static void init_switch_ralink(void)
{
generate_switch_para();
// TODO: replace to nvram controlled procedure later
eval("ifconfig", "eth2", "hw", "ether", nvram_safe_get("et0macaddr"));
#ifdef RTCONFIG_RALINK_RT3052
if(is_routing_enabled()) config_3052(nvram_get_int("switch_stb_x"));
#else
if(strlen(nvram_safe_get("wan0_ifname"))) {
if (!nvram_match("et1macaddr", ""))
eval("ifconfig", nvram_safe_get("wan0_ifname"), "hw", "ether", nvram_safe_get("et1macaddr"));
else
eval("ifconfig", nvram_safe_get("wan0_ifname"), "hw", "ether", nvram_safe_get("et0macaddr"));
}
config_switch();
#endif
#ifdef RTCONFIG_SHP
if(nvram_get_int("qos_enable") || nvram_get_int("macfilter_enable_x") || nvram_get_int("lfp_disable_force")) {
nvram_set("lfp_disable", "1");
}
else {
nvram_set("lfp_disable", "0");
}
if(nvram_get_int("lfp_disable")==0) {
restart_lfp();
}
#endif
// reinit_hwnat();
}
void config_switch_dsl()
{
int stbport;
dbG("config ethernet switch IC\n");
if (is_routing_enabled())
{
stbport = atoi(nvram_safe_get("switch_stb_x"));
if (stbport < 0 || stbport > 6) stbport = 0;
dbG("STB port: %d\n", stbport);
#ifdef RTCONFIG_DUALWAN
if (stbport == 0)
{
if (get_dualwan_secondary()==WANS_DUALWAN_IF_LAN)
{
config_switch_dsl_set_lan();
}
else
{
if (get_dualwan_primary()==WANS_DUALWAN_IF_LAN)
{
config_switch_dsl_set_lan();
}
else
{
config_switch_dsl_set_dsl();
}
}
}
else
{
if (get_dualwan_secondary()==WANS_DUALWAN_IF_LAN)
{
config_switch_dsl_set_lan_iptv(stbport);
}
else
{
if (get_dualwan_primary()==WANS_DUALWAN_IF_LAN)
{
config_switch_dsl_set_lan_iptv(stbport);
}
else
{
config_switch_dsl_set_dsl();
}
}
}
#else
if (stbport == 0)
{
config_switch_dsl_set_dsl();
}
else
{
config_switch_dsl_set_iptv(stbport);
}
#endif
}
}
static void ntp_service()
{
static int first_sync = 1;
if (first_sync) {
first_sync = 0;
nvram_set("reload_svc_radio", "1");
nvram_set("svc_ready", "1");
setup_timezone();
if (is_routing_enabled())
notify_rc("restart_upnp");
#ifdef RTCONFIG_IPV6
#ifdef RTCONFIG_WIDEDHCP6
/* switch to monotonic clock usage *//*
if (get_ipv6_service() != IPV6_DISABLED) {
notify_rc("restart_dhcp6s");
notify_rc("restart_radvd");
}
*/
#endif /* RTCONFIG_WIDEDHCP6 */
#endif
#ifdef RTCONFIG_DISK_MONITOR
notify_rc("restart_diskmon");
#endif
}
}
void generate_switch_para(void)
{
int model;
// generate nvram nvram according to system setting
model = get_model();
switch(model) {
case MODEL_RTN13U:
if(!is_routing_enabled()) {
// override boardflags with no VLAN flag
nvram_set_int("boardflags", nvram_get_int("boardflags")&(~BFL_ENETVLAN));
nvram_set("lan_ifnames", "eth2 ra0");
}
else if(nvram_match("switch_stb_x", "1")) {
nvram_set("vlan0ports", "0 1 2 5*");
nvram_set("vlan1ports", "3 4 5u");
}
else if(nvram_match("swtich_stb_x", "2")) {
nvram_set("vlan0ports", "0 1 3 5*");
nvram_set("vlan1ports", "2 4 5u");
}
else if(nvram_match("switch_stb_x", "3")) {
nvram_set("vlan0ports", "0 2 3 5*");
nvram_set("vlan1ports", "1 4 5u");
}
else if(nvram_match("switch_stb_x", "4")) {
nvram_set("vlan0ports", "1 2 3 5*");
nvram_set("vlan1ports", "0 4 5u");
}
else if(nvram_match("switch_stb_x", "5")) {
nvram_set("vlan0ports", "2 3 5*");
nvram_set("vlan1ports", "0 1 4 5u");
}
else { // default for 0
nvram_set("vlan0ports", "0 1 2 3 5*");
nvram_set("vlan1ports", "4 5u");
}
break;
}
}
void config_switch()
{
int model;
int stbport;
int controlrate_unknown_unicast;
int controlrate_unknown_multicast;
int controlrate_multicast;
int controlrate_broadcast;
dbG("link down all ports\n");
eval("rtkswitch", "17"); // link down all ports
if (config_switch_for_first_time)
config_switch_for_first_time = 0;
else
{
dbG("software reset\n");
eval("rtkswitch", "27"); // software reset
}
#if defined(RTN14U) || defined(RTAC52U)
system("rtkswitch 8 0"); //Barton add
#endif
if (is_routing_enabled())
{
char parm_buf[] = "XXX";
stbport = atoi(nvram_safe_get("switch_stb_x"));
if (stbport < 0 || stbport > 6) stbport = 0;
dbG("STB port: %d\n", stbport);
/* stbport: unifi_malaysia=1 otherwise
* ----------------------------------------------
* 0: LLLLW LLLLW
* 1: LLLTW LLLWW
* 2: LLTLW LLWLW
* 3: LTLLW LWLLW
* 4: TLLLW WLLLW
* 5: TTLLW WWLLW
* 6: LLTTW LLWWW
*/
if(!nvram_match("switch_wantag", "none")&&!nvram_match("switch_wantag", ""))//2012.03 Yau modify
{
char tmp[128];
int voip_port = 0;
int vlan_val;/* VID and PRIO */
// voip_port = atoi(nvram_safe_get("voip_port"));
voip_port = 3;
if (voip_port < 0 || voip_port > 4)
