#include <u.h>
#include <libc.h>
#include <thread.h>
#include <bio.h>
#include <omero.h>
#include <auth.h>
typedef struct Evh Evh;
struct Evh {
char* ev;
void (*f)(Oev*);
};
static Channel* uieventc;
static QLock uilock;
int omerodebug;
char* appluiaddress;
#define dprint if(omerodebug)fprint
Channel*
omeroeventchan(Panel* g)
{
if (g){
qlock(g);
assert(!g->evc);
g->evc = chancreate(sizeof(Oev), 5);
qunlock(g);
return g->evc;
}
qlock(&uilock);
if (uieventc == nil)
uieventc = chancreate(sizeof(Oev), 5);
qunlock(&uilock);
return uieventc;
}
static int
unpackevent(Oev* e, char* s)
{
char* p;
char* ev;
char* a;
char* name;
p = s;
s = strchr(s, ' ');
if (s == nil)
return -1;
*s++ = 0;
ev = s;
a = strchr(s, ' ');
if (a)
*a++ = 0;
e->ev = strdup(ev);
e->arg = a ? strdup(a) : nil;
e->path = smprint("/devs%s", p);
e->panel = nil;
name = strrchr(e->path, '/');
if (name){
name++;
e->panel = findpanel(name, 0);
}
return 0;
}
void
clearoev(Oev* e)
{
if (e->panel != nil && decref(e->panel) <= 0)
if (e->panel->gone){
dprint(2, "clearov: removepanel %s\n", e->panel->name);
removepanel(e->panel);
}
e->panel = nil;
free(e->path);
e->path = nil;
free(e->ev);
e->ev = nil;
free(e->arg);
e->arg = nil;
}
static void
deliver(Oev* e)
{
Oev ne;
if (e->panel)
if (e->panel->evc != nil || uieventc != nil){
memset(&ne, 0, sizeof(ne));
if (e->path)
ne.path = strdup(e->path);
if (e->ev)
ne.ev = strdup(e->ev);
if (e->arg)
ne.arg = strdup(e->arg);
ne.panel = e->panel;
if (ne.panel != nil)
incref(ne.panel);
if (e->panel->evc)
send(e->panel->evc, &ne);
else
send(uieventc, &ne);
}
}
static Channel* pidc;
static Channel* waitc;
static void
m9fsproc(void* a)
{
char* sys = a;
char m[50];
seprint(m, m+sizeof(m), "%sui", sys);
procexecl(pidc, "/bin/9fs", "9fs", m, nil);
threadexits("9fs");
}
static int
mount9fs(char* sys)
{
Waitmsg* m;
int pid, mpid;
int r;
if (!waitc)
waitc = threadwaitchan();
pidc = chancreate(sizeof(ulong), 0);
procrfork(m9fsproc, sys, 16*1024, RFFDG|RFENVG);
mpid = recvul(pidc);
chanfree(pidc);
do {
m = recvp(waitc);
pid = m->pid;
r = (!m->msg || !m->msg[0]);
free(m);
} while(pid != mpid);
return r;
}
static int
pathnames(char mnt[], char sys[], int sz, char* path)
{
char* ea;
int n;
if (strncmp(path, "/devs/", 6))
return 0;
ea = strstr(path+6, "ui/");
if (!ea)
return 0;
n = ea - path - 5;
if (n > sz)
n = sz;
strecpy(sys, sys+n, path+6);
n = ea + 2 - path;
if (n > sz)
n = sz;
strecpy(mnt, mnt+n, path);
return 1;
}
static int
mountui(char* gdir, char* oaddr)
{
int fd;
char addr[50];
char sys[50];
char mnt[50];
char ctl[70];
int cfd;
dprint(2, "checking %s for access\n", gdir);
if (access(gdir, AEXIST) < 0){
dprint(2, "mountui for %s (addr %s)\n", gdir, oaddr);
if (!pathnames(mnt, sys, 50, gdir))
goto fail;
dprint(2, "mountui: sys %s mnt %s\n", sys, mnt);
strcpy(ctl, mnt);
strcat(ctl, "/ctl");
if (access(ctl, AEXIST) >= 0) // omero ok. gdir not there.
