unsigned int pinged:1; /* sent ping */
unsigned int active:1; /* 1 if active.. */
unsigned int connecting:1; /* 1 if we are waiting for a non-blocking connect() to finish */
- unsigned int termreq:1; /* the termination of this connection was requested */
+ unsigned int unused_termreq:1; /* the termination of this connection was requested */
unsigned int remove:1; /* Set to 1 if you want this connection removed */
unsigned int timeout:1; /* 1 if gotten timeout */
unsigned int encryptout:1; /* 1 if we can encrypt outgoing traffic */
unsigned int decryptin:1; /* 1 if we have to decrypt incoming traffic */
unsigned int mst:1; /* 1 if this connection is part of a minimum spanning tree */
- unsigned int unused:23;
+ unsigned int proxy_passed:1; /* 1 if we are connecting via a proxy and we have finished talking with it */
+ unsigned int unused:22;
} connection_status_t;
#include "edge.h"
const EVP_CIPHER *outcipher; /* Cipher we will use to send data to him */
EVP_CIPHER_CTX *inctx; /* Context of encrypted meta data that will come from him to us */
EVP_CIPHER_CTX *outctx; /* Context of encrypted meta data that will be sent from us to him */
+ uint64_t inbudget; /* Encrypted bytes send budget */
+ uint64_t outbudget; /* Encrypted bytes receive budget */
char *inkey; /* His symmetric meta key + iv */
char *outkey; /* Our symmetric meta key + iv */
int inkeylength; /* Length of his key + iv */
extern void exit_connections(void);
extern connection_t *new_connection(void) __attribute__ ((__malloc__));
extern void free_connection(connection_t *);
+extern void free_connection_partially(connection_t *);
extern void connection_add(connection_t *);
extern void connection_del(connection_t *);
extern void dump_connections(void);