInfo, wlanoidAdvCtrl, cmd, sizeof(*cmd), TRUE, TRUE, TRUE, &u4BufLen);
} else
goto set_pta_invalid;
if ((rStatus != WLAN_STATUS_SUCCESS) && (rStatus != WLAN_STATUS_PENDING))
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\ncommand failed %x", rStatus);
else if (!(cmd->u2Type & CMD_ADV_CONTROL_SET)) {
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nCoex mode: %s", (cmd->u4CoexMode) ? "FDD" : "TDD");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nPTA status:");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n module enable %x wifi %x bt %x wifi arb %x"
, (cmd->u4PtaConfig>>EVENT_CONFIG_PTA_OFFSET)&EVENT_CONFIG_PTA_FEILD
, (cmd->u4PtaConfig>>EVENT_CONFIG_PTA_WIFI_OFFSET)&EVENT_CONFIG_PTA_WIFI_FEILD
, (cmd->u4PtaConfig>>EVENT_CONFIG_PTA_BT_OFFSET)&EVENT_CONFIG_PTA_BT_FEILD
, (cmd->u4PtaConfig>>EVENT_CONFIG_PTA_ARB_OFFSET)&EVENT_CONFIG_PTA_ARB_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nPriority stat:");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n txData %d", cmd->u4TxDataTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n rxDataAck %d", cmd->u4RxDataAckTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n rxData %d", cmd->u4RxNswTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n txAck %d", cmd->u4TxAckTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n txBmc %d", cmd->u4TxBMCTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n txBcn %d", cmd->u4TxBCNTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n txMgmt %d", cmd->u4TxMgmtTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n rxMgmtAck %d", cmd->u4RxMgmtAckTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n rxBcn %d", cmd->u4RxSPTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n prottag %d", cmd->u4TxProtFrameTag);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nLast fetched grant stat:");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n wifi grant %x txreq %x rxreq %x pritag %x"
, (cmd->u4GrantStat>>EVENT_CONFIG_WIFI_GRANT_OFFSET)&EVENT_CONFIG_WIFI_GRANT_FEILD
, (cmd->u4GrantStat>>EVENT_CONFIG_WIFI_TXREQ_OFFSET)&EVENT_CONFIG_WIFI_TXREQ_FEILD
, (cmd->u4GrantStat>>EVENT_CONFIG_WIFI_RXREQ_OFFSET)&EVENT_CONFIG_WIFI_RXREQ_FEILD
, (cmd->u4GrantStat>>EVENT_CONFIG_WIFI_PRI_OFFSET)&EVENT_CONFIG_WIFI_PRI_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n bt grant %x txreq %x rxreq %x pritag %x"
, (cmd->u4GrantStat>>EVENT_CONFIG_BT_GRANT_OFFSET)&EVENT_CONFIG_BT_GRANT_FEILD
, (cmd->u4GrantStat>>EVENT_CONFIG_BT_TXREQ_OFFSET)&EVENT_CONFIG_BT_TXREQ_FEILD
, (cmd->u4GrantStat>>EVENT_CONFIG_BT_RXREQ_OFFSET)&EVENT_CONFIG_BT_RXREQ_FEILD
, (cmd->u4GrantStat>>EVENT_CONFIG_BT_PRI_OFFSET)&EVENT_CONFIG_BT_PRI_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nPTA stat:");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n wf0 txreq_cnt %d txgrant_cnt %d txabort_cnt %d"
, (cmd->u4PtaWF0TxCnt>>EVENT_PTA_WFTRX_CNT_OFFSET)&EVENT_PTA_WFTRX_CNT_FEILD
, (cmd->u4PtaWF0TxCnt>>EVENT_PTA_WFTRX_GRANT_CNT_OFFSET)&EVENT_PTA_WFTRX_GRANT_CNT_FEILD
, (cmd->u4PtaWF0AbtCnt>>EVENT_PTA_TX_ABT_CNT_OFFSET)&EVENT_PTA_TX_ABT_CNT_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n wf0 rxreq_cnt %d rxgrant_cnt %d rxabort_cnt %d"
, (cmd->u4PtaWF0RxCnt>>EVENT_PTA_WFTRX_CNT_OFFSET)&EVENT_PTA_WFTRX_CNT_FEILD
, (cmd->u4PtaWF0RxCnt>>EVENT_PTA_WFTRX_GRANT_CNT_OFFSET)&EVENT_PTA_WFTRX_GRANT_CNT_FEILD
, (cmd->u4PtaWF0AbtCnt>>EVENT_PTA_RX_ABT_CNT_OFFSET)&EVENT_PTA_RX_ABT_CNT_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n wf1 txreq_cnt %d txgrant_cnt %d txabort_cnt %d"
, (cmd->u4PtaWF1TxCnt>>EVENT_PTA_WFTRX_CNT_OFFSET)&EVENT_PTA_WFTRX_CNT_FEILD
, (cmd->u4PtaWF1TxCnt>>EVENT_PTA_WFTRX_GRANT_CNT_OFFSET)&EVENT_PTA_WFTRX_GRANT_CNT_FEILD
, (cmd->u4PtaWF1AbtCnt>>EVENT_PTA_TX_ABT_CNT_OFFSET)&EVENT_PTA_TX_ABT_CNT_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n wf1 rxreq_cnt %d rxgrant_cnt %d rxabort_cnt %d"
, (cmd->u4PtaWF1RxCnt>>EVENT_PTA_WFTRX_CNT_OFFSET)&EVENT_PTA_WFTRX_CNT_FEILD
, (cmd->u4PtaWF1RxCnt>>EVENT_PTA_WFTRX_GRANT_CNT_OFFSET)&EVENT_PTA_WFTRX_GRANT_CNT_FEILD
, (cmd->u4PtaWF1AbtCnt>>EVENT_PTA_RX_ABT_CNT_OFFSET)&EVENT_PTA_RX_ABT_CNT_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n bt txreq_cnt %d txgrant_cnt %d txabort_cnt %d"
, (cmd->u4PtaBTTxCnt>>EVENT_PTA_BTTRX_CNT_OFFSET)&EVENT_PTA_BTTRX_CNT_FEILD
, (cmd->u4PtaBTTxCnt>>EVENT_PTA_BTTRX_GRANT_CNT_OFFSET)&EVENT_PTA_BTTRX_GRANT_CNT_FEILD
, (cmd->u4PtaBTAbtCnt>>EVENT_PTA_TX_ABT_CNT_OFFSET)&EVENT_PTA_TX_ABT_CNT_FEILD);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n bt rxreq_cnt %d rxgrant_cnt %d rxabort_cnt %d"
, (cmd->u4PtaBTRxCnt>>EVENT_PTA_BTTRX_CNT_OFFSET)&EVENT_PTA_BTTRX_CNT_FEILD
, (cmd->u4PtaBTRxCnt>>EVENT_PTA_BTTRX_GRANT_CNT_OFFSET)&EVENT_PTA_BTTRX_GRANT_CNT_FEILD
, (cmd->u4PtaBTAbtCnt>>EVENT_PTA_RX_ABT_CNT_OFFSET)&EVENT_PTA_RX_ABT_CNT_FEILD);
} else
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\ncommand sent %x", rStatus);
if (cmd)
kalMemFree(cmd, VIR_MEM_TYPE, sizeof(*cmd));
return i4BytesWritten;
set_pta_invalid:
if (cmd)
kalMemFree(cmd, VIR_MEM_TYPE, sizeof(*cmd));
