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qemu-patch-raspberry4/hw/bt-hid.c
Gerd Hoffmann a5d2f7273c qdev/usb: make qemu aware of usb busses. 
Move usb code from vl.c to usb-bus.c and make it use the new data
structures added by qdev conversion.  qemu usb core should be able
to handle multiple USB busses just fine now (untested though).

Kill some usb_*_init() legacy functions, use usb_create_simple()
instead.

Kill some FIXMEs added by the first qdev/usb patch.

Signed-off-by: Gerd Hoffmann <kraxel@redhat.com>
Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
2009-09-09 14:55:17 -05:00

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/*
* QEMU Bluetooth HID Profile wrapper for USB HID.
*
* Copyright (C) 2007-2008 OpenMoko, Inc.
* Written by Andrzej Zaborowski <andrew@openedhand.com>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 or
* (at your option) version 3 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, if not, see <http://www.gnu.org/licenses/>.
*/
#include "qemu-common.h"
#include "usb.h"
#include "bt.h"
enum hid_transaction_req {
BT_HANDSHAKE = 0x0,
BT_HID_CONTROL = 0x1,
BT_GET_REPORT = 0x4,
BT_SET_REPORT = 0x5,
BT_GET_PROTOCOL = 0x6,
BT_SET_PROTOCOL = 0x7,
BT_GET_IDLE = 0x8,
BT_SET_IDLE = 0x9,
BT_DATA = 0xa,
BT_DATC = 0xb,
};
enum hid_transaction_handshake {
BT_HS_SUCCESSFUL = 0x0,
BT_HS_NOT_READY = 0x1,
BT_HS_ERR_INVALID_REPORT_ID = 0x2,
BT_HS_ERR_UNSUPPORTED_REQUEST = 0x3,
BT_HS_ERR_INVALID_PARAMETER = 0x4,
BT_HS_ERR_UNKNOWN = 0xe,
BT_HS_ERR_FATAL = 0xf,
};
enum hid_transaction_control {
BT_HC_NOP = 0x0,
BT_HC_HARD_RESET = 0x1,
BT_HC_SOFT_RESET = 0x2,
BT_HC_SUSPEND = 0x3,
BT_HC_EXIT_SUSPEND = 0x4,
BT_HC_VIRTUAL_CABLE_UNPLUG = 0x5,
};
enum hid_protocol {
BT_HID_PROTO_BOOT = 0,
BT_HID_PROTO_REPORT = 1,
};
enum hid_boot_reportid {
BT_HID_BOOT_INVALID = 0,
BT_HID_BOOT_KEYBOARD,
BT_HID_BOOT_MOUSE,
};
enum hid_data_pkt {
BT_DATA_OTHER = 0,
BT_DATA_INPUT,
BT_DATA_OUTPUT,
BT_DATA_FEATURE,
};
#define BT_HID_MTU 48
/* HID interface requests */
#define GET_REPORT 0xa101
#define GET_IDLE 0xa102
#define GET_PROTOCOL 0xa103
#define SET_REPORT 0x2109
#define SET_IDLE 0x210a
#define SET_PROTOCOL 0x210b
struct bt_hid_device_s {
struct bt_l2cap_device_s btdev;
struct bt_l2cap_conn_params_s *control;
struct bt_l2cap_conn_params_s *interrupt;
USBDevice *usbdev;
int proto;
int connected;
int data_type;
int intr_state;
struct {
int len;
uint8_t buffer[1024];
} dataother, datain, dataout, feature, intrdataout;
enum {
bt_state_ready,
bt_state_transaction,
bt_state_suspend,
} state;
};
static void bt_hid_reset(struct bt_hid_device_s *s)
{
struct bt_scatternet_s *net = s->btdev.device.net;
/* Go as far as... */
bt_l2cap_device_done(&s->btdev);
bt_l2cap_device_init(&s->btdev, net);
s->usbdev->info->handle_reset(s->usbdev);
s->proto = BT_HID_PROTO_REPORT;
s->state = bt_state_ready;
s->dataother.len = 0;
s->datain.len = 0;
s->dataout.len = 0;
s->feature.len = 0;
s->intrdataout.len = 0;
s->intr_state = 0;
}
static int bt_hid_out(struct bt_hid_device_s *s)
{
USBPacket p;
if (s->data_type == BT_DATA_OUTPUT) {
p.pid = USB_TOKEN_OUT;
p.devep = 1;
p.data = s->dataout.buffer;
p.len = s->dataout.len;
s->dataout.len = s->usbdev->info->handle_data(s->usbdev, &p);
return s->dataout.len;
}
if (s->data_type == BT_DATA_FEATURE) {
/* XXX:
* does this send a USB_REQ_CLEAR_FEATURE/USB_REQ_SET_FEATURE
