diff --git a/g10/keydb.h b/g10/keydb.h index 627564c3c..cc99241f5 100644 --- a/g10/keydb.h +++ b/g10/keydb.h @@ -1,518 +1,520 @@ /* keydb.h - Key database * Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, * 2006, 2010 Free Software Foundation, Inc. * Copyright (C) 2015, 2016 g10 Code GmbH * * This file is part of GnuPG. * * GnuPG is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * GnuPG is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ #ifndef G10_KEYDB_H #define G10_KEYDB_H #include "../common/types.h" #include "../common/util.h" #include "packet.h" -/* What qualifies as a certification (rather than a signature?) */ +/* What qualifies as a certification (key-signature in contrast to a + * data signature)? Note that a back signature is special and can be + * made by key and data signatures capable subkeys.) */ #define IS_CERT(s) (IS_KEY_SIG(s) || IS_UID_SIG(s) || IS_SUBKEY_SIG(s) \ || IS_KEY_REV(s) || IS_UID_REV(s) || IS_SUBKEY_REV(s)) #define IS_SIG(s) (!IS_CERT(s)) #define IS_KEY_SIG(s) ((s)->sig_class == 0x1f) #define IS_UID_SIG(s) (((s)->sig_class & ~3) == 0x10) #define IS_SUBKEY_SIG(s) ((s)->sig_class == 0x18) #define IS_BACK_SIG(s) ((s)->sig_class == 0x19) #define IS_KEY_REV(s) ((s)->sig_class == 0x20) #define IS_UID_REV(s) ((s)->sig_class == 0x30) #define IS_SUBKEY_REV(s) ((s)->sig_class == 0x28) struct getkey_ctx_s; typedef struct getkey_ctx_s *GETKEY_CTX; typedef struct getkey_ctx_s *getkey_ctx_t; /**************** * A Keyblock is all packets which form an entire certificate; * i.e. the public key, certificate, trust packets, user ids, * signatures, and subkey. * * This structure is also used to bind arbitrary packets together. */ struct kbnode_struct { KBNODE next; PACKET *pkt; int flag; int private_flag; ulong recno; /* used while updating the trustdb */ }; #define is_deleted_kbnode(a) ((a)->private_flag & 1) #define is_cloned_kbnode(a) ((a)->private_flag & 2) /* Bit flags used with build_pk_list. */ enum { PK_LIST_ENCRYPT_TO = 1, /* This is an encrypt-to recipient. */ PK_LIST_HIDDEN = 2, /* This is a hidden recipient. */ PK_LIST_CONFIG = 4, /* Specified via config file. */ PK_LIST_FROM_FILE = 8 /* Take key from file with that name. */ }; /* To store private data in the flags the private data must be left * shifted by this value. */ enum { PK_LIST_SHIFT = 4 }; /* Structure to hold a couple of public key certificates. */ typedef struct pk_list *PK_LIST; /* Deprecated. */ typedef struct pk_list *pk_list_t; struct pk_list { PK_LIST next; PKT_public_key *pk; int flags; /* See PK_LIST_ constants. */ }; /* Structure to hold a list of secret key certificates. */ typedef struct sk_list *SK_LIST; struct sk_list { SK_LIST next; PKT_public_key *pk; int mark; /* not used */ }; /* structure to collect all information which can be used to * identify a public key */ typedef struct pubkey_find_info *PUBKEY_FIND_INFO; struct pubkey_find_info { u32 keyid[2]; unsigned nbits; byte pubkey_algo; byte fingerprint[MAX_FINGERPRINT_LEN]; char userid[1]; }; /* Helper type for preference functions. */ union pref_hint { int digest_length; }; /* Constants to describe from where a key was fetched or updated. */ enum { KEYORG_UNKNOWN = 0, KEYORG_KS = 1, /* Public keyserver. */ KEYORG_KS_PREF = 2, /* Preferred keysrver. */ KEYORG_DANE = 3, /* OpenPGP DANE. */ KEYORG_WKD = 4, /* Web Key Directory. */ KEYORG_URL = 5, /* Trusted URL. */ KEYORG_FILE = 6, /* Trusted file. */ KEYORG_SELF = 7 /* We generated