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nformat:pta_config set [enable 1|0][txdata val][rxdataack val]");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\t[rxdata val][txack val][txbmc val][txbcn val][rxbcn val]");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\t[txmgmt val][rxmgmtack val][prottag val]");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n\t[statenable 1|0][statreset 1]");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [enable val]: enable PTA(1) or not(0)");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [txtag val<0~15>]: priority tag for tx ac0-ac3");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [rxdataack val<0~15>]: priority tag for rx ac0-ac3 ack");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [rxdata val<0~15>]: priority tag for rx data");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [txack val<0~15>]: priority tag for tx ack");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [txbmc val<0~15>]: priority tag for tx bmc packet");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [txbcn val<0~15>]: priority tag for tx beacon");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [rxbcn val<0~15>]: priority tag for rx beacon");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n [prottag val<0~15>]: priority tag for Protection frame");
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nformat(%d):pta_config get", i4Argc);
return i4BytesWritten;
}
static int priv_driver_set_pop(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0;
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_SET_ID + CMD_ADVCTL_POP_ID;
UINT_32 u4Sel = 0, u4CckTh = 0, u4OfdmTh = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
rSwCtrlInfo.u4Id = u4Id;
if (i4Argc <= 3) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_POP <Sel> <CCK TH> <OFDM TH>\n", i4Argc);
return -1;
}
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Sel);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[2], 0, &u4CckTh);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtou32(apcArgv[3], 0, &u4OfdmTh);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
rSwCtrlInfo.u4Data = (u4CckTh | (u4OfdmTh<<8) | (u4Sel<<30));
DBGLOG(REQ, LOUD, "u4Sel=%d u4CckTh=%d u4OfdmTh=%d, u4Data=0x%x,\n",
u4Sel, u4CckTh, u4OfdmTh, rSwCtrlInfo.u4Data);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "ERR: kalIoctl fail (%d)\n", rStatus);
return -1;
}
return i4BytesWritten;
}
static int priv_driver_get_pop(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_GET_ID + CMD_ADVCTL_POP_ID;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
UINT_32 u4CckTh = 0, u4OfdmTh = 0;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = u4Id;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u4CckTh = rSwCtrlInfo.u4Data & 0xFF;
u4OfdmTh = (rSwCtrlInfo.u4Data >> 8) & 0xFF;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"PoP: CckTh:%ddB OfdmTh:%ddB\n", u4CckTh, u4OfdmTh);
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
}
static int priv_driver_set_ed(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0, u4EdVal = 0;
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_SET_ID + CMD_ADVCTL_ED_ID;
UINT_32 u4Sel = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
rSwCtrlInfo.u4Id = u4Id;
if (i4Argc <= 2) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_ED <Sel> <EDCCA(-49~-81dBm)>\n", i4Argc);
return -1;
}
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Sel);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtos32(apcArgv[2], 0, &u4EdVal);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
rSwCtrlInfo.u4Data = ((u4EdVal & 0xFF) | (u4Sel << 31));
DBGLOG(REQ, LOUD, "u4Sel=%d u4EdCcaVal=%d, u4Data=0x%x,\n",
u4Sel, u4EdVal, rSwCtrlInfo.u4Data);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "ERR: kalIoctl fail (%d)\n", rStatus);
return -1;
}
return i4BytesWritten;
}
static int priv_driver_get_ed(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_GET_ID + CMD_ADVCTL_ED_ID;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
INT_8 u4EdVal = 0;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = u4Id;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u4EdVal = rSwCtrlInfo.u4Data & 0xFF;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"ED: %ddB\n", u4EdVal);
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
}
static int priv_driver_set_pd(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0;
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_SET_ID + CMD_ADVCTL_PD_ID;
UINT_32 u4Sel = 0;
INT_32 u4CckTh = 0, u4OfdmTh = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
rSwCtrlInfo.u4Id = u4Id;
if (i4Argc <= 1) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_PD <Sel> [CCK TH] [OFDM TH]\n", i4Argc);
return -1;
}
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Sel);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
if (u4Sel == 1) {
if (i4Argc <= 3) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_PD 1 <CCK TH> <OFDM CH>\n", i4Argc);
return -1;
}
u4Ret = kalkStrtos32(apcArgv[2], 0, &u4CckTh);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtos32(apcArgv[3], 0, &u4OfdmTh);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
}
