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- /* USB EHCI Host for Teensy 3.6
- * Copyright 2017 Paul Stoffregen (paul@pjrc.com)
- *
- * Permission is hereby granted, free of charge, to any person obtaining a
- * copy of this software and associated documentation files (the
- * "Software"), to deal in the Software without restriction, including
- * without limitation the rights to use, copy, modify, merge, publish,
- * distribute, sublicense, and/or sell copies of the Software, and to
- * permit persons to whom the Software is furnished to do so, subject to
- * the following conditions:
- *
- * The above copyright notice and this permission notice shall be included
- * in all copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
- * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
- * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
- * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
- * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
- * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
- * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
- */
-
- #include <Arduino.h>
- #include "USBHost.h"
-
- #define PERIODIC_LIST_SIZE 32
-
- static uint32_t periodictable[PERIODIC_LIST_SIZE] __attribute__ ((aligned(4096), used));
- static uint8_t port_state;
- #define PORT_STATE_DISCONNECTED 0
- #define PORT_STATE_DEBOUNCE 1
- #define PORT_STATE_RESET 2
- #define PORT_STATE_RECOVERY 3
- #define PORT_STATE_ACTIVE 4
- static Device_t *rootdev=NULL;
- static Transfer_t *async_followup_first=NULL;
- static Transfer_t *async_followup_last=NULL;
- static Transfer_t *periodic_followup_first=NULL;
- static Transfer_t *periodic_followup_last=NULL;
-
-
- static void init_qTD(volatile Transfer_t *t, void *buf, uint32_t len,
- uint32_t pid, uint32_t data01, bool irq);
- static bool followup_Transfer(Transfer_t *transfer);
- static void add_to_async_followup_list(Transfer_t *first, Transfer_t *last);
- static void remove_from_async_followup_list(Transfer_t *transfer);
- static void add_to_periodic_followup_list(Transfer_t *first, Transfer_t *last);
- static void remove_from_periodic_followup_list(Transfer_t *transfer);
- static bool allocate_interrupt_pipe_bandwidth(uint32_t speed, uint32_t maxlen,
- uint32_t interval, uint32_t direction, uint32_t *offset, uint32_t *smask,
- uint32_t *cmask);
-
- void USBHost::begin()
- {
- // Teensy 3.6 has USB host power controlled by PTE6
- PORTE_PCR6 = PORT_PCR_MUX(1);
- GPIOE_PDDR |= (1<<6);
- GPIOE_PSOR = (1<<6); // turn on USB host power
- Serial.print("sizeof Device = ");
- Serial.println(sizeof(Device_t));
- Serial.print("sizeof Pipe = ");
- Serial.println(sizeof(Pipe_t));
- Serial.print("sizeof Transfer = ");
- Serial.println(sizeof(Transfer_t));
-
- // configure the MPU to allow USBHS DMA to access memory
- MPU_RGDAAC0 |= 0x30000000;
- Serial.print("MPU_RGDAAC0 = ");
- Serial.println(MPU_RGDAAC0, HEX);
-
- // turn on clocks
- MCG_C1 |= MCG_C1_IRCLKEN; // enable MCGIRCLK 32kHz
- OSC0_CR |= OSC_ERCLKEN;
- SIM_SOPT2 |= SIM_SOPT2_USBREGEN; // turn on USB regulator
- SIM_SOPT2 &= ~SIM_SOPT2_USBSLSRC; // use IRC for slow clock
- print("power up USBHS PHY");
- SIM_USBPHYCTL |= SIM_USBPHYCTL_USBDISILIM; // disable USB current limit
- //SIM_USBPHYCTL = SIM_USBPHYCTL_USBDISILIM | SIM_USBPHYCTL_USB3VOUTTRG(6); // pg 237
- SIM_SCGC3 |= SIM_SCGC3_USBHSDCD | SIM_SCGC3_USBHSPHY | SIM_SCGC3_USBHS;
- USBHSDCD_CLOCK = 33 << 2;
- print("init USBHS PHY & PLL");
- // init process: page 1681-1682
- USBPHY_CTRL_CLR = (USBPHY_CTRL_SFTRST | USBPHY_CTRL_CLKGATE); // // CTRL pg 1698
- USBPHY_CTRL_SET = USBPHY_CTRL_ENUTMILEVEL2 | USBPHY_CTRL_ENUTMILEVEL3;
- //USBPHY_CTRL_SET = USBPHY_CTRL_FSDLL_RST_EN; // TODO: what does this do??
