ref: 6d69f6fba35087686f79adb2ea0d67944a62ca7b
dir: /appl/cmd/usb/usbd.b/
implement Usbd;
include "sys.m";
sys: Sys;
include "draw.m";
include "string.m";
str: String;
include "lock.m";
lock: Lock;
Semaphore: import lock;
include "arg.m";
arg: Arg;
include "usb.m";
usb: Usb;
Device, Configuration, Endpt: import Usb;
include "bufio.m";
bufio: Bufio;
Iobuf: import bufio;
Detached, Attached, Enabled, Assigned, Configured: con (iota);
Usbd: module
{
init: fn(nil: ref Draw->Context, args: list of string);
};
Hub: adt {
nport, pwrmode, compound, pwrms, maxcurrent, removable, pwrctl: int;
ports: cyclic ref DDevice;
};
DDevice: adt {
port: int;
pids: list of int;
parent: cyclic ref DDevice;
next: cyclic ref DDevice;
cfd, setupfd, rawfd: ref Sys->FD;
id: int;
ls: int;
state: int;
ep: array of ref Endpt;
config: array of ref Usb->Configuration;
hub: Hub;
mod: UsbDriver;
d: ref Device;
};
Line: adt {
level: int;
command: string;
value: int;
svalue: string;
};
ENUMERATE_POLL_INTERVAL: con 1000;
FAILED_ENUMERATE_RETRY_INTERVAL: con 10000;
verbose: int;
debug: int;
stderr: ref Sys->FD;
usbportfd: ref Sys->FD;
usbctlfd: ref Sys->FD;
usbctl0: ref Sys->FD;
usbsetup0: ref Sys->FD;
usbbase: string;
configsema, setupsema, treesema: ref Semaphore;
# UHCI style status which is returned by the driver.
UHCIstatus_Suspend: con 1 << 12;
UHCIstatus_PortReset: con 1 << 9;
UHCIstatus_SlowDevice: con 1 << 8;
UHCIstatus_ResumeDetect: con 1 << 6;
UHCIstatus_PortEnableChange: con 1 << 3;
UHCIstatus_PortEnable: con 1 << 2;
UHCIstatus_ConnectStatusChange: con 1 << 1;
UHCIstatus_DevicePresent: con 1 << 0;
obt()
{
# sys->fprint(stderr, "%d waiting\n", sys->pctl(0, nil));
setupsema.obtain();
# sys->fprint(stderr, "%d got\n", sys->pctl(0, nil));
}
rel()
{
# sys->fprint(stderr, "%d releasing\n", sys->pctl(0, nil));
setupsema.release();
}
hubid(hub: ref DDevice): int
{
if (hub == nil)
return 0;
return hub.id;
}
hubfeature(d: ref DDevice, p: int, feature: int, on: int): int
{
rtyp: int;
if (p == 0)
rtyp = Usb->Rclass;
else
rtyp = Usb->Rclass | Usb->Rother;
obt();
rv := usb->setclear_feature(d.setupfd, rtyp, feature, p, on);
rel();
return rv;
}
portpower(hub: ref DDevice, port: int, on: int)
{
if (verbose)
sys->fprint(stderr, "portpower %d/%d %d\n", hubid(hub), port, on);
if (hub == nil)
return;
if (port)
hubfeature(hub, port, Usb->PORT_POWER, on);
}
countrootports(): int
{
sys->seek(usbportfd, big 0, Sys->SEEKSTART);
buf := array [256] of byte;
n := sys->read(usbportfd, buf, len buf);
if (n <= 0) {
sys->fprint(stderr, "usbd: countrootports: error reading root port status\n");
exit;
}
(nv, nil) := sys->tokenize(string buf[0: n], "\n");
if (nv < 1) {
sys->fprint(stderr, "usbd: countrootports: strange root port status\n");
exit;
}
return nv;
}
portstatus(hub: ref DDevice, port: int): int
{
rv: int;
# setupsema.obtain();
obt();
if (hub == nil) {
sys->seek(usbportfd, big 0, Sys->SEEKSTART);
