From 48196b82c33f2c53e06494998318b4d7d13766a3 Mon Sep 17 00:00:00 2001 From: Romain Forlot Date: Fri, 14 Dec 2018 17:55:39 +0100 Subject: Reformating lines to be 80 characters long maximum Change-Id: I82089520073f4d6eee72f702af52743c38afbbeb Signed-off-by: Romain Forlot --- docs/controller.md | 36 +++++--- docs/controllerConfig.md | 225 +++++++++++++++++++++++++++++------------------ 2 files changed, 163 insertions(+), 98 deletions(-) (limited to 'docs') diff --git a/docs/controller.md b/docs/controller.md index bf0a3c2..24abcea 100644 --- a/docs/controller.md +++ b/docs/controller.md @@ -1,31 +1,43 @@ # Controller -* Object: Generic Controller to handle Policy,Small Business Logic, Glue in between components, ... +* Object: Generic Controller to handle Policy, Small Business Logic, Glue in + between components, ... * Status: Release Candidate * Author: Fulup Ar Foll fulup@iot.bzh * Date : May-2018 ## Features -* Create a controller application from a JSON config file * Create a controller application from a JSON config file. * A controller could be considered as a collection of actions that could be mapped to a dynamically created verb or when receiving an event from any other API. * Actions can either be: - * Invocation of an other binding API, either internal or external (eg: a policy service, Alsa UCM, ...) - * C routines from a user provided plugin (eg: policy routine, proprietary code, ...) - * Lua script function. Lua provides access to every AGL appfw functionality and can be extended by plugins written in C. + * Invocation of an other binding API, either internal or external (eg: a + policy service, Alsa UCM, ...) + * C routines from a user provided plugin (eg: policy routine, proprietary code + , ...) + * Lua script function. Lua provides access to every AGL appfw functionality + and can be extended by plugins written in C. ## Installation -* Controller can easily be included as a git submodule in any AGL service or application binder. -* Dependencies: the only dependencies are AGL application framework (https://gerrit.automotivelinux.org/gerrit/p/src/app-framework-binder.git) and app-afb-helpers-submodule (https://gerrit.automotivelinux.org/gerrit/p/apps/app-afb-helpers-submodule.git). -* Controller relies on Lua-5.3, when not needed Lua might be removed at compilation time. +* Controller can easily be included as a git submodule in any AGL service or + application binder. +* Dependencies: the only dependencies are [AGL application framework](https://gerrit.automotivelinux.org/gerrit/p/src/app-framework-binder.git) + and [app-afb-helpers-submodule](https://gerrit.automotivelinux.org/gerrit/p/apps/app-afb-helpers-submodule.git). +* Controller relies on Lua-5.3, when not needed Lua might be removed at + compilation time. ## Monitoring -* The default test HTML page expect the monitoring HTML page to be accessible under /monitoring with the --monitoring option. -* The monitoring HTML pages are installed with the app framework binder in a subdirectory called monitoring. -* You can add other HTML pages with the alias options e.g. afb-daemon --port=1234 --monitoring --alias=/path1/to/htmlpages:/path2/to/htmlpages --ldpaths=. --workdir=. --roothttp=../htdocs -* The monitoring is accessible at http://localhost:1234/monitoring. \ No newline at end of file +* The default test HTML page expect the monitoring HTML page to be accessible + under /monitoring with the --monitoring option. +* The monitoring HTML pages are installed with the app framework binder in a + subdirectory called monitoring. +* The monitoring is accessible at `http://localhost:1234/monitoring`. +* You can add other HTML pages with the alias options i.e: + +```bash +afb-daemon --name afb-my-binding --port=1234 --monitoring --alias=/path1/to/htmlpages:/path2/to/htmlpages --ldpaths=. --workdir=. --roothttp=../htdocs +``` diff --git a/docs/controllerConfig.md b/docs/controllerConfig.md index cf3c007..d260db7 100644 --- a/docs/controllerConfig.md +++ b/docs/controllerConfig.md @@ -28,40 +28,46 @@ any other file corresponding to the same path is ignored and only generates a wa Each block in the configuration file is defined with -* **uid**: mandatory, it is used either for debugging or as input for the action (eg: signal name, control name, ...) +* **uid**: mandatory, it is used either for debugging or as input for the action + (eg: signal name, control name, ...) * **info**: optional, it is used for documentation purpose only -> **Note**: by default the controller config search path is defined at compilation time, but the path might be overloaded with the **CONTROL_CONFIG_PATH** -> environment variable. +> **Note**: by default the controller config search path is defined at +> compilation time, but the path might be overloaded with the +> **CONTROL_CONFIG_PATH** environment variable. -## Config is organised in sections +## Configuration is organised in sections * **metadata**: describes the configuration * **plugins or resources**: defines the plugins to be loaded as additionnal resources (compiled