ref: 1c7e58e75bc6b5620984f164d66354350b28dfe0
dir: /sys/src/libsunrpc/fd.c/
#include <u.h> #include <libc.h> #include <thread.h> #include <sunrpc.h> enum { MaxRead = 17000, }; typedef struct SunMsgFd SunMsgFd; struct SunMsgFd { SunMsg msg; int fd; }; typedef struct Arg Arg; struct Arg { SunSrv *srv; Channel *creply; Channel *csync; int fd; }; static void sunFdRead(void *v) { uint n, tot; int done; uchar buf[4], *p; Arg arg = *(Arg*)v; SunMsgFd *msg; sendp(arg.csync, 0); p = nil; tot = 0; for(;;){ n = readn(arg.fd, buf, 4); if(n != 4) break; n = (buf[0]<<24)|(buf[1]<<16)|(buf[2]<<8)|buf[3]; if(arg.srv->chatty) fprint(2, "%.8ux...", n); done = n&0x80000000; n &= ~0x80000000; p = erealloc(p, tot+n); if(readn(arg.fd, p+tot, n) != n) break; tot += n; if(done){ msg = emalloc(sizeof(SunMsgFd)); msg->msg.data = p; msg->msg.count = tot; msg->msg.creply = arg.creply; sendp(arg.srv->crequest, msg); p = nil; tot = 0; } } } static void sunFdWrite(void *v) { uchar buf[4]; u32int n; Arg arg = *(Arg*)v; SunMsgFd *msg; sendp(arg.csync, 0); while((msg = recvp(arg.creply)) != nil){ n = msg->msg.count; buf[0] = (n>>24)|0x80; buf[1] = n>>16; buf[2] = n>>8; buf[3] = n; if(write(arg.fd, buf, 4) != 4 || write(arg.fd, msg->msg.data, msg->msg.count) != msg->msg.count) fprint(2, "sunFdWrite: %r\n"); free(msg->msg.data); free(msg); } } int sunSrvFd(SunSrv *srv, int fd) { Arg *arg; arg = emalloc(sizeof(Arg)); arg->fd = fd; arg->srv = srv; arg->csync = chancreate(sizeof(void*), 0); arg->creply = chancreate(sizeof(SunMsg*), 10); proccreate(sunFdRead, arg, SunStackSize); proccreate(sunFdWrite, arg, SunStackSize); recvp(arg->csync); recvp(arg->csync); chanfree(arg->csync); free(arg); return 0; }