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|
/*
* This file is part of the libusbhost library
* hosted at http://github.com/libusbhost/libusbhost
*
* Copyright (C) 2015 Amir Hammad <amir.hammad@hotmail.com>
*
*
* libusbhost is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This library 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public License
* along with this library. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "usbh_config.h"
#include "usbh_lld_stm32f4.h"
#include "driver/usbh_device_driver.h"
#include "usart_helpers.h"
#include <libopencm3/stm32/gpio.h>
#include <libopencm3/usb/usbstd.h>
#include <stddef.h>
static struct {
bool enumeration_run;
const usbh_low_level_driver_t * const *lld_drivers;
const usbh_dev_driver_t * const *dev_drivers;
int8_t address_temporary;
} usbh_data = {};
static void set_enumeration(void)
{
usbh_data.enumeration_run = true;
}
static void reset_enumeration(void)
{
usbh_data.enumeration_run = false;
}
static bool enumeration(void)
{
return usbh_data.enumeration_run;
}
void device_remove(usbh_device_t *dev)
{
if (dev->drv && dev->drvdata) {
dev->drv->remove(dev->drvdata);
}
dev->address = -1;
dev->drv = NULL;
dev->drvdata = NULL;
}
/**
*
*/
static bool find_driver(usbh_device_t *dev, const usbh_dev_driver_info_t * device_info)
{
#define CHECK_PARTIAL_COMPATIBILITY(what) \
if (usbh_data.dev_drivers[i]->info->what != -1\
&& device_info->what != usbh_data.dev_drivers[i]->info->what) {\
i++;\
continue;\
}
int i = 0;
while (usbh_data.dev_drivers[i]) {
CHECK_PARTIAL_COMPATIBILITY(ifaceClass);
CHECK_PARTIAL_COMPATIBILITY(ifaceSubClass);
CHECK_PARTIAL_COMPATIBILITY(ifaceProtocol);
CHECK_PARTIAL_COMPATIBILITY(deviceClass);
CHECK_PARTIAL_COMPATIBILITY(deviceSubClass);
CHECK_PARTIAL_COMPATIBILITY(deviceProtocol);
CHECK_PARTIAL_COMPATIBILITY(idVendor);
CHECK_PARTIAL_COMPATIBILITY(idProduct);
dev->drv = usbh_data.dev_drivers[i];
dev->drvdata = dev->drv->init(dev);
if (!dev->drvdata) {
LOG_PRINTF("Unable to initialize device driver at index %d\n", i);
i++;
continue;
}
return true;
}
return false;
#undef CHECK_PARTIAL_COMPATIBILITY
}
static void device_register(void *descriptors, uint16_t descriptors_len, usbh_device_t *dev)
{
uint32_t i = 0;
uint8_t *buf = (uint8_t *)descriptors;
dev->drv = NULL;
dev->drvdata = NULL;
uint8_t desc_len = buf[i];
uint8_t desc_type = buf[i + 1];
usbh_dev_driver_info_t device_info;
if (desc_type == USB_DT_DEVICE) {
struct usb_device_descriptor *device_desc = (void*)&buf[i];
LOG_PRINTF("DEVICE DESCRIPTOR\n");
device_info.deviceClass = device_desc->bDeviceClass;
device_info.deviceSubClass = device_desc->bDeviceSubClass;
device_info.deviceProtocol = device_desc->bDeviceProtocol;
device_info.idVendor = device_desc->idVendor;
device_info.idProduct = device_desc->idProduct;
} else {
LOG_PRINTF("INVALID descriptors pointer - fatal error");
return;
}
while (i < descriptors_len) {
desc_len = buf[i];
desc_type = buf[i + 1];
switch (desc_type) {
case USB_DT_INTERFACE:
{
LOG_PRINTF("INTERFACE_DESCRIPTOR\n");
