WebFund 2015W Lecture 23: Difference between revisions
No edit summary |
|||
(One intermediate revision by one other user not shown) | |||
Line 1: | Line 1: | ||
==Audio== | |||
The audio from the lecture given on April 1, 2015 [http://homeostasis.scs.carleton.ca/~soma/webfund-2015w/lectures/comp2406-2015w-lec23-01Apr2015.m4a is now available]. | |||
==Notes== | ==Notes== | ||
<h3>On-screen notes</h3> | |||
Two topics for last two lectures: | Two topics for last two lectures: | ||
Line 6: | Line 11: | ||
* Web applications everywhere | * Web applications everywhere | ||
===Distributed Applications=== | ====Distributed Applications==== | ||
Applications that run on multiple computers | Applications that run on multiple computers | ||
Line 21: | Line 26: | ||
* with distributed applications, you don't control all the computers "your" code runs on | * with distributed applications, you don't control all the computers "your" code runs on | ||
===Structured Persistence=== | ====Structured Persistence==== | ||
Before this class, you worked with files | Before this class, you worked with files | ||
Line 35: | Line 40: | ||
* concurrency & distribution | * concurrency & distribution | ||
===Front vs Back end=== | ====Front vs Back end==== | ||
* separate parts of app for... | * separate parts of app for... | ||
Line 54: | Line 59: | ||
* but main reason is latency (of network communication) | * but main reason is latency (of network communication) | ||
===Markup and Templates=== | ====Markup and Templates==== | ||
HTML, CSS: markup | HTML, CSS: markup | ||
Line 63: | Line 68: | ||
template languages output markup (are meta-markup) | template languages output markup (are meta-markup) | ||
===Trust=== | ====Trust==== | ||
Who do you trust? | Who do you trust? | ||
Line 75: | Line 80: | ||
Amazing the web works at all | Amazing the web works at all | ||
<h3>Student notes</h3> | |||
<h4>Distributed applications</h4> | |||
These are applications that run on multiple computers using separate memory, CPU, storage and communication(I/O). These computers don't have to be separate physical computers. | |||
Our web applications these days are at least in three pieces: | |||
<ul> | |||
<li>One part that runs in the browser (client).</li> | |||
<li>One part that runs as the server.</li> | |||
<li>One part that runs as the database(s).</li> | |||
</ul> | |||
Then it goes up from there e.g: communications on twitter(your server interacting with twitter's) | |||
Importance of distributed apps: | |||
<ul> | |||
<li>GET and POST can go essentially anywhere on the internet. | |||
<ul> | |||
<li>Allows for flexible combination of code and data.</li> | |||
</ul> | |||
</li> | |||
<li>With distributed applications, you don’t control all the computer your code runs on. Often, you will use third party libraries to run code that is not even your own. For example, you can use features from Google Analytics in your application but it is their code running on their server; this distributes the burden on your application, making it ore distributed.</li> | |||
<li>Web applications are the main form of distributed applications today.</li> | |||
</ul> | |||
Localhost is useful when you want a distributed app on your own computer. i.e: when you want to have multiple processes talk on the same system, but you want to use the same method as you would to talk to other computers - you talk to localhost. | |||
Distributed applications typically communicate using an HTTP or HTTPS protocol as seen in assignment 9. | |||
Nota Bene(NB) | |||
Google makes their money from search advertisement and imbedded advertisement on other pages. | |||
Look at the script tags of various web pages and see if you understand them. | |||
The web is funded primarily by advertisement. The advertisement is done using JavaScript code. The JavaScript is running on untrusted browsers (machines of people that want to steal money) That's why the code is obfuscated (hard to read and figure out). | |||
<h4>Structured persistence</h4> | |||
Previously, you have handled persistent storage by using files. Files are unstructured(on modern systems). On the web, we use databases. | |||
What are Databases? Databases are an organization system which enforce a structure on the stored data. | |||
Why structured? | |||
<ul> | |||
<li>Convenience.</li> | |||
<li>Speed for Complex Queries: This is primarily because files in the databases can be indexed on various attributes allowing for quick look-ups.</li> | |||
<li>Concurrency and distribution: Key component of databases - concurrent access to data. This is not a simple task to manage. o not try to implement this yourself as you will probably do it poorly. Use an existing database suited to your needs.</li> | |||
