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+HOWTO WRITE a PLUGIN for AFB-DAEMON
+===================================
+ version: 1
+ Date: 27 mai 2016
+ Author: José Bollo
+
+TABLE-OF-CONTENT-HERE
+
+Summary
+-------
+
+The binder afb-daemon serves files through
+the HTTP protocol and offers access to API's through
+HTTP or WebSocket protocol.
+
+The plugins are used to add API's to afb-daemon.
+This part describes how to write a plugin for afb-daemon.
+Excepting this summary, this part is intended to be read
+by developpers.
+
+Before going into details, through a tiny example,
+a short overview plugins basis is needed.
+
+### Nature of a plugin
+
+A plugin is a separate piece of code made of a shared library.
+The plugin is loaded and activated by afb-daemon when afb-daemon
+starts.
+
+Technically, a plugin is not linked to any library of afb-daemon.
+
+### Kinds of plugins
+
+There is two kinds of plugins: application plugins and service
+plugins.
+
+#### Application plugins
+
+Application plugins are intended to be instanciated for each
+application: when an application using that plugin is started,
+its binder starts a new instance of the plugin.
+
+It means that the application plugins mainly have only one
+context to manage for one client.
+
+#### Service plugins
+
+Service plugins are intended to be instanciated only one time
+only and connected to many clients.
+
+So either it does not manage context at all or otherwise,
+if it manages context, it should be able to manage one context
+per client.
+
+In details, it may be useful to have service plugins at a user
+level.
+
+### Live cycle of a plugin within afb-daemon
+
+The plugins are loaded and activated when afb-daemon starts.
+
+At start, the plugin initialise itself.
+If it fails to initialise then afb-daemon stops.
+
+Conversely, if it success to initialize, it must declare
+a name, that must be unique, and a list of API's verbs.
+
+When initialized, the functions implementing the API's verbs
+of the plugin are activated on call.
+
+At the end, nothing special is done by afb-daemon.
+Consequently, developpers of plugins should use 'atexit'
+or 'on_exit' during initialisation if they need to
+perform specific actions when stopping.
+
+### Content of a plugin
+
+For afb-daemon, a plugin contains 2 different
+things: names and functions.
+
+There is two kind of names:
+ - the name of the plugin,
+ - the names of the verbs.
+
+There is two kind of functions:
+ - the initialisation function
+ - functions implementing verbs
+
+Afb-daemon translates the name of the method that is
+invoked to a pair of API and verb names. For example,
+the method named **foo/bar** translated to the API
+name **foo** and the verb name **bar**.
+To serve it, afb-daemon search the plugin that record
+the name **foo** and if it also recorded the verb **bar**,
+it calls the implementation function declared for this verb.
+
+Afb-daemon make no distinction between lower case
+and upper case when searching for a method.
+Thus, The names **TicTacToe/Board** and **tictactoe/borad**
+are equals.
+
+#### The name of the plugin
+
+The name of the plugin is also known as the name
+of the API that defines the plugin.
+
+This name is also known as the prefix.
+
+The name of a plugin MUST be unique within afb-daemon.
+
+For example, when a client of afb-daemon
+calls a method named **foo/bar**. Afb-daemon
+extracts the prefix **foo** and the suffix **bar**.
+**foo** is the API name and must match a plugin name,
+the plugin that implements the verb **bar**.
+
+#### Names of verbs
+
+Each plugin exposes a set of verbs that can be called
+by client of afb-daemon.
+
+The name of a verb MUST be unique within a plugin.
+
+Plugins link verbs to functions that are called
+when clients emit requests for that verb.
+
+For example, when a client of afb-daemon
+calls a method named **foo/bar**.
+
+#### The initialisation function
+
+The initialisation function serves several purposes.
+
+1. It allows afb-daemon to check the version
+of the plugin using the name of the initialisation
+functions that it found. Currently, the initialisation
+function is named **pluginAfbV1Register**. It identifies
+the first version of plugins.
+
+2. It allows the plugin to initialise itself.
+
+3. It serves to the plugin to declare names, descriptions,
+requirements and implmentations of the verbs that it exposes.
+
+#### Functions implementing verbs
+
+When a method is called, afb-daemon constructs a request
+object and pass it to the implementation function for verb
+within the plugin of the API.
+
+An implementation function receives a request object that
+is used to get arguments of the request, to send
+answer, to store session data.
+
+A plugin MUST send an answer to the request.
+
+But it is not mandatory to send the answer
+before to return from the implementing function.
+This behaviour is important for implementing
+asynchronous actions.
+
+Implementation functions that always reply to the request
+before returning are named *synchronous implementations*.
+Those that don't always reply to the request before
+returning are named *asynchronous implementations*.
+
+Asynchronous implementations typically initiate an
+asynchronous action and record to send the reply
+on completion of this action.
+
+The Tic-Tac-Toe example
+-----------------------
+
+This part explains how to write an afb-plugin.
+For the sake of being practical we will use many
+examples from the tic-tac-toe example.
+This plugin example is in *plugins/samples/tic-tac-toe.c*.
+
+This plugin is named ***tictactoe***.
+
+Dependencies when compiling
+---------------------------
+
+Afb-daemon provides a configuration file for *pkg-config*.
