#include "u.h"
#include <trace.h>
#include "tos.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "../port/error.h"
#include "ureg.h"
#include "edf.h"
enum
{
Qdir,
Qtrace,
Qargs,
Qctl,
Qfd,
Qfpregs,
Qkregs,
Qmem,
Qnote,
Qnoteid,
Qnotepg,
Qns,
Qproc,
Qregs,
Qsegment,
Qstatus,
Qtext,
Qwait,
Qprofile,
Qsyscall,
};
enum
{
CMclose,
CMclosefiles,
CMfixedpri,
CMhang,
CMkill,
CMnohang,
CMnoswap,
CMpri,
CMprivate,
CMprofile,
CMstart,
CMstartstop,
CMstartsyscall,
CMstop,
CMwaitstop,
CMwired,
CMtrace,
/* real time */
CMperiod,
CMdeadline,
CMcost,
CMsporadic,
CMdeadlinenotes,
CMadmit,
CMextra,
CMexpel,
CMevent,
};
enum{
Nevents = 0x4000,
Emask = Nevents - 1,
};
#define STATSIZE (2*KNAMELEN+12+9*12)
/*
* Status, fd, and ns are left fully readable (0444) because of their use in debugging,
* particularly on shared servers.
* Arguably, ns and fd shouldn't be readable; if you'd prefer, change them to 0000
*/
Dirtab procdir[] =
{
"args", {Qargs}, 0, 0660,
"ctl", {Qctl}, 0, 0000,
"fd", {Qfd}, 0, 0444,
"fpregs", {Qfpregs}, sizeof(FPsave), 0000,
"kregs", {Qkregs}, sizeof(Ureg), 0400,
"mem", {Qmem}, 0, 0000,
"note", {Qnote}, 0, 0000,
"noteid", {Qnoteid}, 0, 0664,
"notepg", {Qnotepg}, 0, 0000,
"ns", {Qns}, 0, 0444,
"proc", {Qproc}, 0, 0400,
"regs", {Qregs}, sizeof(Ureg), 0000,
"segment", {Qsegment}, 0, 0444,
"status", {Qstatus}, STATSIZE, 0444,
"text", {Qtext}, 0, 0000,
"wait", {Qwait}, 0, 0400,
"profile", {Qprofile}, 0, 0400,
"syscall", {Qsyscall}, 0, 0400,
};
static
Cmdtab proccmd[] = {
CMclose, "close", 2,
CMclosefiles, "closefiles", 1,
CMfixedpri, "fixedpri", 2,
CMhang, "hang", 1,
CMnohang, "nohang", 1,
CMnoswap, "noswap", 1,
CMkill, "kill", 1,
CMpri, "pri", 2,
CMprivate, "private", 1,
CMprofile, "profile", 1,
CMstart, "start", 1,
CMstartstop, "startstop", 1,
CMstartsyscall, "startsyscall", 1,
CMstop, "stop", 1,
CMwaitstop, "waitstop", 1,
CMwired, "wired", 2,
CMtrace, "trace", 0,
CMperiod, "period", 2,
CMdeadline, "deadline", 2,
CMcost, "cost", 2,
CMsporadic, "sporadic", 1,
CMdeadlinenotes, "deadlinenotes", 1,
CMadmit, "admit", 1,
CMextra, "extra", 1,
CMexpel, "expel", 1,
CMevent, "event", 1,
};
/* Segment type from portdat.h */
static char *sname[]={ "Text", "Data", "Bss", "Stack", "Shared", "Phys", };
/*
* Qids are, in path:
* 4 bits of file type (qids above)
* 23 bits of process slot number + 1
* in vers,
* 32 bits of pid, for consistency checking
* If notepg, c->pgrpid.path is pgrp slot, .vers is noteid.