rSwCtrlInfo.u4Data = ((u4OfdmTh & 0xFFFF) | ((u4CckTh & 0xFF) << 16) | (u4Sel << 30));
DBGLOG(REQ, LOUD, "u4Sel=%d u4OfdmTh=%d, u4CckTh=%d, u4Data=0x%x,\n",
u4Sel, u4OfdmTh, u4CckTh, rSwCtrlInfo.u4Data);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "ERR: kalIoctl fail (%d)\n", rStatus);
return -1;
}
return i4BytesWritten;
}
static int priv_driver_get_pd(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_GET_ID + CMD_ADVCTL_PD_ID;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
INT_8 u4CckTh = 0, u4OfdmTh = 0;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = u4Id;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u4CckTh = rSwCtrlInfo.u4Data & 0xFF;
u4OfdmTh = (rSwCtrlInfo.u4Data >> 8) & 0xFF;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"PD: CckTh:%ddB OfdmTh:%ddB\n", u4CckTh, u4OfdmTh);
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
}
static int priv_cmd_not_support(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
DBGLOG(REQ, WARN, "not support priv command: %s\n", pcCommand);
return -EOPNOTSUPP;
}
static int priv_driver_set_maxrfgain(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
INT_32 u4Ret = 0;
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_SET_ID + CMD_ADVCTL_MAX_RFGAIN_ID;
UINT_32 u4Sel = 0;
INT_32 u4Wf0Gain = 0, u4Wf1Gain = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
rSwCtrlInfo.u4Id = u4Id;
if (i4Argc <= 1) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_RFGAIN <Sel> <WF0 Gain> <WF1 Gain>\n", i4Argc);
return -1;
}
u4Ret = kalkStrtou32(apcArgv[1], 0, &u4Sel);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
if (u4Sel == 1) {
if (i4Argc <= 3) {
DBGLOG(REQ, ERROR, "Argc(%d) ERR: SET_RFGAIN 1 <WF0 Gain> <WF1 Gain>\n", i4Argc);
return -1;
}
u4Ret = kalkStrtos32(apcArgv[2], 0, &u4Wf0Gain);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
u4Ret = kalkStrtos32(apcArgv[3], 0, &u4Wf1Gain);
if (u4Ret)
DBGLOG(REQ, ERROR, "parse rSwCtrlInfo error u4Ret=%d\n", u4Ret);
}
rSwCtrlInfo.u4Data = ((u4Wf0Gain & 0xFF) | ((u4Wf1Gain & 0xFF) << 8) | (u4Sel << 31));
DBGLOG(REQ, LOUD, "u4Sel=%d u4Wf0Gain=%d, u4Wf1Gain=%d, u4Data=0x%x,\n",
u4Sel, u4Wf0Gain, u4Wf1Gain, rSwCtrlInfo.u4Data);
rStatus = kalIoctl(prGlueInfo,
wlanoidSetSwCtrlWrite,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), FALSE, FALSE, TRUE, &u4BufLen);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "ERR: kalIoctl fail (%d)\n", rStatus);
return -1;
}
return i4BytesWritten;
}
static int priv_driver_get_maxrfgain(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX] = { 0 };
UINT_32 u4Id = CMD_SW_DBGCTL_ADVCTL_GET_ID + CMD_ADVCTL_MAX_RFGAIN_ID;
UINT_32 u4Offset = 0;
PARAM_CUSTOM_SW_CTRL_STRUCT_T rSwCtrlInfo;
UINT_8 u4Wf0Gain = 0, u4Wf1Gain = 0;
ASSERT(prNetDev);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
ASSERT(prNetDev);
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
rSwCtrlInfo.u4Data = 0;
rSwCtrlInfo.u4Id = u4Id;
rStatus = kalIoctl(prGlueInfo,
wlanoidQuerySwCtrlRead,
&rSwCtrlInfo, sizeof(rSwCtrlInfo), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS)
return -1;
u4Wf0Gain = rSwCtrlInfo.u4Data & 0xFF;
u4Wf1Gain = (rSwCtrlInfo.u4Data >> 8) & 0xFF;
u4Offset += snprintf(pcCommand + u4Offset, i4TotalLen - u4Offset,
"Max RFGain: WF0:%ddB WF1:%ddB\n", u4Wf0Gain, u4Wf1Gain);
i4BytesWritten = (INT_32)u4Offset;
return i4BytesWritten;
}
static int priv_driver_noise_histogram(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
P_GLUE_INFO_T prGlueInfo;
INT_32 i4BytesWritten = 0;
UINT_32 u4BufLen = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
struct CMD_NOISE_HISTOGRAM_REPORT *cmd = NULL;
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
if (!prGlueInfo)
goto noise_histogram_invalid;
cmd = (struct CMD_NOISE_HISTOGRAM_REPORT *)kalMemAlloc(sizeof(*cmd), VIR_MEM_TYPE);
if (!cmd)
goto noise_histogram_invalid;
if ((i4Argc > 4) || (i4Argc < 2))
goto noise_histogram_invalid;
memset(cmd, 0, sizeof(*cmd));
cmd->u2Type = CMD_NOISE_HISTOGRAM_TYPE;
cmd->u2Len = sizeof(*cmd);
if (strnicmp(apcArgv[1], "ENABLE", strlen("ENABLE")) == 0) {
cmd->ucAction = CMD_NOISE_HISTOGRAM_ENABLE;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
} else if (strnicmp(apcArgv[1], "DISABLE", strlen("DISABLE")) == 0) {
cmd->ucAction = CMD_NOISE_HISTOGRAM_DISABLE;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
} else if (strnicmp(apcArgv[1], "RESET", strlen("RESET")) == 0) {
cmd->ucAction = CMD_NOISE_HISTOGRAM_RESET;
cmd->u2Type |= CMD_ADV_CONTROL_SET;
} else if (strnicmp(apcArgv[1], "GET", strlen("GET")) == 0) {
cmd->ucAction = CMD_NOISE_HISTOGRAM_GET;
} else
goto noise_histogram_invalid;
DBGLOG(REQ, LOUD, "%s(%s) action %x\n"
, __func__, pcCommand, cmd->ucAction);
rStatus = kalIoctl(prGlueInfo, wlanoidAdvCtrl, cmd, sizeof(*cmd), TRUE, TRUE, TRUE, &u4BufLen);
if ((rStatus != WLAN_STATUS_SUCCESS) && (rStatus != WLAN_STATUS_PENDING))
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\ncommand failed %x", rStatus);
else if (cmd->ucAction == CMD_NOISE_HISTOGRAM_GET) {
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n Power > -55: %10d"
, cmd->u4IPI10);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-55 >= Power > -60: %10d"
