Not configured: Device doesn't provision Windows Hello for Business for any user.
Enabled: Device provisions Windows Hello for Business using keys or certificates for all users.
Disabled: Device doesn't provision Windows Hello for Business for any user.| -|Use a hardware security device|Computer|
Not configured: Windows Hello for Business will be provisioned using TPM if available, and will be provisioned using software if TPM isn't available.
Enabled: Windows Hello for Business will only be provisioned using TPM. This feature will provision Windows Hello for Business using TPM 1.2 unless the option to exclude them is explicitly set.
Disabled: Windows Hello for Business will be provisioned using TPM if available, and will be provisioned using software if TPM isn't available.| -|Use certificate for on-premises authentication|Computer or user|
Not configured: Windows Hello for Business enrolls a key that is used for on-premises authentication.
Enabled: Windows Hello for Business enrolls a sign-in certificate using ADFS that is used for on-premises authentication.
Disabled: Windows Hello for Business enrolls a key that is used for on-premises authentication.| -|Use PIN recovery|Computer|
Added in Windows 10, version 1703
Not configured: Windows Hello for Business doesn't create or store a PIN recovery secret. PIN reset doesn't use the Azure-based PIN recovery service
Enabled: Windows Hello for Business uses the Azure-based PIN recovery service for PIN reset
Disabled: Windows Hello for Business doesn't create or store a PIN recovery secret. PIN reset doesn't use the Azure-based PIN recovery service.
For more information about using the PIN recovery service for PIN reset see [Windows Hello for Business PIN Reset](hello-feature-pin-reset.md).| -|Use biometrics|Computer|
Not configured: Biometrics can be used as a gesture in place of a PIN
Enabled: Biometrics can be used as a gesture in place of a PIN.
Disabled: Only a PIN can be used as a gesture.|
+|Use Windows Hello for Business|Computer or user|- **Not configured**: Device doesn't provision Windows Hello for Business for any user.
- **Enabled**: Device provisions Windows Hello for Business using keys or certificates for all users.
- **Disabled**: Device doesn't provision Windows Hello for Business for any user.|
+|Use a hardware security device|Computer|- **Not configured**: Windows Hello for Business will be provisioned using TPM if available, and will be provisioned using software if TPM isn't available.
- **Enabled**: Windows Hello for Business will only be provisioned using TPM. This feature will provision Windows Hello for Business using TPM 1.2 unless the option to exclude them is explicitly set.
- **Disabled**: Windows Hello for Business will be provisioned using TPM if available, and will be provisioned using software if TPM isn't available.|
+|Use certificate for on-premises authentication|Computer or user|- **Not configured**: Windows Hello for Business enrolls a key that is used for on-premises authentication.
- **Enabled**: Windows Hello for Business enrolls a sign-in certificate using ADFS that is used for on-premises authentication.
- **Disabled**: Windows Hello for Business enrolls a key that is used for on-premises authentication.|
+|Use PIN recovery|Computer|- Added in Windows 10, version 1703
- **Not configured**: Windows Hello for Business doesn't create or store a PIN recovery secret. PIN reset doesn't use the Azure-based PIN recovery service
- **Enabled**: Windows Hello for Business uses the Azure-based PIN recovery service for PIN reset
- **Disabled**: Windows Hello for Business doesn't create or store a PIN recovery secret. PIN reset doesn't use the Azure-based PIN recovery service.
- For more information about using the PIN recovery service for PIN reset see [Windows Hello for Business PIN Reset](hello-feature-pin-reset.md).|
+|Use biometrics|Computer|- **Not configured**: Biometrics can be used as a gesture in place of a PIN
- **Enabled**: Biometrics can be used as a gesture in place of a PIN.
- **Disabled**: Only a PIN can be used as a gesture.|
### PIN Complexity
|Policy|Scope|Options|
|--- |--- |--- |
-|Require digits|Computer|
Not configured: Users must include a digit in their PIN.
Enabled: Users must include a digit in their PIN.
Disabled: Users can't use digits in their PIN.| -|Require lowercase letters|Computer|
Not configured: Users can't use lowercase letters in their PIN
Enabled: Users must include at least one lowercase letter in their PIN.
Disabled: Users can't use lowercase letters in their PIN.| -|Maximum PIN length|Computer|
Not configured: PIN length must be less than or equal to 127.
Enabled: PIN length must be less than or equal to the number you specify.
Disabled: PIN length must be less than or equal to 127.| -|Minimum PIN length|Computer|
Not configured: PIN length must be greater than or equal to 4.
Enabled: PIN length must be greater than or equal to the number you specify.
Disabled: PIN length must be greater than or equal to 4.| -|Expiration|Computer|
Not configured: PIN doesn't expire.
Enabled: PIN can be set to expire after any number of days between 1 and 730, or PIN can be set to never expire by setting policy to 0.
Disabled: PIN doesn't expire.| -|History|Computer|
Not configured: Previous PINs aren't stored.
Enabled: Specify the number of previous PINs that can be associated to a user account that can't be reused.
Disabled: Previous PINs aren't stored.
Not configured: Windows allows, but doesn't require, special characters in the PIN.
Enabled: Windows requires the user to include at least one special character in their PIN.
Disabled: Windows doesn't allow the user to include special characters in their PIN.| -|Require uppercase letters|Computer|
Not configured: Users can't include an uppercase letter in their PIN.
Enabled: Users must include at least one uppercase letter in their PIN.
Disabled: Users can't include an uppercase letter in their PIN.|
+|Require digits|Computer|- **Not configured**: Users must include a digit in their PIN.
- **Enabled**: Users must include a digit in their PIN.
- **Disabled**: Users can't use digits in their PIN.|
+|Require lowercase letters|Computer|- **Not configured**: Users can't use lowercase letters in their PIN
- **Enabled**: Users must include at least one lowercase letter in their PIN.
- **Disabled**: Users can't use lowercase letters in their PIN.|
+|Maximum PIN length|Computer|- **Not configured**: PIN length must be less than or equal to 127.
- **Enabled**: PIN length must be less than or equal to the number you specify.
- **Disabled**: PIN length must be less than or equal to 127.|
+|Minimum PIN length|Computer|- **Not configured**: PIN length must be greater than or equal to 4.
- **Enabled**: PIN length must be greater than or equal to the number you specify.
- **Disabled**: PIN length must be greater than or equal to 4.|
+|Expiration|Computer|- **Not configured**: PIN doesn't expire.
- **Enabled**: PIN can be set to expire after any number of days between 1 and 730, or PIN can be set to never expire by setting policy to 0.
- **Disabled**: PIN doesn't expire.|
+|History|Computer|- **Not configured**: Previous PINs aren't stored.
- **Enabled**: Specify the number of previous PINs that can be associated to a user account that can't be reused.
- **Disabled**: Previous PINs aren't stored.
**Note** Current PIN is included in PIN history.
+|Require special characters|Computer|- **Not configured**: Windows allows, but doesn't require, special characters in the PIN.
- **Enabled**: Windows requires the user to include at least one special character in their PIN.
- **Disabled**: Windows doesn't allow the user to include special characters in their PIN.|
+|Require uppercase letters|Computer|- **Not configured**: Users can't include an uppercase letter in their PIN.
- **Enabled**: Users must include at least one uppercase letter in their PIN.
- **Disabled**: Users can't include an uppercase letter in their PIN.|
### Phone Sign-in
@@ -56,34 +56,34 @@ The following table lists the Group Policy settings that you can configure for W
The following table lists the MDM policy settings that you can configure for Windows Hello for Business use in your workplace. These MDM policy settings use the [PassportForWork configuration service provider (CSP)](/windows/client-management/mdm/passportforwork-csp).
>[!IMPORTANT]
->Starting in Windows 10, version 1607, all devices only have one PIN associated with Windows Hello for Business. This means that any PIN on a device will be subject to the policies specified in the PassportForWork CSP. The values specified take precedence over any complexity rules set via Exchange ActiveSync (EAS) or the DeviceLock CSP.
+>All devices only have one PIN associated with Windows Hello for Business. This means that any PIN on a device will be subject to the policies specified in the PassportForWork CSP. The values specified take precedence over any complexity rules set via Exchange ActiveSync (EAS) or the DeviceLock CSP.
|Policy|Scope|Default|Options|
|--- |--- |--- |--- |
-|UsePassportForWork|Device or user|True|
True: Windows Hello for Business will be provisioned for all users on the device.
False: Users won't be able to provision Windows Hello for Business.
True: Windows Hello for Business will only be provisioned using TPM.
False: Windows Hello for Business will be provisioned using TPM if available, and will be provisioned using software if TPM isn't available.| -|ExcludeSecurityDevice
TPM12|Device|False|Added in Windows 10, version 1703
True: TPM revision 1.2 modules will be disallowed from being used with Windows Hello for Business.
False: TPM revision 1.2 modules will be allowed to be used with Windows Hello for Business.| -|EnablePinRecovery|Device or use|False|
Added in Windows 10, version 1703
True: Windows Hello for Business uses the Azure-based PIN recovery service for PIN reset.
False: Windows Hello for Business doesn't create or store a PIN recovery secret. PIN reset doesn't use the Azure-based PIN recovery service. For more information about using the PIN recovery service for PIN reset see [Windows Hello for Business PIN Reset](hello-feature-pin-reset.md).|
+|UsePassportForWork|Device or user|True|- True: Windows Hello for Business will be provisioned for all users on the device.
- False: Users won't be able to provision Windows Hello for Business.
**Note:** If Windows Hello for Business is enabled, and then the policy is changed to False, users who previously set up Windows Hello for Business can continue to use it, but won't be able to set up Windows Hello for Business on other devices|
+|RequireSecurityDevice|Device or user|False|- True: Windows Hello for Business will only be provisioned using TPM.
- False: Windows Hello for Business will be provisioned using TPM if available, and will be provisioned using software if TPM isn't available.|
+|ExcludeSecurityDevice
- TPM12|Device|False|Added in Windows 10, version 1703
- True: TPM revision 1.2 modules will be disallowed from being used with Windows Hello for Business.
- False: TPM revision 1.2 modules will be allowed to be used with Windows Hello for Business.|
+|EnablePinRecovery|Device or use|False|- Added in Windows 10, version 1703
- True: Windows Hello for Business uses the Azure-based PIN recovery service for PIN reset.
- False: Windows Hello for Business doesn't create or store a PIN recovery secret. PIN reset doesn't use the Azure-based PIN recovery service. For more information about using the PIN recovery service for PIN reset see [Windows Hello for Business PIN Reset](hello-feature-pin-reset.md).|
### Biometrics
|Policy|Scope|Default|Options|
|--- |--- |--- |--- |
-|UseBiometrics|Device |False|
True: Biometrics can be used as a gesture in place of a PIN for domain sign-in.
False: Only a PIN can be used as a gesture for domain sign-in.| -|
FacialFeaturesUser
EnhancedAntiSpoofing|Device|Not configured|
Not configured: users can choose whether to turn on enhanced anti-spoofing.
True: Enhanced anti-spoofing is required on devices which support it.
False: Users can't turn on enhanced anti-spoofing.|
+|UseBiometrics|Device |False|- True: Biometrics can be used as a gesture in place of a PIN for domain sign-in.
- False: Only a PIN can be used as a gesture for domain sign-in.|
+|- FacialFeaturesUser
- EnhancedAntiSpoofing|Device|Not configured|- Not configured: users can choose whether to turn on enhanced anti-spoofing.
- True: Enhanced anti-spoofing is required on devices which support it.
- False: Users can't turn on enhanced anti-spoofing.|
### PINComplexity
|Policy|Scope|Default|Options|
|--- |--- |--- |--- |
-|Digits |Device or user|1 |
0: Digits are allowed.
1: At least one digit is required.
2: Digits aren't allowed.| -|Lowercase letters |Device or user|2|
0: Lowercase letters are allowed.
1: At least one lowercase letter is required.
2: Lowercase letters aren't allowed.| -|Special characters|Device or user|2|
0: Special characters are allowed.
1: At least one special character is required.
2: Special characters aren't allowed.| -|Uppercase letters|Device or user|2|
0: Uppercase letters are allowed.
1: At least one uppercase letter is required.
2: Uppercase letters aren't allowed.| -|Maximum PIN length |Device or user|127 |
Maximum length that can be set is 127. Maximum length can't be less than minimum setting.| -|Minimum PIN length|Device or user|6|
Minimum length that can be set is 6. Minimum length can't be greater than maximum setting.| -|Expiration |Device or user|0|
Integer value specifies the period of time (in days) that a PIN can be used before the system requires the user to change it. The largest number you can configure for this policy setting is 730. The lowest number you can configure for this policy setting is 0. If this policy is set to 0, then the user's PIN will never expire.| -|History|Device or user|0|
Integer value that specifies the number of past PINs that can be associated to a user account that can't be reused. The largest number you can configure for this policy setting is 50. The lowest number you can configure for this policy setting is 0. If this policy is set to 0, then storage of previous PINs isn't required.|
+|Digits |Device or user|1 |- 0: Digits are allowed.
- 1: At least one digit is required.
- 2: Digits aren't allowed.|
+|Lowercase letters |Device or user|2|- 0: Lowercase letters are allowed.
- 1: At least one lowercase letter is required.
- 2: Lowercase letters aren't allowed.|
+|Special characters|Device or user|2|- 0: Special characters are allowed.
- 1: At least one special character is required.
- 2: Special characters aren't allowed.|
+|Uppercase letters|Device or user|2|- 0: Uppercase letters are allowed.
- 1: At least one uppercase letter is required.
- 2: Uppercase letters aren't allowed.|
+|Maximum PIN length |Device or user|127 |- Maximum length that can be set is 127. Maximum length can't be less than minimum setting.|
+|Minimum PIN length|Device or user|6|- Minimum length that can be set is 6. Minimum length can't be greater than maximum setting.|
+|Expiration |Device or user|0|- Integer value specifies the period of time (in days) that a PIN can be used before the system requires the user to change it. The largest number you can configure for this policy setting is 730. The lowest number you can configure for this policy setting is 0. If this policy is set to 0, then the user's PIN will never expire.|
+|History|Device or user|0|- Integer value that specifies the number of past PINs that can be associated to a user account that can't be reused. The largest number you can configure for this policy setting is 50. The lowest number you can configure for this policy setting is 0. If this policy is set to 0, then storage of previous PINs isn't required.|
### Remote
@@ -92,42 +92,15 @@ The following table lists the MDM policy settings that you can configure for Win
|UseRemotePassport|Device or user|False|Not currently supported.|
>[!NOTE]
-> In Windows 10, version 1709 and later, if policy is not configured to explicitly require letters or special characters, users can optionally set an alphanumeric PIN. Prior to version 1709 the user is required to set a numeric PIN.
+> If a policy isn't explicitly configured to require letters or special characters, users can optionally set an alphanumeric PIN.
## Policy conflicts from multiple policy sources
-Windows Hello for Business is designed to be managed by Group Policy or MDM but not a combination of both. If policies are set from both sources it can result in a mixed result of what is actually enforced for a user or device.
+Windows Hello for Business is designed to be managed by group policy or MDM, but not a combination of both. Avoid mixing group policy and MDM policy settings for Windows Hello for Business. If you mix group policy and MDM policy settings, the MDM settings are ignored until all group policy settings are cleared.
-Policies for Windows Hello for Business are enforced using the following hierarchy: User Group Policy > Computer Group Policy > User MDM > Device MDM > Device Lock policy.
+> [!IMPORTANT]
+> The [*MDMWinsOverGP*](/windows/client-management/mdm/policy-csp-controlpolicyconflict#mdmwinsovergp) policy setting doesn't apply to Windows Hello for Business. MDMWinsOverGP only applies to policies in the *Policy CSP*, while the Windows Hello for Business policies are in the *PassportForWork CSP*.
-Feature enablement policy and certificate trust policy are grouped together and enforced from the same source (either GP or MDM), based on the rule above. The Use Passport for Work policy is used to determine the winning policy source.
+## Policy precedence
-All PIN complexity policies are grouped separately from feature enablement and are enforced from a single policy source. Use a hardware security device and RequireSecurityDevice enforcement are also grouped together with PIN complexity policy. Conflict resolution for other Windows Hello for Business policies are enforced on a per policy basis.
-
->[!NOTE]
-> Windows Hello for Business policy conflict resolution logic does not respect the ControlPolicyConflict/MDMWinsOverGP policy in the Policy CSP.
->
->Examples
->
->The following are configured using computer Group Policy:
->
->- Use Windows Hello for Business - Enabled
->- User certificate for on-premises authentication - Enabled
->
->The following are configured using device MDM Policy:
->
->- UsePassportForWork - Disabled
->- UseCertificateForOnPremAuth - Disabled
->- MinimumPINLength - 8
->- Digits - 1
->- LowercaseLetters - 1
->- SpecialCharacters - 1
->
->Enforced policy set:
->
->- Use Windows Hello for Business - Enabled
->- Use certificate for on-premises authentication - Enabled
->- MinimumPINLength - 8
->- Digits - 1
->- LowercaseLetters - 1
->- SpecialCharacters - 1
\ No newline at end of file
+Windows Hello for Business *user policies* take precedence over *computer policies*. If a user policy is set, the corresponded computer policy is ignored. If a user policy is not set, the computer policy is used.
