FreeRDP/channels/rdpdr/serial/serial_main.c

712 lines
16 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol client.
* Serial Port Device Service Virtual Channel
*
* Copyright 2011 O.S. Systems Software Ltda.
* Copyright 2011 Eduardo Fiss Beloni <beloni@ossystems.com.br>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include "config.h"
#ifdef HAVE_SYS_MODEM_H
#include <sys/modem.h>
#endif
#ifdef HAVE_SYS_FILIO_H
#include <sys/filio.h>
#endif
#ifdef HAVE_SYS_STRTIO_H
#include <sys/strtio.h>
#endif
#include "rdpdr_types.h"
#include "rdpdr_constants.h"
#include "devman.h"
#include "serial_tty.h"
#include "serial_constants.h"
#include <freerdp/utils/stream.h>
#include <freerdp/utils/thread.h>
#include <freerdp/utils/unicode.h>
#include <freerdp/utils/wait_obj.h>
typedef struct _SERIAL_DEVICE SERIAL_DEVICE;
struct _SERIAL_DEVICE
{
DEVICE device;
char* path;
SERIAL_TTY* tty;
LIST* irp_list;
LIST* pending_irps;
freerdp_thread* thread;
struct wait_obj* in_event;
fd_set read_fds;
fd_set write_fds;
uint32 nfds;
struct timeval tv;
uint32 select_timeout;
uint32 timeout_id;
};
static void serial_abort_single_io(SERIAL_DEVICE* serial, uint32 file_id, uint32 abort_io, uint32 io_status);
static void serial_check_for_events(SERIAL_DEVICE* serial);
static void serial_handle_async_irp(SERIAL_DEVICE* serial, IRP* irp);
static boolean serial_check_fds(SERIAL_DEVICE* serial);
static void serial_process_irp_create(SERIAL_DEVICE* serial, IRP* irp)
{
SERIAL_TTY* tty;
uint32 PathLength;
uint32 FileId;
char* path;
UNICONV* uniconv;
stream_seek(irp->input, 28); /* DesiredAccess(4) AllocationSize(8), FileAttributes(4) */
/* SharedAccess(4) CreateDisposition(4), CreateOptions(4) */
stream_read_uint32(irp->input, PathLength);
uniconv = freerdp_uniconv_new();
path = freerdp_uniconv_in(uniconv, stream_get_tail(irp->input), PathLength);
freerdp_uniconv_free(uniconv);
FileId = irp->devman->id_sequence++;
tty = serial_tty_new(serial->path, FileId);
if (tty == NULL)
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
FileId = 0;
DEBUG_WARN("failed to create %s", path);
}
else
{
serial->tty = tty;
DEBUG_SVC("%s(%d) created.", serial->path, FileId);
}
stream_write_uint32(irp->output, FileId);
stream_write_uint8(irp->output, 0);
xfree(path);
irp->Complete(irp);
}
static void serial_process_irp_close(SERIAL_DEVICE* serial, IRP* irp)
{
SERIAL_TTY* tty;
tty = serial->tty;
if (tty == NULL)
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
DEBUG_WARN("tty not valid.");
}
else
{
DEBUG_SVC("%s(%d) closed.", serial->path, tty->id);
serial_tty_free(tty);
serial->tty = NULL;
}
stream_write_zero(irp->output, 5); /* Padding(5) */
irp->Complete(irp);
}
static void serial_process_irp_read(SERIAL_DEVICE* serial, IRP* irp)
{
SERIAL_TTY* tty;
uint32 Length;
uint64 Offset;
uint8* buffer = NULL;
stream_read_uint32(irp->input, Length);
stream_read_uint64(irp->input, Offset);
DEBUG_SVC("length %u offset %llu", Length, Offset);
tty = serial->tty;
if (tty == NULL)
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
Length = 0;
DEBUG_WARN("tty not valid.");
}
else
{
buffer = (uint8*)xmalloc(Length);
if (!serial_tty_read(tty, buffer, &Length))
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
xfree(buffer);
buffer = NULL;
Length = 0;
DEBUG_WARN("read %s(%d) failed.", serial->path, tty->id);
}
else
{
DEBUG_SVC("read %llu-%llu from %d", Offset, Offset + Length, tty->id);
}
}
stream_write_uint32(irp->output, Length);
if (Length > 0)
{
stream_check_size(irp->output, Length);
stream_write(irp->output, buffer, Length);
}
xfree(buffer);
irp->Complete(irp);
}
static void serial_process_irp_write(SERIAL_DEVICE* serial, IRP* irp)
{
SERIAL_TTY* tty;
