/* gpgme.h - Public interface to GnuPG Made Easy. -*- c -*- * Copyright (C) 2000 Werner Koch (dd9jn) * Copyright (C) 2001-2018 g10 Code GmbH * * This file is part of GPGME. * * GPGME is free software; you can redistribute it and/or modify it * under the terms of the GNU Lesser General Public License as * published by the Free Software Foundation; either version 2.1 of * the License, or (at your option) any later version. * * GPGME 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this program; if not, see . * SPDX-License-Identifier: LGPL-2.1-or-later * * Generated from gpgme.h.in for x86_64-pc-linux-gnu. */ #ifndef GPGME_H #define GPGME_H /* Include stdio.h for the FILE type definition. */ #include #include #include #ifdef __cplusplus extern "C" { #if 0 /*(Make Emacsen's auto-indent happy.)*/ } #endif #endif /* __cplusplus */ /* The version of this header should match the one of the library. Do * not use this symbol in your application, use gpgme_check_version * instead. The purpose of this macro is to let autoconf (using the * AM_PATH_GPGME macro) check that this header matches the installed * library. */ #define GPGME_VERSION "1.17.1" /* The version number of this header. It may be used to handle minor * API incompatibilities. */ #define GPGME_VERSION_NUMBER 0x011101 /* System specific typedefs. */ #include typedef off_t gpgme_off_t; typedef ssize_t gpgme_ssize_t; /* * Check for compiler features. */ #ifdef GPGRT_INLINE # define _GPGME_INLINE GPGRT_INLINE #elif defined(__GNUC__) # define _GPGME_INLINE __inline__ #elif defined(__STDC_VERSION__) && __STDC_VERSION__ >= 199901L # define _GPGME_INLINE inline #else # define _GPGME_INLINE #endif /* The deprecated macro takes the version number of GPGME which * introduced the deprecation as parameter for documentation. */ #ifdef GPGRT_ATTR_DEPRECATED # define _GPGME_DEPRECATED(a,b) GPGRT_ATTR_DEPRECATED #elif defined(__GNUC__) # define _GPGME_GCC_VERSION (__GNUC__ * 10000 \ + __GNUC_MINOR__ * 100 \ + __GNUC_PATCHLEVEL__) # if _GPGME_GCC_VERSION > 30100 # define _GPGME_DEPRECATED(a,b) __attribute__ ((__deprecated__)) # else # define _GPGME_DEPRECATED(a,b) # endif #else # define _GPGME_DEPRECATED(a,b) #endif /* The macro _GPGME_DEPRECATED_OUTSIDE_GPGME suppresses warnings for * fields we must access in GPGME for ABI compatibility. */ #ifdef _GPGME_IN_GPGME #define _GPGME_DEPRECATED_OUTSIDE_GPGME(a,b) #else #define _GPGME_DEPRECATED_OUTSIDE_GPGME(a,b) _GPGME_DEPRECATED(a,b) #endif /* We used to use some symbols which clash with keywords in some * languages. This macro is used to obsolete them. */ #if defined(__cplusplus) || defined(SWIGPYTHON) # define _GPGME_OBSOLETE_SOME_SYMBOLS 1 #endif /* Check for a matching _FILE_OFFSET_BITS definition. */ #if 0 #ifndef _FILE_OFFSET_BITS #error GPGME was compiled with _FILE_OFFSET_BITS = 0, please see the section "Largefile support (LFS)" in the GPGME manual. #else #if (_FILE_OFFSET_BITS) != (0) #error GPGME was compiled with a different value for _FILE_OFFSET_BITS, namely 0, please see the section "Largefile support (LFS)" in the GPGME manual. #endif #endif #endif /* * Some opaque data types used by GPGME. */ /* The context holds some global state and configuration options, as * well as the results of a crypto operation. */ struct gpgme_context; typedef struct gpgme_context *gpgme_ctx_t; /* The data object is used by GPGME to exchange arbitrary data. */ struct gpgme_data; typedef struct gpgme_data *gpgme_data_t; /* * Wrappers for the libgpg-error library. They are generally not * needed and the gpg-error versions may be used instead. */ typedef gpg_error_t gpgme_error_t; typedef gpg_err_code_t gpgme_err_code_t; typedef gpg_err_source_t gpgme_err_source_t; static _GPGME_INLINE gpgme_error_t gpgme_err_make (gpgme_err_source_t source, gpgme_err_code_t code) { return gpg_err_make (source, code); } /* The user can define GPGME_ERR_SOURCE_DEFAULT before including this * file to specify a default source for gpgme_error. */ #ifndef GPGME_ERR_SOURCE_DEFAULT #define GPGME_ERR_SOURCE_DEFAULT GPG_ERR_SOURCE_USER_1 #endif static _GPGME_INLINE gpgme_error_t gpgme_error (gpgme_err_code_t code) { return gpgme_err_make (GPGME_ERR_SOURCE_DEFAULT, code); } static _GPGME_INLINE gpgme_err_code_t gpgme_err_code (gpgme_error_t err) { return gpg_err_code (err); } static _GPGME_INLINE gpgme_err_source_t gpgme_err_source (gpgme_error_t err) { return gpg_err_source (err); } /* Return a pointer to a string containing a description of the error * code in the error value ERR. This function is not thread safe. */ const char *gpgme_strerror (gpgme_error_t err); /* Return the error string for ERR in the user-supplied buffer BUF of * size BUFLEN. This function is, in contrast to gpg_strerror, * thread-safe if a thread-safe strerror_r() function is provided by * the system. If the function succeeds, 0 is returned and BUF * contains the string describing the error. If the buffer was not * large enough, ERANGE is returned and BUF contains as much of the * beginning of the error string as fits into the buffer. */ int gpgme_strerror_r (gpg_error_t err, char *buf, size_t buflen); /* Return a pointer to a string containing a description of the error * source in the error value ERR. */ const char *gpgme_strsource (gpgme_error_t err); /* Retrieve the error code for the system error ERR. This returns * GPG_ERR_UNKNOWN_ERRNO if the system error is not mapped (report * this). */ gpgme_err_code_t gpgme_err_code_from_errno (int err); /* Retrieve the system error for the error code CODE. This returns 0 * if CODE is not a system error code. */ int gpgme_err_code_to_errno (gpgme_err_code_t code); /* Retrieve the error code directly from the ERRNO variable. This * returns GPG_ERR_UNKNOWN_ERRNO if the system error is not mapped * (report this) and GPG_ERR_MISSING_ERRNO if ERRNO has the value 0. */ gpgme_err_code_t gpgme_err_code_from_syserror (void); /* Set the ERRNO variable. This function is the preferred way to set * ERRNO due to peculiarities on WindowsCE. */ void gpgme_err_set_errno (int err); /* Return an error value with the error source SOURCE and the system * error ERR. FIXME: Should be inline. */ gpgme_error_t gpgme_err_make_from_errno (gpgme_err_source_t source, int err); /* Return an error value with the system error ERR. * inline. */ gpgme_error_t gpgme_error_from_errno (int err); static _GPGME_INLINE gpgme_error_t gpgme_error_from_syserror (void) { return gpgme_error (gpgme_err_code_from_syserror ()); } /* * Various constants and types */ /* The possible encoding mode of gpgme_data_t objects. */ typedef enum { GPGME_DATA_ENCODING_NONE = 0, /* Not specified. */ GPGME_DATA_ENCODING_BINARY = 1, GPGME_DATA_ENCODING_BASE64 = 2, GPGME_DATA_ENCODING_ARMOR = 3, /* Either PEM or OpenPGP Armor. */ GPGME_DATA_ENCODING_URL = 4, /* LF delimited URL list. */ GPGME_DATA_ENCODING_URLESC = 5, /* Ditto, but percent escaped. */ GPGME_DATA_ENCODING_URL0 = 6, /* Nul delimited URL list. */ GPGME_DATA_ENCODING_MIME = 7 /* Data is a MIME part. */ } gpgme_data_encoding_t; /* Known data types. */ typedef enum { GPGME_DATA_TYPE_INVALID = 0, /* Not detected. */ GPGME_DATA_TYPE_UNKNOWN = 1, GPGME_DATA_TYPE_PGP_SIGNED = 0x10, GPGME_DATA_TYPE_PGP_ENCRYPTED= 0x11, GPGME_DATA_TYPE_PGP_OTHER = 0x12, GPGME_DATA_TYPE_PGP_KEY = 0x13, GPGME_DATA_TYPE_PGP_SIGNATURE= 0x18, /* Detached signature */ GPGME_DATA_TYPE_CMS_SIGNED = 0x20, GPGME_DATA_TYPE_CMS_ENCRYPTED= 0x21, GPGME_DATA_TYPE_CMS_OTHER = 0x22, GPGME_DATA_TYPE_X509_CERT = 0x23, GPGME_DATA_TYPE_PKCS12 = 0x24, } gpgme_data_type_t; /* Public key algorithms. */ typedef enum { GPGME_PK_RSA = 1, GPGME_PK_RSA_E = 2, GPGME_PK_RSA_S = 3, GPGME_PK_ELG_E = 16, GPGME_PK_DSA = 17, GPGME_PK_ECC = 18, GPGME_PK_ELG = 20, GPGME_PK_ECDSA = 301, GPGME_PK_ECDH = 302, GPGME_PK_EDDSA = 303 } gpgme_pubkey_algo_t; /* Hash algorithms (the values match those from libgcrypt). */ typedef enum { GPGME_MD_NONE = 0, GPGME_MD_MD5 = 1, GPGME_MD_SHA1 = 2, GPGME_MD_RMD160 = 3, GPGME_MD_MD2 = 5, GPGME_MD_TIGER = 6, /* TIGER/192. */ GPGME_MD_HAVAL = 7, /* HAVAL, 5 pass, 160 bit. */ GPGME_MD_SHA256 = 8, GPGME_MD_SHA384 = 9, GPGME_MD_SHA512 = 10, GPGME_MD_SHA224 = 11, GPGME_MD_MD4 = 301, GPGME_MD_CRC32 = 302, GPGME_MD_CRC32_RFC1510 = 303, GPGME_MD_CRC24_RFC2440 = 304 } gpgme_hash_algo_t; /* The available signature modes. */ typedef enum { GPGME_SIG_MODE_NORMAL = 0, GPGME_SIG_MODE_DETACH = 1, GPGME_SIG_MODE_CLEAR = 2 } gpgme_sig_mode_t; /* The available validities for a key. */ typedef enum { GPGME_VALIDITY_UNKNOWN = 0, GPGME_VALIDITY_UNDEFINED = 1, GPGME_VALIDITY_NEVER = 2, GPGME_VALIDITY_MARGINAL = 3, GPGME_VALIDITY_FULL = 4, GPGME_VALIDITY_ULTIMATE = 5 } gpgme_validity_t; /* The TOFU policies. */ typedef enum { GPGME_TOFU_POLICY_NONE = 0, GPGME_TOFU_POLICY_AUTO = 1, GPGME_TOFU_POLICY_GOOD = 2, GPGME_TOFU_POLICY_UNKNOWN = 3, GPGME_TOFU_POLICY_BAD = 4, GPGME_TOFU_POLICY_ASK = 5 } gpgme_tofu_policy_t; /* The key origin values. */ typedef enum { GPGME_KEYORG_UNKNOWN = 0, GPGME_KEYORG_KS = 1, GPGME_KEYORG_DANE = 3, GPGME_KEYORG_WKD = 4, GPGME_KEYORG_URL = 5, GPGME_KEYORG_FILE = 6, GPGME_KEYORG_SELF = 7, GPGME_KEYORG_OTHER = 31 } gpgme_keyorg_t; /* The available protocols. */ typedef enum { GPGME_PROTOCOL_OpenPGP = 0, /* The default mode. */ GPGME_PROTOCOL_CMS = 1, GPGME_PROTOCOL_GPGCONF = 2, /* Special code for gpgconf. */ GPGME_PROTOCOL_ASSUAN = 3, /* Low-level access to an Assuan server. */ GPGME_PROTOCOL_G13 = 4, GPGME_PROTOCOL_UISERVER= 5, GPGME_PROTOCOL_SPAWN = 6, /* Direct access to any program. */ GPGME_PROTOCOL_DEFAULT = 254, GPGME_PROTOCOL_UNKNOWN = 255 } gpgme_protocol_t; /* Convenience macro for the surprisingly mixed spelling. */ #define GPGME_PROTOCOL_OPENPGP GPGME_PROTOCOL_OpenPGP /* The available keylist mode flags. */ #define GPGME_KEYLIST_MODE_LOCAL 1 #define GPGME_KEYLIST_MODE_EXTERN 2 #define GPGME_KEYLIST_MODE_SIGS 4 #define GPGME_KEYLIST_MODE_SIG_NOTATIONS 8 #define GPGME_KEYLIST_MODE_WITH_SECRET 16 #define GPGME_KEYLIST_MODE_WITH_TOFU 32 #define GPGME_KEYLIST_MODE_WITH_KEYGRIP 64 #define GPGME_KEYLIST_MODE_EPHEMERAL 128 #define GPGME_KEYLIST_MODE_VALIDATE 256 #define GPGME_KEYLIST_MODE_LOCATE (1|2) typedef unsigned int gpgme_keylist_mode_t; /* The pinentry modes. */ typedef enum { GPGME_PINENTRY_MODE_DEFAULT = 0, GPGME_PINENTRY_MODE_ASK = 1, GPGME_PINENTRY_MODE_CANCEL = 2, GPGME_PINENTRY_MODE_ERROR = 3, GPGME_PINENTRY_MODE_LOOPBACK = 4 } gpgme_pinentry_mode_t; /* The available export mode flags. */ #define GPGME_EXPORT_MODE_EXTERN 2 #define GPGME_EXPORT_MODE_MINIMAL 4 #define GPGME_EXPORT_MODE_SECRET 16 #define GPGME_EXPORT_MODE_RAW 32 #define GPGME_EXPORT_MODE_PKCS12 64 #define GPGME_EXPORT_MODE_SSH 256 #define GPGME_EXPORT_MODE_SECRET_SUBKEY 512 typedef unsigned int gpgme_export_mode_t; /* Flags for the audit log functions. */ #define GPGME_AUDITLOG_DEFAULT 0 #define GPGME_AUDITLOG_HTML 1 #define GPGME_AUDITLOG_DIAG 2 #define GPGME_AUDITLOG_WITH_HELP 128 /* The available signature notation flags. */ #define GPGME_SIG_NOTATION_HUMAN_READABLE 1 #define GPGME_SIG_NOTATION_CRITICAL 2 typedef unsigned int gpgme_sig_notation_flags_t; /* An object to hold information about notation data. This structure * shall be considered read-only and an application must not allocate * such a structure on its own. */ struct _gpgme_sig_notation { struct _gpgme_sig_notation *next; /* If NAME is a null pointer, then VALUE contains a policy URL * rather than a notation. */ char *name; /* The value of the notation data. */ char *value; /* The length of the name of the notation data. */ int name_len; /* The length of the value of the notation data. */ int value_len; /* The accumulated flags. */ gpgme_sig_notation_flags_t flags; /* Notation data is human-readable. */ unsigned int human_readable : 1; /* Notation data is critical. */ unsigned int critical : 1; /* Internal to GPGME, do not use. */ int _unused : 30; }; typedef struct _gpgme_sig_notation *gpgme_sig_notation_t; /* * Public structures. */ /* The engine information structure. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_engine_info { struct _gpgme_engine_info *next; /* The protocol ID. */ gpgme_protocol_t protocol; /* The file name of the engine binary. */ char *file_name; /* The version string of the installed engine. */ char *version; /* The minimum version required for GPGME. */ const char *req_version; /* The home directory used, or NULL if default. */ char *home_dir; }; typedef struct _gpgme_engine_info *gpgme_engine_info_t; /* An object with TOFU information. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_tofu_info { struct _gpgme_tofu_info *next; /* The TOFU validity: * 0 := conflict * 1 := key without history * 2 := key with too little history * 3 := key with enough history for basic trust * 4 := key with a lot of history */ unsigned int validity : 3; /* The TOFU policy (gpgme_tofu_policy_t). */ unsigned int policy : 4; unsigned int _rfu : 25; /* Number of signatures seen for this binding. Capped at USHRT_MAX. */ unsigned short signcount; /* Number of encryptions done with this binding. Capped at USHRT_MAX. */ unsigned short encrcount; /* Number of seconds since Epoch when the first and the most * recently seen message were verified/decrypted. 0 means unknown. */ unsigned long signfirst; unsigned long signlast; unsigned long encrfirst; unsigned long encrlast; /* If non-NULL a human readable string summarizing the TOFU data. */ char *description; }; typedef struct _gpgme_tofu_info *gpgme_tofu_info_t; /* A subkey from a key. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_subkey { struct _gpgme_subkey *next; /* True if subkey is revoked. */ unsigned int revoked : 1; /* True if subkey is expired. */ unsigned int expired : 1; /* True if subkey is disabled. */ unsigned int disabled : 1; /* True if subkey is invalid. */ unsigned int invalid : 1; /* True if subkey can be used for encryption. */ unsigned int can_encrypt : 1; /* True if subkey can be used for signing. */ unsigned int can_sign : 1; /* True if subkey can be used for certification. */ unsigned int can_certify : 1; /* True if subkey is secret. */ unsigned int secret : 1; /* True if subkey can be used for authentication. */ unsigned int can_authenticate : 1; /* True if subkey is qualified for signatures according to German law. */ unsigned int is_qualified : 1; /* True if the secret key is stored on a smart card. */ unsigned int is_cardkey : 1; /* True if the key is compliant to the de-vs mode. */ unsigned int is_de_vs : 1; /* Internal to GPGME, do not use. */ unsigned int _unused : 20; /* Public key algorithm supported by this subkey. */ gpgme_pubkey_algo_t pubkey_algo; /* Length of the subkey. */ unsigned int length; /* The key ID of the subkey. */ char *keyid; /* Internal to GPGME, do not use. */ char _keyid[16 + 1]; /* The fingerprint of the subkey in hex digit form. */ char *fpr; /* The creation timestamp, -1 if invalid, 0 if not available. */ long int timestamp; /* The expiration timestamp, 0 if the subkey does not expire. */ long int expires; /* The serial number of a smart card holding this key or NULL. */ char *card_number; /* The name of the curve for ECC algorithms or NULL. */ char *curve; /* The keygrip of the subkey in hex digit form or NULL if not available. */ char *keygrip; }; typedef struct _gpgme_subkey *gpgme_subkey_t; /* A signature on a user ID. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_key_sig { struct _gpgme_key_sig *next; /* True if the signature is a revocation signature. */ unsigned int revoked : 1; /* True if the signature is expired. */ unsigned int expired : 1; /* True if the signature is invalid. */ unsigned int invalid : 1; /* True if the signature should be exported. */ unsigned int exportable : 1; /* Internal to GPGME, do not use. */ unsigned int _unused : 12; /* The depth of a trust signature, 0 if no trust signature. */ unsigned int trust_depth : 8; /* The trust value of a trust signature, 0 if no trust signature. */ unsigned int trust_value : 8; /* The public key algorithm used to create the signature. */ gpgme_pubkey_algo_t pubkey_algo; /* The key ID of key used to create the signature. */ char *keyid; /* Internal to GPGME, do not use. */ char _keyid[16 + 1]; /* The creation timestamp, -1 if invalid, 0 if not available. */ long int timestamp; /* The expiration timestamp, 0 if the subkey does not expire. */ long int expires; /* Same as in gpgme_signature_t. */ gpgme_error_t status; /* Deprecated; use SIG_CLASS instead. */ #ifdef _GPGME_OBSOLETE_SOME_SYMBOLS unsigned int _obsolete_class _GPGME_DEPRECATED(0,4); #else unsigned int class _GPGME_DEPRECATED_OUTSIDE_GPGME(0,4); #endif /* The user ID string. */ char *uid; /* The name part of the user ID. */ char *name; /* The email part of the user ID. */ char *email; /* The comment part of the user ID. */ char *comment; /* Crypto backend specific signature class. */ unsigned int sig_class; /* Notation data and policy URLs. */ gpgme_sig_notation_t notations; /* Internal to GPGME, do not use. */ gpgme_sig_notation_t _last_notation; /* The scope of a trust signature. Might be NULL. */ char *trust_scope; }; typedef struct _gpgme_key_sig *gpgme_key_sig_t; /* An user ID from a key. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_user_id { struct _gpgme_user_id *next; /* True if the user ID is revoked. */ unsigned int revoked : 1; /* True if the user ID is invalid. */ unsigned int invalid : 1; /* Internal to GPGME, do not use. */ unsigned int _unused : 25; /* Origin of this user ID. */ unsigned int origin : 5; /* The validity of the user ID. */ gpgme_validity_t validity; /* The user ID string. */ char *uid; /* The name part of the user ID. */ char *name; /* The email part of the user ID. */ char *email; /* The comment part of the user ID. */ char *comment; /* The signatures of the user ID. */ gpgme_key_sig_t signatures; /* Internal to GPGME, do not use. */ gpgme_key_sig_t _last_keysig; /* The mail address (addr-spec from RFC5322) of the UID string. * This is general the same as the EMAIL part of this struct but * might be slightly different. If no mail address is available * NULL is stored. */ char *address; /* The malloced TOFU information or NULL. */ gpgme_tofu_info_t tofu; /* Time of the last refresh of this user id. 0 if unknown. */ unsigned long last_update; /* The string to exactly identify a userid. Might be NULL. */ char *uidhash; }; typedef struct _gpgme_user_id *gpgme_user_id_t; /* A key from the keyring. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_key { /* Internal to GPGME, do not use. */ unsigned int _refs; /* True if key is revoked. */ unsigned int revoked : 1; /* True if key is expired. */ unsigned int expired : 1; /* True if key is disabled. */ unsigned int disabled : 1; /* True if key is invalid. */ unsigned int invalid : 1; /* True if key can be used for encryption. */ unsigned int can_encrypt : 1; /* True if key can be used for signing. */ unsigned int can_sign : 1; /* True if key can be used for certification. */ unsigned int can_certify : 1; /* True if key is secret. */ unsigned int secret : 1; /* True if key can be used for authentication. */ unsigned int can_authenticate : 1; /* True if subkey is qualified for signatures according to German law. */ unsigned int is_qualified : 1; /* Internal to GPGME, do not use. */ unsigned int _unused : 17; /* Origin of this key. */ unsigned int origin : 5; /* This is the protocol supported by this key. */ gpgme_protocol_t protocol; /* If protocol is GPGME_PROTOCOL_CMS, this string contains the issuer serial. */ char *issuer_serial; /* If protocol is GPGME_PROTOCOL_CMS, this string contains the issuer name. */ char *issuer_name; /* If protocol is GPGME_PROTOCOL_CMS, this string contains the chain ID. */ char *chain_id; /* If protocol is GPGME_PROTOCOL_OpenPGP, this field contains the owner trust. */ gpgme_validity_t owner_trust; /* The subkeys of the key. */ gpgme_subkey_t subkeys; /* The user IDs of the key. */ gpgme_user_id_t uids; /* Internal to GPGME, do not use. */ gpgme_subkey_t _last_subkey; /* Internal to GPGME, do not use. */ gpgme_user_id_t _last_uid; /* The keylist mode that was active when listing the key. */ gpgme_keylist_mode_t keylist_mode; /* This field gives the fingerprint of the primary key. Note that * this is a copy of the FPR of the first subkey. We need it here * to allow for an incomplete key object. */ char *fpr; /* Time of the last refresh of the entire key. 0 if unknown. */ unsigned long last_update; }; typedef struct _gpgme_key *gpgme_key_t; /* An invalid key object. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_invalid_key { struct _gpgme_invalid_key *next; /* The string used to request the key. Despite the name this may * not be a fingerprint. */ char *fpr; /* The error code. */ gpgme_error_t reason; }; typedef struct _gpgme_invalid_key *gpgme_invalid_key_t; /* * Types for callback functions. */ /* Request a passphrase from the user. */ typedef gpgme_error_t (*gpgme_passphrase_cb_t) (void *hook, const char *uid_hint, const char *passphrase_info, int prev_was_bad, int fd); /* Inform the user about progress made. */ typedef void (*gpgme_progress_cb_t) (void *opaque, const char *what, int type, int current, int total); /* Status messages from gpg. */ typedef gpgme_error_t (*gpgme_status_cb_t) (void *opaque, const char *keyword, const char *args); /* Interact with the user about an edit operation. */ typedef gpgme_error_t (*gpgme_interact_cb_t) (void *opaque, const char *keyword, const char *args, int fd); /* * Context management functions. */ /* Create a new context and return it in CTX. */ gpgme_error_t gpgme_new (gpgme_ctx_t *ctx); /* Release the context CTX. */ void gpgme_release (gpgme_ctx_t ctx); /* Set the flag NAME for CTX to VALUE. */ gpgme_error_t gpgme_set_ctx_flag (gpgme_ctx_t ctx, const char *name, const char *value); /* Get the value of the flag NAME from CTX. */ const char *gpgme_get_ctx_flag (gpgme_ctx_t ctx, const char *name); /* Set the protocol to be used by CTX to PROTO. */ gpgme_error_t gpgme_set_protocol (gpgme_ctx_t ctx, gpgme_protocol_t proto); /* Get the protocol used with CTX */ gpgme_protocol_t gpgme_get_protocol (gpgme_ctx_t ctx); /* Set the crypto protocol to be used by CTX to PROTO. * gpgme_set_protocol actually sets the backend engine. This sets the * crypto protocol used in engines that support more than one crypto * prococol (for example, an UISERVER can support OpenPGP and CMS). * This is reset to the default with gpgme_set_protocol. */ gpgme_error_t gpgme_set_sub_protocol (gpgme_ctx_t ctx, gpgme_protocol_t proto); /* Get the sub protocol. */ gpgme_protocol_t gpgme_get_sub_protocol (gpgme_ctx_t ctx); /* Get the string describing protocol PROTO, or NULL if invalid. */ const char *gpgme_get_protocol_name (gpgme_protocol_t proto); /* If YES is non-zero, enable armor mode in CTX, disable it otherwise. */ void gpgme_set_armor (gpgme_ctx_t ctx, int yes); /* Return non-zero if armor mode is set in CTX. */ int gpgme_get_armor (gpgme_ctx_t ctx); /* If YES is non-zero, enable text mode in CTX, disable it otherwise. */ void gpgme_set_textmode (gpgme_ctx_t ctx, int yes); /* Return non-zero if text mode is set in CTX. */ int gpgme_get_textmode (gpgme_ctx_t ctx); /* If YES is non-zero, enable offline mode in CTX, disable it otherwise. */ void gpgme_set_offline (gpgme_ctx_t ctx, int yes); /* Return non-zero if offline mode is set in CTX. */ int gpgme_get_offline (gpgme_ctx_t ctx); /* Use whatever the default of the backend crypto engine is. */ #define GPGME_INCLUDE_CERTS_DEFAULT -256 /* Include up to NR_OF_CERTS certificates in an S/MIME message. */ void gpgme_set_include_certs (gpgme_ctx_t ctx, int nr_of_certs); /* Return the number of certs to include in an S/MIME message. */ int gpgme_get_include_certs (gpgme_ctx_t ctx); /* Set keylist mode in CTX to MODE. */ gpgme_error_t gpgme_set_keylist_mode (gpgme_ctx_t ctx, gpgme_keylist_mode_t mode); /* Get keylist mode in CTX. */ gpgme_keylist_mode_t gpgme_get_keylist_mode (gpgme_ctx_t ctx); /* Set the pinentry mode for CTX to MODE. */ gpgme_error_t gpgme_set_pinentry_mode (gpgme_ctx_t ctx, gpgme_pinentry_mode_t mode); /* Get the pinentry mode of CTX. */ gpgme_pinentry_mode_t gpgme_get_pinentry_mode (gpgme_ctx_t ctx); /* Set the passphrase callback function in CTX to CB. HOOK_VALUE is * passed as first argument to the passphrase callback function. */ void gpgme_set_passphrase_cb (gpgme_ctx_t ctx, gpgme_passphrase_cb_t cb, void *hook_value); /* Get the current passphrase callback function in *CB and the current * hook value in *HOOK_VALUE. */ void gpgme_get_passphrase_cb (gpgme_ctx_t ctx, gpgme_passphrase_cb_t *cb, void **hook_value); /* Set the progress callback function in CTX to CB. HOOK_VALUE is * passed as first argument to the progress callback function. */ void gpgme_set_progress_cb (gpgme_ctx_t c, gpgme_progress_cb_t cb, void *hook_value); /* Get the current progress callback function in *CB and the current * hook value in *HOOK_VALUE. */ void gpgme_get_progress_cb (gpgme_ctx_t ctx, gpgme_progress_cb_t *cb, void **hook_value); /* Set the status callback function in CTX to CB. HOOK_VALUE is * passed as first argument to the status callback function. */ void gpgme_set_status_cb (gpgme_ctx_t c, gpgme_status_cb_t cb, void *hook_value); /* Get the current status callback function in *CB and the current * hook value in *HOOK_VALUE. */ void gpgme_get_status_cb (gpgme_ctx_t ctx, gpgme_status_cb_t *cb, void **hook_value); /* This function sets the locale for the context CTX, or the default * locale if CTX is a null pointer. */ gpgme_error_t gpgme_set_locale (gpgme_ctx_t ctx, int category, const char *value); /* Get the information about the configured engines. A pointer to the * first engine in the statically allocated linked list is returned. * The returned data is valid until the next gpgme_ctx_set_engine_info. */ gpgme_engine_info_t gpgme_ctx_get_engine_info (gpgme_ctx_t ctx); /* Set the engine info for the context CTX, protocol PROTO, to the * file name FILE_NAME and the home directory HOME_DIR. */ gpgme_error_t gpgme_ctx_set_engine_info (gpgme_ctx_t ctx, gpgme_protocol_t proto, const char *file_name, const char *home_dir); /* Delete all signers from CTX. */ void gpgme_signers_clear (gpgme_ctx_t ctx); /* Add KEY to list of signers in CTX. */ gpgme_error_t gpgme_signers_add (gpgme_ctx_t ctx, const gpgme_key_t key); /* Return the number of signers in CTX. */ unsigned int gpgme_signers_count (const gpgme_ctx_t ctx); /* Return the SEQth signer's key in CTX. */ gpgme_key_t gpgme_signers_enum (const gpgme_ctx_t ctx, int seq); /* Clear all notation data from the context. */ void gpgme_sig_notation_clear (gpgme_ctx_t ctx); /* Add the human-readable notation data with name NAME and value VALUE * to the context CTX, using the flags FLAGS. If NAME is NULL, then * VALUE should be a policy URL. The flag * GPGME_SIG_NOTATION_HUMAN_READABLE is forced to be true for notation * data, and false for policy URLs. */ gpgme_error_t gpgme_sig_notation_add (gpgme_ctx_t ctx, const char *name, const char *value, gpgme_sig_notation_flags_t flags); /* Get the sig notations for this context. */ gpgme_sig_notation_t gpgme_sig_notation_get (gpgme_ctx_t ctx); /* Store a sender address in the context. */ gpgme_error_t gpgme_set_sender (gpgme_ctx_t ctx, const char *address); /* Get the sender address from the context. */ const char *gpgme_get_sender (gpgme_ctx_t ctx); /* * Run control. */ /* The type of an I/O callback function. */ typedef gpgme_error_t (*gpgme_io_cb_t) (void *data, int fd); /* The type of a function that can register FNC as the I/O callback * function for the file descriptor FD with direction dir (0: for writing, * 1: for reading). FNC_DATA should be passed as DATA to FNC. The * function should return a TAG suitable for the corresponding * gpgme_remove_io_cb_t, and an error value. */ typedef gpgme_error_t (*gpgme_register_io_cb_t) (void *data, int fd, int dir, gpgme_io_cb_t fnc, void *fnc_data, void **tag); /* The type of a function that can remove a previously registered I/O * callback function given TAG as returned by the register * function. */ typedef void (*gpgme_remove_io_cb_t) (void *tag); typedef enum { GPGME_EVENT_START, GPGME_EVENT_DONE, GPGME_EVENT_NEXT_KEY, GPGME_EVENT_NEXT_TRUSTITEM /* NOT USED. */ } gpgme_event_io_t; struct gpgme_io_event_done_data { /* A fatal IPC error or an operational error in state-less * protocols. */ gpgme_error_t err; /* An operational errors in session-based protocols. */ gpgme_error_t op_err; }; typedef struct gpgme_io_event_done_data *gpgme_io_event_done_data_t; /* The type of a function that is called when a context finished an * operation. */ typedef void (*gpgme_event_io_cb_t) (void *data, gpgme_event_io_t type, void *type_data); struct gpgme_io_cbs { gpgme_register_io_cb_t add; void *add_priv; gpgme_remove_io_cb_t remove; gpgme_event_io_cb_t event; void *event_priv; }; typedef struct gpgme_io_cbs *gpgme_io_cbs_t; /* Set the I/O callback functions in CTX to IO_CBS. */ void gpgme_set_io_cbs (gpgme_ctx_t ctx, gpgme_io_cbs_t io_cbs); /* Get the current I/O callback functions. */ void gpgme_get_io_cbs (gpgme_ctx_t ctx, gpgme_io_cbs_t io_cbs); /* Wrappers around the internal I/O functions for use with * gpgme_passphrase_cb_t and gpgme_interact_cb_t. */ ssize_t gpgme_io_read (int fd, void *buffer, size_t count); ssize_t gpgme_io_write (int fd, const void *buffer, size_t count); int gpgme_io_writen (int fd, const void *buffer, size_t count); /* Process the pending operation and, if HANG is non-zero, wait for * the pending operation to finish. */ gpgme_ctx_t gpgme_wait (gpgme_ctx_t ctx, gpgme_error_t *status, int hang); gpgme_ctx_t gpgme_wait_ext (gpgme_ctx_t ctx, gpgme_error_t *status, gpgme_error_t *op_err, int hang); /* Cancel a pending asynchronous operation. */ gpgme_error_t gpgme_cancel (gpgme_ctx_t ctx); /* Cancel a pending operation asynchronously. */ gpgme_error_t gpgme_cancel_async (gpgme_ctx_t ctx); /* * Functions to handle data objects. */ /* Read up to SIZE bytes into buffer BUFFER from the data object with * the handle HANDLE. Return the number of characters read, 0 on EOF * and -1 on error. If an error occurs, errno is set. */ typedef ssize_t (*gpgme_data_read_cb_t) (void *handle, void *buffer, size_t size); /* Write up to SIZE bytes from buffer BUFFER to the data object with * the handle HANDLE. Return the number of characters written, or -1 * on error. If an error occurs, errno is set. */ typedef ssize_t (*gpgme_data_write_cb_t) (void *handle, const void *buffer, size_t size); /* Set the current position from where the next read or write starts * in the data object with the handle HANDLE to OFFSET, relativ to * WHENCE. Returns the new offset in bytes from the