1st Release
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Diff: targets/TARGET_Silicon_Labs/USBHAL_EFM32.cpp
- Revision:
- 71:53949e6131f6
diff -r 2c525a50f1b6 -r 53949e6131f6 targets/TARGET_Silicon_Labs/USBHAL_EFM32.cpp --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/targets/TARGET_Silicon_Labs/USBHAL_EFM32.cpp Thu Jul 27 12:14:04 2017 +0100 @@ -0,0 +1,775 @@ +/* Copyright 2015 Silicon Labs, http://www.silabs.com + * + * 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. + */ + +#if defined TARGET_EFM32GG_STK3700 || \ + defined TARGET_EFM32LG_STK3600 || \ + defined TARGET_EFM32WG_STK3800 || \ + defined TARGET_EFM32HG_STK3400 + +#include "USBHAL.h" +#include "em_usb.h" +#include "em_usbtypes.h" +#include "em_usbhal.h" +#include "em_usbd.h" + +#include "sleepmodes.h" + +enum USBISRCommand { + CMD_HANDLED = 0, + CMD_EP0SETUP, + CMD_EP0IN, + CMD_EP0OUT, + CMD_EP_XFER_COMPLETED, + CMD_SOF, + CMD_BUSRESET, + CMD_SUSPEND_STATE_CHANGED, + CMD_ENUM_END_MARKER +}; + +enum IEPStatus { + NOT_CONFIGURED = 0, + IDLE = 1, + READ_PENDING = 2, + WRITE_PENDING = 3, + READ_COMPLETE = 4, + WRITE_COMPLETE = 5, + FAILED_INVALID = 6, + FAILED_STALLED = 7 +}; + +typedef struct { + IEPStatus status; + uint32_t byte_count; + uint32_t max_packet; + USB_XferCompleteCb_TypeDef intern_cb; + uint8_t *data_buf; +} ep_state_t; + +USBHAL * USBHAL::instance; +static uint8_t ep0setupdata[8]; +static ep_state_t ep_state[NUMBER_OF_ENDPOINTS]; +#ifdef USB_USE_DYNAMIC_MEMORY +static uint8_t ep0in_data_buf[MAX_PACKET_SIZE_EP0] __attribute__ ((aligned (4))); +static uint8_t ep0out_data_buf[MAX_PACKET_SIZE_EP0]; // FIXME: does this need to be this big? +#else +static uint8_t ep_data_buf[NUMBER_OF_ENDPOINTS][64] __attribute__ ((aligned (4))); +#endif + +static void run_cmd(USBISRCommand cmd, uint32_t param); +static void (*isrptr)() = NULL; +static USBISRCommand usb_isrcmd = CMD_HANDLED; +static uint32_t usb_isrcmd_param = 0; + +extern "C" void usbhal_allow_em2(bool allow_em2); + +#ifdef DEBUG_USB_API +#define TRACE(fmt,...) printf("USB: %s: " fmt "\n", __func__, __VA_ARGS__); +#define TRACE_FUNC_IN printf("USB: > %s\n",__func__); +#define TRACE_FUNC_IN_P(fmt, ...) printf("USB: > %s: " fmt "\n", __func__, __VA_ARGS__); +#else +#define TRACE(fmt,...) +#define TRACE_FUNC_IN +#define TRACE_FUNC_IN_P(fmt, ...) +#endif + +static EP_STATUS internEndpointRead(uint8_t ep, uint32_t maxSize); + +static int usbhal_xfer_complete_cb(uint8_t epaddr, USB_Status_TypeDef status, + uint32_t xferred, uint32_t remaining); +static void usbhal_free_buffers(void); + +/* Internal EP transfer complete callbacks */ +#define EPCB(n) static int usbhal_xfer_complete_cb_##n(USB_Status_TypeDef status, \ + uint32_t xferred, uint32_t remaining) { \ + return usbhal_xfer_complete_cb(n, status, xferred, remaining); \ +} +/* ------^ */ +EPCB(EP0OUT) +EPCB(EP0IN) +EPCB(EP1OUT) +EPCB(EP1IN) +EPCB(EP2OUT) +EPCB(EP2IN) +EPCB(EP3OUT) +EPCB(EP3IN) +#ifndef TARGET_EFM32HG_STK3400 +EPCB(EP4OUT) +EPCB(EP4IN) +EPCB(EP5OUT) +EPCB(EP5IN) +EPCB(EP6OUT) +EPCB(EP6IN) +#endif + +static inline bool is_aligned(const void *pointer, size_t