505 lines
14 KiB
C++
505 lines
14 KiB
C++
// Copyright (C) 2003 Dolphin Project.
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// This program is free software: you can redistribute it and/or modify
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// it under the terms of the GNU General Public License as published by
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// the Free Software Foundation, version 2.0.
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// This program is distributed in the hope that it will be useful,
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// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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// GNU General Public License 2.0 for more details.
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// A copy of the GPL 2.0 should have been included with the program.
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// If not, see http://www.gnu.org/licenses/
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// Official SVN repository and contact information can be found at
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// http://code.google.com/p/dolphin-emu/
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/* HID reports access guide. */
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/* 0x10 - 0x1a Output EmuMain.cpp: HidOutputReport()
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0x10 - 0x14: General
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0x15: Status report request from the Wii
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0x16 and 0x17: Write and read memory or registers
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0x19 and 0x1a: General
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0x20 - 0x22 Input EmuMain.cpp: HidOutputReport() to the destination
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0x15 leads to a 0x20 Input report
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0x17 leads to a 0x21 Input report
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0x10 - 0x1a leads to a 0x22 Input report
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0x30 - 0x3f Input This file: Update() */
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#include <vector>
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#include <string>
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#include <fstream>
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#include "Common.h" // Common
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#include "FileUtil.h"
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#include "pluginspecs_wiimote.h"
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#include "WiimoteEmu.h"
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#include "Attachment/Attachment.h"
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/* Bit shift conversions */
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u32 convert24bit(const u8* src)
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{
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return (src[0] << 16) | (src[1] << 8) | src[2];
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}
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u16 convert16bit(const u8* src)
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{
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return (src[0] << 8) | src[1];
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}
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namespace WiimoteEmu
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{
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void Wiimote::ReportMode(const u16 _channelID, wm_report_mode* dr)
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{
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//INFO_LOG(WIIMOTE, "Set data report mode");
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//DEBUG_LOG(WIIMOTE, " Rumble: %x", dr->rumble);
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//DEBUG_LOG(WIIMOTE, " Continuous: %x", dr->continuous);
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//DEBUG_LOG(WIIMOTE, " All The Time: %x", dr->all_the_time);
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//DEBUG_LOG(WIIMOTE, " Mode: 0x%02x", dr->mode);
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m_reporting_auto = dr->all_the_time;
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m_reporting_mode = dr->mode;
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m_reporting_channel = _channelID;
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// reset IR camera
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//memset(m_reg_ir, 0, sizeof(*m_reg_ir)); //ugly hack
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if (0 == dr->all_the_time)
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PanicAlert("Wiimote: Reporting Always is set to OFF! Everything should be fine, but games never do this.");
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if (dr->mode >= WM_REPORT_INTERLEAVE1)
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PanicAlert("Wiimote: Unsupported Reporting mode.");
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else if (dr->mode < WM_REPORT_CORE)
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PanicAlert("Wiimote: Reporting mode < 0x30.");
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}
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/* Here we process the Output Reports that the Wii sends. Our response will be
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an Input Report back to the Wii. Input and Output is from the Wii's
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perspective, Output means data to the Wiimote (from the Wii), Input means
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data from the Wiimote.
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The call browser:
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1. Wiimote_InterruptChannel > InterruptChannel > HidOutputReport
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2. Wiimote_ControlChannel > ControlChannel > HidOutputReport
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The IR enable/disable and speaker enable/disable and mute/unmute values are
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bit2: 0 = Disable (0x02), 1 = Enable (0x06)
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*/
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void Wiimote::HidOutputReport(const u16 _channelID, wm_report* sr)
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{
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INFO_LOG(WIIMOTE, "HidOutputReport (page: %i, cid: 0x%02x, wm: 0x%02x)", m_index, _channelID, sr->wm);
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// wiibrew:
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// In every single Output Report, bit 0 (0x01) of the first byte controls the Rumble feature.