voip_port = 0;
/* Fixed Ports Now*/
stbport = 4;
voip_port = 3;
sprintf(tmp, "rtkswitch 29 %d", voip_port);
system(tmp);
if(!strncmp(nvram_safe_get("switch_wantag"), "unifi", 5))/* Added for Unifi. Cherry Cho modified in 2011/6/28.*/
{
if(strstr(nvram_safe_get("switch_wantag"), "home"))
{
system("rtkswitch 38 1");/* IPTV: P0 */
/* Internet */
system("rtkswitch 36 500");
system("rtkswitch 37 0");
system("rtkswitch 39 0x02000210");
/* IPTV */
system("rtkswitch 36 600");
system("rtkswitch 37 0");
system("rtkswitch 39 0x00010011");
}
else/* No IPTV. Business package */
{
/* Internet */
system("rtkswitch 38 0");
system("rtkswitch 36 500");
system("rtkswitch 37 0");
system("rtkswitch 39 0x02000210");
}
}
else if(!strncmp(nvram_safe_get("switch_wantag"), "singtel", 7))/* Added for SingTel's exStream issues. Cherry Cho modified in 2011/7/19. */
{
if(strstr(nvram_safe_get("switch_wantag"), "mio"))/* Connect Singtel MIO box to P3 */
{
system("rtkswitch 40 1");
system("rtkswitch 38 3");/* IPTV: P0 VoIP: P1 */
/* Internet */
system("rtkswitch 36 10");
system("rtkswitch 37 0");
system("rtkswitch 39 0x02000210");
/* VoIP */
system("rtkswitch 36 30");
system("rtkswitch 37 4");
system("rtkswitch 39 0x00000012");//VoIP Port: P1 tag
}
else//Connect user's own ATA to lan port and use VoIP by Singtel WAN side VoIP gateway at voip.singtel.com
{
system("rtkswitch 38 1");/* IPTV: P0 */
/* Internet */
system("rtkswitch 36 10");
system("rtkswitch 37 0");
system("rtkswitch 39 0x02000210");
}
/* IPTV */
system("rtkswitch 36 20");
system("rtkswitch 37 4");
system("rtkswitch 39 0x00010011");
}
else if(!strcmp(nvram_safe_get("switch_wantag"), "m1_fiber"))//VoIP: P1 tag. Cherry Cho added in 2012/1/13.
{
system("rtkswitch 40 1");
system("rtkswitch 38 2");/* VoIP: P1 2 = 0x10 */
/* Internet */
system("rtkswitch 36 1103");
system("rtkswitch 37 1");
system("rtkswitch 39 0x02000210");
/* VoIP */
system("rtkswitch 36 1107");
system("rtkswitch 37 1");
system("rtkswitch 39 0x00000012");//VoIP Port: P1 tag
}
else if(!strcmp(nvram_safe_get("switch_wantag"), "maxis_fiber"))//VoIP: P1 tag. Cherry Cho added in 2012/11/6.
{
system("rtkswitch 40 1");
system("rtkswitch 38 2");/* VoIP: P1 2 = 0x10 */
/* Internet */
system("rtkswitch 36 621");
system("rtkswitch 37 0");
system("rtkswitch 39 0x02000210");
/* VoIP */
system("rtkswitch 36 821");
system("rtkswitch 37 0");
system("rtkswitch 39 0x00000012");//VoIP Port: P1 tag
system("rtkswitch 36 822");
system("rtkswitch 37 0");
system("rtkswitch 39 0x00000012");//VoIP Port: P1 tag
}
else if(!strcmp(nvram_safe_get("switch_wantag"), "maxis_fiber_sp"))//VoIP: P1 tag. Cherry Cho added in 2012/11/6.
{
system("rtkswitch 40 1");
system("rtkswitch 38 2");/* VoIP: P1 2 = 0x10 */
/* Internet */
system("rtkswitch 36 11");
system("rtkswitch 37 0");
system("rtkswitch 39 0x02000210");
/* VoIP */
system("rtkswitch 36 14");
system("rtkswitch 37 0");
system("rtkswitch 39 0x00000012");//VoIP Port: P1 tag
}
else/* Cherry Cho added in 2011/7/11. */
{
/* Initialize VLAN and set Port Isolation */
if(strcmp(nvram_safe_get("switch_wan1tagid"), "") && strcmp(nvram_safe_get("switch_wan2tagid"), ""))
system("rtkswitch 38 3");// 3 = 0x11 IPTV: P0 VoIP: P1
else if(strcmp(nvram_safe_get("switch_wan1tagid"), ""))
system("rtkswitch 38 1");// 1 = 0x01 IPTV: P0
else if(strcmp(nvram_safe_get("switch_wan2tagid"), ""))
system("rtkswitch 38 2");// 2 = 0x10 VoIP: P1
else
system("rtkswitch 38 0");//No IPTV and VoIP ports
/*++ Get and set Vlan Information */
if(strcmp(nvram_safe_get("switch_wan0tagid"), "") != 0) // Internet on WAN (port 4)
{
vlan_val = atoi(nvram_safe_get("switch_wan0tagid"));
if((vlan_val >= 2) && (vlan_val <= 4094))
{
sprintf(tmp, "rtkswitch 36 %d", vlan_val);
system(tmp);
}
if(strcmp(nvram_safe_get("switch_wan0prio"), "") != 0)
{
vlan_val = atoi(nvram_safe_get("switch_wan0prio"));
if((vlan_val >= 0) && (vlan_val <= 7))
{
sprintf(tmp, "rtkswitch 37 %d", vlan_val);
system(tmp);
}
else
system("rtkswitch 37 0");
}
system("rtkswitch 39 0x02000210");
}
if(strcmp(nvram_safe_get("switch_wan1tagid"), "") != 0) // IPTV on LAN4 (port 0)
{
vlan_val = atoi(nvram_safe_get("switch_wan1tagid"));
if((vlan_val >= 2) && (vlan_val <= 4094))
{
sprintf(tmp, "rtkswitch 36 %d", vlan_val);
system(tmp);
}
if(strcmp(nvram_safe_get("switch_wan1prio"), "") != 0)
{
vlan_val = atoi(nvram_safe_get("switch_wan1prio"));
if((vlan_val >= 0) && (vlan_val <= 7))
{
