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/*
* Copyright ( c ) 2008 Rodolfo Giometti < giometti @ linux . it >
* Copyright ( c ) 2008 Eurotech S . p . A . < info @ eurtech . it >
*
* This code is * strongly * based on EHCI - HCD code by David Brownell since
* the chip is a quasi - EHCI compatible .
*
* 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 2 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 , write to the Free Software Foundation ,
* Inc . , 675 Mass Ave , Cambridge , MA 0213 9 , USA .
*/
# include <linux/module.h>
# include <linux/pci.h>
# include <linux/dmapool.h>
# include <linux/kernel.h>
# include <linux/delay.h>
# include <linux/ioport.h>
# include <linux/sched.h>
# include <linux/slab.h>
# include <linux/errno.h>
# include <linux/timer.h>
# include <linux/list.h>
# include <linux/interrupt.h>
# include <linux/usb.h>
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# include <linux/usb/hcd.h>
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# include <linux/moduleparam.h>
# include <linux/dma-mapping.h>
# include <linux/io.h>
# include <asm/irq.h>
# include <asm/unaligned.h>
# include <linux/irq.h>
# include <linux/platform_device.h>
# include "oxu210hp.h"
# define DRIVER_VERSION "0.0.50"
/*
* Main defines
*/
# define oxu_dbg(oxu, fmt, args...) \
dev_dbg ( oxu_to_hcd ( oxu ) - > self . controller , fmt , # # args )
# define oxu_err(oxu, fmt, args...) \
dev_err ( oxu_to_hcd ( oxu ) - > self . controller , fmt , # # args )
# define oxu_info(oxu, fmt, args...) \
dev_info ( oxu_to_hcd ( oxu ) - > self . controller , fmt , # # args )
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# ifdef CONFIG_DYNAMIC_DEBUG
# define DEBUG
# endif
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static inline struct usb_hcd * oxu_to_hcd ( struct oxu_hcd * oxu )
{
return container_of ( ( void * ) oxu , struct usb_hcd , hcd_priv ) ;
}
static inline struct oxu_hcd * hcd_to_oxu ( struct usb_hcd * hcd )
{
return ( struct oxu_hcd * ) ( hcd - > hcd_priv ) ;
}
/*
* Debug stuff
*/
# undef OXU_URB_TRACE
# undef OXU_VERBOSE_DEBUG
# ifdef OXU_VERBOSE_DEBUG
# define oxu_vdbg oxu_dbg
# else
# define oxu_vdbg(oxu, fmt, args...) /* Nop */
# endif
# ifdef DEBUG
static int __attribute__ ( ( __unused__ ) )
dbg_status_buf ( char * buf , unsigned len , const char * label , u32 status )
{
return scnprintf ( buf , len , " %s%sstatus %04x%s%s%s%s%s%s%s%s%s%s " ,
label , label [ 0 ] ? " " : " " , status ,
( status & STS_ASS ) ? " Async " : " " ,
( status & STS_PSS ) ? " Periodic " : " " ,
( status & STS_RECL ) ? " Recl " : " " ,
( status & STS_HALT ) ? " Halt " : " " ,
( status & STS_IAA ) ? " IAA " : " " ,
( status & STS_FATAL ) ? " FATAL " : " " ,
( status & STS_FLR ) ? " FLR " : " " ,
( status & STS_PCD ) ? " PCD " : " " ,
( status & STS_ERR ) ? " ERR " : " " ,
( status & STS_INT ) ? " INT " : " "
) ;
}
static int __attribute__ ( ( __unused__ ) )
dbg_intr_buf ( char * buf , unsigned len , const char * label , u32 enable )
{
return scnprintf ( buf , len , " %s%sintrenable %02x%s%s%s%s%s%s " ,
label , label [ 0 ] ? " " : " " , enable ,
( enable & STS_IAA ) ? " IAA " : " " ,
( enable & STS_FATAL ) ? " FATAL " : " " ,
( enable & STS_FLR ) ? " FLR " : " " ,
( enable & STS_PCD ) ? " PCD " : " " ,
( enable & STS_ERR ) ? " ERR " : " " ,
( enable & STS_INT ) ? " INT " : " "
) ;
}
static const char * const fls_strings [ ] =
{ " 1024 " , " 512 " , " 256 " , " ?? " } ;
static int dbg_command_buf ( char * buf , unsigned len ,
const char * label , u32 command )
{
return scnprintf ( buf , len ,
" %s%scommand %06x %s=%d ithresh=%d%s%s%s%s period=%s%s %s " ,
label , label [ 0 ] ? " " : " " , command ,
( command & CMD_PARK ) ? " park " : " (park) " ,
CMD_PARK_CNT ( command ) ,
( command > > 16 ) & 0x3f ,
( command & CMD_LRESET ) ? " LReset " : " " ,
( command & CMD_IAAD ) ? " IAAD " : " " ,
( command & CMD_ASE ) ? " Async " : " " ,
( command & CMD_PSE ) ? " Periodic " : " " ,
fls_strings [ ( command > > 2 ) & 0x3 ] ,
( command & CMD_RESET ) ? " Reset " : " " ,
( command & CMD_RUN ) ? " RUN " : " HALT "
) ;
}
static int dbg_port_buf ( char * buf , unsigned len , const char * label ,
int port , u32 status )
{
char * sig ;
/* signaling state */
switch ( status & ( 3 < < 10 ) ) {
case 0 < < 10 :
sig = " se0 " ;
break ;
case 1 < < 10 :
sig = " k " ; /* low speed */
break ;
case 2 < < 10 :
sig = " j " ;
break ;
default :
sig = " ? " ;
break ;
}
return scnprintf ( buf , len ,
" %s%sport %d status %06x%s%s sig=%s%s%s%s%s%s%s%s%s%s " ,
label , label [ 0 ] ? " " : " " , port , status ,
( status & PORT_POWER ) ? " POWER " : " " ,
( status & PORT_OWNER ) ? " OWNER " : " " ,
sig ,
( status & PORT_RESET ) ? " RESET " : " " ,
( status & PORT_SUSPEND ) ? " SUSPEND " : " " ,
( status & PORT_RESUME ) ? " RESUME " : " " ,
( status & PORT_OCC ) ? " OCC " : " " ,
( status & PORT_OC ) ? " OC " : " " ,
( status & PORT_PEC ) ? " PEC " : " " ,
( status & PORT_PE ) ? " PE " : " " ,
( status & PORT_CSC ) ? " CSC " : " " ,
( status & PORT_CONNECT ) ? " CONNECT " : " "
) ;
}
# else
static inline int __attribute__ ( ( __unused__ ) )
dbg_status_buf ( char * buf , unsigned len , const char * label , u32 status )
{ return 0 ; }
static inline int __attribute__ ( ( __unused__ ) )
dbg_command_buf ( char * buf , unsigned len , const char * label , u32 command )
{ return 0 ; }
static inline int __attribute__ ( ( __unused__ ) )
dbg_intr_buf ( char * buf , unsigned len , const char * label , u32 enable )
{ return 0 ; }
static inline int __attribute__ ( ( __unused__ ) )
dbg_port_buf ( char * buf , unsigned len , const char * label , int port , u32 status )
{ return 0 ; }
# endif /* DEBUG */
/* functions have the "wrong" filename when they're output... */
# define dbg_status(oxu, label, status) { \
char _buf [ 80 ] ; \
dbg_status_buf ( _buf , sizeof _buf , label , status ) ; \
oxu_dbg ( oxu , " %s \n " , _buf ) ; \
}
# define dbg_cmd(oxu, label, command) { \
char _buf [ 80 ] ; \
dbg_command_buf ( _buf , sizeof _buf , label , command ) ; \
oxu_dbg ( oxu , " %s \n " , _buf ) ; \
}
# define dbg_port(oxu, label, port, status) { \
char _buf [ 80 ] ; \
dbg_port_buf ( _buf , sizeof _buf , label , port , status ) ; \
oxu_dbg ( oxu , " %s \n " , _buf ) ; \
}
/*
* Module parameters
*/
/* Initial IRQ latency: faster than hw default */
static int log2_irq_thresh ; /* 0 to 6 */
module_param ( log2_irq_thresh , int , S_IRUGO ) ;
MODULE_PARM_DESC ( log2_irq_thresh , " log2 IRQ latency, 1-64 microframes " ) ;
/* Initial park setting: slower than hw default */
static unsigned park ;
module_param ( park , uint , S_IRUGO ) ;
MODULE_PARM_DESC ( park , " park setting; 1-3 back-to-back async packets " ) ;
/* For flakey hardware, ignore overcurrent indicators */
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static bool ignore_oc ;
