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Markdown
241 lines
12 KiB
Markdown
# A Crash Course in Debugging with chrome://net-internals
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This document is intended to help get people started debugging network errors
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with chrome://net-internals, with some commonly useful tips and tricks. This
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document is aimed more at how to get started using some of its features to
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investigate bug reports, rather than as a feature overview.
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It would probably be useful to read
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[life-of-a-url-request.md](life-of-a-url-request.md) before this document.
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# What Data Net-Internals Contains
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chrome://net-internals provides a view of browser activity from net/'s
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perspective. For this reason, it lacks knowledge of tabs, navigation, frames,
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resource types, etc.
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The leftmost column presents a list of views. Most debugging is done with the
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Events view, which will be all this document covers.
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The top level network stack object is the URLRequestContext. The Events view
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has information for all Chrome URLRequestContexts that are hooked up to the
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single, global, NetLog object. This includes both incognito and
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non-incognito profiles, among other things. The Events view only shows events
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for the period that net-internals was open and running, and is incrementally
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updated as events occur. The code attempts to add a top level event for
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URLRequests that were active when the chrome://net-internals tab was opened, to
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help debug hung requests, but that's best-effort only, and only includes
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requests for the current profile and the system URLRequestContext.
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The other views are all snapshots of the current state of the main
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URLRequestContext's components, and are updated on a 5 second timer. These will
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show objects that were created before chrome://net-internals was opened.
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# Events vs Sources
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The Events view shows events logged by the NetLog. The NetLog model is that
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long-lived network stack objects, called sources, emit events over their
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lifetime. A NetLogWithSource object contains a source ID, a NetLogSourceType,
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and a pointer to the NetLog the source emits events to.
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The Events view has a list of sources in a column adjacent to the list of views.
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Sources that include an event with a net_error parameter with negative value
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(that is, some kind of ERR_) are shown with red background. Sources whose
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opening event has not ended yet are shown with white background. Other events
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have green background. The search queries corresponding to the first two kinds
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are `is:error` and `is:active`.
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When one or more sources are selected, corresponding events show up in another
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column to the right, sorted by source, and by time within each source. There
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are two time values: t is measured from some reference point common to all
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sources, and st is measured from the first event for each source. Time is
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displayed in milliseconds.
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Since the network stack is asynchronous, events from different sources will
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often be interlaced in time, but Events view does not feature showing events from
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different sources ordered by time. Large time gaps in the event list of a
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single source usually mean that time is spent in the context of another source.
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Some events come in pairs: a beginning and end event, between which other events
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may occur. They are shown with + and - prefixes, respectively. The begin event
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has a dt value which shows the duration. If the end event was captured, then
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duration is calculated as the time difference between the begin and the end
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events. Otherwise the time elapsed from the begin event until capturing
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was stopped is displayed (a lower bound for actual duration), followed by a +
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sign (for example, "dt=120+").
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If there are no other events in between the begin and end, and the end event has
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no parameters, then they are collapsed in a single line without a sign prefix.
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Some other events only occur at a single point in time, and will not have either
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a sign prefix, or a dt duration value.
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Generally only one event can be occuring for a source at a time. If there can
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be multiple events doing completely independent things, the code often uses new
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sources to represent the parallelism.
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Most, but not all events correspond to a source. Exceptions are global events,
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which have no source, and show up as individual entries in the source list.
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Examples of global events include NETWORK_CHANGED, DNS_CONFIG_CHANGED, and
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PROXY_CONFIG_CHANGED.
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# Common source types
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"Sources" correspond to certain net objects, however, multiple layers of net/
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will often log to a single source. Here are the main source types and what they
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include (excluding HTTP2 [SPDY]/QUIC):
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* URL_REQUEST: This corresponds to the URLRequest object. It includes events
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from all the URLRequestJobs, HttpCache::Transactions, NetworkTransactions,
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HttpStreamRequests, HttpStream implementations, and HttpStreamParsers used to
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service a response. If the URL_REQUEST follows HTTP redirects, it will include
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each redirect. This is a lot of stuff, but generally only one object is doing
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work at a time. This event source includes the full URL and generally includes
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the request / response headers (except when the cache handles the response).
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* HTTP_STREAM_JOB: This corresponds to HttpStreamFactory::Job (note that one
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Request can have multiple Jobs). It also includes its proxy and DNS lookups.
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HTTP_STREAM_JOB log events are separate from URL_REQUEST because two stream
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jobs may be created and races against each other, in some cases -- one for
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QUIC, and one for HTTP.
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One of the final events of this source, before the
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HTTP_STREAM_JOB_BOUND_TO_REQUEST event, indicates how an HttpStream was
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created:
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+ A SOCKET_POOL_BOUND_TO_CONNECT_JOB event means that a new TCP socket was
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created, whereas a SOCKET_POOL_REUSED_AN_EXISTING_SOCKET event indicates that
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an existing TCP socket was reused for a non-HTTP/2 request.
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+ An HTTP2_SESSION_POOL_IMPORTED_SESSION_FROM_SOCKET event indicates that a
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new HTTP/2 session was opened by this Job.
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+ An HTTP2_SESSION_POOL_FOUND_EXISTING_SESSION event indicates that the request
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was served on a preexisting HTTP/2 session.
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+ An HTTP2_SESSION_POOL_FOUND_EXISTING_SESSION_FROM_IP_POOL event means that
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the request was pooled to a preexisting HTTP/2 session which had a different
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SpdySessionKey, but DNS resolution resulted in the same IP, and the
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certificate matches.
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+ There are currently no events logged for opening new QUIC sessions or
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reusing existing ones.
