/* This file is part of Netsukuku * (c) Copyright 2006 Andrea Lo Pumo aka AlpT * * This source code is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as published * by the Free Software Foundation; either version 2 of the License, * or (at your option) any later version. * * This source code is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. * Please refer to the GNU Public License for more details. * * You should have received a copy of the GNU Public License along with * this source code; if not, write to: * Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef SNSD_H #define SNSD_H #include "inet.h" #include "crypto.h" #include "endianness.h" #include "llist.c" /* * SNSD definitions */ #define SNSD_MAX_RECORDS 256 /* Number of maximum SNSD records which can be stored in an andna_cache */ #define SNSD_MAX_QUEUE_RECORDS 1 /* There can be only one snsd record for the queued hnames */ #define SNSD_MAX_REC_SERV 16 /* Maximum records per service */ #define SNSD_ALL_SERVICE (-1) /* A service number equal to -1 refers to all the available services */ #define SNSD_DEFAULT_SERVICE 0 #define SNSD_DEFAULT_PROTO 1 /* tcp */ #define SNSD_DEFAULT_PRIO 16 #define SNSD_DEFAULT_WEIGHT 1 #define SNSD_WEIGHT(x) ((x) & 0x7f) /* The snsd weight has to be <= 127 */ /* Fields used in the syntax for the `snsd_nodes' file: * hostname:snsd_hostname:service:priority:weight[:pub_key_file] */ #define MAX_SNSD_LINE_SZ (ANDNA_MAX_HNAME_LEN*4) #define MAX_SNSD_FIELDS 6 #define MIN_SNSD_FIELDS 5 /* * snsd_node flags * */ #define SNSD_NODE_HNAME 1 /* A hname is associated in the snsd record */ #define SNSD_NODE_IP (1<<1) /* An IP is associated in the snsd record */ #define SNSD_NODE_MAIN_IP (1<<2) /* This is the first IP registered to the hname, it can't be deleted */ /* * snsd_node, snsd_service, snsd_prio * * They are three linked list. They are all orthogonal to each other. * The snsd_node llist is inside each snsd_prio struct which is inside each * snsd_service struct: * || service X <-> service Y <-> service Z <-> ... || * | | | * V V V * snsd_prio_1-->node snsd_prio_1-->node ...-->... * | | * V V * snsd_prio_2-->node ...-->node * | * V * ...-->node * * Using this schema, we don't have to sort them, ever. The nodes are already * grouped by service and in each service by priority. * * These llist are directly embedded in the andna_cache, lcl_cache and * rh_cache. * * The andna_cache keeps all the SNSD nodes associated to the registered * hostname. The andna_cache doesn't need `snsd_node->pubkey'. * * The rh_cache stores only records which are of the SNSD_NODE_IP type. * * When the lcl_cache is saved, its snsd llist is discarded because it is * loaded each time from the /etc/netsukuku/snsd_nodes file. */ struct snsd_node { LLIST_HDR(struct snsd_node); u_int record[MAX_IP_INT]; /* It can be the IP or the md5 hash of the hname of the SNSD node */ RSA *pubkey; /* pubkey of the snsd_node */ char flags; /* This will tell us what `record' is */ u_char weight; }; typedef struct snsd_node snsd_node; /* In the pack of a snsd_node we don't save the `pubkey' */ #define SNSD_NODE_PACK_SZ (MAX_IP_SZ+sizeof(char)*2) struct snsd_prio { LLIST_HDR(struct snsd_prio); u_char prio; /* Priority of the SNSD node */ snsd_node *node; }; typedef struct snsd_prio snsd_prio; #define SNSD_PRIO_PACK_SZ (sizeof(char)) struct snsd_service { LLIST_HDR(struct snsd_service); u_short service; /* Service number */ u_char proto; /* TCP/UDP, see the `proto_str' static array below */ snsd_prio *prio; }; typedef struct snsd_service snsd_service; #define SNSD_SERVICE_PACK_SZ (sizeof(u_short)+sizeof(u_char)) /* * * * * * snsd structs package * * * * */ struct snsd_node_llist_hdr { u_short count; /* # of snsd_node structs packed in the body */ } _PACKED_; INT_INFO snsd_node_llist_hdr_iinfo = { 1, {INT_TYPE_16BIT}, {0}, {1} }; /* * the body of the pkt is: * * struct snsd_node_pack { * u_int record[MAX_IP_INT]; * char flags; * u_char weight; * } pack[hdr.nodes]; */ #define SNSD_NODE_LLIST_PACK_SZ(head) (list_count((head))*SNSD_NODE_PACK_SZ \ + sizeof(struct snsd_node_llist_hdr)) struct snsd_prio_llist_hdr { u_short count; /* number of structs packed in the body */ } _PACKED_; INT_INFO snsd_prio_llist_hdr_iinfo = { 1, {INT_TYPE_16BIT}, {0}, {1} }; /* * the