C or lua). * **onload**: a collection of actions meant to be executed at startup time -* **control**: sets the controls with a collection of actions, in dynamic api it could also specify the verbs of the api -* **event**: a collection of actions meant to be executed when receiving a given signal +* **control**: sets the controls with a collection of actions, in dynamic api it + could also specify the verbs of the api +* **event**: a collection of actions meant to be executed when receiving a given + signal * **personnal sections**: personnal section -Callbacks to parse sections are documented in [Declare your controller config section in your binding](<#3_Declare_your_controller_config_section_in_your_binding>) section. You can use the callback defined in controller or define your own callback. +Callbacks to parse sections are documented in [Declare your controller config section in your binding](<#3_Declare_your_controller_config_section_in_your_binding>) +section. You can use the callback defined in controller or define your own +callback. ## Metadata -As today matadata is only used for documentation purpose. +As today metadata is only used for documentation purpose. * **uid**: mandatory * **version**: mandatory -* **api**: mandatory +* **api**: mandatory, string which named the API to be created * **info**: optional -* **require**: optional +* **require**: optional, string or array of strings of dependants API's names. * **author**: optional * **date**: optional ## OnLoad section -Onload section defines startup time configuration. Onload may provide multiple initialisation -profiles, each with a different uid. +Onload section defines startup time configuration. Onload may provide multiple +initialisation profiles, each with a different uid. You can define the following keys or arrays of the following keys: @@ -84,14 +90,15 @@ this section could be verb api: explained in the later [Action Elements](<#Action Elements>) chapter. * **args**: optionnal, action's arguments. -## Event section +## Events section -Event section defines a list of actions to be executed on event reception. Event can do -anything a controller can (change state, send back signal, ...) +Events section defines a list of actions to be executed on event reception. +Event can do anything a controller can (change state, send back signal, ...) eg: if a controller subscribes to vehicle speed, then speed-event may adjust master-volume to speed. -You can define the following keys or arrays of the following keys, moreover you can define an event from an another API with the following syntax "API/event". +You can define the following keys or arrays of the following keys, moreover you +can define an event from an another API with the following syntax "API/event". * **uid**: mandatory must match an event name with format **api/event_name**, i.e: **low-can/messages.engine.speed** @@ -102,15 +109,17 @@ You can define the following keys or arrays of the following keys, moreover you ## Plugin section -Plugin section defines plugins used with this controller. A plugin is a C/C++ program meant to -execute some tasks after an event or on demand. This easily extends intrinsec -binding logic for ad-hoc needs. +Plugin section defines plugins used with this controller. A plugin is a C/C++ +program meant to execute some tasks after an event or on demand. This easily +extends intrinsec binding logic for ad-hoc needs. You can define the following keys or arrays of the following keys: * **uid**: mandatory * **info**: optionnal -* **spath**: optionnal, semicolon separated paths where to find the plugin. This could be a compiled shared library or LUA scripts. Could be specified using CONTROL_PLUGIN_PATH environment variable also. +* **spath**: optionnal, semicolon separated paths where to find the plugin. This + could be a compiled shared library or LUA scripts. Could be specified using + **CONTROL_PLUGIN_PATH** environment variable also. * **libs**: mandatory, Plugin file or LUA scripts to load * **lua**: optionnal, a JSON object listing C functions that could be called from a LUA script and could prefixed. @@ -126,20 +135,30 @@ You can define the following keys or arrays of the following keys: * **args**: optionnal, action's arguments. * **any keys wanted**: optionnal -You can define your own sections and add your own callbacks into the -CtlSectionT structure, see -[Declare your controller config section in your binding](<#3_Declare_your_controller_config_section_in_your_binding>) section. +You can define your own sections and add your own callbacks into the CtlSectionT +structure, see [Declare your controller config section in your binding](<#3_Declare_your_controller_config_section_in_your_binding>) +section. -## Actions Categories +## Action Elements Controller supports three categories of actions. Each action returns a status where 0=success and 1=failure. -* **AppFw API** provides a generic model to request other bindings. Requested bindings can be local (eg: ALSA/UCM) or external (eg: vehicle signalling). +* **AppFw