git: drawterm

--- a/include/lib.h

+++ b/include/lib.h

@@ -230,6 +230,7 @@

 extern	char*	fmtstrflush(Fmt*);

 extern	int	runefmtstrinit(Fmt*);

 extern	Rune*	runefmtstrflush(Fmt*);

+extern	int	encodefmt(Fmt*);

 extern	int	fmtstrcpy(Fmt*, char*);

 extern	int	fmtprint(Fmt*, char*, ...);

 extern	int	fmtvprint(Fmt*, char*, va_list);

--- a/kern/Makefile

+++ b/kern/Makefile

@@ -21,6 +21,7 @@

 	devpipe.$O\

 	devroot.$O\

 	devssl.$O\

+	devtls.$O\

 	devtab.$O\

 	error.$O\

 	parse.$O\

--- a/kern/devaudio-none.c

+++ b/kern/devaudio-none.c

@@ -21,6 +21,20 @@

 	error("no audio support");

+int

+audiodevread(void *a, int n)

+{

+	error("no audio support");

+	return -1;

+}

+int

+audiodevwrite(void *a, int n)

+{

+	error("no audio support");

+	return -1;

+}

 void

 audiodevsetvol(int what, int left, int right)

--- a/kern/devtab.c

+++ b/kern/devtab.c

@@ -8,6 +8,7 @@

 extern Dev rootdevtab;

 extern Dev pipedevtab;

 extern Dev ssldevtab;

+extern Dev tlsdevtab;

 extern Dev mousedevtab;

 extern Dev drawdevtab;

 extern Dev ipdevtab;

@@ -21,6 +22,7 @@

 	&consdevtab,

 	&pipedevtab,

 	&ssldevtab,

+	&tlsdevtab,

 	&mousedevtab,

 	&drawdevtab,

 	&ipdevtab,

--- /dev/null

+++ b/kern/devtls.c

@@ -1,0 +1,2179 @@

+/*

+ *  devtls - record layer for transport layer security 1.0 and secure sockets layer 3.0

+ */

+#include	"u.h"

+#include	"lib.h"

+#include	"dat.h"

+#include	"fns.h"

+#include	"error.h"

+#include	"libsec.h"

+typedef struct OneWay	OneWay;

+typedef struct Secret		Secret;

+typedef struct TlsRec	TlsRec;

+typedef struct TlsErrs	TlsErrs;

+enum {

+	Statlen=	1024,		/* max. length of status or stats message */

+	/* buffer limits */

+	MaxRecLen		= 1<<14,	/* max payload length of a record layer message */

+	MaxCipherRecLen	= MaxRecLen + 2048,

+	RecHdrLen		= 5,

+	MaxMacLen		= SHA1dlen,

+	/* protocol versions we can accept */

+	TLSVersion		= 0x0301,

+	SSL3Version		= 0x0300,

+	ProtocolVersion	= 0x0301,	/* maximum version we speak */

+	MinProtoVersion	= 0x0300,	/* limits on version we accept */

+	MaxProtoVersion	= 0x03ff,

+	/* connection states */

+	SHandshake	= 1 << 0,	/* doing handshake */

+	SOpen		= 1 << 1,	/* application data can be sent */

+	SRClose		= 1 << 2,	/* remote side has closed down */

+	SLClose		= 1 << 3,	/* sent a close notify alert */

+	SAlert		= 1 << 5,	/* sending or sent a fatal alert */

+	SError		= 1 << 6,	/* some sort of error has occured */

+	SClosed		= 1 << 7,	/* it is all over */

+	/* record types */

+	RChangeCipherSpec = 20,

+	RAlert,

+	RHandshake,

+	RApplication,

+	SSL2ClientHello = 1,

+	HSSL2ClientHello = 9,  /* local convention;  see tlshand.c */

+	/* alerts */

+	ECloseNotify 			= 0,

+	EUnexpectedMessage 	= 10,

+	EBadRecordMac 		= 20,

+	EDecryptionFailed 		= 21,

+	ERecordOverflow 		= 22,

+	EDecompressionFailure 	= 30,

+	EHandshakeFailure 		= 40,

+	ENoCertificate 			= 41,

+	EBadCertificate 		= 42,

+	EUnsupportedCertificate 	= 43,

+	ECertificateRevoked 		= 44,

+	ECertificateExpired 		= 45,

+	ECertificateUnknown 	= 46,

+	EIllegalParameter 		= 47,

+	EUnknownCa 			= 48,

+	EAccessDenied 		= 49,

+	EDecodeError 			= 50,

+	EDecryptError 			= 51,

+	EExportRestriction 		= 60,

+	EProtocolVersion 		= 70,

+	EInsufficientSecurity 	= 71,

+	EInternalError 			= 80,

+	EUserCanceled 			= 90,

+	ENoRenegotiation 		= 100,

+	EMAX = 256

+};

+struct Secret

+{

+	char		*encalg;	/* name of encryption alg */

+	char		*hashalg;	/* name of hash alg */

+	int		(*enc)(Secret*, uchar*, int);

+	int		(*dec)(Secret*, uchar*, int);

+	int		(*unpad)(uchar*, int, int);

+	DigestState	*(*mac)(uchar*, ulong, uchar*, ulong, uchar*, DigestState*);

+	int		block;		/* encryption block len, 0 if none */

+	int		maclen;

+	void		*enckey;

+	uchar	mackey[MaxMacLen];

+};

+struct OneWay

+{

+	QLock		io;		/* locks io access */

+	QLock		seclock;	/* locks secret paramaters */

+	ulong		seq;

+	Secret		*sec;		/* cipher in use */

+	Secret		*new;		/* cipher waiting for enable */

+};

+struct TlsRec

+{

+	Chan	*c;				/* io channel */

+	int		ref;				/* serialized by tdlock for atomic destroy */

+	int		version;			/* version of the protocol we are speaking */

+	char		verset;			/* version has been set */

+	char		opened;			/* opened command every issued? */

+	char		err[ERRMAX];		/* error message to return to handshake requests */

+	vlong	handin;			/* bytes communicated by the record layer */

+	vlong	handout;

+	vlong	datain;

+	vlong	dataout;

+	Lock		statelk;

+	int		state;

+	int		debug;

+	/* record layer mac functions for different protocol versions */

+	void		(*packMac)(Secret*, uchar*, uchar*, uchar*, uchar*, int, uchar*);

+	/* input side -- protected by in.io */

+	OneWay		in;

+	Block		*processed;	/* next bunch of application data */

+	Block		*unprocessed;	/* data read from c but not parsed into records */

+	/* handshake queue */

+	Lock		hqlock;			/* protects hqref, alloc & free of handq, hprocessed */

+	int		hqref;

+	Queue		*handq;		/* queue of handshake messages */

+	Block		*hprocessed;	/* remainder of last block read from handq */

+	QLock		hqread;		/* protects reads for hprocessed, handq */

+	/* output side */

+	OneWay		out;

+	/* protections */

+	char		*user;

+	int		perm;

+};

+struct TlsErrs{

+	int	err;

+	int	sslerr;

+	int	tlserr;

+	int	fatal;

+	char	*msg;

+};

+static TlsErrs tlserrs[] = {

+	{ECloseNotify,			ECloseNotify,			ECloseNotify,			0, 	"close notify"},

+	{EUnexpectedMessage,	EUnexpectedMessage,	EUnexpectedMessage, 	1, "unexpected message"},

+	{EBadRecordMac,		EBadRecordMac,		EBadRecordMac, 		1, "bad record mac"},

+	{EDecryptionFailed,		EIllegalParameter,		EDecryptionFailed,		1, "decryption failed"},

+	{ERecordOverflow,		EIllegalParameter,		ERecordOverflow,		1, "record too long"},

+	{EDecompressionFailure,	EDecompressionFailure,	EDecompressionFailure,	1, "decompression failed"},

+	{EHandshakeFailure,		EHandshakeFailure,		EHandshakeFailure,		1, "could not negotiate acceptable security parameters"},

+	{ENoCertificate,		ENoCertificate,			ECertificateUnknown,	1, "no appropriate certificate available"},

+	{EBadCertificate,		EBadCertificate,		EBadCertificate,		1, "corrupted or invalid certificate"},

+	{EUnsupportedCertificate,	EUnsupportedCertificate,	EUnsupportedCertificate,	1, "unsupported certificate type"},

+	{ECertificateRevoked,	ECertificateRevoked,		ECertificateRevoked,		1, "revoked certificate"},

+	{ECertificateExpired,		ECertificateExpired,		ECertificateExpired,		1, "expired certificate"},

+	{ECertificateUnknown,	ECertificateUnknown,	ECertificateUnknown,	1, "unacceptable certificate"},

+	{EIllegalParameter,		EIllegalParameter,		EIllegalParameter,		1, "illegal parameter"},

+	{EUnknownCa,			EHandshakeFailure,		EUnknownCa,			1, "unknown certificate authority"},

+	{EAccessDenied,		EHandshakeFailure,		EAccessDenied,		1, "access denied"},

+	{EDecodeError,			EIllegalParameter,		EDecodeError,			1, "error decoding message"},

+	{EDecryptError,			EIllegalParameter,		EDecryptError,			1, "error decrypting message"},