sprintf(tmp, "rtkswitch 37 %d", vlan_val);
system(tmp);
}
else
system("rtkswitch 37 0");
}
if(!strcmp(nvram_safe_get("switch_wan1tagid"), nvram_safe_get("switch_wan2tagid")))
system("rtkswitch 39 0x00030013"); //IPTV=VOIP
else
system("rtkswitch 39 0x00010011");//IPTV Port: P0 untag 65553 = 0x10 011
}
if(strcmp(nvram_safe_get("switch_wan2tagid"), "") != 0) // VoIP on LAN3 (port 1)
{
vlan_val = atoi(nvram_safe_get("switch_wan2tagid"));
if((vlan_val >= 2) && (vlan_val <= 4094))
{
sprintf(tmp, "rtkswitch 36 %d", vlan_val);
system(tmp);
}
if(strcmp(nvram_safe_get("switch_wan2prio"), "") != 0)
{
vlan_val = atoi(nvram_safe_get("switch_wan2prio"));
if((vlan_val >= 0) && (vlan_val <= 7))
{
sprintf(tmp, "rtkswitch 37 %d", vlan_val);
system(tmp);
}
else
system("rtkswitch 37 0");
}
if(!strcmp(nvram_safe_get("switch_wan1tagid"), nvram_safe_get("switch_wan2tagid")))
system("rtkswitch 39 0x00030013"); //IPTV=VOIP
else
system("rtkswitch 39 0x00020012");//VoIP Port: P1 untag
}
}
}
else
{
sprintf(parm_buf, "%d", stbport);
if (stbport)
eval("rtkswitch", "8", parm_buf);
}
/* unknown unicast storm control */
if (!nvram_get("switch_ctrlrate_unknown_unicast"))
controlrate_unknown_unicast = 0;
else
controlrate_unknown_unicast = atoi(nvram_get("switch_ctrlrate_unknown_unicast"));
if (controlrate_unknown_unicast < 0 || controlrate_unknown_unicast > 1024)
controlrate_unknown_unicast = 0;
if (controlrate_unknown_unicast)
{
sprintf(parm_buf, "%d", controlrate_unknown_unicast);
eval("rtkswitch", "22", parm_buf);
}
/* unknown multicast storm control */
if (!nvram_get("switch_ctrlrate_unknown_multicast"))
controlrate_unknown_multicast = 0;
else
controlrate_unknown_multicast = atoi(nvram_get("switch_ctrlrate_unknown_multicast"));
if (controlrate_unknown_multicast < 0 || controlrate_unknown_multicast > 1024)
controlrate_unknown_multicast = 0;
if (controlrate_unknown_multicast)
{
sprintf(parm_buf, "%d", controlrate_unknown_multicast);
eval("rtkswitch", "23", parm_buf);
}
/* multicast storm control */
if (!nvram_get("switch_ctrlrate_multicast"))
controlrate_multicast = 0;
else
controlrate_multicast = atoi(nvram_get("switch_ctrlrate_multicast"));
if (controlrate_multicast < 0 || controlrate_multicast > 1024)
controlrate_multicast = 0;
if (controlrate_multicast)
{
sprintf(parm_buf, "%d", controlrate_multicast);
eval("rtkswitch", "24", parm_buf);
}
/* broadcast storm control */
if (!nvram_get("switch_ctrlrate_broadcast"))
controlrate_broadcast = 0;
else
controlrate_broadcast = atoi(nvram_get("switch_ctrlrate_broadcast"));
if (controlrate_broadcast < 0 || controlrate_broadcast > 1024)
controlrate_broadcast = 0;
if (controlrate_broadcast)
{
sprintf(parm_buf, "%d", controlrate_broadcast);
eval("rtkswitch", "25", parm_buf);
}
}
else if (is_apmode_enabled())
{
model = get_model();
if (model == MODEL_RTN65U || model == MODEL_RTN36U3)
eval("rtkswitch", "8", "100");
}
#ifdef RTCONFIG_DSL
dbG("link up all ports\n");
eval("rtkswitch", "16"); // link up all ports
#else
dbG("link up wan port(s)\n");
eval("rtkswitch", "114"); // link up wan port(s)
#endif
}
int main(int argc, char *argv[])
{
FILE *fp;
char *nv;
int n=0;
char *p_computer_name = NULL;
disk_info_t *follow_disk, *disks_info = NULL;
partition_info_t *follow_partition;
char *mount_folder;
int result, node_layer, samba_right;
int sh_num;
char **folder_list = NULL;
int acc_num;
char **account_list;
int dup, same_m_pt = 0;
char unique_share_name[PATH_MAX];
unlink("/var/log.samba");
if ((fp=fopen(SAMBA_CONF, "r"))) {
fclose(fp);
unlink(SAMBA_CONF);
}
if((fp = fopen(SAMBA_CONF, "w")) == NULL)
goto confpage;
fprintf(fp, "[global]\n");
if (nvram_safe_get("st_samba_workgroup"))
fprintf(fp, "workgroup = %s\n", nvram_safe_get("st_samba_workgroup"));
#if 0
if (nvram_safe_get("computer_name")) {
fprintf(fp, "netbios name = %s\n", nvram_safe_get("computer_name"));
fprintf(fp, "server string = %s\n", nvram_safe_get("computer_name"));
}
#else
p_computer_name = nvram_get("computer_name") && is_valid_netbios_name(nvram_get("computer_name")) ? nvram_get("computer_name") : get_productid();
if (p_computer_name) {
fprintf(fp, "netbios name = %s\n", p_computer_name);
fprintf(fp, "server string = %s\n", p_computer_name);
}
#endif
fprintf(fp, "unix charset = UTF8\n"); // ASUS add
fprintf(fp, "display charset = UTF8\n"); // ASUS add
fprintf(fp, "log file = /var/log.samba\n");
fprintf(fp, "log level = 0\n");
fprintf(fp, "max log size = 5\n");
