Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Frank Blaschka | 5844 | 52.72% | 16 | 7.51% |
Julian Wiedmann | 3150 | 28.42% | 123 | 57.75% |
Einar Lueck | 539 | 4.86% | 2 | 0.94% |
Ursula Braun-Krahl | 519 | 4.68% | 17 | 7.98% |
Lakhvich Dmitriy | 398 | 3.59% | 2 | 0.94% |
Thomas Richter | 169 | 1.52% | 6 | 2.82% |
Carsten Otte | 143 | 1.29% | 1 | 0.47% |
Klaus-Dieter Wacker | 59 | 0.53% | 1 | 0.47% |
Stefan Raspl | 42 | 0.38% | 3 | 1.41% |
Eugene Crosser | 40 | 0.36% | 4 | 1.88% |
Kittipon Meesompop | 35 | 0.32% | 2 | 0.94% |
David S. Miller | 27 | 0.24% | 3 | 1.41% |
Alexandra Winter | 17 | 0.15% | 2 | 0.94% |
Arnd Bergmann | 17 | 0.15% | 2 | 0.94% |
Michał Mirosław | 16 | 0.14% | 1 | 0.47% |
Sebastian Ott | 9 | 0.08% | 2 | 0.94% |
Hans Wippel | 9 | 0.08% | 3 | 1.41% |
Sachin P. Sant | 7 | 0.06% | 1 | 0.47% |
Thorsten Winkler | 7 | 0.06% | 2 | 0.94% |
Gustavo A. R. Silva | 7 | 0.06% | 3 | 1.41% |
Taehee Yoo | 6 | 0.05% | 1 | 0.47% |
Jiri Pirko | 6 | 0.05% | 3 | 1.41% |
Heiko Carstens | 4 | 0.04% | 3 | 1.41% |
Eric Dumazet | 3 | 0.03% | 1 | 0.47% |
Peter Tiedemann | 2 | 0.02% | 1 | 0.47% |
Patrick McHardy | 2 | 0.02% | 1 | 0.47% |
Jakub Kiciński | 2 | 0.02% | 2 | 0.94% |
Linus Torvalds (pre-git) | 2 | 0.02% | 1 | 0.47% |
Linus Torvalds | 1 | 0.01% | 1 | 0.47% |
Wilfried Klaebe | 1 | 0.01% | 1 | 0.47% |
Joe Perches | 1 | 0.01% | 1 | 0.47% |
Greg Kroah-Hartman | 1 | 0.01% | 1 | 0.47% |
Total | 11085 | 213 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright IBM Corp. 2007, 2009 * Author(s): Utz Bacher <utz.bacher@de.ibm.com>, * Frank Pavlic <fpavlic@de.ibm.com>, * Thomas Spatzier <tspat@de.ibm.com>, * Frank Blaschka <frank.blaschka@de.ibm.com> */ #define KMSG_COMPONENT "qeth" #define pr_fmt(fmt) KMSG_COMPONENT ": " fmt #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/bitops.h> #include <linux/string.h> #include <linux/errno.h> #include <linux/kernel.h> #include <linux/etherdevice.h> #include <linux/ip.h> #include <linux/in.h> #include <linux/inet.h> #include <linux/ipv6.h> #include <linux/inetdevice.h> #include <linux/igmp.h> #include <linux/slab.h> #include <linux/if_ether.h> #include <linux/if_vlan.h> #include <linux/skbuff.h> #include <net/ip.h> #include <net/arp.h> #include <net/route.h> #include <net/ipv6.h> #include <net/ip6_route.h> #include <net/iucv/af_iucv.h> #include <linux/hashtable.h> #include "qeth_l3.h" static int qeth_l3_register_addr_entry(struct qeth_card *, struct qeth_ipaddr *); static int qeth_l3_deregister_addr_entry(struct qeth_card *, struct qeth_ipaddr *); int qeth_l3_ipaddr_to_string(enum qeth_prot_versions proto, const u8 *addr, char *buf) { if (proto == QETH_PROT_IPV4) return scnprintf(buf, INET_ADDRSTRLEN, "%pI4", addr); else return scnprintf(buf, INET6_ADDRSTRLEN, "%pI6", addr); } static struct qeth_ipaddr *qeth_l3_find_addr_by_ip(struct qeth_card *card, struct qeth_ipaddr *query) { u32 key = qeth_l3_ipaddr_hash(query); struct qeth_ipaddr *addr; if (query->is_multicast) { hash_for_each_possible(card->rx_mode_addrs, addr, hnode, key) if (qeth_l3_addr_match_ip(addr, query)) return addr; } else { hash_for_each_possible(card->ip_htable, addr, hnode, key) if (qeth_l3_addr_match_ip(addr, query)) return addr; } return NULL; } static void qeth_l3_convert_addr_to_bits(u8 *addr, u8 *bits, int len) { int i, j; u8 octet; for (i = 0; i < len; ++i) { octet = addr[i]; for (j = 7; j >= 0; --j) { bits[i*8 + j] = octet & 1; octet >>= 1; } } } static bool qeth_l3_is_addr_covered_by_ipato(struct qeth_card *card, struct qeth_ipaddr *addr) { struct qeth_ipato_entry *ipatoe; u8 addr_bits[128] = {0, }; u8 ipatoe_bits[128] = {0, }; int rc = 0; if (!card->ipato.enabled) return false; if (addr->type != QETH_IP_TYPE_NORMAL) return false; qeth_l3_convert_addr_to_bits((u8 *) &addr->u, addr_bits, (addr->proto == QETH_PROT_IPV4) ? 4 : 16); list_for_each_entry(ipatoe, &card->ipato.entries, entry) { if (addr->proto != ipatoe->proto) continue; qeth_l3_convert_addr_to_bits(ipatoe->addr, ipatoe_bits, (ipatoe->proto == QETH_PROT_IPV4) ? 4 : 16); rc = !memcmp(addr_bits, ipatoe_bits, ipatoe->mask_bits); if (rc) break; } /* invert? */ if ((addr->proto == QETH_PROT_IPV4) && card->ipato.invert4) rc = !rc; else if ((addr->proto == QETH_PROT_IPV6) && card->ipato.invert6) rc = !rc; return rc; } static int qeth_l3_delete_ip(struct qeth_card *card, struct qeth_ipaddr *tmp_addr) { int rc = 0; struct qeth_ipaddr *addr; if (tmp_addr->type == QETH_IP_TYPE_RXIP) QETH_CARD_TEXT(card, 2, "delrxip"); else if (tmp_addr->type == QETH_IP_TYPE_VIPA) QETH_CARD_TEXT(card, 2, "delvipa"); else QETH_CARD_TEXT(card, 2, "delip"); if (tmp_addr->proto == QETH_PROT_IPV4) QETH_CARD_HEX(card, 4, &tmp_addr->u.a4.addr, 4); else { QETH_CARD_HEX(card, 4, &tmp_addr->u.a6.addr, 8); QETH_CARD_HEX(card, 4, ((char *)&tmp_addr->u.a6.addr) + 8, 8); } addr = qeth_l3_find_addr_by_ip(card, tmp_addr); if (!addr || !qeth_l3_addr_match_all(addr, tmp_addr)) return -ENOENT; addr->ref_counter--; if (addr->type == QETH_IP_TYPE_NORMAL && addr->ref_counter > 0) return rc; if (qeth_card_hw_is_reachable(card)) rc = qeth_l3_deregister_addr_entry(card, addr); hash_del(&addr->hnode); kfree(addr); return rc; } static int qeth_l3_add_ip(struct qeth_card *card, struct qeth_ipaddr *tmp_addr) { int rc = 0; struct qeth_ipaddr *addr; char buf[INET6_ADDRSTRLEN]; if (tmp_addr->type == QETH_IP_TYPE_RXIP) QETH_CARD_TEXT(card, 2, "addrxip"); else if (tmp_addr->type == QETH_IP_TYPE_VIPA) QETH_CARD_TEXT(card, 2, "addvipa"); else QETH_CARD_TEXT(card, 2, "addip"); if (tmp_addr->proto == QETH_PROT_IPV4) QETH_CARD_HEX(card, 4, &tmp_addr->u.a4.addr, 4); else { QETH_CARD_HEX(card, 4, &tmp_addr->u.a6.addr, 8); QETH_CARD_HEX(card, 4, ((char *)&tmp_addr->u.a6.addr) + 8, 8); } addr = qeth_l3_find_addr_by_ip(card, tmp_addr); if (addr) { if (tmp_addr->type != QETH_IP_TYPE_NORMAL) return -EADDRINUSE; if (qeth_l3_addr_match_all(addr, tmp_addr)) { addr->ref_counter++; return 0; } qeth_l3_ipaddr_to_string(tmp_addr->proto, (u8 *)&tmp_addr->u, buf); dev_warn(&card->gdev->dev, "Registering IP address %s failed\n", buf); return -EADDRINUSE; } else { addr = kmemdup(tmp_addr, sizeof(*tmp_addr), GFP_KERNEL); if (!addr) return -ENOMEM; if (qeth_l3_is_addr_covered_by_ipato(card, addr)) { QETH_CARD_TEXT(card, 2, "tkovaddr"); addr->ipato = 1; } hash_add(card->ip_htable, &addr->hnode, qeth_l3_ipaddr_hash(addr)); if (!qeth_card_hw_is_reachable(card)) { addr->disp_flag = QETH_DISP_ADDR_ADD; return 0; } rc = qeth_l3_register_addr_entry(card, addr); if (!rc || rc == -EADDRINUSE || rc == -ENETDOWN) { addr->disp_flag = QETH_DISP_ADDR_DO_NOTHING; } else { hash_del(&addr->hnode); kfree(addr); } } return rc; } static int qeth_l3_modify_ip(struct qeth_card *card, struct qeth_ipaddr *addr, bool add) { int rc; mutex_lock(&card->ip_lock); rc = add ? qeth_l3_add_ip(card, addr) : qeth_l3_delete_ip(card, addr); mutex_unlock(&card->ip_lock); return