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module_param ( ignore_oc , bool , S_IRUGO ) ;
MODULE_PARM_DESC ( ignore_oc , " ignore bogus hardware overcurrent indications " ) ;
static void ehci_work ( struct oxu_hcd * oxu ) ;
static int oxu_hub_control ( struct usb_hcd * hcd ,
u16 typeReq , u16 wValue , u16 wIndex ,
char * buf , u16 wLength ) ;
/*
* Local functions
*/
/* Low level read/write registers functions */
static inline u32 oxu_readl ( void * base , u32 reg )
{
return readl ( base + reg ) ;
}
static inline void oxu_writel ( void * base , u32 reg , u32 val )
{
writel ( val , base + reg ) ;
}
static inline void timer_action_done ( struct oxu_hcd * oxu ,
enum ehci_timer_action action )
{
clear_bit ( action , & oxu - > actions ) ;
}
static inline void timer_action ( struct oxu_hcd * oxu ,
enum ehci_timer_action action )
{
if ( ! test_and_set_bit ( action , & oxu - > actions ) ) {
unsigned long t ;
switch ( action ) {
case TIMER_IAA_WATCHDOG :
t = EHCI_IAA_JIFFIES ;
break ;
case TIMER_IO_WATCHDOG :
t = EHCI_IO_JIFFIES ;
break ;
case TIMER_ASYNC_OFF :
t = EHCI_ASYNC_JIFFIES ;
break ;
case TIMER_ASYNC_SHRINK :
default :
t = EHCI_SHRINK_JIFFIES ;
break ;
}
t + = jiffies ;
/* all timings except IAA watchdog can be overridden.
* async queue SHRINK often precedes IAA . while it ' s ready
* to go OFF neither can matter , and afterwards the IO
* watchdog stops unless there ' s still periodic traffic .
*/
if ( action ! = TIMER_IAA_WATCHDOG
& & t > oxu - > watchdog . expires
& & timer_pending ( & oxu - > watchdog ) )
return ;
mod_timer ( & oxu - > watchdog , t ) ;
}
}
/*
* handshake - spin reading hc until handshake completes or fails
* @ ptr : address of hc register to be read
* @ mask : bits to look at in result of read
* @ done : value of those bits when handshake succeeds
* @ usec : timeout in microseconds
*
* Returns negative errno , or zero on success
*
* Success happens when the " mask " bits have the specified value ( hardware
* handshake done ) . There are two failure modes : " usec " have passed ( major
* hardware flakeout ) , or the register reads as all - ones ( hardware removed ) .
*
* That last failure should_only happen in cases like physical cardbus eject
* before driver shutdown . But it also seems to be caused by bugs in cardbus
* bridge shutdown : shutting down the bridge before the devices using it .
*/
static int handshake ( struct oxu_hcd * oxu , void __iomem * ptr ,
u32 mask , u32 done , int usec )
{
u32 result ;
do {
result = readl ( ptr ) ;
if ( result = = ~ ( u32 ) 0 ) /* card removed */
return - ENODEV ;
result & = mask ;
if ( result = = done )
return 0 ;
udelay ( 1 ) ;
usec - - ;
} while ( usec > 0 ) ;
return - ETIMEDOUT ;
}
/* Force HC to halt state from unknown (EHCI spec section 2.3) */
static int ehci_halt ( struct oxu_hcd * oxu )
{
u32 temp = readl ( & oxu - > regs - > status ) ;
/* disable any irqs left enabled by previous code */
writel ( 0 , & oxu - > regs - > intr_enable ) ;
if ( ( temp & STS_HALT ) ! = 0 )
return 0 ;
temp = readl ( & oxu - > regs - > command ) ;
temp & = ~ CMD_RUN ;
writel ( temp , & oxu - > regs - > command ) ;
return handshake ( oxu , & oxu - > regs - > status ,
STS_HALT , STS_HALT , 16 * 125 ) ;
}
/* Put TDI/ARC silicon into EHCI mode */
static void tdi_reset ( struct oxu_hcd * oxu )
{
u32 __iomem * reg_ptr ;
u32 tmp ;
reg_ptr = ( u32 __iomem * ) ( ( ( u8 __iomem * ) oxu - > regs ) + 0x68 ) ;
tmp = readl ( reg_ptr ) ;
tmp | = 0x3 ;
writel ( tmp , reg_ptr ) ;
}
/* Reset a non-running (STS_HALT == 1) controller */
static int ehci_reset ( struct oxu_hcd * oxu )
{
int retval ;
u32 command = readl ( & oxu - > regs - > command ) ;
command | = CMD_RESET ;
dbg_cmd ( oxu , " reset " , command ) ;
writel ( command , & oxu - > regs - > command ) ;
oxu_to_hcd ( oxu ) - > state = HC_STATE_HALT ;
oxu - > next_statechange = jiffies ;
retval = handshake ( oxu , & oxu - > regs - > command ,
CMD_RESET , 0 , 250 * 1000 ) ;
if ( retval )
return retval ;
tdi_reset ( oxu ) ;
return retval ;
}
/* Idle the controller (from running) */
static void ehci_quiesce ( struct oxu_hcd * oxu )
{
u32 temp ;
# ifdef DEBUG
if ( ! HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) )
BUG ( ) ;
# endif
/* wait for any schedule enables/disables to take effect */
temp = readl ( & oxu - > regs - > command ) < < 10 ;
temp & = STS_ASS | STS_PSS ;
if ( handshake ( oxu , & oxu - > regs - > status , STS_ASS | STS_PSS ,
temp , 16 * 125 ) ! = 0 ) {
oxu_to_hcd ( oxu ) - > state = HC_STATE_HALT ;
return ;
}
/* then disable anything that's still active */
temp = readl ( & oxu - > regs - > command ) ;
temp & = ~ ( CMD_ASE | CMD_IAAD | CMD_PSE ) ;
writel ( temp , & oxu - > regs - > command ) ;
/* hardware can take 16 microframes to turn off ... */
if ( handshake ( oxu , & oxu - > regs - > status , STS_ASS | STS_PSS ,
0 , 16 * 125 ) ! = 0 ) {
oxu_to_hcd ( oxu ) - > state = HC_STATE_HALT ;
return ;
}
}
static int check_reset_complete ( struct oxu_hcd * oxu , int index ,
u32 __iomem * status_reg , int port_status )
{
if ( ! ( port_status & PORT_CONNECT ) ) {
oxu - > reset_done [ index ] = 0 ;
return port_status ;
}
/* if reset finished and it's still not enabled -- handoff */
if ( ! ( port_status & PORT_PE ) ) {
oxu_dbg ( oxu , " Failed to enable port %d on root hub TT \n " ,
index + 1 ) ;
return port_status ;
} else
oxu_dbg ( oxu , " port %d high speed \n " , index + 1 ) ;
return port_status ;
}
static void ehci_hub_descriptor ( struct oxu_hcd * oxu ,
struct usb_hub_descriptor * desc )
{
int ports = HCS_N_PORTS ( oxu - > hcs_params ) ;
u16 temp ;
desc - > bDescriptorType = 0x29 ;
desc - > bPwrOn2PwrGood = 10 ; /* oxu 1.0, 2.3.9 says 20ms max */
desc - > bHubContrCurrent = 0 ;
desc - > bNbrPorts = ports ;
temp = 1 + ( ports / 8 ) ;
desc - > bDescLength = 7 + 2 * temp ;
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/* ports removable, and usb 1.0 legacy PortPwrCtrlMask */
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memset ( & desc - > u . hs . DeviceRemovable [ 0 ] , 0 , temp ) ;
memset ( & desc - > u . hs . DeviceRemovable [ temp ] , 0xff , temp ) ;
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temp = HUB_CHAR_INDV_PORT_OCPM ; /* per-port overcurrent reporting */
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if ( HCS_PPC ( oxu - > hcs_params ) )
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temp | = HUB_CHAR_INDV_PORT_LPSM ; /* per-port power control */
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else
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temp | = HUB_CHAR_NO_LPSM ; /* no power switching */
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desc - > wHubCharacteristics = ( __force __u16 ) cpu_to_le16 ( temp ) ;
}
/* Allocate an OXU210HP on-chip memory data buffer
*
* An on - chip memory data buffer is required for each OXU210HP USB transfer .
