/*
* Copyright (C) 2016, 2017, 2018 "IoT.bzh"
* Author: José Bollo <jose.bollo@iot.bzh>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#pragma once
#include "afb-verbosity.h"
#include "afb-api-x3-itf.h"
/**
* Get the name of the 'api'.
*
* @param api the api whose name is to be returned
*
* @return the name of the api.
*
* The returned value must not be changed nor freed.
*/
static inline
const char *afb_api_x3_name(struct afb_api_x3 *api)
{
return api->apiname;
}
/**
* Get the "userdata" pointer of the 'api'
*
* @param api the api whose user's data is to be returned
*
* @return the user's data pointer of the api.
*
* @see afb_api_x3_set_userdata
*/
static inline
void *afb_api_x3_get_userdata(struct afb_api_x3 *api)
{
return api->userdata;
}
/**
* Set the "userdata" pointer of the 'api' to 'value'
*
* @param api the api whose user's data is to be set
* @param value the data to set
*
* @see afb_api_x3_get_userdata
*/
static inline
void afb_api_x3_set_userdata(struct afb_api_x3 *api, void *value)
{
api->userdata = value;
}
/**
* Is the log message of 'level (as defined for syslog) required for the api?
*
* @param api the api to check
* @param level the level to check as defined for syslog:
*
* EMERGENCY 0 System is unusable
* ALERT 1 Action must be taken immediately
* CRITICAL 2 Critical conditions
* ERROR 3 Error conditions
* WARNING 4 Warning conditions
* NOTICE 5 Normal but significant condition
* INFO 6 Informational
* DEBUG 7 Debug-level messages
*
* @return 0 if not required or a value not null if required
*
* @see syslog
*/
static inline
int afb_api_x3_wants_log_level(struct afb_api_x3 *api, int level)
{
return AFB_SYSLOG_MASK_WANT(api->logmask, level);
}
/**
* Send to the journal with the log 'level' a message described
* by 'fmt' applied to the va-list 'args'.
*
* 'file', 'line' and 'func' are indicators of position of the code in source files
* (see macros __FILE__, __LINE__ and __func__).
*
* 'level' is defined by syslog standard:
*
* EMERGENCY 0 System is unusable
* ALERT 1 Action must be taken immediately
* CRITICAL 2 Critical conditions
* ERROR 3 Error conditions
* WARNING 4 Warning conditions
* NOTICE 5 Normal but significant condition
* INFO 6 Informational
* DEBUG 7 Debug-level messages
*
* @param api the api that collects the logging message
* @param level the level of the message
* @param file the source file that logs the messages or NULL
* @param line the line in the source file that logs the message
* @param func the name of the function in the source file that logs
* @param fmt the format of the message as in printf
* @param args the arguments to the format string of the message as a va_list
*
* @see syslog
* @see printf
*/
static inline
void afb_api_x3_vverbose(struct afb_api_x3 *api, int level, const char *file, int line, const char *func, const char *fmt, va_list args)
{
api->itf->vverbose(api, level, file, line, func, fmt, args);
}
/**
* Send to the journal with the log 'level' a message described
* by 'fmt' and following parameters.
*
* 'file', 'line' and 'func' are indicators of position of the code in source files
* (see macros __FILE__, __LINE__ and __func__).
*
* 'level' is defined by syslog standard:
* EMERGENCY 0 System is unusable
* ALERT 1 Action must be taken immediately
* CRITICAL 2 Critical conditions
* ERROR 3 Error conditions
* WARNING 4 Warning conditions
* NOTICE 5 Normal but significant condition
* INFO 6 Informational
* DEBUG 7 Debug-level messages
*
* @param api the api that collects the logging message
* @param level the level of the message
* @param file the source file that logs the messages or NULL
* @param line the line in the source file that logs the message
* @param func the name of the function in the source file that logs
* @param fmt the format of the message as in printf
* @param ... the arguments to the format string of the message
*
* @see syslog
* @see printf
*/
__attribute__((format(printf, 6, 7)))
static inline
void afb_api_x3_verbose(
struct afb_api_x3 *api,
int level,
const char *file,
int line,
const char *func,
const char *fmt,
...)
