Exam 70-536 - TS: Microsoft .NET Framework - Application Development Foundation
Overview
| Language(s): | English, French, German, Japanese, Chinese (Simplified) |
| Audience(s): | Developers |
| Technology: | Microsoft Visual Studio 2005 |
| Type: | Proctored Exam |
Audience Profile
Candidates for this exam work on a team in a medium-sized or large development environment that uses Microsoft Visual Studio .NET 2003 Enterprise Developer, Microsoft Visual Studio 2005, or Microsoft Visual Studio 2008. Candidates should have at least two to three years of experience developing Web-based, Windows-based, or distributed applications by using the Microsoft .NET Framework 1.0, the .NET Framework 1.1, the .NET Framework 2.0, or the .NET Framework 3.5. Candidates should have a working knowledge of Microsoft Visual Studio 2005 or Visual Studio 2008.
Credit Toward Certification
Exam 70-536: TS: Microsoft .NET Framework - Application Development Foundation counts as credit toward the following certification(s):
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 2.0 Web Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 2.0 Windows Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 2.0 Distributed Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 3.5, Windows Presentation Foundation Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 3.5, Windows Communication Foundation Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 3.5, Windows Workflow Foundation Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 3.5, Windows Forms Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 3.5, ADO.NET Applications
- Microsoft Certified Technology Specialist (MCTS): .NET Framework 3.5, ASP.NET Applications
Note This preparation guide is subject to change at any time without prior notice and at the sole discretion of Microsoft. Microsoft exams might include adaptive testing technology and simulation items. Microsoft does not identify the format in which exams are presented. Please use this preparation guide to prepare for the exam, regardless of its format.
Skills Measured
Developing applications that use system types and collections (15%)
Manage data in a .NET Framework application by using .NET Framework system types.
This objective may include but is not limited to: Value types; Nullable types, Reference types; Attributes; Generic types; Exception classes; Boxing and UnBoxing; TypeForwardedToAttribute class
Manage a group of associated data in a .NET Framework application by using collections.
This objective may include but is not limited to: ArrayList class; Collection interfaces; Iterators; Hashtable class; CollectionBase class and ReadOnlyCollectionBase class; DictionaryBase class in DictionaryEntry class; Comparer class; Queue class; SortedList class; BitArray class; Stack class
Improve type safety and application performance in a .NET Framework application by using generic collections.
This objective may include but is not limited to: Collection.Generic interfaces; Generic Dictionary; Generic Comparer class and Generic EqualityComparer class; Generic KeyValuePair structure; Generic List class, Generic List.Enumerator structure, and Generic SortedList class; Generic Queue class and Generic Queue.Enumerator structure; Generic SortedDictionary class; Generic LinkedList; Generic Stack class and Generic Stack.Enumerator structure
Manage data in a .NET Framework application by using specialized collectioins.
This objective may include but is not limited to: Specialized String classes; Specialized Dictionary; Named collections; CollectionsUtil; BitVector32 structure and BitVector32.Section structure
Implement .NET Framework interfaces to cause components to comply with standard contracts.
This objective may include but is not limited to: IComparable interface; IDisposable interface; IConvertible interface; ICloneable interface; IEquatable interface; IFormattable interface
Control interactions between .NET Framework application components by using events and delegates.
This objective may include but is not limited to: Delegate class; EventArgs class; EventHandler delegates
Implementing service processes, threading, and application domains in a .NET Framework application (11%)
Implement, install, and control a service.
This objective may include but is not limited to: Inherit from ServiceBase class, ServiceController class and ServiceControlPermission class; ServiceInstaller and ServiceProcessIntaller class; SessionChangeDescription structure and SessionChangeReason enumeration
Develop multithreaded .NET applications.
