DeploymentCommand& DeploymentCommand::operator =(const JsonValue& jsonValue)
{
  if(jsonValue.ValueExists("Name"))
  {
    m_name = DeploymentCommandNameMapper::GetDeploymentCommandNameForName(jsonValue.GetString("Name"));

    m_nameHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Args"))
  {
    Aws::Map<Aws::String, JsonValue> argsJsonMap = jsonValue.GetObject("Args").GetAllObjects();
    for(auto& argsItem : argsJsonMap)
    {
      Array<JsonValue> stringsJsonList = argsItem.second.AsArray();
      Aws::Vector<Aws::String> stringsList;
      stringsList.reserve((size_t)stringsJsonList.GetLength());
      for(unsigned stringsIndex = 0; stringsIndex < stringsJsonList.GetLength(); ++stringsIndex)
      {
        stringsList.push_back(stringsJsonList[stringsIndex].AsString());
      }
      m_args[argsItem.first] = std::move(stringsList);
    }
    m_argsHasBeenSet = true;
  }

  return *this;
}
Example #2
0
void URI::SetPath(const Aws::String& value, bool shouldEncode)
{
    //we need to url encode the path parts (mainly to take care of spaces that a user might put here)
    if (shouldEncode)
    {
        Aws::Vector<Aws::String> pathParts = StringUtils::Split(value, '/');
        Aws::StringStream ss;

        for (Aws::Vector<Aws::String>::iterator iter = pathParts.begin(); iter != pathParts.end(); ++iter)
        {
            ss << '/' << StringUtils::URLEncode(iter->c_str());
        }

        //if the last character was also a slash, then add that back here.
        if (value[value.length() - 1] == '/')
        {
            ss << '/';
        }

        path = ss.str();
    }
    else
    {
        path = value;
    }
}
Example #3
0
size_t CurlHttpClient::WriteHeader(char* ptr, size_t size, size_t nmemb, void* userdata)
{
    if (ptr)
    {
        AWS_LOGSTREAM_TRACE(CURL_HTTP_CLIENT_TAG, ptr);
        HttpResponse* response = (HttpResponse*) userdata;
        Aws::String headerLine(ptr);
        Aws::Vector<Aws::String> keyValuePair = StringUtils::Split(headerLine, ':');


        if (keyValuePair.size() > 1)
        {
            Aws::String headerName = keyValuePair[0];
            headerName = StringUtils::Trim(headerName.c_str());


            Aws::String headerValue = headerLine.substr(headerName.length() + 1).c_str();
            headerValue = StringUtils::Trim(headerValue.c_str());


            response->AddHeader(headerName, headerValue);
        }
        return size * nmemb;
    }
    return 0;
}
TEST(StringUtilsTest, TestSplitWithEmptyString)
{
    AWS_BEGIN_MEMORY_TEST(16, 10)

    Aws::String toSplit = "";

    Aws::Vector<Aws::String> splits = StringUtils::Split(toSplit, ',');

    ASSERT_EQ(0uL, splits.size());

    AWS_END_MEMORY_TEST
}
TEST(StringUtilsTest, TestSplitDelimiterNotFound)
{
    AWS_BEGIN_MEMORY_TEST(16, 10)

    Aws::String toSplit = "BlahBlahBlah";

    Aws::Vector<Aws::String> splits = StringUtils::Split(toSplit, ',');

    ASSERT_EQ(1uL, splits.size());