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/aduc-account-scril.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/aduc-account-scril.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/aduc-account-scril.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/aduc-account-scril.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/exclude-credential-providers-properties.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/exclude-credential-providers-properties.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/exclude-credential-providers-properties.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/exclude-credential-providers-properties.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/four-steps-passwordless-strategy.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/four-steps-passwordless-strategy.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/four-steps-passwordless-strategy.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/four-steps-passwordless-strategy.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/gpmc-exclude-credential-providers.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/gpmc-exclude-credential-providers.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/gpmc-exclude-credential-providers.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/gpmc-exclude-credential-providers.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/gpmc-require-smart-card-policy.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/gpmc-require-smart-card-policy.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/gpmc-require-smart-card-policy.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/gpmc-require-smart-card-policy.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/gpmc-security-options.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/gpmc-security-options.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/gpmc-security-options.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/gpmc-security-options.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/require-whfb-smart-card-policy.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/require-whfb-smart-card-policy.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/require-whfb-smart-card-policy.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/require-whfb-smart-card-policy.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/server-2012-adac-user-scril.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/server-2012-adac-user-scril.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/server-2012-adac-user-scril.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/server-2012-adac-user-scril.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/server-2016-adac-domain-scril.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/server-2016-adac-domain-scril.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/server-2016-adac-domain-scril.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/server-2016-adac-domain-scril.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/server-2016-adac-user-scril.png b/windows/security/identity-protection/hello-for-business/images/passwordless-strategy/server-2016-adac-user-scril.png
similarity index 100%
rename from windows/security/identity-protection/hello-for-business/images/passwordless/server-2016-adac-user-scril.png
rename to windows/security/identity-protection/hello-for-business/images/passwordless-strategy/server-2016-adac-user-scril.png
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/edge-on.png b/windows/security/identity-protection/hello-for-business/images/passwordless/edge-on.png
new file mode 100644
index 0000000000..06a13b6f1a
Binary files /dev/null and b/windows/security/identity-protection/hello-for-business/images/passwordless/edge-on.png differ
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/key-credential-provider.svg b/windows/security/identity-protection/hello-for-business/images/passwordless/key-credential-provider.svg
new file mode 100644
index 0000000000..dd8c09b2dd
--- /dev/null
+++ b/windows/security/identity-protection/hello-for-business/images/passwordless/key-credential-provider.svg
@@ -0,0 +1,11 @@
+
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/lock-screen-off.png b/windows/security/identity-protection/hello-for-business/images/passwordless/lock-screen-off.png
new file mode 100644
index 0000000000..ccfade47d9
Binary files /dev/null and b/windows/security/identity-protection/hello-for-business/images/passwordless/lock-screen-off.png differ
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/lock-screen-on.png b/windows/security/identity-protection/hello-for-business/images/passwordless/lock-screen-on.png
new file mode 100644
index 0000000000..abb9b6456d
Binary files /dev/null and b/windows/security/identity-protection/hello-for-business/images/passwordless/lock-screen-on.png differ
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/uac-off.png b/windows/security/identity-protection/hello-for-business/images/passwordless/uac-off.png
new file mode 100644
index 0000000000..8913baa8ce
Binary files /dev/null and b/windows/security/identity-protection/hello-for-business/images/passwordless/uac-off.png differ
diff --git a/windows/security/identity-protection/hello-for-business/images/passwordless/uac-on.png b/windows/security/identity-protection/hello-for-business/images/passwordless/uac-on.png
new file mode 100644
index 0000000000..b0d03a6299
Binary files /dev/null and b/windows/security/identity-protection/hello-for-business/images/passwordless/uac-on.png differ
diff --git a/windows/security/identity-protection/hello-for-business/images/pinreset/pin-reset.gif b/windows/security/identity-protection/hello-for-business/images/pinreset/pin-reset.gif
index 2ef07cd63c..d8aba4d740 100644
Binary files a/windows/security/identity-protection/hello-for-business/images/pinreset/pin-reset.gif and b/windows/security/identity-protection/hello-for-business/images/pinreset/pin-reset.gif differ
diff --git a/windows/security/identity-protection/hello-for-business/passwordless-strategy.md b/windows/security/identity-protection/hello-for-business/passwordless-strategy.md
index 690c5f984c..c3a0d37737 100644
--- a/windows/security/identity-protection/hello-for-business/passwordless-strategy.md
+++ b/windows/security/identity-protection/hello-for-business/passwordless-strategy.md
@@ -13,7 +13,7 @@ This article describes Windows' password-less strategy and how Windows Hello for
Over the past few years, Microsoft has continued their commitment to enabling a world without passwords.
-:::image type="content" source="images/passwordless/four-steps-passwordless-strategy.png" alt-text="Diagram of stair-step strategy with four steps.":::
+:::image type="content" source="images/passwordless-strategy/four-steps-passwordless-strategy.png" alt-text="Diagram of stair-step strategy with four steps.":::
### 1. Develop a password replacement offering
@@ -224,17 +224,17 @@ Windows provides two ways to prevent your users from using passwords. You can us
You can use Group Policy to deploy an interactive logon security policy setting to the computer. This policy setting is found under **Computer Configuration > Policies > Windows Settings > Local Policy > Security Options**. The name of the policy setting depends on the version of the operating systems you use to configure Group Policy.
-:::image type="content" source="images/passwordless/gpmc-security-options.png" alt-text="The Group Policy Management Editor displaying the location of the Security Options node.":::
+:::image type="content" source="images/passwordless-strategy/gpmc-security-options.png" alt-text="The Group Policy Management Editor displaying the location of the Security Options node.":::
**Windows Server 2016 and earlier**
The policy name for these operating systems is **Interactive logon: Require smart card**.
-:::image type="content" source="images/passwordless/gpmc-require-smart-card-policy.png" alt-text="The Group Policy Management Editor displaying the location of the policy 'Interactive logon: Require smart card'.":::
+:::image type="content" source="images/passwordless-strategy/gpmc-require-smart-card-policy.png" alt-text="The Group Policy Management Editor displaying the location of the policy 'Interactive logon: Require smart card'.":::
**Windows 10, version 1703 or later using Remote Server Administrator Tools**
The policy name for these operating systems is **Interactive logon: Require Windows Hello for Business or smart card**.
-:::image type="content" source="images/passwordless/require-whfb-smart-card-policy.png" alt-text="Highlighting the security policy 'Interactive logon: Require Windows Hello for Business or smart card'.":::
+:::image type="content" source="images/passwordless-strategy/require-whfb-smart-card-policy.png" alt-text="Highlighting the security policy 'Interactive logon: Require Windows Hello for Business or smart card'.":::
When you enable this security policy setting, Windows prevents users from signing in or unlocking with a password. The password credential provider remains visible to the user. If a user tries to use a password, Windows informs the user they must use Windows Hello for Business or a smart card.
@@ -242,11 +242,11 @@ When you enable this security policy setting, Windows prevents users from signin
You can use Group Policy to deploy an administrative template policy setting to the computer. This policy setting is found under **Computer Configuration > Policies > Administrative Templates > System > Logon**:
-:::image type="content" source="images/passwordless/gpmc-exclude-credential-providers.png" alt-text="The Group Policy Management Editor displaying the location of 'Logon' node and the policy setting 'Exclude credential providers'.":::
+:::image type="content" source="images/passwordless-strategy/gpmc-exclude-credential-providers.png" alt-text="The Group Policy Management Editor displaying the location of 'Logon' node and the policy setting 'Exclude credential providers'.":::
The name of the policy setting is **Exclude credential providers**. The value to enter in the policy to hide the password credential provider is `{60b78e88-ead8-445c-9cfd-0b87f74ea6cd}`.
-:::image type="content" source="images/passwordless/exclude-credential-providers-properties.png" alt-text="Properties of the policy setting 'Exclude credential providers'.":::
+:::image type="content" source="images/passwordless-strategy/exclude-credential-providers-properties.png" alt-text="Properties of the policy setting 'Exclude credential providers'.":::
Excluding the password credential provider hides the password credential provider from Windows and any application that attempts to load it. This configuration prevents the user from entering a password using the credential provider. However, this change doesn't prevent applications from creating their own password collection dialogs and prompting the user for a password using custom dialogs.
@@ -296,7 +296,7 @@ The account options on a user account include the option **Smart card is require
The following image shows the SCRIL setting for a user in Active Directory Users and Computers:
-:::image type="content" source="images/passwordless/aduc-account-scril.png" alt-text="Example user properties in Active Directory that shows the SCRIL setting on Account options.":::
+:::image type="content" source="images/passwordless-strategy/aduc-account-scril.png" alt-text="Example user properties in Active Directory that shows the SCRIL setting on Account options.":::
When you configure a user account for SCRIL, Active Directory changes the affected user's password to a random 128 bits of data. Additionally, domain controllers hosting the user account don't allow the user to sign-in interactively with a password. Users will no longer need to change their password when it expires, because passwords for SCRIL users don't expire. The users are effectively password-less because:
@@ -307,7 +307,7 @@ When you configure a user account for SCRIL, Active Directory changes the affect
The following image shows the SCRIL setting for a user in Active Directory Administrative Center on Windows Server 2012:
-:::image type="content" source="images/passwordless/server-2012-adac-user-scril.png" alt-text="Example user properties in Windows Server 2012 Active Directory Administrative Center that shows the SCRIL setting.":::
+:::image type="content" source="images/passwordless-strategy/server-2012-adac-user-scril.png" alt-text="Example user properties in Windows Server 2012 Active Directory Administrative Center that shows the SCRIL setting.":::
> [!NOTE]
> Although a SCRIL user's password never expires in early domains, you can toggle the SCRIL configuration on a user account to generate a new random 128 bit password. Use the following process to toggle this configuration:
@@ -321,7 +321,7 @@ The following image shows the SCRIL setting for a user in Active Directory Admin
The following image shows the SCRIL setting for a user in Active Directory Administrative Center on Windows Server 2016:
-:::image type="content" source="images/passwordless/server-2016-adac-user-scril.png" alt-text="Example user properties in Windows Server 2016 Active Directory Administrative Center that shows the SCRIL setting.":::
+:::image type="content" source="images/passwordless-strategy/server-2016-adac-user-scril.png" alt-text="Example user properties in Windows Server 2016 Active Directory Administrative Center that shows the SCRIL setting.":::
> [!TIP]
> Windows Hello for Business was formerly known as Microsoft Passport.
@@ -332,8 +332,7 @@ Domains configured for Windows Server 2016 or later domain functional level can
In this configuration, passwords for SCRIL-configured users expire based on Active Directory password policy settings. When the SCRIL user authenticates from a domain controller, the domain controller recognizes the password has expired, and automatically generates a new random 128-bit password for the user as part of the authentication. This feature is great because your users don't experience any change password notifications or any authentication outages.
-:::image type="content" source="images/passwordless/server-2016-adac-domain-scril.png" alt-text="The Active Directory Administrative Center on Windows Server 2016 showing the domain setting for SCRIL.":::
+:::image type="content" source="images/passwordless-strategy/server-2016-adac-domain-scril.png" alt-text="The Active Directory Administrative Center on Windows Server 2016 showing the domain setting for SCRIL.":::
> [!NOTE]
> Some components within Windows 10, such as Data Protection APIs and NTLM authentication, still need artifacts of a user possessing a password. This configuration provides interoperability by reducing the usage surface while Microsoft continues to close the gaps to remove the password completely.
-
diff --git a/windows/security/identity-protection/hello-for-business/toc.yml b/windows/security/identity-protection/hello-for-business/toc.yml
index ad2fc7674a..cc9f23c50f 100644
--- a/windows/security/identity-protection/hello-for-business/toc.yml
+++ b/windows/security/identity-protection/hello-for-business/toc.yml
@@ -4,8 +4,6 @@ items:
- name: Concepts
expanded: true
items:
- - name: Passwordless strategy
- href: passwordless-strategy.md
- name: Why a PIN is better than a password
href: hello-why-pin-is-better-than-password.md
- name: Windows Hello biometrics in the enterprise
@@ -112,6 +110,8 @@ items:
items:
- name: PIN reset
href: hello-feature-pin-reset.md
+ - name: Windows Hello Enhanced Security Sign-in (ESS) 🔗
+ href: /windows-hardware/design/device-experiences/windows-hello-enhanced-sign-in-security
- name: Dual enrollment
href: hello-feature-dual-enrollment.md
- name: Dynamic Lock
diff --git a/windows/security/identity-protection/passkeys/images/delete-passkey.png b/windows/security/identity-protection/passkeys/images/delete-passkey.png
new file mode 100644
index 0000000000..1363d8db62
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diff --git a/windows/security/identity-protection/passkeys/images/device-save-qr.png b/windows/security/identity-protection/passkeys/images/device-save-qr.png
new file mode 100644
index 0000000000..e551a1e528
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diff --git a/windows/security/identity-protection/passkeys/images/device-save.png b/windows/security/identity-protection/passkeys/images/device-save.png
new file mode 100644
index 0000000000..240b3a9695
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diff --git a/windows/security/identity-protection/passkeys/images/device-use.png b/windows/security/identity-protection/passkeys/images/device-use.png
new file mode 100644
index 0000000000..5aa3daea3d
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/device-use.png differ
diff --git a/windows/security/identity-protection/passkeys/images/hello-save-confirm.png b/windows/security/identity-protection/passkeys/images/hello-save-confirm.png
new file mode 100644
index 0000000000..b9fdda9002
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/hello-save-confirm.png differ
diff --git a/windows/security/identity-protection/passkeys/images/hello-save.png b/windows/security/identity-protection/passkeys/images/hello-save.png
new file mode 100644
index 0000000000..785a45596b
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/hello-save.png differ
diff --git a/windows/security/identity-protection/passkeys/images/hello-use-confirm.png b/windows/security/identity-protection/passkeys/images/hello-use-confirm.png
new file mode 100644
index 0000000000..4139c708c3
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diff --git a/windows/security/identity-protection/passkeys/images/hello-use.png b/windows/security/identity-protection/passkeys/images/hello-use.png
new file mode 100644
index 0000000000..df46054877
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/hello-use.png differ
diff --git a/windows/security/identity-protection/passkeys/images/laptop.svg b/windows/security/identity-protection/passkeys/images/laptop.svg
new file mode 100644
index 0000000000..2440c97fd5
--- /dev/null
+++ b/windows/security/identity-protection/passkeys/images/laptop.svg
@@ -0,0 +1,3 @@
+
\ No newline at end of file
diff --git a/windows/security/identity-protection/passkeys/images/linked-device-connect.png b/windows/security/identity-protection/passkeys/images/linked-device-connect.png
new file mode 100644
index 0000000000..34cb085968
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/linked-device-connect.png differ
diff --git a/windows/security/identity-protection/passkeys/images/linked-device-save.png b/windows/security/identity-protection/passkeys/images/linked-device-save.png
new file mode 100644
index 0000000000..48bd40f658
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/linked-device-save.png differ
diff --git a/windows/security/identity-protection/passkeys/images/linked-device-use.png b/windows/security/identity-protection/passkeys/images/linked-device-use.png
new file mode 100644
index 0000000000..5aeacdae7a
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/linked-device-use.png differ
diff --git a/windows/security/identity-protection/passkeys/images/phone.svg b/windows/security/identity-protection/passkeys/images/phone.svg
new file mode 100644
index 0000000000..acb1dce81f
--- /dev/null
+++ b/windows/security/identity-protection/passkeys/images/phone.svg
@@ -0,0 +1,3 @@
+
\ No newline at end of file
diff --git a/windows/security/identity-protection/passkeys/images/qr-code.svg b/windows/security/identity-protection/passkeys/images/qr-code.svg
new file mode 100644
index 0000000000..d84c521351
--- /dev/null
+++ b/windows/security/identity-protection/passkeys/images/qr-code.svg
@@ -0,0 +1,3 @@
+
\ No newline at end of file
diff --git a/windows/security/identity-protection/passkeys/images/save-passkey.png b/windows/security/identity-protection/passkeys/images/save-passkey.png
new file mode 100644
index 0000000000..9dd3799a14
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diff --git a/windows/security/identity-protection/passkeys/images/security-key-save.png b/windows/security/identity-protection/passkeys/images/security-key-save.png
new file mode 100644
index 0000000000..a17554e17c
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/security-key-save.png differ
diff --git a/windows/security/identity-protection/passkeys/images/security-key-setup.png b/windows/security/identity-protection/passkeys/images/security-key-setup.png
new file mode 100644
index 0000000000..192d63cc74
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diff --git a/windows/security/identity-protection/passkeys/images/security-key-use.png b/windows/security/identity-protection/passkeys/images/security-key-use.png
new file mode 100644
index 0000000000..1513aa359e
Binary files /dev/null and b/windows/security/identity-protection/passkeys/images/security-key-use.png differ
diff --git a/windows/security/identity-protection/passkeys/images/usb.svg b/windows/security/identity-protection/passkeys/images/usb.svg
new file mode 100644
index 0000000000..18027400c1
--- /dev/null
+++ b/windows/security/identity-protection/passkeys/images/usb.svg
@@ -0,0 +1,3 @@
+
\ No newline at end of file
diff --git a/windows/security/identity-protection/passkeys/images/use-passkey.png b/windows/security/identity-protection/passkeys/images/use-passkey.png
new file mode 100644
index 0000000000..1ff07346ea
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diff --git a/windows/security/identity-protection/passkeys/images/website.png b/windows/security/identity-protection/passkeys/images/website.png
new file mode 100644
index 0000000000..d344d8dbde
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diff --git a/windows/security/identity-protection/passkeys/index.md b/windows/security/identity-protection/passkeys/index.md
new file mode 100644
index 0000000000..bbd57841ea
--- /dev/null
+++ b/windows/security/identity-protection/passkeys/index.md
@@ -0,0 +1,329 @@
+---
+title: Support for passkeys in Windows
+description: Learn about passkeys and how to use them on Windows devices.
+ms.collection:
+- highpri
+- tier1
+ms.topic: article
+ms.date: 09/06/2023
+appliesto:
+- ✅ Windows 11
+- ✅ Windows 10
+---
+
+# Support for passkeys in Windows
+
+Passkeys provide a more secure and convenient method to logging into websites and applications compared to passwords. Unlike passwords, which users must remember and type, passkeys are stored as secrets on a device and can use a device's unlock mechanism (such as biometrics or a PIN). Passkeys can be used without the need for other sign-in challenges, making the authentication process faster, secure, and more convenient.
