Subversion Repositories Kolibri OS

Compare Revisions

Regard whitespace Rev 8472 → Rev 8473

/programs/develop/tinypy/tinypy/Makefile
1,8 → 1,33
export MENUETDEV=../../libraries/menuetlibc
OUTFILE = tpmain
OBJS = tpmain.o kolibri_init.o kolibri_fs.o kolibri_gui.o kolibri_dbg.o kolibri_net.o
CFLAGS = -I. -mpreferred-stack-boundary=2 -mincoming-stack-boundary=2
include $(MENUETDEV)/makefiles/Makefile_for_program
kolibri_dbg.o: fasm_modules/kolibri_dbg.s
NAME=tinypy
CC = kos32-gcc
LD = kos32-ld
 
SDK_DIR:= $(abspath ../../../../contrib/sdk)
 
LDFLAGS = -static -nostdlib -T $(SDK_DIR)/sources/newlib/app.lds \
--image-base 0 -lgcc -ldll -lc.dll
 
CFLAGS = -U_Win32 -U_WIN32 -U__MINGW32__ -mpreferred-stack-boundary=2 \
-mincoming-stack-boundary=2 -fno-builtin -fno-common
 
INCLUDES= -I. -I$(SDK_DIR)/sources/newlib/libc/include -I$(CLAYER)/INCLUDE
LIBPATH:= -L $(SDK_DIR)/lib -L /home/autobuild/tools/win32/mingw32/lib
 
 
OBJECTS = tpmain.o kolibri_init.o kolibri_fs.o kolibri_gui.o kolibri_net.o kolibri_dbg.obj
 
all:$(NAME)
 
$(NAME): $(OBJECTS) Makefile
$(LD) $(LIBPATH) --subsystem native -o $@ $(OBJECTS) $(LDFLAGS) -n -Map $(NAME).map
kos32-objcopy $@ -O binary
 
%.o : %.c Makefile
$(CC) -c $(INCLUDES) $(CFLAGS) -o $@ $<
 
kolibri_dbg.obj: fasm_modules/kolibri_dbg.s
fasm fasm_modules/kolibri_dbg.s
cp fasm_modules/kolibri_dbg.o .
cp fasm_modules/kolibri_dbg.obj .
 
clean:
-rm -f *.o $(NAME).map fasm_modules/kolibri_dbg.obj kolibri_dbg.obj
/programs/develop/tinypy/tinypy/fasm_modules/kolibri_dbg.s
4,20 → 4,26
; Exports:
; debug_print(msg) - prints a message to debug board.
 
format ELF
use32
include '../../../../proc32.inc'
include '../../../../struct.inc'
format coff
use32 ; Tell compiler to use 32 bit instructions
 
section '.init' code ; Keep this line before includes or GCC messes up call addresses
 
include '../../../proc32.inc'
include '../../../struct.inc'
purge section,mov,add,sub
include 'tinypy.inc'
 
extrn tp_dict
extrn tp_set
extrn tp_get
extrn tp_None
extrn tp_fnc
include '../../../../programs/dll.inc'
 
public kolibri_dbg_init
extrn '_tp_dict' as tp_dict
extrn '_tp_set' as tp_set
extrn '_tp_get' as tp_get
extrn '_tp_None' as tp_None
extrn '_tp_fnc' as tp_fnc
 
public kolibri_dbg_init as '_kolibri_dbg_init'
 
