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usb_host.c
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usb_host.c
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#include "usbh_core.h"
#include "usbh_cdc_acm.h"
#include "usbh_hid.h"
#include "usbh_msc.h"
#include "usbh_video.h"
#include "usbh_audio.h"
#define TEST_USBH_CDC_ACM 1
#define TEST_USBH_HID 1
#define TEST_USBH_MSC 1
#define TEST_USBH_MSC_FATFS 0
#define TEST_USBH_CDC_ECM 0
#define TEST_USBH_RNDIS 0
#if TEST_USBH_CDC_ACM
USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t cdc_buffer[512];
void usbh_cdc_acm_callback(void *arg, int nbytes)
{
//struct usbh_cdc_acm *cdc_acm_class = (struct usbh_cdc_acm *)arg;
if (nbytes > 0) {
for (size_t i = 0; i < nbytes; i++) {
USB_LOG_RAW("0x%02x ", cdc_buffer[i]);
}
USB_LOG_RAW("nbytes:%d\r\n", nbytes);
}
}
static void usbh_cdc_acm_thread(void *argument)
{
int ret;
struct usbh_cdc_acm *cdc_acm_class;
// clang-format off
find_class:
// clang-format on
while ((cdc_acm_class = (struct usbh_cdc_acm *)usbh_find_class_instance("/dev/ttyACM0")) == NULL) {
goto delete;
}
memset(cdc_buffer, 0, 512);
const uint8_t data1[10] = { 0x02, 0x00, 0x00, 0x00, 0x02, 0x02, 0x08, 0x14 };
memcpy(cdc_buffer, data1, 10);
usbh_bulk_urb_fill(&cdc_acm_class->bulkout_urb, cdc_acm_class->hport, cdc_acm_class->bulkout, cdc_buffer, 10, 3000, NULL, NULL);
ret = usbh_submit_urb(&cdc_acm_class->bulkout_urb);
if (ret < 0) {
USB_LOG_RAW("bulk out error,ret:%d\r\n", ret);
goto find_class;
} else {
USB_LOG_RAW("send over:%d\r\n", cdc_acm_class->bulkout_urb.actual_length);
}
usbh_bulk_urb_fill(&cdc_acm_class->bulkin_urb, cdc_acm_class->hport, cdc_acm_class->bulkin, cdc_buffer, cdc_acm_class->bulkin->wMaxPacketSize, 3000, usbh_cdc_acm_callback, cdc_acm_class);
ret = usbh_submit_urb(&cdc_acm_class->bulkin_urb);
if (ret < 0) {
USB_LOG_RAW("bulk in error,ret:%d\r\n", ret);
} else {
}
// clang-format off
delete:
usb_osal_thread_delete(NULL);
// clang-format on
}
#endif
#if TEST_USBH_HID
USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t hid_buffer[128];
void usbh_hid_callback(void *arg, int nbytes)
{
struct usbh_hid *hid_class = (struct usbh_hid *)arg;
if (nbytes > 0) {
for (size_t i = 0; i < nbytes; i++) {
USB_LOG_RAW("0x%02x ", hid_buffer[i]);
}
USB_LOG_RAW("nbytes:%d\r\n", nbytes);
usbh_submit_urb(&hid_class->intin_urb);
}
}
static void usbh_hid_thread(void *argument)
{
int ret;
struct usbh_hid *hid_class;
// clang-format off
find_class:
// clang-format on
while ((hid_class = (struct usbh_hid *)usbh_find_class_instance("/dev/input0")) == NULL) {
goto delete;
}
usbh_int_urb_fill(&hid_class->intin_urb, hid_class->hport, hid_class->intin, hid_buffer, hid_class->intin->wMaxPacketSize, 0, usbh_hid_callback, hid_class);
ret = usbh_submit_urb(&hid_class->intin_urb);
