/* Copyright (c) 2010, 2015, Oracle and/or its affiliates. All rights reserved.

  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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */

/**
  @file storage/perfschema/pfs_user.cc
  Performance schema user (implementation).
*/

#include "my_global.h"
#include "my_sys.h"
#include "pfs.h"
#include "pfs_stat.h"
#include "pfs_instr.h"
#include "pfs_setup_actor.h"
#include "pfs_user.h"
#include "pfs_global.h"
#include "pfs_instr_class.h"
#include "pfs_buffer_container.h"

/**
  @addtogroup Performance_schema_buffers
  @{
*/

LF_HASH user_hash;
static bool user_hash_inited= false;

/**
  Initialize the user buffers.
  @param param                        sizing parameters
  @return 0 on success
*/
int init_user(const PFS_global_param *param)
{
  if (global_user_container.init(param->m_user_sizing))
    return 1;

  return 0;
}

/** Cleanup all the user buffers. */
void cleanup_user(void)
{
  global_user_container.cleanup();
}

C_MODE_START
static uchar *user_hash_get_key(const uchar *entry, size_t *length,
                                my_bool)
{
  const PFS_user * const *typed_entry;
  const PFS_user *user;
  const void *result;
  typed_entry= reinterpret_cast<const PFS_user* const *> (entry);
  DBUG_ASSERT(typed_entry != NULL);
  user= *typed_entry;
  DBUG_ASSERT(user != NULL);
  *length= user->m_key.m_key_length;
  result= user->m_key.m_hash_key;
  return const_cast<uchar*> (reinterpret_cast<const uchar*> (result));
}
C_MODE_END

/**
  Initialize the user hash.
  @return 0 on success
*/
int init_user_hash(const PFS_global_param *param)
{
  if ((! user_hash_inited) && (param->m_user_sizing != 0))
  {
    lf_hash_init(&user_hash, sizeof(PFS_user*), LF_HASH_UNIQUE,
                 0, 0, user_hash_get_key, &my_charset_bin);
    user_hash_inited= true;
  }
  return 0;
}

/** Cleanup the user hash. */
void cleanup_user_hash(void)
{
  if (user_hash_inited)
  {
    lf_hash_destroy(&user_hash);
    user_hash_inited= false;
  }
}

static LF_PINS* get_user_hash_pins(PFS_thread *thread)
{
  if (unlikely(thread->m_user_hash_pins == NULL))
  {
    if (! user_hash_inited)
      return NULL;
    thread->m_user_hash_pins= lf_hash_get_pins(&user_hash);
  }
  return thread->m_user_hash_pins;
}

static void set_user_key(PFS_user_key *key,
                         const char *user, uint user_length)
{
  DBUG_ASSERT(user_length <= USERNAME_LENGTH);

  char *ptr= &key->m_hash_key[0];
  if (user_length > 0)
  {
    memcpy(ptr, user, user_length);
    ptr+= user_length;
  }
  ptr[0]= 0;
  ptr++;
  key->m_key_length= ptr - &key->m_hash_key[0];
}

PFS_user *
find_or_create_user(PFS_thread *thread,
                    const char *username, uint username_length)
{
  LF_PINS *pins= get_user_hash_pins(thread);
  if (unlikely(pins == NULL))
  {
    global_user_container.m_lost++;
    return NULL;
  }

  PFS_user_key key;
  set_user_key(&key, username, username_length);

  PFS_user **entry;
  PFS_user *pfs;
  uint retry_count= 0;
  const uint retry_max= 3;
  pfs_dirty_state dirty_state;

search:
  entry= reinterpret_cast<PFS_user**>
    (lf_hash_search(&user_hash, pins,
                    key.m_hash_key, key.m_key_length));
  if (entry && (entry != MY_ERRPTR))
  {
    pfs= *entry;
    pfs->inc_refcount();
    lf_hash_search_unpin(pins);
    return pfs;
  }

  lf_hash_search_unpin(pins);