it. */ }; /*-- keydb.c --*/ #define KEYDB_RESOURCE_FLAG_PRIMARY 2 /* The primary resource. */ #define KEYDB_RESOURCE_FLAG_DEFAULT 4 /* The default one. */ #define KEYDB_RESOURCE_FLAG_READONLY 8 /* Open in read only mode. */ #define KEYDB_RESOURCE_FLAG_GPGVDEF 16 /* Default file for gpgv. */ /* Format a search term for debugging output. The caller must free the result. */ char *keydb_search_desc_dump (struct keydb_search_desc *desc); /* Register a resource (keyring or keybox). */ gpg_error_t keydb_add_resource (const char *url, unsigned int flags); /* Dump some statistics to the log. */ void keydb_dump_stats (void); /* Create a new database handle. Returns NULL on error, sets ERRNO, and prints an error diagnostic. */ KEYDB_HANDLE keydb_new (void); /* Free all resources owned by the database handle. */ void keydb_release (KEYDB_HANDLE hd); /* Take a lock on the files immediately and not only during insert or * update. This lock is released with keydb_release. */ gpg_error_t keydb_lock (KEYDB_HANDLE hd); /* Set a flag on the handle to suppress use of cached results. This is required for updating a keyring and for key listings. Fixme: Using a new parameter for keydb_new might be a better solution. */ void keydb_disable_caching (KEYDB_HANDLE hd); /* Save the last found state and invalidate the current selection. */ void keydb_push_found_state (KEYDB_HANDLE hd); /* Restore the previous save state. */ void keydb_pop_found_state (KEYDB_HANDLE hd); /* Return the file name of the resource. */ const char *keydb_get_resource_name (KEYDB_HANDLE hd); /* Return the keyblock last found by keydb_search. */ gpg_error_t keydb_get_keyblock (KEYDB_HANDLE hd, KBNODE *ret_kb); /* Update the keyblock KB. */ gpg_error_t keydb_update_keyblock (ctrl_t ctrl, KEYDB_HANDLE hd, kbnode_t kb); /* Insert a keyblock into one of the underlying keyrings or keyboxes. */ gpg_error_t keydb_insert_keyblock (KEYDB_HANDLE hd, kbnode_t kb); /* Delete the currently selected keyblock. */ gpg_error_t keydb_delete_keyblock (KEYDB_HANDLE hd); /* Find the first writable resource. */ gpg_error_t keydb_locate_writable (KEYDB_HANDLE hd); /* Rebuild the on-disk caches of all key resources. */ void keydb_rebuild_caches (ctrl_t ctrl, int noisy); /* Return the number of skipped blocks (because they were to large to read from a keybox) since the last search reset. */ unsigned long keydb_get_skipped_counter (KEYDB_HANDLE hd); /* Clears the current search result and resets the handle's position. */ gpg_error_t keydb_search_reset (KEYDB_HANDLE hd); /* Search the database for keys matching the search description. */ gpg_error_t keydb_search (KEYDB_HANDLE hd, KEYDB_SEARCH_DESC *desc, size_t ndesc, size_t *descindex); /* Return the first non-legacy key in the database. */ gpg_error_t keydb_search_first (KEYDB_HANDLE hd); /* Return the next key (not the next matching key!). */ gpg_error_t keydb_search_next (KEYDB_HANDLE hd); /* This is a convenience function for searching for keys with a long key id. */ gpg_error_t keydb_search_kid (KEYDB_HANDLE hd, u32 *kid); /* This is a convenience function for searching for keys with a long (20 byte) fingerprint. */ gpg_error_t keydb_search_fpr (KEYDB_HANDLE hd, const byte *fpr); /*-- pkclist.c --*/ void show_revocation_reason (ctrl_t ctrl, PKT_public_key *pk, int mode ); int check_signatures_trust (ctrl_t ctrl, PKT_signature *sig); void release_pk_list (PK_LIST pk_list); int build_pk_list (ctrl_t ctrl, strlist_t