body is: * * snsd_prio_pack { * u_char prio; * char snsd_node_llist_pack[SNSD_NODE_LLIST_PACK_SZ]; * } pack[hdr.count]; */ #define SNSD_PRIO_LLIST_PACK_SZ(head) \ ({ \ snsd_prio *_p=(head); \ int _priosz=0; \ \ list_for(_p) { \ _priosz+=SNSD_NODE_LLIST_PACK_SZ(_p->node); \ _priosz+=SNSD_PRIO_PACK_SZ; \ } \ _priosz+=sizeof(struct snsd_prio_llist_hdr); \ _priosz; \ }) struct snsd_service_llist_hdr { u_short count; } _PACKED_; INT_INFO snsd_service_llist_hdr_iinfo = { 1, {INT_TYPE_16BIT}, {0}, {1} }; /* * the body is: * u_short service; * u_char proto; * char snsd_prio_llist_pack[SNSD_PRIO_LLIST_PACK_SZ]; */ #define SNSD_SERVICE_LLIST_PACK_SZ(head) \ ({ \ snsd_service *_s=(head); \ int _srvsz=0; \ if(_s) { \ list_for(_s) { \ _srvsz+=SNSD_PRIO_LLIST_PACK_SZ(_s->prio); \ _srvsz+=SNSD_SERVICE_PACK_SZ; \ } \ _srvsz+=sizeof(struct snsd_service_llist_hdr); \ } \ _srvsz; \ }) #define SNSD_SERVICE_SINGLE_PACK_SZ(head) \ ({ SNSD_SERVICE_PACK_SZ + \ SNSD_PRIO_LLIST_PACK_SZ((head)->prio); \ }) #define SNSD_SERVICE_MAX_PACK_SZ \ ( ( (SNSD_NODE_PACK_SZ + SNSD_PRIO_PACK_SZ) * \ (SNSD_MAX_REC_SERV) ) + \ SNSD_SERVICE_PACK_SZ + \ sizeof(struct snsd_prio_llist_hdr) + \ sizeof(struct snsd_service_llist_hdr) \ ) #define SNSD_SERVICE_MAX_LLIST_PACK_SZ \ (( SNSD_NODE_PACK_SZ + SNSD_PRIO_PACK_SZ + SNSD_SERVICE_PACK_SZ + \ sizeof(struct snsd_prio_llist_hdr))*SNSD_MAX_RECORDS + \ sizeof(struct snsd_service_llist_hdr) \ ) /* * This array is used to associate a 8bit number to a protocol name. * The number is the position of the protocol name in this array. * For example: "tcp" is in the first position so its associated number is 1, * while the number for "udp" is 2. * * Since we limit the proto number to an 8bit number, there can be only 255 * protocols in this array. */ const static char proto_str[][5] = { {"tcp"}, {"udp"}, {0}, }; /* * * * * Functions' declaration * * * * */ void snsd_cache_init(int family); u_char str_to_snsd_proto(char *proto_name); const char *snsd_proto_to_str(u_char proto); int str_to_snsd_service(char *str, int *service, u_char * proto); struct servent *snsd_service_to_str(int service, u_char proto, char **service_str, char **proto_str); snsd_service *snsd_find_service(snsd_service * sns, u_short service, u_char proto); snsd_service *snsd_add_service(snsd_service ** head, u_short service, u_char proto); snsd_prio *snsd_find_prio(snsd_prio * snp, u_char prio); snsd_prio *snsd_add_prio(snsd_prio ** head, u_char prio); snsd_node *snsd_find_node_by_record(snsd_node * snd, u_int record[MAX_IP_INT]); snsd_node *snsd_add_node(snsd_node ** head, u_short * counter, u_short max_records, u_int record[MAX_IP_INT]); snsd_node *snsd_add_mainip(snsd_service ** head, u_short * counter, u_short max_records, u_int record[MAX_IP_INT]); void snsd_service_llist_del(snsd_service ** head); void snsd_record_del_selected(snsd_service ** head, u_short * snd_counter, snsd_service * selected); int snsd_pack_service(char *pack, size_t free_sz, snsd_service * service); snsd_service *snsd_unpack_service(char *pack, size_t pack_sz, size_t * unpacked_sz, u_short * nodes_counter); int snsd_pack_all_services(char *pack, size_t pack_sz, snsd_service * head); snsd_service *snsd_unpack_all_service(char *pack, size_t pack_sz, size_t * unpacked_sz, u_short * nodes_counter); snsd_node *snsd_choose_wrand(snsd_node * head); snsd_prio *snsd_highest_prio(snsd_prio * head); snsd_node *snsd_find_mainip(snsd_service * sns); void snsd_unset_all_flags(snsd_service * sns, u_char flag); snsd_service *snsd_service_llist_copy(snsd_service * sns, int service, u_char proto); void snsd_merge_node(snsd_node ** head, u_short * snsd_counter, snsd_node * new); void snsd_node_llist_merge(snsd_node ** dst, u_short * snsd_counter, snsd_node * src); void snsd_merge_prio(snsd_prio ** head, u_short * snsd_counter, snsd_prio * new); void snsd_prio_llist_merge(snsd_prio ** dst, u_short * snsd_counter, snsd_prio * src); void snsd_merge_service(snsd_service ** head, u_short * snsd_counter, snsd_service * new); void snsd_service_llist_merge(snsd_service ** dst, u_short * snsd_counter, snsd_service * src); int snsd_count_nodes(snsd_node * head); int snsd_count_prio_nodes(snsd_prio * head); int snsd_count_service_nodes(snsd_service * head); #endif /*SNSD_H */