/* $OpenBSD: fileio.c,v 1.14 2001/05/23 22:36:14 art Exp $ */ /* * POSIX fileio.c */ #include "def.h" static FILE *ffp; #include #include #include #include #include #include /* * Open a file for reading. */ int ffropen(fn, bp) char *fn; BUFFER *bp; { struct stat statbuf; if ((ffp = fopen(fn, "r")) == NULL) return (FIOFNF); if (bp && fstat(fileno(ffp), &statbuf) == 0) { /* set highorder bit to make sure this isn't all zero */ bp->b_fi.fi_mode = statbuf.st_mode | 0x8000; bp->b_fi.fi_uid = statbuf.st_uid; bp->b_fi.fi_gid = statbuf.st_gid; } return (FIOSUC); } /* * Open a file for writing. * Return TRUE if all is well, and * FALSE on error (cannot create). */ int ffwopen(fn, bp) char *fn; BUFFER *bp; { if ((ffp = fopen(fn, "w")) == NULL) { ewprintf("Cannot open file for writing"); return (FIOERR); } /* * If we have file information, use it. We don't bother to check for * errors, because there's no a lot we can do about it. Certainly * trying to change ownership will fail if we aren' root. That's * probably OK. If we don't have info, no need to get it, since any * future writes will do the same thing. */ if (bp && bp->b_fi.fi_mode) { chmod(fn, bp->b_fi.fi_mode & 07777); chown(fn, bp->b_fi.fi_uid, bp->b_fi.fi_gid); } return (FIOSUC); } /* * Close a file. * XXX - Should look at the status. */ /* ARGSUSED */ int ffclose(bp) BUFFER *bp; { (void) fclose(ffp); return (FIOSUC); } /* * Write a buffer to the already * opened file. bp points to the * buffer. Return the status. * Check only at the newline and * end of buffer. */ int ffputbuf(bp) BUFFER *bp; { char *cp; char *cpend; LINE *lp; LINE *lpend; lpend = bp->b_linep; lp = lforw(lpend); do { cp = <ext(lp)[0]; /* begining of line */ cpend = &cp[llength(lp)]; /* end of line */ while (cp != cpend) { putc(*cp, ffp); cp++; /* putc may evaluate arguments more than once */ } lp = lforw(lp); if (lp == lpend) break; /* no implied \n on last line */ putc('\n', ffp); } while (!ferror(ffp)); if (ferror(ffp)) { ewprintf("Write I/O error"); return FIOERR; } return (FIOSUC); } /* * Read a line from a file, and store the bytes * in the supplied buffer. Stop on end of file or end of * line. When FIOEOF is returned, there is a valid line * of data without the normally implied \n. */ int ffgetline(buf, nbuf, nbytes) char *buf; int nbuf; int *nbytes; { int c; int i; i = 0; while ((c = getc(ffp)) != EOF && c != '\n') { buf[i++] = c; if (i >= nbuf) return FIOLONG; } if (c == EOF && ferror(ffp) != FALSE) { ewprintf("File read error"); return FIOERR; } *nbytes = i; return c == EOF ? FIOEOF : FIOSUC; } #ifndef NO_BACKUP /* * Make a backup copy of "fname". On Unix the backup has the same * name as the original file, with a "~" on the end; this seems to * be newest of the new-speak. The error handling is all in "file.c". * We do a copy instead of a rename since otherwise another process * with an open fd will get the backup, not the new file. This is * a problem when using mg with things like crontab and vipw. */ int fbackupfile(fn) char *fn; { struct stat sb; int from, to, serrno; size_t nread; size_t len; char buf[BUFSIZ]; char *nname; len = strlen(fn); if ((nname = malloc(len + 1 + 1)) == NULL) { ewprintf("Can't get %d bytes", len + 1 + 1); return (ABORT); } (void) strcpy(nname, fn); (void) strcpy(nname + len, "~"); if (stat(fn, &sb) == -1) { ewprintf("Can't stat %s", fn); return (FALSE); } if ((from = open(fn, O_RDONLY)) == -1) return (FALSE); to = open(nname, O_WRONLY|O_CREAT|O_TRUNC, (sb.st_mode & 0777)); if (to == -1) { serrno = errno; close(from); errno = serrno; return (FALSE); } while ((nread = read(from, buf, sizeof(buf))) > 0) { if (write(to, buf, nread) != nread) { nread = -1; break; } } serrno = errno; close(from); close(to); if (nread == -1) unlink(nname); free(nname); errno = serrno; return (nread == -1 ? FALSE : TRUE); } #endif /* * The string "fn" is a file name. * Perform any