rpcs3/Utilities/Log.cpp

472 lines
10 KiB
C++

#include "Log.h"
#include "File.h"
#include "StrFmt.h"
#include "sema.h"
#include "Utilities/sysinfo.h"
#include "rpcs3_version.h"
#include <string>
#include <unordered_map>
#ifdef _WIN32
#define NOMINMAX
#include <Windows.h>
#else
#include <chrono>
#include <sys/mman.h>
#endif
#include <zlib.h>
static std::string empty_string()
{
return {};
}
// Thread-specific log prefix provider
thread_local std::string(*g_tls_log_prefix)() = &empty_string;
template<>
void fmt_class_string<logs::level>::format(std::string& out, u64 arg)
{
format_enum(out, arg, [](auto lev)
{
switch (lev)
{
case logs::level::always: return "Nothing";
case logs::level::fatal: return "Fatal";
case logs::level::error: return "Error";
case logs::level::todo: return "TODO";
case logs::level::success: return "Success";
case logs::level::warning: return "Warning";
case logs::level::notice: return "Notice";
case logs::level::trace: return "Trace";
}
return unknown;
});
}
namespace logs
{
constexpr std::size_t s_log_size = 128 * 1024 * 1024;
constexpr std::size_t s_log_size_s = s_log_size / 2;
constexpr std::size_t s_log_size_t = s_log_size / 4 + s_log_size_s;
constexpr std::size_t s_log_size_e = s_log_size / 8 + s_log_size_t;
constexpr std::size_t s_log_size_f = s_log_size / 16 + s_log_size_e;
class file_writer
{
fs::file m_file;
std::string m_name;
#ifdef _WIN32
::HANDLE m_fmap;
#endif
atomic_t<std::size_t> m_pos{0};
std::size_t m_size{0};
uchar* m_fptr{};
public:
file_writer(const std::string& name);
virtual ~file_writer();
// Append raw data
void log(logs::level sev, const char* text, std::size_t size);
};
struct channel_info
{
channel* pointer = nullptr;
level enabled = level::notice;
void set_level(level value)
{
enabled = value;
if (pointer)
{
pointer->enabled = value;
}
}
};
struct stored_message
{
message m;
u64 stamp;
std::string prefix;
std::string text;
};
struct file_listener : public file_writer, public listener
{
file_listener(const std::string& name);
virtual ~file_listener() = default;
// Encode level, current thread name, channel name and write log message
virtual void log(u64 stamp, const message& msg, const std::string& prefix, const std::string& text) override;
// Channel registry
std::unordered_map<std::string, channel_info> channels;
// Messages for delayed listener initialization
std::vector<stored_message> messages;
};
static file_listener* get_logger()
{
// Use magic static
static file_listener logger("RPCS3");
return &logger;
}
static u64 get_stamp()
{
static struct time_initializer
{
#ifdef _WIN32
LARGE_INTEGER freq;
LARGE_INTEGER start;
time_initializer()
{
QueryPerformanceFrequency(&freq);
QueryPerformanceCounter(&start);
}
#else
std::chrono::steady_clock::time_point start = std::chrono::steady_clock::now();
#endif
u64 get() const
{
#ifdef _WIN32
LARGE_INTEGER now;
QueryPerformanceCounter(&now);
const LONGLONG diff = now.QuadPart - start.QuadPart;
return diff / freq.QuadPart * 1'000'000 + diff % freq.QuadPart * 1'000'000 / freq.QuadPart;
#else
return std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::steady_clock::now() - start).count();
#endif
}
} timebase{};
return timebase.get();
}
channel GENERAL("");
channel LOADER("LDR");
channel MEMORY("MEM");
channel RSX("RSX");
channel HLE("HLE");
channel PPU("PPU");
channel SPU("SPU");
channel ARMv7("ARMv7");
// Channel registry mutex
semaphore<> g_mutex;
// Must be set to true in main()
atomic_t<bool> g_init{false};
void reset()
{
semaphore_lock lock(g_mutex);
