A2osX/SYS/KERNEL.S.MEM.txt
2019-01-11 16:06:05 +00:00

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NEW
PREFIX
AUTO 4,1
*--------------------------------------
ZPMemMgrSPtr .EQ ZPMEMMGR Pointer To Slot selected
ZPMemMgrTmp1 .EQ ZPMEMMGR+2
ZPMemMgrSize .EQ ZPMEMMGR+4
ZPSListID .EQ ZPMEMMGR+6
ZPSListIBlkPtr .EQ ZPMEMMGR+8
ZPSListDBlkPtr .EQ ZPMEMMGR+10
ZPSListKeyPtr .EQ ZPMEMMGR+12
ZPSListDataPtr .EQ ZPMEMMGR+14
*/--------------------------------------
* # GetMem0
* Y,A = Size Requested
* ## RETURN VALUE
* CC : success
* YA = PTR to Mem (ZERO Initialised)
* X = hMem
* CS :
* A = EC
*\--------------------------------------
K.GetMem0 ldx #S.MEM.F.INIT0
.HS 2C bit abs
*/--------------------------------------
* # GetMem
* Y,A = Size Requested
* ## RETURN VALUE
* CC : success
* YA = PTR to Mem (Uninitialised)
* X = hMem
* CS :
* A = EC
*\--------------------------------------
K.GetMem ldx #0
MEM.GetMem.YAX stx Mem.ReqFlags
sta ZPMemMgrSize+1
tya
bit #$0F 16 bytes aligned ?
beq .10 yes, request it
and #$F0 align on 16 bytes
clc
adc #$10
bcc .10
inc ZPMemMgrSize+1
.10 sta ZPMemMgrSize
>LDYAI Mem.Table
>STYA ZPMemMgrSPtr
ldx #0 Current slot=0
bra .4 skip slot 0, Check if some free slot to reuse first
.1 inx move to next slot
jsr Mem.NextSlot
lda (ZPMemMgrSPtr) Get Flags
bmi .4 in use ?
.2 lda Mem.ReqFlags Found an empty slot
and #S.MEM.F.ALIGN is request needs a page align ?
beq .3
ldy #S.MEM.PTR
lda (ZPMemMgrSPtr),y get LO of PTR
bne .4 not page-aligned
.3 ldy #S.MEM.LEN
lda (ZPMemMgrSPtr),y get LEN of this block
cmp ZPMemMgrSize compare with requested size
bne .4
iny
lda (ZPMemMgrSPtr),y
cmp ZPMemMgrSize+1
beq .7 requested size matches slot size !!!
.4 cpx Mem.LastSlot any other slot to check?
bne .1 last one, create a new slot
*-------------- Create a New SLOT
.5 lda Mem.ReqFlags
and #S.MEM.F.ALIGN is request needs a page align ?
beq .6
lda Mem.Free target PTR will be page aligned ?