API** provides a generic model to request other bindings. Requested + bindings can be local (eg: ALSA/UCM) or external (eg: vehicle signalling). * `"action": "api://API_NAME#verb_name"` -* C-API, when defined in the onload section, the plugin may provide C native API with `CTLP-CAPI(apiname, uid, args, query, context)`. Plugin may also create Lua command with `CTLP-LUA2C(LuaFuncName, uid, args, query, context)`. Where `args`+`query` are JSON-C object and context is the returned value from `CTLP_ONLOAD` function. Any missing value is set to NULL. +* C-API, when defined in the onload section, the plugin may provide C native API + with `CTLP-CAPI(apiname, uid, args, query, context)`. Plugin may also create + Lua command with `CTLP-LUA2C(LuaFuncName, uid, args, query, context)`. Where + `args`+`query` are JSON-C object and context is the returned value from + `CTLP_ONLOAD` function. Any missing value is set to NULL. * `"action": "plugin://plugin_name#function_name"` -* Lua-API, when compiled with Lua option, the controller supports action defined directly in Lua script. During "*onload*" phase, the controller searches in `CONTROL_LUA_PATH` file with pattern "(prefix-)bindermiddlename*.lua". Any file corresponding to this pattern is automatically loaded. Any function defined in those Lua scripts can be called through a controller action. Lua functions receive three parameters (uid, args, query). +* Lua-API, when compiled with Lua option, the controller supports action defined + directly in Lua script. During "*onload*" phase, the controller searches in + `CONTROL_LUA_PATH` file with pattern "(prefix-)bindermiddlename*.lua". Any file + corresponding to this pattern is automatically loaded. Any function defined in + those Lua scripts can be called through a controller action. Lua functions + receive three parameters (uid, args, query). * `"action": "lua://plugin_name#function_name"` You also can add the **privileges** property that handles AGL permission @@ -152,102 +171,136 @@ the plugin uid or the one you defined in your config (eg: MyPlug:HelloWorld1). ## Available Application Framework Commands -Each Lua AppFw commands should be prefixed by AFB: +Each LUA AppFw commands should be prefixed by AFB: -* `AFB:notice ("format", arg1,... argn)` directly printed LUA tables as json string with '%s'. - `AFB:error`, `AFB:warning`, `AFB:info`, `AFB:debug` work on the same model. Printed messages are limited to 512 characters. +* `AFB:notice ("format", arg1,... argn)` directly printed LUA tables as json + string with '%s'. `AFB:error`, `AFB:warning`, `AFB:info`, `AFB:debug` work on + the same model. Printed messages are limited to 512 characters. -* `AFB:service ('API', 'VERB', {query}, "Lua_Callback_Name", {context})` is an asynchronous call to another binding. When empty, query/context should be set to '{}' - and not to 'nil'. When 'nil', Lua does not send 'NULL' value but removes arguments to calling stack. WARNING:"Callback" - is the name of the callback as a string and not a pointer to the callback. (If someone as a solution to fix this, please - let me known). Callback is call as LUA "function Alsa_Get_Hal_CB (error, result, context)" where: +* `AFB:service ('API', 'VERB', {query}, "Lua_Callback_Name", {context})` is an + asynchronous call to another binding. When empty, query/context should be set + to '{}' and not to 'nil'. When 'nil', Lua does not send 'NULL' value but + removes arguments to calling stack. WARNING:"Callback" is the name of the + callback as a string and not a pointer to the callback. (If someone as a + solution to fix this, please let me known). Callback is call as LUA + "function Alsa_Get_Hal_CB (error, result, context)" where: * error is a Boolean * result is the full answer from AppFw (do not forget to extract the response) - * context is a copy of the Lua table pass as an argument (warning it's a copy not a pointer to original table) + * context is a copy of the Lua table pass as an argument (warning it's a copy + not a pointer to original table) -* `error,result=AFB:servsync('API', 'VERB', {query})` is saved as previous but for synchronous call. Note that Lua accepts multiple - returns. AFB:servsync returns both the error message and the response as a Lua table. Like for AFB:service, the user should not - forget to extract response from result. +* `error,result=AFB:servsync('API', 'VERB', {query})` is saved as previous but + for synchronous call. Note that Lua accepts multiple returns. AFB:servsync + returns both the error message and the response as a Lua table. Like for + AFB:service, the user should not forget to extract response from result. -* `AFB:success(request, response)` is the success request. request is the opaque handle passes when Lua is called from (api="control", verb="docall"). - Response is a Lua table that will be returned to the client. +* `AFB:success(request, response)` is the success request. request is the opaque + handle passes when Lua is called from (api="control", verb="docall"). Response + is a Lua table that will