Requêtes pour la table ACSCallDiagnostics
Pour plus d’informations sur l’utilisation de ces requêtes dans le Portail Azure, consultez le didacticiel Log Analytics. Pour l’API REST, consultez Requête.
Flux par appel
Calcule le nombre moyen de flux par appel.
ACSCallDiagnostics
// Count the streams and distinct calls
| summarize num_streams=count(), num_calls=dcount(CorrelationId)
// Calculate the average number of streams per call
| extend avg_streams = toreal(num_streams) / toreal(num_calls)
Histogramme de flux par appel
Produit un histogramme de nombre de flux par appel.
ACSCallDiagnostics
// Counts the number of streams per call
| summarize streams_per_call=count() by CorrelationId
// Aggregates the numbers of streams per call (e.g. if there are 7 calls that have 6 streams,
// this will produce a row [streams_per_call=6, stream_counts=7])
| summarize stream_counts=count() by streams_per_call
| order by streams_per_call asc
| render columnchart title="Streams per call histogram"
Ratio de type de média
Produit un graphique en secteurs de la proportion de flux d’un type multimédia particulier.
ACSCallDiagnostics
// Count the number of streams per media type
| summarize media_types=count() by MediaType
| render piechart title="Media Type Ratio"
Taux de type de transport
Produit un graphique en secteurs de la proportion de flux à l’aide d’un type de transport particulier.
ACSCallDiagnostics
// Count the number of streams per transport type
| summarize transport_types=count() by TransportType
| render piechart title="Transport Type Ratio"
Moyenne des valeurs de télémétrie
Calcule les valeurs moyennes pour les six champs de télémétrie.
ACSCallDiagnostics
// Calculate the average value for each of the six telemetry fields
| summarize Avg_JitterAvg=avg(JitterAvg),
Avg_JitterMax=avg(JitterMax),
Avg_RoundTripTimeAvg=avg(RoundTripTimeAvg),
Avg_RoundTripTimeMax=avg(RoundTripTimeMax),
Avg_PacketLossRateAvg=avg(PacketLossRateAvg),
Avg_PacketLossRateMax=avg(PacketLossRateMax)
Histogramme moyen de gigue
Produit un histogramme de gigue moyenne par flux.
ACSCallDiagnostics
// Filter null values
| where isnotnull(JitterAvg)
// Count jitter values by 10 millisecond intervals
| summarize JitterAvg_counts=count() by bin(JitterAvg, 10)
| order by JitterAvg asc
| render columnchart with (xcolumn = JitterAvg, title="JitterAvg histogram")
Histogramme max de gigue
Produit un histogramme de gigue maximale par flux.
ACSCallDiagnostics
// Filter null values
| where isnotnull(JitterMax)
// Count jitter values by 10 millisecond intervals
|summarize JitterMax_counts=count() by JitterMax
| order by JitterMax asc
| render columnchart with (xcolumn = JitterMax, title="JitterMax histogram")
Histogramme moyen du taux de perte de paquets
Produit un histogramme de taux de perte de paquets moyen par flux.
ACSCallDiagnostics
// Filter null values
| where isnotnull(PacketLossRateAvg)
// Count packet loss rate values within an inverval of 0.01 (1%)
| summarize PacketLossRateAvg_counts=count() by bin(PacketLossRateAvg, 0.01)
| order by PacketLossRateAvg asc
| render columnchart with (xcolumn = PacketLossRateAvg, title="PacketLossRateAvg histogram")
Histogramme maximal du taux de perte de paquets
Produit un histogramme du taux maximal de perte de paquets par flux.
ACSCallDiagnostics
// Filter null values
| where isnotnull(PacketLossRateMax)
// Count packet loss rate values within an inverval of 0.01 (1%)
|summarize PacketLossRateMax_counts=count() by bin(PacketLossRateMax, 0.01)
| order by PacketLossRateMax asc
| render columnchart with (xcolumn = PacketLossRateMax, title="PacketLossRateMax histogram")
Histogramme moyen du temps aller-retour
Produit un histogramme de temps d’aller-retour moyen par flux.
