/// <summary>
/// PlayFab Title cannot be created from SDK tests, so you must provide your titleId to run unit tests.
/// (Also, we don't want lots of excess unused titles)
/// </summary>
bool SetTitleInfo(Document &testInputs)
{
CCLOG("%s", "SetTitleInfo");
// Parse all the inputs
auto end = testInputs.MemberEnd();
auto each = testInputs.FindMember("titleId");
if (each != end) PlayFabSettings::titleId = each->value.GetString(); else return false;
each = testInputs.FindMember("developerSecretKey");
if (each != end) PlayFabSettings::developerSecretKey = each->value.GetString(); else return false;
string blah;
each = testInputs.FindMember("titleCanUpdateSettings");
if (each != end) blah = each->value.GetString(); else return false;
TITLE_CAN_UPDATE_SETTINGS = (blah.compare("true") == 0 || blah.compare("True") == 0 || blah.compare("TRUE") == 0);
each = testInputs.FindMember("userName");
if (each != end) USER_NAME = each->value.GetString(); else return false;
each = testInputs.FindMember("userEmail");
if (each != end) USER_EMAIL = each->value.GetString(); else return false;
each = testInputs.FindMember("userPassword");
if (each != end) USER_PASSWORD = each->value.GetString(); else return false;
each = testInputs.FindMember("characterName");
if (each != end) CHAR_NAME = each->value.GetString(); else return false;
// Verify all the inputs won't cause crashes in the tests
return !PlayFabSettings::titleId.empty()
&& !PlayFabSettings::developerSecretKey.empty()
&& !USER_NAME.empty()
&& !USER_EMAIL.empty()
&& !USER_PASSWORD.empty()
&& !CHAR_NAME.empty();
}
// Issue 226: Value of string type should not point to NULL
TEST(Document, AssertAcceptInvalidNameType) {
Document doc;
doc.SetObject();
doc.AddMember("a", 0, doc.GetAllocator());
doc.FindMember("a")->name.SetNull(); // Change name to non-string type.
OutputStringStream os;
Writer<OutputStringStream> writer(os);
ASSERT_THROW(doc.Accept(writer), AssertException);
}
void GameShow::processWebMessages()
{
Document* document = pGameController->socketServer()->getNextIncomingMessage();
if(0 != document){
// cout << "Got document " << document;
string message = document->FindMember("message")->value.GetString();
// cout << "Got message " << document;
if(message.compare("get_buttons") == 0){
pGameController->sendWebMessage(pGameController->buttonController()->getInfoString());
}else if(message.compare("get_lamps") == 0){
pGameController->sendWebMessage(pGameController->lampController()->getInfoString());
}else if(message.compare("get_coils") == 0){
pGameController->sendWebMessage(pGameController->coilController()->getInfoString());
}else if(message.compare("set_lamp_state") == 0){
string name = document->FindMember("name")->value.GetString();
LampState state = (LampState)document->FindMember("value")->value.GetInt();
pGameController->lampController()->setLampState(name, state);
}else if(message.compare("set_coil_state") == 0){
string name = document->FindMember("name")->value.GetString();
int state = document->FindMember("value")->value.GetInt();
pGameController->coilController()->setCoilState(name, state);
}else if(message.compare("set_button_state") == 0){
string name = document->FindMember("name")->value.GetString();
int state = document->FindMember("value")->value.GetInt();
pGameController->buttonController()->overrideButtonState(name, state);
}else if(message.compare("get_game_states") == 0){ //note the plural S
pGameState->sendAllStatesToWeb();
}else if(message.compare("get_game_state") == 0){
pGameState->sendToWeb();
}else if(message.compare("set_game_state") == 0){
string state = document->FindMember("value")->value.GetString();
setGameState(state);
}
//I don't like this here.
delete(document);
}
}
Config::ElementGroupType
getAllElementGroups(const Document& doc, const std::vector<SvgElement>& all_elements_)
{
const auto element_groups_it = doc.FindMember("element_groups");
assert(element_groups_it != doc.MemberEnd());
assert(element_groups_it->value.IsArray());
const auto raw_array_of_groups = element_groups_it->value.GetArray();
Config::ElementGroupType all_element_groups;
all_element_groups.set_empty_key(std::string{""});
for (const auto& raw_single_group: raw_array_of_groups)
{
assert(raw_single_group.IsObject());
const auto& single_group = raw_single_group.GetObject();
//group name
const auto group_name_it = single_group.FindMember("name");
assert(group_name_it != single_group.MemberEnd());
assert(group_name_it->value.IsString());
const auto group_name = std::string {group_name_it->value.GetString(), group_name_it->value.GetStringLength()};
//all the elements that are part of the group
std::vector<std::string> single_group_members;
const auto raw_single_group_members = single_group.FindMember("elements");
assert(raw_single_group_members != single_group.MemberEnd());
assert(raw_single_group_members->value.IsArray());
const auto raw_array_of_group_members = raw_single_group_members->value.GetArray();
for (const auto& raw_single_group_element : raw_array_of_group_members)
{
assert(raw_single_group_element.IsString());
single_group_members.emplace_back(std::string{raw_single_group_element.GetString(),
raw_single_group_element.GetStringLength()});
}
all_element_groups[group_name] = std::move(single_group_members);
}
for (auto& array_name_pair : all_element_groups)
{
auto& element_vector = array_name_pair.second;
std::sort(std::begin(element_vector), std::end(element_vector));
}
// TODO: this line is for debug purposes, should be removed
std::cout << all_elements_;
return all_element_groups;
}
Config::ElementContainerType getAllElements(const Document& doc)
{
// load elements
const auto elements_it = doc.FindMember("elements");
assert(elements_it != doc.MemberEnd());
assert(elements_it->value.IsArray());
std::vector<SvgElement> all_elements;
const auto raw_elements = elements_it->value.GetArray();;
for (SizeType i = 0; i < raw_elements.Size(); ++i)
{
const Value& singleElement = raw_elements[i];
assert(singleElement.IsString());
all_elements.emplace_back(SvgElement{singleElement.GetString()});
}
std::sort(std::begin(all_elements), std::end(all_elements));
return all_elements;
}
/// <summary>
/// PlayFab Title cannot be created from SDK tests, so you must provide your titleId to run unit tests.
/// (Also, we don't want lots of excess unused titles)
/// </summary>
static void SetTitleInfo(Document &testInputs)
{
// Parse all the inputs
auto end = testInputs.MemberEnd();
auto each = testInputs.FindMember("titleId");
if (each != end) playFabSettings->titleId = each->value.GetString();
string blah;
each = testInputs.FindMember("titleCanUpdateSettings");
if (each != end) blah = each->value.GetString();
TITLE_CAN_UPDATE_SETTINGS = (blah.compare("true") == 0 || blah.compare("True") == 0 || blah.compare("TRUE") == 0);
each = testInputs.FindMember("userName");
if (each != end) userName = each->value.GetString();
each = testInputs.FindMember("userEmail");
if (each != end) userEmail = each->value.GetString();
each = testInputs.FindMember("userPassword");
if (each != end) userPassword = each->value.GetString();
each = testInputs.FindMember("characterName");
if (each != end) characterName = each->value.GetString();
}
int main(int, char*[]) {
////////////////////////////////////////////////////////////////////////////
// 1. Parse a JSON text string to a document.
const char json[] = " { \"hello\" : \"world\", \"t\" : true , \"f\" : false, \"n\": null, \"i\":123, \"pi\": 3.1416, \"a\":[1, 2, 3, 4] } ";
printf("Original JSON:\n %s\n", json);
Document document; // Default template parameter uses UTF8 and MemoryPoolAllocator.
