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* Driver for Quatech Inc USB2.0 to serial adaptors. Largely unrelated to the
* serqt_usb driver, based on a re-write of the vendor supplied serqt_usb2 code,
* which is unrelated to the serqt_usb2 in the staging kernel
*/
#include <linux/errno.h>
#include <linux/init.h>
#include <linux/slab.h>
#include <linux/tty.h>
#include <linux/tty_driver.h>
#include <linux/tty_flip.h>
#include <linux/module.h>
#include <linux/serial.h>
#include <linux/usb.h>
#include <linux/usb/serial.h>
#include <linux/uaccess.h>
static int debug;
/* Version Information */
#define DRIVER_VERSION "v2.00"
#define DRIVER_AUTHOR "Tim Gobeli, Quatech, Inc"
#define DRIVER_DESC "Quatech USB 2.0 to Serial Driver"
/* vendor and device IDs */
#define USB_VENDOR_ID_QUATECH 0x061d /* Quatech VID */
#define QUATECH_SSU2_100 0xC120 /* RS232 single port */
#define QUATECH_DSU2_100 0xC140 /* RS232 dual port */
#define QUATECH_DSU2_400 0xC150 /* RS232/422/485 dual port */
#define QUATECH_QSU2_100 0xC160 /* RS232 four port */
#define QUATECH_QSU2_400 0xC170 /* RS232/422/485 four port */
#define QUATECH_ESU2_100 0xC1A0 /* RS232 eight port */
#define QUATECH_ESU2_400 0xC180 /* RS232/422/485 eight port */
/* magic numbers go here, when we find out which ones are needed */
#define QU2BOXPWRON 0x8000 /* magic number to turn FPGA power on */
#define QU2BOX232 0x40 /* RS232 mode on MEI devices */
#define QU2BOXSPD9600 0x60 /* set speed to 9600 baud */
#define QT2_FIFO_DEPTH 1024 /* size of hardware fifos */
#define QT2_TX_HEADER_LENGTH 5
/* length of the header sent to the box with each write URB */
/* directions for USB transfers */
#define USBD_TRANSFER_DIRECTION_IN 0xc0
#define USBD_TRANSFER_DIRECTION_OUT 0x40
/* special Quatech command IDs. These are pushed down the
USB control pipe to get the box on the end to do things */
#define QT_SET_GET_DEVICE 0xc2
#define QT_OPEN_CLOSE_CHANNEL 0xca
/*#define QT_GET_SET_PREBUF_TRIG_LVL 0xcc
#define QT_SET_ATF 0xcd*/
#define QT2_GET_SET_REGISTER 0xc0
#define QT2_GET_SET_UART 0xc1
#define QT2_HW_FLOW_CONTROL_MASK 0xc5
#define QT2_SW_FLOW_CONTROL_MASK 0xc6
#define QT2_SW_FLOW_CONTROL_DISABLE 0xc7
#define QT2_BREAK_CONTROL 0xc8
#define QT2_STOP_RECEIVE 0xe0
#define QT2_FLUSH_DEVICE 0xc4
#define QT2_GET_SET_QMCR 0xe1
/* sorts of flush we can do on */
#define QT2_FLUSH_RX 0x00
#define QT2_FLUSH_TX 0x01
/* port setting constants, used to set up serial port speeds, flow
* control and so on */
#define QT2_SERIAL_MCR_DTR 0x01
#define QT2_SERIAL_MCR_RTS 0x02
#define QT2_SERIAL_MCR_LOOP 0x10
#define QT2_SERIAL_MSR_CTS 0x10
#define QT2_SERIAL_MSR_CD 0x80
#define QT2_SERIAL_MSR_RI 0x40
#define QT2_SERIAL_MSR_DSR 0x20
#define QT2_SERIAL_MSR_MASK 0xf0
#define QT2_SERIAL_8_DATA 0x03
#define QT2_SERIAL_7_DATA 0x02
#define QT2_SERIAL_6_DATA 0x01
#define QT2_SERIAL_5_DATA 0x00
#define QT2_SERIAL_ODD_PARITY 0x08
#define QT2_SERIAL_EVEN_PARITY 0x18
#define QT2_SERIAL_TWO_STOPB 0x04
#define QT2_SERIAL_ONE_STOPB 0x00
#define QT2_MAX_BAUD_RATE 921600
#define QT2_MAX_BAUD_REMAINDER 4608
#define QT2_SERIAL_LSR_OE 0x02
#define QT2_SERIAL_LSR_PE 0x04
#define QT2_SERIAL_LSR_FE 0x08
#define QT2_SERIAL_LSR_BI 0x10
/* value of Line Status Register when UART has completed
* emptying data out on the line */
#define QT2_LSR_TEMT 0x40
/* register numbers on each UART, for use with qt2_box_[get|set]_register*/
#define QT2_XMT_HOLD_REGISTER 0x00
#define QT2_XVR_BUFFER_REGISTER 0x00
#define QT2_FIFO_CONTROL_REGISTER 0x02
#define QT2_LINE_CONTROL_REGISTER 0x03
#define QT2_MODEM_CONTROL_REGISTER 0x04
#define QT2_LINE_STATUS_REGISTER 0x05
#define QT2_MODEM_STATUS_REGISTER 0x06
/* handy macros for doing escape sequence parsing on data reads */
#define THISCHAR ((unsigned char *)(urb->transfer_buffer))[i]
#define NEXTCHAR ((unsigned char *)(urb->transfer_buffer))[i + 1]
#define THIRDCHAR ((unsigned char *)(urb->transfer_buffer))[i + 2]
#define FOURTHCHAR ((unsigned char *)(urb->transfer_buffer))[i + 3]
#define FIFTHCHAR ((unsigned char *)(urb->transfer_buffer))[i + 4]
static const struct usb_device_id quausb2_id_table[] = {
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_SSU2_100)},
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_DSU2_100)},
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_DSU2_400)},
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_QSU2_100)},
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_QSU2_400)},
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_ESU2_100)},
{USB_DEVICE(USB_VENDOR_ID_QUATECH, QUATECH_ESU2_400)},
{} /* Terminating entry */
};
MODULE_DEVICE_TABLE(usb, quausb2_id_table);
/* custom structures we need go here */
static struct usb_driver quausb2_usb_driver = {
.name = "quatech-usb2-serial",
.probe = usb_serial_probe,
.disconnect = usb_serial_disconnect,
.id_table = quausb2_id_table,
.no_dynamic_id = 1,
};
/**
* quatech2_port: Structure in which to keep all the messy stuff that this
* driver needs alongside the usb_serial_port structure
* @read_urb_busy: Flag indicating that port->read_urb is in use
* @close_pending: flag indicating that this port is in the process of
* being closed (and so no new reads / writes should be started).
* @shadowLSR: Last received state of the line status register, holds the
* value of the line status flags from the port
* @shadowMSR: Last received state of the modem status register, holds
* the value of the modem status received from the port
* @rcv_flush: Flag indicating that a receive flush has occurred on
* the hardware.
* @xmit_flush: Flag indicating that a transmit flush has been processed by
* the hardware.
* @tx_pending_bytes: Number of bytes waiting to be sent. This total
* includes the size (excluding header) of URBs that have been submitted but
* have not yet been sent to to the device, and bytes that have been sent out
* of the port but not yet reported sent by the "xmit_empty" messages (which
* indicate the number of bytes sent each time they are received, despite the
* misleading name).
* - Starts at zero when port is initialised.
* - is incremented by the size of the data to be written (no headers)
* each time a write urb is dispatched.
* - is decremented each time a "transmit empty" message is received
* by the driver in the data stream.
* @lock: Mutex to lock access to this structure when we need to ensure that
* races don't occur to access bits of it.
* @open_count: The number of uses of the port currently having
* it open, i.e. the reference count.
*/
struct quatech2_port {
int magic;
bool read_urb_busy;
bool close_pending;
__u8 shadowLSR;
__u8 shadowMSR;
bool rcv_flush;
bool xmit_flush;
int tx_pending_bytes;
struct mutex modelock;
int open_count;
char active; /* someone has this device open */
unsigned char *xfer_to_tty_buffer;
wait_queue_head_t wait;
__u8 shadowLCR; /* last LCR value received */
__u8 shadowMCR; /* last MCR value received */
char RxHolding;
struct semaphore pend_xmit_sem; /* locks this structure */
spinlock_t lock;
};
/**
* Structure to hold device-wide internal status information
* @param ReadBulkStopped The last bulk read attempt ended in tears
* @param open_ports The number of serial ports currently in use on the box
* @param current_port Pointer to the serial port structure of the port which
* the read stream is currently directed to. Escape sequences in the read
* stream will change this around as data arrives from different ports on the
* box
* @buffer_size: The max size buffer each URB can take, used to set the size of
* the buffers allocated for writing to each port on the device (we need to
* store this because it is known only to the endpoint, but used each time a
* port is opened and a new buffer is allocated.
