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Add 28 day code

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Yourtion
2016-05-18 10:25:37 +08:00
parent f025b0083f
commit c65ca780b3
137 changed files with 9146 additions and 0 deletions
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1
28_day/!cons_9x.bat Normal file
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command

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28_day/!cons_nt.bat Normal file
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cmd.exe

142
28_day/Makefile Normal file
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TOOLPATH = ../z_tools/
INCPATH = ../z_tools/haribote/
MAKE = $(TOOLPATH)make.exe -r
EDIMG = $(TOOLPATH)edimg.exe
IMGTOL = $(TOOLPATH)imgtol.com
COPY = copy
DEL = del
#默认动作
default :
$(MAKE) haribote.img
#文件生成规则
haribote.img : haribote/ipl10.bin haribote/haribote.sys Makefile \
a/a.hrb hello3/hello3.hrb hello4/hello4.hrb hello5/hello5.hrb \
winhelo/winhelo.hrb winhelo2/winhelo2.hrb winhelo3/winhelo3.hrb \
star1/star1.hrb stars/stars.hrb stars2/stars2.hrb \
lines/lines.hrb walk/walk.hrb noodle/noodle.hrb \
beepdown/beepdown.hrb color/color.hrb color2/color2.hrb
$(EDIMG) imgin:../z_tools/fdimg0at.tek \
wbinimg src:haribote/ipl10.bin len:512 from:0 to:0 \
copy from:haribote/haribote.sys to:@: \
copy from:haribote/ipl10.nas to:@: \
copy from:make.bat to:@: \
copy from:a/a.hrb to:@: \
copy from:hello3/hello3.hrb to:@: \
copy from:hello4/hello4.hrb to:@: \
copy from:hello5/hello5.hrb to:@: \
copy from:winhelo/winhelo.hrb to:@: \
copy from:winhelo2/winhelo2.hrb to:@: \
copy from:winhelo3/winhelo3.hrb to:@: \
copy from:star1/star1.hrb to:@: \
copy from:stars/stars.hrb to:@: \
copy from:stars2/stars2.hrb to:@: \
copy from:lines/lines.hrb to:@: \
copy from:walk/walk.hrb to:@: \
copy from:noodle/noodle.hrb to:@: \
copy from:beepdown/beepdown.hrb to:@: \
copy from:color/color.hrb to:@: \
copy from:color2/color2.hrb to:@: \
imgout:haribote.img
#命令
run :
$(MAKE) haribote.img
$(COPY) haribote.img ..\z_tools\qemu\fdimage0.bin
$(MAKE) -C ../z_tools/qemu
install :
$(MAKE) haribote.img
$(IMGTOL) w a: haribote.img
full :
$(MAKE) -C haribote
$(MAKE) -C apilib
$(MAKE) -C a
$(MAKE) -C hello3
$(MAKE) -C hello4
$(MAKE) -C hello5
$(MAKE) -C winhelo
$(MAKE) -C winhelo2
$(MAKE) -C winhelo3
$(MAKE) -C star1
$(MAKE) -C stars
$(MAKE) -C stars2
$(MAKE) -C lines
$(MAKE) -C walk
$(MAKE) -C noodle
$(MAKE) -C beepdown
$(MAKE) -C color
$(MAKE) -C color2
$(MAKE) haribote.img
run_full :
$(MAKE) full
$(COPY) haribote.img ..\z_tools\qemu\fdimage0.bin
$(MAKE) -C ../z_tools/qemu
install_full :
$(MAKE) full
$(IMGTOL) w a: haribote.img
run_os :
$(MAKE) -C haribote
$(MAKE) run
clean :
#不执行任何操作
src_only :
$(MAKE) clean
-$(DEL) haribote.img
clean_full :
$(MAKE) -C haribote clean
$(MAKE) -C apilib clean
$(MAKE) -C a clean
$(MAKE) -C hello3 clean
$(MAKE) -C hello4 clean
$(MAKE) -C hello5 clean
$(MAKE) -C winhelo clean
$(MAKE) -C winhelo2 clean
$(MAKE) -C winhelo3 clean
$(MAKE) -C star1 clean
$(MAKE) -C stars clean
$(MAKE) -C stars2 clean
$(MAKE) -C lines clean
$(MAKE) -C walk clean
$(MAKE) -C noodle clean
$(MAKE) -C beepdown clean
$(MAKE) -C color clean
$(MAKE) -C color2 clean
src_only_full :
$(MAKE) -C haribote src_only
$(MAKE) -C apilib src_only
$(MAKE) -C a src_only
$(MAKE) -C hello3 src_only
$(MAKE) -C hello4 src_only
$(MAKE) -C hello5 src_only
$(MAKE) -C winhelo src_only
$(MAKE) -C winhelo2 src_only
$(MAKE) -C winhelo3 src_only
$(MAKE) -C star1 src_only
$(MAKE) -C stars src_only
$(MAKE) -C stars2 src_only
$(MAKE) -C lines src_only
$(MAKE) -C walk src_only
$(MAKE) -C noodle src_only
$(MAKE) -C beepdown src_only
$(MAKE) -C color src_only
$(MAKE) -C color2 src_only
-$(DEL) haribote.img
refresh :
$(MAKE) full
$(MAKE) clean_full
-$(DEL) haribote.img

1
28_day/a/!cons_9x.bat Normal file
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command

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28_day/a/!cons_nt.bat Normal file
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cmd.exe

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28_day/a/Makefile Normal file
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APP = a
STACK = 1k
MALLOC = 0k
include ../app_make.txt

7
28_day/a/a.c Normal file
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#include "apilib.h"
void HariMain(void)
{
api_putchar('A');
api_end();
}

1
28_day/a/make.bat Normal file
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..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

20
28_day/apilib.h Normal file
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void api_putchar(int c);
void api_putstr0(char *s);
void api_putstr1(char *s, int l);
void api_end(void);
int api_openwin(char *buf, int xsiz, int ysiz, int col_inv, char *title);
void api_putstrwin(int win, int x, int y, int col, int len, char *str);
void api_boxfilwin(int win, int x0, int y0, int x1, int y1, int col);
void api_initmalloc(void);
char *api_malloc(int size);
void api_free(char *addr, int size);
void api_point(int win, int x, int y, int col);
void api_refreshwin(int win, int x0, int y0, int x1, int y1);
void api_linewin(int win, int x0, int y0, int x1, int y1, int col);
void api_closewin(int win);
int api_getkey(int mode);
int api_alloctimer(void);
void api_inittimer(int timer, int data);
void api_settimer(int timer, int time);
void api_freetimer(int timer);
void api_beep(int tone);

1
28_day/apilib/!cons_9x.bat Normal file
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command

1
28_day/apilib/!cons_nt.bat Normal file
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cmd.exe

47
28_day/apilib/Makefile Normal file
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OBJS_API = api001.obj api002.obj api003.obj api004.obj api005.obj api006.obj \
api007.obj api008.obj api009.obj api010.obj api011.obj api012.obj \
api013.obj api014.obj api015.obj api016.obj api017.obj api018.obj \
api019.obj api020.obj
TOOLPATH = ../../z_tools/
INCPATH = ../../z_tools/haribote/
MAKE = $(TOOLPATH)make.exe -r
NASK = $(TOOLPATH)nask.exe
CC1 = $(TOOLPATH)cc1.exe -I$(INCPATH) -Os -Wall -quiet
GAS2NASK = $(TOOLPATH)gas2nask.exe -a
OBJ2BIM = $(TOOLPATH)obj2bim.exe
MAKEFONT = $(TOOLPATH)makefont.exe
BIN2OBJ = $(TOOLPATH)bin2obj.exe
BIM2HRB = $(TOOLPATH)bim2hrb.exe
RULEFILE = ../haribote.rul
EDIMG = $(TOOLPATH)edimg.exe
IMGTOL = $(TOOLPATH)imgtol.com
GOLIB = $(TOOLPATH)golib00.exe
COPY = copy
DEL = del
# デフォルト動作
default :
$(MAKE) apilib.lib
# ファイル生成規則
apilib.lib : Makefile $(OBJS_API)
$(GOLIB) $(OBJS_API) out:apilib.lib
# 一般規則
%.obj : %.nas Makefile
$(NASK) $*.nas $*.obj $*.lst
# コマンド
clean :
-$(DEL) *.lst
-$(DEL) *.obj
src_only :
$(MAKE) clean
-$(DEL) apilib.lib

14
28_day/apilib/api001.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api001.nas"]
GLOBAL _api_putchar
[SECTION .text]
_api_putchar: ; void api_putchar(int c);
MOV EDX,1
MOV AL,[ESP+4] ; c
INT 0x40
RET

16
28_day/apilib/api002.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api002.nas"]
GLOBAL _api_putstr0
[SECTION .text]
_api_putstr0: ; void api_putstr0(char *s);
PUSH EBX
MOV EDX,2
MOV EBX,[ESP+8] ; s
INT 0x40
POP EBX
RET

17
28_day/apilib/api003.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api003.nas"]
GLOBAL _api_putstr1
[SECTION .text]
_api_putstr1: ; void api_putstr1(char *s, int l);
PUSH EBX
MOV EDX,3
MOV EBX,[ESP+ 8] ; s
MOV ECX,[ESP+12] ; l
INT 0x40
POP EBX
RET

12
28_day/apilib/api004.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api004.nas"]
GLOBAL _api_end
[SECTION .text]
_api_end: ; void api_end(void);
MOV EDX,4
INT 0x40

24
28_day/apilib/api005.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api005.nas"]
GLOBAL _api_openwin
[SECTION .text]
_api_openwin: ; int api_openwin(char *buf, int xsiz, int ysiz, int col_inv, char *title);
PUSH EDI
PUSH ESI
PUSH EBX
MOV EDX,5
MOV EBX,[ESP+16] ; buf
MOV ESI,[ESP+20] ; xsiz
MOV EDI,[ESP+24] ; ysiz
MOV EAX,[ESP+28] ; col_inv
MOV ECX,[ESP+32] ; title
INT 0x40
POP EBX
POP ESI
POP EDI
RET

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28_day/apilib/api006.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api006.nas"]
GLOBAL _api_putstrwin
[SECTION .text]
_api_putstrwin: ; void api_putstrwin(int win, int x, int y, int col, int len, char *str);
PUSH EDI
PUSH ESI
PUSH EBP
PUSH EBX
MOV EDX,6
MOV EBX,[ESP+20] ; win
MOV ESI,[ESP+24] ; x
MOV EDI,[ESP+28] ; y
MOV EAX,[ESP+32] ; col
MOV ECX,[ESP+36] ; len
MOV EBP,[ESP+40] ; str
INT 0x40
POP EBX
POP EBP
POP ESI
POP EDI
RET

27
28_day/apilib/api007.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api007.nas"]
GLOBAL _api_boxfilwin
[SECTION .text]
_api_boxfilwin: ; void api_boxfilwin(int win, int x0, int y0, int x1, int y1, int col);
PUSH EDI
PUSH ESI
PUSH EBP
PUSH EBX
MOV EDX,7
MOV EBX,[ESP+20] ; win
MOV EAX,[ESP+24] ; x0
MOV ECX,[ESP+28] ; y0
MOV ESI,[ESP+32] ; x1
MOV EDI,[ESP+36] ; y1
MOV EBP,[ESP+40] ; col
INT 0x40
POP EBX
POP EBP
POP ESI
POP EDI
RET

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28_day/apilib/api008.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api008.nas"]
GLOBAL _api_initmalloc
[SECTION .text]
_api_initmalloc: ; void api_initmalloc(void);
PUSH EBX
MOV EDX,8
MOV EBX,[CS:0x0020] ; malloc内存空间的地址
MOV EAX,EBX
ADD EAX,32*1024 ; 加上32KB
MOV ECX,[CS:0x0000] ; 数据段的大小
SUB ECX,EAX
INT 0x40
POP EBX
RET

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28_day/apilib/api009.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api009.nas"]
GLOBAL _api_malloc
[SECTION .text]
_api_malloc: ; char *api_malloc(int size);
PUSH EBX
MOV EDX,9
MOV EBX,[CS:0x0020]
MOV ECX,[ESP+8] ; size
INT 0x40
POP EBX
RET

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28_day/apilib/api010.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api010.nas"]
GLOBAL _api_free
[SECTION .text]
_api_free: ; void api_free(char *addr, int size);
PUSH EBX
MOV EDX,10
MOV EBX,[CS:0x0020]
MOV EAX,[ESP+ 8] ; addr
MOV ECX,[ESP+12] ; size
INT 0x40
POP EBX
RET

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28_day/apilib/api011.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api011.nas"]
GLOBAL _api_point
[SECTION .text]
_api_point: ; void api_point(int win, int x, int y, int col);
PUSH EDI
PUSH ESI
PUSH EBX
MOV EDX,11
MOV EBX,[ESP+16] ; win
MOV ESI,[ESP+20] ; x
MOV EDI,[ESP+24] ; y
MOV EAX,[ESP+28] ; col
INT 0x40
POP EBX
POP ESI
POP EDI
RET

24
28_day/apilib/api012.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api012.nas"]
GLOBAL _api_refreshwin
[SECTION .text]
_api_refreshwin: ; void api_refreshwin(int win, int x0, int y0, int x1, int y1);
PUSH EDI
PUSH ESI
PUSH EBX
MOV EDX,12
MOV EBX,[ESP+16] ; win
MOV EAX,[ESP+20] ; x0
MOV ECX,[ESP+24] ; y0
MOV ESI,[ESP+28] ; x1
MOV EDI,[ESP+32] ; y1
INT 0x40
POP EBX
POP ESI
POP EDI
RET

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28_day/apilib/api013.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api013.nas"]
GLOBAL _api_linewin
[SECTION .text]
_api_linewin: ; void api_linewin(int win, int x0, int y0, int x1, int y1, int col);
PUSH EDI
PUSH ESI
PUSH EBP
PUSH EBX
MOV EDX,13
MOV EBX,[ESP+20] ; win
MOV EAX,[ESP+24] ; x0
MOV ECX,[ESP+28] ; y0
MOV ESI,[ESP+32] ; x1
MOV EDI,[ESP+36] ; y1
MOV EBP,[ESP+40] ; col
INT 0x40
POP EBX
POP EBP
POP ESI
POP EDI
RET

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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api014.nas"]
GLOBAL _api_closewin
[SECTION .text]
_api_closewin: ; void api_closewin(int win);
PUSH EBX
MOV EDX,14
MOV EBX,[ESP+8] ; win
INT 0x40
POP EBX
RET

14
28_day/apilib/api015.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api015.nas"]
GLOBAL _api_getkey
[SECTION .text]
_api_getkey: ; int api_getkey(int mode);
MOV EDX,15
MOV EAX,[ESP+4] ; mode
INT 0x40
RET

13
28_day/apilib/api016.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api016.nas"]
GLOBAL _api_alloctimer
[SECTION .text]
_api_alloctimer: ; int api_alloctimer(void);
MOV EDX,16
INT 0x40
RET

17
28_day/apilib/api017.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api017.nas"]
GLOBAL _api_inittimer
[SECTION .text]
_api_inittimer: ; void api_inittimer(int timer, int data);
PUSH EBX
MOV EDX,17
MOV EBX,[ESP+ 8] ; timer
MOV EAX,[ESP+12] ; data
INT 0x40
POP EBX
RET

17
28_day/apilib/api018.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api018.nas"]
GLOBAL _api_settimer
[SECTION .text]
_api_settimer: ; void api_settimer(int timer, int time);
PUSH EBX
MOV EDX,18
MOV EBX,[ESP+ 8] ; timer
MOV EAX,[ESP+12] ; time
INT 0x40
POP EBX
RET

16
28_day/apilib/api019.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api019.nas"]
GLOBAL _api_freetimer
[SECTION .text]
_api_freetimer: ; void api_freetimer(int timer);
PUSH EBX
MOV EDX,19
MOV EBX,[ESP+ 8] ; timer
INT 0x40
POP EBX
RET

14
28_day/apilib/api020.nas Normal file
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[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "api020.nas"]
GLOBAL _api_beep
[SECTION .text]
_api_beep: ; void api_beep(int tone);
MOV EDX,20
MOV EAX,[ESP+4] ; tone
INT 0x40
RET

BIN
28_day/apilib/apilib.lib Normal file
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28_day/apilib/make.bat Normal file
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..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

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28_day/app_make.txt Normal file
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TOOLPATH = ../../z_tools/
INCPATH = ../../z_tools/haribote/
APILIBPATH = ../apilib/
HARIBOTEPATH = ../haribote/
MAKE = $(TOOLPATH)make.exe -r
NASK = $(TOOLPATH)nask.exe
CC1 = $(TOOLPATH)cc1.exe -I$(INCPATH) -I../ -Os -Wall -quiet
GAS2NASK = $(TOOLPATH)gas2nask.exe -a
OBJ2BIM = $(TOOLPATH)obj2bim.exe
MAKEFONT = $(TOOLPATH)makefont.exe
BIN2OBJ = $(TOOLPATH)bin2obj.exe
BIM2HRB = $(TOOLPATH)bim2hrb.exe
RULEFILE = ../haribote.rul
EDIMG = $(TOOLPATH)edimg.exe
IMGTOL = $(TOOLPATH)imgtol.com
GOLIB = $(TOOLPATH)golib00.exe
COPY = copy
DEL = del
#默认动作
default :
$(MAKE) $(APP).hrb
#文件生成规则
$(APP).bim : $(APP).obj $(APILIBPATH)apilib.lib Makefile ../app_make.txt
$(OBJ2BIM) @$(RULEFILE) out:$(APP).bim map:$(APP).map stack:$(STACK) \
$(APP).obj $(APILIBPATH)apilib.lib
$(APP).hrb : $(APP).bim Makefile ../app_make.txt
$(BIM2HRB) $(APP).bim $(APP).hrb $(MALLOC)
haribote.img : ../haribote/ipl10.bin ../haribote/haribote.sys $(APP).hrb \
Makefile ../app_make.txt
$(EDIMG) imgin:../../z_tools/fdimg0at.tek \
wbinimg src:../haribote/ipl10.bin len:512 from:0 to:0 \
copy from:../haribote/haribote.sys to:@: \
copy from:$(APP).hrb to:@: \
imgout:haribote.img
#一般规则
%.gas : %.c ../apilib.h Makefile ../app_make.txt
$(CC1) -o $*.gas $*.c
%.nas : %.gas Makefile ../app_make.txt
$(GAS2NASK) $*.gas $*.nas
%.obj : %.nas Makefile ../app_make.txt
$(NASK) $*.nas $*.obj $*.lst
#命令
run :
$(MAKE) haribote.img
$(COPY) haribote.img ..\..\z_tools\qemu\fdimage0.bin
$(MAKE) -C ../../z_tools/qemu
full :
$(MAKE) -C $(APILIBPATH)
$(MAKE) $(APP).hrb
run_full :
$(MAKE) -C $(APILIBPATH)
$(MAKE) -C ../haribote
$(MAKE) run
clean :
-$(DEL) *.lst
-$(DEL) *.obj
-$(DEL) *.map
-$(DEL) *.bim
-$(DEL) haribote.img
src_only :
$(MAKE) clean
-$(DEL) $(APP).hrb

