crypt_gpgme.c

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#include "config.h"
#include <ctype.h>
#include <errno.h>
#include <gpg-error.h>
#include <gpgme.h>
#include <langinfo.h>
#include <limits.h>
#include <locale.h>
#include <stdbool.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <strings.h>
#include <sys/stat.h>
#include <time.h>
#include <unistd.h>
#include "mutt/lib.h"
#include "address/lib.h"
#include "config/lib.h"
#include "email/lib.h"
#include "gui/lib.h"
#include "mutt.h"
#include "crypt_gpgme.h"
#include "lib.h"
#include "alias.h"
#include "crypt.h"
#include "format_flags.h"
#include "globals.h"
#include "handler.h"
#include "hook.h"
#include "keymap.h"
#include "mutt_attach.h"
#include "mutt_logging.h"
#include "mutt_menu.h"
#include "muttlib.h"
#include "opcodes.h"
#include "options.h"
#include "pager.h"
#include "protos.h"
#include "recvattach.h"
#include "sendlib.h"
#include "sort.h"
#include "state.h"
#ifdef ENABLE_NLS
#include <libintl.h>
#endif

struct Mailbox;

// clang-format off
/* Values used for comparing addresses. */
#define CRYPT_KV_VALID    (1 << 0)
#define CRYPT_KV_ADDR     (1 << 1)
#define CRYPT_KV_STRING   (1 << 2)
#define CRYPT_KV_STRONGID (1 << 3)
#define CRYPT_KV_MATCH    (CRYPT_KV_ADDR | CRYPT_KV_STRING)
// clang-format on

struct CryptCache
{
  char *what;
  char *dflt;
  struct CryptCache *next;
};

struct DnArray
{
  char *key;
  char *value;
};

/* We work based on user IDs, getting from a user ID to the key is
 * check and does not need any memory (gpgme uses reference counting). */
struct CryptKeyInfo
{
  struct CryptKeyInfo *next;
  gpgme_key_t kobj;
  int idx;                   
  const char *uid;           
  KeyFlags flags;            
  gpgme_validity_t validity; 
};

struct CryptEntry
{
  size_t num;
  struct CryptKeyInfo *key;
};

static struct CryptCache *id_defaults = NULL;
static gpgme_key_t signature_key = NULL;
static char *current_sender = NULL;

#define PKA_NOTATION_NAME "pka-address@gnupg.org"

#define _LINE_COMPARE(_x, _y) line_compare(_x, sizeof(_x) - 1, _y)
#define MESSAGE(_y) _LINE_COMPARE("MESSAGE-----", _y)
#define SIGNED_MESSAGE(_y) _LINE_COMPARE("SIGNED MESSAGE-----", _y)
#define PUBLIC_KEY_BLOCK(_y) _LINE_COMPARE("PUBLIC KEY BLOCK-----", _y)
#define BEGIN_PGP_SIGNATURE(_y)                                                \
  _LINE_COMPARE("-----BEGIN PGP SIGNATURE-----", _y)

enum KeyCap
{
  KEY_CAP_CAN_ENCRYPT, 
  KEY_CAP_CAN_SIGN,    
  KEY_CAP_CAN_CERTIFY, 
};

enum KeyInfo
{
  KIP_NAME = 0,    
  KIP_AKA,         
  KIP_VALID_FROM,  
  KIP_VALID_TO,    
  KIP_KEY_TYPE,    
  KIP_KEY_USAGE,   
  KIP_FINGERPRINT, 
  KIP_SERIAL_NO,   
  KIP_ISSUED_BY,   
  KIP_SUBKEY,      
  KIP_MAX,
};

static const char *const KeyInfoPrompts[] = {
  /* L10N: The following are the headers for the "verify key" output from the
     GPGME key selection menu (bound to "c" in the key selection menu).
     They will be automatically aligned. */
  N_("Name: "),      N_("aka: "),       N_("Valid From: "),  N_("Valid To: "),
  N_("Key Type: "),  N_("Key Usage: "), N_("Fingerprint: "), N_("Serial-No: "),
  N_("Issued By: "), N_("Subkey: ")
};

int KeyInfoPadding[KIP_MAX] = { 0 };

static bool is_pka_notation(gpgme_sig_notation_t notation)
{
  return mutt_str_strcmp(notation->name, PKA_NOTATION_NAME) == 0;
}

static void redraw_if_needed(gpgme_ctx_t ctx)
{
#if (GPGME_VERSION_NUMBER < 0x010800)
  /* gpgme_get_ctx_flag is not available in gpgme < 1.8.0. In this case, stay
   * on the safe side and always redraw. */
  (void) ctx;
  mutt_need_hard_redraw();
#else
  const char *s = gpgme_get_ctx_flag(ctx, "redraw");
  if (!s /* flag not known */ || *s /* flag true */)
  {
    mutt_need_hard_redraw();
  }
#endif
}

static int digit(const char *s)
{
  return (*s >= '0' && *s <= '9');
}

static int digit_or_letter(const char *s)
{
  return digit(s) || (*s >= 'A' && *s <= 'Z') || (*s >= 'a' && *s <= 'z');
}

static void print_utf8(FILE *fp, const char *buf, size_t len)
{
  char *tstr = mutt_mem_malloc(len + 1);
  memcpy(tstr, buf, len);
  tstr[len] = 0;

  /* fromcode "utf-8" is sure, so we don't want
   * charset-hook corrections: flags must be 0.  */
  mutt_ch_convert_string(&tstr, "utf-8", C_Charset, 0);
  fputs(tstr, fp);
  FREE(&tstr);
}

#if GPGRT_VERSION_NUMBER >= 0x012100 /* libgpg-error >= 1.33 */

static int cmp_version_strings(const char *a, const char *b, int level)
{
  return gpgrt_cmp_version(a, b, level);
}
#elif (GPGME_VERSION_NUMBER >= 0x010900) /* gpgme >= 1.9.0 */

static const char *parse_version_number(const char *s, int *number)
{
  int val = 0;

  if ((*s == '0') && digit(s + 1))
    return NULL; /* Leading zeros are not allowed.  */
  for (; digit(s); s++)
  {
    val *= 10;
    val += *s - '0';
  }
  *number = val;
  return (val < 0) ? NULL : s;
}

static const char *parse_version_string(const char *s, int *major, int *minor, int *micro)
{
  s = parse_version_number(s, major);
  if (!s)
    return NULL;
  if (minor)
  {
    if (*s != '.')
      return NULL;
    s++;
    s = parse_version_number(s, minor);
    if (!s)
      return NULL;
    if (micro)
    {
      if (*s != '.')
        return NULL;
      s++;
      s = parse_version_number(s, micro);
      if (!s)
        return NULL;
    }
    else
    {
      if (*s == '.')
        s++;
    }
  }
  else
  {
    if (*s == '.')
      s++;
  }
  return s; /* patchlevel */
}

static int cmp_version_strings(const char *a, const char *b, int level)
{
  int a_major, a_minor, a_micro;
  int b_major, b_minor, b_micro;
  const char *a_plvl = NULL, *b_plvl = NULL;
  int r;
  int ignore_plvl;
  int positive, negative;

  if (level < 0)
  {
    positive = -1;
    negative = 1;
    level = 0 - level;
  }
  else
  {
    positive = 1;
    negative = -1;
  }
  if ((ignore_plvl = (level > 9)))
    level %= 10;

  a_major = a_minor = a_micro = 0;
  a_plvl = parse_version_string(a, &a_major, (level > 1) ? &a_minor : NULL,
                                (level > 2) ? &a_micro : NULL);
  if (!a_plvl)
    a_major = a_minor = a_micro = 0; /* Error.  */

  b_major = b_minor = b_micro = 0;
  b_plvl = parse_version_string(b, &b_major, (level > 1) ? &b_minor : NULL,
                                (level > 2) ? &b_micro : NULL);
  if (!b_plvl)
    b_major = b_minor = b_micro = 0;

  if (!ignore_plvl)
  {
    if (!a_plvl && !b_plvl)
      return negative; /* Put invalid strings at the end.  */
    if (a_plvl && !b_plvl)
      return positive;
    if (!a_plvl && b_plvl)
      return negative;
  }

  if (a_major > b_major)
    return positive;
  if (a_major < b_major)
    return negative;

  if (a_minor > b_minor)
    return positive;
  if (a_minor < b_minor)
    return negative;

  if (a_micro > b_micro)
    return positive;
  if (a_micro < b_micro)
    return negative;

  if (ignore_plvl)
    return 0;

  for (; *a_plvl && *b_plvl; a_plvl++, b_plvl++)
  {
    if ((*a_plvl == '.') && (*b_plvl == '.'))
    {
      r = strcmp(a_plvl, b_plvl);
      if (!r)
        return 0;
      if (r > 0)
        return positive;
      return negative;
    }
    if (*a_plvl == '.')
      return negative; /* B is larger. */
    if (*b_plvl == '.')
      return positive; /* A is larger. */
    if (*a_plvl != *b_plvl)
      break;
  }
  if (*a_plvl == *b_plvl)
    return 0;
  if ((*(signed char *) a_plvl - *(signed char *) b_plvl) > 0)
    return positive;
  return negative;
}
#endif                                   /* gpgme >= 1.9.0 */

static const char *crypt_keyid(struct CryptKeyInfo *k)
{
  const char *s = "????????";

  if (k->kobj && k->kobj->subkeys)
  {
    s = k->kobj->subkeys->keyid;
    if ((!C_PgpLongIds) && (strlen(s) == 16))
    {
      /* Return only the short keyID.  */
      s += 8;
    }
  }

  return s;
}

static const char *crypt_long_keyid(struct CryptKeyInfo *k)
{
  const char *s = "????????????????";

  if (k->kobj && k->kobj->subkeys)
  {
    s = k->kobj->subkeys->keyid;
  }

  return s;
}

static const char *crypt_short_keyid(struct CryptKeyInfo *k)
{
  const char *s = "????????";

  if (k->kobj && k->kobj->subkeys)
  {
    s = k->kobj->subkeys->keyid;
    if (strlen(s) == 16)
      s += 8;
  }

  return s;
}

static const char *crypt_fpr(struct CryptKeyInfo *k)
{
  const char *s = "";

  if (k->kobj && k->kobj->subkeys)
    s = k->kobj->subkeys->fpr;

  return s;
}

static const char *crypt_fpr_or_lkeyid(struct CryptKeyInfo *k)
{
  const char *s = "????????????????";

  if (k->kobj && k->kobj->subkeys)
  {
    if (k->kobj->subkeys->fpr)
      s = k->kobj->subkeys->fpr;
    else
      s = k->kobj->subkeys->keyid;
  }

  return s;
}

static char *crypt_key_abilities(KeyFlags flags)
{
  static char buf[3];

  if (!(flags & KEYFLAG_CANENCRYPT))
    buf[0] = '-';
  else if (flags & KEYFLAG_PREFER_SIGNING)
    buf[0] = '.';
  else
    buf[0] = 'e';

  if (!(flags & KEYFLAG_CANSIGN))
    buf[1] = '-';
  else if (flags & KEYFLAG_PREFER_ENCRYPTION)
    buf[1] = '.';
  else
    buf[1] = 's';

  buf[2] = '\0';

  return buf;
}

static char crypt_flags(KeyFlags flags)
{
  if (flags & KEYFLAG_REVOKED)
    return 'R';
  if (flags & KEYFLAG_EXPIRED)
    return 'X';
  if (flags & KEYFLAG_DISABLED)
    return 'd';
  if (flags & KEYFLAG_CRITICAL)
    return 'c';

  return ' ';
}

static struct CryptKeyInfo *crypt_copy_key(struct CryptKeyInfo *key)
{
  struct CryptKeyInfo *k = NULL;

  k = mutt_mem_calloc(1, sizeof(*k));
  k->kobj = key->kobj;
  gpgme_key_ref(key->kobj);
  k->idx = key->idx;
  k->uid = key->uid;
  k->flags = key->flags;
  k->validity = key->validity;

  return k;
}

static void crypt_key_free(struct CryptKeyInfo **keylist)
{
  if (!keylist)
    return;

  struct CryptKeyInfo *k = NULL;

  while (*keylist)
  {
    k = *keylist;
    *keylist = (*keylist)->next;

    gpgme_key_unref(k->kobj);
    FREE(&k);
  }
}

static bool crypt_key_is_valid(struct CryptKeyInfo *k)
{
  if (k->flags & KEYFLAG_CANTUSE)
    return false;
  return true;
}

static bool crypt_id_is_strong(struct CryptKeyInfo *key)
{
  if (!key)
    return false;

  bool is_strong = false;

  if ((key->flags & KEYFLAG_ISX509))
    return true;

  switch (key->validity)
  {
    case GPGME_VALIDITY_MARGINAL:
    case GPGME_VALIDITY_NEVER:
    case GPGME_VALIDITY_UNDEFINED:
    case GPGME_VALIDITY_UNKNOWN:
      is_strong = false;
      break;

    case GPGME_VALIDITY_FULL:
    case GPGME_VALIDITY_ULTIMATE:
      is_strong = true;
      break;
  }

  return is_strong;
}

static int crypt_id_is_valid(struct CryptKeyInfo *key)
{
  if (!key)
    return 0;

  return !(key->flags & KEYFLAG_CANTUSE);
}

static int crypt_id_matches_addr(struct Address *addr, struct Address *u_addr,
                                 struct CryptKeyInfo *key)
{
  int rc = 0;

  if (crypt_id_is_valid(key))
    rc |= CRYPT_KV_VALID;

  if (crypt_id_is_strong(key))
    rc |= CRYPT_KV_STRONGID;

  if (addr && u_addr)
  {
    if (addr->mailbox && u_addr->mailbox &&
        (mutt_str_strcasecmp(addr->mailbox, u_addr->mailbox) == 0))
    {
      rc |= CRYPT_KV_ADDR;
    }

    if (addr->personal && u_addr->personal &&
        (mutt_str_strcasecmp(addr->personal, u_addr->personal) == 0))
    {
      rc |= CRYPT_KV_STRING;
    }
  }

  return rc;
}

static gpgme_ctx_t create_gpgme_context(bool for_smime)
{
  gpgme_ctx_t ctx = NULL;

  gpgme_error_t err = gpgme_new(&ctx);

#ifdef USE_AUTOCRYPT
  if (!err && OptAutocryptGpgme)
    err = gpgme_ctx_set_engine_info(ctx, GPGME_PROTOCOL_OpenPGP, NULL, C_AutocryptDir);
#endif

  if (err != 0)
  {
    mutt_error(_("error creating gpgme context: %s"), gpgme_strerror(err));
    mutt_exit(1);
  }

  if (for_smime)
  {
    err = gpgme_set_protocol(ctx, GPGME_PROTOCOL_CMS);
    if (err != 0)
    {
      mutt_error(_("error enabling CMS protocol: %s"), gpgme_strerror(err));
      mutt_exit(1);
    }
  }

  return ctx;
}

static gpgme_data_t create_gpgme_data(void)
{
  gpgme_data_t data = NULL;

  gpgme_error_t err = gpgme_data_new(&data);
  if (err != 0)
  {
    mutt_error(_("error creating gpgme data object: %s"), gpgme_strerror(err));
    mutt_exit(1);
  }
  return data;
}

#if GPGME_VERSION_NUMBER >= 0x010900 /* gpgme >= 1.9.0 */

static bool have_gpg_version(const char *version)
{
  static char *engine_version = NULL;

  if (!engine_version)
  {
    gpgme_ctx_t ctx = NULL;
    gpgme_engine_info_t engineinfo = NULL;

    ctx = create_gpgme_context(false);
    engineinfo = gpgme_ctx_get_engine_info(ctx);
    while (engineinfo && (engineinfo->protocol != GPGME_PROTOCOL_OpenPGP))
      engineinfo = engineinfo->next;
    if (engineinfo)
    {
      engine_version = mutt_str_strdup(engineinfo->version);
    }
    else
    {
      mutt_debug(LL_DEBUG1, "Error finding GPGME PGP engine\n");
      engine_version = mutt_str_strdup("0.0.0");
    }
    gpgme_release(ctx);
  }

  return cmp_version_strings(engine_version, version, 3) >= 0;
}
#endif

static gpgme_data_t body_to_data_object(struct Body *a, bool convert)
{
  int err = 0;
  gpgme_data_t data = NULL;

  struct Buffer *tempfile = mutt_buffer_pool_get();
  mutt_buffer_mktemp(tempfile);
  FILE *fp_tmp = mutt_file_fopen(mutt_b2s(tempfile), "w+");
  if (!fp_tmp)
  {
    mutt_perror(mutt_b2s(tempfile));
    goto cleanup;
  }

  mutt_write_mime_header(a, fp_tmp);
  fputc('\n', fp_tmp);
  mutt_write_mime_body(a, fp_tmp);

  if (convert)
  {
    int c, hadcr = 0;
    unsigned char buf[1];

    data = create_gpgme_data();
    rewind(fp_tmp);
    while ((c = fgetc(fp_tmp)) != EOF)
    {
      if (c == '\r')
        hadcr = 1;
      else
      {
        if ((c == '\n') && !hadcr)
        {
          buf[0] = '\r';
          gpgme_data_write(data, buf, 1);
        }

        hadcr = 0;
      }
      /* FIXME: This is quite suboptimal */
      buf[0] = c;
      gpgme_data_write(data, buf, 1);
    }
    mutt_file_fclose(&fp_tmp);
    gpgme_data_seek(data, 0, SEEK_SET);
  }
  else
  {
    mutt_file_fclose(&fp_tmp);
    err = gpgme_data_new_from_file(&data, mutt_b2s(tempfile), 1);
    if (err != 0)
    {
      mutt_error(_("error allocating data object: %s"), gpgme_strerror(err));
      gpgme_data_release(data);
      data = NULL;
      /* fall through to unlink the tempfile */
    }
  }
  unlink(mutt_b2s(tempfile));

cleanup:
  mutt_buffer_pool_release(&tempfile);
  return data;
}

static gpgme_data_t file_to_data_object(FILE *fp, long offset, size_t length)
{
  gpgme_data_t data = NULL;

  int err = gpgme_data_new_from_filepart(&data, NULL, fp, offset, length);
  if (err != 0)
  {
    mutt_error(_("error allocating data object: %s"), gpgme_strerror(err));
    return NULL;
  }

  return data;
}

static int data_object_to_stream(gpgme_data_t data, FILE *fp)
{
  char buf[4096];
  ssize_t nread;

  int err = ((gpgme_data_seek(data, 0, SEEK_SET) == -1) ? gpgme_error_from_errno(errno) : 0);
  if (err != 0)
  {
    mutt_error(_("error rewinding data object: %s"), gpgme_strerror(err));
    return -1;
  }

  while ((nread = gpgme_data_read(data, buf, sizeof(buf))) > 0)
  {
    /* fixme: we are not really converting CRLF to LF but just
     * skipping CR. Doing it correctly needs a more complex logic */
    for (char *p = buf; nread; p++, nread--)
    {
      if (*p != '\r')
        putc(*p, fp);
    }

    if (ferror(fp))
    {
      mutt_perror(_("[tempfile]"));
      return -1;
    }
  }
  if (nread == -1)
  {
    mutt_error(_("error reading data object: %s"), strerror(errno));
    return -1;
  }
  return 0;
}

static char *data_object_to_tempfile(gpgme_data_t data, FILE **fp_ret)
{
  ssize_t nread = 0;
  char *rv = NULL;
  struct Buffer *tempf = mutt_buffer_pool_get();

  mutt_buffer_mktemp(tempf);

