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path: root/kernel/bootinfo/multiboot.dats
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#include "kernel/prelude/kernel_prelude.hats"

#define ATS_DYNLOADFLAG 0

staload "./multiboot.sats"
staload "lib/SATS/init.sats"
staload "lib/DATS/init.dats"
staload UN = "prelude/SATS/unsafe.sats"

local

  extern castfn ui2sz (n : uint) :<> [n : nat] size_t n
  extern fn _get_memory_mappings_n(boot_info : !boot_info_t):<> [n:nat] size_t n
  extern fn _get_memory_mapping(boot_info : !boot_info_t,n : size_t):<> memory_area_t
  extern fn _print_memory_mappings(boot_info : !boot_info_t):<!wrt> void

in

  local
    // Static variable
    var _v : boot_info_t?
    prval () = opt_none _v
    var v = uninitialized<boot_info_t>(_v)
    // Reference to writer
    val bootinfo_ref = ref_make_viewptr{initializable boot_info_t} (view@v | addr@v)
  in

    implement init (p : Ptr1) = let
      extern castfn unsafe_init(x : &boot_info_t? >> boot_info_t) :<> void
      val total_size = $UN.ptr0_get<uint>(p)

      fun loop (boot_info : &boot_info_t? >> boot_info_t, p : ptr):<!wrt,!ntm> void = let
        val type = $UN.ptr0_get<uint>(p)
        val size = $UN.ptr0_get<uint>(ptr_succ<uint>(p))
        val next = (if (size % 8u != 0) then size + 8u - (size % 8u) else size) : uint
      in 
        case+ type of 
          | 6u => (
                   boot_info.memory_map := $UN.ptr0_get<memory_areas_t>(p); 
                   boot_info.memory_map.entries := ptr_add<uint32>(p,4)
                  )
          | 9u => (
                   boot_info.elf_tag := $UN.ptr0_get<elf_tag_t>(p);
                   boot_info.elf_tag.headers := ptr_add<uint32>(p,5);
                  )
          | _ => ();

        if (type != 0u) then
          loop(boot_info,ptr_add<uint8>(p, next))
        else
          unsafe_init(boot_info)
      end

      val (vbox pf | boot_p) = ref_get_viewptr(bootinfo_ref)
    in
      if (not boot_p->initialized) then 
        let
          prval ()  = opt_unnone boot_p->obj
          val ()    = boot_p->obj.total_size := total_size
          val ()    = loop(boot_p->obj, ptr_add<uint32>(p,2))
          val ()    = boot_p->initialized := true
          prval ()  = opt_some boot_p->obj
        in end
    end

    implement get_memory_mappings_n() = let
      implement exec$fwork<boot_info_t><size_t>(v,_) = _get_memory_mappings_n(v)
    in
      exec<boot_info_t>(bootinfo_ref,i2sz(0))
    end

    implement get_memory_mapping(n) = let
      implement exec$fwork<boot_info_t><memory_area_t>(v,_) = _get_memory_mapping(v,n)
    in
      exec<boot_info_t><memory_area_t>(bootinfo_ref,invalid_area)
    end

    implement print_memory_mappings() = let
      implement exec_void$fwork<boot_info_t>(v) = _print_memory_mappings(v)
    in
      exec_void<boot_info_t>(bootinfo_ref)
    end

  end

  //------------Memory------------------------

  implement _get_memory_mappings_n(boot_info) = let
    val size = boot_info.memory_map.tag.size 
    val n_entries = (if(size >= 16u) then (size - 16u) / boot_info.memory_map.entry_size else 0u) : uint
  in
    ui2sz n_entries
  end

  implement _get_memory_mapping(boot_info,n) =  (
    (* assertloc(n < get_memory_mappings_n(pf | p)); *)
    $UN.ptr0_get<memory_area_t>(ptr_add<memory_area_t>(boot_info.memory_map.entries,n))
  )

  //TODO: use foreach with fwork to loop through memory maps
  implement _print_memory_mappings(boot_info) = let
    val length = _get_memory_mappings_n(boot_info)
    fun loop {n,i : nat | i < n} .<n-i>. (i : size_t i, n : size_t n):<!wrt> void = let 
      val entry = _get_memory_mapping(boot_info,i)
    in
      if (entry.type = 1) then (
        print("   Start Address: ");
        print_hex(entry.base_addr);
        print(", Length: ");
        println_hex(entry.length);
      );
      if (i < n-1) then
        loop (succ(i),n)
    end
  in
    if (length > 0) then (
      println!("Memory areas:");
      loop(i2sz(0),length))
    else
      println!("No memory mappings")
  end

end

//----------------------------------------------

(* //---------------------ELF---------------------- *)
(**)
(* implement get_elf_headers_n(p) = ui2sz p.2->elf_tag.num *)
(**)
(* implement get_elf_header (p,n) = ( *)
(*   assertloc(n < get_elf_headers_n(p)); *)
(*   $UN.ptr0_get<elf64_shdr_t>(ptr_add<elf64_shdr_t>(p.2->elf_tag.headers,n)) *)
(* ) *)
(**)
(* implement get_kernel_ranges(p) = let *)
(*   val length = get_elf_headers_n(p) *)
(*   fun loop {n,i : nat | i < n} .<n-i>. (p : !bootptr, i : size_t i,n : size_t n, min : Ptr, max : Ptr) : (Ptr,Ptr) = let *)
(*     val header = get_elf_header(p,i) *)
(*     val new_min = (if ((header.addr < min || min = the_null_ptr) && header.size != 0) then header.addr else min) *)
(*     val end_p = ptr_add<uint8>(header.addr,header.size) *)
(*     val new_max = ( *)
(*       if (end_p > max && header.size != 0)  *)
(*         then $UN.cast2Ptr1(end_p)  *)
(*       else max *)
(*     ) *)
(*   in *)
(*     if (i < n - 1) then *)
(*       loop(p,succ(i),n,new_min,new_max) *)
(*     else  *)
(*       (new_min,new_max) *)
(*   end *)
(**)
(* in *)
(*   if (length > 0) then *)
(*     loop(p,i2sz(0),length,the_null_ptr,the_null_ptr) *)
(*   else *)
(*     (the_null_ptr,the_null_ptr) *)
(* end *)
(**)
(* implement get_multiboot_ranges(p) = (p.2, $UN.cast2Ptr1(ptr_add<uint8>(p.2,p.2->total_size))) *)
(**)
(* implement print_elf_headers(p) = let *)
(*   val length = get_elf_headers_n(p) *)
(*   fun loop {n,i : nat | i < n} .<n-i>. (p : !bootptr, i : size_t i, n : size_t n) : void = let *)
(*     val header = get_elf_header(p,i) *)
(*   in *)
(*     print("   addr: "); *)
(*     print_hex(header.addr); *)
(*     print(", size: "); *)
(*     print_hex(header.size); *)
(*     print(", flags: "); *)
(*     println_hex(header.flags); *)
(*        *)
(*     if (i < n - 1) then *)
(*       loop(p,succ(i),n) *)
(**)
(*   end *)
(* in *)
(*   if (length > 0) then ( *)
(*     println!("Elf section headers: "); *)
(*     loop(p,i2sz(0),length)) *)
(*   else *)
(*     println!("No elf section headers") *)
(* end *)
(**)
(* //---------------------------------------------- *)
(**)