*/
struct quatech2_dev {
bool ReadBulkStopped;
char open_ports;
struct usb_serial_port *current_port;
int buffer_size;
};
/* structure which holds line and modem status flags */
struct qt2_status_data {
__u8 line_status;
__u8 modem_status;
};
/* Function prototypes */
static int qt2_boxpoweron(struct usb_serial *serial);
static int qt2_boxsetQMCR(struct usb_serial *serial, __u16 Uart_Number,
__u8 QMCR_Value);
static int port_paranoia_check(struct usb_serial_port *port,
const char *function);
static int serial_paranoia_check(struct usb_serial *serial,
const char *function);
static inline struct quatech2_port *qt2_get_port_private(struct usb_serial_port
*port);
static inline void qt2_set_port_private(struct usb_serial_port *port,
struct quatech2_port *data);
static inline struct quatech2_dev *qt2_get_dev_private(struct usb_serial
*serial);
static inline void qt2_set_dev_private(struct usb_serial *serial,
struct quatech2_dev *data);
static int qt2_openboxchannel(struct usb_serial *serial, __u16
Uart_Number, struct qt2_status_data *pDeviceData);
static int qt2_closeboxchannel(struct usb_serial *serial, __u16
Uart_Number);
static int qt2_conf_uart(struct usb_serial *serial, unsigned short Uart_Number,
unsigned short divisor, unsigned char LCR);
static void qt2_read_bulk_callback(struct urb *urb);
static void qt2_write_bulk_callback(struct urb *urb);
static void qt2_process_line_status(struct usb_serial_port *port,
unsigned char LineStatus);
static void qt2_process_modem_status(struct usb_serial_port *port,
unsigned char ModemStatus);
static void qt2_process_xmit_empty(struct usb_serial_port *port,
unsigned char fourth_char, unsigned char fifth_char);
static void qt2_process_port_change(struct usb_serial_port *port,
unsigned char New_Current_Port);
static void qt2_process_rcv_flush(struct usb_serial_port *port);
static void qt2_process_xmit_flush(struct usb_serial_port *port);
static void qt2_process_rx_char(struct usb_serial_port *port,
unsigned char data);
static int qt2_box_get_register(struct usb_serial *serial,
unsigned char uart_number, unsigned short register_num,
__u8 *pValue);
static int qt2_box_set_register(struct usb_serial *serial,
unsigned short Uart_Number, unsigned short Register_Num,
unsigned short Value);
static int qt2_boxsetuart(struct usb_serial *serial, unsigned short Uart_Number,
unsigned short default_divisor, unsigned char default_LCR);
static int qt2_boxsethw_flowctl(struct usb_serial *serial,
unsigned int UartNumber, bool bSet);
static int qt2_boxsetsw_flowctl(struct usb_serial *serial, __u16 UartNumber,
unsigned char stop_char, unsigned char start_char);
static int qt2_boxunsetsw_flowctl(struct usb_serial *serial, __u16 UartNumber);
static int qt2_boxstoprx(struct usb_serial *serial, unsigned short uart_number,
unsigned short stop);
/* implementation functions, roughly in order of use, are here */
static int qt2_calc_num_ports(struct usb_serial *serial)
{
int num_ports;
int flag_as_400;
switch (serial->dev->descriptor.idProduct) {
case QUATECH_SSU2_100:
num_ports = 1;
break;
case QUATECH_DSU2_400:
flag_as_400 = true;
case QUATECH_DSU2_100:
num_ports = 2;
break;
case QUATECH_QSU2_400:
flag_as_400 = true;
case QUATECH_QSU2_100:
num_ports = 4;
break;
case QUATECH_ESU2_400:
flag_as_400 = true;
case QUATECH_ESU2_100:
num_ports = 8;
break;
default:
num_ports = 1;
break;
}
return num_ports;
}
static int qt2_attach(struct usb_serial *serial)
{
struct usb_serial_port *port;
struct quatech2_port *qt2_port; /* port-specific private data pointer */
struct quatech2_dev *qt2_dev; /* dev-specific private data pointer */
int i;
/* stuff for storing endpoint addresses now */
struct usb_endpoint_descriptor *endpoint;
struct usb_host_interface *iface_desc;
struct usb_serial_port *port0; /* first port structure on device */
/* check how many endpoints there are on the device, for
* sanity's sake */
dbg("%s(): Endpoints: %d bulk in, %d bulk out, %d interrupt in",
__func__, serial->num_bulk_in,
serial->num_bulk_out, serial->num_interrupt_in);
if ((serial->num_bulk_in != 1) || (serial->num_bulk_out != 1)) {
dbg("Device has wrong number of bulk endpoints!");
return -ENODEV;
}
iface_desc = serial->interface->cur_altsetting;
/* Set up per-device private data, storing extra data alongside
* struct usb_serial */
qt2_dev = kzalloc(sizeof(*qt2_dev), GFP_KERNEL);
if (!qt2_dev) {
dbg("%s: kmalloc for quatech2_dev failed!",
__func__);
return -ENOMEM;
}
qt2_dev->open_ports = 0; /* no ports open */
qt2_set_dev_private(serial, qt2_dev); /* store private data */
/* Now setup per port private data, which replaces all the things
* that quatech added to standard kernel structures in their driver */
for (i = 0; i < serial->num_ports; i++) {
port = serial->port[i];
qt2_port = kzalloc(sizeof(*qt2_port), GFP_KERNEL);
if (!qt2_port) {
dbg("%s: kmalloc for quatech2_port (%d) failed!.",
__func__, i);
return -ENOMEM;
}
/* initialise stuff in the structure */
qt2_port->open_count = 0; /* port is not open */
spin_lock_init(&qt2_port->lock);
mutex_init(&qt2_port->modelock);
qt2_set_port_private(port, qt2_port);
}
/* gain access to port[0]'s structure because we want to store
* device-level stuff in it */
if (serial_paranoia_check(serial, __func__))
return -ENODEV;
port0 = serial->port[0]; /* get the first port's device structure */
/* print endpoint addresses so we can check them later
* by hand */
for (i = 0; i < iface_desc->desc.bNumEndpoints; ++i) {
endpoint = &iface_desc->endpoint[i].desc;
if ((endpoint->bEndpointAddress & 0x80) &&
((endpoint->bmAttributes & 3) == 0x02)) {
/* we found a bulk in endpoint */
dbg("found bulk in at %#.2x",
endpoint->bEndpointAddress);
}
if (((endpoint->bEndpointAddress & 0x80) == 0x00) &&
((endpoint->bmAttributes & 3) == 0x02)) {
/* we found a bulk out endpoint */
dbg("found bulk out at %#.2x",
endpoint->bEndpointAddress);
qt2_dev->buffer_size = endpoint->wMaxPacketSize;
/* max size of URB needs recording for the device */
}
} /* end printing endpoint addresses */
/* switch on power to the hardware */
if (qt2_boxpoweron(serial) < 0) {
dbg("qt2_boxpoweron() failed");
goto startup_error;
}
/* set all ports to RS232 mode */
for (i = 0; i < serial->num_ports; ++i) {
if (qt2_boxsetQMCR(serial, i, QU2BOX232) < 0) {
dbg("qt2_boxsetQMCR() on port %d failed",
i);
goto startup_error;
}
}
return 0;
startup_error:
for (i = 0; i < serial->num_ports; i++) {
port = serial->port[i];
qt2_port = qt2_get_port_private(port);
kfree(qt2_port);
qt2_set_port_private(port, NULL);
}
qt2_dev = qt2_get_dev_private(serial);
kfree(qt2_dev);
qt2_set_dev_private(serial, NULL);
dbg("Exit fail %s\n", __func__);
return -EIO;
}
static void qt2_release(struct usb_serial *serial)
{
struct usb_serial_port *port;
struct quatech2_port *qt_port;
int i;
dbg("enterting %s", __func__);
for (i = 0; i < serial->num_ports; i++) {
port = serial->port[i];
if (!port)
continue;
qt_port = usb_get_serial_port_data(port);
kfree(qt_port);
usb_set_serial_port_data(port, NULL);
}
}
/* This function is called once per serial port on the device, when
* that port is opened by a userspace application.
* The tty_struct and the usb_serial_port belong to this port,
* i.e. there are multiple ones for a multi-port device.
* However the usb_serial_port structure has a back-pointer
* to the parent usb_serial structure which belongs to the device,
* so we can access either the device-wide information or
* any other port's information (because there are also forward
* pointers) via that pointer.