buf := array [256] of byte;
n := sys->read(usbportfd, buf, len buf);
if (n < 1) {
sys->fprint(stderr, "usbd: portstatus: read error\n");
rel();
return 0;
}
(nil, l) := sys->tokenize(string buf[0: n], "\n");
for(; l != nil; l = tl l){
(nv, f) := sys->tokenize(hd l, " ");
if(nv < 2){
sys->fprint(stderr, "usbd: portstatus: odd status line\n");
rel();
return 0;
}
if(int hd f == port){
(rv, nil) = usb->strtol(hd tl f, 16);
# the status change bits are not used so mask them off
rv &= 16rffff;
break;
}
}
if (l == nil) {
sys->fprint(stderr, "usbd: portstatus: no status for port %d\n", port);
rel();
return 0;
}
}
else
rv = usb->get_status(hub.setupfd, port);
# setupsema.release();
rel();
if (rv < 0)
return 0;
return rv;
}
portenable(hub: ref DDevice, port: int, enable: int)
{
if (verbose)
sys->fprint(stderr, "portenable %d/%d %d\n", hubid(hub), port, enable);
if (hub == nil) {
if (enable)
sys->fprint(usbctlfd, "enable %d", port);
else
sys->fprint(usbctlfd, "disable %d", port);
return;
}
if (port)
hubfeature(hub, port, Usb->PORT_ENABLE, enable);
}
portreset(hub: ref DDevice, port: int)
{
if (verbose)
sys->fprint(stderr, "portreset %d/%d\n", hubid(hub), port);
if (hub == nil) {
if(0)sys->fprint(usbctlfd, "reset %d", port);
for (i := 0; i < 4; ++i) {
sys->sleep(20); # min 10 milli second reset recovery.
s := portstatus(hub, port);
if ((s & UHCIstatus_PortReset) == 0) # only leave when reset is finished.
break;
}
return;
}
if (port)
hubfeature(hub, port, Usb->PORT_RESET, 1);
return;
}
devspeed(d: ref DDevice)
{
sys->fprint(d.cfd, "speed %d", !d.ls);
if (debug) {
s: string;
if (d.ls)
s = "low";
else
s = "high";
sys->fprint(stderr, "%d: set speed %s\n", d.id, s);
}
}
devmaxpkt0(d: ref DDevice, size: int)
{
sys->fprint(d.cfd, "maxpkt 0 %d", size);
if (debug)
sys->fprint(stderr, "%d: set maxpkt0 %d\n", d.id, size);
}
closedev(d: ref DDevice)
{
d.cfd = usbctl0;
d.rawfd = nil;
d.setupfd = usbsetup0;
}
openusb(f: string, mode: int): ref Sys->FD
{
fd := sys->open(usbbase + f, mode);
if (fd == nil) {
sys->fprint(stderr, "usbd: can't open %s: %r\n", usbbase + f);
raise "fail:open";
}
return fd;
}
opendevf(id: int, f: string, mode: int): ref Sys->FD
{
fd := sys->open(usbbase + string id + "/" + f, mode);
if (fd == nil) {
sys->fprint(stderr, "usbd: can't open %s: %r\n", usbbase + string id + "/" + f);
exit;
}
return fd;
}
kill(pid: int): int
{
if (debug)
sys->print("killing %d\n", pid);
fd := sys->open("#p/"+string pid+"/ctl", Sys->OWRITE);
if (fd == nil) {
sys->print("kill: open failed\n");
return -1;
}
if (sys->write(fd, array of byte "kill", 4) != 4) {
sys->print("kill: write failed\n");
return -1;
}
return 0;
}
rdetach(d: ref DDevice)
{
if (d.mod != nil) {
d.mod->shutdown();
d.mod = nil;
}
while (d.pids != nil) {
if (verbose)
sys->fprint(stderr, "kill %d\n", hd d.pids);
kill(hd d.pids);
d.pids = tl d.pids;
}
if (d.parent != nil) {
