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putty-source/windows/serial.c
Simon Tatham dde6590040 handle_write_eof: delegate CloseHandle back to the client. 
When a writable HANDLE is managed by the handle-io.c system, you ask
to send EOF on the handle by calling handle_write_eof. That waits
until all buffered data has been written, and then sends an EOF event
by simply closing the handle.

That is, of course, the only way to send an EOF signal on a handle at
all. And yet, it's a bug, because the handle_output system does not
take ownership of the handle you give it: the client of handle_output
retains ownership, keeps its own copy of the handle, and will expect
to close it itself.

In most cases, the extra close will harmlessly fail, and return
ERROR_INVALID_HANDLE (which the caller didn't notice anyway). But if
you're unlucky, in conditions of frantic handle opening and closing
(e.g. with a lot of separate named-pipe-style agent forwarding
connections being constantly set up and torn down), the handle value
might have been reused between the two closes, so that the second
CloseHandle closes an unrelated handle belonging to some other part of
the program.

We can't fix this by giving handle_output permanent ownership of the
handle, because it really _is_ necessary for copies of it to survive
elsewhere: in particular, for a bidirectional file such as a serial
port or named pipe, the reading side also needs a copy of the same
handle! And yet, we can't replace the handle_write_eof call in the
client with a direct CloseHandle, because that won't wait until
buffered output has been drained.

The solution is that the client still calls handle_write_eof to
register that it _wants_ an EOF sent; the handle_output system will
wait until it's ready, but then, instead of calling CloseHandle, it
will ask its _client_ to close the handle, by calling the provided
'sentdata' callback with the new 'close' flag set to true. And then
the client can not only close the handle, but do whatever else it
needs to do to record that that has been done.
2021-09-30 19:16:20 +01:00