// RoundTripTime Average Histogram
ACSCallDiagnostics
// Filter null values
| where isnotnull(RoundTripTimeAvg)
// Count round trip time values by 10 millisecond intervals
|summarize RoundTripTimeAvg_counts=count() by bin(RoundTripTimeAvg, 10)
| order by RoundTripTimeAvg asc
| render columnchart with (xcolumn = RoundTripTimeAvg, title="RoundTripTimeAvg histogram")
Histogramme maximal de temps d’aller-retour
Produit un histogramme de temps d’aller-retour maximal par flux.
ACSCallDiagnostics
// Filter null values
| where isnotnull(RoundTripTimeMax)
// Count round trip time values by 10 millisecond intervals
|summarize RoundTripTimeMax_counts=count() by bin(RoundTripTimeMax, 10)
| order by RoundTripTimeMax asc
| render columnchart with (xcolumn = RoundTripTimeMax, title="RoundTripTimeMax histogram")
Rapport qualité de la gigue
Produit un graphique en secteurs de la proportion de flux avec une bonne ou mauvaise qualité de gigue.
ACSCallDiagnostics
// Classify the jitter quality as Poor or Good based on
// whether the average jitter is higher than 30 milliseconds
| project JitterQuality = iff(JitterAvg > 30, "Poor", "Good")
// Counts the number of streams per jitter quality
| summarize count() by JitterQuality
| render piechart title="Jitter Quality"
Taux de qualité du taux de perte de paquets
Produit un graphique en secteurs de la proportion de flux avec une qualité de taux de perte de paquet bonne ou médiocre.
ACSCallDiagnostics
// Classify packet loss rate quality as Poor or Good based on
// whether the average packet loss rate is higher than 10%
| project PacketLossRateQuality = iff(PacketLossRateAvg > 0.1, "Poor", "Good")
// Count the number of streams per packet loss rate quality
| summarize count() by PacketLossRateQuality
| render piechart title="Packet Loss Rate Quality"
Rapport qualité du temps aller-retour
Produit un graphique en secteurs de la proportion de flux avec une qualité d’aller-retour bonne ou médiocre.
ACSCallDiagnostics
// Classifying the round trip time quality as Poor or Good based on
// whether the average round trip time is higher than 500 milliseconds
| project RoundTripTimeQuality = iff(RoundTripTimeAvg > 500, "Poor", "Good")
// Count the number of streams per round trip time quality
| summarize count() by RoundTripTimeQuality
| render piechart title="Round Trip Time Quality"
Journal CallDiagnostics pour l’appel de l’API CallAutomation
Interroge le journal des diagnostics pour un appel qui a été interagissant avec l’API Call Automation à l’aide de l’ID de corrélation.
ACSCallAutomationIncomingOperations
//| where CorrelationId == "<correlation ID>" // This can be uncommented to filter on a specific correlation ID
| join kind=inner
(ACSCallDiagnostics)
on CorrelationId
| limit 100
Appels de recherche par mot clé
Répertoriez tous les appels trouvés qui contiennent le mot clé et retourne les détails de l’appel, notamment l’évaluation, la qualité, la répartition des problèmes, etc. Cette requête est également utilisée dans Les diagnostics d’appel pour rechercher des appels.
// Set queryConditions_keyword to be the searching keyword. It can be CallId, ParticipantId,
// Identifier or any other column values in ACSCallSummary log. If not set, the query will return all calls.
