/**
* This file is part of Hercules.
* http://herc.ws - http://github.com/HerculesWS/Hercules
*
* Copyright (C) 2012-2015 Hercules Dev Team
* Copyright (C) Athena Dev Teams
*
* Hercules is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef COMMON_SOCKET_H
#define COMMON_SOCKET_H
#include "common/hercules.h"
#include "common/db.h"
#ifdef WIN32
# include "common/winapi.h"
typedef long in_addr_t;
#else
# include <netinet/in.h>
# include <sys/socket.h>
# include <sys/types.h>
#endif
/* Forward Declarations */
struct hplugin_data_store;
struct config_setting_t;
#define FIFOSIZE_SERVERLINK 256*1024
// socket I/O macros
#define RFIFOHEAD(fd)
#define WFIFOHEAD(fd, size) \
do{ \
if ((fd) && sockt->session[fd]->wdata_size + (size) > sockt->session[fd]->max_wdata) \
sockt->realloc_writefifo((fd), (size)); \
} while(0)
#define RFIFOP(fd,pos) ((const void *)(sockt->session[fd]->rdata + sockt->session[fd]->rdata_pos + (pos)))
#define WFIFOP(fd,pos) ((void *)(sockt->session[fd]->wdata + sockt->session[fd]->wdata_size + (pos)))
#define RFIFOB(fd,pos) (*(const uint8*)RFIFOP((fd),(pos)))
#define WFIFOB(fd,pos) (*(uint8*)WFIFOP((fd),(pos)))
#define RFIFOW(fd,pos) (*(const uint16*)RFIFOP((fd),(pos)))
#define WFIFOW(fd,pos) (*(uint16*)WFIFOP((fd),(pos)))
#define RFIFOL(fd,pos) (*(const uint32*)RFIFOP((fd),(pos)))
#define WFIFOL(fd,pos) (*(uint32*)WFIFOP((fd),(pos)))
#define RFIFOQ(fd,pos) (*(const uint64*)RFIFOP((fd),(pos)))
#define WFIFOQ(fd,pos) (*(uint64*)WFIFOP((fd),(pos)))
#define RFIFOSPACE(fd) (sockt->session[fd]->max_rdata - sockt->session[fd]->rdata_size)
#define WFIFOSPACE(fd) (sockt->session[fd]->max_wdata - sockt->session[fd]->wdata_size)
#define RFIFOREST(fd) (sockt->session[fd]->flag.eof ? 0 : sockt->session[fd]->rdata_size - sockt->session[fd]->rdata_pos)
#define RFIFOFLUSH(fd) \
do { \
if(sockt->session[fd]->rdata_size == sockt->session[fd]->rdata_pos){ \
sockt->session[fd]->rdata_size = sockt->session[fd]->rdata_pos = 0; \
} else { \
sockt->session[fd]->rdata_size -= sockt->session[fd]->rdata_pos; \
memmove(sockt->session[fd]->rdata, sockt->session[fd]->rdata+sockt->session[fd]->rdata_pos, sockt->session[fd]->rdata_size); \
sockt->session[fd]->rdata_pos = 0; \
} \
} while(0)
#define WFIFOSET(fd, len) (sockt->wfifoset(fd, len))
#define RFIFOSKIP(fd, len) (sockt->rfifoskip(fd, len))
/* [Ind/Hercules] */
#define RFIFO2PTR(fd) ((const void *)(sockt->session[fd]->rdata + sockt->session[fd]->rdata_pos))
#define RP2PTR(fd) RFIFO2PTR(fd)
/* [Hemagx/Hercules] */
#define WFIFO2PTR(fd) ((void *)(sockt->session[fd]->wdata + sockt->session[fd]->wdata_size))
#define WP2PTR(fd) WFIFO2PTR(fd)
// buffer I/O macros
#define RBUFP(p,pos) (((const uint8 *)(p)) + (pos))
#define RBUFB(p,pos) (*(const uint8 *)RBUFP((p),(pos)))
#define RBUFW(p,pos) (*(const uint16 *)RBUFP((p),(pos)))
#define RBUFL(p,pos) (*(const uint32 *)RBUFP((p),(pos)))
#define RBUFQ(p,pos) (*(const uint64 *)RBUFP((p),(pos)))
#define WBUFP(p,pos) (((uint8*)(p)) + (pos))
#define WBUFB(p,pos) (*(uint8*)WBUFP((p),(pos)))
#define WBUFW(p,pos) (*(uint16*)WBUFP((p),(pos)))
#define WBUFL(p,pos) (*(uint32*)WBUFP((p),(pos)))
#define WBUFQ(p,pos) (*(uint64*)WBUFP((p),(pos)))
#define TOB(n) ((uint8)((n)&UINT8_MAX))
#define TOW(n) ((uint16)((n)&UINT16_MAX))
#define TOL(n) ((uint32)((n)&UINT32_MAX))
// Struct declaration
typedef int (*RecvFunc)(int fd);
typedef int (*SendFunc)(int fd);
typedef int (*ParseFunc)(int fd);
struct socket_data {
struct {
unsigned char eof : 1;
unsigned char server : 1;
unsigned char ping : 2;
} flag;
uint32 client_addr; // remote client address
uint8 *rdata, *wdata;
size_t max_rdata, max_wdata;
size_t rdata_size, wdata_size;
size_t rdata_pos;
time_t rdata_tick; // time of last recv (for detecting timeouts); zero when timeout is disabled
RecvFunc func_recv;
SendFunc func_send;
ParseFunc func_parse;
void* session_data; // stores application-specific data related to the session
struct hplugin_data_store *hdata; ///< HPM Plugin Data Store.