; Module name
modname db "kolibri_dbg"
modnamelen = $-modname
/programs/develop/tinypy/tinypy/kolibri_gui.c
1,5 → 1,5
#include "tp.h"
#include <menuet/thread.h>
#include <kos32sys.h>
 
typedef unsigned short int uint16_t;
typedef unsigned int uint32_t;
95,12 → 95,15
{
param_list = tp_list(tp); /* Prepare parameters. */
_tp_list_append(tp, param_list.list.val, self);
_tp_list_append(tp, param_list.list.val, tp_number(__menuet__getkey()));
oskey_t key;
key = get_key();
_tp_list_append(tp, param_list.list.val, tp_number(key.code));
_tp_call(tp, &result, key_handler, param_list);
}
break;
case 3:
button_id = __menuet__get_button_id();
button_id = get_os_button();
if (button_id == 1)
leave = 1;
else if (button_handler.type == TP_FNC)
129,7 → 132,7
uint32_t width = (uint32_t)tp_get(tp, self, tp_string("width")).number.val;
tp_obj text = TP_TYPE(TP_STRING);
 
__menuet__write_text(x, y, textcolor, (char *)text.string.val, text.string.len);
draw_text_sys((char *)text.string.val, x, y, text.string.len, textcolor);
/* Update cursor position. */
ofs = 6 * text.string.len;
tp_set(tp, self, tp_string("cury"), tp_number(y + 9 * ((x + ofs) / width)));
/programs/develop/tinypy/tinypy/kolibri_net.c
1,5 → 1,5
#include <sys/socket.h>
#include <menuet/net.h>
// #include <menuet/net.h>
 
#include "tp.h"
 
28,18 → 28,18
*/
static tp_obj kolibri_close_socket(TP)
{
tp_obj self = TP_TYPE(TP_DICT);
__u32 socktype;
__u32 s;
// tp_obj self = TP_TYPE(TP_DICT);
// __u32 socktype;
// __u32 s;
 
GET_SOCKET_DESCRIPTOR(self, s);
// GET_SOCKET_DESCRIPTOR(self, s);
 
socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
GET_SOCKET_DESCRIPTOR(self, s);
if (socktype == SOCK_STREAM)
__menuet__close_TCP_socket(s);
else if (socktype == SOCK_DGRAM)
__menuet__close_UDP_socket(s);
// socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
// GET_SOCKET_DESCRIPTOR(self, s);
// if (socktype == SOCK_STREAM)
// __menuet__close_TCP_socket(s);
// else if (socktype == SOCK_DGRAM)
// __menuet__close_UDP_socket(s);
return tp_True;
}
 
53,24 → 53,28
*/
static tp_obj kolibri_send(TP)
{
tp_obj self = TP_TYPE(TP_DICT);
tp_obj data_obj = TP_TYPE(TP_STRING);
__u32 datalen = TP_DEFAULT(tp_False).number.val;
__u32 socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
__u32 s;
int result;
// tp_obj self = TP_TYPE(TP_DICT);
// tp_obj data_obj = TP_TYPE(TP_STRING);
// __u32 datalen = TP_DEFAULT(tp_False).number.val;
// __u32 socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
// __u32 s;
// int result;
 
GET_SOCKET_DESCRIPTOR(self, s);
// GET_SOCKET_DESCRIPTOR(self, s);
 
if (datalen < 0 || datalen > data_obj.string.len)
datalen = data_obj.string.len;
if (socktype == SOCK_STREAM)
result = __menuet__write_TCP_socket(s, datalen, (void *)data_obj.string.val);
else if (socktype == SOCK_DGRAM)
result = __menuet__write_UDP_socket(s, datalen, (void *)data_obj.string.val);
return tp_number(!(result != 0));
// if (datalen < 0 || datalen > data_obj.string.len)
// datalen = data_obj.string.len;
// if (socktype == SOCK_STREAM)
// result = __menuet__write_TCP_socket(s, datalen, (void *)data_obj.string.val);
// else if (socktype == SOCK_DGRAM)
// result = __menuet__write_UDP_socket(s, datalen, (void *)data_obj.string.val);
// return tp_number(!(result != 0));
return tp_number(0);
}
 
#define __u32 unsigned int
#define __u8 unsigned char
 
/* Socket recv method.
*
* data="<html><head><title>Preved!!!</title></head><body>Example.</body></html>"
89,25 → 93,25
__u32 bytes_read = 0;
int i;
 
