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|
/* $Id$ */
/*
* Copyright (C)2003-2006 Benny Prijono <benny@prijono.org>
*
* This program 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 2 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, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <pj/sock.h>
#include <pj/os.h>
#include <pj/assert.h>
#include <pj/string.h>
#include <pj/compat/socket.h>
#include <pj/addr_resolv.h>
#include <pj/errno.h>
/*
* Address families conversion.
* The values here are indexed based on pj_addr_family.
*/
const pj_uint16_t PJ_AF_UNIX = AF_UNIX;
const pj_uint16_t PJ_AF_INET = AF_INET;
const pj_uint16_t PJ_AF_INET6 = AF_INET6;
#ifdef AF_PACKET
const pj_uint16_t PJ_AF_PACKET = AF_PACKET;
#else
const pj_uint16_t PJ_AF_PACKET = 0xFFFF;
#endif
#ifdef AF_IRDA
const pj_uint16_t PJ_AF_IRDA = AF_IRDA;
#else
const pj_uint16_t PJ_AF_IRDA = 0xFFFF;
#endif
/*
* Socket types conversion.
* The values here are indexed based on pj_sock_type
*/
const pj_uint16_t PJ_SOCK_STREAM= SOCK_STREAM;
const pj_uint16_t PJ_SOCK_DGRAM = SOCK_DGRAM;
const pj_uint16_t PJ_SOCK_RAW = SOCK_RAW;
const pj_uint16_t PJ_SOCK_RDM = SOCK_RDM;
/*
* Socket level values.
*/
const pj_uint16_t PJ_SOL_SOCKET = SOL_SOCKET;
#ifdef SOL_IP
const pj_uint16_t PJ_SOL_IP = SOL_IP;
#else
const pj_uint16_t PJ_SOL_IP = 0xFFFF;
#endif /* SOL_IP */
#if defined(SOL_TCP)
const pj_uint16_t PJ_SOL_TCP = SOL_TCP;
#elif defined(IPPROTO_TCP)
const pj_uint16_t PJ_SOL_TCP = IPPROTO_TCP;
#endif /* SOL_TCP */
#ifdef SOL_UDP
const pj_uint16_t PJ_SOL_UDP = SOL_UDP;
#else
const pj_uint16_t PJ_SOL_UDP = 0xFFFF;
#endif
#ifdef SOL_IPV6
const pj_uint16_t PJ_SOL_IPV6 = SOL_IPV6;
#else
const pj_uint16_t PJ_SOL_IPV6 = 0xFFFF;
#endif
/* IP_TOS */
#ifdef IP_TOS
const pj_uint16_t PJ_IP_TOS = IP_TOS;
#else
const pj_uint16_t PJ_IP_TOS = 1;
#endif
/* TOS settings (declared in netinet/ip.h) */
#ifdef IPTOS_LOWDELAY
const pj_uint16_t PJ_IPTOS_LOWDELAY = IPTOS_LOWDELAY;
#else
const pj_uint16_t PJ_IPTOS_LOWDELAY = 0x10;
#endif
#ifdef IPTOS_THROUGHPUT
const pj_uint16_t PJ_IPTOS_THROUGHPUT = IPTOS_THROUGHPUT;
#else
const pj_uint16_t PJ_IPTOS_THROUGHPUT = 0x08;
#endif
#ifdef IPTOS_RELIABILITY
const pj_uint16_t PJ_IPTOS_RELIABILITY = IPTOS_RELIABILITY;
#else
const pj_uint16_t PJ_IPTOS_RELIABILITY = 0x04;
#endif
#ifdef IPTOS_MINCOST
const pj_uint16_t PJ_IPTOS_MINCOST = IPTOS_MINCOST;
#else
const pj_uint16_t PJ_IPTOS_MINCOST = 0x02;
#endif
/* optname values. */
const pj_uint16_t PJ_SO_TYPE = SO_TYPE;
const pj_uint16_t PJ_SO_RCVBUF = SO_RCVBUF;
const pj_uint16_t PJ_SO_SNDBUF = SO_SNDBUF;
/* recv() and send() flags */
const int PJ_MSG_OOB = MSG_OOB;
const int PJ_MSG_PEEK = MSG_PEEK;
const int PJ_MSG_DONTROUTE = MSG_DONTROUTE;
#if defined(PJ_SOCKADDR_HAS_LEN) && PJ_SOCKADDR_HAS_LEN!=0
# define SET_LEN(addr,len) (((pj_sockaddr*)(addr))->sa_zero_len=(len))
# define RESET_LEN(addr) (((pj_sockaddr*)(addr))->sa_zero_len=0)
#else
# define SET_LEN(addr,len)
# define RESET_LEN(addr)
#endif
/*
* Convert 16-bit value from network byte order to host byte order.
