crypt.c

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#include "config.h"
#include <limits.h>
#include <locale.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include "mutt/mutt.h"
#include "address/lib.h"
#include "config/lib.h"
#include "email/lib.h"
#include "mutt.h"
#include "alias.h"
#include "copy.h"
#include "cryptglue.h"
#include "curs_lib.h"
#include "globals.h"
#include "handler.h"
#include "mutt_curses.h"
#include "mutt_parse.h"
#include "mutt_window.h"
#include "muttlib.h"
#include "ncrypt.h"
#include "options.h"
#include "send.h"
#include "sendlib.h"
#include "state.h"
#ifdef USE_AUTOCRYPT
#include "autocrypt/autocrypt.h"
#endif

struct Mailbox;

/* These Config Variables are only used in ncrypt/crypt.c */
bool C_CryptTimestamp; 
unsigned char C_PgpEncryptSelf;
unsigned char C_PgpMimeAuto; 
bool C_PgpRetainableSigs; 
bool C_PgpSelfEncrypt; 
bool C_PgpStrictEnc; 
unsigned char C_SmimeEncryptSelf;
bool C_SmimeSelfEncrypt; 

void crypt_current_time(struct State *s, const char *app_name)
{
  char p[256], tmp[256];

  if (!WithCrypto)
    return;

  if (C_CryptTimestamp)
  {
    mutt_date_localtime_format(p, sizeof(p), _(" (current time: %c)"), MUTT_DATE_NOW);
  }
  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)
  {
    /* L10N: Due to the implementation details (e.g. some passwords are managed
       by gpg-agent) we can't know whether we forgot zero, 1, 12, ...
       passwords. So in English we use "Passphrases". Your language might
       have other means to express this. */
    mutt_message(_("Passphrases forgotten"));
  }
}

#ifndef DEBUG
#include <sys/resource.h>
static void disable_coredumps(void)
{
  struct rlimit rl = { 0, 0 };
  static bool done = false;

  if (!done)
  {
    setrlimit(RLIMIT_CORE, &rl);
    done = true;
  }
}
#endif

bool crypt_valid_passphrase(SecurityFlags flags)
{
  bool rc = false;

#ifndef DEBUG
  disable_coredumps();
#endif

  if (((WithCrypto & APPLICATION_PGP) != 0) && (flags & APPLICATION_PGP))
    rc = crypt_pgp_valid_passphrase();

  if (((WithCrypto & APPLICATION_SMIME) != 0) && (flags & APPLICATION_SMIME))
    rc = crypt_smime_valid_passphrase();

  return rc;
}

int mutt_protect(struct Email *e, char *keylist, bool postpone)
{
  struct Body *pbody = NULL, *tmp_pbody = NULL;
  struct Body *tmp_smime_pbody = NULL;
  struct Body *tmp_pgp_pbody = NULL;
  bool has_retainable_sig = false;

  if (!WithCrypto)
    return -1;

  int security = e->security;
  int sign = security & (SEC_AUTOCRYPT | SEC_SIGN);
  if (postpone)
  {
    sign = SEC_NO_FLAGS;
    security &= ~SEC_SIGN;
  }

  if (!(security & (SEC_ENCRYPT | SEC_AUTOCRYPT)) && !sign)
    return 0;

  if (sign && !(security & SEC_AUTOCRYPT) && !crypt_valid_passphrase(security))
    return -1;

  if (((WithCrypto & APPLICATION_PGP) != 0) && !(security & SEC_AUTOCRYPT) &&
      ((security & PGP_INLINE) == PGP_INLINE))
  {
    if ((e->content->type != TYPE_TEXT) ||
        (mutt_str_strcasecmp(e->content->subtype, "plain") != 0))
    {
      if (query_quadoption(C_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"));
        return -1;
      }
    }
    else if (mutt_str_strcasecmp("flowed", mutt_param_get(&e->content->parameter, "format")) == 0)
    {
      if ((query_quadoption(C_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"));
        return -1;
      }
    }
    else
    {
      /* they really want to send it inline... go for it */
      if (!isendwin())
      {
        mutt_endwin();
        puts(_("Invoking PGP..."));
      }
      pbody = crypt_pgp_traditional_encryptsign(e->content, security, keylist);
      if (pbody)
      {
        e->content = pbody;
        return 0;
      }

