/* * test/test-complex-HTB-with-hash-filters.c Add HTB qdisc, HTB classes and creates some hash filters * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation version 2.1 * of the License. * * Copyright (c) 2011 Adrian Ban */ #include #include #include #include #include #include #include #include #include #include //#include "include/rtnl_u32.h" #include #include //#include "include/rtnl_u32_addon.h" #define TC_HANDLE(maj, min) (TC_H_MAJ((maj) << 16) | TC_H_MIN(min)) /* some functions are copied from iproute-tc tool */ int get_u32(__u32 *val, const char *arg, int base) { unsigned long res; char *ptr; if (!arg || !*arg) return -1; res = strtoul(arg, &ptr, base); if (!ptr || ptr == arg || *ptr || res > 0xFFFFFFFFUL) return -1; *val = res; return 0; } int get_u32_handle(__u32 *handle, const char *str) { __u32 htid=0, hash=0, nodeid=0; char *tmp = strchr(str, ':'); if (tmp == NULL) { if (memcmp("0x", str, 2) == 0) return get_u32(handle, str, 16); return -1; } htid = strtoul(str, &tmp, 16); if (tmp == str && *str != ':' && *str != 0) return -1; if (htid>=0x1000) return -1; if (*tmp) { str = tmp+1; hash = strtoul(str, &tmp, 16); if (tmp == str && *str != ':' && *str != 0) return -1; if (hash>=0x100) return -1; if (*tmp) { str = tmp+1; nodeid = strtoul(str, &tmp, 16); if (tmp == str && *str != 0) return -1; if (nodeid>=0x1000) return -1; } } *handle = (htid<<20)|(hash<<12)|nodeid; return 0; } uint32_t get_u32_parse_handle(const char *cHandle) { uint32_t handle=0; if(get_u32_handle(&handle, cHandle)) { printf ("Illegal \"ht\"\n"); return -1; } if (handle && TC_U32_NODE(handle)) { printf("\"link\" must be a hash table.\n"); return -1; } return handle; } int get_tc_classid(__u32 *h, const char *str) { __u32 maj, min; char *p; maj = TC_H_ROOT; if (strcmp(str, "root") == 0) goto ok; maj = TC_H_UNSPEC; if (strcmp(str, "none") == 0) goto ok; maj = strtoul(str, &p, 16); if (p == str) { maj = 0; if (*p != ':') return -1; } if (*p == ':') { if (maj >= (1<<16)) return -1; maj <<= 16; str = p+1; min = strtoul(str, &p, 16); if (*p != 0) return -1; if (min >= (1<<16)) return -1; maj |= min; } else if (*p != 0) return -1; ok: *h = maj; return 0; } /* * Function that adds a new filter and attach it to a hash table * */ int u32_add_filter_on_ht(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint32_t prio, uint32_t keyval, uint32_t keymask, int keyoff, int keyoffmask, uint32_t htid, uint32_t classid ) { struct rtnl_cls *cls; int err; //printf("Key Val : 0x%x\n", keyval); //printf("Key Mask : 0x%x\n", keymask); cls=rtnl_cls_alloc(); if (!(cls)) { printf("Can not allocate classifier\n"); nl_socket_free(sock); exit(1); } rtnl_tc_set_link(TC_CAST(cls), rtnlLink); if ((err = rtnl_tc_set_kind(TC_CAST(cls), "u32"))) { printf("Can not set classifier as u32\n"); return 1; } rtnl_cls_set_prio(cls, prio); rtnl_cls_set_protocol(cls, ETH_P_IP); rtnl_tc_set_parent(TC_CAST(cls), TC_HANDLE(1, 0)); rtnl_u32_set_hashtable(cls, htid); rtnl_u32_add_key_uint32(cls, keyval, keymask, keyoff, keyoffmask); /* 10.0.0.0/8 */ rtnl_u32_set_classid(cls, classid); rtnl_u32_set_cls_terminal(cls); if ((err = rtnl_cls_add(sock, cls, NLM_F_CREATE))) { printf("Can not add classifier: %s\n", nl_geterror(err)); return -1; } rtnl_cls_put(cls); return 0; } /* * Function that adds a new filter and attach it to a hash table * and set next hash table link with hash mask * */ int u32_add_filter_on_ht_with_hashmask(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint32_t prio, uint32_t keyval, uint32_t keymask, int keyoff, int keyoffmask, uint32_t htid, uint32_t htlink, uint32_t hmask, uint32_t hoffset ) { struct rtnl_cls *cls; int err; //printf("Key Val : 0x%x\n", keyval); //printf("Key Mask : 0x%x\n", keymask); cls=rtnl_cls_alloc(); if (!