/* context.h - wraps a gpgme key context Copyright (C) 2003, 2007 Klarälvdalens Datakonsult AB This file is part of GPGME++. GPGME++ is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with GPGME++; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ // -*- c++ -*- #ifndef __GPGMEPP_CONTEXT_H__ #define __GPGMEPP_CONTEXT_H__ #include "global.h" #include "error.h" #include "key.h" #include "verificationresult.h" // for Signature::Notation #include #include #include #include #include namespace GpgME { class Data; class TrustItem; class ProgressProvider; class PassphraseProvider; class EventLoopInteractor; class EditInteractor; class AssuanTransaction; class KeyListResult; class KeyGenerationResult; class ImportResult; class DecryptionResult; class VerificationResult; class SigningResult; class EncryptionResult; class VfsMountResult; class EngineInfo; class GPGMEPP_EXPORT Context { explicit Context(gpgme_ctx_t); public: //using GpgME::Protocol; // // Creation and destruction: // static Context *createForProtocol(Protocol proto); /** Same as above but returning a unique ptr. */ static std::unique_ptr create(Protocol proto); static std::unique_ptr createForEngine(Engine engine, Error *err = nullptr); virtual ~Context(); // // Context Attributes // Protocol protocol() const; void setArmor(bool useArmor); bool armor() const; void setTextMode(bool useTextMode); bool textMode() const; void setOffline(bool useOfflineMode); bool offline() const; const char *getFlag(const char *name) const; Error setFlag(const char *name, const char *value); enum CertificateInclusion { DefaultCertificates = -256, AllCertificatesExceptRoot = -2, AllCertificates = -1, NoCertificates = 0, OnlySenderCertificate = 1 }; void setIncludeCertificates(int which); int includeCertificates() const; //using GpgME::KeyListMode; void setKeyListMode(unsigned int keyListMode); void addKeyListMode(unsigned int keyListMode); unsigned int keyListMode() const; /** Set the passphrase provider * * To avoid problems where a class using a context registers * itself as the provider the Context does not take ownership * of the provider and the caller must ensure that the provider * is deleted if it is no longer needed. */ void setPassphraseProvider(PassphraseProvider *provider); PassphraseProvider *passphraseProvider() const; /** Set the progress provider * * To avoid problems where a class using a context registers * itself as the provider the Context does not take ownership * of the provider and the caller must ensure that the provider * is deleted if it is no longer needed. */ void setProgressProvider(ProgressProvider *provider); ProgressProvider *progressProvider() const; void setManagedByEventLoopInteractor(bool managed); bool managedByEventLoopInteractor() const; GpgME::Error setLocale(int category, const char *value); EngineInfo engineInfo() const; GpgME::Error setEngineFileName(const char *filename); GpgME::Error setEngineHomeDirectory(const char *filename); enum PinentryMode{ PinentryDefault = 0, PinentryAsk = 1, PinentryCancel = 2, PinentryError = 3, PinentryLoopback = 4 }; GpgME::Error setPinentryMode(PinentryMode which); PinentryMode pinentryMode() const; private: friend class ::GpgME::EventLoopInteractor; void installIOCallbacks(gpgme_io_cbs *iocbs); void uninstallIOCallbacks(); public: // // // Key Management // // // // Key Listing // GpgME::Error startKeyListing(const char *pattern = nullptr, bool secretOnly = false); GpgME::Error startKeyListing(const char *patterns[], bool secretOnly = false); Key nextKey(GpgME::Error &e); KeyListResult endKeyListing(); KeyListResult keyListResult() const; Key key(const char *fingerprint, GpgME::Error &e, bool secret = false); // // Key Generation // KeyGenerationResult generateKey(const char *parameters, Data &pubKey); GpgME::Error startKeyGeneration(const char *parameters, Data &pubkey); KeyGenerationResult