rc; } static void qeth_l3_drain_rx_mode_cache(struct qeth_card *card) { struct qeth_ipaddr *addr; struct hlist_node *tmp; int i; hash_for_each_safe(card->rx_mode_addrs, i, tmp, addr, hnode) { hash_del(&addr->hnode); kfree(addr); } } static void qeth_l3_clear_ip_htable(struct qeth_card *card, int recover) { struct qeth_ipaddr *addr; struct hlist_node *tmp; int i; QETH_CARD_TEXT(card, 4, "clearip"); mutex_lock(&card->ip_lock); hash_for_each_safe(card->ip_htable, i, tmp, addr, hnode) { if (!recover) { hash_del(&addr->hnode); kfree(addr); } else { /* prepare for recovery */ addr->disp_flag = QETH_DISP_ADDR_ADD; } } mutex_unlock(&card->ip_lock); } static void qeth_l3_recover_ip(struct qeth_card *card) { struct qeth_ipaddr *addr; struct hlist_node *tmp; int i; int rc; QETH_CARD_TEXT(card, 4, "recovrip"); mutex_lock(&card->ip_lock); hash_for_each_safe(card->ip_htable, i, tmp, addr, hnode) { if (addr->disp_flag == QETH_DISP_ADDR_ADD) { rc = qeth_l3_register_addr_entry(card, addr); if (!rc || rc == -EADDRINUSE || rc == -ENETDOWN) { /* keep it in the records */ addr->disp_flag = QETH_DISP_ADDR_DO_NOTHING; } else { /* bad address */ hash_del(&addr->hnode); kfree(addr); } } } mutex_unlock(&card->ip_lock); } static int qeth_l3_setdelip_cb(struct qeth_card *card, struct qeth_reply *reply, unsigned long data) { struct qeth_ipa_cmd *cmd = (struct qeth_ipa_cmd *) data; switch (cmd->hdr.return_code) { case IPA_RC_SUCCESS: return 0; case IPA_RC_DUPLICATE_IP_ADDRESS: return -EADDRINUSE; case IPA_RC_MC_ADDR_NOT_FOUND: return -ENOENT; case IPA_RC_LAN_OFFLINE: return -ENETDOWN; default: return -EIO; } } static int qeth_l3_send_setdelmc(struct qeth_card *card, struct qeth_ipaddr *addr, enum qeth_ipa_cmds ipacmd) { struct qeth_cmd_buffer *iob; struct qeth_ipa_cmd *cmd; QETH_CARD_TEXT(card, 4, "setdelmc"); iob = qeth_ipa_alloc_cmd(card, ipacmd, addr->proto, IPA_DATA_SIZEOF(setdelipm)); if (!iob) return -ENOMEM; cmd = __ipa_cmd(iob); if (addr->proto == QETH_PROT_IPV6) { cmd->data.setdelipm.ip = addr->u.a6.addr; ipv6_eth_mc_map(&addr->u.a6.addr, cmd->data.setdelipm.mac); } else { cmd->data.setdelipm.ip.s6_addr32[3] = addr->u.a4.addr; ip_eth_mc_map(addr->u.a4.addr, cmd->data.setdelipm.mac); } return qeth_send_ipa_cmd(card, iob, qeth_l3_setdelip_cb, NULL); } static void qeth_l3_set_ipv6_prefix(struct in6_addr *prefix, unsigned int len) { unsigned int i = 0; while (len && i < 4) { int mask_len = min_t(int, len, 32); prefix->s6_addr32[i] = inet_make_mask(mask_len); len -= mask_len; i++; } } static u32 qeth_l3_get_setdelip_flags(struct qeth_ipaddr *addr, bool set) { switch (addr->type) { case QETH_IP_TYPE_RXIP: return (set) ? QETH_IPA_SETIP_TAKEOVER_FLAG : 0; case QETH_IP_TYPE_VIPA: return (set) ? QETH_IPA_SETIP_VIPA_FLAG : QETH_IPA_DELIP_VIPA_FLAG; default: return (set && addr->ipato) ? QETH_IPA_SETIP_TAKEOVER_FLAG : 0; } } static int qeth_l3_send_setdelip(struct qeth_card *card, struct qeth_ipaddr *addr, enum qeth_ipa_cmds ipacmd) { struct qeth_cmd_buffer *iob; struct qeth_ipa_cmd *cmd; u32 flags; QETH_CARD_TEXT(card, 4, "setdelip"); iob = qeth_ipa_alloc_cmd(card, ipacmd, addr->proto, IPA_DATA_SIZEOF(setdelip6)); if (!iob) return -ENOMEM; cmd = __ipa_cmd(iob); flags = qeth_l3_get_setdelip_flags(addr, ipacmd == IPA_CMD_SETIP); QETH_CARD_TEXT_(card, 4, "flags%02X", flags); if (addr->proto == QETH_PROT_IPV6) { cmd->data.setdelip6.addr = addr->u.a6.addr; qeth_l3_set_ipv6_prefix(&cmd->data.setdelip6.prefix, addr->u.a6.pfxlen); cmd->data.setdelip6.flags = flags; } else { cmd->data.setdelip4.addr = addr->u.a4.addr; cmd->data.setdelip4.mask = addr->u.a4.mask; cmd->data.setdelip4.flags = flags; } return qeth_send_ipa_cmd(card, iob, qeth_l3_setdelip_cb, NULL); } static int qeth_l3_send_setrouting(struct qeth_card *card, enum qeth_routing_types type, enum qeth_prot_versions prot) { int rc; struct qeth_ipa_cmd *cmd; struct qeth_cmd_buffer *iob; QETH_CARD_TEXT(card, 4, "setroutg"); iob = qeth_ipa_alloc_cmd(card, IPA_CMD_SETRTG, prot, IPA_DATA_SIZEOF(setrtg)); if (!iob) return -ENOMEM; cmd = __ipa_cmd(iob); cmd->data.setrtg.type = (type); rc = qeth_send_ipa_cmd(card, iob, NULL, NULL); return rc; } static int qeth_l3_correct_routing_type(struct qeth_card *card, enum qeth_routing_types *type, enum qeth_prot_versions prot) { if (IS_IQD(card)) { switch (*type) { case NO_ROUTER: case PRIMARY_CONNECTOR: case SECONDARY_CONNECTOR: case MULTICAST_ROUTER: return 0; default: goto out_inval; } } else { switch (*type) { case NO_ROUTER: case PRIMARY_ROUTER: case SECONDARY_ROUTER: return 0; case MULTICAST_ROUTER: if (qeth_is_ipafunc_supported(card, prot, IPA_OSA_MC_ROUTER)) return 0; goto out_inval; default: goto out_inval; } } out_inval: *type = NO_ROUTER; return -EINVAL; } int qeth_l3_setrouting_v4(struct qeth_card *card) { int rc; QETH_CARD_TEXT(card, 3, "setrtg4"); rc = qeth_l3_correct_routing_type(card, &card->options.route4.type, QETH_PROT_IPV4); if (rc) return rc; rc = qeth_l3_send_setrouting(card, card->options.route4.type, QETH_PROT_IPV4); if (rc) { card->options.route4.type = NO_ROUTER; QETH_DBF_MESSAGE(2, "Error (%#06x) while setting routing type on device %x. Type set to 'no router'.\n", rc, CARD_DEVID(card)); } return rc; } int qeth_l3_setrouting_v6(struct qeth_card *card) { int rc = 0; QETH_CARD_TEXT(card, 3, "setrtg6"); if (!qeth_is_supported(card, IPA_IPV6)) return 0; rc = qeth_l3_correct_routing_type(card, &card->options.route6.type, QETH_PROT_IPV6); if (rc) return rc; rc = qeth_l3_send_setrouting(card, card->options.route6.type, QETH_PROT_IPV6); if (rc) { card->options.route6.type = NO_ROUTER; QETH_DBF_MESSAGE(2, "Error (%#06x) while setting routing type on device %x. Type set to 'no router'.\n", rc, CARD_DEVID(card)); } return rc; } /* * IP address takeover related functions */ /* * qeth_l3_update_ipato() - Update 'takeover' property, for all NORMAL IPs. * * Caller must hold ip_lock. */ void qeth_l3_update_ipato(struct qeth_card *card) { struct qeth_ipaddr *addr; unsigned int i; hash_for_each(card->ip_htable, i, addr, hnode) { if (addr->type != QETH_IP_TYPE_NORMAL) continue; addr->ipato = qeth_l3_is_addr_covered_by_ipato(card, addr); } } static void qeth_l3_clear_ipato_list(struct qeth_card *card) { struct qeth_ipato_entry *ipatoe, *tmp; mutex_lock(&card->ip_lock); list_for_each_entry_safe(ipatoe, tmp, &card->ipato.entries, entry) { list_del(&ipatoe->entry); kfree(ipatoe); } qeth_l3_update_ipato(card); mutex_unlock(&card->ip_lock); } int qeth_l3_add_ipato_entry(struct qeth_card *card, struct qeth_ipato_entry *new) { struct qeth_ipato_entry *ipatoe; int rc = 0; QETH_CARD_TEXT(card, 2, "addipato"); mutex_lock(&card->ip_lock); list_for_each_entry(ipatoe, &card->ipato.entries, entry) { if (ipatoe->proto != new->proto) continue; if (!memcmp(ipatoe->addr, new->addr, (ipatoe->proto == QETH_PROT_IPV4) ? 