if (ret < 0) {
goto find_class;
}
// clang-format off
delete:
usb_osal_thread_delete(NULL);
// clang-format on
}
#endif
#if TEST_USBH_MSC
#if TEST_USBH_MSC_FATFS
#include "ff.h"
USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t read_write_buffer[25 * 100];
USB_NOCACHE_RAM_SECTION FATFS fs;
USB_NOCACHE_RAM_SECTION FIL fnew;
UINT fnum;
FRESULT res_sd = 0;
int usb_msc_fatfs_test()
{
const char *tmp_data = "cherryusb fatfs demo...\r\n";
USB_LOG_RAW("data len:%d\r\n", strlen(tmp_data));
for (uint32_t i = 0; i < 100; i++) {
memcpy(&read_write_buffer[i * 25], tmp_data, strlen(tmp_data));
}
res_sd = f_mount(&fs, "/usb", 1);
if (res_sd != FR_OK) {
USB_LOG_RAW("mount fail,res:%d\r\n", res_sd);
return -1;
}
USB_LOG_RAW("test fatfs write\r\n");
res_sd = f_open(&fnew, "/usb/test.txt", FA_CREATE_ALWAYS | FA_WRITE);
if (res_sd == FR_OK) {
res_sd = f_write(&fnew, read_write_buffer, sizeof(read_write_buffer), &fnum);
if (res_sd == FR_OK) {
USB_LOG_RAW("write success, write len:%d\n", fnum);
} else {
USB_LOG_RAW("write fail\r\n");
goto unmount;
}
f_close(&fnew);
} else {
USB_LOG_RAW("open fail\r\n");
goto unmount;
}
USB_LOG_RAW("test fatfs read\r\n");
res_sd = f_open(&fnew, "/usb/test.txt", FA_OPEN_EXISTING | FA_READ);
if (res_sd == FR_OK) {
res_sd = f_read(&fnew, read_write_buffer, sizeof(read_write_buffer), &fnum);
if (res_sd == FR_OK) {
USB_LOG_RAW("read success, read len:%d\n", fnum);
} else {
USB_LOG_RAW("read fail\r\n");
goto unmount;
}
f_close(&fnew);
} else {
USB_LOG_RAW("open fail\r\n");
goto unmount;
}
f_mount(NULL, "/usb", 1);
return 0;
unmount:
f_mount(NULL, "/usb", 1);
return -1;
}
#endif
USB_NOCACHE_RAM_SECTION USB_MEM_ALIGNX uint8_t partition_table[512];
static void usbh_msc_thread(void *argument)
{
int ret;
struct usbh_msc *msc_class;
// clang-format off
find_class:
// clang-format on
while ((msc_class = (struct usbh_msc *)usbh_find_class_instance("/dev/sda")) == NULL) {
goto delete;
}
#if 1
/* get the partition table */
ret = usbh_msc_scsi_read10(msc_class, 0, partition_table, 1);
if (ret < 0) {
USB_LOG_RAW("scsi_read10 error,ret:%d\r\n", ret);
goto find_class;
}
for (uint32_t i = 0; i < 512; i++) {
if (i % 16 == 0) {
USB_LOG_RAW("\r\n");
}
USB_LOG_RAW("%02x ", partition_table[i]);
}
USB_LOG_RAW("\r\n");
#endif
#if TEST_USBH_MSC_FATFS
extern void fatfs_usbh_driver_register(void);
fatfs_usbh_driver_register();
usb_msc_fatfs_test();
#endif
// clang-format off
delete:
usb_osal_thread_delete(NULL);
// clang-format on
}
#endif
#if 0
void usbh_videostreaming_parse_mjpeg(struct usbh_urb *urb, struct usbh_videostreaming *stream)
{
struct usbh_iso_frame_packet *iso_packet;
uint32_t num_of_iso_packets;
uint8_t data_offset;
uint32_t data_len;
uint8_t header_len = 0;
num_of_iso_packets = urb->num_of_iso_packets;