{
va_list args;
va_start(args, fmt);
api->itf->vverbose(api, level, file, line, func, fmt, args);
va_end(args);
}
/**
* Retrieves the common systemd's event loop of AFB
*
* @param api the api that uses the event loop
*
* @return the systemd event loop if active, NULL otherwise
*
* @see afb_api_x3_get_user_bus
* @see afb_api_x3_get_system_bus
*/
static inline
struct sd_event *afb_api_x3_get_event_loop(struct afb_api_x3 *api)
{
return api->itf->get_event_loop(api);
}
/**
* Retrieves the common systemd's user/session d-bus of AFB
*
* @param api the api that uses the user dbus
*
* @return the systemd user connection to dbus if active, NULL otherwise
*
* @see afb_api_x3_get_event_loop
* @see afb_api_x3_get_system_bus
*/
static inline
struct sd_bus *afb_api_x3_get_user_bus(struct afb_api_x3 *api)
{
return api->itf->get_user_bus(api);
}
/**
* Retrieves the common systemd's system d-bus of AFB
*
* @param api the api that uses the system dbus
*
* @return the systemd system connection to dbus if active, NULL otherwise
*
* @see afb_api_x3_get_event_loop
* @see afb_api_x3_get_user_bus
*/
static inline
struct sd_bus *afb_api_x3_get_system_bus(struct afb_api_x3 *api)
{
return api->itf->get_system_bus(api);
}
/**
* Get the root directory file descriptor. This file descriptor can
* be used with functions 'openat', 'fstatat', ...
*
* CAUTION, manipulate this this descriptor with care, in particular, don't close
* it.
*
* This can be used to get the path of the root directory using:
*
* ```C
* char buffer[MAX_PATH];
* int dirfd = afb_api_x3_rootdir_get_fd(api);
* snprintf(buffer, sizeof buffer, "/proc/self/fd/%d", dirfd);
* readlink(buffer, buffer, sizeof buffer);
* ```
*
* But note that within AGL this is the value given by the environment variable
* AFM_APP_INSTALL_DIR.
*
* @param api the api that uses the directory file descriptor
*
* @return the file descriptor of the root directory.
*
* @see afb_api_x3_rootdir_open_locale
*/
static inline
int afb_api_x3_rootdir_get_fd(struct afb_api_x3 *api)
{
return api->itf->rootdir_get_fd(api);
}
/**
* Opens 'filename' within the root directory with 'flags' (see function openat)
* using the 'locale' definition (example: "jp,en-US") that can be NULL.
*
* The filename must be relative to the root of the bindings.
*
* The opening mode must be for read or write but not for O_CREAT.
*
* The definition of locales and of how files are searched can be checked
* here: https://www.w3.org/TR/widgets/#folder-based-localization
* and https://tools.ietf.org/html/rfc7231#section-5.3.5
*
* @param api the api that queries the file
* @param filename the relative path to the file to open
* @param flags the flags for opening as for C function 'open'
* @param locale string indicating how to search content, can be NULL
*
* @return the file descriptor or -1 in case of error and errno is set with the
* error indication.
*
* @see open
* @see afb_api_x3_rootdir_get_fd
*/
static inline
int afb_api_x3_rootdir_open_locale(struct afb_api_x3 *api, const char *filename, int flags, const char *locale)
{
return api->itf->rootdir_open_locale(api, filename, flags, locale);
}
/**
* Queue the job defined by 'callback' and 'argument' for being executed asynchronously
* in this thread (later) or in an other thread.
*
* If 'group' is not NULL, the jobs queued with a same value (as the pointer value 'group')
* are executed in sequence in the order of there submission.
*
* If 'timeout' is not 0, it represent the maximum execution time for the job in seconds.
* At first, the job is called with 0 as signum and the given argument.
*
* The job is executed with the monitoring of its time and some signals like SIGSEGV and
* SIGFPE. When a such signal is catched, the job is terminated and reexecuted but with
* signum being the signal number (SIGALRM when timeout expired).