#if 0
// "normal" parsing, decode strings to new buffers. Can use other input stream via ParseStream().
if (document.Parse(json).HasParseError())
return 1;
#else
// In-situ parsing, decode strings directly in the source string. Source must be string.
char buffer[sizeof(json)];
memcpy(buffer, json, sizeof(json));
if (document.ParseInsitu(buffer).HasParseError())
return 1;
#endif
printf("\nParsing to document succeeded.\n");
////////////////////////////////////////////////////////////////////////////
// 2. Access values in document.
printf("\nAccess values in document:\n");
assert(document.IsObject()); // Document is a JSON value represents the root of DOM. Root can be either an object or array.
assert(document.HasMember("hello"));
assert(document["hello"].IsString());
printf("hello = %s\n", document["hello"].GetString());
// Since version 0.2, you can use single lookup to check the existing of member and its value:
Value::MemberIterator hello = document.FindMember("hello");
assert(hello != document.MemberEnd());
assert(hello->value.IsString());
assert(strcmp("world", hello->value.GetString()) == 0);
(void)hello;
assert(document["t"].IsBool()); // JSON true/false are bool. Can also uses more specific function IsTrue().
printf("t = %s\n", document["t"].GetBool() ? "true" : "false");
assert(document["f"].IsBool());
printf("f = %s\n", document["f"].GetBool() ? "true" : "false");
printf("n = %s\n", document["n"].IsNull() ? "null" : "?");
assert(document["i"].IsNumber()); // Number is a JSON type, but C++ needs more specific type.
assert(document["i"].IsInt()); // In this case, IsUint()/IsInt64()/IsUInt64() also return true.
printf("i = %d\n", document["i"].GetInt()); // Alternative (int)document["i"]
assert(document["pi"].IsNumber());
assert(document["pi"].IsDouble());
printf("pi = %g\n", document["pi"].GetDouble());
{
const Value& a = document["a"]; // Using a reference for consecutive access is handy and faster.
assert(a.IsArray());
for (SizeType i = 0; i < a.Size(); i++) // rapidjson uses SizeType instead of size_t.
printf("a[%d] = %d\n", i, a[i].GetInt());
int y = a[0].GetInt();
(void)y;
// Iterating array with iterators
printf("a = ");
for (Value::ConstValueIterator itr = a.Begin(); itr != a.End(); ++itr)
printf("%d ", itr->GetInt());
printf("\n");
}
// Iterating object members
static const char* kTypeNames[] = { "Null", "False", "True", "Object", "Array", "String", "Number" };
for (Value::ConstMemberIterator itr = document.MemberBegin(); itr != document.MemberEnd(); ++itr)
printf("Type of member %s is %s\n", itr->name.GetString(), kTypeNames[itr->value.GetType()]);
////////////////////////////////////////////////////////////////////////////
// 3. Modify values in document.
// Change i to a bigger number
{
uint64_t f20 = 1; // compute factorial of 20
for (uint64_t j = 1; j <= 20; j++)
f20 *= j;
document["i"] = f20; // Alternate form: document["i"].SetUint64(f20)
assert(!document["i"].IsInt()); // No longer can be cast as int or uint.
}
// Adding values to array.
{
Value& a = document["a"]; // This time we uses non-const reference.
Document::AllocatorType& allocator = document.GetAllocator();
for (int i = 5; i <= 10; i++)
a.PushBack(i, allocator); // May look a bit strange, allocator is needed for potentially realloc. We normally uses the document's.
// Fluent API
a.PushBack("Lua", allocator).PushBack("Mio", allocator);
}
// Making string values.
// This version of SetString() just store the pointer to the string.
// So it is for literal and string that exists within value's life-cycle.
{
document["hello"] = "rapidjson"; // This will invoke strlen()
// Faster version:
// document["hello"].SetString("rapidjson", 9);
}
// This version of SetString() needs an allocator, which means it will allocate a new buffer and copy the the string into the buffer.
Value author;
{
char buffer[10];
int len = sprintf(buffer, "%s %s", "Milo", "Yip"); // synthetic example of dynamically created string.
author.SetString(buffer, static_cast<size_t>(len), document.GetAllocator());
// Shorter but slower version:
// document["hello"].SetString(buffer, document.GetAllocator());
// Constructor version:
// Value author(buffer, len, document.GetAllocator());
// Value author(buffer, document.GetAllocator());
memset(buffer, 0, sizeof(buffer)); // For demonstration purpose.
}
// Variable 'buffer' is unusable now but 'author' has already made a copy.
document.AddMember("author", author, document.GetAllocator());
assert(author.IsNull()); // Move semantic for assignment. After this variable is assigned as a member, the variable becomes null.
////////////////////////////////////////////////////////////////////////////
// 4. Stringify JSON
printf("\nModified JSON with reformatting:\n");
StringBuffer sb;
PrettyWriter<StringBuffer> writer(sb);
document.Accept(writer); // Accept() traverses the DOM and generates Handler events.
puts(sb.GetString());
return 0;
}
void ResultSet::aggregate(const std::string& prefix,
const std::string& filename) {
// Parse prefix
char* prefix_data = strdup(prefix.data());
char* reason = strtok(prefix_data, "/");
char* appName = strtok(NULL, "/");
char* channel = strtok(NULL, "/");
char* version = strtok(NULL, "/");
char* strBuildId = strtok(NULL, ".");
char* submissionDate = strtok(NULL, ".");
if (!reason || !appName || !channel || !version || !strBuildId ||
!submissionDate) {
fprintf(stderr, "Prefix '%s' missing parts \n", prefix.data());
free(prefix_data);
return;
}
// Intern strBuildId
InternedString buildId = Aggregate::internBuildIdString(strBuildId);
// Get build date, ignore the rest
if (strlen(strBuildId) < 8) {
fprintf(stderr, "BuildId '%s' is not valid, too short\n", strBuildId);
free(prefix_data);
return;
}
string buildDate(strBuildId, 8);
// Decide if we should skip submission date
bool skipBySubmissionDate = false;
{
// Parse submission date and buildDate
time_t submissionTime = parseDate(submissionDate);
time_t buildTime = parseDate(buildDate.data());
// Skip aggregation by submission date of it's been more than 60 days since
// build date
if (difftime(submissionTime, buildTime) > 60 * 60 * 24 * 60) {
skipBySubmissionDate = true;
}
}
// Reduce version to major version (discard everything after the dot)
{
char* c = version;
while(*c != '.' && *c != '\0') c++;
*c = '\0';
}
// Find/create ChannelVersion object
ChannelVersion* cv = nullptr;
{
string channelVersion = string(channel) + "/" + string(version);
// Find channel version in hash table
auto it = _channelVersionMap.find(channelVersion);
// If not present create ChannelVersion
if (it == _channelVersionMap.end()) {
cv = new ChannelVersion(_measureStringCtx, _filterStringCtx);
it = _channelVersionMap.insert({channelVersion, cv}).first;
}
cv = it->second;
}
assert(cv);
// Create filterPath start
string reasonAppName = string(reason) + "/" + string(appName) + "/";
// Allocate a string to hold <measure>/<by-date-type>
string measureFilename;
measureFilename.reserve(2048);
FILE* input = fopen(filename.data(), "r");
{
// Read file line by line
CompressedFileReader reader(input);
char* line = nullptr;
int nb_line = 0;
while ((line = reader.nextLine()) != nullptr) {
nb_line++;
// Find tab
char* tab = strchr(line, '\t');
if (!tab) {
fprintf(stderr, "No tab on line %i\n", nb_line);
continue;
}
// Set tab = \0 creating two C-strings
*tab = '\0';
char* uuid = line;
char* json = tab + 1;
UNUSED(uuid);
// Parse the JSON line
Document d;
d.Parse<0>(json);
// Check that we have an object
if (!d.IsObject()) {
fprintf(stderr, "JSON root is not an object on line %i\n", nb_line);
continue;
}
// Find the info field
Value::Member* infoField = d.FindMember("info");
if (!infoField || !infoField->value.IsObject()) {
fprintf(stderr, "'info' in payload isn't an object, line %i\n", nb_line);
continue;
}
Value& info = infoField->value;
// Find OS, osVersion, arch and revision
Value::Member* osField = info.FindMember("OS");
Value::Member* osVerField = info.FindMember("version");
Value::Member* archField = info.FindMember("arch");
Value::Member* revField = info.FindMember("revision");
if (!osField || !osField->value.IsString()) {
fprintf(stderr, "'OS' in 'info' isn't a string\n");
continue;
}
if (!osVerField || !(osVerField->value.IsString() ||
osVerField->value.IsNumber())) {
fprintf(stderr, "'version' in 'info' isn't a string or number\n");
continue;
}
if (!archField || !archField->value.IsString()) {
fprintf(stderr, "'arch' in 'info' isn't a string\n");
continue;
}
InternedString revision;
if (revField) {
if (!revField->value.IsString()) {
fprintf(stderr, "'revision' in 'info' isn't a string\n");
continue;
}
// Get InternedString for revision
