/* synctree 4.16 - Synchronise file tree. Author: Kees J. Bot * 5 Apr 1989 * SYNOPSYS * synctree [-iuf] [[user1@machine1:]dir1 [[user2@]machine2:]dir2 * * Dir2 will then be synchronized to dir1 with respect to the flags. * The flags mean: * -i Be interactive on files other than directories too. * -u Only install files that are newer, i.e. that need an update. * -f Force. Don't ask for confirmation, all answers are 'yes'. * * Hitting return lets synctree use its proposed answer. Hitting CTRL-D is * like typing return to all questions that follow. * * If either of the directories to be synchronized contains the file ".backup" * then it is a backup directory. The file ".backup" in this directory is * an array of mode information indexed on inode number. * * 89/04/05, Kees J. Bot - Birth of tree synchronizing program. * 92/02/02 - General overhaul, rcp(1) like syntax. */ #define nil 0 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if _MINIX #include "limits.h" #include "minix/config.h" /*#define BLOCK_SIZE 1024*/ #define LITTLE_ENDIAN (CHIP == INTEL) #define USE_SHADOWING (CHIP == M68000) #else #define LITTLE_ENDIAN 0 #define USE_SHADOWING 0 #endif #ifndef PATH_MAX #define PATH_MAX 1024 #endif #ifndef S_ISLNK /* There were no symlinks in medieval times. */ #define S_ISLNK(mode) (0) #define lstat stat #define symlink(path1, path2) (errno= ENOSYS, -1) #define readlink(path, buf, len) (errno= ENOSYS, -1) #endif #define NUMBYTES 4 /* Any number fits in this many bytes. */ #define CHUNK 4096 /* Transfer files in this size chunks. */ static int install= 0; /* Install files, do not delete, update if newer. */ static int interact= 0; /* Ask permission to install too. */ static int force= 0; /* Force trees to be completely equal. */ static int backup= 0; /* This tree is for backup. */ static char SYNCNAME[] = "synctree"; static char SLAVENAME[] = "==SLAVE=="; static char MASTERNAME[]= "==MASTER=="; static char BACKUP[] = ".backup"; /* Backup filemodes. */ static int filemodes; /* Filemodes fildes. */ static int chan[2]= { 0, 1 }; /* In and output channel to opposite side. */ #define BUCKSIZE (1+NUMBYTES+CHUNK) static char bucket[BUCKSIZE]; /* Put a lot of things here before sending. */ static char *buckp= bucket; /* Fill pointer. */ static int buckn= 0; /* # bytes in bucket. */ enum orders { /* What back breaking labour should the slave perform? */ ENTER= 128, /* Make ready to process contents of directory. */ ADVANCE, /* Determine next pathname and report it back. */ CAT, /* Send contents of file. */ MORE, /* Send more file contents. */ CANCEL, /* Current pathname is not installed, remove as link. */ DIE, /* Die with exit(0); */ DIE_BAD, /* exit(1); */ POSITIVE, /* Ask a yes/no question expecting yes. */ NEGATIVE, /* Same expecting no. */ PASS_YES, /* Pass this to the master will you. */ PASS_NO /* Same here. */ }; #ifdef DEBUG char *ORDERS[]= { "ENTER", "ADVANCE", "CAT", "MORE", "CANCEL", "DIE", "DIE_BAD", "POSITIVE", "NEGATIVE", "PASS_YES", "PASS_NO" }; #endif enum answers { PATH= 128, /* Report pathname, and stat(2) info. */ LINK, /* Report linkname, pathname, and stat(2) info. */ DATA, /* Contents of file follow. */ NODATA, /* Can't read file. */ DONE, /* Nothing more to advance to. */ SYMLINK, /* Report symlinkname, pathname, and stat(2) info. */ YES, NO /* Result of an ASK. */ }; #ifdef DEBUG char *ANSWERS[]= { "PATH", "LINK", "DATA", "NODATA", "DONE", "SYMLINK", "YES", "NO" }; #define DPRINTF(format, arg) fprintf(stderr, format, arg0, arg) #else #define DPRINTF(format, arg) #endif struct mode { unsigned short md_mode; unsigned short md_uid; unsigned short md_gid; unsigned short md_rdev; unsigned short md_devsiz; }; static char *arg0; /* basename(argv[0]) */ static int ex= 0; /* exit status. */ static void