struct usb_interface_descriptor *iface = (void*)&buf[i];
device_info.ifaceClass = iface->bInterfaceClass;
device_info.ifaceSubClass = iface->bInterfaceSubClass;
device_info.ifaceProtocol = iface->bInterfaceProtocol;
if (find_driver(dev, &device_info)) {
int k = 0;
while (k < descriptors_len) {
desc_len = buf[k];
void *drvdata = dev->drvdata;
LOG_PRINTF("[%d]", buf[k+1]);
if (dev->drv->analyze_descriptor(drvdata, &buf[k])) {
LOG_PRINTF("Device Initialized\n");
return;
}
if (desc_len == 0) {
LOG_PRINTF("Problem occured while parsing complete configuration descriptor");
return;
}
k += desc_len;
}
LOG_PRINTF("Device driver isn't compatible with this device\n");
device_remove(dev);
} else {
LOG_PRINTF("No compatible driver has been found for interface #%d\n", iface->bInterfaceNumber);
}
}
break;
default:
break;
}
if (desc_len == 0) {
LOG_PRINTF("PROBLEM WITH PARSE %d\n",i);
return;
}
i += desc_len;
}
LOG_PRINTF("Device NOT Initialized\n");
}
void usbh_init(const usbh_low_level_driver_t * const low_level_drivers[], const usbh_dev_driver_t * const device_drivers[])
{
if (!low_level_drivers) {
return;
}
usbh_data.lld_drivers = (const usbh_low_level_driver_t **)low_level_drivers;
usbh_data.dev_drivers = device_drivers;
uint32_t k = 0;
while (usbh_data.lld_drivers[k]) {
LOG_PRINTF("Initialization low-level driver with index=%d\n", k);
usbh_device_t * usbh_device =
((usbh_generic_data_t *)(usbh_data.lld_drivers[k])->driver_data)->usbh_device;
uint32_t i;
for (i = 0; i < USBH_MAX_DEVICES; i++) {
//~ LOG_PRINTF("%p ", &usbh_device[i]);
usbh_device[i].address = -1;
usbh_device[i].drv = 0;
usbh_device[i].drvdata = 0;
}
usbh_data.lld_drivers[k]->init(usbh_data.lld_drivers[k]->driver_data);
k++;
}
}
static void device_xfer_control_write_setup(const void *data, uint16_t datalen, usbh_packet_callback_t callback, usbh_device_t *dev)
{
usbh_packet_t packet;
packet.data.out = data;
packet.datalen = datalen;
packet.address = dev->address;
packet.endpoint_address = 0;
packet.endpoint_size_max = dev->packet_size_max0;
packet.endpoint_type = USBH_ENDPOINT_TYPE_CONTROL;
packet.control_type = USBH_CONTROL_TYPE_SETUP;
packet.speed = dev->speed;
packet.callback = callback;
packet.callback_arg = dev;
packet.toggle = &dev->toggle0;
usbh_write(dev, &packet);
LOG_PRINTF("WR-setup@device...%d \n", dev->address);
}
static void device_xfer_control_write_data(const void *data, uint16_t datalen, usbh_packet_callback_t callback, usbh_device_t *dev)
{
usbh_packet_t packet;
packet.data.out = data;
packet.datalen = datalen;
packet.address = dev->address;
packet.endpoint_address = 0;
packet.endpoint_size_max = dev->packet_size_max0;
packet.endpoint_type = USBH_ENDPOINT_TYPE_CONTROL;
packet.control_type = USBH_CONTROL_TYPE_DATA;
packet.speed = dev->speed;
packet.callback = callback;
packet.callback_arg = dev;
packet.toggle = &dev->toggle0;
usbh_write(dev, &packet);
LOG_PRINTF("WR-data@device...%d \n", dev->address);
}
static void device_xfer_control_read(void *data, uint16_t datalen, usbh_packet_callback_t callback, usbh_device_t *dev)
{
usbh_packet_t packet;