keyGenerationResult() const; // // Key Export // enum ExportMode { ExportDefault = 0, ExportExtern = 2, ExportMinimal = 4, ExportSecret = 16, ExportRaw = 32, ExportPKCS12 = 64, ExportNoUID = 128, // obsolete; has no effect ExportSSH = 256, ExportSecretSubkey = 512, }; GpgME::Error exportPublicKeys(const char *pattern, Data &keyData); GpgME::Error exportPublicKeys(const char *pattern, Data &keyData, unsigned int mode); GpgME::Error exportPublicKeys(const char *pattern[], Data &keyData); GpgME::Error exportPublicKeys(const char *pattern[], Data &keyData, unsigned int mode); GpgME::Error startPublicKeyExport(const char *pattern, Data &keyData); GpgME::Error startPublicKeyExport(const char *pattern, Data &keyData, unsigned int mode); GpgME::Error startPublicKeyExport(const char *pattern[], Data &keyData); GpgME::Error startPublicKeyExport(const char *pattern[], Data &keyData, unsigned int mode); GpgME::Error exportSecretKeys(const char *pattern, Data &keyData, unsigned int mode = ExportSecret); GpgME::Error exportSecretKeys(const char *pattern[], Data &keyData, unsigned int mode = ExportSecret); GpgME::Error startSecretKeyExport(const char *pattern, Data &keyData, unsigned int mode = ExportSecret); GpgME::Error startSecretKeyExport(const char *pattern[], Data &keyData, unsigned int mode = ExportSecret); GpgME::Error exportSecretSubkeys(const char *pattern, Data &keyData, unsigned int mode = ExportSecretSubkey); GpgME::Error exportSecretSubkeys(const char *pattern[], Data &keyData, unsigned int mode = ExportSecretSubkey); GpgME::Error startSecretSubkeyExport(const char *pattern, Data &keyData, unsigned int mode = ExportSecretSubkey); GpgME::Error startSecretSubkeyExport(const char *pattern[], Data &keyData, unsigned int mode = ExportSecretSubkey); // generic export functions; prefer using the specific public/secret key export functions GpgME::Error exportKeys(const char *pattern, Data &keyData, unsigned int mode = ExportDefault); GpgME::Error exportKeys(const char *pattern[], Data &keyData, unsigned int mode = ExportDefault); GpgME::Error startKeyExport(const char *pattern, Data &keyData, unsigned int mode = ExportDefault); GpgME::Error startKeyExport(const char *pattern[], Data &keyData, unsigned int mode = ExportDefault); // // Key Import // ImportResult importKeys(const Data &data); ImportResult importKeys(const std::vector &keys); ImportResult importKeys(const std::vector &keyIds); GpgME::Error startKeyImport(const Data &data); GpgME::Error startKeyImport(const std::vector &keys); GpgME::Error startKeyImport(const std::vector &keyIds); ImportResult importResult() const; // // Key Deletion // GpgME::Error deleteKey(const Key &key, bool allowSecretKeyDeletion = false); GpgME::Error startKeyDeletion(const Key &key, bool allowSecretKeyDeletion = false); // // Passphrase changing // GpgME::Error passwd(const Key &key); GpgME::Error startPasswd(const Key &key); // // Key Editing // GpgME::Error edit(const Key &key, std::unique_ptr function, Data &out); GpgME::Error startEditing(const Key &key, std::unique_ptr function, Data &out); // // Modern Interface actions. Require 2.1.x // Error startCreateKey (const char *userid, const char *algo, unsigned long reserved, unsigned long expires, const Key &certkey, unsigned int flags); Error createKey (const char *userid, const char *algo, unsigned long reserved, unsigned long expires, const Key &certkey, unsigned int flags); // Same as create key but returning a result GpgME::KeyGenerationResult createKeyEx (const char *userid, const char *algo, unsigned long reserved, unsigned long expires, const Key &certkey, unsigned int flags); Error addUid(const Key &key, const char *userid); Error startAddUid(const Key &key, const char *userid); Error revUid(const Key &key, const char *userid); Error startRevUid(const Key &key, const char *userid); Error