GET_SOCKET_DESCRIPTOR(self, s);
// GET_SOCKET_DESCRIPTOR(self, s);
 
if (datalen)
buf_size = datalen;
else
buf_size = 2048;
if (!(buf = malloc(datalen)))
tp_raise(tp_None, "Cannot allocate buffer for received data", tp_None);
p = buf;
while (__menuet__read_socket(s, &c) && bytes_read < buf_size)
{
*p++ = c;
bytes_read++;
if (bytes_read >= buf_size && !datalen)
{
buf_size += 1024;
buf = realloc(buf, buf_size);
}
}
// if (datalen)
// buf_size = datalen;
// else
// buf_size = 2048;
// if (!(buf = malloc(datalen)))
// tp_raise(tp_None, "Cannot allocate buffer for received data", tp_None);
// p = buf;
// while (__menuet__read_socket(s, &c) && bytes_read < buf_size)
// {
// *p++ = c;
// bytes_read++;
// if (bytes_read >= buf_size && !datalen)
// {
// buf_size += 1024;
// buf = realloc(buf, buf_size);
// }
// }
return tp_string_n(buf, bytes_read);
}
 
150,7 → 154,7
tp_obj obj;
__u32 addr;
obj = TP_TYPE(TP_STRING);
inet_pton(tp, (char *)obj.string.val, (int)obj.string.len, &addr);
// inet_pton(tp, (char *)obj.string.val, (int)obj.string.len, &addr);
return tp_number(addr);
}
 
163,18 → 167,18
*/
tp_obj kolibri_bind(TP)
{
tp_obj self = TP_TYPE(TP_DICT);
tp_obj local_addr_obj = TP_OBJ();
__u32 local_port = (__u32)TP_TYPE(TP_NUMBER).number.val;
__u32 local_addr;
// tp_obj self = TP_TYPE(TP_DICT);
// tp_obj local_addr_obj = TP_OBJ();
// __u32 local_port = (__u32)TP_TYPE(TP_NUMBER).number.val;
// __u32 local_addr;
 
if (local_addr_obj.type == TP_NUMBER)
local_addr = local_addr_obj.number.val;
else if (local_addr_obj.type == TP_STRING)
inet_pton(tp, (const char *)local_addr_obj.string.val, local_addr_obj.string.len, &local_addr);
// if (local_addr_obj.type == TP_NUMBER)
// local_addr = local_addr_obj.number.val;
// else if (local_addr_obj.type == TP_STRING)
// inet_pton(tp, (const char *)local_addr_obj.string.val, local_addr_obj.string.len, &local_addr);
 
tp_set(tp, self, tp_string("local_addr"), tp_number(local_addr));
tp_set(tp, self, tp_string("local_port"), tp_number(local_port));
// tp_set(tp, self, tp_string("local_addr"), tp_number(local_addr));
// tp_set(tp, self, tp_string("local_port"), tp_number(local_port));
return tp_None;
}
 
185,30 → 189,30
*/
tp_obj kolibri_connect(TP)
{
tp_obj self = TP_TYPE(TP_DICT);
tp_obj remote_addr_obj = TP_OBJ();
__u32 remote_addr;
__u32 remote_port = (__u32)TP_TYPE(TP_NUMBER).number.val;
__u32 local_port = tp_get(tp, self, tp_string("local_port")).number.val;
__u32 socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
int s = -1; /* Socket descriptor */
// tp_obj self = TP_TYPE(TP_DICT);
// tp_obj remote_addr_obj = TP_OBJ();
// __u32 remote_addr;
// __u32 remote_port = (__u32)TP_TYPE(TP_NUMBER).number.val;
// __u32 local_port = tp_get(tp, self, tp_string("local_port")).number.val;
// __u32 socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
// int s = -1; /* Socket descriptor */
 
