/* Unix SMB/CIFS implementation. functions to calculate the free disk space Copyright (C) Andrew Tridgell 1998 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; either version 3 of the License, or (at your option) any later version. 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, see <http://www.gnu.org/licenses/>. */ #include "includes.h" /**************************************************************************** Normalise for DOS usage. ****************************************************************************/ static void disk_norm(bool small_query, uint64_t *bsize,uint64_t *dfree,uint64_t *dsize) { /* check if the disk is beyond the max disk size */ uint64_t maxdisksize = lp_maxdisksize(); if (maxdisksize) { /* convert to blocks - and don't overflow */ maxdisksize = ((maxdisksize*1024)/(*bsize))*1024; if (*dsize > maxdisksize) *dsize = maxdisksize; if (*dfree > maxdisksize) *dfree = maxdisksize-1; /* the -1 should stop applications getting div by 0 errors */ } if(small_query) { while (*dfree > WORDMAX || *dsize > WORDMAX || *bsize < 512) { *dfree /= 2; *dsize /= 2; *bsize *= 2; /* * Force max to fit in 16 bit fields. */ if (*bsize > (WORDMAX*512)) { *bsize = (WORDMAX*512); if (*dsize > WORDMAX) *dsize = WORDMAX; if (*dfree > WORDMAX) *dfree = WORDMAX; break; } } } } /**************************************************************************** Return number of 1K blocks available on a path and total number. ****************************************************************************/ uint64_t sys_disk_free(connection_struct *conn, const char *path, bool small_query, uint64_t *bsize,uint64_t *dfree,uint64_t *dsize) { uint64_t dfree_retval; uint64_t dfree_q = 0; uint64_t bsize_q = 0; uint64_t dsize_q = 0; const char *dfree_command; (*dfree) = (*dsize) = 0; (*bsize) = 512; /* * If external disk calculation specified, use it. */ dfree_command = lp_dfree_command(SNUM(conn)); if (dfree_command && *dfree_command) { const char *p; char **lines = NULL; char *syscmd = NULL; syscmd = talloc_asprintf(talloc_tos(), "%s %s", dfree_command, path); if (!syscmd) { return (uint64_t)-1; } DEBUG (3, ("disk_free: Running command %s\n", syscmd)); lines = file_lines_pload(syscmd, NULL); if (lines) { char *line = lines[0]; DEBUG (3, ("Read input from dfree, \"%s\"\n", line)); *dsize = STR_TO_SMB_BIG_UINT(line, &p); while (p && *p && isspace(*p)) p++; if (p && *p) *dfree = STR_TO_SMB_BIG_UINT(p, &p); while (p && *p && isspace(*p)) p++; if (p && *p) *bsize = STR_TO_SMB_BIG_UINT(p, NULL); else *bsize = 1024; TALLOC_FREE(lines); DEBUG (3, ("Parsed output of dfree, dsize=%u, dfree=%u, bsize=%u\n", (unsigned int)*dsize, (unsigned int)*dfree, (unsigned int)*bsize)); if (!*dsize) *dsize = 2048; if (!*dfree) *dfree = 1024; } else { DEBUG (0, ("disk_free: sys_popen() failed for command %s. Error was : %s\n", syscmd, strerror(errno) )); if (sys_fsusage(path, dfree, dsize) != 0) { DEBUG (0, ("disk_free: sys_fsusage() failed. Error was : %s\n", strerror(errno) )); return (uint64_t)-1; } } } else { if (sys_fsusage(path, dfree, dsize) != 0) { DEBUG (0, ("disk_free: sys_fsusage() failed. Error was : %s\n", strerror(errno) )); return (uint64_t)-1; } } if (disk_quotas(path, &bsize_q, &dfree_q, &dsize_q)) { (*bsize) = bsize_q; (*dfree) = MIN(*dfree,dfree_q); (*dsize) = MIN(*dsize,dsize_q); } /* FIXME : Any reason for this assumption ? */ if (*bsize < 256) { DEBUG(5,("disk_free:Warning: bsize == %d < 256 . Changing to assumed correct bsize = 512\n",(int)*bsize)); *bsize = 512; } if ((*dsize)<1) { static bool done = false; if (!done) { DEBUG(0,("WARNING: dfree is broken on this system\n")); done=true; } *dsize = 20*1024*1024/(*bsize); *dfree = MAX(1,*dfree); } disk_norm(small_query,bsize,dfree,dsize); if ((*bsize) < 1024) { dfree_retval = (*dfree)/(1024/(*bsize)); } else { dfree_retval = ((*bsize)/1024)*(*dfree); } return(dfree_retval); } /**************************************************************************** Potentially returned cached dfree info. ****************************************************************************/ uint64_t get_dfree_info(connection_struct *conn, const char *path, bool small_query, uint64_t *bsize, uint64_t *dfree, uint64_t *dsize) { int dfree_cache_time = lp_dfree_cache_time(SNUM(conn)); struct dfree_cached_info *dfc = conn->dfree_info; uint64_t dfree_ret; if (!dfree_cache_time) { return SMB_VFS_DISK_FREE(conn,path,small_query,bsize,dfree,dsize); } if (dfc && (conn->lastused - dfc->last_dfree_time < dfree_cache_time)) { /* Return cached info. */ *bsize = dfc->bsize; *dfree = dfc->dfree; *dsize = dfc->dsize; return dfc->dfree_ret; } dfree_ret = SMB_VFS_DISK_FREE(conn,path,small_query,bsize,dfree,dsize); if (dfree_ret == (uint64_t)-1) { /* Don't cache bad data. */ return dfree_ret; } /* No cached info or time to refresh. */ if (!dfc) { dfc = TALLOC_P(conn, struct dfree_cached_info); if (!dfc) { return dfree_ret; } conn->dfree_info = dfc; } dfc->bsize = *bsize; dfc->dfree = *dfree; dfc->dsize = *dsize; dfc->dfree_ret = dfree_ret; dfc->last_dfree_time = conn->lastused; return dfree_ret; }