// account mode
if(nvram_match("st_samba_mode", "2") || nvram_match("st_samba_mode", "4")
|| (nvram_match("st_samba_mode", "1") && nvram_get("st_samba_force_mode") == NULL)
){
fprintf(fp, "security = USER\n");
fprintf(fp, "guest ok = no\n");
fprintf(fp, "map to guest = Bad User\n");
}
// share mode
else if (nvram_match("st_samba_mode", "1") || nvram_match("st_samba_mode", "3")) {
#if 0
//#if defined(RTCONFIG_TFAT) || defined(RTCONFIG_TUXERA_NTFS) || defined(RTCONFIG_TUXERA_HFS)
if(nvram_get_int("enable_samba_tuxera") == 1){
fprintf(fp, "auth methods = guest\n");
fprintf(fp, "guest account = admin\n");
fprintf(fp, "map to guest = Bad Password\n");
fprintf(fp, "guest ok = yes\n");
}
else{
fprintf(fp, "security = SHARE\n");
fprintf(fp, "guest only = yes\n");
}
#else
fprintf(fp, "security = SHARE\n");
fprintf(fp, "guest only = yes\n");
#endif
}
else{
usb_dbg("samba mode: no\n");
goto confpage;
}
fprintf(fp, "encrypt passwords = yes\n");
fprintf(fp, "pam password change = no\n");
fprintf(fp, "null passwords = yes\n"); // ASUS add
#ifdef RTCONFIG_SAMBA_MODERN
if (nvram_get_int("smbd_enable_smb2"))
fprintf(fp, "max protocol = SMB2\n");
else
fprintf(fp, "max protocol = NT1\n");
fprintf(fp, "passdb backend = smbpasswd\n");
fprintf(fp, "smb encrypt = disabled\n");
fprintf(fp, "smb passwd file = /etc/samba/smbpasswd\n");
#endif
#if 0
#ifdef RTCONFIG_RECVFILE
fprintf(fp, "use recvfile = yes\n");
#endif
#endif
fprintf(fp, "force directory mode = 0777\n");
fprintf(fp, "force create mode = 0777\n");
/* max users */
if (strcmp(nvram_safe_get("st_max_user"), "") != 0)
fprintf(fp, "max connections = %s\n", nvram_safe_get("st_max_user"));
/* remove socket options due to NIC compatible issue */
if(!nvram_get_int("stop_samba_speedup")){
#ifdef RTCONFIG_BCMARM
#ifdef RTCONFIG_BCM_7114
fprintf(fp, "socket options = IPTOS_LOWDELAY TCP_NODELAY SO_RCVBUF=131072 SO_SNDBUF=131072\n");
#endif
#else
fprintf(fp, "socket options = TCP_NODELAY SO_KEEPALIVE SO_RCVBUF=65536 SO_SNDBUF=65536\n");
#endif
}
fprintf(fp, "obey pam restrictions = no\n");
fprintf(fp, "use spnego = no\n"); // ASUS add
fprintf(fp, "client use spnego = no\n"); // ASUS add
// fprintf(fp, "client use spnego = yes\n"); // ASUS add
fprintf(fp, "disable spoolss = yes\n"); // ASUS add
fprintf(fp, "host msdfs = no\n"); // ASUS add
fprintf(fp, "strict allocate = No\n"); // ASUS add
// fprintf(fp, "mangling method = hash2\n"); // ASUS add
fprintf(fp, "bind interfaces only = yes\n"); // ASUS add
#ifndef RTCONFIG_BCMARM
fprintf(fp, "interfaces = lo br0 %s\n", (is_routing_enabled() && nvram_get_int("smbd_wanac")) ? nvram_safe_get("wan0_ifname") : "");
#else
fprintf(fp, "interfaces = br0 %s/%s %s\n", nvram_safe_get("lan_ipaddr"), nvram_safe_get("lan_netmask"), (is_routing_enabled() && nvram_get_int("smbd_wanac")) ? nvram_safe_get("wan0_ifname") : "");
#endif
#if LINUX_VERSION_CODE < KERNEL_VERSION(2,6,36)
fprintf(fp, "use sendfile = no\n");
#else
fprintf(fp, "use sendfile = yes\n");
#endif
if (!strcmp(nvram_safe_get("smbd_wins"), "1")) {
fprintf(fp, "wins support = yes\n");
}
if (!strcmp(nvram_safe_get("smbd_master"), "1")) {
fprintf(fp, "os level = 255\n");
fprintf(fp, "domain master = yes\n");
fprintf(fp, "local master = yes\n");
fprintf(fp, "preferred master = yes\n");
}
fprintf(fp, "map archive = no\n");
fprintf(fp, "map hidden = no\n");
fprintf(fp, "map read only = no\n");
fprintf(fp, "map system = no\n");
fprintf(fp, "store dos attributes = yes\n");
fprintf(fp, "dos filemode = yes\n");
fprintf(fp, "oplocks = yes\n");
fprintf(fp, "level2 oplocks = yes\n");
fprintf(fp, "kernel oplocks = no\n");
fprintf(fp, "wide links = no\n");
// If we only want name services then skip share definition
if (nvram_match("enable_samba", "0"))
goto confpage;
disks_info = read_disk_data();
if (disks_info == NULL) {
usb_dbg("Couldn't get disk list when writing smb.conf!\n");
goto confpage;
}
/* share */
if (nvram_match("st_samba_mode", "0") || !strcmp(nvram_safe_get("st_samba_mode"), "")) {
;
}
else if (nvram_match("st_samba_mode", "1") && nvram_match("st_samba_force_mode", "1")) {
usb_dbg("samba mode: share\n");
for (follow_disk = disks_info; follow_disk != NULL; follow_disk = follow_disk->next) {
for (follow_partition = follow_disk->partitions; follow_partition != NULL; follow_partition = follow_partition->next) {
if (follow_partition->mount_point == NULL)
continue;
strcpy(unique_share_name, follow_partition->mount_point);
