ref: 063c3f398e949895bb9795539e83a2e0be364376
dir: /appl/demo/lego/legolink.b/
implement LegoLink; include "sys.m"; include "draw.m"; include "timers.m"; include "rcxsend.m"; LegoLink : module { init : fn (ctxt : ref Draw->Context, argv : list of string); }; POLLDONT : con 0; POLLNOW : con 16r02; POLLDO : con 16r04; sys : Sys; timers : Timers; Timer : import timers; datain : chan of array of byte; errormsg : string; error(msg: string) { sys->fprint(sys->fildes(2), "%s\n", msg); raise "fail:error"; } init(nil : ref Draw->Context, argv : list of string) { sys = load Sys Sys->PATH; sys->pctl(Sys->NEWPGRP, nil); argv = tl argv; if (len argv != 1) error("usage: legolink portnum"); timers = load Timers "timers.dis"; if (timers == nil) error(sys->sprint("cannot load timers module: %r")); portnum := int hd argv; (rdfd, wrfd, err) := serialport(portnum); if (err != nil) error(err); # set up our mount file if (sys->bind("#s", "/net", Sys->MBEFORE) == -1) error(sys->sprint("failed to bind srv device: %r")); f2c := sys->file2chan("/net", "legolink"); if (f2c == nil) error(sys->sprint("cannot create legolink channel: %r")); datain = chan of array of byte; send := chan of array of byte; recv := chan of array of byte; timers->init(50); spawn reader(rdfd, datain); consume(); spawn protocol(wrfd, send, recv); spawn srvlink(f2c, send, recv); } srvlink(f2c : ref Sys->FileIO, send, recv : chan of array of byte) { me := sys->pctl(0, nil); rdfid := -1; wrfid := -1; buffer := array [256] of byte; bix := 0; rdblk := chan of (int, int, int, Sys->Rread); readreq := rdblk; wrblk := chan of (int, array of byte, int, Sys->Rwrite); writereq := f2c.write; wrreply : Sys->Rwrite; sendblk := chan of array of byte; sendchan := sendblk; senddata : array of byte; for (;;) alt { data := <- recv => # got some data from brick, nil for error if (data == nil) { # some sort of error if (wrreply != nil) { wrreply <- = (0, errormsg); } killgrp(me); } if (bix + len data > len buffer) { newb := array [bix + len data + 256] of byte; newb[0:] = buffer; buffer = newb; } buffer[bix:] = data; bix += len data; readreq = f2c.read; (offset, count, fid, rc) := <- readreq => if (rdfid == -1) rdfid = fid; if (fid != rdfid) { if (rc != nil) rc <- = (nil, "file in use"); continue; } if (rc == nil) { rdfid = -1; continue; } if (errormsg != nil) { rc <- = (nil, errormsg); killgrp(me); } # reply with what we've got if (count > bix) count = bix; rdata := array [count] of byte; rdata[0:] = buffer[0:count]; buffer[0:] = buffer[count:bix]; bix -= count; if (bix == 0) readreq = rdblk; alt { rc <- = (rdata, nil)=> ; * => ; } (offset, data, fid, wc) := <- writereq => if (wrfid == -1) wrfid = fid; if (fid != wrfid) { if (wc != nil) wc <- = (0, "file in use"); continue; } if (wc == nil) { wrfid = -1; continue; } if (errormsg != nil) { wc <- = (0, errormsg); killgrp(me); } senddata = data; sendchan = send; wrreply = wc; writereq = wrblk; sendchan <- = senddata => alt { wrreply <- = (len senddata, nil) => ; * => ; } wrreply = nil; sendchan = sendblk; writereq = f2c.write; } } killgrp(pid : int) { pctl := sys->open("/prog/" + string pid + "/ctl", Sys->OWRITE); if (pctl != nil) { poison := array of byte "killgrp"; sys->write(pctl, poison, len poison); } exit; } serialport(port : int) : (ref Sys->FD, ref Sys->FD, string) { serport := "/dev/eia" + string port; serctl := serport + "ctl"; rfd := sys->open(serport, Sys->OREAD); if (rfd == nil) return (nil, nil, sys->sprint("cannot read %s: %r", serport)); wfd := sys->open(serport, Sys->OWRITE); if (wfd == nil) return (nil, nil, sys->sprint("cannot write %s: %r", serport)); ctlfd := sys->open(serctl, Sys->OWRITE); if (ctlfd == nil) return (nil, nil, sys->sprint("cannot open %s: %r", serctl)); config := array [] of { "b2400", "l8", "po", "m0", "s1", "d1", "r1", }; for (i := 0; i < len config; i++) { cmd := array of byte config[i]; if (sys->write(ctlfd, cmd, len cmd) <= 0) return (nil, nil, sys->sprint("serial config (%s): %r", config[i])); } return (rfd, wfd, nil); } # reader and nbread as in rcxsend.b reader(fd : ref Sys->FD, out : chan of array of byte) { # with buf size of 1 there is no need # for overrun code in nbread() buf := array [1] of byte; for (;;) { n := sys->read(fd, buf, len buf); if (n <= 0) break; data := array [n] of byte; data[0:] = buf[0:n]; out <- = data; } out <- = nil; } overrun : array of byte; nbread(ms, n : int) : array of byte { ret := array[n] of byte; tot := 0; if (overrun != nil) { if (n < len overrun) { ret[0:] = overrun[0:n]; overrun = overrun[n:]; return ret; } ret[0:] = overrun; tot += len overrun; overrun = nil; } tmr := timers->new(ms, 0); loop: while (tot < n) { tmr.reset(); alt { data := <- datain => if (data == nil) break loop; dlen := len data; if (dlen > n - tot) { dlen = n - tot; overrun = data[dlen:]; } ret[tot:] = data[0:dlen]; tot += dlen; <- tmr.tick => # reply timeout; break loop; } } tmr.destroy(); if (tot == 0) return nil; return ret[0:tot]; } consume() { while (nbread(300, 1024) != nil) ; } # fd: connection to remote client # send: from local to remote # recv: from remote to local protocol(fd : ref Sys->FD, send, recv : chan of array of byte) { seqnum := 0; towerdown := timers->new(1500, 0); starttower := 1; tmr := timers->new(250, 0); for (;;) { data : array of byte = nil; # get data to send alt { data = <- send => ; <- tmr.tick => data = nil; <- towerdown.tick => starttower = 1; continue; } poll := POLLNOW; while (poll == POLLNOW) { reply : array of byte; (reply, poll, errormsg) = datasend(fd, seqnum++, data, starttower); starttower = 0; towerdown.reset(); if (errormsg != nil) { sys->print("protocol: send error: %s\n", errormsg); tmr.destroy(); recv <- = nil; return; } if (reply != nil) { recv <- = reply; } if (poll == POLLNOW) { # quick check to see if we have any more data alt { data = <- send => ; * => data = nil; } } } if (poll == POLLDO) tmr.reset(); else tmr.cancel(); } } TX_HDR : con 3; DL_HDR : con 5; # 16r45 seqLSB seqMSB lenLSB lenMSB DL_CKSM : con 1; LN_HDR : con 1; LN_JUNK : con 2; LN_LEN : con 2; LN_RXLEN : con 2; LN_POLLMASK : con 16r06; LN_COMPMASK : con 16r08; # send a message (may be empty) # wait for the reply # returns (data, poll request, error) datasend(wrfd : ref Sys->FD, seqnum : int, data : array of byte, startup : int) : (array of byte, int, string) { if (startup) { dummy := array [] of { byte 255, byte 0, byte 255, byte 0}; sys->write(wrfd, dummy, len dummy); nbread(100, 100); } seqnum = seqnum & 1; docomp := 0; if (data != nil) { comp := rlencode(data); if (len comp < len data) { docomp = 1; data = comp; } } # construct the link-level data packet # DL_HDR LN_HDR data cksum # last byte of data is stored in cksum byte llen := LN_HDR + len data; blklen := LN_LEN + llen - 1; # llen includes cksum ldata := array [DL_HDR + blklen + 1] of byte; # DL_HDR if (seqnum == 0) ldata[0] = byte 16r45; else ldata[0] = byte 16r4d; ldata[1] = byte 0; # blk number LSB ldata[2] = byte 0; # blk number MSB ldata[3] = byte (blklen & 16rff); # blk length LSB ldata[4] = byte ((blklen >> 8) & 16rff); # blk length MSB # LN_LEN ldata[5] = byte (llen & 16rff); ldata[6] = byte ((llen>>8) & 16rff); # LN_HDR lhval := byte 0; if (seqnum == 1) lhval |= byte 16r01; if (docomp) lhval |= byte 16r08; ldata[7] = lhval; # data (+cksum) ldata[8:] = data; # construct the rcx data packet # TX_HDR (dn ~dn) cksum ~cksum rcxlen := TX_HDR + 2*(len ldata + 1); rcxdata := array [rcxlen] of