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|
/* SCTP kernel implementation
* (C) Copyright IBM Corp. 2001, 2004
* Copyright (c) 1999-2000 Cisco, Inc.
* Copyright (c) 1999-2001 Motorola, Inc.
* Copyright (c) 2001-2002 Intel Corp.
* Copyright (c) 2002 Nokia Corp.
*
* This is part of the SCTP Linux Kernel Implementation.
*
* These are the state functions for the state machine.
*
* This SCTP implementation is free software;
* you can redistribute it and/or modify it under the terms of
* the GNU General Public License as published by
* the Free Software Foundation; either version 2, or (at your option)
* any later version.
*
* This SCTP implementation is distributed in the hope that it
* will be useful, but WITHOUT ANY WARRANTY; without even the implied
* ************************
* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
* See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with GNU CC; see the file COPYING. If not, write to
* the Free Software Foundation, 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*
* Please send any bug reports or fixes you make to the
* email address(es):
* lksctp developers <linux-sctp@vger.kernel.org>
*
* Or submit a bug report through the following website:
* http://www.sf.net/projects/lksctp
*
* Written or modified by:
* La Monte H.P. Yarroll <piggy@acm.org>
* Karl Knutson <karl@athena.chicago.il.us>
* Mathew Kotowsky <kotowsky@sctp.org>
* Sridhar Samudrala <samudrala@us.ibm.com>
* Jon Grimm <jgrimm@us.ibm.com>
* Hui Huang <hui.huang@nokia.com>
* Dajiang Zhang <dajiang.zhang@nokia.com>
* Daisy Chang <daisyc@us.ibm.com>
* Ardelle Fan <ardelle.fan@intel.com>
* Ryan Layer <rmlayer@us.ibm.com>
* Kevin Gao <kevin.gao@intel.com>
*
* Any bugs reported given to us we will try to fix... any fixes shared will
* be incorporated into the next SCTP release.
*/
#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt
#include <linux/types.h>
#include <linux/kernel.h>
#include <linux/ip.h>
#include <linux/ipv6.h>
#include <linux/net.h>
#include <linux/inet.h>
#include <linux/slab.h>
#include <net/sock.h>
#include <net/inet_ecn.h>
#include <linux/skbuff.h>
#include <net/sctp/sctp.h>
#include <net/sctp/sm.h>
#include <net/sctp/structs.h>
static struct sctp_packet *sctp_abort_pkt_new(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
struct sctp_chunk *chunk,
const void *payload,
size_t paylen);
static int sctp_eat_data(const struct sctp_association *asoc,
struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands);
static struct sctp_packet *sctp_ootb_pkt_new(struct net *net,
const struct sctp_association *asoc,
const struct sctp_chunk *chunk);
static void sctp_send_stale_cookie_err(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands,
struct sctp_chunk *err_chunk);
static sctp_disposition_t sctp_sf_do_5_2_6_stale(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
static sctp_disposition_t sctp_sf_shut_8_4_5(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
static sctp_disposition_t sctp_sf_tabort_8_4_8(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
static struct sctp_sackhdr *sctp_sm_pull_sack(struct sctp_chunk *chunk);
static sctp_disposition_t sctp_stop_t1_and_abort(struct net *net,
sctp_cmd_seq_t *commands,
__be16 error, int sk_err,
const struct sctp_association *asoc,
struct sctp_transport *transport);
static sctp_disposition_t sctp_sf_abort_violation(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
void *arg,
sctp_cmd_seq_t *commands,
const __u8 *payload,
const size_t paylen);
static sctp_disposition_t sctp_sf_violation_chunklen(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
static sctp_disposition_t sctp_sf_violation_paramlen(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg, void *ext,
sctp_cmd_seq_t *commands);
static sctp_disposition_t sctp_sf_violation_ctsn(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
static sctp_disposition_t sctp_sf_violation_chunk(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
static sctp_ierror_t sctp_sf_authenticate(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
struct sctp_chunk *chunk);
static sctp_disposition_t __sctp_sf_do_9_1_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands);
/* Small helper function that checks if the chunk length
* is of the appropriate length. The 'required_length' argument
* is set to be the size of a specific chunk we are testing.
* Return Values: 1 = Valid length
* 0 = Invalid length
*
*/
static inline int
sctp_chunk_length_valid(struct sctp_chunk *chunk,
__u16 required_length)
{
__u16 chunk_length = ntohs(chunk->chunk_hdr->length);
if (unlikely(chunk_length < required_length))
return 0;
return 1;
}
/**********************************************************
* These are the state functions for handling chunk events.
**********************************************************/
/*
* Process the final SHUTDOWN COMPLETE.
*
* Section: 4 (C) (diagram), 9.2
* Upon reception of the SHUTDOWN COMPLETE chunk the endpoint will verify
* that it is in SHUTDOWN-ACK-SENT state, if it is not the chunk should be
* discarded. If the endpoint is in the SHUTDOWN-ACK-SENT state the endpoint
* should stop the T2-shutdown timer and remove all knowledge of the
* association (and thus the association enters the CLOSED state).
*
* Verification Tag: 8.5.1(C), sctpimpguide 2.41.
* C) Rules for packet carrying SHUTDOWN COMPLETE:
* ...
* - The receiver of a SHUTDOWN COMPLETE shall accept the packet
* if the Verification Tag field of the packet matches its own tag and
* the T bit is not set
* OR
* it is set to its peer's tag and the T bit is set in the Chunk
* Flags.
* Otherwise, the receiver MUST silently discard the packet
* and take no further action. An endpoint MUST ignore the
* SHUTDOWN COMPLETE if it is not in the SHUTDOWN-ACK-SENT state.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_4_C(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_ulpevent *ev;
if (!sctp_vtag_verify_either(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* RFC 2960 6.10 Bundling
*
* An endpoint MUST NOT bundle INIT, INIT ACK or
* SHUTDOWN COMPLETE with any other chunks.
*/
if (!chunk->singleton)
return sctp_sf_violation_chunk(net, ep, asoc, type, arg, commands);
/* Make sure that the SHUTDOWN_COMPLETE chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* RFC 2960 10.2 SCTP-to-ULP
*
* H) SHUTDOWN COMPLETE notification
*
* When SCTP completes the shutdown procedures (section 9.2) this
* notification is passed to the upper layer.
*/
ev = sctp_ulpevent_make_assoc_change(asoc, 0, SCTP_SHUTDOWN_COMP,
0, 0, 0, NULL, GFP_ATOMIC);
if (ev)
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP,
SCTP_ULPEVENT(ev));
/* Upon reception of the SHUTDOWN COMPLETE chunk the endpoint
* will verify that it is in SHUTDOWN-ACK-SENT state, if it is
* not the chunk should be discarded. If the endpoint is in
* the SHUTDOWN-ACK-SENT state the endpoint should stop the
* T2-shutdown timer and remove all knowledge of the
* association (and thus the association enters the CLOSED
* state).
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_CLOSED));
SCTP_INC_STATS(net, SCTP_MIB_SHUTDOWNS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
sctp_add_cmd_sf(commands, SCTP_CMD_DELETE_TCB, SCTP_NULL());
return SCTP_DISPOSITION_DELETE_TCB;
}
/*
* Respond to a normal INIT chunk.
* We are the side that is being asked for an association.
*
* Section: 5.1 Normal Establishment of an Association, B
* B) "Z" shall respond immediately with an INIT ACK chunk. The
* destination IP address of the INIT ACK MUST be set to the source
* IP address of the INIT to which this INIT ACK is responding. In
* the response, besides filling in other parameters, "Z" must set the
* Verification Tag field to Tag_A, and also provide its own
* Verification Tag (Tag_Z) in the Initiate Tag field.
*
* Verification Tag: Must be 0.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_1B_init(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_chunk *repl;
struct sctp_association *new_asoc;
struct sctp_chunk *err_chunk;
struct sctp_packet *packet;
sctp_unrecognized_param_t *unk_param;
int len;
/* 6.10 Bundling
* An endpoint MUST NOT bundle INIT, INIT ACK or
* SHUTDOWN COMPLETE with any other chunks.
*
* IG Section 2.11.2
* Furthermore, we require that the receiver of an INIT chunk MUST
* enforce these rules by silently discarding an arriving packet
* with an INIT chunk that is bundled with other chunks.
*/
if (!chunk->singleton)
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* If the packet is an OOTB packet which is temporarily on the
* control endpoint, respond with an ABORT.
*/
if (ep == sctp_sk(net->sctp.ctl_sock)->ep) {
SCTP_INC_STATS(net, SCTP_MIB_OUTOFBLUES);
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
}
/* 3.1 A packet containing an INIT chunk MUST have a zero Verification
* Tag.
*/
if (chunk->sctp_hdr->vtag != 0)
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
/* Make sure that the INIT chunk has a valid length.
* Normally, this would cause an ABORT with a Protocol Violation
* error, but since we don't have an association, we'll
* just discard the packet.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_init_chunk_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* If the INIT is coming toward a closing socket, we'll send back
* and ABORT. Essentially, this catches the race of INIT being
* backloged to the socket at the same time as the user isses close().
* Since the socket and all its associations are going away, we
* can treat this OOTB
*/
if (sctp_sstate(ep->base.sk, CLOSING))
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
/* Verify the INIT chunk before processing it. */
err_chunk = NULL;
if (!sctp_verify_init(net, asoc, chunk->chunk_hdr->type,
(sctp_init_chunk_t *)chunk->chunk_hdr, chunk,
&err_chunk)) {
/* This chunk contains fatal error. It is to be discarded.
* Send an ABORT, with causes if there is any.
*/
if (err_chunk) {
packet = sctp_abort_pkt_new(net, ep, asoc, arg,
(__u8 *)(err_chunk->chunk_hdr) +
sizeof(sctp_chunkhdr_t),
ntohs(err_chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t));
sctp_chunk_free(err_chunk);
if (packet) {
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
return SCTP_DISPOSITION_CONSUME;
} else {
return SCTP_DISPOSITION_NOMEM;
}
} else {
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg,
commands);
}
}
/* Grab the INIT header. */
chunk->subh.init_hdr = (sctp_inithdr_t *)chunk->skb->data;
/* Tag the variable length parameters. */
chunk->param_hdr.v = skb_pull(chunk->skb, sizeof(sctp_inithdr_t));
new_asoc = sctp_make_temp_asoc(ep, chunk, GFP_ATOMIC);
if (!new_asoc)
goto nomem;
if (sctp_assoc_set_bind_addr_from_ep(new_asoc,
sctp_scope(sctp_source(chunk)),
GFP_ATOMIC) < 0)
goto nomem_init;
/* The call, sctp_process_init(), can fail on memory allocation. */
if (!sctp_process_init(new_asoc, chunk, sctp_source(chunk),
(sctp_init_chunk_t *)chunk->chunk_hdr,
GFP_ATOMIC))
goto nomem_init;
/* B) "Z" shall respond immediately with an INIT ACK chunk. */
/* If there are errors need to be reported for unknown parameters,
* make sure to reserve enough room in the INIT ACK for them.
*/
len = 0;
if (err_chunk)
len = ntohs(err_chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t);
repl = sctp_make_init_ack(new_asoc, chunk, GFP_ATOMIC, len);
if (!repl)
goto nomem_init;
/* If there are errors need to be reported for unknown parameters,
* include them in the outgoing INIT ACK as "Unrecognized parameter"
* parameter.
*/
if (err_chunk) {
/* Get the "Unrecognized parameter" parameter(s) out of the
* ERROR chunk generated by sctp_verify_init(). Since the
* error cause code for "unknown parameter" and the
* "Unrecognized parameter" type is the same, we can
* construct the parameters in INIT ACK by copying the
* ERROR causes over.
*/
unk_param = (sctp_unrecognized_param_t *)
((__u8 *)(err_chunk->chunk_hdr) +
sizeof(sctp_chunkhdr_t));
/* Replace the cause code with the "Unrecognized parameter"
* parameter type.
*/
sctp_addto_chunk(repl, len, unk_param);
sctp_chunk_free(err_chunk);
}
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_ASOC, SCTP_ASOC(new_asoc));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
/*
* Note: After sending out INIT ACK with the State Cookie parameter,
* "Z" MUST NOT allocate any resources, nor keep any states for the
* new association. Otherwise, "Z" will be vulnerable to resource
* attacks.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_DELETE_TCB, SCTP_NULL());
return SCTP_DISPOSITION_DELETE_TCB;
nomem_init:
sctp_association_free(new_asoc);
nomem:
if (err_chunk)
sctp_chunk_free(err_chunk);
return SCTP_DISPOSITION_NOMEM;
}
/*
* Respond to a normal INIT ACK chunk.
* We are the side that is initiating the association.
*
* Section: 5.1 Normal Establishment of an Association, C
* C) Upon reception of the INIT ACK from "Z", "A" shall stop the T1-init
* timer and leave COOKIE-WAIT state. "A" shall then send the State
* Cookie received in the INIT ACK chunk in a COOKIE ECHO chunk, start
* the T1-cookie timer, and enter the COOKIE-ECHOED state.
*
* Note: The COOKIE ECHO chunk can be bundled with any pending outbound
* DATA chunks, but it MUST be the first chunk in the packet and
* until the COOKIE ACK is returned the sender MUST NOT send any
* other packets to the peer.
*
* Verification Tag: 3.3.3
* If the value of the Initiate Tag in a received INIT ACK chunk is
* found to be 0, the receiver MUST treat it as an error and close the
* association by transmitting an ABORT.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_1C_ack(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_init_chunk_t *initchunk;
struct sctp_chunk *err_chunk;
struct sctp_packet *packet;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* 6.10 Bundling
* An endpoint MUST NOT bundle INIT, INIT ACK or
* SHUTDOWN COMPLETE with any other chunks.
*/
if (!chunk->singleton)
return sctp_sf_violation_chunk(net, ep, asoc, type, arg, commands);
/* Make sure that the INIT-ACK chunk has a valid length */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_initack_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Grab the INIT header. */
chunk->subh.init_hdr = (sctp_inithdr_t *) chunk->skb->data;
/* Verify the INIT chunk before processing it. */
err_chunk = NULL;
if (!sctp_verify_init(net, asoc, chunk->chunk_hdr->type,
(sctp_init_chunk_t *)chunk->chunk_hdr, chunk,
&err_chunk)) {
sctp_error_t error = SCTP_ERROR_NO_RESOURCE;
/* This chunk contains fatal error. It is to be discarded.
* Send an ABORT, with causes. If there are no causes,
* then there wasn't enough memory. Just terminate
* the association.
*/
if (err_chunk) {
packet = sctp_abort_pkt_new(net, ep, asoc, arg,
(__u8 *)(err_chunk->chunk_hdr) +
sizeof(sctp_chunkhdr_t),
ntohs(err_chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t));
sctp_chunk_free(err_chunk);
if (packet) {
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
error = SCTP_ERROR_INV_PARAM;
}
}
/* SCTP-AUTH, Section 6.3:
* It should be noted that if the receiver wants to tear
* down an association in an authenticated way only, the
* handling of malformed packets should not result in
* tearing down the association.
*
* This means that if we only want to abort associations
* in an authenticated way (i.e AUTH+ABORT), then we
* can't destroy this association just because the packet
* was malformed.
*/
if (sctp_auth_recv_cid(SCTP_CID_ABORT, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
return sctp_stop_t1_and_abort(net, commands, error, ECONNREFUSED,
asoc, chunk->transport);
}
/* Tag the variable length parameters. Note that we never
* convert the parameters in an INIT chunk.
*/
chunk->param_hdr.v = skb_pull(chunk->skb, sizeof(sctp_inithdr_t));
initchunk = (sctp_init_chunk_t *) chunk->chunk_hdr;
sctp_add_cmd_sf(commands, SCTP_CMD_PEER_INIT,
SCTP_PEER_INIT(initchunk));
/* Reset init error count upon receipt of INIT-ACK. */
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_COUNTER_RESET, SCTP_NULL());
/* 5.1 C) "A" shall stop the T1-init timer and leave
* COOKIE-WAIT state. "A" shall then ... start the T1-cookie
* timer, and enter the COOKIE-ECHOED state.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_COOKIE));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_COOKIE_ECHOED));
/* SCTP-AUTH: genereate the assocition shared keys so that
* we can potentially signe the COOKIE-ECHO.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_SHKEY, SCTP_NULL());
/* 5.1 C) "A" shall then send the State Cookie received in the
* INIT ACK chunk in a COOKIE ECHO chunk, ...
*/
/* If there is any errors to report, send the ERROR chunk generated
* for unknown parameters as well.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_COOKIE_ECHO,
SCTP_CHUNK(err_chunk));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Respond to a normal COOKIE ECHO chunk.
* We are the side that is being asked for an association.
*
* Section: 5.1 Normal Establishment of an Association, D
* D) Upon reception of the COOKIE ECHO chunk, Endpoint "Z" will reply
* with a COOKIE ACK chunk after building a TCB and moving to
* the ESTABLISHED state. A COOKIE ACK chunk may be bundled with
* any pending DATA chunks (and/or SACK chunks), but the COOKIE ACK
* chunk MUST be the first chunk in the packet.
*
* IMPLEMENTATION NOTE: An implementation may choose to send the
* Communication Up notification to the SCTP user upon reception
* of a valid COOKIE ECHO chunk.
*
* Verification Tag: 8.5.1 Exceptions in Verification Tag Rules
* D) Rules for packet carrying a COOKIE ECHO
*
* - When sending a COOKIE ECHO, the endpoint MUST use the value of the
* Initial Tag received in the INIT ACK.
*
* - The receiver of a COOKIE ECHO follows the procedures in Section 5.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_1D_ce(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type, void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_association *new_asoc;
sctp_init_chunk_t *peer_init;
struct sctp_chunk *repl;
struct sctp_ulpevent *ev, *ai_ev = NULL;
int error = 0;
struct sctp_chunk *err_chk_p;
struct sock *sk;
/* If the packet is an OOTB packet which is temporarily on the
* control endpoint, respond with an ABORT.
*/
if (ep == sctp_sk(net->sctp.ctl_sock)->ep) {
SCTP_INC_STATS(net, SCTP_MIB_OUTOFBLUES);
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
}
/* Make sure that the COOKIE_ECHO chunk has a valid length.
* In this case, we check that we have enough for at least a
* chunk header. More detailed verification is done
* in sctp_unpack_cookie().
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* If the endpoint is not listening or if the number of associations
* on the TCP-style socket exceed the max backlog, respond with an
* ABORT.
*/
sk = ep->base.sk;
if (!sctp_sstate(sk, LISTENING) ||
(sctp_style(sk, TCP) && sk_acceptq_is_full(sk)))
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
/* "Decode" the chunk. We have no optional parameters so we
* are in good shape.
*/
chunk->subh.cookie_hdr =
(struct sctp_signed_cookie *)chunk->skb->data;
if (!pskb_pull(chunk->skb, ntohs(chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t)))
goto nomem;
/* 5.1 D) Upon reception of the COOKIE ECHO chunk, Endpoint
* "Z" will reply with a COOKIE ACK chunk after building a TCB
* and moving to the ESTABLISHED state.
*/
new_asoc = sctp_unpack_cookie(ep, asoc, chunk, GFP_ATOMIC, &error,
&err_chk_p);
/* FIXME:
* If the re-build failed, what is the proper error path
* from here?
*
* [We should abort the association. --piggy]
*/
if (!new_asoc) {
/* FIXME: Several errors are possible. A bad cookie should
* be silently discarded, but think about logging it too.
*/
switch (error) {
case -SCTP_IERROR_NOMEM:
goto nomem;
case -SCTP_IERROR_STALE_COOKIE:
sctp_send_stale_cookie_err(net, ep, asoc, chunk, commands,
err_chk_p);
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
case -SCTP_IERROR_BAD_SIG:
default:
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
}
/* Delay state machine commands until later.
*
* Re-build the bind address for the association is done in
* the sctp_unpack_cookie() already.
*/
/* This is a brand-new association, so these are not yet side
* effects--it is safe to run them here.
*/
peer_init = &chunk->subh.cookie_hdr->c.peer_init[0];
if (!sctp_process_init(new_asoc, chunk,
&chunk->subh.cookie_hdr->c.peer_addr,
peer_init, GFP_ATOMIC))
goto nomem_init;
/* SCTP-AUTH: Now that we've populate required fields in
* sctp_process_init, set up the assocaition shared keys as
* necessary so that we can potentially authenticate the ACK
*/
error = sctp_auth_asoc_init_active_key(new_asoc, GFP_ATOMIC);
if (error)
goto nomem_init;
/* SCTP-AUTH: auth_chunk pointer is only set when the cookie-echo
* is supposed to be authenticated and we have to do delayed
* authentication. We've just recreated the association using
* the information in the cookie and now it's much easier to
* do the authentication.