iso_packet = urb->iso_packet;
for (uint32_t i = 0; i < num_of_iso_packets; i++) {
/*
uint8_t frameIdentifier : 1U;
uint8_t endOfFrame : 1U;
uint8_t presentationTimeStamp : 1U;
uint8_t sourceClockReference : 1U;
uint8_t reserved : 1U;
uint8_t stillImage : 1U;
uint8_t errorBit : 1U;
uint8_t endOfHeader : 1U;
*/
if (iso_packet[i].actual_length == 0) { /* skip no data */
continue;
}
header_len = iso_packet[i].transfer_buffer[0];
if ((header_len > 12) || (header_len == 0)) { /* do not be illegal */
while (1) {
}
}
if (iso_packet[i].transfer_buffer[1] & (1 << 6)) { /* error bit, re-receive */
stream->bufoffset = 0;
continue;
}
if ((stream->bufoffset == 0) && ((iso_packet[i].transfer_buffer[header_len] != 0xff) || (iso_packet[i].transfer_buffer[header_len + 1] != 0xd8))) {
stream->bufoffset = 0;
continue;
}
data_offset = header_len;
data_len = iso_packet[i].actual_length - header_len;
/** do something here */
stream->bufoffset += data_len;
if (iso_packet[i].transfer_buffer[1] & (1 << 1)) {
if ((iso_packet[i].transfer_buffer[iso_packet[i].actual_length - 2] != 0xff) || (iso_packet[i].transfer_buffer[iso_packet[i].actual_length - 1] != 0xd9)) {
stream->bufoffset = 0;
continue;
}
/** do something here */
if (stream->video_one_frame_callback) {
stream->video_one_frame_callback(stream);
}
stream->bufoffset = 0;
}
}
/** do something here */
}
void usbh_videostreaming_parse_yuyv2(struct usbh_urb *urb, struct usbh_videostreaming *stream)
{
struct usbh_iso_frame_packet *iso_packet;
uint32_t num_of_iso_packets;
uint8_t data_offset;
uint32_t data_len;
uint8_t header_len = 0;
num_of_iso_packets = urb->num_of_iso_packets;
iso_packet = urb->iso_packet;
for (uint32_t i = 0; i < num_of_iso_packets; i++) {
/*
uint8_t frameIdentifier : 1U;
uint8_t endOfFrame : 1U;
uint8_t presentationTimeStamp : 1U;
uint8_t sourceClockReference : 1U;
uint8_t reserved : 1U;
uint8_t stillImage : 1U;
uint8_t errorBit : 1U;
uint8_t endOfHeader : 1U;
*/
if (iso_packet[i].actual_length == 0) { /* skip no data */
continue;
}
header_len = iso_packet[i].transfer_buffer[0];
if ((header_len > 12) || (header_len == 0)) { /* do not be illegal */
while (1) {
}
}
if (iso_packet[i].transfer_buffer[1] & (1 << 6)) { /* error bit, re-receive */
stream->bufoffset = 0;
continue;
}
data_offset = header_len;
data_len = iso_packet[i].actual_length - header_len;
/** do something here */
stream->bufoffset += data_len;
if (iso_packet[i].transfer_buffer[1] & (1 << 1)) {
/** do something here */
if (stream->video_one_frame_callback && (stream->bufoffset == stream->buflen)) {
stream->video_one_frame_callback(stream);
}
stream->bufoffset = 0;
}
}
/** do something here */
}
#endif
#if TEST_USBH_CDC_ECM || TEST_USBH_RNDIS
#include "netif/etharp.h"
#include "lwip/netif.h"
#include "lwip/pbuf.h"
