sizeof_1_ = 8;
aggr _1_
{
	'U' 0 lo;
	'U' 4 hi;
};

defn
_1_(addr) {
	complex _1_ addr;
	print("	lo	", addr.lo, "\n");
	print("	hi	", addr.hi, "\n");
};

sizeofFPdbleword = 8;
aggr FPdbleword
{
	'F' 0 x;
	{
	'U' 0 lo;
	'U' 4 hi;
	};
};

defn
FPdbleword(addr) {
	complex FPdbleword addr;
	print("	x	", addr.x, "\n");
	print("_1_ {\n");
		_1_(addr+0);
	print("}\n");
};

UTFmax = 3;
Runesync = 128;
Runeself = 128;
Runeerror = 65533;
sizeofFmt = 48;
aggr Fmt
{
	'b' 0 runes;
	'X' 4 start;
	'X' 8 to;
	'X' 12 stop;
	'X' 16 flush;
	'X' 20 farg;
	'D' 24 nfmt;
	'X' 28 args;
	'D' 32 r;
	'D' 36 width;
	'D' 40 prec;
	'U' 44 flags;
};

defn
Fmt(addr) {
	complex Fmt addr;
	print("	runes	", addr.runes, "\n");
	print("	start	", addr.start\X, "\n");
	print("	to	", addr.to\X, "\n");
	print("	stop	", addr.stop\X, "\n");
	print("	flush	", addr.flush\X, "\n");
	print("	farg	", addr.farg\X, "\n");
	print("	nfmt	", addr.nfmt, "\n");
	print("	args	", addr.args\X, "\n");
	print("	r	", addr.r, "\n");
	print("	width	", addr.width, "\n");
	print("	prec	", addr.prec, "\n");
	print("	flags	", addr.flags, "\n");
};

FmtWidth = 1;
FmtLeft = 2;
FmtPrec = 4;
FmtSharp = 8;
FmtSpace = 16;
FmtSign = 32;
FmtZero = 64;
FmtUnsigned = 128;
FmtShort = 256;
FmtLong = 512;
FmtVLong = 1024;
FmtComma = 2048;
FmtByte = 4096;
FmtFlag = 8192;
sizeofTm = 40;
aggr Tm
{
	'D' 0 sec;
	'D' 4 min;
	'D' 8 hour;
	'D' 12 mday;
	'D' 16 mon;
	'D' 20 year;
	'D' 24 wday;
	'D' 28 yday;
	'a' 32 zone;
	'D' 36 tzoff;
};

defn
Tm(addr) {
	complex Tm addr;
	print("	sec	", addr.sec, "\n");
	print("	min	", addr.min, "\n");
	print("	hour	", addr.hour, "\n");
	print("	mday	", addr.mday, "\n");
	print("	mon	", addr.mon, "\n");
	print("	year	", addr.year, "\n");
	print("	wday	", addr.wday, "\n");
	print("	yday	", addr.yday, "\n");
	print("	zone	", addr.zone, "\n");
	print("	tzoff	", addr.tzoff, "\n");
};

PNPROC = 1;
PNGROUP = 2;
Profoff = 0;
Profuser = 1;
Profkernel = 2;
Proftime = 3;
Profsample = 4;
sizeofLock = 4;
aggr Lock
{
	'D' 0 val;
};

defn
Lock(addr) {
	complex Lock addr;
	print("	val	", addr.val, "\n");
};

sizeofQLp = 12;
aggr QLp
{
	'D' 0 inuse;
	'A' QLp 4 next;
	'C' 8 state;
};

defn
QLp(addr) {
	complex QLp addr;
	print("	inuse	", addr.inuse, "\n");
	print("	next	", addr.next\X, "\n");
	print("	state	", addr.state, "\n");
};

sizeofQLock = 16;
aggr QLock
{
	Lock 0 lock;
	'D' 4 locked;
	'A' QLp 8 $head;
	'A' QLp 12 $tail;
};

defn
QLock(addr) {
	complex QLock addr;
	print("Lock lock {\n");
	Lock(addr.lock);
	print("}\n");
	print("	locked	", addr.locked, "\n");
	print("	$head	", addr.$head\X, "\n");
	print("	$tail	", addr.$tail\X, "\n");
};

