Justin S
first release for keyboard
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F401RE-USBHost
by 
Norimasa Okamoto
USBHost/USBHost.cpp
- Committer:
- va009039
- Date:
- 2014-01-31
- Revision:
- 8:6463cd1964c0
- Parent:
- 7:9a20482c9a7a
- Child:
- 9:7f9f64cf5ded
File content as of revision 8:6463cd1964c0:
// Simple USBHost for FRDM-KL46Z
#include "USBHost.h"
#include <algorithm>
template <bool>struct CtAssert;
template <>struct CtAssert<true> {};
#define CTASSERT(A) CtAssert<A>();
#ifdef _USB_DBG
#define USB_DBG(...) do{fprintf(stderr,"[%s@%d] ",__PRETTY_FUNCTION__,__LINE__);fprintf(stderr,__VA_ARGS__);fprintf(stderr,"\n");} while(0);
#define USB_DBG2(...) do{fprintf(stderr,"[%s@%d] ",__PRETTY_FUNCTION__,__LINE__);fprintf(stderr,__VA_ARGS__);fprintf(stderr,"\n");} while(0);
#define USB_DBG_HEX(A,B) debug_hex(A,B)
#define USB_DBG_ERRSTAT() report.print_errstat();
void debug_hex(uint8_t* buf, int size);
#else
#define USB_DBG(...) while(0)
#define USB_DBG2(...) while(0)
#define USB_DBG_HEX(A,B) while(0)
#define USB_DBG_ERRSTAT() while(0)
#endif
#ifdef _USB_TEST
#define USB_TEST_ASSERT(A) while(!(A)){fprintf(stderr,"\n\n%s@%d %s ASSERT!\n\n",__PRETTY_FUNCTION__,__LINE__,#A);exit(1);};
#define USB_TEST_ASSERT_FALSE(A) USB_TEST_ASSERT(!(A))
#else
#define USB_TEST_ASSERT(A) while(0)
#define USB_TEST_ASSERT_FALSE(A) while(0)
#endif
#define USB_INFO(...) do{fprintf(stderr,__VA_ARGS__);}while(0);
USBHost* USBHost::inst = NULL;
USBHost* USBHost::getHostInst()
{
if (inst == NULL) {
inst = new USBHost();
inst->init();
}
return inst;
}
USBHost::USBHost() {
DeviceLists_count = 0;
}
/* virtual */ bool USBHost::addDevice(int hub, int port, bool lowSpeed) {
USBDeviceConnected* dev = new USBDeviceConnected;
USBEndpoint* ep = new USBEndpoint;
ep->setDevice(dev);
dev->init(hub, port, lowSpeed);
dev->setAddress(0);
dev->setEpCtl(ep);
uint8_t desc[18];
wait_ms(100);
int rc = controlRead(dev, 0x80, GET_DESCRIPTOR, 1<<8, 0, desc, 8);
USB_TEST_ASSERT(rc == USB_TYPE_OK);
USB_DBG_HEX(desc, 8);
DeviceDescriptor* dev_desc = reinterpret_cast<DeviceDescriptor*>(desc);
ep->setSize(dev_desc->bMaxPacketSize);
int new_addr = USBDeviceConnected::getNewAddress();
rc = controlWrite(dev, 0x00, SET_ADDRESS, new_addr, 0, NULL, 0);
USB_TEST_ASSERT(rc == USB_TYPE_OK);
dev->setAddress(new_addr);
wait_ms(100);
rc = controlRead(dev, 0x80, GET_DESCRIPTOR, 1<<8, 0, desc, sizeof(desc));
USB_TEST_ASSERT(rc == USB_TYPE_OK);
USB_DBG_HEX(desc, sizeof(desc));
dev->setVid(dev_desc->idVendor);
dev->setPid(dev_desc->idProduct);
dev->setClass(dev_desc->bDeviceClass);
USB_INFO("hub: %d port: %d speed: %s vid: %04x pid: %04x class: %02x addr: %d\n",
hub, port, (lowSpeed ? "low " : "full"), dev->getVid(), dev->getPid(), dev->getClass(),
dev->getAddress());
USB_TEST_ASSERT(DeviceLists_count < MAX_DEVICE_CONNECTED);
DeviceLists[DeviceLists_count++] = dev;
if (dev->getClass() == HUB_CLASS) {
const int config = 1;
int rc = controlWrite(dev, 0x00, SET_CONFIGURATION, config, 0, NULL, 0);
USB_TEST_ASSERT(rc == USB_TYPE_OK);
wait_ms(100);
Hub(dev);
}
