ed/Odin
1
0
Fork 0
mirror of https://github.com/Ed94/Odin.git synced 2026-06-18 20:02:22 -07:00
Code Issues Packages Projects Releases Wiki Activity

Merge pull request #1240 from graphitemaster/vendor-enet

Browse Source 
vendor ENet
This commit is contained in:
gingerBill
2021-10-26 12:49:14 +01:00
committed by GitHub
parent 9522c42460 37d3a8a861
commit bb334007cf
11 changed files with 760 additions and 0 deletions
Download Patch File Download Diff File Expand all files Collapse all files
vendor/ENet/LICENSE
Vendored
+7
View File
@@ -0,0 +1,7 @@
Copyright (c) 2002-2020 Lee Salzman
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
vendor/ENet/callbacks.odin
Vendored
+7
View File
@@ -0,0 +1,7 @@
package ENet
Callbacks :: struct {
malloc: proc "c" (size: uint) -> rawptr,
free: proc "c" (memory: rawptr),
no_memory: proc "c" (),
}
vendor/ENet/enet.odin
Vendored
+400
View File
@@ -0,0 +1,400 @@
package ENet
when ODIN_OS == "windows" {
when ODIN_ARCH == "amd64" {
foreign import ENet {
"lib/enet64.lib",
"system:Ws2_32.lib",
"system:Winmm.lib",
}
} else {
foreign import ENet {
"lib/enet.lib",
"system:Ws2_32.lib",
"system:Winmm.lib",
}
}
} else {
foreign import ENet "system:enet"
}
VERSION_MAJOR :: u8(1)
VERSION_MINOR :: u8(3)
VERSION_PATCH :: u8(17)
VERSION_CREATE :: #force_inline proc(major, minor, patch: u8) -> u32 {
return (u32(major) << 16) | (u32(minor) << 8) | u32(patch)
}
VERSION_GET_MAJOR :: #force_inline proc(version: u32) -> u8 {
return u8((version >> 16) & 0xff)
}
VERSION_GET_MINOR :: #force_inline proc(version: u32) -> u8 {
return u8((version >> 8) & 0xff)
}
VERSION_GET_PATCH :: #force_inline proc(version: u32) -> u8 {
return u8(version & 0xff)
}
// Odin does not have "macros" or compile-time evaluation of functions, so the
// following is just the same as.
// VERSION :: VERSION_CREATE(VERSION_MAJOR, VERSION_MINOR, VERSION_PATCH);
VERSION :: (u32(VERSION_MAJOR) << 16) | (u32(VERSION_MINOR) << 8) | u32(VERSION_PATCH)
// Network byte order is always Big Endian. Instead of using the method ENet
// uses (leveraging {n,h}to{n,h}{s,l}), we can just use Odin's endianess types
// to get the correct byte swaps, if any.
HOST_TO_NET_16 :: #force_inline proc(value: u16) -> u16 {
return transmute(u16)u16be(value)
}
HOST_TO_NET_32 :: #force_inline proc(value: u32) -> u32 {
return transmute(u32)u32be(value)
}
NET_TO_HOST_16 :: #force_inline proc(value: u16) -> u16 {
return u16(transmute(u16be)value)
}
NET_TO_HOST_32 :: #force_inline proc(value: u32) -> u32 {
return u32(transmute(u32be)value)
}
Version :: u32;
SocketType :: enum i32 {
STREAM = 1,
DATAGRAM = 2,
}
SocketWait :: enum i32 {
NONE = 0,
SEND = 1 << 0,
RECEIVE = 1 << 1,
INTERRUPT = 1 << 2,
}
SocketOption :: enum i32 {
NONBLOCK = 1,
BROADCAST = 2,
RCVBUF = 3,
SNDBUF = 4,
REUSEADDR = 5,
RCVTIMEO = 6,
SNDTIMEO = 7,
ERROR = 8,
NODELAY = 9,