  FILE *fp = mutt_file_fopen(mutt_b2s(tempf), "w+");
  if (!fp)
  {
    mutt_perror(_("Can't create temporary file"));
    goto cleanup;
  }

  int err = ((gpgme_data_seek(data, 0, SEEK_SET) == -1) ? gpgme_error_from_errno(errno) : 0);
  if (err == 0)
  {
    char buf[4096];

    while ((nread = gpgme_data_read(data, buf, sizeof(buf))) > 0)
    {
      if (fwrite(buf, nread, 1, fp) != 1)
      {
        mutt_perror(mutt_b2s(tempf));
        mutt_file_fclose(&fp);
        unlink(mutt_b2s(tempf));
        goto cleanup;
      }
    }
  }
  if (fp_ret)
    rewind(fp);
  else
    mutt_file_fclose(&fp);
  if (nread == -1)
  {
    mutt_error(_("error reading data object: %s"), gpgme_strerror(err));
    unlink(mutt_b2s(tempf));
    mutt_file_fclose(&fp);
    goto cleanup;
  }
  if (fp_ret)
    *fp_ret = fp;
  rv = mutt_buffer_strdup(tempf);

cleanup:
  mutt_buffer_pool_release(&tempf);
  return rv;
}

#if (GPGME_VERSION_NUMBER >= 0x010b00) /* gpgme >= 1.11.0 */

static void create_recipient_string(const char *keylist, struct Buffer *recpstring, int use_smime)
{
  unsigned int n = 0;

  const char *s = keylist;
  do
  {
    while (*s == ' ')
      s++;
    if (*s != '\0')
    {
      if (n == 0)
      {
        if (!use_smime)
          mutt_buffer_addstr(recpstring, "--\n");
      }
      else
        mutt_buffer_addch(recpstring, '\n');
      n++;

      while ((*s != '\0') && (*s != ' '))
        mutt_buffer_addch(recpstring, *s++);
    }
  } while (*s != '\0');
}

#else

static void recipient_set_free(gpgme_key_t **p_rset)
{
  gpgme_key_t *rset = NULL;

  if (!p_rset)
    return;

  rset = *p_rset;
  if (!rset)
    return;

  while (*rset)
  {
    gpgme_key_t k = *rset;
    gpgme_key_unref(k);
    rset++;
  }

  FREE(p_rset);
}

static gpgme_key_t *create_recipient_set(const char *keylist, bool use_smime)
{
  int err;
  const char *s = NULL;
  char buf[100];
  gpgme_key_t *rset = NULL;
  unsigned int rset_n = 0;
  gpgme_key_t key = NULL;

  gpgme_ctx_t context = create_gpgme_context(use_smime);
  s = keylist;
  do
  {
    while (*s == ' ')
      s++;
    int i;
    for (i = 0; *s && *s != ' ' && i < sizeof(buf) - 1;)
      buf[i++] = *s++;
    buf[i] = '\0';
    if (*buf != '\0')
    {
      if ((i > 1) && (buf[i - 1] == '!'))
      {
        /* The user selected to override the validity of that key. */
        buf[i - 1] = '\0';

        err = gpgme_get_key(context, buf, &key, 0);
        if (err == 0)
          key->uids->validity = GPGME_VALIDITY_FULL;
        buf[i - 1] = '!';
      }
      else
        err = gpgme_get_key(context, buf, &key, 0);
      mutt_mem_realloc(&rset, sizeof(*rset) * (rset_n + 1));
      if (err == 0)
        rset[rset_n++] = key;
      else
      {
        mutt_error(_("error adding recipient '%s': %s"), buf, gpgme_strerror(err));
        rset[rset_n] = NULL;
        recipient_set_free(&rset);
        gpgme_release(context);
        return NULL;
      }
    }
  } while (*s);

  /* NULL terminate.  */
  mutt_mem_realloc(&rset, sizeof(*rset) * (rset_n + 1));
  rset[rset_n++] = NULL;

  gpgme_release(context);

  return rset;
}
#endif /* GPGME_VERSION_NUMBER >= 0x010b00 */

static bool set_signer_from_address(gpgme_ctx_t ctx, const char *address, bool for_smime)
{
  gpgme_error_t err;
  gpgme_key_t key = NULL, key2 = NULL;
  gpgme_ctx_t listctx = create_gpgme_context(for_smime);
  err = gpgme_op_keylist_start(listctx, address, 1);
  if (err == 0)
    err = gpgme_op_keylist_next(listctx, &key);
  if (err)
  {
    gpgme_release(listctx);
    mutt_error(_("secret key '%s' not found: %s"), address, gpgme_strerror(err));
    return false;
  }

  char *fpr = "fpr1";
  if (key->subkeys)
    fpr = key->subkeys->fpr ? key->subkeys->fpr : key->subkeys->keyid;
  while (gpgme_op_keylist_next(listctx, &key2) == 0)
  {
    char *fpr2 = "fpr2";
    if (key2->subkeys)
      fpr2 = key2->subkeys->fpr ? key2->subkeys->fpr : key2->subkeys->keyid;
    if (mutt_str_strcmp(fpr, fpr2))
    {
      gpgme_key_unref(key);
      gpgme_key_unref(key2);
      gpgme_release(listctx);
      mutt_error(_("ambiguous specification of secret key '%s'\n"), address);
      return false;
    }
    else
    {
      gpgme_key_unref(key2);
    }
  }
  gpgme_op_keylist_end(listctx);
  gpgme_release(listctx);

  gpgme_signers_clear(ctx);
  err = gpgme_signers_add(ctx, key);
  gpgme_key_unref(key);
  if (err)
  {
    mutt_error(_("error setting secret key '%s': %s"), address, gpgme_strerror(err));
    return false;
  }
  return true;
}

static int set_signer(gpgme_ctx_t ctx, const struct AddressList *al, bool for_smime)
{
  char *signid = NULL;

  if (for_smime)
    signid = C_SmimeSignAs ? C_SmimeSignAs : C_SmimeDefaultKey;
#ifdef USE_AUTOCRYPT
  else if (OptAutocryptGpgme)
    signid = AutocryptSignAs;
#endif
  else
    signid = C_PgpSignAs ? C_PgpSignAs : C_PgpDefaultKey;

  /* Try getting the signing key from config entries */
  if (signid && set_signer_from_address(ctx, signid, for_smime))
  {
    return 0;
  }

  /* Try getting the signing key from the From line */
  if (al)
  {
    struct Address *a;
    TAILQ_FOREACH(a, al, entries)
    {
      if (a->mailbox && set_signer_from_address(ctx, a->mailbox, for_smime))
      {
        return 0;
      }
    }
  }

  return (!signid && !al) ? 0 : -1;
}

static gpgme_error_t set_pka_sig_notation(gpgme_ctx_t ctx)
{
  gpgme_error_t err = gpgme_sig_notation_add(ctx, PKA_NOTATION_NAME, current_sender, 0);
  if (err)
  {
    mutt_error(_("error setting PKA signature notation: %s"), gpgme_strerror(err));
  }

  return err;
}

static char *encrypt_gpgme_object(gpgme_data_t plaintext, char *keylist, bool use_smime,
                                  bool combined_signed, const struct AddressList *from)
{
  gpgme_error_t err;
  gpgme_ctx_t ctx = NULL;
  gpgme_data_t ciphertext = NULL;
  char *outfile = NULL;

#if GPGME_VERSION_NUMBER >= 0x010b00 /* gpgme >= 1.11.0 */
  struct Buffer *recpstring = mutt_buffer_pool_get();
  create_recipient_string(keylist, recpstring, use_smime);
  if (mutt_buffer_is_empty(recpstring))
  {
    mutt_buffer_pool_release(&recpstring);
    return NULL;
  }
#else
  gpgme_key_t *rset = create_recipient_set(keylist, use_smime);
  if (!rset)
    return NULL;
#endif /* GPGME_VERSION_NUMBER >= 0x010b00 */

  ctx = create_gpgme_context(use_smime);
  if (!use_smime)
    gpgme_set_armor(ctx, 1);

  ciphertext = create_gpgme_data();

  if (combined_signed)
  {
    if (set_signer(ctx, from, use_smime))
      goto cleanup;

    if (C_CryptUsePka)
    {
      err = set_pka_sig_notation(ctx);
      if (err != 0)
        goto cleanup;
    }

#if (GPGME_VERSION_NUMBER >= 0x010b00) /* gpgme >= 1.11.0 */
    err = gpgme_op_encrypt_sign_ext(ctx, NULL, mutt_b2s(recpstring),
                                    GPGME_ENCRYPT_ALWAYS_TRUST, plaintext, ciphertext);
#else
    err = gpgme_op_encrypt_sign(ctx, rset, GPGME_ENCRYPT_ALWAYS_TRUST, plaintext, ciphertext);
#endif
  }
  else
  {
#if (GPGME_VERSION_NUMBER >= 0x010b00) /* gpgme >= 1.11.0 */
    err = gpgme_op_encrypt_ext(ctx, NULL, mutt_b2s(recpstring),
                               GPGME_ENCRYPT_ALWAYS_TRUST, plaintext, ciphertext);
#else
    err = gpgme_op_encrypt(ctx, rset, GPGME_ENCRYPT_ALWAYS_TRUST, plaintext, ciphertext);
#endif
  }

  redraw_if_needed(ctx);
  if (err != 0)
  {
    mutt_error(_("error encrypting data: %s"), gpgme_strerror(err));
    goto cleanup;
  }

  outfile = data_object_to_tempfile(ciphertext, NULL);

cleanup:
#if (GPGME_VERSION_NUMBER >= 0x010b00) /* gpgme >= 1.11.0 */
  mutt_buffer_pool_release(&recpstring);
#else
  recipient_set_free(&rset);
#endif
  gpgme_release(ctx);
  gpgme_data_release(ciphertext);
  return outfile;
}

static int get_micalg(gpgme_ctx_t ctx, int use_smime, char *buf, size_t buflen)
{
  gpgme_sign_result_t result = NULL;
  const char *algorithm_name = NULL;

  if (buflen < 5)
    return -1;

  *buf = '\0';
  result = gpgme_op_sign_result(ctx);
  if (result && result->signatures)
  {
    algorithm_name = gpgme_hash_algo_name(result->signatures->hash_algo);
    if (algorithm_name)
    {
      if (use_smime)
      {
        /* convert GPGME raw hash name to RFC2633 format */
        snprintf(buf, buflen, "%s", algorithm_name);
        mutt_str_strlower(buf);
      }
      else
      {
        /* convert GPGME raw hash name to RFC3156 format */
        snprintf(buf, buflen, "pgp-%s", algorithm_name);
        mutt_str_strlower(buf + 4);
      }
    }
  }

  return (buf[0] != '\0') ? 0 : -1;
}

static void print_time(time_t t, struct State *s)
{
  char p[256];
  mutt_date_localtime_format(p, sizeof(p), nl_langinfo(D_T_FMT), t);
  state_puts(s, p);
}

static struct Body *sign_message(struct Body *a, const struct AddressList *from, bool use_smime)
{
  struct Body *t = NULL;
  char *sigfile = NULL;
  int err = 0;
  char buf[100];
  gpgme_ctx_t ctx = NULL;
  gpgme_data_t message = NULL, signature = NULL;
  gpgme_sign_result_t sigres = NULL;

  crypt_convert_to_7bit(a); /* Signed data _must_ be in 7-bit format. */

  message = body_to_data_object(a, true);
  if (!message)
    return NULL;
  signature = create_gpgme_data();

  ctx = create_gpgme_context(use_smime);
  if (!use_smime)
    gpgme_set_armor(ctx, 1);

  if (set_signer(ctx, from, use_smime))
  {
    gpgme_data_release(signature);
    gpgme_data_release(message);
    gpgme_release(ctx);
    return NULL;
  }

  if (C_CryptUsePka)
  {
    err = set_pka_sig_notation(ctx);
    if (err != 0)
    {
      gpgme_data_release(signature);
      gpgme_data_release(message);
      gpgme_release(ctx);
      return NULL;
    }
  }

  err = gpgme_op_sign(ctx, message, signature, GPGME_SIG_MODE_DETACH);
  redraw_if_needed(ctx);
  gpgme_data_release(message);
  if (err != 0)
  {
    gpgme_data_release(signature);
    gpgme_release(ctx);
    mutt_error(_("error signing data: %s"), gpgme_strerror(err));
    return NULL;
  }
  /* Check for zero signatures generated.  This can occur when $pgp_sign_as is
   * unset and there is no default key specified in ~/.gnupg/gpg.conf */
  sigres = gpgme_op_sign_result(ctx);
  if (!sigres->signatures)
  {
    gpgme_data_release(signature);
    gpgme_release(ctx);
    mutt_error(_("$pgp_sign_as unset and no default key specified in "
                 "~/.gnupg/gpg.conf"));
    return NULL;
  }

  sigfile = data_object_to_tempfile(signature, NULL);
  gpgme_data_release(signature);
  if (!sigfile)
  {
    gpgme_release(ctx);
    return NULL;
  }

  t = mutt_body_new();
  t->type = TYPE_MULTIPART;
  t->subtype = mutt_str_strdup("signed");
  t->encoding = ENC_7BIT;
  t->use_disp = false;
  t->disposition = DISP_INLINE;

  mutt_generate_boundary(&t->parameter);
  mutt_param_set(&t->parameter, "protocol",
                 use_smime ? "application/pkcs7-signature" : "application/pgp-signature");
  /* Get the micalg from gpgme.  Old gpgme versions don't support this
   * for S/MIME so we assume sha-1 in this case. */
  if (get_micalg(ctx, use_smime, buf, sizeof(buf)) == 0)
    mutt_param_set(&t->parameter, "micalg", buf);
  else if (use_smime)
    mutt_param_set(&t->parameter, "micalg", "sha1");
  gpgme_release(ctx);

  t->parts = a;
  a = t;

  t->parts->next = mutt_body_new();
  t = t->parts->next;
  t->type = TYPE_APPLICATION;
  if (use_smime)
  {
    t->subtype = mutt_str_strdup("pkcs7-signature");
    mutt_param_set(&t->parameter, "name", "smime.p7s");
    t->encoding = ENC_BASE64;
    t->use_disp = true;
    t->disposition = DISP_ATTACH;
    t->d_filename = mutt_str_strdup("smime.p7s");
  }
  else
  {
    t->subtype = mutt_str_strdup("pgp-signature");
    mutt_param_set(&t->parameter, "name", "signature.asc");
    t->use_disp = false;
    t->disposition = DISP_NONE;
    t->encoding = ENC_7BIT;
  }
  t->filename = sigfile;
  t->unlink = true; /* ok to remove this file after sending. */

  return a;
}

struct Body *pgp_gpgme_sign_message(struct Body *a, const struct AddressList *from)
{
  return sign_message(a, from, false);
}

struct Body *smime_gpgme_sign_message(struct Body *a, const struct AddressList *from)
{
  return sign_message(a, from, true);
}

struct Body *pgp_gpgme_encrypt_message(struct Body *a, char *keylist, bool sign,
                                       const struct AddressList *from)
{
  if (sign)
    crypt_convert_to_7bit(a);
  gpgme_data_t plaintext = body_to_data_object(a, false);
  if (!plaintext)
    return NULL;

  char *outfile = encrypt_gpgme_object(plaintext, keylist, false, sign, from);
  gpgme_data_release(plaintext);
  if (!outfile)
    return NULL;

  struct Body *t = mutt_body_new();
  t->type = TYPE_MULTIPART;
  t->subtype = mutt_str_strdup("encrypted");
  t->encoding = ENC_7BIT;
  t->use_disp = false;
  t->disposition = DISP_INLINE;

  mutt_generate_boundary(&t->parameter);
  mutt_param_set(&t->parameter, "protocol", "application/pgp-encrypted");

  t->parts = mutt_body_new();
  t->parts->type = TYPE_APPLICATION;
  t->parts->subtype = mutt_str_strdup("pgp-encrypted");
  t->parts->encoding = ENC_7BIT;

  t->parts->next = mutt_body_new();
  t->parts->next->type = TYPE_APPLICATION;
  t->parts->next->subtype = mutt_str_strdup("octet-stream");
  t->parts->next->encoding = ENC_7BIT;
  t->parts->next->filename = outfile;
  t->parts->next->use_disp = true;
  t->parts->next->disposition = DISP_ATTACH;
  t->parts->next->unlink = true; /* delete after sending the message */
  t->parts->next->d_filename = mutt_str_strdup("msg.asc"); /* non pgp/mime
                                                           can save */

  return t;
}

struct Body *smime_gpgme_build_smime_entity(struct Body *a, char *keylist)
{
  /* OpenSSL converts line endings to crlf when encrypting.  Some clients
   * depend on this for signed+encrypted messages: they do not convert line
   * endings between decrypting and checking the signature.  */
  gpgme_data_t plaintext = body_to_data_object(a, true);
  if (!plaintext)
    return NULL;

  char *outfile = encrypt_gpgme_object(plaintext, keylist, true, false, NULL);
  gpgme_data_release(plaintext);
  if (!outfile)
    return NULL;

  struct Body *t = mutt_body_new();
  t->type = TYPE_APPLICATION;
  t->subtype = mutt_str_strdup("pkcs7-mime");
  mutt_param_set(&t->parameter, "name", "smime.p7m");
  mutt_param_set(&t->parameter, "smime-type", "enveloped-data");
  t->encoding = ENC_BASE64; /* The output of OpenSSL SHOULD be binary */
  t->use_disp = true;
  t->disposition = DISP_ATTACH;
  t->d_filename = mutt_str_strdup("smime.p7m");
  t->filename = outfile;
  t->unlink = true; /* delete after sending the message */
  t->parts = 0;
  t->next = 0;

  return t;
}

static int show_sig_summary(unsigned long sum, gpgme_ctx_t ctx, gpgme_key_t key,
                            int idx, struct State *s, gpgme_signature_t sig)
{
  if (!key)
    return 1;

  bool severe = false;

  if ((sum & GPGME_SIGSUM_KEY_REVOKED))
  {
    state_puts(s, _("Warning: One of the keys has been revoked\n"));
    severe = true;
  }

  if ((sum & GPGME_SIGSUM_KEY_EXPIRED))
  {
    time_t at = key->subkeys->expires ? key->subkeys->expires : 0;
    if (at)
    {
      state_puts(
          s, _("Warning: The key used to create the signature expired at: "));
      print_time(at, s);
      state_puts(s, "\n");
    }
    else
    {
      state_puts(s, _("Warning: At least one certification key has expired\n"));
    }
  }

  if ((sum & GPGME_SIGSUM_SIG_EXPIRED))
  {
    gpgme_signature_t sig2 = NULL;
    unsigned int i;

    gpgme_verify_result_t result = gpgme_op_verify_result(ctx);

    for (sig2 = result->signatures, i = 0; sig2 && (i < idx); sig2 = sig2->next, i++)
      ;

    state_puts(s, _("Warning: The signature expired at: "));
    print_time(sig2 ? sig2->exp_timestamp : 0, s);
    state_puts(s, "\n");
  }

  if ((sum & GPGME_SIGSUM_KEY_MISSING))
  {
    state_puts(s, _("Can't verify due to a missing key or certificate\n"));
  }

  if ((sum & GPGME_SIGSUM_CRL_MISSING))
  {
    state_puts(s, _("The CRL is not available\n"));
    severe = true;
  }

  if ((sum & GPGME_SIGSUM_CRL_TOO_OLD))
  {
    state_puts(s, _("Available CRL is too old\n"));
    severe = true;
  }

  if ((sum & GPGME_SIGSUM_BAD_POLICY))
    state_puts(s, _("A policy requirement was not met\n"));

  if ((sum & GPGME_SIGSUM_SYS_ERROR))
  {
    const char *t0 = NULL, *t1 = NULL;
    gpgme_verify_result_t result = NULL;
    gpgme_signature_t sig2 = NULL;
    unsigned int i;

    state_puts(s, _("A system error occurred"));