return true;
}
// enumerate a device with the control USBEndpoint
USB_TYPE USBHost::enumerate(USBDeviceConnected * dev, IUSBEnumerator* pEnumerator)
{
if (dev->getClass() == HUB_CLASS) { // skip hub class
return USB_TYPE_OK;
}
uint8_t desc[18];
USB_TYPE rc = controlRead(dev, 0x80, GET_DESCRIPTOR, 1<<8, 0, desc, sizeof(desc));
USB_TEST_ASSERT(rc == USB_TYPE_OK);
USB_DBG_HEX(desc, sizeof(desc));
if (rc != USB_TYPE_OK) {
return rc;
}
DeviceDescriptor* dev_desc = reinterpret_cast<DeviceDescriptor*>(desc);
dev->setClass(dev_desc->bDeviceClass);
pEnumerator->setVidPid(dev->getVid(), dev->getPid());
rc = controlRead(dev, 0x80, GET_DESCRIPTOR, 2<<8, 0, desc, 4);
USB_TEST_ASSERT(rc == USB_TYPE_OK);
USB_DBG_HEX(desc, 4);
int TotalLength = desc[2]|desc[3]<<8;
uint8_t* buf = new uint8_t[TotalLength];
rc = controlRead(dev, 0x80, GET_DESCRIPTOR, 2<<8, 0, buf, TotalLength);
USB_TEST_ASSERT(rc == USB_TYPE_OK);
//USB_DBG_HEX(buf, TotalLength);
// Parse the configuration descriptor
parseConfDescr(dev, buf, TotalLength, pEnumerator);
delete[] buf;
// only set configuration if not enumerated before
if (!dev->isEnumerated()) {
USB_DBG("Set configuration 1 on dev: %p", dev);
// sixth step: set configuration (only 1 supported)
int config = 1;
USB_TYPE res = controlWrite(dev, 0x00, SET_CONFIGURATION, config, 0, NULL, 0);
if (res != USB_TYPE_OK) {
USB_DBG("SET CONF FAILED");
return res;
}
// Some devices may require this delay
wait_ms(100);
dev->setEnumerated();
// Now the device is enumerated!
USB_DBG("dev %p is enumerated", dev);
}
return USB_TYPE_OK;
}
// this method fills the USBDeviceConnected object: class,.... . It also add endpoints found in the descriptor.
void USBHost::parseConfDescr(USBDeviceConnected * dev, uint8_t * conf_descr, uint32_t len, IUSBEnumerator* pEnumerator)
{
uint32_t index = 0;
uint32_t len_desc = 0;
uint8_t id = 0;
int nb_endpoints_used = 0;
USBEndpoint * ep = NULL;
uint8_t intf_nb = 0;
bool parsing_intf = false;
uint8_t current_intf = 0;
EndpointDescriptor* ep_desc;
while (index < len) {
len_desc = conf_descr[index];
id = conf_descr[index+1];
switch (id) {
case CONFIGURATION_DESCRIPTOR:
USB_DBG("dev: %p has %d intf", dev, conf_descr[4]);
dev->setNbIntf(conf_descr[4]);
break;
case INTERFACE_DESCRIPTOR:
if(pEnumerator->parseInterface(conf_descr[index + 2], conf_descr[index + 5], conf_descr[index + 6], conf_descr[index + 7])) {
if (intf_nb++ <= MAX_INTF) {
current_intf = conf_descr[index + 2];
dev->addInterface(current_intf, conf_descr[index + 5], conf_descr[index + 6], conf_descr[index + 7]);
nb_endpoints_used = 0;
USB_DBG("ADD INTF %d on device %p: class: %d, subclass: %d, proto: %d", current_intf, dev, conf_descr[index + 5],conf_descr[index + 6],conf_descr[index + 7]);
} else {
USB_DBG("Drop intf...");
}
parsing_intf = true;
} else {
parsing_intf = false;
}
break;
case ENDPOINT_DESCRIPTOR:
ep_desc = reinterpret_cast<EndpointDescriptor*>(conf_descr+index);
if (parsing_intf && (intf_nb <= MAX_INTF) ) {
if (nb_endpoints_used < MAX_ENDPOINT_PER_INTERFACE) {
ENDPOINT_TYPE type = (ENDPOINT_TYPE)(ep_desc->bmAttributes & 0x03);