      /* otherwise inline won't work...ask for revert */
      if (query_quadoption(
              C_PgpMimeAuto,
              _("Message can't be sent inline.  Revert to using PGP/MIME?")) != MUTT_YES)
      {
        mutt_error(_("Mail not sent"));
        return -1;
      }
    }

    /* go ahead with PGP/MIME */
  }

  if (!isendwin())
    mutt_endwin();

  if (WithCrypto & APPLICATION_SMIME)
    tmp_smime_pbody = e->content;
  if (WithCrypto & APPLICATION_PGP)
    tmp_pgp_pbody = e->content;

  if (C_CryptUsePka && sign)
  {
    /* Set sender (necessary for e.g. PKA).  */
    const char *mailbox = NULL;
    struct Address *from = TAILQ_FIRST(&e->env->from);
    bool free_from = false;

    if (!from)
    {
      free_from = true;
      from = mutt_default_from();
    }

    mailbox = from->mailbox;
    if (!mailbox && C_EnvelopeFromAddress)
      mailbox = C_EnvelopeFromAddress->mailbox;

    if (((WithCrypto & APPLICATION_SMIME) != 0) && (security & APPLICATION_SMIME))
      crypt_smime_set_sender(mailbox);
    else if (((WithCrypto & APPLICATION_PGP) != 0) && (security & APPLICATION_PGP))
      crypt_pgp_set_sender(mailbox);

    if (free_from)
      mutt_addr_free(&from);
  }

  if (C_CryptProtectedHeadersWrite)
  {
    struct Envelope *protected_headers = mutt_env_new();
    mutt_str_replace(&protected_headers->subject, e->env->subject);
    /* Note: if other headers get added, such as to, cc, then a call to
     * mutt_env_to_intl() will need to be added here too. */
    mutt_prepare_envelope(protected_headers, 0);

    mutt_env_free(&e->content->mime_headers);
    e->content->mime_headers = protected_headers;
  }

  /* A note about e->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 (C_Autocrypt && !postpone && (security & SEC_AUTOCRYPT))
  {
    mutt_autocrypt_generate_gossip_list(e);
  }
#endif

  if (sign)
  {
    if (((WithCrypto & APPLICATION_SMIME) != 0) && (security & APPLICATION_SMIME))
    {
      tmp_pbody = crypt_smime_sign_message(e->content);
      if (!tmp_pbody)
        goto bail;
      pbody = tmp_pbody;
      tmp_smime_pbody = tmp_pbody;
    }

    if (((WithCrypto & APPLICATION_PGP) != 0) && (security & APPLICATION_PGP) &&
        (!(security & (SEC_ENCRYPT | SEC_AUTOCRYPT)) || C_PgpRetainableSigs))
    {
      tmp_pbody = crypt_pgp_sign_message(e->content);
      if (!tmp_pbody)
        goto bail;

      has_retainable_sig = true;
      sign = SEC_NO_FLAGS;
      pbody = tmp_pbody;
      tmp_pgp_pbody = tmp_pbody;
    }

    if ((WithCrypto != 0) && (security & APPLICATION_SMIME) && (security & APPLICATION_PGP))
    {
      /* here comes the draft ;-) */
    }
  }

  if (security & (SEC_ENCRYPT | SEC_AUTOCRYPT))
  {
    if (((WithCrypto & APPLICATION_SMIME) != 0) && (security & APPLICATION_SMIME))
    {
      tmp_pbody = crypt_smime_build_smime_entity(tmp_smime_pbody, keylist);
      if (!tmp_pbody)
      {
        /* signed ? free it! */
        goto bail;
      }
      /* free tmp_body if messages was signed AND encrypted ... */
      if ((tmp_smime_pbody != e->content) && (tmp_smime_pbody != tmp_pbody))
      {
        /* detach and don't delete e->content,
         * which tmp_smime_pbody->parts after signing. */
        tmp_smime_pbody->parts = tmp_smime_pbody->parts->next;
        e->content->next = NULL;
        mutt_body_free(&tmp_smime_pbody);
      }
      pbody = tmp_pbody;
    }

    if (((WithCrypto & APPLICATION_PGP) != 0) && (security & APPLICATION_PGP))
    {
      pbody = crypt_pgp_encrypt_message(e, tmp_pgp_pbody, keylist, sign);
      if (!pbody)
      {
        /* 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_body_free(&tmp_pgp_pbody->next);
        }

        goto bail;
      }

      /* destroy temporary signature envelope when doing retainable
       * signatures.