because() { fprintf(stderr, ": %s\n", strerror(errno)); ex= 1; } static void perr(label) char *label; { fprintf(stderr, "%s: %s: %s\n", arg0, label, strerror(errno)); ex= 1; } static void perrx(label) char *label; { perr(label); exit(1); } #if S_HIDDEN /* Support for per achitecture hidden files. */ static int transparent= 0; static void isvisible(name) char *name; { char *p= name + strlen(name); while (p > name && *--p == '/') {} if (p > name && *p == '@' && p[-1] != '/') transparent= 1; } #else #define transparent 0 #define isvisible(name) ((void) 0) #endif static void isbackup(slave) int slave; { if ((filemodes= open(BACKUP, slave ? O_RDONLY : O_RDWR)) >= 0) backup= 1; else { if (errno != ENOENT) perrx(BACKUP); } } static char path[PATH_MAX+1]; /* Holds pathname of file being worked on. */ static char lnkpth[PATH_MAX+1]; /* (Sym)link to path. */ static char *linkpath; /* What path is, or should be linked to. */ static struct stat st; /* Corresponding stat(2) info. */ static char Spath[PATH_MAX+1]; /* Slave is looking at this. */ static char Slnkpth[PATH_MAX+1];/* (Sym)link to Spath. */ static char *Slinkpath=nil; /* Either nil or Slnkpth. */ static struct stat Sst; /* Slave's stat(2). */ static char *addpath(p, n) char *p, *n; /* Add a name to the path, return pointer to end. */ { if (p - path + 1 + strlen(n) > PATH_MAX) { *p= 0; fprintf(stderr, "%s: %s/%s is too long.\n", arg0, path, n); fprintf(stderr, "%s: Unable to continue.\n", arg0); exit(1); } if (p == path+1 && path[0] == '.') p= path; if (p > path) *p++ = '/'; while (*n != 0) *p++ = *n++; *p= 0; return p; } struct entry { /* A directory entry. */ struct entry *next; /* Next entry in same directory */ struct entry *dir; /* It is part of this directory */ struct entry *con; /* If a dir, its contents */ char *name; /* Name of this dir entry */ }; static struct entry *E= nil; /* File being processed. */ static void setpath(e) struct entry *e; /* Set path leading to e. */ { static char *pend; if (e == nil) pend= path; else { setpath(e->dir); pend= addpath(pend, e->name); } } static void sort(ae) struct entry **ae; /* This is either a stable mergesort, or thermal noise, I'm no longer sure. * It must be called like this: if (L!=nil && L->next!=nil) sort(&L); */ { /* static */ struct entry *e1, **mid; /* Need not be local */ struct entry *e2; e1= *(mid= &(*ae)->next); do { if ((e1= e1->next) == nil) break; mid= &(*mid)->next; } while ((e1= e1->next) != nil); e2= *mid; *mid= nil; if ((*ae)->next != nil) sort(ae); if (e2->next != nil) sort(&e2); e1= *ae; for (;;) { if (strcmp(e1->name, e2->name)<=0) { if ((e1= *(ae= &e1->next)) == nil) { *ae= e2; break; } } else { *ae= e2; e2= *(ae= &e2->next); *ae= e1; if (e2 == nil) break; } } } static void enter() /* Collect directory entries of E. */ { struct entry **last= &E->con, *new; struct dirent *e; DIR *d; if ((d= opendir(path)) == nil) { fprintf(stderr, "%s: Can't read dir %s\n", arg0, path); return; } while ((e= readdir(d)) != nil) { if (e->d_name[0] == '.' && (e->d_name[1] == 0 || (e->d_name[1] == '.' && e->d_name[2] == 0) )) continue; new= (struct entry *) malloc(sizeof(*new)); new->next= nil; new->dir= E; new->con= nil; new->name= (char *) malloc(strlen(e->d_name) + 1); strcpy(new->name, e->d_name); *last= new; last= &new->next; } closedir(d); if (E->con != nil && E->con->next != nil) sort(&E->con); } #define arraysize(a) (sizeof(a) / sizeof((a)[0])) #define arraylimit(a) ((a) + arraysize(a)) static char *link_islink(struct stat *stp, const char *file) { /* Tell if a file, which stat(2) information in '*stp', has been seen * earlier by this function under a different name. If not return a * null pointer with errno set to ENOENT, otherwise return the name of * the link. Return a null pointer with an error code in errno for any * error, using E2BIG for a too long file name. * * Use link_islink(nil, nil) to reset all bookkeeping. * * Call for a file twice to delete it from the store. */ typedef struct link { /* In-memory link store. */ struct link *next; /* Hash chain on inode number. */ ino_t ino; /* File's inode number. */ off_t off; /* Offset to more info in temp file. */ } link_t; typedef struct dlink { /* On-disk link store. */ dev_t dev; /* Device number. */ char file[PATH_MAX]; /* Name of earlier seen link. */ } dlink_t; static link_t *links[256]; /* Hash list of known links. */ static int tfd= -1; /* Temp file for file name storage. */ static dlink_t dlink; link_t *lp, **plp; size_t len; off_t off; if (file == nil) { /* Reset everything. */ for (plp= links; plp < arraylimit(links); plp++) { while ((lp= *plp) != nil) { *plp= lp->next; free(lp); } } if (tfd != -1) close(tfd); tfd= -1; return nil; } /* The file must be a non-directory with more than one link. */ if (S_ISDIR(stp->st_mode) || stp->st_nlink <= 1) { errno= ENOENT; return nil; } plp= &links[stp->st_ino % arraysize(links)]; while ((lp= *plp) != nil) { if (lp->ino == stp->st_ino) { /* May have seen this link before. Get it and check. */ if (lseek(tfd, lp->off, SEEK_SET) == -1) return nil; if (read(tfd, &dlink, sizeof(dlink)) < 0) return nil; /* Only need to check the device number. */ if (dlink.dev == stp->st_dev) { if (strcmp(file, dlink.file) == 0) { /* Called twice. Forget about this link. */ *plp= lp->next; free(lp); errno= ENOENT; return nil; } /* Return the name of the earlier link. */ return dlink.file; } } plp= &lp->next; } /* First time I see this link. Add it to the store. */ if (tfd == -1) { for (;;) { char *tmp; tmp= tmpnam(nil); tfd= open(tmp, O_RDWR|O_CREAT|O_EXCL, 0600); if (tfd < 0) { if (errno != EEXIST) return nil; } else { (void) unlink(tmp); break; } } } if ((len= strlen(file)) >= PATH_MAX) { errno= E2BIG; return nil; } dlink.dev= stp->st_dev; strcpy(dlink.file, file); len += offsetof(dlink_t, file) + 1; if ((off= lseek(tfd, 0, SEEK_END)) == -1) return nil; if (write(tfd, &dlink, len) != len) return nil; if ((lp= malloc(sizeof(*lp))) == nil) return nil; lp->next= nil; lp->ino= stp->st_ino; lp->off= off; *plp= lp; errno= ENOENT; return nil; } #define cancellink() ((void) islink()) static char *islink() /* Returns the name of the file path is linked to. If no such link can be * found, then path is added to the list and nil is returned. If all the * links of a file have been seen, then it is removed from the list. * Directories are not seen as linkable. */ { char *name; name= link_islink(&st, path); if (name == nil && errno != ENOENT) perrx(path); return name; } static void setstat(ino, stp) ino_t ino; struct stat *stp; /* Set backup status info, we know that backup is true. */ { struct mode md; md.md_mode = stp->st_mode; md.md_uid = stp->st_uid; md.md_gid = stp->st_gid; md.md_rdev = stp->st_rdev; md.md_devsiz = stp->st_size / 1024; if (lseek(filemodes, (off_t) sizeof(md) * (off_t) ino, 0) == -1 || write(filemodes, (char *) &md, sizeof(md)) != sizeof(md) ) perrx(BACKUP); } static int getstat(name, stp) char *name; struct stat *stp; /* Get status information of file name, skipping some files. Backup info * is inserted as needed. */ { errno= 0; if (strcmp(name, BACKUP) == 0) return -1; if (lstat(name, stp) < 0) return -1; if (stp->st_mode == S_IFREG && stp->st_mtime == 0) return -1; if (backup) { struct mode md; if (lseek(filemodes, (off_t) sizeof(md) * (off_t) stp->st_ino, 0) == -1 || read(filemodes, (char *) &md, sizeof(md)) != sizeof(md) || md.md_mode == 0 ) { errno= 0; setstat(stp->st_ino, stp); } else { stp->st_mode = md.md_mode; stp->st_uid = md.md_uid; stp->st_gid = md.md_gid; stp->st_rdev = md.md_rdev; if (S_ISBLK(stp->st_mode)) stp->st_size= (off_t) md.md_devsiz * 1024; } } return 0; } static int advance() /* Determine next pathname, return true on success. */ { for (;;) { if (E==nil) { /* First call, enter root dir. */ E= (struct entry *) malloc(sizeof(*E)); E->dir= nil; E->con= nil; E->next= nil; E->name= (char *) malloc(3); strcpy(E->name, transparent ? ".