dolphin/Source/Core/Common/Analytics.cpp
Pierre Bourdon e149ad4f0a
treewide: convert GPLv2+ license info to SPDX tags
SPDX standardizes how source code conveys its copyright and licensing
information. See https://spdx.github.io/spdx-spec/1-rationale/ . SPDX
tags are adopted in many large projects, including things like the Linux
kernel.
2021-07-05 04:35:56 +02:00

216 lines
5.2 KiB
C++

// Copyright 2016 Dolphin Emulator Project
// SPDX-License-Identifier: GPL-2.0-or-later
#include <cmath>
#include <cstdio>
#include <string>
#include <type_traits>
#include "Common/Analytics.h"
#include "Common/CommonTypes.h"
#include "Common/StringUtil.h"
#include "Common/Thread.h"
namespace Common
{
namespace
{
// Format version number, used as the first byte of every report sent.
// Increment for any change to the wire format.
constexpr u8 WIRE_FORMAT_VERSION = 1;
// Identifiers for the value types supported by the analytics reporting wire
// format.
enum class TypeId : u8
{
STRING = 0,
BOOL = 1,
UINT = 2,
SINT = 3,
FLOAT = 4,
// Flags which can be combined with other types.
ARRAY = 0x80,
};
TypeId operator|(TypeId l, TypeId r)
{
using ut = std::underlying_type_t<TypeId>;
return static_cast<TypeId>(static_cast<ut>(l) | static_cast<ut>(r));
}
void AppendBool(std::string* out, bool v)
{
out->push_back(v ? '\xFF' : '\x00');
}
void AppendVarInt(std::string* out, u64 v)
{
do
{
u8 current_byte = v & 0x7F;
v >>= 7;
current_byte |= (!!v) << 7;
out->push_back(current_byte);
} while (v);
}
void AppendBytes(std::string* out, const u8* bytes, u32 length, bool encode_length = true)
{
if (encode_length)
{
AppendVarInt(out, length);
}
out->append(reinterpret_cast<const char*>(bytes), length);
}
void AppendType(std::string* out, TypeId type)
{
out->push_back(static_cast<u8>(type));
}
} // namespace
AnalyticsReportBuilder::AnalyticsReportBuilder()
{
m_report.push_back(WIRE_FORMAT_VERSION);
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, std::string_view v)
{
AppendType(report, TypeId::STRING);
AppendBytes(report, reinterpret_cast<const u8*>(v.data()), static_cast<u32>(v.size()));
}
// We can't remove this overload despite the string_view overload due to the fact that
// pointers can implicitly convert to bool, so if we removed the overload, then all
// const char strings passed in would begin forwarding to the bool overload,
// which is definitely not what we want to occur.
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, const char* v)
{
AppendSerializedValue(report, std::string_view(v));
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, bool v)
{
AppendType(report, TypeId::BOOL);
AppendBool(report, v);
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, u64 v)
{
AppendType(report, TypeId::UINT);
AppendVarInt(report, v);
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, s64 v)
{
AppendType(report, TypeId::SINT);
AppendBool(report, v >= 0);
AppendVarInt(report, static_cast<u64>(std::abs(v)));
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, u32 v)
{
AppendSerializedValue(report, static_cast<u64>(v));
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, s32 v)
{
AppendSerializedValue(report, static_cast<s64>(v));
}
void AnalyticsReportBuilder::AppendSerializedValue(std::string* report, float v)
{
AppendType(report, TypeId::FLOAT);
AppendBytes(report, reinterpret_cast<u8*>(&v), sizeof(v), false);
}
void AnalyticsReportBuilder::AppendSerializedValueVector(std::string* report,
const std::vector<u32>& v)
{
AppendType(report, TypeId::UINT | TypeId::ARRAY);
AppendVarInt(report, v.size());
for (u32 x : v)
AppendVarInt(report, x);
}
AnalyticsReporter::AnalyticsReporter()
{
m_reporter_thread = std::thread(&AnalyticsReporter::ThreadProc, this);
}
AnalyticsReporter::~AnalyticsReporter()
{
// Set the exit request flag and wait for the thread to honor it.
m_reporter_stop_request.Set();
m_reporter_event.Set();
m_reporter_thread.join();
}
void AnalyticsReporter::Send(AnalyticsReportBuilder&& report)
{
#if defined(USE_ANALYTICS) && USE_ANALYTICS
// Put a bound on the size of the queue to avoid uncontrolled memory growth.
constexpr u32 QUEUE_SIZE_LIMIT = 25;
if (m_reports_queue.Size() < QUEUE_SIZE_LIMIT)
{
m_reports_queue.Push(report.Consume());
m_reporter_event.Set();
}
#endif
}
void AnalyticsReporter::ThreadProc()
{
Common::SetCurrentThreadName("Analytics");
while (true)
{
m_reporter_event.Wait();
if (m_reporter_stop_request.IsSet())
{
return;
}
while (!m_reports_queue.Empty())
{
std::shared_ptr<AnalyticsReportingBackend> backend(m_backend);
if (backend)
{
std::string report;
m_reports_queue.Pop(report);
backend->Send(std::move(report));
}
else
{
break;
}
// Recheck after each report sent.
if (m_reporter_stop_request.IsSet())
{
return;
}
}
}
}
void StdoutAnalyticsBackend::Send(std::string report)
{
printf("Analytics report sent:\n%s",
HexDump(reinterpret_cast<const u8*>(report.data()), report.size()).c_str());
}
HttpAnalyticsBackend::HttpAnalyticsBackend(std::string endpoint) : m_endpoint(std::move(endpoint))
{
}
HttpAnalyticsBackend::~HttpAnalyticsBackend() = default;
void HttpAnalyticsBackend::Send(std::string report)
{
if (m_http.IsValid())
m_http.Post(m_endpoint, report);
}
} // namespace Common