*/
if (chunk->auth_chunk) {
struct sctp_chunk auth;
sctp_ierror_t ret;
/* set-up our fake chunk so that we can process it */
auth.skb = chunk->auth_chunk;
auth.asoc = chunk->asoc;
auth.sctp_hdr = chunk->sctp_hdr;
auth.chunk_hdr = (sctp_chunkhdr_t *)skb_push(chunk->auth_chunk,
sizeof(sctp_chunkhdr_t));
skb_pull(chunk->auth_chunk, sizeof(sctp_chunkhdr_t));
auth.transport = chunk->transport;
ret = sctp_sf_authenticate(net, ep, new_asoc, type, &auth);
/* We can now safely free the auth_chunk clone */
kfree_skb(chunk->auth_chunk);
if (ret != SCTP_IERROR_NO_ERROR) {
sctp_association_free(new_asoc);
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
}
repl = sctp_make_cookie_ack(new_asoc, chunk);
if (!repl)
goto nomem_init;
/* RFC 2960 5.1 Normal Establishment of an Association
*
* D) IMPLEMENTATION NOTE: An implementation may choose to
* send the Communication Up notification to the SCTP user
* upon reception of a valid COOKIE ECHO chunk.
*/
ev = sctp_ulpevent_make_assoc_change(new_asoc, 0, SCTP_COMM_UP, 0,
new_asoc->c.sinit_num_ostreams,
new_asoc->c.sinit_max_instreams,
NULL, GFP_ATOMIC);
if (!ev)
goto nomem_ev;
/* Sockets API Draft Section 5.3.1.6
* When a peer sends a Adaptation Layer Indication parameter , SCTP
* delivers this notification to inform the application that of the
* peers requested adaptation layer.
*/
if (new_asoc->peer.adaptation_ind) {
ai_ev = sctp_ulpevent_make_adaptation_indication(new_asoc,
GFP_ATOMIC);
if (!ai_ev)
goto nomem_aiev;
}
/* Add all the state machine commands now since we've created
* everything. This way we don't introduce memory corruptions
* during side-effect processing and correclty count established
* associations.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_ASOC, SCTP_ASOC(new_asoc));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_ESTABLISHED));
SCTP_INC_STATS(net, SCTP_MIB_CURRESTAB);
SCTP_INC_STATS(net, SCTP_MIB_PASSIVEESTABS);
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_START, SCTP_NULL());
if (new_asoc->autoclose)
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_AUTOCLOSE));
/* This will send the COOKIE ACK */
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
/* Queue the ASSOC_CHANGE event */
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP, SCTP_ULPEVENT(ev));
/* Send up the Adaptation Layer Indication event */
if (ai_ev)
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP,
SCTP_ULPEVENT(ai_ev));
return SCTP_DISPOSITION_CONSUME;
nomem_aiev:
sctp_ulpevent_free(ev);
nomem_ev:
sctp_chunk_free(repl);
nomem_init:
sctp_association_free(new_asoc);
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Respond to a normal COOKIE ACK chunk.
* We are the side that is being asked for an association.
*
* RFC 2960 5.1 Normal Establishment of an Association
*
* E) Upon reception of the COOKIE ACK, endpoint "A" will move from the
* COOKIE-ECHOED state to the ESTABLISHED state, stopping the T1-cookie
* timer. It may also notify its ULP about the successful
* establishment of the association with a Communication Up
* notification (see Section 10).
*
* Verification Tag:
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_1E_ca(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type, void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_ulpevent *ev;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Verify that the chunk length for the COOKIE-ACK is OK.
* If we don't do this, any bundled chunks may be junked.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Reset init error count upon receipt of COOKIE-ACK,
* to avoid problems with the managemement of this
* counter in stale cookie situations when a transition back
* from the COOKIE-ECHOED state to the COOKIE-WAIT
* state is performed.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_COUNTER_RESET, SCTP_NULL());
/* RFC 2960 5.1 Normal Establishment of an Association
*
* E) Upon reception of the COOKIE ACK, endpoint "A" will move
* from the COOKIE-ECHOED state to the ESTABLISHED state,
* stopping the T1-cookie timer.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_COOKIE));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_ESTABLISHED));
SCTP_INC_STATS(net, SCTP_MIB_CURRESTAB);
SCTP_INC_STATS(net, SCTP_MIB_ACTIVEESTABS);
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_START, SCTP_NULL());
if (asoc->autoclose)
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_AUTOCLOSE));
/* It may also notify its ULP about the successful
* establishment of the association with a Communication Up
* notification (see Section 10).
*/
ev = sctp_ulpevent_make_assoc_change(asoc, 0, SCTP_COMM_UP,
0, asoc->c.sinit_num_ostreams,
asoc->c.sinit_max_instreams,
NULL, GFP_ATOMIC);
if (!ev)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP, SCTP_ULPEVENT(ev));
/* Sockets API Draft Section 5.3.1.6
* When a peer sends a Adaptation Layer Indication parameter , SCTP
* delivers this notification to inform the application that of the
* peers requested adaptation layer.
*/
if (asoc->peer.adaptation_ind) {
ev = sctp_ulpevent_make_adaptation_indication(asoc, GFP_ATOMIC);
if (!ev)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP,
SCTP_ULPEVENT(ev));
}
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/* Generate and sendout a heartbeat packet. */
static sctp_disposition_t sctp_sf_heartbeat(const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_transport *transport = (struct sctp_transport *) arg;
struct sctp_chunk *reply;
/* Send a heartbeat to our peer. */
reply = sctp_make_heartbeat(asoc, transport);
if (!reply)
return SCTP_DISPOSITION_NOMEM;
/* Set rto_pending indicating that an RTT measurement
* is started with this heartbeat chunk.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_RTO_PENDING,
SCTP_TRANSPORT(transport));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
}
/* Generate a HEARTBEAT packet on the given transport. */
sctp_disposition_t sctp_sf_sendbeat_8_3(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_transport *transport = (struct sctp_transport *) arg;
if (asoc->overall_error_count >= asoc->max_retrans) {
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
/* CMD_ASSOC_FAILED calls CMD_DELETE_TCB. */
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_DELETE_TCB;
}
/* Section 3.3.5.
* The Sender-specific Heartbeat Info field should normally include
* information about the sender's current time when this HEARTBEAT
* chunk is sent and the destination transport address to which this
* HEARTBEAT is sent (see Section 8.3).
*/
if (transport->param_flags & SPP_HB_ENABLE) {
if (SCTP_DISPOSITION_NOMEM ==
sctp_sf_heartbeat(ep, asoc, type, arg,
commands))
return SCTP_DISPOSITION_NOMEM;
/* Set transport error counter and association error counter
* when sending heartbeat.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TRANSPORT_HB_SENT,
SCTP_TRANSPORT(transport));
}
sctp_add_cmd_sf(commands, SCTP_CMD_TRANSPORT_IDLE,
SCTP_TRANSPORT(transport));
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMER_UPDATE,
SCTP_TRANSPORT(transport));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Process an heartbeat request.
*
* Section: 8.3 Path Heartbeat
* The receiver of the HEARTBEAT should immediately respond with a
* HEARTBEAT ACK that contains the Heartbeat Information field copied
* from the received HEARTBEAT chunk.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
* When receiving an SCTP packet, the endpoint MUST ensure that the
* value in the Verification Tag field of the received SCTP packet
* matches its own Tag. If the received Verification Tag value does not
* match the receiver's own tag value, the receiver shall silently
* discard the packet and shall not process it any further except for
* those cases listed in Section 8.5.1 below.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_beat_8_3(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_paramhdr_t *param_hdr;
struct sctp_chunk *chunk = arg;
struct sctp_chunk *reply;
size_t paylen = 0;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the HEARTBEAT chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_heartbeat_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* 8.3 The receiver of the HEARTBEAT should immediately
* respond with a HEARTBEAT ACK that contains the Heartbeat
* Information field copied from the received HEARTBEAT chunk.
*/
chunk->subh.hb_hdr = (sctp_heartbeathdr_t *) chunk->skb->data;
param_hdr = (sctp_paramhdr_t *) chunk->subh.hb_hdr;
paylen = ntohs(chunk->chunk_hdr->length) - sizeof(sctp_chunkhdr_t);
if (ntohs(param_hdr->length) > paylen)
return sctp_sf_violation_paramlen(net, ep, asoc, type, arg,
param_hdr, commands);
if (!pskb_pull(chunk->skb, paylen))
goto nomem;
reply = sctp_make_heartbeat_ack(asoc, chunk, param_hdr, paylen);
if (!reply)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Process the returning HEARTBEAT ACK.
*
* Section: 8.3 Path Heartbeat
* Upon the receipt of the HEARTBEAT ACK, the sender of the HEARTBEAT
* should clear the error counter of the destination transport
* address to which the HEARTBEAT was sent, and mark the destination
* transport address as active if it is not so marked. The endpoint may
* optionally report to the upper layer when an inactive destination
* address is marked as active due to the reception of the latest
* HEARTBEAT ACK. The receiver of the HEARTBEAT ACK must also
* clear the association overall error count as well (as defined
* in section 8.1).
*
* The receiver of the HEARTBEAT ACK should also perform an RTT
* measurement for that destination transport address using the time
* value carried in the HEARTBEAT ACK chunk.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_backbeat_8_3(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
union sctp_addr from_addr;
struct sctp_transport *link;
sctp_sender_hb_info_t *hbinfo;
unsigned long max_interval;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the HEARTBEAT-ACK chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t) +
sizeof(sctp_sender_hb_info_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
hbinfo = (sctp_sender_hb_info_t *) chunk->skb->data;
/* Make sure that the length of the parameter is what we expect */
if (ntohs(hbinfo->param_hdr.length) !=
sizeof(sctp_sender_hb_info_t)) {
return SCTP_DISPOSITION_DISCARD;
}
from_addr = hbinfo->daddr;
link = sctp_assoc_lookup_paddr(asoc, &from_addr);
/* This should never happen, but lets log it if so. */
if (unlikely(!link)) {
if (from_addr.sa.sa_family == AF_INET6) {
net_warn_ratelimited("%s association %p could not find address %pI6\n",
__func__,
asoc,
&from_addr.v6.sin6_addr);
} else {
net_warn_ratelimited("%s association %p could not find address %pI4\n",
__func__,
asoc,
&from_addr.v4.sin_addr.s_addr);
}
return SCTP_DISPOSITION_DISCARD;
}
/* Validate the 64-bit random nonce. */
if (hbinfo->hb_nonce != link->hb_nonce)
return SCTP_DISPOSITION_DISCARD;
max_interval = link->hbinterval + link->rto;
/* Check if the timestamp looks valid. */
if (time_after(hbinfo->sent_at, jiffies) ||
time_after(jiffies, hbinfo->sent_at + max_interval)) {
pr_debug("%s: HEARTBEAT ACK with invalid timestamp received "
"for transport:%p\n", __func__, link);
return SCTP_DISPOSITION_DISCARD;
}
/* 8.3 Upon the receipt of the HEARTBEAT ACK, the sender of
* the HEARTBEAT should clear the error counter of the
* destination transport address to which the HEARTBEAT was
* sent and mark the destination transport address as active if
* it is not so marked.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TRANSPORT_ON, SCTP_TRANSPORT(link));
return SCTP_DISPOSITION_CONSUME;
}
/* Helper function to send out an abort for the restart
* condition.
*/
static int sctp_sf_send_restart_abort(struct net *net, union sctp_addr *ssa,
struct sctp_chunk *init,
sctp_cmd_seq_t *commands)
{
int len;
struct sctp_packet *pkt;
union sctp_addr_param *addrparm;
struct sctp_errhdr *errhdr;
struct sctp_endpoint *ep;
char buffer[sizeof(struct sctp_errhdr)+sizeof(union sctp_addr_param)];
struct sctp_af *af = sctp_get_af_specific(ssa->v4.sin_family);
/* Build the error on the stack. We are way to malloc crazy
* throughout the code today.
*/
errhdr = (struct sctp_errhdr *)buffer;
addrparm = (union sctp_addr_param *)errhdr->variable;
/* Copy into a parm format. */
len = af->to_addr_param(ssa, addrparm);
len += sizeof(sctp_errhdr_t);
errhdr->cause = SCTP_ERROR_RESTART;
errhdr->length = htons(len);
/* Assign to the control socket. */
ep = sctp_sk(net->sctp.ctl_sock)->ep;
/* Association is NULL since this may be a restart attack and we
* want to send back the attacker's vtag.
*/
pkt = sctp_abort_pkt_new(net, ep, NULL, init, errhdr, len);
if (!pkt)
goto out;
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT, SCTP_PACKET(pkt));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
/* Discard the rest of the inbound packet. */
sctp_add_cmd_sf(commands, SCTP_CMD_DISCARD_PACKET, SCTP_NULL());
out:
/* Even if there is no memory, treat as a failure so
* the packet will get dropped.
*/
return 0;
}
static bool list_has_sctp_addr(const struct list_head *list,
union sctp_addr *ipaddr)
{
struct sctp_transport *addr;
list_for_each_entry(addr, list, transports) {
if (sctp_cmp_addr_exact(ipaddr, &addr->ipaddr))
return true;
}
return false;
}
/* A restart is occurring, check to make sure no new addresses
* are being added as we may be under a takeover attack.
*/
static int sctp_sf_check_restart_addrs(const struct sctp_association *new_asoc,
const struct sctp_association *asoc,
struct sctp_chunk *init,
sctp_cmd_seq_t *commands)
{
struct net *net = sock_net(new_asoc->base.sk);
struct sctp_transport *new_addr;
int ret = 1;
/* Implementor's Guide - Section 5.2.2
* ...
* Before responding the endpoint MUST check to see if the
* unexpected INIT adds new addresses to the association. If new
* addresses are added to the association, the endpoint MUST respond
* with an ABORT..
*/
/* Search through all current addresses and make sure
* we aren't adding any new ones.
*/
list_for_each_entry(new_addr, &new_asoc->peer.transport_addr_list,
transports) {
if (!list_has_sctp_addr(&asoc->peer.transport_addr_list,
&new_addr->ipaddr)) {
sctp_sf_send_restart_abort(net, &new_addr->ipaddr, init,
commands);
ret = 0;
break;
}
}
/* Return success if all addresses were found. */
return ret;
}
/* Populate the verification/tie tags based on overlapping INIT
* scenario.
*
* Note: Do not use in CLOSED or SHUTDOWN-ACK-SENT state.
*/
static void sctp_tietags_populate(struct sctp_association *new_asoc,
const struct sctp_association *asoc)
{
switch (asoc->state) {
/* 5.2.1 INIT received in COOKIE-WAIT or COOKIE-ECHOED State */
case SCTP_STATE_COOKIE_WAIT:
new_asoc->c.my_vtag = asoc->c.my_vtag;
new_asoc->c.my_ttag = asoc->c.my_vtag;
new_asoc->c.peer_ttag = 0;
break;
case SCTP_STATE_COOKIE_ECHOED:
new_asoc->c.my_vtag = asoc->c.my_vtag;
new_asoc->c.my_ttag = asoc->c.my_vtag;
new_asoc->c.peer_ttag = asoc->c.peer_vtag;
break;
/* 5.2.2 Unexpected INIT in States Other than CLOSED, COOKIE-ECHOED,
* COOKIE-WAIT and SHUTDOWN-ACK-SENT
*/
default:
new_asoc->c.my_ttag = asoc->c.my_vtag;
new_asoc->c.peer_ttag = asoc->c.peer_vtag;
break;
}
/* Other parameters for the endpoint SHOULD be copied from the
* existing parameters of the association (e.g. number of
* outbound streams) into the INIT ACK and cookie.
*/
new_asoc->rwnd = asoc->rwnd;
new_asoc->c.sinit_num_ostreams = asoc->c.sinit_num_ostreams;
new_asoc->c.sinit_max_instreams = asoc->c.sinit_max_instreams;
new_asoc->c.initial_tsn = asoc->c.initial_tsn;
}
/*
* Compare vtag/tietag values to determine unexpected COOKIE-ECHO
* handling action.
*
* RFC 2960 5.2.4 Handle a COOKIE ECHO when a TCB exists.
*
* Returns value representing action to be taken. These action values
* correspond to Action/Description values in RFC 2960, Table 2.
*/
static char sctp_tietags_compare(struct sctp_association *new_asoc,
const struct sctp_association *asoc)
{
/* In this case, the peer may have restarted. */
if ((asoc->c.my_vtag != new_asoc->c.my_vtag) &&
(asoc->c.peer_vtag != new_asoc->c.peer_vtag) &&
(asoc->c.my_vtag == new_asoc->c.my_ttag) &&
(asoc->c.peer_vtag == new_asoc->c.peer_ttag))
return 'A';
/* Collision case B. */
if ((asoc->c.my_vtag == new_asoc->c.my_vtag) &&
((asoc->c.peer_vtag != new_asoc->c.peer_vtag) ||
(0 == asoc->c.peer_vtag))) {
return 'B';
}
/* Collision case D. */
if ((asoc->c.my_vtag == new_asoc->c.my_vtag) &&
(asoc->c.peer_vtag == new_asoc->c.peer_vtag))
return 'D';
/* Collision case C. */
if ((asoc->c.my_vtag != new_asoc->c.my_vtag) &&
(asoc->c.peer_vtag == new_asoc->c.peer_vtag) &&
(0 == new_asoc->c.my_ttag) &&
(0 == new_asoc->c.peer_ttag))
return 'C';
/* No match to any of the special cases; discard this packet. */
return 'E';
}
/* Common helper routine for both duplicate and simulataneous INIT
* chunk handling.
*/
static sctp_disposition_t sctp_sf_do_unexpected_init(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg, sctp_cmd_seq_t *commands)
{
sctp_disposition_t retval;
struct sctp_chunk *chunk = arg;
struct sctp_chunk *repl;
struct sctp_association *new_asoc;
struct sctp_chunk *err_chunk;
struct sctp_packet *packet;
sctp_unrecognized_param_t *unk_param;
int len;
/* 6.10 Bundling
* An endpoint MUST NOT bundle INIT, INIT ACK or
* SHUTDOWN COMPLETE with any other chunks.
*
* IG Section 2.11.2
* Furthermore, we require that the receiver of an INIT chunk MUST
* enforce these rules by silently discarding an arriving packet
* with an INIT chunk that is bundled with other chunks.
*/
if (!chunk->singleton)
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* 3.1 A packet containing an INIT chunk MUST have a zero Verification
* Tag.
*/
if (chunk->sctp_hdr->vtag != 0)
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
/* Make sure that the INIT chunk has a valid length.
* In this case, we generate a protocol violation since we have
* an association established.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_init_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Grab the INIT header. */
chunk->subh.init_hdr = (sctp_inithdr_t *) chunk->skb->data;
/* Tag the variable length parameters. */
chunk->param_hdr.v = skb_pull(chunk->skb, sizeof(sctp_inithdr_t));
/* Verify the INIT chunk before processing it. */
err_chunk = NULL;
if (!sctp_verify_init(net, asoc, chunk->chunk_hdr->type,
(sctp_init_chunk_t *)chunk->chunk_hdr, chunk,
&err_chunk)) {
/* This chunk contains fatal error. It is to be discarded.
* Send an ABORT, with causes if there is any.
*/
if (err_chunk) {
packet = sctp_abort_pkt_new(net, ep, asoc, arg,
(__u8 *)(err_chunk->chunk_hdr) +
sizeof(sctp_chunkhdr_t),
ntohs(err_chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t));
if (packet) {
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
retval = SCTP_DISPOSITION_CONSUME;
} else {
retval = SCTP_DISPOSITION_NOMEM;
}
goto cleanup;
} else {
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg,
commands);
}
}
/*
* Other parameters for the endpoint SHOULD be copied from the
* existing parameters of the association (e.g. number of
* outbound streams) into the INIT ACK and cookie.
* FIXME: We are copying parameters from the endpoint not the
* association.
*/
new_asoc = sctp_make_temp_asoc(ep, chunk, GFP_ATOMIC);
if (!new_asoc)
goto nomem;
if (sctp_assoc_set_bind_addr_from_ep(new_asoc,
sctp_scope(sctp_source(chunk)), GFP_ATOMIC) < 0)
goto nomem;
/* In the outbound INIT ACK the endpoint MUST copy its current
* Verification Tag and Peers Verification tag into a reserved
* place (local tie-tag and per tie-tag) within the state cookie.
*/
if (!sctp_process_init(new_asoc, chunk, sctp_source(chunk),
(sctp_init_chunk_t *)chunk->chunk_hdr,
GFP_ATOMIC))
goto nomem;
/* Make sure no new addresses are being added during the
* restart. Do not do this check for COOKIE-WAIT state,
* since there are no peer addresses to check against.
* Upon return an ABORT will have been sent if needed.
*/
if (!sctp_state(asoc, COOKIE_WAIT)) {
if (!sctp_sf_check_restart_addrs(new_asoc, asoc, chunk,
commands)) {
retval = SCTP_DISPOSITION_CONSUME;
goto nomem_retval;
}
}
sctp_tietags_populate(new_asoc, asoc);
/* B) "Z" shall respond immediately with an INIT ACK chunk. */
/* If there are errors need to be reported for unknown parameters,
* make sure to reserve enough room in the INIT ACK for them.
*/
len = 0;
if (err_chunk) {
len = ntohs(err_chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t);
}
repl = sctp_make_init_ack(new_asoc, chunk, GFP_ATOMIC, len);
if (!repl)
goto nomem;
/* If there are errors need to be reported for unknown parameters,
* include them in the outgoing INIT ACK as "Unrecognized parameter"
* parameter.
