1 # AGL framework overview
5 This document describes what we intend to do.
6 It may happen that our current implementation and the content of this document differ.
8 In case of differences, it is assumed that this document is right
9 and the implementation is wrong.
13 During the first works in having the security model of Tizen
14 integrated in AGL (Automotive Grade Linux) distribution, it became
15 quickly obvious that the count of components specific to Tizen
16 to integrate was huge.
18 Here is a minimal list of what was needed:
20 - platform/appfw/app-installers
21 - platform/core/security/cert-svc
22 - platform/core/appfw/ail
23 - platform/core/appfw/aul-1
24 - platform/core/appfw/libslp-db-util
25 - platform/core/appfw/pkgmgr-info
26 - platform/core/appfw/slp-pkgmgr
28 But this list isn't complete because many dependencies are hidden.
29 Those hidden dependencies are including some common libraries but also many
30 tizen specific sub-components:
35 - libtzplatform-config
40 This is an issue because AGL is not expected to be Tizen.
41 Taking it would either need to patch it for removing unwanted components or to take all of them.
43 However, a careful study of the core components of the security framework
44 of Tizen showed that their dependencies to Tizen are light (and since some
45 of our work, there is no more dependency to tizen).
46 Those components are :
49 - **security-manager**
50 - **D-Bus aware of cynara**
52 Luckily, these core security components of Tizen are provided
53 by [meta-intel-iot-security][meta-intel], a set of yocto layers.
54 These layers were created by Intel to isolate Tizen specific security
55 components from the initial port of Tizen to Yocto.
56 The 3 layers are providing components for:
58 - Implementing Smack LSM
59 - Implementing Integrity Measurement Architecture
60 - Implementing Tizen Security Framework
62 The figure below shows the history of these layers.
64 ![Security_model_history][Security_model_history]
66 We took the decision to use these security layers that provide the
67 basis of the Tizen security, the security framework.
69 For the components of the application framework, built top of
70 the security framework, instead of pulling the huge set of packages
71 from Tizen, we decided to refit it by developing a tiny set of
72 components that would implement the same behaviour but without all
73 the dependencies and with minor architectural improvements for AGL.
75 These components are :
77 - **afm-system-daemon**
80 They provides infrastructure for installing, uninstalling,
81 launching, terminating, pausing and resuming applications in
82 a multi user secure environment.
84 A third component exists in the framework, the binder **afb-daemon**.
85 The binder provides the easiest way to provide secured API for
87 Currently, the use of the binder is not absolutely mandatory.
89 This documentation explains the framework created by IoT.bzh
90 by rewriting the Tizen Application Framework.
91 Be aware of the previous foreword.
97 The figure below shows the major components of the framework
98 and their interactions going through the following scenario:
100 - APPLICATION installs an other application and then launch it.
102 ![AppFW-APP_install_sequences][AppFW-APP_install_sequences]{:: style="width:70%;"}
104 Let follow the sequence of calls:
106 1. APPLICATION calls its **binder** to install the OTHER application.
108 1. The binding **afm-main-binding** of the **binder** calls, through
109 **D-Bus** system, the system daemon to install the OTHER application.
111 1. The system **D-Bus** checks wether APPLICATION has the permission
112 or not to install applications by calling **CYNARA**.
114 1. The system **D-Bus** transmits the request to **afm-system-daemon**.
116 **afm-system-daemon** checks the application to install, its
117 signatures and rights and install it.
119 1. **afm-system-daemon** calls **SECURITY-MANAGER** for fulfilling
120 security context of the installed application.
122 1. **SECURITY-MANAGER** calls **CYNARA** to install initial permissions
125 1. APPLICATION call its binder to start the nearly installed OTHER application.
127 1. The binding **afm-main-binding** of the **binder** calls, through
128 **D-Bus** session, the user daemon to launch the OTHER application.
130 1. The session **D-Bus** checks wether APPLICATION has the permission
131 or not to start an application by calling **CYNARA**.
133 1. The session **D-Bus** transmits the request to **afm-user-daemon**.
135 1. **afm-user-daemon** checks wether APPLICATION has the permission
136 or not to start the OTHER application **CYNARA**.
138 1. **afm-user-daemon** uses **SECURITY-MANAGER** features to set
139 the security context for the OTHER application.
141 1. **afm-user-daemon** launches the OTHER application.