+Typing the command
+
+ pkg-config --cflags afb-daemon
+
+will print the flags to use for compiling, like this:
+
+ $ pkg-config --cflags afb-daemon
+ -I/opt/local/include -I/usr/include/json-c
+
+For linking, you should use
+
+ $ pkg-config --libs afb-daemon
+ -ljson-c
+
+As you see, afb-daemon automatically includes dependency to json-c.
+This is done through the **Requires** keyword of pkg-config
+because almost all plugin will use **json-c**.
+
+If this behaviour is a problem, let us know.
+
+Internally, afb-daemon uses **libsystemd** for its event loop
+and for its binding to D-Bus.
+Plugins developpers are encouraged to also use this library.
+But it is a matter of choice.
+Thus there is no dependency to **libsystemd**.
+
+> Afb-daemon provides no library for plugins.
+> The functions that the plugin need to have are given
+> to the plugin at runtime through pointer using read-only
+> memory.
+
+Header files to include
+-----------------------
+
+The plugin *tictactoe* has the following lines for its includes:
+
+ #define _GNU_SOURCE
+ #include <stdio.h>
+ #include <string.h>
+ #include <json-c/json.h>
+ #include <afb/afb-plugin.h>
+
+The header *afb/afb-plugin.h* includes all the features that a plugin
+needs except two foreign header that must be included by the plugin
+if it needs it:
+
+- *json-c/json.h*: this header must be include to handle json objects;
+- *systemd/sd-event.h*: this must be include to access the main loop;
+- *systemd/sd-bus.h*: this may be include to use dbus connections.
+
+The *tictactoe* plugin does not use systemd features so it is not included.
+
+When including *afb/afb-plugin.h*, the macro **_GNU_SOURCE** must be
+defined.
+
+Choosing names
+--------------
+
+The designer of a plugin must defines names for its plugin
+(or its API) and for the verbs of its API. He also
+must defines names for arguments given by name.
+
+While forging names, the designer should take into account
+the rules for making valid names and some rules that make
+the names easy to use across plaforms.
+
+The names and strings used ALL are UTF-8 encoded.
+
+### Names for API (plugin)
+
+The names of the API are checked.
+All characters are authorised except:
+
+- the control characters (\u0000 .. \u001f)
+- the characters of the set { ' ', '"', '#', '%', '&',
+ '\'', '/', '?', '`', '\x7f' }
+
+In other words the set of forbidden characters is
+{ \u0000..\u0020, \u0022, \u0023, \u0025..\u0027,
+ \u002f, \u003f, \u0060, \u007f }.
+
+Afb-daemon make no distinction between lower case
+and upper case when searching for an API by its name.
+
+### Names for verbs
+
+The names of the verbs are not checked.
+
+However, the validity rules for verb's names are the
+same as for API's names except that the dot (.) character
+is forbidden.
+
+Afb-daemon make no distinction between lower case
+and upper case when searching for an API by its name.
+
+### Names for arguments
+
+The names for arguments are not restricted and can be
+anything.
+
+The arguments are searched with the case sensitive
+string comparison. Thus the names "index" and "Index"
+are not the same.
+
+### Forging names widely available
+
+The key names of javascript object can be almost
+anything using the arrayed notation:
+
+ object[key] = value
+
+That is not the case with the dot notation:
+
+ object.key = value
+
+Using the dot notation, the key must be a valid javascript
+identifier.
+
+For this reason, the chosen names should better be
+valid javascript identifier.
+
+It is also a good practice, even for arguments, to not
+rely on the case sensitivity and to avoid the use of
+names different only by the case.
+
+Writing a synchronous verb implementation
+-----------------------------------------
+
+The verb **tictactoe/board** is a synchronous implementation.
+Here is its listing:
+
+ /*
+ * get the board
+ */
+ static void board(struct afb_req req)
+ {
+ struct board *board;
+ struct json_object *description;
+
+ /* retrieves the context for the session */
+ board = board_of_req(req);
+ INFO(afbitf, "method 'board' called for boardid %d", board->id);
+
+ /* describe the board */
+ description = describe(board);
+
+ /* send the board's description */
+ afb_req_success(req, description, NULL);
+ }
+
+This examples show many aspects of writing a synchronous
+verb implementation. Let summarize it:
+
+1. The function **board_of_req** retrieves the context stored
+for the plugin: the board.
+
+2. The macro **INFO** sends a message of kind *INFO*
+to the logging system. The global variable named **afbitf**
+used represents the interface to afb-daemon.
+
+3. The function **describe** creates a json_object representing
+the board.
+
+4. The function **afb_req_success** sends the reply, attaching to
+it the object *description*.
+
+### The incoming request
+
+For any implementation, the request is received by a structure of type
+**struct afb_req**.
+
+> Note that this is a PLAIN structure, not a pointer to a structure.
+
+The definition of **struct afb_req** is:
+
+ /*
+ * Describes the request by plugins from afb-daemon
+ */
+ struct afb_req {
+ const struct afb_req_itf *itf; /* the interfacing functions */
+ void *closure; /* the closure for functions */
+ };
+
+It contains two pointers: one, *itf*, points to the functions needed
+to handle the internal request represented by the second pointer, *closure*.
+
+> The structure must never be used directly.
+> Insted, use the intended functions provided
+> by afb-daemon and described here.