#include "lwip/tcpip.h"
#if LWIP_DHCP
#include "lwip/dhcp.h"
#include "lwip/prot/dhcp.h"
#endif
#ifdef __RTTHREAD__
#ifndef RT_USING_TIMER_SOFT
#error must enable RT_USING_TIMER_SOFT to support timer callback in thread
#endif
#include <rtthread.h>
#include <rtdevice.h>
#include <netif/ethernetif.h>
#include <netdev.h>
#else
#include "FreeRTOS.h"
#include "task.h"
#include "semphr.h"
#include "timers.h"
TimerHandle_t dhcp_handle1;
TimerHandle_t dhcp_handle2;
static void dhcp_timeout(TimerHandle_t xTimer)
{
struct netif *netif = (struct netif *)pvTimerGetTimerID(xTimer);
struct dhcp *dhcp;
if (netif_is_up(netif)) {
dhcp = netif_dhcp_data(netif);
if (dhcp && (dhcp->state == DHCP_STATE_BOUND)) {
USB_LOG_INFO("IPv4 Address : %s\r\n", ipaddr_ntoa(&netif->ip_addr));
USB_LOG_INFO("IPv4 Subnet mask : %s\r\n", ipaddr_ntoa(&netif->netmask));
USB_LOG_INFO("IPv4 Gateway : %s\r\n\r\n", ipaddr_ntoa(&netif->gw));
xTimerStop(xTimer, 0);
}
}
}
#endif
#endif
#if TEST_USBH_CDC_ECM
#include "usbh_cdc_ecm.h"
struct netif g_cdc_ecm_netif;
#ifdef __RTTHREAD__
static struct eth_device cdc_ecm_dev;
static rt_err_t rt_usbh_cdc_ecm_control(rt_device_t dev, int cmd, void *args)
{
struct usbh_cdc_ecm *cdc_ecm_class = (struct usbh_cdc_ecm *)dev->user_data;
switch (cmd) {
case NIOCTL_GADDR:
/* get mac address */
if (args)
rt_memcpy(args, cdc_ecm_class->mac, 6);
else
return -RT_ERROR;
break;
default:
break;
}
return RT_EOK;
}
static rt_err_t rt_usbh_cdc_ecm_eth_tx(rt_device_t dev, struct pbuf *p)
{
return usbh_cdc_ecm_linkoutput(NULL, p);
}
#endif
static err_t usbh_cdc_ecm_if_init(struct netif *netif)
{
LWIP_ASSERT("netif != NULL", (netif != NULL));
netif->mtu = 1500;
netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP | NETIF_FLAG_LINK_UP | NETIF_FLAG_UP;
netif->state = NULL;
netif->name[0] = 'E';
netif->name[1] = 'X';
netif->output = etharp_output;
netif->linkoutput = usbh_cdc_ecm_linkoutput;
return ERR_OK;
}
void usbh_cdc_ecm_run(struct usbh_cdc_ecm *cdc_ecm_class)
{
#ifdef __RTTHREAD__
struct netdev *netdev;
memset(&cdc_ecm_dev, 0, sizeof(struct eth_device));
cdc_ecm_dev.parent.control = rt_usbh_cdc_ecm_control;
cdc_ecm_dev.eth_rx = NULL;
cdc_ecm_dev.eth_tx = rt_usbh_cdc_ecm_eth_tx;
cdc_ecm_dev.parent.user_data = cdc_ecm_class;
eth_device_init(&cdc_ecm_dev, "u0");
eth_device_linkchange(&cdc_ecm_dev, RT_TRUE);
usb_osal_thread_create("usbh_cdc_ecm_rx", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_cdc_ecm_rx_thread, cdc_ecm_dev.netif);
#else
struct netif *netif = &g_cdc_ecm_netif;
netif->hwaddr_len = 6;
memcpy(netif->hwaddr, cdc_ecm_class->mac, 6);
IP4_ADDR(&cdc_ecm_class->ipaddr, 0, 0, 0, 0);
IP4_ADDR(&cdc_ecm_class->netmask, 0, 0, 0, 0);
IP4_ADDR(&cdc_ecm_class->gateway, 0, 0, 0, 0);