4 : 16) && (ipatoe->mask_bits == new->mask_bits)) { rc = -EEXIST; break; } } if (!rc) { list_add_tail(&new->entry, &card->ipato.entries); qeth_l3_update_ipato(card); } mutex_unlock(&card->ip_lock); return rc; } int qeth_l3_del_ipato_entry(struct qeth_card *card, enum qeth_prot_versions proto, u8 *addr, unsigned int mask_bits) { struct qeth_ipato_entry *ipatoe, *tmp; int rc = -ENOENT; QETH_CARD_TEXT(card, 2, "delipato"); mutex_lock(&card->ip_lock); list_for_each_entry_safe(ipatoe, tmp, &card->ipato.entries, entry) { if (ipatoe->proto != proto) continue; if (!memcmp(ipatoe->addr, addr, (proto == QETH_PROT_IPV4) ? 4 : 16) && (ipatoe->mask_bits == mask_bits)) { list_del(&ipatoe->entry); qeth_l3_update_ipato(card); kfree(ipatoe); rc = 0; } } mutex_unlock(&card->ip_lock); return rc; } int qeth_l3_modify_rxip_vipa(struct qeth_card *card, bool add, const u8 *ip, enum qeth_ip_types type, enum qeth_prot_versions proto) { struct qeth_ipaddr addr; qeth_l3_init_ipaddr(&addr, type, proto); if (proto == QETH_PROT_IPV4) memcpy(&addr.u.a4.addr, ip, 4); else memcpy(&addr.u.a6.addr, ip, 16); return qeth_l3_modify_ip(card, &addr, add); } int qeth_l3_modify_hsuid(struct qeth_card *card, bool add) { struct qeth_ipaddr addr; unsigned int i; qeth_l3_init_ipaddr(&addr, QETH_IP_TYPE_NORMAL, QETH_PROT_IPV6); addr.u.a6.addr.s6_addr[0] = 0xfe; addr.u.a6.addr.s6_addr[1] = 0x80; for (i = 0; i < 8; i++) addr.u.a6.addr.s6_addr[8+i] = card->options.hsuid[i]; return qeth_l3_modify_ip(card, &addr, add); } static int qeth_l3_register_addr_entry(struct qeth_card *card, struct qeth_ipaddr *addr) { char buf[50]; int rc = 0; int cnt = 3; if (card->options.sniffer) return 0; if (addr->proto == QETH_PROT_IPV4) { QETH_CARD_TEXT(card, 2, "setaddr4"); QETH_CARD_HEX(card, 3, &addr->u.a4.addr, sizeof(int)); } else if (addr->proto == QETH_PROT_IPV6) { QETH_CARD_TEXT(card, 2, "setaddr6"); QETH_CARD_HEX(card, 3, &addr->u.a6.addr, 8); QETH_CARD_HEX(card, 3, ((char *)&addr->u.a6.addr) + 8, 8); } else { QETH_CARD_TEXT(card, 2, "setaddr?"); QETH_CARD_HEX(card, 3, addr, sizeof(struct qeth_ipaddr)); } do { if (addr->is_multicast) rc = qeth_l3_send_setdelmc(card, addr, IPA_CMD_SETIPM); else rc = qeth_l3_send_setdelip(card, addr, IPA_CMD_SETIP); if (rc) QETH_CARD_TEXT(card, 2, "failed"); } while ((--cnt > 0) && rc); if (rc) { QETH_CARD_TEXT(card, 2, "FAILED"); qeth_l3_ipaddr_to_string(addr->proto, (u8 *)&addr->u, buf); dev_warn(&card->gdev->dev, "Registering IP address %s failed\n", buf); } return rc; } static int qeth_l3_deregister_addr_entry(struct qeth_card *card, struct qeth_ipaddr *addr) { int rc = 0; if (card->options.sniffer) return 0; if (addr->proto == QETH_PROT_IPV4) { QETH_CARD_TEXT(card, 2, "deladdr4"); QETH_CARD_HEX(card, 3, &addr->u.a4.addr, sizeof(int)); } else if (addr->proto == QETH_PROT_IPV6) { QETH_CARD_TEXT(card, 2, "deladdr6"); QETH_CARD_HEX(card, 3, &addr->u.a6.addr, 8); QETH_CARD_HEX(card, 3, ((char *)&addr->u.a6.addr) + 8, 8); } else { QETH_CARD_TEXT(card, 2, "deladdr?"); QETH_CARD_HEX(card, 3, addr, sizeof(struct qeth_ipaddr)); } if (addr->is_multicast) rc = qeth_l3_send_setdelmc(card, addr, IPA_CMD_DELIPM); else rc = qeth_l3_send_setdelip(card, addr, IPA_CMD_DELIP); if (rc) QETH_CARD_TEXT(card, 2, "failed"); return rc; } static int qeth_l3_setadapter_parms(struct qeth_card *card) { int rc = 0; QETH_CARD_TEXT(card, 2, "setadprm"); if (qeth_adp_supported(card, IPA_SETADP_ALTER_MAC_ADDRESS)) { rc = qeth_setadpparms_change_macaddr(card); if (rc) dev_warn(&card->gdev->dev, "Reading the adapter MAC" " address failed\n"); } return rc; } static int qeth_l3_start_ipa_arp_processing(struct qeth_card *card) { int rc; QETH_CARD_TEXT(card, 3, "ipaarp"); if (!qeth_is_supported(card, IPA_ARP_PROCESSING)) { dev_info(&card->gdev->dev, "ARP processing not supported on %s!\n", netdev_name(card->dev)); return 0; } rc = qeth_send_simple_setassparms(card, IPA_ARP_PROCESSING, IPA_CMD_ASS_START, NULL); if (rc) { dev_warn(&card->gdev->dev, "Starting ARP processing support for %s failed\n", netdev_name(card->dev)); } return rc; } static int qeth_l3_start_ipa_source_mac(struct qeth_card *card) { int rc; QETH_CARD_TEXT(card, 3, "stsrcmac"); if (!qeth_is_supported(card, IPA_SOURCE_MAC)) { dev_info(&card->gdev->dev, "Inbound source MAC-address not supported on %s\n", netdev_name(card->dev)); return -EOPNOTSUPP; } rc = qeth_send_simple_setassparms(card, IPA_SOURCE_MAC, IPA_CMD_ASS_START, NULL); if (rc) dev_warn(&card->gdev->dev, "Starting source MAC-address support for %s failed\n", netdev_name(card->dev)); return rc; } static int qeth_l3_start_ipa_vlan(struct qeth_card *card) { int rc = 0; QETH_CARD_TEXT(card, 3, "strtvlan"); if (!qeth_is_supported(card, IPA_FULL_VLAN)) { dev_info(&card->gdev->dev, "VLAN not supported on %s\n", netdev_name(card->dev)); return -EOPNOTSUPP; } rc = qeth_send_simple_setassparms(card, IPA_VLAN_PRIO, IPA_CMD_ASS_START, NULL); if (rc) { dev_warn(&card->gdev->dev, "Starting VLAN support for %s failed\n", netdev_name(card->dev)); } else { dev_info(&card->gdev->dev, "VLAN enabled\n"); } return rc; } static int qeth_l3_start_ipa_multicast(struct qeth_card *card) { int rc; QETH_CARD_TEXT(card, 3, "stmcast"); if (!qeth_is_supported(card, IPA_MULTICASTING)) { dev_info(&card->gdev->dev, "Multicast not supported on %s\n", netdev_name(card->dev)); return -EOPNOTSUPP; } rc = qeth_send_simple_setassparms(card, IPA_MULTICASTING, IPA_CMD_ASS_START, NULL); if (rc) { dev_warn(&card->gdev->dev, "Starting multicast support for %s failed\n", netdev_name(card->dev)); } else { dev_info(&card->gdev->dev, "Multicast enabled\n"); card->dev->flags |= IFF_MULTICAST; } return rc; } static int qeth_l3_softsetup_ipv6(struct qeth_card *card) { u32 ipv6_data = 3; int rc; QETH_CARD_TEXT(card, 3, "softipv6"); if (IS_IQD(card)) goto out; rc = qeth_send_simple_setassparms(card, IPA_IPV6, IPA_CMD_ASS_START, &ipv6_data); if (rc) { dev_err(&card->gdev->dev, "Activating IPv6 support for %s failed\n", netdev_name(card->dev)); return rc; } rc = qeth_send_simple_setassparms_v6(card, IPA_IPV6, IPA_CMD_ASS_START, NULL); if (rc) { dev_err(&card->gdev->dev, "Activating IPv6 support for %s failed\n", netdev_name(card->dev)); return rc; } rc = qeth_send_simple_setassparms_v6(card, IPA_PASSTHRU, IPA_CMD_ASS_START, NULL); if (rc) { dev_warn(&card->gdev->dev, "Enabling the passthrough mode for %s failed\n", netdev_name(card->dev)); return rc; } out: dev_info(&card->gdev->dev, "IPV6 enabled\n"); return 0; } static int qeth_l3_start_ipa_ipv6(struct qeth_card *card) { QETH_CARD_TEXT(card, 3, "strtipv6"); if (!qeth_is_supported(card, IPA_IPV6)) { dev_info(&card->gdev->dev, "IPv6 not supported on %s\n", netdev_name(card->dev)); return 0; } return qeth_l3_softsetup_ipv6(card); } static int qeth_l3_start_ipa_broadcast(struct qeth_card *card) { u32 filter_data = 1; int rc; QETH_CARD_TEXT(card, 