// Note this query is also used to provide the data in Call Diagnostics.
declare query_parameters(queryConditions_keyword:string = '',
queryConditions_startTime:string = '',
queryConditions_endTime:string = '');
let callIds =
materialize(ACSCallSummary
| where isempty(queryConditions_startTime) or CallStartTime >= todatetime(queryConditions_startTime)
| extend CallEndTime = CallStartTime + totimespan(strcat(tostring(CallDuration), 's'))
| where isempty(queryConditions_endTime) or CallEndTime <= todatetime(queryConditions_endTime)
| where isempty(queryConditions_keyword) or * contains queryConditions_keyword
| distinct CorrelationId, ParticipantId);
let searchedCalls =
materialize(ACSCallSummary
| where CorrelationId in ((callIds | project CorrelationId))
| extend CallEndTime = CallStartTime + totimespan(strcat(tostring(CallDuration), 's'))
| where CorrelationId != ParticipantId
| extend ParticipantId = coalesce(ParticipantId, Identifier, EndpointId)
| extend ParticipantId = iff(ParticipantId == 'Redacted', strcat('RedactedParticipant-', EndpointType, '-Identifier-', Identifier), ParticipantId)
| extend EndpointId = iff(EndpointId == 'Redacted', strcat('RedactedEndpoint-', EndpointType, '-Identifier-', Identifier), EndpointId)
| summarize hint.strategy = shuffle CallStartTime = take_any(CallStartTime), CallEndTime = take_any(CallEndTime), CallType = take_any(CallType),
numOfDroppedParticipant = count_distinctif(ParticipantId, ParticipantEndReason in ('380', '400', '407', '408', '409', '410',
'412', '417', '430', '439', '440', '481', '483', '488', '489', '493', '500', '502', '503', '504', '580')) by CorrelationId);
// client type
let allParticipants = materialize(ACSCallSummary
| where CorrelationId != ParticipantId
| extend ParticipantId = coalesce(ParticipantId, Identifier, EndpointId)
| extend ParticipantId = iff(ParticipantId == 'Redacted', strcat('RedactedParticipant-', EndpointType, '-Identifier-', Identifier), ParticipantId)
| extend EndpointId = iff(EndpointId == 'Redacted', strcat('RedactedEndpoint-', EndpointType, '-Identifier-', Identifier), EndpointId)
| where CorrelationId in ((callIds | project CorrelationId))
| union (ACSCallClientOperations
| where CallId in ((callIds | project CorrelationId))
| where isnotempty(ParticipantId)
| distinct ParticipantId, CorrelationId = CallId, EndpointType = 'VoIP')
| summarize hint.strategy = shuffle take_any(EndpointType) by ParticipantId, CorrelationId);
let clientTypeInfo = materialize(allParticipants
| summarize hint.strategy = shuffle count() by EndpointType, CorrelationId
| extend info = strcat(count_, ' ', EndpointType)
| summarize hint.strategy = shuffle summaryInfo = make_list(info, 100) by CorrelationId
| extend ClientType = strcat_array(summaryInfo, ', ')
| project CorrelationId, ClientType);
let totalNumOfParticipants = materialize(allParticipants | summarize hint.strategy = shuffle participantsCount = dcount(ParticipantId) by CorrelationId);
// quality
let qualityInfo = materialize(ACSCallDiagnostics
| where CorrelationId in ((callIds | project CorrelationId))
