/*
* ccp.c
*
* Written by Archie Cobbs <archie@freebsd.org>
* Copyright (c) 1995-1999 Whistle Communications, Inc. All rights reserved.
* See ``COPYRIGHT.whistle''
*/
#include "defs.h"
#include "ppp.h"
#include "ccp.h"
#include "fsm.h"
#include "ngfunc.h"
#include <netgraph/ng_message.h>
#include <netgraph/ng_socket.h>
#include <netgraph.h>
/*
* DEFINITIONS
*/
#define CCP_MAXFAILURE 7
#define CCP_KNOWN_CODES ( (1 << CODE_CONFIGREQ) \
| (1 << CODE_CONFIGACK) \
| (1 << CODE_CONFIGNAK) \
| (1 << CODE_CONFIGREJ) \
| (1 << CODE_TERMREQ) \
| (1 << CODE_TERMACK) \
| (1 << CODE_CODEREJ) \
| (1 << CODE_RESETREQ) \
| (1 << CODE_RESETACK) )
/* Set menu options */
enum {
SET_ACCEPT,
SET_DENY,
SET_ENABLE,
SET_DISABLE,
SET_YES,
SET_NO
};
/*
* INTERNAL FUNCTIONS
*/
static void CcpConfigure(Fsm fp);
static void CcpUnConfigure(Fsm fp);
static u_char *CcpBuildConfigReq(Fsm fp, u_char *cp);
static void CcpDecodeConfig(Fsm f, FsmOption a, int num, int mode);
static void CcpLayerUp(Fsm fp);
static void CcpLayerDown(Fsm fp);
static void CcpFailure(Fsm f, enum fsmfail reason);
static void CcpRecvResetReq(Fsm fp, int id, Mbuf bp);
static void CcpRecvResetAck(Fsm fp, int id, Mbuf bp);
static int CcpCheckEncryption(Bund b);
static int CcpSetCommand(Context ctx, int ac, char *av[], void *arg);
static CompType CcpFindComp(int type, int *indexp);
static const char *CcpTypeName(int type, char *buf, size_t len);
static void CcpNgCtrlEvent(int type, void *cookie);
static void CcpNgDataEvent(int type, void *cookie);
/*
* GLOBAL VARIABLES
*/
const struct cmdtab CcpSetCmds[] = {
{ "accept [opt ...]", "Accept option",
CcpSetCommand, NULL, 2, (void *) SET_ACCEPT },
{ "deny [opt ...]", "Deny option",
CcpSetCommand, NULL, 2, (void *) SET_DENY },
{ "enable [opt ...]", "Enable option",
CcpSetCommand, NULL, 2, (void *) SET_ENABLE },
{ "disable [opt ...]", "Disable option",
CcpSetCommand, NULL, 2, (void *) SET_DISABLE },
{ "yes [opt ...]", "Enable and accept option",
CcpSetCommand, NULL, 2, (void *) SET_YES },
{ "no [opt ...]", "Disable and deny option",
CcpSetCommand, NULL, 2, (void *) SET_NO },
{ NULL },
};
/*
* INTERNAL VARIABLES
*/
/* These should be listed in order of preference */
static const CompType gCompTypes[] = {
#ifdef CCP_MPPC
&gCompMppcInfo,
#endif
#ifdef CCP_DEFLATE
&gCompDeflateInfo,
#endif
#ifdef CCP_PRED1
&gCompPred1Info,
#endif
};
#define CCP_NUM_PROTOS (sizeof(gCompTypes) / sizeof(*gCompTypes))
/* Corresponding option list */
static const struct confinfo *gConfList;
/* FSM Initializer */
static const struct fsmtype gCcpFsmType = {
"CCP",
PROTO_CCP,
