naiveproxy/net/spdy/http2_priority_dependencies.cc

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2018-08-11 08:35:24 +03:00
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/spdy/http2_priority_dependencies.h"
#include "base/trace_event/memory_usage_estimator.h"
namespace net {
Http2PriorityDependencies::Http2PriorityDependencies() = default;
Http2PriorityDependencies::~Http2PriorityDependencies() = default;
void Http2PriorityDependencies::OnStreamCreation(
spdy::SpdyStreamId id,
spdy::SpdyPriority priority,
spdy::SpdyStreamId* parent_stream_id,
int* weight,
bool* exclusive) {
if (entry_by_stream_id_.find(id) != entry_by_stream_id_.end())
return;
*parent_stream_id = 0;
*exclusive = true;
// Since the generated dependency graph is a single linked list, the value
// of weight should not actually matter, and perhaps the default weight of 16
// from the HTTP/2 spec would be reasonable. However, there are some servers
// which currently interpret the weight field like an old SPDY priority value.
// As long as those servers need to be supported, weight should be set to
// a value those servers will interpret correctly.
*weight = spdy::Spdy3PriorityToHttp2Weight(priority);
// Dependent on the lowest-priority stream that has a priority >= |priority|.
IdList::iterator parent;
if (PriorityLowerBound(priority, &parent)) {
*parent_stream_id = parent->first;
}
id_priority_lists_[priority].push_back(std::make_pair(id, priority));
IdList::iterator it = id_priority_lists_[priority].end();
--it;
entry_by_stream_id_[id] = it;
}
bool Http2PriorityDependencies::PriorityLowerBound(spdy::SpdyPriority priority,
IdList::iterator* bound) {
for (int i = priority; i >= spdy::kV3HighestPriority; --i) {
if (!id_priority_lists_[i].empty()) {
*bound = id_priority_lists_[i].end();
--(*bound);
return true;
}
}
return false;
}
bool Http2PriorityDependencies::ParentOfStream(spdy::SpdyStreamId id,
IdList::iterator* parent) {
EntryMap::iterator entry = entry_by_stream_id_.find(id);
DCHECK(entry != entry_by_stream_id_.end());
spdy::SpdyPriority priority = entry->second->second;
IdList::iterator curr = entry->second;
if (curr != id_priority_lists_[priority].begin()) {
*parent = curr;
--(*parent);
return true;
}
// |id| is at the head of its priority list, so its parent is the last
// entry of the next-highest priority band.
if (priority == spdy::kV3HighestPriority) {
return false;
}
return PriorityLowerBound(priority - 1, parent);
}
bool Http2PriorityDependencies::ChildOfStream(spdy::SpdyStreamId id,
IdList::iterator* child) {
EntryMap::iterator entry = entry_by_stream_id_.find(id);
DCHECK(entry != entry_by_stream_id_.end());
spdy::SpdyPriority priority = entry->second->second;
*child = entry->second;
++(*child);
if (*child != id_priority_lists_[priority].end()) {
return true;
}
// |id| is at the end of its priority list, so its child is the stream
// at the front of the next-lowest priority band.
for (int i = priority + 1; i <= spdy::kV3LowestPriority; ++i) {
if (!id_priority_lists_[i].empty()) {
*child = id_priority_lists_[i].begin();
return true;
}
}
return false;
}
std::vector<Http2PriorityDependencies::DependencyUpdate>
Http2PriorityDependencies::OnStreamUpdate(spdy::SpdyStreamId id,
spdy::SpdyPriority new_priority) {
std::vector<DependencyUpdate> result;
result.reserve(2);
EntryMap::iterator curr_entry = entry_by_stream_id_.find(id);
if (curr_entry == entry_by_stream_id_.end()) {
return result;
}
spdy::SpdyPriority old_priority = curr_entry->second->second;
if (old_priority == new_priority) {
return result;
}
IdList::iterator old_parent;
bool old_has_parent = ParentOfStream(id, &old_parent);
IdList::iterator new_parent;
bool new_has_parent = PriorityLowerBound(new_priority, &new_parent);
// If we move |id| from MEDIUM to LOW, where HIGH = {other_id}, MEDIUM = {id},
// and LOW = {}, then PriorityLowerBound(new_priority) is |id|. In this corner
// case, |id| does not change parents.
if (new_has_parent && new_parent->first == id) {
new_has_parent = old_has_parent;
new_parent = old_parent;
}
// If the parent has changed, we generate dependency updates.
if ((old_has_parent != new_has_parent) ||
(old_has_parent && old_parent->first != new_parent->first)) {
// If |id| has a child, then that child moves to be dependent on
// |old_parent|.
IdList::iterator old_child;
if (ChildOfStream(id, &old_child)) {
int weight = spdy::Spdy3PriorityToHttp2Weight(old_child->second);
if (old_has_parent) {
result.push_back({old_child->first, old_parent->first, weight, true});
} else {
result.push_back({old_child->first, 0, weight, true});
}
}
int weight = spdy::Spdy3PriorityToHttp2Weight(new_priority);
// |id| moves to be dependent on |new_parent|.
if (new_has_parent) {
result.push_back({id, new_parent->first, weight, true});
} else {
result.push_back({id, 0, weight, true});
}
}
// Move to the new priority.
EntryMap::iterator old = entry_by_stream_id_.find(id);
id_priority_lists_[old->second->second].erase(old->second);
id_priority_lists_[new_priority].push_back(std::make_pair(id, new_priority));
IdList::iterator it = id_priority_lists_[new_priority].end();
--it;
entry_by_stream_id_[id] = it;
return result;
}
void Http2PriorityDependencies::OnStreamDestruction(spdy::SpdyStreamId id) {
EntryMap::iterator emit = entry_by_stream_id_.find(id);
if (emit == entry_by_stream_id_.end())
return;
IdList::iterator it = emit->second;
id_priority_lists_[it->second].erase(it);
entry_by_stream_id_.erase(emit);
}
size_t Http2PriorityDependencies::EstimateMemoryUsage() const {
return base::trace_event::EstimateMemoryUsage(id_priority_lists_);
// TODO(xunjieli): https://crbug.com/690015. Include |entry_by_stream_id_|
// when memory_usage_estimator.h supports std::list::iterator.
}
} // namespace net