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282 lines
12 KiB
C++
282 lines
12 KiB
C++
// Copyright 2017 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef NET_TRAFFIC_ANNOTATION_NETWORK_TRAFFIC_ANNOTATION_H_
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#define NET_TRAFFIC_ANNOTATION_NETWORK_TRAFFIC_ANNOTATION_H_
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#include "base/logging.h"
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namespace {
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// Recursively compute hash code of the given string as a constant expression.
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template <int N>
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constexpr uint32_t recursive_hash(const char* str) {
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return static_cast<uint32_t>((recursive_hash<N - 1>(str) * 31 + str[N - 1]) %
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138003713);
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}
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// Recursion stopper for the above function. Note that string of size 0 will
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// result in compile error.
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template <>
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constexpr uint32_t recursive_hash<1>(const char* str) {
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return static_cast<uint32_t>(*str);
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}
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// Entry point to function that computes hash as constant expression.
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#define COMPUTE_STRING_HASH(S) \
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static_cast<int32_t>(recursive_hash<sizeof(S) - 1>(S))
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constexpr int TRAFFIC_ANNOTATION_UNINITIALIZED = -1;
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} // namespace
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namespace net {
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// Defined types for network traffic annotation tags.
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struct NetworkTrafficAnnotationTag {
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const int32_t unique_id_hash_code;
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bool operator==(const NetworkTrafficAnnotationTag& other) const {
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return unique_id_hash_code == other.unique_id_hash_code;
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}
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static NetworkTrafficAnnotationTag NotReached() {
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NOTREACHED();
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return net::NetworkTrafficAnnotationTag({TRAFFIC_ANNOTATION_UNINITIALIZED});
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}
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};
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struct PartialNetworkTrafficAnnotationTag {
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const int32_t unique_id_hash_code;
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#if !defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)
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// |completing_id_hash_code| holds a reference to the hash coded unique id
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// of a network traffic annotation (or group id of several network traffic
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// annotations) that complete a partial network annotation. Please refer to
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// the description of DefinePartialNetworkTrafficAnnotation function for more
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// details.
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// This value is used by the clang tools to find linkage between partial
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// annotations and their completing parts, and is used in debug mode to check
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// if an intended completing part is added to a partial network annotation.
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const int32_t completing_id_hash_code;
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#endif
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};
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// Function to convert a network traffic annotation's unique id and protobuf
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// text into a NetworkTrafficAnnotationTag.
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//
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// This function serves as a tag that can be discovered and extracted via
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// clang tools. This allows reviewing all network traffic that is generated
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// and annotated by Chrome.
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//
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// |unique_id| should be a string that uniquely identifies this annotation
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// across all of Chromium source code. |unique_id| should be kept unchanged
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// as long as possible as its hashed value will be used for differnt logging,
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// debugging, or auditing tasks. Unique ids should include only alphanumeric
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// characters and underline.
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// |proto| is a text-encoded NetworkTrafficAnnotation protobuf (see
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// tools/traffic_annotation/traffic_annotation.proto)
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//
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// An empty and a sample template for the text-encoded protobuf can be found in
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// tools/traffic_annotation/sample_traffic_annotation.cc.
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// TODO(crbug.com/690323): Add tools to check annotation text's format during
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// presubmit checks.
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template <size_t N1, size_t N2>
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constexpr NetworkTrafficAnnotationTag DefineNetworkTrafficAnnotation(
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const char (&unique_id)[N1],
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const char (&proto)[N2]) {
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return NetworkTrafficAnnotationTag({COMPUTE_STRING_HASH(unique_id)});
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}
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// There are cases where the network traffic annotation cannot be fully
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// specified in one place. For example, in one place we know the trigger of a
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// network request and in another place we know the data that will be sent. In
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// these cases, we prefer that both parts of the annotation appear in context so
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// that they are updated if code changes. The following functions help splitting
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// the network traffic annotation into two pieces. Please refer to
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// tools/traffic_annotation/sample_traffic_annotation.cc for usage samples.
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// This function can be used to define a partial annotation that will be
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// completed later. The completing annotation can be defined with either of
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// 'CompleteNetworkTrafficAnnotation' or
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// 'BranchedCompleteNetworkTrafficAnnotation' functions. In case of
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// CompleteNetworkTrafficAnnotation, |completing_id| is the unique id of the
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// annotation that will complete it. In the case of
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// BranchedCompleteNetworkTrafficAnnotation, |completing_id| is the group id
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// of the completing annotations.