CCP_KNOWN_CODES,
FALSE,
LG_CCP, LG_CCP2,
NULL,
CcpLayerUp,
CcpLayerDown,
NULL,
NULL,
CcpBuildConfigReq,
CcpDecodeConfig,
CcpConfigure,
CcpUnConfigure,
NULL,
NULL,
NULL,
NULL,
CcpFailure,
CcpRecvResetReq,
CcpRecvResetAck,
NULL,
};
/* Names for different types of compression */
static const struct ccpname {
u_char type;
const char *name;
} gCcpTypeNames[] = {
{ CCP_TY_OUI, "OUI" },
{ CCP_TY_PRED1, "PRED1" },
{ CCP_TY_PRED2, "PRED2" },
{ CCP_TY_PUDDLE, "PUDDLE" },
{ CCP_TY_HWPPC, "HWPPC" },
{ CCP_TY_STAC, "STAC" },
{ CCP_TY_MPPC, "MPPC" },
{ CCP_TY_GAND, "GAND" },
{ CCP_TY_V42BIS, "V42BIS" },
{ CCP_TY_BSD, "BSD" },
{ CCP_TY_LZS_DCP, "LZS-DCP" },
{ CCP_TY_DEFLATE24, "DEFLATE24" },
{ CCP_TY_DCE, "DCE" },
{ CCP_TY_DEFLATE, "DEFLATE" },
{ CCP_TY_V44, "V.44/LZJH" },
{ 0, NULL },
};
int gCcpCsock = -1; /* Socket node control socket */
int gCcpDsock = -1; /* Socket node data socket */
EventRef gCcpCtrlEvent;
EventRef gCcpDataEvent;
int
CcpsInit(void)
{
char name[NG_NODESIZ];
/* Create a netgraph socket node */
snprintf(name, sizeof(name), "mpd%d-cso", gPid);
if (NgMkSockNode(name, &gCcpCsock, &gCcpDsock) < 0) {
Perror("CcpsInit(): can't create %s node", NG_SOCKET_NODE_TYPE);
return(-1);
}
(void) fcntl(gCcpCsock, F_SETFD, 1);
(void) fcntl(gCcpDsock, F_SETFD, 1);
/* Listen for happenings on our node */
EventRegister(&gCcpCtrlEvent, EVENT_READ,
gCcpCsock, EVENT_RECURRING, CcpNgCtrlEvent, NULL);
EventRegister(&gCcpDataEvent, EVENT_READ,
gCcpDsock, EVENT_RECURRING, CcpNgDataEvent, NULL);
return (0);
}
void
CcpsShutdown(void)
{
EventUnRegister(&gCcpCtrlEvent);
close(gCcpCsock);
gCcpCsock = -1;
EventUnRegister(&gCcpDataEvent);
close(gCcpDsock);
gCcpDsock = -1;
}
/*
* CcpInit()
*/
void
CcpInit(Bund b)
{
CcpState ccp = &b->ccp;
/* Init CCP state for this bundle */
memset(ccp, 0, sizeof(*ccp));
FsmInit(&ccp->fsm, &gCcpFsmType, b);
ccp->fsm.conf.maxfailure = CCP_MAXFAILURE;
/* Construct options list if we haven't done so already */
if (gConfList == NULL) {
struct confinfo *ci;
int k;
ci = Malloc(MB_COMP, (CCP_NUM_PROTOS + 1) * sizeof(*ci));
for (k = 0; k < CCP_NUM_PROTOS; k++) {
ci[k].option = k;
ci[k].peered = TRUE;
ci[k].name = gCompTypes[k]->name;
}
/* Terminate list */
ci[k].name = NULL;
gConfList = (const struct confinfo *) ci;
}
}
/*
* CcpInst()
*/
void
CcpInst(Bund b, Bund bt)
{
CcpState ccp = &b->ccp;
/* Init CCP state for this bundle */
memcpy(ccp, &bt->ccp, sizeof(*ccp));
FsmInst(&ccp->fsm, &bt->ccp.fsm, b);
}
/*
* CcpConfigure()
*/
static void
CcpConfigure(Fsm fp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
int k;
/* Reset state */
ccp->self_reject = 0;
