[1] | 1 | /* |
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| 2 | * kmem.c - kernel memory allocator implementation. |
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| 3 | * |
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| 4 | * Authors Ghassan Almaless (2008,2009,2010,2011,2012) |
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| 5 | * Mohamed Lamine Karaoui (2015) |
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| 6 | * Alain Greiner (2016) |
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| 7 | * |
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| 8 | * Copyright (c) UPMC Sorbonne Universites |
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| 9 | * |
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| 10 | * This file is part of ALMOS-MKH. |
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| 11 | * |
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| 12 | * ALMOS-MKH is free software; you can redistribute it and/or modify it |
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| 13 | * under the terms of the GNU General Public License as published by |
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| 14 | * the Free Software Foundation; version 2.0 of the License. |
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| 15 | * |
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| 16 | * ALMOS-MKH is distributed in the hope that it will be useful, but |
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| 17 | * WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 18 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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| 19 | * General Public License for more details. |
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| 20 | * |
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| 21 | * You should have received a copy of the GNU General Public License |
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| 22 | * along with ALMOS-MKH; if not, write to the Free Software Foundation, |
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| 23 | * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA |
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| 24 | */ |
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| 25 | |
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[14] | 26 | #include <kernel_config.h> |
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[1] | 27 | #include <hal_types.h> |
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| 28 | #include <hal_special.h> |
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| 29 | #include <printk.h> |
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| 30 | #include <spinlock.h> |
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| 31 | #include <readlock.h> |
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| 32 | #include <memcpy.h> |
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| 33 | #include <khm.h> |
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| 34 | #include <ppm.h> |
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| 35 | #include <page.h> |
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| 36 | #include <cluster.h> |
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| 37 | #include <thread.h> |
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| 38 | #include <process.h> |
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[7] | 39 | #include <chdev.h> |
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[1] | 40 | #include <mapper.h> |
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| 41 | #include <vfs.h> |
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| 42 | #include <fatfs.h> |
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| 43 | #include <ramfs.h> |
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| 44 | #include <remote_sem.h> |
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| 45 | #include <remote_barrier.h> |
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[23] | 46 | #include <remote_mutex.h> |
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| 47 | #include <remote_condvar.h> |
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[1] | 48 | #include <mapper.h> |
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| 49 | #include <grdxt.h> |
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| 50 | #include <vseg.h> |
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| 51 | #include <kmem.h> |
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| 52 | |
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[7] | 53 | /////////////////////////// |
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| 54 | void kmem_print_kcm_table() |
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| 55 | { |
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[159] | 56 | uint32_t index; |
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| 57 | kcm_t * kcm; |
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| 58 | cluster_t * cluster = LOCAL_CLUSTER; |
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[1] | 59 | |
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[159] | 60 | printk("\n *** KCM Pointers Table ***\n"); |
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[7] | 61 | |
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[159] | 62 | for( index = 0 ; index < KMEM_TYPES_NR ; index++ ) |
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| 63 | { |
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| 64 | kcm = cluster->kcm_tbl[index]; |
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| 65 | if( kcm != NULL ) |
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| 66 | { |
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| 67 | if( index == kcm->type ) |
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| 68 | { |
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| 69 | printk(" - KCM[%s] (at address %x) is OK\n", |
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| 70 | kmem_type_str( index ) , (intptr_t)kcm ); |
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| 71 | } |
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| 72 | else |
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| 73 | { |
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| 74 | printk(" - KCM[%s] (at address %x) is KO : has type %s\n", |
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| 75 | kmem_type_str( index ) , (intptr_t)kcm , kmem_type_str( kcm->type ) ); |
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| 76 | } |
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| 77 | } |
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| 78 | } |