* This is most helpful if the device shares resources (e.g. end
* points) between different ports
*/
int qt2_open(struct tty_struct *tty, struct usb_serial_port *port)
{
struct usb_serial *serial; /* device structure */
struct usb_serial_port *port0; /* first port structure on device */
struct quatech2_port *port_extra; /* extra data for this port */
struct quatech2_port *port0_extra; /* extra data for first port */
struct quatech2_dev *dev_extra; /* extra data for the device */
struct qt2_status_data ChannelData;
unsigned short default_divisor = QU2BOXSPD9600;
unsigned char default_LCR = QT2_SERIAL_8_DATA;
int status;
int result;
if (port_paranoia_check(port, __func__))
return -ENODEV;
dbg("%s(): port %d", __func__, port->number);
serial = port->serial; /* get the parent device structure */
if (serial_paranoia_check(serial, __func__)) {
dbg("usb_serial struct failed sanity check");
return -ENODEV;
}
dev_extra = qt2_get_dev_private(serial);
/* get the device private data */
if (dev_extra == NULL) {
dbg("device extra data pointer is null");
return -ENODEV;
}
port0 = serial->port[0]; /* get the first port's device structure */
if (port_paranoia_check(port0, __func__)) {
dbg("port0 usb_serial_port struct failed sanity check");
return -ENODEV;
}
port_extra = qt2_get_port_private(port);
port0_extra = qt2_get_port_private(port0);
if (port_extra == NULL || port0_extra == NULL) {
dbg("failed to get private data for port or port0");
return -ENODEV;
}
/* FIXME: are these needed? Does it even do anything useful? */
/* get the modem and line status values from the UART */
status = qt2_openboxchannel(serial, port->number,
&ChannelData);
if (status < 0) {
dbg("qt2_openboxchannel on channel %d failed",
port->number);
return status;
}
port_extra->shadowLSR = ChannelData.line_status &
(QT2_SERIAL_LSR_OE | QT2_SERIAL_LSR_PE |
QT2_SERIAL_LSR_FE | QT2_SERIAL_LSR_BI);
port_extra->shadowMSR = ChannelData.modem_status &
(QT2_SERIAL_MSR_CTS | QT2_SERIAL_MSR_DSR |
QT2_SERIAL_MSR_RI | QT2_SERIAL_MSR_CD);
/* port_extra->fifo_empty_flag = true;*/
dbg("qt2_openboxchannel on channel %d completed.",
port->number);
/* Set Baud rate to default and turn off flow control here */
status = qt2_conf_uart(serial, port->number, default_divisor,
default_LCR);
if (status < 0) {
dbg("qt2_conf_uart() failed on channel %d",
port->number);
return status;
}
dbg("qt2_conf_uart() completed on channel %d",
port->number);
/*
* At this point we will need some end points to make further progress.
* Handlily, the correct endpoint addresses have been filled out into
* the usb_serial_port structure for us by the driver core, so we
* already have access to them.
* As there is only one bulk in and one bulk out end-point, these are in
* port[0]'s structure, and the rest are uninitialised. Handily,
* when we do a write to a port, we will use the same endpoint
* regardless of the port, with a 5-byte header added on to
* tell the box which port it should eventually come out of, so we only
* need the one set of endpoints. We will have one URB per port for
* writing, so that multiple ports can be writing at once.
* Finally we need a bulk in URB to use for background reads from the
* device, which will deal with uplink data from the box to host.
*/
dbg("port0 bulk in endpoint is %#.2x", port0->bulk_in_endpointAddress);
dbg("port0 bulk out endpoint is %#.2x",
port0->bulk_out_endpointAddress);
/* set up write_urb for bulk out transfers on this port. The USB
* serial framework will have allocated a blank URB, buffer etc for
* port0 when it put the endpoints there, but not for any of the other
* ports on the device because there are no more endpoints. Thus we
* have to allocate our own URBs for ports 1-7
*/
if (port->write_urb == NULL) {
dbg("port->write_urb == NULL, allocating one");
port->write_urb = usb_alloc_urb(0, GFP_KERNEL);
if (!port->write_urb) {
err("Allocating write URB failed");
return -ENOMEM;
}
/* buffer same size as port0 */
port->bulk_out_size = dev_extra->buffer_size;
port->bulk_out_buffer = kmalloc(port->bulk_out_size,
GFP_KERNEL);
if (!port->bulk_out_buffer) {
err("Couldn't allocate bulk_out_buffer");
return -ENOMEM;
}
}
if (serial->dev == NULL)
dbg("serial->dev == NULL");
dbg("port->bulk_out_size is %d", port->bulk_out_size);
usb_fill_bulk_urb(port->write_urb, serial->dev,
usb_sndbulkpipe(serial->dev,
port0->bulk_out_endpointAddress),
port->bulk_out_buffer,
port->bulk_out_size,
qt2_write_bulk_callback,
port);
port_extra->tx_pending_bytes = 0;
if (dev_extra->open_ports == 0) {
/* this is first port to be opened, so need the read URB
* initialised for bulk in transfers (this is shared amongst
* all the ports on the device) */
usb_fill_bulk_urb(port0->read_urb, serial->dev,
usb_rcvbulkpipe(serial->dev,
port0->bulk_in_endpointAddress),
port0->bulk_in_buffer,
port0->bulk_in_size,
qt2_read_bulk_callback, serial);
dbg("port0 bulk in URB initialised");
/* submit URB, i.e. start reading from device (async) */
dev_extra->ReadBulkStopped = false;
port_extra->read_urb_busy = true;
result = usb_submit_urb(port->read_urb, GFP_KERNEL);
if (result) {
dev_err(&port->dev,
"%s(): Error %d submitting bulk in urb",
__func__, result);
port_extra->read_urb_busy = false;
dev_extra->ReadBulkStopped = true;
}
/* When the first port is opened, initialise the value of
* current_port in dev_extra to this port, so it is set
* to something. Once the box sends data it will send the
* relevant escape sequences to get it to the right port anyway
*/
dev_extra->current_port = port;
}
/* initialize our wait queues */
init_waitqueue_head(&port_extra->wait);
/* increment the count of openings of this port by one */
port_extra->open_count++;
/* remember to store dev_extra, port_extra and port0_extra back again at
* end !*/
qt2_set_port_private(port, port_extra);
qt2_set_port_private(serial->port[0], port0_extra);
qt2_set_dev_private(serial, dev_extra);
dev_extra->open_ports++; /* one more port opened */
return 0;
}
/* called when a port is closed by userspace. It won't be called, however,
* until calls to chars_in_buffer() reveal that the port has completed
* sending buffered data, and there is nothing else to do. Thus we don't have
* to rely on forcing data through in this function. */
/* Setting close_pending should keep new data from being written out,
* once all the data in the enpoint buffers is moved out we won't get
* any more. */
/* BoxStopReceive would keep any more data from coming from a given
* port, but isn't called by the vendor driver, although their comments
* mention it. Should it be used here to stop the inbound data
* flow?
*/
static void qt2_close(struct usb_serial_port *port)
{
/* time out value for flush loops */
unsigned long jift;
struct quatech2_port *port_extra; /* extra data for this port */
struct usb_serial *serial; /* device structure */
struct quatech2_dev *dev_extra; /* extra data for the device */
__u8 lsr_value = 0; /* value of Line Status Register */
int status; /* result of last USB comms function */
dbg("%s(): port %d", __func__, port->number);
serial = port->serial; /* get the parent device structure */
dev_extra = qt2_get_dev_private(serial);
/* get the device private data */
port_extra = qt2_get_port_private(port); /* port private data */
/* we can now (and only now) stop reading data */
port_extra->close_pending = true;
dbg("%s(): port_extra->close_pending = true", __func__);
/* although the USB side is now empty, the UART itself may
* still be pushing characters out over the line, so we have to
* wait testing the actual line status until the lines change
* indicating that the data is done transferring. */
/* FIXME: slow this polling down so it doesn't run the USB bus flat out
* if it actually has to spend any time in this loop (which it normally
* doesn't because the buffer is nearly empty) */
jift = jiffies + (10 * HZ); /* 10 sec timeout */
do {
status = qt2_box_get_register(serial, port->number,
QT2_LINE_STATUS_REGISTER, &lsr_value);
if (status < 0) {
dbg("%s(): qt2_box_get_register failed", __func__);
break;
}
if ((lsr_value & QT2_LSR_TEMT)) {
dbg("UART done sending");
break;
}
schedule();
} while (jiffies <= jift);
status = qt2_closeboxchannel(serial, port->number);
if (status < 0)
dbg("%s(): port %d qt2_box_open_close_channel failed",
__func__, port->number);
/* to avoid leaking URBs, we should now free the write_urb for this
* port and set the pointer to null so that next time the port is opened
* a new URB is allocated. This avoids leaking URBs when the device is
* removed */
usb_free_urb(port->write_urb);
kfree(port->bulk_out_buffer);
port->bulk_out_buffer = NULL;
port->bulk_out_size = 0;
/* decrement the count of openings of this port by one */
port_extra->open_count--;
/* one less overall open as well */
dev_extra->open_ports--;
dbg("%s(): Exit, dev_extra->open_ports = %d", __func__,
dev_extra->open_ports);
}
/**
* qt2_write - write bytes from the tty layer out to the USB device.