*/
if (err_chunk) {
/* Get the "Unrecognized parameter" parameter(s) out of the
* ERROR chunk generated by sctp_verify_init(). Since the
* error cause code for "unknown parameter" and the
* "Unrecognized parameter" type is the same, we can
* construct the parameters in INIT ACK by copying the
* ERROR causes over.
*/
unk_param = (sctp_unrecognized_param_t *)
((__u8 *)(err_chunk->chunk_hdr) +
sizeof(sctp_chunkhdr_t));
/* Replace the cause code with the "Unrecognized parameter"
* parameter type.
*/
sctp_addto_chunk(repl, len, unk_param);
}
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_ASOC, SCTP_ASOC(new_asoc));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
/*
* Note: After sending out INIT ACK with the State Cookie parameter,
* "Z" MUST NOT allocate any resources for this new association.
* Otherwise, "Z" will be vulnerable to resource attacks.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_DELETE_TCB, SCTP_NULL());
retval = SCTP_DISPOSITION_CONSUME;
return retval;
nomem:
retval = SCTP_DISPOSITION_NOMEM;
nomem_retval:
if (new_asoc)
sctp_association_free(new_asoc);
cleanup:
if (err_chunk)
sctp_chunk_free(err_chunk);
return retval;
}
/*
* Handle simultaneous INIT.
* This means we started an INIT and then we got an INIT request from
* our peer.
*
* Section: 5.2.1 INIT received in COOKIE-WAIT or COOKIE-ECHOED State (Item B)
* This usually indicates an initialization collision, i.e., each
* endpoint is attempting, at about the same time, to establish an
* association with the other endpoint.
*
* Upon receipt of an INIT in the COOKIE-WAIT or COOKIE-ECHOED state, an
* endpoint MUST respond with an INIT ACK using the same parameters it
* sent in its original INIT chunk (including its Verification Tag,
* unchanged). These original parameters are combined with those from the
* newly received INIT chunk. The endpoint shall also generate a State
* Cookie with the INIT ACK. The endpoint uses the parameters sent in its
* INIT to calculate the State Cookie.
*
* After that, the endpoint MUST NOT change its state, the T1-init
* timer shall be left running and the corresponding TCB MUST NOT be
* destroyed. The normal procedures for handling State Cookies when
* a TCB exists will resolve the duplicate INITs to a single association.
*
* For an endpoint that is in the COOKIE-ECHOED state it MUST populate
* its Tie-Tags with the Tag information of itself and its peer (see
* section 5.2.2 for a description of the Tie-Tags).
*
* Verification Tag: Not explicit, but an INIT can not have a valid
* verification tag, so we skip the check.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_2_1_siminit(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* Call helper to do the real work for both simulataneous and
* duplicate INIT chunk handling.
*/
return sctp_sf_do_unexpected_init(net, ep, asoc, type, arg, commands);
}
/*
* Handle duplicated INIT messages. These are usually delayed
* restransmissions.
*
* Section: 5.2.2 Unexpected INIT in States Other than CLOSED,
* COOKIE-ECHOED and COOKIE-WAIT
*
* Unless otherwise stated, upon reception of an unexpected INIT for
* this association, the endpoint shall generate an INIT ACK with a
* State Cookie. In the outbound INIT ACK the endpoint MUST copy its
* current Verification Tag and peer's Verification Tag into a reserved
* place within the state cookie. We shall refer to these locations as
* the Peer's-Tie-Tag and the Local-Tie-Tag. The outbound SCTP packet
* containing this INIT ACK MUST carry a Verification Tag value equal to
* the Initiation Tag found in the unexpected INIT. And the INIT ACK
* MUST contain a new Initiation Tag (randomly generated see Section
* 5.3.1). Other parameters for the endpoint SHOULD be copied from the
* existing parameters of the association (e.g. number of outbound
* streams) into the INIT ACK and cookie.
*
* After sending out the INIT ACK, the endpoint shall take no further
* actions, i.e., the existing association, including its current state,
* and the corresponding TCB MUST NOT be changed.
*
* Note: Only when a TCB exists and the association is not in a COOKIE-
* WAIT state are the Tie-Tags populated. For a normal association INIT
* (i.e. the endpoint is in a COOKIE-WAIT state), the Tie-Tags MUST be
* set to 0 (indicating that no previous TCB existed). The INIT ACK and
* State Cookie are populated as specified in section 5.2.1.
*
* Verification Tag: Not specified, but an INIT has no way of knowing
* what the verification tag could be, so we ignore it.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_2_2_dupinit(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* Call helper to do the real work for both simulataneous and
* duplicate INIT chunk handling.
*/
return sctp_sf_do_unexpected_init(net, ep, asoc, type, arg, commands);
}
/*
* Unexpected INIT-ACK handler.
*
* Section 5.2.3
* If an INIT ACK received by an endpoint in any state other than the
* COOKIE-WAIT state, the endpoint should discard the INIT ACK chunk.
* An unexpected INIT ACK usually indicates the processing of an old or
* duplicated INIT chunk.
*/
sctp_disposition_t sctp_sf_do_5_2_3_initack(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg, sctp_cmd_seq_t *commands)
{
/* Per the above section, we'll discard the chunk if we have an
* endpoint. If this is an OOTB INIT-ACK, treat it as such.
*/
if (ep == sctp_sk(net->sctp.ctl_sock)->ep)
return sctp_sf_ootb(net, ep, asoc, type, arg, commands);
else
return sctp_sf_discard_chunk(net, ep, asoc, type, arg, commands);
}
/* Unexpected COOKIE-ECHO handler for peer restart (Table 2, action 'A')
*
* Section 5.2.4
* A) In this case, the peer may have restarted.
*/
static sctp_disposition_t sctp_sf_do_dupcook_a(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands,
struct sctp_association *new_asoc)
{
sctp_init_chunk_t *peer_init;
struct sctp_ulpevent *ev;
struct sctp_chunk *repl;
struct sctp_chunk *err;
sctp_disposition_t disposition;
/* new_asoc is a brand-new association, so these are not yet
* side effects--it is safe to run them here.
*/
peer_init = &chunk->subh.cookie_hdr->c.peer_init[0];
if (!sctp_process_init(new_asoc, chunk, sctp_source(chunk), peer_init,
GFP_ATOMIC))
goto nomem;
/* Make sure no new addresses are being added during the
* restart. Though this is a pretty complicated attack
* since you'd have to get inside the cookie.
*/
if (!sctp_sf_check_restart_addrs(new_asoc, asoc, chunk, commands)) {
return SCTP_DISPOSITION_CONSUME;
}
/* If the endpoint is in the SHUTDOWN-ACK-SENT state and recognizes
* the peer has restarted (Action A), it MUST NOT setup a new
* association but instead resend the SHUTDOWN ACK and send an ERROR
* chunk with a "Cookie Received while Shutting Down" error cause to
* its peer.
*/
if (sctp_state(asoc, SHUTDOWN_ACK_SENT)) {
disposition = sctp_sf_do_9_2_reshutack(net, ep, asoc,
SCTP_ST_CHUNK(chunk->chunk_hdr->type),
chunk, commands);
if (SCTP_DISPOSITION_NOMEM == disposition)
goto nomem;
err = sctp_make_op_error(asoc, chunk,
SCTP_ERROR_COOKIE_IN_SHUTDOWN,
NULL, 0, 0);
if (err)
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(err));
return SCTP_DISPOSITION_CONSUME;
}
/* For now, stop pending T3-rtx and SACK timers, fail any unsent/unacked
* data. Consider the optional choice of resending of this data.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_T3_RTX_TIMERS_STOP, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_SACK));
sctp_add_cmd_sf(commands, SCTP_CMD_PURGE_OUTQUEUE, SCTP_NULL());
/* Stop pending T4-rto timer, teardown ASCONF queue, ASCONF-ACK queue
* and ASCONF-ACK cache.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T4_RTO));
sctp_add_cmd_sf(commands, SCTP_CMD_PURGE_ASCONF_QUEUE, SCTP_NULL());
repl = sctp_make_cookie_ack(new_asoc, chunk);
if (!repl)
goto nomem;
/* Report association restart to upper layer. */
ev = sctp_ulpevent_make_assoc_change(asoc, 0, SCTP_RESTART, 0,
new_asoc->c.sinit_num_ostreams,
new_asoc->c.sinit_max_instreams,
NULL, GFP_ATOMIC);
if (!ev)
goto nomem_ev;
/* Update the content of current association. */
sctp_add_cmd_sf(commands, SCTP_CMD_UPDATE_ASSOC, SCTP_ASOC(new_asoc));
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP, SCTP_ULPEVENT(ev));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_ESTABLISHED));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
return SCTP_DISPOSITION_CONSUME;
nomem_ev:
sctp_chunk_free(repl);
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/* Unexpected COOKIE-ECHO handler for setup collision (Table 2, action 'B')
*
* Section 5.2.4
* B) In this case, both sides may be attempting to start an association
* at about the same time but the peer endpoint started its INIT
* after responding to the local endpoint's INIT
*/
/* This case represents an initialization collision. */
static sctp_disposition_t sctp_sf_do_dupcook_b(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands,
struct sctp_association *new_asoc)
{
sctp_init_chunk_t *peer_init;
struct sctp_chunk *repl;
/* new_asoc is a brand-new association, so these are not yet
* side effects--it is safe to run them here.
*/
peer_init = &chunk->subh.cookie_hdr->c.peer_init[0];
if (!sctp_process_init(new_asoc, chunk, sctp_source(chunk), peer_init,
GFP_ATOMIC))
goto nomem;
/* Update the content of current association. */
sctp_add_cmd_sf(commands, SCTP_CMD_UPDATE_ASSOC, SCTP_ASOC(new_asoc));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_ESTABLISHED));
SCTP_INC_STATS(net, SCTP_MIB_CURRESTAB);
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_START, SCTP_NULL());
repl = sctp_make_cookie_ack(new_asoc, chunk);
if (!repl)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
/* RFC 2960 5.1 Normal Establishment of an Association
*
* D) IMPLEMENTATION NOTE: An implementation may choose to
* send the Communication Up notification to the SCTP user
* upon reception of a valid COOKIE ECHO chunk.
*
* Sadly, this needs to be implemented as a side-effect, because
* we are not guaranteed to have set the association id of the real
* association and so these notifications need to be delayed until
* the association id is allocated.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_CHANGE, SCTP_U8(SCTP_COMM_UP));
/* Sockets API Draft Section 5.3.1.6
* When a peer sends a Adaptation Layer Indication parameter , SCTP
* delivers this notification to inform the application that of the
* peers requested adaptation layer.
*
* This also needs to be done as a side effect for the same reason as
* above.
*/
if (asoc->peer.adaptation_ind)
sctp_add_cmd_sf(commands, SCTP_CMD_ADAPTATION_IND, SCTP_NULL());
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/* Unexpected COOKIE-ECHO handler for setup collision (Table 2, action 'C')
*
* Section 5.2.4
* C) In this case, the local endpoint's cookie has arrived late.
* Before it arrived, the local endpoint sent an INIT and received an
* INIT-ACK and finally sent a COOKIE ECHO with the peer's same tag
* but a new tag of its own.
*/
/* This case represents an initialization collision. */
static sctp_disposition_t sctp_sf_do_dupcook_c(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands,
struct sctp_association *new_asoc)
{
/* The cookie should be silently discarded.
* The endpoint SHOULD NOT change states and should leave
* any timers running.
*/
return SCTP_DISPOSITION_DISCARD;
}
/* Unexpected COOKIE-ECHO handler lost chunk (Table 2, action 'D')
*
* Section 5.2.4
*
* D) When both local and remote tags match the endpoint should always
* enter the ESTABLISHED state, if it has not already done so.
*/
/* This case represents an initialization collision. */
static sctp_disposition_t sctp_sf_do_dupcook_d(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands,
struct sctp_association *new_asoc)
{
struct sctp_ulpevent *ev = NULL, *ai_ev = NULL;
struct sctp_chunk *repl;
/* Clarification from Implementor's Guide:
* D) When both local and remote tags match the endpoint should
* enter the ESTABLISHED state, if it is in the COOKIE-ECHOED state.
* It should stop any cookie timer that may be running and send
* a COOKIE ACK.
*/
/* Don't accidentally move back into established state. */
if (asoc->state < SCTP_STATE_ESTABLISHED) {
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_COOKIE));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_ESTABLISHED));
SCTP_INC_STATS(net, SCTP_MIB_CURRESTAB);
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_START,
SCTP_NULL());
/* RFC 2960 5.1 Normal Establishment of an Association
*
* D) IMPLEMENTATION NOTE: An implementation may choose
* to send the Communication Up notification to the
* SCTP user upon reception of a valid COOKIE
* ECHO chunk.
*/
ev = sctp_ulpevent_make_assoc_change(asoc, 0,
SCTP_COMM_UP, 0,
asoc->c.sinit_num_ostreams,
asoc->c.sinit_max_instreams,
NULL, GFP_ATOMIC);
if (!ev)
goto nomem;
/* Sockets API Draft Section 5.3.1.6
* When a peer sends a Adaptation Layer Indication parameter,
* SCTP delivers this notification to inform the application
* that of the peers requested adaptation layer.
*/
if (asoc->peer.adaptation_ind) {
ai_ev = sctp_ulpevent_make_adaptation_indication(asoc,
GFP_ATOMIC);
if (!ai_ev)
goto nomem;
}
}
repl = sctp_make_cookie_ack(new_asoc, chunk);
if (!repl)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
if (ev)
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP,
SCTP_ULPEVENT(ev));
if (ai_ev)
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP,
SCTP_ULPEVENT(ai_ev));
return SCTP_DISPOSITION_CONSUME;
nomem:
if (ai_ev)
sctp_ulpevent_free(ai_ev);
if (ev)
sctp_ulpevent_free(ev);
return SCTP_DISPOSITION_NOMEM;
}
/*
* Handle a duplicate COOKIE-ECHO. This usually means a cookie-carrying
* chunk was retransmitted and then delayed in the network.
*
* Section: 5.2.4 Handle a COOKIE ECHO when a TCB exists
*
* Verification Tag: None. Do cookie validation.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_5_2_4_dupcook(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_disposition_t retval;
struct sctp_chunk *chunk = arg;
struct sctp_association *new_asoc;
int error = 0;
char action;
struct sctp_chunk *err_chk_p;
/* Make sure that the chunk has a valid length from the protocol
* perspective. In this case check to make sure we have at least
* enough for the chunk header. Cookie length verification is
* done later.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* "Decode" the chunk. We have no optional parameters so we
* are in good shape.
*/
chunk->subh.cookie_hdr = (struct sctp_signed_cookie *)chunk->skb->data;
if (!pskb_pull(chunk->skb, ntohs(chunk->chunk_hdr->length) -
sizeof(sctp_chunkhdr_t)))
goto nomem;
/* In RFC 2960 5.2.4 3, if both Verification Tags in the State Cookie
* of a duplicate COOKIE ECHO match the Verification Tags of the
* current association, consider the State Cookie valid even if
* the lifespan is exceeded.
*/
new_asoc = sctp_unpack_cookie(ep, asoc, chunk, GFP_ATOMIC, &error,
&err_chk_p);
/* FIXME:
* If the re-build failed, what is the proper error path
* from here?
*
* [We should abort the association. --piggy]
*/
if (!new_asoc) {
/* FIXME: Several errors are possible. A bad cookie should
* be silently discarded, but think about logging it too.
*/
switch (error) {
case -SCTP_IERROR_NOMEM:
goto nomem;
case -SCTP_IERROR_STALE_COOKIE:
sctp_send_stale_cookie_err(net, ep, asoc, chunk, commands,
err_chk_p);
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
case -SCTP_IERROR_BAD_SIG:
default:
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
}
/* Compare the tie_tag in cookie with the verification tag of
* current association.
*/
action = sctp_tietags_compare(new_asoc, asoc);
switch (action) {
case 'A': /* Association restart. */
retval = sctp_sf_do_dupcook_a(net, ep, asoc, chunk, commands,
new_asoc);
break;
case 'B': /* Collision case B. */
retval = sctp_sf_do_dupcook_b(net, ep, asoc, chunk, commands,
new_asoc);
break;
case 'C': /* Collision case C. */
retval = sctp_sf_do_dupcook_c(net, ep, asoc, chunk, commands,
new_asoc);
break;
case 'D': /* Collision case D. */
retval = sctp_sf_do_dupcook_d(net, ep, asoc, chunk, commands,
new_asoc);
break;
default: /* Discard packet for all others. */
retval = sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
break;
}
/* Delete the tempory new association. */
sctp_add_cmd_sf(commands, SCTP_CMD_SET_ASOC, SCTP_ASOC(new_asoc));
sctp_add_cmd_sf(commands, SCTP_CMD_DELETE_TCB, SCTP_NULL());
/* Restore association pointer to provide SCTP command interpeter
* with a valid context in case it needs to manipulate
* the queues */
sctp_add_cmd_sf(commands, SCTP_CMD_SET_ASOC,
SCTP_ASOC((struct sctp_association *)asoc));
return retval;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Process an ABORT. (SHUTDOWN-PENDING state)
*
* See sctp_sf_do_9_1_abort().
*/
sctp_disposition_t sctp_sf_shutdown_pending_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
if (!sctp_vtag_verify_either(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the ABORT chunk has a valid length.
* Since this is an ABORT chunk, we have to discard it
* because of the following text:
* RFC 2960, Section 3.3.7
* If an endpoint receives an ABORT with a format error or for an
* association that doesn't exist, it MUST silently discard it.
* Because the length is "invalid", we can't really discard just
* as we do not know its true length. So, to be safe, discard the
* packet.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_abort_chunk_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* ADD-IP: Special case for ABORT chunks
* F4) One special consideration is that ABORT Chunks arriving
* destined to the IP address being deleted MUST be
* ignored (see Section 5.3.1 for further details).
*/
if (SCTP_ADDR_DEL ==
sctp_bind_addr_state(&asoc->base.bind_addr, &chunk->dest))
return sctp_sf_discard_chunk(net, ep, asoc, type, arg, commands);
return __sctp_sf_do_9_1_abort(net, ep, asoc, type, arg, commands);
}
/*
* Process an ABORT. (SHUTDOWN-SENT state)
*
* See sctp_sf_do_9_1_abort().
*/
sctp_disposition_t sctp_sf_shutdown_sent_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
if (!sctp_vtag_verify_either(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the ABORT chunk has a valid length.
* Since this is an ABORT chunk, we have to discard it
* because of the following text:
* RFC 2960, Section 3.3.7
* If an endpoint receives an ABORT with a format error or for an
* association that doesn't exist, it MUST silently discard it.
* Because the length is "invalid", we can't really discard just
* as we do not know its true length. So, to be safe, discard the
* packet.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_abort_chunk_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* ADD-IP: Special case for ABORT chunks
* F4) One special consideration is that ABORT Chunks arriving
* destined to the IP address being deleted MUST be
* ignored (see Section 5.3.1 for further details).
*/
if (SCTP_ADDR_DEL ==
sctp_bind_addr_state(&asoc->base.bind_addr, &chunk->dest))
return sctp_sf_discard_chunk(net, ep, asoc, type, arg, commands);
/* Stop the T2-shutdown timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
/* Stop the T5-shutdown guard timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
return __sctp_sf_do_9_1_abort(net, ep, asoc, type, arg, commands);
}
/*
* Process an ABORT. (SHUTDOWN-ACK-SENT state)
*
* See sctp_sf_do_9_1_abort().
*/
sctp_disposition_t sctp_sf_shutdown_ack_sent_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* The same T2 timer, so we should be able to use
* common function with the SHUTDOWN-SENT state.
*/
return sctp_sf_shutdown_sent_abort(net, ep, asoc, type, arg, commands);
}
/*
* Handle an Error received in COOKIE_ECHOED state.
*
* Only handle the error type of stale COOKIE Error, the other errors will
* be ignored.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_cookie_echoed_err(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_errhdr_t *err;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the ERROR chunk has a valid length.
* The parameter walking depends on this as well.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_operr_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Process the error here */
/* FUTURE FIXME: When PR-SCTP related and other optional
* parms are emitted, this will have to change to handle multiple
* errors.
*/
sctp_walk_errors(err, chunk->chunk_hdr) {
if (SCTP_ERROR_STALE_COOKIE == err->cause)
return sctp_sf_do_5_2_6_stale(net, ep, asoc, type,
arg, commands);
}
/* It is possible to have malformed error causes, and that
* will cause us to end the walk early. However, since
* we are discarding the packet, there should be no adverse
* affects.
*/
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
/*
* Handle a Stale COOKIE Error
*
* Section: 5.2.6 Handle Stale COOKIE Error
* If the association is in the COOKIE-ECHOED state, the endpoint may elect
* one of the following three alternatives.
* ...
* 3) Send a new INIT chunk to the endpoint, adding a Cookie
* Preservative parameter requesting an extension to the lifetime of
* the State Cookie. When calculating the time extension, an
* implementation SHOULD use the RTT information measured based on the
* previous COOKIE ECHO / ERROR exchange, and should add no more
* than 1 second beyond the measured RTT, due to long State Cookie
* lifetimes making the endpoint more subject to a replay attack.
