/***************************************************************************** (c) Cambridge Silicon Radio Limited 2012 All rights reserved and confidential information of CSR Refer to LICENSE.txt included with this source for details on the license terms. *****************************************************************************/ /* Note: this is an auto-generated file. */ #include #include #include "csr_msgconv.h" #include "csr_wifi_sme_prim.h" #include "csr_wifi_sme_serialize.h" void CsrWifiSmePfree(void *ptr) { kfree(ptr); } size_t CsrWifiSmeAdhocConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 2; /* u16 primitive->adHocConfig.atimWindowTu */ bufferSize += 2; /* u16 primitive->adHocConfig.beaconPeriodTu */ bufferSize += 2; /* u16 primitive->adHocConfig.joinOnlyAttempts */ bufferSize += 2; /* u16 primitive->adHocConfig.joinAttemptIntervalMs */ return bufferSize; } u8* CsrWifiSmeAdhocConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeAdhocConfigSetReq *primitive = (CsrWifiSmeAdhocConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.atimWindowTu); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.beaconPeriodTu); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinOnlyAttempts); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinAttemptIntervalMs); return(ptr); } void* CsrWifiSmeAdhocConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeAdhocConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeAdhocConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.atimWindowTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.beaconPeriodTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.joinOnlyAttempts, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.joinAttemptIntervalMs, buffer, &offset); return primitive; } size_t CsrWifiSmeBlacklistReqSizeof(void *msg) { CsrWifiSmeBlacklistReq *primitive = (CsrWifiSmeBlacklistReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* u8 primitive->setAddressCount */ { u16 i1; for (i1 = 0; i1 < primitive->setAddressCount; i1++) { bufferSize += 6; /* u8 primitive->setAddresses[i1].a[6] */ } } return bufferSize; } u8* CsrWifiSmeBlacklistReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeBlacklistReq *primitive = (CsrWifiSmeBlacklistReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->setAddressCount); { u16 i1; for (i1 = 0; i1 < primitive->setAddressCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->setAddresses[i1].a, ((u16) (6))); } } return(ptr); } void* CsrWifiSmeBlacklistReqDes(u8 *buffer, size_t length) { CsrWifiSmeBlacklistReq *primitive = kmalloc(sizeof(CsrWifiSmeBlacklistReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->setAddressCount, buffer, &offset); primitive->setAddresses = NULL; if (primitive->setAddressCount) { primitive->setAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->setAddressCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->setAddressCount; i1++) { CsrMemCpyDes(primitive->setAddresses[i1].a, buffer, &offset, ((u16) (6))); } } return primitive; } void CsrWifiSmeBlacklistReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeBlacklistReq *primitive = (CsrWifiSmeBlacklistReq *) voidPrimitivePointer; kfree(primitive->setAddresses); kfree(primitive); } size_t CsrWifiSmeCalibrationDataSetReqSizeof(void *msg) { CsrWifiSmeCalibrationDataSetReq *primitive = (CsrWifiSmeCalibrationDataSetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ bufferSize += 2; /* u16 primitive->calibrationDataLength */ bufferSize += primitive->calibrationDataLength; /* u8 primitive->calibrationData */ return bufferSize; } u8* CsrWifiSmeCalibrationDataSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCalibrationDataSetReq *primitive = (CsrWifiSmeCalibrationDataSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->calibrationDataLength); if (primitive->calibrationDataLength) { CsrMemCpySer(ptr, len, (const void *) primitive->calibrationData, ((u16) (primitive->calibrationDataLength))); } return(ptr); } void* CsrWifiSmeCalibrationDataSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeCalibrationDataSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCalibrationDataSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->calibrationDataLength, buffer, &offset); if (primitive->calibrationDataLength) { primitive->calibrationData = kmalloc(primitive->calibrationDataLength, GFP_KERNEL); CsrMemCpyDes(primitive->calibrationData, buffer, &offset, ((u16) (primitive->calibrationDataLength))); } else { primitive->calibrationData = NULL; } return primitive; } void CsrWifiSmeCalibrationDataSetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeCalibrationDataSetReq *primitive = (CsrWifiSmeCalibrationDataSetReq *) voidPrimitivePointer; kfree(primitive->calibrationData); kfree(primitive); } size_t CsrWifiSmeCcxConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* u8 primitive->ccxConfig.keepAliveTimeMs */ bufferSize += 1; /* u8 primitive->ccxConfig.apRoamingEnabled */ bufferSize += 1; /* u8 primitive->ccxConfig.measurementsMask */ bufferSize += 1; /* u8 primitive->ccxConfig.ccxRadioMgtEnabled */ return bufferSize; } u8* CsrWifiSmeCcxConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCcxConfigSetReq *primitive = (CsrWifiSmeCcxConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.keepAliveTimeMs); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.apRoamingEnabled); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.measurementsMask); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.ccxRadioMgtEnabled); return(ptr); } void* CsrWifiSmeCcxConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeCcxConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCcxConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.keepAliveTimeMs, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.apRoamingEnabled, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.measurementsMask, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.ccxRadioMgtEnabled, buffer, &offset); return primitive; } size_t CsrWifiSmeCoexConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 29) */ bufferSize += 1; /* u8 primitive->coexConfig.coexEnableSchemeManagement */ bufferSize += 1; /* u8 primitive->coexConfig.coexPeriodicWakeHost */ bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficBurstyLatencyMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficContinuousLatencyMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutPeriodMs */ return bufferSize; } u8* CsrWifiSmeCoexConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCoexConfigSetReq *primitive = (CsrWifiSmeCoexConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexEnableSchemeManagement); CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexPeriodicWakeHost); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficBurstyLatencyMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficContinuousLatencyMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutPeriodMs); return(ptr); } void* CsrWifiSmeCoexConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeCoexConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCoexConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexConfig.coexEnableSchemeManagement, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexConfig.coexPeriodicWakeHost, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficBurstyLatencyMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficContinuousLatencyMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutPeriodMs, buffer, &offset); return primitive; } size_t CsrWifiSmeConnectReqSizeof(void *msg) { CsrWifiSmeConnectReq *primitive = (CsrWifiSmeConnectReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 57) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 32; /* u8 primitive->connectionConfig.ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->connectionConfig.ssid.length */ bufferSize += 6; /* u8 primitive->connectionConfig.bssid.a[6] */ bufferSize += 1; /* CsrWifiSmeBssType primitive->connectionConfig.bssType */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionConfig.ifIndex */ bufferSize += 1; /* CsrWifiSme80211PrivacyMode primitive->connectionConfig.privacyMode */ bufferSize += 2; /* CsrWifiSmeAuthModeMask primitive->connectionConfig.authModeMask */ bufferSize += 2; /* CsrWifiSmeEncryptionMask primitive->connectionConfig.encryptionModeMask */ bufferSize += 2; /* u16 primitive->connectionConfig.mlmeAssociateReqInformationElementsLength */ bufferSize += primitive->connectionConfig.mlmeAssociateReqInformationElementsLength; /* u8 primitive->connectionConfig.mlmeAssociateReqInformationElements */ bufferSize += 1; /* CsrWifiSmeWmmQosInfoMask primitive->connectionConfig.wmmQosInfo */ bufferSize += 1; /* u8 primitive->connectionConfig.adhocJoinOnly */ bufferSize += 1; /* u8 primitive->connectionConfig.adhocChannel */ return bufferSize; } u8* CsrWifiSmeConnectReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeConnectReq *primitive = (CsrWifiSmeConnectReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.bssType); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ifIndex); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.privacyMode); CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.authModeMask); CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.encryptionModeMask); CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.mlmeAssociateReqInformationElementsLength); if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.mlmeAssociateReqInformationElements, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); } CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.wmmQosInfo); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocJoinOnly); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocChannel); return(ptr); } void* CsrWifiSmeConnectReqDes(u8 *buffer, size_t length) { CsrWifiSmeConnectReq *primitive = kmalloc(sizeof(CsrWifiSmeConnectReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrMemCpyDes(primitive->connectionConfig.ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->connectionConfig.ssid.length, buffer, &offset); CsrMemCpyDes(primitive->connectionConfig.bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->connectionConfig.bssType, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.ifIndex, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.privacyMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionConfig.authModeMask, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionConfig.encryptionModeMask, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, buffer, &offset); if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) { primitive->connectionConfig.mlmeAssociateReqInformationElements = kmalloc(primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionConfig.mlmeAssociateReqInformationElements, buffer, &offset, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); } else { primitive->connectionConfig.mlmeAssociateReqInformationElements = NULL; } CsrUint8Des((u8 *) &primitive->connectionConfig.wmmQosInfo, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.adhocJoinOnly, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.adhocChannel, buffer, &offset); return primitive; } void CsrWifiSmeConnectReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeConnectReq *primitive = (CsrWifiSmeConnectReq *) voidPrimitivePointer; kfree(primitive->connectionConfig.mlmeAssociateReqInformationElements); kfree(primitive); } size_t CsrWifiSmeHostConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeHostPowerMode primitive->hostConfig.powerMode */ bufferSize += 2; /* u16 primitive->hostConfig.applicationDataPeriodMs */ return bufferSize; } u8* CsrWifiSmeHostConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeHostConfigSetReq *primitive = (CsrWifiSmeHostConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->hostConfig.powerMode); CsrUint16Ser(ptr, len, (u16) primitive->hostConfig.applicationDataPeriodMs); return(ptr); } void* CsrWifiSmeHostConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeHostConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeHostConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->hostConfig.powerMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->hostConfig.applicationDataPeriodMs, buffer, &offset); return primitive; } size_t CsrWifiSmeKeyReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 65) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* CsrWifiSmeKeyType primitive->key.keyType */ bufferSize += 1; /* u8 primitive->key.keyIndex */ bufferSize += 1; /* u8 primitive->key.wepTxKey */ { u16 i2; for (i2 = 0; i2 < 8; i2++) { bufferSize += 2; /* u16 primitive->key.keyRsc[8] */ } } bufferSize += 1; /* u8 primitive->key.authenticator */ bufferSize += 6; /* u8 primitive->key.address.a[6] */ bufferSize += 1; /* u8 primitive->key.keyLength */ bufferSize += 32; /* u8 primitive->key.key[32] */ return bufferSize; } u8* CsrWifiSmeKeyReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeKeyReq *primitive = (CsrWifiSmeKeyReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->key.keyType); CsrUint8Ser(ptr, len, (u8) primitive->key.keyIndex); CsrUint8Ser(ptr, len, (u8) primitive->key.wepTxKey); { u16 i2; for (i2 = 0; i2 < 8; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->key.keyRsc[i2]); } } CsrUint8Ser(ptr, len, (u8) primitive->key.authenticator); CsrMemCpySer(ptr, len, (const void *) primitive->key.address.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->key.keyLength); CsrMemCpySer(ptr, len, (const void *) primitive->key.key, ((u16) (32))); return(ptr); } void* CsrWifiSmeKeyReqDes(u8 *buffer, size_t length) { CsrWifiSmeKeyReq *primitive = kmalloc(sizeof(CsrWifiSmeKeyReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->key.keyType, buffer, &offset); CsrUint8Des((u8 *) &primitive->key.keyIndex, buffer, &offset); CsrUint8Des((u8 *) &primitive->key.wepTxKey, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 8; i2++) { CsrUint16Des((u16 *) &primitive->key.keyRsc[i2], buffer, &offset); } } CsrUint8Des((u8 *) &primitive->key.authenticator, buffer, &offset); CsrMemCpyDes(primitive->key.address.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->key.keyLength, buffer, &offset); CsrMemCpyDes(primitive->key.key, buffer, &offset, ((u16) (32))); return primitive; } size_t CsrWifiSmeMibConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 1; /* u8 primitive->mibConfig.unifiFixMaxTxDataRate */ bufferSize += 1; /* u8 primitive->mibConfig.unifiFixTxDataRate */ bufferSize += 2; /* u16 primitive->mibConfig.dot11RtsThreshold */ bufferSize += 2; /* u16 primitive->mibConfig.dot11FragmentationThreshold */ bufferSize += 2; /* u16 primitive->mibConfig.dot11CurrentTxPowerLevel */ return bufferSize; } u8* CsrWifiSmeMibConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibConfigSetReq *primitive = (CsrWifiSmeMibConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixMaxTxDataRate); CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixTxDataRate); CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11RtsThreshold); CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11FragmentationThreshold); CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11CurrentTxPowerLevel); return(ptr); } void* CsrWifiSmeMibConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeMibConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeMibConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixMaxTxDataRate, buffer, &offset); CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixTxDataRate, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibConfig.dot11RtsThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibConfig.dot11FragmentationThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibConfig.dot11CurrentTxPowerLevel, buffer, &offset); return primitive; } size_t CsrWifiSmeMibGetNextReqSizeof(void *msg) { CsrWifiSmeMibGetNextReq *primitive = (CsrWifiSmeMibGetNextReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ bufferSize += 2; /* u16 primitive->mibAttributeLength */ bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ return bufferSize; } u8* CsrWifiSmeMibGetNextReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibGetNextReq *primitive = (CsrWifiSmeMibGetNextReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); if (primitive->mibAttributeLength) { CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); } return(ptr); } void* CsrWifiSmeMibGetNextReqDes(u8 *buffer, size_t length) { CsrWifiSmeMibGetNextReq *primitive = kmalloc(sizeof(CsrWifiSmeMibGetNextReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); if (primitive->mibAttributeLength) { primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); } else { primitive->mibAttribute = NULL; } return primitive; } void CsrWifiSmeMibGetNextReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeMibGetNextReq *primitive = (CsrWifiSmeMibGetNextReq *) voidPrimitivePointer; kfree(primitive->mibAttribute); kfree(primitive); } size_t CsrWifiSmeMibGetReqSizeof(void *msg) { CsrWifiSmeMibGetReq *primitive = (CsrWifiSmeMibGetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ bufferSize += 2; /* u16 primitive->mibAttributeLength */ bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ return bufferSize; } u8* CsrWifiSmeMibGetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibGetReq *primitive = (CsrWifiSmeMibGetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); if (primitive->mibAttributeLength) { CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); } return(ptr); } void* CsrWifiSmeMibGetReqDes(u8 *buffer, size_t length) { CsrWifiSmeMibGetReq *primitive = kmalloc(sizeof(CsrWifiSmeMibGetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); if (primitive->mibAttributeLength) { primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); } else { primitive->mibAttribute = NULL; } return primitive; } void CsrWifiSmeMibGetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeMibGetReq *primitive = (CsrWifiSmeMibGetReq *) voidPrimitivePointer; kfree(primitive->mibAttribute); kfree(primitive); } size_t CsrWifiSmeMibSetReqSizeof(void *msg) { CsrWifiSmeMibSetReq *primitive = (CsrWifiSmeMibSetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 6) */ bufferSize += 2; /* u16 primitive->mibAttributeLength */ bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ return bufferSize; } u8* CsrWifiSmeMibSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibSetReq *primitive = (CsrWifiSmeMibSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); if (primitive->mibAttributeLength) { CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); } return(ptr); } void* CsrWifiSmeMibSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeMibSetReq *primitive = kmalloc(sizeof(CsrWifiSmeMibSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); if (primitive->mibAttributeLength) { primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); } else { primitive->mibAttribute = NULL; } return primitive; } void CsrWifiSmeMibSetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeMibSetReq *primitive = (CsrWifiSmeMibSetReq *) voidPrimitivePointer; kfree(primitive->mibAttribute); kfree(primitive); } size_t CsrWifiSmeMulticastAddressReqSizeof(void *msg) { CsrWifiSmeMulticastAddressReq *primitive = (CsrWifiSmeMulticastAddressReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* u8 primitive->setAddressesCount */ { u16 i1; for (i1 = 0; i1 < primitive->setAddressesCount; i1++) { bufferSize += 6; /* u8 primitive->setAddresses[i1].a[6] */ } } return bufferSize; } u8* CsrWifiSmeMulticastAddressReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMulticastAddressReq *primitive = (CsrWifiSmeMulticastAddressReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->setAddressesCount); { u16 i1; for (i1 = 0; i1 < primitive->setAddressesCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->setAddresses[i1].a, ((u16) (6))); } } return(ptr); } void* CsrWifiSmeMulticastAddressReqDes(u8 *buffer, size_t length) { CsrWifiSmeMulticastAddressReq *primitive = kmalloc(sizeof(CsrWifiSmeMulticastAddressReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->setAddressesCount, buffer, &offset); primitive->setAddresses = NULL; if (primitive->setAddressesCount) { primitive->setAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->setAddressesCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->setAddressesCount; i1++) { CsrMemCpyDes(primitive->setAddresses[i1].a, buffer, &offset, ((u16) (6))); } } return primitive; } void CsrWifiSmeMulticastAddressReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeMulticastAddressReq *primitive = (CsrWifiSmeMulticastAddressReq *) voidPrimitivePointer; kfree(primitive->setAddresses); kfree(primitive); } size_t CsrWifiSmePacketFilterSetReqSizeof(void *msg) { CsrWifiSmePacketFilterSetReq *primitive = (CsrWifiSmePacketFilterSetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* u16 primitive->filterLength */ bufferSize += primitive->filterLength; /* u8 primitive->filter */ bufferSize += 1; /* CsrWifiSmePacketFilterMode primitive->mode */ bufferSize += 4; /* u8 primitive->arpFilterAddress.a[4] */ return bufferSize; } u8* CsrWifiSmePacketFilterSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePacketFilterSetReq *primitive = (CsrWifiSmePacketFilterSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->filterLength); if (primitive->filterLength) { CsrMemCpySer(ptr, len, (const void *) primitive->filter, ((u16) (primitive->filterLength))); } CsrUint8Ser(ptr, len, (u8) primitive->mode); CsrMemCpySer(ptr, len, (const void *) primitive->arpFilterAddress.a, ((u16) (4))); return(ptr); } void* CsrWifiSmePacketFilterSetReqDes(u8 *buffer, size_t length) { CsrWifiSmePacketFilterSetReq *primitive = kmalloc(sizeof(CsrWifiSmePacketFilterSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->filterLength, buffer, &offset); if (primitive->filterLength) { primitive->filter = kmalloc(primitive->filterLength, GFP_KERNEL); CsrMemCpyDes(primitive->filter, buffer, &offset, ((u16) (primitive->filterLength))); } else { primitive->filter = NULL; } CsrUint8Des((u8 *) &primitive->mode, buffer, &offset); CsrMemCpyDes(primitive->arpFilterAddress.a, buffer, &offset, ((u16) (4))); return primitive; } void CsrWifiSmePacketFilterSetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmePacketFilterSetReq *primitive = (CsrWifiSmePacketFilterSetReq *) voidPrimitivePointer; kfree(primitive->filter); kfree(primitive); } size_t