/* * Copyright (C) 1996-1997 Michael R. Elkins * Copyright (C) 1999-2000,2002-2004,2006 Thomas Roessler * Copyright (C) 2001 Thomas Roessler * Oliver Ehli * Copyright (C) 2003 Werner Koch * Copyright (C) 2004 g10code GmbH * * 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 2 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, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #if HAVE_CONFIG_H # include "config.h" #endif #include "mutt.h" #include "mutt_curses.h" #include "mime.h" #include "copy.h" #include "mutt_crypt.h" #include "mutt_idna.h" #ifdef USE_AUTOCRYPT #include "autocrypt.h" #endif #include #include #include #include #include #include #include #include #ifdef HAVE_SYS_TIME_H # include #endif #ifdef HAVE_SYS_RESOURCE_H # include #endif /* print the current time to avoid spoofing of the signature output */ void crypt_current_time(STATE *s, char *app_name) { time_t t; char p[STRING], tmp[STRING]; if (!WithCrypto) return; if (option (OPTCRYPTTIMESTAMP)) { t = time(NULL); strftime (p, sizeof (p), _(" (current time: %c)"), localtime (&t)); } else *p = '\0'; snprintf (tmp, sizeof (tmp), _("[-- %s output follows%s --]\n"), NONULL(app_name), p); state_attach_puts (tmp, s); } void crypt_forget_passphrase (void) { if ((WithCrypto & APPLICATION_PGP)) crypt_pgp_void_passphrase (); if ((WithCrypto & APPLICATION_SMIME)) crypt_smime_void_passphrase (); if (WithCrypto) mutt_message _("Passphrase(s) forgotten."); } #if defined(HAVE_SETRLIMIT) && (!defined(DEBUG)) static void disable_coredumps (void) { struct rlimit rl = {0, 0}; static short done = 0; if (!done) { setrlimit (RLIMIT_CORE, &rl); done = 1; } } #endif /* HAVE_SETRLIMIT */ int crypt_valid_passphrase(int flags) { int ret = 0; # if defined(HAVE_SETRLIMIT) &&(!defined(DEBUG)) disable_coredumps (); # endif if ((WithCrypto & APPLICATION_PGP) && (flags & APPLICATION_PGP)) ret = crypt_pgp_valid_passphrase (); if ((WithCrypto & APPLICATION_SMIME) && (flags & APPLICATION_SMIME)) ret = crypt_smime_valid_passphrase (); return ret; } /* In postpone mode, signing is automatically disabled. */ int mutt_protect (SEND_CONTEXT *sctx, char *keylist, int postpone) { HEADER *msg; BODY *pbody = NULL, *tmp_pbody = NULL; BODY *tmp_smime_pbody = NULL; BODY *tmp_pgp_pbody = NULL; ENVELOPE *protected_headers = NULL; int security, sign, has_retainable_sig = 0; int i, rc = -1; char *orig_pgp_sign_as = NULL, *orig_smime_sign_as = NULL, *orig_smime_crypt_alg = NULL; if (!WithCrypto) return -1; msg = sctx->msg; security = msg->security; sign = security & (AUTOCRYPT | SIGN); if (postpone) { sign = 0; security &= ~SIGN; } if (!(security & (ENCRYPT | AUTOCRYPT)) && !sign) return 0; if (sign && !(security & AUTOCRYPT) && !crypt_valid_passphrase (security)) return (-1); /* Override with sctx settings, if they are set. * This can happen with the compose send_menus and when resuming a * postponed message. */ if (sctx->pgp_sign_as) { orig_pgp_sign_as = safe_strdup (PgpSignAs); mutt_str_replace (&PgpSignAs, sctx->pgp_sign_as); } if (sctx->smime_sign_as) { orig_smime_sign_as = safe_strdup (SmimeSignAs); mutt_str_replace (&SmimeSignAs, sctx->smime_sign_as); } if (sctx->smime_crypt_alg || sctx->smime_crypt_alg_cleared) { orig_smime_crypt_alg = safe_strdup (SmimeCryptAlg); mutt_str_replace (&SmimeCryptAlg, sctx->smime_crypt_alg); } if ((WithCrypto & APPLICATION_PGP) && !