| where CorrelationId != ParticipantId
| extend ParticipantId = coalesce(ParticipantId, Identifier, EndpointId)
| extend ParticipantId = iff(ParticipantId == 'Redacted', strcat('RedactedParticipant-', EndpointType, '-Identifier-', Identifier), ParticipantId)
| extend EndpointId = iff(EndpointId == 'Redacted', strcat('RedactedEndpoint-', EndpointType, '-Identifier-', Identifier), EndpointId)
| where isnotempty(StreamId)
| summarize hint.strategy = shuffle arg_max(TimeGenerated, *) by ParticipantId, StreamId
| extend
MediaType = iff(MediaType == 'VBSS', 'ScreenSharing', MediaType) | extend
__JitterQuality = iff(JitterAvg > 30, "Poor", "Good"),
__JitterBufferQuality = iff(JitterBufferSizeAvg > 200, "Poor", "Good"),
__PacketLossRateQuality = iff(PacketLossRateAvg > 0.1, "Poor", "Good"),
__RoundTripTimeQuality = iff(RoundTripTimeAvg > 500, "Poor", "Good"),
__HealedDataRatioQuality = iff(HealedDataRatioAvg > 0.1, "Poor", "Good"),
__VideoFrameRateQuality = iff((VideoFrameRateAvg < 1 and MediaType == 'ScreenSharing') or
(VideoFrameRateAvg < 7 and MediaType == 'Video'), "Poor", "Good"),
__FreezesQuality = iff((RecvFreezeDurationPerMinuteInMs > 25000 and MediaType == 'ScreenSharing') or
(RecvFreezeDurationPerMinuteInMs > 6000 and MediaType == 'Video'), "Poor", "Good"),
__VideoResolutionHeightQuality = iff((RecvResolutionHeight < 768 and MediaType == 'ScreenSharing') or
(RecvResolutionHeight < 240 and MediaType == 'Video'), "Poor", "Good")
| extend
__StreamQuality = iff(
(__JitterQuality == "Poor")
or (__JitterBufferQuality == "Poor")
or (__PacketLossRateQuality == "Poor")
or (__RoundTripTimeQuality == "Poor")
or (__HealedDataRatioQuality == "Poor")
or (__VideoFrameRateQuality == "Poor")
or (__FreezesQuality == "Poor")
or (__VideoResolutionHeightQuality == "Poor"),
"Poor", "Good"),
MediaDirection = iff(EndpointType == 'Server', 'InboundStream', 'OutboundStream')
| summarize hint.strategy = shuffle numOfPoorStreams = countif(__StreamQuality == 'Poor') by CorrelationId
| extend Quality = iff(numOfPoorStreams >0, 'Poor', 'Good') | project Quality, numOfPoorStreams, CorrelationId);
// rating
let ratingInfo = materialize(ACSCallSurvey
| where CallId in ((callIds | project CorrelationId))
| extend OverallRatingScoreUpperBound = iff(isnotempty(OverallRatingScoreUpperBound), OverallRatingScoreUpperBound, 5)
| summarize hint.strategy = shuffle Rating = avg(OverallRatingScore*5.0/OverallRatingScoreUpperBound) by CallId
| project CorrelationId=CallId, Rating);
// client operation issues
let rangeEventsWithCorrelation = dynamic(['UserFacingDiagnostics']);
let pointEvents = dynamic([
'SelectedMicrophoneChanged', 'SelectedSpeakerChanged', 'OptimalVideoCount-changed', 'State-changed', 'CallMode-changed',
'IsMuted-changed', 'IsIncomingAudioMuted-changed', 'Id-changed', 'Role-changed', 'SelectedDevice-changed', 'PageHidden',
'optimalVideoCount-changed', 'state-changed', 'callMode-changed', 'isMuted-changed', 'isIncomingAudioMuted-changed',
'id-changed', 'role-changed', 'selectedDevice-changed', 'pageHidden']);
// We need clientIds to get all operations before call is established.
