/** * libpassphrase – Personalisable library for TTY passphrase reading * * Copyright © 2013, 2014, 2015 Mattias Andrée (maandree@member.fsf.org) * * 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 . */ #include #include #include #include #include #include #include #include #include #define PASSPHRASE_USE_DEPRECATED #include "passphrase.h" #include "passphrase_helper.h" #ifndef START_PASSPHRASE_LIMIT # define START_PASSPHRASE_LIMIT 32 #endif #ifndef DEFAULT_PASSPHRASE_METER # define DEFAULT_PASSPHRASE_METER "passcheck" #endif #ifdef PASSPHRASE_METER struct passcheck_state { const char* label; int pipe_rw[2]; pid_t pid; int flags; }; static char* strength = NULL; static size_t strength_size = 0; #endif /* PASSPHRASE_METER */ #ifndef PASSPHRASE_REALLOC static char* xrealloc(char* array, size_t cur_size, size_t new_size) { char* rc = malloc(new_size * sizeof(char)); size_t i; if (rc) for (i = 0; i < cur_size; i++) *(rc + i) = *(array + i); passphrase_wipe(array, cur_size); free(array); return rc; } #else /* !PASSPHRASE_REALLOC */ # define xrealloc(array, _cur_size, new_size) realloc(array, (new_size) * sizeof(char)) #endif /* !PASSPHRASE_REALLOC */ #ifdef PASSPHRASE_METER static void passcheck_start(struct passcheck_state* state, int flags) { const char* command; int pipe_rw[2] = { -1, -1 }; int exec_rw[2] = { -1, -1 }; pid_t pid; ssize_t n; int i = 0; state->pid = -1; state->flags = (flags & PASSPHRASE_READ_NEW) ? (flags ^ PASSPHRASE_READ_NEW) : 0; if (state->flags == 0) return; if (state->flags & PASSPHRASE_READ_BELOW_FREE) state->flags &= ~PASSPHRASE_READ_SCREEN_FREE; command = getenv("LIBPASSPHRASE_METER"); if (!command || !*command) command = DEFAULT_PASSPHRASE_METER; state->label = getenv("LIBPASSPHRASE_STRENGTH_LABEL"); if (!(state->label) || !*(state->label)) state->label = PASSPHRASE_TEXT_STRENGTH; xpipe(state->pipe_rw); xpipe(pipe_rw); xpipe(exec_rw); /* ‘Their integer values shall be the two lowest available at the time of the pipe() call’ [man 3p pipe] * This guarantees (unless the application is doing something stupid) that the file desriptors * in exec_rw[1] is not stdin, stdout, stderr, or 0 (required by FD_CLOEXEC to take affect), assuming * stdin, stdout, and stderr are 0, 1, and 2, respectively, as specified in `man 3p stdin`. */ if (fcntl(exec_rw[1], F_SETFD, FD_CLOEXEC) == -1) goto fail; pid = fork(); if (pid == -1) { state->flags = 0; goto fail; } close(exec_rw[!!pid]), exec_rw[!!pid] = -1; close(state->pipe_rw[!!pid]), state->pipe_rw[!!pid] = -1; close(pipe_rw[!pid]), pipe_rw[!pid] = -1; state->pipe_rw[!!pid] = pipe_rw[!!pid], pipe_rw[!!pid] = -1; if (pid == 0) { gid_t gid = getgid(), egid = getegid(); uid_t uid = getuid(), euid = geteuid(); int fd; if ((state->pipe_rw[0] != STDIN_FILENO) && (state->pipe_rw[1] == STDIN_FILENO)) { fd = dup(state->pipe_rw[1]); if (fd == -1) goto child_fail; state->pipe_rw[1] = fd; } for (i = 0; i <= 1; i++) if (state->pipe_rw[i] != i) { close(i); fd = dup2(state->pipe_rw[i], i); if (fd == -1) goto child_fail; close(state->pipe_rw[i]); state->pipe_rw[i] = fd; } close(STDERR_FILENO); if (egid != gid) if (setregid(gid, gid) && gid) goto child_fail; if (euid != uid) if (setreuid(uid, uid) && uid) goto child_fail; execlp(command, command, "-r", NULL); child_fail: n = write(exec_rw[1], &i, sizeof(i)); _exit(!!n); } rewait: n = read(exec_rw[0], &i, sizeof(i)); if ((n < 0) && (errno == EINTR)) goto rewait; if (n) { rereap: if ((waitpid(pid, &i, 0) == -1) && (errno == EINTR)) goto rereap; goto fail; } if (state->flags & PASSPHRASE_READ_SCREEN_FREE) { struct termios stty; struct termios saved_stty; tcgetattr(STDERR_FILENO, &stty); saved_stty = stty; stty.c_oflag &= (tcflag_t)~ONLCR; tcsetattr(STDERR_FILENO, TCSAFLUSH, &stty); fprintf(stderr, "\n\033[A"); fflush(stderr); tcsetattr(STDERR_FILENO, TCSAFLUSH, &saved_stty); } close(exec_rw[0]); state->pid = pid; return; fail: if (state->pipe_rw[0] >= 0) close(state->pipe_rw[0]); if (state->pipe_rw[1] >= 0) close(state->pipe_rw[1]); if (pipe_rw[0] >= 0) close(pipe_rw[0]); if (pipe_rw[1] >= 0) close(pipe_rw[1]); if (exec_rw[0] >= 0) close(exec_rw[0]); if (exec_rw[1] >= 0) close(exec_rw[1]); state->pid = -1; state->flags = 0; } static void passcheck_stop(struct passcheck_state* state) { int _status; if (state->flags == 0) return; close(state->pipe_rw[0]); close(state->pipe_rw[1]); free(strength), strength = NULL; strength_size = 0; rereap: if ((waitpid(state->pid, &_status, 0) == -1) && (errno == EINTR)) goto rereap; if (state->flags & PASSPHRASE_READ_SCREEN_FREE) fprintf(stderr, "\033[s\033[E\033[0K\033[u"); else fprintf(stderr, "\033[B\033[0K\033[A"); fflush(stderr); state->flags = 0; } static void passcheck_update(struct passcheck_state* state, const char* passphrase, size_t len) { size_t strength_ptr = 0; ssize_t n; int i; void* new; char* p; unsigned long long int value; const char* desc; if (state->flags == 0) return; for (i = 0; i < 2; i++, passphrase = "\n", len = 1) while (len) { n = write(state->pipe_rw[1], passphrase, len); if (n < 0) { if (errno == EINTR) continue; goto fail; } passphrase += (size_t)n; len -= (size_t)n; } again: if (strength_ptr == strength_size) { strength_size = strength_size ? (strength_size << 1) : 8; new = realloc(strength, strength_size * sizeof(char)); if (new == NULL) goto fail; strength = new; } n = read(state->pipe_rw[0], strength + strength_ptr, strength_size - 1 - strength_ptr); if (n <= 0) { if (n && (errno == EINTR)) goto again; goto fail; } strength_ptr += (size_t)n; strength[strength_ptr] = '\0'; p = strpbrk(strength, " \t\r\f\n\v"); if (p == NULL) goto again; if (*p == '\033') { p = strpbrk(strength, "QWERTYUIOPASDFGHJKLZXCVBNMqwertyuiopasdfghjklzxcvbnm~"); if (p == NULL) goto fail; p++; } else p = strength; *(strpbrk(p, " \t\r\f\n\v\033")) = '\0'; errno = 0; value = strtoull(p, NULL, 10); if ((value == 0) && errno) { if (errno != ERANGE) goto fail; value = ULLONG_MAX; } while (memchr(strength, '\n', strength_ptr) == NULL) { strength_ptr = 