(security & AUTOCRYPT) && ((security & PGPINLINE) == PGPINLINE)) { if ((msg->content->type != TYPETEXT) || ascii_strcasecmp (msg->content->subtype, "plain")) { if ((i = query_quadoption (OPT_PGPMIMEAUTO, _("Inline PGP can't be used with attachments. Revert to PGP/MIME?"))) != MUTT_YES) { mutt_error _("Mail not sent: inline PGP can't be used with attachments."); goto cleanup; } } else if (!mutt_strcasecmp ("flowed", mutt_get_parameter ("format", msg->content->parameter))) { if ((i = query_quadoption (OPT_PGPMIMEAUTO, _("Inline PGP can't be used with format=flowed. Revert to PGP/MIME?"))) != MUTT_YES) { mutt_error _("Mail not sent: inline PGP can't be used with format=flowed."); goto cleanup; } } else { /* they really want to send it inline... go for it */ if (!isendwin ()) mutt_endwin _("Invoking PGP..."); pbody = crypt_pgp_traditional_encryptsign (msg->content, security, keylist); if (pbody) { msg->content = pbody; rc = 0; goto cleanup; } /* otherwise inline won't work...ask for revert */ if ((i = query_quadoption (OPT_PGPMIMEAUTO, _("Message can't be sent inline. Revert to using PGP/MIME?"))) != MUTT_YES) { mutt_error _("Mail not sent."); goto cleanup; } } /* go ahead with PGP/MIME */ } if (!isendwin ()) mutt_endwin (NULL); if ((WithCrypto & APPLICATION_SMIME)) tmp_smime_pbody = msg->content; if ((WithCrypto & APPLICATION_PGP)) tmp_pgp_pbody = msg->content; if (option (OPTCRYPTUSEPKA) && sign) { /* Set sender (necessary for e.g. PKA). */ if ((WithCrypto & APPLICATION_SMIME) && (security & APPLICATION_SMIME)) crypt_smime_set_sender (msg->env->from->mailbox); else if ((WithCrypto & APPLICATION_PGP) && (security & APPLICATION_PGP)) crypt_pgp_set_sender (msg->env->from->mailbox); } if (option (OPTCRYPTPROTHDRSWRITE)) { BUFFER *date = NULL; protected_headers = mutt_new_envelope (); protected_headers->subject = safe_strdup (msg->env->subject); /* Note that we set sctx->date_header too so the values match */ date = mutt_buffer_pool_get (); mutt_make_date (date); mutt_str_replace (&sctx->date_header, mutt_b2s (date)); protected_headers->date = safe_strdup (mutt_b2s (date)); mutt_buffer_pool_release (&date); protected_headers->from = rfc822_cpy_adr (msg->env->from, 0); protected_headers->to = rfc822_cpy_adr (msg->env->to, 0); protected_headers->cc = rfc822_cpy_adr (msg->env->cc, 0); protected_headers->reply_to = rfc822_cpy_adr (msg->env->reply_to, 0); mutt_prepare_envelope (protected_headers, 0); mutt_env_to_intl (protected_headers, NULL, NULL); mutt_free_envelope (&msg->content->mime_headers); msg->content->mime_headers = protected_headers; mutt_set_parameter ("protected-headers", "v1", &msg->content->parameter); } /* A note about msg->content->mime_headers. If postpone or send * fails, the mime_headers is cleared out before returning to the * compose menu. So despite the "robustness" code above and in the * gen_gossip_list function below, mime_headers will not be set when * entering mutt_protect(). * * This is important to note because the user could toggle * $crypt_protected_headers_write or $autocrypt off back in the * compose menu. We don't want mutt_write_rfc822_header() to write * stale data from one option if the other is set. */ #ifdef USE_AUTOCRYPT if (option (OPTAUTOCRYPT) && !postpone && (security & AUTOCRYPT)) { mutt_autocrypt_generate_gossip_list (msg); } #endif if (sign) { if ((WithCrypto & APPLICATION_SMIME) && (security & APPLICATION_SMIME)) { if (!