do {
dup = check_mount_point_icase(disks_info, follow_partition, follow_disk, follow_partition->partition_order, unique_share_name);
if (dup)
sprintf(unique_share_name, "%s(%d)", follow_partition->mount_point, ++same_m_pt);
} while (dup);
mount_folder = strrchr(unique_share_name, '/')+1;
fprintf(fp, "[%s]\n", mount_folder);
fprintf(fp, "comment = %s's %s\n", follow_disk->tag, mount_folder);
fprintf(fp, "veto files = /.__*.txt*/asus_lighttpdpasswd/\n");
fprintf(fp, "path = %s\n", follow_partition->mount_point);
fprintf(fp, "writeable = yes\n");
fprintf(fp, "dos filetimes = yes\n");
fprintf(fp, "fake directory create times = yes\n");
}
}
}
else if (nvram_match("st_samba_mode", "2")) {
usb_dbg("samba mode: share\n");
for (follow_disk = disks_info; follow_disk != NULL; follow_disk = follow_disk->next) {
for (follow_partition = follow_disk->partitions; follow_partition != NULL; follow_partition = follow_partition->next) {
if (follow_partition->mount_point == NULL)
continue;
strcpy(unique_share_name, follow_partition->mount_point);
do {
dup = check_mount_point_icase(disks_info, follow_partition, follow_disk, follow_partition->partition_order, unique_share_name);
if (dup)
sprintf(unique_share_name, "%s(%d)", follow_partition->mount_point, ++same_m_pt);
} while (dup);
mount_folder = strrchr(unique_share_name, '/')+1;
node_layer = get_permission(NULL, follow_partition->mount_point, NULL, "cifs");
if(node_layer == 3){
fprintf(fp, "[%s]\n", mount_folder);
fprintf(fp, "comment = %s's %s\n", follow_disk->tag, mount_folder);
fprintf(fp, "path = %s\n", follow_partition->mount_point);
fprintf(fp, "writeable = yes\n");
fprintf(fp, "dos filetimes = yes\n");
fprintf(fp, "fake directory create times = yes\n");
}
else{
//result = get_all_folder(follow_partition->mount_point, &sh_num, &folder_list);
result = get_folder_list(follow_partition->mount_point, &sh_num, &folder_list);
if (result < 0){
free_2_dimension_list(&sh_num, &folder_list);
continue;
}
for (n = 0; n < sh_num; ++n){
samba_right = get_permission(NULL, follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right < 0 || samba_right > 3)
samba_right = DEFAULT_SAMBA_RIGHT;
if(samba_right > 0){
int count = get_list_strings_count(folder_list, sh_num, folder_list[n]);
if ((!strcmp(nvram_safe_get("smbd_simpler_naming"), "1")) && (count <= 1)) {
fprintf(fp, "[%s]\n", folder_list[n]);
} else {
fprintf(fp, "[%s (at %s)]\n", folder_list[n], mount_folder);
}
fprintf(fp, "comment = %s's %s in %s\n", mount_folder, folder_list[n], follow_disk->tag);
fprintf(fp, "path = %s/%s\n", follow_partition->mount_point, folder_list[n]);
if(samba_right == 3)
fprintf(fp, "writeable = yes\n");
else
fprintf(fp, "writeable = no\n");
fprintf(fp, "dos filetimes = yes\n");
fprintf(fp, "fake directory create times = yes\n");
}
}
free_2_dimension_list(&sh_num, &folder_list);
}
}
}
}
else if (nvram_match("st_samba_mode", "3")) {
usb_dbg("samba mode: user\n");
// get the account list
if (get_account_list(&acc_num, &account_list) < 0) {
usb_dbg("Can't read the account list.\n");
free_2_dimension_list(&acc_num, &account_list);
goto confpage;
}
for (follow_disk = disks_info; follow_disk != NULL; follow_disk = follow_disk->next) {
for (follow_partition = follow_disk->partitions; follow_partition != NULL; follow_partition = follow_partition->next) {
if (follow_partition->mount_point == NULL)
continue;
mount_folder = strrchr(follow_partition->mount_point, '/')+1;
// 1. get the folder list
if (get_folder_list(follow_partition->mount_point, &sh_num, &folder_list) < 0) {
free_2_dimension_list(&sh_num, &folder_list);
}
// 2. start to get every share
for (n = -1; n < sh_num; ++n) {
int i, first;
if(n == -1){
fprintf(fp, "[%s]\n", mount_folder);
fprintf(fp, "comment = %s's %s\n", follow_disk->tag, mount_folder);
fprintf(fp, "path = %s\n", follow_partition->mount_point);
}
else{
int count = get_list_strings_count(folder_list, sh_num, folder_list[n]);
if ((!strcmp(nvram_safe_get("smbd_simpler_naming"), "1")) && (count <= 1)) {
fprintf(fp, "[%s]\n", folder_list[n]);
} else {
fprintf(fp, "[%s (at %s)]\n", folder_list[n], mount_folder);
}
fprintf(fp, "comment = %s's %s in %s\n", mount_folder, folder_list[n], follow_disk->tag);
fprintf(fp, "path = %s/%s\n", follow_partition->mount_point, folder_list[n]);
}
fprintf(fp, "dos filetimes = yes\n");
fprintf(fp, "fake directory create times = yes\n");
