Movd back to libusb for full support on windows

This commit is contained in:
Matthew Parlane 2012-11-15 01:09:25 +13:00
parent 586813b150
commit d8b879a4ee
7 changed files with 143 additions and 651 deletions

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@ -1,384 +0,0 @@
/*******************************************************
HIDAPI - Multi-Platform library for
communication with HID devices.
Alan Ott
Signal 11 Software
8/22/2009
Copyright 2009, All Rights Reserved.
At the discretion of the user of this library,
this software may be licensed under the terms of the
GNU Public License v3, a BSD-Style license, or the
original HIDAPI license as outlined in the LICENSE.txt,
LICENSE-gpl3.txt, LICENSE-bsd.txt, and LICENSE-orig.txt
files located at the root of the source distribution.
These files may also be found in the public source
code repository located at:
http://github.com/signal11/hidapi .
********************************************************/
/** @file
* @defgroup API hidapi API
*/
#ifndef HIDAPI_H__
#define HIDAPI_H__
#include <wchar.h>
#ifdef _WIN32
#define HID_API_EXPORT __declspec(dllexport)
#define HID_API_CALL
#else
#define HID_API_EXPORT /**< API export macro */
#define HID_API_CALL /**< API call macro */
#endif
#define HID_API_EXPORT_CALL HID_API_EXPORT HID_API_CALL /**< API export and call macro*/
#ifdef __cplusplus
extern "C" {
#endif
struct hid_device_;
typedef struct hid_device_ hid_device; /**< opaque hidapi structure */
/** hidapi info structure */
struct hid_device_info {
/** Platform-specific device path */
char *path;
/** Device Vendor ID */
unsigned short vendor_id;
/** Device Product ID */
unsigned short product_id;
/** Serial Number */
wchar_t *serial_number;
/** Device Release Number in binary-coded decimal,
also known as Device Version Number */
unsigned short release_number;
/** Manufacturer String */
wchar_t *manufacturer_string;
/** Product string */
wchar_t *product_string;
/** Usage Page for this Device/Interface
(Windows/Mac only). */
unsigned short usage_page;
/** Usage for this Device/Interface
(Windows/Mac only).*/
unsigned short usage;
/** The USB interface which this logical device
represents. Valid on both Linux implementations
in all cases, and valid on the Windows implementation
only if the device contains more than one interface. */
int interface_number;
/** Pointer to the next device */
struct hid_device_info *next;
};
/** @brief Initialize the HIDAPI library.
This function initializes the HIDAPI library. Calling it is not
strictly necessary, as it will be called automatically by
hid_enumerate() and any of the hid_open_*() functions if it is
needed. This function should be called at the beginning of
execution however, if there is a chance of HIDAPI handles
being opened by different threads simultaneously.
@ingroup API
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_init(void);
/** @brief Finalize the HIDAPI library.
This function frees all of the static data associated with
HIDAPI. It should be called at the end of execution to avoid
memory leaks.
@ingroup API
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_exit(void);
/** @brief Enumerate the HID Devices.
This function returns a linked list of all the HID devices
attached to the system which match vendor_id and product_id.
If @p vendor_id and @p product_id are both set to 0, then
all HID devices will be returned.
@ingroup API
@param vendor_id The Vendor ID (VID) of the types of device
to open.
@param product_id The Product ID (PID) of the types of
device to open.
@returns
This function returns a pointer to a linked list of type
struct #hid_device, containing information about the HID devices
attached to the system, or NULL in the case of failure. Free
this linked list by calling hid_free_enumeration().
*/
struct hid_device_info HID_API_EXPORT * HID_API_CALL hid_enumerate(unsigned short vendor_id, unsigned short product_id);
/** @brief Free an enumeration Linked List
This function frees a linked list created by hid_enumerate().
@ingroup API
@param devs Pointer to a list of struct_device returned from
hid_enumerate().
*/
void HID_API_EXPORT HID_API_CALL hid_free_enumeration(struct hid_device_info *devs);
/** @brief Open a HID device using a Vendor ID (VID), Product ID
(PID) and optionally a serial number.
If @p serial_number is NULL, the first device with the
specified VID and PID is opened.
@ingroup API
@param vendor_id The Vendor ID (VID) of the device to open.
@param product_id The Product ID (PID) of the device to open.
@param serial_number The Serial Number of the device to open
(Optionally NULL).
@returns
This function returns a pointer to a #hid_device object on
success or NULL on failure.