* or a SET_REPORT? */
p.devep = 0;
}
return -1;
}
static int bt_hid_in(struct bt_hid_device_s *s)
{
USBPacket p;
p.pid = USB_TOKEN_IN;
p.devep = 1;
p.data = s->datain.buffer;
p.len = sizeof(s->datain.buffer);
s->datain.len = s->usbdev->info->handle_data(s->usbdev, &p);
return s->datain.len;
}
static void bt_hid_send_handshake(struct bt_hid_device_s *s, int result)
{
*s->control->sdu_out(s->control, 1) =
(BT_HANDSHAKE << 4) | result;
s->control->sdu_submit(s->control);
}
static void bt_hid_send_control(struct bt_hid_device_s *s, int operation)
{
*s->control->sdu_out(s->control, 1) =
(BT_HID_CONTROL << 4) | operation;
s->control->sdu_submit(s->control);
}
static void bt_hid_disconnect(struct bt_hid_device_s *s)
{
/* Disconnect s->control and s->interrupt */
}
static void bt_hid_send_data(struct bt_l2cap_conn_params_s *ch, int type,
const uint8_t *data, int len)
{
uint8_t *pkt, hdr = (BT_DATA << 4) | type;
int plen;
do {
plen = MIN(len, ch->remote_mtu - 1);
pkt = ch->sdu_out(ch, plen + 1);
pkt[0] = hdr;
if (plen)
memcpy(pkt + 1, data, plen);
ch->sdu_submit(ch);
len -= plen;
data += plen;
hdr = (BT_DATC << 4) | type;
} while (plen == ch->remote_mtu - 1);
}
static void bt_hid_control_transaction(struct bt_hid_device_s *s,
const uint8_t *data, int len)
{
uint8_t type, parameter;
int rlen, ret = -1;
if (len < 1)
return;
type = data[0] >> 4;
parameter = data[0] & 0xf;
switch (type) {
case BT_HANDSHAKE:
case BT_DATA:
switch (parameter) {
default:
/* These are not expected to be sent this direction. */
ret = BT_HS_ERR_INVALID_PARAMETER;
}
break;
case BT_HID_CONTROL:
if (len != 1 || (parameter != BT_HC_VIRTUAL_CABLE_UNPLUG &&
s->state == bt_state_transaction)) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
switch (parameter) {
case BT_HC_NOP:
break;
case BT_HC_HARD_RESET:
case BT_HC_SOFT_RESET:
bt_hid_reset(s);
break;
case BT_HC_SUSPEND:
if (s->state == bt_state_ready)
s->state = bt_state_suspend;
else
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
case BT_HC_EXIT_SUSPEND:
if (s->state == bt_state_suspend)
s->state = bt_state_ready;
else
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
case BT_HC_VIRTUAL_CABLE_UNPLUG:
bt_hid_disconnect(s);
break;
default:
ret = BT_HS_ERR_INVALID_PARAMETER;
}
break;
case BT_GET_REPORT:
/* No ReportIDs declared. */
if (((parameter & 8) && len != 3) ||
(!(parameter & 8) && len != 1) ||
s->state != bt_state_ready) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
if (parameter & 8)
rlen = data[2] | (data[3] << 8);
else
rlen = INT_MAX;
switch (parameter & 3) {
case BT_DATA_OTHER:
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
case BT_DATA_INPUT:
/* Here we can as well poll s->usbdev */
bt_hid_send_data(s->control, BT_DATA_INPUT,
s->datain.buffer, MIN(rlen, s->datain.len));
break;
case BT_DATA_OUTPUT:
bt_hid_send_data(s->control, BT_DATA_OUTPUT,
s->dataout.buffer, MIN(rlen, s->dataout.len));
break;
case BT_DATA_FEATURE:
bt_hid_send_data(s->control, BT_DATA_FEATURE,
s->feature.buffer, MIN(rlen, s->feature.len));
break;
}
break;
case BT_SET_REPORT:
if (len < 2 || len > BT_HID_MTU || s->state != bt_state_ready ||
(parameter & 3) == BT_DATA_OTHER ||
(parameter & 3) == BT_DATA_INPUT) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
s->data_type = parameter & 3;
if (s->data_type == BT_DATA_OUTPUT) {
s->dataout.len = len - 1;
memcpy(s->dataout.buffer, data + 1, s->dataout.len);