sizeofRWLock = 20;
aggr RWLock
{
	Lock 0 lock;
	'D' 4 readers;
	'D' 8 writer;
	'A' QLp 12 $head;
	'A' QLp 16 $tail;
};

defn
RWLock(addr) {
	complex RWLock addr;
	print("Lock lock {\n");
	Lock(addr.lock);
	print("}\n");
	print("	readers	", addr.readers, "\n");
	print("	writer	", addr.writer, "\n");
	print("	$head	", addr.$head\X, "\n");
	print("	$tail	", addr.$tail\X, "\n");
};

sizeofRendez = 12;
aggr Rendez
{
	'A' QLock 0 l;
	'A' QLp 4 $head;
	'A' QLp 8 $tail;
};

defn
Rendez(addr) {
	complex Rendez addr;
	print("	l	", addr.l\X, "\n");
	print("	$head	", addr.$head\X, "\n");
	print("	$tail	", addr.$tail\X, "\n");
};

sizeofNetConnInfo = 36;
aggr NetConnInfo
{
	'X' 0 dir;
	'X' 4 root;
	'X' 8 spec;
	'X' 12 lsys;
	'X' 16 lserv;
	'X' 20 rsys;
	'X' 24 rserv;
	'X' 28 laddr;
	'X' 32 raddr;
};

defn
NetConnInfo(addr) {
	complex NetConnInfo addr;
	print("	dir	", addr.dir\X, "\n");
	print("	root	", addr.root\X, "\n");
	print("	spec	", addr.spec\X, "\n");
	print("	lsys	", addr.lsys\X, "\n");
	print("	lserv	", addr.lserv\X, "\n");
	print("	rsys	", addr.rsys\X, "\n");
	print("	rserv	", addr.rserv\X, "\n");
	print("	laddr	", addr.laddr\X, "\n");
	print("	raddr	", addr.raddr\X, "\n");
};

RFNAMEG = 1;
RFENVG = 2;
RFFDG = 4;
RFNOTEG = 8;
RFPROC = 16;
RFMEM = 32;
RFNOWAIT = 64;
RFCNAMEG = 1024;
RFCENVG = 2048;
RFCFDG = 4096;
RFREND = 8192;
RFNOMNT = 16384;
sizeofQid = 16;
aggr Qid
{
	'W' 0 path;
	'U' 8 vers;
	'b' 12 type;
};

defn
Qid(addr) {
	complex Qid addr;
	print("	path	", addr.path, "\n");
	print("	vers	", addr.vers, "\n");
	print("	type	", addr.type, "\n");
};

sizeofDir = 60;
aggr Dir
{
	'u' 0 type;
	'U' 4 dev;
	Qid 8 qid;
	'U' 24 mode;
	'U' 28 atime;
	'U' 32 mtime;
	'V' 36 length;
	'X' 44 name;
	'X' 48 uid;
	'X' 52 gid;
	'X' 56 muid;
};

defn
Dir(addr) {
	complex Dir addr;
	print("	type	", addr.type, "\n");
	print("	dev	", addr.dev, "\n");
	print("Qid qid {\n");
	Qid(addr.qid);
	print("}\n");
	print("	mode	", addr.mode, "\n");
	print("	atime	", addr.atime, "\n");
	print("	mtime	", addr.mtime, "\n");
	print("	length	", addr.length, "\n");
	print("	name	", addr.name\X, "\n");
	print("	uid	", addr.uid\X, "\n");
	print("	gid	", addr.gid\X, "\n");
	print("	muid	", addr.muid\X, "\n");
};

sizeofWaitmsg = 20;
aggr Waitmsg
{
	'D' 0 pid;
	'a' 4 time;
	'X' 16 msg;
};

defn
Waitmsg(addr) {
	complex Waitmsg addr;
	print("	pid	", addr.pid, "\n");
	print("	time	", addr.time, "\n");
	print("	msg	", addr.msg\X, "\n");
};

sizeofIOchunk = 8;
aggr IOchunk
{
	'X' 0 addr;
	'U' 4 len;
};

defn
IOchunk(addr) {
	complex IOchunk addr;
	print("	addr	", addr.addr\X, "\n");
	print("	len	", addr.len, "\n");
};

