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|
/*
* libusb-glue.c
*
* Created by Richard Low on 24/12/2005. (as mtp-utils.c)
* Modified by Linus Walleij 2006-03-06
* (Notice that Anglo-Saxons use little-endian dates and Swedes use big-endian dates.)
*
* This file adds some utils (many copied from ptpcam.c from libptp2) to
* use MTP devices. Include mtp-utils.h to use any of the ptp/mtp functions.
*
*/
#include "ptp.h"
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <getopt.h>
#include <unistd.h>
#include <sys/types.h>
#include <utime.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <sys/mman.h>
#include <usb.h>
#include "libmtp.h"
#include "libusb-glue.h"
#include "util.h"
/* OUR APPLICATION USB URB (2MB) ;) */
#define PTPCAM_USB_URB 2097152
/* this must not be too short - the original 4000 was not long
enough for big file transfers. I imagine the player spends a
bit of time gearing up to receiving lots of data. This also makes
connecting/disconnecting more reliable */
#define USB_TIMEOUT 10000
#define USB_CAPTURE_TIMEOUT 20000
/* USB control message data phase direction */
#ifndef USB_DP_HTD
#define USB_DP_HTD (0x00 << 7) /* host to device */
#endif
#ifndef USB_DP_DTH
#define USB_DP_DTH (0x01 << 7) /* device to host */
#endif
/* USB Feature selector HALT */
#ifndef USB_FEATURE_HALT
#define USB_FEATURE_HALT 0x00
#endif
/*
* MTP device list, trying real bad to get all devices into
* this list by stealing from everyone I know.
*/
static const LIBMTP_device_entry_t mtp_device_table[] = {
/*
* Creative Technology
*/
{ "Creative Zen Vision", 0x041e, 0x411f },
{ "Creative Portable Media Center", 0x041e, 0x4123 },
{ "Creative Zen Xtra (MTP mode)", 0x041e, 0x4128 },
{ "Second generation Dell DJ", 0x041e, 0x412f },
{ "Creative Zen Micro (MTP mode)", 0x041e, 0x4130 },
{ "Creative Zen Touch (MTP mode)", 0x041e, 0x4131 },
{ "Dell Pocket DJ (MTP mode)", 0x041e, 0x4132 },
{ "Creative Zen Sleek (MTP mode)", 0x041e, 0x4137 },
{ "Creative Zen MicroPhoto", 0x041e, 0x413c },
{ "Creative Zen Sleek Photo", 0x041e, 0x413d },
{ "Creative Zen Vision:M", 0x041e, 0x413e },
/*
* Samsung
*/
// From libgphoto2
{ "Samsung YH-820", 0x04e8, 0x502e },
// Contributed by polux2001@users.sourceforge.net
{ "Samsung YH-925", 0x04e8, 0x502f },
// Contributed by anonymous person on SourceForge
{ "Samsung YP-T7J", 0x04e8, 0x5047 },
// Reported by cstrickler@gmail.com
{ "Samsung YP-U2J (YP-U2JXB/XAA)", 0x04e8, 0x5054 },
// From a rouge .INF file
{ "Samsung YH-999 Portable Media Center", 0x04e8, 0x5a0f },
/*
* Intel
*/
{ "Intel Bandon Portable Media Center", 0x045e, 0x00c9 },
/*
* JVC
*/
// From Mark Veinot
{ "JVC Alneo XA-HD500", 0x04f1, 0x6105 },
/*
* Philipps
*/
// From libgphoto2 source
{ "Philipps HDD6320", 0x0471, 0x01eb },
{ "Philipps HDD6320 2", 0x0471, 0x014b },
// Anonymous SourceForge user
{ "Philipps HDD1630/17", 0x0471, 0x014c },
/*
* SanDisk
*/
// Reported by Brian Robison
{ "SanDisk Sansa m240", 0x0781, 0x7400 },
// Reported by tangent_@users.sourceforge.net
{ "SanDisk Sansa c150", 0x0781, 0x7410 },
// From libgphoto2 source
{ "SanDisk Sansa e200", 0x0781, 0x7420 },
// Reported by gonkflea@users.sourceforge.net
{ "SanDisk Sansa e260", 0x0781, 0x7420 },
/*
* iRiver
*/
{ "iRiver Portable Media Center", 0x1006, 0x4002 },
{ "iRiver Portable Media Center", 0x1006, 0x4003 },
// From libgphoto2 source
{ "iRiver T10", 0x4102, 0x1113 },
{ "iRiver T20 FM", 0x4102, 0x1114 },
