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4nes4snes/usbdrv/usbdrv.c

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/* Name: usbdrv.c
* Project: AVR USB driver
* Author: Christian Starkjohann
* Creation Date: 2004-12-29
* Tabsize: 4
* Copyright: (c) 2005 by OBJECTIVE DEVELOPMENT Software GmbH
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* License: GNU GPL v2 (see License.txt) or proprietary (CommercialLicense.txt)
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* This Revision: $Id: usbdrv.c,v 1.3 2014-08-23 23:58:32 cvs Exp $
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*/
#include "iarcompat.h"
#ifndef __IAR_SYSTEMS_ICC__
# include <avr/io.h>
# include <avr/pgmspace.h>
#endif
#include "usbdrv.h"
#include "oddebug.h"
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/*
General Description:
This module implements the C-part of the USB driver. See usbdrv.h for a
documentation of the entire driver.
*/
#ifndef IAR_SECTION
#define IAR_SECTION(arg)
#define __no_init
#endif
/* The macro IAR_SECTION is a hack to allow IAR-cc compatibility. On gcc, it
* is defined to nothing. __no_init is required on IAR.
*/
/* ------------------------------------------------------------------------- */
/* raw USB registers / interface to assembler code: */
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uchar usbRxBuf[2*USB_BUFSIZE]; /* raw RX buffer: PID, 8 bytes data, 2 bytes CRC */
uchar usbInputBufOffset; /* offset in usbRxBuf used for low level receiving */
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uchar usbDeviceAddr; /* assigned during enumeration, defaults to 0 */
uchar usbNewDeviceAddr; /* device ID which should be set after status phase */
uchar usbConfiguration; /* currently selected configuration. Administered by driver, but not used */
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volatile schar usbRxLen; /* = 0; number of bytes in usbRxBuf; 0 means free, -1 for flow control */
uchar usbCurrentTok; /* last token received, if more than 1 rx endpoint: MSb=endpoint */
uchar usbRxToken; /* token for data we received; if more than 1 rx endpoint: MSb=endpoint */
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uchar usbMsgLen = 0xff; /* remaining number of bytes, no msg to send if -1 (see usbMsgPtr) */
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volatile uchar usbTxLen = USBPID_NAK; /* number of bytes to transmit with next IN token or handshake token */
uchar usbTxBuf[USB_BUFSIZE];/* data to transmit with next IN, free if usbTxLen contains handshake token */
# if USB_COUNT_SOF
volatile uchar usbSofCount; /* incremented by assembler module every SOF */
# endif
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#if USB_CFG_HAVE_INTRIN_ENDPOINT
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volatile uchar usbTxLen1 = USBPID_NAK; /* TX count for endpoint 1 */
uchar usbTxBuf1[USB_BUFSIZE]; /* TX data for endpoint 1 */
#if USB_CFG_HAVE_INTRIN_ENDPOINT3
volatile uchar usbTxLen3 = USBPID_NAK; /* TX count for endpoint 3 */
uchar usbTxBuf3[USB_BUFSIZE]; /* TX data for endpoint 3 */
#endif
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#endif
/* USB status registers / not shared with asm code */
uchar *usbMsgPtr; /* data to transmit next -- ROM or RAM address */
static uchar usbMsgFlags; /* flag values see below */
#define USB_FLG_TX_PACKET (1<<0)
