I'm trying to figure out why when using axios (which uses XMLHttpRequest), parsing a large (4-5mb json) takes about 10 times more than when using just fetch and .json() on the result. Even worse, when using XMLHttpRequest the whole UI becomes unresponsive, while using fetch there might be a tiny block when doing the json parsing but the UI is responsive pretty much throughout the download process.
I can't find any documentation about the internals of fetch, but outdated blogs say it just uses XMLHttpRequest internally. If this is true, then both methods should have similar performance.
Note: This difference was seen on both Android and IOS
What I can find is that the JSON parsing on fetch is done on a lower level than what axios does. With axios it happens later on in the request, but on the react-native package, the parsing of the JSON happens straight after getting the response.
The extra layer of returning the data from XMLHttpRequest in string form to axios, who then starts parsing the data is most likely the impact on the performance.
The react-native version of fetch is also just a polyfill, so it's not that. It's the way how fetch parses the data straight from the XMLHttpRequest that is the difference in performance.
From Mozilla API Documentation
...an easy, logical way to fetch resources asynchronously across the network.
This kind of functionality was previously achieved using XMLHttpRequest. Fetch provides a better alternative that can be easily used by other technologies...
Fetch isn't just a wrapper to XMLHttpRequest. This justifies the performance difference between the two alternatives.
I am currently working on a web service in Go that essentially takes a request and sends back JSON, rather typical. However, this particular JSON takes 10+ seconds to actually complete and return. Because I am also making a website that depends on the JSON, and the JSON contents are subject to change, I implemented a route that quickly generates and returns (potentially updated or new) names as placeholders that would get replaced later by real values that correspond to the names. The whole idea behind that is the website would connect to the service, get back JSON almost immediately to populate a table, then wait until the actual data to fill in came back from the service.
This is where I encounter an issue, potentially because I am newish to Go and don't understand its vast libraries completely. The previous method that I used to send JSON back through the HTTP requests was ResponseWriter.Write(theJSON). However, Write() terminates the response, so the website would have to continually ping the service which could now and will be disastrous in the future
So, I am seeking some industry knowledge into my issue. Can HTTP connections be continuous like that, where data is sent piecewise through the same http request? Is that even a computationally or security smart feature, or are there better ways to do what I am proposing? Finally, does Go even support a feature like that, and how would I asynchronously handle it for performance optimization?
For the record, my website is using React.js.
i would use https websockets to achieve this effect rather than a long persisting tcp.con or even in addition to this. see the golang.org/x/net/websocket package from the go developers or the excellent http://www.gorillatoolkit.org/pkg/websocket from gorilla web toolkit for use details. You might use padding and smaller subunits to allow interruption and restart of submission // or a kind of diff protocol to rewrite previously submitted JSON. i found websocket pretty stable even with small connection breakdowns.
Go does have a keep alive ability net.TCPConn's SetKeepAlive
kaConn, _ := tcpkeepalive.EnableKeepAlive(conn)
kaConn.SetKeepAliveIdle(30*time.Second)
kaConn.SetKeepAliveCount(4)
kaConn.SetKeepAliveInterval(5*time.Second)
Code from felixqe
You can use restapi as webservice and can sent data as a json.SO you can continously sent data over a communication channel.
Mashery IOdocs is a really a great tools for documenting API.
I'm using it for a quite big project with more then 50 methods and complex structures sent to this API, so that my json config file is more than 4000 lines long.
I self-host IOdocs on a VPS along with other stuff and the doc is awfully slow because of my long json file.
Any idea to cope with this latency ? Except obviously split my json config file into several.
I have a fork of IO Docs with some performance improvements which may help. In this instance they involve stripping out json-minify (which is only used to allow comments in the source specifications), server-side cacheing of the specifications and not having to load the specification via a synchronous AJAX call on the client.
I need to transfer data (objects) between client and server, and Twisted seems a good way to accomplish this. I've been doing a lot searching but still haven't found any example to understand the basic principle. So any simple code would help.
Thanks!
EDIT
Both client and server are written in python
The data may be large, so I need a fast, reliable transmission ( I've taken a look at producers, is that good?)
Flask is great, but I am using another framework, so the whole networking thing relies on Twisted.
It's hard to tell if your question is more about json, python or twisted, but here's an overview, more can follow once the specifics are known. Perhaps you could add some more info to your question so we can offer more assistance :-)
re Json: Json is just a string with a defined structure. If you are working in python and have an object to send as json, then you need to convert the object to a json string by use of
import json
json.dumps(objectName)
If your client is javascript then instead of json.dumps you might use JSON.stringify(objectname).
