From: Lei Xia Date: Tue, 15 Dec 2009 06:09:25 +0000 (-0600) Subject: Restructure of Vnet X-Git-Url: http://v3vee.org/palacios/gitweb/gitweb.cgi?a=commitdiff_plain;h=9cabe082ba8acd1b88e6414199b5cc544aadf826;p=palacios.git Restructure of Vnet --- diff --git a/palacios/include/palacios/vmm_vnet.h b/palacios/include/palacios/vmm_vnet.h index 0c2ded9..d6fd9b1 100644 --- a/palacios/include/palacios/vmm_vnet.h +++ b/palacios/include/palacios/vmm_vnet.h @@ -16,8 +16,6 @@ * * Author: Lei Xia * Yuan Tang - * Jack Lange - * Peter Dinda #include #include -#include #include #include - #define ETHERNET_HEADER_LEN 14 #define ETHERNET_DATA_MIN 46 #define ETHERNET_DATA_MAX 1500 #define ETHERNET_PACKET_LEN (ETHERNET_HEADER_LEN + ETHERNET_DATA_MAX) -#define SOCK int +typedef enum {MAC_ANY, MAC_NOT, MAC_NONE, MAC_EMPTY} mac_type_t; //for 'src_mac_qual' and 'dst_mac_qual' +typedef enum {LINK_INTERFACE, LINK_EDGE, LINK_ANY} link_type_t; //for 'type' and 'src_type' in struct routing +typedef enum {TCP_TYPE, UDP_TYPE, NONE_TYPE} prot_type_t; -//the routing entry -struct routing{ +//routing table entry +struct routing_entry{ char src_mac[6]; char dest_mac[6]; int src_mac_qual; int dest_mac_qual; - int dest; //link[dest] is the link to be used to send pkt - int type; //EDGE|INTERFACE|ANY + int link_idx; //link[dest] is the link to be used to send pkt + link_type_t link_type; //EDGE|INTERFACE|ANY - int src; - int src_type; //EDGE|INTERFACE|ANY - - int use; - - int next; - int prev; - // struct list_head entry_list; -}; - -//struct gen_route { - // uint_t num_entries; - // struct list_head entries; -//} - - //This is the structure that stores the topology -struct topology { - SOCK link_sock; - - unsigned long dest; - - // Port for UDP - unsigned short remote_port; - - int use; - int type; //TCP=0, UDP=1,VTP=2, can be extended so on + int src_link_idx; + link_type_t src_type; //EDGE|INTERFACE|ANY +}__attribute__((packed)); - int next; - int prev; -}; - -struct sock_list { - SOCK sock; - - int next; - int prev; -}; - - -#define GENERAL_NIC 0 - -struct ethAddr{ - char addr[6]; -}; struct vnet_if_device { char name[50]; - struct ethAddr device_addr; + uchar_t mac_addr[6]; + struct vm_device *dev; - int (*input)(uchar_t * pkt, uint_t size); + int (*input)(uchar_t *data, uint32_t len, void *private_data); - void * data; -}; + void *private_data; +}__attribute__((packed)); -struct device_list { - struct vnet_if_device *device; +#define VNET_HEADER_LEN 64 +struct vnet_if_link { + prot_type_t pro_type; //protocal type of this link + unsigned long dest_ip; + uint16_t dest_port; - int use; - int type; - - int next; - int prev; -}; + uchar_t vnet_header[VNET_HEADER_LEN]; //header applied to the packet in/out from this link + uint16_t hdr_len; -// 14 (ethernet frame) + 20 bytes -struct HEADERS { - char ethernetdest[6]; - char ethernetsrc[6]; - unsigned char ethernettype[2]; // indicates layer 3 protocol type - char ip[20]; -}; + int (*input)(uchar_t *data, uint32_t len, void *private_data); + + void *private_data; +}__attribute__((packed)); -#define FOREACH(iter, list, start) for (iter = start; iter != -1; iter = list[iter].next) -#define FOREACH_SOCK(iter, socks, start) FOREACH(iter, socks, start) -#define FOREACH_LINK(iter, links, start) FOREACH(iter, links, start) -#define FOREACH_ROUTE(iter, routes, start) FOREACH(iter, routes, start) -#define FOREACH_DEVICE(iter, devices, start) FOREACH(iter, devices, start) +//link table entry +struct link_entry { + link_type_t type; + + union { + struct vnet_if_device *dst_dev; + struct vnet_if_link *dst_link; + } __attribute__((packed)); -int v3_Send_pkt(uchar_t *buf, int length); -int v3_Register_pkt_event(int (*netif_input)(uchar_t * pkt, uint_t size)); + int use; +}__attribute__((packed)); -int vnet_send_pkt(char *buf, int length); -int vnet_register_pkt_event(char *dev_name, int (*netif_input)(uchar_t * pkt, uint_t size), void *data); +int v3_vnet_send_pkt(uchar_t *buf, int length); +int vnet_register_device(struct vm_device *vdev, + char *dev_name, + uchar_t mac[6], + int (*netif_input)(uchar_t * pkt, uint_t size, void *private_data), + void *data); +int vnet_unregister_device(char *dev_name); -int v3_vnet_pkt_process(); +int v3_vnet_pkt_process(); -void v3_vnet_init(); +void v3_vnet_init(struct guest_info *vm); #endif diff --git a/palacios/src/palacios/vmm_vnet.c b/palacios/src/palacios/vmm_vnet.c index 02f5182..d68610c 100644 --- a/palacios/src/palacios/vmm_vnet.c +++ b/palacios/src/palacios/vmm_vnet.c @@ -24,57 +24,68 @@ */ #include +#include +#include -static const char any_type_str[] = "any"; -static const char not_type_str[] = "not"; -static const char none_type_str[] = "none"; -static const char empty_type_str[] = "empty"; +#ifndef CONFIG_DEBUG_VNET +#undef PrintDebug +#define PrintDebug(fmt, args...) +#endif -static const char link_interface_str[] = "INTERFACE"; -static const char link_edge_str[] = "EDGE"; -static const char link_any_str[] = "ANY"; -static const char link_prot_tcp_str[] = "tcp"; -static const char link_prot_udp_str[] = "udp"; +struct ethernet_pkt { + uint32_t size; + uint16_t type; + char data[ETHERNET_PACKET_LEN]; +}; -typedef enum {MAC_ANY, MAC_NOT, MAC_NONE, MAC_EMPTY} mac_type_t; //for 'src_mac_qual' and 