ref: c6d4cd09a395a24ee993c1edf1031e5b01adddde
dir: /sys/src/libthread/main.c/
#include <u.h> #include <libc.h> #include <thread.h> #include "threadimpl.h" typedef struct Mainarg Mainarg; struct Mainarg { int argc; char **argv; }; int mainstacksize; int _threadnotefd; int _threadpasserpid; static jmp_buf _mainjmp; static void mainlauncher(void*); extern void (*_sysfatal)(char*, va_list); extern void (*__assert)(char*); static Proc **mainp; void main(int argc, char **argv) { Mainarg *a; Proc *p; rfork(RFREND); mainp = &p; if(setjmp(_mainjmp)) _schedinit(p); //_threaddebuglevel = (DBGSCHED|DBGCHAN|DBGREND)^~0; _systhreadinit(); _qlockinit(_threadrendezvous); _sysfatal = _threadsysfatal; __assert = _threadassert; notify(_threadnote); if(mainstacksize == 0) mainstacksize = 8*1024; a = _threadmalloc(sizeof *a, 1); a->argc = argc; a->argv = argv; p = _newproc(mainlauncher, a, mainstacksize, "threadmain", 0, 0); _schedinit(p); abort(); /* not reached */ } static void mainlauncher(void *arg) { Mainarg *a; a = arg; threadmain(a->argc, a->argv); threadexits("threadmain"); } static char* skip(char *p) { while(*p == ' ') p++; while(*p != ' ' && *p != 0) p++; return p; } static long _times(long *t) { char b[200], *p; int f; ulong r; memset(b, 0, sizeof(b)); f = open("/dev/cputime", OREAD|OCEXEC); if(f < 0) return 0; if(read(f, b, sizeof(b)) <= 0){ close(f); return 0; } p = b; if(t) t[0] = atol(p); p = skip(p); if(t) t[1] = atol(p); p = skip(p); r = atol(p); if(t){ p = skip(p); t[2] = atol(p); p = skip(p); t[3] = atol(p); } return r; } static void efork(Execargs *e) { char buf[ERRMAX]; _threaddebug(DBGEXEC, "_schedexec %s", e->prog); close(e->fd[0]); exec(e->prog, e->args); _threaddebug(DBGEXEC, "_schedexec failed: %r"); rerrstr(buf, sizeof buf); if(buf[0]=='\0') strcpy(buf, "exec failed"); write(e->fd[1], buf, strlen(buf)); _exits(buf); } int _schedexec(Execargs *e) { int pid, flag; flag = (_threadwaitchan == nil) ? RFNOWAIT : 0; switch(pid = rfork(RFREND|RFNOTEG|RFFDG|RFMEM|RFPROC|flag)){ case 0: efork(e); default: return pid; } } int _schedfork(Proc *p) { int pid; switch(pid = rfork(RFPROC|RFMEM|RFNOWAIT|p->rforkflag)){ case 0: *mainp = p; /* write to stack, so local to proc */ longjmp(_mainjmp, 1); default: return pid; } } void _schedexit(Proc *p) { char ex[ERRMAX]; Proc **l; lock(&_threadpq.lock); for(l=&_threadpq.head; *l; l=&(*l)->next){ if(*l == p){ *l = p->next; if(*l == nil) _threadpq.tail = l; break; } } unlock(&_threadpq.lock); utfecpy(ex, ex+sizeof ex, p->exitstr); free(p); _exits(ex); } void _schedexecwait(void) { int pid; Channel *c; Proc *p; Thread *t; Waitmsg *w; p = _threadgetproc(); t = p->thread; pid = t->ret; _threaddebug(DBGEXEC, "_schedexecwait %d", t->ret); rfork(RFCFDG); for(;;){ w = wait(); if(w == nil) break; if(w->pid == pid) break; free(w); } if(w != nil){ if((c = _threadwaitchan) != nil) sendp(c, w); else free(w); } threadexits("procexec"); } static Proc **procp; void _systhreadinit(void) { procp = privalloc(); } Proc* _threadgetproc(void) { return *procp; } void _threadsetproc(Proc *p) { *procp = p; }