X-Git-Url: https://git.saurik.com/apple/xnu.git/blobdiff_plain/0b4e3aa066abc0728aacb4bbeb86f53f9737156e..4452a7af2eac33dbad800bcc91f2399d62c18f53:/bsd/net/dlil.h?ds=sidebyside diff --git a/bsd/net/dlil.h b/bsd/net/dlil.h index 6a8740a57..a41152cb6 100644 --- a/bsd/net/dlil.h +++ b/bsd/net/dlil.h @@ -1,23 +1,29 @@ /* * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. * - * @APPLE_LICENSE_HEADER_START@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * - * The contents of this file constitute Original Code as defined in and - * are subject to the Apple Public Source License Version 1.1 (the - * "License"). You may not use this file except in compliance with the - * License. Please obtain a copy of the License at - * http://www.apple.com/publicsource and read it before using this file. + * This file contains Original Code and/or Modifications of Original Code + * as defined in and that are subject to the Apple Public Source License + * Version 2.0 (the 'License'). You may not use this file except in + * compliance with the License. The rights granted to you under the License + * may not be used to create, or enable the creation or redistribution of, + * unlawful or unlicensed copies of an Apple operating system, or to + * circumvent, violate, or enable the circumvention or violation of, any + * terms of an Apple operating system software license agreement. * - * This Original Code and all software distributed under the License are - * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER + * Please obtain a copy of the License at + * http://www.opensource.apple.com/apsl/ and read it before using this file. + * + * The Original Code and all software distributed under the License are + * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, - * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the - * License for the specific language governing rights and limitations - * under the License. + * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. + * Please see the License for the specific language governing rights and + * limitations under the License. * - * @APPLE_LICENSE_HEADER_END@ + * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* * Copyright (c) 1999 Apple Computer, Inc. @@ -25,21 +31,23 @@ * Data Link Inteface Layer * Author: Ted Walker */ - - #ifndef DLIL_H #define DLIL_H +#ifdef KERNEL +#include +#include #if __STDC__ struct ifnet; struct mbuf; struct ether_header; +struct sockaddr_dl; #endif - +#ifdef KERNEL_PRIVATE #define DLIL_LAST_FILTER -1 #define DLIL_NULL_FILTER -2 @@ -53,6 +61,8 @@ struct ether_header; #include #include +#endif KERNEL_PRIVATE + enum { BPF_TAP_DISABLE, BPF_TAP_INPUT, @@ -60,174 +70,134 @@ enum { BPF_TAP_INPUT_OUTPUT }; - -struct dl_tag_attr_str { - u_long dl_tag; - short if_flags; - short if_unit; - u_long if_family; - u_long protocol_family; -}; - - -struct dlil_pr_flt_str { - caddr_t cookie; - - int (*filter_dl_input)(caddr_t cookie, - struct mbuf **m, - char **frame_header, - struct ifnet **ifp); - - - int (*filter_dl_output)(caddr_t cookie, - struct mbuf **m, - struct ifnet **ifp, - struct sockaddr **dest, - char *dest_linkaddr, - char *frame_type); - - int (*filter_dl_event)(caddr_t cookie, - struct kern_event_msg *event_msg); - - int (*filter_dl_ioctl)(caddr_t cookie, - struct ifnet *ifp, - u_long ioctl_cmd, - caddr_t ioctl_arg); - - int (*filter_detach)(caddr_t cookie); - u_long reserved[2]; -}; +#ifdef KERNEL_PRIVATE +struct kev_msg; +struct iff_filter; struct dlil_if_flt_str { caddr_t cookie; int (*filter_if_input)(caddr_t cookie, - struct ifnet **ifnet_ptr, + struct ifnet **ifp, struct mbuf **mbuf_ptr, char **frame_ptr); int (*filter_if_event)(caddr_t cookie, - struct ifnet **ifnet_ptr, - struct kern_event_msg **event_msg_ptr); + struct ifnet *ifp, + struct kev_msg *event_msg_ptr); int (*filter_if_output)(caddr_t cookie, - struct ifnet **ifnet_ptr, + struct ifnet **ifp, struct mbuf **mbuf_ptr); int (*filter_if_ioctl)(caddr_t cookie, - struct ifnet *ifnet_ptr, + struct ifnet *ifp, u_long ioctl_code_ptr, caddr_t