src/pEpEngine.h
author Volker Birk <vb@pep-project.org>
Tue, 21 Apr 2015 08:37:01 +0200
changeset 211 a022e853f81e
parent 201 79bb3ac04b41
child 214 79333debeee0
permissions -rw-r--r--
revoke_key() fixed
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#pragma once
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#ifdef __cplusplus
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extern "C" {
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#endif
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#include <stddef.h>
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#include <stdint.h>
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#include <stdbool.h>
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#include "dynamic_api.h"
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#include "stringlist.h"
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#include "timestamp.h"
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#define PEP_VERSION "1.0"
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// pEp Engine API
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//  caveat:
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//      Unicode data has to be normalized to NFC before calling
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//      UTF-8 strings are UTF-8 encoded C strings (zero terminated)
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struct _pEpSession;
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typedef struct _pEpSession * PEP_SESSION;
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typedef enum {
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	PEP_STATUS_OK									= 0,
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	PEP_INIT_CANNOT_LOAD_GPGME						= 0x0110,
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	PEP_INIT_GPGME_INIT_FAILED						= 0x0111,
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	PEP_INIT_NO_GPG_HOME							= 0x0112,
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	PEP_INIT_NETPGP_INIT_FAILED						= 0x0113,
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	PEP_INIT_SQLITE3_WITHOUT_MUTEX					= 0x0120,
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	PEP_INIT_CANNOT_OPEN_DB							= 0x0121,
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	PEP_INIT_CANNOT_OPEN_SYSTEM_DB					= 0x0122,
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	PEP_KEY_NOT_FOUND						        = 0x0201,
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	PEP_KEY_HAS_AMBIG_NAME					        = 0x0202,
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	PEP_GET_KEY_FAILED						        = 0x0203,
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	PEP_CANNOT_FIND_IDENTITY						= 0x0301,
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	PEP_CANNOT_SET_PERSON							= 0x0381,
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	PEP_CANNOT_SET_PGP_KEYPAIR						= 0x0382,
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	PEP_CANNOT_SET_IDENTITY							= 0x0383,
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	PEP_UNENCRYPTED									= 0x0400,
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	PEP_VERIFIED									= 0x0401,
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	PEP_DECRYPTED									= 0x0402,
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	PEP_DECRYPTED_AND_VERIFIED						= 0x0403,
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	PEP_DECRYPT_WRONG_FORMAT						= 0x0404,
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	PEP_DECRYPT_NO_KEY								= 0x0405,
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	PEP_DECRYPT_SIGNATURE_DOES_NOT_MATCH			= 0x0406,
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    PEP_VERIFY_NO_KEY                               = 0x0407,
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    PEP_VERIFIED_AND_TRUSTED                        = 0x0408,
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	PEP_CANNOT_DECRYPT_UNKNOWN						= 0x04ff,
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	PEP_SAFEWORD_NOT_FOUND							= 0x0501,
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    PEP_CANNOT_CREATE_KEY                           = 0x0601,
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    PEP_CANNOT_SEND_KEY                             = 0x0602,
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	PEP_COMMIT_FAILED								= 0xff01,
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    PEP_CANNOT_CREATE_TEMP_FILE                     = -5,
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    PEP_ILLEGAL_VALUE                               = -4,
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    PEP_BUFFER_TOO_SMALL                            = -3,
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	PEP_OUT_OF_MEMORY								= -2,
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	PEP_UNKNOWN_ERROR								= -1
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} PEP_STATUS;
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// INIT_STATUS init() - initialize pEpEngine for a thread
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//
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//  parameters:
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//		session (out)	init() allocates session memory and returns a pointer
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//		                as a handle
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//
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//  return value:
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//		PEP_STATUS_OK = 0					if init() succeeds
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//		PEP_INIT_SQLITE3_WITHOUT_MUTEX		if SQLite3 was compiled with
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//		                                    SQLITE_THREADSAFE 0
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//		PEP_INIT_CANNOT_LOAD_GPGME			if libgpgme.dll cannot be found
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//		PEP_INIT_GPGME_INIT_FAILED			if GPGME init fails
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//		PEP_INIT_CANNOT_OPEN_DB				if user's management db cannot be
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//		                                    opened
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//		PEP_INIT_CANNOT_OPEN_SYSTEM_DB		if system's management db cannot be
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//		                                    opened
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//
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//  caveat:
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//      the pointer is valid only if the return value is PEP_STATUS_OK
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//      in other case a NULL pointer will be returned; a valid handle must
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//      be released using release() when it's no longer needed
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//
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//      the caller has to guarantee that the first call to this function
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//      will succeed before further calls can be done
