source: trunk/kernel/mm/kmem.c @ 159

/*
 * kmem.c - kernel memory allocator implementation.
 *
 * Authors  Ghassan Almaless (2008,2009,2010,2011,2012)
 *          Mohamed Lamine Karaoui (2015)
 *          Alain Greiner (2016)
 *
 * Copyright (c) UPMC Sorbonne Universites
 *
 * This file is part of ALMOS-MKH.
 *
 * ALMOS-MKH 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 2.0 of the License.
 *
 * ALMOS-MKH 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 ALMOS-MKH; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
 */

#include <kernel_config.h>
#include <hal_types.h>
#include <hal_special.h>
#include <printk.h>
#include <spinlock.h>
#include <readlock.h>
#include <memcpy.h>
#include <khm.h>
#include <ppm.h>
#include <page.h>
#include <cluster.h>
#include <thread.h>
#include <process.h>
#include <chdev.h>
#include <mapper.h>
#include <vfs.h>
#include <fatfs.h>
#include <ramfs.h>
#include <remote_sem.h>
#include <remote_barrier.h>
#include <remote_mutex.h>
#include <remote_condvar.h>
#include <mapper.h>
#include <grdxt.h>
#include <vseg.h>
#include <kmem.h>

///////////////////////////
void kmem_print_kcm_table()
{
        uint32_t    index;
        kcm_t     * kcm;
        cluster_t * cluster = LOCAL_CLUSTER;

        printk("\n    *** KCM Pointers Table ***\n");

        for( index = 0 ; index < KMEM_TYPES_NR ; index++ )
        {
                kcm = cluster->kcm_tbl[index];
                if( kcm != NULL )
                {
                        if( index == kcm->type )
                        {
                                printk("     - KCM[%s] (at address %x) is OK\n",
                                       kmem_type_str( index ) , (intptr_t)kcm );
                        }
                        else
                        {
                                printk("     - KCM[%s] (at address %x) is KO : has type %s\n",
                                       kmem_type_str( index ) , (intptr_t)kcm , kmem_type_str( kcm->type ) );
                        }
                }
        }
}

/////////////////////////////////////////
uint32_t  kmem_type_size( uint32_t type )
{
        if     ( type == KMEM_PAGE )          return CONFIG_PPM_PAGE_SIZE;
        else if( type == KMEM_GENERIC )       return 0;
        else if( type == KMEM_KCM )           return sizeof( kcm_t );
        else if( type == KMEM_VSEG )          return sizeof( vseg_t );
        else if( type == KMEM_DEVICE )        return sizeof( chdev_t );
        else if( type == KMEM_MAPPER )        return sizeof( mapper_t );
        else if( type == KMEM_PROCESS )       return sizeof( process_t );
        else if( type == KMEM_CPU_CTX )       return sizeof( hal_cpu_context_t );
        else if( type == KMEM_FPU_CTX )       return sizeof( hal_fpu_context_t );
        else if( type == KMEM_BARRIER )       return sizeof( remote_barrier_t );

        else if( type == KMEM_FATFS_INODE )   return sizeof( fatfs_inode_t );
        else if( type == KMEM_FATFS_CTX )     return sizeof( fatfs_ctx_t );
        else if( type == KMEM_DEVFS_INODE )   return sizeof( devfs_inode_t );
        else if( type == KMEM_MUTEX )         return sizeof( remote_mutex_t );
        else if( type == KMEM_VFS_CTX )       return sizeof( vfs_ctx_t );
        else if( type == KMEM_VFS_INODE )     return sizeof( vfs_inode_t );
        else if( type == KMEM_VFS_DENTRY )    return sizeof( vfs_dentry_t );
        else if( type == KMEM_VFS_FILE )      return sizeof( vfs_file_t );
        else if( type == KMEM_SEM )           return sizeof( remote_sem_t );
        else if( type == KMEM_CONDVAR )       return sizeof( remote_condvar_t );

        else if( type == KMEM_512_BYTES )     return 512;

        else                                  return 0;
}

/////////////////////////////////////
char * kmem_type_str( uint32_t type )
{
        if     ( type == KMEM_PAGE )          return "KMEM_PAGE";
        else if( type == KMEM_GENERIC )       return "KMEM_GENERIC";
        else if( type == KMEM_KCM )           return "KMEM_KCM";
        else if( type == KMEM_VSEG )          return "KMEM_VSEG";
        else if( type == KMEM_DEVICE )        return "KMEM_DEVICE";
        else if( type == KMEM_MAPPER )        return "KMEM_MAPPER";
        else if( type == KMEM_PROCESS )       return "KMEM_PROCESS";
        else if( type == KMEM_CPU_CTX )       return "KMEM_CPU_CTX";
        else if( type == KMEM_FPU_CTX )       return "KMEM_FPU_CTX";
        else if( type == KMEM_BARRIER )       return "KMEM_BARRIER";

        else if( type == KMEM_FATFS_INODE )   return "KMEM_FATFS_INODE";
        else if( type == KMEM_FATFS_CTX )     return "KMEM_FATFS_CTX";
        else if( type == KMEM_DEVFS_INODE )   return "KMEM_DEVFS_INODE";
        else if( type == KMEM_MUTEX )         return "KMEM_MUTEX";
        else if( type == KMEM_VFS_CTX )       return "KMEM_VFS_CTX";
        else if( type == KMEM_VFS_INODE )     return "KMEM_VFS_INODE";
        else if( type == KMEM_VFS_DENTRY )    return "KMEM_VFS_DENTRY";
        else if( type == KMEM_VFS_FILE )      return "KMEM_VFS_FILE";
        else if( type == KMEM_SEM )           return "KMEM_SEM";
        else if( type == KMEM_SEM )           return "KMEM_CONDVAR";