ioctl_arg_ptr); int (*filter_if_free)(caddr_t cookie, - struct ifnet *ifnet_ptr); + struct ifnet *ifp); - int (*filter_detach)(caddr_t cookie); + int (*filter_detach)(caddr_t cookie); u_long reserved[2]; }; - #define DLIL_PR_FILTER 1 #define DLIL_IF_FILTER 2 typedef int (*dl_input_func)(struct mbuf *m, char *frame_header, - struct ifnet *ifp, u_long dl_tag, int sync_ok); + struct ifnet *ifp, u_long protocol_family, int sync_ok); typedef int (*dl_pre_output_func)(struct ifnet *ifp, - struct mbuf **m, - struct sockaddr *dest, - caddr_t route_entry, - char *frame_type, - char *dst_addr, - u_long dl_tag); + u_long protocol_family, + struct mbuf **m, + const struct sockaddr *dest, + caddr_t route_entry, + char *frame_type, + char *dst_addr); -typedef int (*dl_event_func)(struct kern_event_msg *event, - u_long dl_tag); +typedef void (*dl_event_func)(struct ifnet *ifp, struct kev_msg *event); typedef int (*dl_offer_func)(struct mbuf *m, char *frame_header); -typedef int (*dl_ioctl_func)(u_long dl_tag, +typedef int (*dl_ioctl_func)(u_long protocol_family, struct ifnet *ifp, u_long ioctl_cmd, caddr_t ioctl_arg); +typedef int (*dl_detached_func)(u_long protocol_family, struct ifnet *ifp); - - -struct dlil_filterq_entry { - TAILQ_ENTRY(dlil_filterq_entry) que; - u_long filter_id; - int type; - union { - struct dlil_if_flt_str if_filter; - struct dlil_pr_flt_str pr_filter; - } variants; -}; - - -TAILQ_HEAD(dlil_filterq_head, dlil_filterq_entry); - - -struct if_proto { - TAILQ_ENTRY(if_proto) next; - u_long dl_tag; - struct dlil_filterq_head pr_flt_head; - struct ifnet *ifp; - dl_input_func dl_input; - dl_pre_output_func dl_pre_output; - dl_event_func dl_event; - dl_offer_func dl_offer; - dl_ioctl_func dl_ioctl; - u_long protocol_family; - u_long reserved[4]; - -}; - -TAILQ_HEAD(dlil_proto_head, if_proto); - -struct dlil_tag_list_entry { - TAILQ_ENTRY(dlil_tag_list_entry) next; - struct ifnet *ifp; - u_long dl_tag; -}; - - +/* Obsolete types */ #define DLIL_DESC_RAW 1 #define DLIL_DESC_802_2 2 #define DLIL_DESC_802_2_SNAP 3 +/* + * DLIL_DESC_RAW - obsolete type, data in variants.bitmask or native_type + * if variants.bitmask.proto_id_length, native_type in host + * byte order. + * DLIL_DESC_802_2 - obsolete, data in variants.desc_802_2 + * DLIL_DESC_802_2_SNAP - obsolete, data in variants.desc_802_2_SNAP + * protocol field in host byte order + */ +#endif KERNEL_PRIVATE +/* Ethernet specific types */ +#define DLIL_DESC_ETYPE2 4 +#define DLIL_DESC_SAP 5 +#define DLIL_DESC_SNAP 6 +/* + * DLIL_DESC_ETYPE2 - native_type must point to 2 byte ethernet raw protocol, + * variants.native_type_length must be set to 2 + * DLIL_DESC_SAP - native_type must point to 3 byte SAP protocol + * variants.native_type_length must be set to 3 + * DLIL_DESC_SNAP - native_type must point to 5 byte SNAP protocol + * variants.native_type_length must be set to 5 + * + * All protocols must be in Network byte order. + * + * Future interface families may define more protocol types they know about. + * The type implies the offset and context of the protocol data at native_type. + * The length of the protocol data specified at native_type must be set in + * variants.native_type_length. + */ + +#ifdef KERNEL_PRIVATE struct dlil_demux_desc { TAILQ_ENTRY(dlil_demux_desc) next; - int type; - - u_char *native_type; + + int type; + u_char *native_type; + union { - struct { - u_long proto_id_length; /* IN LONGWORDS!!! */ - u_char *proto_id; - u_char *proto_id_mask; - - } bitmask; - - struct { - u_char dsap; - u_char ssap; - u_char control_code; - u_char pad; - } desc_802_2; - - struct { - u_char dsap; - u_char ssap; - u_char control_code; - u_char org[3]; - u_short protocol_type; - } desc_802_2_SNAP; + /* Structs in this union are obsolete. They exist for binary compatability only */ + /* Only the native_type_length is used */ + struct { + u_long proto_id_length; /* IN LONGWORDS!!! */ + u_char *proto_id; /* No longer supported by Ethernet family */ + u_char *proto_id_mask; + } bitmask; + + struct { + u_char dsap; + u_char ssap; + u_char