-/*!
-\page inside_extending Extending SimGrid
-
-\tableofcontents
-
-\section simgrid_dev_guide_model How to add a new model in surf?
-The figure below show the architecture of the SURF layer. This layer is composed
-of different kind of models representing the differents systems we want to
-modelize (i.e.cpu, network, storage, workstation, virtual machine).
-
-A model in simgrid is composed of three classes: Model, Resource and Action
-(surf_interface.hpp).
-
-\image html surf++.png
-\image latex surf++.pdf "surf++" width=\textwidth
-
-Actually there are five kind of models: CpuModel, NetworkModel, WorkstationModel,
-WorkstationVMModel and StorageModel. For each kind of model, there is an
-interface (e.g.: cpu_interface.hpp) and some implementations (e.g.: cpu_cas01.hpp,
-cpu_ti.hpp).
-
-init function:
-void surf_cpu_model_init_Cas01()
-s_surf_model_description_t surf_network_model_description[] = {
-
-\subsection simgrid_dev_guide_model_implem How to add a new model implementation in surf?
-
-If you want to create a new implementation of a kind of model you must extend
-the classes of the corresponding interfaces.
-
-For instance, if you want to add a new cup model called `Plop`, create two files
-cpu_plop.hpp and cpu_plop_cpp which contains classes CpuPlopModel, CpuPlop and
-CpuPlopAction implementating respectively the interfaces CpuModel, Cpu and
-CpuAction. You also need to define a initializing function like this:
-
-~~~~
-void surf_cpu_model_init_plop()
-{
- xbt_assert(!surf_cpu_model_pm);
-
- surf_cpu_model_pm = new CpuPlopModel();
-
- sg_platf_host_add_cb(cpu_parse_init);
- sg_platf_postparse_add_cb(cpu_add_traces);
-
- xbt_dynar_push(model_list, &surf_cpu_model_pm);
+/**
+@page inside_extending Extending SimGrid
+
+@tableofcontents
+
+@section simgrid_dev_guide_generic_simcall The modern SimCall interface
+
+We now have some generic simcalls which can be used to interface with the
+Maestro without creating new simcalls. You might want to use them instead of
+the defining additional simcalls. The long term goal is to replace most of
+the simcalls with the generic ones.
+
+For simcalls which never block, `kernelImmediate()` can be used. It takes a
+C++ callback executes it in maestro. Any value returned by the callback is
+returned by `kernelImmediate()`. Conversely, if the callback throws an
+exception, this exception is propagated out of `kernelImmediate()`. Executing
+the code in maestro enforces mutual exclusion (no other user process is running)
+and enforce a deterministic order which guarantees the reproducibility of the
+simulation. This call is particularly useful for implementing mutable calls:
+
+~~~
+void Host::setProperty(const char*key, const char *value){
+ simgrid::simix::kernelImmediate([&] {
+ simgrid::kernel::resource::HostImpl* host =
+ this->extension<simgrid::kernel::resource::HostImpl>();
+ host->setProperty(key,value);
+ });
}
-~~~~
-
-and add an entry in the corresponding array in surf_interface.cpp
-
-~~~~
-s_surf_model_description_t surf_cpu_model_description[] = {
- {"Cas01",
- "Simplistic CPU model (time=size/power).",
- surf_cpu_model_init_Cas01},
- {"Plop",
- "The new plop CPU model.",
- surf_cpu_model_init_plop},
- {NULL, NULL, NULL} // this array must be NULL terminated
-};
-~~~~
-
-\subsection simgrid_dev_guide_model_kind How to add a new kind of model in surf?
-
-If you want to create a new kind of model, you must create a new interface
-where you extend the classes Model, Resource and Action, and then create an
-implementation of this interface.
-
-
-\section simgrid_dev_guide_surf_callbacks How to use surf callbacks?
-
-Adding features to surf could also be handle by using surf callbacks (instead
-of adding new implementation model). The list of available callbacks is
-accessible there \ref SURF_callbacks. An example of using surf callbacks is the
-energy plugin. If you want to add a plugin you need to define callback function
-and to connect them to callbacks handler in an initialization function.
-
-~~~~
-static void MyNetworkLinkCreatedCallback(NetworkLinkPtr cpu){
- // your code
-}
-
-static void MyNetworkLinkDestructedCallback(NetworkLinkPtr cpu){
- // your code
-}
-
-static void MyNetworkCommunicationCallback(NetworkActionPtr cpu,
- RoutingEdgePtr src,
- RoutingEdgePtr dst){
- // your code
+~~~
+
+If there is no blocking and no mutation involved (getters), you might consider
+avoiding switching to Maestro and reading directly the data you're interested
+in.
+
+For simcalls which might block, `kernel_sync()` can be used. It takes a
+C++ callback and executes it immediately in maestro. This C++ callback is
+expected to return a `simgrid::kernel::Future<T>` reprensenting the operation
+in the kernel. When the operations completes, the user process is waken up
+with the result:
+
+~~~
+try {
+ std::vector<char> result = simgrid::simix::kernel_sync([&] {
+ // Fictional example, simgrid::kernel::readFile does not exist.