}
SocketShutdown :: enum i32 {
READ = 0,
WRITE = 1,
READ_WRITE = 2,
}
HOST_ANY :: u32(0)
HOST_BROADCAST :: u32(0xffffffff)
PORT_ANY :: u16(0)
Address :: struct {
host: u32,
port: u16,
}
PacketFlag :: enum i32 {
RELIABLE = 1 << 0,
UNSEQUENCED = 1 << 1,
NO_ALLOCATE = 1 << 2,
UNRELIABLE_FRAGMENT = 1 << 3,
FLAG_SENT = 1 << 8,
}
PacketFreeCallback :: proc "c" (packet: ^Packet);
Packet :: struct {
referenceCount: uint,
flags: u32,
data: [^]u8,
dataLength: uint,
freeCallback: PacketFreeCallback,
userData: rawptr,
}
Acknowledgment :: struct {
acknowledgementList: ListNode,
sentTime: u32,
command: Protocol,
}
OutgoingCommand :: struct {
outgoingCommandList: ListNode,
reliableSequenceNumber: u16,
unreliableSequenceNumber: u16,
sentTime: u32,
roundTripTimeout: u32,
roundTripTimeoutLimit: u32,
fragmentOffset: u32,
fragmentLength: u16,
sendAttempts: u16,
command: Protocol,
packet: ^Packet,
}
IncomingCommand :: struct {
incomingCommandList: ListNode,
reliableSequenceNumber: u16,
unreliableSequenceNumber: u16,
command: Protocol,
fragmentCount: u32,
fragmentsRemaining: u32,
fragments: [^]u32,
packet: ^Packet,
}
PeerState :: enum i32 {
DISCONNECTED,
CONNECTING,
ACKNOWLEDGING_CONNECT,
CONNECTION_PENDING,
CONNECTION_SUCCEEDED,
CONNECTED,
DISCONNECT_LATER,
DISCONNECTING,
ACKNOWLEDGING_DISCONNECT,
ZOMBIE,
}
BUFFER_MAXIMUM :: (1 + 2 * PROTOCOL_MAXIMUM_PACKET_COMMANDS)
HOST_RECEIVE_BUFFER_SIZE :: 256 * 1024
HOST_SEND_BUFFER_SIZE :: 256 * 1024
HOST_BANDWIDTH_THROTTLE_INTERVAL :: 1000
HOST_DEFAULT_MTU :: 1400
HOST_DEFAULT_MAXIMUM_PACKET_SIZE :: 32 * 1024 * 1024
HOST_DEFAULT_MAXIMUM_WAITING_DATA :: 32 * 1024 * 1024
PEER_DEFAULT_ROUND_TRIP_TIME :: 500
PEER_DEFAULT_PACKET_THROTTLE :: 32
PEER_PACKET_THROTTLE_SCALE :: 32
PEER_PACKET_THROTTLE_COUNTER :: 7
PEER_PACKET_THROTTLE_ACCELERATION :: 2
PEER_PACKET_THROTTLE_DECELERATION :: 2
PEER_PACKET_THROTTLE_INTERVAL :: 5000
PEER_PACKET_LOSS_SCALE :: 1 << 16
PEER_PACKET_LOSS_INTERVAL :: 10000
PEER_WINDOW_SIZE_SCALE :: 64 * 1024
PEER_TIMEOUT_LIMIT :: 32
PEER_TIMEOUT_MINIMUM :: 5000
PEER_TIMEOUT_MAXIMUM :: 30000
PEER_PING_INTERVAL :: 500
PEER_UNSEQUENCED_WINDOWS :: 64
PEER_UNSEQUENCED_WINDOW_SIZE :: 1024
PEER_FREE_UNSEQUENCED_WINDOWS :: 32
PEER_RELIABLE_WINDOWS :: 16
PEER_RELIABLE_WINDOW_SIZE :: 0x1000
PEER_FREE_RELIABLE_WINDOWS :: 8
Channel :: struct {
outgoingReliableSequenceNumber: u16,
outgoingUnreliableSequenceNumber: u16,
usedReliableWindows: u16,
reliableWindows: [PEER_RELIABLE_WINDOWS]u16,
incomingReliableSequenceNumber: u16,
incomingUnreliableSequenceNumber: u16,
incomingReliableCommands: List,
incomingUnreliableCommands: List,
}
PeerFlag :: enum i32 {
NEEDS_DISPATCH,
}
Peer :: struct {
dispatchList: ListNode,
host: ^Host,
outgoingPeerID: u16,
incomingPeerID: u16,
connectID: u32,
outgoingSessionID: u8,
incomingSessionID: u8,
address: Address,
data: rawptr,
