02-16-2015, 12:08 PM
Can you take a look and tell me what I'm doing wrong
TEST
NET
Also the screen does not scroll buts prints from the top of the screen when it gets to the bottom.
TEST
Code:
#include <keys.bas>
#include <net.bas>
paper 0
ink 7
cls
start()
pause 50
opensocket()
pause 50
hostip()
pause 50
connect()
pause 50
sendfirst()
pause 100
cls
print at 0,0;
LET a$ = "ardentcrest"
let t=LEN(a$) - 1
REM Poke all the string chars starting at address @MyLabel
FOR i = 0 TO LEN(a$) - 1:
POKE @MyLabel + i, CODE a$(i)
NEXT i
POKE @MyLabel + (t+1),13
POKE @MyLabel + (t+2),10
poke @MyLabel2, (t+2)
mainloop()
send()
mainloop()
NET
Code:
SUB fastcall start()
ASM
ld hl, startupMSG
ld bc, end1-startupMSG
call myPrint64
ld hl, lookingupMSG
ld bc, end2-lookingupMSG
call myPrint64
END ASM
END SUB
SUB fastcall opensocket()
ASM
ld c, 1
ld hl, SOCKET
call HLCALL
ld (v_sockfd), a
ret
END ASM
END SUB
SUB fastcall hostip()
ASM
ld hl, serverhost
ld de, ip_buffer
ld ix, GETHOSTBYNAME
call IXCALL
ret
END ASM
END SUB
SUB fastcall connect()
ASM
ld hl, connectingMSG
ld bc, end3-connectingMSG
call myPrint64
; now actually connect...
ld a, (v_sockfd) ; get back the socket file descriptor
ld de, ip_buffer ; point to the dotted ip notation we got previously
ld bc, serverport ; the port I want to use to connect on... (22528 as is heh)
ld hl, CONNECT
call HLCALL ; call the Spectranet CONNECT ROM routine, :D
;jp c, commerror ; carry is set if there is an error (fingers crossed k)
; CONNECTED !!!
xor a
inc a
ld (connected), a
ld hl, connectedMSG
ld bc, end5-connectedMSG
call myPrint64
END ASM
END SUB
SUB fastcall sendfirst()
ASM
ld a, (v_sockfd)
ld de, garbage
ld bc, garbageend-garbage
ld hl, SEND
call HLCALL
END ASM
END SUB
SUB fastcall send()
ASM
ld a, (v_sockfd)
ld de, text1
ld bc, lenth1
ld hl, SEND
call HLCALL
END ASM
END SUB
SUB fastcall mainloop()
ASM
; main receive loop, :/
.tightloop:
; poll the socket to see if data is waiting
call pollSocket
jr c, .no_data1
; there is data to be collected
.gData2:
call clearBuffer
ld a, (v_sockfd)
ld de, responseBuffer
ld bc, responseBufferEnd-responseBuffer
ld hl, RECV
call HLCALL
jp c, commerror
ld hl, responseBuffer ; get the address of the buffer
add hl, bc ; add on the number of received bytes
inc hl
ld (hl), msgEND ; mark that point as the end of the text
call displayData ; and just display that, :D
jr .tightloop
.no_data1:
xor a
; .checkkeys:
; jr nc, .tightloop
; now close the socket, dunno why cos I ain't never ever gonna give you up, err, I mean drop to BASIC
; green indicates complete run through worked ok...
ret
;========================================================================
pollSocket:
; returns carry clear if data to be fetched
; or set carry to indicate no data...
ld a, (v_sockfd)
ld hl, POLLFD
CALL HLCALL
jr z, .nodata
scf
ccf
ret
.nodata:
scf
ret
displayData:
;ld a, 3
;out ($fe), a
ld hl, responseBuffer
call myPrint64
ret
END ASM
END SUB
SUB fastcall clearBuffer()
ASM
clearBuffer:
ld hl, responseBuffer
ld de, responseBuffer+1
ld bc, responseBufferEnd-responseBuffer-1
ld (hl), 32
ldir
ret
END ASM
END SUB
SUB fastcall commerror()
ASM
commerror:
ld a, 2
out ($fe), a ; turn border red to indicate error... :/
ld hl, errorMSG
call myPrint64 ; print the error msg
ld a, (v_sockfd)
and a ; do we have a socket?