ENDPOINT_DIRECTION dir = (ep_desc->bEndpointAddress & 0x80) ? IN : OUT;
if(pEnumerator->useEndpoint(current_intf, type, dir)) {
ep = new USBEndpoint;
ep->setDevice(dev);
ep->setType(type);
ep->setAddress(ep_desc->bEndpointAddress);
ep->setSize(ep_desc->wMaxPacketSize);
USB_DBG("ADD USBEndpoint %p, on interf %d on device %p", ep, current_intf, dev);
dev->addEndpoint(current_intf, ep);
nb_endpoints_used++;
}
}
}
break;
case HID_DESCRIPTOR:
//lenReportDescr = conf_descr[index + 7] | (conf_descr[index + 8] << 8);
break;
default:
break;
}
index += len_desc;
}
}
USB_TYPE USBHost::controlRead(USBDeviceConnected* dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len) {
SETUP_PACKET setup = {requestType, request, value, index};
int result = ControlRead(dev, &setup, buf, len);
//USB_DBG2("result=%d %02x", result, LastStatus);
return (result >= 0) ? USB_TYPE_OK : USB_TYPE_ERROR;
}
USB_TYPE USBHost::controlWrite(USBDeviceConnected* dev, uint8_t requestType, uint8_t request, uint32_t value, uint32_t index, uint8_t * buf, uint32_t len) {
SETUP_PACKET setup = {requestType, request, value, index};
int result = ControlWrite(dev, &setup, buf, len);
if (result >= 0) {
return USB_TYPE_OK;
}
USB_DBG("result=%d %02x", result, LastStatus);
USB_DBG_HEX(buf, len);
return USB_TYPE_ERROR;
}
USB_TYPE USBHost::bulkRead(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) {
USB_TEST_ASSERT(blocking);
int result = BulkRead(ep, buf, len);
if (result >= 0) {
return USB_TYPE_OK;
}
//USB_DBG2("result=%d %02x", result, host->LastStatus);
return USB_TYPE_ERROR;
}
USB_TYPE USBHost::bulkWrite(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) {
USB_TEST_ASSERT(blocking);
int result = BulkWrite(ep, buf, len);
if (result >= 0) {
return USB_TYPE_OK;
}
USB_DBG2("result=%d %02x", result, LastStatus);
return USB_TYPE_ERROR;
}
USB_TYPE USBHost::interruptRead(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) {
int result = InterruptRead(ep, buf, len);
if (result >= 0) {
return USB_TYPE_OK;
}
return USB_TYPE_ERROR;
}
int USBHost::ControlRead(USBDeviceConnected* dev, SETUP_PACKET* setup, uint8_t* data, int size) {
USB_TEST_ASSERT(dev);
USBEndpoint* ep = dev->getEpCtl();
USB_TEST_ASSERT(ep);
setAddr(dev->getAddress(), dev->getSpeed());
token_setup(ep, setup, size); // setup stage
if (LastStatus != ACK) {
USB_DBG("setup %02x", LastStatus);
return -1;
}
int read_len = 0;
while(read_len < size) {
int size2 = std::min(size-read_len, ep->getSize());
int result = token_in(ep, data+read_len, size2);
//USB_DBG("token_in result=%d %02x", result, LastStatus);
if (result < 0) {
USB_DBG("token_in %d/%d %02x", read_len, size, LastStatus);
return result;
}
read_len += result;
if (result < ep->getSize()) {
break;
}
}
ep->setData01(DATA1);
int result = token_out(ep); // status stage
if (result < 0) {
USB_DBG("status token_out %02x", LastStatus);
if (LastStatus == STALL) {
ep->setLengthTransferred(read_len);
return read_len;
}
return result;
}
ep->setLengthTransferred(read_len);
return read_len;
}