state: PeerState,
channels: [^]Channel,
channelCount: uint,
incomingBandwidth: u32,
outgoingBandwidth: u32,
incomingBandwidthThrottleEpoch: u32,
outgoingBandwidthThrottleEpoch: u32,
incomingDataTotal: u32,
outgoingDataTotal: u32,
lastSendTime: u32,
lastReceiveTime: u32,
nextTimeout: u32,
earliestTimeout: u32,
packetLossEpoch: u32,
packetsSent: u32,
packetsLost: u32,
packetLoss: u32,
packetLossVariance: u32,
packetThrottle: u32,
packetThrottleLimit: u32,
packetThrottleCounter: u32,
packetThrottleEpoch: u32,
packetThrottleAcceleration: u32,
packetThrottleDeceleration: u32,
packetThrottleInterval: u32,
pingInterval: u32,
timeoutLimit: u32,
timeoutMinimum: u32,
timeoutMaximum: u32,
lastRoundTripTime: u32,
lowestRoundTripTime: u32,
lastRoundTripTimeVariance: u32,
highestRoundTripTimeVariance: u32,
roundTripTime: u32,
roundTripTimeVariance: u32,
mtu: u32,
windowSize: u32,
reliableDataInTransit: u32,
outgoingReliableSequenceNumber: u16,
acknowledgements: List,
sentReliableCommands: List,
sentUnreliableCommands: List,
outgoingCommands: List,
dispatchedCommands: List,
flags: u16,
reserved: u16,
incomingUnsequencedGroup: u16,
outgoingUnsequencedGroup: u16,
unsequencedWindow: [PEER_UNSEQUENCED_WINDOW_SIZE / 32]u32,
eventData: u32,
totalWaitingData: uint,
}
Compressor :: struct {
context_: rawptr,
compress: proc "c" (context_: rawptr, inBuffers: [^]Buffer, inBufferCount: uint, inLimit: uint, outData: [^]u8, outLimit: uint) -> uint,
decompress: proc "c" (context_: rawptr, inData: [^]u8, inLimit: uint, outData: [^]u8, outLimit: uint) -> uint,
destroy: proc "c" (context_: rawptr),
}
ChecksumCallback :: proc "c" (buffers: [^]Buffer, bufferCount: uint) -> u32
InterceptCallback :: proc "c" (host: ^Host, event: ^Event) -> i32
Host :: struct {
socket: Socket,
address: Address,
incomingBandwidth: u32,
outgoingBandwidth: u32,
bandwidthThrottleEpoch: u32,
mtu: u32,
randomSeed: u32,
recalculateBandwidthLimits: i32,
peers: [^]Peer,
peerCount: uint,
channelLimit: uint,
serviceTime: u32,
dispatchQueue: List,
continueSending: i32,
packetSize: uint,
headerFlags: u16,
commands: [PROTOCOL_MAXIMUM_PACKET_COMMANDS]Protocol,
commandCount: uint,
buffers: [BUFFER_MAXIMUM]Buffer,
bufferCount: uint,
checksum: ChecksumCallback,
compressor: Compressor,
packetData: [2][PROTOCOL_MAXIMUM_MTU]u8,
receivedAddress: Address,
receivedData: [^]u8,
receivedDataLength: uint,
totalSentData: u32,
totalSentPackets: u32,
totalReceivedData: u32,
totalReceivedPackets: u32,
intercept: InterceptCallback,
connectedPeers: uint,
bandwidthLimitedPeers: uint,
duplicatePeers: uint,
maximumPacketSize: uint,
maximumWaitingData: uint,
}
EventType :: enum i32 {
NONE = 0,
CONNECT = 1,
DISCONNECT = 2,
RECEIVE = 3,
}
Event :: struct {
type: EventType,
peer: ^Peer,
channelID: u8,
data: u32,
packet: ^Packet,
}
@(default_calling_convention="c", link_prefix="enet_")