1
28_day/beepdown/!cons_9x.bat Normal file
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command

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28_day/beepdown/!cons_nt.bat Normal file
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cmd.exe

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28_day/beepdown/Makefile Normal file
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APP = beepdown
STACK = 1k
MALLOC = 40k
include ../app_make.txt

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28_day/beepdown/beepdown.c Normal file
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#include "apilib.h"
void HariMain(void)
{
int i, timer;
timer = api_alloctimer();
api_inittimer(timer, 128);
for (i = 20000000; i >= 20000; i -= i / 100) {
/* 20KHz20Hz即人类可以听到的声音范围*/
/* i以1%的速度递减*/
api_beep(i);
api_settimer(timer, 1); /* 0.01秒*/
if (api_getkey(1) != 128) {
break;
}
}
api_beep(0);
api_end();
}

1
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..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

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28_day/color/!cons_9x.bat Normal file
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command

1
28_day/color/!cons_nt.bat Normal file
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cmd.exe

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28_day/color/Makefile Normal file
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APP = color
STACK = 1k
MALLOC = 56k
include ../app_make.txt

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28_day/color/color.c Normal file
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#include "apilib.h"
void HariMain(void)
{
char *buf;
int win, x, y, r, g, b;
api_initmalloc();
buf = api_malloc(144 * 164);
win = api_openwin(buf, 144, 164, -1, "color");
for (y = 0; y < 128; y++) {
for (x = 0; x < 128; x++) {
r = x * 2;
g = y * 2;
b = 0;
buf[(x + 8) + (y + 28) * 144] = 16 + (r / 43) + (g / 43) * 6 + (b / 43) * 36;
}
}
api_refreshwin(win, 8, 28, 136, 156);
api_getkey(1); /*等待按下任意键*/
api_end();
}

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..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

1
28_day/color2/!cons_9x.bat Normal file
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command

1
28_day/color2/!cons_nt.bat Normal file
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cmd.exe

5
28_day/color2/Makefile Normal file
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APP = color2
STACK = 1k
MALLOC = 56k
include ../app_make.txt

36
28_day/color2/color2.c Normal file
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#include "apilib.h"
unsigned char rgb2pal(int r, int g, int b, int x, int y);
void HariMain(void)
{
char *buf;
int win, x, y;
api_initmalloc();
buf = api_malloc(144 * 164);
win = api_openwin(buf, 144, 164, -1, "color2");
for (y = 0; y < 128; y++) {
for (x = 0; x < 128; x++) {
buf[(x + 8) + (y + 28) * 144] = rgb2pal(x * 2, y * 2, 0, x, y);
}
}
api_refreshwin(win, 8, 28, 136, 156);
api_getkey(1); /* <20>Ă<EFBFBD><C482>Ƃ<EFBFBD><C682>ȃL<C883>[<5B><><EFBFBD>͂<EFBFBD>҂<EFBFBD> */
api_end();
}
unsigned char rgb2pal(int r, int g, int b, int x, int y)
{
static int table[4] = { 3, 1, 0, 2 };
int i;
x &= 1; /*判断是偶数还是奇数*/
y &= 1;
i = table[x + y * 2]; /*用来生成中间色的常量*/
r = (r * 21) / 256; /* r为020*/
g = (g * 21) / 256;
b = (b * 21) / 256;
r = (r + i) / 4; /* r为05*/
g = (g + i) / 4;
b = (b + i) / 4;
return 16 + r + g * 6 + b * 36;
}

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..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

10
28_day/haribote.rul Normal file
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format:
code(align:1, logic:0x24, file:0x24);
data(align:4, logic:stack_end, file:code_end);
file:
../../z_tools/haribote/harilibc.lib;
../../z_tools/haribote/golibc.lib;
label:
_HariStartup;

1
28_day/haribote/!cons_9x.bat Normal file
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command

1
28_day/haribote/!cons_nt.bat Normal file
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cmd.exe

79
28_day/haribote/Makefile Normal file
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OBJS_BOOTPACK = bootpack.obj naskfunc.obj hankaku.obj graphic.obj dsctbl.obj \
int.obj fifo.obj keyboard.obj mouse.obj memory.obj sheet.obj timer.obj \
mtask.obj window.obj console.obj file.obj
TOOLPATH = ../../z_tools/
INCPATH = ../../z_tools/haribote/
MAKE = $(TOOLPATH)make.exe -r
NASK = $(TOOLPATH)nask.exe
CC1 = $(TOOLPATH)cc1.exe -I$(INCPATH) -Os -Wall -quiet
GAS2NASK = $(TOOLPATH)gas2nask.exe -a
OBJ2BIM = $(TOOLPATH)obj2bim.exe
MAKEFONT = $(TOOLPATH)makefont.exe
BIN2OBJ = $(TOOLPATH)bin2obj.exe
BIM2HRB = $(TOOLPATH)bim2hrb.exe
RULEFILE = ../haribote.rul
EDIMG = $(TOOLPATH)edimg.exe
IMGTOL = $(TOOLPATH)imgtol.com
GOLIB = $(TOOLPATH)golib00.exe
COPY = copy
DEL = del
#默认动作
default :
$(MAKE) ipl10.bin
$(MAKE) haribote.sys
# 镜像文件生成
ipl10.bin : ipl10.nas Makefile
$(NASK) ipl10.nas ipl10.bin ipl10.lst
asmhead.bin : asmhead.nas Makefile
$(NASK) asmhead.nas asmhead.bin asmhead.lst
hankaku.bin : hankaku.txt Makefile
$(MAKEFONT) hankaku.txt hankaku.bin
hankaku.obj : hankaku.bin Makefile
$(BIN2OBJ) hankaku.bin hankaku.obj _hankaku
bootpack.bim : $(OBJS_BOOTPACK) Makefile
$(OBJ2BIM) @$(RULEFILE) out:bootpack.bim stack:3136k map:bootpack.map \
$(OBJS_BOOTPACK)
# 3MB+64KB=3136KB
bootpack.hrb : bootpack.bim Makefile
$(BIM2HRB) bootpack.bim bootpack.hrb 0
haribote.sys : asmhead.bin bootpack.hrb Makefile
copy /B asmhead.bin+bootpack.hrb haribote.sys
# 其他指令
%.gas : %.c bootpack.h Makefile
$(CC1) -o $*.gas $*.c
%.nas : %.gas Makefile
$(GAS2NASK) $*.gas $*.nas
%.obj : %.nas Makefile
$(NASK) $*.nas $*.obj $*.lst
# 运行程序
clean :
-$(DEL) asmhead.bin
-$(DEL) hankaku.bin
-$(DEL) *.lst
-$(DEL) *.obj
-$(DEL) *.map
-$(DEL) *.bim
-$(DEL) *.hrb
src_only :
$(MAKE) clean
-$(DEL) ipl10.bin
-$(DEL) haribote.sys

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; haribote-os boot asm
; TAB=4
[INSTRSET "i486p"]
VBEMODE EQU 0x105 ; 1024 x 768 x 8bit 彩色
; 显示模式
; 0x100 : 640 x 400 x 8bit 彩色
; 0x101 : 640 x 480 x 8bit 彩色
; 0x103 : 800 x 600 x 8bit 彩色
; 0x105 : 1024 x 768 x 8bit 彩色
; 0x107 : 1280 x 1024 x 8bit 彩色
BOTPAK EQU 0x00280000 ; 加载bootpack
DSKCAC EQU 0x00100000 ; 磁盘缓存的位置
DSKCAC0 EQU 0x00008000 ; 磁盘缓存的位置(实模式)
; BOOT_INFO 相关
CYLS EQU 0x0ff0 ; 引导扇区设置
LEDS EQU 0x0ff1
VMODE EQU 0x0ff2 ; 关于颜色的信息
SCRNX EQU 0x0ff4 ; 分辨率X
SCRNY EQU 0x0ff6 ; 分辨率Y
VRAM EQU 0x0ff8 ; 图像缓冲区的起始地址
ORG 0xc200 ; 这个的程序要被装载的内存地址
; 确认VBE是否存在
MOV AX,0x9000
MOV ES,AX
MOV DI,0
MOV AX,0x4f00
INT 0x10
CMP AX,0x004f
JNE scrn320
; 检查VBE的版本
MOV AX,[ES:DI+4]
CMP AX,0x0200
JB scrn320 ; if (AX < 0x0200) goto scrn320
; 取得画面模式信息
MOV CX,VBEMODE
MOV AX,0x4f01
INT 0x10
CMP AX,0x004f
JNE scrn320
; 画面模式信息的确认
CMP BYTE [ES:DI+0x19],8 ;颜色数必须为8
JNE scrn320
CMP BYTE [ES:DI+0x1b],4 ;颜色的指定方法必须为4(4是调色板模式)
JNE scrn320
MOV AX,[ES:DI+0x00] ;模式属性bit7不是1就不能加上0x4000
AND AX,0x0080
JZ scrn320 ; 模式属性的bit7是0所以放弃
; 画面设置
MOV BX,VBEMODE+0x4000
MOV AX,0x4f02
INT 0x10
MOV BYTE [VMODE],8 ; 屏幕的模式参考C语言的引用
MOV AX,[ES:DI+0x12]
MOV [SCRNX],AX
MOV AX,[ES:DI+0x14]
MOV [SCRNY],AX
MOV EAX,[ES:DI+0x28] ;VRAM的地址
MOV [VRAM],EAX
JMP keystatus
scrn320:
MOV AL,0x13 ; VGA图、320x200x8bit彩色
MOV AH,0x00
INT 0x10
MOV BYTE [VMODE],8 ; 记下画面模式参考C语言
MOV WORD [SCRNX],320
MOV WORD [SCRNY],200
MOV DWORD [VRAM],0x000a0000
; 通过 BIOS 获取指示灯状态
keystatus:
MOV AH,0x02
INT 0x16 ; keyboard BIOS
MOV [LEDS],AL
; PIC关闭一切中断
; 根据AT兼容机的规格如果要初始化PIC
; 必须在CLI之前进行否则有时会挂起。
; 随后进行PIC的初始化。
MOV AL,0xff
OUT 0x21,AL
NOP ; 如果连续执行OUT指令有些机种会无法正常运行
OUT 0xa1,AL
CLI ; 禁止CPU级别的中断
; 为了让CPU能够访问1MB以上的内存空间设定A20GATE
CALL waitkbdout
MOV AL,0xd1
OUT 0x64,AL
CALL waitkbdout
MOV AL,0xdf ; enable A20
OUT 0x60,AL
CALL waitkbdout
; 切换到保护模式
[INSTRSET "i486p"] ; 说明使用486指令
LGDT [GDTR0] ; 设置临时GDT
MOV EAX,CR0
AND EAX,0x7fffffff ; 设bit31为0禁用分页
OR EAX,0x00000001 ; bit0到1转换保护模式过渡
MOV CR0,EAX
JMP pipelineflush
pipelineflush:
MOV AX,1*8 ; 可读写的段 32bit
MOV DS,AX
MOV ES,AX
MOV FS,AX
MOV GS,AX
MOV SS,AX
; bootpack传递
MOV ESI,bootpack ; 转送源
MOV EDI,BOTPAK ; 转送目标
MOV ECX,512*1024/4
CALL memcpy
; 磁盘数据最终转送到它本来的位置去
; 首先从启动扇区开始
MOV ESI,0x7c00 ; 转送源
MOV EDI,DSKCAC ; 转送目标
MOV ECX,512/4
CALL memcpy
; 剩余的全部
MOV ESI,DSKCAC0+512 ; 转送源
MOV EDI,DSKCAC+512 ; 转送源目标
MOV ECX,0
MOV CL,BYTE [CYLS]
IMUL ECX,512*18*2/4 ; 从柱面数变换为字节数/4
SUB ECX,512/4 ; 减去 IPL 偏移量
CALL memcpy
; 必须由asmhead来完成的工作至此全部完毕
; 以后就交由bootpack来完成
; bootpack启动
MOV EBX,BOTPAK
MOV ECX,[EBX+16]
ADD ECX,3 ; ECX += 3;
SHR ECX,2 ; ECX /= 4;
JZ skip ; 没有要转送的东西时
MOV ESI,[EBX+20] ; 转送源
ADD ESI,EBX
MOV EDI,[EBX+12] ; 转送目标
CALL memcpy
skip:
MOV ESP,[EBX+12] ; 堆栈的初始化
JMP DWORD 2*8:0x0000001b
waitkbdout:
IN AL,0x64
AND AL,0x02
JNZ waitkbdout ; AND的结果如果不是0就跳到waitkbdout
RET
memcpy:
MOV EAX,[ESI]
ADD ESI,4
MOV [EDI],EAX
ADD EDI,4
SUB ECX,1
JNZ memcpy ; 减法运算的结果如果不是0就跳转到memcpy
RET
; memcpy地址前缀大小
ALIGNB 16
GDT0:
RESB 8 ; 初始值
DW 0xffff,0x0000,0x9200,0x00cf ; 可以读写的段segment32bit
DW 0xffff,0x0000,0x9a28,0x0047 ; 可执行的文件的32bit寄存器bootpack用
DW 0
GDTR0:
DW 8*3-1
DD GDT0
ALIGNB 16
bootpack:

