last sync: 2024-Nov-25 18:54:24 UTC

App Service apps should require FTPS only

Azure BuiltIn Policy definition

Source Azure Portal
Display name App Service apps should require FTPS only
Id 4d24b6d4-5e53-4a4f-a7f4-618fa573ee4b
Version 3.0.0
Details on versioning
Versioning Versions supported for Versioning: 1
3.0.0
Built-in Versioning [Preview]
Category App Service
Microsoft Learn
Description Enable FTPS enforcement for enhanced security.
Mode Indexed
Type BuiltIn
Preview False
Deprecated False
Effect Default
AuditIfNotExists
Allowed
AuditIfNotExists, Disabled
RBAC role(s) none
Rule aliases THEN-ExistenceCondition (1)
Alias Namespace ResourceType Path PathIsDefault DefaultPath Modifiable
Microsoft.Web/sites/config/ftpsState Microsoft.Web sites/config properties.ftpsState True True
Rule resource types IF (1)
Microsoft.Web/sites
Compliance
The following 32 compliance controls are associated with this Policy definition 'App Service apps should require FTPS only' (4d24b6d4-5e53-4a4f-a7f4-618fa573ee4b)
Control Domain Control Name MetadataId Category Title Owner Requirements Description Info Policy#
Azure_Security_Benchmark_v1.0 4.4 Azure_Security_Benchmark_v1.0_4.4 Azure Security Benchmark 4.4 Data Protection Encrypt all sensitive information in transit Shared Encrypt all sensitive information in transit. Ensure that any clients connecting to your Azure resources are able to negotiate TLS 1.2 or greater. Follow Azure Security Center recommendations for encryption at rest and encryption in transit, where applicable. Understand encryption in transit with Azure: https://docs.microsoft.com/azure/security/fundamentals/encryption-overview#encryption-of-data-in-transit n/a link 10
Azure_Security_Benchmark_v2.0 DP-4 Azure_Security_Benchmark_v2.0_DP-4 Azure Security Benchmark DP-4 Data Protection Encrypt sensitive information in transit Shared To complement access controls, data in transit should be protected against ‘out of band’ attacks (e.g. traffic capture) using encryption to ensure that attackers cannot easily read or modify the data. While this is optional for traffic on private networks, this is critical for traffic on external and public networks. For HTTP traffic, ensure that any clients connecting to your Azure resources can negotiate TLS v1.2 or greater. For remote management, use SSH (for Linux) or RDP/TLS (for Windows) instead of an unencrypted protocol. Obsoleted SSL, TLS, and SSH versions and protocols, and weak ciphers should be disabled. By default, Azure provides encryption for data in transit between Azure data centers. Understand encryption in transit with Azure: https://docs.microsoft.com/azure/security/fundamentals/encryption-overview#encryption-of-data-in-transit Information on TLS Security: https://docs.microsoft.com/security/engineering/solving-tls1-problem Double encryption for Azure data in transit: https://docs.microsoft.com/azure/security/fundamentals/double-encryption#data-in-transit n/a link 12
Azure_Security_Benchmark_v3.0 DP-3 Azure_Security_Benchmark_v3.0_DP-3 Microsoft cloud security benchmark DP-3 Data Protection Encrypt sensitive data in transit Shared **Security Principle:** Protect the data in transit against 'out of band' attacks (such as traffic capture) using encryption to ensure that attackers cannot easily read or modify the data. Set the network boundary and service scope where data in transit encryption is mandatory inside and outside of the network. While this is optional for traffic on private networks, this is critical for traffic on external and public networks. **Azure Guidance:** Enforce secure transfer in services such as Azure Storage, where a native data in transit encryption feature is built in. Enforce HTTPS for workload web application and services by ensuring that any clients connecting to your Azure resources use transportation layer security (TLS) v1.2 or later. For remote management of VMs, use SSH (for Linux) or RDP/TLS (for Windows) instead of an unencrypted protocol. Note: Data in transit encryption is enabled for all Azure traffic traveling between Azure datacenters. TLS v1.2 or later is enabled on most Azure PaaS services by default. **Implementation and additional context:** Double encryption for Azure data in transit: https://docs.microsoft.com/azure/security/fundamentals/double-encryption#data-in-transit Understand encryption in transit with Azure: https://docs.microsoft.com/azure/security/fundamentals/encryption-overview#encryption-of-data-in-transit Information on TLS Security: https://docs.microsoft.com/security/engineering/solving-tls1-problem Enforce secure transfer in Azure storage: https://docs.microsoft.com/azure/storage/common/storage-require-secure-transfer?toc=/azure/storage/blobs/toc.json#require-secure-transfer-for-a-new-storage-account n/a link 15
