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move stack.txt from the local language folders into a single /kernel/docs/ folder 

git-svn-id: svn://kolibrios.org@7714 a494cfbc-eb01-0410-851d-a64ba20cac60
This commit is contained in:
Kirill Lipatov (Leency) 2020-01-14 20:12:46 +00:00
parent 771b422d56
commit 18917968a9
7 changed files with 3 additions and 1015 deletions
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203
data/ca/docs/STACK.TXT
View File

@ -1,203 +0,0 @@
eax = 74 - Work directly with network interface
ebx = -1 (Get number of active network devices)
out:
eax = number of active network devices
bh = device number, for all following functions !
bl = 0 (Get device type)
out:
eax = device type number
bl = 1 (Get device name)
in:
ecx = pointer to 64 byte buffer
out:
name is copied into the buffer
eax = -1 on error
bl = 2 (Reset the device)
in
none
out
eax = -1 on error
bl = 3 (Stop device)
in
none
out
eax = -1 on error
TO BE FIGURED OUT
eax = 75 - Work with Sockets
These functions work like the ones found in UNIX (and windows)
for more info, please read http://beej.us/guide/bgnet/
bl = 0 (Open Socket)
in:
ecx = domain
edx = type
esi = protocol
out:
eax = socket number, -1 on error
bl = 1 (Close Socket)
in:
ecx = socket number
out:
eax = -1 on error
bl = 2 (Bind)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 3 (Listen)
in:
ecx = socket number
edx = backlog
out:
eax = -1 on error
bl = 4 (connect)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 5 (accept)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = socket number, -1 on error
bl = 6 (send)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = -1 on error
bl = 7 (receive)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = number of bytes copied, -1 on error
bl = 8 (set socket options)
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error
bl = 9 (get socket options
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error, socket option otherwise
TIP
when you import 'network.inc' and 'macros.inc' into your source code, you can use the following syntax to work with sockets:
for example, to open a socket
mcall socket, AF_INET, SOCK_DGRAM,0
mov [socketnum], eax
then to connect to a server
mcall connect, [socketnum], sockaddr, 18
eax = 76 - Work with protocols
high half of ebx = protocol number (for all subfunctions!)
bh = device number (for all subfunctions!)
bl = subfunction number, depends on protocol type
For Ethernet protocol
0 - Read # Packets send
1 - Read # Packets received
2 - Read # Bytes send
3 - Read # Bytes received
4 - Read MAC
5 - Write MAC
6 - Read IN-QUEUE size
7 - Read OUT-QUEUE size
For IPv4 protocol
0 - Read # IP packets send
1 - Read # IP packets received
2 - Read IP
3 - Write IP
4 - Read DNS
5 - Write DNS
6 - Read subnet
7 - Write subnet
8 - Read gateway
9 - Write gateway
For ARP protocol
0 - Read # ARP packets send
1 - Read # ARP packets received
2 - Get # ARP entry's
3 - Read ARP entry
4 - Add static ARP entry
5 - Remove ARP entry (-1 = remove all)
For ICMP protocol
0 - Read # ICMP packets send
1 - Read # ICMP packets received
3 - enable/disable ICMP echo reply
For UDP protocol
0 - Read # UDP packets send
1 - Read # UDP packets received
For TCP protocol
0 - Read # TCP packets send
1 - Read # TCP packets received

