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//========================================================================== // // testfs.c // // Test file system // //========================================================================== //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // // eCos 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; either version 2 or (at your option) any later version. // // eCos 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 eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //========================================================================== //#####DESCRIPTIONBEGIN#### // // Author(s): nickg // Contributors: nickg // Date: 2000-05-25 // Purpose: Test file system // Description: This is a very simple implementation of a RAM file system. // This implementation is not "industrial strength" or suitable // for production use, it is too wasteful of both memory and time. // Its primary purpose is to support testing of the fileio // infrastructure and API. It can, however, serve as a model // and source of code fragments for the implementation // of further filesystems. // // //####DESCRIPTIONEND#### // //========================================================================== #include <pkgconf/hal.h> #include <pkgconf/kernel.h> #include <pkgconf/io_fileio.h> #include <cyg/kernel/ktypes.h> // base kernel types #include <cyg/infra/cyg_trac.h> // tracing macros #include <cyg/infra/cyg_ass.h> // assertion macros #include <unistd.h> #include <fcntl.h> #include <sys/stat.h> #include <errno.h> #include <dirent.h> #include <cyg/fileio/fileio.h> #include <cyg/kernel/kapi.h> #include <cyg/infra/diag.h> //========================================================================== // Configuration parameters #define TESTFS_NFILE 10 // Max number of files/directories #define TESTFS_NBLOCK 20 // Number of data blocks available #define TESTFS_BLOCKSIZE 128 // Bytes stored per block #define TESTFS_FILEBLOCKS 8 // Max blocks per file #define TESTFS_NAMESIZE 32 // Length of file names in bytes // Maximum file size is blocksize*blocks #define TESTFS_FILESIZE_MAX (TESTFS_BLOCKSIZE*TESTFS_FILEBLOCKS) //========================================================================== // Data structures struct testfs_node; typedef struct testfs_node testfs_node; struct testfs_block; typedef struct testfs_block testfs_block; struct testfs_node { testfs_node *next; // next node in list testfs_node *parent; // Back pointer to parent int refcnt; // reference count char name[TESTFS_NAMESIZE]; // file name struct stat status; // status data union { struct { testfs_block *data[TESTFS_FILEBLOCKS]; // array of blocks } file; struct { testfs_node *nodes[TESTFS_FILEBLOCKS]; // array of nodes } dir; } u; }; struct testfs_block { union { testfs_block *next; // next block in free list testfs_node *file; // back pointer to file } u; off_t pos; // position in file of first byte size_t size; // number of bytes in buffer char data[TESTFS_BLOCKSIZE]; // the data }; //========================================================================== // Local data // Array of nodes static testfs_node node[TESTFS_NFILE]; // node free list. static testfs_node *free_node = NULL; // Array of data blocks static testfs_block block[TESTFS_NBLOCK]; // block free list. static testfs_block *free_block = NULL; // Init flag cyg_bool testfs_initialized = false; //========================================================================== // Forward definitions // Filesystem operations static int testfs_mount ( cyg_fstab_entry *fste, cyg_mtab_entry *mte ); static int testfs_umount ( cyg_mtab_entry *mte ); static int testfs_open ( cyg_mtab_entry *mte, cyg_dir dir, const char *name, int mode, cyg_file *fte ); static int