ret z ; nope, so return ;NOTE: This may cause a ret to BASIC, grr, will sort it later, :p
ld hl, CLOSE ; we have a socket, so clean it up
call HLCALL
;call end_interrupts ; reset interrupts back to im 1..
ret
END ASM
END SUB
SUB fastcall myPrint42()
ASM
myPrint42:
push af
push ix
push hl
ld ix, PRINT42
CALL IXCALL
pop hl
pop ix
pop af
ret
END ASM
END SUB
SUB fastcall myPrint64()
ASM
myPrint64:
push af
push ix
push hl
; Test string length. If Zero, exit.
ld a, c
or b
jp z, p64_END
;LOCAL examineChar
examineChar:
ld a, (hl) ; Grab the character
cp 128 ; too high to print?
jr nc, nextChar ; then we go to next.
cp 22 ; Is this an AT?
jr nz, newLine ; If not, hop to newLine routine.
ex de, hl ; Swap DE and HL
and a ; Clear Carry
ld hl, 2 ;
sbc hl, bc ; Can we Shorten our string length by 2? If not then at (y,x) doesn't make sense.
ex de, hl ; Swap DE and HL back
jp nc, p64_END ; If we went negative, there wasn't anything to AT to, so we return.
inc hl ; Onto our Y co-ordinate
ld d, (hl) ; And load it into D
dec bc ; Shorten our remaining string counter.
inc hl ; Onto the X Co-ordinate
ld e, (hl) ; Load it into E
dec bc ; Shorten our remaining string counter
call p64_test_X ; Make xy legal 60051 205 53 235
jr p64_eaa3 ; Go to save coords 60054 24 11
;LOCAL newLine
newLine:
cp 13 ; Is this a newline character? 60056 254 13
jr nz, p64_isPrintable ; If not, hop to testing to see if we can print this 60058 32 13
ld de, (p64_coords) ; Get coords 60060 237 91 68 235
call p64_nxtLine ; Go to next line.
;LOCAL p64_eaa3
p64_eaa3:
ld (p64_coords), de
jr nextChar
;LOCAL p64_isPrintable
p64_isPrintable:
cp 31 ; Bigger than 31? 60073 254 31
jr c, nextChar ; If not, get the next one. 60075 56 7
push hl ; Save position 60077 229
push bc ; Save Count 60078 197
call p64_PrintChar ; Call Print SubRoutine 60079 205 189 234
pop bc ; Recover length count 60082 193
pop hl ; Recover Position 60083 225
; LOCAL nextChar
nextChar:
inc hl ; Point to next character 60084 35
dec bc ; Count off this character 60085 11
ld a, b ; Did we run out? 60086 120
or c
jr nz, examineChar ; If not, examine the next one 60088 32 193
jp p64_END ; Otherwise hop to END. 60090 201
; LOCAL p64_PrintChar
p64_PrintChar:
exx
push hl ; Save HL' 60094 229
exx
sub 32 ; Take out 32 to convert ascii to position in charset 60096 214 32
ld h, 0
rra ; Divide by 2 60100 31
ld l, a ; Put our halved value into HL 60101 111
ld a, 240 ; Set our mask to LEFT side 60102 62 240
jr nc, p64_eacc ; If we didn't have a carry (even #), hop forward. 60104 48 2
ld a, 15 ; If we were ab idd #, set our mask to RIGHT side instead 60106 62 15
