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usb.c
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//
// usb.c -- USB device mode support
//
// Copyright (c) 2012-2013 Andrew Payne <[email protected]>
//
#include <stdio.h>
#include <string.h>
#include "freedom.h"
#include "common.h"
#include "usb.h"
// *******************************************************
// TODO: INCOMPLETE, work in progress
// *******************************************************
// USB Buffer table, the primary interface to the USB hardware module
typedef struct USB_BDT {
union {
volatile uint8_t _byte;
struct {
uint8_t :2;
uint8_t PID:4;
uint8_t :2;
} PID;
} stat;
uint8_t _dummy;
uint16_t count;
uint8_t *addr;
} USB_BDT;
// Bit fields for BDT stat field
#define _BDT_STALL (1 << 2) // Issue STALL handshake
#define _DTS (1 << 3) // Enable data toggle synchronization
#define _NNIC (1 << 4) // Disable DMA address increment
#define _KEEP (1 << 5) // USB controller owns buffer forever
#define _DATA01 (1 << 6) // DATA0/1 flag
#define _OWN (1 << 7) // USB controller owns buffer
// Token codes for PID field
#define SETUP_TOKEN 0x0D
#define OUT_TOKEN 0x01
#define IN_TOKEN 0x09
// Buffer descriptor table
#define MAX_ENDPOINTS 16
#define BDT_PER_EP 4
USB_BDT bdt[MAX_ENDPOINTS * BDT_PER_EP] __attribute__ ((aligned(512)));
static inline USB_BDT *bdt_rx(int num) { return &bdt[num * BDT_PER_EP];}
static inline USB_BDT *bdt_tx(int num) { return bdt_rx(num) + (BDT_PER_EP / 2);}
// Receive data buffers for endpoint 0
#define EP0_BUFSIZE 8
static uint8_t ep0_rx_buffers[2][EP0_BUFSIZE] __attribute__ ((aligned(4)));
typedef struct endpoint {
uint8_t num;
uint8_t data0;
uint8_t tx_next;
uint8_t tx_last;
uint16_t pending_len;
uint8_t *pending_data;
void (*rx_handler)(struct endpoint *ep, uint8_t *data, int len);
} endpoint_t;
static endpoint_t endpoints[MAX_ENDPOINTS];
// Current USB device state
enum { POWER, ENUMERATED, ENABLED, ADDRESS, READY };
static int device_state;
static uint8_t device_address;
static const USB_DEV_DSC device_descriptor = {
.bLength = sizeof(USB_DEV_DSC),
.bDscType = mDEVICE,
.bcdUSB = 0x0200,
.bDevCls = 0x02,
.bDevSubCls = 0x00,
.bDevProtocol = 0x00,
.bMaxPktSize0 = EP0_BUFSIZE,
.idVendor = 0xDEAD,
.idProduct = 0xBEAF,
.bcdDevice = 0x0000,
.iMFR = 0x01, // Index to string Manufacturer descriptor
.iProduct = 0x02, // Index to string product descriptor
.iSerialNum = 0x03, // Index to string serial number
.bNumCfg = 0x01
};
#define CDC_STATUS_INTERFACE 0
#define CDC_DATA_INTERFACE 1
#define CDC_ACM_ENDPOINT 1
#define CDC_RX_ENDPOINT 2
#define CDC_TX_ENDPOINT 2
#define CDC_ACM_SIZE 16
#define CDC_RX_SIZE 64
#define CDC_TX_SIZE 64
#define NUM_INTERFACE 2
// Configuration descriptor
