Plan 9 from Bell Labs’s /usr/web/sources/contrib/axel/8021x/v211/ttls.c

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


#include <u.h>
#include <libc.h>
#include <thread.h>
#include <bio.h>
#include <ip.h>
#include <mp.h>
#include <libsec.h>
#include "dat.h"
#include "fns.h"


typedef struct TTLS {
	uchar tp;
	uchar flags;
	uchar tln[4];	//optional, present if L flag set
} TTLS;

enum {
	TtlsFlagL		= 1<<7,	// header contains tln field
	TtlsFlagM		= 1<<6,	// more fragment(s) will follow for current msg
	TtlsFlagS		= 1<<5,	// start of tls session
	TtlsVersion	= (1<<2)|(1<<1)|(1<<0),

	TtlsShortHlen	= 2,	// without tln field
	TtlsLongHlen	= TtlsShortHlen+4, // with tln field

	// TTLS state
	Idle = 0,
	Start,
	Waiting,
	Timeout,
	Sending,
	RecvAck,
	Receiving,
	SendAck,
	Received,
	Cleanup,
};

char *snames[] = {
[Idle]			"Idle",
[Start]		"Start",
[Waiting]		"Waiting",
[Timeout]		"Timeout",
[Sending]		"Sending",
[RecvAck]		"RecvAck",
[Receiving]	"Receiving",
[SendAck]		"SendAck",
[Received]		"Received",
[Cleanup]		"Cleanup",
};

typedef struct TTLSstate {
	TLSconn tlsconn;	// our handle to the tls connection
	int tlspipe[2];	// double pipe over which we talk with our tls
				// the stuff we read from it has to be fragmented, encapsulated and sent
				// the fragments we receive have to be reassembled and then written to it
	Channel *tlstidc;	// used to send threadid from tlsClient
	Channel *readc;	// contains index in rbuf containing last msg read from tlspipe
	Channel *eofc;		// confirm eof on tlspipe
	Channel *startclientc;	// start new clientclient session
	Channel *startreadc;		// start new readproc session
	Channel *timerc;

	int tlsfd;		// before tlsClient call: -2; after return: -1 (error) or >= 0 (ok)
	int clientid;	// thread id of clientproc
	int readid;	// thread id of readproc
	int clientStarted; // did tlsClient start?
	int clientReturned; // have we already received from clientproc?

	Timer *ttlsWhile;
	Timer *cleanupWhile;
	int ttlsPeriod;
	int cleanupPeriod;


	int ttslTxLen;	// length of frame we prepared for sending
	int ttlsDone;	// done processing the frame (and, if needed, preparing the response)?
	int ttlsState;	// ttls state we are in
	uint ttlsVersion;

	Buf rbuf[Nbuf];	// buffers read from tlspipe, to be sent/fragmented over ether
	int ridx;	// index of first free rbuf
	Buf *ptoe;	// current pipe-to-ether buf (one of rbuf)

	Buf wbuf;	// buffer read/ reassembled  from ether, to be written to tlspipe
	Buf *etop;	// current ether-to-pipe buf (wbuf)

	Thumbprint *thumbTable;

	int inuse;		// is cleanup needed at all?

	uchar*theSessionCert;
	int theSessionCertlen;
	uchar* theSessionID;
	int theSessionIDlen;

} TTLSstate;

static TTLSstate theTTLSstate;

static void readproc(void*);
static void clientproc(void*);
static void cleanup(TTLSstate*);
static void setupTls(TTLSstate*);
static int buildFrameStart(TTLSstate*, uchar*, int);
static int buildFrameMiddle(TTLSstate*, uchar*, int);
static int buildMsg(TTLSstate*, uchar*, int);
static void buildAck(TTLSstate*, uchar*, int);
static void trans(TTLSstate*, int);
static void ttls(TTLSstate*, uchar*, uint, uchar*, uint, int*, int*);

static void
readproc(void *arg)
{
	TTLSstate *s;
	Buf *rx;
	int fd, n;

	s = arg;