required appending of directory name or case adjustments. * If NO_DIR is not defined, the same file should be refered to even if the * working directory changes. */ #ifdef SYMBLINK #include #include #ifndef MAXLINK #define MAXLINK 8 /* maximum symbolic links to follow */ #endif #endif #include #ifndef NO_DIR extern char *wdir; #endif char * adjustname(fn) char *fn; { char *cp; static char fnb[NFILEN]; struct passwd *pwent; #ifdef SYMBLINK struct stat statbuf; int i, j; char linkbuf[NFILEN]; #endif switch (*fn) { case '/': cp = fnb; *cp++ = *fn++; break; case '~': fn++; cp = getenv("HOME"); if (cp != NULL && *cp != '\0' && (*fn == '/' || *fn == '\0')) { (void) strcpy(fnb, cp); cp = fnb + strlen(fnb); if (*fn) fn++; break; } else { cp = fnb; while (*fn && *fn != '/') *cp++ = *fn++; *cp = '\0'; if ((pwent = getpwnam(fnb)) != NULL) { (void) strcpy(fnb, pwent->pw_dir); cp = fnb + strlen(fnb); break; } else { fn -= strlen(fnb) + 1; /* can't find ~user, continue to default case */ } } default: #ifndef NODIR strcpy(fnb, wdir); cp = fnb + strlen(fnb); break; #else return fn; /* punt */ #endif } if (cp != fnb && cp[-1] != '/') *cp++ = '/'; while (*fn) { switch (*fn) { case '.': switch (fn[1]) { case '\0': *--cp = '\0'; return fnb; case '/': fn += 2; continue; case '.': if (fn[2] != '/' && fn[2] != '\0') break; #ifdef SYMBLINK cp[-1] = '\0'; for (j = MAXLINK; j-- && lstat(fnb, &statbuf) != -1 && (statbuf.st_mode & S_IFMT) == S_IFLNK && (i = readlink(fnb, linkbuf, sizeof linkbuf)) != -1;) { if (linkbuf[0] != '/') { --cp; while (cp > fnb && *--cp != '/') { } ++cp; (void) strncpy(cp, linkbuf, i); cp += i; } else { (void) strncpy(fnb, linkbuf, i); cp = fnb + i; } if (cp[-1] != '/') *cp++ = '\0'; else cp[-1] = '\0'; } cp[-1] = '/'; #endif --cp; while (cp > fnb && *--cp != '/') { } ++cp; if (fn[2] == '\0') { *--cp = '\0'; return fnb; } fn += 3; continue; default: break; } break; case '/': fn++; continue; default: break; } while (*fn && (*cp++ = *fn++) != '/') { } } if (cp[-1] == '/') --cp; *cp = '\0'; return fnb; } #ifndef NO_STARTUP /* * Find a startup file for the user and return its name. As a service * to other pieces of code that may want to find a startup file (like * the terminal driver in particular), accepts a suffix to be appended * to the startup file name. */ char * startupfile(suffix) char *suffix; { static char file[NFILEN]; char *home; if ((home = getenv("HOME")) == NULL || *home == '\0') goto nohome; if (suffix == NULL) { if (snprintf(file, sizeof(file), "%s/.mg", home) >= sizeof(file)) return NULL; } else { if (snprintf(file, sizeof(file), "%s/.mg-%s", home, suffix) >= sizeof(file)) return NULL; } if (access(file, R_OK) == 0) return file; nohome: #ifdef STARTUPFILE if (suffix == NULL) if (snprintf(file, sizeof(file), "%s", STARTUPFILE) >= sizeof(file)) return NULL; } else { if (snprintf(file, sizeof(file), "%s%s", STARTUPFILE, suffix) >= sizeof(file)) return NULL; } if (access(file, R_OK) == 0) return file; #endif return NULL; } #endif #ifndef NO_DIRED #include #include "kbd.h" int copy(frname, toname) char *frname; char *toname; { pid_t pid; int status; if ((pid = vfork())) { if (pid == -1) return -1; execl("/bin/cp", "cp", frname, toname, NULL); _exit(1); /* shouldn't happen */ } waitpid(pid, &status, 0); return (WIFEXITED(status) && WEXITSTATUS(status) == 0); } BUFFER * dired_(dirname) char *dirname; { BUFFER *bp; FILE *dirpipe; char line[256]; if ((dirname = adjustname(dirname)) == NULL) { ewprintf("Bad directory name"); return NULL; } if (dirname[strlen(dirname) - 1] != '/') (void) strcat(dirname, "/"); if ((bp = findbuffer(dirname)) == NULL) { ewprintf("Could not create buffer"); return NULL; } if (bclear(bp) != TRUE) return FALSE; (void) strcpy(line, "ls -al "); (void) strcpy(&line[7], dirname); if ((dirpipe = popen(line, "r")) == NULL) { ewprintf("Problem opening pipe to ls"); return