*
* When executed, the callback function receives 2 arguments:
*
* - int signum: the signal catched if any or zero at the beginning
* - void *arg: the parameter 'argument'
*
* A typical implmentation of the job callback is:
*
* ```C
* void my_job_cb(int signum, void *arg)
* {
* struct myarg_t *myarg = arg;
* if (signum)
* AFB_API_ERROR(myarg->api, "job interupted with signal %s", strsignal(signum));
* else
* really_do_my_job(myarg);
* }
* ```
*
* @param api the api that queue the job
* @param callback the job as a callback function
* @param argument the argument to pass to the queued job
* @param group the group of the job, NULL if no group
* @param timeout the timeout of execution of the job
*
* @return 0 in case of success or -1 in case of error with errno set appropriately.
*/
static inline
int afb_api_x3_queue_job(struct afb_api_x3 *api, void (*callback)(int signum, void *arg), void *argument, void *group, int timeout)
{
return api->itf->queue_job(api, callback, argument, group, timeout);
}
/**
* Tells that it requires the API of "name" to exist
* and if 'initialized' is not null to be initialized.
* Calling this function is only allowed within init.
*
* A single request allows to require multiple apis.
*
* @param api the api that requires the other api by its name
* @param name a space separated list of the names of the required api
* @param initialized if zero, the api is just required to exist. If not zero,
* the api is required to exist and to be initialized.
*
* @return 0 in case of success or -1 in case of error with errno set appropriately.
*/
static inline
int afb_api_x3_require_api(struct afb_api_x3 *api, const char *name, int initialized)
{
return api->itf->require_api(api, name, initialized);
}
/**
* Create an aliased name 'as_name' for the api 'name'.
* Calling this function is only allowed within preinit.
*
* @param api the api that requires the aliasing
* @param name the api to alias
* @param as_name the aliased name of the aliased api
*
* @return 0 in case of success or -1 in case of error with errno set appropriately.
*/
static inline
int afb_api_x3_add_alias(struct afb_api_x3 *api, const char *name, const char *as_name)
{
return api->itf->add_alias(api, name, as_name);
}
/**
* Broadcasts widely the event of 'name' with the data 'object'.
* 'object' can be NULL.
*
* For convenience, 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.
*
* Calling this function is only forbidden during preinit.
*
* The event sent as the name API/name where API is the name of the
* api.
*
* @param api the api that broadcast the event
* @param name the event name suffix
* @param object the object that comes with the event
*
* @return the count of clients that received the event.
*/
static inline
int afb_api_x3_broadcast_event(struct afb_api_x3 *api, const char *name, struct json_object *object)
{
return api->itf->event_broadcast(api, name, object);
}
/**
* Creates an event of 'name' and returns it.
*
* Calling this function is only forbidden during preinit.
*
* See afb_event_is_valid to check if there is an error.
*
* The event created as the name API/name where API is the name of the
* api.
*
* @param api the api that creates the event
* @param name the event name suffix
*
* @return the created event. Use the function afb_event_is_valid to check
* whether the event is valid (created) or not (error as reported by errno).
*
* @see afb_event_is_valid
*/
static inline
struct afb_event_x2 *afb_api_x3_make_event_x2(struct afb_api_x3 *api, const char *name)
{
return api->itf->event_make(api, name);
}
/**
* @deprecated try to use @ref afb_api_x3_call instead
*
* * Calls the 'verb' of the 'api' with the arguments 'args' and 'verb' in the name of the binding.
* The result of the call is delivered to the 'callback' function with the 'callback_closure'.
*
* For convenience, the function calls 'json_object_put' for 'args'.
* Thus, in the case where 'args' should remain available after
* the function returns, the function 'json_object_get' shall be used.
*
* The 'callback' receives 3 arguments:
* 1. 'closure' the user defined closure pointer 'closure',
* 2. 'status' a status being 0 on success or negative when an error occurred,
* 2. 'result' the resulting data as a JSON object.