* Each transfer descriptor has one or more on - chip memory data buffers .
*
* Data buffers are allocated from a fix sized pool of data blocks .
* To minimise fragmentation and give reasonable memory utlisation ,
* data buffers are allocated with sizes the power of 2 multiples of
* the block size , starting on an address a multiple of the allocated size .
*
* FIXME : callers of this function require a buffer to be allocated for
* len = 0. This is a waste of on - chip memory and should be fix . Then this
* function should be changed to not allocate a buffer for len = 0.
*/
static int oxu_buf_alloc ( struct oxu_hcd * oxu , struct ehci_qtd * qtd , int len )
{
int n_blocks ; /* minium blocks needed to hold len */
int a_blocks ; /* blocks allocated */
int i , j ;
/* Don't allocte bigger than supported */
if ( len > BUFFER_SIZE * BUFFER_NUM ) {
oxu_err ( oxu , " buffer too big (%d) \n " , len ) ;
return - ENOMEM ;
}
spin_lock ( & oxu - > mem_lock ) ;
/* Number of blocks needed to hold len */
n_blocks = ( len + BUFFER_SIZE - 1 ) / BUFFER_SIZE ;
/* Round the number of blocks up to the power of 2 */
for ( a_blocks = 1 ; a_blocks < n_blocks ; a_blocks < < = 1 )
;
/* Find a suitable available data buffer */
for ( i = 0 ; i < BUFFER_NUM ;
i + = max ( a_blocks , ( int ) oxu - > db_used [ i ] ) ) {
/* Check all the required blocks are available */
for ( j = 0 ; j < a_blocks ; j + + )
if ( oxu - > db_used [ i + j ] )
break ;
if ( j ! = a_blocks )
continue ;
/* Allocate blocks found! */
qtd - > buffer = ( void * ) & oxu - > mem - > db_pool [ i ] ;
qtd - > buffer_dma = virt_to_phys ( qtd - > buffer ) ;
qtd - > qtd_buffer_len = BUFFER_SIZE * a_blocks ;
oxu - > db_used [ i ] = a_blocks ;
spin_unlock ( & oxu - > mem_lock ) ;
return 0 ;
}
/* Failed */
spin_unlock ( & oxu - > mem_lock ) ;
return - ENOMEM ;
}
static void oxu_buf_free ( struct oxu_hcd * oxu , struct ehci_qtd * qtd )
{
int index ;
spin_lock ( & oxu - > mem_lock ) ;
index = ( qtd - > buffer - ( void * ) & oxu - > mem - > db_pool [ 0 ] )
/ BUFFER_SIZE ;
oxu - > db_used [ index ] = 0 ;
qtd - > qtd_buffer_len = 0 ;
qtd - > buffer_dma = 0 ;
qtd - > buffer = NULL ;
spin_unlock ( & oxu - > mem_lock ) ;
}
static inline void ehci_qtd_init ( struct ehci_qtd * qtd , dma_addr_t dma )
{
memset ( qtd , 0 , sizeof * qtd ) ;
qtd - > qtd_dma = dma ;
qtd - > hw_token = cpu_to_le32 ( QTD_STS_HALT ) ;
qtd - > hw_next = EHCI_LIST_END ;
qtd - > hw_alt_next = EHCI_LIST_END ;
INIT_LIST_HEAD ( & qtd - > qtd_list ) ;
}
static inline void oxu_qtd_free ( struct oxu_hcd * oxu , struct ehci_qtd * qtd )
{
int index ;
if ( qtd - > buffer )
oxu_buf_free ( oxu , qtd ) ;
spin_lock ( & oxu - > mem_lock ) ;
index = qtd - & oxu - > mem - > qtd_pool [ 0 ] ;
oxu - > qtd_used [ index ] = 0 ;
spin_unlock ( & oxu - > mem_lock ) ;
}
static struct ehci_qtd * ehci_qtd_alloc ( struct oxu_hcd * oxu )
{
int i ;
struct ehci_qtd * qtd = NULL ;
spin_lock ( & oxu - > mem_lock ) ;
for ( i = 0 ; i < QTD_NUM ; i + + )
if ( ! oxu - > qtd_used [ i ] )
break ;
if ( i < QTD_NUM ) {
qtd = ( struct ehci_qtd * ) & oxu - > mem - > qtd_pool [ i ] ;
memset ( qtd , 0 , sizeof * qtd ) ;
qtd - > hw_token = cpu_to_le32 ( QTD_STS_HALT ) ;
qtd - > hw_next = EHCI_LIST_END ;
qtd - > hw_alt_next = EHCI_LIST_END ;
INIT_LIST_HEAD ( & qtd - > qtd_list ) ;
qtd - > qtd_dma = virt_to_phys ( qtd ) ;
oxu - > qtd_used [ i ] = 1 ;
}
spin_unlock ( & oxu - > mem_lock ) ;
return qtd ;
}
static void oxu_qh_free ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
int index ;
spin_lock ( & oxu - > mem_lock ) ;
index = qh - & oxu - > mem - > qh_pool [ 0 ] ;
oxu - > qh_used [ index ] = 0 ;
spin_unlock ( & oxu - > mem_lock ) ;
}
static void qh_destroy ( struct kref * kref )
{
struct ehci_qh * qh = container_of ( kref , struct ehci_qh , kref ) ;
struct oxu_hcd * oxu = qh - > oxu ;
/* clean qtds first, and know this is not linked */
if ( ! list_empty ( & qh - > qtd_list ) | | qh - > qh_next . ptr ) {
oxu_dbg ( oxu , " unused qh not empty! \n " ) ;
BUG ( ) ;
}
if ( qh - > dummy )
oxu_qtd_free ( oxu , qh - > dummy ) ;
oxu_qh_free ( oxu , qh ) ;
}
static struct ehci_qh * oxu_qh_alloc ( struct oxu_hcd * oxu )
{
int i ;
struct ehci_qh * qh = NULL ;
spin_lock ( & oxu - > mem_lock ) ;
for ( i = 0 ; i < QHEAD_NUM ; i + + )
if ( ! oxu - > qh_used [ i ] )
break ;
if ( i < QHEAD_NUM ) {
qh = ( struct ehci_qh * ) & oxu - > mem - > qh_pool [ i ] ;
memset ( qh , 0 , sizeof * qh ) ;
kref_init ( & qh - > kref ) ;
qh - > oxu = oxu ;
qh - > qh_dma = virt_to_phys ( qh ) ;
INIT_LIST_HEAD ( & qh - > qtd_list ) ;
/* dummy td enables safe urb queuing */
qh - > dummy = ehci_qtd_alloc ( oxu ) ;
if ( qh - > dummy = = NULL ) {
oxu_dbg ( oxu , " no dummy td \n " ) ;
oxu - > qh_used [ i ] = 0 ;
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qh = NULL ;
goto unlock ;
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}
oxu - > qh_used [ i ] = 1 ;
}
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unlock :
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spin_unlock ( & oxu - > mem_lock ) ;
return qh ;
}
/* to share a qh (cpu threads, or hc) */
static inline struct ehci_qh * qh_get ( struct ehci_qh * qh )
{
kref_get ( & qh - > kref ) ;
return qh ;
}
static inline void qh_put ( struct ehci_qh * qh )
{
kref_put ( & qh - > kref , qh_destroy ) ;
}
static void oxu_murb_free ( struct oxu_hcd * oxu , struct oxu_murb * murb )
{
int index ;
spin_lock ( & oxu - > mem_lock ) ;
index = murb - & oxu - > murb_pool [ 0 ] ;
oxu - > murb_used [ index ] = 0 ;
spin_unlock ( & oxu - > mem_lock ) ;
}
static struct oxu_murb * oxu_murb_alloc ( struct oxu_hcd * oxu )
{
int i ;
struct oxu_murb * murb = NULL ;
spin_lock ( & oxu - > mem_lock ) ;
for ( i = 0 ; i < MURB_NUM ; i + + )
if ( ! oxu - > murb_used [ i ] )
break ;
if ( i < MURB_NUM ) {
murb = & ( oxu - > murb_pool ) [ i ] ;
oxu - > murb_used [ i ] = 1 ;
}
spin_unlock ( & oxu - > mem_lock ) ;
return murb ;
}
/* The queue heads and transfer descriptors are managed from pools tied
* to each of the " per device " structures .