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DYNAMIC_API PEP_STATUS init(PEP_SESSION *session);
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// void release() - release thread session handle
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//
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//  parameters:
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//		session (in)	session handle to release
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//
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//	caveat:
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//	    the last release() can be called only when all other release() calls
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//	    are done
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DYNAMIC_API void release(PEP_SESSION session);
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// decrypt_and_verify() - decrypt and/or verify a message
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//
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//	parameters:
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//		session (in)	session handle
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//		ctext (in)		cipher text to decrypt and/or verify
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//		csize (in)		size of cipher text
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//		ptext (out)		pointer to internal buffer with plain text
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//		psize (out)		size of plain text
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//		keylist (out)	list of key ids which where used to encrypt
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//
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//	return value:
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//		PEP_UNENCRYPTED				message was unencrypted and not signed
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//		PEP_VERIFIED				message was unencrypted, signature matches
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//		PEP_DECRYPTED				message is decrypted now, no signature
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//		PEP_DECRYPTED_AND_VERIFIED	message is decrypted now and verified
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//		PEP_DECRYPT_WRONG_FORMAT	message has wrong format to handle
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//		PEP_DECRYPT_NO_KEY			key not available to decrypt and/or verify
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//		PEP_DECRYPT_SIGNATURE_DOES_NOT_MATCH	wrong signature
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//
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//	caveat:
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//	    the ownerships of ptext as well as keylist are going to the caller
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//	    the caller must use free() (or an Windoze pEp_free()) and
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//	    free_stringlist() to free them
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//
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//      if this function failes an error message may be the first element of
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//      keylist and the other elements may be the keys used for encryption
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DYNAMIC_API PEP_STATUS decrypt_and_verify(
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        PEP_SESSION session, const char *ctext, size_t csize,
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        char **ptext, size_t *psize, stringlist_t **keylist
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    );
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// verify_text() - verfy plain text with a digital signature
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//
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//  parameters:
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//      session (in)    session handle
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//      text (in)       text to verify
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//      size (in)       size of text
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//      signature (in)  signature text
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//      sig_size (in)   size of signature
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//		keylist (out)	list of key ids which where used to encrypt or NULL on
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//		                error
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//
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//  return value:
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//		PEP_VERIFIED				message was unencrypted, signature matches
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//		PEP_DECRYPT_NO_KEY			key not available to decrypt and/or verify
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//		PEP_DECRYPT_SIGNATURE_DOES_NOT_MATCH	wrong signature
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DYNAMIC_API PEP_STATUS verify_text(
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        PEP_SESSION session, const char *text, size_t size,
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        const char *signature, size_t sig_size, stringlist_t **keylist
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    );
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// encrypt_and_sign() - encrypt and sign a message
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//
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//	parameters:
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//		session (in)	session handle
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//		keylist (in)	list of key ids to encrypt with as C strings
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//		ptext (in)		plain text to decrypt and/or verify
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//		psize (in)		size of plain text
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//		ctext (out)		pointer to internal buffer with cipher text
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//		csize (out)		size of cipher text
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//
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//	return value:
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//		PEP_STATUS_OK = 0				encryption and signing succeeded
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//		PEP_KEY_NOT_FOUND	            at least one of the receipient keys
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//		                                could not be found
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//		PEP_KEY_HAS_AMBIG_NAME          at least one of the receipient keys has
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//		                                an ambiguous name
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//		PEP_GET_KEY_FAILED		        cannot retrieve key
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//