rcpts, PK_LIST *ret_pk_list); gpg_error_t find_and_check_key (ctrl_t ctrl, const char *name, unsigned int use, int mark_hidden, int from_file, pk_list_t *pk_list_addr); int algo_available( preftype_t preftype, int algo, const union pref_hint *hint ); int select_algo_from_prefs( PK_LIST pk_list, int preftype, int request, const union pref_hint *hint); int select_mdc_from_pklist (PK_LIST pk_list); void warn_missing_mdc_from_pklist (PK_LIST pk_list); void warn_missing_aes_from_pklist (PK_LIST pk_list); /*-- skclist.c --*/ int random_is_faked (void); void release_sk_list( SK_LIST sk_list ); gpg_error_t build_sk_list (ctrl_t ctrl, strlist_t locusr, SK_LIST *ret_sk_list, unsigned use); /*-- passphrase.h --*/ unsigned char encode_s2k_iterations (int iterations); int have_static_passphrase(void); const char *get_static_passphrase (void); void set_passphrase_from_string(const char *pass); void read_passphrase_from_fd( int fd ); void passphrase_clear_cache (const char *cacheid); DEK *passphrase_to_dek_ext(u32 *keyid, int pubkey_algo, int cipher_algo, STRING2KEY *s2k, int mode, const char *tryagain_text, const char *custdesc, const char *custprompt, int *canceled); DEK *passphrase_to_dek (int cipher_algo, STRING2KEY *s2k, int create, int nocache, const char *tryagain_text, int *canceled); void set_next_passphrase( const char *s ); char *get_last_passphrase(void); void next_to_last_passphrase(void); void emit_status_need_passphrase (ctrl_t ctrl, u32 *keyid, u32 *mainkeyid, int pubkey_algo); #define FORMAT_KEYDESC_NORMAL 0 #define FORMAT_KEYDESC_IMPORT 1 #define FORMAT_KEYDESC_EXPORT 2 #define FORMAT_KEYDESC_DELKEY 3 char *gpg_format_keydesc (ctrl_t ctrl, PKT_public_key *pk, int mode, int escaped); /*-- getkey.c --*/ /* Cache a copy of a public key in the public key cache. */ void cache_public_key( PKT_public_key *pk ); /* Disable and drop the public key cache. */ void getkey_disable_caches(void); /* Return the public key with the key id KEYID and store it at PK. */ int get_pubkey (ctrl_t ctrl, PKT_public_key *pk, u32 *keyid); /* Similar to get_pubkey, but it does not take PK->REQ_USAGE into account nor does it merge in the self-signed data. This function also only considers primary keys. */ int get_pubkey_fast (PKT_public_key *pk, u32 *keyid); /* Return the key block for the key with KEYID. */ kbnode_t get_pubkeyblock (ctrl_t ctrl, u32 *keyid); /* A list used by get_pubkeys to gather all of the matches. */ struct pubkey_s { struct pubkey_s *next; /* The key to use (either the public key or the subkey). */ PKT_public_key *pk; kbnode_t keyblock; }; typedef struct pubkey_s *pubkey_t; /* Free a single key. This does not remove key from any list! */ void pubkey_free (pubkey_t key); /* Free a list of public keys. */ void pubkeys_free (pubkey_t keys); /* Returns all keys that match the search specification SEARCH_TERMS. The returned keys should be freed using pubkeys_free. */ gpg_error_t get_pubkeys (ctrl_t ctrl, char *search_terms, int use, int include_unusable, char *source, int warn_possibly_ambiguous, pubkey_t *r_keys); /* Find a public key identified by NAME. */ int get_pubkey_byname (ctrl_t ctrl, GETKEY_CTX *retctx, PKT_public_key *pk, const char *name, KBNODE *ret_keyblock, KEYDB_HANDLE *ret_kdbhd, int include_unusable, int no_akl ); /* Likewise, but only return the best match if NAME resembles a mail * address. */ gpg_error_t get_best_pubkey_byname (ctrl_t ctrl, GETKEY_CTX *retctx, PKT_public_key *pk, const