ref: e0c19ae048ae671883fd4d27d5f617c02020bdf5
dir: /sys/src/9/xen/devxenstore.c/
/* * Driver for xenstore - database shared between domains, used by xenbus to * communicate configuration info. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "../port/error.h" #include "../pc/io.h" #define LOG(a) typedef struct Aux Aux; enum { Qtopdir, Qctl, Qwatch, WRITING = 0, READING, WATCHING, MAXIO = 8*1024, }; Dirtab xsdir[] = { ".", {Qtopdir, 0, QTDIR}, 0, 0555, "xenstore", {Qctl, 0}, 0, 0660, "xenwatch", {Qwatch, 0}, 0, 0440, }; struct { struct xenstore_domain_interface *intf; struct xsd_sockmsg hdr; int hdrvalid; int evtchn; int nextreqid; Aux *rhead; Aux *kernelaux; Queue *evq; Rendez wr; Rendez rr; QLock; Lock rlock; } xenstore; struct Aux { QLock; Rendez qr; Queue *ioq; Aux *next; int state; int reqid; }; static char Ephase[] = "phase error"; static char Eproto[] = "protocol error"; static char NodeShutdown[] = "control/shutdown"; static void xenbusproc(void*); static int notfull(void*) { struct xenstore_domain_interface *xs = xenstore.intf; return (xs->req_prod-xs->req_cons) < XENSTORE_RING_SIZE; } static int notempty(void*) { struct xenstore_domain_interface *xs = xenstore.intf; return xs->rsp_prod > xs->rsp_cons; } static int ishead(void* a) { return xenstore.rhead == a; } static void xsintr(Ureg*, void*) { LOG(dprint("xsintr\n");) wakeup(&xenstore.rr); wakeup(&xenstore.wr); } static void xwrite(Queue *q, char *buf, int len) { struct xenstore_domain_interface *xs; int m, n; XENSTORE_RING_IDX idx; xs = xenstore.intf; while (len > 0) { n = XENSTORE_RING_SIZE - (xs->req_prod - xs->req_cons); if (n == 0) { xenchannotify(xenstore.evtchn); sleep(&xenstore.wr, notfull, 0); continue; } if (n > len) n = len; idx = MASK_XENSTORE_IDX(xs->req_prod); m = XENSTORE_RING_SIZE - idx; if (m > n) m = n; if (q) qread(q, xs->req+idx, m); else memmove(xs->req+idx, buf, m); if (m < n) { if (q) qread(q, xs->req, n-m); else memmove(xs->req, buf+m, n-m); } coherence(); xs->req_prod += n; xenchannotify(xenstore.evtchn); if (buf) buf += n; len -= n; } } static void xread(Queue *q, char *buf, int len) { struct xenstore_domain_interface *xs = xenstore.intf; int n, m; XENSTORE_RING_IDX idx; for (n = len; n > 0; n -= m) { while (xs->rsp_prod == xs->rsp_cons) { xenchannotify(xenstore.evtchn); if (up == 0) HYPERVISOR_yield(); else sleep(&xenstore.rr, notempty, 0); } idx = MASK_XENSTORE_IDX(xs->rsp_cons); m = xs->rsp_prod - xs->rsp_cons; if (m > n) m = n; if (m > XENSTORE_RING_SIZE - idx) m = XENSTORE_RING_SIZE - idx; if (q) qwrite(q, xs->rsp+idx, m); else if (buf) { memmove(buf, xs->rsp+idx, m); buf += m; } coherence(); xs->rsp_cons += m; } xenchannotify(xenstore.evtchn); } static void xsrpc(Aux *aux) { Queue *q; Aux *l, *r, **lp; struct xsd_sockmsg hdr; long n; q = aux->ioq; if (aux->state == WATCHING) aux->reqid = 0; else { /* get the request header and check validity */ if (qlen(q) < sizeof hdr) error(Eproto); qread(q, &hdr, sizeof hdr); n = hdr.len; if (qlen(q) != n) error(Eproto); qlock(&xenstore); /* generate a unique request id */ aux->reqid = ++xenstore.nextreqid; hdr.req_id = aux->reqid; hdr.tx_id = 0; /* send the request */ xwrite(0, (char*)&hdr, sizeof hdr); xwrite(q, 0, n); qunlock(&xenstore); } /* join list of requests awaiting response */ ilock(&xenstore.rlock); if (xenstore.rhead == 