/* Copyright (C) 2004 MySQL AB

   This program is free software; you can redistribute it and/or modify
   it under the terms of the GNU General Public License as published by
   the Free Software Foundation; version 2 of the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA */

#if defined(__GNUC__) && defined(USE_PRAGMA_IMPLEMENTATION)
#pragma implementation
#endif

#include "instance_map.h"

#include "buffer.h"
#include "instance.h"
#include "log.h"
#include "options.h"

#include <m_ctype.h>
#include <mysql_com.h>
#include <m_string.h>

/*
  Note:  As we are going to suppost different types of connections,
  we shouldn't have connection-specific functions. To avoid it we could
  put such functions to the Command-derived class instead.
  The command could be easily constructed for a specific connection if
  we would provide a special factory for each connection.
*/

C_MODE_START

/* Procedure needed for HASH initialization */

static byte* get_instance_key(const byte* u, uint* len,
                          my_bool __attribute__((unused)) t)
{
  const Instance *instance= (const Instance *) u;
  *len= instance->options.instance_name_len;
  return (byte *) instance->options.instance_name;
}

static void delete_instance(void *u)
{
  Instance *instance= (Instance *) u;
  delete instance;
}

/*
  The option handler to pass to the process_default_option_files finction.

  SYNOPSYS
    process_option()
    ctx               Handler context. Here it is an instance_map structure.
    group_name        The name of the group the option belongs to.
    option            The very option to be processed. It is already
                      prepared to be used in argv (has -- prefix)

  DESCRIPTION

    This handler checks whether a group is an instance group and adds
    an option to the appropriate instance class. If this is the first
    occurence of an instance name, we'll also create the instance
    with such name and add it to the instance map.

  RETURN
    0 - ok
    1 - error occured
*/

static int process_option(void *ctx, const char *group, const char *option)
{
  Instance_map *map= NULL;

  map = (Instance_map*) ctx;
  return map->process_one_option(group, option);
}

C_MODE_END


/*
  Process one option from the configuration file.

  SYNOPSIS
    Instance_map::process_one_option()
      group         group name
      option        option string (e.g. "--name=value")

  DESCRIPTION
    This is an auxiliary function and should not be used externally.
    It is used only by flush_instances(), which pass it to
    process_option(). The caller ensures proper locking
    of the instance map object.
*/

int Instance_map::process_one_option(const char *group, const char *option)
{
  Instance *instance= NULL;
  static const char prefix[]= { 'm', 'y', 's', 'q', 'l', 'd' };

  if (strncmp(group, prefix, sizeof prefix) == 0 &&
      ((my_isdigit(default_charset_info, group[sizeof prefix]))
       || group[sizeof(prefix)] == '\0'))
    {
      if (!(instance= (Instance *) hash_search(&hash, (byte *) group,
                                               (uint) strlen(group))))
      {
        if (!(instance= new Instance))
          goto err;
        if (instance->init(group) || my_hash_insert(&hash, (byte *) instance))
          goto err_instance;
      }

      if (instance->options.add_option(option))
        goto err;   /* the instance'll be deleted when we destroy the map */
    }

  return 0;

err_instance:
  delete instance;
err:
  return 1;
}


Instance_map::Instance_map(const char *default_mysqld_path_arg):
mysqld_path(default_mysqld_path_arg)
{
  pthread_mutex_init(&LOCK_instance_map, 0);
}


int Instance_map::init()
{
  return hash_init(&hash, default_charset_info, START_HASH_SIZE, 0, 0,
                   get_instance_key, delete_instance, 0);
}

Instance_map::~Instance_map()
{
  pthread_mutex_lock(&LOCK_instance_map);
  hash_free(&hash);
  pthread_mutex_unlock(&LOCK_instance_map);
  pthread_mutex_destroy(&LOCK_instance_map);
}


void Instance_map::lock()
{
  pthread_mutex_lock(&LOCK_instance_map);
}


void Instance_map::unlock()
{
  pthread_mutex_unlock(&LOCK_instance_map);
}

/*
  Re-read instance configuration file.