203
data/et/docs/STACK.TXT
View File

@ -1,203 +0,0 @@
eax = 74 - Work directly with network interface
ebx = -1 (Get number of active network devices)
out:
eax = number of active network devices
bh = device number, for all following functions !
bl = 0 (Get device type)
out:
eax = device type number
bl = 1 (Get device name)
in:
ecx = pointer to 64 byte buffer
out:
name is copied into the buffer
eax = -1 on error
bl = 2 (Reset the device)
in
none
out
eax = -1 on error
bl = 3 (Stop device)
in
none
out
eax = -1 on error
TO BE FIGURED OUT
eax = 75 - Work with Sockets
These functions work like the ones found in UNIX (and windows)
for more info, please read http://beej.us/guide/bgnet/
bl = 0 (Open Socket)
in:
ecx = domain
edx = type
esi = protocol
out:
eax = socket number, -1 on error
bl = 1 (Close Socket)
in:
ecx = socket number
out:
eax = -1 on error
bl = 2 (Bind)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 3 (Listen)
in:
ecx = socket number
edx = backlog
out:
eax = -1 on error
bl = 4 (connect)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 5 (accept)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = socket number, -1 on error
bl = 6 (send)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = -1 on error
bl = 7 (receive)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = number of bytes copied, -1 on error
bl = 8 (set socket options)
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error
bl = 9 (get socket options
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error, socket option otherwise
TIP
when you import 'network.inc' and 'macros.inc' into your source code, you can use the following syntax to work with sockets:
for example, to open a socket
mcall socket, AF_INET, SOCK_DGRAM,0
mov [socketnum], eax
then to connect to a server
mcall connect, [socketnum], sockaddr, 18
eax = 76 - Work with protocols
high half of ebx = protocol number (for all subfunctions!)
bh = device number (for all subfunctions!)
bl = subfunction number, depends on protocol type
For Ethernet protocol
0 - Read # Packets send
1 - Read # Packets received
2 - Read # Bytes send
3 - Read # Bytes received
4 - Read MAC
5 - Write MAC
6 - Read IN-QUEUE size
7 - Read OUT-QUEUE size
For IPv4 protocol
0 - Read # IP packets send
1 - Read # IP packets received
2 - Read IP
3 - Write IP
4 - Read DNS
5 - Write DNS
6 - Read subnet
7 - Write subnet
8 - Read gateway
9 - Write gateway
For ARP protocol
0 - Read # ARP packets send
1 - Read # ARP packets received
2 - Get # ARP entry's
3 - Read ARP entry
4 - Add static ARP entry
5 - Remove ARP entry (-1 = remove all)
For ICMP protocol
0 - Read # ICMP packets send
1 - Read # ICMP packets received
3 - enable/disable ICMP echo reply
For UDP protocol
0 - Read # UDP packets send
1 - Read # UDP packets received
For TCP protocol
0 - Read # TCP packets send
1 - Read # TCP packets received

203
data/it/docs/STACK.TXT
View File

@ -1,203 +0,0 @@
eax = 74 - Work directly with network interface
ebx = -1 (Get number of active network devices)
out:
eax = number of active network devices
bh = device number, for all following functions !
bl = 0 (Get device type)
out:
eax = device type number
bl = 1 (Get device name)
in:
ecx = pointer to 64 byte buffer
out:
name is copied into the buffer
eax = -1 on error
bl = 2 (Reset the device)
in
none
out
eax = -1 on error
bl = 3 (Stop device)
in
none
out
eax = -1 on error
TO BE FIGURED OUT
eax = 75 - Work with Sockets
These functions work like the ones found in UNIX (and windows)
for more info, please read http://beej.us/guide/bgnet/
bl = 0 (Open Socket)
in:
ecx = domain
edx = type
esi = protocol
out:
eax = socket number, -1 on error
bl = 1 (Close Socket)
in:
ecx = socket number
out:
eax = -1 on error
bl = 2 (Bind)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 3 (Listen)
in:
ecx = socket number
edx = backlog
out:
eax = -1 on error
bl = 4 (connect)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 5 (accept)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = socket number, -1 on error
bl = 6 (send)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = -1 on error
bl = 7 (receive)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = number of bytes copied, -1 on error
bl = 8 (set socket options)
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error
bl = 9 (get socket options
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error, socket option otherwise
TIP
when you import 'network.inc' and 'macros.inc' into your source code, you can use the following syntax to work with sockets:
for example, to open a socket
mcall socket, AF_INET, SOCK_DGRAM,0
mov [socketnum], eax
then to connect to a server
mcall connect, [socketnum], sockaddr, 18
eax = 76 - Work with protocols
high half of ebx = protocol number (for all subfunctions!)
bh = device number (for all subfunctions!)
bl = subfunction number, depends on protocol type
For Ethernet protocol
0 - Read # Packets send
1 - Read # Packets received
2 - Read # Bytes send
3 - Read # Bytes received
4 - Read MAC
5 - Write MAC
6 - Read IN-QUEUE size
7 - Read OUT-QUEUE size
For IPv4 protocol
0 - Read # IP packets send
1 - Read # IP packets received
2 - Read IP
3 - Write IP
4 - Read DNS
5 - Write DNS
6 - Read subnet
7 - Write subnet
8 - Read gateway
9 - Write gateway
For ARP protocol
0 - Read # ARP packets send
1 - Read # ARP packets received
2 - Get # ARP entry's
3 - Read ARP entry
4 - Add static ARP entry
5 - Remove ARP entry (-1 = remove all)
For ICMP protocol
0 - Read # ICMP packets send
1 - Read # ICMP packets received
3 - enable/disable ICMP echo reply
For UDP protocol
0 - Read # UDP packets send
1 - Read # UDP packets received
For TCP protocol
0 - Read # TCP packets send
1 - Read # TCP packets received

