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ch341a_spi.c
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ch341a_spi.c
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/*
* This file is part of the flashrom project.
*
* Copyright (C) 2011 asbokid <[email protected]>
* Copyright (C) 2014 Pluto Yang <[email protected]>
* Copyright (C) 2015-2016 Stefan Tauner
* Copyright (C) 2015 Urja Rannikko <[email protected]>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <stdlib.h>
#include <string.h>
#include <libusb.h>
#include "flash.h"
#include "programmer.h"
/* LIBUSB_CALL ensures the right calling conventions on libusb callbacks.
* However, the macro is not defined everywhere. m(
*/
#ifndef LIBUSB_CALL
#define LIBUSB_CALL
#endif
#define USB_TIMEOUT 1000 /* 1000 ms is plenty and we have no backup strategy anyway. */
#define WRITE_EP 0x02
#define READ_EP 0x82
#define CH341_PACKET_LENGTH 0x20
#define CH341_MAX_PACKETS 256
#define CH341_MAX_PACKET_LEN (CH341_PACKET_LENGTH * CH341_MAX_PACKETS)
#define CH341A_CMD_SET_OUTPUT 0xA1
#define CH341A_CMD_IO_ADDR 0xA2
#define CH341A_CMD_PRINT_OUT 0xA3
#define CH341A_CMD_SPI_STREAM 0xA8
#define CH341A_CMD_SIO_STREAM 0xA9
#define CH341A_CMD_I2C_STREAM 0xAA
#define CH341A_CMD_UIO_STREAM 0xAB
#define CH341A_CMD_I2C_STM_START 0x74
#define CH341A_CMD_I2C_STM_STOP 0x75
#define CH341A_CMD_I2C_STM_OUT 0x80
#define CH341A_CMD_I2C_STM_IN 0xC0
#define CH341A_CMD_I2C_STM_MAX ( min( 0x3F, CH341_PACKET_LENGTH ) )
#define CH341A_CMD_I2C_STM_SET 0x60 // bit 2: SPI with two data pairs D5,D4=out, D7,D6=in
#define CH341A_CMD_I2C_STM_US 0x40
#define CH341A_CMD_I2C_STM_MS 0x50
#define CH341A_CMD_I2C_STM_DLY 0x0F
#define CH341A_CMD_I2C_STM_END 0x00
#define CH341A_CMD_UIO_STM_IN 0x00
#define CH341A_CMD_UIO_STM_DIR 0x40
#define CH341A_CMD_UIO_STM_OUT 0x80
#define CH341A_CMD_UIO_STM_US 0xC0
#define CH341A_CMD_UIO_STM_END 0x20
#define CH341A_STM_I2C_20K 0x00
#define CH341A_STM_I2C_100K 0x01
#define CH341A_STM_I2C_400K 0x02
#define CH341A_STM_I2C_750K 0x03
#define CH341A_STM_SPI_DBL 0x04
/* Number of parallel IN transfers. 32 seems to produce the most stable throughput on Windows. */
#define USB_IN_TRANSFERS 32
struct ch341a_spi_data {
struct libusb_device_handle *handle;
/* We need to use many queued IN transfers for any resemblance of performance (especially on Windows)
* because USB spec says that transfers end on non-full packets and the device sends the 31 reply
* data bytes to each 32-byte packet with command + 31 bytes of data... */
struct libusb_transfer *transfer_out;
struct libusb_transfer *transfer_ins[USB_IN_TRANSFERS];
/* Accumulate delays to be plucked between CS deassertion and CS assertions. */
unsigned int stored_delay_us;
};
static const struct dev_entry devs_ch341a_spi[] = {
{0x1A86, 0x5512, OK, "Winchiphead (WCH)", "CH341A"},
{0},
};
enum trans_state {TRANS_ACTIVE = -2, TRANS_ERR = -1, TRANS_IDLE = 0};
static void print_hex(const void *buf, size_t len)
{
size_t i;
for (i = 0; i < len; i++) {
msg_pspew(" %02x", ((uint8_t *)buf)[i]);
if (i % CH341_PACKET_LENGTH == CH341_PACKET_LENGTH - 1)
msg_pspew("\n");
}
}
static void cb_common(const char *func, struct libusb_transfer *transfer)