sec
sbc ZPMemMgrSize
beq .6 yes, allocate
tay no, reserve a free slot to fill gap
lda #0
jsr Mem.AddSlot X = new slot
bcs .9
lda #S.MEM.F.ALIGN Make sure marked FREE
sta (ZPMemMgrSPtr)
.6 >LDYA ZPMemMgrSize
jsr Mem.AddSlot X = new slot
bcs .9
*-------------- Reuse this SLOT
.7 lda Mem.ReqFlags get requested flags
ora #S.MEM.F.INUSE mark as in use
sta (ZPMemMgrSPtr)
and #S.MEM.F.INIT0
beq .8
ldy #S.MEM.PTR
lda (ZPMemMgrSPtr),y ZPMemMgrSPtr already set
sta .12+1
iny
lda (ZPMemMgrSPtr),y
sta .12+2
lda ZPMemMgrSize
eor #$ff
tay y=not lo count
lda ZPMemMgrSize+1
eor #$ff a=not hi count
phx
ldx #0
.11 iny
bne .12
inc
beq .13
.12 stz $ffff,x
inx
bne .11
inc .12+2
bra .11
.13 plx
.8 lda #0
ldy #S.MEM.BIN
sta (ZPMemMgrSPtr),y
inc Mark this slot used by one process
ldy #S.MEM.REFCNT
sta (ZPMemMgrSPtr),y
ldy #S.PS.PID
lda (pPs),y
ldy #S.MEM.OWNERPID
sta (ZPMemMgrSPtr),y
clc
jmp K.GetMemPtr.ZPMemMgrSPtr
* A = HI PTR,Y = LO PTR,X = Current hMem
.9 rts
*--------------------------------------
Mem.ReqFlags .BS 1 store requested Flags
*--------------------------------------
* Mem.AddSlot
* In:
* Y,A = Requested size
* Out:
*--------------------------------------
Mem.AddSlot >STYA ZPMemMgrTmp1 save req size
ldx Mem.LastSlot
inx
beq .99 > 255 ERR:OUT OF SLOT
lda Mem.Free Compute base PTR=FREE-REQ size
sec
sbc ZPMemMgrTmp1
tay save new Mem.Free LO
lda Mem.Free+1
sbc ZPMemMgrTmp1+1
pha save new Mem.Free HI
cpy Mem.LoMem
sbc Mem.LoMem+1
bcc .98 ERR out of mem
jsr Mem.NextSlot X,Y unmodified
tya get back Mem.Free LO
ldy #S.MEM.PTR
sta Mem.Free set as system Mem.Free value
sta (ZPMemMgrSPtr),y store it as base address of new slot
iny
pla get back Mem.Free HI
sta Mem.Free+1
sta (ZPMemMgrSPtr),y
iny
lda ZPMemMgrTmp1 get requested size
sta (ZPMemMgrSPtr),y setup slot LEN
iny
lda ZPMemMgrTmp1+1
sta (ZPMemMgrSPtr),y
stx Mem.LastSlot mark this slot allocated
clc
rts
.98 pla discard new Mem.Free HI
.99 lda #E.OOM
sec
rts
*--------------------------------------
MEM.IncREFCNT ldy #S.MEM.REFCNT
lda (ZPMemMgrSPtr),y
inc
sta (ZPMemMgrSPtr),y
rts
*--------------------------------------
MEM.decREFCNT ldy #S.MEM.REFCNT
lda (ZPMemMgrSPtr),y
dec
sta (ZPMemMgrSPtr),y
rts
*--------------------------------------
MEM.NextSlot lda ZPMemMgrSPtr
clc
adc #S.MEM
sta ZPMemMgrSPtr
bcc .8
inc ZPMemMgrSPtr+1
.8 rts
*/--------------------------------------
* # FreeMem
* A = hMem To Free
* ## RETURN VALUE
* none.
* (X unmodified)
*\--------------------------------------
K.FreeMem.ERRBAD .AZ "FreeMem:$%h=Bad,%s\r\n"
K.FreeMem.ERRFREED .AZ "FreeMem:$%h=free,%s\r\n"
*--------------------------------------
K.FreeMem.BAD sec
.HS 90 BCC
K.FreeMem.FREED clc
phx
php
pha
ldy #S.PS.hARGV
lda (pPS),y
jsr K.GetMemPtr
>PUSHYA
pla
>PUSHA
>PUSHBI 3
>LDYAI K.FreeMem.ERRBAD
plp
bcs .1
>LDYAI K.FreeMem.ERRFREED
.1 >SYSCALL printf
plx
sec
rts
*--------------------------------------
K.FreeMem tay
beq K.FreeMem.BAD Slot=0, reserved by Kernel
cmp Mem.LastSlot
bcc .10
bne K.FreeMem.BAD
.10 pha
jsr K.GetMemByID X unmodified
lda (ZPMemMgrSPtr) In use ?