/* Leave free 6 bits after TX_PACKET. This way we can increment usbMsgFlags to toggle TX_PACKET */
#define USB_FLG_MSGPTR_IS_ROM (1<<6)
#define USB_FLG_USE_DEFAULT_RW (1<<7)
/*
optimizing hints:
- do not post/pre inc/dec integer values in operations
- assign value of PRG_RDB() to register variables and don't use side effects in arg
- use narrow scope for variables which should be in X/Y/Z register
- assign char sized expressions to variables to force 8 bit arithmetics
*/
/* ------------------------------------------------------------------------- */
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#if USB_CFG_DESCR_PROPS_STRINGS == 0
#if USB_CFG_DESCR_PROPS_STRING_0 == 0
#undef USB_CFG_DESCR_PROPS_STRING_0
#define USB_CFG_DESCR_PROPS_STRING_0 sizeof(usbDescriptorString0)
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const PROGMEM char usbDescriptorString0[] = { /* language descriptor */
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4, /* sizeof(usbDescriptorString0): length of descriptor in bytes */
3, /* descriptor type */
0x09, 0x04, /* language index (0x0409 = US-English) */
};
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#endif
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#if USB_CFG_DESCR_PROPS_STRING_VENDOR == 0 && USB_CFG_VENDOR_NAME_LEN
#undef USB_CFG_DESCR_PROPS_STRING_VENDOR
#define USB_CFG_DESCR_PROPS_STRING_VENDOR sizeof(usbDescriptorStringVendor)
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const PROGMEM int usbDescriptorStringVendor[] = {
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USB_STRING_DESCRIPTOR_HEADER(USB_CFG_VENDOR_NAME_LEN),
USB_CFG_VENDOR_NAME
};
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#endif
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#if USB_CFG_DESCR_PROPS_STRING_PRODUCT == 0 && USB_CFG_DEVICE_NAME_LEN
#undef USB_CFG_DESCR_PROPS_STRING_PRODUCT
#define USB_CFG_DESCR_PROPS_STRING_PRODUCT sizeof(usbDescriptorStringDevice)
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const PROGMEM int usbDescriptorStringDevice[] = {
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USB_STRING_DESCRIPTOR_HEADER(USB_CFG_DEVICE_NAME_LEN),
USB_CFG_DEVICE_NAME
};
#endif
#if USB_CFG_DESCR_PROPS_STRING_SERIAL_NUMBER == 0 && USB_CFG_SERIAL_NUMBER_LEN
#undef USB_CFG_DESCR_PROPS_STRING_SERIAL_NUMBER
#define USB_CFG_DESCR_PROPS_STRING_SERIAL_NUMBER sizeof(usbDescriptorStringSerialNumber)
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const PROGMEM int usbDescriptorStringSerialNumber[] = {
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USB_STRING_DESCRIPTOR_HEADER(USB_CFG_SERIAL_NUMBER_LEN),
USB_CFG_SERIAL_NUMBER
};
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#endif
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#endif /* USB_CFG_DESCR_PROPS_STRINGS == 0 */
#if USB_CFG_DESCR_PROPS_DEVICE == 0
#undef USB_CFG_DESCR_PROPS_DEVICE
#define USB_CFG_DESCR_PROPS_DEVICE sizeof(usbDescriptorDevice)
PROGMEM char usbDescriptorDevice[] = { /* USB device descriptor */
18, /* sizeof(usbDescriptorDevice): length of descriptor in bytes */
USBDESCR_DEVICE, /* descriptor type */
0x10, 0x01, /* USB version supported */
USB_CFG_DEVICE_CLASS,
USB_CFG_DEVICE_SUBCLASS,
0, /* protocol */
8, /* max packet size */
USB_CFG_VENDOR_ID, /* 2 bytes */
USB_CFG_DEVICE_ID, /* 2 bytes */
USB_CFG_DEVICE_VERSION, /* 2 bytes */
USB_CFG_DESCR_PROPS_STRING_VENDOR != 0 ? 1 : 0, /* manufacturer string index */