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| 79 | } |
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[7] | 80 | |
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| 81 | ///////////////////////////////////////// |
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| 82 | uint32_t kmem_type_size( uint32_t type ) |
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[1] | 83 | { |
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[188] | 84 | if ( type == KMEM_PAGE ) return CONFIG_PPM_PAGE_SIZE; |
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| 85 | else if( type == KMEM_GENERIC ) return 0; |
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| 86 | else if( type == KMEM_KCM ) return sizeof( kcm_t ); |
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| 87 | else if( type == KMEM_VSEG ) return sizeof( vseg_t ); |
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| 88 | else if( type == KMEM_DEVICE ) return sizeof( chdev_t ); |
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| 89 | else if( type == KMEM_MAPPER ) return sizeof( mapper_t ); |
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| 90 | else if( type == KMEM_PROCESS ) return sizeof( process_t ); |
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| 91 | else if( type == KMEM_CPU_CTX ) return CONFIG_CPU_CTX_SIZE; |
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| 92 | else if( type == KMEM_FPU_CTX ) return CONFIG_FPU_CTX_SIZE; |
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| 93 | else if( type == KMEM_BARRIER ) return sizeof( remote_barrier_t ); |
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[1] | 94 | |
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[188] | 95 | else if( type == KMEM_DEVFS_CTX ) return sizeof( fatfs_ctx_t ); |
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| 96 | else if( type == KMEM_FATFS_CTX ) return sizeof( fatfs_ctx_t ); |
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| 97 | else if( type == KMEM_VFS_CTX ) return sizeof( vfs_ctx_t ); |
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| 98 | else if( type == KMEM_VFS_INODE ) return sizeof( vfs_inode_t ); |
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| 99 | else if( type == KMEM_VFS_DENTRY ) return sizeof( vfs_dentry_t ); |
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| 100 | else if( type == KMEM_VFS_FILE ) return sizeof( vfs_file_t ); |
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| 101 | else if( type == KMEM_SEM ) return sizeof( remote_sem_t ); |
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| 102 | else if( type == KMEM_CONDVAR ) return sizeof( remote_condvar_t ); |
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| 103 | else if( type == KMEM_MUTEX ) return sizeof( remote_mutex_t ); |
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[159] | 104 | else if( type == KMEM_512_BYTES ) return 512; |
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[50] | 105 | |
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[159] | 106 | else return 0; |
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[18] | 107 | } |
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[1] | 108 | |
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[7] | 109 | ///////////////////////////////////// |
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| 110 | char * kmem_type_str( uint32_t type ) |
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| 111 | { |
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[159] | 112 | if ( type == KMEM_PAGE ) return "KMEM_PAGE"; |
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| 113 | else if( type == KMEM_GENERIC ) return "KMEM_GENERIC"; |
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| 114 | else if( type == KMEM_KCM ) return "KMEM_KCM"; |
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| 115 | else if( type == KMEM_VSEG ) return "KMEM_VSEG"; |
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| 116 | else if( type == KMEM_DEVICE ) return "KMEM_DEVICE"; |
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| 117 | else if( type == KMEM_MAPPER ) return "KMEM_MAPPER"; |
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| 118 | else if( type == KMEM_PROCESS ) return "KMEM_PROCESS"; |
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| 119 | else if( type == KMEM_CPU_CTX ) return "KMEM_CPU_CTX"; |
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| 120 | else if( type == KMEM_FPU_CTX ) return "KMEM_FPU_CTX"; |
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| 121 | else if( type == KMEM_BARRIER ) return "KMEM_BARRIER"; |
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[1] | 122 | |
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[188] | 123 | else if( type == KMEM_DEVFS_CTX ) return "KMEM_DEVFS_CTX"; |
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| 124 | else if( type == KMEM_FATFS_CTX ) return "KMEM_FATFS_CTX"; |
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| 125 | else if( type == KMEM_VFS_CTX ) return "KMEM_VFS_CTX"; |
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| 126 | else if( type == KMEM_VFS_INODE ) return "KMEM_VFS_INODE"; |
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| 127 | else if( type == KMEM_VFS_DENTRY ) return "KMEM_VFS_DENTRY"; |
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| 128 | else if( type == KMEM_VFS_FILE ) return "KMEM_VFS_FILE"; |
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| 129 | else if( type == KMEM_SEM ) return "KMEM_SEM"; |
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| 130 | else if( type == KMEM_CONDVAR ) return "KMEM_CONDVAR"; |
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| 131 | else if( type == KMEM_MUTEX ) return "KMEM_MUTEX"; |
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[159] | 132 | else if( type == KMEM_512_BYTES ) return "KMEM_512_BYTES"; |
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[50] | 133 | |
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[159] | 134 | else return "undefined"; |
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[7] | 135 | } |
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| 136 | |
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[1] | 137 | ///////////////////////////////////////////////////////////////////////////////////////////// |
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| 138 | // This static function dynamically allocates and initializes a specific KCM allocator. |
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| 139 | // It uses the KCM allocator embedded in cluster manager, initialized by cluster_init(). |
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| 140 | ///////////////////////////////////////////////////////////////////////////////////////////// |
