Lines Matching refs:channelIndex
738 TI_UINT8 channelIndex;
816 for (channelIndex=0; channelIndex<numberOfChannels; channelIndex++)
818 pSupportedChannels[channelIndex].channelValidityActive = TI_FALSE;
819 pSupportedChannels[channelIndex].channelValidityPassive = TI_FALSE;
820 pSupportedChannels[channelIndex].bChanneInCountryIe = TI_FALSE;
821 pSupportedChannels[channelIndex].uMaxTxPowerDomain = MIN_TX_POWER;
832 for (channelIndex=0; channelIndex<pCountry->countryIE.tripletChannels[tripletChannelIndex].numberOfChannels; channelIndex++)
836 channelNumber = firstChannelNumInTriplet+(channelIndex*channelStep);
877 TI_UINT8 channelIndex;
891 channelIndex = (channel-A_5G_BAND_MIN_CHANNEL);
896 channelIndex = (channel-BG_24G_BAND_MIN_CHANNEL);
897 if (channelIndex >= NUM_OF_CHANNELS_24)
908 && ((os_timeStampMs(pRegulatoryDomain->hOs)-pSupportedChannels[channelIndex].timestamp) >=CHANNEL_VALIDITY_TS_THRESHOLD ))
911 pSupportedChannels[channelIndex].channelValidityActive = TI_FALSE;
916 return (pSupportedChannels[channelIndex].channelValidityActive);
947 TI_UINT8 channelIndex;
963 channelIndex = (channelNum-BG_24G_BAND_MIN_CHANNEL);
968 channelIndex = (channelNum - A_5G_BAND_MIN_CHANNEL);
972 if((pSupportedChannels[channelIndex].bChanneInCountryIe == TI_FALSE) && (pRegulatoryDomain->regulatoryDomainEnabled == TI_TRUE))
981 pSupportedChannels[channelIndex].channelValidityActive = channelValidity;
1008 TI_UINT8 channelIndex;
1018 for (channelIndex=0; channelIndex<NUM_OF_CHANNELS_24; channelIndex++)
1020 channelMask = pRegulatoryDomain->scanControlTable.ScanControlTable24.tableString[channelIndex];
1021 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].bChanneInCountryIe = TI_FALSE;
1024 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].uMaxTxPowerDomain =
1030 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityActive = TI_FALSE;
1031 TRACE1(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d is invalid for Active \n", channelIndex+1);
1035 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityActive = TI_TRUE;
1036 TRACE1(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d is Active valid \n", channelIndex+1);
1043 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityPassive = TI_TRUE;
1044 TRACE1(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d is Passive valid \n", channelIndex+1);
1048 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityPassive = TI_FALSE;
1049 pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityActive = TI_FALSE;
1053 for (channelIndex=A_5G_BAND_MIN_CHANNEL; channelIndex<A_5G_BAND_MAX_CHANNEL; channelIndex++)
1057 channelIndexInBand5 = (channelIndex-A_5G_BAND_MIN_CHANNEL);
1059 TRACE3(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d, channelIndexInBand5=%d channelMask=%d\n", channelIndex, channelIndexInBand5, channelMask);
1071 TRACE1(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d is invalid for Active \n", channelIndex);
1076 TRACE2(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d, channelIndexInBand5=%d, is Active valid \n", channelIndex, channelIndexInBand5);
1083 TRACE2(pRegulatoryDomain->hReport, REPORT_SEVERITY_INFORMATION, "channelIndex=%d, channelIndexInBand5=%d, is Passive valid \n", channelIndex, channelIndexInBand5);
1114 TI_UINT8 channelIndex;
1133 channelIndex = (channelCapabilityReq.channelNum-BG_24G_BAND_MIN_CHANNEL);
1134 if (channelIndex >= NUM_OF_CHANNELS_24)
1145 channelIndex = (channelCapabilityReq.channelNum - A_5G_BAND_MIN_CHANNEL);
1146 if (channelIndex >= A_5G_BAND_NUM_CHANNELS)
1178 channelCapabilityRet->channelValidity = pSupportedChannels[channelIndex].channelValidityActive;
1205 channelCapabilityRet->channelValidity = pSupportedChannels[channelIndex].channelValidityPassive;
1213 && ((os_timeStampMs(pRegulatoryDomain->hOs)-pSupportedChannels[channelIndex].timestamp) >=CHANNEL_VALIDITY_TS_THRESHOLD ))
1216 pSupportedChannels[channelIndex].channelValidityActive = TI_FALSE;
1229 TI_UINT8 channelIndex;
1244 channelIndex = (channel-A_5G_BAND_MIN_CHANNEL);
1249 channelIndex = (channel-BG_24G_BAND_MIN_CHANNEL);
1250 if (channelIndex >= NUM_OF_CHANNELS_24)
1259 if((pSupportedChannels[channelIndex].bChanneInCountryIe == TI_FALSE) && (pRegulatoryDomain->regulatoryDomainEnabled == TI_TRUE))
1265 pSupportedChannels[channelIndex].timestamp = os_timeStampMs(pRegulatoryDomain->hOs);
1266 pSupportedChannels[channelIndex].channelValidityActive = TI_TRUE;
1459 TI_UINT8 channelIndex;
1483 for (channelIndex=0; channelIndex<numberOfChannels; channelIndex++)
1485 if (pSupportedChannels[channelIndex].channelValidityPassive)
1487 pRegulatoryDomain->pDefaultChannels[maxSupportedChannels] = channelIndex+minChannelNumber;
1529 TI_UINT16 channelIndex;
1531 for (channelIndex=0; channelIndex<NUM_OF_CHANNELS_24; channelIndex++)
1533 if (pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityPassive)
1534 WLAN_OS_REPORT(("channel num =%d is valid for passive \n", channelIndex+1));
1535 if (pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].channelValidityActive)
1538 channelIndex+1, pRegulatoryDomain->supportedChannels_band_2_4[channelIndex].uMaxTxPowerDomain));
1542 for (channelIndex=0; channelIndex<A_5G_BAND_NUM_CHANNELS; channelIndex++)
1545 channelNum = channelIndex+A_5G_BAND_MIN_CHANNEL;
1546 if (pRegulatoryDomain->supportedChannels_band_5[channelIndex].channelValidityPassive)
1548 if (pRegulatoryDomain->supportedChannels_band_5[channelIndex].channelValidityActive)
1551 channelNum,pRegulatoryDomain->supportedChannels_band_5[channelIndex].uMaxTxPowerDomain));