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template <size_t N1, size_t N2, size_t N3>
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constexpr PartialNetworkTrafficAnnotationTag
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DefinePartialNetworkTrafficAnnotation(const char (&unique_id)[N1],
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const char (&completing_id)[N2],
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const char (&proto)[N3]) {
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#if !defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)
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return PartialNetworkTrafficAnnotationTag(
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{COMPUTE_STRING_HASH(unique_id), COMPUTE_STRING_HASH(completing_id)});
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#else
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return PartialNetworkTrafficAnnotationTag({COMPUTE_STRING_HASH(unique_id)});
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#endif
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}
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// This function can be used to define a completing partial annotation. This
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// annotation adds details to another annotation that is defined before.
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// |partial_annotation| is the PartialNetworkTrafficAnnotationTag returned
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// by a call to DefinePartialNetworkTrafficAnnotation().
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template <size_t N1, size_t N2>
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NetworkTrafficAnnotationTag CompleteNetworkTrafficAnnotation(
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const char (&unique_id)[N1],
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const PartialNetworkTrafficAnnotationTag& partial_annotation,
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const char (&proto)[N2]) {
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#if !defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)
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DCHECK(partial_annotation.completing_id_hash_code ==
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COMPUTE_STRING_HASH(unique_id) ||
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partial_annotation.unique_id_hash_code ==
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COMPUTE_STRING_HASH("test_partial") ||
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partial_annotation.unique_id_hash_code ==
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COMPUTE_STRING_HASH("undefined"));
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#endif
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return NetworkTrafficAnnotationTag({partial_annotation.unique_id_hash_code});
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}
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// This function can be used to define a completing partial annotation that is
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// branched into several annotations. In this case, |group_id| is a common id
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// that is used by all members of the branch and referenced by partial
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// annotation that is completed by them.
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template <size_t N1, size_t N2, size_t N3>
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NetworkTrafficAnnotationTag BranchedCompleteNetworkTrafficAnnotation(
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const char (&unique_id)[N1],
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const char (&group_id)[N2],
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const PartialNetworkTrafficAnnotationTag& partial_annotation,
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const char (&proto)[N3]) {
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#if !defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)
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DCHECK(partial_annotation.completing_id_hash_code ==
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COMPUTE_STRING_HASH(unique_id) ||
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partial_annotation.unique_id_hash_code ==
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COMPUTE_STRING_HASH("test_partial") ||
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partial_annotation.unique_id_hash_code ==
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COMPUTE_STRING_HASH("undefined"));
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#endif
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return NetworkTrafficAnnotationTag({COMPUTE_STRING_HASH(unique_id)});
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}
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// Example for joining N x 1 partial annotations:
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// N functions foo1(), ..., fooN() call one function bar(). Each
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// foo...() function defines part of a network traffic annotation.
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// These N partial annotations are combined with a second part in
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// bar().
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//
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// void foo1() {
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// auto tag = DefinePartialNetworkTrafficAnnotation(
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// "call_by_foo1", "completion_by_bar", [partial_proto]);
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// bar(tag);
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// }
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// void foo2() {
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// auto tag = DefinePartialNetworkTrafficAnnotation(
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// "call_by_foo2", "completion_by_bar", [partial_proto]);
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// bar(tag);
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// }
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// void bar(PartialNetworkTrafficAnnotationTag tag) {
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// auto final_tag = CompleteNetworkTrafficAnnotation(
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// "completion_by_bar", tag, [rest_of_proto]);
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// // final_tag matches the value of tag (which is hash code of
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// // "call_by_fooX" where X can be 1 or 2).
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// net::URLFetcher::Create(..., final_tag);
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// }
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// Example for joining 1 x N partial annotations:
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// A function foo() calls a function bar(bool param), that sends
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// different network requests depending on param. Both functions
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// define parts of the network traffic annotation.