- USBPHY_TRIM_OVERRIDE_EN_SET = 1;
- USBPHY_PLL_SIC = USBPHY_PLL_SIC_PLL_POWER | USBPHY_PLL_SIC_PLL_ENABLE |
- USBPHY_PLL_SIC_PLL_DIV_SEL(1) | USBPHY_PLL_SIC_PLL_EN_USB_CLKS;
- // wait for the PLL to lock
- int count=0;
- while ((USBPHY_PLL_SIC & USBPHY_PLL_SIC_PLL_LOCK) == 0) {
- count++;
- }
- Serial.print("PLL locked, waited ");
- Serial.println(count);
-
- // turn on power to PHY
- USBPHY_PWD = 0;
- delay(10);
-
- // sanity check, connect 470K pullup & 100K pulldown and watch D+ voltage change
- //USBPHY_ANACTRL_CLR = (1<<10); // turn off both 15K pulldowns... works! :)
-
- // sanity check, output clocks on pin 9 for testing
- //SIM_SOPT2 = SIM_SOPT2 & (~SIM_SOPT2_CLKOUTSEL(7)) | SIM_SOPT2_CLKOUTSEL(3); // LPO 1kHz
- //SIM_SOPT2 = SIM_SOPT2 & (~SIM_SOPT2_CLKOUTSEL(7)) | SIM_SOPT2_CLKOUTSEL(2); // Flash
- //SIM_SOPT2 = SIM_SOPT2 & (~SIM_SOPT2_CLKOUTSEL(7)) | SIM_SOPT2_CLKOUTSEL(6); // XTAL
- //SIM_SOPT2 = SIM_SOPT2 & (~SIM_SOPT2_CLKOUTSEL(7)) | SIM_SOPT2_CLKOUTSEL(7); // IRC 48MHz
- //SIM_SOPT2 = SIM_SOPT2 & (~SIM_SOPT2_CLKOUTSEL(7)) | SIM_SOPT2_CLKOUTSEL(4); // MCGIRCLK
- //CORE_PIN9_CONFIG = PORT_PCR_MUX(5); // CLKOUT on PTC3 Alt5 (Arduino pin 9)
-
- // now with the PHY up and running, start up USBHS
- print("begin ehci reset");
- USBHS_USBCMD |= USBHS_USBCMD_RST;
- count = 0;
- while (USBHS_USBCMD & USBHS_USBCMD_RST) {
- count++;
- }
- print(" reset waited ", count);
-
- init_Device_Pipe_Transfer_memory();
- for (int i=0; i < 32; i++) {
- periodictable[i] = 1;
- }
- port_state = PORT_STATE_DISCONNECTED;
-
- USBHS_USB_SBUSCFG = 1; // System Bus Interface Configuration
-
- // turn on the USBHS controller
- //USBHS_USBMODE = USBHS_USBMODE_TXHSD(5) | USBHS_USBMODE_CM(3); // host mode
- USBHS_USBMODE = USBHS_USBMODE_CM(3); // host mode
- USBHS_USBINTR = 0;
- USBHS_PERIODICLISTBASE = (uint32_t)periodictable;
- USBHS_FRINDEX = 0;
- USBHS_ASYNCLISTADDR = 0;
- USBHS_USBCMD = USBHS_USBCMD_ITC(8) | USBHS_USBCMD_RS |
- USBHS_USBCMD_ASP(3) | USBHS_USBCMD_ASPE | USBHS_USBCMD_PSE |
- #if PERIODIC_LIST_SIZE == 8
- USBHS_USBCMD_FS2 | USBHS_USBCMD_FS(3);
- #elif PERIODIC_LIST_SIZE == 16
- USBHS_USBCMD_FS2 | USBHS_USBCMD_FS(2);
- #elif PERIODIC_LIST_SIZE == 32
- USBHS_USBCMD_FS2 | USBHS_USBCMD_FS(1);
- #elif PERIODIC_LIST_SIZE == 64
- USBHS_USBCMD_FS2 | USBHS_USBCMD_FS(0);
- #elif PERIODIC_LIST_SIZE == 128
- USBHS_USBCMD_FS(3);
- #elif PERIODIC_LIST_SIZE == 256
- USBHS_USBCMD_FS(2);
- #elif PERIODIC_LIST_SIZE == 512
- USBHS_USBCMD_FS(1);