MaxFragSize = 9216;
sizeofVtLog = 40;
aggr VtLog
{
	'A' VtLog 0 next;
	'X' 4 name;
	'X' 8 chunk;
	'U' 12 nchunk;
	'X' 16 w;
	QLock 20 lk;
	'D' 36 ref;
};

defn
VtLog(addr) {
	complex VtLog addr;
	print("	next	", addr.next\X, "\n");
	print("	name	", addr.name\X, "\n");
	print("	chunk	", addr.chunk\X, "\n");
	print("	nchunk	", addr.nchunk, "\n");
	print("	w	", addr.w\X, "\n");
	print("QLock lk {\n");
	QLock(addr.lk);
	print("}\n");
	print("	ref	", addr.ref, "\n");
};

sizeofVtLogChunk = 12;
aggr VtLogChunk
{
	'X' 0 p;
	'X' 4 ep;
	'X' 8 wp;
};

defn
VtLogChunk(addr) {
	complex VtLogChunk addr;
	print("	p	", addr.p\X, "\n");
	print("	ep	", addr.ep\X, "\n");
	print("	wp	", addr.wp\X, "\n");
};

VtScoreSize = 20;
VtMaxStringSize = 1024;
VtMaxLumpSize = 57344;
VtPointerDepth = 7;
VtDataType = 0;
VtDirType = 8;
VtRootType = 16;
VtMaxType = 17;
VtCorruptType = 255;
VtTypeDepthMask = 7;
VtTypeBaseMask = -8;
VtEntryActive = 1;
_VtEntryDir = 2;
_VtEntryDepthShift = 2;
_VtEntryDepthMask = 28;
VtEntryLocal = 32;
VtEntrySize = 40;
sizeofVtEntry = 40;
aggr VtEntry
{
	'U' 0 gen;
	'u' 4 psize;
	'u' 6 dsize;
	'b' 8 type;
	'b' 9 flags;
	'W' 12 size;
	'a' 20 score;
};

defn
VtEntry(addr) {
	complex VtEntry addr;
	print("	gen	", addr.gen, "\n");
	print("	psize	", addr.psize, "\n");
	print("	dsize	", addr.dsize, "\n");
	print("	type	", addr.type, "\n");
	print("	flags	", addr.flags, "\n");
	print("	size	", addr.size, "\n");
	print("	score	", addr.score, "\n");
};

sizeofVtRoot = 300;
aggr VtRoot
{
	'a' 0 name;
	'a' 128 type;
	'a' 256 score;
	'u' 276 blocksize;
	'a' 278 prev;
};

defn
VtRoot(addr) {
	complex VtRoot addr;
	print("	name	", addr.name, "\n");
	print("	type	", addr.type, "\n");
	print("	score	", addr.score, "\n");
	print("	blocksize	", addr.blocksize, "\n");
	print("	prev	", addr.prev, "\n");
};

VtRootSize = 300;
VtRootVersion = 2;
VtCryptoStrengthNone = 0;
VtCryptoStrengthAuth = 1;
VtCryptoStrengthWeak = 2;
VtCryptoStrengthStrong = 3;
VtCryptoNone = 0;
VtCryptoSSL3 = 1;
VtCryptoTLS1 = 2;
VtCryptoMax = 3;
VtCodecNone = 0;
VtCodecDeflate = 1;
VtCodecThwack = 2;
VtCodecMax = 3;
VtRerror = 1;
VtTping = 2;
VtRping = 3;
VtThello = 4;
VtRhello = 5;
VtTgoodbye = 6;
VtRgoodbye = 7;
VtTauth0 = 8;
VtRauth0 = 9;
VtTauth1 = 10;
VtRauth1 = 11;
VtTread = 12;
VtRread = 13;
VtTwrite = 14;
VtRwrite = 15;
VtTsync = 16;
VtRsync = 17;
VtTmax = 18;
sizeofVtFcall = 80;
aggr VtFcall
{
	'b' 0 msgtype;
	'b' 1 tag;
	'X' 4 error;
	'X' 8 version;
	'X' 12 uid;
	'b' 16 strength;
	'X' 20 crypto;
	'U' 24 ncrypto;
	'X' 28 codec;
	'U' 32 ncodec;
	'X' 36 sid;
	'b' 40 rcrypto;
	'b' 41 rcodec;
	'X' 44 auth;
	'U' 48 nauth;
	'a' 52 score;
	'b' 72 blocktype;
	'u' 74 count;
	'X' 76 data;
};