, cmd->u4IPI9);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-60 >= Power > -65: %10d"
, cmd->u4IPI8);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-65 >= Power > -70: %10d"
, cmd->u4IPI7);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-70 >= Power > -75: %10d"
, cmd->u4IPI6);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-75 >= Power > -80: %10d"
, cmd->u4IPI5);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-80 >= Power > -83: %10d"
, cmd->u4IPI4);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-83 >= Power > -86: %10d"
, cmd->u4IPI3);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-86 >= Power > -89: %10d"
, cmd->u4IPI2);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-89 >= Power > -92: %10d"
, cmd->u4IPI1);
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\n-92 >= Power : %10d"
, cmd->u4IPI0);
} else
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\ncommand sent %x", rStatus);
if (cmd)
kalMemFree(cmd, VIR_MEM_TYPE, sizeof(*cmd));
return i4BytesWritten;
noise_histogram_invalid:
if (cmd)
kalMemFree(cmd, VIR_MEM_TYPE, sizeof(*cmd));
i4BytesWritten += snprintf(pcCommand + i4BytesWritten, i4TotalLen - i4BytesWritten,
"\nformat:get_report [enable|disable|get|reset]");
return i4BytesWritten;
}
#endif
static int priv_driver_set_csi(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
WLAN_STATUS rStatus = WLAN_STATUS_SUCCESS;
UINT_32 u4BufLen = 0;
INT_32 i4BytesWritten = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
struct CMD_CSI_CONTROL_T *prCSICtrl = NULL;
UINT_32 u4Ret = 0;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
DBGLOG(RSN, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
DBGLOG(RSN, INFO, "priv_driver_csi_control\n");
prCSICtrl = (struct CMD_CSI_CONTROL_T *)kalMemAlloc(sizeof(struct CMD_CSI_CONTROL_T), VIR_MEM_TYPE);
if (!prCSICtrl) {
DBGLOG(REQ, ERROR, "allocate memory for prCSICtrl failed\n");
i4BytesWritten = -1;
goto out;
}
if (i4Argc != 2 && i4Argc != 5) {
DBGLOG(REQ, ERROR, "argc %i is invalid\n", i4Argc);
i4BytesWritten = -1;
goto out;
}
u4Ret = kalkStrtou8(apcArgv[1], 0, &(prCSICtrl->ucMode));
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucMode error u4Ret=%d\n", u4Ret);
goto out;
}
if (prCSICtrl->ucMode > 1) {
DBGLOG(REQ, LOUD, "Invalid ucMode %d, should be 0 or 1\n",
prCSICtrl->ucMode);
}
if (prCSICtrl->ucMode == CSI_CONTROL_MODE_STOP)
goto send_cmd;
prCSICtrl->ucBand = ENUM_BAND_0;
prCSICtrl->ucRole = RTT_ROLE_SENDING;
u4Ret = kalkStrtou8(apcArgv[2], 0, &(prCSICtrl->ucWf));
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucWf error u4Ret=%d\n", u4Ret);
goto out;
}
if (prCSICtrl->ucWf > 1) {
DBGLOG(REQ, LOUD, "Invalid ucWf %u, should be 0 or 1\n",
prCSICtrl->ucWf);
goto out;
}
u4Ret = kalkStrtou8(apcArgv[3], 0, &(prCSICtrl->ucFrameTypeIndex));
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucFrameTypeIndex error u4Ret=%d\n", u4Ret);
goto out;
}
if (prCSICtrl->ucFrameTypeIndex > 3) {
DBGLOG(REQ, LOUD, "Invalid ucFrameTypeIndex %u, should be 0 ~ 3\n",
prCSICtrl->ucFrameTypeIndex);
goto out;
}
u4Ret = kalkStrtou8(apcArgv[4], 0, &(prCSICtrl->ucFrameType));
if (u4Ret) {
DBGLOG(REQ, LOUD, "parse ucFrameType error u4Ret=%d\n", u4Ret);
goto out;
}
if (prCSICtrl->ucFrameType != 0) {
DBGLOG(REQ, LOUD, "Invalid ucFrameType %u, only support 0(beacon)\n",
prCSICtrl->ucFrameType);
goto out;
}
send_cmd:
rStatus = kalIoctl(prGlueInfo, wlanoidSetCSIControl, prCSICtrl,
sizeof(struct CMD_CSI_CONTROL_T), TRUE, TRUE, TRUE, &u4BufLen);
DBGLOG(REQ, INFO, "%s: command result is %s\n", __func__, pcCommand);
DBGLOG(REQ, INFO,
"mode %d, band %d, role %d, frame type idx %d, frame type idx %d",
prCSICtrl->ucMode, prCSICtrl->ucBand, prCSICtrl->ucRole,
prCSICtrl->ucFrameType, prCSICtrl->ucFrameTypeIndex);
DBGLOG(REQ, LOUD, "rStatus %u\n", rStatus);
if (rStatus != WLAN_STATUS_SUCCESS) {
DBGLOG(REQ, ERROR, "send CSI control cmd failed\n");
i4BytesWritten = -1;
}
out:
if (prCSICtrl)
kalMemFree(prCSICtrl, VIR_MEM_TYPE, sizeof(struct CMD_CSI_CONTROL_T));
return i4BytesWritten;
}
static int priv_driver_get_csi(IN struct net_device *prNetDev, IN char *pcCommand, IN int i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4BytesWritten = 0;
P_ADAPTER_T prAdapter = NULL;
UINT_8 ucBw = 20;
UINT_16 i = 0;
INT_32 i4Argc = 0;
PCHAR apcArgv[WLAN_CFG_ARGV_MAX];
UINT_8 ucDataType = 0;
PINT_16 pri2Data = NULL;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
prAdapter = prGlueInfo->prAdapter;
if (prAdapter == NULL) {
DBGLOG(REQ, LOUD, "Adapter is NULL!\n");
return -1;
}
DBGLOG(REQ, LOUD, "command is %s\n", pcCommand);
wlanCfgParseArgument(pcCommand, &i4Argc, apcArgv);
DBGLOG(REQ, LOUD, "argc is %i\n", i4Argc);
if (i4Argc != 2 || kalkStrtou8(apcArgv[1], 0, &ucDataType) ||
ucDataType > 1) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten,
"0 or 1 should be given as the parameter to output I or Q data!\n");
goto out;
}
if (prAdapter->rCsiData.u2DataCount == 0) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "No CSI Data\n");
goto out;
}
if (prAdapter->rCsiData.ucBw == 0)
ucBw = 20;
else if (prAdapter->rCsiData.ucBw == 1)