CIS_Azure_1.3.0 9.10 CIS_Azure_1.3.0_9.10 CIS Microsoft Azure Foundations Benchmark recommendation 9.10 9 AppService Ensure FTP deployments are disabled Shared The customer is responsible for implementing this recommendation. By default, Azure Functions, Web and API Services can be deployed over FTP. If FTP is required for an essential deployment workflow, FTPS should be required for FTP login for all App Service Apps and Functions. link 5
CIS_Azure_1.4.0 9.10 CIS_Azure_1.4.0_9.10 CIS Microsoft Azure Foundations Benchmark recommendation 9.10 9 AppService Ensure FTP deployments are Disabled Shared The customer is responsible for implementing this recommendation. By default, Azure Functions, Web and API Services can be deployed over FTP. If FTP is required for an essential deployment workflow, FTPS should be required for FTP login for all App Service Apps and Functions. link 5
CIS_Azure_2.0.0 9.10 CIS_Azure_2.0.0_9.10 CIS Microsoft Azure Foundations Benchmark recommendation 9.10 9 Ensure FTP deployments are Disabled Shared Any deployment workflows that rely on FTP or FTPs rather than the WebDeploy or HTTPs endpoints may be affected. By default, Azure Functions, Web, and API Services can be deployed over FTP. If FTP is required for an essential deployment workflow, FTPS should be required for FTP login for all App Service Apps and Functions. Azure FTP deployment endpoints are public. An attacker listening to traffic on a wifi network used by a remote employee or a corporate network could see login traffic in clear-text which would then grant them full control of the code base of the app or service. This finding is more severe if User Credentials for deployment are set at the subscription level rather than using the default Application Credentials which are unique per App. link 5
CMMC_2.0_L2 SC.L2-3.13.8 CMMC_2.0_L2_SC.L2-3.13.8 404 not found n/a n/a 16
FedRAMP_High_R4 SC-8 FedRAMP_High_R4_SC-8 FedRAMP High SC-8 System And Communications Protection Transmission Confidentiality And Integrity Shared n/a The information system protects the [Selection (one or more): confidentiality; integrity] of transmitted information. Supplemental Guidance: This control applies to both internal and external networks and all types of information system components from which information can be transmitted (e.g., servers, mobile devices, notebook computers, printers, copiers, scanners, facsimile machines). Communication paths outside the physical protection of a controlled boundary are exposed to the possibility of interception and modification. Protecting the confidentiality and/or integrity of organizational information can be accomplished by physical means (e.g., by employing physical distribution systems) or by logical means (e.g., employing encryption techniques). Organizations relying on commercial providers offering transmission services as commodity services rather than as fully dedicated services (i.e., services which can be highly specialized to individual customer needs), may find it difficult to obtain the necessary assurances regarding the implementation of needed security controls for transmission confidentiality/integrity. In such situations, organizations determine what types of confidentiality/integrity services are available in standard, commercial telecommunication service packages. If it is infeasible or impractical to obtain the necessary security controls and assurances of control effectiveness through appropriate contracting vehicles, organizations implement appropriate compensating security controls or explicitly accept the additional risk. Related controls: AC-17, PE-4. References: FIPS Publications 140-2, 197; NIST Special Publications 800-52, 800-77, 800-81, 800-113; CNSS Policy 15; NSTISSI No. 7003. link 15
FedRAMP_High_R4 SC-8(1) FedRAMP_High_R4_SC-8(1) FedRAMP High SC-8 (1) System And Communications Protection Cryptographic Or Alternate Physical Protection Shared n/a The information system implements cryptographic mechanisms to [Selection (one or more): prevent unauthorized disclosure of information; detect changes to information] during transmission unless otherwise protected by [Assignment: organization-defined alternative physical safeguards]. Supplemental Guidance: Encrypting information for transmission protects information from unauthorized disclosure and modification. Cryptographic mechanisms implemented to protect information integrity include, for example, cryptographic hash functions which have common application in digital signatures, checksums, and message authentication codes. Alternative physical security safeguards include, for example, protected distribution systems. Related control: SC-13. link 14