revision = Aggregate::internRevisionString(revField->value.GetString());
} else {
// Get InternedString for revision
revision = Aggregate::internRevisionString(FALLBACK_REVISION);
}
// Create filterPath as <reason>/<appName>/<OS>/<osVersion>/<arch>
const char* OS = osField->value.GetString();
string filterPath = reasonAppName + OS;
filterPath += "/";
string osVersion;
if (osVerField->value.IsString()) {
osVersion = osVerField->value.GetString();
} else {
char b[64];
modp_dtoa2(osVerField->value.GetDouble(), b, 9);
osVersion = b;
}
// For Linux we only add 3 first characters
if (strcmp(OS, "Linux") == 0) {
filterPath += osVersion.substr(0, 3);
} else {
filterPath += osVersion;
}
filterPath += "/";
// Append arch to filterPath
filterPath += archField->value.GetString();
// Aggregate histograms
Value::Member* hgramField = d.FindMember("histograms");
if (hgramField && hgramField->value.IsObject()) {
Value& hgrams = hgramField->value;
for (auto hgram = hgrams.MemberBegin(); hgram != hgrams.MemberEnd();
++hgram) {
// Get histogram name and values
const char* name = hgram->name.GetString();
Value& values = hgram->value;
// MeasureFilename
measureFilename = name;
measureFilename += "/by-build-date";
// Get measure file
MeasureFile* mf = cv->measure(measureFilename.data());
Aggregate* aggregate = mf->aggregate(buildDate.data(), filterPath.data());
// Add to aggregate
aggregate->aggregate(revision, buildId, values);
// Skip aggregation by submission date, unless requested
if (skipBySubmissionDate) {
continue;
}
// MeasureFilename
measureFilename = name;
measureFilename += "/by-submission-date";
// Get measure file
mf = cv->measure(measureFilename.data());
aggregate = mf->aggregate(submissionDate, filterPath.data());
// Add to aggregate
aggregate->aggregate(revision, buildId, values);
}
} else {
fprintf(stderr, "'histograms' of payload isn't an object\n");
}
// Aggregate simple measures
Value::Member* smField = d.FindMember("simpleMeasurements");
if (smField && smField->value.IsObject()) {
Value& sms = smField->value;
for (auto sm = sms.MemberBegin(); sm != sms.MemberEnd(); ++sm) {
// Get simple measure name and values
string name = sm->name.GetString();
Value& value = sm->value;
// Convert name to uppercase
for(size_t i = 0; i < name.length(); i++) {
name[i] = toupper(name[i]);
}
// Aggregate numbers
if (value.IsNumber()) {
// Create measure filename
measureFilename = "SIMPLE_MEASURES_";
measureFilename += name;
measureFilename += "/by-build-date";
// Get measure file
MeasureFile* mf = cv->measure(measureFilename.data());
Aggregate* aggregate = mf->aggregate(buildDate.data(),
filterPath.data());
// Aggregate simple measure
aggregate->aggregate(value.GetDouble());
// Aggregate by submission date if desired
if (!skipBySubmissionDate) {
// Create measure filename
measureFilename = "SIMPLE_MEASURES_";
measureFilename += name;
measureFilename += "/by-submission-date";
mf = cv->measure(measureFilename.data());
aggregate = mf->aggregate(submissionDate, filterPath.data());
// Aggregate simple measure
aggregate->aggregate(value.GetDouble());
}
} else if (value.IsObject()) {
// If we have an object read key/values of it
for (auto ssm = value.MemberBegin(); ssm != value.MemberEnd();
++ssm) {
string subname = ssm->name.GetString();
Value& subvalue = ssm->value;
// Convert subname to uppercase
for(size_t i = 0; i < subname.length(); i++) {
subname[i] = toupper(subname[i]);
}
// Aggregate subvalue, if number, ignore errors there are lots of
// weird simple measures
if (subvalue.IsNumber()) {
// Create measure filename
measureFilename = "SIMPLE_MEASURES_";
measureFilename += name;
measureFilename += "_";
measureFilename += subname;
measureFilename += "/by-build-date";
// Get measure file
MeasureFile* mf = cv->measure(measureFilename.data());
Aggregate* aggregate = mf->aggregate(buildDate.data(),
filterPath.data());
// Aggregate simple measure
aggregate->aggregate(subvalue.GetDouble());
// Aggregate by submission date if desired
if (!skipBySubmissionDate) {
// Create measure filename
measureFilename = "SIMPLE_MEASURES_";
measureFilename += name;
measureFilename += "_";
measureFilename += subname;
measureFilename += "/by-submission-date";
mf = cv->measure(measureFilename.data());
aggregate = mf->aggregate(submissionDate, filterPath.data());
// Aggregate simple measure
aggregate->aggregate(subvalue.GetDouble());
}
}
}
}
}
}
}
}
fclose(input);
free(prefix_data);
}
bool PlayFabRequestHandler::DecodeRequest(int httpStatus, HttpRequest* request, void* userData, PlayFabBaseModel& outResult, PlayFabError& outError)
{
std::string response = request->GetReponse();
Document rawResult;
rawResult.Parse<0>(response.c_str());
// Check for bad responses
if (response.length() == 0 // Null response
|| rawResult.GetParseError() != NULL) // Non-Json response
{
// If we get here, we failed to connect meaningfully to the server - Assume a timeout
outError.HttpCode = 408;
outError.ErrorCode = PlayFabErrorConnectionTimeout;
// For text returns, use the non-json response if possible, else default to no response
outError.ErrorName = outError.ErrorMessage = outError.HttpStatus = response.length() == 0 ? "Request Timeout or null response" : response;
return false;
}
// Check if the returned json indicates an error
const Value::Member* errorCodeJson = rawResult.FindMember("errorCode");
if (errorCodeJson != NULL)
{
// There was an error, BUMMER
if (!errorCodeJson->value.IsNumber())
{
// unexpected json formatting - If we get here, we failed to connect meaningfully to the server - Assume a timeout
outError.HttpCode = 408;
outError.ErrorCode = PlayFabErrorConnectionTimeout;
// For text returns, use the non-json response if possible, else default to no response
outError.ErrorName = outError.ErrorMessage = outError.HttpStatus = response.length() == 0 ? "Request Timeout or null response" : response;
return false;
}
// TODO: what happens when the error is not in the enum?
outError.ErrorCode = static_cast<PlayFabErrorCode>(errorCodeJson->value.GetInt());
const Value::Member* codeJson = rawResult.FindMember("code");
if (codeJson != NULL && codeJson->value.IsNumber())
outError.HttpCode = codeJson->value.GetInt();
const Value::Member* statusJson = rawResult.FindMember("status");
if (statusJson != NULL && statusJson->value.IsString())
outError.HttpStatus = statusJson->value.GetString();
const Value::Member* errorNameJson = rawResult.FindMember("error");
if (errorNameJson != NULL && errorNameJson->value.IsString())
outError.ErrorName = errorNameJson->value.GetString();
const Value::Member* errorMessageJson = rawResult.FindMember("errorMessage");
if (errorMessageJson != NULL && errorMessageJson->value.IsString())
outError.ErrorMessage = errorMessageJson->value.GetString();
const Value::Member* errorDetailsJson = rawResult.FindMember("errorDetails");
if (errorDetailsJson != NULL && errorDetailsJson->value.IsObject())
{
const Value& errorDetailsObj = errorDetailsJson->value;
for (Value::ConstMemberIterator itr = errorDetailsObj.MemberBegin(); itr != errorDetailsObj.MemberEnd(); ++itr)
{
if (itr->name.IsString() && itr->value.IsArray())
{
const Value& errorList = itr->value;
for (Value::ConstValueIterator erroListIter = errorList.Begin(); erroListIter != errorList.End(); ++erroListIter)
outError.ErrorDetails.insert(std::pair<std::string, std::string>(itr->name.GetString(), erroListIter->GetString()));
}
}
}
// We encountered no errors parsing the error
return false;
}
const Value::Member* data = rawResult.FindMember("data");
if (data == NULL || !data->value.IsObject())
return false;
return outResult.readFromValue(data->value);
}
int NodeBtHandler (int argc, char *argv[])
{
// DDS değişkenleri
DDSEntityManager mgrBtPub;
DDSEntityManager mgrReqSub;
ReturnCode_t status;
SampleInfoSeq_var infoSeq = new SampleInfoSeq();
BtSeq* btSeqInstance = new BtSeq();
ServerReqSeq serverReqSeq;
// Zaman ile alakalı değişkenler
long int messageIDCount = 0;
Time_t tsBeforeTheScan = { 0, 0 };
Time_t tsAfterTheScan = { 0, 0 };
//Time_t tsWifiPub = { 0, 0 };
struct timeval tsConverter;
DDS::Duration_t waitAckTime = { 0, 800000000 }; //800ms
int refreshRate = 60;
// Veri tutucular (data structures)
vector<string> btMacHolder;
vector<int> btRssiHolder;
string btFileContenHolder;
// Bluetooth tarama sonuçlarının yazdırıldığı dosyadan okuma yapacak
// olan değişken
boost::filesystem::ifstream fIn;
// Bluetooth tarama sıklığı ayarlayan değişken
int refreshRateCounter = -1;
char hostName[1024];
gethostname(hostName, 1024);
// !!! Bluetooth tarama mesajlarını Publish edecek Topic yaratılıyor
// ve o Topic'e ait konfigürasyon ayarları yapılıyor.