ucBw = 40;
else if (prAdapter->rCsiData.ucBw == 2)
ucBw = 80;
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\nCSI Data:\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "BW: %d\n", ucBw);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "isCck: %d\n",
prAdapter->rCsiData.bIsCck);
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "data count: %d\n",
prAdapter->rCsiData.u2DataCount);
if (ucDataType == 0) {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "I data:\n");
pri2Data = prAdapter->rCsiData.ac2IData;
prAdapter->rCsiData.ucDataOutputted |= BIT(0);
} else {
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "Q data:\n");
pri2Data = prAdapter->rCsiData.ac2QData;
prAdapter->rCsiData.ucDataOutputted |= BIT(1);
}
for (i = 0; i < prAdapter->rCsiData.u2DataCount; i++) {
if ((i % 16) == 0)
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "\n");
LOGBUF(pcCommand, i4TotalLen, i4BytesWritten, "%d ", pri2Data[i]);
}
if (prAdapter->rCsiData.ucDataOutputted == 0x3) {
prAdapter->rCsiData.u2DataCount = 0;
/* clean this indate I/Q data indicates that I & Q data are all outputted,
* we can start to receive the new IQ data
*/
prAdapter->rCsiData.ucDataOutputted = 0;
}
out:
return i4BytesWritten;
}
INT_32 priv_driver_cmds(IN struct net_device *prNetDev, IN PCHAR pcCommand, IN INT_32 i4TotalLen)
{
P_GLUE_INFO_T prGlueInfo = NULL;
INT_32 i4BytesWritten = 0;
if (g_u4HaltFlag) {
DBGLOG(REQ, WARN, "wlan is halt, skip priv_driver_cmds\n");
return -1;
}
if (GLUE_CHK_PR2(prNetDev, pcCommand) == FALSE)
return -1;
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
if (strnicmp(pcCommand, CMD_RSSI, strlen(CMD_RSSI)) == 0) {
/* i4BytesWritten =
* wl_android_get_rssi(net, command, i4TotalLen);
*/
} else if (strnicmp(pcCommand, CMD_AP_START, strlen(CMD_AP_START)) == 0) {
i4BytesWritten = priv_driver_set_ap_start(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_LINKSPEED, strlen(CMD_LINKSPEED)) == 0) {
i4BytesWritten = priv_driver_get_linkspeed(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_PNOSSIDCLR_SET, strlen(CMD_PNOSSIDCLR_SET)) == 0) {
/* ToDo:: Nothing */
} else if (strnicmp(pcCommand, CMD_PNOSETUP_SET, strlen(CMD_PNOSETUP_SET)) == 0) {
/* ToDo:: Nothing */
} else if (strnicmp(pcCommand, CMD_PNOENABLE_SET, strlen(CMD_PNOENABLE_SET)) == 0) {
/* ToDo:: Nothing */
} else if (strnicmp(pcCommand, CMD_SETSUSPENDOPT, strlen(CMD_SETSUSPENDOPT)) == 0) {
/* i4BytesWritten = wl_android_set_suspendopt(net, pcCommand, i4TotalLen); */
} else if (strnicmp(pcCommand, CMD_SETSUSPENDMODE, strlen(CMD_SETSUSPENDMODE)) == 0) {
i4BytesWritten = priv_driver_set_suspend_mode(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SETBAND, strlen(CMD_SETBAND)) == 0) {
i4BytesWritten = priv_driver_set_band(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GETBAND, strlen(CMD_GETBAND)) == 0) {
/* i4BytesWritten = wl_android_get_band(net, pcCommand, i4TotalLen); */
} else if (strnicmp(pcCommand, CMD_SET_TXPOWER, strlen(CMD_SET_TXPOWER)) == 0) {
i4BytesWritten = priv_driver_set_txpower(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_COUNTRY, strlen(CMD_COUNTRY)) == 0) {
i4BytesWritten = priv_driver_set_country(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_COUNTRY, strlen(CMD_GET_COUNTRY)) == 0) {
i4BytesWritten = priv_driver_get_country(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_CHANNELS, strlen(CMD_GET_CHANNELS)) == 0) {
i4BytesWritten = priv_driver_get_channels(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_MIRACAST, strlen(CMD_MIRACAST)) == 0) {
i4BytesWritten = priv_driver_set_miracast(prNetDev, pcCommand, i4TotalLen);
}
/* Mediatek private command */
else if (strnicmp(pcCommand, CMD_SET_SW_CTRL, strlen(CMD_SET_SW_CTRL)) == 0) {
i4BytesWritten = priv_driver_set_sw_ctrl(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_FIXED_RATE, strlen(CMD_SET_FIXED_RATE)) == 0) {
i4BytesWritten = priv_driver_set_fixed_rate(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_SW_CTRL, strlen(CMD_GET_SW_CTRL)) == 0) {
i4BytesWritten = priv_driver_get_sw_ctrl(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_MCR, strlen(CMD_SET_MCR)) == 0) {
i4BytesWritten = priv_driver_set_mcr(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_MCR, strlen(CMD_GET_MCR)) == 0) {
i4BytesWritten = priv_driver_get_mcr(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_DRV_MCR, strlen(CMD_SET_DRV_MCR)) == 0) {
i4BytesWritten = priv_driver_set_drv_mcr(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_DRV_MCR, strlen(CMD_GET_DRV_MCR)) == 0) {
i4BytesWritten = priv_driver_get_drv_mcr(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_TEST_MODE, strlen(CMD_SET_TEST_MODE)) == 0) {
i4BytesWritten = priv_driver_set_test_mode(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_TEST_CMD, strlen(CMD_SET_TEST_CMD)) == 0) {
i4BytesWritten = priv_driver_set_test_cmd(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_TEST_RESULT, strlen(CMD_GET_TEST_RESULT)) == 0) {
i4BytesWritten = priv_driver_get_test_result(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_STA_STAT2, strlen(CMD_GET_STA_STAT2)) == 0) {