char *name, KBNODE *ret_keyblock, int include_unusable, int no_akl); /* Get a public key directly from file FNAME. */ gpg_error_t get_pubkey_fromfile (ctrl_t ctrl, PKT_public_key *pk, const char *fname); /* Return the public key with the key id KEYID iff the secret key is * available and store it at PK. */ gpg_error_t get_seckey (ctrl_t ctrl, PKT_public_key *pk, u32 *keyid); /* Lookup a key with the specified fingerprint. */ int get_pubkey_byfprint (ctrl_t ctrl, PKT_public_key *pk, kbnode_t *r_keyblock, const byte *fprint, size_t fprint_len); /* This function is similar to get_pubkey_byfprint, but it doesn't merge the self-signed data into the public key and subkeys or into the user ids. */ gpg_error_t get_pubkey_byfprint_fast (PKT_public_key *pk, const byte *fprint, size_t fprint_len); /* This function is similar to get_pubkey_byfprint, but it doesn't merge the self-signed data into the public key and subkeys or into the user ids. */ gpg_error_t get_keyblock_byfprint_fast (kbnode_t *r_keyblock, KEYDB_HANDLE *r_hd, const byte *fprint, size_t fprint_len, int lock); /* Returns true if a secret key is available for the public key with key id KEYID. */ int have_secret_key_with_kid (u32 *keyid); /* Parse the --default-key parameter. Returns the last key (in terms of when the option is given) that is available. */ const char *parse_def_secret_key (ctrl_t ctrl); /* Look up a secret key. */ gpg_error_t get_seckey_default (ctrl_t ctrl, PKT_public_key *pk); gpg_error_t get_seckey_default_or_card (ctrl_t ctrl, PKT_public_key *pk, const byte *fpr, size_t fpr_len); /* Search for keys matching some criteria. */ gpg_error_t getkey_bynames (ctrl_t ctrl, getkey_ctx_t *retctx, PKT_public_key *pk, strlist_t names, int want_secret, kbnode_t *ret_keyblock); /* Search for one key matching some criteria. */ gpg_error_t getkey_byname (ctrl_t ctrl, getkey_ctx_t *retctx, PKT_public_key *pk, const char *name, int want_secret, kbnode_t *ret_keyblock); /* Return the next search result. */ gpg_error_t getkey_next (ctrl_t ctrl, getkey_ctx_t ctx, PKT_public_key *pk, kbnode_t *ret_keyblock); /* Release any resources used by a key listing context. */ void getkey_end (ctrl_t ctrl, getkey_ctx_t ctx); /* Return the database handle used by this context. The context still owns the handle. */ KEYDB_HANDLE get_ctx_handle(GETKEY_CTX ctx); /* Enumerate some secret keys. */ gpg_error_t enum_secret_keys (ctrl_t ctrl, void **context, PKT_public_key *pk); /* Set the mainkey_id fields for all keys in KEYBLOCK. */ void setup_main_keyids (kbnode_t keyblock); /* This function merges information from the self-signed data into the data structures. */ void merge_keys_and_selfsig (ctrl_t ctrl, kbnode_t keyblock); char*get_user_id_string_native (ctrl_t ctrl, u32 *keyid); char*get_long_user_id_string (ctrl_t ctrl, u32 *keyid); char*get_user_id (ctrl_t ctrl, u32 *keyid, size_t *rn); char*get_user_id_native (ctrl_t ctrl, u32 *keyid); char *get_user_id_byfpr (ctrl_t ctrl, const byte *fpr, size_t *rn); char *get_user_id_byfpr_native (ctrl_t ctrl, const byte *fpr); void release_akl(void); int parse_auto_key_locate(const char *options); int parse_key_origin (char *string); const char *key_origin_string (int origin); /*-- keyid.c --*/ int pubkey_letter( int algo ); char *pubkey_string (PKT_public_key *pk, char *buffer, size_t bufsize); #define PUBKEY_STRING_SIZE 32 u32 v3_keyid (gcry_mpi_t a, u32 *ki); void hash_public_key( gcry_md_hd_t md, PKT_public_key *pk ); char *format_keyid (u32 *keyid, int format, char *buffer, int len); /* Return PK's keyid. The memory is owned by PK. */ u32 *pk_keyid (PKT_public_key *pk); /* Return the keyid of the primary key associated with PK. The memory is owned by PK. */ u32 *pk_main_keyid (PKT_public_key *pk); /* Order A and B. If A < B then return -1, if A == B then return 0, and if A > B then return 1. */ static int GPGRT_ATTR_UNUSED keyid_cmp (const u32 *a, const u32 *b) { if (a[0] < b[0]) return -1; if (a[0] > b[0]) return 1; if (a[1] < b[1]) return -1; if (a[1] > b[1]) return 1; return 0; } /* Return whether PK is a primary key. */ static int GPGRT_ATTR_UNUSED pk_is_primary (PKT_public_key *pk) { return keyid_cmp (pk_keyid (pk), pk_main_keyid (pk)) == 0; } /* Copy the keyid in SRC to DEST and return DEST. */ u32 *keyid_copy (u32 *dest, const u32 *src); size_t keystrlen(void); const char *keystr(u32 *keyid); const char *keystr_with_sub (u32 *main_kid, u32 *sub_kid); const char *keystr_from_pk(PKT_public_key *pk); const char *keystr_from_pk_with_sub (PKT_public_key *main_pk, PKT_public_key *sub_pk); /* Return PK's key id as a string using the default format. PK owns the storage. */ const char *pk_keyid_str (PKT_public_key *pk); const char *keystr_from_desc(KEYDB_SEARCH_DESC *desc); u32 keyid_from_pk( PKT_public_key *pk, u32 *keyid ); u32 keyid_from_sig (PKT_signature *sig, u32 *keyid ); u32 keyid_from_fingerprint (ctrl_t ctrl, const byte *fprint, size_t fprint_len, u32 *keyid); byte *namehash_from_uid(PKT_user_id *uid); unsigned nbits_from_pk( PKT_public_key *pk ); /* Convert an UTC TIMESTAMP into an UTC yyyy-mm-dd string. Return * that string. The caller should pass a buffer with at least a size * of MK_DATESTR_SIZE. */ char *mk_datestr (char *buffer, size_t bufsize, u32 timestamp); #define MK_DATESTR_SIZE 11 const char *datestr_from_pk( PKT_public_key *pk ); const char *datestr_from_sig( PKT_signature *sig ); const char *expirestr_from_pk( PKT_public_key *pk ); const char *expirestr_from_sig( PKT_signature *sig ); const char *revokestr_from_pk( PKT_public_key *pk ); const char *usagestr_from_pk (PKT_public_key *pk, int fill); const char *colon_strtime (u32 t); const char *colon_datestr_from_pk (PKT_public_key *pk); const char *colon_datestr_from_sig (PKT_signature *sig); const char *colon_expirestr_from_sig (PKT_signature *sig); byte *fingerprint_from_pk( PKT_public_key *pk, byte *buf, size_t *ret_len ); char *hexfingerprint (PKT_public_key *pk, char *buffer, size_t buflen); char *format_hexfingerprint (const char *fingerprint, char *buffer, size_t buflen); gpg_error_t keygrip_from_pk (PKT_public_key *pk, unsigned char *array); gpg_error_t hexkeygrip_from_pk (PKT_public_key *pk, char **r_grip); /*-- kbnode.c --*/ KBNODE new_kbnode( PACKET *pkt ); KBNODE clone_kbnode( KBNODE node ); void release_kbnode( KBNODE n ); void delete_kbnode( KBNODE node ); void add_kbnode( KBNODE root, KBNODE node ); void insert_kbnode( KBNODE root, KBNODE node, int pkttype ); void move_kbnode( KBNODE *root, KBNODE node, KBNODE where ); void remove_kbnode( KBNODE *root, KBNODE node ); KBNODE find_prev_kbnode( KBNODE root, KBNODE node, int pkttype ); KBNODE find_next_kbnode( KBNODE node, int pkttype ); KBNODE find_kbnode( KBNODE node, int pkttype ); KBNODE walk_kbnode( KBNODE root, KBNODE *context, int all ); void clear_kbnode_flags( KBNODE n ); int commit_kbnode( KBNODE *root ); void dump_kbnode( KBNODE node ); #endif /*G10_KEYDB_H*/