{
int *transfer_cnt = (int*)transfer->user_data;
if (transfer->status == LIBUSB_TRANSFER_CANCELLED) {
/* Silently ACK and exit. */
*transfer_cnt = TRANS_IDLE;
return;
}
if (transfer->status != LIBUSB_TRANSFER_COMPLETED) {
msg_perr("\n%s: error: %s\n", func, libusb_error_name(transfer->status));
*transfer_cnt = TRANS_ERR;
} else {
*transfer_cnt = transfer->actual_length;
}
}
/* callback for bulk out async transfer */
static void LIBUSB_CALL cb_out(struct libusb_transfer *transfer)
{
cb_common(__func__, transfer);
}
/* callback for bulk in async transfer */
static void LIBUSB_CALL cb_in(struct libusb_transfer *transfer)
{
cb_common(__func__, transfer);
}
static int32_t usb_transfer(const struct ch341a_spi_data *data, const char *func,
unsigned int writecnt, unsigned int readcnt, const uint8_t *writearr, uint8_t *readarr)
{
int state_out = TRANS_IDLE;
data->transfer_out->buffer = (uint8_t*)writearr;
data->transfer_out->length = writecnt;
data->transfer_out->user_data = &state_out;
/* Schedule write first */
if (writecnt > 0) {
state_out = TRANS_ACTIVE;
int ret = libusb_submit_transfer(data->transfer_out);
if (ret) {
msg_perr("%s: failed to submit OUT transfer: %s\n", func, libusb_error_name(ret));
state_out = TRANS_ERR;
goto err;
}
}
/* Handle all asynchronous packets as long as we have stuff to write or read. The write(s) simply need
* to complete but we need to scheduling reads as long as we are not done. */
unsigned int free_idx = 0; /* The IN transfer we expect to be free next. */
unsigned int in_idx = 0; /* The IN transfer we expect to be completed next. */
unsigned int in_done = 0;
unsigned int in_active = 0;
unsigned int out_done = 0;
uint8_t *in_buf = readarr;
int state_in[USB_IN_TRANSFERS] = {0};
do {
/* Schedule new reads as long as there are free transfers and unscheduled bytes to read. */
while ((in_done + in_active) < readcnt && state_in[free_idx] == TRANS_IDLE) {
unsigned int cur_todo = min(CH341_PACKET_LENGTH - 1, readcnt - in_done - in_active);
data->transfer_ins[free_idx]->length = cur_todo;
data->transfer_ins[free_idx]->buffer = in_buf;
data->transfer_ins[free_idx]->user_data = &state_in[free_idx];
int ret = libusb_submit_transfer(data->transfer_ins[free_idx]);
if (ret) {
state_in[free_idx] = TRANS_ERR;
msg_perr("%s: failed to submit IN transfer: %s\n",
func, libusb_error_name(ret));
goto err;
}
in_buf += cur_todo;
in_active += cur_todo;
state_in[free_idx] = TRANS_ACTIVE;
free_idx = (free_idx + 1) % USB_IN_TRANSFERS; /* Increment (and wrap around). */
}
/* Actually get some work done. */
libusb_handle_events_timeout(NULL, &(struct timeval){1, 0});
/* Check for the write */
if (out_done < writecnt) {
if (state_out == TRANS_ERR) {
goto err;
} else if (state_out > 0) {
out_done += state_out;
state_out = TRANS_IDLE;
}
}
/* Check for completed transfers. */
while (state_in[in_idx] != TRANS_IDLE && state_in[in_idx] != TRANS_ACTIVE) {
if (state_in[in_idx] == TRANS_ERR) {
goto err;
}
/* If a transfer is done, record the number of bytes read and reuse it later. */
in_done += state_in[in_idx];
in_active -= state_in[in_idx];
state_in[in_idx] = TRANS_IDLE;
in_idx = (in_idx + 1) % USB_IN_TRANSFERS; /* Increment (and wrap around). */