*/
PJ_DEF(pj_uint16_t) pj_ntohs(pj_uint16_t netshort)
{
return ntohs(netshort);
}
/*
* Convert 16-bit value from host byte order to network byte order.
*/
PJ_DEF(pj_uint16_t) pj_htons(pj_uint16_t hostshort)
{
return htons(hostshort);
}
/*
* Convert 32-bit value from network byte order to host byte order.
*/
PJ_DEF(pj_uint32_t) pj_ntohl(pj_uint32_t netlong)
{
return ntohl(netlong);
}
/*
* Convert 32-bit value from host byte order to network byte order.
*/
PJ_DEF(pj_uint32_t) pj_htonl(pj_uint32_t hostlong)
{
return htonl(hostlong);
}
/*
* Convert an Internet host address given in network byte order
* to string in standard numbers and dots notation.
*/
PJ_DEF(char*) pj_inet_ntoa(pj_in_addr inaddr)
{
#if !defined(PJ_LINUX) && !defined(PJ_LINUX_KERNEL)
return inet_ntoa(*(struct in_addr*)&inaddr);
#else
struct in_addr addr;
addr.s_addr = inaddr.s_addr;
return inet_ntoa(addr);
#endif
}
/*
* This function converts the Internet host address cp from the standard
* numbers-and-dots notation into binary data and stores it in the structure
* that inp points to.
*/
PJ_DEF(int) pj_inet_aton(const pj_str_t *cp, struct pj_in_addr *inp)
{
char tempaddr[16];
/* Initialize output with PJ_INADDR_NONE.
* Some apps relies on this instead of the return value
* (and anyway the return value is quite confusing!)
*/
inp->s_addr = PJ_INADDR_NONE;
/* Caution:
* this function might be called with cp->slen >= 16
* (i.e. when called with hostname to check if it's an IP addr).
*/
PJ_ASSERT_RETURN(cp && cp->slen && inp, 0);
if (cp->slen >= 16) {
return 0;
}
pj_memcpy(tempaddr, cp->ptr, cp->slen);
tempaddr[cp->slen] = '\0';
#if defined(PJ_SOCK_HAS_INET_ATON) && PJ_SOCK_HAS_INET_ATON != 0
return inet_aton(tempaddr, (struct in_addr*)inp);
#else
inp->s_addr = inet_addr(tempaddr);
return inp->s_addr == PJ_INADDR_NONE ? 0 : 1;
#endif
}
/*
* Convert address string with numbers and dots to binary IP address.
*/
PJ_DEF(pj_in_addr) pj_inet_addr(const pj_str_t *cp)
{
pj_in_addr addr;
pj_inet_aton(cp, &addr);
return addr;
}
/*
* Convert address string with numbers and dots to binary IP address.
*/
PJ_DEF(pj_in_addr) pj_inet_addr2(const char *cp)
{
pj_str_t str = pj_str((char*)cp);
return pj_inet_addr(&str);
}
/*
* Set the IP address of an IP socket address from string address,
* with resolving the host if necessary. The string address may be in a
* standard numbers and dots notation or may be a hostname. If hostname
* is specified, then the function will resolve the host into the IP
* address.
*/
PJ_DEF(pj_status_t) pj_sockaddr_in_set_str_addr( pj_sockaddr_in *addr,
const pj_str_t *str_addr)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(!str_addr || str_addr->slen < PJ_MAX_HOSTNAME,
(addr->sin_addr.s_addr=PJ_INADDR_NONE, PJ_EINVAL));
RESET_LEN(addr);
addr->sin_family = AF_INET;
pj_bzero(addr->sin_zero, sizeof(addr->sin_zero));
if (str_addr && str_addr->slen) {
addr->sin_addr = pj_inet_addr(str_addr);
if (addr->sin_addr.s_addr == PJ_INADDR_NONE) {
pj_hostent he;
pj_status_t rc;
rc = pj_gethostbyname(str_addr, &he);
if (rc == 0) {
addr->sin_addr.s_addr = *(pj_uint32_t*)he.h_addr;
} else {
addr->sin_addr.s_addr = PJ_INADDR_NONE;
return rc;
}
}
} else {
addr->sin_addr.s_addr = 0;
}
return PJ_SUCCESS;
}
/*
* Set the IP address and port of an IP socket address.
* The string address may be in a standard numbers and dots notation or
* may be a hostname. If hostname is specified, then the function will
* resolve the host into the IP address.
