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/* wptGPGME.cpp - WinPT GPGME interface |
/* wptGPGME.cpp - WinPT GPGME interface |
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* Copyright (C) 2001-2005 Timo Schulz |
* Copyright (C) 2001-2006 Timo Schulz |
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* |
* |
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* This file is part of WinPT. |
* This file is part of WinPT. |
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* |
* |
| 41 |
BOOL CALLBACK keycache_dlg_proc (HWND dlg, UINT msg, WPARAM wparam, LPARAM lparam); |
BOOL CALLBACK keycache_dlg_proc (HWND dlg, UINT msg, WPARAM wparam, LPARAM lparam); |
| 42 |
void progress_cleanup (progress_filter_s * pfx); |
void progress_cleanup (progress_filter_s * pfx); |
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| 44 |
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/* Global GPG key cache contexts. */ |
| 45 |
static gpg_keycache_t pub = NULL; |
static gpg_keycache_t pub = NULL; |
| 46 |
static gpg_keycache_t sec = NULL; |
static gpg_keycache_t sec = NULL; |
| 47 |
static char *gpg_secring = NULL; |
static char *gpg_secring = NULL; |
| 48 |
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| 50 |
/* Reload the key cache. */ |
/* Return 1 if no cache is available. |
| 51 |
void |
This can be the case if WinPT were run in command line mode. */ |
| 52 |
keycache_reload (HWND dlg) |
int |
| 53 |
{ |
keycache_not_available (void) |
| 54 |
refresh_cache_s rcs; |
{ |
| 55 |
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return pub == NULL; |
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memset (&rcs, 0, sizeof rcs); |
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rcs.kr_reload = rcs.kr_update = 1; |
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rcs.tr_update = 0; |
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DialogBoxParam (glob_hinst, (LPCSTR)IDD_WINPT_KEYCACHE, dlg, |
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keycache_dlg_proc, (LPARAM)&rcs); |
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| 56 |
} |
} |
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/* Release both key cache objects. If @cleanup is 1, |
/* Release both key cache objects. If @cleanup is 1, |
| 59 |
also release other global structs. */ |
also release other global structs. */ |
| 60 |
void |
void |
| 61 |
keycache_release (int cleanup) |
keycache_release (int cleanup) |
| 62 |
{ |
{ |
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int n = gpg_keycache_get_size (pub); |
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| 63 |
char tmpbuf[64]; |
char tmpbuf[64]; |
| 64 |
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int n = gpg_keycache_get_size (pub); |
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/* XXX: update the value when the cache has changed. */ |
/* XXX: update the value when the cache has changed. */ |
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sprintf (tmpbuf, "%d", n); |
_snprintf (tmpbuf, DIM (tmpbuf)-1, "%d", n); |
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set_reg_key (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys", tmpbuf); |
set_reg_key (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys", tmpbuf); |
| 69 |
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| 70 |
if (pub) { |
if (pub) { |
| 75 |
gpg_keycache_release (sec); |
gpg_keycache_release (sec); |
| 76 |
sec = NULL; |
sec = NULL; |
| 77 |
} |
} |
| 78 |
if (cleanup) { |
if (cleanup) |
| 79 |
if (gpg_secring) |
safe_free (gpg_secring); |
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free (gpg_secring); |
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gpg_secring = NULL; |
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} |
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} |
} |
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if (secring != NULL) { |
if (secring != NULL) { |
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free_if_alloc (gpg_secring); |
free_if_alloc (gpg_secring); |
| 112 |
gpg_secring = get_gnupg_keyring (0, NO_STRICT); |
gpg_secring = get_gnupg_keyring (0, NO_STRICT); |
| 113 |
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log_debug ("keycache_init: secring path '%s'\r\n", gpg_secring); |
| 114 |
} |
} |
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| 116 |
p = get_reg_entry (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys"); |
p = get_reg_entry (HKEY_CURRENT_USER, "Software\\WinPT", "nKeys"); |
| 117 |
if (p && *p != ' ') { |
if (p && *p != ' ') { |
| 118 |
val = atoi (p); |
val = atoi (p); |
| 119 |
free_if_alloc (p); |
free_if_alloc (p); |
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memset (&pfx, 0, sizeof (pfx)); |
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| 120 |
} |
} |
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/* Release old contexts first. */ |
memset (&pfx, 0, sizeof (pfx)); |
| 123 |
keycache_release (0); |
keycache_release (0); /* Release old contexts first. */ |
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err = gpg_keycache_new (&pub); |
err = gpg_keycache_new (&pub); |
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if (err) |
if (err) |
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if (!err) |
if (!err) |
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err = gpg_keycache_init (pub, NULL, 0); |
err = gpg_keycache_init (pub, NULL, 0); |
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if (!err) |