last, hp: ref DDevice;
last = nil;
hp = d.parent.hub.ports;
while (hp != nil && hp != d)
hp = hp.next;
if (last != nil)
last.next = d.next;
else
d.parent.hub.ports = d.next;
}
if (d.hub.ports != nil) {
for (c := d.hub.ports; c != nil; c = c.next) {
c.parent = nil;
rdetach(c);
}
}
d.state = Detached;
if (sys->fprint(d.cfd, "detach") < 0)
sys->fprint(stderr, "detach failed\n");
d.cfd = nil;
d.rawfd = nil;
d.setupfd = nil;
}
detach(d: ref DDevice)
{
configsema.obtain();
treesema.obtain();
obt();
# setupsema.obtain();
if (verbose)
sys->fprint(stderr, "detach %d\n", d.id);
rdetach(d);
if (verbose)
sys->fprint(stderr, "detach %d done\n", d.id);
# setupsema.release();
rel();
treesema.release();
configsema.release();
}
readnum(fd: ref Sys->FD): int
{
buf := array [16] of byte;
n := sys->read(fd, buf, len buf);
if (n <= 0)
return -1;
(rv , nil) := usb->strtol(string buf[0: n], 0);
return rv;
}
setaddress(d: ref DDevice): int
{
if (d.state == Assigned)
return d.id;
closedev(d);
d.id = 0;
d.cfd = openusb("new", Sys->ORDWR);
id := readnum(d.cfd);
if (id <= 0) {
if (debug)
sys->fprint(stderr, "usbd: usb/new ID: %r\n");
d.cfd = nil;
return -1;
}
# setupsema.obtain();
obt();
if (usb->set_address(d.setupfd, id) < 0) {
# setupsema.release();
rel();
return -1;
}
# setupsema.release();
rel();
d.id = id;
d.state = Assigned;
return id;
}
#optstring(d: ref DDevice, langids: list of int, desc: string, index: int)
#{
# if (index) {
# buf := array [256] of byte;
# while (langids != nil) {
# nr := usb->get_descriptor(d.setupfd, Usb->Rstandard, Usb->STRING, index, hd langids, buf);
# if (nr > 2) {
# sys->fprint(stderr, "%s: ", desc);
# usbdump->desc(d, -1, buf[0: nr]);
# }
# langids = tl langids;
# }
# }
#}
langid(d: ref DDevice): (list of int)
{
l: list of int;
buf := array [256] of byte;
nr := usb->get_standard_descriptor(d.setupfd, Usb->STRING, 0, buf);
if (nr < 4)
return nil;
if (nr & 1)
nr--;
l = nil;
for (i := nr - 2; i >= 2; i -= 2)
l = usb->get2(buf[i:]) :: l;
return l;
}
describedevice(d: ref DDevice): int
{
obt();
devmaxpkt0(d, 64); # guess 64 byte max packet to avoid overrun on read
for (x := 0; x < 3; x++) { # retry 3 times
d.d = usb->get_parsed_device_descriptor(d.setupfd);
if (d.d != nil)
break;
sys->sleep(200); # tolerate out of spec. devices
}
if (d.d == nil) {
rel();
return -1;
}
if (d.d.maxpkt0 != 64) {
devmaxpkt0(d, d.d.maxpkt0);
d.d = usb->get_parsed_device_descriptor(d.setupfd);
if (d.d == nil) {
rel();
return -1;
}
}
rel();
if (verbose) {
sys->fprint(stderr, "usb %x.%x", d.d.usbmajor, d.d.usbminor);
sys->fprint(stderr, " class %d subclass %d proto %d [%s] max0 %d",
d.d.class, d.d.subclass, d.d.proto,
usb->sclass(d.d.class, d.d.subclass, d.d.proto), d.d.maxpkt0);
sys->fprint(stderr, " vendor 0x%.4x product 0x%.4x rel %x.%x",
d.d.vid, d.d.did, d.d.relmajor, d.d.relminor);
sys->fprint(stderr, " nconf %d", d.d.nconf);
sys->fprint(stderr, "\n");