bmi .11
pla
bra K.FreeMem.FREED
.11 pla
jsr MEM.decREFCNT only one left ?
bne .8 no, must be a code segment loaded several times
lda (ZPMemMgrSPtr)
and #S.MEM.F.CODE CS: Any BINPATH to discard ?
sta (ZPMemMgrSPtr) Mark as FREE
beq .1
ldy #S.MEM.BIN
lda (ZPMemMgrSPtr),y
jsr K.GetMemByID X unmodified
lda (ZPMemMgrSPtr)
bpl * ***MUST BE ALLOCATED***
lda #0 mark BINPATH slot as free
sta (ZPMemMgrSPtr)
.1 lda Mem.LastSlot
beq .8
jsr K.GetMemByID X unmodified
lda (ZPMemMgrSPtr)
bmi .8 used, exit
.2 dec Mem.LastSlot free! get previous....
beq .80 empty list: go set Mem.Free=Mem.HiMem
lda Mem.LastSlot
jsr K.GetMemByID X unmodified
lda (ZPMemMgrSPtr)
bpl .2 free again! loop
ldy #S.MEM.PTR
lda (ZPMemMgrSPtr),y set Mem.Free...
sta Mem.Free
iny
lda (ZPMemMgrSPtr),y
sta Mem.Free+1
.8 clc
rts
.80 >LDYA Mem.HiMem
>STYA Mem.Free
clc
rts
*/--------------------------------------
* # GetMemPtr
* A = hMem
* ## RETURN VALUE
* Y,A = PTR to MemBlock
* (X unmodified)
*\--------------------------------------
* Optimized for :
* Mem.Table is page aligned at $1800
* S.MEM is 8 bytes
*--------------------------------------
.DO Mem.Table=$800
.ELSE
!!!!!WARNING!!!!!
.FIN
.DO S.MEM=8
.ELSE
!!!!!WARNING!!!!!
.FIN
*--------------------------------------
K.GetMemPtr sta ZPMemMgrSPtr
lda /Mem.Table/8
asl ZPMemMgrSPtr
rol
asl ZPMemMgrSPtr
rol
asl ZPMemMgrSPtr
rol
sta ZPMemMgrSPtr+1
K.GetMemPtr.ZPMemMgrSPtr
ldy #S.MEM.PTR
lda (ZPMemMgrSPtr),y
pha
iny
lda (ZPMemMgrSPtr),y
ply
rts
*/--------------------------------------
* # GetMemByID
* A = hMem
* ## RETURN VALUE
* Y,A = ZPMemMgrSPtr = PTR to S.MEM
* (X unmodified)
*\--------------------------------------
K.GetMemByID sta ZPMemMgrSPtr
lda /Mem.Table/8
asl ZPMemMgrSPtr
rol
asl ZPMemMgrSPtr
rol
asl ZPMemMgrSPtr
rol
sta ZPMemMgrSPtr+1
ldy ZPMemMgrSPtr
rts
*/--------------------------------------
* # GetMemStat
* **In:**
* Y,A = Ptr to 24 bytes buffer
* ## RETURN VALUE
* Buffer filled with memory stats
*\--------------------------------------
K.GetMemStat >STYA ZPMemMgrTmp1
ldy #22
ldx #6
.1 lda DevMgr.Stat,x
sta (ZPMemMgrTmp1),y
dey
dex
bpl .1
sta SETREADAUX
ldy #14
jsr .2
sta CLRREADAUX
ldy #6
.2 ldx #6
.3 lda Mem.Table,x
sta (ZPMemMgrTmp1),y
dey
dex
bpl .3
rts
*/--------------------------------------
* # SListGetByID
* PUSHB = hSList
* PUSHW = KeyID
* PUSHW = Data Ptr
* PUSHW = Key Ptr
* ## RETURN VALUE
* X,Y = Next KeyID
*\--------------------------------------
K.SListGetByID >PULLW ZPSListKeyPtr
*/--------------------------------------
* # SListUpdateByID
* PUSHB = hSList
* PUSHW = KeyID
* PUSHW = Data Ptr
* ## RETURN VALUE
* A = Key Length
* X,Y = KeyID
*\--------------------------------------
K.SListUpdateByID
>PULLW ZPSListDataPtr
>PULLW ZPSListID
bra K.SListPullH
*/--------------------------------------
* # SListAdd
* PUSHB = hSList