{ "iRiver U10", 0x4102, 0x1116 },
{ "iRiver T10", 0x4102, 0x1117 },
{ "iRiver T20", 0x4102, 0x1118 },
{ "iRiver T30", 0x4102, 0x1119 },
// Reported by Scott Call
{ "iRiver H10 20GB", 0x4102, 0x2101 },
{ "iRiver H10", 0x4102, 0x2102 },
/*
* Dell
*/
{ "Dell DJ Itty", 0x413c, 0x4500 },
/*
* Toshiba
*/
{ "Toshiba Gigabeat MEGF-40", 0x0930, 0x0009 },
{ "Toshiba Gigabeat", 0x0930, 0x000c },
/*
* Archos
*/
// Reported by gudul1@users.sourceforge.net
{ "Archos 104 (MTP mode)", 0x0e79, 0x120a }
};
static const int mtp_device_table_size = sizeof(mtp_device_table) / sizeof(LIBMTP_device_entry_t);
int ptpcam_usb_timeout = USB_TIMEOUT;
// Local functions
static struct usb_bus* init_usb();
static struct usb_device *probe_usb_bus_for_mtp_devices(void);
static void close_usb(PTP_USB* ptp_usb, uint8_t interfaceNumber);
static struct usb_device* find_device (int busn, int devicen, short force);
static void find_endpoints(struct usb_device *dev, int* inep, int* inep_maxpacket, int* outep, int* outep_maxpacket, int* intep);
static void clear_stall(PTP_USB* ptp_usb);
static int init_ptp_usb (PTPParams* params, PTP_USB* ptp_usb, struct usb_device* dev);
static short ptp_write_func (unsigned char *bytes, unsigned int size, void *data);
static short ptp_read_func (unsigned char *bytes, unsigned int size, void *data, unsigned int *readbytes);
static short ptp_check_int (unsigned char *bytes, unsigned int size, void *data, unsigned int *rlen);
static int usb_clear_stall_feature(PTP_USB* ptp_usb, int ep);
static int usb_get_endpoint_status(PTP_USB* ptp_usb, int ep, uint16_t* status);
int get_device_list(LIBMTP_device_entry_t ** const devices, int * const numdevs)
{
*devices = (LIBMTP_device_entry_t *) &mtp_device_table;
*numdevs = mtp_device_table_size;
return 0;
}
static struct usb_bus* init_usb()
{
usb_init();
usb_find_busses();
usb_find_devices();
return (usb_get_busses());
}
/**
* Check for the Microsoft OS device descriptor and returns device struct
* if the device is MTP-compliant. The function will only recognize
* a single device connected to the USB bus.
*
* @return an MTP-compliant USB device if one was found, else NULL.
*/
static struct usb_device *probe_usb_bus_for_mtp_devices(void)
{
struct usb_bus *bus;
bus = init_usb();
for (; bus; bus = bus->next) {
struct usb_device *dev;
for (dev = bus->devices; dev; dev = dev->next) {
usb_dev_handle *devh;
unsigned char buf[1024], cmd;
int ret;
devh = usb_open(dev);
if (devh == NULL) {
continue;
}
// Read the special descripor, if possible...
ret = usb_get_descriptor(devh, 0x03, 0xee, buf, sizeof(buf));
if (ret < 10) {
// printf("Device: VID %04x/PID %04x: no extended device property...\n",
// dev->descriptor.idVendor,
// dev->descriptor.idProduct);
usb_close(devh);
continue;
}
if (ret > 0) {
// printf("Device: VID %04x/PID %04x: responds to special descriptor call...\n",
// dev->descriptor.idVendor,
// dev->descriptor.idProduct);
// data_dump_ascii (stdout, buf, ret, 0);
}
if (!((buf[2] == 'M') && (buf[4]=='S') && (buf[6]=='F') && (buf[8]=='T'))) {
// printf("This is not a Microsoft MTP descriptor...\n");
usb_close(devh);
continue;
}
cmd = buf[16];
ret = usb_control_msg (devh, USB_ENDPOINT_IN|USB_RECIP_DEVICE|USB_TYPE_VENDOR,
cmd, 0, 4, (char *) buf, sizeof(buf), 1000);
if (ret == -1) {
//printf("Decice could not respond to control message 1.\n");
usb_close(devh);
// Return the device anyway.