;LOCAL p64_eacc
p64_eacc:
add hl, hl
add hl, hl
add hl, hl ; Multiply our char number by 8 60110 41
ld de, p64_charset ; Get our Charset position 60111 17 70 235
add hl, de ; And add our character count, so we're now pointed at the first
; byte of the right character. 60114 25
exx
ld de, (p64_coords)
ex af, af'
call p64_loadAndTest
ex af, af'
inc e
ld (p64_coords), de ; Put position+1 into coords 60126 237 83 68 235
dec e
ld b, a
rr e ; Divide X position by 2 60132 203 27
ld c, 0
rl c ; Bring carry flag into C (result of odd/even position) 60136 203 17
and 1 ; Mask out lowest bit in A 60138 230 1
xor c ; XOR with C (Matches position RightLeft with Char RightLeft) 60140 169
ld c, a
jr z, p64_eaf6 ; If they are both the same, skip rotation. 60142 40 6
ld a, b
rrca
rrca
rrca
rrca
ld b, a
;LOCAL p64_eaf6
p64_eaf6:
ld a, d ; Get Y coord 60150 122
sra a
sra a
sra a ; Multiply by 8 60155 203 47
add a, 88
ld h, a ; Put high byte value for attribute into H. 60159 103
ld a, d
and 7
rrca
rrca
rrca
add a, e
ld l, a ; Put low byte for attribute into l 60167 111
ld a, (23693) ; Get permanent Colours from System Variable 60168 58 141 92
ld (hl), a ; Write new attribute 60171 119
ld a, d
and 248
add a, 64
ld h, a
ld a, b
cpl
ld e, a
exx
ld b, 8
;LOCAL p64_eb18
p64_eb18:
ld a, (hl)
exx
bit 0, c
jr z, p64_eb22
rrca
rrca
rrca
rrca
;LOCAL p64_eb22
p64_eb22:
and b
ld d, a
ld a, (hl)
and e
or d
ld (hl), a
inc h
exx
inc hl
djnz p64_eb18
exx
pop hl
exx
ret
; LOCAL p64_loadAndTest
p64_loadAndTest:
ld de, (p64_coords)
; SubRoutine to go to legal character position. (60213)
; LOCAL p64_test_X
p64_test_X:
ld a, e ; Get column from e
cp 64 ; more than 64 ?
jr c, p64_test_Y ; If not, then jump over nextline
;LOCAL p64_nxtLine
p64_nxtLine:
inc d ; Move down 1
ld e, 0 ; reset x co-ord to zero
; LOCAL p64_test_Y
p64_test_Y:
ld a, d ; get Y co-ord
cp 24 ; Past 24?
ret c ; Return if not.
ld d, 0 ; Rest y co-ord to top of screen.
ret ; Return.
; LOCAL p64_coords;
p64_coords:
defb 64; X Coordinate store 60228 64
defb 23; Y Coordinate Store 60229 23
;LOCAL p64_charset
p64_charset:
DEFB 0,2,2,2,2,0,2,0 ; Space !
DEFB 0,80,82,7,2,7,2,0 ; "" #
DEFB 0,37,113,66,114,20,117,32 ; $ %
DEFB 0,34,84,32,96,80,96,0 ; & '
DEFB 0,36,66,66,66,66,36,0 ; ( )
DEFB 0,0,82,34,119,34,82,0 ; * +
DEFB 0,0,0,0,7,32,32,64 ; , -
DEFB 0,1,1,2,2,100,100,0 ; . /
DEFB 0,34,86,82,82,82,39,0 ; 0 1
DEFB 0,34,85,18,33,69,114,0 ; 2 3
DEFB 0,87,84,118,17,21,18,0 ; 4 5
DEFB 0,55,65,97,82,84,36,0 ; 6 7
DEFB 0,34,85,37,83,85,34,0 ; 8 9
DEFB 0,0,2,32,0,34,2,4 ; : ;
DEFB 0,0,16,39,64,39,16,0 ; < =
DEFB 0,2,69,33,18,32,66,0 ; > ?