+	{EExportRestriction,		EHandshakeFailure,		EExportRestriction,		1, "export restriction violated"},

+	{EProtocolVersion,		EIllegalParameter,		EProtocolVersion,		1, "protocol version not supported"},

+	{EInsufficientSecurity,	EHandshakeFailure,		EInsufficientSecurity,	1, "stronger security routines required"},

+	{EInternalError,			EHandshakeFailure,		EInternalError,			1, "internal error"},

+	{EUserCanceled,		ECloseNotify,			EUserCanceled,			0, "handshake canceled by user"},

+	{ENoRenegotiation,		EUnexpectedMessage,	ENoRenegotiation,		0, "no renegotiation"},

+};

+enum

+{

+	/* max. open tls connections */

+	MaxTlsDevs	= 1024

+};

+static	Lock	tdlock;

+static	int	tdhiwat;

+static	int	maxtlsdevs = 128;

+static	TlsRec	**tlsdevs;

+static	char	**trnames;

+static	char	*encalgs;

+static	char	*hashalgs;

+enum{

+	Qtopdir		= 1,	/* top level directory */

+	Qprotodir,

+	Qclonus,

+	Qencalgs,

+	Qhashalgs,

+	Qconvdir,		/* directory for a conversation */

+	Qdata,

+	Qctl,

+	Qhand,

+	Qstatus,

+	Qstats,

+};

+#define TYPE(x) 	((x).path & 0xf)

+#define CONV(x) 	(((x).path >> 5)&(MaxTlsDevs-1))

+#define QID(c, y) 	(((c)<<5) | (y))

+static void	checkstate(TlsRec *, int, int);

+static void	ensure(TlsRec*, Block**, int);

+static void	consume(Block**, uchar*, int);

+static Chan*	buftochan(char*);

+static void	tlshangup(TlsRec*);

+static void	tlsError(TlsRec*, char *);

+static void	alertHand(TlsRec*, char *);

+static TlsRec	*newtls(Chan *c);

+static TlsRec	*mktlsrec(void);

+static DigestState*sslmac_md5(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s);

+static DigestState*sslmac_sha1(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s);

+static DigestState*nomac(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s);

+static void	sslPackMac(Secret *sec, uchar *mackey, uchar *seq, uchar *header, uchar *body, int len, uchar *mac);

+static void	tlsPackMac(Secret *sec, uchar *mackey, uchar *seq, uchar *header, uchar *body, int len, uchar *mac);

+static void	put64(uchar *p, vlong x);

+static void	put32(uchar *p, u32int);

+static void	put24(uchar *p, int);

+static void	put16(uchar *p, int);

+static u32int	get32(uchar *p);

+static int	get16(uchar *p);

+static void	tlsSetState(TlsRec *tr, int new, int old);

+static void	rcvAlert(TlsRec *tr, int err);

+static void	sendAlert(TlsRec *tr, int err);

+static void	rcvError(TlsRec *tr, int err, char *msg, ...);

+static int	rc4enc(Secret *sec, uchar *buf, int n);

+static int	des3enc(Secret *sec, uchar *buf, int n);

+static int	des3dec(Secret *sec, uchar *buf, int n);

+static int	noenc(Secret *sec, uchar *buf, int n);

+static int	sslunpad(uchar *buf, int n, int block);

+static int	tlsunpad(uchar *buf, int n, int block);

+static void	freeSec(Secret *sec);

+static char	*tlsstate(int s);

+static void	pdump(int, void*, char*);

+static char *tlsnames[] = {

+[Qclonus]		"clone",

+[Qencalgs]	"encalgs",

+[Qhashalgs]	"hashalgs",

+[Qdata]		"data",

+[Qctl]		"ctl",

+[Qhand]		"hand",

+[Qstatus]		"status",

+[Qstats]		"stats",

+};

+static int convdir[] = { Qctl, Qdata, Qhand, Qstatus, Qstats };

+static int

+tlsgen(Chan *c, char*unused1, Dirtab *unused2, int unused3, int s, Dir *dp)

+{

+	Qid q;

+	TlsRec *tr;

+	char *name, *nm;

+	int perm, t;

+	q.vers = 0;

+	q.type = QTFILE;

+	t = TYPE(c->qid);

+	switch(t) {

+	case Qtopdir:

+		if(s == DEVDOTDOT){

+			q.path = QID(0, Qtopdir);

+			q.type = QTDIR;

+			devdir(c, q, "#a", 0, eve, 0555, dp);

+			return 1;

+		}

+		if(s > 0)

+			return -1;

+		q.path = QID(0, Qprotodir);

+		q.type = QTDIR;

+		devdir(c, q, "tls", 0, eve, 0555, dp);

+		return 1;

+	case Qprotodir:

+		if(s == DEVDOTDOT){

+			q.path = QID(0, Qtopdir);

+			q.type = QTDIR;

+			devdir(c, q, ".", 0, eve, 0555, dp);

+			return 1;

+		}

+		if(s < 3){

+			switch(s) {

+			default:

+				return -1;

+			case 0:

+				q.path = QID(0, Qclonus);

+				break;

+			case 1:

+				q.path = QID(0, Qencalgs);

+				break;

+			case 2:

+				q.path = QID(0, Qhashalgs);

+				break;

+			}

+			perm = 0444;

+			if(TYPE(q) == Qclonus)

+				perm = 0555;

+			devdir(c, q, tlsnames[TYPE(q)], 0, eve, perm, dp);

+			return 1;

+		}

+		s -= 3;

+		if(s >= tdhiwat)

+			return -1;

+		q.path = QID(s, Qconvdir);

+		q.type = QTDIR;

+		lock(&tdlock);

+		tr = tlsdevs[s];

+		if(tr != nil)

+			nm = tr->user;

+		else

+			nm = eve;

+		if((name = trnames[s]) == nil){

+			name = trnames[s] = smalloc(16);

+			sprint(name, "%d", s);

+		}

+		devdir(c, q, name, 0, nm, 0555, dp);

+		unlock(&tdlock);

+		return 1;

+	case Qconvdir:

+		if(s == DEVDOTDOT){

+			q.path = QID(0, Qprotodir);

+			q.type = QTDIR;

+			devdir(c, q, "tls", 0, eve, 0555, dp);

+			return 1;

+		}

+		if(s < 0 || s >= nelem(convdir))

+			return -1;

+		lock(&tdlock);

+		tr = tlsdevs[CONV(c->qid)];

+		if(tr != nil){

+			nm = tr->user;

+			perm = tr->perm;

+		}else{

+			perm = 0;

+			nm = eve;

+		}

+		t = convdir[s];

+		if(t == Qstatus || t == Qstats)

+			perm &= 0444;

+		q.path = QID(CONV(c->qid), t);

+		devdir(c, q, tlsnames[t], 0, nm, perm, dp);

+		unlock(&tdlock);

+		return 1;

+	case Qclonus:

+	case Qencalgs:

+	case Qhashalgs:

+		perm = 0444;

+		if(t == Qclonus)

+			perm = 0555;

+		devdir(c, c->qid, tlsnames[t], 0, eve, perm, dp);

+		return 1;

+	default:

+		lock(&tdlock);

+		tr = tlsdevs[CONV(c->qid)];

+		if(tr != nil){

+			nm = tr->user;

+			perm = tr->perm;

+		}else{

+			perm = 0;

+			nm = eve;

+		}

+		if(t == Qstatus || t == Qstats)

+			perm &= 0444;

+		devdir(c, c->qid, tlsnames[t], 0, nm, perm, dp);

+		unlock(&tdlock);

+		return 1;

+	}

+	return -1;

+}

+static Chan*

+tlsattach(char *spec)

+{

+	Chan *c;

+	c = devattach('a', spec);

+	c->qid.path = QID(0, Qtopdir);

+	c->qid.type = QTDIR;

+	c->qid.vers = 0;

+	return c;

+}

+static Walkqid*

+tlswalk(Chan *c, Chan *nc, char **name, int nname)

+{

+	return devwalk(c, nc, name, nname, nil, 0, tlsgen);

+}

+static int

+tlsstat(Chan *c, uchar *db, int n)

+{

+	return devstat(c, db, n, nil, 0, tlsgen);

+}

+static Chan*

+tlsopen(Chan *c, int omode)

+{

+	TlsRec *tr, **pp;

+	int t, perm;

+	perm = 0;

+	omode &= 3;

+	switch(omode) {

+	case OREAD:

+		perm = 4;

+		break;

+	case OWRITE:

+		perm = 2;

+		break;

+	case ORDWR:

+		perm = 6;

+		break;

+	}

+	t = TYPE(c->qid);

+	switch(t) {

+	default:

+		panic("tlsopen");

+	case Qtopdir:

+	case Qprotodir:

+	case Qconvdir:

+		if(omode != OREAD)

+			error(Eperm);

+		break;

+	case Qclonus:

+		tr = newtls(c);

+		if(tr == nil)

+			error(Enodev);

+		break;

+	case Qctl:

+	case Qdata:

+	case Qhand:

+	case Qstatus:

+	case Qstats:

+		if((t == Qstatus || t == Qstats) && omode != OREAD)

+			error(Eperm);