*/
#define QSHIFT 5 /* location in qid of proc slot # */
#define QID(q) ((((ulong)(q).path)&0x0000001F)>>0)
#define SLOT(q) (((((ulong)(q).path)&0x07FFFFFE0)>>QSHIFT)-1)
#define PID(q) ((q).vers)
#define NOTEID(q) ((q).vers)
void procctlreq(Proc*, char*, int);
int procctlmemio(Proc*, ulong, int, void*, int);
Chan* proctext(Chan*, Proc*);
Segment* txt2data(Proc*, Segment*);
int procstopped(void*);
void mntscan(Mntwalk*, Proc*);
static Traceevent *tevents;
static Lock tlock;
static int topens;
static int tproduced, tconsumed;
void (*proctrace)(Proc*, int, vlong);
extern int unfair;
static void
profclock(Ureg *ur, Timer *)
{
Tos *tos;
if(up == 0 || up->state != Running)
return;
/* user profiling clock */
if(userureg(ur)){
tos = (Tos*)(USTKTOP-sizeof(Tos));
tos->clock += TK2MS(1);
segclock(ur->pc);
}
}
static int
procgen(Chan *c, char *name, Dirtab *tab, int, int s, Dir *dp)
{
Qid qid;
Proc *p;
char *ename;
Segment *q;
ulong pid, path, perm, len;
if(s == DEVDOTDOT){
mkqid(&qid, Qdir, 0, QTDIR);
devdir(c, qid, "#p", 0, eve, 0555, dp);
return 1;
}
if(c->qid.path == Qdir){
if(s == 0){
strcpy(up->genbuf, "trace");
mkqid(&qid, Qtrace, -1, QTFILE);
devdir(c, qid, up->genbuf, 0, eve, 0444, dp);
return 1;
}
if(name != nil){
/* ignore s and use name to find pid */
pid = strtol(name, &ename, 10);
if(pid==0 || ename[0]!='\0')
return -1;
s = procindex(pid);
if(s < 0)
return -1;
}
else if(--s >= conf.nproc)
return -1;
p = proctab(s);
pid = p->pid;
if(pid == 0)
return 0;
sprint(up->genbuf, "%lud", pid);
/*
* String comparison is done in devwalk so name must match its formatted pid
*/
if(name != nil && strcmp(name, up->genbuf) != 0)
return -1;
mkqid(&qid, (s+1)<<QSHIFT, pid, QTDIR);
devdir(c, qid, up->genbuf, 0, p->user, DMDIR|0555, dp);
return 1;
}
if(c->qid.path == Qtrace){
strcpy(up->genbuf, "trace");
mkqid(&qid, Qtrace, -1, QTFILE);
devdir(c, qid, up->genbuf, 0, eve, 0444, dp);
return 1;
}
if(s >= nelem(procdir))
return -1;
if(tab)
panic("procgen");
tab = &procdir[s];
path = c->qid.path&~(((1<<QSHIFT)-1)); /* slot component */
p = proctab(SLOT(c->qid));
perm = tab->perm;
if(perm == 0)
perm = p->procmode;
else /* just copy read bits */
perm |= p->procmode & 0444;
len = tab->length;
switch(QID(c->qid)) {
case Qwait:
len = p->nwait; /* incorrect size, but >0 means there's something to read */
break;
case Qprofile:
q = p->seg[TSEG];
if(q && q->profile) {
len = (q->top-q->base)>>LRESPROF;
len *= sizeof(*q->profile);
}
break;
}
mkqid(&qid, path|tab->qid.path, c->qid.vers, QTFILE);
devdir(c, qid, tab->name, len, p->user, perm, dp);
return 1;
}
static void
_proctrace(Proc* p, Tevent etype, vlong ts)
{
Traceevent *te;
if (p->trace == 0 || topens == 0 ||
tproduced - tconsumed >= Nevents)
return;
te = &tevents[tproduced&Emask];
te->pid = p->pid;
te->etype = etype;
if (ts == 0)
te->time = todget(nil);
else
te->time = ts;
tproduced++;
}
static void
procinit(void)
{
if(conf.nproc >= (1<<(16-QSHIFT))-1)
print("warning: too many procs for devproc\n");
addclock0link((void (*)(void))profclock, 113); /* Relative prime to HZ */
}
static Chan*
procattach(char *spec)
{
return devattach('p', spec);
}
static Walkqid*
procwalk(Chan *c, Chan *nc, char **name, int nname)
{
return devwalk(c, nc, name, nname, 0, 0, procgen);
}
static int
procstat(Chan *c, uchar *db, int n)
{
return devstat(c, db, n, 0, 0, procgen);
}
/*
* none can't read or write state on other
* processes. This is to contain access of
* servers running as none should they be
* subverted by, for example, a stack attack.