+
+*req* is used to get arguments of the request, to send
+answer, to store session data.
+
+This object and its interface is defined and documented
+in the file names *afb/afb-req-itf.h*
+
+The above example uses 2 times the request object *req*.
+
+The first time, it is used for retrieving the board attached to
+the session of the request.
+
+The second time, it is used to send the reply: an object that
+describes the current board.
+
+### Associating a context to the session
+
+When the plugin *tic-tac-toe* receives a request, it musts regain
+the board that describes the game associated to the session.
+
+For a plugin, having data associated to a session is a common case.
+This data is called the context of the plugin for the session.
+For the plugin *tic-tac-toe*, the context is the board.
+
+The requests *afb_req* offer four functions for
+storing and retrieving the context associated to the session.
+
+These functions are:
+
+- **afb_req_context_get**:
+ retrieves the context data stored for the plugin.
+
+- **afb_req_context_set**:
+ store the context data of the plugin.
+
+- **afb_req_context**:
+ retrieves the context data of the plugin,
+ if needed, creates the context and store it.
+
+- **afb_req_context_clear**:
+ reset the stored data.
+
+The plugin *tictactoe* use a convenient function to retrieve
+its context: the board. This function is *board_of_req*:
+
+ /*
+ * retrieves the board of the request
+ */
+ static inline struct board *board_of_req(struct afb_req req)
+ {
+ return afb_req_context(req, (void*)get_new_board, (void*)release_board);
+ }
+
+The function **afb_req_context** ensure an existing context
+for the session of the request.
+Its two last arguments are functions. Here, the casts are required
+to avoid a warning when compiling.
+
+Here is the definition of the function **afb_req_context**
+
+ /*
+ * Gets the pointer stored by the plugin for the session of 'req'.
+ * If the stored pointer is NULL, indicating that no pointer was
+ * already stored, afb_req_context creates a new context by calling
+ * the function 'create_context' and stores it with the freeing function
+ * 'free_context'.
+ */
+ static inline void *afb_req_context(struct afb_req req, void *(*create_context)(), void (*free_context)(void*))
+ {
+ void *result = afb_req_context_get(req);
+ if (result == NULL) {
+ result = create_context();
+ afb_req_context_set(req, result, free_context);
+ }
+ return result;
+ }
+
+The second argument if the function that creates the context.
+For the plugin *tic-tac-toe* it is the function **get_new_board**.
+The function **get_new_board** creates a new board and set its
+count of use to 1. The boards are counting their count of use
+to free there ressources when no more used.
+
+The third argument if the function that frees the context.
+For the plugin *tic-tac-toe* it is the function **release_board**.
+The function **release_board** decrease the the count of use of
+the board given as argument. If the use count decrease to zero,
+the board data are freed.
+
+The definition of the other functions for dealing with contexts are:
+
+ /*
+ * Gets the pointer stored by the plugin for the session of 'req'.
+ * When the plugin has not yet recorded a pointer, NULL is returned.
+ */
+ void *afb_req_context_get(struct afb_req req);
+
+ /*
+ * Stores for the plugin the pointer 'context' to the session of 'req'.
+ * The function 'free_context' will be called when the session is closed
+ * or if plugin stores an other pointer.
+ */
+ void afb_req_context_set(struct afb_req req, void *context, void (*free_context)(void*));
+
+ /*
+ * Frees the pointer stored by the plugin for the session of 'req'
+ * and sets it to NULL.
+ *
+ * Shortcut for: afb_req_context_set(req, NULL, NULL)
+ */
+ static inline void afb_req_context_clear(struct afb_req req)
+ {
+ afb_req_context_set(req, NULL, NULL);
+ }
+
+### Sending the reply to a request
+
+Two kinds of replies can be made: successful replies and
+failure replies.
+
+> Sending a reply to a request must be done at most one time.
+
+The two functions to send a reply of kind "success" are
+**afb_req_success** and **afb_req_success_f**.
+
+ /*
+ * Sends a reply of kind success to the request 'req'.
+ * The status of the reply is automatically set to "success".
+ * Its send the object 'obj' (can be NULL) with an
+ * informationnal comment 'info (can also be NULL).
+ *
+ * For conveniency, the function calls 'json_object_put' for 'obj'.
+ * Thus, in the case where 'obj' should remain available after
+ * the function returns, the function 'json_object_get' shall be used.
+ */
+ void afb_req_success(struct afb_req req, struct json_object *obj, const char *info);
+
+ /*
+ * Same as 'afb_req_success' but the 'info' is a formatting
+ * string followed by arguments.
+ *
+ * For conveniency, the function calls 'json_object_put' for 'obj'.
+ * Thus, in the case where 'obj' should remain available after
+ * the function returns, the function 'json_object_get' shall be used.
+ */
+ void afb_req_success_f(struct afb_req req, struct json_object *obj, const char *info, ...);
+
+The two functions to send a reply of kind "failure" are
+**afb_req_fail** and **afb_req_fail_f**.
+
+ /*
+ * Sends a reply of kind failure to the request 'req'.
+ * The status of the reply is set to 'status' and an
+ * informationnal comment 'info' (can also be NULL) can be added.
+ *
+ * Note that calling afb_req_fail("success", info) is equivalent
+ * to call afb_req_success(NULL, info). Thus even if possible it
+ * is strongly recommanded to NEVER use "success" for status.