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m_rumble_on = (sr->data[0] & 0x01) != 0;
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switch (sr->wm)
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{
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case WM_RUMBLE : // 0x10
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// this is handled above
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return; // no ack
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break;
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case WM_LEDS : // 0x11
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//INFO_LOG(WIIMOTE, "Set LEDs: 0x%02x", sr->data[0]);
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m_status.leds = sr->data[0] >> 4;
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break;
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case WM_REPORT_MODE : // 0x12
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ReportMode(_channelID, (wm_report_mode*)sr->data);
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break;
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case WM_IR_PIXEL_CLOCK : // 0x13
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//INFO_LOG(WIIMOTE, "WM IR Clock: 0x%02x", sr->data[0]);
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//m_ir_clock = (sr->data[0] & 0x04) ? 1 : 0;
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break;
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case WM_SPEAKER_ENABLE : // 0x14
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//INFO_LOG(WIIMOTE, "WM Speaker Enable: 0x%02x", sr->data[0]);
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//PanicAlert( "WM Speaker Enable: %d", sr->data[0] );
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m_status.speaker = (sr->data[0] & 0x04) ? 1 : 0;
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break;
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case WM_REQUEST_STATUS : // 0x15
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RequestStatus(_channelID, (wm_request_status*)sr->data);
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return; // sends its own ack
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break;
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case WM_WRITE_DATA : // 0x16
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WriteData(_channelID, (wm_write_data*)sr->data);
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break;
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case WM_READ_DATA : // 0x17
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ReadData(_channelID, (wm_read_data*)sr->data);
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return; // sends its own ack
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break;
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case WM_WRITE_SPEAKER_DATA : // 0x18
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#ifdef USE_WIIMOTE_EMU_SPEAKER
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SpeakerData((wm_speaker_data*)sr->data);
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#endif
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// TODO: Does this need an ack?
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return; // no ack
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break;
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case WM_SPEAKER_MUTE : // 0x19
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//INFO_LOG(WIIMOTE, "WM Speaker Mute: 0x%02x", sr->data[0]);
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//PanicAlert( "WM Speaker Mute: %d", sr->data[0] & 0x04 );
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#ifdef USE_WIIMOTE_EMU_SPEAKER
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// testing
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if (sr->data[0] & 0x04)
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memset(&m_channel_status, 0, sizeof(m_channel_status));
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#endif
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m_speaker_mute = (sr->data[0] & 0x04) ? 1 : 0;
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break;
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case WM_IR_LOGIC: // 0x1a
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// comment from old plugin:
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// This enables or disables the IR lights, we update the global variable g_IR
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// so that WmRequestStatus() knows about it
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//INFO_LOG(WIIMOTE, "WM IR Enable: 0x%02x", sr->data[0]);
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m_status.ir = (sr->data[0] & 0x04) ? 1 : 0;
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break;
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default:
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PanicAlert("HidOutputReport: Unknown channel 0x%02x", sr->wm);
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return; // no ack
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break;
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}
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// send ack
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SendAck(_channelID, sr->wm);
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}
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/* This will generate the 0x22 acknowledgement for most Input reports.
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It has the form of "a1 22 00 00 _reportID 00".
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The first two bytes are the core buttons data,
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00 00 means nothing is pressed.
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The last byte is the success code 00. */
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void Wiimote::SendAck(const u16 _channelID, u8 _reportID)
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{
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u8 data[6];
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data[0] = 0xA1;
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data[1] = WM_ACK_DATA;
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wm_acknowledge* const ack = (wm_acknowledge*)(data + 2);
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ack->buttons = m_status.buttons;
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ack->reportID = _reportID;
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ack->errorID = 0;
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g_WiimoteInitialize.pWiimoteInput( m_index, _channelID, data, sizeof(data));
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}
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// old comment
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/* Here we produce a 0x20 status report to send to the Wii. We currently ignore
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the status request rs and all its eventual instructions it may include (for
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example turn off rumble or something else) and just send the status
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report. */
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void Wiimote::RequestStatus(const u16 _channelID, wm_request_status* rs)
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{
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//if (rs)
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// handle switch extension
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if ( m_extension->active_extension != m_extension->switch_extension )
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{
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// if an extension is currently connected and we want to switch to a different extension
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if ( (m_extension->active_extension > 0) && m_extension->switch_extension )
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// detach extension first, wait til next Update() or RequestStatus() call to change to the new extension
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m_extension->active_extension = 0;
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else
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// set the wanted extension
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m_extension->active_extension = m_extension->switch_extension;
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// update status struct
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m_status.extension = m_extension->active_extension ? 1 : 0;
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// set register, I hate this line
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m_register[ 0xa40000 ] = ((WiimoteEmu::Attachment*)m_extension->attachments[ m_extension->active_extension ])->reg;
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}
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// set up report
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u8 data[8];
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data[0] = 0xA1;
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data[1] = WM_STATUS_REPORT;
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// status values