beginning of the * data object. */ typedef off_t (*gpgme_data_seek_cb_t) (void *handle, off_t offset, int whence); /* Close the data object with the handle HANDLE. */ typedef void (*gpgme_data_release_cb_t) (void *handle); struct gpgme_data_cbs { gpgme_data_read_cb_t read; gpgme_data_write_cb_t write; gpgme_data_seek_cb_t seek; gpgme_data_release_cb_t release; }; typedef struct gpgme_data_cbs *gpgme_data_cbs_t; /* Read up to SIZE bytes into buffer BUFFER from the data object with * the handle DH. Return the number of characters read, 0 on EOF and * -1 on error. If an error occurs, errno is set. */ ssize_t gpgme_data_read (gpgme_data_t dh, void *buffer, size_t size); /* Write up to SIZE bytes from buffer BUFFER to the data object with * the handle DH. Return the number of characters written, or -1 on * error. If an error occurs, errno is set. */ ssize_t gpgme_data_write (gpgme_data_t dh, const void *buffer, size_t size); /* Set the current position from where the next read or write starts * in the data object with the handle DH to OFFSET, relativ to WHENCE. * Returns the new offset in bytes from the beginning of the data * object. */ off_t gpgme_data_seek (gpgme_data_t dh, off_t offset, int whence); /* Create a new data buffer and return it in R_DH. */ gpgme_error_t gpgme_data_new (gpgme_data_t *r_dh); /* Destroy the data buffer DH. */ void gpgme_data_release (gpgme_data_t dh); /* Create a new data buffer filled with SIZE bytes starting from * BUFFER. If COPY is zero, copying is delayed until necessary, and * the data is taken from the original location when needed. */ gpgme_error_t gpgme_data_new_from_mem (gpgme_data_t *r_dh, const char *buffer, size_t size, int copy); /* Destroy the data buffer DH and return a pointer to its content. * The memory has be to released with gpgme_free() by the user. It's * size is returned in R_LEN. */ char *gpgme_data_release_and_get_mem (gpgme_data_t dh, size_t *r_len); /* Release the memory returned by gpgme_data_release_and_get_mem() and * some other functions. */ void gpgme_free (void *buffer); gpgme_error_t gpgme_data_new_from_cbs (gpgme_data_t *dh, gpgme_data_cbs_t cbs, void *handle); gpgme_error_t gpgme_data_new_from_fd (gpgme_data_t *dh, int fd); gpgme_error_t gpgme_data_new_from_stream (gpgme_data_t *dh, FILE *stream); gpgme_error_t gpgme_data_new_from_estream (gpgme_data_t *r_dh, gpgrt_stream_t stream); /* Return the encoding attribute of the data buffer DH */ gpgme_data_encoding_t gpgme_data_get_encoding (gpgme_data_t dh); /* Set the encoding attribute of data buffer DH to ENC */ gpgme_error_t gpgme_data_set_encoding (gpgme_data_t dh, gpgme_data_encoding_t enc); /* Get the file name associated with the data object with handle DH, or * NULL if there is none. */ char *gpgme_data_get_file_name (gpgme_data_t dh); /* Set the file name associated with the data object with handle DH to * FILE_NAME. */ gpgme_error_t gpgme_data_set_file_name (gpgme_data_t dh, const char *file_name); /* Set a flag for the data object DH. See the manual for details. */ gpg_error_t gpgme_data_set_flag (gpgme_data_t dh, const char *name, const char *value); /* Try to identify the type of the data in DH. */ gpgme_data_type_t gpgme_data_identify (gpgme_data_t dh, int reserved); /* Create a new data buffer filled with the content of file FNAME. * COPY must be non-zero. For delayed read, please use * gpgme_data_new_from_fd or gpgme_data_new_from_stream instead. */ gpgme_error_t gpgme_data_new_from_file (gpgme_data_t *r_dh, const char *fname, int copy); /* Create a new data buffer filled with LENGTH bytes starting from * OFFSET within the file FNAME or stream FP (exactly one must be * non-zero). */ gpgme_error_t gpgme_data_new_from_filepart (gpgme_data_t *r_dh, const char *fname, FILE *fp, off_t offset, size_t length); /* Convenience function to do a gpgme_data_seek (dh, 0, SEEK_SET). */ gpgme_error_t gpgme_data_rewind (gpgme_data_t dh); /* * Key and trust functions. */ /* Get the key with the fingerprint FPR from the crypto backend. If * SECRET is true, get the secret key. */ gpgme_error_t gpgme_get_key (gpgme_ctx_t ctx, const char *fpr, gpgme_key_t *r_key, int secret); /* Create a dummy key to specify an email address. */ gpgme_error_t gpgme_key_from_uid (gpgme_key_t *key, const char *name); /* Acquire a reference to KEY. */ void gpgme_key_ref (gpgme_key_t key); /* Release a reference to KEY. If this was the last one the key is * destroyed. */ void gpgme_key_unref (gpgme_key_t key); void gpgme_key_release (gpgme_key_t key); /* * Encryption. */ /* An object to return results from an encryption operation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_encrypt_result { /* The list of invalid recipients. */ gpgme_invalid_key_t invalid_recipients; }; typedef struct _gpgme_op_encrypt_result *gpgme_encrypt_result_t; /* Retrieve a pointer to the result of the encrypt operation. */ gpgme_encrypt_result_t gpgme_op_encrypt_result (gpgme_ctx_t ctx); /* The valid encryption flags. */ typedef enum { GPGME_ENCRYPT_ALWAYS_TRUST = 1, GPGME_ENCRYPT_NO_ENCRYPT_TO = 2, GPGME_ENCRYPT_PREPARE = 4, GPGME_ENCRYPT_EXPECT_SIGN = 8, GPGME_ENCRYPT_NO_COMPRESS = 16, GPGME_ENCRYPT_SYMMETRIC = 32, GPGME_ENCRYPT_THROW_KEYIDS = 64, GPGME_ENCRYPT_WRAP = 128, GPGME_ENCRYPT_WANT_ADDRESS = 256 } gpgme_encrypt_flags_t; /* Encrypt plaintext PLAIN within CTX for the recipients RECP and * store the resulting ciphertext in CIPHER. */ gpgme_error_t gpgme_op_encrypt_start (gpgme_ctx_t ctx, gpgme_key_t recp[], gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); gpgme_error_t gpgme_op_encrypt (gpgme_ctx_t ctx, gpgme_key_t recp[], gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); gpgme_error_t gpgme_op_encrypt_ext_start (gpgme_ctx_t ctx, gpgme_key_t recp[], const char *recpstring, gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); gpgme_error_t gpgme_op_encrypt_ext (gpgme_ctx_t ctx, gpgme_key_t recp[], const char *recpstring, gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); /* Encrypt plaintext PLAIN within CTX for the recipients RECP and * store the resulting ciphertext in CIPHER. Also sign the ciphertext * with the signers in CTX. */ gpgme_error_t gpgme_op_encrypt_sign_start (gpgme_ctx_t ctx, gpgme_key_t recp[], gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); gpgme_error_t gpgme_op_encrypt_sign (gpgme_ctx_t ctx, gpgme_key_t recp[], gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); gpgme_error_t gpgme_op_encrypt_sign_ext_start (gpgme_ctx_t ctx, gpgme_key_t recp[], const char *recpstring, gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); gpgme_error_t gpgme_op_encrypt_sign_ext (gpgme_ctx_t ctx, gpgme_key_t recp[], const char *recpstring, gpgme_encrypt_flags_t flags, gpgme_data_t plain, gpgme_data_t cipher); /* * Decryption. */ /* An object to hold information about a recipient. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_recipient { struct _gpgme_recipient *next; /* The key ID of key for which the text was encrypted. */ char *keyid; /* Internal to GPGME, do not use. */ char _keyid[16 + 1]; /* The public key algorithm of the recipient key. */ gpgme_pubkey_algo_t pubkey_algo; /* The status of the recipient. */ gpgme_error_t status; }; typedef struct _gpgme_recipient *gpgme_recipient_t; /* An object to return results from a decryption operation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_decrypt_result { char *unsupported_algorithm; /* Key should not have been used for encryption. */ unsigned int wrong_key_usage : 1; /* True if the message was encrypted in compliance to the de-vs * mode. */ unsigned int is_de_vs : 1; /* The message claims that the content is a MIME object. */ unsigned int is_mime : 1; /* The message was made by a legacy algorithm without any integrity * protection. This might be an old but legitimate message. */ unsigned int legacy_cipher_nomdc : 1; /* Internal to GPGME, do not use. */ int _unused : 28; gpgme_recipient_t recipients; /* The original file name of the plaintext message, if * available. */ char *file_name; /* A textual representation of the session key used to decrypt the * message, if available */ char *session_key; /* A string with the symmetric encryption algorithm and mode using * the format ".". */ char *symkey_algo; }; typedef struct _gpgme_op_decrypt_result *gpgme_decrypt_result_t; /* Retrieve a pointer to the result of the decrypt operation. */ gpgme_decrypt_result_t gpgme_op_decrypt_result (gpgme_ctx_t ctx); /* The valid decryption flags. */ typedef enum { GPGME_DECRYPT_VERIFY = 1, GPGME_DECRYPT_UNWRAP = 128 } gpgme_decrypt_flags_t; /* Decrypt ciphertext CIPHER within CTX and store the resulting * plaintext in PLAIN. */ gpgme_error_t gpgme_op_decrypt_start (gpgme_ctx_t ctx, gpgme_data_t cipher, gpgme_data_t plain); gpgme_error_t gpgme_op_decrypt (gpgme_ctx_t ctx, gpgme_data_t cipher, gpgme_data_t plain); /* Decrypt ciphertext CIPHER and make a signature verification within * CTX and store the resulting plaintext in PLAIN. */ gpgme_error_t gpgme_op_decrypt_verify_start (gpgme_ctx_t ctx, gpgme_data_t cipher, gpgme_data_t plain); gpgme_error_t gpgme_op_decrypt_verify (gpgme_ctx_t ctx, gpgme_data_t cipher, gpgme_data_t plain); /* Decrypt ciphertext CIPHER within CTX and store the resulting * plaintext in PLAIN. With the flag GPGME_DECRYPT_VERIFY also do a * signature verification pn the plaintext. */ gpgme_error_t gpgme_op_decrypt_ext_start (gpgme_ctx_t ctx, gpgme_decrypt_flags_t flags, gpgme_data_t cipher, gpgme_data_t plain); gpgme_error_t gpgme_op_decrypt_ext (gpgme_ctx_t ctx, gpgme_decrypt_flags_t flags, gpgme_data_t cipher, gpgme_data_t plain); /* * Signing. */ /* An object with signatures data. