doubango/tinySIGCOMP/src/tcomp_state.c
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 #if HAVE_CRT
 #define _CRTDBG_MAP_ALLOC 
 #include <stdlib.h> 
 #include <crtdbg.h>
 #endif //HAVE_CRT
 /*
74ca6d11
 * Copyright (C) 2020, University of the Basque Country (UPV/EHU)
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 * Contact for licensing options: <licensing-mcpttclient(at)mcopenplatform(dot)com>
 *
 * The original file was part of Open Source Doubango Framework
 * Copyright (C) 2010-2011 Mamadou Diop.
 * Copyright (C) 2012 Doubango Telecom <http://doubango.org>
 *
 * This file is part of Open Source Doubango Framework.
 *
 * DOUBANGO is free software: you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * DOUBANGO 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 DOUBANGO.
 *
 */
 
 
 /**@file tcomp_state.c
  * @brief  SigComp state.
  *
  * @author Mamadou Diop <diopmamadou(at)yahoo.fr>
  *
 
  */
 #include "tcomp_state.h"
 #include "tsk_memory.h"
 #include "tsk_debug.h"
 #include "tsk_sha1.h"
 
 /** Creates new SigComp state.
 */
 tcomp_state_t* tcomp_state_create(uint32_t length, uint32_t address, uint32_t instruction, uint32_t minimum_access_length, uint32_t retention_priority)
 {
 	tcomp_state_t *state;
 	if((state = tsk_object_new(tcomp_state_def_t))){
 		state->length = length;
 		state->address = address;
 		state->instruction = instruction;
 		state->minimum_access_length = minimum_access_length;
 		state->retention_priority = retention_priority;
 
 		state->value = tcomp_buffer_create_null();
 		state->identifier = tcomp_buffer_create_null();
 	}
 	else{
 		TSK_DEBUG_ERROR("Failed to create new state.");
 	}
 	return state;
 }
 
 /** Compares two sigomp states.
 * @param state1 First state to compare.
 * @param state2 Second state to compare.
 * @retval 1 if the two handles are equals and 0 otherwise.
 */
 int tcomp_state_equals(const tcomp_state_t *state1, const tcomp_state_t *state2)
 {
 	if(state1 && state2)
 	{
 		return tcomp_buffer_equals(state1->identifier, state2->identifier);
 	}
 	else if(!state1 && !state2) return 1;
 	else return 0;
 }
 
 /**Computes the state identifier by calculating a 20-byte SHA-1 hash [RFC-3174] over the
 *  byte string formed by concatenating the state_length, state_address,
 *  state_instruction, minimum_access_length and state_value (in the order given).
 * @param state The state to make valid.
 */
 void tcomp_state_makeValid(tcomp_state_t* state)
 {
 	tsk_sha1context_t sha;
 
 	if(!state){
 		TSK_DEBUG_ERROR("Invalid parameter");
 		return;
 	}
 
 	/* Lock */
 	tsk_safeobj_lock(state);
 	
 	tcomp_buffer_allocBuff(state->identifier, TSK_SHA1_DIGEST_SIZE);
 
 	/*=============
 		* Calculates a 20-byte SHA-1 hash [RFC-3174] over the byte string formed by concatenating the state_length, state_address,
 	    * state_instruction, minimum_access_length and state_value (in the order given).  This is the state_identifier. 
 	*/
 	{
 		uint8_t i;
 		int32_t err = tsk_sha1reset(&sha);
 		uint8_t firstPart[8];
 		
 #ifdef __SYMBIAN32__
 		uint32_t values[4];
 		values[0] = state->length,
 		values[1] = state->address,
 		values[2] = state->instruction,
 		values[3] = state->minimum_access_length;
 		
 #else
 		uint32_t values[4] = { state->length, state->address, state->instruction, state->minimum_access_length };
 #endif
 				
 		for(i=0; i<4; i++)
 		{
 		#if 0 /*BIG_ENDIAN*/// Do not change this (it's for my own tests)
 			firstPart[i] = (values[i] & 0xff);
 			firstPart[i+1] = (values[i] >> 8);
 		#else
 			firstPart[2*i] = (values[i] >> 8);
 			firstPart[2*i+1] = (values[i]& 0xff);
 		#endif
 		}
 
 		tsk_sha1input(&sha, firstPart, 8);
 		tsk_sha1input(&sha, tcomp_buffer_getBuffer(state->value), tcomp_buffer_getSize(state->value));
 		err = tsk_sha1result(&sha, (uint8_t*)tcomp_buffer_getBuffer(state->identifier));
 	}
 
 	/* unlock */
 	tsk_safeobj_unlock(state);
 }
 
 int32_t tcomp_state_inc_usage_count(tcomp_state_t* self)
 {
 	if(!self){
 		TSK_DEBUG_ERROR("Invalid parameter");
 		return 0;
 	}
 	return ++self->usage_count;
 }
 
 int32_t tcomp_state_dec_usage_count(tcomp_state_t* self)
 {
 	if(!self || self->usage_count <= 0){
 		TSK_DEBUG_ERROR("Invalid parameter");
 		return 0;
 	}
 	return --self->usage_count;
 }
 
 
 
 //========================================================
 //	State object definition
 //
 static tsk_object_t* tcomp_state_ctor(tsk_object_t * self, va_list * app)
 {
 	tcomp_state_t *state = self;
 	if(state){
 		/* Initialize safeobject */
 		tsk_safeobj_init(state);
 	}
 	else{
 		TSK_DEBUG_ERROR("Failed to create new state.");
 	}
 	return state;
 }
 
 static tsk_object_t* tcomp_state_dtor(tsk_object_t *self)
 {
 	tcomp_state_t *state = self;
 	if(state){
 		TSK_DEBUG_INFO("==SigComp - Free state with id=");
 		tcomp_buffer_print(state->identifier);
 
 		/* Deinitialize safeobject */
 		tsk_safeobj_deinit(state);
 
 		TSK_OBJECT_SAFE_FREE(state->identifier);
 		TSK_OBJECT_SAFE_FREE(state->value);
 	}
 	else{
 		TSK_DEBUG_ERROR("Null SigComp state.");
 	}
 
 	return self;
 }
 
 
 static int tcomp_state_cmp(const void *obj1, const void *obj2)
 {
 	const tcomp_state_t *state1 = obj1;
 	const tcomp_state_t *state2 = obj2;
 
 	if(state1 && state2){
 		return tcomp_buffer_equals(state1->identifier, state2->identifier) ? 0 : -1;
 	}
 	else if(!state1 && !state2) return 0;
 	else return -1;
 }
 
 static const tsk_object_def_t tcomp_state_def_s = 
 {
 	sizeof(tcomp_state_t),
 	tcomp_state_ctor,
 	tcomp_state_dtor,
 	tcomp_state_cmp
 };
 const tsk_object_def_t *tcomp_state_def_t = &tcomp_state_def_s;