143 This scenario does not cover all the features of the frameworks.
144 Shortly because details will be revealed in the next chapters,
147 - ***SECURITY-MANAGER***: in charge of setting Smack contexts and rules,
148 of setting groups, and, of creating initial content of *CYNARA* rules
151 - ***CYNARA***: in charge of handling API access permissions by users and by
154 - ***D-Bus***: in charge of checking security of messaging. The usual D-Bus
155 security rules are enhanced by *CYNARA* checking rules.
157 - ***afm-system-daemon***: in charge of installing and uninstalling applications.
159 - ***afm-user-daemon***: in charge of listing applications, querying application details,
160 starting, terminating, pausing, resuming applications and their instances
161 for a given user context.
163 - ***afb-binder***: in charge of serving resources and features through an
166 - ***afm-main-binding***: This binding allows applications to use the API
167 of the AGL framework.
169 ## Links between the "Security framework" and the "Application framework"
171 The security framework refers to the security model used to ensure
172 security and to the tools that are provided for implementing that model.
174 The security model refers to how DAC (Discretionary Access Control),
175 MAC (Mandatory Access Control) and Capabilities are used by the system
176 to ensure security and privacy.
177 It also includes features of reporting using audit features and by managing
180 The application framework manages the applications:
189 The application framework uses the security model/framework
190 to ensure the security and the privacy of the applications that
193 The application framework must be compliant with the underlying
194 security model/framework.
195 But it should hide it to the applications.
197 ## The security framework
199 The implemented security model is the security model of Tizen 3.
200 This model is described [here][tizen-secu-3].
202 The security framework then comes from Tizen 3 but through
206 - **Security-Manager**
208 - **D-Bus** compliant to Cynara.
210 Two patches are applied to the security-manager.
211 The goal of these patches is to remove specific dependencies with Tizen packages that are not needed by AGL.
212 None of these patches adds or removes any behaviour.
214 **In theory, the security framework/model is an implementation details
215 that should not impact the layers above the application framework**.
217 The security framework of Tizen provides "nice lad" a valuable component to
218 scan log files and analyse auditing.
219 This component is still in development.
221 ## The application framework
223 The application framework on top of the security framework
224 provides the components to install and uninstall applications
225 and to run it in a secured environment.
227 The goal is to manage applications and to hide the details of
228 the security framework to the applications.
230 For the reasons explained in introduction, we did not used the
231 application framework of Tizen as is but used an adaptation of it.
233 The basis is kept identical:
235 - The applications are distributed in a digitally signed container that must
236 match the specifications of widgets (web applications).
238 This is described by the technical recommendations [widgets] and
239 [widgets-digsig] of the W3 consortium.
243 - The distribution of HTML, QML and binary applications.
244 - The management of signatures of the widget packages.
246 This basis is not meant as being rigid and it can be extended in the
247 future to include for example incremental delivery.
249 [meta-intel]: https://github.com/01org/meta-intel-iot-security "A collection of layers providing security technologies"
250 [widgets]: http://www.w3.org/TR/widgets "Packaged Web Apps"
251 [widgets-digsig]: http://www.w3.org/TR/widgets-digsig "XML Digital Signatures for Widgets"
252 [libxml2]: http://xmlsoft.org/html/index.html "libxml2"
253 [openssl]: https://www.openssl.org "OpenSSL"
254 [xmlsec]: https://www.aleksey.com/xmlsec "XMLSec"
255 [json-c]: https://github.com/json-c/json-c "JSON-c"
256 [d-bus]: http://www.freedesktop.org/wiki/Software/dbus "D-Bus"
257 [libzip]: http://www.nih.at/libzip "libzip"
258 [cmake]: https://cmake.org "CMake"
259 [security-manager]: https://wiki.tizen.org/wiki/Security/Tizen_3.X_Security_Manager "Security-Manager"
260 [app-manifest]: http://www.w3.org/TR/appmanifest "Web App Manifest"
261 [tizen-security]: https://wiki.tizen.org/wiki/Security "Tizen security home page"
262 [tizen-secu-3]: https://wiki.tizen.org/wiki/Security/Tizen_3.X_Overview "Tizen 3 security overview"
263 [AppFW-APP_install_sequences]: pictures/AppFW-APP_install_sequences.svg
264 [Security_model_history]: pictures/Security_model_history.svg