if (!err) |
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err = gpg_keycache_init( sec, NULL, 1 ); |
err = gpg_keycache_init (sec, NULL, 1); |
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if( !err && pubring && *pubring ) |
if (!err && pubring && *pubring) |
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err = gpg_keycache_prepare( pub, pubring, NULL ); |
err = gpg_keycache_prepare (pub, pubring, NULL); |
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if( !err && secring && * secring ) |
if (!err && secring && * secring) |
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err = gpg_keycache_prepare( sec, NULL, secring ); |
err = gpg_keycache_prepare (sec, NULL, secring); |
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if (!err) |
if (!err) |
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gpg_keycache_sync (pub, sec); |
gpg_keycache_sync (pub, sec); |
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if (val != 0) |
if (val != 0) |
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gpg_keycache_t |
gpg_keycache_t |
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keycache_get_ctx (int is_pub) |
keycache_get_ctx (int is_pub) |
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{ |
{ |
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return is_pub? pub : sec; |
gpg_keycache_t ctx; |
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ctx = is_pub? pub : sec; |
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if (!ctx) |
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BUG (0); |
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return ctx; |
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} |
} |
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/* Get the GPG key with keyid @keyid from the cache. Return it |
/* Get the GPG key with keyid @keyid from the cache. Return it |
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in @r_key on success. */ |
in @r_key on success. */ |
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static int |
static gpgme_error_t |
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get_key_from_cache (const char *keyid, gpgme_key_t *r_key, |
get_key_from_cache (const char *keyid, int secret, gpgme_key_t *r_key, |
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struct keycache_s **c, int secret) |
struct keycache_s **c) |
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{ |
{ |
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gpg_keycache_t cache; |
gpg_keycache_t cache; |
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gpgme_error_t err; |
gpgme_error_t err; |
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int mode = secret? KEYCACHE_PRV : KEYCACHE_PUB; |
int mode = secret? KEYCACHE_PRV : KEYCACHE_PUB; |
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if (!keyid) |
if (!keyid) |
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return WPTERR_GENERAL; |
return gpg_error (GPG_ERR_INV_VALUE); |
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if (r_key) |
if (r_key) |
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*r_key = NULL; |
*r_key = NULL; |
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cache = keycache_get_ctx (mode); |
cache = keycache_get_ctx (mode); |
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if (!cache) |
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BUG( NULL ); |
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if (!c) |
if (!c) |
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err = gpg_keycache_find_key (cache, keyid, 0, r_key); |
err = gpg_keycache_find_key (cache, keyid, 0, r_key); |
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else |
else |
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err = gpg_keycache_find_key2 (cache, keyid, 0, r_key, c); |
err = gpg_keycache_find_key2 (cache, keyid, 0, r_key, c); |
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return err? WPTERR_GENERAL : 0; |
return err; |
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} |
} |
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/* Get GPG key with keyid @keyid directly from GPG and return |
/* Release the internal key structure. |
| 185 |
it in @r_key on success. */ |
If allocated is 0, assume fixed cache item. */ |
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static int |
void |
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get_key_directly (const char *keyid, gpgme_key_t *r_key, int secret) |
winpt_release_pubkey (winpt_key_s *k) |
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{ |
{ |
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gpgme_ctx_t ctx; |
/*log_box ("debug", 0, "alloc %d", k->allocated);*/ |
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gpgme_error_t err; |
if (!k->allocated) |
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return; |
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err = gpgme_new (&ctx); |
gpg_keycache_item_release (k->ext); |
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if (err) |
k->ext = NULL; |
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return WPTERR_GENERAL; |
k->allocated = 0; |
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err = gpgme_get_key (ctx, keyid, r_key, secret); |
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gpgme_release (ctx); |
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return err? WPTERR_GENERAL : 0; |
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} |
} |