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28_day/haribote/bootpack.c Normal file
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/* bootpack */
#include "bootpack.h"
#include <stdio.h>
#define KEYCMD_LED 0xed
void keywin_off(struct SHEET *key_win);
void keywin_on(struct SHEET *key_win);
void close_console(struct SHEET *sht);
void close_constask(struct TASK *task);
void HariMain(void)
{
struct BOOTINFO *binfo = (struct BOOTINFO *) ADR_BOOTINFO;
struct SHTCTL *shtctl;
char s[40];
struct FIFO32 fifo, keycmd;
int fifobuf[128], keycmd_buf[32];
int mx, my, i, new_mx = -1, new_my = 0, new_wx = 0x7fffffff, new_wy = 0;
unsigned int memtotal;
struct MOUSE_DEC mdec;
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
unsigned char *buf_back, buf_mouse[256];
struct SHEET *sht_back, *sht_mouse;
struct TASK *task_a, *task;
static char keytable0[0x80] = {
0, 0, '1', '2', '3', '4', '5', '6', '7', '8', '9', '0', '-', '^', 0x08, 0,
'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '@', '[', 0x0a, 0, 'A', 'S',
'D', 'F', 'G', 'H', 'J', 'K', 'L', ';', ':', 0, 0, ']', 'Z', 'X', 'C', 'V',
'B', 'N', 'M', ',', '.', '/', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1',
'2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0x5c, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0
};
static char keytable1[0x80] = {
0, 0, '!', 0x22, '#', '$', '%', '&', 0x27, '(', ')', '~', '=', '~', 0x08, 0,
'Q', 'W', 'E', 'R', 'T', 'Y', 'U', 'I', 'O', 'P', '`', '{', 0x0a, 0, 'A', 'S',
'D', 'F', 'G', 'H', 'J', 'K', 'L', '+', '*', 0, 0, '}', 'Z', 'X', 'C', 'V',
'B', 'N', 'M', '<', '>', '?', 0, '*', 0, ' ', 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, '7', '8', '9', '-', '4', '5', '6', '+', '1',
'2', '3', '0', '.', 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, '_', 0, 0, 0, 0, 0, 0, 0, 0, 0, '|', 0, 0
};
int key_shift = 0, key_leds = (binfo->leds >> 4) & 7, keycmd_wait = -1;
int j, x, y, mmx = -1, mmy = -1, mmx2 = 0;
struct SHEET *sht = 0, *key_win, *sht2;
init_gdtidt();
init_pic();
io_sti(); /* IDT/PIC的初始化已经完成于是开放CPU的中断 */
fifo32_init(&fifo, 128, fifobuf, 0);
*((int *) 0x0fec) = (int) &fifo;
init_pit();
init_keyboard(&fifo, 256);
enable_mouse(&fifo, 512, &mdec);
io_out8(PIC0_IMR, 0xf8); /* 设定PIT和PIC1以及键盘为许可(11111000) */
io_out8(PIC1_IMR, 0xef); /* 开放鼠标中断(11101111) */
fifo32_init(&keycmd, 32, keycmd_buf, 0);
memtotal = memtest(0x00400000, 0xbfffffff);
memman_init(memman);
memman_free(memman, 0x00001000, 0x0009e000); /* 0x00001000 - 0x0009efff */
memman_free(memman, 0x00400000, memtotal - 0x00400000);
init_palette();
shtctl = shtctl_init(memman, binfo->vram, binfo->scrnx, binfo->scrny);
task_a = task_init(memman);
fifo.task = task_a;
task_run(task_a, 1, 2);
*((int *) 0x0fe4) = (int) shtctl;
/* sht_back */
sht_back = sheet_alloc(shtctl);
buf_back = (unsigned char *) memman_alloc_4k(memman, binfo->scrnx * binfo->scrny);
sheet_setbuf(sht_back, buf_back, binfo->scrnx, binfo->scrny, -1); /* 无透明色 */
init_screen8(buf_back, binfo->scrnx, binfo->scrny);
/* sht_cons */
key_win = open_console(shtctl, memtotal);
/* sht_mouse */
sht_mouse = sheet_alloc(shtctl);
sheet_setbuf(sht_mouse, buf_mouse, 16, 16, 99);
init_mouse_cursor8(buf_mouse, 99);
mx = (binfo->scrnx - 16) / 2; /* 计算坐标使其位于画面中央 */
my = (binfo->scrny - 28 - 16) / 2;
sheet_slide(sht_back, 0, 0);
sheet_slide(key_win, 32, 4);
sheet_slide(sht_mouse, mx, my);
sheet_updown(sht_back, 0);
sheet_updown(key_win, 1);
sheet_updown(sht_mouse, 2);
keywin_on(key_win);
/*为了避免和键盘当前状态冲突,在一开始先进行设置*/
fifo32_put(&keycmd, KEYCMD_LED);
fifo32_put(&keycmd, key_leds);
for (;;) {
if (fifo32_status(&keycmd) > 0 && keycmd_wait < 0) {
/* 如果存在向键盘控制器发送的数据,则发送它 */
keycmd_wait = fifo32_get(&keycmd);
wait_KBC_sendready();
io_out8(PORT_KEYDAT, keycmd_wait);
}
io_cli();
if (fifo32_status(&fifo) == 0) {
/* FIFO为空当存在搁置的绘图操作时立即执行*/
if (new_mx >= 0) {
io_sti();
sheet_slide(sht_mouse, new_mx, new_my);
new_mx = -1;
} else if (new_wx != 0x7fffffff) {
io_sti();
sheet_slide(sht, new_wx, new_wy);
new_wx = 0x7fffffff;
} else {
task_sleep(task_a);
io_sti();
}
} else {
i = fifo32_get(&fifo);
io_sti();
if (key_win != 0 && key_win->flags == 0) { /*窗口被关闭*/
if (shtctl->top == 1) { /*当画面上只剩鼠标和背景时*/
key_win = 0;
} else {
key_win = shtctl->sheets[shtctl->top - 1];
keywin_on(key_win);
}
}
if (256 <= i && i <= 511) { /* 键盘数据*/
if (i < 0x80 + 256) { /*将按键编码转换为字符编码*/
if (key_shift == 0) {
s[0] = keytable0[i - 256];
} else {
s[0] = keytable1[i - 256];
}
} else {
s[0] = 0;
}
if ('A' <= s[0] && s[0] <= 'Z') { /*当输入字符为英文字母时*/
if (((key_leds & 4) == 0 && key_shift == 0) ||
((key_leds & 4) != 0 && key_shift != 0)) {
s[0] += 0x20; /*将大写字母转换为小写字母*/
}
}
if (s[0] != 0 && key_win != 0) { /*一般字符、退格键、回车键*/
fifo32_put(&key_win->task->fifo, s[0] + 256);
}
if (i == 256 + 0x0f && key_win != 0) { /* Tab键 */
keywin_off(key_win);
j = key_win->height - 1;
if (j == 0) {
j = shtctl->top - 1;
}
key_win = shtctl->sheets[j];
keywin_on(key_win);
}
if (i == 256 + 0x2a) { /*左Shift ON */
key_shift |= 1;
}
if (i == 256 + 0x36) { /*右Shift ON */
key_shift |= 2;
}
if (i == 256 + 0xaa) { /*左Shift OFF */
key_shift &= ~1;
}
if (i == 256 + 0xb6) { /*右Shift OFF */
key_shift &= ~2;
}
if (i == 256 + 0x3a) { /* CapsLock */
key_leds ^= 4;
fifo32_put(&keycmd, KEYCMD_LED);
fifo32_put(&keycmd, key_leds);
}
if (i == 256 + 0x45) { /* NumLock */
key_leds ^= 2;
fifo32_put(&keycmd, KEYCMD_LED);
fifo32_put(&keycmd, key_leds);
}
if (i == 256 + 0x46) { /* ScrollLock */
key_leds ^= 1;
fifo32_put(&keycmd, KEYCMD_LED);
fifo32_put(&keycmd, key_leds);
}
if (i == 256 + 0x3b && key_shift != 0 && key_win != 0) { /* Shift+F1 */
task = key_win->task;
if (task != 0 && task->tss.ss0 != 0) {
cons_putstr0(task->cons, "\nBreak(key) :\n");
io_cli(); /*强制结束处理时禁止任务切换*/
task->tss.eax = (int) &(task->tss.esp0);
task->tss.eip = (int) asm_end_app;
io_sti();
task_run(task, -1, 0); /*为了确实执行结束处理,如果处于休眠状态则唤醒*/
}
}
if (i == 256 + 0x3c && key_shift != 0) { /* Shift+F2 */
if (key_win != 0) {
keywin_off(key_win);
}
key_win = open_console(shtctl, memtotal);
sheet_slide(key_win, 32, 4);
sheet_updown(key_win, shtctl->top);
keywin_on(key_win);
}
if (i == 256 + 0x57) { /* F11 */
sheet_updown(shtctl->sheets[1], shtctl->top - 1);
}
if (i == 256 + 0xfa) { /*键盘成功接收到数据*/
keycmd_wait = -1;
}
if (i == 256 + 0xfe) { /*键盘没有成功接收到数据*/
wait_KBC_sendready();
io_out8(PORT_KEYDAT, keycmd_wait);
}
} else if (512 <= i && i <= 767) { /* 鼠标数据*/
if (mouse_decode(&mdec, i - 512) != 0) {
/* 已经收集了3字节的数据移动光标 */
mx += mdec.x;
my += mdec.y;
if (mx < 0) {
mx = 0;
}
if (my < 0) {
my = 0;
}
if (mx > binfo->scrnx - 1) {
mx = binfo->scrnx - 1;
}
if (my > binfo->scrny - 1) {
my = binfo->scrny - 1;
}
new_mx = mx;
new_my = my;
if ((mdec.btn & 0x01) != 0) { /* 按下左键 */
if (mmx < 0) {
/*如果处于通常模式*/
/*按照从上到下的顺序寻找鼠标所指向的图层*/
for (j = shtctl->top - 1; j > 0; j--) {
sht = shtctl->sheets[j];
x = mx - sht->vx0;
y = my - sht->vy0;
if (0 <= x && x < sht->bxsize && 0 <= y && y < sht->bysize) {
if (sht->buf[y * sht->bxsize + x] != sht->col_inv) {
sheet_updown(sht, shtctl->top - 1);
if (sht != key_win) {
keywin_off(key_win);
key_win = sht;
keywin_on(key_win);
}
if (3 <= x && x < sht->bxsize - 3 && 3 <= y && y < 21) {
mmx = mx; /*进入窗口移动模式*/
mmy = my;
mmx2 = sht->vx0;
new_wy = sht->vy0;
}
if (sht->bxsize - 21 <= x && x < sht->bxsize - 5 && 5 <= y && y < 19) {
/*点击“×”按钮*/
if ((sht->flags & 0x10) != 0) { /*该窗口是否为应用程序窗口?*/
task = sht->task;
cons_putstr0(task->cons, "\nBreak(mouse) :\n");
io_cli(); /*强制结束处理时禁止任务切换*/
task->tss.eax = (int) &(task->tss.esp0);
task->tss.eip = (int) asm_end_app;
io_sti();
task_run(task, -1, 0);
} else { /*命令行窗口*/
task = sht->task;
sheet_updown(sht, -1); /*暂且隐藏该图层*/
keywin_off(key_win);
key_win = shtctl->sheets[shtctl->top - 1];
keywin_on(key_win);
io_cli();
fifo32_put(&task->fifo, 4);
io_sti();
}
}
break;
}
}
}
} else {
/*如果处于窗口移动模式*/
x = mx - mmx; /*计算鼠标指针移动量*/
y = my - mmy;
new_wx = (mmx2 + x + 2) & ~3;
new_wy = new_wy + y;
mmy = my;
}
} else {
/*没有按下左键*/
mmx = -1; /*切换到一般模式*/
if (new_wx != 0x7fffffff) {
sheet_slide(sht, new_wx, new_wy); /*固定图层位置*/
new_wx = 0x7fffffff;
}
}
}
} else if (768 <= i && i <= 1023) { /*命令行窗口关闭处理*/
close_console(shtctl->sheets0 + (i - 768));
} else if (1024 <= i && i <= 2023) {
close_constask(taskctl->tasks0 + (i - 1024));
} else if (2024 <= i && i <= 2279) { /*只关闭命令行窗口*/
sht2 = shtctl->sheets0 + (i - 2024);
memman_free_4k(memman, (int) sht2->buf, 256 * 165);
sheet_free(sht2);
}
}
}
}
void keywin_off(struct SHEET *key_win)
{
change_wtitle8(key_win, 0);
if ((key_win->flags & 0x20) != 0) {
fifo32_put(&key_win->task->fifo, 3); /*命令行窗口光标OFF */
}
return;
}
void keywin_on(struct SHEET *key_win)
{
change_wtitle8(key_win, 1);
if ((key_win->flags & 0x20) != 0) {
fifo32_put(&key_win->task->fifo, 2); /*命令行窗口光标ON */
}
return;
}
struct TASK *open_constask(struct SHEET *sht, unsigned int memtotal)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
struct TASK *task = task_alloc();
int *cons_fifo = (int *) memman_alloc_4k(memman, 128 * 4);
task->cons_stack = memman_alloc_4k(memman, 64 * 1024);
task->tss.esp = task->cons_stack + 64 * 1024 - 12;
task->tss.eip = (int) &console_task;
task->tss.es = 1 * 8;
task->tss.cs = 2 * 8;
task->tss.ss = 1 * 8;
task->tss.ds = 1 * 8;
task->tss.fs = 1 * 8;
task->tss.gs = 1 * 8;
*((int *) (task->tss.esp + 4)) = (int) sht;
*((int *) (task->tss.esp + 8)) = memtotal;
task_run(task, 2, 2); /* level=2, priority=2 */
fifo32_init(&task->fifo, 128, cons_fifo, task);
return task;
}
struct SHEET *open_console(struct SHTCTL *shtctl, unsigned int memtotal)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
struct SHEET *sht = sheet_alloc(shtctl);
unsigned char *buf = (unsigned char *) memman_alloc_4k(memman, 256 * 165);
sheet_setbuf(sht, buf, 256, 165, -1); /*无透明色*/
make_window8(buf, 256, 165, "console", 0);
make_textbox8(sht, 8, 28, 240, 128, COL8_000000);
sht->task = open_constask(sht, memtotal);
sht->flags |= 0x20; /*有光标*/
return sht;
}
void close_constask(struct TASK *task)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
task_sleep(task);
memman_free_4k(memman, task->cons_stack, 64 * 1024);
memman_free_4k(memman, (int) task->fifo.buf, 128 * 4);
task->flags = 0; /*用来替代task_free(task); */
return;
}
void close_console(struct SHEET *sht)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
struct TASK *task = sht->task;
memman_free_4k(memman, (int) sht->buf, 256 * 165);
sheet_free(sht);
close_constask(task);
return;
}

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/* asmhead.nas */
struct BOOTINFO { /* 0x0ff0-0x0fff */
char cyls; /* 启动区读磁盘读到此为止 */
char leds; /* 启动时键盘的LED的状态 */
char vmode; /* 显卡模式为多少位彩色 */
char reserve;
short scrnx, scrny; /* 画面分辨率 */
char *vram;
};
#define ADR_BOOTINFO 0x00000ff0
#define ADR_DISKIMG 0x00100000
/* naskfunc.nas */
void io_hlt(void);
void io_cli(void);
void io_sti(void);
void io_stihlt(void);
int io_in8(int port);
void io_out8(int port, int data);
int io_load_eflags(void);
void io_store_eflags(int eflags);
void load_gdtr(int limit, int addr);
void load_idtr(int limit, int addr);
int load_cr0(void);
void store_cr0(int cr0);
void load_tr(int tr);
void asm_inthandler0c(void);
void asm_inthandler0d(void);
void asm_inthandler20(void);
void asm_inthandler21(void);
void asm_inthandler2c(void);
unsigned int memtest_sub(unsigned int start, unsigned int end);
void farjmp(int eip, int cs);
void farcall(int eip, int cs);
void asm_hrb_api(void);
void start_app(int eip, int cs, int esp, int ds, int *tss_esp0);
void asm_end_app(void);
/* fifo.c */
struct FIFO32 {
int *buf;
int p, q, size, free, flags;
struct TASK *task;
};
void fifo32_init(struct FIFO32 *fifo, int size, int *buf, struct TASK *task);
int fifo32_put(struct FIFO32 *fifo, int data);
int fifo32_get(struct FIFO32 *fifo);
int fifo32_status(struct FIFO32 *fifo);
/* graphic.c */
void init_palette(void);
void set_palette(int start, int end, unsigned char *rgb);
void boxfill8(unsigned char *vram, int xsize, unsigned char c, int x0, int y0, int x1, int y1);
void init_screen8(char *vram, int x, int y);
void putfont8(char *vram, int xsize, int x, int y, char c, char *font);
void putfonts8_asc(char *vram, int xsize, int x, int y, char c, unsigned char *s);
void init_mouse_cursor8(char *mouse, char bc);
void putblock8_8(char *vram, int vxsize, int pxsize,
int pysize, int px0, int py0, char *buf, int bxsize);
#define COL8_000000 0
#define COL8_FF0000 1
#define COL8_00FF00 2
#define COL8_FFFF00 3
#define COL8_0000FF 4
#define COL8_FF00FF 5
#define COL8_00FFFF 6
#define COL8_FFFFFF 7
#define COL8_C6C6C6 8
#define COL8_840000 9
#define COL8_008400 10
#define COL8_848400 11
#define COL8_000084 12
#define COL8_840084 13
#define COL8_008484 14
#define COL8_848484 15
/* dsctbl.c */
struct SEGMENT_DESCRIPTOR {
short limit_low, base_low;
char base_mid, access_right;
char limit_high, base_high;
};
struct GATE_DESCRIPTOR {
short offset_low, selector;
char dw_count, access_right;
short offset_high;
};
void init_gdtidt(void);
void set_segmdesc(struct SEGMENT_DESCRIPTOR *sd, unsigned int limit, int base, int ar);
void set_gatedesc(struct GATE_DESCRIPTOR *gd, int offset, int selector, int ar);
#define ADR_IDT 0x0026f800
#define LIMIT_IDT 0x000007ff
#define ADR_GDT 0x00270000
#define LIMIT_GDT 0x0000ffff
#define ADR_BOTPAK 0x00280000
#define LIMIT_BOTPAK 0x0007ffff
#define AR_DATA32_RW 0x4092
#define AR_CODE32_ER 0x409a
#define AR_LDT 0x0082
#define AR_TSS32 0x0089
#define AR_INTGATE32 0x008e
/* int.c */
void init_pic(void);
#define PIC0_ICW1 0x0020
#define PIC0_OCW2 0x0020
#define PIC0_IMR 0x0021
#define PIC0_ICW2 0x0021
#define PIC0_ICW3 0x0021
#define PIC0_ICW4 0x0021
#define PIC1_ICW1 0x00a0
#define PIC1_OCW2 0x00a0
#define PIC1_IMR 0x00a1
#define PIC1_ICW2 0x00a1
#define PIC1_ICW3 0x00a1
#define PIC1_ICW4 0x00a1
/* keyboard.c */
void inthandler21(int *esp);
void wait_KBC_sendready(void);
void init_keyboard(struct FIFO32 *fifo, int data0);
#define PORT_KEYDAT 0x0060
#define PORT_KEYCMD 0x0064
/* mouse.c */
struct MOUSE_DEC {
unsigned char buf[3], phase;
int x, y, btn;
};
void inthandler2c(int *esp);
void enable_mouse(struct FIFO32 *fifo, int data0, struct MOUSE_DEC *mdec);
int mouse_decode(struct MOUSE_DEC *mdec, unsigned char dat);
/* memory.c */
#define MEMMAN_FREES 4090 /* <20><><EFBFBD><EFBFBD>Ŗ<EFBFBD>32KB */
#define MEMMAN_ADDR 0x003c0000
struct FREEINFO { /* <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> */
unsigned int addr, size;
};
struct MEMMAN { /* <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>Ǘ<EFBFBD> */
int frees, maxfrees, lostsize, losts;
struct FREEINFO free[MEMMAN_FREES];
};
unsigned int memtest(unsigned int start, unsigned int end);
void memman_init(struct MEMMAN *man);
unsigned int memman_total(struct MEMMAN *man);
unsigned int memman_alloc(struct MEMMAN *man, unsigned int size);
int memman_free(struct MEMMAN *man, unsigned int addr, unsigned int size);
unsigned int memman_alloc_4k(struct MEMMAN *man, unsigned int size);
int memman_free_4k(struct MEMMAN *man, unsigned int addr, unsigned int size);
/* sheet.c */
#define MAX_SHEETS 256
struct SHEET {
unsigned char *buf;
int bxsize, bysize, vx0, vy0, col_inv, height, flags;
struct SHTCTL *ctl;
struct TASK *task;
};
struct SHTCTL {
unsigned char *vram, *map;
int xsize, ysize, top;
struct SHEET *sheets[MAX_SHEETS];
struct SHEET sheets0[MAX_SHEETS];
};
struct SHTCTL *shtctl_init(struct MEMMAN *memman, unsigned char *vram, int xsize, int ysize);
struct SHEET *sheet_alloc(struct SHTCTL *ctl);
void sheet_setbuf(struct SHEET *sht, unsigned char *buf, int xsize, int ysize, int col_inv);
void sheet_updown(struct SHEET *sht, int height);
void sheet_refresh(struct SHEET *sht, int bx0, int by0, int bx1, int by1);
void sheet_slide(struct SHEET *sht, int vx0, int vy0);
void sheet_free(struct SHEET *sht);
/* timer.c */
#define MAX_TIMER 500
struct TIMER {
struct TIMER *next;
unsigned int timeout;
char flags, flags2;
struct FIFO32 *fifo;
int data;
};
struct TIMERCTL {
unsigned int count, next;
struct TIMER *t0;
struct TIMER timers0[MAX_TIMER];
};
extern struct TIMERCTL timerctl;
void init_pit(void);
struct TIMER *timer_alloc(void);
void timer_free(struct TIMER *timer);
void timer_init(struct TIMER *timer, struct FIFO32 *fifo, int data);
void timer_settime(struct TIMER *timer, unsigned int timeout);
void inthandler20(int *esp);
int timer_cancel(struct TIMER *timer);
void timer_cancelall(struct FIFO32 *fifo);
/* mtask.c */
#define MAX_TASKS 1000 /*最大任务数量*/
#define TASK_GDT0 3 /*定义从GDT的几号开始分配给TSS */
#define MAX_TASKS_LV 100
#define MAX_TASKLEVELS 10
struct TSS32 {
int backlink, esp0, ss0, esp1, ss1, esp2, ss2, cr3;
int eip, eflags, eax, ecx, edx, ebx, esp, ebp, esi, edi;
int es, cs, ss, ds, fs, gs;
int ldtr, iomap;
};
struct TASK {
int sel, flags; /* sel用来存放GDT的编号*/
int level, priority; /* 优先级 */
struct FIFO32 fifo;
struct TSS32 tss;
struct SEGMENT_DESCRIPTOR ldt[2];
struct CONSOLE *cons;
int ds_base, cons_stack;
};
struct TASKLEVEL {
int running; /*正在运行的任务数量*/
int now; /*这个变量用来记录当前正在运行的是哪个任务*/
struct TASK *tasks[MAX_TASKS_LV];
};
struct TASKCTL {
int now_lv; /*现在活动中的LEVEL */
char lv_change; /*在下次任务切换时是否需要改变LEVEL */
struct TASKLEVEL level[MAX_TASKLEVELS];
struct TASK tasks0[MAX_TASKS];
};
extern struct TASKCTL *taskctl;
extern struct TIMER *task_timer;
struct TASK *task_now(void);
struct TASK *task_init(struct MEMMAN *memman);
struct TASK *task_alloc(void);
void task_run(struct TASK *task, int level, int priority);
void task_switch(void);
void task_sleep(struct TASK *task);
/* window.c */
void make_window8(unsigned char *buf, int xsize, int ysize, char *title, char act);
void putfonts8_asc_sht(struct SHEET *sht, int x, int y, int c, int b, char *s, int l);
void make_textbox8(struct SHEET *sht, int x0, int y0, int sx, int sy, int c);
void make_wtitle8(unsigned char *buf, int xsize, char *title, char act);
void change_wtitle8(struct SHEET *sht, char act);
/* console.c */
struct CONSOLE {
struct SHEET *sht;
int cur_x, cur_y, cur_c;
struct TIMER *timer;
};
void console_task(struct SHEET *sheet, int memtotal);
void cons_putchar(struct CONSOLE *cons, int chr, char move);
void cons_newline(struct CONSOLE *cons);
void cons_putstr0(struct CONSOLE *cons, char *s);
void cons_putstr1(struct CONSOLE *cons, char *s, int l);
void cons_runcmd(char *cmdline, struct CONSOLE *cons, int *fat, int memtotal);
void cmd_mem(struct CONSOLE *cons, int memtotal);
void cmd_cls(struct CONSOLE *cons);
void cmd_dir(struct CONSOLE *cons);
void cmd_type(struct CONSOLE *cons, int *fat, char *cmdline);
void cmd_exit(struct CONSOLE *cons, int *fat);
void cmd_start(struct CONSOLE *cons, char *cmdline, int memtotal);
void cmd_ncst(struct CONSOLE *cons, char *cmdline, int memtotal);
int cmd_app(struct CONSOLE *cons, int *fat, char *cmdline);
int *hrb_api(int edi, int esi, int ebp, int esp, int ebx, int edx, int ecx, int eax);
int *inthandler0d(int *esp);
int *inthandler0c(int *esp);
void hrb_api_linewin(struct SHEET *sht, int x0, int y0, int x1, int y1, int col);
/* file.c */
struct FILEINFO {
unsigned char name[8], ext[3], type;
char reserve[10];
unsigned short time, date, clustno;
unsigned int size;
};
void file_readfat(int *fat, unsigned char *img);
void file_loadfile(int clustno, int size, char *buf, int *fat, char *img);
struct FILEINFO *file_search(char *name, struct FILEINFO *finfo, int max);
/* bootpack.c */
struct TASK *open_constask(struct SHEET *sht, unsigned int memtotal);
struct SHEET *open_console(struct SHTCTL *shtctl, unsigned int memtotal);

