Simple USBHost library for LPC4088. Backward compatibility of official-USBHost.
Dependencies: FATFileSystem mbed-rtos
EA LPC4088 QSB専用の簡易USBホストライブラリです。
official-USBHostの下位互換で対応プログラムを僅かな修正で動かすことが出来ます。
examples:
Import programLPC4088-USBHostMSD_HelloWorld
Simple USBHost MSD(USB flash drive) for EA LPC4088 QSB test program
Import programLPC4088-BTstack_example
BTstack for EA LPC4088 QSB example program
Import programLPC4088-USBHostC270_example
Simple USBHost WebCam for EA LPC4088 QSB/LPC1768 test program
USBHost/USBHALHost.h
- Committer:
- va009039
- Date:
- 2014-04-25
- Revision:
- 0:148fca6fd246
File content as of revision 0:148fca6fd246:
/* 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. */ #pragma once #include "mbed.h" #include "USBHostTypes.h" #include "USBEndpoint.h" #if defined(TARGET_LPC4088) #define HcRevision Revision #define HcControl Control #define HcCommandStatus CommandStatus #define HcInterruptStatus InterruptStatus #define HcInterruptEnable InterruptEnable #define HcHCCA HCCA #define HcControlHeadED ControlHeadED #define HcBulkHeadED BulkHeadED #define HcFmInterval FmInterval #define HcFmNumber FmNumber #define HcPeriodicStart PeriodicStart #define HcRhStatus RhStatus #define HcRhPortStatus1 RhPortStatus1 #define OTGStCtrl StCtrl #endif // ------------------ HcControl Register --------------------- #define OR_CONTROL_PLE 0x00000004 #define OR_CONTROL_IE 0x00000008 #define OR_CONTROL_CLE 0x00000010 #define OR_CONTROL_BLE 0x00000020 #define OR_CONTROL_HCFS 0x000000C0 #define OR_CONTROL_HC_OPER 0x00000080 // ----------------- HcCommandStatus Register ----------------- #define OR_CMD_STATUS_HCR 0x00000001 #define OR_CMD_STATUS_CLF 0x00000002 #define OR_CMD_STATUS_BLF 0x00000004 // --------------- HcInterruptStatus Register ----------------- #define OR_INTR_STATUS_WDH 0x00000002 #define OR_INTR_STATUS_UE 0x00000010 #define OR_INTR_STATUS_FNO 0x00000020 #define OR_INTR_STATUS_RHSC 0x00000040 // --------------- HcInterruptEnable Register ----------------- #define OR_INTR_ENABLE_WDH 0x00000002 #define OR_INTR_ENABLE_FNO 0x00000020 #define OR_INTR_ENABLE_RHSC 0x00000040 #define OR_INTR_ENABLE_MIE 0x80000000 // ---------------- HcRhDescriptorA Register ------------------ #define OR_RH_STATUS_LPSC 0x00010000 #define OR_RH_STATUS_DRWE 0x00008000 // -------------- HcRhPortStatus[1:NDP] Register -------------- #define OR_RH_PORT_CCS 0x00000001 #define OR_RH_PORT_PRS 0x00000010 #define OR_RH_PORT_LSDA 0x00000200 #define OR_RH_PORT_CSC 0x00010000 #define OR_RH_PORT_PRSC 0x00100000 // TRANSFER DESCRIPTOR CONTROL FIELDS #define TD_ROUNDING (uint32_t)(0x00040000) /* Buffer Rounding */ #define TD_SETUP (uint32_t)(0x00000000) /* Direction of Setup Packet */ #define TD_IN (uint32_t)(0x00100000) /* Direction In */ #define TD_OUT (uint32_t)(0x00080000) /* Direction Out */ #define TD_DELAY_INT(x) (uint32_t)((x) << 21) /* Delay Interrupt */ #define TD_DI (uint32_t)(7<<21) /* desable interrupt */ #define TD_TOGGLE_0 (uint32_t)(0x02000000) /* Toggle 0 */ #define TD_TOGGLE_1 (uint32_t)(0x03000000) /* Toggle 1 */ #define TD_CC (uint32_t)(0xF0000000) /* Completion Code */ struct SETUP_PACKET { uint8_t bmRequestType; uint8_t bRequest; uint16_t wValue; uint16_t wIndex; uint16_t wLength; SETUP_PACKET(uint8_t RequestType, uint8_t Request, uint16_t Value, uint16_t Index, uint16_t Length) { bmRequestType = RequestType; bRequest = Request; wValue = Value; wIndex = Index; wLength = Length; } }; void* usb_ram_malloc(size_t size, int aligment); // BaseUsbHostLib.cpp void usb_ram_free(void* p); struct TBUF { uint8_t buf[0]; TBUF(const void* data = NULL, int size = 0); void* operator new(size_t size, int buf_size) { return usb_ram_malloc(size+buf_size, 4); } void operator delete(void* p) { usb_ram_free(p); } }; struct HCTD { // HostController Transfer Descriptor __IO uint32_t Control; // +0 Transfer descriptor control __IO uint8_t* CurrBufPtr; // +4 Physical address of current buffer pointer HCTD* Next; // +8 Physical pointer to next Transfer Descriptor uint8_t* BufEnd; // +12 Physical address of end of buffer uint8_t* buf_top; // +16 Buffer start