src/cmd/acme/logf.c - plan9 - Git at Google

 #include <u.h>
 #include <libc.h>
 #include <draw.h>
 #include <thread.h>
 #include <cursor.h>
 #include <mouse.h>
 #include <keyboard.h>
 #include <frame.h>
 #include <fcall.h>
 #include <plumb.h>
 #include "dat.h"
 #include "fns.h"

 // State for global log file.
 typedef struct Log Log;
 struct Log
 {
 	QLock lk;
 	Rendez r;

 	vlong start; // msg[0] corresponds to 'start' in the global sequence of events

 	// queued events (nev=entries in ev, mev=capacity of p)
 	char **ev;
 	int nev;
 	int mev;

 	// open acme/put files that need to read events
 	Fid **f;
 	int nf;
 	int mf;

 	// active (blocked) reads waiting for events
 	Xfid **read;
 	int nread;
 	int mread;
 };

 static Log eventlog;

 void
 xfidlogopen(Xfid *x)
 {
 	qlock(&eventlog.lk);
 	if(eventlog.nf >= eventlog.mf) {
 		eventlog.mf = eventlog.mf*2;
 		if(eventlog.mf == 0)
 			eventlog.mf = 8;
 		eventlog.f = erealloc(eventlog.f, eventlog.mf*sizeof eventlog.f[0]);
 	}
 	eventlog.f[eventlog.nf++] = x->f;
 	x->f->logoff = eventlog.start + eventlog.nev;

 	qunlock(&eventlog.lk);
 }

 void
 xfidlogclose(Xfid *x)
 {
 	int i;

 	qlock(&eventlog.lk);
 	for(i=0; i<eventlog.nf; i++) {
 		if(eventlog.f[i] == x->f) {
 			eventlog.f[i] = eventlog.f[--eventlog.nf];
 			break;
 		}
 	}
 	qunlock(&eventlog.lk);
 }

 void
 xfidlogread(Xfid *x)
 {
 	char *p;
 	int i;
 	Fcall fc;

 	qlock(&eventlog.lk);
 	if(eventlog.nread >= eventlog.mread) {
 		eventlog.mread = eventlog.mread*2;
 		if(eventlog.mread == 0)
 			eventlog.mread = 8;
 		eventlog.read = erealloc(eventlog.read, eventlog.mread*sizeof eventlog.read[0]);
 	}
 	eventlog.read[eventlog.nread++] = x;

 	if(eventlog.r.l == nil)
 		eventlog.r.l = &eventlog.lk;
 	x->flushed = FALSE;
 	while(x->f->logoff >= eventlog.start+eventlog.nev && !x->flushed)
 		rsleep(&eventlog.r);

 	for(i=0; i<eventlog.nread; i++) {
 		if(eventlog.read[i] == x) {
 			eventlog.read[i] = eventlog.read[--eventlog.nread];
 			break;
 		}
 	}

 	if(x->flushed) {
 		qunlock(&eventlog.lk);
 		return;
 	}

 	i = x->f->logoff - eventlog.start;
 	p = estrdup(eventlog.ev[i]);
 	x->f->logoff++;
 	qunlock(&eventlog.lk);

 	fc.data = p;
 	fc.count = strlen(p);
 	respond(x, &fc, nil);
 	free(p);
 }

 void
 xfidlogflush(Xfid *x)
 {
 	int i;
 	Xfid *rx;

 	qlock(&eventlog.lk);
 	for(i=0; i<eventlog.nread; i++) {
 		rx = eventlog.read[i];
 		if(rx->fcall.tag == x->fcall.oldtag) {
 			rx->flushed = TRUE;
 			rwakeupall(&eventlog.r);
 		}
 	}
 	qunlock(&eventlog.lk);
 }

 /*
  * add a log entry for op on w.
  * expected calls:
  *
  * op == "new" for each new window
  *	- caller of coladd or makenewwindow responsible for calling
  *		xfidlog after setting window name
  *	- exception: zerox
  *
  * op == "zerox" for new window created via zerox
  *	- called from zeroxx
  *
  * op == "get" for Get executed on window
  *	- called from get
  *
  * op == "put" for Put executed on window
  *	- called from put
  *
  * op == "del" for deleted window
  *	- called from winclose
  */
 void
 xfidlog(Window *w, char *op)
 {
 	int i, n;
 	vlong min;
 	File *f;
 	char *name;

 	qlock(&eventlog.lk);
 	if(eventlog.nev >= eventlog.mev) {
 		// Remove and free any entries that all readers have read.
 		min = eventlog.start + eventlog.nev;
 		for(i=0; i<eventlog.nf; i++) {
 			if(min > eventlog.f[i]->logoff)
 				min = eventlog.f[i]->logoff;
 		}
 		if(min > eventlog.start) {
 			n = min - eventlog.start;
 			for(i=0; i<n; i++)
 				free(eventlog.ev[i]);
 			eventlog.nev -= n;
 			eventlog.start += n;
 			memmove(eventlog.ev, eventlog.ev+n, eventlog.nev*sizeof eventlog.ev[0]);
 		}

 		// Otherwise grow.
 		if(eventlog.nev >= eventlog.mev) {
 			eventlog.mev = eventlog.mev*2;
 			if(eventlog.mev == 0)
 				eventlog.mev = 8;
 			eventlog.ev = erealloc(eventlog.ev, eventlog.mev*sizeof eventlog.ev[0]);
 		}
 	}
 	f = w->body.file;
 	name = runetobyte(f->name, f->nname);
 	if(name == nil)
 		name = estrdup("");
 	eventlog.ev[eventlog.nev++] = smprint("%d %s %s\n", w->id, op, name);
 	free(name);
 	if(eventlog.r.l == nil)
 		eventlog.r.l = &eventlog.lk;
 	rwakeupall(&eventlog.r);
 	qunlock(&eventlog.lk);
 }
	#include <u.h>
	#include <libc.h>
	#include <draw.h>
	#include <thread.h>
	#include <cursor.h>
	#include <mouse.h>
	#include <keyboard.h>
	#include <frame.h>
	#include <fcall.h>
	#include <plumb.h>
	#include "dat.h"
	#include "fns.h"