+		if(waserror()) {

+			unlock(&tdlock);

+			nexterror();

+		}

+		lock(&tdlock);

+		pp = &tlsdevs[CONV(c->qid)];

+		tr = *pp;

+		if(tr == nil)

+			error("must open connection using clone");

+		if((perm & (tr->perm>>6)) != perm

+		&& (strcmp(up->user, tr->user) != 0

+		    || (perm & tr->perm) != perm))

+			error(Eperm);

+		if(t == Qhand){

+			if(waserror()){

+				unlock(&tr->hqlock);

+				nexterror();

+			}

+			lock(&tr->hqlock);

+			if(tr->handq != nil)

+				error(Einuse);

+			tr->handq = qopen(2 * MaxCipherRecLen, 0, nil, nil);

+			if(tr->handq == nil)

+				error("cannot allocate handshake queue");

+			tr->hqref = 1;

+			unlock(&tr->hqlock);

+			poperror();

+		}

+		tr->ref++;

+		unlock(&tdlock);

+		poperror();

+		break;

+	case Qencalgs:

+	case Qhashalgs:

+		if(omode != OREAD)

+			error(Eperm);

+		break;

+	}

+	c->mode = openmode(omode);

+	c->flag |= COPEN;

+	c->offset = 0;

+	c->iounit = qiomaxatomic;

+	return c;

+}

+static int

+tlswstat(Chan *c, uchar *dp, int n)

+{

+	Dir *d;

+	TlsRec *tr;

+	int rv;

+	d = nil;

+	if(waserror()){

+		free(d);

+		unlock(&tdlock);

+		nexterror();

+	}

+	lock(&tdlock);

+	tr = tlsdevs[CONV(c->qid)];

+	if(tr == nil)

+		error(Ebadusefd);

+	if(strcmp(tr->user, up->user) != 0)

+		error(Eperm);

+	d = smalloc(n + sizeof *d);

+	rv = convM2D(dp, n, &d[0], (char*) &d[1]);

+	if(rv == 0)

+		error(Eshortstat);

+	if(!emptystr(d->uid))

+		kstrdup(&tr->user, d->uid);

+	if(d->mode != ~0UL)

+		tr->perm = d->mode;

+	free(d);

+	poperror();

+	unlock(&tdlock);

+	return rv;

+}

+static void

+dechandq(TlsRec *tr)

+{

+	lock(&tr->hqlock);

+	if(--tr->hqref == 0){

+		if(tr->handq != nil){

+			qfree(tr->handq);

+			tr->handq = nil;

+		}

+		if(tr->hprocessed != nil){

+			freeb(tr->hprocessed);

+			tr->hprocessed = nil;

+		}

+	}

+	unlock(&tr->hqlock);

+}

+static void

+tlsclose(Chan *c)

+{

+	TlsRec *tr;

+	int t;

+	t = TYPE(c->qid);

+	switch(t) {

+	case Qctl:

+	case Qdata:

+	case Qhand:

+	case Qstatus:

+	case Qstats:

+		if((c->flag & COPEN) == 0)

+			break;

+		tr = tlsdevs[CONV(c->qid)];

+		if(tr == nil)

+			break;

+		if(t == Qhand)

+			dechandq(tr);

+		lock(&tdlock);

+		if(--tr->ref > 0) {

+			unlock(&tdlock);

+			return;

+		}

+		tlsdevs[CONV(c->qid)] = nil;

+		unlock(&tdlock);

+		if(tr->c != nil && !waserror()){

+			checkstate(tr, 0, SOpen|SHandshake|SRClose);

+			sendAlert(tr, ECloseNotify);

+			poperror();

+		}

+		tlshangup(tr);

+		if(tr->c != nil)

+			cclose(tr->c);

+		freeSec(tr->in.sec);

+		freeSec(tr->in.new);

+		freeSec(tr->out.sec);

+		freeSec(tr->out.new);

+		free(tr->user);

+		free(tr);

+		break;

+	}

+}

+/*

+ *  make sure we have at least 'n' bytes in list 'l'

+ */

+static void

+ensure(TlsRec *s, Block **l, int n)

+{

+	int sofar, i;

+	Block *b, *bl;

+	sofar = 0;

+	for(b = *l; b; b = b->next){

+		sofar += BLEN(b);

+		if(sofar >= n)

+			return;

+		l = &b->next;

+	}

+	while(sofar < n){

+		bl = devtab[s->c->type]->bread(s->c, MaxCipherRecLen + RecHdrLen, 0);

+		if(bl == 0)

+			error(Ehungup);

+		*l = bl;

+		i = 0;

+		for(b = bl; b; b = b->next){

+			i += BLEN(b);

+			l = &b->next;

+		}

+		if(i == 0)

+			error(Ehungup);

+		sofar += i;

+	}

+if(s->debug) pprint("ensure read %d\n", sofar);

+}

+/*

+ *  copy 'n' bytes from 'l' into 'p' and free

+ *  the bytes in 'l'

+ */

+static void

+consume(Block **l, uchar *p, int n)

+{

+	Block *b;

+	int i;

+	for(; *l && n > 0; n -= i){

+		b = *l;

+		i = BLEN(b);

+		if(i > n)

+			i = n;

+		memmove(p, b->rp, i);

+		b->rp += i;

+		p += i;

+		if(BLEN(b) < 0)

+			panic("consume");

+		if(BLEN(b))

+			break;

+		*l = b->next;

+		freeb(b);

+	}

+}

+/*

+ *  give back n bytes

+ */

+static void

+regurgitate(TlsRec *s, uchar *p, int n)

+{

+	Block *b;

+	if(n <= 0)

+		return;

+	b = s->unprocessed;

+	if(s->unprocessed == nil || b->rp - b->base < n) {

+		b = allocb(n);

+		memmove(b->wp, p, n);

+		b->wp += n;

+		b->next = s->unprocessed;

+		s->unprocessed = b;

+	} else {

+		b->rp -= n;

+		memmove(b->rp, p, n);

+	}

+}

+/*

+ *  remove at most n bytes from the queue

+ */

+static Block*

+qgrab(Block **l, int n)

+{

+	Block *bb, *b;

+	int i;

+	b = *l;

+	if(BLEN(b) == n){

+		*l = b->next;

+		b->next = nil;

+		return b;

+	}

+	i = 0;

+	for(bb = b; bb != nil && i < n; bb = bb->next)

+		i += BLEN(bb);

+	if(i > n)

+		i = n;

+	bb = allocb(i);

+	consume(l, bb->wp, i);

+	bb->wp += i;

+	return bb;

+}

+static void

+tlsclosed(TlsRec *tr, int new)

+{

+	lock(&tr->statelk);

+	if(tr->state == SOpen || tr->state == SHandshake)

+		tr->state = new;

+	else if((new | tr->state) == (SRClose|SLClose))

+		tr->state = SClosed;

+	unlock(&tr->statelk);

+	alertHand(tr, "close notify");

+}

+/*

+ *  read and process one tls record layer message

+ *  must be called with tr->in.io held

+ *  We can't let Eintrs lose data, since doing so will get

+ *  us out of sync with the sender and break the reliablity

+ *  of the channel.  Eintr only happens during the reads in

+ *  consume.  Therefore we put back any bytes consumed before

+ *  the last call to ensure.

+ */

+static void

+tlsrecread(TlsRec *tr)

+{

+	OneWay *volatile in;

+	Block *volatile b;

+	uchar *p, seq[8], header[RecHdrLen], hmac[MD5dlen];

+	int volatile nconsumed;

+	int len, type, ver, unpad_len;

+	nconsumed = 0;

+	if(waserror()){

+		if(strcmp(up->errstr, Eintr) == 0 && !waserror()){

+			regurgitate(tr, header, nconsumed);

+			poperror();

+		}else

+			tlsError(tr, "channel error");

+		nexterror();

+	}

+	ensure(tr, &tr->unprocessed, RecHdrLen);

+	consume(&tr->unprocessed, header, RecHdrLen);

+if(tr->debug)pprint("consumed %d header\n", RecHdrLen);

+	nconsumed = RecHdrLen;

+	if((tr->handin == 0) && (header[0] & 0x80)){

+		/* Cope with an SSL3 ClientHello expressed in SSL2 record format.

+			This is sent by some clients that we must interoperate

+			with, such as Java's JSSE and Microsoft's Internet Explorer. */

+		len = (get16(header) & ~0x8000) - 3;

+		type = header[2];

+		ver = get16(header + 3);

+		if(type != SSL2ClientHello || len < 22)

+			rcvError(tr, EProtocolVersion, "invalid initial SSL2-like message");

+	}else{  /* normal SSL3 record format */

+		type = header[0];

+		ver = get16(header+1);

+		len = get16(header+3);

+	}

+	if(ver != tr->version && (tr->verset || ver < MinProtoVersion || ver > MaxProtoVersion))

+		rcvError(tr, EProtocolVersion, "devtls expected ver=%x%s, saw (len=%d) type=%x ver=%x '%.12s'",

+			tr->version, tr->verset?"/set":"", len, type, ver, (char*)header);

+	if(len > MaxCipherRecLen || len < 0)

+		rcvError(tr, ERecordOverflow, "record message too long %d", len);

+	ensure(tr, &tr->unprocessed, len);

+	nconsumed = 0;

+	poperror();

+	/*

+	 * If an Eintr happens after this, we'll get out of sync.