(cls)) { printf("Can not allocate classifier\n"); nl_socket_free(sock); exit(1); } rtnl_tc_set_link(TC_CAST(cls), rtnlLink); if ((err = rtnl_tc_set_kind(TC_CAST(cls), "u32"))) { printf("Can not set classifier as u32\n"); return 1; } rtnl_cls_set_prio(cls, prio); rtnl_cls_set_protocol(cls, ETH_P_IP); rtnl_tc_set_parent(TC_CAST(cls), TC_HANDLE(1, 0)); if (htid) rtnl_u32_set_hashtable(cls, htid); rtnl_u32_add_key_uint32(cls, keyval, keymask, keyoff, keyoffmask); rtnl_u32_set_hashmask(cls, hmask, hoffset); rtnl_u32_set_link(cls, htlink); if ((err = rtnl_cls_add(sock, cls, NLM_F_CREATE))) { printf("Can not add classifier: %s\n", nl_geterror(err)); return -1; } rtnl_cls_put(cls); return 0; } /* * function that creates a new hash table */ int u32_add_ht(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint32_t prio, uint32_t htid, uint32_t divisor) { int err; struct rtnl_cls *cls; cls=rtnl_cls_alloc(); if (!(cls)) { printf("Can not allocate classifier\n"); nl_socket_free(sock); exit(1); } rtnl_tc_set_link(TC_CAST(cls), rtnlLink); if ((err = rtnl_tc_set_kind(TC_CAST(cls), "u32"))) { printf("Can not set classifier as u32\n"); return 1; } rtnl_cls_set_prio(cls, prio); rtnl_cls_set_protocol(cls, ETH_P_IP); rtnl_tc_set_parent(TC_CAST(cls), TC_HANDLE(1, 0)); rtnl_u32_set_handle(cls, htid, 0x0, 0x0); //printf("htid: 0x%X\n", htid); rtnl_u32_set_divisor(cls, divisor); if ((err = rtnl_cls_add(sock, cls, NLM_F_CREATE))) { printf("Can not add classifier: %s\n", nl_geterror(err)); return -1; } rtnl_cls_put(cls); return 0; } /* * function that adds a new HTB qdisc and set the default class for unclassified traffic */ int qdisc_add_HTB(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint32_t defaultClass) { struct rtnl_qdisc *qdisc; int err; /* Allocation of a qdisc object */ if (!(qdisc = rtnl_qdisc_alloc())) { printf("Can not allocate Qdisc\n"); return -1; } //rtnl_tc_set_ifindex(TC_CAST(qdisc), master_index); rtnl_tc_set_link(TC_CAST(qdisc), rtnlLink); rtnl_tc_set_parent(TC_CAST(qdisc), TC_H_ROOT); //delete the qdisc //printf("Delete current qdisc\n"); rtnl_qdisc_delete(sock, qdisc); //rtnl_qdisc_put(qdisc); //add a HTB qdisc //printf("Add a new HTB qdisc\n"); rtnl_tc_set_handle(TC_CAST(qdisc), TC_HANDLE(1,0)); if ((err = rtnl_tc_set_kind(TC_CAST(qdisc), "htb"))) { printf("Can not allocate HTB\n"); return -1; } /* Set default class for unclassified traffic */ //printf("Set default class for unclassified traffic\n"); rtnl_htb_set_defcls(qdisc, TC_HANDLE(1, defaultClass)); rtnl_htb_set_rate2quantum(qdisc, 1); /* Submit request to kernel and wait for response */ if ((err = rtnl_qdisc_add(sock, qdisc, NLM_F_CREATE))) { printf("Can not allocate HTB Qdisc\n"); return -1; } /* Return the qdisc object to free memory resources */ rtnl_qdisc_put(qdisc); return 0; } /* * function that adds a new HTB class and set its parameters */ int class_add_HTB(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint32_t parentMaj, uint32_t parentMin, uint32_t childMaj, uint32_t childMin, uint64_t rate, uint64_t ceil, uint32_t burst, uint32_t cburst, uint32_t prio ) { int err; struct rtnl_class *class; //struct rtnl_class *class = (struct rtnl_class *) tc; //create a HTB class //class = (struct rtnl_class *)rtnl_class_alloc(); if (!