If the SSL configuration of a server was altered successfully, it would
overwrite an existing configuration leading to a true memory
leak. Converting the SSL_LISTENER structure to a list allows it to store
the old configurations without leaking the memory.
This has no functional benefits apart from storing references which could
aid in debugging. In the future, the discarded configurations could be
freed once all connections that use it are closed.
The config_runtime.h header contains functions that can be used to
manipulate the running configuration. Currently the header contains the
function to create, add, remove and destroy servers.
MXS-843. When a monitor executes an external script in response to
a server event, the execution is logged to the MaxScale main log.
Previously, the log message only contained the script name as given
in the configuration file. Now, the message contains the script name
and argument values as given to the execvp-call.
DCBs and SESSIONs can be passed either as raw pointers or as the string
representations of them.
The preferred way to pass them is to use the raw pointer types. This
removes the need to convert the pointer to string form and back.
The modulecmd_foreach function allows commands to be iterated without having
to manage the locking of the system. This allows the commands to be easily
iterated and gathered into filtered lists without having to build it into
the module command system itself.
The modules can now return human-readable error messages to the caller of
the function. The internals of the modulecmd system also use this to
return errors to the users.
The error messages can be retrieved with a common error function which
should make it easy to use in various clients.
A module can register a function to a domain. These function can then be
called by external actors enabling the modules to expand their
functionality beyond the module API. Each module should use its own domain
e.g the library name.
Currently, the functions do not return results. The possible next step
would be to alter the function entry point to return a result set of
sorts. This would allow the modules to convey structured information to
the client information which would handle the formatting of the result.
Although this sounds good, it is not required for the implementation of
MXS-929.
When C and C++ are mixed in a project, main() should be compiled
as C++ to ensure that all C++ static initializations are performed
properly. That may not be strictly true anymore, depending on the
used compiler and environment, but better to do that to be on the
safe side.
The code that checked whether a server was added to a service did not
check whether the server reference was active. This caused problems when
an old server was added again to a service that once had used it.
If a master once had slaves and is in the stale status, it will not retain
this status after a restart. Without storing on-disk information, the
stale master status cannot be deduced by looking at the master
alone. Because of this, the user should be able to manually enable the
stale master status.
The listen() backlog is now set to INT_MAX which should guarantee that the
internal limit is always higher than the system limit. This means that the
length of the queue always follows /proc/sys/net/ipv4/tcp_max_syn_backlog.
When a service is added or removed from a service, a supplementary
configuration file is created. This allows MaxScale to survive restars and
unexpected downtime even if runtime changes to the servers of a service
have been made.
With these changes, it is possible to start MaxScale without any servers,
create servers, add the created servers to services and monitors and
restart Maxscale without losing the runtime configuration changes.
When a server is added to a monitor, an supplementary configuration file
is generated to persist this information. This will allow dynamic
modifications to server lists which will survive restarts and unexpected
downtime.
The monitor will only add new servers to its list of monitored
servers. This prevents duplicate entries in the list and makes it safe to
persist all used servers to the supplementary configuration file instead of only the ones that are not listed in the main configuration.
Servers created at runtime can now be configured to use SSL. The
configuration is only possible if the server is not in use.
The `alter server` command in maxadmin now takes a list of `key=value`
strings. This allows the user to define multiple alter operations with one
command.
The functions allow simple operations on configuration context
objects. This makes it easier to understand what the code does and allows
reuse of the configuration processing code.
Together with the field names, now qc_get_field_info also returns
field usage information, that is, in what context a field is used.
This allows, for instance, the cache to take action if a a particular
field is selected (SELECT a FROM ...), but not if it is used in a
GROUP BY clause (...GROUP BY a).
This caused a significant modifications of qc_mysqlembedded that
earlier did not walk the parse-tree, but instead looped over of a
list of st_select_lex instances that, the name notwithstanding,
also contain information about other things but SELECTs. The former
approach lost all contextual information, so it was not possible
to know where a particular field was used.
Now the parse tree is walked, which means that the contextual
information is known, and thus the field usage can be updated.
The checks for the server active status are now hidden behind a
macro. This allows for the conditions of the activity to change without
having to alter the code that uses it.
Now that servers use an array for the server name, name truncation can
occur. Although this is nigh impossible, a warning message is a prudent
precaution.
Server creation and allocation are now the same apart from the fact that
allocation only adds the server to the running configuration where as the
creation of a server also persist it to disk.
The server serialization should not be seen through the server.h API. This
allows the serialization method to change without actually having to
change the interfaces.
The MySQL Monitor did not reset the pointer to the root master reference
which would lead to a crash if the master was removed.
When service details were shown, it listed all servers that existed. Only
servers that haven't been removed or destroyed should be shown.
If a server were to be destroyed, it should not show up among
non-destroyed servers. Even though the servers aren't actually destroyed,
it hides unnecessary information from the user.
Previously, negative values were allowed for persistpoolmax and
persistmaxtime. Now they cause an error. Also, monitor_interval
allowed negative (or zero) values, which were then implicitly cast to
unsigned, causing unintended behaviour. Now this causes a warning
and the default value is used.
When a server is created via MaxAdmin, it will be serialized to disk. This
allows created servers to be retained through a restart of MaxScale.
Currently, all serialized objects are stored in one folder and there is no
structure in the created files. In the future, servers could be created
under a `servers` subdirectory so that it is easier to see what was
added. Whether there is a need for this will be seen.
The server credentials are only used if both the monuser and monpw
parameters are defined. This is a sort of a bugfix as a monitor connection
could use a username from server but a password from the monitor.