ccp->peer_reject = 0;
ccp->crypt_check = 0;
ccp->xmit = NULL;
ccp->recv = NULL;
for (k = 0; k < CCP_NUM_PROTOS; k++) {
CompType const ct = gCompTypes[k];
if (ct->Configure) {
if ((*ct->Configure)(b)) {
if (Enabled(&ccp->options, k)) {
Log(LG_CCP, ("[%s] CCP: Protocol %s disabled "
"as useless for this setup",
b->name, ct->name));
}
CCP_SELF_REJ(ccp, k);
};
}
}
}
/*
* CcpUnConfigure()
*/
static void
CcpUnConfigure(Fsm fp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
int k;
/* Reset state */
ccp->self_reject = 0;
ccp->peer_reject = 0;
ccp->crypt_check = 0;
ccp->xmit = NULL;
ccp->recv = NULL;
for (k = 0; k < CCP_NUM_PROTOS; k++) {
CompType const ct = gCompTypes[k];
if (ct->UnConfigure)
(*ct->UnConfigure)(b);
}
}
/*
* CcpNgCtrlEvent()
*
*/
void
CcpNgCtrlEvent(int type, void *cookie)
{
Bund b = NULL;
union {
u_char buf[2048];
struct ng_mesg msg;
} u;
char raddr[NG_PATHSIZ];
int i, len;
ng_ID_t id;
/* Read message */
if ((len = NgRecvMsg(gCcpCsock, &u.msg, sizeof(u), raddr)) < 0) {
Perror("CcpNgCtrlEvent: can't read message");
return;
}
if (sscanf(raddr, "[%x]:", &id) != 1) {
Log(LG_ERR, ("CcpNgCtrlEvent: can't decode sender id: '%s'",
raddr));
return;
}
for (i = 0; i < gNumBundles; i++) {
if (gBundles[i] && !gBundles[i]->dead &&
gBundles[i]->ccp.decomp_node_id == id) {
b = gBundles[i];
break;
}
}
if (!b)
return;
/* Examine message */
switch (u.msg.header.typecookie) {
#ifdef USE_NG_MPPC
case NGM_MPPC_COOKIE:
#endif
#ifdef USE_NG_DEFLATE
case NGM_DEFLATE_COOKIE:
#endif
#ifdef USE_NG_PRED1
case NGM_PRED1_COOKIE:
#endif
CcpRecvMsg(b, &u.msg, len);
return;
default:
/* Unknown message */
Log(LG_ERR, ("CcpNgCtrlEvent: rec'd unknown ctrl message, cookie=%d cmd=%d",
u.msg.header.typecookie, u.msg.header.cmd));
break;
}
}
/*
* CcpNgDataEvent()
*/
static void
CcpNgDataEvent(int type, void *cookie)
{
Bund b;
struct sockaddr_ng naddr;
socklen_t nsize;
Mbuf bp;
int num = 0;
char *bundname, *rest;
int id;
while (1) {
/* Protect from bundle shutdown and DoS */
if (num > 100)
return;
bp = mballoc(4096);
/* Read data */
nsize = sizeof(naddr);
if ((bp->cnt = recvfrom(gCcpDsock, MBDATA(bp), MBSPACE(bp),
MSG_DONTWAIT, (struct sockaddr *)&naddr, &nsize)) < 0) {
mbfree(bp);
if (errno == EAGAIN)
return;
Log(LG_BUND|LG_ERR, ("CcpNgDataEvent: socket read: %s", strerror(errno)));
return;
}
num++;
/* Debugging */
LogDumpBp(LG_FRAME, bp,
"CcpNgDataEvent: rec'd %d bytes frame on %s hook", MBLEN(bp), naddr.sg_data);
bundname = ((struct sockaddr_ng *)&naddr)->sg_data;
if (bundname[0] != 'c' && bundname[0] != 'd') {
Log(LG_ERR, ("CCP: Packet from unknown hook \"%s\"",
