Added TARGET_DISCO_F469NI in USBHOST\USBHost\TARGET_STM\USBHALHost_STM_TARGET.h
Dependents: DISCO-F469NI_USB_Disk STM32F4xx_USB_Memory
Fork of USBHOST by
targets/TARGET_NXP/USBHALHost_LPC17.cpp
- Committer:
- kenjiArai
- Date:
- 2020-01-04
- Revision:
- 8:3e7a33f81048
- Parent:
- USBHost/USBHALHost_LPC17.cpp@ 1:ab240722d7ef
File content as of revision 8:3e7a33f81048:
/* 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. */ #if defined(TARGET_LPC1768) || defined(TARGET_LPC2460) #include "mbed.h" #include "USBHALHost.h" #include "dbg.h" // bits of the USB/OTG clock control register #define HOST_CLK_EN (1<<0) #define DEV_CLK_EN (1<<1) #define PORTSEL_CLK_EN (1<<3) #define AHB_CLK_EN (1<<4) // bits of the USB/OTG clock status register #define HOST_CLK_ON (1<<0) #define DEV_CLK_ON (1<<1) #define PORTSEL_CLK_ON (1<<3) #define AHB_CLK_ON (1<<4) // we need host clock, OTG/portsel clock and AHB clock #define CLOCK_MASK (HOST_CLK_EN | PORTSEL_CLK_EN | AHB_CLK_EN) #define HCCA_SIZE sizeof(HCCA) #define ED_SIZE sizeof(HCED) #define TD_SIZE sizeof(HCTD) #define TOTAL_SIZE (HCCA_SIZE + (MAX_ENDPOINT*ED_SIZE) + (MAX_TD*TD_SIZE)) static volatile uint8_t usb_buf[TOTAL_SIZE] __attribute((section("AHBSRAM1"),aligned(256))); //256 bytes aligned! USBHALHost * USBHALHost::instHost; USBHALHost::USBHALHost() { instHost = this; memInit(); memset((void*)usb_hcca, 0, HCCA_SIZE); for (int i = 0; i < MAX_ENDPOINT; i++) { edBufAlloc[i] = false; } for (int i = 0; i < MAX_TD; i++) { tdBufAlloc[i] = false; } } void USBHALHost::init() { NVIC_DisableIRQ(USB_IRQn); //Cut power LPC_SC->PCONP &= ~(1UL<<31); wait_ms(100); // turn on power for USB LPC_SC->PCONP |= (1UL<<31); // Enable USB host clock, port selection and AHB clock LPC_USB->USBClkCtrl |= CLOCK_MASK; // Wait for clocks to become available while ((LPC_USB->USBClkSt & CLOCK_MASK) != CLOCK_MASK); // it seems the bits[0:1] mean the following // 0: U1=device, U2=host // 1: U1=host, U2=host // 2: reserved // 3: U1=host, U2=device // NB: this register is only available if OTG clock (aka "port select") is enabled!! // since we don't care about port 2, set just bit 0 to 1 (U1=host) LPC_USB->OTGStCtrl |= 1; // now that we've configured the ports, we can turn off the portsel clock LPC_USB->USBClkCtrl &= ~PORTSEL_CLK_EN; // configure USB D+/D- pins // P0[29] = USB_D+, 01 // P0[30] = USB_D-, 01 LPC_PINCON->PINSEL1 &= ~((3<<26) | (3<<28)); LPC_PINCON->PINSEL1 |= ((1<<26) | (1<<28)); LPC_USB->HcControl = 0; // HARDWARE RESET LPC_USB->HcControlHeadED = 0; // Initialize Control list head to Zero LPC_USB->HcBulkHeadED = 0; // Initialize Bulk list head to Zero // Wait 100 ms before apply reset wait_ms(100); // software reset LPC_USB->HcCommandStatus = OR_CMD_STATUS_HCR; // Write Fm Interval and Largest Data Packet Counter LPC_USB->HcFmInterval = DEFAULT_FMINTERVAL; LPC_USB->HcPeriodicStart = FI * 90 / 100; // Put HC in operational state LPC_USB->HcControl = (LPC_USB->HcControl & (~OR_CONTROL_HCFS)) | OR_CONTROL_HC_OPER; // Set Global Power LPC_USB->HcRhStatus = OR_RH_STATUS_LPSC; LPC_USB->HcHCCA = (uint32_t)(usb_hcca); // Clear Interrrupt Status LPC_USB->HcInterruptStatus |= LPC_USB->HcInterruptStatus; LPC_USB->HcInterruptEnable = OR_INTR_ENABLE_MIE | OR_INTR_ENABLE_WDH | OR_INTR_ENABLE_RHSC; // Enable the USB Interrupt NVIC_SetVector(USB_IRQn, (uint32_t)(_usbisr)); LPC_USB->HcRhPortStatus1 = OR_RH_PORT_CSC; LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRSC; NVIC_EnableIRQ(USB_IRQn); // Check for any connected devices if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_CCS) { //Device connected wait_ms(150); USB_DBG("Device connected (%08x)\n\r", LPC_USB->HcRhPortStatus1); deviceConnected(0, 1, LPC_USB->HcRhPortStatus1 & OR_RH_PORT_LSDA); } } uint32_t USBHALHost::controlHeadED() { return LPC_USB->HcControlHeadED; } uint32_t USBHALHost::bulkHeadED() { return LPC_USB->HcBulkHeadED; } uint32_t USBHALHost::interruptHeadED() { return