/* * netsniff-ng - the packet sniffing beast * Subject to the GPL, version 2. */ #include #include "str.h" #include "xmalloc.h" #include "built_in.h" #include "trafgen_l7.h" #include "trafgen_proto.h" static struct proto_field dns_fields[] = { { .id = DNS_ID, .len = 2, .offset = 0 }, { .id = DNS_QR, .len = 2, .offset = 2, .shift = 15, .mask = 0x8000 }, { .id = DNS_OPCODE, .len = 2, .offset = 2, .shift = 11, .mask = 0x7800 }, { .id = DNS_AA, .len = 2, .offset = 2, .shift = 10, .mask = 0x0400 }, { .id = DNS_TC, .len = 2, .offset = 2, .shift = 9, .mask = 0x0200 }, { .id = DNS_RD, .len = 2, .offset = 2, .shift = 8, .mask = 0x0100 }, { .id = DNS_RA, .len = 2, .offset = 2, .shift = 7, .mask = 0x80 }, { .id = DNS_ZERO, .len = 2, .offset = 2, .shift = 4, .mask = 0x30 }, { .id = DNS_RCODE, .len = 2, .offset = 2, .shift = 0, .mask = 0xf }, { .id = DNS_QD_COUNT, .len = 2, .offset = 4, }, { .id = DNS_AN_COUNT, .len = 2, .offset = 6, }, { .id = DNS_NS_COUNT, .len = 2, .offset = 8, }, { .id = DNS_AR_COUNT, .len = 2, .offset = 10, }, }; static struct proto_field dns_query_fields[] = { { .id = DNS_QUERY_NAME, .len = 0, .offset = 0 }, { .id = DNS_QUERY_TYPE, .len = 2, .offset = 0 }, { .id = DNS_QUERY_CLASS, .len = 2, .offset = 2 }, }; static void dns_query_header_init(struct proto_hdr *hdr) { proto_header_fields_add(hdr, dns_query_fields, array_size(dns_query_fields)); } static void dns_query_header_finish(struct proto_hdr *hdr) { proto_hdr_field_set_default_string(hdr, DNS_QUERY_NAME, "www.netsniff-ng.com"); proto_hdr_field_set_default_be16(hdr, DNS_QUERY_CLASS, 1); proto_hdr_field_set_default_be16(hdr, DNS_QUERY_TYPE, 1); } static const struct proto_ops dns_proto_query_ops = { .header_init = dns_query_header_init, .header_finish = dns_query_header_finish, }; static struct proto_field dns_rrecord_fields[] = { { .id = DNS_RRECORD_NAME, .len = 0, .offset = 0 }, { .id = DNS_RRECORD_TYPE, .len = 2, .offset = 0 }, { .id = DNS_RRECORD_CLASS, .len = 2, .offset = 2 }, { .id = DNS_RRECORD_TTL, .len = 4, .offset = 4 }, { .id = DNS_RRECORD_LEN, .len = 2, .offset = 8 }, { .id = DNS_RRECORD_DATA, .len = 0, .offset = 10 }, }; static void dns_rrecord_header_init(struct proto_hdr *hdr) { proto_header_fields_add(hdr, dns_rrecord_fields, array_size(dns_rrecord_fields)); } static void dns_rrecord_header_finish(struct proto_hdr *hdr) { struct proto_field *data = proto_hdr_field_by_id(hdr, DNS_RRECORD_DATA); proto_hdr_field_set_default_be32(hdr, DNS_RRECORD_TTL, 1); proto_hdr_field_set_default_be16(hdr, DNS_RRECORD_CLASS, 1); proto_hdr_field_set_default_be16(hdr, DNS_RRECORD_LEN, data->len); } static const struct proto_ops dns_proto_rrecord_ops = { .header_init = dns_rrecord_header_init, .header_finish = dns_rrecord_header_finish, }; static void dns_header_init(struct proto_hdr *hdr) { proto_lower_default_add(hdr, PROTO_UDP); proto_header_fields_add(hdr, dns_fields, array_size(dns_fields)); } static void dns_sort_headers(struct proto_hdr *hdr, uint32_t id, int index) { int i; for (i = index; i < hdr->sub_headers_count; i++) { struct proto_hdr *sub_hdr = hdr->sub_headers[i]; if (sub_hdr->id == id && sub_hdr->index != index) { proto_hdr_move_sub_header(hdr, sub_hdr, hdr->sub_headers[index]); index++; } } } static void dns_header_finish(struct proto_hdr *hdr) { size_t ar_count = 0; size_t ns_count = 0; size_t qd_count = 0; size_t an_count = 0; int i; for (i = 0; i < hdr->sub_headers_count; i++) { struct proto_hdr *sub_hdr = hdr->sub_headers[i]; switch (sub_hdr->id) { case DNS_QUERY_HDR: qd_count++; break; case DNS_ANSWER_HDR: an_count++; break; case DNS_AUTH_HDR: ns_count++; break; case DNS_ADD_HDR: ar_count++; break; } } dns_sort_headers(hdr, DNS_QUERY_HDR, 0); dns_sort_headers(hdr, DNS_ANSWER_HDR, qd_count); dns_sort_headers(hdr, DNS_AUTH_HDR, qd_count + an_count); dns_sort_headers(hdr, DNS_ADD_HDR, qd_count + an_count + ns_count); proto_hdr_field_set_default_be16(hdr, DNS_QD_COUNT, qd_count); proto_hdr_field_set_default_be16(hdr, DNS_AN_COUNT, an_count); proto_hdr_field_set_default_be16(hdr, DNS_NS_COUNT, ns_count); proto_hdr_field_set_default_be16(hdr, DNS_AR_COUNT, ar_count); if (an_count) proto_hdr_field_set_default_be16(hdr, DNS_QR, 1); } static void dns_push_sub_header(struct proto_hdr *hdr, struct proto_hdr *sub_hdr) { switch (sub_hdr->id) { case DNS_QUERY_HDR: sub_hdr->ops = &dns_proto_query_ops; break; case DNS_ANSWER_HDR: case DNS_AUTH_HDR: case DNS_ADD_HDR: sub_hdr->ops = &dns_proto_rrecord_ops; break; default: bug(); } } static const struct proto_ops dns_proto_ops = { .id = PROTO_DNS, .layer = PROTO_L7, .header_init = dns_header_init, .header_finish = dns_header_finish, .push_sub_header = dns_push_sub_header, }; void protos_l7_init(void) { proto_ops_register(&dns_proto_ops); } -01-24 15:18:52 -0800 committerLinus Torvalds <torvalds@linux-foundation.org>2017-01-24 16:26:14 -0800 commit3277953de2f31dd03c6375e9a9f680ac37fc9d27 (patch) tree6ba22924faa1b82ef2f0277db10a3f5abdc44157 /sound/usb/misc parent3705ccfdd1e8b539225ce20e3925a945cc788d67 (diff)
mm: do not export ioremap_page_range symbol for external module
Recently, I've found cases in which ioremap_page_range was used incorrectly, in external modules, leading to crashes. This can be partly attributed to the fact that ioremap_page_range is lower-level, with fewer protections, as compared to the other functions that an external module would typically call. Those include: ioremap_cache ioremap_nocache ioremap_prot ioremap_uc ioremap_wc ioremap_wt ...each of which wraps __ioremap_caller, which in turn provides a safer way to achieve the mapping. Therefore, stop EXPORT-ing ioremap_page_range. Link: http://lkml.kernel.org/r/1485173220-29010-1-git-send-email-zhongjiang@huawei.com Signed-off-by: zhong jiang <zhongjiang@huawei.com> Reviewed-by: John Hubbard <jhubbard@nvidia.com> Suggested-by: John Hubbard <jhubbard@nvidia.com> Acked-by: Michal Hocko <mhocko@suse.com> Signed-off-by: Andrew Morton <akpm@linux-foundation.org> Signed-off-by: Linus Torvalds <torvalds@linux-foundation.org>
Diffstat (limited to 'sound/usb/misc')