*/
PJ_DEF(pj_status_t) pj_sockaddr_in_init( pj_sockaddr_in *addr,
const pj_str_t *str_addr,
pj_uint16_t port)
{
PJ_ASSERT_RETURN(addr, (addr->sin_addr.s_addr=PJ_INADDR_NONE, PJ_EINVAL));
RESET_LEN(addr);
addr->sin_family = PJ_AF_INET;
pj_bzero(addr->sin_zero, sizeof(addr->sin_zero));
pj_sockaddr_in_set_port(addr, port);
return pj_sockaddr_in_set_str_addr(addr, str_addr);
}
/*
* Get hostname.
*/
PJ_DEF(const pj_str_t*) pj_gethostname(void)
{
static char buf[PJ_MAX_HOSTNAME];
static pj_str_t hostname;
PJ_CHECK_STACK();
if (hostname.ptr == NULL) {
hostname.ptr = buf;
if (gethostname(buf, sizeof(buf)) != 0) {
hostname.ptr[0] = '\0';
hostname.slen = 0;
} else {
hostname.slen = strlen(buf);
}
}
return &hostname;
}
/*
* Get first IP address associated with the hostname.
*/
PJ_DEF(pj_in_addr) pj_gethostaddr(void)
{
pj_sockaddr_in addr;
const pj_str_t *hostname = pj_gethostname();
pj_sockaddr_in_set_str_addr(&addr, hostname);
return addr.sin_addr;
}
#if defined(PJ_WIN32)
/*
* Create new socket/endpoint for communication and returns a descriptor.
*/
PJ_DEF(pj_status_t) pj_sock_socket(int af,
int type,
int proto,
pj_sock_t *sock)
{
PJ_CHECK_STACK();
/* Sanity checks. */
PJ_ASSERT_RETURN(sock!=NULL, PJ_EINVAL);
PJ_ASSERT_RETURN((unsigned)PJ_INVALID_SOCKET==INVALID_SOCKET,
(*sock=PJ_INVALID_SOCKET, PJ_EINVAL));
*sock = WSASocket(af, type, proto, NULL, 0, WSA_FLAG_OVERLAPPED);
if (*sock == PJ_INVALID_SOCKET)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
#else
/*
* Create new socket/endpoint for communication and returns a descriptor.
*/
PJ_DEF(pj_status_t) pj_sock_socket(int af,
int type,
int proto,
pj_sock_t *sock)
{
PJ_CHECK_STACK();
/* Sanity checks. */
PJ_ASSERT_RETURN(sock!=NULL, PJ_EINVAL);
PJ_ASSERT_RETURN(PJ_INVALID_SOCKET==-1,
(*sock=PJ_INVALID_SOCKET, PJ_EINVAL));
*sock = socket(af, type, proto);
if (*sock == PJ_INVALID_SOCKET)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
#endif
/*
* Bind socket.
*/
PJ_DEF(pj_status_t) pj_sock_bind( pj_sock_t sock,
const pj_sockaddr_t *addr,
int len)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(addr && len >= sizeof(struct sockaddr_in), PJ_EINVAL);
if (bind(sock, (struct sockaddr*)addr, len) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Bind socket.
*/
PJ_DEF(pj_status_t) pj_sock_bind_in( pj_sock_t sock,
pj_uint32_t addr32,
pj_uint16_t port)
{
pj_sockaddr_in addr;
PJ_CHECK_STACK();
SET_LEN(&addr, sizeof(pj_sockaddr_in));
addr.sin_family = PJ_AF_INET;
pj_bzero(addr.sin_zero, sizeof(addr.sin_zero));
addr.sin_addr.s_addr = pj_htonl(addr32);
addr.sin_port = pj_htons(port);
return pj_sock_bind(sock, &addr, sizeof(pj_sockaddr_in));
}
/*
* Close socket.
*/
PJ_DEF(pj_status_t) pj_sock_close(pj_sock_t sock)
{
int rc;
PJ_CHECK_STACK();
#if defined(PJ_WIN32) && PJ_WIN32!=0 || \
defined(PJ_WIN32_WINCE) && PJ_WIN32_WINCE!=0
rc = closesocket(sock);
#else
rc = close(sock);
#endif
if (rc != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Get remote's name.
*/
PJ_DEF(pj_status_t) pj_sock_getpeername( pj_sock_t sock,
pj_sockaddr_t *addr,
int *namelen)
{
PJ_CHECK_STACK();
if (getpeername(sock, (struct sockaddr*)addr, (socklen_t*)namelen) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else {
RESET_LEN(addr);
return PJ_SUCCESS;
}
}
/*
* Get socket name.