usb_hcca->IntTable[0]; } void USBHALHost::updateBulkHeadED(uint32_t addr) { LPC_USB->HcBulkHeadED = addr; } void USBHALHost::updateControlHeadED(uint32_t addr) { LPC_USB->HcControlHeadED = addr; } void USBHALHost::updateInterruptHeadED(uint32_t addr) { usb_hcca->IntTable[0] = addr; } void USBHALHost::enableList(ENDPOINT_TYPE type) { switch(type) { case CONTROL_ENDPOINT: LPC_USB->HcCommandStatus = OR_CMD_STATUS_CLF; LPC_USB->HcControl |= OR_CONTROL_CLE; break; case ISOCHRONOUS_ENDPOINT: break; case BULK_ENDPOINT: LPC_USB->HcCommandStatus = OR_CMD_STATUS_BLF; LPC_USB->HcControl |= OR_CONTROL_BLE; break; case INTERRUPT_ENDPOINT: LPC_USB->HcControl |= OR_CONTROL_PLE; break; } } bool USBHALHost::disableList(ENDPOINT_TYPE type) { switch(type) { case CONTROL_ENDPOINT: if(LPC_USB->HcControl & OR_CONTROL_CLE) { LPC_USB->HcControl &= ~OR_CONTROL_CLE; return true; } return false; case ISOCHRONOUS_ENDPOINT: return false; case BULK_ENDPOINT: if(LPC_USB->HcControl & OR_CONTROL_BLE){ LPC_USB->HcControl &= ~OR_CONTROL_BLE; return true; } return false; case INTERRUPT_ENDPOINT: if(LPC_USB->HcControl & OR_CONTROL_PLE) { LPC_USB->HcControl &= ~OR_CONTROL_PLE; return true; } return false; } return false; } void USBHALHost::memInit() { usb_hcca = (volatile HCCA *)usb_buf; usb_edBuf = usb_buf + HCCA_SIZE; usb_tdBuf = usb_buf + HCCA_SIZE + (MAX_ENDPOINT*ED_SIZE); } volatile uint8_t * USBHALHost::getED() { for (int i = 0; i < MAX_ENDPOINT; i++) { if ( !edBufAlloc[i] ) { edBufAlloc[i] = true; return (volatile uint8_t *)(usb_edBuf + i*ED_SIZE); } } perror("Could not allocate ED\r\n"); return NULL; //Could not alloc ED } volatile uint8_t * USBHALHost::getTD() { int i; for (i = 0; i < MAX_TD; i++) { if ( !tdBufAlloc[i] ) { tdBufAlloc[i] = true; return (volatile uint8_t *)(usb_tdBuf + i*TD_SIZE); } } perror("Could not allocate TD\r\n"); return NULL; //Could not alloc TD } void USBHALHost::freeED(volatile uint8_t * ed) { int i; i = (ed - usb_edBuf) / ED_SIZE; edBufAlloc[i] = false; } void USBHALHost::freeTD(volatile uint8_t * td) { int i; i = (td - usb_tdBuf) / TD_SIZE; tdBufAlloc[i] = false; } void USBHALHost::resetRootHub() { // Initiate port reset LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRS; while (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_PRS); // ...and clear port reset signal LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRSC; } void USBHALHost::_usbisr(void) { if (instHost) { instHost->UsbIrqhandler(); } } void USBHALHost::UsbIrqhandler() { if( LPC_USB->HcInterruptStatus & LPC_USB->HcInterruptEnable ) //Is there something to actually process? { uint32_t int_status = LPC_USB->HcInterruptStatus & LPC_USB->HcInterruptEnable; // Root hub status change interrupt if (int_status & OR_INTR_STATUS_RHSC) { if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_CSC) { if (LPC_USB->HcRhStatus & OR_RH_STATUS_DRWE) { // When DRWE is on, Connect Status Change // means a remote wakeup event. } else { //Root device connected if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_CCS) { // wait 150ms to avoid bounce wait_ms(150); //Hub 0 (root hub), Port 1 (count starts at 1), Low or High speed deviceConnected(0, 1, LPC_USB->HcRhPortStatus1 & OR_RH_PORT_LSDA); } //Root device disconnected else { if (!(int_status & OR_INTR_STATUS_WDH)) { usb_hcca->DoneHead = 0; } // wait 200ms to avoid bounce wait_ms(200); deviceDisconnected(0, 1, NULL, usb_hcca->DoneHead & 0xFFFFFFFE); if (int_status & OR_INTR_STATUS_WDH) { usb_hcca->DoneHead = 0; LPC_USB->HcInterruptStatus = OR_INTR_STATUS_WDH; } } } LPC_USB->HcRhPortStatus1 = OR_RH_PORT_CSC; } if (LPC_USB->HcRhPortStatus1 & OR_RH_PORT_PRSC) { LPC_USB->HcRhPortStatus1 = OR_RH_PORT_PRSC; } LPC_USB->HcInterruptStatus = OR_INTR_STATUS_RHSC; } // Writeback Done Head interrupt if (int_status & OR_INTR_STATUS_WDH) { transferCompleted(usb_hcca->DoneHead & 0xFFFFFFFE); LPC_USB->HcInterruptStatus = OR_INTR_STATUS_WDH; } } } #endif