*/
HID_API_EXPORT hid_device * HID_API_CALL hid_open(unsigned short vendor_id, unsigned short product_id, const wchar_t *serial_number);
/** @brief Open a HID device by its path name.
The path name be determined by calling hid_enumerate(), or a
platform-specific path name can be used (eg: /dev/hidraw0 on
Linux).
@ingroup API
@param path The path name of the device to open
@returns
This function returns a pointer to a #hid_device object on
success or NULL on failure.
*/
HID_API_EXPORT hid_device * HID_API_CALL hid_open_path(const char *path);
/** @brief Write an Output report to a HID device.
The first byte of @p data[] must contain the Report ID. For
devices which only support a single report, this must be set
to 0x0. The remaining bytes contain the report data. Since
the Report ID is mandatory, calls to hid_write() will always
contain one more byte than the report contains. For example,
if a hid report is 16 bytes long, 17 bytes must be passed to
hid_write(), the Report ID (or 0x0, for devices with a
single report), followed by the report data (16 bytes). In
this example, the length passed in would be 17.
hid_write() will send the data on the first OUT endpoint, if
one exists. If it does not, it will send the data through
the Control Endpoint (Endpoint 0).
@ingroup API
@param device A device handle returned from hid_open().
@param data The data to send, including the report number as
the first byte.
@param length The length in bytes of the data to send.
@returns
This function returns the actual number of bytes written and
-1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_write(hid_device *device, const unsigned char *data, size_t length);
int HID_API_EXPORT HID_API_CALL hid_write_report(hid_device *device, const unsigned char *data, size_t length);
/** @brief Read an Input report from a HID device with timeout.
Input reports are returned
to the host through the INTERRUPT IN endpoint. The first byte will
contain the Report number if the device uses numbered reports.
@ingroup API
@param device A device handle returned from hid_open().
@param data A buffer to put the read data into.
@param length The number of bytes to read. For devices with
multiple reports, make sure to read an extra byte for
the report number.
@param milliseconds timeout in milliseconds or -1 for blocking wait.
@returns
This function returns the actual number of bytes read and
-1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_read_timeout(hid_device *dev, unsigned char *data, size_t length, int milliseconds);
/** @brief Read an Input report from a HID device.
Input reports are returned
to the host through the INTERRUPT IN endpoint. The first byte will
contain the Report number if the device uses numbered reports.
@ingroup API
@param device A device handle returned from hid_open().
@param data A buffer to put the read data into.
@param length The number of bytes to read. For devices with
multiple reports, make sure to read an extra byte for
the report number.
@returns
This function returns the actual number of bytes read and
-1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_read(hid_device *device, unsigned char *data, size_t length);
/** @brief Set the device handle to be non-blocking.
In non-blocking mode calls to hid_read() will return
immediately with a value of 0 if there is no data to be
read. In blocking mode, hid_read() will wait (block) until
there is data to read before returning.
Nonblocking can be turned on and off at any time.
@ingroup API
@param device A device handle returned from hid_open().
@param nonblock enable or not the nonblocking reads
- 1 to enable nonblocking
- 0 to disable nonblocking.
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_set_nonblocking(hid_device *device, int nonblock);
/** @brief Send a Feature report to the device.
Feature reports are sent over the Control endpoint as a
Set_Report transfer. The first byte of @p data[] must
contain the Report ID. For devices which only support a
single report, this must be set to 0x0. The remaining bytes
contain the report data. Since the Report ID is mandatory,
calls to hid_send_feature_report() will always contain one
more byte than the report contains. For example, if a hid
report is 16 bytes long, 17 bytes must be passed to
hid_send_feature_report(): the Report ID (or 0x0, for
devices which do not use numbered reports), followed by the
report data (16 bytes). In this example, the length passed
in would be 17.
@ingroup API
@param device A device handle returned from hid_open().
@param data The data to send, including the report number as
the first byte.
@param length The length in bytes of the data to send, including
the report number.
@returns
This function returns the actual number of bytes written and
-1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_send_feature_report(hid_device *device, const unsigned char *data, size_t length);
/** @brief Get a feature report from a HID device.
Make sure to set the first byte of @p data[] to the Report
ID of the report to be read. Make sure to allow space for
this extra byte in @p data[].
@ingroup API
@param device A device handle returned from hid_open().
@param data A buffer to put the read data into, including
the Report ID. Set the first byte of @p data[] to the
Report ID of the report to be read.