let callClientIds = materialize(ACSCallClientOperations
| where ParticipantId in ((callIds | project ParticipantId)) or CallId in ((callIds | project CorrelationId))
| distinct ClientInstanceId, ParticipantId, CallId);
//
let allOperations =
materialize(callClientIds | join kind=rightouter hint.strategy=shuffle
(ACSCallClientOperations
| where isempty(queryConditions_startTime) or CallClientTimeStamp >= (todatetime(queryConditions_startTime) - 2h)
| where ParticipantId in ((callIds | project ParticipantId)) or CallId in ((callIds | project CorrelationId)) or ClientInstanceId in ((callClientIds | project ClientInstanceId))
| where isnotempty(OperationName) and OperationName != 'CallClientOperations'
and isnotempty(OperationId) and isnotempty(CallClientTimeStamp))
on ClientInstanceId
| extend ParticipantId = coalesce(ParticipantId, ParticipantId1), CallId = coalesce(CallId, CallId1)
| project-away ParticipantId1, ClientInstanceId1, CallId1
| summarize hint.strategy = shuffle arg_max(TimeGenerated, *) by OperationId, CallClientTimeStamp);
//
let correlatedOperations = materialize(allOperations
| where OperationName in (rangeEventsWithCorrelation)
| extend OperationPayload = todynamic(OperationPayload)
| extend
UFDQuality = tostring(OperationPayload.DiagnosticQuality),
UFDType = tostring(OperationPayload.DiagnosticChanged)
| extend UFDType = strcat(toupper(substring(UFDType, 0, 1)),substring(UFDType, 1))
| extend OperationPayloadNew = bag_pack(tostring(CallClientTimeStamp), OperationPayload)
| project-away ResultType
| summarize hint.strategy = shuffle
arg_max(TimeGenerated, *), ResultType = iff(countif(UFDQuality != 'Good')>0, 'Failed', 'Succeeded'),
OperationStartTime = min(CallClientTimeStamp), OperationEndTime = max(CallClientTimeStamp),
OperationPayloadPacked = make_bag(OperationPayloadNew) by OperationId, UFDType, CallId
| extend ResultType = iff(UFDType has_any ("SpeakingWhileMicrophoneIsMuted", "SpeakerMuted"), 'Succeeded', ResultType), OperationName = UFDType
| where ResultType !in ('Succeeded', 'Success', 'ExpectedError'));
//
let nonCorrelatedOperations = materialize(allOperations
| where OperationName !in (rangeEventsWithCorrelation)
| extend OperationId = coalesce(hash_sha256(strcat(OperationId, tostring(CallClientTimeStamp))), tostring(new_guid()))
| summarize hint.strategy = shuffle arg_max(TimeGenerated, *) by OperationId, CallId
| where ResultType !in ('Succeeded', 'Success', 'ExpectedError'));
let clientOperationIssues =
materialize(union nonCorrelatedOperations, correlatedOperations
| summarize hint.strategy = shuffle numOfBadOperations=count() by OperationName, CallId
| extend badClientOperations = bag_pack(OperationName, numOfBadOperations)
| summarize hint.strategy = shuffle badClientOperations = make_bag(badClientOperations), numOfBadOperations = sum(numOfBadOperations) by CorrelationId=CallId);
////
searchedCalls
| join kind=leftouter hint.strategy=shuffle clientTypeInfo on CorrelationId
| join kind=leftouter hint.strategy=shuffle qualityInfo on CorrelationId
| join kind=leftouter hint.strategy=shuffle ratingInfo on CorrelationId
| join kind=leftouter hint.strategy=shuffle clientOperationIssues on CorrelationId
| join kind=leftouter hint.strategy=shuffle totalNumOfParticipants on CorrelationId
| extend numOfPoorStreams = coalesce(numOfPoorStreams, 0)
| extend
drops=bag_pack('Call Ended Ungracefully',numOfDroppedParticipant),
badMediaStreams = bag_pack('Poor Media Streams', numOfPoorStreams),
Issues = coalesce(numOfBadOperations, 0) + numOfDroppedParticipant + numOfPoorStreams
| extend
IssuesBreakdown=bag_merge(drops, badClientOperations, badMediaStreams)
| project
CallId=CorrelationId, CallStartTime, CallEndTime, CallType,
Participants=participantsCount, ClientType,
Quality=iff(isempty(Quality), 'Unknown', Quality),
Rating=case(isempty(Rating), 'Unknown', Rating>=4.5, 'Good', Rating >=3, 'Average', 'Poor'),
NumOfDroppedParticipant = numOfDroppedParticipant,
NumOfPoorStreams = numOfPoorStreams,
Issues, IssuesBreakdown
| order by CallStartTime desc
Rechercher tous les participants dans un appel
Recherchez tous les participants dans un appel par callId et retournez les détails des participants. Cette requête est également utilisée dans Les diagnostics d’appel pour rechercher des participants.