	loglog("readproc starts: %d", threadid());
	while(recvul(s->startreadc)) {
		loglog("readproc monitoring pipe: %d", s->tlspipe[0]);
		fd = s->tlspipe[0];
		for(;;) {
			if (s->tlspipe[0] < 0) {
				loglog("(readproc pipe not active: %d :%d)", fd, s->tlspipe[0]);
//				break;
			}
			rx = &s->rbuf[s->ridx];
			rx->p = rx->b;
			rx->e = rx->b;
			n = read(fd, rx->b, Buflen);
			if (n < 0) {
				loglog("readproc fail on pipe: %d: %r", fd);
				break;
			} else if (n == 0) {
				loglog("readproc read 0 or eof on pipe: %d", fd);
				break;
			} else {
				rx->e = rx->b +n;
				loglog("readproc read from %d into %p: %d", fd, rx, n);
			}
			if (s->tlspipe[0] < 0) {
				loglog("(readproc pipe no longer active: %d: %d)", fd, s->tlspipe[0]);
//				break;
			}
//			loglog("readproc sending...");
			send(s->readc, &rx);
			s->ridx = (s->ridx+1)%Nbuf;
		}
		loglog("readproc sending eofc: %d: %d", fd, s->tlspipe[0]);
		sendul(s->eofc, 0);
		loglog("readproc restarts: %d: %d", fd, s->tlspipe[0]);
	}
	loglog("readproc exits: %d", threadid());
	threadexits(nil);
}

static void
clientproc(void *arg)
{
	TTLSstate *s;
	int fd;
	uchar hash[SHA1dlen];

	s = arg;
	loglog("clientproc starts: %d", threadid());
	s->clientStarted = 1; // beyond this we are forced to send on tlstidc

	loglog("clientproc (re)starting: tlspipe[1]=%d", s->tlspipe[1]);
	if (s->tlspipe[1] <= 0)
		logfatal(0,  "clientproc: no fd for tlsClient:%d", s->tlspipe[1]);

	loglog("calling tlsClient debugTLS=%d, tlslog=%p", debugTLS, s->tlsconn.trace);
	markPhaseStart(1, "ttls");
	fd  = tlsClient(s->tlspipe[1], &s->tlsconn);
	loglog("return tlsClient...");
	markPhaseResult(1, "ttls", fd >= 0);
	if (s->clientid != threadid())
		logall("oops tlsClient schizophrenie clientid=%d threadid=%d", s->clientid, threadid());
	else
		s->tlsfd  = fd;
	loglog("tlsClient %d result: fd=%d", threadid(), fd);
	if (fd < 0 && s->ttlsState == Cleanup)
		logall("while cleaning up: tlsClient %d failed: %r", threadid());
	else if (fd < 0)
		logall("tlsClient %d failed: %r", threadid());
	else {
		loglog("tlsClient %d ok fd=%d", threadid(), fd);
		if (s->tlsconn.cert==nil || s->tlsconn.certlen<=0)
			logall("server did not provide TLS certificate");
		else {
			// X509dump(s->tlsconn.cert, s->tlsconn.certlen);
			if (s->thumbTable != nil) {
				sha1(s->tlsconn.cert, s->tlsconn.certlen, hash, nil);
				if(!okThumbprint(hash, s->thumbTable))
					logall("server certificate %.*H not recognized", SHA1dlen, hash);
			} else
				logall("no thumbprint to check server certificate");
		}
	}

	// clean up before we (implicitly) yield in the sendul
	if (s->tlsconn.sessionID != nil)
		free(s->tlsconn.sessionID);
	s->tlsconn.sessionID = nil;
	s->tlsconn.sessionIDlen = 0;

	if (s->tlsconn.cert)
		free(s->tlsconn.cert);
	s->tlsconn.cert = nil;
	s->tlsconn.certlen = 0;

	sendul(s->tlstidc, threadid());

	loglog("clientproc  %d ... finished: fd=%d", threadid(), s->tlsfd);
	loglog("clientproc exits: %d", threadid());
	threadexits(nil);
}

static void
cleanup(TTLSstate* s)
{
	int consumeRead, consumeClient, id, ret, timeout, n;
	Buf *rx;
	char dummy[1];
	Alt a[] = {
	/*	 c			v		op   */
		{s->readc,	&rx,	CHANRCV},
		{s->eofc,		nil,	CHANRCV},
		{s->tlstidc,	&id,	CHANRCV},
		{s->timerc,	nil,	CHANRCV},
		{nil,			nil,	CHANEND},
	};