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/* Search the public key with @keyid as the keyid in the cache and |
/* Search the public key with @keyid as the keyid in the cache and |
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return the item in @k. */ |
return the item in @k. */ |
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int |
gpgme_error_t |
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winpt_get_pubkey (const char *keyid, winpt_key_s *k) |
winpt_get_pubkey (const char *keyid, winpt_key_s *k) |
| 202 |
{ |
{ |
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int rc; |
gpgme_error_t err = gpg_error (GPG_ERR_NO_ERROR); |
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rc = get_key_from_cache (keyid, &k->ctx, &k->ext, 0); |
if (pub) |
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if (rc) |
err = get_key_from_cache (keyid, 0, &k->ctx, &k->ext); |
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return rc; |
else |
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err = gpg_keycache_fetch_key (keyid, 0, &k->ctx, &k->ext); |
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if (err) |
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return err; |
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k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA && |
k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA && |
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strlen (k->ctx->subkeys->fpr) == 32; |
strlen (k->ctx->subkeys->fpr) == 32; |
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k->is_protected = k->ext->gloflags.is_protected; |
k->is_protected = k->ext->gloflags.is_protected; |
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k->keyid = k->ctx->subkeys->keyid; |
k->keyid = k->ctx->subkeys->keyid+8; |
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k->uid = k->ctx->uids->uid; |
k->uid = k->ext->uids->uid; |
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return rc; |
k->allocated = pub? 0 : 1; |
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return 0; |
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} |
} |
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int |
gpgme_error_t |
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winpt_get_seckey (const char *keyid, winpt_key_s *k) |
winpt_get_seckey (const char *keyid, winpt_key_s *k) |
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{ |
{ |
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int rc; |
gpgme_error_t err; |
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rc = get_key_from_cache (keyid, &k->ctx, &k->ext, 1); |
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if (rc) |
if (sec) |
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return rc; |
err = get_key_from_cache (keyid, 1, &k->ctx, &k->ext); |
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else |
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err = gpg_keycache_fetch_key (keyid, 1, &k->ctx, &k->ext); |
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if (err) |
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return err; |
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k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA && |
k->is_v3 = k->ctx->subkeys->pubkey_algo == GPGME_PK_RSA && |
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strlen (k->ctx->subkeys->fpr) == 32; |
strlen (k->ctx->subkeys->fpr) == 32; |
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k->is_protected = k->ext->gloflags.is_protected; |
k->is_protected = k->ext->gloflags.is_protected; |
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k->keyid = k->ctx->subkeys->keyid; |
k->keyid = k->ctx->subkeys->keyid+8; |
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k->uid = k->ctx->uids->uid; |
k->uid = k->ext->uids->uid; |
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return rc; |
k->allocated = sec? 0 : 1; |
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return 0; |
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} |
} |
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int |
gpgme_error_t |
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get_pubkey (const char *keyid, gpgme_key_t *ret_key) |
get_pubkey (const char *keyid, gpgme_key_t *ret_key) |
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{ |
{ |
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int rc; |
return get_key_from_cache (keyid, 0, ret_key, NULL); |
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if (pub && sec) |
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rc = get_key_from_cache (keyid, ret_key, NULL, 0); |
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else |
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rc = get_key_directly (keyid, ret_key, 0); |
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return rc; |
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} |
} |
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int |
gpgme_error_t |
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get_seckey (const char *keyid, gpgme_key_t *ret_skey) |
get_seckey (const char *keyid, gpgme_key_t *ret_skey) |
| 251 |
{ |
{ |
| 252 |
int rc; |
return get_key_from_cache (keyid, 1, ret_skey, NULL); |
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if (pub && sec) |
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rc = get_key_from_cache (keyid, ret_skey, NULL, 1); |
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else |