       */
      if (has_retainable_sig)
      {
        tmp_pgp_pbody = mutt_remove_multipart(tmp_pgp_pbody);
        mutt_body_free(&tmp_pgp_pbody->next);
      }
    }
  }

  if (pbody)
  {
    e->content = pbody;
    return 0;
  }

bail:
  mutt_env_free(&e->content->mime_headers);
  return -1;
}

SecurityFlags mutt_is_multipart_signed(struct Body *b)
{
  if (!b || (b->type != TYPE_MULTIPART) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "signed") != 0))
  {
    return SEC_NO_FLAGS;
  }

  char *p = mutt_param_get(&b->parameter, "protocol");
  if (!p)
    return SEC_NO_FLAGS;

  if (!(mutt_str_strcasecmp(p, "multipart/mixed") != 0))
    return SEC_SIGN;

  if (((WithCrypto & APPLICATION_PGP) != 0) &&
      !(mutt_str_strcasecmp(p, "application/pgp-signature") != 0))
  {
    return PGP_SIGN;
  }

  if (((WithCrypto & APPLICATION_SMIME) != 0) &&
      !(mutt_str_strcasecmp(p, "application/x-pkcs7-signature") != 0))
  {
    return SMIME_SIGN;
  }
  if (((WithCrypto & APPLICATION_SMIME) != 0) &&
      !(mutt_str_strcasecmp(p, "application/pkcs7-signature") != 0))
  {
    return SMIME_SIGN;
  }

  return SEC_NO_FLAGS;
}

SecurityFlags mutt_is_multipart_encrypted(struct Body *b)
{
  if ((WithCrypto & APPLICATION_PGP) == 0)
    return SEC_NO_FLAGS;

  char *p = NULL;

  if (!b || (b->type != TYPE_MULTIPART) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "encrypted") != 0) ||
      !(p = mutt_param_get(&b->parameter, "protocol")) ||
      (mutt_str_strcasecmp(p, "application/pgp-encrypted") != 0))
  {
    return SEC_NO_FLAGS;
  }

  return PGP_ENCRYPT;
}

int mutt_is_valid_multipart_pgp_encrypted(struct Body *b)
{
  if (mutt_is_multipart_encrypted(b) == SEC_NO_FLAGS)
    return 0;

  b = b->parts;
  if (!b || (b->type != TYPE_APPLICATION) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "pgp-encrypted") != 0))
  {
    return 0;
  }

  b = b->next;
  if (!b || (b->type != TYPE_APPLICATION) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "octet-stream") != 0))
  {
    return 0;
  }

  return PGP_ENCRYPT;
}

SecurityFlags mutt_is_malformed_multipart_pgp_encrypted(struct Body *b)
{
  if (!(WithCrypto & APPLICATION_PGP))
    return SEC_NO_FLAGS;

  if (!b || (b->type != TYPE_MULTIPART) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "mixed") != 0))
  {
    return SEC_NO_FLAGS;
  }

  b = b->parts;
  if (!b || (b->type != TYPE_TEXT) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "plain") != 0) || (b->length != 0))
  {
    return SEC_NO_FLAGS;
  }

  b = b->next;
  if (!b || (b->type != TYPE_APPLICATION) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "pgp-encrypted") != 0))
  {
    return SEC_NO_FLAGS;
  }

  b = b->next;
  if (!b || (b->type != TYPE_APPLICATION) || !b->subtype ||
      (mutt_str_strcasecmp(b->subtype, "octet-stream") != 0))
  {
    return SEC_NO_FLAGS;
  }

  b = b->next;
  if (b)
    return SEC_NO_FLAGS;

