nix-super/src/libutil/logging.hh
Rebecca Turner 149bd63afb
Cleanup fmt.hh
When I started contributing to Nix, I found the mix of definitions and
names in `fmt.hh` to be rather confusing, especially the small
difference between `hintfmt` and `hintformat`. I've renamed many classes
and added documentation to most definitions.

- `formatHelper` is no longer exported.
- `fmt`'s documentation is now with `fmt` rather than (misleadingly)
  above `formatHelper`.
- `yellowtxt` is renamed to `Magenta`.

  `yellowtxt` wraps its value with `ANSI_WARNING`, but `ANSI_WARNING`
  has been equal to `ANSI_MAGENTA` for a long time. Now the name is
  updated.
- `normaltxt` is renamed to `Uncolored`.
- `hintfmt` has been merged into `hintformat` as extra constructor
  functions.
- `hintformat` has been renamed to `hintfmt`.
- The single-argument `hintformat(std::string)` constructor has been
  renamed to a static member `hintformat::interpolate` to avoid pitfalls
  with using user-generated strings as format strings.
2024-02-08 11:51:03 -08:00

260 lines
6.5 KiB
C++

#pragma once
///@file
#include "types.hh"
#include "error.hh"
#include "config.hh"
#include <nlohmann/json_fwd.hpp>
namespace nix {
typedef enum {
actUnknown = 0,
actCopyPath = 100,
actFileTransfer = 101,
actRealise = 102,
actCopyPaths = 103,
actBuilds = 104,
actBuild = 105,
actOptimiseStore = 106,
actVerifyPaths = 107,
actSubstitute = 108,
actQueryPathInfo = 109,
actPostBuildHook = 110,
actBuildWaiting = 111,
actFetchTree = 112,
} ActivityType;
typedef enum {
resFileLinked = 100,
resBuildLogLine = 101,
resUntrustedPath = 102,
resCorruptedPath = 103,
resSetPhase = 104,
resProgress = 105,
resSetExpected = 106,
resPostBuildLogLine = 107,
resFetchStatus = 108,
} ResultType;
typedef uint64_t ActivityId;
struct LoggerSettings : Config
{
Setting<bool> showTrace{
this, false, "show-trace",
R"(
Whether Nix should print out a stack trace in case of Nix
expression evaluation errors.
)"};
};
extern LoggerSettings loggerSettings;
class Logger
{
friend struct Activity;
public:
struct Field
{
// FIXME: use std::variant.
enum { tInt = 0, tString = 1 } type;
uint64_t i = 0;
std::string s;
Field(const std::string & s) : type(tString), s(s) { }
Field(const char * s) : type(tString), s(s) { }
Field(const uint64_t & i) : type(tInt), i(i) { }
};
typedef std::vector<Field> Fields;
virtual ~Logger() { }
virtual void stop() { };
virtual void pause() { };
virtual void resume() { };
// Whether the logger prints the whole build log
virtual bool isVerbose() { return false; }
virtual void log(Verbosity lvl, std::string_view s) = 0;
void log(std::string_view s)
{
log(lvlInfo, s);
}
virtual void logEI(const ErrorInfo & ei) = 0;
void logEI(Verbosity lvl, ErrorInfo ei)
{
ei.level = lvl;
logEI(ei);
}
virtual void warn(const std::string & msg);
virtual void startActivity(ActivityId act, Verbosity lvl, ActivityType type,
const std::string & s, const Fields & fields, ActivityId parent) { };
virtual void stopActivity(ActivityId act) { };
virtual void result(ActivityId act, ResultType type, const Fields & fields) { };
virtual void writeToStdout(std::string_view s);
template<typename... Args>
inline void cout(const Args & ... args)
{
writeToStdout(fmt(args...));
}
virtual std::optional<char> ask(std::string_view s)
{ return {}; }
virtual void setPrintBuildLogs(bool printBuildLogs)
{ }
};
/**
* A variadic template that does nothing.
*
* Useful to call a function with each argument in a parameter pack.
*/
struct nop
{