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/*
* Serial back end (Windows-specific).
*/
#include <stdio.h>
#include <stdlib.h>
#include <limits.h>
#include "putty.h"
#define SERIAL_MAX_BACKLOG 4096
typedef struct Serial Serial;
struct Serial {
HANDLE port;
struct handle *out, *in;
Seat *seat;
LogContext *logctx;
int bufsize;
long clearbreak_time;
bool break_in_progress;
Backend backend;
};
static void serial_terminate(Serial *serial)
{
if (serial->out) {
handle_free(serial->out);
serial->out = NULL;
}
if (serial->in) {
handle_free(serial->in);
serial->in = NULL;
}
if (serial->port != INVALID_HANDLE_VALUE) {
if (serial->break_in_progress)
ClearCommBreak(serial->port);
CloseHandle(serial->port);
serial->port = INVALID_HANDLE_VALUE;
}
}
static size_t serial_gotdata(
struct handle *h, const void *data, size_t len, int err)
{
Serial *serial = (Serial *)handle_get_privdata(h);
if (err || len == 0) {
const char *error_msg;
/*
* Currently, len==0 should never happen because we're
* ignoring EOFs. However, it seems not totally impossible
* that this same back end might be usable to talk to named
* pipes or some other non-serial device, in which case EOF
* may become meaningful here.
*/
if (!err)
error_msg = "End of file reading from serial device";
else
error_msg = "Error reading from serial device";
serial_terminate(serial);
seat_notify_remote_exit(serial->seat);
logevent(serial->logctx, error_msg);
seat_connection_fatal(serial->seat, "%s", error_msg);
return 0;
} else {
return seat_stdout(serial->seat, data, len);
}
}
static void serial_sentdata(struct handle *h, size_t new_backlog, int err,
bool close)
{
Serial *serial = (Serial *)handle_get_privdata(h);
if (err) {
const char *error_msg = "Error writing to serial device";
serial_terminate(serial);
seat_notify_remote_exit(serial->seat);
logevent(serial->logctx, error_msg);
seat_connection_fatal(serial->seat, "%s", error_msg);
} else {
serial->bufsize = new_backlog;
seat_sent(serial->seat, serial->bufsize);
}
}
static char *serial_configure(Serial *serial, HANDLE serport, Conf *conf)
{
DCB dcb;
COMMTIMEOUTS timeouts;
/*
* Set up the serial port parameters. If we can't even
* GetCommState, we ignore the problem on the grounds that the
* user might have pointed us at some other type of two-way
* device instead of a serial port.
*/
if (GetCommState(serport, &dcb)) {
const char *str;
/*
* Boilerplate.
*/
dcb.fBinary = true;
dcb.fDtrControl = DTR_CONTROL_ENABLE;
dcb.fDsrSensitivity = false;
dcb.fTXContinueOnXoff = false;
dcb.fOutX = false;
dcb.fInX = false;
dcb.fErrorChar = false;
dcb.fNull = false;
dcb.fRtsControl = RTS_CONTROL_ENABLE;
dcb.fAbortOnError = false;
dcb.fOutxCtsFlow = false;
dcb.fOutxDsrFlow = false;
/*
* Configurable parameters.
*/
dcb.BaudRate = conf_get_int(conf, CONF_serspeed);
logeventf(serial->logctx, "Configuring baud rate %lu",
(unsigned long)dcb.BaudRate);
dcb.ByteSize = conf_get_int(conf, CONF_serdatabits);
logeventf(serial->logctx, "Configuring %u data bits",
(unsigned)dcb.ByteSize);
switch (conf_get_int(conf, CONF_serstopbits)) {
case 2: dcb.StopBits = ONESTOPBIT; str = "1 stop bit"; break;
case 3: dcb.StopBits = ONE5STOPBITS; str = "1.5 stop bits"; break;
case 4: dcb.StopBits = TWOSTOPBITS; str = "2 stop bits"; break;
default: return dupstr("Invalid number of stop bits "
"(need 1, 1.5 or 2)");
}
logeventf(serial->logctx, "Configuring %s", str);
switch (conf_get_int(conf, CONF_serparity)) {
case SER_PAR_NONE: dcb.Parity = NOPARITY; str = "no"; break;
case SER_PAR_ODD: dcb.Parity = ODDPARITY; str = "odd"; break;
case SER_PAR_EVEN: dcb.Parity = EVENPARITY; str = "even"; break;
case SER_PAR_MARK: dcb.Parity = MARKPARITY; str = "mark"; break;
case SER_PAR_SPACE: dcb.Parity = SPACEPARITY; str = "space"; break;
}
logeventf(serial->logctx, "Configuring %s parity", str);
switch (conf_get_int(conf, CONF_serflow)) {
case SER_FLOW_NONE:
str = "no";
break;
case SER_FLOW_XONXOFF:
dcb.fOutX = dcb.fInX = true;
str = "XON/XOFF";
break;
case SER_FLOW_RTSCTS:
dcb.fRtsControl = RTS_CONTROL_HANDSHAKE;
dcb.fOutxCtsFlow = true;
str = "RTS/CTS";
break;
case SER_FLOW_DSRDTR:
dcb.fDtrControl = DTR_CONTROL_HANDSHAKE;
dcb.fOutxDsrFlow = true;
str = "DSR/DTR";
break;
}
logeventf(serial->logctx, "Configuring %s flow control", str);
if (!SetCommState(serport, &dcb))
return dupprintf("Configuring serial port: %s",
win_strerror(GetLastError()));
timeouts.ReadIntervalTimeout = 1;
timeouts.ReadTotalTimeoutMultiplier = 0;
timeouts.ReadTotalTimeoutConstant = 0;
timeouts.WriteTotalTimeoutMultiplier = 0;
timeouts.WriteTotalTimeoutConstant = 0;
if (!SetCommTimeouts(serport, &timeouts))
return dupprintf("Configuring serial timeouts: %s",
win_strerror(GetLastError()));
}
return NULL;
}
/*
* Called to set up the serial connection.
*
* Returns an error message, or NULL on success.
*
* Also places the canonical host name into `realhost'. It must be
* freed by the caller.
*/
static char *serial_init(const BackendVtable *vt, Seat *seat,
Backend **backend_handle, LogContext *logctx,
Conf *conf, const char *host, int port,
char **realhost, bool nodelay, bool keepalive)
{
Serial *serial;
HANDLE serport;
char *err;
char *serline;
/* No local authentication phase in this protocol */
seat_set_trust_status(seat, false);
serial = snew(Serial);
serial->port = INVALID_HANDLE_VALUE;
serial->out = serial->in = NULL;
serial->bufsize = 0;
serial->break_in_progress = false;
serial->backend.vt = vt;
*backend_handle = &serial->backend;
serial->seat = seat;
serial->logctx = logctx;
serline = conf_get_str(conf, CONF_serline);
logeventf(serial->logctx, "Opening serial device %s", serline);
/*
* Munge the string supplied by the user into a Windows filename.
*
* Windows supports opening a few "legacy" devices (including