  return PGP_ENCRYPT;
}

SecurityFlags mutt_is_application_pgp(struct Body *m)
{
  SecurityFlags t = SEC_NO_FLAGS;
  char *p = NULL;

  if (m->type == TYPE_APPLICATION)
  {
    if ((mutt_str_strcasecmp(m->subtype, "pgp") == 0) ||
        (mutt_str_strcasecmp(m->subtype, "x-pgp-message") == 0))
    {
      p = mutt_param_get(&m->parameter, "x-action");
      if (p && ((mutt_str_strcasecmp(p, "sign") == 0) ||
                (mutt_str_strcasecmp(p, "signclear") == 0)))
      {
        t |= PGP_SIGN;
      }

      p = mutt_param_get(&m->parameter, "format");
      if (p && (mutt_str_strcasecmp(p, "keys-only") == 0))
      {
        t |= PGP_KEY;
      }

      if (t == SEC_NO_FLAGS)
        t |= PGP_ENCRYPT; /* not necessarily correct, but... */
    }

    if (mutt_str_strcasecmp(m->subtype, "pgp-signed") == 0)
      t |= PGP_SIGN;

    if (mutt_str_strcasecmp(m->subtype, "pgp-keys") == 0)
      t |= PGP_KEY;
  }
  else if ((m->type == TYPE_TEXT) && (mutt_str_strcasecmp("plain", m->subtype) == 0))
  {
    if (((p = mutt_param_get(&m->parameter, "x-mutt-action")) ||
         (p = mutt_param_get(&m->parameter, "x-action")) ||
         (p = mutt_param_get(&m->parameter, "action"))) &&
        mutt_str_startswith(p, "pgp-sign", CASE_IGNORE))
    {
      t |= PGP_SIGN;
    }
    else if (p && mutt_str_startswith(p, "pgp-encrypt", CASE_IGNORE))
      t |= PGP_ENCRYPT;
    else if (p && mutt_str_startswith(p, "pgp-keys", CASE_IGNORE))
      t |= PGP_KEY;
  }
  if (t)
    t |= PGP_INLINE;

  return t;
}

SecurityFlags mutt_is_application_smime(struct Body *m)
{
  if (!m)
    return SEC_NO_FLAGS;

  if (((m->type & TYPE_APPLICATION) == 0) || !m->subtype)
    return SEC_NO_FLAGS;

  char *t = NULL;
  bool complain = false;
  /* S/MIME MIME types don't need x- anymore, see RFC2311 */
  if ((mutt_str_strcasecmp(m->subtype, "x-pkcs7-mime") == 0) ||
      (mutt_str_strcasecmp(m->subtype, "pkcs7-mime") == 0))
  {
    t = mutt_param_get(&m->parameter, "smime-type");
    if (t)
    {
      if (mutt_str_strcasecmp(t, "enveloped-data") == 0)
        return SMIME_ENCRYPT;
      else if (mutt_str_strcasecmp(t, "signed-data") == 0)
        return SMIME_SIGN | SMIME_OPAQUE;
      else
        return SEC_NO_FLAGS;
    }
    /* Netscape 4.7 uses
     * Content-Description: S/MIME Encrypted Message
     * instead of Content-Type parameter */
    if (mutt_str_strcasecmp(m->description, "S/MIME Encrypted Message") == 0)
      return SMIME_ENCRYPT;
    complain = true;
  }
  else if (mutt_str_strcasecmp(m->subtype, "octet-stream") != 0)
    return SEC_NO_FLAGS;

  t = mutt_param_get(&m->parameter, "name");

  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 SEC_NO_FLAGS;
  }

  /* no .p7c, .p10 support yet. */

  int len = mutt_str_strlen(t) - 4;
  if ((len > 0) && (*(t + len) == '.'))
  {
    len++;
    if (mutt_str_strcasecmp((t + len), "p7m") == 0)
    {
      /* Not sure if this is the correct thing to do, but
       * it's required for compatibility with Outlook */
      return SMIME_SIGN | SMIME_OPAQUE;
    }
    else if (mutt_str_strcasecmp((t + len), "p7s") == 0)
      return SMIME_SIGN | SMIME_OPAQUE;
  }

  return SEC_NO_FLAGS;
}

SecurityFlags crypt_query(struct Body *m)
{
  if (!WithCrypto || !m)
    return SEC_NO_FLAGS;