@param length The number of bytes to read, including an
extra byte for the report ID. The buffer can be longer
than the actual report.
@returns
This function returns the number of bytes read and
-1 on error.
*/
int HID_API_EXPORT HID_API_CALL hid_get_feature_report(hid_device *device, unsigned char *data, size_t length);
/** @brief Close a HID device.
@ingroup API
@param device A device handle returned from hid_open().
*/
void HID_API_EXPORT HID_API_CALL hid_close(hid_device *device);
/** @brief Get The Manufacturer String from a HID device.
@ingroup API
@param device A device handle returned from hid_open().
@param string A wide string buffer to put the data into.
@param maxlen The length of the buffer in multiples of wchar_t.
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT_CALL hid_get_manufacturer_string(hid_device *device, wchar_t *string, size_t maxlen);
/** @brief Get The Product String from a HID device.
@ingroup API
@param device A device handle returned from hid_open().
@param string A wide string buffer to put the data into.
@param maxlen The length of the buffer in multiples of wchar_t.
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT_CALL hid_get_product_string(hid_device *device, wchar_t *string, size_t maxlen);
/** @brief Get The Serial Number String from a HID device.
@ingroup API
@param device A device handle returned from hid_open().
@param string A wide string buffer to put the data into.
@param maxlen The length of the buffer in multiples of wchar_t.
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT_CALL hid_get_serial_number_string(hid_device *device, wchar_t *string, size_t maxlen);
/** @brief Get a string from a HID device, based on its string index.
@ingroup API
@param device A device handle returned from hid_open().
@param string_index The index of the string to get.
@param string A wide string buffer to put the data into.
@param maxlen The length of the buffer in multiples of wchar_t.
@returns
This function returns 0 on success and -1 on error.
*/
int HID_API_EXPORT_CALL hid_get_indexed_string(hid_device *device, int string_index, wchar_t *string, size_t maxlen);
/** @brief Get a string describing the last error which occurred.
@ingroup API
@param device A device handle returned from hid_open().
@returns
This function returns a string containing the last error
which occurred or NULL if none has occurred.
*/
HID_API_EXPORT const wchar_t* HID_API_CALL hid_error(hid_device *device);
#ifdef __cplusplus
}
#endif
#endif

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@ -101,7 +101,7 @@ void GenericLog(LOGTYPES_LEVELS level, LOGTYPES_TYPE type,
#define MAX_LOGLEVEL DEBUG_LEVEL
#else
#ifndef MAX_LOGLEVEL
#define MAX_LOGLEVEL WARNING_LEVEL
#define MAX_LOGLEVEL DEBUG_LEVEL
#endif // loglevel
#endif // logging

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@ -21,31 +21,29 @@
#include "WII_IPC_HLE.h"
#include "WII_IPC_HLE_Device_hid.h"
#include "lusb0_usb.h"
#include "hidapi.h"
static std::map<std::string, int> loaded_devices;
static std::map<int, std::string> loaded_devices_rev;
static std::map<int, hid_device *> opened_devices;
#include "errno.h"
CWII_IPC_HLE_Device_hid::CWII_IPC_HLE_Device_hid(u32 _DeviceID, const std::string& _rDeviceName)
: IWII_IPC_HLE_Device(_DeviceID, _rDeviceName)
{
//usb_init(); /* initialize the library */
hid_init();
usb_init(); /* initialize the library */
}
CWII_IPC_HLE_Device_hid::~CWII_IPC_HLE_Device_hid()
{
hid_exit();