- #elif PERIODIC_LIST_SIZE == 1024
- USBHS_USBCMD_FS(0);
- #else
- #error "Unsupported PERIODIC_LIST_SIZE"
- #endif
-
- // turn on the USB port
- //USBHS_PORTSC1 = USBHS_PORTSC_PP;
- USBHS_PORTSC1 |= USBHS_PORTSC_PP;
- //USBHS_PORTSC1 |= USBHS_PORTSC_PFSC; // force 12 Mbit/sec
- //USBHS_PORTSC1 |= USBHS_PORTSC_PHCD; // phy off
-
- Serial.print("USBHS_ASYNCLISTADDR = ");
- Serial.println(USBHS_ASYNCLISTADDR, HEX);
- Serial.print("USBHS_PERIODICLISTBASE = ");
- Serial.println(USBHS_PERIODICLISTBASE, HEX);
- Serial.print("periodictable = ");
- Serial.println((uint32_t)periodictable, HEX);
-
- // enable interrupts, after this point interruts to all the work
- attachInterruptVector(IRQ_USBHS, isr);
- NVIC_ENABLE_IRQ(IRQ_USBHS);
- USBHS_USBINTR = USBHS_USBINTR_PCE | USBHS_USBINTR_TIE0;
- USBHS_USBINTR |= USBHS_USBINTR_UEE | USBHS_USBINTR_SEE;
- USBHS_USBINTR |= USBHS_USBINTR_AAE;
- USBHS_USBINTR |= USBHS_USBINTR_UPIE | USBHS_USBINTR_UAIE;
-
- }
-
-
- // EHCI registers page default
- // -------------- ---- -------
- // USBHS_USBCMD 1599 00080000 USB Command
- // USBHS_USBSTS 1602 00000000 USB Status
- // USBHS_USBINTR 1606 00000000 USB Interrupt Enable
- // USBHS_FRINDEX 1609 00000000 Frame Index Register
- // USBHS_PERIODICLISTBASE 1610 undefine Periodic Frame List Base Address
- // USBHS_ASYNCLISTADDR 1612 undefine Asynchronous List Address
- // USBHS_PORTSC1 1619 00002000 Port Status and Control
- // USBHS_USBMODE 1629 00005000 USB Mode
- // USBHS_GPTIMERnCTL 1591 00000000 General Purpose Timer n Control
-
- // PORT_STATE_DISCONNECTED 0
- // PORT_STATE_DEBOUNCE 1
- // PORT_STATE_RESET 2
- // PORT_STATE_RECOVERY 3
- // PORT_STATE_ACTIVE 4
-
-
- void USBHost::isr()
- {
- uint32_t stat = USBHS_USBSTS;
- USBHS_USBSTS = stat; // clear pending interrupts
- //stat &= USBHS_USBINTR; // mask away unwanted interrupts
- Serial.println();
- Serial.print("ISR: ");
- Serial.print(stat, HEX);
- Serial.println();
- if (stat & USBHS_USBSTS_UI) Serial.println(" USB Interrupt");
- if (stat & USBHS_USBSTS_UEI) Serial.println(" USB Error");
- if (stat & USBHS_USBSTS_PCI) Serial.println(" Port Change");
- if (stat & USBHS_USBSTS_FRI) Serial.println(" Frame List Rollover");
- if (stat & USBHS_USBSTS_SEI) Serial.println(" System Error");
- if (stat & USBHS_USBSTS_AAI) Serial.println(" Async Advance (doorbell)");
- if (stat & USBHS_USBSTS_URI) Serial.println(" Reset Recv");
- if (stat & USBHS_USBSTS_SRI) Serial.println(" SOF");
- if (stat & USBHS_USBSTS_SLI) Serial.println(" Suspend");
