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path: root/protocols/JabberG/src/jabber_omemo.cpp
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/*

Jabber Protocol Plugin for Miranda NG

Copyright (c) 2002-04  Santithorn Bunchua
Copyright (c) 2005-12  George Hazan
Copyright (c) 2007     Maxim Mluhov
Copyright (ñ) 2012-17 Miranda NG project

This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.

*/

#include "stdafx.h"
#include <openssl/evp.h>
#include <openssl/hmac.h>
#include <openssl/rand.h>
#include <openssl/sha.h>
#include <signal_protocol.h>
#include <signal_protocol_types.h>
#include <key_helper.h>

//c++
#include <cstddef>

namespace utils {
	// code from http://stackoverflow.com/questions/3368883/how-does-this-size-of-array-template-function-work
	template <std::size_t N>
	struct type_of_size
	{
		typedef char type[N];
	};

	template <typename T, std::size_t Size>
	typename type_of_size<Size>::type& sizeof_array_helper(T(&)[Size]);

#define _countof_portable(pArray) sizeof(sizeof_array_helper(pArray))
}

using namespace utils;

namespace omemo {

	int random_func(uint8_t *data, size_t len, void * /*user_data*/)
	{
		Utils_GetRandom(data, len);
		return 0;
	}

	struct hmac_sha256_ctx {
		uint8_t *key, *data;
		size_t key_len, data_len;
	};

	int hmac_sha256_init_func(void **hmac_context, const uint8_t *key, size_t key_len, void * /*user_data*/)
	{
		hmac_sha256_ctx *ctx = (hmac_sha256_ctx*)mir_alloc(sizeof(hmac_sha256_ctx));
		ctx->key = (uint8_t*)mir_alloc(key_len);
		memcpy(ctx->key, key, key_len);
		ctx->key_len = key_len;
		*hmac_context = ctx;
		return 0;
	}
	int hmac_sha256_update_func(void *hmac_context, const uint8_t *data, size_t data_len, void * /*user_data*/)
	{
		hmac_sha256_ctx *ctx = (hmac_sha256_ctx*)hmac_context;
		ctx->data = (uint8_t*)mir_alloc(data_len);
		memcpy(ctx->data, data, data_len);
		ctx->data_len = data_len;
		return 0;
	}
	int hmac_sha256_final_func(void *hmac_context, signal_buffer **output, void * /*user_data*/)
	{
		hmac_sha256_ctx *ctx = (hmac_sha256_ctx*)hmac_context;
		BYTE hashout[MIR_SHA256_HASH_SIZE];
		mir_hmac_sha256(hashout, ctx->key, ctx->key_len, ctx->data, ctx->data_len);
		signal_buffer *output_buffer = signal_buffer_create(hashout, MIR_SHA256_HASH_SIZE);
		*output = output_buffer;
		return 0;
	}
	void hmac_sha256_cleanup_func(void * hmac_context, void * /*user_data*/)
	{
		hmac_sha256_ctx *ctx = (hmac_sha256_ctx*)hmac_context;
		mir_free(ctx->key);
		mir_free(ctx->data);
	}

	int sha512_digest_init_func(void **digest_context, void * /*user_data*/)
	{

		int result = 0;
		EVP_MD_CTX *ctx;

		ctx = EVP_MD_CTX_create();
		if (!ctx) {
			result = SG_ERR_NOMEM;
			goto complete;
		}

		result = EVP_DigestInit_ex(ctx, EVP_sha512(), 0);
		if (result == 1) {
			result = SG_SUCCESS;
		}
		else {
			result = SG_ERR_UNKNOWN;
		}

	complete:
		if (result < 0) {
			if (ctx) {
				EVP_MD_CTX_destroy(ctx);
			}
		}
		else {
			*digest_context = ctx;
		}
		return result;
	}

	int sha512_digest_update_func(void *digest_context, const uint8_t *data, size_t data_len, void * /*user_data*/)
	{
		EVP_MD_CTX *ctx = (EVP_MD_CTX*)digest_context;

		int result = EVP_DigestUpdate(ctx, data, data_len);

		return (result == 1) ? SG_SUCCESS : SG_ERR_UNKNOWN;
	}

	int sha512_digest_final_func(void *digest_context, signal_buffer **output, void * /*user_data*/)
	{
		int result = 0;
		unsigned char md[EVP_MAX_MD_SIZE];
		unsigned int len = 0;
		EVP_MD_CTX *ctx = (EVP_MD_CTX*)digest_context;