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[7] | 141 | static error_t kmem_create_kcm( uint32_t type ) |
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[1] | 142 | { |
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| 143 | kcm_t * kcm; |
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| 144 | |
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[159] | 145 | assert( ((type > 1) && (type < KMEM_TYPES_NR) ) , __FUNCTION__ , "illegal KCM type" ); |
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[1] | 146 | |
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[407] | 147 | kmem_dmsg("\n[DBG] %s : enters / KCM type %s missing in cluster %x\n", |
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[159] | 148 | __FUNCTION__ , kmem_type_str( type ) , local_cxy ); |
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[7] | 149 | |
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[159] | 150 | cluster_t * cluster = LOCAL_CLUSTER; |
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[1] | 151 | |
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[180] | 152 | // allocate memory for the requested KCM allocator |
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[159] | 153 | // from the KCM allocator embedded in cluster descriptor |
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[1] | 154 | kcm = kcm_alloc( &cluster->kcm ); |
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[7] | 155 | |
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[1] | 156 | if( kcm == NULL ) |
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[159] | 157 | { |
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[1] | 158 | printk("\n[ERROR] in %s : failed to create KCM type %d in cluster %x\n", |
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[159] | 159 | __FUNCTION__ , type , local_cxy ); |
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| 160 | return ENOMEM; |
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| 161 | } |
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[1] | 162 | |
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[180] | 163 | // initialize the new KCM allocator |
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[7] | 164 | kcm_init( kcm , type ); |
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[1] | 165 | |
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[159] | 166 | // register it if the KCM pointers Table |
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[7] | 167 | cluster->kcm_tbl[type] = kcm; |
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[1] | 168 | |
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[124] | 169 | hal_fence(); |
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[1] | 170 | |
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[407] | 171 | kmem_dmsg("\n[DBG] %s : exit / KCM type %s created in cluster %x\n", |
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[159] | 172 | __FUNCTION__ , kmem_type_str( type ) , local_cxy ); |
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[7] | 173 | |
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[1] | 174 | return 0; |
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[159] | 175 | } |
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[7] | 176 | |
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[1] | 177 | ///////////////////////////////////// |
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| 178 | void * kmem_alloc( kmem_req_t * req ) |
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| 179 | { |
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| 180 | cluster_t * cluster = LOCAL_CLUSTER; |
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| 181 | |
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| 182 | uint32_t type; |
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| 183 | uint32_t flags; |
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[7] | 184 | uint32_t size; // ln( pages ) if PPM / bytes if KHM / unused if KCM |
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| 185 | void * ptr; // memory buffer if KHM or KCM / page descriptor if PPM |
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[1] | 186 | |
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[7] | 187 | |
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[1] | 188 | type = req->type; |
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| 189 | size = req->size; |
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| 190 | flags = req->flags; |
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[18] | 191 | |
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[7] | 192 | assert( (type < KMEM_TYPES_NR) , __FUNCTION__ , "illegal KMEM request type" ); |
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[18] | 193 | |
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[407] | 194 | kmem_dmsg("\n[DBG] %s : enters in cluster %x for type %s\n", |
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[50] | 195 | __FUNCTION__ , local_cxy , kmem_type_str( type ) ); |
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[1] | 196 | |
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[159] | 197 | // analyse request type |
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[180] | 198 | if( type == KMEM_PAGE ) // PPM allocator |
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[159] | 199 | { |
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| 200 | // allocate the number of requested pages |
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[7] | 201 | ptr = (void *)ppm_alloc_pages( size ); |
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[180] | 202 | if( ptr == NULL ) |
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| 203 | { |
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| 204 | printk("\n[ERROR] in %s : failed for type %d / size %d in cluster %x\n", |
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| 205 | __FUNCTION__ , type , size , local_cxy ); |
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| 206 | return NULL; |
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| 207 | } |
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[1] | 208 | |
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[159] | 209 | // reset page if requested |
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[7] | 210 | if( flags & AF_ZERO ) page_zero( (page_t *)ptr ); |
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[18] | 211 | |
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[407] | 212 | kmem_dmsg("\n[DBG] %s : exit in cluster %x for type %s / page = %x / base = %x\n", |