    /* Try to figure out some more detailed system error information. */
    result = gpgme_op_verify_result(ctx);
    for (sig2 = result->signatures, i = 0; sig2 && (i < idx); sig2 = sig2->next, i++)
      ;
    if (sig2)
    {
      t0 = "";
      t1 = sig2->wrong_key_usage ? "Wrong_Key_Usage" : "";
    }

    if (t0 || t1)
    {
      state_puts(s, ": ");
      if (t0)
        state_puts(s, t0);
      if (t1 && !(t0 && (strcmp(t0, t1) == 0)))
      {
        if (t0)
          state_puts(s, ",");
        state_puts(s, t1);
      }
    }
    state_puts(s, "\n");
  }

  if (C_CryptUsePka)
  {
    if ((sig->pka_trust == 1) && sig->pka_address)
    {
      state_puts(s, _("WARNING: PKA entry does not match signer's address: "));
      state_puts(s, sig->pka_address);
      state_puts(s, "\n");
    }
    else if ((sig->pka_trust == 2) && sig->pka_address)
    {
      state_puts(s, _("PKA verified signer's address is: "));
      state_puts(s, sig->pka_address);
      state_puts(s, "\n");
    }
  }

  return severe;
}

static void show_fingerprint(gpgme_key_t key, struct State *state)
{
  if (!key)
    return;

  const char *prefix = _("Fingerprint: ");

  const char *s = key->subkeys ? key->subkeys->fpr : NULL;
  if (!s)
    return;
  bool is_pgp = (key->protocol == GPGME_PROTOCOL_OpenPGP);

  char *buf = mutt_mem_malloc(strlen(prefix) + strlen(s) * 4 + 2);
  strcpy(buf, prefix);
  char *p = buf + strlen(buf);
  if (is_pgp && (strlen(s) == 40))
  { /* PGP v4 style formatted. */
    for (int i = 0; *s && s[1] && s[2] && s[3] && s[4]; s += 4, i++)
    {
      *p++ = s[0];
      *p++ = s[1];
      *p++ = s[2];
      *p++ = s[3];
      *p++ = ' ';
      if (i == 4)
        *p++ = ' ';
    }
  }
  else
  {
    for (int i = 0; *s && s[1] && s[2]; s += 2, i++)
    {
      *p++ = s[0];
      *p++ = s[1];
      *p++ = is_pgp ? ' ' : ':';
      if (is_pgp && (i == 7))
        *p++ = ' ';
    }
  }

  /* just in case print remaining odd digits */
  for (; *s; s++)
    *p++ = *s;
  *p++ = '\n';
  *p = '\0';
  state_puts(state, buf);
  FREE(&buf);
}

static void show_one_sig_validity(gpgme_ctx_t ctx, int idx, struct State *s)
{
  gpgme_signature_t sig = NULL;
  const char *txt = NULL;

  gpgme_verify_result_t result = gpgme_op_verify_result(ctx);
  if (result)
    for (sig = result->signatures; sig && (idx > 0); sig = sig->next, idx--)
      ;

  switch (sig ? sig->validity : 0)
  {
    case GPGME_VALIDITY_UNKNOWN:
      txt = _("WARNING: We have NO indication whether "
              "the key belongs to the person named "
              "as shown above\n");
      break;
    case GPGME_VALIDITY_UNDEFINED:
      break;
    case GPGME_VALIDITY_NEVER:
      txt = _("WARNING: The key does NOT BELONG to "
              "the person named as shown above\n");
      break;
    case GPGME_VALIDITY_MARGINAL:
      txt = _("WARNING: It is NOT certain that the key "
              "belongs to the person named as shown above\n");
      break;
    case GPGME_VALIDITY_FULL:
    case GPGME_VALIDITY_ULTIMATE:
      txt = NULL;
      break;
  }
  if (txt)
    state_puts(s, txt);
}

static void print_smime_keyinfo(const char *msg, gpgme_signature_t sig,
                                gpgme_key_t key, struct State *s)
{
  int msgwid;

  state_puts(s, msg);
  state_puts(s, " ");
  /* key is NULL when not present in the user's keyring */
  if (key)
  {
    bool aka = false;
    for (gpgme_user_id_t uids = key->uids; uids; uids = uids->next)
    {
      if (uids->revoked)
        continue;
      if (aka)
      {
        msgwid = mutt_strwidth(msg) - mutt_strwidth(_("aka: ")) + 1;
        if (msgwid < 0)
          msgwid = 0;
        for (int i = 0; i < msgwid; i++)
          state_puts(s, " ");
        state_puts(s, _("aka: "));
      }
      state_puts(s, uids->uid);
      state_puts(s, "\n");

      aka = true;
    }
  }
  else
  {
    if (sig->fpr)
    {
      state_puts(s, _("KeyID "));
      state_puts(s, sig->fpr);
    }
    else
    {
      /* L10N: You will see this message in place of "KeyID "
         if the S/MIME key has no ID. This is quite an error. */
      state_puts(s, _("no signature fingerprint available"));
    }
    state_puts(s, "\n");
  }

  /* timestamp is 0 when verification failed.
   * "Jan 1 1970" is not the created date. */
  if (sig->timestamp)
  {
    msgwid = mutt_strwidth(msg) - mutt_strwidth(_("created: ")) + 1;
    if (msgwid < 0)
      msgwid = 0;
    for (int i = 0; i < msgwid; i++)
      state_puts(s, " ");
    state_puts(s, _("created: "));
    print_time(sig->timestamp, s);
    state_puts(s, "\n");
  }
}

static int show_one_sig_status(gpgme_ctx_t ctx, int idx, struct State *s)
{
  const char *fpr = NULL;
  gpgme_key_t key = NULL;
  bool anybad = false, anywarn = false;
  gpgme_signature_t sig = NULL;
  gpgme_error_t err = GPG_ERR_NO_ERROR;

  gpgme_verify_result_t result = gpgme_op_verify_result(ctx);
  if (result)
  {
    /* FIXME: this code should use a static variable and remember
     * the current position in the list of signatures, IMHO.
     * -moritz.  */
    int i;
    for (i = 0, sig = result->signatures; sig && (i < idx); i++, sig = sig->next)
      ;
    if (!sig)
      return -1; /* Signature not found.  */

    if (signature_key)
    {
      gpgme_key_unref(signature_key);
      signature_key = NULL;
    }

    fpr = sig->fpr;
    const unsigned int sum = sig->summary;

    if (gpg_err_code(sig->status) != GPG_ERR_NO_ERROR)
      anybad = true;

    if (gpg_err_code(sig->status) != GPG_ERR_NO_PUBKEY)
    {
      err = gpgme_get_key(ctx, fpr, &key, 0); /* secret key?  */
      if (err == 0)
      {
        if (!signature_key)
          signature_key = key;
      }
      else
      {
        key = NULL; /* Old gpgme versions did not set KEY to NULL on
                         error.   Do it here to avoid a double free. */
      }
    }
    else
    {
      /* pubkey not present */
    }

    if (!s || !s->fp_out || !(s->flags & MUTT_DISPLAY))
      ; /* No state information so no way to print anything. */
    else if (err != 0)
    {
      char buf[1024];
      snprintf(buf, sizeof(buf), _("Error getting key information for KeyID %s: %s\n"),
               fpr, gpgme_strerror(err));
      state_puts(s, buf);
      anybad = true;
    }
    else if ((sum & GPGME_SIGSUM_GREEN))
    {
      print_smime_keyinfo(_("Good signature from:"), sig, key, s);
      if (show_sig_summary(sum, ctx, key, idx, s, sig))
        anywarn = true;
      show_one_sig_validity(ctx, idx, s);
    }
    else if ((sum & GPGME_SIGSUM_RED))
    {
      print_smime_keyinfo(_("*BAD* signature from:"), sig, key, s);
      show_sig_summary(sum, ctx, key, idx, s, sig);
    }
    else if (!anybad && key && (key->protocol == GPGME_PROTOCOL_OpenPGP))
    { /* We can't decide (yellow) but this is a PGP key with a good
           signature, so we display what a PGP user expects: The name,
           fingerprint and the key validity (which is neither fully or
           ultimate). */
      print_smime_keyinfo(_("Good signature from:"), sig, key, s);
      show_one_sig_validity(ctx, idx, s);
      show_fingerprint(key, s);
      if (show_sig_summary(sum, ctx, key, idx, s, sig))
        anywarn = true;
    }
    else /* can't decide (yellow) */
    {
      print_smime_keyinfo(_("Problem signature from:"), sig, key, s);
      /* 0 indicates no expiration */
      if (sig->exp_timestamp)
      {
        /* L10N: This is trying to match the width of the
           "Problem signature from:" translation just above. */
        state_puts(s, _("               expires: "));
        print_time(sig->exp_timestamp, s);
        state_puts(s, "\n");
      }
      show_sig_summary(sum, ctx, key, idx, s, sig);
      anywarn = true;
    }

    if (key != signature_key)
      gpgme_key_unref(key);
  }

  return anybad ? 1 : anywarn ? 2 : 0;
}

static int verify_one(struct Body *sigbdy, struct State *s, const char *tempfile, bool is_smime)
{
  int badsig = -1;
  int anywarn = 0;
  gpgme_ctx_t ctx = NULL;
  gpgme_data_t message = NULL;

  gpgme_data_t signature = file_to_data_object(s->fp_in, sigbdy->offset, sigbdy->length);
  if (!signature)
    return -1;

  /* We need to tell gpgme about the encoding because the backend can't
   * auto-detect plain base-64 encoding which is used by S/MIME. */
  if (is_smime)
    gpgme_data_set_encoding(signature, GPGME_DATA_ENCODING_BASE64);

  int err = gpgme_data_new_from_file(&message, tempfile, 1);
  if (err != 0)
  {
    gpgme_data_release(signature);
    mutt_error(_("error allocating data object: %s"), gpgme_strerror(err));
    return -1;
  }
  ctx = create_gpgme_context(is_smime);

  /* Note: We don't need a current time output because GPGME avoids
   * such an attack by separating the meta information from the data. */
  state_attach_puts(s, _("[-- Begin signature information --]\n"));

  err = gpgme_op_verify(ctx, signature, message, NULL);
  gpgme_data_release(message);
  gpgme_data_release(signature);

  redraw_if_needed(ctx);
  if (err != 0)
  {
    char buf[200];

    snprintf(buf, sizeof(buf) - 1, _("Error: verification failed: %s\n"),
             gpgme_strerror(err));
    state_puts(s, buf);
  }
  else
  { /* Verification succeeded, see what the result is. */
    gpgme_verify_result_t verify_result = NULL;

    if (signature_key)
    {
      gpgme_key_unref(signature_key);
      signature_key = NULL;
    }

    verify_result = gpgme_op_verify_result(ctx);
    if (verify_result && verify_result->signatures)
    {
      bool anybad = false;
      int res;
      for (int idx = 0; (res = show_one_sig_status(ctx, idx, s)) != -1; idx++)
      {
        if (res == 1)
          anybad = true;
        else if (res == 2)
          anywarn = 2;
      }
      if (!anybad)
        badsig = 0;
    }
  }

  if (badsig == 0)
  {
    gpgme_verify_result_t result = NULL;
    gpgme_sig_notation_t notation = NULL;
    gpgme_signature_t sig = NULL;

    result = gpgme_op_verify_result(ctx);
    if (result)
    {
      for (sig = result->signatures; sig; sig = sig->next)
      {
        int non_pka_notations = 0;
        for (notation = sig->notations; notation; notation = notation->next)
          if (!is_pka_notation(notation))
            non_pka_notations++;

        if (non_pka_notations)
        {
          char buf[128];
          snprintf(buf, sizeof(buf),
                   _("*** Begin Notation (signature by: %s) ***\n"), sig->fpr);
          state_puts(s, buf);
          for (notation = sig->notations; notation; notation = notation->next)
          {
            if (is_pka_notation(notation))
              continue;

            if (notation->name)
            {
              state_puts(s, notation->name);
              state_puts(s, "=");
            }
            if (notation->value)
            {
              state_puts(s, notation->value);
              if (!(*notation->value && (notation->value[strlen(notation->value) - 1] == '\n')))
                state_puts(s, "\n");
            }
          }
          state_puts(s, _("*** End Notation ***\n"));
        }
      }
    }
  }

  gpgme_release(ctx);

  state_attach_puts(s, _("[-- End signature information --]\n\n"));
  mutt_debug(LL_DEBUG1, "returning %d\n", badsig);

  return badsig ? 1 : anywarn ? 2 : 0;
}

int pgp_gpgme_verify_one(struct Body *sigbdy, struct State *s, const char *tempfile)
{
  return verify_one(sigbdy, s, tempfile, false);
}

int smime_gpgme_verify_one(struct Body *sigbdy, struct State *s, const char *tempfile)
{
  return verify_one(sigbdy, s, tempfile, true);
}

static struct Body *decrypt_part(struct Body *a, struct State *s, FILE *fp_out,
                                 bool is_smime, int *r_is_signed)
{
  if (!a || !s || !fp_out)
    return NULL;

  struct stat info;
  struct Body *tattach = NULL;
  int err = 0;
  gpgme_data_t ciphertext = NULL, plaintext = NULL;
  bool maybe_signed = false;
  bool anywarn = false;
  int sig_stat = 0;

  if (r_is_signed)
    *r_is_signed = 0;

  gpgme_ctx_t ctx = create_gpgme_context(is_smime);

restart:
  if (a->length < 0)
    return NULL;
  /* Make a data object from the body, create context etc. */
  ciphertext = file_to_data_object(s->fp_in, a->offset, a->length);
  if (!ciphertext)
    goto cleanup;
  plaintext = create_gpgme_data();

  /* Do the decryption or the verification in case of the S/MIME hack. */
  if ((!is_smime) || maybe_signed)
  {
    if (!is_smime)
      err = gpgme_op_decrypt_verify(ctx, ciphertext, plaintext);
    else if (maybe_signed)
      err = gpgme_op_verify(ctx, ciphertext, NULL, plaintext);

    if (err == GPG_ERR_NO_ERROR)
    {
      /* Check whether signatures have been verified.  */
      gpgme_verify_result_t verify_result = gpgme_op_verify_result(ctx);
      if (verify_result->signatures)
        sig_stat = 1;
    }
  }
  else
    err = gpgme_op_decrypt(ctx, ciphertext, plaintext);
  gpgme_data_release(ciphertext);
  ciphertext = NULL;
  if (err != 0)
  {
    /* Abort right away and silently.
     * Autocrypt will retry on the normal keyring. */
    if (OptAutocryptGpgme)
      goto cleanup;
    if (is_smime && !maybe_signed && (gpg_err_code(err) == GPG_ERR_NO_DATA))
    {
      /* Check whether this might be a signed message despite what the mime
       * header told us.  Retry then.  gpgsm returns the error information
       * "unsupported Algorithm '?'" but gpgme will not store this unknown
       * algorithm, thus we test that it has not been set. */
      gpgme_decrypt_result_t result;

      result = gpgme_op_decrypt_result(ctx);
      if (!result->unsupported_algorithm)
      {
        maybe_signed = true;
        gpgme_data_release(plaintext);
        plaintext = NULL;
        /* gpgsm ends the session after an error; restart it */
        gpgme_release(ctx);
        ctx = NULL;
        goto restart;
      }
    }
    redraw_if_needed(ctx);
    if ((s->flags & MUTT_DISPLAY))
    {
      char buf[200];

      snprintf(buf, sizeof(buf) - 1,
               _("[-- Error: decryption failed: %s --]\n\n"), gpgme_strerror(err));
      state_attach_puts(s, buf);
    }
    goto cleanup;
  }
  redraw_if_needed(ctx);

  /* Read the output from GPGME, and make sure to change CRLF to LF,
   * otherwise read_mime_header has a hard time parsing the message.  */
  if (data_object_to_stream(plaintext, fp_out))
  {
    goto cleanup;
  }
  gpgme_data_release(plaintext);
  plaintext = NULL;

  if (sig_stat)
  {
    int res, idx;
    int anybad = 0;

    if (r_is_signed)
      *r_is_signed = -1; /* A signature exists. */

    if ((s->flags & MUTT_DISPLAY))
    {
      state_attach_puts(s, _("[-- Begin signature information --]\n"));
    }
    for (idx = 0; (res = show_one_sig_status(ctx, idx, s)) != -1; idx++)
    {
      if (res == 1)
        anybad = 1;
      else if (res == 2)
        anywarn = true;
    }
    if (!anybad && idx && r_is_signed && *r_is_signed)
      *r_is_signed = anywarn ? 2 : 1; /* Good signature. */

    if ((s->flags & MUTT_DISPLAY))
    {
      state_attach_puts(s, _("[-- End signature information --]\n\n"));
    }
  }
  gpgme_release(ctx);
  ctx = NULL;

  fflush(fp_out);
  rewind(fp_out);
  tattach = mutt_read_mime_header(fp_out, 0);
  if (tattach)
  {
    /* Need to set the length of this body part.  */
    fstat(fileno(fp_out), &info);
    tattach->length = info.st_size - tattach->offset;

    tattach->warnsig = anywarn;

    /* See if we need to recurse on this MIME part.  */
    mutt_parse_part(fp_out, tattach);
  }

cleanup:
  gpgme_data_release(ciphertext);
  gpgme_data_release(plaintext);
  gpgme_release(ctx);

  return tattach;
}

int pgp_gpgme_decrypt_mime(FILE *fp_in, FILE **fp_out, struct Body *b, struct Body **cur)
{
  struct State s = { 0 };
  struct Body *first_part = b;
  int is_signed = 0;
  bool need_decode = false;
  int saved_type = 0;
  LOFF_T saved_offset = 0;
  size_t saved_length = 0;
  FILE *fp_decoded = NULL;
  int rc = 0;

  first_part->goodsig = false;
  first_part->warnsig = false;

  if (mutt_is_valid_multipart_pgp_encrypted(b))
  {
    b = b->parts->next;
    /* Some clients improperly encode the octetstream part. */
    if (b->encoding != ENC_7BIT)
      need_decode = true;
  }
  else if (mutt_is_malformed_multipart_pgp_encrypted(b))
  {
    b = b->parts->next->next;
    need_decode = true;
  }
  else
    return -1;

  s.fp_in = fp_in;

  if (need_decode)
  {
    saved_type = b->type;
    saved_offset = b->offset;
    saved_length = b->length;

    fp_decoded = mutt_file_mkstemp();
    if (!fp_decoded)
    {
      mutt_perror(_("Can't create temporary file"));
      return -1;
    }

    fseeko(s.fp_in, b->offset, SEEK_SET);
    s.fp_out = fp_decoded;

    mutt_decode_attachment(b, &s);

    fflush(fp_decoded);
    b->length = ftello(fp_decoded);
    b->offset = 0;
    rewind(fp_decoded);
    s.fp_in = fp_decoded;
    s.fp_out = 0;
  }