- if (stat & USBHS_USBSTS_HCH) Serial.println(" Host Halted");
- if (stat & USBHS_USBSTS_RCL) Serial.println(" Reclamation");
- if (stat & USBHS_USBSTS_PS) Serial.println(" Periodic Sched En");
- if (stat & USBHS_USBSTS_AS) Serial.println(" Async Sched En");
- if (stat & USBHS_USBSTS_NAKI) Serial.println(" NAK");
- if (stat & USBHS_USBSTS_UAI) Serial.println(" USB Async");
- if (stat & USBHS_USBSTS_UPI) Serial.println(" USB Periodic");
- if (stat & USBHS_USBSTS_TI0) Serial.println(" Timer0");
- if (stat & USBHS_USBSTS_TI1) Serial.println(" Timer1");
-
- if (stat & USBHS_USBSTS_UAI) { // completed qTD(s) from the async schedule
- Serial.println("Async Followup");
- print(async_followup_first, async_followup_last);
- Transfer_t *p = async_followup_first;
- while (p) {
- if (followup_Transfer(p)) {
- // transfer completed
- Transfer_t *next = p->next_followup;
- remove_from_async_followup_list(p);
- free_Transfer(p);
- p = next;
- } else {
- // transfer still pending
- p = p->next_followup;
- }
- }
- print(async_followup_first, async_followup_last);
- }
- if (stat & USBHS_USBSTS_UPI) { // completed qTD(s) from the periodic schedule
- Serial.println("Periodic Followup");
- Transfer_t *p = periodic_followup_first;
- while (p) {
- if (followup_Transfer(p)) {
- // transfer completed
- Transfer_t *next = p->next_followup;
- remove_from_periodic_followup_list(p);
- free_Transfer(p);
- p = next;
- } else {
- // transfer still pending
- p = p->next_followup;
- }
- }
- }
-
- if (stat & USBHS_USBSTS_PCI) { // port change detected
- const uint32_t portstat = USBHS_PORTSC1;
- Serial.print("port change: ");
- Serial.print(portstat, HEX);
- Serial.println();
- USBHS_PORTSC1 = portstat | (USBHS_PORTSC_OCC|USBHS_PORTSC_PEC|USBHS_PORTSC_CSC);
- if (portstat & USBHS_PORTSC_OCC) {
- Serial.println(" overcurrent change");
- }
- if (portstat & USBHS_PORTSC_CSC) {
- if (portstat & USBHS_PORTSC_CCS) {
- Serial.println(" connect");
- if (port_state == PORT_STATE_DISCONNECTED
- || port_state == PORT_STATE_DEBOUNCE) {
- // 100 ms debounce (USB 2.0: TATTDB, page 150 & 188)
- port_state = PORT_STATE_DEBOUNCE;
- USBHS_GPTIMER0LD = 100000; // microseconds
- USBHS_GPTIMER0CTL =
- USBHS_GPTIMERCTL_RST | USBHS_GPTIMERCTL_RUN;
- stat &= ~USBHS_USBSTS_TI0;
- }
- } else {
- Serial.println(" disconnect");
- port_state = PORT_STATE_DISCONNECTED;
- USBPHY_CTRL_CLR = USBPHY_CTRL_ENHOSTDISCONDETECT;
- // TODO: delete & clean up device state...