byte_count) +{ + return ((uintptr_t)pointer % byte_count == 0); +} + +USBHAL::USBHAL(void) +{ + TRACE_FUNC_IN; + + isrptr = &USBHAL::_usbisr; + + if (instance) { + TRACE("Assert self failed! instance=%p", instance); + abort(); + } + instance = this; + + // When USB is active, we can't go below EM1. This block may + // be dynamically removed/reinstated to allow deeper sleep. + usbhal_allow_em2(false); + + // When in suspend / Vbus off we can go to EM2, but never below + // that as long as USB is being used. Despite the name the call here + // blocks entering modes _below_ EM2, but allows EM2. + blockSleepMode(EM2); + + epCallback[EP0OUT] = NULL; + epCallback[EP0IN ] = NULL; + epCallback[EP1OUT] = &USBHAL::EP1_OUT_callback; + epCallback[EP1IN ] = &USBHAL::EP1_IN_callback; + epCallback[EP2OUT] = &USBHAL::EP2_OUT_callback; + epCallback[EP2IN ] = &USBHAL::EP2_IN_callback; + epCallback[EP3OUT] = &USBHAL::EP3_OUT_callback; + epCallback[EP3IN ] = &USBHAL::EP3_IN_callback; +#ifndef TARGET_EFM32HG_STK3400 + epCallback[EP4OUT] = &USBHAL::EP4_OUT_callback; + epCallback[EP4IN ] = &USBHAL::EP4_IN_callback; + epCallback[EP5OUT] = &USBHAL::EP5_OUT_callback; + epCallback[EP5IN ] = &USBHAL::EP5_IN_callback; + epCallback[EP6OUT] = &USBHAL::EP6_OUT_callback; + epCallback[EP6IN ] = &USBHAL::EP6_IN_callback; +#endif + + memset(ep_state, 0, sizeof(ep_state)); + + ep_state[EP0OUT].intern_cb = usbhal_xfer_complete_cb_EP0OUT; + ep_state[EP0IN ].intern_cb = usbhal_xfer_complete_cb_EP0IN; + ep_state[EP1OUT].intern_cb = usbhal_xfer_complete_cb_EP1OUT; + ep_state[EP1IN ].intern_cb = usbhal_xfer_complete_cb_EP1IN; + ep_state[EP2OUT].intern_cb = usbhal_xfer_complete_cb_EP2OUT; + ep_state[EP2IN ].intern_cb = usbhal_xfer_complete_cb_EP2IN; + ep_state[EP3OUT].intern_cb = usbhal_xfer_complete_cb_EP3OUT; + ep_state[EP3IN ].intern_cb = usbhal_xfer_complete_cb_EP3IN; +#ifndef TARGET_EFM32HG_STK3400 + ep_state[EP4OUT].intern_cb = usbhal_xfer_complete_cb_EP4OUT; + ep_state[EP4IN ].intern_cb = usbhal_xfer_complete_cb_EP4IN; + ep_state[EP5OUT].intern_cb = usbhal_xfer_complete_cb_EP5OUT; + ep_state[EP5IN ].intern_cb = usbhal_xfer_complete_cb_EP5IN; + ep_state[EP6OUT].intern_cb = usbhal_xfer_complete_cb_EP6OUT; + ep_state[EP6IN ].intern_cb = usbhal_xfer_complete_cb_EP6IN; +#endif + +#ifdef USB_USE_DYNAMIC_MEMORY + ep_state[EP0OUT].data_buf = ep0out_data_buf; + ep_state[EP0IN].data_buf = ep0in_data_buf; +#else + for (int i=0 ; i<NUMBER_OF_ENDPOINTS ; i++) { + ep_state[i].data_buf = ep_data_buf[i]; + } +#endif +} + +USBHAL::~USBHAL(void) +{ + TRACE_FUNC_IN; + USBD_AbortAllTransfers(); + USBD_Disconnect(); + usbhal_free_buffers(); + + usbhal_allow_em2(true); + unblockSleepMode(EM2); +} + +extern "C" void usbhal_allow_em2(bool allow_em2) +{ + if (allow_em2) { + // unblockSleepMode is safe to call even if we would unblock + // an already unblocked mode, so no checks here. + unblockSleepMode(EM1); + } else { + blockSleepMode(EM1); + } +} + +static void usbhal_reset_cb(void) +{ + TRACE_FUNC_IN; + run_cmd(CMD_BUSRESET, 0); +} + +#ifdef DEBUG_USB_API +static const char *usbstate[] = { "NONE", "ATTACHED", "POWERED", "DEFAULT", + "ADDRESSED", "CONFIGURED", "SUSPENDED", "???" }; +#endif + +static void usbhal_state_change_cb(USBD_State_TypeDef oldState, + USBD_State_TypeDef newState) +{ + TRACE("state changed %s -> %s", usbstate[oldState], usbstate[newState]); + + if (oldState == USBD_STATE_SUSPENDED) { + run_cmd(CMD_SUSPEND_STATE_CHANGED, 0); + } + + if (newState == USBD_STATE_SUSPENDED) { + run_cmd(CMD_SUSPEND_STATE_CHANGED, 1); + } + + // Should call connectStateChanged from here as well but there is + // no documentation on when to actually do so. (And the implementation + // in USBDevice.cpp is a stub) + + // HACK! Since connectStateChanged is not used, indicate the loss + // off connection by reporting a bus reset. This causes USBDevice + // to realise that at least it's not in CONFIGURED anymore, and + // stop trying to read/write in a busyloop. + if (newState == USBD_STATE_NONE) { + run_cmd(CMD_BUSRESET, 0); + } +} + +static int usbhal_setupcmd_cb(const USB_Setup_TypeDef *setup) +{ + TRACE_FUNC_IN; + if (!setup) { + EFM_ASSERT(false); + return USB_STATUS_REQ_ERR; + } + + memcpy(ep0setupdata, setup, 8); + run_cmd(CMD_EP0SETUP, 0); + + return USB_STATUS_OK; +} + +static void usbhal_sof_cb(uint16_t frameNum) +{ + run_cmd(CMD_SOF, frameNum); +} + +static void usbhal_free_buffers(void) +{ +#ifdef USB_USE_DYNAMIC_MEMORY + TRACE_FUNC_IN; + + for (int i=EP1OUT ; i<NUMBER_OF_ENDPOINTS ; i++ ) { + if (ep_state[i].data_buf) { + free(ep_state[i].data_buf); + ep_state[i].data_buf = NULL; + } + } +#endif +} + +void USBHAL::connect(void) +{ + TRACE_FUNC_IN; + + // Init datastructures must be static - driver will use these even after the init function exits! + + static const uint8_t buffer_multiplier[] = { 1 }; // Mult 1 for control EP + static const USBD_Callbacks_TypeDef usbd_callbacks = { + .usbReset = usbhal_reset_cb, + .usbStateChange = usbhal_state_change_cb, + .setupCmd = usbhal_setupcmd_cb, + .isSelfPowered = NULL, + .sofInt = usbhal_sof_cb + }; + + USBD_Init_TypeDef initdata = { + .deviceDescriptor = NULL, + .configDescriptor = NULL, + .stringDescriptors = NULL, + .numberOfStrings = 0, + .bufferingMultiplier = buffer_multiplier, + .callbacks = &usbd_callbacks, + .reserved = 0 + }; + + int ret = USBD_Init(&initdata); + + TRACE("init = %d, devicedesc = %lx, configdesc = %lx", ret, + (uint32_t) initdata.deviceDescriptor, + (uint32_t) initdata.configDescriptor); + + EFM_ASSERT(ret == USB_STATUS_OK); +} + +void USBHAL::disconnect(void) +{ + TRACE_FUNC_IN; + USBD_Disconnect(); +} + +void USBHAL::configureDevice(void) +{ + TRACE_FUNC_IN; + USBD_SetUsbState(USBD_STATE_CONFIGURED); +} + +void USBHAL::unconfigureDevice(void) +{ + TRACE_FUNC_IN; + USBD_SetUsbState(USBD_STATE_DEFAULT); + usbhal_free_buffers(); +} + +void USBHAL::setAddress(uint8_t address) +{ + TRACE_FUNC_IN_P("addr 0x%x", (unsigned)address); + USBD_SetAddress(address); +} + +void USBHAL::remoteWakeup(void) +{ + TRACE_FUNC_IN; + USBD_RemoteWakeup(); +} + +void USBHAL::EP0setup(uint8_t *buffer) +{ + TRACE_FUNC_IN; + EFM_ASSERT(buffer); + if (buffer) { + memcpy(buffer, ep0setupdata, 8); + } +} + +void USBHAL::EP0read(void) +{ + TRACE_FUNC_IN; + (void)internEndpointRead(0, MAX_PACKET_SIZE_EP0); +} + +void USBHAL::EP0readStage(void) +{ + TRACE_FUNC_IN; + // Not needed +} + +uint32_t USBHAL::EP0getReadResult(uint8_t *buffer) +{ + TRACE_FUNC_IN; + EFM_ASSERT(buffer); + + uint32_t read = 0; + endpointReadResult(0, buffer, &read); + return read; +} + +static int usbhal_xfer_complete_cb(uint8_t ep, USB_Status_TypeDef status, + uint32_t xferred, uint32_t remaining) +{ + TRACE_FUNC_IN_P("ep 0x%x, status %u, xferred %lu, rem %lu", + ep, status, xferred, remaining); + + if (ep >= NUMBER_OF_ENDPOINTS) { + EFM_ASSERT(false); + return USB_STATUS_REQ_ERR; + } + + switch (ep) { + case EP0OUT: + if (ep_state[EP0OUT].status == READ_PENDING) { + ep_state[EP0OUT].status = READ_COMPLETE; + ep_state[EP0OUT].byte_count = xferred; + // drop zlp + if (xferred == 0) { + break; + } + } + run_cmd(CMD_EP0OUT, 0); + break; + + case EP0IN: + run_cmd(CMD_EP0IN, 0); + break; + + default: + bool write = ep & 1; + + if (status == USB_STATUS_OK) { + if (!write && ep_state[ep].status == READ_PENDING) { + ep_state[ep].status = READ_COMPLETE; + ep_state[ep].byte_count = xferred; + } else if (write && ep_state[ep].status == WRITE_PENDING) { + ep_state[ep].status = WRITE_COMPLETE; + } else { + ep_state[ep].status = FAILED_INVALID; + } + } else { + ep_state[ep].status = FAILED_INVALID; + } + + if (ep_state[ep].status != FAILED_INVALID) { + run_cmd(CMD_EP_XFER_COMPLETED, ep); + } + break; + } + + return USB_STATUS_OK; +} + +void USBHAL::EP0write(uint8_t *buffer, uint32_t size) +{ + //TRACE_FUNC_IN_P("buffer %lx, size %lu", (uint32_t) buffer, size); + + int ret; + USB_XferCompleteCb_TypeDef cb = ep_state[EP0IN].intern_cb; + + EFM_ASSERT((buffer != NULL) || (size == 0)); + EFM_ASSERT(size <= MAX_PACKET_SIZE_EP0); + + if (!buffer || size == 0) { + // No callback after writing EP0 ZLP + cb = NULL; + } + + if (buffer && !is_aligned(buffer,4)) { + // Copy unaligned data to write-buffer before USBD_Write + memcpy(ep_state[EP0IN].data_buf, buffer, size); + ret = USBD_Write(0, ep_state[EP0IN].data_buf, size, cb); + } else { + ret = USBD_Write(0, buffer, size, cb); + } + + if (ret != USB_STATUS_OK) { + TRACE("FAILED - ret %d", ret); + } +} + +void USBHAL::EP0stall(void) +{ + TRACE_FUNC_IN; + USBD_StallEp0(); +} + +static EP_STATUS internEndpointRead(uint8_t ep, uint32_t maxSize) +{ + //TRACE_FUNC_IN_P("endpoint 0x%x, size %ld, cb %d", (unsigned)ep, maxSize, useCallback); + + if (ep >= NUMBER_OF_ENDPOINTS) { + EFM_ASSERT(false); + return EP_INVALID; + } + + ep_state[ep].status = READ_PENDING; + + int ret = USBD_Read(USB_EP_TO_ADDR(ep), ep_state[ep].data_buf, maxSize, + ep_state[ep].intern_cb); + + if (ret == USB_STATUS_OK) { + return EP_PENDING; + } else { + TRACE("FAILED - ret %d", ret); + + if (ret == USB_STATUS_EP_STALLED) { + return EP_STALLED; + } else { + return EP_INVALID; + } + } +} + +EP_STATUS USBHAL::endpointRead(uint8_t endpoint, uint32_t maximumSize) +{ + return internEndpointRead(endpoint, maximumSize); +} + +EP_STATUS USBHAL::endpointReadResult(uint8_t endpoint, uint8_t *data, uint32_t *bytesRead) +{ + TRACE_FUNC_IN; + + if (endpoint >= NUMBER_OF_ENDPOINTS) { + EFM_ASSERT(false); + return EP_INVALID; + } + + EFM_ASSERT(data); + EFM_ASSERT(bytesRead); + if (!data || !bytesRead) { + return EP_INVALID; + } + + switch (ep_state[endpoint].status) { + case READ_PENDING: + return EP_PENDING; + + case READ_COMPLETE: + memcpy(data, ep_state[endpoint].data_buf, ep_state[endpoint].byte_count); + *bytesRead = ep_state[endpoint].byte_count; + ep_state[endpoint].status = IDLE; + return EP_COMPLETED; + + case FAILED_STALLED: + ep_state[endpoint].status = IDLE; + return EP_STALLED; + + default: + ep_state[endpoint].status = IDLE; + return EP_INVALID; + } +} + +EP_STATUS USBHAL::endpointWrite(uint8_t endpoint, uint8_t *data, uint32_t size) +{ + TRACE_FUNC_IN_P("endpoint 0x%x, data 0x%lx, size %lu", (unsigned )endpoint, (uint32_t)data, size); + + EFM_ASSERT(endpoint < NUMBER_OF_ENDPOINTS); + EFM_ASSERT(endpoint > EP0IN); + EFM_ASSERT(size <= ep_state[endpoint].max_packet); + EFM_ASSERT(data); + + uint8_t ep = USB_EP_TO_INDEX(endpoint); + + if (endpoint >= NUMBER_OF_ENDPOINTS || endpoint <= EP0IN) { + return EP_INVALID; + } + + if (size > ep_state[endpoint].max_packet) { + return EP_INVALID; + } + + if (!data) { + return EP_INVALID; + } + + memcpy(ep_state[ep].data_buf, data, size); + + ep_state[ep].status = WRITE_PENDING; + int ret = USBD_Write(USB_EP_TO_ADDR(endpoint), ep_state[ep].data_buf, size, ep_state[ep].intern_cb); + + if (ret == USB_STATUS_EP_STALLED) { + ep_state[ep].status = IDLE; + return EP_STALLED; + } else if (ret != USB_STATUS_OK) { + ep_state[ep].status = IDLE; + return EP_INVALID; + } + + return EP_PENDING; +} + +EP_STATUS USBHAL::endpointWriteResult(uint8_t endpoint) +{ + if (endpoint >= NUMBER_OF_ENDPOINTS) { + EFM_ASSERT(false); + return EP_INVALID; + } + + switch (ep_state[endpoint].status) { + case WRITE_PENDING: + return EP_PENDING; + + case WRITE_COMPLETE: + ep_state[endpoint].status = IDLE; + return EP_COMPLETED; + + case FAILED_STALLED: + ep_state[endpoint].status = IDLE; + return EP_STALLED; + + default: + ep_state[endpoint].status = IDLE; + return EP_INVALID; + } +} + +void USBHAL::stallEndpoint(uint8_t endpoint) +{ + TRACE_FUNC_IN; + + EFM_ASSERT(endpoint < NUMBER_OF_ENDPOINTS); + EFM_ASSERT((endpoint != EP0OUT) && (endpoint != EP0IN)); + + USBD_StallEp(USB_EP_TO_ADDR(endpoint)); +} + +void USBHAL::unstallEndpoint(uint8_t endpoint) +{ + TRACE_FUNC_IN; + + EFM_ASSERT(endpoint < NUMBER_OF_ENDPOINTS); + EFM_ASSERT((endpoint != EP0OUT) && (endpoint != EP0IN)); + + USBD_UnStallEp(USB_EP_TO_ADDR(endpoint)); +} + +bool USBHAL::realiseEndpoint(uint8_t endpoint, uint32_t maxPacket, uint32_t options) +{ + TRACE_FUNC_IN_P("endpoint %d, packetsize %ld, options 0x%lx", endpoint, + maxPacket, options); + + int mult = 1; // RX/TX buffer size multiplier + int type = USB_EPTYPE_INTR; + + if (endpoint >= NUMBER_OF_ENDPOINTS) { + EFM_ASSERT(false); + return false; + } + + if (endpoint == EP0IN || endpoint == EP0OUT) { + EFM_ASSERT(false); + return false; + } + + ep_state[endpoint].max_packet = 0; + + if (endpoint == EPISO_OUT || endpoint == EPISO_IN) { + if (maxPacket > MAX_PACKET_SIZE_EPISO) { + EFM_ASSERT(false); + return