uint32 Length;
uint64 Offset;
stream_read_uint32(irp->input, Length);
stream_read_uint64(irp->input, Offset);
stream_seek(irp->input, 20); /* Padding */
DEBUG_SVC("length %u offset %llu", Length, Offset);
tty = serial->tty;
if (tty == NULL)
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
Length = 0;
DEBUG_WARN("tty not valid.");
}
else if (!serial_tty_write(tty, stream_get_tail(irp->input), Length))
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
Length = 0;
DEBUG_WARN("write %s(%d) failed.", serial->path, tty->id);
}
else
{
DEBUG_SVC("write %llu-%llu to %s(%d).", Offset, Offset + Length, serial->path, tty->id);
}
stream_write_uint32(irp->output, Length);
stream_write_uint8(irp->output, 0); /* Padding */
irp->Complete(irp);
}
static void serial_process_irp_device_control(SERIAL_DEVICE* serial, IRP* irp)
{
SERIAL_TTY* tty;
uint32 IoControlCode;
uint32 InputBufferLength;
uint32 OutputBufferLength;
uint32 abort_io = SERIAL_ABORT_IO_NONE;
DEBUG_SVC("[in] pending size %d", list_size(serial->pending_irps));
stream_read_uint32(irp->input, InputBufferLength);
stream_read_uint32(irp->input, OutputBufferLength);
stream_read_uint32(irp->input, IoControlCode);
stream_seek(irp->input, 20); /* Padding */
tty = serial->tty;
if (tty == NULL)
{
irp->IoStatus = STATUS_UNSUCCESSFUL;
OutputBufferLength = 0;
DEBUG_WARN("tty not valid.");
}
else
{
irp->IoStatus = serial_tty_control(tty, IoControlCode, irp->input, irp->output, &abort_io);
}
if (abort_io & SERIAL_ABORT_IO_WRITE)
serial_abort_single_io(serial, tty->id, SERIAL_ABORT_IO_WRITE, STATUS_CANCELLED);
if (abort_io & SERIAL_ABORT_IO_READ)
serial_abort_single_io(serial, tty->id, SERIAL_ABORT_IO_READ, STATUS_CANCELLED);
if (irp->IoStatus == STATUS_PENDING)
list_enqueue(serial->pending_irps, irp);
else
irp->Complete(irp);
}
static void serial_process_irp(SERIAL_DEVICE* serial, IRP* irp)
{
DEBUG_SVC("MajorFunction %u", irp->MajorFunction);
switch (irp->MajorFunction)
{
case IRP_MJ_CREATE:
serial_process_irp_create(serial, irp);
break;
case IRP_MJ_CLOSE:
serial_process_irp_close(serial, irp);
break;
case IRP_MJ_READ:
serial_handle_async_irp(serial, irp);
//serial_process_irp_read(serial, irp);
break;
case IRP_MJ_WRITE:
serial_handle_async_irp(serial, irp);
//serial_process_irp_write(serial, irp);
break;
case IRP_MJ_DEVICE_CONTROL:
serial_process_irp_device_control(serial, irp);
break;
default:
DEBUG_WARN("MajorFunction 0x%X not supported", irp->MajorFunction);
irp->IoStatus = STATUS_NOT_SUPPORTED;
irp->Complete(irp);
break;
}
serial_check_for_events(serial);
}
static void serial_process_irp_list(SERIAL_DEVICE* serial)
{
IRP* irp;
while (1)
{
if (freerdp_thread_is_stopped(serial->thread))
break;
freerdp_thread_lock(serial->thread);
irp = (IRP*)list_dequeue(serial->irp_list);
freerdp_thread_unlock(serial->thread);
if (irp == NULL)
break;
serial_process_irp(serial, irp);
}
}
static void* serial_thread_func(void* arg)
{
SERIAL_DEVICE* serial = (SERIAL_DEVICE*)arg;
while (1)
{
freerdp_thread_wait(serial->thread);
serial->nfds = 1;
FD_ZERO(&serial->read_fds);
FD_ZERO(&serial->write_fds);
serial->tv.tv_sec = 20;
serial->tv.tv_usec = 0;
serial->select_timeout = 0;
if (freerdp_thread_is_stopped(serial->thread))
break;
freerdp_thread_reset(serial->thread);
serial_process_irp_list(serial);
if (wait_obj_is_set(serial->in_event))
{
if (serial_check_fds(serial))
wait_obj_clear(serial->in_event);
}
}
freerdp_thread_quit(serial->thread);
return NULL;
}
static void serial_irp_request(DEVICE* device, IRP* irp)
{
SERIAL_DEVICE* serial = (SERIAL_DEVICE*)device;
freerdp_thread_lock(serial->thread);
list_enqueue(serial->irp_list, irp);
freerdp_thread_unlock(serial->thread);