+
+You can use passkeys with any applications or websites that support them, to create and sign in with Windows Hello. Once a passkey is created and stored with Windows Hello, you can use your device's biometrics or PIN to sign in. Alternatively, you can use a companion device (phone or tablet) to sign in.
+
+> [!NOTE]
+> Starting in Windows 11, version 22H2 with [KB5030310][KB-1], Windows provides a native experience for passkey management. However, passkeys can be used in all supported versions of Windows clients.
+
+This article describes how to create and use passkeys on Windows devices.
+
+## How passkeys work
+
+Microsoft has long been a founding member of the FIDO Alliance and has helped to define and use passkeys natively within a platform authenticator like Windows Hello. Passkeys utilize the FIDO industry security standard, which is adopted by all major platforms. Leading technology companies like Microsoft are backing passkeys as part of the FIDO Alliance, and numerous websites and apps are integrating support for passkeys.
+
+The FIDO protocols rely on standard public/private key cryptography techniques to offer more secure authentication. When a user registers with an online service, their client device generates a new key pair. The private key is stored securely on the users device, while the public key is registered with the service. To authenticate, the client device must prove that it possesses the private key by signing a challenge. The private keys can only be used after they're unlocked by the user using the Windows Hello unlock factor (biometrics or PIN).
+
+FIDO protocols prioritize user privacy, as they're designed to prevent online services from sharing information or tracking users across different services. Additionally, any biometric information used in the authentication process remains on the user's device and isn't transmitted across the network or to the service.
+
+### Passkeys compared to passwords
+
+Passkeys have several advantages over passwords, including their ease of use and intuitive nature. Unlike passwords, passkeys are easy to create, don't need to be remembered, and don't need to be safeguarded. Additionally, passkeys are unique to each website or application, preventing their reuse. They're highly secure because they're only stored on the user's devices, with the service only storing public keys. Passkeys are designed to prevent attackers to guess or obtain them, which helps to make them resistant to phishing attempts where the attacker may try to trick the user into revealing the private key. Passkeys are enforced by the browsers or operating systems to only be used for the appropriate service, rather than relying on human verification. Finally, passkeys provide cross-device and cross-platform authentication, meaning that a passkey from one device can be used to sign in on another device.
+
+[!INCLUDE [passkey](../../../../includes/licensing/passkeys.md)]
+
+## User experiences
+
+### Create a passkey
+
+Follow these steps to create a passkey from a Windows device:
+
+:::row:::
+ :::column span="4":::
+
+ 1. Open a website or app that supports passkeys
+
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="4":::
+
+ 2. Create a passkey from your account settings
+
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="4":::
+ 3. Choose where to save the passkey. By default, Windows offers to save the passkey locally if you're using Windows Hello or Windows Hello for Business. If you select the option **Use another device**, you can choose to save the passkey in one of the following locations:
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+- **This Windows device**: the passkey is saved locally on your Windows device, and protected by Windows Hello (biometrics and PIN)
+- **iPhone, iPad or Android device**: the passkey is saved on a phone or tablet, protected by the device's biometrics, if offered by the device. This option requires you to scan a QR code with your phone or tablet, which must be in proximity of the Windows device
+- **Linked device**: the passkey is saved on a phone or tablet, protected by the device's biometrics, if offered by the device. This option requires the linked device to be in proximity of the Windows device, and it's only supported for Android devices
+- **Security key**: the passkey is saved to a FIDO2 security key, protected by the key's unlock mechanism (for example, biometrics or PIN)
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/save-passkey.png" alt-text="Screenshot showing a dialog box prompting the user to pick a location to store the passkey." lightbox="images/save-passkey.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="4":::
+ 4. Select **Next**
+ :::column-end:::
+:::row-end:::
+
+Pick one of the following options to learn how to save a passkey, based on where you want to store it.
+
+#### [:::image type="icon" source="images/laptop.svg" border="false"::: **Windows device**](#tab/windows)
+
+:::row:::
+ :::column span="3":::
+
+ 5. Select a Windows Hello verification method and proceed with the verification, then select **OK**
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/hello-save.png" alt-text="Screenshot showing the Windows Hello face verification method." lightbox="images/hello-save.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 6. The passkey is saved to your Windows device. To confirm select **OK**
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/hello-save-confirm.png" alt-text="Screenshot confirming that the passkey is saved to the Windows device" lightbox="images/hello-save-confirm.png" border="false":::
+ :::column-end:::
+:::row-end:::
+
+#### [:::image type="icon" source="images/qr-code.svg" border="false"::: **New phone or tablet**](#tab/mobile)
+
+:::row:::
+ :::column span="3":::
+
+ 5. Scan the QR code with your phone or tablet. Wait for the connection to the device to be established and follow the instructions to save the passkey
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/device-save-qr.png" alt-text="Screenshot showing the QR code asking the user to scan on the device." lightbox="images/device-save-qr.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 6. Once the passkey is saved to your phone or tablet, select **OK**
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/device-save.png" alt-text="Screenshot confirming that the passkey is saved to the device." lightbox="images/device-save.png" border="false":::
+ :::column-end:::
+:::row-end:::
+
+#### [:::image type="icon" source="images/phone.svg" border="false"::: **Linked phone or tablet**](#tab/linked)
+
+:::row:::
+ :::column span="3":::
+
+ 5. Once the connection to the linked device is established, follow the instructions on the device to save the passkey
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/linked-device-connect.png" alt-text="Screenshot showing the passkey save dialog connecting to a linked device." lightbox="images/linked-device-connect.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 6. Once the passkey is saved to your linked device, select **OK**
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/linked-device-save.png" alt-text="Screenshot confirming that the passkey is saved to the linked device." lightbox="images/linked-device-save.png" border="false":::
+ :::column-end:::
+:::row-end:::
+
+#### [:::image type="icon" source="images/usb.svg" border="false"::: **Security key**](#tab/key)
+
+:::row:::
+ :::column span="3":::
+
+ 5. Select **OK** to confirm that you want to set up a security key, and unlock the security key using the key's unlock mechanism
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/security-key-setup.png" alt-text="Screenshot showing a prompt to use a security key to store the passkey." lightbox="images/security-key-setup.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 6. Once the passkey is saved to the security key, select **OK**
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/security-key-save.png" alt-text="Screenshot confirming that the passkey is saved to the security key." lightbox="images/security-key-save.png" border="false":::
+ :::column-end:::
+:::row-end:::
+
+---
+
+### Use a passkey
+
+Follow these steps to use a passkey:
+
+:::row:::
+ :::column span="3":::
+ 1. Open a website or app that supports passkeys
+ :::column-end:::
+ :::column span="1":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+ 2. Select **Sign in with a passkey**, or a similar option
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/website.png" alt-text="Screenshot of a website offering the passkey sign in option." lightbox="images/website.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+ 3. If a passkey is stored locally and protected by Windows Hello, you're prompted to use Windows Hello to sign in. If you select the option **Use another device**, you can choose one of the following options:
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+- **This Windows device**: use this option to use a passkey that is stored locally on your Windows device, and protected by Windows Hello
+- **iPhone, iPad or Android device**: use this option if you want to sign in with a passkey stored on a phone or tablet. This option requires you to scan a QR code with your phone or tablet, which must be in proximity of the Windows device
+- **Linked device**: use this option if you want to sign in with a passkey stored on a device that is in proximity of the Windows device. This option is only supported for Android devices
+- **Security key**: use this option if you want to sign in with a passkey stored on a FIDO2 security key
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/use-passkey.png" alt-text="Screenshot of the passkey dialog prompting the user to pick where the passkey is stored." lightbox="images/use-passkey.png" border="false":::
+ :::column-end:::
+:::row-end:::
+
+Pick one of the following options to learn how to use a passkey, based on where you saved it.
+
+#### [:::image type="icon" source="images/laptop.svg" border="false"::: **Windows device**](#tab/windows)
+
+:::row:::
+ :::column span="3":::
+
+ 4. Select a Windows Hello unlock option
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/hello-use.png" alt-text="Screenshot showing the Windows Hello prompt for a verification method." lightbox="images/hello-use.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 5. Select **OK** to continue signing in
+
+ :::column-end:::
+ :::column span="1":::
+ :::column-end:::
+:::row-end:::
+
+#### [:::image type="icon" source="images/qr-code.svg" border="false"::: **Phone or tablet**](#tab/mobile)
+
+:::row:::
+ :::column span="3":::
+
+ 4. Scan the QR code with your phone or tablet where you saved the passkey. Once the connection to the device is established, follow the instructions to use the passkey
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/device-use.png" alt-text="Screenshot showing the QR code to scan from your phone or tablet." lightbox="images/device-use.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="4":::
+
+ 5. You're signed in to the website or app
+
+ :::column-end:::
+:::row-end:::
+
+#### [:::image type="icon" source="images/phone.svg" border="false"::: **Linked phone or tablet**](#tab/linked)
+
+:::row:::
+ :::column span="3":::
+
+ 4. Once the connection to the linked device is established, follow the instructions on the device to use the passkey
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/linked-device-use.png" alt-text="Screenshot showing that the linked device is connected to Windows." lightbox="images/linked-device-use.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 5. You're signed in to the website or app
+
+ :::column-end:::
+ :::column span="1":::
+ :::column-end:::
+:::row-end:::
+
+#### [:::image type="icon" source="images/usb.svg" border="false"::: **Security key**](#tab/key)
+
+:::row:::
+ :::column span="3":::
+
+ 4. Unlock the security key using the key's unlock mechanism
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/security-key-use.png" alt-text="Screenshot showing a prompt asking the user to unlock the security key." lightbox="images/security-key-use.png" border="false":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+
+ 5. You're signed in to the website or app
+
+ :::column-end:::
+ :::column span="1":::
+ :::column-end:::
+:::row-end:::
+
+---
+
+### Manage passkeys
+
+Starting in Windows 11, version 22H2 with [KB5030310][KB-1], you can use the Settings app to view and manage passkeys saved for apps or websites. Go to **Settings > Accounts > Passkeys**, or use the following shortcut:
+
+> [!div class="nextstepaction"]
+>
+> [Manage passkeys][MSS-1]
+
+- A list of saved passkeys is displayed and you can filter them by name
+- To delete a passkey, select **... > Delete passkey** next to the passkey name
+
+:::image type="content" source="images/delete-passkey.png" alt-text="Screenshot of the Settings app showing the delete option for a passkey." lightbox="images/delete-passkey.png" border="false":::
+
+> [!NOTE]
+> Some passkeys for *login.microsoft.com* can't be deleted, as they're used with Microsoft Entra ID and/or Microsoft Account for signing in to the device and Microsoft services.
+
+## :::image type="icon" source="../../images/icons/feedback.svg" border="false"::: Provide feedback
+
+To provide feedback for passkeys, open [**Feedback Hub**][FHUB] and use the category **Security and Privacy > Passkey**.
+
+
+
+[FHUB]: feedback-hub:?tabid=2&newFeedback=true
+[KB-1]: https://support.microsoft.com/kb/5030310
+[MSS-1]: ms-settings:savedpasskeys
diff --git a/windows/security/identity-protection/passwordless-experience/images/edge-on.png b/windows/security/identity-protection/passwordless-experience/images/edge-on.png
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new file mode 100644
index 0000000000..dd8c09b2dd
--- /dev/null
+++ b/windows/security/identity-protection/passwordless-experience/images/key-credential-provider.svg
@@ -0,0 +1,11 @@
+
diff --git a/windows/security/identity-protection/passwordless-experience/images/lock-screen-off.png b/windows/security/identity-protection/passwordless-experience/images/lock-screen-off.png
new file mode 100644
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diff --git a/windows/security/identity-protection/passwordless-experience/index.md b/windows/security/identity-protection/passwordless-experience/index.md
new file mode 100644
index 0000000000..44f80bdd5b
--- /dev/null
+++ b/windows/security/identity-protection/passwordless-experience/index.md
@@ -0,0 +1,141 @@
+---
+title: Windows passwordless experience
+description: Learn how Windows passwordless experience enables your organization to move away from passwords.
+ms.collection:
+ - highpri
+ - tier1
+ms.date: 09/11/2023
+ms.topic: how-to
+---
+
+# Windows passwordless experience
+
+Starting in Windows 11, version 22H2 with [KB5030310][KB-1], *Windows passwordless experience* is a security policy that promotes a user experience without passwords on Microsoft Entra joined devices.\
+When the policy is enabled, certain Windows authentication scenarios don't offer users the option to use a password, helping organizations and preparing users to gradually move away from passwords.
+
+With Windows passwordless experience, users who sign in with Windows Hello or a FIDO2 security key:
+
+- Can't use the password credential provider on the Windows lock screen
+- Aren't prompted to use a password during in-session authentications (for example, UAC elevation, password manager in the browser, etc.)
+- Don't have the option *Accounts > Change password* in the Settings app
+
+ >[!NOTE]
+ >Users can reset their password using CTRL+ALT+DEL > **Manage your account**
+
+Windows passwordless experience doesn't affect the initial sign-in experience and local accounts. It only applies to subsequent sign-ins for Microsoft Entra ID accounts. It also doesn't prevent a user from signing in with a password when using the *Other user* option in the lock screen.\
+The password credential provider is hidden only for the last signed in user who signed in Windows Hello or a FIDO2 security key. Windows passwordless experience isn't about preventing users from using passwords, rather to guide and educate them to not use passwords.
+
+This article explains how to enable Windows passwordless experience and describes the user experiences.
+
+>[!TIP]
+> Windows Hello for Business users can achieve passwordless sign-in from the first sign-in using the Web sign-in feature. For more information about Web sign-in, see [Web sign-in for Windows devices](../web-sign-in/index.md).
+
+## System requirements
+
+Windows passwordless experience has the following requirements:
+
+- Windows 11, version 22H2 with [KB5030310][KB-1] or later
+- Microsoft Entra joined
+- Windows Hello for Busines credentials enrolled for the user, or a FIDO2 security key
+- MDM-managed: Microsoft Intune or other MDM solution
+
+>[!NOTE]
+>Microsoft Entra hybrid joined devices and Active Directory domain joined devices are currently out of scope.
+
+[!INCLUDE [windows-passwordless-experience](../../../../includes/licensing/windows-passwordless-experience.md)]
+
+## Enable Windows passwordless experience with Intune
+
+[!INCLUDE [intune-settings-catalog-1](../../../../includes/configure/intune-settings-catalog-1.md)]
+
+| Category | Setting name | Value |
+|--|--|--|
+| **Authentication** | Enable Passwordless Experience | Enabled |
+
+[!INCLUDE [intune-settings-catalog-2](../../../../includes/configure/intune-settings-catalog-2.md)]
+
+Alternatively, you can configure devices using a [custom policy][INT-2] with the [Policy CSP][CSP-1].
+
+| Setting |
+|--------|
+| - **OMA-URI:** `./Device/Vendor/MSFT/Policy/Config/Authentication/EnablePasswordlessExperience`
- **Data type:** int
- **Value:** `1`|
+
+## User experiences
+
+### Lock screen experience
+
+:::row:::
+ :::column span="3":::
+ **Passwordless experience turned off**: users can sign in using a password, as indicated by the presence of the password credential provider :::image type="icon" source="images/key-credential-provider.svg" border="false"::: in the Windows lock screen.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/lock-screen-off.png" lightbox="images/lock-screen-off.png" alt-text="Screenshot of the Windows lock screen showing the fingerprint, PIN and password credential providers.":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+ **Passwordless experience turned on**: the password credential provider :::image type="icon" source="images/key-credential-provider.svg" border="false"::: is missing for the last user who signed in with strong credentials. A user can either sign in using a strong credential or opt to use the *Other user* option to sign in with a password.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/lock-screen-on.png" lightbox="images/lock-screen-on.png" alt-text="Screenshot of the Windows lock screen showing the fingerprint and PIN credential providers only. The password credential provider is missing.":::
+ :::column-end:::
+:::row-end:::
+
+### In-session authentication experiences
+
+When Windows passwordless experience is enabled, users can't use the password credential provider for in-session authentication scenarios. In-session authentication scenarios include:
+
+- Password Manager in a web browser
+- Connecting to file shares or intranet sites
+- User Account Control (UAC) elevation, except if a local user account is used for elevation
+
+>[!NOTE]
+> RDP sign in defaults to the credential provider used during sign-in. However, a user can select the option *Use a different account* to sign in with a password.
+>
+> *Run as different user* is not impacted by Windows passwordless experience.
+
+Example of UAC elevation experience:
+
+:::row:::
+ :::column span="3":::
+ **Passwordless experience turned off**: UAC elevation allows the user to authenticate using a password.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/uac-off.png" lightbox="images/uac-off.png" alt-text="Screenshot of the UAC prompt showing username and password fields.":::
+ :::column-end:::
+:::row-end:::
+:::row:::
+ :::column span="3":::
+ **Passwordless experience turned on**: UAC elevation doesn't allow the user to use the password credential provider for the currently logged on user. The user can authenticate using Windows Hello, a FIDO2 security key or a local user account, if available.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/uac-on.png" lightbox="images/uac-on.png" alt-text="Screenshot of the UAC prompt showing fingerprint and PIN options only.":::
+ :::column-end:::
+:::row-end:::
+
+## Recommendations
+
+Here's a list of recommendations to consider before enabling Windows passwordless experience:
+
+- If Windows Hello for Business is enabled, configure the [PIN reset](../hello-for-business/hello-feature-pin-reset.md) feature to allow users to reset their PIN from the lock screen. The PIN reset experience is improved starting in Windows 11, version 22H2 with [KB5030310][KB-1]
+- Don't configure the security policy *Interactive logon: Don't display last signed-in*, as it prevents Windows passwordless experience from working
+- Don't disable the password credential provider using the *Exclude credential providers* policy. The key differences between the two policies are:
+ - The Exclude credential providers policy disables passwords for *all accounts*, including local accounts. Windows passwordless experience only applies to Microsoft Entra ID accounts that sign in with Windows Hello or a FIDO2 security key. It also excludes *Other User* from the policy, so users have a backup sign in option
+ - Exclude credential providers policy prevents the use of passwords for RDP and *Run as* authentication scenarios
+- To facilitate helpdesk support operations, consider enabling the local administrator account or create a separate one, randomizing its password using the [Windows Local Administrator Password Solution (LAPS)][SERV-1]
+
+## Known issues
+
+There's a known issue affecting the in-session authentication experience when using FIDO2 security keys, where security keys aren't always an available option. The product group is aware of this behavior and plans to improve this in the future.