* @buf: The data to be written, size at least count.
* @count: The number of bytes requested for transmission.
* @return The number of bytes actually accepted for transmission to the device.
*/
static int qt2_write(struct tty_struct *tty, struct usb_serial_port *port,
const unsigned char *buf, int count)
{
struct usb_serial *serial; /* parent device struct */
__u8 header_array[5]; /* header used to direct writes to the correct
port on the device */
struct quatech2_port *port_extra; /* extra data for this port */
int result;
serial = port->serial; /* get the parent device of the port */
port_extra = qt2_get_port_private(port); /* port extra info */
if (serial == NULL)
return -ENODEV;
dbg("%s(): port %d, requested to write %d bytes, %d already pending",
__func__, port->number, count, port_extra->tx_pending_bytes);
if (count <= 0) {
dbg("%s(): write request of <= 0 bytes", __func__);
return 0; /* no bytes written */
}
/* check if the write urb is already in use, i.e. data already being
* sent to this port */
if ((port->write_urb->status == -EINPROGRESS)) {
/* Fifo hasn't been emptied since last write to this port */
dbg("%s(): already writing, port->write_urb->status == "
"-EINPROGRESS", __func__);
/* schedule_work(&port->work); commented in vendor driver */
return 0;
} else if (port_extra->tx_pending_bytes >= QT2_FIFO_DEPTH) {
/* buffer is full (==). > should not occur, but would indicate
* that an overflow had occurred */
dbg("%s(): port transmit buffer is full!", __func__);
/* schedule_work(&port->work); commented in vendor driver */
return 0;
}
/* We must fill the first 5 bytes of anything we sent with a transmit
* header which directes the data to the correct port. The maximum
* size we can send out in one URB is port->bulk_out_size, which caps
* the number of bytes of real data we can send in each write. As the
* semantics of write allow us to write less than we were give, we cap
* the maximum we will ever write to the device as 5 bytes less than
* one URB's worth, by reducing the value of the count argument
* appropriately*/
if (count > port->bulk_out_size - QT2_TX_HEADER_LENGTH) {
count = port->bulk_out_size - QT2_TX_HEADER_LENGTH;
dbg("%s(): write request bigger than urb, only accepting "
"%d bytes", __func__, count);
}
/* we must also ensure that the FIFO at the other end can cope with the
* URB we send it, otherwise it will have problems. As above, we can
* restrict the write size by just shrinking count.*/
if (count > (QT2_FIFO_DEPTH - port_extra->tx_pending_bytes)) {
count = QT2_FIFO_DEPTH - port_extra->tx_pending_bytes;
dbg("%s(): not enough room in buffer, only accepting %d bytes",
__func__, count);
}
/* now build the header for transmission */
header_array[0] = 0x1b;
header_array[1] = 0x1b;
header_array[2] = (__u8)port->number;
header_array[3] = (__u8)count;
header_array[4] = (__u8)count >> 8;
/* copy header into URB */
memcpy(port->write_urb->transfer_buffer, header_array,
QT2_TX_HEADER_LENGTH);
/* and actual data to write */
memcpy(port->write_urb->transfer_buffer + 5, buf, count);
dbg("%s(): first data byte to send = %#.2x", __func__, *buf);
/* set up our urb */
usb_fill_bulk_urb(port->write_urb, serial->dev,
usb_sndbulkpipe(serial->dev,
port->bulk_out_endpointAddress),
port->write_urb->transfer_buffer, count + 5,
(qt2_write_bulk_callback), port);
/* send the data out the bulk port */
result = usb_submit_urb(port->write_urb, GFP_ATOMIC);
if (result) {
/* error couldn't submit urb */
result = 0; /* return 0 as nothing got written */
dbg("%s(): failed submitting write urb, error %d",
__func__, result);
} else {
port_extra->tx_pending_bytes += count;
result = count; /* return number of bytes written, i.e. count */
dbg("%s(): submitted write urb, wrote %d bytes, "
"total pending bytes %d",
__func__, result, port_extra->tx_pending_bytes);
}
return result;
}
/* This is used by the next layer up to know how much space is available
* in the buffer on the device. It is used on a device closure to avoid
* calling close() until the buffer is reported to be empty.
* The returned value must never go down by more than the number of bytes
* written for correct behaviour further up the driver stack, i.e. if I call
* it, then write 6 bytes, then call again I should get 6 less, or possibly
* only 5 less if one was written in the meantime, etc. I should never get 7
* less (or any bigger number) because I only wrote 6 bytes.
*/
static int qt2_write_room(struct tty_struct *tty)
{
struct usb_serial_port *port = tty->driver_data;
/* parent usb_serial_port pointer */
struct quatech2_port *port_extra; /* extra data for this port */
int room = 0;
port_extra = qt2_get_port_private(port);
if (port_extra->close_pending == true) {
dbg("%s(): port_extra->close_pending == true", __func__);
return -ENODEV;
}
/* Q: how many bytes would a write() call actually succeed in writing
* if it happened now?
* A: one QT2_FIFO_DEPTH, less the number of bytes waiting to be sent
* out of the port, unless this is more than the size of the
* write_urb output buffer less the header, which is the maximum
* size write we can do.
* Most of the implementation of this is done when writes to the device
* are started or terminate. When we send a write to the device, we
* reduce the free space count by the size of the dispatched write.
* When a "transmit empty" message comes back up the USB read stream,
* we decrement the count by the number of bytes reported sent, thus
* keeping track of the difference between sent and received bytes.
*/
room = (QT2_FIFO_DEPTH - port_extra->tx_pending_bytes);
/* space in FIFO */
if (room > port->bulk_out_size - QT2_TX_HEADER_LENGTH)
room = port->bulk_out_size - QT2_TX_HEADER_LENGTH;
/* if more than the URB can hold, then cap to that limit */
dbg("%s(): port %d: write room is %d", __func__, port->number, room);
return room;
}
static int qt2_chars_in_buffer(struct tty_struct *tty)
{
struct usb_serial_port *port = tty->driver_data;
/* parent usb_serial_port pointer */
struct quatech2_port *port_extra; /* extra data for this port */
port_extra = qt2_get_port_private(port);
dbg("%s(): port %d: chars_in_buffer = %d", __func__,
port->number, port_extra->tx_pending_bytes);
return port_extra->tx_pending_bytes;
}
/* called when userspace does an ioctl() on the device. Note that
* TIOCMGET and TIOCMSET are filtered off to their own methods before they get
* here, so we don't have to handle them.
