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Add a simple STUN function for resolving external WAN addresses

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This commit is contained in:
Cameron Gutman
2018-10-26 19:20:40 -07:00
parent cd6b636dca
commit 0eed722635
2 changed files with 169 additions and 0 deletions
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src/Limelight.h
+6
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@@ -398,6 +398,12 @@ int LiSendScrollEvent(signed char scrollClicks);
// populated from clock_gettime(CLOCK_MONOTONIC) if HAVE_CLOCK_GETTIME. // populated from clock_gettime(CLOCK_MONOTONIC) if HAVE_CLOCK_GETTIME.
uint64_t LiGetMillis(void); uint64_t LiGetMillis(void);
// This is a simplistic STUN function that can assist clients in getting the WAN address
// for machines they find using mDNS over IPv4. This can be used to pre-populate the external
// address for streaming after GFE stopped sending it a while back. wanAddr is returned in
// network byte order.
int LiFindExternalAddressIP4(const char* stunServer, unsigned short stunPort, unsigned int* wanAddr);
#ifdef __cplusplus #ifdef __cplusplus
} }
#endif #endif
src/SimpleStun.c
+163
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@@ -0,0 +1,163 @@
#include "Limelight-internal.h"
#define STUN_RECV_TIMEOUT_SEC 3
#define STUN_MESSAGE_BINDING_REQUEST 0x0001
#define STUN_MESSAGE_BINDING_SUCCESS 0x0101
#define STUN_MESSAGE_COOKIE 0x2112a442
#define STUN_ATTRIBUTE_MAPPED_ADDRESS 0x0001
#define STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS 0x0020
#pragma pack(push, 1)
typedef struct _STUN_ATTRIBUTE_HEADER {
unsigned short type;
unsigned short length;
} STUN_ATTRIBUTE_HEADER, *PSTUN_ATTRIBUTE_HEADER;
typedef struct _STUN_MAPPED_IPV4_ADDRESS_ATTRIBUTE {
STUN_ATTRIBUTE_HEADER hdr;
unsigned char reserved;
unsigned char addressFamily;
unsigned short port;
unsigned int address;
} STUN_MAPPED_IPV4_ADDRESS_ATTRIBUTE, *PSTUN_MAPPED_IPV4_ADDRESS_ATTRIBUTE;
#define TXID_DWORDS 3
typedef struct _STUN_MESSAGE {
unsigned short messageType;
unsigned short messageLength;
unsigned int magicCookie;
int transactionId[TXID_DWORDS];
} STUN_MESSAGE, *PSTUN_MESSAGE;
#pragma pack(pop)
// This is extremely rudamentary STUN code simply for deriving the WAN IPv4 address when behind a NAT.
int LiFindExternalAddressIP4(const char* stunServer, unsigned short stunPort, unsigned int* wanAddr)
{
SOCKET sock;
struct sockaddr_storage stunAddr;
struct sockaddr_in* stunAddrIn;
SOCKADDR_LEN stunAddrLen;
int err;
STUN_MESSAGE reqMsg;
int i;
int bytesRead;
PSTUN_ATTRIBUTE_HEADER attribute;
PSTUN_MAPPED_IPV4_ADDRESS_ATTRIBUTE ipv4Attrib;
union {
STUN_MESSAGE hdr;
char buf[1024];
} resp;
err = resolveHostName(stunServer, &stunAddr, &stunAddrLen);
if (err != 0) {
Limelog("Failed to resolve STUN server: %d\n", err);
return err;
}
// We must use IPv4 to talk to the STUN server to get our IPv4 address back
if (stunAddr.ss_family != AF_INET) {
Limelog("STUN server was not reachable over IPv4\n");
return -1;
}
sock = bindUdpSocket(AF_INET, 2048);
if (sock == INVALID_SOCKET) {
err = LastSocketFail();
Limelog("Failed to connect to STUN server: %d\n", err);
return err;
}
reqMsg.messageType = htons(STUN_MESSAGE_BINDING_REQUEST);
reqMsg.messageLength = 0;
reqMsg.magicCookie = htonl(STUN_MESSAGE_COOKIE);
for (i = 0; i < TXID_DWORDS; i++) {
reqMsg.transactionId[i] = rand();
}
bytesRead = SOCKET_ERROR;
for (i = 0; i < STUN_RECV_TIMEOUT_SEC * 1000 / UDP_RECV_POLL_TIMEOUT_MS; i++) {
// Retransmit the request every second until the timeout elapses
if (i % (1000 / UDP_RECV_POLL_TIMEOUT_MS) == 0) {
stunAddrIn = (struct sockaddr_in*)&stunAddr;
stunAddrIn->sin_port = htons(stunPort);
err = (int)sendto(sock, (char *)&reqMsg, sizeof(reqMsg), 0,
(struct sockaddr*)stunAddrIn, stunAddrLen);
if (err == SOCKET_ERROR) {
err = LastSocketFail();
Limelog("Failed to send STUN binding request: %d\n", err);
closeSocket(sock);
return err;
}
}
// This waits in UDP_RECV_POLL_TIMEOUT_MS increments
bytesRead = recvUdpSocket(sock, resp.buf, sizeof(resp.buf), 1);
if (bytesRead == 0) {
// Timeout - continue looping
continue;
}
break;
}
closeSocket(sock);
if (bytesRead == SOCKET_ERROR) {
err = LastSocketFail();
Limelog("Failed to read STUN binding response: %d\n", err);
return err;
}
else if (bytesRead < sizeof(resp.hdr)) {
Limelog("STUN message truncated: %d\n", bytesRead);
return -2;
}
else if (htonl(resp.hdr.magicCookie) != STUN_MESSAGE_COOKIE) {
Limelog("Bad STUN cookie value: %x\n", htonl(resp.hdr.magicCookie));
return -2;
}
else if (memcmp(reqMsg.transactionId, resp.hdr.transactionId, sizeof(reqMsg.transactionId))) {
Limelog("STUN transaction ID mismatch\n");
return -2;
}
else if (htons(resp.hdr.messageType) != STUN_MESSAGE_BINDING_SUCCESS) {
Limelog("STUN message type mismatch: %x\n", htons(resp.hdr.messageType));
return -2;
}
attribute = (PSTUN_ATTRIBUTE_HEADER)(&resp.hdr + 1);
bytesRead -= sizeof(resp.hdr);
while (bytesRead > sizeof(*attribute)) {
if (bytesRead < sizeof(*attribute) + htons(attribute->length)) {
Limelog("STUN attribute out of bounds: %d\n", htons(attribute->length));
return -2;
}
else if (htons(attribute->type) != STUN_ATTRIBUTE_XOR_MAPPED_ADDRESS) {
// Continue searching if this wasn't our address
bytesRead -= sizeof(*attribute) + htons(attribute->length);
attribute = (PSTUN_ATTRIBUTE_HEADER)(((char*)attribute) + sizeof(*attribute) + htons(attribute->length));
continue;
}
ipv4Attrib = (PSTUN_MAPPED_IPV4_ADDRESS_ATTRIBUTE)attribute;
if (htons(ipv4Attrib->hdr.length) != 8) {
Limelog("STUN address length mismatch: %d\n", htons(ipv4Attrib->hdr.length));
return -2;
}
else if (ipv4Attrib->addressFamily != 1) {
Limelog("STUN address family mismatch: %x\n", ipv4Attrib->addressFamily);
return -2;
}
// The address is XORed with the cookie
*wanAddr = ipv4Attrib->address ^ resp.hdr.magicCookie;
return 0;
}
Limelog("No mapped address found in STUN response!\n");
return -1;
}