typedef struct USB_CONFIG {
USB_CFG_DSC i0;
USB_INTF_DSC i1;
USB_CDC_HEADER_FN_DSC i2;
USB_CDC_CALL_MGT_FN_DSC i3;
USB_CDC_ACM_FN_DSC i4;
USB_CDC_UNION_FN_DSC i5;
USB_EP_DSC i6;
USB_INTF_DSC i7;
USB_EP_DSC i8;
USB_EP_DSC i9;
} __attribute__((packed)) USB_CONFIG;
static const USB_CONFIG config_descriptor = {
{
.bLength = sizeof(USB_CFG_DSC),
.bDscType = mCONFIGURATION,
.wTotalLength = sizeof(USB_CONFIG),
.bNumIntf = 2,
.bCfgValue = 1,
.iCfg = 0,
.bmAttributes = 0xC0,
.bMaxPower = 0x32
},{
.bLength = sizeof(USB_INTF_DSC),
.bDscType = mINTERFACE,
.bIntfNum = CDC_STATUS_INTERFACE,
.bAltSetting = 0,
.bNumEPs = 1,
.bIntfCls = 0x02,
.bIntfSubCls = 0x02,
.bIntfProtocol = 1,
.iIntf = 0
},{
.bFNLength = sizeof(USB_CDC_HEADER_FN_DSC),
.bDscType = 0x24,
.bDscSubType = 0x00,
.bcdCDC = 0x0110
},{
.bFNLength = sizeof(USB_CDC_CALL_MGT_FN_DSC),
.bDscType = 0x24,
.bDscSubType = 0x01,
.bmCapabilities = 0x00,
.bDataInterface = 1
},{
.bFNLength = sizeof(USB_CDC_ACM_FN_DSC),
.bDscType = 0x24,
.bDscSubType = 0x02,
.bmCapabilities = 0x06
},{
.bFNLength = sizeof(USB_CDC_UNION_FN_DSC),
.bDscType = 0x24,
.bDscSubType = 0x06,
.bMasterIntf = CDC_STATUS_INTERFACE,
.bSaveIntf0 = CDC_DATA_INTERFACE
},{
.bLength = sizeof(USB_EP_DSC),
.bDscType = mENDPOINT,
.bEPAdr = CDC_ACM_ENDPOINT | 0x80,
.bmAttributes = 0x03,
.wMaxPktSize = CDC_ACM_SIZE,
.bInterval = 64
},{
.bLength = sizeof(USB_INTF_DSC),
.bDscType = mINTERFACE,
.bIntfNum = CDC_DATA_INTERFACE,
.bAltSetting = 0,
.bNumEPs = 2,
.bIntfCls = 0x0A,
.bIntfSubCls = 0x00,
.bIntfProtocol = 0,
.iIntf = 0
},{
.bLength = sizeof(USB_EP_DSC),
.bDscType = mENDPOINT,
.bEPAdr = CDC_RX_ENDPOINT,
.bmAttributes = 0x02,
.wMaxPktSize = CDC_RX_SIZE,
.bInterval = 0
},{
.bLength = sizeof(USB_EP_DSC),
.bDscType = mENDPOINT,
.bEPAdr = CDC_TX_ENDPOINT | 0x80,
.bmAttributes = 0x02,
.wMaxPktSize = CDC_TX_SIZE,
.bInterval = 0
}
};
// USB string tables
typedef struct usb_string {
uint8_t bLength;
uint8_t bDescriptorType;
char data[];
} usb_string;
// USB strings are UTF-16LE (little endian)
#define USB_STRING(str) { sizeof(str)-1+2, mSTRING, str }
static const usb_string manufacturer = USB_STRING("A\0P\0 \0C\0o\0n\0s\0u\0l\0t\0i\0n\0g\0 \0L\0L\0C\0");
static const usb_string product = USB_STRING("H\0A\0C\0K\0");
static const usb_string serial = USB_STRING("1\0");
const uint8_t string0[4] = {
0x04, // bLength
0x03, // bDescriptorType - STRING
0x09, 0x04 // wLANGID[0] - English (American)
};
// Response table for GET_DESCRIPTION requests
typedef struct {
uint16_t wValue;
uint8_t *addr;
uint16_t length;
} usb_descriptor_list_t;
static const usb_descriptor_list_t usb_descriptor_list[] = {
{0x0100, (uint8_t *)&device_descriptor, sizeof(device_descriptor)},
{0x0200, (uint8_t *)&config_descriptor, sizeof(config_descriptor)},