 
if (remote_addr_obj.type == TP_NUMBER)
remote_addr = remote_addr_obj.number.val;
else if (remote_addr_obj.type == TP_STRING)
inet_pton(tp, (const char *)remote_addr_obj.string.val, remote_addr_obj.string.len, &remote_addr);
// if (remote_addr_obj.type == TP_NUMBER)
// remote_addr = remote_addr_obj.number.val;
// else if (remote_addr_obj.type == TP_STRING)
// inet_pton(tp, (const char *)remote_addr_obj.string.val, remote_addr_obj.string.len, &remote_addr);
 
if (socktype == SOCK_STREAM)
s = __menuet__open_TCP_socket(local_port, remote_port, remote_addr, 1);
else if (socktype == SOCK_DGRAM)
s = __menuet__open_UDP_socket(local_port, remote_port, remote_addr);
if (s >= 0)
{
tp_set(tp, self, tp_string("socket"), tp_number(s));
return tp_True;
}
else
// if (socktype == SOCK_STREAM)
// s = __menuet__open_TCP_socket(local_port, remote_port, remote_addr, 1);
// else if (socktype == SOCK_DGRAM)
// s = __menuet__open_UDP_socket(local_port, remote_port, remote_addr);
// if (s >= 0)
// {
// tp_set(tp, self, tp_string("socket"), tp_number(s));
// return tp_True;
// }
// else
return tp_False;
}
 
219,28 → 223,28
*/
tp_obj kolibri_listen(TP)
{
tp_obj self = TP_TYPE(TP_DICT);
tp_obj remote_addr_obj = TP_OBJ();
__u32 remote_addr;
__u32 remote_port = (__u32)TP_TYPE(TP_NUMBER).number.val;
__u32 local_port = tp_get(tp, self, tp_string("local_port")).number.val;
__u32 socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
int s = -1; /* Socket descriptor */
// tp_obj self = TP_TYPE(TP_DICT);
// tp_obj remote_addr_obj = TP_OBJ();
// __u32 remote_addr;
// __u32 remote_port = (__u32)TP_TYPE(TP_NUMBER).number.val;
// __u32 local_port = tp_get(tp, self, tp_string("local_port")).number.val;
// __u32 socktype = (__u32)tp_get(tp, self, tp_string("type")).number.val;
// int s = -1; /* Socket descriptor */
 
if (socktype != SOCK_STREAM)
tp_raise(tp_None, "IOError: attempt to listen on non-TCP socket", tp_None);
// if (socktype != SOCK_STREAM)
// tp_raise(tp_None, "IOError: attempt to listen on non-TCP socket", tp_None);
 
if (remote_addr_obj.type == TP_NUMBER)
remote_addr = remote_addr_obj.number.val;
else if (remote_addr_obj.type == TP_STRING)
inet_pton(tp, (const char *)remote_addr_obj.string.val, remote_addr_obj.string.len, &remote_addr);
// if (remote_addr_obj.type == TP_NUMBER)
// remote_addr = remote_addr_obj.number.val;
// else if (remote_addr_obj.type == TP_STRING)
// inet_pton(tp, (const char *)remote_addr_obj.string.val, remote_addr_obj.string.len, &remote_addr);
 
if ((s = __menuet__open_TCP_socket(local_port, remote_port, remote_addr, 0)) >= 0)
{
tp_set(tp, self, tp_string("socket"), tp_number(s));
return tp_True;
}
else
// if ((s = __menuet__open_TCP_socket(local_port, remote_port, remote_addr, 0)) >= 0)
// {
// tp_set(tp, self, tp_string("socket"), tp_number(s));
// return tp_True;
// }
// else
return tp_False;
}
 