+	 * Make sure nothing we call can sleep.

+	 * Errors are ok, as they kill the connection.

+	 * Luckily, allocb won't sleep, it'll just error out.

+	 */

+	b = nil;

+	if(waserror()){

+		if(b != nil)

+			freeb(b);

+		tlsError(tr, "channel error");

+		nexterror();

+	}

+	b = qgrab(&tr->unprocessed, len);

+if(tr->debug) pprint("consumed unprocessed %d\n", len);

+	in = &tr->in;

+	if(waserror()){

+		qunlock(&in->seclock);

+		nexterror();

+	}

+	qlock(&in->seclock);

+	p = b->rp;

+	if(in->sec != nil) {

+		/* to avoid Canvel-Hiltgen-Vaudenay-Vuagnoux attack, all errors here

+		        should look alike, including timing of the response. */

+		unpad_len = (*in->sec->dec)(in->sec, p, len);

+		if(unpad_len >= in->sec->maclen)

+			len = unpad_len - in->sec->maclen;

+if(tr->debug) pprint("decrypted %d\n", unpad_len);

+if(tr->debug) pdump(unpad_len, p, "decrypted:");

+		/* update length */

+		put16(header+3, len);

+		put64(seq, in->seq);

+		in->seq++;

+		(*tr->packMac)(in->sec, in->sec->mackey, seq, header, p, len, hmac);

+		if(unpad_len < in->sec->maclen)

+			rcvError(tr, EBadRecordMac, "short record mac");

+		if(memcmp(hmac, p+len, in->sec->maclen) != 0)

+			rcvError(tr, EBadRecordMac, "record mac mismatch");

+		b->wp = b->rp + len;

+	}

+	qunlock(&in->seclock);

+	poperror();

+	if(len < 0)

+		rcvError(tr, EDecodeError, "runt record message");

+	switch(type) {

+	default:

+		rcvError(tr, EIllegalParameter, "invalid record message 0x%x", type);

+		break;

+	case RChangeCipherSpec:

+		if(len != 1 || p[0] != 1)

+			rcvError(tr, EDecodeError, "invalid change cipher spec");

+		qlock(&in->seclock);

+		if(in->new == nil){

+			qunlock(&in->seclock);

+			rcvError(tr, EUnexpectedMessage, "unexpected change cipher spec");

+		}

+		freeSec(in->sec);

+		in->sec = in->new;

+		in->new = nil;

+		in->seq = 0;

+		qunlock(&in->seclock);

+		break;

+	case RAlert:

+		if(len != 2)

+			rcvError(tr, EDecodeError, "invalid alert");

+		if(p[0] == 2)

+			rcvAlert(tr, p[1]);

+		if(p[0] != 1)

+			rcvError(tr, EIllegalParameter, "invalid alert fatal code");

+		/*

+		 * propate non-fatal alerts to handshaker

+		 */

+		if(p[1] == ECloseNotify) {

+			tlsclosed(tr, SRClose);

+			if(tr->opened)

+				error("tls hungup");

+			error("close notify");

+		}

+		if(p[1] == ENoRenegotiation)

+			alertHand(tr, "no renegotiation");

+		else if(p[1] == EUserCanceled)

+			alertHand(tr, "handshake canceled by user");

+		else

+			rcvError(tr, EIllegalParameter, "invalid alert code");

+		break;

+	case RHandshake:

+		/*

+		 * don't worry about dropping the block

+		 * qbwrite always queues even if flow controlled and interrupted.

+		 *

+		 * if there isn't any handshaker, ignore the request,

+		 * but notify the other side we are doing so.

+		 */

+		lock(&tr->hqlock);

+		if(tr->handq != nil){

+			tr->hqref++;

+			unlock(&tr->hqlock);

+			if(waserror()){

+				dechandq(tr);

+				nexterror();

+			}

+			b = padblock(b, 1);

+			*b->rp = RHandshake;

+			qbwrite(tr->handq, b);

+			b = nil;

+			poperror();

+			dechandq(tr);

+		}else{

+			unlock(&tr->hqlock);

+			if(tr->verset && tr->version != SSL3Version && !waserror()){

+				sendAlert(tr, ENoRenegotiation);

+				poperror();

+			}

+		}

+		break;

+	case SSL2ClientHello:

+		lock(&tr->hqlock);

+		if(tr->handq != nil){

+			tr->hqref++;

+			unlock(&tr->hqlock);

+			if(waserror()){

+				dechandq(tr);

+				nexterror();

+			}

+			/* Pass the SSL2 format data, so that the handshake code can compute

+				the correct checksums.  HSSL2ClientHello = HandshakeType 9 is

+				unused in RFC2246. */

+			b = padblock(b, 8);

+			b->rp[0] = RHandshake;

+			b->rp[1] = HSSL2ClientHello;

+			put24(&b->rp[2], len+3);

+			b->rp[5] = SSL2ClientHello;

+			put16(&b->rp[6], ver);

+			qbwrite(tr->handq, b);

+			b = nil;

+			poperror();

+			dechandq(tr);

+		}else{

+			unlock(&tr->hqlock);

+			if(tr->verset && tr->version != SSL3Version && !waserror()){

+				sendAlert(tr, ENoRenegotiation);

+				poperror();

+			}

+		}

+		break;

+	case RApplication:

+		if(!tr->opened)

+			rcvError(tr, EUnexpectedMessage, "application message received before handshake completed");

+		if(BLEN(b) > 0){

+			tr->processed = b;

+			b = nil;

+		}

+		break;

+	}

+	if(b != nil)

+		freeb(b);

+	poperror();

+}

+/*

+ * got a fatal alert message

+ */

+static void

+rcvAlert(TlsRec *tr, int err)

+{

+	char *s;

+	int i;

+	s = "unknown error";

+	for(i=0; i < nelem(tlserrs); i++){

+		if(tlserrs[i].err == err){

+			s = tlserrs[i].msg;

+			break;

+		}

+	}

+if(tr->debug) pprint("rcvAlert: %s\n", s);

+	tlsError(tr, s);

+	if(!tr->opened)

+		error(s);

+	error("tls error");

+}

+/*

+ * found an error while decoding the input stream

+ */

+static void

+rcvError(TlsRec *tr, int err, char *fmt, ...)

+{

+	char msg[ERRMAX];

+	va_list arg;

+	va_start(arg, fmt);

+	vseprint(msg, msg+sizeof(msg), fmt, arg);

+	va_end(arg);

+if(tr->debug) pprint("rcvError: %s\n", msg);

+	sendAlert(tr, err);

+	if(!tr->opened)

+		error(msg);

+	error("tls error");

+}

+/*

+ * make sure the next hand operation returns with a 'msg' error

+ */

+static void

+alertHand(TlsRec *tr, char *msg)

+{

+	Block *b;

+	int n;

+	lock(&tr->hqlock);

+	if(tr->handq == nil){

+		unlock(&tr->hqlock);

+		return;

+	}

+	tr->hqref++;

+	unlock(&tr->hqlock);

+	n = strlen(msg);

+	if(waserror()){

+		dechandq(tr);

+		nexterror();

+	}

+	b = allocb(n + 2);

+	*b->wp++ = RAlert;

+	memmove(b->wp, msg, n + 1);

+	b->wp += n + 1;

+	qbwrite(tr->handq, b);

+	poperror();

+	dechandq(tr);

+}

+static void

+checkstate(TlsRec *tr, int ishand, int ok)

+{

+	int state;

+	lock(&tr->statelk);

+	state = tr->state;

+	unlock(&tr->statelk);

+	if(state & ok)

+		return;

+	switch(state){

+	case SHandshake:

+	case SOpen:

+		break;

+	case SError:

+	case SAlert:

+		if(ishand)

+			error(tr->err);

+		error("tls error");

+	case SRClose:

+	case SLClose:

+	case SClosed:

+		error("tls hungup");

+	}

+	error("tls improperly configured");

+}

+static Block*

+tlsbread(Chan *c, long n, ulong offset)

+{

+	int ty;

+	Block *b;

+	TlsRec *volatile tr;

+	ty = TYPE(c->qid);

+	switch(ty) {

+	default:

+		return devbread(c, n, offset);

+	case Qhand:

+	case Qdata:

+		break;

+	}

+	tr = tlsdevs[CONV(c->qid)];

+	if(tr == nil)

+		panic("tlsbread");

+	if(waserror()){

+		qunlock(&tr->in.io);

+		nexterror();

+	}

+	qlock(&tr->in.io);

+	if(ty == Qdata){

+		checkstate(tr, 0, SOpen);

+		while(tr->processed == nil)

+			tlsrecread(tr);

+		/* return at most what was asked for */

+		b = qgrab(&tr->processed, n);

+if(tr->debug) pprint("consumed processed %d\n", BLEN(b));

+if(tr->debug) pdump(BLEN(b), b->rp, "consumed:");

+		qunlock(&tr->in.io);

+		poperror();

+		tr->datain += BLEN(b);

+	}else{

+		checkstate(tr, 1, SOpen|SHandshake|SLClose);

+		/*

+		 * it's ok to look at state without the lock

+		 * since it only protects reading records,

+		 * and we have that tr->in.io held.