*
* Verification Tag: Not explicit, but safe to ignore.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
static sctp_disposition_t sctp_sf_do_5_2_6_stale(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
time_t stale;
sctp_cookie_preserve_param_t bht;
sctp_errhdr_t *err;
struct sctp_chunk *reply;
struct sctp_bind_addr *bp;
int attempts = asoc->init_err_counter + 1;
if (attempts > asoc->max_init_attempts) {
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_FAILED,
SCTP_PERR(SCTP_ERROR_STALE_COOKIE));
return SCTP_DISPOSITION_DELETE_TCB;
}
err = (sctp_errhdr_t *)(chunk->skb->data);
/* When calculating the time extension, an implementation
* SHOULD use the RTT information measured based on the
* previous COOKIE ECHO / ERROR exchange, and should add no
* more than 1 second beyond the measured RTT, due to long
* State Cookie lifetimes making the endpoint more subject to
* a replay attack.
* Measure of Staleness's unit is usec. (1/1000000 sec)
* Suggested Cookie Life-span Increment's unit is msec.
* (1/1000 sec)
* In general, if you use the suggested cookie life, the value
* found in the field of measure of staleness should be doubled
* to give ample time to retransmit the new cookie and thus
* yield a higher probability of success on the reattempt.
*/
stale = ntohl(*(__be32 *)((u8 *)err + sizeof(sctp_errhdr_t)));
stale = (stale * 2) / 1000;
bht.param_hdr.type = SCTP_PARAM_COOKIE_PRESERVATIVE;
bht.param_hdr.length = htons(sizeof(bht));
bht.lifespan_increment = htonl(stale);
/* Build that new INIT chunk. */
bp = (struct sctp_bind_addr *) &asoc->base.bind_addr;
reply = sctp_make_init(asoc, bp, GFP_ATOMIC, sizeof(bht));
if (!reply)
goto nomem;
sctp_addto_chunk(reply, sizeof(bht), &bht);
/* Clear peer's init_tag cached in assoc as we are sending a new INIT */
sctp_add_cmd_sf(commands, SCTP_CMD_CLEAR_INIT_TAG, SCTP_NULL());
/* Stop pending T3-rtx and heartbeat timers */
sctp_add_cmd_sf(commands, SCTP_CMD_T3_RTX_TIMERS_STOP, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_STOP, SCTP_NULL());
/* Delete non-primary peer ip addresses since we are transitioning
* back to the COOKIE-WAIT state
*/
sctp_add_cmd_sf(commands, SCTP_CMD_DEL_NON_PRIMARY, SCTP_NULL());
/* If we've sent any data bundled with COOKIE-ECHO we will need to
* resend
*/
sctp_add_cmd_sf(commands, SCTP_CMD_T1_RETRAN,
SCTP_TRANSPORT(asoc->peer.primary_path));
/* Cast away the const modifier, as we want to just
* rerun it through as a sideffect.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_COUNTER_INC, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_COOKIE));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_COOKIE_WAIT));
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Process an ABORT.
*
* Section: 9.1
* After checking the Verification Tag, the receiving endpoint shall
* remove the association from its record, and shall report the
* termination to its upper layer.
*
* Verification Tag: 8.5.1 Exceptions in Verification Tag Rules
* B) Rules for packet carrying ABORT:
*
* - The endpoint shall always fill in the Verification Tag field of the
* outbound packet with the destination endpoint's tag value if it
* is known.
*
* - If the ABORT is sent in response to an OOTB packet, the endpoint
* MUST follow the procedure described in Section 8.4.
*
* - The receiver MUST accept the packet if the Verification Tag
* matches either its own tag, OR the tag of its peer. Otherwise, the
* receiver MUST silently discard the packet and take no further
* action.
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_9_1_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
if (!sctp_vtag_verify_either(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the ABORT chunk has a valid length.
* Since this is an ABORT chunk, we have to discard it
* because of the following text:
* RFC 2960, Section 3.3.7
* If an endpoint receives an ABORT with a format error or for an
* association that doesn't exist, it MUST silently discard it.
* Because the length is "invalid", we can't really discard just
* as we do not know its true length. So, to be safe, discard the
* packet.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_abort_chunk_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* ADD-IP: Special case for ABORT chunks
* F4) One special consideration is that ABORT Chunks arriving
* destined to the IP address being deleted MUST be
* ignored (see Section 5.3.1 for further details).
*/
if (SCTP_ADDR_DEL ==
sctp_bind_addr_state(&asoc->base.bind_addr, &chunk->dest))
return sctp_sf_discard_chunk(net, ep, asoc, type, arg, commands);
return __sctp_sf_do_9_1_abort(net, ep, asoc, type, arg, commands);
}
static sctp_disposition_t __sctp_sf_do_9_1_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
unsigned int len;
__be16 error = SCTP_ERROR_NO_ERROR;
/* See if we have an error cause code in the chunk. */
len = ntohs(chunk->chunk_hdr->length);
if (len >= sizeof(struct sctp_chunkhdr) + sizeof(struct sctp_errhdr)) {
sctp_errhdr_t *err;
sctp_walk_errors(err, chunk->chunk_hdr);
if ((void *)err != (void *)chunk->chunk_end)
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
error = ((sctp_errhdr_t *)chunk->skb->data)->cause;
}
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR, SCTP_ERROR(ECONNRESET));
/* ASSOC_FAILED will DELETE_TCB. */
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED, SCTP_PERR(error));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_ABORT;
}
/*
* Process an ABORT. (COOKIE-WAIT state)
*
* See sctp_sf_do_9_1_abort() above.
*/
sctp_disposition_t sctp_sf_cookie_wait_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
unsigned int len;
__be16 error = SCTP_ERROR_NO_ERROR;
if (!sctp_vtag_verify_either(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the ABORT chunk has a valid length.
* Since this is an ABORT chunk, we have to discard it
* because of the following text:
* RFC 2960, Section 3.3.7
* If an endpoint receives an ABORT with a format error or for an
* association that doesn't exist, it MUST silently discard it.
* Because the length is "invalid", we can't really discard just
* as we do not know its true length. So, to be safe, discard the
* packet.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_abort_chunk_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* See if we have an error cause code in the chunk. */
len = ntohs(chunk->chunk_hdr->length);
if (len >= sizeof(struct sctp_chunkhdr) + sizeof(struct sctp_errhdr))
error = ((sctp_errhdr_t *)chunk->skb->data)->cause;
return sctp_stop_t1_and_abort(net, commands, error, ECONNREFUSED, asoc,
chunk->transport);
}
/*
* Process an incoming ICMP as an ABORT. (COOKIE-WAIT state)
*/
sctp_disposition_t sctp_sf_cookie_wait_icmp_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
return sctp_stop_t1_and_abort(net, commands, SCTP_ERROR_NO_ERROR,
ENOPROTOOPT, asoc,
(struct sctp_transport *)arg);
}
/*
* Process an ABORT. (COOKIE-ECHOED state)
*/
sctp_disposition_t sctp_sf_cookie_echoed_abort(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* There is a single T1 timer, so we should be able to use
* common function with the COOKIE-WAIT state.
*/
return sctp_sf_cookie_wait_abort(net, ep, asoc, type, arg, commands);
}
/*
* Stop T1 timer and abort association with "INIT failed".
*
* This is common code called by several sctp_sf_*_abort() functions above.
*/
static sctp_disposition_t sctp_stop_t1_and_abort(struct net *net,
sctp_cmd_seq_t *commands,
__be16 error, int sk_err,
const struct sctp_association *asoc,
struct sctp_transport *transport)
{
pr_debug("%s: ABORT received (INIT)\n", __func__);
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_CLOSED));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR, SCTP_ERROR(sk_err));
/* CMD_INIT_FAILED will DELETE_TCB. */
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_FAILED,
SCTP_PERR(error));
return SCTP_DISPOSITION_ABORT;
}
/*
* sctp_sf_do_9_2_shut
*
* Section: 9.2
* Upon the reception of the SHUTDOWN, the peer endpoint shall
* - enter the SHUTDOWN-RECEIVED state,
*
* - stop accepting new data from its SCTP user
*
* - verify, by checking the Cumulative TSN Ack field of the chunk,
* that all its outstanding DATA chunks have been received by the
* SHUTDOWN sender.
*
* Once an endpoint as reached the SHUTDOWN-RECEIVED state it MUST NOT
* send a SHUTDOWN in response to a ULP request. And should discard
* subsequent SHUTDOWN chunks.
*
* If there are still outstanding DATA chunks left, the SHUTDOWN
* receiver shall continue to follow normal data transmission
* procedures defined in Section 6 until all outstanding DATA chunks
* are acknowledged; however, the SHUTDOWN receiver MUST NOT accept
* new data from its SCTP user.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_9_2_shutdown(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_shutdownhdr_t *sdh;
sctp_disposition_t disposition;
struct sctp_ulpevent *ev;
__u32 ctsn;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the SHUTDOWN chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk,
sizeof(struct sctp_shutdown_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Convert the elaborate header. */
sdh = (sctp_shutdownhdr_t *)chunk->skb->data;
skb_pull(chunk->skb, sizeof(sctp_shutdownhdr_t));
chunk->subh.shutdown_hdr = sdh;
ctsn = ntohl(sdh->cum_tsn_ack);
if (TSN_lt(ctsn, asoc->ctsn_ack_point)) {
pr_debug("%s: ctsn:%x, ctsn_ack_point:%x\n", __func__, ctsn,
asoc->ctsn_ack_point);
return SCTP_DISPOSITION_DISCARD;
}
/* If Cumulative TSN Ack beyond the max tsn currently
* send, terminating the association and respond to the
* sender with an ABORT.
*/
if (!TSN_lt(ctsn, asoc->next_tsn))
return sctp_sf_violation_ctsn(net, ep, asoc, type, arg, commands);
/* API 5.3.1.5 SCTP_SHUTDOWN_EVENT
* When a peer sends a SHUTDOWN, SCTP delivers this notification to
* inform the application that it should cease sending data.
*/
ev = sctp_ulpevent_make_shutdown_event(asoc, 0, GFP_ATOMIC);
if (!ev) {
disposition = SCTP_DISPOSITION_NOMEM;
goto out;
}
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP, SCTP_ULPEVENT(ev));
/* Upon the reception of the SHUTDOWN, the peer endpoint shall
* - enter the SHUTDOWN-RECEIVED state,
* - stop accepting new data from its SCTP user
*
* [This is implicit in the new state.]
*/
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_SHUTDOWN_RECEIVED));
disposition = SCTP_DISPOSITION_CONSUME;
if (sctp_outq_is_empty(&asoc->outqueue)) {
disposition = sctp_sf_do_9_2_shutdown_ack(net, ep, asoc, type,
arg, commands);
}
if (SCTP_DISPOSITION_NOMEM == disposition)
goto out;
/* - verify, by checking the Cumulative TSN Ack field of the
* chunk, that all its outstanding DATA chunks have been
* received by the SHUTDOWN sender.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_PROCESS_CTSN,
SCTP_BE32(chunk->subh.shutdown_hdr->cum_tsn_ack));
out:
return disposition;
}
/*
* sctp_sf_do_9_2_shut_ctsn
*
* Once an endpoint has reached the SHUTDOWN-RECEIVED state,
* it MUST NOT send a SHUTDOWN in response to a ULP request.
* The Cumulative TSN Ack of the received SHUTDOWN chunk
* MUST be processed.
*/
sctp_disposition_t sctp_sf_do_9_2_shut_ctsn(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_shutdownhdr_t *sdh;
__u32 ctsn;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the SHUTDOWN chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk,
sizeof(struct sctp_shutdown_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
sdh = (sctp_shutdownhdr_t *)chunk->skb->data;
ctsn = ntohl(sdh->cum_tsn_ack);
if (TSN_lt(ctsn, asoc->ctsn_ack_point)) {
pr_debug("%s: ctsn:%x, ctsn_ack_point:%x\n", __func__, ctsn,
asoc->ctsn_ack_point);
return SCTP_DISPOSITION_DISCARD;
}
/* If Cumulative TSN Ack beyond the max tsn currently
* send, terminating the association and respond to the
* sender with an ABORT.
*/
if (!TSN_lt(ctsn, asoc->next_tsn))
return sctp_sf_violation_ctsn(net, ep, asoc, type, arg, commands);
/* verify, by checking the Cumulative TSN Ack field of the
* chunk, that all its outstanding DATA chunks have been
* received by the SHUTDOWN sender.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_PROCESS_CTSN,
SCTP_BE32(sdh->cum_tsn_ack));
return SCTP_DISPOSITION_CONSUME;
}
/* RFC 2960 9.2
* If an endpoint is in SHUTDOWN-ACK-SENT state and receives an INIT chunk
* (e.g., if the SHUTDOWN COMPLETE was lost) with source and destination
* transport addresses (either in the IP addresses or in the INIT chunk)
* that belong to this association, it should discard the INIT chunk and
* retransmit the SHUTDOWN ACK chunk.
*/
sctp_disposition_t sctp_sf_do_9_2_reshutack(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = (struct sctp_chunk *) arg;
struct sctp_chunk *reply;
/* Make sure that the chunk has a valid length */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Since we are not going to really process this INIT, there
* is no point in verifying chunk boundries. Just generate
* the SHUTDOWN ACK.
*/
reply = sctp_make_shutdown_ack(asoc, chunk);
if (NULL == reply)
goto nomem;
/* Set the transport for the SHUTDOWN ACK chunk and the timeout for
* the T2-SHUTDOWN timer.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SETUP_T2, SCTP_CHUNK(reply));
/* and restart the T2-shutdown timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* sctp_sf_do_ecn_cwr
*
* Section: Appendix A: Explicit Congestion Notification
*
* CWR:
*
* RFC 2481 details a specific bit for a sender to send in the header of
* its next outbound TCP segment to indicate to its peer that it has
* reduced its congestion window. This is termed the CWR bit. For
* SCTP the same indication is made by including the CWR chunk.
* This chunk contains one data element, i.e. the TSN number that
* was sent in the ECNE chunk. This element represents the lowest
* TSN number in the datagram that was originally marked with the
* CE bit.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_ecn_cwr(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_cwrhdr_t *cwr;
struct sctp_chunk *chunk = arg;
u32 lowest_tsn;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_ecne_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
cwr = (sctp_cwrhdr_t *) chunk->skb->data;
skb_pull(chunk->skb, sizeof(sctp_cwrhdr_t));
lowest_tsn = ntohl(cwr->lowest_tsn);
/* Does this CWR ack the last sent congestion notification? */
if (TSN_lte(asoc->last_ecne_tsn, lowest_tsn)) {
/* Stop sending ECNE. */
sctp_add_cmd_sf(commands,
SCTP_CMD_ECN_CWR,
SCTP_U32(lowest_tsn));
}
return SCTP_DISPOSITION_CONSUME;
}
/*
* sctp_sf_do_ecne
*
* Section: Appendix A: Explicit Congestion Notification
*
* ECN-Echo
*
* RFC 2481 details a specific bit for a receiver to send back in its
* TCP acknowledgements to notify the sender of the Congestion
* Experienced (CE) bit having arrived from the network. For SCTP this
* same indication is made by including the ECNE chunk. This chunk
* contains one data element, i.e. the lowest TSN associated with the IP
* datagram marked with the CE bit.....
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_ecne(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_ecnehdr_t *ecne;
struct sctp_chunk *chunk = arg;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_ecne_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
ecne = (sctp_ecnehdr_t *) chunk->skb->data;
skb_pull(chunk->skb, sizeof(sctp_ecnehdr_t));
/* If this is a newer ECNE than the last CWR packet we sent out */
sctp_add_cmd_sf(commands, SCTP_CMD_ECN_ECNE,
SCTP_U32(ntohl(ecne->lowest_tsn)));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Section: 6.2 Acknowledgement on Reception of DATA Chunks
*
* The SCTP endpoint MUST always acknowledge the reception of each valid
* DATA chunk.
*
* The guidelines on delayed acknowledgement algorithm specified in
* Section 4.2 of [RFC2581] SHOULD be followed. Specifically, an
* acknowledgement SHOULD be generated for at least every second packet
* (not every second DATA chunk) received, and SHOULD be generated within
* 200 ms of the arrival of any unacknowledged DATA chunk. In some
* situations it may be beneficial for an SCTP transmitter to be more
* conservative than the algorithms detailed in this document allow.
* However, an SCTP transmitter MUST NOT be more aggressive than the
* following algorithms allow.
*
* A SCTP receiver MUST NOT generate more than one SACK for every
* incoming packet, other than to update the offered window as the
* receiving application consumes new data.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_eat_data_6_2(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_arg_t force = SCTP_NOFORCE();
int error;
if (!sctp_vtag_verify(chunk, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_data_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
error = sctp_eat_data(asoc, chunk, commands );
switch (error) {
case SCTP_IERROR_NO_ERROR:
break;
case SCTP_IERROR_HIGH_TSN:
case SCTP_IERROR_BAD_STREAM:
SCTP_INC_STATS(net, SCTP_MIB_IN_DATA_CHUNK_DISCARDS);
goto discard_noforce;
case SCTP_IERROR_DUP_TSN:
case SCTP_IERROR_IGNORE_TSN:
SCTP_INC_STATS(net, SCTP_MIB_IN_DATA_CHUNK_DISCARDS);
goto discard_force;
case SCTP_IERROR_NO_DATA:
goto consume;
case SCTP_IERROR_PROTO_VIOLATION:
return sctp_sf_abort_violation(net, ep, asoc, chunk, commands,
(u8 *)chunk->subh.data_hdr, sizeof(sctp_datahdr_t));
default:
BUG();
}
if (chunk->chunk_hdr->flags & SCTP_DATA_SACK_IMM)
force = SCTP_FORCE();
if (asoc->autoclose) {
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_AUTOCLOSE));
}
/* If this is the last chunk in a packet, we need to count it
* toward sack generation. Note that we need to SACK every
* OTHER packet containing data chunks, EVEN IF WE DISCARD
* THEM. We elect to NOT generate SACK's if the chunk fails
* the verification tag test.
*
* RFC 2960 6.2 Acknowledgement on Reception of DATA Chunks
*
* The SCTP endpoint MUST always acknowledge the reception of
* each valid DATA chunk.
*
* The guidelines on delayed acknowledgement algorithm
* specified in Section 4.2 of [RFC2581] SHOULD be followed.
* Specifically, an acknowledgement SHOULD be generated for at
* least every second packet (not every second DATA chunk)
* received, and SHOULD be generated within 200 ms of the
* arrival of any unacknowledged DATA chunk. In some
* situations it may be beneficial for an SCTP transmitter to
* be more conservative than the algorithms detailed in this
* document allow. However, an SCTP transmitter MUST NOT be
* more aggressive than the following algorithms allow.
*/
if (chunk->end_of_packet)
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, force);
return SCTP_DISPOSITION_CONSUME;
discard_force:
/* RFC 2960 6.2 Acknowledgement on Reception of DATA Chunks
*
* When a packet arrives with duplicate DATA chunk(s) and with
* no new DATA chunk(s), the endpoint MUST immediately send a
* SACK with no delay. If a packet arrives with duplicate
* DATA chunk(s) bundled with new DATA chunks, the endpoint
* MAY immediately send a SACK. Normally receipt of duplicate
* DATA chunks will occur when the original SACK chunk was lost
* and the peer's RTO has expired. The duplicate TSN number(s)
* SHOULD be reported in the SACK as duplicate.
*/
/* In our case, we split the MAY SACK advice up whether or not
* the last chunk is a duplicate.'
*/
if (chunk->end_of_packet)
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, SCTP_FORCE());
return SCTP_DISPOSITION_DISCARD;
discard_noforce:
if (chunk->end_of_packet)
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, force);
return SCTP_DISPOSITION_DISCARD;
consume:
return SCTP_DISPOSITION_CONSUME;
}
/*
* sctp_sf_eat_data_fast_4_4
*
* Section: 4 (4)
* (4) In SHUTDOWN-SENT state the endpoint MUST acknowledge any received
* DATA chunks without delay.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_eat_data_fast_4_4(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
int error;
if (!sctp_vtag_verify(chunk, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_data_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
error = sctp_eat_data(asoc, chunk, commands );
switch (error) {
case SCTP_IERROR_NO_ERROR:
case SCTP_IERROR_HIGH_TSN:
case SCTP_IERROR_DUP_TSN:
case SCTP_IERROR_IGNORE_TSN:
case SCTP_IERROR_BAD_STREAM:
break;
case SCTP_IERROR_NO_DATA:
goto consume;
case SCTP_IERROR_PROTO_VIOLATION:
return sctp_sf_abort_violation(net, ep, asoc, chunk, commands,
(u8 *)chunk->subh.data_hdr, sizeof(sctp_datahdr_t));
default:
BUG();
}
/* Go a head and force a SACK, since we are shutting down. */
/* Implementor's Guide.
*
* While in SHUTDOWN-SENT state, the SHUTDOWN sender MUST immediately
* respond to each received packet containing one or more DATA chunk(s)
* with a SACK, a SHUTDOWN chunk, and restart the T2-shutdown timer
*/
if (chunk->end_of_packet) {
/* We must delay the chunk creation since the cumulative
* TSN has not been updated yet.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SHUTDOWN, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, SCTP_FORCE());
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
}
consume:
return SCTP_DISPOSITION_CONSUME;
}
/*
* Section: 6.2 Processing a Received SACK
* D) Any time a SACK arrives, the endpoint performs the following:
*
* i) If Cumulative TSN Ack is less than the Cumulative TSN Ack Point,
* then drop the SACK. Since Cumulative TSN Ack is monotonically
* increasing, a SACK whose Cumulative TSN Ack is less than the
* Cumulative TSN Ack Point indicates an out-of-order SACK.