i4BytesWritten = priv_driver_get_sta_stat2(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_STA_STAT, strlen(CMD_GET_STA_STAT)) == 0) {
i4BytesWritten = priv_driver_get_sta_stat(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_CURR_AR_RATE, strlen(CMD_GET_CURR_AR_RATE)) == 0) {
i4BytesWritten = priv_driver_get_sta_curr_ar_rate(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_STA_RX_STAT, strlen(CMD_GET_STA_RX_STAT)) == 0) {
i4BytesWritten = priv_driver_show_rx_stat(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_ACL_POLICY, strlen(CMD_SET_ACL_POLICY)) == 0) {
i4BytesWritten = priv_driver_set_acl_policy(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_ADD_ACL_ENTRY, strlen(CMD_ADD_ACL_ENTRY)) == 0) {
i4BytesWritten = priv_driver_add_acl_entry(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_DEL_ACL_ENTRY, strlen(CMD_DEL_ACL_ENTRY)) == 0) {
i4BytesWritten = priv_driver_del_acl_entry(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SHOW_ACL_ENTRY, strlen(CMD_SHOW_ACL_ENTRY)) == 0) {
i4BytesWritten = priv_driver_show_acl_entry(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_CLEAR_ACL_ENTRY, strlen(CMD_CLEAR_ACL_ENTRY)) == 0) {
i4BytesWritten = priv_driver_clear_acl_entry(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_COEX_CONTROL, strlen(CMD_COEX_CONTROL)) == 0) {
i4BytesWritten = priv_driver_coex_ctrl(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_CSI, strlen(CMD_SET_CSI)) == 0) {
i4BytesWritten = priv_driver_set_csi(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_CSI, strlen(CMD_GET_CSI)) == 0) {
i4BytesWritten = priv_driver_get_csi(prNetDev, pcCommand, i4TotalLen);
}
#if (CFG_SUPPORT_DFS_MASTER == 1)
else if (strnicmp(pcCommand, CMD_SHOW_DFS_STATE, strlen(CMD_SHOW_DFS_STATE)) == 0) {
i4BytesWritten = priv_driver_show_dfs_state(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SHOW_DFS_RADAR_PARAM, strlen(CMD_SHOW_DFS_RADAR_PARAM)) == 0) {
i4BytesWritten = priv_driver_show_dfs_radar_param(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SHOW_DFS_HELP, strlen(CMD_SHOW_DFS_HELP)) == 0) {
i4BytesWritten = priv_driver_show_dfs_help(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SHOW_DFS_CAC_TIME, strlen(CMD_SHOW_DFS_CAC_TIME)) == 0) {
i4BytesWritten = priv_driver_show_dfs_cac_time(prNetDev, pcCommand, i4TotalLen);
}
#endif
#if CFG_SUPPORT_CAL_RESULT_BACKUP_TO_HOST
else if (strnicmp(pcCommand,
CMD_SET_CALBACKUP_TEST_DRV_FW, strlen(CMD_SET_CALBACKUP_TEST_DRV_FW)) == 0)
i4BytesWritten = priv_driver_set_calbackup_test_drv_fw(prNetDev, pcCommand, i4TotalLen);
#endif
#if CFG_WOW_SUPPORT
else if (strnicmp(pcCommand, CMD_WOW_START, strlen(CMD_WOW_START)) == 0)
i4BytesWritten = priv_driver_set_wow(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_WOW_ENABLE, strlen(CMD_SET_WOW_ENABLE)) == 0)
i4BytesWritten = priv_driver_set_wow_enable(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_WOW_PAR, strlen(CMD_SET_WOW_PAR)) == 0)
i4BytesWritten = priv_driver_set_wow_par(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_WOW_UDP, strlen(CMD_SET_WOW_UDP)) == 0)
i4BytesWritten = priv_driver_set_wow_udpport(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_WOW_TCP, strlen(CMD_SET_WOW_TCP)) == 0)
i4BytesWritten = priv_driver_set_wow_tcpport(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_WOW_PORT, strlen(CMD_GET_WOW_PORT)) == 0)
i4BytesWritten = priv_driver_get_wow_port(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_WOW_REASON, strlen(CMD_GET_WOW_REASON)) == 0)
i4BytesWritten = priv_driver_get_wow_reason(prNetDev, pcCommand, i4TotalLen);
#endif
else if (strnicmp(pcCommand, CMD_SET_ADV_PWS, strlen(CMD_SET_ADV_PWS)) == 0)
i4BytesWritten = priv_driver_set_adv_pws(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_MDTIM, strlen(CMD_SET_MDTIM)) == 0)
i4BytesWritten = priv_driver_set_mdtim(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_LISTEN_DTIM_INTERVAL, strlen(CMD_SET_LISTEN_DTIM_INTERVAL)) == 0)
i4BytesWritten = priv_driver_set_listen_dtim_interval(prNetDev, pcCommand, i4TotalLen);
#if CFG_SUPPORT_QA_TOOL
else if (strnicmp(pcCommand, CMD_GET_RX_STATISTICS, strlen(CMD_GET_RX_STATISTICS)) == 0)
i4BytesWritten = priv_driver_get_rx_statistics(prNetDev, pcCommand, i4TotalLen);
#if CFG_SUPPORT_BUFFER_MODE
else if (strnicmp(pcCommand, CMD_SETBUFMODE, strlen(CMD_SETBUFMODE)) == 0)
i4BytesWritten = priv_driver_set_efuse_buffer_mode(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SETEEPROM_MODE, strlen(CMD_SETEEPROM_MODE)) == 0)
i4BytesWritten = priv_driver_set_eeprom_mode(prNetDev, pcCommand, i4TotalLen);
#endif
#endif
#if CFG_SUPPORT_MSP
#if 0
else if (strnicmp(pcCommand, CMD_GET_STAT, strlen(CMD_GET_STAT)) == 0)
i4BytesWritten = priv_driver_get_stat(prNetDev, pcCommand, i4TotalLen);
#endif
else if (strnicmp(pcCommand, CMD_GET_STA_STATISTICS, strlen(CMD_GET_STA_STATISTICS)) == 0)
i4BytesWritten = priv_driver_get_sta_statistics(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_BSS_STATISTICS, strlen(CMD_GET_BSS_STATISTICS)) == 0)
i4BytesWritten = priv_driver_get_bss_statistics(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_STA_INFO, strlen(CMD_GET_STA_INFO)) == 0)