packet.data.in = data;
packet.datalen = datalen;
packet.address = dev->address;
packet.endpoint_address = 0;
packet.endpoint_size_max = dev->packet_size_max0;
packet.endpoint_type = USBH_ENDPOINT_TYPE_CONTROL;
packet.speed = dev->speed;
packet.callback = callback;
packet.callback_arg = dev;
packet.toggle = &dev->toggle0;
usbh_read(dev, &packet);
LOG_PRINTF("RD@device...%d | \n", dev->address);
}
static void control_state_machine(usbh_device_t *dev, usbh_packet_callback_data_t cb_data)
{
switch (dev->control.state) {
case USBH_CONTROL_STATE_SETUP:
if (cb_data.status != USBH_PACKET_CALLBACK_STATUS_OK) {
dev->control.state = USBH_CONTROL_STATE_NONE;
// Unable to deliver setup control packet - this is a fatal error
usbh_packet_callback_data_t ret_data;
ret_data.status = USBH_PACKET_CALLBACK_STATUS_EFATAL;
ret_data.transferred_length = 0;
dev->control.callback(dev, ret_data);
break;
}
if (dev->control.setup_data.bmRequestType & USB_REQ_TYPE_IN) {
dev->control.state = USBH_CONTROL_STATE_DATA;
device_xfer_control_read(dev->control.data.in, dev->control.data_length, control_state_machine, dev);
} else {
if (dev->control.data_length == 0) {
dev->control.state = USBH_CONTROL_STATE_STATUS;
device_xfer_control_read(NULL, 0, control_state_machine, dev);
} else {
dev->control.state = USBH_CONTROL_STATE_DATA;
device_xfer_control_write_data(dev->control.data.out, dev->control.data_length, control_state_machine, dev);
}
}
break;
case USBH_CONTROL_STATE_DATA:
if (dev->control.setup_data.bmRequestType & USB_REQ_TYPE_IN) {
dev->control.state = USBH_CONTROL_STATE_NONE;
dev->control.callback(dev, cb_data);
} else {
if (cb_data.status != USBH_PACKET_CALLBACK_STATUS_OK) {
dev->control.state = USBH_CONTROL_STATE_NONE;
// Unable to deliver data control packet - this is a fatal error
usbh_packet_callback_data_t ret_data;
ret_data.status = USBH_PACKET_CALLBACK_STATUS_EFATAL;
ret_data.transferred_length = 0;
dev->control.callback(dev, ret_data);
break;
}
if (dev->control.data_length == 0) {
// we should be in status state when the length of data is zero
LOG_PRINTF("Control logic error\n");
dev->control.state = USBH_CONTROL_STATE_NONE;
dev->control.callback(dev, cb_data);
} else {
dev->control.state = USBH_CONTROL_STATE_STATUS;
device_xfer_control_read(NULL, 0, control_state_machine, dev);
}
}
break;
case USBH_CONTROL_STATE_STATUS:
dev->control.state = USBH_CONTROL_STATE_NONE;
dev->control.callback(dev, cb_data);
break;
default:
break;
}
}
void device_control(usbh_device_t *dev, usbh_packet_callback_t callback, const struct usb_setup_data *setup_data, void *data)
{
if (dev->control.state != USBH_CONTROL_STATE_NONE) {
LOG_PRINTF("ERROR: Use of control state machine while not idle\n");
return;
}
dev->control.state = USBH_CONTROL_STATE_SETUP;
dev->control.callback = callback;
dev->control.data.out = data;
dev->control.data_length = setup_data->wLength;
dev->control.setup_data = *setup_data;
device_xfer_control_write_setup(&dev->control.setup_data, sizeof(dev->control.setup_data), control_state_machine, dev);
}