604
28_day/haribote/console.c Normal file
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/* 命令行窗口相关 */
#include "bootpack.h"
#include <stdio.h>
#include <string.h>
void console_task(struct SHEET *sheet, int memtotal)
{
struct TASK *task = task_now();
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
int i, *fat = (int *) memman_alloc_4k(memman, 4 * 2880);
struct CONSOLE cons;
char cmdline[30];
cons.sht = sheet;
cons.cur_x = 8;
cons.cur_y = 28;
cons.cur_c = -1;
task->cons = &cons;
if (cons.sht != 0) {
cons.timer = timer_alloc();
timer_init(cons.timer, &task->fifo, 1);
timer_settime(cons.timer, 50);
}
file_readfat(fat, (unsigned char *) (ADR_DISKIMG + 0x000200));
/*显示提示符*/
cons_putchar(&cons, '>', 1);
for (;;) {
io_cli();
if (fifo32_status(&task->fifo) == 0) {
task_sleep(task);
io_sti();
} else {
i = fifo32_get(&task->fifo);
io_sti();
if (i <= 1 && cons.sht != 0) { /*光标用定时器*/
if (i != 0) {
timer_init(cons.timer, &task->fifo, 0); /*下次置0 */
if (cons.cur_c >= 0) {
cons.cur_c = COL8_FFFFFF;
}
} else {
timer_init(cons.timer, &task->fifo, 1); /*下次置1 */
if (cons.cur_c >= 0) {
cons.cur_c = COL8_000000;
}
}
timer_settime(cons.timer, 50);
}
if (i == 2) { /*光标ON */
cons.cur_c = COL8_FFFFFF;
}
if (i == 3) { /*光标OFF */
if (cons.sht != 0) {
boxfill8(cons.sht->buf, cons.sht->bxsize, COL8_000000,
cons.cur_x, cons.cur_y, cons.cur_x + 7, cons.cur_y + 15);
}
cons.cur_c = -1;
}
if (i == 4) { /*点击命令行窗口的“×”按钮*/
cmd_exit(&cons, fat);
}
if (256 <= i && i <= 511) { /*键盘数据通过任务A*/
if (i == 8 + 256) {
/*退格键*/
if (cons.cur_x > 16) {
/*用空格擦除光标后将光标前移一位*/
cons_putchar(&cons, ' ', 0);
cons.cur_x -= 8;
}
} else if (i == 10 + 256) {
/*回车键*/
/*将光标用空格擦除后换行 */
cons_putchar(&cons, ' ', 0);
cmdline[cons.cur_x / 8 - 2] = 0;
cons_newline(&cons);
cons_runcmd(cmdline, &cons, fat, memtotal); /*运行命令*/
if (cons.sht == 0) {
cmd_exit(&cons, fat);
}
/*显示提示符*/
cons_putchar(&cons, '>', 1);
} else {
/*一般字符*/
if (cons.cur_x < 240) {
/*显示一个字符之后将光标后移一位*/
cmdline[cons.cur_x / 8 - 2] = i - 256;
cons_putchar(&cons, i - 256, 1);
}
}
}
/*重新显示光标*/
if (cons.sht != 0) {
if (cons.cur_c >= 0) {
boxfill8(cons.sht->buf, cons.sht->bxsize, cons.cur_c,
cons.cur_x, cons.cur_y, cons.cur_x + 7, cons.cur_y + 15);
}
sheet_refresh(cons.sht, cons.cur_x, cons.cur_y, cons.cur_x + 8, cons.cur_y + 16);
}
}
}
}
void cons_putchar(struct CONSOLE *cons, int chr, char move)
{
char s[2];
s[0] = chr;
s[1] = 0;
if (s[0] == 0x09) { /*制表符*/
for (;;) {
if (cons->sht != 0) {
putfonts8_asc_sht(cons->sht, cons->cur_x, cons->cur_y, COL8_FFFFFF, COL8_000000, " ", 1);
}
cons->cur_x += 8;
if (cons->cur_x == 8 + 240) {
cons_newline(cons);
}
if (((cons->cur_x - 8) & 0x1f) == 0) {
break; /*被32整除则break*/
}
}
} else if (s[0] == 0x0a) { /*换行*/
cons_newline(cons);
} else if (s[0] == 0x0d) { /*回车*/
/*先不做任何操作*/
} else { /*一般字符*/
if (cons->sht != 0) {
putfonts8_asc_sht(cons->sht, cons->cur_x, cons->cur_y, COL8_FFFFFF, COL8_000000, s, 1);
}
if (move != 0) {
/* move为0时光标不后移*/
cons->cur_x += 8;
if (cons->cur_x == 8 + 240) {
cons_newline(cons);
}
}
}
return;
}
void cons_newline(struct CONSOLE *cons)
{
int x, y;
struct SHEET *sheet = cons->sht;
if (cons->cur_y < 28 + 112) {
cons->cur_y += 16; /*到下一行*/
} else {
/*滚动*/
if (sheet != 0) {
for (y = 28; y < 28 + 112; y++) {
for (x = 8; x < 8 + 240; x++) {
sheet->buf[x + y * sheet->bxsize] = sheet->buf[x + (y + 16) * sheet->bxsize];
}
}
for (y = 28 + 112; y < 28 + 128; y++) {
for (x = 8; x < 8 + 240; x++) {
sheet->buf[x + y * sheet->bxsize] = COL8_000000;
}
}
sheet_refresh(sheet, 8, 28, 8 + 240, 28 + 128);
}
}
cons->cur_x = 8;
return;
}
void cons_putstr0(struct CONSOLE *cons, char *s)
{
for (; *s != 0; s++) {
cons_putchar(cons, *s, 1);
}
return;
}
void cons_putstr1(struct CONSOLE *cons, char *s, int l)
{
int i;
for (i = 0; i < l; i++) {
cons_putchar(cons, s[i], 1);
}
return;
}
void cons_runcmd(char *cmdline, struct CONSOLE *cons, int *fat, int memtotal)
{
if (strcmp(cmdline, "mem") == 0 && cons->sht != 0) {
cmd_mem(cons, memtotal);
} else if (strcmp(cmdline, "cls") == 0 && cons->sht != 0) {
cmd_cls(cons);
} else if ((strcmp(cmdline, "dir") == 0 || strcmp(cmdline, "ls") == 0) && cons->sht != 0) {
cmd_dir(cons);
} else if (strncmp(cmdline, "type ", 5) == 0 && cons->sht != 0) {
cmd_type(cons, fat, cmdline);
} else if (strcmp(cmdline, "exit") == 0) {
cmd_exit(cons, fat);
} else if (strncmp(cmdline, "start ", 6) == 0) {
cmd_start(cons, cmdline, memtotal);
} else if (strncmp(cmdline, "ncst ", 5) == 0) {
cmd_ncst(cons, cmdline, memtotal);
} else if (cmdline[0] != 0) {
if (cmd_app(cons, fat, cmdline) == 0) {
/*不是命令,不是应用程序,也不是空行*/
cons_putstr0(cons, "Bad command.\n\n");
}
}
return;
}
void cmd_mem(struct CONSOLE *cons, int memtotal)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
char s[60];
sprintf(s, "total %dMB\nfree %dKB\n\n", memtotal / (1024 * 1024), memman_total(memman) / 1024);
cons_putstr0(cons, s);
return;
}
void cmd_cls(struct CONSOLE *cons)
{
int x, y;
struct SHEET *sheet = cons->sht;
for (y = 28; y < 28 + 128; y++) {
for (x = 8; x < 8 + 240; x++) {
sheet->buf[x + y * sheet->bxsize] = COL8_000000;
}
}
sheet_refresh(sheet, 8, 28, 8 + 240, 28 + 128);
cons->cur_y = 28;
return;
}
void cmd_dir(struct CONSOLE *cons)
{
struct FILEINFO *finfo = (struct FILEINFO *) (ADR_DISKIMG + 0x002600);
int i, j;
char s[30];
for (i = 0; i < 224; i++) {
if (finfo[i].name[0] == 0x00) {
break;
}
if (finfo[i].name[0] != 0xe5) {
if ((finfo[i].type & 0x18) == 0) {
sprintf(s, "filename.ext %7d\n", finfo[i].size);
for (j = 0; j < 8; j++) {
s[j] = finfo[i].name[j];
}
s[ 9] = finfo[i].ext[0];
s[10] = finfo[i].ext[1];
s[11] = finfo[i].ext[2];
cons_putstr0(cons, s);
}
}
}
cons_newline(cons);
return;
}
void cmd_type(struct CONSOLE *cons, int *fat, char *cmdline)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
struct FILEINFO *finfo = file_search(cmdline + 5, (struct FILEINFO *) (ADR_DISKIMG + 0x002600), 224);
char *p;
if (finfo != 0) {
/*找到文件的情况*/
p = (char *) memman_alloc_4k(memman, finfo->size);
file_loadfile(finfo->clustno, finfo->size, p, fat, (char *) (ADR_DISKIMG + 0x003e00));
cons_putstr1(cons, p, finfo->size);
memman_free_4k(memman, (int) p, finfo->size);
} else {
/*没有找到文件的情况*/
cons_putstr0(cons, "File not found.\n");
}
cons_newline(cons);
return;
}
void cmd_exit(struct CONSOLE *cons, int *fat)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
struct TASK *task = task_now();
struct SHTCTL *shtctl = (struct SHTCTL *) *((int *) 0x0fe4);
struct FIFO32 *fifo = (struct FIFO32 *) *((int *) 0x0fec);
if (cons->sht != 0) {
timer_cancel(cons->timer);
}
memman_free_4k(memman, (int) fat, 4 * 2880);
io_cli();
if (cons->sht != 0) {
fifo32_put(fifo, cons->sht - shtctl->sheets0 + 768); /* 768〜1023 */
} else {
fifo32_put(fifo, task - taskctl->tasks0 + 1024); /*10242023*/
}
io_sti();
for (;;) {
task_sleep(task);
}
}
void cmd_start(struct CONSOLE *cons, char *cmdline, int memtotal)
{
struct SHTCTL *shtctl = (struct SHTCTL *) *((int *) 0x0fe4);
struct SHEET *sht = open_console(shtctl, memtotal);
struct FIFO32 *fifo = &sht->task->fifo;
int i;
sheet_slide(sht, 32, 4);
sheet_updown(sht, shtctl->top);
/*将命令行输入的字符串逐字复制到新的命令行窗口中*/
for (i = 6; cmdline[i] != 0; i++) {
fifo32_put(fifo, cmdline[i] + 256);
}
fifo32_put(fifo, 10 + 256); /*回车键*/
cons_newline(cons);
return;
}
void cmd_ncst(struct CONSOLE *cons, char *cmdline, int memtotal)
{
struct TASK *task = open_constask(0, memtotal);
struct FIFO32 *fifo = &task->fifo;
int i;
/*将命令行输入的字符串逐字复制到新的命令行窗口中*/
for (i = 5; cmdline[i] != 0; i++) {
fifo32_put(fifo, cmdline[i] + 256);
}
fifo32_put(fifo, 10 + 256); /*回车键*/
cons_newline(cons);
return;
}
int cmd_app(struct CONSOLE *cons, int *fat, char *cmdline)
{
struct MEMMAN *memman = (struct MEMMAN *) MEMMAN_ADDR;
struct FILEINFO *finfo;
struct SEGMENT_DESCRIPTOR *gdt = (struct SEGMENT_DESCRIPTOR *) ADR_GDT;
char name[18], *p, *q;
struct TASK *task = task_now();
int i, segsiz, datsiz, esp, dathrb;
struct SHTCTL *shtctl;
struct SHEET *sht;
/*根据命令行生成文件名*/
for (i = 0; i < 13; i++) {
if (cmdline[i] <= ' ') {
break;
}
name[i] = cmdline[i];
}
name[i] = 0; /*暂且将文件名的后面置为0*/
/*寻找文件 */
finfo = file_search(name, (struct FILEINFO *) (ADR_DISKIMG + 0x002600), 224);
if (finfo == 0 && name[i - 1] != '.') {
/*由于找不到文件,故在文件名后面加上“.hrb”后重新寻找*/
name[i ] = '.';
name[i + 1] = 'H';
name[i + 2] = 'R';
name[i + 3] = 'B';
name[i + 4] = 0;
finfo = file_search(name, (struct FILEINFO *) (ADR_DISKIMG + 0x002600), 224);
}
if (finfo != 0) {
/*找到文件的情况*/
p = (char *) memman_alloc_4k(memman, finfo->size);
file_loadfile(finfo->clustno, finfo->size, p, fat, (char *) (ADR_DISKIMG + 0x003e00));
if (finfo->size >= 36 && strncmp(p + 4, "Hari", 4) == 0 && *p == 0x00) {
segsiz = *((int *) (p + 0x0000));
esp = *((int *) (p + 0x000c));
datsiz = *((int *) (p + 0x0010));
dathrb = *((int *) (p + 0x0014));
q = (char *) memman_alloc_4k(memman, segsiz);
task->ds_base = (int) q;
set_segmdesc(task->ldt + 0, finfo->size - 1, (int) p, AR_CODE32_ER + 0x60);
set_segmdesc(task->ldt + 1, segsiz - 1, (int) q, AR_DATA32_RW + 0x60);
for (i = 0; i < datsiz; i++) {
q[esp + i] = p[dathrb + i];
}
start_app(0x1b, 0 * 8 + 4, esp, 1 * 8 + 4, &(task->tss.esp0));
shtctl = (struct SHTCTL *) *((int *) 0x0fe4);
for (i = 0; i < MAX_SHEETS; i++) {
sht = &(shtctl->sheets0[i]);
if ((sht->flags & 0x11) == 0x11 && sht->task == task) {
/*找到被应用程序遗留的窗口*/
sheet_free(sht); /*关闭*/
}
}
timer_cancelall(&task->fifo);
memman_free_4k(memman, (int) q, segsiz);
} else {
cons_putstr0(cons, ".hrb file format error.\n");
}
memman_free_4k(memman, (int) p, finfo->size);
cons_newline(cons);
return 1;
}
/*没有找到文件的情况*/
return 0;
}
int *hrb_api(int edi, int esi, int ebp, int esp, int ebx, int edx, int ecx, int eax)
{
struct TASK *task = task_now();
int ds_base = task->ds_base;
struct CONSOLE *cons = task->cons;
struct SHTCTL *shtctl = (struct SHTCTL *) *((int *) 0x0fe4);
struct SHEET *sht;
struct FIFO32 *sys_fifo = (struct FIFO32 *) *((int *) 0x0fec);
int *reg = &eax + 1; /* eax后面的地址*/
/*强行改写通过PUSHAD保存的值*/
/* reg[0] : EDI, reg[1] : ESI, reg[2] : EBP, reg[3] : ESP */
/* reg[4] : EBX, reg[5] : EDX, reg[6] : ECX, reg[7] : EAX */
int i;
if (edx == 1) {
cons_putchar(cons, eax & 0xff, 1);
} else if (edx == 2) {
cons_putstr0(cons, (char *) ebx + ds_base);
} else if (edx == 3) {
cons_putstr1(cons, (char *) ebx + ds_base, ecx);
} else if (edx == 4) {
return &(task->tss.esp0);
} else if (edx == 5) {
sht = sheet_alloc(shtctl);
sht->task = task;
sht->flags |= 0x10;
sheet_setbuf(sht, (char *) ebx + ds_base, esi, edi, eax);
make_window8((char *) ebx + ds_base, esi, edi, (char *) ecx + ds_base, 0);
sheet_slide(sht, ((shtctl->xsize - esi) / 2) & ~3, (shtctl->ysize - edi) / 2);
sheet_updown(sht, shtctl->top); /*将窗口图层高度指定为当前鼠标所在图层的高度,鼠标移到上层*/
reg[7] = (int) sht;
} else if (edx == 6) {
sht = (struct SHEET *) (ebx & 0xfffffffe);
putfonts8_asc(sht->buf, sht->bxsize, esi, edi, eax, (char *) ebp + ds_base);
if ((ebx & 1) == 0) {
sheet_refresh(sht, esi, edi, esi + ecx * 8, edi + 16);
}
} else if (edx == 7) {
sht = (struct SHEET *) (ebx & 0xfffffffe);
boxfill8(sht->buf, sht->bxsize, ebp, eax, ecx, esi, edi);
if ((ebx & 1) == 0) {
sheet_refresh(sht, eax, ecx, esi + 1, edi + 1);
}
} else if (edx == 8) {
memman_init((struct MEMMAN *) (ebx + ds_base));
ecx &= 0xfffffff0; /*以16字节为单位*/
memman_free((struct MEMMAN *) (ebx + ds_base), eax, ecx);
} else if (edx == 9) {
ecx = (ecx + 0x0f) & 0xfffffff0; /*以16字节为单位进位取整*/
reg[7] = memman_alloc((struct MEMMAN *) (ebx + ds_base), ecx);
} else if (edx == 10) {
ecx = (ecx + 0x0f) & 0xfffffff0; /*以16字节为单位进位取整*/
memman_free((struct MEMMAN *) (ebx + ds_base), eax, ecx);
} else if (edx == 11) {
sht = (struct SHEET *) (ebx & 0xfffffffe);
sht->buf[sht->bxsize * edi + esi] = eax;
if ((ebx & 1) == 0) {
sheet_refresh(sht, esi, edi, esi + 1, edi + 1);
}
} else if (edx == 12) {
sht = (struct SHEET *) ebx;
sheet_refresh(sht, eax, ecx, esi, edi);
} else if (edx == 13) {
sht = (struct SHEET *) (ebx & 0xfffffffe);
hrb_api_linewin(sht, eax, ecx, esi, edi, ebp);
if ((ebx & 1) == 0) {
sheet_refresh(sht, eax, ecx, esi + 1, edi + 1);
}
} else if (edx == 14) {
sheet_free((struct SHEET *) ebx);
} else if (edx == 15) {
for (;;) {
io_cli();
if (fifo32_status(&task->fifo) == 0) {
if (eax != 0) {
task_sleep(task); /* FIFO为空休眠并等待*/
} else {
io_sti();
reg[7] = -1;
return 0;
}
}
i = fifo32_get(&task->fifo);
io_sti();
if (i <= 1) { /*光标用定时器*/
/*应用程序运行时不需要显示光标因此总是将下次显示用的值置为1*/
timer_init(cons->timer, &task->fifo, 1); /*下次置为1*/
timer_settime(cons->timer, 50);
}
if (i == 2) { /*光标ON */
cons->cur_c = COL8_FFFFFF;
}
if (i == 3) { /*光标OFF */
cons->cur_c = -1;
}
if (i == 4) { /*只关闭命令行窗口*/
timer_cancel(cons->timer);
io_cli();
fifo32_put(sys_fifo, cons->sht - shtctl->sheets0 + 2024); /*20242279*/
cons->sht = 0;
io_sti();
}
if (i >= 256) { /*键盘数据通过任务A等*/
reg[7] = i - 256;
return 0;
}
}
} else if (edx == 16) {
reg[7] = (int) timer_alloc();
((struct TIMER *) reg[7])->flags2 = 1; /*允许自动取消*/
} else if (edx == 17) {
timer_init((struct TIMER *) ebx, &task->fifo, eax + 256);
} else if (edx == 18) {
timer_settime((struct TIMER *) ebx, eax);
} else if (edx == 19) {
timer_free((struct TIMER *) ebx);
} else if (edx == 20) {
if (eax == 0) {
i = io_in8(0x61);
io_out8(0x61, i & 0x0d);
} else {
i = 1193180000 / eax;
io_out8(0x43, 0xb6);
io_out8(0x42, i & 0xff);
io_out8(0x42, i >> 8);
i = io_in8(0x61);
io_out8(0x61, (i | 0x03) & 0x0f);
}
}
return 0;
}
int *inthandler0c(int *esp)
{
struct TASK *task = task_now();
struct CONSOLE *cons = task->cons;
char s[30];
cons_putstr0(cons, "\nINT 0C :\n Stack Exception.\n");
sprintf(s, "EIP = %08X\n", esp[11]);
cons_putstr0(cons, s);
return &(task->tss.esp0); /*强制结束程序*/
}
int *inthandler0d(int *esp)
{
struct TASK *task = task_now();
struct CONSOLE *cons = task->cons;
char s[30];
cons_putstr0(cons, "\nINT 0D :\n General Protected Exception.\n");
sprintf(s, "EIP = %08X\n", esp[11]);
cons_putstr0(cons, s);
return &(task->tss.esp0); /*强制结束程序*/
}
void hrb_api_linewin(struct SHEET *sht, int x0, int y0, int x1, int y1, int col)
{
int i, x, y, len, dx, dy;
dx = x1 - x0;
dy = y1 - y0;
x = x0 << 10;
y = y0 << 10;
if (dx < 0) {
dx = - dx;
}
if (dy < 0) {
dy = - dy;
}
if (dx >= dy) {
len = dx + 1;
if (x0 > x1) {
dx = -1024;
} else {
dx = 1024;
}
if (y0 <= y1) {
dy = ((y1 - y0 + 1) << 10) / len;
} else {
dy = ((y1 - y0 - 1) << 10) / len;
}
} else {
len = dy + 1;
if (y0 > y1) {
dy = -1024;
} else {
dy = 1024;
}
if (x0 <= x1) {
dx = ((x1 - x0 + 1) << 10) / len;
} else {
dx = ((x1 - x0 - 1) << 10) / len;
}
}
for (i = 0; i < len; i++) {
sht->buf[(y >> 10) * sht->bxsize + (x >> 10)] = col;
x += dx;
y += dy;
}
return;
}