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//	caveat:
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//	    the ownership of ctext is going to the caller
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//      the caller is responsible to free() it (on Windoze use pEp_free())
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//      the first key in keylist is being used to sign the message
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//      this implies there has to be a private key for that keypair
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DYNAMIC_API PEP_STATUS encrypt_and_sign(
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        PEP_SESSION session, const stringlist_t *keylist, const char *ptext,
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        size_t psize, char **ctext, size_t *csize
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    );
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// log_event() - log a user defined event defined by UTF-8 encoded strings into
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// management log
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//
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//	parameters:
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//		session (in)		session handle
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//		title (in)			C string with event name
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//		entity (in)			C string with name of entity which is logging
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//		description (in)	C string with long description for event or NULL if
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//		                    omitted
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//		comment (in)		C string with user defined comment or NULL if
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//		                    omitted
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//
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//	return value:
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//	    PEP_STATUS_OK       log entry created
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DYNAMIC_API PEP_STATUS log_event(
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        PEP_SESSION session, const char *title, const char *entity,
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        const char *description, const char *comment
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    );
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// safeword() - get the corresponding safeword for a 16 bit value
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//
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//	parameters:
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//		session (in)		    session handle
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//		value (in)			    value to find a safeword for
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//		lang (in)			    C string with ISO 3166-1 ALPHA-2 language code
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//		word (out)			    pointer to C string with safeword UTF-8 encoded
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//							    NULL if language is not supported or safeword
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//							    wordlist is damaged or unavailable
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//		wsize (out)			    length of safeword
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//
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//	return value:
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//	    PEP_STATUS_OK           safeword retrieved
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//	    PEP_SAFEWORD_NOT_FOUND  safeword not found
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//
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//	caveat:
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//		the word pointer goes to the ownership of the caller
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//      the caller is responsible to free() it (on Windoze use pEp_free())
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DYNAMIC_API PEP_STATUS safeword(
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            PEP_SESSION session, uint16_t value, const char *lang,
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            char **word, size_t *wsize
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        );
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// safewords() - get safewords for a string of hex values of a fingerprint
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//
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//	parameters:
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//		session (in)		session handle
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//		fingerprint (in)	C string with hex values to find safewords for
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//		lang (in)			C string with ISO 3166-1 ALPHA-2 language code
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//		words (out)			pointer to C string with safewords UTF-8 encoded,
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//		                    separated by a blank each
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//							NULL if language is not supported or safeword
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//							wordlist is damaged or unavailable
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//		wsize (out)			length of safewords string
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//		max_words (in)		only generate a string with max_words;
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//							if max_words == 0 there is no such limit
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//
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//	return value:
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//	    PEP_STATUS_OK           safewords retrieved
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//      PEP_OUT_OF_MEMORY       out of memory
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//	    PEP_SAFEWORD_NOT_FOUND  at least one safeword not found
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//
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//	caveat:
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//		the word pointer goes to the ownership of the caller
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//      the caller is responsible to free() it (on Windoze use pEp_free())
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//
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//  DON'T USE THIS FUNCTION FROM HIGH LEVEL LANGUAGES!
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//
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//  Better implement a simple one in the adapter yourself using safeword(), and
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//  return a list of safewords.
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//  This function is provided for being used by C and C++ programs only.