@" : "."); } else if (E->con != nil) /* Dir's files must be processed. */ E= E->con; else { for (;;) { /* Remove E from it's parents list, then * try next entry, if none, go to parent dir. */ struct entry *junk= E, *parent= E->dir; if (parent != nil) parent->con= E->next; E= E->next; free(junk->name); free(junk); if (E != nil) break; if ((E= parent) == nil) return 0; } } setpath(E); if (getstat(path, &st) == 0) { if (S_ISLNK(st.st_mode)) { int n; if ((n= readlink(path, lnkpth, PATH_MAX)) >= 0) { lnkpth[n]= 0; break; } } else { break; } } if (errno != 0 && errno != ENOENT) perr(path); } linkpath= islink(); DPRINTF("%s: path = %s\n", path); return 1; } static enum orders request() /* Slave reads command sent by master. */ { static char buf[64], *bp; static int n= 0; int req; for (;;) { if (n == 0) { if ((n= read(chan[0], buf, (int) sizeof(buf))) <= 0) { if (n < 0) perrx("request()"); /* Master died, try to report it then follow. */ fprintf(stderr, "%s: Master died prematurely.\n", arg0); exit(1); } bp= buf; } req= *bp++ & 0xFF; n--; if (req >= (int) ENTER) break; /* Master using slave to print to stdout: */ putchar(req); } DPRINTF("%s: request() == %s\n", ORDERS[req - (int) ENTER]); return (enum orders) req; } static void report() { int r; DPRINTF("%s: reporting now!\n", 0); buckp= bucket; while (buckn > 0) { r = buckn; if (r > (512 << sizeof(char*))) r= (512 << sizeof(char*)); if ((r= write(chan[1], buckp, r)) < 0) perrx("report()"); buckp += r; buckn -= r; } buckp= bucket; buckn= 0; } static void inform(a) enum answers a; /* Slave replies to master. */ { DPRINTF("%s: inform(%s)\n", ANSWERS[(int) a - (int) PATH]); *buckp++ = (int) a; buckn++; } #define wwrite(buf, n) (memcpy(buckp, (buf), (n)), buckp+= (n), buckn+= (n)) static void sendnum(n) long n; /* Send number from least to most significant byte. */ { #if LITTLE_ENDIAN wwrite((char *) &n, sizeof(n)); #else char buf[NUMBYTES]; buf[0]= (char) (n >> 0); buf[1]= (char) (n >> 8); buf[2]= (char) (n >> 16); buf[3]= (char) (n >> 24); wwrite(buf, sizeof(buf)); #endif } static void send(buf, n) char *buf; int n; /* Slave sends size and contents of buf. */ { sendnum((long) n); if (n > 0) wwrite(buf, (size_t) n); } static void sendstat(stp) struct stat *stp; { sendnum((long) stp->st_mode); sendnum((long) stp->st_uid); sendnum((long) stp->st_gid); sendnum((long) stp->st_rdev); sendnum((long) stp->st_size); sendnum((long) stp->st_mtime); } static int ask(); static void slave() /* Carry out orders from the master, such as transmitting path names. * Note that the slave uses path, not Spath, the master uses Spath. */ { int f, n; char buf[CHUNK]; enum { run, done, die } state= run; do { switch (request()) { case ENTER: enter(); break; case ADVANCE: if (!advance() || state == done) { inform(DONE); state= done; } else { if (linkpath!=nil) { inform(LINK); send(linkpath, strlen(linkpath) + 1); } else if (S_ISLNK(st.st_mode)) { inform(SYMLINK); send(lnkpth, strlen(lnkpth) + 1); } else { inform(PATH); } send(path, strlen(path) + 1); sendstat(&st); } break; case CAT: if ((f= open(path, O_RDONLY))<0) { fprintf(stderr, "%s: Can't open %s", arg0, path); because(); inform(NODATA); break; } inform(DATA); do { n= read(f, buf, sizeof(buf)); if (n < 0) perr(path); send(buf, n); if (n > 0) report(); } while (n > 0); close(f); break; case CANCEL: cancellink(); break; case DIE_BAD: ex= 1; /*FALL THROUGH*/ case DIE: state= die; break; case POSITIVE: inform(ask('y') ? YES : NO); break; case