rt-thread/components/drivers/usb/usbhost/class/udisk.c

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/*
* File : udisk.c
* This file is part of RT-Thread RTOS
* COPYRIGHT (C) 2011, RT-Thread Development Team
*
* The license and distribution terms for this file may be
* found in the file LICENSE in this distribution or at
* http://www.rt-thread.org/license/LICENSE
*
* Change Logs:
* Date Author Notes
* 2011-12-12 Yi Qiu first version
*/
#include <rtthread.h>
#include <dfs_fs.h>
#include <drivers/usb_host.h>
#include "mass.h"
#ifdef RT_USBH_MSTORAGE
#define UDISK_MAX_COUNT 8
static rt_uint8_t _udisk_idset = 0;
static int udisk_get_id(void)
{
int i;
for(i=0; i< UDISK_MAX_COUNT; i++)
{
if((_udisk_idset & (1 << i)) != 0) continue;
else break;
}
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/* it should not happen */
if(i == UDISK_MAX_COUNT) RT_ASSERT(0);
_udisk_idset |= (1 << i);
return i;
}
static void udisk_free_id(int id)
{
RT_ASSERT(id < UDISK_MAX_COUNT)
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_udisk_idset &= ~(1 << id);
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}
/**
* This function will initialize the udisk device
*
* @param dev the pointer of device driver structure
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*
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* @return RT_EOK
*/
static rt_err_t rt_udisk_init(rt_device_t dev)
{
return RT_EOK;
}
/**
* This function will read some data from a device.
*
* @param dev the pointer of device driver structure
* @param pos the position of reading
* @param buffer the data buffer to save read data
* @param size the size of buffer
*
* @return the actually read size on successful, otherwise negative returned.
*/
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static rt_size_t rt_udisk_read(rt_device_t dev, rt_off_t pos, void* buffer,
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rt_size_t size)
{
rt_err_t ret;
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struct uhintf* intf;
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struct ustor_data* data;
int timeout = 500;
/* check parameter */
RT_ASSERT(dev != RT_NULL);
RT_ASSERT(buffer != RT_NULL);
if(size > 4096) timeout = 800;
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data = (struct ustor_data*)dev->user_data;
intf = data->intf;
ret = rt_usbh_storage_read10(intf, (rt_uint8_t*)buffer, pos, size, timeout);
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if (ret != RT_EOK)
{
rt_kprintf("usb mass_storage read failed\n");
return 0;
}
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return size;
}
/**
* This function will write some data to a device.
*
* @param dev the pointer of device driver structure
* @param pos the position of written
* @param buffer the data buffer to be written to device
* @param size the size of buffer
*
* @return the actually written size on successful, otherwise negative returned.
*/
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static rt_size_t rt_udisk_write (rt_device_t dev, rt_off_t pos, const void* buffer,
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rt_size_t size)
{
rt_err_t ret;
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struct uhintf* intf;
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struct ustor_data* data;
int timeout = 500;
/* check parameter */
RT_ASSERT(dev != RT_NULL);
RT_ASSERT(buffer != RT_NULL);
if(size * SECTOR_SIZE > 4096) timeout = 800;
data = (struct ustor_data*)dev->user_data;
intf = data->intf;
ret = rt_usbh_storage_write10(intf, (rt_uint8_t*)buffer, pos, size, timeout);
if (ret != RT_EOK)
{
rt_kprintf("usb mass_storage write %d sector failed\n", size);
return 0;
}
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return size;
}
/**
* This function will execute SCSI_INQUIRY_CMD command to get inquiry data.
*
* @param intf the interface instance.
* @param buffer the data buffer to save inquiry data
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*
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* @return the error code, RT_EOK on successfully.
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*/
static rt_err_t rt_udisk_control(rt_device_t dev, int cmd, void *args)
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{
ustor_t stor;
struct ustor_data* data;
/* check parameter */
RT_ASSERT(dev != RT_NULL);
data = (struct ustor_data*)dev->user_data;
stor = (ustor_t)data->intf->user_data;
if (cmd == RT_DEVICE_CTRL_BLK_GETGEOME)
{
struct rt_device_blk_geometry *geometry;
geometry = (struct rt_device_blk_geometry *)args;
if (geometry == RT_NULL) return -RT_ERROR;
geometry->bytes_per_sector = SECTOR_SIZE;
geometry->block_size = stor->capicity[1];
geometry->sector_count = stor->capicity[0];
}
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return RT_EOK;
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}
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#ifdef RT_USING_DEVICE_OPS
const static struct rt_device_ops udisk_device_ops =
{
rt_udisk_init,
RT_NULL,
RT_NULL,
rt_udisk_read,
rt_udisk_write,
rt_udisk_control
};
#endif
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/**
* This function will run udisk driver when usb disk is detected.