59
28_day/haribote/dsctbl.c Normal file
View File

@@ -0,0 +1,59 @@
/* GDT、IDT、descriptor table 关系处理 */
#include "bootpack.h"
void init_gdtidt(void)
{
struct SEGMENT_DESCRIPTOR *gdt = (struct SEGMENT_DESCRIPTOR *) ADR_GDT;
struct GATE_DESCRIPTOR *idt = (struct GATE_DESCRIPTOR *) ADR_IDT;
int i;
/* GDT初始化 */
for (i = 0; i <= LIMIT_GDT / 8; i++) {
set_segmdesc(gdt + i, 0, 0, 0);
}
set_segmdesc(gdt + 1, 0xffffffff, 0x00000000, AR_DATA32_RW);
set_segmdesc(gdt + 2, LIMIT_BOTPAK, ADR_BOTPAK, AR_CODE32_ER);
load_gdtr(LIMIT_GDT, ADR_GDT);
/* IDT初始化 */
for (i = 0; i <= LIMIT_IDT / 8; i++) {
set_gatedesc(idt + i, 0, 0, 0);
}
load_idtr(LIMIT_IDT, ADR_IDT);
/* IDT设置*/
set_gatedesc(idt + 0x0c, (int) asm_inthandler0c, 2 * 8, AR_INTGATE32);
set_gatedesc(idt + 0x0d, (int) asm_inthandler0d, 2 * 8, AR_INTGATE32);
set_gatedesc(idt + 0x20, (int) asm_inthandler20, 2 * 8, AR_INTGATE32);
set_gatedesc(idt + 0x21, (int) asm_inthandler21, 2 * 8, AR_INTGATE32);
set_gatedesc(idt + 0x2c, (int) asm_inthandler2c, 2 * 8, AR_INTGATE32);
set_gatedesc(idt + 0x40, (int) asm_hrb_api, 2 * 8, AR_INTGATE32 + 0x60);
return;
}
void set_segmdesc(struct SEGMENT_DESCRIPTOR *sd, unsigned int limit, int base, int ar)
{
if (limit > 0xfffff) {
ar |= 0x8000; /* G_bit = 1 */
limit /= 0x1000;
}
sd->limit_low = limit & 0xffff;
sd->base_low = base & 0xffff;
sd->base_mid = (base >> 16) & 0xff;
sd->access_right = ar & 0xff;
sd->limit_high = ((limit >> 16) & 0x0f) | ((ar >> 8) & 0xf0);
sd->base_high = (base >> 24) & 0xff;
return;
}
void set_gatedesc(struct GATE_DESCRIPTOR *gd, int offset, int selector, int ar)
{
gd->offset_low = offset & 0xffff;
gd->selector = selector;
gd->dw_count = (ar >> 8) & 0xff;
gd->access_right = ar & 0xff;
gd->offset_high = (offset >> 16) & 0xffff;
return;
}

63
28_day/haribote/fifo.c Normal file
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@@ -0,0 +1,63 @@
/* FIFO */
#include "bootpack.h"
#define FLAGS_OVERRUN 0x0001
void fifo32_init(struct FIFO32 *fifo, int size, int *buf, struct TASK *task)
/* FIFO缓冲区的初始化*/
{
fifo->size = size;
fifo->buf = buf;
fifo->free = size; /*空*/
fifo->flags = 0;
fifo->p = 0; /*写入位置*/
fifo->q = 0; /*读取位置*/
fifo->task = task; /*有数据写入时需要唤醒的任务*/
return;
}
int fifo32_put(struct FIFO32 *fifo, int data)
/*向FIFO写入数据并累积起来*/
{
if (fifo->free == 0) {
/*没有空余空间,溢出*/
fifo->flags |= FLAGS_OVERRUN;
return -1;
}
fifo->buf[fifo->p] = data;
fifo->p++;
if (fifo->p == fifo->size) {
fifo->p = 0;
}
fifo->free--;
if (fifo->task != 0) {
if (fifo->task->flags != 2) { /*如果任务处于休眠状态*/
task_run(fifo->task, -1, 0); /*将任务唤醒*/
}
}
return 0;
}
int fifo32_get(struct FIFO32 *fifo)
/*从FIFO取得一个数据*/
{
int data;
if (fifo->free == fifo->size) {
/*当缓冲区为空的情况下返回-1*/
return -1;
}
data = fifo->buf[fifo->q];
fifo->q++;
if (fifo->q == fifo->size) {
fifo->q = 0;
}
fifo->free++;
return data;
}
int fifo32_status(struct FIFO32 *fifo)
/*报告已经存储了多少数据*/
{
return fifo->size - fifo->free;
}

74
28_day/haribote/file.c Normal file
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@@ -0,0 +1,74 @@
/* 文件相关函数 */
#include "bootpack.h"
void file_readfat(int *fat, unsigned char *img)
/*将磁盘映像中的FAT解压缩 */
{
int i, j = 0;
for (i = 0; i < 2880; i += 2) {
fat[i + 0] = (img[j + 0] | img[j + 1] << 8) & 0xfff;
fat[i + 1] = (img[j + 1] >> 4 | img[j + 2] << 4) & 0xfff;
j += 3;
}
return;
}
void file_loadfile(int clustno, int size, char *buf, int *fat, char *img)
{
int i;
for (;;) {
if (size <= 512) {
for (i = 0; i < size; i++) {
buf[i] = img[clustno * 512 + i];
}
break;
}
for (i = 0; i < 512; i++) {
buf[i] = img[clustno * 512 + i];
}
size -= 512;
buf += 512;
clustno = fat[clustno];
}
return;
}
struct FILEINFO *file_search(char *name, struct FILEINFO *finfo, int max)
{
int i, j;
char s[12];
for (j = 0; j < 11; j++) {
s[j] = ' ';
}
j = 0;
for (i = 0; name[i] != 0; i++) {
if (j >= 11) { return 0; /*没有找到*/ }
if (name[i] == '.' && j <= 8) {
j = 8;
} else {
s[j] = name[i];
if ('a' <= s[j] && s[j] <= 'z') {
/*将小写字母转换为大写字母*/
s[j] -= 0x20;
}
j++;
}
}
for (i = 0; i < max; ) {
if (finfo->name[0] == 0x00) {
break;
}
if ((finfo[i].type & 0x18) == 0) {
for (j = 0; j < 11; j++) {
if (finfo[i].name[j] != s[j]) {
goto next;
}
}
return finfo + i; /*找到文件*/
}
next:
i++;
}
return 0; /*没有找到*/
}

167
28_day/haribote/graphic.c Normal file
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@@ -0,0 +1,167 @@
/* 关于绘图部分的处理 */
#include "bootpack.h"
void init_palette(void)
{
static unsigned char table_rgb[16 * 3] = {
0x00, 0x00, 0x00, /* 0:黑 */
0xff, 0x00, 0x00, /* 1:梁红 */
0x00, 0xff, 0x00, /* 2:亮绿 */
0xff, 0xff, 0x00, /* 3:亮黄 */
0x00, 0x00, 0xff, /* 4:亮蓝 */
0xff, 0x00, 0xff, /* 5:亮紫 */
0x00, 0xff, 0xff, /* 6:浅亮蓝 */
0xff, 0xff, 0xff, /* 7:白 */
0xc6, 0xc6, 0xc6, /* 8:亮灰 */
0x84, 0x00, 0x00, /* 9:暗红 */
0x00, 0x84, 0x00, /* 10:暗绿 */
0x84, 0x84, 0x00, /* 11:暗黄 */
0x00, 0x00, 0x84, /* 12:暗青 */
0x84, 0x00, 0x84, /* 13:暗紫 */
0x00, 0x84, 0x84, /* 14:浅暗蓝 */
0x84, 0x84, 0x84 /* 15:暗灰 */
};
unsigned char table2[216 * 3];
int r, g, b;
set_palette(0, 15, table_rgb);
for (b = 0; b < 6; b++) {
for (g = 0; g < 6; g++) {
for (r = 0; r < 6; r++) {
table2[(r + g * 6 + b * 36) * 3 + 0] = r * 51;
table2[(r + g * 6 + b * 36) * 3 + 1] = g * 51;
table2[(r + g * 6 + b * 36) * 3 + 2] = b * 51;
}
}
}
set_palette(16, 231, table2);
return;
}
void set_palette(int start, int end, unsigned char *rgb)
{
int i, eflags;
eflags = io_load_eflags(); /* 记录中断许可标志的值 */
io_cli(); /* 将中断许可标志置为0,禁止中断 */
io_out8(0x03c8, start);
for (i = start; i <= end; i++) {
io_out8(0x03c9, rgb[0] / 4);
io_out8(0x03c9, rgb[1] / 4);
io_out8(0x03c9, rgb[2] / 4);
rgb += 3;
}
io_store_eflags(eflags); /* 复原中断许可标志 */
return;
}
void boxfill8(unsigned char *vram, int xsize, unsigned char c, int x0, int y0, int x1, int y1)
{
int x, y;
for (y = y0; y <= y1; y++) {
for (x = x0; x <= x1; x++)
vram[y * xsize + x] = c;
}
return;
}
void init_screen8(char *vram, int x, int y)
{
boxfill8(vram, x, COL8_008484, 0, 0, x - 1, y - 29);
boxfill8(vram, x, COL8_C6C6C6, 0, y - 28, x - 1, y - 28);
boxfill8(vram, x, COL8_FFFFFF, 0, y - 27, x - 1, y - 27);
boxfill8(vram, x, COL8_C6C6C6, 0, y - 26, x - 1, y - 1);
boxfill8(vram, x, COL8_FFFFFF, 3, y - 24, 59, y - 24);
boxfill8(vram, x, COL8_FFFFFF, 2, y - 24, 2, y - 4);
boxfill8(vram, x, COL8_848484, 3, y - 4, 59, y - 4);
boxfill8(vram, x, COL8_848484, 59, y - 23, 59, y - 5);
boxfill8(vram, x, COL8_000000, 2, y - 3, 59, y - 3);
boxfill8(vram, x, COL8_000000, 60, y - 24, 60, y - 3);
boxfill8(vram, x, COL8_848484, x - 47, y - 24, x - 4, y - 24);
boxfill8(vram, x, COL8_848484, x - 47, y - 23, x - 47, y - 4);
boxfill8(vram, x, COL8_FFFFFF, x - 47, y - 3, x - 4, y - 3);
boxfill8(vram, x, COL8_FFFFFF, x - 3, y - 24, x - 3, y - 3);
return;
}
void putfont8(char *vram, int xsize, int x, int y, char c, char *font)
{
int i;
char *p, d /* data */;
for (i = 0; i < 16; i++) {
p = vram + (y + i) * xsize + x;
d = font[i];
if ((d & 0x80) != 0) { p[0] = c; }
if ((d & 0x40) != 0) { p[1] = c; }
if ((d & 0x20) != 0) { p[2] = c; }
if ((d & 0x10) != 0) { p[3] = c; }
if ((d & 0x08) != 0) { p[4] = c; }
if ((d & 0x04) != 0) { p[5] = c; }
if ((d & 0x02) != 0) { p[6] = c; }
if ((d & 0x01) != 0) { p[7] = c; }
}
return;
}
void putfonts8_asc(char *vram, int xsize, int x, int y, char c, unsigned char *s)
{
extern char hankaku[4096];
/* C语言中字符串都是以0x00结尾 */
for (; *s != 0x00; s++) {
putfont8(vram, xsize, x, y, c, hankaku + *s * 16);
x += 8;
}
return;
}
void init_mouse_cursor8(char *mouse, char bc)
/* 鼠标的数据准备16x16 */
{
static char cursor[16][16] = {
"**************..",
"*OOOOOOOOOOO*...",
"*OOOOOOOOOO*....",
"*OOOOOOOOO*.....",
"*OOOOOOOO*......",
"*OOOOOOO*.......",
"*OOOOOOO*.......",
"*OOOOOOOO*......",
"*OOOO**OOO*.....",
"*OOO*..*OOO*....",
"*OO*....*OOO*...",
"*O*......*OOO*..",
"**........*OOO*.",
"*..........*OOO*",
"............*OO*",
".............***"
};
int x, y;
for (y = 0; y < 16; y++) {
for (x = 0; x < 16; x++) {
if (cursor[y][x] == '*') {
mouse[y * 16 + x] = COL8_000000;
}
if (cursor[y][x] == 'O') {
mouse[y * 16 + x] = COL8_FFFFFF;
}
if (cursor[y][x] == '.') {
mouse[y * 16 + x] = bc;
}
}
}
return;
}
void putblock8_8(char *vram, int vxsize, int pxsize,
int pysize, int px0, int py0, char *buf, int bxsize)
{
int x, y;
for (y = 0; y < pysize; y++) {
for (x = 0; x < pxsize; x++) {
vram[(py0 + y) * vxsize + (px0 + x)] = buf[y * bxsize + x];
}
}
return;
}

