use mkstemp on systems where it is secure

[rsync/rsync.git] / flist.c

/* 
   Copyright (C) Andrew Tridgell 1996
   Copyright (C) Paul Mackerras 1996
   
   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 2 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, write to the Free Software
   Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/

/* generate and receive file lists */

#include "rsync.h"

extern struct stats stats;

extern int verbose;
extern int am_server;
extern int always_checksum;

extern int cvs_exclude;

extern int recurse;

extern int one_file_system;
extern int make_backups;
extern int preserve_links;
extern int preserve_hard_links;
extern int preserve_perms;
extern int preserve_devices;
extern int preserve_uid;
extern int preserve_gid;
extern int preserve_times;
extern int relative_paths;
extern int copy_links;
extern int copy_unsafe_links;
extern int remote_version;
extern int io_error;
extern int sanitize_paths;

static char topsrcname[MAXPATHLEN];

static struct exclude_struct **local_exclude_list;

static struct file_struct null_file;

static void clean_flist(struct file_list *flist, int strip_root);

static struct string_area *string_area_new(int size)
{
        struct string_area *a;

        if (size <= 0) size = ARENA_SIZE;
        a = malloc(sizeof(*a));
        if (!a) out_of_memory("string_area_new");
        a->current = a->base = malloc(size);
        if (!a->current) out_of_memory("string_area_new buffer");
        a->end = a->base + size;
        a->next = NULL;

        return a;
}

static void string_area_free(struct string_area *a)
{
        struct string_area *next;

        for ( ; a ; a = next) {
                next = a->next;
                free(a->base);
        }
}

static char *string_area_malloc(struct string_area **ap, int size)
{
        char *p;
        struct string_area *a;

        /* does the request fit into the current space? */
        a = *ap;
        if (a->current + size >= a->end) {
                /* no; get space, move new string_area to front of the list */
                a = string_area_new(size > ARENA_SIZE ? size : ARENA_SIZE);
                a->next = *ap;
                *ap = a;
        }

        /* have space; do the "allocation." */
        p = a->current;
        a->current += size;
        return p;
}

static char *string_area_strdup(struct string_area **ap, const char *src)
{
        char* dest = string_area_malloc(ap, strlen(src) + 1);
        return strcpy(dest, src);
}

static void list_file_entry(struct file_struct *f)
{
        char perms[11] = "----------";
        char *perm_map = "rwxrwxrwx";
        int i;

        if (!f->basename)
                /* this can happen if duplicate names were removed */
                return;

        for (i=0;i<9;i++) {
                if (f->mode & (1<<i)) perms[9-i] = perm_map[8-i];
        }
        if (S_ISLNK(f->mode)) perms[0] = 'l';
        if (S_ISDIR(f->mode)) perms[0] = 'd';
        if (S_ISBLK(f->mode)) perms[0] = 'b';
        if (S_ISCHR(f->mode)) perms[0] = 'c';
        if (S_ISSOCK(f->mode)) perms[0] = 's';
        if (S_ISFIFO(f->mode)) perms[0] = 'p';
        
        if (preserve_links && S_ISLNK(f->mode)) {
                rprintf(FINFO,"%s %11.0f %s %s -> %s\n", 
                        perms, 
                        (double)f->length, timestring(f->modtime), 
                        f_name(f), f->link);
        } else {
                rprintf(FINFO,"%s %11.0f %s %s\n", 
                        perms, 
                        (double)f->length, timestring(f->modtime), f_name(f));
        }
}


int readlink_stat(const char *Path, STRUCT_STAT *Buffer, char *Linkbuf) 
{
#if SUPPORT_LINKS
        if (copy_links) {
                return do_stat(Path, Buffer);
        }
        if (do_lstat(Path, Buffer) == -1) {
                return -1;
        }
        if (S_ISLNK(Buffer->st_mode)) {
                int l;
                if ((l = readlink(Path,Linkbuf,MAXPATHLEN-1)) == -1) {
                        return -1;
                }
                Linkbuf[l] = 0;
                if (copy_unsafe_links && (topsrcname[0] != '\0') &&
                                    unsafe_symlink(Linkbuf, topsrcname)) {
                        return do_stat(Path, Buffer);
                }
        }
        return 0;
#else
        return do_stat(Path, Buffer);
#endif
}

int link_stat(const char *Path, STRUCT_STAT *Buffer) 
{
#if SUPPORT_LINKS
    if (copy_links) {
        return do_stat(Path, Buffer);
    } else {
        return do_lstat(Path, Buffer);
    }
#else
    return do_stat(Path, Buffer);
#endif
}