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//
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// void foo(bool param) {
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// auto tag = DefinePartialNetworkTrafficAnnotation(
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// "call_by_foo1", "completion_by_bar", [partial_proto]);
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// bar(param, tag);
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// }
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// void bar(bool param, PartialNetworkTrafficAnnotationTag tag) {
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// if (param) {
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// auto final_tag = BranchedCompleteNetworkTrafficAnnotation(
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// "call_bool_branch_1", "completion_by_bar", tag, [rest_of_proto]);
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// // final_tag is hash code of "call_bool_branch_1".
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// net::URLFetcher::Create(url1, ..., final_tag);
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// } else {
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// auto final_tag = BranchedCompleteNetworkTrafficAnnotation(
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// "call_bool_branch_2", "completion_by_bar", tag, [rest_of_proto]);
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// // final_tag is hash code of "call_bool_branch_2".
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// net::URLFetcher::Create(url2, ..., final_tag);
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// }
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// }
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// Do not use this unless net-serialization is required.
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// Mojo interfaces for this class and the next one are defined in
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// '/services/network/public/interfaces'.
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struct MutableNetworkTrafficAnnotationTag {
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MutableNetworkTrafficAnnotationTag()
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: unique_id_hash_code(TRAFFIC_ANNOTATION_UNINITIALIZED) {}
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explicit MutableNetworkTrafficAnnotationTag(
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const NetworkTrafficAnnotationTag& traffic_annotation)
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: unique_id_hash_code(traffic_annotation.unique_id_hash_code) {}
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int32_t unique_id_hash_code;
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bool operator==(const MutableNetworkTrafficAnnotationTag& other) const {
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return unique_id_hash_code == other.unique_id_hash_code;
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}
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explicit operator NetworkTrafficAnnotationTag() const {
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CHECK_NE(unique_id_hash_code, TRAFFIC_ANNOTATION_UNINITIALIZED);
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return NetworkTrafficAnnotationTag({unique_id_hash_code});
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}
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};
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struct MutablePartialNetworkTrafficAnnotationTag {
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#if !defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)
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MutablePartialNetworkTrafficAnnotationTag()
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: unique_id_hash_code(TRAFFIC_ANNOTATION_UNINITIALIZED),
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completing_id_hash_code(TRAFFIC_ANNOTATION_UNINITIALIZED) {}
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explicit MutablePartialNetworkTrafficAnnotationTag(
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const PartialNetworkTrafficAnnotationTag& partial_traffic_annotation)
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: unique_id_hash_code(partial_traffic_annotation.unique_id_hash_code),
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completing_id_hash_code(
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partial_traffic_annotation.completing_id_hash_code) {}
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int32_t unique_id_hash_code;
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int32_t completing_id_hash_code;
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explicit operator PartialNetworkTrafficAnnotationTag() const {
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return PartialNetworkTrafficAnnotationTag(
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{unique_id_hash_code, completing_id_hash_code});
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}
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#else
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MutablePartialNetworkTrafficAnnotationTag()
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: unique_id_hash_code(TRAFFIC_ANNOTATION_UNINITIALIZED) {}
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explicit MutablePartialNetworkTrafficAnnotationTag(
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const PartialNetworkTrafficAnnotationTag& partial_traffic_annotation)
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: unique_id_hash_code(partial_traffic_annotation.unique_id_hash_code) {}
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int32_t unique_id_hash_code;
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explicit operator PartialNetworkTrafficAnnotationTag() const {
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CHECK_NE(unique_id_hash_code, TRAFFIC_ANNOTATION_UNINITIALIZED);
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return PartialNetworkTrafficAnnotationTag({unique_id_hash_code});
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}
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#endif // !defined(NDEBUG) || defined(DCHECK_ALWAYS_ON)
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};
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} // namespace net
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// Placeholder for unannotated usages.
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#define NO_TRAFFIC_ANNOTATION_YET \
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net::DefineNetworkTrafficAnnotation("undefined", "Nothing here yet.")
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#define NO_PARTIAL_TRAFFIC_ANNOTATION_YET \
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net::DefinePartialNetworkTrafficAnnotation("undefined", "undefined", \
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"Nothing here yet.")
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#define MISSING_TRAFFIC_ANNOTATION \
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net::DefineNetworkTrafficAnnotation( \
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"missing", "Function called without traffic annotation.")
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#undef COMPUTE_STRING_HASH
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#endif // NET_TRAFFIC_ANNOTATION_NETWORK_TRAFFIC_ANNOTATION_H_
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