bundname));
mbfree(bp);
continue;
}
bundname++;
id = strtol(bundname, &rest, 10);
if (rest[0] != 0 || !gBundles[id] || gBundles[id]->dead) {
Log(LG_ERR, ("CCP: Packet from unexisting bundle \"%s\"",
bundname));
mbfree(bp);
continue;
}
b = gBundles[id];
/* Packet requiring compression */
if (bundname[0] == 'c') {
bp = CcpDataOutput(b, bp);
} else {
/* Packet requiring decompression */
bp = CcpDataInput(b, bp);
}
if (bp)
NgFuncWriteFrame(gCcpDsock, naddr.sg_data, b->name, bp);
}
}
/*
* CcpRecvMsg()
*/
void
CcpRecvMsg(Bund b, struct ng_mesg *msg, int len)
{
CcpState const ccp = &b->ccp;
Fsm const fp = &ccp->fsm;
switch (msg->header.typecookie) {
#ifdef USE_NG_MPPC
case NGM_MPPC_COOKIE:
switch (msg->header.cmd) {
case NGM_MPPC_RESETREQ: {
CcpSendResetReq(b);
return;
}
default:
break;
}
break;
#endif
#ifdef USE_NG_DEFLATE
case NGM_DEFLATE_COOKIE:
switch (msg->header.cmd) {
case NGM_DEFLATE_RESETREQ: {
CcpSendResetReq(b);
return;
}
default:
break;
}
break;
#endif
#ifdef USE_NG_PRED1
case NGM_PRED1_COOKIE:
switch (msg->header.cmd) {
case NGM_PRED1_RESETREQ: {
CcpSendResetReq(b);
return;
}
default:
break;
}
break;
#endif
default:
break;
}
/* Unknown! */
Log(LG_ERR, ("[%s] %s: rec'd unknown netgraph message: cookie=%d, cmd=%d",
Pref(fp), Fsm(fp), msg->header.typecookie, msg->header.cmd));
}
/*
* CcpUp()
*/
void
CcpUp(Bund b)
{
FsmUp(&b->ccp.fsm);
}
/*
* CcpDown()
*/
void
CcpDown(Bund b)
{
FsmDown(&b->ccp.fsm);
}
/*
* CcpOpen()
*/
void
CcpOpen(Bund b)
{
FsmOpen(&b->ccp.fsm);
}
/*
* CcpClose()
*/
void
CcpClose(Bund b)
{
FsmClose(&b->ccp.fsm);
}
/*
* CcpOpenCmd()
*/
int
CcpOpenCmd(Context ctx)
{
if (ctx->bund->tmpl)
Error("impossible to open template");
FsmOpen(&ctx->bund->ccp.fsm);
return (0);
}
/*
* CcpCloseCmd()
*/
int
CcpCloseCmd(Context ctx)
{
if (ctx->bund->tmpl)
Error("impossible to close template");
FsmClose(&ctx->bund->ccp.fsm);
return (0);
}
/*
* CcpFailure()
*
* If we fail, just shut down and stop trying. However, if encryption
* was required and MPPE encryption was enabled, then die here as well.
*/
static void
CcpFailure(Fsm fp, enum fsmfail reason)
{
Bund b = (Bund)fp->arg;
CcpCheckEncryption(b);
}
/*
* CcpStat()
*/
int
CcpStat(Context ctx, int ac, char *av[], void *arg)
{
CcpState const ccp = &ctx->bund->ccp;
char buf[64];
Printf("[%s] %s [%s]\r\n", Pref(&ccp->fsm), Fsm(&ccp->fsm), FsmStateName(ccp->fsm.state));
Printf("Enabled protocols:\r\n");
OptStat(ctx, &ccp->options, gConfList);
#ifdef CCP_MPPC
MppcStat(ctx, ac, av, arg);
#endif
Printf("Outgoing compression:\r\n");
Printf("\tProto\t: %s (%s)\r\n", !ccp->xmit ? "none" : ccp->xmit->name,