    AWS_END_MEMORY_TEST
}
AttributeValue& AttributeValue::AddNItem(const Aws::String& nItem)
{
    if (!m_value)
    {
        Aws::Vector<Aws::String> ns;
        ns.push_back(nItem);
        m_value = Aws::MakeShared<AttributeValueNumberSet>("AttributeValue", ns);
    }
    else
    {
        m_value->AddNItem(nItem);
    }
    return *this;
}
AttributeValue& AttributeValue::AddSItem(const Aws::String& sItem)
{
    if (!m_value)
    {
        Aws::Vector<Aws::String> ss;
        ss.push_back(sItem);
        m_value = Aws::MakeShared<AttributeValueStringSet>("AttributeValue", ss);
    }
    else
    {
        m_value->AddSItem(sItem);
    }
    return *this;
}
AttributeValue& AttributeValue::AddBItem(const ByteBuffer& bItem)
{
    if (!m_value)
    {
        Aws::Vector<ByteBuffer> bs;
        bs.push_back(bItem);
        m_value = Aws::MakeShared<AttributeValueByteBufferSet>("AttributeValue", bs);
    }
    else
    {
        m_value->AddBItem(bItem);
    }
    return *this;
}
Example #9
0
 Aws::Vector<Aws::String> Directory::GetAllFilePathsInDirectory(const Aws::String& path)
 {
     Aws::FileSystem::DirectoryTree tree(path);
     Aws::Vector<Aws::String> filesVector;
     auto visitor = [&](const Aws::FileSystem::DirectoryTree*, const Aws::FileSystem::DirectoryEntry& entry) 
     { 
         if (entry.fileType == Aws::FileSystem::FileType::File)
         {
             filesVector.push_back(entry.path);
         }
         return true;
     };
     tree.TraverseBreadthFirst(visitor);
     return filesVector;
 }
TEST(StringUtilsTest, TestSplitHappyPath)
{
    AWS_BEGIN_MEMORY_TEST(16, 10)

    Aws::String toSplit = "test1,test2,test3,test4";
    Aws::Vector<Aws::String> splits = StringUtils::Split(toSplit, ',');

    ASSERT_EQ(4uL, splits.size());
    EXPECT_STREQ("test1", splits[0].c_str());
    EXPECT_STREQ("test2", splits[1].c_str());
    EXPECT_STREQ("test3", splits[2].c_str());
    EXPECT_STREQ("test4", splits[3].c_str());

    AWS_END_MEMORY_TEST
}
AttributeValue& AttributeValue::AddLItem(const std::shared_ptr<AttributeValue>& listItem)
{
    if (!m_value)
    {
        Aws::Vector<std::shared_ptr<AttributeValue>> list;
        list.push_back(listItem);
        m_value = Aws::MakeShared<AttributeValueList>("AttributeValue", list);
    }
    else
    {
        m_value->AddLItem(listItem);
    }

    return *this;
}
Example #12
0
Hit& Hit::operator =(const JsonValue& jsonValue)
{
  if(jsonValue.ValueExists("id"))
  {
    m_id = jsonValue.GetString("id");

    m_idHasBeenSet = true;
  }

  if(jsonValue.ValueExists("fields"))
  {
    Aws::Map<Aws::String, JsonValue> fieldsJsonMap = jsonValue.GetObject("fields").GetAllObjects();
    for(auto& fieldsItem : fieldsJsonMap)
    {
      Array<JsonValue> fieldValueJsonList = fieldsItem.second.AsArray();
      Aws::Vector<Aws::String> fieldValueList;
      fieldValueList.reserve((size_t)fieldValueJsonList.GetLength());
      for(unsigned fieldValueIndex = 0; fieldValueIndex < fieldValueJsonList.GetLength(); ++fieldValueIndex)
      {
        fieldValueList.push_back(fieldValueJsonList[fieldValueIndex].AsString());
      }
      m_fields[fieldsItem.first] = std::move(fieldValueList);
    }
    m_fieldsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("exprs"))
  {
    Aws::Map<Aws::String, JsonValue> exprsJsonMap = jsonValue.GetObject("exprs").GetAllObjects();
    for(auto& exprsItem : exprsJsonMap)
    {
      m_exprs[exprsItem.first] = exprsItem.second.AsString();
    }
    m_exprsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("highlights"))
  {
    Aws::Map<Aws::String, JsonValue> highlightsJsonMap = jsonValue.GetObject("highlights").GetAllObjects();
    for(auto& highlightsItem : highlightsJsonMap)
    {
      m_highlights[highlightsItem.first] = highlightsItem.second.AsString();
    }
    m_highlightsHasBeenSet = true;
  }

  return *this;
}
TEST(StringUtilsTest, TestSplitWithDelimiterOnTheFrontAndBack)
{
    AWS_BEGIN_MEMORY_TEST(16, 10)

    Aws::String toSplit = ",test1,test2,test3,test4,";

    Aws::Vector<Aws::String> splits = StringUtils::Split(toSplit, ',');