  SecurityFlags rc = SEC_NO_FLAGS;

  if (m->type == TYPE_APPLICATION)
  {
    if (WithCrypto & APPLICATION_PGP)
      rc |= mutt_is_application_pgp(m);

    if (WithCrypto & APPLICATION_SMIME)
    {
      rc |= mutt_is_application_smime(m);
      if (rc && m->goodsig)
        rc |= SEC_GOODSIGN;
      if (rc && m->badsig)
        rc |= SEC_BADSIGN;
    }
  }
  else if (((WithCrypto & APPLICATION_PGP) != 0) && (m->type == TYPE_TEXT))
  {
    rc |= mutt_is_application_pgp(m);
    if (rc && m->goodsig)
      rc |= SEC_GOODSIGN;
  }

  if (m->type == TYPE_MULTIPART)
  {
    rc |= mutt_is_multipart_encrypted(m);
    rc |= mutt_is_multipart_signed(m);
    rc |= mutt_is_malformed_multipart_pgp_encrypted(m);

    if (rc && m->goodsig)
      rc |= SEC_GOODSIGN;
#ifdef USE_AUTOCRYPT
    if (rc && m->is_autocrypt)
      rc |= SEC_AUTOCRYPT;
#endif
  }

  if ((m->type == TYPE_MULTIPART) || (m->type == TYPE_MESSAGE))
  {
    SecurityFlags u = m->parts ? SEC_ALL_FLAGS : SEC_NO_FLAGS; /* Bits set in all parts */
    SecurityFlags w = SEC_NO_FLAGS; /* Bits set in any part  */

    for (struct Body *b = m->parts; b; b = b->next)
    {
      const SecurityFlags v = crypt_query(b);
      u &= v;
      w |= v;
    }
    rc |= u | (w & ~SEC_GOODSIGN);

    if ((w & SEC_GOODSIGN) && !(u & SEC_GOODSIGN))
      rc |= SEC_PARTSIGN;
  }

  return rc;
}

int crypt_write_signed(struct Body *a, struct State *s, const char *tempfile)
{
  if (!WithCrypto)
    return -1;

  FILE *fp = mutt_file_fopen(tempfile, "w");
  if (!fp)
  {
    mutt_perror(tempfile);
    return -1;
  }

  fseeko(s->fp_in, a->hdr_offset, SEEK_SET);
  size_t bytes = a->length + a->offset - a->hdr_offset;
  bool hadcr = false;
  while (bytes > 0)
  {
    const int c = fgetc(s->fp_in);
    if (c == EOF)
      break;

    bytes--;

    if (c == '\r')
      hadcr = true;
    else
    {
      if ((c == '\n') && !hadcr)
        fputc('\r', fp);

      hadcr = false;
    }

    fputc(c, fp);
  }
  mutt_file_fclose(&fp);

  return 0;
}

void crypt_convert_to_7bit(struct Body *a)
{
  if (!WithCrypto)
    return;

  while (a)
  {
    if (a->type == TYPE_MULTIPART)
    {
      if (a->encoding != ENC_7BIT)
      {
        a->encoding = ENC_7BIT;
        crypt_convert_to_7bit(a->parts);
      }
      else if (((WithCrypto & APPLICATION_PGP) != 0) && C_PgpStrictEnc)
        crypt_convert_to_7bit(a->parts);
    }
    else if ((a->type == TYPE_MESSAGE) &&
             (mutt_str_strcasecmp(a->subtype, "delivery-status") != 0))
    {
      if (a->encoding != ENC_7BIT)
        mutt_message_to_7bit(a, NULL);
    }
    else if (a->encoding == ENC_8BIT)
      a->encoding = ENC_QUOTED_PRINTABLE;
    else if (a->encoding == ENC_BINARY)
      a->encoding = ENC_BASE64;
    else if (a->content && (a->encoding != ENC_BASE64) &&
             (a->content->from || (a->content->space && C_PgpStrictEnc)))
    {
      a->encoding = ENC_QUOTED_PRINTABLE;
    }
    a = a->next;
  }
}