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DYNAMIC_API PEP_STATUS safewords(
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        PEP_SESSION session, const char *fingerprint, const char *lang,
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        char **words, size_t *wsize, int max_words
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    );
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typedef enum _PEP_comm_type {
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    PEP_ct_unknown = 0,
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    // range 0x01 to 0x09: no encryption, 0x0a to 0x0e: nothing reasonable
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    PEP_ct_no_encryption = 0x01,                // generic
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    PEP_ct_no_encrypted_channel = 0x02,
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    PEP_ct_key_not_found = 0x03,
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    PEP_ct_key_expired = 0x04,
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    PEP_ct_key_revoked = 0x05,
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    PEP_ct_key_b0rken = 0x06,
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    PEP_ct_my_key_not_included = 0x09,
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    PEP_ct_security_by_obscurity = 0x0a,
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    PEP_ct_b0rken_crypto = 0x0b,
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    PEP_ct_key_too_short = 0x0e,
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    PEP_ct_compromized = 0x0f,                  // known compromized connection
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    // range 0x10 to 0x3f: unconfirmed encryption
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    PEP_ct_unconfirmed_encryption = 0x10,       // generic
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    PEP_ct_OpenPGP_weak_unconfirmed = 0x11,	    // RSA 1024 is weak
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    PEP_ct_to_be_checked = 0x20,                // generic
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    PEP_ct_SMIME_unconfirmed = 0x21,
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    PEP_ct_CMS_unconfirmed = 0x22,
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    PEP_ct_strong_but_unconfirmed = 0x30,       // generic
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    PEP_ct_OpenPGP_unconfirmed = 0x38,          // key at least 2048 bit RSA or EC
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    PEP_ct_OTR_unconfirmed = 0x3a,
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    // range 0x40 to 0x7f: unconfirmed encryption and anonymization
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    PEP_ct_unconfirmed_enc_anon = 0x40,         // generic
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    PEP_ct_PEP_unconfirmed = 0x7f,
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    PEP_ct_confirmed = 0x80,                    // this bit decides if trust is confirmed
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    // range 0x81 to 0x8f: reserved
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    // range 0x90 to 0xbf: confirmed encryption
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    PEP_ct_confirmed_encryption = 0x90,         // generic
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	PEP_ct_OpenPGP_weak = 0x91,                 // RSA 1024 is weak
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    PEP_ct_to_be_checked_confirmed = 0xa0,      //generic
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    PEP_ct_SMIME = 0xa1,
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    PEP_ct_CMS = 0xa2,
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    PEP_ct_strong_encryption = 0xb0,            // generic
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	PEP_ct_OpenPGP = 0xb8,                      // key at least 2048 bit RSA or EC
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	PEP_ct_OTR = 0xba,
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    // range 0xc0 to 0xff: confirmed encryption and anonymization
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    PEP_ct_confirmed_enc_anon = 0xc0,           // generic
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	PEP_ct_pEp = 0xff
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} PEP_comm_type;
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typedef struct _pEp_identity {
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	size_t struct_size;			// size of whole struct
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	char *address;		        // C string with address UTF-8 encoded
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	size_t address_size;		// size of address
