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IVLE Design - Python Execution Environment
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==========================================
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Python scripts can be executed from IVLE in two ways.
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1. A persistent, interactive environment.
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2. A stateless CGI environment.
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These two methods diverge because it isn't really possible to have an
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interactive environment (as in user interacts with stdin) as well as allow CGI
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The interactive environment will be experienced from the web interface through
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an Ajax-based console, rather than directly printing output to the screen.
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The CGI environment will be experienced by executing the CGI on the server and
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directing its output directly to the browser.
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There are a number of different ways to run Python from inside the web
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environment. Each method launches either the interactive environment or the
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Note: REPL refers to the interactive Read-Eval-Print Loop that Python gives
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you if you run it with -i.
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1. Navigate the browser directly to a .py file. Executes the program in the
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2. Click "execute" on a .py file from the file browser. This links the browser
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to the .py file (possibly in a new tab), resulting in the same as #1. The
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Editor screen could also have a "run in browser" button which opens the
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file in CGI mode in a new browser tab.
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3. Go to the Console screen. This launches the INTERACTIVE environment without
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loading any modules (with REPL).
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4. Perhaps, the file browser also has a "run in console" button. This goes to
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the console screen loading the file as an argument in INTERACTIVE mode
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(this could be with or without REPL - I'd say with).
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5. The Editor screen should be divided into 2, with an editor at the top and a
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console at the bottom. A "run" button would launch a new Python session in
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the console at the bottom, running in INTERACTIVE mode (without REPL).
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6. The Reference / Tutorial screen consists of a number of small edit box /
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console pairs. The "run" button runs the application inside the small
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console window in INTERACTIVE mode (without REPL).
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The Interactive Environment
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---------------------------
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The interactive environment will be:
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* Wrapped in an Ajax console for interaction.
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* Persistent. The user is given a Python environment which lets them
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interact with the Python interpreter console, as well as interact with their
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running programs through stdin.
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* Optionally presents a `python -i' environment (depending on how it is run -
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see use cases above, this is REPL mode).
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* Not designed to handle CGI apps. If you run a CGI app in this environment,
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you just see the CGI headers (running as a normal program) (see below for
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* Given a large but finite CPU time limit (possibly a minute). We
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want to let the user continue interacting for some time, but kill the
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process if the user puts it into an endless loop and fails to terminate it.
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### Discussion: Persistent console vs controlled pickled sessions ###
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There are two possible ways to handle giving students an interactive Python
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The important thing we need to have is a persistent session - that is, it
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remembers the loaded modules and variables (the environment) from one command
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to the next, so if you type "a = 4"; "a", it prints "4".
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The simplest possibility is to just give students their own Python process
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which they can use however they want.
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The other alternative discussed was to simulate a persistent environment but
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actually create a new Python session each time a command is executed. This
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would be done by pickling and unpickling the symbol table, storing the pickled
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file as a "persistent environment" local to each user.
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This has the following advantages compared to the persistent console:
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* Better memory usage as only students who are currently executing commands
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* Better load balancing, as each command could be run on a different machine.
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* Ability for our software to differentiate between the interactive REPL
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environment and the running process. This would make it easy to do the CGI
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handling described below (which might be difficult or impossible with a
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dedicated Python process). Also we can give each command 1 second of CPU
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time instead of giving the entire process 1 minute of CPU time, which is
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fairer and more sensible.
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But the following disadvantages:
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* Much harder to implement. Possibility of introducing bugs since we are
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effectively trying to emulate a Python REPL environment.
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* All of a given student's Python windows would be interfering with one
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another as they would all share the one environment.
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* Possibly huge time overhead for loading and unloading the environment each
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* Possibly not that great a saving as the main memory overhead of a persistent
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Python process is shared between all users anyway.
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I think we decided to go with a single persistent environment for each
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### Discussion: Handling CGI output ###
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If the first thing the program outputs is CGI headers, and one of those is a
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Content-Type header, why not handle it specially. Split the screen in half
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horizontally, with the console at the top (still able to receive input from
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stdin in the console). The bottom half would present the content rendered
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correctly in the browser as HTML, Image content, etc.
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This feature should be optional, as you might want to see the raw CGI output.
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Also it could cause problems in REPL mode - ideally the program's stdout could
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go to the CGI content handler while the stdout caused by the REPL environment
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could go to the console. This would be ideal, as students could then type
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print statements directly into the REPL and see the results printed live into
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A possibly-friendlier alternative is to do this the other way round. In the
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CGI environment, if no Content-Type is detected, rather than just printing the
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output to the browser, perhaps it should launch the full console (even for
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public access visitors?) This way you can present interactive non-CGI programs
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in a production environment.
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Ultimately this could just mean that whether the environment is interactive or
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CGI depends on whether a Content-Type is given, rather than how the session
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was launched (though we also want to be able to have an interactive mode with
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CGI programs that let you see the raw output).
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The CGI environment will be:
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* Sent directly to the browser through the CGI.
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* Stateless. Programs are run directly and are expected to terminate
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* Wrapped in a default content type. Because programs executed in the CGI
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environment are sent straight to the browser, they are expected to produce
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CGI output. As a bare minimum, this must include a newline at the start of
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the file to signal to the web server that the headers are finished.
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The upshot of this is that it can execute non-CGI programs as well, only
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they are non-interactive and just print their output in plain text into the
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* Given a short CPU time limit (possibly a second). This is just for the
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execution of a single program, and it should not take long at all (after
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all, it is a web service).
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### Discussion: What if the student needs more CPU time? ###
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They should not need more CPU time when running a web process because it isn't
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friendly to visitors anyway. If they need to, they can do preprocessing of the
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data, and use the interactive environment which gives them a lot more CPU
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Perhaps there could be a way for the students to request more CPU time on a
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limited basis (for one run?), like "nice" but in the web interface. (Note:
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infeasible if it's a web application since we'll want an arbitrary number of
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### Discussion: How does CGI work when you don't give a content type? ###
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The server gives a 500 Internal Server Error if non-header data is found
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before the first blank line, so a non-CGI console program by itself will
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usually give this error.
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If there is a valid blank line but no Content-Type header, Apache will apply a
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default Content-Type of text/plain (verified empirically). However the CGI
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specification seems to state that a Content-Type is required.
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> A full document with a corresponding MIME type
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> In this case, you must tell the server what kind of document you will be
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> outputting via a MIME type.
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[(source)](http://hoohoo.ncsa.uiuc.edu/cgi/primer.html)
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Therefore we can write a wrapper which looks at the output and acts
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* If it begins with data which is invalid headers, assume this is a non-CGI
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program and insert Content-Type: text/plain.
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* If it begins with a blank line (no headers), it would be safest to make the
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* If it begins with valid headers INCLUDING Content-Type, let it pass as-is
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(assume it is a valid CGI program).
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* If it begins with valid headers but not including Content-Type, probably
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best to just let it through anyway and let Apache handle it.