(tmp_pbody = crypt_smime_sign_message (msg->content))) goto cleanup; pbody = tmp_smime_pbody = tmp_pbody; } if ((WithCrypto & APPLICATION_PGP) && (security & APPLICATION_PGP) && (!(security & (ENCRYPT | AUTOCRYPT)) || option (OPTPGPRETAINABLESIG))) { if (!(tmp_pbody = crypt_pgp_sign_message (msg->content))) goto cleanup; has_retainable_sig = 1; sign = 0; pbody = tmp_pgp_pbody = tmp_pbody; } if (WithCrypto && (security & APPLICATION_SMIME) && (security & APPLICATION_PGP)) { /* here comes the draft ;-) */ } } if (security & (ENCRYPT | AUTOCRYPT)) { if ((WithCrypto & APPLICATION_SMIME) && (security & APPLICATION_SMIME)) { if (!(tmp_pbody = crypt_smime_build_smime_entity (tmp_smime_pbody, keylist))) { /* signed ? free it! */ goto cleanup; } /* free tmp_body if messages was signed AND encrypted ... */ if (tmp_smime_pbody != msg->content && tmp_smime_pbody != tmp_pbody) { /* detach and don't delete msg->content, which tmp_smime_pbody->parts after signing. */ tmp_smime_pbody->parts = tmp_smime_pbody->parts->next; msg->content->next = NULL; mutt_free_body (&tmp_smime_pbody); } pbody = tmp_pbody; } if ((WithCrypto & APPLICATION_PGP) && (security & APPLICATION_PGP)) { if (!(pbody = crypt_pgp_encrypt_message (msg, tmp_pgp_pbody, keylist, sign))) { /* did we perform a retainable signature? */ if (has_retainable_sig) { /* remove the outer multipart layer */ tmp_pgp_pbody = mutt_remove_multipart (tmp_pgp_pbody); /* get rid of the signature */ mutt_free_body (&tmp_pgp_pbody->next); } goto cleanup; } /* destroy temporary signature envelope when doing retainable * signatures. */ if (has_retainable_sig) { tmp_pgp_pbody = mutt_remove_multipart (tmp_pgp_pbody); mutt_free_body (&tmp_pgp_pbody->next); } } } if (pbody) { msg->content = pbody; rc = 0; } cleanup: if (rc != 0) { mutt_free_envelope (&msg->content->mime_headers); mutt_delete_parameter ("protected-headers", &msg->content->parameter); FREE (&sctx->date_header); } if (sctx->pgp_sign_as) mutt_str_replace (&PgpSignAs, orig_pgp_sign_as); if (sctx->smime_sign_as) mutt_str_replace (&SmimeSignAs, orig_smime_sign_as); if (sctx->smime_crypt_alg || sctx->smime_crypt_alg_cleared) mutt_str_replace (&SmimeCryptAlg, orig_smime_crypt_alg); return rc; } int mutt_is_multipart_signed (BODY *b) { char *p; if (!b || !(b->type == TYPEMULTIPART) || !b->subtype || ascii_strcasecmp(b->subtype, "signed")) return 0; if (!(p = mutt_get_parameter("protocol", b->parameter))) return 0; if (!(ascii_strcasecmp (p, "multipart/mixed"))) return SIGN; if ((WithCrypto & APPLICATION_PGP) && !(ascii_strcasecmp (p, "application/pgp-signature"))) return PGPSIGN; if ((WithCrypto & APPLICATION_SMIME) && !(ascii_strcasecmp (p, "application/x-pkcs7-signature"))) return SMIMESIGN; if ((WithCrypto & APPLICATION_SMIME) && !(ascii_strcasecmp (p, "application/pkcs7-signature"))) return SMIMESIGN; return 0; } int mutt_is_multipart_encrypted (BODY *b) { if ((WithCrypto & APPLICATION_PGP)) { char *p; if (!b || b->type != TYPEMULTIPART || !b->subtype || ascii_strcasecmp (b->subtype, "encrypted") || !(p = mutt_get_parameter ("protocol", b->parameter)) || ascii_strcasecmp (p, "application/pgp-encrypted")) return 0; return PGPENCRYPT; } return 0; } int mutt_is_valid_multipart_pgp_encrypted (BODY *b) { if (! mutt_is_multipart_encrypted (b)) return 0; b = b->parts; if (!b || b->type != TYPEAPPLICATION || !b->subtype || ascii_strcasecmp (b->subtype, "pgp-encrypted")) return 0; b = b->next; if (!b || b->type != TYPEAPPLICATION || !b->subtype || ascii_strcasecmp (b->subtype, "octet-stream")) return 0; return PGPENCRYPT; } /* * This checks for the malformed layout caused by MS Exchange in * some cases: * * * [BASE64-encoded] * [BASE64-encoded] * See ticket #3742 */ int mutt_is_malformed_multipart_pgp_encrypted (BODY *b) { if (!