foreign ENet {
initialize :: proc() -> i32 ---
initialize_with_callbacks :: proc(version: Version, inits: ^Callbacks) -> i32 ---
deinitialize :: proc() ---
linked_version :: proc() -> Version ---
time_get :: proc() -> u32 ---
time_set :: proc(u32) ---
socket_create :: proc(SocketType) -> Socket ---
socket_bind :: proc(Socket, ^Address) -> i32 ---
socket_get_address :: proc(Socket, ^Address) -> i32 ---
socket_listen :: proc(Socket, i32) -> i32 ---
socket_accept :: proc(Socket, ^Address) -> Socket ---
socket_connect :: proc(Socket, ^Address) -> i32 ---
socket_send :: proc(Socket, ^Address, ^Buffer, uint) -> i32 ---
socket_receive :: proc(Socket, ^Address, ^Buffer, uint) -> i32 ---
socket_wait :: proc(Socket, ^u32, u32) -> i32 ---
socket_set_option :: proc(Socket, SocketOption, i32) -> i32 ---
socket_get_option :: proc(Socket, SocketOption, ^i32) -> i32 ---
socket_shutdown :: proc(Socket, SocketShutdown) -> i32 ---
socket_destroy :: proc(Socket) ---
socketset_select :: proc(Socket, ^SocketSet, ^SocketSet, u32) -> i32 ---
address_set_host_ip :: proc(address: ^Address, hostName: cstring) -> i32 ---
address_set_host :: proc(address: ^Address, hostName: cstring) -> i32 ---
address_get_host_ip :: proc(address: ^Address, hostName: [^]u8, nameLength: uint) -> i32 ---
address_get_host :: proc(address: ^Address, hostName: [^]u8, nameLength: uint) -> i32 ---
packet_create :: proc(rawptr, uint, u32) -> ^Packet ---
packet_destroy :: proc(^Packet) ---
packet_resize :: proc(^Packet, uint) -> i32 ---
crc32 :: proc(^Buffer, uint) -> u32 ---
host_create :: proc(^Address, uint, uint, u32, u32) -> ^Host ---
host_destroy :: proc(^Host) ---
host_connect :: proc(^Host, ^Address, uint, u32) -> ^Peer ---
host_check_events :: proc(^Host, ^Event) -> i32 ---
host_service :: proc(^Host, ^Event, u32) -> i32 ---
host_flush :: proc(^Host) ---
host_broadcast :: proc(^Host, u8, ^Packet) ---
host_compress :: proc(^Host, ^Compressor) ---
host_compress_with_range_coder :: proc(^Host) -> i32 ---
host_channel_limit :: proc(^Host, uint) ---
host_bandwidth_limit :: proc(^Host, u32, u32) ---
peer_send :: proc(^Peer, u8, ^Packet) -> i32 ---
peer_receive :: proc(^Peer, ^u8) -> ^Packet ---
peer_ping :: proc(^Peer) ---
peer_ping_interval :: proc(^Peer, u32) ---
peer_timeout :: proc(^Peer, u32, u32, u32) ---
peer_reset :: proc(^Peer) ---
peer_disconnect :: proc(^Peer, u32) ---
peer_disconnect_now :: proc(^Peer, u32) ---
peer_disconnect_later :: proc(^Peer, u32) ---
peer_throttle_configure :: proc(^Peer, u32, u32, u32) ---
range_coder_create :: proc() -> rawptr ---
range_coder_destroy :: proc(rawptr) ---
range_coder_compress :: proc(rawptr, [^]Buffer, uint, uint, [^]u8, uint) -> uint ---
range_coder_decompress :: proc(rawptr, [^]u8, uint, [^]u8, uint) -> uint ---
}
vendor/ENet/lib/enet.lib
Vendored
BIN
View File
Binary file not shown.