template<typename... T> nop(T...)
{ }
};
ActivityId getCurActivity();
void setCurActivity(const ActivityId activityId);
struct Activity
{
Logger & logger;
const ActivityId id;
Activity(Logger & logger, Verbosity lvl, ActivityType type, const std::string & s = "",
const Logger::Fields & fields = {}, ActivityId parent = getCurActivity());
Activity(Logger & logger, ActivityType type,
const Logger::Fields & fields = {}, ActivityId parent = getCurActivity())
: Activity(logger, lvlError, type, "", fields, parent) { };
Activity(const Activity & act) = delete;
~Activity();
void progress(uint64_t done = 0, uint64_t expected = 0, uint64_t running = 0, uint64_t failed = 0) const
{ result(resProgress, done, expected, running, failed); }
void setExpected(ActivityType type2, uint64_t expected) const
{ result(resSetExpected, type2, expected); }
template<typename... Args>
void result(ResultType type, const Args & ... args) const
{
Logger::Fields fields;
nop{(fields.emplace_back(Logger::Field(args)), 1)...};
result(type, fields);
}
void result(ResultType type, const Logger::Fields & fields) const
{
logger.result(id, type, fields);
}
friend class Logger;
};
struct PushActivity
{
const ActivityId prevAct;
PushActivity(ActivityId act) : prevAct(getCurActivity()) { setCurActivity(act); }
~PushActivity() { setCurActivity(prevAct); }
};
extern Logger * logger;
Logger * makeSimpleLogger(bool printBuildLogs = true);
Logger * makeJSONLogger(Logger & prevLogger);
std::optional<nlohmann::json> parseJSONMessage(const std::string & msg);
bool handleJSONLogMessage(nlohmann::json & json,
const Activity & act, std::map<ActivityId, Activity> & activities,
bool trusted);
bool handleJSONLogMessage(const std::string & msg,
const Activity & act, std::map<ActivityId, Activity> & activities,
bool trusted);
/**
* suppress msgs > this
*/
extern Verbosity verbosity;
/**
* Print a message with the standard ErrorInfo format.
* In general, use these 'log' macros for reporting problems that may require user
* intervention or that need more explanation. Use the 'print' macros for more
* lightweight status messages.
*/
#define logErrorInfo(level, errorInfo...) \
do { \
if ((level) <= nix::verbosity) { \
logger->logEI((level), errorInfo); \
} \
} while (0)
#define logError(errorInfo...) logErrorInfo(lvlError, errorInfo)
#define logWarning(errorInfo...) logErrorInfo(lvlWarn, errorInfo)
/**
* Print a string message if the current log level is at least the specified
* level. Note that this has to be implemented as a macro to ensure that the
* arguments are evaluated lazily.
*/
#define printMsgUsing(loggerParam, level, args...) \
do { \
auto __lvl = level; \
if (__lvl <= nix::verbosity) { \
loggerParam->log(__lvl, fmt(args)); \
} \
} while (0)
#define printMsg(level, args...) printMsgUsing(logger, level, args)
#define printError(args...) printMsg(lvlError, args)
#define notice(args...) printMsg(lvlNotice, args)
#define printInfo(args...) printMsg(lvlInfo, args)
#define printTalkative(args...) printMsg(lvlTalkative, args)
#define debug(args...) printMsg(lvlDebug, args)
#define vomit(args...) printMsg(lvlVomit, args)
/**
* if verbosity >= lvlWarn, print a message with a yellow 'warning:' prefix.
*/
template<typename... Args>
inline void warn(const std::string & fs, const Args & ... args)
{
boost::format f(fs);
formatHelper(f, args...);
logger->warn(f.str());
}
#define warnOnce(haveWarned, args...) \
if (!haveWarned) { \
haveWarned = true; \
warn(args); \
}
void writeToStderr(std::string_view s);
}