(WithCrypto & APPLICATION_PGP)) return 0; if (!b || b->type != TYPEMULTIPART || !b->subtype || ascii_strcasecmp (b->subtype, "mixed")) return 0; b = b->parts; if (!b || b->type != TYPETEXT || !b->subtype || ascii_strcasecmp (b->subtype, "plain") || b->length != 0) return 0; b = b->next; if (!b || b->type != TYPEAPPLICATION || !b->subtype || ascii_strcasecmp (b->subtype, "pgp-encrypted")) return 0; b = b->next; if (!b || b->type != TYPEAPPLICATION || !b->subtype || ascii_strcasecmp (b->subtype, "octet-stream")) return 0; b = b->next; if (b) return 0; return PGPENCRYPT; } int mutt_is_application_pgp (const BODY *m) { int t = 0; char *p; if (m->type == TYPEAPPLICATION) { if (!ascii_strcasecmp (m->subtype, "pgp") || !ascii_strcasecmp (m->subtype, "x-pgp-message")) { if ((p = mutt_get_parameter ("x-action", m->parameter)) && (!ascii_strcasecmp (p, "sign") || !ascii_strcasecmp (p, "signclear"))) t |= PGPSIGN; if ((p = mutt_get_parameter ("format", m->parameter)) && !ascii_strcasecmp (p, "keys-only")) t |= PGPKEY; if (!t) t |= PGPENCRYPT; /* not necessarily correct, but... */ } if (!ascii_strcasecmp (m->subtype, "pgp-signed")) t |= PGPSIGN; if (!ascii_strcasecmp (m->subtype, "pgp-keys")) t |= PGPKEY; } else if (m->type == TYPETEXT && ascii_strcasecmp ("plain", m->subtype) == 0) { if (((p = mutt_get_parameter ("x-mutt-action", m->parameter)) || (p = mutt_get_parameter ("x-action", m->parameter)) || (p = mutt_get_parameter ("action", m->parameter))) && !ascii_strncasecmp ("pgp-sign", p, 8)) t |= PGPSIGN; else if (p && !ascii_strncasecmp ("pgp-encrypt", p, 11)) t |= PGPENCRYPT; else if (p && !ascii_strncasecmp ("pgp-keys", p, 7)) t |= PGPKEY; } if (t) t |= PGPINLINE; return t; } int mutt_is_application_smime (BODY *m) { char *t=NULL; int len, complain=0; if (!m) return 0; if ((m->type & TYPEAPPLICATION) && m->subtype) { /* S/MIME MIME types don't need x- anymore, see RFC2311 */ if (!ascii_strcasecmp (m->subtype, "x-pkcs7-mime") || !ascii_strcasecmp (m->subtype, "pkcs7-mime")) { if ((t = mutt_get_parameter ("smime-type", m->parameter))) { if (!ascii_strcasecmp (t, "enveloped-data")) return SMIMEENCRYPT; else if (!ascii_strcasecmp (t, "signed-data")) return (SMIMESIGN|SMIMEOPAQUE); else return 0; } /* Netscape 4.7 uses * Content-Description: S/MIME Encrypted Message * instead of Content-Type parameter */ if (!ascii_strcasecmp (m->description, "S/MIME Encrypted Message")) return SMIMEENCRYPT; complain = 1; } else if (ascii_strcasecmp (m->subtype, "octet-stream")) return 0; t = mutt_get_parameter ("name", m->parameter); if (!t) t = m->d_filename; if (!t) t = m->filename; if (!t) { if (complain) mutt_message (_("S/MIME messages with no hints on content are unsupported.")); return 0; } /* no .p7c, .p10 support yet. */ len = mutt_strlen (t) - 4; if (len > 0 && *(t+len) == '.') { len++; if (!ascii_strcasecmp ((t+len), "p7m")) { if (!ascii_strcasecmp (SmimePkcs7DefaultSmimeType, "signed")) return (SMIMESIGN|SMIMEOPAQUE); else if (!ascii_strcasecmp (SmimePkcs7DefaultSmimeType, "enveloped")) return SMIMEENCRYPT; else return 0; } else if (!ascii_strcasecmp ((t+len), "p7s")) return (SMIMESIGN|SMIMEOPAQUE); } } return 0; } int crypt_query (BODY *m) { int t = 0; if (!WithCrypto) return 0; if (!m) return 0; if (m->type == TYPEAPPLICATION) { if ((WithCrypto & APPLICATION_PGP)) t |= mutt_is_application_pgp(m); if ((WithCrypto & APPLICATION_SMIME)) { t |= mutt_is_application_smime(m); if (t && m->goodsig) t |= GOODSIGN; if (t && m->badsig) t |= BADSIGN; } } else if ((WithCrypto & APPLICATION_PGP) && m->type == TYPETEXT) { t |= mutt_is_application_pgp (m); if (t && m->goodsig) t |= GOODSIGN; } if (m->type == TYPEMULTIPART) { t |= mutt_is_multipart_encrypted(m); t |= mutt_is_multipart_signed (m); t |= mutt_is_malformed_multipart_pgp_encrypted (m); if (t && m->goodsig) t |= GOODSIGN; #ifdef USE_AUTOCRYPT if (t && m->is_autocrypt) t |= AUTOCRYPT; #endif } if (m->type == TYPEMULTIPART || m->type == TYPEMESSAGE) { BODY *p; int u, v, w; u = m->parts ? 0xffffffff : 0; /* Bits set in all parts */ w = 0; /* Bits set in any part */ for (p = m->parts; p; p = p->next) { v = crypt_query (p); u &= v; w |= v; } t |= u | (w & ~GOODSIGN); if ((w & GOODSIGN) && !(u & GOODSIGN)) t |= PARTSIGN; } return t; } int crypt_write_signed(BODY *a, STATE *s, const char *tempfile) { FILE *fp; int c; short hadcr; size_t bytes; if (!WithCrypto) return -1; if (!(fp = safe_fopen (tempfile, "w"))) { mutt_perror (tempfile); return -1; } fseeko (s->fpin, a->hdr_offset, SEEK_SET); bytes = a->length + a->offset - a->hdr_offset; hadcr = 0; while (bytes > 0) { if ((c = fgetc (s->fpin)) == EOF) break; bytes--; if (c == '\r') hadcr = 1; else { if (c == '\n' && !hadcr) fputc ('\r', fp); hadcr = 0; } fputc (c, fp); } safe_fclose (&fp); return 0; } void convert_to_7bit (BODY *a) { if (!WithCrypto) return; while (a) { if (a->type == TYPEMULTIPART) { if (a->encoding != ENC7BIT) { a->encoding = ENC7BIT; convert_to_7bit(a->parts); } else if ((WithCrypto & APPLICATION_PGP) && option (OPTPGPSTRICTENC)) convert_to_7bit (a->parts); } else if (a->type == TYPEMESSAGE && ascii_strcasecmp(a->subtype, "delivery-status")) { if (a->encoding != ENC7BIT) mutt_message_to_7bit (a, NULL); } else if (a->encoding == ENC8BIT) a->encoding = ENCQUOTEDPRINTABLE; else if (a->encoding == ENCBINARY) a->encoding = ENCBASE64; else if (a->content && a->encoding != ENCBASE64 && (a->content->from || (a->content->space && option (OPTPGPSTRICTENC)))) a->encoding = ENCQUOTEDPRINTABLE; a = a->next; } } void crypt_extract_keys_from_messages (HEADER * h) { int i; BUFFER *tempfname = NULL; char *mbox; ADDRESS *tmp = NULL; FILE *fpout; if (!WithCrypto) return; tempfname = mutt_buffer_pool_get (); mutt_buffer_mktemp (tempfname); if (!(fpout = safe_fopen (mutt_b2s (tempfname), "w"))) { mutt_perror (mutt_b2s (tempfname)); goto cleanup; } if ((WithCrypto & APPLICATION_PGP)) set_option (OPTDONTHANDLEPGPKEYS); if (!h) { for (i = 0; i < Context->vcount; i++) { if (Context->hdrs[Context->v2r[i]]->tagged) { mutt_parse_mime_message (Context, Context->hdrs[Context->v2r[i]]); if (Context->hdrs[Context->v2r[i]]->security & ENCRYPT && !crypt_valid_passphrase (Context->hdrs[Context->v2r[i]]->security)) { safe_fclose (&fpout); break; } if ((WithCrypto & APPLICATION_PGP) && (Context->hdrs[Context->v2r[i]]->security & APPLICATION_PGP)) { mutt_copy_message (fpout, Context, Context->hdrs[Context->v2r[i]], MUTT_CM_DECODE|MUTT_CM_CHARCONV, 0); fflush(fpout); mutt_endwin (_("Trying to extract PGP keys...