be returned to the client. -* `AFB:fail(request, response)` is the same as for success. Note that LUA generates automatically the error code from Lua function name. - The response is transformed into a json string before being returned to the client. +* `AFB:fail(request, response)` is the same as for success. Note that LUA + generates automatically the error code from Lua function name. The response + is transformed into a json string before being returned to the client. -* `EventHandle=AFB:evtmake("MyEventName")` creates an event and returns the handle as an opaque handle. Note that due to a limitation - of json_object, this opaque handle cannot be passed as an argument in a callback context. +* `EventHandle=AFB:evtmake("MyEventName")` creates an event and returns the + handle as an opaque handle. Note that due to a limitation of json_object, this + opaque handle cannot be passed as an argument in a callback context. -* `AFB:subscribe(request, MyEventHandle)` subscribes a given client to a previously created event. +* `AFB:subscribe(request, MyEventHandle)` subscribes a given client to a + previously created event. -* `AFB:evtpush (MyEventHandle, MyEventData)` pushes an event to every subscribed client. MyEventData is a Lua table that will be - sent as a json object to the corresponding clients. +* `AFB:evtpush (MyEventHandle, MyEventData)` pushes an event to every subscribed + client. MyEventData is a Lua table that will be sent as a json object to the + corresponding clients. -* `timerHandle=AFB:timerset (MyTimer, "Timer_Test_CB", context)` initialises a timer from MyTimer Lua table. This table should contains 3 elements: - MyTimer={[l"abel"]="MyTimerName", ["delay"]=timeoutInMs, ["count"]=nBOfCycles}. Note that if count==0 then timer is cycled - infinitely. Context is a standard Lua table. This function returns an opaque handle to be used to further control the timer. +* `timerHandle=AFB:timerset (MyTimer, "Timer_Test_CB", context)` initialises a + timer from MyTimer Lua table. This table should contains 3 elements: + MyTimer={[l"abel"]="MyTimerName", ["delay"]=timeoutInMs, ["count"]=nBOfCycles} + Note that if count==0 then timer is cycled infinitely. Context is a standard + Lua table. This function returns an opaque handle to be used to further + control the timer. -* `AFB:timerclear(timerHandle)` kills an existing timer. Returns an error when timer does not exit. +* `AFB:timerclear(timerHandle)` kills an existing timer. Returns an error when + timer does not exit. -* `MyTimer=AFB:timerget(timerHandle)` returns uid, delay and count of an active timer. Returns an error when timerHandle does not - point on an active timer. +* `MyTimer=AFB:timerget(timerHandle)` returns uid, delay and count of an active + timer. Returns an error when timerHandle does not point on an active timer. * `AFB:GetEventLoop()` retrieves the common systemd's event loop of AFB. -* `AFB:RootDirGetFD()` gets the root directory file descriptor. This file descriptor can be used with functions 'openat', 'fstatat', ... +* `AFB:RootDirGetFD()` gets the root directory file descriptor. This file + descriptor can be used with functions 'openat', 'fstatat', ... -> **Note**: Except for functions call during binding initialisation period. Lua calls are protected and should returned clean messages -> even when they are improperly used. If you find bug please report. +> **Note**: Except for functions call during binding initialisation period. Lua +> calls are protected and should returned clean messages even when they are +> improperly used. If you find bug please report. ## Adding Lua command from User Plugin -User Plugin is optional and may provide either native C-action accessible directly from controller actions as defined in -JSON config file, or alternatively may provide a set of Lua commands usable inside any script (onload, control,event). A simple -plugin that provides both notice C API and Lua commands is provided as example (see ctl-plugin-sample.c). Technically a -plugin is a simple sharelibrary and any code fitting in sharelib might be used as a plugin. Developer should nevertheless -not forget that except when no-concurrency flag was at binding construction time, any binding should to be thread safe. - -A plugin must be declared with `CTLP_REGISTER("MyCtlSamplePlugin")`. This entry point defines a special structure that is checked -at plugin load time by the controller. Then you have an optional init routine declare with `CTLP_ONLOAD(plugin, handle)`. - The init routine may create -a plugin context that is later presented to every plugin API, this for both LUA and native C ones. Then each: - -* C API declare with `CTLP_CAPI(MyCFunction, source, argsJ, queryJ) {your code}`. Where: +User Plugin is optional and may provide either native C-action accessible +directly from controller actions as defined in JSON config file, or +alternatively may provide a set of Lua commands usable inside any script (onload +, control,event). A simple plugin that provides both notice C API and Lua +commands