false; + } + } else if ((maxPacket > MAX_PACKET_SIZE_EPBULK) || (maxPacket > MAX_PACKET_SIZE_EPINT)) { + EFM_ASSERT(false); + return false; + } + + // USBDevice performs a read right after creating the endpoints, + // before calling configureDevice. The read will fail since + // at that point the device state is still ADDRESSED. Workaround + // is to force configured state here. + // + // This relies on USBDevice to not call realiseEndpoint unless + // it is transitioning to the CONFIGURED state. + USBD_SetUsbState(USBD_STATE_CONFIGURED); + + // Why doesn't this function have a type param? This is silly... + switch (endpoint) { + case EPBULK_OUT: + case EPBULK_IN: + type = USB_EPTYPE_BULK; + mult = 2; + break; + case EPINT_OUT: + case EPINT_IN: + type = USB_EPTYPE_INTR; + mult = 1; + break; + case EPISO_OUT: + case EPISO_IN: + type = USB_EPTYPE_ISOC; + mult = 2; // ? + break; + } + + // Some options force the endpoint to a specific type + if( options & ISOCHRONOUS ) { + type = USB_EPTYPE_ISOC; + mult = 2; // ? + } else if ( options & RATE_FEEDBACK_MODE ) { + // No support for whatever rate feedback is, but for interrupt only + type = USB_EPTYPE_INTR; + mult = 1; + } + +#ifdef USB_USE_DYNAMIC_MEMORY + if (ep_state[endpoint].data_buf) { + free(ep_state[endpoint].data_buf); + } + + ep_state[endpoint].data_buf = (uint8_t *)malloc(maxPacket); + + if (!ep_state[endpoint].data_buf) { + EFM_ASSERT(false); + return false; + } +#endif + + int ret = USBD_AddEndpoint(USB_EP_TO_ADDR(endpoint), type, maxPacket, mult); + + if (ret == USB_STATUS_OK) { + ep_state[endpoint].status = IDLE; + ep_state[endpoint].max_packet = maxPacket; + return true; + } else { + return false; + } +} + +bool USBHAL::getEndpointStallState(unsigned char endpoint) +{ + TRACE_FUNC_IN; + if (endpoint >= NUMBER_OF_ENDPOINTS) { + EFM_ASSERT(false); + return false; + } + return USBD_EpIsStalled(USB_EP_TO_ADDR(endpoint)); +} + +static void run_cmd(USBISRCommand cmd, uint32_t param) +{ + if (usb_isrcmd != CMD_HANDLED || cmd >= CMD_ENUM_END_MARKER) { + EFM_ASSERT(false); + abort(); + } + + usb_isrcmd = cmd; + usb_isrcmd_param = param; + isrptr(); +} + +void USBHAL::_usbisr(void) +{ + EFM_ASSERT(instance); + instance->usbisr(); +} + +void USBHAL::usbisr(void) +{ + //TRACE_FUNC_IN; + + // This "ISR" is used just to route callbacks from SiL USB driver + // callback context (which can not call protected/private USBHAL + // methods), to the actual USBHAL. + + EFM_ASSERT(usb_isrcmd != CMD_HANDLED); + switch (usb_isrcmd) { + case CMD_EP0SETUP: + this->EP0setupCallback(); + break; + case CMD_EP0IN: + this->EP0in(); + break; + case CMD_EP0OUT: + this->EP0out(); + break; + case CMD_BUSRESET: + this->busReset(); + break; + case CMD_EP_XFER_COMPLETED: + if (epCallback[usb_isrcmd_param] && instance) { + (instance->*(epCallback[usb_isrcmd_param]))(); + } + break; + case CMD_SOF: + this->SOF(usb_isrcmd_param); + break; + case CMD_SUSPEND_STATE_CHANGED: + this->suspendStateChanged(usb_isrcmd_param); + break; + default: + EFM_ASSERT(false); + break; + } + usb_isrcmd = CMD_HANDLED; +} +#endif + +// End of file