byte; rcxdata[0] = byte 16r55; rcxdata[1] = byte 16rff; rcxdata[2] = byte 16r00; rcix := TX_HDR; cksum := 0; for (i := 0; i < len ldata; i++) { b := ldata[i]; rcxdata[rcix++] = b; rcxdata[rcix++] = ~b; cksum += int b; } rcxdata[rcix++] = byte (cksum & 16rff); rcxdata[rcix++] = byte (~cksum & 16rff); # send it err : string; reply : array of byte; for (try := 0; try < 8; try++) { if (err != nil) sys->print("Try %d (lasterr %s)\n", try, err); err = ""; step := 8; for (i = 0; err == nil && i < rcxlen; i += step) { if (i + step > rcxlen) step = rcxlen -i; if (sys->write(wrfd, rcxdata[i:i+step], step) != step) { return (nil, 0, "hangup"); } # get the echo reply = nbread(300, step); if (reply == nil || len reply != step) # short echo err = "tower not responding"; # check the echo for (ei := 0; err == nil && ei < step; ei++) { if (reply[ei] != rcxdata[i+ei]) # echo mis-match err = "serial comms error"; } } if (err != nil) { consume(); continue; } # wait for a reply replen := TX_HDR + LN_JUNK + 2*LN_RXLEN; reply = nbread(300, replen); if (reply == nil || len reply != replen) { err = "brick not responding"; consume(); continue; } if (reply[0] != byte 16r55 || reply[1] != byte 16rff || reply[2] != byte 0 || reply[5] != ~reply[6] || reply[7] != ~reply[8]) { err = "bad reply from brick"; consume(); continue; } # reply[3] and reply [4] are junk, ~junk # put on front of msg by rcx rom replen = int reply[5] + ((int reply[7]) << 8) + 1; cksum = int reply[3] + int reply[5] + int reply[7]; reply = nbread(200, replen * 2); if (reply == nil || len reply != replen * 2) { err = "short reply from brick"; consume(); continue; } cksum += int reply[0]; for (i = 1; i < replen; i++) { reply[i] = reply[2*i]; cksum += int reply[i]; } cksum -= int reply[replen-1]; if (reply[replen-1] != byte (cksum & 16rff)) { err = "bad checksum from brick"; consume(); continue; } if ((reply[0] & byte 1) != byte (seqnum & 1)) { # seqnum error # we have read everything, don't bother with consume() err = "bad seqnum from brick"; continue; } # TADA! we have a valid message mdata : array of byte; lnhdr := int reply[0]; poll := lnhdr & LN_POLLMASK; if (replen > 2) { # more than just hdr and cksum if (lnhdr & LN_COMPMASK) { mdata = rldecode(reply[1:replen-1]); if (mdata == nil) { err = "bad brick msg compression"; continue; } } else { mdata = array [replen - 2] of byte; mdata[0:] = reply[1:replen-1]; } } return (mdata, poll, nil); } return (nil, 0, err); } rlencode(data : array of byte) : array of byte { srcix := 0; outix := 0; out := array [64] of byte; val := 0; nextval := -1; n0 := 0; while (srcix < len data || nextval != -1) { if (nextval != -1) { val = nextval; nextval = -1; } else { val = int data[srcix]; if (val == 16r88) nextval = 0; if (val == 0) { n0++; srcix++; if (srcix < len data && n0 < 16rff + 2) continue; } case n0 { 0 => srcix++; 1 => val = 0; nextval = -1; n0 = 0; 2 => val = 0; nextval = 0; n0 = 0; * => val = 16r88; nextval = (n0-2); n0 = 0; } } if (outix >= len out) { newout := array [2 * len out] of byte; newout[0:] = out; out = newout; } out[outix++] = byte val; } return out[0:outix]; } rldecode(data : array of byte) : array of byte { srcix := 0; outix := 0; out := array [64] of byte; n0 := 0; val := 0; while (srcix < len data || n0 > 0) { if (n0 > 0) n0--; else { val = int data[srcix++]; if (val == 16r88) { if (srcix >= len data) # bad encoding return nil; n0 = int data[srcix++]; if (n0 > 0) { n0 += 2; val = 0; continue; } } } if (outix >= len out) { newout := array [2 * len out] of byte; newout[0:] = out; out = newout; } out[outix++] = byte val; } return out[0:outix]; } hexdump(data : array of byte) { for (i := 0; i < len data; i++) sys->print("%.2x ", int data[i]); sys->print("\n"); }