'dst_mac_qual' -typedef enum {LINK_INTERFACE, LINK_EDGE, LINK_ANY} link_type_t; //for 'type' and 'src_type' in struct routing -typedef enum {TCP_TYPE, UDP_TYPE} link_prot_type_t; -static const uint_t hash_key_size = 16; -static SOCK g_udp_sockfd; -static struct gen_queue * g_inpkt_q; -static bool use_tcp = false; -static uint_t vnet_udp_port = 1022; - -struct raw_ethernet_pkt { - int size; - int type; // vm or link type: INTERFACE|EDGE - char data[ETHERNET_PACKET_LEN]; +// 14 (ethernet frame) + 20 bytes +struct in_pkt_header { + char ethernetdest[6]; + char ethernetsrc[6]; + unsigned char ethernettype[2]; // indicates layer 3 protocol type + char ip[20]; }; -//static char *vnet_version = "0.9"; -//static int vnet_server = 0; +#define VNET_INITAB_HCALL 0xca00 // inital hypercall id +#define MAX_LINKS 10 +#define MAX_ROUTES 10 +#define HASH_KEY_LEN 16 +#define MIN_CACHE_SIZE 100 +static const uint_t hash_key_size = 16; -#define MAX_LINKS 1 -#define MAX_ROUTES 1 -#define MAX_DEVICES 16 +struct link_table { + struct link_entry *links[MAX_LINKS]; + uint16_t size; +}; -static struct topology g_links[MAX_LINKS]; -static int g_num_links; //The current number of links -static int g_first_link; -static int g_last_link; +struct routing_table { + struct routing_entry *routes[MAX_ROUTES]; + uint16_t size; +}; -static struct routing g_routes[MAX_ROUTES]; -static int g_num_routes; //The current number of routes -static int g_first_route; -static int g_last_route; +static struct link_table g_links; +static struct routing_table g_routes; +static struct gen_queue *g_inpkt_q; -static struct device_list g_devices[MAX_DEVICES]; -static int g_num_devices; -static int g_first_device; -static int g_last_device; +/* Hash key format: + * 0-5: src_eth_addr + * 6-11: dest_eth_addr + * 12: src type + * 13-16: src index + */ +typedef char *route_hashkey_t; + +// This is the hash value, Format: 0: num_matched_routes, 1...n: matches[] -- TY +struct route_cache_entry { + int num_matched_routes; + int * matches; +}; + +//the route cache +static struct hashtable *g_route_cache; static void print_packet(char *pkt, int size) { @@ -99,46 +110,27 @@ static void print_device_addr(char *ethaddr) { //network connection functions -static inline void raw_ethernet_packet_init(struct raw_ethernet_pkt * pt, const char * data, const size_t size) { +static inline void ethernet_packet_init(struct ethernet_pkt *pt, const char *data, const size_t size) +{ pt->size = size; memcpy(pt->data, data, size); } - - -/* Hash key format: - * 0-5: src_eth_addr - * 6-11: dest_eth_addr - * 12: src type - * 13-16: src index - */ -typedef char * route_hashkey_t; - -// This is the hash value, Format: 0: num_matched_routes, 1...n: matches[] -- TY -struct route_cache_entry { - int num_matched_routes; - int * matches; -}; - -#define HASH_KEY_LEN 16 -#define MIN_CACHE_SIZE 100 - - -//Header of the route cache -static struct hashtable * g_route_cache; - -static uint_t hash_from_key_fn(addr_t hashkey) { +static uint_t hash_from_key_fn(addr_t hashkey) +{ uint8_t * key = (uint8_t *)hashkey; return v3_hash_buffer(key, HASH_KEY_LEN); } -static int hash_key_equal(addr_t key1, addr_t key2) { +static int hash_key_equal(addr_t key1, addr_t key2) +{ uint8_t * buf1 = (uint8_t *)key1; uint8_t * buf2 = (uint8_t *)key2; return (memcmp(buf1, buf2, HASH_KEY_LEN) == 0); } -static int init_route_cache() { +static int init_route_cache() +{ g_route_cache = v3_create_htable(MIN_CACHE_SIZE, &hash_from_key_fn, &hash_key_equal); if (g_route_cache == NULL){ @@ -149,7 +141,12 @@ static int init_route_cache() { return 0; } -static void make_hash_key(route_hashkey_t hashkey, char src_addr[6], char dest_addr[6], char src_type, int src_index) { +static void make_hash_key(route_hashkey_t hashkey, + char src_addr[6], + char dest_addr[6], + char src_type, + int src_index) +{ int j; for (j = 0; j < 6; j++) { @@ -161,7 +158,9 @@ static void make_hash_key(route_hashkey_t hashkey, char src_addr[6], char dest_a *(int *)(hashkey + 12) = src_index; } -static int add_route_to_cache(route_hashkey_t hashkey, int num_matched_r, int * matches) { + +static int add_route_to_cache(route_hashkey_t hashkey, int num_matched_r, int *matches) +{ struct route_cache_entry * new_entry = NULL; int i; @@ -194,7 +193,8 @@ static int add_route_to_cache(route_hashkey_t hashkey, int num_matched_r, int * return 0; } -static int clear_hash_cache() { +static int clear_hash_cache() +{ v3_free_htable(g_route_cache, 1, 1); g_route_cache = v3_create_htable(MIN_CACHE_SIZE, hash_from_key_fn, hash_key_equal); @@ -207,7 +207,8 @@ static int clear_hash_cache() { return 0; } -static int look_into_cache(route_hashkey_t hashkey, int * matches) { +static int look_into_cache(route_hashkey_t hashkey, int *matches) +{ int n_matches = -1; int i = 0; struct route_cache_entry * found = NULL; @@ -225,10 +226,8 @@ static int look_into_cache(route_hashkey_t hashkey, int * matches) { return n_matches; } - - - -static inline uint8_t hex_nybble_to_nybble(const uint8_t hexnybble) { +static inline uint8_t hex_nybble_to_nybble(const uint8_t hexnybble) +{ uint8_t x = toupper(hexnybble); if (isdigit(x)) { @@ -238,13 +237,14 @@ static inline uint8_t hex_nybble_to_nybble(const uint8_t hexnybble) { } } -static