} else {
s->feature.len = len - 1;
memcpy(s->feature.buffer, data + 1, s->feature.len);
}
if (len == BT_HID_MTU)
s->state = bt_state_transaction;
else
bt_hid_out(s);
break;
case BT_GET_PROTOCOL:
if (len != 1 || s->state == bt_state_transaction) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
*s->control->sdu_out(s->control, 1) = s->proto;
s->control->sdu_submit(s->control);
break;
case BT_SET_PROTOCOL:
if (len != 1 || s->state == bt_state_transaction ||
(parameter != BT_HID_PROTO_BOOT &&
parameter != BT_HID_PROTO_REPORT)) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
s->proto = parameter;
s->usbdev->info->handle_control(s->usbdev, SET_PROTOCOL, s->proto, 0, 0,
NULL);
ret = BT_HS_SUCCESSFUL;
break;
case BT_GET_IDLE:
if (len != 1 || s->state == bt_state_transaction) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
s->usbdev->info->handle_control(s->usbdev, GET_IDLE, 0, 0, 1,
s->control->sdu_out(s->control, 1));
s->control->sdu_submit(s->control);
break;
case BT_SET_IDLE:
if (len != 2 || s->state == bt_state_transaction) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
/* We don't need to know about the Idle Rate here really,
* so just pass it on to the device. */
ret = s->usbdev->info->handle_control(s->usbdev,
SET_IDLE, data[1], 0, 0, NULL) ?
BT_HS_SUCCESSFUL : BT_HS_ERR_INVALID_PARAMETER;
/* XXX: Does this generate a handshake? */
break;
case BT_DATC:
if (len > BT_HID_MTU || s->state != bt_state_transaction) {
ret = BT_HS_ERR_INVALID_PARAMETER;
break;
}
if (s->data_type == BT_DATA_OUTPUT) {
memcpy(s->dataout.buffer + s->dataout.len, data + 1, len - 1);
s->dataout.len += len - 1;
} else {
memcpy(s->feature.buffer + s->feature.len, data + 1, len - 1);
s->feature.len += len - 1;
}
if (len < BT_HID_MTU) {
bt_hid_out(s);
s->state = bt_state_ready;
}
break;
default:
ret = BT_HS_ERR_UNSUPPORTED_REQUEST;
}
if (ret != -1)
bt_hid_send_handshake(s, ret);
}
static void bt_hid_control_sdu(void *opaque, const uint8_t *data, int len)
{
struct bt_hid_device_s *hid = opaque;
bt_hid_control_transaction(hid, data, len);
}
static void bt_hid_datain(void *opaque)
{
struct bt_hid_device_s *hid = opaque;
/* If suspended, wake-up and send a wake-up event first. We might
* want to also inspect the input report and ignore event like
* mouse movements until a button event occurs. */
if (hid->state == bt_state_suspend) {
hid->state = bt_state_ready;
}
if (bt_hid_in(hid) > 0)
/* TODO: when in boot-mode precede any Input reports with the ReportID
* byte, here and in GetReport/SetReport on the Control channel. */
bt_hid_send_data(hid->interrupt, BT_DATA_INPUT,
hid->datain.buffer, hid->datain.len);
}
static void bt_hid_interrupt_sdu(void *opaque, const uint8_t *data, int len)
{
struct bt_hid_device_s *hid = opaque;
if (len > BT_HID_MTU || len < 1)
goto bad;
if ((data[0] & 3) != BT_DATA_OUTPUT)
goto bad;
if ((data[0] >> 4) == BT_DATA) {
if (hid->intr_state)
goto bad;
hid->data_type = BT_DATA_OUTPUT;
hid->intrdataout.len = 0;
} else if ((data[0] >> 4) == BT_DATC) {
if (!hid->intr_state)
goto bad;
} else
goto bad;
memcpy(hid->intrdataout.buffer + hid->intrdataout.len, data + 1, len - 1);
hid->intrdataout.len += len - 1;
hid->intr_state = (len == BT_HID_MTU);
if (!hid->intr_state) {
memcpy(hid->dataout.buffer, hid->intrdataout.buffer,
hid->dataout.len = hid->intrdataout.len);
bt_hid_out(hid);
}
return;