0; n = read(state->pipe_rw[0], strength, strength_size); if (n <= 0) { if (n && (errno == EINTR)) goto again; goto fail; } strength_ptr = (size_t)n; } strength_ptr = 0; if (0); #define X(COND, COLOUR, DESC) else if (COND) desc = COLOUR"m"DESC; LIST_PASSPHRASE_STRENGTH_LIMITS(value) #undef X if (state->flags & PASSPHRASE_READ_SCREEN_FREE) fprintf(stderr, "\033[s\033[E\033[0K%s \033[%s\033[m (%lli)\033[u", state->label, desc, value); else fprintf(stderr, "\033[B\033[s\033[0K\033[%s\033[m (%lli)\033[u\033[A", desc, value); fflush(stderr); return; fail: passcheck_stop(state); } #endif /* PASSPHRASE_METER */ static int fdgetc(int fd) { unsigned char c; if (read(fd, &c, sizeof(c)) <= 0) return -1; return (int)c; } #if defined(PASSPHRASE_DEDICATED) && defined(PASSPHRASE_MOVE) static int get_dedicated_control_key(int fdin) { int c = fdgetc(fdin); if (c == 'O') { c = fdgetc(fdin); if (c == 'H') return KEY_HOME; if (c == 'F') return KEY_END; } else if (c == '[') { c = fdgetc(fdin); if (c == 'C') return KEY_RIGHT; if (c == 'D') return KEY_LEFT; if (('1' <= c) && (c <= '4') && (fdgetc(fdin) == '~')) return -(c - '0'); } return 0; } #endif /* PASSPHRASE_DEDICATED && PASSPHRASE_MOVE */ #ifdef PASSPHRASE_MOVE static int get_key(int c, int fdin) { # ifdef PASSPHRASE_DEDICATED if (c == '\033') return get_dedicated_control_key(fdin); # else /* PASSPHRASE_DEDICATED */ (void) fdin; # endif /* PASSPHRASE_DEDICATED */ if ((c == 8) || (c == 127)) return KEY_ERASE; if ((c < 0) || (c >= ' ')) return c & 255; # ifdef PASSPHRASE_CONTROL if (c == 'A' - '@') return KEY_HOME; if (c == 'B' - '@') return KEY_LEFT; if (c == 'D' - '@') return KEY_DELETE; if (c == 'E' - '@') return KEY_END; if (c == 'F' - '@') return KEY_RIGHT; # endif /* PASSPHRASE_CONTROL */ return 0; } #endif /* PASSPHRASE_MOVE */ /** * Reads the passphrase from stdin * * @param fdin File descriptor for input * @param flags Settings, a combination of the constants: * * PASSPHRASE_READ_EXISTING * * PASSPHRASE_READ_NEW * * PASSPHRASE_READ_SCREEN_FREE * * PASSPHRASE_READ_BELOW_FREE * Invalid input is ignored, to make use the * application will work. * @return The passphrase, should be wiped and `free`:ed, `NULL` on error */ char* passphrase_read2(int fdin, int flags) { char* rc = malloc(START_PASSPHRASE_LIMIT * sizeof(char)); size_t size = START_PASSPHRASE_LIMIT; size_t len = 0; #ifdef PASSPHRASE_MOVE size_t point = 0; size_t i = 0; # if defined(PASSPHRASE_OVERRIDE) && defined(PASSPHRASE_INSERT) char insert = DEFAULT_INSERT_VALUE; # endif /* PASSPHRASE_OVERRIDE && PASSPHRASE_INSERT */ #endif /* PASSPHRASE_MOVE */ #ifdef PASSPHRASE_TEXT size_t printed_len = 0; #endif /* PASSPHRASE_TEXT */ int c; #ifdef PASSPHRASE_MOVE int cc; #endif #ifdef PASSPHRASE_METER struct passcheck_state passcheck; #endif /* PASSPHRASE_METER */ if (rc == NULL) return NULL; #ifdef PASSPHRASE_METER passcheck_start(&passcheck, flags); #endif /* PASSPHRASE_METER */ #ifdef PASSPHRASE_TEXT xprintf("%s%zn", PASSPHRASE_TEXT_EMPTY, &printed_len); if (printed_len) xprintf("\e[%zuD", printed_len); #endif /* PASSPHRASE_TEXT */ /* Read password until EOF or Enter, skip all \0 as that is probably not a part of the passphrase (good luck typing that in X.org) and can be echoed into stdin by the kernel. */ for (;;) { c = fdgetc(fdin); if ((c < 0) || (c == '\n')) { #ifdef PASSPHRASE_METER passcheck_stop(&passcheck); #endif /* PASSPHRASE_METER */ break; } if (c == 0) continue; #if defined(PASSPHRASE_MOVE) cc = get_key(c, fdin); if (cc > 0) { c = (char)cc; if (point == len) append_char(); # ifdef PASSPHRASE_INSERT else # ifdef PASSPHRASE_OVERRIDE if (insert) # endif /* PASSPHRASE_OVERRIDE */ insert_char(); # endif /* PASSPHRASE_INSERT */ # ifdef PASSPHRASE_OVERRIDE else override_char(); # endif /* PASSPHRASE_OVERRIDE */ } # if defined(PASSPHRASE_INSERT) && defined(PASSPHRASE_OVERRIDE) else if (cc == KEY_INSERT) insert ^= 1; # endif /* PASSPHRASE_INSERT && PASSPHRASE_OVERRIDE */ # ifdef PASSPHRASE_DELETE else if ((cc == KEY_DELETE) && (len != point)) { delete_next(); print_delete(); } # endif /* PASSPHRASE_DELETE */ else if ((cc == KEY_ERASE) && point) { erase_prev(); print_erase(); } else if ((cc == KEY_HOME) && (point != 0)) move_home(); else if ((cc == KEY_END) && (point != len)) move_end(); else if ((cc == KEY_RIGHT) && (point != len)) move_right(); else if ((cc == KEY_LEFT) && (point != 0)) move_left(); #elif defined(PASSPHRASE_STAR) || defined(PASSPHRASE_TEXT) /* PASSPHRASE_MOVE */ if ((c == 8) || (c == 127)) { if (len == 0) continue; erase_prev(); print_erase(); #ifdef PASSPHRASE_METER passcheck_update(&passcheck, rc, len); #endif /* PASSPHRASE_METER */ xflush(); # ifdef DEBUG goto debug; # else /* DEBUG */ continue; # endif /* DEBUG */ } append_char(); #else /* PASSPHRASE_MOVE, PASSPHRASE_STAR || PASSPHRASE_TEXT */ append_char(); #endif /* PASSPHRASE_MOVE, PASSPHRASE_STAR || PASSPHRASE_TEXT */ #ifdef PASSPHRASE_METER passcheck_update(&passcheck, rc, len); #endif /* PASSPHRASE_METER */ xflush(); if (len == size) { if ((rc = xrealloc(rc, (size_t)size, (size_t)size << 1)) == NULL) return NULL; size <<= 1L; } #ifdef DEBUG # ifdef __GNUC__ # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wunused-label" # endif debug: { size_t n = 0; for (i = point; i < len; i++) if ((*(rc + i) & 0xC0) != 0x80) n++; *(rc + len) = 0; if (n) fprintf(stderr, "\033[s\033[H\033[K%s\033[%zuD\033[01;34m%s\033[00m\033[u", rc, n, rc + point); else fprintf(stderr, "\033[s\033[H\033[K%s\033[01;34m%s\033[00m\033[u", rc, rc + point); fflush(stderr); } #endif /* DEBUG */ } /* NUL-terminate passphrase */ *(rc + len) = 0; #if !defined(PASSPHRASE_ECHO) || defined(PASSPHRASE_MOVE) fprintf(stderr, "\n"); #endif /* !PASSPHRASE_ECHO || PASSPHRASE_MOVE */ return rc; #ifndef PASSPHRASE_METER (void) flags; #endif /* !PASSPHRASE_METER */ } /** * Reads the passphrase from stdin * * @return The passphrase, should be wiped and `free`:ed, `NULL` on error */ char* passphrase_read(void) { return passphrase_read2(STDIN_FILENO, 0); }