	loglog("cleanup pre tlsfd=%d clientStarted=%d clientReturned=%d clientid=%d clientpid=%d tlspipe[0]=%d  tlspipe[1]=%d", s->tlsfd, s->clientStarted, s->clientReturned, s->clientid, threadpid(s->clientid), s->tlspipe[0], s->tlspipe[1]);
	trans(s, Cleanup);

	if (!s->inuse)
		return;

	if (s->tlsfd >= 0) {
		loglog("\tcleanup: closing tlsfd: %d", s->tlsfd);
		// should make devtls  close s->tlspipe[1], causing eof on s->tlspipe[0] in readproc
		if (close(s->tlsfd) < 0)
			loglog("\tcleanup: failed closing tlsfd: %d:%r", s->tlsfd);
		else
			loglog("\tcleanup: closed tlsfd: %d", s->tlsfd);
		s->tlsfd = -2;
		s->tlspipe[1] = -1;
	} else {
		if (s->tlspipe[1] >= 0) {
			loglog("\tcleanup: writing 0 to tlspipe[1]: %d", s->tlspipe[1]);
			if ((n = write(s->tlspipe[1], dummy, 0)) < 0)
				loglog("\tcleanup: failed writing 0 to tlspipe[1]: %d : %r", s->tlspipe[1]);
			else
				loglog("\tcleanup: written 0 to tlspipe[1]: %d : %d", s->tlspipe[1], n);
			loglog("\tcleanup: closing tlspipe[1]: %d", s->tlspipe[1]);
			if (close(s->tlspipe[1]) < 0)
				loglog("\tcleanup: failed closing tlspipe[1]: %d: %r", s->tlspipe[1]);
			else
				loglog("\tcleanup: closed tlspipe[1]: %d", s->tlspipe[1]);
			s->tlspipe[1] = -1;
		} else {
			loglog("\tcleanup: oops should not happen tlspipe[1] < 0: %d", s->tlspipe[1]);
		}
		if (s->tlspipe[0] >= 0) {
			loglog("\tcleanup: closing tlspipe[0]: %d", s->tlspipe[0]);
			if (close(s->tlspipe[0]) < 0)
				loglog("\tcleanup: failed closing tlspipe[0]: %d:%r", s->tlspipe[0]);
			else
				loglog("\tcleanup: closed tlspipe[0]: %d", s->tlspipe[0]);
			s->tlspipe[0] = -1;
		} else {
			loglog("\tcleanup: oops should not happen tlspipe[0] < 0: %d", s->tlspipe[0]);
		}
	}
	consumeRead = 1;
	if (s->clientStarted && !s->clientReturned)
		consumeClient = 1;
	else
		consumeClient = 0;

	loglog("\tcleanup middle consumeRead=%d consumeClient=%d tlsfd=%d clientStarted=%d clientReturned=%d  clientid=%d clientpid=%d tlspipe[0]=%d tlspipe[1]=%d", consumeRead, consumeClient, s->tlsfd, s->clientStarted, s->clientReturned, s->clientid, threadpid(s->clientid), s->tlspipe[0], s->tlspipe[1]);