- }
- }
- if (portstat & USBHS_PORTSC_PEC) {
- // PEC bit only detects disable
- Serial.println(" disable");
- } else if (port_state == PORT_STATE_RESET && portstat & USBHS_PORTSC_PE) {
- Serial.println(" port enabled");
- port_state = PORT_STATE_RECOVERY;
- // 10 ms reset recover (USB 2.0: TRSTRCY, page 151 & 188)
- USBHS_GPTIMER0LD = 10000; // microseconds
- USBHS_GPTIMER0CTL = USBHS_GPTIMERCTL_RST | USBHS_GPTIMERCTL_RUN;
- if (USBHS_PORTSC1 & USBHS_PORTSC_HSP) {
- // turn on high-speed disconnect detector
- USBPHY_CTRL_SET = USBPHY_CTRL_ENHOSTDISCONDETECT;
- }
- }
- if (portstat & USBHS_PORTSC_FPR) {
- Serial.println(" force resume");
-
- }
- }
- if (stat & USBHS_USBSTS_TI0) { // timer 0
- Serial.println("timer");
- if (port_state == PORT_STATE_DEBOUNCE) {
- port_state = PORT_STATE_RESET;
- USBHS_PORTSC1 |= USBHS_PORTSC_PR; // begin reset sequence
- Serial.println(" begin reset");
- } else if (port_state == PORT_STATE_RECOVERY) {
- port_state = PORT_STATE_ACTIVE;
- Serial.println(" end recovery");
-
- // HCSPARAMS TTCTRL page 1671
- uint32_t speed = (USBHS_PORTSC1 >> 26) & 3;
- rootdev = new_Device(speed, 0, 0);
- }
- }
-
- }
-
-
- static uint32_t QH_capabilities1(uint32_t nak_count_reload, uint32_t control_endpoint_flag,
- uint32_t max_packet_length, uint32_t head_of_list, uint32_t data_toggle_control,
- uint32_t speed, uint32_t endpoint_number, uint32_t inactivate, uint32_t address)
- {
- return ( (nak_count_reload << 28) | (control_endpoint_flag << 27) |
- (max_packet_length << 16) | (head_of_list << 15) |
- (data_toggle_control << 14) | (speed << 12) | (endpoint_number << 8) |
- (inactivate << 7) | (address << 0) );
- }
-
- static uint32_t QH_capabilities2(uint32_t high_bw_mult, uint32_t hub_port_number,
- uint32_t hub_address, uint32_t split_completion_mask, uint32_t interrupt_schedule_mask)
- {
- return ( (high_bw_mult << 30) | (hub_port_number << 23) | (hub_address << 16) |
- (split_completion_mask << 8) | (interrupt_schedule_mask << 0) );
- }
-
-
-
- // Create a new pipe. It's QH is added to the async or periodic schedule,
- // and a halt qTD is added to the QH, so we can grow the qTD list later.
- // dev: device owning this pipe/endpoint
- // type: 0=control, 2=bulk, 3=interrupt
- // endpoint: 0 for control, 1-15 for bulk or interrupt
- // direction: 0=OUT, 1=IN (unused for control)
- // maxlen: maximum packet size
- // interval: polling interval for interrupt, power of 2, unused if control or bulk
- //
- Pipe_t * USBHost::new_Pipe(Device_t *dev, uint32_t type, uint32_t endpoint,
- uint32_t direction, uint32_t maxlen, uint32_t interval)
- {
- Pipe_t *pipe;
- Transfer_t *halt;
- uint32_t c=0, dtc=0, smask=0, cmask=0, offset=0;
-
- Serial.println("new_Pipe");
- pipe = allocate_Pipe();
- if (!pipe) return NULL;
- halt = allocate_Transfer();
- if (!halt) {
- free_Pipe(pipe);
- return NULL;
- }
- if (type == 3) {
- // interrupt transfers require bandwidth & microframe scheduling
- if (interval > PERIODIC_LIST_SIZE*8) interval = PERIODIC_LIST_SIZE*8;
- if (dev->speed < 2 && interval < 8) interval = 8;
- if (!allocate_interrupt_pipe_bandwidth(dev->speed,
- maxlen, interval, direction, &offset, &smask, &cmask)) {
- free_Transfer(halt);
- free_Pipe(pipe);
- return NULL;
- }
- }
- memset(pipe, 0, sizeof(Pipe_t));
- memset(halt, 0, sizeof(Transfer_t));
- halt->qtd.next = 1;
- halt->qtd.token = 0x40;
- pipe->device = dev;
- pipe->qh.next = (uint32_t)halt;
- pipe->qh.alt_next = 1;
- pipe->direction = direction;
- pipe->type = type;
- if (type == 0) {
- // control
- if (dev->speed < 2) c = 1;
- dtc = 1;
- } else if (type == 2) {
- // bulk
- } else if (type == 3) {
- // interrupt
- }
- pipe->qh.capabilities[0] = QH_capabilities1(15, c, maxlen, 0,
- dtc, dev->speed, endpoint, 0, dev->address);