  *fp_out = mutt_file_mkstemp();
  if (!*fp_out)
  {
    mutt_perror(_("Can't create temporary file"));
    rc = -1;
    goto bail;
  }

  *cur = decrypt_part(b, &s, *fp_out, false, &is_signed);
  if (*cur)
  {
    rewind(*fp_out);
    if (is_signed > 0)
      first_part->goodsig = true;
  }
  else
  {
    rc = -1;
    mutt_file_fclose(fp_out);
  }

bail:
  if (need_decode)
  {
    b->type = saved_type;
    b->length = saved_length;
    b->offset = saved_offset;
    mutt_file_fclose(&fp_decoded);
  }

  return rc;
}

int smime_gpgme_decrypt_mime(FILE *fp_in, FILE **fp_out, struct Body *b, struct Body **cur)
{
  struct State s = { 0 };
  int is_signed;
  LOFF_T saved_b_offset;
  size_t saved_b_length;
  int saved_b_type;

  if (mutt_is_application_smime(b) == SEC_NO_FLAGS)
    return -1;

  if (b->parts)
    return -1;

  /* Decode the body - we need to pass binary CMS to the
   * backend.  The backend allows for Base64 encoded data but it does
   * not allow for QP which I have seen in some messages.  So better
   * do it here. */
  saved_b_type = b->type;
  saved_b_offset = b->offset;
  saved_b_length = b->length;
  s.fp_in = fp_in;
  fseeko(s.fp_in, b->offset, SEEK_SET);
  FILE *fp_tmp = mutt_file_mkstemp();
  if (!fp_tmp)
  {
    mutt_perror(_("Can't create temporary file"));
    return -1;
  }

  s.fp_out = fp_tmp;
  mutt_decode_attachment(b, &s);
  fflush(fp_tmp);
  b->length = ftello(s.fp_out);
  b->offset = 0;
  rewind(fp_tmp);

  memset(&s, 0, sizeof(s));
  s.fp_in = fp_tmp;
  s.fp_out = 0;
  *fp_out = mutt_file_mkstemp();
  if (!*fp_out)
  {
    mutt_perror(_("Can't create temporary file"));
    return -1;
  }

  *cur = decrypt_part(b, &s, *fp_out, true, &is_signed);
  if (*cur)
    (*cur)->goodsig = is_signed > 0;
  b->type = saved_b_type;
  b->length = saved_b_length;
  b->offset = saved_b_offset;
  mutt_file_fclose(&fp_tmp);
  rewind(*fp_out);
  if (*cur && !is_signed && !(*cur)->parts && mutt_is_application_smime(*cur))
  {
    /* Assume that this is a opaque signed s/mime message.  This is an ugly way
     * of doing it but we have anyway a problem with arbitrary encoded S/MIME
     * messages: Only the outer part may be encrypted.  The entire mime parsing
     * should be revamped, probably by keeping the temporary files so that we
     * don't need to decrypt them all the time.  Inner parts of an encrypted
     * part can then point into this file and there won't ever be a need to
     * decrypt again.  This needs a partial rewrite of the MIME engine. */
    struct Body *bb = *cur;

    saved_b_type = bb->type;
    saved_b_offset = bb->offset;
    saved_b_length = bb->length;
    memset(&s, 0, sizeof(s));
    s.fp_in = *fp_out;
    fseeko(s.fp_in, bb->offset, SEEK_SET);
    FILE *fp_tmp2 = mutt_file_mkstemp();
    if (!fp_tmp2)
    {
      mutt_perror(_("Can't create temporary file"));
      return -1;
    }

    s.fp_out = fp_tmp2;
    mutt_decode_attachment(bb, &s);
    fflush(fp_tmp2);
    bb->length = ftello(s.fp_out);
    bb->offset = 0;
    rewind(fp_tmp2);
    mutt_file_fclose(fp_out);

    memset(&s, 0, sizeof(s));
    s.fp_in = fp_tmp2;
    s.fp_out = 0;
    *fp_out = mutt_file_mkstemp();
    if (!*fp_out)
    {
      mutt_perror(_("Can't create temporary file"));
      return -1;
    }

    struct Body *b_tmp = decrypt_part(bb, &s, *fp_out, true, &is_signed);
    if (b_tmp)
      b_tmp->goodsig = is_signed > 0;
    bb->type = saved_b_type;
    bb->length = saved_b_length;
    bb->offset = saved_b_offset;
    mutt_file_fclose(&fp_tmp2);
    rewind(*fp_out);
    mutt_body_free(cur);
    *cur = b_tmp;
  }
  return *cur ? 0 : -1;
}

static int pgp_gpgme_extract_keys(gpgme_data_t keydata, FILE **fp)
{
  /* Before gpgme 1.9.0 and gpg 2.1.14 there was no side-effect free
   * way to view key data in GPGME, so we import the key into a
   * temporary keyring if we detect an older system.  */
  bool legacy_api;
  struct Buffer *tmpdir = NULL;
  gpgme_ctx_t tmpctx = NULL;
  gpgme_error_t err;
  gpgme_engine_info_t engineinfo = NULL;
  gpgme_key_t key = NULL;
  gpgme_user_id_t uid = NULL;
  gpgme_subkey_t subkey = NULL;
  const char *shortid = NULL;
  size_t len;
  char date[256];
  bool more;
  int rc = -1;
  time_t tt;

#if GPGME_VERSION_NUMBER >= 0x010900 /* gpgme >= 1.9.0 */
  legacy_api = !have_gpg_version("2.1.14");
#else /* gpgme < 1.9.0 */
  legacy_api = true;
#endif

  tmpctx = create_gpgme_context(false);

  if (legacy_api)
  {
    tmpdir = mutt_buffer_pool_get();
    mutt_buffer_printf(tmpdir, "%s/neomutt-gpgme-XXXXXX", NONULL(C_Tmpdir));
    if (!mkdtemp(tmpdir->data))
    {
      mutt_debug(LL_DEBUG1, "Error creating temporary GPGME home\n");
      goto err_ctx;
    }

    engineinfo = gpgme_ctx_get_engine_info(tmpctx);
    while (engineinfo && (engineinfo->protocol != GPGME_PROTOCOL_OpenPGP))
      engineinfo = engineinfo->next;
    if (!engineinfo)
    {
      mutt_debug(LL_DEBUG1, "Error finding GPGME PGP engine\n");
      goto err_tmpdir;
    }

    err = gpgme_ctx_set_engine_info(tmpctx, GPGME_PROTOCOL_OpenPGP,
                                    engineinfo->file_name, mutt_b2s(tmpdir));
    if (err != GPG_ERR_NO_ERROR)
    {
      mutt_debug(LL_DEBUG1, "Error setting GPGME context home\n");
      goto err_tmpdir;
    }
  }

  *fp = mutt_file_mkstemp();
  if (!*fp)
  {
    mutt_perror(_("Can't create temporary file"));
    goto err_tmpdir;
  }

#if GPGME_VERSION_NUMBER >= 0x010900 /* 1.9.0 */
  if (!legacy_api)
    err = gpgme_op_keylist_from_data_start(tmpctx, keydata, 0);
  else
#endif /* gpgme >= 1.9.0 */
  {
    err = gpgme_op_keylist_start(tmpctx, NULL, 0);
  }
  while (err == 0)
  {
    err = gpgme_op_keylist_next(tmpctx, &key);
    if (err != 0)
      break;
    uid = key->uids;
    subkey = key->subkeys;
    more = false;
    while (subkey)
    {
      shortid = subkey->keyid;
      len = mutt_str_strlen(subkey->keyid);
      if (len > 8)
        shortid += len - 8;
      tt = subkey->timestamp;
      mutt_date_localtime_format(date, sizeof(date), "%Y-%m-%d", tt);

      if (more)
      {
        fprintf(*fp, "sub %5.5s %u/%8s %s\n", gpgme_pubkey_algo_name(subkey->pubkey_algo),
                subkey->length, shortid, date);
      }
      else
      {
        fprintf(*fp, "pub %5.5s %u/%8s %s %s\n", gpgme_pubkey_algo_name(subkey->pubkey_algo),
                subkey->length, shortid, date, uid->uid);
      }
      subkey = subkey->next;
      more = true;
    }
    gpgme_key_unref(key);
  }
  if (gpg_err_code(err) != GPG_ERR_EOF)
  {
    mutt_debug(LL_DEBUG1, "Error listing keys\n");
    goto err_fp;
  }

  rc = 0;

err_fp:
  if (rc)
    mutt_file_fclose(fp);
err_tmpdir:
  if (legacy_api)
    mutt_file_rmtree(mutt_b2s(tmpdir));
err_ctx:
  gpgme_release(tmpctx);

  mutt_buffer_pool_release(&tmpdir);

  return rc;
}

static int line_compare(const char *a, size_t n, const char *b)
{
  if (mutt_str_strncmp(a, b, n) == 0)
  {
    /* at this point we know that 'b' is at least 'n' chars long */
    if ((b[n] == '\n') || ((b[n] == '\r') && (b[n + 1] == '\n')))
      return true;
  }
  return false;
}

static int pgp_check_traditional_one_body(FILE *fp, struct Body *b)
{
  char buf[8192];
  int rv = 0;

  bool sgn = false;
  bool enc = false;

  if (b->type != TYPE_TEXT)
    return 0;

  struct Buffer *tempfile = mutt_buffer_pool_get();
  mutt_buffer_mktemp(tempfile);
  if (mutt_decode_save_attachment(fp, b, mutt_b2s(tempfile), 0, MUTT_SAVE_NO_FLAGS) != 0)
  {
    unlink(mutt_b2s(tempfile));
    goto cleanup;
  }

  FILE *fp_tmp = fopen(mutt_b2s(tempfile), "r");
  if (!fp_tmp)
  {
    unlink(mutt_b2s(tempfile));
    goto cleanup;
  }

  while (fgets(buf, sizeof(buf), fp_tmp))
  {
    size_t plen = mutt_str_startswith(buf, "-----BEGIN PGP ", CASE_MATCH);
    if (plen != 0)
    {
      if (MESSAGE(buf + plen))
      {
        enc = true;
        break;
      }
      else if (SIGNED_MESSAGE(buf + plen))
      {
        sgn = true;
        break;
      }
    }
  }
  mutt_file_fclose(&fp_tmp);
  unlink(mutt_b2s(tempfile));

  if (!enc && !sgn)
    goto cleanup;

  /* fix the content type */

  mutt_param_set(&b->parameter, "format", "fixed");
  mutt_param_set(&b->parameter, "x-action", enc ? "pgp-encrypted" : "pgp-signed");

  rv = 1;

cleanup:
  mutt_buffer_pool_release(&tempfile);
  return rv;
}

int pgp_gpgme_check_traditional(FILE *fp, struct Body *b, bool just_one)
{
  int rc = 0;
  for (; b; b = b->next)
  {
    if (!just_one && is_multipart(b))
      rc = (pgp_gpgme_check_traditional(fp, b->parts, false) || rc);
    else if (b->type == TYPE_TEXT)
    {
      SecurityFlags r = mutt_is_application_pgp(b);
      if (r)
        rc = (rc || r);
      else
        rc = (pgp_check_traditional_one_body(fp, b) || rc);
    }

    if (just_one)
      break;
  }
  return rc;
}

void pgp_gpgme_invoke_import(const char *fname)
{
  gpgme_ctx_t ctx = create_gpgme_context(false);
  gpgme_data_t keydata = NULL;
  gpgme_import_result_t impres;
  gpgme_import_status_t st;
  bool any;

  FILE *fp_in = mutt_file_fopen(fname, "r");
  if (!fp_in)
  {
    mutt_perror(fname);
    goto leave;
  }
  /* Note that the stream, "fp_in", needs to be kept open while the keydata
   * is used.  */
  gpgme_error_t err = gpgme_data_new_from_stream(&keydata, fp_in);
  if (err != GPG_ERR_NO_ERROR)
  {
    mutt_error(_("error allocating data object: %s"), gpgme_strerror(err));
    goto leave;
  }

  err = gpgme_op_import(ctx, keydata);
  if (err != 0)
  {
    mutt_error(_("Error importing key: %s"), gpgme_strerror(err));
    goto leave;
  }

  /* Print infos about the imported keys to stdout.  */
  impres = gpgme_op_import_result(ctx);
  if (!impres)
  {
    fputs("oops: no import result returned\n", stdout);
    goto leave;
  }

  for (st = impres->imports; st; st = st->next)
  {
    if (st->result)
      continue;
    printf("key %s imported (", NONULL(st->fpr));
    /* Note that we use the singular even if it is possible that
     * several uids etc are new.  This simply looks better.  */
    any = false;
    if (st->status & GPGME_IMPORT_SECRET)
    {
      printf("secret parts");
      any = true;
    }
    if ((st->status & GPGME_IMPORT_NEW))
    {
      printf("%snew key", any ? ", " : "");
      any = true;
    }
    if ((st->status & GPGME_IMPORT_UID))
    {
      printf("%snew uid", any ? ", " : "");
      any = true;
    }
    if ((st->status & GPGME_IMPORT_SIG))
    {
      printf("%snew sig", any ? ", " : "");
      any = true;
    }
    if ((st->status & GPGME_IMPORT_SUBKEY))
    {
      printf("%snew subkey", any ? ", " : "");
      any = true;
    }
    printf("%s)\n", any ? "" : "not changed");
    /* Fixme: Should we lookup each imported key and print more infos? */
  }
  /* Now print keys which failed the import.  Unfortunately in most
   * cases gpg will bail out early and not tell gpgme about.  */
  /* FIXME: We could instead use the new GPGME_AUDITLOG_DIAG to show
   * the actual gpg diagnostics.  But I fear that would clutter the
   * output too much.  Maybe a dedicated prompt or option to do this
   * would be helpful.  */
  for (st = impres->imports; st; st = st->next)
  {
    if (st->result == 0)
      continue;
    printf("key %s import failed: %s\n", NONULL(st->fpr), gpgme_strerror(st->result));
  }
  fflush(stdout);

leave:
  gpgme_release(ctx);
  gpgme_data_release(keydata);
  mutt_file_fclose(&fp_in);
}

static void copy_clearsigned(gpgme_data_t data, struct State *s, char *charset)
{
  char buf[8192];
  bool complete, armor_header;
  FILE *fp = NULL;

  char *fname = data_object_to_tempfile(data, &fp);
  if (!fname)
  {
    mutt_file_fclose(&fp);
    return;
  }
  unlink(fname);
  FREE(&fname);

  /* fromcode comes from the MIME Content-Type charset label. It might
   * be a wrong label, so we want the ability to do corrections via
   * charset-hooks. Therefore we set flags to MUTT_ICONV_HOOK_FROM.  */
  struct FgetConv *fc = mutt_ch_fgetconv_open(fp, charset, C_Charset, MUTT_ICONV_HOOK_FROM);

  for (complete = true, armor_header = true;
       mutt_ch_fgetconvs(buf, sizeof(buf), fc); complete = (strchr(buf, '\n')))
  {
    if (!complete)
    {
      if (!armor_header)
        state_puts(s, buf);
      continue;
    }

    if (BEGIN_PGP_SIGNATURE(buf))
      break;

    if (armor_header)
    {
      if (buf[0] == '\n')
        armor_header = false;
      continue;
    }

    if (s->prefix)
      state_puts(s, s->prefix);

    if ((buf[0] == '-') && (buf[1] == ' '))
      state_puts(s, buf + 2);
    else
      state_puts(s, buf);
  }

  mutt_ch_fgetconv_close(&fc);
  mutt_file_fclose(&fp);
}

int pgp_gpgme_application_handler(struct Body *m, struct State *s)
{
  int needpass = -1;
  bool pgp_keyblock = false;
  bool clearsign = false;
  long bytes;
  LOFF_T last_pos;
  char buf[8192];
  FILE *fp_out = NULL;

  gpgme_error_t err = 0;
  gpgme_data_t armored_data = NULL;

  bool maybe_goodsig = true;
  bool have_any_sigs = false;

  char body_charset[256]; /* Only used for clearsigned messages. */

  mutt_debug(LL_DEBUG2, "Entering handler\n");

  /* For clearsigned messages we won't be able to get a character set
   * but we know that this may only be text thus we assume Latin-1 here. */
  if (!mutt_body_get_charset(m, body_charset, sizeof(body_charset)))
    mutt_str_strfcpy(body_charset, "iso-8859-1", sizeof(body_charset));

  fseeko(s->fp_in, m->offset, SEEK_SET);
  last_pos = m->offset;

  for (bytes = m->length; bytes > 0;)
  {
    if (!fgets(buf, sizeof(buf), s->fp_in))
      break;

    LOFF_T offset = ftello(s->fp_in);
    bytes -= (offset - last_pos); /* don't rely on mutt_str_strlen(buf) */
    last_pos = offset;

    size_t plen = mutt_str_startswith(buf, "-----BEGIN PGP ", CASE_MATCH);
    if (plen != 0)
    {
      clearsign = false;

      if (MESSAGE(buf + plen))
        needpass = 1;
      else if (SIGNED_MESSAGE(buf + plen))
      {
        clearsign = true;
        needpass = 0;
      }
      else if (PUBLIC_KEY_BLOCK(buf + plen))
      {
        needpass = 0;
        pgp_keyblock = true;
      }
      else
      {
        /* XXX we may wish to recode here */
        if (s->prefix)
          state_puts(s, s->prefix);
        state_puts(s, buf);
        continue;
      }

      have_any_sigs = (have_any_sigs || (clearsign && (s->flags & MUTT_VERIFY)));

      /* Copy PGP material to an data container */
      armored_data = file_to_data_object(s->fp_in, m->offset, m->length);
      /* Invoke PGP if needed */
      if (pgp_keyblock)
      {
        pgp_gpgme_extract_keys(armored_data, &fp_out);
      }
      else if (!clearsign || (s->flags & MUTT_VERIFY))
      {
        gpgme_data_t plaintext = create_gpgme_data();
        gpgme_ctx_t ctx = create_gpgme_context(false);

        if (clearsign)
          err = gpgme_op_verify(ctx, armored_data, NULL, plaintext);
        else
        {
          err = gpgme_op_decrypt_verify(ctx, armored_data, plaintext);
          if (gpg_err_code(err) == GPG_ERR_NO_DATA)
          {
            /* Decrypt verify can't handle signed only messages. */
            gpgme_data_seek(armored_data, 0, SEEK_SET);
            /* Must release plaintext so that we supply an uninitialized object. */
            gpgme_data_release(plaintext);
            plaintext = create_gpgme_data();
            err = gpgme_op_verify(ctx, armored_data, NULL, plaintext);
          }
        }
        redraw_if_needed(ctx);

        if (err != 0)
        {
          char errbuf[200];

          snprintf(errbuf, sizeof(errbuf) - 1,
                   _("Error: decryption/verification failed: %s\n"), gpgme_strerror(err));
          state_puts(s, errbuf);
        }
        else
        {
          /* Decryption/Verification succeeded */

          mutt_message(_("PGP message successfully decrypted"));

          bool sig_stat = false;
          char *tmpfname = NULL;