+
+### :::image type="icon" source="../../images/icons/feedback.svg" border="false"::: Provide feedback
+
+To provide feedback for Windows passwordless experience, open [**Feedback Hub**][FHUB] and use the category **Security and Privacy > Passwordless experience**.
+
+
+
+[CSP-1]: /windows/client-management/mdm/policy-csp-authentication#enablepasswordlessexperience
+[FHUB]: feedback-hub://?tabid=2&newFeedback=true&feedbackType=1
+[INT-2]: /mem/intune/configuration/custom-settings-windows-10
+[KB-1]: https://support.microsoft.com/kb/5030310
+[SERV-1]: /windows-server/identity/laps/laps-overview
diff --git a/windows/security/identity-protection/toc.yml b/windows/security/identity-protection/toc.yml
index 2b006e3ca0..5762bfaf81 100644
--- a/windows/security/identity-protection/toc.yml
+++ b/windows/security/identity-protection/toc.yml
@@ -3,16 +3,18 @@ items:
href: index.md
- name: Passwordless sign-in
items:
- - name: Windows Hello for Business 🔗
- href: hello-for-business/index.md
+ - name: Passwordless strategy
+ href: hello-for-business/passwordless-strategy.md
+ - name: Windows Hello for Business
+ href: hello-for-business/toc.yml
- name: Windows presence sensing
href: https://support.microsoft.com/windows/wake-your-windows-11-pc-when-you-approach-82285c93-440c-4e15-9081-c9e38c1290bb
- - name: Windows Hello for Business Enhanced Security Sign-in (ESS) 🔗
- href: /windows-hardware/design/device-experiences/windows-hello-enhanced-sign-in-security
- - name: FIDO 2 security key 🔗
+ - name: FIDO2 security key 🔗
href: /azure/active-directory/authentication/howto-authentication-passwordless-security-key
- - name: Federated sign-in 🔗
- href: /education/windows/federated-sign-in
+ - name: Windows passwordless experience
+ href: passwordless-experience/index.md
+ - name: Passkeys
+ href: passkeys/index.md
- name: Smart Cards
href: smart-cards/toc.yml
- name: Virtual smart cards
@@ -20,6 +22,10 @@ items:
displayName: VSC
- name: Enterprise Certificate Pinning
href: enterprise-certificate-pinning.md
+ - name: Web sign-in
+ href: web-sign-in/index.md
+ - name: Federated sign-in 🔗
+ href: /education/windows/federated-sign-in
- name: Advanced credential protection
items:
- name: Windows LAPS (Local Administrator Password Solution) 🔗
diff --git a/windows/security/identity-protection/web-sign-in/images/lock-screen.png b/windows/security/identity-protection/web-sign-in/images/lock-screen.png
new file mode 100644
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diff --git a/windows/security/identity-protection/web-sign-in/images/web-sign-in-credential-provider.svg b/windows/security/identity-protection/web-sign-in/images/web-sign-in-credential-provider.svg
new file mode 100644
index 0000000000..1afb38e115
--- /dev/null
+++ b/windows/security/identity-protection/web-sign-in/images/web-sign-in-credential-provider.svg
@@ -0,0 +1,4 @@
+
diff --git a/windows/security/identity-protection/web-sign-in/images/web-sign-in-federated-auth.gif b/windows/security/identity-protection/web-sign-in/images/web-sign-in-federated-auth.gif
new file mode 100644
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new file mode 100644
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new file mode 100644
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diff --git a/windows/security/identity-protection/web-sign-in/index.md b/windows/security/identity-protection/web-sign-in/index.md
new file mode 100644
index 0000000000..76fbbdb713
--- /dev/null
+++ b/windows/security/identity-protection/web-sign-in/index.md
@@ -0,0 +1,170 @@
+---
+title: Web sign-in for Windows
+description: Learn how Web sign-in in Windows works, key scenarios, and how to configure it.
+ms.date: 09/13/2023
+ms.topic: how-to
+appliesto:
+ - ✅ Windows 11
+ms.collection:
+ - tier1
+---
+
+# Web sign-in for Windows
+
+Starting in Windows 11, version 22H2 with [KB5030310][KB-1], you can enable a web-based sign-in experience on Microsoft Entra joined devices, unlocking new sign-in options and capabilities.
+This feature is called *Web sign-in*.
+
+Web sign-in is a *credential provider*, and it was initially introduced in Windows 10 with support for Temporary Access Pass (TAP) only. With the release of Windows 11, the supported scenarios and capabilities of Web sign-in are expanded.\
+For example, you can sign in with the Microsoft Authenticator app or with a SAML-P federated identity.
+
+This article describes how to configure Web sign-in and the supported key scenarios.
+
+## System requirements
+
+To use web sign-in, the clients must meet the following prerequisites:
+
+- Windows 11, version 22H2 with [5030310][KB-1], or later
+- Must be Microsoft Entra joined
+- Must have Internet connectivity, as the authentication is done over the Internet
+
+[!INCLUDE [federated-sign-in](../../../../includes/licensing/web-sign-in.md)]
+
+## Configure web sign-in
+
+To use web sign-in, your devices must be configured with different policies. Review the following instructions to configure your devices using either Microsoft Intune or a provisioning package (PPKG).
+
+#### [:::image type="icon" source="../../images/icons/intune.svg"::: **Intune**](#tab/intune)
+
+[!INCLUDE [intune-settings-catalog-1](../../../../includes/configure/intune-settings-catalog-1.md)]
+
+| Category | Setting name | Value |
+|--|--|--|
+| Authentication | Enable Web Sign In | Enabled |
+| Authentication | Configure Web Sign In Allowed Urls | This setting is optional, and it contains a list of domains required for sign in, for example:
- `idp.example.com`
- `example.com` |
+| Authentication | Configure Webcam Access Domain Names | This setting is optional, and it should be configured if you need to use the webcam during the sign-in process. Specify the list of domains that are allowed to use the webcam during the sign-in process, for example: `example.com` |
+
+[!INCLUDE [intune-settings-catalog-2](../../../../includes/configure/intune-settings-catalog-2.md)]
+
+Alternatively, you can configure devices using a [custom policy][INT-1] with the following settings:
+
+| OMA-URI | More information |
+|-|-|
+| `./Vendor/MSFT/Policy/Config/Authentication/EnableWebSignIn`| [EnableWebSignIn](/windows/client-management/mdm/policy-csp-authentication#enablewebsignin) |
+| `./Vendor/MSFT/Policy/Config/Authentication/ConfigureWebSignInAllowedUrls`|[ConfigureWebSignInAllowedUrls](/windows/client-management/mdm/policy-csp-authentication#configurewebsigninallowedurls)|
+| `./Vendor/MSFT/Policy/Config/Authentication/ConfigureWebCamAccessDomainNames`|[ConfigureWebcamAccessDomainNames](/windows/client-management/mdm/policy-csp-authentication#configurewebcamaccessdomainnames)|
+
+#### [:::image type="icon" source="../../images/icons/provisioning-package.svg"::: **PPKG**](#tab/ppkg)
+
+[!INCLUDE [provisioning-package-1](../../../../includes/configure/provisioning-package-1.md)]
+
+| Path | Setting name | Value |
+|--|--|--|
+| `Policies/Authentication` | `EnableWebSignIn` | Enabled |
+| `Policies/Authentication` | `ConfigureWebSignInAllowedUrls` | This setting is optional, and it contains a semicolon-separated list of domains required for sign in, for example: `idp.example.com;example.com` |
+| `Policies/Authentication` | `ConfigureWebCamAccessDomainNames` | This setting is optional, and it should be configured if you need to use the webcam during the sign-in process. Specify the list of domains that are allowed to use the webcam during the sign-in process, separated by a semicolon. For example: `example.com` |
+
+[!INCLUDE [provisioning-package-2](../../../../includes/configure/provisioning-package-2.md)]
+
+---
+
+## User experiences
+
+Once the devices are configured, a new sign-in experience becomes available, as indicated by the presence of the Web sign-in credential provider :::image type="icon" source="images/web-sign-in-credential-provider.svg" border="false"::: in the Windows lock screen.
+
+:::image type="content" source="images/lock-screen.png" border="false" lightbox="images/lock-screen.png" alt-text="Screenshot of the Windows lock screen showing the Web sign-in credential provider.":::
+
+Here's a list of key scenarios supported by Web sign-in, and a brief animation showing the user experience. Select the thumbnail to start the animation.
+
+### Passwordless sign-in
+:::row:::
+ :::column span="3":::
+ Users can sign in to Windows passwordless, even before enrolling in Windows Hello for Business. For example, by using the Microsoft Authenticator app as a sign-in method.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/web-sign-in-authenticator.png" border="false" lightbox="images/web-sign-in-authenticator.gif" alt-text="Animation of the Web sign-in experience with Microsoft Authenticator.":::
+ :::column-end:::
+:::row-end:::
+
+> [!TIP]
+> When used in conjuction with *Windows Hello for Business passworless*, you can hide the password credential provider from the lock screen as well as in-session authentication scenarios. This enables a truly passwordless Windows experience.
+To learn more:
+- [Enable passwordless sign-in with Microsoft Authenticator][AAD-1]
+- [Passwordless authentication options for Microsoft Entra ID][AAD-2]
+- [Windows passwordless experience](../passwordless-experience/index.md)
+
+### Windows Hello for Business PIN reset
+
+:::row:::
+ :::column span="3":::
+ The Windows Hello PIN reset flow is seamless and more robust than in previous versions.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/web-sign-in-pin-reset.png" border="false" lightbox="images/web-sign-in-pin-reset.gif" alt-text="Animation of the PIN reset in experience.":::
+ :::column-end:::
+:::row-end:::
+
+For more information, see [PIN reset](../hello-for-business/hello-feature-pin-reset.md).
+
+### Temporary Access Pass (TAP)
+
+:::row:::
+ :::column span="3":::
+ A Temporary Access Pass (TAP) is a time-limited passcode granted by an administrator to a user. Users can sign in with a TAP using the Web sign-in credential provider. For example:
+
+ - to onboard Windows Hello for Business or a FIDO2 security key
+ - if lost or forgotten FIDO2 security key and unknown password
+
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/web-sign-in-tap.png" border="false" lightbox="images/web-sign-in-tap.gif" alt-text="Animation of the TAP sign in experience.":::
+ :::column-end:::
+:::row-end:::
+
+For more information, see [Use a Temporary Access Pass][AAD-3].
+
+### Sign in with a federated identity
+
+:::row:::
+ :::column span="3":::
+ If the Microsoft Entra ID tenant is federated with a third-party SAML-P identity provider (IdP), federated users can sign using the Web sign-in credential provider.
+ :::column-end:::
+ :::column span="1":::
+ :::image type="content" source="images/web-sign-in-federated-auth.png" border="false" lightbox="images/web-sign-in-federated-auth.gif" alt-text="Animation of the sign in experience with a federated user.":::
+ :::column-end:::
+:::row-end:::
+
+> [!TIP]
+> To improve the user experience for federated identities:
+>
+> - Configure the *preferred Azure AD tenant name* feature, which allows users to select the domain name during the sign-in process. The users are then automatically redirected to the identity provider sign-in page.
+> - Enable Windows Hello for Business. Once the user signs in, the user can enroll in Windows Hello for Business and then use it to sign in to the device
+
+For more information about preferred tenant name, see [Authentication CSP - PreferredAadTenantDomainName][WIN-1].
+
+## Important considerations
+
+Here's a list of important considerations to keep in mind when configuring or using Web sign-in:
+
+- Cached credentials aren't supported with Web sign-in. If the device is offline, the user can't use the Web sign-in credential provider to sign in
+- After sign out, the user isn't displayed in the user selection list
+- Once enabled, the Web sign-in credential provider is the default credential provider for new users signing in to the device. To change the default credential provider, you can use the [DefaultCredentialProvider][WIN-2] ADMX-backed policy
+- The user can exit the Web sign-in flow by pressing Ctrl+Alt+Delete to get back to the Windows lock screen
+
+### Known issues
+
+- If you attempt to sign in while the device is offline, you get the following message: *It doesn't look that you're connected to the Internet. Check your connection and try again*. Selecting the *Back to sign-in* option doesn't bring you back to the lock screen. As a workaround, you can press Ctrl+Alt+Delete to get back to the lock screen.
+
+### :::image type="icon" source="../../images/icons/feedback.svg" border="false"::: Provide feedback
+
+To provide feedback for web sign-in, open [**Feedback Hub**][FHUB] and use the category **Security and Privacy > Passwordless experience**.
+
+
+
+[AAD-1]: /azure/active-directory/authentication/howto-authentication-passwordless-phone
+[AAD-2]: /azure/active-directory/authentication/concept-authentication-passwordless
+[AAD-3]: /azure/active-directory/authentication/howto-authentication-temporary-access-pass
+[FHUB]: feedback-hub://?tabid=2&newFeedback=true&feedbackType=1
+[INT-1]: /mem/intune/configuration/custom-settings-windows-10
+[KB-1]: https://support.microsoft.com/kb/5030310
+[WIN-1]: /windows/client-management/mdm/policy-csp-authentication#preferredaadtenantdomainname
+[WIN-2]: /windows/client-management/mdm/policy-csp-admx-credentialproviders#defaultcredentialprovider
diff --git a/windows/security/images/icons/feedback.svg b/windows/security/images/icons/feedback.svg
new file mode 100644
index 0000000000..2ecd143695
--- /dev/null
+++ b/windows/security/images/icons/feedback.svg
@@ -0,0 +1,3 @@
+
diff --git a/windows/security/images/icons/key.svg b/windows/security/images/icons/key.svg
new file mode 100644
index 0000000000..c9df33c18f
--- /dev/null
+++ b/windows/security/images/icons/key.svg
@@ -0,0 +1,3 @@
+
\ No newline at end of file
diff --git a/windows/security/images/icons/provisioning-package.svg b/windows/security/images/icons/provisioning-package.svg
new file mode 100644
index 0000000000..dbbad7d780
--- /dev/null
+++ b/windows/security/images/icons/provisioning-package.svg
@@ -0,0 +1,3 @@
+
\ No newline at end of file
diff --git a/windows/security/includes/sections/application.md b/windows/security/includes/sections/application.md
index 34f9e6a785..8b6b510ef4 100644
--- a/windows/security/includes/sections/application.md
+++ b/windows/security/includes/sections/application.md
@@ -1,7 +1,7 @@
---
author: paolomatarazzo
ms.author: paoloma
-ms.date: 08/02/2023
+ms.date: 09/18/2023
ms.topic: include
---
@@ -10,17 +10,17 @@ ms.topic: include
| Feature name | Description |
|:---|:---|
| **[Smart App Control](/windows/security/threat-protection/windows-defender-application-control/windows-defender-application-control)** | Smart App Control prevents users from running malicious applications on Windows devices by blocking untrusted or unsigned applications. Smart App Control goes beyond previous built-in browser protections, by adding another layer of security that is woven directly into the core of the OS at the process level. Using AI, our new Smart App Control only allows processes to run that are predicted to be safe based on existing and new intelligence processed daily. Smart App Control builds on top of the same cloud-based AI used in Windows Defender Application Control (WDAC) to predict the safety of an application, so people can be confident they're using safe and reliable applications on their new Windows 11 devices, or Windows 11 devices that have been reset. |
-| **[AppLocker](/windows/security/threat-protection/windows-defender-application-control/applocker/applocker-overview)** | |
| **[Windows Defender Application Control (WDAC)](/windows/security/threat-protection/windows-defender-application-control/windows-defender-application-control)** | Your organization is only as secure as the applications that run on your devices. With application control, apps must earn trust to run, in contrast to an application trust model where all code is assumed trustworthy. By helping prevent unwanted or malicious code from running, application control is an important part of an effective security strategy. Many organizations cite application control as one of the most effective means for addressing the threat of executable file-based malware.
Windows 10 and above include Windows Defender Application Control (WDAC) and AppLocker. WDAC is the next generation app control solution for Windows and provides powerful control over what runs in your environment. Customers who were using AppLocker on previous versions of Windows can continue to use the feature as they consider whether to switch to WDAC for the stronger protection. |
+| **[AppLocker](/windows/security/application-security/application-control/windows-defender-application-control/applocker/applocker-overview)** | |
| **[User Account Control (UAC)](/windows/security/application-security/application-control/user-account-control/)** | User Account Control (UAC) helps prevent malware from damaging a device. With UAC, apps and tasks always run in the security context of a non-administrator account, unless an administrator authorizes administrator-level access to the system. UAC can block the automatic installation of unauthorized apps and prevents inadvertent changes to system settings. Enabling UAC helps to prevent malware from altering device settings and potentially gaining access to networks and sensitive data. UAC can also block the automatic installation of unauthorized apps and prevent inadvertent changes to system settings. |
-| **[Microsoft vulnerable driver blocklist](/windows/security/threat-protection/windows-defender-application-control/microsoft-recommended-driver-block-rules)** | The Windows kernel is the most privileged software and is therefore a compelling target for malware authors. Since Windows has strict requirements for code running in the kernel, cybercriminals commonly exploit vulnerabilities in kernel drivers to get access. Microsoft works with the ecosystem partners to constantly identify and respond to potentially vulnerable kernel drivers.