3, "stbrdcst"); card->info.broadcast_capable = 0; if (!qeth_is_supported(card, IPA_FILTERING)) { dev_info(&card->gdev->dev, "Broadcast not supported on %s\n", netdev_name(card->dev)); rc = -EOPNOTSUPP; goto out; } rc = qeth_send_simple_setassparms(card, IPA_FILTERING, IPA_CMD_ASS_START, NULL); if (rc) { dev_warn(&card->gdev->dev, "Enabling broadcast filtering for %s failed\n", netdev_name(card->dev)); goto out; } rc = qeth_send_simple_setassparms(card, IPA_FILTERING, IPA_CMD_ASS_CONFIGURE, &filter_data); if (rc) { dev_warn(&card->gdev->dev, "Setting up broadcast filtering for %s failed\n", netdev_name(card->dev)); goto out; } card->info.broadcast_capable = QETH_BROADCAST_WITH_ECHO; dev_info(&card->gdev->dev, "Broadcast enabled\n"); rc = qeth_send_simple_setassparms(card, IPA_FILTERING, IPA_CMD_ASS_ENABLE, &filter_data); if (rc) { dev_warn(&card->gdev->dev, "Setting up broadcast echo filtering for %s failed\n", netdev_name(card->dev)); goto out; } card->info.broadcast_capable = QETH_BROADCAST_WITHOUT_ECHO; out: if (card->info.broadcast_capable) card->dev->flags |= IFF_BROADCAST; else card->dev->flags &= ~IFF_BROADCAST; return rc; } static void qeth_l3_start_ipassists(struct qeth_card *card) { QETH_CARD_TEXT(card, 3, "strtipas"); qeth_l3_start_ipa_arp_processing(card); /* go on*/ qeth_l3_start_ipa_source_mac(card); /* go on*/ qeth_l3_start_ipa_vlan(card); /* go on*/ qeth_l3_start_ipa_multicast(card); /* go on*/ qeth_l3_start_ipa_ipv6(card); /* go on*/ qeth_l3_start_ipa_broadcast(card); /* go on*/ } static int qeth_l3_iqd_read_initial_mac_cb(struct qeth_card *card, struct qeth_reply *reply, unsigned long data) { struct qeth_ipa_cmd *cmd = (struct qeth_ipa_cmd *) data; if (cmd->hdr.return_code) return -EIO; if (!is_valid_ether_addr(cmd->data.create_destroy_addr.mac_addr)) return -EADDRNOTAVAIL; eth_hw_addr_set(card->dev, cmd->data.create_destroy_addr.mac_addr); return 0; } static int qeth_l3_iqd_read_initial_mac(struct qeth_card *card) { int rc = 0; struct qeth_cmd_buffer *iob; QETH_CARD_TEXT(card, 2, "hsrmac"); iob = qeth_ipa_alloc_cmd(card, IPA_CMD_CREATE_ADDR, QETH_PROT_IPV6, IPA_DATA_SIZEOF(create_destroy_addr)); if (!iob) return -ENOMEM; rc = qeth_send_ipa_cmd(card, iob, qeth_l3_iqd_read_initial_mac_cb, NULL); return rc; } static int qeth_l3_get_unique_id_cb(struct qeth_card *card, struct qeth_reply *reply, unsigned long data) { struct qeth_ipa_cmd *cmd = (struct qeth_ipa_cmd *) data; u16 *uid = reply->param; if (cmd->hdr.return_code == 0) { *uid = cmd->data.create_destroy_addr.uid; return 0; } dev_warn(&card->gdev->dev, "The network adapter failed to generate a unique ID\n"); return -EIO; } static u16 qeth_l3_get_unique_id(struct qeth_card *card, u16 uid) { struct qeth_cmd_buffer *iob; QETH_CARD_TEXT(card, 2, "guniqeid"); if (!qeth_is_supported(card, IPA_IPV6)) goto out; iob = qeth_ipa_alloc_cmd(card, IPA_CMD_CREATE_ADDR, QETH_PROT_IPV6, IPA_DATA_SIZEOF(create_destroy_addr)); if (!iob) goto out; __ipa_cmd(iob)->data.create_destroy_addr.uid = uid; qeth_send_ipa_cmd(card, iob, qeth_l3_get_unique_id_cb, &uid); out: return uid; } static int qeth_diags_trace_cb(struct qeth_card *card, struct qeth_reply *reply, unsigned long data) { struct qeth_ipa_cmd *cmd; __u16 rc; QETH_CARD_TEXT(card, 2, "diastrcb"); cmd = (struct qeth_ipa_cmd *)data; rc = cmd->hdr.return_code; if (rc) QETH_CARD_TEXT_(card, 2, "dxter%x", rc); switch (cmd->data.diagass.action) { case QETH_DIAGS_CMD_TRACE_QUERY: break; case QETH_DIAGS_CMD_TRACE_DISABLE: switch (rc) { case 0: case IPA_RC_INVALID_SUBCMD: card->info.promisc_mode = SET_PROMISC_MODE_OFF; dev_info(&card->gdev->dev, "The HiperSockets network " "traffic analyzer is deactivated\n"); break; default: break; } break; case QETH_DIAGS_CMD_TRACE_ENABLE: switch (rc) { case 0: card->info.promisc_mode = SET_PROMISC_MODE_ON; dev_info(&card->gdev->dev, "The HiperSockets network " "traffic analyzer is activated\n"); break; case IPA_RC_HARDWARE_AUTH_ERROR: dev_warn(&card->gdev->dev, "The device is not " "authorized to run as a HiperSockets network " "traffic analyzer\n"); break; case IPA_RC_TRACE_ALREADY_ACTIVE: dev_warn(&card->gdev->dev, "A HiperSockets " "network traffic analyzer is already " "active in the HiperSockets LAN\n"); break; default: break; } break; default: QETH_DBF_MESSAGE(2, "Unknown sniffer action (%#06x) on device %x\n", cmd->data.diagass.action, CARD_DEVID(card)); } return rc ? -EIO : 0; } static int qeth_diags_trace(struct qeth_card *card, enum qeth_diags_trace_cmds diags_cmd) { struct qeth_cmd_buffer *iob; struct qeth_ipa_cmd *cmd; QETH_CARD_TEXT(card, 2, "diagtrac"); iob = qeth_get_diag_cmd(card, QETH_DIAGS_CMD_TRACE, 0); if (!iob) return -ENOMEM; cmd = __ipa_cmd(iob); cmd->data.diagass.type = QETH_DIAGS_TYPE_HIPERSOCKET; cmd->data.diagass.action = diags_cmd; return qeth_send_ipa_cmd(card, iob, qeth_diags_trace_cb, NULL); } static int qeth_l3_add_mcast_rtnl(struct net_device *dev, int vid, void *arg) { struct qeth_card *card = arg; struct inet6_dev *in6_dev; struct in_device *in4_dev; struct qeth_ipaddr *ipm; struct qeth_ipaddr tmp; struct ip_mc_list *im4; struct ifmcaddr6 *im6; QETH_CARD_TEXT(card, 4, "addmc"); if (!dev || !(dev->flags & IFF_UP)) goto out; in4_dev = __in_dev_get_rtnl(dev); if (!in4_dev) goto walk_ipv6; qeth_l3_init_ipaddr(&tmp, QETH_IP_TYPE_NORMAL, QETH_PROT_IPV4); tmp.disp_flag = QETH_DISP_ADDR_ADD; tmp.is_multicast = 1; for (im4 = rtnl_dereference(in4_dev->mc_list); im4 != NULL; im4 = rtnl_dereference(im4->next_rcu)) { tmp.u.a4.addr = im4->multiaddr; ipm = qeth_l3_find_addr_by_ip(card, &tmp); if (ipm) { /* for mcast, by-IP match means full match */ ipm->disp_flag = QETH_DISP_ADDR_DO_NOTHING; continue; } ipm = kmemdup(&tmp, sizeof(tmp), GFP_KERNEL); if (!ipm) continue; hash_add(card->rx_mode_addrs, &ipm->hnode, qeth_l3_ipaddr_hash(ipm)); } walk_ipv6: if (!qeth_is_supported(card, IPA_IPV6)) goto out; in6_dev = __in6_dev_get(dev); if (!in6_dev) goto out; qeth_l3_init_ipaddr(&tmp, QETH_IP_TYPE_NORMAL, QETH_PROT_IPV6); tmp.disp_flag = QETH_DISP_ADDR_ADD; tmp.is_multicast = 1; for (im6 = rtnl_dereference(in6_dev->mc_list); im6; im6 = rtnl_dereference(im6->next)) { tmp.u.a6.addr = im6->mca_addr; ipm = qeth_l3_find_addr_by_ip(card, &tmp); if (ipm) { /* for mcast, by-IP match means full match */ ipm->disp_flag = QETH_DISP_ADDR_DO_NOTHING; continue; } ipm = kmemdup(&tmp, sizeof(tmp), GFP_ATOMIC); if (!ipm) continue; hash_add(card->rx_mode_addrs, &ipm->hnode, qeth_l3_ipaddr_hash(ipm)); } out: return 0; } static void qeth_l3_set_promisc_mode(struct qeth_card *card) { bool enable = card->dev->flags & IFF_PROMISC; if (card->info.promisc_mode == enable) return; if (IS_VM_NIC(card)) { /* Guestlan trace */ if (qeth_adp_supported(card, IPA_SETADP_SET_PROMISC_MODE)) qeth_setadp_promisc_mode(card, enable); } else if (card->options.sniffer && /* HiperSockets