DEFB 0,98,149,183,181,133,101,0 ; @ A Changed from ;0,2,37,87,117,85,53,0
DEFB 0,98,85,100,84,85,98,0 ; B C
DEFB 0,103,84,86,84,84,103,0 ; D E
DEFB 0,114,69,116,71,69,66,0 ; F G
DEFB 0,87,82,114,82,82,87,0 ; H I
DEFB 0,53,21,22,21,85,37,0 ; J K
DEFB 0,69,71,71,69,69,117,0 ; L M
DEFB 0,82,85,117,117,85,82,0 ; N O
DEFB 0,98,85,85,103,71,67,0 ; P Q
DEFB 0,98,85,82,97,85,82,0 ; R S
DEFB 0,117,37,37,37,37,34,0 ; T U
DEFB 0,85,85,85,87,39,37,0 ; V W
DEFB 0,85,85,37,82,82,82,0 ; X Y
DEFB 0,119,20,36,36,68,119,0 ; Z [
DEFB 0,71,65,33,33,17,23,0 ; \ ]
DEFB 0,32,112,32,32,32,47,0 ; ^ _
DEFB 0,32,86,65,99,69,115,0 ; £ a
DEFB 0,64,66,101,84,85,98,0 ; b c
DEFB 0,16,18,53,86,84,35,0 ; d e
DEFB 0,32,82,69,101,67,69,2 ; f g
DEFB 0,66,64,102,82,82,87,0 ; h i
DEFB 0,20,4,53,22,21,85,32 ; j k
DEFB 0,64,69,71,71,85,37,0 ; l m
DEFB 0,0,98,85,85,85,82,0 ; n o
DEFB 0,0,99,85,85,99,65,65 ; p q
DEFB 0,0,99,84,66,65,70,0 ; r s
DEFB 0,64,117,69,69,85,34,0 ; t u
DEFB 0,0,85,85,87,39,37,0 ; v w
DEFB 0,0,85,85,35,81,85,2 ; x y
DEFB 0,0,113,18,38,66,113,0 ; z {
DEFB 0,32,36,34,35,34,36,0 ; | {
DEFB 0,6,169,86,12,6,9,6 ; ~ (c)
;LOCAL p64_END
p64_END:
pop hl
pop ix
pop af
ret
END ASM
END SUB
ASM
msgEND EQU 0
msgCR EQU 10
RET_OK EQU 0
RET_SOCKERR EQU 1
RET_PORTERR EQU 2
RET_RECEIVEERR EQU 4
RET_UNKNOWN EQU 128
SOCK_STREAM EQU 1
SOCK_DGRAM EQU 2
SOCK_RAW EQU 3
CALLBAS EQU 0x10
STACK_BC EQU $2D2B
PRINT_FP EQU $2DE3
MODULECALL equ $3FF8
MODULECALL_NOPAGE equ $28
PAGEIN equ $3FF9
PAGEOUT equ $007C
HLCALL equ $3FFA
IXCALL equ $3FFD
; Port defines
CTRLREG equ $033B
CPLDINFO equ $023B
; Jump table entry points
SOCKET equ $3E00 ; Allocate a socket
CLOSE equ $3E03 ; Close a socket
LISTEN equ $3E06 ; Listen for incoming connections
ACCEPT equ $3E09 ; Accept an incoming connection
BIND equ $3E0C ; Bind a local address to a socket
CONNECT equ $3E0F ; Connect to a remote host
SEND equ $3E12 ; Send data
RECV equ $3E15 ; Receive data
SENDTO equ $3E18 ; Send data to an address
RECVFROM equ $3E1B ; Receive data from an address
POLL equ $3E1E ; Poll a list of sockets
POLLALL equ $3E21 ; Poll all open sockets
POLLFD equ $3E24 ; Poll a single socket
GETHOSTBYNAME equ $3E27 ; Look up a hostname
PUTCHAR42 equ $3E2A ; 42 column print write a character
PRINT42 equ $3E2D ; 42 column print a null terminated string
CLEAR42 equ $3E30 ; Clear the screen and reset 42-col print
SETPAGEA equ $3E33 ; Sets page area A
SETPAGEB equ $3E36 ; Sets page area B
LONG2IPSTRING equ $3E39 ; Convert a 4 byte big endian long to an IP
IPSTRING2LONG equ $3E3C ; Convert an IP to a 4 byte big endian long
ITOA8 equ $3E3F ; Convert a byte to ascii
RAND16 equ $3E42 ; 16 bit PRNG
REMOTEADDRESS equ $3E45 ; Fill struct sockaddr_in
IFCONFIG_INET equ $3E48 ; Set IPv4 address
IFCONFIG_NETMASK equ $3E4B ; Set netmask
IFCONFIG_GW equ $3E4E ; Set gateway