// Strings
{0x0300, (uint8_t *)string0, 0},
{0x0301, (uint8_t *)&manufacturer, 0},
{0x0302, (uint8_t *)&product, 0},
{0x0303, (uint8_t *)&serial, 0},
{0x0000, 0, 0}, // End marker
};
// -----------------------------------------------------------------------------------
inline int min(int a, int b)
{
if(a < b)
return a;
else
return b;
}
// -----------------------------------------------------------------------------------
void usb_dump(void)
{
int i;
iprintf("USB status:\r\n");
iprintf("USB0_OTGSTAT=0x%x, OTGISTAT=0x%x, STAT=0x%x\r\n", USB0_OTGSTAT,
USB0_OTGISTAT, USB0_STAT);
iprintf("USB0_ERRSTAT=0x%02x\r\n", USB0_ERRSTAT);
iprintf("USB0_CTL=0x%02x\r\n", USB0_CTL);
iprintf("USB0_ISTAT=0x%02x\r\n", USB0_ISTAT);
iprintf("USB0_ADDR=0x%02x\r\n", USB0_ADDR);
for(i=0; i<4; i++) {
iprintf(" stat=0x%02x, len=%d\r\n", bdt[i].stat._byte, bdt[i].count);
}
}
// -----------------------------------------------------------------------------------
void usb_init(void)
{
device_state = POWER;
// Enable USB clocks
SIM_SOPT2 |= SIM_SOPT2_USBSRC_MASK;
SIM_SCGC4 |= SIM_SCGC4_USBOTG_MASK;
// Reset USB module
USB0_USBTRC0 |= USB_USBTRC0_USBRESET_MASK;
while((USB0_USBTRC0 & USB_USBTRC0_USBRESET_MASK) != 0)
;
// Set the Buffer Descriptor Register address
USB0_BDTPAGE1 = (uint8_t)((uint32_t)bdt >> 8);
USB0_BDTPAGE2 = (uint8_t)((uint32_t)bdt >> 16);
USB0_BDTPAGE3 = (uint8_t)((uint32_t)bdt >> 24);
// Clear any pending interrupts, and enable just the reset interrupt
USB0_ISTAT = 0xff;
USB0_INTEN = USB_INTEN_USBRSTEN_MASK;
// Disable weak pull downs, take out of suspend state
USB0_USBCTRL = 0;
USB0_CONTROL = USB_CONTROL_DPPULLUPNONOTG_MASK; // Eanble pullup in non-OTG mode
USB0_USBTRC0 |= 0x40; // "Software must set this bit to one"
// Enable USB module, and enable interrupts
USB0_CTL = USB_CTL_USBENSOFEN_MASK;
enable_irq(INT_USB0);
}
// Clear any pending tx packets for a given endpoint
static void ep_clear_tx(endpoint_t *ep, int tx_last)
{
USB_BDT *bdtptr = bdt_tx(ep->num);
bdtptr[0].stat._byte = bdtptr[1].stat._byte = 0;
ep->tx_last = tx_last;
ep->tx_next = !tx_last;
}
// Initialize/enable an endpoint
static void usb_init_ep(int num, int buflen, uint8_t *rx_buf0, uint8_t *rx_buf1)
{
endpoint_t *ep = &endpoints[num];
ep->num = num;
ep_clear_tx(ep, 1);
// Configure BDT entries for receive
USB_BDT *bdtptr = bdt_rx(num);
bdtptr[0].addr = rx_buf0;
bdtptr[1].addr = rx_buf1;
bdtptr[0].count = bdtptr[1].count = buflen;
bdtptr[0].stat._byte = bdtptr[1].stat._byte = _OWN;
// Enable endpoint for transmit and receive
USB0_ENDPT(num) = USB_ENDPT_EPTXEN_MASK | USB_ENDPT_EPRXEN_MASK
| USB_ENDPT_EPHSHK_MASK;
}
static void usb_reset(void)
{
USB0_CTL |= USB_CTL_ODDRST_MASK;
// Configure endpoint 0 (the control endpoint)