return dev;
}
if (ret > 0) {
//printf("Device response to control message 1:\n");
//data_dump_ascii (stdout, buf, ret, 0);
}
ret = usb_control_msg (devh, USB_ENDPOINT_IN|USB_RECIP_DEVICE|USB_TYPE_VENDOR,
cmd, 0, 5, (char *) buf, sizeof(buf), 1000);
if (ret == -1) {
//printf("Device could not respond to control message 2.\n");
usb_close(devh);
// Return the device anyway.
return dev;
}
if (ret > 0) {
//printf("Device response to control message 2:\n");
//data_dump_ascii (stdout, buf, ret, 0);
}
usb_close(devh);
// We can return the device here, it will be the first.
// If it was not MTP, the loop continues before it reaches this point.
return dev;
}
}
// If nothing was found we end up here.
return NULL;
}
/**
* Detect the MTP device descriptor and return the VID and PID
* of the first device found. This is a very low-level function
* which is intended for use with <b>udev</b> or other hotplug
* mechanisms. The idea is that a script may want to know if the
* just plugged-in device was an MTP device or not.
* @param vid the Vendor ID (VID) of the first device found.
* @param pid the Product ID (PID) of the first device found.
* @return the number of detected devices or -1 if the call
* was unsuccessful.
*/
int LIBMTP_Detect_Descriptor(uint16_t *vid, uint16_t *pid)
{
struct usb_device *dev = probe_usb_bus_for_mtp_devices();
if (dev == NULL) {
return 0;
}
*vid = dev->descriptor.idVendor;
*pid = dev->descriptor.idProduct;
return 1;
}
/**
* This routine just dumps out low-level
* USB information about the current device.
* @param ptp_usb the USB device to get information from.
*/
void dump_usbinfo(PTP_USB *ptp_usb)
{
int res;
struct usb_device *dev;
#ifdef LIBUSB_HAS_GET_DRIVER_NP
char devname[0x10];
devname[0] = '\0';
res = usb_get_driver_np(ptp_usb->handle, ptp_usb->interface, devname, sizeof(devname));
if (devname[0] != '\0') {
printf(" Using kernel interface \"%s\"\n", devname);
}
#endif
dev = usb_device(ptp_usb->handle);
printf(" bcdUSB: %d\n", dev->descriptor.bcdUSB);
printf(" bDeviceClass: %d\n", dev->descriptor.bDeviceClass);
printf(" bDeviceSubClass: %d\n", dev->descriptor.bDeviceSubClass);
printf(" bDeviceProtocol: %d\n", dev->descriptor.bDeviceProtocol);
printf(" bMaxPacketSize0: %d\n", dev->descriptor.bMaxPacketSize0);
printf(" idVendor: %04x\n", dev->descriptor.idVendor);
printf(" idProduct: %04x\n", dev->descriptor.idProduct);
// TODO: add in string dumps for iManufacturer, iProduct, iSerialnumber...
}
// Based on same function on library.c in libgphoto2
#define CONTEXT_BLOCK_SIZE 100000
static short
ptp_read_func (unsigned char *bytes, unsigned int size, void *data, unsigned int *readbytes)
{
PTP_USB *ptp_usb = (PTP_USB *)data;
int toread = 0;
int result = 0;
int curread = 0;
/* Split into small blocks. Too large blocks (>1x MB) would
* timeout.
*/
while (curread < size) {
toread = size - curread;
if (toread > 4096)
toread = 4096;
result = USB_BULK_READ(ptp_usb->handle, ptp_usb->inep,(char *)(bytes+curread), toread, ptpcam_usb_timeout);
if (result == 0) {
result = USB_BULK_READ(ptp_usb->handle, ptp_usb->inep,(char *)(bytes+curread), toread, ptpcam_usb_timeout);
}
if (result < 0)
break;
curread += result;
if (result < toread) /* short reads are common */
break;
}
if (result > 0) {
*readbytes = curread;
return (PTP_RC_OK);
} else {
return PTP_ERROR_IO;
}
}
// Based on same function on library.c in libgphoto2
static short
ptp_write_func (unsigned char *bytes, unsigned int size, void *data)
{
PTP_USB *ptp_usb = (PTP_USB *)data;
int towrite = 0;
int result = 0;
int curwrite = 0;
struct usb_device *dev = usb_device(ptp_usb->handle);
/*
* gp_port_write returns (in case of success) the number of bytes
* write. Too large blocks (>5x MB) could timeout.
