Commit 141d694b authored by Maxime Perrotin's avatar Maxime Perrotin

Add buildsupport code

parents
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GCCVERSION := $(shell gcc -v 2>&1 | grep ada | wc -l)
UNAME := $(shell uname)
VERSION=0.1
exec = buildsupport
sources = $(wildcard ada/*.ad? c/*.c include/*.h)
all: checkVersion $(exec)
checkVersion:
#ifeq ($(UNAME),Linux)
# @if [ $(GCCVERSION) -ne 1 ] ; then echo gcc must point to GNAT... check your PATH ; exit 1 ; fi
#endif
$(exec): $(sources)
ifeq ($(UNAME), Linux)
@echo "package buildsupport_version is" > ada/buildsupport_version.ads.new
@echo -n "buildsupport_release : constant string := \"" >> ada/buildsupport_version.ads.new
@svnversion -n . >> ada/buildsupport_version.ads.new
@echo "\";" >> ada/buildsupport_version.ads.new
@echo -n "end buildsupport_version;" >> ada/buildsupport_version.ads.new
@if [ ! -f "ada/buildsupport_version.ads" ] ; then \
mv ada/buildsupport_version.ads.new ada/buildsupport_version.ads; \
else \
MD1=`cat ada/buildsupport_version.ads | md5sum` ; \
MD2=`cat ada/buildsupport_version.ads.new | md5sum` ; \
if [ "$$MD1" != "$$MD2" ] ; then \
mv ada/buildsupport_version.ads.new ada/buildsupport_version.ads ; \
else \
rm ada/buildsupport_version.ads.new ; \
fi ; \
fi
endif
mkdir -p tmpBuild
# We have to compile in C99 to support "long long" integers, as imposed by the "aadlinteger" type
# -Wall -Werror -Wextra -Wconversion -Wno-deprecated -Winit-self -Wsign-conversion -Wredundant-decls -Wvla -Wshadow -Wctor-dtor-privacy -Wnon-virtual-dtor -Woverloaded-virtual -Wlogical-op -Wmissing-include-dirs -Winit-self -Wpointer-arith -Wcast-qual -Wcast-align -Wold-style-cast -Wno-error=old-style-cast -Wsign-promo -Wundef
#clang -c -Wall -Werror -Iinclude c/*.c
gcc -c -W -g3 -g -Wall -Werror -Wextra -Werror=format-security -Wconversion -Wno-deprecated -Winit-self -Wsign-conversion -Wredundant-decls -Wvla -Wshadow -Wlogical-op -Wmissing-include-dirs -Winit-self -Wpointer-arith -Wcast-qual -Wcast-align -Wno-error=old-style-cast -Wundef -std=c99 -pedantic -Iinclude c/*.c
mv *.o tmpBuild/
ADA_PROJECT_PATH=`ocarina-config --prefix`/lib/gnat:$$ADA_PROJECT_PATH $(gnatpath)gnatmake -x -g $(exec) -p -P buildsupport.gpr -XBUILD="debug"
# strip $(exec)
install:
cp buildsupport `ocarina-config --prefix`/bin/
cp misc/driveGnuPlotsStreams.pl `ocarina-config --prefix`/bin/
clean:
rm -rf tmpBuild
rm -f $(exec)
rm -f *~
release: clean
rm -rf tmp/ release/
mkdir release/
mkdir -p tmp/buildsupport-$(VERSION)
mkdir -p tmp/buildsupport-$(VERSION)/c
mkdir -p tmp/buildsupport-$(VERSION)/ada
mkdir -p tmp/buildsupport-$(VERSION)/include
mkdir -p tmp/buildsupport-$(VERSION)/misc
cp -f c/*.c tmp/buildsupport-$(VERSION)/c/
cp -f ada/*.ads tmp/buildsupport-$(VERSION)/ada/
cp -f ada/*.adb tmp/buildsupport-$(VERSION)/ada/
cp -f include/*.h tmp/buildsupport-$(VERSION)/include/
cp -f Makefile tmp/buildsupport-$(VERSION)/
cp -f buildsupport.gpr tmp/buildsupport-$(VERSION)/
cp -f misc/driveGnuPlotsStreams.pl tmp/buildsupport-$(VERSION)/misc/driveGnuPlotsStreams.pl
( cd tmp && tar cvvfz buildsupport-$(VERSION).tar.gz buildsupport-$(VERSION) )
mv tmp/buildsupport-$(VERSION).tar.gz release/
mkdir -p tmp/buildsupport-`uname -m`-$(VERSION)/bin
mkdir -p tmp/buildsupport-`uname -m`-$(VERSION)/misc/
$(MAKE)
cp -f buildsupport tmp/buildsupport-`uname -m`-$(VERSION)/bin
cp -f misc/driveGnuPlotsStreams.pl tmp/buildsupport-`uname -m`-$(VERSION)/misc/
( cd tmp && tar cvvfz buildsupport-`uname -m`-$(VERSION).tgz buildsupport-`uname -m`-$(VERSION)/)
( cp -f tmp/buildsupport-`uname -m`-$(VERSION).tgz release/)
rm -rf tmp/
.PHONY: release
buildsupport is a low-level TASTE command, responsible for the generation of skeletons and some glue code.