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*(wm_status_report*)(data + 2) = m_status;
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// send report
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g_WiimoteInitialize.pWiimoteInput(m_index, _channelID, data, sizeof(data));
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}
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/* Write data to Wiimote and Extensions registers. */
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void Wiimote::WriteData(const u16 _channelID, wm_write_data* wd)
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{
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u32 address = convert24bit(wd->address);
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// ignore the 0x010000 bit
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address &= 0xFEFFFF;
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if (wd->size > 16)
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{
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PanicAlert("WriteData: size is > 16 bytes");
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return;
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}
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switch (wd->space)
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{
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case WM_SPACE_EEPROM :
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{
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// Write to EEPROM
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if (address + wd->size > WIIMOTE_EEPROM_SIZE)
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{
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ERROR_LOG(WIIMOTE, "WriteData: address + size out of bounds!");
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PanicAlert("WriteData: address + size out of bounds!");
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return;
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}
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memcpy(m_eeprom + address, wd->data, wd->size);
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// write mii data to file
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// i need to improve this greatly
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if (address >= 0x0FCA && address < 0x12C0)
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{
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// writing the whole mii block each write :/
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std::ofstream file;
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file.open( (std::string(File::GetUserPath(D_WIIUSER_IDX)) + "mii.bin").c_str(), std::ios::binary | std::ios::out);
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file.write((char*)m_eeprom + 0x0FCA, 0x02f0);
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file.close();
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}
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}
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break;
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case WM_SPACE_REGS1 :
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case WM_SPACE_REGS2 :
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{
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// Write to Control Register
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// ignore second byte for extension area
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if (0xA4 == (address >> 16))
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address &= 0xFF00FF;
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// write to the register
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m_register.Write(address, wd->data, wd->size);
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switch (address >> 16)
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{
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// speaker
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case 0xa2 :
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//PanicAlert("Write to speaker!!");
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break;
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// extension register
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case 0xa4 :
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{
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// Run the key generation on all writes in the key area, it doesn't matter
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// that we send it parts of a key, only the last full key will have an effect
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// I might have f'ed this up
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if ( address >= 0xa40040 && address <= 0xa4004c )
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wiimote_gen_key(&m_ext_key, m_reg_ext->encryption_key);
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//else if ( address >= 0xa40020 && address < 0xa40040 )
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// PanicAlert("Writing to extension calibration data! Extension may misbehave");
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}
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break;
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// ir
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case 0xB0 :
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if (5 == m_reg_ir->mode)
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PanicAlert("IR Full Mode is Unsupported!");
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break;
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}
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}
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break;
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default:
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PanicAlert("WriteData: unimplemented parameters!");
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break;
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}
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}
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/* Read data from Wiimote and Extensions registers. */
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void Wiimote::ReadData(const u16 _channelID, wm_read_data* rd)
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{
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u32 address = convert24bit(rd->address);
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u16 size = convert16bit(rd->size);
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// ignore the 0x010000 bit
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address &= 0xFEFFFF;
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ReadRequest rr;
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u8* block = new u8[size];
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switch (rd->space)
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{
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case WM_SPACE_EEPROM :
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{
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//PanicAlert("ReadData: reading from EEPROM: address: 0x%x size: 0x%x", address, size);
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// Read from EEPROM
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if (address + size >= WIIMOTE_EEPROM_FREE_SIZE)
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{
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if (address + size > WIIMOTE_EEPROM_SIZE)
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{
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PanicAlert("ReadData: address + size out of bounds");
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return;
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}
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// generate a read error
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size = 0;
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}
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// read mii data from file
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// i need to improve this greatly
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if (address >= 0x0FCA && address < 0x12C0)
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{
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// reading the whole mii block :/
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std::ifstream file;
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file.open( (std::string(File::GetUserPath(D_WIIUSER_IDX)) + "mii.bin").c_str(), std::ios::binary | std::ios::in);
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file.read((char*)m_eeprom + 0x0FCA, 0x02f0);
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file.close();
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}
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// read mem to be sent to wii
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memcpy( block, m_eeprom + address, size);
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}
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break;
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case WM_SPACE_REGS1 :