CsrWifiSmePmkidReqSizeof(void *msg) { CsrWifiSmePmkidReq *primitive = (CsrWifiSmePmkidReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 29) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* u8 primitive->setPmkidsCount */ { u16 i1; for (i1 = 0; i1 < primitive->setPmkidsCount; i1++) { bufferSize += 6; /* u8 primitive->setPmkids[i1].bssid.a[6] */ bufferSize += 16; /* u8 primitive->setPmkids[i1].pmkid[16] */ } } return bufferSize; } u8* CsrWifiSmePmkidReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePmkidReq *primitive = (CsrWifiSmePmkidReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->setPmkidsCount); { u16 i1; for (i1 = 0; i1 < primitive->setPmkidsCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->setPmkids[i1].bssid.a, ((u16) (6))); CsrMemCpySer(ptr, len, (const void *) primitive->setPmkids[i1].pmkid, ((u16) (16))); } } return(ptr); } void* CsrWifiSmePmkidReqDes(u8 *buffer, size_t length) { CsrWifiSmePmkidReq *primitive = kmalloc(sizeof(CsrWifiSmePmkidReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->setPmkidsCount, buffer, &offset); primitive->setPmkids = NULL; if (primitive->setPmkidsCount) { primitive->setPmkids = kmalloc(sizeof(CsrWifiSmePmkid) * primitive->setPmkidsCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->setPmkidsCount; i1++) { CsrMemCpyDes(primitive->setPmkids[i1].bssid.a, buffer, &offset, ((u16) (6))); CsrMemCpyDes(primitive->setPmkids[i1].pmkid, buffer, &offset, ((u16) (16))); } } return primitive; } void CsrWifiSmePmkidReqSerFree(void *voidPrimitivePointer) { CsrWifiSmePmkidReq *primitive = (CsrWifiSmePmkidReq *) voidPrimitivePointer; kfree(primitive->setPmkids); kfree(primitive); } size_t CsrWifiSmePowerConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 1; /* CsrWifiSmePowerSaveLevel primitive->powerConfig.powerSaveLevel */ bufferSize += 2; /* u16 primitive->powerConfig.listenIntervalTu */ bufferSize += 1; /* u8 primitive->powerConfig.rxDtims */ bufferSize += 1; /* CsrWifiSmeD3AutoScanMode primitive->powerConfig.d3AutoScanMode */ bufferSize += 1; /* u8 primitive->powerConfig.clientTrafficWindow */ bufferSize += 1; /* u8 primitive->powerConfig.opportunisticPowerSave */ bufferSize += 1; /* u8 primitive->powerConfig.noticeOfAbsence */ return bufferSize; } u8* CsrWifiSmePowerConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePowerConfigSetReq *primitive = (CsrWifiSmePowerConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.powerSaveLevel); CsrUint16Ser(ptr, len, (u16) primitive->powerConfig.listenIntervalTu); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.rxDtims); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.d3AutoScanMode); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.clientTrafficWindow); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.opportunisticPowerSave); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.noticeOfAbsence); return(ptr); } void* CsrWifiSmePowerConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmePowerConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmePowerConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.powerSaveLevel, buffer, &offset); CsrUint16Des((u16 *) &primitive->powerConfig.listenIntervalTu, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.rxDtims, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.d3AutoScanMode, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.clientTrafficWindow, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.opportunisticPowerSave, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.noticeOfAbsence, buffer, &offset); return primitive; } size_t CsrWifiSmeRoamingConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 70) */ bufferSize += 2; /* u16 primitive->interfaceTag */ { u16 i2; for (i2 = 0; i2 < 3; i2++) { bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiHighThreshold */ bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiLowThreshold */ bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrHighThreshold */ bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrLowThreshold */ } } bufferSize += 1; /* u8 primitive->roamingConfig.disableSmoothRoaming */ bufferSize += 1; /* u8 primitive->roamingConfig.disableRoamScans */ bufferSize += 1; /* u8 primitive->roamingConfig.reconnectLimit */ bufferSize += 2; /* u16 primitive->roamingConfig.reconnectLimitIntervalMs */ { u16 i2; for (i2 = 0; i2 < 3; i2++) { bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].intervalSeconds */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].validitySeconds */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu */ } } return bufferSize; } u8* CsrWifiSmeRoamingConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeRoamingConfigSetReq *primitive = (CsrWifiSmeRoamingConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiHighThreshold); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiLowThreshold); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrHighThreshold); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrLowThreshold); } } CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableSmoothRoaming); CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableRoamScans); CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.reconnectLimit); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.reconnectLimitIntervalMs); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].intervalSeconds); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].validitySeconds); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu); } } return(ptr); } void* CsrWifiSmeRoamingConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeRoamingConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeRoamingConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiHighThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiLowThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrHighThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrLowThreshold, buffer, &offset); } } CsrUint8Des((u8 *) &primitive->roamingConfig.disableSmoothRoaming, buffer, &offset); CsrUint8Des((u8 *) &primitive->roamingConfig.disableRoamScans, buffer, &offset); CsrUint8Des((u8 *) &primitive->roamingConfig.reconnectLimit, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.reconnectLimitIntervalMs, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].intervalSeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].validitySeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); } } return primitive; } size_t CsrWifiSmeScanConfigSetReqSizeof(void *msg) { CsrWifiSmeScanConfigSetReq *primitive = (CsrWifiSmeScanConfigSetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 63) */ { u16 i2; for (i2 = 0; i2 < 4; i2++) { bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].intervalSeconds */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].validitySeconds */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu */ } } bufferSize += 1; /* u8 primitive->scanConfig.disableAutonomousScans */ bufferSize += 2; /* u16 primitive->scanConfig.maxResults */ bufferSize += 1; /* s8 primitive->scanConfig.highRssiThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.lowRssiThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.deltaRssiThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.highSnrThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.lowSnrThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.deltaSnrThreshold */ bufferSize += 2; /* u16 primitive->scanConfig.passiveChannelListCount */ bufferSize += primitive->scanConfig.passiveChannelListCount; /* u8 primitive->scanConfig.passiveChannelList */ return bufferSize; } u8* CsrWifiSmeScanConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeScanConfigSetReq *primitive = (CsrWifiSmeScanConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); { u16 i2; for (i2 = 0; i2 < 4; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].intervalSeconds); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].validitySeconds); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu); } } CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.disableAutonomousScans); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.maxResults); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highRssiThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowRssiThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaRssiThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highSnrThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowSnrThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaSnrThreshold); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.passiveChannelListCount); if (primitive->scanConfig.passiveChannelListCount) { CsrMemCpySer(ptr, len, (const void *) primitive->scanConfig.passiveChannelList, ((u16) (primitive->scanConfig.passiveChannelListCount))); } return(ptr); } void* CsrWifiSmeScanConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeScanConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeScanConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 4; i2++) { CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].intervalSeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].validitySeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); } } CsrUint8Des((u8 *) &primitive->scanConfig.disableAutonomousScans, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.maxResults, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.highRssiThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.lowRssiThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.deltaRssiThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.highSnrThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.lowSnrThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.deltaSnrThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.passiveChannelListCount, buffer, &offset); if (primitive->scanConfig.passiveChannelListCount) { primitive->scanConfig.passiveChannelList = kmalloc(primitive->scanConfig.passiveChannelListCount, GFP_KERNEL); CsrMemCpyDes(primitive->scanConfig.passiveChannelList, buffer, &offset, ((u16) (primitive->scanConfig.passiveChannelListCount))); } else { primitive->scanConfig.passiveChannelList = NULL; } return primitive; } void CsrWifiSmeScanConfigSetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeScanConfigSetReq *primitive = (CsrWifiSmeScanConfigSetReq *) voidPrimitivePointer; kfree(primitive->scanConfig.passiveChannelList); kfree(primitive); } size_t CsrWifiSmeScanFullReqSizeof(void *msg) { CsrWifiSmeScanFullReq *primitive = (CsrWifiSmeScanFullReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 52) */ bufferSize += 1; /* u8 primitive->ssidCount */ { u16 i1; for (i1 = 0; i1 < primitive->ssidCount; i1++) { bufferSize += 32; /* u8 primitive->ssid[i1].ssid[32] */ bufferSize += 1; /* u8 primitive->ssid[i1].length */ } } bufferSize += 6; /* u8 primitive->bssid.a[6] */ bufferSize += 1; /* u8 primitive->forceScan */ bufferSize += 1; /* CsrWifiSmeBssType primitive->bssType */ bufferSize += 1; /* CsrWifiSmeScanType primitive->scanType */ bufferSize += 2; /* u16 primitive->channelListCount */ bufferSize += primitive->channelListCount; /* u8 primitive->channelList */ bufferSize += 2; /* u16 primitive->probeIeLength */ bufferSize += primitive->probeIeLength; /* u8 primitive->probeIe */ return bufferSize; } u8* CsrWifiSmeScanFullReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeScanFullReq *primitive = (CsrWifiSmeScanFullReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->ssidCount); { u16 i1; for (i1 = 0; i1 < primitive->ssidCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->ssid[i1].ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->ssid[i1].length); } } CsrMemCpySer(ptr, len, (const void *) primitive->bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->forceScan); CsrUint8Ser(ptr, len, (u8) primitive->bssType); CsrUint8Ser(ptr, len, (u8) primitive->scanType); CsrUint16Ser(ptr, len, (u16) primitive->channelListCount); if (primitive->channelListCount) { CsrMemCpySer(ptr, len, (const void *) primitive->channelList, ((u16) (primitive->channelListCount))); } CsrUint16Ser(ptr, len, (u16) primitive->probeIeLength); if (primitive->probeIeLength) { CsrMemCpySer(ptr, len, (const void *) primitive->probeIe, ((u16) (primitive->probeIeLength))); } return(ptr); } void* CsrWifiSmeScanFullReqDes(u8 *buffer, size_t length) { CsrWifiSmeScanFullReq *primitive = kmalloc(sizeof(CsrWifiSmeScanFullReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->ssidCount, buffer, &offset); primitive->ssid = NULL; if (primitive->ssidCount) { primitive->ssid = kmalloc(sizeof(CsrWifiSsid) * primitive->ssidCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->ssidCount; i1++) { CsrMemCpyDes(primitive->ssid[i1].ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->ssid[i1].length, buffer, &offset); } } CsrMemCpyDes(primitive->bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->forceScan, buffer, &offset); CsrUint8Des((u8 *) &primitive->bssType, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanType, buffer, &offset); CsrUint16Des((u16 *) &primitive->channelListCount, buffer, &offset); if (primitive->channelListCount) { primitive->channelList = kmalloc(primitive->channelListCount, GFP_KERNEL); CsrMemCpyDes(primitive->channelList, buffer, &offset, ((u16) (primitive->channelListCount))); } else { primitive->channelList = NULL; } CsrUint16Des((u16 *) &primitive->probeIeLength, buffer, &offset); if (primitive->probeIeLength) { primitive->probeIe = kmalloc(primitive->probeIeLength, GFP_KERNEL); CsrMemCpyDes(primitive->probeIe, buffer, &offset, ((u16) (primitive->probeIeLength))); } else { primitive->probeIe = NULL; } return primitive; } void CsrWifiSmeScanFullReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeScanFullReq *primitive = (CsrWifiSmeScanFullReq *) voidPrimitivePointer; kfree(primitive->ssid); kfree(primitive->channelList); kfree(primitive->probeIe); kfree(primitive); } size_t CsrWifiSmeSmeStaConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* u8 primitive->smeConfig.connectionQualityRssiChangeTrigger */ bufferSize += 1; /* u8 primitive->smeConfig.connectionQualitySnrChangeTrigger */ bufferSize += 1; /* CsrWifiSmeWmmModeMask primitive->smeConfig.wmmModeMask */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->smeConfig.ifIndex */ bufferSize += 1; /* u8 primitive->smeConfig.allowUnicastUseGroupCipher */ bufferSize += 1; /* u8 primitive->smeConfig.enableOpportunisticKeyCaching */ return bufferSize; } u8* CsrWifiSmeSmeStaConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeSmeStaConfigSetReq *primitive = (CsrWifiSmeSmeStaConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualityRssiChangeTrigger); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualitySnrChangeTrigger); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.wmmModeMask); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.ifIndex); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.allowUnicastUseGroupCipher); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.enableOpportunisticKeyCaching); return(ptr); } void* CsrWifiSmeSmeStaConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeSmeStaConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeSmeStaConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualityRssiChangeTrigger, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualitySnrChangeTrigger, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.wmmModeMask, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.ifIndex, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.allowUnicastUseGroupCipher, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.enableOpportunisticKeyCaching, buffer, &offset); return primitive; } size_t CsrWifiSmeTspecReqSizeof(void *msg) { CsrWifiSmeTspecReq *primitive = (CsrWifiSmeTspecReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 18) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 4; /* u32 primitive->transactionId */ bufferSize += 1; /* u8 primitive->strict */ bufferSize += 1; /* CsrWifiSmeTspecCtrlMask primitive->ctrlMask */ bufferSize += 2; /* u16 primitive->tspecLength */ bufferSize += primitive->tspecLength; /* u8 primitive->tspec */ bufferSize += 2; /* u16 primitive->tclasLength */ bufferSize += primitive->tclasLength; /* u8 primitive->tclas */ return bufferSize; } u8* CsrWifiSmeTspecReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeTspecReq *primitive = (CsrWifiSmeTspecReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint32Ser(ptr, len, (u32) primitive->transactionId); CsrUint8Ser(ptr, len, (u8) primitive->strict); CsrUint8Ser(ptr, len, (u8) primitive->ctrlMask); CsrUint16Ser(ptr, len, (u16) primitive->tspecLength); if (primitive->tspecLength) { CsrMemCpySer(ptr, len, (const void *) primitive->tspec, ((u16) (primitive->tspecLength))); } CsrUint16Ser(ptr, len, (u16) primitive->tclasLength); if (primitive->tclasLength) { CsrMemCpySer(ptr, len, (const void *) primitive->tclas, ((u16) (primitive->tclasLength))); } return(ptr); } void* CsrWifiSmeTspecReqDes(u8 *buffer, size_t length) { CsrWifiSmeTspecReq *primitive = kmalloc(sizeof(CsrWifiSmeTspecReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint32Des((u32 *) &primitive->transactionId, buffer, &offset); CsrUint8Des((u8 *) &primitive->strict, buffer, &offset); CsrUint8Des((u8 *) &primitive->ctrlMask, buffer, &offset); CsrUint16Des((u16 *) &primitive->tspecLength, buffer, &offset); if (primitive->tspecLength) { primitive->tspec = kmalloc(primitive->tspecLength, GFP_KERNEL); CsrMemCpyDes(primitive->tspec, buffer, &offset, ((u16) (primitive->tspecLength))); } else { primitive->tspec = NULL; } CsrUint16Des((u16 *) &primitive->tclasLength, buffer, &offset); if (primitive->tclasLength) { primitive->tclas = kmalloc(primitive->tclasLength, GFP_KERNEL); CsrMemCpyDes(primitive->tclas, buffer, &offset, ((u16) (primitive->tclasLength))); } else { primitive->tclas = NULL; } return primitive; } void CsrWifiSmeTspecReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeTspecReq *primitive = (CsrWifiSmeTspecReq *) voidPrimitivePointer; kfree(primitive->tspec); kfree(primitive->tclas); kfree(primitive); } size_t CsrWifiSmeWifiFlightmodeReqSizeof(void *msg) { CsrWifiSmeWifiFlightmodeReq *primitive = (CsrWifiSmeWifiFlightmodeReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 14) */ bufferSize += 6; /* u8 primitive->address.a[6] */ bufferSize += 2; /* u16 primitive->mibFilesCount */ { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { bufferSize += 2; /* u16 primitive->mibFiles[i1].length */ bufferSize += primitive->mibFiles[i1].length; /* u8 primitive->mibFiles[i1].data */ } } return bufferSize; } u8* CsrWifiSmeWifiFlightmodeReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeWifiFlightmodeReq *primitive = (CsrWifiSmeWifiFlightmodeReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->mibFilesCount); { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { CsrUint16Ser(ptr, len, (u16) primitive->mibFiles[i1].length); if (primitive->mibFiles[i1].length) { CsrMemCpySer(ptr, len, (const void *) primitive->mibFiles[i1].data, ((u16) (primitive->mibFiles[i1].length))); } } } return(ptr); } void* CsrWifiSmeWifiFlightmodeReqDes(u8 *buffer, size_t length) { CsrWifiSmeWifiFlightmodeReq *primitive = kmalloc(sizeof(CsrWifiSmeWifiFlightmodeReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->mibFilesCount, buffer, &offset); primitive->mibFiles = NULL; if (primitive->mibFilesCount) { primitive->mibFiles = kmalloc(sizeof(CsrWifiSmeDataBlock) * primitive->mibFilesCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { CsrUint16Des((u16 *) &primitive->mibFiles[i1].length, buffer, &offset); if (primitive->mibFiles[i1].length) { primitive->mibFiles[i1].data = kmalloc(primitive->mibFiles[i1].length, GFP_KERNEL); CsrMemCpyDes(primitive->mibFiles[i1].data, buffer, &offset, ((u16) (primitive->mibFiles[i1].length))); } else { primitive->mibFiles[i1].data = NULL; } } } return primitive; } void CsrWifiSmeWifiFlightmodeReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeWifiFlightmodeReq *primitive = (CsrWifiSmeWifiFlightmodeReq *) voidPrimitivePointer; { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { kfree(primitive->mibFiles[i1].data); } } kfree(primitive->mibFiles); kfree(primitive); } size_t CsrWifiSmeWifiOnReqSizeof(void *msg) { CsrWifiSmeWifiOnReq *primitive = (CsrWifiSmeWifiOnReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 14) */ bufferSize += 6; /* u8 primitive->address.a[6] */ bufferSize += 2; /* u16 primitive->mibFilesCount */ { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { bufferSize += 2; /* u16 primitive->mibFiles[i1].length */ bufferSize += primitive->mibFiles[i1].length; /* u8 primitive->mibFiles[i1].data */ } } return bufferSize; } u8* CsrWifiSmeWifiOnReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeWifiOnReq *primitive = (CsrWifiSmeWifiOnReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->mibFilesCount); { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { CsrUint16Ser(ptr, len, (u16) primitive->mibFiles[i1].length); if (primitive->mibFiles[i1].length) { CsrMemCpySer(ptr, len, (const void *) primitive->mibFiles[i1].data, ((u16) (primitive->mibFiles[i1].length))); } } } return(ptr); } void* CsrWifiSmeWifiOnReqDes(u8 *buffer, size_t length) { CsrWifiSmeWifiOnReq *primitive = kmalloc(sizeof(CsrWifiSmeWifiOnReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->mibFilesCount, buffer, &offset); primitive->mibFiles = NULL; if (primitive->mibFilesCount) { primitive->mibFiles = kmalloc(sizeof(CsrWifiSmeDataBlock) * primitive->mibFilesCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { CsrUint16Des((u16 *) &primitive->mibFiles[i1].length, buffer, &offset); if (primitive->mibFiles[i1].length) { primitive->mibFiles[i1].data = kmalloc(primitive->mibFiles[i1].length, GFP_KERNEL); CsrMemCpyDes(primitive->mibFiles[i1].data, buffer, &offset, ((u16) (primitive->mibFiles[i1].length))); } else { primitive->mibFiles[i1].data = NULL; } } } return primitive; } void CsrWifiSmeWifiOnReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeWifiOnReq *primitive = (CsrWifiSmeWifiOnReq *) voidPrimitivePointer; { u16 i1; for (i1 = 0; i1 < primitive->mibFilesCount; i1++) { kfree(primitive->mibFiles[i1].data); } } kfree(primitive->mibFiles); kfree(primitive); } size_t CsrWifiSmeCloakedSsidsSetReqSizeof(void *msg) { CsrWifiSmeCloakedSsidsSetReq *primitive = (CsrWifiSmeCloakedSsidsSetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 37) */ bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsidsCount */ { u16 i2; for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) { bufferSize += 32; /* u8 primitive->cloakedSsids.cloakedSsids[i2].ssid[32] */ bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsids[i2].length */ } } return bufferSize; } u8* CsrWifiSmeCloakedSsidsSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCloakedSsidsSetReq *primitive = (CsrWifiSmeCloakedSsidsSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsidsCount); { u16 i2; for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) { CsrMemCpySer(ptr, len, (const void *) primitive->cloakedSsids.cloakedSsids[i2].ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsids[i2].length); } } return(ptr); } void* CsrWifiSmeCloakedSsidsSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeCloakedSsidsSetReq *primitive = kmalloc(sizeof(CsrWifiSmeCloakedSsidsSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsidsCount, buffer, &offset); primitive->cloakedSsids.cloakedSsids = NULL; if (primitive->cloakedSsids.cloakedSsidsCount) { primitive->cloakedSsids.cloakedSsids = kmalloc(sizeof(CsrWifiSsid) * primitive->cloakedSsids.cloakedSsidsCount, GFP_KERNEL); } { u16 i2; for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) { CsrMemCpyDes(primitive->cloakedSsids.cloakedSsids[i2].ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsids[i2].length, buffer, &offset); } } return primitive; } void CsrWifiSmeCloakedSsidsSetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeCloakedSsidsSetReq *primitive = (CsrWifiSmeCloakedSsidsSetReq *) voidPrimitivePointer; kfree(primitive->cloakedSsids.cloakedSsids); kfree(primitive); } size_t CsrWifiSmeSmeCommonConfigSetReqSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 1; /* CsrWifiSme80211dTrustLevel primitive->deviceConfig.trustLevel */ bufferSize += 2; /* u8 primitive->deviceConfig.countryCode[2] */ bufferSize += 1; /* CsrWifiSmeFirmwareDriverInterface primitive->deviceConfig.firmwareDriverInterface */ bufferSize += 1; /* u8 primitive->deviceConfig.enableStrictDraftN */ return bufferSize; } u8* CsrWifiSmeSmeCommonConfigSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeSmeCommonConfigSetReq *primitive = (CsrWifiSmeSmeCommonConfigSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.trustLevel); CsrMemCpySer(ptr, len, (const void *) primitive->deviceConfig.countryCode, ((u16) (2))); CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.firmwareDriverInterface); CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.enableStrictDraftN); return(ptr); } void* CsrWifiSmeSmeCommonConfigSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeSmeCommonConfigSetReq *primitive = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->deviceConfig.trustLevel, buffer, &offset); CsrMemCpyDes(primitive->deviceConfig.countryCode, buffer, &offset, ((u16) (2))); CsrUint8Des((u8 *) &primitive->deviceConfig.firmwareDriverInterface, buffer, &offset); CsrUint8Des((u8 *) &primitive->deviceConfig.enableStrictDraftN, buffer, &offset); return primitive; } size_t CsrWifiSmeWpsConfigurationReqSizeof(void *msg) { CsrWifiSmeWpsConfigurationReq *primitive = (CsrWifiSmeWpsConfigurationReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 240) */ bufferSize += 1; /* u8 primitive->wpsConfig.wpsVersion */ bufferSize += 16; /* u8 primitive->wpsConfig.uuid[16] */ bufferSize += 32; /* u8 primitive->wpsConfig.deviceName[32] */ bufferSize += 1; /* u8 primitive->wpsConfig.deviceNameLength */ bufferSize += 64; /* u8 primitive->wpsConfig.manufacturer[64] */ bufferSize += 1; /* u8 primitive->wpsConfig.manufacturerLength */ bufferSize += 32; /* u8 primitive->wpsConfig.modelName[32] */ bufferSize += 1; /* u8 primitive->wpsConfig.modelNameLength */ bufferSize += 32; /* u8 primitive->wpsConfig.modelNumber[32] */ bufferSize += 1; /* u8 primitive->wpsConfig.modelNumberLength */ bufferSize += 32; /* u8 primitive->wpsConfig.serialNumber[32] */ bufferSize += 8; /* u8 primitive->wpsConfig.primDeviceType.deviceDetails[8] */ bufferSize += 1; /* u8 primitive->wpsConfig.secondaryDeviceTypeCount */ { u16 i2; for (i2 = 0; i2 < primitive->wpsConfig.secondaryDeviceTypeCount; i2++) { bufferSize += 8; /* u8 primitive->wpsConfig.secondaryDeviceType[i2].deviceDetails[8] */ } } bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->wpsConfig.configMethods */ bufferSize += 1; /* u8 primitive->wpsConfig.rfBands */ bufferSize += 4; /* u8 primitive->wpsConfig.osVersion[4] */ return bufferSize; } u8* CsrWifiSmeWpsConfigurationReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeWpsConfigurationReq *primitive = (CsrWifiSmeWpsConfigurationReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.wpsVersion); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.uuid, ((u16) (16))); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.deviceName, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.deviceNameLength); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.manufacturer, ((u16) (64))); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.manufacturerLength); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.modelName, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.modelNameLength); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.modelNumber, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.modelNumberLength); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.serialNumber, ((u16) (32))); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.primDeviceType.deviceDetails, ((u16) (8))); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.secondaryDeviceTypeCount); { u16 i2; for (i2 = 0; i2 < primitive->wpsConfig.secondaryDeviceTypeCount; i2++) { CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.secondaryDeviceType[i2].deviceDetails, ((u16) (8))); } } CsrUint16Ser(ptr, len, (u16) primitive->wpsConfig.configMethods); CsrUint8Ser(ptr, len, (u8) primitive->wpsConfig.rfBands); CsrMemCpySer(ptr, len, (const void *) primitive->wpsConfig.osVersion, ((u16) (4))); return(ptr); } void* CsrWifiSmeWpsConfigurationReqDes(u8 *buffer, size_t length) { CsrWifiSmeWpsConfigurationReq *primitive = kmalloc(sizeof(CsrWifiSmeWpsConfigurationReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint8Des((u8 *) &primitive->wpsConfig.wpsVersion, buffer, &offset); CsrMemCpyDes(primitive->wpsConfig.uuid, buffer, &offset, ((u16) (16))); CsrMemCpyDes(primitive->wpsConfig.deviceName, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->wpsConfig.deviceNameLength, buffer, &offset); CsrMemCpyDes(primitive->wpsConfig.manufacturer, buffer, &offset, ((u16) (64))); CsrUint8Des((u8 *) &primitive->wpsConfig.manufacturerLength, buffer, &offset); CsrMemCpyDes(primitive->wpsConfig.modelName, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->wpsConfig.modelNameLength, buffer, &offset); CsrMemCpyDes(primitive->wpsConfig.modelNumber, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->wpsConfig.modelNumberLength, buffer, &offset); CsrMemCpyDes(primitive->wpsConfig.serialNumber, buffer, &offset, ((u16) (32))); CsrMemCpyDes(primitive->wpsConfig.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); CsrUint8Des((u8 *) &primitive->wpsConfig.secondaryDeviceTypeCount, buffer, &offset); primitive->wpsConfig.secondaryDeviceType = NULL; if (primitive->wpsConfig.secondaryDeviceTypeCount) { primitive->wpsConfig.secondaryDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->wpsConfig.secondaryDeviceTypeCount, GFP_KERNEL); } { u16 i2; for (i2 = 0; i2 < primitive->wpsConfig.secondaryDeviceTypeCount; i2++) { CsrMemCpyDes(primitive->wpsConfig.secondaryDeviceType[i2].deviceDetails, buffer, &offset, ((u16) (8))); } } CsrUint16Des((u16 *) &primitive->wpsConfig.configMethods, buffer, &offset); CsrUint8Des((u8 *) &primitive->wpsConfig.rfBands, buffer, &offset); CsrMemCpyDes(primitive->wpsConfig.osVersion, buffer, &offset, ((u16) (4))); return primitive; } void CsrWifiSmeWpsConfigurationReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeWpsConfigurationReq *primitive = (CsrWifiSmeWpsConfigurationReq *) voidPrimitivePointer; kfree(primitive->wpsConfig.secondaryDeviceType); kfree(primitive); } size_t CsrWifiSmeSetReqSizeof(void *msg) { CsrWifiSmeSetReq *primitive = (CsrWifiSmeSetReq *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 4; /* u32 primitive->dataLength */ bufferSize += primitive->dataLength; /* u8 primitive->data */ return bufferSize; } u8* CsrWifiSmeSetReqSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeSetReq *primitive = (CsrWifiSmeSetReq *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint32Ser(ptr, len, (u32) primitive->dataLength); if (primitive->dataLength) { CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); } return(ptr); } void* CsrWifiSmeSetReqDes(u8 *buffer, size_t length) { CsrWifiSmeSetReq *primitive = kmalloc(sizeof(CsrWifiSmeSetReq), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint32Des((u32 *) &primitive->dataLength, buffer, &offset); if (primitive->dataLength) { primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); } else { primitive->data = NULL; } return primitive; } void CsrWifiSmeSetReqSerFree(void *voidPrimitivePointer) { CsrWifiSmeSetReq *primitive = (CsrWifiSmeSetReq *) voidPrimitivePointer; kfree(primitive->data); kfree(primitive); } size_t CsrWifiSmeAdhocConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* u16 primitive->adHocConfig.atimWindowTu */ bufferSize += 2; /* u16 primitive->adHocConfig.beaconPeriodTu */ bufferSize += 2; /* u16 primitive->adHocConfig.joinOnlyAttempts */ bufferSize += 2; /* u16 primitive->adHocConfig.joinAttemptIntervalMs */ return bufferSize; } u8* CsrWifiSmeAdhocConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeAdhocConfigGetCfm *primitive = (CsrWifiSmeAdhocConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.atimWindowTu); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.beaconPeriodTu); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinOnlyAttempts); CsrUint16Ser(ptr, len, (u16) primitive->adHocConfig.joinAttemptIntervalMs); return(ptr); } void* CsrWifiSmeAdhocConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeAdhocConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeAdhocConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.atimWindowTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.beaconPeriodTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.joinOnlyAttempts, buffer, &offset); CsrUint16Des((u16 *) &primitive->adHocConfig.joinAttemptIntervalMs, buffer, &offset); return primitive; } size_t CsrWifiSmeAssociationCompleteIndSizeof(void *msg) { CsrWifiSmeAssociationCompleteInd *primitive = (CsrWifiSmeAssociationCompleteInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 98) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 32; /* u8 primitive->connectionInfo.ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->connectionInfo.ssid.length */ bufferSize += 6; /* u8 primitive->connectionInfo.bssid.a[6] */ bufferSize += 1; /* CsrWifiSme80211NetworkType primitive->connectionInfo.networkType80211 */ bufferSize += 1; /* u8 primitive->connectionInfo.channelNumber */ bufferSize += 2; /* u16 primitive->connectionInfo.channelFrequency */ bufferSize += 2; /* CsrWifiSmeAuthMode primitive->connectionInfo.authMode */ bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.pairwiseCipher */ bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.groupCipher */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionInfo.ifIndex */ bufferSize += 2; /* u16 primitive->connectionInfo.atimWindowTu */ bufferSize += 2; /* u16 primitive->connectionInfo.beaconPeriodTu */ bufferSize += 1; /* u8 primitive->connectionInfo.reassociation */ bufferSize += 2; /* u16 primitive->connectionInfo.beaconFrameLength */ bufferSize += primitive->connectionInfo.beaconFrameLength; /* u8 primitive->connectionInfo.beaconFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.associationReqFrameLength */ bufferSize += primitive->connectionInfo.associationReqFrameLength; /* u8 primitive->connectionInfo.associationReqFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.associationRspFrameLength */ bufferSize += primitive->connectionInfo.associationRspFrameLength; /* u8 primitive->connectionInfo.associationRspFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.assocScanInfoElementsLength */ bufferSize += primitive->connectionInfo.assocScanInfoElementsLength; /* u8 primitive->connectionInfo.assocScanInfoElements */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqCapabilities */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqListenIntervalTu */ bufferSize += 6; /* u8 primitive->connectionInfo.assocReqApAddress.a[6] */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqInfoElementsLength */ bufferSize += primitive->connectionInfo.assocReqInfoElementsLength; /* u8 primitive->connectionInfo.assocReqInfoElements */ bufferSize += 2; /* CsrWifiSmeIEEE80211Result primitive->connectionInfo.assocRspResult */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspCapabilityInfo */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspAssociationId */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspInfoElementsLength */ bufferSize += primitive->connectionInfo.assocRspInfoElementsLength; /* u8 primitive->connectionInfo.assocRspInfoElements */ bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->deauthReason */ return bufferSize; } u8* CsrWifiSmeAssociationCompleteIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeAssociationCompleteInd *primitive = (CsrWifiSmeAssociationCompleteInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.networkType80211); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.channelNumber); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.channelFrequency); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.authMode); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.pairwiseCipher); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.groupCipher); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ifIndex); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.atimWindowTu); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconPeriodTu); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.reassociation); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconFrameLength); if (primitive->connectionInfo.beaconFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.beaconFrame, ((u16) (primitive->connectionInfo.beaconFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationReqFrameLength); if (primitive->connectionInfo.associationReqFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationReqFrame, ((u16) (primitive->connectionInfo.associationReqFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationRspFrameLength); if (primitive->connectionInfo.associationRspFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationRspFrame, ((u16) (primitive->connectionInfo.associationRspFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocScanInfoElementsLength); if (primitive->connectionInfo.assocScanInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocScanInfoElements, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqCapabilities); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqListenIntervalTu); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqApAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqInfoElementsLength); if (primitive->connectionInfo.assocReqInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqInfoElements, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspResult); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspCapabilityInfo); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspAssociationId); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspInfoElementsLength); if (primitive->connectionInfo.assocRspInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocRspInfoElements, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->deauthReason); return(ptr); } void* CsrWifiSmeAssociationCompleteIndDes(u8 *buffer, size_t length) { CsrWifiSmeAssociationCompleteInd *primitive = kmalloc(sizeof(CsrWifiSmeAssociationCompleteInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->connectionInfo.ssid.length, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->connectionInfo.networkType80211, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.channelNumber, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.channelFrequency, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.authMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.pairwiseCipher, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.groupCipher, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.ifIndex, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.atimWindowTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.beaconPeriodTu, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.reassociation, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.beaconFrameLength, buffer, &offset); if (primitive->connectionInfo.beaconFrameLength) { primitive->connectionInfo.beaconFrame = kmalloc(primitive->connectionInfo.beaconFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.beaconFrame, buffer, &offset, ((u16) (primitive->connectionInfo.beaconFrameLength))); } else { primitive->connectionInfo.beaconFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.associationReqFrameLength, buffer, &offset); if (primitive->connectionInfo.associationReqFrameLength) { primitive->connectionInfo.associationReqFrame = kmalloc(primitive->connectionInfo.associationReqFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.associationReqFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationReqFrameLength))); } else { primitive->connectionInfo.associationReqFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.associationRspFrameLength, buffer, &offset); if (primitive->connectionInfo.associationRspFrameLength) { primitive->connectionInfo.associationRspFrame = kmalloc(primitive->connectionInfo.associationRspFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.associationRspFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationRspFrameLength))); } else { primitive->connectionInfo.associationRspFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocScanInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocScanInfoElementsLength) { primitive->connectionInfo.assocScanInfoElements = kmalloc(primitive->connectionInfo.assocScanInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocScanInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); } else { primitive->connectionInfo.assocScanInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqCapabilities, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqListenIntervalTu, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.assocReqApAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocReqInfoElementsLength) { primitive->connectionInfo.assocReqInfoElements = kmalloc(primitive->connectionInfo.assocReqInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocReqInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); } else { primitive->connectionInfo.assocReqInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspResult, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspCapabilityInfo, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspAssociationId, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocRspInfoElementsLength) { primitive->connectionInfo.assocRspInfoElements = kmalloc(primitive->connectionInfo.assocRspInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocRspInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); } else { primitive->connectionInfo.assocRspInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->deauthReason, buffer, &offset); return primitive; } void CsrWifiSmeAssociationCompleteIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeAssociationCompleteInd *primitive = (CsrWifiSmeAssociationCompleteInd *) voidPrimitivePointer; kfree(primitive->connectionInfo.beaconFrame); kfree(primitive->connectionInfo.associationReqFrame); kfree(primitive->connectionInfo.associationRspFrame); kfree(primitive->connectionInfo.assocScanInfoElements); kfree(primitive->connectionInfo.assocReqInfoElements); kfree(primitive->connectionInfo.assocRspInfoElements); kfree(primitive); } size_t CsrWifiSmeAssociationStartIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 44) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 6; /* u8 primitive->address.a[6] */ bufferSize += 32; /* u8 primitive->ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->ssid.length */ return bufferSize; } u8* CsrWifiSmeAssociationStartIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeAssociationStartInd *primitive = (CsrWifiSmeAssociationStartInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); CsrMemCpySer(ptr, len, (const void *) primitive->ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->ssid.length); return(ptr); } void* CsrWifiSmeAssociationStartIndDes(u8 *buffer, size_t length) { CsrWifiSmeAssociationStartInd *primitive = kmalloc(sizeof(CsrWifiSmeAssociationStartInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); CsrMemCpyDes(primitive->ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->ssid.length, buffer, &offset); return primitive; } size_t CsrWifiSmeBlacklistCfmSizeof(void *msg) { CsrWifiSmeBlacklistCfm *primitive = (CsrWifiSmeBlacklistCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* u8 primitive->getAddressCount */ { u16 i1; for (i1 = 0; i1 < primitive->getAddressCount; i1++) { bufferSize += 6; /* u8 primitive->getAddresses[i1].a[6] */ } } return bufferSize; } u8* CsrWifiSmeBlacklistCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeBlacklistCfm *primitive = (CsrWifiSmeBlacklistCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->getAddressCount); { u16 i1; for (i1 = 0; i1 < primitive->getAddressCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->getAddresses[i1].a, ((u16) (6))); } } return(ptr); } void* CsrWifiSmeBlacklistCfmDes(u8 *buffer, size_t length) { CsrWifiSmeBlacklistCfm *primitive = kmalloc(sizeof(CsrWifiSmeBlacklistCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->getAddressCount, buffer, &offset); primitive->getAddresses = NULL; if (primitive->getAddressCount) { primitive->getAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->getAddressCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->getAddressCount; i1++) { CsrMemCpyDes(primitive->getAddresses[i1].a, buffer, &offset, ((u16) (6))); } } return primitive; } void CsrWifiSmeBlacklistCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeBlacklistCfm *primitive = (CsrWifiSmeBlacklistCfm *) voidPrimitivePointer; kfree(primitive->getAddresses); kfree(primitive); } size_t CsrWifiSmeCalibrationDataGetCfmSizeof(void *msg) { CsrWifiSmeCalibrationDataGetCfm *primitive = (CsrWifiSmeCalibrationDataGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* u16 primitive->calibrationDataLength */ bufferSize += primitive->calibrationDataLength; /* u8 primitive->calibrationData */ return bufferSize; } u8* CsrWifiSmeCalibrationDataGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCalibrationDataGetCfm *primitive = (CsrWifiSmeCalibrationDataGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->calibrationDataLength); if (primitive->calibrationDataLength) { CsrMemCpySer(ptr, len, (const void *) primitive->calibrationData, ((u16) (primitive->calibrationDataLength))); } return(ptr); } void* CsrWifiSmeCalibrationDataGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeCalibrationDataGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCalibrationDataGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->calibrationDataLength, buffer, &offset); if (primitive->calibrationDataLength) { primitive->calibrationData = kmalloc(primitive->calibrationDataLength, GFP_KERNEL); CsrMemCpyDes(primitive->calibrationData, buffer, &offset, ((u16) (primitive->calibrationDataLength))); } else { primitive->calibrationData = NULL; } return primitive; } void CsrWifiSmeCalibrationDataGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeCalibrationDataGetCfm *primitive = (CsrWifiSmeCalibrationDataGetCfm *) voidPrimitivePointer; kfree(primitive->calibrationData); kfree(primitive); } size_t CsrWifiSmeCcxConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->ccxConfig.keepAliveTimeMs */ bufferSize += 1; /* u8 primitive->ccxConfig.apRoamingEnabled */ bufferSize += 1; /* u8 primitive->ccxConfig.measurementsMask */ bufferSize += 1; /* u8 primitive->ccxConfig.ccxRadioMgtEnabled */ return bufferSize; } u8* CsrWifiSmeCcxConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCcxConfigGetCfm *primitive = (CsrWifiSmeCcxConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.keepAliveTimeMs); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.apRoamingEnabled); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.measurementsMask); CsrUint8Ser(ptr, len, (u8) primitive->ccxConfig.ccxRadioMgtEnabled); return(ptr); } void* CsrWifiSmeCcxConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeCcxConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCcxConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.keepAliveTimeMs, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.apRoamingEnabled, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.measurementsMask, buffer, &offset); CsrUint8Des((u8 *) &primitive->ccxConfig.ccxRadioMgtEnabled, buffer, &offset); return primitive; } size_t CsrWifiSmeCcxConfigSetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeCcxConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCcxConfigSetCfm *primitive = (CsrWifiSmeCcxConfigSetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeCcxConfigSetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeCcxConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCcxConfigSetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeCoexConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 31) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->coexConfig.coexEnableSchemeManagement */ bufferSize += 1; /* u8 primitive->coexConfig.coexPeriodicWakeHost */ bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficBurstyLatencyMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexTrafficContinuousLatencyMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexObexBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpBrBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexPagingBlackoutPeriodMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutDurationMs */ bufferSize += 2; /* u16 primitive->coexConfig.coexInquiryBlackoutPeriodMs */ return bufferSize; } u8* CsrWifiSmeCoexConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCoexConfigGetCfm *primitive = (CsrWifiSmeCoexConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexEnableSchemeManagement); CsrUint8Ser(ptr, len, (u8) primitive->coexConfig.coexPeriodicWakeHost); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficBurstyLatencyMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexTrafficContinuousLatencyMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexObexBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpBrBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexPagingBlackoutPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutDurationMs); CsrUint16Ser(ptr, len, (u16) primitive->coexConfig.coexInquiryBlackoutPeriodMs); return(ptr); } void* CsrWifiSmeCoexConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeCoexConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCoexConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexConfig.coexEnableSchemeManagement, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexConfig.coexPeriodicWakeHost, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficBurstyLatencyMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexTrafficContinuousLatencyMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexObexBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpBrBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexA2dpEdrBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexPagingBlackoutPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutDurationMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexConfig.coexInquiryBlackoutPeriodMs, buffer, &offset); return primitive; } size_t CsrWifiSmeCoexInfoGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 24) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->coexInfo.hasTrafficData */ bufferSize += 1; /* CsrWifiSmeTrafficType primitive->coexInfo.currentTrafficType */ bufferSize += 2; /* u16 primitive->coexInfo.currentPeriodMs */ bufferSize += 1; /* CsrWifiSmePowerSaveLevel primitive->coexInfo.currentPowerSave */ bufferSize += 2; /* u16 primitive->coexInfo.currentCoexPeriodMs */ bufferSize += 2; /* u16 primitive->coexInfo.currentCoexLatencyMs */ bufferSize += 1; /* u8 primitive->coexInfo.hasBtDevice */ bufferSize += 4; /* u32 primitive->coexInfo.currentBlackoutDurationUs */ bufferSize += 4; /* u32 primitive->coexInfo.currentBlackoutPeriodUs */ bufferSize += 1; /* CsrWifiSmeCoexScheme primitive->coexInfo.currentCoexScheme */ return bufferSize; } u8* CsrWifiSmeCoexInfoGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCoexInfoGetCfm *primitive = (CsrWifiSmeCoexInfoGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.hasTrafficData); CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.currentTrafficType); CsrUint16Ser(ptr, len, (u16) primitive->coexInfo.currentPeriodMs); CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.currentPowerSave); CsrUint16Ser(ptr, len, (u16) primitive->coexInfo.currentCoexPeriodMs); CsrUint16Ser(ptr, len, (u16) primitive->coexInfo.currentCoexLatencyMs); CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.hasBtDevice); CsrUint32Ser(ptr, len, (u32) primitive->coexInfo.currentBlackoutDurationUs); CsrUint32Ser(ptr, len, (u32) primitive->coexInfo.currentBlackoutPeriodUs); CsrUint8Ser(ptr, len, (u8) primitive->coexInfo.currentCoexScheme); return(ptr); } void* CsrWifiSmeCoexInfoGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeCoexInfoGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCoexInfoGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexInfo.hasTrafficData, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexInfo.currentTrafficType, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexInfo.currentPeriodMs, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexInfo.currentPowerSave, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexInfo.currentCoexPeriodMs, buffer, &offset); CsrUint16Des((u16 *) &primitive->coexInfo.currentCoexLatencyMs, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexInfo.hasBtDevice, buffer, &offset); CsrUint32Des((u32 *) &primitive->coexInfo.currentBlackoutDurationUs, buffer, &offset); CsrUint32Des((u32 *) &primitive->coexInfo.currentBlackoutPeriodUs, buffer, &offset); CsrUint8Des((u8 *) &primitive->coexInfo.currentCoexScheme, buffer, &offset); return primitive; } size_t CsrWifiSmeConnectCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeConnectCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeConnectCfm *primitive = (CsrWifiSmeConnectCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeConnectCfmDes(u8 *buffer, size_t length) { CsrWifiSmeConnectCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeConnectionConfigGetCfmSizeof(void *msg) { CsrWifiSmeConnectionConfigGetCfm *primitive = (CsrWifiSmeConnectionConfigGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 59) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 32; /* u8 primitive->connectionConfig.ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->connectionConfig.ssid.length */ bufferSize += 6; /* u8 primitive->connectionConfig.bssid.a[6] */ bufferSize += 1; /* CsrWifiSmeBssType primitive->connectionConfig.bssType */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionConfig.ifIndex */ bufferSize += 1; /* CsrWifiSme80211PrivacyMode primitive->connectionConfig.privacyMode */ bufferSize += 2; /* CsrWifiSmeAuthModeMask primitive->connectionConfig.authModeMask */ bufferSize += 2; /* CsrWifiSmeEncryptionMask primitive->connectionConfig.encryptionModeMask */ bufferSize += 2; /* u16 primitive->connectionConfig.mlmeAssociateReqInformationElementsLength */ bufferSize += primitive->connectionConfig.mlmeAssociateReqInformationElementsLength; /* u8 primitive->connectionConfig.mlmeAssociateReqInformationElements */ bufferSize += 1; /* CsrWifiSmeWmmQosInfoMask primitive->connectionConfig.wmmQosInfo */ bufferSize += 1; /* u8 primitive->connectionConfig.adhocJoinOnly */ bufferSize += 1; /* u8 primitive->connectionConfig.adhocChannel */ return bufferSize; } u8* CsrWifiSmeConnectionConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeConnectionConfigGetCfm *primitive = (CsrWifiSmeConnectionConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.bssType); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.ifIndex); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.privacyMode); CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.authModeMask); CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.encryptionModeMask); CsrUint16Ser(ptr, len, (u16) primitive->connectionConfig.mlmeAssociateReqInformationElementsLength); if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionConfig.mlmeAssociateReqInformationElements, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); } CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.wmmQosInfo); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocJoinOnly); CsrUint8Ser(ptr, len, (u8) primitive->connectionConfig.adhocChannel); return(ptr); } void* CsrWifiSmeConnectionConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeConnectionConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectionConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrMemCpyDes(primitive->connectionConfig.ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->connectionConfig.ssid.length, buffer, &offset); CsrMemCpyDes(primitive->connectionConfig.bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->connectionConfig.bssType, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.ifIndex, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.privacyMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionConfig.authModeMask, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionConfig.encryptionModeMask, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, buffer, &offset); if (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength) { primitive->connectionConfig.mlmeAssociateReqInformationElements = kmalloc(primitive->connectionConfig.mlmeAssociateReqInformationElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionConfig.mlmeAssociateReqInformationElements, buffer, &offset, ((u16) (primitive->connectionConfig.mlmeAssociateReqInformationElementsLength))); } else { primitive->connectionConfig.mlmeAssociateReqInformationElements = NULL; } CsrUint8Des((u8 *) &primitive->connectionConfig.wmmQosInfo, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.adhocJoinOnly, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionConfig.adhocChannel, buffer, &offset); return primitive; } void CsrWifiSmeConnectionConfigGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeConnectionConfigGetCfm *primitive = (CsrWifiSmeConnectionConfigGetCfm *) voidPrimitivePointer; kfree(primitive->connectionConfig.mlmeAssociateReqInformationElements); kfree(primitive); } size_t CsrWifiSmeConnectionInfoGetCfmSizeof(void *msg) { CsrWifiSmeConnectionInfoGetCfm *primitive = (CsrWifiSmeConnectionInfoGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 96) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 32; /* u8 primitive->connectionInfo.ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->connectionInfo.ssid.length */ bufferSize += 6; /* u8 primitive->connectionInfo.bssid.a[6] */ bufferSize += 1; /* CsrWifiSme80211NetworkType primitive->connectionInfo.networkType80211 */ bufferSize += 1; /* u8 primitive->connectionInfo.channelNumber */ bufferSize += 2; /* u16 primitive->connectionInfo.channelFrequency */ bufferSize += 2; /* CsrWifiSmeAuthMode primitive->connectionInfo.authMode */ bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.pairwiseCipher */ bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.groupCipher */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionInfo.ifIndex */ bufferSize += 2; /* u16 primitive->connectionInfo.atimWindowTu */ bufferSize += 2; /* u16 primitive->connectionInfo.beaconPeriodTu */ bufferSize += 1; /* u8 primitive->connectionInfo.reassociation */ bufferSize += 2; /* u16 primitive->connectionInfo.beaconFrameLength */ bufferSize += primitive->connectionInfo.beaconFrameLength; /* u8 primitive->connectionInfo.beaconFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.associationReqFrameLength */ bufferSize += primitive->connectionInfo.associationReqFrameLength; /* u8 primitive->connectionInfo.associationReqFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.associationRspFrameLength */ bufferSize += primitive->connectionInfo.associationRspFrameLength; /* u8 primitive->connectionInfo.associationRspFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.assocScanInfoElementsLength */ bufferSize += primitive->connectionInfo.assocScanInfoElementsLength; /* u8 primitive->connectionInfo.assocScanInfoElements */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqCapabilities */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqListenIntervalTu */ bufferSize += 6; /* u8 primitive->connectionInfo.assocReqApAddress.a[6] */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqInfoElementsLength */ bufferSize += primitive->connectionInfo.assocReqInfoElementsLength; /* u8 primitive->connectionInfo.assocReqInfoElements */ bufferSize += 2; /* CsrWifiSmeIEEE80211Result primitive->connectionInfo.assocRspResult */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspCapabilityInfo */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspAssociationId */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspInfoElementsLength */ bufferSize += primitive->connectionInfo.assocRspInfoElementsLength; /* u8 primitive->connectionInfo.assocRspInfoElements */ return bufferSize; } u8* CsrWifiSmeConnectionInfoGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeConnectionInfoGetCfm *primitive = (CsrWifiSmeConnectionInfoGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.networkType80211); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.channelNumber); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.channelFrequency); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.authMode); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.pairwiseCipher); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.groupCipher); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ifIndex); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.atimWindowTu); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconPeriodTu); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.reassociation); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconFrameLength); if (primitive->connectionInfo.beaconFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.beaconFrame, ((u16) (primitive->connectionInfo.beaconFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationReqFrameLength); if (primitive->connectionInfo.associationReqFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationReqFrame, ((u16) (primitive->connectionInfo.associationReqFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationRspFrameLength); if (primitive->connectionInfo.associationRspFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationRspFrame, ((u16) (primitive->connectionInfo.associationRspFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocScanInfoElementsLength); if (primitive->connectionInfo.assocScanInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocScanInfoElements, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqCapabilities); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqListenIntervalTu); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqApAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqInfoElementsLength); if (primitive->connectionInfo.assocReqInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqInfoElements, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspResult); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspCapabilityInfo); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspAssociationId); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspInfoElementsLength); if (primitive->connectionInfo.assocRspInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocRspInfoElements, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); } return(ptr); } void* CsrWifiSmeConnectionInfoGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeConnectionInfoGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectionInfoGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->connectionInfo.ssid.length, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->connectionInfo.networkType80211, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.channelNumber, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.channelFrequency, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.authMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.pairwiseCipher, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.groupCipher, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.ifIndex, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.atimWindowTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.beaconPeriodTu, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.reassociation, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.beaconFrameLength, buffer, &offset); if (primitive->connectionInfo.beaconFrameLength) { primitive->connectionInfo.beaconFrame = kmalloc(primitive->connectionInfo.beaconFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.beaconFrame, buffer, &offset, ((u16) (primitive->connectionInfo.beaconFrameLength))); } else { primitive->connectionInfo.beaconFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.associationReqFrameLength, buffer, &offset); if (primitive->connectionInfo.associationReqFrameLength) { primitive->connectionInfo.associationReqFrame = kmalloc(primitive->connectionInfo.associationReqFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.associationReqFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationReqFrameLength))); } else { primitive->connectionInfo.associationReqFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.associationRspFrameLength, buffer, &offset); if (primitive->connectionInfo.associationRspFrameLength) { primitive->connectionInfo.associationRspFrame = kmalloc(primitive->connectionInfo.associationRspFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.associationRspFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationRspFrameLength))); } else { primitive->connectionInfo.associationRspFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocScanInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocScanInfoElementsLength) { primitive->connectionInfo.assocScanInfoElements = kmalloc(primitive->connectionInfo.assocScanInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocScanInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); } else { primitive->connectionInfo.assocScanInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqCapabilities, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqListenIntervalTu, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.assocReqApAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocReqInfoElementsLength) { primitive->connectionInfo.assocReqInfoElements = kmalloc(primitive->connectionInfo.assocReqInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocReqInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); } else { primitive->connectionInfo.assocReqInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspResult, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspCapabilityInfo, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspAssociationId, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocRspInfoElementsLength) { primitive->connectionInfo.assocRspInfoElements = kmalloc(primitive->connectionInfo.assocRspInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocRspInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); } else { primitive->connectionInfo.assocRspInfoElements = NULL; } return primitive; } void CsrWifiSmeConnectionInfoGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeConnectionInfoGetCfm *primitive = (CsrWifiSmeConnectionInfoGetCfm *) voidPrimitivePointer; kfree(primitive->connectionInfo.beaconFrame); kfree(primitive->connectionInfo.associationReqFrame); kfree(primitive->connectionInfo.associationRspFrame); kfree(primitive->connectionInfo.assocScanInfoElements); kfree(primitive->connectionInfo.assocReqInfoElements); kfree(primitive->connectionInfo.assocRspInfoElements); kfree(primitive); } size_t CsrWifiSmeConnectionQualityIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* s16 primitive->linkQuality.unifiRssi */ bufferSize += 2; /* s16 primitive->linkQuality.unifiSnr */ return bufferSize; } u8* CsrWifiSmeConnectionQualityIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeConnectionQualityInd *primitive = (CsrWifiSmeConnectionQualityInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiRssi); CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiSnr); return(ptr); } void* CsrWifiSmeConnectionQualityIndDes(u8 *buffer, size_t length) { CsrWifiSmeConnectionQualityInd *primitive = kmalloc(sizeof(CsrWifiSmeConnectionQualityInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->linkQuality.unifiRssi, buffer, &offset); CsrUint16Des((u16 *) &primitive->linkQuality.unifiSnr, buffer, &offset); return primitive; } size_t CsrWifiSmeConnectionStatsGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 101) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->connectionStats.unifiTxDataRate */ bufferSize += 1; /* u8 primitive->connectionStats.unifiRxDataRate */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RetryCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11MultipleRetryCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11AckFailureCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11FrameDuplicateCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11FcsErrorCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RtsSuccessCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RtsFailureCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11FailedCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11TransmittedFragmentCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11TransmittedFrameCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11WepExcludedCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11WepIcvErrorCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11WepUndecryptableCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11MulticastReceivedFrameCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11MulticastTransmittedFrameCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11ReceivedFragmentCount */ bufferSize += 4; /* u32 primitive->connectionStats.dot11Rsna4WayHandshakeFailures */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaTkipCounterMeasuresInvoked */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsTkipLocalMicFailures */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsTkipReplays */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsTkipIcvErrors */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsCcmpReplays */ bufferSize += 4; /* u32 primitive->connectionStats.dot11RsnaStatsCcmpDecryptErrors */ return bufferSize; } u8* CsrWifiSmeConnectionStatsGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeConnectionStatsGetCfm *primitive = (CsrWifiSmeConnectionStatsGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->connectionStats.unifiTxDataRate); CsrUint8Ser(ptr, len, (u8) primitive->connectionStats.unifiRxDataRate); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RetryCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11MultipleRetryCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11AckFailureCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11FrameDuplicateCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11FcsErrorCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RtsSuccessCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RtsFailureCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11FailedCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11TransmittedFragmentCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11TransmittedFrameCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11WepExcludedCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11WepIcvErrorCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11WepUndecryptableCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11MulticastReceivedFrameCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11MulticastTransmittedFrameCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11ReceivedFragmentCount); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11Rsna4WayHandshakeFailures); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaTkipCounterMeasuresInvoked); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsTkipLocalMicFailures); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsTkipReplays); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsTkipIcvErrors); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsCcmpReplays); CsrUint32Ser(ptr, len, (u32) primitive->connectionStats.dot11RsnaStatsCcmpDecryptErrors); return(ptr); } void* CsrWifiSmeConnectionStatsGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeConnectionStatsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeConnectionStatsGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionStats.unifiTxDataRate, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionStats.unifiRxDataRate, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RetryCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11MultipleRetryCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11AckFailureCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11FrameDuplicateCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11FcsErrorCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RtsSuccessCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RtsFailureCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11FailedCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11TransmittedFragmentCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11TransmittedFrameCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11WepExcludedCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11WepIcvErrorCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11WepUndecryptableCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11MulticastReceivedFrameCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11MulticastTransmittedFrameCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11ReceivedFragmentCount, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11Rsna4WayHandshakeFailures, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaTkipCounterMeasuresInvoked, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsTkipLocalMicFailures, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsTkipReplays, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsTkipIcvErrors, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsCcmpReplays, buffer, &offset); CsrUint32Des((u32 *) &primitive->connectionStats.dot11RsnaStatsCcmpDecryptErrors, buffer, &offset); return primitive; } size_t CsrWifiSmeDisconnectCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeDisconnectCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeDisconnectCfm *primitive = (CsrWifiSmeDisconnectCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeDisconnectCfmDes(u8 *buffer, size_t length) { CsrWifiSmeDisconnectCfm *primitive = kmalloc(sizeof(CsrWifiSmeDisconnectCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeHostConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSmeHostPowerMode primitive->hostConfig.powerMode */ bufferSize += 2; /* u16 primitive->hostConfig.applicationDataPeriodMs */ return bufferSize; } u8* CsrWifiSmeHostConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeHostConfigGetCfm *primitive = (CsrWifiSmeHostConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->hostConfig.powerMode); CsrUint16Ser(ptr, len, (u16) primitive->hostConfig.applicationDataPeriodMs); return(ptr); } void* CsrWifiSmeHostConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeHostConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeHostConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->hostConfig.powerMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->hostConfig.applicationDataPeriodMs, buffer, &offset); return primitive; } size_t CsrWifiSmeHostConfigSetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeHostConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeHostConfigSetCfm *primitive = (CsrWifiSmeHostConfigSetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeHostConfigSetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeHostConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeHostConfigSetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeIbssStationIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ bufferSize += 6; /* u8 primitive->address.a[6] */ bufferSize += 1; /* u8 primitive->isconnected */ return bufferSize; } u8* CsrWifiSmeIbssStationIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeIbssStationInd *primitive = (CsrWifiSmeIbssStationInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->isconnected); return(ptr); } void* CsrWifiSmeIbssStationIndDes(u8 *buffer, size_t length) { CsrWifiSmeIbssStationInd *primitive = kmalloc(sizeof(CsrWifiSmeIbssStationInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->isconnected, buffer, &offset); return primitive; } size_t CsrWifiSmeKeyCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* CsrWifiSmeKeyType primitive->keyType */ bufferSize += 6; /* u8 primitive->peerMacAddress.a[6] */ return bufferSize; } u8* CsrWifiSmeKeyCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeKeyCfm *primitive = (CsrWifiSmeKeyCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->keyType); CsrMemCpySer(ptr, len, (const void *) primitive->peerMacAddress.a, ((u16) (6))); return(ptr); } void* CsrWifiSmeKeyCfmDes(u8 *buffer, size_t length) { CsrWifiSmeKeyCfm *primitive = kmalloc(sizeof(CsrWifiSmeKeyCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->keyType, buffer, &offset); CsrMemCpyDes(primitive->peerMacAddress.a, buffer, &offset, ((u16) (6))); return primitive; } size_t CsrWifiSmeLinkQualityGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* s16 primitive->linkQuality.unifiRssi */ bufferSize += 2; /* s16 primitive->linkQuality.unifiSnr */ return bufferSize; } u8* CsrWifiSmeLinkQualityGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeLinkQualityGetCfm *primitive = (CsrWifiSmeLinkQualityGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiRssi); CsrUint16Ser(ptr, len, (u16) primitive->linkQuality.unifiSnr); return(ptr); } void* CsrWifiSmeLinkQualityGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeLinkQualityGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeLinkQualityGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->linkQuality.unifiRssi, buffer, &offset); CsrUint16Des((u16 *) &primitive->linkQuality.unifiSnr, buffer, &offset); return primitive; } size_t CsrWifiSmeMediaStatusIndSizeof(void *msg) { CsrWifiSmeMediaStatusInd *primitive = (CsrWifiSmeMediaStatusInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 99) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeMediaStatus primitive->mediaStatus */ bufferSize += 32; /* u8 primitive->connectionInfo.ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->connectionInfo.ssid.length */ bufferSize += 6; /* u8 primitive->connectionInfo.bssid.a[6] */ bufferSize += 1; /* CsrWifiSme80211NetworkType primitive->connectionInfo.networkType80211 */ bufferSize += 1; /* u8 primitive->connectionInfo.channelNumber */ bufferSize += 2; /* u16 primitive->connectionInfo.channelFrequency */ bufferSize += 2; /* CsrWifiSmeAuthMode primitive->connectionInfo.authMode */ bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.pairwiseCipher */ bufferSize += 2; /* CsrWifiSmeEncryption primitive->connectionInfo.groupCipher */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->connectionInfo.ifIndex */ bufferSize += 2; /* u16 primitive->connectionInfo.atimWindowTu */ bufferSize += 2; /* u16 primitive->connectionInfo.beaconPeriodTu */ bufferSize += 1; /* u8 primitive->connectionInfo.reassociation */ bufferSize += 2; /* u16 primitive->connectionInfo.beaconFrameLength */ bufferSize += primitive->connectionInfo.beaconFrameLength; /* u8 primitive->connectionInfo.beaconFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.associationReqFrameLength */ bufferSize += primitive->connectionInfo.associationReqFrameLength; /* u8 primitive->connectionInfo.associationReqFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.associationRspFrameLength */ bufferSize += primitive->connectionInfo.associationRspFrameLength; /* u8 primitive->connectionInfo.associationRspFrame */ bufferSize += 2; /* u16 primitive->connectionInfo.assocScanInfoElementsLength */ bufferSize += primitive->connectionInfo.assocScanInfoElementsLength; /* u8 primitive->connectionInfo.assocScanInfoElements */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqCapabilities */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqListenIntervalTu */ bufferSize += 6; /* u8 primitive->connectionInfo.assocReqApAddress.a[6] */ bufferSize += 2; /* u16 primitive->connectionInfo.assocReqInfoElementsLength */ bufferSize += primitive->connectionInfo.assocReqInfoElementsLength; /* u8 primitive->connectionInfo.assocReqInfoElements */ bufferSize += 2; /* CsrWifiSmeIEEE80211Result primitive->connectionInfo.assocRspResult */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspCapabilityInfo */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspAssociationId */ bufferSize += 2; /* u16 primitive->connectionInfo.assocRspInfoElementsLength */ bufferSize += primitive->connectionInfo.assocRspInfoElementsLength; /* u8 primitive->connectionInfo.assocRspInfoElements */ bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->disassocReason */ bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->deauthReason */ return bufferSize; } u8* CsrWifiSmeMediaStatusIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMediaStatusInd *primitive = (CsrWifiSmeMediaStatusInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->mediaStatus); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.networkType80211); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.channelNumber); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.channelFrequency); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.authMode); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.pairwiseCipher); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.groupCipher); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.ifIndex); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.atimWindowTu); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconPeriodTu); CsrUint8Ser(ptr, len, (u8) primitive->connectionInfo.reassociation); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.beaconFrameLength); if (primitive->connectionInfo.beaconFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.beaconFrame, ((u16) (primitive->connectionInfo.beaconFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationReqFrameLength); if (primitive->connectionInfo.associationReqFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationReqFrame, ((u16) (primitive->connectionInfo.associationReqFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.associationRspFrameLength); if (primitive->connectionInfo.associationRspFrameLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.associationRspFrame, ((u16) (primitive->connectionInfo.associationRspFrameLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocScanInfoElementsLength); if (primitive->connectionInfo.assocScanInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocScanInfoElements, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqCapabilities); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqListenIntervalTu); CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqApAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocReqInfoElementsLength); if (primitive->connectionInfo.assocReqInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocReqInfoElements, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspResult); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspCapabilityInfo); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspAssociationId); CsrUint16Ser(ptr, len, (u16) primitive->connectionInfo.assocRspInfoElementsLength); if (primitive->connectionInfo.assocRspInfoElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->connectionInfo.assocRspInfoElements, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); } CsrUint16Ser(ptr, len, (u16) primitive->disassocReason); CsrUint16Ser(ptr, len, (u16) primitive->deauthReason); return(ptr); } void* CsrWifiSmeMediaStatusIndDes(u8 *buffer, size_t length) { CsrWifiSmeMediaStatusInd *primitive = kmalloc(sizeof(CsrWifiSmeMediaStatusInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->mediaStatus, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->connectionInfo.ssid.length, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->connectionInfo.networkType80211, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.channelNumber, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.channelFrequency, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.authMode, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.pairwiseCipher, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.groupCipher, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.ifIndex, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.atimWindowTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.beaconPeriodTu, buffer, &offset); CsrUint8Des((u8 *) &primitive->connectionInfo.reassociation, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.beaconFrameLength, buffer, &offset); if (primitive->connectionInfo.beaconFrameLength) { primitive->connectionInfo.beaconFrame = kmalloc(primitive->connectionInfo.beaconFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.beaconFrame, buffer, &offset, ((u16) (primitive->connectionInfo.beaconFrameLength))); } else { primitive->connectionInfo.beaconFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.associationReqFrameLength, buffer, &offset); if (primitive->connectionInfo.associationReqFrameLength) { primitive->connectionInfo.associationReqFrame = kmalloc(primitive->connectionInfo.associationReqFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.associationReqFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationReqFrameLength))); } else { primitive->connectionInfo.associationReqFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.associationRspFrameLength, buffer, &offset); if (primitive->connectionInfo.associationRspFrameLength) { primitive->connectionInfo.associationRspFrame = kmalloc(primitive->connectionInfo.associationRspFrameLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.associationRspFrame, buffer, &offset, ((u16) (primitive->connectionInfo.associationRspFrameLength))); } else { primitive->connectionInfo.associationRspFrame = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocScanInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocScanInfoElementsLength) { primitive->connectionInfo.assocScanInfoElements = kmalloc(primitive->connectionInfo.assocScanInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocScanInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocScanInfoElementsLength))); } else { primitive->connectionInfo.assocScanInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqCapabilities, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqListenIntervalTu, buffer, &offset); CsrMemCpyDes(primitive->connectionInfo.assocReqApAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->connectionInfo.assocReqInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocReqInfoElementsLength) { primitive->connectionInfo.assocReqInfoElements = kmalloc(primitive->connectionInfo.assocReqInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocReqInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocReqInfoElementsLength))); } else { primitive->connectionInfo.assocReqInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspResult, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspCapabilityInfo, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspAssociationId, buffer, &offset); CsrUint16Des((u16 *) &primitive->connectionInfo.assocRspInfoElementsLength, buffer, &offset); if (primitive->connectionInfo.assocRspInfoElementsLength) { primitive->connectionInfo.assocRspInfoElements = kmalloc(primitive->connectionInfo.assocRspInfoElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->connectionInfo.assocRspInfoElements, buffer, &offset, ((u16) (primitive->connectionInfo.assocRspInfoElementsLength))); } else { primitive->connectionInfo.assocRspInfoElements = NULL; } CsrUint16Des((u16 *) &primitive->disassocReason, buffer, &offset); CsrUint16Des((u16 *) &primitive->deauthReason, buffer, &offset); return primitive; } void CsrWifiSmeMediaStatusIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeMediaStatusInd *primitive = (CsrWifiSmeMediaStatusInd *) voidPrimitivePointer; kfree(primitive->connectionInfo.beaconFrame); kfree(primitive->connectionInfo.associationReqFrame); kfree(primitive->connectionInfo.associationRspFrame); kfree(primitive->connectionInfo.assocScanInfoElements); kfree(primitive->connectionInfo.assocReqInfoElements); kfree(primitive->connectionInfo.assocRspInfoElements); kfree(primitive); } size_t CsrWifiSmeMibConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->mibConfig.unifiFixMaxTxDataRate */ bufferSize += 1; /* u8 primitive->mibConfig.unifiFixTxDataRate */ bufferSize += 2; /* u16 primitive->mibConfig.dot11RtsThreshold */ bufferSize += 2; /* u16 primitive->mibConfig.dot11FragmentationThreshold */ bufferSize += 2; /* u16 primitive->mibConfig.dot11CurrentTxPowerLevel */ return bufferSize; } u8* CsrWifiSmeMibConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibConfigGetCfm *primitive = (CsrWifiSmeMibConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixMaxTxDataRate); CsrUint8Ser(ptr, len, (u8) primitive->mibConfig.unifiFixTxDataRate); CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11RtsThreshold); CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11FragmentationThreshold); CsrUint16Ser(ptr, len, (u16) primitive->mibConfig.dot11CurrentTxPowerLevel); return(ptr); } void* CsrWifiSmeMibConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeMibConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeMibConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixMaxTxDataRate, buffer, &offset); CsrUint8Des((u8 *) &primitive->mibConfig.unifiFixTxDataRate, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibConfig.dot11RtsThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibConfig.dot11FragmentationThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibConfig.dot11CurrentTxPowerLevel, buffer, &offset); return primitive; } size_t CsrWifiSmeMibGetCfmSizeof(void *msg) { CsrWifiSmeMibGetCfm *primitive = (CsrWifiSmeMibGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* u16 primitive->mibAttributeLength */ bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ return bufferSize; } u8* CsrWifiSmeMibGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibGetCfm *primitive = (CsrWifiSmeMibGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); if (primitive->mibAttributeLength) { CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); } return(ptr); } void* CsrWifiSmeMibGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeMibGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeMibGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); if (primitive->mibAttributeLength) { primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); } else { primitive->mibAttribute = NULL; } return primitive; } void CsrWifiSmeMibGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeMibGetCfm *primitive = (CsrWifiSmeMibGetCfm *) voidPrimitivePointer; kfree(primitive->mibAttribute); kfree(primitive); } size_t CsrWifiSmeMibGetNextCfmSizeof(void *msg) { CsrWifiSmeMibGetNextCfm *primitive = (CsrWifiSmeMibGetNextCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* u16 primitive->mibAttributeLength */ bufferSize += primitive->mibAttributeLength; /* u8 primitive->mibAttribute */ return bufferSize; } u8* CsrWifiSmeMibGetNextCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMibGetNextCfm *primitive = (CsrWifiSmeMibGetNextCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->mibAttributeLength); if (primitive->mibAttributeLength) { CsrMemCpySer(ptr, len, (const void *) primitive->mibAttribute, ((u16) (primitive->mibAttributeLength))); } return(ptr); } void* CsrWifiSmeMibGetNextCfmDes(u8 *buffer, size_t length) { CsrWifiSmeMibGetNextCfm *primitive = kmalloc(sizeof(CsrWifiSmeMibGetNextCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->mibAttributeLength, buffer, &offset); if (primitive->mibAttributeLength) { primitive->mibAttribute = kmalloc(primitive->mibAttributeLength, GFP_KERNEL); CsrMemCpyDes(primitive->mibAttribute, buffer, &offset, ((u16) (primitive->mibAttributeLength))); } else { primitive->mibAttribute = NULL; } return primitive; } void CsrWifiSmeMibGetNextCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeMibGetNextCfm *primitive = (CsrWifiSmeMibGetNextCfm *) voidPrimitivePointer; kfree(primitive->mibAttribute); kfree(primitive); } size_t CsrWifiSmeMicFailureIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* u8 primitive->secondFailure */ bufferSize += 2; /* u16 primitive->count */ bufferSize += 6; /* u8 primitive->address.a[6] */ bufferSize += 1; /* CsrWifiSmeKeyType primitive->keyType */ return bufferSize; } u8* CsrWifiSmeMicFailureIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMicFailureInd *primitive = (CsrWifiSmeMicFailureInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->secondFailure); CsrUint16Ser(ptr, len, (u16) primitive->count); CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->keyType); return(ptr); } void* CsrWifiSmeMicFailureIndDes(u8 *buffer, size_t length) { CsrWifiSmeMicFailureInd *primitive = kmalloc(sizeof(CsrWifiSmeMicFailureInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->secondFailure, buffer, &offset); CsrUint16Des((u16 *) &primitive->count, buffer, &offset); CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->keyType, buffer, &offset); return primitive; } size_t CsrWifiSmeMulticastAddressCfmSizeof(void *msg) { CsrWifiSmeMulticastAddressCfm *primitive = (CsrWifiSmeMulticastAddressCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* u8 primitive->getAddressesCount */ { u16 i1; for (i1 = 0; i1 < primitive->getAddressesCount; i1++) { bufferSize += 6; /* u8 primitive->getAddresses[i1].a[6] */ } } return bufferSize; } u8* CsrWifiSmeMulticastAddressCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeMulticastAddressCfm *primitive = (CsrWifiSmeMulticastAddressCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->getAddressesCount); { u16 i1; for (i1 = 0; i1 < primitive->getAddressesCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->getAddresses[i1].a, ((u16) (6))); } } return(ptr); } void* CsrWifiSmeMulticastAddressCfmDes(u8 *buffer, size_t length) { CsrWifiSmeMulticastAddressCfm *primitive = kmalloc(sizeof(CsrWifiSmeMulticastAddressCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->getAddressesCount, buffer, &offset); primitive->getAddresses = NULL; if (primitive->getAddressesCount) { primitive->getAddresses = kmalloc(sizeof(CsrWifiMacAddress) * primitive->getAddressesCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->getAddressesCount; i1++) { CsrMemCpyDes(primitive->getAddresses[i1].a, buffer, &offset, ((u16) (6))); } } return primitive; } void CsrWifiSmeMulticastAddressCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeMulticastAddressCfm *primitive = (CsrWifiSmeMulticastAddressCfm *) voidPrimitivePointer; kfree(primitive->getAddresses); kfree(primitive); } size_t CsrWifiSmePacketFilterSetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmePacketFilterSetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePacketFilterSetCfm *primitive = (CsrWifiSmePacketFilterSetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmePacketFilterSetCfmDes(u8 *buffer, size_t length) { CsrWifiSmePacketFilterSetCfm *primitive = kmalloc(sizeof(CsrWifiSmePacketFilterSetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmePermanentMacAddressGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 11) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 6; /* u8 primitive->permanentMacAddress.a[6] */ return bufferSize; } u8* CsrWifiSmePermanentMacAddressGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePermanentMacAddressGetCfm *primitive = (CsrWifiSmePermanentMacAddressGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrMemCpySer(ptr, len, (const void *) primitive->permanentMacAddress.a, ((u16) (6))); return(ptr); } void* CsrWifiSmePermanentMacAddressGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmePermanentMacAddressGetCfm *primitive = kmalloc(sizeof(CsrWifiSmePermanentMacAddressGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrMemCpyDes(primitive->permanentMacAddress.a, buffer, &offset, ((u16) (6))); return primitive; } size_t CsrWifiSmePmkidCandidateListIndSizeof(void *msg) { CsrWifiSmePmkidCandidateListInd *primitive = (CsrWifiSmePmkidCandidateListInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* u8 primitive->pmkidCandidatesCount */ { u16 i1; for (i1 = 0; i1 < primitive->pmkidCandidatesCount; i1++) { bufferSize += 6; /* u8 primitive->pmkidCandidates[i1].bssid.a[6] */ bufferSize += 1; /* u8 primitive->pmkidCandidates[i1].preAuthAllowed */ } } return bufferSize; } u8* CsrWifiSmePmkidCandidateListIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePmkidCandidateListInd *primitive = (CsrWifiSmePmkidCandidateListInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->pmkidCandidatesCount); { u16 i1; for (i1 = 0; i1 < primitive->pmkidCandidatesCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->pmkidCandidates[i1].bssid.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->pmkidCandidates[i1].preAuthAllowed); } } return(ptr); } void* CsrWifiSmePmkidCandidateListIndDes(u8 *buffer, size_t length) { CsrWifiSmePmkidCandidateListInd *primitive = kmalloc(sizeof(CsrWifiSmePmkidCandidateListInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->pmkidCandidatesCount, buffer, &offset); primitive->pmkidCandidates = NULL; if (primitive->pmkidCandidatesCount) { primitive->pmkidCandidates = kmalloc(sizeof(CsrWifiSmePmkidCandidate) * primitive->pmkidCandidatesCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->pmkidCandidatesCount; i1++) { CsrMemCpyDes(primitive->pmkidCandidates[i1].bssid.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->pmkidCandidates[i1].preAuthAllowed, buffer, &offset); } } return primitive; } void CsrWifiSmePmkidCandidateListIndSerFree(void *voidPrimitivePointer) { CsrWifiSmePmkidCandidateListInd *primitive = (CsrWifiSmePmkidCandidateListInd *) voidPrimitivePointer; kfree(primitive->pmkidCandidates); kfree(primitive); } size_t CsrWifiSmePmkidCfmSizeof(void *msg) { CsrWifiSmePmkidCfm *primitive = (CsrWifiSmePmkidCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 31) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSmeListAction primitive->action */ bufferSize += 1; /* u8 primitive->getPmkidsCount */ { u16 i1; for (i1 = 0; i1 < primitive->getPmkidsCount; i1++) { bufferSize += 6; /* u8 primitive->getPmkids[i1].bssid.a[6] */ bufferSize += 16; /* u8 primitive->getPmkids[i1].pmkid[16] */ } } return bufferSize; } u8* CsrWifiSmePmkidCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePmkidCfm *primitive = (CsrWifiSmePmkidCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->action); CsrUint8Ser(ptr, len, (u8) primitive->getPmkidsCount); { u16 i1; for (i1 = 0; i1 < primitive->getPmkidsCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->getPmkids[i1].bssid.a, ((u16) (6))); CsrMemCpySer(ptr, len, (const void *) primitive->getPmkids[i1].pmkid, ((u16) (16))); } } return(ptr); } void* CsrWifiSmePmkidCfmDes(u8 *buffer, size_t length) { CsrWifiSmePmkidCfm *primitive = kmalloc(sizeof(CsrWifiSmePmkidCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->action, buffer, &offset); CsrUint8Des((u8 *) &primitive->getPmkidsCount, buffer, &offset); primitive->getPmkids = NULL; if (primitive->getPmkidsCount) { primitive->getPmkids = kmalloc(sizeof(CsrWifiSmePmkid) * primitive->getPmkidsCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->getPmkidsCount; i1++) { CsrMemCpyDes(primitive->getPmkids[i1].bssid.a, buffer, &offset, ((u16) (6))); CsrMemCpyDes(primitive->getPmkids[i1].pmkid, buffer, &offset, ((u16) (16))); } } return primitive; } void CsrWifiSmePmkidCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmePmkidCfm *primitive = (CsrWifiSmePmkidCfm *) voidPrimitivePointer; kfree(primitive->getPmkids); kfree(primitive); } size_t CsrWifiSmePowerConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSmePowerSaveLevel primitive->powerConfig.powerSaveLevel */ bufferSize += 2; /* u16 primitive->powerConfig.listenIntervalTu */ bufferSize += 1; /* u8 primitive->powerConfig.rxDtims */ bufferSize += 1; /* CsrWifiSmeD3AutoScanMode primitive->powerConfig.d3AutoScanMode */ bufferSize += 1; /* u8 primitive->powerConfig.clientTrafficWindow */ bufferSize += 1; /* u8 primitive->powerConfig.opportunisticPowerSave */ bufferSize += 1; /* u8 primitive->powerConfig.noticeOfAbsence */ return bufferSize; } u8* CsrWifiSmePowerConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmePowerConfigGetCfm *primitive = (CsrWifiSmePowerConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.powerSaveLevel); CsrUint16Ser(ptr, len, (u16) primitive->powerConfig.listenIntervalTu); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.rxDtims); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.d3AutoScanMode); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.clientTrafficWindow); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.opportunisticPowerSave); CsrUint8Ser(ptr, len, (u8) primitive->powerConfig.noticeOfAbsence); return(ptr); } void* CsrWifiSmePowerConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmePowerConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmePowerConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.powerSaveLevel, buffer, &offset); CsrUint16Des((u16 *) &primitive->powerConfig.listenIntervalTu, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.rxDtims, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.d3AutoScanMode, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.clientTrafficWindow, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.opportunisticPowerSave, buffer, &offset); CsrUint8Des((u8 *) &primitive->powerConfig.noticeOfAbsence, buffer, &offset); return primitive; } size_t CsrWifiSmeRegulatoryDomainInfoGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->regDomInfo.dot11MultiDomainCapabilityImplemented */ bufferSize += 1; /* u8 primitive->regDomInfo.dot11MultiDomainCapabilityEnabled */ bufferSize += 1; /* CsrWifiSmeRegulatoryDomain primitive->regDomInfo.currentRegulatoryDomain */ bufferSize += 2; /* u8 primitive->regDomInfo.currentCountryCode[2] */ return bufferSize; } u8* CsrWifiSmeRegulatoryDomainInfoGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeRegulatoryDomainInfoGetCfm *primitive = (CsrWifiSmeRegulatoryDomainInfoGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->regDomInfo.dot11MultiDomainCapabilityImplemented); CsrUint8Ser(ptr, len, (u8) primitive->regDomInfo.dot11MultiDomainCapabilityEnabled); CsrUint8Ser(ptr, len, (u8) primitive->regDomInfo.currentRegulatoryDomain); CsrMemCpySer(ptr, len, (const void *) primitive->regDomInfo.currentCountryCode, ((u16) (2))); return(ptr); } void* CsrWifiSmeRegulatoryDomainInfoGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeRegulatoryDomainInfoGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeRegulatoryDomainInfoGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->regDomInfo.dot11MultiDomainCapabilityImplemented, buffer, &offset); CsrUint8Des((u8 *) &primitive->regDomInfo.dot11MultiDomainCapabilityEnabled, buffer, &offset); CsrUint8Des((u8 *) &primitive->regDomInfo.currentRegulatoryDomain, buffer, &offset); CsrMemCpyDes(primitive->regDomInfo.currentCountryCode, buffer, &offset, ((u16) (2))); return primitive; } size_t CsrWifiSmeRoamCompleteIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeRoamCompleteIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeRoamCompleteInd *primitive = (CsrWifiSmeRoamCompleteInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeRoamCompleteIndDes(u8 *buffer, size_t length) { CsrWifiSmeRoamCompleteInd *primitive = kmalloc(sizeof(CsrWifiSmeRoamCompleteInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeRoamStartIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 1; /* CsrWifiSmeRoamReason primitive->roamReason */ bufferSize += 2; /* CsrWifiSmeIEEE80211Reason primitive->reason80211 */ return bufferSize; } u8* CsrWifiSmeRoamStartIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeRoamStartInd *primitive = (CsrWifiSmeRoamStartInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint8Ser(ptr, len, (u8) primitive->roamReason); CsrUint16Ser(ptr, len, (u16) primitive->reason80211); return(ptr); } void* CsrWifiSmeRoamStartIndDes(u8 *buffer, size_t length) { CsrWifiSmeRoamStartInd *primitive = kmalloc(sizeof(CsrWifiSmeRoamStartInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint8Des((u8 *) &primitive->roamReason, buffer, &offset); CsrUint16Des((u16 *) &primitive->reason80211, buffer, &offset); return primitive; } size_t CsrWifiSmeRoamingConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 72) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ { u16 i2; for (i2 = 0; i2 < 3; i2++) { bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiHighThreshold */ bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].rssiLowThreshold */ bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrHighThreshold */ bufferSize += 2; /* s16 primitive->roamingConfig.roamingBands[i2].snrLowThreshold */ } } bufferSize += 1; /* u8 primitive->roamingConfig.disableSmoothRoaming */ bufferSize += 1; /* u8 primitive->roamingConfig.disableRoamScans */ bufferSize += 1; /* u8 primitive->roamingConfig.reconnectLimit */ bufferSize += 2; /* u16 primitive->roamingConfig.reconnectLimitIntervalMs */ { u16 i2; for (i2 = 0; i2 < 3; i2++) { bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].intervalSeconds */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].validitySeconds */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu */ } } return bufferSize; } u8* CsrWifiSmeRoamingConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeRoamingConfigGetCfm *primitive = (CsrWifiSmeRoamingConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiHighThreshold); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].rssiLowThreshold); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrHighThreshold); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamingBands[i2].snrLowThreshold); } } CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableSmoothRoaming); CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.disableRoamScans); CsrUint8Ser(ptr, len, (u8) primitive->roamingConfig.reconnectLimit); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.reconnectLimitIntervalMs); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].intervalSeconds); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].validitySeconds); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu); } } return(ptr); } void* CsrWifiSmeRoamingConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeRoamingConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeRoamingConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiHighThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].rssiLowThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrHighThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamingBands[i2].snrLowThreshold, buffer, &offset); } } CsrUint8Des((u8 *) &primitive->roamingConfig.disableSmoothRoaming, buffer, &offset); CsrUint8Des((u8 *) &primitive->roamingConfig.disableRoamScans, buffer, &offset); CsrUint8Des((u8 *) &primitive->roamingConfig.reconnectLimit, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.reconnectLimitIntervalMs, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 3; i2++) { CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].intervalSeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].validitySeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->roamingConfig.roamScanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); } } return primitive; } size_t CsrWifiSmeRoamingConfigSetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeRoamingConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeRoamingConfigSetCfm *primitive = (CsrWifiSmeRoamingConfigSetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeRoamingConfigSetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeRoamingConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeRoamingConfigSetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeScanConfigGetCfmSizeof(void *msg) { CsrWifiSmeScanConfigGetCfm *primitive = (CsrWifiSmeScanConfigGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 65) */ bufferSize += 2; /* CsrResult primitive->status */ { u16 i2; for (i2 = 0; i2 < 4; i2++) { bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].intervalSeconds */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].validitySeconds */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu */ bufferSize += 2; /* u16 primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu */ } } bufferSize += 1; /* u8 primitive->scanConfig.disableAutonomousScans */ bufferSize += 2; /* u16 primitive->scanConfig.maxResults */ bufferSize += 1; /* s8 primitive->scanConfig.highRssiThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.lowRssiThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.deltaRssiThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.highSnrThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.lowSnrThreshold */ bufferSize += 1; /* s8 primitive->scanConfig.deltaSnrThreshold */ bufferSize += 2; /* u16 primitive->scanConfig.passiveChannelListCount */ bufferSize += primitive->scanConfig.passiveChannelListCount; /* u8 primitive->scanConfig.passiveChannelList */ return bufferSize; } u8* CsrWifiSmeScanConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeScanConfigGetCfm *primitive = (CsrWifiSmeScanConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); { u16 i2; for (i2 = 0; i2 < 4; i2++) { CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].intervalSeconds); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].validitySeconds); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu); } } CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.disableAutonomousScans); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.maxResults); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highRssiThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowRssiThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaRssiThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.highSnrThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.lowSnrThreshold); CsrUint8Ser(ptr, len, (u8) primitive->scanConfig.deltaSnrThreshold); CsrUint16Ser(ptr, len, (u16) primitive->scanConfig.passiveChannelListCount); if (primitive->scanConfig.passiveChannelListCount) { CsrMemCpySer(ptr, len, (const void *) primitive->scanConfig.passiveChannelList, ((u16) (primitive->scanConfig.passiveChannelListCount))); } return(ptr); } void* CsrWifiSmeScanConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeScanConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeScanConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); { u16 i2; for (i2 = 0; i2 < 4; i2++) { CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].intervalSeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].validitySeconds, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxActiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].minPassiveChannelTimeTu, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.scanCfg[i2].maxPassiveChannelTimeTu, buffer, &offset); } } CsrUint8Des((u8 *) &primitive->scanConfig.disableAutonomousScans, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.maxResults, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.highRssiThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.lowRssiThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.deltaRssiThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.highSnrThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.lowSnrThreshold, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanConfig.deltaSnrThreshold, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanConfig.passiveChannelListCount, buffer, &offset); if (primitive->scanConfig.passiveChannelListCount) { primitive->scanConfig.passiveChannelList = kmalloc(primitive->scanConfig.passiveChannelListCount, GFP_KERNEL); CsrMemCpyDes(primitive->scanConfig.passiveChannelList, buffer, &offset, ((u16) (primitive->scanConfig.passiveChannelListCount))); } else { primitive->scanConfig.passiveChannelList = NULL; } return primitive; } void CsrWifiSmeScanConfigGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeScanConfigGetCfm *primitive = (CsrWifiSmeScanConfigGetCfm *) voidPrimitivePointer; kfree(primitive->scanConfig.passiveChannelList); kfree(primitive); } size_t CsrWifiSmeScanResultIndSizeof(void *msg) { CsrWifiSmeScanResultInd *primitive = (CsrWifiSmeScanResultInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 149) */ bufferSize += 32; /* u8 primitive->result.ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->result.ssid.length */ bufferSize += 6; /* u8 primitive->result.bssid.a[6] */ bufferSize += 2; /* s16 primitive->result.rssi */ bufferSize += 2; /* s16 primitive->result.snr */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->result.ifIndex */ bufferSize += 2; /* u16 primitive->result.beaconPeriodTu */ bufferSize += 8; /* u8 primitive->result.timeStamp.data[8] */ bufferSize += 8; /* u8 primitive->result.localTime.data[8] */ bufferSize += 2; /* u16 primitive->result.channelFrequency */ bufferSize += 2; /* u16 primitive->result.capabilityInformation */ bufferSize += 1; /* u8 primitive->result.channelNumber */ bufferSize += 1; /* CsrWifiSmeBasicUsability primitive->result.usability */ bufferSize += 1; /* CsrWifiSmeBssType primitive->result.bssType */ bufferSize += 2; /* u16 primitive->result.informationElementsLength */ bufferSize += primitive->result.informationElementsLength; /* u8 primitive->result.informationElements */ bufferSize += 1; /* CsrWifiSmeP2pRole primitive->result.p2pDeviceRole */ switch (primitive->result.p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_CLI: bufferSize += 1; /* u8 primitive->result.deviceInfo.reservedCli.empty */ break; case CSR_WIFI_SME_P2P_ROLE_GO: bufferSize += 1; /* CsrWifiSmeP2pGroupCapabilityMask primitive->result.deviceInfo.groupInfo.groupCapability */ bufferSize += 6; /* u8 primitive->result.deviceInfo.groupInfo.p2pDeviceAddress.a[6] */ bufferSize += 1; /* u8 primitive->result.deviceInfo.groupInfo.p2pClientInfoCount */ { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) { bufferSize += 6; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a[6] */ bufferSize += 6; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a[6] */ bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods */ bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap */ bufferSize += 8; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails[8] */ bufferSize += 1; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount */ { u16 i6; for (i6 = 0; i6 < primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) { bufferSize += 8; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails[8] */ } } bufferSize += 32; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName[32] */ bufferSize += 1; /* u8 primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength */ } } break; case CSR_WIFI_SME_P2P_ROLE_NONE: bufferSize += 1; /* u8 primitive->result.deviceInfo.reservedNone.empty */ break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: bufferSize += 6; /* u8 primitive->result.deviceInfo.standalonedevInfo.deviceAddress.a[6] */ bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->result.deviceInfo.standalonedevInfo.configMethods */ bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->result.deviceInfo.standalonedevInfo.p2PDeviceCap */ bufferSize += 8; /* u8 primitive->result.deviceInfo.standalonedevInfo.primDeviceType.deviceDetails[8] */ bufferSize += 1; /* u8 primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount */ { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) { bufferSize += 8; /* u8 primitive->result.deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails[8] */ } } bufferSize += 32; /* u8 primitive->result.deviceInfo.standalonedevInfo.deviceName[32] */ bufferSize += 1; /* u8 primitive->result.deviceInfo.standalonedevInfo.deviceNameLength */ break; default: break; } return bufferSize; } u8* CsrWifiSmeScanResultIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeScanResultInd *primitive = (CsrWifiSmeScanResultInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrMemCpySer(ptr, len, (const void *) primitive->result.ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->result.ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->result.bssid.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->result.rssi); CsrUint16Ser(ptr, len, (u16) primitive->result.snr); CsrUint8Ser(ptr, len, (u8) primitive->result.ifIndex); CsrUint16Ser(ptr, len, (u16) primitive->result.beaconPeriodTu); CsrMemCpySer(ptr, len, (const void *) primitive->result.timeStamp.data, ((u16) (8))); CsrMemCpySer(ptr, len, (const void *) primitive->result.localTime.data, ((u16) (8))); CsrUint16Ser(ptr, len, (u16) primitive->result.channelFrequency); CsrUint16Ser(ptr, len, (u16) primitive->result.capabilityInformation); CsrUint8Ser(ptr, len, (u8) primitive->result.channelNumber); CsrUint8Ser(ptr, len, (u8) primitive->result.usability); CsrUint8Ser(ptr, len, (u8) primitive->result.bssType); CsrUint16Ser(ptr, len, (u16) primitive->result.informationElementsLength); if (primitive->result.informationElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->result.informationElements, ((u16) (primitive->result.informationElementsLength))); } CsrUint8Ser(ptr, len, (u8) primitive->result.p2pDeviceRole); switch (primitive->result.p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_CLI: CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.reservedCli.empty); break; case CSR_WIFI_SME_P2P_ROLE_GO: CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.groupCapability); CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2pDeviceAddress.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2pClientInfoCount); { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) { CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, ((u16) (6))); CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap); CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, ((u16) (8))); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount); { u16 i6; for (i6 = 0; i6 < primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) { CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, ((u16) (8))); } } CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength); } } break; case CSR_WIFI_SME_P2P_ROLE_NONE: CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.reservedNone.empty); break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.deviceAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->result.deviceInfo.standalonedevInfo.configMethods); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.standalonedevInfo.p2PDeviceCap); CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, ((u16) (8))); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount); { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) { CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, ((u16) (8))); } } CsrMemCpySer(ptr, len, (const void *) primitive->result.deviceInfo.standalonedevInfo.deviceName, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->result.deviceInfo.standalonedevInfo.deviceNameLength); break; default: break; } return(ptr); } void* CsrWifiSmeScanResultIndDes(u8 *buffer, size_t length) { CsrWifiSmeScanResultInd *primitive = kmalloc(sizeof(CsrWifiSmeScanResultInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrMemCpyDes(primitive->result.ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->result.ssid.length, buffer, &offset); CsrMemCpyDes(primitive->result.bssid.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->result.rssi, buffer, &offset); CsrUint16Des((u16 *) &primitive->result.snr, buffer, &offset); CsrUint8Des((u8 *) &primitive->result.ifIndex, buffer, &offset); CsrUint16Des((u16 *) &primitive->result.beaconPeriodTu, buffer, &offset); CsrMemCpyDes(primitive->result.timeStamp.data, buffer, &offset, ((u16) (8))); CsrMemCpyDes(primitive->result.localTime.data, buffer, &offset, ((u16) (8))); CsrUint16Des((u16 *) &primitive->result.channelFrequency, buffer, &offset); CsrUint16Des((u16 *) &primitive->result.capabilityInformation, buffer, &offset); CsrUint8Des((u8 *) &primitive->result.channelNumber, buffer, &offset); CsrUint8Des((u8 *) &primitive->result.usability, buffer, &offset); CsrUint8Des((u8 *) &primitive->result.bssType, buffer, &offset); CsrUint16Des((u16 *) &primitive->result.informationElementsLength, buffer, &offset); if (primitive->result.informationElementsLength) { primitive->result.informationElements = kmalloc(primitive->result.informationElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->result.informationElements, buffer, &offset, ((u16) (primitive->result.informationElementsLength))); } else { primitive->result.informationElements = NULL; } CsrUint8Des((u8 *) &primitive->result.p2pDeviceRole, buffer, &offset); switch (primitive->result.p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_CLI: CsrUint8Des((u8 *) &primitive->result.deviceInfo.reservedCli.empty, buffer, &offset); break; case CSR_WIFI_SME_P2P_ROLE_GO: CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.groupCapability, buffer, &offset); CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2pDeviceAddress.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2pClientInfoCount, buffer, &offset); primitive->result.deviceInfo.groupInfo.p2PClientInfo = NULL; if (primitive->result.deviceInfo.groupInfo.p2pClientInfoCount) { primitive->result.deviceInfo.groupInfo.p2PClientInfo = kmalloc(sizeof(CsrWifiSmeP2pClientInfoType) * primitive->result.deviceInfo.groupInfo.p2pClientInfoCount, GFP_KERNEL); } { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) { CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, buffer, &offset, ((u16) (6))); CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods, buffer, &offset); CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap, buffer, &offset); CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, buffer, &offset); primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = NULL; if (primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount) { primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, GFP_KERNEL); } { u16 i6; for (i6 = 0; i6 < primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) { CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, buffer, &offset, ((u16) (8))); } } CsrMemCpyDes(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength, buffer, &offset); } } break; case CSR_WIFI_SME_P2P_ROLE_NONE: CsrUint8Des((u8 *) &primitive->result.deviceInfo.reservedNone.empty, buffer, &offset); break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->result.deviceInfo.standalonedevInfo.configMethods, buffer, &offset); CsrUint8Des((u8 *) &primitive->result.deviceInfo.standalonedevInfo.p2PDeviceCap, buffer, &offset); CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); CsrUint8Des((u8 *) &primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, buffer, &offset); primitive->result.deviceInfo.standalonedevInfo.secDeviceType = NULL; if (primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount) { primitive->result.deviceInfo.standalonedevInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, GFP_KERNEL); } { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) { CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, buffer, &offset, ((u16) (8))); } } CsrMemCpyDes(primitive->result.deviceInfo.standalonedevInfo.deviceName, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->result.deviceInfo.standalonedevInfo.deviceNameLength, buffer, &offset); break; default: break; } return primitive; } void CsrWifiSmeScanResultIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeScanResultInd *primitive = (CsrWifiSmeScanResultInd *) voidPrimitivePointer; kfree(primitive->result.informationElements); switch (primitive->result.p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_GO: { u16 i4; for (i4 = 0; i4 < primitive->result.deviceInfo.groupInfo.p2pClientInfoCount; i4++) { kfree(primitive->result.deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType); } } kfree(primitive->result.deviceInfo.groupInfo.p2PClientInfo); break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: kfree(primitive->result.deviceInfo.standalonedevInfo.secDeviceType); break; default: break; } kfree(primitive); } size_t CsrWifiSmeScanResultsGetCfmSizeof(void *msg) { CsrWifiSmeScanResultsGetCfm *primitive = (CsrWifiSmeScanResultsGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 153) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* u16 primitive->scanResultsCount */ { u16 i1; for (i1 = 0; i1 < primitive->scanResultsCount; i1++) { bufferSize += 32; /* u8 primitive->scanResults[i1].ssid.ssid[32] */ bufferSize += 1; /* u8 primitive->scanResults[i1].ssid.length */ bufferSize += 6; /* u8 primitive->scanResults[i1].bssid.a[6] */ bufferSize += 2; /* s16 primitive->scanResults[i1].rssi */ bufferSize += 2; /* s16 primitive->scanResults[i1].snr */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->scanResults[i1].ifIndex */ bufferSize += 2; /* u16 primitive->scanResults[i1].beaconPeriodTu */ bufferSize += 8; /* u8 primitive->scanResults[i1].timeStamp.data[8] */ bufferSize += 8; /* u8 primitive->scanResults[i1].localTime.data[8] */ bufferSize += 2; /* u16 primitive->scanResults[i1].channelFrequency */ bufferSize += 2; /* u16 primitive->scanResults[i1].capabilityInformation */ bufferSize += 1; /* u8 primitive->scanResults[i1].channelNumber */ bufferSize += 1; /* CsrWifiSmeBasicUsability primitive->scanResults[i1].usability */ bufferSize += 1; /* CsrWifiSmeBssType primitive->scanResults[i1].bssType */ bufferSize += 2; /* u16 primitive->scanResults[i1].informationElementsLength */ bufferSize += primitive->scanResults[i1].informationElementsLength; /* u8 primitive->scanResults[i1].informationElements */ bufferSize += 1; /* CsrWifiSmeP2pRole primitive->scanResults[i1].p2pDeviceRole */ switch (primitive->scanResults[i1].p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_CLI: bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.reservedCli.empty */ break; case CSR_WIFI_SME_P2P_ROLE_GO: bufferSize += 1; /* CsrWifiSmeP2pGroupCapabilityMask primitive->scanResults[i1].deviceInfo.groupInfo.groupCapability */ bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2pDeviceAddress.a[6] */ bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount */ { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) { bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a[6] */ bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a[6] */ bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods */ bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap */ bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails[8] */ bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount */ { u16 i6; for (i6 = 0; i6 < primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) { bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails[8] */ } } bufferSize += 32; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName[32] */ bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength */ } } break; case CSR_WIFI_SME_P2P_ROLE_NONE: bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.reservedNone.empty */ break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: bufferSize += 6; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceAddress.a[6] */ bufferSize += 2; /* CsrWifiSmeWpsConfigTypeMask primitive->scanResults[i1].deviceInfo.standalonedevInfo.configMethods */ bufferSize += 1; /* CsrWifiSmeP2pCapabilityMask primitive->scanResults[i1].deviceInfo.standalonedevInfo.p2PDeviceCap */ bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.primDeviceType.deviceDetails[8] */ bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount */ { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) { bufferSize += 8; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails[8] */ } } bufferSize += 32; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceName[32] */ bufferSize += 1; /* u8 primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceNameLength */ break; default: break; } } } return bufferSize; } u8* CsrWifiSmeScanResultsGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeScanResultsGetCfm *primitive = (CsrWifiSmeScanResultsGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->scanResultsCount); { u16 i1; for (i1 = 0; i1 < primitive->scanResultsCount; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].ssid.ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].ssid.length); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].bssid.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].rssi); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].snr); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].ifIndex); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].beaconPeriodTu); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].timeStamp.data, ((u16) (8))); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].localTime.data, ((u16) (8))); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].channelFrequency); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].capabilityInformation); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].channelNumber); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].usability); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].bssType); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].informationElementsLength); if (primitive->scanResults[i1].informationElementsLength) { CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].informationElements, ((u16) (primitive->scanResults[i1].informationElementsLength))); } CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].p2pDeviceRole); switch (primitive->scanResults[i1].p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_CLI: CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.reservedCli.empty); break; case CSR_WIFI_SME_P2P_ROLE_GO: CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.groupCapability); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2pDeviceAddress.a, ((u16) (6))); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount); { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) { CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, ((u16) (6))); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, ((u16) (8))); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount); { u16 i6; for (i6 = 0; i6 < primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) { CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, ((u16) (8))); } } CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength); } } break; case CSR_WIFI_SME_P2P_ROLE_NONE: CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.reservedNone.empty); break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceAddress.a, ((u16) (6))); CsrUint16Ser(ptr, len, (u16) primitive->scanResults[i1].deviceInfo.standalonedevInfo.configMethods); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.standalonedevInfo.p2PDeviceCap); CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, ((u16) (8))); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount); { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) { CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, ((u16) (8))); } } CsrMemCpySer(ptr, len, (const void *) primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceName, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceNameLength); break; default: break; } } } return(ptr); } void* CsrWifiSmeScanResultsGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeScanResultsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeScanResultsGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanResultsCount, buffer, &offset); primitive->scanResults = NULL; if (primitive->scanResultsCount) { primitive->scanResults = kmalloc(sizeof(CsrWifiSmeScanResult) * primitive->scanResultsCount, GFP_KERNEL); } { u16 i1; for (i1 = 0; i1 < primitive->scanResultsCount; i1++) { CsrMemCpyDes(primitive->scanResults[i1].ssid.ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->scanResults[i1].ssid.length, buffer, &offset); CsrMemCpyDes(primitive->scanResults[i1].bssid.