FedRAMP_Moderate_R4 SC-8 FedRAMP_Moderate_R4_SC-8 FedRAMP Moderate SC-8 System And Communications Protection Transmission Confidentiality And Integrity Shared n/a The information system protects the [Selection (one or more): confidentiality; integrity] of transmitted information. Supplemental Guidance: This control applies to both internal and external networks and all types of information system components from which information can be transmitted (e.g., servers, mobile devices, notebook computers, printers, copiers, scanners, facsimile machines). Communication paths outside the physical protection of a controlled boundary are exposed to the possibility of interception and modification. Protecting the confidentiality and/or integrity of organizational information can be accomplished by physical means (e.g., by employing physical distribution systems) or by logical means (e.g., employing encryption techniques). Organizations relying on commercial providers offering transmission services as commodity services rather than as fully dedicated services (i.e., services which can be highly specialized to individual customer needs), may find it difficult to obtain the necessary assurances regarding the implementation of needed security controls for transmission confidentiality/integrity. In such situations, organizations determine what types of confidentiality/integrity services are available in standard, commercial telecommunication service packages. If it is infeasible or impractical to obtain the necessary security controls and assurances of control effectiveness through appropriate contracting vehicles, organizations implement appropriate compensating security controls or explicitly accept the additional risk. Related controls: AC-17, PE-4. References: FIPS Publications 140-2, 197; NIST Special Publications 800-52, 800-77, 800-81, 800-113; CNSS Policy 15; NSTISSI No. 7003. link 15
FedRAMP_Moderate_R4 SC-8(1) FedRAMP_Moderate_R4_SC-8(1) FedRAMP Moderate SC-8 (1) System And Communications Protection Cryptographic Or Alternate Physical Protection Shared n/a The information system implements cryptographic mechanisms to [Selection (one or more): prevent unauthorized disclosure of information; detect changes to information] during transmission unless otherwise protected by [Assignment: organization-defined alternative physical safeguards]. Supplemental Guidance: Encrypting information for transmission protects information from unauthorized disclosure and modification. Cryptographic mechanisms implemented to protect information integrity include, for example, cryptographic hash functions which have common application in digital signatures, checksums, and message authentication codes. Alternative physical security safeguards include, for example, protected distribution systems. Related control: SC-13. link 14
New_Zealand_ISM 14.5.8.C.01 New_Zealand_ISM_14.5.8.C.01 New_Zealand_ISM_14.5.8.C.01 14. Software security 14.5.8.C.01 Web applications n/a Agencies SHOULD follow the documentation provided in the Open Web Application Security Project guide to building secure Web applications and Web services. 18
NIST_SP_800-171_R2_3 .13.8 NIST_SP_800-171_R2_3.13.8 NIST SP 800-171 R2 3.13.8 System and Communications Protection Implement cryptographic mechanisms to prevent unauthorized disclosure of CUI during transmission unless otherwise protected by alternative physical safeguards. Shared Microsoft and the customer share responsibilities for implementing this requirement. This requirement applies to internal and external networks and any system components that can transmit information including servers, notebook computers, desktop computers, mobile devices, printers, copiers, scanners, and facsimile machines. Communication paths outside the physical protection of controlled boundaries are susceptible to both interception and modification. Organizations relying on commercial providers offering transmission services as commodity services rather than as fully dedicated services (i.e., services which can be highly specialized to individual customer needs), may find it difficult to obtain the necessary assurances regarding the implementation of the controls for transmission confidentiality. In such situations, organizations determine what types of confidentiality services are available in commercial telecommunication service packages. If it is infeasible or impractical to obtain the necessary safeguards and assurances of the effectiveness of the safeguards through appropriate contracting vehicles, organizations implement compensating safeguards or explicitly accept the additional risk. An example of an alternative physical safeguard is a protected distribution system (PDS) where the distribution medium is protected against electronic or physical intercept, thereby ensuring the confidentiality of the information being transmitted. See [NIST CRYPTO]. link 16