* PUSHW = Key Ptr
* PUSHW = Data Ptr
* ## RETURN VALUE
* A = Key Length
* X,Y = KeyID
*\--------------------------------------
K.SListAdd
*/--------------------------------------
* # SListLookup
* PUSHB = hSList
* PUSHW = Key Ptr
* PUSHW = Data Ptr
* ## RETURN VALUE
* A = Key Length
* X,Y = KeyID
*\--------------------------------------
K.SListLookup
*--------------------------------------
>PULLW ZPSListDataPtr
>PULLW ZPSListKeyPtr
K.SListPullH >PULLA
*/--------------------------------------
* # SListNew
* ## RETURN VALUE
* A=hSList
*\--------------------------------------
K.SListNew
*/--------------------------------------
* # SListFree
* A=hSList
* ## RETURN VALUE
*\--------------------------------------
K.SListFree
*--------------------------------------
sta SETREADAUX
sta SETWRITEAUX
jsr X.SLIST
sta CLRREADAUX
sta CLRWRITEAUX
rts
*/--------------------------------------
* # GetStkObjProp
* A = hObject (AUX Memory)
* Y = Property Index
* ## RETURN VALUE
* Y,A = Property Value
*\--------------------------------------
K.GetStkObjProp phy
sta SETREADAUX
jsr K.GetMemPtr
>STYA ZPMemMgrTmp1
ply
lda (ZPMemMgrTmp1),y
pha
iny
lda (ZPMemMgrTmp1),y
ply
sta CLRREADAUX
rts
*/--------------------------------------
* # NewStkObj
* Y,A = Size Requested
* ## RETURN VALUE
* CC : success
* YA = PTR to Mem (Uninitialised)
* X = hMem
* CS :
* A = EC
*\--------------------------------------
K.NewStkObj ldx #SYS.GetMem
.HS 2C BIT ABS
*/--------------------------------------
* # FreeStkObj
* A = hMem To Free (AUX Memory)
* ## RETURN VALUE
* none.
* (X,Y unmodified)
*\--------------------------------------
K.FreeStkObj ldx #SYS.FreeMem
MEM.GoStkObj sta SETREADAUX
sta SETWRITEAUX
jsr .1
sta CLRREADAUX
sta CLRWRITEAUX
rts
.1 jmp (SYS.Kernel.JMP,x)
*/--------------------------------------
* # LoadStkObj
* Load a file in AUX memory (Stock Objects)
* PUSHW = AUXTYPE (Handled by....
* PUSHB = TYPE ...
* PUSHB = MODE ...
* PUSHW = PATH ...FOpen)
* ## RETURN VALUE
* Y,A = File Length
* X = hMem of Loaded Object in AUX mem
*\--------------------------------------
K.LoadStkObj >SYSCALL LoadFile
bcs .99
stx .8+1 Save MAIN hMem
>STYA A2L Save LEN temporarly
jsr K.NewStkObj
bcs .9
stx .80+1
>STYA A4L Save Destination Address in AUX
lda .8+1
jsr K.GetMemPtr
>STYA A1L Save MAIN base Ptr
pha Add Allocated LEN
tya
clc
adc A2L
sta A2L
pla
adc A2L+1
sta A2L+1 to get End address in A2L/H
sec Main To Aux
jsr AuxMove
.8 lda #$ff SELF MODIFIED
jsr K.FreeMem release MAIN memory
.80 lda #$ff Returns AUX hMem
rts
.9 pha
jsr .8
pla
sec
.99 rts
*--------------------------------------
* in Y,A = buf size
*--------------------------------------
MEM.GetKrnlBuf pha
tya
clc
adc DevMgr.Free
tax
pla
adc DevMgr.Free+1
bcs .99 we crossed $FFFF, out of mem
cpx #DevMgr.HiMem
pha
sbc /DevMgr.HiMem
bcs .98 No More Room...