+		 */

+		while(!tr->opened && tr->hprocessed == nil && !qcanread(tr->handq))

+			tlsrecread(tr);

+		qunlock(&tr->in.io);

+		poperror();

+		if(waserror()){

+			qunlock(&tr->hqread);

+			nexterror();

+		}

+		qlock(&tr->hqread);

+		if(tr->hprocessed == nil){

+			b = qbread(tr->handq, MaxRecLen + 1);

+			if(*b->rp++ == RAlert){

+				kstrcpy(up->errstr, (char*)b->rp, ERRMAX);

+				freeb(b);

+				nexterror();

+			}

+			tr->hprocessed = b;

+		}

+		b = qgrab(&tr->hprocessed, n);

+		poperror();

+		qunlock(&tr->hqread);

+		tr->handin += BLEN(b);

+	}

+	return b;

+}

+static long

+tlsread(Chan *c, void *a, long n, vlong off)

+{

+	Block *volatile b;

+	Block *nb;

+	uchar *va;

+	int i, ty;

+	char *buf, *s, *e;

+	ulong offset = off;

+	TlsRec * tr;

+	if(c->qid.type & QTDIR)

+		return devdirread(c, a, n, 0, 0, tlsgen);

+	tr = tlsdevs[CONV(c->qid)];

+	ty = TYPE(c->qid);

+	switch(ty) {

+	default:

+		error(Ebadusefd);

+	case Qstatus:

+		buf = smalloc(Statlen);

+		qlock(&tr->in.seclock);

+		qlock(&tr->out.seclock);

+		s = buf;

+		e = buf + Statlen;

+		s = seprint(s, e, "State: %s\n", tlsstate(tr->state));

+		s = seprint(s, e, "Version: 0x%x\n", tr->version);

+		if(tr->in.sec != nil)

+			s = seprint(s, e, "EncIn: %s\nHashIn: %s\n", tr->in.sec->encalg, tr->in.sec->hashalg);

+		if(tr->in.new != nil)

+			s = seprint(s, e, "NewEncIn: %s\nNewHashIn: %s\n", tr->in.new->encalg, tr->in.new->hashalg);

+		if(tr->out.sec != nil)

+			s = seprint(s, e, "EncOut: %s\nHashOut: %s\n", tr->out.sec->encalg, tr->out.sec->hashalg);

+		if(tr->out.new != nil)

+			seprint(s, e, "NewEncOut: %s\nNewHashOut: %s\n", tr->out.new->encalg, tr->out.new->hashalg);

+		qunlock(&tr->in.seclock);

+		qunlock(&tr->out.seclock);

+		n = readstr(offset, a, n, buf);

+		free(buf);

+		return n;

+	case Qstats:

+		buf = smalloc(Statlen);

+		s = buf;

+		e = buf + Statlen;

+		s = seprint(s, e, "DataIn: %lld\n", tr->datain);

+		s = seprint(s, e, "DataOut: %lld\n", tr->dataout);

+		s = seprint(s, e, "HandIn: %lld\n", tr->handin);

+		seprint(s, e, "HandOut: %lld\n", tr->handout);

+		n = readstr(offset, a, n, buf);

+		free(buf);

+		return n;

+	case Qctl:

+		buf = smalloc(Statlen);

+		snprint(buf, Statlen, "%llud", CONV(c->qid));

+		n = readstr(offset, a, n, buf);

+		free(buf);

+		return n;

+	case Qdata:

+	case Qhand:

+		b = tlsbread(c, n, offset);

+		break;

+	case Qencalgs:

+		return readstr(offset, a, n, encalgs);

+	case Qhashalgs:

+		return readstr(offset, a, n, hashalgs);

+	}

+	if(waserror()){

+		freeblist(b);

+		nexterror();

+	}

+	n = 0;

+	va = a;

+	for(nb = b; nb; nb = nb->next){

+		i = BLEN(nb);

+		memmove(va+n, nb->rp, i);

+		n += i;

+	}

+	freeblist(b);

+	poperror();

+	return n;

+}

+/*

+ *  write a block in tls records

+ */

+static void

+tlsrecwrite(TlsRec *tr, int type, Block *b)

+{

+	Block *volatile bb;

+	Block *nb;

+	uchar *p, seq[8];

+	OneWay *volatile out;

+	int n, maclen, pad, ok;

+	out = &tr->out;

+	bb = b;

+	if(waserror()){

+		qunlock(&out->io);

+		if(bb != nil)

+			freeb(bb);

+		nexterror();

+	}

+	qlock(&out->io);

+if(tr->debug)pprint("send %d\n", BLEN(b));

+if(tr->debug)pdump(BLEN(b), b->rp, "sent:");

+	ok = SHandshake|SOpen|SRClose;

+	if(type == RAlert)

+		ok |= SAlert;

+	while(bb != nil){

+		checkstate(tr, type != RApplication, ok);

+		/*

+		 * get at most one maximal record's input,

+		 * with padding on the front for header and

+		 * back for mac and maximal block padding.

+		 */

+		if(waserror()){

+			qunlock(&out->seclock);

+			nexterror();

+		}

+		qlock(&out->seclock);

+		maclen = 0;

+		pad = 0;

+		if(out->sec != nil){

+			maclen = out->sec->maclen;

+			pad = maclen + out->sec->block;

+		}

+		n = BLEN(bb);

+		if(n > MaxRecLen){

+			n = MaxRecLen;

+			nb = allocb(n + pad + RecHdrLen);

+			memmove(nb->wp + RecHdrLen, bb->rp, n);

+			bb->rp += n;

+		}else{

+			/*

+			 * carefully reuse bb so it will get freed if we're out of memory

+			 */

+			bb = padblock(bb, RecHdrLen);

+			if(pad)

+				nb = padblock(bb, -pad);

+			else

+				nb = bb;

+			bb = nil;

+		}

+		p = nb->rp;

+		p[0] = type;

+		put16(p+1, tr->version);

+		put16(p+3, n);

+		if(out->sec != nil){

+			put64(seq, out->seq);

+			out->seq++;

+			(*tr->packMac)(out->sec, out->sec->mackey, seq, p, p + RecHdrLen, n, p + RecHdrLen + n);

+			n += maclen;

+			/* encrypt */

+			n = (*out->sec->enc)(out->sec, p + RecHdrLen, n);

+			nb->wp = p + RecHdrLen + n;

+			/* update length */

+			put16(p+3, n);

+		}

+		if(type == RChangeCipherSpec){

+			if(out->new == nil)

+				error("change cipher without a new cipher");

+			freeSec(out->sec);

+			out->sec = out->new;

+			out->new = nil;

+			out->seq = 0;

+		}

+		qunlock(&out->seclock);

+		poperror();

+		/*

+		 * if bwrite error's, we assume the block is queued.

+		 * if not, we're out of sync with the receiver and will not recover.

+		 */

+		if(waserror()){

+			if(strcmp(up->errstr, "interrupted") != 0)

+				tlsError(tr, "channel error");

+			nexterror();

+		}

+		devtab[tr->c->type]->bwrite(tr->c, nb, 0);

+		poperror();

+	}

+	qunlock(&out->io);

+	poperror();

+}

+static long

+tlsbwrite(Chan *c, Block *b, ulong offset)

+{

+	int ty;

+	ulong n;

+	TlsRec *tr;

+	n = BLEN(b);

+	tr = tlsdevs[CONV(c->qid)];

+	if(tr == nil)

+		panic("tlsbread");

+	ty = TYPE(c->qid);

+	switch(ty) {

+	default:

+		return devbwrite(c, b, offset);

+	case Qhand:

+		tlsrecwrite(tr, RHandshake, b);

+		tr->handout += n;

+		break;

+	case Qdata:

+		checkstate(tr, 0, SOpen);

+		tlsrecwrite(tr, RApplication, b);

+		tr->dataout += n;

+		break;

+	}

+	return n;

+}

+typedef struct Hashalg Hashalg;

+struct Hashalg

+{

+	char	*name;

+	int	maclen;

+	void	(*initkey)(Hashalg *, int, Secret *, uchar*);

+};

+static void

+initmd5key(Hashalg *ha, int version, Secret *s, uchar *p)

+{

+	s->maclen = ha->maclen;

+	if(version == SSL3Version)

+		s->mac = sslmac_md5;

+	else

+		s->mac = hmac_md5;

+	memmove(s->mackey, p, ha->maclen);

+}

+static void

+initclearmac(Hashalg *unused1, int unused2, Secret *s, uchar *unused3)

+{

+	s->maclen = 0;

+	s->mac = nomac;

+}

+static void

+initsha1key(Hashalg *ha, int version, Secret *s, uchar *p)

+{

+	s->maclen = ha->maclen;

+	if(version == SSL3Version)

+		s->mac = sslmac_sha1;

+	else

+		s->mac = hmac_sha1;

+	memmove(s->mackey, p, ha->maclen);

+}

+static Hashalg hashtab[] =

+{

+	{ "clear", 0, initclearmac, },

+	{ "md5", MD5dlen, initmd5key, },

+	{ "sha1", SHA1dlen, initsha1key, },

+	{ 0 }

+};