freerdp_thread_signal(serial->thread);
}
static void serial_free(DEVICE* device)
{
SERIAL_DEVICE* serial = (SERIAL_DEVICE*)device;
IRP* irp;
DEBUG_SVC("freeing device");
freerdp_thread_stop(serial->thread);
freerdp_thread_free(serial->thread);
while ((irp = (IRP*)list_dequeue(serial->irp_list)) != NULL)
irp->Discard(irp);
list_free(serial->irp_list);
while ((irp = (IRP*)list_dequeue(serial->pending_irps)) != NULL)
irp->Discard(irp);
list_free(serial->pending_irps);
xfree(serial);
}
int DeviceServiceEntry(PDEVICE_SERVICE_ENTRY_POINTS pEntryPoints)
{
SERIAL_DEVICE* serial;
char* name;
char* path;
int i, len;
name = (char*)pEntryPoints->plugin_data->data[1];
path = (char*)pEntryPoints->plugin_data->data[2];
if (name[0] && path[0])
{
serial = xnew(SERIAL_DEVICE);
serial->device.type = RDPDR_DTYP_SERIAL;
serial->device.name = name;
serial->device.IRPRequest = serial_irp_request;
serial->device.Free = serial_free;
len = strlen(name);
serial->device.data = stream_new(len + 1);
for (i = 0; i <= len; i++)
stream_write_uint8(serial->device.data, name[i] < 0 ? '_' : name[i]);
serial->path = path;
serial->irp_list = list_new();
serial->pending_irps = list_new();
serial->thread = freerdp_thread_new();
serial->in_event = wait_obj_new();
pEntryPoints->RegisterDevice(pEntryPoints->devman, (DEVICE*)serial);
freerdp_thread_start(serial->thread, serial_thread_func, serial);
}
return 0;
}
static void serial_abort_single_io(SERIAL_DEVICE* serial, uint32 file_id, uint32 abort_io, uint32 io_status)
{
IRP* irp = NULL;
uint32 major;
SERIAL_TTY* tty;
DEBUG_SVC("[in] pending size %d", list_size(serial->pending_irps));
tty = serial->tty;
switch (abort_io)
{
case SERIAL_ABORT_IO_NONE:
major = 0;
break;
case SERIAL_ABORT_IO_READ:
major = IRP_MJ_READ;
break;
case SERIAL_ABORT_IO_WRITE:
major = IRP_MJ_WRITE;
break;
default:
DEBUG_SVC("unexpected abort_io code %d", abort_io);
return;
}
irp = (IRP*)list_peek(serial->pending_irps);
while (irp)
{
if (irp->FileId != file_id || irp->MajorFunction != major)
{
irp = (IRP*)list_next(serial->pending_irps, irp);
continue;
}
/* Process a SINGLE FileId and MajorFunction */
list_remove(serial->pending_irps, irp);
irp->IoStatus = io_status;
stream_write_uint32(irp->output, 0);
irp->Complete(irp);
wait_obj_set(serial->in_event);
break;
}
DEBUG_SVC("[out] pending size %d", list_size(serial->pending_irps));
}
static void serial_check_for_events(SERIAL_DEVICE* serial)
{
IRP* irp = NULL;
IRP* prev;
uint32 result = 0;
SERIAL_TTY* tty;
tty = serial->tty;
DEBUG_SVC("[in] pending size %d", list_size(serial->pending_irps));
irp = (IRP*)list_peek(serial->pending_irps);
while (irp)
{
prev = NULL;
if (irp->MajorFunction == IRP_MJ_DEVICE_CONTROL)
{
if (serial_tty_get_event(tty, &result))
{
DEBUG_SVC("got event result %u", result);
irp->IoStatus = STATUS_SUCCESS;
stream_write_uint32(irp->output, result);
irp->Complete(irp);
prev = irp;
irp = (IRP*)list_next(serial->pending_irps, irp);
list_remove(serial->pending_irps, prev);
wait_obj_set(serial->in_event);
}
}
if (!prev)
irp = (IRP*)list_next(serial->pending_irps, irp);
}
DEBUG_SVC("[out] pending size %d", list_size(serial->pending_irps));
}
void serial_get_timeouts(SERIAL_DEVICE* serial, IRP* irp, uint32* timeout, uint32* interval_timeout)
{
SERIAL_TTY* tty;
uint32 Length;
uint32 pos;
pos = stream_get_pos(irp->input);
stream_read_uint32(irp->input, Length);
stream_set_pos(irp->input, pos);
DEBUG_SVC("length read %u", Length);
tty = serial->tty;
*timeout = (tty->read_total_timeout_multiplier * Length) +
tty->read_total_timeout_constant;
*interval_timeout = tty->read_interval_timeout;
DEBUG_SVC("timeouts %u %u", *timeout, *interval_timeout);
}