NIST_SP_800-53_R4 SC-8 NIST_SP_800-53_R4_SC-8 NIST SP 800-53 Rev. 4 SC-8 System And Communications Protection Transmission Confidentiality And Integrity Shared n/a The information system protects the [Selection (one or more): confidentiality; integrity] of transmitted information. Supplemental Guidance: This control applies to both internal and external networks and all types of information system components from which information can be transmitted (e.g., servers, mobile devices, notebook computers, printers, copiers, scanners, facsimile machines). Communication paths outside the physical protection of a controlled boundary are exposed to the possibility of interception and modification. Protecting the confidentiality and/or integrity of organizational information can be accomplished by physical means (e.g., by employing physical distribution systems) or by logical means (e.g., employing encryption techniques). Organizations relying on commercial providers offering transmission services as commodity services rather than as fully dedicated services (i.e., services which can be highly specialized to individual customer needs), may find it difficult to obtain the necessary assurances regarding the implementation of needed security controls for transmission confidentiality/integrity. In such situations, organizations determine what types of confidentiality/integrity services are available in standard, commercial telecommunication service packages. If it is infeasible or impractical to obtain the necessary security controls and assurances of control effectiveness through appropriate contracting vehicles, organizations implement appropriate compensating security controls or explicitly accept the additional risk. Related controls: AC-17, PE-4. References: FIPS Publications 140-2, 197; NIST Special Publications 800-52, 800-77, 800-81, 800-113; CNSS Policy 15; NSTISSI No. 7003. link 15
NIST_SP_800-53_R4 SC-8(1) NIST_SP_800-53_R4_SC-8(1) NIST SP 800-53 Rev. 4 SC-8 (1) System And Communications Protection Cryptographic Or Alternate Physical Protection Shared n/a The information system implements cryptographic mechanisms to [Selection (one or more): prevent unauthorized disclosure of information; detect changes to information] during transmission unless otherwise protected by [Assignment: organization-defined alternative physical safeguards]. Supplemental Guidance: Encrypting information for transmission protects information from unauthorized disclosure and modification. Cryptographic mechanisms implemented to protect information integrity include, for example, cryptographic hash functions which have common application in digital signatures, checksums, and message authentication codes. Alternative physical security safeguards include, for example, protected distribution systems. Related control: SC-13. link 14
NIST_SP_800-53_R5 SC-8 NIST_SP_800-53_R5_SC-8 NIST SP 800-53 Rev. 5 SC-8 System and Communications Protection Transmission Confidentiality and Integrity Shared n/a Protect the [Selection (OneOrMore): confidentiality;integrity] of transmitted information. link 15
NIST_SP_800-53_R5 SC-8(1) NIST_SP_800-53_R5_SC-8(1) NIST SP 800-53 Rev. 5 SC-8 (1) System and Communications Protection Cryptographic Protection Shared n/a Implement cryptographic mechanisms to [Selection (OneOrMore): prevent unauthorized disclosure of information;detect changes to information] during transmission. link 14
NL_BIO_Cloud_Theme U.05.1(2) NL_BIO_Cloud_Theme_U.05.1(2) NL_BIO_Cloud_Theme_U.05.1(2) U.05 Data protection Cryptographic measures n/a Data transport is secured with cryptography to the latest state of the art (in accordance with the Forum for Standardization), whereby the key management is carried out by the CSC itself if possible. 17
NL_BIO_Cloud_Theme U.11.1(2) NL_BIO_Cloud_Theme_U.11.1(2) NL_BIO_Cloud_Theme_U.11.1(2) U.11 Cryptoservices Policy n/a The cryptography policy includes at least the following topics: when cryptography is used; who is responsible for the implementation of cryptology; who is responsible for key management; which standards serve as a basis for cryptography and the way in which the standards of the Standardisation Forum are applied; the way in which the level of protection is determined; in the case of communication between organizations, the policy is determined among themselves. 18