+static Hashalg*

+parsehashalg(char *p)

+{

+	Hashalg *ha;

+	for(ha = hashtab; ha->name; ha++)

+		if(strcmp(p, ha->name) == 0)

+			return ha;

+	error("unsupported hash algorithm");

+	return nil;

+}

+typedef struct Encalg Encalg;

+struct Encalg

+{

+	char	*name;

+	int	keylen;

+	int	ivlen;

+	void	(*initkey)(Encalg *ea, Secret *, uchar*, uchar*);

+};

+static void

+initRC4key(Encalg *ea, Secret *s, uchar *p, uchar *unused1)

+{

+	s->enckey = smalloc(sizeof(RC4state));

+	s->enc = rc4enc;

+	s->dec = rc4enc;

+	s->block = 0;

+	setupRC4state(s->enckey, p, ea->keylen);

+}

+static void

+initDES3key(Encalg *unused1, Secret *s, uchar *p, uchar *iv)

+{

+	s->enckey = smalloc(sizeof(DES3state));

+	s->enc = des3enc;

+	s->dec = des3dec;

+	s->block = 8;

+	setupDES3state(s->enckey, (uchar(*)[8])p, iv);

+}

+static void

+initclearenc(Encalg *unused1, Secret *s, uchar *unused2, uchar *unused3)

+{

+	s->enc = noenc;

+	s->dec = noenc;

+	s->block = 0;

+}

+static Encalg encrypttab[] =

+{

+	{ "clear", 0, 0, initclearenc },

+	{ "rc4_128", 128/8, 0, initRC4key },

+	{ "3des_ede_cbc", 3 * 8, 8, initDES3key },

+	{ 0 }

+};

+static Encalg*

+parseencalg(char *p)

+{

+	Encalg *ea;

+	for(ea = encrypttab; ea->name; ea++)

+		if(strcmp(p, ea->name) == 0)

+			return ea;

+	error("unsupported encryption algorithm");

+	return nil;

+}

+static long

+tlswrite(Chan *c, void *a, long n, vlong off)

+{

+	Encalg *ea;

+	Hashalg *ha;

+	TlsRec *volatile tr;

+	Secret *volatile tos, *volatile toc;

+	Block *volatile b;

+	Cmdbuf *volatile cb;

+	int m, ty;

+	char *p, *e;

+	uchar *volatile x;

+	ulong offset = off;

+	tr = tlsdevs[CONV(c->qid)];

+	if(tr == nil)

+		panic("tlswrite");

+	ty = TYPE(c->qid);

+	switch(ty){

+	case Qdata:

+	case Qhand:

+		p = a;

+		e = p + n;

+		do{

+			m = e - p;

+			if(m > MaxRecLen)

+				m = MaxRecLen;

+			b = allocb(m);

+			if(waserror()){

+				freeb(b);

+				nexterror();

+			}

+			memmove(b->wp, p, m);

+			poperror();

+			b->wp += m;

+			tlsbwrite(c, b, offset);

+			p += m;

+		}while(p < e);

+		return n;

+	case Qctl:

+		break;

+	default:

+		error(Ebadusefd);

+		return -1;

+	}

+	cb = parsecmd(a, n);

+	if(waserror()){

+		free(cb);

+		nexterror();

+	}

+	if(cb->nf < 1)

+		error("short control request");

+	/* mutex with operations using what we're about to change */

+	if(waserror()){

+		qunlock(&tr->in.seclock);

+		qunlock(&tr->out.seclock);

+		nexterror();

+	}

+	qlock(&tr->in.seclock);

+	qlock(&tr->out.seclock);

+	if(strcmp(cb->f[0], "fd") == 0){

+		if(cb->nf != 3)

+			error("usage: fd open-fd version");

+		if(tr->c != nil)

+			error(Einuse);

+		m = strtol(cb->f[2], nil, 0);

+		if(m < MinProtoVersion || m > MaxProtoVersion)

+			error("unsupported version");

+		tr->c = buftochan(cb->f[1]);

+		tr->version = m;

+		tlsSetState(tr, SHandshake, SClosed);

+	}else if(strcmp(cb->f[0], "version") == 0){

+		if(cb->nf != 2)

+			error("usage: version vers");

+		if(tr->c == nil)

+			error("must set fd before version");

+		if(tr->verset)

+			error("version already set");

+		m = strtol(cb->f[1], nil, 0);

+		if(m == SSL3Version)

+			tr->packMac = sslPackMac;

+		else if(m == TLSVersion)

+			tr->packMac = tlsPackMac;

+		else

+			error("unsupported version");

+		tr->verset = 1;

+		tr->version = m;

+	}else if(strcmp(cb->f[0], "secret") == 0){

+		if(cb->nf != 5)

+			error("usage: secret hashalg encalg isclient secretdata");

+		if(tr->c == nil || !tr->verset)

+			error("must set fd and version before secrets");

+		if(tr->in.new != nil){

+			freeSec(tr->in.new);

+			tr->in.new = nil;

+		}

+		if(tr->out.new != nil){

+			freeSec(tr->out.new);

+			tr->out.new = nil;

+		}

+		ha = parsehashalg(cb->f[1]);

+		ea = parseencalg(cb->f[2]);

+		p = cb->f[4];

+		m = (strlen(p)*3)/2;

+		x = smalloc(m);

+		tos = nil;

+		toc = nil;

+		if(waserror()){

+			freeSec(tos);

+			freeSec(toc);

+			free(x);

+			nexterror();

+		}

+		m = dec64(x, m, p, strlen(p));

+		if(m < 2 * ha->maclen + 2 * ea->keylen + 2 * ea->ivlen)

+			error("not enough secret data provided");

+		tos = smalloc(sizeof(Secret));

+		toc = smalloc(sizeof(Secret));

+		if(!ha->initkey || !ea->initkey)

+			error("misimplemented secret algorithm");

+		(*ha->initkey)(ha, tr->version, tos, &x[0]);

+		(*ha->initkey)(ha, tr->version, toc, &x[ha->maclen]);

+		(*ea->initkey)(ea, tos, &x[2 * ha->maclen], &x[2 * ha->maclen + 2 * ea->keylen]);

+		(*ea->initkey)(ea, toc, &x[2 * ha->maclen + ea->keylen], &x[2 * ha->maclen + 2 * ea->keylen + ea->ivlen]);

+		if(!tos->mac || !tos->enc || !tos->dec

+		|| !toc->mac || !toc->enc || !toc->dec)

+			error("missing algorithm implementations");

+		if(strtol(cb->f[3], nil, 0) == 0){

+			tr->in.new = tos;

+			tr->out.new = toc;

+		}else{

+			tr->in.new = toc;

+			tr->out.new = tos;

+		}

+		if(tr->version == SSL3Version){

+			toc->unpad = sslunpad;

+			tos->unpad = sslunpad;

+		}else{

+			toc->unpad = tlsunpad;

+			tos->unpad = tlsunpad;

+		}

+		toc->encalg = ea->name;

+		toc->hashalg = ha->name;

+		tos->encalg = ea->name;

+		tos->hashalg = ha->name;

+		free(x);

+		poperror();

+	}else if(strcmp(cb->f[0], "changecipher") == 0){

+		if(cb->nf != 1)

+			error("usage: changecipher");

+		if(tr->out.new == nil)

+			error("cannot change cipher spec without setting secret");

+		qunlock(&tr->in.seclock);

+		qunlock(&tr->out.seclock);

+		poperror();

+		free(cb);

+		poperror();

+		/*

+		 * the real work is done as the message is written

+		 * so the stream is encrypted in sync.

+		 */

+		b = allocb(1);

+		*b->wp++ = 1;

+		tlsrecwrite(tr, RChangeCipherSpec, b);

+		return n;

+	}else if(strcmp(cb->f[0], "opened") == 0){

+		if(cb->nf != 1)

+			error("usage: opened");

+		if(tr->in.sec == nil || tr->out.sec == nil)

+			error("cipher must be configured before enabling data messages");

+		lock(&tr->statelk);

+		if(tr->state != SHandshake && tr->state != SOpen){

+			unlock(&tr->statelk);

+			error("cannot enable data messages");

+		}

+		tr->state = SOpen;

+		unlock(&tr->statelk);

+		tr->opened = 1;

+	}else if(strcmp(cb->f[0], "alert") == 0){

+		if(cb->nf != 2)

+			error("usage: alert n");

+		if(tr->c == nil)

+			error("must set fd before sending alerts");

+		m = strtol(cb->f[1], nil, 0);

+		qunlock(&tr->in.seclock);

+		qunlock(&tr->out.seclock);

+		poperror();

+		free(cb);

+		poperror();

+		sendAlert(tr, m);

+		if(m == ECloseNotify)

+			tlsclosed(tr, SLClose);

+		return n;

+	} else if(strcmp(cb->f[0], "debug") == 0){

+		if(cb->nf == 2){

+			if(strcmp(cb->f[1], "on") == 0)

+				tr->debug = 1;

+			else

+				tr->debug = 0;

+		} else

+			tr->debug = 1;

+	} else

+		error(Ebadarg);

+	qunlock(&tr->in.seclock);