*
* @param intf the usb interface instance.
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*
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* @return the error code, RT_EOK on successfully.
*/
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rt_err_t rt_udisk_run(struct uhintf* intf)
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{
int i = 0;
rt_err_t ret;
char dname[4];
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char sname[8];
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rt_uint8_t max_lun, *sector, sense[18], inquiry[36];
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struct dfs_partition part[MAX_PARTITION_COUNT];
ustor_t stor;
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/* check parameter */
RT_ASSERT(intf != RT_NULL);
/* set interface */
// ret = rt_usbh_set_interface(intf->device, intf->intf_desc->bInterfaceNumber);
// if(ret != RT_EOK)
// rt_usbh_clear_feature(intf->device, 0, USB_FEATURE_ENDPOINT_HALT);
/* reset mass storage class device */
ret = rt_usbh_storage_reset(intf);
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if(ret != RT_EOK) return ret;
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stor = (ustor_t)intf->user_data;
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/* get max logic unit number */
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ret = rt_usbh_storage_get_max_lun(intf, &max_lun);
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if(ret != RT_EOK)
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rt_usbh_clear_feature(intf->device, 0, USB_FEATURE_ENDPOINT_HALT);
/* reset pipe in endpoint */
if(stor->pipe_in->status == UPIPE_STATUS_STALL)
{
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ret = rt_usbh_clear_feature(intf->device,
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stor->pipe_in->ep.bEndpointAddress, USB_FEATURE_ENDPOINT_HALT);
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if(ret != RT_EOK) return ret;
}
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/* reset pipe out endpoint */
if(stor->pipe_out->status == UPIPE_STATUS_STALL)
{
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ret = rt_usbh_clear_feature(intf->device,
stor->pipe_out->ep.bEndpointAddress, USB_FEATURE_ENDPOINT_HALT);
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if(ret != RT_EOK) return ret;
}
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while((ret = rt_usbh_storage_inquiry(intf, inquiry)) != RT_EOK)
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{
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if(ret == -RT_EIO) return ret;
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rt_thread_delay(5);
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if(i++ < 10) continue;
rt_kprintf("rt_usbh_storage_inquiry error\n");
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return -RT_ERROR;
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}
i = 0;
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/* wait device ready */
while((ret = rt_usbh_storage_test_unit_ready(intf)) != RT_EOK)
{
if(ret == -RT_EIO) return ret;
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ret = rt_usbh_storage_request_sense(intf, sense);
if(ret == -RT_EIO) return ret;
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rt_thread_delay(10);
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if(i++ < 10) continue;
rt_kprintf("rt_usbh_storage_test_unit_ready error\n");
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return -RT_ERROR;
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}
i = 0;
rt_memset(stor->capicity, 0, sizeof(stor->capicity));
/* get storage capacity */
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while((ret = rt_usbh_storage_get_capacity(intf,
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(rt_uint8_t*)stor->capicity)) != RT_EOK)
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{
if(ret == -RT_EIO) return ret;
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rt_thread_delay(50);
if(i++ < 10) continue;
stor->capicity[0] = 2880;
stor->capicity[1] = 0x200;
rt_kprintf("rt_usbh_storage_get_capacity error\n");
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break;
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}
stor->capicity[0] = uswap_32(stor->capicity[0]);
stor->capicity[1] = uswap_32(stor->capicity[1]);
stor->capicity[0] += 1;
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RT_DEBUG_LOG(RT_DEBUG_USB, ("capicity %d, block size %d\n",
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stor->capicity[0], stor->capicity[1]));
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/* get the first sector to read partition table */
sector = (rt_uint8_t*) rt_malloc (SECTOR_SIZE);
if (sector == RT_NULL)
{
rt_kprintf("allocate partition sector buffer failed\n");
return -RT_ERROR;
}
rt_memset(sector, 0, SECTOR_SIZE);
RT_DEBUG_LOG(RT_DEBUG_USB, ("read partition table\n"));
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/* get the partition table */
ret = rt_usbh_storage_read10(intf, sector, 0, 1, 500);
if(ret != RT_EOK)
{
rt_kprintf("read parition table error\n");
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rt_free(sector);
return -RT_ERROR;
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}
RT_DEBUG_LOG(RT_DEBUG_USB, ("finished reading partition\n"));