for (auto&& pair : get_logger()->channels)
{
pair.second.set_level(level::notice);
}
}
void set_level(const std::string& ch_name, level value)
{
semaphore_lock lock(g_mutex);
get_logger()->channels[ch_name].set_level(value);
}
// Must be called in main() to stop accumulating messages in g_messages
void set_init()
{
if (!g_init)
{
semaphore_lock lock(g_mutex);
get_logger()->messages.clear();
g_init = true;
}
}
}
logs::listener::~listener()
{
}
void logs::listener::add(logs::listener* _new)
{
// Get first (main) listener
listener* lis = get_logger();
semaphore_lock lock(g_mutex);
// Install new listener at the end of linked list
while (lis->m_next || !lis->m_next.compare_and_swap_test(nullptr, _new))
{
lis = lis->m_next;
}
// Send initial messages
for (const auto& msg : get_logger()->messages)
{
_new->log(msg.stamp, msg.m, msg.prefix, msg.text);
}
}
void logs::message::broadcast(const char* fmt, const fmt_type_info* sup, const u64* args)
{
// Get timestamp
const u64 stamp = get_stamp();
// Register channel
if (ch->enabled == level::_uninit)
{
semaphore_lock lock(g_mutex);
auto& info = get_logger()->channels[ch->name];
if (info.pointer && info.pointer != ch)
{
fmt::throw_exception("logs::channel repetition: %s", ch->name);
}
else if (!info.pointer)
{
info.pointer = ch;
ch->enabled = info.enabled;
// Check level again
if (info.enabled < sev)
{
return;
}
}
}
// Get text
thread_local std::string text; text.clear();
fmt::raw_append(text, fmt, sup, args);
std::string prefix = g_tls_log_prefix();
// Get first (main) listener
listener* lis = get_logger();
if (!g_init)
{
semaphore_lock lock(g_mutex);
if (!g_init)
{
while (lis)
{
lis->log(stamp, *this, prefix, text);
lis = lis->m_next;
}
// Store message additionally
get_logger()->messages.emplace_back(stored_message{*this, stamp, std::move(prefix), text});
}
}
// Send message to all listeners
while (lis)
{
lis->log(stamp, *this, prefix, text);
lis = lis->m_next;
}
}
[[noreturn]] extern void catch_all_exceptions();
logs::file_writer::file_writer(const std::string& name)
: m_name(name)
{
const std::string log_name = fs::get_config_dir() + name + ".log";
const std::string buf_name = fs::get_config_dir() + name + ".buf";
try
{
if (!m_file.open(buf_name, fs::read + fs::write + fs::create + fs::trunc + fs::unshare))
{
if (fs::g_tls_error == fs::error::acces)
{
if (fs::exists(buf_name))
{
fmt::throw_exception("Another instance of %s is running. Close it or kill its process, if necessary.", name);
}
else
{
fmt::throw_exception("Cannot create %s.log (access denied)."
#ifdef _WIN32
"\nNote that %s cannot be installed in Program Files or similar directory with limited permissions."
#else
"\nPlease, check %s permissions in '~/.config/'."
#endif
, name, name);
}
}
fmt::throw_exception("Cannot create %s.log (error %s)", name, fs::g_tls_error);
}
#ifdef _WIN32
m_fmap = CreateFileMappingW(m_file.get_handle(), 0, PAGE_READWRITE, s_log_size >> 32, s_log_size & 0xffffffff, 0);
m_fptr = m_fmap ? (uchar*)MapViewOfFile(m_fmap, FILE_MAP_WRITE, 0, 0, 0) : nullptr;
#else
m_file.trunc(s_log_size);
m_fptr = (uchar*)::mmap(0, s_log_size, PROT_READ | PROT_WRITE, MAP_SHARED, m_file.get_handle(), 0);
#endif
verify(name.c_str()), m_fptr;
std::memset(m_fptr, '\n', s_log_size);
// Rotate backups (TODO)
fs::remove_file(fs::get_config_dir() + name + "1.log.gz");
fs::create_dir(fs::get_config_dir() + "old_logs");
fs::rename(fs::get_config_dir() + m_name + ".log.gz", fs::get_config_dir() + "old_logs/" + m_name + ".log.gz", true);
}
catch (...)