		result = EVP_DigestFinal_ex(ctx, md, &len);
		if (result == 1) {
			result = SG_SUCCESS;
		}
		else {
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		result = EVP_DigestInit_ex(ctx, EVP_sha512(), 0);
		if (result == 1) {
			result = SG_SUCCESS;
		}
		else {
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		signal_buffer *output_buffer = signal_buffer_create(md, len);
		if (!output_buffer) {
			result = SG_ERR_NOMEM;
			goto complete;
		}

		*output = output_buffer;

	complete:
		return result;
	}

	void sha512_digest_cleanup_func(void *digest_context, void * /*user_data*/)
	{
		EVP_MD_CTX *ctx = (EVP_MD_CTX *)digest_context;
		EVP_MD_CTX_destroy(ctx);
	}

	const EVP_CIPHER *aes_cipher(int cipher, size_t key_len)
	{
		if (cipher == SG_CIPHER_AES_CBC_PKCS5) {
			if (key_len == 16) {
				return EVP_aes_128_cbc();
			}
			else if (key_len == 24) {
				return EVP_aes_192_cbc();
			}
			else if (key_len == 32) {
				return EVP_aes_256_cbc();
			}
		}
		else if (cipher == SG_CIPHER_AES_CTR_NOPADDING) {
			if (key_len == 16) {
				return EVP_aes_128_ctr();
			}
			else if (key_len == 24) {
				return EVP_aes_192_ctr();
			}
			else if (key_len == 32) {
				return EVP_aes_256_ctr();
			}
		}
		return 0;
	}

	int encrypt_func(signal_buffer **output,
		int cipher,
		const uint8_t *key, size_t key_len,
		const uint8_t *iv, size_t iv_len,
		const uint8_t *plaintext, size_t plaintext_len,
		void * /*user_data*/)
	{
		//TODO: use netlib for log
		int result = 0;
		uint8_t *out_buf = 0;

		const EVP_CIPHER *evp_cipher = aes_cipher(cipher, key_len);
		if (!evp_cipher) {
			//fprintf(stderr, "invalid AES mode or key size: %zu\n", key_len);
			return SG_ERR_UNKNOWN;
		}

		if (iv_len != 16) {
			//fprintf(stderr, "invalid AES IV size: %zu\n", iv_len);
			return SG_ERR_UNKNOWN;
		}

		if (plaintext_len > INT_MAX - EVP_CIPHER_block_size(evp_cipher)) {
			//fprintf(stderr, "invalid plaintext length: %zu\n", plaintext_len);
			return SG_ERR_UNKNOWN;
		}

		EVP_CIPHER_CTX ctx;
		EVP_CIPHER_CTX_init(&ctx);

		result = EVP_EncryptInit_ex(&ctx, evp_cipher, 0, key, iv);
		if (!result) {
			//fprintf(stderr, "cannot initialize cipher\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		if (cipher == SG_CIPHER_AES_CTR_NOPADDING) {
			result = EVP_CIPHER_CTX_set_padding(&ctx, 0);
			if (!result) {
				//fprintf(stderr, "cannot set padding\n");
				result = SG_ERR_UNKNOWN;
				goto complete;
			}
		}

		out_buf = (uint8_t*)mir_alloc(sizeof(uint8_t) * (plaintext_len + EVP_CIPHER_block_size(evp_cipher)));
		if (!out_buf) {
			//fprintf(stderr, "cannot allocate output buffer\n");
			result = SG_ERR_NOMEM;
			goto complete;
		}

		int out_len = 0;
		result = EVP_EncryptUpdate(&ctx,
			out_buf, &out_len, plaintext, (int)plaintext_len);
		if (!result) {
			//fprintf(stderr, "cannot encrypt plaintext\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		int final_len = 0;
		result = EVP_EncryptFinal_ex(&ctx, out_buf + out_len, &final_len);
		if (!result) {
			//fprintf(stderr, "cannot finish encrypting plaintext\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		*output = signal_buffer_create(out_buf, out_len + final_len);

	complete:
		EVP_CIPHER_CTX_cleanup(&ctx);
		if (out_buf) {
			mir_free(out_buf);
		}
		return result;
	}