USB_CFG_DESCR_PROPS_STRING_PRODUCT != 0 ? 2 : 0, /* product string index */
USB_CFG_DESCR_PROPS_STRING_SERIAL_NUMBER != 0 ? 3 : 0, /* serial number string index */
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1, /* number of configurations */
};
#endif
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#if USB_CFG_DESCR_PROPS_HID_REPORT != 0 && USB_CFG_DESCR_PROPS_HID == 0
#undef USB_CFG_DESCR_PROPS_HID
#define USB_CFG_DESCR_PROPS_HID 9 /* length of HID descriptor in config descriptor below */
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#endif
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#if USB_CFG_DESCR_PROPS_CONFIGURATION == 0
#undef USB_CFG_DESCR_PROPS_CONFIGURATION
#define USB_CFG_DESCR_PROPS_CONFIGURATION sizeof(usbDescriptorConfiguration)
PROGMEM char usbDescriptorConfiguration[] = { /* USB configuration descriptor */
9, /* sizeof(usbDescriptorConfiguration): length of descriptor in bytes */
USBDESCR_CONFIG, /* descriptor type */
18 + 7 * USB_CFG_HAVE_INTRIN_ENDPOINT + (USB_CFG_DESCR_PROPS_HID & 0xff), 0,
/* total length of data returned (including inlined descriptors) */
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1, /* number of interfaces in this configuration */
1, /* index of this configuration */
0, /* configuration name string index */
#if USB_CFG_IS_SELF_POWERED
USBATTR_SELFPOWER, /* attributes */
#else
USBATTR_BUSPOWER, /* attributes */
#endif
USB_CFG_MAX_BUS_POWER/2, /* max USB current in 2mA units */
/* interface descriptor follows inline: */
9, /* sizeof(usbDescrInterface): length of descriptor in bytes */
USBDESCR_INTERFACE, /* descriptor type */
0, /* index of this interface */
0, /* alternate setting for this interface */
USB_CFG_HAVE_INTRIN_ENDPOINT, /* endpoints excl 0: number of endpoint descriptors to follow */
USB_CFG_INTERFACE_CLASS,
USB_CFG_INTERFACE_SUBCLASS,
USB_CFG_INTERFACE_PROTOCOL,
0, /* string index for interface */
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#if (USB_CFG_DESCR_PROPS_HID & 0xff) /* HID descriptor */
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9, /* sizeof(usbDescrHID): length of descriptor in bytes */
USBDESCR_HID, /* descriptor type: HID */
0x01, 0x01, /* BCD representation of HID version */
0x00, /* target country code */
0x01, /* number of HID Report (or other HID class) Descriptor infos to follow */
0x22, /* descriptor type: report */
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USB_CFG_HID_REPORT_DESCRIPTOR_LENGTH, 0, /* total length of report descriptor */
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#endif
#if USB_CFG_HAVE_INTRIN_ENDPOINT /* endpoint descriptor for endpoint 1 */
7, /* sizeof(usbDescrEndpoint) */
USBDESCR_ENDPOINT, /* descriptor type = endpoint */
0x81, /* IN endpoint number 1 */
0x03, /* attrib: Interrupt endpoint */
8, 0, /* maximum packet size */
USB_CFG_INTR_POLL_INTERVAL, /* in ms */
#endif
};
#endif
/* We don't use prog_int or prog_int16_t for compatibility with various libc
* versions. Here's an other compatibility hack:
*/
#ifndef PRG_RDB
#define PRG_RDB(addr) pgm_read_byte(addr)
#endif
typedef union{
unsigned word;
uchar *ptr;
uchar bytes[2];
}converter_t;
/* We use this union to do type conversions. This is better optimized than
* type casts in gcc 3.4.3 and much better than using bit shifts to build
* ints from chars. Byte ordering is not a problem on an 8 bit platform.