fprintf(fp, "valid users = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
if(n == -1)
samba_right = get_permission(account_list[i], follow_partition->mount_point, NULL, "cifs");
else
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
fprintf(fp, "invalid users = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
if(n == -1)
samba_right = get_permission(account_list[i], follow_partition->mount_point, NULL, "cifs");
else
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right >= 1)
continue;
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
fprintf(fp, "read list = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
if(n == -1)
samba_right = get_permission(account_list[i], follow_partition->mount_point, NULL, "cifs");
else
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right < 1)
continue;
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
fprintf(fp, "write list = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
if(n == -1)
samba_right = get_permission(account_list[i], follow_partition->mount_point, NULL, "cifs");
else
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right < 2)
continue;
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
}
free_2_dimension_list(&sh_num, &folder_list);
}
}
free_2_dimension_list(&acc_num, &account_list);
}
else if (nvram_match("st_samba_mode", "4")
|| (nvram_match("st_samba_mode", "1") && nvram_get("st_samba_force_mode") == NULL)
) {
usb_dbg("samba mode: user\n");
// get the account list
if (get_account_list(&acc_num, &account_list) < 0) {
usb_dbg("Can't read the account list.\n");
free_2_dimension_list(&acc_num, &account_list);
goto confpage;
}
for (follow_disk = disks_info; follow_disk != NULL; follow_disk = follow_disk->next) {
for (follow_partition = follow_disk->partitions; follow_partition != NULL; follow_partition = follow_partition->next) {
if (follow_partition->mount_point == NULL)
continue;
mount_folder = strrchr(follow_partition->mount_point, '/')+1;
// 1. get the folder list
if (get_folder_list(follow_partition->mount_point, &sh_num, &folder_list) < 0) {
free_2_dimension_list(&sh_num, &folder_list);
}
// 2. start to get every share
for (n = 0; n < sh_num; ++n) {
int i, first;
int count = get_list_strings_count(folder_list, sh_num, folder_list[n]);
if ((!strcmp(nvram_safe_get("smbd_simpler_naming"), "1")) && (count <= 1)) {
fprintf(fp, "[%s]\n", folder_list[n]);
} else {
fprintf(fp, "[%s (at %s)]\n", folder_list[n], mount_folder);
}
fprintf(fp, "comment = %s's %s in %s\n", mount_folder, folder_list[n], follow_disk->tag);
fprintf(fp, "path = %s/%s\n", follow_partition->mount_point, folder_list[n]);
fprintf(fp, "dos filetimes = yes\n");
fprintf(fp, "fake directory create times = yes\n");
fprintf(fp, "valid users = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
if(n == -1)
samba_right = get_permission(account_list[i], follow_partition->mount_point, NULL, "cifs");
else
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
fprintf(fp, "invalid users = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right >= 1)
continue;
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
fprintf(fp, "read list = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right < 1)
continue;
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
fprintf(fp, "write list = ");
first = 1;
for (i = 0; i < acc_num; ++i) {
samba_right = get_permission(account_list[i], follow_partition->mount_point, folder_list[n], "cifs");
if (samba_right < 2)
continue;
if (first == 1)
first = 0;
else
fprintf(fp, ", ");
fprintf(fp, "%s", account_list[i]);
}
fprintf(fp, "\n");
}
free_2_dimension_list(&sh_num, &folder_list);
}
}
free_2_dimension_list(&acc_num, &account_list);
}
confpage:
if(fp != NULL) {
append_custom_config("smb.conf", fp);
fclose(fp);
use_custom_config("smb.conf", SAMBA_CONF);
run_postconf("smb", SAMBA_CONF);
}
free_disk_data(&disks_info);
return 0;
}
int
ej_ipv6_pinhole_array(int eid, webs_t wp, int argc, char_t **argv)
{
FILE *fp;
char *ipt_argv[] = {"ip6tables", "-nxL", "UPNP", NULL};
char line[256], tmp[256];
char target[16], proto[16];
char src[45];
char dst[45];
char *sport, *dport, *ptr, *val;
int ret = 0;
ret += websWrite(wp, "var pinholes = ");
if (!(ipv6_enabled() && is_routing_enabled())) {
ret += websWrite(wp, "[];\n");
return ret;
}
_eval(ipt_argv, ">/tmp/pinhole.log", 10, NULL);
fp = fopen("/tmp/pinhole.log", "r");
if (fp == NULL) {
ret += websWrite(wp, "[];\n");
return ret;
}