259,20 → 263,20
tp_obj sockfamily = TP_TYPE(TP_NUMBER);
tp_obj socktype = TP_TYPE(TP_NUMBER);
 
if (fabs(sockfamily.number.val - AF_INET) > PRECISION ||
(fabs(socktype.number.val - SOCK_STREAM) > PRECISION &&
fabs(socktype.number.val - SOCK_DGRAM) > PRECISION))
return tp_None;
// if (fabs(sockfamily.number.val - AF_INET) > PRECISION ||
// (fabs(socktype.number.val - SOCK_STREAM) > PRECISION &&
// fabs(socktype.number.val - SOCK_DGRAM) > PRECISION))
// return tp_None;
s = tp_dict(tp);
tp_set(tp, s, tp_string("family"), sockfamily);
tp_set(tp, s, tp_string("type"), socktype);
tp_set(tp, s, tp_string("bind"), tp_method(tp, s, kolibri_bind));
tp_set(tp, s, tp_string("connect"), tp_method(tp, s, kolibri_connect));
tp_set(tp, s, tp_string("send"), tp_method(tp, s, kolibri_send));
tp_set(tp, s, tp_string("recv"), tp_method(tp, s, kolibri_recv));
tp_set(tp, s, tp_string("close"), tp_method(tp, s, kolibri_close_socket));
if (fabs(socktype.number.val - SOCK_STREAM) < PRECISION)
tp_set(tp, s, tp_string("listen"), tp_method(tp, s, kolibri_listen));
// tp_set(tp, s, tp_string("family"), sockfamily);
// tp_set(tp, s, tp_string("type"), socktype);
// tp_set(tp, s, tp_string("bind"), tp_method(tp, s, kolibri_bind));
// tp_set(tp, s, tp_string("connect"), tp_method(tp, s, kolibri_connect));
// tp_set(tp, s, tp_string("send"), tp_method(tp, s, kolibri_send));
// tp_set(tp, s, tp_string("recv"), tp_method(tp, s, kolibri_recv));
// tp_set(tp, s, tp_string("close"), tp_method(tp, s, kolibri_close_socket));
// if (fabs(socktype.number.val - SOCK_STREAM) < PRECISION)
// tp_set(tp, s, tp_string("listen"), tp_method(tp, s, kolibri_listen));
return s;
}
 
280,9 → 284,12
{
tp_obj socket_mod = tp_dict(tp);
 
tp_set(tp, socket_mod, tp_string("AF_INET"), tp_number(AF_INET));
tp_set(tp, socket_mod, tp_string("SOCK_STREAM"), tp_number(SOCK_STREAM));
tp_set(tp, socket_mod, tp_string("SOCK_DGRAM"), tp_number(SOCK_DGRAM));
// tp_set(tp, socket_mod, tp_string("AF_INET"), tp_number(AF_INET));
// tp_set(tp, socket_mod, tp_string("SOCK_STREAM"), tp_number(SOCK_STREAM));
// tp_set(tp, socket_mod, tp_string("SOCK_DGRAM"), tp_number(SOCK_DGRAM));
tp_set(tp, socket_mod, tp_string("AF_INET"), tp_number(0));
tp_set(tp, socket_mod, tp_string("SOCK_STREAM"), tp_number(0));
tp_set(tp, socket_mod, tp_string("SOCK_DGRAM"), tp_number(0));
tp_set(tp, socket_mod, tp_string("inet_pton"), tp_fnc(tp, kolibri_inet_pton));
tp_set(tp, socket_mod, tp_string("socket"), tp_fnc(tp, kolibri_socket));
return socket_mod;
/programs/develop/tinypy/tinypy/tpmain.c
1,11 → 1,12
#include "tp.c"
/* INCLUDE */
const char header[]="TinyPy for kolibriOS";
extern _stdcall void kolibri_dbg_init(tp_vm *tp);
 
extern void (*kolibri_dbg_init)(tp_vm *tp) __attribute__((__stdcall__));
 
void main(int argc, const char *argv[]) {
tp_vm *tp = tp_init(argc, argv);
kolibri_dbg_init(tp);
// kolibri_dbg_init(tp);
kolibri_init(tp);
CONSOLE_INIT(header);
/* INIT */