* COM1-9) by specifying their names verbatim as a filename to
* open. (Thus, no files can ever have these names. See
* <http://msdn2.microsoft.com/en-us/library/aa365247.aspx>
* ("Naming a File") for the complete list of reserved names.)
*
* However, this doesn't let you get at devices COM10 and above.
* For that, you need to specify a filename like "\\.\COM10".
* This is also necessary for special serial and serial-like
* devices such as \\.\WCEUSBSH001. It also works for the "legacy"
* names, so you can do \\.\COM1 (verified as far back as Win95).
* See <http://msdn2.microsoft.com/en-us/library/aa363858.aspx>
* (CreateFile() docs).
*
* So, we believe that prepending "\\.\" should always be the
* Right Thing. However, just in case someone finds something to
* talk to that doesn't exist under there, if the serial line
* contains a backslash, we use it verbatim. (This also lets
* existing configurations using \\.\ continue working.)
*/
char *serfilename =
dupprintf("%s%s", strchr(serline, '\\') ? "" : "\\\\.\\", serline);
serport = CreateFile(serfilename, GENERIC_READ | GENERIC_WRITE, 0, NULL,
OPEN_EXISTING, FILE_FLAG_OVERLAPPED, NULL);
if (serport == INVALID_HANDLE_VALUE) {
err = dupprintf("Opening '%s': %s",
serfilename, win_strerror(GetLastError()));
sfree(serfilename);
return err;
}
sfree(serfilename);
err = serial_configure(serial, serport, conf);
if (err)
return err;
serial->port = serport;
serial->out = handle_output_new(serport, serial_sentdata, serial,
HANDLE_FLAG_OVERLAPPED);
serial->in = handle_input_new(serport, serial_gotdata, serial,
HANDLE_FLAG_OVERLAPPED |
HANDLE_FLAG_IGNOREEOF |
HANDLE_FLAG_UNITBUFFER);
*realhost = dupstr(serline);
/*
* Specials are always available.
*/
seat_update_specials_menu(serial->seat);
return NULL;
}
static void serial_free(Backend *be)
{
Serial *serial = container_of(be, Serial, backend);
serial_terminate(serial);
expire_timer_context(serial);
sfree(serial);
}
static void serial_reconfig(Backend *be, Conf *conf)
{
Serial *serial = container_of(be, Serial, backend);
serial_configure(serial, serial->port, conf);
/*
* FIXME: what should we do if that call returned a non-NULL error
* message?
*/
}
/*
* Called to send data down the serial connection.
*/
static void serial_send(Backend *be, const char *buf, size_t len)
{
Serial *serial = container_of(be, Serial, backend);
if (serial->out == NULL)
return;
serial->bufsize = handle_write(serial->out, buf, len);
}
/*
* Called to query the current sendability status.
*/
static size_t serial_sendbuffer(Backend *be)
{
Serial *serial = container_of(be, Serial, backend);
return serial->bufsize;
}
/*
* Called to set the size of the window
*/
static void serial_size(Backend *be, int width, int height)
{
/* Do nothing! */
return;
}
static void serbreak_timer(void *ctx, unsigned long now)
{
Serial *serial = (Serial *)ctx;
if (now == serial->clearbreak_time && serial->port) {
ClearCommBreak(serial->port);
serial->break_in_progress = false;
logevent(serial->logctx, "Finished serial break");
}
}
/*
* Send serial special codes.
*/
static void serial_special(Backend *be, SessionSpecialCode code, int arg)
{
Serial *serial = container_of(be, Serial, backend);
if (serial->port && code == SS_BRK) {
logevent(serial->logctx, "Starting serial break at user request");
SetCommBreak(serial->port);
/*
* To send a serial break on Windows, we call SetCommBreak
* to begin the break, then wait a bit, and then call
* ClearCommBreak to finish it. Hence, I must use timing.c
* to arrange a callback when it's time to do the latter.
*
* SUS says that a default break length must be between 1/4
* and 1/2 second. FreeBSD apparently goes with 2/5 second,
* and so will I.
*/
serial->clearbreak_time =
schedule_timer(TICKSPERSEC * 2 / 5, serbreak_timer, serial);
serial->break_in_progress = true;
}
return;
}
/*
* Return a list of the special codes that make sense in this
* protocol.
*/
static const SessionSpecial *serial_get_specials(Backend *be)
{
static const SessionSpecial specials[] = {
{"Break", SS_BRK},
{NULL, SS_EXITMENU}
};
return specials;
}
static bool serial_connected(Backend *be)
{
return true; /* always connected */
}
static bool serial_sendok(Backend *be)
{
return true;
}
static void serial_unthrottle(Backend *be, size_t backlog)
{
Serial *serial = container_of(be, Serial, backend);
if (serial->in)
handle_unthrottle(serial->in, backlog);
}
static bool serial_ldisc(Backend *be, int option)
{
/*
* Local editing and local echo are off by default.
*/
return false;
}
static void serial_provide_ldisc(Backend *be, Ldisc *ldisc)
{
/* This is a stub. */
}
static int serial_exitcode(Backend *be)
{
Serial *serial = container_of(be, Serial, backend);
if (serial->port != INVALID_HANDLE_VALUE)
return -1; /* still connected */
else
/* Exit codes are a meaningless concept with serial ports */
return INT_MAX;
}
/*
* cfg_info for Serial does nothing at all.
*/
static int serial_cfg_info(Backend *be)
{
return 0;
}
const BackendVtable serial_backend = {
.init = serial_init,
.free = serial_free,
.reconfig = serial_reconfig,
.send = serial_send,
.sendbuffer = serial_sendbuffer,
.size = serial_size,
.special = serial_special,
.get_specials = serial_get_specials,
.connected = serial_connected,
.exitcode = serial_exitcode,
.sendok = serial_sendok,
.ldisc_option_state = serial_ldisc,
.provide_ldisc = serial_provide_ldisc,
.unthrottle = serial_unthrottle,
.cfg_info = serial_cfg_info,
.id = "serial",
.displayname = "Serial",
.protocol = PROT_SERIAL,
.serial_parity_mask = ((1 << SER_PAR_NONE) |
(1 << SER_PAR_ODD) |
(1 << SER_PAR_EVEN) |
(1 << SER_PAR_MARK) |
(1 << SER_PAR_SPACE)),
.serial_flow_mask = ((1 << SER_FLOW_NONE) |
(1 << SER_FLOW_XONXOFF) |
(1 << SER_FLOW_RTSCTS) |
(1 << SER_FLOW_DSRDTR)),
};
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