+ *
+ * For conveniency, the function calls 'json_object_put' for 'obj'.
+ * Thus, in the case where 'obj' should remain available after
+ * the function returns, the function 'json_object_get' shall be used.
+ */
+ void afb_req_fail(struct afb_req req, const char *status, const char *info);
+
+ /*
+ * Same as 'afb_req_fail' but the 'info' is a formatting
+ * string followed by arguments.
+ *
+ * For conveniency, the function calls 'json_object_put' for 'obj'.
+ * Thus, in the case where 'obj' should remain available after
+ * the function returns, the function 'json_object_get' shall be used.
+ */
+ void afb_req_fail_f(struct afb_req req, const char *status, const char *info, ...);
+
+> For conveniency, these functions call **json_object_put** to release the object **obj**
+> that they send. Then **obj** can not be used after calling one of these reply functions.
+> When it is not the expected behaviour, calling the function **json_object_get** on the object **obj**
+> before cancels the effect of **json_object_put**.
+
+Getting argument of invocation
+------------------------------
+
+Many verbs expect arguments. Afb-daemon let plugins
+retrieve their arguments by name not by position.
+
+Arguments are given by the requests either through HTTP
+or through WebSockets.
+
+For example, the verb **join** of the plugin **tic-tac-toe**
+expects one argument: the *boardid* to join. Here is an extract:
+
+ /*
+ * Join a board
+ */
+ static void join(struct afb_req req)
+ {
+ struct board *board, *new_board;
+ const char *id;
+
+ /* retrieves the context for the session */
+ board = board_of_req(req);
+ INFO(afbitf, "method 'join' called for boardid %d", board->id);
+
+ /* retrieves the argument */
+ id = afb_req_value(req, "boardid");
+ if (id == NULL)
+ goto bad_request;
+ ...
+
+The function **afb_req_value** search in the request *req*
+for an argument whose name is given. When no argument of the
+given name was passed, **afb_req_value** returns NULL.
+
+> The search is case sensitive. So the name *boardid* is not the
+> same name than *BoardId*. But this must not be assumed so two
+> expected names of argument should not differ only by case.
+
+### Basic functions for querying arguments
+
+The function **afb_req_value** is defined as below:
+
+ /*
+ * Gets from the request 'req' the string value of the argument of 'name'.
+ * Returns NULL if when there is no argument of 'name'.
+ * Returns the value of the argument of 'name' otherwise.
+ *
+ * Shortcut for: afb_req_get(req, name).value
+ */
+ static inline const char *afb_req_value(struct afb_req req, const char *name)
+ {
+ return afb_req_get(req, name).value;
+ }
+
+It is defined as a shortcut to call the function **afb_req_get**.
+That function is defined as below:
+
+ /*
+ * Gets from the request 'req' the argument of 'name'.
+ * Returns a PLAIN structure of type 'struct afb_arg'.
+ * When the argument of 'name' is not found, all fields of result are set to NULL.
+ * When the argument of 'name' is found, the fields are filled,
+ * in particular, the field 'result.name' is set to 'name'.
+ *
+ * There is a special name value: the empty string.
+ * The argument of name "" is defined only if the request was made using
+ * an HTTP POST of Content-Type "application/json". In that case, the
+ * argument of name "" receives the value of the body of the HTTP request.
+ */
+ struct afb_arg afb_req_get(struct afb_req req, const char *name);
+
+That function takes 2 parameters: the request and the name
+of the argument to retrieve. It returns a PLAIN structure of
+type **struct afb_arg**.
+
+There is a special name that is defined when the request is
+of type HTTP/POST with a Content-Type being application/json.
+This name is **""** (the empty string). In that case, the value
+of this argument of empty name is the string received as a body
+of the post and is supposed to be a JSON string.
+
+The definition of **struct afb_arg** is:
+
+ /*
+ * Describes an argument (or parameter) of a request
+ */
+ struct afb_arg {
+ const char *name; /* name of the argument or NULL if invalid */
+ const char *value; /* string representation of the value of the argument */
+ /* original filename of the argument if path != NULL */
+ const char *path; /* if not NULL, path of the received file for the argument */
+ /* when the request is finalized this file is removed */
+ };
+
+The structure returns the data arguments that are known for the
+request. This data include a field named **path**. This **path**
+can be accessed using the function **afb_req_path** defined as
+below:
+
+ /*
+ * Gets from the request 'req' the path for file attached to the argument of 'name'.
+ * Returns NULL if when there is no argument of 'name' or when there is no file.
+ * Returns the path of the argument of 'name' otherwise.
+ *
+ * Shortcut for: afb_req_get(req, name).path
+ */
+ static inline const char *afb_req_path(struct afb_req req, const char *name)
+ {
+ return afb_req_get(req, name).path;
+ }
+
+The path is only defined for HTTP/POST requests that send file.
+
+### Arguments for received files
+
+As it is explained just above, clients can send files using
+HTTP/POST requests.
+
+Received files are attached to a arguments. For example, the
+following HTTP fragment (from test/sample-post.html)
+will send an HTTP/POST request to the method
+**post/upload-image** with 2 arguments named *file* and
+*hidden*.