	// State for global log file.
	typedef struct Log Log;
	struct Log
	{
	QLock lk;
	Rendez r;

	vlong start; // msg[0] corresponds to 'start' in the global sequence of events

	// queued events (nev=entries in ev, mev=capacity of p)
	char **ev;
	int nev;
	int mev;

	// open acme/put files that need to read events
	Fid **f;
	int nf;
	int mf;

	// active (blocked) reads waiting for events
	Xfid **read;
	int nread;
	int mread;
	};

	static Log eventlog;

	void
	xfidlogopen(Xfid *x)
	{
	qlock(&eventlog.lk);
	if(eventlog.nf >= eventlog.mf) {
	eventlog.mf = eventlog.mf*2;
	if(eventlog.mf == 0)
	eventlog.mf = 8;
	eventlog.f = erealloc(eventlog.f, eventlog.mf*sizeof eventlog.f[0]);
	}
	eventlog.f[eventlog.nf++] = x->f;
	x->f->logoff = eventlog.start + eventlog.nev;

	qunlock(&eventlog.lk);
	}

	void
	xfidlogclose(Xfid *x)
	{
	int i;

	qlock(&eventlog.lk);
	for(i=0; i<eventlog.nf; i++) {
	if(eventlog.f[i] == x->f) {
	eventlog.f[i] = eventlog.f[--eventlog.nf];
	break;
	}
	}
	qunlock(&eventlog.lk);
	}

	void
	xfidlogread(Xfid *x)
	{
	char *p;
	int i;
	Fcall fc;

	qlock(&eventlog.lk);
	if(eventlog.nread >= eventlog.mread) {
	eventlog.mread = eventlog.mread*2;
	if(eventlog.mread == 0)
	eventlog.mread = 8;
	eventlog.read = erealloc(eventlog.read, eventlog.mread*sizeof eventlog.read[0]);
	}
	eventlog.read[eventlog.nread++] = x;

	if(eventlog.r.l == nil)
	eventlog.r.l = &eventlog.lk;
	x->flushed = FALSE;
	while(x->f->logoff >= eventlog.start+eventlog.nev && !x->flushed)
	rsleep(&eventlog.r);

	for(i=0; i<eventlog.nread; i++) {
	if(eventlog.read[i] == x) {
	eventlog.read[i] = eventlog.read[--eventlog.nread];
	break;
	}
	}

	if(x->flushed) {
	qunlock(&eventlog.lk);
	return;
	}

	i = x->f->logoff - eventlog.start;
	p = estrdup(eventlog.ev[i]);
	x->f->logoff++;
	qunlock(&eventlog.lk);

	fc.data = p;
	fc.count = strlen(p);
	respond(x, &fc, nil);
	free(p);
	}

	void
	xfidlogflush(Xfid *x)
	{
	int i;
	Xfid *rx;

	qlock(&eventlog.lk);
	for(i=0; i<eventlog.nread; i++) {
	rx = eventlog.read[i];
	if(rx->fcall.tag == x->fcall.oldtag) {
	rx->flushed = TRUE;
	rwakeupall(&eventlog.r);
	}
	}
	qunlock(&eventlog.lk);
	}

	/*
	* add a log entry for op on w.
	* expected calls:
	*
	* op == "new" for each new window
	* - caller of coladd or makenewwindow responsible for calling
	* xfidlog after setting window name
	* - exception: zerox
	*
	* op == "zerox" for new window created via zerox
	* - called from zeroxx
	*
	* op == "get" for Get executed on window
	* - called from get
	*
	* op == "put" for Put executed on window
	* - called from put
	*
	* op == "del" for deleted window
	* - called from winclose
	*/
	void
	xfidlog(Window w, char op)
	{
	int i, n;
	vlong min;
	File *f;
	char *name;

	qlock(&eventlog.lk);
	if(eventlog.nev >= eventlog.mev) {
	// Remove and free any entries that all readers have read.
	min = eventlog.start + eventlog.nev;
	for(i=0; i<eventlog.nf; i++) {
	if(min > eventlog.f[i]->logoff)
	min = eventlog.f[i]->logoff;
	}
	if(min > eventlog.start) {
	n = min - eventlog.start;
	for(i=0; i<n; i++)
	free(eventlog.ev[i]);
	eventlog.nev -= n;
	eventlog.start += n;
	memmove(eventlog.ev, eventlog.ev+n, eventlog.nev*sizeof eventlog.ev[0]);
	}

	// Otherwise grow.
	if(eventlog.nev >= eventlog.mev) {
	eventlog.mev = eventlog.mev*2;
	if(eventlog.mev == 0)
	eventlog.mev = 8;
	eventlog.ev = erealloc(eventlog.ev, eventlog.mev*sizeof eventlog.ev[0]);
	}
	}
	f = w->body.file;
	name = runetobyte(f->name, f->nname);
	if(name == nil)
	name = estrdup("");
	eventlog.ev[eventlog.nev++] = smprint("%d %s %s\n", w->id, op, name);
	free(name);
	if(eventlog.r.l == nil)
	eventlog.r.l = &eventlog.lk;
	rwakeupall(&eventlog.r);
	qunlock(&eventlog.lk);
	}