defn
VtFcall(addr) {
	complex VtFcall addr;
	print("	msgtype	", addr.msgtype, "\n");
	print("	tag	", addr.tag, "\n");
	print("	error	", addr.error\X, "\n");
	print("	version	", addr.version\X, "\n");
	print("	uid	", addr.uid\X, "\n");
	print("	strength	", addr.strength, "\n");
	print("	crypto	", addr.crypto\X, "\n");
	print("	ncrypto	", addr.ncrypto, "\n");
	print("	codec	", addr.codec\X, "\n");
	print("	ncodec	", addr.ncodec, "\n");
	print("	sid	", addr.sid\X, "\n");
	print("	rcrypto	", addr.rcrypto, "\n");
	print("	rcodec	", addr.rcodec, "\n");
	print("	auth	", addr.auth\X, "\n");
	print("	nauth	", addr.nauth, "\n");
	print("	score	", addr.score, "\n");
	print("	blocktype	", addr.blocktype, "\n");
	print("	count	", addr.count, "\n");
	print("	data	", addr.data\X, "\n");
};

VtStateAlloc = 0;
VtStateConnected = 1;
VtStateClosed = 2;
sizeofVtConn = 1404;
aggr VtConn
{
	QLock 0 lk;
	QLock 16 inlk;
	QLock 32 outlk;
	'D' 48 debug;
	'D' 52 infd;
	'D' 56 outfd;
	'D' 60 muxer;
	'X' 64 writeq;
	'X' 68 readq;
	'D' 72 state;
	'a' 76 wait;
	'U' 1100 ntag;
	'U' 1104 nsleep;
	'X' 1108 part;
	Rendez 1112 tagrend;
	Rendez 1124 rpcfork;
	'X' 1136 version;
	'X' 1140 uid;
	'X' 1144 sid;
	'a' 1148 addr;
};

defn
VtConn(addr) {
	complex VtConn addr;
	print("QLock lk {\n");
	QLock(addr.lk);
	print("}\n");
	print("QLock inlk {\n");
	QLock(addr.inlk);
	print("}\n");
	print("QLock outlk {\n");
	QLock(addr.outlk);
	print("}\n");
	print("	debug	", addr.debug, "\n");
	print("	infd	", addr.infd, "\n");
	print("	outfd	", addr.outfd, "\n");
	print("	muxer	", addr.muxer, "\n");
	print("	writeq	", addr.writeq\X, "\n");
	print("	readq	", addr.readq\X, "\n");
	print("	state	", addr.state, "\n");
	print("	wait	", addr.wait, "\n");
	print("	ntag	", addr.ntag, "\n");
	print("	nsleep	", addr.nsleep, "\n");
	print("	part	", addr.part\X, "\n");
	print("Rendez tagrend {\n");
	Rendez(addr.tagrend);
	print("}\n");
	print("Rendez rpcfork {\n");
	Rendez(addr.rpcfork);
	print("}\n");
	print("	version	", addr.version\X, "\n");
	print("	uid	", addr.uid\X, "\n");
	print("	sid	", addr.sid\X, "\n");
	print("	addr	", addr.addr, "\n");
};

sizeofVtReq = 168;
aggr VtReq
{
	VtFcall 0 tx;
	VtFcall 80 rx;
	'X' 160 srv;
	'X' 164 sc;
};

defn
VtReq(addr) {
	complex VtReq addr;
	print("VtFcall tx {\n");
	VtFcall(addr.tx);
	print("}\n");
	print("VtFcall rx {\n");
	VtFcall(addr.rx);
	print("}\n");
	print("	srv	", addr.srv\X, "\n");
	print("	sc	", addr.sc\X, "\n");
};