+
+ <h2>Sample Post File</h2>
+ <form enctype="multipart/form-data">
+ <input type="file" name="file" />
+ <input type="hidden" name="hidden" value="bollobollo" />
+ <br>
+ <button formmethod="POST" formaction="api/post/upload-image">Post File</button>
+ </form>
+
+In that case, the argument named **file** has its value and its
+path defined and not NULL.
+
+The value is the name of the file as it was
+set by the HTTP client and is generally the filename on the
+client side.
+
+The path is the path of the file saved on the temporary local storage
+area of the application. This is a randomly generated and unic filename
+not linked in any way with the original filename on the client.
+
+The plugin can use the file at the given path the way that it wants:
+read, write, remove, copy, rename...
+But when the reply is sent and the query is terminated, the file at
+this path is destroyed if it still exist.
+
+### Arguments as a JSON object
+
+Plugins can get all the arguments as one single object.
+This feature is provided by the function **afb_req_json**
+that is defined as below:
+
+ /*
+ * Gets from the request 'req' the json object hashing the arguments.
+ * The returned object must not be released using 'json_object_put'.
+ */
+ struct json_object *afb_req_json(struct afb_req req);
+
+It returns a json object. This object depends on how the request was
+made:
+
+- For HTTP requests, this is an object whose keys are the names of the
+arguments and whose values are either a string for common arguments or
+an object like { "file": "...", "path": "..." }
+
+- For WebSockets requests, the returned object is the object
+given by the client transparently transported.
+
+> In fact, for Websockets requests, the function **afb_req_value**
+> can be seen as a shortcut to
+> ***json_object_get_string(json_object_object_get(afb_req_json(req), name))***
+
+Initialisation of the plugin and declaration of verbs
+-----------------------------------------------------
+
+To be active, the verbs of the plugin should be declared to
+afb-daemon. And even more, the plugin itself must be recorded.
+
+The mechanism for doing this is very simple: when afb-need starts,
+it loads the plugins that are listed in its argument or configuration.
+
+Loading a plugin follows the following steps:
+
+1. It loads the plugin using *dlopen*.
+
+2. It searchs for the symbol named **pluginAfbV1Register** using *dlsym*.
+This symbol is assumed to be the exported initialisation function of the plugin.
+
+3. It build an interface object for the plugin.
+
+4. It calls the found function **pluginAfbV1Register** and pass it the pointer
+to its interface.
+
+5. The function **pluginAfbV1Register** setup the plugin, initialize it.
+
+6. The function **pluginAfbV1Register** returns the pointer to a structure
+that describes the plugin: its version, its name (prefix or API name), and the
+list of its verbs.
+
+7. Afb-daemon checks that the returned version and name can be managed.
+If it can manage it, the plugin and its verbs are recorded and can be used
+when afb-daemon finishes it initialisation.
+
+Here is the listing of the function **pluginAfbV1Register** of the plugin
+*tic-tac-toe*:
+
+ /*
+ * activation function for registering the plugin called by afb-daemon
+ */
+ const struct AFB_plugin *pluginAfbV1Register(const struct AFB_interface *itf)
+ {
+ afbitf = itf; // records the interface for accessing afb-daemon
+ return &plugin_description; // returns the description of the plugin
+ }
+
+This is a very small function because the *tic-tac-toe* plugin doesn't have initialisation step.
+It merely record the daemon's interface and returns its descritption.
+
+The variable **afbitf** is a variable global to the plugin. It records the
+interface to afb-daemon and is used for logging and pushing events.
+Here is its declaration:
+
+ /*
+ * the interface to afb-daemon
+ */
+ const struct AFB_interface *afbitf;
+
+The description of the plugin is defined as below.
+
+ /*
+ * array of the verbs exported to afb-daemon
+ */
+ static const struct AFB_verb_desc_v1 plugin_verbs[] = {
+ /* VERB'S NAME SESSION MANAGEMENT FUNCTION TO CALL SHORT DESCRIPTION */
+ { .name= "new", .session= AFB_SESSION_NONE, .callback= new, .info= "Starts a new game" },
+ { .name= "play", .session= AFB_SESSION_NONE, .callback= play, .info= "Asks the server to play" },
+ { .name= "move", .session= AFB_SESSION_NONE, .callback= move, .info= "Tells the client move" },
+ { .name= "board", .session= AFB_SESSION_NONE, .callback= board, .info= "Get the current board" },
+ { .name= "level", .session= AFB_SESSION_NONE, .callback= level, .info= "Set the server level" },
+ { .name= "join", .session= AFB_SESSION_CHECK,.callback= join, .info= "Join a board" },
+ { .name= "undo", .session= AFB_SESSION_NONE, .callback= undo, .info= "Undo the last move" },
+ { .name= "wait", .session= AFB_SESSION_NONE, .callback= wait, .info= "Wait for a change" },
+ { .name= NULL } /* marker for end of the array */
+ };
+
+ /*
+ * description of the plugin for afb-daemon
+ */
+ static const struct AFB_plugin plugin_description =
+ {
+ /* description conforms to VERSION 1 */
+ .type= AFB_PLUGIN_VERSION_1,
+ .v1= { /* fills the v1 field of the union when AFB_PLUGIN_VERSION_1 */
+ .prefix= "tictactoe", /* the API name (or plugin name or prefix) */
+ .info= "Sample tac-tac-toe game", /* short description of of the plugin */
+ .verbs = plugin_verbs /* the array describing the verbs of the API */
+ }
+ };
+
+The structure **plugin_description** describes the plugin.
