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author | Jordan Augé <jordan.auge+fdio@cisco.com> | 2019-10-07 09:52:33 +0200 |
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committer | Jordan Augé <jordan.auge+fdio@cisco.com> | 2019-10-07 15:55:42 +0200 |
commit | 6b84ec54083da9911f5ad4816d0eb4f4745afad4 (patch) | |
tree | e4296ebb218fff02dc0bbea73ce1c8d12aba7bcc /ctrl/facemgr/doc/interface.md | |
parent | 85a791ac2cdd35d79c00141e748b4c68fbdafb0d (diff) |
[HICN-298] Release new hICN app for Android
Change-Id: I43adc62fadf00690b687078d739788dffdc5e566
Signed-off-by: Jordan Augé <jordan.auge+fdio@cisco.com>
Diffstat (limited to 'ctrl/facemgr/doc/interface.md')
-rw-r--r-- | ctrl/facemgr/doc/interface.md | 358 |
1 files changed, 358 insertions, 0 deletions
diff --git a/ctrl/facemgr/doc/interface.md b/ctrl/facemgr/doc/interface.md new file mode 100644 index 000000000..11c8da275 --- /dev/null +++ b/ctrl/facemgr/doc/interface.md @@ -0,0 +1,358 @@ +# Face manager : Interfaces + +## Overview + +The architecture of the face manager is built around the concept of interfaces, +which allows for a modular and extensible deployment. + +Interfaces are used to implement in isolation various sources of information +which help with the construction of faces (such as network interface and service +discovery), and with handling the heterogeneity of host platforms. + + +### Platform and supported interfaces + +Currently, Android, Linux and MacOS are supported through the following +interfaces: + +- hicn-light [Linux, Android, MacOS, iOS] + An interface to the hicn-light forwarder, and more specifically to the Face + Table and FIB data structures. This component is responsible to effectively + create, update and delete faces in the forwarder, based on the information + provided by third party interfaces, plus adding default routes for each of + the newly created face. The communication with the forwarder is based on the + hicn control library (`libhicnctrl`). + +- netlink [Linux, Android] + The default interface on Linux systems (including Android) to communicate + with the kernel and receive information from various sources, including link + and address information (both IPv4 and IPv6) about network interfaces. + +- android\_utility [Android only] + Information available through Netlink is limited with respect to cellular + interfaces. This component allows querying the Android layer through SDK + functions to get the type of a given network interface (Wired, WiFi or + Cellular). + +- bonjour [Linux, Android] + This component performs remote service discovery based on the bonjour + protocol to discover a remote hICN forwarder that might be needed to + establish overlay faces. + +- network\_framework [MacOS, iOS] + + This component uses the recommended Network framework on Apple devices, + which provided all required information to query faces in a unified API: + link and address information, interface types, and bonjour service + discovery. + + +### Architectural overview + +#### Facelets + +TODO: +- Key attributes (netdevice and protocol family) +- Facelet API + +#### Events + +TODO + +#### Facelet cache & event scheduling + +TODO: + - Facelet cache + - Joins + - How synchronization work + +### Interface API + +TODO + +## Developing a new interface + +### Dummy template + +The face manager source code includes a template that can be used as a skeleton +to develop new faces. It can be found in `src/interface/dummy/dummy.{h,c}`. Both +include guard and specific interface functions are prefixed by a (short) +identifier which acts as a namespace for interface specific code (in our case +the string 'dummy\_'). + +Registration and instanciation of the different interfaces is currently done at +compile time in the file `src/api.c`, and the appropriate hooks to use the dummy +interface are avaialble in the code between `#if 0/#endif` tags. + +#### Interface template header; configuration parameters + +All interfaces have a standard interface defined in `src/interface.{h,c}`, and +as such the header file is only used to specify the configuration parameters of +the interface, if any. + +In the template, these configuration options are empty: +``` +/* + * Configuration data + */ +typedef struct { + /* ... */ +} dummy_cfg_t; +``` + +#### Overview of the interface template + +The file starts with useful includes: +- the global include `<hicn/facemgr.h>` : this provides public facing elements + of the face manager, such the standard definition of faces (`face_t` from + `libhicnctrl`), helper classes (such as `ip_address_t` from `libhicn`), etc. +- common.h +- facelet.h : facelets are the basic unit of communication between the face +manager and the different interfaces. They are used to construct the faces +incrementally. +- interface.h : the parent class of interfaces, such as the current dummy +interface. + +Each interface can hold a pointer to an internal data structure, which is +declared as follows: +``` +/* + * Internal data + */ +typedef struct { + /* The configuration data will likely be allocated on the stack (or should + * be freed) by the caller, we recommend to make a copy of this data. + * This copy can further be altered with default values. + */ + dummy_cfg_t cfg; + + /* ... */ + + int fd; /* Sample internal data: file descriptor */ +} dummy_data_t; +``` + +We find here a copy of the configuration settings (which allows the called to +instanciate the structure on the stack), as well as a file descriptor +(assuming most interfaces will react on events on a file descriptor). + +The rest of the file consists in the implementation of the interface, in +particular the different function required by the registration of a new +interface to the system. They are grouped as part of the `interface_ops_t` data +structure declared at the end of the file: + +``` +interface\_ops\_t dummy\_ops = { + .type = "dummy", + .initialize = dummy_initialize, + .finalize = dummy_finalize, + .callback = dummy_callback, + .on_event = dummy_on_event, +}; +``` + +The structure itself is declared and documented in `src/interface.h` +``` +/** + * \brief Interface operations + */ +typedef struct { + /** The type given to the interfaces */ + char * type; + /* Constructor */ + int (*initialize)(struct interface\_s * interface, void * cfg); + /* Destructor */ + int (*finalize)(struct interface_s * interface); + /* Callback upon file descriptor event (iif previously registered) */ + int (*callback)(struct interface_s * interface); + /* Callback upon facelet events coming from the face manager */ + int (*on_event)(struct interface_s * interface, const struct facelet_s * facelet); +} interface\_ops\_t; +``` + +Such an interface has to be registered first, then one (or multiple) instance(s) +can be created (see `src/interface.c` for the function prototypes, and +`src/api.c` for their usage). + +- interface registration: + +``` +extern interface\_ops\_t dummy\_ops; + +/* [...] */ + +rc = interface\_register(&dummy\_ops); +if (rc < 0) + goto ERR_REGISTER; +``` + +- interface instanciation: + +``` +#include "interfaces/dummy/dummy.h" + +/* [...] */ + +rc = facemgr_create_interface(facemgr, "dummy0", "dummy", &facemgr->dummy); +if (rc < 0) { + ERROR("Error creating 'Dummy' interface\n"); + goto ERR_DUMMY_CREATE; +} +``` + +#### Implementation of the interface API + +We now quickly go other the different functions, but their usage will be better +understood through the hands-on example treated in the following section. + +In the template, the constructor is the most involved as it need to: + +- initialize the internal data structure: + +``` + dummy_data_t * data = malloc(sizeof(dummy_data_t)); + if (!data) + goto ERR_MALLOC; + interface->data = data; +``` + +- process configuration parameters, eventually setting some default values: + +``` + /* Use default values for unspecified configuration parameters */ + if (cfg) { + data->cfg = *(dummy_cfg_t *)cfg; + } else { + memset(&data->cfg, 0, sizeof(data->cfg)); + } +``` + +- open an eventually required file descriptor + +For the sake of simplicity, the current API only supports a single file +descriptor per-interface, and it has to be created in the constructor, and +set as the return value so as to be registered by the system, and added to the +event loop for read events. A return value of 0 means the interface does not +require any file descriptor. As usual, a negative return value indicates an +error. + +``` + data->fd = 0; + + /* ... */ + + /* + * We should return a negative value in case of error, and a positive value + * otherwise: + * - a file descriptor (>0) will be added to the event loop; or + * - 0 if we don't use any file descriptor + */ + return data->fd; +``` + +While support for multiple file descriptors might be added in the future, an +alternative short-term implementation might consider the instanciation of +multiple interface, as is done for Bonjour in the current codebase, in +`src/api.c`. + +Data reception on the file descriptor will get the callback function called, in +our case `dummy_callback`. Finally, the destructor `dummy_finalize` should close +an eventual open file descriptor. + +In order to retrieve the internal data structure, that should in particular +store such a file descriptor, all other function but the constructor can +dereference it from the interface pointer they receive as parameter: + +``` +dummy\_data\_t * data = (dummy\_data\_t*)interface->data; +``` + +#### Raising and receiving events + +An interface will receive events in the form of a facelet through the `*_on_event` +function. It can then use the facelet API we have describe above to read +information about the face. + +As this information is declared const, the interface can either create a new +facelet (identified by the same netdevice and protocol family), or eventually +clone it. + +The facelet event can then be defined and raised to the face maanger for further +processing through the following code: +``` + facelet_set_event(facelet, EVENT_TYPE_CREATE); + facelet_raise_event(facelet, interface); +``` + +Here the event is a facelet creation (`EVENT_TYPE_CREATE`). The full facelet API +and the list of possible event types is available in `src/facelet.h` + + +#### Integration in the build system + +The build system is based on CMake. Each interface should declare its source +files, private and public header files, as well as link dependencies in the +local `CMakeLists.txt` file. + +TODO: detail the structure of the file + + +### Hands-on example + +#### Overview + +In order to better illustrate the development of a new interface, we will +consider the integration of a sample server providing a signal instructing the +face manager to alternatively use either the WiFi or the LTE interface. The code +of this server is available in the folder `examples/updownsrv/`, and the +corresponding client code in `examples/updowncli`. + +Communication between client and server is done through unix sockets over an +abstract namespace (thereby not using the file system, which would cause issues +on Android). The server listens for client connections, and periodically +broadcast a binary information to all connected clients, in the form of one byte +equal to either \0 (which we might interpret as enable LTE, disable WiFi), or \1 +(enable WiFi, disable LTE). + +Our objective is to develop a new face manager interface that would listen to +such event in order to update the administrative status of the current faces. +This would thus alternatively set the different interfaces admnistratively up +and down (which takes precedence over the actual status of the interface when +the forwarder establishes the set of available next hops for a given prefix). +The actual realization of such queries will be ultimately performed by the +hicn-light interface. + +#### Sample server and client + +In the folder containing the source code of hICN, the following commands allow +to run the sample server: + +``` +cd ctrl/facemgr/examples/updownsrv +make +./updownsrv +``` + +The server should display "Waiting for clients..." + +Similar commands allow to run the sample client: +``` +cd ctrl/facemgr/examples/updowncli +make +./updowncli +``` + +The client should display "Waiting for server data...", then every couple of +seconds display either "WiFi" or "LTE". + +#### Facemanager interface + +An example illustrating how to connect to the dummy service from `updownsrv` is +provided as the `updown` interface in the facemgr source code. + +This interface periodically swaps the status of the LTE interface up and down. +It is instanciated as part of the facemgr codebase when the code is compiled +with the ``-DWITH_EXAMPLE_UPDOWN` cmake option. + + + |