ldy DevMgr.Free
stx DevMgr.Free
ldx DevMgr.Free+1
pla
sta DevMgr.Free+1
txa
* clc
rts
.98 pla
.99 lda #E.OOM
* sec
rts
*--------------------------------------
MEM.GetKeyCharY sta CLRREADAUX
lda (ZPSListKeyPtr),y
sta SETREADAUX
beq MEM.IsDigit.9
MEM.IsIDValid cmp #'.'
beq MEM.IsDigit.8
cmp #'_'
beq MEM.IsDigit.8
MEM.IsDigitOrL cmp #'z'+1
bcs MEM.IsDigit.RTS
cmp #'a'
bcs MEM.IsDigit.8
MEM.IsDigitOrUC cmp #'Z'+1
bcs MEM.IsDigit.RTS
cmp #'A'
bcs MEM.IsDigit.8
MEM.IsDigit cmp #'9'+1
bcs MEM.IsDigit.RTS
cmp #'0'
bcs MEM.IsDigit.8
MEM.IsDigit.9 sec
MEM.IsDigit.RTS rts
MEM.IsDigit.8 clc
rts
*--------------------------------------
MEM.IsHexDigit jsr MEM.IsDigit
bcc .8
cmp #'A'
bcc MEM.IsDigit.9
cmp #'F'+1
bcc .1
cmp #'a'
bcc MEM.IsDigit.9
cmp #'f'+1
bcs MEM.IsDigit.RTS
eor #$20
.1
* clc
sbc #'A'-11 cc so A->10 (11-CC)
clc
.8 and #$0F
rts
*--------------------------------------
MEM.SetKeyCharY sta CLRWRITEAUX
sta (ZPSListKeyPtr),y
sta SETWRITEAUX
rts
*--------------------------------------
MEM.GetDataByte sta CLRREADAUX
lda (ZPSListDataPtr)
sta SETREADAUX
bra MEM.SetDataByte.1
*--------------------------------------
MEM.SetDataByte sta CLRWRITEAUX
sta (ZPSListDataPtr)
sta SETWRITEAUX
MEM.SetDataByte.1
inc ZPSListDataPtr
bne .8
inc ZPSListDataPtr+1
.8 rts
*--------------------------------------
MEM.TXTPTR.GetNext
sta CLRREADAUX
lda (TXTPTR)
sta SETREADAUX
beq .9
inc TXTPTR
bne .9
inc TXTPTR+1
.9 rts
*--------------------------------------
MEM.SPtr1PPtr2 >STYA ZPPtr1
>PULLW ZPPtr2
rts
*--------------------------------------
MEM.GetCharPtr1 lda (ZPPtr1)
beq MEM.GetCharPtr1.8
MEM.NextCharPtr1
inc ZPPtr1
bne MEM.GetCharPtr1.8
inc ZPPtr1+1 never Z
MEM.GetCharPtr1.8
rts
*--------------------------------------
MEM.AddYp1ToPtr1
sec
.HS 90 BCC
MEM.AddYToPtr1 clc
tya
adc ZPPtr1
sta ZPPtr1
bcc .8
inc ZPPtr1+1
.8 rts
*--------------------------------------
MEM.PutCharPtr2 sta (ZPPtr2)
MEM.NextCharPtr2
inc ZPPtr2
bne .8
inc ZPPtr2+1
.8 rts
*--------------------------------------
MAN
SAVE USR/SRC/SYS/KERNEL.S.MEM
LOAD USR/SRC/SYS/KERNEL.S
ASM