This objective may include but is not limited to: Thread class; ThreadPool class; ThreadStart delegate, ParameterizedThreadStart delegate, and SynchronizationContext class; Timeout class, Timer class, TimerCallback delegate, WaitCallback delegate, WaitHandle class, and WaitOrTimerCallback delegate; ThreadExceptionEventArgs class and ThreadExceptionEventhandler class; ThreadState enumeration and ThreadPriority enumeration; ReaderWriterLock class; AutoResetEvent class and ManualResetEvent class; IAsyncResult interface and IcancelableAsyncResult interface (refer System namespace); EventWaithandle class, RegisterWaitHandle class, SendOrPostCallback delegate and IOCompletionCallback delegate; Interlocked class, NativeOverlapped structure and Overlapped class; ExecutionContext class, HostExecutionContext class, HostExecutionContextManager class, and ContextCallback delegate; LockCookie structure, Monitor class, Mutex class, and Semaphore class
Create a unit of isolation for common language runtime within a .NET Framework application by using application domains.
This objective may include but is not limited to: Create an application domain; Unload an application domain; Configure an application domain; Retrieve setup information from an application domain; Load assemblies into an appliction domain
Embedding configuration, diagnostic, management, and installation features into a .NET Framework application (14%)
Embed configuration management functionality into a .NET Framework application.
This objective may include but is not limited to: Configuration class and ConfigurationManager class; ConfigurationSettings class, ConfigurationElement class, ConfigurationElementCollection class and ConfigurationElementProperty class; Implement IConfigurationSectionHandler interface; ConfigurationSection class, ConfigurationSectionCollection class, ConfigurationSectionGroup class and ConfigurationSectionGroupCollection class; Implement ISettingsProviderService interface; Implement IApplicationSettingsProvider interface; ConfigurationValidationBase class; Implement IConfigurationSystem interface
Create a custom Microsoft Windows Installer for .NET components by using the System.Configuration.Install namespace, and configure .NET Framework applications by using configuration files, environment variables, and the .NET Framework Configuration tool (Mscorcfg.msc).
This objective may include but is not limited to: Installer class; Configure which runtime version a .NET Framework application should use; Configure where the runtime should search for an assembly; Configure the location of an assembly and which version of the assembly to use; Direct the runtime to use the DEVPATH environment variable when searching for assemblies; AssemblyInstaller class; ComponentInstaller class; Configure a .NET Framework application by using the .NET Framework Configuration tool (Mscorcfg.msc); ManagedInstaller class; InstallContext class; InstallerCollection class; Implement IManagedInstaller interface; InstallEventHandler delegate; Configure concurrent garbage collection; Register remote objects by using configuration files
Manage an event log by using the System.Diagnostics namespace.
This objective may include but is not limited to: Write to an event log; Read from an event log; Create a new event log
Manage system processes and monitor the performance of a .NET application by using the diagnostics functionality of the .NET Framework.
This objective may include but is not limited to: Get a list of all running processes; Retrieve information about the current process; Get a list of all modules loaded by a process; PerformanceCounter class, PerformanceCounterCategory and CounterCreationData class; Start a process both by using and by not using command-line arguments; StackTrace class; StackFrame class
Debug and trace a .NET Framework application by using the System.Diagnostics namespace.
This objective may include but is not limited to: Debug class; Debugger class; Trace class, CorrelationManager class; TraceListener class; TraceSource class, TraceSwith class; XmlWriterTraceListener class; DelimitedListTraceListener class and EventlogTraceListener class; Debugger attributes
Embed management information and event into a .NET Framework application.
This objective may include but is not limited to: Retrieve a collection of Management objects by using the ManagementObjectSearcher class and its derived classes; ManagementQuery class; Subscribe to management events by using the ManagementEventWatcher class
Implementing serialization and input/output functionality in a .NET Framework application (18%)
Serialize or deserialize an object or an object graph by using runtime serialization techniques.
This objective may include but is not limited to: Serialization interfaces; Serialization attributes; SerializationEntry structure and SerializationInfo class; ObjectManager class; Formatter class, FormatterConverter class, and FormatterServices class; StreamingContext structure
Control the serialization of an object into XML format by using the System.Xml.Serialization namespace.
This objective may include but is not limited to: Serialize and deserialize objects into XML format by using the XmlSerializer class; Control serialization by using serialization attributes; Implement XML serialization interfaces to provide custom formatting for XML serialization; Delegates and event handlers provided by the System.Xml.Serialization namespace
Implement custom serialization formatting by using the Serialization Formatter classes.
This objective may include but is not limited to: SoapFormatter; BinaryFormatter class
Access files and folders by using the File System classes.