    ASSERT_EQ(4uL, splits.size());
    EXPECT_STREQ("test1", splits[0].c_str());
    EXPECT_STREQ("test2", splits[1].c_str());
    EXPECT_STREQ("test3", splits[2].c_str());
    EXPECT_STREQ("test4", splits[3].c_str());

    AWS_END_MEMORY_TEST
}
void VerifyAllLogsAtOrBelow(LogLevel logLevel, const Aws::String& tag, const Aws::Vector<Aws::String>& loggedStatements)
{
    static const uint32_t STATEMENTS_PER_LEVEL = 3;
    uint32_t expectedLogLevels = static_cast<uint32_t>(logLevel);
    uint32_t expectedStatementCount = expectedLogLevels * STATEMENTS_PER_LEVEL;
    ASSERT_EQ(expectedStatementCount, loggedStatements.size());

    for(uint32_t i = 0; i < expectedLogLevels; ++i)
    {
        LogLevel currentLevel = static_cast<LogLevel>(i + 1);
        Aws::String levelTag = "[" + GetLogLevelName(currentLevel) + "]";

        for(uint32_t j = 0; j < STATEMENTS_PER_LEVEL; ++j)
        {
            uint32_t statementIndex = i * STATEMENTS_PER_LEVEL + j;
            ASSERT_TRUE(loggedStatements[statementIndex].find(levelTag) != Aws::String::npos);
            ASSERT_TRUE(loggedStatements[statementIndex].find(tag) != Aws::String::npos);
        }

        Aws::String logText1 = "test " + StringUtils::ToLower(GetLogLevelName(currentLevel).c_str()) + " level";
        ASSERT_TRUE(loggedStatements[i * STATEMENTS_PER_LEVEL].find(logText1) != Aws::String::npos);

        Aws::String logText2 = "test " + StringUtils::ToLower(GetLogLevelName(currentLevel).c_str()) + " format level";
        ASSERT_TRUE(loggedStatements[i * STATEMENTS_PER_LEVEL + 1].find(logText2) != Aws::String::npos);

        Aws::String logText3 = "test " + StringUtils::ToLower(GetLogLevelName(currentLevel).c_str()) + " stream level";
        ASSERT_TRUE(loggedStatements[i * STATEMENTS_PER_LEVEL + 2].find(logText3) != Aws::String::npos);
    }
}
Example #15
0
Aws::Vector<Aws::String> StringUtils::SplitOnLine(const Aws::String& toSplit)
{
    Aws::StringStream input(toSplit);
    Aws::Vector<Aws::String> returnValues;
    Aws::String item;

    while (std::getline(input, item))
    {
        if (item.size() > 0)
        {
            returnValues.push_back(item);
        }
    }

    return std::move(returnValues);
}
TEST(StringUtilsTest, TestSplitOnLineHappyPath)
{
    AWS_BEGIN_MEMORY_TEST(16, 10)

    Aws::StringStream ss;
    ss << "test1" << std::endl << "test2" << std::endl << "test3" << std::endl << "test4";
    Aws::String toSplit = ss.str();

    Aws::Vector<Aws::String> splits = StringUtils::SplitOnLine(toSplit);

    ASSERT_EQ(4uL, splits.size());
    EXPECT_STREQ("test1", splits[0].c_str());
    EXPECT_STREQ("test2", splits[1].c_str());
    EXPECT_STREQ("test3", splits[2].c_str());
    EXPECT_STREQ("test4", splits[3].c_str());

    AWS_END_MEMORY_TEST
}
Example #17
0
Aws::String URI::URLEncodePath(const Aws::String& path)
{
    Aws::Vector<Aws::String> pathParts = StringUtils::Split(path, '/');
    Aws::StringStream ss;

    for (Aws::Vector<Aws::String>::iterator iter = pathParts.begin(); iter != pathParts.end(); ++iter)
    {
        ss << '/' << StringUtils::URLEncode(iter->c_str());
    }

    //if the last character was also a slash, then add that back here.
    if (path[path.length() - 1] == '/')
    {
        ss << '/';
    }

    return ss.str();
}
Aws::Map<Aws::String, Aws::String> ProfileConfigFileAWSCredentialsProvider::ParseProfileConfigFile(const Aws::String& filename)
{
    std::ifstream profileFile(filename.c_str());
    Aws::Map<Aws::String, Aws::String> propertyValueMap;

