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-rw-r--r--kernel/memory/frame.dats121
1 files changed, 73 insertions, 48 deletions
diff --git a/kernel/memory/frame.dats b/kernel/memory/frame.dats
index b1d86af..fad0420 100644
--- a/kernel/memory/frame.dats
+++ b/kernel/memory/frame.dats
@@ -4,22 +4,25 @@
staload "./frame.sats"
staload "kernel/bootinfo/multiboot.sats"
+staload "lib/SATS/init.sats"
staload UN = "prelude/SATS/unsafe.sats"
+assume frame_allocator = frame_allocator_t
-implement containing_address(address) : frame_t =
+
+implement containing_address(address): frame_t =
@{
counter = $UN.cast{size_t}(address) / i2sz(PAGE_SIZE)
}
-fn containing_area(area : memory_area_t) : frame_t = containing_address(ptr_add<uint8>(area.base_addr,area.length - i2sz(1)))
+fn containing_area(area : memory_area_t) :<> frame_t = containing_address(ptr_add<uint8>(area.base_addr,area.length - i2sz(1)))
//FIX: function doesn't handle no frames left
-fn choose_next_area{l,k : agz}(pf : !frame_allocator_t@l, bf : !boot_info_t @ k | p : ptr l, b : ptr k) : void = let
+fn choose_next_area{k : agz}(bf : !boot_info_t @ k | b : ptr k, allocator : &frame_allocator_t) :<!wrt> void = let
val length = get_memory_mappings_n(bf | b)
- val next_free_frame = p->next_free_frame
- fun loop {n,i : nat | i < n} {l : agz} .<n-i>. (bf : !boot_info_t @ l | b : ptr l, i : size_t i, n : size_t n) : memory_area_t = let
+ val next_free_frame = allocator.next_free_frame
+ fun loop {n,i : nat | i < n} {l : agz} .<n-i>. (bf : !boot_info_t @ l | b : ptr l, i : size_t i, n : size_t n) :<> memory_area_t = let
val entry = get_memory_mapping(bf | b ,i)
val fr = containing_area(entry)
in
@@ -32,26 +35,27 @@ fn choose_next_area{l,k : agz}(pf : !frame_allocator_t@l, bf : !boot_info_t @ k
end
in
if (length > 0) then //TODO: fix
- p->current_area := loop(bf | b, i2sz(0), length);
+ allocator.current_area := loop(bf | b, i2sz(0), length);
- if (p->current_area.length > 1) then
+ if (allocator.current_area.length > 1) then
let
- val start_frame = containing_address(p->current_area.base_addr)
+ val start_frame = containing_address(allocator.current_area.base_addr)
in
- if (p->next_free_frame.num < start_frame.num) then
- p->next_free_frame := start_frame
+ if (allocator.next_free_frame.num < start_frame.num) then
+ allocator.next_free_frame := start_frame
end
end
local
-var frame_allocator : frame_allocator_t
+var allocator_static : frame_allocator_t?