+It declares the type and version of the plugin, its name, a description
+and a list of its verbs.
+
+The list of verbs is an array of structures describing the verbs and terminated by a marker:
+a verb whose name is NULL.
+
+The description of the verbs for this version is made of 4 fields:
+
+- the name of the verbs,
+
+- the session management flags,
+
+- the implementation function to be call for the verb,
+
+- a short description.
+
+The structure describing verbs is defined as follows:
+
+ /*
+ * Description of one verb of the API provided by the plugin
+ * This enumeration is valid for plugins of type 1
+ */
+ struct AFB_verb_desc_v1
+ {
+ const char *name; /* name of the verb */
+ enum AFB_session_v1 session; /* authorisation and session requirements of the verb */
+ void (*callback)(struct afb_req req); /* callback function implementing the verb */
+ const char *info; /* textual description of the verb */
+ };
+
+For technical reasons, the enumeration **enum AFB_session_v1** is not exactly an
+enumeration but the wrapper of constant definitions that can be mixed using bitwise or
+(the C operator |).
+
+The constants that can bit mixed are:
+
+Constant name | Meaning
+-------------------------|-------------------------------------------------------------
+**AFB_SESSION_CREATE** | Equals to AFB_SESSION_LOA_EQ_0|AFB_SESSION_RENEW
+**AFB_SESSION_CLOSE** | Closes the session after the reply and set the LOA to 0
+**AFB_SESSION_RENEW** | Refreshes the token of authentification
+**AFB_SESSION_CHECK** | Just requires the token authentification
+**AFB_SESSION_LOA_LE_0** | Requires the current LOA to be lesser then or equal to 0
+**AFB_SESSION_LOA_LE_1** | Requires the current LOA to be lesser then or equal to 1
+**AFB_SESSION_LOA_LE_2** | Requires the current LOA to be lesser then or equal to 2
+**AFB_SESSION_LOA_LE_3** | Requires the current LOA to be lesser then or equal to 3
+**AFB_SESSION_LOA_GE_0** | Requires the current LOA to be greater then or equal to 0
+**AFB_SESSION_LOA_GE_1** | Requires the current LOA to be greater then or equal to 1
+**AFB_SESSION_LOA_GE_2** | Requires the current LOA to be greater then or equal to 2
+**AFB_SESSION_LOA_GE_3** | Requires the current LOA to be greater then or equal to 3
+**AFB_SESSION_LOA_EQ_0** | Requires the current LOA to be equal to 0
+**AFB_SESSION_LOA_EQ_1** | Requires the current LOA to be equal to 1
+**AFB_SESSION_LOA_EQ_2** | Requires the current LOA to be equal to 2
+**AFB_SESSION_LOA_EQ_3** | Requires the current LOA to be equal to 3
+
+If any of this flags is set, afb-daemon requires the token authentification
+as if the flag **AFB_SESSION_CHECK** had been set.
+
+The special value **AFB_SESSION_NONE** is zero and can be used to avoid any check.
+
+> Note that **AFB_SESSION_CREATE** and **AFB_SESSION_CLOSE** might be removed in later versions.
+
+Sending messages to the log system
+----------------------------------
+
+Afb-daemon provides 4 levels of verbosity and 5 verbs for logging messages.
+
+The verbosity is managed. Options allow the change the verbosity of afb-daemon
+and the verbosity of the plugins can be set plugin by plugin.
+
+The verbs for logging messages are defined as macros that test the
+verbosity level and that call the real logging function only if the
+message must be output. This avoid evaluation of arguments of the
+formatting messages if the message must not be output.
+
+### Verbs for logging messages
+
+The 5 logging verbs are:
+
+Macro | Verbosity | Meaning | syslog level
+--------|:---------:|-----------------------------------|:-----------:
+ERROR | 0 | Error conditions | 3
+WARNING | 1 | Warning conditions | 4
+NOTICE | 1 | Normal but significant condition | 5
+INFO | 2 | Informational | 6
+DEBUG | 3 | Debug-level messages | 7
+
+You can note that the 2 verbs **WARNING** and **INFO** have the same level
+of verbosity. But they don't have the same *syslog level*. It means that
+they are output with a different level on the logging system.
+
+All of these verbs have the same signature:
+
+ void ERROR(const struct AFB_interface *afbitf, const char *message, ...);
+
+The first argument **afbitf** is the interface to afb daemon that the
+plugin received at its initialisation when **pluginAfbV1Register** was called.
+
+The second argument **message** is a formatting string compatible with printf/sprintf.
+
+The remaining arguments are arguments of the formating message like for printf.
+
+### Managing verbosity
+
+Depending on the level of verbosity, the messages are output or not.
+The following table explains what messages will be output depending
+ont the verbosity level.
+
+Level of verbosity | Outputed macro
+:-----------------:|--------------------------
+ 0 | ERROR
+ 1 | ERROR + WARNING + NOTICE
+ 2 | ERROR + WARNING + NOTICE + INFO
+ 3 | ERROR + WARNING + NOTICE + INFO + DEBUG
+
+### Output format and destination
+
+The syslog level is used for forging a prefix to the message.
