Renesas
/
SDG_Mouse_Sample
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Dependencies: Sound_Generator USBHost_custom
Fork of
SDG_Mouse_Sample
by 
GR-PEACH_producer_meeting
Information
Japanese version is available in lower part of this page.
このページの後半に日本語版が用意されています.
What is this?
This program is a demonstration that sounds the sound by mouse operation by using USBHost(Mouse) and Sound Generator.
Settings
Close JP3 of GR-PEACH.
Operation
| operation | effect |
|---|---|
| Right click | Sounds |
| Left click | Reset to base tone (C) |
| Moves the mouse to the right | Lower the sound |
| Moves the mouse to the left | Higher the sound |
| Center cursor | Adjust the sensitivity. Reset the reference value in the click. |
Others
The default setting of serial communication (baud rate etc.) in mbed is shown the following link.
Please refer to the link and change the settings of your PC terminal software.
The default value of baud rate in mbed is 9600, and this application uses baud rate 9600.
https://developer.mbed.org/teams/Renesas/wiki/GR-PEACH-Getting-Started#install-the-usb-serial-communication
概要
このプログラムは、USBHost(Mouse) + Sound Generatorで、マウス操作による擬似笛デモです。
設定
GR-PEACHのJP3をショートする必要があります。
操作方法
| 操作 | 内容 |
|---|---|
| 右クリック | 音出力開始 |
| 左クリック | 基準音(ド)にリセット |
| マウス右移動 | 高音になります |
| マウス左移動 | 低音になります |
| センターカーソル | 音高低の変化量調整(クリックで基準値にリセット) |
Others
mbedのシリアル通信(ボーレート等)のデフォルト設定は以下のリンクに示しています。
リンクを参考に、お使いのPCターミナルソフトの設定を変更して下さい。
mbedでのボーレートのデフォルト値は9600で、このサンプルではボーレート9600を使います。
https://developer.mbed.org/teams/Renesas/wiki/GR-PEACH-Getting-Started#install-the-usb-serial-communication
USBHostMSD/USBHostMSD.cpp
- Committer:
- samux
- Date:
- 2013-03-14
- Revision:
- 8:93da8ea2708b
- Parent:
- 5:e48791a1ef18
- Child:
- 13:b58a2204422f
File content as of revision 8:93da8ea2708b:
/* mbed USBHost Library
* Copyright (c) 2006-2013 ARM Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "USBHostMSD.h"
#if USBHOST_MSD
#include "dbg.h"
#define CBW_SIGNATURE 0x43425355
#define CSW_SIGNATURE 0x53425355
#define DEVICE_TO_HOST 0x80
#define HOST_TO_DEVICE 0x00
#define GET_MAX_LUN (0xFE)
#define BO_MASS_STORAGE_RESET (0xFF)
USBHostMSD::USBHostMSD(const char * rootdir) : FATFileSystem(rootdir)
{
host = USBHost::getHostInst();
init();
}
void USBHostMSD::init() {
dev_connected = false;
dev = NULL;
bulk_in = NULL;
bulk_out = NULL;
dev_connected = false;
blockSize = 0;
blockCount = 0;
msd_intf = -1;
msd_device_found = false;
disk_init = false;
dev_connected = false;
nb_ep = 0;
}
bool USBHostMSD::connected()
{
return dev_connected;
}
bool USBHostMSD::connect()
{
if (dev_connected) {
return true;
}
for (uint8_t i = 0; i < MAX_DEVICE_CONNECTED; i++) {
if ((dev = host->getDevice(i)) != NULL) {
USB_DBG("Trying to connect MSD device\r\n");
if(host->enumerate(dev, this))
break;
if (msd_device_found) {
bulk_in = dev->getEndpoint(msd_intf, BULK_ENDPOINT, IN);
bulk_out = dev->getEndpoint(msd_intf, BULK_ENDPOINT, OUT);
if (!bulk_in || !bulk_out)
continue;
USB_INFO("New MSD device: VID:%04x PID:%04x [dev: %p - intf: %d]", dev->getVid(), dev->getPid(), dev, msd_intf);
dev->setName("MSD", msd_intf);
host->registerDriver(dev, msd_intf, this, &USBHostMSD::init);
dev_connected = true;
return true;
}
} //if()
} //for()
init();
return false;
}
/*virtual*/ void USBHostMSD::setVidPid(uint16_t vid, uint16_t pid)
{
// we don't check VID/PID for MSD driver
}
/*virtual*/ bool USBHostMSD::parseInterface(uint8_t intf_nb, uint8_t intf_class, uint8_t intf_subclass, uint8_t intf_protocol) //Must return true if the interface should be parsed
