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controller/Bootloader/usb.c

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/* Copyright (c) 2011,2012 Simon Schubert <2@0x2c.org>.
* Modifications by Jacob Alexander 2014-2016 <haata@kiibohd.com>
*
* 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 3 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
// ----- Compiler Includes -----
#include <sys/types.h>
#include <inttypes.h>
#include <string.h>
// ----- Local Includes -----
#include "usb.h"
#include "usb-internal.h"
#include "dfu.desc.h"
// ----- Variables -----
static uint8_t ep0_buf[2][EP0_BUFSIZE] __attribute__((aligned(4)));
struct usbd_t usb;
// ----- Functions -----
/**
* Returns: 0 when this is was the last transfer, 1 if there is still
* more to go.
*/
/* Defaults to EP0 for now */
static int usb_tx_next(struct usbd_ep_pipe_state_t *s)
{
/**
* Us being here means the previous transfer just completed
* successfully. That means the host just toggled its data
* sync bit, and so do we.
*/
s->data01 ^= 1;
if (s->transfer_size > 0) {
size_t thislen = s->transfer_size;
if (thislen > s->ep_maxsize)
thislen = s->ep_maxsize;
void *addr = s->data_buf + s->pos;
if (s->copy_source) {
/* Bounce buffer mode */
addr = s->data_buf;
memcpy(addr, s->copy_source + s->pos, thislen);
}
s->pos += thislen;
s->transfer_size -= thislen;
usb_queue_next(s, addr, thislen);
s->pingpong ^= 1;
return (1);
}
/**
* All data has been shipped. Do we need to send a short
* packet?
*/
if (s->short_transfer) {
s->short_transfer = 0;
usb_queue_next(s, NULL, 0);
s->pingpong ^= 1;
return (1);
}
if (s->callback)
s->callback(s->data_buf, s->pos, s->callback_data);
return (0);
}
static void setup_tx(struct usbd_ep_pipe_state_t *s, const void *buf, size_t len, size_t reqlen, ep_callback_t cb, void *cb_data)
{
s->data_buf = (void *)buf;
s->copy_source = NULL;
s->transfer_size = len;
s->pos = 0;
s->callback = cb;
s->callback_data = cb_data;
if (s->transfer_size > reqlen)
s->transfer_size = reqlen;
if (s->transfer_size < reqlen && s->transfer_size % s->ep_maxsize == 0)
s->short_transfer = 1;
else
s->short_transfer = 0;
}
static void submit_tx(struct usbd_ep_pipe_state_t *s)
{
/* usb_tx_next() flips the data toggle, so invert this here. */
s->data01 ^= 1;
usb_tx_next(s);
}
/**
* send USB data (IN device transaction)
*
* So far this function is specialized for EP 0 only.
*
* Returns: size to be transfered, or -1 on error.
*/
int usb_tx(struct usbd_ep_pipe_state_t *s, const void *buf, size_t len, size_t reqlen, ep_callback_t cb, void *cb_data)
{
setup_tx(s, buf, len, reqlen, cb, cb_data);
submit_tx(s);
return (s->transfer_size);
}
/**
* Returns: 0 when this is was the last transfer, 1 if there is still
* more to go.
*/
/* Defaults to EP0 for now */
/* XXX pass usb_stat to validate pingpong */
static int usb_rx_next(struct usbd_ep_pipe_state_t *s)
{
/**
* Us being here means the previous transfer just completed
* successfully. That means the host just toggled its data
* sync bit, and so do we.
*/
s->data01 ^= 1;
size_t thislen = usb_ep_get_transfer_size(s);
s->transfer_size -= thislen;
s->pos += thislen;
/**
* We're done with this buffer now. Switch the pingpong now
* before we might have to receive the next piece of data.
*/
s->pingpong ^= 1;
/**
* If this is a short transfer, or we received what we
* expected, we're done.
*/
if (thislen < s->ep_maxsize || s->transfer_size == 0) {
if (s->callback)
s->callback(s->data_buf, s->pos, s->callback_data);
return (0);
}
/**
* Otherwise we still need to receive more data.
*/
size_t nextlen = s->transfer_size;
if (nextlen > s->ep_maxsize)
nextlen = s->ep_maxsize;
void *addr = s->data_buf + s->pos;
usb_queue_next(s, addr, nextlen);
return (1);
}
/**
* Receive USB data (OUT device transaction)
*
* Returns: size to be received, or -1 on error.