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* \*_CONNECT_JOB: This corresponds to the ConnectJob subclasses that each socket
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pool uses. A successful CONNECT_JOB returns a SOCKET. The events here vary a
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lot by job type. Their main event is generally either to create a socket, or
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request a socket from another socket pool (which creates another CONNECT_JOB)
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and then do some extra work on top of that -- like establish an SSL connection on
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top of a TCP connection.
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* SOCKET: These correspond to TCPSockets, but may also have other classes
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layered on top of them (like an SSLClientSocket). This is a bit different from
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the other classes, where the name corresponds to the topmost class, instead of
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the bottommost one. This is largely an artifact of the fact the socket is
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created first, and then SSL (or a proxy connection) is layered on top of it.
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SOCKETs may be reused between multiple requests, and a request may end up
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getting a socket created for another request.
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* HOST_RESOLVER_IMPL_JOB: These correspond to HostResolverImpl::Job. They
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include information about how long the lookup was queued, each DNS request that
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was attempted (with the platform or built-in resolver) and all the other sources
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that are waiting on the job.
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When one source depends on another, the code generally logs an event at both
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sources with a `source_dependency` value pointing to the other source. These
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are clickable in the UI, adding the referred source to the list of selected
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sources.
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# Debugging
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When you receive a report from the user, the first thing you'll generally want
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to do find the URL_REQUEST[s] that are misbehaving. If the user gives an ERR_*
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code or the exact URL of the resource that won't load, you can just search for
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it. If it's an upload, you can search for "post", or if it's a redirect issue,
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you can search for "redirect". However, you often won't have much information
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about the actual problem. There are two filters in net-internals that can help
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in a lot of cases:
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* "type:URL_REQUEST is:error" will restrict the source list to URL_REQUEST
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objects with an error of some sort. Cache errors are often non-fatal, so you
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should generally ignore those, and look for a more interesting one.
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* "type:URL_REQUEST sort:duration" will show the longest-lived requests first.
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This is often useful in finding hung or slow requests.
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For a list of other filter commands, you can mouse over the question mark on
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chrome://net-internals.
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Once you locate the problematic request, the next is to figure out where the
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problem is -- it's often one of the last events, though it could also be related
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to response or request headers. You can use `source_dependency` links to
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navigate between related sources. You can use the name of an event to search
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for the code responsible for that event, and try to deduce what went wrong
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before/after a particular event.
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Some things to look for while debugging:
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* CANCELLED events almost always come from outside the network stack.
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* Changing networks and entering / exiting suspend mode can have all sorts of
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fun and exciting effects on underway network activity. Network changes log a
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top level NETWORK_CHANGED event. Suspend events are currently not logged.
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* URL_REQUEST_DELEGATE_\* / NETWORK_DELEGATE_\* / DELEGATE_INFO events mean a
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URL_REQUEST is blocked on a URLRequest::Delegate or the NetworkDelegate, which
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are implemented outside the network stack. A request will sometimes be CANCELED
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here for reasons known only to the delegate. Or the delegate may cause a hang.
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In general, to debug issues related to delegates, one needs to figure out which
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method of which object is causing the problem. The object may be the a
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NetworkDelegate, a ResourceThrottle, a ResourceHandler, the ResourceLoader
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itself, or the ResourceDispatcherHost.
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* Sockets are often reused between requests. If a request is on a stale
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(reused) socket, what was the previous request that used the socket, how long
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ago was it made? (Look at SOCKET_IN_USE events, and the HTTP_STREAM_JOBS they
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point to via the `source_dependency` value.)
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* SSL negotation is a process fraught with peril, particularly with broken
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proxies. These will generally stall or fail in the SSL_CONNECT phase at the
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SOCKET layer.
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* Range requests have magic to handle them at the cache layer, and are often
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issued by the media and PDF code.
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* Late binding: HTTP_STREAM_JOBs are not associated with any CONNECT_JOB until
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a CONNECT_JOB actually connects. This is so the highest priority pending
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HTTP_STREAM_JOB gets the first available socket (which may be a new socket, or
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an old one that's freed up). For this reason, it can be a little tricky to
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relate hung HTTP_STREAM_JOBs to CONNECT_JOBs.
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* Each CONNECT_JOB belongs to a "group", which has a limit of 6 connections. If
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all CONNECT_JOBs belonging to a group (the CONNECT_JOB's description field) are
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stalled waiting on an available socket, the group probably has 6 sockets that
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that are hung -- either hung trying to connect, or used by stalled requests and
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thus outside the socket pool's control.
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* There's a limit on number of DNS resolutions that can be started at once. If
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everything is stalled while resolving DNS addresses, you've probably hit this
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limit, and the DNS lookups are also misbehaving in some fashion.
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# Miscellany
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These are just miscellaneous things you may notice when looking through the
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logs.
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* URLRequests that look to start twice for no obvious reason. These are
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typically main frame requests, and the first request is AppCache. Can just
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ignore it and move on with your life.
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* Some HTTP requests are not handled by URLRequestHttpJobs. These include
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things like HSTS redirects (URLRequestRedirectJob), AppCache, ServiceWorker,
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etc. These generally don't log as much information, so it can be tricky to
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figure out what's going on with these.
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* Non-HTTP requests also appear in the log, and also generally don't log much
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(blob URLs, chrome URLs, etc).
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* Preconnects create a "HTTP_STREAM_JOB" event that may create multiple
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CONNECT_JOBs (or none) and is then destroyed. These can be identified by the
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"SOCKET_POOL_CONNECTING_N_SOCKETS" events.
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