*/
static void
nonone(Proc *p)
{
if(p == up)
return;
if(strcmp(up->user, "none") != 0)
return;
if(iseve())
return;
error(Eperm);
}
static Chan*
procopen(Chan *c, int omode)
{
Proc *p;
Pgrp *pg;
Chan *tc;
int pid;
if(c->qid.type & QTDIR)
return devopen(c, omode, 0, 0, procgen);
if(QID(c->qid) == Qtrace){
if (omode != OREAD)
error(Eperm);
lock(&tlock);
if (waserror()){
unlock(&tlock);
nexterror();
}
if (topens > 0)
error("already open");
topens++;
if (tevents == nil){
tevents = (Traceevent*)malloc(sizeof(Traceevent) * Nevents);
if(tevents == nil)
error(Enomem);
tproduced = tconsumed = 0;
}
proctrace = _proctrace;
unlock(&tlock);
poperror();
c->mode = openmode(omode);
c->flag |= COPEN;
c->offset = 0;
return c;
}
p = proctab(SLOT(c->qid));
qlock(&p->debug);
if(waserror()){
qunlock(&p->debug);
nexterror();
}
pid = PID(c->qid);
if(p->pid != pid)
error(Eprocdied);
omode = openmode(omode);
switch(QID(c->qid)){
case Qtext:
if(omode != OREAD)
error(Eperm);
tc = proctext(c, p);
tc->offset = 0;
qunlock(&p->debug);
poperror();
return tc;
case Qproc:
case Qkregs:
case Qsegment:
case Qprofile:
case Qfd:
if(omode != OREAD)
error(Eperm);
break;
case Qnote:
if(p->privatemem)
error(Eperm);
break;
case Qmem:
case Qctl:
if(p->privatemem)
error(Eperm);
nonone(p);
break;
case Qargs:
case Qnoteid:
case Qstatus:
case Qwait:
case Qregs:
case Qfpregs:
case Qsyscall:
nonone(p);
break;
case Qns:
if(omode != OREAD)
error(Eperm);
c->aux = malloc(sizeof(Mntwalk));
break;
case Qnotepg:
nonone(p);
pg = p->pgrp;
if(pg == nil)
error(Eprocdied);
if(omode!=OWRITE || pg->pgrpid == 1)
error(Eperm);
c->pgrpid.path = pg->pgrpid+1;
c->pgrpid.vers = p->noteid;
break;
default:
pprint("procopen %#lux\n", QID(c->qid));
error(Egreg);
}
/* Affix pid to qid */
if(p->state != Dead)
c->qid.vers = p->pid;
/* make sure the process slot didn't get reallocated while we were playing */
coherence();
if(p->pid != pid)
error(Eprocdied);
tc = devopen(c, omode, 0, 0, procgen);
qunlock(&p->debug);
poperror();
return tc;
}
static int
procwstat(Chan *c, uchar *db, int n)
{
Proc *p;
Dir *d;
if(c->qid.type&QTDIR)
error(Eperm);
if(QID(c->qid) == Qtrace)
return devwstat(c, db, n);
p = proctab(SLOT(c->qid));
nonone(p);
d = nil;
if(waserror()){
free(d);
qunlock(&p->debug);
nexterror();
}
qlock(&p->debug);
if(p->pid != PID(c->qid))
error(Eprocdied);
if(strcmp(up->user, p->user) != 0 && strcmp(up->user, eve) != 0)
error(Eperm);
d = smalloc(sizeof(Dir)+n);
n = convM2D(db, n, &d[0], (char*)&d[1]);
if(n == 0)
error(Eshortstat);
if(!emptystr(d->uid) && strcmp(d->uid, p->user) != 0){
if(strcmp(up->user, eve) != 0)
error(Eperm);
else
kstrdup(&p->user, d->uid);
}
if(d->mode != ~0UL)
p->procmode = d->mode&0777;
poperror();
free(d);
qunlock(&p->debug);
return n;
}
static long
procoffset(long offset, char *va, int *np)
{
if(offset > 0) {
offset -= *np;
if(offset < 0) {
memmove(va, va+*np+offset, -offset);
*np = -offset;
}
else
*np = 0;
}
return offset;
}
static int
procqidwidth(Chan *c)
{
char buf[32];
return sprint(buf, "%lud", c->qid.vers);
}
int
procfdprint(Chan *c, int fd, int w, char *s, int ns)
{
int n;
if(w == 0)
w = procqidwidth(c);
n = snprint(s, ns, "%3d %.2s %C %4ld (%.16llux %*lud %.2ux) %5ld %8lld %s\n",
fd,
&"r w rw"[(c->mode&3)<<1],
devtab[c->type]->dc, c->dev,
c->qid.path, w, c->qid.vers, c->qid.type,
c->iounit, c->offset, c->path->s);
return n;
}
static int
procfds(Proc *p, char *va, int count, long offset)