*/
static int qt2_ioctl(struct tty_struct *tty,
unsigned int cmd, unsigned long arg)
{
struct usb_serial_port *port = tty->driver_data;
struct usb_serial *serial = port->serial;
__u8 mcr_value; /* Modem Control Register value */
__u8 msr_value; /* Modem Status Register value */
unsigned short prev_msr_value; /* Previous value of Modem Status
* Register used to implement waiting for a line status change to
* occur */
struct quatech2_port *port_extra; /* extra data for this port */
DECLARE_WAITQUEUE(wait, current);
/* Declare a wait queue named "wait" */
unsigned int value;
unsigned int UartNumber;
if (serial == NULL)
return -ENODEV;
UartNumber = tty->index - serial->minor;
port_extra = qt2_get_port_private(port);
dbg("%s(): port %d, UartNumber %d, tty =0x%p", __func__,
port->number, UartNumber, tty);
if (cmd == TIOCMBIS || cmd == TIOCMBIC) {
if (qt2_box_get_register(port->serial, UartNumber,
QT2_MODEM_CONTROL_REGISTER, &mcr_value) < 0)
return -ESPIPE;
if (copy_from_user(&value, (unsigned int *)arg,
sizeof(value)))
return -EFAULT;
switch (cmd) {
case TIOCMBIS:
if (value & TIOCM_RTS)
mcr_value |= QT2_SERIAL_MCR_RTS;
if (value & TIOCM_DTR)
mcr_value |= QT2_SERIAL_MCR_DTR;
if (value & TIOCM_LOOP)
mcr_value |= QT2_SERIAL_MCR_LOOP;
break;
case TIOCMBIC:
if (value & TIOCM_RTS)
mcr_value &= ~QT2_SERIAL_MCR_RTS;
if (value & TIOCM_DTR)
mcr_value &= ~QT2_SERIAL_MCR_DTR;
if (value & TIOCM_LOOP)
mcr_value &= ~QT2_SERIAL_MCR_LOOP;
break;
default:
break;
} /* end of local switch on cmd */
if (qt2_box_set_register(port->serial, UartNumber,
QT2_MODEM_CONTROL_REGISTER, mcr_value) < 0) {
return -ESPIPE;
} else {
port_extra->shadowMCR = mcr_value;
return 0;
}
} else if (cmd == TIOCMIWAIT) {
dbg("%s() port %d, cmd == TIOCMIWAIT enter",
__func__, port->number);
prev_msr_value = port_extra->shadowMSR & QT2_SERIAL_MSR_MASK;
barrier();
__set_current_state(TASK_INTERRUPTIBLE);
while (1) {
add_wait_queue(&port_extra->wait, &wait);
schedule();
dbg("%s(): port %d, cmd == TIOCMIWAIT here\n",
__func__, port->number);
remove_wait_queue(&port_extra->wait, &wait);
/* see if a signal woke us up */
if (signal_pending(current))
return -ERESTARTSYS;
set_current_state(TASK_INTERRUPTIBLE);
msr_value = port_extra->shadowMSR & QT2_SERIAL_MSR_MASK;
if (msr_value == prev_msr_value) {
__set_current_state(TASK_RUNNING);
return -EIO; /* no change - error */
}
if ((arg & TIOCM_RNG &&
((prev_msr_value & QT2_SERIAL_MSR_RI) ==
(msr_value & QT2_SERIAL_MSR_RI))) ||
(arg & TIOCM_DSR &&
((prev_msr_value & QT2_SERIAL_MSR_DSR) ==
(msr_value & QT2_SERIAL_MSR_DSR))) ||
(arg & TIOCM_CD &&
((prev_msr_value & QT2_SERIAL_MSR_CD) ==
(msr_value & QT2_SERIAL_MSR_CD))) ||
(arg & TIOCM_CTS &&
((prev_msr_value & QT2_SERIAL_MSR_CTS) ==
(msr_value & QT2_SERIAL_MSR_CTS)))) {
__set_current_state(TASK_RUNNING);
return 0;
}
} /* end inifinite while */
/* FIXME: This while loop needs a way to break out if the device
* is disconnected while a process is waiting for the MSR to
* change, because once it's disconnected, it isn't going to
* change state ... */
} else {
/* any other ioctls we don't know about come here */
dbg("%s(): No ioctl for that one. port = %d", __func__,
port->number);
return -ENOIOCTLCMD;
}
}
/* Called when the user wishes to change the port settings using the termios
* userspace interface */
static void qt2_set_termios(struct tty_struct *tty,
struct usb_serial_port *port, struct ktermios *old_termios)
{
struct usb_serial *serial; /* parent serial device */
int baud, divisor, remainder;
unsigned char LCR_change_to = 0;
int status;
__u16 UartNumber;
dbg("%s(): port %d", __func__, port->number);
serial = port->serial;
UartNumber = port->number;
if (old_termios && !tty_termios_hw_change(old_termios, tty->termios))
return;
switch (tty->termios->c_cflag) {
case CS5:
LCR_change_to |= QT2_SERIAL_5_DATA;
break;
case CS6:
LCR_change_to |= QT2_SERIAL_6_DATA;
break;
case CS7:
LCR_change_to |= QT2_SERIAL_7_DATA;
break;
default:
case CS8:
LCR_change_to |= QT2_SERIAL_8_DATA;
break;
}
/* Parity stuff */
if (tty->termios->c_cflag & PARENB) {
if (tty->termios->c_cflag & PARODD)
LCR_change_to |= QT2_SERIAL_ODD_PARITY;
else
LCR_change_to |= QT2_SERIAL_EVEN_PARITY;
}
/* Because LCR_change_to is initialised to zero, we don't have to worry
* about the case where PARENB is not set or clearing bits, because by
* default all of them are cleared, turning parity off.
* as we don't support mark/space parity, we should clear the
* mark/space parity bit in c_cflag, so the caller can tell we have
* ignored the request */
tty->termios->c_cflag &= ~CMSPAR;
if (tty->termios->c_cflag & CSTOPB)
LCR_change_to |= QT2_SERIAL_TWO_STOPB;
else
LCR_change_to |= QT2_SERIAL_ONE_STOPB;
/* Thats the LCR stuff, next we need to work out the divisor as the
* LCR and the divisor are set together */
baud = tty_get_baud_rate(tty);
if (!baud) {
/* pick a default, any default... */
baud = 9600;
}
dbg("%s(): got baud = %d", __func__, baud);
divisor = QT2_MAX_BAUD_RATE / baud;
remainder = QT2_MAX_BAUD_RATE % baud;
/* Round to nearest divisor */
if (((remainder * 2) >= baud) && (baud != 110))
divisor++;
dbg("%s(): setting divisor = %d, QT2_MAX_BAUD_RATE = %d , LCR = %#.2x",
__func__, divisor, QT2_MAX_BAUD_RATE, LCR_change_to);
status = qt2_boxsetuart(serial, UartNumber, (unsigned short) divisor,
LCR_change_to);
if (status < 0) {
dbg("qt2_boxsetuart() failed");
return;
} else {
/* now encode the baud rate we actually set, which may be
* different to the request */
baud = QT2_MAX_BAUD_RATE / divisor;
tty_encode_baud_rate(tty, baud, baud);
}
/* Now determine flow control */
if (tty->termios->c_cflag & CRTSCTS) {
dbg("%s(): Enabling HW flow control port %d", __func__,
port->number);
/* Enable RTS/CTS flow control */
status = qt2_boxsethw_flowctl(serial, UartNumber, true);
if (status < 0) {
dbg("qt2_boxsethw_flowctl() failed");
return;
}
} else {
/* Disable RTS/CTS flow control */
dbg("%s(): disabling HW flow control port %d", __func__,
port->number);
status = qt2_boxsethw_flowctl(serial, UartNumber, false);
if (status < 0) {
dbg("qt2_boxsethw_flowctl failed");
return;
}
}
/* if we are implementing XON/XOFF, set the start and stop character
* in the device */
if (I_IXOFF(tty) || I_IXON(tty)) {
unsigned char stop_char = STOP_CHAR(tty);
unsigned char start_char = START_CHAR(tty);
status = qt2_boxsetsw_flowctl(serial, UartNumber, stop_char,
start_char);
if (status < 0)
dbg("qt2_boxsetsw_flowctl (enabled) failed");
} else {
/* disable SW flow control */
status = qt2_boxunsetsw_flowctl(serial, UartNumber);
if (status < 0)
dbg("qt2_boxunsetsw_flowctl (disabling) failed");
}
}
static int qt2_tiocmget(struct tty_struct *tty)
{
struct usb_serial_port *port = tty->driver_data;
struct usb_serial *serial = port->serial;
__u8 mcr_value; /* Modem Control Register value */
__u8 msr_value; /* Modem Status Register value */
unsigned int result = 0;
int status;
unsigned int UartNumber;
if (serial == NULL)
return -ENODEV;
dbg("%s(): port %d, tty =0x%p", __func__, port->number, tty);
UartNumber = tty->index - serial->minor;
dbg("UartNumber is %d", UartNumber);
status = qt2_box_get_register(port->serial, UartNumber,
QT2_MODEM_CONTROL_REGISTER, &mcr_value);
if (status >= 0) {
status = qt2_box_get_register(port->serial, UartNumber,
QT2_MODEM_STATUS_REGISTER, &msr_value);
}
if (status >= 0) {
result = ((mcr_value & QT2_SERIAL_MCR_DTR) ? TIOCM_DTR : 0)
/*DTR set */
| ((mcr_value & QT2_SERIAL_MCR_RTS) ? TIOCM_RTS : 0)
/*RTS set */
| ((msr_value & QT2_SERIAL_MSR_CTS) ? TIOCM_CTS : 0)
/* CTS set */
| ((msr_value & QT2_SERIAL_MSR_CD) ? TIOCM_CAR : 0)
/*Carrier detect set */
| ((msr_value & QT2_SERIAL_MSR_RI) ? TIOCM_RI : 0)
/* Ring indicator set */
| ((msr_value & QT2_SERIAL_MSR_DSR) ? TIOCM_DSR : 0);
/* DSR set */
return result;
} else {
return -ESPIPE;
}
}
static int qt2_tiocmset(struct tty_struct *tty,
unsigned int set, unsigned int clear)
{
struct usb_serial_port *port = tty->driver_data;
struct usb_serial *serial = port->serial;