*
* @param api The api
* @param apiname The api name of the method to call
* @param verb The verb name of the method to call
* @param args The arguments to pass to the method
* @param callback The to call on completion
* @param closure The closure to pass to the callback
*
* @see also 'afb_api_call'
* @see also 'afb_api_call_sync'
* @see also 'afb_api_call_sync_legacy'
* @see also 'afb_req_subcall'
* @see also 'afb_req_subcall_sync'
*/
static inline
void afb_api_x3_call_legacy(
struct afb_api_x3 *api,
const char *apiname,
const char *verb,
struct json_object *args,
void (*callback)(void *closure, int status, struct json_object *result, struct afb_api_x3 *api),
void *closure)
{
api->itf->legacy_call(api, apiname, verb, args, callback, closure);
}
/**
* @deprecated try to use @ref afb_api_x3_call_sync instead
*
* Calls the 'verb' of the 'api' with the arguments 'args' and 'verb' in the name of the binding.
* 'result' will receive the response.
*
* For convenience, the function calls 'json_object_put' for 'args'.
* Thus, in the case where 'args' should remain available after
* the function returns, the function 'json_object_get' shall be used.
*
* @param api The api
* @param apiname The api name of the method to call
* @param verb The verb name of the method to call
* @param args The arguments to pass to the method
* @param result Where to store the result - should call json_object_put on it -
*
* @returns 0 in case of success or a negative value in case of error.
*
* @see also 'afb_api_call'
* @see also 'afb_api_call_sync'
* @see also 'afb_api_call_legacy'
* @see also 'afb_req_subcall'
* @see also 'afb_req_subcall_sync'
*/
static inline
int afb_api_x3_call_sync_legacy(
struct afb_api_x3 *api,
const char *apiname,
const char *verb,
struct json_object *args,
struct json_object **result)
{
return api->itf->legacy_call_sync(api, apiname, verb, args, result);
}
/**
* Creates a new api of name 'apiname' briefly described by 'info' (that can
* be NULL).
*
* When the pre-initialization function is given, it is a function that
* receives 2 parameters:
*
* - the closure as given in the call
* - the created api that can be initialised
*
* This pre-initialization function must return a negative value to abort
* the creation of the api. Otherwise, it returns a non-negative value to
* continue.
*
* @param api the api that creates the other one
* @param apiname the name of the new api
* @param info the brief description of the new api (can be NULL)
* @param noconcurrency zero or not zero whether the new api is reentrant or not
* @param preinit the pre-initialization function if any (can be NULL)
* @param closure the closure for the pre-initialization \ref preinit
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_api_x3_delete_api
*/
static inline
struct afb_api_x3 *afb_api_x3_new_api(
struct afb_api_x3 *api,
const char *apiname,
const char *info,
int noconcurrency,
int (*preinit)(void*, struct afb_api_x3 *),
void *closure)
{
return api->itf->api_new_api(api, apiname, info, noconcurrency, preinit, closure);
}
/**
* @deprecated use @ref afb_api_x3_set_verbs_v3 instead
*
* Set the verbs of the 'api' using description of verbs of the api v2
*
* @param api the api that will get the verbs
* @param verbs the array of verbs to add terminated with an item with name=NULL
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_verb_v2
* @see afb_api_x3_add_verb
* @see afb_api_x3_set_verbs_v3
*/
static inline
int afb_api_x3_set_verbs_v2(
struct afb_api_x3 *api,
const struct afb_verb_v2 *verbs)
{
return api->itf->api_set_verbs_v2(api, verbs);
}
/**
* Add one verb to the dynamic set of the api
*
* @param api the api to change
* @param verb name of the verb
* @param info brief description of the verb, can be NULL
* @param callback callback function implementing the verb
* @param vcbdata data for the verb callback, available through req
* @param auth required authorization, can be NULL
* @param session authorization and session requirements of the verb
* @param glob is the verb glob name
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_verb_v3
* @see afb_api_x3_del_verb
* @see afb_api_x3_set_verbs_v3
* @see fnmatch for matching names using glob
*/
static inline
int afb_api_x3_add_verb(
struct afb_api_x3 *api,
const char *verb,
const char *info,
void (*callback)(struct afb_req_x2 *req),
void *vcbdata,
const struct afb_auth *auth,
uint32_t session,
int glob)
{
return api->itf->api_add_verb(api, verb, info, callback, vcbdata, auth, session, glob);
}
/**
* Delete one verb from the dynamic set of the api
*
* @param api the api to change
* @param verb name of the verb to delete
* @param vcbdata if not NULL will receive the vcbdata of the deleted verb
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_api_x3_add_verb
*/
static inline
int afb_api_x3_del_verb(
struct afb_api_x3 *api,
const char *verb,
void **vcbdata)
{
return api->itf->api_del_verb(api, verb, vcbdata);
}
/**
* Set the callback 'onevent' to process events in the name of the 'api'.
