#ifdef _MSC_VER #include #endif #include #include "../base/logger.h" #include "os.h" #pragma comment(lib, "IPHLPAPI.lib") unsigned char* unbase64(const char* ascii, int len, int *flen); FUNCTION_RETURN getOsSpecificIdentifier(unsigned char identifier[6]) { return FUNC_RET_NOT_AVAIL; } FUNCTION_RETURN getMachineName(unsigned char identifier[6]) { FUNCTION_RETURN result = FUNC_RET_ERROR; char buffer[MAX_COMPUTERNAME_LENGTH + 1]; int bufsize = MAX_COMPUTERNAME_LENGTH + 1; BOOL cmpName = GetComputerName(buffer, &bufsize); if (cmpName) { strncpy(identifier, buffer, 6); result = FUNC_RET_OK; } return result; } FUNCTION_RETURN getCpuId(unsigned char identifier[6]) { return FUNC_RET_NOT_AVAIL; } void os_initialize() { } //http://www.ok-soft-gmbh.com/ForStackOverflow/EnumMassStorage.c //http://stackoverflow.com/questions/3098696/same-code-returns-diffrent-result-on-windows7-32-bit-system #define MAX_UNITS 30 //bug check return with diskinfos == null func_ret_ok FUNCTION_RETURN getDiskInfos(DiskInfo * diskInfos, size_t * disk_info_size) { DWORD FileMaxLen; int ndrives = 0; DWORD FileFlags; char volName[_MAX_FNAME], FileSysName[_MAX_FNAME]; char* szSingleDrive; DWORD volSerial = 0; BOOL success; UINT driveType; DWORD dwSize = MAX_PATH; char szLogicalDrives[MAX_PATH] = { 0 }; unsigned char buf[8] = ""; FUNCTION_RETURN return_value; DWORD dwResult = GetLogicalDriveStrings(dwSize, szLogicalDrives); if (dwResult > 0 && dwResult <= MAX_PATH) { return_value = FUNC_RET_OK; szSingleDrive = szLogicalDrives; while (*szSingleDrive && ndrives < MAX_UNITS) { // get the next drive driveType = GetDriveType(szSingleDrive); if (driveType == DRIVE_FIXED) { success = GetVolumeInformation(szSingleDrive, volName, MAX_PATH, &volSerial, &FileMaxLen, &FileFlags, FileSysName, MAX_PATH); if (success) { LOG_INFO("drive : %s", szSingleDrive); LOG_INFO("Volume Name : %s", volName); LOG_INFO("Volume Serial : 0x%x", volSerial); LOG_DEBUG("Max file length : %d", FileMaxLen); LOG_DEBUG("Filesystem : %s", FileSysName); if (diskInfos != NULL) { if (ndrives < *disk_info_size) { diskInfos[ndrives].id = ndrives; strncpy(diskInfos[ndrives].device, volName, MAX_PATH); strncpy(diskInfos[ndrives].label, FileSysName, MAX_PATH); memcpy(diskInfos[ndrives].disk_sn, &buf, sizeof(buf)); memcpy(diskInfos[ndrives].disk_sn, &volSerial, sizeof(DWORD)); diskInfos[ndrives].preferred = (strncmp(szSingleDrive, "C", 1) != 0); } else { return_value = FUNC_RET_BUFFER_TOO_SMALL; } } ndrives++; } else { LOG_WARN("Unable to retrieve information of '%s'", szSingleDrive); } } else { LOG_INFO("This volume is not fixed : %s, type: %d", szSingleDrive); } szSingleDrive += strlen(szSingleDrive) + 1; } } if (diskInfos == NULL || *disk_info_size == 0) { if (ndrives > 0) { return_value = FUNC_RET_OK; } else { return_value = FUNC_RET_NOT_AVAIL; LOG_INFO("No fixed drive was detected"); } *disk_info_size = ndrives; } else { *disk_info_size = min(ndrives, *disk_info_size); } return return_value; } static int translate(char ipStringIn[16], unsigned char ipv4[4]) { char *str2; size_t index = 0; str2 = ipStringIn; /* save the pointer */ while (*str2) { if (isdigit((unsigned char) *str2)) { ipv4[index] *= 10; ipv4[index] += *str2 - '0'; } else { index++; } str2++; } return 0; } //http://stackoverflow.com/questions/18046063/mac-address-using-c //TODO: count only interfaces with type (MIB_IF_TYPE_ETHERNET IF_TYPE_IEEE80211) FUNCTION_RETURN getAdapterInfos(OsAdapterInfo * adapterInfos, size_t * adapter_info_size) { DWORD dwStatus; unsigned int i = 0; FUNCTION_RETURN result; PIP_ADAPTER_INFO pAdapterInfo, pAdapter = NULL; //IP_ADAPTER_INFO AdapterInfo[20]; // Allocate information for up to 16 NICs DWORD dwBufLen = sizeof(IP_ADAPTER_INFO); //10 * sizeof(IP_ADAPTER_INFO); // Save the memory size of buffer i = 3; do { pAdapterInfo = (PIP_ADAPTER_INFO) malloc(dwBufLen); dwStatus = GetAdaptersInfo( // Call GetAdapterInfo pAdapterInfo, // [out] buffer to receive data &dwBufLen // [in] size of receive data buffer ); if (dwStatus != NO_ERROR) { free(pAdapterInfo); pAdapterInfo = NULL; } } while (dwStatus == ERROR_BUFFER_OVERFLOW && i-- > 0); if (dwStatus == ERROR_BUFFER_OVERFLOW) { return FUNC_RET_ERROR; } if (adapterInfos == NULL || *adapter_info_size == 0) { *adapter_info_size = dwBufLen / sizeof(IP_ADAPTER_INFO); if (pAdapterInfo != NULL){ free(pAdapterInfo); } return FUNC_RET_OK; } *adapter_info_size = dwBufLen / sizeof(IP_ADAPTER_INFO); memset(adapterInfos, 0, dwBufLen); pAdapter = pAdapterInfo; i = 0; result = FUNC_RET_OK; while (pAdapter) { strncpy(adapterInfos[i].description, pAdapter->Description, min(sizeof(adapterInfos->description), MAX_ADAPTER_DESCRIPTION_LENGTH)); memcpy(adapterInfos[i].mac_address, pAdapter->Address, 8); translate(pAdapter->IpAddressList.IpAddress.String, adapterInfos[i].ipv4_address); adapterInfos[i].type = IFACE_TYPE_ETHERNET; i++; pAdapter = pAdapter->Next; if (i == *adapter_info_size) { result = FUNC_RET_BUFFER_TOO_SMALL; break; } } free(pAdapterInfo); return result; } FUNCTION_RETURN getModuleName(char buffer[MAX_PATH]) { FUNCTION_RETURN result = FUNC_RET_OK; DWORD wres = GetModuleFileName(NULL, buffer, MAX_PATH); if (wres == 0) { result = FUNC_RET_ERROR; } return result; } static void printHash(HCRYPTHASH* hHash) { BYTE *pbHash; DWORD dwHashLen; DWORD dwHashLenSize = sizeof(DWORD); char* hashStr; unsigned int i; if (CryptGetHashParam(*hHash, HP_HASHSIZE, (BYTE *) &dwHashLen, &dwHashLenSize, 0)) { pbHash = (BYTE*) malloc(dwHashLen); hashStr = (char*) malloc(dwHashLen * 2 + 1); if (CryptGetHashParam(*hHash, HP_HASHVAL, pbHash, &dwHashLen, 0)) { for (i = 0; i < dwHashLen; i++) { sprintf(&hashStr[i * 2], "%02x", pbHash[i]); } LOG_DEBUG("Hash to verify: %s", hashStr); } free(pbHash); free(hashStr); } } /** * Not implemented yet. */ VIRTUALIZATION getVirtualization() { return NONE; }