// Set queryConditions_callId to be the CallId you want to query.
// Note this query is used in Call Diagnostics to get all the participant entities of a call.
declare query_parameters(queryConditions_callId:string = '');
let participants = materialize(ACSCallSummary
| where CorrelationId == queryConditions_callId
| where ParticipantId != CorrelationId and isnotempty(ParticipantId)
| distinct ParticipantId, CallType);
let serviceSideParticipants = materialize(ACSCallSummary
| where CorrelationId == queryConditions_callId
// some participants don't have startTime, we use callStartTime instead.
| extend ParticipantStartTime = coalesce(ParticipantStartTime, CallStartTime)
| extend ParticipantEndTime = coalesce(ParticipantStartTime + 1s*ParticipantDuration, ParticipantStartTime + 10ms)
| extend EndReason=case(
ParticipantEndReason == "0", "Success",
ParticipantEndReason == "100","Trying",
ParticipantEndReason == "180","Ringing",
ParticipantEndReason == "181","Call Is Being Forwarded",
ParticipantEndReason == "182","Queued",
ParticipantEndReason == "183","Session Progress",
ParticipantEndReason == "199","Early Dialog Terminated",
ParticipantEndReason == "200","Success",
ParticipantEndReason == "202","Accepted",
ParticipantEndReason == "204","No Notification",
ParticipantEndReason == "300","Multiple Choices",
ParticipantEndReason == "301","Moved Permanently",
ParticipantEndReason == "302","Moved Temporarily",
ParticipantEndReason == "305","Use Proxy",
ParticipantEndReason == "380","Alternative Service",
ParticipantEndReason == "400","Bad Request",
ParticipantEndReason == "401","Unauthorized",
ParticipantEndReason == "402","Payment Required",
ParticipantEndReason == "403","Forbidden / Authentication failure",
ParticipantEndReason == "404","Call not found",
ParticipantEndReason == "405","Method Not Allowed",
ParticipantEndReason == "406","Not Acceptable",
ParticipantEndReason == "407","Proxy Authentication Required",
ParticipantEndReason == "408","Call controller timed out",
ParticipantEndReason == "409","Conflict",
ParticipantEndReason == "410","Local media stack or media infrastructure error",
ParticipantEndReason == "411","Length Required",
ParticipantEndReason == "412","Conditional Request Failed",
ParticipantEndReason == "413","Request Entity Too Large",
ParticipantEndReason == "414","Request-URI Too Large",
ParticipantEndReason == "415","Unsupported Media Type",
ParticipantEndReason == "416","Unsupported URI Scheme",
ParticipantEndReason == "417","Unknown Resource-Priority",
ParticipantEndReason == "420","Bad Extension",
ParticipantEndReason == "421","Extension Required",
ParticipantEndReason == "422","Session Interval Too Small",
ParticipantEndReason == "423","Interval Too Brief",
ParticipantEndReason == "424","Bad Location Information",
ParticipantEndReason == "428","Use Identity Header",
ParticipantEndReason == "429","Provide Referrer Identity",
ParticipantEndReason == "430","Unable to deliver message to client application",
ParticipantEndReason == "433","Anonymity Disallowed",
ParticipantEndReason == "436","Bad Identity-Info",
ParticipantEndReason == "437","Unsupported Certificate",
ParticipantEndReason == "438","Invalid Identity Header",
ParticipantEndReason == "439","First Hop Lacks Outbound Support",
ParticipantEndReason == "440","Max-Breadth Exceeded",
ParticipantEndReason == "469","Bad Info Package",
ParticipantEndReason == "470","Consent Needed",
ParticipantEndReason == "480","Remote client endpoint not registered",