- pipe->qh.capabilities[1] = QH_capabilities2(1, dev->hub_port,
- dev->hub_address, cmask, smask);
-
- if (type == 0 || type == 2) {
- // control or bulk: add to async queue
- Pipe_t *list = (Pipe_t *)USBHS_ASYNCLISTADDR;
- if (list == NULL) {
- pipe->qh.capabilities[0] |= 0x8000; // H bit
- pipe->qh.horizontal_link = (uint32_t)&(pipe->qh) | 2; // 2=QH
- USBHS_ASYNCLISTADDR = (uint32_t)&(pipe->qh);
- USBHS_USBCMD |= USBHS_USBCMD_ASE; // enable async schedule
- Serial.println(" first in async list");
- } else {
- // EHCI 1.0: section 4.8.1, page 72
- pipe->qh.horizontal_link = list->qh.horizontal_link;
- list->qh.horizontal_link = (uint32_t)&(pipe->qh) | 2;
- Serial.println(" added to async list");
- }
- } else if (type == 3) {
- // interrupt: add to periodic schedule
- // TODO: link it into the periodic table
-
- // TODO: built tree...
- //uint32_t finterval = interval >> 3;
- //for (uint32_t i=offset; i < PERIODIC_LIST_SIZE; i += finterval) {
- // uint32_t list = periodictable[i];
- //}
-
- // quick hack for testing, just put it into the first table entry
- pipe->qh.horizontal_link = periodictable[0];
- periodictable[0] = (uint32_t)&(pipe->qh) | 2; // 2=QH
- Serial.print("init periodictable with ");
- Serial.println(periodictable[0], HEX);
- }
- return pipe;
- }
-
-
-
- // Fill in the qTD fields (token & data)
- // t the Transfer qTD to initialize
- // buf data to transfer
- // len length of data
- // pid type of packet: 0=OUT, 1=IN, 2=SETUP
- // data01 value of DATA0/DATA1 toggle on 1st packet
- // irq whether to generate an interrupt when transfer complete
- //
- static void init_qTD(volatile Transfer_t *t, void *buf, uint32_t len,
- uint32_t pid, uint32_t data01, bool irq)
- {
- t->qtd.alt_next = 1; // 1=terminate
- if (data01) data01 = 0x80000000;
- t->qtd.token = data01 | (len << 16) | (irq ? 0x8000 : 0) | (pid << 8) | 0x80;
- uint32_t addr = (uint32_t)buf;
- t->qtd.buffer[0] = addr;
- addr &= 0xFFFFF000;
- t->qtd.buffer[1] = addr + 0x1000;
- t->qtd.buffer[2] = addr + 0x2000;
- t->qtd.buffer[3] = addr + 0x3000;
- t->qtd.buffer[4] = addr + 0x4000;
- }
-
-
-
- // Create a Control Transfer and queue it
- //
- bool USBHost::queue_Control_Transfer(Device_t *dev, setup_t *setup, void *buf, USBDriver *driver)
- {
- Transfer_t *transfer, *data, *status;
- uint32_t status_direction;
-
- Serial.println("new_Control_Transfer");
- if (setup->wLength > 16384) return false; // max 16K data for control
- transfer = allocate_Transfer();
- if (!transfer) return false;
- status = allocate_Transfer();
- if (!status) {
- free_Transfer(transfer);
- return false;
- }
- if (setup->wLength > 0) {
- data = allocate_Transfer();
- if (!data) {
- free_Transfer(transfer);
- free_Transfer(status);
- return false;
- }
- uint32_t pid = (setup->bmRequestType & 0x80) ? 1 : 0;
- init_qTD(data, buf, setup->wLength, pid, 1, false);
- transfer->qtd.next = (uint32_t)data;
- data->qtd.next = (uint32_t)status;
- status_direction = pid ^ 1;
- } else {
- transfer->qtd.next = (uint32_t)status;
- status_direction = 1; // always IN, USB 2.0 page 226
- }
- Serial.print("setup address ");
- Serial.println((uint32_t)setup, HEX);
- init_qTD(transfer, setup, 8, 2, 0, false);
- init_qTD(status, NULL, 0, status_direction, 1, true);
- status->pipe = dev->control_pipe;
- status->buffer = buf;
- status->length = setup->wLength;
- status->setup = setup;
- status->driver = driver;
- status->qtd.next = 1;
- return queue_Transfer(dev->control_pipe, transfer);
- }
-
-
- // Create a Bulk or Interrupt Transfer and queue it
- //
- bool USBHost::queue_Data_Transfer(Pipe_t *pipe, void *buffer, uint32_t len, USBDriver *driver)
- {
- Transfer_t *transfer, *data, *next;
- uint8_t *p = (uint8_t *)buffer;
- uint32_t count;
- bool last = false;
-
- // TODO: option for zero length packet? Maybe in Pipe_t fields?
