module/open-license-manager.git

			@@ -2,7 +2,7 @@
			* pc-identifiers.c
			*
			* Created on: Apr 16, 2014
			*
			*
			*/

			#include "os/os.h"
			@@ -18,94 +18,112 @@
			#include <Windows.h>
			#endif

			//FIXME if adapterinfo or diskinfo fail the function fails
			static FUNCTION_RETURN generate_default_pc_id(PcIdentifier * identifiers,
			unsigned int * num_identifiers) {
			unsigned int * num_identifiers) {
			size_t adapter_num, disk_num;
			FUNCTION_RETURN result_adapterInfos, result_diskinfos;
			unsigned int required_id_size, defined_identifiers, i, j, k;
			DiskInfo * diskInfos;
			OsAdapterInfo *adapterInfos;
			FUNCTION_RETURN result_adapterInfos, result_diskinfos, function_return;
			unsigned int caller_identifiers, i, j, k, array_index;
			DiskInfo * diskInfoPtr;
			OsAdapterInfo *adapterInfoPtr;

			result_adapterInfos = getAdapterInfos(NULL, &adapter_num);
			if (result_adapterInfos != FUNC_RET_OK) {
			//call generate_disk_pc_id;
			return result_adapterInfos;
			}
			result_diskinfos = getDiskInfos(NULL, &disk_num);
			if (result_diskinfos == FUNC_RET_OK) {
			required_id_size = disk_num * adapter_num;
			} else {
			required_id_size = disk_num;
			}
			defined_identifiers = *num_identifiers;
			*num_identifiers = required_id_size;
			if (identifiers == NULL) {
			return FUNC_RET_OK;
			} else if (required_id_size > defined_identifiers) {
			return FUNC_RET_BUFFER_TOO_SMALL;
			}
			diskInfos = (DiskInfo) malloc(disk_num sizeof(DiskInfo));
			result_diskinfos = getDiskInfos(diskInfos, &disk_num);
			adapterInfos = (OsAdapterInfo) malloc(adapter_num sizeof(OsAdapterInfo));
			result_adapterInfos = getAdapterInfos(adapterInfos, &adapter_num);
			for (i = 0; i < disk_num; i++) {
			for (j = 0; j < adapter_num; j++) {
			for (k = 0; k < 6; k++)
			identifiers[i * adapter_num + j][k] =
			diskInfos[i].disk_sn[k + 2]
			^ adapterInfos[j].mac_address[k + 2];
			if (identifiers == NULL \|\| *num_identifiers == 0) {
			result_adapterInfos = getAdapterInfos(NULL, &adapter_num);
			if (result_adapterInfos != FUNC_RET_OK) {
			return generate_disk_pc_id(identifiers, num_identifiers, false);
			}
			}
			result_diskinfos = getDiskInfos(NULL, &disk_num);
			if (result_diskinfos != FUNC_RET_OK) {
			return generate_ethernet_pc_id(identifiers, num_identifiers, true);
			}
			num_identifiers = disk_num adapter_num;
			function_return = FUNC_RET_OK;
			} else {
			adapterInfoPtr = (OsAdapterInfo)malloc((num_identifiers) * sizeof(OsAdapterInfo));
			adapter_num = *num_identifiers;
			result_adapterInfos = getAdapterInfos(adapterInfoPtr, &adapter_num);
			if (result_adapterInfos != FUNC_RET_OK && result_adapterInfos != FUNC_RET_BUFFER_TOO_SMALL) {
			free(diskInfoPtr);
			return generate_disk_pc_id(identifiers, num_identifiers, false);
			}
			diskInfoPtr = (DiskInfo)malloc((num_identifiers) * sizeof(DiskInfo));
			disk_num = *num_identifiers;
			result_diskinfos = getDiskInfos(adapterInfoPtr, &disk_num);
			if (result_diskinfos != FUNC_RET_OK && result_diskinfos != FUNC_RET_BUFFER_TOO_SMALL) {
			free(diskInfoPtr);
			free(adapterInfoPtr);
			return generate_ethernet_pc_id(identifiers, num_identifiers, true);
			}
			function_return = FUNC_RET_OK;