/*
  This function is used to check if a file should be included/excluded
  from the list of files based on its name and type etc
 */
static int match_file_name(char *fname,STRUCT_STAT *st)
{
  if (check_exclude(fname,local_exclude_list,st)) {
    return 0;
  }
  return 1;
}

/* used by the one_file_system code */
static dev_t filesystem_dev;

static void set_filesystem(char *fname)
{
  STRUCT_STAT st;
  if (link_stat(fname,&st) != 0) return;
  filesystem_dev = st.st_dev;
}


static int to_wire_mode(mode_t mode)
{
        if (S_ISLNK(mode) && (S_IFLNK != 0120000)) {
                return (mode & ~(_S_IFMT)) | 0120000;
        }
        return (int)mode;
}

static mode_t from_wire_mode(int mode)
{
        if ((mode & (_S_IFMT)) == 0120000 && (S_IFLNK != 0120000)) {
                return (mode & ~(_S_IFMT)) | S_IFLNK;
        }
        return (mode_t)mode;
}


static void send_directory(int f,struct file_list *flist,char *dir);

static char *flist_dir;


static void send_file_entry(struct file_struct *file,int f,unsigned base_flags)
{
        unsigned char flags;
        static time_t last_time;
        static mode_t last_mode;
        static dev_t last_rdev;
        static uid_t last_uid;
        static gid_t last_gid;
        static char lastname[MAXPATHLEN];
        char *fname;
        int l1,l2;

        if (f == -1) return;

        if (!file) {
                write_byte(f,0);
                return;
        }

        fname = f_name(file);

        flags = base_flags;

        if (file->mode == last_mode) flags |= SAME_MODE;
        if (file->rdev == last_rdev) flags |= SAME_RDEV;
        if (file->uid == last_uid) flags |= SAME_UID;
        if (file->gid == last_gid) flags |= SAME_GID;
        if (file->modtime == last_time) flags |= SAME_TIME;

        for (l1=0;lastname[l1] && (fname[l1] == lastname[l1]) && (l1 < 255);l1++) ;  
        l2 = strlen(fname) - l1;

        if (l1 > 0) flags |= SAME_NAME;
        if (l2 > 255) flags |= LONG_NAME;

        /* we must make sure we don't send a zero flags byte or the other
           end will terminate the flist transfer */
        if (flags == 0 && !S_ISDIR(file->mode)) flags |= FLAG_DELETE;
        if (flags == 0) flags |= LONG_NAME;

        write_byte(f,flags);  
        if (flags & SAME_NAME)
                write_byte(f,l1);
        if (flags & LONG_NAME)
                write_int(f,l2);
        else
                write_byte(f,l2);
        write_buf(f,fname+l1,l2);

        write_longint(f,file->length);
        if (!(flags & SAME_TIME))
                write_int(f,(int)file->modtime);
        if (!(flags & SAME_MODE))
                write_int(f,to_wire_mode(file->mode));
        if (preserve_uid && !(flags & SAME_UID)) {
                add_uid(file->uid);
                write_int(f,(int)file->uid);
        }
        if (preserve_gid && !(flags & SAME_GID)) {
                add_gid(file->gid);
                write_int(f,(int)file->gid);
        }
        if (preserve_devices && IS_DEVICE(file->mode) && !(flags & SAME_RDEV))
                write_int(f,(int)file->rdev);