	int decrypt_func(signal_buffer **output,
		int cipher,
		const uint8_t *key, size_t key_len,
		const uint8_t *iv, size_t iv_len,
		const uint8_t *ciphertext, size_t ciphertext_len,
		void * /*user_data*/)
	{
		//TODO: use netlib for log
		int result = 0;
		uint8_t *out_buf = 0;

		const EVP_CIPHER *evp_cipher = aes_cipher(cipher, key_len);
		if (!evp_cipher) {
			//fprintf(stderr, "invalid AES mode or key size: %zu\n", key_len);
			return SG_ERR_INVAL;
		}

		if (iv_len != 16) {
			//fprintf(stderr, "invalid AES IV size: %zu\n", iv_len);
			return SG_ERR_INVAL;
		}

		if (ciphertext_len > INT_MAX - EVP_CIPHER_block_size(evp_cipher)) {
			//fprintf(stderr, "invalid ciphertext length: %zu\n", ciphertext_len);
			return SG_ERR_UNKNOWN;
		}

		EVP_CIPHER_CTX ctx;
		EVP_CIPHER_CTX_init(&ctx);

		result = EVP_DecryptInit_ex(&ctx, evp_cipher, 0, key, iv);
		if (!result) {
			///fprintf(stderr, "cannot initialize cipher\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		if (cipher == SG_CIPHER_AES_CTR_NOPADDING) {
			result = EVP_CIPHER_CTX_set_padding(&ctx, 0);
			if (!result) {
				//fprintf(stderr, "cannot set padding\n");
				result = SG_ERR_UNKNOWN;
				goto complete;
			}
		}

		out_buf = (uint8_t*)mir_alloc(sizeof(uint8_t) * (ciphertext_len + EVP_CIPHER_block_size(evp_cipher)));
		if (!out_buf) {
			//fprintf(stderr, "cannot allocate output buffer\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		int out_len = 0;
		result = EVP_DecryptUpdate(&ctx,
			out_buf, &out_len, ciphertext, (int)ciphertext_len);
		if (!result) {
			//fprintf(stderr, "cannot decrypt ciphertext\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		int final_len = 0;
		result = EVP_DecryptFinal_ex(&ctx, out_buf + out_len, &final_len);
		if (!result) {
			//fprintf(stderr, "cannot finish decrypting ciphertext\n");
			result = SG_ERR_UNKNOWN;
			goto complete;
		}

		*output = signal_buffer_create(out_buf, out_len + final_len);

	complete:
		EVP_CIPHER_CTX_cleanup(&ctx);
		if (out_buf) {
			free(out_buf);
		}
		return result;
	}



	mir_cs _signal_cs;
	mir_cslockfull signal_mutex(_signal_cs);

	void lock(void * /*user_data*/)
	{
		signal_mutex.lock();
	}

	void unlock(void * /*user_data*/)
	{
		signal_mutex.unlock();
	}
	signal_context *global_context;

	int init_omemo()
	{
		signal_mutex.unlock(); //fuck...
		signal_context_create(&global_context, NULL);
		signal_crypto_provider provider;
		provider.random_func = &random_func;
		provider.hmac_sha256_init_func = &hmac_sha256_init_func;
		provider.hmac_sha256_update_func = &hmac_sha256_update_func;
		provider.hmac_sha256_final_func = &hmac_sha256_final_func;
		provider.hmac_sha256_cleanup_func = &hmac_sha256_cleanup_func;
		provider.sha512_digest_init_func = &sha512_digest_init_func;
		provider.sha512_digest_update_func = &sha512_digest_update_func;
		provider.sha512_digest_final_func = &sha512_digest_final_func;
		provider.sha512_digest_cleanup_func = &sha512_digest_cleanup_func;
		provider.encrypt_func = &encrypt_func;
		provider.decrypt_func = &decrypt_func;

		if (signal_context_set_crypto_provider(global_context, &provider))
		{
			//TODO: handle error
		}

		if (signal_context_set_locking_functions(global_context, &lock, &unlock))
		{
			//TODO: handle error
		}

		return 0;
	}

	struct omemo_device
	{
		int id;
		ratchet_identity_key_pair *device_key;
	};