testfs_unlink ( cyg_mtab_entry *mte, cyg_dir dir, const char *name ); static int testfs_mkdir ( cyg_mtab_entry *mte, cyg_dir dir, const char *name ); static int testfs_rmdir ( cyg_mtab_entry *mte, cyg_dir dir, const char *name ); static int testfs_rename ( cyg_mtab_entry *mte, cyg_dir dir1, const char *name1, cyg_dir dir2, const char *name2 ); static int testfs_link ( cyg_mtab_entry *mte, cyg_dir dir1, const char *name1, cyg_dir dir2, const char *name2, int type ); static int testfs_opendir ( cyg_mtab_entry *mte, cyg_dir dir, const char *name, cyg_file *fte ); static int testfs_chdir ( cyg_mtab_entry *mte, cyg_dir dir, const char *name, cyg_dir *dir_out ); static int testfs_stat ( cyg_mtab_entry *mte, cyg_dir dir, const char *name, struct stat *buf); static int testfs_getinfo ( cyg_mtab_entry *mte, cyg_dir dir, const char *name, int key, void *buf, int len ); static int testfs_setinfo ( cyg_mtab_entry *mte, cyg_dir dir, const char *name, int key, void *buf, int len ); // File operations static int testfs_fo_read (struct CYG_FILE_TAG *fp, struct CYG_UIO_TAG *uio); static int testfs_fo_write (struct CYG_FILE_TAG *fp, struct CYG_UIO_TAG *uio); static int testfs_fo_lseek (struct CYG_FILE_TAG *fp, off_t *pos, int whence ); static int testfs_fo_ioctl (struct CYG_FILE_TAG *fp, CYG_ADDRWORD com, CYG_ADDRWORD data); //static int testfs_fo_select (struct CYG_FILE_TAG *fp, int which, CYG_ADDRWORD info); static int testfs_fo_fsync (struct CYG_FILE_TAG *fp, int mode ); static int testfs_fo_close (struct CYG_FILE_TAG *fp); static int testfs_fo_fstat (struct CYG_FILE_TAG *fp, struct stat *buf ); static int testfs_fo_getinfo (struct CYG_FILE_TAG *fp, int key, void *buf, int len ); static int testfs_fo_setinfo (struct CYG_FILE_TAG *fp, int key, void *buf, int len ); // Directory operations static int testfs_fo_dirread (struct CYG_FILE_TAG *fp, struct CYG_UIO_TAG *uio); static int testfs_fo_dirlseek (struct CYG_FILE_TAG *fp, off_t *pos, int whence ); //========================================================================== // Filesystem table entries FSTAB_ENTRY( testfs_fste, "testfs", 0, CYG_SYNCMODE_FILE_FILESYSTEM|CYG_SYNCMODE_IO_FILESYSTEM, testfs_mount, testfs_umount, testfs_open, testfs_unlink, testfs_mkdir, testfs_rmdir, testfs_rename, testfs_link, testfs_opendir, testfs_chdir, testfs_stat, testfs_getinfo, testfs_setinfo); MTAB_ENTRY( testfs_mte1, "/", "testfs", "", 0); #if 0 MTAB_ENTRY( testfs_mte2, "/ram", "testfs", "", 0); #endif static cyg_fileops testfs_fileops = { testfs_fo_read, testfs_fo_write, testfs_fo_lseek, testfs_fo_ioctl, cyg_fileio_seltrue, testfs_fo_fsync, testfs_fo_close, testfs_fo_fstat, testfs_fo_getinfo, testfs_fo_setinfo }; static cyg_fileops testfs_dirops = { testfs_fo_dirread, (cyg_fileop_write *)cyg_fileio_enosys, testfs_fo_dirlseek, (cyg_fileop_ioctl *)cyg_fileio_enosys, cyg_fileio_seltrue, (cyg_fileop_fsync *)cyg_fileio_enosys, testfs_fo_close, (cyg_fileop_fstat *)cyg_fileio_enosys, (cyg_fileop_getinfo *)cyg_fileio_enosys, (cyg_fileop_setinfo *)cyg_fileio_enosys }; //========================================================================== // Support routines // ------------------------------------------------------------------------- // Local strcmp() and strcpy() static int strcmp( const char *s1, const char *s2 ) { while( *s1 == *s2 && *s1 != '\0' && *s2 != '\0' ) s1++, s2++; return (*s2)-(*s1); } static char *strcpy( char *s1, const char *s2 ) { char *s = s1; while( (*s1++ = *s2++) != 0); return s; } // ------------------------------------------------------------------------- // Follow a path through the directory structure static int testfs_find( testfs_node *dir, // dir to start search in const char *path, // path to follow testfs_node **found, // return node found testfs_node **parent, // return