+ simgrid::kernel::Future<std::vector<char>> result = simgrid::kernel::readFile(file);
+ return result;
+ });
+ XBT_DEBUG("Finished reading file %s: length %zu", file, result.size());
}
-
-void sg_my_network_plugin_init() {
- surf_callback_connect(networkLinkCreatedCallbacks,
- MyNetworkLinkCreatedCallback);
- surf_callback_connect(networkLinkDestructedCallbacks,
- MyNetworkLinkDestructedCallback);
- surf_callback_connect(networkCommunicationCallbacks,
- MyNetworkCommunicationCallback);
+// If the operation failed, kernel_sync() throws an exception:
+catch (std::runtime_error& e) {
+ XBT_ERROR("Could not read file %s", file);
}
-~~~~
+~~~
-Then you need to add an entry in surf_interface.cpp refering to your
-initialization function.
+Asynchronous blocks can be implemented with `kernel_async()`. It works
+like `kernel_sync()` but does not block. Instead, it returns a
+`simgrid::simix::Future` representing the operation in the process:
-~~~~
-s_surf_model_description_t surf_plugin_description[] = {
- {"Energy",
- "Cpu energy consumption.",
- sg_energy_plugin_init},
- {"MyNetworkPlugin",
- "My network plugin.",
- sg_my_network_plugin_init},
- {NULL, NULL, NULL} // this array must be NULL terminated
+~~~
+simgrid::simix::Future<std:vector<char>> result = simgrid::simix::kernel_sync([&] {
+ // Fictional example, simgrid::kernel::readFile does not exist.
+ simgrid::kernek::Future<std::vector<char>> result = simgrid::kernel::readFile(file);
+ return result;
};
-~~~~
-
-\section simgrid_dev_guide_simcall How to add a new simcall?
-A simcall is used to go from user mode to kernel mode. The workflow of
-a simcall is the following:
-
-- `<ret> simcall_<name>(<args>)`
- - `simcall_BODY_<name>(<args>)`
- - create the simcall
- - `SIMIX_process_yield` if not maestro
- - ========== KERNEL MODE ==========
- - `SIMIX_simcall_pre`
- - `SIMIX_pre_<name>(simcall, <args>)`
- - `SIMIX_simcall_answer(simcall)`
-To simplify the simcall creation, we have made a python script that
-generate most of the code and give helpers for the remaining stuff.
-The script generating the simcalls (src/simix/simcalls.in) take in input
-the src/simix/simcalls.in file where the simcalls are defined and generate
-the following files:
+// Do some work while the operation is pending:
+while (!result.is_ready() && hasWorkToDo())
+ doMoreWork();
-- simcall_generated_args_getter_setter.h:
- functions to get and set simcall arguments
-- simcall_generated_res_getter_setter.h:
- functions to get and set simcall result
-- simcall_generated_body.c:
- the BODY function of the simcall
-- simcall_generated_case.c:
- the case of the SIMIX_simcall_pre function
-- simcall_generated_enum.h:
- the enum of simcalls
-- simcall_generated_string.c:
- string corresponding to the enum to debug
-
-Furthermode if the simcall_<name> or the SIMIX_pre_<name> function are missing,
-a warning will show up with a prototype of the corresponding fonction to fill.
-
-The simcall.in file list all the simcalls in sections. A line starting by "##"
-define a new section which will be replace by a "ifdef" in the generated code.
-There is a simcall by line which follow this format:
+// We don't have anything to do, wait for the operation to complete and
+// get its value:
+try {
+ std:vector<char> data = result.get();
+ XBT_DEBUG("Finished reading file %s: length %zu", file, data.size());
+}
+// If the operation failed, .get() throws an exception:
+catch (std::runtime_error& e) {
+ XBT_ERROR("Could not read file %s", file);
+}
+~~~
-~~~~
-Simcall -> Name HasAnswer Res Args
-Name -> [a-z0-9_]+
-Has_Answer -> "True" | "False"
-Res -> "(" Type MaybeCast ")"
-Args -> Args Arg | Arg
-Arg -> "(" Name "," Type MaybeCast ")"
-Type -> "char" | "const char*" | "int" | "long" | "unsigned char" | "unsigned short" | "unsigned int" | "unsigned long" | "float" | "double" | "void*" | "FPtr" | "const void*" | "size_t" | "sg_size_t" | "void" | "void*"
-MaybeCast -> "," Cast | ""
-Cast -> [a-z0-9_* ]+
-~~~~
+<b>Note:</b> `kernel_sync(f)` could be implemented as `kernel_async(f).get()`.
-\section simgrid_dev_guide_tag What is How to add a new tag for xml files?
-Search for expression \"TUTORIAL: New TAG\".
-\verbatim
-user@caraja:~/workspace/simgrid/src$ cg "TUTORIAL: New TAG"
-0 surf/sg_platf.c 43 /* TUTORIAL: New TAG*/
-1 surf/sg_platf.c 89 /* TUTORIAL: New TAG*/
-2 surf/sg_platf.c 124 /* TUTORIAL: New TAG*/
-3 surf/sg_platf.c 337 /* TUTORIAL: New TAG*/
-4 surf/surfxml_parse.c 769 /* TUTORIAL: New TAG*/
-5 surf/surf_private.h 205 /* TUTORIAL: New TAG*/
-6 surf/surfxml_parseplatf.c 64 /* TUTORIAL: New TAG*/
-7 surf/surfxml_parseplatf.c 85 /* TUTORIAL: New TAG*/
-8 include/simgrid/platf_interface.h 42 /* TUTORIAL: New TAG*/
-\endverbatim
*/