}
} while ((out_done < writecnt) || (in_done < readcnt));
if (out_done > 0) {
msg_pspew("Wrote %d bytes:\n", out_done);
print_hex(writearr, out_done);
msg_pspew("\n\n");
}
if (in_done > 0) {
msg_pspew("Read %d bytes:\n", in_done);
print_hex(readarr, in_done);
msg_pspew("\n\n");
}
return 0;
err:
/* Clean up on errors. */
msg_perr("%s: Failed to %s %d bytes\n", func, (state_out == TRANS_ERR) ? "write" : "read",
(state_out == TRANS_ERR) ? writecnt : readcnt);
/* First, we must cancel any ongoing requests and wait for them to be canceled. */
if ((writecnt > 0) && (state_out == TRANS_ACTIVE)) {
if (libusb_cancel_transfer(data->transfer_out) != 0)
state_out = TRANS_ERR;
}
if (readcnt > 0) {
unsigned int i;
for (i = 0; i < USB_IN_TRANSFERS; i++) {
if (state_in[i] == TRANS_ACTIVE)
if (libusb_cancel_transfer(data->transfer_ins[i]) != 0)
state_in[i] = TRANS_ERR;
}
}
/* Wait for cancellations to complete. */
while (1) {
bool finished = true;
if ((writecnt > 0) && (state_out == TRANS_ACTIVE))
finished = false;
if (readcnt > 0) {
unsigned int i;
for (i = 0; i < USB_IN_TRANSFERS; i++) {
if (state_in[i] == TRANS_ACTIVE)
finished = false;
}
}
if (finished)
break;
libusb_handle_events_timeout(NULL, &(struct timeval){1, 0});
}
return -1;
}
/* Set the I2C bus speed (speed(b1b0): 0 = 20kHz; 1 = 100kHz, 2 = 400kHz, 3 = 750kHz).
* Set the SPI bus data width (speed(b2): 0 = Single, 1 = Double). */
static int32_t config_stream(const struct ch341a_spi_data *data, uint32_t speed)
{
uint8_t buf[] = {
CH341A_CMD_I2C_STREAM,
CH341A_CMD_I2C_STM_SET | (speed & 0x7),
CH341A_CMD_I2C_STM_END
};
int32_t ret = usb_transfer(data, __func__, sizeof(buf), 0, buf, NULL);
if (ret < 0) {
msg_perr("Could not configure stream interface.\n");
}
return ret;
}
/* The assumed map between UIO command bits, pins on CH341A chip and pins on SPI chip:
* UIO CH341A SPI CH341A SPI name
* 0 D0/15 CS/1 (CS0)
* 1 D1/16 unused (CS1)
* 2 D2/17 unused (CS2)
* 3 D3/18 SCK/6 (DCK)
* 4 D4/19 unused (DOUT2)
* 5 D5/20 SI/5 (DOUT)
* - The UIO stream commands seem to only have 6 bits of output, and D6/D7 are the SPI inputs,
* mapped as follows:
* D6/21 unused (DIN2)
* D7/22 SO/2 (DIN)
*/
static int32_t enable_pins(const struct ch341a_spi_data *data, bool enable)
{
uint8_t buf[] = {
CH341A_CMD_UIO_STREAM,
CH341A_CMD_UIO_STM_OUT | 0x37, // CS high (all of them), SCK=0, DOUT*=1
CH341A_CMD_UIO_STM_DIR | (enable ? 0x3F : 0x00), // Interface output enable / disable
CH341A_CMD_UIO_STM_END,
};
int32_t ret = usb_transfer(data, __func__, sizeof(buf), 0, buf, NULL);
if (ret < 0) {
msg_perr("Could not %sable output pins.\n", enable ? "en" : "dis");
}
return ret;
}
/* De-assert and assert CS in one operation. */
static void pluck_cs(uint8_t *ptr, unsigned int *stored_delay_us)
{
/* This was measured to give a minimum deassertion time of 2.25 us,
* >20x more than needed for most SPI chips (100ns). */
int delay_cnt = 2;
if (*stored_delay_us) {
delay_cnt = (*stored_delay_us * 4) / 3;
*stored_delay_us = 0;
}
*ptr++ = CH341A_CMD_UIO_STREAM;
*ptr++ = CH341A_CMD_UIO_STM_OUT | 0x37; /* deasserted */
int i;
for (i = 0; i < delay_cnt; i++)
*ptr++ = CH341A_CMD_UIO_STM_OUT | 0x37; /* "delay" */