* This is the initialisation and cleanup code .
*/
static void ehci_mem_cleanup ( struct oxu_hcd * oxu )
{
kfree ( oxu - > murb_pool ) ;
oxu - > murb_pool = NULL ;
if ( oxu - > async )
qh_put ( oxu - > async ) ;
oxu - > async = NULL ;
del_timer ( & oxu - > urb_timer ) ;
oxu - > periodic = NULL ;
/* shadow periodic table */
kfree ( oxu - > pshadow ) ;
oxu - > pshadow = NULL ;
}
/* Remember to add cleanup code (above) if you add anything here.
*/
static int ehci_mem_init ( struct oxu_hcd * oxu , gfp_t flags )
{
int i ;
for ( i = 0 ; i < oxu - > periodic_size ; i + + )
oxu - > mem - > frame_list [ i ] = EHCI_LIST_END ;
for ( i = 0 ; i < QHEAD_NUM ; i + + )
oxu - > qh_used [ i ] = 0 ;
for ( i = 0 ; i < QTD_NUM ; i + + )
oxu - > qtd_used [ i ] = 0 ;
oxu - > murb_pool = kcalloc ( MURB_NUM , sizeof ( struct oxu_murb ) , flags ) ;
if ( ! oxu - > murb_pool )
goto fail ;
for ( i = 0 ; i < MURB_NUM ; i + + )
oxu - > murb_used [ i ] = 0 ;
oxu - > async = oxu_qh_alloc ( oxu ) ;
if ( ! oxu - > async )
goto fail ;
oxu - > periodic = ( __le32 * ) & oxu - > mem - > frame_list ;
oxu - > periodic_dma = virt_to_phys ( oxu - > periodic ) ;
for ( i = 0 ; i < oxu - > periodic_size ; i + + )
oxu - > periodic [ i ] = EHCI_LIST_END ;
/* software shadow of hardware table */
oxu - > pshadow = kcalloc ( oxu - > periodic_size , sizeof ( void * ) , flags ) ;
if ( oxu - > pshadow ! = NULL )
return 0 ;
fail :
oxu_dbg ( oxu , " couldn't init memory \n " ) ;
ehci_mem_cleanup ( oxu ) ;
return - ENOMEM ;
}
/* Fill a qtd, returning how much of the buffer we were able to queue up.
*/
static int qtd_fill ( struct ehci_qtd * qtd , dma_addr_t buf , size_t len ,
int token , int maxpacket )
{
int i , count ;
u64 addr = buf ;
/* one buffer entry per 4K ... first might be short or unaligned */
qtd - > hw_buf [ 0 ] = cpu_to_le32 ( ( u32 ) addr ) ;
qtd - > hw_buf_hi [ 0 ] = cpu_to_le32 ( ( u32 ) ( addr > > 32 ) ) ;
count = 0x1000 - ( buf & 0x0fff ) ; /* rest of that page */
if ( likely ( len < count ) ) /* ... iff needed */
count = len ;
else {
buf + = 0x1000 ;
buf & = ~ 0x0fff ;
/* per-qtd limit: from 16K to 20K (best alignment) */
for ( i = 1 ; count < len & & i < 5 ; i + + ) {
addr = buf ;
qtd - > hw_buf [ i ] = cpu_to_le32 ( ( u32 ) addr ) ;
qtd - > hw_buf_hi [ i ] = cpu_to_le32 ( ( u32 ) ( addr > > 32 ) ) ;
buf + = 0x1000 ;
if ( ( count + 0x1000 ) < len )
count + = 0x1000 ;
else
count = len ;
}
/* short packets may only terminate transfers */
if ( count ! = len )
count - = ( count % maxpacket ) ;
}
qtd - > hw_token = cpu_to_le32 ( ( count < < 16 ) | token ) ;
qtd - > length = count ;
return count ;
}
static inline void qh_update ( struct oxu_hcd * oxu ,
struct ehci_qh * qh , struct ehci_qtd * qtd )
{
/* writes to an active overlay are unsafe */
BUG_ON ( qh - > qh_state ! = QH_STATE_IDLE ) ;
qh - > hw_qtd_next = QTD_NEXT ( qtd - > qtd_dma ) ;
qh - > hw_alt_next = EHCI_LIST_END ;
/* Except for control endpoints, we make hardware maintain data
* toggle ( like OHCI ) . . . here ( re ) initialize the toggle in the QH ,
* and set the pseudo - toggle in udev . Only usb_clear_halt ( ) will
* ever clear it .
*/
if ( ! ( qh - > hw_info1 & cpu_to_le32 ( 1 < < 14 ) ) ) {
unsigned is_out , epnum ;
is_out = ! ( qtd - > hw_token & cpu_to_le32 ( 1 < < 8 ) ) ;
epnum = ( le32_to_cpup ( & qh - > hw_info1 ) > > 8 ) & 0x0f ;
if ( unlikely ( ! usb_gettoggle ( qh - > dev , epnum , is_out ) ) ) {
2009-02-12 01:11:36 +03:00
qh - > hw_token & = ~ cpu_to_le32 ( QTD_TOGGLE ) ;
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usb_settoggle ( qh - > dev , epnum , is_out , 1 ) ;
}
}
/* HC must see latest qtd and qh data before we clear ACTIVE+HALT */
wmb ( ) ;
2009-02-12 01:11:36 +03:00
qh - > hw_token & = cpu_to_le32 ( QTD_TOGGLE | QTD_STS_PING ) ;
2008-10-23 12:08:07 +04:00
}
/* If it weren't for a common silicon quirk (writing the dummy into the qh
* overlay , so qh - > hw_token wrongly becomes inactive / halted ) , only fault
* recovery ( including urb dequeue ) would need software changes to a QH . . .