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_new_signature { struct _gpgme_new_signature *next; /* The type of the signature. */ gpgme_sig_mode_t type; /* The public key algorithm used to create the signature. */ gpgme_pubkey_algo_t pubkey_algo; /* The hash algorithm used to create the signature. */ gpgme_hash_algo_t hash_algo; /* Internal to GPGME, do not use. Must be set to the same value as * CLASS below. */ unsigned long _obsolete_class; /* Signature creation time. */ long int timestamp; /* The fingerprint of the signature. */ char *fpr; /* Deprecated; use SIG_CLASS instead. */ #ifdef _GPGME_OBSOLETE_SOME_SYMBOLS unsigned int _obsolete_class_2; #else unsigned int class _GPGME_DEPRECATED_OUTSIDE_GPGME(0,4); #endif /* Crypto backend specific signature class. */ unsigned int sig_class; }; typedef struct _gpgme_new_signature *gpgme_new_signature_t; /* An object to return results from a signing operation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_sign_result { /* The list of invalid signers. */ gpgme_invalid_key_t invalid_signers; gpgme_new_signature_t signatures; }; typedef struct _gpgme_op_sign_result *gpgme_sign_result_t; /* Retrieve a pointer to the result of the signing operation. */ gpgme_sign_result_t gpgme_op_sign_result (gpgme_ctx_t ctx); /* Sign the plaintext PLAIN and store the signature in SIG. */ gpgme_error_t gpgme_op_sign_start (gpgme_ctx_t ctx, gpgme_data_t plain, gpgme_data_t sig, gpgme_sig_mode_t mode); gpgme_error_t gpgme_op_sign (gpgme_ctx_t ctx, gpgme_data_t plain, gpgme_data_t sig, gpgme_sig_mode_t mode); /* * Verify. */ /* Flags used for the SUMMARY field in a gpgme_signature_t. */ typedef enum { GPGME_SIGSUM_VALID = 0x0001, /* The signature is fully valid. */ GPGME_SIGSUM_GREEN = 0x0002, /* The signature is good. */ GPGME_SIGSUM_RED = 0x0004, /* The signature is bad. */ GPGME_SIGSUM_KEY_REVOKED = 0x0010, /* One key has been revoked. */ GPGME_SIGSUM_KEY_EXPIRED = 0x0020, /* One key has expired. */ GPGME_SIGSUM_SIG_EXPIRED = 0x0040, /* The signature has expired. */ GPGME_SIGSUM_KEY_MISSING = 0x0080, /* Can't verify: key missing. */ GPGME_SIGSUM_CRL_MISSING = 0x0100, /* CRL not available. */ GPGME_SIGSUM_CRL_TOO_OLD = 0x0200, /* Available CRL is too old. */ GPGME_SIGSUM_BAD_POLICY = 0x0400, /* A policy was not met. */ GPGME_SIGSUM_SYS_ERROR = 0x0800, /* A system error occurred. */ GPGME_SIGSUM_TOFU_CONFLICT=0x1000 /* Tofu conflict detected. */ } gpgme_sigsum_t; /* An object to hold the verification status of a signature. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_signature { struct _gpgme_signature *next; /* A summary of the signature status. */ gpgme_sigsum_t summary; /* The fingerprint of the signature. This can be a subkey. */ char *fpr; /* The status of the signature. */ gpgme_error_t status; /* Notation data and policy URLs. */ gpgme_sig_notation_t notations; /* Signature creation time. */ unsigned long timestamp; /* Signature expiration time or 0. */ unsigned long exp_timestamp; /* Key should not have been used for signing. */ unsigned int wrong_key_usage : 1; /* PKA status: 0 = not available, 1 = bad, 2 = okay, 3 = RFU. */ unsigned int pka_trust : 2; /* Validity has been verified using the chain model. */ unsigned int chain_model : 1; /* True if the signature is in compliance to the de-vs mode. */ unsigned int is_de_vs : 1; /* Internal to GPGME, do not use. */ int _unused : 27; gpgme_validity_t validity; gpgme_error_t validity_reason; /* The public key algorithm used to create the signature. */ gpgme_pubkey_algo_t pubkey_algo; /* The hash algorithm used to create the signature. */ gpgme_hash_algo_t hash_algo; /* The mailbox from the PKA information or NULL. */ char *pka_address; /* If non-NULL, a possible incomplete key object with the data * available for the signature. */ gpgme_key_t key; }; typedef struct _gpgme_signature *gpgme_signature_t; /* An object to return the results of a verify operation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_verify_result { gpgme_signature_t signatures; /* The original file name of the plaintext message, if available. * Warning: This information is not covered by the signature. */ char *file_name; /* The message claims that the content is a MIME object. */ /* Warning: This flag is not covered by the signature. */ unsigned int is_mime : 1; /* Internal to GPGME; do not use. */ unsigned int _unused : 31; }; typedef struct _gpgme_op_verify_result *gpgme_verify_result_t; /* Retrieve a pointer to the result of the verify operation. */ gpgme_verify_result_t gpgme_op_verify_result (gpgme_ctx_t ctx); /* Verify within CTX that SIG is a valid signature for TEXT. */ gpgme_error_t gpgme_op_verify_start (gpgme_ctx_t ctx, gpgme_data_t sig, gpgme_data_t signed_text, gpgme_data_t plaintext); gpgme_error_t gpgme_op_verify (gpgme_ctx_t ctx, gpgme_data_t sig, gpgme_data_t signed_text, gpgme_data_t plaintext); /* * Import/Export */ #define GPGME_IMPORT_NEW 1 /* The key was new. */ #define GPGME_IMPORT_UID 2 /* The key contained new user IDs. */ #define GPGME_IMPORT_SIG 4 /* The key contained new signatures. */ #define GPGME_IMPORT_SUBKEY 8 /* The key contained new sub keys. */ #define GPGME_IMPORT_SECRET 16 /* The key contained a secret key. */ /* An object to hold results for one imported key. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_import_status { struct _gpgme_import_status *next; /* Fingerprint. */ char *fpr; /* If a problem occurred, the reason why the key could not be imported. Otherwise GPGME_No_Error. */ gpgme_error_t result; /* The result of the import, the GPGME_IMPORT_* values bit-wise ORed. 0 means the key was already known and no new components have been added. */ unsigned int status; }; typedef struct _gpgme_import_status *gpgme_import_status_t; /* Import result object. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_import_result { /* Number of considered keys. */ int considered; /* Keys without user ID. */ int no_user_id; /* Imported keys. */ int imported; /* Imported RSA keys. */ int imported_rsa; /* Unchanged keys. */ int unchanged; /* Number of new user ids. */ int new_user_ids; /* Number of new sub keys. */ int new_sub_keys; /* Number of new signatures. */ int new_signatures; /* Number of new revocations. */ int new_revocations; /* Number of secret keys read. */ int secret_read; /* Number of secret keys imported. */ int secret_imported; /* Number of secret keys unchanged. */ int secret_unchanged; /* Number of new keys skipped. */ int skipped_new_keys; /* Number of keys not imported. */ int not_imported; /* List of keys for which an import was attempted. */ gpgme_import_status_t imports; /* Number of v3 keys skipped. */ int skipped_v3_keys; }; typedef struct _gpgme_op_import_result *gpgme_import_result_t; /* Retrieve a pointer to the result of the import operation. */ gpgme_import_result_t gpgme_op_import_result (gpgme_ctx_t ctx); /* Import the key in KEYDATA into the keyring. */ gpgme_error_t gpgme_op_import_start (gpgme_ctx_t ctx, gpgme_data_t keydata); gpgme_error_t gpgme_op_import (gpgme_ctx_t ctx, gpgme_data_t keydata); /* Import the keys from the array KEYS into the keyring. */ gpgme_error_t gpgme_op_import_keys_start (gpgme_ctx_t ctx, gpgme_key_t keys[]); gpgme_error_t gpgme_op_import_keys (gpgme_ctx_t ctx, gpgme_key_t keys[]); /* Import the keys given by the array KEYIDS from a keyserver into the * keyring. */ gpgme_error_t gpgme_op_receive_keys_start (gpgme_ctx_t ctx, const char *keyids[]); gpgme_error_t gpgme_op_receive_keys (gpgme_ctx_t ctx, const char *keyids[]); /* Export the keys found by PATTERN into KEYDATA. */ gpgme_error_t gpgme_op_export_start (gpgme_ctx_t ctx, const char *pattern, gpgme_export_mode_t mode, gpgme_data_t keydata); gpgme_error_t gpgme_op_export (gpgme_ctx_t ctx, const char *pattern, gpgme_export_mode_t mode, gpgme_data_t keydata); gpgme_error_t gpgme_op_export_ext_start (gpgme_ctx_t ctx, const char *pattern[], gpgme_export_mode_t mode, gpgme_data_t keydata); gpgme_error_t gpgme_op_export_ext (gpgme_ctx_t ctx, const char *pattern[], gpgme_export_mode_t mode, gpgme_data_t keydata); /* Export the keys from the array KEYS into KEYDATA. */ gpgme_error_t gpgme_op_export_keys_start (gpgme_ctx_t ctx, gpgme_key_t keys[], gpgme_export_mode_t mode, gpgme_data_t keydata); gpgme_error_t gpgme_op_export_keys (gpgme_ctx_t ctx, gpgme_key_t keys[], gpgme_export_mode_t mode, gpgme_data_t keydata); /* * Key generation. */ /* Flags for the key creation functions. */ #define GPGME_CREATE_SIGN (1 << 0) /* Allow usage: signing. */ #define GPGME_CREATE_ENCR (1 << 1) /* Allow usage: encryption. */ #define GPGME_CREATE_CERT (1 << 2) /* Allow usage: certification. */ #define GPGME_CREATE_AUTH (1 << 3) /* Allow usage: authentication. */ #define GPGME_CREATE_NOPASSWD (1 << 7) /* Create w/o passphrase. */ #define GPGME_CREATE_SELFSIGNED (1 << 8) /* Create self-signed cert. */ #define GPGME_CREATE_NOSTORE (1 << 9) /* Do not store the key. */ #define GPGME_CREATE_WANTPUB (1 << 10) /* Return the public key. */ #define GPGME_CREATE_WANTSEC (1 << 11) /* Return the secret key. */ #define GPGME_CREATE_FORCE (1 << 12) /* Force creation. */ #define GPGME_CREATE_NOEXPIRE (1 << 13) /* Create w/o expiration. */ /* An object to return result from a key generation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_genkey_result { /* A primary key was generated. */ unsigned int primary : 1; /* A sub key was generated. */ unsigned int sub : 1; /* A user id was generated. */ unsigned int uid : 1; /* Internal to GPGME, do not use. */ unsigned int _unused : 29; /* The fingerprint of the generated key. */ char *fpr; /* A memory data object with the created public key. Only set when * GPGME_CREATE_WANTPUB has been used. */ gpgme_data_t pubkey; /* A memory data object with the created secret key. Only set when * GPGME_CREATE_WANTSEC has been used. */ gpgme_data_t seckey; }; typedef struct _gpgme_op_genkey_result *gpgme_genkey_result_t; /* Generate a new keypair and add it to the keyring. PUBKEY and * SECKEY should be null for now. PARMS specifies what keys should be * generated. */ gpgme_error_t gpgme_op_genkey_start (gpgme_ctx_t ctx, const char *parms, gpgme_data_t pubkey, gpgme_data_t seckey); gpgme_error_t gpgme_op_genkey (gpgme_ctx_t ctx, const char *parms, gpgme_data_t pubkey, gpgme_data_t seckey); /* Generate a key pair using the modern interface. */ gpgme_error_t gpgme_op_createkey_start (gpgme_ctx_t ctx, const char *userid, const char *algo, unsigned long reserved, unsigned long expires, gpgme_key_t certkey, unsigned int flags); gpgme_error_t gpgme_op_createkey (gpgme_ctx_t ctx, const char *userid, const char *algo, unsigned long reserved, unsigned long expires, gpgme_key_t certkey, unsigned int flags); /* Add a new subkey to KEY. */ gpgme_error_t gpgme_op_createsubkey_start (gpgme_ctx_t ctx, gpgme_key_t