        else if( type == KMEM_512_BYTES )     return "KMEM_512_BYTES";

        else                                  return "undefined";
}

/////////////////////////////////////////////////////////////////////////////////////////////
// This static function dynamically allocates and initializes a specific KCM allocator.
// It uses the KCM allocator embedded in cluster manager, initialized by cluster_init().
/////////////////////////////////////////////////////////////////////////////////////////////
static error_t kmem_create_kcm( uint32_t type )
{
        kcm_t    * kcm;

        assert( ((type > 1) && (type < KMEM_TYPES_NR) ) , __FUNCTION__ , "illegal KCM type" );

        kmem_dmsg("\n[INFO] %s : enters / KCM type %s missing in cluster %x\n",
                  __FUNCTION__ , kmem_type_str( type ) , local_cxy );

        cluster_t * cluster = LOCAL_CLUSTER;

        // allocates memory for the requested KCM allocator
        // from the KCM allocator embedded in cluster descriptor
        kcm = kcm_alloc( &cluster->kcm );

        if( kcm == NULL )
        {
                printk("\n[ERROR] in %s : failed to create KCM type %d in cluster %x\n",
                       __FUNCTION__ , type , local_cxy );
                return ENOMEM;
        }

        // initializes the new KCM allocator
        kcm_init( kcm , type );

        // register it if the KCM pointers Table
        cluster->kcm_tbl[type] = kcm;

        hal_fence();

        kmem_dmsg("\n[INFO] %s : exit / KCM type %s created in cluster %x\n",
                  __FUNCTION__ , kmem_type_str( type ) , local_cxy );

        return 0;
}

/////////////////////////////////////
void * kmem_alloc( kmem_req_t * req )
{
        cluster_t * cluster = LOCAL_CLUSTER;

        uint32_t    type;
        uint32_t    flags;
        uint32_t    size;    // ln( pages ) if PPM / bytes if KHM / unused if KCM
        void      * ptr;     // memory buffer if KHM or KCM / page descriptor if PPM


        type  = req->type;
        size  = req->size;
        flags = req->flags;

        assert( (type < KMEM_TYPES_NR) , __FUNCTION__ , "illegal KMEM request type" );

        kmem_dmsg("\n[INFO] %s : enters in cluster %x for type %s\n",
                      __FUNCTION__ , local_cxy , kmem_type_str( type ) );

        // analyse request type
        if( type ==  KMEM_PAGE )                       // PPM allocator
        {
                // allocate the number of requested pages
                ptr = (void *)ppm_alloc_pages( size );

                // reset page if requested
                if( flags & AF_ZERO ) page_zero( (page_t *)ptr );

                kmem_dmsg("\n[INFO] %s : exit in cluster %x for type %s / page = %x / base = %x\n",
                          __FUNCTION__, local_cxy , kmem_type_str( type ) ,
                          (intptr_t)ptr , (intptr_t)ppm_page2base( ptr ) );
        }
        else if( type == KMEM_GENERIC )                // KHM allocator
        {
                // allocate memory from KHM
                ptr = khm_alloc( &cluster->khm , size );

                // reset memory if requested
                if( flags & AF_ZERO ) memset( ptr , 0 , size );

                kmem_dmsg("\n[INFO] %s : exit in cluster %x for type %s / base = %x / size = %d\n",
                          __FUNCTION__, local_cxy , kmem_type_str( type ) ,
                          (intptr_t)ptr , req->size );
        }
        else                                           // KCM allocator
        {
                // initialize the KCM allocator if not already done
                if( cluster->kcm_tbl[type] == NULL )
                {
                        spinlock_lock( &cluster->kcm_lock );
                        error_t error = kmem_create_kcm( type );
                        spinlock_unlock( &cluster->kcm_lock );
                        if ( error ) return NULL;
                }

                // allocate memory from KCM
                ptr = kcm_alloc( cluster->kcm_tbl[type] );

                // reset memory if requested
                if( flags & AF_ZERO ) memset( ptr , 0 , kmem_type_size( type ) );

                kmem_dmsg("\n[INFO] %s : exit in cluster %x for type %s / base = %x / size = %d\n",
                          __FUNCTION__, local_cxy , kmem_type_str( type ) ,
                          (intptr_t)ptr , kmem_type_size( type ) );
        }

        if( ptr == NULL )
        {
                printk("\n[ERROR] in %s : failed for type %d / size %d in cluster %x\n",
                   __FUNCTION__ , type , size , local_cxy );

                return NULL;
        }

        return ptr;
}

//////////////////////////////////
void kmem_free( kmem_req_t * req )
{
        if( req->type >= KMEM_TYPES_NR )
        {
                printk("\n[PANIC] in %s : illegal request type\n", __FUNCTION__ );
                hal_core_sleep();
        }

        switch(req->type)
        {
                case KMEM_PAGE:
                ppm_free_pages( (page_t*)req->ptr );
                return;

                case KMEM_GENERIC:
                khm_free( req->ptr );
                return;

                default:
                kcm_free( req->ptr );
                return;
        }
}