for ( std::map<u32,usb_dev_handle*>::const_iterator iter = open_devices.begin(); iter != open_devices.end(); ++iter )
{
usb_close(iter->second);
}
open_devices.clear();
}
bool CWII_IPC_HLE_Device_hid::Open(u32 _CommandAddress, u32 _Mode)
{
Dolphin_Debugger::PrintCallstack(LogTypes::WII_IPC_HID, LogTypes::LWARNING);
DEBUG_LOG(WII_IPC_HID, "HID::Open");
m_Active = true;
Memory::Write_U32(GetDeviceID(), _CommandAddress + 4);
return true;
}
@ -53,11 +51,48 @@ bool CWII_IPC_HLE_Device_hid::Open(u32 _CommandAddress, u32 _Mode)
bool CWII_IPC_HLE_Device_hid::Close(u32 _CommandAddress, bool _bForce)
{
DEBUG_LOG(WII_IPC_HID, "HID::Close");
m_Active = false;
if (!_bForce)
Memory::Write_U32(0, _CommandAddress + 4);
return true;
}
u32 CWII_IPC_HLE_Device_hid::Update()
{
u32 work_done = 0;
int ret = -4;
std::list<_hidevent>::iterator ev = event_list.begin();
while (ev != event_list.end()) {
bool ev_finished = false;
switch (ev->type)
{
case IOCTL_HID_INTERRUPT_OUT:
case IOCTL_HID_INTERRUPT_IN:
{
ret = usb_reap_async_nocancel(ev->context, 0);
if(ret >= 0)
{
Memory::Write_U32(ret, ev->enq_address + 4);
WII_IPC_HLE_Interface::EnqReply(ev->enq_address);
work_done = ev_finished = true;
}
break;
}
}
if (ev_finished)
event_list.erase(ev++);
else
ev++;
}
return work_done;
}
bool CWII_IPC_HLE_Device_hid::IOCtl(u32 _CommandAddress)
{
static u32 replyAddress = 0;
@ -75,6 +110,7 @@ bool CWII_IPC_HLE_Device_hid::IOCtl(u32 _CommandAddress)
{
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Get Attached) (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
BufferIn, BufferInSize, BufferOut, BufferOutSize);
//Memory::Write_U32(0xFFFFFFFF, BufferOut);
if(!hasRun)
{
FillOutDevices(BufferOut, BufferOutSize);
@ -133,7 +169,6 @@ bool CWII_IPC_HLE_Device_hid::IOCtl(u32 _CommandAddress)
ERROR CODES:
-4 Cant find device specified
*/
u32 dev_num = Memory::Read_U32(BufferIn+0x10);
u8 requesttype = Memory::Read_U8(BufferIn+0x14);
u8 request = Memory::Read_U8(BufferIn+0x15);
@ -142,11 +177,8 @@ bool CWII_IPC_HLE_Device_hid::IOCtl(u32 _CommandAddress)
u16 size = Memory::Read_U16(BufferIn+0x1A);
u32 data = Memory::Read_U32(BufferIn+0x1C);
/* //libusb way
static int upto = 0;
int i;
usb_find_busses();
usb_find_devices();
usb_find_busses(); /* find all busses */
usb_find_devices(); /* find all connected devices */
struct usb_dev_handle * dev_handle = GetDeviceByDevNum(dev_num);
@ -155,7 +187,7 @@ bool CWII_IPC_HLE_Device_hid::IOCtl(u32 _CommandAddress)
ReturnValue = -4;
break;
}
ReturnValue = usb_control_msg(dev_handle, requesttype, request,
value, index, (char*)Memory::GetPointer(data), size,
0);
@ -164,113 +196,68 @@ bool CWII_IPC_HLE_Device_hid::IOCtl(u32 _CommandAddress)
{
ReturnValue += sizeof(usb_ctrl_setup);
}
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Control)(%02X, %02X) = %d",
requesttype, request, ReturnValue);
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Control)(%02X, %02X) = %d (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
requesttype, request, ReturnValue, BufferIn, BufferInSize, BufferOut, BufferOutSize);
usb_close(dev_handle);
u8 test_out[0x20];
Memory::ReadBigEData(test_out, BufferIn, BufferInSize);
char file[0x50];
snprintf(file, 0x50, "ctrl_ctrlprotocol_%d.bin", upto);
FILE* test = fopen (file, "wb");
for(i=0;i<0x20;i++)
fwrite(&test_out[i], 1, 1, test);
if (size > 0)
fwrite((char*)Memory::GetPointer(data), 1, size, test);
fclose(test);
upto++;
*/
hid_device * dev_handle = GetDeviceByDevNumHidLib(dev_num);