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	char *fpr;			        // C string with fingerprint UTF-8 encoded
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	size_t fpr_size;			// size of fingerprint
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	char *user_id;		        // C string with user ID UTF-8 encoded
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	size_t user_id_size;		// size of user ID
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	char *username;		        // C string with user name UTF-8 encoded
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	size_t username_size;		// size of user name
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	PEP_comm_type comm_type;	// type of communication with this ID
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    char lang[3];				// language of conversation
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                                // ISO 639-1 ALPHA-2, last byte is 0
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    bool me;                    // if this is the local user herself/himself
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} pEp_identity;
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// new_identity() - allocate memory and set the string and size fields
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//
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//  parameters:
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//      address (in)        UTF-8 string or NULL 
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//      fpr (in)            UTF-8 string or NULL 
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//      user_id (in)        UTF-8 string or NULL 
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//      username (in)       UTF-8 string or NULL 
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//
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//  return value:
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//      pEp_identity struct with correct size values or NULL if out of memory
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//
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//  caveat:
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//      the strings are copied; the original strings are still being owned by
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//      the caller
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DYNAMIC_API pEp_identity *new_identity(
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        const char *address, const char *fpr, const char *user_id,
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        const char *username
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    );
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// identity_dup() - allocate memory and set the string and size fields
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   378
//
vb@37
   379
//  parameters:
vb@37
   380
//      src (in)            identity to duplicate
vb@37
   381
//
vb@37
   382
//  return value:
vb@37
   383
//      pEp_identity struct with correct size values or NULL if out of memory
vb@37
   384
//
vb@37
   385
//  caveat:
vb@37
   386
//      the strings are copied; the original strings are still being owned by
vb@37
   387
//      the caller
vb@37
   388
vb@37
   389
DYNAMIC_API pEp_identity *identity_dup(const pEp_identity *src);
vb@37
   390
vb@37
   391
vb@0
   392
// free_identity() - free all memory being occupied by a pEp_identity struct
vb@0
   393
//
vb@0
   394
//  parameters:
vb@0
   395
//      identity (in)       struct to release
vb@0
   396
//
vb@0
   397
//  caveat:
vb@0
   398
//      not only the struct but also all string memory referenced by the
vb@0
   399
//      struct is being freed; all pointers inside are invalid afterwards
vb@0
   400
vb@0
   401
DYNAMIC_API void free_identity(pEp_identity *identity);
vb@0
   402
vb@0
   403
vb@0
   404
// get_identity() - get identity information
vb@0
   405
//
vb@0
   406
//	parameters:
vb@0
   407
//		session (in)		session handle
vb@0
   408
//		address (in)		C string with communication address, UTF-8 encoded
vb@0
   409
//		identity (out)		pointer to pEp_identity structure with results or
vb@0
   410
//		                    NULL if failure
vb@0
   411
//
vb@0
   412
//	caveat:
vb@0
   413
//	    the address string is being copied; the original string remains in the
vb@0
   414
//	    ownership of the caller
vb@0
   415
//		the resulting pEp_identity structure goes to the ownership of the
vb@0
   416
//		caller and has to be freed with free_identity() when not in use any
vb@0
   417
//		more
vb@0
   418
vb@0
   419
DYNAMIC_API PEP_STATUS get_identity(
vb@0
   420
        PEP_SESSION session, const char *address,
vb@0
   421
        pEp_identity **identity
vb@0
   422
    );
vb@0