last dir searched char *name, // name fragment buffer cyg_bool *lastp) // last name in path ? { testfs_node *nd = dir; *lastp = false; *found = NULL; while( *path != '\0' ) { const char *p = path; char *n = name; testfs_node *nd1; int i; // check nd is a directory if( !S_ISDIR(nd->status.st_mode) ) return ENOTDIR; // Isolate the next element of the path name. while( *p != '\0' && *p != '/' && (n-&name[0]) < TESTFS_NAMESIZE) *n++ = *p++; if( (n-&name[0]) >= TESTFS_NAMESIZE ) return ENAMETOOLONG; // Step path on past the separator // If this is the last name element in the path, // set *lastp to indicate this. if( *(path=p) == '/' ) path++; else *lastp = true; // teminate name *n = '\0'; // name now contains the next path element, search the node // in nd for it. *parent = nd; nd1 = NULL; for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) { testfs_node *n = nd->u.dir.nodes[i]; if( n == NULL ) continue; if( strcmp( name, n->name ) == 0 ) { nd1 = n; break; } } if( nd1 == NULL ) return ENOENT; nd = nd1; } // Return what we have found *found = nd; return ENOERR; } // ------------------------------------------------------------------------- // Get current time since epoch static time_t testfs_time(void) { // FIXME: !!!!Temporary!!!! return cyg_current_time(); } // ------------------------------------------------------------------------- static int testfs_delnode( testfs_node *nd ) { testfs_node *parent; int i; // Non-unitary ref count means this node is either open // or is a dir with entries in it. if( nd->refcnt > 1 ) return EBUSY; // Remove from parent's node list. parent = nd->parent; for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) if( parent->u.dir.nodes[i] == nd ) { parent->u.dir.nodes[i] = NULL; break; } parent->refcnt--; if( S_ISREG(nd->status.st_mode) ) { // for a file, return blocks to free list for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) { testfs_block *b = nd->u.file.data[i]; if( b != NULL ) { b->u.next = free_block; b->pos = -1; free_block = b; } } } // and finally return nd to free node list nd->next = free_node; nd->refcnt = -1; free_node = nd; return ENOERR; } //========================================================================== // Filesystem operations // ------------------------------------------------------------------------- static int testfs_mount ( cyg_fstab_entry *fste, cyg_mtab_entry *mte ) { testfs_node *root; int i; if( !testfs_initialized ) { int i; for( i = 0; i < TESTFS_NFILE; i++ ) { node[i].next = free_node; node[i].refcnt = -1; free_node = &node[i]; } for( i = 0; i < TESTFS_NBLOCK; i++ ) { block[i].u.next = free_block; block[i].pos = -1; free_block = &block[i]; } testfs_initialized = true; } // Allocate a node to be the root of this filesystem and // initialize it. root = free_node; if( root == NULL ) return ENOSPC; free_node = root->next; root->next = root; // form circular list root->parent = root; // I'm my own parent! root->refcnt = 1; // don't want to ever lose root strcpy( root->name, "root"); root->status.st_mode = __stat_mode_DIR; root->status.st_ino = root-&node[0]; root->status.st_dev = 0; root->status.st_nlink = 1; root->status.st_uid = 0; root->status.st_gid = 0; root->status.st_size = 0; root->status.st_atime = testfs_time(); root->status.st_mtime = testfs_time(); root->status.st_ctime = testfs_time(); for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) root->u.dir.nodes[i] = NULL; mte->root = (cyg_dir)root; return 0; } // ------------------------------------------------------------------------- static int testfs_umount ( cyg_mtab_entry *mte ) { testfs_node *root = (testfs_node *)mte->root; // Non-empty filesystem, do not unmount if( root->refcnt != 1 ) return EBUSY; // Otherwise just return it to the free pool root->next = free_node; root->refcnt = -1; free_node = root; // Clear root pointer mte->root = CYG_DIR_NULL; // That's all folks. return ENOERR; } // ------------------------------------------------------------------------- static int testfs_open ( cyg_mtab_entry *mte, cyg_dir dir, const char *path, int mode, cyg_file *file ) { testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( lastp && err == ENOENT && (mode & O_CREAT) ) { int i; // No node there, if the O_CREAT bit is set then we must // create a new one. The parent and name results will have been filled // in, so we know where to put it. // first check that there is space for it for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) if( parent->u.dir.nodes[i] == NULL ) break; if( i == TESTFS_FILEBLOCKS ) return ENOSPC; // Allocate a new node nd = free_node; if( nd == NULL ) return ENOSPC; free_node = nd->next; // Add to directory list parent->u.dir.nodes[i] = nd; parent->refcnt++; // Fill in details nd->parent = parent; nd->refcnt = 1; // 1 for directory reference strcpy( nd->name, name); nd->status.st_mode = __stat_mode_REG; nd->status.st_ino = nd-&node[0]; nd->status.st_dev = 0; nd->status.st_nlink = 1; nd->status.st_uid = 0; nd->status.st_gid = 0; nd->status.st_size = 0; nd->status.st_atime = testfs_time(); nd->status.st_mtime = testfs_time(); nd->status.st_ctime = testfs_time(); for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) nd->u.file.data[i] = NULL; err = ENOERR; } if( err == ENOERR && (mode & O_TRUNC ) ) { // Clean out any blocks in the file... int i; for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) { testfs_block *b = nd->u.file.data[i]; if( b != NULL ) { b->u.next = free_block; b->pos = -1; free_block = b; nd->u.file.data[i] = NULL; } } nd->status.st_size = 0; } if( err != ENOERR ) return err; if( S_ISDIR(nd->status.st_mode) ) return EISDIR; nd->refcnt++; // Count successful open as a ref // Initialize the file object file->f_flag |= mode & CYG_FILE_MODE_MASK; file->f_type = CYG_FILE_TYPE_FILE; file->f_ops = &testfs_fileops; file->f_offset = 0; file->f_data = (CYG_ADDRWORD)nd; file->f_xops = 0; return ENOERR; } // ------------------------------------------------------------------------- static int testfs_unlink ( cyg_mtab_entry *mte, cyg_dir dir, const char *path ) { testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( err != ENOERR ) return err; // Cannot unlink directories, use rmdir() instead if( S_ISDIR(nd->status.st_mode) ) return EPERM; err = testfs_delnode( nd ); return err; } // ------------------------------------------------------------------------- static int testfs_mkdir ( cyg_mtab_entry *mte, cyg_dir dir, const char *path ) { testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( lastp && err == ENOENT ) { int i; // No node there, create a new one. The parent and name // results will have been filled in, so we know where to put // it. // first check that there is space for it for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) if( parent->u.dir.nodes[i] == NULL ) break; if( i == TESTFS_FILEBLOCKS ) return ENOSPC; // Allocate a new node nd = free_node; if( nd == NULL ) return ENOSPC; free_node = nd->next; // Add to directory list parent->u.dir.nodes[i] = nd; parent->refcnt++; // Fill in details nd->parent = parent; nd->refcnt = 1; // 1 for directory reference strcpy( nd->name, name); nd->status.st_mode = __stat_mode_DIR; nd->status.st_ino = nd-&node[0]; nd->status.st_dev = 0; nd->status.st_nlink = 1; nd->status.st_uid = 0; nd->status.st_gid = 0; nd->status.st_size = 0; nd->status.st_atime = testfs_time(); nd->status.st_mtime = testfs_time(); nd->status.st_ctime = testfs_time(); for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) nd->u.dir.nodes[i] = NULL; err = ENOERR; } return