usb_init_ep(0, EP0_BUFSIZE, ep0_rx_buffers[0], ep0_rx_buffers[1]);
// Clear all error and interrupt flags
USB0_ERRSTAT = 0xFF;
USB0_ISTAT = 0xFF;
// Set default USB address
USB0_ADDR = 0x00;
// Enable all error sources
USB0_ERREN = 0x7E;
// Enable USB interrupts
USB0_INTEN = USB_INTEN_TOKDNEEN_MASK | USB_INTEN_ERROREN_MASK
| USB_INTEN_USBRSTEN_MASK | USB_INTEN_STALLEN_MASK;
}
// Get BDT for next available TX buffer for endpoint
inline static USB_BDT *ep_next_tx(endpoint_t *ep)
{
return bdt_tx(ep->num) + ep->tx_next;
}
// Send a bufffer for a given endpoint
static int usb_tx(endpoint_t *ep, uint8_t *data, int len)
{
USB_BDT *bdt_ptr = ep_next_tx(ep);
// Check to see if the next tx buffer is free
if (bdt_ptr->stat._byte & _OWN)
return 0;
bdt_ptr->count = len;
bdt_ptr->addr = data;
bdt_ptr->stat._byte = _OWN | ep->data0; // Give to USB controller
ep->tx_next ^= 1; // Alternate transmit buffers
ep->data0 ^= _DATA01; // Alternate DATA0/1
return len;
}
static void usb_tx_handler(endpoint_t *ep, USB_BDT *bdt_ptr)
{
int len;
// Queue any pending data transfers
while(ep->pending_len > 0) {
len = min(ep->pending_len, EP0_BUFSIZE);
if(!usb_tx(ep, ep->pending_data, len)) // No more transmit buffers
break;
ep->pending_len -= len;
ep->pending_data += len;
}
}
// Queue a buffer for sending over a given endpoint
static void usb_queue_tx(endpoint_t *ep, uint8_t *data, int len)
{
ep->pending_data = data;
ep->pending_len = len;
usb_tx_handler(ep, NULL);
}
static void cdc_rx_handler(endpoint_t *ep, uint8_t *data, int len)
{
// TODO: proper echo handler without a buffer race
usb_tx(ep, data, len);
}
// TODO: move this to a CDC-specific file
static void usb_set_config(uint16_t value)
{
static uint8_t ep1_rx_buffers[2][CDC_ACM_SIZE] __attribute__ ((aligned(4)));
static uint8_t ep2_rx_buffers[2][CDC_RX_SIZE] __attribute__ ((aligned(4)));
usb_init_ep(1, CDC_ACM_SIZE, ep1_rx_buffers[0], ep1_rx_buffers[1]);
usb_init_ep(2, CDC_RX_SIZE, ep2_rx_buffers[0], ep2_rx_buffers[1]);
endpoints[2].rx_handler = cdc_rx_handler;
}
static void usb_setup_device(endpoint_t *ep, USB_SETUP *setup)
{
const usb_descriptor_list_t *p;
int len;
switch (setup->bRequest) {
case mGET_DESC:
p = usb_descriptor_list; // Find entry in table
while(p->wValue) {
if(p->wValue == setup->wValue) {
if(p->length == 0)
len = p->addr[0]; // Use structure length
else
len = p->length;
iprintf("sending 0x%04x %d\r\n",setup->wValue, len);
usb_queue_tx(ep, p->addr, min(len, setup->wLength));
return;
}
p++;
}
iprintf("NOT IMPLEMENTED! 0x%04x\r\n", setup->wValue);
break;
case mSET_ADDRESS:
device_state = ADDRESS;
device_address = setup->wValue & 0x7f;
usb_tx(ep,0,0); // Send handshake
break;
case mSET_CONFIG:
