/* * ---------------------------------------------------------------------------- * "THE BEER-WARE LICENSE" (Revision 42): * David Bouman (pql) wrote this file. As long as you retain this notice you * can do whatever you want with this stuff. If we meet some day, and you think * this stuff is worth it, you can buy me a beer in return. Signed, David. * ---------------------------------------------------------------------------- */ #define _GNU_SOURCE #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "helpers.h" static uint64_t default_batch_req_handler(struct mnl_socket* nl, int portid, int table_seq) { char buf[MNL_SOCKET_BUFFER_SIZE]; int ret = mnl_socket_recvfrom(nl, buf, sizeof(buf)); while (ret > 0) { ret = mnl_cb_run(buf, ret, table_seq, portid, NULL, NULL); if (ret <= 0) break; ret = mnl_socket_recvfrom(nl, buf, sizeof(buf)); } return ret; } int64_t send_batch_request(struct mnl_socket* nl, uint16_t msg, uint16_t msg_flags, uint16_t family, void** object, int* seq, uint64_t (*result_handler)(struct mnl_socket*, int, int)) { char buf[MNL_SOCKET_BUFFER_SIZE]; struct mnl_nlmsg_batch* batch = mnl_nlmsg_batch_start(buf, sizeof buf); uint8_t msg_type = msg & 0xff; uint8_t nft_type = (msg >> 8) & 0xff; nftnl_batch_begin(mnl_nlmsg_batch_current(batch), (*seq)++); mnl_nlmsg_batch_next(batch); int table_seq = *seq; struct nlmsghdr* nlh; if (result_handler == NULL) { result_handler = default_batch_req_handler; } nlh = nftnl_nlmsg_build_hdr( mnl_nlmsg_batch_current(batch), msg_type, family, msg_flags | NLM_F_ACK, (*seq)++ ); switch(nft_type) { case NFT_TYPE_TABLE: nftnl_table_nlmsg_build_payload(nlh, *object); nftnl_table_free(*object); break; case NFT_TYPE_CHAIN: nftnl_chain_nlmsg_build_payload(nlh, *object); nftnl_chain_free(*object); break; case NFT_TYPE_RULE: nftnl_rule_nlmsg_build_payload(nlh, *object); nftnl_rule_free(*object); break; default: return -1; // will increment seq wrongly... no prob i guess } *object = NULL; mnl_nlmsg_batch_next(batch); nftnl_batch_end(mnl_nlmsg_batch_current(batch), (*seq)++); mnl_nlmsg_batch_next(batch); int ret = mnl_socket_sendto( nl, mnl_nlmsg_batch_head(batch), mnl_nlmsg_batch_size(batch) ); if (ret < 0) { perror("mnl_socket_send"); return -1; } int portid = mnl_socket_get_portid(nl); mnl_nlmsg_batch_stop(batch); result_handler(nl, portid, table_seq); } struct nftnl_table* build_table(char* name, uint16_t family) { struct nftnl_table* t = nftnl_table_alloc(); nftnl_table_set_u32(t, NFTNL_TABLE_FAMILY, family); nftnl_table_set_str(t, NFTNL_TABLE_NAME, name); return t; } struct nftnl_chain* build_chain(char* table_name, char* chain_name, struct unft_base_chain_param* base_param) { struct nftnl_chain* c; c = nftnl_chain_alloc(); nftnl_chain_set_str(c, NFTNL_CHAIN_NAME, chain_name); nftnl_chain_set_str(c, NFTNL_CHAIN_TABLE, table_name); if (base_param) { nftnl_chain_set_u32(c, NFTNL_CHAIN_HOOKNUM, base_param->hook_num); nftnl_chain_set_u32(c, NFTNL_CHAIN_PRIO, base_param->prio); } return c; } struct nftnl_rule* build_rule(char* table_name, char* chain_name, uint16_t family, uint64_t* handle) { struct nftnl_rule* r = NULL; uint8_t proto; r = nftnl_rule_alloc(); nftnl_rule_set_str(r, NFTNL_RULE_TABLE, table_name); nftnl_rule_set_str(r, NFTNL_RULE_CHAIN, chain_name); nftnl_rule_set_u32(r, NFTNL_RULE_FAMILY, family); if (handle) { nftnl_rule_set_u64(r, NFTNL_RULE_POSITION, *handle); } return r; } // for some reason my editor does not recognize these #define NFTA_BITWISE_OP NFTA_BITWISE_XOR + 1 #define NFTA_BITWISE_DATA NFTA_BITWISE_OP + 1 void rule_add_bit_shift( struct nftnl_rule* r, uint32_t shift_type, uint32_t bitwise_len, uint32_t bitwise_sreg, uint32_t bitwise_dreg, void* data, uint32_t data_len) { if(bitwise_len > 0xff) { puts("bitwise_len > 0xff"); exit(EXIT_FAILURE); } struct nftnl_expr* e; e = nftnl_expr_alloc("bitwise"); nftnl_expr_set_u32(e, NFTA_BITWISE_SREG, bitwise_sreg); nftnl_expr_set_u32(e, NFTA_BITWISE_DREG, bitwise_dreg); nftnl_expr_set_u32(e, NFTA_BITWISE_OP, shift_type); nftnl_expr_set_u32(e, NFTA_BITWISE_LEN, bitwise_len); nftnl_expr_set_data(e, NFTA_BITWISE_DATA, data, data_len); nftnl_rule_add_expr(r, e); } void rule_add_memcpy(struct nftnl_rule* r, uint32_t len, uint32_t sreg, uint32_t dreg) { uint32_t data = 0; rule_add_bit_shift(r, NFT_BITWISE_LSHIFT, len, sreg, dreg, &data, sizeof(data)); } void rule_add_payload(struct nftnl_rule* r, uint32_t base, uint32_t offset, uint32_t len, uint32_t dreg) { struct nftnl_expr* e; e = nftnl_expr_alloc("payload"); nftnl_expr_set_u32(e, NFTNL_EXPR_PAYLOAD_BASE, base); nftnl_expr_set_u32(e, NFTNL_EXPR_PAYLOAD_OFFSET, offset); nftnl_expr_set_u32(e, NFTNL_EXPR_PAYLOAD_LEN, len); nftnl_expr_set_u32(e, NFTNL_EXPR_PAYLOAD_DREG, dreg); nftnl_rule_add_expr(r, e); } void rule_add_cmp(struct nftnl_rule* r, uint32_t op, uint32_t sreg, void* data, size_t data_len) { struct nftnl_expr* e; e = nftnl_expr_alloc("cmp"); nftnl_expr_set_u32(e, NFTA_CMP_OP, op); nftnl_expr_set_u32(e, NFTA_CMP_SREG, sreg); nftnl_expr_set_data(e, NFTA_CMP_DATA, data, data_len); nftnl_rule_add_expr(r, e); } void rule_add_immediate_data(struct nftnl_rule* r, uint32_t dreg, void* data, size_t data_len) { struct nftnl_expr* e; e = nftnl_expr_alloc("immediate"); nftnl_expr_set_u32(e, NFTA_IMMEDIATE_DREG, dreg); nftnl_expr_set_data(e, NFTA_IMMEDIATE_DATA, data, data_len); nftnl_rule_add_expr(r, e); } void rule_add_immediate_verdict(struct nftnl_rule* r, uint32_t verdict, char* chain_name) { struct nftnl_expr* e; e = nftnl_expr_alloc("immediate"); // dreg = 0 -> verdict nftnl_expr_set_u32(e, NFTA_IMMEDIATE_DREG, 0); nftnl_expr_set_u32(e, NFTNL_EXPR_IMM_VERDICT, verdict); if (verdict == NFT_GOTO || verdict == NFT_JUMP) { nftnl_expr_set_str(e, NFTNL_EXPR_IMM_CHAIN, chain_name); } nftnl_rule_add_expr(r, e); } int create_table(struct mnl_socket* nl, char* name, uint16_t family, int* seq, uint64_t (*result_handler)(struct mnl_socket*, int, int)) { struct nftnl_table* t = build_table(name, family); return send_batch_request( nl, NFT_MSG_NEWTABLE | (NFT_TYPE_TABLE << 8), NLM_F_CREATE, family, (void**)&t, seq, result_handler ); } int create_chain(struct mnl_socket* nl, char* chain_name, char* table_name, uint16_t family, struct unft_base_chain_param* base_param, int* seq, uint64_t (*result_handler)(struct