	timeout = 0;
	startTimer(s->cleanupWhile, s->cleanupPeriod);
	while((consumeRead || consumeClient) && !timeout) {
		loglog("\tcleanup receiving...");
		switch(ret = alt(a)){
		case 0:
			loglog("\t\toops... cleanup recv from readc: %p", rx);
			// is this the close assert . if so, should we write this to ether? 
			break;
		case 1:
			loglog("\t\tcleanup: confirmed eof from readproc");
			consumeRead =  0;
			if (s->tlspipe[0] >= 0) {
				loglog("\tcleanup: closing tlspipe[0]: %d", s->tlspipe[0]);
				if (close(s->tlspipe[0]) < 0)
					loglog("\tcleanup: failed closing tlspipe[0]: %d:%r", s->tlspipe[0]);
				else
					loglog("\tcleanup: closed tlspipe[0]: %d", s->tlspipe[0]);
				s->tlspipe[0] = -1;
			}
			break;
		case 2:
			if (s->clientid == id) {
				loglog("\t\tcleanup: confirmed return from clientproc %d", id);
				consumeClient = 0;
			} else
				loglog("\t\tcleanup: oops return from older clientproc %d", id);
			break;
		case 3:	/* timer expiration event */
			loglog("ttls cleanup timer expired");
			tickTimer(s->cleanupWhile);
			if (s->cleanupWhile->counter == 0){
				if (consumeClient) {
					loglog("ttls cleanup threadkill clientproc %d", s->clientid);
					threadkill(s->clientid);
					consumeClient = 0;
					startTimer(s->cleanupWhile, s->cleanupPeriod);
				} else if (consumeRead) {
					loglog("ttls cleanup threadkill readproc %d", s->readid);
					threadkill(s->readid);
					s->readid = proccreate(readproc, s, STACK);
					loglog("ttls cleanup started readproc tid=%d pid=%d", s->readid, threadpid(s->readid));
					consumeRead = 0;
					startTimer(s->cleanupWhile, s->cleanupPeriod);
				} else {
					loglog("ttls cleanup giving up");
					timeout = 1;
				}
			}
			break;
		default:
			loglog("\t\tcleanup: unexpected %d", ret);
			break;
		}
	}
	resetTimer(s->cleanupWhile);
	if (s->tlsfd != -2) {
		loglog("\tcleanup: reset tlsfd: %d", s->tlsfd);
		s->tlsfd = -2;
	}
	loglog("\tcleanup post consumeRead=%d consumeClient=%d tlsfd=%d clientStarted=%d clientReturned=%d  clientid=%d clientpid=%d tlspipe[0]=%d tlspipe[1]=%d", consumeRead, consumeClient, s->tlsfd, s->clientStarted, s->clientReturned, s->clientid, threadpid(s->clientid), s->tlspipe[0], s->tlspipe[1]);
}

static void
setupTls(TTLSstate *s)
{
	loglog("setupTls pre tlspipe[0]=%d  tlspipe[1]=%d", s->tlspipe[0], s->tlspipe[1]);
	if (s->tlspipe[0] >= 0 || s->tlspipe[1] >= 0)
		logfatal(0, "setupTls: pipe already open? %d %d", s->tlspipe[0], s->tlspipe[1]);
	if (s->tlsfd != -2)
		logfatal(0, "setupTls: tlsfd init error? %d (expected -2)", s->tlsfd);
	if (pipe(s->tlspipe) < 0)
		logfatal(0, "pipe failed: %r");

	s->clientStarted = 0;
	s->clientReturned = 0;
	// call tlsClient and wait for result
	loglog("setupTls clientproc...");
	s->clientid = proccreate(clientproc, s, STACK);
	loglog("started clientproc tid=%d pid=%d", s->clientid, threadpid(s->clientid));
	

	// signal reader to restart
	loglog("setupTls startreadc...");
	sendul(s->startreadc, 1);

	s->inuse = 1;

	loglog("setupTls post tlspipe[0]=%d  tlspipe[1]=%d", s->tlspipe[0], s->tlspipe[1]);
}

static int
buildFrameStart(TTLSstate *s, uchar*b, int mtu)
{
	TTLS *t;
	int todo;

	todo = s->ptoe->e - s->ptoe->p;
	if (mtu <= TtlsLongHlen)
		logall("buildFrameStart error: mtu much too small: mtu=%d, longhdr=%d", mtu, TtlsLongHlen);
	if (todo <= mtu-TtlsLongHlen)
		logall("buildFrameStart error: small enough, no framing needed: sz=%d, space=%d", todo, mtu-TtlsLongHlen);
	t = (TTLS*)b;
	memset(t, 0, TtlsLongHlen);
	t->tp = EapTpTtls;
	t->flags = TtlsFlagM | TtlsFlagL;
	hnputl(t->tln, todo);
	memcpy(b+TtlsLongHlen, s->ptoe->p, mtu-TtlsLongHlen);
	s->ttslTxLen = mtu;
	s->ptoe->p += mtu-TtlsLongHlen;
	return mtu;
}

static int
buildFrameMiddle(TTLSstate *s, uchar*b, int mtu)
{
	TTLS *t;
	int todo;

	todo = s->ptoe->e - s->ptoe->p;
	if (mtu <= TtlsShortHlen)
		logall("buildFrameMiddle error: mtu much too small: mtu=%d, longhdr=%d", mtu, TtlsShortHlen);
	if (todo <= mtu-TtlsShortHlen)
		logall("buildFrameMiddle error: small enough, no framing needed: sz=%d, space=%d", todo, mtu-TtlsShortHlen);
	t = (TTLS*)b;
	memset(t, 0, TtlsShortHlen);
	t->tp = EapTpTtls;
	t->flags = TtlsFlagM;
	memcpy(b+TtlsShortHlen, s->ptoe->p, mtu-TtlsShortHlen);
	s->ttslTxLen = mtu;
	s->ptoe->p += mtu-TtlsShortHlen;
	return mtu;
}