__u8 mcr_value; /* Modem Control Register value */
int status;
unsigned int UartNumber;
if (serial == NULL)
return -ENODEV;
UartNumber = tty->index - serial->minor;
dbg("%s(): port %d, UartNumber %d", __func__, port->number, UartNumber);
status = qt2_box_get_register(port->serial, UartNumber,
QT2_MODEM_CONTROL_REGISTER, &mcr_value);
if (status < 0)
return -ESPIPE;
/* Turn off RTS, DTR and loopback, then only turn on what was asked
* for */
mcr_value &= ~(QT2_SERIAL_MCR_RTS | QT2_SERIAL_MCR_DTR |
QT2_SERIAL_MCR_LOOP);
if (set & TIOCM_RTS)
mcr_value |= QT2_SERIAL_MCR_RTS;
if (set & TIOCM_DTR)
mcr_value |= QT2_SERIAL_MCR_DTR;
if (set & TIOCM_LOOP)
mcr_value |= QT2_SERIAL_MCR_LOOP;
status = qt2_box_set_register(port->serial, UartNumber,
QT2_MODEM_CONTROL_REGISTER, mcr_value);
if (status < 0)
return -ESPIPE;
else
return 0;
}
/** qt2_break - Turn BREAK on and off on the UARTs
*/
static void qt2_break(struct tty_struct *tty, int break_state)
{
struct usb_serial_port *port = tty->driver_data; /* parent port */
struct usb_serial *serial = port->serial; /* parent device */
struct quatech2_port *port_extra; /* extra data for this port */
__u16 break_value;
unsigned int result;
port_extra = qt2_get_port_private(port);
if (!serial) {
dbg("%s(): port %d: no serial object", __func__, port->number);
return;
}
if (break_state == -1)
break_value = 1;
else
break_value = 0;
dbg("%s(): port %d, break_value %d", __func__, port->number,
break_value);
mutex_lock(&port_extra->modelock);
if (!port_extra->open_count) {
dbg("%s(): port not open", __func__);
goto exit;
}
result = usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_BREAK_CONTROL, 0x40, break_value,
port->number, NULL, 0, 300);
exit:
mutex_unlock(&port_extra->modelock);
dbg("%s(): exit port %d", __func__, port->number);
}
/**
* qt2_throttle: - stop reading new data from the port
*/
static void qt2_throttle(struct tty_struct *tty)
{
struct usb_serial_port *port = tty->driver_data;
struct usb_serial *serial = port->serial;
struct quatech2_port *port_extra; /* extra data for this port */
dbg("%s(): port %d", __func__, port->number);
port_extra = qt2_get_port_private(port);
if (!serial) {
dbg("%s(): enter port %d no serial object", __func__,
port->number);
return;
}
mutex_lock(&port_extra->modelock); /* lock structure */
if (!port_extra->open_count) {
dbg("%s(): port not open", __func__);
goto exit;
}
/* Send command to box to stop receiving stuff. This will stop this
* particular UART from filling the endpoint - in the multiport case the
* FPGA UART will handle any flow control implemented, but for the single
* port it's handed differently and we just quit submitting urbs
*/
if (serial->dev->descriptor.idProduct != QUATECH_SSU2_100)
qt2_boxstoprx(serial, port->number, 1);
port->throttled = 1;
exit:
mutex_unlock(&port_extra->modelock);
dbg("%s(): port %d: setting port->throttled", __func__, port->number);
return;
}
/**
* qt2_unthrottle: - start receiving data through the port again after being
* throttled
*/
static void qt2_unthrottle(struct tty_struct *tty)
{
struct usb_serial_port *port = tty->driver_data;
struct usb_serial *serial = port->serial;
struct quatech2_port *port_extra; /* extra data for this port */
struct usb_serial_port *port0; /* first port structure on device */
struct quatech2_dev *dev_extra; /* extra data for the device */
if (!serial) {
dbg("%s() enter port %d no serial object!", __func__,
port->number);
return;
}
dbg("%s(): enter port %d", __func__, port->number);
dev_extra = qt2_get_dev_private(serial);
port_extra = qt2_get_port_private(port);
port0 = serial->port[0]; /* get the first port's device structure */
mutex_lock(&port_extra->modelock);
if (!port_extra->open_count) {
dbg("%s(): port %d not open", __func__, port->number);
goto exit;
}
if (port->throttled != 0) {
dbg("%s(): port %d: unsetting port->throttled", __func__,
port->number);
port->throttled = 0;
/* Send command to box to start receiving stuff */
if (serial->dev->descriptor.idProduct != QUATECH_SSU2_100) {
qt2_boxstoprx(serial, port->number, 0);
} else if (dev_extra->ReadBulkStopped == true) {
usb_fill_bulk_urb(port0->read_urb, serial->dev,
usb_rcvbulkpipe(serial->dev,
port0->bulk_in_endpointAddress),
port0->bulk_in_buffer,
port0->bulk_in_size,
qt2_read_bulk_callback,
serial);
}
}
exit:
mutex_unlock(&port_extra->modelock);
dbg("%s(): exit port %d", __func__, port->number);
return;
}
/* internal, private helper functions for the driver */
/* Power up the FPGA in the box to get it working */
static int qt2_boxpoweron(struct usb_serial *serial)
{
int result;
__u8 Direcion;
unsigned int pipe;
Direcion = USBD_TRANSFER_DIRECTION_OUT;
pipe = usb_rcvctrlpipe(serial->dev, 0);
result = usb_control_msg(serial->dev, pipe, QT_SET_GET_DEVICE,
Direcion, QU2BOXPWRON, 0x00, NULL, 0x00,
5000);
return result;
}
/*
* qt2_boxsetQMCR Issue a QT2_GET_SET_QMCR vendor-spcific request on the
* default control pipe. If successful return the number of bytes written,
* otherwise return a negative error number of the problem.
*/
static int qt2_boxsetQMCR(struct usb_serial *serial, __u16 Uart_Number,
__u8 QMCR_Value)
{
int result;
__u16 PortSettings;
PortSettings = (__u16)(QMCR_Value);
dbg("%s(): Port = %d, PortSettings = 0x%x", __func__,
Uart_Number, PortSettings);
result = usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_GET_SET_QMCR, 0x40, PortSettings,
(__u16)Uart_Number, NULL, 0, 5000);
return result;
}
static int port_paranoia_check(struct usb_serial_port *port,
const char *function)
{
if (!port) {
dbg("%s - port == NULL", function);
return -1;
}
if (!port->serial) {
dbg("%s - port->serial == NULL\n", function);
return -1;
}
return 0;
}
static int serial_paranoia_check(struct usb_serial *serial,
const char *function)
{
if (!serial) {
dbg("%s - serial == NULL\n", function);
return -1;
}
if (!serial->type) {
dbg("%s - serial->type == NULL!", function);
return -1;
}
return 0;
}
static inline struct quatech2_port *qt2_get_port_private(struct usb_serial_port
*port)
{
return (struct quatech2_port *)usb_get_serial_port_data(port);
}
static inline void qt2_set_port_private(struct usb_serial_port *port,
struct quatech2_port *data)
{
usb_set_serial_port_data(port, (void *)data);
}
static inline struct quatech2_dev *qt2_get_dev_private(struct usb_serial
*serial)
{
return (struct quatech2_dev *)usb_get_serial_data(serial);
}
static inline void qt2_set_dev_private(struct usb_serial *serial,
struct quatech2_dev *data)
{
usb_set_serial_data(serial, (void *)data);
}
static int qt2_openboxchannel(struct usb_serial *serial, __u16
Uart_Number, struct qt2_status_data *status)
{
int result;
__u16 length;
__u8 Direcion;
unsigned int pipe;
length = sizeof(struct qt2_status_data);
Direcion = USBD_TRANSFER_DIRECTION_IN;
pipe = usb_rcvctrlpipe(serial->dev, 0);
result = usb_control_msg(serial->dev, pipe, QT_OPEN_CLOSE_CHANNEL,
Direcion, 0x00, Uart_Number, status, length, 5000);
return result;
}
static int qt2_closeboxchannel(struct usb_serial *serial, __u16 Uart_Number)
{
int result;
__u8 direcion;
unsigned int pipe;
direcion = USBD_TRANSFER_DIRECTION_OUT;
pipe = usb_sndctrlpipe(serial->dev, 0);
result = usb_control_msg(serial->dev, pipe, QT_OPEN_CLOSE_CHANNEL,
direcion, 0, Uart_Number, NULL, 0, 5000);
return result;
}
/* qt2_conf_uart Issue a SET_UART vendor-spcific request on the default
* control pipe. If successful sets baud rate divisor and LCR value
*/
static int qt2_conf_uart(struct usb_serial *serial, unsigned short Uart_Number,
unsigned short divisor, unsigned char LCR)
{
int result;
unsigned short UartNumandLCR;
UartNumandLCR = (LCR << 8) + Uart_Number;
result = usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_GET_SET_UART, 0x40, divisor, UartNumandLCR,
NULL, 0, 300);
return result;
}
/** @brief Callback for asynchronous submission of read URBs on bulk in
* endpoints
*
* Registered in qt2_open_port(), used to deal with incomming data
* from the box.