{
if ((msd_intf == -1) &&
(intf_class == MSD_CLASS) &&
(intf_subclass == 0x06) &&
(intf_protocol == 0x50)) {
msd_intf = intf_nb;
return true;
}
return false;
}
/*virtual*/ bool USBHostMSD::useEndpoint(uint8_t intf_nb, ENDPOINT_TYPE type, ENDPOINT_DIRECTION dir) //Must return true if the endpoint will be used
{
if (intf_nb == msd_intf) {
if (type == BULK_ENDPOINT) {
nb_ep++;
if (nb_ep == 2)
msd_device_found = true;
return true;
}
}
return false;
}
int USBHostMSD::testUnitReady() {
USB_DBG("Test unit ready");
return SCSITransfer(NULL, 6, DEVICE_TO_HOST, 0, 0);
}
int USBHostMSD::readCapacity() {
USB_DBG("Read capacity");
uint8_t cmd[10] = {0x25,0,0,0,0,0,0,0,0,0};
uint8_t result[8];
int status = SCSITransfer(cmd, 10, DEVICE_TO_HOST, result, 8);
if (status == 0) {
blockCount = (result[0] << 24) | (result[1] << 16) | (result[2] << 8) | result[3];
blockSize = (result[4] << 24) | (result[5] << 16) | (result[6] << 8) | result[7];
USB_INFO("MSD [dev: %p] - blockCount: %lld, blockSize: %d, Capacity: %lld\r\n", dev, blockCount, blockSize, blockCount*blockSize);
}
return status;
}
int USBHostMSD::SCSIRequestSense() {
USB_DBG("Request sense");
uint8_t cmd[6] = {0x03,0,0,0,18,0};
uint8_t result[18];
int status = SCSITransfer(cmd, 6, DEVICE_TO_HOST, result, 18);
return status;
}
int USBHostMSD::inquiry(uint8_t lun, uint8_t page_code) {
USB_DBG("Inquiry");
uint8_t evpd = (page_code == 0) ? 0 : 1;
uint8_t cmd[6] = {0x12, (lun << 5) | evpd, page_code, 0, 36, 0};
uint8_t result[36];
int status = SCSITransfer(cmd, 6, DEVICE_TO_HOST, result, 36);
if (status == 0) {
char vid_pid[17];
memcpy(vid_pid, &result[8], 8);
vid_pid[8] = 0;
USB_INFO("MSD [dev: %p] - Vendor ID: %s", dev, vid_pid);
memcpy(vid_pid, &result[16], 16);
vid_pid[16] = 0;
USB_INFO("MSD [dev: %p] - Product ID: %s", dev, vid_pid);
memcpy(vid_pid, &result[32], 4);
vid_pid[4] = 0;
USB_INFO("MSD [dev: %p] - Product rev: %s", dev, vid_pid);
}
return status;
}
int USBHostMSD::checkResult(uint8_t res, USBEndpoint * ep) {
// if ep stalled: send clear feature
if (res == USB_TYPE_STALL_ERROR) {
res = host->controlWrite( dev,
USB_RECIPIENT_ENDPOINT | USB_HOST_TO_DEVICE | USB_REQUEST_TYPE_STANDARD,
CLEAR_FEATURE,
0, ep->getAddress(), NULL, 0);
// set state to IDLE if clear feature successful
if (res == USB_TYPE_OK) {
ep->setState(USB_TYPE_IDLE);
}
}
if (res != USB_TYPE_OK)
return -1;
return 0;
}
int USBHostMSD::SCSITransfer(uint8_t * cmd, uint8_t cmd_len, int flags, uint8_t * data, uint32_t transfer_len) {
int res = 0;
cbw.Signature = CBW_SIGNATURE;
cbw.Tag = 0;
cbw.DataLength = transfer_len;
cbw.Flags = flags;
cbw.LUN = 0;
cbw.CBLength = cmd_len;
memset(cbw.CB,0,sizeof(cbw.CB));
if (cmd) {
memcpy(cbw.CB,cmd,cmd_len);
}
// send the cbw
USB_DBG("Send CBW");
res = host->bulkWrite(dev, bulk_out,(uint8_t *)&cbw, 31);
if (checkResult(res, bulk_out))
return -1;
// data stage if needed
if (data) {
USB_DBG("data stage");
if (flags == HOST_TO_DEVICE) {
res = host->bulkWrite(dev, bulk_out, data, transfer_len);
if (checkResult(res, bulk_out))
return -1;
} else if (flags == DEVICE_TO_HOST) {
res = host->bulkRead(dev, bulk_in, data, transfer_len);
if (checkResult(res, bulk_in))
return -1;
}
}
// status stage
csw.Signature = 0;
USB_DBG("Read CSW");
res = host->bulkRead(dev, bulk_in,(uint8_t *)&csw, 13);
if (checkResult(res, bulk_in))
return -1;
if (csw.Signature != CSW_SIGNATURE) {
return -1;
}
USB_DBG("recv csw: status: %d", csw.Status);
// ModeSense?