Prior to Windows 11, version 22H2, the operating system enforced a block policy when HVCI is enabled to prevent vulnerable versions of drivers from running. Starting in Windows 11, version 22H2, the block policy is enabled by default for all new Windows devices, and users can opt-in to enforce the policy from the Windows Security app. |
+| **[Microsoft vulnerable driver blocklist](/windows/security/application-security/application-control/windows-defender-application-control/design/microsoft-recommended-driver-block-rules)** | The Windows kernel is the most privileged software and is therefore a compelling target for malware authors. Since Windows has strict requirements for code running in the kernel, cybercriminals commonly exploit vulnerabilities in kernel drivers to get access. Microsoft works with the ecosystem partners to constantly identify and respond to potentially vulnerable kernel drivers.
Prior to Windows 11, version 22H2, the operating system enforced a block policy when HVCI is enabled to prevent vulnerable versions of drivers from running. Starting in Windows 11, version 22H2, the block policy is enabled by default for all new Windows devices, and users can opt-in to enforce the policy from the Windows Security app. |
## Application isolation
| Feature name | Description |
|:---|:---|
-| **[Microsoft Defender Application Guard (MDAG) for Edge standalone mode](/windows/security/threat-protection/microsoft-defender-application-guard/md-app-guard-overview)** | Standalone mode allows Windows users to use hardware-isolated browsing sessions without any administrator or management policy configuration. In this mode, user must manually start Microsoft Edge in Application Guard from Edge menu for browsing untrusted sites. |
-| **[Microsoft Defender Application Guard (MDAG) for Edge enterprise mode and enterprise management](/windows/security/threat-protection/microsoft-defender-application-guard/configure-md-app-guard)** | Microsoft Defender Application Guard protects users' desktop while they browse the Internet using Microsoft Edge browser. Application Guard in enterprise mode automatically redirects untrusted website navigation in an anonymous and isolated Hyper-V based container, which is separate from the host operating system. With Enterprise mode, you can define your corporate boundaries by explicitly adding trusted domains and can customizing the Application Guard experience to meet and enforce your organization needs on Windows devices. |
+| **[Microsoft Defender Application Guard (MDAG) for Edge standalone mode](/windows/security/application-security/application-isolation/microsoft-defender-application-guard/md-app-guard-overview)** | Standalone mode allows Windows users to use hardware-isolated browsing sessions without any administrator or management policy configuration. In this mode, user must manually start Microsoft Edge in Application Guard from Edge menu for browsing untrusted sites. |
+| **[Microsoft Defender Application Guard (MDAG) for Edge enterprise mode and enterprise management](/windows/security/application-security/application-isolation/microsoft-defender-application-guard/configure-md-app-guard)** | Microsoft Defender Application Guard protects users' desktop while they browse the Internet using Microsoft Edge browser. Application Guard in enterprise mode automatically redirects untrusted website navigation in an anonymous and isolated Hyper-V based container, which is separate from the host operating system. With Enterprise mode, you can define your corporate boundaries by explicitly adding trusted domains and can customizing the Application Guard experience to meet and enforce your organization needs on Windows devices. |
| **Microsoft Defender Application Guard (MDAG) public APIs** | Enable applications using them to be isolated Hyper-V based container, which is separate from the host operating system. |
| **[Microsoft Defender Application Guard (MDAG) for Microsoft Office](https://support.microsoft.com/office/application-guard-for-office-9e0fb9c2-ffad-43bf-8ba3-78f785fdba46)** | Application Guard protects Office files including Word, PowerPoint, and Excel. Application icons have a small shield if Application Guard has been enabled and they are under protection. |
| **[Microsoft Defender Application Guard (MDAG) configure via MDM](/windows/client-management/mdm/windowsdefenderapplicationguard-csp)** | The WindowsDefenderApplicationGuard configuration service provider (CSP) is used by the enterprise to configure the settings in Microsoft Defender Application Guard. |
diff --git a/windows/security/includes/sections/cloud-services.md b/windows/security/includes/sections/cloud-services.md
index 07fc5b88b5..4e338bf4cd 100644
--- a/windows/security/includes/sections/cloud-services.md
+++ b/windows/security/includes/sections/cloud-services.md
@@ -1,7 +1,7 @@
---
author: paolomatarazzo
ms.author: paoloma
-ms.date: 08/02/2023
+ms.date: 09/18/2023
ms.topic: include
---
@@ -9,10 +9,10 @@ ms.topic: include
| Feature name | Description |
|:---|:---|
-| **[Azure AD join, Active Directory domain join, and Hybrid Azure AD join with single sign-on (SSO)](/azure/active-directory/devices/concept-azure-ad-join)** | Microsoft Azure Active Directory is a comprehensive cloud-based identity management solution that helps enable secure access to applications, networks, and other resources and guard against threats. |
-| **[Security baselines](/windows/security/threat-protection/windows-security-configuration-framework/windows-security-baselines)** | Windows 11 supports modern device management so that IT pros can manage company security policies and business applications without compromising user privacy on corporate or employee-owned devices. With MDM solutions, IT can manage Windows 11 using industry-standard protocols. To simplify setup for users, management features are built directly into Windows, eliminating the need for a separate MDM client.
Windows 11 can be configured with Microsoft's MDM security baseline backed by ADMX policies, which functions like the Microsoft GP-based security baseline. The security baseline enables IT administrators to easily address security concerns and compliance needs for modern cloud-managed devices. |
+| **[Active Directory domain join, Microsoft Entra join, and Microsoft Entra Hybrid join with single sign-on (SSO)](/azure/active-directory/devices/concept-directory-join)** | Microsoft Entra ID is a comprehensive cloud-based identity management solution that helps enable secure access to applications, networks, and other resources and guard against threats. |
+| **[Security baselines](/windows/security/operating-system-security/device-management/windows-security-configuration-framework/windows-security-baselines)** | Windows 11 supports modern device management so that IT pros can manage company security policies and business applications without compromising user privacy on corporate or employee-owned devices. With MDM solutions, IT can manage Windows 11 using industry-standard protocols. To simplify setup for users, management features are built directly into Windows, eliminating the need for a separate MDM client.
Windows 11 can be configured with Microsoft's MDM security baseline backed by ADMX policies, which functions like the Microsoft GP-based security baseline. The security baseline enables IT administrators to easily address security concerns and compliance needs for modern cloud-managed devices. |
| **[Remote wipe](/windows/client-management/mdm/remotewipe-csp)** | When a device is lost or stolen, IT administrators may want to remotely wipe data stored on the device. A helpdesk agent may also want to reset devices to fix issues encountered by remote workers.
With the Remote Wipe configuration service provider (CSP), an MDM solution can remotely initiate any of the following operations on a Windows device: reset the device and remove user accounts and data, reset the device and clean the drive, reset the device but persist user accounts and data. |
| **[Modern device management through (MDM)](/windows/client-management/mdm-overview)** | Windows 11 supports modern device management through mobile device management (MDM) protocols.
IT pros can manage company security policies and business applications without compromising user privacy on corporate or employee-owned devices. With MDM solutions, IT can manage Windows 11 using industry-standard protocols.
To simplify setup for users, management features are built directly into Windows, eliminating the need for a separate MDM client. |
| **[Universal Print](/universal-print/)** | Unlike traditional print solutions that rely on Windows print servers, Universal Print is a Microsoft hosted cloud subscription service that supports a zero-trust security model by enabling network isolation of printers, including the Universal Print connector software, from the rest of the organization's resources. |
| **[Windows Autopatch](/windows/deployment/windows-autopatch/)** | With the Autopatch service, IT teams can delegate management of updates to Windows 10/11, Microsoft Edge, and Microsoft 365 apps to Microsoft. Under the hood, Autopatch takes over configuration of the policies and deployment service of Windows Update for Business. What the customer gets are endpoints that are up to date, thanks to dynamically generated rings for progressive deployment that will pause and/or roll back updates (where possible) when issues arise.
The goal is to provide peace of mind to IT pros, encourage rapid adoption of updates, and to reduce bandwidth required to deploy them successfully, thereby closing gaps in protection that may have been open to exploitation by malicious actors. |
-| **[Windows Autopilot](/windows/deployment/windows-autopilot)** | Windows Autopilot simplifies the way devices get deployed, reset, and repurposed, with an experience that is zero touch for IT. |
+| **[Windows Autopilot](/autopilot/)** | Windows Autopilot simplifies the way devices get deployed, reset, and repurposed, with an experience that is zero touch for IT. |
diff --git a/windows/security/includes/sections/hardware.md b/windows/security/includes/sections/hardware.md
index 11a4f97b60..fa6c065293 100644
--- a/windows/security/includes/sections/hardware.md
+++ b/windows/security/includes/sections/hardware.md
@@ -1,7 +1,7 @@
---
author: paolomatarazzo
ms.author: paoloma
-ms.date: 08/02/2023
+ms.date: 09/18/2023
ms.topic: include
---
@@ -20,7 +20,7 @@ ms.topic: include
| **[Virtualization-based security (VBS)](/windows-hardware/design/device-experiences/oem-vbs)** | In addition to a modern hardware root-of-trust, there are numerous other capabilities in the latest chips that harden the operating system against threats, such as by protecting the boot process, safeguarding the integrity of memory, isolating security sensitive compute logic, and more. Two examples include Virtualization-based security (VBS) and Hypervisor-protected code integrity (HVCI). Virtualization-based security (VBS), also known as core isolation, is a critical building block in a secure system. VBS uses hardware virtualization features to host a secure kernel separated from the operating system. This means that even if the operating system is compromised, the secure kernel remains protected.
Starting with Windows 10, all new devices are required to ship with firmware support for VBS and HCVI enabled by default in the BIOS. Customers can then enable the OS support in Windows.
With new installs of Windows 11, OS support for VBS and HVCI is turned on by default for all devices that meet prerequisites. |
| **[Hypervisor-protected Code Integrity (HVCI)](/windows/security/hardware-security/enable-virtualization-based-protection-of-code-integrity)** | Hypervisor-protected code integrity (HVCI), also called memory integrity, uses VBS to run Kernel Mode Code Integrity (KMCI) inside the secure VBS environment instead of the main Windows kernel. This helps to prevent attacks that attempt to modify kernel mode code, such as drivers. The KMCI role is to check that all kernel code is properly signed and hasn't been tampered with before it is allowed to run. HVCI helps to ensure that only validated code can be executed in kernel-mode.
Starting with Windows 10, all new devices are required to ship with firmware support for VBS and HCVI enabled by default in the BIOS. Customers can then enable the OS support in Windows.
With new installs of Windows 11, OS support for VBS and HVCI is turned on by default for all devices that meet prerequisites. |
| **[Hardware-enforced stack protection](https://techcommunity.microsoft.com/t5/windows-os-platform-blog/understanding-hardware-enforced-stack-protection/ba-p/1247815)** | Hardware-enforced stack protection integrates software and hardware for a modern defense against cyberthreats such as memory corruption and zero-day exploits. Based on Control-flow Enforcement Technology (CET) from Intel and AMD Shadow Stacks, hardware-enforced stack protection is designed to protect against exploit techniques that try to hijack return addresses on the stack. |
-| **[Kernel Direct Memory Access (DMA) protection](/windows/security/information-protection/kernel-dma-protection-for-thunderbolt)** | Kernel DMA Protection protects against external peripherals from gaining unauthorized access to memory. Physical threats such as drive-by Direct Memory Access (DMA) attacks typically happen quickly while the system owner isn't present. PCIe hot plug devices such as Thunderbolt, USB4, and CFexpress allow users to attach new classes of external peripherals, including graphics cards or other PCI devices, to their PCs with the plug-and-play ease of USB. Because PCI hot plug ports are external and easily accessible, devices are susceptible to drive-by DMA attacks. |
+| **[Kernel Direct Memory Access (DMA) protection](/windows/security/hardware-security/kernel-dma-protection-for-thunderbolt)** | Kernel DMA Protection protects against external peripherals from gaining unauthorized access to memory. Physical threats such as drive-by Direct Memory Access (DMA) attacks typically happen quickly while the system owner isn't present. PCIe hot plug devices such as Thunderbolt, USB4, and CFexpress allow users to attach new classes of external peripherals, including graphics cards or other PCI devices, to their PCs with the plug-and-play ease of USB. Because PCI hot plug ports are external and easily accessible, devices are susceptible to drive-by DMA attacks. |
## Secured-core PC
diff --git a/windows/security/includes/sections/identity.md b/windows/security/includes/sections/identity.md
index 191dfb47cb..9b0cd1bcd3 100644
--- a/windows/security/includes/sections/identity.md
+++ b/windows/security/includes/sections/identity.md
@@ -1,7 +1,7 @@
---
author: paolomatarazzo
ms.author: paoloma
-ms.date: 08/02/2023
+ms.date: 09/18/2023
ms.topic: include
---
@@ -9,20 +9,23 @@ ms.topic: include
| Feature name | Description |
|:---|:---|
-| **[Windows Hello for Business](/windows/security/identity-protection/hello-for-business)** | Windows 11 devices can protect user identities by removing the need to use passwords from day one. It's easy to get started with the method that's right for your organization. A password may only need to be used once during the provisioning process, after which people use a PIN, face, or fingerprint to unlock credentials and sign into the device.
Windows Hello for Business replaces the username and password by combining a security key or certificate with a PIN or biometrics data, and then mapping the credentials to a user account during setup. There are multiple ways to deploy Windows Hello for Business, depending on your organization's needs. Organizations that rely on certificates typically use on-premises public key infrastructure (PKI) to support authentication through Certificate Trust. Organizations using key trust deployment require root-of-trust provided by certificates on domain controllers. |
-| **[Windows presence sensing](https://support.microsoft.com/windows/wake-your-windows-11-pc-when-you-approach-82285c93-440c-4e15-9081-c9e38c1290bb)** | Windows presence sensing provides another layer of data security protection for hybrid workers. Windows 11 devices can intelligently adapt to your presence to help you stay secure and productive, whether you're working at home, the office, or a public environment. Windows presence sensing combines presence detection sensors with Windows Hello facial recognition to automatically lock your device when you leave, and then unlock your device and sign you in using Windows Hello facial recognition when you return. Requires OEM supporting hardware. |
+| **[Windows Hello for Business](/windows/security/identity-protection/hello-for-business/)** | Windows 11 devices can protect user identities by removing the need to use passwords from day one. It's easy to get started with the method that's right for your organization. A password may only need to be used once during the provisioning process, after which people use a PIN, face, or fingerprint to unlock credentials and sign into the device.
Windows Hello for Business replaces the username and password by combining a security key or certificate with a PIN or biometrics data, and then mapping the credentials to a user account during setup. There are multiple ways to deploy Windows Hello for Business, depending on your organization's needs. Organizations that rely on certificates typically use on-premises public key infrastructure (PKI) to support authentication through Certificate Trust. Organizations using key trust deployment require root-of-trust provided by certificates on domain controllers. |
+| **[Windows presence sensing](https://support.microsoft.com/windows/managing-presence-sensing-settings-in-windows-11-82285c93-440c-4e15-9081-c9e38c1290bb)** | Windows presence sensing provides another layer of data security protection for hybrid workers. Windows 11 devices can intelligently adapt to your presence to help you stay secure and productive, whether you're working at home, the office, or a public environment. Windows presence sensing combines presence detection sensors with Windows Hello facial recognition to automatically lock your device when you leave, and then unlock your device and sign you in using Windows Hello facial recognition when you return. Requires OEM supporting hardware. |
| **[Windows Hello for Business Enhanced Security Sign-in (ESS)](/windows-hardware/design/device-experiences/windows-hello-enhanced-sign-in-security)** | Windows Hello biometrics also supports enhanced sign-in security, which uses specialized hardware and software components to raise the security bar even higher for biometric sign in.
Enhanced sign-in security biometrics uses VBS and the TPM to isolate user authentication processes and data and secure the pathway by which the information is communicated. These specialized components protect against a class of attacks that include biometric sample injection, replay, tampering, and more.
For example, fingerprint readers must implement Secure Device Connection Protocol, which uses key negotiation and a Microsoft-issued certificate to protect and securely store user authentication data. For facial recognition, components such as the Secure Devices (SDEV) table and process isolation with trustlets help prevent additional class of attacks. |
-| **[Fast Identity Online (FIDO2) security key](/azure/active-directory/authentication/howto-authentication-passwordless-security-key)** | Fast Identity Online (FIDO) defined CTAP and WebAuthN specifications are becoming the open standard for providing strong authentication that is non-phishable, user-friendly, and privacy-respecting with implementations from major platform providers and relying parties. FIDO standards and certifications are becoming recognized as the leading standard for creating secure authentication solutions across enterprises, governments, and consumer markets.
Windows 11 can use external FIDO2 security keys for authentication alongside or in addition to Windows Hello which is also a FIDO2 certified passwordless solution. Windows 11 can be used as a FIDO authenticator for many popular identity management services. |
-| **[Federated sign-in](/education/windows/federated-sign-in)** | Windows 11 Education editions support federated sign-in with third-party identity providers. Federated sign-in enables secure sign in through methods like QR codes or pictures. |
+| **[Windows passwordless experience](/windows/security/identity-protection/passwordless-experience)** | Windows passwordless experience is a security policy that aims to create a more user-friendly experience for Microsoft Entra joined devices by eliminating the need for passwords in certain authentication scenarios. By enabling this policy, users will not be given the option to use a password in these scenarios, which helps organizations transition away from passwords over time. |
+| **[Passkeys](/windows/security/identity-protection/passkey)** | Passkeys provide a more secure and convenient method to logging into websites and applications compared to passwords. Unlike passwords, which users must remember and type, passkeys are stored as secrets on a device and can use a device's unlock mechanism (such as biometrics or a PIN). Passkeys can be used without the need for other sign in challenges, making the authentication process faster, secure, and more convenient. |
+| **[FIDO2 security key](/azure/active-directory/authentication/howto-authentication-passwordless-security-key)** | Fast Identity Online (FIDO) defined CTAP and WebAuthN specifications are becoming the open standard for providing strong authentication that is non-phishable, user-friendly, and privacy-respecting with implementations from major platform providers and relying parties. FIDO standards and certifications are becoming recognized as the leading standard for creating secure authentication solutions across enterprises, governments, and consumer markets.