trace */ qeth_adp_supported(card, IPA_SETADP_SET_DIAG_ASSIST)) { if (enable) { QETH_CARD_TEXT(card, 3, "+promisc"); qeth_diags_trace(card, QETH_DIAGS_CMD_TRACE_ENABLE); } else { QETH_CARD_TEXT(card, 3, "-promisc"); qeth_diags_trace(card, QETH_DIAGS_CMD_TRACE_DISABLE); } } } static void qeth_l3_rx_mode_work(struct work_struct *work) { struct qeth_card *card = container_of(work, struct qeth_card, rx_mode_work); struct qeth_ipaddr *addr; struct hlist_node *tmp; int i, rc; QETH_CARD_TEXT(card, 3, "setmulti"); if (!card->options.sniffer) { rtnl_lock(); qeth_l3_add_mcast_rtnl(card->dev, 0, card); if (qeth_is_supported(card, IPA_FULL_VLAN)) vlan_for_each(card->dev, qeth_l3_add_mcast_rtnl, card); rtnl_unlock(); hash_for_each_safe(card->rx_mode_addrs, i, tmp, addr, hnode) { switch (addr->disp_flag) { case QETH_DISP_ADDR_DELETE: rc = qeth_l3_deregister_addr_entry(card, addr); if (!rc || rc == -ENOENT) { hash_del(&addr->hnode); kfree(addr); } break; case QETH_DISP_ADDR_ADD: rc = qeth_l3_register_addr_entry(card, addr); if (rc && rc != -ENETDOWN) { hash_del(&addr->hnode); kfree(addr); break; } fallthrough; default: /* for next call to set_rx_mode(): */ addr->disp_flag = QETH_DISP_ADDR_DELETE; } } } qeth_l3_set_promisc_mode(card); } static int qeth_l3_arp_makerc(u16 rc) { switch (rc) { case IPA_RC_SUCCESS: return 0; case QETH_IPA_ARP_RC_NOTSUPP: case QETH_IPA_ARP_RC_Q_NOTSUPP: return -EOPNOTSUPP; case QETH_IPA_ARP_RC_OUT_OF_RANGE: return -EINVAL; case QETH_IPA_ARP_RC_Q_NO_DATA: return -ENOENT; default: return -EIO; } } static int qeth_l3_arp_cmd_cb(struct qeth_card *card, struct qeth_reply *reply, unsigned long data) { struct qeth_ipa_cmd *cmd = (struct qeth_ipa_cmd *) data; qeth_setassparms_cb(card, reply, data); return qeth_l3_arp_makerc(cmd->hdr.return_code); } static int qeth_l3_arp_set_no_entries(struct qeth_card *card, int no_entries) { struct qeth_cmd_buffer *iob; int rc; QETH_CARD_TEXT(card, 3, "arpstnoe"); /* * currently GuestLAN only supports the ARP assist function * IPA_CMD_ASS_ARP_QUERY_INFO, but not IPA_CMD_ASS_ARP_SET_NO_ENTRIES; * thus we say EOPNOTSUPP for this ARP function */ if (IS_VM_NIC(card)) return -EOPNOTSUPP; if (!qeth_is_supported(card, IPA_ARP_PROCESSING)) { return -EOPNOTSUPP; } iob = qeth_get_setassparms_cmd(card, IPA_ARP_PROCESSING, IPA_CMD_ASS_ARP_SET_NO_ENTRIES, SETASS_DATA_SIZEOF(flags_32bit), QETH_PROT_IPV4); if (!iob) return -ENOMEM; __ipa_cmd(iob)->data.setassparms.data.flags_32bit = (u32) no_entries; rc = qeth_send_ipa_cmd(card, iob, qeth_l3_arp_cmd_cb, NULL); if (rc) QETH_DBF_MESSAGE(2, "Could not set number of ARP entries on device %x: %#x\n", CARD_DEVID(card), rc); return rc; } static __u32 get_arp_entry_size(struct qeth_card *card, struct qeth_arp_query_data *qdata, struct qeth_arp_entrytype *type, __u8 strip_entries) { __u32 rc; __u8 is_hsi; is_hsi = qdata->reply_bits == 5; if (type->ip == QETHARP_IP_ADDR_V4) { QETH_CARD_TEXT(card, 4, "arpev4"); if (strip_entries) { rc = is_hsi ? sizeof(struct qeth_arp_qi_entry5_short) : sizeof(struct qeth_arp_qi_entry7_short); } else { rc = is_hsi ? sizeof(struct qeth_arp_qi_entry5) : sizeof(struct qeth_arp_qi_entry7); } } else if (type->ip == QETHARP_IP_ADDR_V6) { QETH_CARD_TEXT(card, 4, "arpev6"); if (strip_entries) { rc = is_hsi ? sizeof(struct qeth_arp_qi_entry5_short_ipv6) : sizeof(struct qeth_arp_qi_entry7_short_ipv6); } else { rc = is_hsi ? sizeof(struct qeth_arp_qi_entry5_ipv6) : sizeof(struct qeth_arp_qi_entry7_ipv6); } } else { QETH_CARD_TEXT(card, 4, "arpinv"); rc = 0; } return rc; } static int arpentry_matches_prot(struct qeth_arp_entrytype *type, __u16 prot) { return (type->ip == QETHARP_IP_ADDR_V4 && prot == QETH_PROT_IPV4) || (type->ip == QETHARP_IP_ADDR_V6 && prot == QETH_PROT_IPV6); } static int qeth_l3_arp_query_cb(struct qeth_card *card, struct qeth_reply *reply, unsigned long data) { struct qeth_ipa_cmd *cmd; struct qeth_arp_query_data *qdata; struct qeth_arp_query_info *qinfo; int e; int entrybytes_done; int stripped_bytes; __u8 do_strip_entries; QETH_CARD_TEXT(card, 3, "arpquecb"); qinfo = (struct qeth_arp_query_info *) reply->param; cmd = (struct qeth_ipa_cmd *) data; QETH_CARD_TEXT_(card, 4, "%i", cmd->hdr.prot_version); if (cmd->hdr.return_code) { QETH_CARD_TEXT(card, 4, "arpcberr"); QETH_CARD_TEXT_(card, 4, "%i", cmd->hdr.return_code); return qeth_l3_arp_makerc(cmd->hdr.return_code); } if (cmd->data.setassparms.hdr.return_code) { cmd->hdr.return_code = cmd->data.setassparms.hdr.return_code; QETH_CARD_TEXT(card, 4, "setaperr"); QETH_CARD_TEXT_(card, 4, "%i", cmd->hdr.return_code); return qeth_l3_arp_makerc(cmd->hdr.return_code); } qdata = &cmd->data.setassparms.data.query_arp; QETH_CARD_TEXT_(card, 4, "anoen%i", qdata->no_entries); do_strip_entries = (qinfo->mask_bits & QETH_QARP_STRIP_ENTRIES) > 0; stripped_bytes = do_strip_entries ? QETH_QARP_MEDIASPECIFIC_BYTES : 0; entrybytes_done = 0; for (e = 0; e < qdata->no_entries; ++e) { char *cur_entry; __u32 esize; struct qeth_arp_entrytype *etype; cur_entry = &qdata->data + entrybytes_done; etype = &((struct qeth_arp_qi_entry5 *) cur_entry)->type; if (!arpentry_matches_prot(etype, cmd->hdr.prot_version)) { QETH_CARD_TEXT(card, 4, "pmis"); QETH_CARD_TEXT_(card, 4, "%i", etype->ip); break; } esize = get_arp_entry_size(card, qdata, etype, do_strip_entries); QETH_CARD_TEXT_(card, 5, "esz%i", esize); if (!esize) break; if ((qinfo->udata_len - qinfo->udata_offset) < esize) { QETH_CARD_TEXT_(card, 4, "qaer3%i", -ENOSPC); memset(qinfo->udata, 0, 4); return -ENOSPC; } memcpy(qinfo->udata + qinfo->udata_offset, &qdata->data + entrybytes_done + stripped_bytes, esize); entrybytes_done += esize + stripped_bytes; qinfo->udata_offset += esize; ++qinfo->no_entries; } /* check if all replies received ... */ if (cmd->data.setassparms.hdr.seq_no < cmd->data.setassparms.hdr.number_of_replies) return 1; QETH_CARD_TEXT_(card, 4, "nove%i", qinfo->no_entries); memcpy(qinfo->udata, &qinfo->no_entries, 4); /* keep STRIP_ENTRIES flag so the user program can distinguish * stripped entries from normal ones */ if (qinfo->mask_bits & QETH_QARP_STRIP_ENTRIES) qdata->reply_bits |= QETH_QARP_STRIP_ENTRIES; memcpy(qinfo->udata + QETH_QARP_MASK_OFFSET, &qdata->reply_bits, 2); QETH_CARD_TEXT_(card, 4, "rc%i", 0); return 0; } static int qeth_l3_query_arp_cache_info(struct qeth_card *card, enum qeth_prot_versions prot, struct qeth_arp_query_info *qinfo) { struct qeth_cmd_buffer *iob; struct qeth_ipa_cmd *cmd; int rc; QETH_CARD_TEXT_(card, 3, "qarpipv%i", prot); iob = qeth_get_setassparms_cmd(card, IPA_ARP_PROCESSING, IPA_CMD_ASS_ARP_QUERY_INFO, SETASS_DATA_SIZEOF(query_arp), prot); if (!iob) return -ENOMEM; cmd = __ipa_cmd(iob); cmd->data.setassparms.data.query_arp.request_bits = 0x000F; rc = qeth_send_ipa_cmd(card, iob, qeth_l3_arp_query_cb, qinfo); if (rc) QETH_DBF_MESSAGE(2, "Error while querying