#if SUPPORT_LINKS
        if (preserve_links && S_ISLNK(file->mode)) {
                write_int(f,strlen(file->link));
                write_buf(f,file->link,strlen(file->link));
        }
#endif

#if SUPPORT_HARD_LINKS
        if (preserve_hard_links && S_ISREG(file->mode)) {
                write_int(f,(int)file->dev);
                write_int(f,(int)file->inode);
        }
#endif

        if (always_checksum) {
                if (remote_version < 21) {
                        write_buf(f,file->sum,2);
                } else {
                        write_buf(f,file->sum,MD4_SUM_LENGTH);
                }
        }       

        last_mode = file->mode;
        last_rdev = file->rdev;
        last_uid = file->uid;
        last_gid = file->gid;
        last_time = file->modtime;

        strlcpy(lastname,fname,MAXPATHLEN);
        lastname[MAXPATHLEN-1] = 0;
}



static void receive_file_entry(struct file_struct **fptr,
                               unsigned flags,int f)
{
        static time_t last_time;
        static mode_t last_mode;
        static dev_t last_rdev;
        static uid_t last_uid;
        static gid_t last_gid;
        static char lastname[MAXPATHLEN];
        char thisname[MAXPATHLEN];
        int l1=0,l2=0;
        char *p;
        struct file_struct *file;

        if (flags & SAME_NAME)
                l1 = read_byte(f);
  
        if (flags & LONG_NAME)
                l2 = read_int(f);
        else
                l2 = read_byte(f);

        file = (struct file_struct *)malloc(sizeof(*file));
        if (!file) out_of_memory("receive_file_entry");
        memset((char *)file, 0, sizeof(*file));
        (*fptr) = file;

        if (l2 >= MAXPATHLEN-l1) {
                rprintf(FERROR,"overflow: flags=0x%x l1=%d l2=%d lastname=%s\n",
                        flags, l1, l2, lastname);
                overflow("receive_file_entry");
        }

        strlcpy(thisname,lastname,l1+1);
        read_sbuf(f,&thisname[l1],l2);
        thisname[l1+l2] = 0;

        strlcpy(lastname,thisname,MAXPATHLEN);
        lastname[MAXPATHLEN-1] = 0;

        clean_fname(thisname);

        if (sanitize_paths) {
                sanitize_path(thisname, NULL);
        }

        if ((p = strrchr(thisname,'/'))) {
                static char *lastdir;
                *p = 0;
                if (lastdir && strcmp(thisname, lastdir)==0) {
                        file->dirname = lastdir;
                } else {
                        file->dirname = strdup(thisname);
                        lastdir = file->dirname;
                }
                file->basename = strdup(p+1);
        } else {
                file->dirname = NULL;
                file->basename = strdup(thisname);
        }

        if (!file->basename) out_of_memory("receive_file_entry 1");


        file->flags = flags;
        file->length = read_longint(f);
        file->modtime = (flags & SAME_TIME) ? last_time : (time_t)read_int(f);
        file->mode = (flags & SAME_MODE) ? last_mode : from_wire_mode(read_int(f));
        if (preserve_uid)
                file->uid = (flags & SAME_UID) ? last_uid : (uid_t)read_int(f);
        if (preserve_gid)
                file->gid = (flags & SAME_GID) ? last_gid : (gid_t)read_int(f);
        if (preserve_devices && IS_DEVICE(file->mode))
                file->rdev = (flags & SAME_RDEV) ? last_rdev : (dev_t)read_int(f);

        if (preserve_links && S_ISLNK(file->mode)) {
                int l = read_int(f);
                file->link = (char *)malloc(l+1);
                if (!file->link) out_of_memory("receive_file_entry 2");
                read_sbuf(f,file->link,l);
                if (sanitize_paths) {
                        sanitize_path(file->link, file->dirname);
                }
        }