ParticipantEndReason == "481","Failed to handle incoming call",
ParticipantEndReason == "482","Loop Detected",
ParticipantEndReason == "483","Too Many Hops",
ParticipantEndReason == "484","Address Incomplete",
ParticipantEndReason == "485","Ambiguous",
ParticipantEndReason == "486","Busy Here",
ParticipantEndReason == "487","Call canceled, locally declined, ended due to an endpoint mismatch issue, or failed to generate media offer",
ParticipantEndReason == "488","Not Acceptable Here",
ParticipantEndReason == "489","Bad Event",
ParticipantEndReason == "490","Local endpoint network issues",
ParticipantEndReason == "491","Local endpoint network issues",
ParticipantEndReason == "493","Undecipherable",
ParticipantEndReason == "494","Security Agreement Required",
ParticipantEndReason == "496","Local endpoint network issues",
ParticipantEndReason == "497","Local endpoint network issues",
ParticipantEndReason == "498","Local endpoint network issues",
ParticipantEndReason == "500","Communication Services infrastructure error",
ParticipantEndReason == "501","Not Implemented",
ParticipantEndReason == "502","Bad Gateway",
ParticipantEndReason == "503","Communication Services infrastructure error",
ParticipantEndReason == "504","Communication Services infrastructure error",
ParticipantEndReason == "505","Version Not Supported",
ParticipantEndReason == "513","Message Too Large",
ParticipantEndReason == "555","Push Notification Service Not Supported",
ParticipantEndReason == "580","Precondition Failure",
ParticipantEndReason == "600","Busy Everywhere",
ParticipantEndReason == "603","Call globally declined by remote Communication Services participant",
ParticipantEndReason == "604","Does Not Exist Anywhere",
ParticipantEndReason == "606","Not Acceptable",
ParticipantEndReason == "607","Unwanted",
ParticipantEndReason == "608","Rejected", "")
| extend Rank = iff(isempty(ParticipantId) and CallType == 'P2P' and EndpointType == 'VoIP', -1, 1)
| where CorrelationId != ParticipantId
| extend ParticipantId = coalesce(ParticipantId, Identifier, EndpointId)
| extend ParticipantId = iff(ParticipantId == 'Redacted', strcat('RedactedParticipant-', EndpointType, '-Identifier-', Identifier), ParticipantId)
| extend EndpointId = iff(EndpointId == 'Redacted', strcat('RedactedEndpoint-', EndpointType, '-Identifier-', Identifier), EndpointId)
| summarize hint.strategy = shuffle arg_max(TimeGenerated, *) by ParticipantId
| extend CallDroppedUngracefully = ParticipantEndReason in ('380', '400', '407', '408', '409', '410',
'412', '417', '430', '439', '440', '481', '483', '488', '489', '493', '500', '502', '503', '504', '580')
| project
ParentEntityId = CorrelationId,
ParentEntityType = 'Call',
EntityType = 'Participant',
EntityId = ParticipantId,
EntityStartTime=ParticipantStartTime,
EntityEndTime=ParticipantEndTime,
EntityDuration=ParticipantDuration,
EntityDisplayName = strcat('Participant-', ParticipantId),
EntityPayload = bag_pack(
'EndReasonCode', toint(ParticipantEndReason),
'EndReasonPhrase', EndReason,
'Identifier', Identifier,
'EndpointId', EndpointId,
'ParticipantType', ParticipantType,
'EndpointType', EndpointType,
'SdkVersion', SdkVersion,
'OsVersion', OsVersion,
'PstnParticipantCallType', PstnParticipantCallType
),
Insights_HasIssues = CallDroppedUngracefully,
Insights_Payload = bag_pack(
'EndReasonCode', toint(ParticipantEndReason),
'EndReasonPhrase', EndReason,
'ParticipantId', ParticipantId,