</ul> | |||
<h4>Font vs back end</h4> | |||
This is the concept of separating parts of apps into: | |||
<ul> | |||
<li>The back end - Where the real work is done</li> | |||
<li>The front end - used for the interface</li> | |||
</ul> | |||
Can the real work be done in the front end? | |||
Yes, but don't trust the answers. This is because the front end is running from an unknown source so it shouldn't be trusted. The integrity of your application cannot depend on it working properly. | |||
Back End - Trusted | |||
Front End - Untrusted | |||
Example: | |||
YouTube uses Google's servers as the back end to manage videos and the front end is a user interface on the web page itself. Modern web apps may have many back ends. | |||
So why do computation/put stuff in the front end? | |||
<ul> | |||
<li>To lower the load on the back end.</li> | |||
<li>The main reason is the latency (of the network communication). The front end takes less time to perform actions and events compared with back end because back computations require communication with the server(s) to return information (which induces latency).</li> | |||
</ul> | |||
A web application may also have multiple front ends (desktop, mobile, etc) however it is currently considered to be preferable to only have a single front end made with a responsive design such that it will adapt to whatever display it is used with. | |||
<h4>Markup and templates</h4> | |||
What we have worked with: | |||
<ul> | |||
<li>HTML</li> | |||
<li>CSS</li> | |||
<li>Jade (template/markup language)</li> | |||
</ul> | |||
There are many others which exist as well. HTML and CSS are constantly evolving. Others include XML, Latex, etc... Even WYSIWYG programs like Microsoft Word have underlying markup languages. | |||
Markup is constraint or declarative programming. | |||
Template languages output markup (they are meta-markup). | |||
A markup language is a way of programming. You are declaring what something should be. You are not telling it exactly how to do it (it is not procedural), it is not object oriented but you are specifying constraints on it. So implicitly, a template language is a markup of a markup language. Markup languages are used for safety and efficiency reasons. i.e: less code to write, protection of input, etc.... | |||
<h4>Trust</h4> | |||
When you run a web app, you have to trust various sources like: content providers, ad providers, library and runtime authors. Trust essentially refers to who can screw you over. So basically, if they go bad, how strongly does it affect you. | |||
Embedded JavaScript scripts have access to the entire DOM so if they wanted, they could modify the entire page as they please. Companies that have their scripts embedded in many pages across the web could do some serious damage if they wanted. |
Latest revision as of 16:09, 7 April 2015
Audio
The audio from the lecture given on April 1, 2015 is now available.
Notes
On-screen notes
Two topics for last two lectures:
- What are the fundamentals of web applications?
- Web applications everywhere
Distributed Applications
Applications that run on multiple computers
- separate memory, CPU, storage, communication (I/O)
- can apply this processes, virtual hosts, or physical hosts
Localhost is useful when you want a distributed app on one computer
- GET and POST can go essentially anywhere on the Internet
- allows for flexible combination of code and data
- web applications are the premier form of distributed applications today
- with distributed applications, you don't control all the computers "your" code runs on
Structured Persistence
Before this class, you worked with files
Files are unstructured (on modern systems)
On the web we use "databases"
- really, structured storage
Why structured?
- convenience
- speed for "complex" queries
- concurrency & distribution
Front vs Back end
- separate parts of app for...
- doing computation/storage/real work (back end)
- providing the interface (front end)
Can you do "real work" in the front end?
- Yes, but...
- Don't trust the answers
Front end is untrusted, back end is trusted
Modern web apps have many backends and can have multiple front ends (mobile, desktop)
- but "responsive design" says you should have one front end
So why put stuff in the front end?
- lower the load on the back end
- but main reason is latency (of network communication)
Markup and Templates
HTML, CSS: markup Jade: template language
Markup is constraint or declarative programming
template languages output markup (are meta-markup)
Trust
Who do you trust?