static int
buildMsg(TTLSstate *s, uchar*b, int mtu)
{
	TTLS *t;
	int todo;

	todo = s->ptoe->e - s->ptoe->p;
	if (mtu <= TtlsShortHlen)
		logall("buildMsg error: mtu much too small: mtu=%d, longhdr=%d", mtu, TtlsShortHlen);
	if (todo > mtu-TtlsShortHlen)
		logall("buildMsg error: too big, framing needed: sz=%d, space=%d", todo, mtu-TtlsShortHlen);
	t = (TTLS*)b;
	memset(t, 0, TtlsShortHlen);
	t->tp = EapTpTtls;
	memcpy(b+TtlsShortHlen, s->ptoe->p, todo);
	s->ttslTxLen = TtlsShortHlen + todo;
	s->ptoe->p = 0;
	return todo;
}

static void
buildAck(TTLSstate *s, uchar*b, int mtu)
{
	TTLS *t;

	USED(mtu);
	t = (TTLS*)b;
	memset(t, 0, TtlsShortHlen);
	t->tp = EapTpTtls;
	s->ttslTxLen = TtlsShortHlen;
}

static void
trans(TTLSstate *s, int new)
{
	loglog("ttls trans: %s -> %s", (s->ttlsState>=0) ? snames[s->ttlsState] : "-", snames[new]);
	switch(new){
	case RecvAck:
		s->ttlsDone = 1;
		break;
	case Receiving:
		s->ttlsDone = 1;
		break;
	case Idle:
		s->ttlsDone = 1;
		break;
	}
	s->ttlsState = new;
}

static void
ttls(TTLSstate *s, uchar*rcvp, uint rcvl, uchar*txp, uint mtu, int*ttlsSuccess, int*ttlsFail)
{
	Buf *rx;
	int id, done;
	Alt a[] = {
	/*	 c				v		op   */
		{s->tlstidc,		&id,	CHANRCV},
		{s->readc,		&rx,	CHANRCV},
		{s->timerc,		nil,	CHANRCV},
		{nil,			nil,	CHANEND},
	};
	TTLS *t;
	uchar *p;
	uint l;
	int n;
	int olen, flen;
	int todo, total;