netif = netif_add(netif, &cdc_ecm_class->ipaddr, &cdc_ecm_class->netmask, &cdc_ecm_class->gateway, NULL, usbh_cdc_ecm_if_init, tcpip_input);
netif_set_default(netif);
while (!netif_is_up(netif)) {
}
dhcp_handle1 = xTimerCreate((const char *)"dhcp1", (TickType_t)200, (UBaseType_t)pdTRUE, (void *const)netif, (TimerCallbackFunction_t)dhcp_timeout);
if (dhcp_handle1 == NULL) {
USB_LOG_ERR("timer creation failed! \r\n");
while (1) {
}
}
usb_osal_thread_create("usbh_cdc_ecm_rx", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_cdc_ecm_rx_thread, netif);
#if LWIP_DHCP
dhcp_start(netif);
xTimerStart(dhcp_handle1, 0);
#endif
#endif
}
void usbh_cdc_ecm_stop(struct usbh_cdc_ecm *cdc_ecm_class)
{
#ifdef __RTTHREAD__
eth_device_deinit(&cdc_ecm_dev);
#else
struct netif *netif = &g_cdc_ecm_netif;
#if LWIP_DHCP
dhcp_stop(netif);
dhcp_cleanup(netif);
#endif
netif_set_down(netif);
netif_remove(netif);
#endif
}
#endif
#if TEST_USBH_RNDIS
#include "usbh_rndis.h"
struct netif g_rndis_netif;
#ifdef __RTTHREAD__
static struct eth_device rndis_dev;
static rt_timer_t keep_timer = RT_NULL;
static void rndis_dev_keepalive_timeout(void *parameter)
{
struct usbh_rndis *rndis_class = (struct usbh_rndis *)parameter;
usbh_rndis_keepalive(rndis_class);
}
static void timer_init(struct usbh_rndis *rndis_class)
{
keep_timer = rt_timer_create("keep",
rndis_dev_keepalive_timeout,
rndis_class,
5000,
RT_TIMER_FLAG_PERIODIC |
RT_TIMER_FLAG_SOFT_TIMER);
rt_timer_start(keep_timer);
}
static rt_err_t rt_usbh_rndis_control(rt_device_t dev, int cmd, void *args)
{
struct usbh_rndis *rndis_class = (struct usbh_rndis *)dev->user_data;
switch (cmd) {
case NIOCTL_GADDR:
/* get mac address */
if (args)
rt_memcpy(args, rndis_class->mac, 6);
else
return -RT_ERROR;
break;
default:
break;
}
return RT_EOK;
}
static rt_err_t rt_usbh_rndis_eth_tx(rt_device_t dev, struct pbuf *p)
{
return usbh_rndis_linkoutput(NULL, p);
}
#else
TimerHandle_t timer_handle;
static void rndis_dev_keepalive_timeout(TimerHandle_t xTimer)
{
struct usbh_rndis *rndis_class = (struct usbh_rndis *)pvTimerGetTimerID(xTimer);
usbh_rndis_keepalive(rndis_class);
}
void timer_init(struct usbh_rndis *rndis_class)
{
timer_handle = xTimerCreate((const char *)NULL, (TickType_t)5000, (UBaseType_t)pdTRUE, (void *const)rndis_class, (TimerCallbackFunction_t)rndis_dev_keepalive_timeout);
if (NULL != timer_handle) {
xTimerStart(timer_handle, 0);
} else {
USB_LOG_ERR("timer creation failed! \r\n");
for (;;) {
;
}
}
}
#endif
static err_t usbh_rndis_if_init(struct netif *netif)
{
LWIP_ASSERT("netif != NULL", (netif != NULL));
netif->mtu = 1500;
netif->flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP | NETIF_FLAG_LINK_UP | NETIF_FLAG_UP;
netif->state = NULL;
netif->name[0] = 'E';
netif->name[1] = 'X';
netif->output = etharp_output;
netif->linkoutput = usbh_rndis_linkoutput;