{
Fgrp *f;
Chan *c;
char buf[256];
int n, i, w, ww;
char *a;
/* print to buf to avoid holding fgrp lock while writing to user space */
if(count > sizeof buf)
count = sizeof buf;
a = buf;
qlock(&p->debug);
f = p->fgrp;
if(f == nil){
qunlock(&p->debug);
return 0;
}
lock(f);
if(waserror()){
unlock(f);
qunlock(&p->debug);
nexterror();
}
n = readstr(0, a, count, p->dot->path->s);
n += snprint(a+n, count-n, "\n");
offset = procoffset(offset, a, &n);
/* compute width of qid.path */
w = 0;
for(i = 0; i <= f->maxfd; i++) {
c = f->fd[i];
if(c == nil)
continue;
ww = procqidwidth(c);
if(ww > w)
w = ww;
}
for(i = 0; i <= f->maxfd; i++) {
c = f->fd[i];
if(c == nil)
continue;
n += procfdprint(c, i, w, a+n, count-n);
offset = procoffset(offset, a, &n);
}
unlock(f);
qunlock(&p->debug);
poperror();
/* copy result to user space, now that locks are released */
memmove(va, buf, n);
return n;
}
static void
procclose(Chan * c)
{
if(QID(c->qid) == Qtrace){
lock(&tlock);
if(topens > 0)
topens--;
if(topens == 0)
proctrace = nil;
unlock(&tlock);
}
if(QID(c->qid) == Qns && c->aux != 0)
free(c->aux);
}
static void
int2flag(int flag, char *s)
{
if(flag == 0){
*s = '\0';
return;
}
*s++ = '-';
if(flag & MAFTER)
*s++ = 'a';
if(flag & MBEFORE)
*s++ = 'b';
if(flag & MCREATE)
*s++ = 'c';
if(flag & MCACHE)
*s++ = 'C';
*s = '\0';
}
static int
procargs(Proc *p, char *buf, int nbuf)
{
int j, k, m;
char *a;
int n;
a = p->args;
if(p->setargs){
snprint(buf, nbuf, "%s [%s]", p->text, p->args);
return strlen(buf);
}
n = p->nargs;
for(j = 0; j < nbuf - 1; j += m){
if(n <= 0)
break;
if(j != 0)
buf[j++] = ' ';
m = snprint(buf+j, nbuf-j, "%q", a);
k = strlen(a) + 1;
a += k;
n -= k;
}
return j;
}
static int
eventsavailable(void *)
{
return tproduced > tconsumed;
}
static long
procread(Chan *c, void *va, long n, vlong off)
{
/* NSEG*32 was too small for worst cases */
char *a, flag[10], *sps, *srv, statbuf[NSEG*96];
int i, j, m, navail, ne, pid, rsize;
long l;
uchar *rptr;
ulong offset;
Confmem *cm;
Mntwalk *mw;
Proc *p;
Segment *sg, *s;
Ureg kur;
Waitq *wq;
a = va;
offset = off;
if(c->qid.type & QTDIR)
return devdirread(c, a, n, 0, 0, procgen);
if(QID(c->qid) == Qtrace){
if(!eventsavailable(nil))
return 0;
rptr = (uchar*)va;
navail = tproduced - tconsumed;
if(navail > n / sizeof(Traceevent))
navail = n / sizeof(Traceevent);
while(navail > 0) {
ne = ((tconsumed & Emask) + navail > Nevents)?
Nevents - (tconsumed & Emask): navail;
memmove(rptr, &tevents[tconsumed & Emask],
ne * sizeof(Traceevent));
tconsumed += ne;
rptr += ne * sizeof(Traceevent);
navail -= ne;
}
return rptr - (uchar*)va;
}
p = proctab(SLOT(c->qid));
if(p->pid != PID(c->qid))
error(Eprocdied);
switch(QID(c->qid)){
case Qargs:
qlock(&p->debug);
j = procargs(p, up->genbuf, sizeof up->genbuf);
qunlock(&p->debug);
if(offset >= j)
return 0;
if(offset+n > j)
n = j-offset;
memmove(a, &up->genbuf[offset], n);
return n;
case Qsyscall:
if(!p->syscalltrace)
return 0;
n = readstr(offset, a, n, p->syscalltrace);
return n;
case Qmem:
if(offset < KZERO)
return procctlmemio(p, offset, n, va, 1);
if(!iseve())
error(Eperm);
/* validate kernel addresses */
if(offset < (ulong)end) {
if(offset+n > (ulong)end)
n = (ulong)end - offset;
memmove(a, (char*)offset, n);
return n;
}
for(i=0; i<nelem(conf.mem); i++){
cm = &conf.mem[i];
/* klimit-1 because klimit might be zero! */
if(cm->kbase <= offset && offset <= cm->klimit-1){