	switch(s->ttlsState){
	case Idle:
		trans(s, Idle);
		break;
	case Start:
		setupTls(s); // new session
		trans(s, Waiting);
		break;
	case Waiting:
		done = 0;
		startTimer(s->ttlsWhile, s->ttlsPeriod);
		while(!done)
			switch(alt(a)){
			case 0: // the tlsClient call returned
				loglog("ttls Waiting tlsClient %d returns", id);
				done = 1;
				if (s->clientid == id) {
					loglog("ttls Waiting tlsClient %d return %d", id, s->tlsfd);
					s->clientReturned = 1;
					if (s->tlsfd < 0) {
						*ttlsFail = 1;
						// XXX build fail packet???
						trans(s, Idle);
					} else {
						markPhaseStart(2, "pap");
						doTTLSphase2(s->tlsfd);
						markPhaseDone(2, "pap");
					}
				} else
					loglog("ttls Waiting oops older tlsClient %d returned %d", id, s->tlsfd);
				break;
			case 1: // something read from tlspipe: encapsulate and send
				    // we do no treat end-of-file on tlspipe here, but leave that for cleanup.
				    // is this a wise choice?
				loglog("ttls Waiting read from tlspipe:%p", rx);
				done = 1;
				s->ptoe = rx;
				s->ptoe->p = s->ptoe->b;
				if (debug) print("ttls readc: rx=%p rx->p=%p rx->e=%p n=%ld\n", rx, rx->p, rx->e, rx->e - rx->b);
				trans(s, Sending);
				break;
			case 2:	/* timer tick event */
				// loglog("ttls Waiting tlsClient timer tick");
				tickTimer(s->ttlsWhile);
				if (s->ttlsWhile->counter == 0) {
					loglog("ttls Waiting tlsClient timer expired");
					done = 1;
					trans(s, Timeout);
				}
			break;
			}
		resetTimer(s->ttlsWhile);
		break;
	case Timeout:
		trans(s, Receiving); // seems we need more stuff to satisfy tlsClient
		break;
	case Sending:
		todo = s->ptoe->e - s->ptoe->p;
		total = s->ptoe->e - s->ptoe->b;
		if (s->ptoe->p == s->ptoe->b && todo > mtu-TtlsShortHlen) {
			olen = todo;
			flen = buildFrameStart(s, txp, mtu);
			if (debug) print("ttls first fragment framed %d of %d, total %d, todo %d\n", flen, olen, total, todo);
			trans(s, RecvAck);
		} else if (todo > mtu-TtlsShortHlen) {
			olen = todo;
			flen = buildFrameMiddle(s, txp, mtu);
			if (debug) print("ttls framed %d of %d, total %d, todo %d\n", flen, olen, total, todo);
			trans(s, RecvAck);
		} else {
			olen = todo;
			flen = buildMsg(s, txp, mtu);
			if (debug) print("ttls framed %d of %d, total %d, todo %d\n", flen, olen, total, todo);
			s->etop = &s->wbuf;
			s->etop->p = s->etop->b;
			s->etop->e = s->etop->b;
			trans(s, Receiving);
		}
		break;
	case RecvAck:
		t = (TTLS*)rcvp;
		if (t->flags&TtlsFlagS)
			logall("tls: unexpected TtlsFlagS in %s", snames[s->ttlsState]);
		if (t->flags&TtlsFlagM)
			logall("tls: unexpected TtlsFlagM in %s", snames[s->ttlsState]);
		if (t->flags&TtlsFlagL)
			logall("tls: unexpected TtlsFlagL in %s", snames[s->ttlsState]);
		trans(s, Sending);
		break;
	case Receiving:
		t = (TTLS*)rcvp;
		total = s->etop->e - s->etop->b;
		if (t->flags&TtlsFlagS)
			logall("tls: unexpected TtlsFlagS in %s", snames[s->ttlsState]);
		if (t->flags&TtlsFlagL && total != 0)
			logall("tls: TtlsFlagL when total=%d != 0", total);
		if (t->flags&TtlsFlagL) {
			total = nhgetl(t->tln);
			s->etop->e = s->etop->b + total;
			if (debug) print("ttls:  TtlsFlagL len=%d\n", total);
			p = rcvp+TtlsLongHlen;
			l = rcvl-TtlsLongHlen;
			if (s->etop->p != s->etop->b)
				logall("ttls %s: ptoe->p != ptoe->b  ptoe->p=%p ptoe->b=%p", snames[s->ttlsState], s->etop->p, s->etop->b);
		} else {
			p = rcvp+TtlsShortHlen;
			l = rcvl-TtlsShortHlen;
		}
		memcpy(s->etop->p, p, l);
		s->etop->p += l;
		if (debug) print("ttls %s: received %d; total=%d\n", snames[s->ttlsState], l, total);
		if (t->flags&TtlsFlagM)
			trans(s, SendAck);
		else {
			if (s->etop->b != s->etop->e && s->etop->p != s->etop->e)
				logall("ttls : reassembled=%ld !=  total=%d", s->etop->p  - s->etop->b, total);
			if (s->etop->b != s->etop->e && s->etop->p == s->etop->e)
				trans(s, Received);
			else if (s->etop->b != s->etop->e && s->etop->p != s->etop->e) {
				// just ignore the packet
				// should we report the wrong-amount-read to other side?
				logall("ttls: skipping short reassembly (total=%d reass=%ld)", total, s->etop->p  - s->etop->b);
				trans(s, Waiting);
			} else
				trans(s, Waiting);
		}
		break;
	case SendAck:
		buildAck(s, txp, mtu);
		trans(s, Receiving);
		break;
	case Received:
		// we only get here if we read the right amount
		total = s->etop->e - s->etop->b;
		if (debug) print("ttls %s: writing tlspipe[0]: %.*H\n", snames[s->ttlsState], total, s->etop->b);
		n = write(s->tlspipe[0], s->etop->b, total);
		if (n<0)
			logall("ttls %s: error writing tlspipe[0]: %r", snames[s->ttlsState]);
		loglog("writeproc written %d", n);
		if (n != total)
			logall("ttls %s: writing tlspipe[0]: n=%d != total=%d", snames[s->ttlsState], n, total);
		trans(s, Waiting);
		break;
	}
}