NL_BIO_Cloud_Theme U.11.2(2) NL_BIO_Cloud_Theme_U.11.2(2) NL_BIO_Cloud_Theme_U.11.2(2) U.11 Cryptoservices Cryptographic measures n/a In the case of PKIoverheid certificates: apply the PKIoverheid requirements with regard to key management. In other situations: use the ISO 11770 standard for managing cryptographic keys. 18
NZ_ISM_v3.5 SS-9 NZ_ISM_v3.5_SS-9 NZISM Security Benchmark SS-9 Software security 14.5.8 Web applications Customer n/a The Open Web Application Security Project guide provides a comprehensive resource to consult when developing Web applications. link 12
NZISM_Security_Benchmark_v1.1 CR-7 NZISM_Security_Benchmark_v1.1_CR-7 NZISM Security Benchmark CR-7 Cryptography 17.4.16 Using TLS Customer Agencies SHOULD use the current version of TLS. Whilst version 1.0 of SSL was never released, version 2.0 had significant security flaws leading to the development of SSL 3.0. SSL has since been superseded by TLS with the latest version being TLS 1.3 which was released in August 2018. SSL is no longer an approved cryptographic protocol link 5
RBI_CSF_Banks_v2016 10.1 RBI_CSF_Banks_v2016_10.1 Secure Mail And Messaging Systems Secure Mail And Messaging Systems-10.1 n/a Implement secure mail and messaging systems, including those used by bank???s partners & vendors, that include measures to prevent email spoofing, identical mail domains, protection of attachments, malicious links etc 15
RBI_CSF_Banks_v2016 10.2 RBI_CSF_Banks_v2016_10.2 Secure Mail And Messaging Systems Secure Mail And Messaging Systems-10.2 n/a Document and implement emailserver specific controls 15
RBI_CSF_Banks_v2016 13.4 RBI_CSF_Banks_v2016_13.4 Advanced Real-Timethreat Defenceand Management Advanced Real-Timethreat Defenceand Management-13.4 n/a Consider implementingsecure web gateways with capability to deep scan network packets including secure (HTTPS, etc.) traffic passing through the web/internet gateway 41
RMiT_v1.0 Appendix_5.3 RMiT_v1.0_Appendix_5.3 RMiT Appendix 5.3 Control Measures on Cybersecurity Control Measures on Cybersecurity - Appendix 5.3 Customer n/a Update security standards and protocols for web services encryption regularly. Disable support of weak ciphers and protocol in web-facing applications. link 7
SOC_2 CC6.1 SOC_2_CC6.1 SOC 2 Type 2 CC6.1 Logical and Physical Access Controls Logical access security software, infrastructure, and architectures Shared The customer is responsible for implementing this recommendation. The following points of focus, specifically related to all engagements using the trust services criteria, highlight important characteristics relating to this criterion: • Identifies and Manages the Inventory of Information Assets — The entity identifies, Page 29 TSP Ref. # TRUST SERVICES CRITERIA AND POINTS OF FOCUS inventories, classifies, and manages information assets. • Restricts Logical Access — Logical access to information assets, including hardware, data (at-rest, during processing, or in transmission), software, administrative authorities, mobile devices, output, and offline system components is restricted through the use of access control software and rule sets. • Identifies and Authenticates Users — Persons, infrastructure, and software are identified and authenticated prior to accessing information assets, whether locally or remotely. • Considers Network Segmentation — Network segmentation permits unrelated portions of the entity's information system to be isolated from each other. • Manages Points of Access — Points of access by outside entities and the types of data that flow through the points of access are identified, inventoried, and managed. The types of individuals and systems using each point of access are identified, documented, and managed. • Restricts Access to Information Assets — Combinations of data classification, separate data structures, port restrictions, access protocol restrictions, user identification, and digital certificates are used to establish access-control rules for information assets. • Manages Identification and Authentication — Identification and authentication requirements are established, documented, and managed for individuals and systems accessing entity information, infrastructure, and software. • Manages Credentials for Infrastructure and Software — New internal and external infrastructure and software are registered, authorized, and documented prior to being granted access credentials and implemented on the network or access point. Credentials are removed and access is disabled when access is no longer required or the infrastructure and software are no longer in use. • Uses Encryption to Protect Data — The entity uses encryption to supplement other measures used to protect data at rest, when such protections are deemed appropriate based on assessed risk. • Protects Encryption Keys — Processes are in place to protect encryption keys during generation, storage, use, and destruction 78