int USBHost::ControlWrite(USBDeviceConnected* dev, SETUP_PACKET* setup, uint8_t* data, int size) {
USB_TEST_ASSERT(dev);
USBEndpoint* ep = dev->getEpCtl();
USB_TEST_ASSERT(ep);
setAddr(dev->getAddress(), dev->getSpeed());
token_setup(ep, setup, size); // setup stage
if (LastStatus != ACK) {
USB_DBG("setup %02x", LastStatus);
return -1;
}
int write_len = 0;
if (data != NULL) {
write_len = token_out(ep, data, size);
if (write_len < 0) {
return -1;
}
}
ep->setData01(DATA1);
int result = token_in(ep); // status stage
if (result < 0) {
USB_DBG("result=%d %02x", result, LastStatus);
//return result;
}
ep->setLengthTransferred(write_len);
return write_len;
}
int USBHost::InterruptRead(USBEndpoint* ep, uint8_t* data, int size) {
USB_TEST_ASSERT(ep);
USBDeviceConnected* dev = ep->getDevice();
USB_TEST_ASSERT(dev);
setAddr(dev->getAddress(), dev->getSpeed());
setEndpoint();
const int retryLimit = 0;
int read_len = 0;
for(int n = 0; read_len < size; n++) {
int size2 = std::min(size-read_len, ep->getSize());
int result = token_in(ep, data+read_len, size2, retryLimit);
if (result < 0) {
if (LastStatus == NAK) {
if (n == 0) {
return -1;
}
break;
}
//USB_DBG("token_in result=%d %02x", result, LastStatus);
return result;
}
read_len += result;
if (result < ep->getSize()) {
break;
}
}
ep->setLengthTransferred(read_len);
return read_len;
}
int USBHost::BulkRead(USBEndpoint* ep, uint8_t* data, int size, int timeout_ms) {
USB_TEST_ASSERT(ep);
USBDeviceConnected* dev = ep->getDevice();
USB_TEST_ASSERT(dev);
setAddr(dev->getAddress());
setEndpoint();
int retryLimit = (timeout_ms == 0) ? 0 : 10;
int read_len = 0;
Timer t;
for(int n = 0; read_len < size; n++) {
int size2 = std::min(size-read_len, ep->getSize());
int result = token_in(ep, data+read_len, size2, retryLimit);
if (result < 0) {
if (LastStatus == NAK) {
if (n == 0) {
return -1;
}
break;
}
//USB_DBG("token_in result=%d %02x", result, LastStatus);
return result;
}
read_len += result;
if (result < ep->getSize()) {
break;
}
if (timeout_ms > 0 && t.read_ms() > timeout_ms) {
USB_DBG("timeout_ms: %d", timeout_ms);
break;
}
}
ep->setLengthTransferred(read_len);
return read_len;
}
int USBHost::BulkWrite(USBEndpoint* ep, const uint8_t* data, int size) {
USB_TEST_ASSERT(ep);
USBDeviceConnected* dev = ep->getDevice();
USB_TEST_ASSERT(dev);
setAddr(dev->getAddress());
setEndpoint();
int write_len = 0;
for(int n = 0; write_len < size; n++) {
int size2 = std::min(size-write_len, ep->getSize());
int result = token_out(ep, data+write_len, size2);
if (result < 0) {
if (LastStatus == NAK) {
if (n == 0) {
return -1;
}
break;
}
USB_DBG("token_out result=%d %02x", result, LastStatus);
return result;
}
write_len += result;
if (result < ep->getSize()) {
break;
}
}
ep->setLengthTransferred(write_len);
return write_len;
}
int USBHost::IsochronousRead(USBEndpoint* ep, uint8_t* data, int size) {
USBDeviceConnected* dev = ep->getDevice();
USB_TEST_ASSERT(dev);
setAddr(dev->getAddress());
int result = token_iso_in(ep, data, size);
if (result >= 0) {
ep->setLengthTransferred(result);
}
return result;
}