NilBlock = -1;
sizeofVtBlock = 84;
aggr VtBlock
{
	'X' 0 c;
	QLock 4 lk;
	'X' 20 data;
	'a' 24 score;
	'b' 44 type;
	'D' 48 nlock;
	'D' 52 iostate;
	'D' 56 ref;
	'U' 60 heap;
	'A' VtBlock 64 next;
	'A' VtBlock 68 prev;
	'U' 72 used;
	'U' 76 used2;
	'U' 80 addr;
};

defn
VtBlock(addr) {
	complex VtBlock addr;
	print("	c	", addr.c\X, "\n");
	print("QLock lk {\n");
	QLock(addr.lk);
	print("}\n");
	print("	data	", addr.data\X, "\n");
	print("	score	", addr.score, "\n");
	print("	type	", addr.type, "\n");
	print("	nlock	", addr.nlock, "\n");
	print("	iostate	", addr.iostate, "\n");
	print("	ref	", addr.ref, "\n");
	print("	heap	", addr.heap, "\n");
	print("	next	", addr.next\X, "\n");
	print("	prev	", addr.prev\X, "\n");
	print("	used	", addr.used, "\n");
	print("	used2	", addr.used2, "\n");
	print("	addr	", addr.addr, "\n");
};

sizeofVtFile = 84;
aggr VtFile
{
	QLock 0 lk;
	'D' 16 ref;
	'D' 20 $local;
	'A' VtBlock 24 b;
	'a' 28 score;
	'X' 48 c;
	'D' 52 mode;
	'U' 56 gen;
	'D' 60 dsize;
	'D' 64 psize;
	'D' 68 dir;
	'A' VtFile 72 parent;
	'D' 76 epb;
	'U' 80 offset;
};

defn
VtFile(addr) {
	complex VtFile addr;
	print("QLock lk {\n");
	QLock(addr.lk);
	print("}\n");
	print("	ref	", addr.ref, "\n");
	print("	$local	", addr.$local, "\n");
	print("	b	", addr.b\X, "\n");
	print("	score	", addr.score, "\n");
	print("	c	", addr.c\X, "\n");
	print("	mode	", addr.mode, "\n");
	print("	gen	", addr.gen, "\n");
	print("	dsize	", addr.dsize, "\n");
	print("	psize	", addr.psize, "\n");
	print("	dir	", addr.dir, "\n");
	print("	parent	", addr.parent\X, "\n");
	print("	epb	", addr.epb, "\n");
	print("	offset	", addr.offset, "\n");
};

VtOREAD = 0;
VtOWRITE = 1;
VtORDWR = 2;
AESbsize = 16;
AESmaxkey = 32;
AESmaxrounds = 14;
sizeofAESstate = 540;
aggr AESstate
{
	'U' 0 setup;
	'D' 4 rounds;
	'D' 8 keybytes;
	'a' 12 key;
	'a' 44 ekey;
	'a' 284 dkey;
	'a' 524 ivec;
};

defn
AESstate(addr) {
	complex AESstate addr;
	print("	setup	", addr.setup, "\n");
	print("	rounds	", addr.rounds, "\n");
	print("	keybytes	", addr.keybytes, "\n");
	print("	key	", addr.key, "\n");
	print("	ekey	", addr.ekey, "\n");
	print("	dkey	", addr.dkey, "\n");
	print("	ivec	", addr.ivec, "\n");
};

BFbsize = 8;
BFrounds = 16;
sizeofBFstate = 4236;
aggr BFstate
{
	'U' 0 setup;
	'a' 4 key;
	'a' 60 ivec;
	'a' 68 pbox;
	'a' 140 sbox;
};

defn
BFstate(addr) {
	complex BFstate addr;
	print("	setup	", addr.setup, "\n");
	print("	key	", addr.key, "\n");
	print("	ivec	", addr.ivec, "\n");
	print("	pbox	", addr.pbox, "\n");
	print("	sbox	", addr.sbox, "\n");
};

DESbsize = 8;
sizeofDESstate = 148;
aggr DESstate
{
	'U' 0 setup;
	'a' 4 key;
	'a' 12 expanded;
	'a' 140 ivec;
};

defn
DESstate(addr) {
	complex DESstate addr;
	print("	setup	", addr.setup, "\n");
	print("	key	", addr.key, "\n");
	print("	expanded	", addr.expanded, "\n");
	print("	ivec	", addr.ivec, "\n");
};