i4BytesWritten = priv_driver_get_sta_info(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_WTBL_INFO, strlen(CMD_GET_WTBL_INFO)) == 0)
i4BytesWritten = priv_driver_get_wtbl_info(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_MIB_INFO, strlen(CMD_GET_MIB_INFO)) == 0)
i4BytesWritten = priv_driver_get_mib_info(prNetDev, pcCommand, i4TotalLen);
#if CFG_SUPPORT_LAST_SEC_MCS_INFO
else if (strnicmp(pcCommand, CMD_GET_MCS_INFO, strlen(CMD_GET_MCS_INFO)) == 0)
i4BytesWritten = priv_driver_get_mcs_info(prNetDev, pcCommand, i4TotalLen);
#endif
else if (strnicmp(pcCommand, CMD_SET_FW_LOG, strlen(CMD_SET_FW_LOG)) == 0)
i4BytesWritten = priv_driver_set_fw_log(prNetDev, pcCommand, i4TotalLen);
#endif
else if (strnicmp(pcCommand, CMD_SET_CFG, strlen(CMD_SET_CFG)) == 0) {
i4BytesWritten = priv_driver_set_cfg(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_CFG, strlen(CMD_GET_CFG)) == 0) {
i4BytesWritten = priv_driver_get_cfg(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_SET_CHIP, strlen(CMD_SET_CHIP)) == 0) {
i4BytesWritten = priv_driver_set_chip_config(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_CHIP, strlen(CMD_GET_CHIP)) == 0) {
i4BytesWritten = priv_driver_get_chip_config(prNetDev, pcCommand, i4TotalLen);
} else if (strnicmp(pcCommand, CMD_GET_VERSION, strlen(CMD_GET_VERSION)) == 0) {
i4BytesWritten = priv_driver_get_version(prNetDev, pcCommand, i4TotalLen);
#if CFG_SUPPORT_DBDC
} else if (strnicmp(pcCommand, CMD_SET_DBDC, strlen(CMD_SET_DBDC)) == 0) {
i4BytesWritten = priv_driver_set_dbdc(prNetDev, pcCommand, i4TotalLen);
#endif /*CFG_SUPPORT_DBDC*/
#if CFG_SUPPORT_BATCH_SCAN
} else if (strnicmp(pcCommand, CMD_BATCH_SET, strlen(CMD_BATCH_SET)) == 0) {
kalIoctl(prGlueInfo,
wlanoidSetBatchScanReq,
(PVOID) pcCommand, i4TotalLen, FALSE, FALSE, TRUE, &i4BytesWritten);
} else if (strnicmp(pcCommand, CMD_BATCH_GET, strlen(CMD_BATCH_GET)) == 0) {
/* strcpy(pcCommand, "BATCH SCAN DATA FROM FIRMWARE"); */
/* i4BytesWritten = strlen("BATCH SCAN DATA FROM FIRMWARE") + 1; */
/* i4BytesWritten = priv_driver_get_linkspeed (prNetDev, pcCommand, i4TotalLen); */
UINT_32 u4BufLen;
int i;
/* int rlen=0; */
for (i = 0; i < CFG_BATCH_MAX_MSCAN; i++) {
g_rEventBatchResult[i].ucScanCount = i + 1; /* for get which mscan */
kalIoctl(prGlueInfo,
wlanoidQueryBatchScanResult,
(PVOID)&g_rEventBatchResult[i],
sizeof(EVENT_BATCH_RESULT_T), TRUE, TRUE, TRUE, &u4BufLen);
}
#if 0
DBGLOG(SCN, INFO, "Batch Scan Results, scan count = %u\n", g_rEventBatchResult.ucScanCount);
for (i = 0; i < g_rEventBatchResult.ucScanCount; i++) {
prEntry = &g_rEventBatchResult.arBatchResult[i];
DBGLOG(SCN, INFO, "Entry %u\n", i);
DBGLOG(SCN, INFO, " BSSID = " MACSTR "\n", MAC2STR(prEntry->aucBssid));
DBGLOG(SCN, INFO, " SSID = %s\n", prEntry->aucSSID);
DBGLOG(SCN, INFO, " SSID len = %u\n", prEntry->ucSSIDLen);
DBGLOG(SCN, INFO, " RSSI = %d\n", prEntry->cRssi);
DBGLOG(SCN, INFO, " Freq = %u\n", prEntry->ucFreq);
}
#endif
batchConvertResult(&g_rEventBatchResult[0], pcCommand, i4TotalLen, &i4BytesWritten);
/* Dump for debug */
/* print_hex_dump(KERN_INFO,
* "BATCH", DUMP_PREFIX_ADDRESS, 16, 1, pcCommand, i4BytesWritten, TRUE);
*/
} else if (strnicmp(pcCommand, CMD_BATCH_STOP, strlen(CMD_BATCH_STOP)) == 0) {
kalIoctl(prGlueInfo,
wlanoidSetBatchScanReq,
(PVOID) pcCommand, i4TotalLen, FALSE, FALSE, TRUE, &i4BytesWritten);
#endif
}
#if CFG_SUPPORT_SNIFFER
else if (strnicmp(pcCommand, CMD_SETMONITOR, strlen(CMD_SETMONITOR)) == 0)
i4BytesWritten = priv_driver_set_monitor(prNetDev, pcCommand, i4TotalLen);
#endif
else if (strnicmp(pcCommand, CMD_GET_QUE_INFO, strlen(CMD_GET_QUE_INFO)) == 0)
i4BytesWritten = priv_driver_get_que_info(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_MEM_INFO, strlen(CMD_GET_MEM_INFO)) == 0)
i4BytesWritten = priv_driver_get_mem_info(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_HIF_INFO, strlen(CMD_GET_HIF_INFO)) == 0)
i4BytesWritten = priv_driver_get_hif_info(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_P2P_PS, strlen(CMD_SET_P2P_PS)) == 0)
i4BytesWritten = priv_driver_set_p2p_ps(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_CNM_INFO, strlen(CMD_GET_CNM_INFO)) == 0)
i4BytesWritten = priv_driver_get_cnm_info(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_DSLP_CNT, strlen(CMD_GET_DSLP_CNT)) == 0)
i4BytesWritten = priv_driver_get_deep_sleep_cnt(prNetDev, pcCommand, i4TotalLen);
#if CFG_AUTO_CHANNEL_SEL_SUPPORT
else if (strnicmp(pcCommand, CMD_GET_CH_RANK_LIST, strlen(CMD_GET_CH_RANK_LIST)) == 0)
i4BytesWritten = priv_driver_get_ch_rank_list(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_CH_DIRTINESS, strlen(CMD_GET_CH_DIRTINESS)) == 0)
i4BytesWritten = priv_driver_get_ch_dirtiness(prNetDev, pcCommand, i4TotalLen);
#endif
else if (strnicmp(pcCommand, CMD_EFUSE, sizeof(CMD_EFUSE)-1) == 0)
i4BytesWritten = priv_driver_efuse_ops(prNetDev, pcCommand, i4TotalLen);
#if CFG_SUPPORT_ADVANCE_CONTROL
else if (strnicmp(pcCommand, CMD_SET_NOISE, strlen(CMD_SET_NOISE)) == 0)
i4BytesWritten = priv_driver_set_noise(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_NOISE, strlen(CMD_GET_NOISE)) == 0)
