/* run-encrypt.c - Helper to perform an encrypt operation * Copyright (C) 2016 g10 Code GmbH * * This file is part of GPGME. * * GPGME is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * GPGME 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see . * SPDX-License-Identifier: LGPL-2.1-or-later */ /* We need to include config.h so that we know whether we are building with large file system (LFS) support. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #define PGM "run-encrypt" #include "run-support.h" static int verbose; static int cancel_after_progress; static char * xstrdup (const char *string) { char *p = strdup (string); if (!p) { fprintf (stderr, "strdup failed\n"); exit (2); } return p; } static gpg_error_t status_cb (void *opaque, const char *keyword, const char *value) { (void)opaque; fprintf (stderr, "status_cb: %s %s\n", nonnull(keyword), nonnull(value)); return 0; } static void progress_cb (void *opaque, const char *what, int type, int current, int total) { static int count; gpgme_ctx_t ctx = opaque; gpg_error_t err; (void)type; if (total) fprintf (stderr, "progress for '%s' %u%% (%d of %d)\n", nonnull (what), (unsigned)(((double)current / total) * 100), current, total); else fprintf (stderr, "progress for '%s' %d\n", nonnull(what), current); fflush (stderr); count++; if (cancel_after_progress && count > cancel_after_progress) { err = gpgme_cancel_async (ctx); if (err) fprintf (stderr, "gpgme_cancel failed: %s <%s>\n", gpg_strerror (err), gpg_strsource (err)); else { fprintf (stderr, "operation canceled\n"); cancel_after_progress = 0; } } } static void print_encrypt_result (gpgme_encrypt_result_t result) { gpgme_invalid_key_t invkey; printf ("\nEncryption results\n"); for (invkey = result->invalid_recipients; invkey; invkey = invkey->next) printf ("Encryption key `%s' not used: %s <%s>\n", nonnull (invkey->fpr), gpg_strerror (invkey->reason), gpg_strsource (invkey->reason)); } static void print_sign_result (gpgme_sign_result_t result) { gpgme_invalid_key_t invkey; gpgme_new_signature_t sig; printf ("\nSigning results\n"); for (invkey = result->invalid_signers; invkey; invkey = invkey->next) printf ("Signing key `%s' not used: %s <%s>\n", nonnull (invkey->fpr), gpg_strerror (invkey->reason), gpg_strsource (invkey->reason)); for (sig = result->signatures; sig; sig = sig->next) { printf ("Key fingerprint: %s\n", nonnull (sig->fpr)); printf ("Signature type : %d\n", sig->type); printf ("Public key algo: %d\n", sig->pubkey_algo); printf ("Hash algo .....: %d\n", sig->hash_algo); printf ("Creation time .: %ld\n", sig->timestamp); printf ("Sig class .....: 0x%u\n", sig->sig_class); } } static int show_usage (int ex) { fputs ("usage: " PGM " [options] FILE\n\n" "Options:\n" " --verbose run in verbose mode\n" " --sign sign data before encryption\n" " --status print status lines from the backend\n" " --progress print progress info\n" " --openpgp use the OpenPGP protocol (default)\n" " --cms use the CMS protocol\n" " --uiserver use the UI server\n" " --loopback use a loopback pinentry\n" " --key NAME encrypt to key NAME\n" " --keystring NAMES encrypt to ';' delimited NAMES\n" " --throw-keyids use this option\n" " --always-trust use this option\n" " --no-symkey-cache disable