DES3E = 0;
DES3D = 1;
DES3EEE = 0;
DES3EDE = 2;
DES3DED = 5;
DES3DDD = 7;
sizeofDES3state = 420;
aggr DES3state
{
	'U' 0 setup;
	'a' 4 key;
	'a' 28 expanded;
	'a' 412 ivec;
};

defn
DES3state(addr) {
	complex DES3state addr;
	print("	setup	", addr.setup, "\n");
	print("	key	", addr.key, "\n");
	print("	expanded	", addr.expanded, "\n");
	print("	ivec	", addr.ivec, "\n");
};

SHA1dlen = 20;
MD4dlen = 16;
MD5dlen = 16;
sizeofDigestState = 164;
aggr DigestState
{
	'W' 0 len;
	'a' 8 state;
	'a' 28 buf;
	'D' 156 blen;
	'C' 160 malloced;
	'C' 161 seeded;
};

defn
DigestState(addr) {
	complex DigestState addr;
	print("	len	", addr.len, "\n");
	print("	state	", addr.state, "\n");
	print("	buf	", addr.buf, "\n");
	print("	blen	", addr.blen, "\n");
	print("	malloced	", addr.malloced, "\n");
	print("	seeded	", addr.seeded, "\n");
};

sizeofRC4state = 260;
aggr RC4state
{
	'a' 0 state;
	'b' 256 x;
	'b' 257 y;
};

defn
RC4state(addr) {
	complex RC4state addr;
	print("	state	", addr.state, "\n");
	print("	x	", addr.x, "\n");
	print("	y	", addr.y, "\n");
};

sizeofRSApub = 8;
aggr RSApub
{
	'X' 0 n;
	'X' 4 ek;
};

defn
RSApub(addr) {
	complex RSApub addr;
	print("	n	", addr.n\X, "\n");
	print("	ek	", addr.ek\X, "\n");
};

sizeofRSApriv = 32;
aggr RSApriv
{
	RSApub 0 pub;
	'X' 8 dk;
	'X' 12 p;
	'X' 16 q;
	'X' 20 kp;
	'X' 24 kq;
	'X' 28 c2;
};

defn
RSApriv(addr) {
	complex RSApriv addr;
	print("RSApub pub {\n");
	RSApub(addr.pub);
	print("}\n");
	print("	dk	", addr.dk\X, "\n");
	print("	p	", addr.p\X, "\n");
	print("	q	", addr.q\X, "\n");
	print("	kp	", addr.kp\X, "\n");
	print("	kq	", addr.kq\X, "\n");
	print("	c2	", addr.c2\X, "\n");
};

sizeofPEMChain = 12;
aggr PEMChain
{
	'A' PEMChain 0 next;
	'X' 4 pem;
	'D' 8 pemlen;
};

defn
PEMChain(addr) {
	complex PEMChain addr;
	print("	next	", addr.next\X, "\n");
	print("	pem	", addr.pem\X, "\n");
	print("	pemlen	", addr.pemlen, "\n");
};

sizeofEGpub = 12;
aggr EGpub
{
	'X' 0 p;
	'X' 4 alpha;
	'X' 8 key;
};

defn
EGpub(addr) {
	complex EGpub addr;
	print("	p	", addr.p\X, "\n");
	print("	alpha	", addr.alpha\X, "\n");
	print("	key	", addr.key\X, "\n");
};

sizeofEGpriv = 16;
aggr EGpriv
{
	EGpub 0 pub;
	'X' 12 secret;
};

defn
EGpriv(addr) {
	complex EGpriv addr;
	print("EGpub pub {\n");
	EGpub(addr.pub);
	print("}\n");
	print("	secret	", addr.secret\X, "\n");
};

sizeofEGsig = 8;
aggr EGsig
{
	'X' 0 r;
	'X' 4 s;
};

defn
EGsig(addr) {
	complex EGsig addr;
	print("	r	", addr.r\X, "\n");
	print("	s	", addr.s\X, "\n");
};