if(offset+n >= cm->klimit-1)
n = cm->klimit - offset;
memmove(a, (char*)offset, n);
return n;
}
}
error(Ebadarg);
case Qprofile:
s = p->seg[TSEG];
if(s == 0 || s->profile == 0)
error("profile is off");
i = (s->top-s->base)>>LRESPROF;
i *= sizeof(*s->profile);
if(offset >= i)
return 0;
if(offset+n > i)
n = i - offset;
memmove(a, ((char*)s->profile)+offset, n);
return n;
case Qnote:
qlock(&p->debug);
if(waserror()){
qunlock(&p->debug);
nexterror();
}
if(p->pid != PID(c->qid))
error(Eprocdied);
if(n < 1) /* must accept at least the '\0' */
error(Etoosmall);
if(p->nnote == 0)
n = 0;
else {
m = strlen(p->note[0].msg) + 1;
if(m > n)
m = n;
memmove(va, p->note[0].msg, m);
((char*)va)[m-1] = '\0';
p->nnote--;
memmove(p->note, p->note+1, p->nnote*sizeof(Note));
n = m;
}
if(p->nnote == 0)
p->notepending = 0;
poperror();
qunlock(&p->debug);
return n;
case Qproc:
if(offset >= sizeof(Proc))
return 0;
if(offset+n > sizeof(Proc))
n = sizeof(Proc) - offset;
memmove(a, ((char*)p)+offset, n);
return n;
case Qregs:
rptr = (uchar*)p->dbgreg;
rsize = sizeof(Ureg);
goto regread;
case Qkregs:
memset(&kur, 0, sizeof(Ureg));
setkernur(&kur, p);
rptr = (uchar*)&kur;
rsize = sizeof(Ureg);
goto regread;
case Qfpregs:
rptr = (uchar*)&p->fpusave;
rsize = sizeof(FPsave);
regread:
if(rptr == 0)
error(Enoreg);
if(offset >= rsize)
return 0;
if(offset+n > rsize)
n = rsize - offset;
memmove(a, rptr+offset, n);
return n;
case Qstatus:
if(offset >= STATSIZE)
return 0;
if(offset+n > STATSIZE)
n = STATSIZE - offset;
sps = p->psstate;
if(sps == 0)
sps = statename[p->state];
memset(statbuf, ' ', sizeof statbuf);
memmove(statbuf+0*KNAMELEN, p->text, strlen(p->text));
memmove(statbuf+1*KNAMELEN, p->user, strlen(p->user));
memmove(statbuf+2*KNAMELEN, sps, strlen(sps));
j = 2*KNAMELEN + 12;
for(i = 0; i < 6; i++) {
l = p->time[i];
if(i == TReal)
l = MACHP(0)->ticks - l;
l = TK2MS(l);
readnum(0, statbuf+j+NUMSIZE*i, NUMSIZE, l, NUMSIZE);
}
/* ignore stack, which is mostly non-existent */
l = 0;
for(i=1; i<p->seglen; i++){
s = p->seg[i];
if(s)
l += s->top - s->base;
}
readnum(0, statbuf+j+NUMSIZE*6, NUMSIZE, l>>10, NUMSIZE);
readnum(0, statbuf+j+NUMSIZE*7, NUMSIZE, p->basepri, NUMSIZE);
readnum(0, statbuf+j+NUMSIZE*8, NUMSIZE, p->priority, NUMSIZE);
memmove(a, statbuf+offset, n);
return n;
case Qsegment:
j = 0;
for(i = 0; i < p->seglen; i++) {
sg = p->seg[i];
if(sg == 0)
continue;
j += sprint(statbuf+j, "%d %-6s %c%c %.8lux %.8lux %4ld\n",
i,
sname[sg->type&SG_TYPE],
sg->type&SG_RONLY ? 'R' : ' ',
sg->profile ? 'P' : ' ',
sg->base, sg->top, sg->ref);
}
if(offset >= j)
return 0;
if(offset+n > j)
n = j-offset;
if(n == 0 && offset == 0)
exhausted("segments");
memmove(a, &statbuf[offset], n);
return n;
case Qwait:
if(!canqlock(&p->qwaitr))
error(Einuse);
if(waserror()) {
qunlock(&p->qwaitr);
nexterror();
}
lock(&p->exl);
if(up == p && p->nchild == 0 && p->waitq == 0) {
unlock(&p->exl);
error(Enochild);
}
pid = p->pid;
while(p->waitq == 0) {
unlock(&p->exl);
sleep(&p->waitr, haswaitq, p);
if(p->pid != pid)
error(Eprocdied);
lock(&p->exl);
}
wq = p->waitq;
p->waitq = wq->next;
p->nwait--;
unlock(&p->exl);
qunlock(&p->qwaitr);
poperror();
n = snprint(a, n, "%d %lud %lud %lud %q",
wq->w.pid,
wq->w.time[TUser], wq->w.time[TSys], wq->w.time[TReal],
wq->w.msg);
free(wq);
return n;
case Qns:
qlock(&p->debug);
if(waserror()){
qunlock(&p->debug);
nexterror();
}
