gecko-dev/netwerk/base/nsIRequestContext.idl
Honza Bambas 4263c50db2 Bug 1358060 - Allow postponing of unimportant resources opening during page load, class-of-service Tail flag. r=dragana
--HG--
extra : rebase_source : 1ab691fe066e641c948aa5f42827305411579708
2017-08-30 09:32:00 -04:00

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5.1 KiB
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "nsISupports.idl"
%{C++
// Forward-declare mozilla::net::SpdyPushCache
namespace mozilla {
namespace net {
class SpdyPushCache;
}
}
%}
interface nsILoadGroup;
interface nsIChannel;
interface nsIStreamListener;
[ptr] native SpdyPushCachePtr(mozilla::net::SpdyPushCache);
/**
* Requests capable of tail-blocking must implement this
* interfaces (typically channels).
* If the request is tail-blocked, it will be held in its request
* context queue until unblocked.
*/
[scriptable, uuid(7EB361D4-37A5-42C9-AFAE-F6C88FE7C394)]
interface nsIRequestTailUnblockCallback : nsISupports
{
/**
* Called when the requests is unblocked and proceed.
* @param result
* NS_OK - the request is OK to go, unblocking is not
* caused by cancelation of the request.
* any error - the request must behave as it were canceled
* with the result as status.
*/
void onTailUnblock(in nsresult aResult);
};
/**
* The nsIRequestContext is used to maintain state about connections
* that are in some way associated with each other (often by being part
* of the same load group) and how they interact with blocking items like
* HEAD css/js loads.
*
* This used to be known as nsILoadGroupConnectionInfo and nsISchedulingContext.
*/
[scriptable, uuid(658e3e6e-8633-4b1a-8d66-fa9f72293e63)]
interface nsIRequestContext : nsISupports
{
/**
* A unique identifier for this request context
*/
[noscript] readonly attribute unsigned long long ID;
/**
* Called by the associated document when its load starts. This resets
* context's internal states.
*/
void beginLoad();
/**
* Called when the associated document notified the DOMContentLoaded event.
*/
void DOMContentLoaded();
/**
* Number of active blocking transactions associated with this context
*/
readonly attribute unsigned long blockingTransactionCount;
/**
* Increase the number of active blocking transactions associated
* with this context by one.
*/
void addBlockingTransaction();
/**
* Decrease the number of active blocking transactions associated
* with this context by one. The return value is the number of remaining
* blockers.
*/
unsigned long removeBlockingTransaction();
/**
* This gives out a weak pointer to the push cache.
* The nsIRequestContext implementation owns the cache
* and will destroy it when overwritten or when the context
* ends.
*/
[noscript] attribute SpdyPushCachePtr spdyPushCache;
/**
* This holds a cached value of the user agent override.
*/
[noscript] attribute ACString userAgentOverride;
/**
* Increases/decrease the number of non-tailed requests in this context.
* If the count drops to zero, all tail-blocked callbacks are notified
* shortly after that to be unblocked.
*/
void addNonTailRequest();
void removeNonTailRequest();
/**
* If the request context is in tail-blocked state, the callback
* is queued and result is true. The callback will be notified
* about tail-unblocking or when the request context is canceled.
*/
[must_use] boolean isContextTailBlocked(in nsIRequestTailUnblockCallback callback);
/**
* Called when the request is sitting in the tail queue but has been
* canceled before untailing. This just removes the request from the
* queue so that it is not notified on untail and not referenced.
*/
void cancelTailedRequest(in nsIRequestTailUnblockCallback request);
/**
* This notifies all queued tail-blocked requests, they will be notified
* aResult and released afterwards. Called by the load group when
* it's canceled.
*/
void cancelTailPendingRequests(in nsresult aResult);
};
/**
* The nsIRequestContextService is how anyone gets access to a request
* context when they haven't been explicitly given a strong reference to an
* existing one. It is responsible for creating and handing out strong
* references to nsIRequestContexts, but only keeps weak references itself.
* The shared request context will go away once no one else is keeping a
* reference to it. If you ask for a request context that has no one else
* holding a reference to it, you'll get a brand new request context. Anyone
* who asks for the same request context while you're holding a reference
* will get a reference to the same request context you have.
*/
[uuid(7fcbf4da-d828-4acc-b144-e5435198f727)]
interface nsIRequestContextService : nsISupports
{
/**
* Get an existing request context from its ID
*/
nsIRequestContext getRequestContext(in unsigned long long id);
/**
* Shorthand to get request context from a load group
*/
nsIRequestContext getRequestContextFromLoadGroup(in nsILoadGroup lg);
/**
* Create a new request context
*/
nsIRequestContext newRequestContext();
/**
* Remove an existing request context from its ID
*/
void removeRequestContext(in unsigned long long id);
};