0) { aux->next = 0; xenstore.rhead = aux; } else { aux->next = xenstore.rhead->next; xenstore.rhead->next = aux; } iunlock(&xenstore.rlock); /* loop until matching response header has been received */ if (waserror()) { ilock(&xenstore.rlock); for (lp = &xenstore.rhead; *lp && *lp != aux; lp = &(*lp)->next) ; if (*lp != 0) { *lp = (*lp)->next; if (lp == &xenstore.rhead && *lp) wakeup(&(*lp)->qr); } iunlock(&xenstore.rlock); nexterror(); } for (;;) { /* wait until this request reaches head of queue */ if (xenstore.rhead != aux) sleep(&aux->qr, ishead, aux); /* wait until a response header (maybe for another request) has been read */ if (!xenstore.hdrvalid) { xread(0, (char*)&xenstore.hdr, sizeof xenstore.hdr); xenstore.hdrvalid = 1; } if (xenstore.hdr.req_id == aux->reqid) break; /* response was for a different request: move matching request to head of queue */ ilock(&xenstore.rlock); for (l = xenstore.rhead; r = l->next; l = r) if (xenstore.hdr.req_id == r->reqid) { l->next = r->next; r->next = xenstore.rhead; xenstore.rhead = r; break; } iunlock(&xenstore.rlock); if (r) { /* wake the matching request */ wakeup(&r->qr); } else { /* response without a request: should be a watch event */ xenstore.hdrvalid = 0; xread(0, 0, xenstore.hdr.len); continue; } } /* queue the response header, and data if any, for the caller to read */ qwrite(q, &xenstore.hdr, sizeof xenstore.hdr); xenstore.hdrvalid = 0; /* read the data, if any */ if (xenstore.hdr.len > 0) xread(q, 0, xenstore.hdr.len); /* remove finished request and wake the next request on the queue */ ilock(&xenstore.rlock); xenstore.rhead = aux->next; iunlock(&xenstore.rlock); poperror(); if (xenstore.rhead != 0) wakeup(&xenstore.rhead->qr); } static void xsreset() { LOG(dprint("xsreset\n");) } static void xsinit() { intrenable(xenstore.evtchn, xsintr, 0, BUSUNKNOWN, "Xen store"); kproc("xenbus", xenbusproc, 0); } static Chan* xsattach(char *spec) { return devattach('x', spec); } static Walkqid* xswalk(Chan *c, Chan *nc, char **name, int nname) { return devwalk(c, nc, name, nname, xsdir, nelem(xsdir), devgen); } static int xsstat(Chan *c, uchar *dp, int n) { return devstat(c, dp, n, xsdir, nelem(xsdir), devgen); } static Aux* auxalloc(int initstate) { Aux *aux; Queue *q; aux = mallocz(sizeof(Aux), 1); if (aux == 0) return 0; q = qopen(MAXIO, 0, 0, 0); if (q == 0) { free(aux); return 0; } qnoblock(q, 1); aux->state = initstate; aux->ioq = q; return aux; } static Chan* xsopen(Chan *c, int omode) { Aux *aux; int state; c = devopen(c, omode, xsdir, nelem(xsdir), devgen); state = WRITING; switch ((ulong)c->qid.path) { case Qwatch: state = WATCHING; /* fall through */ case Qctl: aux = auxalloc(state); if (aux == 0) { c->flag &= ~COPEN; error(Enomem); } c->aux = aux; break; } return c; } static void xsclose(Chan* c) { Aux *aux; if ((c->flag&COPEN) == 0) return; switch ((ulong)c->qid.path) { case Qwatch: case Qctl: if ((aux = (Aux*)c->aux) != 0) { qfree(aux->ioq); free(aux); c->aux = 0; } break; } } static long xsread(Chan *c, void *a, long n, vlong off) { Aux *aux; Queue *q; long nr; USED(off); if (c->qid.type == QTDIR) return devdirread(c, a, n, xsdir, nelem(xsdir), devgen); aux = (Aux*)c->aux; qlock(aux); if (waserror()) { qunlock(aux); nexterror(); } q = aux->ioq; switch (aux->state) { case WRITING: if (qlen(q) == 0) error(Ephase); xsrpc(aux); aux->state = READING; break; case WATCHING: if (qlen(q) == 0) xsrpc(aux); break; } if (!qcanread(q)) nr = 0; else nr = qread(q, a, n); qunlock(aux); poperror(); return nr; } static long xswrite(Chan *c, void *a, long n, vlong off) { Aux *aux; Queue *q; long nr; if (c->qid.type == QTDIR) error(Eperm); if ((ulong)c->qid.path == Qwatch) error(Ebadusefd); aux = (Aux*)c->aux; qlock(aux); if (waserror()) { qunlock(aux); nexterror(); } q = aux->ioq; if ((off == 0 || aux->state == READING) && qlen(q) > 0) qflush(q); aux->state = WRITING; nr = qwrite(aux->ioq, a, n); qunlock(aux); poperror(); return nr; } Dev xenstoredevtab = { 'x', "xenstore", xsreset, xsinit, devshutdown, xsattach, xswalk, xsstat, xsopen, devcreate, xsclose, xsread, devbread, xswrite, devbwrite, devremove, devwstat, }; static char* xscmd(Aux *aux, char *buf, int cmd, char *s, char *val) { struct xsd_sockmsg *msg; char *arg; long n; msg = (struct xsd_sockmsg*)buf; arg = buf + sizeof(*msg); msg->type = cmd; msg->len = strlen(s)+1; if (val) { msg->len += strlen(val); if (cmd == XS_WATCH) msg->len++; /* stupid special case */ } strcpy(arg, s); if (val) strcpy(arg+strlen(s)+1, val); n = sizeof(*msg)+msg->len; if (up == 0) { msg->req_id = 1; msg->tx_id = 0; xwrite(0, buf, n); xread(0, buf, sizeof(*msg)); xread(0, arg, msg->len); } else { qlock(aux); if (qlen(aux->ioq) > 0) qflush(aux->ioq); qwrite(aux->ioq, buf, n); xsrpc(aux); qread(aux->ioq, buf, sizeof(*msg)); LOG(dprint("xs: type %d req_id %d len %d\n", msg->type, msg->req_id, msg->len);) // XXX buffer overflow qread(aux->ioq, arg, msg->len); qunlock(aux); } arg[msg->len] = 0; if (msg->type == XS_ERROR) { return 0; } return arg; } static void intfinit(void) { if (xenstore.intf == 0) { xenstore.intf = (struct xenstore_domain_interface*)mmumapframe(XENBUS, xenstart->store_mfn); xenstore.evtchn = xenstart->store_evtchn; xenstore.kernelaux = auxalloc(WRITING); } } void xenstore_write(char *s, char *val) { char buf[512]; intfinit(); xscmd(xenstore.kernelaux, buf, XS_WRITE, s, val); } int xenstore_read(char *s, char *val, int len) { char buf[512]; char *p; intfinit(); p = xscmd(xenstore.kernelaux, buf, XS_READ, s, nil); if (p == 0) return -1; strecpy(val, val+len, p); return 1; } void xenstore_setd(char *dir, char *node, int value) { int off; char buf[12]; off = strlen(dir); sprint(dir+off, "%s", node); sprint(buf, "%ud", value); xenstore_write(dir, buf); dir[off] = 0; } int xenstore_gets(char *dir, char *node, char *buf, int buflen) { int off; int n; off = strlen(dir); sprint(dir+off, "%s", node); n = xenstore_read(dir, buf, buflen); dir[off] = 0; return n; } static void xenbusproc(void*) { Chan *c; Aux *aux; char *p; struct xsd_sockmsg msg; char buf[512]; int n, m; c = namec("#x/xenstore", Aopen, ORDWR, 0); aux = (Aux*)c->aux; c = namec("#x/xenwatch", Aopen, OREAD, 0); xscmd(aux, buf, XS_WATCH, NodeShutdown, "$"); for (;;) { xsread(c, &msg, sizeof(msg), 0); for (n = msg.len; n > 0; n -= m) m = xsread(c, buf, msg.len, sizeof(msg)); buf[msg.len] = 0; if (strcmp(buf, NodeShutdown) != 0) continue; p = xscmd(aux, buf, XS_READ, NodeShutdown, nil); if (p == nil) continue; if (strcmp(p, "poweroff") == 0) reboot(nil, nil, 0); else if (strcmp(p, "reboot") == 0) exit(0); else { print("xenbus: %s=%s\n", NodeShutdown, p); xscmd(aux, buf, XS_WRITE, NodeShutdown, ""); } } }