4609
28_day/haribote/hankaku.txt Normal file
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28_day/haribote/haribote.sys Normal file
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28_day/haribote/int.c Normal file
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/*初始化关系 */
#include "bootpack.h"
#include <stdio.h>
void init_pic(void)
/* PIC初始化 */
{
io_out8(PIC0_IMR, 0xff ); /* 禁止所有中断 */
io_out8(PIC1_IMR, 0xff ); /* 禁止所有中断 */
io_out8(PIC0_ICW1, 0x11 ); /* 边缘触发模式edge trigger mode */
io_out8(PIC0_ICW2, 0x20 ); /* IRQ0-7由INT20-27接收 */
io_out8(PIC0_ICW3, 1 << 2); /* PIC1由IRQ2相连 */
io_out8(PIC0_ICW4, 0x01 ); /* 无缓冲区模式 */
io_out8(PIC1_ICW1, 0x11 ); /* 边缘触发模式edge trigger mode */
io_out8(PIC1_ICW2, 0x28 ); /* IRQ8-15由INT28-2f接收 */
io_out8(PIC1_ICW3, 2 ); /* PIC1由IRQ2连接 */
io_out8(PIC1_ICW4, 0x01 ); /* 无缓冲区模式 */
io_out8(PIC0_IMR, 0xfb ); /* 11111011 PIC1以外全部禁止 */
io_out8(PIC1_IMR, 0xff ); /* 11111111 禁止所有中断 */
return;
}

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28_day/haribote/ipl10.bin Normal file
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28_day/haribote/ipl10.nas Normal file
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; haribote-ipl
; TAB=4
CYLS EQU 10 ; 声明CYLS=10
ORG 0x7c00 ; 指明程序装载地址
; 标准FAT12格式软盘专用的代码 Stand FAT12 format floppy code
JMP entry
DB 0x90
DB "HARIBOTE" ; 启动扇区名称8字节
DW 512 ; 每个扇区sector大小必须512字节
DB 1 ; 簇cluster大小必须为1个扇区
DW 1 ; FAT起始位置一般为第一个扇区
DB 2 ; FAT个数必须为2
DW 224 ; 根目录大小一般为224项
DW 2880 ; 该磁盘大小必须为2880扇区1440*1024/512
DB 0xf0 ; 磁盘类型必须为0xf0
DW 9 ; FAT的长度必??9扇区
DW 18 ; 一个磁道track有几个扇区必须为18
DW 2 ; 磁头数(必??2
DD 0 ; 不使用分区必须是0
DD 2880 ; 重写一次磁盘大小
DB 0,0,0x29 ; 意义不明(固定)
DD 0xffffffff ; (可能是)卷标号码
DB "HARIBOTEOS " ; 磁盘的名称必须为11字?,不足填空格)
DB "FAT12 " ; 磁盘格式名称(必??8字?,不足填空格)
RESB 18 ; 先空出18字节
; 程序主体
entry:
MOV AX,0 ; 初始化寄存器
MOV SS,AX
MOV SP,0x7c00
MOV DS,AX
; 读取磁盘
MOV AX,0x0820
MOV ES,AX
MOV CH,0 ; 柱面0
MOV DH,0 ; 磁头0
MOV CL,2 ; 扇区2
readloop:
MOV SI,0 ; 记录失败次数寄存器
retry:
MOV AH,0x02 ; AH=0x02 : 读入磁盘
MOV AL,1 ; 1个扇区
MOV BX,0
MOV DL,0x00 ; A驱动器
INT 0x13 ; 调用磁盘BIOS
JNC next ; 没出错则跳转到fin
ADD SI,1 ; 往SI加1
CMP SI,5 ; 比较SI与5
JAE error ; SI >= 5 跳转到error
MOV AH,0x00
MOV DL,0x00 ; A驱动器
INT 0x13 ; 重置驱动器
JMP retry
next:
MOV AX,ES ; 把内存地址后移0x200512/16十六进制转换
ADD AX,0x0020
MOV ES,AX ; ADD ES,0x020因为没有ADD ES只能通过AX进行
ADD CL,1 ; 往CL里面加1
CMP CL,18 ; 比较CL与18
JBE readloop ; CL <= 18 跳转到readloop
MOV CL,1
ADD DH,1
CMP DH,2
JB readloop ; DH < 2 跳转到readloop
MOV DH,0
ADD CH,1
CMP CH,CYLS
JB readloop ; CH < CYLS 跳转到readloop
; 读取完毕跳转到haribote.sys执行
MOV [0x0ff0],CH ; IPLがどこまで読んだのかをメモ
JMP 0xc200
error:
MOV SI,msg
putloop:
MOV AL,[SI]
ADD SI,1 ; 给SI加1
CMP AL,0
JE fin
MOV AH,0x0e ; 显示一个文字
MOV BX,15 ; 指定字符颜色
INT 0x10 ; 调用显卡BIOS
JMP putloop
fin:
HLT ; 让CPU停止等待指令
JMP fin ; 无限循环
msg:
DB 0x0a, 0x0a ; 换行两次
DB "load error"
DB 0x0a ; 换行
DB 0
RESB 0x7dfe-$ ; 填写0x00直到0x001fe
DB 0x55, 0xaa

44
28_day/haribote/keyboard.c Normal file
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/* 键盘控制代码 */
#include "bootpack.h"
struct FIFO32 *keyfifo;
int keydata0;
void inthandler21(int *esp)
{
int data;
io_out8(PIC0_OCW2, 0x61); /* 把IRQ-01接收信号结束的信息通知给PIC */
data = io_in8(PORT_KEYDAT);
fifo32_put(keyfifo, data + keydata0);
return;
}
#define PORT_KEYSTA 0x0064
#define KEYSTA_SEND_NOTREADY 0x02
#define KEYCMD_WRITE_MODE 0x60
#define KBC_MODE 0x47
void wait_KBC_sendready(void)
{
/* 等待键盘控制电路准备完毕 */
for (;;) {
if ((io_in8(PORT_KEYSTA) & KEYSTA_SEND_NOTREADY) == 0) {
break;
}
}
return;
}
void init_keyboard(struct FIFO32 *fifo, int data0)
{
/* 将FIFO缓冲区的信息保存到全局变量里 */
keyfifo = fifo;
keydata0 = data0;
/* 键盘控制器的初始化 */
wait_KBC_sendready();
io_out8(PORT_KEYCMD, KEYCMD_WRITE_MODE);
wait_KBC_sendready();
io_out8(PORT_KEYDAT, KBC_MODE);
return;
}

1
28_day/haribote/make.bat Normal file
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..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

162
28_day/haribote/memory.c Normal file
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/* <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>֌W */
#include "bootpack.h"
#define EFLAGS_AC_BIT 0x00040000
#define CR0_CACHE_DISABLE 0x60000000
unsigned int memtest(unsigned int start, unsigned int end)
{
char flg486 = 0;
unsigned int eflg, cr0, i;
/* 确认CPU是386还是486以上的 */
eflg = io_load_eflags();
eflg |= EFLAGS_AC_BIT; /* AC-bit = 1 */
io_store_eflags(eflg);
eflg = io_load_eflags();
if ((eflg & EFLAGS_AC_BIT) != 0) {
/* 如果是386即使设定AC=1AC的值还会自动回到0 */
flg486 = 1;
}
eflg &= ~EFLAGS_AC_BIT; /* AC-bit = 0 */
io_store_eflags(eflg);
if (flg486 != 0) {
cr0 = load_cr0();
cr0 |= CR0_CACHE_DISABLE; /* 禁止缓存 */
store_cr0(cr0);
}
i = memtest_sub(start, end);
if (flg486 != 0) {
cr0 = load_cr0();
cr0 &= ~CR0_CACHE_DISABLE; /* 允许缓存 */
store_cr0(cr0);
}
return i;
}
void memman_init(struct MEMMAN *man)
{
man->frees = 0; /* 可用信息数目 */
man->maxfrees = 0; /* 用于观察可用状况frees的最大值 */
man->lostsize = 0; /* 释放失败的内存的大小总和 */
man->losts = 0; /* 释放失败次数 */
return;
}
unsigned int memman_total(struct MEMMAN *man)
/* 报告空余内存大小的合计 */
{
unsigned int i, t = 0;
for (i = 0; i < man->frees; i++) {
t += man->free[i].size;
}
return t;
}
unsigned int memman_alloc(struct MEMMAN *man, unsigned int size)
/* 分配 */
{
unsigned int i, a;
for (i = 0; i < man->frees; i++) {
if (man->free[i].size >= size) {
/* 找到了足够大的内存 */
a = man->free[i].addr;
man->free[i].addr += size;
man->free[i].size -= size;
if (man->free[i].size == 0) {
/* 如果free[i]变成了0就减掉一条可用信息 */
man->frees--;
for (; i < man->frees; i++) {
man->free[i] = man->free[i + 1]; /* 代入结构体 */
}
}
return a;
}
}
return 0; /* 没有可用空间 */
}
int memman_free(struct MEMMAN *man, unsigned int addr, unsigned int size)
/* 释放 */
{
int i, j;
/* 为便于归纳内存将free[]按照addr的顺序排列 */
/* 所以,先决定应该放在哪里 */
for (i = 0; i < man->frees; i++) {
if (man->free[i].addr > addr) {
break;
}
}
/* free[i - 1].addr < addr < free[i].addr */
if (i > 0) {
/* 前面有可用内存 */
if (man->free[i - 1].addr + man->free[i - 1].size == addr) {
/* 可以与前面的可用内存归纳到一起 */
man->free[i - 1].size += size;
if (i < man->frees) {
/* 后面也有 */
if (addr + size == man->free[i].addr) {
/* 也可以与后面的可用内存归纳到一起 */
man->free[i - 1].size += man->free[i].size;
/* man->free[i]删除 */
/* free[i]变成0后归纳到前面去 */
man->frees--;
for (; i < man->frees; i++) {
man->free[i] = man->free[i + 1]; /* 结构体赋值 */
}
}
}
return 0; /* 成功完成 */
}
}
/* 不能与前面的可用空间归纳到一起 */
if (i < man->frees) {
/* 后面还有 */
if (addr + size == man->free[i].addr) {
/* 可以与后面的内容归纳到一起 */
man->free[i].addr = addr;
man->free[i].size += size;
return 0; /* 成功完成 */
}
}
/* 既不能与前面归纳到一起,也不能与后面归纳到一起 */
if (man->frees < MEMMAN_FREES) {
/* free[i]之后的,向后移动,腾出一点可用空间 */
for (j = man->frees; j > i; j--) {
man->free[j] = man->free[j - 1];
}
man->frees++;
if (man->maxfrees < man->frees) {
man->maxfrees = man->frees; /* 更新最大值 */
}
man->free[i].addr = addr;
man->free[i].size = size;
return 0; /* 成功完成 */
}
/* 不能往后移动 */
man->losts++;
man->lostsize += size;
return -1; /* 失败 */
}
unsigned int memman_alloc_4k(struct MEMMAN *man, unsigned int size)
{
unsigned int a;
size = (size + 0xfff) & 0xfffff000;
a = memman_alloc(man, size);
return a;
}
int memman_free_4k(struct MEMMAN *man, unsigned int addr, unsigned int size)
{
int i;
size = (size + 0xfff) & 0xfffff000;
i = memman_free(man, addr, size);
return i;
}

76
28_day/haribote/mouse.c Normal file
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/* 鼠标控制代码 */
#include "bootpack.h"
struct FIFO32 *mousefifo;
int mousedata0;
void inthandler2c(int *esp)
/* 来自PS/2鼠标的中断 */
{
int data;
io_out8(PIC1_OCW2, 0x64); /* 把IRQ-12接收信号结束的信息通知给PIC1 */
io_out8(PIC0_OCW2, 0x62); /* 把IRQ-02接收信号结束的信息通知给PIC0 */
data = io_in8(PORT_KEYDAT);
fifo32_put(mousefifo, data + mousedata0);
return;
}
#define KEYCMD_SENDTO_MOUSE 0xd4
#define MOUSECMD_ENABLE 0xf4
void enable_mouse(struct FIFO32 *fifo, int data0, struct MOUSE_DEC *mdec)
{
/* 将FIFO缓冲区的信息保存到全局变量里 */
mousefifo = fifo;
mousedata0 = data0;
/* 鼠标有效 */
wait_KBC_sendready();
io_out8(PORT_KEYCMD, KEYCMD_SENDTO_MOUSE);
wait_KBC_sendready();
io_out8(PORT_KEYDAT, MOUSECMD_ENABLE);
/* 顺利的话ACK(0xfa)会被发送*/
mdec->phase = 0; /* 等待鼠标的0xfa的阶段*/
return;
}
int mouse_decode(struct MOUSE_DEC *mdec, unsigned char dat)
{
if (mdec->phase == 0) {
/* 等待鼠标的0xfa的阶段 */
if (dat == 0xfa) {
mdec->phase = 1;
}
return 0;
}
if (mdec->phase == 1) {
/* 等待鼠标第一字节的阶段 */
mdec->buf[0] = dat;
mdec->phase = 2;
return 0;
}
if (mdec->phase == 2) {
/* 等待鼠标第二字节的阶段 */
mdec->buf[1] = dat;
mdec->phase = 3;
return 0;
}
if (mdec->phase == 3) {
/* 等待鼠标第二字节的阶段 */
mdec->buf[2] = dat;
mdec->phase = 1;
mdec->btn = mdec->buf[0] & 0x07;
mdec->x = mdec->buf[1];
mdec->y = mdec->buf[2];
if ((mdec->buf[0] & 0x10) != 0) {
mdec->x |= 0xffffff00;
}
if ((mdec->buf[0] & 0x20) != 0) {
mdec->y |= 0xffffff00;
}
mdec->y = - mdec->y; /* 鼠标的y方向与画面符号相反 */
return 1;
}
/* 应该不可能到这里来 */
return -1;
}

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28_day/haribote/mtask.c Normal file
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/* 多任务管理 */
#include "bootpack.h"
struct TASKCTL *taskctl;
struct TIMER *task_timer;
struct TASK *task_now(void)
{
struct TASKLEVEL *tl = &taskctl->level[taskctl->now_lv];
return tl->tasks[tl->now];
}
void task_add(struct TASK *task)
{
struct TASKLEVEL *tl = &taskctl->level[task->level];
tl->tasks[tl->running] = task;
tl->running++;
task->flags = 2; /*活动中*/
return;
}
void task_remove(struct TASK *task)
{
int i;
struct TASKLEVEL *tl = &taskctl->level[task->level];
/*寻找task所在的位置*/
for (i = 0; i < tl->running; i++) {
if (tl->tasks[i] == task) {
/*在这里 */
break;
}
}
tl->running--;
if (i < tl->now) {
tl->now--; /*需要移动成员,要相应地处理 */
}
if (tl->now >= tl->running) {
/*如果now的值出现异常则进行修正*/
tl->now = 0;
}
task->flags = 1; /* 休眠中 */
/* 移动 */
for (; i < tl->running; i++) {
tl->tasks[i] = tl->tasks[i + 1];
}
return;
}
void task_switchsub(void)
{
int i;
/*寻找最上层的LEVEL */
for (i = 0; i < MAX_TASKLEVELS; i++) {
if (taskctl->level[i].running > 0) {
break; /*找到了*/
}
}
taskctl->now_lv = i;
taskctl->lv_change = 0;
return;
}
void task_idle(void)
{
for (;;) {
io_hlt();
}
}
struct TASK *task_init(struct MEMMAN *memman)
{
int i;
struct TASK *task, *idle;
struct SEGMENT_DESCRIPTOR *gdt = (struct SEGMENT_DESCRIPTOR *) ADR_GDT;
taskctl = (struct TASKCTL *) memman_alloc_4k(memman, sizeof (struct TASKCTL));
for (i = 0; i < MAX_TASKS; i++) {
taskctl->tasks0[i].flags = 0;
taskctl->tasks0[i].sel = (TASK_GDT0 + i) * 8;
taskctl->tasks0[i].tss.ldtr = (TASK_GDT0 + MAX_TASKS + i) * 8;
set_segmdesc(gdt + TASK_GDT0 + i, 103, (int) &taskctl->tasks0[i].tss, AR_TSS32);
set_segmdesc(gdt + TASK_GDT0 + MAX_TASKS + i, 15, (int) taskctl->tasks0[i].ldt, AR_LDT);
}
for (i = 0; i < MAX_TASKLEVELS; i++) {
taskctl->level[i].running = 0;
taskctl->level[i].now = 0;
}
task = task_alloc();
task->flags = 2; /*活动中标志*/
task->priority = 2; /* 0.02秒*/
task->level = 0; /*最高LEVEL */
task_add(task);
task_switchsub(); /* LEVEL 设置*/
load_tr(task->sel);
task_timer = timer_alloc();
timer_settime(task_timer, task->priority);
idle = task_alloc();
idle->tss.esp = memman_alloc_4k(memman, 64 * 1024) + 64 * 1024;
idle->tss.eip = (int) &task_idle;
idle->tss.es = 1 * 8;
idle->tss.cs = 2 * 8;
idle->tss.ss = 1 * 8;
idle->tss.ds = 1 * 8;
idle->tss.fs = 1 * 8;
idle->tss.gs = 1 * 8;
task_run(idle, MAX_TASKLEVELS - 1, 1);
return task;
}
struct TASK *task_alloc(void)
{
int i;
struct TASK *task;
for (i = 0; i < MAX_TASKS; i++) {
if (taskctl->tasks0[i].flags == 0) {
task = &taskctl->tasks0[i];
task->flags = 1; /*正在使用的标志*/
task->tss.eflags = 0x00000202; /* IF = 1; */
task->tss.eax = 0; /*这里先置为0*/
task->tss.ecx = 0;
task->tss.edx = 0;
task->tss.ebx = 0;
task->tss.ebp = 0;
task->tss.esi = 0;
task->tss.edi = 0;
task->tss.es = 0;
task->tss.ds = 0;
task->tss.fs = 0;
task->tss.gs = 0;
task->tss.iomap = 0x40000000;
task->tss.ss0 = 0;
return task;
}
}
return 0; /*全部正在使用*/
}
void task_run(struct TASK *task, int level, int priority)
{
if (level < 0) {
level = task->level; /*不改变LEVEL */
}
if (priority > 0) {
task->priority = priority;
}
if (task->flags == 2 && task->level != level) {
/*改变活动中的LEVEL */
task_remove(task); /*这里执行之后flag的值会变为1于是下面的if语句块也会被执行*/
}
if (task->flags != 2) {
/*从休眠状态唤醒的情形*/
task->level = level;
task_add(task);
}
taskctl->lv_change = 1; /*下次任务切换时检查LEVEL */
return;
}
void task_sleep(struct TASK *task)
{
struct TASK *now_task;
if (task->flags == 2) {
/*如果处于活动状态*/
now_task = task_now();
task_remove(task); /*执行此语句的话flags将变为1 */
if (task == now_task) {
/*如果是让自己休眠,则需要进行任务切换*/
task_switchsub();
now_task = task_now(); /*在设定后获取当前任务的值*/
farjmp(0, now_task->sel);
}
}
return;
}
void task_switch(void)
{
struct TASKLEVEL *tl = &taskctl->level[taskctl->now_lv];
struct TASK *new_task, *now_task = tl->tasks[tl->now];
tl->now++;
if (tl->now == tl->running) {
tl->now = 0;
}
if (taskctl->lv_change != 0) {
task_switchsub();
tl = &taskctl->level[taskctl->now_lv];
}
new_task = tl->tasks[tl->now];
timer_settime(task_timer, new_task->priority);
if (new_task != now_task) {
farjmp(0, new_task->sel);
}
return;
}