+The prefixes are:
+
+syslog level | prefix
+:-----------:|---------------
+ 0 | <0> EMERGENCY
+ 1 | <1> ALERT
+ 2 | <2> CRITICAL
+ 3 | <3> ERROR
+ 4 | <4> WARNING
+ 5 | <5> NOTICE
+ 6 | <6> INFO
+ 7 | <7> DEBUG
+
+
+The message is issued to the standard error.
+The final destination of the message depends on how the systemd service
+was configured through the variable **StandardError**: It can be
+journal, syslog or kmsg. (See man sd-daemon).
+
+Sending events
+--------------
+
+Since version 0.5, plugins can broadcast events to any potential listener.
+This kind of bradcast is not targeted. Event targeted will come in a future
+version of afb-daemon.
+
+The plugin *tic-tac-toe* broadcasts events when the board changes.
+This is done in the function **changed**:
+
+ /*
+ * signals a change of the board
+ */
+ static void changed(struct board *board, const char *reason)
+ {
+ ...
+ struct json_object *description;
+
+ /* get the description */
+ description = describe(board);
+
+ ...
+
+ afb_daemon_broadcast_event(afbitf->daemon, reason, description);
+ }
+
+The description of the changed board is pushed via the daemon interface.
+
+Within the plugin *tic-tac-toe*, the *reason* indicates the origin of
+the change. For the function **afb_daemon_broadcast_event**, the second
+parameter is the name of the broadcasted event. The third argument is the
+object that is transmitted with the event.
+
+The function **afb_daemon_broadcast_event** is defined as below:
+
+ /*
+ * Broadcasts widely the event of 'name' with the data 'object'.
+ * 'object' can be NULL.
+ * 'daemon' MUST be the daemon given in interface when activating the plugin.
+ *
+ * For conveniency, the function calls 'json_object_put' for 'object'.
+ * Thus, in the case where 'object' should remain available after
+ * the function returns, the function 'json_object_get' shall be used.
+ */
+ void afb_daemon_broadcast_event(struct afb_daemon daemon, const char *name, struct json_object *object);
+
+> Be aware, as for reply functions, the **object** is automatically released using
+> **json_object_put** by the function. Then call **json_object_get** before
+> calling **afb_daemon_broadcast_event** to keep **object** available
+> after the returning of the function.
+
+In fact the event name received by the listener is prefixed with
+the name of the plugin. So when the change occurs after a move, the
+reason is **move** and then the clients receive the event **tictactoe/move**.
+
+> Note that nothing is said about the case sensitivity of event names.
+> However, the event is always prefixed with the name that the plugin
+> declared, with the same case, followed with a slash /.
+> Thus it is safe to compare event using a case sensitive comparison.
+
+
+
+Writing an asynchronous verb implementation
+-------------------------------------------
+
+The *tic-tac-toe* example allows two clients or more to share the same board.
+This is implemented by the verb **join** that illustrated partly the how to
+retrieve arguments.
+
+When two or more clients are sharing a same board, one of them can wait
+until the state of the board changes. (This coulded also be implemented using
+events because an even is generated each time the board changes).
+
+In this case, the reply to the wait is sent only when the board changes.
+See the diagram below:
+
+ CLIENT A CLIENT B TIC-TAC-TOE
+ | | |
+ +--------------|----------------->| wait . . . . . . . .
+ | | | .
+ : : : .
+ : : : .
+ | | | .
+ | +----------------->| move . . . .
+ | | | V .
+ | |<-----------------+ success of move .
+ | | | .
+ |<-------------|------------------+ success of wait <
+
+Here, this is an invocation of the plugin by an other client that
+unblock the suspended *wait* call.
+But in general, this will be a timer, a hardware event, the sync with
+a concurrent process or thread, ...
+
+So the case is common, this is an asynchronous implementation.
+
+Here is the listing of the function **wait**:
+
+ static void wait(struct afb_req req)
+ {
+ struct board *board;
+ struct waiter *waiter;
+
+ /* retrieves the context for the session */
+ board = board_of_req(req);
+ INFO(afbitf, "method 'wait' called for boardid %d", board->id);
+
+ /* creates the waiter and enqueues it */
+ waiter = calloc(1, sizeof *waiter);
+ waiter->req = req;
+ waiter->next = board->waiters;
+ afb_req_addref(req);
+ board->waiters = waiter;
+ }
+
+After retrieving the board, the function adds a new waiter to the
+current list of waiters and returns without sending a reply.
+
+Before returning, it increases the reference count of the
+request **req** using the function **afb_req_addref**.
+
+> When the implentation of a verb returns without sending a reply,
+> it **MUST** increment the reference count of the request
+> using **afb_req_addref**. If it doesn't bad things can happen.
+
+Later, when the board changes, it calls the function **changed**
+of *tic-tac-toe* with the reason of the change.
+
+Here is the full listing of the function **changed**:
+
+ /*
+ * signals a change of the board
+ */
+ static void changed(struct board *board, const char *reason)
+ {
+ struct waiter *waiter, *next;
+ struct json_object *description;
+
+ /* get the description */
+ description = describe(board);
+
+ waiter = board->waiters;
+ board->waiters = NULL;
+ while (waiter != NULL) {
+ next = waiter->next;
+ afb_req_success(waiter->req, json_object_get(description), reason);
+ afb_req_unref(waiter->req);
+ free(waiter);
+ waiter = next;
+ }
+
+ afb_event_sender_push(afb_daemon_get_event_sender(afbitf->daemon), reason, description);
+ }
+
+The list of waiters is walked and a reply is sent to each waiter.