i4BytesWritten = priv_driver_get_noise(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_PTA_CONFIG, strlen(CMD_PTA_CONFIG)) == 0)
i4BytesWritten = priv_driver_pta_config(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_TRAFFIC_REPORT, strlen(CMD_TRAFFIC_REPORT)) == 0)
i4BytesWritten = priv_driver_get_traffic_report(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_POP, strlen(CMD_SET_POP)) == 0)
i4BytesWritten = priv_driver_set_pop(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_POP, strlen(CMD_GET_POP)) == 0)
i4BytesWritten = priv_driver_get_pop(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_ED, strlen(CMD_SET_ED)) == 0)
i4BytesWritten = priv_driver_set_ed(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_ED, strlen(CMD_GET_ED)) == 0)
i4BytesWritten = priv_driver_get_ed(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_PD, strlen(CMD_SET_PD)) == 0)
i4BytesWritten = priv_driver_set_pd(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_PD, strlen(CMD_GET_PD)) == 0)
i4BytesWritten = priv_driver_get_pd(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_SET_MAX_RFGAIN, strlen(CMD_SET_MAX_RFGAIN)) == 0)
i4BytesWritten = priv_driver_set_maxrfgain(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_GET_MAX_RFGAIN, strlen(CMD_GET_MAX_RFGAIN)) == 0)
i4BytesWritten = priv_driver_get_maxrfgain(prNetDev, pcCommand, i4TotalLen);
else if (strnicmp(pcCommand, CMD_NOISE_HISTOGRAM, strlen(CMD_NOISE_HISTOGRAM)) == 0)
i4BytesWritten = priv_driver_noise_histogram(prNetDev, pcCommand, i4TotalLen);
#endif
else
i4BytesWritten = priv_cmd_not_support(prNetDev, pcCommand, i4TotalLen);
if (i4BytesWritten >= 0) {
if ((i4BytesWritten == 0) && (i4TotalLen > 0)) {
/* reset the command buffer */
pcCommand[0] = '\0';
}
if (i4BytesWritten >= i4TotalLen) {
DBGLOG(REQ, INFO,
"%s: i4BytesWritten %d > i4TotalLen < %d\n", __func__, i4BytesWritten, i4TotalLen);
i4BytesWritten = i4TotalLen;
} else {
pcCommand[i4BytesWritten] = '\0';
i4BytesWritten++;
}
}
return i4BytesWritten;
} /* priv_driver_cmds */
int priv_support_driver_cmd(IN struct net_device *prNetDev, IN OUT struct ifreq *prReq, IN int i4Cmd)
{
P_GLUE_INFO_T prGlueInfo = NULL;
int ret = 0;
char *pcCommand = NULL;
priv_driver_cmd_t *priv_cmd = NULL;
int i4BytesWritten = 0;
int i4TotalLen = 0;
struct iwreq *wrqin = (struct iwreq *) prReq;
if (!prReq->ifr_data) {
ret = -EINVAL;
goto exit;
}
prGlueInfo = *((P_GLUE_INFO_T *) netdev_priv(prNetDev));
if (!prGlueInfo) {
DBGLOG(REQ, WARN, "No glue info\n");
ret = -EFAULT;
goto exit;
}
if (prGlueInfo->u4ReadyFlag == 0) {
ret = -EINVAL;
goto exit;
}
priv_cmd = kzalloc(sizeof(priv_driver_cmd_t), GFP_KERNEL);
if (!priv_cmd) {
DBGLOG(REQ, WARN, "%s, alloc mem failed\n", __func__);
return -ENOMEM;
}
if (copy_from_user(priv_cmd->buf, prReq->ifr_data, PRIV_CMD_SIZE)) {
DBGLOG(REQ, INFO, "%s: copy_from_user fail\n", __func__);
ret = -EFAULT;
goto exit;
}
priv_cmd->total_len = wrqin->u.data.length;
i4TotalLen = priv_cmd->total_len;
if (i4TotalLen <= 0) {
ret = -EINVAL;
DBGLOG(REQ, INFO, "%s: i4TotalLen invalid %x %x %s\n", __func__,
i4TotalLen, priv_cmd->used_len, priv_cmd->buf);
goto exit;
}
pcCommand = priv_cmd->buf;
DBGLOG(REQ, INFO, "%s: driver cmd \"%s\" on %s\n", __func__, pcCommand, prReq->ifr_name);
i4BytesWritten = priv_driver_cmds(prNetDev, pcCommand, PRIV_CMD_SIZE);
if (i4BytesWritten < 0) {
DBGLOG(REQ, INFO, "%s: command %s Written is %d\n", __func__, pcCommand, i4BytesWritten);
if (i4TotalLen >= 3) {
snprintf(pcCommand, 3, "OK");
i4BytesWritten = strlen("OK");
}
}
if (copy_to_user(prReq->ifr_data, priv_cmd->buf, PRIV_CMD_SIZE)) {
DBGLOG(REQ, INFO, "%s: copy_to_user fail\n", __func__);
ret = -EFAULT;
goto exit;
}
if (i4BytesWritten > 0) {
if (i4BytesWritten > PRIV_CMD_SIZE)
i4BytesWritten = PRIV_CMD_SIZE;
wrqin->u.data.length = i4BytesWritten; /* the iwpriv will use the length */
} else if (i4BytesWritten == 0) {
wrqin->u.data.length = i4BytesWritten;
}
exit:
kfree(priv_cmd);
return ret;
} /* priv_support_driver_cmd */
#ifdef CFG_ANDROID_AOSP_PRIV_CMD
int android_private_support_driver_cmd(IN struct net_device *prNetDev,
IN OUT struct ifreq *prReq, IN int i4Cmd)
{
struct android_wifi_priv_cmd priv_cmd;
char *command = NULL;
int ret = 0, bytes_written = 0;
if (!prReq->ifr_data)
return -EINVAL;
if (copy_from_user(&priv_cmd, prReq->ifr_data, sizeof(priv_cmd)))
return -EFAULT;
command = kzalloc(priv_cmd.total_len, GFP_KERNEL);
if (!command) {
DBGLOG(REQ, WARN, "%s, alloc mem failed\n", __func__);
return -ENOMEM;
}
if (copy_from_user(command, priv_cmd.buf, priv_cmd.total_len)) {
ret = -EFAULT;
goto FREE;
}
bytes_written = priv_driver_cmds(prNetDev, command, priv_cmd.total_len);
if (bytes_written >= 0) {
/* priv_cmd in but no response */
if ((bytes_written == 0) && (priv_cmd.total_len > 0))
command[0] = '\0';
if (bytes_written >= priv_cmd.total_len)
bytes_written = priv_cmd.total_len;
else
bytes_written++;
priv_cmd.used_len = bytes_written;
if (copy_to_user(priv_cmd.buf, command, bytes_written))
ret = -EFAULT;
} else
ret = bytes_written;
FREE:
kfree(command);
return ret;
}
#endif /* CFG_ANDROID_AOSP_PRIV_CMD */