*/
/* ------------------------------------------------------------------------- */
#if USB_CFG_HAVE_INTRIN_ENDPOINT
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USB_PUBLIC void usbSetInterrupt(uchar *data, uchar len)
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{
uchar *p, i;
#if USB_CFG_IMPLEMENT_HALT
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if(usbTxLen1 == USBPID_STALL)
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return;
#endif
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#if 0 /* No runtime checks! Caller is responsible for valid data! */
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if(len > 8) /* interrupt transfers are limited to 8 bytes */
len = 8;
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#endif
if(usbTxLen1 & 0x10){ /* packet buffer was empty */
usbTxBuf1[0] ^= USBPID_DATA0 ^ USBPID_DATA1; /* toggle token */
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}else{
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usbTxLen1 = USBPID_NAK; /* avoid sending outdated (overwritten) interrupt data */
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}
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p = usbTxBuf1 + 1;
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for(i=len;i--;)
*p++ = *data++;
usbCrc16Append(&usbTxBuf1[1], len);
usbTxLen1 = len + 4; /* len must be given including sync byte */
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DBG2(0x21, usbTxBuf1, len + 3);
}
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#endif
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#if USB_CFG_HAVE_INTRIN_ENDPOINT3
USB_PUBLIC void usbSetInterrupt3(uchar *data, uchar len)
{
uchar *p, i;
if(usbTxLen3 & 0x10){ /* packet buffer was empty */
usbTxBuf3[0] ^= USBPID_DATA0 ^ USBPID_DATA1; /* toggle token */
}else{
usbTxLen3 = USBPID_NAK; /* avoid sending outdated (overwritten) interrupt data */
}
p = usbTxBuf3 + 1;
for(i=len;i--;)
*p++ = *data++;
usbCrc16Append(&usbTxBuf3[1], len);
usbTxLen3 = len + 4; /* len must be given including sync byte */
DBG2(0x23, usbTxBuf3, len + 3);
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}
#endif
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static uchar usbRead(uchar *data, uchar len)
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{
#if USB_CFG_IMPLEMENT_FN_READ
if(usbMsgFlags & USB_FLG_USE_DEFAULT_RW){
#endif
uchar i = len, *r = usbMsgPtr;
if(usbMsgFlags & USB_FLG_MSGPTR_IS_ROM){ /* ROM data */
while(i--){
uchar c = PRG_RDB(r); /* assign to char size variable to enforce byte ops */
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*data++ = c;
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r++;
}
}else{ /* RAM data */
while(i--)
*data++ = *r++;
}
usbMsgPtr = r;
return len;
#if USB_CFG_IMPLEMENT_FN_READ
}else{
if(len != 0) /* don't bother app with 0 sized reads */
return usbFunctionRead(data, len);
return 0;
}
#endif
}
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#define GET_DESCRIPTOR(cfgProp, staticName) \
if(cfgProp){ \
if((cfgProp) & USB_PROP_IS_RAM) \
flags &= ~USB_FLG_MSGPTR_IS_ROM; \
if((cfgProp) & USB_PROP_IS_DYNAMIC){ \
replyLen = usbFunctionDescriptor(rq); \
}else{ \
replyData = (uchar *)(staticName); \
SET_REPLY_LEN((cfgProp) & 0xff); \
} \
}
/* We use if() instead of #if in the macro above because #if can't be used
* in macros and the compiler optimizes constant conditions anyway.
*/
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/* Don't make this function static to avoid inlining.
* The entire function would become too large and exceed the range of
* relative jumps.
* 2006-02-25: Either gcc 3.4.3 is better than the gcc used when the comment
* above was written, or other parts of the code have changed. We now get
* better results with an inlined function. Test condition: PowerSwitch code.
*/
static void usbProcessRx(uchar *data, uchar len)
{
usbRequest_t *rq = (void *)data;
uchar replyLen = 0, flags = USB_FLG_USE_DEFAULT_RW;
/* We use if() cascades because the compare is done byte-wise while switch()
* is int-based. The if() cascades are therefore more efficient.
*/
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/* usbRxToken can be:
* 0x2d 00101101 (USBPID_SETUP for endpoint 0)
* 0xe1 11100001 (USBPID_OUT for endpoint 0)
* 0xff 11111111 (USBPID_OUT for endpoint 1)
*/
DBG2(0x10 + ((usbRxToken >> 1) & 3), data, len); /* SETUP0=12; OUT0=10; OUT1=13 */
#ifdef USB_RX_USER_HOOK
USB_RX_USER_HOOK(data, len)
#endif
#if USB_CFG_IMPLEMENT_FN_WRITEOUT
if(usbRxToken == 0xff){
usbFunctionWriteOut(data, len);
return; /* no reply expected, hence no usbMsgPtr, usbMsgFlags, usbMsgLen set */
}
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#endif
if(usbRxToken == (uchar)USBPID_SETUP){
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usbTxLen = USBPID_NAK; /* abort pending transmit */
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if(len == 8){ /* Setup size must be always 8 bytes. Ignore otherwise. */
uchar type = rq->bmRequestType & USBRQ_TYPE_MASK;
if(type == USBRQ_TYPE_STANDARD){
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#define SET_REPLY_LEN(len) replyLen = (len); usbMsgPtr = replyData
/* This macro ensures that replyLen and usbMsgPtr are always set in the same way.