sizeofDSApub = 16;
aggr DSApub
{
	'X' 0 p;
	'X' 4 q;
	'X' 8 alpha;
	'X' 12 key;
};

defn
DSApub(addr) {
	complex DSApub addr;
	print("	p	", addr.p\X, "\n");
	print("	q	", addr.q\X, "\n");
	print("	alpha	", addr.alpha\X, "\n");
	print("	key	", addr.key\X, "\n");
};

sizeofDSApriv = 20;
aggr DSApriv
{
	DSApub 0 pub;
	'X' 16 secret;
};

defn
DSApriv(addr) {
	complex DSApriv addr;
	print("DSApub pub {\n");
	DSApub(addr.pub);
	print("}\n");
	print("	secret	", addr.secret\X, "\n");
};

sizeofDSAsig = 8;
aggr DSAsig
{
	'X' 0 r;
	'X' 4 s;
};

defn
DSAsig(addr) {
	complex DSAsig addr;
	print("	r	", addr.r\X, "\n");
	print("	s	", addr.s\X, "\n");
};

sizeofThumbprint = 24;
aggr Thumbprint
{
	'A' Thumbprint 0 next;
	'a' 4 sha1;
};

defn
Thumbprint(addr) {
	complex Thumbprint addr;
	print("	next	", addr.next\X, "\n");
	print("	sha1	", addr.sha1, "\n");
};

sizeofTLSconn = 80;
aggr TLSconn
{
	'a' 0 dir;
	'X' 40 cert;
	'X' 44 sessionID;
	'D' 48 certlen;
	'D' 52 sessionIDlen;
	'X' 56 trace;
	'A' PEMChain 60 chain;
	'X' 64 sessionType;
	'X' 68 sessionKey;
	'D' 72 sessionKeylen;
	'X' 76 sessionConst;
};

defn
TLSconn(addr) {
	complex TLSconn addr;
	print("	dir	", addr.dir, "\n");
	print("	cert	", addr.cert\X, "\n");
	print("	sessionID	", addr.sessionID\X, "\n");
	print("	certlen	", addr.certlen, "\n");
	print("	sessionIDlen	", addr.sessionIDlen, "\n");
	print("	trace	", addr.trace\X, "\n");
	print("	chain	", addr.chain\X, "\n");
	print("	sessionType	", addr.sessionType\X, "\n");
	print("	sessionKey	", addr.sessionKey\X, "\n");
	print("	sessionKeylen	", addr.sessionKeylen, "\n");
	print("	sessionConst	", addr.sessionConst\X, "\n");
};

BigMemSize = 9216;
SmallMemSize = 1152;
NLocalFrag = 2;
PFront = 0;
PMiddle = 1;
PEnd = 2;
sizeofMem = 28;
aggr Mem
{
	Lock 0 lk;
	'D' 4 ref;
	'X' 8 bp;
	'X' 12 ep;
	'X' 16 rp;
	'X' 20 wp;
	'A' Mem 24 next;
};

defn
Mem(addr) {
	complex Mem addr;
	print("Lock lk {\n");
	Lock(addr.lk);
	print("}\n");
	print("	ref	", addr.ref, "\n");
	print("	bp	", addr.bp\X, "\n");
	print("	ep	", addr.ep\X, "\n");
	print("	rp	", addr.rp\X, "\n");
	print("	wp	", addr.wp\X, "\n");
	print("	next	", addr.next\X, "\n");
};

FragLocalFree = 0;
FragLocalAlloc = 1;
FragGlobal = 2;
sizeofFrag = 32;
aggr Frag
{
	'D' 0 state;
	'A' Mem 4 mem;
	'X' 8 rp;
	'X' 12 wp;
	'A' Frag 16 next;
	'X' 20 free;
	'X' 24 a;
	'X' 28 p;
};

defn
Frag(addr) {
	complex Frag addr;
	print("	state	", addr.state, "\n");
	print("	mem	", addr.mem\X, "\n");
	print("	rp	", addr.rp\X, "\n");
	print("	wp	", addr.wp\X, "\n");
	print("	next	", addr.next\X, "\n");
	print("	free	", addr.free\X, "\n");
	print("	a	", addr.a\X, "\n");
	print("	p	", addr.p\X, "\n");
};

