ref: 05f6c08985c9bd522e0a938f0e90b20df3f6792d
dir: /sys/lib/acid/network/
_ni=0; // network indent level defn _ni() { loop 1,_ni do { print("\t"); } } defn ipdev(n) { _ipfs(ipfs[n]); } // the funny _foo/foo pairs exist so that if we get // interrupted in the middle of one of these, _ni will // get reset to 0 next time an external call happens. defn _ipfs(fs) { complex Fs fs; local i; print("ipfs(", fs\A, ") #I", fs.dev\D, "\n"); i=0; _ni = _ni+1; while i < fs.np do { _proto(fs.p[i]); i = i + 1; } _ni = _ni-1; } defn ipfs(fs) { _ni = 0; _ipfs(fs); } defn _proto(p) { local c; complex Proto p; _ni(); print("proto(", p\A, ") ", *(p.name\s), "\n"); _ni = _ni+1; local i; i = 0; while i < p.nc do { c = p.conv[i]; complex Conv c; if c != 0 && c.inuse then _conv(c); i = i + 1; } _ni = _ni - 1; } defn proto(p) { _ni = 0; _proto(p); } defn _conv(c) { complex Conv c; _ni(); local p; p = c.p; complex Proto p; print("conv(", c\A, ") ", *(p.name\s), "/", c.x\D, " ", iptostr(*(c.laddr+12)), "!", c.lport\D, " ", iptostr(*(c.raddr+12)), "!", c.rport\D, " rq ", qtostr(c.rq), " wq ", qtostr(c.wq), " eq ", qtostr(c.eq), "\n"); } defn conv(c) { _ni = 0; _conv(c); } defn iptostr(a) { // BUG: little endian return itoa(a&0xFF)+"."+itoa((a>>8)&0xFF)+"."+itoa((a>>16)&0xFF)+"."+itoa((a>>24)&0xFF); } defn qtostr(q) { complex Queue q; return "queue("+itoa(q, "%ux")+") ["+itoa(q.len, "%d")+","+itoa(q.dlen, "%d")+","+itoa(qblocks(q), "%d")+"]"; } defn qblocks(q) { complex Queue q; local b, n; b = q.bfirst; n = 0; while b != 0 do { n = n + 1; complex Block b; b = b.next; } return n; } defn _queue(q) { complex Queue q; local b; print("queue(", q\A, ") len ", q.len\D, " dlen ", q.dlen\D, " limit ", q.limit\D, " nblocks ", qblocks(q)\D); if q.state & Qstarve then print(" starve"); if q.state & Qmsg then print(" msg"); if q.state & Qclosed then print(" closed"); if q.state & Qflow then print(" flow"); if q.state & Qcoalesce then print(" coalesce"); print("\n"); b = q.bfirst; _ni = _ni+1; while b != 0 do { _block(b); complex Block b; b = b.next; } _ni = _ni - 1; } defn queue(q) { _ni = 0; _queue(q); } defn _block(b) { complex Block b; _ni(); print("block(", b\A, ") base ", b.base, " rp ", b.rp, "/", b.rp-b.base\D, " wp ", b.wp, "/", b.wp-b.base\D, " lim ", b.lim, "/", b.lim-b.base\D, "\n"); } defn block(b) { _ni = 0; block(b); } print("/sys/lib/acid/network"); needacid("tcp"); needacid("qio");