createSubkey(const Key &key, const char *algo, unsigned long reserved = 0, unsigned long expires = 0, unsigned int flags = 0); Error startCreateSubkey(const Key &key, const char *algo, unsigned long reserved = 0, unsigned long expires = 0, unsigned int flags = 0); enum SetExpireFlags { SetExpireDefault = 0, SetExpireAllSubkeys = 1 }; Error setExpire(const Key &k, unsigned long expires, const std::vector &subkeys = std::vector(), const SetExpireFlags flags = SetExpireDefault); Error startSetExpire(const Key &k, unsigned long expires, const std::vector &subkeys = std::vector(), const SetExpireFlags flags = SetExpireDefault); Error revokeSignature(const Key &key, const Key &signingKey, const std::vector &userIds = std::vector()); Error startRevokeSignature(const Key &key, const Key &signingKey, const std::vector &userIds = std::vector()); // using TofuInfo::Policy Error setTofuPolicy(const Key &k, unsigned int policy); Error setTofuPolicyStart(const Key &k, unsigned int policy); EditInteractor *lastEditInteractor() const; std::unique_ptr takeLastEditInteractor(); // // SmartCard Editing // GpgME::Error cardEdit(const Key &key, std::unique_ptr function, Data &out); GpgME::Error startCardEditing(const Key &key, std::unique_ptr function, Data &out); EditInteractor *lastCardEditInteractor() const; std::unique_ptr takeLastCardEditInteractor(); // // Trust Item Management // GpgME::Error startTrustItemListing(const char *pattern, int maxLevel); TrustItem nextTrustItem(GpgME::Error &e); GpgME::Error endTrustItemListing(); // // Assuan Transactions // GpgME::Error assuanTransact(const char *command, std::unique_ptr transaction); GpgME::Error assuanTransact(const char *command); GpgME::Error startAssuanTransaction(const char *command, std::unique_ptr transaction); GpgME::Error startAssuanTransaction(const char *command); AssuanTransaction *lastAssuanTransaction() const; std::unique_ptr takeLastAssuanTransaction(); // // // Crypto Operations // enum DecryptionFlags { // Keep in line with core's flags DecryptNone = 0, DecryptVerify = 1, DecryptUnwrap = 128, DecryptMaxValue = 0x80000000 }; // // Decryption // // Alternative way to set decryption flags as they were added only in // 1.9.0 and so other API can still be used but with 1.9.0 additionally // flags can be set. void setDecryptionFlags (const DecryptionFlags flags); DecryptionResult decrypt(const Data &cipherText, Data &plainText); GpgME::Error startDecryption(const Data &cipherText, Data &plainText); DecryptionResult decrypt(const Data &cipherText, Data &plainText, const DecryptionFlags flags); GpgME::Error startDecryption(const Data &cipherText, Data &plainText, const DecryptionFlags flags); DecryptionResult decryptionResult() const; // // Signature Verification // VerificationResult verifyDetachedSignature(const Data &signature, const Data &signedText); VerificationResult verifyOpaqueSignature(const Data &signedData, Data &plainText); GpgME::Error startDetachedSignatureVerification(const Data &signature, const Data &signedText); GpgME::Error startOpaqueSignatureVerification(const Data &signedData, Data &plainText); VerificationResult verificationResult() const; // // Combined Decryption and Signature Verification // std::pair decryptAndVerify(const Data &cipherText, Data &plainText); std::pair decryptAndVerify(const Data &cipherText, Data &plainText, const DecryptionFlags flags); GpgME::Error startCombinedDecryptionAndVerification(const Data &cipherText, Data &plainText); GpgME::Error startCombinedDecryptionAndVerification(const Data &cipherText, Data &plainText, const DecryptionFlags flags); // use verificationResult() and decryptionResult() to retrieve the result objects... // // Signing // void clearSigningKeys(); GpgME::Error addSigningKey(const Key &signer); Key signingKey(unsigned int index) const; std::vector signingKeys() const; void