*
* ii) Set rwnd equal to the newly received a_rwnd minus the number
* of bytes still outstanding after processing the Cumulative TSN Ack
* and the Gap Ack Blocks.
*
* iii) If the SACK is missing a TSN that was previously
* acknowledged via a Gap Ack Block (e.g., the data receiver
* reneged on the data), then mark the corresponding DATA chunk
* as available for retransmit: Mark it as missing for fast
* retransmit as described in Section 7.2.4 and if no retransmit
* timer is running for the destination address to which the DATA
* chunk was originally transmitted, then T3-rtx is started for
* that destination address.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_eat_sack_6_2(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_sackhdr_t *sackh;
__u32 ctsn;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the SACK chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_sack_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Pull the SACK chunk from the data buffer */
sackh = sctp_sm_pull_sack(chunk);
/* Was this a bogus SACK? */
if (!sackh)
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
chunk->subh.sack_hdr = sackh;
ctsn = ntohl(sackh->cum_tsn_ack);
/* i) If Cumulative TSN Ack is less than the Cumulative TSN
* Ack Point, then drop the SACK. Since Cumulative TSN
* Ack is monotonically increasing, a SACK whose
* Cumulative TSN Ack is less than the Cumulative TSN Ack
* Point indicates an out-of-order SACK.
*/
if (TSN_lt(ctsn, asoc->ctsn_ack_point)) {
pr_debug("%s: ctsn:%x, ctsn_ack_point:%x\n", __func__, ctsn,
asoc->ctsn_ack_point);
return SCTP_DISPOSITION_DISCARD;
}
/* If Cumulative TSN Ack beyond the max tsn currently
* send, terminating the association and respond to the
* sender with an ABORT.
*/
if (!TSN_lt(ctsn, asoc->next_tsn))
return sctp_sf_violation_ctsn(net, ep, asoc, type, arg, commands);
/* Return this SACK for further processing. */
sctp_add_cmd_sf(commands, SCTP_CMD_PROCESS_SACK, SCTP_CHUNK(chunk));
/* Note: We do the rest of the work on the PROCESS_SACK
* sideeffect.
*/
return SCTP_DISPOSITION_CONSUME;
}
/*
* Generate an ABORT in response to a packet.
*
* Section: 8.4 Handle "Out of the blue" Packets, sctpimpguide 2.41
*
* 8) The receiver should respond to the sender of the OOTB packet with
* an ABORT. When sending the ABORT, the receiver of the OOTB packet
* MUST fill in the Verification Tag field of the outbound packet
* with the value found in the Verification Tag field of the OOTB
* packet and set the T-bit in the Chunk Flags to indicate that the
* Verification Tag is reflected. After sending this ABORT, the
* receiver of the OOTB packet shall discard the OOTB packet and take
* no further action.
*
* Verification Tag:
*
* The return value is the disposition of the chunk.
*/
static sctp_disposition_t sctp_sf_tabort_8_4_8(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_packet *packet = NULL;
struct sctp_chunk *chunk = arg;
struct sctp_chunk *abort;
packet = sctp_ootb_pkt_new(net, asoc, chunk);
if (packet) {
/* Make an ABORT. The T bit will be set if the asoc
* is NULL.
*/
abort = sctp_make_abort(asoc, chunk, 0);
if (!abort) {
sctp_ootb_pkt_free(packet);
return SCTP_DISPOSITION_NOMEM;
}
/* Reflect vtag if T-Bit is set */
if (sctp_test_T_bit(abort))
packet->vtag = ntohl(chunk->sctp_hdr->vtag);
/* Set the skb to the belonging sock for accounting. */
abort->skb->sk = ep->base.sk;
sctp_packet_append_chunk(packet, abort);
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
return SCTP_DISPOSITION_CONSUME;
}
return SCTP_DISPOSITION_NOMEM;
}
/*
* Received an ERROR chunk from peer. Generate SCTP_REMOTE_ERROR
* event as ULP notification for each cause included in the chunk.
*
* API 5.3.1.3 - SCTP_REMOTE_ERROR
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_operr_notify(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_errhdr_t *err;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the ERROR chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_operr_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
sctp_walk_errors(err, chunk->chunk_hdr);
if ((void *)err != (void *)chunk->chunk_end)
return sctp_sf_violation_paramlen(net, ep, asoc, type, arg,
(void *)err, commands);
sctp_add_cmd_sf(commands, SCTP_CMD_PROCESS_OPERR,
SCTP_CHUNK(chunk));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Process an inbound SHUTDOWN ACK.
*
* From Section 9.2:
* Upon the receipt of the SHUTDOWN ACK, the SHUTDOWN sender shall
* stop the T2-shutdown timer, send a SHUTDOWN COMPLETE chunk to its
* peer, and remove all record of the association.
*
* The return value is the disposition.
*/
sctp_disposition_t sctp_sf_do_9_2_final(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_chunk *reply;
struct sctp_ulpevent *ev;
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the SHUTDOWN_ACK chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* 10.2 H) SHUTDOWN COMPLETE notification
*
* When SCTP completes the shutdown procedures (section 9.2) this
* notification is passed to the upper layer.
*/
ev = sctp_ulpevent_make_assoc_change(asoc, 0, SCTP_SHUTDOWN_COMP,
0, 0, 0, NULL, GFP_ATOMIC);
if (!ev)
goto nomem;
/* ...send a SHUTDOWN COMPLETE chunk to its peer, */
reply = sctp_make_shutdown_complete(asoc, chunk);
if (!reply)
goto nomem_chunk;
/* Do all the commands now (after allocation), so that we
* have consistent state if memory allocation failes
*/
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP, SCTP_ULPEVENT(ev));
/* Upon the receipt of the SHUTDOWN ACK, the SHUTDOWN sender shall
* stop the T2-shutdown timer,
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_CLOSED));
SCTP_INC_STATS(net, SCTP_MIB_SHUTDOWNS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
/* ...and remove all record of the association. */
sctp_add_cmd_sf(commands, SCTP_CMD_DELETE_TCB, SCTP_NULL());
return SCTP_DISPOSITION_DELETE_TCB;
nomem_chunk:
sctp_ulpevent_free(ev);
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* RFC 2960, 8.4 - Handle "Out of the blue" Packets, sctpimpguide 2.41.
*
* 5) If the packet contains a SHUTDOWN ACK chunk, the receiver should
* respond to the sender of the OOTB packet with a SHUTDOWN COMPLETE.
* When sending the SHUTDOWN COMPLETE, the receiver of the OOTB
* packet must fill in the Verification Tag field of the outbound
* packet with the Verification Tag received in the SHUTDOWN ACK and
* set the T-bit in the Chunk Flags to indicate that the Verification
* Tag is reflected.
*
* 8) The receiver should respond to the sender of the OOTB packet with
* an ABORT. When sending the ABORT, the receiver of the OOTB packet
* MUST fill in the Verification Tag field of the outbound packet
* with the value found in the Verification Tag field of the OOTB
* packet and set the T-bit in the Chunk Flags to indicate that the
* Verification Tag is reflected. After sending this ABORT, the
* receiver of the OOTB packet shall discard the OOTB packet and take
* no further action.
*/
sctp_disposition_t sctp_sf_ootb(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sk_buff *skb = chunk->skb;
sctp_chunkhdr_t *ch;
sctp_errhdr_t *err;
__u8 *ch_end;
int ootb_shut_ack = 0;
int ootb_cookie_ack = 0;
SCTP_INC_STATS(net, SCTP_MIB_OUTOFBLUES);
ch = (sctp_chunkhdr_t *) chunk->chunk_hdr;
do {
/* Report violation if the chunk is less then minimal */
if (ntohs(ch->length) < sizeof(sctp_chunkhdr_t))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Now that we know we at least have a chunk header,
* do things that are type appropriate.
*/
if (SCTP_CID_SHUTDOWN_ACK == ch->type)
ootb_shut_ack = 1;
/* RFC 2960, Section 3.3.7
* Moreover, under any circumstances, an endpoint that
* receives an ABORT MUST NOT respond to that ABORT by
* sending an ABORT of its own.
*/
if (SCTP_CID_ABORT == ch->type)
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* RFC 8.4, 7) If the packet contains a "Stale cookie" ERROR
* or a COOKIE ACK the SCTP Packet should be silently
* discarded.
*/
if (SCTP_CID_COOKIE_ACK == ch->type)
ootb_cookie_ack = 1;
if (SCTP_CID_ERROR == ch->type) {
sctp_walk_errors(err, ch) {
if (SCTP_ERROR_STALE_COOKIE == err->cause) {
ootb_cookie_ack = 1;
break;
}
}
}
/* Report violation if chunk len overflows */
ch_end = ((__u8 *)ch) + WORD_ROUND(ntohs(ch->length));
if (ch_end > skb_tail_pointer(skb))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
ch = (sctp_chunkhdr_t *) ch_end;
} while (ch_end < skb_tail_pointer(skb));
if (ootb_shut_ack)
return sctp_sf_shut_8_4_5(net, ep, asoc, type, arg, commands);
else if (ootb_cookie_ack)
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
else
return sctp_sf_tabort_8_4_8(net, ep, asoc, type, arg, commands);
}
/*
* Handle an "Out of the blue" SHUTDOWN ACK.
*
* Section: 8.4 5, sctpimpguide 2.41.
*
* 5) If the packet contains a SHUTDOWN ACK chunk, the receiver should
* respond to the sender of the OOTB packet with a SHUTDOWN COMPLETE.
* When sending the SHUTDOWN COMPLETE, the receiver of the OOTB
* packet must fill in the Verification Tag field of the outbound
* packet with the Verification Tag received in the SHUTDOWN ACK and
* set the T-bit in the Chunk Flags to indicate that the Verification
* Tag is reflected.
*
* Inputs
* (endpoint, asoc, type, arg, commands)
*
* Outputs
* (sctp_disposition_t)
*
* The return value is the disposition of the chunk.
*/
static sctp_disposition_t sctp_sf_shut_8_4_5(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_packet *packet = NULL;
struct sctp_chunk *chunk = arg;
struct sctp_chunk *shut;
packet = sctp_ootb_pkt_new(net, asoc, chunk);
if (packet) {
/* Make an SHUTDOWN_COMPLETE.
* The T bit will be set if the asoc is NULL.
*/
shut = sctp_make_shutdown_complete(asoc, chunk);
if (!shut) {
sctp_ootb_pkt_free(packet);
return SCTP_DISPOSITION_NOMEM;
}
/* Reflect vtag if T-Bit is set */
if (sctp_test_T_bit(shut))
packet->vtag = ntohl(chunk->sctp_hdr->vtag);
/* Set the skb to the belonging sock for accounting. */
shut->skb->sk = ep->base.sk;
sctp_packet_append_chunk(packet, shut);
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
/* If the chunk length is invalid, we don't want to process
* the reset of the packet.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* We need to discard the rest of the packet to prevent
* potential bomming attacks from additional bundled chunks.
* This is documented in SCTP Threats ID.
*/
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
return SCTP_DISPOSITION_NOMEM;
}
/*
* Handle SHUTDOWN ACK in COOKIE_ECHOED or COOKIE_WAIT state.
*
* Verification Tag: 8.5.1 E) Rules for packet carrying a SHUTDOWN ACK
* If the receiver is in COOKIE-ECHOED or COOKIE-WAIT state the
* procedures in section 8.4 SHOULD be followed, in other words it
* should be treated as an Out Of The Blue packet.
* [This means that we do NOT check the Verification Tag on these
* chunks. --piggy ]
*
*/
sctp_disposition_t sctp_sf_do_8_5_1_E_sa(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
/* Make sure that the SHUTDOWN_ACK chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
/* Although we do have an association in this case, it corresponds
* to a restarted association. So the packet is treated as an OOTB
* packet and the state function that handles OOTB SHUTDOWN_ACK is
* called with a NULL association.
*/
SCTP_INC_STATS(net, SCTP_MIB_OUTOFBLUES);
return sctp_sf_shut_8_4_5(net, ep, NULL, type, arg, commands);
}
/* ADDIP Section 4.2 Upon reception of an ASCONF Chunk. */
sctp_disposition_t sctp_sf_do_asconf(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type, void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_chunk *asconf_ack = NULL;
struct sctp_paramhdr *err_param = NULL;
sctp_addiphdr_t *hdr;
union sctp_addr_param *addr_param;
__u32 serial;
int length;
if (!sctp_vtag_verify(chunk, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
/* ADD-IP: Section 4.1.1
* This chunk MUST be sent in an authenticated way by using
* the mechanism defined in [I-D.ietf-tsvwg-sctp-auth]. If this chunk
* is received unauthenticated it MUST be silently discarded as
* described in [I-D.ietf-tsvwg-sctp-auth].
*/
if (!net->sctp.addip_noauth && !chunk->auth)
return sctp_sf_discard_chunk(net, ep, asoc, type, arg, commands);
/* Make sure that the ASCONF ADDIP chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_addip_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
hdr = (sctp_addiphdr_t *)chunk->skb->data;
serial = ntohl(hdr->serial);
addr_param = (union sctp_addr_param *)hdr->params;
length = ntohs(addr_param->p.length);
if (length < sizeof(sctp_paramhdr_t))
return sctp_sf_violation_paramlen(net, ep, asoc, type, arg,
(void *)addr_param, commands);
/* Verify the ASCONF chunk before processing it. */
if (!sctp_verify_asconf(asoc,
(sctp_paramhdr_t *)((void *)addr_param + length),
(void *)chunk->chunk_end,
&err_param))
return sctp_sf_violation_paramlen(net, ep, asoc, type, arg,
(void *)err_param, commands);
/* ADDIP 5.2 E1) Compare the value of the serial number to the value
* the endpoint stored in a new association variable
* 'Peer-Serial-Number'.
*/
if (serial == asoc->peer.addip_serial + 1) {
/* If this is the first instance of ASCONF in the packet,
* we can clean our old ASCONF-ACKs.
*/
if (!chunk->has_asconf)
sctp_assoc_clean_asconf_ack_cache(asoc);
/* ADDIP 5.2 E4) When the Sequence Number matches the next one
* expected, process the ASCONF as described below and after
* processing the ASCONF Chunk, append an ASCONF-ACK Chunk to
* the response packet and cache a copy of it (in the event it
* later needs to be retransmitted).
*
* Essentially, do V1-V5.
*/
asconf_ack = sctp_process_asconf((struct sctp_association *)
asoc, chunk);
if (!asconf_ack)
return SCTP_DISPOSITION_NOMEM;
} else if (serial < asoc->peer.addip_serial + 1) {
/* ADDIP 5.2 E2)
* If the value found in the Sequence Number is less than the
* ('Peer- Sequence-Number' + 1), simply skip to the next
* ASCONF, and include in the outbound response packet
* any previously cached ASCONF-ACK response that was
* sent and saved that matches the Sequence Number of the
* ASCONF. Note: It is possible that no cached ASCONF-ACK
* Chunk exists. This will occur when an older ASCONF
* arrives out of order. In such a case, the receiver
* should skip the ASCONF Chunk and not include ASCONF-ACK
* Chunk for that chunk.
*/
asconf_ack = sctp_assoc_lookup_asconf_ack(asoc, hdr->serial);
if (!asconf_ack)
return SCTP_DISPOSITION_DISCARD;
/* Reset the transport so that we select the correct one
* this time around. This is to make sure that we don't
* accidentally use a stale transport that's been removed.
*/
asconf_ack->transport = NULL;
} else {
/* ADDIP 5.2 E5) Otherwise, the ASCONF Chunk is discarded since
* it must be either a stale packet or from an attacker.
*/
return SCTP_DISPOSITION_DISCARD;
}
/* ADDIP 5.2 E6) The destination address of the SCTP packet
* containing the ASCONF-ACK Chunks MUST be the source address of
* the SCTP packet that held the ASCONF Chunks.
*
* To do this properly, we'll set the destination address of the chunk
* and at the transmit time, will try look up the transport to use.
* Since ASCONFs may be bundled, the correct transport may not be
* created until we process the entire packet, thus this workaround.
*/
asconf_ack->dest = chunk->source;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(asconf_ack));
if (asoc->new_transport) {
sctp_sf_heartbeat(ep, asoc, type, asoc->new_transport,
commands);
((struct sctp_association *)asoc)->new_transport = NULL;
}
return SCTP_DISPOSITION_CONSUME;
}
/*
* ADDIP Section 4.3 General rules for address manipulation
* When building TLV parameters for the ASCONF Chunk that will add or
* delete IP addresses the D0 to D13 rules should be applied:
*/
sctp_disposition_t sctp_sf_do_asconf_ack(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type, void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *asconf_ack = arg;
struct sctp_chunk *last_asconf = asoc->addip_last_asconf;
struct sctp_chunk *abort;
struct sctp_paramhdr *err_param = NULL;
sctp_addiphdr_t *addip_hdr;
__u32 sent_serial, rcvd_serial;
if (!sctp_vtag_verify(asconf_ack, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
/* ADD-IP, Section 4.1.2:
* This chunk MUST be sent in an authenticated way by using
* the mechanism defined in [I-D.ietf-tsvwg-sctp-auth]. If this chunk
* is received unauthenticated it MUST be silently discarded as
* described in [I-D.ietf-tsvwg-sctp-auth].
*/
if (!net->sctp.addip_noauth && !asconf_ack->auth)
return sctp_sf_discard_chunk(net, ep, asoc, type, arg, commands);
/* Make sure that the ADDIP chunk has a valid length. */
if (!sctp_chunk_length_valid(asconf_ack, sizeof(sctp_addip_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
addip_hdr = (sctp_addiphdr_t *)asconf_ack->skb->data;
rcvd_serial = ntohl(addip_hdr->serial);
/* Verify the ASCONF-ACK chunk before processing it. */
if (!sctp_verify_asconf(asoc,
(sctp_paramhdr_t *)addip_hdr->params,
(void *)asconf_ack->chunk_end,
&err_param))
return sctp_sf_violation_paramlen(net, ep, asoc, type, arg,
(void *)err_param, commands);
if (last_asconf) {
addip_hdr = (sctp_addiphdr_t *)last_asconf->subh.addip_hdr;
sent_serial = ntohl(addip_hdr->serial);
} else {
sent_serial = asoc->addip_serial - 1;
}
/* D0) If an endpoint receives an ASCONF-ACK that is greater than or
* equal to the next serial number to be used but no ASCONF chunk is
* outstanding the endpoint MUST ABORT the association. Note that a
* sequence number is greater than if it is no more than 2^^31-1
* larger than the current sequence number (using serial arithmetic).
*/
if (ADDIP_SERIAL_gte(rcvd_serial, sent_serial + 1) &&
!(asoc->addip_last_asconf)) {
abort = sctp_make_abort(asoc, asconf_ack,
sizeof(sctp_errhdr_t));
if (abort) {
sctp_init_cause(abort, SCTP_ERROR_ASCONF_ACK, 0);
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(abort));
}
/* We are going to ABORT, so we might as well stop
* processing the rest of the chunks in the packet.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T4_RTO));
sctp_add_cmd_sf(commands, SCTP_CMD_DISCARD_PACKET,SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNABORTED));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_ASCONF_ACK));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_ABORT;
}
if ((rcvd_serial == sent_serial) && asoc->addip_last_asconf) {
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T4_RTO));
if (!sctp_process_asconf_ack((struct sctp_association *)asoc,
asconf_ack)) {
/* Successfully processed ASCONF_ACK. We can
* release the next asconf if we have one.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_NEXT_ASCONF,
SCTP_NULL());
return SCTP_DISPOSITION_CONSUME;
}
abort = sctp_make_abort(asoc, asconf_ack,
sizeof(sctp_errhdr_t));
if (abort) {
sctp_init_cause(abort, SCTP_ERROR_RSRC_LOW, 0);
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(abort));
}
/* We are going to ABORT, so we might as well stop
* processing the rest of the chunks in the packet.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_DISCARD_PACKET,SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNABORTED));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_ASCONF_ACK));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_ABORT;
}
return SCTP_DISPOSITION_DISCARD;
}
/*
* PR-SCTP Section 3.6 Receiver Side Implementation of PR-SCTP
*
* When a FORWARD TSN chunk arrives, the data receiver MUST first update
* its cumulative TSN point to the value carried in the FORWARD TSN
* chunk, and then MUST further advance its cumulative TSN point locally
* if possible.
* After the above processing, the data receiver MUST stop reporting any
* missing TSNs earlier than or equal to the new cumulative TSN point.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_eat_fwd_tsn(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_fwdtsn_hdr *fwdtsn_hdr;
struct sctp_fwdtsn_skip *skip;
__u16 len;
__u32 tsn;
if (!sctp_vtag_verify(chunk, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
/* Make sure that the FORWARD_TSN chunk has valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(struct sctp_fwdtsn_chunk)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
fwdtsn_hdr = (struct sctp_fwdtsn_hdr *)chunk->skb->data;
chunk->subh.fwdtsn_hdr = fwdtsn_hdr;
len = ntohs(chunk->chunk_hdr->length);
len -= sizeof(struct sctp_chunkhdr);
skb_pull(chunk->skb, len);
tsn = ntohl(fwdtsn_hdr->new_cum_tsn);
pr_debug("%s: TSN 0x%x\n", __func__, tsn);
/* The TSN is too high--silently discard the chunk and count on it
* getting retransmitted later.
