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Laika/lib/src/lsocket.c

297 lines
8.7 KiB
C
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#include <alloca.h>
#include "lerror.h"
#include "lmem.h"
#include "lpolllist.h"
#include "lsocket.h"
static int _LNSetup = 0;
bool laikaS_isBigEndian(void) {
union {
uint32_t i;
uint8_t c[4];
} _indxint = {0xDEADB33F};
return _indxint.c[0] == 0xDE;
}
void laikaS_init(void) {
if (_LNSetup++ > 0)
return; /* WSA is already setup! */
#ifdef _WIN32
WSADATA wsaData;
if (WSAStartup(MAKEWORD(1, 1), &wsaData) != 0)
LAIKA_ERROR("WSAStartup failed!\n")
#endif
}
void laikaS_cleanUp(void) {
if (--_LNSetup > 0)
return; /* WSA still needs to be up, a FoxNet peer is still using it */
#ifdef _WIN32
WSACleanup();
#endif
}
void laikaS_initSocket(struct sLaika_socket *sock) {
sock->sock = INVALID_SOCKET;
sock->inBuf = NULL;
sock->inCap = ARRAY_START;
sock->inCount = 0;
sock->outBuf = NULL;
sock->outCap = ARRAY_START;
sock->outCount = 0;
sock->flipEndian = false;
laikaS_init();
}
void laikaS_cleanSocket(struct sLaika_socket *sock) {
/* free in & out arrays */
laikaM_free(sock->inBuf);
laikaM_free(sock->outBuf);
/* kill socket & cleanup WSA */
laikaS_kill(sock);
laikaS_cleanUp();
}
void laikaS_kill(struct sLaika_socket *sock) {
if (!laikaS_isAlive(sock)) /* sanity check */
return;
#ifdef _WIN32
shutdown(sock->sock, SD_BOTH);
closesocket(sock->sock);
#else
shutdown(sock->sock, SHUT_RDWR);
close(sock->sock);
#endif
sock->sock = INVALID_SOCKET;
}
void laikaS_connect(struct sLaika_socket *sock, char *ip, char *port) {
struct addrinfo res, *result, *curr;
if (!SOCKETINVALID(sock->sock))
LAIKA_ERROR("socket already setup!\n");
/* zero out our address info and setup the type */
memset(&res, 0, sizeof(struct addrinfo));
res.ai_family = AF_UNSPEC;
res.ai_socktype = SOCK_STREAM;
/* grab the address info */
if (getaddrinfo(ip, port, &res, &result) != 0)
LAIKA_ERROR("getaddrinfo() failed!\n");
/* getaddrinfo returns a list of possible addresses, step through them and try them until we find a valid address */
for (curr = result; curr != NULL; curr = curr->ai_next) {
sock->sock = socket(curr->ai_family, curr->ai_socktype, curr->ai_protocol);
/* if it failed, try the next sock */
if (SOCKETINVALID(sock->sock))
continue;
/* if it's not an invalid socket, break and exit the loop, we found a working addr! */
if (!SOCKETINVALID(connect(sock->sock, curr->ai_addr, curr->ai_addrlen)))
break;
laikaS_kill(sock);
}
freeaddrinfo(result);
/* if we reached the end of the linked list, we failed looking up the addr */
if (curr == NULL)
LAIKA_ERROR("couldn't connect a valid address handle to socket!\n");
}
void laikaS_bind(struct sLaika_socket *sock, uint16_t port) {
socklen_t addressSize;
struct sockaddr_in address;
if (!SOCKETINVALID(sock->sock))
LAIKA_ERROR("socket already setup!\n")
/* open our socket */
sock->sock = socket(AF_INET, SOCK_STREAM, 0);
if (SOCKETINVALID(sock->sock))
LAIKA_ERROR("socket() failed!\n");
/* attach socket to the port */
int opt = 1;
#ifdef _WIN32
if (setsockopt(sock->sock, SOL_SOCKET, SO_REUSEADDR, (const char*)&opt, sizeof(int)) != 0)
#else
if (setsockopt(sock->sock, SOL_SOCKET, SO_REUSEADDR, &opt, sizeof(int)) != 0)
#endif
LAIKA_ERROR("setsockopt() failed!\n");
address.sin_family = AF_INET;
address.sin_addr.s_addr = INADDR_ANY;
address.sin_port = htons(port);
addressSize = sizeof(struct sockaddr_in);
/* bind to the port */
if (SOCKETERROR(bind(sock->sock, (struct sockaddr *)&address, addressSize)))
LAIKA_ERROR("bind() failed!\n");
if (SOCKETERROR(listen(sock->sock, SOMAXCONN)))
LAIKA_ERROR("listen() failed!\n");
}
void laikaS_acceptFrom(struct sLaika_socket *sock, struct sLaika_socket *from) {
socklen_t addressSize;
struct sockaddr address;
sock->sock = accept(from->sock, &address, &addressSize);
if (SOCKETINVALID(sock->sock))
LAIKA_ERROR("accept() failed!\n")
}
bool laikaS_setNonBlock(struct sLaika_socket *sock) {
#ifdef _WIN32