ARP cache on device %x: %#x\n", CARD_DEVID(card), rc); return rc; } static int qeth_l3_arp_query(struct qeth_card *card, char __user *udata) { struct qeth_arp_query_info qinfo = {0, }; int rc; QETH_CARD_TEXT(card, 3, "arpquery"); if (!qeth_is_supported(card,/*IPA_QUERY_ARP_ADDR_INFO*/ IPA_ARP_PROCESSING)) { QETH_CARD_TEXT(card, 3, "arpqnsup"); rc = -EOPNOTSUPP; goto out; } /* get size of userspace buffer and mask_bits -> 6 bytes */ if (copy_from_user(&qinfo, udata, 6)) { rc = -EFAULT; goto out; } qinfo.udata = kzalloc(qinfo.udata_len, GFP_KERNEL); if (!qinfo.udata) { rc = -ENOMEM; goto out; } qinfo.udata_offset = QETH_QARP_ENTRIES_OFFSET; rc = qeth_l3_query_arp_cache_info(card, QETH_PROT_IPV4, &qinfo); if (rc) { if (copy_to_user(udata, qinfo.udata, 4)) rc = -EFAULT; goto free_and_out; } if (qinfo.mask_bits & QETH_QARP_WITH_IPV6) { /* fails in case of GuestLAN QDIO mode */ qeth_l3_query_arp_cache_info(card, QETH_PROT_IPV6, &qinfo); } if (copy_to_user(udata, qinfo.udata, qinfo.udata_len)) { QETH_CARD_TEXT(card, 4, "qactf"); rc = -EFAULT; goto free_and_out; } QETH_CARD_TEXT(card, 4, "qacts"); free_and_out: kfree(qinfo.udata); out: return rc; } static int qeth_l3_arp_modify_entry(struct qeth_card *card, struct qeth_arp_cache_entry *entry, enum qeth_arp_process_subcmds arp_cmd) { struct qeth_arp_cache_entry *cmd_entry; struct qeth_cmd_buffer *iob; int rc; if (arp_cmd == IPA_CMD_ASS_ARP_ADD_ENTRY) QETH_CARD_TEXT(card, 3, "arpadd"); else QETH_CARD_TEXT(card, 3, "arpdel"); /* * currently GuestLAN only supports the ARP assist function * IPA_CMD_ASS_ARP_QUERY_INFO, but not IPA_CMD_ASS_ARP_ADD_ENTRY; * thus we say EOPNOTSUPP for this ARP function */ if (IS_VM_NIC(card)) return -EOPNOTSUPP; if (!qeth_is_supported(card, IPA_ARP_PROCESSING)) { return -EOPNOTSUPP; } iob = qeth_get_setassparms_cmd(card, IPA_ARP_PROCESSING, arp_cmd, SETASS_DATA_SIZEOF(arp_entry), QETH_PROT_IPV4); if (!iob) return -ENOMEM; cmd_entry = &__ipa_cmd(iob)->data.setassparms.data.arp_entry; ether_addr_copy(cmd_entry->macaddr, entry->macaddr); memcpy(cmd_entry->ipaddr, entry->ipaddr, 4); rc = qeth_send_ipa_cmd(card, iob, qeth_l3_arp_cmd_cb, NULL); if (rc) QETH_DBF_MESSAGE(2, "Could not modify (cmd: %#x) ARP entry on device %x: %#x\n", arp_cmd, CARD_DEVID(card), rc); return rc; } static int qeth_l3_arp_flush_cache(struct qeth_card *card) { struct qeth_cmd_buffer *iob; int rc; QETH_CARD_TEXT(card, 3, "arpflush"); /* * currently GuestLAN only supports the ARP assist function * IPA_CMD_ASS_ARP_QUERY_INFO, but not IPA_CMD_ASS_ARP_FLUSH_CACHE; * thus we say EOPNOTSUPP for this ARP function */ if (IS_VM_NIC(card) || IS_IQD(card)) return -EOPNOTSUPP; if (!qeth_is_supported(card, IPA_ARP_PROCESSING)) { return -EOPNOTSUPP; } iob = qeth_get_setassparms_cmd(card, IPA_ARP_PROCESSING, IPA_CMD_ASS_ARP_FLUSH_CACHE, 0, QETH_PROT_IPV4); if (!iob) return -ENOMEM; rc = qeth_send_ipa_cmd(card, iob, qeth_l3_arp_cmd_cb, NULL); if (rc) QETH_DBF_MESSAGE(2, "Could not flush ARP cache on device %x: %#x\n", CARD_DEVID(card), rc); return rc; } static int qeth_l3_ndo_siocdevprivate(struct net_device *dev, struct ifreq *rq, void __user *data, int cmd) { struct qeth_card *card = dev->ml_priv; struct qeth_arp_cache_entry arp_entry; enum qeth_arp_process_subcmds arp_cmd; int rc = 0; switch (cmd) { case SIOC_QETH_ARP_SET_NO_ENTRIES: if (!capable(CAP_NET_ADMIN)) { rc = -EPERM; break; } rc = qeth_l3_arp_set_no_entries(card, rq->ifr_ifru.ifru_ivalue); break; case SIOC_QETH_ARP_QUERY_INFO: if (!capable(CAP_NET_ADMIN)) { rc = -EPERM; break; } rc = qeth_l3_arp_query(card, data); break; case SIOC_QETH_ARP_ADD_ENTRY: case SIOC_QETH_ARP_REMOVE_ENTRY: if (!capable(CAP_NET_ADMIN)) return -EPERM; if (copy_from_user(&arp_entry, data, sizeof(arp_entry))) return -EFAULT; arp_cmd = (cmd == SIOC_QETH_ARP_ADD_ENTRY) ? IPA_CMD_ASS_ARP_ADD_ENTRY : IPA_CMD_ASS_ARP_REMOVE_ENTRY; return qeth_l3_arp_modify_entry(card, &arp_entry, arp_cmd); case SIOC_QETH_ARP_FLUSH_CACHE: if (!capable(CAP_NET_ADMIN)) { rc = -EPERM; break; } rc = qeth_l3_arp_flush_cache(card); break; default: rc = qeth_siocdevprivate(dev, rq, data, cmd); } return rc; } static int qeth_l3_get_cast_type_rcu(struct sk_buff *skb, struct dst_entry *dst, __be16 proto) { struct neighbour *n = NULL; if (dst) n = dst_neigh_lookup_skb(dst, skb); if (n) { int cast_type = n->type; neigh_release(n); if ((cast_type == RTN_BROADCAST) || (cast_type == RTN_MULTICAST) || (cast_type == RTN_ANYCAST)) return cast_type; return RTN_UNICAST; } /* no neighbour (eg AF_PACKET), fall back to target's IP address ... */ switch (proto) { case htons(ETH_P_IP): if (ipv4_is_lbcast(ip_hdr(skb)->daddr)) return RTN_BROADCAST; return ipv4_is_multicast(ip_hdr(skb)->daddr) ? RTN_MULTICAST : RTN_UNICAST; case htons(ETH_P_IPV6): return ipv6_addr_is_multicast(&ipv6_hdr(skb)->daddr) ? RTN_MULTICAST : RTN_UNICAST; case htons(ETH_P_AF_IUCV): return RTN_UNICAST; default: /* OSA only: ... and MAC address */ return qeth_get_ether_cast_type(skb); } } static int qeth_l3_get_cast_type(struct sk_buff *skb, __be16 proto) { struct dst_entry *dst; int cast_type; rcu_read_lock(); dst = qeth_dst_check_rcu(skb, proto); cast_type = qeth_l3_get_cast_type_rcu(skb, dst, proto); rcu_read_unlock(); return cast_type; } static u8 qeth_l3_cast_type_to_flag(int cast_type) { if (cast_type == RTN_MULTICAST) return QETH_CAST_MULTICAST; if (cast_type == RTN_ANYCAST) return QETH_CAST_ANYCAST; if (cast_type == RTN_BROADCAST) return QETH_CAST_BROADCAST; return QETH_CAST_UNICAST; } static void qeth_l3_fill_header(struct qeth_qdio_out_q *queue, struct qeth_hdr *hdr, struct sk_buff *skb, __be16 proto, unsigned int data_len) { struct qeth_hdr_layer3 *l3_hdr = &hdr->hdr.l3; struct vlan_ethhdr *veth = vlan_eth_hdr(skb); struct qeth_card *card = queue->card; struct dst_entry *dst; int cast_type; hdr->hdr.l3.length = data_len; if (skb_is_gso(skb)) { hdr->hdr.l3.id = QETH_HEADER_TYPE_L3_TSO; } else { hdr->hdr.l3.id = QETH_HEADER_TYPE_LAYER3; if (skb->ip_summed == CHECKSUM_PARTIAL) { qeth_tx_csum(skb, &hdr->hdr.l3.ext_flags, proto); /* some HW requires combined L3+L4 csum offload: */ if (proto == htons(ETH_P_IP)) hdr->hdr.l3.ext_flags |= QETH_HDR_EXT_CSUM_HDR_REQ; } } if (proto == htons(ETH_P_IP) || IS_IQD(card)) { /* NETIF_F_HW_VLAN_CTAG_TX */ if (skb_vlan_tag_present(skb)) { hdr->hdr.l3.ext_flags |= QETH_HDR_EXT_VLAN_FRAME; hdr->hdr.l3.vlan_id = skb_vlan_tag_get(skb); } } else if (veth->h_vlan_proto == htons(ETH_P_8021Q)) { hdr->hdr.l3.ext_flags |= QETH_HDR_EXT_INCLUDE_VLAN_TAG; hdr->hdr.l3.vlan_id = ntohs(veth->h_vlan_TCI); } rcu_read_lock(); dst = qeth_dst_check_rcu(skb, proto); if (IS_IQD(card) && skb_get_queue_mapping(skb) != QETH_IQD_MCAST_TXQ) cast_type = RTN_UNICAST; else cast_type = qeth_l3_get_cast_type_rcu(skb, dst, proto); l3_hdr->flags |= qeth_l3_cast_type_to_flag(cast_type); switch (proto) { case