* That allows optimization of common code in if() branches */
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uchar *replyData = usbTxBuf + 9; /* there is 3 bytes free space at the end of the buffer */
replyData[0] = 0; /* common to USBRQ_GET_STATUS and USBRQ_GET_INTERFACE */
if(rq->bRequest == USBRQ_GET_STATUS){ /* 0 */
uchar __attribute__((__unused__)) recipient = rq->bmRequestType & USBRQ_RCPT_MASK; /* assign arith ops to variables to enforce byte size */
#if USB_CFG_IS_SELF_POWERED
if(recipient == USBRQ_RCPT_DEVICE)
replyData[0] = USB_CFG_IS_SELF_POWERED;
#endif
#if USB_CFG_HAVE_INTRIN_ENDPOINT && USB_CFG_IMPLEMENT_HALT
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if(recipient == USBRQ_RCPT_ENDPOINT && rq->wIndex.bytes[0] == 0x81) /* request status for endpoint 1 */
replyData[0] = usbTxLen1 == USBPID_STALL;
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#endif
replyData[1] = 0;
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SET_REPLY_LEN(2);
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}else if(rq->bRequest == USBRQ_SET_ADDRESS){ /* 5 */
usbNewDeviceAddr = rq->wValue.bytes[0];
}else if(rq->bRequest == USBRQ_GET_DESCRIPTOR){ /* 6 */
flags = USB_FLG_MSGPTR_IS_ROM | USB_FLG_USE_DEFAULT_RW;
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if(rq->wValue.bytes[1] == USBDESCR_DEVICE){ /* 1 */
GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_DEVICE, usbDescriptorDevice)
}else if(rq->wValue.bytes[1] == USBDESCR_CONFIG){ /* 2 */
GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_CONFIGURATION, usbDescriptorConfiguration)
}else if(rq->wValue.bytes[1] == USBDESCR_STRING){ /* 3 */
#if USB_CFG_DESCR_PROPS_STRINGS & USB_PROP_IS_DYNAMIC
if(USB_CFG_DESCR_PROPS_STRINGS & USB_PROP_IS_RAM)
flags &= ~USB_FLG_MSGPTR_IS_ROM;
replyLen = usbFunctionDescriptor(rq);
#else /* USB_CFG_DESCR_PROPS_STRINGS & USB_PROP_IS_DYNAMIC */
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if(rq->wValue.bytes[0] == 0){ /* descriptor index */
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GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_STRING_0, usbDescriptorString0)
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}else if(rq->wValue.bytes[0] == 1){
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GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_STRING_VENDOR, usbDescriptorStringVendor)
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}else if(rq->wValue.bytes[0] == 2){
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GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_STRING_PRODUCT, usbDescriptorStringDevice)
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}else if(rq->wValue.bytes[0] == 3){
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GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_STRING_SERIAL_NUMBER, usbDescriptorStringSerialNumber)
}else if(USB_CFG_DESCR_PROPS_UNKNOWN & USB_PROP_IS_DYNAMIC){
replyLen = usbFunctionDescriptor(rq);
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}
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#endif /* USB_CFG_DESCR_PROPS_STRINGS & USB_PROP_IS_DYNAMIC */
#if USB_CFG_DESCR_PROPS_HID_REPORT /* only support HID descriptors if enabled */
}else if(rq->wValue.bytes[1] == USBDESCR_HID){ /* 0x21 */
GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_HID, usbDescriptorConfiguration + 18)
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}else if(rq->wValue.bytes[1] == USBDESCR_HID_REPORT){ /* 0x22 */
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GET_DESCRIPTOR(USB_CFG_DESCR_PROPS_HID_REPORT, usbDescriptorHidReport)
#endif /* USB_CFG_DESCR_PROPS_HID_REPORT */
}else if(USB_CFG_DESCR_PROPS_UNKNOWN & USB_PROP_IS_DYNAMIC){
replyLen = usbFunctionDescriptor(rq);
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}
}else if(rq->bRequest == USBRQ_GET_CONFIGURATION){ /* 8 */
replyData = &usbConfiguration; /* send current configuration value */
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SET_REPLY_LEN(1);