unsigned long mode = 1;
if (ioctlsocket(sock->sock, FIONBIO, &mode) != 0) {
#else
if (fcntl(sock->sock, F_SETFL, (fcntl(sock->sock, F_GETFL, 0) | O_NONBLOCK)) != 0) {
#endif
LAIKA_WARN("fcntl failed on new connection\n");
laikaS_kill(sock);
return false;
}
return true;
}
void laikaS_read(struct sLaika_socket *sock, void *buf, size_t sz) {
memcpy(buf, sock->inBuf, sz);
laikaM_rmvarray(uint8_t, sock->inBuf, sock->inCount, 0, sz);
}
void laikaS_write(struct sLaika_socket *sock, void *buf, size_t sz) {
/* make sure we have enough space to copy the buffer */
laikaM_growarray(uint8_t, sock->outBuf, sock->outCount + sz, sock->outCap);\
/* copy the buffer, then increment outCount */
memcpy(&sock->outBuf[sock->outCount], buf, sz);
sock->outCount += sz;
}
void laikaS_writeByte(struct sLaika_socket *sock, uint8_t data) {
laikaM_growarray(uint8_t, sock->outBuf, sock->outCount, sock->outCap);
sock->outBuf[sock->outCount++] = data;
}
uint8_t laikaS_readByte(struct sLaika_socket *sock) {
uint8_t tmp = *sock->inBuf;
/* pop 1 byte */
laikaM_rmvarray(uint8_t, sock->inBuf, sock->inCount, 0, 1);
return tmp;
}
void laikaS_readInt(struct sLaika_socket *sock, void *buf, size_t sz) {
if (sock->flipEndian) {
uint8_t tmp[sz]; /* allocate tmp buffer to hold data while we switch endianness */
int k;
laikaS_read(sock, (void*)tmp, sz);
/* copy tmp buffer to user buffer, flipping endianness */
for (k = 0; k < sz; k++)
*(uint8_t*)(buf + k) = tmp[sz - k - 1];
} else {
/* just a wrapper for laikaS_read */
laikaS_read(sock, buf, sz);
}
}
void laikaS_writeInt(struct sLaika_socket *sock, void *buf, size_t sz) {
if (sock->flipEndian) {
uint8_t tmp[sz]; /* allocate tmp buffer to hold data while we switch endianness */
int k;
/* copy user buffer to tmp buffer, flipping endianness */
for (k = 0; k < sz; k++)
tmp[k] = *(uint8_t*)(buf + (sz - k - 1));
laikaS_write(sock, (void*)tmp, sz);
} else {
/* just a wrapper for laikaS_write */
laikaS_write(sock, buf, sz);
}
}
RAWSOCKCODE laikaS_rawRecv(struct sLaika_socket *sock, size_t sz, int *processed) {
RAWSOCKCODE errCode = RAWSOCK_OK;
int rcvd, start = sock->inCount;
/* make sure we have enough space to recv */
laikaM_growarray(uint8_t, sock->inBuf, sock->inCount + sz, sock->inCap);
rcvd = recv(sock->sock, (buffer_t*)&sock->inBuf[sock->inCount], sz, LN_MSG_NOSIGNAL);
if (rcvd == 0) {
errCode = RAWSOCK_CLOSED;
} else if (SOCKETERROR(rcvd) && LN_ERRNO != LN_EWOULD
#ifndef _WIN32
/* if it's a posix system, also make sure its not a EAGAIN result (which is a recoverable error, there's just nothing to read lol) */
&& LN_ERRNO != EAGAIN
#endif
) {
/* if the socket closed or an error occurred, return the error result */
errCode = RAWSOCK_ERROR;
} else if (rcvd > 0) {
/* recv() worked, add rcvd to inCount */
sock->inCount += rcvd;
}
*processed = rcvd;
return errCode;
}
RAWSOCKCODE laikaS_rawSend(struct sLaika_socket *sock, size_t sz, int *processed) {
RAWSOCKCODE errCode = RAWSOCK_OK;
int sent, sentBytes = 0;
/* write bytes to the socket until an error occurs or we finish sending */
do {
sent = send(sock->sock, (buffer_t*)(&sock->outBuf[sentBytes]), sz - sentBytes, LN_MSG_NOSIGNAL);
/* check for error result */
if (sent == 0) { /* connection closed gracefully */
errCode = RAWSOCK_CLOSED;
goto _rawWriteExit;
} else if (SOCKETERROR(sent)) { /* socket error? */
if (LN_ERRNO != LN_EWOULD
#ifndef _WIN32
/* posix also has some platforms which define EAGAIN as a different value than EWOULD, might as well support it. */
&& LN_ERRNO != EAGAIN
#endif
) { /* socket error! */
errCode = RAWSOCK_ERROR;
goto _rawWriteExit;
}
/*
it was a result of EWOULD or EAGAIN, kernel socket send buffer is full,
tell the caller we need to set our poll event POLLOUT
*/
errCode = RAWSOCK_POLL;
goto _rawWriteExit;
}
} while((sentBytes += sent) < sz);
_rawWriteExit:
/* trim sent data from outBuf */
laikaM_rmvarray(uint8_t, sock->outBuf, sock->outCount, 0, sentBytes);
*processed = sentBytes;
return errCode;
}