*/
int usb_rx(struct usbd_ep_pipe_state_t *s, void *buf, size_t len, ep_callback_t cb, void *cb_data)
{
s->data_buf = buf;
s->transfer_size = len;
s->pos = 0;
s->callback = cb;
s->callback_data = cb_data;
size_t thislen = s->transfer_size;
if (thislen > s->ep_maxsize)
thislen = s->ep_maxsize;
usb_queue_next(s, s->data_buf, thislen);
return (len);
}
int usb_ep0_tx_cp(const void *buf, size_t len, size_t reqlen, ep_callback_t cb, void *cb_data)
{
struct usbd_ep_pipe_state_t *s = &usb.ep_state[0].tx;
enum usb_ep_pingpong pp = s->pingpong;
setup_tx(s, ep0_buf[pp], len, reqlen, cb, cb_data);
s->copy_source = buf;
submit_tx(s);
return (s->transfer_size);
}
void *usb_ep0_tx_inplace_prepare(size_t len)
{
enum usb_ep_pingpong pp = usb.ep_state[0].tx.pingpong;
if (len > EP0_BUFSIZE)
return (NULL);
return (ep0_buf[pp]);
}
int usb_ep0_tx(void *buf, size_t len, size_t reqlen, ep_callback_t cb, void *cb_data)
{
return (usb_tx(&usb.ep_state[0].tx, buf, len, reqlen, cb, cb_data));
}
int usb_ep0_rx(void *buf, size_t len, ep_callback_t cb, void *cb_data)
{
return (usb_rx(&usb.ep_state[0].rx, buf, len, cb, cb_data));
}
const struct usbd_config *
usb_get_config_data(int config)
{
if (config <= 0)
config = usb.config;
if (config != 0)
return (usb.identity->configs[config - 1]);
else
return (NULL);
}
static int usb_set_config(int config)
{
const struct usbd_config *config_data;
if (usb.config != 0) {
config_data = usb_get_config_data(-1);
if (config_data != NULL && config_data->init != NULL)
config_data->init(0);
}
if (config != 0) {
/* XXX overflow */
config_data = usb_get_config_data(config);
if (config_data != NULL && config_data->init != NULL)
config_data->init(1);
}
usb.config = config;
return (0);
}
static int usb_set_interface(int iface, int altsetting)
{
int iface_count = 0;
for (struct usbd_function_ctx_header *fh = &usb.functions;
fh != NULL;
fh = fh->next, iface_count += fh->function->interface_count) {
if (iface - iface_count < fh->function->interface_count) {
if (fh->function->configure != NULL)
return (fh->function->configure(iface,
iface - iface_count,
altsetting,
fh));
/* Default to a single altsetting */
if (altsetting != 0)
return (-1);
else
return (0);
}
}
return (-1);
}
static int usb_tx_config_desc(int idx, int reqlen)
{
const struct usb_desc_config_t *d = usb.identity->configs[idx]->desc;
usb_ep0_tx_cp(d, d->wTotalLength, reqlen, NULL, NULL);
return (0);
}
static int usb_tx_string_desc(int idx, int reqlen)
{
struct usb_desc_string_t * const *d;
for (d = usb.identity->string_descs; idx != 0 && *d != NULL; ++d)
--idx;
switch ((uintptr_t)*d) {
case (uintptr_t)NULL:
return (-1);
case (uintptr_t)USB_DESC_STRING_SERIALNO:
return (usb_tx_serialno(reqlen));
default:
usb_ep0_tx_cp(*d, (*d)->bLength, reqlen, NULL, NULL);
return (0);
}
}
static void usb_handle_control_done(void *data, ssize_t len, void *cbdata)
{
if (usb.state == USBD_STATE_SETTING_ADDRESS) {
usb.state = USBD_STATE_ADDRESS;
usb_set_addr(usb.address);
}
usb_setup_control();
}
void usb_handle_control_status_cb(ep_callback_t cb)
{
/* empty status transfer */
switch (usb.ctrl_dir) {
case USB_CTRL_REQ_IN:
usb.ep_state[0].rx.data01 = USB_DATA01_DATA1;
usb_rx(&usb.ep_state[0].rx, NULL, 0, cb, NULL);
break;
default:
usb.ep_state[0].tx.data01 = USB_DATA01_DATA1;
usb_ep0_tx_cp(NULL, 0, 1 /* short packet */, cb, NULL);
break;
}
}
void usb_handle_control_status(int fail)
{
if (fail) {
usb_pipe_stall(&usb.ep_state[0].rx);
usb_pipe_stall(&usb.ep_state[0].tx);
} else {
usb_handle_control_status_cb(usb_handle_control_done);
}
}
/**
* Dispatch non-standard request to registered USB functions.