	omemo_device* create_device()
	{
		omemo_device *dev = (omemo_device*)mir_alloc(sizeof(omemo_device));
		for (dev->id = 0; dev->id == 0;)
		{
			Utils_GetRandom((void*)&(dev->id), 4);
		}
		
		if (signal_protocol_key_helper_generate_identity_key_pair(&(dev->device_key), global_context))
		{
			//TODO: handle error
		}

		return dev;
	}
	bool IsFirstRun(CJabberProto *proto)
	{
		//TODO: more sanity checks
		//TODO: check and if necessary refresh prekeys
		int id = proto->getDword("OmemoDeviceId", 0);
		if (id == 0)
			return true;
		ptrA buf(proto->getStringA("OmemoDevicePublicKey"));
		if (!buf || !buf[0])
			return true;
		ptrA buf2(proto->getStringA("OmemoDevicePrivateKey")); //ptrA reinitialization always return "" or random trash
		if (!buf2 || !buf2[0])
			return true;

		return false;
	}
	void RefreshDevice(CJabberProto *proto)
	{
		//generate and save device id
		omemo_device *new_dev = create_device();
		proto->setDword("OmemoDeviceId", new_dev->id);
		//generate and save device key
		ec_public_key *public_key = ratchet_identity_key_pair_get_public(new_dev->device_key);
		signal_buffer *key_buf;
		ec_public_key_serialize(&key_buf, public_key);
		char *key = mir_base64_encode(signal_buffer_data(key_buf), (unsigned int)signal_buffer_len(key_buf));
		proto->setString("OmemoDevicePublicKey", key);
		mir_free(key);
		signal_buffer_free(key_buf);
		ec_private_key *private_key = ratchet_identity_key_pair_get_private(new_dev->device_key);
		ec_private_key_serialize(&key_buf, private_key);
		key = mir_base64_encode(signal_buffer_data(key_buf), (unsigned int)signal_buffer_len(key_buf));
		proto->setString("OmemoDevicePrivateKey", key);
		mir_free(key);
		signal_buffer_free(key_buf);


		//TODO: generate and store "bundle"
		//TODO: is it required to resend bundle everytime with device ?

		//generate and save signed pre key

		session_signed_pre_key* signed_pre_key;
		signal_protocol_key_helper_generate_signed_pre_key(&signed_pre_key, new_dev->device_key, 1, time(0), global_context);
		SIGNAL_UNREF(new_dev->device_key);
		ec_key_pair *signed_pre_key_pair =  session_signed_pre_key_get_key_pair(signed_pre_key);
		public_key = ec_key_pair_get_public(signed_pre_key_pair);
		ec_public_key_serialize(&key_buf, public_key);
		key = mir_base64_encode(signal_buffer_data(key_buf), (unsigned int)signal_buffer_len(key_buf));
		proto->setString("OmemoSignedPreKeyPublic", key);
		mir_free(key);
		signal_buffer_free(key_buf);
		private_key = ec_key_pair_get_private(signed_pre_key_pair);
		ec_private_key_serialize(&key_buf, private_key);
		key = mir_base64_encode(signal_buffer_data(key_buf), (unsigned int)signal_buffer_len(key_buf));
		proto->setString("OmemoSignedPreKeyPrivate", key);
		mir_free(key);
		signal_buffer_free(key_buf);
		char *signature = mir_base64_encode(session_signed_pre_key_get_signature(signed_pre_key), (unsigned int)session_signed_pre_key_get_signature_len(signed_pre_key));
		proto->setString("OmemoSignedPreKeySignature", signature);
		mir_free(signature);

		//generate and save pre keys set

		signal_protocol_key_helper_pre_key_list_node *keys_root, *it;
		signal_protocol_key_helper_generate_pre_keys(&keys_root, 0, 100, global_context);
		it = keys_root;
		char setting_name[64];
		for (int i = 0; it; it = signal_protocol_key_helper_key_list_next(it), i++)
		{
			session_pre_key *pre_key = signal_protocol_key_helper_key_list_element(it);
			ec_key_pair *pre_key_pair = session_pre_key_get_key_pair(pre_key);
			public_key = ec_key_pair_get_public(pre_key_pair);
			ec_public_key_serialize(&key_buf, public_key);
			key = mir_base64_encode(signal_buffer_data(key_buf), (unsigned int)signal_buffer_len(key_buf));
			mir_snprintf(setting_name, "OmemoPreKey%dPublic", i);
			proto->setString(setting_name, key);
			mir_free(key);
			signal_buffer_free(key_buf);
			private_key = ec_key_pair_get_private(pre_key_pair);
			ec_private_key_serialize(&key_buf, private_key);
			key = mir_base64_encode(signal_buffer_data(key_buf), (unsigned int)signal_buffer_len(key_buf));
			mir_snprintf(setting_name, "OmemoPreKey%dPrivate", i);
			proto->setString(setting_name, key);
			mir_free(key);
			signal_buffer_free(key_buf);