SOC_2 CC6.6 SOC_2_CC6.6 SOC 2 Type 2 CC6.6 Logical and Physical Access Controls Security measures against threats outside system boundaries Shared The customer is responsible for implementing this recommendation. • Restricts Access — The types of activities that can occur through a communication channel (for example, FTP site, router port) are restricted. • Protects Identification and Authentication Credentials — Identification and authentication credentials are protected during transmission outside its system boundaries. • Requires Additional Authentication or Credentials — Additional authentication information or credentials are required when accessing the system from outside its boundaries. • Implements Boundary Protection Systems — Boundary protection systems (for example, firewalls, demilitarized zones, and intrusion detection systems) are implemented to protect external access points from attempts and unauthorized access and are monitored to detect such attempts 40
SOC_2 CC6.7 SOC_2_CC6.7 SOC 2 Type 2 CC6.7 Logical and Physical Access Controls Restrict the movement of information to authorized users Shared The customer is responsible for implementing this recommendation. • Restricts the Ability to Perform Transmission — Data loss prevention processes and technologies are used to restrict ability to authorize and execute transmission, movement, and removal of information. • Uses Encryption Technologies or Secure Communication Channels to Protect Data — Encryption technologies or secured communication channels are used to protect transmission of data and other communications beyond connectivity access points. • Protects Removal Media — Encryption technologies and physical asset protections are used for removable media (such as USB drives and backup tapes), as appropriate. • Protects Mobile Devices — Processes are in place to protect mobile devices (such as laptops, smart phones, and tablets) that serve as information assets 29
U.05.1 - Cryptographic measures U.05.1 - Cryptographic measures 404 not found n/a n/a 17
U.11.1 - Policy U.11.1 - Policy 404 not found n/a n/a 18
U.11.2 - Cryptographic measures U.11.2 - Cryptographic measures 404 not found n/a n/a 18
Initiatives usage
Initiative DisplayName Initiative Id Initiative Category State Type
[Deprecated]: Azure Security Benchmark v1 42a694ed-f65e-42b2-aa9e-8052e9740a92 Regulatory Compliance Deprecated BuiltIn
[Deprecated]: Azure Security Benchmark v2 bb522ac1-bc39-4957-b194-429bcd3bcb0b Regulatory Compliance Deprecated BuiltIn
[Deprecated]: New Zealand ISM Restricted d1a462af-7e6d-4901-98ac-61570b4ed22a Regulatory Compliance Deprecated BuiltIn
[Deprecated]: New Zealand ISM Restricted v3.5 93d2179e-3068-c82f-2428-d614ae836a04 Regulatory Compliance Deprecated BuiltIn
[Preview]: CMMC 2.0 Level 2 4e50fd13-098b-3206-61d6-d1d78205cb45 Regulatory Compliance Preview BuiltIn
[Preview]: Reserve Bank of India - IT Framework for Banks d0d5578d-cc08-2b22-31e3-f525374f235a Regulatory Compliance Preview BuiltIn
CIS Microsoft Azure Foundations Benchmark v1.3.0 612b5213-9160-4969-8578-1518bd2a000c Regulatory Compliance GA BuiltIn
CIS Microsoft Azure Foundations Benchmark v1.4.0 c3f5c4d9-9a1d-4a99-85c0-7f93e384d5c5 Regulatory Compliance GA BuiltIn
CIS Microsoft Azure Foundations Benchmark v2.0.0 06f19060-9e68-4070-92ca-f15cc126059e Regulatory Compliance GA BuiltIn
FedRAMP High d5264498-16f4-418a-b659-fa7ef418175f Regulatory Compliance GA BuiltIn
FedRAMP Moderate e95f5a9f-57ad-4d03-bb0b-b1d16db93693 Regulatory Compliance GA BuiltIn
Microsoft cloud security benchmark 1f3afdf9-d0c9-4c3d-847f-89da613e70a8 Security Center GA BuiltIn
New Zealand ISM 4f5b1359-4f8e-4d7c-9733-ea47fcde891e Regulatory Compliance GA BuiltIn
NIST SP 800-171 Rev. 2 03055927-78bd-4236-86c0-f36125a10dc9 Regulatory Compliance GA BuiltIn
NIST SP 800-53 Rev. 4 cf25b9c1-bd23-4eb6-bd2c-f4f3ac644a5f Regulatory Compliance GA BuiltIn
NIST SP 800-53 Rev. 5 179d1daa-458f-4e47-8086-2a68d0d6c38f Regulatory Compliance GA BuiltIn
NL BIO Cloud Theme 6ce73208-883e-490f-a2ac-44aac3b3687f Regulatory Compliance GA BuiltIn
NL BIO Cloud Theme V2 d8b2ffbe-c6a8-4622-965d-4ade11d1d2ee Regulatory Compliance GA BuiltIn
RMIT Malaysia 97a6d4f1-3bed-4cf4-ac5b-0e444c0408d6 Regulatory Compliance GA BuiltIn
SOC 2 Type 2 4054785f-702b-4a98-9215-009cbd58b141 Regulatory Compliance GA BuiltIn
History
Date/Time (UTC ymd) (i) Change type Change detail
2022-07-01 16:32:34 change Major (2.0.0 > 3.0.0)
2019-10-29 23:04:36 add 4d24b6d4-5e53-4a4f-a7f4-618fa573ee4b
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