INITHW equ $3E51 ; Set the MAC address and initial hw registers
GETHWADDR equ $3E54 ; Read the MAC address
DECONFIG equ $3E57 ; Deconfigure inet, netmask and gateway
MAC2STRING equ $3E5A ; Convert 6 byte MAC address to a string
STRING2MAC equ $3E5D ; Convert a hex string to a 6 byte MAC address
ITOH8 equ $3E60 ; Convert accumulator to hex string
HTOI8 equ $3E63 ; Convert hex string to byte in A
GETKEY equ $3E66 ; Get a key from the keyboard, and put it in A
KEYUP equ $3E69 ; Wait for key release
INPUTSTRING equ $3E6C ; Read a string into buffer at DE
GET_IFCONFIG_INET equ $3E6F ; Gets the current IPv4 address
GET_IFCONFIG_NETMASK equ $3E72 ; Gets the current netmask
GET_IFCONFIG_GW equ $3E75 ; Gets the current gateway address
SETTRAP equ $3E78 ; Sets the programmable trap
DISABLETRAP equ $3E7B ; Disables the programmable trap
ENABLETRAP equ $3E7E ; Enables the programmable trap
PUSHPAGEA equ $3E81 ; Pages a page into area A, pushing the old one
POPPAGEA equ $3E84 ; Restores the previous page in area A
PUSHPAGEB equ $3E87 ; Pages into area B pushing the old one
POPPAGEB equ $3E8A ; Restores the previous page in area B
PAGETRAPRETURN equ $3E8D ; Returns from a trap to page area B
TRAPRETURN equ $3E90 ; Returns from a trap that didn't page area B
ADDBASICEXT equ $3E93 ; Adds a BASIC command
STATEMENT_END equ $3E96 ; Check for statement end, exit at syntax time
EXIT_SUCCESS equ $3E99 ; Use this to exit successfully after cmd
PARSE_ERROR equ $3E9C ; Use this to exit to BASIC with a parse error
RESERVEPAGE equ $3E9F ; Reserve a page of static RAM
FREEPAGE equ $3EA2 ; Free a page of static RAM
REPORTERR equ $3EA5 ; report an error via BASIC
startupMSG: defm "Ardent's Spectranet TCP Client Test"
defm 13
end1: defm 0
lookingupMSG: defm "Looking up hostname"
defm 13,13,13
end2: defm 0
connectingMSG: defm "Connecting..."
defm 13
end3: defm 0
allocatingMSG: defm "Allocating resources..."
defm 13
end4: defm 0
connectedMSG: defm "Connected. "
defm 13
end5: defm 0
receivngMSG: defm "Receiving data."
defm 13
end6: defm 0
errorMSG: defm "Failed."
defm 13
end7: defm 0
doneMSG: defm "Done"
defm 13
end8: defm 0
waitingMSG: defm "I iz waitingz k :p"
defm 13
end9: defm 0
crMSG: defm 13
end10: defm 0
v_sockfd: defb 0 ; storage for socket file descriptor
serverport equ 16384
serverhost: defb "the8bitmud.zapto.org"
connected: defb 0 ; 0 means not connected, 1 means connected
ip_buffer: defb 0, 0, 0, 0 ; leave 4 bytes free for an IP address
garbage: defm " "
defm 13,10
garbageend: defb 0
responseBuffer: ds 1024
responseBufferEnd: defm 0
END ASM
MyLabel:
ASM
text1:
ds 1024 ; 1024 bytes of space MAX!!
END ASM
MyLabel2:
ASM
lenth1:
ds 1 ; 1024 bytes of space MAX!!
END ASM
Also the screen does not scroll buts prints from the top of the screen when it gets to the bottom.
I'm always on the chat or facebook.