#if SUPPORT_HARD_LINKS
        if (preserve_hard_links && S_ISREG(file->mode)) {
                file->dev = read_int(f);
                file->inode = read_int(f);
        }
#endif
  
        if (always_checksum) {
                file->sum = (char *)malloc(MD4_SUM_LENGTH);
                if (!file->sum) out_of_memory("md4 sum");
                if (remote_version < 21) {
                        read_buf(f,file->sum,2);
                } else {
                        read_buf(f,file->sum,MD4_SUM_LENGTH);
                }
        }
  
        last_mode = file->mode;
        last_rdev = file->rdev;
        last_uid = file->uid;
        last_gid = file->gid;
        last_time = file->modtime;

        if (!preserve_perms) {
                extern int orig_umask;
                /* set an appropriate set of permissions based on original
                   permissions and umask. This emulates what GNU cp does */
                file->mode &= ~orig_umask;
        }
}


/* determine if a file in a different filesstem should be skipped
   when one_file_system is set. We bascally only want to include
   the mount points - but they can be hard to find! */
static int skip_filesystem(char *fname, STRUCT_STAT *st)
{
        STRUCT_STAT st2;
        char *p = strrchr(fname, '/');

        /* skip all but directories */
        if (!S_ISDIR(st->st_mode)) return 1;

        /* if its not a subdirectory then allow */
        if (!p) return 0;

        *p = 0;
        if (link_stat(fname, &st2)) {
                *p = '/';
                return 0;
        }
        *p = '/';
        
        return (st2.st_dev != filesystem_dev);
}

#define STRDUP(ap, p)   (ap ? string_area_strdup(ap, p) : strdup(p))
#define MALLOC(ap, i)   (ap ? string_area_malloc(ap, i) : malloc(i))

/* create a file_struct for a named file */
struct file_struct *make_file(int f, char *fname, struct string_area **ap,
                              int noexcludes)
{
        struct file_struct *file;
        STRUCT_STAT st;
        char sum[SUM_LENGTH];
        char *p;
        char cleaned_name[MAXPATHLEN];
        char linkbuf[MAXPATHLEN];
        extern int delete_excluded;
        extern int module_id;

        strlcpy(cleaned_name, fname, MAXPATHLEN);
        cleaned_name[MAXPATHLEN-1] = 0;
        clean_fname(cleaned_name);
        if (sanitize_paths) {
                sanitize_path(cleaned_name, NULL);
        }
        fname = cleaned_name;

        memset(sum,0,SUM_LENGTH);

        if (readlink_stat(fname,&st,linkbuf) != 0) {
                io_error = 1;
                rprintf(FERROR,"readlink %s: %s\n",
                        fname,strerror(errno));
                return NULL;
        }

        /* we use noexcludes from backup.c */
        if (noexcludes) goto skip_excludes;

        if (S_ISDIR(st.st_mode) && !recurse) {
                rprintf(FINFO,"skipping directory %s\n",fname);
                return NULL;
        }
        
        if (one_file_system && st.st_dev != filesystem_dev) {
                if (skip_filesystem(fname, &st))
                        return NULL;
        }
        
        /* f is set to -1 when calculating deletion file list */
        if (((f != -1) || !delete_excluded) && !match_file_name(fname,&st))
                return NULL;


        if (lp_ignore_nonreadable(module_id) && access(fname, R_OK) != 0) 
                return NULL;

 skip_excludes:

        if (verbose > 2)
                rprintf(FINFO,"make_file(%d,%s)\n",f,fname);
        
        file = (struct file_struct *)malloc(sizeof(*file));
        if (!file) out_of_memory("make_file");
        memset((char *)file,0,sizeof(*file));

        if ((p = strrchr(fname,'/'))) {
                static char *lastdir;
                *p = 0;
                if (lastdir && strcmp(fname, lastdir)==0) {
                        file->dirname = lastdir;
                } else {
                        file->dirname = strdup(fname);
                        lastdir = file->dirname;
                }
                file->basename = STRDUP(ap, p+1);
                *p = '/';
        } else {
                file->dirname = NULL;
                file->basename = STRDUP(ap, fname);
        }

        file->modtime = st.st_mtime;
        file->length = st.st_size;
        file->mode = st.st_mode;
        file->uid = st.st_uid;
        file->gid = st.st_gid;
        file->dev = st.st_dev;
        file->inode = st.st_ino;
#ifdef HAVE_ST_RDEV
        file->rdev = st.st_rdev;
#endif

