ref: e59ffed426f628794d4669f152eff9a6239b99db
dir: /os/ipaq1110/devipaq.c/
/* * iPAQ H3650 touch screen and other devices * * Inferno driver derived from sketchy documentation and * information gleaned from linux/char/h3650_ts.c * by Charles Flynn. * * Copyright © 2000,2001 Vita Nuova Holdings Limited. All rights reserved. */ #include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/error.h" #include "keyboard.h" #include <kernel.h> #include <draw.h> #include <memdraw.h> #include "screen.h" #define DEBUG 0 /* * packet format * * SOF (0x02) * (id<<4) | len byte length * data[len] bytes * chk checksum mod 256 excluding SOF */ enum { Csof = 0x02, Ceof = 0x03, Hdrlen = 3, /* opcodes */ Oversion = 0, Okeys = 2, Otouch = 3, Ordeeprom = 4, Owreeprom = 5, Othermal = 6, Oled = 8, Obattery = 9, Ospiread = 11, Ospiwrite = 12, Obacklight = 13, Oextstatus = 0xA1, }; enum { Powerbit = 0, /* GPIO bit for power on/off key */ }; enum{ Qdir, Qctl, Qtouchctl, Qbattery, Qversion, }; static Dirtab ipaqtab[]={ ".", {Qdir, 0, QTDIR}, 0, 0555, "ipaqctl", {Qctl}, 0, 0600, "battery", {Qbattery}, 0, 0444, "version", {Qversion}, 0, 0444, "touchctl", {Qtouchctl}, 0, 0644, }; static struct { QLock; Chan* c; Lock rl; /* protect cmd, reply */ int cmd; Block* reply; Rendez r; } atmel; /* to and from fixed point */ #define FX(a,b) (((a)<<16)/(b)) #define XF(v) ((v)>>16) static struct { Lock; int rate; int m[2][3]; /* transformation matrix */ Point avg; Point diff; Point pts[4]; int n; /* number of points in pts */ int p; /* current index in pts */ int down; int nout; } touch = { {0}, .m {{-FX(1,3), 0, FX(346,1)},{0, -FX(1,4), FX(256, 1)}}, }; /* * map rocker positions to same codes as plan 9 */ static Rune rockermap[2][4] ={ {Right, Down, Up, Left}, /* landscape */ {Up, Right, Left, Down}, /* portrait */ }; static Rendez powerevent; static void cmdack(int, void*, int); static int cmdio(int, void*, int, void*, int); static void ipaqreadproc(void*); static void powerwaitproc(void*); static Block* rdevent(Block**); static long touchctl(char*, long); static void touched(Block*, int); static int wrcmd(int, void*, int, void*, int); static char* acstatus(int); static char* batstatus(int); static void powerintr(Ureg*, void*); static void ipaqreset(void) { intrenable(Powerbit, powerintr, nil, BusGPIOfalling, "power off"); } static void ipaqinit(void) { kproc("powerwait", powerwaitproc, nil, 0); } static Chan* ipaqattach(char* spec) { int fd; qlock(&atmel); if(waserror()){ qunlock(&atmel); nexterror(); } if(atmel.c == nil){ fd = kopen("#t/eia1ctl", ORDWR); if(fd < 0) error(up->env->errstr); kwrite(fd, "b115200", 7); /* it's already pn, l8 */ kclose(fd); fd = kopen("#t/eia1", ORDWR); if(fd < 0) error(up->env->errstr); atmel.c = fdtochan(up->env->fgrp, fd, ORDWR, 0, 1); kclose(fd); atmel.cmd = -1; kproc("ipaqread", ipaqreadproc, nil, 0); } poperror(); qunlock(&atmel); return devattach('T', spec); } static Walkqid* ipaqwalk(Chan *c, Chan *nc, char **name, int nname) { return devwalk(c, nc, name, nname, ipaqtab, nelem(ipaqtab), devgen); } static int ipaqstat(Chan* c, uchar *db, int n) { return devstat(c, db, n, ipaqtab, nelem(ipaqtab), devgen); } static Chan* ipaqopen(Chan* c, int omode) { return