clearSignatureNotations(); GpgME::Error addSignatureNotation(const char *name, const char *value, unsigned int flags = 0); GpgME::Error addSignaturePolicyURL(const char *url, bool critical = false); const char *signaturePolicyURL() const; Notation signatureNotation(unsigned int index) const; std::vector signatureNotations() const; //using GpgME::SignatureMode; SigningResult sign(const Data &plainText, Data &signature, SignatureMode mode); GpgME::Error startSigning(const Data &plainText, Data &signature, SignatureMode mode); SigningResult signingResult() const; // wrapper for gpgme_set_sender const char *getSender(); GpgME::Error setSender(const char *sender); // // Encryption // enum EncryptionFlags { None = 0, AlwaysTrust = 1, NoEncryptTo = 2, Prepare = 4, ExpectSign = 8, NoCompress = 16, Symmetric = 32, ThrowKeyIds = 64, EncryptWrap = 128 }; EncryptionResult encrypt(const std::vector &recipients, const Data &plainText, Data &cipherText, EncryptionFlags flags); GpgME::Error encryptSymmetrically(const Data &plainText, Data &cipherText); GpgME::Error startEncryption(const std::vector &recipients, const Data &plainText, Data &cipherText, EncryptionFlags flags); EncryptionResult encryptionResult() const; // // Combined Signing and Encryption // std::pair signAndEncrypt(const std::vector &recipients, const Data &plainText, Data &cipherText, EncryptionFlags flags); GpgME::Error startCombinedSigningAndEncryption(const std::vector &recipients, const Data &plainText, Data &cipherText, EncryptionFlags flags); // use encryptionResult() and signingResult() to retrieve the result objects... // // // Audit Log // // enum AuditLogFlags { DefaultAuditLog = 0, HtmlAuditLog = 1, DiagnosticAuditLog = 2, AuditLogWithHelp = 128 }; GpgME::Error startGetAuditLog(Data &output, unsigned int flags = 0); GpgME::Error getAuditLog(Data &output, unsigned int flags = 0); // // // G13 crypto container operations // // GpgME::Error createVFS(const char *containerFile, const std::vector &recipients); VfsMountResult mountVFS(const char *containerFile, const char *mountDir); // Spawn Engine enum SpawnFlags { SpawnNone = 0, SpawnDetached = 1, SpawnAllowSetFg = 2, SpawnShowWindow = 4 }; /** Spwan the process \a file with arguments \a argv. * * If a data parameter is null the /dev/null will be * used. (Or other platform stuff). * * @param file The executable to start. * @param argv list of arguments file should be argv[0]. * @param input The data to be sent through stdin. * @param output The data to be receive the stdout. * @param err The data to receive stderr. * @param flags Additional flags. * * @returns An error or empty error. */ GpgME::Error spawn(const char *file, const char *argv[], Data &input, Data &output, Data &err, SpawnFlags flags); /** Async variant of spawn. Immediately returns after starting the * process. */ GpgME::Error spawnAsync(const char *file, const char *argv[], Data &input, Data &output, Data &err, SpawnFlags flags); // // // Run Control // // bool poll(); GpgME::Error wait(); GpgME::Error lastError() const; GpgME::Error cancelPendingOperation(); GpgME::Error cancelPendingOperationImmediately(); class Private; const Private *impl() const { return d; } Private *impl() { return d; } private: // Helper functions that need to be context because they rely // on the "Friendlyness" of context to access the gpgme types. gpgme_key_t *getKeysFromRecipients(const std::vector &recipients); private: Private *const d; private: // disable... Context(const Context &); const Context &operator=(const Context &); }; GPGMEPP_EXPORT std::ostream &operator<<(std::ostream &os, Context::CertificateInclusion incl); GPGMEPP_EXPORT std::ostream &operator<<(std::ostream &os, Context::EncryptionFlags flags); GPGMEPP_EXPORT std::ostream &operator<<(std::ostream &os, Context::AuditLogFlags flags); } // namespace GpgME #endif // __GPGMEPP_CONTEXT_H__