291
28_day/haribote/naskfunc.nas Normal file
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@@ -0,0 +1,291 @@
; naskfunc
; TAB=4
[FORMAT "WCOFF"] ; 制作目标文件的模式
[INSTRSET "i486p"] ; 使用到486为止的指令
[BITS 32] ; 3制作32位模式用的机器语言
[FILE "naskfunc.nas"] ; 文件名
GLOBAL _io_hlt, _io_cli, _io_sti, _io_stihlt
GLOBAL _io_in8, _io_in16, _io_in32
GLOBAL _io_out8, _io_out16, _io_out32
GLOBAL _io_load_eflags, _io_store_eflags
GLOBAL _load_gdtr, _load_idtr
GLOBAL _load_cr0, _store_cr0
GLOBAL _load_tr
GLOBAL _asm_inthandler20, _asm_inthandler21
GLOBAL _asm_inthandler2c, _asm_inthandler0c
GLOBAL _asm_inthandler0d, _asm_end_app
GLOBAL _memtest_sub
GLOBAL _farjmp, _farcall
GLOBAL _asm_hrb_api, _start_app
EXTERN _inthandler20, _inthandler21
EXTERN _inthandler2c, _inthandler0d
EXTERN _inthandler0c
EXTERN _hrb_api
[SECTION .text]
_io_hlt: ; void io_hlt(void);
HLT
RET
_io_cli: ; void io_cli(void);
CLI
RET
_io_sti: ; void io_sti(void);
STI
RET
_io_stihlt: ; void io_stihlt(void);
STI
HLT
RET
_io_in8: ; int io_in8(int port);
MOV EDX,[ESP+4] ; port
MOV EAX,0
IN AL,DX
RET
_io_in16: ; int io_in16(int port);
MOV EDX,[ESP+4] ; port
MOV EAX,0
IN AX,DX
RET
_io_in32: ; int io_in32(int port);
MOV EDX,[ESP+4] ; port
IN EAX,DX
RET
_io_out8: ; void io_out8(int port, int data);
MOV EDX,[ESP+4] ; port
MOV AL,[ESP+8] ; data
OUT DX,AL
RET
_io_out16: ; void io_out16(int port, int data);
MOV EDX,[ESP+4] ; port
MOV EAX,[ESP+8] ; data
OUT DX,AX
RET
_io_out32: ; void io_out32(int port, int data);
MOV EDX,[ESP+4] ; port
MOV EAX,[ESP+8] ; data
OUT DX,EAX
RET
_io_load_eflags: ; int io_load_eflags(void);
PUSHFD ; PUSH EFLAGS
POP EAX
RET
_io_store_eflags: ; void io_store_eflags(int eflags);
MOV EAX,[ESP+4]
PUSH EAX
POPFD ; POP EFLAGS
RET
_load_gdtr: ; void load_gdtr(int limit, int addr);
MOV AX,[ESP+4] ; limit
MOV [ESP+6],AX
LGDT [ESP+6]
RET
_load_idtr: ; void load_idtr(int limit, int addr);
MOV AX,[ESP+4] ; limit
MOV [ESP+6],AX
LIDT [ESP+6]
RET
_load_cr0: ; int load_cr0(void);
MOV EAX,CR0
RET
_store_cr0: ; void store_cr0(int cr0);
MOV EAX,[ESP+4]
MOV CR0,EAX
RET
_load_tr: ; void load_tr(int tr);
LTR [ESP+4] ; tr
RET
_asm_inthandler20:
PUSH ES
PUSH DS
PUSHAD
MOV EAX,ESP
PUSH EAX
MOV AX,SS
MOV DS,AX
MOV ES,AX
CALL _inthandler20
POP EAX
POPAD
POP DS
POP ES
IRETD
_asm_inthandler21:
PUSH ES
PUSH DS
PUSHAD
MOV EAX,ESP
PUSH EAX
MOV AX,SS
MOV DS,AX
MOV ES,AX
CALL _inthandler21
POP EAX
POPAD
POP DS
POP ES
IRETD
_asm_inthandler2c:
PUSH ES
PUSH DS
PUSHAD
MOV EAX,ESP
PUSH EAX
MOV AX,SS
MOV DS,AX
MOV ES,AX
CALL _inthandler2c
POP EAX
POPAD
POP DS
POP ES
IRETD
_asm_inthandler0c:
STI
PUSH ES
PUSH DS
PUSHAD
MOV EAX,ESP
PUSH EAX
MOV AX,SS
MOV DS,AX
MOV ES,AX
CALL _inthandler0c
CMP EAX,0
JNE _asm_end_app
POP EAX
POPAD
POP DS
POP ES
ADD ESP,4 ; 在INT 0x0c中也需要这句
IRETD
_asm_inthandler0d:
STI
PUSH ES
PUSH DS
PUSHAD
MOV EAX,ESP
PUSH EAX
MOV AX,SS
MOV DS,AX
MOV ES,AX
CALL _inthandler0d
CMP EAX,0
JNE _asm_end_app
POP EAX
POPAD
POP DS
POP ES
ADD ESP,4 ; INT 0x0d需要这句
IRETD
_memtest_sub: ; unsigned int memtest_sub(unsigned int start, unsigned int end)
PUSH EDI ; 由于还要使用EBX, ESI, EDI
PUSH ESI
PUSH EBX
MOV ESI,0xaa55aa55 ; pat0 = 0xaa55aa55;
MOV EDI,0x55aa55aa ; pat1 = 0x55aa55aa;
MOV EAX,[ESP+12+4] ; i = start;
mts_loop:
MOV EBX,EAX
ADD EBX,0xffc ; p = i + 0xffc;
MOV EDX,[EBX] ; old = *p;
MOV [EBX],ESI ; *p = pat0;
XOR DWORD [EBX],0xffffffff ; *p ^= 0xffffffff;
CMP EDI,[EBX] ; if (*p != pat1) goto fin;
JNE mts_fin
XOR DWORD [EBX],0xffffffff ; *p ^= 0xffffffff;
CMP ESI,[EBX] ; if (*p != pat0) goto fin;
JNE mts_fin
MOV [EBX],EDX ; *p = old;
ADD EAX,0x1000 ; i += 0x1000;
CMP EAX,[ESP+12+8] ; if (i <= end) goto mts_loop;
JBE mts_loop
POP EBX
POP ESI
POP EDI
RET
mts_fin:
MOV [EBX],EDX ; *p = old;
POP EBX
POP ESI
POP EDI
RET
_farjmp: ; void farjmp(int eip, int cs);
JMP FAR [ESP+4] ; eip, cs
RET
_farcall: ; void farcall(int eip, int cs);
CALL FAR [ESP+4] ; eip, cs
RET
_asm_hrb_api:
STI
PUSH DS
PUSH ES
PUSHAD ; 用于保存的PUSH
PUSHAD ; 用于向hrb_api传值的PUSH
MOV AX,SS
MOV DS,AX ; 将操作系统用段地址存入DS和ES
MOV ES,AX
CALL _hrb_api
CMP EAX,0 ; 当EAX不为0时程序结束
JNE _asm_end_app
ADD ESP,32
POPAD
POP ES
POP DS
IRETD
_asm_end_app:
; EAX为tss.esp0的地址
MOV ESP,[EAX]
MOV DWORD [EAX+4],0
POPAD
RET ; 返回cmd_app
_start_app: ; void start_app(int eip, int cs, int esp, int ds, int *tss_esp0);
PUSHAD ; 将32位寄存器的值全部保存起来
MOV EAX,[ESP+36] ; 应用程序用EIP
MOV ECX,[ESP+40] ; 应用程序用CS
MOV EDX,[ESP+44] ; 应用程序用ESP
MOV EBX,[ESP+48] ; 应用程序用DS/SS
MOV EBP,[ESP+52] ; tss.esp0的地址
MOV [EBP ],ESP ; 保存操作系统用ESP
MOV [EBP+4],SS ; 保存操作系统用SS
MOV ES,BX
MOV DS,BX
MOV FS,BX
MOV GS,BX
; 下面调整栈以免用RETF跳转到应用程序
OR ECX,3 ; 将应用程序用段号和3进行OR运算
OR EBX,3 ; 将应用程序用段号和3进行OR运算
PUSH EBX ; 应用程序的SS
PUSH EDX ; 应用程序的ESP
PUSH ECX ; 应用程序的CS
PUSH EAX ; 应用程序的EIP
RETF
; 应用程序结束后不会回到这里

294
28_day/haribote/sheet.c Normal file
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/* sheet */
#include "bootpack.h"
#define SHEET_USE 1
struct SHTCTL *shtctl_init(struct MEMMAN *memman, unsigned char *vram, int xsize, int ysize)
{
struct SHTCTL *ctl;
int i;
ctl = (struct SHTCTL *) memman_alloc_4k(memman, sizeof (struct SHTCTL));
if (ctl == 0) {
goto err;
}
ctl->map = (unsigned char *) memman_alloc_4k(memman, xsize * ysize);
if (ctl->map == 0) {
memman_free_4k(memman, (int) ctl, sizeof (struct SHTCTL));
goto err;
}
ctl->vram = vram;
ctl->xsize = xsize;
ctl->ysize = ysize;
ctl->top = -1; /* 没有一张SHEET */
for (i = 0; i < MAX_SHEETS; i++) {
ctl->sheets0[i].flags = 0; /* 标记为未使用 */
ctl->sheets0[i].ctl = ctl; /* 记录所属*/
}
err:
return ctl;
}
struct SHEET *sheet_alloc(struct SHTCTL *ctl)
{
struct SHEET *sht;
int i;
for (i = 0; i < MAX_SHEETS; i++) {
if (ctl->sheets0[i].flags == 0) {
sht = &ctl->sheets0[i];
sht->flags = SHEET_USE; /* 标记为正在使用*/
sht->height = -1; /* 隐藏 */
sht->task = 0; /*不使用自动关闭功能*/
return sht;
}
}
return 0; /* 所有的SHEET都处于正在使用状态*/
}
void sheet_setbuf(struct SHEET *sht, unsigned char *buf, int xsize, int ysize, int col_inv)
{
sht->buf = buf;
sht->bxsize = xsize;
sht->bysize = ysize;
sht->col_inv = col_inv;
return;
}
void sheet_refreshmap(struct SHTCTL *ctl, int vx0, int vy0, int vx1, int vy1, int h0)
{
int h, bx, by, vx, vy, bx0, by0, bx1, by1, sid4, *p;;
unsigned char *buf, sid, *map = ctl->map;
struct SHEET *sht;
if (vx0 < 0) { vx0 = 0; }
if (vy0 < 0) { vy0 = 0; }
if (vx1 > ctl->xsize) { vx1 = ctl->xsize; }
if (vy1 > ctl->ysize) { vy1 = ctl->ysize; }
for (h = h0; h <= ctl->top; h++) {
sht = ctl->sheets[h];
sid = sht - ctl->sheets0; /* 将进行了减法计算的地址作为图层号码使用 */
buf = sht->buf;
bx0 = vx0 - sht->vx0;
by0 = vy0 - sht->vy0;
bx1 = vx1 - sht->vx0;
by1 = vy1 - sht->vy0;
if (bx0 < 0) { bx0 = 0; }
if (by0 < 0) { by0 = 0; }
if (bx1 > sht->bxsize) { bx1 = sht->bxsize; }
if (by1 > sht->bysize) { by1 = sht->bysize; }
if (sht->col_inv == -1) {
if ((sht->vx0 & 3) == 0 && (bx0 & 3) == 0 && (bx1 & 3) == 0) {
/*无透明色图层专用的高速版4字节型*/
bx1 = (bx1 - bx0) / 4; /* MOV次数*/
sid4 = sid | sid << 8 | sid << 16 | sid << 24;
for (by = by0; by < by1; by++) {
vy = sht->vy0 + by;
vx = sht->vx0 + bx0;
p = (int *) &map[vy * ctl->xsize + vx];
for (bx = 0; bx < bx1; bx++) {
p[bx] = sid4;
}
}
} else {
/*无透明色图层专用的高速版1字节型*/
for (by = by0; by < by1; by++) {
vy = sht->vy0 + by;
for (bx = bx0; bx < bx1; bx++) {
vx = sht->vx0 + bx;
map[vy * ctl->xsize + vx] = sid;
}
}
}
} else {
/*有透明色图层用的普通版*/
for (by = by0; by < by1; by++) {
vy = sht->vy0 + by;
for (bx = bx0; bx < bx1; bx++) {
vx = sht->vx0 + bx;
if (buf[by * sht->bxsize + bx] != sht->col_inv) {
map[vy * ctl->xsize + vx] = sid;
}
}
}
}
}
return;
}
void sheet_refreshsub(struct SHTCTL *ctl, int vx0, int vy0, int vx1, int vy1, int h0, int h1)
{
int h, bx, by, vx, vy, bx0, by0, bx1, by1, bx2, sid4, i, i1, *p, *q, *r;
unsigned char *buf, *vram = ctl->vram, *map = ctl->map, sid;
struct SHEET *sht;
/* 如果refresh的范围超出了画面则修正 */
if (vx0 < 0) { vx0 = 0; }
if (vy0 < 0) { vy0 = 0; }
if (vx1 > ctl->xsize) { vx1 = ctl->xsize; }
if (vy1 > ctl->ysize) { vy1 = ctl->ysize; }
for (h = h0; h <= h1; h++) {
sht = ctl->sheets[h];
buf = sht->buf;
sid = sht - ctl->sheets0;
/* 使用vx0vy1对bx0by1进行倒推 */
bx0 = vx0 - sht->vx0;
by0 = vy0 - sht->vy0;
bx1 = vx1 - sht->vx0;
by1 = vy1 - sht->vy0;
if (bx0 < 0) { bx0 = 0; } /* 处理刷新范围在图层外侧 */
if (by0 < 0) { by0 = 0; }
if (bx1 > sht->bxsize) { bx1 = sht->bxsize; } /* 应对不同的重叠方式 */
if (by1 > sht->bysize) { by1 = sht->bysize; }
if ((sht->vx0 & 3) == 0) {
/* 4字节型*/
i = (bx0 + 3) / 4; /* bx0除以4小数进位*/
i1 = bx1 / 4; /* bx1除以4小数舍去*/
i1 = i1 - i;
sid4 = sid | sid << 8 | sid << 16 | sid << 24;
for (by = by0; by < by1; by++) {
vy = sht->vy0 + by;
for (bx = bx0; bx < bx1 && (bx & 3) != 0; bx++) {
/*前面被4除多余的部分逐个字节写入*/
vx = sht->vx0 + bx;
if (map[vy * ctl->xsize + vx] == sid) {
vram[vy * ctl->xsize + vx] = buf[by * sht->bxsize + bx];
}
}
vx = sht->vx0 + bx;
p = (int *) &map[vy * ctl->xsize + vx];
q = (int *) &vram[vy * ctl->xsize + vx];
r = (int *) &buf[by * sht->bxsize + bx];
for (i = 0; i < i1; i++) {
/* 4的倍数部分*/
if (p[i] == sid4) {
q[i] = r[i]; /*估计大多数会是这种情况,因此速度会变快*/
} else {
bx2 = bx + i * 4;
vx = sht->vx0 + bx2;
if (map[vy * ctl->xsize + vx + 0] == sid) {
vram[vy * ctl->xsize + vx + 0] = buf[by * sht->bxsize + bx2 + 0];
}
if (map[vy * ctl->xsize + vx + 1] == sid) {
vram[vy * ctl->xsize + vx + 1] = buf[by * sht->bxsize + bx2 + 1];
}
if (map[vy * ctl->xsize + vx + 2] == sid) {
vram[vy * ctl->xsize + vx + 2] = buf[by * sht->bxsize + bx2 + 2];
}
if (map[vy * ctl->xsize + vx + 3] == sid) {
vram[vy * ctl->xsize + vx + 3] = buf[by * sht->bxsize + bx2 + 3];
}
}
}
for (bx += i1 * 4; bx < bx1; bx++) {
/*后面被4除多余的部分逐个字节写入*/
vx = sht->vx0 + bx;
if (map[vy * ctl->xsize + vx] == sid) {
vram[vy * ctl->xsize + vx] = buf[by * sht->bxsize + bx];
}
}
}
} else {
/* 1字节型*/
for (by = by0; by < by1; by++) {
vy = sht->vy0 + by;
for (bx = bx0; bx < bx1; bx++) {
vx = sht->vx0 + bx;
if (map[vy * ctl->xsize + vx] == sid) {
vram[vy * ctl->xsize + vx] = buf[by * sht->bxsize + bx];
}
}
}
}
}
return;
}
void sheet_updown(struct SHEET *sht, int height)
{
struct SHTCTL *ctl = sht->ctl;
int h, old = sht->height; /* 存储设置前的高度信息 */
if (height > ctl->top + 1) {
height = ctl->top + 1;
}
if (height < -1) {
height = -1;
}
sht->height = height;/* 设定高度 */
/* 下面主要是进行sheets[]的重新排列 */
if (old > height) { /* 比以前低 */
if (height >= 0) {
/* 把中间的往上提 */
for (h = old; h > height; h--) {
ctl->sheets[h] = ctl->sheets[h - 1];
ctl->sheets[h]->height = h;
}
ctl->sheets[height] = sht;
sheet_refreshmap(ctl, sht->vx0, sht->vy0, sht->vx0 + sht->bxsize, sht->vy0 + sht->bysize, height + 1);
sheet_refreshsub(ctl, sht->vx0, sht->vy0, sht->vx0 + sht->bxsize, sht->vy0 + sht->bysize, height + 1, old);
} else { /* 隐藏 */
if (ctl->top > old) {
/* 把上面的降下来 */
for (h = old; h < ctl->top; h++) {
ctl->sheets[h] = ctl->sheets[h + 1];
ctl->sheets[h]->height = h;
}
}
ctl->top--; /* 由于显示中的图层减少了一个,所以最上面的图层高度下降 */
sheet_refreshmap(ctl, sht->vx0, sht->vy0, sht->vx0 + sht->bxsize, sht->vy0 + sht->bysize, 0);
sheet_refreshsub(ctl, sht->vx0, sht->vy0, sht->vx0 + sht->bxsize, sht->vy0 + sht->bysize, 0, old - 1);
}
} else if (old < height) { /* 比以前高 */
if (old >= 0) {
/* 把中间的拉下去 */
for (h = old; h < height; h++) {
ctl->sheets[h] = ctl->sheets[h + 1];
ctl->sheets[h]->height = h;
}
ctl->sheets[height] = sht;
} else { /* 由隐藏状态转为显示状态 */
/* 将已在上面的提上来 */
for (h = ctl->top; h >= height; h--) {
ctl->sheets[h + 1] = ctl->sheets[h];
ctl->sheets[h + 1]->height = h + 1;
}
ctl->sheets[height] = sht;
ctl->top++; /* 由于已显示的图层增加了1个所以最上面的图层高度增加 */
}
sheet_refreshmap(ctl, sht->vx0, sht->vy0, sht->vx0 + sht->bxsize, sht->vy0 + sht->bysize, height);
sheet_refreshsub(ctl, sht->vx0, sht->vy0, sht->vx0 + sht->bxsize, sht->vy0 + sht->bysize, height, height); /* 按新图层信息重新绘制画面 */
}
return;
}
void sheet_refresh(struct SHEET *sht, int bx0, int by0, int bx1, int by1)
{
if (sht->height >= 0) { /* 如果正在显示,则按新图层的信息刷新画面*/
sheet_refreshsub(sht->ctl, sht->vx0 + bx0, sht->vy0 + by0, sht->vx0 + bx1, sht->vy0 + by1, sht->height, sht->height);
}
return;
}
void sheet_slide(struct SHEET *sht, int vx0, int vy0)
{
struct SHTCTL *ctl = sht->ctl;
int old_vx0 = sht->vx0, old_vy0 = sht->vy0;
sht->vx0 = vx0;
sht->vy0 = vy0;
if (sht->height >= 0) { /* 如果正在显示,则按新图层的信息刷新画面 */
sheet_refreshmap(ctl, old_vx0, old_vy0, old_vx0 + sht->bxsize, old_vy0 + sht->bysize, 0);
sheet_refreshmap(ctl, vx0, vy0, vx0 + sht->bxsize, vy0 + sht->bysize, sht->height);
sheet_refreshsub(ctl, old_vx0, old_vy0, old_vx0 + sht->bxsize, old_vy0 + sht->bysize, 0, sht->height - 1);
sheet_refreshsub(ctl, vx0, vy0, vx0 + sht->bxsize, vy0 + sht->bysize, sht->height, sht->height);
}
return;
}
void sheet_free(struct SHEET *sht)
{
if (sht->height >= 0) {
sheet_updown(sht, -1); /* 如果处于显示状态,则先设定为隐藏 */
}
sht->flags = 0; /* "未使用"标志 */
return;
}