*/
static void qh_refresh ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
struct ehci_qtd * qtd ;
if ( list_empty ( & qh - > qtd_list ) )
qtd = qh - > dummy ;
else {
qtd = list_entry ( qh - > qtd_list . next ,
struct ehci_qtd , qtd_list ) ;
/* first qtd may already be partially processed */
if ( cpu_to_le32 ( qtd - > qtd_dma ) = = qh - > hw_current )
qtd = NULL ;
}
if ( qtd )
qh_update ( oxu , qh , qtd ) ;
}
static void qtd_copy_status ( struct oxu_hcd * oxu , struct urb * urb ,
size_t length , u32 token )
{
/* count IN/OUT bytes, not SETUP (even short packets) */
if ( likely ( QTD_PID ( token ) ! = 2 ) )
urb - > actual_length + = length - QTD_LENGTH ( token ) ;
/* don't modify error codes */
if ( unlikely ( urb - > status ! = - EINPROGRESS ) )
return ;
/* force cleanup after short read; not always an error */
if ( unlikely ( IS_SHORT_READ ( token ) ) )
urb - > status = - EREMOTEIO ;
/* serious "can't proceed" faults reported by the hardware */
if ( token & QTD_STS_HALT ) {
if ( token & QTD_STS_BABBLE ) {
/* FIXME "must" disable babbling device's port too */
urb - > status = - EOVERFLOW ;
} else if ( token & QTD_STS_MMF ) {
/* fs/ls interrupt xfer missed the complete-split */
urb - > status = - EPROTO ;
} else if ( token & QTD_STS_DBE ) {
urb - > status = ( QTD_PID ( token ) = = 1 ) /* IN ? */
? - ENOSR /* hc couldn't read data */
: - ECOMM ; /* hc couldn't write data */
} else if ( token & QTD_STS_XACT ) {
/* timeout, bad crc, wrong PID, etc; retried */
if ( QTD_CERR ( token ) )
urb - > status = - EPIPE ;
else {
oxu_dbg ( oxu , " devpath %s ep%d%s 3strikes \n " ,
urb - > dev - > devpath ,
usb_pipeendpoint ( urb - > pipe ) ,
usb_pipein ( urb - > pipe ) ? " in " : " out " ) ;
urb - > status = - EPROTO ;
}
/* CERR nonzero + no errors + halt --> stall */
} else if ( QTD_CERR ( token ) )
urb - > status = - EPIPE ;
else /* unknown */
urb - > status = - EPROTO ;
oxu_vdbg ( oxu , " dev%d ep%d%s qtd token %08x --> status %d \n " ,
usb_pipedevice ( urb - > pipe ) ,
usb_pipeendpoint ( urb - > pipe ) ,
usb_pipein ( urb - > pipe ) ? " in " : " out " ,
token , urb - > status ) ;
}
}
static void ehci_urb_done ( struct oxu_hcd * oxu , struct urb * urb )
__releases ( oxu - > lock )
__acquires ( oxu - > lock )
{
if ( likely ( urb - > hcpriv ! = NULL ) ) {
struct ehci_qh * qh = ( struct ehci_qh * ) urb - > hcpriv ;
/* S-mask in a QH means it's an interrupt urb */
2009-02-12 01:11:36 +03:00
if ( ( qh - > hw_info2 & cpu_to_le32 ( QH_SMASK ) ) ! = 0 ) {
2008-10-23 12:08:07 +04:00
/* ... update hc-wide periodic stats (for usbfs) */
oxu_to_hcd ( oxu ) - > self . bandwidth_int_reqs - - ;
}
qh_put ( qh ) ;
}
urb - > hcpriv = NULL ;
switch ( urb - > status ) {
case - EINPROGRESS : /* success */
urb - > status = 0 ;
default : /* fault */
break ;
case - EREMOTEIO : /* fault or normal */
if ( ! ( urb - > transfer_flags & URB_SHORT_NOT_OK ) )
urb - > status = 0 ;
break ;
case - ECONNRESET : /* canceled */
case - ENOENT :
break ;
}
# ifdef OXU_URB_TRACE
oxu_dbg ( oxu , " %s %s urb %p ep%d%s status %d len %d/%d \n " ,
__func__ , urb - > dev - > devpath , urb ,
usb_pipeendpoint ( urb - > pipe ) ,
usb_pipein ( urb - > pipe ) ? " in " : " out " ,
urb - > status ,
urb - > actual_length , urb - > transfer_buffer_length ) ;
# endif
/* complete() can reenter this HCD */
spin_unlock ( & oxu - > lock ) ;
usb_hcd_giveback_urb ( oxu_to_hcd ( oxu ) , urb , urb - > status ) ;
spin_lock ( & oxu - > lock ) ;
}
static void start_unlink_async ( struct oxu_hcd * oxu , struct ehci_qh * qh ) ;
static void unlink_async ( struct oxu_hcd * oxu , struct ehci_qh * qh ) ;
static void intr_deschedule ( struct oxu_hcd * oxu , struct ehci_qh * qh ) ;
static int qh_schedule ( struct oxu_hcd * oxu , struct ehci_qh * qh ) ;
2009-02-12 01:11:36 +03:00
# define HALT_BIT cpu_to_le32(QTD_STS_HALT)
2008-10-23 12:08:07 +04:00
/* Process and free completed qtds for a qh, returning URBs to drivers.
* Chases up to qh - > hw_current . Returns number of completions called ,
* indicating how much " real " work we did .
*/
static unsigned qh_completions ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
struct ehci_qtd * last = NULL , * end = qh - > dummy ;
struct list_head * entry , * tmp ;
int stopped ;
unsigned count = 0 ;
int do_status = 0 ;
u8 state ;
struct oxu_murb * murb = NULL ;
if ( unlikely ( list_empty ( & qh - > qtd_list ) ) )
return count ;
/* completions (or tasks on other cpus) must never clobber HALT
* till we ' ve gone through and cleaned everything up , even when
* they add urbs to this qh ' s queue or mark them for unlinking .
*
* NOTE : unlinking expects to be done in queue order .
*/
state = qh - > qh_state ;
qh - > qh_state = QH_STATE_COMPLETING ;
stopped = ( state = = QH_STATE_IDLE ) ;
/* remove de-activated QTDs from front of queue.
* after faults ( including short reads ) , cleanup this urb
* then let the queue advance .
* if queue is stopped , handles unlinks .
*/
list_for_each_safe ( entry , tmp , & qh - > qtd_list ) {
struct ehci_qtd * qtd ;
struct urb * urb ;
u32 token = 0 ;
qtd = list_entry ( entry , struct ehci_qtd , qtd_list ) ;
urb = qtd - > urb ;
/* Clean up any state from previous QTD ...*/
if ( last ) {
if ( likely ( last - > urb ! = urb ) ) {
if ( last - > urb - > complete = = NULL ) {
murb = ( struct oxu_murb * ) last - > urb ;
last - > urb = murb - > main ;
if ( murb - > last ) {
ehci_urb_done ( oxu , last - > urb ) ;
count + + ;
}
oxu_murb_free ( oxu , murb ) ;
} else {
ehci_urb_done ( oxu , last - > urb ) ;
count + + ;
}
}
oxu_qtd_free ( oxu , last ) ;
last = NULL ;
}
/* ignore urbs submitted during completions we reported */
if ( qtd = = end )
break ;
/* hardware copies qtd out of qh overlay */
rmb ( ) ;
token = le32_to_cpu ( qtd - > hw_token ) ;
/* always clean up qtds the hc de-activated */
if ( ( token & QTD_STS_ACTIVE ) = = 0 ) {
if ( ( token & QTD_STS_HALT ) ! = 0 ) {
stopped = 1 ;
/* magic dummy for some short reads; qh won't advance.
* that silicon quirk can kick in with this dummy too .