			free(diskInfos);
			free(adapterInfos);
			return FUNC_RET_OK;
			caller_identifiers = *num_identifiers;
			for (i = 0; i < disk_num; i++) {
			for (j = 0; j < adapter_num ; j++) {
			array_index = i * adapter_num + j;
			if (array_index>=caller_identifiers) {
			function_return = FUNC_RET_BUFFER_TOO_SMALL;
			//sweet memories...
			goto end;
			}
			for (k = 0; k < 6; k++)
			identifiers[array_index][k] =
			diskInfoPtr[i].disk_sn[k + 2]
			^ adapterInfoPtr[j].mac_address[k + 2];
			}
			}
			end:
			num_identifiers = min(num_identifiers, adapter_num * disk_num);
			free(diskInfoPtr);
			free(adapterInfoPtr);
			}
			return function_return;
			}

			static FUNCTION_RETURN generate_ethernet_pc_id(PcIdentifier * identifiers,
			unsigned int * num_identifiers, int use_mac) {
			size_t adapters;
			int defined_adapters;
			unsigned int * num_identifiers, int use_mac) {
			FUNCTION_RETURN result_adapterInfos;
			unsigned int i, j, k;
			OsAdapterInfo *adapterInfos;
			size_t defined_adapters, adapters = 0;

			result_adapterInfos = getAdapterInfos(NULL, &adapters);
			if (result_adapterInfos != FUNC_RET_OK) {
			return result_adapterInfos;
			}

			defined_adapters = *num_identifiers;
			*num_identifiers = adapters;
			if (identifiers == NULL) {
			return FUNC_RET_OK;
			} else if (adapters > defined_adapters) {
			return FUNC_RET_BUFFER_TOO_SMALL;
			}

			adapterInfos = (OsAdapterInfo)malloc(adapters sizeof(OsAdapterInfo));
			result_adapterInfos = getAdapterInfos(adapterInfos, &adapters);
			for (j = 0; j < adapters; j++) {
			for (k = 0; k < 6; k++)
			if (use_mac) {
			identifiers[j][k] = adapterInfos[j].mac_address[k + 2];
			} else {
			//use ip
			if (k < 4) {
			identifiers[j][k] = adapterInfos[j].ipv4_address[k];
			} else {
			//padding
			identifiers[j][k] = 42;
			if (identifiers == NULL \|\| *num_identifiers == 0) {
			result_adapterInfos = getAdapterInfos(NULL, &adapters);
			if (result_adapterInfos == FUNC_RET_OK \|\| result_adapterInfos == FUNC_RET_BUFFER_TOO_SMALL) {
			*num_identifiers = adapters;
			result_adapterInfos=FUNC_RET_OK;
			}
			} else {
			defined_adapters = adapters = *num_identifiers;
			adapterInfos = (OsAdapterInfo)malloc(adapters sizeof(OsAdapterInfo));
			result_adapterInfos = getAdapterInfos(adapterInfos, &adapters);
			if (result_adapterInfos == FUNC_RET_BUFFER_TOO_SMALL \|\| result_adapterInfos == FUNC_RET_OK){
			for (j = 0; j < adapters; j++) {
			for (k = 0; k < 6; k++)
			if (use_mac) {
			identifiers[j][k] = adapterInfos[j].mac_address[k + 2];
			}
			else {
			//use ip
			if (k < 4) {
			identifiers[j][k] = adapterInfos[j].ipv4_address[k];
			}
			else {
			//padding
			identifiers[j][k] = 42;
			}
			}
			}
			result_adapterInfos = (adapters>defined_adapters ? FUNC_RET_BUFFER_TOO_SMALL : FUNC_RET_OK);
			}
			free(adapterInfos);
			}
			free(adapterInfos);
			return FUNC_RET_OK;
			return result_adapterInfos;
			}

			static FUNCTION_RETURN generate_disk_pc_id(PcIdentifier * identifiers,
			unsigned int * num_identifiers, bool use_label) {
			size_t disk_num, available_disk_info=0;
			unsigned int * num_identifiers, bool use_label) {
			size_t disk_num, available_disk_info = 0;
			FUNCTION_RETURN result_diskinfos;
			unsigned int i, k, j;
			int defined_identifiers;
			@@ -116,7 +134,7 @@
			if (result_diskinfos != FUNC_RET_OK) {
			return result_diskinfos;
			}
			diskInfos = (DiskInfo) malloc(disk_num sizeof(DiskInfo));
			diskInfos = (DiskInfo)malloc(disk_num sizeof(DiskInfo));
			//memset(diskInfos,0,disk_num * sizeof(DiskInfo));
			result_diskinfos = getDiskInfos(diskInfos, &disk_num);
			if (result_diskinfos != FUNC_RET_OK) {
			@@ -133,22 +151,24 @@
			if (identifiers == NULL) {
			free(diskInfos);
			return FUNC_RET_OK;
			} else if (available_disk_info > defined_identifiers) {
			}
			else if (available_disk_info > defined_identifiers) {
			free(diskInfos);
			return FUNC_RET_BUFFER_TOO_SMALL;
			}