  pfs= global_user_container.allocate(& dirty_state);
  if (pfs != NULL)
  {
    pfs->m_key= key;
    if (username_length > 0)
      pfs->m_username= &pfs->m_key.m_hash_key[0];
    else
      pfs->m_username= NULL;
    pfs->m_username_length= username_length;

    pfs->init_refcount();
    pfs->reset_stats();
    pfs->m_disconnected_count= 0;

    int res;
    pfs->m_lock.dirty_to_allocated(& dirty_state);
    res= lf_hash_insert(&user_hash, pins, &pfs);
    if (likely(res == 0))
    {
      return pfs;
    }

    global_user_container.deallocate(pfs);

    if (res > 0)
    {
      if (++retry_count > retry_max)
      {
        global_user_container.m_lost++;
        return NULL;
      }
      goto search;
    }

    global_user_container.m_lost++;
    return NULL;
  }

  return NULL;
}

void PFS_user::aggregate(bool alive)
{
  aggregate_waits();
  aggregate_stages();
  aggregate_statements();
  aggregate_transactions();
  aggregate_memory(alive);
  aggregate_status();
  aggregate_stats();
}

void PFS_user::aggregate_waits()
{
  /* No parent to aggregate to, clean the stats */
  reset_waits_stats();
}

void PFS_user::aggregate_stages()
{
  /* No parent to aggregate to, clean the stats */
  reset_stages_stats();
}

void PFS_user::aggregate_statements()
{
  /* No parent to aggregate to, clean the stats */
  reset_statements_stats();
}

void PFS_user::aggregate_transactions()
{
  /* No parent to aggregate to, clean the stats */
  reset_transactions_stats();
}

void PFS_user::aggregate_memory(bool alive)
{
  /* No parent to aggregate to, clean the stats */
  rebase_memory_stats();
}

void PFS_user::aggregate_status()
{
  /* No parent to aggregate to, clean the stats */
  reset_status_stats();
}

void PFS_user::aggregate_stats()
{
  /* No parent to aggregate to, clean the stats */
  m_disconnected_count= 0;
}

void PFS_user::release()
{
  dec_refcount();
}

void PFS_user::carry_memory_stat_delta(PFS_memory_stat_delta *delta, uint index)
{
  PFS_memory_stat *event_name_array;
  PFS_memory_stat *stat;
  PFS_memory_stat_delta delta_buffer;

  event_name_array= write_instr_class_memory_stats();
  stat= & event_name_array[index];
  (void) stat->apply_delta(delta, &delta_buffer);
}

PFS_user *sanitize_user(PFS_user *unsafe)
{
  return global_user_container.sanitize(unsafe);
}

void purge_user(PFS_thread *thread, PFS_user *user)
{
  LF_PINS *pins= get_user_hash_pins(thread);
  if (unlikely(pins == NULL))
    return;

  PFS_user **entry;
  entry= reinterpret_cast<PFS_user**>
    (lf_hash_search(&user_hash, pins,
                    user->m_key.m_hash_key, user->m_key.m_key_length));
  if (entry && (entry != MY_ERRPTR))
  {
    DBUG_ASSERT(*entry == user);
    if (user->get_refcount() == 0)
    {
      lf_hash_delete(&user_hash, pins,
                     user->m_key.m_hash_key, user->m_key.m_key_length);
      user->aggregate(false);
      global_user_container.deallocate(user);
    }
  }

  lf_hash_search_unpin(pins);
}

class Proc_purge_user
  : public PFS_buffer_processor<PFS_user>
{
public:
  Proc_purge_user(PFS_thread *thread)
    : m_thread(thread)
  {}

  virtual void operator()(PFS_user *pfs)
  {
    pfs->aggregate(true);
    if (pfs->get_refcount() == 0)
      purge_user(m_thread, pfs);
  }

private:
  PFS_thread *m_thread;
};

/** Purge non connected users, reset stats of connected users. */
void purge_all_user(void)
{
  PFS_thread *thread= PFS_thread::get_current_thread();
  if (unlikely(thread == NULL))
    return;

  Proc_purge_user proc(thread);
  global_user_container.apply(proc);
}

/** @} */