if (dev_handle == NULL)
{
ReturnValue = -4;
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Control)(%02X, %02X) = %d",
requesttype, request, ReturnValue);
break;
}
// this is our write request
if(request == 0x09)
{
#define rw_buf_size 0x21
unsigned char buf[rw_buf_size];
memset(&buf[0], 0, rw_buf_size);
memcpy(&buf[1], (unsigned char*)Memory::GetPointer(data), size);
int success = hid_write_report(dev_handle, buf, size+1);
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Control) success = %d", success);
}
ReturnValue = size + sizeof(usb_ctrl_setup);
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Control)(%02X, %02X) = %d",
requesttype, request, ReturnValue);
break;
}
case IOCTL_HID_INTERRUPT_IN:
{
u32 dev_num = Memory::Read_U32(BufferIn+0x10);
u32 end_point = Memory::Read_U32(BufferIn+0x14);
u32 length = Memory::Read_U32(BufferIn+0x18);
u32 data = Memory::Read_U32(BufferIn+0x1C);
hid_device * dev_handle = GetDeviceByDevNumHidLib(dev_num);
if (dev_handle == NULL)
{
ReturnValue = -4;
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Interrupt In)(%d,%d,%p) = %d (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
end_point, length, data, ReturnValue, BufferIn, BufferInSize, BufferOut, BufferOutSize);
break;
}
//ReturnValue = -5;
ReturnValue = hid_read(dev_handle, (unsigned char*)Memory::GetPointer(data), length);
//ReturnValue = usb_interrupt_read(dev_handle, end_point, (char*)Memory::GetPointer(data), length, 1000);
FILE* test = fopen ("readdata.bin", "wb");
fwrite(Memory::GetPointer(data), ReturnValue, 1, test);
fclose(test);
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Interrupt In)(%d,%d,%p) = %d (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
end_point, length, data, ReturnValue, BufferIn, BufferInSize, BufferOut, BufferOutSize);
break;
}
case IOCTL_HID_INTERRUPT_OUT:
case IOCTL_HID_INTERRUPT_IN:
{
u32 dev_num = Memory::Read_U32(BufferIn+0x10);
u32 end_point = Memory::Read_U32(BufferIn+0x14);
u32 length = Memory::Read_U32(BufferIn+0x18);
u32 data = Memory::Read_U32(BufferIn+0x1C);
hid_device * dev_handle = GetDeviceByDevNumHidLib(dev_num);
int ret = 0;
void * context = NULL;
struct usb_dev_handle * dev_handle = GetDeviceByDevNum(dev_num);
if (dev_handle == NULL)
{
ReturnValue = -4;
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Interrupt Out) = %d (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
ReturnValue, BufferIn, BufferInSize, BufferOut, BufferOutSize);
break;
goto int_in_end_print;
}
ReturnValue = -5;
//ReturnValue = usb_interrupt_write(dev_handle, end_point, (char*)Memory::GetPointer(data), length, 0);
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Interrupt Out) = %d (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
ReturnValue, BufferIn, BufferInSize, BufferOut, BufferOutSize);
usb_claim_interface(dev_handle,0);
ret = usb_interrupt_setup_async(dev_handle, &context, end_point);
if (ret< 0)
{
ReturnValue = -4;
goto int_in_end_print;
}
ret = usb_submit_async(context, (char*)Memory::GetPointer(data), length);
if (ret< 0)
{
ReturnValue = -4;
goto int_in_end_print;
}
ret = usb_reap_async_nocancel(context, 0);
if (ret >= 0)
{
ReturnValue = ret;
}
else
{
_hidevent ev;
ev.enq_address = _CommandAddress;
ev.type = Parameter;
ev.context = context;
event_list.push_back(ev);
return false;
}
int_in_end_print:
DEBUG_LOG(WII_IPC_HID, "HID::IOCtl(Interrupt %s)(%d,%d,%p) = %d (BufferIn: (%08x, %i), BufferOut: (%08x, %i)",