if(p->pgrp == nil || p->pid != PID(c->qid))
error(Eprocdied);
mw = c->aux;
if(mw->cddone){
qunlock(&p->debug);
poperror();
return 0;
}
mntscan(mw, p);
if(mw->mh == 0){
mw->cddone = 1;
i = snprint(a, n, "cd %s\n", p->dot->path->s);
qunlock(&p->debug);
poperror();
return i;
}
int2flag(mw->cm->mflag, flag);
if(strcmp(mw->cm->to->path->s, "#M") == 0){
srv = srvname(mw->cm->to->mchan);
i = snprint(a, n, "mount %s %s %s %s\n", flag,
srv==nil? mw->cm->to->mchan->path->s : srv,
mw->mh->from->path->s, mw->cm->spec? mw->cm->spec : "");
free(srv);
}else
i = snprint(a, n, "bind %s %s %s\n", flag,
mw->cm->to->path->s, mw->mh->from->path->s);
qunlock(&p->debug);
poperror();
return i;
case Qnoteid:
return readnum(offset, va, n, p->noteid, NUMSIZE);
case Qfd:
return procfds(p, va, n, offset);
}
error(Egreg);
return 0; /* not reached */
}
void
mntscan(Mntwalk *mw, Proc *p)
{
Pgrp *pg;
Mount *t;
Mhead *f;
int nxt, i;
ulong last, bestmid;
pg = p->pgrp;
rlock(&pg->ns);
nxt = 0;
bestmid = ~0;
last = 0;
if(mw->mh)
last = mw->cm->mountid;
for(i = 0; i < MNTHASH; i++) {
for(f = pg->mnthash[i]; f; f = f->hash) {
for(t = f->mount; t; t = t->next) {
if(mw->mh == 0 ||
(t->mountid > last && t->mountid < bestmid)) {
mw->cm = t;
mw->mh = f;
bestmid = mw->cm->mountid;
nxt = 1;
}
}
}
}
if(nxt == 0)
mw->mh = 0;
runlock(&pg->ns);
}
static long
procwrite(Chan *c, void *va, long n, vlong off)
{
int id, m;
Proc *p, *t, *et;
char *a, *arg, buf[ERRMAX];
ulong offset = off;
a = va;
if(c->qid.type & QTDIR)
error(Eisdir);
p = proctab(SLOT(c->qid));
/* Use the remembered noteid in the channel rather
* than the process pgrpid
*/
if(QID(c->qid) == Qnotepg) {
pgrpnote(NOTEID(c->pgrpid), va, n, NUser);
return n;
}
qlock(&p->debug);
if(waserror()){
qunlock(&p->debug);
nexterror();
}
if(p->pid != PID(c->qid))
error(Eprocdied);
switch(QID(c->qid)){
case Qargs:
if(n == 0)
error(Eshort);
if(n >= ERRMAX)
error(Etoobig);
memmove(buf, va, n); /* can fault */
arg = malloc(n+1);
if(arg == nil)
error(Enomem);
memmove(arg, buf, n); /* can't fault */
m = n;
if(arg[m-1] != 0)
arg[m++] = 0;
free(p->args);
p->nargs = m;
p->args = arg;
p->setargs = 1;
break;
case Qmem:
if(p->state != Stopped)
error(Ebadctl);
n = procctlmemio(p, offset, n, va, 0);
break;
case Qregs:
if(offset >= sizeof(Ureg))
n = 0;
else if(offset+n > sizeof(Ureg))
n = sizeof(Ureg) - offset;
if(p->dbgreg == 0)
error(Enoreg);
setregisters(p->dbgreg, (char*)(p->dbgreg)+offset, va, n);
break;
case Qfpregs:
if(offset >= sizeof(FPsave))
n = 0;
else if(offset+n > sizeof(FPsave))
n = sizeof(FPsave) - offset;
memmove((uchar*)&p->fpusave+offset, va, n);
break;
case Qctl:
procctlreq(p, va, n);
break;
case Qnote:
if(p->kp)
error(Eperm);
if(n >= ERRMAX-1)
error(Etoobig);
memmove(buf, va, n);
buf[n] = 0;
if(!postnote(p, 0, buf, NUser))
error("note not posted");
break;
case Qnoteid:
id = atoi(a);
if(id == p->pid) {
p->noteid = id;
break;
}
t = proctab(0);
for(et = t+conf.nproc; t < et; t++) {
if(t->state == Dead)
continue;
if(id == t->noteid) {
if(strcmp(p->user, t->user) != 0)
error(Eperm);
p->noteid = id;
break;
}
}
if(p->noteid != id)
error(Ebadarg);
break;
default:
pprint("unknown qid in procwrite\n");
error(Egreg);
}
poperror();
qunlock(&p->debug);
return n;
}
Dev procdevtab = {
'p',
"proc",
devreset,
procinit,
devshutdown,
procattach,
procwalk,
procstat,
procopen,
devcreate,
procclose,
procread,
devbread,
procwrite,
devbwrite,