          {
            /* Check whether signatures have been verified.  */
            gpgme_verify_result_t verify_result = gpgme_op_verify_result(ctx);
            if (verify_result->signatures)
              sig_stat = true;
          }

          have_any_sigs = false;
          maybe_goodsig = false;
          if ((s->flags & MUTT_DISPLAY) && sig_stat)
          {
            int res, idx;
            bool anybad = false;

            state_attach_puts(s, _("[-- Begin signature information --]\n"));
            have_any_sigs = true;
            for (idx = 0; (res = show_one_sig_status(ctx, idx, s)) != -1; idx++)
            {
              if (res == 1)
                anybad = true;
            }
            if (!anybad && idx)
              maybe_goodsig = true;

            state_attach_puts(s, _("[-- End signature information --]\n\n"));
          }

          tmpfname = data_object_to_tempfile(plaintext, &fp_out);
          if (tmpfname)
          {
            unlink(tmpfname);
            FREE(&tmpfname);
          }
          else
          {
            mutt_file_fclose(&fp_out);
            state_puts(s, _("Error: copy data failed\n"));
          }
        }
        gpgme_data_release(plaintext);
        gpgme_release(ctx);
      }

      /* Now, copy cleartext to the screen.  NOTE - we expect that PGP
       * outputs utf-8 cleartext.  This may not always be true, but it
       * seems to be a reasonable guess.  */
      if (s->flags & MUTT_DISPLAY)
      {
        if (needpass)
          state_attach_puts(s, _("[-- BEGIN PGP MESSAGE --]\n\n"));
        else if (pgp_keyblock)
          state_attach_puts(s, _("[-- BEGIN PGP PUBLIC KEY BLOCK --]\n"));
        else
          state_attach_puts(s, _("[-- BEGIN PGP SIGNED MESSAGE --]\n\n"));
      }

      if (clearsign)
      {
        copy_clearsigned(armored_data, s, body_charset);
      }
      else if (fp_out)
      {
        int c;
        rewind(fp_out);
        struct FgetConv *fc = mutt_ch_fgetconv_open(fp_out, "utf-8", C_Charset, 0);
        while ((c = mutt_ch_fgetconv(fc)) != EOF)
        {
          state_putc(s, c);
          if ((c == '\n') && s->prefix)
            state_puts(s, s->prefix);
        }
        mutt_ch_fgetconv_close(&fc);
      }

      if (s->flags & MUTT_DISPLAY)
      {
        state_putc(s, '\n');
        if (needpass)
          state_attach_puts(s, _("[-- END PGP MESSAGE --]\n"));
        else if (pgp_keyblock)
          state_attach_puts(s, _("[-- END PGP PUBLIC KEY BLOCK --]\n"));
        else
          state_attach_puts(s, _("[-- END PGP SIGNED MESSAGE --]\n"));
      }

      gpgme_data_release(armored_data);
      mutt_file_fclose(&fp_out);
    }
    else
    {
      /* A traditional PGP part may mix signed and unsigned content */
      /* XXX we may wish to recode here */
      if (s->prefix)
        state_puts(s, s->prefix);
      state_puts(s, buf);
    }
  }

  m->goodsig = (maybe_goodsig && have_any_sigs);

  if (needpass == -1)
  {
    state_attach_puts(
        s, _("[-- Error: could not find beginning of PGP message --]\n\n"));
    return 1;
  }
  mutt_debug(LL_DEBUG2, "Leaving handler\n");

  return err;
}

int pgp_gpgme_encrypted_handler(struct Body *a, struct State *s)
{
  int is_signed;
  int rc = 0;

  mutt_debug(LL_DEBUG2, "Entering handler\n");

  FILE *fp_out = mutt_file_mkstemp();
  if (!fp_out)
  {
    mutt_perror(_("Can't create temporary file"));
    if (s->flags & MUTT_DISPLAY)
    {
      state_attach_puts(s,
                        _("[-- Error: could not create temporary file --]\n"));
    }
    return -1;
  }

  struct Body *tattach = decrypt_part(a, s, fp_out, false, &is_signed);
  if (tattach)
  {
    tattach->goodsig = is_signed > 0;

    if (s->flags & MUTT_DISPLAY)
    {
      state_attach_puts(
          s, is_signed ?
                 _("[-- The following data is PGP/MIME signed and encrypted "
                   "--]\n\n") :
                 _("[-- The following data is PGP/MIME encrypted --]\n\n"));
      mutt_protected_headers_handler(tattach, s);
    }

    /* Store any protected headers in the parent so they can be
     * accessed for index updates after the handler recursion is done.
     * This is done before the handler to prevent a nested encrypted
     * handler from freeing the headers. */
    mutt_env_free(&a->mime_headers);
    a->mime_headers = tattach->mime_headers;
    tattach->mime_headers = NULL;

    {
      FILE *fp_save = s->fp_in;
      s->fp_in = fp_out;
      rc = mutt_body_handler(tattach, s);
      s->fp_in = fp_save;
    }

    /* Embedded multipart signed protected headers override the
     * encrypted headers.  We need to do this after the handler so
     * they can be printed in the pager. */
    if (mutt_is_multipart_signed(tattach) && tattach->parts && tattach->parts->mime_headers)
    {
      mutt_env_free(&a->mime_headers);
      a->mime_headers = tattach->parts->mime_headers;
      tattach->parts->mime_headers = NULL;
    }

    /* if a multipart/signed is the _only_ sub-part of a
     * multipart/encrypted, cache signature verification
     * status.  */
    if (mutt_is_multipart_signed(tattach) && !tattach->next)
      a->goodsig |= tattach->goodsig;

    if (s->flags & MUTT_DISPLAY)
    {
      state_puts(s, "\n");
      state_attach_puts(
          s, is_signed ?
                 _("[-- End of PGP/MIME signed and encrypted data --]\n") :
                 _("[-- End of PGP/MIME encrypted data --]\n"));
    }

    mutt_body_free(&tattach);
    mutt_message(_("PGP message successfully decrypted"));
  }
  else
  {
    if (!OptAutocryptGpgme)
    {
      mutt_error(_("Could not decrypt PGP message"));
    }
    rc = -1;
  }

  mutt_file_fclose(&fp_out);
  mutt_debug(LL_DEBUG2, "Leaving handler\n");

  return rc;
}

int smime_gpgme_application_handler(struct Body *a, struct State *s)
{
  int is_signed = 0;
  int rc = 0;

  mutt_debug(LL_DEBUG2, "Entering handler\n");

  /* clear out any mime headers before the handler, so they can't be spoofed. */
  mutt_env_free(&a->mime_headers);
  a->warnsig = false;
  FILE *fp_out = mutt_file_mkstemp();
  if (!fp_out)
  {
    mutt_perror(_("Can't create temporary file"));
    if (s->flags & MUTT_DISPLAY)
    {
      state_attach_puts(s,
                        _("[-- Error: could not create temporary file --]\n"));
    }
    return -1;
  }

  struct Body *tattach = decrypt_part(a, s, fp_out, true, &is_signed);
  if (tattach)
  {
    tattach->goodsig = is_signed > 0;

    if (s->flags & MUTT_DISPLAY)
    {
      state_attach_puts(
          s, is_signed ?
                 _("[-- The following data is S/MIME signed --]\n\n") :
                 _("[-- The following data is S/MIME encrypted --]\n\n"));
      mutt_protected_headers_handler(tattach, s);
    }

    /* Store any protected headers in the parent so they can be
     * accessed for index updates after the handler recursion is done.
     * This is done before the handler to prevent a nested encrypted
     * handler from freeing the headers. */
    mutt_env_free(&a->mime_headers);
    a->mime_headers = tattach->mime_headers;
    tattach->mime_headers = NULL;

    {
      FILE *fp_save = s->fp_in;
      s->fp_in = fp_out;
      rc = mutt_body_handler(tattach, s);
      s->fp_in = fp_save;
    }

    /* Embedded multipart signed protected headers override the
     * encrypted headers.  We need to do this after the handler so
     * they can be printed in the pager. */
    if (mutt_is_multipart_signed(tattach) && tattach->parts && tattach->parts->mime_headers)
    {
      mutt_env_free(&a->mime_headers);
      a->mime_headers = tattach->parts->mime_headers;
      tattach->parts->mime_headers = NULL;
    }

    /* if a multipart/signed is the _only_ sub-part of a multipart/encrypted,
     * cache signature verification status.  */
    if (mutt_is_multipart_signed(tattach) && !tattach->next)
    {
      a->goodsig = tattach->goodsig;
      if (!a->goodsig)
        a->warnsig = tattach->warnsig;
    }
    else if (tattach->goodsig)
    {
      a->goodsig = true;
      a->warnsig = tattach->warnsig;
    }

    if (s->flags & MUTT_DISPLAY)
    {
      state_puts(s, "\n");
      state_attach_puts(s, is_signed ?
                               _("[-- End of S/MIME signed data --]\n") :
                               _("[-- End of S/MIME encrypted data --]\n"));
    }

    mutt_body_free(&tattach);
  }

  mutt_file_fclose(&fp_out);
  mutt_debug(LL_DEBUG2, "Leaving handler\n");

  return rc;
}

static const char *crypt_format_str(char *buf, size_t buflen, size_t col, int cols,
                                    char op, const char *src, const char *prec,
                                    const char *if_str, const char *else_str,
                                    unsigned long data, MuttFormatFlags flags)
{
  char fmt[128];
  bool optional = (flags & MUTT_FORMAT_OPTIONAL);

  struct CryptEntry *entry = (struct CryptEntry *) data;
  struct CryptKeyInfo *key = entry->key;

  /*    if (isupper ((unsigned char) op)) */
  /*      key = pkey; */

  KeyFlags kflags = (key->flags /* | (pkey->flags & KEYFLAG_RESTRICTIONS)
                                 | uid->flags */);

  switch (tolower(op))
  {
    case 'a':
      if (!optional)
      {
        const char *s = NULL;
        snprintf(fmt, sizeof(fmt), "%%%s.3s", prec);
        if (key->kobj->subkeys)
          s = gpgme_pubkey_algo_name(key->kobj->subkeys->pubkey_algo);
        else
          s = "?";
        snprintf(buf, buflen, fmt, s);
      }
      break;

    case 'c':
      if (!optional)
      {
        snprintf(fmt, sizeof(fmt), "%%%ss", prec);
        snprintf(buf, buflen, fmt, crypt_key_abilities(kflags));
      }
      else if (!(kflags & KEYFLAG_ABILITIES))
        optional = false;
      break;

    case 'f':
      if (!optional)
      {
        snprintf(fmt, sizeof(fmt), "%%%sc", prec);
        snprintf(buf, buflen, fmt, crypt_flags(kflags));
      }
      else if (!(kflags & KEYFLAG_RESTRICTIONS))
        optional = false;
      break;

    case 'k':
      if (!optional)
      {
        /* fixme: we need a way to distinguish between main and subkeys.
         * Store the idx in entry? */
        snprintf(fmt, sizeof(fmt), "%%%ss", prec);
        snprintf(buf, buflen, fmt, crypt_keyid(key));
      }
      break;

    case 'l':
      if (!optional)
      {
        snprintf(fmt, sizeof(fmt), "%%%slu", prec);
        unsigned long val;
        if (key->kobj->subkeys)
          val = key->kobj->subkeys->length;
        else
          val = 0;
        snprintf(buf, buflen, fmt, val);
      }
      break;

    case 'n':
      if (!optional)
      {
        snprintf(fmt, sizeof(fmt), "%%%sd", prec);
        snprintf(buf, buflen, fmt, entry->num);
      }
      break;

    case 'p':
      snprintf(fmt, sizeof(fmt), "%%%ss", prec);
      snprintf(buf, buflen, fmt, gpgme_get_protocol_name(key->kobj->protocol));
      break;

    case 't':
    {
      char *s = NULL;
      if ((kflags & KEYFLAG_ISX509))
        s = "x";
      else
      {
        switch (key->validity)
        {
          case GPGME_VALIDITY_FULL:
            s = "f";
            break;
          case GPGME_VALIDITY_MARGINAL:
            s = "m";
            break;
          case GPGME_VALIDITY_NEVER:
            s = "n";
            break;
          case GPGME_VALIDITY_ULTIMATE:
            s = "u";
            break;
          case GPGME_VALIDITY_UNDEFINED:
            s = "q";
            break;
          case GPGME_VALIDITY_UNKNOWN:
          default:
            s = "?";
            break;
        }
      }
      snprintf(fmt, sizeof(fmt), "%%%sc", prec);
      snprintf(buf, buflen, fmt, *s);
      break;
    }

    case 'u':
      if (!optional)
      {
        snprintf(fmt, sizeof(fmt), "%%%ss", prec);
        snprintf(buf, buflen, fmt, key->uid);
      }
      break;

    case '[':
    {
      char buf2[128];
      bool do_locales = true;
      struct tm tm = { 0 };

      char *p = buf;

      const char *cp = src;
      if (*cp == '!')
      {
        do_locales = false;
        cp++;
      }

      size_t len = buflen - 1;
      while ((len > 0) && (*cp != ']'))
      {
        if (*cp == '%')
        {
          cp++;
          if (len >= 2)
          {
            *p++ = '%';
            *p++ = *cp;
            len -= 2;
          }
          else
            break; /* not enough space */
          cp++;
        }
        else
        {
          *p++ = *cp++;
          len--;
        }
      }
      *p = '\0';

      if (key->kobj->subkeys && (key->kobj->subkeys->timestamp > 0))
        tm = mutt_date_localtime(key->kobj->subkeys->timestamp);
      else
        tm = mutt_date_localtime(0); // Default to 1970-01-01

      if (!do_locales)
        setlocale(LC_TIME, "C");
      strftime(buf2, sizeof(buf2), buf, &tm);
      if (!do_locales)
        setlocale(LC_TIME, "");

      snprintf(fmt, sizeof(fmt), "%%%ss", prec);
      snprintf(buf, buflen, fmt, buf2);
      if (len > 0)
        src = cp + 1;
      break;
    }

    default:
      *buf = '\0';
  }

  if (optional)
  {
    mutt_expando_format(buf, buflen, col, cols, if_str, attach_format_str, data,
                        MUTT_FORMAT_NO_FLAGS);
  }
  else if (flags & MUTT_FORMAT_OPTIONAL)
  {
    mutt_expando_format(buf, buflen, col, cols, else_str, attach_format_str,
                        data, MUTT_FORMAT_NO_FLAGS);
  }
  return src;
}

static void crypt_make_entry(char *buf, size_t buflen, struct Menu *menu, int line)
{
  struct CryptKeyInfo **key_table = menu->data;
  struct CryptEntry entry;

  entry.key = key_table[line];
  entry.num = line + 1;

  mutt_expando_format(buf, buflen, 0, menu->win_index->state.cols,
                      NONULL(C_PgpEntryFormat), crypt_format_str,
                      (unsigned long) &entry, MUTT_FORMAT_ARROWCURSOR);
}

static int compare_key_address(const void *a, const void *b)
{
  struct CryptKeyInfo **s = (struct CryptKeyInfo **) a;
  struct CryptKeyInfo **t = (struct CryptKeyInfo **) b;
  int r;

  r = mutt_str_strcasecmp((*s)->uid, (*t)->uid);
  if (r != 0)
    return r > 0;
  return mutt_str_strcasecmp(crypt_fpr_or_lkeyid(*s), crypt_fpr_or_lkeyid(*t)) > 0;
}

static int crypt_compare_address(const void *a, const void *b)
{
  return (C_PgpSortKeys & SORT_REVERSE) ? !compare_key_address(a, b) :
                                          compare_key_address(a, b);
}

static int compare_keyid(const void *a, const void *b)
{
  struct CryptKeyInfo **s = (struct CryptKeyInfo **) a;
  struct CryptKeyInfo **t = (struct CryptKeyInfo **) b;
  int r;

  r = mutt_str_strcasecmp(crypt_fpr_or_lkeyid(*s), crypt_fpr_or_lkeyid(*t));
  if (r != 0)
    return r > 0;
  return mutt_str_strcasecmp((*s)->uid, (*t)->uid) > 0;
}

static int crypt_compare_keyid(const void *a, const void *b)
{
  return (C_PgpSortKeys & SORT_REVERSE) ? !compare_keyid(a, b) : compare_keyid(a, b);
}

static int compare_key_date(const void *a, const void *b)
{
  struct CryptKeyInfo **s = (struct CryptKeyInfo **) a;
  struct CryptKeyInfo **t = (struct CryptKeyInfo **) b;
  unsigned long ts = 0, tt = 0;

  if ((*s)->kobj->subkeys && ((*s)->kobj->subkeys->timestamp > 0))
    ts = (*s)->kobj->subkeys->timestamp;
  if ((*t)->kobj->subkeys && ((*t)->kobj->subkeys->timestamp > 0))
    tt = (*t)->kobj->subkeys->timestamp;

  if (ts > tt)
    return 1;
  if (ts < tt)
    return 0;

  return mutt_str_strcasecmp((*s)->uid, (*t)->uid) > 0;
}

static int crypt_compare_date(const void *a, const void *b)
{
  return (C_PgpSortKeys & SORT_REVERSE) ? !compare_key_date(a, b) :
                                          compare_key_date(a, b);
}

static int compare_key_trust(const void *a, const void *b)
{
  struct CryptKeyInfo **s = (struct CryptKeyInfo **) a;
  struct CryptKeyInfo **t = (struct CryptKeyInfo **) b;
  unsigned long ts = 0, tt = 0;
  int r;

  r = (((*s)->flags & KEYFLAG_RESTRICTIONS) - ((*t)->flags & KEYFLAG_RESTRICTIONS));
  if (r != 0)
    return r > 0;

  ts = (*s)->validity;
  tt = (*t)->validity;
  r = (tt - ts);
  if (r != 0)
    return r < 0;

  if ((*s)->kobj->subkeys)
    ts = (*s)->kobj->subkeys->length;
  if ((*t)->kobj->subkeys)
    tt = (*t)->kobj->subkeys->length;
  if (ts != tt)
    return ts > tt;

  if ((*s)->kobj->subkeys && ((*s)->kobj->subkeys->timestamp > 0))
    ts = (*s)->kobj->subkeys->timestamp;
  if ((*t)->kobj->subkeys && ((*t)->kobj->subkeys->timestamp > 0))
    tt = (*t)->kobj->subkeys->timestamp;
  if (ts > tt)
    return 1;
  if (ts < tt)
    return 0;

  r = mutt_str_strcasecmp((*s)->uid, (*t)->uid);
  if (r != 0)
    return r > 0;
  return mutt_str_strcasecmp(crypt_fpr_or_lkeyid((*s)), crypt_fpr_or_lkeyid((*t))) > 0;
}

static int crypt_compare_trust(const void *a, const void *b)
{
  return (C_PgpSortKeys & SORT_REVERSE) ? !compare_key_trust(a, b) :
                                          compare_key_trust(a, b);
}

static bool print_dn_part(FILE *fp, struct DnArray *dn, const char *key)
{
  bool any = false;

  for (; dn->key; dn++)
  {
    if (strcmp(dn->key, key) == 0)
    {
      if (any)
        fputs(" + ", fp);
      print_utf8(fp, dn->value, strlen(dn->value));
      any = true;
    }
  }
  return any;
}

static void print_dn_parts(FILE *fp, struct DnArray *dn)
{
  static const char *const stdpart[] = {
    "CN", "OU", "O", "STREET", "L", "ST", "C", NULL,
  };
  bool any = false;
  bool any2 = false;

  for (int i = 0; stdpart[i]; i++)
  {
    if (any)
      fputs(", ", fp);
    any = print_dn_part(fp, dn, stdpart[i]);
  }
  /* now print the rest without any specific ordering */
  for (; dn->key; dn++)
  {
    int i;
    for (i = 0; stdpart[i]; i++)
    {
      if (strcmp(dn->key, stdpart[i]) == 0)
        break;
    }
    if (!stdpart[i])
    {
      if (any)
        fputs(", ", fp);
      if (!any2)
        fputs("(", fp);
      any = print_dn_part(fp, dn, dn->key);
      any2 = true;
    }
  }
  if (any2)
    fputs(")", fp);
}

static const char *parse_dn_part(struct DnArray *array, const char *str)
{
  const char *s = NULL, *s1 = NULL;
  size_t n;
  char *p = NULL;