void crypt_extract_keys_from_messages(struct Mailbox *m, struct EmailList *el)
{
  if (!WithCrypto)
    return;

  char tempfname[PATH_MAX];

  mutt_mktemp(tempfname, sizeof(tempfname));
  FILE *fp_out = mutt_file_fopen(tempfname, "w");
  if (!fp_out)
  {
    mutt_perror(tempfname);
    return;
  }

  if (WithCrypto & APPLICATION_PGP)
    OptDontHandlePgpKeys = true;

  struct EmailNode *en = NULL;
  STAILQ_FOREACH(en, el, entries)
  {
    struct Email *e = en->email;

    mutt_parse_mime_message(m, e);
    if (e->security & SEC_ENCRYPT && !crypt_valid_passphrase(e->security))
    {
      mutt_file_fclose(&fp_out);
      break;
    }

    if (((WithCrypto & APPLICATION_PGP) != 0) && (e->security & APPLICATION_PGP))
    {
      mutt_copy_message(fp_out, m, e, MUTT_CM_DECODE | MUTT_CM_CHARCONV, CH_NO_FLAGS);
      fflush(fp_out);

      mutt_endwin();
      puts(_("Trying to extract PGP keys...\n"));
      crypt_pgp_invoke_import(tempfname);
    }

    if (((WithCrypto & APPLICATION_SMIME) != 0) && (e->security & APPLICATION_SMIME))
    {
      if (e->security & SEC_ENCRYPT)
      {
        mutt_copy_message(fp_out, m, e, MUTT_CM_NOHEADER | MUTT_CM_DECODE_CRYPT | MUTT_CM_DECODE_SMIME,
                          CH_NO_FLAGS);
      }
      else
        mutt_copy_message(fp_out, m, e, MUTT_CM_NO_FLAGS, CH_NO_FLAGS);
      fflush(fp_out);

      char *mbox = NULL;
      if (!TAILQ_EMPTY(&e->env->from))
      {
        mutt_expand_aliases(&e->env->from);
        mbox = TAILQ_FIRST(&e->env->from)->mailbox;
      }
      else if (!TAILQ_EMPTY(&e->env->sender))
      {
        mutt_expand_aliases(&e->env->sender);
        mbox = TAILQ_FIRST(&e->env->sender)->mailbox;
      }
      if (mbox)
      {
        mutt_endwin();
        puts(_("Trying to extract S/MIME certificates..."));
        crypt_smime_invoke_import(tempfname, mbox);
      }
    }

    rewind(fp_out);
  }

  mutt_file_fclose(&fp_out);
  if (isendwin())
    mutt_any_key_to_continue(NULL);

  mutt_file_unlink(tempfname);

  if (WithCrypto & APPLICATION_PGP)
    OptDontHandlePgpKeys = false;
}

int crypt_get_keys(struct Email *e, char **keylist, bool oppenc_mode)
{
  if (!WithCrypto)
    return 0;

  struct AddressList addrlist = TAILQ_HEAD_INITIALIZER(addrlist);
  const char *fqdn = mutt_fqdn(true);
  char *self_encrypt = NULL;

  /* Do a quick check to make sure that we can find all of the encryption
   * keys if the user has requested this service.  */

  *keylist = NULL;

#ifdef USE_AUTOCRYPT
  if (!oppenc_mode && (e->security & SEC_AUTOCRYPT))
  {
    if (mutt_autocrypt_ui_recommendation(e, keylist) <= AUTOCRYPT_REC_NO)
      return -1;
    return 0;
  }
#endif

  if (WithCrypto & APPLICATION_PGP)
    OptPgpCheckTrust = true;

  mutt_addrlist_copy(&addrlist, &e->env->to, false);
  mutt_addrlist_copy(&addrlist, &e->env->cc, false);
  mutt_addrlist_copy(&addrlist, &e->env->bcc, false);
  mutt_addrlist_qualify(&addrlist, fqdn);
  mutt_addrlist_dedupe(&addrlist);