+	qunlock(&tr->out.seclock);

+	poperror();

+	free(cb);

+	poperror();

+	return n;

+}

+static void

+tlsinit(void)

+{

+	struct Encalg *e;

+	struct Hashalg *h;

+	int n;

+	char *cp;

+	static int already;

+	if(!already){

+		fmtinstall('H', encodefmt);

+		already = 1;

+	}

+	tlsdevs = smalloc(sizeof(TlsRec*) * maxtlsdevs);

+	trnames = smalloc((sizeof *trnames) * maxtlsdevs);

+	n = 1;

+	for(e = encrypttab; e->name != nil; e++)

+		n += strlen(e->name) + 1;

+	cp = encalgs = smalloc(n);

+	for(e = encrypttab;;){

+		strcpy(cp, e->name);

+		cp += strlen(e->name);

+		e++;

+		if(e->name == nil)

+			break;

+		*cp++ = ' ';

+	}

+	*cp = 0;

+	n = 1;

+	for(h = hashtab; h->name != nil; h++)

+		n += strlen(h->name) + 1;

+	cp = hashalgs = smalloc(n);

+	for(h = hashtab;;){

+		strcpy(cp, h->name);

+		cp += strlen(h->name);

+		h++;

+		if(h->name == nil)

+			break;

+		*cp++ = ' ';

+	}

+	*cp = 0;

+}

+Dev tlsdevtab = {

+	'a',

+	"tls",

+	devreset,

+	tlsinit,

+	devshutdown,

+	tlsattach,

+	tlswalk,

+	tlsstat,

+	tlsopen,

+	devcreate,

+	tlsclose,

+	tlsread,

+	tlsbread,

+	tlswrite,

+	tlsbwrite,

+	devremove,

+	tlswstat,

+};

+/* get channel associated with an fd */

+static Chan*

+buftochan(char *p)

+{

+	Chan *c;

+	int fd;

+	if(p == 0)

+		error(Ebadarg);

+	fd = strtoul(p, 0, 0);

+	if(fd < 0)

+		error(Ebadarg);

+	c = fdtochan(fd, -1, 0, 1);	/* error check and inc ref */

+	return c;

+}

+static void

+sendAlert(TlsRec *tr, int err)

+{

+	Block *b;

+	int i, fatal;

+	char *msg;

+if(tr->debug)pprint("sendAlert %d\n", err);

+	fatal = 1;

+	msg = "tls unknown alert";

+	for(i=0; i < nelem(tlserrs); i++) {

+		if(tlserrs[i].err == err) {

+			msg = tlserrs[i].msg;

+			if(tr->version == SSL3Version)

+				err = tlserrs[i].sslerr;

+			else

+				err = tlserrs[i].tlserr;

+			fatal = tlserrs[i].fatal;

+			break;

+		}

+	}

+	if(!waserror()){

+		b = allocb(2);

+		*b->wp++ = fatal + 1;

+		*b->wp++ = err;

+		if(fatal)

+			tlsSetState(tr, SAlert, SOpen|SHandshake|SRClose);

+		tlsrecwrite(tr, RAlert, b);

+		poperror();

+	}

+	if(fatal)

+		tlsError(tr, msg);

+}

+static void

+tlsError(TlsRec *tr, char *msg)

+{

+	int s;

+if(tr->debug)pprint("tleError %s\n", msg);

+	lock(&tr->statelk);

+	s = tr->state;

+	tr->state = SError;

+	if(s != SError){

+		strncpy(tr->err, msg, ERRMAX - 1);

+		tr->err[ERRMAX - 1] = '\0';

+	}

+	unlock(&tr->statelk);

+	if(s != SError)

+		alertHand(tr, msg);

+}

+static void

+tlsSetState(TlsRec *tr, int new, int old)

+{

+	lock(&tr->statelk);

+	if(tr->state & old)

+		tr->state = new;

+	unlock(&tr->statelk);

+}

+/* hand up a digest connection */

+static void

+tlshangup(TlsRec *tr)

+{

+	Block *b;

+	qlock(&tr->in.io);

+	for(b = tr->processed; b; b = tr->processed){

+		tr->processed = b->next;

+		freeb(b);

+	}

+	if(tr->unprocessed != nil){

+		freeb(tr->unprocessed);

+		tr->unprocessed = nil;

+	}

+	qunlock(&tr->in.io);

+	tlsSetState(tr, SClosed, ~0);

+}

+static TlsRec*

+newtls(Chan *ch)

+{

+	TlsRec **pp, **ep, **np;

+	char **nmp;

+	int t, newmax;

+	if(waserror()) {

+		unlock(&tdlock);

+		nexterror();

+	}

+	lock(&tdlock);

+	ep = &tlsdevs[maxtlsdevs];

+	for(pp = tlsdevs; pp < ep; pp++)

+		if(*pp == nil)

+			break;

+	if(pp >= ep) {

+		if(maxtlsdevs >= MaxTlsDevs) {

+			unlock(&tdlock);

+			poperror();

+			return nil;

+		}

+		newmax = 2 * maxtlsdevs;

+		if(newmax > MaxTlsDevs)

+			newmax = MaxTlsDevs;

+		np = smalloc(sizeof(TlsRec*) * newmax);

+		memmove(np, tlsdevs, sizeof(TlsRec*) * maxtlsdevs);

+		tlsdevs = np;

+		pp = &tlsdevs[maxtlsdevs];

+		memset(pp, 0, sizeof(TlsRec*)*(newmax - maxtlsdevs));

+		nmp = smalloc(sizeof *nmp * newmax);

+		memmove(nmp, trnames, sizeof *nmp * maxtlsdevs);

+		trnames = nmp;

+		maxtlsdevs = newmax;

+	}

+	*pp = mktlsrec();

+	if(pp - tlsdevs >= tdhiwat)

+		tdhiwat++;

+	t = TYPE(ch->qid);

+	if(t == Qclonus)

+		t = Qctl;

+	ch->qid.path = QID(pp - tlsdevs, t);

+	ch->qid.vers = 0;

+	unlock(&tdlock);

+	poperror();

+	return *pp;

+}

+static TlsRec *

+mktlsrec(void)

+{

+	TlsRec *tr;

+	tr = mallocz(sizeof(*tr), 1);

+	if(tr == nil)

+		error(Enomem);

+	tr->state = SClosed;

+	tr->ref = 1;

+	kstrdup(&tr->user, up->user);

+	tr->perm = 0660;

+	return tr;

+}

+static char*

+tlsstate(int s)

+{

+	switch(s){

+	case SHandshake:

+		return "Handshaking";

+	case SOpen:

+		return "Established";

+	case SRClose:

+		return "RemoteClosed";

+	case SLClose:

+		return "LocalClosed";

+	case SAlert:

+		return "Alerting";

+	case SError:

+		return "Errored";

+	case SClosed:

+		return "Closed";

+	}

+	return "Unknown";

+}

+static void

+freeSec(Secret *s)

+{

+	if(s != nil){

+		free(s->enckey);

+		free(s);

+	}

+}

+static int

+noenc(Secret *unused1, uchar *unused2, int n)

+{

+	return n;

+}

+static int

+rc4enc(Secret *sec, uchar *buf, int n)

+{

+	rc4(sec->enckey, buf, n);

+	return n;

+}

+static int

+tlsunpad(uchar *buf, int n, int block)

+{

+	int pad, nn;

+	pad = buf[n - 1];

+	nn = n - 1 - pad;

+	if(nn <= 0 || n % block)

+		return -1;

+	while(--n > nn)

+		if(pad != buf[n - 1])

+			return -1;

+	return nn;

+}

+static int

+sslunpad(uchar *buf, int n, int block)

+{

+	int pad, nn;

+	pad = buf[n - 1];

+	nn = n - 1 - pad;

+	if(nn <= 0 || n % block)

+		return -1;

+	return nn;

+}

+static int

+blockpad(uchar *buf, int n, int block)

+{

+	int pad, nn;

+	nn = n + block;

+	nn -= nn % block;

+	pad = nn - (n + 1);

+	while(n < nn)

+		buf[n++] = pad;

+	return nn;

+}

+static int

+des3enc(Secret *sec, uchar *buf, int n)

+{

+	n = blockpad(buf, n, 8);

+	des3CBCencrypt(buf, n, sec->enckey);

+	return n;

+}

+static int

+des3dec(Secret *sec, uchar *buf, int n)

+{

+	des3CBCdecrypt(buf, n, sec->enckey);

+	return (*sec->unpad)(buf, n, 8);

+}

+static DigestState*

+nomac(uchar *unused1, ulong unused2, uchar *unused3, ulong unused4,

+	uchar *unused5, DigestState *unused6)

+{

+	return nil;

+}

+/*

+ * sslmac: mac calculations for ssl 3.0 only; tls 1.0 uses the standard hmac.

