/* * netsniff-ng - the packet sniffing beast * Copyright 2012 Markus Amend , Deutsche Flugsicherung GmbH * Subject to the GPL, version 2. * * IPv6 Routing Header described in RFC2460 */ #include #include #include /* for ntohs() and "struct in6_addr" */ #include /* for inet_ntop() */ #include "proto.h" #include "protos.h" #include "dissector_eth.h" #include "built_in.h" #include "pkt_buff.h" #define ROUTING_HEADER_TYPE_0 0x00 struct routinghdr { uint8_t h_next_header; uint8_t h_hdr_ext_len; uint8_t h_routing_type; uint8_t h_segments_left; } __packed; struct routinghdr_0 { uint32_t reserved; uint32_t addresses[0]; } __packed; static void dissect_routinghdr_type_0(struct pkt_buff *pkt, ssize_t *data_len, int less) { uint8_t num_addr; char address[INET6_ADDRSTRLEN]; struct in6_addr *addr; struct routinghdr_0 *routing_0; routing_0 = (struct routinghdr_0 *) pkt_pull(pkt, sizeof(*routing_0)); *data_len -= sizeof(*routing_0); if (routing_0 == NULL || *data_len > pkt_len(pkt) || *data_len < 0) return; if (less) { tprintf("Addresses (%lu)", *data_len / sizeof(struct in6_addr)); return; } tprintf("Res (0x%x)", routing_0->reserved); num_addr = *data_len / sizeof(*addr); while (num_addr--) { addr = (struct in6_addr *) pkt_pull(pkt, sizeof(*addr)); *data_len -= sizeof(*addr); if (addr == NULL || *data_len > pkt_len(pkt) || *data_len < 0) return; tprintf("\n\t Address: %s", inet_ntop(AF_INET6, addr, address, sizeof(address))); } } static inline void dissect_routinghdr_type_0_norm(struct pkt_buff *pkt, ssize_t *data_len) { dissect_routinghdr_type_0(pkt, data_len, 0); } static inline void dissect_routinghdr_type_0_less(struct pkt_buff *pkt, ssize_t *data_len) { dissect_routinghdr_type_0(pkt, data_len, 1); } static void routing(struct pkt_buff *pkt) { uint16_t hdr_ext_len; ssize_t data_len; struct routinghdr *routing; routing = (struct routinghdr *) pkt_pull(pkt, sizeof(*routing)); if (routing == NULL) return; /* Total Header Length in Bytes */ hdr_ext_len = (routing->h_hdr_ext_len + 1) * 8; /* Data length in Bytes */ data_len = hdr_ext_len - sizeof(*routing); tprintf("\t [ Routing "); tprintf("NextHdr (%u), ", routing->h_next_header); if (data_len > pkt_len(pkt) || data_len < 0){ tprintf("HdrExtLen (%u, %u Bytes %s), ", routing->h_hdr_ext_len, hdr_ext_len, colorize_start_full(black, red) "invalid" colorize_end()); return; } tprintf("HdrExtLen (%u, %u Bytes), ", routing->h_hdr_ext_len, hdr_ext_len); tprintf("Type (%u), ", routing->h_routing_type); tprintf("Left (%u), ", routing->h_segments_left); switch (routing->h_routing_type) { case ROUTING_HEADER_TYPE_0: dissect_routinghdr_type_0_norm(pkt, &data_len); break; default: tprintf("Type %u is unknown", routing->h_routing_type); } tprintf(" ]\n"); if (data_len > pkt_len(pkt) || data_len < 0) return; pkt_pull(pkt, data_len); pkt_set_proto(pkt, ð_lay3, routing->h_next_header); } static void routing_less(struct pkt_buff *pkt) { uint16_t hdr_ext_len; ssize_t data_len; struct routinghdr *routing; routing = (struct routinghdr *) pkt_pull(pkt, sizeof(*routing)); if (routing == NULL) return; /* Total Header Length in Bytes */ hdr_ext_len = (routing->h_hdr_ext_len + 1) * 8; /* Data length in Bytes */ data_len = hdr_ext_len - sizeof(*routing); if (data_len > pkt_len(pkt) || data_len < 0) return; tprintf(" Routing "); switch (routing->h_routing_type) { case ROUTING_HEADER_TYPE_0: dissect_routinghdr_type_0_less(pkt, &data_len); break; default: tprintf("Type %u is unknown", routing->h_routing_type); } if (data_len > pkt_len(pkt) || data_len < 0) return; pkt_pull(pkt, data_len); pkt_set_proto(pkt, ð_lay3, routing->h_next_header); } struct protocol ipv6_routing_ops = { .key = 0x2B, .print_full = routing, .print_less = routing_less, }; space:mode:

author	Marc Zyngier <marc.zyngier@arm.com>	2017-01-17 16:00:48 +0000
committer	Thomas Gleixner <tglx@linutronix.de>	2017-01-30 15:18:56 +0100
commit	08d85f3ea99f1eeafc4e8507936190e86a16ee8c (patch)
tree	410bb1acd0cd7dcfaad37ae7b63ff243b7fa4bee /include/uapi/video/edid.h
parent	566cf877a1fcb6d6dc0126b076aad062054c2637 (diff)

irqdomain: Avoid activating interrupts more than once

Since commit f3b0946d629c ("genirq/msi: Make sure PCI MSIs are activated early"), we can end-up activating a PCI/MSI twice (once at allocation time, and once at startup time). This is normally of no consequences, except that there is some HW out there that may misbehave if activate is used more than once (the GICv3 ITS, for example, uses the activate callback to issue the MAPVI command, and the architecture spec says that "If there is an existing mapping for the EventID-DeviceID combination, behavior is UNPREDICTABLE"). While this could be worked around in each individual driver, it may make more sense to tackle the issue at the core level. In order to avoid getting in that situation, let's have a per-interrupt flag to remember if we have already activated that interrupt or not. Fixes: f3b0946d629c ("genirq/msi: Make sure PCI MSIs are activated early") Reported-and-tested-by: Andre Przywara <andre.przywara@arm.com> Signed-off-by: Marc Zyngier <marc.zyngier@arm.com> Cc: stable@vger.kernel.org Link: http://lkml.kernel.org/r/1484668848-24361-1-git-send-email-marc.zyngier@arm.com Signed-off-by: Thomas Gleixner <tglx@linutronix.de>

Diffstat (limited to 'include/uapi/video/edid.h')