vendor/ENet/lib/enet64.lib
Vendored
BIN
View File
Binary file not shown.
vendor/ENet/list.odin
Vendored
+10
View File
@@ -0,0 +1,10 @@
package ENet
ListNode :: struct {
next: ^ListNode,
previous: ^ListNode,
}
List :: struct {
sentinel: ListNode,
}
vendor/ENet/protocol.odin
Vendored
+164
View File
@@ -0,0 +1,164 @@
package ENet
PROTOCOL_MINIMUM_MTU :: 576
PROTOCOL_MAXIMUM_MTU :: 4096
PROTOCOL_MAXIMUM_PACKET_COMMANDS :: 32
PROTOCOL_MINIMUM_WINDOW_SIZE :: 4096
PROTOCOL_MAXIMUM_WINDOW_SIZE :: 65536
PROTOCOL_MINIMUM_CHANNEL_COUNT :: 1
PROTOCOL_MAXIMUM_CHANNEL_COUNT :: 255
PROTOCOL_MAXIMUM_PEER_ID :: 0xFFF
PROTOCOL_MAXIMUM_FRAGMENT_COUNT :: 1024 * 1024
ProtocolCommand :: enum i32 {
NONE = 0,
ACKNOWLEDGE = 1,
CONNECT = 2,
VERIFY_CONNECT = 3,
DISCONNECT = 4,
PING = 5,
SEND_RELIABLE = 6,
SEND_UNRELIABLE = 7,
SEND_FRAGMENT = 8,
SEND_UNSEQUENCED = 9,
BANDWIDTH_LIMIT = 10,
THROTTLE_CONFIGURE = 11,
SEND_UNRELIABLE_FRAGMENT = 12,
COUNT = 13,
MASK = 0x0F,
}
ProtocolFlag :: enum i32 {
COMMAND_ACKNOWLEDGE = 1 << 7,
COMMAND_UNSEQUENCED = 1 << 6,
HEADER_COMPRESSED = 1 << 14,
HEADER_SENT_TIME = 1 << 15,
HEADER_MASK = HEADER_COMPRESSED | HEADER_SENT_TIME,
HEADER_SESSION_MASK = 3 << 12,
HEADER_SESSION_SHIFT = 12,
}
ProtocolHeader :: struct #packed {
peerID: u16,
sentTime: u16,
}
ProtocolCommandHeader :: struct #packed {
command: u8,
channelID: u8,
reliableSequenceNumber: u16,
}
ProtocolAcknowledge :: struct #packed {
header: ProtocolCommandHeader,
outgoingPeerID: u16,
incomingSessionID: u8,
outgoingSessionID: u8,
mtu: u32,
windowSize: u32,
channelCount: u32,
incomingBandwidth: u32,
outgoingBandwidth: u32,
packetThrottleInterval: u32,
packetThrottleAcceleration: u32,
packetThrottleDeceleration: u32,
connectID: u32,
data: u32,
}
ProtocolConnect :: struct #packed {
header: ProtocolCommandHeader,
outgoingPeerID: u16,
incomingSessionID: u8,
outgoingSessionID: u8,
mtu: u32,
windowSize: u32,
channelCount: u32,
incomingBandwidth: u32,
outgoingBandwidth: u32,
packetThrottleInterval: u32,
packetThrottleAcceleration: u32,
packetThrottleDeceleration: u32,
connectID: u32,
data: u32,
}
ProtocolVerifyConnect :: struct #packed {
header: ProtocolCommandHeader,
outgoingPeerID: u16,
incomingSessionID: u8,
outgoingSessionID: u8,
mtu: u32,
windowSize: u32,
channelCount: u32,
incomingBandwidth: u32,
outgoingBandwidth: u32,
packetThrottleInterval: u32,
packetThrottleAcceleration: u32,
packetThrottleDeceleration: u32,
connectID: u32,
}
ProtocolBandwidthLimit :: struct #packed {
header: ProtocolCommandHeader,
incomingBandwidth: u32,
outgoingBandwidth: u32,
}
ProtocolThrottleConfigure :: struct #packed {
header: ProtocolCommandHeader,
packetThrottleInterval: u32,
packetThrottleAcceleration: u32,
packetThrottleDeceleration: u32,
}
ProtocolDisconnect :: struct #packed {
header: ProtocolCommandHeader,
data: u32,
}
ProtocolPing :: struct #packed {
header: ProtocolCommandHeader,
}
ProtocolSendReliable :: struct #packed {
header: ProtocolCommandHeader,
dataLength: u16,
}
ProtocolSendUnreliable :: struct #packed {
header: ProtocolCommandHeader,
unreliableSequenceNumber: u16,
dataLength: u16,
}
ProtocolSendUnsequenced :: struct #packed {
header: ProtocolCommandHeader,