(class = rtnl_class_alloc())) { printf("Can not allocate class object\n"); return 1; } // rtnl_tc_set_link(TC_CAST(class), rtnlLink); //add a HTB qdisc //printf("Add a new HTB class with 0x%X:0x%X on parent 0x%X:0x%X\n", childMaj, childMin, parentMaj, parentMin); rtnl_tc_set_parent(TC_CAST(class), TC_HANDLE(parentMaj, parentMin)); rtnl_tc_set_handle(TC_CAST(class), TC_HANDLE(childMaj, childMin)); if ((err = rtnl_tc_set_kind(TC_CAST(class), "htb"))) { printf("Can not set HTB to class\n"); return 1; } //printf("set HTB class prio to %u\n", prio); rtnl_htb_set_prio((struct rtnl_class *)class, prio); if (rate) { //rate=rate/8; rtnl_htb_set_rate(class, rate); } if (ceil) { //ceil=ceil/8; rtnl_htb_set_ceil(class, ceil); } if (burst) { //printf ("Class HTB: set rate burst: %u\n", burst); rtnl_htb_set_rbuffer(class, burst); } if (cburst) { //printf ("Class HTB: set rate cburst: %u\n", cburst); rtnl_htb_set_cbuffer(class, cburst); } /* Submit request to kernel and wait for response */ if ((err = rtnl_class_add(sock, class, NLM_F_CREATE))) { printf("Can not allocate HTB Qdisc\n"); return 1; } rtnl_class_put(class); return 0; } /* * function that adds a HTB root class and set its parameters */ int class_add_HTB_root(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint64_t rate, uint64_t ceil, uint32_t burst, uint32_t cburst ) { int err; struct rtnl_class *class; //create a HTB class class = (struct rtnl_class *)rtnl_class_alloc(); //class = rtnl_class_alloc(); if (!class) { printf("Can not allocate class object\n"); return 1; } // rtnl_tc_set_link(TC_CAST(class), rtnlLink); rtnl_tc_set_parent(TC_CAST(class), TC_H_ROOT); //add a HTB class //printf("Add a new HTB ROOT class\n"); rtnl_tc_set_handle(TC_CAST(class), 1); if ((err = rtnl_tc_set_kind(TC_CAST(class), "htb"))) { printf("Can not set HTB to class\n"); return 1; } if (rate) { //rate=rate/8; rtnl_htb_set_rate(class, rate); } if (ceil) { //ceil=ceil/8; rtnl_htb_set_ceil(class, ceil); } if (burst) { rtnl_htb_set_rbuffer(class, burst); } if (cburst) { rtnl_htb_set_cbuffer(class, cburst); } /* Submit request to kernel and wait for response */ if ((err = rtnl_class_add(sock, class, NLM_F_CREATE))) { printf("Can not allocate HTB Qdisc\n"); return 1; } rtnl_class_put(class); return 0; } /* * function that adds a new SFQ qdisc as a leaf for a HTB class */ int qdisc_add_SFQ_leaf(struct nl_sock *sock, struct rtnl_link *rtnlLink, uint32_t parentMaj, uint32_t parentMin, int quantum, int limit, int perturb ) { int err; struct rtnl_qdisc *qdisc; if (!(qdisc = rtnl_qdisc_alloc())) { printf("Can not allocate qdisc object\n"); return 1; } rtnl_tc_set_link(TC_CAST(qdisc), rtnlLink); rtnl_tc_set_parent(TC_CAST(qdisc), TC_HANDLE(parentMaj, parentMin)); rtnl_tc_set_handle(TC_CAST(qdisc), TC_HANDLE(parentMin,0)); if ((err = rtnl_tc_set_kind(TC_CAST(qdisc), "sfq"))) { printf("Can not set SQF class\n"); return 1; } if(quantum) { rtnl_sfq_set_quantum(qdisc, quantum); } else { rtnl_sfq_set_quantum(qdisc, 16000); // tc default value } if(limit) { rtnl_sfq_set_limit(qdisc, limit); // default is 127 } if(perturb) { rtnl_sfq_set_perturb(qdisc, perturb); // default never perturb the hash } /* Submit request to kernel and wait for response */ if ((err = rtnl_qdisc_add(sock, qdisc, NLM_F_CREATE))) { printf("Can not allocate SFQ qdisc\n"); return -1; } /* Return the qdisc object to free memory resources */ rtnl_qdisc_put(qdisc); return 0; } int main() { struct nl_sock *sock; struct rtnl_link *link; //struct rtnl_qdisc *qdisc; //struct rtnl_class *class; //struct rtnl_cls *cls; uint32_t ht, htlink, htid, direction, classid; //uint32_t hash, hashmask, nodeid, divisor, handle; //struct rtnl_u32 *f_u32; char chashlink[16]=""; //uint64_t drops, qlen; //int master_index; int err; //uint64_t rate=0, ceil=0; struct nl_cache *link_cache; if (!