#if SUPPORT_LINKS
        if (S_ISLNK(st.st_mode)) {
                file->link = STRDUP(ap, linkbuf);
        }
#endif

        if (always_checksum) {
                file->sum = (char *)MALLOC(ap, MD4_SUM_LENGTH);
                if (!file->sum) out_of_memory("md4 sum");
                /* drat. we have to provide a null checksum for non-regular
                   files in order to be compatible with earlier versions
                   of rsync */
                if (S_ISREG(st.st_mode)) {
                        file_checksum(fname,file->sum,st.st_size);
                } else {
                        memset(file->sum, 0, MD4_SUM_LENGTH);
                }
        }       

        if (flist_dir) {
                static char *lastdir;
                if (lastdir && strcmp(lastdir, flist_dir)==0) {
                        file->basedir = lastdir;
                } else {
                        file->basedir = strdup(flist_dir);
                        lastdir = file->basedir;
                }
        } else {
                file->basedir = NULL;
        }

        if (!S_ISDIR(st.st_mode))
                stats.total_size += st.st_size;

        return file;
}



void send_file_name(int f,struct file_list *flist,char *fname,
                           int recursive, unsigned base_flags)
{
  struct file_struct *file;

  file = make_file(f,fname, &flist->string_area, 0);

  if (!file) return;  
  
  if (flist->count >= flist->malloced) {
          if (flist->malloced < 1000)
                  flist->malloced += 1000;
          else
                  flist->malloced *= 2;
          flist->files = (struct file_struct **)realloc(flist->files,
                                                        sizeof(flist->files[0])*
                                                        flist->malloced);
          if (!flist->files)
                  out_of_memory("send_file_name");
  }

  if (strcmp(file->basename,"")) {
    flist->files[flist->count++] = file;
    send_file_entry(file,f,base_flags);
  }

  if (S_ISDIR(file->mode) && recursive) {
          struct exclude_struct **last_exclude_list = local_exclude_list;
          send_directory(f,flist,f_name(file));
          local_exclude_list = last_exclude_list;
          return;
  }
}



static void send_directory(int f,struct file_list *flist,char *dir)
{
        DIR *d;
        struct dirent *di;
        char fname[MAXPATHLEN];
        int l;
        char *p;

        d = opendir(dir);
        if (!d) {
                io_error = 1;
                rprintf(FERROR,"opendir(%s): %s\n",
                        dir,strerror(errno));
                return;
        }

        strlcpy(fname,dir,MAXPATHLEN);
        l = strlen(fname);
        if (fname[l-1] != '/') {
                if (l == MAXPATHLEN-1) {
                        io_error = 1;
                        rprintf(FERROR,"skipping long-named directory %s\n",fname);
                        closedir(d);
                        return;
                }
                strlcat(fname,"/", MAXPATHLEN);
                l++;
        }
        p = fname + strlen(fname);

        local_exclude_list = NULL;

        if (cvs_exclude) {
                if (strlen(fname) + strlen(".cvsignore") <= MAXPATHLEN-1) {
                        strcpy(p,".cvsignore");
                        local_exclude_list = make_exclude_list(fname,NULL,0,0);
                } else {
                        io_error = 1;
                        rprintf(FINFO,"cannot cvs-exclude in long-named directory %s\n",fname);
                }
        }  
        
        for (di=readdir(d); di; di=readdir(d)) {
                char *dname = d_name(di);
                if (strcmp(dname,".")==0 ||
                    strcmp(dname,"..")==0)
                        continue;
                strlcpy(p,dname,MAXPATHLEN-l);
                send_file_name(f,flist,fname,recurse,0);
        }

        if (local_exclude_list) {
                add_exclude_list("!", &local_exclude_list, 0);
        }