*/
static void qt2_read_bulk_callback(struct urb *urb)
{
/* Get the device pointer (struct usb_serial) back out of the URB */
struct usb_serial *serial = urb->context;
/* get the extra struct for the device */
struct quatech2_dev *dev_extra = qt2_get_dev_private(serial);
/* Get first port structure from the device */
struct usb_serial_port *port0 = serial->port[0];
/* Get the currently active port structure from serial struct */
struct usb_serial_port *active = dev_extra->current_port;
/* get the extra struct for port 0 */
struct quatech2_port *port0_extra = qt2_get_port_private(port0);
/* and for the currently active port */
struct quatech2_port *active_extra = qt2_get_port_private(active);
/* When we finally get to doing some tty stuff, we will need this */
struct tty_struct *tty_st;
unsigned int RxCount; /* the length of the data to process */
unsigned int i; /* loop counter over the data to process */
int result; /* return value cache variable */
bool escapeflag; /* flag set to true if this loop iteration is
* parsing an escape sequence, rather than
* ordinary data */
dbg("%s(): callback running, active port is %d", __func__,
active->number);
if (urb->status) {
/* read didn't go well */
dev_extra->ReadBulkStopped = true;
dbg("%s(): nonzero bulk read status received: %d",
__func__, urb->status);
return;
}
/* inline port_sofrint() here */
if (port_paranoia_check(port0, __func__) != 0) {
dbg("%s - port_paranoia_check on port0 failed, exiting\n",
__func__);
return;
}
if (port_paranoia_check(active, __func__) != 0) {
dbg("%s - port_paranoia_check on current_port "
"failed, exiting", __func__);
return;
}
/* This single callback function has to do for all the ports on
* the device. Data being read up the USB can contain certain
* escape sequences which are used to communicate out-of-band
* information from the serial port in-band over the USB.
* These escapes include sending modem and flow control line
* status, and switching the port. The concept of a "Current Port"
* is used, which is where data is going until a port change
* escape seqence is received. This Current Port is kept between
* callbacks so that when this function enters we know which the
* currently active port is and can get to work right away without
* the box having to send repeat escape sequences (anyway, how
* would it know to do so?).
*/
if (active_extra->close_pending == true) {
/* We are closing , stop reading */
dbg("%s - (active->close_pending == true", __func__);
if (dev_extra->open_ports <= 0) {
/* If this is the only port left open - stop the
* bulk read */
dev_extra->ReadBulkStopped = true;
dbg("%s - (ReadBulkStopped == true;", __func__);
return;
}
}
/*
* RxHolding is asserted by throttle, if we assert it, we're not
* receiving any more characters and let the box handle the flow
* control
*/
if ((port0_extra->RxHolding == true) &&
(serial->dev->descriptor.idProduct == QUATECH_SSU2_100)) {
/* single port device, input is already stopped, so we don't
* need any more input data */
dev_extra->ReadBulkStopped = true;
return;
}
/* finally, we are in a situation where we might consider the data
* that is contained within the URB, and what to do about it.
* This is likely to involved communicating up to the TTY layer, so
* we will need to get hold of the tty for the port we are currently
* dealing with */
/* active is a usb_serial_port. It has a member port which is a
* tty_port. From this we get a tty_struct pointer which is what we
* actually wanted, and keep it on tty_st */
tty_st = tty_port_tty_get(&active->port);
if (!tty_st) {
dbg("%s - bad tty pointer - exiting", __func__);
return;
}
RxCount = urb->actual_length; /* grab length of data handy */
if (RxCount) {
/* skip all this if no data to process */
for (i = 0; i < RxCount ; ++i) {
/* Look ahead code here -works on several bytes at onc*/
if ((i <= (RxCount - 3)) && (THISCHAR == 0x1b)
&& (NEXTCHAR == 0x1b)) {
/* we are in an escape sequence, type
* determined by the 3rd char */
escapeflag = false;
switch (THIRDCHAR) {
case 0x00:
/* Line status change 4th byte must
* follow */
if (i > (RxCount - 4)) {
dbg("Illegal escape sequences "
"in received data");
break;
}
qt2_process_line_status(active,
FOURTHCHAR);
i += 3;
escapeflag = true;
break;
case 0x01:
/* Modem status status change 4th byte
* must follow */
if (i > (RxCount - 4)) {
dbg("Illegal escape sequences "
"in received data");
break;
}
qt2_process_modem_status(active,
FOURTHCHAR);
i += 3;
escapeflag = true;
break;
case 0x02:
/* xmit hold empty 4th byte
* must follow */
if (i > (RxCount - 4)) {
dbg("Illegal escape sequences "
"in received data");
break;
}
qt2_process_xmit_empty(active,
FOURTHCHAR, FIFTHCHAR);
i += 4;
escapeflag = true;
break;
case 0x03:
/* Port number change 4th byte
* must follow */
if (i > (RxCount - 4)) {
dbg("Illegal escape sequences "
"in received data");
break;
}
/* Port change. If port open push
* current data up to tty layer */
if (active_extra->open_count > 0)
tty_flip_buffer_push(tty_st);
dbg("Port Change: new port = %d",
FOURTHCHAR);
qt2_process_port_change(active,
FOURTHCHAR);
i += 3;
escapeflag = true;
/* having changed port, the pointers for
* the currently active port are all out
* of date and need updating */
active = dev_extra->current_port;
active_extra =
qt2_get_port_private(active);
tty_st = tty_port_tty_get(
&active->port);
break;
case 0x04:
/* Recv flush 3rd byte must
* follow */
if (i > (RxCount - 3)) {
dbg("Illegal escape sequences "
"in received data");
break;
}
qt2_process_rcv_flush(active);
i += 2;
escapeflag = true;
break;
case 0x05:
/* xmit flush 3rd byte must follow */
if (i > (RxCount - 3)) {
dbg("Illegal escape sequences "
"in received data");
break;
}
qt2_process_xmit_flush(active);
i += 2;
escapeflag = true;
break;
case 0xff:
dbg("No status sequence");
qt2_process_rx_char(active, THISCHAR);
qt2_process_rx_char(active, NEXTCHAR);
i += 2;
break;
default:
qt2_process_rx_char(active, THISCHAR);
i += 1;
break;
} /*end switch*/
if (escapeflag == true)
continue;
/* if we did an escape char, we don't need
* to mess around pushing data through the
* tty layer, and can go round again */
} /*endif*/
if (tty_st && urb->actual_length) {
tty_buffer_request_room(tty_st, 1);
tty_insert_flip_string(tty_st, &(
(unsigned char *)
(urb->transfer_buffer)
)[i], 1);
}
} /*endfor*/
tty_flip_buffer_push(tty_st);
} /*endif*/
/* at this point we have complete dealing with the data for this
* callback. All we have to do now is to start the async read process
* back off again. */
usb_fill_bulk_urb(port0->read_urb, serial->dev,
usb_rcvbulkpipe(serial->dev, port0->bulk_in_endpointAddress),
port0->bulk_in_buffer, port0->bulk_in_size,
qt2_read_bulk_callback, serial);
result = usb_submit_urb(port0->read_urb, GFP_ATOMIC);
if (result) {
dbg("%s(): failed resubmitting read urb, error %d",
__func__, result);
} else {
dbg("%s() successfully resubmitted read urb", __func__);
if (tty_st && RxCount) {
/* if some inbound data was processed, then
* we need to push that through the tty layer
*/
tty_flip_buffer_push(tty_st);
tty_schedule_flip(tty_st);
}
}
/* cribbed from serqt_usb2 driver, but not sure which work needs
* scheduling - port0 or currently active port? */
/* schedule_work(&port->work); */
dbg("%s() completed", __func__);
return;
}
/** @brief Callback for asynchronous submission of write URBs on bulk in
* endpoints
*
* Registered in qt2_write(), used to deal with outgoing data
* to the box.
*/
static void qt2_write_bulk_callback(struct urb *urb)
{
struct usb_serial_port *port = (struct usb_serial_port *)urb->context;
struct usb_serial *serial = port->serial;
dbg("%s(): port %d", __func__, port->number);
if (!serial) {
dbg("%s(): bad serial pointer, exiting", __func__);
return;
}
if (urb->status) {
dbg("%s(): nonzero write bulk status received: %d",
__func__, urb->status);
return;
}
/* FIXME What is supposed to be going on here?
* does this actually do anything useful, and should it?
*/
/*port_softint((void *) serial); commented in vendor driver */
schedule_work(&port->work);
dbg("%s(): port %d exit", __func__, port->number);
return;
}
static void qt2_process_line_status(struct usb_serial_port *port,
unsigned char LineStatus)
{
/* obtain the private structure for the port */
struct quatech2_port *port_extra = qt2_get_port_private(port);
port_extra->shadowLSR = LineStatus & (QT2_SERIAL_LSR_OE |
QT2_SERIAL_LSR_PE | QT2_SERIAL_LSR_FE | QT2_SERIAL_LSR_BI);
}
static void qt2_process_modem_status(struct usb_serial_port *port,
unsigned char ModemStatus)
{
/* obtain the private structure for the port */
struct quatech2_port *port_extra = qt2_get_port_private(port);
port_extra->shadowMSR = ModemStatus;
wake_up_interruptible(&port_extra->wait);
/* this wakes up the otherwise indefinitely waiting code for
* the TIOCMIWAIT ioctl, so that it can notice that
* port_extra->shadowMSR has changed and the ioctl needs to return.