// Domain participant yaratılıyor
mgrBtPub.createParticipant ("KonSens_BtSeq_Participant");
// BtSeq tipi yaratılıyor
BtSeqTypeSupport_var btSeqTs = new BtSeqTypeSupport();
mgrBtPub.registerType(btSeqTs.in());
// Topic yaratılıyor
char btPubTopicName[] = "KonSensData_BtSeq_Topic";
mgrBtPub.createTopic(btPubTopicName);
// Publisher yaratılıyor
mgrBtPub.createPublisher();
// DataWriter yaratılıyor
bool autodispose_unregistered_instances = false;
mgrBtPub.createWriter(autodispose_unregistered_instances,
KEEP_ALL_HISTORY_QOS,
BY_SOURCE_TIMESTAMP_DESTINATIONORDER_QOS);
// Yaratılan DataWriter, BtSeq tipi için özelleştiriliyor
DataWriter_var dWriter = mgrBtPub.getWriter ();
BtSeqDataWriter_var btSeqWriter = BtSeqDataWriter::_narrow(dWriter.in());
// Düğüm numarasını atanıyor
btSeqInstance->userID = 13;
// Publish edilecek olan mesajlara zaman etiketi takabilmek için
// btSeqInstance değişkeni register ediliyor
//userHandle = btSeqWriter->register_instance_w_timestamp(*btSeqInstance,
// tsWifiPub);
cout << "=== [Publisher of KonSensData_BtSeq_Topic] Ready ..." << endl;
// !!! Sunucudan gelen komutlara Subscribe olacak olan Topic yaratılıyor
// ve o Topic için gerekli konfigürasyon ayarları yapılıyor
// Domain participant yaratılıyor
mgrReqSub.createParticipant(
"KonSensData_ServerReq_Participant_Server_to_Node");
// ServerReq tipi yaratılıyor.
ServerReqTypeSupport_var mgrSubscriberTS = new ServerReqTypeSupport();
mgrReqSub.registerType(mgrSubscriberTS.in());
// Topic yaratılıyor
char reqSubTopicName[] = "KonSensData_ServerReq_Topic_Server_to_Node";
mgrReqSub.createTopic(reqSubTopicName, RELIABLE_RELIABILITY_QOS,
VOLATILE_DURABILITY_QOS);
// Subscriber yaratılıyor
mgrReqSub.createSubscriber();
// DataReader yaratılıyor
mgrReqSub.createReader(KEEP_LAST_HISTORY_QOS, 1);
// Yaratılan DataReader, ServerReq tipi için özelleştiriliyor.
DataReader_var dReaderSub = mgrReqSub.getReader();
ServerReqDataReader_var serverReqReader =
ServerReqDataReader::_narrow(dReaderSub.in());
checkHandle(serverReqReader.in(), "ServerReqDataReader::_narrow");
cout << "=== [Subscriber KonSensData_ServerReq_Topic_Server_to_Node]"
" Ready ..." << endl;
// Bluetooth aktif hale getiriliyor.
system("sudo hciconfig -a hci0 up");
stringstream ssBtName;
ssBtName << "sudo bt-adapter -a hci0 --set Name \"" << hostName << "\"";
system(ssBtName.str().c_str());
system("sudo bt-adapter -a hci0 --set Discoverable 1");
// Yenileme sıklığını belirleyecek olan 'timelimit' değişkeni yaratılıyor.
Timeout timelimit(std::chrono::milliseconds(refreshRate*1000));
while (true)
{
if (timelimit.isExpired() || refreshRateCounter == -1)
{
// BT mesajını Publish etmek için hazırlık yapılıyor.
cout << "-----------------------------------" << endl;
btSeqInstance->messageID = messageIDCount;
// Tarama öncesi alınan zaman etiketi (timestamp[0])
gettimeofday(&tsConverter, NULL);
tsBeforeTheScan.sec = tsConverter.tv_sec;
tsBeforeTheScan.nanosec = (tsConverter.tv_usec * 1000);
cout << " timestamp[0] (before the scan) = " << tsBeforeTheScan.sec
<< '.';
cout << setfill('0') << setw(9) << (tsBeforeTheScan.nanosec)
<< endl;
// BT taraması yapılıyor ve ardından tarama sonuçları 'bt_rssi'
// dosyasına yazdırılıyor.
system("sudo hciconfig hci0 reset");
FakeDelay();
system("sudo bt-adapter -a hci0 -d >> bt_rssi.txt");
FakeDelay();
cout << "Bluetooth message is publishing..." << endl;
try
{
// BT tarama dosyası okunuyor
fIn.open ("bt_rssi.txt", ios::in);
stringstream ssBt;
ssBt << fIn.rdbuf();
btFileContenHolder = ssBt.str();
system("rm bt_rssi.txt");
// Okunan dosya boost kütüphane yardımıyla ayrıştırılıyor
boost::regex expAd( "Address: ([0-9A-F:]{17})" ) ;
boost::regex expBt( "RSSI:.*?([0-9]+)") ;
boost::match_results<string::const_iterator> whatAd;
string::const_iterator startAd = btFileContenHolder.begin();
string::const_iterator finishAd = btFileContenHolder.end();
while (boost::regex_search(startAd, finishAd, whatAd, expAd))
{
btMacHolder.push_back(whatAd[1]);
startAd = whatAd[0].second ;
}
boost::match_results<string::const_iterator> whatBt;
startAd = btFileContenHolder.begin() ;
finishAd = btFileContenHolder.end() ;
while (boost::regex_search(startAd, finishAd, whatBt, expBt))
{
string foundRssi(whatBt[1]);
btRssiHolder.push_back(atoi(foundRssi.c_str()));
startAd = whatBt[0].second ;
}
cout << "Number of BT connection that has been found: "
<< btRssiHolder.size() << endl;
cout << "MessageID: " << btSeqInstance->messageID << endl;
// Tarama sonrası alınan zaman etiketi (timestamp[1])
gettimeofday(&tsConverter, NULL);
tsAfterTheScan.sec = tsConverter.tv_sec;
tsAfterTheScan.nanosec =( tsConverter.tv_usec * 1000);
cout << " timestamp[1] (after the scan) = "
<< tsAfterTheScan.sec << '.';
cout << setfill('0') << setw(9) << (tsAfterTheScan.nanosec)
<< endl;
// Ayrıştırılan BT tarama dosyası ve alınan zaman etiketleri,
// Publish edilecek olan mesaj değişkenlerine kaydediliyor.