NEGATIVE: inform(ask('n') ? YES : NO); break; case PASS_YES: inform(YES); break; case PASS_NO: inform(NO); break; default: fprintf(stderr, "%s: strange request\n", arg0); exit(1); } report(); } while (state != die); } static int execute(argv) char **argv; /* Execute a command and return its success or failure. */ { int pid, r, status; if ((pid= fork())<0) { perr("fork()"); return 0; } if (pid == 0) { execvp(argv[0], argv); perrx(argv[0]); } while ((r= wait(&status)) != pid) { if (r < 0) { perr(argv[0]); return 0; } } return status == 0; } static int removedir(dir) char *dir; /* Remove a directory and its contents. */ { static char *argv[] = { "rm", "-r", nil, nil }; printf("(rm -r %s)\n", dir); argv[2]= dir; return execute(argv); } static void order(o) enum orders o; /* Master tells slave what to do. */ { char c= (char) o; DPRINTF("%s: order(%s)\n", ORDERS[o - (int) ENTER]); if (write(chan[1], &c, 1) != 1) perrx("order()"); } static void rread(buf, n) char *buf; int n; /* Master gets buf of size n from slave, doing multiple reads if needed. */ { int r; while (n > 0) { if (buckn == 0) { switch (buckn= read(chan[0], bucket, BUCKSIZE)) { case -1: perrx("reply channel from slave"); case 0: fprintf(stderr, "%s: slave died prematurely.\n", arg0); exit(1); } buckp= bucket; } r= n < buckn ? n : buckn; memcpy(buf, buckp, r); buckp+= r; buckn-= r; buf+= r; n-= r; } } static enum answers answer() /* Master reads slave's reply. */ { char c; int a; rread(&c, 1); a= c & 0xFF; DPRINTF("%s: answer() == %s\n", ANSWERS[a - (int) PATH]); return (enum answers) a; } static long recnum() /* Read number as pack of bytes from least to most significant. The data * is on the wire in little-endian format. (Mostly run on PC's). */ { #if LITTLE_ENDIAN long n; rread((char *) &n, (int) sizeof(n)); return n; #else unsigned char buf[NUMBYTES]; rread(buf, sizeof(buf)); return buf[0] | ((unsigned) buf[1] << 8) | ((unsigned long) buf[2] << 16) | ((unsigned long) buf[3] << 24); #endif } static int receive(buf, max) char *buf; int max; /* Master get's data from slave, by first reading size, then data. */ { int n; n= recnum(); if (n > max) { fprintf(stderr, "%s: panic: Can't read %d bytes\n", arg0, n); exit(1); } if (n > 0) rread(buf, n); return n; } static void recstat(stp) struct stat *stp; { stp->st_mode= recnum(); stp->st_uid= recnum(); stp->st_gid= recnum(); stp->st_rdev= recnum(); stp->st_size= recnum(); stp->st_mtime= recnum(); } static int key() { int c; static int tty= -1; if (tty < 0) tty= isatty(0); if (feof(stdin) || (c= getchar()) == EOF) { c= '\n'; if (tty) putchar('\n'); } if (!tty) putchar(c); return c; } static int ask(def) int def; /* Ask for a yes or no, anything else means choose def. */ { int y, c; if (chan[0] == 0) { /* I'm running remote, tell the slave to ask. */ fflush(stdout); order(def == 'y' ? POSITIVE : NEGATIVE); return answer() == YES; } printf("? (%c) ", def); fflush(stdout); do c= key(); while (c == ' ' || c == '\t'); y= c; while (c != '\n') c= key(); if (y != 'y' && y != 'Y' && y != 'n' && y != 'N') y= def; return y == 'y' || y == 'Y'; } static void setmodes(silent) int silent; { struct stat st; int change= 0; struct utimbuf tms; errno= 0; getstat(Spath, &st); if (backup && silent) { setstat(st.st_ino, &Sst); getstat(Spath, &st); } if (S_ISLNK(st.st_mode)) return; if (errno == 0 && st.st_mode != Sst.st_mode) { if (!backup) chmod(Spath, Sst.st_mode & 07777); change= 1; } if (errno == 0 && (st.st_uid != Sst.st_uid || st.st_gid != Sst.st_gid) && (backup || geteuid() == 0) ) { errno= 0; if (!backup) chown(Spath, Sst.st_uid, Sst.st_gid); change= 1; } if (backup && !silent) setstat(st.st_ino, &Sst); if (errno == 0 && S_ISREG(Sst.st_mode) && st.st_mtime != Sst.st_mtime) { time(&tms.actime); tms.modtime= Sst.st_mtime; errno= 0; utime(Spath, &tms); change= 1; } if (errno != 0) { fprintf(stderr, "%s: Can't set modes of %s", arg0, Spath); because(); } else if (change && !silent) { printf("Mode changed of %s\n", Spath); } } static void makeold() { static struct utimbuf tms= { 0, 0 }; if (utime(Spath, &tms) < 0) { if (errno != ENOENT) { fprintf(stderr, "%s: can't make %s look old", arg0, Spath); because(); } } else { fprintf(stderr, "%s: made %s look old.