the use of that cache\n" " --wrap assume input is valid OpenPGP message\n" " --symmetric encrypt symmetric (OpenPGP only)\n" " --archive encrypt given file or directory into an archive\n" " --directory DIR switch to directory DIR before encrypting into an archive\n" " --output FILE write output to FILE instead of stdout\n" " --diagnostics print diagnostics\n" " --cancel N cancel after N progress lines\n" , stderr); exit (ex); } int main (int argc, char **argv) { int last_argc = -1; gpgme_error_t err; gpgme_ctx_t ctx; gpgme_protocol_t protocol = GPGME_PROTOCOL_OpenPGP; gpgme_data_t in, out; gpgme_encrypt_result_t encrypt_result; gpgme_sign_result_t sign_result; int print_status = 0; int print_progress = 0; int use_loopback = 0; char *keyargs[10]; gpgme_key_t keys[10+1]; int keycount = 0; char *keystring = NULL; const char *directory = NULL; const char *output = NULL; int i; gpgme_encrypt_flags_t flags = 0; gpgme_off_t offset; int no_symkey_cache = 0; int diagnostics = 0; int sign = 0; if (argc) { argc--; argv++; } if (DIM(keys) != DIM(keyargs)+1) abort (); while (argc && last_argc != argc ) { last_argc = argc; if (!strcmp (*argv, "--")) { argc--; argv++; break; } else if (!strcmp (*argv, "--help")) show_usage (0); else if (!strcmp (*argv, "--verbose")) { verbose = 1; argc--; argv++; } else if (!strcmp (*argv, "--sign")) { sign = 1; argc--; argv++; } else if (!strcmp (*argv, "--status")) { print_status = 1; argc--; argv++; } else if (!strcmp (*argv, "--progress")) { print_progress = 1; argc--; argv++; } else if (!strcmp (*argv, "--openpgp")) { protocol = GPGME_PROTOCOL_OpenPGP; argc--; argv++; } else if (!strcmp (*argv, "--cms")) { protocol = GPGME_PROTOCOL_CMS; argc--; argv++; } else if (!strcmp (*argv, "--uiserver")) { protocol = GPGME_PROTOCOL_UISERVER; argc--; argv++; } else if (!strcmp (*argv, "--key")) { argc--; argv++; if (!argc) show_usage (1); if (keycount == DIM (keyargs)) show_usage (1); keyargs[keycount++] = *argv; argc--; argv++; } else if (!strcmp (*argv, "--keystring")) { argc--; argv++; if (!argc) show_usage (1); keystring = xstrdup (*argv); for (i=0; keystring[i]; i++) if (keystring[i] == ';') keystring[i] = '\n'; argc--; argv++; } else if (!strcmp (*argv, "--throw-keyids")) { flags |= GPGME_ENCRYPT_THROW_KEYIDS; argc--; argv++; } else if (!strcmp (*argv, "--always-trust")) { flags |= GPGME_ENCRYPT_ALWAYS_TRUST; argc--; argv++; } else if (!strcmp (*argv, "--wrap")) { flags |= GPGME_ENCRYPT_WRAP; argc--; argv++; } else if (!strcmp (*argv, "--loopback")) { use_loopback = 1; argc--; argv++; } else if (!strcmp (*argv, "--symmetric")) { flags |= GPGME_ENCRYPT_SYMMETRIC; argc--; argv++; } else if (!strcmp (*argv, "--no-symkey-cache")) { no_symkey_cache = 1; argc--; argv++; } else if (!strcmp (*argv, "--archive")) { flags |= GPGME_ENCRYPT_ARCHIVE; argc--; argv++; } else if (!strcmp (*argv, "--directory")) { argc--; argv++; if (!argc) show_usage (1); directory = *argv; argc--; argv++; } else if (!strcmp (*argv, "--output")) { argc--; argv++; if (!argc) show_usage (1); output = *argv; argc--; argv++; } else if (!strcmp (*argv, "--diagnostics")) { diagnostics = 1; argc--; argv++; } else if (!strcmp (*argv, "--cancel")) { argc--; argv++; if (!argc) show_usage (1); cancel_after_progress = atoi (*argv); argc--; argv++; } else if (!strncmp (*argv, "--", 2)) show_usage (1); } if (argc != 1) show_usage (1); init_gpgme (protocol); err = gpgme_new (&ctx); fail_if_err (err); gpgme_set_protocol (ctx, protocol); gpgme_set_armor (ctx, 1); if (print_status) { gpgme_set_status_cb (ctx, status_cb, NULL); gpgme_set_ctx_flag (ctx, "full-status", "1"); } if (print_progress || cancel_after_progress) gpgme_set_progress_cb (ctx, progress_cb, ctx); if (use_loopback) { gpgme_set_pinentry_mode (ctx, GPGME_PINENTRY_MODE_LOOPBACK); gpgme_set_passphrase_cb (ctx, passphrase_cb, NULL); } if (no_symkey_cache) { err = gpgme_set_ctx_flag (ctx, "no-symkey-cache", "1"); if (err) { fprintf (stderr, PGM ": error setting no-symkey-cache: %s\n", gpgme_strerror (err)); exit (1); } } for (i=0; i < keycount; i++) { err = gpgme_get_key (ctx, keyargs[i], &keys[i], 0); fail_if_err (err); } keys[i] = NULL; if (flags & GPGME_ENCRYPT_ARCHIVE) { const char *path = *argv; err = gpgme_data_new_from_mem (&in, path, strlen (path), 0); fail_if_err (err); if (directory) { err = gpgme_data_set_file_name (in, directory); fail_if_err (err); } } else { err = gpgme_data_new_from_file (&in, *argv, 1); if (err) { fprintf (stderr, PGM ": error reading `%s': %s\n", *argv, gpg_strerror (err)); exit (1); } offset = gpgme_data_seek (in, 0, SEEK_END); if (offset == (gpgme_off_t)(-1)) { err = gpg_error_from_syserror (); fprintf (stderr, PGM ": error seeking `%s': %s\n", *argv, gpg_strerror (err)); exit (1); } if (gpgme_data_seek (in, 0, SEEK_SET) == (gpgme_off_t)(-1)) { err = gpg_error_from_syserror (); fprintf (stderr, PGM ": error seeking `%s': %s\n", *argv, gpg_strerror (err)); exit (1); } { char numbuf[50]; char *p; p = numbuf + sizeof numbuf; *--p = 0; do { *--p = '0' + (offset % 10); offset /= 10; } while (offset); err = gpgme_data_set_flag (in, "size-hint", p); if (err) { fprintf (stderr, PGM ": error setting size-hint for `%s': %s\n", *argv, gpg_strerror (err)); exit (1); } } } err = gpgme_data_new (&out); fail_if_err (err); if (output) { err = gpgme_data_set_file_name (out, output); fail_if_err (err); } if (sign) err = gpgme_op_encrypt_sign_ext (ctx, keycount ? keys : NULL, keystring, flags, in, out); else err = gpgme_op_encrypt_ext (ctx, keycount ? keys : NULL, keystring, flags, in, out); if (diagnostics) { gpgme_data_t diag; gpgme_error_t diag_err; gpgme_data_new (&diag); diag_err = gpgme_op_getauditlog (ctx, diag, GPGME_AUDITLOG_DIAG); if (diag_err) { fprintf (stderr, PGM ": getting diagnostics failed: %s\n", gpgme_strerror (diag_err)); } else { fputs ("Begin Diagnostics:\n", stdout); print_data (diag); fputs ("End Diagnostics.\n", stdout); } gpgme_data_release (diag); } sign_result = gpgme_op_sign_result (ctx); if (sign_result) print_sign_result (sign_result); encrypt_result = gpgme_op_encrypt_result (ctx); if (encrypt_result) print_encrypt_result (encrypt_result); if (err) { fprintf (stderr, PGM ": encrypting failed: %s\n", gpg_strerror (err)); exit (1); } if (!output) { fputs ("Begin Output:\n", stdout); print_data (out); fputs ("End Output.\n", stdout); } gpgme_data_release (out); gpgme_data_release (in); for (i=0; i < keycount; i++) gpgme_key_unref (keys[i]); gpgme_release (ctx); free (keystring); return 0; }