obt();
l := langid(d);
if (l != nil) {
l2 := l;
sys->fprint(stderr, "langids [");
while (l2 != nil) {
sys->fprint(stderr, " %d", hd l2);
l2 = tl l2;
}
sys->fprint(stderr, "]\n");
}
# optstring(d, l, "manufacturer", int buf[14]);
# optstring(d, l, "product", int buf[15]);
# optstring(d, l, "serial number", int buf[16]);
rel();
}
return 0;
}
describehub(d: ref DDevice): int
{
b := array [256] of byte;
# setupsema.obtain();
obt();
nr := usb->get_class_descriptor(d.setupfd, 0, 0, b);
if (nr < Usb->DHUBLEN) {
# setupsema.release();
rel();
sys->fprint(stderr, "usbd: error reading hub descriptor: got %d of %d\n", nr, Usb->DHUBLEN);
return -1;
}
# setupsema.release();
rel();
if (verbose)
sys->fprint(stderr, "nport %d charac 0x%.4ux pwr %dms current %dmA remov 0x%.2ux pwrctl 0x%.2ux",
int b[2], usb->get2(b[3:]), int b[5] * 2, int b[6] * 2, int b[7], int b[8]);
d.hub.nport = int b[2];
d.hub.pwrms = int b[5] * 2;
d.hub.maxcurrent = int b[6] * 2;
char := usb->get2(b[3:]);
d.hub.pwrmode = char & 3;
d.hub.compound = (char & 4) != 0;
d.hub.removable = int b[7];
d.hub.pwrctl = int b[8];
return 0;
}
loadconfig(d: ref DDevice, n: int): int
{
obt();
d.config[n] = usb->get_parsed_configuration_descriptor(d.setupfd, n);
if (d.config[n] == nil) {
rel();
sys->fprint(stderr, "usbd: error reading configuration descriptor\n");
return -1;
}
rel();
if (verbose)
usb->dump_configuration(stderr, d.config[n]);
return 0;
}
#setdevclass(d: ref DDevice, n: int)
#{
# dd := d.config[n];
# if (dd != nil)
# sys->fprint(d.cfd, "class %d %d %d %d %d", d.d.nconf, n, dd.class, dd.subclass, dd.proto);
#}
setconfig(d: ref DDevice, n: int): int
{
obt();
rv := usb->set_configuration(d.setupfd, n);
rel();
if (rv < 0)
return -1;
d.state = Configured;
return 0;
}
configure(hub: ref DDevice, port: int): ref DDevice
{
configsema.obtain();
portreset(hub, port);
sys->sleep(300); # long sleep necessary for strange hardware....
# sys->sleep(20);
s := portstatus(hub, port);
s = portstatus(hub, port);
if (debug)
sys->fprint(stderr, "port %d status 0x%ux\n", port, s);
if ((s & UHCIstatus_DevicePresent) == 0) {
configsema.release();
return nil;
}
if ((s & UHCIstatus_PortEnable) == 0) {
if (debug)
sys->fprint(stderr, "hack: re-enabling port %d\n", port);
portenable(hub, port, 1);
s = portstatus(hub, port);
if (debug)
sys->fprint(stderr, "port %d status now 0x%.ux\n", port, s);
}
d := ref DDevice;
d.port = port;
d.cfd = usbctl0;
d.setupfd = usbsetup0;
d.id = 0;
if (hub == nil)
d.ls = (s & UHCIstatus_SlowDevice) != 0;
else
d.ls = (s & (1 << 9)) != 0;
d.state = Enabled;
devspeed(d);
if (describedevice(d) < 0) {
portenable(hub, port, 0);
configsema.release();
return nil;
}
if (setaddress(d) < 0) {
portenable(hub, port, 0);
configsema.release();
return nil;
}
d.setupfd = opendevf(d.id, "setup", Sys->ORDWR);
d.cfd = opendevf(d.id, "ctl", Sys->ORDWR);
devspeed(d);
devmaxpkt0(d, d.d.maxpkt0);