		}
		signal_protocol_key_helper_key_list_free(keys_root);

	}
	DWORD GetOwnDeviceId(CJabberProto *proto)
	{
		DWORD own_id = proto->getDword("OmemoDeviceId", 0);
		if (own_id == 0)
		{
			proto->OmemoInitDevice();
			own_id = proto->getDword("OmemoDeviceId", 0);
		}
		return own_id;
	}

	struct IqHandlerUserData {
		wchar_t* node_name;
	};

	void pubsub_createnode_impl(wchar_t *node_name, CJabberProto *proto)
	{
		//xep-0060 8.1.1 required by xep-0163 3
		IqHandlerUserData *data = (IqHandlerUserData*)mir_alloc(sizeof(IqHandlerUserData)); //this may cause memory leak
		data->node_name = mir_wstrdup(node_name);
		XmlNodeIq iq(proto->AddIQ(&CJabberProto::OmemoOnIqResultPubsubCreateNode, JABBER_IQ_TYPE_SET, proto->m_PubsubServiceName, 0UL, -1, data)); //TODO: check is it correct
		iq << XATTR(L"from", proto->m_ThreadInfo->fullJID); //full unstripped jid used here
		HXML create_node = iq << XCHILDNS(L"pubsub", L"http://jabber.org/protocol/pubsub") << XCHILD(L"create");
		create_node << XATTR(L"node", node_name);
		proto->m_ThreadInfo->send(iq);
	}

	void pubsub_createnode(wchar_t *node_name, CJabberProto *proto)
	{
		if (!proto->m_PubsubServiceName)
		{
			IqHandlerUserData *data = (IqHandlerUserData*)mir_alloc(sizeof(IqHandlerUserData)); //this may cause memory leak
			data->node_name = mir_wstrdup(node_name);
			proto->m_ThreadInfo->send(
				XmlNodeIq(proto->AddIQ(&CJabberProto::OmemoOnIqResultServerDiscoItems, JABBER_IQ_TYPE_GET, _A2T(proto->m_ThreadInfo->conn.server), 0UL, -1, data))
				<< XQUERY(JABBER_FEAT_DISCO_ITEMS));
		}
		else
			pubsub_createnode_impl(node_name, proto);
	}

};

void CJabberProto::OmemoOnIqResultServerDiscoInfoJid(HXML iqNode, CJabberIqInfo *pInfo)
{
	if (m_PubsubServiceName) //one pubsub address is enough
		return;
	if (iqNode == NULL)
		return;

	const wchar_t *type = XmlGetAttrValue(iqNode, L"type");
	if (mir_wstrcmp(type, L"result"))
		return;

	LPCTSTR jid = XmlGetAttrValue(iqNode, L"from");

	HXML query = XmlGetChildByTag(iqNode, "query", "xmlns", JABBER_FEAT_DISCO_INFO);
	if (query == NULL)
		return;

	HXML identity;
	for (int i = 1; (identity = XmlGetNthChild(query, L"identity", i)) != NULL; i++)
	{
		JABBER_DISCO_FIELD tmp = {
			XmlGetAttrValue(identity, L"category"),
			XmlGetAttrValue(identity, L"type") 
		};

		if (!mir_wstrcmp(tmp.category, L"pubsub") && !mir_wstrcmp(tmp.type, L"service"))
		{
			omemo::IqHandlerUserData *data = (omemo::IqHandlerUserData*)pInfo->GetUserData();
			m_PubsubServiceName = mir_wstrdup(jid);
			omemo::pubsub_createnode(data->node_name, this);
			mir_free(data->node_name);
			mir_free(data);
			break;
		}
	}