\n", arg0, Spath); } } static int busy= 0; static void bail_out(sig) int sig; { signal(sig, SIG_IGN); fprintf(stderr, "%s: Exiting after signal %d\n", arg0, sig); if (busy) { fprintf(stderr, "%s: was installing %s\n", arg0, Spath); makeold(); } order(DIE_BAD); exit(sig); } static int makenode(name, mode, addr, size) char *name; int mode; dev_t addr; off_t size; { int r; if (!backup) { r= mknod(name, mode, addr); } else { if ((r= creat(name, 0644)) >= 0) close(r); } return r; } static void add(update) int update; /* Add Spath to the filesystem. */ { int f, n; char buf[CHUNK]; int forced_update= force && update; if (Slinkpath != nil && !S_ISLNK(Sst.st_mode)) { if (interact && !update) { printf("Link %s to %s", Spath, Slinkpath); if (!ask('n')) return; } if (link(Slinkpath, Spath) >= 0) { printf("Linked %s to %s\n", Spath, Slinkpath); return; } else { fprintf(stderr, "%s: Can't link %s to %s", arg0, Slinkpath, Spath); because(); /* Try to install instead. */ } } switch (Sst.st_mode & S_IFMT) { case S_IFDIR: if (!force) { printf("Add dir %s", Spath); if (!ask('n')) return; } if (mkdir(Spath, backup ? 0755 : Sst.st_mode) < 0) { perr(Spath); return; } printf("Directory %s created.\n", Spath); order(ENTER); break; case S_IFBLK: case S_IFCHR: case S_IFIFO: if (interact && !update) { printf("Create special file %s", Spath); if (!ask('n')) { order(CANCEL); return; } } if (makenode(Spath, Sst.st_mode, Sst.st_rdev, Sst.st_size)<0) { fprintf(stderr, "%s: Can't create special file %s", arg0, Spath); because(); return; } printf("Special file %s created\n", Spath); break; #ifdef S_IFLNK case S_IFLNK: if (interact && !update) { printf("Install %s -> %s", Spath, Slnkpth); if (!ask('n')) { order(CANCEL); return; } } if (symlink(Slnkpth, Spath) < 0) { fprintf(stderr, "%s: Can't create symlink %s", arg0, Spath); because(); return; } printf("%s %s -> %s\n", forced_update ? "Updated: " : "Installed:", Spath, Slnkpth); break; #endif case S_IFREG: if (interact && !update) { printf("Install %s", Spath); if (!ask('n')) { order(CANCEL); return; } } order(CAT); if (answer() != DATA) return; busy= 1; if ((f= creat(Spath, backup ? 0644 : Sst.st_mode&07777)) < 0) { busy= 0; fprintf(stderr, "%s: Can't create %s", arg0, Spath); because(); } while ((n= receive(buf, sizeof(buf)))>0) { if (f >= 0 && write(f, buf, n) != n) { fprintf(stderr, "%s: Write error on %s", arg0, Spath); because(); close(f); f= -1; } } if (n < 0) { fprintf(stderr, "%s: Slave read err on %s\n", arg0, Spath); } if (f >= 0) close(f); if (n < 0 || f < 0) { makeold(); busy= 0; return; } busy= 0; printf("%s %s\n", forced_update ? Sst.st_mtime < st.st_mtime ? "Restored: " : "Updated: " : "Installed:", Spath ); break; default: fprintf(stderr, "%s: Won't add file with strange mode %05o: %s\n", arg0, Sst.st_mode, Spath); order(CANCEL); return; } setmodes(1); } static int delete(update) int update; /* Delete path. */ { int forced_update= force && update; if (S_ISDIR(st.st_mode)) { if (install) return 0; if (!force) { printf("Delete dir %s", path); if (!ask('n')) return 0; } if (!removedir(path)) { ex= 1; return 0; } if (!forced_update) printf("Directory %s deleted.\n", path); return 1; } if (install && !update) return 0; if (!force) { printf("Delete %s", path); if (!ask((interact && !update) ? 