if ((csw.Status == 1) && (cmd[0] != 0x03)) {
USB_DBG("request mode sense");
return SCSIRequestSense();
}
// perform reset recovery
if ((csw.Status == 2) && (cmd[0] != 0x03)) {
// send Bulk-Only Mass Storage Reset request
res = host->controlWrite( dev,
USB_RECIPIENT_INTERFACE | USB_HOST_TO_DEVICE | USB_REQUEST_TYPE_CLASS,
BO_MASS_STORAGE_RESET,
0, msd_intf, NULL, 0);
// unstall both endpoints
res = host->controlWrite( dev,
USB_RECIPIENT_ENDPOINT | USB_HOST_TO_DEVICE | USB_REQUEST_TYPE_STANDARD,
CLEAR_FEATURE,
0, bulk_in->getAddress(), NULL, 0);
res = host->controlWrite( dev,
USB_RECIPIENT_ENDPOINT | USB_HOST_TO_DEVICE | USB_REQUEST_TYPE_STANDARD,
CLEAR_FEATURE,
0, bulk_out->getAddress(), NULL, 0);
}
return csw.Status;
}
int USBHostMSD::dataTransfer(uint8_t * buf, uint32_t block, uint8_t nbBlock, int direction) {
uint8_t cmd[10];
memset(cmd,0,10);
cmd[0] = (direction == DEVICE_TO_HOST) ? 0x28 : 0x2A;
cmd[2] = (block >> 24) & 0xff;
cmd[3] = (block >> 16) & 0xff;
cmd[4] = (block >> 8) & 0xff;
cmd[5] = block & 0xff;
cmd[7] = (nbBlock >> 8) & 0xff;
cmd[8] = nbBlock & 0xff;
return SCSITransfer(cmd, 10, direction, buf, blockSize*nbBlock);
}
int USBHostMSD::getMaxLun() {
uint8_t buf[1], res;
res = host->controlRead( dev, USB_RECIPIENT_INTERFACE | USB_DEVICE_TO_HOST | USB_REQUEST_TYPE_CLASS,
0xfe, 0, msd_intf, buf, 1);
USB_DBG("max lun: %d", buf[0]);
return res;
}
int USBHostMSD::disk_initialize() {
USB_DBG("FILESYSTEM: init");
U16 i, timeout = 10;
getMaxLun();
for (i = 0; i < timeout; i++) {
Thread::wait(100);
if (!testUnitReady())
break;
}
if (i == timeout) {
disk_init = false;
return -1;
}
inquiry(0, 0);
disk_init = 1;
return readCapacity();
}
int USBHostMSD::disk_write(const uint8_t *buffer, uint64_t block_number) {
USB_DBG("FILESYSTEM: write block: %lld", block_number);
if (!disk_init) {
disk_initialize();
}
if (!disk_init)
return -1;
return dataTransfer((uint8_t *)buffer, block_number, 1, HOST_TO_DEVICE);
}
int USBHostMSD::disk_read(uint8_t * buffer, uint64_t block_number) {
USB_DBG("FILESYSTEM: read block %lld", block_number);
if (!disk_init) {
disk_initialize();
}
if (!disk_init)
return -1;
return dataTransfer((uint8_t *)buffer, block_number, 1, DEVICE_TO_HOST);
}
uint64_t USBHostMSD::disk_sectors() {
USB_DBG("FILESYSTEM: sectors");
if (!disk_init) {
disk_initialize();
}
if (!disk_init)
return 0;
return blockCount;
}
#endif