    Aws::String profile = "";
    if (profileFile.good() && profileFile.is_open())
    {
        Aws::String line;
        while (std::getline(profileFile, line))
        {
            Aws::String trimmedLine(StringUtils::Trim(line.c_str()));

            if (trimmedLine.empty() || trimmedLine.front() == '#')
                continue;

            if (trimmedLine.front() == '[' && trimmedLine.back() == ']')
            {
                profile = StringUtils::Trim(trimmedLine.substr(1, trimmedLine.length() - 2).c_str());
                AWS_LOGSTREAM_DEBUG(profileLogTag, "Found profile " << profile);
            }

            Aws::Vector<Aws::String> propertyPair = StringUtils::Split(trimmedLine, '=');

            if (propertyPair.size() == 2)
            {
                Aws::String key(StringUtils::Trim(propertyPair[0].c_str()));
                Aws::String value(StringUtils::Trim(propertyPair[1].c_str()));

                AWS_LOGSTREAM_TRACE(profileLogTag, "Found property " << key << "for profile " << profile);
                if (key == AWS_ACCESS_KEY_ID || key == AWS_SECRET_ACCESS_KEY || key == AWS_SESSION_TOKEN || key == AWS_ACCOUNT_ID)
                    propertyValueMap[profile + ":" + key] = value;
            }
        }
    }

    if (profileFile.is_open())
        profileFile.close();

    return std::move(propertyValueMap);
}
        Aws::Vector<DeviceInfo> PulseAudioPCMOutputDriver::EnumerateDevices() const
        {
            Aws::Vector<DeviceInfo> devices;

            DeviceInfo deviceInfo;
            deviceInfo.deviceId = "0";
            deviceInfo.deviceName = "default audio output device";

            CapabilityInfo capabilityInfo;
            capabilityInfo.channels = MONO;
            capabilityInfo.sampleRate = KHZ_16;
            capabilityInfo.sampleWidthBits = BIT_WIDTH_16;

            deviceInfo.capabilities.push_back(capabilityInfo);

            capabilityInfo.sampleRate = KHZ_8;
            deviceInfo.capabilities.push_back(capabilityInfo);

            devices.push_back(deviceInfo);

            return devices;
        }
Example #20
0
void deleteObjects(ClientPtrType client, String bucketName, String prefix, size_t num)
{
    String base = "=== Delete Objects [" + bucketName + "/" + prefix;
    std::cout << base << "]: Start ===\n";
    Aws::Vector<Aws::S3::Model::ObjectIdentifier> objects;
    for (size_t i = 0; i < num; ++i)
    {
        objects.push_back(Aws::S3::Model::ObjectIdentifier().WithKey(prefix + std::to_string(i).c_str()));
    }

    auto objReq = Aws::S3::Model::DeleteObjectsRequest();
    objReq.WithBucket(bucketName).WithDelete(Aws::S3::Model::Delete().WithObjects(objects));
    auto objRes = client->DeleteObjects(objReq);
    if (!objRes.IsSuccess())
    {
        std::cout << base << "]: Client Side failure ===\n";
    }/*
    if (std::get<0>(doesObjectExists(client, bucketName, key)))
    {
        std::cout << base << "]: Deletion of " << key << " Failed ===\n";
    }*/
    std::cout << base << "]: End ===\n\n";
}
TraceSummary& TraceSummary::operator =(const JsonValue& jsonValue)
{
  if(jsonValue.ValueExists("Id"))
  {
    m_id = jsonValue.GetString("Id");

    m_idHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Duration"))
  {
    m_duration = jsonValue.GetDouble("Duration");

    m_durationHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ResponseTime"))
  {
    m_responseTime = jsonValue.GetDouble("ResponseTime");

    m_responseTimeHasBeenSet = true;
  }

  if(jsonValue.ValueExists("HasFault"))
  {
    m_hasFault = jsonValue.GetBool("HasFault");

    m_hasFaultHasBeenSet = true;
  }

  if(jsonValue.ValueExists("HasError"))
  {
    m_hasError = jsonValue.GetBool("HasError");

    m_hasErrorHasBeenSet = true;
  }

  if(jsonValue.ValueExists("HasThrottle"))
  {
    m_hasThrottle = jsonValue.GetBool("HasThrottle");

