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qmk_firmware/protocol/vusb/usbdrv/usbdrvasm20.inc

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/* Name: usbdrvasm20.inc
* Project: V-USB, virtual USB port for Atmel's(r) AVR(r) microcontrollers
* Author: Jeroen Benschop
* Based on usbdrvasm16.inc from Christian Starkjohann
* Creation Date: 2008-03-05
* Tabsize: 4
* Copyright: (c) 2008 by Jeroen Benschop and OBJECTIVE DEVELOPMENT Software GmbH
* License: GNU GPL v2 (see License.txt), GNU GPL v3 or proprietary (CommercialLicense.txt)
* Revision: $Id: usbdrvasm20.inc 740 2009-04-13 18:23:31Z cs $
*/
/* Do not link this file! Link usbdrvasm.S instead, which includes the
* appropriate implementation!
*/
/*
General Description:
This file is the 20 MHz version of the asssembler part of the USB driver. It
requires a 20 MHz crystal (not a ceramic resonator and not a calibrated RC
oscillator).
See usbdrv.h for a description of the entire driver.
Since almost all of this code is timing critical, don't change unless you
really know what you are doing! Many parts require not only a maximum number
of CPU cycles, but even an exact number of cycles!
*/
#define leap2 x3
#ifdef __IAR_SYSTEMS_ASM__
#define nextInst $+2
#else
#define nextInst .+0
#endif
;max stack usage: [ret(2), YL, SREG, YH, bitcnt, shift, x1, x2, x3, x4, cnt] = 12 bytes
;nominal frequency: 20 MHz -> 13.333333 cycles per bit, 106.666667 cycles per byte
; Numbers in brackets are clocks counted from center of last sync bit
; when instruction starts
;register use in receive loop:
; shift assembles the byte currently being received
; x1 holds the D+ and D- line state
; x2 holds the previous line state
; x4 (leap) is used to add a leap cycle once every three bytes received
; X3 (leap2) is used to add a leap cycle once every three stuff bits received
; bitcnt is used to determine when a stuff bit is due
; cnt holds the number of bytes left in the receive buffer
USB_INTR_VECTOR:
;order of registers pushed: YL, SREG YH, [sofError], bitcnt, shift, x1, x2, x3, x4, cnt
push YL ;[-28] push only what is necessary to sync with edge ASAP
in YL, SREG ;[-26]
push YL ;[-25]
push YH ;[-23]
;----------------------------------------------------------------------------
; Synchronize with sync pattern:
;----------------------------------------------------------------------------
;sync byte (D-) pattern LSb to MSb: 01010100 [1 = idle = J, 0 = K]
;sync up with J to K edge during sync pattern -- use fastest possible loops
;The first part waits at most 1 bit long since we must be in sync pattern.
;YL is guarenteed to be < 0x80 because I flag is clear. When we jump to
;waitForJ, ensure that this prerequisite is met.
waitForJ:
inc YL
sbis USBIN, USBMINUS
brne waitForJ ; just make sure we have ANY timeout
waitForK:
;The following code results in a sampling window of < 1/4 bit which meets the spec.
sbis USBIN, USBMINUS ;[-19]
rjmp foundK ;[-18]
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
sbis USBIN, USBMINUS
rjmp foundK
#if USB_COUNT_SOF
lds YL, usbSofCount
inc YL
sts usbSofCount, YL
#endif /* USB_COUNT_SOF */
#ifdef USB_SOF_HOOK
USB_SOF_HOOK
#endif
rjmp sofError
foundK: ;[-16]
;{3, 5} after falling D- edge, average delay: 4 cycles
;bit0 should be at 34 for center sampling. Currently at 4 so 30 cylces till bit 0 sample
;use 1 bit time for setup purposes, then sample again. Numbers in brackets
;are cycles from center of first sync (double K) bit after the instruction
push bitcnt ;[-16]
; [---] ;[-15]
lds YL, usbInputBufOffset;[-14]
; [---] ;[-13]
clr YH ;[-12]
subi YL, lo8(-(usbRxBuf));[-11] [rx loop init]
sbci YH, hi8(-(usbRxBuf));[-10] [rx loop init]
push shift ;[-9]
; [---] ;[-8]
ldi shift,0x40 ;[-7] set msb to "1" so processing bit7 can be detected
nop2 ;[-6]
; [---] ;[-5]
ldi bitcnt, 5 ;[-4] [rx loop init]
sbis USBIN, USBMINUS ;[-3] we want two bits K (sample 3 cycles too early)
rjmp haveTwoBitsK ;[-2]
pop shift ;[-1] undo the push from before
pop bitcnt ;[1]
rjmp waitForK ;[3] this was not the end of sync, retry
; The entire loop from waitForK until rjmp waitForK above must not exceed two
; bit times (= 27 cycles).