   423
vb@0
   424
vb@0
   425
// set_identity() - set identity information
vb@0
   426
//
vb@0
   427
//	parameters:
vb@0
   428
//		session (in)		session handle
vb@0
   429
//		identity (in)		pointer to pEp_identity structure
vb@0
   430
//
vb@0
   431
//	return value:
vb@0
   432
//		PEP_STATUS_OK = 0			    encryption and signing succeeded
vb@0
   433
//		PEP_CANNOT_SET_PERSON		    writing to table person failed
vb@0
   434
//		PEP_CANNOT_SET_PGP_KEYPAIR	    writing to table pgp_keypair failed
vb@0
   435
//		PEP_CANNOT_SET_IDENTITY		    writing to table identity failed
vb@0
   436
//		PEP_COMMIT_FAILED			    SQL commit failed
vb@0
   437
//
vb@0
   438
//	caveat:
vb@0
   439
//		in the identity structure you need to set the const char * fields to
vb@0
   440
//		UTF-8 C strings
vb@0
   441
//		the size fields are ignored
vb@0
   442
vb@0
   443
DYNAMIC_API PEP_STATUS set_identity(
vb@0
   444
        PEP_SESSION session, const pEp_identity *identity
vb@0
   445
    );
vb@0
   446
vb@0
   447
vb@0
   448
// generate_keypair() - generate a new key pair and add it to the key ring
vb@0
   449
//
vb@0
   450
//  parameters:
vb@0
   451
//      session (in)            session handle
vb@0
   452
//		identity (inout)	    pointer to pEp_identity structure
vb@0
   453
//
vb@0
   454
//	return value:
vb@0
   455
//		PEP_STATUS_OK = 0	    encryption and signing succeeded
vb@0
   456
//		PEP_ILLEGAL_VALUE       illegal values for identity fields given
vb@0
   457
//		PEP_CANNOT_CREATE_KEY   key engine is on strike
vb@0
   458
//
vb@0
   459
//  caveat:
vb@0
   460
//      address and username fields must be set to UTF-8 strings
vb@0
   461
//      the fpr field must be set to NULL
vb@0
   462
//
vb@0
   463
//      this function allocates a string and sets set fpr field of identity
vb@0
   464
//      the caller is responsible to call free() for that string or use
vb@0
   465
//      free_identity() on the struct
vb@0
   466
vb@0
   467
DYNAMIC_API PEP_STATUS generate_keypair(
vb@0
   468
        PEP_SESSION session, pEp_identity *identity
vb@0
   469
    );
vb@0
   470
vb@0
   471
vb@0
   472
// delete_keypair() - delete a public key or a key pair from the key ring
vb@0
   473
//
vb@0
   474
//  parameters:
vb@0
   475
//      session (in)            session handle
vb@0
   476
//      fpr (in)                C string with key id or fingerprint of the
vb@0
   477
//                              public key
vb@0
   478
//
vb@0
   479
//  return value:
vb@0
   480
//      PEP_STATUS_OK = 0       key was successfully deleted
vb@0
   481
//      PEP_KEY_NOT_FOUND       key not found
vb@0
   482
//      PEP_ILLEGAL_VALUE       not a valid key id or fingerprint
vb@0
   483
//      PEP_KEY_HAS_AMBIG_NAME  fpr does not uniquely identify a key
vb@0
   484
//      PEP_OUT_OF_MEMORY       out of memory
vb@0
   485
vb@0
   486
DYNAMIC_API PEP_STATUS delete_keypair(PEP_SESSION session, const char *fpr);
vb@0
   487
vb@0
   488
vb@0
   489
// import_key() - import key from data
vb@0
   490
//
vb@0
   491
//  parameters:
vb@0
   492
//      session (in)            session handle
vb@0
   493
//      key_data (in)           key data, i.e. ASCII armored OpenPGP key
vb@0
   494
//      size (in)               amount of data to handle
vb@0
   495
//
vb@0
   496
//  return value:
vb@0
   497
//      PEP_STATUS_OK = 0       key was successfully imported
vb@0
   498
//      PEP_OUT_OF_MEMORY       out of memory
vb@0
   499
//      PEP_ILLEGAL_VALUE       there is no key data to import
vb@0
   500
vb@0
   501
DYNAMIC_API PEP_STATUS import_key(PEP_SESSION session, const char *key_data, size_t size);
vb@0
   502
vb@0
   503
vb@0
   504
// export_key() - export ascii armored key
vb@0
   505
//
vb@0
   506
//  parameters:
vb@0
   507
//      session (in)            session handle
vb@0
   508
//      fpr (in)                key id or fingerprint of key
vb@0
   509
//      key_data (out)          ASCII armored OpenPGP key
vb@0
   510
//      size (out)               amount of data to handle
vb@0
   511
//
vb@0
   512
//  return value:
vb@0
   513
//      PEP_STATUS_OK = 0       key was successfully exported
vb@0
   514
//      PEP_OUT_OF_MEMORY       out of memory
vb@0
   515
//      PEP_KEY_NOT_FOUND       key not found
vb@0
   516
//
vb@0
   517
//  caveat:
vb@0
   518
//      the key_data goes to the ownership of the caller
vb@0
   519
//      the caller is responsible to free() it (on Windoze use pEp_free())
vb@0
   520
vb@0
   521
DYNAMIC_API PEP_STATUS export_key(
vb@0
   522
        PEP_SESSION session, const char *fpr, char **key_data, size_t *size
vb@0
   523
    );
vb@0
   524
vb@0
   525
vb@0
   526
// recv_key() - update key(s) from keyserver
vb@0
   527
//
vb@0
   528
//  parameters:
vb@0
   529
//      session (in)            session handle
vb@0
   530
//      pattern (in)            key id, user id or address to search for as
vb@0