address uint16_t buf_size; // +20 buffer size size uint8_t _dummy[10]; // +22 dummy USBEndpoint* ep; // +32 endpoint object // +36 HCTD(USBEndpoint* obj); void* operator new(size_t size) { return usb_ram_malloc(size, 16); } void operator delete(void* p) { usb_ram_free(p); } void transfer(TBUF* tbuf, int len) { CurrBufPtr = tbuf->buf; buf_top = tbuf->buf; buf_size = len; BufEnd = const_cast<uint8_t*>(tbuf->buf)+len-1; } int getLengthTransferred() { if (CurrBufPtr) { return CurrBufPtr - buf_top; } return buf_size; } int status() { if (CurrBufPtr) { return CurrBufPtr - buf_top; } return buf_size; } uint8_t ConditionCode() { return Control>>28; } }; struct HCITD { // HostController Isochronous Transfer Descriptor __IO uint32_t Control; // +0 Transfer descriptor control uint8_t* BufferPage0; // +4 Buffer Page 0 HCITD* Next; // +8 Physical pointer to next Isochronous Transfer Descriptor uint8_t* BufferEnd; // +12 buffer End __IO uint16_t OffsetPSW[8]; // +16 Offset/PSW USBEndpoint* ep; // +32 endpoint object __IO uint8_t buf[0]; // +36 buffer // +36 HCITD(USBEndpoint* obj, uint16_t FrameNumber, int FrameCount, uint16_t PacketSize); void* operator new(size_t size, int buf_size) { return usb_ram_malloc(size+buf_size, 32); } void operator delete(void* p) { usb_ram_free(p); } uint16_t StartingFrame() { return Control & 0xffff; } uint8_t FrameCount() { return ((Control>>24)&7)+1; } uint8_t ConditionCode() { return Control>>28; } }; struct HCED { // HostController EndPoint Descriptor __IO uint32_t Control; // +0 Endpoint descriptor control HCTD* TailTd; // +4 Physical address of tail in Transfer descriptor list __IO HCTD* HeadTd; // +8 Physcial address of head in Transfer descriptor list HCED* Next; // +12 Physical address of next Endpoint descriptor // +16 HCED(USBEndpoint* ep); void* operator new(size_t size) { return usb_ram_malloc(size, 16); } void operator delete(void* p) { usb_ram_free(p); } uint8_t FunctionAddress() { return Control & 0x7f; } uint8_t EndpointNumber() { return (Control>>7) & 0x7f; } int Speed() { return (Control>>13)&1; } void setFunctionAddress(int addr) { Control &= ~0x7f; Control |= addr; } void setMaxPacketSize(uint16_t size) { Control &= ~0xffff0000; Control |= size<<16; } void setToggleDATA1() { uint32_t c = reinterpret_cast<uint32_t>(HeadTd); c |= 0x02; HeadTd = reinterpret_cast<HCTD*>(c); } int Skip() { return (Control>>14) & 1; } void setSkip() { Control |= (1<<14); } void setFormat() { Control |= (1<<15); } bool enqueue(HCTD* td); void init_queue(HCTD* td); }; struct HCCA { // Host Controller Communication Area HCED* InterruptTable[32]; // +0 Interrupt Table __IO uint16_t FrameNumber;// +128 Frame Number __IO uint16_t Pad1; // +130 __IO HCTD* DoneHead; // +132 Done Head uint8_t Reserved[116]; // +136 Reserved for future use uint8_t Unknown[4]; // +252 Unused // +256 void* operator new(size_t size) { return usb_ram_malloc(size, 256); } void operator delete(void* p) { usb_ram_free(p); } void enqueue(HCED* ed); }; class USBHALHost { public: uint8_t LastStatus; uint8_t prev_LastStatus; static void enable(ENDPOINT_TYPE type); protected: USBHALHost(); void init(); void init_hw_ohci(HCCA* pHcca); void ResetRootHub(); virtual bool addDevice(USBDeviceConnected* parent, int port, bool lowSpeed) = 0; //void setAddr(int addr, bool lowSpeed = false); //void setEndpoint(); //void token_transfer_init(); void token_init(USBEndpoint* ep); int token_setup(USBEndpoint* ep, SETUP_PACKET* setup, uint16_t wLength = 0); int token_in(USBEndpoint* ep, uint8_t* data = NULL, int size = 0, int retryLimit = 0); int token_out(USBEndpoint* ep, const uint8_t* data = NULL, int size = 0, int retryLimit = 0); void token_inNB(USBEndpoint* ep, uint8_t* data, int size); USB_TYPE token_inNB_result(USBEndpoint* ep); //void token_ready(); // report uint32_t m_report_irq; uint32_t m_report_RHSC; uint32_t m_report_FNO; uint32_t m_report_WDH; uint32_t m_report_sp; private: static void _usbisr(void); void UsbIrqhandler(); HCCA* m_pHcca; //__IO bool attach_done; //__IO bool token_done; bool wait_attach(); bool root_lowSpeed; static USBHALHost * instHost; };