sizeofPacket = 88;
aggr Packet
{
	'D' 0 size;
	'D' 4 asize;
	'U' 8 pc;
	'A' Packet 12 next;
	'A' Frag 16 first;
	'A' Frag 20 last;
	'a' 24 $local;
};

defn
Packet(addr) {
	complex Packet addr;
	print("	size	", addr.size, "\n");
	print("	asize	", addr.asize, "\n");
	print("	pc	", addr.pc, "\n");
	print("	next	", addr.next\X, "\n");
	print("	first	", addr.first\X, "\n");
	print("	last	", addr.last\X, "\n");
	print("	$local	", addr.$local, "\n");
};

sizeof_2_ = 36;
aggr _2_
{
	Lock 0 lk;
	'A' Packet 4 packet;
	'D' 8 npacket;
	'A' Frag 12 frag;
	'D' 16 nfrag;
	'A' Mem 20 bigmem;
	'D' 24 nbigmem;
	'A' Mem 28 smallmem;
	'D' 32 nsmallmem;
};

defn
_2_(addr) {
	complex _2_ addr;
	print("Lock lk {\n");
	Lock(addr.lk);
	print("}\n");
	print("	packet	", addr.packet\X, "\n");
	print("	npacket	", addr.npacket, "\n");
	print("	frag	", addr.frag\X, "\n");
	print("	nfrag	", addr.nfrag, "\n");
	print("	bigmem	", addr.bigmem\X, "\n");
	print("	nbigmem	", addr.nbigmem, "\n");
	print("	smallmem	", addr.smallmem\X, "\n");
	print("	nsmallmem	", addr.nsmallmem, "\n");
};

complex _2_ freelist;
complex Packet packetalloc:p;
complex Packet packetfree:p;
complex Frag packetfree:f;
complex Frag packetfree:ff;
complex Packet packetdup:p;
complex Frag packetdup:f;
complex Frag packetdup:ff;
complex Packet packetdup:pp;
complex Packet packetsplit:p;
complex Packet packetsplit:pp;
complex Frag packetsplit:f;
complex Frag packetsplit:ff;
complex Packet packetconsume:p;
complex Packet packettrim:p;
complex Frag packettrim:f;
complex Frag packettrim:ff;
complex Packet packetheader:p;
complex Frag packetheader:f;
complex Mem packetheader:m;
complex Packet packettrailer:p;
complex Mem packettrailer:m;
complex Frag packettrailer:f;
complex Packet packetprefix:p;
complex Frag packetprefix:f;
complex Mem packetprefix:m;
complex Packet packetappend:p;
complex Frag packetappend:f;
complex Mem packetappend:m;
complex Packet packetconcat:p;
complex Packet packetconcat:pp;
complex Frag packetconcat:f;
complex Packet packetpeek:p;
complex Frag packetpeek:f;
complex Packet packetcopy:p;
complex Packet packetfragments:p;
complex IOchunk packetfragments:io;
complex Frag packetfragments:f;
complex IOchunk packetfragments:eio;
complex Packet packetstats:p;
complex Frag packetstats:f;
complex Mem packetstats:m;
complex Packet packetsize:p;
complex Frag packetsize:f;
complex Packet packetasize:p;
complex Frag packetasize:f;
complex Packet packetsha1:p;
complex DigestState packetsha1:ds;
complex Frag packetsha1:f;
complex Packet packetcmp:pkt0;
complex Packet packetcmp:pkt1;
complex Frag packetcmp:f0;
complex Frag packetcmp:f1;
complex Packet fragalloc:p;
complex Frag fragalloc:next;
complex Frag fragalloc:f;
complex Frag fragalloc:ef;
complex Mem fragalloc:m;
complex Packet packetforeign:p;
complex Frag packetforeign:f;
complex Packet fragdup:p;
complex Frag fragdup:f;
complex Frag fragdup:ff;
complex Mem fragdup:m;
complex Frag fragfree:f;
complex Mem memalloc:m;
complex Mem memfree:m;
complex Mem memhead:m;
complex Mem memtail:m;