        closedir(d);
}


struct file_list *send_file_list(int f,int argc,char *argv[])
{
        int i,l;
        STRUCT_STAT st;
        char *p,*dir,*olddir;
        char lastpath[MAXPATHLEN]="";
        struct file_list *flist;
        int64 start_write;

        if (verbose && recurse && !am_server && f != -1) {
                rprintf(FINFO,"building file list ... ");
                if (verbose > 1)
                        rprintf(FINFO, "\n");
                rflush(FINFO);
        }

        start_write = stats.total_written;

        flist = flist_new();

        if (f != -1) {
                io_start_buffering(f);
        }

        for (i=0;i<argc;i++) {
                char *fname = topsrcname;

                strlcpy(fname,argv[i],MAXPATHLEN);

                l = strlen(fname);
                if (l != 1 && fname[l-1] == '/') {
                        if ((l == 2) && (fname[0] == '.')) {
                                /*  Turn ./ into just . rather than ./.
                                    This was put in to avoid a problem with
                                      rsync -aR --delete from ./
                                    The send_file_name() below of ./ was
                                    mysteriously preventing deletes */
                                fname[1] = 0;
                        } else {
                                strlcat(fname,".",MAXPATHLEN);
                        }
                }

                if (link_stat(fname,&st) != 0) {
                        if (f != -1) {
                                io_error=1;
                                rprintf(FERROR,"link_stat %s : %s\n",fname,strerror(errno));
                        }
                        continue;
                }

                if (S_ISDIR(st.st_mode) && !recurse) {
                        rprintf(FINFO,"skipping directory %s\n",fname);
                        continue;
                }

                dir = NULL;
                olddir = NULL;

                if (!relative_paths) {
                        p = strrchr(fname,'/');
                        if (p) {
                                *p = 0;
                                if (p == fname) 
                                        dir = "/";
                                else
                                        dir = fname;      
                                fname = p+1;      
                        }
                } else if (f != -1 && (p=strrchr(fname,'/'))) {
                        /* this ensures we send the intermediate directories,
                           thus getting their permissions right */
                        *p = 0;
                        if (strcmp(lastpath,fname)) {
                                strlcpy(lastpath, fname, sizeof(lastpath));
                                *p = '/';
                                for (p=fname+1; (p=strchr(p,'/')); p++) {
                                        int copy_links_saved = copy_links;
                                        int recurse_saved = recurse;
                                        *p = 0;
                                        copy_links = copy_unsafe_links;
                                        /* set recurse to 1 to prevent make_file
                                           from ignoring directory, but still
                                           turn off the recursive parameter to
                                           send_file_name */
                                        recurse = 1;
                                        send_file_name(f, flist, fname, 0, 0);
                                        copy_links = copy_links_saved;
                                        recurse = recurse_saved;
                                        *p = '/';
                                }
                        } else {
                                *p = '/';
                        }
                }
                
                if (!*fname)
                        fname = ".";
                
                if (dir && *dir) {
                        olddir = push_dir(dir, 1);

                        if (!olddir) {
                                io_error=1;
                                rprintf(FERROR,"push_dir %s : %s\n",
                                        dir,strerror(errno));
                                continue;
                        }

                        flist_dir = dir;
                }
                
                if (one_file_system)
                        set_filesystem(fname);

                send_file_name(f,flist,fname,recurse,FLAG_DELETE);

                if (olddir != NULL) {
                        flist_dir = NULL;
                        if (pop_dir(olddir) != 0) {
                                rprintf(FERROR,"pop_dir %s : %s\n",
                                        dir,strerror(errno));
                                exit_cleanup(RERR_FILESELECT);
                        }
                }
        }

        topsrcname[0] = '\0';

        if (f != -1) {
                send_file_entry(NULL,f,0);
        }

        if (verbose && recurse && !am_server && f != -1)
                rprintf(FINFO,"done\n");
        
        clean_flist(flist, 0);
        
        /* now send the uid/gid list. This was introduced in protocol
           version 15 */
        if (f != -1 && remote_version >= 15) {
                send_uid_list(f);
        }