  SYNOPSIS
    Instance_map::flush_instances()

  DESCRIPTION
    This function will:
     - clear the current list of instances. This removes both
       running and stopped instances.
     - load a new instance configuration from the file.
     - pass on the new map to the guardian thread: it will start
       all instances that are marked `guarded' and not yet started.
    Note, as the check whether an instance is started is currently
    very simple (returns true if there is a MySQL server running
    at the given port), this function has some peculiar
    side-effects:
     * if the port number of a running instance was changed, the
       old instance is forgotten, even if it was running. The new
       instance will be started at the new port.
     * if the configuration was changed in a way that two
       instances swapped their port numbers, the guardian thread
       will not notice that and simply report that both instances
       are configured successfully and running.
    In order to avoid such side effects one should never call
    FLUSH INSTANCES without prior stop of all running instances.

  TODO
    FLUSH INSTANCES should return an error if it's called
    while there is a running instance.
*/

int Instance_map::flush_instances()
{
  int rc;

  /*
    Guardian thread relies on the instance map repository for guarding
    instances. This is why refreshing instance map, we need (1) to stop
    guardian (2) reload the instance map (3) reinitialize the guardian
    with new instances.
  */
  guardian->lock();
  pthread_mutex_lock(&LOCK_instance_map);
  hash_free(&hash);
  hash_init(&hash, default_charset_info, START_HASH_SIZE, 0, 0,
            get_instance_key, delete_instance, 0);
  rc= load();
  /* don't init guardian if we failed to load instances */
  if (!rc)
    guardian->init(); // TODO: check error status.
  pthread_mutex_unlock(&LOCK_instance_map);
  guardian->unlock();
  return rc;
}


Instance *
Instance_map::find(const char *name, uint name_len)
{
  Instance *instance;
  pthread_mutex_lock(&LOCK_instance_map);
  instance= (Instance *) hash_search(&hash, (byte *) name, name_len);
  pthread_mutex_unlock(&LOCK_instance_map);
  return instance;
}


int Instance_map::complete_initialization()
{
  Instance *instance;
  uint i= 0;


  if (hash.records == 0)                        /* no instances found */
  {
    if ((instance= new Instance) == 0)
      goto err;

    if (instance->init("mysqld") || my_hash_insert(&hash, (byte *) instance))
      goto err_instance;

    /*
      After an instance have been added to the instance_map,
      hash_free should handle it's deletion => goto err, not
      err_instance.
    */
    if (instance->complete_initialization(this, mysqld_path,
                                          DEFAULT_SINGLE_INSTANCE))
      goto err;
  }
  else
    while (i < hash.records)
    {
      instance= (Instance *) hash_element(&hash, i);
      if (instance->complete_initialization(this, mysqld_path, USUAL_INSTANCE))
        goto err;
      i++;
    }

  return 0;
err_instance:
  delete instance;
err:
  return 1;
}


/* load options from config files and create appropriate instance structures */

int Instance_map::load()
{
  int argc= 1;
  /* this is a dummy variable for search_option_files() */
  uint args_used= 0;
  const char *argv_options[3];
  char **argv= (char **) &argv_options;
  char defaults_file_arg[FN_REFLEN];

  /* the name of the program may be orbitrary here in fact */
  argv_options[0]= "mysqlmanager";

  /*
    If the option file was forced by the user when starting
    the IM with --defaults-file=xxxx, make sure it is also
    passed as --defaults-file, not only as Options::config_file.
    This is important for option files given with relative path:
    e.g. --defaults-file=my.cnf.
    Otherwise my_search_option_files will treat "my.cnf" as a group
    name and start looking for files named "my.cnf.cnf" in all
    default dirs. Which is not what we want.
  */
  if (Options::is_forced_default_file)
  {
    snprintf(defaults_file_arg, FN_REFLEN, "--defaults-file=%s",
             Options::config_file);

    argv_options[1]= defaults_file_arg;
    argv_options[2]= '\0';

    argc= 2;
  }
  else
    argv_options[1]= '\0';

  /*
    If the routine failed, we'll simply fallback to defaults in
    complete_initialization().
  */
  if (my_search_option_files(Options::config_file, &argc,
                             (char ***) &argv, &args_used,
                             process_option, (void*) this))
    log_info("Falling back to compiled-in defaults");

  if (complete_initialization())
    return 1;

  return 0;
}


/*--- Implementaton of the Instance map iterator class  ---*/


void Instance_map::Iterator::go_to_first()
{
  current_instance=0;
}


Instance *Instance_map::Iterator::next()
{
  if (current_instance < instance_map->hash.records)
    return (Instance *) hash_element(&instance_map->hash, current_instance++);

  return NULL;
}