bad:
fprintf(stderr, "%s: bad transaction on Interrupt channel.\n",
__FUNCTION__);
}
/* "Virtual cable" plug/unplug event. */
static void bt_hid_connected_update(struct bt_hid_device_s *hid)
{
int prev = hid->connected;
hid->connected = hid->control && hid->interrupt;
/* Stop page-/inquiry-scanning when a host is connected. */
hid->btdev.device.page_scan = !hid->connected;
hid->btdev.device.inquiry_scan = !hid->connected;
if (hid->connected && !prev) {
hid->usbdev->info->handle_reset(hid->usbdev);
hid->proto = BT_HID_PROTO_REPORT;
}
/* Should set HIDVirtualCable in SDP (possibly need to check that SDP
* isn't destroyed yet, in case we're being called from handle_destroy) */
}
static void bt_hid_close_control(void *opaque)
{
struct bt_hid_device_s *hid = opaque;
hid->control = NULL;
bt_hid_connected_update(hid);
}
static void bt_hid_close_interrupt(void *opaque)
{
struct bt_hid_device_s *hid = opaque;
hid->interrupt = NULL;
bt_hid_connected_update(hid);
}
static int bt_hid_new_control_ch(struct bt_l2cap_device_s *dev,
struct bt_l2cap_conn_params_s *params)
{
struct bt_hid_device_s *hid = (struct bt_hid_device_s *) dev;
if (hid->control)
return 1;
hid->control = params;
hid->control->opaque = hid;
hid->control->close = bt_hid_close_control;
hid->control->sdu_in = bt_hid_control_sdu;
bt_hid_connected_update(hid);
return 0;
}
static int bt_hid_new_interrupt_ch(struct bt_l2cap_device_s *dev,
struct bt_l2cap_conn_params_s *params)
{
struct bt_hid_device_s *hid = (struct bt_hid_device_s *) dev;
if (hid->interrupt)
return 1;
hid->interrupt = params;
hid->interrupt->opaque = hid;
hid->interrupt->close = bt_hid_close_interrupt;
hid->interrupt->sdu_in = bt_hid_interrupt_sdu;
bt_hid_connected_update(hid);
return 0;
}
static void bt_hid_destroy(struct bt_device_s *dev)
{
struct bt_hid_device_s *hid = (struct bt_hid_device_s *) dev;
if (hid->connected)
bt_hid_send_control(hid, BT_HC_VIRTUAL_CABLE_UNPLUG);
bt_l2cap_device_done(&hid->btdev);
hid->usbdev->info->handle_destroy(hid->usbdev);
qemu_free(hid);
}
enum peripheral_minor_class {
class_other = 0 << 4,
class_keyboard = 1 << 4,
class_pointing = 2 << 4,
class_combo = 3 << 4,
};
static struct bt_device_s *bt_hid_init(struct bt_scatternet_s *net,
USBDevice *dev, enum peripheral_minor_class minor)
{
struct bt_hid_device_s *s = qemu_mallocz(sizeof(*s));
uint32_t class =
/* Format type */
(0 << 0) |
/* Device class */
(minor << 2) |
(5 << 8) | /* "Peripheral" */
/* Service classes */
(1 << 13) | /* Limited discoverable mode */
(1 << 19); /* Capturing device (?) */
bt_l2cap_device_init(&s->btdev, net);
bt_l2cap_sdp_init(&s->btdev);
bt_l2cap_psm_register(&s->btdev, BT_PSM_HID_CTRL,
BT_HID_MTU, bt_hid_new_control_ch);
bt_l2cap_psm_register(&s->btdev, BT_PSM_HID_INTR,
BT_HID_MTU, bt_hid_new_interrupt_ch);
s->usbdev = dev;
s->btdev.device.lmp_name = s->usbdev->devname;
usb_hid_datain_cb(s->usbdev, s, bt_hid_datain);
s->btdev.device.handle_destroy = bt_hid_destroy;
s->btdev.device.class[0] = (class >> 0) & 0xff;
s->btdev.device.class[1] = (class >> 8) & 0xff;
s->btdev.device.class[2] = (class >> 16) & 0xff;
return &s->btdev.device;
}
struct bt_device_s *bt_keyboard_init(struct bt_scatternet_s *net)
{
USBDevice *dev = usb_create_simple(NULL /* FIXME */, "QEMU USB Keyboard");
return bt_hid_init(net, dev, class_keyboard);
}
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