bool usbh_enum_available(void)
{
return !enumeration();
}
/**
* Returns 0 on error
* device otherwise
*/
usbh_device_t *usbh_get_free_device(const usbh_device_t *dev)
{
const usbh_low_level_driver_t *lld = dev->lld;
usbh_generic_data_t *lld_data = lld->driver_data;
usbh_device_t *usbh_device = lld_data->usbh_device;
uint8_t i;
LOG_PRINTF("DEV ADDRESS%d\n", dev->address);
for (i = 0; i < USBH_MAX_DEVICES; i++) {
if (usbh_device[i].address < 0) {
LOG_PRINTF("\t\t\t\t\tFOUND: %d", i);
usbh_device[i].address = i+1;
return &usbh_device[i];
} else {
LOG_PRINTF("address: %d\n\n\n", usbh_device[i].address);
}
}
return 0;
}
static void device_enumeration_finish(usbh_device_t *dev)
{
reset_enumeration();
dev->state = USBH_ENUM_STATE_FIRST;
}
static void device_enumeration_terminate(usbh_device_t *dev)
{
dev->address = -1;
device_enumeration_finish(dev);
}
#define CONTINUE_WITH(en) \
dev->state = en;\
device_enumerate(dev, cb_data);
static void device_enumerate(usbh_device_t *dev, usbh_packet_callback_data_t cb_data)
{
const usbh_low_level_driver_t *lld = dev->lld;
usbh_generic_data_t *lld_data = lld->driver_data;
uint8_t *usbh_buffer = lld_data->usbh_buffer;
// LOG_PRINTF("\nSTATE: %d\n", state);
switch (dev->state) {
case USBH_ENUM_STATE_SET_ADDRESS:
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
if (dev->address == 0) {
dev->address = usbh_data.address_temporary;
LOG_PRINTF("Assigned address: %d\n", dev->address);
}
CONTINUE_WITH(USBH_ENUM_STATE_DEVICE_DT_READ_SETUP);
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
break;
case USBH_ENUM_STATE_DEVICE_DT_READ_SETUP:
{
struct usb_setup_data setup_data;
setup_data.bmRequestType = USB_REQ_TYPE_IN | USB_REQ_TYPE_DEVICE;
setup_data.bRequest = USB_REQ_GET_DESCRIPTOR;
setup_data.wValue = USB_DT_DEVICE << 8;
setup_data.wIndex = 0;
setup_data.wLength = USB_DT_DEVICE_SIZE;
dev->state = USBH_ENUM_STATE_DEVICE_DT_READ_COMPLETE;
device_control(dev, device_enumerate, &setup_data, &usbh_buffer[0]);
}
break;
case USBH_ENUM_STATE_DEVICE_DT_READ_COMPLETE:
{
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
{
struct usb_device_descriptor *ddt =
(struct usb_device_descriptor *)&usbh_buffer[0];
dev->packet_size_max0 = ddt->bMaxPacketSize0;
LOG_PRINTF("Found device with vid=0x%04x pid=0x%04x\n", ddt->idVendor, ddt->idProduct);
LOG_PRINTF("class=0x%02x subclass=0x%02x protocol=0x%02x\n", ddt->bDeviceClass, ddt->bDeviceSubClass, ddt->bDeviceProtocol);
CONTINUE_WITH(USBH_ENUM_STATE_CONFIGURATION_DT_HEADER_READ_SETUP)
}
break;
case USBH_PACKET_CALLBACK_STATUS_ERRSIZ:
if (cb_data.transferred_length >= 8) {
struct usb_device_descriptor *ddt =
(struct usb_device_descriptor *)&usbh_buffer[0];
dev->packet_size_max0 = ddt->bMaxPacketSize0;
CONTINUE_WITH(USBH_ENUM_STATE_DEVICE_DT_READ_SETUP);
} else {
device_enumeration_terminate(dev);
ERROR(cb_data.status);
}
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
}
break;
case USBH_ENUM_STATE_CONFIGURATION_DT_HEADER_READ_SETUP:
{
struct usb_setup_data setup_data;
setup_data.bmRequestType = USB_REQ_TYPE_IN | USB_REQ_TYPE_DEVICE;