This objective may include but is not limited to: File class and FileInfo class; Directory class and DirectoryInfo class; DriveInfo class and DriveType enumeration; FileSystemInfo class and FileSystemWatcher class; Path class; ErrorEventArgs class and ErrorEventHandler delegate; RenamedEventArgs class and RenamedEventHandler delegate
Manage byte streams by using Stream classes.
This objective may include but is not limited to: FileStream class; Stream Class (NOT Readers and Writer classes, as they are separate objectives); MemoryStream class; BufferedStream class
Manage .NET Framework application data by using Reader and Writer classes.
This objective may include but is not limited to: StringReader class and StringWriter class; TextReader class and TextWriter class; StreamReader class and StreamWriter class; BinaryReader class and BinaryWriter class
Compress or decompress stream information in a .NET Framework application and improve the security of application data by using isolated storage.
This objective may include but is not limited to: IsolatedStorageFile class; IsolatedStorageFileStream class; DeflateStream class; GZipStream class
Improving the security of .NET Framework applications by using the .NET Framework security features (20%)
Implement code access security to improve the security of a .NET Framework application.
This objective may include but is not limited to: SecurityManager class; CodeAccessPermission class; Modify the Code Access Security Policy at machine, user, and enterprise policy level by using the Caspol tool; PermissionSet class, NamedPermissionSet class, and PermissionSetCollection class; Standard Security interfaces
Implement access control by using the System.Security.AccessControl classes.
This objective may include but is not limited to: DirectorySecurity class, FileSecurity class, FileSystemSecurity class, and RegistrySecurity class; AccessRule class; AuthorizationRule class and AuthorizationRuleCollection class; CommonAce class, CommonAcl class, CompoundAce class, GeneralAce class, and GeneralAcl class; AuditRule class; MutexSecurity class, ObjectSecurity class, and SemaphoreSecurity class
Implement a custom authentication scheme by using the System.Security.Authentication classes.
This objective may include but is not limited to: Authentication algorithms and SSL protocols
Encrypt, decrypt, and hash data by using the System.Security.Cryptography classes.
This objective may include but is not limited to: DES class and DESCryptoServiceProvider class; HashAlgorithm class; DSA class and DSACryptoServiceProvider class; SHA1 class and SHA1CryptoServiceProvider class; TripleDES and TripleDESCryptoServiceProvider class; MD5 class and MD5CryptoServiceProvider class; RSA class and RSACryptoServiceProvider class; RandomNumberGenerator class; CryptoStream class; CryptoConfig class; RC2 class and RC2CryptoServiceProvider class; AssymetricAlgorithm class; ProtectedData class and ProtectedMemory class; RijndaelManaged class and RijndaelManagedTransform class; CspParameters class; CryptoAPITransform class; Hash-Based Message Authentication Code (HMAC)
Control permissions for resources by using the System.Security.Permission classes.
This objective may include but is not limited to: SecurityPermission class; PrincipalPermission class; FileIOPermission class; StrongNameIdentityPermission class; UIPermission class; UrlIdentityPermission class; PublisherIdentityPermission class; GacIdentityPermission class; FileDialogPermission class; DataProtectionPermission class; EnvironmentPermission class; IUnrestrictedPermission interface; RegistryPermission class; IsolatedStorageFilePermission class; KeyContainerPermission class; ReflectionPermission class; StorePermission class; SiteIdentityPermission class; ZoneIdentityPermission class
Control code privileges by using System.Security.Policy classes.
This objective may include but is not limited to: ApplicationSecurityInfo class and ApplicationSecurityManager class; ApplicationTrust class and ApplicationTrustCollection class; Evidence and PermissionRequestEvidence class; CodeGroup class, FileCodeGroup class, FirstMatchCodeGroup class, NetCodeGroup class, and UnionCodeGroup class; Condition classes; PolicyLevel and PolicyStatement class; IApplicationTrustManager interface, IMembershipCondition interface, and IIdentityPermissionFactory interface
Access and modify identity information by using the System.Security.Principal classes.