*/
while (curwrite < size) {
towrite = size-curwrite;
if (towrite > 4096)
towrite = 4096;
result=USB_BULK_WRITE(ptp_usb->handle,ptp_usb->outep,(char *)(bytes+curwrite),towrite,ptpcam_usb_timeout);
if (result < 0)
break;
curwrite += result;
if (result < towrite) /* short writes happen */
break;
}
if ((size % dev->descriptor.bMaxPacketSize0) == 0) {
result=USB_BULK_WRITE(ptp_usb->handle,ptp_usb->outep,(char *)"x",0,ptpcam_usb_timeout);
}
if (result < 0)
return PTP_ERROR_IO;
return PTP_RC_OK;
}
// This is a bit hackish at the moment. I wonder if it even works.
static short ptp_check_int (unsigned char *bytes, unsigned int size, void *data, unsigned int *rlen)
{
PTP_USB *ptp_usb = (PTP_USB *)data;
int result;
result=USB_BULK_READ(ptp_usb->handle, ptp_usb->intep,(char *)bytes,size,ptpcam_usb_timeout);
if (result==0)
result = USB_BULK_READ(ptp_usb->handle, ptp_usb->intep,(char *) bytes, size, ptpcam_usb_timeout);
if (result >= 0) {
*rlen = result;
return (PTP_RC_OK);
} else {
return PTP_ERROR_IO;
}
}
static int init_ptp_usb (PTPParams* params, PTP_USB* ptp_usb, struct usb_device* dev)
{
usb_dev_handle *device_handle;
params->write_func=ptp_write_func;
params->read_func=ptp_read_func;
params->check_int_func=ptp_check_int;
params->check_int_fast_func=ptp_check_int;
params->error_func=NULL;
params->debug_func=NULL;
params->sendreq_func=ptp_usb_sendreq;
params->senddata_func=ptp_usb_senddata;
params->getresp_func=ptp_usb_getresp;
params->getdata_func=ptp_usb_getdata;
params->data=ptp_usb;
params->transaction_id=0;
params->byteorder = PTP_DL_LE;
if ((device_handle = usb_open(dev))){
if (!device_handle) {
perror("usb_open()");
return -1;
}
ptp_usb->handle = device_handle;
if (usb_claim_interface(device_handle, dev->config->interface->altsetting->bInterfaceNumber)) {
perror("usb_claim_interface()");
return -1;
}
ptp_usb->interface = dev->config->interface->altsetting->bInterfaceNumber;
}
return 0;
}
static void clear_stall(PTP_USB* ptp_usb)
{
uint16_t status=0;
int ret;
/* check the inep status */
ret = usb_get_endpoint_status(ptp_usb,ptp_usb->inep,&status);
if (ret<0) perror ("inep: usb_get_endpoint_status()");
/* and clear the HALT condition if happend */
else if (status) {
printf("Resetting input pipe!\n");
ret=usb_clear_stall_feature(ptp_usb,ptp_usb->inep);
/*usb_clear_halt(ptp_usb->handle,ptp_usb->inep); */
if (ret<0)perror ("usb_clear_stall_feature()");
}
status=0;
/* check the outep status */
ret=usb_get_endpoint_status(ptp_usb,ptp_usb->outep,&status);
if (ret<0) perror ("outep: usb_get_endpoint_status()");
/* and clear the HALT condition if happend */
else if (status) {
printf("Resetting output pipe!\n");
ret=usb_clear_stall_feature(ptp_usb,ptp_usb->outep);
/*usb_clear_halt(ptp_usb->handle,ptp_usb->outep); */
if (ret<0)perror ("usb_clear_stall_feature()");
}
/*usb_clear_halt(ptp_usb->handle,ptp_usb->intep); */
}
static void close_usb(PTP_USB* ptp_usb, uint8_t interfaceNumber)
{
clear_stall(ptp_usb);
// Added to clear some stuff on the OUT endpoint
// TODO: is this good on the Mac too?