(ccp->xmit && ccp->xmit->Describe) ? (*ccp->xmit->Describe)(ctx->bund, COMP_DIR_XMIT, buf, sizeof(buf)) : "");
if (ccp->xmit && ccp->xmit->Stat)
ccp->xmit->Stat(ctx, COMP_DIR_XMIT);
Printf("\tResets\t: %d\r\n", ccp->xmit_resets);
Printf("Incoming decompression:\r\n");
Printf("\tProto\t: %s (%s)\r\n", !ccp->recv ? "none" : ccp->recv->name,
(ccp->recv && ccp->recv->Describe) ? (*ccp->recv->Describe)(ctx->bund, COMP_DIR_RECV, buf, sizeof(buf)) : "");
if (ccp->recv && ccp->recv->Stat)
ccp->recv->Stat(ctx, COMP_DIR_RECV);
Printf("\tResets\t: %d\r\n", ccp->recv_resets);
return(0);
}
/*
* CcpSendResetReq()
*/
void
CcpSendResetReq(Bund b)
{
CcpState const ccp = &b->ccp;
CompType const ct = ccp->recv;
Fsm const fp = &ccp->fsm;
Mbuf bp = NULL;
if (ct == NULL) {
Log(LG_ERR, ("[%s] %s: CcpSendResetReq() call from undefined decompressor!",
Pref(fp), Fsm(fp)));
return;
}
ccp->recv_resets++;
if (ct->SendResetReq)
bp = (*ct->SendResetReq)(b);
Log(LG_CCP, ("[%s] %s: SendResetReq #%d link %d (%s)",
Pref(fp), Fsm(fp), fp->reqid, 0, FsmStateName(fp->state)));
FsmOutputMbuf(fp, CODE_RESETREQ, fp->reqid++, bp);
}
/*
* CcpRecvResetReq()
*/
static void
CcpRecvResetReq(Fsm fp, int id, Mbuf bp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
CompType const ct = ccp->xmit;
int noAck = 0;
ccp->xmit_resets++;
bp = (ct && ct->RecvResetReq) ? (*ct->RecvResetReq)(b, id, bp, &noAck) : NULL;
if (!noAck) {
Log(LG_CCP, ("[%s] %s: SendResetAck #%d link %d (%s)",
Pref(fp), Fsm(fp), id, 0, FsmStateName(fp->state)));
FsmOutputMbuf(fp, CODE_RESETACK, id, bp);
}
}
/*
* CcpRecvResetAck()
*/
static void
CcpRecvResetAck(Fsm fp, int id, Mbuf bp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
CompType const ct = ccp->recv;
if (ct && ct->RecvResetAck)
(*ct->RecvResetAck)(b, id, bp);
}
/*
* CcpInput()
*/
void
CcpInput(Bund b, Mbuf bp)
{
FsmInput(&b->ccp.fsm, bp);
}
/*
* CcpDataOutput()
*
* Compress a frame. Consumes the original packet.
*/
Mbuf
CcpDataOutput(Bund b, Mbuf plain)
{
CcpState const ccp = &b->ccp;
Mbuf comp;
LogDumpBp(LG_FRAME, plain, "[%s] %s: xmit plain", Pref(&ccp->fsm), Fsm(&ccp->fsm));
/* Compress packet */
if ((!ccp->xmit) || (!ccp->xmit->Compress))
{
Log(LG_ERR, ("[%s] %s: no encryption for xmit", Pref(&ccp->fsm), Fsm(&ccp->fsm)));
mbfree(plain);
return(NULL);
}
comp = (*ccp->xmit->Compress)(b, plain);
LogDumpBp(LG_FRAME, comp, "[%s] %s: xmit comp", Pref(&ccp->fsm), Fsm(&ccp->fsm));
return(comp);
}
/*
* CcpDataInput()
*
* Decompress incoming packet. If packet got garbled, return NULL.
* In any case, we consume the packet passed to us.
