Using System.Configuration.ConfigurationManager Example (C#)
Článek
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Configuration;
using System.Collections;
using System.Collections.Specialized;
using System.Diagnostics;
// The following example shows how to use the ConfigurationManager
// class in a console application.
//
// IMPORTANT: To compile this example, you must add to the project
// a reference to the System.Configuration assembly.
//
namespace Samples.Aspnet
{
#region Auxiliary Classes
// Define a custom configuration element to be
// contained by the ConsoleSection. This element
// stores background and foreground colors that
// the application applies to the console window.
public class ConsoleConfigElement : ConfigurationElement
{
// Create the element.
public ConsoleConfigElement()
{ }
// Create the element.
public ConsoleConfigElement(ConsoleColor fColor,
ConsoleColor bColor)
{
ForegroundColor = fColor;
BackgroundColor = bColor;
}
// Get or set the console background color.
[ConfigurationProperty("background",
DefaultValue = ConsoleColor.Black,
IsRequired = false)]
public ConsoleColor BackgroundColor
{
get
{
return (ConsoleColor)this["background"];
}
set
{
this["background"] = value;
}
}
// Get or set the console foreground color.
[ConfigurationProperty("foreground",
DefaultValue = ConsoleColor.White,
IsRequired = false)]
public ConsoleColor ForegroundColor
{
get
{
return (ConsoleColor)this["foreground"];
}
set
{
this["foreground"] = value;
}
}
}
// Define a custom section that is used by the application
// to create custom configuration sections at the specified
// level in the configuration hierarchy.
// This enables the the user that has the proper access
// rights, to make changes to the configuration files.
public class ConsoleSection : ConfigurationSection
{
// Create a configuration section.
public ConsoleSection()
{ }
// Set or get the ConsoleElement.
[ConfigurationProperty("consoleElement")]
public ConsoleConfigElement ConsoleElement
{
get
{
return (
(ConsoleConfigElement) this["consoleElement"]);
}
set
{
this["consoleElement"] = value;
}
}
}
#endregion
#region ConfigurationManager Interaction Class
// The following code uses the ConfigurationManager class to
// perform the following tasks:
// 1) Get the application roaming configuration file.
// 2) Get the application configuration file.
// 3) Access a specified configuration file through mapping.
// 4) Access the machine configuration file through mapping.
// 5) Read a specified configuration section.
// 6) Read the connectionStrings section.
// 7) Read or write the appSettings section.
public static class UsingConfigurationManager
{
// Get the roaming configuration file associated
// with the application.
// Note.This function uses the OpenExeConfiguration(
// ConfigurationUserLevel userLevel) method to
// get the configuration file.
public static void GetRoamingConfiguration()
{
// Define the custom section to add to the
// configuration file.
string sectionName = "consoleSection";
ConsoleSection cSection = null;
// Get the roaming configuration
// that applies to the current user.
Configuration roamingConfig =
ConfigurationManager.OpenExeConfiguration(
ConfigurationUserLevel.PerUserRoaming);
// Map the roaming configuration file. This
// enables the application to access
// the configuration file using the
// System.Configuration.Configuration class
ExeConfigurationFileMap configFileMap =
new ExeConfigurationFileMap();
configFileMap.ExeConfigFilename =
roamingConfig.FilePath;
// Get the mapped configuration file.
Configuration config =
ConfigurationManager.OpenMappedExeConfiguration(
configFileMap, ConfigurationUserLevel.None);
try
{
cSection =
(ConsoleSection)config.GetSection(
sectionName);
if (cSection == null)
{
// Create a custom configuration section.
cSection = new ConsoleSection();
// Define where in the configuration file
// hierarchy the associated
// configuration section can be declared.
cSection.SectionInformation.AllowExeDefinition =
ConfigurationAllowExeDefinition.MachineToLocalUser;
// Allow the configuration section to be
// overridden by other configuration files.
cSection.SectionInformation.AllowOverride =
true;
// Force the section to be saved.
cSection.SectionInformation.ForceSave = true;
// Store console settings for roaming users.
cSection.ConsoleElement.BackgroundColor =
ConsoleColor.Blue;
cSection.ConsoleElement.ForegroundColor =
ConsoleColor.Yellow;
// Add configuration information to
// the configuration file.
config.Sections.Add(sectionName, cSection);
config.Save(ConfigurationSaveMode.Modified);
// Force a reload of the changed section. This
// makes the new values available for reading.
ConfigurationManager.RefreshSection(
sectionName);
}
}
catch (ConfigurationErrorsException e)
{
Console.WriteLine("[Exception error: {0}]",
e.ToString());
}
// Set console properties using values
// stored in the configuration file.