        /* if protocol version is >= 17 then send the io_error flag */
        if (f != -1 && remote_version >= 17) {
                extern int module_id;
                write_int(f, lp_ignore_errors(module_id)? 0 : io_error);
        }

        if (f != -1) {
                io_end_buffering(f);
                stats.flist_size = stats.total_written - start_write;
                stats.num_files = flist->count;
        }

        if (verbose > 2)
                rprintf(FINFO,"send_file_list done\n");

        return flist;
}


struct file_list *recv_file_list(int f)
{
  struct file_list *flist;
  unsigned char flags;
  int64 start_read;
  extern int list_only;

  if (verbose && recurse && !am_server) {
    rprintf(FINFO,"receiving file list ... ");
    rflush(FINFO);
  }

  start_read = stats.total_read;

  flist = (struct file_list *)malloc(sizeof(flist[0]));
  if (!flist)
    goto oom;

  flist->count=0;
  flist->malloced=1000;
  flist->files = (struct file_struct **)malloc(sizeof(flist->files[0])*
                                               flist->malloced);
  if (!flist->files)
    goto oom;


  for (flags=read_byte(f); flags; flags=read_byte(f)) {
    int i = flist->count;

    if (i >= flist->malloced) {
          if (flist->malloced < 1000)
                  flist->malloced += 1000;
          else
                  flist->malloced *= 2;
          flist->files =(struct file_struct **)realloc(flist->files,
                                                       sizeof(flist->files[0])*
                                                       flist->malloced);
          if (!flist->files)
                  goto oom;
    }

    receive_file_entry(&flist->files[i],flags,f);

    if (S_ISREG(flist->files[i]->mode))
            stats.total_size += flist->files[i]->length;

    flist->count++;

    if (verbose > 2)
      rprintf(FINFO,"recv_file_name(%s)\n",f_name(flist->files[i]));
  }


  if (verbose > 2)
    rprintf(FINFO,"received %d names\n",flist->count);

  clean_flist(flist, relative_paths);

  if (verbose && recurse && !am_server) {
    rprintf(FINFO,"done\n");
  }

  /* now recv the uid/gid list. This was introduced in protocol version 15 */
  if (f != -1 && remote_version >= 15) {
          recv_uid_list(f, flist);
  }

  /* if protocol version is >= 17 then recv the io_error flag */
  if (f != -1 && remote_version >= 17) {
          extern int module_id;
          extern int ignore_errors;
          if (lp_ignore_errors(module_id) || ignore_errors) {
                  read_int(f);
          } else {
                  io_error |= read_int(f);
          }
  }

  if (list_only) {
          int i;
          for (i=0;i<flist->count;i++) {
                  list_file_entry(flist->files[i]);
          }
  }


  if (verbose > 2)
    rprintf(FINFO,"recv_file_list done\n");

  stats.flist_size = stats.total_read - start_read;
  stats.num_files = flist->count;

  return flist;

oom:
    out_of_memory("recv_file_list");
    return NULL; /* not reached */
}


int file_compare(struct file_struct **f1,struct file_struct **f2)
{
        if (!(*f1)->basename && !(*f2)->basename) return 0;
        if (!(*f1)->basename) return -1;
        if (!(*f2)->basename) return 1;
        if ((*f1)->dirname == (*f2)->dirname)
                return u_strcmp((*f1)->basename, (*f2)->basename);
        return u_strcmp(f_name(*f1),f_name(*f2));
}


int flist_find(struct file_list *flist,struct file_struct *f)
{
        int low=0,high=flist->count-1;

        if (flist->count <= 0) return -1;

        while (low != high) {
                int mid = (low+high)/2;
                int ret = file_compare(&flist->files[flist_up(flist, mid)],&f);
                if (ret == 0) return flist_up(flist, mid);
                if (ret > 0) {
                        high=mid;
                } else {
                        low=mid+1;
                }
        }

        if (file_compare(&flist->files[flist_up(flist,low)],&f) == 0)
                return flist_up(flist,low);
        return -1;
}


