Now that all values are in one place, there is no reason for this numbering
with gaps anymore. If you need to insert a new value in between, you can just
do so in the enum.
This reverses the sort order of the enum, thereby requiring a change to the
sort order of the std::priority_queue containing the elements.
Change the type of the priority values from int to a new enum. By replacing the
magic int values throughout the code base with named values, there is now a
single place where all priority values are defined and you get an overview over
the initialization order.
InitializeOnceHelper calls Loader::AddDeferredInitializer which takes a
std::function, so it's eventually converted to that anyways. This commit just
does this a bit earlier, and by saving the step of the intermediate C function
pointer, this would now also work for capturing lambdas (which there are none
of at the moment).
In essence, namespace behaviors acted as hooks for update operations on
namespaces. Two behaviors were implemented:
- `NamespaceBehavior`: allows the update operation unless it acts on a value
that itself was explicitly marked as constant.
- `ConstNamespaceBehavior`: initially allows insert operations but marks the
individual values as const. Additionally provides a `Freeze()` member
function. After this was called, updates are rejected unless a special
`overrideFrozen` flag is set explicitly.
This marvel of object-oriented programming can be replaced with a simple bool.
This commit basically replaces `Namespace::m_Behavior` with
`Namespace::m_ConstValues` and inlines the behavior functions where they were
called. While doing so, the code was slightly simplified by assuming that
`m_ConstValues` is true if `m_Frozen` is true. This is similar to what the API
allowed in the old code as you could only freeze a `ConstNamespaceBehavior`.
However, this PR moves the `Freeze()` member function and the related
`m_Freeze` member variable to the `Namespace` class. So now the API allows any
namespace to be frozen. The new code also makes sense with the previously
mentioned simplification: a `Namespace` with `m_ConstValues = false` can be
modified without restrictions until `Freeze()` is called. When this is done, it
becomes read-only.
The changes outside of `namespace.*` just adapt the code to the slightly
changed API.
Copying an ObjectLock results in the underlying mutex being unlocked too often.
There's also no good reason for copying a scoped locking class (if at all, it
should be moved).
by caching the total minimum log severity of all loggers in a
"global variable" and whether a message's severity is large enough for any of
the loggers in a per-message no-op flag.
Case:
1. icinga2 api setup
2. icinga2 daemon -C -x debug
Before: Second commands crashes at exit.
After: No crash.
As the comment between the removed lines clearly says:
Our destructors haven't been built for static data.
This is build type independent.
The point of logging to the Windows Event Log was to catch errors that happen
before the full logging configuration has been loaded and enabled. Messages
like the number of loaded objects per type just cause noise in the log and
provide little benefit. Therefore raise the required log level at this stage.
Note that this commit removes the (never documented) ability to use the -x flag
to change the level. But doing so would require patching the command line of
the service in the registry anyways.
Apparently there was a reason for making the members of generated classes
atomic. However, this was only done for some types, others were still accessed
using non-atomic operations. For members of type T::Ptr (i.e. intrusive_ptr<T>),
this can result in a double free when multiple threads access the same variable
and at least one of them writes to the variable.
This commit makes use of std::atomic<T> for more T (it removes the additional
constraint sizeof(T) <= sizeof(void*)) and uses a type including a mutex for
load and store operations as a fallback.
add_definitions would set SD_JOURNAL_SUPPRESS_LOCATION for all targets
in directory and sub-directories. However, another future target might
want the opposite, so define it as local as possible to journaldlogger.cpp.
To make this work, we must take journaldlogger.cpp out of the unity
build, because all files from a unity of share compiler definitions.
As proposed in #8857, this adds a Logger subclass that writes structured
log messages via journald's native protocol by calling sd_journal_sendv.
The feature therefore depends on the systemd library. sd_journal_sendv is
available since the early days (systemd v38), so a version check is
probably superflous.
We add the following fields to each record:
- MESSAGE: The log message
- PRIORITY (aka severity): Numeric severity as in RFC5424 section 6.2.1
- SYSLOG_FACILITY: Numeric facility as in RFC5424 section 6.2.1
- SYSLOG_IDENTIFIER: If provided, use value from configuration.
Else use systemd's default behaior, which is to determine the field
by using libc's program_invocation_short_name, resulting in "icinga2".
- ICINGA2_FACILITY: Facility as in Log::Log(..., String facility, ...),
e.g. "ApiListener"
- some more fields are added automatically by systemd
Fields are stored indexed, so we can do fast queries for certain field
values. Example:
$ journalctl -t icinga2 ICINGA2_FACILITY=ApiListener -n 5
Syslog compatiblity is ratained because good old tag, severity and facility
is stored along, and systemd can forward to syslog daemons.
See also https://systemd.io/JOURNAL_NATIVE_PROTOCOL/.
The upcoming JournaldLogger will need the same syslog validation and
conversion logic, so factor it out from SyslogLogger to make it
reusable.
Also explicitely include syslog.h, which defines the syslog()
function.
As Icinga first sends a SIGTERM to a check plugin on timeout to allow it to
terminate gracefully, this is not really part of the plugin API specification
and we cannot assume that plugins will handle this correctly and still exit
with an exit code that maps to UNKNOWN. Therefore, once Icinga decides to kill
a process, force its exit code to 128 to be sure the state will be UNKNOWN
after a timeout.
So far, the documentation has claimed that loggers have a default severity
(information for FileLogger and warning for SyslogLogger). However, this was
not the case and not setting the severity resulted in a configuration error.
This commit changes the default value to be information for all loggers.
When Icinga 2 is started as a service, the early log messages generated
until the FileLogger object is activated are lost and make it really
hard to debug issues that (only) occur when Icinga 2 reloads.
With this commit, these early log messages are written to the Windows
Event Log.
Even if a double represents an integer value, it might not be safe to cast it
to long long as it may overflow the type. Instead just use print the double
value with 0 decimals using std::setprecision.
Before:
<1> => 18446744073709551616.to_string()
"-9223372036854775808"
After:
<1> => 18446744073709551616.to_string()
"18446744073709551616"
Fixes the following build error:
/home/jbrost/dev/icinga2/lib/base/stdiostream.cpp: In member function ‘virtual size_t icinga::StdioStream::Read(void*, size_t, bool)’:
/home/jbrost/dev/icinga2/lib/base/stdiostream.cpp:28:15: error: invalid use of incomplete type ‘std::iostream’ {aka ‘class std::basic_iostream<char>’}
28 | m_InnerStream->read(static_cast<char *>(buffer), size);
| ^~
Unfortunately, the symbol resolution of boost::stacktrace is broken on
FreeBSD, therefore fall back to using backtrace_symbols() to print the
stack trace saved by Boost.
Additionally, -D_GNU_SOURCE is required on FreeBSD for the
_Unwind_Backtrace function used by boost::stacktrace.
This makes the format more similar to what the uncaught C++ and SEH
exception handlers write. Previously there was no indication in the
crash log that a SIGABRT happened.
Maybe this will save the next person who has to look at this code some
time. Please don't blame me for the implementation, I'm just trying to
reconstruct what it does.
The logic for selecting the traces to print stays the same, but there
are fewer nested ifs now. This changes the format of the returned string
a bit by adding a heading for both traces.
By default, DiagnosticInformation uses the stack trace saved when the
exception was thrown, but this mechanism is not in use on Windows.
Gathering a stacktrace in the terminate handler serves as a fallback.
Julian Brost
Alexander A. Klimov
Yonas Habteab
Noah Hilverling
Tobias Deiminger
Yonas Habteab