*/
} else if ( IS_SHORT_READ ( token ) & &
! ( qtd - > hw_alt_next & EHCI_LIST_END ) ) {
stopped = 1 ;
goto halt ;
}
/* stop scanning when we reach qtds the hc is using */
} else if ( likely ( ! stopped & &
HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) ) ) {
break ;
} else {
stopped = 1 ;
if ( unlikely ( ! HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) ) )
urb - > status = - ESHUTDOWN ;
/* ignore active urbs unless some previous qtd
* for the urb faulted ( including short read ) or
* its urb was canceled . we may patch qh or qtds .
*/
if ( likely ( urb - > status = = - EINPROGRESS ) )
continue ;
/* issue status after short control reads */
if ( unlikely ( do_status ! = 0 )
& & QTD_PID ( token ) = = 0 /* OUT */ ) {
do_status = 0 ;
continue ;
}
/* token in overlay may be most current */
if ( state = = QH_STATE_IDLE
& & cpu_to_le32 ( qtd - > qtd_dma )
= = qh - > hw_current )
token = le32_to_cpu ( qh - > hw_token ) ;
/* force halt for unlinked or blocked qh, so we'll
* patch the qh later and so that completions can ' t
* activate it while we " know " it ' s stopped .
*/
if ( ( HALT_BIT & qh - > hw_token ) = = 0 ) {
halt :
qh - > hw_token | = HALT_BIT ;
wmb ( ) ;
}
}
/* Remove it from the queue */
qtd_copy_status ( oxu , urb - > complete ?
urb : ( ( struct oxu_murb * ) urb ) - > main ,
qtd - > length , token ) ;
if ( ( usb_pipein ( qtd - > urb - > pipe ) ) & &
( NULL ! = qtd - > transfer_buffer ) )
memcpy ( qtd - > transfer_buffer , qtd - > buffer , qtd - > length ) ;
do_status = ( urb - > status = = - EREMOTEIO )
& & usb_pipecontrol ( urb - > pipe ) ;
if ( stopped & & qtd - > qtd_list . prev ! = & qh - > qtd_list ) {
last = list_entry ( qtd - > qtd_list . prev ,
struct ehci_qtd , qtd_list ) ;
last - > hw_next = qtd - > hw_next ;
}
list_del ( & qtd - > qtd_list ) ;
last = qtd ;
}
/* last urb's completion might still need calling */
if ( likely ( last ! = NULL ) ) {
if ( last - > urb - > complete = = NULL ) {
murb = ( struct oxu_murb * ) last - > urb ;
last - > urb = murb - > main ;
if ( murb - > last ) {
ehci_urb_done ( oxu , last - > urb ) ;
count + + ;
}
oxu_murb_free ( oxu , murb ) ;
} else {
ehci_urb_done ( oxu , last - > urb ) ;
count + + ;
}
oxu_qtd_free ( oxu , last ) ;
}
/* restore original state; caller must unlink or relink */
qh - > qh_state = state ;
/* be sure the hardware's done with the qh before refreshing
* it after fault cleanup , or recovering from silicon wrongly
* overlaying the dummy qtd ( which reduces DMA chatter ) .
*/
if ( stopped ! = 0 | | qh - > hw_qtd_next = = EHCI_LIST_END ) {
switch ( state ) {
case QH_STATE_IDLE :
qh_refresh ( oxu , qh ) ;
break ;
case QH_STATE_LINKED :
/* should be rare for periodic transfers,
* except maybe high bandwidth . . .
*/
2009-02-12 01:11:36 +03:00
if ( ( cpu_to_le32 ( QH_SMASK )
2008-10-23 12:08:07 +04:00
& qh - > hw_info2 ) ! = 0 ) {
intr_deschedule ( oxu , qh ) ;
( void ) qh_schedule ( oxu , qh ) ;
} else
unlink_async ( oxu , qh ) ;
break ;
/* otherwise, unlink already started */
}
}
return count ;
}
/* High bandwidth multiplier, as encoded in highspeed endpoint descriptors */
# define hb_mult(wMaxPacketSize) (1 + (((wMaxPacketSize) >> 11) & 0x03))
/* ... and packet size, for any kind of endpoint descriptor */
# define max_packet(wMaxPacketSize) ((wMaxPacketSize) & 0x07ff)
/* Reverse of qh_urb_transaction: free a list of TDs.
* used for cleanup after errors , before HC sees an URB ' s TDs .
*/
static void qtd_list_free ( struct oxu_hcd * oxu ,
struct urb * urb , struct list_head * qtd_list )
{
struct list_head * entry , * temp ;
list_for_each_safe ( entry , temp , qtd_list ) {
struct ehci_qtd * qtd ;
qtd = list_entry ( entry , struct ehci_qtd , qtd_list ) ;
list_del ( & qtd - > qtd_list ) ;
oxu_qtd_free ( oxu , qtd ) ;
}
}
/* Create a list of filled qtds for this URB; won't link into qh.
*/
static struct list_head * qh_urb_transaction ( struct oxu_hcd * oxu ,
struct urb * urb ,
struct list_head * head ,
gfp_t flags )
{
struct ehci_qtd * qtd , * qtd_prev ;
dma_addr_t buf ;
int len , maxpacket ;
int is_input ;
u32 token ;
void * transfer_buf = NULL ;
int ret ;
/*
* URBs map to sequences of QTDs : one logical transaction
*/
qtd = ehci_qtd_alloc ( oxu ) ;
if ( unlikely ( ! qtd ) )
return NULL ;
list_add_tail ( & qtd - > qtd_list , head ) ;
qtd - > urb = urb ;
token = QTD_STS_ACTIVE ;
token | = ( EHCI_TUNE_CERR < < 10 ) ;
/* for split transactions, SplitXState initialized to zero */
len = urb - > transfer_buffer_length ;
is_input = usb_pipein ( urb - > pipe ) ;
if ( ! urb - > transfer_buffer & & urb - > transfer_buffer_length & & is_input )
urb - > transfer_buffer = phys_to_virt ( urb - > transfer_dma ) ;
if ( usb_pipecontrol ( urb - > pipe ) ) {
/* SETUP pid */
ret = oxu_buf_alloc ( oxu , qtd , sizeof ( struct usb_ctrlrequest ) ) ;
if ( ret )
goto cleanup ;
qtd_fill ( qtd , qtd - > buffer_dma , sizeof ( struct usb_ctrlrequest ) ,
token | ( 2 /* "setup" */ < < 8 ) , 8 ) ;
memcpy ( qtd - > buffer , qtd - > urb - > setup_packet ,
sizeof ( struct usb_ctrlrequest ) ) ;
/* ... and always at least one more pid */
token ^ = QTD_TOGGLE ;
qtd_prev = qtd ;
qtd = ehci_qtd_alloc ( oxu ) ;
if ( unlikely ( ! qtd ) )
goto cleanup ;
qtd - > urb = urb ;
qtd_prev - > hw_next = QTD_NEXT ( qtd - > qtd_dma ) ;
list_add_tail ( & qtd - > qtd_list , head ) ;
/* for zero length DATA stages, STATUS is always IN */
if ( len = = 0 )
token | = ( 1 /* "in" */ < < 8 ) ;
}
/*
* Data transfer stage : buffer setup
*/
ret = oxu_buf_alloc ( oxu , qtd , len ) ;
if ( ret )
goto cleanup ;
buf = qtd - > buffer_dma ;
transfer_buf = urb - > transfer_buffer ;
if ( ! is_input )
memcpy ( qtd - > buffer , qtd - > urb - > transfer_buffer , len ) ;
if ( is_input )
token | = ( 1 /* "in" */ < < 8 ) ;
/* else it's already initted to "out" pid (0 << 8) */
maxpacket = max_packet ( usb_maxpacket ( urb - > dev , urb - > pipe , ! is_input ) ) ;
/*
* buffer gets wrapped in one or more qtds ;
* last one may be " short " ( including zero len )
* and may serve as a control status ack
*/
for ( ; ; ) {
int this_qtd_len ;
this_qtd_len = qtd_fill ( qtd , buf , len , token , maxpacket ) ;
qtd - > transfer_buffer = transfer_buf ;
len - = this_qtd_len ;
buf + = this_qtd_len ;
transfer_buf + = this_qtd_len ;
if ( is_input )
qtd - > hw_alt_next = oxu - > async - > hw_alt_next ;
/* qh makes control packets use qtd toggle; maybe switch it */
if ( ( maxpacket & ( this_qtd_len + ( maxpacket - 1 ) ) ) = = 0 )
token ^ = QTD_TOGGLE ;
if ( likely ( len < = 0 ) )
break ;
qtd_prev = qtd ;
qtd = ehci_qtd_alloc ( oxu ) ;
if ( unlikely ( ! qtd ) )
goto cleanup ;
if ( likely ( len > 0 ) ) {
ret = oxu_buf_alloc ( oxu , qtd , len ) ;
if ( ret )
goto cleanup ;
}
qtd - > urb = urb ;
qtd_prev - > hw_next = QTD_NEXT ( qtd - > qtd_dma ) ;
list_add_tail ( & qtd - > qtd_list , head ) ;
}
/* unless the bulk/interrupt caller wants a chance to clean
* up after short reads , hc should advance qh past this urb
*/
if ( likely ( ( urb - > transfer_flags & URB_SHORT_NOT_OK ) = = 0
| | usb_pipecontrol ( urb - > pipe ) ) )
qtd - > hw_alt_next = EHCI_LIST_END ;
/*
* control requests may need a terminating data " status " ack ;
* bulk ones may need a terminating short packet ( zero length ) .