goto fail;
if (!oaddr) {
strcpy(addr, "tcp!");
strcat(addr, sys);
strcat(addr, "!omero");
oaddr = addr;
}
cfd = -1;
fd = dial(netmkaddr(oaddr, "tcp", "omero"), nil, nil, &cfd);
if (fd < 0)
goto fail;
fprint(cfd, "keepalive 10000");
close(cfd);
if (amount(fd, "/devs", MBEFORE|MCREATE, "") < 0){
close(fd);
goto fail;
}
}
return 1;
fail:
dprint(2, "cannot access: %s\n", gdir);
werrstr("cannot access: %s\n", gdir);
return 0;
}
/* Similar to a newpanel() for a panel that
* does exist. Ignored otherwise.
*/
static void
addrh(Oev* e)
{
Panel* p;
dprint(2, "addrh: %s: %s\n", e->path, e->arg);
p = newpanel(e->path, 0);
if (p != nil){
if (e->panel != nil){
assert(e->panel == p);
decref(p);
} else
e->panel = p;
} else
dprint(2, "addrh: no panel: %s\n", e->path);
if (omerodebug > 1)
paneldump(2);
}
static void
pathh(Oev* e)
{
char* to;
if (e->panel != nil){
to = smprint("/devs%s", e->arg);
if (strcmp(e->path, to)){
movepanel(e->path, to);
deliver(e);
}
free(to);
}
}
static void
exith(Oev* e)
{
Panel* g;
Repl** l;
Repl* gr;
int nr;
if (!e->panel)
return;
g = e->panel;
qlock(g);
for(l = &g->repl; gr = *l; l = &(*l)->next)
if (!strcmp(gr->path, e->path))
break;
if (gr != nil){
*l = gr->next;
dprint(2, "exith rmrepl: %s: %r\n", gr->path);
g->nrepl--;
if (gr->fd[0] >= 0)
close(gr->fd[0]);
if (gr->fd[1] >= 0)
close(gr->fd[1]);
free(gr->path);
free(gr);
}
nr = g->nrepl;
qunlock(g);
if (nr == 0)
deliver(e);
}
static void
datah(Oev* e)
{
Repl* r;
if (e->panel){
r = findrepl(e->panel, e->path, 0);
rpaneldata(e->panel, r);
deliver(e);
} else
dprint(2, "datah: no panel\n");
}
static void
txth(Oev* e)
{
char* s;
Repl* r;
if (e->panel && e->panel->nrepl > 1){
s = smprint("%s %s\n", e->ev, e->arg);
r = findrepl(e->panel, e->path, 0);
wpanelexcl(e->panel, "ctl", s, strlen(s), r);
free(s);
}
if (strcmp(e->ev, "dirty") == 0 || strcmp(e->ev, "clean") == 0)
deliver(e);
}
static Evh evs[] = {
{ "addr", addrh },
{ "path", pathh },
{ "exit", exith },
{ "data", datah }, // Used for replication
{ "ins", txth }, // Could think of a better way
{ "del", txth },
{ "dirty", txth },
{ "clean", txth },
};
static Lock plock;
static int procs[100];
static int nprocs;
static void
addproc(int pid)
{
int i;
lock(&plock);
for (i = 0; i < nelem(procs); i++)
if (!procs[i]){
procs[i] = pid;
break;
}
if (i == nprocs)
nprocs++;
unlock(&plock);
assert(i < nelem(procs));
}
static int
delproc(int pid)
{
int i;
lock(&plock);
for (i = 0; i < nelem(procs); i++)
if (procs[i] == pid){
procs[i] = 0;
break;
}
if (i + 1 == nprocs)
while(--nprocs > 0 && !procs[nprocs-1])
;
unlock(&plock);
assert(i < nelem(procs));
return nprocs;
}
static void
kill(int pid)
{
int fd;
char fn[40];
seprint(fn, fn+40, "/proc/%d/ctl", pid);
fd = open(fn, OWRITE);
if (fd){
write(fd, "kill", 4);
close(fd);
}
}
void
omeroterm(void)
{