btSeqInstance->timestamp[0][0] = tsBeforeTheScan.nanosec;
btSeqInstance->timestamp[0][1] = tsBeforeTheScan.sec;
btSeqInstance->timestamp[1][0] = tsAfterTheScan.nanosec;
btSeqInstance->timestamp[1][1] = tsAfterTheScan.sec;
btSeqInstance->messages.length(btMacHolder.size());
for(int i = 0; i < btMacHolder.size(); i++)
{
Msg msg;
msg.devID = DDS::string_dup(btMacHolder[i].c_str());
msg.hostName = DDS::string_dup(hostName);
msg.dbm = -btRssiHolder[i];
btSeqInstance->messages[i] = msg;
}
// Publish edilmeden önce, bir önceki mesajın acknowlegde mesajı
// bekleniyor
btSeqWriter->wait_for_acknowledgments(waitAckTime);
status = btSeqWriter->write(*btSeqInstance,
DDS::HANDLE_NIL);
checkStatus(status, "BtSeqDataWriter::write");
messageIDCount++;
}
catch ( boost::bad_expression & ex )
{
std::cout << ex.what() ;
break;
}
btMacHolder.clear();
btRssiHolder.clear();
fIn.close();
cout << "-----------------------------------" << endl;
// Tarama sıklığını belirleyen değişken sıfırlanıyor
timelimit.setTimerToZero();
refreshRateCounter = 0;
cout << refreshRateCounter << endl;
} // BT Publisher kısmının sonu
// Sunucu tarafından gönderilen Matlab komutlarına Subscribe olunuyor
else
{
status = serverReqReader->take(serverReqSeq,
infoSeq,
LENGTH_UNLIMITED,
ANY_SAMPLE_STATE,
ANY_VIEW_STATE,
ANY_INSTANCE_STATE);
checkStatus(status, "severReqDataReader::read");
for (DDS::ULong j = 0; j < serverReqSeq.length(); j++)
{
if(infoSeq[j].valid_data)
{
cout << "=== [Subscriber] message received :" << endl;
cout << " Received Request Message : "
<< serverReqSeq[j].request << endl;
cout << " Received RequestID : \""
<< serverReqSeq[j].requestID << "\"" << endl;
// Rapidjson yapılandırıcısı yaratılıyor
Document d;
if(d.Parse(serverReqSeq[j].request).HasParseError())
cout << " Parsing Error!" << endl;
StringBuffer nodeIdBuffer;
Writer<StringBuffer> nodeIdWriter(nodeIdBuffer);
d["NodeID"].Accept(nodeIdWriter);
string tempNodeId = nodeIdBuffer.GetString();
// Subscribe olunan mesajın düğüme ait olup olmadığı kontrol ediliyor
if (tempNodeId == "\"SensDug13\"")
{
StringBuffer buffer;
Value::ConstMemberIterator itr = d.FindMember("SetRefreshRate");
// Ref Rate komutunun gelip gelmediği kontrol ediliyor
if(itr != d.MemberEnd())
{
string refreshRateString;
int refreshRateInt;
// Document formatındaki JSON mesajı StrinBuffer'a dönüştürülüyor
Writer<StringBuffer> writer(buffer);
d["SetRefreshRate"].Accept(writer);
refreshRateString = buffer.GetString();
// Gelen mesajda fazladan çift tırnak ile bulunuyor
// Örneğin, ""15""
// Bu yüzden ilk son karakterler kırpılıyor
refreshRateString =
refreshRateString.substr(1, refreshRateString.size()-1);
// Refresh rate değeri stringden integera çevriliyor
refreshRateInt = atoi(refreshRateString.c_str());
refreshRate = refreshRateInt;
timelimit.setMaxDuration(std::chrono::milliseconds
(refreshRate*1000));
}
}
else
cout << "Invalid NodeID!" << endl;
}
}
status = serverReqReader->return_loan(serverReqSeq, infoSeq);
checkStatus(status, "ServerReqDataReader::return_loan");
refreshRateCounter++;
cout << refreshRateCounter << endl;
} // Matlab komutuna Subscribe olma kısmının sonu
// Terminalde akacak olan çıktıları dah gözle görülebilir bir şekilde
// yazdırmak için koyulmuştur
FakeDelay();
}
// Hafıza temizle işlemleri gerçekleştiriliyor
mgrBtPub.deleteWriter();
mgrBtPub.deletePublisher();
mgrBtPub.deleteTopic();
mgrBtPub.deleteParticipant();
mgrReqSub.deleteReader();
mgrReqSub.deleteSubscriber();
mgrReqSub.deleteTopic();
mgrReqSub.deleteParticipant();
return 0;
}
int NodeWifiHandler (int argc, char *argv[])
{
// DDS değişkenleri
ReturnCode_t status;
InstanceHandle_t userHandle;
DDSEntityManager mgrReqSub;
DDSEntityManager mgrReqPub;
DDSEntityManager mgrWifiPub;
WifiSeq *wifiSeqInstance = new WifiSeq();;
ServerReqSeq serverReqSeq;
ServerReq *serverReq = new ServerReq();
SampleInfoSeq_var infoSeq = new SampleInfoSeq();
// Zaman ile alakalı değişkenler
DDS::Duration_t waitAckTime = { 0, 800000000 }; //800ms
int refreshRate = 60;
long int messageIDCount = 0;
Time_t tsBeforeTheScan = { 0, 0 };
Time_t tsAfterTheScan = { 0, 0 };
struct timeval tsConverter;
// Veri tutucular (data structures)
vector<string> modemIdHolder;
vector<int> dbmHolder;
string wifiFileContenHolder;
string ifconfigFileContentHolder;
// Wifi tarama sonuçlarının yazdırıldığı dosyadan okuma yapacak
// olan değişken
boost::filesystem::ifstream fInWifiScan, fInIfconfig;
// Matlab komutları ayrıştırılmasında kullanılacak olan değişkenler
string ip, subnet, gateway, dns, nodeName;
char hostName[1024];
gethostname(hostName, 1024);
// Bluetooth tarama sıklığı ayarlayan değişken
int refreshRateCounter = -1;
// !!! Wifi tarama mesajlarını Publish edecek Topic yaratılıyor
// ve o Topic'e ait konfigürasyon ayarları yapılıyor
// Domain participant yaratılıyor
mgrWifiPub.createParticipant("KonSensData_WifiSeq_Participant");
// WifiSeq tipi yaratılıyor
WifiSeqTypeSupport_var wifiSeqTS = new WifiSeqTypeSupport();
mgrWifiPub.registerType(wifiSeqTS.in());
// Topic yaratılıyor
char wifiPubTopicName[] = "KonSensData_WifiSeq_Topic";
mgrWifiPub.createTopic(wifiPubTopicName);
// Publisher yaratılıyor
mgrWifiPub.createPublisher();
// DataWriter yaratılıyor
bool autodisposeUnregisteredInstances = false;
mgrWifiPub.createWriter(autodisposeUnregisteredInstances,
KEEP_ALL_HISTORY_QOS,
BY_SOURCE_TIMESTAMP_DESTINATIONORDER_QOS);
// Yaratılan DataWriter, WifiSeq tipi için özelleştiriliyor
DataWriter_var dWriterWifPub = mgrWifiPub.getWriter();
WifiSeqDataWriter_var wifiSeqWriter =
WifiSeqDataWriter::_narrow(dWriterWifPub.in());
// Düğüm numarası atanıyor
wifiSeqInstance->userID = 13;
cout << "=== [Publisher of KonSensData_WifiSeq_Topic] Ready ..." << endl;
// !!! Sunucudan gelen komutlara Subscribe olacak olan Topic yaratılıyor
// ve o Topic için gerekli konfigürasyon ayarları yapılıyor
// Domain participant yaratılıyor
mgrReqSub.createParticipant(
"KonSensData_ServerReq_Participant_Server_to_Node");
// ServerReq tipi yaratılıyor.
ServerReqTypeSupport_var mgrSubscriberTS = new ServerReqTypeSupport();
mgrReqSub.registerType(mgrSubscriberTS.in());
// Topic yaratılıyor
char reqSubTopicName[] = "KonSensData_ServerReq_Topic_Server_to_Node";
mgrReqSub.createTopic(reqSubTopicName, RELIABLE_RELIABILITY_QOS,
VOLATILE_DURABILITY_QOS);
// Subscriber yaratılıyor
mgrReqSub.createSubscriber();
// DataReader yaratılıyor
mgrReqSub.createReader(KEEP_LAST_HISTORY_QOS, 1);
// Yaratılan DataReader, ServerReq tipi için özelleştiriliyor.
DataReader_var dReadeSub = mgrReqSub.getReader();
ServerReqDataReader_var serverReqReader =
ServerReqDataReader::_narrow(dReadeSub.in());
checkHandle(serverReqReader.in(), "ServerReqDataReader::_narrow");
cout << "=== [Subscriber of KonSensData_ServerReq_Topic_Server_to_Node]"
" Ready ..." << endl;
// !!! Sunucudan gelen komutlar ayrıştırılıp işlendikten sonra Response
// mesajını Publish edecek olan Topic yaratılıyor
// Domain participant yaratılıyor
mgrReqPub.createParticipant(
"KonSensData_ServerReq_Participant_Node_to_Server");
// ServerReq tipi yaratılıyor.