};
struct hSockOpt {
unsigned int silent : 1;
unsigned int setTimeo : 1;
};
/// Subnet/IP range in the IP/Mask format.
struct s_subnet {
uint32 ip;
uint32 mask;
};
/// A vector of subnets/IP ranges.
VECTOR_STRUCT_DECL(s_subnet_vector, struct s_subnet);
/// Use a shortlist of sockets instead of iterating all sessions for sockets
/// that have data to send or need eof handling.
/// Adapted to use a static array instead of a linked list.
///
/// @author Buuyo-tama
#define SEND_SHORTLIST
// Note: purposely returns four comma-separated arguments
#define CONVIP(ip) ((ip)>>24)&0xFF,((ip)>>16)&0xFF,((ip)>>8)&0xFF,((ip)>>0)&0xFF
#define MAKEIP(a,b,c,d) ((uint32)( ( ( (a)&0xFF ) << 24 ) | ( ( (b)&0xFF ) << 16 ) | ( ( (c)&0xFF ) << 8 ) | ( ( (d)&0xFF ) << 0 ) ))
/// Applies a subnet mask to an IP
#define APPLY_MASK(ip, mask) ((ip)&(mask))
/// Verifies the match between two IPs, with a subnet mask applied
#define SUBNET_MATCH(ip1, ip2, mask) (APPLY_MASK((ip1), (mask)) == APPLY_MASK((ip2), (mask)))
/**
* Socket.c interface, mostly for reading however.
**/
struct socket_interface {
int fd_max;
/* */
time_t stall_time;
time_t last_tick;
/* */
uint32 addr_[16]; // ip addresses of local host (host byte order)
int naddr_; // # of ip addresses
struct socket_data **session;
struct s_subnet_vector lan_subnets; ///< LAN subnets.
struct s_subnet_vector trusted_ips; ///< Trusted IP ranges
struct s_subnet_vector allowed_ips; ///< Allowed server IP ranges
/* */
void (*init) (void);
void (*final) (void);
/* */
int (*perform) (int next);
/* [Ind/Hercules] - socket_datasync */
void (*datasync) (int fd, bool send);
/* */
int (*make_listen_bind) (uint32 ip, uint16 port);
int (*make_connection) (uint32 ip, uint16 port, struct hSockOpt *opt);
int (*realloc_fifo) (int fd, unsigned int rfifo_size, unsigned int wfifo_size);
int (*realloc_writefifo) (int fd, size_t addition);
int (*wfifoset) (int fd, size_t len);
int (*rfifoskip) (int fd, size_t len);
void (*close) (int fd);
/* */
bool (*session_is_valid) (int fd);
bool (*session_is_active) (int fd);
/* */
void (*flush) (int fd);
void (*flush_fifos) (void);
void (*set_nonblocking) (int fd, unsigned long yes);
void (*set_defaultparse) (ParseFunc defaultparse);
/* hostname/ip conversion functions */
uint32 (*host2ip) (const char* hostname);
const char * (*ip2str) (uint32 ip, char *ip_str);
uint32 (*str2ip) (const char* ip_str);
/* */
uint16 (*ntows) (uint16 netshort);
/* */
int (*getips) (uint32* ips, int max);
/* */
void (*eof) (int fd);
uint32 (*lan_subnet_check) (uint32 ip, struct s_subnet *info);
bool (*allowed_ip_check) (uint32 ip);
bool (*trusted_ip_check) (uint32 ip);
int (*net_config_read_sub) (struct config_setting_t *t, struct s_subnet_vector *list, const char *filename, const char *groupname);
void (*net_config_read) (const char *filename);
};
#ifdef HERCULES_CORE
void socket_defaults(void);
#endif // HERCULES_CORE
HPShared struct socket_interface *sockt;
#endif /* COMMON_SOCKET_H */