*/
if (sctp_tsnmap_check(&asoc->peer.tsn_map, tsn) < 0)
goto discard_noforce;
/* Silently discard the chunk if stream-id is not valid */
sctp_walk_fwdtsn(skip, chunk) {
if (ntohs(skip->stream) >= asoc->c.sinit_max_instreams)
goto discard_noforce;
}
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_FWDTSN, SCTP_U32(tsn));
if (len > sizeof(struct sctp_fwdtsn_hdr))
sctp_add_cmd_sf(commands, SCTP_CMD_PROCESS_FWDTSN,
SCTP_CHUNK(chunk));
/* Count this as receiving DATA. */
if (asoc->autoclose) {
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_AUTOCLOSE));
}
/* FIXME: For now send a SACK, but DATA processing may
* send another.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, SCTP_NOFORCE());
return SCTP_DISPOSITION_CONSUME;
discard_noforce:
return SCTP_DISPOSITION_DISCARD;
}
sctp_disposition_t sctp_sf_eat_fwd_tsn_fast(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_fwdtsn_hdr *fwdtsn_hdr;
struct sctp_fwdtsn_skip *skip;
__u16 len;
__u32 tsn;
if (!sctp_vtag_verify(chunk, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
/* Make sure that the FORWARD_TSN chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(struct sctp_fwdtsn_chunk)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
fwdtsn_hdr = (struct sctp_fwdtsn_hdr *)chunk->skb->data;
chunk->subh.fwdtsn_hdr = fwdtsn_hdr;
len = ntohs(chunk->chunk_hdr->length);
len -= sizeof(struct sctp_chunkhdr);
skb_pull(chunk->skb, len);
tsn = ntohl(fwdtsn_hdr->new_cum_tsn);
pr_debug("%s: TSN 0x%x\n", __func__, tsn);
/* The TSN is too high--silently discard the chunk and count on it
* getting retransmitted later.
*/
if (sctp_tsnmap_check(&asoc->peer.tsn_map, tsn) < 0)
goto gen_shutdown;
/* Silently discard the chunk if stream-id is not valid */
sctp_walk_fwdtsn(skip, chunk) {
if (ntohs(skip->stream) >= asoc->c.sinit_max_instreams)
goto gen_shutdown;
}
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_FWDTSN, SCTP_U32(tsn));
if (len > sizeof(struct sctp_fwdtsn_hdr))
sctp_add_cmd_sf(commands, SCTP_CMD_PROCESS_FWDTSN,
SCTP_CHUNK(chunk));
/* Go a head and force a SACK, since we are shutting down. */
gen_shutdown:
/* Implementor's Guide.
*
* While in SHUTDOWN-SENT state, the SHUTDOWN sender MUST immediately
* respond to each received packet containing one or more DATA chunk(s)
* with a SACK, a SHUTDOWN chunk, and restart the T2-shutdown timer
*/
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SHUTDOWN, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, SCTP_FORCE());
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
return SCTP_DISPOSITION_CONSUME;
}
/*
* SCTP-AUTH Section 6.3 Receiving authenticated chukns
*
* The receiver MUST use the HMAC algorithm indicated in the HMAC
* Identifier field. If this algorithm was not specified by the
* receiver in the HMAC-ALGO parameter in the INIT or INIT-ACK chunk
* during association setup, the AUTH chunk and all chunks after it MUST
* be discarded and an ERROR chunk SHOULD be sent with the error cause
* defined in Section 4.1.
*
* If an endpoint with no shared key receives a Shared Key Identifier
* other than 0, it MUST silently discard all authenticated chunks. If
* the endpoint has at least one endpoint pair shared key for the peer,
* it MUST use the key specified by the Shared Key Identifier if a
* key has been configured for that Shared Key Identifier. If no
* endpoint pair shared key has been configured for that Shared Key
* Identifier, all authenticated chunks MUST be silently discarded.
*
* Verification Tag: 8.5 Verification Tag [Normal verification]
*
* The return value is the disposition of the chunk.
*/
static sctp_ierror_t sctp_sf_authenticate(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
struct sctp_chunk *chunk)
{
struct sctp_authhdr *auth_hdr;
struct sctp_hmac *hmac;
unsigned int sig_len;
__u16 key_id;
__u8 *save_digest;
__u8 *digest;
/* Pull in the auth header, so we can do some more verification */
auth_hdr = (struct sctp_authhdr *)chunk->skb->data;
chunk->subh.auth_hdr = auth_hdr;
skb_pull(chunk->skb, sizeof(struct sctp_authhdr));
/* Make sure that we support the HMAC algorithm from the auth
* chunk.
*/
if (!sctp_auth_asoc_verify_hmac_id(asoc, auth_hdr->hmac_id))
return SCTP_IERROR_AUTH_BAD_HMAC;
/* Make sure that the provided shared key identifier has been
* configured
*/
key_id = ntohs(auth_hdr->shkey_id);
if (key_id != asoc->active_key_id && !sctp_auth_get_shkey(asoc, key_id))
return SCTP_IERROR_AUTH_BAD_KEYID;
/* Make sure that the length of the signature matches what
* we expect.
*/
sig_len = ntohs(chunk->chunk_hdr->length) - sizeof(sctp_auth_chunk_t);
hmac = sctp_auth_get_hmac(ntohs(auth_hdr->hmac_id));
if (sig_len != hmac->hmac_len)
return SCTP_IERROR_PROTO_VIOLATION;
/* Now that we've done validation checks, we can compute and
* verify the hmac. The steps involved are:
* 1. Save the digest from the chunk.
* 2. Zero out the digest in the chunk.
* 3. Compute the new digest
* 4. Compare saved and new digests.
*/
digest = auth_hdr->hmac;
skb_pull(chunk->skb, sig_len);
save_digest = kmemdup(digest, sig_len, GFP_ATOMIC);
if (!save_digest)
goto nomem;
memset(digest, 0, sig_len);
sctp_auth_calculate_hmac(asoc, chunk->skb,
(struct sctp_auth_chunk *)chunk->chunk_hdr,
GFP_ATOMIC);
/* Discard the packet if the digests do not match */
if (memcmp(save_digest, digest, sig_len)) {
kfree(save_digest);
return SCTP_IERROR_BAD_SIG;
}
kfree(save_digest);
chunk->auth = 1;
return SCTP_IERROR_NO_ERROR;
nomem:
return SCTP_IERROR_NOMEM;
}
sctp_disposition_t sctp_sf_eat_auth(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_authhdr *auth_hdr;
struct sctp_chunk *chunk = arg;
struct sctp_chunk *err_chunk;
sctp_ierror_t error;
/* Make sure that the peer has AUTH capable */
if (!asoc->peer.auth_capable)
return sctp_sf_unk_chunk(net, ep, asoc, type, arg, commands);
if (!sctp_vtag_verify(chunk, asoc)) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_BAD_TAG,
SCTP_NULL());
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
}
/* Make sure that the AUTH chunk has valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(struct sctp_auth_chunk)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
auth_hdr = (struct sctp_authhdr *)chunk->skb->data;
error = sctp_sf_authenticate(net, ep, asoc, type, chunk);
switch (error) {
case SCTP_IERROR_AUTH_BAD_HMAC:
/* Generate the ERROR chunk and discard the rest
* of the packet
*/
err_chunk = sctp_make_op_error(asoc, chunk,
SCTP_ERROR_UNSUP_HMAC,
&auth_hdr->hmac_id,
sizeof(__u16), 0);
if (err_chunk) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(err_chunk));
}
/* Fall Through */
case SCTP_IERROR_AUTH_BAD_KEYID:
case SCTP_IERROR_BAD_SIG:
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
case SCTP_IERROR_PROTO_VIOLATION:
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
case SCTP_IERROR_NOMEM:
return SCTP_DISPOSITION_NOMEM;
default: /* Prevent gcc warnings */
break;
}
if (asoc->active_key_id != ntohs(auth_hdr->shkey_id)) {
struct sctp_ulpevent *ev;
ev = sctp_ulpevent_make_authkey(asoc, ntohs(auth_hdr->shkey_id),
SCTP_AUTH_NEWKEY, GFP_ATOMIC);
if (!ev)
return -ENOMEM;
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP,
SCTP_ULPEVENT(ev));
}
return SCTP_DISPOSITION_CONSUME;
}
/*
* Process an unknown chunk.
*
* Section: 3.2. Also, 2.1 in the implementor's guide.
*
* Chunk Types are encoded such that the highest-order two bits specify
* the action that must be taken if the processing endpoint does not
* recognize the Chunk Type.
*
* 00 - Stop processing this SCTP packet and discard it, do not process
* any further chunks within it.
*
* 01 - Stop processing this SCTP packet and discard it, do not process
* any further chunks within it, and report the unrecognized
* chunk in an 'Unrecognized Chunk Type'.
*
* 10 - Skip this chunk and continue processing.
*
* 11 - Skip this chunk and continue processing, but report in an ERROR
* Chunk using the 'Unrecognized Chunk Type' cause of error.
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_unk_chunk(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *unk_chunk = arg;
struct sctp_chunk *err_chunk;
sctp_chunkhdr_t *hdr;
pr_debug("%s: processing unknown chunk id:%d\n", __func__, type.chunk);
if (!sctp_vtag_verify(unk_chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the chunk has a valid length.
* Since we don't know the chunk type, we use a general
* chunkhdr structure to make a comparison.
*/
if (!sctp_chunk_length_valid(unk_chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
switch (type.chunk & SCTP_CID_ACTION_MASK) {
case SCTP_CID_ACTION_DISCARD:
/* Discard the packet. */
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
break;
case SCTP_CID_ACTION_DISCARD_ERR:
/* Generate an ERROR chunk as response. */
hdr = unk_chunk->chunk_hdr;
err_chunk = sctp_make_op_error(asoc, unk_chunk,
SCTP_ERROR_UNKNOWN_CHUNK, hdr,
WORD_ROUND(ntohs(hdr->length)),
0);
if (err_chunk) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(err_chunk));
}
/* Discard the packet. */
sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
return SCTP_DISPOSITION_CONSUME;
break;
case SCTP_CID_ACTION_SKIP:
/* Skip the chunk. */
return SCTP_DISPOSITION_DISCARD;
break;
case SCTP_CID_ACTION_SKIP_ERR:
/* Generate an ERROR chunk as response. */
hdr = unk_chunk->chunk_hdr;
err_chunk = sctp_make_op_error(asoc, unk_chunk,
SCTP_ERROR_UNKNOWN_CHUNK, hdr,
WORD_ROUND(ntohs(hdr->length)),
0);
if (err_chunk) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(err_chunk));
}
/* Skip the chunk. */
return SCTP_DISPOSITION_CONSUME;
break;
default:
break;
}
return SCTP_DISPOSITION_DISCARD;
}
/*
* Discard the chunk.
*
* Section: 0.2, 5.2.3, 5.2.5, 5.2.6, 6.0, 8.4.6, 8.5.1c, 9.2
* [Too numerous to mention...]
* Verification Tag: No verification needed.
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_discard_chunk(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
/* Make sure that the chunk has a valid length.
* Since we don't know the chunk type, we use a general
* chunkhdr structure to make a comparison.
*/
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
pr_debug("%s: chunk:%d is discarded\n", __func__, type.chunk);
return SCTP_DISPOSITION_DISCARD;
}
/*
* Discard the whole packet.
*
* Section: 8.4 2)
*
* 2) If the OOTB packet contains an ABORT chunk, the receiver MUST
* silently discard the OOTB packet and take no further action.
*
* Verification Tag: No verification necessary
*
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_pdiscard(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
SCTP_INC_STATS(net, SCTP_MIB_IN_PKT_DISCARDS);
sctp_add_cmd_sf(commands, SCTP_CMD_DISCARD_PACKET, SCTP_NULL());
return SCTP_DISPOSITION_CONSUME;
}
/*
* The other end is violating protocol.
*
* Section: Not specified
* Verification Tag: Not specified
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (asoc, reply_msg, msg_up, timers, counters)
*
* We simply tag the chunk as a violation. The state machine will log
* the violation and continue.
*/
sctp_disposition_t sctp_sf_violation(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
/* Make sure that the chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(sctp_chunkhdr_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
return SCTP_DISPOSITION_VIOLATION;
}
/*
* Common function to handle a protocol violation.
*/
static sctp_disposition_t sctp_sf_abort_violation(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
void *arg,
sctp_cmd_seq_t *commands,
const __u8 *payload,
const size_t paylen)
{
struct sctp_packet *packet = NULL;
struct sctp_chunk *chunk = arg;
struct sctp_chunk *abort = NULL;
/* SCTP-AUTH, Section 6.3:
* It should be noted that if the receiver wants to tear
* down an association in an authenticated way only, the
* handling of malformed packets should not result in
* tearing down the association.
*
* This means that if we only want to abort associations
* in an authenticated way (i.e AUTH+ABORT), then we
* can't destroy this association just because the packet
* was malformed.
*/
if (sctp_auth_recv_cid(SCTP_CID_ABORT, asoc))
goto discard;
/* Make the abort chunk. */
abort = sctp_make_abort_violation(asoc, chunk, payload, paylen);
if (!abort)
goto nomem;
if (asoc) {
/* Treat INIT-ACK as a special case during COOKIE-WAIT. */
if (chunk->chunk_hdr->type == SCTP_CID_INIT_ACK &&
!asoc->peer.i.init_tag) {
sctp_initack_chunk_t *initack;
initack = (sctp_initack_chunk_t *)chunk->chunk_hdr;
if (!sctp_chunk_length_valid(chunk,
sizeof(sctp_initack_chunk_t)))
abort->chunk_hdr->flags |= SCTP_CHUNK_FLAG_T;
else {
unsigned int inittag;
inittag = ntohl(initack->init_hdr.init_tag);
sctp_add_cmd_sf(commands, SCTP_CMD_UPDATE_INITTAG,
SCTP_U32(inittag));
}
}
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(abort));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
if (asoc->state <= SCTP_STATE_COOKIE_ECHOED) {
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNREFUSED));
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_FAILED,
SCTP_PERR(SCTP_ERROR_PROTO_VIOLATION));
} else {
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNABORTED));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_PROTO_VIOLATION));
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
}
} else {
packet = sctp_ootb_pkt_new(net, asoc, chunk);
if (!packet)
goto nomem_pkt;
if (sctp_test_T_bit(abort))
packet->vtag = ntohl(chunk->sctp_hdr->vtag);
abort->skb->sk = ep->base.sk;
sctp_packet_append_chunk(packet, abort);
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
}
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
discard:
sctp_sf_pdiscard(net, ep, asoc, SCTP_ST_CHUNK(0), arg, commands);
return SCTP_DISPOSITION_ABORT;
nomem_pkt:
sctp_chunk_free(abort);
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Handle a protocol violation when the chunk length is invalid.
* "Invalid" length is identified as smaller than the minimal length a
* given chunk can be. For example, a SACK chunk has invalid length
* if its length is set to be smaller than the size of sctp_sack_chunk_t.
*
* We inform the other end by sending an ABORT with a Protocol Violation
* error code.
*
* Section: Not specified
* Verification Tag: Nothing to do
* Inputs
* (endpoint, asoc, chunk)
*
* Outputs
* (reply_msg, msg_up, counters)
*
* Generate an ABORT chunk and terminate the association.
*/
static sctp_disposition_t sctp_sf_violation_chunklen(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
static const char err_str[]="The following chunk had invalid length:";
return sctp_sf_abort_violation(net, ep, asoc, arg, commands, err_str,
sizeof(err_str));
}
/*
* Handle a protocol violation when the parameter length is invalid.
* If the length is smaller than the minimum length of a given parameter,
* or accumulated length in multi parameters exceeds the end of the chunk,
* the length is considered as invalid.
*/
static sctp_disposition_t sctp_sf_violation_paramlen(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg, void *ext,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
struct sctp_paramhdr *param = ext;
struct sctp_chunk *abort = NULL;
if (sctp_auth_recv_cid(SCTP_CID_ABORT, asoc))
goto discard;
/* Make the abort chunk. */
abort = sctp_make_violation_paramlen(asoc, chunk, param);
if (!abort)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(abort));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNABORTED));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_PROTO_VIOLATION));
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
discard:
sctp_sf_pdiscard(net, ep, asoc, SCTP_ST_CHUNK(0), arg, commands);
return SCTP_DISPOSITION_ABORT;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/* Handle a protocol violation when the peer trying to advance the
* cumulative tsn ack to a point beyond the max tsn currently sent.
*
* We inform the other end by sending an ABORT with a Protocol Violation
* error code.
*/
static sctp_disposition_t sctp_sf_violation_ctsn(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
static const char err_str[]="The cumulative tsn ack beyond the max tsn currently sent:";
return sctp_sf_abort_violation(net, ep, asoc, arg, commands, err_str,
sizeof(err_str));
}
/* Handle protocol violation of an invalid chunk bundling. For example,
* when we have an association and we receive bundled INIT-ACK, or
* SHUDOWN-COMPLETE, our peer is clearly violationg the "MUST NOT bundle"
* statement from the specs. Additionally, there might be an attacker
* on the path and we may not want to continue this communication.
*/
static sctp_disposition_t sctp_sf_violation_chunk(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
static const char err_str[]="The following chunk violates protocol:";
if (!asoc)
return sctp_sf_violation(net, ep, asoc, type, arg, commands);
return sctp_sf_abort_violation(net, ep, asoc, arg, commands, err_str,
sizeof(err_str));
}
/***************************************************************************
* These are the state functions for handling primitive (Section 10) events.
***************************************************************************/
/*
* sctp_sf_do_prm_asoc
*
* Section: 10.1 ULP-to-SCTP
* B) Associate
*
* Format: ASSOCIATE(local SCTP instance name, destination transport addr,
* outbound stream count)
* -> association id [,destination transport addr list] [,outbound stream
* count]
*
* This primitive allows the upper layer to initiate an association to a
* specific peer endpoint.
*
* The peer endpoint shall be specified by one of the transport addresses
* which defines the endpoint (see Section 1.4). If the local SCTP
* instance has not been initialized, the ASSOCIATE is considered an
* error.
* [This is not relevant for the kernel implementation since we do all
* initialization at boot time. It we hadn't initialized we wouldn't
* get anywhere near this code.]
*
* An association id, which is a local handle to the SCTP association,
* will be returned on successful establishment of the association. If
* SCTP is not able to open an SCTP association with the peer endpoint,
* an error is returned.
* [In the kernel implementation, the struct sctp_association needs to
* be created BEFORE causing this primitive to run.]
*
* Other association parameters may be returned, including the
* complete destination transport addresses of the peer as well as the
* outbound stream count of the local endpoint. One of the transport
* address from the returned destination addresses will be selected by
* the local endpoint as default primary path for sending SCTP packets
* to this peer. The returned "destination transport addr list" can
* be used by the ULP to change the default primary path or to force
* sending a packet to a specific transport address. [All of this
* stuff happens when the INIT ACK arrives. This is a NON-BLOCKING
* function.]
*
* Mandatory attributes:
*
* o local SCTP instance name - obtained from the INITIALIZE operation.
* [This is the argument asoc.]
* o destination transport addr - specified as one of the transport
* addresses of the peer endpoint with which the association is to be
* established.
* [This is asoc->peer.active_path.]
* o outbound stream count - the number of outbound streams the ULP
* would like to open towards this peer endpoint.
* [BUG: This is not currently implemented.]
* Optional attributes:
*
* None.
*
* The return value is a disposition.
*/
sctp_disposition_t sctp_sf_do_prm_asoc(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *repl;
struct sctp_association* my_asoc;
/* The comment below says that we enter COOKIE-WAIT AFTER
* sending the INIT, but that doesn't actually work in our
* implementation...
*/
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_COOKIE_WAIT));
/* RFC 2960 5.1 Normal Establishment of an Association
*
* A) "A" first sends an INIT chunk to "Z". In the INIT, "A"
* must provide its Verification Tag (Tag_A) in the Initiate
* Tag field. Tag_A SHOULD be a random number in the range of
* 1 to 4294967295 (see 5.3.1 for Tag value selection). ...
*/
repl = sctp_make_init(asoc, &asoc->base.bind_addr, GFP_ATOMIC, 0);
if (!repl)
goto nomem;
/* Choose transport for INIT. */
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_CHOOSE_TRANSPORT,
SCTP_CHUNK(repl));
/* Cast away the const modifier, as we want to just
* rerun it through as a sideffect.
*/
my_asoc = (struct sctp_association *)asoc;
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_ASOC, SCTP_ASOC(my_asoc));
/* After sending the INIT, "A" starts the T1-init timer and
* enters the COOKIE-WAIT state.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Process the SEND primitive.
*
* Section: 10.1 ULP-to-SCTP
* E) Send
*
* Format: SEND(association id, buffer address, byte count [,context]
* [,stream id] [,life time] [,destination transport address]
* [,unorder flag] [,no-bundle flag] [,payload protocol-id] )
* -> result
*
* This is the main method to send user data via SCTP.