;----------------------------------------------------------------------------
; push more registers and initialize values while we sample the first bits:
;----------------------------------------------------------------------------
haveTwoBitsK:
push x1 ;[0]
push x2 ;[2]
push x3 ;[4] (leap2)
ldi leap2, 0x55 ;[6] add leap cycle on 2nd,5th,8th,... stuff bit
push x4 ;[7] == leap
ldi leap, 0x55 ;[9] skip leap cycle on 2nd,5th,8th,... byte received
push cnt ;[10]
ldi cnt, USB_BUFSIZE ;[12] [rx loop init]
ldi x2, 1<<USBPLUS ;[13] current line state is K state. D+=="1", D-=="0"
bit0:
in x1, USBIN ;[0] sample line state
andi x1, USBMASK ;[1] filter only D+ and D- bits
rjmp handleBit ;[2] make bit0 14 cycles long
;----------------------------------------------------------------------------
; Process bit7. However, bit 6 still may need unstuffing.
;----------------------------------------------------------------------------
b6checkUnstuff:
dec bitcnt ;[9]
breq unstuff6 ;[10]
bit7:
subi cnt, 1 ;[11] cannot use dec becaus it does not affect the carry flag
brcs overflow ;[12] Too many bytes received. Ignore packet
in x1, USBIN ;[0] sample line state
andi x1, USBMASK ;[1] filter only D+ and D- bits
cpse x1, x2 ;[2] when previous line state equals current line state, handle "1"
rjmp b7handle0 ;[3] when line state differs, handle "0"
sec ;[4]
ror shift ;[5] shift "1" into the data
st y+, shift ;[6] store the data into the buffer
ldi shift, 0x40 ;[7] reset data for receiving the next byte
subi leap, 0x55 ;[9] trick to introduce a leap cycle every 3 bytes
brcc nextInst ;[10 or 11] it will fail after 85 bytes. However low speed can only receive 11
dec bitcnt ;[11 or 12]
brne bit0 ;[12 or 13]
ldi x1, 1 ;[13 or 14] unstuffing bit 7
in bitcnt, USBIN ;[0] sample stuff bit
rjmp unstuff ;[1]
b7handle0:
mov x2,x1 ;[5] Set x2 to current line state
ldi bitcnt, 6 ;[6]
lsr shift ;[7] shift "0" into the data
st y+, shift ;[8] store data into the buffer
ldi shift, 0x40 ;[10] reset data for receiving the next byte
subi leap, 0x55 ;[11] trick to introduce a leap cycle every 3 bytes
brcs bit0 ;[12] it will fail after 85 bytes. However low speed can only receive 11
rjmp bit0 ;[13]
;----------------------------------------------------------------------------
; Handle unstuff
; x1==0xFF indicate unstuffing bit6
;----------------------------------------------------------------------------
unstuff6:
ldi x1,0xFF ;[12] indicate unstuffing bit 6
in bitcnt, USBIN ;[0] sample stuff bit
nop ;[1] fix timing
unstuff: ;b0-5 b6 b7
mov x2,bitcnt ;[3] [2] [3] Set x2 to match line state
subi leap2, 0x55 ;[4] [3] [4] delay loop
brcs nextInst ;[5] [4] [5] add one cycle every three stuff bits
sbci leap2,0 ;[6] [5] [6]
ldi bitcnt,6 ;[7] [6] [7] reset bit stuff counter
andi x2, USBMASK ;[8] [7] [8] only keep D+ and D-
cpi x1,0 ;[9] [8] [9]
brmi bit7 ;[10] [9] [10] finished unstuffing bit6 When x1<0
breq bitloop ;[11] --- [11] finished unstuffing bit0-5 when x1=0
nop ;--- --- [12]
in x1, USBIN ;--- --- [0] sample line state for bit0
andi x1, USBMASK ;--- --- [1] filter only D+ and D- bits
rjmp handleBit ;--- --- [2] make bit0 14 cycles long
;----------------------------------------------------------------------------
; Receiver loop (numbers in brackets are cycles within byte after instr)
;----------------------------------------------------------------------------
bitloop:
in x1, USBIN ;[0] sample line state
andi x1, USBMASK ;[1] filter only D+ and D- bits
breq se0 ;[2] both lines are low so handle se0
handleBit:
cpse x1, x2 ;[3] when previous line state equals current line state, handle "1"
rjmp handle0 ;[4] when line state differs, handle "0"
sec ;[5]
ror shift ;[6] shift "1" into the data
brcs b6checkUnstuff ;[7] When after shift C is set, next bit is bit7
nop2 ;[8]
dec bitcnt ;[10]
brne bitloop ;[11]
ldi x1,0 ;[12] indicate unstuff for bit other than bit6 or bit7
in bitcnt, USBIN ;[0] sample stuff bit
rjmp unstuff ;[1]
handle0:
mov x2, x1 ;[6] Set x2 to current line state
ldi bitcnt, 6 ;[7] reset unstuff counter.