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for(i=0; i<MAX_PARTITION_COUNT; i++)
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{
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/* get the first partition */
ret = dfs_filesystem_get_partition(&part[i], sector, i);
if (ret == RT_EOK)
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{
struct ustor_data* data = rt_malloc(sizeof(struct ustor_data));
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rt_memset(data, 0, sizeof(struct ustor_data));
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data->intf = intf;
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data->udisk_id = udisk_get_id();
rt_snprintf(dname, 6, "ud%d-%d", data->udisk_id, i);
rt_snprintf(sname, 8, "sem_ud%d", i);
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data->part.lock = rt_sem_create(sname, 1, RT_IPC_FLAG_FIFO);
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/* register sdcard device */
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stor->dev[i].type = RT_Device_Class_Block;
#ifdef RT_USING_DEVICE_OPS
stor->dev[i].ops = &udisk_device_ops;
#else
stor->dev[i].init = rt_udisk_init;
stor->dev[i].read = rt_udisk_read;
stor->dev[i].write = rt_udisk_write;
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stor->dev[i].control = rt_udisk_control;
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#endif
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stor->dev[i].user_data = (void*)data;
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rt_device_register(&stor->dev[i], dname, RT_DEVICE_FLAG_RDWR |
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RT_DEVICE_FLAG_REMOVABLE | RT_DEVICE_FLAG_STANDALONE);
stor->dev_cnt++;
if (dfs_mount(stor->dev[i].parent.name, UDISK_MOUNTPOINT, "elm",
0, 0) == 0)
{
RT_DEBUG_LOG(RT_DEBUG_USB, ("udisk part %d mount successfully\n", i));
}
else
{
RT_DEBUG_LOG(RT_DEBUG_USB, ("udisk part %d mount failed\n", i));
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}
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}
else
{
if(i == 0)
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{
struct ustor_data* data = rt_malloc(sizeof(struct ustor_data));
rt_memset(data, 0, sizeof(struct ustor_data));
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data->udisk_id = udisk_get_id();
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/* there is no partition table */
data->part.offset = 0;
data->part.size = 0;
data->intf = intf;
data->part.lock = rt_sem_create("sem_ud", 1, RT_IPC_FLAG_FIFO);
rt_snprintf(dname, 7, "udisk%d", data->udisk_id);
/* register sdcard device */
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stor->dev[0].type = RT_Device_Class_Block;
#ifdef RT_USING_DEVICE_OPS
stor->dev[i].ops = &udisk_device_ops;
#else
stor->dev[0].init = rt_udisk_init;
stor->dev[0].read = rt_udisk_read;
stor->dev[0].write = rt_udisk_write;
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stor->dev[0].control = rt_udisk_control;
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#endif
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stor->dev[0].user_data = (void*)data;
rt_device_register(&stor->dev[0], dname,
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RT_DEVICE_FLAG_RDWR | RT_DEVICE_FLAG_REMOVABLE
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| RT_DEVICE_FLAG_STANDALONE);
stor->dev_cnt++;
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if (dfs_mount(stor->dev[0].parent.name, UDISK_MOUNTPOINT,
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"elm", 0, 0) == 0)
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{
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rt_kprintf("Mount FAT on Udisk successful.\n");
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}
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else
{
rt_kprintf("Mount FAT on Udisk failed.\n");
}
}
break;
}
}
rt_free(sector);
return RT_EOK;
}
/**
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* This function will be invoked when usb disk plug out is detected and it would clean
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* and release all udisk related resources.
*
* @param intf the usb interface instance.
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*
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* @return the error code, RT_EOK on successfully.
*/
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rt_err_t rt_udisk_stop(struct uhintf* intf)
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{
int i;
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ustor_t stor;
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struct ustor_data* data;
/* check parameter */
RT_ASSERT(intf != RT_NULL);
RT_ASSERT(intf->device != RT_NULL);
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stor = (ustor_t)intf->user_data;
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RT_ASSERT(stor != RT_NULL);
for(i=0; i<stor->dev_cnt; i++)
{
rt_device_t dev = &stor->dev[i];
data = (struct ustor_data*)dev->user_data;
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/* unmount filesystem */
dfs_unmount(UDISK_MOUNTPOINT);
/* delete semaphore */
rt_sem_delete(data->part.lock);
udisk_free_id(data->udisk_id);
rt_free(data);
/* unregister device */
rt_device_unregister(&stor->dev[i]);
}
return RT_EOK;
}
#endif