VOID CClientWnd::OnChildOpenClose(BOOL bOpen)
{
_ExIf(m_bScrabble, OnPlayScrabble());
if (bOpen)
{
m_uChildNum++;
if (m_uChildNum == 1)
{
EnableCommand();
CMainWnd::EnableCommand(IDM_Play_Synchronize, FALSE);
CMainWnd::EnableCommand(IDM_Play_Scrabble, FALSE);
}
else if (m_uChildNum == 2)
{
CMainWnd::EnableCommand(IDM_Play_Synchronize, TRUE);
CMainWnd::EnableCommand(IDM_Play_Scrabble, TRUE);
}
}
else
{
m_uChildNum--;
if (m_uChildNum <= 1)
{
if (m_uChildNum == 0)
{
// 保存子窗口最大化状态
BOOL bMaximized = (HasEdge() == FALSE);
CIni::SetInt(INI_MaxOnOpen, bMaximized);
_ExIf(bMaximized, SetEdge());
EnableCommand(FALSE);
}
CMainWnd::EnableCommand(IDM_Play_Synchronize, FALSE);
CMainWnd::EnableCommand(IDM_Play_Scrabble, FALSE);
}
}
}
static int
WebSetCommand(Context ctx, int ac, char *av[], void *arg)
{
Web w = &gWeb;
int port;
switch ((intptr_t)arg) {
case SET_OPEN:
WebOpen(w);
break;
case SET_CLOSE:
WebClose(w);
break;
case SET_ENABLE:
EnableCommand(ac, av, &w->options, gConfList);
break;
case SET_DISABLE:
DisableCommand(ac, av, &w->options, gConfList);
break;
case SET_SELF:
if (ac < 1 || ac > 2)
return(-1);
if (!ParseAddr(av[0],&w->addr, ALLOW_IPV4))
Error("Bogus IP address given %s", av[0]);
if (ac == 2) {
port = strtol(av[1], NULL, 10);
if (port < 1 || port > 65535)
Error("Bogus port given %s", av[1]);
w->port=port;
}
break;
default:
return(-1);
}
return 0;
}
static int
Ipv6cpSetCommand(Context ctx, int ac, char *av[], void *arg)
{
Ipv6cpState const ipv6cp = &ctx->bund->ipv6cp;
if (ac == 0)
return (-1);
switch ((intptr_t)arg) {
case SET_ACCEPT:
AcceptCommand(ac, av, &ipv6cp->conf.options, gConfList);
break;
case SET_DENY:
DenyCommand(ac, av, &ipv6cp->conf.options, gConfList);
break;
case SET_ENABLE:
EnableCommand(ac, av, &ipv6cp->conf.options, gConfList);
break;
case SET_DISABLE:
DisableCommand(ac, av, &ipv6cp->conf.options, gConfList);
break;
case SET_YES:
YesCommand(ac, av, &ipv6cp->conf.options, gConfList);
break;
case SET_NO:
NoCommand(ac, av, &ipv6cp->conf.options, gConfList);
break;
default:
assert(0);
}
return (0);
}
static int
NatSetCommand(Context ctx, int ac, char *av[], void *arg)
{
NatState const nat = &ctx->bund->iface.nat;
if (ac == 0)
return(-1);
switch ((intptr_t)arg) {
case SET_TARGET:
#ifndef NG_NAT_LOG
Error("Target address setting is unsupported by current kernel");
#endif
/* FALL */
case SET_ADDR:
{
struct u_addr addr;
/* Parse */
if (ac != 1)
return(-1);
if (!ParseAddr(av[0], &addr, ALLOW_IPV4))
Error("bad IP address \"%s\"", av[0]);
/* OK */
if ((intptr_t)arg == SET_ADDR) {
nat->alias_addr = addr;
} else {
nat->target_addr = addr;
}
}
break;
#ifdef NG_NAT_DESC_LENGTH
case SET_REDIRECT_PORT:
{
struct protoent *proto;
struct in_addr l_addr, a_addr, r_addr;
int lp, ap, rp = 0, k;
/* Parse */
if (ac != 5 && ac != 7)
return(-1);
if ((proto = getprotobyname(av[0])) == 0)
Error("bad PROTO name \"%s\"", av[0]);
if (!inet_aton (av[1], &a_addr))
Error("bad alias IP address \"%s\"", av[1]);
ap = atoi(av[2]);
if (ap <= 0 || ap > 65535)
Error("Incorrect alias port number \"%s\"", av[2]);
if (!inet_aton (av[3], &l_addr))
Error("bad local IP address \"%s\"", av[3]);
lp = atoi(av[4]);
if (lp <= 0 || lp > 65535)
Error("Incorrect local port number \"%s\"", av[4]);
if (ac == 7) {
if (!inet_aton (av[5], &r_addr))
Error("bad remote IP address \"%s\"", av[5]);
rp = atoi(av[6]);
if (rp <= 0 || rp > 65535)
Error("Incorrect remote port number \"%s\"", av[6]);
}
/* OK */
for (k=0;k<NM_PORT;k++) {
if (nat->nrpt_id[k] == 0) {
memcpy(&nat->nrpt[k].local_addr, &l_addr, sizeof(struct in_addr));
memcpy(&nat->nrpt[k].alias_addr, &a_addr, sizeof(struct in_addr));
nat->nrpt[k].local_port = lp;
nat->nrpt[k].alias_port = ap;
if (ac == 7) {
memcpy(&nat->nrpt[k].remote_addr, &r_addr, sizeof(struct in_addr));
nat->nrpt[k].remote_port = rp;
}
nat->nrpt[k].proto = (uint8_t)proto->p_proto;
snprintf(nat->nrpt[k].description, NG_NAT_DESC_LENGTH, "nat-port-%d", k);