*/
if ( likely ( urb - > transfer_buffer_length ! = 0 ) ) {
int one_more = 0 ;
if ( usb_pipecontrol ( urb - > pipe ) ) {
one_more = 1 ;
token ^ = 0x0100 ; /* "in" <--> "out" */
token | = QTD_TOGGLE ; /* force DATA1 */
} else if ( usb_pipebulk ( urb - > pipe )
& & ( urb - > transfer_flags & URB_ZERO_PACKET )
& & ! ( urb - > transfer_buffer_length % maxpacket ) ) {
one_more = 1 ;
}
if ( one_more ) {
qtd_prev = qtd ;
qtd = ehci_qtd_alloc ( oxu ) ;
if ( unlikely ( ! qtd ) )
goto cleanup ;
qtd - > urb = urb ;
qtd_prev - > hw_next = QTD_NEXT ( qtd - > qtd_dma ) ;
list_add_tail ( & qtd - > qtd_list , head ) ;
/* never any data in such packets */
qtd_fill ( qtd , 0 , 0 , token , 0 ) ;
}
}
/* by default, enable interrupt on urb completion */
2009-02-12 01:11:36 +03:00
qtd - > hw_token | = cpu_to_le32 ( QTD_IOC ) ;
2008-10-23 12:08:07 +04:00
return head ;
cleanup :
qtd_list_free ( oxu , urb , head ) ;
return NULL ;
}
/* Each QH holds a qtd list; a QH is used for everything except iso.
*
* For interrupt urbs , the scheduler must set the microframe scheduling
* mask ( s ) each time the QH gets scheduled . For highspeed , that ' s
* just one microframe in the s - mask . For split interrupt transactions
* there are additional complications : c - mask , maybe FSTNs .
*/
static struct ehci_qh * qh_make ( struct oxu_hcd * oxu ,
struct urb * urb , gfp_t flags )
{
struct ehci_qh * qh = oxu_qh_alloc ( oxu ) ;
u32 info1 = 0 , info2 = 0 ;
int is_input , type ;
int maxp = 0 ;
if ( ! qh )
return qh ;
/*
* init endpoint / device data for this QH
*/
info1 | = usb_pipeendpoint ( urb - > pipe ) < < 8 ;
info1 | = usb_pipedevice ( urb - > pipe ) < < 0 ;
is_input = usb_pipein ( urb - > pipe ) ;
type = usb_pipetype ( urb - > pipe ) ;
maxp = usb_maxpacket ( urb - > dev , urb - > pipe , ! is_input ) ;
/* Compute interrupt scheduling parameters just once, and save.
* - allowing for high bandwidth , how many nsec / uframe are used ?
* - split transactions need a second CSPLIT uframe ; same question
* - splits also need a schedule gap ( for full / low speed I / O )
* - qh has a polling interval
*
* For control / bulk requests , the HC or TT handles these .
*/
if ( type = = PIPE_INTERRUPT ) {
qh - > usecs = NS_TO_US ( usb_calc_bus_time ( USB_SPEED_HIGH ,
is_input , 0 ,
hb_mult ( maxp ) * max_packet ( maxp ) ) ) ;
qh - > start = NO_FRAME ;
if ( urb - > dev - > speed = = USB_SPEED_HIGH ) {
qh - > c_usecs = 0 ;
qh - > gap_uf = 0 ;
qh - > period = urb - > interval > > 3 ;
if ( qh - > period = = 0 & & urb - > interval ! = 1 ) {
/* NOTE interval 2 or 4 uframes could work.
* But interval 1 scheduling is simpler , and
* includes high bandwidth .
*/
2012-05-02 08:33:43 +04:00
oxu_dbg ( oxu , " intr period %d uframes, NYET! \n " ,
urb - > interval ) ;
2008-10-23 12:08:07 +04:00
goto done ;
}
} else {
struct usb_tt * tt = urb - > dev - > tt ;
int think_time ;
/* gap is f(FS/LS transfer times) */
qh - > gap_uf = 1 + usb_calc_bus_time ( urb - > dev - > speed ,
is_input , 0 , maxp ) / ( 125 * 1000 ) ;
/* FIXME this just approximates SPLIT/CSPLIT times */
if ( is_input ) { /* SPLIT, gap, CSPLIT+DATA */
qh - > c_usecs = qh - > usecs + HS_USECS ( 0 ) ;
qh - > usecs = HS_USECS ( 1 ) ;
} else { /* SPLIT+DATA, gap, CSPLIT */
qh - > usecs + = HS_USECS ( 1 ) ;
qh - > c_usecs = HS_USECS ( 0 ) ;
}
think_time = tt ? tt - > think_time : 0 ;
qh - > tt_usecs = NS_TO_US ( think_time +
usb_calc_bus_time ( urb - > dev - > speed ,
is_input , 0 , max_packet ( maxp ) ) ) ;
qh - > period = urb - > interval ;
}
}
/* support for tt scheduling, and access to toggles */
qh - > dev = urb - > dev ;
/* using TT? */
switch ( urb - > dev - > speed ) {
case USB_SPEED_LOW :
info1 | = ( 1 < < 12 ) ; /* EPS "low" */
/* FALL THROUGH */
case USB_SPEED_FULL :
/* EPS 0 means "full" */
if ( type ! = PIPE_INTERRUPT )
info1 | = ( EHCI_TUNE_RL_TT < < 28 ) ;
if ( type = = PIPE_CONTROL ) {
info1 | = ( 1 < < 27 ) ; /* for TT */
info1 | = 1 < < 14 ; /* toggle from qtd */
}
info1 | = maxp < < 16 ;
info2 | = ( EHCI_TUNE_MULT_TT < < 30 ) ;
info2 | = urb - > dev - > ttport < < 23 ;
/* NOTE: if (PIPE_INTERRUPT) { scheduler sets c-mask } */
break ;
case USB_SPEED_HIGH : /* no TT involved */
info1 | = ( 2 < < 12 ) ; /* EPS "high" */
if ( type = = PIPE_CONTROL ) {
info1 | = ( EHCI_TUNE_RL_HS < < 28 ) ;
info1 | = 64 < < 16 ; /* usb2 fixed maxpacket */
info1 | = 1 < < 14 ; /* toggle from qtd */
info2 | = ( EHCI_TUNE_MULT_HS < < 30 ) ;
} else if ( type = = PIPE_BULK ) {
info1 | = ( EHCI_TUNE_RL_HS < < 28 ) ;
info1 | = 512 < < 16 ; /* usb2 fixed maxpacket */
info2 | = ( EHCI_TUNE_MULT_HS < < 30 ) ;
} else { /* PIPE_INTERRUPT */
info1 | = max_packet ( maxp ) < < 16 ;
info2 | = hb_mult ( maxp ) < < 30 ;
}
break ;
default :
2012-05-02 08:33:43 +04:00
oxu_dbg ( oxu , " bogus dev %p speed %d \n " , urb - > dev , urb - > dev - > speed ) ;
2008-10-23 12:08:07 +04:00
done :
qh_put ( qh ) ;
return NULL ;
}
/* NOTE: if (PIPE_INTERRUPT) { scheduler sets s-mask } */
/* init as live, toggle clear, advance to dummy */
qh - > qh_state = QH_STATE_IDLE ;
qh - > hw_info1 = cpu_to_le32 ( info1 ) ;
qh - > hw_info2 = cpu_to_le32 ( info2 ) ;
usb_settoggle ( urb - > dev , usb_pipeendpoint ( urb - > pipe ) , ! is_input , 1 ) ;
qh_refresh ( oxu , qh ) ;
return qh ;
}
/* Move qh (and its qtds) onto async queue; maybe enable queue.