d.config = array [d.d.nconf] of ref Configuration;
for (i := 0; i < d.d.nconf; i++) {
loadconfig(d, i);
# setdevclass(d, i);
}
if (hub != nil) {
treesema.obtain();
d.parent = hub;
d.next = hub.hub.ports;
hub.hub.ports = d;
treesema.release();
}
configsema.release();
return d;
}
enumerate(hub: ref DDevice, port: int)
{
if (hub != nil)
hub.pids = sys->pctl(0, nil) :: hub.pids;
reenumerate := 0;
for (;;) {
if (verbose)
sys->fprint(stderr, "enumerate: starting\n");
if ((portstatus(hub, port) & UHCIstatus_DevicePresent) == 0) {
if (verbose)
sys->fprint(stderr, "%d: port %d empty\n", hubid(hub), port);
do {
sys->sleep(ENUMERATE_POLL_INTERVAL);
} while ((portstatus(hub, port) & UHCIstatus_DevicePresent) == 0);
}
if (verbose)
sys->fprint(stderr, "%d: port %d attached\n", hubid(hub), port);
# Δt3 (TATTDB) guarantee 100ms after attach detected
sys->sleep(200);
d := configure(hub, port);
if (d == nil) {
if (verbose)
sys->fprint(stderr, "%d: can't configure port %d\n", hubid(hub), port);
}
else if (d.d.class == Usb->CL_HUB) {
i: int;
if (setconfig(d, 1) < 0) {
if (verbose)
sys->fprint(stderr, "%d: can't set configuration for hub on port %d\n", hubid(hub), port);
detach(d);
d = nil;
}
else if (describehub(d) < 0) {
if (verbose)
sys->fprint(stderr, "%d: failed to describe hub on port %d\n", hubid(hub), port);
detach(d);
d = nil;
}
else {
for (i = 1; i <= d.hub.nport; i++)
portpower(d, i, 1);
sys->sleep(d.hub.pwrms);
for (i = 1; i <= d.hub.nport; i++)
spawn enumerate(d, i);
}
}
else if (d.d.nconf >= 1 && (path := searchdriverdatabase(d.d, d.config[0])) != nil) {
d.mod = load UsbDriver path;
if (d.mod == nil)
sys->fprint(stderr, "usbd: failed to load %s\n", path);
else {
rv := d.mod->init(usb, d.setupfd, d.cfd, d.d, d.config, usbbase + string d.id + "/");
if (rv == -11) {
sys->fprint(stderr, "usbd: %s: reenumerate\n", path);
d.mod = nil;
reenumerate = 1;
}
else if (rv < 0) {
sys->fprint(stderr, "usbd: %s:init failed\n", path);
d.mod = nil;
}
else if (verbose)
sys->fprint(stderr, "%s running\n", path);
}
}
else if (setconfig(d, 1) < 0) {
if (verbose)
sys->fprint(stderr, "%d: can't set configuration for port %d\n", hubid(hub), port);
detach(d);
d = nil;
}
if (!reenumerate) {
if (d != nil) {
# wait for it to be unplugged
while (portstatus(hub, port) & UHCIstatus_DevicePresent)
sys->sleep(ENUMERATE_POLL_INTERVAL);
}
else {
# wait a bit and prod it again
if (portstatus(hub, port) & UHCIstatus_DevicePresent)
sys->sleep(FAILED_ENUMERATE_RETRY_INTERVAL);
}
}
if (d != nil) {
detach(d);
d = nil;
}
reenumerate = 0;
}
}
lines: array of Line;
searchdriverdatabase(d: ref Device, conf: ref Configuration): string
{
backtracking := 0;
level := 0;
for (i := 0; i < len lines; i++) {
if (verbose > 1)
sys->fprint(stderr, "search line %d: lvl %d cmd %s val %d (back %d lvl %d)\n",
i, lines[i].level, lines[i].command, lines[i].value, backtracking, level);
if (backtracking) {