Console.BackgroundColor =
cSection.ConsoleElement.BackgroundColor;
Console.ForegroundColor =
cSection.ConsoleElement.ForegroundColor;
// Apply the changes.
Console.Clear();
// Display feedback.
Console.WriteLine();
Console.WriteLine("Performed the following tasks:");
Console.WriteLine(
"Created roaming configuration file {0}",
config.FilePath);
Console.WriteLine("Created custom ConsoleSection.");
Console.WriteLine(
"Stored background (blue) and foreground (yellow) colors.");
Console.WriteLine(
"Added the section to the configuration file.");
Console.WriteLine(
"Read stored colors from the configuration file.");
Console.WriteLine("Applied the colors to the console window.");
Console.WriteLine();
}
// Get the application configuration file.
// Note. This function uses the
// OpenExeConfiguration(string)method
// to get the application configuration file.
public static void GetAppConfiguration()
{
// Get the application path needed to obtain
// the application configuration file.
string applicationName =
Environment.GetCommandLineArgs()[0];
if (!applicationName.Contains(".exe"))
applicationName =
String.Concat(applicationName, ".exe");
string exePath = System.IO.Path.Combine(
Environment.CurrentDirectory, applicationName);
// Get the configuration file. The file name has
// this format appname.exe.config.
System.Configuration.Configuration config =
ConfigurationManager.OpenExeConfiguration(exePath);
try
{
// Create a custom configuration section
// having the same name used in the
// roaming configuration file.
// This is possible because the configuration
// section can be overridden by other
// configuration files.
string sectionName = "consoleSection";
ConsoleSection customSection = new ConsoleSection();
if (config.Sections[sectionName] == null)
{
// Store console settings.
customSection.ConsoleElement.BackgroundColor =
ConsoleColor.Black;
customSection.ConsoleElement.ForegroundColor =
ConsoleColor.White;
// Add configuration information to the
// configuration file.
config.Sections.Add(sectionName, customSection);
config.Save(ConfigurationSaveMode.Modified);
// Force a reload of the changed section.
// This makes the new values available for reading.
ConfigurationManager.RefreshSection(sectionName);
}
// Set console properties using values
// stored in the configuration file.
customSection =
(ConsoleSection)config.GetSection(sectionName);
Console.BackgroundColor =
customSection.ConsoleElement.BackgroundColor;
Console.ForegroundColor =
customSection.ConsoleElement.ForegroundColor;
// Apply the changes.
Console.Clear();
}
catch (ConfigurationErrorsException e)
{
Console.WriteLine("[Error exception: {0}]",
e.ToString());
}
// Display feedback.
Console.WriteLine();
Console.WriteLine("Performed the following tasks:");
Console.WriteLine(
"Created the application configuration file {0}",
config.FilePath);
Console.WriteLine("Created custom ConsoleSection.");
Console.WriteLine(
"Stored background (black) and foreground (white) colors.");
Console.WriteLine(
"Added the section to the configuration file.");
Console.WriteLine(
"Read stored colors from the configuration file.");
Console.WriteLine("Applied the colors to the console window.");
Console.WriteLine();
}
// Get the AppSettings section.
// This function uses the AppSettings property
// to read the appSettings configuration
// section.
public static void ReadAppSettings()
{
try
{
// Get the AppSettings section.
NameValueCollection appSettings =
ConfigurationManager.AppSettings;
// Get the AppSettings section elements.
Console.WriteLine();
Console.WriteLine("Performed the following tasks:");
Console.WriteLine("Read application settings:");
Console.WriteLine();
if (appSettings.Count == 0)
{
Console.WriteLine("[ReadAppSettings: {0}]",
"AppSettings is empty Use GetSection command first.");
}
for (int i = 0; i < appSettings.Count; i++)
{
Console.WriteLine("#{0} Key: {1} Value: {2}",
i, appSettings.GetKey(i), appSettings[i]);
}
}
catch (ConfigurationErrorsException e)
{
Console.WriteLine("[ReadAppSettings: {0}]",
e.ToString());
}
}
// Get the ConnectionStrings section.
// This function uses the ConnectionStrings
// property to read the connectionStrings
// configuration section.
public static void ReadConnectionStrings()
{
// Get the ConnectionStrings collection.
ConnectionStringSettingsCollection connections =
ConfigurationManager.ConnectionStrings;
if (connections.Count != 0)
{
Console.WriteLine();
Console.WriteLine("Performed the following tasks:");
Console.WriteLine("Read connection strings:");
Console.WriteLine();
// Get the collection elements.
foreach (ConnectionStringSettings connection in
connections)
{
string name = connection.Name;
string provider = connection.ProviderName;
string connectionString = connection.ConnectionString;
Console.WriteLine("Name: {0}",
name);
Console.WriteLine("Connection string: {0}",
connectionString);
Console.WriteLine("Provider: {0}",
provider);
}
}
else
{
Console.WriteLine();
Console.WriteLine("No connection string is defined.");
Console.WriteLine();
}
}
// Create the AppSettings section.
