Changes in uspace/srv/fs/fat/fat.c [ffa2c8ef:efcebe1] in mainline
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uspace/srv/fs/fat/fat.c (modified) (4 diffs)
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uspace/srv/fs/fat/fat.c
rffa2c8ef refcebe1 39 39 #include "fat.h" 40 40 #include <ipc/services.h> 41 #include < ipc/ns.h>41 #include <ns.h> 42 42 #include <async.h> 43 43 #include <errno.h> … … 56 56 }; 57 57 58 fs_reg_t fat_reg;59 60 /**61 * This connection fibril processes VFS requests from VFS.62 *63 * In order to support simultaneous VFS requests, our design is as follows.64 * The connection fibril accepts VFS requests from VFS. If there is only one65 * instance of the fibril, VFS will need to serialize all VFS requests it sends66 * to FAT. To overcome this bottleneck, VFS can send FAT the IPC_M_CONNECT_ME_TO67 * call. In that case, a new connection fibril will be created, which in turn68 * will accept the call. Thus, a new phone will be opened for VFS.69 *70 * There are few issues with this arrangement. First, VFS can run out of71 * available phones. In that case, VFS can close some other phones or use one72 * phone for more serialized requests. Similarily, FAT can refuse to duplicate73 * the connection. VFS should then just make use of already existing phones and74 * route its requests through them. To avoid paying the fibril creation price75 * upon each request, FAT might want to keep the connections open after the76 * request has been completed.77 */78 static void fat_connection(ipc_callid_t iid, ipc_call_t *icall)79 {80 if (iid) {81 /*82 * This only happens for connections opened by83 * IPC_M_CONNECT_ME_TO calls as opposed to callback connections84 * created by IPC_M_CONNECT_TO_ME.85 */86 async_answer_0(iid, EOK);87 }88 89 dprintf(NAME ": connection opened\n");90 while (1) {91 ipc_callid_t callid;92 ipc_call_t call;93 94 callid = async_get_call(&call);95 switch (IPC_GET_IMETHOD(call)) {96 case IPC_M_PHONE_HUNGUP:97 return;98 case VFS_OUT_MOUNTED:99 fat_mounted(callid, &call);100 break;101 case VFS_OUT_MOUNT:102 fat_mount(callid, &call);103 break;104 case VFS_OUT_UNMOUNTED:105 fat_unmounted(callid, &call);106 break;107 case VFS_OUT_UNMOUNT:108 fat_unmount(callid, &call);109 break;110 case VFS_OUT_LOOKUP:111 fat_lookup(callid, &call);112 break;113 case VFS_OUT_READ:114 fat_read(callid, &call);115 break;116 case VFS_OUT_WRITE:117 fat_write(callid, &call);118 break;119 case VFS_OUT_TRUNCATE:120 fat_truncate(callid, &call);121 break;122 case VFS_OUT_STAT:123 fat_stat(callid, &call);124 break;125 case VFS_OUT_CLOSE:126 fat_close(callid, &call);127 break;128 case VFS_OUT_DESTROY:129 fat_destroy(callid, &call);130 break;131 case VFS_OUT_OPEN_NODE:132 fat_open_node(callid, &call);133 break;134 case VFS_OUT_SYNC:135 fat_sync(callid, &call);136 break;137 default:138 async_answer_0(callid, ENOTSUP);139 break;140 }141 }142 }143 144 58 int main(int argc, char **argv) 145 59 { 146 int vfs_phone;147 int rc;148 149 60 printf(NAME ": HelenOS FAT file system server\n"); 150 151 rc = fat_idx_init();61 62 int rc = fat_idx_init(); 152 63 if (rc != EOK) 153 64 goto err; 154 155 vfs_phone = service_connect_blocking(SERVICE_VFS, 0, 0); 156 if (vfs_phone < EOK) { 65 66 async_sess_t *vfs_sess = service_connect_blocking(EXCHANGE_SERIALIZE, 67 SERVICE_VFS, 0, 0); 68 if (!vfs_sess) { 157 69 printf(NAME ": failed to connect to VFS\n"); 158 70 return -1; 159 71 } 160 72 161 rc = fs_register(vfs_ phone, &fat_reg, &fat_vfs_info, fat_connection);73 rc = fs_register(vfs_sess, &fat_vfs_info, &fat_ops, &fat_libfs_ops); 162 74 if (rc != EOK) { 163 75 fat_idx_fini(); … … 168 80 task_retval(0); 169 81 async_manager(); 170 /* not reached */ 82 83 /* Not reached */ 171 84 return 0; 172 85 173 86 err: 174 87 printf(NAME ": Failed to register file system (%d)\n", rc); … … 178 91 /** 179 92 * @} 180 */ 93 */
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