*/
Mbuf
CcpDataInput(Bund b, Mbuf comp)
{
CcpState const ccp = &b->ccp;
Mbuf plain;
LogDumpBp(LG_FRAME, comp, "[%s] %s: recv comp", Pref(&ccp->fsm), Fsm(&ccp->fsm));
/* Decompress packet */
if ((!ccp->recv) || (!ccp->recv->Decompress))
{
Log(LG_ERR, ("[%s] %s: no compression for recv", Pref(&ccp->fsm), Fsm(&ccp->fsm)));
mbfree(comp);
return(NULL);
}
plain = (*ccp->recv->Decompress)(b, comp);
/* Encrypted ok? */
if (plain == NULL)
{
Log(LG_CCP, ("[%s] %s: decompression failed", Pref(&ccp->fsm), Fsm(&ccp->fsm)));
return(NULL);
}
LogDumpBp(LG_FRAME, plain, "[%s] %s: recv plain", Pref(&ccp->fsm), Fsm(&ccp->fsm));
return(plain);
}
/*
* CcpBuildConfigReq()
*/
static u_char *
CcpBuildConfigReq(Fsm fp, u_char *cp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
int type;
int ok;
/* Put in all options that peer hasn't rejected in preferred order */
ccp->xmit = NULL;
for (type = 0; type < CCP_NUM_PROTOS; type++) {
CompType const ct = gCompTypes[type];
if (Enabled(&ccp->options, type) && !CCP_PEER_REJECTED(ccp, type)) {
cp = (*ct->BuildConfigReq)(b, cp, &ok);
if (ok && (!ccp->xmit))
ccp->xmit = ct;
}
}
return(cp);
}
/*
* CcpLayerUp()
*/
static void
CcpLayerUp(Fsm fp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
struct ngm_connect cn;
char buf[64];
/* If nothing was negotiated in either direction, close CCP */
if ((!ccp->recv || !(*ccp->recv->Negotiated)(b, COMP_DIR_RECV))
&& (!ccp->xmit || !(*ccp->xmit->Negotiated)(b, COMP_DIR_XMIT))) {
Log(LG_CCP, ("[%s] %s: No compression negotiated", Pref(fp), Fsm(fp)));
FsmFailure(fp, FAIL_NEGOT_FAILURE);
return;
}
/* Check for required encryption */
if (CcpCheckEncryption(b) < 0) {
return;
}
/* Initialize each direction */
if (ccp->xmit != NULL && ccp->xmit->Init != NULL
&& (*ccp->xmit->Init)(b, COMP_DIR_XMIT) < 0) {
Log(LG_CCP, ("[%s] %s: compression init failed", Pref(fp), Fsm(fp)));
FsmFailure(fp, FAIL_NEGOT_FAILURE); /* XXX */
return;
}
if (ccp->recv != NULL && ccp->recv->Init != NULL
&& (*ccp->recv->Init)(b, COMP_DIR_RECV) < 0) {
Log(LG_CCP, ("[%s] %s: decompression init failed", Pref(fp), Fsm(fp)));
FsmFailure(fp, FAIL_NEGOT_FAILURE); /* XXX */
return;
}
if (ccp->xmit != NULL && ccp->xmit->Compress != NULL) {
/* Connect a hook from the ppp node to our socket node */
snprintf(cn.path, sizeof(cn.path), "[%x]:", b->nodeID);
snprintf(cn.ourhook, sizeof(cn.ourhook), "c%d", b->id);
strcpy(cn.peerhook, NG_PPP_HOOK_COMPRESS);
if (NgSendMsg(gCcpCsock, ".:",
NGM_GENERIC_COOKIE, NGM_CONNECT, &cn, sizeof(cn)) < 0) {
Perror("[%s] can't connect \"%s\"->\"%s\" and \"%s\"->\"%s\"",
b->name, ".:", cn.ourhook, cn.path, cn.peerhook);
}
}
if (ccp->recv != NULL && ccp->recv->Decompress != NULL) {
/* Connect a hook from the ppp node to our socket node */
snprintf(cn.path, sizeof(cn.path), "[%x]:", b->nodeID);
snprintf(cn.ourhook, sizeof(cn.ourhook), "d%d", b->id);
strcpy(cn.peerhook, NG_PPP_HOOK_DECOMPRESS);
if (NgSendMsg(gCcpCsock, ".:",
NGM_GENERIC_COOKIE, NGM_CONNECT, &cn, sizeof(cn)) < 0) {
Perror("[%s] can't connect \"%s\"->\"%s\" and \"%s\"->\"%s\"",