htons(ETH_P_IP): l3_hdr->next_hop.addr.s6_addr32[3] = qeth_next_hop_v4_rcu(skb, dst); break; case htons(ETH_P_IPV6): l3_hdr->next_hop.addr = *qeth_next_hop_v6_rcu(skb, dst); hdr->hdr.l3.flags |= QETH_HDR_IPV6; if (!IS_IQD(card)) hdr->hdr.l3.flags |= QETH_HDR_PASSTHRU; break; case htons(ETH_P_AF_IUCV): l3_hdr->next_hop.addr.s6_addr16[0] = htons(0xfe80); memcpy(&l3_hdr->next_hop.addr.s6_addr32[2], iucv_trans_hdr(skb)->destUserID, 8); l3_hdr->flags |= QETH_HDR_IPV6; break; default: /* OSA only: */ l3_hdr->flags |= QETH_HDR_PASSTHRU; } rcu_read_unlock(); } static void qeth_l3_fixup_headers(struct sk_buff *skb) { struct iphdr *iph = ip_hdr(skb); /* this is safe, IPv6 traffic takes a different path */ if (skb->ip_summed == CHECKSUM_PARTIAL) iph->check = 0; if (skb_is_gso(skb)) { iph->tot_len = 0; tcp_hdr(skb)->check = ~tcp_v4_check(0, iph->saddr, iph->daddr, 0); } } static int qeth_l3_xmit(struct qeth_card *card, struct sk_buff *skb, struct qeth_qdio_out_q *queue, __be16 proto) { unsigned int hw_hdr_len; int rc; /* re-use the L2 header area for the HW header: */ hw_hdr_len = skb_is_gso(skb) ? sizeof(struct qeth_hdr_tso) : sizeof(struct qeth_hdr); rc = skb_cow_head(skb, hw_hdr_len - ETH_HLEN); if (rc) return rc; skb_pull(skb, ETH_HLEN); qeth_l3_fixup_headers(skb); return qeth_xmit(card, skb, queue, proto, qeth_l3_fill_header); } static netdev_tx_t qeth_l3_hard_start_xmit(struct sk_buff *skb, struct net_device *dev) { struct qeth_card *card = dev->ml_priv; __be16 proto = vlan_get_protocol(skb); u16 txq = skb_get_queue_mapping(skb); struct qeth_qdio_out_q *queue; int rc; if (!skb_is_gso(skb)) qdisc_skb_cb(skb)->pkt_len = skb->len; if (IS_IQD(card)) { queue = card->qdio.out_qs[qeth_iqd_translate_txq(dev, txq)]; if (card->options.sniffer) goto tx_drop; switch (proto) { case htons(ETH_P_AF_IUCV): if (card->options.cq != QETH_CQ_ENABLED) goto tx_drop; break; case htons(ETH_P_IP): case htons(ETH_P_IPV6): if (card->options.cq == QETH_CQ_ENABLED) goto tx_drop; break; default: goto tx_drop; } } else { queue = card->qdio.out_qs[txq]; } if (!(dev->flags & IFF_BROADCAST) && qeth_l3_get_cast_type(skb, proto) == RTN_BROADCAST) goto tx_drop; if (proto == htons(ETH_P_IP) || IS_IQD(card)) rc = qeth_l3_xmit(card, skb, queue, proto); else rc = qeth_xmit(card, skb, queue, proto, qeth_l3_fill_header); if (!rc) return NETDEV_TX_OK; tx_drop: QETH_TXQ_STAT_INC(queue, tx_dropped); kfree_skb(skb); return NETDEV_TX_OK; } static void qeth_l3_set_rx_mode(struct net_device *dev) { struct qeth_card *card = dev->ml_priv; schedule_work(&card->rx_mode_work); } /* * we need NOARP for IPv4 but we want neighbor solicitation for IPv6. Setting * NOARP on the netdevice is no option because it also turns off neighbor * solicitation. For IPv4 we install a neighbor_setup function. We don't want * arp resolution but we want the hard header (packet socket will work * e.g. tcpdump) */ static int qeth_l3_neigh_setup_noarp(struct neighbour *n) { n->nud_state = NUD_NOARP; memcpy(n->ha, "FAKELL", 6); n->output = n->ops->connected_output; return 0; } static int qeth_l3_neigh_setup(struct net_device *dev, struct neigh_parms *np) { if (np->tbl->family == AF_INET) np->neigh_setup = qeth_l3_neigh_setup_noarp; return 0; } static netdev_features_t qeth_l3_osa_features_check(struct sk_buff *skb, struct net_device *dev, netdev_features_t features) { if (vlan_get_protocol(skb) != htons(ETH_P_IP)) features &= ~NETIF_F_HW_VLAN_CTAG_TX; return qeth_features_check(skb, dev, features); } static u16 qeth_l3_iqd_select_queue(struct net_device *dev, struct sk_buff *skb, struct net_device *sb_dev) { __be16 proto = vlan_get_protocol(skb); return qeth_iqd_select_queue(dev, skb, qeth_l3_get_cast_type(skb, proto), sb_dev); } static const struct net_device_ops qeth_l3_netdev_ops = { .ndo_open = qeth_open, .ndo_stop = qeth_stop, .ndo_get_stats64 = qeth_get_stats64, .ndo_start_xmit = qeth_l3_hard_start_xmit, .ndo_select_queue = qeth_l3_iqd_select_queue, .ndo_validate_addr = eth_validate_addr, .ndo_set_rx_mode = qeth_l3_set_rx_mode, .ndo_eth_ioctl = qeth_do_ioctl, .ndo_siocdevprivate = qeth_l3_ndo_siocdevprivate, .ndo_fix_features = qeth_fix_features, .ndo_set_features = qeth_set_features, .ndo_tx_timeout = qeth_tx_timeout, }; static const struct net_device_ops qeth_l3_osa_netdev_ops = { .ndo_open = qeth_open, .ndo_stop = qeth_stop, .ndo_get_stats64 = qeth_get_stats64, .ndo_start_xmit = qeth_l3_hard_start_xmit, .ndo_features_check = qeth_l3_osa_features_check, .ndo_select_queue = qeth_osa_select_queue, .ndo_validate_addr = eth_validate_addr, .ndo_set_rx_mode = qeth_l3_set_rx_mode, .ndo_eth_ioctl = qeth_do_ioctl, .ndo_siocdevprivate = qeth_l3_ndo_siocdevprivate, .ndo_fix_features = qeth_fix_features, .ndo_set_features = qeth_set_features, .ndo_tx_timeout = qeth_tx_timeout, .ndo_neigh_setup = qeth_l3_neigh_setup, }; static int qeth_l3_setup_netdev(struct qeth_card *card) { struct net_device *dev = card->dev; unsigned int headroom; int rc; if (IS_OSD(card) || IS_OSX(card)) { card->dev->netdev_ops = &qeth_l3_osa_netdev_ops; /*IPv6 address autoconfiguration stuff*/ dev->dev_id = qeth_l3_get_unique_id(card, dev->dev_id); if (!IS_VM_NIC(card)) { card->dev->features |= NETIF_F_SG; card->dev->hw_features |= NETIF_F_TSO | NETIF_F_RXCSUM | NETIF_F_IP_CSUM; card->dev->vlan_features |= NETIF_F_TSO | NETIF_F_RXCSUM | NETIF_F_IP_CSUM; } if (qeth_is_supported6(card, IPA_OUTBOUND_CHECKSUM_V6)) { card->dev->hw_features |= NETIF_F_IPV6_CSUM; card->dev->vlan_features |= NETIF_F_IPV6_CSUM; } if (qeth_is_supported6(card, IPA_OUTBOUND_TSO)) { card->dev->hw_features |= NETIF_F_TSO6; card->dev->vlan_features |= NETIF_F_TSO6; } /* allow for de-acceleration of NETIF_F_HW_VLAN_CTAG_TX: */ if (card->dev->hw_features & NETIF_F_TSO6) headroom = sizeof(struct qeth_hdr_tso) + VLAN_HLEN; else if (card->dev->hw_features & NETIF_F_TSO) headroom = sizeof(struct qeth_hdr_tso); else headroom = sizeof(struct qeth_hdr) + VLAN_HLEN; } else if (IS_IQD(card)) { card->dev->flags |= IFF_NOARP; card->dev->netdev_ops = &qeth_l3_netdev_ops; headroom = sizeof(struct qeth_hdr) - ETH_HLEN; rc = qeth_l3_iqd_read_initial_mac(card); if (rc) return rc; } else return -ENODEV; card->dev->needed_headroom = headroom; card->dev->features |= NETIF_F_HW_VLAN_CTAG_TX | NETIF_F_HW_VLAN_CTAG_RX; netif_keep_dst(card->dev); if (card->dev->hw_features & (NETIF_F_TSO | NETIF_F_TSO6)) netif_set_tso_max_size(card->dev, PAGE_SIZE * (QETH_MAX_BUFFER_ELEMENTS(card) - 1)); netif_napi_add(card->dev, &card->napi, qeth_poll); return register_netdev(card->dev); } static const struct device_type qeth_l3_devtype = { .name = "qeth_layer3", .groups = qeth_l3_attr_groups, }; static int qeth_l3_probe_device(struct ccwgroup_device *gdev) { struct qeth_card *card = dev_get_drvdata(&gdev->dev); int rc; hash_init(card->ip_htable); mutex_init(&card->ip_lock); card->cmd_wq = alloc_ordered_workqueue("%s_cmd", 0, dev_name(&gdev->dev)); if (!card->cmd_wq) return -ENOMEM; if (gdev->dev.type) { rc = device_add_groups(&gdev->dev, qeth_l3_attr_groups); if (rc) { destroy_workqueue(card->cmd_wq); return rc; } } else { gdev->dev.type = &qeth_l3_devtype; } INIT_WORK(&card->rx_mode_work, qeth_l3_rx_mode_work); return 0; } static void qeth_l3_remove_device(struct ccwgroup_device *cgdev) { struct qeth_card *card = dev_get_drvdata(&cgdev->dev); if (cgdev->dev.type != &qeth_l3_devtype) device_remove_groups(&cgdev->dev, qeth_l3_attr_groups); qeth_set_allowed_threads(card, 0, 1); wait_event(card->wait_q, qeth_threads_running(card, 0xffffffff) == 0); if (cgdev->state == CCWGROUP_ONLINE) qeth_set_offline(card, card->discipline, false); if (card->dev->reg_state == NETREG_REGISTERED) unregister_netdev(card->dev); destroy_workqueue(card->cmd_wq); qeth_l3_clear_ip_htable(card, 0); qeth_l3_clear_ipato_list(card); } static int qeth_l3_set_online(struct qeth_card *card, bool carrier_ok) { struct net_device *dev = card->dev; int rc = 0; /* softsetup */ QETH_CARD_TEXT(card, 2, "softsetp"); rc = qeth_l3_setadapter_parms(card); if (rc) QETH_CARD_TEXT_(card, 2, "2err%04x", rc); if (!card->options.sniffer) { qeth_l3_start_ipassists(card); rc = qeth_l3_setrouting_v4(card); if (rc) QETH_CARD_TEXT_(card, 2, "4err%04x", rc); rc = qeth_l3_setrouting_v6(card); if (rc) QETH_CARD_TEXT_(card, 2, "5err%04x", rc); } card->state = CARD_STATE_SOFTSETUP; qeth_set_allowed_threads(card, 0xffffffff, 0); qeth_l3_recover_ip(card); if (dev->reg_state != NETREG_REGISTERED) { rc = qeth_l3_setup_netdev(card); if (rc) goto err_setup; if (carrier_ok) netif_carrier_on(dev); } else { rtnl_lock(); rc = qeth_set_real_num_tx_queues(card, qeth_tx_actual_queues(card)); if (rc) { rtnl_unlock(); goto err_set_queues; } if (carrier_ok) netif_carrier_on(dev); else netif_carrier_off(dev); netif_device_attach(dev); qeth_enable_hw_features(dev); if (netif_running(dev)) { local_bh_disable(); napi_schedule(&card->napi); /* kick-start the NAPI softirq: */ local_bh_enable(); } rtnl_unlock(); } return 0; err_set_queues: err_setup: qeth_set_allowed_threads(card, 0, 1); card->state = CARD_STATE_DOWN; qeth_l3_clear_ip_htable(card, 1); return rc; } static void qeth_l3_set_offline(struct qeth_card *card) { qeth_set_allowed_threads(card, 0, 1); qeth_l3_drain_rx_mode_cache(card); if (card->options.sniffer && (card->info.promisc_mode == SET_PROMISC_MODE_ON)) qeth_diags_trace(card, QETH_DIAGS_CMD_TRACE_DISABLE); if (card->state == CARD_STATE_SOFTSETUP) { card->state = CARD_STATE_DOWN; qeth_l3_clear_ip_htable(card, 1); } } /* Returns zero if the command is successfully "consumed" */ static int qeth_l3_control_event(struct qeth_card *card, struct qeth_ipa_cmd *cmd) { return 1; } const struct qeth_discipline qeth_l3_discipline = { .setup = qeth_l3_probe_device, .remove = qeth_l3_remove_device, .set_online = qeth_l3_set_online, .set_offline = qeth_l3_set_offline, .control_event_handler = qeth_l3_control_event, }; EXPORT_SYMBOL_GPL(qeth_l3_discipline); static int qeth_l3_handle_ip_event(struct qeth_card *card, struct qeth_ipaddr *addr, unsigned long event) { switch (event) { case NETDEV_UP: qeth_l3_modify_ip(card, addr, true); return NOTIFY_OK; case NETDEV_DOWN: qeth_l3_modify_ip(card, addr, false); return NOTIFY_OK; default: return NOTIFY_DONE; } } struct qeth_l3_ip_event_work { struct work_struct work; struct qeth_card *card; struct qeth_ipaddr addr; }; #define to_ip_work(w) container_of((w), struct qeth_l3_ip_event_work, work) static void qeth_l3_add_ip_worker(struct work_struct *work) { struct qeth_l3_ip_event_work *ip_work = to_ip_work(work); qeth_l3_modify_ip(ip_work->card, &ip_work->addr, true); kfree(work); } static void qeth_l3_delete_ip_worker(struct work_struct *work) { struct qeth_l3_ip_event_work *ip_work = to_ip_work(work); qeth_l3_modify_ip(ip_work->card, &ip_work->addr, false); kfree(work); } static struct qeth_card *qeth_l3_get_card_from_dev(struct net_device *dev) { if (is_vlan_dev(dev)) dev = vlan_dev_real_dev(dev); if (dev->netdev_ops == &qeth_l3_osa_netdev_ops || dev->netdev_ops == &qeth_l3_netdev_ops) return (struct qeth_card *) dev->ml_priv; return NULL; } static int qeth_l3_ip_event(struct notifier_block *this, unsigned long event, void *ptr) { struct in_ifaddr *ifa = (struct in_ifaddr *)ptr; struct net_device *dev = ifa->ifa_dev->dev; struct qeth_ipaddr addr; struct qeth_card *card; card = qeth_l3_get_card_from_dev(dev); if (!card) return NOTIFY_DONE; QETH_CARD_TEXT(card, 3, "ipevent"); qeth_l3_init_ipaddr(&addr, QETH_IP_TYPE_NORMAL, QETH_PROT_IPV4); addr.u.a4.addr = ifa->ifa_address; addr.u.a4.mask = ifa->ifa_mask; return qeth_l3_handle_ip_event(card, &addr, event); } static struct notifier_block qeth_l3_ip_notifier = { qeth_l3_ip_event, NULL, }; static int qeth_l3_ip6_event(struct notifier_block *this, unsigned long event, void *ptr) { struct inet6_ifaddr *ifa = (struct inet6_ifaddr *)ptr; struct net_device *dev = ifa->idev->dev; struct qeth_l3_ip_event_work *ip_work; struct qeth_card *card; if (event != NETDEV_UP && event != NETDEV_DOWN) return NOTIFY_DONE; card = qeth_l3_get_card_from_dev(dev); if (!card) return NOTIFY_DONE; QETH_CARD_TEXT(card, 3, "ip6event"); if (!qeth_is_supported(card, IPA_IPV6)) return NOTIFY_DONE; ip_work = kmalloc(sizeof(*ip_work), GFP_ATOMIC); if (!ip_work) return NOTIFY_DONE; if (event == NETDEV_UP) INIT_WORK(&ip_work->work, qeth_l3_add_ip_worker); else INIT_WORK(&ip_work->work, qeth_l3_delete_ip_worker); ip_work->card = card; qeth_l3_init_ipaddr(&ip_work->addr, QETH_IP_TYPE_NORMAL, QETH_PROT_IPV6); ip_work->addr.u.a6.addr = ifa->addr; ip_work->addr.u.a6.pfxlen = ifa->prefix_len; queue_work(card->cmd_wq, &ip_work->work); return NOTIFY_OK; } static struct notifier_block qeth_l3_ip6_notifier = { qeth_l3_ip6_event, NULL, }; static int qeth_l3_register_notifiers(void) { int rc; QETH_DBF_TEXT(SETUP, 5, "regnotif"); rc = register_inetaddr_notifier(&qeth_l3_ip_notifier); if (rc) return rc; rc = register_inet6addr_notifier(&qeth_l3_ip6_notifier); if (rc) { unregister_inetaddr_notifier(&qeth_l3_ip_notifier); return rc; } return 0; } static void qeth_l3_unregister_notifiers(void) { QETH_DBF_TEXT(SETUP, 5, "unregnot"); WARN_ON(unregister_inetaddr_notifier(&qeth_l3_ip_notifier)); WARN_ON(unregister_inet6addr_notifier(&qeth_l3_ip6_notifier)); } static int __init qeth_l3_init(void) { pr_info("register layer 3 discipline\n"); return qeth_l3_register_notifiers(); } static void __exit qeth_l3_exit(void) { qeth_l3_unregister_notifiers(); pr_info("unregister layer 3 discipline\n"); } module_init(qeth_l3_init); module_exit(qeth_l3_exit); MODULE_AUTHOR("Frank Blaschka <frank.blaschka@de.ibm.com>"); MODULE_DESCRIPTION("qeth layer 3 discipline"); MODULE_LICENSE("GPL");
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