RTCRemoteOutboundRtpStreamStats.localId
The RTCRemoteOutboundRtpStreamStats
dictionary's localId
property is a string which can be used to identify the RTCInboundRtpStreamStats
object whose remoteId
matches this value.
Together, these two objects provide statistics about the inbound and outbound sides of the same synchronization source (SSRC).
Syntax
let localId = rtcRemoteOutboundRtpStreamStats.localId;
Value
A DOMString
which can be compared to the value of an RTCInboundRtpStreamStats
object's remoteId
property to see if the two represent statistics for each of the two sides of the same set of data received by the local peer.
Usage notes
You can think of the local and remote views of the same RTP stream as pairs, each of which has a reference back to the other one. Thus, if an RTCStatsReport
includes an remote-outbound-rtp
statistics object (of type RTCRemoteOutboundRtpStreamstats
), it should also have a corresponding inbound-rtp
object. Both of these provide information about the same batch of packets being transmitted from the remote peer to the local device. The difference is that remote-outbound-rtp
describes statistics about the transmission(s) from the perspective of the remote peer, while inbound-rtp
offers statistics about the incoming data from the local peer's perspective.
You can examine, try out, and experiment with this example on Glitch.
Example
In this example, we have a pair of functions: the first, networkTestStart()
, captures an initial report, and the second, networkTestStop()
, captures a second report, then uses the two reports to output some information about the network conditions... XXX ...
networkTestStart()
This function calls the RTCPeerConnection
method getStats()
to request an RTCStatsReport
and store it in the variable startReport
.
let startReport; async function networkTestStart(pc) { if (pc) { startReport = await pc.getStats(); } }
Given an RTCPeerConnection
, pc
, this calls its getStats()
method to obtain a statistics report object, which it stores in startReport
for use once the end-of-test data has been collected by networkTestStop()
.
networkTestStop()
The networkTestStop()
function obtains a second report, endReport
, then uses the two reports together to determine several... XXX ...
Finding paired statistics
Each statistics record of type
remote-outbound-rtp
(describing a remote peer's statistics about sending data to the local peer) has a corresponding record of type inbound-rtp
which describes the local peer's perspective on the same data being moved between the two peers. Let's create a utility function to help us look up the value of a key in the paired statistics object.
The findReportEntry()
function shown below examines an RTCStatsReport
, returning the RTCStats
-based statistics record which contains the specified key
— and for which the key has the specified value
. If no match is found (or the statistics report has no record corresponding to the statistics category indicated by key
.
function findReportEntry(report, key, value) { for (const stats of report.values()) { if (stats[key] === value) { return stats; } } return null; }
Since the RTCStatsReport
is a JavaScript Map
, we can iterate over the map's values()
to examine each of the RTCStats
-based statistics records in the report until we find one that has the key
property with the specified value
. When a match is found, the statistics object is returned.
If no match is found, the function returns null
.
The main networkTestStop() function
Now let's look at the networkTestStop()
function itself. It takes as input the RTCPeerConnection
being tested, calls getStats()
to get a new RTCStatsReport
with current statistics, then computes the results it's looking for, outputting those results as appropriate to the user by appending appropriate HTML to the contents of the <div>
element whose class is stats-box
.