    m_hasThrottleHasBeenSet = true;
  }

  if(jsonValue.ValueExists("IsPartial"))
  {
    m_isPartial = jsonValue.GetBool("IsPartial");

    m_isPartialHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Http"))
  {
    m_http = jsonValue.GetObject("Http");

    m_httpHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Annotations"))
  {
    Aws::Map<Aws::String, JsonValue> annotationsJsonMap = jsonValue.GetObject("Annotations").GetAllObjects();
    for(auto& annotationsItem : annotationsJsonMap)
    {
      Array<JsonValue> valuesWithServiceIdsJsonList = annotationsItem.second.AsArray();
      Aws::Vector<ValueWithServiceIds> valuesWithServiceIdsList;
      valuesWithServiceIdsList.reserve((size_t)valuesWithServiceIdsJsonList.GetLength());
      for(unsigned valuesWithServiceIdsIndex = 0; valuesWithServiceIdsIndex < valuesWithServiceIdsJsonList.GetLength(); ++valuesWithServiceIdsIndex)
      {
        valuesWithServiceIdsList.push_back(valuesWithServiceIdsJsonList[valuesWithServiceIdsIndex].AsObject());
      }
      m_annotations[annotationsItem.first] = std::move(valuesWithServiceIdsList);
    }
    m_annotationsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Users"))
  {
    Array<JsonValue> usersJsonList = jsonValue.GetArray("Users");
    for(unsigned usersIndex = 0; usersIndex < usersJsonList.GetLength(); ++usersIndex)
    {
      m_users.push_back(usersJsonList[usersIndex].AsObject());
    }
    m_usersHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ServiceIds"))
  {
    Array<JsonValue> serviceIdsJsonList = jsonValue.GetArray("ServiceIds");
    for(unsigned serviceIdsIndex = 0; serviceIdsIndex < serviceIdsJsonList.GetLength(); ++serviceIdsIndex)
    {
      m_serviceIds.push_back(serviceIdsJsonList[serviceIdsIndex].AsObject());
    }
    m_serviceIdsHasBeenSet = true;
  }

  return *this;
}
AutomationExecution& AutomationExecution::operator =(const JsonValue& jsonValue)
{
  if(jsonValue.ValueExists("AutomationExecutionId"))
  {
    m_automationExecutionId = jsonValue.GetString("AutomationExecutionId");

    m_automationExecutionIdHasBeenSet = true;
  }

  if(jsonValue.ValueExists("DocumentName"))
  {
    m_documentName = jsonValue.GetString("DocumentName");

    m_documentNameHasBeenSet = true;
  }

  if(jsonValue.ValueExists("DocumentVersion"))
  {
    m_documentVersion = jsonValue.GetString("DocumentVersion");

    m_documentVersionHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ExecutionStartTime"))
  {
    m_executionStartTime = jsonValue.GetDouble("ExecutionStartTime");

    m_executionStartTimeHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ExecutionEndTime"))
  {
    m_executionEndTime = jsonValue.GetDouble("ExecutionEndTime");

    m_executionEndTimeHasBeenSet = true;
  }

  if(jsonValue.ValueExists("AutomationExecutionStatus"))
  {
    m_automationExecutionStatus = AutomationExecutionStatusMapper::GetAutomationExecutionStatusForName(jsonValue.GetString("AutomationExecutionStatus"));