int i;
Oev e;
lock(&plock);
for (i = 0; i < nelem(procs); i++)
if (procs[i]){
kill(procs[i]);
procs[i] = 0;
}
nprocs = 0;
unlock(&plock);
if (uieventc){
memset(&e, 0, sizeof(e));
e.ev = strdup("exit");
send(uieventc, &e);
}
}
extern int omerogone(void);
static void
eventproc(void*a)
{
int fd;
Oev e;
int i;
Biobuf bin;
char* ln;
int pid;
int np;
int mounted;
char* s;
threadsetname("eventproc");
fd = (int)a;
memset(&e, 0, sizeof(e));
pid = getpid();
addproc(pid);
Binit(&bin, fd, OREAD);
mounted = 0;
while(ln = Brdstr(&bin, '\001', 1)){
if (!strcmp(ln, "bye"))
break;
if (unpackevent(&e, ln) < 0){
clearoev(&e);
free(ln);
continue;
}
dprint(2, "event %s [%s] %s 0x%p \n", e.path, e.ev, e.arg, e.panel);
if (!mounted){
s = strchr(e.arg, ' ');
if (s)
s++;
if (!mountui(e.path, s)){
fprint(2, "mounting omero %s: %r\n", e.path);
free(ln);
break;
} else
mounted = 1;
}
for(i = 0; i < nelem(evs); i++)
if (!strcmp(e.ev, evs[i].ev)){
evs[i].f(&e);
break;
}
if (e.panel && i == nelem(evs))
deliver(&e);
free(ln);
clearoev(&e);
}
clearoev(&e);
Bterm(&bin);
dprint(2, "eventproc %d exiting\n", pid);
np = delproc(pid);
if (np == 1 && omerogone()){
assert(procs[0]);
kill(procs[0]);
}
threadexits(nil);
}
static void
srvproc(void* a)
{
ulong id = (ulong)a;
int afd, lfd;
char adir[40];
char ldir[40];
int dfd;
NetConnInfo* ni;
int pid;
threadsetname("uiproc");
pid = getpid();
addproc(pid);
afd = announce("tcp!*!0", adir);
if (afd < 0)
sysfatal("can't announce: %r");
ni = getnetconninfo(adir, afd);
if (ni == nil)
sysfatal("can't get conninfo");
rendezvous((void*)id, (void*)atoi(ni->lserv));
freenetconninfo(ni);
for(;;){
lfd = listen(adir, ldir);
if (lfd < 0)
sysfatal("can't listen: %r");
else
fprint(lfd, "keepalive 5000");
dfd = accept(lfd, ldir);
dprint(2, "client\n");
close(lfd);
proccreate(eventproc, (void*)dfd, 16*1024);
}
}
static char*
setupdir(char* gdir)
{
static char* omero = nil;
if (gdir == nil){
if (omero == nil)
omero = getenv("omero");
if (omero == nil)
omero = smprint("/devs/%sui/row:wins/col:1", sysname());
gdir = omero;
}
if (gdir != nil && !mountui(gdir, nil))
return nil;
return gdir;
}
Panel*
createpanel(char* name, char* type, char* omero)
{
static int initted;
static long port;
ulong id;
char* path;
Panel* g;
assert(type);
omero = setupdir(omero);
if (omero == nil)
return nil;
dprint(2, "init: omero %s\n", omero);
if (!initted++){
id = getpid();
proccreate(srvproc, (void*)id, 8*1024);
port = (long)rendezvous((void*)id, 0);
appluiaddress = smprint("tcp!%s!%ld", sysname(), port);
} else
while(port == 0){
yield();
sleep(10);
}
path = smprint("%s/%s:%s.%uld", omero, type, name, truerand()%10000);
g = mkpanel(path);
if (g){
openpanelctl(g);
panelctl(g, "hold\naddr %s", appluiaddress);
}
free(path);
return g;
}
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