// The function uses the GetSection(string)method
// to access the configuration section.
// It also adds a new element to the section
// collection.
public static void CreateAppSettings()
{
// Get the application configuration file.
System.Configuration.Configuration config =
ConfigurationManager.OpenExeConfiguration(
ConfigurationUserLevel.None);
string sectionName = "appSettings";
// Add an entry to appSettings.
int appStgCnt =
ConfigurationManager.AppSettings.Count;
string newKey = "NewKey" + appStgCnt.ToString();
string newValue = DateTime.Now.ToLongDateString() +
" " + DateTime.Now.ToLongTimeString();
config.AppSettings.Settings.Add(newKey, newValue);
// Save the configuration file.
config.Save(ConfigurationSaveMode.Modified);
// Force a reload of the changed section. This
// makes the new values available for reading.
ConfigurationManager.RefreshSection(sectionName);
// Get the AppSettings section.
AppSettingsSection appSettingSection =
(AppSettingsSection)config.GetSection(sectionName);
// Display raw xml.
Console.WriteLine();
Console.WriteLine("Performed the following tasks:");
Console.WriteLine("Created AppSettings section.");
Console.WriteLine("Added new element to the section.");
Console.WriteLine("Read the following settings:");
Console.WriteLine();
// Get the AppSettings XML.
Console.WriteLine(
appSettingSection.SectionInformation.GetRawXml());
}
// Access a configuration file using mapping.
// This function uses the OpenMappedExeConfiguration
// method to access the roaming and the application
// configuration files.
// It then uses the the custom ConsoleSection from
// each file to console window colors.
public static void MapExeConfiguration()
{
// Cotains the selected configuration.
System.Configuration.Configuration config;
// Get the roaming configuration file.
Configuration roamingConfig =
ConfigurationManager.OpenExeConfiguration(
ConfigurationUserLevel.PerUserRoaming);
// Get the application configuration file.
Configuration appConfig =
ConfigurationManager.OpenExeConfiguration(
ConfigurationUserLevel.None);
// To map the selected configuration file.
ExeConfigurationFileMap configFileMap =
new ExeConfigurationFileMap();
// Map roaming configuration. This allows
// access to the roaming configuration file.
configFileMap.ExeConfigFilename =
roamingConfig.FilePath;
// Get the mapped configuration file
config =
ConfigurationManager.OpenMappedExeConfiguration(
configFileMap, ConfigurationUserLevel.None);
string sectionName = "consoleSection";
ConsoleSection customSection =
(ConsoleSection)config.GetSection(sectionName);
// Set console properties using the
// configuration values contained in the
// mapped configuration file.
Console.BackgroundColor =
customSection.ConsoleElement.BackgroundColor;
Console.ForegroundColor =
customSection.ConsoleElement.ForegroundColor;
Console.Clear();
Console.WriteLine();
Console.WriteLine("Performed following tasks:");
Console.WriteLine(
"Mapped roaming configuration file: {0}",
config.FilePath);
Console.WriteLine(
"Set console colors from stored configuration values.");
Console.WriteLine();
Console.Write(
"Press Enter to switch to default colors.....");
Console.ReadLine();
// Map roaming configuration. This allows
// access to the application configuration file.
configFileMap.ExeConfigFilename =
appConfig.FilePath;
// Get the mapped configuration file
config =
ConfigurationManager.OpenMappedExeConfiguration(
configFileMap, ConfigurationUserLevel.None);
customSection =
(ConsoleSection)config.GetSection(sectionName);
if (customSection == null)
{
customSection = new ConsoleSection();
// Store console settings.
customSection.ConsoleElement.BackgroundColor =
ConsoleColor.Black;
customSection.ConsoleElement.ForegroundColor =
ConsoleColor.White;
// Add configuration information to the
// configuration file.
config.Sections.Add(sectionName, customSection);
config.Save(ConfigurationSaveMode.Modified);
// Force a reload of the changed section.
// This makes the new values available for reading.
ConfigurationManager.RefreshSection(sectionName);
}
// Set console properties using the
// configuration values contained in the
// mapped configuration file.
Console.BackgroundColor =
customSection.ConsoleElement.BackgroundColor;
Console.ForegroundColor =
customSection.ConsoleElement.ForegroundColor;
Console.Clear();
Console.WriteLine(
"Mapped application configuration file: {0}",
config.FilePath);
Console.WriteLine(
"Set console colors from stored configuration values.");
Console.WriteLine();
}
// Access the machine configuration file using mapping.