  /* parse attribute type */
  for (s = str + 1; (s[0] != '\0') && (s[0] != '='); s++)
    ;
  if (s[0] == '\0')
    return NULL; /* error */
  n = s - str;
  if (n == 0)
    return NULL; /* empty key */
  array->key = mutt_mem_malloc(n + 1);
  p = array->key;
  memcpy(p, str, n); /* fixme: trim trailing spaces */
  p[n] = 0;
  str = s + 1;

  if (*str == '#')
  { /* hexstring */
    str++;
    for (s = str; isxdigit(*s); s++)
      s++;
    n = s - str;
    if ((n == 0) || (n & 1))
      return NULL; /* empty or odd number of digits */
    n /= 2;
    p = mutt_mem_malloc(n + 1);
    array->value = (char *) p;
    for (s1 = str; n; s1 += 2, n--)
      sscanf(s1, "%2hhx", (unsigned char *) p++);
    *p = '\0';
  }
  else
  { /* regular v3 quoted string */
    for (n = 0, s = str; *s; s++)
    {
      if (*s == '\\')
      { /* pair */
        s++;
        if ((*s == ',') || (*s == '=') || (*s == '+') || (*s == '<') || (*s == '>') ||
            (*s == '#') || (*s == ';') || (*s == '\\') || (*s == '\"') || (*s == ' '))
        {
          n++;
        }
        else if (isxdigit(s[0]) && isxdigit(s[1]))
        {
          s++;
          n++;
        }
        else
          return NULL; /* invalid escape sequence */
      }
      else if (*s == '\"')
        return NULL; /* invalid encoding */
      else if ((*s == ',') || (*s == '=') || (*s == '+') || (*s == '<') ||
               (*s == '>') || (*s == '#') || (*s == ';'))
      {
        break;
      }
      else
        n++;
    }

    p = mutt_mem_malloc(n + 1);
    array->value = (char *) p;
    for (s = str; n; s++, n--)
    {
      if (*s == '\\')
      {
        s++;
        if (isxdigit(*s))
        {
          sscanf(s, "%2hhx", (unsigned char *) p++);
          s++;
        }
        else
          *p++ = *s;
      }
      else
        *p++ = *s;
    }
    *p = '\0';
  }
  return s;
}

static struct DnArray *parse_dn(const char *str)
{
  struct DnArray *array = NULL;
  size_t arrayidx, arraysize;

  arraysize = 7; /* C,ST,L,O,OU,CN,email */
  array = mutt_mem_malloc((arraysize + 1) * sizeof(*array));
  arrayidx = 0;
  while (*str)
  {
    while (str[0] == ' ')
      str++;
    if (str[0] == '\0')
      break; /* ready */
    if (arrayidx >= arraysize)
    {
      /* neomutt lacks a real mutt_mem_realloc - so we need to copy */
      arraysize += 5;
      struct DnArray *a2 = mutt_mem_malloc((arraysize + 1) * sizeof(*array));
      for (int i = 0; i < arrayidx; i++)
      {
        a2[i].key = array[i].key;
        a2[i].value = array[i].value;
      }
      FREE(&array);
      array = a2;
    }
    array[arrayidx].key = NULL;
    array[arrayidx].value = NULL;
    str = parse_dn_part(array + arrayidx, str);
    arrayidx++;
    if (!str)
      goto failure;
    while (str[0] == ' ')
      str++;
    if ((str[0] != '\0') && (str[0] != ',') && (str[0] != ';') && (str[0] != '+'))
      goto failure; /* invalid delimiter */
    if (str[0] != '\0')
      str++;
  }
  array[arrayidx].key = NULL;
  array[arrayidx].value = NULL;
  return array;

failure:
  for (int i = 0; i < arrayidx; i++)
  {
    FREE(&array[i].key);
    FREE(&array[i].value);
  }
  FREE(&array);
  return NULL;
}

static void parse_and_print_user_id(FILE *fp, const char *userid)
{
  const char *s = NULL;

  if (*userid == '<')
  {
    s = strchr(userid + 1, '>');
    if (s)
      print_utf8(fp, userid + 1, s - userid - 1);
  }
  else if (*userid == '(')
    fputs(_("[Can't display this user ID (unknown encoding)]"), fp);
  else if (!digit_or_letter(userid))
    fputs(_("[Can't display this user ID (invalid encoding)]"), fp);
  else
  {
    struct DnArray *dn = parse_dn(userid);
    if (!dn)
      fputs(_("[Can't display this user ID (invalid DN)]"), fp);
    else
    {
      print_dn_parts(fp, dn);
      for (int i = 0; dn[i].key; i++)
      {
        FREE(&dn[i].key);
        FREE(&dn[i].value);
      }
      FREE(&dn);
    }
  }
}

static unsigned int key_check_cap(gpgme_key_t key, enum KeyCap cap)
{
  unsigned int ret = 0;

  switch (cap)
  {
    case KEY_CAP_CAN_ENCRYPT:
      ret = key->can_encrypt;
      if (ret == 0)
      {
        for (gpgme_subkey_t subkey = key->subkeys; subkey; subkey = subkey->next)
        {
          ret = subkey->can_encrypt;
          if (ret != 0)
            break;
        }
      }
      break;
    case KEY_CAP_CAN_SIGN:
      ret = key->can_sign;
      if (ret == 0)
      {
        for (gpgme_subkey_t subkey = key->subkeys; subkey; subkey = subkey->next)
        {
          ret = subkey->can_sign;
          if (ret != 0)
            break;
        }
      }
      break;
    case KEY_CAP_CAN_CERTIFY:
      ret = key->can_certify;
      if (ret == 0)
      {
        for (gpgme_subkey_t subkey = key->subkeys; subkey; subkey = subkey->next)
        {
          ret = subkey->can_certify;
          if (ret != 0)
            break;
        }
      }
      break;
  }

  return ret;
}

static void print_key_info(gpgme_key_t key, FILE *fp)
{
  int idx;
  const char *s = NULL, *s2 = NULL;
  time_t tt = 0;
  char shortbuf[128];
  unsigned long aval = 0;
  const char *delim = NULL;
  gpgme_user_id_t uid = NULL;
  static int max_header_width = 0;

  if (max_header_width == 0)
  {
    for (int i = 0; i < KIP_MAX; i++)
    {
      KeyInfoPadding[i] = mutt_str_strlen(_(KeyInfoPrompts[i]));
      const int width = mutt_strwidth(_(KeyInfoPrompts[i]));
      if (max_header_width < width)
        max_header_width = width;
      KeyInfoPadding[i] -= width;
    }
    for (int i = 0; i < KIP_MAX; i++)
      KeyInfoPadding[i] += max_header_width;
  }

  bool is_pgp = (key->protocol == GPGME_PROTOCOL_OpenPGP);

  for (idx = 0, uid = key->uids; uid; idx++, uid = uid->next)
  {
    if (uid->revoked)
      continue;

    s = uid->uid;
    /* L10N: DOTFILL */

    if (idx == 0)
      fprintf(fp, "%*s", KeyInfoPadding[KIP_NAME], _(KeyInfoPrompts[KIP_NAME]));
    else
      fprintf(fp, "%*s", KeyInfoPadding[KIP_AKA], _(KeyInfoPrompts[KIP_AKA]));
    if (uid->invalid)
    {
      /* L10N: comes after the Name or aka if the key is invalid */
      fputs(_("[Invalid]"), fp);
      putc(' ', fp);
    }
    if (is_pgp)
      print_utf8(fp, s, strlen(s));
    else
      parse_and_print_user_id(fp, s);
    putc('\n', fp);
  }

  if (key->subkeys && (key->subkeys->timestamp > 0))
  {
    tt = key->subkeys->timestamp;

    mutt_date_localtime_format(shortbuf, sizeof(shortbuf), nl_langinfo(D_T_FMT), tt);
    fprintf(fp, "%*s%s\n", KeyInfoPadding[KIP_VALID_FROM],
            _(KeyInfoPrompts[KIP_VALID_FROM]), shortbuf);
  }

  if (key->subkeys && (key->subkeys->expires > 0))
  {
    tt = key->subkeys->expires;

    mutt_date_localtime_format(shortbuf, sizeof(shortbuf), nl_langinfo(D_T_FMT), tt);
    fprintf(fp, "%*s%s\n", KeyInfoPadding[KIP_VALID_TO],
            _(KeyInfoPrompts[KIP_VALID_TO]), shortbuf);
  }

  if (key->subkeys)
    s = gpgme_pubkey_algo_name(key->subkeys->pubkey_algo);
  else
    s = "?";

  s2 = is_pgp ? "PGP" : "X.509";

  if (key->subkeys)
    aval = key->subkeys->length;

  fprintf(fp, "%*s", KeyInfoPadding[KIP_KEY_TYPE], _(KeyInfoPrompts[KIP_KEY_TYPE]));
  /* L10N: This is printed after "Key Type: " and looks like this: PGP, 2048 bit RSA */
  fprintf(fp, ngettext("%s, %lu bit %s\n", "%s, %lu bit %s\n", aval), s2, aval, s);

  fprintf(fp, "%*s", KeyInfoPadding[KIP_KEY_USAGE], _(KeyInfoPrompts[KIP_KEY_USAGE]));
  delim = "";

  if (key_check_cap(key, KEY_CAP_CAN_ENCRYPT))
  {
    /* L10N: value in Key Usage: field */
    fprintf(fp, "%s%s", delim, _("encryption"));
    delim = _(", ");
  }
  if (key_check_cap(key, KEY_CAP_CAN_SIGN))
  {
    /* L10N: value in Key Usage: field */
    fprintf(fp, "%s%s", delim, _("signing"));
    delim = _(", ");
  }
  if (key_check_cap(key, KEY_CAP_CAN_CERTIFY))
  {
    /* L10N: value in Key Usage: field */
    fprintf(fp, "%s%s", delim, _("certification"));
  }
  putc('\n', fp);

  if (key->subkeys)
  {
    s = key->subkeys->fpr;
    fprintf(fp, "%*s", KeyInfoPadding[KIP_FINGERPRINT], _(KeyInfoPrompts[KIP_FINGERPRINT]));
    if (is_pgp && (strlen(s) == 40))
    {
      for (int i = 0; (s[0] != '\0') && (s[1] != '\0') && (s[2] != '\0') &&
                      (s[3] != '\0') && (s[4] != '\0');
           s += 4, i++)
      {
        putc(*s, fp);
        putc(s[1], fp);
        putc(s[2], fp);
        putc(s[3], fp);
        putc(' ', fp);
        if (i == 4)
          putc(' ', fp);
      }
    }
    else
    {
      for (int i = 0; (s[0] != '\0') && (s[1] != '\0') && (s[2] != '\0'); s += 2, i++)
      {
        putc(*s, fp);
        putc(s[1], fp);
        putc(is_pgp ? ' ' : ':', fp);
        if (is_pgp && (i == 7))
          putc(' ', fp);
      }
    }
    fprintf(fp, "%s\n", s);
  }

  if (key->issuer_serial)
  {
    s = key->issuer_serial;
    if (s)
    {
      fprintf(fp, "%*s0x%s\n", KeyInfoPadding[KIP_SERIAL_NO],
              _(KeyInfoPrompts[KIP_SERIAL_NO]), s);
    }
  }

  if (key->issuer_name)
  {
    s = key->issuer_name;
    if (s)
    {
      fprintf(fp, "%*s", KeyInfoPadding[KIP_ISSUED_BY], _(KeyInfoPrompts[KIP_ISSUED_BY]));
      parse_and_print_user_id(fp, s);
      putc('\n', fp);
    }
  }

  /* For PGP we list all subkeys. */
  if (is_pgp)
  {
    gpgme_subkey_t subkey = NULL;

    for (idx = 1, subkey = key->subkeys; subkey; idx++, subkey = subkey->next)
    {
      s = subkey->keyid;

      putc('\n', fp);
      if (strlen(s) == 16)
        s += 8; /* display only the short keyID */
      fprintf(fp, "%*s0x%s", KeyInfoPadding[KIP_SUBKEY], _(KeyInfoPrompts[KIP_SUBKEY]), s);
      if (subkey->revoked)
      {
        putc(' ', fp);
        /* L10N: describes a subkey */
        fputs(_("[Revoked]"), fp);
      }
      if (subkey->invalid)
      {
        putc(' ', fp);
        /* L10N: describes a subkey */
        fputs(_("[Invalid]"), fp);
      }
      if (subkey->expired)
      {
        putc(' ', fp);
        /* L10N: describes a subkey */
        fputs(_("[Expired]"), fp);
      }
      if (subkey->disabled)
      {
        putc(' ', fp);
        /* L10N: describes a subkey */
        fputs(_("[Disabled]"), fp);
      }
      putc('\n', fp);

      if (subkey->timestamp > 0)
      {
        tt = subkey->timestamp;

        mutt_date_localtime_format(shortbuf, sizeof(shortbuf), nl_langinfo(D_T_FMT), tt);
        fprintf(fp, "%*s%s\n", KeyInfoPadding[KIP_VALID_FROM],
                _(KeyInfoPrompts[KIP_VALID_FROM]), shortbuf);
      }

      if (subkey->expires > 0)
      {
        tt = subkey->expires;

        mutt_date_localtime_format(shortbuf, sizeof(shortbuf), nl_langinfo(D_T_FMT), tt);
        fprintf(fp, "%*s%s\n", KeyInfoPadding[KIP_VALID_TO],
                _(KeyInfoPrompts[KIP_VALID_TO]), shortbuf);
      }

      s = gpgme_pubkey_algo_name(subkey->pubkey_algo);

      aval = subkey->length;

      fprintf(fp, "%*s", KeyInfoPadding[KIP_KEY_TYPE], _(KeyInfoPrompts[KIP_KEY_TYPE]));
      /* L10N: This is printed after "Key Type: " and looks like this: PGP, 2048 bit RSA */
      fprintf(fp, ngettext("%s, %lu bit %s\n", "%s, %lu bit %s\n", aval), "PGP", aval, s);

      fprintf(fp, "%*s", KeyInfoPadding[KIP_KEY_USAGE], _(KeyInfoPrompts[KIP_KEY_USAGE]));
      delim = "";

      if (subkey->can_encrypt)
      {
        fprintf(fp, "%s%s", delim, _("encryption"));
        delim = _(", ");
      }
      if (subkey->can_sign)
      {
        fprintf(fp, "%s%s", delim, _("signing"));
        delim = _(", ");
      }
      if (subkey->can_certify)
      {
        fprintf(fp, "%s%s", delim, _("certification"));
      }
      putc('\n', fp);
    }
  }
}

static void verify_key(struct CryptKeyInfo *key)
{
  char cmd[1024];
  const char *s = NULL;
  gpgme_ctx_t listctx = NULL;
  gpgme_error_t err;
  gpgme_key_t k = NULL;
  int maxdepth = 100;

  struct Buffer tempfile = mutt_buffer_make(PATH_MAX);
  mutt_buffer_mktemp(&tempfile);
  FILE *fp = mutt_file_fopen(mutt_b2s(&tempfile), "w");
  if (!fp)
  {
    mutt_perror(_("Can't create temporary file"));
    goto cleanup;
  }
  mutt_message(_("Collecting data..."));

  print_key_info(key->kobj, fp);

  listctx = create_gpgme_context(key->flags & KEYFLAG_ISX509);

  k = key->kobj;
  gpgme_key_ref(k);
  while ((s = k->chain_id) && k->subkeys && (strcmp(s, k->subkeys->fpr) != 0))
  {
    putc('\n', fp);
    err = gpgme_op_keylist_start(listctx, s, 0);
    gpgme_key_unref(k);
    k = NULL;
    if (err == 0)
      err = gpgme_op_keylist_next(listctx, &k);
    if (err != 0)
    {
      fprintf(fp, _("Error finding issuer key: %s\n"), gpgme_strerror(err));
      goto leave;
    }
    gpgme_op_keylist_end(listctx);

    print_key_info(k, fp);
    if (!--maxdepth)
    {
      putc('\n', fp);
      fputs(_("Error: certification chain too long - stopping here\n"), fp);
      break;
    }
  }

leave:
  gpgme_key_unref(k);
  gpgme_release(listctx);
  mutt_file_fclose(&fp);
  mutt_clear_error();
  snprintf(cmd, sizeof(cmd), _("Key ID: 0x%s"), crypt_keyid(key));
  mutt_do_pager(cmd, mutt_b2s(&tempfile), MUTT_PAGER_NO_FLAGS, NULL);

cleanup:
  mutt_buffer_dealloc(&tempfile);
}

static char *list_to_pattern(struct ListHead *list)
{
  char *pattern = NULL, *p = NULL;
  const char *s = NULL;
  size_t n;

  n = 0;
  struct ListNode *np = NULL;
  STAILQ_FOREACH(np, list, entries)
  {
    for (s = np->data; *s; s++)
    {
      if ((*s == '%') || (*s == '+'))
        n += 2;
      n++;
    }
    n++; /* delimiter or end of string */
  }
  n++; /* make sure to allocate at least one byte */
  p = mutt_mem_calloc(1, n);
  pattern = p;
  STAILQ_FOREACH(np, list, entries)
  {
    s = np->data;
    if (*s)
    {
      if (np != STAILQ_FIRST(list))
        *p++ = ' ';
      for (s = np->data; *s; s++)
      {
        if (*s == '%')
        {
          *p++ = '%';
          *p++ = '2';
          *p++ = '5';
        }
        else if (*s == '+')
        {
          *p++ = '%';
          *p++ = '2';
          *p++ = 'B';
        }
        else if (*s == ' ')
          *p++ = '+';
        else
          *p++ = *s;
      }
    }
  }
  *p = '\0';
  return pattern;
}