If you intend to use javascript for clients then some of the frameworks like jQuery make it very easy.
Pythons json.dumps has a lot of optional arguments, most of which you won't need. You can see the options at https://docs.python.org/2/library/json.html
Python is python, I assume you know how to create and populate objects. Will your client be python or javascript or something else? From a javascript client to a python server you would most likely use Ajax to send requests and get responses.
Twisted allows you to easily create a server that will listen on a given port and, when data arrives, an event will occur that supplies the data received. You can then do whatever you need to with the data. Just be careful about doing blocking things like database inserts since the server may miss some data or otherwise misbehave if you interrupt it's event loop. Twisted can be difficult to learn initially, but it is a very powerful and reliable system that is well proven. One alternative to consider, particularly if your clients are not python, is node.js. In my opinion, node is a little bit easier to grasp initially and there are thousands of add-on modules that let you do almost anything you'd want. I use both twisted and node for different things.
Neither node.js nor twisted are software that you can use to just quickly spin up a server or client without some study and experimentation. To use Twisted or Node.js properly confidently, using all their features and goodness, requires a bit of research and work on your part.
There are excellent frameworks like Flask that can be used to build a server that can react to a number of different Ajax calls from a client - you can have a single server be able to respond to several different kinds of requests instead of having a server for each Ajax type.
This is a small library that serializes an object with all its children to JSON and also parses it back to a fully working object:
https://github.com/Toubs/PyJSONSerialization/
Receiving and sending data with JSON is done with simple HTTP requests. Whereas in SOAP, we need to take care of a lot of things. Parsing XML is also, sometimes, hard. Even Facebook uses JSON in Graph API. I still wonder why one should still use SOAP? Is there any reason or area where SOAP is still a better option? (Despite the data format)
Also, in simple client-server apps (like Mobile apps connected with a server), can SOAP give any advantage over JSON?
I will be very thankful if someone can enlist the major/prominent differences between JSON and SOAP considering the information I have provided(If there are any).
I found the following on advantages of SOAP:
There is one big reason everyone sticks with SOAP instead of using JSON. With every JSON setup, you're always coming up with your own data structure for each project. I don't mean how the data is encoded and passed, but how the data formatted format is defined, the data model.
SOAP has an industry-mature way of specifying that data will be in a certain format: e.g. "Cart is a collection of Products and each Product can have these attributes, etc." A well put together WSDL document really has this nailed. See W3C specification: Web Services Description Language
JSON has similar ways of specifying this data structure — a JavaScript class comes to mind as the most common way of doing this — but a JavaScript class isn't really a data structure used for this purpose in any kind of agnostic, well established, widely used way.
In short, SOAP has a way of specifying the data structure in a maturely formatted document (WSDL). JSON doesn't have a standard way of doing this.
If you are creating a client application and your server implementation is done with SOAP then you have to use SOAP in client side.
Also, see: Why use SOAP over JSON and custom data format in an “ENTERPRISE” application? [closed]
Nowadays SOAP is a complete overkill, IMHO. It was nice to use it, nice to learn it, and it is beautiful we can use JSON now.
The only difference between SOAP and REST services (no matter whether using JSON) is that SOAP WS always has it's own WSDL document that could be easily transformed into a self-descriptive documentation while within REST you have to write the documentation for yourself (at least to document the data structures). Here are my cons'&'pros for both:
REST
Pros
lightweight (in all means: no server- nor client-side extensions needed, no big chunks of XML are needed to be transfered here and there)
free choice of the data format - it's up on you to decide whether you can use plain TXT, JSON, XML, or even create you own format of data
most of the current data formats (and even if used XML) ensures that only the really required amount of data is transfered over HTTP while with SOAP for 5 bytes of data you need 1 kB of XML junk (exaggerated, ofc, but you got the point)
Cons
even there are tools that could generate the documentation from docblock comments there is need to write such comments in very descriptive way if one wants to achieve a good documentation as well
SOAP
Pros
has a WSDL that could be generated from even basic docblock comments (in many languages even without them) that works well as a documentation
even there are tools that could work with WSDL to give an enhanced try this request interface (while I do not know about any such tool for REST)
strict data structure
Cons
strict data structure
uses an XML (only!) for data transfers while each request contains a lot of junk and the response contains five times more junk of information
the need for external libraries (for client and/or server, though nowadays there are such libraries already a native part of many languages yet people always tend to use some third-party ones)
To conclude, I do not see a big reason to prefer SOAP over REST (and JSON). Both can do the same, there is a native support for JSON encoding and decoding in almost every popular web programming language and with JSON you have more freedom and the HTTP transfers are cleansed from lot of useless information junk. If I were to build any API now I would use REST with JSON.