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[159] | 213 | __FUNCTION__, local_cxy , kmem_type_str( type ) , |
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| 214 | (intptr_t)ptr , (intptr_t)ppm_page2base( ptr ) ); |
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[1] | 215 | } |
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[159] | 216 | else if( type == KMEM_GENERIC ) // KHM allocator |
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| 217 | { |
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| 218 | // allocate memory from KHM |
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[1] | 219 | ptr = khm_alloc( &cluster->khm , size ); |
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[180] | 220 | if( ptr == NULL ) |
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| 221 | { |
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| 222 | printk("\n[ERROR] in %s : failed for type %d / size %d in cluster %x\n", |
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| 223 | __FUNCTION__ , type , size , local_cxy ); |
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| 224 | return NULL; |
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| 225 | } |
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[1] | 226 | |
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[159] | 227 | // reset memory if requested |
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[1] | 228 | if( flags & AF_ZERO ) memset( ptr , 0 , size ); |
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[7] | 229 | |
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[407] | 230 | kmem_dmsg("\n[DBG] %s : exit in cluster %x for type %s / base = %x / size = %d\n", |
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[159] | 231 | __FUNCTION__, local_cxy , kmem_type_str( type ) , |
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| 232 | (intptr_t)ptr , req->size ); |
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[1] | 233 | } |
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[159] | 234 | else // KCM allocator |
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| 235 | { |
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| 236 | // initialize the KCM allocator if not already done |
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| 237 | if( cluster->kcm_tbl[type] == NULL ) |
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| 238 | { |
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| 239 | spinlock_lock( &cluster->kcm_lock ); |
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[7] | 240 | error_t error = kmem_create_kcm( type ); |
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[159] | 241 | spinlock_unlock( &cluster->kcm_lock ); |
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| 242 | if ( error ) return NULL; |
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| 243 | } |
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[1] | 244 | |
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[159] | 245 | // allocate memory from KCM |
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| 246 | ptr = kcm_alloc( cluster->kcm_tbl[type] ); |
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[180] | 247 | if( ptr == NULL ) |
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| 248 | { |
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| 249 | printk("\n[ERROR] in %s : failed for type %d / size %d in cluster %x\n", |
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| 250 | __FUNCTION__ , type , size , local_cxy ); |
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| 251 | return NULL; |
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| 252 | } |
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[7] | 253 | |
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[159] | 254 | // reset memory if requested |
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[7] | 255 | if( flags & AF_ZERO ) memset( ptr , 0 , kmem_type_size( type ) ); |
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| 256 | |
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[407] | 257 | kmem_dmsg("\n[DBG] %s : exit in cluster %x for type %s / base = %x / size = %d\n", |
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[159] | 258 | __FUNCTION__, local_cxy , kmem_type_str( type ) , |
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| 259 | (intptr_t)ptr , kmem_type_size( type ) ); |
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[1] | 260 | } |
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| 261 | |
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| 262 | return ptr; |
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[159] | 263 | } |
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[1] | 264 | |
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| 265 | ////////////////////////////////// |
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| 266 | void kmem_free( kmem_req_t * req ) |
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| 267 | { |
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| 268 | if( req->type >= KMEM_TYPES_NR ) |
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[159] | 269 | { |
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[394] | 270 | panic("illegal request type"); |
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[159] | 271 | } |
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[18] | 272 | |
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[1] | 273 | switch(req->type) |
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| 274 | { |
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[159] | 275 | case KMEM_PAGE: |
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[181] | 276 | ppm_free_pages( (page_t*)req->ptr ); |
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| 277 | return; |
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[1] | 278 | |
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[159] | 279 | case KMEM_GENERIC: |
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[181] | 280 | khm_free( req->ptr ); |
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| 281 | return; |
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[1] | 282 | |
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[159] | 283 | default: |
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[181] | 284 | kcm_free( req->ptr ); |
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| 285 | return; |
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[1] | 286 | } |
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| 287 | } |
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| 288 | |
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