iprintf("setconfig: %d\r\n", setup->wValue);
device_state = ENUMERATED;
usb_set_config(setup->wValue);
usb_tx(ep,0,0); // Send handshake
break;
default:
iprintf("NOT IMPLEMENTED! %d\r\n", setup->bRequest);
break;
}
}
// XXX: move this to serial/CDC-specific file
typedef struct {
uint32_t DTERate;
uint8_t CharFormat;
uint8_t ParityType;
uint8_t Databits;
} cdc_line_coding_t;
static cdc_line_coding_t line_coding;
static void rx_send_handshake(endpoint_t *ep, uint8_t *data, int len)
{
// NOTE: Receive data is ignored
usb_tx(ep,0,0); // Send handshake
ep->rx_handler = NULL;
}
static void usb_setup_interface(endpoint_t *ep, USB_SETUP *setup)
{
switch(setup->bRequest) {
case GET_LINE_CODING:
usb_queue_tx(ep, (uint8_t *) &line_coding, sizeof(line_coding));
break;
case SET_LINE_CODING:
ep->rx_handler = rx_send_handshake;
break;
case SET_CONTROL_LINE_STATE:
usb_tx(ep,0,0); // XXX: check this
break;
default:
iprintf("setup_interface: %d\r\n", setup->bRequest);
break;
}
}
static void usb_setup_endpoint(endpoint_t *ep, USB_SETUP *setup)
{
iprintf("setup_endpoint\r\n");
}
static void usb_handler(uint8_t stat)
{
unsigned int i = stat >> 2;
USB_BDT *bdt_ptr = &bdt[i];
endpoint_t *ep = &endpoints[i >> 2];
switch(bdt_ptr->stat.PID.PID) {
case OUT_TOKEN:
if(ep->rx_handler)
(*(ep->rx_handler))(ep, bdt_ptr->addr, bdt_ptr->count);
break;
case IN_TOKEN:
usb_tx_handler(ep, bdt_ptr);
if(device_state == ADDRESS) {
USB0_ADDR = device_address;
iprintf("USB0_ADDR = %d\r\n", USB0_ADDR);
device_state = READY;
}
ep->tx_last = i & 1; // Save even/odd of last buffer sent
break;
case SETUP_TOKEN:
ep->data0 = _DATA01; // Setup is always DATA1
ep_clear_tx(ep, ep->tx_last);
USB_SETUP *setup = (USB_SETUP*) bdt_ptr->addr;
switch(setup->bmRequestType & 0x1f) {
case 0: usb_setup_device(ep, setup); break;
case 1: usb_setup_interface(ep, setup); break;
case 2: usb_setup_endpoint(ep, setup); break;
default: break;
}
USB0_CTL = USB_CTL_USBENSOFEN_MASK; // Clear TXSUSPENDTOKENBUSY
break;
}
// For receive buffers, configure to receive next token
int tx = stat & 0x8;
if(!tx) {
bdt_ptr->count = EP0_BUFSIZE; // XXX: generalize this
bdt_ptr->stat._byte = _OWN;
}
}
void USBOTG_IRQHandler(void)
{
uint8_t istat = USB0_ISTAT;
if(istat & USB_ISTAT_USBRST_MASK) { // Reset
usb_reset();
return;
}
// Process any pending token done interrupts (may be queued)
while(istat & USB_ISTAT_TOKDNE_MASK) {
usb_handler(USB0_STAT);
USB0_ISTAT = USB_ISTAT_TOKDNE_MASK;
istat = USB0_ISTAT;
}
if(istat & USB_ISTAT_STALL_MASK) {
USB0_ENDPT0 &= ~USB_ENDPT_EPSTALL_MASK;
USB0_ISTAT = USB_ISTAT_STALL_MASK;
}
if(istat & USB_ISTAT_ERROR_MASK) {
iprintf("USB error: 0x%x\r\n", USB0_ERRSTAT);
USB0_ISTAT = USB_ISTAT_ERROR_MASK;
USB0_INTEN = 0; // Disable all USB interrupts
return;
}
}