-
- Serial.println("new_Data_Transfer");
- // allocate qTDs
- transfer = allocate_Transfer();
- if (!transfer) return false;
- data = transfer;
- for (count=(len >> 14); count; count--) {
- next = allocate_Transfer();
- if (!next) {
- // free already-allocated qTDs
- while (1) {
- next = (Transfer_t *)transfer->qtd.next;
- free_Transfer(transfer);
- if (transfer == data) break;
- transfer = next;
- }
- return false;
- }
- data->qtd.next = (uint32_t)next;
- data = next;
- }
- // last qTD needs info for followup
- data->qtd.next = 1;
- data->pipe = pipe;
- data->buffer = buffer;
- data->length = len;
- data->setup = NULL;
- data->driver = driver;
- // initialize all qTDs
- data = transfer;
- while (1) {
- uint32_t count = len;
- if (count > 16384) {
- count = 16384;
- } else {
- last = true;
- }
- init_qTD(data, p, count, pipe->direction, 0, last);
- if (last) break;
- p += count;
- len -= count;
- data = (Transfer_t *)(data->qtd.next);
- }
- return queue_Transfer(pipe, transfer);
- }
-
-
- bool USBHost::queue_Transfer(Pipe_t *pipe, Transfer_t *transfer)
- {
- // find halt qTD
- Transfer_t *halt = (Transfer_t *)(pipe->qh.next);
- while (!(halt->qtd.token & 0x40)) halt = (Transfer_t *)(halt->qtd.next);
- // transfer's token
- uint32_t token = transfer->qtd.token;
- // transfer becomes new halt qTD
- transfer->qtd.token = 0x40;
- // copy transfer non-token fields to halt
- halt->qtd.next = transfer->qtd.next;
- halt->qtd.alt_next = transfer->qtd.alt_next;
- halt->qtd.buffer[0] = transfer->qtd.buffer[0]; // TODO: optimize memcpy, all
- halt->qtd.buffer[1] = transfer->qtd.buffer[1]; // fields except token
- halt->qtd.buffer[2] = transfer->qtd.buffer[2];
- halt->qtd.buffer[3] = transfer->qtd.buffer[3];
- halt->qtd.buffer[4] = transfer->qtd.buffer[4];
- halt->pipe = pipe;
- halt->buffer = transfer->buffer;
- halt->length = transfer->length;
- halt->setup = transfer->setup;
- halt->driver = transfer->driver;
- // find the last qTD we're adding
- Transfer_t *last = halt;
- while ((uint32_t)(last->qtd.next) != 1) last = (Transfer_t *)(last->qtd.next);
- // last points to transfer (which becomes new halt)
- last->qtd.next = (uint32_t)transfer;
- transfer->qtd.next = 1;
- // link all the new qTD by next_followup & prev_followup
- Transfer_t *prev = NULL;
- Transfer_t *p = halt;
- while (p->qtd.next != (uint32_t)transfer) {
- Transfer_t *next = (Transfer_t *)p->qtd.next;
- p->prev_followup = prev;
- p->next_followup = next;
- prev = p;
- p = next;
- }
- p->prev_followup = prev;
- p->next_followup = NULL;
- print(halt, p);
- // add them to a followup list
- if (pipe->type == 0 || pipe->type == 2) {
- // control or bulk
- add_to_async_followup_list(halt, p);
- } else {
- // interrupt
- add_to_periodic_followup_list(halt, p);
- }
- // old halt becomes new transfer, this commits all new qTDs to QH
- halt->qtd.token = token;
- return true;
- }
-
- static bool followup_Transfer(Transfer_t *transfer)
- {
- Serial.print(" Followup ");
- Serial.println((uint32_t)transfer, HEX);
-
- if (!(transfer->qtd.token & 0x80)) {
- // TODO: check error status
- if (transfer->qtd.token & 0x8000) {
- // this transfer caused an interrupt
- if (transfer->pipe->callback_function) {
- // do the callback
- (*(transfer->pipe->callback_function))(transfer);
- }
- }
- // do callback function...