   531
//                              UTF-8 string
vb@0
   532
vb@0
   533
DYNAMIC_API PEP_STATUS recv_key(PEP_SESSION session, const char *pattern);
vb@0
   534
vb@0
   535
vb@0
   536
// find_keys() - find keys in keyring
vb@0
   537
//
vb@0
   538
//  parameters:
vb@0
   539
//      session (in)            session handle
vb@0
   540
//      pattern (in)            key id, user id or address to search for as
vb@0
   541
//                              UTF-8 string
vb@0
   542
//      keylist (out)           list of fingerprints found or NULL on error
vb@0
   543
//
vb@0
   544
//  caveat:
vb@0
   545
//	    the ownerships of keylist isgoing to the caller
vb@0
   546
//	    the caller must use free_stringlist() to free it
vb@0
   547
vb@0
   548
vb@0
   549
DYNAMIC_API PEP_STATUS find_keys(
vb@0
   550
        PEP_SESSION session, const char *pattern, stringlist_t **keylist
vb@0
   551
    );
vb@0
   552
vb@0
   553
vb@0
   554
// send_key() - send key(s) to keyserver
vb@0
   555
//
vb@0
   556
//  parameters:
vb@0
   557
//      session (in)            session handle
vb@0
   558
//      pattern (in)            key id, user id or address to search for as
vb@0
   559
//                              UTF-8 string
vb@0
   560
vb@0
   561
DYNAMIC_API PEP_STATUS send_key(PEP_SESSION session, const char *pattern);
vb@0
   562
vb@0
   563
vb@0
   564
// pEp_free() - free memory allocated by pEp engine
vb@0
   565
//
vb@0
   566
//  parameters:
vb@0
   567
//      p (in)                  pointer to free
vb@0
   568
//
vb@0
   569
//  The reason for this function is that heap management can be a pretty
vb@0
   570
//  complex task with Windoze. This free() version calls the free()
vb@0
   571
//  implementation of the C runtime library which was used to build pEp engine,
vb@0
   572
//  so you're using the correct heap. For more information, see:
vb@0
   573
//  <http://msdn.microsoft.com/en-us/library/windows/desktop/aa366711(v=vs.85).aspx>
vb@0
   574
vb@0
   575
DYNAMIC_API void pEp_free(void *p);
vb@0
   576
vb@8
   577
vb@8
   578
// get_trust() - get the trust level a key has for a person
vb@8
   579
//
vb@8
   580
//  parameters:
vb@8
   581
//      session (in)            session handle
vb@8
   582
//      identity (inout)        user_id and fpr to check as UTF-8 strings (in)
vb@8
   583
//                              user_id and comm_type as result (out)
vb@8
   584
//
vb@14
   585
//  this function modifies the given identity struct; the struct remains in
vb@14
   586
// the ownership of the caller
vb@14
   587
//  if the trust level cannot be determined identity->comm_type is set
vb@14
   588
//  to PEP_ct_unknown
vb@8
   589
vb@8
   590
DYNAMIC_API PEP_STATUS get_trust(PEP_SESSION session, pEp_identity *identity);
vb@8
   591
vb@8
   592
vb@9
   593
// get_key_rating() - get the rating a bare key has
vb@9
   594
//
vb@9
   595
//  parameters:
vb@9
   596
//      session (in)            session handle
vb@9
   597
//      fpr (in)                unique identifyer for key as UTF-8 string
vb@9
   598
//      comm_type (out)         key rating
vb@10
   599
//
vb@14
   600
//  if an error occurs, *comm_type is set to PEP_ct_unknown and an error
vb@10
   601
//  is returned
vb@9
   602
vb@9
   603
DYNAMIC_API PEP_STATUS get_key_rating(
vb@14
   604
        PEP_SESSION session,
vb@14
   605
        const char *fpr,
vb@14
   606
        PEP_comm_type *comm_type
vb@9
   607
    );
vb@9
   608
vb@9
   609
vb@198
   610
// renew_key() - renew an expired key
vb@196
   611
//
vb@196
   612
//  parameters:
vb@196
   613
//      session (in)            session handle
vb@196
   614
//      key_id (in)             ID of key to renew as UTF-8 string
vb@201
   615
//      ts (in)                 timestamp when key should expire or NULL for
vb@201
   616
//                              default
vb@196
   617
vb@201
   618
DYNAMIC_API PEP_STATUS renew_key(
vb@201
   619
        PEP_SESSION session,
vb@201
   620
        const char *fpr,
vb@201
   621
        const timestamp *ts
vb@201
   622
    );
vb@196
   623
vb@196
   624
vb@198
   625
// revoke_key() - revoke an expired key
vb@197
   626
//
vb@197
   627
//  parameters:
vb@197
   628
//      session (in)            session handle
vb@197
   629
//      key_id (in)             ID of key to revoke as UTF-8 string
vb@211
   630
//      reason (in)             text with reason for revoke as UTF-8 string
vb@211
   631
//                              or NULL if reason unknown
vb@211
   632
//
vb@211
   633
//  caveat:
vb@211
   634
//      reason text must not include empty lines
vb@197
   635
vb@211
   636
DYNAMIC_API PEP_STATUS revoke_key(
vb@211
   637
        PEP_SESSION session,
vb@211
   638
        const char *fpr,
vb@211
   639
        const char *reason
vb@211
   640
    );
vb@197
   641
vb@197
   642
vb@0
   643
#ifdef __cplusplus
vb@0
   644
}
vb@0
   645
#endif