err; } // ------------------------------------------------------------------------- static int testfs_rmdir ( cyg_mtab_entry *mte, cyg_dir dir, const char *path ) { testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( err != ENOERR ) return err; // Check that it is a directory if( !S_ISDIR(nd->status.st_mode) ) return EPERM; err = testfs_delnode( nd ); return err; } // ------------------------------------------------------------------------- static int testfs_rename ( cyg_mtab_entry *mte, cyg_dir dir1, const char *path1, cyg_dir dir2, const char *path2 ) { testfs_node *nd1, *parent1; testfs_node *nd2, *parent2; int err; char name1[TESTFS_NAMESIZE]; char name2[TESTFS_NAMESIZE]; cyg_bool lastp; int i,j; err = testfs_find( (testfs_node *)dir1, path1, &nd1, &parent1, name1, &lastp ); if( err != ENOERR ) return err; err = testfs_find( (testfs_node *)dir2, path2, &nd2, &parent2, name2, &lastp ); // Allow through renames to non-existent objects. if( lastp && err == ENOENT ) err = ENOERR; if( err != ENOERR ) return err; // Null rename, just return if( nd1 == nd2 ) return ENOERR; // First deal with any node that is at the destination if( nd2 ) { // Check that we are renaming like-for-like if( !S_ISDIR(nd1->status.st_mode) && S_ISDIR(nd2->status.st_mode) ) return EISDIR; if( S_ISDIR(nd1->status.st_mode) && !S_ISDIR(nd2->status.st_mode) ) return ENOTDIR; // Now delete the destination node. err = testfs_delnode( nd2 ); if( err != ENOERR ) return err; } // Now we know that there is no clashing node at the destination. // Move the node over and change its name. // first check that there is space for it for( i = 0; i < TESTFS_FILEBLOCKS; i++ ) if( parent2->u.dir.nodes[i] == NULL ) break; if( i == TESTFS_FILEBLOCKS ) return ENOSPC; // Now remove node from old parent. for( j = 0; j < TESTFS_FILEBLOCKS; j++ ) if( parent1->u.dir.nodes[j] == nd1 ) { parent1->u.dir.nodes[j] = NULL; break; } parent1->refcnt--; // Add to directory list parent2->u.dir.nodes[i] = nd1; parent2->refcnt++; nd1->parent = parent2; // And give it a new name. strcpy( nd1->name, name2 ); return err; } // ------------------------------------------------------------------------- static int testfs_link ( cyg_mtab_entry *mte, cyg_dir dir1, const char *path1, cyg_dir dir2, const char *path2, int type ) { // The data structures of this file system do not support the // creation of links. return ENOSYS; } // ------------------------------------------------------------------------- static int testfs_opendir ( cyg_mtab_entry *mte, cyg_dir dir, const char *path, cyg_file *file ) { testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( err != ENOERR ) return err; if( !S_ISDIR(nd->status.st_mode) ) return ENOTDIR; nd->refcnt++; // Count successful open as a ref // Initialize the file object file->f_type = CYG_FILE_TYPE_FILE; file->f_ops = &testfs_dirops; file->f_offset = 0; file->f_data = (CYG_ADDRWORD)nd; file->f_xops = 0; return ENOERR; } // ------------------------------------------------------------------------- static int testfs_chdir ( cyg_mtab_entry *mte, cyg_dir dir, const char *path, cyg_dir *dir_out ) { if( dir_out != NULL ) { // This is a request to get a new directory pointer in // *dir_out. testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( err != ENOERR ) return err; if( !S_ISDIR(nd->status.st_mode) ) return ENOTDIR; // Increment ref count to keep this directory in existent // while it is the current cdir. nd->refcnt++; // Pass it out *dir_out = (cyg_dir)nd; } else { // If no output dir is required, this means that the mte and // dir arguments are the current cdir setting and we should // forget this fact. testfs_node *nd = (testfs_node *)dir; // Just decrement reference count. nd->refcnt--; } return ENOERR; } // ------------------------------------------------------------------------- static