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terminal-m0.s
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terminal-m0.s
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@ swdcom terminal functions
@ Copyright (c) 2020, Jan Bramkamp <[email protected]>
@ Copyright (c) 2020, Robert Clausecker <[email protected]>
@ All rights reserved.
@
@ Redistribution and use in source and binary forms, with or without
@ modification, are permitted provided that the following conditions are met:
@
@ 1. Redistributions of source code must retain the above copyright notice, this
@ list of conditions and the following disclaimer.
@
@ 2. Redistributions in binary form must reproduce the above copyright notice,
@ this list of conditions and the following disclaimer in the documentation
@ and/or other materials provided with the distribution.
@
@ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
@ AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
@ IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
@ DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
@ FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
@ DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
@ SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
@ CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
@ OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
@ Instead of the normal USART these terminal words use a pair of ring buffers
@ in SRAM. The PC (ab)uses the STLINK/V2 as remote memory access interface.
@ All four indices are stores in a single 32 bit word allowing the host
@ to poll them all with a single 32 bit memory read. Updates to the indices
@ use 8 bit writes.
@ The ring buffers are used as single producer, single consumer queues to
@ decouple bursty producers from their consumer.
@ The buffer base address is permanently stored in register R11 allowing the
@ host PC to stop the core, read the address from R11 and resume the core.
@
@ In a simple benchmark this code transfered >90 kilobyte/second from a
@ STM32L476 at 48MHz through the STLINK/V2 to the host PC running swd2
@ on FreeBSD 12.1 and >100 kilobyte/second in the opposite direction.
@ The "words" word finishes in a fraction of a second.
@
@ Compared to normal USART initialization this code is almost hardware
@ independent and a lot easier to port.
@
@ The terminal program for the host PC that goes with this code is hosted at:
@
@ https://github.com/Crest/swdcom
@
@ Memory Layout of the buffer pair:
@
@ SWD_Base + 0x0000 : RX buffer write index
@ SWD_Base + 0x0001 : RX buffer read index
@ SWD_Base + 0x0002 : TX buffer write index
@ SWD_Base + 0x0003 : TX buffer read index
@ SWD_Base + 0x0104 : 256 bytes of RX buffer space
@ SWD_Base + 0x0204 : 256 bytes of TX buffer space
@
@ The host PC is only allowed to write to these locations:
@ * The RX buffer write index
@ * The TX buffer read index
@ * The unallocated range of the RX buffer space wrapping around at the end
@ TODO: Replace ramallot for with a call to ram_allot.
@ -----------------------------------------------------------------------------
Wortbirne Flag_visible, "swd"
@ -----------------------------------------------------------------------------
dup @ In theory the rest could be written in forth
mov tos, r11 @ with just knowledge of this constant, but
bx lr @ it would require a two stage bootstrap.
@ -----------------------------------------------------------------------------
Wortbirne Flag_visible, "swd-init"
@ -----------------------------------------------------------------------------
uart_init: @ Hijack the usart_init symbol to minimize code changes
push {lr}
ldr r0, =Dictionarypointer @ Assumes that the directory pointer points to a word aligned address in SRAM.
ldr r1, [r0] @ Load the start of free space
movs r0, 0 @ Initialize all four indices to zero.
str r0, [r1]
mov r11, r1 @ Save the base address in R11. This makes the code
@ slightly faster and allows the host PC to autodiscover
@ the buffer address.
dup @ Allocate the required 4 + 2*256 bytes
pushdaconstw 516 @ Ignore failure. There is nothing we can do
bl allot @ to recover and there should always be at least
pop {pc} @ this much free SRAM on start up.
@ -----------------------------------------------------------------------------
Wortbirne Flag_visible, "swd-key?" @ ( -- ? )
@ -----------------------------------------------------------------------------
serial_qkey: @ Hijack the serial_qkey symbol to minimize code changes
push {lr} @ Yield the CPU
bl pause
dup
mov r2, r11 @ Load SWD buffer base address into a low register
ldrb r0, [r2] @ Load RX write index
ldrb r1, [r2, 1] @ Load RX read index
movs tos, 0 @ Assume that the RX buffer is empty (read == write)
cmp r0, r1 @ Test the assumption
beq 1f @ Change from 0 to -1 if the assumption was incorrect
subs tos, 1
1: pop {pc}
@ -----------------------------------------------------------------------------
Wortbirne Flag_visible, "swd-emit?" @ ( -- ? )
@ -----------------------------------------------------------------------------
serial_qemit: @ Hijack the serial_qemit symbol to minimize code changes
push {lr} @ Yield the CPU
bl pause
dup
mov r2, r11 @ Load SWD buffer base address into a low register
ldrb r0, [r2, 2] @ Load TX write index
ldrb r1, [r2, 3] @ Load TX read index
adds r0, 1 @ Check if RX write index + 1 == RX read index
uxtb r0, r0 @ clear possible carry
movs tos, 0 @ Assume that the TX buffer is full (write + 1 == RX)
cmp r0, r1 @ Test the assumption
beq 1f @ Change from 0 to -1 if the assumption was incorrect
subs tos, 1
1: pop {pc}
@ -----------------------------------------------------------------------------
Wortbirne Flag_visible, "swd-key" @ ( -- c )
@ -----------------------------------------------------------------------------
serial_key: @ Hijack the serial_key symbol to minimize code changes
dup
mov r2, r11 @ Load SWD buffer base address into a low register
ldrb r0, [r2, 1] @ Cache RX read index
1: ldrb r1, [r2, 0] @ Load RX write index
cmp r0, r1 @ Wait while RX read == RX write
beq 1b
adds r1, r0, 4 @ The next byte is at R11 + 4 + RX read
ldrb tos, [r1, r2] @ Load the byte that was written
adds r0, 1 @ Advance the read index one byte
strb r0, [r2, 1] @ And write it to the ring buffer
bx lr
@ -----------------------------------------------------------------------------
Wortbirne Flag_visible, "swd-emit" @ ( c -- )
@ -----------------------------------------------------------------------------
serial_emit: @ Hijack the serial_emit symbol to minimize code changes
mov r3, r11 @ Load SWD buffer base address into a low register
ldrb r0, [r3, 2] @ Cache TX write index
adds r1, r0, 1 @ Increment TX write index % 256
uxtb r1, r1
1: ldrb r2, [r3, 3] @ Load TX read index
cmp r1, r2 @ Wait while TX write + 1 == TX read
beq 1b
adds r0, r0, 255 @ Store the next byte at R11 + 4 + 256 + TX write
adds r0, r0, 5
strb tos, [r0, r3]
strb r1, [r3, 2]
drop
bx lr
.include "../common/terminalhooks.s"
.ltorg @ Flush constant pool