usb_resetep(ptp_usb->handle, ptp_usb->outep);
usb_release_interface(ptp_usb->handle, interfaceNumber);
// Brutally reset device
// TODO: is this good on the Mac too?
usb_reset(ptp_usb->handle);
usb_close(ptp_usb->handle);
}
/*
find_device() returns the pointer to a usb_device structure matching
given busn, devicen numbers. If any or both of arguments are 0 then the
first matching PTP device structure is returned.
*/
static struct usb_device* find_device (int busn, int devn, short force)
{
struct usb_bus *bus;
struct usb_device *dev;
bus=init_usb();
for (; bus; bus = bus->next)
for (dev = bus->devices; dev; dev = dev->next)
/* somtimes dev->config is null, not sure why... */
if (dev->config != NULL)
if (dev->descriptor.bDeviceClass!=USB_CLASS_HUB)
{
int curbusn, curdevn;
curbusn=strtol(bus->dirname,NULL,10);
curdevn=strtol(dev->filename,NULL,10);
if (devn==0) {
if (busn==0) return dev;
if (curbusn==busn) return dev;
} else {
if ((busn==0)&&(curdevn==devn)) return dev;
if ((curbusn==busn)&&(curdevn==devn)) return dev;
}
}
return NULL;
}
/**
* This function scans through the device list to see if there are
* some devices to connect to. The table at the top of this file is
* used to identify potential devices.
*/
uint16_t connect_first_device(PTPParams *params, PTP_USB *ptp_usb, uint8_t *interfaceNumber)
{
struct usb_bus *bus;
struct usb_device *dev;
struct usb_endpoint_descriptor *ep;
PTPDeviceInfo deviceinfo;
uint16_t ret=0;
int n;
// First try to locate the device using the extended
// device descriptor.
dev = probe_usb_bus_for_mtp_devices();
if (dev != NULL) {
int i;
// See if we can find the name of this beast
for (i = 0; i < mtp_device_table_size; i++) {
LIBMTP_device_entry_t const *mtp_device = &mtp_device_table[i];
if (dev->descriptor.idVendor == mtp_device->vendor_id &&
dev->descriptor.idProduct == mtp_device->product_id ) {
printf("Autodetected device \"%s\" (VID=%04x,PID=%04x) is known.\n",
mtp_device->name, dev->descriptor.idVendor, dev->descriptor.idProduct);
break;
}
}
if (i == mtp_device_table_size) {
printf("Autodetected device with VID=%04x and PID=%04x is UNKNOWN.\n",
dev->descriptor.idVendor, dev->descriptor.idProduct);
printf("Please report this VID/PID and the device model name etc to the\n");
printf("libmtp development team!\n");
}
}
// If autodetection fails, scan the bus for well known devices.
if (dev == NULL) {
bus = init_usb();
for (; bus; bus = bus->next) {
for (dev = bus->devices; dev; dev = dev->next) {
int i;
// Loop over the list of supported devices
for (i = 0; i < mtp_device_table_size; i++) {
LIBMTP_device_entry_t const *mtp_device = &mtp_device_table[i];
if (dev->descriptor.bDeviceClass != USB_CLASS_HUB &&
dev->descriptor.idVendor == mtp_device->vendor_id &&
dev->descriptor.idProduct == mtp_device->product_id ) {
printf("Found non-autodetected device \"%s\" on USB bus...\n", mtp_device->name);
goto next_step;
}
}
}
}
}
next_step:
// Still not found any?
if (dev == NULL) {
return PTP_CD_RC_NO_DEVICES;
}
// Found a device, then assign endpoints...
