src/cmd/9660/path.c - plan9 - Git at Google

 #include <u.h>
 #include <libc.h>
 #include <bio.h>
 #include <libsec.h>

 #include "iso9660.h"

 /*
  * Add the requisite path tables to the CD image.
  * They get put on the end once everything else is done.
  * We use the path table itself as a queue in the breadth-first
  * traversal of the tree.
  *
  * The only problem with this is that the path table does not
  * store the lengths of the directories.  So we keep an explicit
  * map in an array in memory.
  */

 enum {
 	Big,
 	Little
 };

 static void
 Crdpath(Cdimg *cd, Cpath *p)
 {
 	p->namelen = Cgetc(cd);
 	if(p->namelen == 0) {
 		Crseek(cd, (Croffset(cd)+Blocksize-1)/Blocksize * Blocksize);
 		p->namelen = Cgetc(cd);
 		assert(p->namelen != 0);
 	}

 	p->xlen = Cgetc(cd);
 	assert(p->xlen == 0);	/* sanity, might not be true if we start using the extended fields */

 	Cread(cd, p->dloc, 4);
 	Cread(cd, p->parent, 2);
 	p->name[0] = '\0';
 	Crseek(cd, Croffset(cd)+p->namelen+p->xlen+(p->namelen&1));	/* skip name, ext data */
 }

 static void
 writepath(Cdimg *cd, Cdir *c, int parent, int size)
 {
 /*
 	DO NOT UNCOMMENT THIS CODE.
 	This commented-out code is here only so that no one comes
 	along and adds it later.

 	The ISO 9660 spec is silent about whether path table entries
 	need to be padded so that they never cross block boundaries.
 	It would be reasonable to assume that they are like every other
 	data structure in the bloody spec; this code pads them out.

 	Empirically, though, they're NOT padded.  Windows NT and
 	derivatives are the only known current operating systems
 	that actually read these things.

 	int l;

 	l = 1+1+4+2+c->namelen;
 	if(Cwoffset(cd)/Blocksize != (Cwoffset(cd)+l)/Blocksize)
 		Cpadblock(cd);
 */
 	Cputc(cd, c->namelen);
 	Cputc(cd, 0);
 	Cwrite(cd, c->dloc + (size==Little ? 0 : 4), 4);
 	(size==Little ? Cputnl : Cputnm)(cd, parent, 2);
 	Cwrite(cd, c->name, c->namelen);
 	if(c->namelen & 1)
 		Cputc(cd, 0);
 }

 static ulong*
 addlength(ulong *a, ulong x, int n)
 {
 	if(n%128==0)
 		a = erealloc(a, (n+128)*sizeof a[0]);
 	a[n] = x;
 	return a;
 }

 static ulong
 writepathtable(Cdimg *cd, ulong vdblock, int size)
 {
 	int rp, wp;
 	uchar buf[Blocksize];
 	ulong bk, end, i, *len, n, rdoff, start;
 	Cdir *c;
 	Cpath p;

 	Creadblock(cd, buf, vdblock, Blocksize);
 	c = (Cdir*)(buf+offsetof(Cvoldesc, rootdir[0]));

 	rp = 0;
 	wp = 0;
 	len = nil;
 	start = cd->nextblock*Blocksize;
 	Cwseek(cd, start);
 	Crseek(cd, start);
 	writepath(cd, c, 1, size);
 	len = addlength(len, little(c->dlen, 4), wp);
 	wp++;

 	while(rp < wp) {
 		Crdpath(cd, &p);
 		n = (len[rp]+Blocksize-1)/Blocksize;
 		rp++;
 		bk = (size==Big ? big : little)(p.dloc, 4);
 		rdoff = Croffset(cd);
 		for(i=0; i<n; i++) {
 			Creadblock(cd, buf, bk+i, Blocksize);
 			c = (Cdir*)buf;
 			if(i != 0 && c->namelen == 1 && c->name[0] == '\0')	/* hit another directory; stop */
 				break;
 			while(c->len && c->namelen && (uchar*)c+c->len < buf+Blocksize) {
 				if((c->flags & 0x02) && (c->namelen > 1 || c->name[0] > '\001')) {	/* directory */
 					writepath(cd, c, rp, size);
 					len = addlength(len, little(c->dlen, 4), wp);
 					wp++;
 				}
 				c = (Cdir*)((uchar*)c+c->len);
 			}
 		}
 		Crseek(cd, rdoff);
 	}
 	end = Cwoffset(cd);
 	Cpadblock(cd);
 	return end-start;
 }


 static void
 writepathtablepair(Cdimg *cd, ulong vdblock)
 {
 	ulong bloc, lloc, sz, sz2;

 	lloc = cd->nextblock;
 	sz = writepathtable(cd, vdblock, Little);
 	bloc = cd->nextblock;
 	sz2 = writepathtable(cd, vdblock, Big);
 	assert(sz == sz2);
 	setpathtable(cd, vdblock, sz, lloc, bloc);
 }

 void
 writepathtables(Cdimg *cd)
 {
 	cd->pathblock = cd->nextblock;

 	writepathtablepair(cd, cd->iso9660pvd);
 	if(cd->flags & CDjoliet)
 		writepathtablepair(cd, cd->jolietsvd);
 }
	#include <u.h>
	#include <libc.h>
	#include <bio.h>
	#include <libsec.h>