setup_data.bRequest = USB_REQ_GET_DESCRIPTOR;
setup_data.wValue = USB_DT_CONFIGURATION << 8;
setup_data.wIndex = 0;
setup_data.wLength = dev->packet_size_max0;
dev->state = USBH_ENUM_STATE_CONFIGURATION_DT_HEADER_READ;
device_xfer_control_write_setup(&setup_data, sizeof(setup_data),
device_enumerate, dev);
}
break;
case USBH_ENUM_STATE_CONFIGURATION_DT_HEADER_READ:
{
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
dev->state = USBH_ENUM_STATE_CONFIGURATION_DT_HEADER_READ_COMPLETE;
device_xfer_control_read(&usbh_buffer[USB_DT_DEVICE_SIZE],
dev->packet_size_max0, device_enumerate, dev);
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
}
break;
case USBH_ENUM_STATE_CONFIGURATION_DT_HEADER_READ_COMPLETE:
{
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
CONTINUE_WITH(USBH_ENUM_STATE_CONFIGURATION_DT_READ_SETUP);
break;
case USBH_PACKET_CALLBACK_STATUS_ERRSIZ:
if (cb_data.transferred_length >= USB_DT_CONFIGURATION_SIZE) {
struct usb_config_descriptor *cdt =
(struct usb_config_descriptor *)&usbh_buffer[USB_DT_DEVICE_SIZE];
if (cb_data.transferred_length == cdt->wTotalLength) {
LOG_PRINTF("Configuration descriptor read complete. length: %d\n", cdt->wTotalLength);
CONTINUE_WITH(USBH_ENUM_STATE_SET_CONFIGURATION_SETUP);
}
}
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
}
break;
case USBH_ENUM_STATE_CONFIGURATION_DT_READ_SETUP:
{
struct usb_config_descriptor *cdt =
(struct usb_config_descriptor *)&usbh_buffer[USB_DT_DEVICE_SIZE];
struct usb_setup_data setup_data;
LOG_PRINTF("Getting complete configuration descriptor of length: %d bytes\n", cdt->wTotalLength);
setup_data.bmRequestType = USB_REQ_TYPE_IN | USB_REQ_TYPE_DEVICE;
setup_data.bRequest = USB_REQ_GET_DESCRIPTOR;
setup_data.wValue = USB_DT_CONFIGURATION << 8;
setup_data.wIndex = 0;
setup_data.wLength = cdt->wTotalLength;
dev->state = USBH_ENUM_STATE_CONFIGURATION_DT_READ;
device_xfer_control_write_setup(&setup_data, sizeof(setup_data),
device_enumerate, dev);
}
break;
case USBH_ENUM_STATE_CONFIGURATION_DT_READ:
{
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
{
struct usb_config_descriptor *cdt =
(struct usb_config_descriptor *)&usbh_buffer[USB_DT_DEVICE_SIZE];
dev->state = USBH_ENUM_STATE_CONFIGURATION_DT_READ_COMPLETE;
device_xfer_control_read(&usbh_buffer[USB_DT_DEVICE_SIZE],
cdt->wTotalLength, device_enumerate, dev);
}
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
}
break;
case USBH_ENUM_STATE_CONFIGURATION_DT_READ_COMPLETE:
{
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
{
struct usb_config_descriptor *cdt =
(struct usb_config_descriptor *)&usbh_buffer[USB_DT_DEVICE_SIZE];
LOG_PRINTF("Configuration descriptor read complete. length: %d\n", cdt->wTotalLength);
CONTINUE_WITH(USBH_ENUM_STATE_SET_CONFIGURATION_SETUP);
}
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
}
break;
case USBH_ENUM_STATE_SET_CONFIGURATION_SETUP:
{
struct usb_config_descriptor *cdt =
(struct usb_config_descriptor *)&usbh_buffer[USB_DT_DEVICE_SIZE];
struct usb_setup_data setup_data;