return ERR_OK;
}
void usbh_rndis_run(struct usbh_rndis *rndis_class)
{
#ifdef __RTTHREAD__
struct netdev *netdev;
memset(&rndis_dev, 0, sizeof(struct eth_device));
rndis_dev.parent.control = rt_usbh_rndis_control;
rndis_dev.eth_rx = NULL;
rndis_dev.eth_tx = rt_usbh_rndis_eth_tx;
rndis_dev.parent.user_data = rndis_class;
eth_device_init(&rndis_dev, "u1");
eth_device_linkchange(&rndis_dev, RT_TRUE);
usb_osal_thread_create("usbh_rndis_rx", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_rndis_rx_thread, rndis_dev.netif);
timer_init(rndis_class);
#else
struct netif *netif = &g_rndis_netif;
netif->hwaddr_len = 6;
memcpy(netif->hwaddr, rndis_class->mac, 6);
IP4_ADDR(&rndis_class->ipaddr, 0, 0, 0, 0);
IP4_ADDR(&rndis_class->netmask, 0, 0, 0, 0);
IP4_ADDR(&rndis_class->gateway, 0, 0, 0, 0);
netif = netif_add(netif, &rndis_class->ipaddr, &rndis_class->netmask, &rndis_class->gateway, NULL, usbh_rndis_if_init, tcpip_input);
netif_set_default(netif);
while (!netif_is_up(netif)) {
}
dhcp_handle2 = xTimerCreate((const char *)"dhcp2", (TickType_t)200, (UBaseType_t)pdTRUE, (void *const)netif, (TimerCallbackFunction_t)dhcp_timeout);
if (dhcp_handle2 == NULL) {
USB_LOG_ERR("timer creation failed! \r\n");
while (1) {
}
}
usb_osal_thread_create("usbh_rndis_rx", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_rndis_rx_thread, netif);
timer_init(rndis_class);
#if LWIP_DHCP
dhcp_start(netif);
xTimerStart(dhcp_handle2, 0);
#endif
#endif
}
void usbh_rndis_stop(struct usbh_rndis *rndis_class)
{
#ifdef __RTTHREAD__
eth_device_deinit(&rndis_dev);
rt_timer_stop(keep_timer);
rt_timer_delete(keep_timer);
#else
struct netif *netif = &g_rndis_netif;
#if LWIP_DHCP
dhcp_stop(netif);
dhcp_cleanup(netif);
#endif
netif_set_down(netif);
netif_remove(netif);
xTimerStop(timer_handle, 0);
xTimerDelete(timer_handle, 0);
#endif
}
#endif
void usbh_cdc_acm_run(struct usbh_cdc_acm *cdc_acm_class)
{
#if TEST_USBH_CDC_ACM
usb_osal_thread_create("usbh_cdc", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_cdc_acm_thread, NULL);
#endif
}
void usbh_cdc_acm_stop(struct usbh_cdc_acm *cdc_acm_class)
{
}
void usbh_hid_run(struct usbh_hid *hid_class)
{
#if TEST_USBH_HID
usb_osal_thread_create("usbh_hid", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_hid_thread, NULL);
#endif
}
void usbh_hid_stop(struct usbh_hid *hid_class)
{
}
#ifndef __RTTHREAD__
void usbh_msc_run(struct usbh_msc *msc_class)
{
#if TEST_USBH_MSC
usb_osal_thread_create("usbh_msc", 2048, CONFIG_USBHOST_PSC_PRIO + 1, usbh_msc_thread, NULL);
#endif
}
void usbh_msc_stop(struct usbh_msc *msc_class)
{
}
#endif
void usbh_class_test(void)
{
#ifdef __RTTHREAD__
/* do nothing */
#else
#if TEST_USBH_CDC_ECM || TEST_USBH_RNDIS
/* Initialize the LwIP stack */
tcpip_init(NULL, NULL);
#endif
#endif
}