ServerReqTypeSupport_var mgrPublisherTS = new ServerReqTypeSupport();
mgrReqPub.registerType(mgrPublisherTS.in());
// Topic yaratılıyor
char reqPubTopicName[] = "KonSensData_ServerReq_Topic_Node_to_Server";
mgrReqPub.createTopic(reqPubTopicName, RELIABLE_RELIABILITY_QOS,
VOLATILE_DURABILITY_QOS);
// Publisher yaratılıyor
mgrReqPub.createPublisher();
// DataWriter yaratılıyor
// Not: Kullanılan autodisposeUnregisteredInstances değişkeni
// WifiSeqDataWriter yaratılırken ki kullananla aynıdır
mgrReqPub.createWriter(autodisposeUnregisteredInstances,
KEEP_LAST_HISTORY_QOS, 1);
// Yaratılan DataReader, ServerReq tipi için özelleştiriliyor.
DataWriter_var dWriterPub = mgrReqPub.getWriter();
ServerReqDataWriter_var serverReqWriter =
ServerReqDataWriter::_narrow(dWriterPub.in());
cout << "=== [Publisher of KonSensData_ServerReq_Topic_Node_to_Server] "
"Ready ..." << endl;
// Yenileme sıklığını belirleyecek olan 'timelimit' değişkeni yaratılıyor.
Timeout timeLimit(std::chrono::milliseconds(refreshRate*1000));
while(true)
{
if (timeLimit.isExpired() || refreshRateCounter == -1)
{
// Wifi mesajını Publish etmek için hazırlık yapılıyor.
cout << "-----------------------------------" << endl;
wifiSeqInstance->messageID = messageIDCount;
// Tarama öncesi alınan zaman etiketi (timestamp[0])
gettimeofday(&tsConverter, NULL);
tsBeforeTheScan.sec = tsConverter.tv_sec;
tsBeforeTheScan.nanosec = (tsConverter.tv_usec * 1000);
cout << " timestamp[0] (before the scan) = " << tsBeforeTheScan.sec
<< '.';
cout << setfill('0') << setw(9) << (tsBeforeTheScan.nanosec)
<< endl;
// Wifi taraması yapılıyor ve ardından tarama sonuçları 'wifi_rssi'
// dosyasına yazdırılıyor.
system("sudo iwlist wlan0 scanning >> wifi_rssi.txt");
// Wifi bağlantısı kapatılıyor
system("sudo ifconfig wlan0 down");
// Wifi tarama dosyası okunuyor
fInWifiScan.open("wifi_rssi.txt",ios::in);
stringstream ssWifi;
ssWifi << fInWifiScan.rdbuf();
wifiFileContenHolder = ssWifi.str();
system("rm wifi_rssi.txt");
try
{
// Okunan dosya boost kütüphane yardımıyla ayrıştırılıyor
boost::regex exp( "Signal level=.*?([0-9]+)") ;
boost::regex expAd( "Address: ([0-9A-F:]{17})" ) ;
boost::match_results<string::const_iterator> whatAd;
string::const_iterator startAd =
wifiFileContenHolder.begin() ;
string::const_iterator finishAd =
wifiFileContenHolder.end() ;
while (boost::regex_search(startAd, finishAd,
whatAd, expAd))
{
modemIdHolder.push_back(whatAd[1]);
startAd = whatAd[0].second ;
}
boost::match_results<string::const_iterator> what;
string::const_iterator start = wifiFileContenHolder.begin();
string::const_iterator finish = wifiFileContenHolder.end();
while (boost::regex_search(start, finish, what, exp))
{
string foundDbm(what[1]);
dbmHolder.push_back(atoi(foundDbm.c_str()));
start = what[0].second ;
}
cout << " Number of Wifi Network that has been founded: "
<< dbmHolder.size() << endl;
// Tarama sonrası alınan zaman etiketi (timestamp[1])
gettimeofday(&tsConverter, NULL);
tsAfterTheScan.sec = tsConverter.tv_sec;
tsAfterTheScan.nanosec = (tsConverter.tv_usec * 1000);
cout << " timestamp[1] (after the scan) = "
<< tsAfterTheScan.sec << '.';
cout << setfill('0') << setw(9) << (tsAfterTheScan.nanosec)
<< endl;
// Ayrıştırılan Wifi tarama dosyası ve alınan zaman etiketleri,
// Publish edilecek olan mesaj değişkenlerine kaydediliyor
wifiSeqInstance->timestamp[0][0] = tsBeforeTheScan.nanosec;
wifiSeqInstance->timestamp[0][1] = tsBeforeTheScan.sec;
wifiSeqInstance->timestamp[1][0] = tsAfterTheScan.nanosec;
wifiSeqInstance->timestamp[1][1] = tsAfterTheScan.sec;
wifiSeqInstance->messages.length(modemIdHolder.size());
cout << " MessageID: " << wifiSeqInstance->messageID << endl;
for(int i = 0; i < modemIdHolder.size(); i++)
{
Msg msg;
msg.devID = DDS::string_dup(modemIdHolder[i].c_str());
msg.hostName = DDS::string_dup(hostName);
msg.dbm = -dbmHolder[i];
wifiSeqInstance->messages[i] = msg;
}
// Publish edilmeden önce, bir önceki mesajın acknowlegde mesajı
// bekleniyor
wifiSeqWriter->wait_for_acknowledgments(waitAckTime);
status = wifiSeqWriter->write(*wifiSeqInstance,DDS::HANDLE_NIL);
checkStatus(status, "konsensSensDugWifiSeqTopic::"
"WifiSeqDataWriter::write_w_timestamp");
// Wifi bağlantısı tekrar açılıyor
system("sudo ifconfig wlan0 up");
messageIDCount++;
}
catch ( boost::bad_expression & ex )
{
cout << ex.what() ;
}
modemIdHolder.clear();
dbmHolder.clear();
wifiFileContenHolder.clear();
fInWifiScan.close();
cout << "-----------------------------------" << endl;
timeLimit.setTimerToZero();
// Tarama sıklığını belirleyen değişken sıfırlanıyor
refreshRateCounter = 0;
cout << refreshRateCounter << endl;
} // Wifi Publisher kısmının sonu
// Sunucu tarafından gönderilen Matlab komutlarına Subscribe olunuyor
else
{
status = serverReqReader->take(serverReqSeq,
infoSeq,
LENGTH_UNLIMITED,
ANY_SAMPLE_STATE,
ANY_VIEW_STATE,
ANY_INSTANCE_STATE);
checkStatus(status, "severReqDataReader::take");
// isDataReceived değişkeni bir kontrol değişkeni olup, Matlab komut
// bilgisini içeren mesaja Subscribe olunduysa true, olunmadıysa false
// değerini tutar
bool isDataReceived = false;
for (DDS::ULong j = 0; j < serverReqSeq.length(); j++)
{
if(infoSeq[j].valid_data)
{
cout << "=== [Subscriber] message received :" << endl;
cout << " Received Request Message : "
<< serverReqSeq[j].request << endl;
cout << " Received RequestID : \""
<< serverReqSeq[j].requestID << "\"" << endl;
// Rapidjson yapılandırıcısı yaratılıyor
Document d;
if(d.Parse(serverReqSeq[j].request).HasParseError())
cout << " Parsing Error!" << endl;
StringBuffer nodeIdBuffer;
Writer<StringBuffer> nodeIdWriter(nodeIdBuffer);
d["NodeID"].Accept(nodeIdWriter);
string tempNodeId = nodeIdBuffer.GetString();
// Subscribe olunan mesajın düğüme ait olup olmadığı kontrol ediliyor
if (tempNodeId == "\"SensDug13\"")
{
StringBuffer buffer;
// Reset komutunun gelip gelmediği kontrol ediliyor.