*/
}
static void qt2_process_xmit_empty(struct usb_serial_port *port,
unsigned char fourth_char, unsigned char fifth_char)
{
int byte_count;
/* obtain the private structure for the port */
struct quatech2_port *port_extra = qt2_get_port_private(port);
byte_count = (int)(fifth_char * 16);
byte_count += (int)fourth_char;
/* byte_count indicates how many bytes the device has written out. This
* message appears to occur regularly, and is used in the vendor driver
* to keep track of the fill state of the port transmit buffer */
port_extra->tx_pending_bytes -= byte_count;
/* reduce the stored data queue length by the known number of bytes
* sent */
dbg("port %d: %d bytes reported sent, %d still pending", port->number,
byte_count, port_extra->tx_pending_bytes);
/*port_extra->xmit_fifo_room_bytes = FIFO_DEPTH; ???*/
}
static void qt2_process_port_change(struct usb_serial_port *port,
unsigned char New_Current_Port)
{
/* obtain the parent usb serial device structure */
struct usb_serial *serial = port->serial;
/* obtain the private structure for the device */
struct quatech2_dev *dev_extra = qt2_get_dev_private(serial);
dev_extra->current_port = serial->port[New_Current_Port];
/* what should I do with this? commented out in upstream
* driver */
/*schedule_work(&port->work);*/
}
static void qt2_process_rcv_flush(struct usb_serial_port *port)
{
/* obtain the private structure for the port */
struct quatech2_port *port_extra = qt2_get_port_private(port);
port_extra->rcv_flush = true;
}
static void qt2_process_xmit_flush(struct usb_serial_port *port)
{
/* obtain the private structure for the port */
struct quatech2_port *port_extra = qt2_get_port_private(port);
port_extra->xmit_flush = true;
}
static void qt2_process_rx_char(struct usb_serial_port *port,
unsigned char data)
{
/* get the tty_struct for this port */
struct tty_struct *tty = tty_port_tty_get(&(port->port));
/* get the URB with the data in to push */
struct urb *urb = port->serial->port[0]->read_urb;
if (tty && urb->actual_length) {
tty_buffer_request_room(tty, 1);
tty_insert_flip_string(tty, &data, 1);
/* should this be commented out here? */
/*tty_flip_buffer_push(tty);*/
}
}
/** @brief Retrieve the value of a register from the device
*
* Issues a GET_REGISTER vendor-spcific request over the USB control
* pipe to obtain a value back from a specific register on a specific
* UART
* @param serial Serial device handle to access the device through
* @param uart_number Which UART the value is wanted from
* @param register_num Which register to read the value from
* @param pValue Pointer to somewhere to put the retrieved value
*/
static int qt2_box_get_register(struct usb_serial *serial,
unsigned char uart_number, unsigned short register_num,
__u8 *pValue)
{
int result;
result = usb_control_msg(serial->dev, usb_rcvctrlpipe(serial->dev, 0),
QT2_GET_SET_REGISTER, 0xC0, register_num,
uart_number, (void *)pValue, sizeof(*pValue), 300);
return result;
}
/** qt2_box_set_register
* Issue a SET_REGISTER vendor-specific request on the default control pipe
*/
static int qt2_box_set_register(struct usb_serial *serial,
unsigned short Uart_Number, unsigned short Register_Num,
unsigned short Value)
{
int result;
unsigned short reg_and_byte;
reg_and_byte = Value;
reg_and_byte = reg_and_byte << 8;
reg_and_byte = reg_and_byte + Register_Num;
result = usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_GET_SET_REGISTER, 0x40, reg_and_byte,
Uart_Number, NULL, 0, 300);
return result;
}
/** qt2_boxsetuart - Issue a SET_UART vendor-spcific request on the default
* control pipe. If successful sets baud rate divisor and LCR value.
*/
static int qt2_boxsetuart(struct usb_serial *serial, unsigned short Uart_Number,
unsigned short default_divisor, unsigned char default_LCR)
{
unsigned short UartNumandLCR;
UartNumandLCR = (default_LCR << 8) + Uart_Number;
return usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_GET_SET_UART, 0x40, default_divisor, UartNumandLCR,
NULL, 0, 300);
}
/** qt2_boxsethw_flowctl - Turn hardware (RTS/CTS) flow control on and off for
* a hardware UART.
*/
static int qt2_boxsethw_flowctl(struct usb_serial *serial,
unsigned int UartNumber, bool bSet)
{
__u8 MCR_Value = 0;
__u8 MSR_Value = 0;
__u16 MOUT_Value = 0;
if (bSet == true) {
MCR_Value = QT2_SERIAL_MCR_RTS;
/* flow control, box will clear RTS line to prevent remote
* device from transmitting more chars */
} else {
/* no flow control to remote device */
MCR_Value = 0;
}
MOUT_Value = MCR_Value << 8;
if (bSet == true) {
MSR_Value = QT2_SERIAL_MSR_CTS;
/* flow control on, box will inhibit tx data if CTS line is
* asserted */
} else {
/* Box will not inhibit tx data due to CTS line */
MSR_Value = 0;
}
MOUT_Value |= MSR_Value;
return usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_HW_FLOW_CONTROL_MASK, 0x40, MOUT_Value, UartNumber,
NULL, 0, 300);
}
/** qt2_boxsetsw_flowctl - Turn software (XON/XOFF) flow control on for
* a hardware UART, and set the XON and XOFF characters.
*/
static int qt2_boxsetsw_flowctl(struct usb_serial *serial, __u16 UartNumber,
unsigned char stop_char, unsigned char start_char)
{
__u16 nSWflowout;
nSWflowout = start_char << 8;
nSWflowout = (unsigned short)stop_char;
return usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_SW_FLOW_CONTROL_MASK, 0x40, nSWflowout, UartNumber,
NULL, 0, 300);
}
/** qt2_boxunsetsw_flowctl - Turn software (XON/XOFF) flow control off for
* a hardware UART.
*/
static int qt2_boxunsetsw_flowctl(struct usb_serial *serial, __u16 UartNumber)
{
return usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_SW_FLOW_CONTROL_DISABLE, 0x40, 0, UartNumber, NULL,
0, 300);
}
/**
* qt2_boxstoprx - Start and stop reception of data by the FPGA UART in
* response to requests from the tty layer
* @serial: pointer to the usb_serial structure for the parent device
* @uart_number: which UART on the device we are addressing
* @stop: Whether to start or stop data reception. Set to 1 to stop data being
* received, and to 0 to start it being received.
*/
static int qt2_boxstoprx(struct usb_serial *serial, unsigned short uart_number,
unsigned short stop)
{
return usb_control_msg(serial->dev, usb_sndctrlpipe(serial->dev, 0),
QT2_STOP_RECEIVE, 0x40, stop, uart_number, NULL, 0, 300);
}
/*
* last things in file: stuff to register this driver into the generic
* USB serial framework.
*/
static struct usb_serial_driver quatech2_device = {
.driver = {
.owner = THIS_MODULE,
.name = "quatech_usb2",
},
.description = DRIVER_DESC,
.usb_driver = &quausb2_usb_driver,
.id_table = quausb2_id_table,
.num_ports = 8,
.open = qt2_open,
.close = qt2_close,
.write = qt2_write,
.write_room = qt2_write_room,
.chars_in_buffer = qt2_chars_in_buffer,
.throttle = qt2_throttle,
.unthrottle = qt2_unthrottle,
.calc_num_ports = qt2_calc_num_ports,
.ioctl = qt2_ioctl,
.set_termios = qt2_set_termios,
.break_ctl = qt2_break,
.tiocmget = qt2_tiocmget,
.tiocmset = qt2_tiocmset,
.attach = qt2_attach,
.release = qt2_release,
.read_bulk_callback = qt2_read_bulk_callback,
.write_bulk_callback = qt2_write_bulk_callback,
};
static int __init quausb2_usb_init(void)
{
int retval;
dbg("%s\n", __func__);
/* register with usb-serial */
retval = usb_serial_register(&quatech2_device);
if (retval)
goto failed_usb_serial_register;
printk(KERN_INFO KBUILD_MODNAME ": " DRIVER_VERSION ":"
DRIVER_DESC "\n");
/* register with usb */
retval = usb_register(&quausb2_usb_driver);
if (retval == 0)
return 0;
/* if we're here, usb_register() failed */
usb_serial_deregister(&quatech2_device);
failed_usb_serial_register:
return retval;
}
static void __exit quausb2_usb_exit(void)
{
usb_deregister(&quausb2_usb_driver);
usb_serial_deregister(&quatech2_device);
}
module_init(quausb2_usb_init);
module_exit(quausb2_usb_exit);
MODULE_AUTHOR(DRIVER_AUTHOR);
MODULE_DESCRIPTION(DRIVER_DESC);
MODULE_LICENSE("GPL");
module_param(debug, bool, S_IRUGO | S_IWUSR);
MODULE_PARM_DESC(debug, "Debug enabled or not");
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