static PyObject* wlanSwitchState(PyObject *self, PyObject *args)
{
if (!PyArg_ParseTuple(args, ":wlanSwitchState"))
return NULL;
return Py_BuildValue("i", sceWlanGetSwitchState());
}
/**
* Initialize Networking Components for Adhocctl Emulator
* @param adhoc_id Game Product Code
* @param server_ip Server IP
* @return 0 on success or... -1
*/
int _initNetwork(const SceNetAdhocctlAdhocId * adhoc_id, const char * server_ip)
{
// WLAN Switch Check
if(sceWlanGetSwitchState() == 1)
{
// Initialize Access Point Control
if(sceNetApctlInit(0x1800, 0x30) == 0)
{
// Attempt Counter
int attemptmax = 10;
// Attempt Number
int attempt = 0;
// Attempt Connection Setup
for(; attempt < attemptmax; attempt++)
{
// Start Connection
if(sceNetApctlConnect(_hotspot) == 0)
{
// Wait for Connection
int statebefore = 0;
int state = 0; while(state != 4)
{
// Query State
int getstate = sceNetApctlGetState(&state);
// Log State Change
if(statebefore != state) printk("New Connection State: %d\n", state);
// Query Success
if(getstate == 0 && state != 4)
{
// Wait for Retry
sceKernelDelayThread(1000000);
}
// Query Error
else break;
// Save Before State
statebefore = state;
}
// Connected
if(state == 4)
{
// Create Friend Finder Socket
int socket = sceNetInetSocket(AF_INET, SOCK_STREAM, IPPROTO_TCP);
// Created Socket
if(socket > 0)
{
// Enable Port Re-use
sceNetInetSetsockopt(socket, SOL_SOCKET, SO_REUSEADDR, &_one, sizeof(_one));
sceNetInetSetsockopt(socket, SOL_SOCKET, SO_REUSEPORT, &_one, sizeof(_one));
// Apply Receive Timeout Settings to Socket
// uint32_t timeout = ADHOCCTL_RECV_TIMEOUT;
// sceNetInetSetsockopt(socket, SOL_SOCKET, SO_RCVTIMEO, &timeout, sizeof(timeout));
// Server IP
uint32_t ip = 0;
// Initialize DNS Resolver
if(sceNetResolverInit() == 0)
{
// Create DNS Resolver
unsigned char rbuf[512]; int rid = 0;
if(sceNetResolverCreate(&rid, rbuf, sizeof(rbuf)) == 0)
{
// Resolve Domain
if(sceNetResolverStartNtoA(rid, server_ip, &ip, 500000, 2) != 0)
{
// Attempt IP Conversion
sceNetInetInetAton(server_ip, &ip);
}
// Delete DNS Resolver
sceNetResolverDelete(rid);
}
// Shutdown DNS Resolver
sceNetResolverTerm();
}
// Prepare Server Address
SceNetInetSockaddrIn addr;
addr.sin_len = sizeof(addr);
addr.sin_family = AF_INET;
addr.sin_addr = ip;
addr.sin_port = sceNetHtons(ADHOCCTL_METAPORT);
// Connect to Server
if(sceNetInetConnect(socket, (SceNetInetSockaddr *)&addr, sizeof(addr)) == 0)
{
// Save Meta Socket
_metasocket = socket;
// Save Product Code
_product_code = *adhoc_id;
// Clear Event Handler
memset(_event_handler, 0, sizeof(_event_handler[0]) * ADHOCCTL_MAX_HANDLER);
memset(_event_args, 0, sizeof(_event_args[0]) * ADHOCCTL_MAX_HANDLER);
// Clear Internal Control Status
memset(&_parameter, 0, sizeof(_parameter));
// Read PSP Player Name
sceUtilityGetSystemParamString(PSP_SYSTEMPARAM_ID_STRING_NICKNAME, (char *)_parameter.nickname.data, ADHOCCTL_NICKNAME_LEN);
// Read Adhoc Channel
sceUtilityGetSystemParamInt(PSP_SYSTEMPARAM_ID_INT_ADHOC_CHANNEL, &_parameter.channel);
// Fake Channel Number 1 on Automatic Channel
if(_parameter.channel == 0) _parameter.channel = 1;
// Read PSP MAC Address
sceWlanGetEtherAddr((void *)&_parameter.bssid.mac_addr.data);
// Prepare Login Packet
SceNetAdhocctlLoginPacketC2S packet;
// Set Packet Opcode
packet.base.opcode = OPCODE_LOGIN;
// Set MAC Address
packet.mac = _parameter.bssid.mac_addr;
// Set Nickname
packet.name = _parameter.nickname;
// Set Game Product ID
memcpy(packet.game.data, adhoc_id->data, ADHOCCTL_ADHOCID_LEN);
// Acquire Network Layer Lock
_acquireNetworkLock();
// Send Login Packet
sceNetInetSend(_metasocket, &packet, sizeof(packet), INET_MSG_DONTWAIT);
// Free Network Layer Lock
_freeNetworkLock();
// Load UPNP Library
_upnp_uid = sceKernelLoadModule("ms0:/kd/pspnet_miniupnc.prx", 0, NULL);
// Start UPNP Library
int status = 0; sceKernelStartModule(_upnp_uid, 0, NULL, &status, NULL);
// Return Success
return 0;
}
// Delete Socket
sceNetInetClose(socket);
}
// Close Hotspot Connection
sceNetApctlDisconnect();
}
}
}
// Terminate Access Point Control
sceNetApctlTerm();
}
}
// Generic Error
return -1;
}
int pspAdhocIsWLANEnabled()
{
return sceWlanGetSwitchState();
}
void WiFiManager::Connect()
{
if (IsConnected())
return;
if (!sceWlanGetSwitchState())
{
LCD::PrintMessage("WiFi not enabled");
return;
}
Console::Print("Initializing WiFi...");
int err = WiFiManager::Init();
if (err != 0)
{
Console::Print("Error, bailing out...");
Terminate();
return;
}
#define MAX_PICK 10
struct
{
int index;
char name[64];
} picks[MAX_PICK];
int pick_count = 0;
int iNetIndex;
for (iNetIndex = 1; iNetIndex < 100; iNetIndex++) // skip the 0th connection
{
if (sceUtilityCheckNetParam(iNetIndex) != 0)
break; // no more
sceUtilityGetNetParam(iNetIndex, 0, picks[pick_count].name);
picks[pick_count].index = iNetIndex;
pick_count++;
if (pick_count >= MAX_PICK)
break; // no more room
}
if (pick_count == 0)
{
Console::Print("No connections");
LCD::PrintMessage("WIFI: No connections");
Terminate();
return;
}
Console::Print("Found connections");
int connectionConfig = picks[0].index;
// Connect
err = sceNetApctlConnect(connectionConfig);
if (err != 0)
{
Console::Print("sceNetApctlConnect returns error");
Terminate();
return;
}
// Report status while waiting for connection to access point
int stateLast = -1;
Console::Print("Connecting...");
while (1)
{
int state;
err = sceNetApctlGetState(&state);
if (err != 0)
{
Console::Print("sceNetApctlGetState returns error");
return;
}
if (state > stateLast)
{
Console::Print("Next state...");
stateLast = state;
}
if (state == 4)
break; // connected with static IP
sceKernelDelayThread(50*1000); // 50ms
}
Console::Print("Connected!");
LCD::PrintMessage("WIFI Connected");
_connected = true;
}