+prval () = opt_none allocator_static
+var allocator = empty<frame_allocator_t>(allocator_static)
+val allocator_ref = ref_make_viewptr{enablable frame_allocator_t} (view@allocator | addr@allocator)
in
- implement frame_allocator_init(kernel_start, kernel_end, multiboot_start, multiboot_end, b) : allocptr = let
- extern praxi __assert{l:addr} (ptr: ptr (l)): vtakeout0 (frame_allocator_t@l) // takeout proof UNSAFE:
- prval (pf, fpf) = __assert (addr@frame_allocator)
+ implement frame_allocator_init(kernel_start, kernel_end, multiboot_start, multiboot_end, b) : void = let
val allocator = @{
next_free_frame = containing_address(the_null_ptr),
current_area = invalid_area,
@@ -59,48 +63,69 @@ in
kernel_end = containing_address(kernel_end),
multiboot_start = containing_address(multiboot_start),
multiboot_end = containing_address(multiboot_end)
- }
+ } : frame_allocator_t
+ val (vbox pf | p) = ref_get_viewptr(allocator_ref)
in
- frame_allocator := allocator;
- choose_next_area(pf,b.0 | addr@frame_allocator, b.2);
- (pf, fpf | addr@frame_allocator)
+ if not p->enabled then let
+ prval () = opt_unnone p->obj
+ in
+ p->obj := allocator;
+ p->enabled := true;
+ (* choose_next_area(b.0 | b.2, !p); *)
+ let prval () = opt_some p->obj in end;
+ end
end
-end
-
-implement allocate_frame(pf , bf | p,b) : frame_t =
- if (p->current_area.type != 0u) then let
- val area = p->current_area
- val frame = @{ num = p->next_free_frame.num }
-
- // last frame of current area
- val last_frame_area = containing_area(area)
- in
- if (frame.num > last_frame_area.num) then (
- // all frames of current area are used, switch to next area
- choose_next_area(pf, bf | p,b);
- allocate_frame(pf,bf | p,b)
- ) else if (frame.num >= p->kernel_start.num && frame.num <= p->kernel_end.num) then (
- // frame is used by kernel
- p->next_free_frame := @{num = p->kernel_end.num + 1};
- allocate_frame(pf,bf | p,b)
- ) else if (frame.num >= p->multiboot_start.num && frame.num <= p->multiboot_end.num) then (
- // frame is used by multiboot info structure
- p->next_free_frame := @{num = p->multiboot_end.num + 1};
- allocate_frame(pf,bf | p,b)
- ) else (
- // frame is unused, increment `next_free_frame` and return it
- p->next_free_frame.num := succ(p->next_free_frame.num);
- frame
- );
- end
- else
+implement allocate_frame(bf | b) : frame_t = let
+ val (vbox pf | p) = ref_get_viewptr(allocator_ref)
+ in
+ if p->enabled then let
+ (* var allocator = p->obj *)
+ prval () = opt_unsome p->obj
+ in
+ (* if (allocator.current_area.type != 0u) then let *)
+ (* val area = allocator.current_area *)
+ (* val frame = @{ num = allocator.next_free_frame.num } *)
+ (**)
+ (* // last frame of current area *)
+ (* val last_frame_area = containing_area(area) *)
+ (* in *)
+ (* if (frame.num > last_frame_area.num) then ( *)
+ (* // all frames of current area are used, switch to next area *)
+ (* choose_next_area(bf | b, allocator); *)
+ (* let prval () = opt_some allocator in end; *)
+ (* allocate_frame(bf | b) *)
+ (* ) else if (frame.num >= allocator.kernel_start.num && frame.num <= allocator.kernel_end.num) then ( *)
+ (* // frame is used by kernel *)
+ (* allocator.next_free_frame := @{num = allocator.kernel_end.num + 1}; *)
+ (* let prval () = opt_some allocator in end; *)
+ (* allocate_frame(bf | b) *)
+ (* ) else if (frame.num >= allocator.multiboot_start.num && frame.num <= allocator.multiboot_end.num) then ( *)
+ (* // frame is used by multiboot info structure *)
+ (* allocator.next_free_frame := @{num = allocator.multiboot_end.num + 1}; *)
+ (* let prval () = opt_some allocator in end; *)
+ (* allocate_frame(bf | b) *)
+ (* ) else ( *)
+ (* // frame is unused, increment `next_free_frame` and return it *)
+ (* allocator.next_free_frame.num := succ(allocator.next_free_frame.num); *)
+ (* let prval () = opt_some allocator in end; *)
+ (* frame *)
+ (* ); *)
+ (* end *)
+ (* else *)
+ (* let prval () = opt_some allocator in end; *)
+ (* @{num = i2sz(0)} // No free frames left *)
+ let prval () = opt_some p->obj in end;
+ @{num = i2sz(0)}
+ end
+ else
@{num = i2sz(0)} // No free frames left
+end
+end
implement deallocate_frame(p) : void = let
-
in
end