*ptr++ = CH341A_CMD_UIO_STM_OUT | 0x36; /* asserted */
*ptr++ = CH341A_CMD_UIO_STM_END;
}
static void ch341a_spi_delay(const struct flashctx *flash, unsigned int usecs)
{
struct ch341a_spi_data *data = flash->mst->spi.data;
/* There is space for 28 bytes instructions of 750 ns each in the CS packet (32 - 4 for the actual CS
* instructions), thus max 21 us, but we avoid getting too near to this boundary and use
* default_delay() for durations over 20 us. */
if ((usecs + data->stored_delay_us) > 20) {
unsigned int inc = 20 - data->stored_delay_us;
default_delay(usecs - inc);
usecs = inc;
}
data->stored_delay_us += usecs;
}
static int ch341a_spi_spi_send_command(const struct flashctx *flash, unsigned int writecnt, unsigned int readcnt, const unsigned char *writearr, unsigned char *readarr)
{
struct ch341a_spi_data *data = flash->mst->spi.data;
/* How many packets ... */
const size_t packets = (writecnt + readcnt + CH341_PACKET_LENGTH - 2) / (CH341_PACKET_LENGTH - 1);
/* We pluck CS/timeout handling into the first packet thus we need to allocate one extra package. */
uint8_t wbuf[packets+1][CH341_PACKET_LENGTH];
uint8_t rbuf[writecnt + readcnt];
/* Initialize the write buffer to zero to prevent writing random stack contents to device. */
memset(wbuf[0], 0, CH341_PACKET_LENGTH);
uint8_t *ptr = wbuf[0];
/* CS usage is optimized by doing both transitions in one packet.
* Final transition to deselected state is in the pin disable. */
pluck_cs(ptr, &data->stored_delay_us);
unsigned int write_left = writecnt;
unsigned int read_left = readcnt;
unsigned int p;
for (p = 0; p < packets; p++) {
unsigned int write_now = min(CH341_PACKET_LENGTH - 1, write_left);
unsigned int read_now = min ((CH341_PACKET_LENGTH - 1) - write_now, read_left);
ptr = wbuf[p+1];
*ptr++ = CH341A_CMD_SPI_STREAM;
unsigned int i;
for (i = 0; i < write_now; ++i)
*ptr++ = reverse_byte(*writearr++);
if (read_now) {
memset(ptr, 0xFF, read_now);
read_left -= read_now;
}
write_left -= write_now;
}
int32_t ret = usb_transfer(data, __func__, CH341_PACKET_LENGTH + packets + writecnt + readcnt,
writecnt + readcnt, wbuf[0], rbuf);
if (ret < 0)
return -1;
unsigned int i;
for (i = 0; i < readcnt; i++) {
*readarr++ = reverse_byte(rbuf[writecnt + i]);
}
return 0;
}
static int ch341a_spi_shutdown(void *data)
{
struct ch341a_spi_data *ch341a_data = data;
enable_pins(ch341a_data, false);
libusb_free_transfer(ch341a_data->transfer_out);
int i;
for (i = 0; i < USB_IN_TRANSFERS; i++)
libusb_free_transfer(ch341a_data->transfer_ins[i]);
libusb_release_interface(ch341a_data->handle, 0);
libusb_attach_kernel_driver(ch341a_data->handle, 0);
libusb_close(ch341a_data->handle);
libusb_exit(NULL);
free(data);
return 0;
}
static const struct spi_master spi_master_ch341a_spi = {
.features = SPI_MASTER_4BA,
/* flashrom's current maximum is 256 B. CH341A was tested on Linux and Windows to accept at least
* 128 kB. Basically there should be no hard limit because transfers are broken up into USB packets
* sent to the device and most of their payload streamed via SPI. */
.max_data_read = 4 * 1024,
.max_data_write = 4 * 1024,
.command = ch341a_spi_spi_send_command,