Parameter == IOCTL_HID_INTERRUPT_IN ? "In" : "Out", end_point, length, data, ReturnValue, BufferIn, BufferInSize, BufferOut, BufferOutSize);
break;
}
@ -294,16 +281,24 @@ bool CWII_IPC_HLE_Device_hid::IOCtlV(u32 _CommandAddress)
u32 ReturnValue = 0;
SIOCtlVBuffer CommandBuffer(_CommandAddress);
DEBUG_LOG(WII_IPC_HID, "%s - IOCtlV:", GetDeviceName().c_str());
DEBUG_LOG(WII_IPC_HID, " Parameter: 0x%x", CommandBuffer.Parameter);
DEBUG_LOG(WII_IPC_HID, " NumberIn: 0x%08x", CommandBuffer.NumberInBuffer);
DEBUG_LOG(WII_IPC_HID, " NumberOut: 0x%08x", CommandBuffer.NumberPayloadBuffer);
DEBUG_LOG(WII_IPC_HID, " BufferVector: 0x%08x", CommandBuffer.BufferVector);
DEBUG_LOG(WII_IPC_HID, " PayloadAddr: 0x%08x", CommandBuffer.PayloadBuffer[0].m_Address);
DEBUG_LOG(WII_IPC_HID, " PayloadSize: 0x%08x", CommandBuffer.PayloadBuffer[0].m_Size);
#if defined(_DEBUG) || defined(DEBUGFAST)
DumpAsync(CommandBuffer.BufferVector, CommandBuffer.NumberInBuffer, CommandBuffer.NumberPayloadBuffer);
#endif
switch (CommandBuffer.Parameter)
{
default:
{
DEBUG_LOG(WII_IPC_HID, "%s - IOCtlV:", GetDeviceName().c_str());
DEBUG_LOG(WII_IPC_HID, " Parameter: 0x%x", CommandBuffer.Parameter);
DEBUG_LOG(WII_IPC_HID, " NumberIn: 0x%08x", CommandBuffer.NumberInBuffer);
DEBUG_LOG(WII_IPC_HID, " NumberOut: 0x%08x", CommandBuffer.NumberPayloadBuffer);
DEBUG_LOG(WII_IPC_HID, " BufferVector: 0x%08x", CommandBuffer.BufferVector);
DEBUG_LOG(WII_IPC_HID, " PayloadAddr: 0x%08x", CommandBuffer.PayloadBuffer[0].m_Address);
DEBUG_LOG(WII_IPC_HID, " PayloadSize: 0x%08x", CommandBuffer.PayloadBuffer[0].m_Size);
#if defined(_DEBUG) || defined(DEBUGFAST)
DumpAsync(CommandBuffer.BufferVector, CommandBuffer.NumberInBuffer, CommandBuffer.NumberPayloadBuffer);
#endif
}
break;
}
Memory::Write_U32(ReturnValue, _CommandAddress + 4);
return true;
@ -337,137 +332,15 @@ void CWII_IPC_HLE_Device_hid::ConvertEndpointToWii(WiiHIDEndpointDescriptor *des
dest->wMaxPacketSize = Common::swap16(dest->wMaxPacketSize);
}
static int x = 0;
u32 CWII_IPC_HLE_Device_hid::GetAvailableID(char* path)
{
std::string dev_path = path;
if(loaded_devices.find(dev_path) == loaded_devices.end()){
loaded_devices_rev[x] = dev_path;
loaded_devices[dev_path] = x++;
}
return loaded_devices[dev_path];
}
// hidapi version
void CWII_IPC_HLE_Device_hid::FillOutDevicesHidApi(u32 BufferOut, u32 BufferOutSize)
{
x = 0;
// Enumerate and print the HID devices on the system
struct hid_device_info *devs, *cur_dev;
int OffsetBuffer = BufferOut;
int OffsetStart = 0;
int c,i,e; // config, interface container, interface, endpoint
devs = hid_enumerate(0x0, 0x0);
cur_dev = devs;
while (cur_dev) {
OffsetStart = OffsetBuffer;
OffsetBuffer += 4; // skip length for now, fill at end
Memory::Write_U32(GetAvailableID(cur_dev->path), OffsetBuffer); //write device num
OffsetBuffer += 4;
WiiHIDDeviceDescriptor wii_device;
wii_device.bLength = Common::swap8(0x12);
wii_device.bDescriptorType = Common::swap8(0x1);
wii_device.bcdUSB = Common::swap16(0x0200);
wii_device.bDeviceClass = Common::swap8(0);
wii_device.bDeviceSubClass = Common::swap8(0);
wii_device.bDeviceProtocol = Common::swap8(0);
wii_device.bMaxPacketSize0 = Common::swap8(0x20);
wii_device.idVendor = Common::swap16(cur_dev->vendor_id);
wii_device.idProduct = Common::swap16(cur_dev->product_id);
wii_device.bcdDevice = Common::swap16(cur_dev->release_number);
wii_device.iManufacturer = Common::swap8(0x1);
wii_device.iProduct = Common::swap8(0x2);