*
* This setting can be done statically using the global variable
* @ref afbBindingV3.
*
* This function replace any previously global event callback set.
*
* When an event is received, the callback 'onevent' is called with 3 parameters
*
* - the api that recorded the event handler
* - the full name of the event
* - the companion JSON object of the event
*
* @param api the api that wants to process events
* @param onevent the callback function that will process events (can be NULL
* to remove event callback)
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afbBindingV3
* @see afb_binding_v3
* @see afb_api_x3_event_handler_add
* @see afb_api_x3_event_handler_del
*/
static inline
int afb_api_x3_on_event(
struct afb_api_x3 *api,
void (*onevent)(struct afb_api_x3 *api, const char *event, struct json_object *object))
{
return api->itf->api_set_on_event(api, onevent);
}
/**
* Set the callback 'oninit' to process initialization of the 'api'.
*
* This setting can be done statically using the global variable
* @ref afbBindingV3
*
* This function replace any previously initialization callback set.
*
* This function is only valid during the pre-initialization stage.
*
* The callback initialization function will receive one argument: the api
* to initialize.
*
* @param api the api that wants to process events
* @param oninit the callback function that initialize the api
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afbBindingV3
* @see afb_binding_v3
*/
static inline
int afb_api_x3_on_init(
struct afb_api_x3 *api,
int (*oninit)(struct afb_api_x3 *api))
{
return api->itf->api_set_on_init(api, oninit);
}
/**
* Seal the api. After a call to this function the api can not be modified
* anymore.
*
* @param api the api to be sealed
*/
static inline
void afb_api_x3_seal(
struct afb_api_x3 *api)
{
api->itf->api_seal(api);
}
/**
* Set the verbs of the 'api' using description of verbs of the api v2
*
* @param api the api that will get the verbs
* @param verbs the array of verbs to add terminated with an item with name=NULL
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_verb_v3
* @see afb_api_x3_add_verb
* @see afb_api_x3_del_verb
*/
static inline
int afb_api_x3_set_verbs_v3(
struct afb_api_x3 *api,
const struct afb_verb_v3 *verbs)
{
return api->itf->api_set_verbs_v3(api, verbs);
}
/**
* Add a specific event handler for the api
*
* The handler callback is called when an event matching the given pattern
* is received (it is received if broadcasted or after subscription through
* a call or a subcall).
*
* The handler callback receive 4 arguments:
*
* - the closure given here
* - the event full name
* - the companion JSON object of the event
* - the api that subscribed the event
*
* @param api the api that creates the handler
* @param pattern the global pattern of the event to handle
* @param callback the handler callback function
* @param closure the closure of the handler
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_api_x3_on_event
* @see afb_api_x3_event_handler_del
*/
static inline
int afb_api_x3_event_handler_add(
struct afb_api_x3 *api,
const char *pattern,
void (*callback)(void *, const char*, struct json_object*, struct afb_api_x3*),
void *closure)
{
return api->itf->event_handler_add(api, pattern, callback, closure);
}
/**
* Delete a specific event handler for the api
*
* @param api the api that the handler belongs to
* @param pattern the global pattern of the handler to remove
* @param closure if not NULL it will receive the closure set to the handler
*
* @return 0 in case of success or -1 on failure with errno set
*
* @see afb_api_x3_on_event
* @see afb_api_x3_event_handler_add
*/
static inline
int afb_api_x3_event_handler_del(
struct afb_api_x3 *api,
const char *pattern,
void **closure)
{
return api->itf->event_handler_del(api, pattern, closure);
}
/**
* Calls the 'verb' of the 'api' with the arguments 'args' and 'verb' in the name of the binding.