*/
static void usb_handle_control_nonstd(struct usb_ctrl_req_t *req)
{
/* XXX filter by interface/endpoint? */
for (struct usbd_function_ctx_header *fh = &usb.functions; fh != NULL; fh = fh->next) {
/* ->control() returns != 0 if it handled the request */
if (fh->function->control != NULL &&
fh->function->control(req, fh))
return;
}
usb_handle_control_status(-1);
}
/**
*
* Great resource: http://wiki.osdev.org/Universal_Serial_Bus
*
* Control Transfers
* -----------------
*
* A control transfer consists of a SETUP transaction (1), zero or
* more data transactions (IN or OUT) (2), and a final status
* transaction (3).
*
* Token sequence (data toggle):
* 1. SETUP (0)
* (2a. OUT (1) ... (toggling))
* 3a. IN (1)
*
* or
* 1. SETUP (0)
* 2b. IN (1) ... (toggling)
* 3b. OUT (1)
*
* Report errors by STALLing the control EP after (1) or (2), so that
* (3) will STALL. Seems we need to clear the STALL after that so
* that the next SETUP can make it through.
*
*
*/
/**
* The following code is not written defensively, but instead only
* asserts values that are essential for correct execution. It
* accepts a superset of the protocol defined by the standard. We do
* this to save space.
*/
static void usb_handle_control(void *data, ssize_t len, void *cbdata)
{
struct usb_ctrl_req_t *req = data;
uint16_t zero16 = 0;
int fail = 1;
usb.ctrl_dir = req->in;
if (req->type != USB_CTRL_REQ_STD) {
usb_handle_control_nonstd(req);
return;
}
/* Only STD requests here */
switch (req->bRequest) {
case USB_CTRL_REQ_GET_STATUS:
/**
* Because we don't support remote wakeup or
* self-powered operation, and we are specialized to
* only EP 0 so far, all GET_STATUS replies are just
* empty.
*/
usb_ep0_tx_cp(&zero16, sizeof(zero16), req->wLength, NULL, NULL);
break;
case USB_CTRL_REQ_CLEAR_FEATURE:
case USB_CTRL_REQ_SET_FEATURE:
/**
* Nothing to do. Maybe return STALLs on illegal
* accesses?
*/
break;
case USB_CTRL_REQ_SET_ADDRESS:
/**
* We must keep our previous address until the end of
* the status stage; therefore we can't set the
* address right now. Since this is a special case,
* the EP 0 handler will take care of this later on.
*/
usb.address = req->wValue & 0x7f;
usb.state = USBD_STATE_SETTING_ADDRESS;
break;
case USB_CTRL_REQ_GET_DESCRIPTOR:
switch (req->wValue >> 8) {
case USB_DESC_DEV:
usb_ep0_tx_cp(usb.identity->dev_desc, usb.identity->dev_desc->bLength,
req->wLength, NULL, NULL);
fail = 0;
break;
case USB_DESC_CONFIG:
fail = usb_tx_config_desc(req->wValue & 0xff, req->wLength);
break;
case USB_DESC_STRING:
fail = usb_tx_string_desc(req->wValue & 0xff, req->wLength);
break;
default:
fail = -1;
break;
// Cleanup lsusb errors, just return 0 instead of stalling
case USB_DESC_DEVQUAL:
case USB_DESC_DEBUG:
usb_ep0_tx_cp(&zero16, sizeof(zero16), req->wLength, NULL, NULL);
fail = 0;
break;
}
/* we set fail already, so we can go directly to `err' */
goto err;
case USB_CTRL_REQ_GET_CONFIGURATION:
usb_ep0_tx_cp(&usb.config, 1, req->wLength, NULL, NULL); /* XXX implicit LE */
break;
case USB_CTRL_REQ_SET_CONFIGURATION:
if (usb_set_config(req->wValue) < 0)
goto err;
break;
case USB_CTRL_REQ_GET_INTERFACE:
/* We only support iface setting 0 */
