ref: 7a1fe6d6eca745009d9be9ad6f16e45ed2a511ab
dir: /aan.c/
#include <u.h> #include <libc.h> #include <fcall.h> enum { Hdrsz = 3*4, Bufsize = 8*1024, }; typedef struct Hdr Hdr; typedef struct Buf Buf; typedef struct Client Client; struct Hdr { uchar nb[4]; // Number of data bytes in this message uchar msg[4]; // Message number uchar acked[4]; // Number of messages acked }; struct Buf { Hdr hdr; uchar buf[Bufsize]; Buf *next; }; struct Client { QLock lk; char *addr; int netfd; int pipefd; int timeout; int reader; int writer; int syncer; ulong inmsg; ulong outmsg; Buf *unackedhead; Buf **unackedtail; }; static void reconnect(Client *c) { Buf *b; int n; ulong to; qlock(&c->lk); to = (ulong)time(0) + c->timeout; Again: for(;;){ if(c->netfd >= 0){ close(c->netfd); c->netfd = -1; } if((c->netfd = dial(c->addr,nil,nil,nil)) >= 0) break; if((ulong)time(0) >= to) sysfatal("dial timed out: %r"); sleep(1000); } for(b = c->unackedhead; b != nil; b = b->next){ n = GBIT32(b->hdr.nb); PBIT32(b->hdr.acked, c->inmsg); if(write(c->netfd, &b->hdr, Hdrsz) != Hdrsz || write(c->netfd, b->buf, n) != n){ print("write error: %r\n"); goto Again; } } qunlock(&c->lk); } static void aanwriter(void *arg) { Client *c = (Client*)arg; Buf *b; int n; ulong m; for(;;){ b = malloc(sizeof(Buf)); if(b == nil) break; if((n = read(c->pipefd, b->buf, Bufsize)) < 0){ free(b); break; } qlock(&c->lk); m = c->outmsg++; PBIT32(b->hdr.nb, n); PBIT32(b->hdr.msg, m); PBIT32(b->hdr.acked, c->inmsg); b->next = nil; if(c->unackedhead == nil) c->unackedtail = &c->unackedhead; *c->unackedtail = b; c->unackedtail = &b->next; if(c->netfd < 0 || write(c->netfd, &b->hdr, Hdrsz) != Hdrsz || write(c->netfd, b->buf, n) != n){ qunlock(&c->lk); continue; } qunlock(&c->lk); if(n == 0) break; } close(c->pipefd); c->pipefd = -1; } static void aansyncer(void *arg) { Client *c = (Client*)arg; Hdr hdr; for(;;){ sleep(4000); qlock(&c->lk); if(c->netfd >= 0){ PBIT32(hdr.nb, 0); PBIT32(hdr.acked, c->inmsg); PBIT32(hdr.msg, -1); write(c->netfd, &hdr, Hdrsz); } qunlock(&c->lk); } } static void aanreader(void *arg) { Client *c = (Client*)arg; ulong a, m, lastacked = 0; Buf *b, *x; int n; Restart: b = mallocz(sizeof(Buf), 1); for(;;){ if(readn(c->netfd, &b->hdr, Hdrsz) != Hdrsz) break; a = GBIT32(b->hdr.acked); m = GBIT32(b->hdr.msg); n = GBIT32(b->hdr.nb); if(n == 0){ if(m == (ulong)-1) continue; goto Closed; } else if(n < 0 || n > Bufsize) goto Closed; if(readn(c->netfd, b->buf, n) != n) break; if(m != c->inmsg) continue; c->inmsg++; if((long)(a - lastacked) > 0){ qlock(&c->lk); while((x = c->unackedhead) != nil){ assert(GBIT32(x->hdr.msg) == lastacked); c->unackedhead = x->next; free(x); if(++lastacked == a) break; } qunlock(&c->lk); } if(c->pipefd < 0) goto Closed; write(c->pipefd, b->buf, n); } free(b); reconnect(c); goto Restart; Closed: free(b); if(c->pipefd >= 0) write(c->pipefd, "", 0); } int aanclient(char *addr, int timeout) { Client *c; int pfd[2]; if(pipe(pfd) < 0) sysfatal("pipe: %r"); c = mallocz(sizeof(Client), 1); c->addr = addr; c->netfd = -1; c->pipefd = pfd[1]; c->inmsg = 0; c->outmsg = 0; c->timeout = 60; reconnect(c); c->timeout = timeout; c->writer = kproc("aanwriter", aanwriter, c); c->reader = kproc("aanreader", aanreader, c); c->syncer = kproc("aansyncer", aansyncer, c); return pfd[0]; }