Value::ConstMemberIterator itr = d.FindMember("Reset");
if(itr != d.MemberEnd())
{
// Resetin değeri falsedan trueya çevriliyor
Value& s = d["Reset"];
s.SetBool(true);
// Document formatındaki JSON mesajı StrinBuffer'a dönüştürülüyor
Writer<StringBuffer> writer(buffer);
d.Accept(writer);
cout << " Request Message is modified to : "
<< buffer.GetString() << endl;
// Publish edilecek Response mesajı hazırlanıyor
string str = buffer.GetString();
str.append("\n");
serverReq->request = DDS::string_dup(str.c_str());
serverReq->requestID = serverReqSeq[j].requestID;
if(!isDataReceived && status == DDS::RETCODE_OK)
{
// Response mesajı gönderiliyor
ReturnCode_t tempStatus = serverReqWriter->write(
*serverReq, DDS::HANDLE_NIL);
checkStatus(tempStatus, "severReqDataReader::write");
isDataReceived = true;
cout << " Response Request Message is sent : "
<< serverReq->request << endl;
cout << " Response RequestID is sent : \""
<< serverReq->requestID << "\"" << endl;
}
// Sistem yeniden başlatılıyor !!!
cout << "reboot" << endl;
system("sudo reboot");
}
// GetRefreshRate ve SetRefreshRate komutundan herhangi birinin
// gelip gelmediği kontrol ediliyor
itr = d.FindMember("SetRefreshRate");
if(itr != d.MemberEnd())
{
string refreshRateString;
int refreshRateInt;
// Status değeri falsedan trueya çevriliyor
Value& s = d["Status"];
s.SetBool(true);
// Document formatındaki JSON mesajı StrinBuffer'a dönüştürülüyor
Writer<StringBuffer> writer(buffer);
d["SetRefreshRate"].Accept(writer);
refreshRateString = buffer.GetString();
// Gelen mesajda fazladan çift tırnak ile bulunuyor
// Örneğin, ""15""
// Bu yüzden ilk son karakterler kırpılıyor
refreshRateString =
refreshRateString.substr(1, refreshRateString.size()-1);
// Refresh rate değeri stringden integera çevriliyor
refreshRateInt = atoi(refreshRateString.c_str());
// Refresh rate değişkeni güncelleniyor
refreshRate = refreshRateInt;
timeLimit.setMaxDuration(std::chrono::milliseconds
(refreshRate*1000));
}
itr = d.FindMember("GetRefreshRate");
if(itr != d.MemberEnd())
{
// Status değeri falsedan trueya çevriliyor
Value& s = d["Status"];
s.SetBool(true);
Value& tempRefreshRate = d["GetRefreshRate"];
// Güncel refresh rate değişken bilgisi alınıyor
string str = to_string(refreshRate);
tempRefreshRate.SetString(str.c_str(), str.length());
}
// GetAliveStatus komutunun gönderilip gönderilmediği kontrol
// ediliyor.
itr = d.FindMember("Alive");
if(itr != d.MemberEnd())
{
// Alive değeri truedan false çevriliyor
Value& s = d["Alive"];
s.SetBool(true);
// Document formatındaki JSON mesajı StrinBuffer'a dönüştürülüyor
Writer<StringBuffer> writer(buffer);
d.Accept(writer);
}
// GetNetStatus komutunun gelip gelmediği kontrol ediliyor
itr = d.FindMember("IP");
if(itr != d.MemberEnd())
{
cout << "-----------------------------------" << endl;
// Ağ durum bilgisi ifconfig.txt dosyasına yazdırılıyor
system("cat /etc/network/interfaces >> ifconfig.txt");
system("cat /etc/resolv.conf >> ifconfig.txt");
system("echo -n hostname >> ifconfig.txt && hostname "
">> ifconfig.txt");
// ifconfig.txt dosyası açılıyor
fInIfconfig.open("ifconfig.txt",ios::in);
stringstream ssIfconfig;
ssIfconfig << fInIfconfig.rdbuf();
ifconfigFileContentHolder = ssIfconfig.str();
system("rm ifconfig.txt");
// Dosya içeriği ayrıştırılıyor
try
{
boost::regex expIp
("address (\\d{1,3}(\\.\\d{1,3}){3})");
boost::regex expSubnet
("netmask (\\d{1,3}(\\.\\d{1,3}){3})");
boost::regex expGateway
("gateway (\\d{1,3}(\\.\\d{1,3}){3})");
boost::regex expDns
("nameserver (\\d{1,3}(\\.\\d{1,3}){3})");
boost::regex expNoneName
("hostname.*");
string::const_iterator startAd =
ifconfigFileContentHolder.begin() ;
string::const_iterator finishAd =
ifconfigFileContentHolder.end() ;
boost::match_results<string::const_iterator> whatIp;
if ( boost::regex_search(startAd, finishAd,
whatIp, expIp) )
{
ip = whatIp[0];
cout << ip << endl;
string chopped_str = "address ";
string::size_type i = ip.find(chopped_str);
if (i != string::npos)
ip.erase(i, chopped_str.length());
Value& tempIp = d["IP"];
tempIp.SetString(ip.c_str(), ip.length());
}
startAd = ifconfigFileContentHolder.begin() ;
finishAd = ifconfigFileContentHolder.end() ;
boost::match_results<string::const_iterator> whatSubnet;
if ( boost::regex_search(startAd, finishAd,
whatSubnet, expSubnet) )
{
subnet = whatSubnet[0];
cout << subnet << endl;
string chopped_str = "netmask ";
string::size_type i = subnet.find(chopped_str);
if (i != string::npos)
subnet.erase(i, chopped_str.length());
Value& tempSubnet = d["Subnet"];
tempSubnet.SetString(subnet.c_str(),
subnet.length());
}
startAd = ifconfigFileContentHolder.begin() ;
finishAd = ifconfigFileContentHolder.end() ;
boost::match_results<string::const_iterator> whatGateway;
if ( boost::regex_search(startAd, finishAd,
whatGateway, expGateway) )
{
gateway = whatGateway[0];
cout << gateway << endl;
string chopped_str = "gateway ";
string::size_type i = gateway.find(chopped_str);
if (i != string::npos)
gateway.erase(i, chopped_str.length());
Value& tempGateway = d["Gateway"];
tempGateway.SetString(gateway.c_str(),
gateway.length());
}
startAd = ifconfigFileContentHolder.begin() ;
finishAd = ifconfigFileContentHolder.end() ;
boost::match_results<string::const_iterator> whatDns;
if ( boost::regex_search(startAd, finishAd,
whatDns, expDns) )
{
dns = whatDns[0];
cout << dns << endl;
string chopped_str = "nameserver ";
string::size_type i = dns.find(chopped_str);
if (i != string::npos)
dns.erase(i, chopped_str.length());
Value& tempDns = d["DNS"];
tempDns.SetString(dns.c_str(), dns.length());
}
startAd = ifconfigFileContentHolder.begin() ;
finishAd = ifconfigFileContentHolder.end() ;
boost::match_results<string::const_iterator> whatNodeName;
if ( boost::regex_search(startAd, finishAd,
whatNodeName, expNoneName) )
{
nodeName = whatNodeName[0];
cout << nodeName << endl;
string chopped_str = "hostname";
string::size_type i = nodeName.find(chopped_str);
if (i != string::npos)
nodeName.erase(i, chopped_str.length());
nodeName.erase(remove(nodeName.begin(),
nodeName.end(),
'\n'),
nodeName.end());
Value& tempNodeName = d["Name"];
tempNodeName.SetString(nodeName.c_str(),
nodeName.length());
}
cout << ip << endl;
cout << subnet << endl;
cout << dns << endl;
cout << nodeName << endl;
} // Dosya ayrıştırma işlemi bitti
catch ( boost::bad_expression & ex )
{
cout << ex.what() ;
}
ifconfigFileContentHolder.clear();
fInIfconfig.close();
cout << "-----------------------------------" << endl;
// GetNetStatus komutuna ait status değeri falsedan trueya
// çevriliyor.