wii_device.iSerialNumber = Common::swap8(0);
wii_device.bNumConfigurations = Common::swap8(0x1);
Memory::WriteBigEData((const u8*)&wii_device, OffsetBuffer, Align(wii_device.bLength, 4));
OffsetBuffer += Align(wii_device.bLength, 4);
for (c = 0; c < Common::swap8(wii_device.bNumConfigurations); c++)
{
WiiHIDConfigDescriptor wii_config;
wii_config.bLength = Common::swap8(0x9);
wii_config.bDescriptorType = Common::swap8(0x2);
wii_config.wTotalLength = Common::swap16(0x29);
wii_config.bNumInterfaces = Common::swap8(0x1);
wii_config.bConfigurationValue = Common::swap8(0x1);
wii_config.iConfiguration = Common::swap8(0);
wii_config.bmAttributes = Common::swap8(0x80);
wii_config.MaxPower = Common::swap8(0x96);
Memory::WriteBigEData((const u8*)&wii_config, OffsetBuffer, Align(Common::swap8(wii_config.bLength), 4));
OffsetBuffer += Align(Common::swap8(wii_config.bLength), 4);
for (i = 0; i < wii_config.bNumInterfaces; i++)
{
WiiHIDInterfaceDescriptor wii_interface;
wii_interface.bLength = Common::swap8(0x9);
wii_interface.bDescriptorType = Common::swap8(0x4);
wii_interface.bInterfaceNumber = Common::swap8(i);
wii_interface.bAlternateSetting = Common::swap8(0);
wii_interface.bNumEndpoints = Common::swap8(0x2);
wii_interface.bInterfaceClass = Common::swap8(0x3);
wii_interface.bInterfaceSubClass = Common::swap8(0);
wii_interface.bInterfaceProtocol = Common::swap8(0);
wii_interface.iInterface = Common::swap8(0);
Memory::WriteBigEData((const u8*)&wii_interface, OffsetBuffer, Align(Common::swap8(wii_interface.bLength), 4));
OffsetBuffer += Align(Common::swap8(wii_interface.bLength), 4);
for (e = 0; e < Common::swap8(wii_interface.bNumEndpoints); e++)
{
WiiHIDEndpointDescriptor wii_endpoint;
wii_endpoint.bLength = Common::swap8(0x7);
wii_endpoint.bDescriptorType = Common::swap8(0x5);
wii_endpoint.bEndpointAddress = Common::swap8(e == 0 ? 0x1 : 0x81);
wii_endpoint.bmAttributes = Common::swap8(0x3);
wii_endpoint.wMaxPacketSize = Common::swap16(0x20);
wii_endpoint.bInterval = Common::swap8(0x1);
Memory::WriteBigEData((const u8*)&wii_endpoint, OffsetBuffer, Align(Common::swap8(wii_endpoint.bLength), 4));
OffsetBuffer += Align(Common::swap8(wii_endpoint.bLength), 4);
} //endpoints
} // interfaces
} // configs
Memory::Write_U32(OffsetBuffer-OffsetStart, OffsetStart); // fill in length
NOTICE_LOG(WII_IPC_HID, "Device Found\n type: %04hx %04hx\n path: %s\n serial_number: %ls",
cur_dev->vendor_id, cur_dev->product_id, cur_dev->path, cur_dev->serial_number);
NOTICE_LOG(WII_IPC_HID, "\n");
NOTICE_LOG(WII_IPC_HID, " Manufacturer: %ls\n", cur_dev->manufacturer_string);
NOTICE_LOG(WII_IPC_HID, " Product: %ls\n", cur_dev->product_string);
NOTICE_LOG(WII_IPC_HID, "\n");
cur_dev = cur_dev->next;
}
Memory::Write_U32(0xFFFFFFFF, OffsetBuffer); // no more devices
hid_free_enumeration(devs);
}
// libusb version
void CWII_IPC_HLE_Device_hid::FillOutDevices(u32 BufferOut, u32 BufferOutSize)
{
FillOutDevicesHidApi(BufferOut, BufferOutSize);
/*usb_find_busses(); // find all busses
usb_find_devices(); // find all connected devices
usb_find_busses(); /* find all busses */
usb_find_devices(); /* find all connected devices */
struct usb_bus *bus;
struct usb_device *dev;
int OffsetBuffer = BufferOut;
int OffsetStart = 0;
int c,ic,i,e; // config, interface container, interface, endpoint
int c,ic,i,e; /* config, interface container, interface, endpoint */
for (bus = usb_get_busses(); bus; bus = bus->next)
{
for (dev = bus->devices; dev; dev = dev->next)