devremove,
procwstat,
};
Chan*
proctext(Chan *c, Proc *p)
{
Chan *tc;
Image *i;
Segment *s;
s = p->seg[TSEG];
if(s == 0)
error(Enonexist);
if(p->state==Dead)
error(Eprocdied);
lock(s);
i = s->image;
if(i == 0) {
unlock(s);
error(Eprocdied);
}
unlock(s);
lock(i);
if(waserror()) {
unlock(i);
nexterror();
}
tc = i->c;
if(tc == 0)
error(Eprocdied);
if(incref(tc) == 1 || (tc->flag&COPEN) == 0 || tc->mode!=OREAD) {
cclose(tc);
error(Eprocdied);
}
if(p->pid != PID(c->qid))
error(Eprocdied);
unlock(i);
poperror();
return tc;
}
void
procstopwait(Proc *p, int ctl)
{
int pid;
if(p->pdbg)
error(Einuse);
if(procstopped(p) || p->state == Broken)
return;
if(ctl != 0)
p->procctl = ctl;
p->pdbg = up;
pid = p->pid;
qunlock(&p->debug);
up->psstate = "Stopwait";
if(waserror()) {
p->pdbg = 0;
qlock(&p->debug);
nexterror();
}
sleep(&up->sleep, procstopped, p);
poperror();
qlock(&p->debug);
if(p->pid != pid)
error(Eprocdied);
}
static void
procctlcloseone(Proc *p, Fgrp *f, int fd)
{
Chan *c;
c = f->fd[fd];
if(c == nil)
return;
f->fd[fd] = nil;
unlock(f);
qunlock(&p->debug);
cclose(c);
qlock(&p->debug);
lock(f);
}
void
procctlclosefiles(Proc *p, int all, int fd)
{
int i;
Fgrp *f;
f = p->fgrp;
if(f == nil)
error(Eprocdied);
lock(f);
f->ref++;
if(all)
for(i = 0; i < f->maxfd; i++)
procctlcloseone(p, f, i);
else
procctlcloseone(p, f, fd);
unlock(f);
closefgrp(f);
}
static char *
parsetime(vlong *rt, char *s)
{
uvlong ticks;
ulong l;
char *e, *p;
static int p10[] = {100000000, 10000000, 1000000, 100000, 10000, 1000, 100, 10, 1};
if (s == nil)
return("missing value");
ticks=strtoul(s, &e, 10);
if (*e == '.'){
p = e+1;
l = strtoul(p, &e, 10);
if(e-p > nelem(p10))
return "too many digits after decimal point";
if(e-p == 0)
return "ill-formed number";
l *= p10[e-p-1];
}else
l = 0;
if (*e == '\0' || strcmp(e, "s") == 0){
ticks = 1000000000 * ticks + l;
}else if (strcmp(e, "ms") == 0){
ticks = 1000000 * ticks + l/1000;
}else if (strcmp(e, "µs") == 0 || strcmp(e, "us") == 0){
ticks = 1000 * ticks + l/1000000;
}else if (strcmp(e, "ns") != 0)
return "unrecognized unit";
*rt = ticks;
return nil;
}
void
procctlreq(Proc *p, char *va, int n)
{
Segment *s;
int npc, pri;
Cmdbuf *cb;
Cmdtab *ct;
vlong time;
char *e;
void (*pt)(Proc*, int, vlong);
if(p->kp) /* no ctl requests to kprocs */
error(Eperm);
cb = parsecmd(va, n);
if(waserror()){
free(cb);
nexterror();
}
ct = lookupcmd(cb, proccmd, nelem(proccmd));
switch(ct->index){
case CMclose:
procctlclosefiles(p, 0, atoi(cb->f[1]));
break;
case CMclosefiles:
procctlclosefiles(p, 1, 0);
break;
case CMhang:
p->hang = 1;
break;
case CMkill:
switch(p->state) {
case Broken:
unbreak(p);
break;
case Stopped:
p->procctl = Proc_exitme;
postnote(p, 0, "sys: killed", NExit);
ready(p);
break;
default:
p->procctl = Proc_exitme;
postnote(p, 0, "sys: killed", NExit);
}
break;
case CMnohang:
p->hang = 0;
break;
case CMnoswap:
p->noswap = 1;
break;
case CMpri:
pri = atoi(cb->f[1]);
if(pri > PriNormal && !iseve())
error(Eperm);
procpriority(p, pri, 0);
break;
case CMfixedpri:
pri = atoi(cb->f[1]);
if(pri > PriNormal && !iseve())
error(Eperm);
procpriority(p, pri, 1);
break;
case CMprivate:
p->privatemem = 1;
break;
case CMprofile:
s = p->seg[TSEG];
if(s == 0 || (s->type&SG_TYPE) != SG_TEXT)
error(Ebadctl);
if(s->profile != 0)
free(s->profile);
npc = (s->top-s->base)>>LRESPROF;
s->profile = malloc(npc*sizeof(*s->profile));
if(s->profile == 0)