Windows 11 can use external FIDO2 security keys for authentication alongside or in addition to Windows Hello which is also a FIDO2 certified passwordless solution. Windows 11 can be used as a FIDO authenticator for many popular identity management services. |
| **[Smart Cards for Windows Service](/windows/security/identity-protection/smart-cards/smart-card-smart-cards-for-windows-service)** | Organizations also have the option of using smart cards, an authentication method that pre-dates biometric sign in. Smart cards are tamper-resistant, portable storage devices that can enhance Windows security when authenticating clients, signing code, securing e-mail, and signing in with Windows domain accounts. Smart cards can only be used to sign into domain accounts, not local accounts. When a password is used to sign into a domain account, Windows uses the Kerberos version 5 (v5) protocol for authentication. If you use a smart card, the operating system uses Kerberos v5 authentication with X.509 v3 certificates. |
## Advanced credential protection
| Feature name | Description |
|:---|:---|
-| **[Windows LAPS](/windows-server/identity/laps/laps-overview)** | Windows Local Administrator Password Solution (Windows LAPS) is a Windows feature that automatically manages and backs up the password of a local administrator account on your Azure Active Directory-joined or Windows Server Active Directory-joined devices. You also can use Windows LAPS to automatically manage and back up the Directory Services Restore Mode (DSRM) account password on your Windows Server Active Directory domain controllers. An authorized administrator can retrieve the DSRM password and use it. |
+| **[Web sign-in](/windows/security/identity-protection/web-sign-in)** | Web sign-in is a credential provider initially introduced in Windows 10 with support for Temporary Access Pass (TAP) only. With the release of Windows 11, the supported scenarios and capabilities of Web sign-in have been expanded. For example, users can sign-in to Windows using the Microsoft Authenticator app or with a federated identity. |
+| **[Federated sign-in](/education/windows/federated-sign-in)** | Windows 11 Education editions support federated sign-in with third-party identity providers. Federated sign-in enables secure sign in through methods like QR codes or pictures. |
+| **[Windows LAPS](/windows-server/identity/laps/laps-overview)** | Windows Local Administrator Password Solution (Windows LAPS) is a Windows feature that automatically manages and backs up the password of a local administrator account on your Microsoft Entra ID-joined or Windows Server Active Directory-joined devices. You also can use Windows LAPS to automatically manage and back up the Directory Services Restore Mode (DSRM) account password on your Windows Server Active Directory domain controllers. An authorized administrator can retrieve the DSRM password and use it. |
| **[Account Lockout Policy](/windows/security/threat-protection/security-policy-settings/account-lockout-policy)** | Account Lockout Policy settings control the response threshold for failed logon attempts and the actions to be taken after the threshold is reached. |
-| **[Enhanced phishing protection with SmartScreen](/windows/security/threat-protection/microsoft-defender-smartscreen/phishing-protection-microsoft-defender-smartscreen)** | Users who are still using passwords can benefit from powerful credential protection. Microsoft Defender SmartScreen includes enhanced phishing protection to automatically detect when a user enters their Microsoft password into any app or website. Windows then identifies if the app or site is securely authenticating to Microsoft and warns if the credentials are at risk. Since users are alerted at the moment of potential credential theft, they can take preemptive action before their password is used against them or their organization. |
+| **[Enhanced phishing protection with SmartScreen](/windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/enhanced-phishing-protection)** | Users who are still using passwords can benefit from powerful credential protection. Microsoft Defender SmartScreen includes enhanced phishing protection to automatically detect when a user enters their Microsoft password into any app or website. Windows then identifies if the app or site is securely authenticating to Microsoft and warns if the credentials are at risk. Since users are alerted at the moment of potential credential theft, they can take preemptive action before their password is used against them or their organization. |
| **[Access Control (ACL/SACL)](/windows/security/identity-protection/access-control/access-control)** | Access control in Windows ensures that shared resources are available to users and groups other than the resource's owner and are protected from unauthorized use. IT administrators can manage users', groups', and computers' access to objects and assets on a network or computer. After a user is authenticated, the Windows operating system implements the second phase of protecting resources by using built-in authorization and access control technologies to determine if an authenticated user has the correct permissions.
Access Control Lists (ACL) describe the permissions for a specific object and can also contain System Access Control Lists (SACL). SACLs provide a way to audit specific system level events, such as when a user attempt to access file system objects. These events are essential for tracking activity for objects that are sensitive or valuable and require extra monitoring. Being able to audit when a resource attempts to read or write part of the operating system is critical to understanding a potential attack. |
-| **[Credential Guard](/windows/security/identity-protection/credential-guard)** | Credential Guard uses hardware-backed, Virtualization-based security (VBS) to protect against credential theft. With Credential Guard, the Local Security Authority (LSA) stores and protects secrets in an isolated environment that isn't accessible to the rest of the operating system. LSA uses remote procedure calls to communicate with the isolated LSA process.
By protecting the LSA process with Virtualization-based security, Credential Guard shields systems from credential theft attack techniques like pass-the-hash or pass-the-ticket. It also helps prevent malware from accessing system secrets even if the process is running with admin privileges. |
+| **[Credential Guard](/windows/security/identity-protection/credential-guard/)** | Enabled by default in Windows 11 Enterprise, Credential Guard uses hardware-backed, Virtualization-based security (VBS) to protect against credential theft. With Credential Guard, the Local Security Authority (LSA) stores and protects secrets in an isolated environment that isn't accessible to the rest of the operating system. LSA uses remote procedure calls to communicate with the isolated LSA process.
By protecting the LSA process with Virtualization-based security, Credential Guard shields systems from credential theft attack techniques like pass-the-hash or pass-the-ticket. It also helps prevent malware from accessing system secrets even if the process is running with admin privileges. |
| **[Remote Credential Guard](/windows/security/identity-protection/remote-credential-guard)** | Remote Credential Guard helps you protect your credentials over a Remote Desktop connection by redirecting the Kerberos requests back to the device that is requesting the connection. It also provides single sign-on experiences for Remote Desktop sessions.
Administrator credentials are highly privileged and must be protected. When you use Remote Credential Guard to connect during Remote Desktop sessions, your credential and credential derivatives are never passed over the network to the target device. If the target device is compromised, your credentials aren't exposed. |
diff --git a/windows/security/includes/sections/operating-system-security.md b/windows/security/includes/sections/operating-system-security.md
index 3a748fac25..4a4ee4acf2 100644
--- a/windows/security/includes/sections/operating-system-security.md
+++ b/windows/security/includes/sections/operating-system-security.md
@@ -1,7 +1,7 @@
---
author: paolomatarazzo
ms.author: paoloma
-ms.date: 08/02/2023
+ms.date: 09/18/2023
ms.topic: include
---
@@ -9,10 +9,11 @@ ms.topic: include
| Feature name | Description |
|:---|:---|
-| **[Secure Boot and Trusted Boot](/windows/security/trusted-boot)** | Secure Boot and Trusted Boot help to prevent malware and corrupted components from loading when a device starts.
Secure Boot starts with initial boot-up protection, and then Trusted Boot picks up the process. Together, Secure Boot and Trusted Boot help to ensure the system boots up safely and securely. |
+| **[Secure Boot and Trusted Boot](/windows/security/operating-system-security/system-security/trusted-boot)** | Secure Boot and Trusted Boot help to prevent malware and corrupted components from loading when a device starts.
Secure Boot starts with initial boot-up protection, and then Trusted Boot picks up the process. Together, Secure Boot and Trusted Boot help to ensure the system boots up safely and securely. |
| **[Measured boot](/windows/compatibility/measured-boot)** | Measured Boot measures all important code and configuration settings during the boot of Windows. This includes: the firmware, boot manager, hypervisor, kernel, secure kernel and operating system. Measured Boot stores the measurements in the TPM on the machine, and makes them available in a log that can be tested remotely to verify the boot state of the client.
The Measured Boot feature provides antimalware software with a trusted (resistant to spoofing and tampering) log of all boot components that started before it. The antimalware software can use the log to determine whether components that ran before it are trustworthy, or if they are infected with malware. The antimalware software on the local machine can send the log to a remote server for evaluation. The remote server may initiate remediation actions, either by interacting with software on the client, or through out-of-band mechanisms, as appropriate. |
-| **[Device health attestation service](/windows/security/threat-protection/protect-high-value-assets-by-controlling-the-health-of-windows-10-based-devices)** | The Windows device health attestation process supports a zero-trust paradigm that shifts the focus from static, network-based perimeters, to users, assets, and resources. The attestation process confirms the device, firmware, and boot process are in a good state and have not been tampered with before they can access corporate resources. The determinations are made with data stored in the TPM, which provides a secure root of trust. The information is sent to an attestation service, such as Azure Attestation, to verify the device is in a trusted state. Then, an MDM tool like Microsoft Intune reviews device health and connects this information with Azure Active Directory for conditional access. |
+| **[Device health attestation service](/windows/security/operating-system-security/system-security/protect-high-value-assets-by-controlling-the-health-of-windows-10-based-devices)** | The Windows device health attestation process supports a zero-trust paradigm that shifts the focus from static, network-based perimeters, to users, assets, and resources. The attestation process confirms the device, firmware, and boot process are in a good state and have not been tampered with before they can access corporate resources. The determinations are made with data stored in the TPM, which provides a secure root of trust. The information is sent to an attestation service, such as Azure Attestation, to verify the device is in a trusted state. Then, an MDM tool like Microsoft Intune reviews device health and connects this information with Microsoft Entra ID for conditional access. |
| **[Windows security policy settings and auditing](/windows/security/threat-protection/security-policy-settings/security-policy-settings)** | Microsoft provides a robust set of security settings policies that IT administrators can use to protect Windows devices and other resources in their organization. |
+| **[Assigned Access (kiosk mode)](/windows/configuration/kiosk-methods)** | Some desktop devices in an enterprise serve a special purpose. For example, a PC in the lobby that customers use to see your product catalog. Or, a PC displaying visual content as a digital sign. Windows client offers two different locked-down experiences for public or specialized use: A single-app kiosk that runs a single Universal Windows Platform (UWP) app in full screen above the lock screen, or A multi-app kiosk that runs one or more apps from the desktop.
Kiosk configurations are based on Assigned Access, a feature in Windows that allows an administrator to manage the user's experience by limiting the application entry points exposed to the user. |
## Virus and threat protection
@@ -24,20 +25,21 @@ ms.topic: include
| **[Tamper protection settings for MDE](/microsoft-365/security/defender-endpoint/prevent-changes-to-security-settings-with-tamper-protection)** | Tamper protection is a capability in Microsoft Defender for Endpoint that helps protect certain security settings, such as virus and threat protection, from being disabled or changed. During some kinds of cyber attacks, bad actors try to disable security features on devices. Disabling security features provides bad actors with easier access to your data, the ability to install malware, and the ability to exploit your data, identity, and devices. Tamper protection helps guard against these types of activities. |
| **[Controlled folder access](/microsoft-365/security/defender-endpoint/controlled-folders)** | You can protect your valuable information in specific folders by managing app access to specific folders. Only trusted apps can access protected folders, which are specified when controlled folder access is configured. Commonly used folders, such as those used for documents, pictures, downloads, are typically included in the list of controlled folders. Controlled folder access works with a list of trusted apps. Apps that are included in the list of trusted software work as expected. Apps that are not included in the trusted list are prevented from making any changes to files inside protected folders.
Controlled folder access helps to protect user's valuable data from malicious apps and threats, such as ransomware. |
| **[Exploit protection](/microsoft-365/security/defender-endpoint/exploit-protection)** | Exploit protection automatically applies several exploit mitigation techniques to operating system processes and apps. Exploit protection works best with Microsoft Defender for Endpoint, which gives organizations detailed reporting into exploit protection events and blocks as part of typical alert investigation scenarios. You can enable exploit protection on an individual device, and then use MDM or group policy to distribute the configuration file to multiple devices. When a mitigation is encountered on the device, a notification will be displayed from the Action Center. You can customize the notification with your company details and contact information. You can also enable the rules individually to customize which techniques the feature monitors. |
-| **[Microsoft Defender SmartScreen](/windows/security/threat-protection/microsoft-defender-smartscreen/microsoft-defender-smartscreen-overview)** | Microsoft Defender SmartScreen protects against phishing, malware websites and applications, and the downloading of potentially malicious files. For enhanced phishing protection, SmartScreen also alerts people when they are entering their credentials into a potentially risky location. IT can customize which notifications appear via MDM or group policy. The protection runs in audit mode by default, giving IT admins full control to make decisions around policy creation and enforcement. |
+| **[Microsoft Defender SmartScreen](/windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/)** | Microsoft Defender SmartScreen protects against phishing, malware websites and applications, and the downloading of potentially malicious files. For enhanced phishing protection, SmartScreen also alerts people when they are entering their credentials into a potentially risky location. IT can customize which notifications appear via MDM or group policy. The protection runs in audit mode by default, giving IT admins full control to make decisions around policy creation and enforcement. |
| **[Microsoft Defender for Endpoint](/microsoft-365/security/defender-endpoint)** | Microsoft Defender for Endpoint is an enterprise endpoint detection and response solution that helps security teams to detect, investigate, and respond to advanced threats. Organizations can use the rich event data and attack insights Defender for Endpoint provides to investigate incidents. Defender for Endpoint brings together the following elements to provide a more complete picture of security incidents: endpoint behavioral sensors, cloud security analytics, threat intelligence and rich response capabilities. |
## Network security
| Feature name | Description |
|:---|:---|
-| **[Transport layer security (TLS)](/windows-server/security/tls/tls-ssl-schannel-ssp-overview)** | Transport Layer Security (TLS) is a cryptographic protocol designed to provide communications security over a network. TLS 1.3 is the latest version of the protocol and is enabled by default in Windows 11. This version eliminates obsolete cryptographic algorithms, enhances security over older versions, and aims to encrypt as much of the TLS handshake as possible. The handshake is more performant with one fewer round trip per connection on average, and supports only five strong cipher suites which provide perfect forward secrecy and less operational risk. |
+| **[Transport Layer Security (TLS)](/windows-server/security/tls/tls-ssl-schannel-ssp-overview)** | Transport Layer Security (TLS) is a cryptographic protocol designed to provide communications security over a network. TLS 1.3 is the latest version of the protocol and is enabled by default in Windows 11. This version eliminates obsolete cryptographic algorithms, enhances security over older versions, and aims to encrypt as much of the TLS handshake as possible. The handshake is more performant with one fewer round trip per connection on average, and supports only five strong cipher suites which provide perfect forward secrecy and less operational risk. |
+| **[Domain Name System (DNS) security](/windows-server/networking/dns/doh-client-support)** | Starting in Windows 11, the Windows DNS client supports DNS over HTTPS (DoH), an encrypted DNS protocol. This allows administrators to ensure their devices protect DNS queries from on-path attackers, whether they are passive observers logging browsing behavior or active attackers trying to redirect clients to malicious sites.
In a zero-trust model where there is no trust placed in a network boundary, having a secure connection to a trusted name resolver is required. |
| **Bluetooth pairing and connection protection** | The number of Bluetooth devices connected to Windows continues to increase. Windows supports all standard Bluetooth pairing protocols, including classic and LE Secure connections, secure simple pairing, and classic and LE legacy pairing. Windows also implements host based LE privacy. Windows updates help users stay current with OS and driver security features in accordance with the Bluetooth Special Interest Group (SIG), Standard Vulnerability Reports, as well as issues beyond those required by the Bluetooth core industry standards. Microsoft strongly recommends that users ensure their firmware and/ or software of their Bluetooth accessories are kept up to date. |
| **[WiFi Security](https://support.microsoft.com/windows/faster-and-more-secure-wi-fi-in-windows-26177a28-38ed-1a8e-7eca-66f24dc63f09)** | Wi-Fi Protected Access (WPA) is a security certification programs designed to secure wireless networks. WPA3 is the latest version of the certification and provides a more secure and reliable connection method as compared to WPA2 and older security protocols. Windows supports three WPA3 modes: WPA3 personal with the Hash-to-Element (H2E) protocol, WPA3 Enterprise, and WPA3 Enterprise 192-bit Suite B.
Windows 11 also supports WFA defined WPA3 Enterprise that includes enhanced Server Cert validation and TLS 1.3 for authentication using EAP-TLS Authentication. |
| **Opportunistic Wireless Encryption (OWE)** | Opportunistic Wireless Encryption (OWE) is a technology that allows wireless devices to establish encrypted connections to public Wi-Fi hotspots. |
-| **[Windows Firewall](/windows/security/threat-protection/windows-firewall/windows-firewall-with-advanced-security)** | Windows Firewall with Advanced Securityprovides host-based, two-way network traffic filtering, blocking unauthorized traffic flowing into or out of the local device based on the types of networks to which the device is connected. Windows Firewall reduces the attack surface of a device with rules to restrict or allow traffic by many properties such as IP addresses, ports, or program paths. Reducing the attack surface of a device increases manageability and decreases the likelihood of a successful attack.