async function networkTestStop(pc) { if (pc) { let statsBox = document.querySelector(".stats-box"); let endReport = await pc.getStats(); for (let endRemoteOutbound of endReport.values()) { if (endRemoteOutbound.type === "remote-outbound-rtp") { let startRemoteOutbound = startReport.get(endRemoteOutbound.id); if (startRemoteOutbound) { let startInboundStats = findReportEntry(startReport, "remoteId", startRemoteOutbound.id); let endInboundStats = findReportEntry(endReport, "remoteId", endRemoteOutbound.id); let elapsedTime = (endRemoteOutbound.timestamp - startRemoteOutbound.timestamp) / 1000; /* in seconds */ let packetsSent = endRemoteOutbound.packetsSent - startRemoteOutbound.packetsSent; let bytesSent = endRemoteOutbound.bytesSent - startRemoteOutbound.bytesSent; let framesDecoded = endInboundStats.framesDecoded - startInboundStats.framesDecoded; let frameRate = framesDecoded / elapsedTime; let timeString = ""; if (!isNaN(elapsedTime)) { timeString = ` representing ${elapsedTime}s`; } let frameString = ""; if (!isNaN(framesDecoded)) { frameString = `Decoded ${framesDecoded} frames for a frame rate of ${frameRate.toFixed(2)} FPS.<br>`; } let logEntry = `<div class="stats-entry"><h2>Report ID: ${endRemoteOutbound.id}</h2>` + `Remote peer sent ${packetsSent} packets ${timeString}.<br>` + `${frameString}` + `Data size: ${bytesSent} bytes.</div>`; statsBox.innerHTML += logEntry; } else { statsBox.innerHTML += `<div class="stats-error">Unable to find initial statistics for ID ${endRemoteOutbound.id}.</div>` } } statsBox.scrollTo(0, statsBox.scrollHeight); } } }
Here's what's going on in the networkTestStop()
function: after calling the RTCPeerConnection
method getStats()
to get the latest statistics report for the connection and storing it in endReport
, This is an RTCStatsReport
object, which maps strings taken from the RTCStatsType
enumerated type to objects of the corresponding RTCStats
-based type.
Now we can begin to process the results, starting with the ending statistics found in endReport
. In this case, we're looking for statistics records whose type
is remote-outbound-rtp
, so we iterate over the entries in the statistics report until we find an entry of that type. This object is, specifically, of type RTCRemoteOutboundRtpStreamStats
, and it provides statistics giving details about the state of things from the perspective of the remote peer. This statistics record is stored in endRemoteOutbound
.
Once the ending remote-outbound-rtp
record is found, we use its id
property to get its ID. WIth that in hand, we can look up the remote-outbound-rtp
record in the starting statistics record (startReport
), which we store into startRemoteOutbound
.
Now we obtain the inbound-rtp
statistics that correspond to these two remote-outbound-rtp
records by finding the remoteId
property within them whose value is the ID of the remote-outbound-rtp
record. We use the findReportEntry()
function described in the previous section for that, storing the located inbound-rtp
records in startInboundStats
and endInboundStats
.
Now we have all the raw statistics needed to calculate the information we want to display, so we do so:
- We calculate the amount of time—
elapsedTime
—that elapsed between the two reports being sent by subtracting thetimestamp
startReport
from that ofendReport
. We then divide by 1000 to convert the result from milliseconds to seconds. - We compute the number of packets sent during this interval—
packetsSent
—by subtracting the two reports' values for thepacketsSent
property. - Similarly, the number of bytes sent during this interval—
bytesSent
—is calculated by subtracting the starting statistics object'sbytesSent
property from that of the ending statistics. - The number of frames decoded during this interval—
framesDecoded
—is determined by subtractingstartRecord
'sframesDecoded
fromendRecord.framesDecoded
. - Finally, the frame rate over the elapsed time span is calculated by dividing
framesDecoded
byelapsedTime
.
The remainder of the networkTestStop()
function constructs the HTML used to display the output of the collected and computed results to the user, then append it to the element statsBox
, which we're using to show the status updates to the user.
The output log, given the styles used by the example, looks like this:
In the screenshot, we see a heading followed by the scrollable <div>
we refer to as statsBox
. The box contains a number of log entries, the last handful of which are visible. Each one represents approximately one second of time (since that's much time we're waiting between calling networkTestStart()
and networkTestStop()
).
Try it and fork it
This example is available on Glitch for you to try out, examine, or remix. You can also access it directly using Glitch's Git server.
Specifications
Specification |
---|
Identifiers for WebRTC's Statistics API (WebRTC Statistics) # dom-rtcremoteoutboundrtpstreamstats-localid |
Browser compatibility
Desktop | Mobile | |||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|
Chrome | Edge | Firefox | Internet Explorer | Opera | Safari | WebView Android | Chrome Android | Firefox for Android | Opera Android | Safari on IOS | Samsung Internet | |
localId |
No |
No |
68 |
No |
No |
No |
No |
No |
68 |
No |
No |
No |
© 2005–2021 MDN contributors.
Licensed under the Creative Commons Attribution-ShareAlike License v2.5 or later.
https://developer.mozilla.org/en-US/docs/Web/API/RTCRemoteOutboundRtpStreamStats/localId