error(Enomem);
break;
case CMstart:
if(p->state != Stopped)
error(Ebadctl);
ready(p);
break;
case CMstartstop:
if(p->state != Stopped)
error(Ebadctl);
p->procctl = Proc_traceme;
ready(p);
procstopwait(p, Proc_traceme);
break;
case CMstartsyscall:
if(p->state != Stopped)
error(Ebadctl);
p->procctl = Proc_tracesyscall;
ready(p);
procstopwait(p, Proc_tracesyscall);
break;
case CMstop:
procstopwait(p, Proc_stopme);
break;
case CMwaitstop:
procstopwait(p, 0);
break;
case CMwired:
procwired(p, atoi(cb->f[1]));
break;
case CMtrace:
switch(cb->nf){
case 1:
p->trace ^= 1;
break;
case 2:
p->trace = (atoi(cb->f[1]) != 0);
break;
default:
error("args");
}
break;
/* real time */
case CMperiod:
if(p->edf == nil)
edfinit(p);
if(e=parsetime(&time, cb->f[1])) /* time in ns */
error(e);
edfstop(p);
p->edf->T = time/1000; /* Edf times are in µs */
break;
case CMdeadline:
if(p->edf == nil)
edfinit(p);
if(e=parsetime(&time, cb->f[1]))
error(e);
edfstop(p);
p->edf->D = time/1000;
break;
case CMcost:
if(p->edf == nil)
edfinit(p);
if(e=parsetime(&time, cb->f[1]))
error(e);
edfstop(p);
p->edf->C = time/1000;
break;
case CMsporadic:
if(p->edf == nil)
edfinit(p);
p->edf->flags |= Sporadic;
break;
case CMdeadlinenotes:
if(p->edf == nil)
edfinit(p);
p->edf->flags |= Sendnotes;
break;
case CMadmit:
if(p->edf == 0)
error("edf params");
if(e = edfadmit(p))
error(e);
break;
case CMextra:
if(p->edf == nil)
edfinit(p);
p->edf->flags |= Extratime;
break;
case CMexpel:
if(p->edf)
edfstop(p);
break;
case CMevent:
pt = proctrace;
if(up->trace && pt)
pt(up, SUser, 0);
break;
}
poperror();
free(cb);
}
int
procstopped(void *a)
{
Proc *p = a;
return p->state == Stopped;
}
int
procctlmemio(Proc *p, ulong offset, int n, void *va, int read)
{
KMap *k;
Pte *pte;
Page *pg;
Segment *s;
ulong soff, l;
char *a = va, *b;
for(;;) {
s = seg(p, offset, 1);
if(s == 0)
error(Ebadarg);
if(offset+n >= s->top)
n = s->top-offset;
if(!read && (s->type&SG_TYPE) == SG_TEXT)
s = txt2data(p, s);
s->steal++;
soff = offset-s->base;
if(waserror()) {
s->steal--;
nexterror();
}
if(fixfault(s, offset, read, 0) == 0)
break;
poperror();
s->steal--;
}
poperror();
pte = s->map[soff/PTEMAPMEM];
if(pte == 0)
panic("procctlmemio");
pg = pte->pages[(soff&(PTEMAPMEM-1))/BY2PG];
if(pagedout(pg))
panic("procctlmemio1");
l = BY2PG - (offset&(BY2PG-1));
if(n > l)
n = l;
k = kmap(pg);
if(waserror()) {
s->steal--;
kunmap(k);
nexterror();
}
b = (char*)VA(k);
b += offset&(BY2PG-1);
if(read == 1)
memmove(a, b, n); /* This can fault */
else
memmove(b, a, n);
kunmap(k);
poperror();
/* Ensure the process sees text page changes */
if(s->flushme)
memset(pg->cachectl, PG_TXTFLUSH, sizeof(pg->cachectl));
s->steal--;
if(read == 0)
p->newtlb = 1;
return n;
}
Segment*
txt2data(Proc *p, Segment *s)
{
int i;
Segment *ps;
ps = newseg(SG_DATA, s->base, s->size);
ps->image = s->image;
incref(ps->image);
ps->fstart = s->fstart;
ps->flen = s->flen;
ps->flushme = 1;
qlock(&p->seglock);
for(i = 0; i < p->seglen; i++)
if(p->seg[i] == s)
break;
if(i == p->seglen)
panic("segment gone");
qunlock(&s->lk);
putseg(s);
qlock(&ps->lk);
p->seg[i] = ps;
qunlock(&p->seglock);
return ps;
}
Segment*
data2txt(Segment *s)
{
Segment *ps;
ps = newseg(SG_TEXT, s->base, s->size);
ps->image = s->image;
incref(ps->image);
ps->fstart = s->fstart;
ps->flen = s->flen;
ps->flushme = 1;
return ps;
}
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