control_code; + u_char pad; + } desc_802_2; + + struct { + u_char dsap; /* Ignored, assumed to be 0xAA */ + u_char ssap; /* Ignored, assumed to be 0xAA */ + u_char control_code; /* Ignored, assumed to be 0x03 */ + u_char org[3]; + u_short protocol_type; /* In host byte order */ + } desc_802_2_SNAP; + + /* Length of data pointed to by native_type, must be set correctly */ + u_int32_t native_type_length; } variants; }; TAILQ_HEAD(ddesc_head_str, dlil_demux_desc); - struct dlil_proto_reg_str { struct ddesc_head_str demux_desc_head; u_long interface_family; @@ -235,27 +205,43 @@ struct dlil_proto_reg_str { short unit_number; int default_proto; /* 0 or 1 */ dl_input_func input; - dl_pre_output_func pre_output; + dl_pre_output_func pre_output; dl_event_func event; dl_offer_func offer; dl_ioctl_func ioctl; - u_long reserved[4]; + dl_detached_func detached; + u_long reserved[3]; }; -int dlil_attach_interface_filter(struct ifnet *ifnet_ptr, - struct dlil_if_flt_str *interface_filter, - u_long *filter_id, - int insertion_point); +int dlil_attach_filter(struct ifnet *ifp, const struct iff_filter *if_filter, + interface_filter_t *filter_ref); + +struct ifnet_stat_increment_param; + +int +dlil_input_with_stats(struct ifnet *ifp, struct mbuf *m_head, struct mbuf *m_tail, + const struct ifnet_stat_increment_param *stats); int dlil_input(struct ifnet *ifp, struct mbuf *m_head, struct mbuf *m_tail); int -dlil_output(u_long dl_tag, +dlil_output_list( + struct ifnet *ifp, + u_long protocol_family, + struct mbuf *packetlist, + caddr_t route, + const struct sockaddr *dest, + int raw); + +int +dlil_output( + struct ifnet *ifp, + u_long protocol_family, struct mbuf *m, caddr_t route, - struct sockaddr *dest, + const struct sockaddr *dest, int raw); @@ -265,39 +251,223 @@ dlil_ioctl(u_long proto_family, u_long ioctl_code, caddr_t ioctl_arg); +errno_t +dlil_resolve_multi( + struct ifnet *ifp, + const struct sockaddr *proto_addr, + struct sockaddr *ll_addr, + size_t ll_len); + +/* + * Send arp internal bypasses the check for + * IPv4LL. + */ +errno_t +dlil_send_arp_internal( + ifnet_t ifp, + u_int16_t arpop, + const struct sockaddr_dl* sender_hw, + const struct sockaddr* sender_proto, + const struct sockaddr_dl* target_hw, + const struct sockaddr* target_proto); + +errno_t +dlil_send_arp( + ifnet_t ifp, + u_int16_t arpop, + const struct sockaddr_dl* sender_hw, + const struct sockaddr* sender_proto, + const struct sockaddr_dl* target_hw, + const struct sockaddr* target_proto); + int -dlil_attach_protocol(struct dlil_proto_reg_str *proto, - u_long *dl_tag); +dlil_ioctl_locked(u_long proto_family, + struct ifnet *ifp, + u_long ioctl_code, + caddr_t ioctl_arg); int -dlil_detach_protocol(u_long dl_tag); +dlil_attach_protocol(struct dlil_proto_reg_str *proto); + +int +dlil_detach_protocol(struct ifnet *ifp, u_long protocol_family); int dlil_if_attach(struct ifnet *ifp); +#ifdef BSD_KERNEL_PRIVATE + int -dlil_attach_protocol_filter(u_long dl_tag, - struct dlil_pr_flt_str *proto_filter, - u_long *filter_id, - int insertion_point); +dlil_if_attach_with_address( + struct ifnet *ifp, + const struct sockaddr_dl *ll_addr); + int -dlil_detach_filter(u_long filter_id); +dlil_attach_protocol_kpi(ifnet_t ifp, protocol_family_t protocol, + const struct ifnet_attach_proto_param *proto_details); + +errno_t dlil_set_bpf_tap(ifnet_t ifp, bpf_tap_mode mode, + bpf_packet_func callback); + +#endif + +void +dlil_detach_filter(interface_filter_t filter); struct dlil_ifmod_reg_str { int (*add_if)(struct ifnet *ifp); int (*del_if)(struct ifnet *ifp); - int (*add_proto)(struct ddesc_head_str *demux_desc_head, - struct if_proto *proto, u_long dl_tag); - int (*del_proto)(struct if_proto *proto, u_long dl_tag); - int (*ifmod_ioctl)(struct ifnet *ifp, u_long ioctl_cmd, caddr_t data); - int (*shutdown)(); - u_long reserved[4]; + int (*add_proto)(struct ifnet *ifp, u_long protocol_family, + struct ddesc_head_str *demux_desc_head); +#ifdef __KPI_INTERFACE__ + ifnet_del_proto_func del_proto; + ifnet_ioctl_func ifmod_ioctl; +#else + void* del_proto; + void* ifmod_ioctl; +#endif + int (*shutdown)(void); + int (*init_if)(struct ifnet *ifp); + u_long reserved[3]; }; int dlil_reg_if_modules(u_long interface_family, struct dlil_ifmod_reg_str *ifmod_reg); +/* + +Function : dlil_reg_proto_module + + A DLIL protocol module is a piece of code that know how to handle a certain type + of protocol (PF_INET, PF_INET6, ...) for a certain family of interface (APPLE_IF_FAM_ETHERNET, + APPLE_IF_FAM_PPP, ...). + + dlil_reg_proto_module() allows the registration of such a protocol/interface handler before any + interface is attached. + Typically, the attach and detach function of the protocol handler will call + dlil_{attach/detach}_protocol with the parameter specific to the protocol. + + The goal of this modules is to insulate the actual protocol (IP, IPv6) from the DLIL details. + +Parameters : + 'protocol_family' is PF_INET, PF_INET6, ... + 'interface_family' is APPLE_IF_FAM_ETHERNET, APPLE_IF_FAM_PPP, ... + 'protomod_reg' is the protocol registration structure. + 'attach_proto' funtion is mandatory. + 'detach_proto' funtion is optional (DLIL will manage it). + +Return code : + +0 : + + No error. + +ENOMEM: + + No memory can be allocated for internal data structure. + +EEXIST: + + The protocol family has already been registered for this interface family. + +EINVAL: + + The dlil_protomod_reg_str structure contains incorrect values. + +*/ + +int dlil_reg_proto_module(u_long protocol_family, u_long interface_family, + int (*attach)(struct ifnet *ifp, u_long protocol_family), + int (*detach)(struct ifnet *ifp, u_long protocol_family)); + +/* + +Function : dlil_dereg_proto_module + + dlil_dereg_proto_module() will unregister the protocol module previously + registered with dlil_dereg_proto_module(). + + There is no restriction when to call it. + Interfaces or protoco can be attached, it will not prevent the deregistration of the module. + +Parameters : + 'protocol_family' is PF_INET, PF_INET6, ... + 'interface_family' is APPLE_IF_FAM_ETHERNET, APPLE_IF_FAM_PPP, ... + +Return code : + +0 : + + No error. + +ENOENT: + + No module was registered.. + +*/ + +int dlil_dereg_proto_module(u_long protocol_family, u_long interface_family); + +/* + +Function : dlil_plumb_protocol + + dlil_plumb_protocol() will plumb a protocol to an actual interface. + This will find a registered protocol module and call its attach function. + The module will typically call dlil_attach_protocol with the appropriate parameters. + +Parameters : + 'protocol_family' is PF_INET, PF_INET6, ... + 'ifp' is the interface to plumb the protocol to. + +Return code : + +0 : + + No error. + +ENOENT: + + No module was registered. + +other: + + Error returned by the attach_proto function + +*/ +int dlil_plumb_protocol(u_long protocol_family, struct ifnet *ifp); + +/* + +Function : dlil_unplumb_protocol + + dlil_unplumb_protocol() will unplumb a protocol from an interface. + This will find a registered protocol module and call its detach function. + The module will typically call dlil_detach_protocol with the appropriate parameters. + If no module is found, this function will call dlil_detach_protocol directly. + +Parameters : + 'protocol_family' is PF_INET, PF_INET6, ... + 'ifp' is APPLE_IF_FAM_ETHERNET, APPLE_IF_FAM_PPP, ... + +Return code : + +0 : + + No error. + +ENOENT: + + No module was registered. + +other: + + Error returned by the attach_proto function + +*/ +int dlil_unplumb_protocol(u_long protocol_family, struct ifnet *ifp); + int dlil_inject_if_input(struct mbuf *m, char *frame_header, u_long from_id); @@ -315,9 +485,11 @@ dlil_inject_pr_output(struct mbuf *m, int dlil_inject_if_output(struct mbuf *m, u_long from_id); -int -dlil_find_dltag(u_long if_family, short unit, u_long proto_family, u_long *dl_tag); - +#ifdef KERNEL_PRIVATE +void +dlil_post_msg(struct ifnet *ifp,u_long event_subclass, u_long event_code, + struct net_event_data *event_data, u_long event_data_len); +#endif int dlil_event(struct ifnet *ifp, struct kern_event_msg *event); @@ -327,4 +499,118 @@ int dlil_dereg_if_modules(u_long interface_family); int dlil_if_detach(struct ifnet *ifp); +void +ifp_reference(struct ifnet *ifp); + +void +ifp_release(struct ifnet *ifp); + + +/* + +Function : dlil_if_acquire + + DLIL manages the list of ifnet interfaces allocated using the dlil_if_acquire + function. This list if not the same as the list of attached interfaces, + visible with ifconfig. + This list contains attached as well as detached interfaces. + Detached interfaces are kept in the list to prevent the kernel from crashing + by using an old ifp. + + if it succeeds, dlil_if_acquire returns an ifnet data structure. + This ifnet can either be a new allocated block of memory, or an ifnet + that already existed and that DLIL has found in its list of unused + interface and that matches the family/uniqueid tuple. + + dlil_if_acquire can fail if the requested interface is already in use, + or if no memory is available to create a new interface. + + The typical sequence of call for a driver will be : + dlil_if_acquire(... &ifp) + ... Fill in the ifnet ... + dlil_if_attach(ifp) + ... Driver work ... + dlil_if_detach(ifp) + dlil_if_release(ifp) + + Important : ifnet allocated by DLIL are managed by DLIL. DLIL takes care + of them, and keeps them until a driver wants to reuse them, but DLIL may + also decide to free them when not in use by a driver. + + Note : the structure returned will actually be large enough to contain + an arpcom structure (ifnet + ethernet) structure. + Drivers cannot extend the structure and must to store their private + information in if_sofc and if_private. + +Parameters : + 'family' uniquely identifies DLIL interface family. + 'uniqueid' is a unique identifier for that interface, managed by the + driver (for example MAC address for ethernet). + 'uniqueid_len' is the length of the unique id. + 'ifp' contains on output the allocated ifnet. + +Return code : + +0 : + + If an ifnet matching the uniqueid is found, the matching ifnet is returned + in ifp and the flags IFEF_REUSE and IF_INUSE are set in the if_eflags. + The fields in the ifnet are NOT zeroed and may contain old values that + the driver can reuse. [They are not necessarily the values that were + there when the driver released the ifnet, as protocol might have + continued to update them]. + + If no matching ifnet is found, a new structure is allocated and returned + in ifp with all fields initialized to 0. + The flag IF_INUSE is set in the if_eflags. IFEF_REUSE is NOT set. + dlil_if_acquire will copy the uniqueid and keep it for matching purpose. + + If 'uniqueid' is NULL, then dlil_if_acquire will return the first + ifnet that contains a null uniqueid for that family, with the flags + IFEF_REUSE and IF_INUSE set. + If no ifnet is available, a new one will be created. + +ENOMEM: + + If no matching interface is found, and no memory can be allocated, + dlil_if_acquire will return ENOMEM. + + +EBUSY: + + If the unique id matches the id of an interface currently in use, + dlil_if_acquire will return EBUSY. + An interface 'in use' is an allocated interface, not necessarily attached. + +*/ + +int dlil_if_acquire(u_long family, const void *uniqueid, size_t uniqueid_len, + struct ifnet **ifp); + + +/* + +Function : dlil_if_release + + dlil_if_release will transfer control of the ifnet to DLIL. + DLIL will keep the interface in its list, marking it unused. + The fields will be left in their current state, so the driver can reuse + the ifnet later, by calling dlil_if_acquire. + The if_eflags IF_INUSE will be cleared. + The fields if_output, if_ioctl, if_free and if_set_bpf_tap will be changed + to point to DLIL private functions. + After calling dlil_if_release, the driver can safely terminate and + unload if necessary. + Note: your driver should only call dlil_if_release once your if_free + function has been called. + +Parameters : + ifp is the pointer to the ifnet to release. + +*/ + +void dlil_if_release(struct ifnet *ifp); + +#endif /* KERNEL_PRIVATE */ +#endif /* KERNEL */ #endif /* DLIL_H */