inline uint8_t hex_byte_to_byte(const uint8_t hexbyte[2]) { +static inline uint8_t hex_byte_to_byte(const uint8_t hexbyte[2]) +{ return ((hex_nybble_to_nybble(hexbyte[0]) << 4) + (hex_nybble_to_nybble(hexbyte[1]) & 0xf)); } - -static inline void string_to_mac(const char * str, uint8_t mac[6]) { +static inline void string_to_mac(const char *str, uint8_t mac[6]) +{ int k; for (k = 0; k < 6; k++) { @@ -252,63 +252,39 @@ static inline void string_to_mac(const char * str, uint8_t mac[6]) { } } -static inline void mac_to_string(int mac[6], char * buf) { +static inline void mac_to_string(char mac[6], char * buf) +{ snprintf(buf, 20, "%x:%x:%x:%x:%x:%x", mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]); } -#if 0 -static void ip_to_string(uint32_t addr, char * buf) { - uint32_t addr_st; - char * tmp_str; +static int add_link_entry(struct link_entry *link) +{ + int idx; - addr_st = v3_htonl(addr); - tmp_str = v3_inet_ntoa(addr_st); - - memcpy(buf, tmp_str, strlen(tmp_str)); -} -#endif - -int find_link_by_fd(SOCK sock) { - int i; - - FOREACH_LINK(i, g_links, g_first_link) { - if (g_links[i].link_sock == sock) { - return i; + for (idx = 0; idx < MAX_LINKS; idx++) { + if (g_links.links[idx] == NULL) { + g_links.links[idx] = link; + g_links.size ++; + + return idx; } } return -1; } -int vnet_add_link_entry(unsigned long dest, int type, int data_port, SOCK fd) { - int i; +static int add_route_entry(struct routing_entry *route) +{ + int idx; - for (i = 0; i < MAX_LINKS; i++) { - if (g_links[i].use == 0) { - g_links[i].dest = dest; - g_links[i].type = type; - g_links[i].link_sock = fd; - g_links[i].remote_port = data_port; - g_links[i].use = 1; - - if (g_first_link == -1) { - g_first_link = i; - } - - g_links[i].prev = g_last_link; - g_links[i].next = -1; + for (idx = 0; idx < MAX_ROUTES; idx++) { + if (g_routes.routes[idx] == NULL) { + g_routes.routes[idx] = route; + g_routes.size ++; - if (g_last_link != -1) { - g_links[g_last_link].next = i; - } - - g_last_link = i; - - g_num_links++; - - return i; + return idx; } } @@ -316,156 +292,78 @@ int vnet_add_link_entry(unsigned long dest, int type, int data_port, SOCK fd) { } -int add_sock(struct sock_list *socks, int len, int *first_sock, int *last_sock, SOCK fd) { - int i; - - for (i = 0; i < len; i++) { - if (socks[i].sock == -1) { - socks[i].sock = fd; - - if (*first_sock == -1) { - *first_sock = i; - } - - socks[i].prev = *last_sock; - socks[i].next = -1; - - if (*last_sock != -1) { - socks[*last_sock].next = i; - } - - *last_sock = i; - - return i; - } - } - return -1; -} +int vnet_add_route_entry(char src_mac[6], + char dest_mac[6], + int src_mac_qual, + int dest_mac_qual, + int link_idx, + link_type_t link_type, + int src, + link_type_t src_type) +{ + struct routing_entry *new_route = (struct routing_entry *)V3_Malloc(sizeof(struct routing_entry)); + memset(new_route, 0, sizeof(struct routing_entry)); -int vnet_add_route_entry(char src_mac[6], char dest_mac[6], int src_mac_qual, int dest_mac_qual, int dest, int type, int src, int src_type) { - int i; - - for(i = 0; i < MAX_ROUTES; i++) { - if (g_routes[i].use == 0) { - - if ((src_mac_qual != MAC_ANY) && (src_mac_qual != MAC_NONE)) { - memcpy(g_routes[i].src_mac, src_mac, 6); - } else { - memset(g_routes[i].src_mac, 0, 6); - } - - if ((dest_mac_qual != MAC_ANY) && (dest_mac_qual != MAC_NONE)) { - memcpy(g_routes[i].dest_mac, dest_mac, 6); - } else { - memset(g_routes[i].dest_mac, 0, 6); - } - - g_routes[i].src_mac_qual = src_mac_qual; - g_routes[i].dest_mac_qual = dest_mac_qual; - g_routes[i].dest = dest; - g_routes[i].type = type; - g_routes[i].src = src; - g_routes[i].src_type = src_type; - g_routes[i].use = 1; - - if (g_first_route == -1) { - g_first_route = i; - } - - g_routes[i].prev = g_last_route; - g_routes[i].next = -1; - - if (g_last_route != -1) { - g_routes[g_last_route].next = i; - } - - g_last_route = i; - - g_num_routes++; + if ((src_mac_qual != MAC_ANY) && (src_mac_qual != MAC_NONE)) { + memcpy(new_route->src_mac, src_mac, 6); + } - return i; - } + if ((dest_mac_qual != MAC_ANY) && (dest_mac_qual != MAC_NONE)) { + memcpy(new_route->dest_mac, dest_mac, 6); } + + new_route->src_mac_qual = src_mac_qual; + new_route->dest_mac_qual = dest_mac_qual; + new_route->link_idx= link_idx; + new_route->link_type = link_type; + new_route->src_link_idx = src; + new_route->src_type = src_type; + + int idx = -1; + if ((idx = add_route_entry(new_route)) == -1) + return -1; clear_hash_cache(); - return -1; -} - - -static int find_link_entry(unsigned long dest, int type) { - int i; - - FOREACH_LINK(i, g_links, g_first_link) { - if ((g_links[i].dest == dest) && - ((type == -1) || (g_links[i].type == type)) ) { - return i; - } - } - - return -1; + return idx; } -static int delete_link_entry(int index) { - int next_i; - int prev_i; +static void * delete_link_entry(int index) +{ + struct link_entry *link = NULL; + void *ret = NULL; + link_type_t type; - if (g_links[index].use == 0) { - return -1; + if (index >= MAX_LINKS || g_links.links[index] == NULL) { + return NULL; } - g_links[index].dest = 0; - g_links[index].type = 0; - g_links[index].link_sock = -1; - g_links[index].use = 0; + link = g_links.links[index]; + type = g_links.links[index]->type; - prev_i = g_links[index].prev; - next_i = g_links[index].next; + if (type == LINK_INTERFACE) + ret = (void *)g_links.links[index]->dst_dev; + else if (type == LINK_EDGE) + ret = (void *)g_links.links[index]->dst_link; - if (prev_i != -1) { - g_links[prev_i].next = g_links[index].next; - } + g_links.links[index] = NULL; + g_links.size --; - if (next_i != -1) { - g_links[next_i].prev = g_links[index].prev; - } - - if (g_first_link == index) { - g_first_link = g_links[index].next; - } - - if (g_last_link == index) { - g_last_link = g_links[index].prev; - } - - g_links[index].next = -1; - g_links[index].prev = -1; - - g_num_links--; - - return 0; -} - -int vnet_delete_link_entry_by_addr(unsigned long dest, int type) { - int index = find_link_entry(dest, type); - - if (index == -1) { - return -1; - } - - return delete_link_entry(index); + V3_Free(link); + + return ret; } - static int find_route_entry(char src_mac[6], char dest_mac[6], int src_mac_qual, int dest_mac_qual, - int dest, - int type, + int link_idx, + link_type_t link_type, int src, - int src_type) { + link_type_t src_type) +{ int i; char temp_src_mac[6]; char temp_dest_mac[6]; @@ -482,61 +380,37 @@ static int find_route_entry(char src_mac[6], memset(temp_dest_mac, 0, 6); } - FOREACH_LINK(i, g_routes, g_first_route) { - if ( (memcmp(temp_src_mac, g_routes[i].src_mac, 6) == 0) && - (memcmp(temp_dest_mac, g_routes[i].dest_mac, 6) == 0) && - (g_routes[i].src_mac_qual == src_mac_qual) && - (g_routes[i].dest_mac_qual == dest_mac_qual) && - ( (type == -1) || - ( (type == g_routes[i].type) && (g_routes[i].dest == dest)) ) && - ( (src_type == -1) || - ( (src_type == g_routes[i].src_type) && (g_routes[i].src == src)) ) ) { - return i; - } - } + for (i = 0; isrc_mac, 6) == 0) && + (memcmp(temp_dest_mac, g_routes.routes[i]->dest_mac, 6) == 0) && + (g_routes.routes[i]->src_mac_qual == src_mac_qual) && + (g_routes.routes[i]->dest_mac_qual == dest_mac_qual) && + ((link_type == LINK_ANY) || + ((link_type == g_routes.routes[i]->link_type) && (g_routes.routes[i]->link_idx == link_idx))) && + ((src_type == LINK_ANY) || + ((src_type == g_routes.routes[i]->src_type) && (g_routes.routes[i]->src_link_idx == src)))) { + return i; + } + } + } return -1; } -static int delete_route_entry(int index) { - int next_i; - int prev_i; - - memset(g_routes[index].src_mac, 0, 6); - memset(g_routes[index].dest_mac, 0, 6); +static int delete_route_entry(int index) +{ + struct routing_entry *route; - g_routes[index].dest = 0; - g_routes[index].src = 0; - g_routes[index].src_mac_qual = 0; - g_routes[index].dest_mac_qual = 0; - g_routes[index].type = -1; - g_routes[index].src_type = -1; - g_routes[index].use = 0; + if (index >= MAX_ROUTES || g_routes.routes[index] == NULL) + return -1; - prev_i = g_routes[index].prev; - next_i = g_routes[index].next; - - if (prev_i != -1) { - g_routes[prev_i].next = g_routes[index].next; - } - - if (next_i != -1) { - g_routes[next_i].prev = g_routes[index].prev; - } - - if (g_first_route == index) { - g_first_route = g_routes[index].next; - } + route = g_routes.routes[index]; + g_routes.routes[index] = NULL; + g_routes.size --; - if (g_last_route == index) { - g_last_route = g_routes[index].prev; - } + V3_Free(route); - g_routes[index].next = -1; - g_routes[index].prev = -1; - - g_num_routes--; - clear_hash_cache(); return 0; @@ -546,158 +420,23 @@ int vnet_delete_route_entry_by_addr(char src_mac[6], char dest_mac[6], int src_mac_qual, int dest_mac_qual, - int dest, - int type, + int link_idx, + link_type_t type, int src, - int src_type) { + link_type_t src_type) +{ int index = find_route_entry(src_mac, dest_mac, src_mac_qual, - dest_mac_qual, dest, type, src, src_type); + dest_mac_qual, link_idx, type, src, src_type); if (index == -1) { return -1; } - delete_route_entry(index); - - return 0; + return delete_route_entry(index); } -int delete_sock(struct sock_list * socks, int * first_sock, int * last_sock, SOCK fd) { - int i; - int prev_i; - int next_i; - - - FOREACH_SOCK(i, socks, (*first_sock)) { - if (socks[i].sock == fd) { - V3_Close_Socket(socks[i].sock); - socks[i].sock = -1; - - prev_i = socks[i].prev; - next_i = socks[i].next; - - if (prev_i != -1) { - socks[prev_i].next = socks[i].next; - } - - if (next_i != -1) { - socks[next_i].prev = socks[i].prev; - } - - if (*first_sock == i) { - *first_sock = socks[i].next; - } - - if (*last_sock == i) { - *last_sock = socks[i].prev; - } - - socks[i].next = -1; - socks[i].prev = -1; - - return 0; - } - } - return -1; -} - -//setup the topology of the testing network -static void store_topologies(SOCK fd) { - int i; - int src_mac_qual = MAC_ANY; - int dest_mac_qual = MAC_ANY; - uint_t dest; -#ifndef VNET_SERVER - dest = (0 | 172 << 24 | 23 << 16 | 1 ); - PrintDebug("VNET: store_topologies. NOT VNET_SERVER, dest = %x\n", dest); -#else - dest = (0 | 172 << 24 | 23 << 16 | 2 ); - PrintDebug("VNET: store_topologies. VNET_SERVER, dest = %x\n", dest); -#endif - - int type = UDP_TYPE; - int src = 0; - int src_type= LINK_ANY; //ANY_SRC_TYPE - int data_port = 22; - - //store link table - for (i = 0; i < MAX_LINKS; i++) { - if (g_links[i].use == 0) { - g_links[i].dest = (int)dest; - g_links[i].type = type; - g_links[i].link_sock = fd; - g_links[i].remote_port = data_port; - g_links[i].use = 1; - - if (g_first_link == -1) { - g_first_link = i; - } - - g_links[i].prev = g_last_link; - g_links[i].next = -1; - - if (g_last_link != -1) { - g_links[g_last_link].next = i; - } - - g_last_link = i; - - g_num_links++; - PrintDebug("VNET: store_topologies. new link: socket: %d, remote %x:[%d]\n", g_links[i].link_sock, (uint_t)g_links[i].dest, g_links[i].remote_port); - } - } - - - //store route table - - type = LINK_EDGE; - dest = 0; - - for (i = 0; i < MAX_ROUTES; i++) { - if (g_routes[i].use == 0) { - if ((src_mac_qual != MAC_ANY) && (src_mac_qual != MAC_NONE)) { - // memcpy(g_routes[i].src_mac, src_mac, 6); - } else { - memset(g_routes[i].src_mac, 0, 6); - } - - if ((dest_mac_qual != MAC_ANY) && (dest_mac_qual != MAC_NONE)) { - // memcpy(g_routes[i].dest_mac, dest_mac, 6); - } else { - memset(g_routes[i].dest_mac, 0, 6); - } - - g_routes[i].src_mac_qual = src_mac_qual; - g_routes[i].dest_mac_qual = dest_mac_qual; - g_routes[i].dest = (int)dest; - g_routes[i].type = type; - g_routes[i].src = src; - g_routes[i].src_type = src_type; - - g_routes[i].use = 1; - - if (g_first_route == -1) { - g_first_route = i; - } - - g_routes[i].prev = g_last_route; - g_routes[i].next = -1; - - if (g_last_route != -1) { - g_routes[g_last_route].next = i; - } - - g_last_route = i; - - g_num_routes++; - - PrintDebug("VNET: store_topologies. new route: src_mac: %s, dest_mac: %s, dest: %d\n", g_routes[i].src_mac, g_routes[i].dest_mac, dest); - - } - } -} - -static int match_route(uint8_t * src_mac, uint8_t * dst_mac, int src_type, int src_index, int * matches) { +static int match_route(uint8_t *src_mac, uint8_t *dst_mac, link_type_t src_type, int src_index, int *matches) +{ int values[MAX_ROUTES]; int matched_routes[MAX_ROUTES]; @@ -706,99 +445,100 @@ static int match_route(uint8_t * src_mac, uint8_t * dst_mac, int src_type, int s int max = 0; int no = 0; int exact_match = 0; - - FOREACH_ROUTE(i, g_routes, g_first_route) { - if ((g_routes[i].src_type != LINK_ANY) && - ((g_routes[i].src_type != src_type) || - ((g_routes[i].src != src_index) && - (g_routes[i].src != -1)))) { - PrintDebug("Vnet: MatchRoute: Source route is on and does not match\n"); - continue; - } + + for(i = 0; isrc_type != LINK_ANY) && + ((g_routes.routes[i]->src_type != src_type) || + ((g_routes.routes[i]->src_link_idx != src_index) && + (g_routes.routes[i]->src_link_idx != -1)))) { + PrintDebug("Vnet: MatchRoute: Source route is on and does not match\n"); + continue; + } - if ( (g_routes[i].dest_mac_qual == MAC_ANY) && - (g_routes[i].src_mac_qual == MAC_ANY) ) { - matched_routes[num_matches] = i; - values[num_matches] = 3; - num_matches++; - } + if ((g_routes.routes[i]->dest_mac_qual == MAC_ANY) && + (g_routes.routes[i]->src_mac_qual == MAC_ANY)) { + matched_routes[num_matches] = i; + values[num_matches] = 3; + num_matches++; + } - if (memcmp((void *)&g_routes[i].src_mac, (void *)src_mac, 6) == 0) { - if (g_routes[i].src_mac_qual != MAC_NOT) { - if (g_routes[i].dest_mac_qual == MAC_ANY) { - matched_routes[num_matches] = i; - values[num_matches] = 6; + if (memcmp((void *)&g_routes.routes[i]->src_mac, (void *)src_mac, 6) == 0) { + if (g_routes.routes[i]->src_mac_qual != MAC_NOT) { + if (g_routes.routes[i]->dest_mac_qual == MAC_ANY) { + matched_routes[num_matches] = i; + values[num_matches] = 6; - num_matches++; - } else if (memcmp((void *)&g_routes[i].dest_mac, (void *)dst_mac, 6) == 0) { - if (g_routes[i].dest_mac_qual != MAC_NOT) { - matched_routes[num_matches] = i; - values[num_matches] = 8; - exact_match = 1; - num_matches++; + num_matches++; + } else if (memcmp((void *)&g_routes.routes[i]->dest_mac, (void *)dst_mac, 6) == 0) { + if (g_routes.routes[i]->dest_mac_qual != MAC_NOT) { + matched_routes[num_matches] = i; + values[num_matches] = 8; + exact_match = 1; + num_matches++; + } } - } + } } - } - if (memcmp((void *)&g_routes[i].dest_mac, (void *)dst_mac, 6) == 0) { - if (g_routes[i].dest_mac_qual != MAC_NOT) { - if (g_routes[i].src_mac_qual == MAC_ANY) { - matched_routes[num_matches] = i; - values[num_matches] = 6; + if (memcmp((void *)&g_routes.routes[i]->dest_mac, (void *)dst_mac, 6) == 0) { + if (g_routes.routes[i]->dest_mac_qual != MAC_NOT) { + if (g_routes.routes[i]->src_mac_qual == MAC_ANY) { + matched_routes[num_matches] = i; + values[num_matches] = 6; - num_matches++; - } else if (memcmp((void *)&g_routes[i].src_mac, (void *)src_mac, 6) == 0) { - if (g_routes[i].src_mac_qual != MAC_NOT) { - if (exact_match == 0) { - matched_routes[num_matches] = i; - values[num_matches] = 8; - num_matches++; - } + num_matches++; + } else if (memcmp((void *)&g_routes.routes[i]->src_mac, (void *)src_mac, 6) == 0) { + if (g_routes.routes[i]->src_mac_qual != MAC_NOT) { + if (exact_match == 0) { + matched_routes[num_matches] = i; + values[num_matches] = 8; + num_matches++; + } + } } - } + } } - } - if ((g_routes[i].dest_mac_qual == MAC_NOT) && - (memcmp((void *)&g_routes[i].dest_mac, (void *)dst_mac, 6) != 0)) { - if (g_routes[i].src_mac_qual == MAC_ANY) { - matched_routes[num_matches] = i; - values[num_matches] = 5; - num_matches++; - } else if (memcmp((void *)&g_routes[i].src_mac, (void *)src_mac, 6) == 0) { - if (g_routes[i].src_mac_qual != MAC_NOT) { - matched_routes[num_matches] = i; - values[num_matches] = 7; - num_matches++; - } + if ((g_routes.routes[i]->dest_mac_qual == MAC_NOT) && + (memcmp((void *)&g_routes.routes[i]->dest_mac, (void *)dst_mac, 6) != 0)) { + if (g_routes.routes[i]->src_mac_qual == MAC_ANY) { + matched_routes[num_matches] = i; + values[num_matches] = 5; + num_matches++; + } else if (memcmp((void *)&g_routes.routes[i]->src_mac, (void *)src_mac, 6) == 0) { + if (g_routes.routes[i]->src_mac_qual != MAC_NOT) { + matched_routes[num_matches] = i; + values[num_matches] = 7; + num_matches++; + } + } } - } - if ((g_routes[i].src_mac_qual == MAC_NOT) && - (memcmp((void *)&g_routes[i].src_mac, (void *)src_mac, 6) != 0)) { - if (g_routes[i].dest_mac_qual == MAC_ANY) { - matched_routes[num_matches] = i; - values[num_matches] = 5; - num_matches++; - } else if (memcmp((void *)&g_routes[i].dest_mac, (void *)dst_mac, 6) == 0) { - if (g_routes[i].dest_mac_qual != MAC_NOT) { - matched_routes[num_matches] = i; - values[num_matches] = 7; - num_matches++; - } + if ((g_routes.routes[i]->src_mac_qual == MAC_NOT) && + (memcmp((void *)&g_routes.routes[i]->src_mac, (void *)src_mac, 6) != 0)) { + if (g_routes.routes[i]->dest_mac_qual == MAC_ANY) { + matched_routes[num_matches] = i; + values[num_matches] = 5; + num_matches++; + } else if (memcmp((void *)&g_routes.routes[i]->dest_mac, (void *)dst_mac, 6) == 0) { + if (g_routes.routes[i]->dest_mac_qual != MAC_NOT) { + matched_routes[num_matches] = i; + values[num_matches] = 7; + num_matches++; + } + } } - } - } - //end FOREACH_ROUTE - - FOREACH_ROUTE(i, g_routes, g_first_route) { - if ((memcmp((void *)&g_routes[i].src_mac, (void *)src_mac, 6) == 0) && - (g_routes[i].dest_mac_qual == MAC_NONE) && - ((g_routes[i].src_type == LINK_ANY) || - ((g_routes[i].src_type == src_type) && - ((g_routes[i].src == src_index) || - (g_routes[i].src == -1))))) { + } + }//end for + + for(i = 0; isrc_mac, (void *)src_mac, 6) == 0) && + (g_routes.routes[i]->dest_mac_qual == MAC_NONE) && + ((g_routes.routes[i]->src_type == LINK_ANY) || + ((g_routes.routes[i]->src_type == src_type) && + ((g_routes.routes[i]->src_link_idx == src_index) || + (g_routes.routes[i]->src_link_idx == -1))))) { matched_routes[num_matches] = i; values[num_matches] = 4; PrintDebug("Vnet: MatchRoute: We matched a default route (%d)\n", i); @@ -826,18 +566,20 @@ static int match_route(uint8_t * src_mac, uint8_t * dst_mac, int src_type, int s return no; } - -static int process_udpdata() { - struct raw_ethernet_pkt * pt; +#if 0 +// TODO: To be removed +static int process_udpdata() +{ + struct ethernet_pkt * pt; uint32_t dest = 0; uint16_t remote_port = 0; SOCK link_sock = g_udp_sockfd; - int length = sizeof(struct raw_ethernet_pkt) - (2 * sizeof(int)); //minus the "size" and "type" + int length = sizeof(struct ethernet_pkt) - (2 * sizeof(int)); //minus the "size" and "type" //run in a loop to get packets from outside network, adding them to the incoming packet queue while (1) { - pt = (struct raw_ethernet_pkt *)V3_Malloc(sizeof(struct raw_ethernet_pkt)); + pt = (struct ethernet_pkt *)V3_Malloc(sizeof(struct ethernet_pkt)); if (pt == NULL){ PrintError("Vnet: process_udp: Malloc fails\n"); @@ -856,14 +598,10 @@ static int process_udpdata() { PrintDebug("Vnet: process_udp: get packet\n"); print_packet(pt->data, pt->size); - - - //V3_Yield(); } } - - +// TODO: To be removed static int indata_handler( ) { if (!use_tcp) @@ -872,6 +610,7 @@ static int indata_handler( ) return 0; } +// TODO: To be removed static int start_recv_data() { if (use_tcp){ @@ -899,33 +638,46 @@ static int start_recv_data() return 0; } +static void store_test_topologies(SOCK fd) +{ + int i; + int src_mac_qual = MAC_ANY; + int dest_mac_qual = MAC_ANY; + uint_t dest; +#ifndef VNET_SERVER + dest = (0 | 172 << 24 | 23 << 16 | 1 ); + PrintDebug("VNET: store_topologies. NOT VNET_SERVER, dest = %x\n", dest); +#else + dest = (0 | 172 << 24 | 23 << 16 | 2 ); + PrintDebug("VNET: store_topologies. VNET_SERVER, dest = %x\n", dest); +#endif -static inline int if_write_pkt(struct vnet_if_device *iface, struct raw_ethernet_pkt * pkt) { - return iface->input((uchar_t *)pkt->data, pkt->size); + int type = UDP_TYPE; + int src = 0; + int src_type= LINK_ANY; //ANY_SRC_TYPE + int data_port = 22; } -static int handle_one_pkt(struct raw_ethernet_pkt * pkt) { - int src_link_index = 0; //the value of src_link_index of udp always is 0 +#endif + +static int handle_one_pkt(struct ethernet_pkt * pkt) +{ + int src_link_index = -1; //the value of src_link_index of udp always is 0 int i; char src_mac[6]; char dst_mac[6]; - int matches[g_num_routes]; + int matches[MAX_ROUTES]; int num_matched_routes = 0; - struct HEADERS headers; + struct in_pkt_header header; // get the ethernet and ip headers from the packet - memcpy((void *)&headers, (void *)pkt->data, sizeof(headers)); - - int j; - for (j = 0;j < 6; j++) { - src_mac[j] = headers.ethernetsrc[j]; - dst_mac[j] = headers.ethernetdest[j]; - } + memcpy((void *)&header, (void *)pkt->data, sizeof(header)); + memcpy(src_mac, header.ethernetsrc, 6); + memcpy(dst_mac, header.ethernetdest, 6); - -#ifdef DEBUG +#ifdef CONFIG_DEBUG_VNET char dest_str[18]; char src_str[18]; @@ -941,11 +693,11 @@ static int