}

void CJabberProto::OmemoOnIqResultServerDiscoItems(HXML iqNode, CJabberIqInfo* pInfo)
{
	if (iqNode == NULL)
		return;

	const wchar_t *type = XmlGetAttrValue(iqNode, L"type");
	if (mir_wstrcmp(type, L"result"))
		return;

	HXML query = XmlGetChildByTag(iqNode, "query", "xmlns", JABBER_FEAT_DISCO_ITEMS);
	if (query == NULL)
		return;

	HXML item;
	for (int i = 1; (item = XmlGetNthChild(query, L"item", i)) != NULL; i++)
	{
		LPCTSTR jid = XmlGetAttrValue(item, L"jid");
		if(jid)
		m_ThreadInfo->send(
			XmlNodeIq(AddIQ(&CJabberProto::OmemoOnIqResultServerDiscoInfoJid, JABBER_IQ_TYPE_GET, jid, 0UL, -1, pInfo->GetUserData()))
			<< XQUERY(JABBER_FEAT_DISCO_INFO));
	}
}

void CJabberProto::OmemoOnIqResultPubsubCreateNode(HXML iqNode, CJabberIqInfo *pInfo)
{

	if (iqNode == NULL)
		return;

	LPCTSTR type = XmlGetAttrValue(iqNode, L"type");
	if (mir_wstrcmp(type, L"result"))
	{
		HXML error_node = XmlGetChild(iqNode, L"error");
		if (!error_node) //not error and not success...
			return;
		HXML error_type_node = XmlGetChild(error_node, L"conflict"); //conflict is ok
		if (!error_type_node)
			return;
	}


	omemo::IqHandlerUserData *data = (omemo::IqHandlerUserData*)pInfo->GetUserData();
	if (!mir_wstrcmp(data->node_name, JABBER_FEAT_OMEMO L":devicelist"))
	{ //device list node created
		OmemoAnnounceDevice();
	}
	else
	{
		DWORD own_id = omemo::GetOwnDeviceId(this);
		wchar_t attr_val[128];
		mir_snwprintf(attr_val, L"%s:bundles:%d", JABBER_FEAT_OMEMO, own_id);
		if (!mir_wstrcmp(data->node_name, attr_val))
		{ //device bundle node created
			OmemoSendBundle();
		}
	}

	mir_free(data->node_name);
	mir_free(data);
}


void CJabberProto::OmemoInitDevice()
{
	if (omemo::IsFirstRun(this))
		omemo::RefreshDevice(this);
}


void CJabberProto::OmemoHandleMessage(HXML /*node*/)
{
	//TODO: handle "encrypted" node here
}

void CJabberProto::OmemoHandleDeviceList(HXML node)
{
	if (!node)
		return;
	HXML message = xmlGetParent(node);
	message = xmlGetParent(node);
	LPCTSTR jid = XmlGetAttrValue(message, L"from");
	MCONTACT hContact = HContactFromJID(jid);
	node = XmlGetChild(node, "item"); //get <item> node
	if (!node)
		return;
	node = XmlGetChildByTag(node, L"list", L"xmlns", JABBER_FEAT_OMEMO); //<list xmlns = 'urn:xmpp:omemo:0'>
	if (!node)
		return;
	bool own_jid = false; //TODO: detect own jid (not working due to jabber_thread.cpp:947+)
	DWORD current_id;
	LPCTSTR current_id_str;
	if (own_jid)
	{
		//check if our device exist
		bool own_device_listed = false;
		DWORD own_id = omemo::GetOwnDeviceId(this);
		int i = 0;
		char setting_name[64];
		for (HXML list_item = xmlGetFirstChild(node); list_item; xmlGetNextNode(list_item))
		{
			current_id_str = xmlGetAttrValue(list_item, L"id");
			current_id = _wtoi(current_id_str);
			if (current_id == own_id)
				own_device_listed = true;
			mir_snprintf(setting_name, "OmemoDeviceId%d", i);
			setDword(setting_name, current_id);
		}
		if (!own_device_listed)
			OmemoAnnounceDevice();
	}
	else
	{
		//store device id's
		int i = 0;
		char setting_name[64];
		for (HXML list_item = xmlGetFirstChild(node); list_item; xmlGetNextNode(list_item), i++)
		{
			current_id_str = xmlGetAttrValue(list_item, L"id");
			current_id = _wtoi(current_id_str);
			mir_snprintf(setting_name, "OmemoDeviceId%d", i);
			setDword(hContact, setting_name, current_id);
		}
		//TODO: remove all settings higher than 'i' from db
	}
}