unsequencedGroup: u16,
dataLength: u16,
}
ProtocolSendFragment :: struct #packed {
header: ProtocolCommandHeader,
startSequenceNumber: u16,
dataLength: u16,
fragmentCount: u32,
fragmentNumber: u32,
totalLength: u32,
fragmentOffset: u32,
}
Protocol :: struct #raw_union {
header: ProtocolCommandHeader,
acknowledge: ProtocolAcknowledge,
connect: ProtocolConnect,
verifyConnect: ProtocolVerifyConnect,
disconnect: ProtocolDisconnect,
ping: ProtocolPing,
sendReliable: ProtocolSendReliable,
sendUnreliable: ProtocolSendUnreliable,
sendUnsequenced: ProtocolSendUnsequenced,
sendFragment: ProtocolSendFragment,
bandwidthLimit: ProtocolBandwidthLimit,
throttleConfigure: ProtocolThrottleConfigure,
}
vendor/ENet/time.odin
Vendored
+23
View File
@@ -0,0 +1,23 @@
package ENet
TIME_OVERFLOW :: u32(86400000)
TIME_LESS :: #force_inline proc(a, b: u32) -> bool {
return a - b >= TIME_OVERFLOW
}
TIME_GREATER :: #force_inline proc(a, b: u32) -> bool {
return b - a >= TIME_OVERFLOW
}
TIME_LESS_EQUAL :: #force_inline proc(a, b: u32) -> bool {
return !TIME_GREATER(a, b)
}
TIME_GREATER_EQUAL :: #force_inline proc(a, b: u32) -> bool {
return TIME_LESS(a, b)
}
TIME_DIFFERENCE :: #force_inline proc(a, b: u32) -> u32 {
return a - b >= TIME_OVERFLOW ? b - a : a - b
}
vendor/ENet/unix.odin
Vendored
+59
View File
@@ -0,0 +1,59 @@
//+build linux, darwin, freebsd
package ENet
// When we implement the appropriate bindings for Unix, the section separated
// by `{` and `}` here can be removed in favor of using the bindings.
// {
import "core:c"
@(private="file") FD_SETSIZE :: 1024
@(private="file") fd_set :: struct {
fds_bits: [FD_SETSIZE / 8 / size_of(c.long)]c.ulong,
}
@(private="file") FD_ZERO :: #force_inline proc(s: ^fd_set) {
for i := size_of(fd_set) / size_of(c.long); i != 0; i -= 1 {
s.fds_bits[i] = 0;
}
}
@(private="file") FD_SET :: #force_inline proc(d: i32, s: ^fd_set) {
s.fds_bits[d / (8 * size_of(c.long))] |= c.ulong(1) << (c.ulong(d) % (8 * size_of(c.ulong)))
}
@(private="file") FD_CLR :: #force_inline proc(d: i32, s: ^fd_set) {
s.fds_bits[d / (8 * size_of(c.long))] &= ~(c.ulong(1) << (c.ulong(d) % (8 * size_of(c.ulong))))
}
@(private="file") FD_ISSET :: #force_inline proc(d: i32, s: ^fd_set) -> bool {
return (s.fds_bits[d / (8 * size_of(c.long))] & c.ulong(1) << (c.ulong(d) % (8 * size_of(c.ulong)))) != 0
}
// }
Socket :: distinct i32
SOCKET_NULL :: Socket(-1)
Buffer :: struct {
data: rawptr,
dataLength: uint,
}
SocketSet :: distinct fd_set
SOCKETSET_EMPTY :: #force_inline proc(sockset: ^SocketSet) {
FD_ZERO(cast(^fd_set)sockset)
}
SOCKETSET_ADD :: #force_inline proc(sockset: ^SocketSet, socket: Socket) {
FD_SET(i32(socket), cast(^fd_set)sockset)
}
SOCKETSET_REMOVE :: #force_inline proc(sockset: ^SocketSet, socket: Socket) {
FD_CLR(i32(socket), cast(^fd_set)sockset)
}
SOCKSET_CHECK :: #force_inline proc(sockset: ^SocketSet, socket: Socket) -> bool {
return FD_ISSET(i32(socket), cast(^fd_set)sockset)
}
vendor/ENet/win32.odin
Vendored
+81
View File
@@ -0,0 +1,81 @@
//+build windows
package ENet
// When we implement the appropriate bindings for Windows, the section separated
// by `{` and `}` here can be removed in favor of using the bindings.