(sock = nl_socket_alloc())) { printf("Unable to allocate netlink socket\n"); exit(1); } if ((err = nl_connect(sock, NETLINK_ROUTE)) < 0 ) { printf("Nu s-a putut conecta la NETLINK!\n"); nl_socket_free(sock); exit(1); } if ((err = rtnl_link_alloc_cache(sock, AF_UNSPEC, &link_cache)) < 0) { printf("Unable to allocate link cache: %s\n", nl_geterror(err)); nl_socket_free(sock); exit(1); } /* lookup interface index of eth0 */ if (!(link = rtnl_link_get_by_name(link_cache, "imq0"))) { /* error */ printf("Interface not found\n"); nl_socket_free(sock); exit(1); } err=qdisc_add_HTB(sock, link, 0xffff); //drops = rtnl_tc_get_stat(TC_CAST(qdisc), RTNL_TC_DROPS); //printf("Add ROOT HTB class\n"); err=class_add_HTB_root(sock, link, 12500000, 12500000, 25000, 25000); err=class_add_HTB(sock, link, 1, 0, 1, 0xffff, 1250000, 12500000, 25000, 25000, 5); err=qdisc_add_SFQ_leaf(sock, link, 1, 0xffff, 16000, 0, 10); err=class_add_HTB(sock, link, 1, 1, 1, 0x5, 2000000, 2000000, 25000, 25000, 5); err=qdisc_add_SFQ_leaf(sock, link, 1, 0x5, 16000, 0, 10); err=class_add_HTB(sock, link, 1, 1, 1, 0x6, 1000000, 1000000, 25000, 25000, 5); err=qdisc_add_SFQ_leaf(sock, link, 1, 0x6, 16000, 0, 10); //err=class_add_HTB(sock, link, 1, 0, 1, 0x7, 1024000, 100000000, 5); //err=class_add_HTB(sock, link, 1, 0, 1, 0x8, 2048000, 100000000, 5); //err=class_add_HTB(sock, link, 1, 0, 1, 0x9, 4096000, 100000000, 5); //err=class_add_HTB(sock, link, 1, 0, 1, 0xa, 8192000, 100000000, 5); //printf("Add main hash table\n"); /* create u32 first hash filter table * */ /* formula calcul handle: * uint32_t handle = (htid << 20) | (hash << 12) | nodeid; */ /* * Upper limit of number of hash tables: 4096 (0xFFF) * Number of hashes in a table: 256 values (0xFF) * */ /* using 256 values for hash table * each entry in hash table match a byte from IP address specified later by a hash key */ uint32_t i; for (i = 1; i <= 0xf; i++) u32_add_ht(sock, link, 1, i, 256); /* * attach a u32 filter to the first hash * that redirects all traffic and make a hash key * from the fist byte of the IP address * */ //divisor=0x0; // unused here //handle = 0x0; // unused here //hash = 0x0; // unused here //htid = 0x0; // unused here //nodeid = 0x0; // unused here // direction = 12 -> source IP // direction = 16 -> destination IP direction = 16; /* * which hash table will use * in our case is hash table no 1 defined previous * * There are 2 posibilities to set the the hash table: * 1. Using function get_u32_handle and sent a string in * format 10: where 10 is number of the hash table * 2. Create your own value in format: 0xa00000 * */ strcpy(chashlink, "1:"); //printf("Hash Link: %s\n", chashlink); //chashlink=malloc(sizeof(char) * htlink = 0x0; // is used by get_u32_handle to return the correct value of hash table (link) if(get_u32_handle(&htlink, chashlink)) { printf ("Illegal \"link\""); nl_socket_free(sock); exit(1); } //printf ("hash link : 0x%X\n", htlink); //printf ("hash link test : %u\n", (htlink && TC_U32_NODE(htlink))); if (htlink && TC_U32_NODE(htlink)) { printf("\"link\" must be a hash table.