void CJabberProto::OmemoAnnounceDevice()
{
	// check "OmemoDeviceId%d" for own id and send  updated list if not exist
	DWORD own_id = omemo::GetOwnDeviceId(this);

	char setting_name[64];
	for (int i = 0;; ++i) {
		mir_snprintf(setting_name, "OmemoDeviceId%d", i);
		DWORD val = getDword(setting_name);
		if (val == 0)
			break;
		if (val == own_id)
			return; // nothing to do, list is fresh enough
	}

	// add own device id
	// construct node
	wchar_t szBareJid[JABBER_MAX_JID_LEN];
	XmlNodeIq iq(L"set", SerialNext()); 
	iq << XATTR(L"from", JabberStripJid(m_ThreadInfo->fullJID, szBareJid, _countof_portable(szBareJid)));
	HXML publish_node = iq << XCHILDNS(L"pubsub", L"http://jabber.org/protocol/pubsub") << XCHILD(L"publish") << XATTR(L"node", JABBER_FEAT_OMEMO L":devicelist");
	HXML list_node = publish_node << XCHILDNS(L"item") << XCHILDNS(L"list", JABBER_FEAT_OMEMO);

	for (int i = 0; ; ++i) {
		mir_snprintf(setting_name, "OmemoDeviceId%d", i);
		DWORD val = getDword(setting_name);
		if (val == 0)
			break;

		list_node << XCHILD(L"device") << XATTRI(L"id", val);
	}
	list_node << XCHILD(L"device") << XATTRI(L"id", own_id);

	// send device list back
	//TODOL handle response
	m_ThreadInfo->send(iq);
}

void CJabberProto::OmemoSendBundle()
{
	// get own device id
	DWORD own_id = omemo::GetOwnDeviceId(this);

	// construct bundle node
	wchar_t szBareJid[JABBER_MAX_JID_LEN];
	XmlNodeIq iq(L"set", SerialNext());
	iq << XATTR(L"from", JabberStripJid(m_ThreadInfo->fullJID, szBareJid, _countof_portable(szBareJid)));

	HXML publish_node = iq << XCHILDNS(L"pubsub", L"http://jabber.org/protocol/pubsub") << XCHILD(L"publish");
	{
		wchar_t attr_val[128];
		mir_snwprintf(attr_val, L"%s:bundles:%d", JABBER_FEAT_OMEMO, own_id);
		publish_node << XATTR(L"node", attr_val);
	}
	HXML bundle_node = publish_node << XCHILD(L"item") << XCHILDNS(L"bundle", JABBER_FEAT_OMEMO);

	// add signed pre key public
	bundle_node << XCHILD(L"signedPreKeyPublic", ptrW(getWStringA("OmemoSignedPreKeyPublic"))) << XATTR(L"signedPreKeyId", L"1");

	//add pre key signature
	bundle_node << XCHILD(L"signedPreKeySignature", ptrW(getWStringA("OmemoSignedPreKeySignature")));

	//add identity key
	//it is must be a public key right ?, standart is a bit confusing...
	bundle_node << XCHILD(L"identityKey", ptrW(getWStringA("OmemoDevicePublicKey")));

	//add prekeys
	HXML prekeys_node = XmlAddChild(bundle_node, L"prekeys");

	char setting_name[64];
	for (int i = 0;; i++) {
		mir_snprintf(setting_name, "OmemoPreKey%dPublic", i);
		ptrW val(getWStringA(setting_name));
		if (val == nullptr)
			break;

		prekeys_node << XCHILD(L"preKeyPublic", val) << XATTRI(L"preKeyId", i + 1);
	}

	// send bundle
	//TODOL handle response
	m_ThreadInfo->send(iq);
}

void CJabberProto::OmemoCreateNodes()
{
	omemo::pubsub_createnode(JABBER_FEAT_OMEMO L":devicelist", this);
	DWORD own_id = omemo::GetOwnDeviceId(this);
	wchar_t attr_val[128];
	mir_snwprintf(attr_val, L"%s:bundles:%d", JABBER_FEAT_OMEMO, own_id);
	omemo::pubsub_createnode(attr_val, this);
}