*/
PJ_DEF(pj_status_t) pj_sock_getsockname( pj_sock_t sock,
pj_sockaddr_t *addr,
int *namelen)
{
PJ_CHECK_STACK();
if (getsockname(sock, (struct sockaddr*)addr, (socklen_t*)namelen) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else {
RESET_LEN(addr);
return PJ_SUCCESS;
}
}
/*
* Send data
*/
PJ_DEF(pj_status_t) pj_sock_send(pj_sock_t sock,
const void *buf,
pj_ssize_t *len,
unsigned flags)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(len, PJ_EINVAL);
*len = send(sock, (const char*)buf, *len, flags);
if (*len < 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Send data.
*/
PJ_DEF(pj_status_t) pj_sock_sendto(pj_sock_t sock,
const void *buf,
pj_ssize_t *len,
unsigned flags,
const pj_sockaddr_t *to,
int tolen)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(len, PJ_EINVAL);
*len = sendto(sock, (const char*)buf, *len, flags,
(const struct sockaddr*)to, tolen);
if (*len < 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Receive data.
*/
PJ_DEF(pj_status_t) pj_sock_recv(pj_sock_t sock,
void *buf,
pj_ssize_t *len,
unsigned flags)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(buf && len, PJ_EINVAL);
*len = recv(sock, (char*)buf, *len, flags);
if (*len < 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Receive data.
*/
PJ_DEF(pj_status_t) pj_sock_recvfrom(pj_sock_t sock,
void *buf,
pj_ssize_t *len,
unsigned flags,
pj_sockaddr_t *from,
int *fromlen)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(buf && len, PJ_EINVAL);
PJ_ASSERT_RETURN(from && fromlen, (*len=-1, PJ_EINVAL));
*len = recvfrom(sock, (char*)buf, *len, flags,
(struct sockaddr*)from, (socklen_t*)fromlen);
if (*len < 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else {
RESET_LEN(from);
return PJ_SUCCESS;
}
}
/*
* Get socket option.
*/
PJ_DEF(pj_status_t) pj_sock_getsockopt( pj_sock_t sock,
pj_uint16_t level,
pj_uint16_t optname,
void *optval,
int *optlen)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(optval && optlen, PJ_EINVAL);
if (getsockopt(sock, level, optname, (char*)optval, (socklen_t*)optlen)!=0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Set socket option.
*/
PJ_DEF(pj_status_t) pj_sock_setsockopt( pj_sock_t sock,
pj_uint16_t level,
pj_uint16_t optname,
const void *optval,
int optlen)
{
PJ_CHECK_STACK();
if (setsockopt(sock, level, optname, (const char*)optval, optlen) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Connect socket.
*/
PJ_DEF(pj_status_t) pj_sock_connect( pj_sock_t sock,
const pj_sockaddr_t *addr,
int namelen)
{
PJ_CHECK_STACK();
if (connect(sock, (struct sockaddr*)addr, namelen) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Shutdown socket.
*/
#if PJ_HAS_TCP
PJ_DEF(pj_status_t) pj_sock_shutdown( pj_sock_t sock,
int how)
{
PJ_CHECK_STACK();
if (shutdown(sock, how) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Start listening to incoming connections.
*/
PJ_DEF(pj_status_t) pj_sock_listen( pj_sock_t sock,
int backlog)
{
PJ_CHECK_STACK();
if (listen(sock, backlog) != 0)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else
return PJ_SUCCESS;
}
/*
* Accept incoming connections
*/
PJ_DEF(pj_status_t) pj_sock_accept( pj_sock_t serverfd,
pj_sock_t *newsock,
pj_sockaddr_t *addr,
int *addrlen)
{
PJ_CHECK_STACK();
PJ_ASSERT_RETURN(newsock != NULL, PJ_EINVAL);
#if defined(PJ_SOCKADDR_HAS_LEN) && PJ_SOCKADDR_HAS_LEN!=0
if (addr) {
SET_LEN(addr, *addrlen);
}
#endif
*newsock = accept(serverfd, (struct sockaddr*)addr, (socklen_t*)addrlen);
if (*newsock==PJ_INVALID_SOCKET)
return PJ_RETURN_OS_ERROR(pj_get_native_netos_error());
else {
#if defined(PJ_SOCKADDR_HAS_LEN) && PJ_SOCKADDR_HAS_LEN!=0
if (addr) {
RESET_LEN(addr);
}
#endif
return PJ_SUCCESS;
}
}
#endif /* PJ_HAS_TCP */
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