203
data/rus/docs/STACK.TXT
View File

@ -1,203 +0,0 @@
eax = 74 - Work directly with network interface
ebx = -1 (Get number of active network devices)
out:
eax = number of active network devices
bh = device number, for all following functions !
bl = 0 (Get device type)
out:
eax = device type number
bl = 1 (Get device name)
in:
ecx = pointer to 64 byte buffer
out:
name is copied into the buffer
eax = -1 on error
bl = 2 (Reset the device)
in
none
out
eax = -1 on error
bl = 3 (Stop device)
in
none
out
eax = -1 on error
TO BE FIGURED OUT
eax = 75 - Work with Sockets
These functions work like the ones found in UNIX (and windows)
for more info, please read http://beej.us/guide/bgnet/
bl = 0 (Open Socket)
in:
ecx = domain
edx = type
esi = protocol
out:
eax = socket number, -1 on error
bl = 1 (Close Socket)
in:
ecx = socket number
out:
eax = -1 on error
bl = 2 (Bind)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 3 (Listen)
in:
ecx = socket number
edx = backlog
out:
eax = -1 on error
bl = 4 (connect)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 5 (accept)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = socket number, -1 on error
bl = 6 (send)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = -1 on error
bl = 7 (receive)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = number of bytes copied, -1 on error
bl = 8 (set socket options)
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error
bl = 9 (get socket options
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error, socket option otherwise
TIP
when you import 'network.inc' and 'macros.inc' into your source code, you can use the following syntax to work with sockets:
for example, to open a socket
mcall socket, AF_INET, SOCK_DGRAM,0
mov [socketnum], eax
then to connect to a server
mcall connect, [socketnum], sockaddr, 18
eax = 76 - Work with protocols
high half of ebx = protocol number (for all subfunctions!)
bh = device number (for all subfunctions!)
bl = subfunction number, depends on protocol type
For Ethernet protocol
0 - Read # Packets send
1 - Read # Packets received
2 - Read # Bytes send
3 - Read # Bytes received
4 - Read MAC
5 - Write MAC
6 - Read IN-QUEUE size
7 - Read OUT-QUEUE size
For IPv4 protocol
0 - Read # IP packets send
1 - Read # IP packets received
2 - Read IP
3 - Write IP
4 - Read DNS
5 - Write DNS
6 - Read subnet
7 - Write subnet
8 - Read gateway
9 - Write gateway
For ARP protocol
0 - Read # ARP packets send
1 - Read # ARP packets received
2 - Get # ARP entry's
3 - Read ARP entry
4 - Add static ARP entry
5 - Remove ARP entry (-1 = remove all)
For ICMP protocol
0 - Read # ICMP packets send
1 - Read # ICMP packets received
3 - enable/disable ICMP echo reply
For UDP protocol
0 - Read # UDP packets send
1 - Read # UDP packets received
For TCP protocol
0 - Read # TCP packets send
1 - Read # TCP packets received