    m_automationExecutionStatusHasBeenSet = true;
  }

  if(jsonValue.ValueExists("StepExecutions"))
  {
    Array<JsonValue> stepExecutionsJsonList = jsonValue.GetArray("StepExecutions");
    for(unsigned stepExecutionsIndex = 0; stepExecutionsIndex < stepExecutionsJsonList.GetLength(); ++stepExecutionsIndex)
    {
      m_stepExecutions.push_back(stepExecutionsJsonList[stepExecutionsIndex].AsObject());
    }
    m_stepExecutionsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Parameters"))
  {
    Aws::Map<Aws::String, JsonValue> parametersJsonMap = jsonValue.GetObject("Parameters").GetAllObjects();
    for(auto& parametersItem : parametersJsonMap)
    {
      Array<JsonValue> automationParameterValueListJsonList = parametersItem.second.AsArray();
      Aws::Vector<Aws::String> automationParameterValueListList;
      automationParameterValueListList.reserve((size_t)automationParameterValueListJsonList.GetLength());
      for(unsigned automationParameterValueListIndex = 0; automationParameterValueListIndex < automationParameterValueListJsonList.GetLength(); ++automationParameterValueListIndex)
      {
        automationParameterValueListList.push_back(automationParameterValueListJsonList[automationParameterValueListIndex].AsString());
      }
      m_parameters[parametersItem.first] = std::move(automationParameterValueListList);
    }
    m_parametersHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Outputs"))
  {
    Aws::Map<Aws::String, JsonValue> outputsJsonMap = jsonValue.GetObject("Outputs").GetAllObjects();
    for(auto& outputsItem : outputsJsonMap)
    {
      Array<JsonValue> automationParameterValueListJsonList = outputsItem.second.AsArray();
      Aws::Vector<Aws::String> automationParameterValueListList;
      automationParameterValueListList.reserve((size_t)automationParameterValueListJsonList.GetLength());
      for(unsigned automationParameterValueListIndex = 0; automationParameterValueListIndex < automationParameterValueListJsonList.GetLength(); ++automationParameterValueListIndex)
      {
        automationParameterValueListList.push_back(automationParameterValueListJsonList[automationParameterValueListIndex].AsString());
      }
      m_outputs[outputsItem.first] = std::move(automationParameterValueListList);
    }
    m_outputsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("FailureMessage"))
  {
    m_failureMessage = jsonValue.GetString("FailureMessage");

    m_failureMessageHasBeenSet = true;
  }

  return *this;
}
std::shared_ptr<HttpResponse> WinSyncHttpClient::BuildSuccessResponse(const Aws::Http::HttpRequest& request, void* hHttpRequest, Aws::Utils::RateLimits::RateLimiterInterface* readLimiter) const
{
    auto response = Aws::MakeShared<StandardHttpResponse>(GetLogTag(), request);
    Aws::StringStream ss;
    uint64_t read = 0;

    DoQueryHeaders(hHttpRequest, response, ss, read);

    if(readLimiter != nullptr && read > 0)
    {
        readLimiter->ApplyAndPayForCost(read);
    }

    Aws::Vector<Aws::String> rawHeaders = StringUtils::SplitOnLine(ss.str());

    for (auto& header : rawHeaders)
    {
        Aws::Vector<Aws::String> keyValuePair = StringUtils::Split(header, ':');
        if (keyValuePair.size() > 1)
        {
            Aws::String headerName = keyValuePair[0];
            headerName = StringUtils::Trim(headerName.c_str());

            Aws::String headerValue(keyValuePair[1]);

            for (unsigned i = 2; i < keyValuePair.size(); ++i)
            {
                headerValue += ":";
                headerValue += keyValuePair[i];                 
            }

            response->AddHeader(headerName, StringUtils::Trim(headerValue.c_str()));
        }
    }

    if (request.GetMethod() != HttpMethod::HTTP_HEAD)
    {
        char body[1024];
        uint64_t bodySize = sizeof(body);
        read = 0;
        bool success = true;

        while (DoReadData(hHttpRequest, body, bodySize, read) && read > 0 && success)
        {
            response->GetResponseBody().write(body, read);
            if (read > 0)
            {
                if (readLimiter != nullptr)
                {
                    readLimiter->ApplyAndPayForCost(read);
                }
                auto& receivedHandler = request.GetDataReceivedEventHandler();
                if (receivedHandler)
                {
                    receivedHandler(&request, response.get(), (long long)read);
                }
            }

            success = success && IsRequestProcessingEnabled();
        }

        if(!success)
        {
            return nullptr;
        }
    }

    //go ahead and flush the response body.
    response->GetResponseBody().flush();

    return response;
}
TestInvokeAuthorizerResult& TestInvokeAuthorizerResult::operator =(const AmazonWebServiceResult<JsonValue>& result)
{
  const JsonValue& jsonValue = result.GetPayload();
  if(jsonValue.ValueExists("clientStatus"))
  {
    m_clientStatus = jsonValue.GetInteger("clientStatus");

  }

  if(jsonValue.ValueExists("log"))
  {
    m_log = jsonValue.GetString("log");

  }

  if(jsonValue.ValueExists("latency"))
  {
    m_latency = jsonValue.GetInt64("latency");