key, const char *algo, unsigned long reserved, unsigned long expires, unsigned int flags); gpgme_error_t gpgme_op_createsubkey (gpgme_ctx_t ctx, gpgme_key_t key, const char *algo, unsigned long reserved, unsigned long expires, unsigned int flags); /* Add USERID to an existing KEY. */ gpgme_error_t gpgme_op_adduid_start (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, unsigned int reserved); gpgme_error_t gpgme_op_adduid (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, unsigned int reserved); /* Revoke a USERID from a KEY. */ gpgme_error_t gpgme_op_revuid_start (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, unsigned int reserved); gpgme_error_t gpgme_op_revuid (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, unsigned int reserved); /* Set a flag on the USERID of KEY. See the manual for supported flags. */ gpgme_error_t gpgme_op_set_uid_flag_start (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, const char *name, const char *value); gpgme_error_t gpgme_op_set_uid_flag (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, const char *name, const char *value); /* Change the expiry of a key. */ gpgme_error_t gpgme_op_setexpire_start (gpgme_ctx_t ctx, gpgme_key_t key, unsigned long expires, const char *subfprs, unsigned int reserved); gpgme_error_t gpgme_op_setexpire (gpgme_ctx_t ctx, gpgme_key_t key, unsigned long expires, const char *subfprs, unsigned int reserved); /* Retrieve a pointer to the result of a genkey, createkey, or * createsubkey operation. */ gpgme_genkey_result_t gpgme_op_genkey_result (gpgme_ctx_t ctx); /* Delete KEY from the keyring. If ALLOW_SECRET is non-zero, secret * keys are also deleted. */ gpgme_error_t gpgme_op_delete_start (gpgme_ctx_t ctx, const gpgme_key_t key, int allow_secret); gpgme_error_t gpgme_op_delete (gpgme_ctx_t ctx, const gpgme_key_t key, int allow_secret); /* Flags for the key delete functions. */ #define GPGME_DELETE_ALLOW_SECRET (1 << 0) /* Also delete secret key. */ #define GPGME_DELETE_FORCE (1 << 1) /* Do not ask user to confirm. */ gpgme_error_t gpgme_op_delete_ext_start (gpgme_ctx_t ctx, const gpgme_key_t key, unsigned int flags); gpgme_error_t gpgme_op_delete_ext (gpgme_ctx_t ctx, const gpgme_key_t key, unsigned int flags); /* * Key signing interface */ /* Flags for the key signing functions. */ #define GPGME_KEYSIGN_LOCAL (1 << 7) /* Create a local signature. */ #define GPGME_KEYSIGN_LFSEP (1 << 8) /* Indicate LF separated user ids. */ #define GPGME_KEYSIGN_NOEXPIRE (1 << 9) /* Force no expiration. */ #define GPGME_KEYSIGN_FORCE (1 << 10) /* Force creation. */ /* Sign the USERID of KEY using the current set of signers. */ gpgme_error_t gpgme_op_keysign_start (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, unsigned long expires, unsigned int flags); gpgme_error_t gpgme_op_keysign (gpgme_ctx_t ctx, gpgme_key_t key, const char *userid, unsigned long expires, unsigned int flags); /* Flags for the signature revoking functions. */ #define GPGME_REVSIG_LFSEP (1 << 8) /* Indicate LF separated user ids. */ /* Revoke the signatures made with SIGNING_KEY on the USERID(s) of KEY. */ gpgme_error_t gpgme_op_revsig_start (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_key_t signing_key, const char *userid, unsigned int flags); gpgme_error_t gpgme_op_revsig (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_key_t signing_key, const char *userid, unsigned int flags); /* * Key edit interface */ /* Flags to select the mode of the interact. */ #define GPGME_INTERACT_CARD (1 << 0) /* Use --card-edit mode. */ /* Edit the KEY. Send status and command requests to FNC and output of edit commands to OUT. */ gpgme_error_t gpgme_op_interact_start (gpgme_ctx_t ctx, gpgme_key_t key, unsigned int flags, gpgme_interact_cb_t fnc, void *fnc_value, gpgme_data_t out); gpgme_error_t gpgme_op_interact (gpgme_ctx_t ctx, gpgme_key_t key, unsigned int flags, gpgme_interact_cb_t fnc, void *fnc_value, gpgme_data_t out); /* Set the Tofu policy of KEY to POLCIY. */ gpgme_error_t gpgme_op_tofu_policy_start (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_tofu_policy_t policy); gpgme_error_t gpgme_op_tofu_policy (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_tofu_policy_t policy); /* * Key listing */ /* An object to return results from a key listing operation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_keylist_result { unsigned int truncated : 1; /* Internal to GPGME, do not use. */ unsigned int _unused : 31; }; typedef struct _gpgme_op_keylist_result *gpgme_keylist_result_t; /* Retrieve a pointer to the result of the key listing operation. */ gpgme_keylist_result_t gpgme_op_keylist_result (gpgme_ctx_t ctx); /* Start a keylist operation within CTX, searching for keys which * match PATTERN. If SECRET_ONLY is true, only secret keys are * returned. */ gpgme_error_t gpgme_op_keylist_start (gpgme_ctx_t ctx, const char *pattern, int secret_only); gpgme_error_t gpgme_op_keylist_ext_start (gpgme_ctx_t ctx, const char *pattern[], int secret_only, int reserved); /* List the keys contained in DATA. */ gpgme_error_t gpgme_op_keylist_from_data_start (gpgme_ctx_t ctx, gpgme_data_t data, int reserved); /* Return the next key from the keylist in R_KEY. */ gpgme_error_t gpgme_op_keylist_next (gpgme_ctx_t ctx, gpgme_key_t *r_key); /* Terminate a pending keylist operation within CTX. */ gpgme_error_t gpgme_op_keylist_end (gpgme_ctx_t ctx); /* * Protecting keys */ /* Change the passphrase for KEY. FLAGS is reserved for future use * and must be passed as 0. */ gpgme_error_t gpgme_op_passwd_start (gpgme_ctx_t ctx, gpgme_key_t key, unsigned int flags); gpgme_error_t gpgme_op_passwd (gpgme_ctx_t ctx, gpgme_key_t key, unsigned int flags); /* * Trust items and operations. DO NOT USE. * Note: This does not work because the experimental support in the * GnuPG engine has been removed a very long time; for API and ABI * compatibilty we keep the functions but let them return an error. * See https://dev.gnupg.org/T4834 */ struct _gpgme_trust_item { unsigned int _refs; char *keyid; char _keyid[16 + 1]; int type; int level; char *owner_trust; char _owner_trust[2]; char *validity; char _validity[2]; char *name; }; typedef struct _gpgme_trust_item *gpgme_trust_item_t; gpgme_error_t gpgme_op_trustlist_start (gpgme_ctx_t ctx, const char *pattern, int max_level); gpgme_error_t gpgme_op_trustlist_next (gpgme_ctx_t ctx, gpgme_trust_item_t *r_item); gpgme_error_t gpgme_op_trustlist_end (gpgme_ctx_t ctx); void gpgme_trust_item_ref (gpgme_trust_item_t item); void gpgme_trust_item_unref (gpgme_trust_item_t item); /* * Audit log */ /* Return the auditlog for the current session. This may be called after a successful or failed operation. If no audit log is available GPG_ERR_NO_DATA is returned. */ gpgme_error_t gpgme_op_getauditlog_start (gpgme_ctx_t ctx, gpgme_data_t output, unsigned int flags); gpgme_error_t gpgme_op_getauditlog (gpgme_ctx_t ctx, gpgme_data_t output, unsigned int flags); /* * Spawn interface */ /* Flags for the spawn operations. */ #define GPGME_SPAWN_DETACHED 1 #define GPGME_SPAWN_ALLOW_SET_FG 2 #define GPGME_SPAWN_SHOW_WINDOW 4 /* Run the command FILE with the arguments in ARGV. Connect stdin to * DATAIN, stdout to DATAOUT, and STDERR to DATAERR. If one the data * streams is NULL, connect to /dev/null instead. */ gpgme_error_t gpgme_op_spawn_start (gpgme_ctx_t ctx, const char *file, const char *argv[], gpgme_data_t datain, gpgme_data_t dataout, gpgme_data_t dataerr, unsigned int flags); gpgme_error_t gpgme_op_spawn (gpgme_ctx_t ctx, const char *file, const char *argv[], gpgme_data_t datain, gpgme_data_t dataout, gpgme_data_t dataerr, unsigned int flags); /* * Low-level Assuan protocol access. */ typedef gpgme_error_t (*gpgme_assuan_data_cb_t) (void *opaque, const void *data, size_t datalen); typedef gpgme_error_t (*gpgme_assuan_inquire_cb_t) (void *opaque, const char *name, const char *args, gpgme_data_t *r_data); typedef gpgme_error_t (*gpgme_assuan_status_cb_t) (void *opaque, const char *status, const char *args); /* Send the Assuan COMMAND and return results via the callbacks. * Asynchronous variant. */ gpgme_error_t gpgme_op_assuan_transact_start (gpgme_ctx_t ctx, const char *command, gpgme_assuan_data_cb_t data_cb, void *data_cb_value, gpgme_assuan_inquire_cb_t inq_cb, void *inq_cb_value, gpgme_assuan_status_cb_t stat_cb, void *stat_cb_value); /* Send the Assuan COMMAND and return results via the callbacks. * Synchronous variant. */ gpgme_error_t gpgme_op_assuan_transact_ext (gpgme_ctx_t ctx, const char *command, gpgme_assuan_data_cb_t data_cb, void *data_cb_value, gpgme_assuan_inquire_cb_t inq_cb, void *inq_cb_value, gpgme_assuan_status_cb_t stat_cb, void *stat_cb_value, gpgme_error_t *op_err); /* * Crypto container support. */ /* An object to return results from a VFS mount operation. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_vfs_mount_result { char *mount_dir; }; typedef struct _gpgme_op_vfs_mount_result *gpgme_vfs_mount_result_t; gpgme_vfs_mount_result_t gpgme_op_vfs_mount_result (gpgme_ctx_t ctx); /* The container is automatically unmounted when the context is reset * or destroyed. Transmission errors are returned directly, * operational errors are returned in OP_ERR. */ gpgme_error_t gpgme_op_vfs_mount (gpgme_ctx_t ctx, const char *container_file, const char *mount_dir, unsigned int flags, gpgme_error_t *op_err); gpgme_error_t gpgme_op_vfs_create (gpgme_ctx_t ctx, gpgme_key_t recp[], const char *container_file, unsigned int flags, gpgme_error_t *op_err); /* * Interface to gpgconf(1). */ /* The expert level at which a configuration option or group of * options should be displayed. See the gpgconf(1) documentation for * more details. */ typedef enum { GPGME_CONF_BASIC = 0, GPGME_CONF_ADVANCED = 1, GPGME_CONF_EXPERT = 2, GPGME_CONF_INVISIBLE = 3, GPGME_CONF_INTERNAL = 4 } gpgme_conf_level_t; /* The data type of a configuration option argument. See the gpgconf(1) * documentation for more details. */ typedef enum { /* Basic types. */ GPGME_CONF_NONE = 0, GPGME_CONF_STRING = 1, GPGME_CONF_INT32 = 2, GPGME_CONF_UINT32 = 3, /* Complex types. */ GPGME_CONF_FILENAME = 32, GPGME_CONF_LDAP_SERVER = 33, GPGME_CONF_KEY_FPR = 34, GPGME_CONF_PUB_KEY = 35, GPGME_CONF_SEC_KEY = 36, GPGME_CONF_ALIAS_LIST = 37 } gpgme_conf_type_t; /* For now, compatibility. */ #define GPGME_CONF_PATHNAME GPGME_CONF_FILENAME /* This represents a single argument for a configuration option. * Which of the members of value is used depends on the ALT_TYPE. */ typedef struct gpgme_conf_arg { struct gpgme_conf_arg *next; /* True if the option appears without an (optional) argument. */ unsigned int no_arg; union { unsigned int count; unsigned int uint32; int int32; char *string; } value; } *gpgme_conf_arg_t; /* The flags of a configuration option. See the gpgconf * documentation for details. */ #define GPGME_CONF_GROUP (1 << 0) #define GPGME_CONF_OPTIONAL (1 << 1) #define GPGME_CONF_LIST (1 << 2) #define GPGME_CONF_RUNTIME (1 << 3) #define GPGME_CONF_DEFAULT (1 << 4) #define GPGME_CONF_DEFAULT_DESC (1 << 5) #define GPGME_CONF_NO_ARG_DESC (1 << 6) #define GPGME_CONF_NO_CHANGE (1 << 7) /* The representation of a single configuration option. See the * gpg-conf documentation for details. */ typedef struct gpgme_conf_opt { struct gpgme_conf_opt *next; /* The option name. */ char *name; /* The flags for this option. */ unsigned int flags; /* The level of this option. */ gpgme_conf_level_t level; /* The localized description of this option. */ char *description; /* The type and alternate type of this option. */ gpgme_conf_type_t type; gpgme_conf_type_t alt_type; /* The localized (short) name of the argument, if any. */ char *argname; /* The default value. */ gpgme_conf_arg_t default_value; char *default_description; /* The default value if the option is not set. */ gpgme_conf_arg_t no_arg_value; char *no_arg_description; /* The current value if the option is set. */ gpgme_conf_arg_t value; /* The new value, if any. NULL means reset to default. */ int change_value; gpgme_conf_arg_t new_value; /* Free for application use. */ void *user_data; } *gpgme_conf_opt_t; /* The representation of a component that can be configured. See the * gpg-conf documentation for details. */ typedef struct gpgme_conf_comp { struct gpgme_conf_comp *next; /* Internal to GPGME, do not use! */ gpgme_conf_opt_t *_last_opt_p; /* The component name. */ char *name; /* A human-readable description for the component. */ char *description; /* The program name (an absolute path to the program). */ char *program_name; /* A linked list of options for this component. */ struct gpgme_conf_opt *options; } *gpgme_conf_comp_t; /* Allocate a new gpgme_conf_arg_t. If VALUE is NULL, a "no arg * default" is prepared. If type is a string type, VALUE should point * to the string. Else, it should point to an unsigned or signed * integer respectively. */ gpgme_error_t gpgme_conf_arg_new (gpgme_conf_arg_t *arg_p, gpgme_conf_type_t type, const void *value); /* This also releases all chained argument structures! */ void gpgme_conf_arg_release (gpgme_conf_arg_t arg, gpgme_conf_type_t type); /* Register a change for the value of OPT to ARG. If RESET is 1 (do * not use any values but 0 or 1), ARG is ignored and the option is * not changed (reverting a previous change). Otherwise, if ARG is * NULL, the option is cleared or reset to its default. The change * is done with gpgconf's --runtime option to immediately take effect. */ gpgme_error_t gpgme_conf_opt_change (gpgme_conf_opt_t opt, int reset, gpgme_conf_arg_t arg); /* Release a set of configurations. */ void gpgme_conf_release (gpgme_conf_comp_t conf); /* Retrieve the current configurations. */ gpgme_error_t gpgme_op_conf_load (gpgme_ctx_t ctx, gpgme_conf_comp_t *conf_p); /* Save the configuration of component comp. This function does not follow chained components! */ gpgme_error_t gpgme_op_conf_save (gpgme_ctx_t ctx, gpgme_conf_comp_t comp); /* Retrieve the configured directory. */ gpgme_error_t gpgme_op_conf_dir(gpgme_ctx_t ctx, const char *what, char **result); /* Information about software versions. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ typedef struct _gpgme_op_query_swdb_result { /* RFU */ struct _gpgme_op_query_swdb_result *next; /* The name of the package (e.g. "gpgme", "gnupg") */ char *name; /* The version number of the installed version. */ char *iversion; /* The time the online info was created. */ unsigned long created; /* The time the online info was retrieved. */ unsigned long retrieved; /* This bit is set if an error occured or some of the information * in this structure may not be set. */ unsigned int warning : 1; /* An update is available. */ unsigned int update : 1; /* The update is important. */ unsigned int urgent : 1; /* No information at all available. */ unsigned int noinfo : 1; /* The package name is not known. */ unsigned int unknown : 1; /* The information here is too old. */ unsigned int tooold : 1; /* Other error. */ unsigned int error : 1; unsigned int _reserved : 25; /* The version number of the latest released version. */ char *version; /* The release date of that version. */ unsigned long reldate; } *gpgme_query_swdb_result_t; /* Run the gpgconf --query-swdb command. */ gpgme_error_t gpgme_op_query_swdb (gpgme_ctx_t ctx, const char *name, const char *iversion, unsigned int reserved); /* Return the result from the last query_swdb operation. */ gpgme_query_swdb_result_t gpgme_op_query_swdb_result (gpgme_ctx_t ctx); /* * Various functions. */ /* Set special global flags; consult the manual before use. */ int gpgme_set_global_flag (const char *name, const char *value); /* Check that the library fulfills the version requirement. Note: * This is here only for the case where a user takes a pointer from * the old version of this function. The new version and macro for * run-time checks are below. */ const char *gpgme_check_version (const char *req_version); /* Do not call this directly; use the macro below. */ const char *gpgme_check_version_internal (const char *req_version, size_t offset_sig_validity); /* Check that the library fulfills the version requirement and check * for struct layout mismatch involving bitfields. */ #define gpgme_check_version(req_version) \ gpgme_check_version_internal (req_version, \ offsetof (struct _gpgme_signature, validity)) /* Return the default values for various directories. */ const char *gpgme_get_dirinfo (const char *what); /* Get the information about the configured and installed engines. A * pointer to the first engine in the statically allocated linked list * is returned in *INFO. If an error occurs, it is returned. The * returned data is valid until the next gpgme_set_engine_info. */ gpgme_error_t gpgme_get_engine_info (gpgme_engine_info_t *engine_info); /* Set the default engine info for the protocol PROTO to the file name * FILE_NAME and the home directory HOME_DIR. */ gpgme_error_t gpgme_set_engine_info (gpgme_protocol_t proto, const char *file_name, const char *home_dir); /* Verify that the engine implementing PROTO is installed and * available. */ gpgme_error_t gpgme_engine_check_version (gpgme_protocol_t proto); /* Reference counting for result objects. */ void gpgme_result_ref (void *result); void gpgme_result_unref (void *result); /* Return a public key algorithm string (e.g. "rsa2048"). Caller must * free using gpgme_free. */ char *gpgme_pubkey_algo_string (gpgme_subkey_t subkey); /* Return a statically allocated string with the name of the public * key algorithm ALGO, or NULL if that name is not known. */ const char *gpgme_pubkey_algo_name (gpgme_pubkey_algo_t algo); /* Return a statically allocated string with the name of the hash * algorithm ALGO, or NULL if that name is not known. */ const char *gpgme_hash_algo_name (gpgme_hash_algo_t algo); /* Return the addr-spec from a user id. Caller must free the result * with gpgme_free. */ char *gpgme_addrspec_from_uid (const char *uid); /* * Deprecated types, constants and functions. */ /* This is a former experimental only features. The constant is * provided to not break existing code in the compiler phase. */ #define GPGME_EXPORT_MODE_NOUID 128 /* Do not use! */ /* The possible stati for gpgme_op_edit. The use of that function and * these status codes are deprecated in favor of gpgme_op_interact. */ typedef enum { GPGME_STATUS_EOF = 0, /* mkstatus processing starts here */ GPGME_STATUS_ENTER = 1, GPGME_STATUS_LEAVE = 2, GPGME_STATUS_ABORT = 3, GPGME_STATUS_GOODSIG = 4, GPGME_STATUS_BADSIG = 5, GPGME_STATUS_ERRSIG = 6, GPGME_STATUS_BADARMOR = 7, GPGME_STATUS_RSA_OR_IDEA = 8, /* (legacy) */ GPGME_STATUS_KEYEXPIRED = 9, GPGME_STATUS_KEYREVOKED = 10, GPGME_STATUS_TRUST_UNDEFINED = 11, GPGME_STATUS_TRUST_NEVER = 12, GPGME_STATUS_TRUST_MARGINAL = 13, GPGME_STATUS_TRUST_FULLY = 14, GPGME_STATUS_TRUST_ULTIMATE = 15, GPGME_STATUS_SHM_INFO = 16, /* (legacy) */ GPGME_STATUS_SHM_GET = 17, /* (legacy) */ GPGME_STATUS_SHM_GET_BOOL = 18, /* (legacy) */ GPGME_STATUS_SHM_GET_HIDDEN = 19, /* (legacy) */ GPGME_STATUS_NEED_PASSPHRASE = 20, GPGME_STATUS_VALIDSIG = 21, GPGME_STATUS_SIG_ID = 22, GPGME_STATUS_ENC_TO = 23, GPGME_STATUS_NODATA = 24, GPGME_STATUS_BAD_PASSPHRASE = 25, GPGME_STATUS_NO_PUBKEY = 26, GPGME_STATUS_NO_SECKEY = 27, GPGME_STATUS_NEED_PASSPHRASE_SYM = 28, GPGME_STATUS_DECRYPTION_FAILED = 29, GPGME_STATUS_DECRYPTION_OKAY = 30, GPGME_STATUS_MISSING_PASSPHRASE = 31, GPGME_STATUS_GOOD_PASSPHRASE = 32, GPGME_STATUS_GOODMDC = 33, GPGME_STATUS_BADMDC = 34, GPGME_STATUS_ERRMDC = 35, GPGME_STATUS_IMPORTED = 36, GPGME_STATUS_IMPORT_OK = 37, GPGME_STATUS_IMPORT_PROBLEM = 38, GPGME_STATUS_IMPORT_RES = 39, GPGME_STATUS_FILE_START = 40, GPGME_STATUS_FILE_DONE = 41, GPGME_STATUS_FILE_ERROR = 42, GPGME_STATUS_BEGIN_DECRYPTION = 43, GPGME_STATUS_END_DECRYPTION = 44, GPGME_STATUS_BEGIN_ENCRYPTION = 45, GPGME_STATUS_END_ENCRYPTION = 46, GPGME_STATUS_DELETE_PROBLEM = 47, GPGME_STATUS_GET_BOOL = 48, GPGME_STATUS_GET_LINE = 49, GPGME_STATUS_GET_HIDDEN = 50, GPGME_STATUS_GOT_IT = 51, GPGME_STATUS_PROGRESS = 52, GPGME_STATUS_SIG_CREATED = 53, GPGME_STATUS_SESSION_KEY = 54, GPGME_STATUS_NOTATION_NAME = 55, GPGME_STATUS_NOTATION_DATA = 56, GPGME_STATUS_POLICY_URL = 57, GPGME_STATUS_BEGIN_STREAM = 58, /* (legacy) */ GPGME_STATUS_END_STREAM = 59, /* (legacy) */ GPGME_STATUS_KEY_CREATED = 60, GPGME_STATUS_USERID_HINT = 61, GPGME_STATUS_UNEXPECTED = 62, GPGME_STATUS_INV_RECP = 63, GPGME_STATUS_NO_RECP = 64, GPGME_STATUS_ALREADY_SIGNED = 