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case WM_SPACE_REGS2 :
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{
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// Read from Control Register
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// ignore second byte for extension area
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if (0xA4 == (address >> 16))
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address &= 0xFF00FF;
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// read block to send to wii
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m_register.Read( address, block, size );
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switch (address >> 16)
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{
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// speaker
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case 0xa2 :
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//PanicAlert("read from speaker!!");
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break;
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// extension
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case 0xa4 :
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{
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// Encrypt data read from extension register
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// Check if encrypted reads is on
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if (0xaa == m_reg_ext->encryption)
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wiimote_encrypt(&m_ext_key, block, address & 0xffff, (u8)size);
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//if ( address >= 0xa40008 && address < 0xa40020 )
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// PanicAlert("Reading extension data from register");
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}
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break;
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// motion plus
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case 0xa6 :
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{
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// motion plus crap copied from old wiimote plugin
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//block[0xFC] = 0xA6;
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//block[0xFD] = 0x20;
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//block[0xFE] = 0x00;
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//block[0xFF] = 0x05;
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}
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break;
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}
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}
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break;
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default :
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PanicAlert("WmReadData: unimplemented parameters (size: %i, addr: 0x%x)!", size, rd->space);
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break;
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}
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// want the requested address, not the above modified one
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rr.address = convert24bit(rd->address);
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rr.size = size;
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//rr.channel = _channelID;
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rr.position = 0;
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rr.data = block;
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// send up to 16 bytes
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SendReadDataReply( _channelID, rr );
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// if there is more data to be sent, add it to the queue
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if (rr.size)
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m_read_requests.push( rr );
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else
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delete[] rr.data;
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}
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// old comment
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/* Here we produce the actual 0x21 Input report that we send to the Wii. The
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message is divided into 16 bytes pieces and sent piece by piece. There will
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be five formatting bytes at the begging of all reports. A common format is
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00 00 f0 00 20, the 00 00 means that no buttons are pressed, the f means 16
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bytes in the message, the 0 means no error, the 00 20 means that the message
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is at the 00 20 offest in the registry that was read.
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*/
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void Wiimote::SendReadDataReply(const u16 _channelID, ReadRequest& _request)
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{
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u8 data[23];
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data[0] = 0xA1;
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data[1] = WM_READ_DATA_REPLY;
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wm_read_data_reply* const reply = (wm_read_data_reply*)(data + 2);
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reply->buttons = m_status.buttons;
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reply->address = Common::swap16(_request.address);
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// generate a read error
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// Out of bounds. The real Wiimote generate an error for the first
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// request to 0x1770 if we dont't replicate that the game will never
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// read the calibration data at the beginning of Eeprom. I think this
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// error is supposed to occur when we try to read above the freely
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// usable space that ends at 0x16ff.
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if (0 == _request.size)
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{
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reply->size = 0x0f;
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reply->error = 0x08;
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memset(reply->data, 0, sizeof(reply->data));
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}
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else
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{
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// Limit the amt to 16 bytes
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// AyuanX: the MTU is 640B though... what a waste!
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const int amt = std::min( (unsigned int)16, _request.size );
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// no error
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reply->error = 0;
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// 0x1 means two bytes, 0xf means 16 bytes
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reply->size = amt - 1;
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// Clear the mem first
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memset(reply->data, 0, sizeof(reply->data));
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// copy piece of mem
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memcpy(reply->data, _request.data + _request.position, amt);
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// update request struct
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_request.size -= amt;
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_request.position += amt;
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_request.address += amt;
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}
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// Send a piece
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g_WiimoteInitialize.pWiimoteInput(m_index, _channelID, data, sizeof(data));
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}
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void Wiimote::DoState(PointerWrap& p)
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{
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// not working :(
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//if (p.MODE_READ == p.GetMode())
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//{
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// // LOAD
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// Reset(); // should cause a status report to be sent, then wii should re-setup wiimote
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//}
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//p.Do(m_reporting_channel);
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}
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}
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