void
initTTLS(char *file, char *filex, Timers *t)
{
	TTLSstate *s;

	loglog("initTTLS");

	s = &theTTLSstate;
	memset(s, 0, sizeof(TTLSstate));

	s->ttlsState = Idle;

	s->tlstidc = chancreate(sizeof(int), 0);
	s->readc = chancreate(sizeof(Buf*), 0);
	s->eofc = chancreate(sizeof(int), 0);
	s->startclientc = chancreate(sizeof(int), 0);
	s->startreadc = chancreate(sizeof(int), 0);
	s->timerc = t->timerchan;

	s->tlsfd = -2;
	s->tlspipe[0] = -1;
	s->tlspipe[1] = -1;
	s->ttlsWhile = addTimer(t, "ttlsWhile");
	s->cleanupWhile = addTimer(t, "cleanupWhile");

	s->ttlsPeriod = 5; //seconds
	s->cleanupPeriod = 5; //seconds

	s->tlsconn.sessionType = "ttls";
	s->tlsconn.sessionConst = "ttls keying material";
	s->tlsconn.sessionKey = theSessionKey;
	s->tlsconn.sessionKeylen = sizeof(theSessionKey);
	if (debugTLS)
		s->tlsconn.trace = tlslog;
	else
		s->tlsconn.trace = nil;

	fmtinstall('H', encodefmt);
	if (file) {
		s->thumbTable = initThumbprints(file, filex);
		if (s->thumbTable == nil)
			logfatal(1, "initThumbprints: %r");
	}

	s->readid = proccreate(readproc, s, STACK);
	loglog("initTTLS started readproc tid=%d pid=%d", s->readid, threadpid(s->readid));

}

void
abortTTLS(void)
{
	TTLSstate *s;

	loglog("abortTTLS");
	s = &theTTLSstate;

	if (s->tlspipe[0] >= 0) {
		close(s->tlspipe[0]);
		s->tlspipe[0] = -1;
	}
}

int
processTTLS(uchar*rcvp, uint rcvl, int expectStart, uchar*txp, uint mtu, int*success, int*failed)
{
	TTLS *hr;
	uchar flags, version;
	TTLSstate *s;

//	if (debug) print("processTTLS br=%p txp=%p mtu=%d bl=%d\n", br, txp, mtu, bl);

	s = &theTTLSstate;

	hr = (TTLS*)rcvp;

	if (hr->tp != EapTpTtls)
		return 0; // flag error??

	// first thing should be EAP-TTLS start packet
	flags = rcvp[1]; // check length
	version = flags & TtlsVersion;
	if (debug) print("processTTLS flags=%s%s%s ver=%d mtu=%d bl=%d\n",
		(flags&TtlsFlagS ? "S":""),
		(flags&TtlsFlagM ? "M":""),
		(flags&TtlsFlagL ? "L":""),
		version, mtu, rcvl);
	if (expectStart && !flags&TtlsFlagS)
		logfatal(0, "expected EAP-TTLS start packet");
	if (flags & TtlsFlagS) {
		cleanup(s); // previous session

		// ack??
		// look for piggy-backed stuff?

		s->ttlsVersion = version;
		s->ttlsState = Start;
		s->ttlsDone = 0;
		s->ptoe = nil;
		s->etop = nil;
		s->wbuf.p = 0;
		s->wbuf.e = 0;
		// we don't have a client certificate
		s->tlsconn.cert = nil;
		s->tlsconn.certlen = 0;
		// avoid trying session resumption - tlsClient does not support it
		s->tlsconn.sessionID = nil;
		s->tlsconn.sessionIDlen = 0;

		if (debugTLS)
			s->tlsconn.trace = tlslog;
		else
			s->tlsconn.trace = nil;
		
//		if (debug) print("processTTLS TtlsFlagS version=%d \n", version);
	}
	s->ttslTxLen = 0;
	s->ttlsDone = 0;
	while (!s->ttlsDone)
		ttls(s, rcvp, rcvl, txp, mtu, success, failed);
	return s->ttslTxLen;
}

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