With its integration with Internet Protocol Security (IPsec), Windows Firewall provides a simple way to enforce authenticated, end-to-end network communications. It provides scalable, tiered access to trusted network resources, helping to enforce integrity of the data, and optionally helping to protect the confidentiality of the data. Windows Firewall is a host-based firewall that is included with the operating system, there is no additional hardware or software required. Windows Firewall is also designed to complement existing non-Microsoft network security solutions through a documented application programming interface (API). |
-| **[Virtual private network (VPN)](/windows/security/identity-protection/vpn/vpn-guide)** | The Windows VPN client platform includes built in VPN protocols, configuration support, a common VPN user interface, and programming support for custom VPN protocols. VPN apps are available in the Microsoft Store for both enterprise and consumer VPNs, including apps for the most popular enterprise VPN gateways.
In Windows 11, the most commonly used VPN controls are integrated right into the Quick Actions pane. From the Quick Actions pane, users can see the status of their VPN, start and stop the VPN tunnels, and access the Settings app for more controls. |
-| **[Always On VPN (device tunnel)](/windows-server/remote/remote-access/vpn/always-on-vpn/)** | With Always On VPN, you can create a dedicated VPN profile for the device. Unlike User Tunnel, which only connects after a user logs on to the device, Device Tunnel allows the VPN to establish connectivity before a user sign-in. Both Device Tunnel and User Tunnel operate independently with their VPN profiles, can be connected at the same time, and can use different authentication methods and other VPN configuration settings as appropriate. |
+| **[Windows Firewall](/windows/security/operating-system-security/network-security/windows-firewall/windows-firewall-with-advanced-security)** | Windows Firewall with Advanced Securityprovides host-based, two-way network traffic filtering, blocking unauthorized traffic flowing into or out of the local device based on the types of networks to which the device is connected. Windows Firewall reduces the attack surface of a device with rules to restrict or allow traffic by many properties such as IP addresses, ports, or program paths. Reducing the attack surface of a device increases manageability and decreases the likelihood of a successful attack.
With its integration with Internet Protocol Security (IPsec), Windows Firewall provides a simple way to enforce authenticated, end-to-end network communications. It provides scalable, tiered access to trusted network resources, helping to enforce integrity of the data, and optionally helping to protect the confidentiality of the data. Windows Firewall is a host-based firewall that is included with the operating system, there is no additional hardware or software required. Windows Firewall is also designed to complement existing non-Microsoft network security solutions through a documented application programming interface (API). |
+| **[Virtual private network (VPN)](/windows/security/operating-system-security/network-security/vpn/vpn-guide)** | The Windows VPN client platform includes built in VPN protocols, configuration support, a common VPN user interface, and programming support for custom VPN protocols. VPN apps are available in the Microsoft Store for both enterprise and consumer VPNs, including apps for the most popular enterprise VPN gateways.
In Windows 11, the most commonly used VPN controls are integrated right into the Quick Actions pane. From the Quick Actions pane, users can see the status of their VPN, start and stop the VPN tunnels, and access the Settings app for more controls. |
+| **[Always On VPN (device tunnel)](/Windows-server/remote/remote-access/overview-always-on-vpn)** | With Always On VPN, you can create a dedicated VPN profile for the device. Unlike User Tunnel, which only connects after a user logs on to the device, Device Tunnel allows the VPN to establish connectivity before a user sign-in. Both Device Tunnel and User Tunnel operate independently with their VPN profiles, can be connected at the same time, and can use different authentication methods and other VPN configuration settings as appropriate. |
| **[Direct Access](/windows-server/remote/remote-access/directaccess/directaccess)** | DirectAccess allows connectivity for remote users to organization network resources without the need for traditional Virtual Private Network (VPN) connections.
With DirectAccess connections, remote devices are always connected to the organization and there's no need for remote users to start and stop connections. |
| **[Server Message Block (SMB) file service](/windows-server/storage/file-server/file-server-smb-overview)** | SMB Encryption provides end-to-end encryption of SMB data and protects data from eavesdropping occurrences on internal networks. In Windows 11, the SMB protocol has significant security updates, including AES-256 bits encryption, accelerated SMB signing, Remote Directory Memory Access (RDMA) network encryption, and SMB over QUIC for untrusted networks. Windows 11 introduces AES-256-GCM and AES-256-CCM cryptographic suites for SMB 3.1.1 encryption. Windows administrators can mandate the use of more advanced security or continue to use the more compatible, and still-safe, AES-128 encryption. |
| **[Server Message Block Direct (SMB Direct)](/windows-server/storage/file-server/smb-direct)** | SMB Direct (SMB over remote direct memory access) is a storage protocol that enables direct memory-to-memory data transfers between device and storage, with minimal CPU usage, while using standard RDMA-capable network adapters.
SMB Direct supports encryption, and now you can operate with the same safety as traditional TCP and the performance of RDMA. Previously, enabling SMB encryption disabled direct data placement, making RDMA as slow as TCP. Now data is encrypted before placement, leading to relatively minor performance degradation while adding AES-128 and AES-256 protected packet privacy. |
@@ -46,8 +48,8 @@ ms.topic: include
| Feature name | Description |
|:---|:---|
-| **[BitLocker management](/windows/security/information-protection/bitlocker/bitlocker-management-for-enterprises)** | The BitLocker CSP allows an MDM solution, like Microsoft Intune, to manage the BitLocker encryption features on Windows devices. This includes OS volumes, fixed drives and removeable storage, and recovery key management into Azure AD. |
-| **[BitLocker enablement](/windows/security/information-protection/bitlocker/bitlocker-overview)** | BitLocker Drive Encryption is a data protection feature that integrates with the operating system and addresses the threats of data theft or exposure from lost, stolen, or inappropriately decommissioned computers. BitLocker uses AES algorithm in XTS or CBC mode of operation with 128-bit or 256-bit key length to encrypt data on the volume. Cloud storage on Microsoft OneDrive or Azure can be used to save recovery key content. BitLocker can be managed by any MDM solution such as Microsoft Intune, using a configuration service provider (CSP).
BitLocker provides encryption for the OS, fixed data, and removable data drives leveraging technologies like hardware security test interface (HSTI), Modern Standby, UEFI Secure Boot and TPM. |
-| **[Encrypted hard drive](/windows/security/information-protection/encrypted-hard-drive)** | Encrypted hard drives are a class of hard drives that are self-encrypted at the hardware level and allow for full disk hardware encryption while being transparent to the device user. These drives combine the security and management benefits provided by BitLocker Drive Encryption with the power of self-encrypting drives.
By offloading the cryptographic operations to hardware, encrypted hard drives increase BitLocker performance and reduce CPU usage and power consumption. Because encrypted hard drives encrypt data quickly, BitLocker deployment can be expanded across enterprise devices with little to no impact on productivity. |
-| **[Personal data encryption (PDE)](/windows/security/information-protection/personal-data-encryption/overview-pde)** | Personal data encryption (PDE) works with BitLocker and Windows Hello for Business to further protect user documents and other files, including when the device is turned on and locked. Files are encrypted automatically and seamlessly to give users more security without interrupting their workflow.
Windows Hello for Business is used to protect the container which houses the encryption keys used by PDE. When the user signs in, the container gets authenticated to release the keys in the container to decrypt user content. |
-| **[Email Encryption (S/MIME)](/windows/security/identity-protection/configure-s-mime)** | Email encryption enables users to encrypt outgoing email messages and attachments, so only intended recipients with a digital ID (certificate) can read them. Users can digitally sign a message, which verifies the identity of the sender and confirms the message has not been tampered with. The encrypted messages can be sent by a user to other users within their organization or external contacts if they have proper encryption certificates. |
+| **[BitLocker management](/windows/security/operating-system-security/data-protection/bitlocker/bitlocker-management-for-enterprises)** | The BitLocker CSP allows an MDM solution, like Microsoft Intune, to manage the BitLocker encryption features on Windows devices. This includes OS volumes, fixed drives and removeable storage, and recovery key management into Microsoft Entra ID. |
+| **[BitLocker enablement](/windows/security/operating-system-security/data-protection/bitlocker/)** | BitLocker Drive Encryption is a data protection feature that integrates with the operating system and addresses the threats of data theft or exposure from lost, stolen, or inappropriately decommissioned computers. BitLocker uses AES algorithm in XTS or CBC mode of operation with 128-bit or 256-bit key length to encrypt data on the volume. Cloud storage on Microsoft OneDrive or Azure can be used to save recovery key content. BitLocker can be managed by any MDM solution such as Microsoft Intune, using a configuration service provider (CSP).
BitLocker provides encryption for the OS, fixed data, and removable data drives leveraging technologies like hardware security test interface (HSTI), Modern Standby, UEFI Secure Boot and TPM. |
+| **[Encrypted hard drive](/windows/security/operating-system-security/data-protection/encrypted-hard-drive)** | Encrypted hard drives are a class of hard drives that are self-encrypted at the hardware level and allow for full disk hardware encryption while being transparent to the device user. These drives combine the security and management benefits provided by BitLocker Drive Encryption with the power of self-encrypting drives.
By offloading the cryptographic operations to hardware, encrypted hard drives increase BitLocker performance and reduce CPU usage and power consumption. Because encrypted hard drives encrypt data quickly, BitLocker deployment can be expanded across enterprise devices with little to no impact on productivity. |
+| **[Personal data encryption (PDE)](/windows/security/operating-system-security/data-protection/personal-data-encryption/)** | Personal data encryption (PDE) works with BitLocker and Windows Hello for Business to further protect user documents and other files, including when the device is turned on and locked. Files are encrypted automatically and seamlessly to give users more security without interrupting their workflow.
Windows Hello for Business is used to protect the container which houses the encryption keys used by PDE. When the user signs in, the container gets authenticated to release the keys in the container to decrypt user content. |
+| **[Email Encryption (S/MIME)](/windows/security/operating-system-security/data-protection/configure-s-mime)** | Email encryption enables users to encrypt outgoing email messages and attachments, so only intended recipients with a digital ID (certificate) can read them. Users can digitally sign a message, which verifies the identity of the sender and confirms the message has not been tampered with. The encrypted messages can be sent by a user to other users within their organization or external contacts if they have proper encryption certificates. |
diff --git a/windows/security/includes/sections/security-foundations.md b/windows/security/includes/sections/security-foundations.md
index 61eb75d6e8..7a85af0543 100644
--- a/windows/security/includes/sections/security-foundations.md
+++ b/windows/security/includes/sections/security-foundations.md
@@ -1,7 +1,7 @@
---
author: paolomatarazzo
ms.author: paoloma
-ms.date: 08/02/2023
+ms.date: 09/18/2023
ms.topic: include
---
@@ -11,14 +11,14 @@ ms.topic: include
|:---|:---|
| **[Microsoft Security Development Lifecycle (SDL)](/windows/security/security-foundations/msft-security-dev-lifecycle)** | The Microsoft Security Development Lifecycle (SDL) introduces security best practices, tools, and processes throughout all phases of engineering and development. |
| **[OneFuzz service](https://www.microsoft.com/security/blog/2020/09/15/microsoft-onefuzz-framework-open-source-developer-tool-fix-bugs/)** | A range of tools and techniques - such as threat modeling, static analysis, fuzz testing, and code quality checks - enable continued security value to be embedded into Windows by every engineer on the team from day one. Through the SDL practices, Microsoft engineers are continuously provided with actionable and up-to-date methods to improve development workflows and overall product security before the code has been released. |
-| **[Microsoft Windows Insider Preview bounty program](https://www.microsoft.com/msrc/bounty-windows-insider-preview)** | As part of our secure development process, the Microsoft Windows Insider Preview bounty program invites eligible researchers across the globe to find and submit vulnerabilities that reproduce in the latest Windows Insider Preview (WIP) Dev Channel. The goal of the Windows Insider Preview bounty program is to uncover significant vulnerabilities that have a direct and demonstrable impact on the security of customers using the latest version of Windows.
Through this collaboration with researchers across the globe, our teams identify critical vulnerabilities that were not previously found during development and quickly fix the issues before releasing the final Windows. |
+| **[Microsoft Windows Insider Preview bounty program](https://www.microsoft.com/msrc/bounty-windows-insider-preview)** | As part of our secure development process, the Microsoft Windows Insider Preview bounty program invites eligible researchers across the globe to find and submit vulnerabilities that reproduce in the latest Windows Insider Preview (WIP) Dev Channel. The goal of the Windows Insider Preview bounty program is to uncover significant vulnerabilities that have a direct and demonstrable impact on the security of customers using the latest version of Windows.
Through this collaboration with researchers across the globe, our teams identify critical vulnerabilities that were not previously found during development and quicky fix the issues before releasing the final Windows. |
## Certification
| Feature name | Description |
|:---|:---|
-| **[Common Criteria certifications](/windows/security/threat-protection/windows-platform-common-criteria)** | Common Criteria (CC) is an international standard currently maintained by national governments who participate in the Common Criteria Recognition Arrangement. CC defines a common taxonomy for security functional requirements, security assurance requirements, and an evaluation methodology used to ensure products undergoing evaluation satisfy the functional and assurance requirements. Microsoft ensures that products incorporate the features and functions required by relevant Common Criteria Protection Profiles and completes Common Criteria certifications of Microsoft Windows products. |
-| **[Federal Information Processing Standard (FIPS) 140 validation](/windows/security/threat-protection/fips-140-validation)** | The Federal Information Processing Standard (FIPS) Publication 140 is a U.S. government standard that defines the minimum security requirements for cryptographic modules in IT products. Microsoft maintains an active commitment to meeting the requirements of the FIPS 140 standard, having validated cryptographic modules against FIPS 140-2 since it was first established in 2001. Multiple Microsoft products, including Windows 11, Windows 10, Windows Server, and many cloud services, use these cryptographic modules. |
+| **[Common Criteria certifications](/windows/security/security-foundations/certification/windows-platform-common-criteria)** | Common Criteria (CC) is an international standard currently maintained by national governments who participate in the Common Criteria Recognition Arrangement. CC defines a common taxonomy for security functional requirements, security assurance requirements, and an evaluation methodology used to ensure products undergoing evaluation satisfy the functional and assurance requirements. Microsoft ensures that products incorporate the features and functions required by relevant Common Criteria Protection Profiles and completes Common Criteria certifications of Microsoft Windows products. |
+| **[Federal Information Processing Standard (FIPS) 140 validation](/windows/security/security-foundations/certification/fips-140-validation)** | The Federal Information Processing Standard (FIPS) Publication 140 is a U.S. government standard that defines the minimum security requirements for cryptographic modules in IT products. Microsoft maintains an active commitment to meeting the requirements of the FIPS 140 standard, having validated cryptographic modules against FIPS 140-2 since it was first established in 2001. Multiple Microsoft products, including Windows 11, Windows 10, Windows Server, and many cloud services, use these cryptographic modules. |
## Secure supply chain
@@ -26,4 +26,4 @@ ms.topic: include
|:---|:---|
| **Software Bill of Materials (SBOM)** | SBOMs are leveraged to provide the transparency and provenance of the content as it moves through various stages of the Windows supply chain. This enables trust between each supply chain segment, ensures that tampering has not taken place during ingestion and along the way, and provides a provable chain of custody for the product that we ship to customers. |
| **[Azure Code Signing](/windows/security/application-security/application-control/windows-defender-application-control/deployment/use-code-signing-for-better-control-and-protection)** | Windows Defender Application Control (WDAC) enables customers to define policies for controlling what is allowed to run on their devices. WDAC policies can be remotely applied to devices using an MDM solution like Microsoft Intune.
To simplify WDAC enablement, organizations can take advantage of Azure Code Signing, a secure and fully managed service for signing WDAC policies and apps.
Azure Code Signing minimizes the complexity of code signing with a turnkey service backed by a Microsoft managed certificate authority, eliminating the need to procure and self-manage any signing certificates. The service is managed just as any other Azure resource and integrates easily with the leading development and CI/CD toolsets. |
-| **[Windows application software development kit (SDK)](https://developer.microsoft.com/windows/downloads/windows-sdk/)** | Developers have an opportunity to design highly secure applications that benefit from the latest Windows safeguards. The Windows App SDK provides a unified set of APIs and tools for developing secure desktop apps for Windows. To help create apps that are up-to-date and protected, the SDK follows the same security standards, protocols, and compliance as the core Windows operating system. |
+| **[Windows application software development kit (SDK)](https://developer.microsoft.com/windows/downloads/windows-sdk/)** | Developers have an opportunity to design highly secure applications that benefit from the latest Windows safeguards. The Windows App SDK provides a unified set of APIs and tools for developing secure desktop apps for Windows. To help create apps that are up-to-date and protected, the SDK follows the same security standards, protocols, and compliance as the core Windows operating system. |
diff --git a/windows/security/index.yml b/windows/security/index.yml
index 963c96d66e..6fb18874c8 100644
--- a/windows/security/index.yml
+++ b/windows/security/index.yml
@@ -14,7 +14,7 @@ metadata:
author: paolomatarazzo
ms.author: paoloma
manager: aaroncz
- ms.date: 08/11/2023
+ ms.date: 09/18/2023
highlightedContent:
items:
@@ -73,14 +73,14 @@ productDirectory:
links:
- url: /windows/security/identity-protection/hello-for-business
text: Windows Hello for Business
- - url: /windows/security/identity-protection/credential-guard
- text: Credential Guard
- - url: /windows-server/identity/laps/laps-overview
- text: Windows LAPS (Local Administrator Password Solution)
+ - url: /windows/security/identity-protection/passwordless-experience
+ text: Windows passwordless experience
+ - url: /windows/security/identity-protection/web-sign-in
+ text: Web sign-in for Windows
+ - url: /windows/security/identity-protection/passkey
+ text: Support for passkeys in Windows
- url: /windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/enhanced-phishing-protection
text: Enhanced phishing protection with SmartScreen
- - url: /education/windows/federated-sign-in
- text: Federated sign-in (EDU)
- url: /windows/security/identity-protection
text: Learn more about identity protection >
diff --git a/windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/enhanced-phishing-protection.md b/windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/enhanced-phishing-protection.md
index a16db47b99..38961897cb 100644
--- a/windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/enhanced-phishing-protection.md
+++ b/windows/security/operating-system-security/virus-and-threat-protection/microsoft-defender-smartscreen/enhanced-phishing-protection.md
@@ -1,7 +1,7 @@
---
title: Enhanced Phishing Protection in Microsoft Defender SmartScreen
description: Learn how Enhanced Phishing Protection for Microsoft Defender SmartScreen helps protect Microsoft school or work passwords against phishing and unsafe usage on sites and apps.