ret += websWrite(wp, "[");
while (fgets(line, sizeof(line), fp) != NULL)
{
tmp[0] = '\0';
if (sscanf(line,
"%15s%*[ \t]" // target
"%15s%*[ \t]" // prot
"%44[^/]/%*d%*[ \t]" // source
"%44[^/]/%*d%*[ \t]" // destination
"%255[^\n]", // options
target, proto, src, dst, tmp) < 5) continue;
if (strcmp(target, "ACCEPT")) continue;
/* uppercase proto */
for (ptr = proto; *ptr; ptr++)
*ptr = toupper(*ptr);
/* parse source */
if (strcmp(src, "::") == 0)
strcpy(src, "ALL");
/* parse destination */
if (strcmp(dst, "::") == 0)
strcpy(dst, "ALL");
/* parse options */
sport = dport = "";
ptr = tmp;
while ((val = strsep(&ptr, " ")) != NULL) {
if (strncmp(val, "dpt:", 4) == 0)
dport = val + 4;
if (strncmp(val, "spt:", 4) == 0)
sport = val + 4;
else if (strncmp(val, "dpts:", 5) == 0)
dport = val + 5;
else if (strncmp(val, "spts:", 5) == 0)
sport = val + 5;
}
ret += websWrite(wp,
"[\"%s\", \"%s\", \"%s\", \"%s\", \"%s\"],\n",
src, sport, dst, dport, proto);
}
ret += websWrite(wp, "[]];\n");
fclose(fp);
unlink("/tmp/pinhole.log");
return ret;
}
ej_lan_ipv6_network_array(int eid, webs_t wp, int argc, char_t **argv)
{
FILE *fp;
char buf[64+32+8192+1];
char *hostname, *macaddr, ipaddrs[8192+1];
char ipv6_dns_str[1024];
char *wan_type, *wan_dns, *p;
int service, i, ret = 0;
ret += websWrite(wp, "var ipv6cfgarray = [");
if (!(ipv6_enabled() && is_routing_enabled())) {
ret += websWrite(wp, "[]];\n");
ret += websWrite(wp, "var ipv6clientarray = [");
ret += websWrite(wp, "[]];\n");
return ret;
}
service = get_ipv6_service();
switch (service) {
case IPV6_NATIVE_DHCP:
wan_type = "Native with DHCP-PD";
break;
case IPV6_6TO4:
wan_type = "Tunnel 6to4";
break;
case IPV6_6IN4:
wan_type = "Tunnel 6in4";
break;
case IPV6_6RD:
wan_type = "Tunnel 6rd";
break;
case IPV6_MANUAL:
wan_type = "Static";
break;
default:
wan_type = "Disabled";
break;
}
ret += websWrite(wp, "[\"IPv6 Connection Type\",\"%s\"],", wan_type);
ret += websWrite(wp, "[\"WAN IPv6 Address\",\"%s\"],",
getifaddr((char *) get_wan6face(), AF_INET6, GIF_PREFIXLEN) ? : nvram_safe_get("ipv6_rtr_addr"));
ret += websWrite(wp, "[\"WAN IPv6 Gateway\",\"%s\"],",
ipv6_gateway_address() ? : "");
ret += websWrite(wp, "[\"LAN IPv6 Address\",\"%s/%d\"],",
nvram_safe_get("ipv6_rtr_addr"), nvram_get_int("ipv6_prefix_length"));
ret += websWrite(wp, "[\"LAN IPv6 Link-Local Address\",\"%s\"],",
getifaddr(nvram_safe_get("lan_ifname"), AF_INET6, GIF_LINKLOCAL | GIF_PREFIXLEN) ? : "");
if (service == IPV6_NATIVE_DHCP) {
ret += websWrite(wp, "[\"DHCP-PD\",\"%s\"],",
nvram_get_int("ipv6_dhcp_pd") ? "Enabled" : "Disabled");
}
ret += websWrite(wp, "[\"LAN IPv6 Prefix\",\"%s/%d\"],",
nvram_safe_get("ipv6_prefix"), nvram_get_int("ipv6_prefix_length"));
if (service == IPV6_NATIVE_DHCP &&
nvram_get_int("ipv6_dnsenable")) {
wan_dns = nvram_safe_get("ipv6_get_dns");
} else {
char nvname[sizeof("ipv6_dnsXXX")];
char *next = ipv6_dns_str;
ipv6_dns_str[0] = '\0';
for (i = 1; i <= 3; i++) {
snprintf(nvname, sizeof(nvname), "ipv6_dns%d", i);
wan_dns = nvram_safe_get(nvname);
if (*wan_dns)
next += sprintf(next, *ipv6_dns_str ? " %s" : "%s", wan_dns);
}
wan_dns = ipv6_dns_str;
}
ret += websWrite(wp, "[\"DNS Address\",\"%s\"],", wan_dns);
ret += websWrite(wp, "[]];\n");
ret += websWrite(wp, "var ipv6clientarray = [");
/* Refresh lease file to get actual expire time */
killall("dnsmasq", SIGUSR2);
usleep(100 * 1000);
get_ipv6_client_info();
get_ipv6_client_list();
if ((fp = fopen(IPV6_CLIENT_LIST, "r")) == NULL) {
_dprintf("can't open %s: %s", IPV6_CLIENT_LIST, strerror(errno));
return ret;
}
while (fgets(buf, sizeof(buf), fp) != NULL) {
char *ptr = buf;
ptr = strsep(&ptr, "\n");
hostname = strsep(&ptr, " ");
macaddr = strsep(&ptr, " ");
if (!macaddr || *macaddr == '\0' ||
!ptr || *ptr == '\0')
continue;
if (strlen(hostname) > 32)
sprintf(hostname + 29, "...");
ipaddrs[0] = '\0';
p = ipaddrs;
while (ptr && *ptr) {
char *next = strsep(&ptr, ",\n");
if (next && *next)
p += snprintf(p, sizeof(ipaddrs) + ipaddrs - p, "%s%s", *ipaddrs ? ", " : "", next);
}
ret += websWrite(wp, "[\"%s\", \"%s\", \"%s\"],",
hostname, macaddr, ipaddrs);
}
fclose(fp);
ret += websWrite(wp, "[]];\n");
return ret;
}
void init_switch_dsl()
{
// vlan1 => LAN PORT
// vlan2 => WAN to modem , send packet to modem , used on modem driver
// vlan3 => IPTV port
// vlan4 => WAN to Ethernet this is ethernet WAN ifname
int stbport;
int enable_dsl_wan_dsl_if = 0;
int enable_dsl_wan_eth_if = 0;