+ */

+static DigestState*

+sslmac_x(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s,

+	DigestState*(*x)(uchar*, ulong, uchar*, DigestState*), int xlen, int padlen)

+{

+	int i;

+	uchar pad[48], innerdigest[20];

+	if(xlen > sizeof(innerdigest)

+	|| padlen > sizeof(pad))

+		return nil;

+	if(klen>64)

+		return nil;

+	/* first time through */

+	if(s == nil){

+		for(i=0; i<padlen; i++)

+			pad[i] = 0x36;

+		s = (*x)(key, klen, nil, nil);

+		s = (*x)(pad, padlen, nil, s);

+		if(s == nil)

+			return nil;

+	}

+	s = (*x)(p, len, nil, s);

+	if(digest == nil)

+		return s;

+	/* last time through */

+	for(i=0; i<padlen; i++)

+		pad[i] = 0x5c;

+	(*x)(nil, 0, innerdigest, s);

+	s = (*x)(key, klen, nil, nil);

+	s = (*x)(pad, padlen, nil, s);

+	(*x)(innerdigest, xlen, digest, s);

+	return nil;

+}

+static DigestState*

+sslmac_sha1(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s)

+{

+	return sslmac_x(p, len, key, klen, digest, s, sha1, SHA1dlen, 40);

+}

+static DigestState*

+sslmac_md5(uchar *p, ulong len, uchar *key, ulong klen, uchar *digest, DigestState *s)

+{

+	return sslmac_x(p, len, key, klen, digest, s, md5, MD5dlen, 48);

+}

+static void

+sslPackMac(Secret *sec, uchar *mackey, uchar *seq, uchar *header, uchar *body, int len, uchar *mac)

+{

+	DigestState *s;

+	uchar buf[11];

+	memmove(buf, seq, 8);

+	buf[8] = header[0];

+	buf[9] = header[3];

+	buf[10] = header[4];

+	s = (*sec->mac)(buf, 11, mackey, sec->maclen, 0, 0);

+	(*sec->mac)(body, len, mackey, sec->maclen, mac, s);

+}

+static void

+tlsPackMac(Secret *sec, uchar *mackey, uchar *seq, uchar *header, uchar *body, int len, uchar *mac)

+{

+	DigestState *s;

+	uchar buf[13];

+	memmove(buf, seq, 8);

+	memmove(&buf[8], header, 5);

+	s = (*sec->mac)(buf, 13, mackey, sec->maclen, 0, 0);

+	(*sec->mac)(body, len, mackey, sec->maclen, mac, s);

+}

+static void

+put32(uchar *p, u32int x)

+{

+	p[0] = x>>24;

+	p[1] = x>>16;

+	p[2] = x>>8;

+	p[3] = x;

+}

+static void

+put64(uchar *p, vlong x)

+{

+	put32(p, (u32int)(x >> 32));

+	put32(p+4, (u32int)x);

+}

+static void

+put24(uchar *p, int x)

+{

+	p[0] = x>>16;

+	p[1] = x>>8;

+	p[2] = x;

+}

+static void

+put16(uchar *p, int x)

+{

+	p[0] = x>>8;

+	p[1] = x;

+}

+static u32int

+get32(uchar *p)

+{

+	return (p[0]<<24)|(p[1]<<16)|(p[2]<<8)|p[3];

+}

+static int

+get16(uchar *p)

+{

+	return (p[0]<<8)|p[1];

+}

+static char *charmap = "0123456789abcdef";

+static void

+pdump(int len, void *a, char *tag)

+{

+	uchar *p;

+	int i;

+	char buf[65+32];

+	char *q;

+	p = a;

+	strcpy(buf, tag);

+	while(len > 0){

+		q = buf + strlen(tag);

+		for(i = 0; len > 0 && i < 32; i++){

+			if(*p >= ' ' && *p < 0x7f){

+				*q++ = ' ';

+				*q++ = *p;

+			} else {

+				*q++ = charmap[*p>>4];

+				*q++ = charmap[*p & 0xf];

+			}

+			len--;

+			p++;

+		}

+		*q = 0;

+		if(len > 0)

+			pprint("%s...\n", buf);

+		else

+			pprint("%s\n", buf);

+	}

+}

--- a/libc/Makefile

+++ b/libc/Makefile

@@ -18,6 +18,7 @@

 	dirwstat.$O\

 	dofmt.$O\

 	dorfmt.$O\

+	encodefmt.$O\

 	fcallfmt.$O\

 	fltfmt.$O\

 	fmt.$O\

@@ -39,6 +40,7 @@

 	nsec.$O\

 	pow10.$O\

 	pushssl.$O\

+	pushtls.$O\

 	read9pmsg.$O\

 	readn.$O\

 	rune.$O\

--- /dev/null

+++ b/libc/encodefmt.c

@@ -1,0 +1,77 @@

+#include <u.h>

+#include <libc.h>

+#include <ctype.h>

+int

+encodefmt(Fmt *f)

+{

+	char *out;

+	char *buf;

+	int len;

+	int ilen;

+	int rv;

+	uchar *b;

+	char *p;

+	char obuf[64];	// rsc optimization

+	if(!(f->flags&FmtPrec) || f->prec < 1)

+		goto error;

+	b = va_arg(f->args, uchar*);

+	if(b == 0)

+		return fmtstrcpy(f, "<nil>");

+	ilen = f->prec;

+	f->prec = 0;

+	f->flags &= ~FmtPrec;

+	switch(f->r){

+	case '<':

+		len = (8*ilen+4)/5 + 3;

+		break;

+	case '[':

+		len = (8*ilen+5)/6 + 4;

+		break;

+	case 'H':

+		len = 2*ilen + 1;

+		break;

+	default:

+		goto error;

+	}

+	if(len > sizeof(obuf)){

+		buf = malloc(len);

+		if(buf == nil)

+			goto error;

+	} else

+		buf = obuf;

+	// convert

+	out = buf;

+	switch(f->r){

+	case '<':

+		rv = enc32(out, len, b, ilen);

+		break;

+	case '[':

+		rv = enc64(out, len, b, ilen);

+		break;

+	case 'H':

+		rv = enc16(out, len, b, ilen);

+		if(rv >= 0 && (f->flags & FmtLong))

+			for(p = buf; *p; p++)

+				*p = tolower(*p);

+		break;

+	default:

+		rv = -1;

+		break;

+	}

+	if(rv < 0)

+		goto error;

+	fmtstrcpy(f, buf);

+	if(buf != obuf)

+		free(buf);

+	return 0;

+error:

+	return fmtstrcpy(f, "<encodefmt>");

+}

--- /dev/null

+++ b/libc/pushtls.c

@@ -1,0 +1,99 @@

+#include <u.h>

+#include <libc.h>

+#include <auth.h>

+#include <mp.h>

+#include <libsec.h>

+enum {

+	TLSFinishedLen = 12,

+	HFinished = 20,

+};

+static int

+finished(int hand, int isclient)

+{

+	int i, n;

+	uchar buf[500], buf2[500];

+	buf[0] = HFinished;

+	buf[1] = TLSFinishedLen>>16;

+	buf[2] = TLSFinishedLen>>8;

+	buf[3] = TLSFinishedLen;

+	n = TLSFinishedLen+4;

+	for(i=0; i<2; i++){

+		if(i==0)

+			memmove(buf+4, "client finished", TLSFinishedLen);

+		else

+			memmove(buf+4, "server finished", TLSFinishedLen);

+		if(isclient == 1-i){

+			if(write(hand, buf, n) != n)

+				return -1;

+		}else{

+			if(readn(hand, buf2, n) != n || memcmp(buf,buf2,n) != 0)

+				return -1;

+		}

+	}

+	return 1;

+}

+// given a plain fd and secrets established beforehand, return encrypted connection

+int

+pushtls(int fd, char *hashalg, char *encalg, int isclient, char *secret, char *dir)

+{

+	char buf[8];

+	char dname[64];

+	int n, data, ctl, hand;

+	// open a new filter; get ctl fd

+	data = hand = -1;

+	// /net/tls uses decimal file descriptors to name channels, hence a

+	// user-level file server can't stand in for #a; may as well hard-code it.

+	ctl = open("#a/tls/clone", ORDWR);

+	if(ctl < 0)

+		goto error;

+	n = read(ctl, buf, sizeof(buf)-1);

+	if(n < 0)

+		goto error;

+	buf[n] = 0;

+	if(dir)

+		sprint(dir, "#a/tls/%s", buf);

+	// get application fd

+	sprint(dname, "#a/tls/%s/data", buf);

+	data = open(dname, ORDWR);

+	if(data < 0)

+		goto error;

+	// get handshake fd

+	sprint(dname, "#a/tls/%s/hand", buf);

+	hand = open(dname, ORDWR);

+	if(hand < 0)

+		goto error;

+	// speak a minimal handshake

+	if(fprint(ctl, "fd %d 0x301", fd) < 0 ||

+	   fprint(ctl, "version 0x301") < 0 ||

+	   fprint(ctl, "secret %s %s %d %s", hashalg, encalg, isclient, secret) < 0 ||

+	   fprint(ctl, "changecipher") < 0 ||

+	   finished(hand, isclient) < 0 ||

+	   fprint(ctl, "opened") < 0){

+		close(hand);

+		hand = -1;

+		goto error;

+	}

+	close(ctl);

+	close(hand);

+	close(fd);

+	return data;

+error:

+	if(data>=0)

+		close(data);

+	if(ctl>=0)

+		close(ctl);

+	if(hand>=0)

+		close(hand);

+	return -1;

+}

code: drawterm