-ms.date: 08/11/2023
+ms.date: 09/25/2023
ms.topic: conceptual
appliesto:
- ✅ Windows 11, version 22H2
@@ -13,9 +13,10 @@ Starting in Windows 11, version 22H2, Enhanced Phishing Protection in Microsoft
If a user signs into Windows using a password, Enhanced Phishing Protection works alongside Windows security protections, and helps protect typed work or school password used to sign into Windows 11 in these ways:
-- If users type their work or school password on any Chromium browser, into a site deemed malicious by Microsoft Defender SmartScreen, Enhanced Phishing Protection alerts them. It also alerts them to change their password so attackers can't gain access to their account.
+- If users type or paste their work or school password on any browser, into a site deemed malicious by Microsoft Defender SmartScreen, Enhanced Phishing Protection alerts them. It also alerts them to change their password so attackers can't gain access to their account.
- Reusing work or school passwords makes it easy for attackers who compromise a user's password to gain access to their other accounts. Enhanced Phishing Protection can warn users if they reuse their work or school Microsoft account password on sites and apps and alert them to change their password.
- Since it's unsafe to store plaintext passwords in text editors, Enhanced Phishing Protection can warn users if they store their work or school password in Notepad, Word, or any Microsoft 365 Office app, and recommends they delete their password from the file.
+- If users type their work or school password into a website or app that SmartScreen finds suspicious, Enhanced Phishing Protection can automatically collect information from that website or app to help identify security threats. For example, the content displayed, sounds played, and application memory.
> [!NOTE]
> When a user signs-in to a device using a Windows Hello for Business PIN or biometric, Enhanced Phishing Protection does not alert the user or send events to Microsoft Defender for Endpoint.
@@ -68,10 +69,11 @@ Enhanced Phishing Protection can be configured using the [WebThreatDefense CSP][
| Setting | OMA-URI | Data type |
|-------------------------|---------------------------------------------------------------------------|-----------|
-| **ServiceEnabled** | `./Device/Vendor/MSFT/Policy/Config/WebThreatDefense/ServiceEnabled` | Integer |
+| **AutomaticDataCollection** | `./Device/Vendor/MSFT/Policy/Config/WebThreatDefense/AutomaticDataCollection` | Integer |
| **NotifyMalicious** | `./Device/Vendor/MSFT/Policy/Config/WebThreatDefense/NotifyMalicious` | Integer |
| **NotifyPasswordReuse** | `./Device/Vendor/MSFT/Policy/Config/WebThreatDefense/NotifyPasswordReuse` | Integer |
| **NotifyUnsafeApp** | `./Device/Vendor/MSFT/Policy/Config/WebThreatDefense/NotifyUnsafeApp` | Integer |
+| **ServiceEnabled** | `./Device/Vendor/MSFT/Policy/Config/WebThreatDefense/ServiceEnabled` | Integer |
---
@@ -80,7 +82,6 @@ Enhanced Phishing Protection can be configured using the [WebThreatDefense CSP][
By default, Enhanced Phishing Protection is deployed in audit mode, preventing notifications to the users for any protection scenarios. In audit mode, Enhanced Phishing Protection captures unsafe password entry events and sends diagnostic data through Microsoft Defender. Users aren't warned if they enter their work or school password into a phishing site, if they reuse their password, or if they unsafely store their password in applications. Because of this possibility, it's recommended that you configure Enhanced Phishing Protection to warn users during all protection scenarios.
To better help you protect your organization, we recommend turning on and using these specific Microsoft Defender SmartScreen settings.
-
#### [:::image type="icon" source="images/icons/intune.svg"::: **Intune**](#tab/intune)
|Settings catalog element|Recommendation|
@@ -108,15 +109,19 @@ To better help you protect your organization, we recommend turning on and using
|NotifyPasswordReuse|**1**: Turns on Enhanced Phishing Protection notifications when users reuse their work or school password and encourages them to change their password.|
|NotifyUnsafeApp|**1**: Turns on Enhanced Phishing Protection notifications when users type their work or school passwords in Notepad and Microsoft 365 Office Apps.|
+
---
## Related articles
-- [SmartScreen Frequently Asked Questions](https://fb.smartscreen.microsoft.com/smartscreenfaq.aspx)
+- [SmartScreen frequently asked questions](https://fb.smartscreen.microsoft.com/smartscreenfaq.aspx)
- [WebThreatDefense CSP][WIN-1]
- [Threat protection](index.md)
[WIN-1]: /windows/client-management/mdm/policy-csp-webthreatdefense
+
[MEM-2]: /mem/intune/configuration/settings-catalog
+
+
diff --git a/windows/security/threat-protection/security-policy-settings/security-options.md b/windows/security/threat-protection/security-policy-settings/security-options.md
index a53ae544d8..39d6b0489e 100644
--- a/windows/security/threat-protection/security-policy-settings/security-options.md
+++ b/windows/security/threat-protection/security-policy-settings/security-options.md
@@ -108,7 +108,7 @@ For info about setting security policies, see [Configure security policy setting
| [Network security: Restrict NTLM: Outgoing NTLM traffic to remote servers](network-security-restrict-ntlm-outgoing-ntlm-traffic-to-remote-servers.md)| Describes the best practices, location, values, management aspects, and security considerations for the **Network Security: Restrict NTLM: Outgoing NTLM traffic to remote servers** security policy setting. |
| [Recovery console: Allow automatic administrative logon](recovery-console-allow-automatic-administrative-logon.md)| Describes the best practices, location, values, policy management, and security considerations for the **Recovery console: Allow automatic administrative logon** security policy setting. |
| [Recovery console: Allow floppy copy and access to all drives and folders](recovery-console-allow-floppy-copy-and-access-to-all-drives-and-folders.md)| Describes the best practices, location, values, policy management, and security considerations for the **Recovery console: Allow floppy copy and access to all drives and folders** security policy setting. |
-| [Shutdown: Allow system to be shut down without having to lg on](shutdown-allow-system-to-be-shut-down-without-having-to-log-on.md)| Describes the best practices, location, values, policy management, and security considerations for the **Shutdown: Allow system to be shut down without having to log on** security policy setting. |
+| [Shutdown: Allow system to be shut down without having to log on](shutdown-allow-system-to-be-shut-down-without-having-to-log-on.md)| Describes the best practices, location, values, policy management, and security considerations for the **Shutdown: Allow system to be shut down without having to log on** security policy setting. |
| [Shutdown: Clear virtual memory pagefile](shutdown-clear-virtual-memory-pagefile.md)| Describes the best practices, location, values, policy management, and security considerations for the **Shutdown: Clear virtual memory pagefile** security policy setting.|
| [System cryptography: Force strong key protection for user keys stored on the computer](system-cryptography-force-strong-key-protection-for-user-keys-stored-on-the-computer.md)| Describes the best practices, location, values, policy management, and security considerations for the **System cryptography: Force strong key protection for user keys stored on the computer** security policy setting. |
| [System cryptography: Use FIPS compliant algorithms for encryption, hashing, and signing](system-cryptography-use-fips-compliant-algorithms-for-encryption-hashing-and-signing.md)| This security policy reference topic for the IT professional describes the best practices, location, values, policy management, and security considerations for this policy setting. |
diff --git a/windows/whats-new/TOC.yml b/windows/whats-new/TOC.yml
index 2e144448b8..2bd556b46f 100644
--- a/windows/whats-new/TOC.yml
+++ b/windows/whats-new/TOC.yml
@@ -11,7 +11,7 @@
href: windows-11-plan.md
- name: Prepare for Windows 11
href: windows-11-prepare.md
- - name: Windows 11 temporary enterprise feature control
+ - name: Windows 11 enterprise feature control
href: temporary-enterprise-feature-control.md
- name: What's new in Windows 11, version 22H2
href: whats-new-windows-11-version-22h2.md
diff --git a/windows/whats-new/temporary-enterprise-feature-control.md b/windows/whats-new/temporary-enterprise-feature-control.md
index b20be1c0ab..b23fb660b3 100644
--- a/windows/whats-new/temporary-enterprise-feature-control.md
+++ b/windows/whats-new/temporary-enterprise-feature-control.md
@@ -1,6 +1,6 @@
---
-title: Temporary enterprise feature control in Windows 11
-description: Learn about the Windows 11 features behind temporary enterprise feature control.
+title: Enterprise feature control in Windows 11
+description: Learn about the Windows 11 features behind temporary enterprise feature control and permanent feature control.
ms.prod: windows-client
ms.technology: itpro-fundamentals
ms.author: mstewart
@@ -8,7 +8,7 @@ author: mestew
manager: aaroncz
ms.localizationpriority: medium
ms.topic: reference
-ms.date: 05/19/2023
+ms.date: 09/26/2023
ms.collection:
- highpri
- tier2
@@ -16,21 +16,20 @@ appliesto:
- ✅ Windows 11, version 22H2 and later
---
-# Temporary enterprise feature control in Windows 11
+# Enterprise feature control in Windows 11
-New features and enhancements are introduced through the monthly cumulative update to provide continuous innovation for Windows 11. To give organizations time to plan and prepare, some of these new features are temporarily turned off by default. Features that are turned off by default are listed in the KB article for the monthly cumulative update. Typically, a feature is selected to be off by default because it either impacts the user experience or IT administrators significantly.
+New features and enhancements are introduced through the monthly cumulative update to provide continuous innovation for Windows 11. To give organizations time to plan and prepare, some of these new features might be:
+
+- Temporarily turned off by default using [temporary enterprise feature control](#temporary-enterprise-feature-control)
+- Controlled by a policy that allows for [permanent enterprise feature control](#permanent-enterprise-feature-control)
+
+Features that are turned off by default are listed in the KB article for the monthly cumulative update. Typically, a feature is selected to be off by default because it either impacts the user experience or IT administrators significantly. For example, a feature might be turned off by default if it requires a change in user behavior or if it requires IT administrators to take action before the feature can be used.
+
+## Temporary enterprise feature control
Features behind temporary enterprise control are automatically disabled for devices that have their Windows updates managed by policies.
-## Windows 11 features behind temporary enterprise feature control
-
-The following features are behind temporary enterprise control in Windows 11:
-
-| Feature | KB article where the feature was introduced | Feature update that ends temporary control |
-|---|---|---|
-| Touch-optimized taskbar for 2-in-1 devices | [February 28, 2023 - KB5022913](https://support.microsoft.com/topic/february-28-2023-kb5022913-os-build-22621-1344-preview-3e38c0d9-924d-4f3f-b0b6-3bd49b2657b9) | 2023 annual feature update |
-
-## Enable features behind temporary enterprise feature control
+### Enable features behind temporary enterprise feature control
Features that are behind temporary enterprise control will be enabled when one of the following conditions is met:
@@ -38,7 +37,7 @@ Features that are behind temporary enterprise control will be enabled when one o
- The device receives a policy that enables features behind temporary enterprise control
- When the policy is enabled, all features on the device behind temporary control are turned on when the device next restarts.
-## Policy settings for temporary enterprise feature control
+### Policy settings for temporary enterprise feature control
You can use a policy to enable features that are behind temporary enterprise feature control. When this policy is enabled, all features that were disabled behind temporary enterprise feature control are turned on when the device next reboots. The following polices apply to Windows 11, version 22H2 with [KB5022845](https://support.microsoft.com/en-us/topic/february-14-2023-kb5022845-os-build-22621-1265-90a807f4-d2e8-486e-8a43-d09e66319f38) and later:
@@ -46,3 +45,33 @@ You can use a policy to enable features that are behind temporary enterprise fea
- **CSP**: ./Device/Vendor/MSFT/Policy/Config/Update/[AllowTemporaryEnterpriseFeatureControl](/windows/client-management/mdm/policy-csp-update?toc=/windows/deployment/toc.json&bc=/windows/deployment/breadcrumb/toc.json#allowtemporaryenterprisefeaturecontrol)
- In the Intune [settings catalog](/mem/intune/configuration/settings-catalog), this setting is named **Allow Temporary Enterprise Feature Control** under the **Windows Update for Business** category.
+
+### Windows 11 features behind temporary enterprise feature control
+
+The following features are behind temporary enterprise control in Windows 11:
+
+| Feature | KB article where the feature was introduced | Feature update that ends temporary control | Notes |
+|---|---|---|---|
+| Touch-optimized taskbar for 2-in-1 devices | [February 28, 2023 - KB5022913](https://support.microsoft.com/topic/february-28-2023-kb5022913-os-build-22621-1344-preview-3e38c0d9-924d-4f3f-b0b6-3bd49b2657b9) | 2023 annual feature update | |
+| Selecting **Uninstall** for a Win32 app from the right-click menu uses the **Installed Apps** page in **Settings** rather than **Programs and Features** under the **Control Panel** | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | 2023 annual feature update | |
+| Windows Spotlight provides a minimized experience, opportunities to learn more about each image, and allows users to preview images at full screen.| [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | 2023 annual feature update | This feature also has a permanent control: **CSP**: ./User/Vendor/MSFT/Policy/Config/Experience/[AllowWindowsSpotlight](/windows/client-management/mdm/policy-csp-experience#allowwindowsspotlight) **Group Policy**: User Configuration\Administrative Templates\Windows Components\Cloud Content\\**Turn off all Windows spotlight features**| |
+| Copilot in Windows | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | 2023 annual feature update | This feature has a permanent control. For more information, see the [Windows 11 features with permanent enterprise feature control](#windows-11-features-with-permanent-enterprise-feature-control) section|
+| Dev Home | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | 2023 annual feature update | `Get-AppxPackage -Name Microsoft.Windows.DevHome` |
+|Dev Drive | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | 2023 annual feature update | This feature has multiple permanent controls. For more information, see the [Windows 11 features with permanent enterprise feature control](#windows-11-features-with-permanent-enterprise-feature-control) section |
+
+## Permanent enterprise feature control
+
+New features and enhancements used to be introduced only in feature updates. However, with continuous innovation for Windows 11, new features are introduced more frequently through the monthly cumulative update. Some new features can be controlled through policies that enable you to configure them for your organization. When a feature can be controlled by a policy, it has permanent enterprise feature control.
+
+### Windows 11 features with permanent enterprise feature control
+
+The following features introduced through the monthly cumulative updates allow permanent enterprise feature control:
+
+| Feature | KB article where the feature was introduced | Feature enabled by default | CSP and Group Policy |
+|---|---|---|---|
+| Configure search on the taskbar | [February 28, 2023 - KB5022913](https://support.microsoft.com/topic/february-28-2023-kb5022913-os-build-22621-1344-preview-3e38c0d9-924d-4f3f-b0b6-3bd49b2657b9)| Yes | **CSP**: ./Device/Vendor/MSFT/Policy/Config/Search/[ConfigureSearchOnTaskbarMode](/windows/client-management/mdm/policy-csp-search#configuresearchontaskbarmode) **Group Policy**: Computer Configuration\Administrative Templates\Windows Components\Search\\**Configures search on the taskbar**|
+| The **Recommended** section of the **Start Menu** displays personalized website recommendations |[September 2023 - KB5030310](https://support.microsoft.com/kb/5030310)| No |**CSP**: ./Device/Vendor/MSFT/Policy/Config/Start/[HideRecoPersonalizedSites](/windows/client-management/mdm/policy-csp-start) **Group Policy**: Computer Configuration\Administrative Templates\Start Menu and Taskbar\\**Remove Personalized Website Recommendations from the Recommended section in the Start Menu**|
+| **Recommended** section added to File Explorer Home for users signed into Windows with an Azure AD account. | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | Yes | **CSP**:./Device/Vendor/MSFT/Policy/Config/FileExplorer/[DisableGraphRecentItems](/windows/client-management/mdm/policy-csp-fileexplorer#disablegraphrecentitems) **Group Policy**: Computer Configuration\Administrative Templates\Windows Components\File Explorer\\**Turn off files from Office.com in Quick Access View** **Note**: This control disables additional items beyond the **Recommended** items. Review the policy before implementing this control. |
+| Transfer files to another PC using WiFi direct|[September 2023 - KB5030310](https://support.microsoft.com/kb/5030310)|Yes|**CSP**: ./Device/Vendor/MSFT/Policy/Config/Wifi/[AllowWiFiDirect](/windows/client-management/mdm/policy-csp-wifi#allowwifidirect)|
+| Copilot in Windows | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | Yes |**CSP**: ./User/Vendor/MSFT/WindowsAI/[TurnOffWindowsCopilot](/windows/client-management/mdm/policy-csp-windowsai#turnoffwindowscopilot) **Group Policy**: User Configuration\Administrative Templates\Windows Components\Windows Copilot\\**Turn off Windows Copilot**|
+|Dev Drive | [September 2023 - KB5030310](https://support.microsoft.com/kb/5030310) | Yes |**CSPs**: - ./Device/Vendor/MSFT/Policy/Config/FileSystem/[EnableDevDrive](/windows/client-management/mdm/policy-csp-filesystem#enableeeverive) - ./Device/Vendor/MSFT/Policy/Config/FileSystem/[DevDriveAttachPolicy](/windows/client-management/mdm/policy-csp-filesystem#devdriveattachpolicy) **Group Policies**: - Computer Configuration\Administrative Templates\System\FileSystem\\**Enable dev drive** - Computer Configuration\Administrative Templates\System\FileSystem\\**Dev drive filter attach policy**|