'n' : 'y')) return 0; } if (unlink(path)<0) { fprintf(stderr, "Can't delete %s", path); because(); return 0; } cancellink(); if (!forced_update) printf("Deleted: %s\n", path); return 1; } static int different() /* Return true iff path and Spath are different. */ { if (! ( (linkpath == nil && Slinkpath == nil) || (linkpath != nil && Slinkpath != nil && strcmp(linkpath, Slinkpath) == 0) )) { linkpath= Slinkpath; return 1; } if ((st.st_mode & S_IFMT) != (Sst.st_mode & S_IFMT)) return 1; switch (st.st_mode & S_IFMT) { case S_IFDIR: return 0; case S_IFBLK: case S_IFCHR: return st.st_rdev != Sst.st_rdev; case S_IFREG: if (install) return Sst.st_mtime > st.st_mtime; return st.st_size != Sst.st_size || st.st_mtime != Sst.st_mtime; case S_IFIFO: return 0; #ifdef S_IFLNK case S_IFLNK: return strcmp(lnkpth, Slnkpth) != 0; #endif default: return 1; } } static void compare() /* See if path and Spath are same. */ { if (different()) { if (!force) { printf("%sing %s (delete + add)\n", Sst.st_mtime < st.st_mtime ? "Restor" : "Updat", path); } if (delete(1)) add(1); } else { if (!install) setmodes(0); if (S_ISDIR(st.st_mode)) { order(ENTER); enter(); } } } static int done= 0, Sdone= 0; static enum action { ADD, COMPARE, DELETE } action() /* Look at path's of master and slave, compare them alphabetically to see * who is ahead of who, then tell what is to be done. */ { int c; char *Sp, *p; if (done) return ADD; /* Slave still has names. */ if (Sdone) return DELETE; /* Master has too many names. */ /* Compare paths. Let "a/a" come before "a.a". */ Sp= Spath; p= path; while (*Sp == *p && *Sp != 0) { Sp++; p++; } if (*Sp == '/') return ADD; if (*p == '/') return DELETE; return (c= strcmp(Sp, p)) == 0 ? COMPARE : c < 0 ? ADD : DELETE; } static void master() /* Synchronise file tree to that of its slave. */ { enum action a= COMPARE; /* Trick first advances. */ umask(backup ? 0022 : 0000); signal(SIGPIPE, SIG_IGN); signal(SIGHUP, bail_out); signal(SIGINT, bail_out); signal(SIGTERM, bail_out); while (!done || !Sdone) { if (!Sdone && (a == ADD || a == COMPARE)) { /* Slave advances. */ order(ADVANCE); switch (answer()) { case PATH: Slinkpath= nil; receive(Spath, sizeof(Spath)); recstat(&Sst); break; case LINK: receive(Slnkpth, sizeof(Slnkpth)); Slinkpath= Slnkpth; receive(Spath, sizeof(Spath)); recstat(&Sst); break; case SYMLINK: Slinkpath= nil; receive(Slnkpth, sizeof(Slnkpth)); receive(Spath, sizeof(Spath)); recstat(&Sst); break; case DONE: Sdone= 1; break; default: fprintf(stderr, "%s: Strange answer from slave.\n", arg0); exit(1); } } if (!done && (a == COMPARE || a == DELETE)) { /* Master advances. */ if (!advance()) done= 1; } if (done && Sdone) break; switch (a= action()) { case ADD: /* Spath exists, path doesn't, add? */ add(0); break; case COMPARE: /* They both exist, are they the same? */ compare(); break; case DELETE: /* path exists, Spath doesn't, delete? */ delete(0); } fflush(stdout); /* Don't keep user in suspense. */ } order(ex == 0 ? DIE : DIE_BAD); } static void mediator() /* Sits at the local machine and passes orders from master to slave, both * on remote machines. Only diagnostics and questions are handled. */ { enum orders req; for (;;) { switch (req= request()) { case DIE_BAD: ex= 1; /*FALL THROUGH*/ case DIE: order(DIE); return; case POSITIVE: order(ask('y') ? PASS_YES : PASS_NO); break; case NEGATIVE: order(ask('n') ? PASS_YES : PASS_NO); break; default: order(req); } } } #define P_EXIT 1 /* Make sure process doesn't return. */ #define P_SHADOW 2 /* Always use exec on 68000. */ static void startprocess(proc, machine, path, p_flags) void (*proc)(); char *machine, *path; int p_flags; { char *argv[10], **argp= argv; char flags[10], *pfl= flags; if (machine != nil) { char *u= machine, *m; *argp++ = "rsh"; if ((m= strchr(machine, '@')) != nil) { *m++ = 0; *argp++ = "-l"; *argp++ = u; machine= m; } *argp++ = machine; } else /* Without this check it would run like a pig on an non MMU 68000: */ if (!