License: LGPL (see LICENSE file)
Copyright (c) 2008-2015 European Space Agency
-- *************************** buildsupport **************************** --
-- (c) 2015 European Space Agency - maxime.perrotin@esa.int
-- LGPL license, see LICENSE file
-- pragma Style_Checks (Off);
with Ada.Strings.Unbounded;
use Ada.Strings.Unbounded;
with Ada.Characters.Handling;
with Ada.Command_Line;
with Ada.Text_IO;
with GNAT.OS_Lib;
use GNAT.OS_Lib;
with Errors;
with Locations;
with Namet;
with Types;
with System.Assertions;
with Ocarina.Analyzer;
with Ocarina.Backends.Properties;
with Ocarina.Configuration;
with Ocarina.Files;
with Ocarina.Options;
with Ocarina.Instances;
with Ocarina.Instances.Queries;
with Ocarina.ME_AADL.AADL_Tree.Nodes;
with Ocarina.ME_AADL.AADL_Instances.Entities;
with Ocarina.ME_AADL.AADL_Instances.Nodes;
with Ocarina.ME_AADL.AADL_Instances.Nutils;
with Ocarina.Parser;
with Ocarina.FE_AADL.Parser;
with Imported_Routines;
with Buildsupport_Utils;
with buildsupport_version;
with Ocarina.Backends.Utils;
procedure BuildSupport is
use Ada.Text_IO;
use Ada.Characters.Handling;
use Locations;
use Namet;
use Types;
use Ocarina;
use Ocarina.Analyzer;
use Ocarina.Backends.Properties;
use Ocarina.Instances;
use Ocarina.Instances.Queries;
use Ocarina.ME_AADL;
use Ocarina.ME_AADL.AADL_Instances.Entities;
use Ocarina.ME_AADL.AADL_Instances.Nodes;
use Ocarina.ME_AADL.AADL_Instances.Nutils;
use Buildsupport_Utils;
package ATN renames Ocarina.ME_AADL.AADL_Tree.Nodes;
AADL_Language : Name_Id;
Interface_Root : Node_Id := No_Node;
Deployment_root : Node_Id := No_Node;
Success : Boolean;
OutDir : Integer := 0;
Stack_Val : Integer := 0;
Subs : Node_id;
Interface_view : Integer := 0;
Concurrency_view : Integer := 0;
Data_View : Integer := 0;
Generate_glue : Boolean := false;
Keep_case : Boolean := false;
AADL_Version : AADL_Version_Type := Ocarina.AADL_V2;
procedure Parse_Command_Line;
procedure Process_Deployment_View (My_Root : Node_Id);
procedure Process_Interface_View (My_System : Node_Id);
procedure Browse_Deployment_View_System
(My_System : Node_Id; NodeName : String);
-- Find the bus that is connected to a device through a require
-- access.