* The result of the call is delivered to the 'callback' function with the 'callback_closure'.
*
* For convenience, the function calls 'json_object_put' for 'args'.
* Thus, in the case where 'args' should remain available after
* the function returns, the function 'json_object_get' shall be used.
*
* The 'callback' receives 5 arguments:
* 1. 'closure' the user defined closure pointer 'closure',
* 2. 'object' a JSON object returned (can be NULL)
* 3. 'error' a string not NULL in case of error but NULL on success
* 4. 'info' a string handling some info (can be NULL)
* 5. 'api' the api
*
* @param api The api that makes the call
* @param apiname The api name of the method to call
* @param verb The verb name of the method to call
* @param args The arguments to pass to the method
* @param callback The to call on completion
* @param closure The closure to pass to the callback
*
*
* @see afb_req_subcall
* @see afb_req_subcall_sync
* @see afb_api_x3_call_sync
*/
static inline
void afb_api_x3_call(
struct afb_api_x3 *api,
const char *apiname,
const char *verb,
struct json_object *args,
void (*callback)(void *closure, struct json_object *object, const char *error, const char * info, struct afb_api_x3 *api),
void *closure)
{
api->itf->call(api, apiname, verb, args, callback, closure);
}
/**
* Calls the 'verb' of the 'api' with the arguments 'args' and 'verb' in the name of the binding.
* 'result' will receive the response.
*
* For convenience, the function calls 'json_object_put' for 'args'.
* Thus, in the case where 'args' should remain available after
* the function returns, the function 'json_object_get' shall be used.
*
* @param api The api that makes the call
* @param apiname The api name of the method to call
* @param verb The verb name of the method to call
* @param args The arguments to pass to the method
* @param object Where to store the returned object - should call json_object_put on it - can be NULL
* @param error Where to store the copied returned error - should call free on it - can be NULL
* @param info Where to store the copied returned info - should call free on it - can be NULL
*
* @returns 0 in case of success or a negative value in case of error.
*
* @see afb_req_subcall
* @see afb_req_subcall_sync
* @see afb_api_x3_call
*/
static inline
int afb_api_x3_call_sync(
struct afb_api_x3 *api,
const char *apiname,
const char *verb,
struct json_object *args,
struct json_object **object,
char **error,
char **info)
{
return api->itf->call_sync(api, apiname, verb, args, object, error, info);
}
/**
* Tells that the api provides a class of features. Classes are intended to
* allow ordering of initializations: apis that provides a given class are
* initialized before apis requiring it.
*
* This function is only valid during the pre-initialization stage.
*
* @param api the api that provides the classes
* @param name a space separated list of the names of the provided classes
*
* @returns 0 in case of success or a negative value in case of error.
*
* @see afb_api_x3_require_class
*/
static inline
int afb_api_x3_provide_class(
struct afb_api_x3 *api,
const char *name)
{
return api->itf->class_provide(api, name);
}
/**
* Tells that the api requires a set of class features. Classes are intended to
* allow ordering of initializations: apis that provides a given class are
* initialized before apis requiring it.
*
* This function is only valid during the pre-initialization stage.
*
* @param api the api that requires the classes
* @param name a space separated list of the names of the requireded classes
*
* @returns 0 in case of success or a negative value in case of error.
*
* @see afb_api_x3_provide_class
*/
static inline
int afb_api_x3_require_class(
struct afb_api_x3 *api,
const char *name)
{
return api->itf->class_require(api, name);
}
/**
* Delete the given api.
*
* It is of the responsibility of the caller to don't used the deleted api
* anymore after this function returned.
*
* @param api the api to delete
*
* @returns 0 in case of success or a negative value in case of error.
*
* @see afb_api_x3_new_api
*/
static inline
int afb_api_x3_delete_api(
struct afb_api_x3 *api)
{
return api->itf->delete_api(api);
}