static void serial_handle_async_irp(SERIAL_DEVICE* serial, IRP* irp)
{
uint32 timeout = 0;
uint32 itv_timeout = 0;
SERIAL_TTY* tty;
tty = serial->tty;
switch (irp->MajorFunction)
{
case IRP_MJ_WRITE:
DEBUG_SVC("handling IRP_MJ_WRITE");
break;
case IRP_MJ_READ:
DEBUG_SVC("handling IRP_MJ_READ");
serial_get_timeouts(serial, irp, &timeout, &itv_timeout);
/* Check if io request timeout is smaller than current (but not 0). */
if (timeout && (serial->select_timeout == 0 || timeout < serial->select_timeout))
{
serial->select_timeout = timeout;
serial->tv.tv_sec = serial->select_timeout / 1000;
serial->tv.tv_usec = (serial->select_timeout % 1000) * 1000;
serial->timeout_id = tty->id;
}
if (itv_timeout && (serial->select_timeout == 0 || itv_timeout < serial->select_timeout))
{
serial->select_timeout = itv_timeout;
serial->tv.tv_sec = serial->select_timeout / 1000;
serial->tv.tv_usec = (serial->select_timeout % 1000) * 1000;
serial->timeout_id = tty->id;
}
DEBUG_SVC("select_timeout %u, tv_sec %lu tv_usec %lu, timeout_id %u",
serial->select_timeout, serial->tv.tv_sec, serial->tv.tv_usec, serial->timeout_id);
break;
default:
DEBUG_SVC("no need to handle %d", irp->MajorFunction);
return;
}
irp->IoStatus = STATUS_PENDING;
list_enqueue(serial->pending_irps, irp);
wait_obj_set(serial->in_event);
}
static void __serial_check_fds(SERIAL_DEVICE* serial)
{
IRP* irp;
IRP* prev;
SERIAL_TTY* tty;
uint32 result = 0;
memset(&serial->tv, 0, sizeof(struct timeval));
tty = serial->tty;
/* scan every pending */
irp = list_peek(serial->pending_irps);
while (irp)
{
DEBUG_SVC("MajorFunction %u", irp->MajorFunction);
switch (irp->MajorFunction)
{
case IRP_MJ_READ:
if (FD_ISSET(tty->fd, &serial->read_fds))
{
irp->IoStatus = STATUS_SUCCESS;
serial_process_irp_read(serial, irp);
}
break;
case IRP_MJ_WRITE:
if (FD_ISSET(tty->fd, &serial->write_fds))
{
irp->IoStatus = STATUS_SUCCESS;
serial_process_irp_write(serial, irp);
}
break;
case IRP_MJ_DEVICE_CONTROL:
if (serial_tty_get_event(tty, &result))
{
DEBUG_SVC("got event result %u", result);
irp->IoStatus = STATUS_SUCCESS;
stream_write_uint32(irp->output, result);
irp->Complete(irp);
}
break;
default:
DEBUG_SVC("no request found");
break;
}
prev = irp;
irp = (IRP*)list_next(serial->pending_irps, irp);
if (prev->IoStatus == STATUS_SUCCESS)
{
list_remove(serial->pending_irps, prev);
wait_obj_set(serial->in_event);
}
}
}
static void serial_set_fds(SERIAL_DEVICE* serial)
{
fd_set* fds;
IRP* irp;
SERIAL_TTY* tty;
DEBUG_SVC("[in] pending size %d", list_size(serial->pending_irps));
tty = serial->tty;
irp = (IRP*)list_peek(serial->pending_irps);
while (irp)
{
fds = NULL;
switch (irp->MajorFunction)
{
case IRP_MJ_WRITE:
fds = &serial->write_fds;
break;
case IRP_MJ_READ:
fds = &serial->read_fds;
break;
}
if (fds && (tty->fd >= 0))
{
FD_SET(tty->fd, fds);
serial->nfds = MAX(serial->nfds, tty->fd);
}
irp = (IRP*)list_next(serial->pending_irps, irp);
}
}
static boolean serial_check_fds(SERIAL_DEVICE* serial)
{
if (list_size(serial->pending_irps) == 0)
return 1;
serial_set_fds(serial);
DEBUG_SVC("waiting %lu %lu", serial->tv.tv_sec, serial->tv.tv_usec);
switch (select(serial->nfds + 1, &serial->read_fds, &serial->write_fds, NULL, &serial->tv))
{
case -1:
DEBUG_SVC("select has returned -1 with error: %s", strerror(errno));
return 0;
case 0:
if (serial->select_timeout)
{
serial_abort_single_io(serial, serial->timeout_id, SERIAL_ABORT_IO_NONE, STATUS_TIMEOUT);
serial_abort_single_io(serial, serial->timeout_id, SERIAL_ABORT_IO_READ, STATUS_TIMEOUT);
serial_abort_single_io(serial, serial->timeout_id, SERIAL_ABORT_IO_WRITE, STATUS_TIMEOUT);
}
DEBUG_SVC("select has timed out");
return 0;
default:
break;
}
__serial_check_fds(serial);
return 1;
}