makoto abe
Android Open Accessory Library化してみました。 バルク転送の使い方が分かっていないため、相変わらず動作は不安定。 I do not understand the usage of the bulk transfer. Please teach someone.
AndroidAccessory.cpp
- Committer:
- abe00makoto
- Date:
- 2011-06-03
- Revision:
- 0:4fcfc05943ff
File content as of revision 0:4fcfc05943ff:
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "USBHost.h"
#include "AndroidAccessory.h"
#include "mbed.h"
AndroidAccessory* _adk;
void AdkreadCallback(int device, int endpoint, int status, u8* buf, int len, void* userData);
void AdkwriteCallback(int device, int endpoint, int status, u8* buf, int len, void* userData);
AndroidAccessory::AndroidAccessory(int rbuffsize,int wbuffsize,
const char* manufacturer,
const char *model,
const char *description,
const char *version,
const char *uri,
const char *serial
) {
_adk=this;
this->manufacturer=manufacturer;
this->model=model;
this->description=description;
this->version=version;
this->uri=uri;
this->serial=serial;
u32 len;
u8* p=USBGetBuffer(&len);
if (len<(rbuffsize+wbuffsize+255)) {
error("buff size too big.please resize max=%d. currentSize=%d\r\n",len,(rbuffsize+wbuffsize+255));
}
_readbuff=p;
_readbuffsize=rbuffsize;
p+=rbuffsize;
_writebuff=p;
_writebuffsize=wbuffsize;
p+=wbuffsize;
_strbuff=p;
p+=255;
}
int AndroidAccessory::write(u8 *buff, int len) {
log("AndroidAccessory::write ");
// __disable_irq();
int ret=USBBulkTransfer(_device,output_ep,buff,len/*,AdkwriteCallback,this*/);
// __enable_irq();
log("--ret=%d \r\n",ret);
return ret;
}
#if 0
int AndroidAccessory::read(u8 *buff, int len) {
if(_initok==false)return 0;
log("AndroidAccessory::read ");
// __disable_irq();
int ret=USBBulkTransfer(_device,input_ep|0x80,buff,len);
// __enable_irq();
log("--ret=%d \r\n",ret);
return ret;
}
#endif
void AndroidAccessory::init(int device, int configuration, int interfaceNumber) {
log("AndroidAccessory::init \r\n");
// _initok=false;
_device = device;
_configuration = configuration;
_interfaceNumber = interfaceNumber;
printf("device = %d configuration = %d interfaceNumber = %d\r\n", device, configuration, interfaceNumber);
int err;
u8* buffer=_strbuff;
err = GetDescriptor(_device,DESCRIPTOR_TYPE_CONFIGURATION,0,buffer,4);
if (err < 0) {
log("Failed to get descriptor\r\n");
return;
}
int len = buffer[2] | (buffer[3] << 8);
if (len > 255) {
log("config descriptor too large\n");
/* might want to truncate here */
return;
}
err = GetDescriptor(_device,DESCRIPTOR_TYPE_CONFIGURATION,0,buffer,len);
u8* p = buffer;
input_ep=0;
output_ep=0;
EndpointDescriptor *epDesc;
while (p<(buffer+len)) {
u8 descLen = p[0];
u8 descType = p[1];
log("descLen=%d,descType=%d\r\n",descLen,descType);
switch (descType) {
case DESCRIPTOR_TYPE_CONFIGURATION:
log("config desc\r\n");
break;
case DESCRIPTOR_TYPE_INTERFACE:
log("interface desc\r\n");
break;
case DESCRIPTOR_TYPE_ENDPOINT:
epDesc=(EndpointDescriptor*)p;
if (!input_ep && (epDesc->bEndpointAddress& 0x80)) {
input_ep=epDesc->bEndpointAddress& 0x7f;
//PacketSize drop
log("input Endpoint address=%d,wMaxPacketSize=%d,bmAttributes=%d\r\n",input_ep,epDesc->wMaxPacketSize,epDesc->bmAttributes);
} else if (!output_ep) {
output_ep=epDesc->bEndpointAddress& 0x7f;
//PacketSize drop
log("output Endpoint address=%d,wMaxPacketSize=%d,bmAttributes=%d\r\n",input_ep,epDesc->wMaxPacketSize,epDesc->bmAttributes);
} else {
//other
log("non input,output Endpoint address=%d,wMaxPacketSize=%d,bmAttributes=%d\r\n",input_ep,epDesc->wMaxPacketSize,epDesc->bmAttributes);
}
break;
default:
log("unkown desc type(%d) \r\n",descType);
}
p+=descLen;
}
if (!(input_ep && output_ep)) {
log("can't find accessory endpoints\r\n");
return;
}
log("SetConfiguration\r\n");
err = SetConfiguration(device,configuration);
if (err < 0) {
log("SetConfiguration error\r\n");