{
catch_all_exceptions();
}
}
logs::file_writer::~file_writer()
{
if (m_size == 0)
{
m_size = std::min<std::size_t>(+m_pos, s_log_size);
}
// Compress
z_stream zs{};
if (deflateInit2(&zs, 9, Z_DEFLATED, 16 + 15, 9, Z_DEFAULT_STRATEGY) == Z_OK)
{
auto buf = std::make_unique<uchar[]>(s_log_size);
zs.avail_in = ::narrow<u32>(m_size);
zs.avail_out = s_log_size;
zs.next_in = m_fptr;
zs.next_out = buf.get();
if (deflate(&zs, Z_FINISH) != Z_STREAM_ERROR)
{
fs::file(fs::get_config_dir() + m_name + ".log.gz", fs::rewrite).write(buf.get(), zs.total_out);
}
if (deflateEnd(&zs) != Z_OK)
{
}
}
#ifdef _WIN32
UnmapViewOfFile(m_fptr);
CloseHandle(m_fmap);
#else
::munmap(m_fptr, s_log_size);
#endif
m_file.trunc(m_size);
}
void logs::file_writer::log(logs::level sev, const char* text, std::size_t size)
{
// Adaptive log limit
const auto lim =
sev >= logs::level::success ? s_log_size_s :
sev == logs::level::todo ? s_log_size_t :
sev == logs::level::error ? s_log_size_e : s_log_size_f;
if (m_pos >= lim)
{
return;
}
// Acquire memory
const auto pos = m_pos.fetch_add(size);
// Write if possible
if (pos + size <= s_log_size)
{
std::memcpy(m_fptr + pos, text, size);
}
else if (pos <= s_log_size)
{
m_size = pos;
}
}
logs::file_listener::file_listener(const std::string& name)
: file_writer(name)
, listener()
{
// Write UTF-8 BOM
file_writer::log(logs::level::always, "\xEF\xBB\xBF", 3);
// Write initial message
stored_message ver;
ver.m.ch = nullptr;
ver.m.sev = level::always;
ver.stamp = 0;
ver.text = fmt::format("RPCS3 v%s | %s\n%s", rpcs3::version.to_string(), rpcs3::get_branch(), utils::get_system_info());
file_writer::log(logs::level::always, ver.text.data(), ver.text.size());
file_writer::log(logs::level::always, "\n", 1);
messages.emplace_back(std::move(ver));
}
void logs::file_listener::log(u64 stamp, const logs::message& msg, const std::string& prefix, const std::string& _text)
{
thread_local std::string text;
// Used character: U+00B7 (Middle Dot)
switch (msg.sev)
{
case level::always: text = u8"·A "; break;
case level::fatal: text = u8"·F "; break;
case level::error: text = u8"·E "; break;
case level::todo: text = u8"·U "; break;
case level::success: text = u8"·S "; break;
case level::warning: text = u8"·W "; break;
case level::notice: text = u8"·! "; break;
case level::trace: text = u8"·T "; break;
}
// Print miscosecond timestamp
const u64 hours = stamp / 3600'000'000;
const u64 mins = (stamp % 3600'000'000) / 60'000'000;
const u64 secs = (stamp % 60'000'000) / 1'000'000;
const u64 frac = (stamp % 1'000'000);
fmt::append(text, "%u:%02u:%02u.%06u ", hours, mins, secs, frac);
if (prefix.size() > 0)
{
text += "{";
text += prefix;
text += "} ";
}
if (msg.ch && '\0' != *msg.ch->name)
{
text += msg.ch->name;
text += msg.sev == level::todo ? " TODO: " : ": ";
}
else if (msg.sev == level::todo)
{
text += "TODO: ";
}
text += _text;
text += '\n';
file_writer::log(msg.sev, text.data(), text.size());
}