203
data/sp/docs/STACK.TXT
View File

@ -1,203 +0,0 @@
eax = 74 - Work directly with network interface
ebx = -1 (Get number of active network devices)
out:
eax = number of active network devices
bh = device number, for all following functions !
bl = 0 (Get device type)
out:
eax = device type number
bl = 1 (Get device name)
in:
ecx = pointer to 64 byte buffer
out:
name is copied into the buffer
eax = -1 on error
bl = 2 (Reset the device)
in
none
out
eax = -1 on error
bl = 3 (Stop device)
in
none
out
eax = -1 on error
TO BE FIGURED OUT
eax = 75 - Work with Sockets
These functions work like the ones found in UNIX (and windows)
for more info, please read http://beej.us/guide/bgnet/
bl = 0 (Open Socket)
in:
ecx = domain
edx = type
esi = protocol
out:
eax = socket number, -1 on error
bl = 1 (Close Socket)
in:
ecx = socket number
out:
eax = -1 on error
bl = 2 (Bind)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 3 (Listen)
in:
ecx = socket number
edx = backlog
out:
eax = -1 on error
bl = 4 (connect)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = -1 on error
bl = 5 (accept)
in:
ecx = socket number
edx = pointer to sockaddr structure
esi = length of sockaddr structure
out:
eax = socket number, -1 on error
bl = 6 (send)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = -1 on error
bl = 7 (receive)
in:
ecx = socket number
edx = pointer to buffer
esi = length of buffer
edi = flags
out:
eax = number of bytes copied, -1 on error
bl = 8 (set socket options)
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error
bl = 9 (get socket options
in:
ecx = socket number
edx = level
esi = optionname
edi = ptr to buffer
The buffer's first dword is the length of the buffer, minus the first dword offcourse
out:
eax = -1 on error, socket option otherwise
TIP
when you import 'network.inc' and 'macros.inc' into your source code, you can use the following syntax to work with sockets:
for example, to open a socket
mcall socket, AF_INET, SOCK_DGRAM,0
mov [socketnum], eax
then to connect to a server
mcall connect, [socketnum], sockaddr, 18
eax = 76 - Work with protocols
high half of ebx = protocol number (for all subfunctions!)
bh = device number (for all subfunctions!)
bl = subfunction number, depends on protocol type
For Ethernet protocol
0 - Read # Packets send
1 - Read # Packets received
2 - Read # Bytes send
3 - Read # Bytes received
4 - Read MAC
5 - Write MAC
6 - Read IN-QUEUE size
7 - Read OUT-QUEUE size
For IPv4 protocol
0 - Read # IP packets send
1 - Read # IP packets received
2 - Read IP
3 - Write IP
4 - Read DNS
5 - Write DNS
6 - Read subnet
7 - Write subnet
8 - Read gateway
9 - Write gateway
For ARP protocol
0 - Read # ARP packets send
1 - Read # ARP packets received
2 - Get # ARP entry's
3 - Read ARP entry
4 - Add static ARP entry
5 - Remove ARP entry (-1 = remove all)
For ICMP protocol
0 - Read # ICMP packets send
1 - Read # ICMP packets received
3 - enable/disable ICMP echo reply
For UDP protocol
0 - Read # UDP packets send
1 - Read # UDP packets received
For TCP protocol
0 - Read # TCP packets send
1 - Read # TCP packets received

0
data/eng/docs/STACK.TXT → kernel/trunk/docs/stack.txt
View File

3
programs/system/docpack/trunk/Tupfile.lua
View File

@ -14,4 +14,7 @@ end
tup.append_table(deps,
tup.rule("../../../develop/fasm/trunk/fasm.txt", cp_cmd, "FASM.TXT")
)
tup.append_table(deps,
tup.rule("../../../../kernel/trunk/docs/stack.txt", cp_cmd, "STACK.TXT")
)
tup.rule({"docpack.asm", extra_inputs = deps}, env_prefix .. "fasm %f %o " .. tup.getconfig("KPACK_CMD"), "docpack")