static struct CryptKeyInfo *get_candidates(struct ListHead *hints, SecurityFlags app, int secret)
{
  struct CryptKeyInfo *db = NULL, *k = NULL, **kend = NULL;
  gpgme_error_t err;
  gpgme_ctx_t ctx = NULL;
  gpgme_key_t key = NULL;
  int idx;
  gpgme_user_id_t uid = NULL;

  char *pattern = list_to_pattern(hints);
  if (!pattern)
    return NULL;

  ctx = create_gpgme_context(0);
  db = NULL;
  kend = &db;

  if ((app & APPLICATION_PGP))
  {
    /* It's all a mess.  That old GPGME expects different things depending on
     * the protocol.  For gpg we don't need percent escaped pappert but simple
     * strings passed in an array to the keylist_ext_start function. */
    size_t n = 0;
    struct ListNode *np = NULL;
    STAILQ_FOREACH(np, hints, entries)
    {
      if (np->data && *np->data)
        n++;
    }
    if (n == 0)
      goto no_pgphints;

    char **patarr = mutt_mem_calloc(n + 1, sizeof(*patarr));
    n = 0;
    STAILQ_FOREACH(np, hints, entries)
    {
      if (np->data && *np->data)
        patarr[n++] = mutt_str_strdup(np->data);
    }
    patarr[n] = NULL;
    err = gpgme_op_keylist_ext_start(ctx, (const char **) patarr, secret, 0);
    for (n = 0; patarr[n]; n++)
      FREE(&patarr[n]);
    FREE(&patarr);
    if (err != 0)
    {
      mutt_error(_("gpgme_op_keylist_start failed: %s"), gpgme_strerror(err));
      gpgme_release(ctx);
      FREE(&pattern);
      return NULL;
    }

    while ((err = gpgme_op_keylist_next(ctx, &key)) == 0)
    {
      KeyFlags flags = KEYFLAG_NO_FLAGS;

      if (key_check_cap(key, KEY_CAP_CAN_ENCRYPT))
        flags |= KEYFLAG_CANENCRYPT;
      if (key_check_cap(key, KEY_CAP_CAN_SIGN))
        flags |= KEYFLAG_CANSIGN;

      if (key->revoked)
        flags |= KEYFLAG_REVOKED;
      if (key->expired)
        flags |= KEYFLAG_EXPIRED;
      if (key->disabled)
        flags |= KEYFLAG_DISABLED;

      for (idx = 0, uid = key->uids; uid; idx++, uid = uid->next)
      {
        k = mutt_mem_calloc(1, sizeof(*k));
        k->kobj = key;
        gpgme_key_ref(k->kobj);
        k->idx = idx;
        k->uid = uid->uid;
        k->flags = flags;
        if (uid->revoked)
          k->flags |= KEYFLAG_REVOKED;
        k->validity = uid->validity;
        *kend = k;
        kend = &k->next;
      }
      gpgme_key_unref(key);
    }
    if (gpg_err_code(err) != GPG_ERR_EOF)
      mutt_error(_("gpgme_op_keylist_next failed: %s"), gpgme_strerror(err));
    gpgme_op_keylist_end(ctx);
  no_pgphints:;
  }

  if ((app & APPLICATION_SMIME))
  {
    /* and now look for x509 certificates */
    gpgme_set_protocol(ctx, GPGME_PROTOCOL_CMS);
    err = gpgme_op_keylist_start(ctx, pattern, 0);
    if (err != 0)
    {
      mutt_error(_("gpgme_op_keylist_start failed: %s"), gpgme_strerror(err));
      gpgme_release(ctx);
      FREE(&pattern);
      return NULL;
    }

    while ((err = gpgme_op_keylist_next(ctx, &key)) == 0)
    {
      KeyFlags flags = KEYFLAG_ISX509;

      if (key_check_cap(key, KEY_CAP_CAN_ENCRYPT))
        flags |= KEYFLAG_CANENCRYPT;
      if (key_check_cap(key, KEY_CAP_CAN_SIGN))
        flags |= KEYFLAG_CANSIGN;

      for (idx = 0, uid = key->uids; uid; idx++, uid = uid->next)
      {
        k = mutt_mem_calloc(1, sizeof(*k));
        k->kobj = key;
        gpgme_key_ref(k->kobj);
        k->idx = idx;
        k->uid = uid->uid;
        k->flags = flags;
        k->validity = uid->validity;
        *kend = k;
        kend = &k->next;
      }
      gpgme_key_unref(key);
    }
    if (gpg_err_code(err) != GPG_ERR_EOF)
      mutt_error(_("gpgme_op_keylist_next failed: %s"), gpgme_strerror(err));
    gpgme_op_keylist_end(ctx);
  }

  gpgme_release(ctx);
  FREE(&pattern);
  return db;
}

static void crypt_add_string_to_hints(const char *str, struct ListHead *hints)
{
  char *scratch = mutt_str_strdup(str);
  if (!scratch)
    return;

  for (char *t = strtok(scratch, " ,.:\"()<>\n"); t;
       t = strtok(NULL, " ,.:\"()<>\n"))
  {
    if (strlen(t) > 3)
      mutt_list_insert_tail(hints, mutt_str_strdup(t));
  }

  FREE(&scratch);
}

static struct CryptKeyInfo *crypt_select_key(struct CryptKeyInfo *keys,
                                             struct Address *p, const char *s,
                                             unsigned int app, int *forced_valid)
{
  int keymax;
  int i;
  bool done = false;
  char helpstr[1024], buf[1024];
  struct CryptKeyInfo *k = NULL;
  int (*f)(const void *, const void *);
  enum MenuType menu_to_use = MENU_GENERIC;
  bool unusable = false;

  *forced_valid = 0;

  /* build the key table */
  keymax = 0;
  i = 0;
  struct CryptKeyInfo **key_table = NULL;
  for (k = keys; k; k = k->next)
  {
    if (!C_PgpShowUnusable && (k->flags & KEYFLAG_CANTUSE))
    {
      unusable = true;
      continue;
    }

    if (i == keymax)
    {
      keymax += 20;
      mutt_mem_realloc(&key_table, sizeof(struct CryptKeyInfo *) * keymax);
    }

    key_table[i++] = k;
  }

  if (!i && unusable)
  {
    mutt_error(_("All matching keys are marked expired/revoked"));
    return NULL;
  }

  switch (C_PgpSortKeys & SORT_MASK)
  {
    case SORT_ADDRESS:
      f = crypt_compare_address;
      break;
    case SORT_DATE:
      f = crypt_compare_date;
      break;
    case SORT_KEYID:
      f = crypt_compare_keyid;
      break;
    case SORT_TRUST:
    default:
      f = crypt_compare_trust;
      break;
  }
  qsort(key_table, i, sizeof(struct CryptKeyInfo *), f);

  if (app & APPLICATION_PGP)
    menu_to_use = MENU_KEY_SELECT_PGP;
  else if (app & APPLICATION_SMIME)
    menu_to_use = MENU_KEY_SELECT_SMIME;

  helpstr[0] = '\0';
  mutt_make_help(buf, sizeof(buf), _("Exit  "), menu_to_use, OP_EXIT);
  strcat(helpstr, buf);
  mutt_make_help(buf, sizeof(buf), _("Select  "), menu_to_use, OP_GENERIC_SELECT_ENTRY);
  strcat(helpstr, buf);
  mutt_make_help(buf, sizeof(buf), _("Check key  "), menu_to_use, OP_VERIFY_KEY);
  strcat(helpstr, buf);
  mutt_make_help(buf, sizeof(buf), _("Help"), menu_to_use, OP_HELP);
  strcat(helpstr, buf);

  struct MuttWindow *dlg =
      mutt_window_new(MUTT_WIN_ORIENT_VERTICAL, MUTT_WIN_SIZE_MAXIMISE,
                      MUTT_WIN_SIZE_UNLIMITED, MUTT_WIN_SIZE_UNLIMITED);
  dlg->type = WT_DIALOG;
  struct MuttWindow *index =
      mutt_window_new(MUTT_WIN_ORIENT_VERTICAL, MUTT_WIN_SIZE_MAXIMISE,
                      MUTT_WIN_SIZE_UNLIMITED, MUTT_WIN_SIZE_UNLIMITED);
  index->type = WT_INDEX;
  struct MuttWindow *ibar = mutt_window_new(
      MUTT_WIN_ORIENT_VERTICAL, MUTT_WIN_SIZE_FIXED, 1, MUTT_WIN_SIZE_UNLIMITED);
  ibar->type = WT_INDEX_BAR;

  if (C_StatusOnTop)
  {
    mutt_window_add_child(dlg, ibar);
    mutt_window_add_child(dlg, index);
  }
  else
  {
    mutt_window_add_child(dlg, index);
    mutt_window_add_child(dlg, ibar);
  }

  dialog_push(dlg);

  struct Menu *menu = mutt_menu_new(menu_to_use);

  menu->pagelen = index->state.rows;
  menu->win_index = index;
  menu->win_ibar = ibar;

  menu->max = i;
  menu->menu_make_entry = crypt_make_entry;
  menu->help = helpstr;
  menu->data = key_table;
  mutt_menu_push_current(menu);

  {
    const char *ts = NULL;

    if ((app & APPLICATION_PGP) && (app & APPLICATION_SMIME))
      ts = _("PGP and S/MIME keys matching");
    else if ((app & APPLICATION_PGP))
      ts = _("PGP keys matching");
    else if ((app & APPLICATION_SMIME))
      ts = _("S/MIME keys matching");
    else
      ts = _("keys matching");

    if (p)
    {
      /* L10N:
         %1$s is one of the previous four entries.
         %2$s is an address.
         e.g. "S/MIME keys matching <me@mutt.org>" */
      snprintf(buf, sizeof(buf), _("%s <%s>"), ts, p->mailbox);
    }
    else
    {
      /* L10N: e.g. 'S/MIME keys matching "Michael Elkins".' */
      snprintf(buf, sizeof(buf), _("%s \"%s\""), ts, s);
    }
    menu->title = buf;
  }

  mutt_clear_error();
  k = NULL;
  while (!done)
  {
    *forced_valid = 0;
    switch (mutt_menu_loop(menu))
    {
      case OP_VERIFY_KEY:
        verify_key(key_table[menu->current]);
        menu->redraw = REDRAW_FULL;
        break;

      case OP_VIEW_ID:
        mutt_message("%s", key_table[menu->current]->uid);
        break;

      case OP_GENERIC_SELECT_ENTRY:
        /* FIXME make error reporting more verbose - this should be
         * easy because gpgme provides more information */
        if (OptPgpCheckTrust)
        {
          if (!crypt_key_is_valid(key_table[menu->current]))
          {
            mutt_error(_("This key can't be used: "
                         "expired/disabled/revoked"));
            break;
          }
        }

        if (OptPgpCheckTrust && (!crypt_id_is_valid(key_table[menu->current]) ||
                                 !crypt_id_is_strong(key_table[menu->current])))
        {
          const char *warn_s = NULL;
          char buf2[1024];

          if (key_table[menu->current]->flags & KEYFLAG_CANTUSE)
          {
            warn_s = _("ID is expired/disabled/revoked. Do you really want to "
                       "use the key?");
          }
          else
          {
            warn_s = "??";
            switch (key_table[menu->current]->validity)
            {
              case GPGME_VALIDITY_NEVER:
                warn_s =
                    _("ID is not valid. Do you really want to use the key?");
                break;
              case GPGME_VALIDITY_MARGINAL:
                warn_s = _("ID is only marginally valid. Do you really want to "
                           "use the key?");
                break;
              case GPGME_VALIDITY_FULL:
              case GPGME_VALIDITY_ULTIMATE:
                break;
              case GPGME_VALIDITY_UNKNOWN:
              case GPGME_VALIDITY_UNDEFINED:
                warn_s = _("ID has undefined validity. Do you really want to "
                           "use the key?");
                break;
            }
          }

          snprintf(buf2, sizeof(buf2), "%s", warn_s);

          if (mutt_yesorno(buf2, MUTT_NO) != MUTT_YES)
          {
            mutt_clear_error();
            break;
          }

          /* A '!' is appended to a key in find_keys() when forced_valid is
           * set.  Prior to gpgme 1.11.0, encrypt_gpgme_object() called
           * create_recipient_set() which interpreted the '!' to mean set
           * GPGME_VALIDITY_FULL for the key.
           *
           * Starting in gpgme 1.11.0, we now use a '\n' delimited recipient
           * string, which is passed directly to the gpgme_op_encrypt_ext()
           * function.  This allows to use the original meaning of '!' to
           * force a subkey use. */
#if (GPGME_VERSION_NUMBER < 0x010b00) /* gpgme < 1.11.0 */
          *forced_valid = 1;
#endif
        }

        k = crypt_copy_key(key_table[menu->current]);
        done = true;
        break;

      case OP_EXIT:
        k = NULL;
        done = true;
        break;
    }
  }

  mutt_menu_pop_current(menu);
  mutt_menu_free(&menu);
  FREE(&key_table);
  dialog_pop();
  mutt_window_free(&dlg);

  return k;
}

static struct CryptKeyInfo *crypt_getkeybyaddr(struct Address *a,
                                               KeyFlags abilities, unsigned int app,
                                               int *forced_valid, bool oppenc_mode)
{
  struct ListHead hints = STAILQ_HEAD_INITIALIZER(hints);

  int multi = false;
  int this_key_has_strong = false;
  int this_key_has_addr_match = false;
  int match = false;

  struct CryptKeyInfo *keys = NULL, *k = NULL;
  struct CryptKeyInfo *the_strong_valid_key = NULL;
  struct CryptKeyInfo *a_valid_addrmatch_key = NULL;
  struct CryptKeyInfo *matches = NULL;
  struct CryptKeyInfo **matches_endp = &matches;

  *forced_valid = 0;

  if (a && a->mailbox)
    crypt_add_string_to_hints(a->mailbox, &hints);
  if (a && a->personal)
    crypt_add_string_to_hints(a->personal, &hints);

  if (!oppenc_mode)
    mutt_message(_("Looking for keys matching \"%s\"..."), a ? a->mailbox : "");
  keys = get_candidates(&hints, app, (abilities & KEYFLAG_CANSIGN));

  mutt_list_free(&hints);

  if (!keys)
    return NULL;

  mutt_debug(LL_DEBUG5, "looking for %s <%s>\n", a ? a->personal : "", a ? a->mailbox : "");

  for (k = keys; k; k = k->next)
  {
    mutt_debug(LL_DEBUG5, "  looking at key: %s '%.15s'\n", crypt_keyid(k), k->uid);

    if (abilities && !(k->flags & abilities))
    {
      mutt_debug(LL_DEBUG2, "  insufficient abilities: Has %x, want %x\n", k->flags, abilities);
      continue;
    }

    this_key_has_strong = false; /* strong and valid match */
    this_key_has_addr_match = false;
    match = false; /* any match */

    struct AddressList alist = TAILQ_HEAD_INITIALIZER(alist);
    mutt_addrlist_parse(&alist, k->uid);
    struct Address *ka = NULL;
    TAILQ_FOREACH(ka, &alist, entries)
    {
      int validity = crypt_id_matches_addr(a, ka, k);

      if (validity & CRYPT_KV_MATCH) /* something matches */
      {
        match = true;

        if ((validity & CRYPT_KV_VALID) && (validity & CRYPT_KV_ADDR))
        {
          if (validity & CRYPT_KV_STRONGID)
          {
            if (the_strong_valid_key && (the_strong_valid_key->kobj != k->kobj))
              multi = true;
            this_key_has_strong = true;
          }
          else
            this_key_has_addr_match = true;
        }
      }
    }
    mutt_addrlist_clear(&alist);

    if (match)
    {
      struct CryptKeyInfo *tmp = crypt_copy_key(k);
      *matches_endp = tmp;
      matches_endp = &tmp->next;

      if (this_key_has_strong)
        the_strong_valid_key = tmp;
      else if (this_key_has_addr_match)
        a_valid_addrmatch_key = tmp;
    }
  }

  crypt_key_free(&keys);

  if (matches)
  {
    if (oppenc_mode)
    {
      if (the_strong_valid_key)
        k = crypt_copy_key(the_strong_valid_key);
      else if (a_valid_addrmatch_key && !C_CryptOpportunisticEncryptStrongKeys)
        k = crypt_copy_key(a_valid_addrmatch_key);
      else
        k = NULL;
    }
    else if (the_strong_valid_key && !multi)
    {
      /* There was precisely one strong match on a valid ID.
       * Proceed without asking the user.  */
      k = crypt_copy_key(the_strong_valid_key);
    }
    else
    {
      /* Else: Ask the user.  */
      k = crypt_select_key(matches, a, NULL, app, forced_valid);
    }

    crypt_key_free(&matches);
  }
  else
    k = NULL;

  return k;
}

static struct CryptKeyInfo *crypt_getkeybystr(const char *p, KeyFlags abilities,
                                              unsigned int app, int *forced_valid)
{
  struct ListHead hints = STAILQ_HEAD_INITIALIZER(hints);
  struct CryptKeyInfo *matches = NULL;
  struct CryptKeyInfo **matches_endp = &matches;
  struct CryptKeyInfo *k = NULL;
  const char *ps = NULL, *pl = NULL, *phint = NULL;

  mutt_message(_("Looking for keys matching \"%s\"..."), p);

  *forced_valid = 0;

  const char *pfcopy = crypt_get_fingerprint_or_id(p, &phint, &pl, &ps);
  crypt_add_string_to_hints(phint, &hints);
  struct CryptKeyInfo *keys = get_candidates(&hints, app, (abilities & KEYFLAG_CANSIGN));
  mutt_list_free(&hints);

  if (!keys)
  {
    FREE(&pfcopy);
    return NULL;
  }

  for (k = keys; k; k = k->next)
  {
    if (abilities && !(k->flags & abilities))
      continue;

    mutt_debug(LL_DEBUG5, "matching \"%s\" against key %s, \"%s\": ", p,
               crypt_long_keyid(k), k->uid);

    if (!*p || (pfcopy && (mutt_str_strcasecmp(pfcopy, crypt_fpr(k)) == 0)) ||
        (pl && (mutt_str_strcasecmp(pl, crypt_long_keyid(k)) == 0)) ||
        (ps && (mutt_str_strcasecmp(ps, crypt_short_keyid(k)) == 0)) ||
        mutt_str_stristr(k->uid, p))
    {
      mutt_debug(LL_DEBUG5, "match\n");

      struct CryptKeyInfo *tmp = crypt_copy_key(k);
      *matches_endp = tmp;
      matches_endp = &tmp->next;
    }
    else
    {
      mutt_debug(LL_DEBUG5, "no match\n");
    }
  }

  FREE(&pfcopy);
  crypt_key_free(&keys);

  if (matches)
  {
    k = crypt_select_key(matches, NULL, p, app, forced_valid);
    crypt_key_free(&matches);
    return k;
  }

  return NULL;
}

static struct CryptKeyInfo *crypt_ask_for_key(char *tag, char *whatfor, KeyFlags abilities,
                                              unsigned int app, int *forced_valid)
{
  struct CryptKeyInfo *key = NULL;
  char resp[128];
  struct CryptCache *l = NULL;
  int dummy;

  if (!forced_valid)
    forced_valid = &dummy;

  mutt_clear_error();