setup_data.bmRequestType = USB_REQ_TYPE_STANDARD | USB_REQ_TYPE_DEVICE;
setup_data.bRequest = USB_REQ_SET_CONFIGURATION;
setup_data.wValue = cdt->bConfigurationValue;
setup_data.wIndex = 0;
setup_data.wLength = 0;
dev->state = USBH_ENUM_STATE_SET_CONFIGURATION_COMPLETE;
device_control(dev, device_enumerate, &setup_data, 0);
}
break;
case USBH_ENUM_STATE_SET_CONFIGURATION_COMPLETE:
{
switch (cb_data.status) {
case USBH_PACKET_CALLBACK_STATUS_OK:
CONTINUE_WITH(USBH_ENUM_STATE_FIND_DRIVER);
break;
default:
device_enumeration_terminate(dev);
ERROR(cb_data.status);
break;
}
}
break;
case USBH_ENUM_STATE_FIND_DRIVER:
{
struct usb_config_descriptor *cdt =
(struct usb_config_descriptor *)&usbh_buffer[USB_DT_DEVICE_SIZE];
device_register(usbh_buffer, cdt->wTotalLength + USB_DT_DEVICE_SIZE, dev);
device_enumeration_finish(dev);
}
break;
default:
LOG_PRINTF("Error: Unknown state "__FILE__"/%d\n", __LINE__);
break;
}
}
void device_enumeration_start(usbh_device_t *dev)
{
set_enumeration();
// save address
uint8_t address = dev->address;
dev->address = 0;
if (dev->speed == USBH_SPEED_LOW) {
dev->packet_size_max0 = 8;
} else {
dev->packet_size_max0 = 64;
}
usbh_data.address_temporary = address;
LOG_PRINTF("\n\n\n ENUMERATION OF DEVICE@%d STARTED \n\n", address);
dev->state = USBH_ENUM_STATE_SET_ADDRESS;
struct usb_setup_data setup_data;
setup_data.bmRequestType = USB_REQ_TYPE_STANDARD | USB_REQ_TYPE_DEVICE;
setup_data.bRequest = USB_REQ_SET_ADDRESS;
setup_data.wValue = address;
setup_data.wIndex = 0;
setup_data.wLength = 0;
device_control(dev, device_enumerate, &setup_data, 0);
}
/**
* Should be called with at least 1kHz frequency
*
*/
void usbh_poll(uint32_t time_curr_us)
{
uint32_t k = 0;
while (usbh_data.lld_drivers[k]) {
usbh_device_t *usbh_device =
((usbh_generic_data_t *)(usbh_data.lld_drivers[k]->driver_data))->usbh_device;
usbh_generic_data_t *lld_data = usbh_data.lld_drivers[k]->driver_data;
enum USBH_POLL_STATUS poll_status =
usbh_data.lld_drivers[k]->poll(lld_data, time_curr_us);
switch (poll_status) {
case USBH_POLL_STATUS_DEVICE_CONNECTED:
// New device found
LOG_PRINTF("\nDEVICE FOUND\n");
usbh_device[0].lld = usbh_data.lld_drivers[k];
usbh_device[0].speed = usbh_data.lld_drivers[k]->root_speed(lld_data);
usbh_device[0].address = 1;
usbh_device[0].control.state = USBH_CONTROL_STATE_NONE;
device_enumeration_start(&usbh_device[0]);
break;
case USBH_POLL_STATUS_DEVICE_DISCONNECTED:
{
usbh_device[0].control.state = USBH_CONTROL_STATE_NONE;
uint32_t i;
for (i = 0; i < USBH_MAX_DEVICES; i++) {
device_remove(&usbh_device[i]);
}
}
break;
default:
break;
}
if (lld_data->usbh_device[0].drv && usbh_device[0].drvdata) {
usbh_device[0].drv->poll(usbh_device[0].drvdata, time_curr_us);
}
k++;
}
}
void usbh_read(usbh_device_t *dev, usbh_packet_t *packet)
{
const usbh_low_level_driver_t *lld = dev->lld;
lld->read(lld->driver_data, packet);
}
void usbh_write(usbh_device_t *dev, const usbh_packet_t *packet)
{
const usbh_low_level_driver_t *lld = dev->lld;
lld->write(lld->driver_data, packet);
}
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