handle_one_pkt(struct raw_ethernet_pkt * pkt) { num_matched_routes = look_into_cache((route_hashkey_t)hash_key, matches); if (num_matched_routes == -1) { //no match - num_matched_routes = match_route(src_mac, dst_mac, pkt->type, src_link_index, matches); + num_matched_routes = match_route(src_mac, dst_mac, LINK_ANY, src_link_index, matches); - if (num_matched_routes > 0) { - add_route_to_cache(hash_key, num_matched_routes,matches); - } + if (num_matched_routes > 0) { + add_route_to_cache(hash_key, num_matched_routes,matches); + } } PrintDebug("Vnet: HandleDataOverLink: Matches=%d\n", num_matched_routes); @@ -953,103 +705,69 @@ static int handle_one_pkt(struct raw_ethernet_pkt * pkt) { for (i = 0; i < num_matched_routes; i++) { int route_index = -1; int link_index = -1; - int dev_index = -1; + int pkt_len = 0; route_index = matches[i]; PrintDebug("Vnet: HandleDataOverLink: Forward packet from link according to Route entry %d\n", route_index); - - if (g_routes[route_index].type == LINK_EDGE) { - link_index = g_routes[route_index].dest; - - if(g_links[link_index].type == UDP_TYPE) { - int size; - - PrintDebug("===Vnet: HandleDataOverLink: Serializing UDP Packet to link_sock [%d], dest [%x], remote_port [%d], size [%d]\n", g_links[link_index].link_sock, (uint_t)g_links[link_index].dest, g_links[link_index].remote_port, (int)pkt->size); - - if ((size = V3_SendTo_IP(g_links[link_index].link_sock, g_links[link_index].dest, g_links[link_index].remote_port, pkt->data, pkt->size)) != pkt->size) { - PrintError("Vnet: sending by UDP Exception, %x\n", size); - return -1; - } - - PrintDebug("Vnet: HandleDataOverLink: Serializing UDP Packet to link_sock [%d], dest [%x], remote_port [%d], size [%d]\n", g_links[link_index].link_sock, (uint_t)g_links[link_index].dest, g_links[link_index].remote_port, (int)pkt->size); - - } else if (g_links[link_index].type == TCP_TYPE) { - - } - } else if (g_routes[route_index].type == LINK_INTERFACE) { - dev_index = g_routes[route_index].dest; + link_index = g_routes.routes[route_index]->link_idx; + if (link_index < 0 || link_index > MAX_LINKS) + continue; + + struct link_entry *link = g_links.links[link_index]; + if (link == NULL) + continue; + + pkt_len = pkt->size; + if (g_routes.routes[route_index]->link_type == LINK_EDGE) { + + // TODO: apply the header in the beginning of the packet to be sent + if ((link->dst_link->input(pkt->data, pkt_len, NULL)) != pkt_len) + return -1; + } else if (g_routes.routes[route_index]->link_type == LINK_INTERFACE) { + - PrintDebug("Writing Packet to device=%s\n", g_devices[dev_index].device->name); - - if (if_write_pkt(g_devices[dev_index].device, pkt) == -1) { - PrintDebug("Can't write output packet to link\n"); - return -1; - } + if ((link->dst_link->input(pkt->data, pkt_len, NULL)) != pkt_len) + return -1; } else { - PrintDebug("Vnet: Wrong Edge type\n"); + PrintError("Vnet: Wrong Edge type\n"); + return -1; } } return 0; } -static int send_ethernet_pkt(char * buf, int length) { - struct raw_ethernet_pkt * pt; +static int send_ethernet_pkt(char *buf, int length) +{ + struct ethernet_pkt *pt; - pt = (struct raw_ethernet_pkt *)V3_Malloc(sizeof(struct raw_ethernet_pkt)); - raw_ethernet_packet_init(pt, buf, length); //====here we copy sending data once + pt = (struct ethernet_pkt *)V3_Malloc(sizeof(struct ethernet_pkt)); + ethernet_packet_init(pt, buf, length); //====here we copy sending data once PrintDebug("VNET: vm_send_pkt: transmitting packet: (size:%d)\n", (int)pt->size); print_packet((char *)buf, length); v3_enqueue(g_inpkt_q, (addr_t)pt); + return 0; - } -int v3_Send_pkt(uchar_t *buf, int length) { +int v3_vnet_send_pkt(uchar_t *buf, int length) +{ PrintDebug("VNET: In V3_Send_pkt: pkt length %d\n", length); return send_ethernet_pkt((char *)buf, length); } -static int add_device_to_table(struct vnet_if_device*device, int type) { - int i; - - for (i = 0; i < MAX_DEVICES; i++) { - if (g_devices[i].use == 0) { - g_devices[i].type = type; - g_devices[i].use = 1; - - if (g_first_device == -1) { - g_first_device = i; - } - - g_devices[i].prev = g_last_device; - g_devices[i].next = -1; - - if (g_last_device != -1) { - g_devices[g_last_device].next = i; - } - - g_last_device = i; - g_num_devices++; - - return i; - } - } - - return -1; -} - -static int search_device(char *device_name) { +static int search_device(char *device_name) +{ int i; - for (i = 0; i < MAX_DEVICES; i++) { - if (g_devices[i].use == 1) { - if (!strcmp(device_name, g_devices[i].device->name)) { + for (i = 0; i < MAX_LINKS; i++) { + if (g_links.links[i] != NULL && g_links.links[i]->type == LINK_INTERFACE) { + if (!strcmp(device_name, g_links.links[i]->dst_dev->name)) { return i; } } @@ -1058,104 +776,75 @@ static int search_device(char *device_name) { return -1; } -static struct vnet_if_device * delete_device_from_table(int index) { - int next_i; - int prev_i; - struct vnet_if_device * device = NULL; - - if (g_devices[index].use == 0) { - return NULL; - } - - g_devices[index].use = 0; - - prev_i = g_devices[index].prev; - next_i = g_devices[index].next; - - if (prev_i != -1) { - g_devices[prev_i].next = g_devices[index].next; - } - - if (next_i != -1) { - g_devices[next_i].prev = g_devices[index].prev; - } - - if (g_first_device == index) { - g_first_device = g_devices[index].next; - } - - if (g_last_device == index) { - g_last_device = g_devices[index].prev; - } - - g_devices[index].next = -1; - g_devices[index].prev = -1; - - device = g_devices[index].device; - g_devices[index].device = NULL; - - g_num_devices--; - - return device; -} - +int vnet_register_device(struct vm_device *vdev, + char *dev_name, + uchar_t mac[6], + int (*netif_input)(uchar_t * pkt, uint_t size, void *private_data), + void *data) +{ + struct vnet_if_device *if_dev; -int vnet_register_device(char * dev_name, int (*netif_input)(uchar_t * pkt, uint_t size), void * data) { - struct vnet_if_device * dev; + int idx = search_device(dev_name); + if (idx != -1) + return -1; - dev = (struct vnet_if_device *)V3_Malloc(sizeof(struct vnet_if_device)); + if_dev = (struct vnet_if_device *)V3_Malloc(sizeof(struct vnet_if_device)); - if (dev == NULL){ + if (if_dev == NULL){ PrintError("VNET: Malloc fails\n"); return -1; } - strncpy(dev->name, dev_name, 50); - dev->input = netif_input; - dev->data = data; - - if (add_device_to_table(dev, GENERAL_NIC) == -1) { - return -1; - } + strcpy(if_dev->name, dev_name); + strncpy(if_dev->mac_addr, mac, 6); + if_dev->dev = vdev; + if_dev->input = netif_input; + if_dev->private_data = data; + + struct link_entry *link = (struct link_entry *)V3_Malloc(sizeof(struct link_entry)); + + link->type = LINK_INTERFACE; + link->dst_dev = if_dev; + + idx = add_link_entry(link); - return 0; + return idx; } -int vnet_unregister_device(char * dev_name) { - int i; +int vnet_unregister_device(char *dev_name) +{ + int idx; - i = search_device(dev_name); + idx = search_device(dev_name); - if (i == -1) { + if (idx == -1) { return -1; } - struct vnet_if_device * device = delete_device_from_table(i); - + struct vnet_if_device *device = (struct vnet_if_device *)delete_link_entry(idx); if (device == NULL) { return -1; } V3_Free(device); - return 0; -} - -int v3_Register_pkt_event(int (*netif_input)(uchar_t * pkt, uint_t size)) { - return vnet_register_device("NE2000", netif_input, NULL); + return idx; } -int v3_vnet_pkt_process() { - struct raw_ethernet_pkt * pt; +int v3_vnet_pkt_process() +{ + struct ethernet_pkt *pt; PrintDebug("VNET: In vnet_check\n"); - while ((pt = (struct raw_ethernet_pkt *)v3_dequeue(g_inpkt_q)) != NULL) { + while ((pt = (struct ethernet_pkt *)v3_dequeue(g_inpkt_q)) != NULL) { PrintDebug("VNET: In vnet_check: pt length %d, pt type %d\n", (int)pt->size, (int)pt->type); v3_hexdump(pt->data, pt->size, NULL, 0); if(handle_one_pkt(pt)) { PrintDebug("VNET: vnet_check: handle one packet!\n"); + }else { + PrintError("VNET: vnet_check: fail to forward one packet, discard it!\n"); } V3_Free(pt); //be careful here @@ -1164,52 +853,31 @@ int v3_vnet_pkt_process() { return 0; } -static void init_link_table() { - int i; - for (i = 0; i < MAX_LINKS; i++) { - g_links[i].use = 0; - g_links[i].next = -1; - g_links[i].prev = -1; - } - - g_first_link = -1; - g_last_link = -1; - g_num_links = 0; -} - -static void init_device_table() { +static void init_empty_link_table() +{ int i; - for (i = 0; i < MAX_DEVICES; i++) { - g_devices[i].use = 0; - g_devices[i].next = -1; - g_devices[i].prev = -1; - } + for (i = 0; i < MAX_LINKS; i++) + g_links.links[i] = NULL; + - g_first_device = -1; - g_last_device = -1; - g_num_devices = 0; + g_links.size = 0; } -static void init_route_table() { +static void init_empty_route_table() +{ int i; - for (i = 0; i < MAX_ROUTES; i++) { - g_routes[i].use = 0; - g_routes[i].next = -1; - g_routes[i].prev = -1; - } - - g_first_route = -1; - g_last_route = -1; - g_num_routes = 0; + for (i = 0; i < MAX_ROUTES; i++) + g_routes.routes[i] = NULL; + + g_links.size = 0; } static void init_tables() { - init_link_table(); - init_device_table(); - init_route_table(); + init_empty_link_table(); + init_empty_route_table(); init_route_cache(); } @@ -1221,19 +889,61 @@ static void init_pkt_queue() v3_init_queue(g_inpkt_q); } +#if 0 +// TODO: +static int init_routing_tables(struct routing_entry *route_tab, uint16_t size) +{ + //struct routing_entry *route; -void v3_vnet_init() { + return 0; +} + + +// TODO: +static int init_link_tables(struct link_entry *link_tab, uint16_t size) +{ + //struct link_entry *link; + + return 0; +} + +#endif + +struct table_init_info { + addr_t routing_table_start; + uint16_t routing_table_size; + addr_t link_table_start; + uint16_t link_table_size; +}; - PrintDebug("VNET Init: Vnet input queue successful.\n"); +static int handle_init_tables_hcall(struct guest_info * info, uint_t hcall_id, void *priv_data) +{ + uint8_t *buf = NULL; + addr_t info_addr = (addr_t)info->vm_regs.rcx; - init_tables(); + if (guest_va_to_host_va(info, info_addr, (addr_t *)&(buf)) == -1) { + PrintError("Could not translate buffer address\n"); + return -1; + } - init_pkt_queue(); + //struct table_init_info *init_info = (struct table_init_info *)buf; + + + return 0; +} + + +void v3_vnet_init(struct guest_info *vm) +{ + init_tables(); + init_pkt_queue(); - //store_topologies(udp_data_socket); + v3_register_hypercall(vm, VNET_INITAB_HCALL, handle_init_tables_hcall, NULL); + + //store_test_topologies(udp_data_socket); - start_recv_data(); + PrintDebug("VNET Initied\n"); }