  *forced_valid = 0;
  resp[0] = '\0';
  if (whatfor)
  {
    for (l = id_defaults; l; l = l->next)
    {
      if (mutt_str_strcasecmp(whatfor, l->what) == 0)
      {
        mutt_str_strfcpy(resp, l->dflt, sizeof(resp));
        break;
      }
    }
  }

  while (true)
  {
    resp[0] = '\0';
    if (mutt_get_field(tag, resp, sizeof(resp), MUTT_CLEAR) != 0)
      return NULL;

    if (whatfor)
    {
      if (l)
        mutt_str_replace(&l->dflt, resp);
      else
      {
        l = mutt_mem_malloc(sizeof(struct CryptCache));
        l->next = id_defaults;
        id_defaults = l;
        l->what = mutt_str_strdup(whatfor);
        l->dflt = mutt_str_strdup(resp);
      }
    }

    key = crypt_getkeybystr(resp, abilities, app, forced_valid);
    if (key)
      return key;

    mutt_error(_("No matching keys found for \"%s\""), resp);
  }
  /* not reached */
}

static char *find_keys(struct AddressList *addrlist, unsigned int app, bool oppenc_mode)
{
  struct ListHead crypt_hook_list = STAILQ_HEAD_INITIALIZER(crypt_hook_list);
  struct ListNode *crypt_hook = NULL;
  const char *keyid = NULL;
  char *keylist = NULL;
  size_t keylist_size = 0;
  size_t keylist_used = 0;
  struct Address *p = NULL;
  struct CryptKeyInfo *k_info = NULL;
  const char *fqdn = mutt_fqdn(true);
  char buf[1024];
  int forced_valid;
  bool key_selected;
  struct AddressList hookal = TAILQ_HEAD_INITIALIZER(hookal);

  struct Address *a = NULL;
  TAILQ_FOREACH(a, addrlist, entries)
  {
    key_selected = false;
    mutt_crypt_hook(&crypt_hook_list, a);
    crypt_hook = STAILQ_FIRST(&crypt_hook_list);
    do
    {
      p = a;
      forced_valid = 0;
      k_info = NULL;

      if (crypt_hook)
      {
        keyid = crypt_hook->data;
        enum QuadOption ans = MUTT_YES;
        if (!oppenc_mode && C_CryptConfirmhook)
        {
          snprintf(buf, sizeof(buf), _("Use keyID = \"%s\" for %s?"), keyid, p->mailbox);
          ans = mutt_yesorno(buf, MUTT_YES);
        }
        if (ans == MUTT_YES)
        {
          if (crypt_is_numerical_keyid(keyid))
          {
            if (strncmp(keyid, "0x", 2) == 0)
              keyid += 2;
            goto bypass_selection; /* you don't see this. */
          }

          /* check for e-mail address */
          mutt_addrlist_clear(&hookal);
          if (strchr(keyid, '@') && (mutt_addrlist_parse(&hookal, keyid) != 0))
          {
            mutt_addrlist_qualify(&hookal, fqdn);
            p = TAILQ_FIRST(&hookal);
          }
          else if (!oppenc_mode)
          {
            k_info = crypt_getkeybystr(keyid, KEYFLAG_CANENCRYPT, app, &forced_valid);
          }
        }
        else if (ans == MUTT_NO)
        {
          if (key_selected || STAILQ_NEXT(crypt_hook, entries))
          {
            crypt_hook = STAILQ_NEXT(crypt_hook, entries);
            continue;
          }
        }
        else if (ans == MUTT_ABORT)
        {
          FREE(&keylist);
          mutt_addrlist_clear(&hookal);
          mutt_list_free(&crypt_hook_list);
          return NULL;
        }
      }

      if (!k_info)
      {
        k_info = crypt_getkeybyaddr(p, KEYFLAG_CANENCRYPT, app, &forced_valid, oppenc_mode);
      }

      if (!k_info && !oppenc_mode)
      {
        snprintf(buf, sizeof(buf), _("Enter keyID for %s: "), p->mailbox);

        k_info = crypt_ask_for_key(buf, p->mailbox, KEYFLAG_CANENCRYPT, app, &forced_valid);
      }

      if (!k_info)
      {
        FREE(&keylist);
        mutt_addrlist_clear(&hookal);
        mutt_list_free(&crypt_hook_list);
        return NULL;
      }

      keyid = crypt_fpr_or_lkeyid(k_info);

    bypass_selection:
      keylist_size += mutt_str_strlen(keyid) + 4 + 1;
      mutt_mem_realloc(&keylist, keylist_size);
      sprintf(keylist + keylist_used, "%s0x%s%s", keylist_used ? " " : "",
              keyid, forced_valid ? "!" : "");
      keylist_used = mutt_str_strlen(keylist);

      key_selected = true;

      crypt_key_free(&k_info);
      mutt_addrlist_clear(&hookal);

      if (crypt_hook)
        crypt_hook = STAILQ_NEXT(crypt_hook, entries);

    } while (crypt_hook);

    mutt_list_free(&crypt_hook_list);
  }
  return keylist;
}

char *pgp_gpgme_find_keys(struct AddressList *addrlist, bool oppenc_mode)
{
  return find_keys(addrlist, APPLICATION_PGP, oppenc_mode);
}

char *smime_gpgme_find_keys(struct AddressList *addrlist, bool oppenc_mode)
{
  return find_keys(addrlist, APPLICATION_SMIME, oppenc_mode);
}

int mutt_gpgme_select_secret_key(struct Buffer *keyid)
{
  int rc = -1, junk;
  gpgme_error_t err;
  gpgme_key_t key = NULL;
  gpgme_user_id_t uid = NULL;
  struct CryptKeyInfo *results = NULL, *k = NULL;
  struct CryptKeyInfo **kend = NULL;
  struct CryptKeyInfo *choice = NULL;

  gpgme_ctx_t ctx = create_gpgme_context(false);

  /* list all secret keys */
  if (gpgme_op_keylist_start(ctx, NULL, 1))
    goto cleanup;

  kend = &results;

  while (!(err = gpgme_op_keylist_next(ctx, &key)))
  {
    KeyFlags flags = KEYFLAG_NO_FLAGS;

    if (key_check_cap(key, KEY_CAP_CAN_ENCRYPT))
      flags |= KEYFLAG_CANENCRYPT;
    if (key_check_cap(key, KEY_CAP_CAN_SIGN))
      flags |= KEYFLAG_CANSIGN;

    if (key->revoked)
      flags |= KEYFLAG_REVOKED;
    if (key->expired)
      flags |= KEYFLAG_EXPIRED;
    if (key->disabled)
      flags |= KEYFLAG_DISABLED;

    int idx;
    for (idx = 0, uid = key->uids; uid; idx++, uid = uid->next)
    {
      k = mutt_mem_calloc(1, sizeof(*k));
      k->kobj = key;
      gpgme_key_ref(k->kobj);
      k->idx = idx;
      k->uid = uid->uid;
      k->flags = flags;
      if (uid->revoked)
        k->flags |= KEYFLAG_REVOKED;
      k->validity = uid->validity;
      *kend = k;
      kend = &k->next;
    }
    gpgme_key_unref(key);
  }
  if (gpg_err_code(err) != GPG_ERR_EOF)
    mutt_error(_("gpgme_op_keylist_next failed: %s"), gpgme_strerror(err));
  gpgme_op_keylist_end(ctx);

  if (!results)
  {
    /* L10N:
       mutt_gpgme_select_secret_key() tries to list all secret keys to choose
       from.  This error is displayed if no results were found.
    */
    mutt_error(_("No secret keys found"));
    goto cleanup;
  }

  choice = crypt_select_key(results, NULL, "*", APPLICATION_PGP, &junk);
  if (!(choice && choice->kobj && choice->kobj->subkeys && choice->kobj->subkeys->fpr))
    goto cleanup;
  mutt_buffer_strcpy(keyid, choice->kobj->subkeys->fpr);

  rc = 0;

cleanup:
  crypt_key_free(&choice);
  crypt_key_free(&results);
  gpgme_release(ctx);
  return rc;
}

struct Body *pgp_gpgme_make_key_attachment(void)
{
#ifdef HAVE_GPGME_OP_EXPORT_KEYS
  gpgme_ctx_t context = NULL;
  gpgme_key_t export_keys[2] = { 0 };
  gpgme_data_t keydata = NULL;
  gpgme_error_t err;
  struct Body *att = NULL;
  char buf[1024];
  struct stat sb;

  OptPgpCheckTrust = false;

  struct CryptKeyInfo *key = crypt_ask_for_key(_("Please enter the key ID: "), NULL,
                                               KEYFLAG_NO_FLAGS, APPLICATION_PGP, NULL);
  if (!key)
    goto bail;
  export_keys[0] = key->kobj;
  export_keys[1] = NULL;

  context = create_gpgme_context(false);
  gpgme_set_armor(context, 1);
  keydata = create_gpgme_data();
  err = gpgme_op_export_keys(context, export_keys, 0, keydata);
  if (err != GPG_ERR_NO_ERROR)
  {
    mutt_error(_("Error exporting key: %s"), gpgme_strerror(err));
    goto bail;
  }

  char *tempf = data_object_to_tempfile(keydata, NULL);
  if (!tempf)
    goto bail;

  att = mutt_body_new();
  /* tempf is a newly allocated string, so this is correct: */
  att->filename = tempf;
  att->unlink = true;
  att->use_disp = false;
  att->type = TYPE_APPLICATION;
  att->subtype = mutt_str_strdup("pgp-keys");
  /* L10N: MIME description for exported (attached) keys.
     You can translate this entry to a non-ASCII string (it will be encoded),
     but it may be safer to keep it untranslated. */
  snprintf(buf, sizeof(buf), _("PGP Key 0x%s"), crypt_keyid(key));
  att->description = mutt_str_strdup(buf);
  mutt_update_encoding(att);

  stat(tempf, &sb);
  att->length = sb.st_size;

bail:
  crypt_key_free(&key);
  gpgme_data_release(keydata);
  gpgme_release(context);

  return att;
#else
  mutt_error("gpgme_op_export_keys not supported");
  return NULL;
#endif
}

static void init_common(void)
{
  /* this initialization should only run one time, but it may be called by
   * either pgp_gpgme_init or smime_gpgme_init */
  static bool has_run = false;
  if (has_run)
    return;

  gpgme_check_version(NULL);
  gpgme_set_locale(NULL, LC_CTYPE, setlocale(LC_CTYPE, NULL));
#ifdef ENABLE_NLS
  gpgme_set_locale(NULL, LC_MESSAGES, setlocale(LC_MESSAGES, NULL));
#endif
  has_run = true;
}

static void init_pgp(void)
{
  if (gpgme_engine_check_version(GPGME_PROTOCOL_OpenPGP) != GPG_ERR_NO_ERROR)
  {
    mutt_error(_("GPGME: OpenPGP protocol not available"));
  }
}

static void init_smime(void)
{
  if (gpgme_engine_check_version(GPGME_PROTOCOL_CMS) != GPG_ERR_NO_ERROR)
  {
    mutt_error(_("GPGME: CMS protocol not available"));
  }
}

void pgp_gpgme_init(void)
{
  init_common();
  init_pgp();
}

void smime_gpgme_init(void)
{
  init_common();
  init_smime();
}

static int gpgme_send_menu(struct Email *e, int is_smime)
{
  struct CryptKeyInfo *p = NULL;
  const char *prompt = NULL;
  const char *letters = NULL;
  const char *choices = NULL;
  int choice;

  if (is_smime)
    e->security |= APPLICATION_SMIME;
  else
    e->security |= APPLICATION_PGP;

  /* Opportunistic encrypt is controlling encryption.
   * NOTE: "Signing" and "Clearing" only adjust the sign bit, so we have different
   *       letter choices for those.
   */
  if (C_CryptOpportunisticEncrypt && (e->security & SEC_OPPENCRYPT))
  {
    if (is_smime)
    {
      /* L10N: S/MIME options (opportunistic encryption is on) */
      prompt =
          _("S/MIME (s)ign, sign (a)s, (p)gp, (c)lear, or (o)ppenc mode off?");
      /* L10N: S/MIME options (opportunistic encryption is on) */
      letters = _("sapco");
      choices = "SapCo";
    }
    else
    {
      /* L10N: PGP options (opportunistic encryption is on) */
      prompt =
          _("PGP (s)ign, sign (a)s, s/(m)ime, (c)lear, or (o)ppenc mode off?");
      /* L10N: PGP options (opportunistic encryption is on) */
      letters = _("samco");
      choices = "SamCo";
    }
  }
  /* Opportunistic encryption option is set, but is toggled off for this message.  */
  else if (C_CryptOpportunisticEncrypt)
  {
    if (is_smime)
    {
      /* L10N: S/MIME options (opportunistic encryption is off) */
      prompt = _("S/MIME (e)ncrypt, (s)ign, sign (a)s, (b)oth, (p)gp, (c)lear, "
                 "or (o)ppenc mode?");
      /* L10N: S/MIME options (opportunistic encryption is off) */
      letters = _("esabpco");
      choices = "esabpcO";
    }
    else
    {
      /* L10N: PGP options (opportunistic encryption is off) */
      prompt = _("PGP (e)ncrypt, (s)ign, sign (a)s, (b)oth, s/(m)ime, (c)lear, "
                 "or (o)ppenc mode?");
      /* L10N: PGP options (opportunistic encryption is off) */
      letters = _("esabmco");
      choices = "esabmcO";
    }
  }
  /* Opportunistic encryption is unset */
  else
  {
    if (is_smime)
    {
      /* L10N: S/MIME options */
      prompt =
          _("S/MIME (e)ncrypt, (s)ign, sign (a)s, (b)oth, (p)gp or (c)lear?");
      /* L10N: S/MIME options */
      letters = _("esabpc");
      choices = "esabpc";
    }
    else
    {
      /* L10N: PGP options */
      prompt =
          _("PGP (e)ncrypt, (s)ign, sign (a)s, (b)oth, s/(m)ime or (c)lear?");
      /* L10N: PGP options */
      letters = _("esabmc");
      choices = "esabmc";
    }
  }

  choice = mutt_multi_choice(prompt, letters);
  if (choice > 0)
  {
    switch (choices[choice - 1])
    {
      case 'a': /* sign (a)s */
        p = crypt_ask_for_key(_("Sign as: "), NULL, KEYFLAG_CANSIGN,
                              is_smime ? APPLICATION_SMIME : APPLICATION_PGP, NULL);
        if (p)
        {
          char input_signas[128];
          snprintf(input_signas, sizeof(input_signas), "0x%s", crypt_fpr_or_lkeyid(p));
          mutt_str_replace(is_smime ? &C_SmimeDefaultKey : &C_PgpSignAs, input_signas);
          crypt_key_free(&p);

          e->security |= SEC_SIGN;
        }
        break;

      case 'b': /* (b)oth */
        e->security |= (SEC_ENCRYPT | SEC_SIGN);
        break;

      case 'C':
        e->security &= ~SEC_SIGN;
        break;

      case 'c': /* (c)lear */
        e->security &= ~(SEC_ENCRYPT | SEC_SIGN);
        break;

      case 'e': /* (e)ncrypt */
        e->security |= SEC_ENCRYPT;
        e->security &= ~SEC_SIGN;
        break;

      case 'm': /* (p)gp or s/(m)ime */
      case 'p':
        is_smime = !is_smime;
        if (is_smime)
        {
          e->security &= ~APPLICATION_PGP;
          e->security |= APPLICATION_SMIME;
        }
        else
        {
          e->security &= ~APPLICATION_SMIME;
          e->security |= APPLICATION_PGP;
        }
        crypt_opportunistic_encrypt(e);
        break;

      case 'O': /* oppenc mode on */
        e->security |= SEC_OPPENCRYPT;
        crypt_opportunistic_encrypt(e);
        break;

      case 'o': /* oppenc mode off */
        e->security &= ~SEC_OPPENCRYPT;
        break;

      case 'S': /* (s)ign in oppenc mode */
        e->security |= SEC_SIGN;
        break;

      case 's': /* (s)ign */
        e->security &= ~SEC_ENCRYPT;
        e->security |= SEC_SIGN;
        break;
    }
  }

  return e->security;
}

int pgp_gpgme_send_menu(struct Email *e)
{
  return gpgme_send_menu(e, 0);
}

int smime_gpgme_send_menu(struct Email *e)
{
  return gpgme_send_menu(e, 1);
}

static bool verify_sender(struct Email *e)
{
  struct Address *sender = NULL;
  bool rc = true;

  if (!TAILQ_EMPTY(&e->env->from))
  {
    mutt_expand_aliases(&e->env->from);
    sender = TAILQ_FIRST(&e->env->from);
  }
  else if (!TAILQ_EMPTY(&e->env->sender))
  {
    mutt_expand_aliases(&e->env->sender);
    sender = TAILQ_FIRST(&e->env->sender);
  }

  if (sender)
  {
    if (signature_key)
    {
      gpgme_key_t key = signature_key;
      gpgme_user_id_t uid = NULL;
      int sender_length = strlen(sender->mailbox);
      for (uid = key->uids; uid && rc; uid = uid->next)
      {
        int uid_length = strlen(uid->email);
        if ((uid->email[0] == '<') && (uid->email[uid_length - 1] == '>') &&
            (uid_length == (sender_length + 2)))
        {
          const char *at_sign = strchr(uid->email + 1, '@');
          if (at_sign)
          {
            /* Assume address is 'mailbox@domainname'.
             * The mailbox part is case-sensitive,
             * the domainname is not. (RFC2821) */
            const char *tmp_email = uid->email + 1;
            const char *tmp_sender = sender->mailbox;
            /* length of mailbox part including '@' */
            int mailbox_length = at_sign - tmp_email + 1;
            int domainname_length = sender_length - mailbox_length;
            int mailbox_match, domainname_match;

            mailbox_match = (strncmp(tmp_email, tmp_sender, mailbox_length) == 0);
            tmp_email += mailbox_length;
            tmp_sender += mailbox_length;
            domainname_match =
                (strncasecmp(tmp_email, tmp_sender, domainname_length) == 0);
            if (mailbox_match && domainname_match)
              rc = false;
          }
          else
          {
            if (strncmp(uid->email + 1, sender->mailbox, sender_length) == 0)
              rc = false;
          }
        }
      }
    }
    else
      mutt_any_key_to_continue(_("Failed to verify sender"));
  }
  else
    mutt_any_key_to_continue(_("Failed to figure out sender"));

  if (signature_key)
  {
    gpgme_key_unref(signature_key);
    signature_key = NULL;
  }

  return rc;
}

int smime_gpgme_verify_sender(struct Mailbox *m, struct Email *e)
{
  return verify_sender(e);
}

void pgp_gpgme_set_sender(const char *sender)
{
  mutt_debug(LL_DEBUG2, "setting to: %s\n", sender);
  FREE(&current_sender);
  current_sender = mutt_str_strdup(sender);
}

const char *mutt_gpgme_print_version(void)
{
  return GPGME_VERSION;
}