b->name, ".:", cn.ourhook, cn.path, cn.peerhook);
}
}
/* Report what we're doing */
Log(LG_CCP, ("[%s] CCP: Compress using: %s (%s)", b->name, !ccp->xmit ? "none" : ccp->xmit->name,
(ccp->xmit && ccp->xmit->Describe) ? (*ccp->xmit->Describe)(b, COMP_DIR_XMIT, buf, sizeof(buf)) : ""));
Log(LG_CCP, ("[%s] CCP: Decompress using: %s (%s)", b->name, !ccp->recv ? "none" : ccp->recv->name,
(ccp->recv && ccp->recv->Describe) ? (*ccp->recv->Describe)(b, COMP_DIR_RECV, buf, sizeof(buf)) : ""));
/* Update PPP node config */
b->pppConfig.bund.enableCompression = (ccp->xmit != NULL)?ccp->xmit->mode:0;
b->pppConfig.bund.enableDecompression = (ccp->recv != NULL)?ccp->recv->mode:0;
NgFuncSetConfig(b);
/* Update interface MTU */
BundUpdateParams(b);
}
/*
* CcpLayerDown()
*/
static void
CcpLayerDown(Fsm fp)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
/* Update PPP node config */
b->pppConfig.bund.enableCompression = 0;
b->pppConfig.bund.enableDecompression = 0;
NgFuncSetConfig(b);
/* Update interface MTU */
BundUpdateParams(b);
if (ccp->xmit != NULL && ccp->xmit->Compress != NULL) {
char hook[NG_HOOKSIZ];
/* Disconnect hook. */
snprintf(hook, sizeof(hook), "c%d", b->id);
NgFuncDisconnect(gCcpCsock, b->name, ".:", hook);
}
if (ccp->recv != NULL && ccp->recv->Decompress != NULL) {
char hook[NG_HOOKSIZ];
/* Disconnect hook. */
snprintf(hook, sizeof(hook), "d%d", b->id);
NgFuncDisconnect(gCcpCsock, b->name, ".:", hook);
}
if (ccp->recv && ccp->recv->Cleanup)
(*ccp->recv->Cleanup)(b, COMP_DIR_RECV);
if (ccp->xmit && ccp->xmit->Cleanup)
(*ccp->xmit->Cleanup)(b, COMP_DIR_XMIT);
ccp->xmit_resets = 0;
ccp->recv_resets = 0;
}
/*
* CcpDecodeConfig()
*/
static void
CcpDecodeConfig(Fsm fp, FsmOption list, int num, int mode)
{
Bund b = (Bund)fp->arg;
CcpState const ccp = &b->ccp;
u_int ackSizeSave, rejSizeSave;
int k, rej;
/* Forget our previous choice on new request */
if (mode == MODE_REQ)
ccp->recv = NULL;
/* Decode each config option */
for (k = 0; k < num; k++) {
FsmOption const opt = &list[k];
int index;
CompType ct;
char buf[32];
Log(LG_CCP, ("[%s] %s", b->name, CcpTypeName(opt->type, buf, sizeof(buf))));
if ((ct = CcpFindComp(opt->type, &index)) == NULL) {
if (mode == MODE_REQ) {
Log(LG_CCP, ("[%s] Not supported", b->name));
FsmRej(fp, opt);
}
continue;
}
switch (mode) {
case MODE_REQ:
ackSizeSave = gAckSize;
rejSizeSave = gRejSize;
rej = (!Acceptable(&ccp->options, index)
|| CCP_SELF_REJECTED(ccp, index)
|| (ccp->recv && ccp->recv != ct));
if (rej) {
(*ct->DecodeConfig)(fp, opt, MODE_NOP);
FsmRej(fp, opt);
break;
}
(*ct->DecodeConfig)(fp, opt, mode);
if (gRejSize != rejSizeSave) { /* we rejected it */
CCP_SELF_REJ(ccp, index);
break;
}
if (gAckSize != ackSizeSave) /* we accepted it */
ccp->recv = ct;
break;
case MODE_REJ:
(*ct->DecodeConfig)(fp, opt, mode);
CCP_PEER_REJ(ccp, index);
break;
case MODE_NAK:
case MODE_NOP:
(*ct->DecodeConfig)(fp, opt, mode);
break;
}
}
}
/*
* CcpSubtractBloat()
*
* Given that "size" is our MTU, return the maximum length frame
* we can compress without the result being longer than "size".