.read = default_spi_read,
.write_256 = default_spi_write_256,
.shutdown = ch341a_spi_shutdown,
.delay = ch341a_spi_delay,
};
static int ch341a_spi_init(const struct programmer_cfg *cfg)
{
int32_t ret = libusb_init(NULL);
if (ret < 0) {
msg_perr("Couldn't initialize libusb!\n");
return -1;
}
/* Enable information, warning, and error messages (only). */
#if LIBUSB_API_VERSION < 0x01000106
libusb_set_debug(NULL, 3);
#else
libusb_set_option(NULL, LIBUSB_OPTION_LOG_LEVEL, LIBUSB_LOG_LEVEL_INFO);
#endif
struct ch341a_spi_data *data = calloc(1, sizeof(*data));
if (!data) {
msg_perr("Out of memory!\n");
return 1;
}
uint16_t vid = devs_ch341a_spi[0].vendor_id;
uint16_t pid = devs_ch341a_spi[0].device_id;
data->handle = libusb_open_device_with_vid_pid(NULL, vid, pid);
if (data->handle == NULL) {
msg_perr("Couldn't open device %04x:%04x.\n", vid, pid);
goto free_data;
}
ret = libusb_detach_kernel_driver(data->handle, 0);
if (ret != 0 && ret != LIBUSB_ERROR_NOT_FOUND)
msg_pwarn("Cannot detach the existing USB driver. Claiming the interface may fail. %s\n",
libusb_error_name(ret));
ret = libusb_claim_interface(data->handle, 0);
if (ret != 0) {
msg_perr("Failed to claim interface 0: '%s'\n", libusb_error_name(ret));
goto close_handle;
}
struct libusb_device *dev;
if (!(dev = libusb_get_device(data->handle))) {
msg_perr("Failed to get device from device handle.\n");
goto close_handle;
}
struct libusb_device_descriptor desc;
ret = libusb_get_device_descriptor(dev, &desc);
if (ret < 0) {
msg_perr("Failed to get device descriptor: '%s'\n", libusb_error_name(ret));
goto release_interface;
}
msg_pdbg("Device revision is %d.%01d.%01d\n",
(desc.bcdDevice >> 8) & 0x00FF,
(desc.bcdDevice >> 4) & 0x000F,
(desc.bcdDevice >> 0) & 0x000F);
/* Allocate and pre-fill transfer structures. */
data->transfer_out = libusb_alloc_transfer(0);
if (!data->transfer_out) {
msg_perr("Failed to alloc libusb OUT transfer\n");
goto release_interface;
}
int i;
for (i = 0; i < USB_IN_TRANSFERS; i++) {
data->transfer_ins[i] = libusb_alloc_transfer(0);
if (data->transfer_ins[i] == NULL) {
msg_perr("Failed to alloc libusb IN transfer %d\n", i);
goto dealloc_transfers;
}
}
/* We use these helpers but dont fill the actual buffer yet. */
libusb_fill_bulk_transfer(data->transfer_out, data->handle, WRITE_EP, NULL, 0, cb_out, NULL, USB_TIMEOUT);
for (i = 0; i < USB_IN_TRANSFERS; i++)
libusb_fill_bulk_transfer(data->transfer_ins[i], data->handle, READ_EP, NULL, 0, cb_in, NULL, USB_TIMEOUT);
if ((config_stream(data, CH341A_STM_I2C_100K) < 0) || (enable_pins(data, true) < 0))
goto dealloc_transfers;
return register_spi_master(&spi_master_ch341a_spi, data);
dealloc_transfers:
for (i = 0; i < USB_IN_TRANSFERS; i++) {
if (data->transfer_ins[i] == NULL)
break;
libusb_free_transfer(data->transfer_ins[i]);
}
libusb_free_transfer(data->transfer_out);
release_interface:
libusb_release_interface(data->handle, 0);
close_handle:
libusb_attach_kernel_driver(data->handle, 0);
libusb_close(data->handle);
free_data:
free(data);
return -1;
}
const struct programmer_entry programmer_ch341a_spi = {
.name = "ch341a_spi",
.type = USB,
.devs.dev = devs_ch341a_spi,
.init = ch341a_spi_init,
};