This objective may include but is not limited to: GenericIdentity class and GenericPrincipal class; WindowsIdentity class and WindowsPricipal class; NTAccount class and SecurityIdentifier class; IIdentity interface and IPrincipal interface; WindowsImpersonationContext class; IdentityReference class and IdentityReferenceCollection class
Implementing interoperability, reflection, and mailing functionality in a .NET Framework application (11%)
Expose COM components to the .NET Framework and .NET Framework components to COM.
This objective may include but is not limited to: Import a type library as an assembly; Create COM types in managed code; Compile an interop project; Deploy an interop application; Qualify .NET types for interoperation; Apply Interop attributes, such as the ComVisibleAttribute class; Package an assembly for COM; Deploy an application for COM access.
Call unmanaged DLL functions within a .NET Framework application, and control the marshalling of data in a .NET Framework application.
This objective may include but is not limited to: Platform Invoke; Create a class to hold DLL functions; Create prototypes in managed code; Call a DLL function; Call a DLL function in special cases, such as passing structures and implementing callback functions; Create a new Exception class and map it to an HRESULT; Default marshalling behavior; Marshal data with Platform Invoke; Marshal data with COM Interop; MarshalAsAttribute class and Marshal class
Implement reflection functionality in a .NET Framework application, and create metadata, Microsoft intermediate language (MSIL), and a PE file by using the System.Reflection.Emit namespace.
This objective may include but is not limited to: Assembly class; Assembly Attributes; Info classes; Binder class and BindingFlags; MethodBase class and MethodBody class; Builder classes
Send electronic mail to a Simple Mail Transfer Protocol (SMTP) server for delivery from a .NET Framework application.
This objective may include but is not limited to: MailMessage class; MailAddress class and MailAddressCollection class; SmtpClient class, SmtpPermission class, and SmtpPermissionAttribute class; Attachment class, AttachmentBase class, and AttachmentCollection class; SmtpException class, SmtpFailedReceipientException class, and SmtpFailedReceipientsException class; SendCompletedEventHandler delegate; LinkedResource class and LinkedResourceCollection class; AlternateView class and AlternateViewCollection class
Implementing globalization, drawing, and text manipulation functionality in a .NET Framework application (11%)
Format data based on culture information.
This objective may include but is not limited to: Access culture and region information within a .NET Framework application; Format date and time values based on the culture; Format number values based on the culture; Perform culture-sensitive string comparison; Build a custom culture class based on existing culture and region classes.
Enhance the user interface of a .NET Framework application by using the System.Drawing namespace.
This objective may include but is not limited to: Enhance the user interface of a .NET Framework application by using brushes, pens, colors, and fonts; Enhance the user interface of a .NET Framework application by using graphics, images, bitmaps, and icons; Enhance the user interface of a .NET Framework application by using shapes and sizes.
Enhance the text handling capabilities of a .NET Framework application, and search, modify, and control text within a .NET Framework application by using regular expressions.
This objective may include but is not limited to: StringBuilder class; Regex class; Match class and MatchCollection class; Group class and GroupCollection class; Encode text by using Encoding classes.; Decode text by using Decoding classes.; Capture class and CaptureCollection class
Preparation Materials
Learning Plans and Classroom Training
- LP536A: Learning Plan for Application Development Foundation by Using Microsoft .NET Framework 3.5 (Exam 70-536) (1 Forms)
- 2957B: Advanced Foundations of Microsoft .NET 2.0 Development (3 Days)
- 2956B: Core Foundations of Microsoft .NET Development (3 Days)
Microsoft E-Learning
- 5161AE: Advanced development with the Microsoft .NET Framework 2.0 Foundation (16 Hours)
- 5160AE: Core development with the Microsoft .NET Framework 2.0 Foundation (14 Hours)
Books
- MCTS Self-Paced Training Kit (Exam 70-536): Microsoft .NET Framework 2.0 Foundation
- MCTS Self-Paced Training Kit (Exam 70-536): Microsoft .NET Framework - Application Development Foundation, Second Edition
Practice Tests
- MeasureUp (Measureup.com)
- Self Test Software (Selftestsoftware.com)
Community
- Wiki: Training and Certification Portal (en-US)
- Forum: Training and Certification (en-US)
- Microsoft Learning community
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