*/
int
CcpSubtractBloat(Bund b, int size)
{
CcpState const ccp = &b->ccp;
/* Account for transmit compression overhead */
if (OPEN_STATE(ccp->fsm.state) && ccp->xmit && ccp->xmit->SubtractBloat)
size = (*ccp->xmit->SubtractBloat)(b, size);
/* Account for CCP's protocol number overhead */
if (OPEN_STATE(ccp->fsm.state))
size -= CCP_OVERHEAD;
/* Done */
return(size);
}
/*
* CcpCheckEncryption()
*
* Because MPPE is negotiated as an option to MPPC compression,
* we have to check for encryption required when CCP comes up.
*/
static int
CcpCheckEncryption(Bund b)
{
#if 0
CcpState const ccp = &b->ccp;
/* Already checked? */
if (ccp->crypt_check)
return(0);
ccp->crypt_check = 1;
/* Is encryption required? */
if (Enabled(&ccp->options, gMppePolicy)) {
if (b->params.msoft.policy != MPPE_POLICY_REQUIRED)
return(0);
} else {
if (!Enabled(&b->conf.options, BUND_CONF_CRYPT_REQD))
return(0);
}
/* Was MPPE encryption enabled? If not, ignore requirement */
if (!Enabled(&ccp->options, gMppe40)
&& !Enabled(&ccp->options, gMppe56)
&& !Enabled(&ccp->options, gMppe128)
&& !Enabled(&ccp->options, gMppePolicy))
return(0);
/* Make sure MPPE was negotiated in both directions */
if (!OPEN_STATE(ccp->fsm.state)
|| !ccp->xmit || ccp->xmit->type != CCP_TY_MPPC
|| !ccp->recv || ccp->recv->type != CCP_TY_MPPC
#ifdef CCP_MPPC
|| !(ccp->mppc.recv_bits & MPPE_BITS)
|| !(ccp->mppc.xmit_bits & MPPE_BITS)
#endif
)
goto fail;
/* Looks OK */
return(0);
fail:
Log(LG_ERR, ("[%s] %s: encryption required, but MPPE was not"
" negotiated in both directions", Pref(&ccp->fsm), Fsm(&ccp->fsm)));
FsmFailure(&ccp->fsm, FAIL_CANT_ENCRYPT);
FsmFailure(&b->ipcp.fsm, FAIL_CANT_ENCRYPT);
FsmFailure(&b->ipv6cp.fsm, FAIL_CANT_ENCRYPT);
return(-1);
#endif
return (0);
}
/*
* CcpSetCommand()
*/
static int
CcpSetCommand(Context ctx, int ac, char *av[], void *arg)
{
CcpState const ccp = &ctx->bund->ccp;
if (ac == 0)
return(-1);
switch ((intptr_t)arg) {
case SET_ACCEPT:
AcceptCommand(ac, av, &ccp->options, gConfList);
break;
case SET_DENY:
DenyCommand(ac, av, &ccp->options, gConfList);
break;
case SET_ENABLE:
EnableCommand(ac, av, &ccp->options, gConfList);
break;
case SET_DISABLE:
DisableCommand(ac, av, &ccp->options, gConfList);
break;
case SET_YES:
YesCommand(ac, av, &ccp->options, gConfList);
break;
case SET_NO:
NoCommand(ac, av, &ccp->options, gConfList);
break;
default:
assert(0);
}
return(0);
}
/*
* CcpFindComp()
*/
static CompType
CcpFindComp(int type, int *indexp)
{
int k;
for (k = 0; k < CCP_NUM_PROTOS; k++) {
if (gCompTypes[k]->type == type) {
if (indexp)
*indexp = k;
return(gCompTypes[k]);
}
}
return(NULL);
}
/*
* CcpTypeName()
*/
static const char *
CcpTypeName(int type, char *buf, size_t len)
{
const struct ccpname *p;
for (p = gCcpTypeNames; p->name; p++) {
if (p->type == type) {
strlcpy(buf, p->name, len);
return (buf);
}
}
snprintf(buf, sizeof(buf), "UNKNOWN[%d]", type);
return(buf);
}
FreeBSD-CVSweb <freebsd-cvsweb@FreeBSD.org>