int testfs_stat ( cyg_mtab_entry *mte, cyg_dir dir, const char *path, struct stat *buf) { testfs_node *nd, *parent; int err; char name[TESTFS_NAMESIZE]; cyg_bool lastp; err = testfs_find( (testfs_node *)dir, path, &nd, &parent, name, &lastp ); if( err != ENOERR ) return err; *buf = nd->status; return err; } // ------------------------------------------------------------------------- static int testfs_getinfo ( cyg_mtab_entry *mte, cyg_dir dir, const char *path, int key, void *buf, int len ) { return ENOSYS; } // ------------------------------------------------------------------------- static int testfs_setinfo ( cyg_mtab_entry *mte, cyg_dir dir, const char *path, int key, void *buf, int len ) { return ENOSYS; } //========================================================================== // File operations // ------------------------------------------------------------------------- static int testfs_fo_read (struct CYG_FILE_TAG *fp, struct CYG_UIO_TAG *uio) { testfs_node *nd = (testfs_node *)fp->f_data; int i; off_t pos = fp->f_offset; for( i = 0; i < uio->uio_iovcnt; i++ ) { cyg_iovec *iov = &uio->uio_iov[i]; char *buf = (char *)iov->iov_base; off_t len = iov->iov_len; while( len > 0 && pos < nd->status.st_size ) { testfs_block *b = nd->u.file.data[pos/TESTFS_BLOCKSIZE]; off_t l = len; off_t bpos = pos%TESTFS_BLOCKSIZE; // If there is no block in that pos, we have reached // the end of the file. if( b == NULL ) return ENOERR; // adjust size to this block if( l > (b->size-bpos) ) l = (b->size-bpos); // copy data out memcpy( buf, &b->data[bpos], l ); uio->uio_resid -= l; len -= l; buf += l; pos += l; // keep offset up to date incase of errors fp->f_offset = pos; } } return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_write (struct CYG_FILE_TAG *fp, struct CYG_UIO_TAG *uio) { testfs_node *nd = (testfs_node *)fp->f_data; int i; off_t pos = fp->f_offset; // Check we are not at end of allowed max file size if( pos >= TESTFS_FILESIZE_MAX ) return EFBIG; // Check that pos is within current file size, or at the very end. if( pos < 0 || pos > nd->status.st_size ) return EINVAL; // Now loop over the iovecs until they are all done, or // we get an error. for( i = 0; i < uio->uio_iovcnt; i++ ) { cyg_iovec *iov = &uio->uio_iov[i]; char *buf = (char *)iov->iov_base; off_t len = iov->iov_len; while( len > 0 ) { testfs_block *b = nd->u.file.data[pos/TESTFS_BLOCKSIZE]; off_t l = len; off_t bpos = pos%TESTFS_BLOCKSIZE; // If there is no block in that pos, allocate one // and initialize it if( b == NULL ) { b = free_block; if( b == NULL ) return ENOSPC; free_block = b->u.next; nd->u.file.data[pos/TESTFS_BLOCKSIZE] = b; b->u.file = nd; b->pos = pos; b->size = 0; } // adjust size to this block if( l > (TESTFS_BLOCKSIZE-bpos) ) l = (TESTFS_BLOCKSIZE-bpos); // copy data in memcpy( &b->data[bpos], buf, l ); // adjust buffer info if( b->size < bpos+l ) b->size = bpos+l; uio->uio_resid -= l; len -= l; buf += l; pos += l; // keep node size and file offset up to date //in case of an error. if( pos > nd->status.st_size ) nd->status.st_size = pos; fp->f_offset = pos; if( pos >= TESTFS_FILESIZE_MAX ) return EFBIG; } } return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_lseek (struct CYG_FILE_TAG *fp, off_t *apos, int whence ) { testfs_node *nd = (testfs_node *)fp->f_data; off_t pos = *apos; switch( whence ) { case SEEK_SET: // we are already where we want to be. break; case SEEK_CUR: pos += fp->f_offset; break; case SEEK_END: pos += nd->status.st_size; break; default: return EINVAL; } // Check that pos is within current file size, or at the very end. if( pos < 0 || pos > nd->status.st_size ) return EINVAL; // All OK, set fp offset. *apos = fp->f_offset = pos; return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_ioctl (struct CYG_FILE_TAG *fp, CYG_ADDRWORD com, CYG_ADDRWORD data) { return ENOSYS; } // ------------------------------------------------------------------------- static int testfs_fo_fsync (struct CYG_FILE_TAG *fp, int mode ) { // Nothing to do return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_close (struct CYG_FILE_TAG *fp) { testfs_node *nd = (testfs_node *)fp->f_data; nd->refcnt--; // remove open count fp->f_data = 0; // clear data pointer return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_fstat (struct CYG_FILE_TAG *fp, struct stat *buf ) { testfs_node *nd = (testfs_node *)fp->f_data; *buf = nd->status; return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_getinfo (struct CYG_FILE_TAG *fp, int key, void *buf, int len ) { return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_setinfo (struct CYG_FILE_TAG *fp, int key, void *buf, int len ) { return ENOERR; } //========================================================================== // Directory operations static int testfs_fo_dirread (struct CYG_FILE_TAG *fp, struct CYG_UIO_TAG *uio) { testfs_node *nd = (testfs_node *)fp->f_data; off_t pos = fp->f_offset; cyg_iovec *iov = &uio->uio_iov[0]; char *buf = (char *)iov->iov_base; off_t len = iov->iov_len; // End of directory if( pos >= TESTFS_FILEBLOCKS ) return ENOERR; if( len < sizeof(struct dirent) ) return EINVAL; for( ; pos < TESTFS_FILEBLOCKS; pos++ ) if( nd->u.dir.nodes[pos] != NULL ) { struct dirent *ent = (struct dirent *)buf; strcpy( ent->d_name, nd->u.dir.nodes[pos]->name ); uio->uio_resid -= sizeof(struct dirent); break; } fp->f_offset = pos+1; return ENOERR; } // ------------------------------------------------------------------------- static int testfs_fo_dirlseek (struct CYG_FILE_TAG *fp, off_t *pos, int whence ) { if( whence != SEEK_SET || *pos != 0) return EINVAL; *pos = fp->f_offset = 0; return ENOERR; } //========================================================================== // Filesystem dump // Dumps out the node and block arrays in a readable format, and does // a little consistency checking as it goes. void testfs_dump(void) { int errors = 0; int i; char *indent = "\n |"; diag_printf("Nodes:\n"); for( i = 0; i < TESTFS_NFILE; i++ ) { testfs_node *nd = &node[i]; diag_printf("%3d : ",i); if( nd->refcnt < 0 ) diag_printf("<free>"); else if( !S_ISDIR(nd->status.st_mode) ) { // Regular file int j; diag_printf("f %8s %4d |",nd->name,nd->status.st_size); for( j = 0; j < TESTFS_FILEBLOCKS; j++ ) { testfs_block *b = nd->u.file.data[j]; if( b != NULL ) { if( j > 0 && (j%4) == 0 ) diag_printf(indent); diag_printf(" %3d[%3d,%3d]",b-block,b->pos,b->size); if( b->u.file != nd ) { errors++; diag_printf("!"); } } } } else { // Directory int j; int rc = 1; diag_printf("d %8s |",nd->name); for( j = 0; j < TESTFS_FILEBLOCKS; j++ ) { testfs_node *n = nd->u.dir.nodes[j]; if( n != NULL ) { if( j > 0 && (j%4) == 0 ) diag_printf(indent); diag_printf(" %3d[%7s]",n-node,n->name); rc++; } } if( nd->refcnt != rc ) { diag_printf("%s refcount is %d should be %d",indent,nd->refcnt,rc); if( nd->refcnt == rc+1 ) diag_printf(" (but may be current dir)"); } } diag_printf("\n"); } diag_printf("Blocks:\n"); for( i = 0; i < TESTFS_NBLOCK; i++ ) { testfs_block *b = &block[i]; diag_printf("%3d :",i); if( b->pos == -1 ) diag_printf(" <free>"); else { int j; testfs_node *nd = b->u.file; diag_printf(" %3d %3d %d[%7s]",b->pos,b->size,nd-node,nd->name); for( j = 0; j < TESTFS_FILEBLOCKS; j++ ) { if( nd->u.file.data[j] == b ) break; } if( j == TESTFS_FILEBLOCKS ) { errors++; diag_printf(" block not in file!"); } } diag_printf("\n"); } if( errors != 0 ) diag_printf("%d errors detected\n",errors); } // ------------------------------------------------------------------------- // EOF testfs.c