Value& s = d["Status"];
s.SetBool(true);
}
// Matlab'dan gelen mesaj içeriğinin ayrıştırılıp düzenlenme işlemi
// tamamlandı ve sunucuya Response mesajını Publish etmek için
// aşağıdaki adımlar gerçekleştiriliyor
// Document formatındaki JSON mesajı StrinBuffer'a dönüştürülüyor
StringBuffer responseBuffer;
Writer<StringBuffer> writer(responseBuffer);
d.Accept(writer);
cout << " Request Message is modified to : "
<< responseBuffer.GetString() << endl;
// Response mesajı hazırlanıyor
string str = responseBuffer.GetString();
str.append("\n");
serverReq->request = DDS::string_dup(str.c_str());
//serverReq->request = DDS::string_dup("Hello World\n");
serverReq->requestID = serverReqSeq[j].requestID;
if(!isDataReceived && status == DDS::RETCODE_OK)
{
// Response mesajı Publish ediliyor
ReturnCode_t tempStatus = serverReqWriter->write(
*serverReq, DDS::HANDLE_NIL);
checkStatus(tempStatus, "severReqDataReader::write");
isDataReceived = true;
cout << " Response Request Message is sent : "
<< serverReq->request << endl;
cout << " Response RequestID is sent : \""
<< serverReq->requestID << "\"" << endl;
}
}
else
cout << "Invalid NodeID!" << endl;
}
}
status = serverReqReader->return_loan(serverReqSeq, infoSeq);
checkStatus(status, "MsgDataReader::return_loan");
refreshRateCounter++;
cout << refreshRateCounter << endl;
} // Matlab komutuna Subscribe olma kısmının sonu
// Terminalde akacak olan çıktıları dah gözle görülebilir bir şekilde
// yazdırmak için koyulmuştur
fake_delay();
}
// Hafıza temizle işlemleri gerçekleştiriliyor
status = wifiSeqWriter->dispose(*wifiSeqInstance, userHandle);
checkStatus(status, "WifiSeqDataWriter::dispose");
status = wifiSeqWriter->unregister_instance(*wifiSeqInstance, userHandle);
checkStatus(status, "WifiSeqDataWriter::unregister_instance");
delete wifiSeqInstance;
delete serverReq;
mgrWifiPub.deleteWriter();
mgrWifiPub.deletePublisher();
mgrWifiPub.deleteTopic();
mgrWifiPub.deleteParticipant();
mgrReqSub.deleteReader();
mgrReqSub.deleteSubscriber();
mgrReqSub.deleteTopic();
mgrReqSub.deleteParticipant();
mgrReqPub.deletePublisher();
mgrReqPub.deleteWriter();
mgrReqPub.deleteTopic();
mgrReqPub.deleteParticipant();
return 0;
}
AbstractWorkSource::Events AbstractWorkSource::Refresh(bool canRead, bool canWrite) {
// This is public and due to TCP async connect nature, we cannot assume we're ready to go so shortcircuit if still waiting.
if(!stratum) return Events();
// As a start, dispatch my data to the server. It is required to do this first as we need to
// initiate connection with a mining.subscribe. Each tick, we send as many bytes as we can until
// write buffer is exhausted.
const time_t PREV_WORK_STAMP(stratum->LastNotifyTimestamp());
if(stratum->pending.size() && canWrite) {
asizei count = 1;
while(count && stratum->pending.size()) {
StratumState::Blob &msg(stratum->pending.front());
auto sent(Send(msg.data + msg.sent, msg.total - msg.sent));
if(sent.first == false) {
Events ohno;
ohno.connFailed = true;
return ohno;
}
count = sent.second;
msg.sent += count;
if(msg.sent == msg.total) {
#if STRATUM_DUMPTRAFFIC
stratumDump<<">>sent to server:"<<std::endl;
for(asizei i = 0; i < msg.total; i++) stratumDump<<msg.data[i];
stratumDump<<std::endl;
#endif
stratum->pending.pop();
}
}
}
Events ret;
if(canRead == false) return ret; // sends are still considered nops, as they don't really change the hi-level state
auto received(Receive(recvBuffer.NextBytes(), recvBuffer.Remaining()));
if(received.first == false) {
ret.connFailed = true;
return ret;
}
else if(received.second == 0) return ret;
ret.bytesReceived += received.second;
recvBuffer.used += received.second;
if(recvBuffer.Full()) recvBuffer.Grow();
using namespace rapidjson;
Document object;
char *pos = recvBuffer.data.get();
char *lastEndl = nullptr;
const auto prevDiff(GetCurrentDiff());
const auto prevJob(stratum->GetCurrentJob());
while(pos < recvBuffer.NextBytes()) {
char *limit = std::find(pos, recvBuffer.NextBytes(), '\n');
if(limit >= recvBuffer.NextBytes()) pos = limit;
else { // I process one line at time
#if STRATUM_DUMPTRAFFIC
stratumDump<<">>from server:";
for(asizei i = 0; pos + i < limit; i++) stratumDump<<pos[i];
stratumDump<<std::endl;
#endif
lastEndl = limit;
ScopedFuncCall restoreChar([limit]() { *limit = '\n'; }); // not really necessary but I like the idea
*limit = 0;
object.ParseInsitu(pos);
const Value::ConstMemberIterator &id(object.FindMember("id"));
const Value::ConstMemberIterator &method(object.FindMember("method"));
// There was a time in which stratum had "notifications" and "requests". They were the same thing basically but requests had an id
// to be used for confirmations. Besides some idiot wanted to use 0 as an ID, P2Pool servers always attach an ID even to notifications,
// which is a less brain-damaged thing but still mandated some changes here.
std::string idstr;
aulong idvalue = 0;
if(id != object.MemberEnd()) {
switch(id->value.GetType()) {
case kNumberType: {
if(id->value.IsUint()) idvalue = id->value.GetUint();
else if(id->value.IsInt()) idvalue = id->value.GetInt();
else if(id->value.IsUint64()) idvalue = id->value.GetUint64();
else if(id->value.IsInt64()) idvalue = id->value.GetInt64();
idstr = std::to_string(idvalue);
break;
}
case kStringType:
idstr.assign(id->value.GetString(), id->value.GetStringLength());
for(size_t check = 0; check < idstr.length(); check++) {
char c = idstr[check];
if(c < '0' || c > '9') throw std::exception("All my ids are naturals>0, this should be a natural>0 number!");
}
idvalue = strtoul(idstr.c_str(), NULL, 10);
break;
}
}
/* If you read the minimalistic documentation of stratum you get the idea you can trust on some things.
No, you don't. The only real thing you can do is figure out if something is a request from the server or a reply. */
if(method != object.MemberEnd() && method->value.IsString()) {
if(method->value.GetString()) MangleMessageFromServer(idstr, method->value.GetString(), object["params"]);
}
else { // I consider it a reply. Then it has .result or .error... MAYBE. P2Pool for example sends .result=.error=null as AUTH replies to say it doesn't care about who's logging in!
MangleReplyFromServer(idvalue, object["result"], object["error"]);
}
pos = lastEndl + 1;
}
}
if(lastEndl) { // at least a line has been mangled
const char *src = lastEndl + 1;
char *dst = recvBuffer.data.get();
for(; src < recvBuffer.NextBytes(); src++, dst++) *dst = *src;
recvBuffer.used = src - (lastEndl + 1);
#if _DEBUG
for(; dst < recvBuffer.data.get() + recvBuffer.allocated; dst++) *dst = 0;
#endif
}
else return ret;
const auto nowDiff(GetCurrentDiff());
const auto nowJob(stratum->GetCurrentJob());
auto different = [](const stratum::MiningNotify &one, const stratum::MiningNotify &two) {
if(one.job != two.job || one.ntime != two.ntime || one.clear != two.clear) return true; // most likely
if(one.prevHash != two.prevHash) return true; // fairly likely
// blockVer is mostly constant,
// nbits is... ?
if(one.merkles.size() != two.merkles.size()) return true; // happens quite often
if(one.coinBaseOne.size() != two.coinBaseOne.size() || one.coinBaseTwo.size() != two.coinBaseTwo.size()) return true; // not likely, if at all possible
bool diff = false;
for(asizei i = 0; i < one.merkles.size(); i++) diff |= one.merkles[i].hash != two.merkles[i].hash;
for(asizei i = 0; i < one.coinBaseOne.size(); i++) diff |= one.coinBaseOne[i] != two.coinBaseOne[i];
for(asizei i = 0; i < one.coinBaseTwo.size(); i++) diff |= one.coinBaseTwo[i] != two.coinBaseTwo[i];
return diff;
};
ret.diffChanged = nowDiff != prevDiff;
ret.newWork = different(prevJob, nowJob) && GetCurrentDiff().shareDiff != .0; // new work is to be delayed as long as diff is 0
if(prevDiff.shareDiff == .0 && nowDiff.shareDiff != .0) {
// When this happens and we already have a job of any sort we can finally flush the new work to the outer code
if(nowJob.job.size()) ret.newWork = true;
}
return ret;
}