I disagree a bit on the trend of JSON I see here. Although JSON is an order maginitude easier, I'd venture to say it's quite limited. For example, SOAP WS is not the last thing. Indeed, between soap client/server you now have enterprise services bus, authentification scheme based on crypto, user management, timestamping requests/replies, etc. For all of this, there're some huge software platforms that provide services around SOAP (well, "web services") and will inject stuff in your XML. So although JSON is probably enough for small projects and an order of magnitude easier there, I think it becomes quite limited if you have decoupled transmission control and content (ie. you develop the content stuff, the actual server, but all the transmission is managed by another team, the authentification by one more team, deployment by yet another team). I don't know if my experience at a big corp is relevant, but I'd say that JSON won't survive there. There are too many constraints on top of the basic need of data representation. So the problem is not JSON RPC itself, the problem is it misses the additional tools to manage the complexity that arises in complex applications (not to say that what you do is not complex, it's just that the software reflects the complexity of the company that produces it)
I think there is a lot of basic misinformation on this thread. SOAP, REST, XML, and JSON concepts seem to be mixed up in the responses.
Here is some clarification -
XML and JSON (an others) are encodings of information.
SOAP is a communications protocol
REST is an (Architecture) style
each is used for something different although you might use more than one of these things together.
Lets start with encoding data structures as XML vs JSON:
Everything JSON currently supports can be done in XML, but not the other way around. JSON will eventually adopt all the features that XML has, but its proponents haven't encountered all of the problems yet, once they get more experience things will be added on to close the gap. for example JSON didn't start out with Schemas and binary formats.
SOAP is a communication protocol for calling an operation. It runs on top of things like, HTTP, SMTP, etc. Aside from many other features, SOAP messages can span multiple "application" layer protocols. i.e. i can sent a SOAP message by HTTP to a service endpoint which then puts it on a message queue for another system. SOAP solves the problem of maintaining authentication, message authenticity, etc. as the requested moved between different parts of a distributed system.
JSON and other data formats canbe sent via SOAP. I work with some systems that sent binary fixed-width encoded objects via SOAP, its not a problem.
The analogy is that - if only the postman is allowed to send you a letter, then it is just HTTP, but if anyone can send you a letter, then you want SOAP. (i.e. message transport security vs message content security)
the 6 REST constraints are architectural style. Interestingly the first several years of REST the examples were in SOAP. (there is no such thing as REST or SOAP they are not opposites)
A "heavyweight bloated, etc.etc." SOA SOAP system might have monoliths with operations like GET, PUT, POST instances of a single entity. SOAP doesn't have those operations predefined, but that is typically how it is used.
Consider that if you built a "REST" service on HTTP alone with an SSL/TLS terminating proxy, then you may have violated the 4th constraint of REST.
So for your software development today, you wouldn't normally interact with any of these directly. Just as if you were written a graphics program you wouldn't directly work with HDMI vs. DisplayPort typically.
The question is do you understand architecturally what your system needs to do and configure it to use the mechanism that does that job. (for example, all the challenges of applying today's microservices to general systems are old problems previously solved by SOAP, CORBA and the old protocols)
I have spent several years writing SOAP web services (with JAX WS). They are not hard to write. And I love the idea of a single endpoint and single HTTP method (POST). For me, REST is too verbose.
But as a data container, JSON is simpler, smaller, more readable, more flexible, looks closer to programming languages.
So, I reinvented the wheel and created my own approach to writing backends for AJAX requests. In comparison:
REST:
get user: method GET https://example.com/users/{id}
update user: method POST https://example.com/users/ (JSON with User object in request body)
RPC:
get user: method GET https://example.com/getUser?id=1
update user: method POST https://example.com/updateUser (JSON with User object in the request body)
My way (the proposed name is JOH - JSON over HTTP):
get user: method POST https://example.com/ (JSON specifies both user ID and class/method responsible for handling request)
update user: method POST https://example.com/ (JSON specifies both user object and class/method responsible for handling request)