// The function uses the OpenMappedMachineConfiguration
// method to access the machine configuration.
public static void MapMachineConfiguration()
{
// Get the machine.config3 file.
Configuration machineConfig =
ConfigurationManager.OpenMachineConfiguration();
// Get the machine.config file path.
ConfigurationFileMap configFile =
new ConfigurationFileMap(machineConfig.FilePath);
// Map the application configuration file to the machine
// configuration file.
Configuration config =
ConfigurationManager.OpenMappedMachineConfiguration(
configFile);
// Get the AppSettings section.
AppSettingsSection appSettingSection =
(AppSettingsSection)config.GetSection("appSettings");
appSettingSection.SectionInformation.AllowExeDefinition =
ConfigurationAllowExeDefinition.MachineToRoamingUser;
// Display the configuration file sections.
ConfigurationSectionCollection sections =
config.Sections;
Console.WriteLine();
Console.WriteLine("Using OpenMappedMachineConfiguration.");
Console.WriteLine("Sections in machine.config:");
// Get the sections in the machine.config.
foreach (ConfigurationSection section in sections)
{
string name = section.SectionInformation.Name;
Console.WriteLine("Name: {0}", name);
}
}
}
#endregion
#region User Interaction Class
// Obtain user's input and provide feedback.
// This class contains the application Main() function.
// It calls the ConfigurationManager methods based
// on the user's selection.
class ApplicationMain
{
// Display user's menu.
public static void DisplayUserMenu()
{
string applicationName =
Environment.GetCommandLineArgs()[0] + ".exe";
StringBuilder buffer = new StringBuilder();
buffer.AppendLine();
buffer.AppendLine("Application: " + applicationName);
buffer.AppendLine("Please, make your selection.");
buffer.AppendLine("Q,q -- Exit the application.");
buffer.Append("1 -- Set console window colors");
buffer.AppendLine(" to blue and yellow");
buffer.AppendLine(" from the roaming configuration.");
buffer.AppendLine("2 -- Ceate appSettings section.");
buffer.AppendLine("3 -- Read appSettings section.");
buffer.AppendLine(" Values merged from application config.");
buffer.Append("4 -- Set console window colors");
buffer.AppendLine(" to black and white");
buffer.AppendLine(" from the application configuration.");
buffer.AppendLine("5 -- Read connectionStrings section.");
buffer.AppendLine(" Values merged from machine.config.");
buffer.AppendLine("6 -- Get specified configuration file.");
buffer.Append(" Set console window colors");
buffer.AppendLine(" from configured values.");
buffer.AppendLine("7 -- Get machine.config file.");
buffer.AppendLine();
Console.Write(buffer.ToString());
}
// Obtain user's input and provide
// feedback.
static void Main(string[] args)
{
// Define user selection string.
string selection = "";
// Get the name of the application.
string appName =
Environment.GetCommandLineArgs()[0];
while (selection.ToLower() != "q")
{
// Process user's input.
switch (selection)
{
case "1":
// Show how to use OpenExeConfiguration
// using the configuration user level.
UsingConfigurationManager.GetRoamingConfiguration();
break;
case "2":
// Show how to use GetSection.
UsingConfigurationManager.CreateAppSettings();
break;
case "3":
// Show how to use AppSettings.
UsingConfigurationManager.ReadAppSettings();
break;
case "4":
// Show how to use OpenExeConfiguration
// using the configuration file path.
UsingConfigurationManager.GetAppConfiguration();
break;
case "5":
// Show how to use ConnectionStrings.
UsingConfigurationManager.ReadConnectionStrings();
break;
case "6":
// Show how to use OpenMappedExeConfiguration.
UsingConfigurationManager.MapExeConfiguration();
break;
case "7":
// Show how to use OpenMappedMachineConfiguration.
UsingConfigurationManager.MapMachineConfiguration();
break;
default:
// DisplayUserMenu();
break;
}
DisplayUserMenu();
Console.Write("> ");
selection = Console.ReadLine();
}
}
}
#endregion
}
Comments
Anonymous
October 14, 2008
Introduction This post shows a console application that uses the ConfigurationManager class. The code
Anonymous
December 24, 2008
Outstanding!This was well documented and a terrific breadth of coverage so that I could see how to use this in a number of situations.Thanks!
Anonymous
October 31, 2011
Thanks. This post really helped.
Anonymous
May 14, 2012
Fantastic post. Very well done. We need more like this out there.
Anonymous
May 28, 2012
Dude,Instead of writing the whole bible, you could have just created a 5 lines example. That would have been enough.
Anonymous
January 14, 2014
Thank you, this article has been a great help. I couldn't find custom configuration for user.config. This is working example. So thank you