mnl_socket*, int, int)) { struct nftnl_chain* c = build_chain(chain_name, table_name, base_param); return send_batch_request( nl, NFT_MSG_NEWCHAIN | (NFT_TYPE_CHAIN << 8), NLM_F_CREATE, family, (void**)&c, seq, result_handler ); } /* int update_chain(struct mnl_socket* nl, char* chain_name, char* table_name, uint16_t family, struct unft_base_chain_param* base_param, int* seq, uint64_t (*result_handler)(struct mnl_socket*, int, int)) { struct nftnl_chain* c = build_chain(chain_name, table_name, base_param); return send_batch_request( nl, NFT_MSG_NEWCHAIN | (NFT_TYPE_CHAIN << 8), NLM_F_CREATE | NLM_F_REPLACE, family, (void**)&c, seq, result_handler ;) } */ struct child_proc { struct child_proc* next; pid_t pid; }; static struct child_proc *children; static void add_child(pid_t pid) { struct child_proc* child = malloc(sizeof *child); child->pid = pid; child->next = children; children = child; } static void kill_children(int sig) { //printf("[pid=%d] killing children!\n", getpid()); struct child_proc* current_child = children; while (current_child) { kill(current_child->pid, SIGTERM); current_child = current_child->next; } exit(EXIT_SUCCESS); } pid_t setup_listener(char* ip_string, uint16_t port, int (*handler)(int)) { int err; int s = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (s < 0) { perror("socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)"); exit(EXIT_FAILURE); } int reuse_addr = 1; setsockopt(s, SOL_SOCKET, SO_REUSEADDR, &reuse_addr, sizeof reuse_addr); struct sockaddr_in addr; inet_aton(ip_string, &addr.sin_addr); addr.sin_family = AF_INET; addr.sin_port = htons(port); err = bind(s, (struct sockaddr*)&addr, sizeof(addr)); if (err < 0) { perror("bind"); exit(EXIT_FAILURE); } printf("Started listener on [%s:%d] (udp)\n", ip_string, port); pid_t pid = fork(); if (pid) { // parent process add_child(pid); return pid; } handler(s); exit(EXIT_SUCCESS); } int stop_listener(pid_t pid) { if (kill(pid, SIGTERM)) { perror("kill"); return -1; }; struct child_proc* next_child = children; struct child_proc* current_child = NULL; while (next_child) { if (next_child->pid == pid) { struct child_proc** prev = current_child == NULL ? &children : ¤t_child; if (current_child == NULL) { prev = &children; } else { prev = ¤t_child; } (*prev)->next = next_child->next; break; } current_child = next_child; next_child = next_child->next; } return 0; } int connect_to(char* ip_string, uint16_t port) { int s = socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP); if (s < 0) { perror("socket(AF_INET, SOCK_DGRAM, IPPROTO_UDP)"); return -1; } struct sockaddr_in conn_addr; conn_addr.sin_port = htons(port); inet_aton(ip_string, &conn_addr.sin_addr); conn_addr.sin_family = AF_INET; int err = connect(s, (struct sockaddr*)&conn_addr, sizeof conn_addr); if (err < 0) { perror("connect"); return -1; } printf("Successfully connected to [%s:%hd] (udp)\n", ip_string, port); return s; } void hexdump(void* data, size_t len, unsigned int n_columns) { uint8_t* bdata = data; for (int i = 0; i < len; ++i) { printf("%.2hhx ", bdata[i]); if ( (i+1) % n_columns == 0) { putchar('\n'); } } }