My program is seg-faulting in the package elaboration section. I declare a a bunch of variables in a block in the body. They are all records with a QLOCK, First ID Number, Last ID Number, and a data array. All different types because the data and ID range is slightly different for each record.
The types are all defined in the same package spec (SMO_Types) but only one of them causes a seg fault.
Ada catches this segfault and raises a storage error so the output looks like this
raised STORAGE_ERROR : s-intman.adb:136 explicit raise
I tried to force elaboration order by putting Elaborate_All(SMO_Types);
It still had a seg fault during runtime.
When I comment out that declaration and any uses of that single variable it works fine.
begin -- Package Body EX1_Access := EX_PKG.Object_Access(Read_Only => False); EX2_Access := EX_PKG.Object_Access(Read_Only => False); EX3_Access := EX_PKG.Object_Access(Read_Only => False); IPC_API.Qlock.Init(Lock => EX1_Access.QLock, Name => "EX1_Access.QLock"); IPC_API.Qlock.Init(Lock => EX2_Access.QLock, Name => "EX2_Access.QLock"); IPC_API.Qlock.Init(Lock => EX3_Access.QLock, Name => "EX3_Access.QLock"); declare EX1 : constant SMO_Types.EX1_Type := (QLock => EX1_Access.QLock, First => ACT.EX1_ID_Type'first, Last => ACT.EX1_ID_Type'last, Data => (others => (EX_File => EX_API_Types.NOT_DEFINED))); --The following EX2_Type causes the elaboration issue, if I comment this --declaration/init and it's use the code works. --If I make a random variable of EX2_Type without making it a constant --and initializing it there is still a seg fault. Therefor it seems --likely that the issue lies with the EX2_Type. EX2 : constant SMO_Types.EX2_Type := (QLock => EX2_Access.QLock, First => ACT.EX2_ID_Type'first, Last => ACT.EX2_ID_Type'last, Data => (others => (EX_File => EX_API_Types.NOT_DEFINED))); EX3 : constant SMO_Types.EX3_Type := (QLock => EX3_Access.QLock, First => ACT.EX3_ID_Type'first, Last => ACT.EX3_ID_Type'last, Data => (others => (EX_File => EX_API_Types.NOT_DEFINED))); begin EX1_Access.all := EX1; EX2_Access.all := EX2; EX3_Access.all := EX3; end Example_Package;
*** EDIT: Here are the types (Ignore the weird order of EX1 vs EX2 vs EX3, this isn't a retyping typo. It is how they are in the legacy code)
MAX_EX_COUNT : constant := 36367; MAX_EX1_COUNT : constant := 18947; MAX_EX2_COUNT : constant := 1000; MAX_EX3_COUNT : constant := 1000; type EX_ID_Type is range -1 .. MAX_EX_COUNT; for EX_ID_Type'size use 4*8; subtype EX2_ID_Type is ID_Type range 1 .. MAX_EX2_COUNT; subtype EX1_ID_Type is ID_Type range EX2_ID_Type'Last+1 .. EX2_ID_Type'Last+MAX_EX1_COUNT; subtype EX3_ID_Type is ID_Type range EX1_ID_Type'Last+1 .. EX1_ID_Type'Last+MAX_EX3_COUNT; type Data_Array_Type is array (EX_ID_Type range <>) of EX_API_Types.EX_Data_Type; type EX_Record_Type (First, Last : EX_ID_Type) is record Qlock : IPC_API.Qlock.Qlock_Type; Data : Data_Array_Type(First .. Last); end record; subtype EX1_Type is EX_Record_Type(First => EX1_ID_Type'first, Last => EX1_ID_Type'last); subtype EX2_Type is EX_Record_Type(First => EX2_ID_Type'first, Last => EX2_ID_Type'last); subtype EX3_Type is EX_Record_Type(First => EX3_ID_Type'first, Last => EX3_ID_Type'last);