65, GPGME_STATUS_SIGEXPIRED = 66, /* (legacy) */ GPGME_STATUS_EXPSIG = 67, GPGME_STATUS_EXPKEYSIG = 68, GPGME_STATUS_TRUNCATED = 69, GPGME_STATUS_ERROR = 70, GPGME_STATUS_NEWSIG = 71, GPGME_STATUS_REVKEYSIG = 72, GPGME_STATUS_SIG_SUBPACKET = 73, GPGME_STATUS_NEED_PASSPHRASE_PIN = 74, GPGME_STATUS_SC_OP_FAILURE = 75, GPGME_STATUS_SC_OP_SUCCESS = 76, GPGME_STATUS_CARDCTRL = 77, GPGME_STATUS_BACKUP_KEY_CREATED = 78, GPGME_STATUS_PKA_TRUST_BAD = 79, GPGME_STATUS_PKA_TRUST_GOOD = 80, GPGME_STATUS_PLAINTEXT = 81, GPGME_STATUS_INV_SGNR = 82, GPGME_STATUS_NO_SGNR = 83, GPGME_STATUS_SUCCESS = 84, GPGME_STATUS_DECRYPTION_INFO = 85, GPGME_STATUS_PLAINTEXT_LENGTH = 86, GPGME_STATUS_MOUNTPOINT = 87, GPGME_STATUS_PINENTRY_LAUNCHED = 88, GPGME_STATUS_ATTRIBUTE = 89, GPGME_STATUS_BEGIN_SIGNING = 90, GPGME_STATUS_KEY_NOT_CREATED = 91, GPGME_STATUS_INQUIRE_MAXLEN = 92, GPGME_STATUS_FAILURE = 93, GPGME_STATUS_KEY_CONSIDERED = 94, GPGME_STATUS_TOFU_USER = 95, GPGME_STATUS_TOFU_STATS = 96, GPGME_STATUS_TOFU_STATS_LONG = 97, GPGME_STATUS_NOTATION_FLAGS = 98, GPGME_STATUS_DECRYPTION_COMPLIANCE_MODE = 99, GPGME_STATUS_VERIFICATION_COMPLIANCE_MODE = 100, GPGME_STATUS_CANCELED_BY_USER = 101 } gpgme_status_code_t; /* The callback type used by the deprecated functions gpgme_op_edit * and gpgme_op_card_edit. */ typedef gpgme_error_t (*gpgme_edit_cb_t) (void *opaque, gpgme_status_code_t status, const char *args, int fd); gpgme_error_t gpgme_op_edit_start (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_edit_cb_t fnc, void *fnc_value, gpgme_data_t out) _GPGME_DEPRECATED(1,7); gpgme_error_t gpgme_op_edit (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_edit_cb_t fnc, void *fnc_value, gpgme_data_t out) _GPGME_DEPRECATED(1,7); gpgme_error_t gpgme_op_card_edit_start (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_edit_cb_t fnc, void *fnc_value, gpgme_data_t out) _GPGME_DEPRECATED(1,7); gpgme_error_t gpgme_op_card_edit (gpgme_ctx_t ctx, gpgme_key_t key, gpgme_edit_cb_t fnc, void *fnc_value, gpgme_data_t out) _GPGME_DEPRECATED(1,7); /* The possible signature stati. Deprecated, use error value in sig * status. */ typedef enum { GPGME_SIG_STAT_NONE = 0, GPGME_SIG_STAT_GOOD = 1, GPGME_SIG_STAT_BAD = 2, GPGME_SIG_STAT_NOKEY = 3, GPGME_SIG_STAT_NOSIG = 4, GPGME_SIG_STAT_ERROR = 5, GPGME_SIG_STAT_DIFF = 6, GPGME_SIG_STAT_GOOD_EXP = 7, GPGME_SIG_STAT_GOOD_EXPKEY = 8 } _gpgme_sig_stat_t; typedef _gpgme_sig_stat_t gpgme_sig_stat_t _GPGME_DEPRECATED(0,4); /* The available key and signature attributes. Deprecated, use the * individual result structures instead. */ typedef enum { GPGME_ATTR_KEYID = 1, GPGME_ATTR_FPR = 2, GPGME_ATTR_ALGO = 3, GPGME_ATTR_LEN = 4, GPGME_ATTR_CREATED = 5, GPGME_ATTR_EXPIRE = 6, GPGME_ATTR_OTRUST = 7, GPGME_ATTR_USERID = 8, GPGME_ATTR_NAME = 9, GPGME_ATTR_EMAIL = 10, GPGME_ATTR_COMMENT = 11, GPGME_ATTR_VALIDITY = 12, GPGME_ATTR_LEVEL = 13, GPGME_ATTR_TYPE = 14, GPGME_ATTR_IS_SECRET = 15, GPGME_ATTR_KEY_REVOKED = 16, GPGME_ATTR_KEY_INVALID = 17, GPGME_ATTR_UID_REVOKED = 18, GPGME_ATTR_UID_INVALID = 19, GPGME_ATTR_KEY_CAPS = 20, GPGME_ATTR_CAN_ENCRYPT = 21, GPGME_ATTR_CAN_SIGN = 22, GPGME_ATTR_CAN_CERTIFY = 23, GPGME_ATTR_KEY_EXPIRED = 24, GPGME_ATTR_KEY_DISABLED = 25, GPGME_ATTR_SERIAL = 26, GPGME_ATTR_ISSUER = 27, GPGME_ATTR_CHAINID = 28, GPGME_ATTR_SIG_STATUS = 29, GPGME_ATTR_ERRTOK = 30, GPGME_ATTR_SIG_SUMMARY = 31, GPGME_ATTR_SIG_CLASS = 32 } _gpgme_attr_t; typedef _gpgme_attr_t gpgme_attr_t _GPGME_DEPRECATED(0,4); /* Retrieve the signature status of signature IDX in CTX after a * successful verify operation in R_STAT (if non-null). The creation * time stamp of the signature is returned in R_CREATED (if non-null). * The function returns a string containing the fingerprint. * Deprecated, use verify result directly. */ const char *gpgme_get_sig_status (gpgme_ctx_t ctx, int idx, _gpgme_sig_stat_t *r_stat, time_t *r_created) _GPGME_DEPRECATED(0,4); /* Retrieve certain attributes of a signature. IDX is the index * number of the signature after a successful verify operation. WHAT * is an attribute where GPGME_ATTR_EXPIRE is probably the most useful * one. WHATIDX is to be passed as 0 for most attributes . */ unsigned long gpgme_get_sig_ulong_attr (gpgme_ctx_t c, int idx, _gpgme_attr_t what, int whatidx) _GPGME_DEPRECATED(0,4); const char *gpgme_get_sig_string_attr (gpgme_ctx_t c, int idx, _gpgme_attr_t what, int whatidx) _GPGME_DEPRECATED(0,4); /* Get the key used to create signature IDX in CTX and return it in * R_KEY. */ gpgme_error_t gpgme_get_sig_key (gpgme_ctx_t ctx, int idx, gpgme_key_t *r_key) _GPGME_DEPRECATED(0,4); /* Create a new data buffer which retrieves the data from the callback * function READ_CB. Deprecated, please use gpgme_data_new_from_cbs * instead. */ gpgme_error_t gpgme_data_new_with_read_cb (gpgme_data_t *r_dh, int (*read_cb) (void*,char *, size_t,size_t*), void *read_cb_value) _GPGME_DEPRECATED(0,4); /* Return the value of the attribute WHAT of KEY, which has to be * representable by a string. IDX specifies the sub key or user ID * for attributes related to sub keys or user IDs. Deprecated, use * key structure directly instead. */ const char *gpgme_key_get_string_attr (gpgme_key_t key, _gpgme_attr_t what, const void *reserved, int idx) _GPGME_DEPRECATED(0,4); /* Return the value of the attribute WHAT of KEY, which has to be * representable by an unsigned integer. IDX specifies the sub key or * user ID for attributes related to sub keys or user IDs. * Deprecated, use key structure directly instead. */ unsigned long gpgme_key_get_ulong_attr (gpgme_key_t key, _gpgme_attr_t what, const void *reserved, int idx) _GPGME_DEPRECATED(0,4); /* Return the value of the attribute WHAT of a signature on user ID * UID_IDX in KEY, which has to be representable by a string. IDX * specifies the signature. Deprecated, use key structure directly * instead. */ const char *gpgme_key_sig_get_string_attr (gpgme_key_t key, int uid_idx, _gpgme_attr_t what, const void *reserved, int idx) _GPGME_DEPRECATED(0,4); /* Return the value of the attribute WHAT of a signature on user ID * UID_IDX in KEY, which has to be representable by an unsigned * integer string. IDX specifies the signature. Deprecated, use key * structure directly instead. */ unsigned long gpgme_key_sig_get_ulong_attr (gpgme_key_t key, int uid_idx, _gpgme_attr_t what, const void *reserved, int idx) _GPGME_DEPRECATED(0,4); gpgme_error_t gpgme_op_import_ext (gpgme_ctx_t ctx, gpgme_data_t keydata, int *nr) _GPGME_DEPRECATED(0,4); /* DO NOT USE. */ void gpgme_trust_item_release (gpgme_trust_item_t item) _GPGME_DEPRECATED(0,4); /* DO NOT USE. */ const char *gpgme_trust_item_get_string_attr (gpgme_trust_item_t item, _gpgme_attr_t what, const void *reserved, int idx) _GPGME_DEPRECATED(0,4); /* DO NOT USE. */ int gpgme_trust_item_get_int_attr (gpgme_trust_item_t item, _gpgme_attr_t what, const void *reserved, int idx) _GPGME_DEPRECATED(0,4); /* Compat. * This structure shall be considered read-only and an application * must not allocate such a structure on its own. */ struct _gpgme_op_assuan_result { /* Deprecated. Use the second value in a DONE event or the synchronous variant gpgme_op_assuan_transact_ext. */ gpgme_error_t err _GPGME_DEPRECATED_OUTSIDE_GPGME(1,2); }; typedef struct _gpgme_op_assuan_result *gpgme_assuan_result_t; /* Return the result of the last Assuan command. */ gpgme_assuan_result_t gpgme_op_assuan_result (gpgme_ctx_t ctx) _GPGME_DEPRECATED(1,2); gpgme_error_t gpgme_op_assuan_transact (gpgme_ctx_t ctx, const char *command, gpgme_assuan_data_cb_t data_cb, void *data_cb_value, gpgme_assuan_inquire_cb_t inq_cb, void *inq_cb_value, gpgme_assuan_status_cb_t status_cb, void *status_cb_value) _GPGME_DEPRECATED(1,2); typedef gpgme_ctx_t GpgmeCtx _GPGME_DEPRECATED(0,4); typedef gpgme_data_t GpgmeData _GPGME_DEPRECATED(0,4); typedef gpgme_error_t GpgmeError _GPGME_DEPRECATED(0,4); typedef gpgme_data_encoding_t GpgmeDataEncoding _GPGME_DEPRECATED(0,4); typedef gpgme_pubkey_algo_t GpgmePubKeyAlgo _GPGME_DEPRECATED(0,4); typedef gpgme_hash_algo_t GpgmeHashAlgo _GPGME_DEPRECATED(0,4); typedef gpgme_sig_stat_t GpgmeSigStat _GPGME_DEPRECATED(0,4); typedef gpgme_sig_mode_t GpgmeSigMode _GPGME_DEPRECATED(0,4); typedef gpgme_attr_t GpgmeAttr _GPGME_DEPRECATED(0,4); typedef gpgme_validity_t GpgmeValidity _GPGME_DEPRECATED(0,4); typedef gpgme_protocol_t GpgmeProtocol _GPGME_DEPRECATED(0,4); typedef gpgme_engine_info_t GpgmeEngineInfo _GPGME_DEPRECATED(0,4); typedef gpgme_subkey_t GpgmeSubkey _GPGME_DEPRECATED(0,4); typedef gpgme_key_sig_t GpgmeKeySig _GPGME_DEPRECATED(0,4); typedef gpgme_user_id_t GpgmeUserID _GPGME_DEPRECATED(0,4); typedef gpgme_key_t GpgmeKey _GPGME_DEPRECATED(0,4); typedef gpgme_passphrase_cb_t GpgmePassphraseCb _GPGME_DEPRECATED(0,4); typedef gpgme_progress_cb_t GpgmeProgressCb _GPGME_DEPRECATED(0,4); typedef gpgme_io_cb_t GpgmeIOCb _GPGME_DEPRECATED(0,4); typedef gpgme_register_io_cb_t GpgmeRegisterIOCb _GPGME_DEPRECATED(0,4); typedef gpgme_remove_io_cb_t GpgmeRemoveIOCb _GPGME_DEPRECATED(0,4); typedef gpgme_event_io_t GpgmeEventIO _GPGME_DEPRECATED(0,4); typedef gpgme_event_io_cb_t GpgmeEventIOCb _GPGME_DEPRECATED(0,4); #define GpgmeIOCbs gpgme_io_cbs typedef gpgme_data_read_cb_t GpgmeDataReadCb _GPGME_DEPRECATED(0,4); typedef gpgme_data_write_cb_t GpgmeDataWriteCb _GPGME_DEPRECATED(0,4); typedef gpgme_data_seek_cb_t GpgmeDataSeekCb _GPGME_DEPRECATED(0,4); typedef gpgme_data_release_cb_t GpgmeDataReleaseCb _GPGME_DEPRECATED(0,4); #define GpgmeDataCbs gpgme_data_cbs typedef gpgme_encrypt_result_t GpgmeEncryptResult _GPGME_DEPRECATED(0,4); typedef gpgme_sig_notation_t GpgmeSigNotation _GPGME_DEPRECATED(0,4); typedef gpgme_signature_t GpgmeSignature _GPGME_DEPRECATED(0,4); typedef gpgme_verify_result_t GpgmeVerifyResult _GPGME_DEPRECATED(0,4); typedef gpgme_import_status_t GpgmeImportStatus _GPGME_DEPRECATED(0,4); typedef gpgme_import_result_t GpgmeImportResult _GPGME_DEPRECATED(0,4); typedef gpgme_genkey_result_t GpgmeGenKeyResult _GPGME_DEPRECATED(0,4); typedef gpgme_trust_item_t GpgmeTrustItem _GPGME_DEPRECATED(0,4); typedef gpgme_status_code_t GpgmeStatusCode _GPGME_DEPRECATED(0,4); #ifdef __cplusplus } #endif #endif /* GPGME_H */ /* Local Variables: buffer-read-only: t End: */