nat->nrpt_id[k] = 1;
break;
}
}
if (k == NM_PORT)
Error("max number of redirect-port \"%d\" reached", NM_PORT);
}
break;
case SET_REDIRECT_ADDR:
{
struct in_addr l_addr, a_addr;
int k;
/* Parse */
if (ac != 2)
return(-1);
if (!inet_aton (av[0], &a_addr))
Error("bad alias IP address \"%s\"", av[0]);
if (!inet_aton (av[1], &l_addr))
Error("bad local IP address \"%s\"", av[1]);
/* OK */
for (k=0;k<NM_ADDR;k++) {
if (nat->nrad_id[k] == 0) {
memcpy(&nat->nrad[k].local_addr, &l_addr, sizeof(struct in_addr));
memcpy(&nat->nrad[k].alias_addr, &a_addr, sizeof(struct in_addr));
snprintf(nat->nrad[k].description, NG_NAT_DESC_LENGTH, "nat-addr-%d", k);
nat->nrad_id[k] = 1;
break;
}
}
if (k == NM_ADDR)
Error("max number of redirect-addr \"%d\" reached", NM_ADDR);
}
break;
case SET_REDIRECT_PROTO:
{
struct protoent *proto;
struct in_addr l_addr, a_addr, r_addr;
int k;
/* Parse */
if (ac != 3 && ac != 4)
return(-1);
if ((proto = getprotobyname(av[0])) == 0)
Error("bad PROTO name \"%s\"", av[0]);
if (!inet_aton (av[1], &a_addr))
Error("bad alias IP address \"%s\"", av[1]);
if (!inet_aton (av[2], &l_addr))
Error("bad local IP address \"%s\"", av[2]);
if (ac == 4) {
if (!inet_aton (av[3], &r_addr))
Error("bad remote IP address \"%s\"", av[3]);
}
/* OK */
for (k=0;k<NM_PROTO;k++) {
if (nat->nrpr_id[k] == 0) {
memcpy(&nat->nrpr[k].local_addr, &l_addr, sizeof(struct in_addr));
memcpy(&nat->nrpr[k].alias_addr, &a_addr, sizeof(struct in_addr));
if (ac == 4)
memcpy(&nat->nrpr[k].remote_addr, &r_addr, sizeof(struct in_addr));
nat->nrpr[k].proto = (uint8_t)proto->p_proto;
snprintf(nat->nrpr[k].description, NG_NAT_DESC_LENGTH, "nat-proto-%d", k);
nat->nrpr_id[k] = 1;
break;
}
}
if (k == NM_PROTO)
Error("max number of redirect-proto \"%d\" reached", NM_PROTO);
}
break;
#endif
case SET_ENABLE:
EnableCommand(ac, av, &nat->options, gConfList);
break;
case SET_DISABLE:
DisableCommand(ac, av, &nat->options, gConfList);
break;
default:
assert(0);
}
return(0);
}
static int
IpcpSetCommand(Context ctx, int ac, char *av[], void *arg)
{
IpcpState const ipcp = &ctx->bund->ipcp;
struct in_addr *ips;
if (ac == 0)
return(-1);
switch ((intptr_t)arg) {
case SET_RANGES:
{
struct u_range self_new_allow;
struct u_range peer_new_allow;
int pos = 0, self_new_pool = -1, peer_new_pool = -1;
/* Parse args */
if (ac < 2)
return (-1);
if (strcmp(av[pos], "ippool") == 0) {
self_new_pool = pos+1;
pos+=2;
} else {
if (!ParseRange(av[pos], &self_new_allow, ALLOW_IPV4))
return(-1);
pos++;
}
if (pos >= ac)
return (-1);
if (strcmp(av[pos], "ippool") == 0) {
if ((pos + 1) >= ac)
return (-1);
peer_new_pool = pos+1;
pos+=2;
} else {
if (!ParseRange(av[pos], &peer_new_allow, ALLOW_IPV4))
return(-1);
pos++;
}
if (pos != ac)
return (-1);
if (self_new_pool >= 0)
strlcpy(ipcp->conf.self_ippool, av[self_new_pool], sizeof(ipcp->conf.self_ippool));
else
ipcp->conf.self_ippool[0] = 0;
if (peer_new_pool >= 0)
strlcpy(ipcp->conf.ippool, av[peer_new_pool], sizeof(ipcp->conf.ippool));
else
ipcp->conf.ippool[0] = 0;
ipcp->conf.self_allow = self_new_allow;
ipcp->conf.peer_allow = peer_new_allow;
}
break;
case SET_DNS:
ips = ipcp->conf.peer_dns;
goto getPrimSec;
break;
case SET_NBNS:
ips = ipcp->conf.peer_nbns;
getPrimSec:
if (!inet_aton(av[0], &ips[0]))
Error("invalid IP address: \'%s\'", av[0]);
ips[1].s_addr = 0;
if (ac > 1 && !inet_aton(av[1], &ips[1]))
Error("invalid IP address: \'%s\'", av[1]);
break;
case SET_ACCEPT:
AcceptCommand(ac, av, &ipcp->conf.options, gConfList);
break;
case SET_DENY:
DenyCommand(ac, av, &ipcp->conf.options, gConfList);
break;
case SET_ENABLE:
EnableCommand(ac, av, &ipcp->conf.options, gConfList);
break;
case SET_DISABLE:
DisableCommand(ac, av, &ipcp->conf.options, gConfList);
break;
case SET_YES:
YesCommand(ac, av, &ipcp->conf.options, gConfList);
break;
case SET_NO:
NoCommand(ac, av, &ipcp->conf.options, gConfList);
break;
default:
assert(0);
}
return(0);
}