- Serial.println(" completed");
- return true;
- }
- return false;
- }
-
- static void add_to_async_followup_list(Transfer_t *first, Transfer_t *last)
- {
- last->next_followup = NULL; // always add to end of list
- if (async_followup_last == NULL) {
- first->prev_followup = NULL;
- async_followup_first = first;
- } else {
- first->prev_followup = async_followup_last;
- async_followup_last->next_followup = first;
- }
- async_followup_last = last;
- }
-
- static void remove_from_async_followup_list(Transfer_t *transfer)
- {
- Transfer_t *next = transfer->next_followup;
- Transfer_t *prev = transfer->prev_followup;
- if (prev) {
- prev->next_followup = next;
- } else {
- async_followup_first = next;
- }
- if (next) {
- next->prev_followup = prev;
- } else {
- async_followup_last = prev;
- }
- }
-
- static void add_to_periodic_followup_list(Transfer_t *first, Transfer_t *last)
- {
- last->next_followup = NULL; // always add to end of list
- if (periodic_followup_last == NULL) {
- first->prev_followup = NULL;
- periodic_followup_first = first;
- } else {
- first->prev_followup = periodic_followup_last;
- periodic_followup_last->next_followup = first;
- }
- periodic_followup_last = last;
- }
-
- static void remove_from_periodic_followup_list(Transfer_t *transfer)
- {
- Transfer_t *next = transfer->next_followup;
- Transfer_t *prev = transfer->prev_followup;
- if (prev) {
- prev->next_followup = next;
- } else {
- periodic_followup_first = next;
- }
- if (next) {
- next->prev_followup = prev;
- } else {
- periodic_followup_last = prev;
- }
- }
-
-
- // Allocate bandwidth for an interrupt pipe. Given the packet size
- // and other parameters, find the best place to schedule this pipe.
- // Returns true if enough bandwidth is available, and the best
- // frame offset, smask and cmask. Or returns false if no group
- // of microframes has enough bandwidth available.
- //
- // speed: [in] 0=full speed, 1=low speed, 2=high speed
- // maxlen: [in] maximum packet length
- // interval: [in] polling interval, in 125 us micro frames
- // direction: [in] 0=OUT, 1=IN
- // offset: [out] frame offset, 0 to PERIODIC_LIST_SIZE-1
- // smask: [out] Start Mask
- // cmask: [out] Complete Mask
- //
- static bool allocate_interrupt_pipe_bandwidth(uint32_t speed, uint32_t maxlen,
- uint32_t interval, uint32_t direction, uint32_t *offset, uint32_t *smask,
- uint32_t *cmask)
- {
- // TODO: actual bandwidth planning needs to go here... but for
- // now we'll just always pile up everything at the same offset
- // and same microframe schedule for split transactions, without
- // even the slighest check whether it all fits.
-
- if (speed == 2) {
- // high speed 480 Mbit/sec
- if (interval == 1) {
- *smask = 0xFF;
- } else if (interval == 2) {
- *smask = 0x55;
- } else if (interval <= 4) {
- *smask = 0x11;
- } else {
- *smask = 0x01;
- }
- *cmask = 0;
- *offset = 0;
- } else {
- // full speed 12 Mbit/sec or low speed 1.5 Mbit/sec
- *smask = 0x01;
- *cmask = 0x3C;
- *offset = 0;
- }
- return true;
- }
-
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