\n")); crypt_pgp_invoke_import (mutt_b2s (tempfname)); } if ((WithCrypto & APPLICATION_SMIME) && (Context->hdrs[Context->v2r[i]]->security & APPLICATION_SMIME)) { if (Context->hdrs[Context->v2r[i]]->security & ENCRYPT) mutt_copy_message (fpout, Context, Context->hdrs[Context->v2r[i]], MUTT_CM_NOHEADER|MUTT_CM_DECODE_CRYPT |MUTT_CM_DECODE_SMIME, 0); else mutt_copy_message (fpout, Context, Context->hdrs[Context->v2r[i]], 0, 0); fflush(fpout); if (Context->hdrs[Context->v2r[i]]->env->from) tmp = mutt_expand_aliases (Context->hdrs[Context->v2r[i]]->env->from); else if (Context->hdrs[Context->v2r[i]]->env->sender) tmp = mutt_expand_aliases (Context->hdrs[Context->v2r[i]]->env->sender); mbox = tmp ? tmp->mailbox : NULL; if (mbox) { mutt_endwin (_("Trying to extract S/MIME certificates...\n")); crypt_smime_invoke_import (mutt_b2s (tempfname), mbox); tmp = NULL; } } rewind (fpout); } } } else { mutt_parse_mime_message (Context, h); if (!(h->security & ENCRYPT && !crypt_valid_passphrase (h->security))) { if ((WithCrypto & APPLICATION_PGP) && (h->security & APPLICATION_PGP)) { mutt_copy_message (fpout, Context, h, MUTT_CM_DECODE|MUTT_CM_CHARCONV, 0); fflush(fpout); mutt_endwin (_("Trying to extract PGP keys...\n")); crypt_pgp_invoke_import (mutt_b2s (tempfname)); } if ((WithCrypto & APPLICATION_SMIME) && (h->security & APPLICATION_SMIME)) { if (h->security & ENCRYPT) mutt_copy_message (fpout, Context, h, MUTT_CM_NOHEADER | MUTT_CM_DECODE_CRYPT | MUTT_CM_DECODE_SMIME, 0); else mutt_copy_message (fpout, Context, h, 0, 0); fflush(fpout); if (h->env->from) tmp = mutt_expand_aliases (h->env->from); else if (h->env->sender) tmp = mutt_expand_aliases (h->env->sender); mbox = tmp ? tmp->mailbox : NULL; if (mbox) /* else ? */ { mutt_message (_("Trying to extract S/MIME certificates...\n")); crypt_smime_invoke_import (mutt_b2s (tempfname), mbox); } } } } safe_fclose (&fpout); if (isendwin()) mutt_any_key_to_continue (NULL); mutt_unlink (mutt_b2s (tempfname)); if ((WithCrypto & APPLICATION_PGP)) unset_option (OPTDONTHANDLEPGPKEYS); cleanup: mutt_buffer_pool_release (&tempfname); } int crypt_get_keys (HEADER *msg, char **keylist, int oppenc_mode) { ADDRESS *adrlist = NULL, *last = NULL; const char *fqdn = mutt_fqdn (1); char *self_encrypt = NULL; size_t keylist_size; /* Do a quick check to make sure that we can find all of the encryption * keys if the user has requested this service. */ if (!WithCrypto) return 0; *keylist = NULL; #ifdef USE_AUTOCRYPT if (!oppenc_mode && (msg->security & AUTOCRYPT)) { if (mutt_autocrypt_ui_recommendation (msg, keylist) <= AUTOCRYPT_REC_NO) return (-1); return (0); } #endif if ((WithCrypto & APPLICATION_PGP)) set_option (OPTPGPCHECKTRUST); last = rfc822_append (&adrlist, msg->env->to, 0); last = rfc822_append (last ? &last : &adrlist, msg->env->cc, 0); rfc822_append (last ? &last : &adrlist, msg->env->bcc, 0); if (fqdn) rfc822_qualify (adrlist, fqdn); adrlist = mutt_remove_duplicates (adrlist); adrlist = mutt_remove_adrlist_group_delimiters (adrlist); if (oppenc_mode || (msg->security & ENCRYPT)) { if ((WithCrypto & APPLICATION_PGP) && (msg->security & APPLICATION_PGP)) { if ((*keylist = crypt_pgp_findkeys (adrlist, oppenc_mode)) == NULL) { rfc822_free_address (&adrlist); return (-1); } unset_option (OPTPGPCHECKTRUST); if (option (OPTPGPSELFENCRYPT)) self_encrypt = PgpDefaultKey; } if ((WithCrypto & APPLICATION_SMIME) && (msg->security & APPLICATION_SMIME)) { if ((*keylist = crypt_smime_findkeys (adrlist, oppenc_mode)) == NULL) { rfc822_free_address (&adrlist); return (-1); } if (option (OPTSMIMESELFENCRYPT)) self_encrypt = SmimeDefaultKey; } } if (!oppenc_mode && self_encrypt) { keylist_size = mutt_strlen (*keylist); safe_realloc (keylist, keylist_size + mutt_strlen (self_encrypt) + 2); sprintf (*keylist + keylist_size, " %s", self_encrypt); /* __SPRINTF_CHECKED__ */ } rfc822_free_address (&adrlist); return (0); } /* * Check if all recipients keys can be automatically determined. * Enable encryption if they can, otherwise disable encryption. */ void crypt_opportunistic_encrypt(HEADER *msg) { char *pgpkeylist = NULL; if (!WithCrypto) return; if (! (option (OPTCRYPTOPPORTUNISTICENCRYPT) && (msg->security & OPPENCRYPT)) ) return; crypt_get_keys (msg, &pgpkeylist, 1); if (pgpkeylist != NULL ) { msg->security |= ENCRYPT; FREE (&pgpkeylist); } else { msg->security &= ~ENCRYPT; } } static void crypt_fetch_signatures (BODY ***signatures, BODY *a, int *n) { if (!WithCrypto) return; for (; a; a = a->next) { if (a->type == TYPEMULTIPART) crypt_fetch_signatures (signatures, a->parts, n); else { if ((*n % 5) == 0) safe_realloc (signatures, (*n + 6) * sizeof (BODY **)); (*signatures)[(*n)++] = a; } } } int mutt_should_hide_protected_subject (HEADER *h) { if (option (OPTCRYPTPROTHDRSWRITE) && (h->security & (ENCRYPT | AUTOCRYPT)) && !(h->security & INLINE) && ProtHdrSubject) return 1; return 0; } int mutt_protected_headers_handler (BODY *a, STATE *s) { if (option (OPTCRYPTPROTHDRSREAD) && a->mime_headers) { if (a->mime_headers->subject) { if ((s->flags & MUTT_DISPLAY) && option (OPTWEED) && mutt_matches_ignore ("subject", Ignore) && !mutt_matches_ignore ("subject", UnIgnore)) return 0; state_mark_protected_header (s); mutt_write_one_header (s->fpout, "Subject", a->mime_headers->subject, s->prefix, mutt_window_wrap_cols (MuttIndexWindow, Wrap), (s->flags & MUTT_DISPLAY) ? CH_DISPLAY : 0); state_puts ("\n", s); } } return 0; } /* * This routine verifies a "multipart/signed" body. */ int mutt_signed_handler (BODY *a, STATE *s) { BUFFER *tempfile = NULL; int signed_type; int inconsistent = 0; BODY *b = a; BODY **signatures = NULL; int sigcnt = 0; int i; short goodsig = 1; int rc = 0; if (!WithCrypto) return -1; a = a->parts; signed_type = mutt_is_multipart_signed (b); if (!signed_type) { /* A null protocol value is already checked for in mutt_body_handler() */ state_printf (s, _("[-- Error: " "Unknown multipart/signed protocol %s! --]\n\n"), mutt_get_parameter ("protocol", b->parameter)); return mutt_body_handler (a, s); } if (!(a && a->next)) inconsistent = 1; else { switch (signed_type) { case SIGN: if (a->next->type != TYPEMULTIPART || ascii_strcasecmp (a->next->subtype, "mixed")) inconsistent = 1; break; case PGPSIGN: if (a->next->type != TYPEAPPLICATION || ascii_strcasecmp (a->next->subtype, "pgp-signature")) inconsistent = 1; break; case SMIMESIGN: if (a->next->type != TYPEAPPLICATION || (ascii_strcasecmp (a->next->subtype, "x-pkcs7-signature") && ascii_strcasecmp (a->next->subtype, "pkcs7-signature"))) inconsistent = 1; break; default: inconsistent = 1; } } if (inconsistent) { state_attach_puts (_("[-- Error: " "Missing or bad-format multipart/signed signature!" " --]\n\n"), s); return mutt_body_handler (a, s); } if (s->flags & MUTT_DISPLAY) { crypt_fetch_signatures (&signatures, a->next, &sigcnt); if (sigcnt) { tempfile = mutt_buffer_pool_get (); mutt_buffer_mktemp (tempfile); if (crypt_write_signed (a, s, mutt_b2s (tempfile)) == 