int enable_dsl_wan_iptv_if = 0;
#ifdef RTCONFIG_DUALWAN
if (get_dualwan_secondary()==WANS_DUALWAN_IF_NONE)
{
if (get_dualwan_primary()==WANS_DUALWAN_IF_DSL)
{
enable_dsl_wan_dsl_if = 1;
}
else if (get_dualwan_primary()==WANS_DUALWAN_IF_LAN)
{
enable_dsl_wan_eth_if = 1;
}
}
else
{
if (get_dualwan_primary()==WANS_DUALWAN_IF_DSL)
{
enable_dsl_wan_dsl_if = 1;
}
else if (get_dualwan_primary()==WANS_DUALWAN_IF_LAN)
{
enable_dsl_wan_eth_if = 1;
}
if (get_dualwan_secondary()==WANS_DUALWAN_IF_DSL)
{
enable_dsl_wan_dsl_if = 1;
}
else if (get_dualwan_secondary()==WANS_DUALWAN_IF_LAN)
{
enable_dsl_wan_eth_if = 1;
}
}
#else
enable_dsl_wan_dsl_if = 1;
#endif
if (is_routing_enabled())
{
stbport = atoi(nvram_safe_get("switch_stb_x"));
if (stbport < 0 || stbport > 6) stbport = 0;
dbG("STB port: %d\n", stbport);
if (stbport > 0)
{
enable_dsl_wan_iptv_if = 1;
}
}
eval("ifconfig", "eth0", "up");
// vlan2 = WAN
eval("vconfig", "set_name_type", "VLAN_PLUS_VID_NO_PAD");
eval("vconfig", "add", "eth0", "2");
eval("ifconfig", "vlan2", "up");
if (enable_dsl_wan_dsl_if)
{
// DSL WAN MODE
eval("vconfig", "set_name_type", "VLAN_PLUS_VID_NO_PAD");
eval("vconfig", "add", "eth0", "100");
eval("ifconfig", "vlan100", "up");
eval("ifconfig", "vlan100", "hw", "ether", nvram_safe_get("et0macaddr"));
}
if (enable_dsl_wan_eth_if)
{
// vlan4 = ethenet WAN
eval("vconfig", "set_name_type", "VLAN_PLUS_VID_NO_PAD");
eval("vconfig", "add", "eth0", "4");
eval("ifconfig", "vlan4", "up");
// ethernet WAN , it needs to use another MAC address
eval("ifconfig", "vlan4", "hw", "ether", nvram_safe_get("et1macaddr"));
}
if (enable_dsl_wan_iptv_if)
{
// vlan3 = IPTV
eval("vconfig", "set_name_type", "VLAN_PLUS_VID_NO_PAD");
eval("vconfig", "add", "eth0", "3");
eval("ifconfig", "vlan3", "up");
// bypass , no need to have another MAC address
}
}
void init_switch_dsl()
{
// DSLTODO
// Eth2 => SoC RGMII 0 => Because we use VLAN, we do not use this interface directly
// Eth2.1 => WAN to modem , send packet to modem , used on modem driver
// Eth2.2 => LAN PORT
// Eth 2.1.50 => for stats, ethernet driver modify modem packets to this VLAN ID
// Eth 2.1.51 => bridge for Ethernet and modem, ethernet driver modify modem packet to VLAN ID (51)
// and then bridge eth2.2 and eth2.1.51. thus, PC could control modem from LAN port
// Eth2.3 => IPTV port
// Eth2.4 => WAN to Ethernet this is ethernet WAN ifname
int stbport;
int enable_dsl_wan_dsl_if = 0;
int enable_dsl_wan_eth_if = 0;
int enable_dsl_wan_iptv_if = 0;
eval("ifconfig", "eth2", "up");
// eth2.1 = WAN
eval("vconfig", "add", "eth2", "1");
eval("ifconfig", "eth2.1", "up");
// eth2.2 = LAN
eval("vconfig", "add", "eth2", "2");
eval("ifconfig", "eth2.2", "up");
// eth2.3 = IPTV
#ifdef RTCONFIG_DUALWAN
if (get_dualwan_secondary()==WANS_DUALWAN_IF_NONE)
{
if (get_dualwan_primary()==WANS_DUALWAN_IF_DSL)
{
enable_dsl_wan_dsl_if = 1;
}
else if (get_dualwan_primary()==WANS_DUALWAN_IF_LAN)
{
enable_dsl_wan_eth_if = 1;
}
}
else
{
if (get_dualwan_primary()==WANS_DUALWAN_IF_DSL)
{
enable_dsl_wan_dsl_if = 1;
}
else if (get_dualwan_primary()==WANS_DUALWAN_IF_LAN)
{
enable_dsl_wan_eth_if = 1;
}
if (get_dualwan_secondary()==WANS_DUALWAN_IF_DSL)
{
enable_dsl_wan_dsl_if = 1;
}
else if (get_dualwan_secondary()==WANS_DUALWAN_IF_LAN)
{
enable_dsl_wan_eth_if = 1;
}
}
#else
enable_dsl_wan_dsl_if = 1;
#endif
if (is_routing_enabled())
{
stbport = atoi(nvram_safe_get("switch_stb_x"));
if (stbport < 0 || stbport > 6) stbport = 0;
dbG("STB port: %d\n", stbport);
if (stbport > 0)
{
enable_dsl_wan_iptv_if = 1;
}
}
if (enable_dsl_wan_dsl_if)
{
// DSL WAN MODE
eval("vconfig", "add", "eth2.1", "1");
eval("ifconfig", "eth2.1.1", "up");
eval("ifconfig", "eth2.1", "hw", "ether", nvram_safe_get("et0macaddr"));
}
if (enable_dsl_wan_eth_if)
{
// eth2.4 = ethenet WAN
eval("vconfig", "add", "eth2", "4");
eval("ifconfig", "eth2.4", "up");
// ethernet WAN , it needs to use another MAC address
eval("ifconfig", "eth2.4", "hw", "ether", nvram_safe_get("et1macaddr"));
}
if (enable_dsl_wan_iptv_if)
{
// eth2.3 = IPTV
eval("vconfig", "add", "eth2", "3");
eval("ifconfig", "eth2.3", "up");
// bypass , no need to have another MAC address
}
// for a dummy interface from trendchip
// this is only for stats viewing , non-necessary
// do not power up dummay interface. If so, it will send packet out
eval("vconfig", "add", "eth2.1", "50");
eval("vconfig", "add", "eth2.1", "51");
}