- library, runtime authors
- content providers
- ad providers
- whatever else you add to a page
Trust means "who can screw you over"
- if they go bad how badly are you hurt
Amazing the web works at all
Student notes
Distributed applications
These are applications that run on multiple computers using separate memory, CPU, storage and communication(I/O). These computers don't have to be separate physical computers.
Our web applications these days are at least in three pieces:
- One part that runs in the browser (client).
- One part that runs as the server.
- One part that runs as the database(s).
Then it goes up from there e.g: communications on twitter(your server interacting with twitter's)
Importance of distributed apps:
- GET and POST can go essentially anywhere on the internet.
- Allows for flexible combination of code and data.
- With distributed applications, you don’t control all the computer your code runs on. Often, you will use third party libraries to run code that is not even your own. For example, you can use features from Google Analytics in your application but it is their code running on their server; this distributes the burden on your application, making it ore distributed.
- Web applications are the main form of distributed applications today.
Localhost is useful when you want a distributed app on your own computer. i.e: when you want to have multiple processes talk on the same system, but you want to use the same method as you would to talk to other computers - you talk to localhost.
Distributed applications typically communicate using an HTTP or HTTPS protocol as seen in assignment 9.
Nota Bene(NB) Google makes their money from search advertisement and imbedded advertisement on other pages. Look at the script tags of various web pages and see if you understand them.
The web is funded primarily by advertisement. The advertisement is done using JavaScript code. The JavaScript is running on untrusted browsers (machines of people that want to steal money) That's why the code is obfuscated (hard to read and figure out).
Structured persistence
Previously, you have handled persistent storage by using files. Files are unstructured(on modern systems). On the web, we use databases.
What are Databases? Databases are an organization system which enforce a structure on the stored data.
Why structured?
- Convenience.
- Speed for Complex Queries: This is primarily because files in the databases can be indexed on various attributes allowing for quick look-ups.
- Concurrency and distribution: Key component of databases - concurrent access to data. This is not a simple task to manage. o not try to implement this yourself as you will probably do it poorly. Use an existing database suited to your needs.
Font vs back end
This is the concept of separating parts of apps into:
- The back end - Where the real work is done
- The front end - used for the interface
Can the real work be done in the front end?
Yes, but don't trust the answers. This is because the front end is running from an unknown source so it shouldn't be trusted. The integrity of your application cannot depend on it working properly.
Back End - Trusted Front End - Untrusted
Example: YouTube uses Google's servers as the back end to manage videos and the front end is a user interface on the web page itself. Modern web apps may have many back ends.
So why do computation/put stuff in the front end?
- To lower the load on the back end.
- The main reason is the latency (of the network communication). The front end takes less time to perform actions and events compared with back end because back computations require communication with the server(s) to return information (which induces latency).
A web application may also have multiple front ends (desktop, mobile, etc) however it is currently considered to be preferable to only have a single front end made with a responsive design such that it will adapt to whatever display it is used with.
Markup and templates
What we have worked with:
- HTML
- CSS
- Jade (template/markup language)
There are many others which exist as well. HTML and CSS are constantly evolving. Others include XML, Latex, etc... Even WYSIWYG programs like Microsoft Word have underlying markup languages.
Markup is constraint or declarative programming.
Template languages output markup (they are meta-markup).
A markup language is a way of programming. You are declaring what something should be. You are not telling it exactly how to do it (it is not procedural), it is not object oriented but you are specifying constraints on it. So implicitly, a template language is a markup of a markup language. Markup languages are used for safety and efficiency reasons. i.e: less code to write, protection of input, etc....
Trust
When you run a web app, you have to trust various sources like: content providers, ad providers, library and runtime authors. Trust essentially refers to who can screw you over. So basically, if they go bad, how strongly does it affect you.
Embedded JavaScript scripts have access to the entire DOM so if they wanted, they could modify the entire page as they please. Companies that have their scripts embedded in many pages across the web could do some serious damage if they wanted.