			j=0;
			j = 0;
			for (i = 0; i < disk_num; i++) {
			if(use_label){
			if(diskInfos[i].label[0]!=0){
			memset(identifiers[j],0,sizeof(PcIdentifier)); //!!!!!!!
			strncpy(identifiers[j],diskInfos[i].label,sizeof(PcIdentifier));
			if (use_label){
			if (diskInfos[i].label[0] != 0){
			memset(identifiers[j], 0, sizeof(PcIdentifier)); //!!!!!!!
			strncpy(identifiers[j], diskInfos[i].label, sizeof(PcIdentifier));
			j++;
			}
			}else{
			if(diskInfos[i].disk_sn[0]!=0){
			memcpy(identifiers[j],&diskInfos[i].disk_sn[2],sizeof(PcIdentifier));
			}
			else{
			if (diskInfos[i].disk_sn[0] != 0){
			memcpy(identifiers[j], &diskInfos[i].disk_sn[2], sizeof(PcIdentifier));
			j++;
			}
			}
			@@ -174,7 +194,7 @@
			*/

			FUNCTION_RETURN generate_pc_id(PcIdentifier * identifiers,
			unsigned int * array_size, IDENTIFICATION_STRATEGY strategy) {
			unsigned int * array_size, IDENTIFICATION_STRATEGY strategy) {
			FUNCTION_RETURN result;
			unsigned int i, j;
			const unsigned int original_array_size = *array_size;
			@@ -184,10 +204,10 @@
			result = generate_default_pc_id(identifiers, array_size);
			break;
			case ETHERNET:
			result = generate_ethernet_pc_id(identifiers, array_size, true );
			result = generate_ethernet_pc_id(identifiers, array_size, true);
			break;
			case IP_ADDRESS:
			result = generate_ethernet_pc_id(identifiers, array_size, false );
			result = generate_ethernet_pc_id(identifiers, array_size, false);
			break;
			case DISK_NUM:
			result = generate_disk_pc_id(identifiers, array_size, false);
			@@ -240,23 +260,23 @@
			}

			FUNCTION_RETURN encode_pc_id(PcIdentifier identifier1, PcIdentifier identifier2,
			PcSignature pc_identifier_out) {
			//TODO base62 encoding, now uses base64
			PcSignature pc_identifier_out) {
			//TODO base62 encoding, now uses base64
			PcIdentifier concat_identifiers[2];
			char* b64_data;
			int b64_size = 0;
			size_t concatIdentifiersSize = sizeof(PcIdentifier) * 2;
			//concat_identifiers = (PcIdentifier *) malloc(concatIdentifiersSize);
			size_t concatIdentifiersSize = sizeof(PcIdentifier)* 2;
			//concat_identifiers = (PcIdentifier *) malloc(concatIdentifiersSize);
			memcpy(&concat_identifiers[0], identifier1, sizeof(PcIdentifier));
			memcpy(&concat_identifiers[1], identifier2, sizeof(PcIdentifier));
			b64_data = base64(concat_identifiers, concatIdentifiersSize,
			&b64_size);
			&b64_size);
			if (b64_size > sizeof(PcSignature)) {
			return FUNC_RET_BUFFER_TOO_SMALL;
			}
			sprintf(pc_identifier_out, "%.4s-%.4s-%.4s-%.4s", &b64_data[0],
			&b64_data[4], &b64_data[8], &b64_data[12]);
			//free(concat_identifiers);
			//free(concat_identifiers);
			free(b64_data);
			return FUNC_RET_OK;
			}
			@@ -266,7 +286,7 @@
			}