is provided as example (see ctl-plugin-sample.c). Technically a plugin +is a simple sharelibrary and any code fitting in sharelib might be used as a +plugin. Developer should nevertheless forget that except when no-concurrency +flag was at binding construction time, any binding should to be thread safe. + +A plugin must be declared with `CTLP_REGISTER("MyCtlSamplePlugin")`. This +entry point defines a special structure that is checked at plugin load time by +the controller. Then you have an optional init routine declare with +`CTLP_ONLOAD(plugin, handle)`. The init routine may create a plugin context that +is later presented to every plugin API, this for both LUA and native C ones. +Then each: + +* C API declare with `CTLP_CAPI(MyCFunction, source, argsJ, queryJ) {your code}`. + Where: * **MyFunction** is your function * **source** is the structure config - * **argsJ** a json_object containing the argument attaches to this control in JSON config file + * **argsJ** a json_object containing the argument attaches to this control in + JSON config file * **queryJ** a json_object -* Lua API declare with `CTLP_LUA2C(MyLuaCFunction, source, argsJ, responseJ) {your code}`. Where +* Lua API declare with `CTLP_LUA2C(MyLuaCFunction, source, argsJ, responseJ) {your code}`. + Where: * **MyLuaCFunction** is both the name of your C function and Lua command * **source** is the structure config - * **argsJ** the arguments passed this time from Lua script and not from Json config file. + * **argsJ** the arguments passed this time from Lua script and not from JSON + config file. * **responseJ** if success the argument is passed into the request. -> **Warning**: Lua samples use with controller enforce strict mode. As a result every variable should be declared either as -> local or as global. Unfortunately "luac" is not smart enough to handle strict mode at build time and errors only appear -> at run time. Because of this strict mode every global variables (which include functions) should be prefixed by '_'. -> Note that LUA requires an initialisation value for every variables and declaring something like "local myvar" will not -> allocate "myvar". +> **Warning**: Lua samples use with controller enforce strict mode. As a result +> every variable should be declared either as local or as global. Unfortunately +> "luac" is not smart enough to handle strict mode at build time and errors only +> appear at run time. Because of this strict mode every global variables (which +> include functions) should be prefixed by '_'. Note that LUA requires an +> initialisation value for every variables and declaring something like +> "local myvar" will not allocate "myvar". ## Debugging Facilities -Controller Lua scripts are checked for syntax from CMAKE template with Luac. When needed to go further, a developer API should be allowed to -execute directly Lua commands within the controller context from Rest/Ws (api=control, verb=lua_doscript). DoScript API takes two -other optional arguments func=xxxx where xxxx is the function to execute within Lua script and args, a JSON object to provide -input parameters. When funcname is not given by default, the controller tries to execute middle filename doscript-xxxx-????.lua. +Controller Lua scripts are checked for syntax from CMAKE template with Luac. +When needed to go further, a developer API should be allowed to execute directly +Lua commands within the controller context from Rest/Ws (api=control, +verb=lua_doscript). DoScript API takes two other optional arguments func=xxxx +where xxxx is the function to execute within Lua script and args, a JSON object +to provide input parameters. When funcname is not given by default, the +controller tries to execute middle filename doscript-xxxx-????.lua. -When executed from the controller, Lua script may use any AppFw Apis as well as any L2C user defines commands in plugin. +When executed from the controller, Lua script may use any AppFw Apis as well as +any L2C user defines commands in plugin. ## Running as Standalone Controller -The controller is a standard binding. It can be started with the following command: +The controller is a standard binding. It can be started with the following +command: ```bash afb-daemon --name=yourname --port=1234 --workdir=. --roothttp=./htdocs --tracereq=common --token= --verbose --binding=pathtoyourbinding.so --monitoring ``` -Afb-Daemon only loads controller bindings without searching for the other -binding. In this case, the controller binding will search for a configuration file -name '(prefix-)bindermiddlename*.json'. This model can be used to implement for testing -purpose or simply to act as the glue between a UI and other binder/services. +afb-daemon only loads controller bindings without searching for the other +binding. In this case, the controller binding will search for a configuration +file name '(prefix-)bindermiddlename*.json'. This model can be used to implement +for testing purpose or simply to act as the glue between a UI and other +binder/services. -- cgit 1.2.3-korg