'CallDroppedUngracefully', CallDroppedUngracefully),
GroupName = "lifeCycle",
Rank);
//
let clientSideParticipants = materialize(ACSCallClientOperations
| where ParticipantId in (participants) or CallId == queryConditions_callId
| where isnotempty(OperationName) and OperationName != 'CallClientOperations'
and isnotempty(OperationId) and isnotempty(CallClientTimeStamp)
| extend OperationId = coalesce(hash_sha256(strcat(OperationId, tostring(CallClientTimeStamp), OperationName)), tostring(new_guid()))
| summarize hint.strategy = shuffle arg_max(CallId, *) by OperationId
| where isnotempty(ParticipantId)
| extend OS = parse_user_agent(UserAgent, 'os').OperatingSystem
| extend OsVersion = strcat(OS.Family, OS.MajorVersion,'.', OS.MinorVersion)
| project OperationId, ParticipantId, CallId, CallClientTimeStamp, OperationName, OperationPayload, OsVersion, SdkVersion, ResultSignature, ResultType
| extend OperationPayload = todynamic(OperationPayload)
| extend
UFDQuality = tostring(OperationPayload.DiagnosticQuality),
UFDType = tostring(OperationPayload.DiagnosticChanged),
isUFD = OperationName == 'UserFacingDiagnostics'
| extend
ResultType = iff(isUFD, iff(UFDQuality != 'Good' and not(UFDType has_any ("SpeakingWhileMicrophoneIsMuted", "SpeakerMuted")), 'Failed', 'Succeeded'), ResultType),
CallDroppedUngracefully = iff(OperationName in ('Hangup', 'EnterCall', 'Join'), ResultType !in ('Succeeded', 'Success', 'ExpectedError'), False),
ParticipantStartTime = iff(OperationName == 'EnterCall', CallClientTimeStamp, datetime(null)),
ParticipantEndTime = iff(OperationName == 'Hangup', CallClientTimeStamp, datetime(null))
| summarize hint.strategy = shuffle arg_max(CallId, *), ResultType = iff(countif(ResultType == 'Failed') > 0, 'Failed', 'Succeeded'),
CallDroppedUngracefully = countif(CallDroppedUngracefully) > 0,
ParticipantStartTimeApprox = min(CallClientTimeStamp),
ParticipantEndTimeApprox = max(CallClientTimeStamp) by ParticipantId
| extend
ParticipantStartTime = coalesce(ParticipantStartTime, ParticipantStartTimeApprox),
ParticipantEndTime = coalesce(ParticipantEndTime, ParticipantEndTimeApprox)
| project
ParentEntityId = queryConditions_callId,
ParentEntityType = 'Call',
EntityId = ParticipantId,
EntityType = 'Participant',
EntityDisplayName = strcat('Participant-', ParticipantId),
EntityStartTime=ParticipantStartTime,
EntityEndTime=ParticipantEndTime,
EntityDuration=tolong((ParticipantEndTime - ParticipantStartTime)/1s),
EntityPayload = bag_pack(
'ParticipantType', 'ACS',
'EndpointType', 'VoIP',
'SdkVersion', SdkVersion,
'OsVersion', OsVersion
),
Insights_HasIssues = ResultType == 'Failed',
Insights_Payload = bag_pack('ParticipantId', ParticipantId, 'CallDroppedUngracefully', CallDroppedUngracefully),
GroupName = "lifeCycle",
Rank = 0);
// Merge participantEntities from service side and client side, and if the participant exists in both sides, we take the one with higher Rank.
union serviceSideParticipants, clientSideParticipants
| summarize hint.strategy = shuffle arg_max(Rank, *), EntityPayload_Merged = make_bag(EntityPayload),
Insights_Payload_Merged = make_bag(Insights_Payload),
Insights_HasIssues_Merged = countif(Insights_HasIssues) > 0 by EntityId
| order by Rank
| project
ParentEntityId,
ParentEntityType,
EntityId,
EntityType,
EntityDisplayName,
EntityStartTime,
EntityEndTime,
EntityDuration,
EntityPayload = EntityPayload_Merged,
Insights_HasIssues = Insights_HasIssues_Merged,
Insights_Payload = Insights_Payload_Merged