// {
foreign import WinSock2 "system:Ws2_32.lib"
@(private="file", default_calling_convention="c")
foreign WinSock2 {
__WSAFDIsSet :: proc(fd: SOCKET, s: ^fd_set) -> i32 ---
}
@(private="file") SOCKET :: uintptr
@(private="file") FD_SETSIZE :: 64
@(private="file") fd_set :: struct {
fd_count: u32,
fd_array: [FD_SETSIZE]SOCKET,
}
@(private="file") FD_CLR :: proc(fd: SOCKET, s: ^fd_set) {
for i := u32(0); i < s.fd_count; i += 1 {
if s.fd_array[i] == fd {
for i < s.fd_count - 1 {
s.fd_array[i] = s.fd_array[i + 1]
i += 1
}
s.fd_count -= 1
break
}
}
}
@(private="file") FD_SET :: proc(fd: SOCKET, s: ^fd_set) {
for i := u32(0); i < s.fd_count; i += 1 {
if s.fd_array[i] == fd {
return
}
}
if s.fd_count >= FD_SETSIZE do return
s.fd_array[s.fd_count] = fd
s.fd_count += 1
}
@(private="file") FD_ZERO :: #force_inline proc (s: ^fd_set) {
s.fd_count = 0
}
@(private="file") FD_ISSET :: #force_inline proc (fd: SOCKET, s: ^fd_set) -> bool {
return __WSAFDIsSet(fd, s) != 0
}
// }
Socket :: distinct SOCKET
SOCKET_NULL :: Socket(~uintptr(0))
Buffer :: struct {
data: rawptr,
dataLength: uint,
}
SocketSet :: distinct fd_set
SOCKETSET_EMPTY :: #force_inline proc(sockset: ^SocketSet) {
FD_ZERO(cast(^fd_set)sockset)
}
SOCKETSET_ADD :: #force_inline proc(sockset: ^SocketSet, socket: Socket) {
FD_SET(SOCKET(socket), cast(^fd_set)sockset)
}
SOCKETSET_REMOVE :: #force_inline proc(sockset: ^SocketSet, socket: Socket) {
FD_CLR(SOCKET(socket), cast(^fd_set)sockset)
}
SOCKSET_CHECK :: #force_inline proc(sockset: ^SocketSet, socket: Socket) -> bool {
return FD_ISSET(SOCKET(socket), cast(^fd_set)sockset)
}
vendor/README.md
Vendored
+9
View File
@@ -109,3 +109,12 @@ See also LICENSE.txt in the `glfw` directory itself.
`portmidi_s.lib` is available under PortMidi's [MIT](https://sourceforge.net/projects/portmedia/) license.
See also LICENSE.txt in the `portmidi` directory itself.
## ENet
[ENet](http://enet.bespin.org/) Reliable UDP networking library.
`enet.lib` and `enet64.lib` are available under ENet's [MIT](http://enet.bespin.org/License.html) license.
See also LICENSE in the `ENet` directory itself.