NULL; } line[0] = line[1] = ' '; while (fgets(&line[2], 254, dirpipe) != NULL) { line[strlen(line) - 1] = '\0'; /* remove ^J */ (void) addline(bp, line); } if (pclose(dirpipe) == -1) { ewprintf("Problem closing pipe to ls"); return NULL; } bp->b_dotp = lforw(bp->b_linep); /* go to first line */ (void) strncpy(bp->b_fname, dirname, NFILEN); if ((bp->b_modes[0] = name_mode("dired")) == NULL) { bp->b_modes[0] = &map_table[0]; ewprintf("Could not find mode dired"); return NULL; } bp->b_nmodes = 0; return bp; } int d_makename(lp, fn) LINE *lp; char *fn; { char *cp; if (llength(lp) <= 56) return ABORT; (void) strcpy(fn, curbp->b_fname); cp = fn + strlen(fn); bcopy(&lp->l_text[56], cp, llength(lp) - 56); cp[llength(lp) - 56] = '\0'; return lgetc(lp, 2) == 'd'; } #endif /* NO_DIRED */ struct filelist { LIST fl_l; char fl_name[NFILEN + 2]; }; /* * return list of file names that match the name in buf. */ LIST * make_file_list(buf) char *buf; { char *dir, *file, *cp; int len, preflen; DIR *dirp; struct dirent *dent; LIST *last; struct filelist *current; char prefixx[NFILEN + 1]; struct stat statbuf; char statname[NFILEN + 2]; /* * We need three different strings: dir - the name of the directory * containing what the user typed. Must be a real unix file name, * e.g. no ~user, etc.. Must not end in /. prefix - the portion of * what the user typed that is before the names we are going to find * in the directory. Must have a trailing / if the user typed it. * names from the directory. we open dir, and return prefix * concatenated with names. */ /* first we get a directory name we can look up */ /* * Names ending in . are potentially odd, because adjustname will * treat foo/.. as a reference to another directory, whereas we are * interested in names starting with .. */ len = strlen(buf); if (buf[len - 1] == '.') { buf[len - 1] = 'x'; dir = adjustname(buf); buf[len - 1] = '.'; } else dir = adjustname(buf); /* * If the user typed a trailing / or the empty string * he wants us to use his file spec as a directory name. */ if (buf[0] && buf[strlen(buf) - 1] != '/') { file = strrchr(dir, '/'); if (file) { *file = 0; if (*dir == 0) dir = "/"; } else { return (NULL); } } /* Now we get the prefix of the name the user typed. */ strcpy(prefixx, buf); cp = strrchr(prefixx, '/'); if (cp == NULL) prefixx[0] = 0; else cp[1] = 0; preflen = strlen(prefixx); /* cp is the tail of buf that really needs to be compared */ cp = buf + preflen; len = strlen(cp); /* * Now make sure that file names will fit in the buffers allocated. * SV files are fairly short. For BSD, something more general would * be required. */ if ((preflen + MAXNAMLEN) > NFILEN) return (NULL); /* loop over the specified directory, making up the list of files */ /* * Note that it is worth our time to filter out names that don't * match, even though our caller is going to do so again, and to * avoid doing the stat if completion is being done, because stat'ing * every file in the directory is relatively expensive. */ dirp = opendir(dir); if (dirp == NULL) return (NULL); last = NULL; while ((dent = readdir(dirp)) != NULL) { if (dent->d_namlen < len || memcmp(cp, dent->d_name, len) != 0) continue; current = (struct filelist *) malloc(sizeof(struct filelist)); if (current == NULL) break; if (snprintf(current->fl_name, sizeof(current->fl_name), "%s%s", prefixx, dent->d_name) > sizeof(current->fl_name)) { free(current); continue; } current->fl_l.l_next = last; current->fl_l.l_name = current->fl_name; last = (LIST *) current; if (dent->d_type == DT_DIR) { strcat(current->fl_name, "/"); continue; } else if (dent->d_type != DT_UNKNOWN) continue; statbuf.st_mode = 0; if (snprintf(statname, sizeof(statname), "%s/%s", dir, dent->d_name) > sizeof(statname) - 1) { continue; } if (stat(statname, &statbuf) < 0) continue; if (statbuf.st_mode & 040000) strcat(current->fl_name, "/"); } closedir(dirp); return (last); }