*
* Mandatory attributes:
*
* o association id - local handle to the SCTP association
*
* o buffer address - the location where the user message to be
* transmitted is stored;
*
* o byte count - The size of the user data in number of bytes;
*
* Optional attributes:
*
* o context - an optional 32 bit integer that will be carried in the
* sending failure notification to the ULP if the transportation of
* this User Message fails.
*
* o stream id - to indicate which stream to send the data on. If not
* specified, stream 0 will be used.
*
* o life time - specifies the life time of the user data. The user data
* will not be sent by SCTP after the life time expires. This
* parameter can be used to avoid efforts to transmit stale
* user messages. SCTP notifies the ULP if the data cannot be
* initiated to transport (i.e. sent to the destination via SCTP's
* send primitive) within the life time variable. However, the
* user data will be transmitted if SCTP has attempted to transmit a
* chunk before the life time expired.
*
* o destination transport address - specified as one of the destination
* transport addresses of the peer endpoint to which this packet
* should be sent. Whenever possible, SCTP should use this destination
* transport address for sending the packets, instead of the current
* primary path.
*
* o unorder flag - this flag, if present, indicates that the user
* would like the data delivered in an unordered fashion to the peer
* (i.e., the U flag is set to 1 on all DATA chunks carrying this
* message).
*
* o no-bundle flag - instructs SCTP not to bundle this user data with
* other outbound DATA chunks. SCTP MAY still bundle even when
* this flag is present, when faced with network congestion.
*
* o payload protocol-id - A 32 bit unsigned integer that is to be
* passed to the peer indicating the type of payload protocol data
* being transmitted. This value is passed as opaque data by SCTP.
*
* The return value is the disposition.
*/
sctp_disposition_t sctp_sf_do_prm_send(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_datamsg *msg = arg;
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_MSG, SCTP_DATAMSG(msg));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Process the SHUTDOWN primitive.
*
* Section: 10.1:
* C) Shutdown
*
* Format: SHUTDOWN(association id)
* -> result
*
* Gracefully closes an association. Any locally queued user data
* will be delivered to the peer. The association will be terminated only
* after the peer acknowledges all the SCTP packets sent. A success code
* will be returned on successful termination of the association. If
* attempting to terminate the association results in a failure, an error
* code shall be returned.
*
* Mandatory attributes:
*
* o association id - local handle to the SCTP association
*
* Optional attributes:
*
* None.
*
* The return value is the disposition.
*/
sctp_disposition_t sctp_sf_do_9_2_prm_shutdown(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
int disposition;
/* From 9.2 Shutdown of an Association
* Upon receipt of the SHUTDOWN primitive from its upper
* layer, the endpoint enters SHUTDOWN-PENDING state and
* remains there until all outstanding data has been
* acknowledged by its peer. The endpoint accepts no new data
* from its upper layer, but retransmits data to the far end
* if necessary to fill gaps.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_SHUTDOWN_PENDING));
disposition = SCTP_DISPOSITION_CONSUME;
if (sctp_outq_is_empty(&asoc->outqueue)) {
disposition = sctp_sf_do_9_2_start_shutdown(net, ep, asoc, type,
arg, commands);
}
return disposition;
}
/*
* Process the ABORT primitive.
*
* Section: 10.1:
* C) Abort
*
* Format: Abort(association id [, cause code])
* -> result
*
* Ungracefully closes an association. Any locally queued user data
* will be discarded and an ABORT chunk is sent to the peer. A success code
* will be returned on successful abortion of the association. If
* attempting to abort the association results in a failure, an error
* code shall be returned.
*
* Mandatory attributes:
*
* o association id - local handle to the SCTP association
*
* Optional attributes:
*
* o cause code - reason of the abort to be passed to the peer
*
* None.
*
* The return value is the disposition.
*/
sctp_disposition_t sctp_sf_do_9_1_prm_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* From 9.1 Abort of an Association
* Upon receipt of the ABORT primitive from its upper
* layer, the endpoint enters CLOSED state and
* discard all outstanding data has been
* acknowledged by its peer. The endpoint accepts no new data
* from its upper layer, but retransmits data to the far end
* if necessary to fill gaps.
*/
struct sctp_chunk *abort = arg;
sctp_disposition_t retval;
retval = SCTP_DISPOSITION_CONSUME;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(abort));
/* Even if we can't send the ABORT due to low memory delete the
* TCB. This is a departure from our typical NOMEM handling.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNABORTED));
/* Delete the established association. */
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_USER_ABORT));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return retval;
}
/* We tried an illegal operation on an association which is closed. */
sctp_disposition_t sctp_sf_error_closed(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_ERROR, SCTP_ERROR(-EINVAL));
return SCTP_DISPOSITION_CONSUME;
}
/* We tried an illegal operation on an association which is shutting
* down.
*/
sctp_disposition_t sctp_sf_error_shutdown(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_ERROR,
SCTP_ERROR(-ESHUTDOWN));
return SCTP_DISPOSITION_CONSUME;
}
/*
* sctp_cookie_wait_prm_shutdown
*
* Section: 4 Note: 2
* Verification Tag:
* Inputs
* (endpoint, asoc)
*
* The RFC does not explicitly address this issue, but is the route through the
* state table when someone issues a shutdown while in COOKIE_WAIT state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_cookie_wait_prm_shutdown(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_CLOSED));
SCTP_INC_STATS(net, SCTP_MIB_SHUTDOWNS);
sctp_add_cmd_sf(commands, SCTP_CMD_DELETE_TCB, SCTP_NULL());
return SCTP_DISPOSITION_DELETE_TCB;
}
/*
* sctp_cookie_echoed_prm_shutdown
*
* Section: 4 Note: 2
* Verification Tag:
* Inputs
* (endpoint, asoc)
*
* The RFC does not explcitly address this issue, but is the route through the
* state table when someone issues a shutdown while in COOKIE_ECHOED state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_cookie_echoed_prm_shutdown(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg, sctp_cmd_seq_t *commands)
{
/* There is a single T1 timer, so we should be able to use
* common function with the COOKIE-WAIT state.
*/
return sctp_sf_cookie_wait_prm_shutdown(net, ep, asoc, type, arg, commands);
}
/*
* sctp_sf_cookie_wait_prm_abort
*
* Section: 4 Note: 2
* Verification Tag:
* Inputs
* (endpoint, asoc)
*
* The RFC does not explicitly address this issue, but is the route through the
* state table when someone issues an abort while in COOKIE_WAIT state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_cookie_wait_prm_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *abort = arg;
sctp_disposition_t retval;
/* Stop T1-init timer */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
retval = SCTP_DISPOSITION_CONSUME;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(abort));
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_CLOSED));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
/* Even if we can't send the ABORT due to low memory delete the
* TCB. This is a departure from our typical NOMEM handling.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNREFUSED));
/* Delete the established association. */
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_FAILED,
SCTP_PERR(SCTP_ERROR_USER_ABORT));
return retval;
}
/*
* sctp_sf_cookie_echoed_prm_abort
*
* Section: 4 Note: 3
* Verification Tag:
* Inputs
* (endpoint, asoc)
*
* The RFC does not explcitly address this issue, but is the route through the
* state table when someone issues an abort while in COOKIE_ECHOED state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_cookie_echoed_prm_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* There is a single T1 timer, so we should be able to use
* common function with the COOKIE-WAIT state.
*/
return sctp_sf_cookie_wait_prm_abort(net, ep, asoc, type, arg, commands);
}
/*
* sctp_sf_shutdown_pending_prm_abort
*
* Inputs
* (endpoint, asoc)
*
* The RFC does not explicitly address this issue, but is the route through the
* state table when someone issues an abort while in SHUTDOWN-PENDING state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_shutdown_pending_prm_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* Stop the T5-shutdown guard timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
return sctp_sf_do_9_1_prm_abort(net, ep, asoc, type, arg, commands);
}
/*
* sctp_sf_shutdown_sent_prm_abort
*
* Inputs
* (endpoint, asoc)
*
* The RFC does not explicitly address this issue, but is the route through the
* state table when someone issues an abort while in SHUTDOWN-SENT state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_shutdown_sent_prm_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* Stop the T2-shutdown timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
/* Stop the T5-shutdown guard timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
return sctp_sf_do_9_1_prm_abort(net, ep, asoc, type, arg, commands);
}
/*
* sctp_sf_cookie_echoed_prm_abort
*
* Inputs
* (endpoint, asoc)
*
* The RFC does not explcitly address this issue, but is the route through the
* state table when someone issues an abort while in COOKIE_ECHOED state.
*
* Outputs
* (timers)
*/
sctp_disposition_t sctp_sf_shutdown_ack_sent_prm_abort(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
/* The same T2 timer, so we should be able to use
* common function with the SHUTDOWN-SENT state.
*/
return sctp_sf_shutdown_sent_prm_abort(net, ep, asoc, type, arg, commands);
}
/*
* Process the REQUESTHEARTBEAT primitive
*
* 10.1 ULP-to-SCTP
* J) Request Heartbeat
*
* Format: REQUESTHEARTBEAT(association id, destination transport address)
*
* -> result
*
* Instructs the local endpoint to perform a HeartBeat on the specified
* destination transport address of the given association. The returned
* result should indicate whether the transmission of the HEARTBEAT
* chunk to the destination address is successful.
*
* Mandatory attributes:
*
* o association id - local handle to the SCTP association
*
* o destination transport address - the transport address of the
* association on which a heartbeat should be issued.
*/
sctp_disposition_t sctp_sf_do_prm_requestheartbeat(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
if (SCTP_DISPOSITION_NOMEM == sctp_sf_heartbeat(ep, asoc, type,
(struct sctp_transport *)arg, commands))
return SCTP_DISPOSITION_NOMEM;
/*
* RFC 2960 (bis), section 8.3
*
* D) Request an on-demand HEARTBEAT on a specific destination
* transport address of a given association.
*
* The endpoint should increment the respective error counter of
* the destination transport address each time a HEARTBEAT is sent
* to that address and not acknowledged within one RTO.
*
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TRANSPORT_HB_SENT,
SCTP_TRANSPORT(arg));
return SCTP_DISPOSITION_CONSUME;
}
/*
* ADDIP Section 4.1 ASCONF Chunk Procedures
* When an endpoint has an ASCONF signaled change to be sent to the
* remote endpoint it should do A1 to A9
*/
sctp_disposition_t sctp_sf_do_prm_asconf(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = arg;
sctp_add_cmd_sf(commands, SCTP_CMD_SETUP_T4, SCTP_CHUNK(chunk));
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_T4_RTO));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(chunk));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Ignore the primitive event
*
* The return value is the disposition of the primitive.
*/
sctp_disposition_t sctp_sf_ignore_primitive(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
pr_debug("%s: primitive type:%d is ignored\n", __func__,
type.primitive);
return SCTP_DISPOSITION_DISCARD;
}
/***************************************************************************
* These are the state functions for the OTHER events.
***************************************************************************/
/*
* When the SCTP stack has no more user data to send or retransmit, this
* notification is given to the user. Also, at the time when a user app
* subscribes to this event, if there is no data to be sent or
* retransmit, the stack will immediately send up this notification.
*/
sctp_disposition_t sctp_sf_do_no_pending_tsn(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_ulpevent *event;
event = sctp_ulpevent_make_sender_dry_event(asoc, GFP_ATOMIC);
if (!event)
return SCTP_DISPOSITION_NOMEM;
sctp_add_cmd_sf(commands, SCTP_CMD_EVENT_ULP, SCTP_ULPEVENT(event));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Start the shutdown negotiation.
*
* From Section 9.2:
* Once all its outstanding data has been acknowledged, the endpoint
* shall send a SHUTDOWN chunk to its peer including in the Cumulative
* TSN Ack field the last sequential TSN it has received from the peer.
* It shall then start the T2-shutdown timer and enter the SHUTDOWN-SENT
* state. If the timer expires, the endpoint must re-send the SHUTDOWN
* with the updated last sequential TSN received from its peer.
*
* The return value is the disposition.
*/
sctp_disposition_t sctp_sf_do_9_2_start_shutdown(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *reply;
/* Once all its outstanding data has been acknowledged, the
* endpoint shall send a SHUTDOWN chunk to its peer including
* in the Cumulative TSN Ack field the last sequential TSN it
* has received from the peer.
*/
reply = sctp_make_shutdown(asoc, NULL);
if (!reply)
goto nomem;
/* Set the transport for the SHUTDOWN chunk and the timeout for the
* T2-shutdown timer.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SETUP_T2, SCTP_CHUNK(reply));
/* It shall then start the T2-shutdown timer */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
/* RFC 4960 Section 9.2
* The sender of the SHUTDOWN MAY also start an overall guard timer
* 'T5-shutdown-guard' to bound the overall time for shutdown sequence.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
if (asoc->autoclose)
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_AUTOCLOSE));
/* and enter the SHUTDOWN-SENT state. */
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_SHUTDOWN_SENT));
/* sctp-implguide 2.10 Issues with Heartbeating and failover
*
* HEARTBEAT ... is discontinued after sending either SHUTDOWN
* or SHUTDOWN-ACK.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_STOP, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Generate a SHUTDOWN ACK now that everything is SACK'd.
*
* From Section 9.2:
*
* If it has no more outstanding DATA chunks, the SHUTDOWN receiver
* shall send a SHUTDOWN ACK and start a T2-shutdown timer of its own,
* entering the SHUTDOWN-ACK-SENT state. If the timer expires, the
* endpoint must re-send the SHUTDOWN ACK.
*
* The return value is the disposition.
*/
sctp_disposition_t sctp_sf_do_9_2_shutdown_ack(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = (struct sctp_chunk *) arg;
struct sctp_chunk *reply;
/* There are 2 ways of getting here:
* 1) called in response to a SHUTDOWN chunk
* 2) called when SCTP_EVENT_NO_PENDING_TSN event is issued.
*
* For the case (2), the arg parameter is set to NULL. We need
* to check that we have a chunk before accessing it's fields.
*/
if (chunk) {
if (!sctp_vtag_verify(chunk, asoc))
return sctp_sf_pdiscard(net, ep, asoc, type, arg, commands);
/* Make sure that the SHUTDOWN chunk has a valid length. */
if (!sctp_chunk_length_valid(chunk, sizeof(struct sctp_shutdown_chunk_t)))
return sctp_sf_violation_chunklen(net, ep, asoc, type, arg,
commands);
}
/* If it has no more outstanding DATA chunks, the SHUTDOWN receiver
* shall send a SHUTDOWN ACK ...
*/
reply = sctp_make_shutdown_ack(asoc, chunk);
if (!reply)
goto nomem;
/* Set the transport for the SHUTDOWN ACK chunk and the timeout for
* the T2-shutdown timer.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SETUP_T2, SCTP_CHUNK(reply));
/* and start/restart a T2-shutdown timer of its own, */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
if (asoc->autoclose)
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_AUTOCLOSE));
/* Enter the SHUTDOWN-ACK-SENT state. */
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_SHUTDOWN_ACK_SENT));
/* sctp-implguide 2.10 Issues with Heartbeating and failover
*
* HEARTBEAT ... is discontinued after sending either SHUTDOWN
* or SHUTDOWN-ACK.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_HB_TIMERS_STOP, SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* Ignore the event defined as other
*
* The return value is the disposition of the event.
*/
sctp_disposition_t sctp_sf_ignore_other(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
pr_debug("%s: the event other type:%d is ignored\n",
__func__, type.other);
return SCTP_DISPOSITION_DISCARD;
}
/************************************************************
* These are the state functions for handling timeout events.
************************************************************/
/*
* RTX Timeout
*
* Section: 6.3.3 Handle T3-rtx Expiration
*
* Whenever the retransmission timer T3-rtx expires for a destination
* address, do the following:
* [See below]
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_do_6_3_3_rtx(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_transport *transport = arg;
SCTP_INC_STATS(net, SCTP_MIB_T3_RTX_EXPIREDS);
if (asoc->overall_error_count >= asoc->max_retrans) {
if (asoc->state == SCTP_STATE_SHUTDOWN_PENDING) {
/*
* We are here likely because the receiver had its rwnd
* closed for a while and we have not been able to
* transmit the locally queued data within the maximum
* retransmission attempts limit. Start the T5
* shutdown guard timer to give the receiver one last
* chance and some additional time to recover before
* aborting.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_START_ONCE,
SCTP_TO(SCTP_EVENT_TIMEOUT_T5_SHUTDOWN_GUARD));
} else {
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
/* CMD_ASSOC_FAILED calls CMD_DELETE_TCB. */
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_DELETE_TCB;
}
}
/* E1) For the destination address for which the timer
* expires, adjust its ssthresh with rules defined in Section
* 7.2.3 and set the cwnd <- MTU.
*/
/* E2) For the destination address for which the timer
* expires, set RTO <- RTO * 2 ("back off the timer"). The
* maximum value discussed in rule C7 above (RTO.max) may be
* used to provide an upper bound to this doubling operation.
*/
/* E3) Determine how many of the earliest (i.e., lowest TSN)
* outstanding DATA chunks for the address for which the
* T3-rtx has expired will fit into a single packet, subject
* to the MTU constraint for the path corresponding to the
* destination transport address to which the retransmission
* is being sent (this may be different from the address for
* which the timer expires [see Section 6.4]). Call this
* value K. Bundle and retransmit those K DATA chunks in a
* single packet to the destination endpoint.
*
* Note: Any DATA chunks that were sent to the address for
* which the T3-rtx timer expired but did not fit in one MTU
* (rule E3 above), should be marked for retransmission and
* sent as soon as cwnd allows (normally when a SACK arrives).
*/
/* Do some failure management (Section 8.2). */
sctp_add_cmd_sf(commands, SCTP_CMD_STRIKE, SCTP_TRANSPORT(transport));
/* NB: Rules E4 and F1 are implicit in R1. */
sctp_add_cmd_sf(commands, SCTP_CMD_RETRAN, SCTP_TRANSPORT(transport));
return SCTP_DISPOSITION_CONSUME;
}
/*
* Generate delayed SACK on timeout
*
* Section: 6.2 Acknowledgement on Reception of DATA Chunks
*
* The guidelines on delayed acknowledgement algorithm specified in
* Section 4.2 of [RFC2581] SHOULD be followed. Specifically, an
* acknowledgement SHOULD be generated for at least every second packet
* (not every second DATA chunk) received, and SHOULD be generated
* within 200 ms of the arrival of any unacknowledged DATA chunk. In
* some situations it may be beneficial for an SCTP transmitter to be
* more conservative than the algorithms detailed in this document
* allow. However, an SCTP transmitter MUST NOT be more aggressive than
* the following algorithms allow.
*/
sctp_disposition_t sctp_sf_do_6_2_sack(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
SCTP_INC_STATS(net, SCTP_MIB_DELAY_SACK_EXPIREDS);
sctp_add_cmd_sf(commands, SCTP_CMD_GEN_SACK, SCTP_FORCE());
return SCTP_DISPOSITION_CONSUME;
}
/*
* sctp_sf_t1_init_timer_expire
*
* Section: 4 Note: 2
* Verification Tag:
* Inputs
* (endpoint, asoc)
*
* RFC 2960 Section 4 Notes
* 2) If the T1-init timer expires, the endpoint MUST retransmit INIT
* and re-start the T1-init timer without changing state. This MUST
* be repeated up to 'Max.Init.Retransmits' times. After that, the
* endpoint MUST abort the initialization process and report the
* error to SCTP user.
*
* Outputs
* (timers, events)
*
*/
sctp_disposition_t sctp_sf_t1_init_timer_expire(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *repl = NULL;
struct sctp_bind_addr *bp;
int attempts = asoc->init_err_counter + 1;
pr_debug("%s: timer T1 expired (INIT)\n", __func__);
SCTP_INC_STATS(net, SCTP_MIB_T1_INIT_EXPIREDS);
if (attempts <= asoc->max_init_attempts) {
bp = (struct sctp_bind_addr *) &asoc->base.bind_addr;
repl = sctp_make_init(asoc, bp, GFP_ATOMIC, 0);
if (!repl)
return SCTP_DISPOSITION_NOMEM;
/* Choose transport for INIT. */
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_CHOOSE_TRANSPORT,
SCTP_CHUNK(repl));
/* Issue a sideeffect to do the needed accounting. */
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_INIT));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
} else {
pr_debug("%s: giving up on INIT, attempts:%d "
"max_init_attempts:%d\n", __func__, attempts,
asoc->max_init_attempts);
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
return SCTP_DISPOSITION_DELETE_TCB;
}
return SCTP_DISPOSITION_CONSUME;
}
/*
* sctp_sf_t1_cookie_timer_expire
*
* Section: 4 Note: 2
* Verification Tag:
* Inputs
* (endpoint, asoc)
*
* RFC 2960 Section 4 Notes
* 3) If the T1-cookie timer expires, the endpoint MUST retransmit
* COOKIE ECHO and re-start the T1-cookie timer without changing
* state. This MUST be repeated up to 'Max.Init.Retransmits' times.
* After that, the endpoint MUST abort the initialization process and
* report the error to SCTP user.