ep = dev->config->interface->altsetting->endpoint;
n = dev->config->interface->altsetting->bNumEndpoints;
find_endpoints(dev, &(ptp_usb->inep), &(ptp_usb->inep_maxpacket),
&(ptp_usb->outep), &(ptp_usb->outep_maxpacket), &(ptp_usb->intep));
// printf("Init PTP USB...\n");
if (init_ptp_usb(params, ptp_usb, dev) < 0) {
return PTP_CD_RC_ERROR_CONNECTING;
}
ret = ptp_opensession(params,1);
// printf("Session open (%d)...\n", ret);
if (ret == PTP_RC_InvalidTransactionID) {
params->transaction_id += 10;
ret = ptp_opensession(params,1);
}
if (ret != PTP_RC_SessionAlreadyOpened && ret != PTP_RC_OK) {
printf("Could not open session! (Return code %d)\n Try to reset the device.\n", ret);
usb_release_interface(ptp_usb->handle,dev->config->interface->altsetting->bInterfaceNumber);
}
// It is actually permissible to call this before opening the session
ret = ptp_getdeviceinfo(params, &deviceinfo);
if (ret != PTP_RC_OK) {
printf("Could not get device info!\n");
usb_release_interface(ptp_usb->handle,dev->config->interface->altsetting->bInterfaceNumber);
return PTP_CD_RC_ERROR_CONNECTING;
}
// we're connected, return OK
*interfaceNumber = dev->config->interface->altsetting->bInterfaceNumber;
return PTP_CD_RC_CONNECTED;
}
static void find_endpoints(struct usb_device *dev, int* inep, int* inep_maxpacket, int* outep, int *outep_maxpacket, int* intep)
{
int i,n;
struct usb_endpoint_descriptor *ep;
ep = dev->config->interface->altsetting->endpoint;
n=dev->config->interface->altsetting->bNumEndpoints;
for (i=0;i<n;i++) {
if (ep[i].bmAttributes==USB_ENDPOINT_TYPE_BULK) {
if ((ep[i].bEndpointAddress&USB_ENDPOINT_DIR_MASK)==
USB_ENDPOINT_DIR_MASK)
{
*inep=ep[i].bEndpointAddress;
*inep_maxpacket=ep[i].wMaxPacketSize;
}
if ((ep[i].bEndpointAddress&USB_ENDPOINT_DIR_MASK)==0)
{
*outep=ep[i].bEndpointAddress;
*inep_maxpacket=ep[i].wMaxPacketSize;
}
} else if (ep[i].bmAttributes==USB_ENDPOINT_TYPE_INTERRUPT){
if ((ep[i].bEndpointAddress&USB_ENDPOINT_DIR_MASK)==
USB_ENDPOINT_DIR_MASK)
{
*intep=ep[i].bEndpointAddress;
}
}
}
}
int open_device (int busn, int devn, short force, PTP_USB *ptp_usb, PTPParams *params, struct usb_device **dev)
{
#ifdef DEBUG
printf("dev %i\tbus %i\n",devn,busn);
#endif
*dev=find_device(busn,devn,force);
if (*dev==NULL) {
fprintf(stderr,"could not find any device matching given "
"bus/dev numbers\n");
exit(-1);
}
find_endpoints(*dev,&ptp_usb->inep,&ptp_usb->inep_maxpacket,&ptp_usb->outep,&ptp_usb->outep_maxpacket,&ptp_usb->intep);
if (init_ptp_usb(params, ptp_usb, *dev) < 0) {
return -1;
}
if (ptp_opensession(params,1)!=PTP_RC_OK) {
fprintf(stderr,"ERROR: Could not open session!\n");
close_usb(ptp_usb, (*dev)->config->interface->altsetting->bInterfaceNumber);
return -1;
}
return 0;
}
void close_device (PTP_USB *ptp_usb, PTPParams *params, uint8_t interfaceNumber)
{
if (ptp_closesession(params)!=PTP_RC_OK)
fprintf(stderr,"ERROR: Could not close session!\n");
close_usb(ptp_usb, interfaceNumber);
}
static int usb_clear_stall_feature(PTP_USB* ptp_usb, int ep)
{
return (usb_control_msg(ptp_usb->handle,
USB_RECIP_ENDPOINT, USB_REQ_CLEAR_FEATURE, USB_FEATURE_HALT,
ep, NULL, 0, 3000));
}
static int usb_get_endpoint_status(PTP_USB* ptp_usb, int ep, uint16_t* status)
{
return (usb_control_msg(ptp_usb->handle,
USB_DP_DTH|USB_RECIP_ENDPOINT, USB_REQ_GET_STATUS,
USB_FEATURE_HALT, ep, (char *)status, 2, 3000));
}
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