+After the sending the reply, the reference count of the request
+is decremented using **afb_req_unref** to allow its resources to be freed.
+
+> The reference count **MUST** be decremented using **afb_req_unref** because,
+> otherwise, there is a leak of resources.
+> It must be decremented **AFTER** the sending of the reply, because, otherwise,
+> bad things may happen.
+
+How to build a plugin
+---------------------
+
+Afb-daemon provides a *pkg-config* configuration file that can be
+queried by the name **afb-daemon**.
+This configuration file provides data that should be used
+for compiling plugins. Examples:
+
+ $ pkg-config --cflags afb-daemon
+ $ pkg-config --libs afb-daemon
+
+### Example for cmake meta build system
+
+This example is the extract for building the plugin *afm-main* using *CMAKE*.
+
+ pkg_check_modules(afb afb-daemon)
+ if(afb_FOUND)
+ message(STATUS "Creation afm-main-plugin for AFB-DAEMON")
+ add_library(afm-main-plugin MODULE afm-main-plugin.c)
+ target_compile_options(afm-main-plugin PRIVATE ${afb_CFLAGS})
+ target_include_directories(afm-main-plugin PRIVATE ${afb_INCLUDE_DIRS})
+ target_link_libraries(afm-main-plugin utils ${afb_LIBRARIES})
+ set_target_properties(afm-main-plugin PROPERTIES
+ PREFIX ""
+ LINK_FLAGS "-Wl,--version-script=${CMAKE_CURRENT_SOURCE_DIR}/afm-main-plugin.export-map"
+ )
+ install(TARGETS afm-main-plugin LIBRARY DESTINATION ${plugin_dir})
+ else()
+ message(STATUS "Not creating the plugin for AFB-DAEMON")
+ endif()
+
+Let now describe some of these lines.
+
+ pkg_check_modules(afb afb-daemon)
+
+This first lines searches to the *pkg-config* configuration file for
+**afb-daemon**. Resulting data are stored in the following variables:
+
+Variable | Meaning
+------------------|------------------------------------------------
+afb_FOUND | Set to 1 if afb-daemon plugin development files exist
+afb_LIBRARIES | Only the libraries (w/o the '-l') for compiling afb-daemon plugins
+afb_LIBRARY_DIRS | The paths of the libraries (w/o the '-L') for compiling afb-daemon plugins
+afb_LDFLAGS | All required linker flags for compiling afb-daemon plugins
+afb_INCLUDE_DIRS | The '-I' preprocessor flags (w/o the '-I') for compiling afb-daemon plugins
+afb_CFLAGS | All required cflags for compiling afb-daemon plugins
+
+If development files are found, the plugin can be added to the set of
+target to build.
+
+ add_library(afm-main-plugin MODULE afm-main-plugin.c)
+
+This line asks to create a shared library having only the
+source file afm-main-plugin.c (that is compiled).
+The default name of the created shared object is
+**libafm-main-plugin.so**.
+
+ set_target_properties(afm-main-plugin PROPERTIES
+ PREFIX ""
+ LINK_FLAGS "-Wl,--version-script=${CMAKE_CURRENT_SOURCE_DIR}/afm-main-plugin.export-map"
+ )
+
+This lines are doing two things:
+
+1. It renames the built library from **libafm-main-plugin.so** to **afm-main-plugin.so**
+by removing the implicitely added prefix *lib*. This step is not mandatory
+at all because afb-daemon doesn't check names of files when loading it.
+The only convention that use afb-daemon is that extension is **.so**
+but this convention is used only when afb-daemon discovers plugin
+from a directory hierarchy.
+
+2. It applies a version script at link to only export the conventional name
+of the entry point: **pluginAfbV1Register**. See below. By default, the linker
+that creates the shared object exports all the public symbols (C functions that
+are not **static**).
+
+Next line are:
+
+ target_include_directories(afm-main-plugin PRIVATE ${afb_INCLUDE_DIRS})
+ target_link_libraries(afm-main-plugin utils ${afb_LIBRARIES})
+
+As you can see it uses the variables computed by ***pkg_check_modules(afb afb-daemon)***
+to configure the compiler and the linker.
+
+### Exporting the function pluginAfbV1Register
+
+The function **pluginAfbV1Register** must be exported. This can be achieved
+using a version script when linking. Here is the version script that is
+used for *tic-tac-toe* (plugins/samples/export.map).
+
+ { global: pluginAfbV1Register; local: *; };
+
+This sample [version script](https://sourceware.org/binutils/docs-2.26/ld/VERSION.html#VERSION)
+exports as global the symbol *pluginAfbV1Register* and hides any
+other symbols.
+
+This version script is added to the link options using the
+option **--version-script=export.map** is given directly to the
+linker or using th option **-Wl,--version-script=export.map**
+when the option is given to the C compiler.
+
+### Building within yocto
+
+Adding a dependency to afb-daemon is enough. See below:
+
+ DEPENDS += " afb-daemon "
+