  if (oppenc_mode || (e->security & SEC_ENCRYPT))
  {
    if (((WithCrypto & APPLICATION_PGP) != 0) && (e->security & APPLICATION_PGP))
    {
      *keylist = crypt_pgp_find_keys(&addrlist, oppenc_mode);
      if (!*keylist)
      {
        mutt_addrlist_clear(&addrlist);
        return -1;
      }
      OptPgpCheckTrust = false;
      if (C_PgpSelfEncrypt || (C_PgpEncryptSelf == MUTT_YES))
        self_encrypt = C_PgpDefaultKey;
    }
    if (((WithCrypto & APPLICATION_SMIME) != 0) && (e->security & APPLICATION_SMIME))
    {
      *keylist = crypt_smime_find_keys(&addrlist, oppenc_mode);
      if (!*keylist)
      {
        mutt_addrlist_clear(&addrlist);
        return -1;
      }
      if (C_SmimeSelfEncrypt || (C_SmimeEncryptSelf == MUTT_YES))
        self_encrypt = C_SmimeDefaultKey;
    }
  }

  if (!oppenc_mode && self_encrypt)
  {
    const size_t keylist_size = mutt_str_strlen(*keylist);
    mutt_mem_realloc(keylist, keylist_size + mutt_str_strlen(self_encrypt) + 2);
    sprintf(*keylist + keylist_size, " %s", self_encrypt);
  }

  mutt_addrlist_clear(&addrlist);

  return 0;
}

void crypt_opportunistic_encrypt(struct Email *e)
{
  if (!WithCrypto)
    return;

  if (!(C_CryptOpportunisticEncrypt && (e->security & SEC_OPPENCRYPT)))
    return;

  char *pgpkeylist = NULL;

  crypt_get_keys(e, &pgpkeylist, 1);
  if (pgpkeylist)
  {
    e->security |= SEC_ENCRYPT;
    FREE(&pgpkeylist);
  }
  else
  {
    e->security &= ~SEC_ENCRYPT;
  }
}

static void crypt_fetch_signatures(struct Body ***signatures, struct Body *a, int *n)
{
  if (!WithCrypto)
    return;

  for (; a; a = a->next)
  {
    if (a->type == TYPE_MULTIPART)
      crypt_fetch_signatures(signatures, a->parts, n);
    else
    {
      if ((*n % 5) == 0)
        mutt_mem_realloc(signatures, (*n + 6) * sizeof(struct Body **));

      (*signatures)[(*n)++] = a;
    }
  }
}

bool mutt_should_hide_protected_subject(struct Email *e)
{
  if (C_CryptProtectedHeadersWrite && (e->security & (SEC_ENCRYPT | SEC_AUTOCRYPT)) &&
      !(e->security & SEC_INLINE) && C_CryptProtectedHeadersSubject)
  {
    return true;
  }

  return false;
}

int mutt_protected_headers_handler(struct Body *a, struct State *s)
{
  if (C_CryptProtectedHeadersRead && a->mime_headers)
  {
    if (a->mime_headers->subject)
    {
      if ((s->flags & MUTT_DISPLAY) && C_Weed && mutt_matches_ignore("subject"))
        return 0;

      state_mark_protected_header(s);
      mutt_write_one_header(s->fp_out, "Subject", a->mime_headers->subject, s->prefix,
                            mutt_window_wrap_cols(MuttIndexWindow->cols, C_Wrap),
                            (s->flags & MUTT_DISPLAY) ? CH_DISPLAY : CH_NO_FLAGS);
      state_puts("\n", s);
    }
  }

  return 0;
}

int mutt_signed_handler(struct Body *a, struct State *s)
{
  if (!WithCrypto)
    return -1;

  bool inconsistent = false;
  struct Body *b = a;
  struct Body **signatures = NULL;
  int sigcnt = 0;
  int rc = 0;

  a = a->parts;
  SecurityFlags signed_type = mutt_is_multipart_signed(b);
  if (signed_type == SEC_NO_FLAGS)
  {
    /* A null protocol value is already checked for in mutt_body_handler() */
    state_printf(s,
                 _("[-- Error: "
                   "Unknown multipart/signed protocol %s --]\n\n"),
                 mutt_param_get(&b->parameter, "protocol"));
    return mutt_body_handler(a, s);
  }