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}else if(rq->bRequest == USBRQ_SET_CONFIGURATION){ /* 9 */
usbConfiguration = rq->wValue.bytes[0];
#if USB_CFG_IMPLEMENT_HALT
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usbTxLen1 = USBPID_NAK;
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#endif
}else if(rq->bRequest == USBRQ_GET_INTERFACE){ /* 10 */
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SET_REPLY_LEN(1);
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#if USB_CFG_HAVE_INTRIN_ENDPOINT
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}else if(rq->bRequest == USBRQ_SET_INTERFACE){ /* 11 */
USB_SET_DATATOKEN1(USB_INITIAL_DATATOKEN); /* reset data toggling for interrupt endpoint */
# if USB_CFG_HAVE_INTRIN_ENDPOINT3
USB_SET_DATATOKEN3(USB_INITIAL_DATATOKEN); /* reset data toggling for interrupt endpoint */
# endif
# if USB_CFG_IMPLEMENT_HALT
usbTxLen1 = USBPID_NAK;
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}else if(rq->bRequest == USBRQ_CLEAR_FEATURE || rq->bRequest == USBRQ_SET_FEATURE){ /* 1|3 */
if(rq->wValue.bytes[0] == 0 && rq->wIndex.bytes[0] == 0x81){ /* feature 0 == HALT for endpoint == 1 */
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usbTxLen1 = rq->bRequest == USBRQ_CLEAR_FEATURE ? USBPID_NAK : USBPID_STALL;
USB_SET_DATATOKEN1(USB_INITIAL_DATATOKEN); /* reset data toggling for interrupt endpoint */
# if USB_CFG_HAVE_INTRIN_ENDPOINT3
USB_SET_DATATOKEN3(USB_INITIAL_DATATOKEN); /* reset data toggling for interrupt endpoint */
# endif
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}
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# endif
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#endif
}else{
/* the following requests can be ignored, send default reply */
/* 1: CLEAR_FEATURE, 3: SET_FEATURE, 7: SET_DESCRIPTOR */
/* 12: SYNCH_FRAME */
}
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#undef SET_REPLY_LEN
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}else{ /* not a standard request -- must be vendor or class request */
replyLen = usbFunctionSetup(data);
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}
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#if USB_CFG_IMPLEMENT_FN_READ || USB_CFG_IMPLEMENT_FN_WRITE
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if(replyLen == 0xff){ /* use user-supplied read/write function */
if((rq->bmRequestType & USBRQ_DIR_MASK) == USBRQ_DIR_DEVICE_TO_HOST){
replyLen = rq->wLength.bytes[0]; /* IN transfers only */
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}
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flags &= ~USB_FLG_USE_DEFAULT_RW; /* we have no valid msg, use user supplied read/write functions */
}else /* The 'else' prevents that we limit a replyLen of 0xff to the maximum transfer len. */
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#endif
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if(!rq->wLength.bytes[1] && replyLen > rq->wLength.bytes[0]) /* limit length to max */
replyLen = rq->wLength.bytes[0];
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}
/* make sure that data packets which are sent as ACK to an OUT transfer are always zero sized */
}else{ /* DATA packet from out request */
#if USB_CFG_IMPLEMENT_FN_WRITE
if(!(usbMsgFlags & USB_FLG_USE_DEFAULT_RW)){
uchar rval = usbFunctionWrite(data, len);
replyLen = 0xff;
if(rval == 0xff){ /* an error occurred */
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usbMsgLen = 0xff; /* cancel potentially pending data packet for ACK */
usbTxLen = USBPID_STALL;
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}else if(rval != 0){ /* This was the final package */
replyLen = 0; /* answer with a zero-sized data packet */
}
flags = 0; /* start with a DATA1 package, stay with user supplied write() function */
}
#endif
}
usbMsgFlags = flags;
usbMsgLen = replyLen;
}
/* ------------------------------------------------------------------------- */
static void usbBuildTxBlock(void)
{
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uchar wantLen, len, txLen, token;
