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HTML5 Storage

HTML5 Storage. Why Local Storage?. D ata accessed over the internet can never be as fast as accessing data locally Data accessed over internet not secure HTML5 storage is on client. Persistent Local Storage.

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HTML5 Storage

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  1. HTML5 Storage

  2. Why Local Storage? • Data accessed over the internet can never be as fast as accessing data locally • Data accessed over internet not secure • HTML5 storage is on client

  3. Persistent Local Storage • Native client applications use operating system to store data such as preferences or runtime state • Stored in registry, INI files, XML or other places using key/value pairs • Web applications can’t do this

  4. Cookies • Invented early in Web’s history as a way to store persistent data (“magic cookies”) • Small pieces of information about a user stored by Web server as text files on user’s computer • Can be temporary or persistent

  5. Cookies • Included with every HTTP request – slows down application by transmitting same information repeatedly • Sends unencrypted data over internet with every HTTP request • Limited to 4KB data • Example: filling out a text form field

  6. Cookies not enough • More storage space • On the client • Beyond page refresh • Not transmitted to server

  7. History IE: DHTML Behaviors • userData behavior allowed 64K per domain • Hierarchical XML-based structure Adobe Flash (2002) • “Flash cookies” or Local Shared Objects • Allows Flash objects to store 100K data per domain temporarily

  8. History AMASS (AJAX Massive Storage System) • Brad Neuberg • Flash-to-JavaScript bridge • Limited by Flash design quirks Flash 8: ExternalInterface (2006) • Easier to access Local Shared Objects AMASS rewritten • Integrated into Dojo Toolkit: dojox.storage • 100KB storage • Prompts user for exponentially increased storage

  9. History Google: Gears (2007) • Open source browser plug-in • Provides additional capability in browsers (geolocation API in IE) • API to embedded SQL database • Unlimited data per domain in SQL database tables By 2009 dojox.storage could auto-detect and provide unified interface for Flash, Gears, Adobe AIR and early prototype of HTML5 storage (in older version of Firefox)

  10. Previous Storage Solutions • Either specific to single browser or relied on third party plug-in • Different interfaces • Different storage limitations • Different user experiences

  11. HTML5 Storage • Provides standardized API • Implemented natively • Consistent across browsers • HTML5 storage is a specification named “Web Storage” • Previously part of HTML5 specifications • Split into its own specification • Different browsers may call it “Local Storage” or “DOM Storage”

  12. Web Application Support • Supported by latest version of all browsers! • Access through localStorage object on global window object • Before using, detect whether browser supports it

  13. Check for HTML5 Storage function supports_html5_storage() { try { return 'localStorage' in window && window['localStorage'] !== null; } catch (e) { return false; } }

  14. Or use Modernizr if (Modernizr.localstorage) { // window.localStorage is available! } else { // no native support for HTML5 storage :( // maybe try dojox.storage or a third-partysolution }

  15. Using HTML5 Storage

  16. Using HTML5 Storage localstorage object setItem( ) getItem( ) removeItem( ) clear( )

  17. Using HTML5 Storage Tracking changes to the HTML5 storage area if (window.addEventListener) { window.addEventListener("storage", handle_storage, false); } else { window.attachEvent("onstorage", handle_storage); };

  18. Using HTML5 Storage Tracking changes to the HTML5 storage area The handle_storage callback function will be called with a StorageEvent object, except in Internet Explorer where the event object is stored in window.event. function handle_storage(e) { if (!e) { e = window.event; } }

  19. Using HTML5 Storage StorageEvent Object

  20. Using HTML5 Storage • Limitations in current browsers: • 5 MB of storage from each origin. • Can not ask user for more storage (except for Opera, sort of)

  21. HTML5 in action

  22. HTML5 in action function saveGameState() { if (!supportsLocalStorage()) { return false; } localStorage["halma.game.in.progress"] = gGameInProgress; for (var i = 0; i < kNumPieces; i++) { localStorage["halma.piece." + i + ".row"] = gPieces[i].row; localStorage["halma.piece." + i + ".column"] = gPieces[i].column; } localStorage["halma.selectedpiece"] = gSelectedPieceIndex; localStorage["halma.selectedpiecehasmoved"] = gSelectedPieceHasMoved; localStorage["halma.movecount"] = gMoveCount; return true; }

  23. function resumeGame() { if (!supportsLocalStorage()) { return false; } gGameInProgress = (localStorage["halma.game.in.progress"] == "true"); if (!gGameInProgress) { return false; } gPieces = new Array(kNumPieces); for (var i = 0; i < kNumPieces; i++) { var row = parseInt(localStorage["halma.piece." + i + ".row"]); var column = parseInt(localStorage["halma.piece." + i + ".column"]); gPieces[i] = new Cell(row, column); } gNumPieces = kNumPieces; gSelectedPieceIndex = parseInt(localStorage["halma.selectedpiece"]); gSelectedPieceHasMoved = localStorage["halma.selectedpiecehasmoved"] == "true"; gMoveCount = parseInt(localStorage["halma.movecount"]); drawBoard(); return true; }

  24. HTML5 in action • In the saveGameState() function, we did not worry about the data type: localStorage["halma.game.in.progress"] = gGameInProgress;

  25. HTML5 in action • But in the resumeGame() function, we need to treat the value we got from the local storage area as a string and manually construct the proper Boolean value ourselves: gGameInProgress = (localStorage["halma.game.in.progress"] == "true");

  26. HTML5 in action • Similarly, the number of moves is stored in gMoveCount as an integer. In the saveGameState() function, we just stored it: gMoveCount = parseInt(localStorage["halma.movecount"]);

  27. HTML5 in action • But in the resumeGame() function, we need to coerce the value to an integer, using the parseInt() function built into JavaScript: • gMoveCount = parseInt(localStorage["halma.movecount"]);

  28. Beyond Key-Value Pairs: Competing Visions

  29. Beyond Key/Value Pairs: Competing Visions 2007 – Google Gears (based on SQLite) -> Web SQL Database openDatabase('documents', '1.0', 'Local document storage', 5*1024*1024, function (db) { db.changeVersion('', '1.0', function (t) { t.executeSql('CREATE TABLE docids (id, name)'); }, error); });

  30. Beyond Key/Value Pairs: Competing Visions Web SQL Database The Web SQL Database specification has been implemented by four browsers and platforms.

  31. Beyond Key/Value Pairs: Competing Visions SQL-92 Oracle SQL Microsoft SQL MySQL PostgreSQL SQLiteSQL

  32. Beyond Key/Value Pairs: Competing Visions Indexed Database API Formerly known as WebSimpleDB Now colloquially referred to as “indexedDB”

  33. Beyond Key/Value Pairs: Competing Visions IndexedDB object store Shares many concepts with a SQL database: • Records (keys or attributes) • Fields (values) • Datatypes But no query language!

  34. Beyond Key/Value Pairs: Competing Visions Firefox 4: An early walk-through of IndexedDB HTML5 Rocks: IndexedDB example

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