	#include "iso9660.h"

	/*
	* Add the requisite path tables to the CD image.
	* They get put on the end once everything else is done.
	* We use the path table itself as a queue in the breadth-first
	* traversal of the tree.
	*
	* The only problem with this is that the path table does not
	* store the lengths of the directories. So we keep an explicit
	* map in an array in memory.
	*/

	enum {
	Big,
	Little
	};

	static void
	Crdpath(Cdimg cd, Cpath p)
	{
	p->namelen = Cgetc(cd);
	if(p->namelen == 0) {
	Crseek(cd, (Croffset(cd)+Blocksize-1)/Blocksize * Blocksize);
	p->namelen = Cgetc(cd);
	assert(p->namelen != 0);
	}

	p->xlen = Cgetc(cd);
	assert(p->xlen == 0); /* sanity, might not be true if we start using the extended fields */

	Cread(cd, p->dloc, 4);
	Cread(cd, p->parent, 2);
	p->name[0] = '\0';
	Crseek(cd, Croffset(cd)+p->namelen+p->xlen+(p->namelen&1)); /* skip name, ext data */
	}

	static void
	writepath(Cdimg cd, Cdir c, int parent, int size)
	{
	/*
	DO NOT UNCOMMENT THIS CODE.
	This commented-out code is here only so that no one comes
	along and adds it later.

	The ISO 9660 spec is silent about whether path table entries
	need to be padded so that they never cross block boundaries.
	It would be reasonable to assume that they are like every other
	data structure in the bloody spec; this code pads them out.

	Empirically, though, they're NOT padded. Windows NT and
	derivatives are the only known current operating systems
	that actually read these things.

	int l;

	l = 1+1+4+2+c->namelen;
	if(Cwoffset(cd)/Blocksize != (Cwoffset(cd)+l)/Blocksize)
	Cpadblock(cd);
	*/
	Cputc(cd, c->namelen);
	Cputc(cd, 0);
	Cwrite(cd, c->dloc + (size==Little ? 0 : 4), 4);
	(size==Little ? Cputnl : Cputnm)(cd, parent, 2);
	Cwrite(cd, c->name, c->namelen);
	if(c->namelen & 1)
	Cputc(cd, 0);
	}

	static ulong*
	addlength(ulong *a, ulong x, int n)
	{
	if(n%128==0)
	a = erealloc(a, (n+128)*sizeof a[0]);
	a[n] = x;
	return a;
	}

	static ulong
	writepathtable(Cdimg *cd, ulong vdblock, int size)
	{
	int rp, wp;
	uchar buf[Blocksize];
	ulong bk, end, i, *len, n, rdoff, start;
	Cdir *c;
	Cpath p;

	Creadblock(cd, buf, vdblock, Blocksize);
	c = (Cdir*)(buf+offsetof(Cvoldesc, rootdir[0]));

	rp = 0;
	wp = 0;
	len = nil;
	start = cd->nextblock*Blocksize;
	Cwseek(cd, start);
	Crseek(cd, start);
	writepath(cd, c, 1, size);
	len = addlength(len, little(c->dlen, 4), wp);
	wp++;

	while(rp < wp) {
	Crdpath(cd, &p);
	n = (len[rp]+Blocksize-1)/Blocksize;
	rp++;
	bk = (size==Big ? big : little)(p.dloc, 4);
	rdoff = Croffset(cd);
	for(i=0; i<n; i++) {
	Creadblock(cd, buf, bk+i, Blocksize);
	c = (Cdir*)buf;
	if(i != 0 && c->namelen == 1 && c->name[0] == '\0') /* hit another directory; stop */
	break;
	while(c->len && c->namelen && (uchar*)c+c->len < buf+Blocksize) {
	if((c->flags & 0x02) && (c->namelen > 1 \|\| c->name[0] > '\001')) { /* directory */
	writepath(cd, c, rp, size);
	len = addlength(len, little(c->dlen, 4), wp);
	wp++;
	}
	c = (Cdir)((uchar)c+c->len);
	}
	}
	Crseek(cd, rdoff);
	}
	end = Cwoffset(cd);
	Cpadblock(cd);
	return end-start;
	}


	static void
	writepathtablepair(Cdimg *cd, ulong vdblock)
	{
	ulong bloc, lloc, sz, sz2;

	lloc = cd->nextblock;
	sz = writepathtable(cd, vdblock, Little);
	bloc = cd->nextblock;
	sz2 = writepathtable(cd, vdblock, Big);
	assert(sz == sz2);
	setpathtable(cd, vdblock, sz, lloc, bloc);
	}

	void
	writepathtables(Cdimg *cd)
	{
	cd->pathblock = cd->nextblock;

	writepathtablepair(cd, cd->iso9660pvd);
	if(cd->flags & CDjoliet)
	writepathtablepair(cd, cd->jolietsvd);
	}