*
* Outputs
* (timers, events)
*
*/
sctp_disposition_t sctp_sf_t1_cookie_timer_expire(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *repl = NULL;
int attempts = asoc->init_err_counter + 1;
pr_debug("%s: timer T1 expired (COOKIE-ECHO)\n", __func__);
SCTP_INC_STATS(net, SCTP_MIB_T1_COOKIE_EXPIREDS);
if (attempts <= asoc->max_init_attempts) {
repl = sctp_make_cookie_echo(asoc, NULL);
if (!repl)
return SCTP_DISPOSITION_NOMEM;
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_CHOOSE_TRANSPORT,
SCTP_CHUNK(repl));
/* Issue a sideeffect to do the needed accounting. */
sctp_add_cmd_sf(commands, SCTP_CMD_COOKIEECHO_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T1_COOKIE));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(repl));
} else {
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
sctp_add_cmd_sf(commands, SCTP_CMD_INIT_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
return SCTP_DISPOSITION_DELETE_TCB;
}
return SCTP_DISPOSITION_CONSUME;
}
/* RFC2960 9.2 If the timer expires, the endpoint must re-send the SHUTDOWN
* with the updated last sequential TSN received from its peer.
*
* An endpoint should limit the number of retransmissions of the
* SHUTDOWN chunk to the protocol parameter 'Association.Max.Retrans'.
* If this threshold is exceeded the endpoint should destroy the TCB and
* MUST report the peer endpoint unreachable to the upper layer (and
* thus the association enters the CLOSED state). The reception of any
* packet from its peer (i.e. as the peer sends all of its queued DATA
* chunks) should clear the endpoint's retransmission count and restart
* the T2-Shutdown timer, giving its peer ample opportunity to transmit
* all of its queued DATA chunks that have not yet been sent.
*/
sctp_disposition_t sctp_sf_t2_timer_expire(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *reply = NULL;
pr_debug("%s: timer T2 expired\n", __func__);
SCTP_INC_STATS(net, SCTP_MIB_T2_SHUTDOWN_EXPIREDS);
((struct sctp_association *)asoc)->shutdown_retries++;
if (asoc->overall_error_count >= asoc->max_retrans) {
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
/* Note: CMD_ASSOC_FAILED calls CMD_DELETE_TCB. */
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_DELETE_TCB;
}
switch (asoc->state) {
case SCTP_STATE_SHUTDOWN_SENT:
reply = sctp_make_shutdown(asoc, NULL);
break;
case SCTP_STATE_SHUTDOWN_ACK_SENT:
reply = sctp_make_shutdown_ack(asoc, NULL);
break;
default:
BUG();
break;
}
if (!reply)
goto nomem;
/* Do some failure management (Section 8.2).
* If we remove the transport an SHUTDOWN was last sent to, don't
* do failure management.
*/
if (asoc->shutdown_last_sent_to)
sctp_add_cmd_sf(commands, SCTP_CMD_STRIKE,
SCTP_TRANSPORT(asoc->shutdown_last_sent_to));
/* Set the transport for the SHUTDOWN/ACK chunk and the timeout for
* the T2-shutdown timer.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_SETUP_T2, SCTP_CHUNK(reply));
/* Restart the T2-shutdown timer. */
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T2_SHUTDOWN));
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
return SCTP_DISPOSITION_CONSUME;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/*
* ADDIP Section 4.1 ASCONF CHunk Procedures
* If the T4 RTO timer expires the endpoint should do B1 to B5
*/
sctp_disposition_t sctp_sf_t4_timer_expire(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *chunk = asoc->addip_last_asconf;
struct sctp_transport *transport = chunk->transport;
SCTP_INC_STATS(net, SCTP_MIB_T4_RTO_EXPIREDS);
/* ADDIP 4.1 B1) Increment the error counters and perform path failure
* detection on the appropriate destination address as defined in
* RFC2960 [5] section 8.1 and 8.2.
*/
if (transport)
sctp_add_cmd_sf(commands, SCTP_CMD_STRIKE,
SCTP_TRANSPORT(transport));
/* Reconfig T4 timer and transport. */
sctp_add_cmd_sf(commands, SCTP_CMD_SETUP_T4, SCTP_CHUNK(chunk));
/* ADDIP 4.1 B2) Increment the association error counters and perform
* endpoint failure detection on the association as defined in
* RFC2960 [5] section 8.1 and 8.2.
* association error counter is incremented in SCTP_CMD_STRIKE.
*/
if (asoc->overall_error_count >= asoc->max_retrans) {
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_STOP,
SCTP_TO(SCTP_EVENT_TIMEOUT_T4_RTO));
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_ABORT;
}
/* ADDIP 4.1 B3) Back-off the destination address RTO value to which
* the ASCONF chunk was sent by doubling the RTO timer value.
* This is done in SCTP_CMD_STRIKE.
*/
/* ADDIP 4.1 B4) Re-transmit the ASCONF Chunk last sent and if possible
* choose an alternate destination address (please refer to RFC2960
* [5] section 6.4.1). An endpoint MUST NOT add new parameters to this
* chunk, it MUST be the same (including its serial number) as the last
* ASCONF sent.
*/
sctp_chunk_hold(asoc->addip_last_asconf);
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(asoc->addip_last_asconf));
/* ADDIP 4.1 B5) Restart the T-4 RTO timer. Note that if a different
* destination is selected, then the RTO used will be that of the new
* destination address.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_TIMER_RESTART,
SCTP_TO(SCTP_EVENT_TIMEOUT_T4_RTO));
return SCTP_DISPOSITION_CONSUME;
}
/* sctpimpguide-05 Section 2.12.2
* The sender of the SHUTDOWN MAY also start an overall guard timer
* 'T5-shutdown-guard' to bound the overall time for shutdown sequence.
* At the expiration of this timer the sender SHOULD abort the association
* by sending an ABORT chunk.
*/
sctp_disposition_t sctp_sf_t5_timer_expire(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
struct sctp_chunk *reply = NULL;
pr_debug("%s: timer T5 expired\n", __func__);
SCTP_INC_STATS(net, SCTP_MIB_T5_SHUTDOWN_GUARD_EXPIREDS);
reply = sctp_make_abort(asoc, NULL, 0);
if (!reply)
goto nomem;
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY, SCTP_CHUNK(reply));
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ETIMEDOUT));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_NO_ERROR));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_DISPOSITION_DELETE_TCB;
nomem:
return SCTP_DISPOSITION_NOMEM;
}
/* Handle expiration of AUTOCLOSE timer. When the autoclose timer expires,
* the association is automatically closed by starting the shutdown process.
* The work that needs to be done is same as when SHUTDOWN is initiated by
* the user. So this routine looks same as sctp_sf_do_9_2_prm_shutdown().
*/
sctp_disposition_t sctp_sf_autoclose_timer_expire(
struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
int disposition;
SCTP_INC_STATS(net, SCTP_MIB_AUTOCLOSE_EXPIREDS);
/* From 9.2 Shutdown of an Association
* Upon receipt of the SHUTDOWN primitive from its upper
* layer, the endpoint enters SHUTDOWN-PENDING state and
* remains there until all outstanding data has been
* acknowledged by its peer. The endpoint accepts no new data
* from its upper layer, but retransmits data to the far end
* if necessary to fill gaps.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_NEW_STATE,
SCTP_STATE(SCTP_STATE_SHUTDOWN_PENDING));
disposition = SCTP_DISPOSITION_CONSUME;
if (sctp_outq_is_empty(&asoc->outqueue)) {
disposition = sctp_sf_do_9_2_start_shutdown(net, ep, asoc, type,
arg, commands);
}
return disposition;
}
/*****************************************************************************
* These are sa state functions which could apply to all types of events.
****************************************************************************/
/*
* This table entry is not implemented.
*
* Inputs
* (endpoint, asoc, chunk)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_not_impl(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
return SCTP_DISPOSITION_NOT_IMPL;
}
/*
* This table entry represents a bug.
*
* Inputs
* (endpoint, asoc, chunk)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_bug(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
return SCTP_DISPOSITION_BUG;
}
/*
* This table entry represents the firing of a timer in the wrong state.
* Since timer deletion cannot be guaranteed a timer 'may' end up firing
* when the association is in the wrong state. This event should
* be ignored, so as to prevent any rearming of the timer.
*
* Inputs
* (endpoint, asoc, chunk)
*
* The return value is the disposition of the chunk.
*/
sctp_disposition_t sctp_sf_timer_ignore(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const sctp_subtype_t type,
void *arg,
sctp_cmd_seq_t *commands)
{
pr_debug("%s: timer %d ignored\n", __func__, type.chunk);
return SCTP_DISPOSITION_CONSUME;
}
/********************************************************************
* 2nd Level Abstractions
********************************************************************/
/* Pull the SACK chunk based on the SACK header. */
static struct sctp_sackhdr *sctp_sm_pull_sack(struct sctp_chunk *chunk)
{
struct sctp_sackhdr *sack;
unsigned int len;
__u16 num_blocks;
__u16 num_dup_tsns;
/* Protect ourselves from reading too far into
* the skb from a bogus sender.
*/
sack = (struct sctp_sackhdr *) chunk->skb->data;
num_blocks = ntohs(sack->num_gap_ack_blocks);
num_dup_tsns = ntohs(sack->num_dup_tsns);
len = sizeof(struct sctp_sackhdr);
len += (num_blocks + num_dup_tsns) * sizeof(__u32);
if (len > chunk->skb->len)
return NULL;
skb_pull(chunk->skb, len);
return sack;
}
/* Create an ABORT packet to be sent as a response, with the specified
* error causes.
*/
static struct sctp_packet *sctp_abort_pkt_new(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
struct sctp_chunk *chunk,
const void *payload,
size_t paylen)
{
struct sctp_packet *packet;
struct sctp_chunk *abort;
packet = sctp_ootb_pkt_new(net, asoc, chunk);
if (packet) {
/* Make an ABORT.
* The T bit will be set if the asoc is NULL.
*/
abort = sctp_make_abort(asoc, chunk, paylen);
if (!abort) {
sctp_ootb_pkt_free(packet);
return NULL;
}
/* Reflect vtag if T-Bit is set */
if (sctp_test_T_bit(abort))
packet->vtag = ntohl(chunk->sctp_hdr->vtag);
/* Add specified error causes, i.e., payload, to the
* end of the chunk.
*/
sctp_addto_chunk(abort, paylen, payload);
/* Set the skb to the belonging sock for accounting. */
abort->skb->sk = ep->base.sk;
sctp_packet_append_chunk(packet, abort);
}
return packet;
}
/* Allocate a packet for responding in the OOTB conditions. */
static struct sctp_packet *sctp_ootb_pkt_new(struct net *net,
const struct sctp_association *asoc,
const struct sctp_chunk *chunk)
{
struct sctp_packet *packet;
struct sctp_transport *transport;
__u16 sport;
__u16 dport;
__u32 vtag;
/* Get the source and destination port from the inbound packet. */
sport = ntohs(chunk->sctp_hdr->dest);
dport = ntohs(chunk->sctp_hdr->source);
/* The V-tag is going to be the same as the inbound packet if no
* association exists, otherwise, use the peer's vtag.
*/
if (asoc) {
/* Special case the INIT-ACK as there is no peer's vtag
* yet.
*/
switch(chunk->chunk_hdr->type) {
case SCTP_CID_INIT_ACK:
{
sctp_initack_chunk_t *initack;
initack = (sctp_initack_chunk_t *)chunk->chunk_hdr;
vtag = ntohl(initack->init_hdr.init_tag);
break;
}
default:
vtag = asoc->peer.i.init_tag;
break;
}
} else {
/* Special case the INIT and stale COOKIE_ECHO as there is no
* vtag yet.
*/
switch(chunk->chunk_hdr->type) {
case SCTP_CID_INIT:
{
sctp_init_chunk_t *init;
init = (sctp_init_chunk_t *)chunk->chunk_hdr;
vtag = ntohl(init->init_hdr.init_tag);
break;
}
default:
vtag = ntohl(chunk->sctp_hdr->vtag);
break;
}
}
/* Make a transport for the bucket, Eliza... */
transport = sctp_transport_new(net, sctp_source(chunk), GFP_ATOMIC);
if (!transport)
goto nomem;
/* Cache a route for the transport with the chunk's destination as
* the source address.
*/
sctp_transport_route(transport, (union sctp_addr *)&chunk->dest,
sctp_sk(net->sctp.ctl_sock));
packet = sctp_packet_init(&transport->packet, transport, sport, dport);
packet = sctp_packet_config(packet, vtag, 0);
return packet;
nomem:
return NULL;
}
/* Free the packet allocated earlier for responding in the OOTB condition. */
void sctp_ootb_pkt_free(struct sctp_packet *packet)
{
sctp_transport_free(packet->transport);
}
/* Send a stale cookie error when a invalid COOKIE ECHO chunk is found */
static void sctp_send_stale_cookie_err(struct net *net,
const struct sctp_endpoint *ep,
const struct sctp_association *asoc,
const struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands,
struct sctp_chunk *err_chunk)
{
struct sctp_packet *packet;
if (err_chunk) {
packet = sctp_ootb_pkt_new(net, asoc, chunk);
if (packet) {
struct sctp_signed_cookie *cookie;
/* Override the OOTB vtag from the cookie. */
cookie = chunk->subh.cookie_hdr;
packet->vtag = cookie->c.peer_vtag;
/* Set the skb to the belonging sock for accounting. */
err_chunk->skb->sk = ep->base.sk;
sctp_packet_append_chunk(packet, err_chunk);
sctp_add_cmd_sf(commands, SCTP_CMD_SEND_PKT,
SCTP_PACKET(packet));
SCTP_INC_STATS(net, SCTP_MIB_OUTCTRLCHUNKS);
} else
sctp_chunk_free (err_chunk);
}
}
/* Process a data chunk */
static int sctp_eat_data(const struct sctp_association *asoc,
struct sctp_chunk *chunk,
sctp_cmd_seq_t *commands)
{
sctp_datahdr_t *data_hdr;
struct sctp_chunk *err;
size_t datalen;
sctp_verb_t deliver;
int tmp;
__u32 tsn;
struct sctp_tsnmap *map = (struct sctp_tsnmap *)&asoc->peer.tsn_map;
struct sock *sk = asoc->base.sk;
struct net *net = sock_net(sk);
u16 ssn;
u16 sid;
u8 ordered = 0;
data_hdr = chunk->subh.data_hdr = (sctp_datahdr_t *)chunk->skb->data;
skb_pull(chunk->skb, sizeof(sctp_datahdr_t));
tsn = ntohl(data_hdr->tsn);
pr_debug("%s: TSN 0x%x\n", __func__, tsn);
/* ASSERT: Now skb->data is really the user data. */
/* Process ECN based congestion.
*
* Since the chunk structure is reused for all chunks within
* a packet, we use ecn_ce_done to track if we've already
* done CE processing for this packet.
*
* We need to do ECN processing even if we plan to discard the
* chunk later.
*/
if (!chunk->ecn_ce_done) {
struct sctp_af *af;
chunk->ecn_ce_done = 1;
af = sctp_get_af_specific(
ipver2af(ip_hdr(chunk->skb)->version));
if (af && af->is_ce(chunk->skb) && asoc->peer.ecn_capable) {
/* Do real work as sideffect. */
sctp_add_cmd_sf(commands, SCTP_CMD_ECN_CE,
SCTP_U32(tsn));
}
}
tmp = sctp_tsnmap_check(&asoc->peer.tsn_map, tsn);
if (tmp < 0) {
/* The TSN is too high--silently discard the chunk and
* count on it getting retransmitted later.
*/
if (chunk->asoc)
chunk->asoc->stats.outofseqtsns++;
return SCTP_IERROR_HIGH_TSN;
} else if (tmp > 0) {
/* This is a duplicate. Record it. */
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_DUP, SCTP_U32(tsn));
return SCTP_IERROR_DUP_TSN;
}
/* This is a new TSN. */
/* Discard if there is no room in the receive window.
* Actually, allow a little bit of overflow (up to a MTU).
*/
datalen = ntohs(chunk->chunk_hdr->length);
datalen -= sizeof(sctp_data_chunk_t);
deliver = SCTP_CMD_CHUNK_ULP;
/* Think about partial delivery. */
if ((datalen >= asoc->rwnd) && (!asoc->ulpq.pd_mode)) {
/* Even if we don't accept this chunk there is
* memory pressure.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_PART_DELIVER, SCTP_NULL());
}
/* Spill over rwnd a little bit. Note: While allowed, this spill over
* seems a bit troublesome in that frag_point varies based on
* PMTU. In cases, such as loopback, this might be a rather
* large spill over.
*/
if ((!chunk->data_accepted) && (!asoc->rwnd || asoc->rwnd_over ||
(datalen > asoc->rwnd + asoc->frag_point))) {
/* If this is the next TSN, consider reneging to make
* room. Note: Playing nice with a confused sender. A
* malicious sender can still eat up all our buffer
* space and in the future we may want to detect and
* do more drastic reneging.
*/
if (sctp_tsnmap_has_gap(map) &&
(sctp_tsnmap_get_ctsn(map) + 1) == tsn) {
pr_debug("%s: reneging for tsn:%u\n", __func__, tsn);
deliver = SCTP_CMD_RENEGE;
} else {
pr_debug("%s: discard tsn:%u len:%zu, rwnd:%d\n",
__func__, tsn, datalen, asoc->rwnd);
return SCTP_IERROR_IGNORE_TSN;
}
}
/*
* Also try to renege to limit our memory usage in the event that
* we are under memory pressure
* If we can't renege, don't worry about it, the sk_rmem_schedule
* in sctp_ulpevent_make_rcvmsg will drop the frame if we grow our
* memory usage too much
*/
if (*sk->sk_prot_creator->memory_pressure) {
if (sctp_tsnmap_has_gap(map) &&
(sctp_tsnmap_get_ctsn(map) + 1) == tsn) {
pr_debug("%s: under pressure, reneging for tsn:%u\n",
__func__, tsn);
deliver = SCTP_CMD_RENEGE;
}
}
/*
* Section 3.3.10.9 No User Data (9)
*
* Cause of error
* ---------------
* No User Data: This error cause is returned to the originator of a
* DATA chunk if a received DATA chunk has no user data.
*/
if (unlikely(0 == datalen)) {
err = sctp_make_abort_no_data(asoc, chunk, tsn);
if (err) {
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(err));
}
/* We are going to ABORT, so we might as well stop
* processing the rest of the chunks in the packet.
*/
sctp_add_cmd_sf(commands, SCTP_CMD_DISCARD_PACKET,SCTP_NULL());
sctp_add_cmd_sf(commands, SCTP_CMD_SET_SK_ERR,
SCTP_ERROR(ECONNABORTED));
sctp_add_cmd_sf(commands, SCTP_CMD_ASSOC_FAILED,
SCTP_PERR(SCTP_ERROR_NO_DATA));
SCTP_INC_STATS(net, SCTP_MIB_ABORTEDS);
SCTP_DEC_STATS(net, SCTP_MIB_CURRESTAB);
return SCTP_IERROR_NO_DATA;
}
chunk->data_accepted = 1;
/* Note: Some chunks may get overcounted (if we drop) or overcounted
* if we renege and the chunk arrives again.
*/
if (chunk->chunk_hdr->flags & SCTP_DATA_UNORDERED) {
SCTP_INC_STATS(net, SCTP_MIB_INUNORDERCHUNKS);
if (chunk->asoc)
chunk->asoc->stats.iuodchunks++;
} else {
SCTP_INC_STATS(net, SCTP_MIB_INORDERCHUNKS);
if (chunk->asoc)
chunk->asoc->stats.iodchunks++;
ordered = 1;
}
/* RFC 2960 6.5 Stream Identifier and Stream Sequence Number
*
* If an endpoint receive a DATA chunk with an invalid stream
* identifier, it shall acknowledge the reception of the DATA chunk
* following the normal procedure, immediately send an ERROR chunk
* with cause set to "Invalid Stream Identifier" (See Section 3.3.10)
* and discard the DATA chunk.
*/
sid = ntohs(data_hdr->stream);
if (sid >= asoc->c.sinit_max_instreams) {
/* Mark tsn as received even though we drop it */
sctp_add_cmd_sf(commands, SCTP_CMD_REPORT_TSN, SCTP_U32(tsn));
err = sctp_make_op_error(asoc, chunk, SCTP_ERROR_INV_STRM,
&data_hdr->stream,
sizeof(data_hdr->stream),
sizeof(u16));
if (err)
sctp_add_cmd_sf(commands, SCTP_CMD_REPLY,
SCTP_CHUNK(err));
return SCTP_IERROR_BAD_STREAM;
}
/* Check to see if the SSN is possible for this TSN.
* The biggest gap we can record is 4K wide. Since SSNs wrap
* at an unsigned short, there is no way that an SSN can
* wrap and for a valid TSN. We can simply check if the current
* SSN is smaller then the next expected one. If it is, it wrapped
* and is invalid.
*/
ssn = ntohs(data_hdr->ssn);
if (ordered && SSN_lt(ssn, sctp_ssn_peek(&asoc->ssnmap->in, sid))) {
return SCTP_IERROR_PROTO_VIOLATION;
}
/* Send the data up to the user. Note: Schedule the
* SCTP_CMD_CHUNK_ULP cmd before the SCTP_CMD_GEN_SACK, as the SACK
* chunk needs the updated rwnd.
*/
sctp_add_cmd_sf(commands, deliver, SCTP_CHUNK(chunk));
return SCTP_IERROR_NO_ERROR;
}
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