lsr shift ;[8] shift "0" into the data
brcs bit7 ;[9] When after shift C is set, next bit is bit7
nop ;[10]
rjmp bitloop ;[11]
;----------------------------------------------------------------------------
; End of receive loop. Now start handling EOP
;----------------------------------------------------------------------------
macro POP_STANDARD ; 14 cycles
pop cnt
pop x4
pop x3
pop x2
pop x1
pop shift
pop bitcnt
endm
macro POP_RETI ; 7 cycles
pop YH
pop YL
out SREG, YL
pop YL
endm
#include "asmcommon.inc"
; USB spec says:
; idle = J
; J = (D+ = 0), (D- = 1)
; K = (D+ = 1), (D- = 0)
; Spec allows 7.5 bit times from EOP to SOP for replies
; 7.5 bit times is 100 cycles. This implementation arrives a bit later at se0
; then specified in the include file but there is plenty of time
bitstuffN:
eor x1, x4 ;[8]
ldi x2, 0 ;[9]
nop2 ;[10]
out USBOUT, x1 ;[12] <-- out
rjmp didStuffN ;[0]
bitstuff7:
eor x1, x4 ;[6]
ldi x2, 0 ;[7] Carry is zero due to brcc
rol shift ;[8] compensate for ror shift at branch destination
nop2 ;[9]
rjmp didStuff7 ;[11]
sendNakAndReti:
ldi x3, USBPID_NAK ;[-18]
rjmp sendX3AndReti ;[-17]
sendAckAndReti:
ldi cnt, USBPID_ACK ;[-17]
sendCntAndReti:
mov x3, cnt ;[-16]
sendX3AndReti:
ldi YL, 20 ;[-15] x3==r20 address is 20
ldi YH, 0 ;[-14]
ldi cnt, 2 ;[-13]
; rjmp usbSendAndReti fallthrough
;usbSend:
;pointer to data in 'Y'
;number of bytes in 'cnt' -- including sync byte [range 2 ... 12]
;uses: x1...x4, btcnt, shift, cnt, Y
;Numbers in brackets are time since first bit of sync pattern is sent
;We don't match the transfer rate exactly (don't insert leap cycles every third
;byte) because the spec demands only 1.5% precision anyway.
usbSendAndReti: ; 12 cycles until SOP
in x2, USBDDR ;[-12]
ori x2, USBMASK ;[-11]
sbi USBOUT, USBMINUS;[-10] prepare idle state; D+ and D- must have been 0 (no pullups)
in x1, USBOUT ;[-8] port mirror for tx loop
out USBDDR, x2 ;[-7] <- acquire bus
; need not init x2 (bitstuff history) because sync starts with 0
ldi x4, USBMASK ;[-6] exor mask
ldi shift, 0x80 ;[-5] sync byte is first byte sent
txByteLoop:
ldi bitcnt, 0x49 ;[-4] [10] binary 01001001
txBitLoop:
sbrs shift, 0 ;[-3] [10] [11]
eor x1, x4 ;[-2] [11] [12]
out USBOUT, x1 ;[-1] [12] [13] <-- out N
ror shift ;[0] [13] [14]
ror x2 ;[1]
didStuffN:
nop2 ;[2]
nop ;[4]
cpi x2, 0xfc ;[5]
brcc bitstuffN ;[6]
lsr bitcnt ;[7]
brcc txBitLoop ;[8]
brne txBitLoop ;[9]
sbrs shift, 0 ;[10]
eor x1, x4 ;[11]
didStuff7:
out USBOUT, x1 ;[-1] [13] <-- out 7
ror shift ;[0] [14]
ror x2 ;[1]
nop ;[2]
cpi x2, 0xfc ;[3]
brcc bitstuff7 ;[4]
ld shift, y+ ;[5]
dec cnt ;[7]
brne txByteLoop ;[8]
;make SE0:
cbr x1, USBMASK ;[9] prepare SE0 [spec says EOP may be 25 to 30 cycles]
lds x2, usbNewDeviceAddr;[10]
lsl x2 ;[12] we compare with left shifted address
out USBOUT, x1 ;[13] <-- out SE0 -- from now 2 bits = 22 cycles until bus idle
subi YL, 20 + 2 ;[0] Only assign address on data packets, not ACK/NAK in x3
sbci YH, 0 ;[1]
;2006-03-06: moved transfer of new address to usbDeviceAddr from C-Code to asm:
;set address only after data packet was sent, not after handshake
breq skipAddrAssign ;[2]
sts usbDeviceAddr, x2; if not skipped: SE0 is one cycle longer
skipAddrAssign:
;end of usbDeviceAddress transfer
ldi x2, 1<<USB_INTR_PENDING_BIT;[4] int0 occurred during TX -- clear pending flag
USB_STORE_PENDING(x2) ;[5]
ori x1, USBIDLE ;[6]
in x2, USBDDR ;[7]
cbr x2, USBMASK ;[8] set both pins to input
mov x3, x1 ;[9]
cbr x3, USBMASK ;[10] configure no pullup on both pins
ldi x4, 5 ;[11]
se0Delay:
dec x4 ;[12] [15] [18] [21] [24]
brne se0Delay ;[13] [16] [19] [22] [25]
out USBOUT, x1 ;[26] <-- out J (idle) -- end of SE0 (EOP signal)
out USBDDR, x2 ;[27] <-- release bus now
out USBOUT, x3 ;[28] <-- ensure no pull-up resistors are active
rjmp doReturn