return;
}
log("interrupt setup\r\n");
//interrupt setup
if (_readbuff==NULL || _readbuffsize<=0) {
error("_readbuffer error please setup buffer call setReadBuffer function\r\n");
}
if (IO_PENDING!=USBBulkTransfer(_device,input_ep|0x80,_readbuff,_readbuffsize,AdkreadCallback,this))
return;
log("setupDevice\r\n");
this->setupDevice();
// _initok=true;
}
bool AndroidAccessory::switchDevice(int device) {
if (1==getProtocol(device)) {
log("device supports protocol 1\r\n");
} else {
log("could not read device protocol version\r\n");
return false;
}
sendString(device,ACCESSORY_STRING_MANUFACTURER,manufacturer);
sendString(device,ACCESSORY_STRING_MODEL,model);
sendString(device,ACCESSORY_STRING_DESCRIPTION,description);
sendString(device,ACCESSORY_STRING_VERSION,version);
sendString(device,ACCESSORY_STRING_URI,uri);
sendString(device,ACCESSORY_STRING_SERIAL,serial);
USBControlTransfer(device,
HOST_TO_DEVICE |REQUEST_TYPE_VENDOR|RECIPIENT_DEVICE,
ACCESSORY_START,
0,//value
0, //index
0,
0,
0,
0 );
wait_ms(4);
//reset usb host
USBInit();
return true;
}
int AndroidAccessory::getProtocol(int device) {
s16 data=-1;
USBControlTransfer(device,
DEVICE_TO_HOST|REQUEST_TYPE_VENDOR|RECIPIENT_DEVICE,
ACCESSORY_GET_PROTOCOL,
0,//value
0, //index
(u8*)&data,
2,
0,
0 );
return data;
}
void AndroidAccessory::sendString(int device, int index, const char *str) {
LOG("send_string start(%d,%d,%s) %d \r\n",device,index,str,strlen(str)+1);
strcpy((char*)_strbuff,str);
//thankyou curryman san
USBControlTransfer(device,
HOST_TO_DEVICE|REQUEST_TYPE_VENDOR|RECIPIENT_DEVICE,
ACCESSORY_SEND_STRING,
0,//value
index,
_strbuff,
strlen(str)+1
);
LOG("send_string end(%d,%d,%s)\r\n",device,index,str);
}
/** from USBHost load function. initialize Android device**/
void OnLoadDevice(int device, DeviceDescriptor* deviceDesc, InterfaceDescriptor* interfaceDesc) {
printf("LoadDevice %d %02X:%02X:%02X\r\n",device,interfaceDesc->bInterfaceClass,interfaceDesc->bInterfaceSubClass,interfaceDesc->bInterfaceProtocol);
char s[128];
for (int i = 1; i < 3; i++) {
if (GetString(device,i,s,sizeof(s)) < 0)
break;
printf("%d: %s\r\n",i,s);
}
//for android ADK
if ( ( deviceDesc->idVendor != 0x18D1 ||
( deviceDesc->idProduct != 0x2D00 && deviceDesc->idProduct != 0x2D01))
&&_adk->switchDevice(device)) {
printf(" try to change accmode.interfaceDesc->bInterfaceClass=%d\r\n",interfaceDesc->bInterfaceClass);
//1th root
//accmode_support=true;
printf("accessory mode ok.\r\n");
return;
}
if (deviceDesc->idVendor == 0x18D1 &&
(deviceDesc->idProduct == 0x2D00 || deviceDesc->idProduct == 0x2D01)) {
//2th root
printf("connecting Android.\r\n");
printf("idVender=%x idProduct=%x interfaceDesc->bInterfaceClass=%d\r\n",deviceDesc->idVendor,deviceDesc->idProduct,interfaceDesc->bInterfaceClass);
_adk->init(device,1,0);
//_AdkUSB.loop();
return;
}
}
void AdkreadCallback(int device, int endpoint, int status, u8* buf, int len, void* userData) {
log("AdkreadCallback(int device=%d, int endpoint=%x, int status=%d, u8* buf=%p, int len=%d, void* userData=%p)\r\n",
device,endpoint,status,buf,len,userData);
// __disable_irq();
AndroidAccessory* t = (AndroidAccessory*)userData;
if (status!=0) {
log("adk end.\r\n");
t->adkEnd();
// __enable_irq();
USBInit();
return;
}
//virtual method run
t->callbackRead(buf,len);
USBBulkTransfer(device, endpoint , buf, len, AdkreadCallback, userData);
// wait_ms(4);
// __enable_irq();
}
#if 0
void AdkwriteCallback(int device, int endpoint, int status, u8* buf, int len, void* userData) {
log("AdkwriteCallback(int device=%d, int endpoint=%x, int status=%d, u8* buf=%p, int len=%d, void* userData=%p)\r\n",
device,endpoint,status,buf,len,userData);
//AndroidAccessory* t = (AndroidAccessory*)userData;
//wait_ms(4);
}
#endif