if (lines[i].level > level)
continue;
backtracking = 0;
}
if (lines[i].level != level) {
level = 0;
backtracking = 1;
}
case lines[i].command {
"class" =>
if (d.class != 0) {
if (lines[i].value != d.class)
backtracking = 1;
}
else if (lines[i].value != (hd conf.iface[0].altiface).class)
backtracking = 1;
"subclass" =>
if (d.class != 0) {
if (lines[i].value != d.subclass)
backtracking = 1;
}
else if (lines[i].value != (hd conf.iface[0].altiface).subclass)
backtracking = 1;
"proto" =>
if (d.class != 0) {
if (lines[i].value != d.proto)
backtracking = 1;
}
else if (lines[i].value != (hd conf.iface[0].altiface).proto)
backtracking = 1;
"vendor" =>
if (lines[i].value != d.vid)
backtracking =1;
"product" =>
if (lines[i].value != d.did)
backtracking =1;
"load" =>
return lines[i].svalue;
* =>
continue;
}
if (!backtracking)
level++;
}
return nil;
}
loaddriverdatabase()
{
newlines: array of Line;
if (bufio == nil)
bufio = load Bufio Bufio->PATH;
iob := bufio->open(Usb->DATABASEPATH, Sys->OREAD);
if (iob == nil) {
sys->fprint(stderr, "usbd: couldn't open %s: %r\n", Usb->DATABASEPATH);
return;
}
lines = array[100] of Line;
lc := 0;
while ((line := iob.gets('\n')) != nil) {
if (line[0] == '#')
continue;
level := 0;
while (line[0] == '\t') {
level++;
line = line[1:];
}
(n, l) := sys->tokenize(line[0: len line - 1], "\t ");
if (n != 2)
continue;
if (lc >= len lines) {
newlines = array [len lines * 2] of Line;
newlines[0:] = lines[0: len lines];
lines = newlines;
}
lines[lc].level = level;
lines[lc].command = hd l;
case hd l {
"class" or "subclass" or "proto" or "vendor" or "product" =>
(lines[lc].value, nil) = usb->strtol(hd tl l, 0);
"load" =>
lines[lc].svalue = hd tl l;
* =>
continue;
}
lc++;
}
if (verbose)
sys->fprint(stderr, "usbd: loaded %d lines\n", lc);
newlines = array [lc] of Line;
newlines[0:] = lines[0 : lc];
lines = newlines;
}
init(nil: ref Draw->Context, args: list of string)
{
usbbase = "/dev/usbh/";
sys = load Sys Sys->PATH;
str = load String String->PATH;
lock = load Lock Lock->PATH;
lock->init();
usb = load Usb Usb->PATH;
usb->init();
arg = load Arg Arg->PATH;
stderr = sys->fildes(2);
verbose = 0;
debug = 0;
arg->init(args);
arg->setusage("usbd [-dv] [-i interface]");
while ((c := arg->opt()) != 0)
case c {
'v' => verbose = 1;
'd' => debug = 1;
'i' => usbbase = arg->earg() + "/";
* => arg->usage();
}
args = arg->argv();
usbportfd = openusb("port", Sys->OREAD);
usbctlfd = sys->open(usbbase + "ctl", Sys->OWRITE);
if(usbctlfd == nil)
usbctlfd = openusb("port", Sys->OWRITE);
usbctl0 = opendevf(0, "ctl", Sys->ORDWR);
usbsetup0 = opendevf(0, "setup", Sys->ORDWR);
setupsema = Semaphore.new();
configsema = Semaphore.new();
treesema = Semaphore.new();
loaddriverdatabase();
ports := countrootports();
if (verbose)
sys->print("%d root ports found\n", ports);
for (p := 2; p <= ports; p++)
spawn enumerate(nil, p);
if (p >= 1)
enumerate(nil, 1);
}