\n"); nl_socket_free(sock); exit(1); } /* the hash mask will hit the hash table (link) no 1: in our case */ /* set the hash key mask */ //hashmask = 0xFF000000UL; // the mask that is used to match the hash in specific table, in our case for example 1:a with mean the first byte which is 10 in hash table 1 /* Here we add a hash filter which match the first byte (see the hashmask value) * of the source IP (offset 12 in the packet header) * You can use also offset 16 to match the destination IP */ /* * Also we need a filter to match our rule * This mean that we will put a 0.0.0.0/0 filter in our first rule * that match the offset 12 (source IP) * Also you can put offset 16 to match the destination IP */ u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0x0, 0x0, direction, 0, 0, htlink, 0xff000000, direction); /* * For each first byte that we need to match we will create a new hash table * For example: you have those clases: 10.0.0.0/24 and 172.16.0.0/23 * For byte 10 and byte 172 will create a separate hash table that will match the second * byte from each class. * */ // Create a new hash table with prio 1, id 2 and 256 entries // u32_CreateNewHashTable(sock, link, 1, 2, 256); // Create a new hash table with prio 1, id 3 and 256 entries // u32_CreateNewHashTable(sock, link, 1, 3, 256); // u32_CreateNewHashTable(sock, link, 1, 4, 256); // u32_CreateNewHashTable(sock, link, 1, 5, 256); /* * Now we will create other filter under (ATENTION) our first hash table (link) 1: * Previous rule redirects the trafic according the hash mask to hash table (link) no 1: * Here we will match the hash tables from 1:0 to 1:ff. Under each hash table we will attach * other rules that matches next byte from IP source/destination IP and we will repeat the * previous steps. * */ // /8 check // 10.0.0.0/8 ht=get_u32_parse_handle("1:a:"); htid = (ht&0xFFFFF000); htlink=get_u32_parse_handle("2:"); u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0x0a000000, 0xff000000, direction, 0, htid, htlink, 0x00ff0000, direction); // 172.0.0.0/8 ht=get_u32_parse_handle("1:ac:"); htid = (ht&0xFFFFF000); htlink=get_u32_parse_handle("3:"); u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0xac000000, 0xff000000, direction, 0, htid, htlink, 0x00ff0000, direction); // /16 check // 10.0.0.0/16 ht=get_u32_parse_handle("2:0:"); htid = (ht&0xFFFFF000); htlink=get_u32_parse_handle("4:"); u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0x0a000000, 0xffff0000, direction, 0, htid, htlink, 0x0000ff00, direction); // 172.17.0.0/16 ht=get_u32_parse_handle("3:11:"); htid = (ht&0xFFFFF000); htlink=get_u32_parse_handle("5:"); u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0xac110000, 0xffff0000, direction, 0, htid, htlink, 0x0000ff00, direction); // /24 check // 10.0.9.0/24 ht=get_u32_parse_handle("4:9:"); htid = (ht&0xFFFFF000); htlink=get_u32_parse_handle("6:"); u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0x0a000900, 0xffffff00, direction, 0, htid, htlink, 0x000000ff, direction); // 172.17.2.0/16 ht=get_u32_parse_handle("5:2:"); htid = (ht&0xFFFFF000); htlink=get_u32_parse_handle("7:"); u32_add_filter_on_ht_with_hashmask(sock, link, 1, 0xac110200, 0xffffff00, direction, 0, htid, htlink, 0x000000ff, direction); // final filters // 10.0.9.20 ht=get_u32_parse_handle("6:14:"); htid = (ht&0xFFFFF000); err = get_tc_classid(&classid, "1:5"); u32_add_filter_on_ht(sock, link, 1, 0x0a000914, 0xffffffff, direction, 0, htid, classid); // 172.17.2.120 ht=get_u32_parse_handle("7:78:"); htid = (ht&0xFFFFF000); err = get_tc_classid(&classid, "1:6"); u32_add_filter_on_ht(sock, link, 1, 0xac110278, 0xffffffff, direction, 0, htid, classid); nl_socket_free(sock); return 0; }