  }

  if(jsonValue.ValueExists("principalId"))
  {
    m_principalId = jsonValue.GetString("principalId");

  }

  if(jsonValue.ValueExists("policy"))
  {
    m_policy = jsonValue.GetString("policy");

  }

  if(jsonValue.ValueExists("authorization"))
  {
    Aws::Map<Aws::String, JsonValue> authorizationJsonMap = jsonValue.GetObject("authorization").GetAllObjects();
    for(auto& authorizationItem : authorizationJsonMap)
    {
      Array<JsonValue> listOfStringJsonList = authorizationItem.second.AsArray();
      Aws::Vector<Aws::String> listOfStringList;
      listOfStringList.reserve((size_t)listOfStringJsonList.GetLength());
      for(unsigned listOfStringIndex = 0; listOfStringIndex < listOfStringJsonList.GetLength(); ++listOfStringIndex)
      {
        listOfStringList.push_back(listOfStringJsonList[listOfStringIndex].AsString());
      }
      m_authorization[authorizationItem.first] = std::move(listOfStringList);
    }
  }

  if(jsonValue.ValueExists("claims"))
  {
    Aws::Map<Aws::String, JsonValue> claimsJsonMap = jsonValue.GetObject("claims").GetAllObjects();
    for(auto& claimsItem : claimsJsonMap)
    {
      m_claims[claimsItem.first] = claimsItem.second.AsString();
    }
  }



  return *this;
}
Example #25
0
StepExecution& StepExecution::operator =(const JsonValue& jsonValue)
{
  if(jsonValue.ValueExists("StepName"))
  {
    m_stepName = jsonValue.GetString("StepName");

    m_stepNameHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Action"))
  {
    m_action = jsonValue.GetString("Action");

    m_actionHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ExecutionStartTime"))
  {
    m_executionStartTime = jsonValue.GetDouble("ExecutionStartTime");

    m_executionStartTimeHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ExecutionEndTime"))
  {
    m_executionEndTime = jsonValue.GetDouble("ExecutionEndTime");

    m_executionEndTimeHasBeenSet = true;
  }

  if(jsonValue.ValueExists("StepStatus"))
  {
    m_stepStatus = AutomationExecutionStatusMapper::GetAutomationExecutionStatusForName(jsonValue.GetString("StepStatus"));

    m_stepStatusHasBeenSet = true;
  }

  if(jsonValue.ValueExists("ResponseCode"))
  {
    m_responseCode = jsonValue.GetString("ResponseCode");

    m_responseCodeHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Inputs"))
  {
    Aws::Map<Aws::String, JsonValue> inputsJsonMap = jsonValue.GetObject("Inputs").GetAllObjects();
    for(auto& inputsItem : inputsJsonMap)
    {
      m_inputs[inputsItem.first] = inputsItem.second.AsString();
    }
    m_inputsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Outputs"))
  {
    Aws::Map<Aws::String, JsonValue> outputsJsonMap = jsonValue.GetObject("Outputs").GetAllObjects();
    for(auto& outputsItem : outputsJsonMap)
    {
      Array<JsonValue> automationParameterValueListJsonList = outputsItem.second.AsArray();
      Aws::Vector<Aws::String> automationParameterValueListList;
      automationParameterValueListList.reserve((size_t)automationParameterValueListJsonList.GetLength());
      for(unsigned automationParameterValueListIndex = 0; automationParameterValueListIndex < automationParameterValueListJsonList.GetLength(); ++automationParameterValueListIndex)
      {
        automationParameterValueListList.push_back(automationParameterValueListJsonList[automationParameterValueListIndex].AsString());
      }
      m_outputs[outputsItem.first] = std::move(automationParameterValueListList);
    }
    m_outputsHasBeenSet = true;
  }

  if(jsonValue.ValueExists("Response"))
  {
    m_response = jsonValue.GetString("Response");

    m_responseHasBeenSet = true;
  }

  if(jsonValue.ValueExists("FailureMessage"))
  {
    m_failureMessage = jsonValue.GetString("FailureMessage");

    m_failureMessageHasBeenSet = true;
  }

  if(jsonValue.ValueExists("FailureDetails"))
  {
    m_failureDetails = jsonValue.GetObject("FailureDetails");

    m_failureDetailsHasBeenSet = true;
  }

  return *this;
}