usb_ep0_tx_cp(&zero16, 1, req->wLength, NULL, NULL);
break;
case USB_CTRL_REQ_SET_INTERFACE:
if (usb_set_interface(req->wIndex, req->wValue) < 0)
goto err;
break;
default:
goto err;
}
fail = 0;
err:
usb_handle_control_status(fail);
}
void usb_setup_control(void)
{
void *buf = ep0_buf[usb.ep_state[0].rx.pingpong];
usb.ep_state[0].rx.data01 = USB_DATA01_DATA0;
usb.ep_state[0].tx.data01 = USB_DATA01_DATA1;
usb_rx(&usb.ep_state[0].rx, buf, EP0_BUFSIZE, usb_handle_control, NULL);
}
/**
* This is called by the interrupt handler
*/
void usb_handle_transaction(struct usb_xfer_info *info)
{
enum usb_tok_pid pid = usb_get_xfer_pid(info);
struct usbd_ep_state_t *eps = &usb.ep_state[usb_get_xfer_ep(info)];
struct usbd_ep_pipe_state_t *s = &eps->pipe[usb_get_xfer_dir(info)];
switch (pid) {
case USB_PID_SETUP:
case USB_PID_OUT:
/**
* If we receive a SETUP transaction, but don't expect
* it (callback set to somewhere else), stall the EP.
*/
if (pid == USB_PID_SETUP && s->callback != usb_handle_control)
usb_handle_control_status(1);
else
usb_rx_next(s);
if (pid == USB_PID_SETUP)
usb_enable_xfers();
break;
case USB_PID_IN:
usb_tx_next(s);
break;
default:
break;
}
}
struct usbd_ep_pipe_state_t *usb_init_ep(struct usbd_function_ctx_header *ctx, int ep, enum usb_ep_dir dir, size_t size)
{
struct usbd_ep_pipe_state_t *s;
if (dir == USB_EP_RX)
s = &usb.ep_state[ctx->ep_rx_offset + ep].rx;
else
s = &usb.ep_state[ctx->ep_tx_offset + ep].tx;
memset(s, 0, sizeof(*s));
s->ep_maxsize = size;
s->ep_num = ep;
s->ep_dir = dir;
usb_pipe_enable(s);
return (s);
}
void usb_restart(void)
{
const struct usbd_device *identity = usb.identity;
/* XXX reset existing functions? */
memset(&usb, 0, sizeof(usb));
usb.functions.function = &usb.control_function;
usb.identity = identity;
usb_init_ep(&usb.functions, 0, USB_EP_RX, EP0_BUFSIZE);
usb_init_ep(&usb.functions, 0, USB_EP_TX, EP0_BUFSIZE);
usb_setup_control();
}
void usb_attach_function(const struct usbd_function *function, struct usbd_function_ctx_header *ctx)
{
/* XXX right now this requires a sequential initialization */
struct usbd_function_ctx_header *prev = &usb.functions;
while (prev->next != NULL)
prev = prev->next;
ctx->next = NULL;
ctx->function = function;
ctx->interface_offset = prev->interface_offset + prev->function->interface_count;
ctx->ep_rx_offset = prev->ep_rx_offset + prev->function->ep_rx_count;
ctx->ep_tx_offset = prev->ep_tx_offset + prev->function->ep_tx_count;
prev->next = ctx;
}
// XXX
// Int32 to Hex16 UTF16LE
// This function takes advantage of a few things to save on flash space
// 1) Does not set anything if zero
// 2) No padding
void int32ToHex16( uint32_t num, uint16_t* str )
{
for ( ; num; num /= 16 )
{
uint32_t cur = num % 16;
*--str = (uint16_t)( cur + (( cur < 10 ) ? '0' : 'A' - 10) );
}
}
void usb_init(const struct usbd_device *identity)
{
// Set the device serial number to the reserved iSerial string memory
int32ToHex16( SIM_UIDH, &(dfu_device_str_desc[3]->bString[8]) );
int32ToHex16( SIM_UIDMH, &(dfu_device_str_desc[3]->bString[16]) );
int32ToHex16( SIM_UIDML, &(dfu_device_str_desc[3]->bString[24]) );
int32ToHex16( SIM_UIDL, &(dfu_device_str_desc[3]->bString[32]) );
usb.identity = identity;
usb_enable();
}