Simple USBHost library for STM32F746NG Discovery board. Only either the Fastspeed or the Highspeed port can be used( not both together)
Dependents: DISCO-F746NG_USB_Host
Fork of KL46Z-USBHost by
Diff: USBHost/USBHost.cpp
- Revision:
- 3:a3872f7593e2
diff -r 0cdac6bcc534 -r a3872f7593e2 USBHost/USBHost.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/USBHost/USBHost.cpp Sat Jan 25 12:51:44 2014 +0000 @@ -0,0 +1,331 @@ +// 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 + +#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)) + +#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() { +} + +/* virtual */ bool USBHost::enumeration() { + uint8_t desc[64]; + MaxPacketSize0 = 8; + dev_addr = 0; + USB0->ADDR = (lowSpeed ? USB_ADDR_LSEN_MASK : 0x00) | USB_ADDR_ADDR(dev_addr); + wait_ms(100); + SETUP_PACKET setup_get_descriptor = {0x80, GET_DESCRIPTOR, 1<<8, 0, 0}; + int result = ControlRead(&setup_get_descriptor, desc, 8); + if (result < 8) { + USB_DBG("result=%d %02x", result, LastStatus); + USB_DBG_ERRSTAT(); + return false; + } + USB_DBG_HEX(desc, result); + USB_DBG_ERRSTAT(); + DeviceDescriptor* dev_desc = reinterpret_cast<DeviceDescriptor*>(desc); + MaxPacketSize0 = dev_desc->bMaxPacketSize; + + SETUP_PACKET setup_set_address = {0x00, SET_ADDRESS, 1, 0, 0}; + result = ControlWrite(&setup_set_address); + if (result < 0) { + USB_DBG("result=%d %02x", result, LastStatus); + USB_DBG_ERRSTAT(); + return false; + } + wait_ms(100); + dev_addr = 1; + + result = ControlRead(&setup_get_descriptor, desc, sizeof(desc)); + if (result < 8) { + USB_DBG("result=%d", result); + USB_DBG_ERRSTAT(); + return false; + } + USB_DBG_HEX(desc, result); + USB_DBG_ERRSTAT(); + + USB_INFO("VID: %04x, PID: %04x\n", dev_desc->idVendor, dev_desc->idProduct); + if (dev_desc->bDeviceClass == HUB_CLASS) { + USB_INFO("USB hub not supported.\n\n"); + exit(1); + } + + setup_get_descriptor.wValue = 2<<8; // config descriptor + result = ControlRead(&setup_get_descriptor, desc, 4); + if (result != 4) { + USB_DBG("result=%d", result); + USB_DBG_ERRSTAT(); + return false; + } + USB_DBG_HEX(desc, 4); + USB_DBG_ERRSTAT(); + + int TotalLength = desc[2]|desc[3]<<8; + uint8_t* buf = new uint8_t[TotalLength]; + result = ControlRead(&setup_get_descriptor, buf, TotalLength); + if (result != TotalLength) { + USB_DBG("result=%d TotalLength=%d %02x", result, TotalLength, LastStatus); + USB_DBG_ERRSTAT(); + return false; + } + USB_DBG_HEX(buf, TotalLength); + USB_DBG_ERRSTAT(); + + for(int i = 0; i < TotalLength; ) { + int Length = buf[i]; + uint8_t DescriptorType = buf[i+1]; + if (DescriptorType == 0x05) { // endpoint + EndpointDescriptor* desc = reinterpret_cast<EndpointDescriptor*>(buf+i); + USBEndpoint* ep = NULL; + if (desc->bmAttributes == 0x03) { // interrupt + if (desc->bEndpointAddress & 0x80) { + ep = &ep_int_in; + } + } else if (desc->bmAttributes == 0x02) { // bulk + ep = (desc->bEndpointAddress & 0x80) ? &ep_bulk_in : &ep_bulk_out; + } + if (ep) { + ep->setAddress(desc->bEndpointAddress); + ep->setSize(desc->wMaxPacketSize); + } + } + USB_DBG_HEX(buf+i, Length); + i += Length; + } + delete[] buf; + + // config = 1 + SETUP_PACKET setup_set_config = {0x00, SET_CONFIGURATION, 1, 0, 0}; + result = ControlWrite(&setup_set_config); + if (result < 0) { + USB_DBG("set config: %02x", LastStatus); + USB_DBG_ERRSTAT(); + if (lowSpeed && LastStatus == STALL) { // TODO: + wait_ms(100); + return true; + } + return false; + } + wait_ms(100); + return true; +} + +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(&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(&setup, buf, len); + if (result >= 0) { + return USB_TYPE_OK; + } + USB_DBG("result=%d %02x", result, LastStatus); + USB_DBG_ERRSTAT(); + 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(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(buf, len); + if (result >= 0) { + return USB_TYPE_OK; + } + USB_DBG2("result=%d %02x", result, LastStatus); + return USB_TYPE_ERROR; +} + +USB_TYPE USBHost::interruptWrite(USBDeviceConnected * dev, USBEndpoint * ep, uint8_t * buf, uint32_t len, bool blocking) { + USB_TEST_ASSERT(blocking); + int result = InterruptRead(buf, len); + if (result >= 0) { + return USB_TYPE_OK; + } + return USB_TYPE_ERROR; +} + +int USBHost::ControlRead(SETUP_PACKET* setup, uint8_t* data, int size) { + setAddr(dev_addr); + token_setup(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, MaxPacketSize0); + int result = token_in(0, 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 < MaxPacketSize0) { + break; + } + } + int result = token_out(0); // status stage + if (result < 0) { + USB_DBG("status token_out %02x", LastStatus); + if (LastStatus == STALL) { + return read_len; + } + return result; + } + return read_len; +} + +int USBHost::ControlWrite(SETUP_PACKET* setup, uint8_t* data, int size) { + setAddr(dev_addr); + token_setup(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(0, data, size); + if (write_len < 0) { + return -1; + } + } + int result = token_in(0); // status stage + if (result < 0) { + USB_DBG("result=%d %02x", result, LastStatus); + //return result; + } + return write_len; +} + +int USBHost::InterruptRead(uint8_t* data, int size) { + setAddr(dev_addr); + setEndpoint(); + const int retryLimit = 0; + int max_packet_size = ep_int_in.getSize(); + int read_len = 0; + for(int n = 0; read_len < size; n++) { + int size2 = std::min(size-read_len, max_packet_size); + int result = token_in(ep_int_in.getAddress() & 0x7f, 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 < max_packet_size) { + break; + } + } + return read_len; +} + +int USBHost::BulkRead(uint8_t* data, int size, int timeout_ms) { + setAddr(dev_addr); + setEndpoint(); + int max_packet_size = ep_bulk_in.getSize(); + 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, max_packet_size); + int result = token_in(ep_bulk_in.getAddress() & 0x7f, 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 < max_packet_size) { + break; + } + if (timeout_ms > 0 && t.read_ms() > timeout_ms) { + USB_DBG("timeout_ms: %d", timeout_ms); + break; + } + } + return read_len; +} + +int USBHost::BulkWrite(const uint8_t* data, int size) { + setAddr(dev_addr); + setEndpoint(); + int max_packet_size = ep_bulk_out.getSize(); + int write_len = 0; + for(int n = 0; write_len < size; n++) { + int size2 = std::min(size-write_len, max_packet_size); + int result = token_out(ep_bulk_out.getAddress(), data+write_len, size2); + if (result < 0) { + if (LastStatus == NAK) { + if (n == 0) { + return -1; + } + break; + } + //USB_DBG("token_in result=%d %02x", result, LastStatus); + return result; + } + write_len += result; + if (result < max_packet_size) { + break; + } + } + return write_len; +} +