------------------------
-- Find_Connected_Bus --
------------------------
procedure Find_Connected_Bus (Device : Node_Id;
Accessed_Bus : out Node_Id;
Accessed_Port : out Node_Id) is
F : Node_Id;
Src : Node_Id;
begin
Accessed_Bus := No_Node;
Accessed_Port := No_Node;
if not Is_Empty (Features (Device)) then
F := First_Node (Features (Device));
while Present (F) loop
-- The sources of F
if not Is_Empty (Sources (F)) then
Src := First_Node (Sources (F));
if Src /= No_Node then
if Item (Src) /= No_Node and then
not Is_Empty (Sources (Item (Src))) and then
First_Node (Sources (Item (Src))) /= No_Node
then
Src := Item (First_Node (Sources (Item (Src))));
Accessed_Bus := Src;
Accessed_Port := F;
end if;
end if;
end if;
F := Next_Node (F);
end loop;
end if;
end Find_Connected_Bus;
----------------------------
-- Process_Interface_View --
----------------------------
procedure Process_Interface_View (My_System : Node_Id) is
Len_Name : Integer;
Len_Type : Integer;
Current_Function : Node_Id;
FV_Subco : Node_Id;
CI : Node_Id;
Connection_I : Node_Id;
Distant_FV : Node_Id;
If_I : Node_Id;
RI_To_Add : Node_Id;
Local_RI_Name : Name_Id;
Distant_PI_Name : Name_Id;
Param_I : Node_Id;
ASN1_Module : Name_Id;
ASN1_Filename : Name_Id := No_Name;
Operation_Kind : Supported_RCM_Operation_Kind;
Sub_I : Node_Id;
Encoding : Supported_ASN1_Encoding;
Asntype : Node_Id;
Basic_Type : Supported_ASN1_Basic_Type;
begin
Exit_On_Error
(No (My_System),
"Internal Error, cannot instantiate model");
if not Is_Empty (Subcomponents (My_System)) then
-- Set the output directory
if OutDir > 0 then
Imported_Routines.C_Set_OutDir
(Ada.Command_Line.Argument (Outdir),
Ada.Command_Line.Argument (Outdir)'Length);
end if;
-- Set the stack value
if Stack_Val > 0 then
Imported_Routines.C_Set_Stack
(Ada.Command_Line.Argument (stack_val),
Ada.Command_Line.Argument (stack_val)'Length);
end if;
-- Current_function is read from the list of system subcomponents
Current_function := First_Node (Subcomponents (My_System));
while Present (Current_Function) loop
CI := Corresponding_Instance (Current_Function);
if Get_Category_Of_Component (CI) = CC_System then
-- Call C function "New_FV" and set the language
Imported_Routines.C_New_FV
(Get_Name_String (Name (Identifier (Current_Function))),
Get_Name_String
(Name (Identifier (Current_Function)))'Length,
Get_Name_String (Display_Name (Identifier
(Current_Function))));
-- Read the implementation language of the current
-- FV from the Source_Language property
declare
Source_Language : constant Supported_Source_Language
:= Get_Source_Language (CI);
begin
case Source_Language is
when Language_Ada_95 =>
Imported_Routines.C_Set_Language_To_Ada;
when Language_C =>
Imported_Routines.C_Set_Language_To_C;
when Language_CPP =>
Imported_Routines.C_Set_Language_To_CPP;
when Language_SDL_OpenGEODE =>
Imported_Routines.C_Set_Language_To_SDL;
when Language_Scade =>
Imported_Routines.C_Set_Language_To_Scade;
when Language_Lustre =>
Imported_Routines.C_Set_Language_To_Scade;
when Language_SDL =>
Imported_Routines.C_Set_Language_To_SDL;
when Language_SDL_RTDS =>
Imported_Routines.C_Set_Language_To_RTDS;
when Language_Simulink =>
Imported_Routines.C_Set_Language_To_Simulink;
when Language_Rhapsody =>
Imported_Routines.C_Set_Language_To_Rhapsody;
when Language_Gui =>
Imported_Routines.C_Set_Language_To_GUI;
when Language_VHDL =>
Imported_Routines.C_Set_Language_To_VHDL;
when Language_System_C =>
Imported_Routines.C_Set_Language_To_System_C;
when Language_Device =>
Imported_Routines.C_Set_Language_To_BlackBox_Device;
when Language_QGenAda =>