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->scanResults[i1].rssi, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanResults[i1].snr, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanResults[i1].ifIndex, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanResults[i1].beaconPeriodTu, buffer, &offset); CsrMemCpyDes(primitive->scanResults[i1].timeStamp.data, buffer, &offset, ((u16) (8))); CsrMemCpyDes(primitive->scanResults[i1].localTime.data, buffer, &offset, ((u16) (8))); CsrUint16Des((u16 *) &primitive->scanResults[i1].channelFrequency, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanResults[i1].capabilityInformation, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanResults[i1].channelNumber, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanResults[i1].usability, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanResults[i1].bssType, buffer, &offset); CsrUint16Des((u16 *) &primitive->scanResults[i1].informationElementsLength, buffer, &offset); if (primitive->scanResults[i1].informationElementsLength) { primitive->scanResults[i1].informationElements = kmalloc(primitive->scanResults[i1].informationElementsLength, GFP_KERNEL); CsrMemCpyDes(primitive->scanResults[i1].informationElements, buffer, &offset, ((u16) (primitive->scanResults[i1].informationElementsLength))); } else { primitive->scanResults[i1].informationElements = NULL; } CsrUint8Des((u8 *) &primitive->scanResults[i1].p2pDeviceRole, buffer, &offset); switch (primitive->scanResults[i1].p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_CLI: CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.reservedCli.empty, buffer, &offset); break; case CSR_WIFI_SME_P2P_ROLE_GO: CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.groupCapability, buffer, &offset); CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2pDeviceAddress.a, buffer, &offset, ((u16) (6))); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount, buffer, &offset); primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo = NULL; if (primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount) { primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo = kmalloc(sizeof(CsrWifiSmeP2pClientInfoType) * primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount, GFP_KERNEL); } { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) { CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].p2PClientInterfaceAddress.a, buffer, &offset, ((u16) (6))); CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.configMethods, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.p2PDeviceCap, buffer, &offset); CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, buffer, &offset); primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = NULL; if (primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount) { primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount, GFP_KERNEL); } { u16 i6; for (i6 = 0; i6 < primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secondaryDeviceTypeCount; i6++) { CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType[i6].deviceDetails, buffer, &offset, ((u16) (8))); } } CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceName, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.deviceNameLength, buffer, &offset); } } break; case CSR_WIFI_SME_P2P_ROLE_NONE: CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.reservedNone.empty, buffer, &offset); break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceAddress.a, buffer, &offset, ((u16) (6))); CsrUint16Des((u16 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.configMethods, buffer, &offset); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.p2PDeviceCap, buffer, &offset); CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.primDeviceType.deviceDetails, buffer, &offset, ((u16) (8))); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, buffer, &offset); primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType = NULL; if (primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount) { primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType = kmalloc(sizeof(CsrWifiSmeWpsDeviceType) * primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount, GFP_KERNEL); } { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.standalonedevInfo.secondaryDeviceTypeCount; i4++) { CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType[i4].deviceDetails, buffer, &offset, ((u16) (8))); } } CsrMemCpyDes(primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceName, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->scanResults[i1].deviceInfo.standalonedevInfo.deviceNameLength, buffer, &offset); break; default: break; } } } return primitive; } void CsrWifiSmeScanResultsGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeScanResultsGetCfm *primitive = (CsrWifiSmeScanResultsGetCfm *) voidPrimitivePointer; { u16 i1; for (i1 = 0; i1 < primitive->scanResultsCount; i1++) { kfree(primitive->scanResults[i1].informationElements); switch (primitive->scanResults[i1].p2pDeviceRole) { case CSR_WIFI_SME_P2P_ROLE_GO: { u16 i4; for (i4 = 0; i4 < primitive->scanResults[i1].deviceInfo.groupInfo.p2pClientInfoCount; i4++) { kfree(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo[i4].clientDeviceInfo.secDeviceType); } } kfree(primitive->scanResults[i1].deviceInfo.groupInfo.p2PClientInfo); break; case CSR_WIFI_SME_P2P_ROLE_STANDALONE: kfree(primitive->scanResults[i1].deviceInfo.standalonedevInfo.secDeviceType); break; default: break; } } } kfree(primitive->scanResults); kfree(primitive); } size_t CsrWifiSmeSmeStaConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->smeConfig.connectionQualityRssiChangeTrigger */ bufferSize += 1; /* u8 primitive->smeConfig.connectionQualitySnrChangeTrigger */ bufferSize += 1; /* CsrWifiSmeWmmModeMask primitive->smeConfig.wmmModeMask */ bufferSize += 1; /* CsrWifiSmeRadioIF primitive->smeConfig.ifIndex */ bufferSize += 1; /* u8 primitive->smeConfig.allowUnicastUseGroupCipher */ bufferSize += 1; /* u8 primitive->smeConfig.enableOpportunisticKeyCaching */ return bufferSize; } u8* CsrWifiSmeSmeStaConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeSmeStaConfigGetCfm *primitive = (CsrWifiSmeSmeStaConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualityRssiChangeTrigger); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.connectionQualitySnrChangeTrigger); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.wmmModeMask); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.ifIndex); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.allowUnicastUseGroupCipher); CsrUint8Ser(ptr, len, (u8) primitive->smeConfig.enableOpportunisticKeyCaching); return(ptr); } void* CsrWifiSmeSmeStaConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeSmeStaConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeSmeStaConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualityRssiChangeTrigger, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.connectionQualitySnrChangeTrigger, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.wmmModeMask, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.ifIndex, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.allowUnicastUseGroupCipher, buffer, &offset); CsrUint8Des((u8 *) &primitive->smeConfig.enableOpportunisticKeyCaching, buffer, &offset); return primitive; } size_t CsrWifiSmeSmeStaConfigSetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 7) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ return bufferSize; } u8* CsrWifiSmeSmeStaConfigSetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeSmeStaConfigSetCfm *primitive = (CsrWifiSmeSmeStaConfigSetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); return(ptr); } void* CsrWifiSmeSmeStaConfigSetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeSmeStaConfigSetCfm *primitive = kmalloc(sizeof(CsrWifiSmeSmeStaConfigSetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); return primitive; } size_t CsrWifiSmeStationMacAddressGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 17) */ bufferSize += 2; /* CsrResult primitive->status */ { u16 i1; for (i1 = 0; i1 < 2; i1++) { bufferSize += 6; /* u8 primitive->stationMacAddress[i1].a[6] */ } } return bufferSize; } u8* CsrWifiSmeStationMacAddressGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeStationMacAddressGetCfm *primitive = (CsrWifiSmeStationMacAddressGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); { u16 i1; for (i1 = 0; i1 < 2; i1++) { CsrMemCpySer(ptr, len, (const void *) primitive->stationMacAddress[i1].a, ((u16) (6))); } } return(ptr); } void* CsrWifiSmeStationMacAddressGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeStationMacAddressGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeStationMacAddressGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); { u16 i1; for (i1 = 0; i1 < 2; i1++) { CsrMemCpyDes(primitive->stationMacAddress[i1].a, buffer, &offset, ((u16) (6))); } } return primitive; } size_t CsrWifiSmeTspecIndSizeof(void *msg) { CsrWifiSmeTspecInd *primitive = (CsrWifiSmeTspecInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 13) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 4; /* u32 primitive->transactionId */ bufferSize += 1; /* CsrWifiSmeTspecResultCode primitive->tspecResultCode */ bufferSize += 2; /* u16 primitive->tspecLength */ bufferSize += primitive->tspecLength; /* u8 primitive->tspec */ return bufferSize; } u8* CsrWifiSmeTspecIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeTspecInd *primitive = (CsrWifiSmeTspecInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint32Ser(ptr, len, (u32) primitive->transactionId); CsrUint8Ser(ptr, len, (u8) primitive->tspecResultCode); CsrUint16Ser(ptr, len, (u16) primitive->tspecLength); if (primitive->tspecLength) { CsrMemCpySer(ptr, len, (const void *) primitive->tspec, ((u16) (primitive->tspecLength))); } return(ptr); } void* CsrWifiSmeTspecIndDes(u8 *buffer, size_t length) { CsrWifiSmeTspecInd *primitive = kmalloc(sizeof(CsrWifiSmeTspecInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint32Des((u32 *) &primitive->transactionId, buffer, &offset); CsrUint8Des((u8 *) &primitive->tspecResultCode, buffer, &offset); CsrUint16Des((u16 *) &primitive->tspecLength, buffer, &offset); if (primitive->tspecLength) { primitive->tspec = kmalloc(primitive->tspecLength, GFP_KERNEL); CsrMemCpyDes(primitive->tspec, buffer, &offset, ((u16) (primitive->tspecLength))); } else { primitive->tspec = NULL; } return primitive; } void CsrWifiSmeTspecIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeTspecInd *primitive = (CsrWifiSmeTspecInd *) voidPrimitivePointer; kfree(primitive->tspec); kfree(primitive); } size_t CsrWifiSmeTspecCfmSizeof(void *msg) { CsrWifiSmeTspecCfm *primitive = (CsrWifiSmeTspecCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 15) */ bufferSize += 2; /* u16 primitive->interfaceTag */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 4; /* u32 primitive->transactionId */ bufferSize += 1; /* CsrWifiSmeTspecResultCode primitive->tspecResultCode */ bufferSize += 2; /* u16 primitive->tspecLength */ bufferSize += primitive->tspecLength; /* u8 primitive->tspec */ return bufferSize; } u8* CsrWifiSmeTspecCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeTspecCfm *primitive = (CsrWifiSmeTspecCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->interfaceTag); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint32Ser(ptr, len, (u32) primitive->transactionId); CsrUint8Ser(ptr, len, (u8) primitive->tspecResultCode); CsrUint16Ser(ptr, len, (u16) primitive->tspecLength); if (primitive->tspecLength) { CsrMemCpySer(ptr, len, (const void *) primitive->tspec, ((u16) (primitive->tspecLength))); } return(ptr); } void* CsrWifiSmeTspecCfmDes(u8 *buffer, size_t length) { CsrWifiSmeTspecCfm *primitive = kmalloc(sizeof(CsrWifiSmeTspecCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->interfaceTag, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint32Des((u32 *) &primitive->transactionId, buffer, &offset); CsrUint8Des((u8 *) &primitive->tspecResultCode, buffer, &offset); CsrUint16Des((u16 *) &primitive->tspecLength, buffer, &offset); if (primitive->tspecLength) { primitive->tspec = kmalloc(primitive->tspecLength, GFP_KERNEL); CsrMemCpyDes(primitive->tspec, buffer, &offset, ((u16) (primitive->tspecLength))); } else { primitive->tspec = NULL; } return primitive; } void CsrWifiSmeTspecCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeTspecCfm *primitive = (CsrWifiSmeTspecCfm *) voidPrimitivePointer; kfree(primitive->tspec); kfree(primitive); } size_t CsrWifiSmeVersionsGetCfmSizeof(void *msg) { CsrWifiSmeVersionsGetCfm *primitive = (CsrWifiSmeVersionsGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 33) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 4; /* u32 primitive->versions.chipId */ bufferSize += 4; /* u32 primitive->versions.chipVersion */ bufferSize += 4; /* u32 primitive->versions.firmwareBuild */ bufferSize += 4; /* u32 primitive->versions.firmwarePatch */ bufferSize += 4; /* u32 primitive->versions.firmwareHip */ bufferSize += (primitive->versions.routerBuild ? strlen(primitive->versions.routerBuild) : 0) + 1; /* char* primitive->versions.routerBuild (0 byte len + 1 for NULL Term) */ bufferSize += 4; /* u32 primitive->versions.routerHip */ bufferSize += (primitive->versions.smeBuild ? strlen(primitive->versions.smeBuild) : 0) + 1; /* char* primitive->versions.smeBuild (0 byte len + 1 for NULL Term) */ bufferSize += 4; /* u32 primitive->versions.smeHip */ return bufferSize; } u8* CsrWifiSmeVersionsGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeVersionsGetCfm *primitive = (CsrWifiSmeVersionsGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint32Ser(ptr, len, (u32) primitive->versions.chipId); CsrUint32Ser(ptr, len, (u32) primitive->versions.chipVersion); CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwareBuild); CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwarePatch); CsrUint32Ser(ptr, len, (u32) primitive->versions.firmwareHip); CsrCharStringSer(ptr, len, primitive->versions.routerBuild); CsrUint32Ser(ptr, len, (u32) primitive->versions.routerHip); CsrCharStringSer(ptr, len, primitive->versions.smeBuild); CsrUint32Ser(ptr, len, (u32) primitive->versions.smeHip); return(ptr); } void* CsrWifiSmeVersionsGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeVersionsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeVersionsGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.chipId, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.chipVersion, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.firmwareBuild, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.firmwarePatch, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.firmwareHip, buffer, &offset); CsrCharStringDes(&primitive->versions.routerBuild, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.routerHip, buffer, &offset); CsrCharStringDes(&primitive->versions.smeBuild, buffer, &offset); CsrUint32Des((u32 *) &primitive->versions.smeHip, buffer, &offset); return primitive; } void CsrWifiSmeVersionsGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeVersionsGetCfm *primitive = (CsrWifiSmeVersionsGetCfm *) voidPrimitivePointer; kfree(primitive->versions.routerBuild); kfree(primitive->versions.smeBuild); kfree(primitive); } size_t CsrWifiSmeCloakedSsidsGetCfmSizeof(void *msg) { CsrWifiSmeCloakedSsidsGetCfm *primitive = (CsrWifiSmeCloakedSsidsGetCfm *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 39) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsidsCount */ { u16 i2; for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) { bufferSize += 32; /* u8 primitive->cloakedSsids.cloakedSsids[i2].ssid[32] */ bufferSize += 1; /* u8 primitive->cloakedSsids.cloakedSsids[i2].length */ } } return bufferSize; } u8* CsrWifiSmeCloakedSsidsGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCloakedSsidsGetCfm *primitive = (CsrWifiSmeCloakedSsidsGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsidsCount); { u16 i2; for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) { CsrMemCpySer(ptr, len, (const void *) primitive->cloakedSsids.cloakedSsids[i2].ssid, ((u16) (32))); CsrUint8Ser(ptr, len, (u8) primitive->cloakedSsids.cloakedSsids[i2].length); } } return(ptr); } void* CsrWifiSmeCloakedSsidsGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeCloakedSsidsGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeCloakedSsidsGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsidsCount, buffer, &offset); primitive->cloakedSsids.cloakedSsids = NULL; if (primitive->cloakedSsids.cloakedSsidsCount) { primitive->cloakedSsids.cloakedSsids = kmalloc(sizeof(CsrWifiSsid) * primitive->cloakedSsids.cloakedSsidsCount, GFP_KERNEL); } { u16 i2; for (i2 = 0; i2 < primitive->cloakedSsids.cloakedSsidsCount; i2++) { CsrMemCpyDes(primitive->cloakedSsids.cloakedSsids[i2].ssid, buffer, &offset, ((u16) (32))); CsrUint8Des((u8 *) &primitive->cloakedSsids.cloakedSsids[i2].length, buffer, &offset); } } return primitive; } void CsrWifiSmeCloakedSsidsGetCfmSerFree(void *voidPrimitivePointer) { CsrWifiSmeCloakedSsidsGetCfm *primitive = (CsrWifiSmeCloakedSsidsGetCfm *) voidPrimitivePointer; kfree(primitive->cloakedSsids.cloakedSsids); kfree(primitive); } size_t CsrWifiSmeWifiOnIndSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ bufferSize += 6; /* u8 primitive->address.a[6] */ return bufferSize; } u8* CsrWifiSmeWifiOnIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeWifiOnInd *primitive = (CsrWifiSmeWifiOnInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrMemCpySer(ptr, len, (const void *) primitive->address.a, ((u16) (6))); return(ptr); } void* CsrWifiSmeWifiOnIndDes(u8 *buffer, size_t length) { CsrWifiSmeWifiOnInd *primitive = kmalloc(sizeof(CsrWifiSmeWifiOnInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrMemCpyDes(primitive->address.a, buffer, &offset, ((u16) (6))); return primitive; } size_t CsrWifiSmeSmeCommonConfigGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 10) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 1; /* CsrWifiSme80211dTrustLevel primitive->deviceConfig.trustLevel */ bufferSize += 2; /* u8 primitive->deviceConfig.countryCode[2] */ bufferSize += 1; /* CsrWifiSmeFirmwareDriverInterface primitive->deviceConfig.firmwareDriverInterface */ bufferSize += 1; /* u8 primitive->deviceConfig.enableStrictDraftN */ return bufferSize; } u8* CsrWifiSmeSmeCommonConfigGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeSmeCommonConfigGetCfm *primitive = (CsrWifiSmeSmeCommonConfigGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.trustLevel); CsrMemCpySer(ptr, len, (const void *) primitive->deviceConfig.countryCode, ((u16) (2))); CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.firmwareDriverInterface); CsrUint8Ser(ptr, len, (u8) primitive->deviceConfig.enableStrictDraftN); return(ptr); } void* CsrWifiSmeSmeCommonConfigGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeSmeCommonConfigGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeSmeCommonConfigGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint8Des((u8 *) &primitive->deviceConfig.trustLevel, buffer, &offset); CsrMemCpyDes(primitive->deviceConfig.countryCode, buffer, &offset, ((u16) (2))); CsrUint8Des((u8 *) &primitive->deviceConfig.firmwareDriverInterface, buffer, &offset); CsrUint8Des((u8 *) &primitive->deviceConfig.enableStrictDraftN, buffer, &offset); return primitive; } size_t CsrWifiSmeInterfaceCapabilityGetCfmSizeof(void *msg) { size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 9) */ bufferSize += 2; /* CsrResult primitive->status */ bufferSize += 2; /* u16 primitive->numInterfaces */ bufferSize += 2; /* u8 primitive->capBitmap[2] */ return bufferSize; } u8* CsrWifiSmeInterfaceCapabilityGetCfmSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeInterfaceCapabilityGetCfm *primitive = (CsrWifiSmeInterfaceCapabilityGetCfm *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint16Ser(ptr, len, (u16) primitive->status); CsrUint16Ser(ptr, len, (u16) primitive->numInterfaces); CsrMemCpySer(ptr, len, (const void *) primitive->capBitmap, ((u16) (2))); return(ptr); } void* CsrWifiSmeInterfaceCapabilityGetCfmDes(u8 *buffer, size_t length) { CsrWifiSmeInterfaceCapabilityGetCfm *primitive = kmalloc(sizeof(CsrWifiSmeInterfaceCapabilityGetCfm), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint16Des((u16 *) &primitive->status, buffer, &offset); CsrUint16Des((u16 *) &primitive->numInterfaces, buffer, &offset); CsrMemCpyDes(primitive->capBitmap, buffer, &offset, ((u16) (2))); return primitive; } size_t CsrWifiSmeErrorIndSizeof(void *msg) { CsrWifiSmeErrorInd *primitive = (CsrWifiSmeErrorInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 3) */ bufferSize += (primitive->errorMessage ? strlen(primitive->errorMessage) : 0) + 1; /* char* primitive->errorMessage (0 byte len + 1 for NULL Term) */ return bufferSize; } u8* CsrWifiSmeErrorIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeErrorInd *primitive = (CsrWifiSmeErrorInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrCharStringSer(ptr, len, primitive->errorMessage); return(ptr); } void* CsrWifiSmeErrorIndDes(u8 *buffer, size_t length) { CsrWifiSmeErrorInd *primitive = kmalloc(sizeof(CsrWifiSmeErrorInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrCharStringDes(&primitive->errorMessage, buffer, &offset); return primitive; } void CsrWifiSmeErrorIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeErrorInd *primitive = (CsrWifiSmeErrorInd *) voidPrimitivePointer; kfree(primitive->errorMessage); kfree(primitive); } size_t CsrWifiSmeInfoIndSizeof(void *msg) { CsrWifiSmeInfoInd *primitive = (CsrWifiSmeInfoInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 3) */ bufferSize += (primitive->infoMessage ? strlen(primitive->infoMessage) : 0) + 1; /* char* primitive->infoMessage (0 byte len + 1 for NULL Term) */ return bufferSize; } u8* CsrWifiSmeInfoIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeInfoInd *primitive = (CsrWifiSmeInfoInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrCharStringSer(ptr, len, primitive->infoMessage); return(ptr); } void* CsrWifiSmeInfoIndDes(u8 *buffer, size_t length) { CsrWifiSmeInfoInd *primitive = kmalloc(sizeof(CsrWifiSmeInfoInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrCharStringDes(&primitive->infoMessage, buffer, &offset); return primitive; } void CsrWifiSmeInfoIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeInfoInd *primitive = (CsrWifiSmeInfoInd *) voidPrimitivePointer; kfree(primitive->infoMessage); kfree(primitive); } size_t CsrWifiSmeCoreDumpIndSizeof(void *msg) { CsrWifiSmeCoreDumpInd *primitive = (CsrWifiSmeCoreDumpInd *) msg; size_t bufferSize = 2; /* Calculate the Size of the Serialised Data. Could be more efficient (Try 8) */ bufferSize += 4; /* u32 primitive->dataLength */ bufferSize += primitive->dataLength; /* u8 primitive->data */ return bufferSize; } u8* CsrWifiSmeCoreDumpIndSer(u8 *ptr, size_t *len, void *msg) { CsrWifiSmeCoreDumpInd *primitive = (CsrWifiSmeCoreDumpInd *)msg; *len = 0; CsrUint16Ser(ptr, len, primitive->common.type); CsrUint32Ser(ptr, len, (u32) primitive->dataLength); if (primitive->dataLength) { CsrMemCpySer(ptr, len, (const void *) primitive->data, ((u16) (primitive->dataLength))); } return(ptr); } void* CsrWifiSmeCoreDumpIndDes(u8 *buffer, size_t length) { CsrWifiSmeCoreDumpInd *primitive = kmalloc(sizeof(CsrWifiSmeCoreDumpInd), GFP_KERNEL); size_t offset; offset = 0; CsrUint16Des(&primitive->common.type, buffer, &offset); CsrUint32Des((u32 *) &primitive->dataLength, buffer, &offset); if (primitive->dataLength) { primitive->data = kmalloc(primitive->dataLength, GFP_KERNEL); CsrMemCpyDes(primitive->data, buffer, &offset, ((u16) (primitive->dataLength))); } else { primitive->data = NULL; } return primitive; } void CsrWifiSmeCoreDumpIndSerFree(void *voidPrimitivePointer) { CsrWifiSmeCoreDumpInd *primitive = (CsrWifiSmeCoreDumpInd *) voidPrimitivePointer; kfree(primitive->data); kfree(primitive); }