(USE_SHADOWING && p_flags & P_SHADOW)) { if (chdir(path) < 0) { if (proc != master || errno != ENOENT || mkdir(path, 0700) < 0) perrx(path); if (chdir(path) < 0) perrx(path); printf("Destination directory %s created\n", path); } isvisible(path); isbackup(proc == slave); (*proc)(); if (p_flags & P_EXIT) exit(ex); return; } *argp++ = SYNCNAME; *pfl++ = '-'; if (interact) *pfl++ = 'i'; if (install) *pfl++ = 'u'; if (force) *pfl++ = 'f'; *pfl= 0; *argp++ = flags; *argp++ = proc == slave ? SLAVENAME : MASTERNAME; *argp++ = path; *argp++ = nil; #ifdef DEBUG fprintf(stderr, "execlp("); for (argp= argv; *argp != nil; argp++) fprintf(stderr, "%s, ", *argp); fprintf(stderr, "nil);\n"); #endif execvp(argv[0], argv); perrx(argv[0]); } void splitcolon(path, amach, adir) char *path, **amach, **adir; { char *dir= path; for (;;) { if (*dir == ':') { *dir++ = 0; *amach= path; *adir= dir; break; } if (*dir == 0 || *dir == '/') { *amach= nil; *adir= path; break; } dir++; } } static void Usage() { fprintf(stderr, "Usage: %s [-iuf] [[user@]machine:]dir1 [[user@]machine:]dir2\n", arg0); exit(1); } main(argc, argv) int argc; char **argv; { char *s_mach, *s_dir; char *m_mach, *m_dir; int m2s[2], s2m[2], m2m[2]; int s_pid= 0, m_pid= 0; int r; if ((arg0= strrchr(argv[0], '/')) == nil) arg0= argv[0]; else arg0++; while (argc>1 && argv[1][0] == '-') { char *f= argv[1]+1; while (*f != 0) { switch (*f++) { case 'i': interact= 1; break; case 'u': install= 1; break; case 'f': force= 1; break; default: Usage(); } } argc--; argv++; } if (argc != 3) Usage(); if (strcmp(argv[1], SLAVENAME) == 0) { arg0= "Slave"; splitcolon(argv[2], &s_mach, &s_dir); startprocess(slave, s_mach, s_dir, P_EXIT); } else if (strcmp(argv[1], MASTERNAME) == 0) { arg0= "Master"; splitcolon(argv[2], &m_mach, &m_dir); startprocess(master, m_mach, m_dir, P_EXIT); } splitcolon(argv[1], &s_mach, &s_dir); splitcolon(argv[2], &m_mach, &m_dir); /* How difficult can plumbing be? */ if (pipe(m2s) < 0 || pipe(s2m) < 0) perrx("pipe()"); if (m_mach == nil) { /* synctree [machine:]dir1 dir2 */ switch (s_pid= fork()) { case -1: perrx("fork()"); case 0: dup2(m2s[0], 0); close(m2s[0]); close(m2s[1]); dup2(s2m[1], 1); close(s2m[0]); close(s2m[1]); arg0= "Slave"; startprocess(slave, s_mach, s_dir, P_EXIT|P_SHADOW); } chan[0]= s2m[0]; close(s2m[1]); chan[1]= m2s[1]; close(m2s[0]); startprocess(master, m_mach, m_dir, 0); } else if (s_mach == nil) { /* synctree dir1 machine:dir2 */ switch (m_pid= fork()) { case -1: perrx("fork()"); case 0: dup2(s2m[0], 0); close(s2m[0]); close(s2m[1]); dup2(m2s[1], 1); close(m2s[0]); close(m2s[1]); arg0= "Master"; startprocess(master, m_mach, m_dir, P_EXIT|P_SHADOW); } chan[0]= m2s[0]; close(m2s[1]); chan[1]= s2m[1]; close(s2m[0]); startprocess(slave, s_mach, s_dir, 0); } else { /* synctree machine1:dir1 machine2:dir2 */ if (pipe(m2m) < 0) perrx(pipe); switch (s_pid= fork()) { case -1: perrx("fork()"); case 0: dup2(m2s[0], 0); close(m2s[0]); close(m2s[1]); dup2(s2m[1], 1); close(s2m[0]); close(s2m[1]); close(m2m[0]); close(m2m[1]); arg0= "Slave"; startprocess(slave, s_mach, s_dir, P_EXIT|P_SHADOW); } switch (m_pid= fork()) { case -1: perrx("fork()"); case 0: dup2(s2m[0], 0); close(s2m[0]); close(s2m[1]); close(m2s[0]); close(m2s[1]); dup2(m2m[1], 1); close(m2m[0]); close(m2m[1]); arg0= "Master"; startprocess(master, m_mach, m_dir, P_EXIT|P_SHADOW); } close(s2m[0]); close(s2m[1]); chan[0]= m2m[0]; close(m2m[1]); chan[1]= m2s[1]; close(m2s[0]); mediator(); } close(chan[0]); close(chan[1]); alarm(15); /* Don't wait(2) forever. */ while (s_pid != 0 || m_pid != 0) { if ((r= wait((int *) nil)) < 0) perrx("wait()"); if (r == s_pid) s_pid= 0; if (r == m_pid) m_pid= 0; } exit(ex); }