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rc = get_key_directly (keyid, ret_skey, 1); |
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return rc; |
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} |
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/* Search for insecure ElGamal keys and return the |
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number of founded keys. */ |
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int |
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count_insecure_elgkeys (void) |
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{ |
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gpg_keycache_t pc; |
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gpgme_key_t key; |
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int n=0; |
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pc = keycache_get_ctx (1); |
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if (!pc) |
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BUG (0); |
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while (!gpg_keycache_next_key (pc, 0, &key)) { |
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if (key->subkeys->pubkey_algo == GPGME_PK_ELG) |
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n++; |
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} |
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gpg_keycache_rewind (pc); |
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return n; |
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} |
} |
| 254 |
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| 255 |
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| 256 |
/* Map the signature summary in @sum to signature status table index. |
/* Map the signature summary in @sum to signature status table index. |
| 257 |
Return value: index to table. */ |
Return value: index to table. */ |
| 258 |
static int |
static int |
| 259 |
sigsum_to_index (gpgme_sigsum_t sum) |
sigsum_to_index (gpgme_sigsum_t sum) |
| 260 |
{ |
{ |
| 261 |
if ((sum & GPGME_SIGSUM_VALID) && (sum & GPGME_SIGSUM_KEY_REVOKED)) |
if (sum & GPGME_SIGSUM_RED) |
| 262 |
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return 2; |
| 263 |
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else if (sum & GPGME_SIGSUM_SIG_EXPIRED) |
| 264 |
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return 8; |
| 265 |
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else if (sum & GPGME_SIGSUM_KEY_REVOKED) |
| 266 |
return 7; |
return 7; |
| 267 |
if ((sum & GPGME_SIGSUM_VALID) && (sum & GPGME_SIGSUM_SIG_EXPIRED)) |
else if (sum & GPGME_SIGSUM_KEY_EXPIRED) |
| 268 |
return 6; |
return 6; |
| 269 |
if (sum & GPGME_SIGSUM_GREEN) |
else if (sum & GPGME_SIGSUM_GREEN) |
| 270 |
return 1; |
return 1; |
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else if (sum & GPGME_SIGSUM_RED) |
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return 2; |
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| 271 |
else if (sum & GPGME_SIGSUM_KEY_MISSING) |
else if (sum & GPGME_SIGSUM_KEY_MISSING) |
| 272 |
return 3; |
return 3; |
| 273 |
return 0; |
return 0; |
| 274 |
} |
} |
| 275 |
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| 276 |
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| 277 |
/* Return a humand readable description for the signature status @sum. */ |
/* Return a humand readable description for the signature status @sum. |
| 278 |
|
Warning: this function does not consider the validity of the key. */ |
| 279 |
const char* |
const char* |
| 280 |
get_gpg_sigstat (gpgme_sigsum_t sum) |
get_gpg_sigstat (gpgme_sigsum_t sum) |
| 281 |
{ |
{ |
| 282 |
const char *gpg_sigstat[] = { |
const char *gpg_sigstat[] = { |
| 283 |
_("Error during verification process."), |
_("Error during verification process"), |
| 284 |
_("The signature is good."), |
_("The signature is good"), |
| 285 |
_("The signature is BAD!"), |
_("The signature is BAD!"), |
| 286 |
_("The signature could not be checked due to a missing key."), |
_("The signature could not be checked due to a missing key"), |
| 287 |
_("No valid OpenPGP signature."), |
_("No valid OpenPGP signature"), |
| 288 |
_("Signature Error"), |
_("Signature Error"), |
| 289 |
_("Good Signature (Expired Key)"), |
_("Good signature (Expired Key)"), |
| 290 |
_("Good Signature (Revoked Key)"), |
_("Good signature (Revoked Key)"), |
| 291 |
|
_("Good signature (Expired)"), |
| 292 |
NULL |
NULL |
| 293 |
}; |
}; |
| 294 |
const unsigned int mask = 8; |
const unsigned int mask = 9; |
| 295 |
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| 296 |
return gpg_sigstat[sigsum_to_index (sum) % mask]; |
return gpg_sigstat[sigsum_to_index (sum) % mask]; |
| 297 |
} |
} |
| 298 |
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| 299 |
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| 300 |
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/* Return true if at least one secret key is available. */ |
| 301 |
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bool |
| 302 |
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secret_key_available (void) |
| 303 |
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{ |
| 304 |
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if (!sec || gpg_keycache_get_size (sec) == 0) |
| 305 |
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return false; |
| 306 |
|
return true; |
| 307 |
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} |
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