/*
 * free up one file
 */
void free_file(struct file_struct *file)
{
        if (!file) return;
        if (file->basename) free(file->basename);
        if (file->link) free(file->link);
        if (file->sum) free(file->sum);
        *file = null_file;
}


/*
 * allocate a new file list
 */
struct file_list *flist_new()
{
        struct file_list *flist;

        flist = (struct file_list *)malloc(sizeof(flist[0]));
        if (!flist) out_of_memory("send_file_list");

        flist->count=0;
        flist->malloced = 1000;
        flist->files = (struct file_struct **)malloc(sizeof(flist->files[0])*
                                                     flist->malloced);
        if (!flist->files) out_of_memory("send_file_list");
#if ARENA_SIZE > 0
        flist->string_area = string_area_new(0);
#else
        flist->string_area = NULL;
#endif
        return flist;
}
/*
 * free up all elements in a flist
 */
void flist_free(struct file_list *flist)
{
        int i;
        for (i=1;i<flist->count;i++) {
                if (!flist->string_area)
                        free_file(flist->files[i]);
                free(flist->files[i]);
        }       
        memset((char *)flist->files, 0, sizeof(flist->files[0])*flist->count);
        free(flist->files);
        if (flist->string_area)
                string_area_free(flist->string_area);
        memset((char *)flist, 0, sizeof(*flist));
        free(flist);
}


/*
 * This routine ensures we don't have any duplicate names in our file list.
 * duplicate names can cause corruption because of the pipelining 
 */
static void clean_flist(struct file_list *flist, int strip_root)
{
        int i;

        if (!flist || flist->count == 0) 
                return;
  
        qsort(flist->files,flist->count,
              sizeof(flist->files[0]),
              (int (*)())file_compare);

        for (i=1;i<flist->count;i++) {
                if (flist->files[i]->basename &&
                    flist->files[i-1]->basename &&
                    strcmp(f_name(flist->files[i]),
                           f_name(flist->files[i-1])) == 0) {
                        if (verbose > 1 && !am_server)
                                rprintf(FINFO,"removing duplicate name %s from file list %d\n",
                                        f_name(flist->files[i-1]),i-1);
                        /* it's not great that the flist knows the semantics of the
                         * file memory usage, but i'd rather not add a flag byte
                         * to that struct. XXX can i use a bit in the flags field? */
                        if (flist->string_area)
                                flist->files[i][0] = null_file;
                        else
                                free_file(flist->files[i]);
                } 
        }

        if (strip_root) {
                /* we need to strip off the root directory in the case
                   of relative paths, but this must be done _after_
                   the sorting phase */
                for (i=0;i<flist->count;i++) {
                        if (flist->files[i]->dirname &&
                            flist->files[i]->dirname[0] == '/') {
                                memmove(&flist->files[i]->dirname[0],
                                        &flist->files[i]->dirname[1],
                                        strlen(flist->files[i]->dirname));
                        }
                        
                        if (flist->files[i]->dirname && 
                            !flist->files[i]->dirname[0]) {
                                flist->files[i]->dirname = NULL;
                        }
                }
        }


        if (verbose <= 3) return;

        for (i=0;i<flist->count;i++) {
                rprintf(FINFO,"[%d] i=%d %s %s mode=0%o len=%.0f\n",
                        getpid(), i, 
                        NS(flist->files[i]->dirname),
                        NS(flist->files[i]->basename),
                        flist->files[i]->mode,
                        (double)flist->files[i]->length);
        }
}


/*
 * return the full filename of a flist entry
 */
char *f_name(struct file_struct *f)
{
        static char names[10][MAXPATHLEN];
        static int n;
        char *p = names[n];

        if (!f || !f->basename) return NULL;

        n = (n+1)%10;

        if (f->dirname) {
                strlcpy(p, f->dirname, MAXPATHLEN);
                strlcat(p, "/", MAXPATHLEN);
                strlcat(p, f->basename, MAXPATHLEN);
        } else {
                strlcpy(p, f->basename, MAXPATHLEN);
        }

        return p;
}