ref: b68eeefef34d4a742124d922e2a23613b9bcb1e5
dir: /sys/include/thread.h/
#pragma src "/sys/src/libthread" #pragma lib "libthread.a" #pragma varargck argpos chanprint 2 typedef struct Alt Alt; typedef struct Channel Channel; typedef struct Ref Ref; /* * Channel structure. S is the size of the buffer. For unbuffered channels * s is zero. v is an array of s values. If s is zero, v is unused. * f and n represent the state of the queue pointed to by v. */ enum { Nqwds = 2, Nqshift = 5, /* log₂ # of bits in long */ Nqmask = -1, Nqbits = (1 << Nqshift) * 2, }; struct Channel { int s; /* Size of the channel (may be zero) */ uint f; /* Extraction point (insertion pt: (f+n) % s) */ uint n; /* Number of values in the channel */ int e; /* Element size */ int freed; /* Set when channel is being deleted */ volatile Alt **qentry; /* Receivers/senders waiting (malloc) */ volatile int nentry; /* # of entries malloc-ed */ volatile int closed; /* channel is closed */ uchar v[1]; /* Array of s values in the channel */ }; /* Channel operations for alt: */ typedef enum { CHANEND, CHANSND, CHANRCV, CHANNOP, CHANNOBLK, } ChanOp; struct Alt { Channel *c; /* channel */ void *v; /* pointer to value */ ChanOp op; /* operation */ char *err; /* did the op fail? */ /* * the next variables are used internally to alt * they need not be initialized */ Channel **tag; /* pointer to rendez-vous tag */ int entryno; /* entry number */ }; struct Ref { long ref; }; int alt(Alt alts[]); int chanclose(Channel*); int chanclosing(Channel *c); Channel*chancreate(int elemsize, int bufsize); void chanfree(Channel *c); int chanprint(Channel *, char *, ...); long decref(Ref *r); /* returns 0 iff value is now zero */ void incref(Ref *r); int nbrecv(Channel *c, void *v); void* nbrecvp(Channel *c); ulong nbrecvul(Channel *c); int nbsend(Channel *c, void *v); int nbsendp(Channel *c, void *v); int nbsendul(Channel *c, ulong v); void needstack(int); int proccreate(void (*f)(void *arg), void *arg, uint stacksize); int procrfork(void (*f)(void *arg), void *arg, uint stacksize, int flag); void** procdata(void); void procexec(Channel *, char *, char *[]); void procexecl(Channel *, char *, ...); int recv(Channel *c, void *v); void* recvp(Channel *c); ulong recvul(Channel *c); int send(Channel *c, void *v); int sendp(Channel *c, void *v); int sendul(Channel *c, ulong v); int threadcreate(void (*f)(void *arg), void *arg, uint stacksize); void** threaddata(void); void threadexits(char *); void threadexitsall(char *); int threadgetgrp(void); /* return thread group of current thread */ char* threadgetname(void); void threadint(int); /* interrupt thread */ void threadintgrp(int); /* interrupt threads in grp */ void threadkill(int); /* kill thread */ void threadkillgrp(int); /* kill threads in group */ void threadmain(int argc, char *argv[]); int threadnotify(int (*f)(void*, char*), int in); int threadid(void); int threadpid(int); int threadsetgrp(int); /* set thread group, return old */ void threadsetname(char *fmt, ...); Channel*threadwaitchan(void); void yield(void); #pragma varargck argpos threadsetname 1 extern int mainstacksize; /* slave I/O processes */ typedef struct Ioproc Ioproc; #pragma incomplete Ioproc Ioproc* ioproc(void); void closeioproc(Ioproc*); void iointerrupt(Ioproc*); int ioclose(Ioproc*, int); int iodial(Ioproc*, char*, char*, char*, int*); int ioopen(Ioproc*, char*, int); long ioread(Ioproc*, int, void*, long); long ioreadn(Ioproc*, int, void*, long); long iowrite(Ioproc*, int, void*, long); int iosleep(Ioproc*, long); int ioflush(Ioproc*); long iocall(Ioproc*, long (*)(va_list*), ...);