@ -527,38 +400,34 @@ void CWII_IPC_HLE_Device_hid::FillOutDevices(u32 BufferOut, u32 BufferOutSize)
} // buses
Memory::Write_U32(0xFFFFFFFF, OffsetBuffer); // no more devices
*/
}
int CWII_IPC_HLE_Device_hid::Align(int num, int alignment)
{
return (num + (alignment-1)) & ~(alignment-1);
}
hid_device * CWII_IPC_HLE_Device_hid::GetDeviceByDevNumHidLib(u32 devNum)
{
if (loaded_devices_rev.find(devNum) == loaded_devices_rev.end())
return NULL;
if (opened_devices.find(devNum) != opened_devices.end())
return opened_devices[devNum];
hid_device * phPortalHandle = opened_devices[devNum] = hid_open_path(loaded_devices_rev[devNum].c_str());
return phPortalHandle;
}
struct usb_dev_handle * CWII_IPC_HLE_Device_hid::GetDeviceByDevNum(u32 devNum)
{
if (open_devices.find(devNum) != open_devices.end())
return open_devices[devNum];
usb_dev_handle * device = NULL;
for (struct usb_bus *bus = usb_get_busses(); bus; bus = bus->next)
{
for (struct usb_device *dev = bus->devices; dev; dev = dev->next)
{
if(dev->devnum == devNum){
return usb_open(dev);
open_devices[devNum] = device = usb_open(dev);
return device;
}
}
}
return NULL;
return device;
}

View File

@ -19,7 +19,9 @@
#include "WII_IPC_HLE.h"
#include "WII_IPC_HLE_Device.h"
#include "hidapi.h"
#include <list>
/* Connection timed out */ #define ETRANSFER_TIMEDOUT -116
class CWII_IPC_HLE_Device_hid : public IWII_IPC_HLE_Device
{
@ -30,13 +32,12 @@ public:
virtual bool Open(u32 _CommandAddress, u32 _Mode);
virtual bool Close(u32 _CommandAddress, bool _bForce);
virtual u32 Update();
virtual bool IOCtlV(u32 _CommandAddress);
virtual bool IOCtl(u32 _CommandAddress);
private:
std::map<u32, std::string> deviceList;
enum
{
@ -112,10 +113,7 @@ private:
} WiiHIDEndpointDescriptor;
u32 GetAvailableID(char* path);
void FillOutDevices(u32 BufferOut, u32 BufferOutSize);
void FillOutDevicesHidApi(u32 BufferOut, u32 BufferOutSize);
void CWII_IPC_HLE_Device_hid::FillOutDevices(u32 BufferOut, u32 BufferOutSize);
void ConvertDeviceToWii(WiiHIDDeviceDescriptor *dest, struct usb_device_descriptor *src);
void ConvertConfigToWii(WiiHIDConfigDescriptor *dest, struct usb_config_descriptor *src);
@ -123,8 +121,17 @@ private:
void ConvertEndpointToWii(WiiHIDEndpointDescriptor *dest, struct usb_endpoint_descriptor *src);
int Align(int num, int alignment);
hid_device * GetDeviceByDevNumHidLib(u32 devNum);
struct usb_dev_handle * GetDeviceByDevNum(u32 devNum);
std::map<u32,usb_dev_handle*> open_devices;
typedef struct
{
u32 enq_address;
u32 type;
void * context;
} _hidevent;
std::list<_hidevent> event_list;
};

View File

@ -9,7 +9,7 @@
<ItemDefinitionGroup>
<Link>
<AdditionalLibraryDirectories>..\..\..\Externals\SDL\$(PlatformName);..\..\..\Externals\GLew;..\..\..\Externals\Cg64;..\..\..\Externals\portaudio\$(PlatformName)\$(ConfigurationName);..\..\..\Externals\libusb\$(PlatformName)</AdditionalLibraryDirectories>
<AdditionalDependencies>portaudio.lib;dsound.lib;dxerr.lib;iphlpapi.lib;winmm.lib;setupapi.lib;xinput.lib;vfw32.lib;cg.lib;cgGL.lib;opengl32.lib;glew64s.lib;glu32.lib;rpcrt4.lib;comctl32.lib;libusb.lib;hidapi.lib;%(AdditionalDependencies)</AdditionalDependencies>
<AdditionalDependencies>portaudio.lib;dsound.lib;dxerr.lib;iphlpapi.lib;winmm.lib;setupapi.lib;xinput.lib;vfw32.lib;cg.lib;cgGL.lib;opengl32.lib;glew64s.lib;glu32.lib;rpcrt4.lib;comctl32.lib;libusb.lib;%(AdditionalDependencies)</AdditionalDependencies>
</Link>
</ItemDefinitionGroup>
<ItemGroup />