/* $FreeBSD$ */ #include #include "EXTERN.h" #include "common.h" #include "INTERN.h" #include "util.h" #include "backupfile.h" void my_exit(int _status); /* in patch.c */ #ifndef HAVE_STRERROR static char * private_strerror (errnum) int errnum; { extern char *sys_errlist[]; extern int sys_nerr; if (errnum > 0 && errnum <= sys_nerr) return sys_errlist[errnum]; return "Unknown system error"; } #define strerror private_strerror #endif /* !HAVE_STRERROR */ /* Rename a file, copying it if necessary. */ int move_file(char *from, char *to) { char bakname[512]; Reg1 char *s; Reg2 int i; Reg3 int fromfd; /* to stdout? */ if (strEQ(to, "-")) { #ifdef DEBUGGING if (debug & 4) say2("Moving %s to stdout.\n", from); #endif fromfd = open(from, 0); if (fromfd < 0) pfatal2("internal error, can't reopen %s", from); while ((i=read(fromfd, buf, sizeof buf)) > 0) if (write(1, buf, i) != 1) pfatal1("write failed"); Close(fromfd); return 0; } if (origprae) { Strcpy(bakname, origprae); Strcat(bakname, to); } else { #ifndef NODIR char *backupname = find_backup_file_name(to); if (backupname == (char *) 0) fatal1("out of memory\n"); Strcpy(bakname, backupname); free(backupname); #else /* NODIR */ Strcpy(bakname, to); Strcat(bakname, simple_backup_suffix); #endif /* NODIR */ } if (stat(to, &filestat) == 0) { /* output file exists */ dev_t to_device = filestat.st_dev; ino_t to_inode = filestat.st_ino; char *simplename = bakname; for (s=bakname; *s; s++) { if (*s == '/') simplename = s+1; } /* Find a backup name that is not the same file. Change the first lowercase char into uppercase; if that isn't sufficient, chop off the first char and try again. */ while (stat(bakname, &filestat) == 0 && to_device == filestat.st_dev && to_inode == filestat.st_ino) { /* Skip initial non-lowercase chars. */ for (s=simplename; *s && !islower((unsigned char)*s); s++) ; if (*s) *s = toupper((unsigned char)*s); else Strcpy(simplename, simplename+1); } while (unlink(bakname) >= 0) ; /* while() is for benefit of Eunice */ #ifdef DEBUGGING if (debug & 4) say3("Moving %s to %s.\n", to, bakname); #endif if (rename(to, bakname) < 0) { say4("Can't backup %s, output is in %s: %s\n", to, from, strerror(errno)); return -1; } while (unlink(to) >= 0) ; } #ifdef DEBUGGING if (debug & 4) say3("Moving %s to %s.\n", from, to); #endif if (rename(from, to) < 0) { /* different file system? */ Reg4 int tofd; tofd = creat(to, 0666); if (tofd < 0) { say4("Can't create %s, output is in %s: %s\n", to, from, strerror(errno)); return -1; } fromfd = open(from, 0); if (fromfd < 0) pfatal2("internal error, can't reopen %s", from); while ((i=read(fromfd, buf, sizeof buf)) > 0) if (write(tofd, buf, i) != i) pfatal1("write failed"); Close(fromfd); Close(tofd); } Unlink(from); return 0; } /* Copy a file. */ void copy_file(char *from, char *to) { Reg3 int tofd; Reg2 int fromfd; Reg1 int i; tofd = creat(to, 0666); if (tofd < 0) pfatal2("can't create %s", to); fromfd = open(from, 0); if (fromfd < 0) pfatal2("internal error, can't reopen %s", from); while ((i=read(fromfd, buf, sizeof buf)) > 0) if (write(tofd, buf, i) != i) pfatal2("write to %s failed", to); Close(fromfd); Close(tofd); } /* Allocate a unique area for a string. */ char * savestr(char *s) { Reg3 char *rv; Reg2 char *t; if (!s) s = "Oops"; t = s; while (*t++); rv = malloc((MEM) (t - s)); if (rv == Nullch) { if (using_plan_a) out_of_mem = TRUE; else fatal1("out of memory\n"); } else { t = rv; while ((*t++ = *s++)); } return rv; } #if defined(lint) && defined(CANVARARG) /*VARARGS ARGSUSED*/ say(pat) char *pat; { ; } /*VARARGS ARGSUSED*/ fatal(pat) char *pat; { ; } /*VARARGS ARGSUSED*/ pfatal(pat) char *pat; { ; } /*VARARGS ARGSUSED*/ ask(pat) char *pat; { ; } #else /* Vanilla terminal output (buffered). */ void say(pat,arg1,arg2,arg3) char *pat; long arg1,arg2,arg3; { fprintf(stderr, pat, arg1, arg2, arg3); Fflush(stderr); } /* Terminal output, pun intended. */ void /* very void */ fatal(pat,arg1,arg2,arg3) char *pat; long arg1,arg2,arg3; { fprintf(stderr, "patch: **** "); fprintf(stderr, pat, arg1, arg2, arg3); my_exit(1); } /* Say something from patch, something from the system, then silence . . . */ void /* very void */ pfatal(pat,arg1,arg2,arg3) char *pat; long arg1,arg2,arg3; { int errnum = errno; fprintf(stderr, "patch: **** "); fprintf(stderr, pat, arg1, arg2, arg3); fprintf(stderr, ": %s\n", strerror(errnum)); my_exit(1); } /* Get a response from the user, somehow or other. */ int ask(pat,arg1,arg2,arg3) char *pat; long arg1,arg2,arg3; { int ttyfd; int r; bool tty2 = isatty(2); Sprintf(buf, pat, arg1, arg2, arg3); Fflush(stderr); write(2, buf, strlen(buf)); if (tty2) { /* might be redirected to a file */ r = read(2, buf, sizeof buf); } else if (isatty(1)) { /* this may be new file output */ Fflush(stdout); write(1, buf, strlen(buf)); r = read(1, buf, sizeof buf); } else if ((ttyfd = open(_PATH_TTY, 2)) >= 0 && isatty(ttyfd)) { /* might be deleted or unwriteable */ write(ttyfd, buf, strlen(buf)); r = read(ttyfd, buf, sizeof buf); Close(ttyfd); } else if (isatty(0)) { /* this is probably patch input */ Fflush(stdin); write(0, buf, strlen(buf)); r = read(0, buf, sizeof buf); } else { /* no terminal at all--default it */ buf[0] = '\n'; buf[1] = 0; say1(buf); return 0; /* signal possible error */ } if (r <= 0) buf[0] = 0; else buf[r] = '\0'; if (!tty2) say1(buf); if (r <= 0) return 0; /* if there was an error, return it */ else return 1; } #endif /* lint */ /* How to handle certain events when not in a critical region. */ void set_signals(int reset) { #ifndef lint static RETSIGTYPE (*hupval)(),(*intval)(); if (!reset) { hupval = signal(SIGHUP, SIG_IGN); if (hupval != SIG_IGN) hupval = (RETSIGTYPE(*)())my_exit; intval = signal(SIGINT, SIG_IGN); if (intval != SIG_IGN) intval = (RETSIGTYPE(*)())my_exit; } Signal(SIGHUP, hupval); Signal(SIGINT, intval); #endif } /* How to handle certain events when in a critical region. */ void ignore_signals(void) { #ifndef lint Signal(SIGHUP, SIG_IGN); Signal(SIGINT, SIG_IGN); #endif } /* Make sure we'll have the directories to create a file. If `striplast' is TRUE, ignore the last element of `filename'. */ void makedirs(filename,striplast) Reg1 char *filename; bool striplast; { char tmpbuf[256]; Reg2 char *s = tmpbuf; char *dirv[20]; /* Point to the NULs between elements. */ Reg3 int i; Reg4 int dirvp = 0; /* Number of finished entries in dirv. */ /* Copy `filename' into `tmpbuf' with a NUL instead of a slash between the directories. */ while (*filename) { if (*filename == '/') { filename++; dirv[dirvp++] = s; *s++ = '\0'; } else { *s++ = *filename++; } } *s = '\0'; dirv[dirvp] = s; if (striplast) dirvp--; if (dirvp < 0) return; strcpy(buf, "mkdir"); s = buf; for (i=0; i<=dirvp; i++) { struct stat sbuf; if (stat(tmpbuf, &sbuf) && errno == ENOENT) { while (*s) s++; *s++ = ' '; strcpy(s, tmpbuf); } *dirv[i] = '/'; } if (s != buf) system(buf); } /* Make filenames more reasonable. */ char * fetchname(char *at, int strip_leading, int assume_exists) { char *fullname; char *name; Reg1 char *t; char tmpbuf[200]; int sleading = strip_leading; if (!at) return Nullch; while (isspace((unsigned char)*at)) at++; #ifdef DEBUGGING if (debug & 128) say4("fetchname %s %d %d\n",at,strip_leading,assume_exists); #endif if (strnEQ(at, _PATH_DEVNULL, sizeof _PATH_DEVNULL - 1)) /* so files can be created by diffing */ return Nullch; /* against /dev/null. */ name = fullname = t = savestr(at); /* Strip off up to `sleading' leading slashes and null terminate. */ for (; *t && !isspace((unsigned char)*t); t++) if (*t == '/') if (--sleading >= 0) name = t+1; *t = '\0'; /* If no -p option was given (957 is the default value!), we were given a relative pathname, and the leading directories that we just stripped off all exist, put them back on. */ if (strip_leading == 957 && name != fullname && *fullname != '/') { name[-1] = '\0'; if (stat(fullname, &filestat) == 0 && S_ISDIR (filestat.st_mode)) { name[-1] = '/'; name=fullname; } } name = savestr(name); free(fullname); if (stat(name, &filestat) && !assume_exists) { char *filebase = basename(name); int pathlen = filebase - name; /* Put any leading path into `tmpbuf'. */ strncpy(tmpbuf, name, pathlen); #define try(f, a1, a2) (Sprintf(tmpbuf + pathlen, f, a1, a2), stat(tmpbuf, &filestat) == 0) if ( try("RCS/%s%s", filebase, RCSSUFFIX) || try("RCS/%s%s", filebase, "") || try( "%s%s", filebase, RCSSUFFIX) || try("SCCS/%s%s", SCCSPREFIX, filebase) || try( "%s%s", SCCSPREFIX, filebase)) return name; free(name); name = Nullch; } return name; } char * xmalloc(unsigned int size) { register char *p = (char *) malloc (size); if (!p) fatal("out of memory"); return p; }