devopen(c, omode, ipaqtab, nelem(ipaqtab), devgen); } static void ipaqclose(Chan*) { } static long ipaqread(Chan* c, void* a, long n, vlong offset) { char *tmp, buf[64]; uchar reply[12]; int v, p, l; switch((ulong)c->qid.path){ case Qdir: return devdirread(c, a, n, ipaqtab, nelem(ipaqtab), devgen); case Qtouchctl: tmp = malloc(READSTR); if(waserror()){ free(tmp); nexterror(); } snprint(tmp, READSTR, "s%d\nr%d\nR%d\nX %d %d %d\nY %d %d %d\n", 1000, 0, 1, touch.m[0][0], touch.m[0][1], touch.m[0][2], touch.m[1][0], touch.m[1][1], touch.m[1][2]); n = readstr(offset, a, n, tmp); poperror(); free(tmp); break; case Qbattery: cmdio(Obattery, reply, 0, reply, sizeof(reply)); tmp = malloc(READSTR); if(waserror()){ free(tmp); nexterror(); } v = (reply[4]<<8)|reply[3]; p = 425*v/1000 - 298; snprint(tmp, READSTR, "voltage: %d %dmV %d%% %d\nac: %s\nstatus: %d %s\nchem: %d\n", v, 1000*v/228, p, 300*p/100, acstatus(reply[1]), reply[5], batstatus(reply[5]), reply[2]); n = readstr(offset, a, n, tmp); poperror(); free(tmp); break; case Qversion: l = cmdio(Oversion, reply, 0, reply, sizeof(reply)); if(l > 4){ l--; memmove(buf, reply+1, 4); if(l > 8){ buf[4] = ' '; memmove(buf+5, reply+5, 4); /* pack version */ sprint(buf+9, " %.2x\n", reply[9]); /* ``boot type'' */ }else{ buf[4] = '\n'; buf[5] = 0; } return readstr(offset, a, n, buf); } n=0; break; default: n=0; break; } return n; } static long ipaqwrite(Chan* c, void* a, long n, vlong) { char cmd[64], op[32], *fields[6]; int nf; switch((ulong)c->qid.path){ case Qctl: if(n >= sizeof(cmd)-1) n = sizeof(cmd)-1; memmove(cmd, a, n); cmd[n] = 0; nf = getfields(cmd, fields, nelem(fields), 1, " \t\n"); if(nf <= 0) error(Ebadarg); if(nf >= 4 && strcmp(fields[0], "light") == 0){ op[0] = atoi(fields[1]); /* mode */ op[1] = atoi(fields[2]); /* power */ op[2] = atoi(fields[3]); /* brightness */ cmdack(Obacklight, op, 3); }else if(nf >= 5 && strcmp(fields[0], "led") == 0){ op[0] = atoi(fields[1]); op[1] = atoi(fields[2]); op[2] = atoi(fields[3]); op[3] = atoi(fields[4]); cmdack(Oled, op, 4); }else if(strcmp(fields[0], "suspend") == 0){ /* let the kproc do it */ wakeup(&powerevent); }else error(Ebadarg); break; case Qtouchctl: return touchctl(a, n); default: error(Ebadusefd); } return n; } static void powerintr(Ureg*, void*) { wakeup(&powerevent); } static void cmdack(int id, void *a, int n) { uchar reply[16]; cmdio(id, a, n, reply, sizeof(reply)); } static int cmdio(int id, void *a, int n, void *reply, int lim) { qlock(&atmel); if(waserror()){ qunlock(&atmel); nexterror(); } n = wrcmd(id, a, n, reply, lim); poperror(); qunlock(&atmel); return n; } static int havereply(void*) { return atmel.reply != nil; } static int wrcmd(int id, void *a, int n, void *b, int lim) { uchar buf[32]; int i, sum; Block *e; if(n >= 16) error(Eio); lock(&atmel.rl); atmel.cmd = id; unlock(&atmel.rl); buf[0] = Csof; buf[1] = (id<<4) | (n&0xF); if(n) memmove(buf+2, a, n); sum = 0; for(i=1; i<n+2; i++) sum += buf[i]; buf[i++] = sum; if(0){ iprint("msg="); for(sum=0; sum<i; sum++) iprint(" %2.2ux", buf[sum]); iprint("\n"); } if(kchanio(atmel.c, buf, i, OWRITE) != i) error(Eio); tsleep(&atmel.r, havereply, nil, 500); lock(&atmel.rl); e = atmel.reply; atmel.reply = nil; atmel.cmd = -1; unlock(&atmel.rl); if(e == nil){ print("ipaq: no reply\n"); error(Eio); } if(waserror()){ freeb(e); nexterror(); } if(e->rp[0] != id){ print("ipaq: rdreply: mismatched reply %d :: %d\n", id, e->rp[0]); error(Eio); } n = BLEN(e); if(n < lim) lim = n; memmove(b, e->rp, lim); poperror(); freeb(e); return lim; } static void ipaqreadproc(void*) { Block *e, *b, *partial; int c, mousemod; while(waserror()) print("ipaqread: %r\n"); partial = nil; mousemod = 0; for(;;){ e = rdevent(&partial); if(e == nil){ print("ipaqread: rdevent: %r\n"); continue; } switch(e->rp[0]){ case Otouch: touched(e, mousemod); freeb(e); break; case Okeys: //print("key %2.2ux\n", e->rp[1]); c = e->rp[1] & 0xF; if(c >= 6 && c < 10){ /* rocker */ if((e->rp[1] & 0x80) == 0){ kbdrepeat(0); kbdputc(kbdq, rockermap[conf.portrait&1][c-6]); }else kbdrepeat(0); }else{ /* TO DO: change tkmouse and mousetrack to allow extra buttons */ if(--c == 0) c = 5; if(e->rp[1] & 0x80) mousemod &= ~(1<<c); else mousemod |= 1<<c; } freeb(e); break; default: lock(&atmel.rl); if(atmel.cmd == e->rp[0]){ b = atmel.reply; atmel.reply = e; unlock(&atmel.rl); wakeup(&atmel.r); if(b != nil) freeb(b); }else{ unlock(&atmel.rl); print("ipaqread: discard op %d\n", e->rp[0]); freeb(e); } } } } static Block * rdevent(Block **bp) { Block *b, *e; int s, c, len, csum; enum {Ssof=16, Sid, Ssum}; s = Ssof; csum = 0; len = 0; e = nil; if(waserror()){ if(e != nil) freeb(e); nexterror(); } for(;;){ b = *bp; *bp = nil; if(b == nil){ b = devtab[atmel.c->type]->bread(atmel.c, 128, 0); if(b == nil) error(Eio); if(DEBUG) iprint("r: %ld\n", BLEN(b)); } while(b->rp < b->wp){ c = *b->rp++; switch(s){ case Ssof: if(c == Csof) s = Sid; else if(1) iprint("!sof: %2.2ux %d\n", c, s); break; case Sid: csum = c; len = c & 0xF; e = allocb(len+1); if(e == nil) error(Eio); *e->wp++ = c>>4; /* id */ if(len) s = 0; else s = Ssum; break; case Ssum: csum &= 0xFF; if(c != csum){ iprint("cksum: %2.2ux != %2.2ux\n", c, csum); s = Ssof; /* try to resynchronise */ if(e != nil){ freeb(e); e = nil; } break; } if(b->rp < b->wp) *bp = b; else freeb(b); if(DEBUG){ int i; iprint("event: [%ld]", BLEN(e)); for(i=0; i<BLEN(e);i++) iprint(" %2.2ux", e->rp[i]); iprint("\n"); } poperror(); return e; default: csum += c; *e->wp++ = c; if(++s >= len) s = Ssum; break; } } freeb(b); } return 0; /* not reached */ } static char * acstatus(int x) { switch(x){ case 0: return "offline"; case 1: return "online"; case 2: return "backup"; } return "unknown"; } static char * batstatus(int x) { if(x & 0x40) return "charging"; /* not in linux but seems to be on mine */ switch(x){ case 0: return "ok"; case 1: return "high"; case 2: return "low"; case 4: return "critical"; case 8: return "charging"; case 0x80: return "none"; } return "unknown"; } static int ptmap(int *m, int x, int y) { return XF(m[0]*x + m[1]*y + m[2]); } static void touched(Block *b, int buttons) { int rx, ry, x, y, dx, dy, n; Point op, *lp, cur; if(BLEN(b) == 5){ /* id Xhi Xlo Yhi Ylo */ if(touch.down < 0){ touch.down = 0; return; } rx = (b->rp[1]<<8)|b->rp[2]; ry = (b->rp[3]<<8)|b->rp[4]; if(conf.portrait){ dx = rx; rx = ry; ry = dx; } if(touch.down == 0){ touch.nout = 0; touch.p = 1; touch.n = 1; touch.avg = Pt(rx, ry); touch.pts[0] = touch.avg; touch.down = 1; return; } n = touch.p-1; if(n < 0) n = nelem(touch.pts)-1; lp = &touch.pts[n]; /* last point */ if(touch.n > 0 && (rx-lp->x)*(ry-lp->y) > 50*50){ /* far out */ if(++touch.nout > 3){ touch.down = 0; touch.n = 0; } return; } op = touch.pts[touch.p]; touch.pts[touch.p] = Pt(rx, ry); touch.p = (touch.p+1) % nelem(touch.pts); touch.avg.x += rx; touch.avg.y += ry; if(touch.n < nelem(touch.pts)){ touch.n++; return; } touch.avg.x -= op.x; touch.avg.y -= op.y; cur = mousexy(); rx = touch.avg.x/touch.n; ry = touch.avg.y/touch.n; x = ptmap(touch.m[0], rx, ry); dx = x-cur.x; y = ptmap(touch.m[1], rx, ry); dy = y-cur.y; if(dx*dx + dy*dy <= 2){ dx = 0; dy = 0; } if(buttons == 0) buttons = 1<<0; /* by default, stylus down implies button 1 */ mousetrack(buttons&0x1f, dx, dy, 1); /* TO DO: allow more than 3 buttons */ /* TO DO: swcursupdate(oldx, oldy, x, y); */ touch.down = 1; }else{ if(touch.down){ mousetrack(0, 0, 0, 1); /* stylus up */ touch.down = 0; }else touch.down = -1; touch.n = 0; touch.p = 0; touch.avg.x = 0; touch.avg.y = 0; } } /* * touchctl commands: * X a b c - set X transformation * Y d e f - set Y transformation * s<delay> - set sample delay in millisec per sample * r<delay> - set read delay in microsec * R<l2nr> - set log2 of number of readings to average */ static long touchctl(char* a, long n) { char buf[64]; char *cp; int n0 = n; int bn; char *field[8]; int nf, cmd, pn, m[2][3]; while(n) { bn = (cp = memchr(a, '\n', n))!=nil ? cp-a+1 : n; n -= bn; cp = a; a += bn; bn = bn > sizeof(buf)-1 ? sizeof(buf)-1 : bn; memmove(buf, cp, bn); buf[bn] = '\0'; nf = getfields(buf, field, nelem(field), 1, " \t\n"); if(nf <= 0) continue; if(strcmp(field[0], "calibrate") == 0){ if(nf == 1){ lock(&touch); memset(touch.m, 0, sizeof(touch.m)); touch.m[0][0] = FX(1,1); touch.m[1][1] = FX(1,1); unlock(&touch); }else if(nf >= 5){ memset(m, 0, sizeof(m)); m[0][0] = strtol(field[1], 0, 0); m[1][1] = strtol(field[2], 0, 0); m[0][2] = strtol(field[3], 0, 0); m[1][2] = strtol(field[4], 0, 0); if(nf > 5) m[0][1] = strtol(field[5], 0, 0); if(nf > 6) m[1][0] = strtol(field[6], 0, 0); lock(&touch); memmove(touch.m, m, sizeof(touch.m[0])); unlock(&touch); }else error(Ebadarg); continue; } cmd = *field[0]++; pn = *field[0] == 0; switch(cmd) { case 's': pn = strtol(field[pn], 0, 0); if(pn <= 0) error(Ebadarg); touch.rate = pn; break; case 'r': /* touch read delay */ break; case 'X': case 'Y': if(nf < pn+2) error(Ebadarg); m[0][0] = strtol(field[pn], 0, 0); m[0][1] = strtol(field[pn+1], 0, 0); m[0][2] = strtol(field[pn+2], 0, 0); lock(&touch); memmove(touch.m[cmd=='Y'], m[0], sizeof(touch.m[0])); unlock(&touch); break; default: error(Ebadarg); } } return n0-n; } /* * this might belong elsewhere */ static int powerwait(void*) { return (GPIOREG->gplr & GPIO_PWR_ON_i) == 0; } static void powerwaitproc(void*) { for(;;){ sleep(&powerevent, powerwait, nil); do{ tsleep(&up->sleep, return0, nil, 50); }while((GPIOREG->gplr & GPIO_PWR_ON_i) == 0); powersuspend(); } } Dev ipaqdevtab = { 'T', "ipaq", ipaqreset, ipaqinit, devshutdown, ipaqattach, ipaqwalk, ipaqstat, ipaqopen, devcreate, ipaqclose, ipaqread, devbread, ipaqwrite, devbwrite, devremove, devwstat, };