0) { for (i = 0; i < sigcnt; i++) { if ((WithCrypto & APPLICATION_PGP) && signatures[i]->type == TYPEAPPLICATION && !ascii_strcasecmp (signatures[i]->subtype, "pgp-signature")) { if (crypt_pgp_verify_one (signatures[i], s, mutt_b2s (tempfile)) != 0) goodsig = 0; continue; } if ((WithCrypto & APPLICATION_SMIME) && signatures[i]->type == TYPEAPPLICATION && (!ascii_strcasecmp(signatures[i]->subtype, "x-pkcs7-signature") || !ascii_strcasecmp(signatures[i]->subtype, "pkcs7-signature"))) { if (crypt_smime_verify_one (signatures[i], s, mutt_b2s (tempfile)) != 0) goodsig = 0; continue; } state_printf (s, _("[-- Warning: " "We can't verify %s/%s signatures. --]\n\n"), TYPE(signatures[i]), signatures[i]->subtype); } } mutt_unlink (mutt_b2s (tempfile)); mutt_buffer_pool_release (&tempfile); b->goodsig = goodsig; b->badsig = !goodsig; /* Now display the signed body */ state_attach_puts (_("[-- The following data is signed --]\n\n"), s); mutt_protected_headers_handler (a, s); FREE (&signatures); } else state_attach_puts (_("[-- Warning: Can't find any signatures. --]\n\n"), s); } rc = mutt_body_handler (a, s); if (s->flags & MUTT_DISPLAY && sigcnt) state_attach_puts (_("\n[-- End of signed data --]\n"), s); return rc; } /* Obtain pointers to fingerprint or short or long key ID, if any. * See mutt_crypt.h for details. */ const char* crypt_get_fingerprint_or_id (char *p, const char **pphint, const char **ppl, const char **pps) { const char *ps, *pl, *phint; char *pfcopy, *pf, *s1, *s2; char c; int isid; size_t hexdigits; /* User input may be partial name, fingerprint or short or long key ID, * independent of OPTPGPLONGIDS. * Fingerprint without spaces is 40 hex digits (SHA-1) or 32 hex digits (MD5). * Strip leading "0x" for key ID detection and prepare pl and ps to indicate * if an ID was found and to simplify logic in the key loop's inner * condition of the caller. */ pf = mutt_skip_whitespace (p); if (!mutt_strncasecmp (pf, "0x", 2)) pf += 2; /* Check if a fingerprint is given, must be hex digits only, blanks * separating groups of 4 hex digits are allowed. Also pre-check for ID. */ isid = 2; /* unknown */ hexdigits = 0; s1 = pf; do { c = *(s1++); if (('0' <= c && c <= '9') || ('A' <= c && c <= 'F') || ('a' <= c && c <= 'f')) { ++hexdigits; if (isid == 2) isid = 1; /* it is an ID so far */ } else if (c) { isid = 0; /* not an ID */ if (c == ' ' && ((hexdigits % 4) == 0)) ; /* skip blank before or after 4 hex digits */ else break; /* any other character or position */ } } while (c); /* If at end of input, check for correct fingerprint length and copy if. */ pfcopy = (!c && ((hexdigits == 40) || (hexdigits == 32)) ? safe_strdup (pf) : NULL); if (pfcopy) { /* Use pfcopy to strip all spaces from fingerprint and as hint. */ s1 = s2 = pfcopy; do { *(s1++) = *(s2 = mutt_skip_whitespace (s2)); } while (*(s2++)); phint = pfcopy; ps = pl = NULL; } else { phint = p; ps = pl = NULL; if (isid == 1) { if (mutt_strlen (pf) == 16) pl = pf; /* long key ID */ else if (mutt_strlen (pf) == 8) ps = pf; /* short key ID */ } } *pphint = phint; *ppl = pl; *pps = ps; return pfcopy; } /* * Used by pgp_findKeys and find_keys to check if a crypt-hook * value is a key id. */ short crypt_is_numerical_keyid (const char *s) { /* or should we require the "0x"? */ if (strncmp (s, "0x", 2) == 0) s += 2; if (strlen (s) % 8) return 0; while (*s) if (strchr ("0123456789ABCDEFabcdef", *s++) == NULL) return 0; return 1; }