  if (!(a && a->next))
    inconsistent = true;
  else
  {
    switch (signed_type)
    {
      case SEC_SIGN:
        if ((a->next->type != TYPE_MULTIPART) ||
            (mutt_str_strcasecmp(a->next->subtype, "mixed") != 0))
        {
          inconsistent = true;
        }
        break;
      case PGP_SIGN:
        if ((a->next->type != TYPE_APPLICATION) ||
            (mutt_str_strcasecmp(a->next->subtype, "pgp-signature") != 0))
        {
          inconsistent = true;
        }
        break;
      case SMIME_SIGN:
        if ((a->next->type != TYPE_APPLICATION) ||
            ((mutt_str_strcasecmp(a->next->subtype, "x-pkcs7-signature") != 0) &&
             (mutt_str_strcasecmp(a->next->subtype, "pkcs7-signature") != 0)))
        {
          inconsistent = true;
        }
        break;
      default:
        inconsistent = true;
    }
  }
  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 != 0)
    {
      char tempfile[PATH_MAX];
      mutt_mktemp(tempfile, sizeof(tempfile));
      bool goodsig = true;
      if (crypt_write_signed(a, s, tempfile) == 0)
      {
        for (int i = 0; i < sigcnt; i++)
        {
          if (((WithCrypto & APPLICATION_PGP) != 0) &&
              (signatures[i]->type == TYPE_APPLICATION) &&
              (mutt_str_strcasecmp(signatures[i]->subtype, "pgp-signature") == 0))
          {
            if (crypt_pgp_verify_one(signatures[i], s, tempfile) != 0)
              goodsig = false;

            continue;
          }

          if (((WithCrypto & APPLICATION_SMIME) != 0) &&
              (signatures[i]->type == TYPE_APPLICATION) &&
              ((mutt_str_strcasecmp(signatures[i]->subtype,
                                    "x-pkcs7-signature") == 0) ||
               (mutt_str_strcasecmp(signatures[i]->subtype,
                                    "pkcs7-signature") == 0)))
          {
            if (crypt_smime_verify_one(signatures[i], s, tempfile) != 0)
              goodsig = false;

            continue;
          }

          state_printf(s,
                       _("[-- Warning: "
                         "We can't verify %s/%s signatures. --]\n\n"),
                       TYPE(signatures[i]), signatures[i]->subtype);
        }
      }

      mutt_file_unlink(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 != 0))
    state_attach_puts(_("\n[-- End of signed data --]\n"), s);

  return rc;
}

const char *crypt_get_fingerprint_or_id(const char *p, const char **pphint,
                                        const char **ppl, const char **pps)
{
  const char *ps = NULL, *pl = NULL, *phint = NULL;
  char *pfcopy = NULL, *s1 = NULL, *s2 = NULL;
  char c;
  int isid;
  size_t hexdigits;

  /* User input may be partial name, fingerprint or short or long key ID,
   * independent of C_PgpLongIds.
   * 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. */

  char *pf = mutt_str_skip_whitespace(p);
  if (mutt_str_startswith(pf, "0x", CASE_IGNORE))
    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)) ? mutt_str_strdup(pf) : NULL);

  if (pfcopy)
  {
    /* Use pfcopy to strip all spaces from fingerprint and as hint. */
    s1 = pfcopy;
    s2 = pfcopy;
    do
    {
      *(s1++) = *(s2 = mutt_str_skip_whitespace(s2));
    } while (*(s2++));

    phint = pfcopy;
    ps = NULL;
    pl = NULL;
  }
  else
  {
    phint = p;
    ps = NULL;
    pl = NULL;
    if (isid == 1)
    {
      if (mutt_str_strlen(pf) == 16)
        pl = pf; /* long key ID */
      else if (mutt_str_strlen(pf) == 8)
        ps = pf; /* short key ID */
    }
  }

  *pphint = phint;
  *ppl = pl;
  *pps = ps;
  return pfcopy;
}

bool 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 false;
  while (*s)
    if (!strchr("0123456789ABCDEFabcdef", *s++))
      return false;

  return true;
}