169
28_day/haribote/timer.c Normal file
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/* 定时器 */
#include "bootpack.h"
#define PIT_CTRL 0x0043
#define PIT_CNT0 0x0040
struct TIMERCTL timerctl;
#define TIMER_FLAGS_ALLOC 1 /* 已配置状态 */
#define TIMER_FLAGS_USING 2 /* 定时器运行中 */
void init_pit(void)
{
int i;
struct TIMER *t;
io_out8(PIT_CTRL, 0x34);
io_out8(PIT_CNT0, 0x9c);
io_out8(PIT_CNT0, 0x2e);
timerctl.count = 0;
for (i = 0; i < MAX_TIMER; i++) {
timerctl.timers0[i].flags = 0; /* 没有使用 */
}
t = timer_alloc(); /* 取得一个 */
t->timeout = 0xffffffff;
t->flags = TIMER_FLAGS_USING;
t->next = 0; /* 末尾 */
timerctl.t0 = t; /* 因为现在只有哨兵,所以他就在最前面*/
timerctl.next = 0xffffffff; /* 因为只有哨兵,所以下一个超时时刻就是哨兵的时刻 */
return;
}
struct TIMER *timer_alloc(void)
{
int i;
for (i = 0; i < MAX_TIMER; i++) {
if (timerctl.timers0[i].flags == 0) {
timerctl.timers0[i].flags = TIMER_FLAGS_ALLOC;
timerctl.timers0[i].flags2 = 0;
return &timerctl.timers0[i];
}
}
return 0; /* 没找到 */
}
void timer_free(struct TIMER *timer)
{
timer->flags = 0; /* 未使用 */
return;
}
void timer_init(struct TIMER *timer, struct FIFO32 *fifo, int data)
{
timer->fifo = fifo;
timer->data = data;
return;
}
void timer_settime(struct TIMER *timer, unsigned int timeout)
{
int e;
struct TIMER *t, *s;
timer->timeout = timeout + timerctl.count;
timer->flags = TIMER_FLAGS_USING;
e = io_load_eflags();
io_cli();
t = timerctl.t0;
if (timer->timeout <= t->timeout) {
/* 插入最前面的情况 */
timerctl.t0 = timer;
timer->next = t; /* 下面是设定t */
timerctl.next = timer->timeout;
io_store_eflags(e);
return;
}
for (;;) {
s = t;
t = t->next;
if (timer->timeout <= t->timeout) {
/* 插入s和t之间的情况 */
s->next = timer; /* s下一个是timer */
timer->next = t; /* timer的下一个是t */
io_store_eflags(e);
return;
}
}
}
void inthandler20(int *esp)
{
struct TIMER *timer;
char ts = 0;
io_out8(PIC0_OCW2, 0x60); /* 把IRQ-00接收信号结束的信息通知给PIC */
timerctl.count++;
if (timerctl.next > timerctl.count) {
return;
}
timer = timerctl.t0; /* 首先把最前面的地址赋给timer */
for (;;) {
/* 因为timers的定时器都处于运行状态所以不确认flags */
if (timer->timeout > timerctl.count) {
break;
}
/* 超时 */
timer->flags = TIMER_FLAGS_ALLOC;
if (timer != task_timer) {
fifo32_put(timer->fifo, timer->data);
} else {
ts = 1; /* mt_timer超时*/
}
timer = timer->next; /* 将下一个定时器的地址赋给timer*/
}
timerctl.t0 = timer;
timerctl.next = timer->timeout;
if (ts != 0) {
task_switch();
}
return;
}
int timer_cancel(struct TIMER *timer)
{
int e;
struct TIMER *t;
e = io_load_eflags();
io_cli(); /*在设置过程中禁止改变定时器状态*/
if (timer->flags == TIMER_FLAGS_USING) { /*是否需要取消?*/
if (timer == timerctl.t0) {
/*第一个定时器的取消处理*/
t = timer->next;
timerctl.t0 = t;
timerctl.next = t->timeout;
} else {
/*非第一个定时器的取消处理*/
/*找到timer前一个定时器*/
t = timerctl.t0;
for (;;) {
if (t->next == timer) {
break;
}
t = t->next;
}
t->next = timer->next;
/*将之前“timer的下一个”指向“timer的下一个”*/
}
timer->flags = TIMER_FLAGS_ALLOC;
io_store_eflags(e);
return 1; /*取消处理成功*/
}
io_store_eflags(e);
return 0; /*不需要取消处理*/
}
void timer_cancelall(struct FIFO32 *fifo)
{
int e, i;
struct TIMER *t;
e = io_load_eflags();
io_cli(); /*在设置过程中禁止改变定时器状态*/
for (i = 0; i < MAX_TIMER; i++) {
t = &timerctl.timers0[i];
if (t->flags != 0 && t->flags2 != 0 && t->fifo == fifo) {
timer_cancel(t);
timer_free(t);
}
}
io_store_eflags(e);
return;
}

118
28_day/haribote/window.c Normal file
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/* 窗口相关函数 */
#include "bootpack.h"
void make_window8(unsigned char *buf, int xsize, int ysize, char *title, char act)
{
boxfill8(buf, xsize, COL8_C6C6C6, 0, 0, xsize - 1, 0 );
boxfill8(buf, xsize, COL8_FFFFFF, 1, 1, xsize - 2, 1 );
boxfill8(buf, xsize, COL8_C6C6C6, 0, 0, 0, ysize - 1);
boxfill8(buf, xsize, COL8_FFFFFF, 1, 1, 1, ysize - 2);
boxfill8(buf, xsize, COL8_848484, xsize - 2, 1, xsize - 2, ysize - 2);
boxfill8(buf, xsize, COL8_000000, xsize - 1, 0, xsize - 1, ysize - 1);
boxfill8(buf, xsize, COL8_C6C6C6, 2, 2, xsize - 3, ysize - 3);
boxfill8(buf, xsize, COL8_848484, 1, ysize - 2, xsize - 2, ysize - 2);
boxfill8(buf, xsize, COL8_000000, 0, ysize - 1, xsize - 1, ysize - 1);
make_wtitle8(buf, xsize, title, act);
return;
}
void make_wtitle8(unsigned char *buf, int xsize, char *title, char act)
{
static char closebtn[14][16] = {
"OOOOOOOOOOOOOOO@",
"OQQQQQQQQQQQQQ$@",
"OQQQQQQQQQQQQQ$@",
"OQQQ@@QQQQ@@QQ$@",
"OQQQQ@@QQ@@QQQ$@",
"OQQQQQ@@@@QQQQ$@",
"OQQQQQQ@@QQQQQ$@",
"OQQQQQ@@@@QQQQ$@",
"OQQQQ@@QQ@@QQQ$@",
"OQQQ@@QQQQ@@QQ$@",
"OQQQQQQQQQQQQQ$@",
"OQQQQQQQQQQQQQ$@",
"O$$$$$$$$$$$$$$@",
"@@@@@@@@@@@@@@@@"
};
int x, y;
char c, tc, tbc;
if (act != 0) {
tc = COL8_FFFFFF;
tbc = COL8_000084;
} else {
tc = COL8_C6C6C6;
tbc = COL8_848484;
}
boxfill8(buf, xsize, tbc, 3, 3, xsize - 4, 20);
putfonts8_asc(buf, xsize, 24, 4, tc, title);
for (y = 0; y < 14; y++) {
for (x = 0; x < 16; x++) {
c = closebtn[y][x];
if (c == '@') {
c = COL8_000000;
} else if (c == '$') {
c = COL8_848484;
} else if (c == 'Q') {
c = COL8_C6C6C6;
} else {
c = COL8_FFFFFF;
}
buf[(5 + y) * xsize + (xsize - 21 + x)] = c;
}
}
return;
}
void putfonts8_asc_sht(struct SHEET *sht, int x, int y, int c, int b, char *s, int l)
{
boxfill8(sht->buf, sht->bxsize, b, x, y, x + l * 8 - 1, y + 15);
putfonts8_asc(sht->buf, sht->bxsize, x, y, c, s);
sheet_refresh(sht, x, y, x + l * 8, y + 16);
return;
}
void make_textbox8(struct SHEET *sht, int x0, int y0, int sx, int sy, int c)
{
int x1 = x0 + sx, y1 = y0 + sy;
boxfill8(sht->buf, sht->bxsize, COL8_848484, x0 - 2, y0 - 3, x1 + 1, y0 - 3);
boxfill8(sht->buf, sht->bxsize, COL8_848484, x0 - 3, y0 - 3, x0 - 3, y1 + 1);
boxfill8(sht->buf, sht->bxsize, COL8_FFFFFF, x0 - 3, y1 + 2, x1 + 1, y1 + 2);
boxfill8(sht->buf, sht->bxsize, COL8_FFFFFF, x1 + 2, y0 - 3, x1 + 2, y1 + 2);
boxfill8(sht->buf, sht->bxsize, COL8_000000, x0 - 1, y0 - 2, x1 + 0, y0 - 2);
boxfill8(sht->buf, sht->bxsize, COL8_000000, x0 - 2, y0 - 2, x0 - 2, y1 + 0);
boxfill8(sht->buf, sht->bxsize, COL8_C6C6C6, x0 - 2, y1 + 1, x1 + 0, y1 + 1);
boxfill8(sht->buf, sht->bxsize, COL8_C6C6C6, x1 + 1, y0 - 2, x1 + 1, y1 + 1);
boxfill8(sht->buf, sht->bxsize, c, x0 - 1, y0 - 1, x1 + 0, y1 + 0);
return;
}
void change_wtitle8(struct SHEET *sht, char act)
{
int x, y, xsize = sht->bxsize;
char c, tc_new, tbc_new, tc_old, tbc_old, *buf = sht->buf;
if (act != 0) {
tc_new = COL8_FFFFFF;
tbc_new = COL8_000084;
tc_old = COL8_C6C6C6;
tbc_old = COL8_848484;
} else {
tc_new = COL8_C6C6C6;
tbc_new = COL8_848484;
tc_old = COL8_FFFFFF;
tbc_old = COL8_000084;
}
for (y = 3; y <= 20; y++) {
for (x = 3; x <= xsize - 4; x++) {
c = buf[y * xsize + x];
if (c == tc_old && x <= xsize - 22) {
c = tc_new;
} else if (c == tbc_old) {
c = tbc_new;
}
buf[y * xsize + x] = c;
}
}
sheet_refresh(sht, 3, 3, xsize, 21);
return;
}

1
28_day/hello3/!cons_9x.bat Normal file
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command

1
28_day/hello3/!cons_nt.bat Normal file
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@@ -0,0 +1 @@
cmd.exe

5
28_day/hello3/Makefile Normal file
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@@ -0,0 +1,5 @@
APP = hello3
STACK = 1k
MALLOC = 0k
include ../app_make.txt

11
28_day/hello3/hello3.c Normal file
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@@ -0,0 +1,11 @@
#include "apilib.h"
void HariMain(void)
{
api_putchar('h');
api_putchar('e');
api_putchar('l');
api_putchar('l');
api_putchar('o');
api_end();
}

1
28_day/hello3/make.bat Normal file
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@@ -0,0 +1 @@
..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

1
28_day/hello4/!cons_9x.bat Normal file
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@@ -0,0 +1 @@
command

1
28_day/hello4/!cons_nt.bat Normal file
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@@ -0,0 +1 @@
cmd.exe

5
28_day/hello4/Makefile Normal file
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@@ -0,0 +1,5 @@
APP = hello4
STACK = 1k
MALLOC = 0k
include ../app_make.txt

7
28_day/hello4/hello4.c Normal file
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@@ -0,0 +1,7 @@
#include "apilib.h"
void HariMain(void)
{
api_putstr0("hello, world\n");
api_end();
}

1
28_day/hello4/make.bat Normal file
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@@ -0,0 +1 @@
..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

1
28_day/hello5/!cons_9x.bat Normal file
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@@ -0,0 +1 @@
command

1
28_day/hello5/!cons_nt.bat Normal file
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@@ -0,0 +1 @@
cmd.exe

5
28_day/hello5/Makefile Normal file
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@@ -0,0 +1,5 @@
APP = hello5
STACK = 1k
MALLOC = 0k
include ../app_make.txt

20
28_day/hello5/hello5.nas Normal file
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@@ -0,0 +1,20 @@
[FORMAT "WCOFF"]
[INSTRSET "i486p"]
[BITS 32]
[FILE "hello5.nas"]
GLOBAL _HariMain
[SECTION .text]
_HariMain:
MOV EDX,2
MOV EBX,msg
INT 0x40
MOV EDX,4
INT 0x40
[SECTION .data]
msg:
DB "hello, world", 0x0a, 0

1
28_day/hello5/make.bat Normal file
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@@ -0,0 +1 @@
..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

1
28_day/lines/!cons_9x.bat Normal file
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@@ -0,0 +1 @@
command

1
28_day/lines/!cons_nt.bat Normal file
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@@ -0,0 +1 @@
cmd.exe

5
28_day/lines/Makefile Normal file
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@@ -0,0 +1,5 @@
APP = lines
STACK = 1k
MALLOC = 48k
include ../app_make.txt

22
28_day/lines/lines.c Normal file
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@@ -0,0 +1,22 @@
#include "apilib.h"
void HariMain(void)
{
char *buf;
int win, i;
api_initmalloc();
buf = api_malloc(160 * 100);
win = api_openwin(buf, 160, 100, -1, "lines");
for (i = 0; i < 8; i++) {
api_linewin(win + 1, 8, 26, 77, i * 9 + 26, i);
api_linewin(win + 1, 88, 26, i * 9 + 88, 89, i);
}
api_refreshwin(win, 6, 26, 154, 90);
for (;;) {
if (api_getkey(1) == 0x0a) {
break; /*按下回车键则break; */
}
}
api_closewin(win);
api_end();
}

1
28_day/lines/make.bat Normal file
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@@ -0,0 +1 @@
..\..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

1
28_day/make.bat Normal file
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@@ -0,0 +1 @@
..\z_tools\make.exe %1 %2 %3 %4 %5 %6 %7 %8 %9

1
28_day/noodle/!cons_9x.bat Normal file
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@@ -0,0 +1 @@
command

1
28_day/noodle/!cons_nt.bat Normal file
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@@ -0,0 +1 @@
cmd.exe

5
28_day/noodle/Makefile Normal file
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@@ -0,0 +1,5 @@
APP = noodle
STACK = 1k
MALLOC = 40k
include ../app_make.txt

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