public override async Task<Response> ProcessRequest(Request request)
{
var fanoutRequest = request.HasInputBody ? await request.ReadInputBody<TieredRequest>() : null;
if (request.HasInputBody && fanoutRequest == null)
{
// This indicates failed deserialization
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Could not read input body");
}
// aggregation servers should fanout automagically. we honor filters for machine function and datacenter.
if ((fanoutRequest == null || fanoutRequest.Sources == null || fanoutRequest.Sources.Count == 0) && this.server.EnableQueryAggregation)
{
if (fanoutRequest == null)
{
fanoutRequest = new TieredRequest();
}
fanoutRequest.Sources = this.SelectSourceServers(request.QueryParameters).ToList();
}
var queryParameters = new DimensionSpecification(request.QueryParameters);
var endOfName = request.Path.LastIndexOf('/');
if (endOfName < 0)
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "No command provided.");
}
var counterName = request.Path.Substring(0, endOfName);
if (string.IsNullOrEmpty(counterName))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "No counter pattern provided.");
}
var commandName = request.Path.Substring(endOfName + 1);
if (RestCommands.CounterInfoCommand.Equals(commandName, StringComparison.OrdinalIgnoreCase))
{
return await this.Info(request, fanoutRequest, counterName, queryParameters);
}
if (RestCommands.CounterQueryCommand.Equals(commandName, StringComparison.OrdinalIgnoreCase))
{
var response = await this.Query(counterName, fanoutRequest, queryParameters);
return Response.Create(request, (HttpStatusCode)response.HttpResponseCode, response);
}
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Unknown command: " + commandName);
}
public override async Task<Response> ProcessRequest(Request request)
{
if (!request.HasInputBody)
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "no input body provided.");
}
var registrationMessage = await request.ReadInputBody<ServerRegistration>();
if (registrationMessage != null)
{
var server = this.serverList.InsertOrUpdate(registrationMessage);
server.ProcessRegistrationMessage(registrationMessage);
return new Response(request, HttpStatusCode.OK, "Registered.");
}
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Invalid data.");
}
public override async Task<Response> ProcessRequest(Request request)
{
if (!request.HasInputBody)
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "No input body provided for write.");
}
if (string.IsNullOrEmpty(request.Path))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Counter name must be specified.");
}
var counter = this.server.DataManager.GetCounter<Counter>(request.Path);
if (counter == null)
{
return request.CreateErrorResponse(HttpStatusCode.NotFound, "Unknown counter name provided.");
}
var input = await request.ReadInputBody<CounterWriteRequest>();
if (input == null)
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Could not deserialize input.");
}
if (input.Writes.Count == 0)
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "No write operations were provided.");
}
// We want to do two passes here because if any of the operations are invalid we want to reject the entire
// transaction.
if (input.Writes.Any(operation => operation.Count < 1))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest,
"Operation counts must be greater than zero.");
}
foreach (var operation in input.Writes)
{
RunOperation(counter, operation);
}
return new Response(request, HttpStatusCode.Accepted, "Accepted");
}
public override async Task<Response> ProcessRequest(Request request)
{
var counterName = request.Path;
if (string.IsNullOrEmpty(counterName))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Path or command is invalid.");
}
if (request.QueryParameters.Count != 2
|| !request.QueryParameters.ContainsKey(ReservedDimensions.StartTimeDimension)
|| !request.QueryParameters.ContainsKey(ReservedDimensions.EndTimeDimension))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest,
"Invalid query parameters. Must specify only start and end time.");
}
DateTime start, end;
if (!DateTime.TryParse(request.QueryParameters[ReservedDimensions.StartTimeDimension], out start))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Invalid start time.");
}
if (!DateTime.TryParse(request.QueryParameters[ReservedDimensions.EndTimeDimension], out end))
{
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Invalid end time.");
}
var message = new TransferRequest();
if (request.HasInputBody)
{
message = await request.ReadInputBody<TransferRequest>();
}
var ms = request.GetStream();
// This is a tiered aggregation request, handle it separately.
if (message.Sources != null && message.Sources.Count > 1)
{
try
{
using (var aggregator =
PersistedDataProtocol.CreateAggregatorForSampleType(message.DataType, counterName,
message.Sources, start, end,
dataManager.MemoryStreamManager))
{
if (message.Timeout > 0)
{
aggregator.Timeout = TimeSpan.FromSeconds(message.Timeout);
}
if (message.MaxFanout > 0)
{
aggregator.MaxFanout = (int)message.MaxFanout;
}
// This shouldn't happen, given that one of the servers we want to talk to is.. us.
if (!await aggregator.Run())
{
ms.Dispose();
return request.CreateErrorResponse(HttpStatusCode.InternalServerError,
"All child requests failed.");
}
if (!aggregator.WriteToStream(ms))
{
// TODO: If we have no results but none of our queries failed we can definitively 404,
// for now lazy.
ms.Dispose();
return request.CreateErrorResponse(HttpStatusCode.InternalServerError,
"No cntent matched.");
}
}
}
catch (ArgumentException)
{
ms.Dispose();
return request.CreateErrorResponse(HttpStatusCode.BadRequest, "Request parameters are invalid.");
}
}
else
{
var counter = this.dataManager.GetCounter<Counter>(counterName);
if (counter == null || !counter.SerializeData(start, end, ms))
{
ms.Dispose();
return request.CreateErrorResponse(HttpStatusCode.NotFound, "The requested data is not available.");
}
}
// after writing the response the server will handle disposing the stream for us.
return new Response(request, HttpStatusCode.OK, ms) {ContentType = ResponseType};
}