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wantLen = usbMsgLen;
if(wantLen > 8)
wantLen = 8;
usbMsgLen -= wantLen;
token = USBPID_DATA1;
if(usbMsgFlags & USB_FLG_TX_PACKET)
token = USBPID_DATA0;
usbMsgFlags++;
len = usbRead(usbTxBuf + 1, wantLen);
if(len <= 8){ /* valid data packet */
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usbCrc16Append(&usbTxBuf[1], len);
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txLen = len + 4; /* length including sync byte */
if(len < 8) /* a partial package identifies end of message */
usbMsgLen = 0xff;
}else{
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txLen = USBPID_STALL; /* stall the endpoint */
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usbMsgLen = 0xff;
}
usbTxBuf[0] = token;
usbTxLen = txLen;
DBG2(0x20, usbTxBuf, txLen-1);
}
static inline uchar isNotSE0(void)
{
uchar rval;
/* We want to do
* return (USBIN & USBMASK);
* here, but the compiler does int-expansion acrobatics.
* We can avoid this by assigning to a char-sized variable.
*/
rval = USBIN & USBMASK;
return rval;
}
/* ------------------------------------------------------------------------- */
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USB_PUBLIC void usbPoll(void)
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{
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schar len;
uchar i;
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if((len = usbRxLen) > 0){
/* We could check CRC16 here -- but ACK has already been sent anyway. If you
* need data integrity checks with this driver, check the CRC in your app
* code and report errors back to the host. Since the ACK was already sent,
* retries must be handled on application level.
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* unsigned crc = usbCrc16(buffer + 1, usbRxLen - 3);
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*/
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usbProcessRx(usbRxBuf + USB_BUFSIZE + 1 - usbInputBufOffset, len - 3);
#if USB_CFG_HAVE_FLOWCONTROL
if(usbRxLen > 0) /* only mark as available if not inactivated */
usbRxLen = 0;
#else
usbRxLen = 0; /* mark rx buffer as available */
#endif
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}
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if(usbTxLen & 0x10){ /* transmit system idle */
if(usbMsgLen != 0xff){ /* transmit data pending? */
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usbBuildTxBlock();
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}
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}
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for(i = 10; i > 0; i--){
if(isNotSE0())
break;
}
if(i == 0){ /* RESET condition, called multiple times during reset */
usbNewDeviceAddr = 0;
usbDeviceAddr = 0;
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#if USB_CFG_IMPLEMENT_HALT
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usbTxLen1 = USBPID_NAK;
#if USB_CFG_HAVE_INTRIN_ENDPOINT3
usbTxLen3 = USBPID_NAK;
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#endif
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#endif
DBG1(0xff, 0, 0);
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}
}
/* ------------------------------------------------------------------------- */
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USB_PUBLIC void usbInit(void)
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{
#if USB_INTR_CFG_SET != 0
USB_INTR_CFG |= USB_INTR_CFG_SET;
#endif
#if USB_INTR_CFG_CLR != 0
USB_INTR_CFG &= ~(USB_INTR_CFG_CLR);
#endif
USB_INTR_ENABLE |= (1 << USB_INTR_ENABLE_BIT);
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#if USB_CFG_HAVE_INTRIN_ENDPOINT
USB_SET_DATATOKEN1(USB_INITIAL_DATATOKEN); /* reset data toggling for interrupt endpoint */
# if USB_CFG_HAVE_INTRIN_ENDPOINT3
USB_SET_DATATOKEN3(USB_INITIAL_DATATOKEN); /* reset data toggling for interrupt endpoint */
# endif
#endif
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}
/* ------------------------------------------------------------------------- */