Imported_Routines.C_Set_Language_To_QGenAda;
when Language_QGenC =>
Imported_Routines.C_Set_Language_To_QGenC;
when others =>
Imported_Routines.C_Set_Language_To_Other;
end case;
end;
declare
SourceText : constant Name_Array :=
Get_Source_Text (CI);
ZipId : Name_Id := No_Name;
begin
if SourceText'Length /= 0 then
ZipId := SourceText (1);
end if;
if ZipId /= No_Name then
Imported_Routines.C_Set_Zipfile
(Get_Name_String (ZipId),
Get_Name_String (ZipId)'Length);
end if;
end;
-- Parse the functional states of this FV
if not Is_Empty (Subcomponents (CI)) then
FV_Subco := First_Node (Subcomponents (CI));
while Present (FV_Subco) loop
if Get_Category_Of_Component (FV_Subco) =
CC_Data
then
-- Check that the value of the FS is set
Exit_On_Error (Get_String_Property
(Corresponding_Instance (FV_Subco),
"taste::fs_default_value") = No_Name,
"Error: Missing value for context parameter " &
Get_Name_String
(Name (Identifier (FV_Subco))) &
" in function " &
Get_Name_String
(Name (Identifier (Current_Function))));
declare
-- Name of the variable
FS_name : constant String :=
Get_Name_String (Name (Identifier (FV_Subco)));
-- Name of the variable respecting case
FS_fullname : constant String :=
Get_Name_String (Display_Name (Identifier
(FV_Subco)));
-- ASN.1 type
Asn1type : constant Node_Id :=
Corresponding_Instance (FV_Subco);
FS_type : constant String :=
Get_Name_String
(Get_Type_Source_Name (Asn1type));
-- Variable default value
FS_value : constant String :=
Get_Name_String (Get_String_Property
(Asn1type, "taste::fs_default_value"));
FS_module : constant String :=
Get_ASN1_Module_Name (Asn1type);
-- ASN.1 filename
NA : constant Name_Array :=
Get_Source_Text (Asn1type);
FS_File : Unbounded_String;
begin
-- Some special DATA components have no
-- Source_Text property in DataView.aadl
-- (TASTE-Directive and Tunable Parameter)
if NA'Length > 0 then
FS_File := To_Unbounded_String
(Get_Name_String (NA (1)));
else
FS_File := To_Unbounded_String ("dummy");
end if;
Imported_Routines.C_Set_Context_Variable
(FS_name, FS_name'Length,
FS_type, FS_type'Length,
FS_value, FS_value'Length,
FS_module, FS_module'Length,
To_String (FS_file),
To_String (FS_file)'Length,
FS_Fullname);
end;
end if;
FV_Subco := Next_Node (FV_Subco);
end loop;
end if;
-- Parse the interfaces of the FV
if not Is_Empty (Features (CI)) then
If_I := First_Node (Features (CI));
while Present (If_I) loop
Sub_I := Get_RCM_Operation (If_I);
if Present (Sub_I) then
-- Call backend Add_PI or Add_RI and for each
-- parameter call C function Add_In_Param or
-- Add_Out_Param
if Is_Subprogram_Access (If_I) and
Is_Provided (If_I)
then
declare
PI_string : String :=
Get_Name_string
(Display_Name (Identifier (If_I)));
PI_Name : Name_Id;
begin
PI_Name := Get_Interface_Name (If_I);
if PI_Name /= No_Name then
Imported_Routines.C_Add_PI
(Get_Name_String (PI_Name),
Get_Name_String (PI_Name)'Length);
else
-- Keep compatibility with V1.2
if not Keep_case then
PI_string := to_lower (PI_string);
end if;
Imported_Routines.C_Add_PI
(PI_String, PI_String'Length);
end if;
end;
if Kind (If_I) = K_Subcomponent_Access_Instance
and then
Is_Defined_Property
(Corresponding_Instance (If_I),
"taste::associated_queue_size")
then
Imported_Routines.C_Set_Interface_Queue_Size
(Get_Integer_Property
(Corresponding_Instance (If_I),
"taste::associated_queue_size"));
end if;
-- Set Provided Interface RCM kind
-- (cyclic, sporadic, etc).
Operation_Kind := Get_RCM_Operation_Kind (If_I);
case Operation_Kind is
when Cyclic_Operation =>
Imported_Routines.C_Set_Cyclic_IF;
when Sporadic_Operation =>
Imported_Routines.C_Set_Sporadic_IF;