			FUNCTION_RETURN generate_user_pc_signature(PcSignature identifier_out,
			IDENTIFICATION_STRATEGY strategy) {
			IDENTIFICATION_STRATEGY strategy) {
			FUNCTION_RETURN result;
			PcIdentifier* identifiers;
			unsigned int req_buffer_size = 0;
			@@ -278,8 +298,8 @@
			return FUNC_RET_ERROR;
			}
			req_buffer_size = req_buffer_size < 2 ? 2 : req_buffer_size;
			identifiers = (PcIdentifier *) malloc(
			sizeof(PcIdentifier) * req_buffer_size);
			identifiers = (PcIdentifier *)malloc(
			sizeof(PcIdentifier)* req_buffer_size);
			result = generate_pc_id(identifiers, &req_buffer_size, strategy);
			if (result != FUNC_RET_OK) {
			free(identifiers);
			@@ -305,28 +325,28 @@
			* @return
			*/
			static FUNCTION_RETURN decode_pc_id(PcIdentifier identifier1_out,
			PcIdentifier identifier2_out, PcSignature pc_signature_in) {
			//TODO base62 encoding, now uses base64
			PcIdentifier identifier2_out, PcSignature pc_signature_in) {
			//TODO base62 encoding, now uses base64

			unsigned char * concat_identifiers;
			char base64ids[17];
			int identifiers_size;

			sscanf(pc_signature_in, "%4s-%4s-%4s-%4s", &base64ids[0], &base64ids[4],
			&base64ids[8], &base64ids[12]);
			&base64ids[8], &base64ids[12]);
			concat_identifiers = unbase64(base64ids, 16, &identifiers_size);
			if (identifiers_size > sizeof(PcIdentifier) * 2) {
			if (identifiers_size > sizeof(PcIdentifier)* 2) {
			return FUNC_RET_BUFFER_TOO_SMALL;
			}
			memcpy(identifier1_out, concat_identifiers, sizeof(PcIdentifier));
			memcpy(identifier2_out, concat_identifiers + sizeof(PcIdentifier),
			sizeof(PcIdentifier));
			sizeof(PcIdentifier));
			free(concat_identifiers);
			return FUNC_RET_OK;
			}

			static IDENTIFICATION_STRATEGY strategy_from_pc_id(PcIdentifier identifier) {
			return (IDENTIFICATION_STRATEGY) identifier[0] >> 5;
			return (IDENTIFICATION_STRATEGY)identifier[0] >> 5;
			}

			EVENT_TYPE validate_pc_signature(PcSignature str_code) {
			@@ -336,7 +356,7 @@
			PcIdentifier* calculated_identifiers = NULL;
			unsigned int calc_identifiers_size = 0;
			int i = 0, j = 0;
			//bool found;
			//bool found;
			#ifdef _DEBUG
			printf("Comparing pc identifiers: \n");
			#endif
			@@ -345,7 +365,7 @@
			return result;
			}
			previous_strategy_id = STRATEGY_UNKNOWN;
			//found = false;
			//found = false;
			for (i = 0; i < 2; i++) {
			current_strategy_id = strategy_from_pc_id(user_identifiers[i]);
			if (current_strategy_id == STRATEGY_UNKNOWN) {
			@@ -357,22 +377,22 @@
			}
			previous_strategy_id = current_strategy_id;
			generate_pc_id(NULL, &calc_identifiers_size, current_strategy_id);
			calculated_identifiers = (PcIdentifier *) malloc(
			sizeof(PcIdentifier) * calc_identifiers_size);
			calculated_identifiers = (PcIdentifier *)malloc(
			sizeof(PcIdentifier)* calc_identifiers_size);
			generate_pc_id(calculated_identifiers, &calc_identifiers_size,
			current_strategy_id);
			current_strategy_id);
			}
			//maybe skip the byte 0
			for (j = 0; j < calc_identifiers_size; j++) {
			#ifdef _DEBUG
			printf("generated id: %02x%02x%02x%02x%02x%02x index %d, user_supplied id %02x%02x%02x%02x%02x%02x idx: %d\n",
			calculated_identifiers[j][0],calculated_identifiers[j][1],calculated_identifiers[j][2],
			calculated_identifiers[j][3],calculated_identifiers[j][4],calculated_identifiers[j][5],j,
			user_identifiers[i][0],user_identifiers[i][1],user_identifiers[i][2],user_identifiers[i][3],user_identifiers[i][4],user_identifiers[i][5],i);
			calculated_identifiers[j][0], calculated_identifiers[j][1], calculated_identifiers[j][2],
			calculated_identifiers[j][3], calculated_identifiers[j][4], calculated_identifiers[j][5], j,
			user_identifiers[i][0], user_identifiers[i][1], user_identifiers[i][2], user_identifiers[i][3], user_identifiers[i][4], user_identifiers[i][5], i);

			#endif
			if (!memcmp(user_identifiers[i], calculated_identifiers[j],
			sizeof(PcIdentifier))) {
			sizeof(PcIdentifier))) {
			free(calculated_identifiers);
			return LICENSE_OK;
			}