*/
static void qh_link_async ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
__le32 dma = QH_NEXT ( qh - > qh_dma ) ;
struct ehci_qh * head ;
/* (re)start the async schedule? */
head = oxu - > async ;
timer_action_done ( oxu , TIMER_ASYNC_OFF ) ;
if ( ! head - > qh_next . qh ) {
u32 cmd = readl ( & oxu - > regs - > command ) ;
if ( ! ( cmd & CMD_ASE ) ) {
/* in case a clear of CMD_ASE didn't take yet */
( void ) handshake ( oxu , & oxu - > regs - > status ,
STS_ASS , 0 , 150 ) ;
cmd | = CMD_ASE | CMD_RUN ;
writel ( cmd , & oxu - > regs - > command ) ;
oxu_to_hcd ( oxu ) - > state = HC_STATE_RUNNING ;
/* posted write need not be known to HC yet ... */
}
}
/* clear halt and/or toggle; and maybe recover from silicon quirk */
if ( qh - > qh_state = = QH_STATE_IDLE )
qh_refresh ( oxu , qh ) ;
/* splice right after start */
qh - > qh_next = head - > qh_next ;
qh - > hw_next = head - > hw_next ;
wmb ( ) ;
head - > qh_next . qh = qh ;
head - > hw_next = dma ;
qh - > qh_state = QH_STATE_LINKED ;
/* qtd completions reported later by interrupt */
}
2009-02-12 01:11:36 +03:00
# define QH_ADDR_MASK cpu_to_le32(0x7f)
2008-10-23 12:08:07 +04:00
/*
* For control / bulk / interrupt , return QH with these TDs appended .
* Allocates and initializes the QH if necessary .
* Returns null if it can ' t allocate a QH it needs to .
* If the QH has TDs ( urbs ) already , that ' s great .
*/
static struct ehci_qh * qh_append_tds ( struct oxu_hcd * oxu ,
struct urb * urb , struct list_head * qtd_list ,
int epnum , void * * ptr )
{
struct ehci_qh * qh = NULL ;
qh = ( struct ehci_qh * ) * ptr ;
if ( unlikely ( qh = = NULL ) ) {
/* can't sleep here, we have oxu->lock... */
qh = qh_make ( oxu , urb , GFP_ATOMIC ) ;
* ptr = qh ;
}
if ( likely ( qh ! = NULL ) ) {
struct ehci_qtd * qtd ;
if ( unlikely ( list_empty ( qtd_list ) ) )
qtd = NULL ;
else
qtd = list_entry ( qtd_list - > next , struct ehci_qtd ,
qtd_list ) ;
/* control qh may need patching ... */
if ( unlikely ( epnum = = 0 ) ) {
/* usb_reset_device() briefly reverts to address 0 */
if ( usb_pipedevice ( urb - > pipe ) = = 0 )
qh - > hw_info1 & = ~ QH_ADDR_MASK ;
}
/* just one way to queue requests: swap with the dummy qtd.
* only hc or qh_refresh ( ) ever modify the overlay .
*/
if ( likely ( qtd ! = NULL ) ) {
struct ehci_qtd * dummy ;
dma_addr_t dma ;
__le32 token ;
/* to avoid racing the HC, use the dummy td instead of
* the first td of our list ( becomes new dummy ) . both
* tds stay deactivated until we ' re done , when the
* HC is allowed to fetch the old dummy ( 4.10 .2 ) .
*/
token = qtd - > hw_token ;
qtd - > hw_token = HALT_BIT ;
wmb ( ) ;
dummy = qh - > dummy ;
dma = dummy - > qtd_dma ;
* dummy = * qtd ;
dummy - > qtd_dma = dma ;
list_del ( & qtd - > qtd_list ) ;
list_add ( & dummy - > qtd_list , qtd_list ) ;
list_splice ( qtd_list , qh - > qtd_list . prev ) ;
ehci_qtd_init ( qtd , qtd - > qtd_dma ) ;
qh - > dummy = qtd ;
/* hc must see the new dummy at list end */
dma = qtd - > qtd_dma ;
qtd = list_entry ( qh - > qtd_list . prev ,
struct ehci_qtd , qtd_list ) ;
qtd - > hw_next = QTD_NEXT ( dma ) ;
/* let the hc process these next qtds */
dummy - > hw_token = ( token & ~ ( 0x80 ) ) ;
wmb ( ) ;
dummy - > hw_token = token ;
urb - > hcpriv = qh_get ( qh ) ;
}
}
return qh ;
}
static int submit_async ( struct oxu_hcd * oxu , struct urb * urb ,
struct list_head * qtd_list , gfp_t mem_flags )
{
struct ehci_qtd * qtd ;
int epnum ;
unsigned long flags ;
struct ehci_qh * qh = NULL ;
int rc = 0 ;
qtd = list_entry ( qtd_list - > next , struct ehci_qtd , qtd_list ) ;
epnum = urb - > ep - > desc . bEndpointAddress ;
# ifdef OXU_URB_TRACE
oxu_dbg ( oxu , " %s %s urb %p ep%d%s len %d, qtd %p [qh %p] \n " ,
__func__ , urb - > dev - > devpath , urb ,
epnum & 0x0f , ( epnum & USB_DIR_IN ) ? " in " : " out " ,
urb - > transfer_buffer_length ,
qtd , urb - > ep - > hcpriv ) ;
# endif
spin_lock_irqsave ( & oxu - > lock , flags ) ;
2010-06-23 00:39:10 +04:00
if ( unlikely ( ! HCD_HW_ACCESSIBLE ( oxu_to_hcd ( oxu ) ) ) ) {
2008-10-23 12:08:07 +04:00
rc = - ESHUTDOWN ;
goto done ;
}
qh = qh_append_tds ( oxu , urb , qtd_list , epnum , & urb - > ep - > hcpriv ) ;
if ( unlikely ( qh = = NULL ) ) {
rc = - ENOMEM ;
goto done ;
}
/* Control/bulk operations through TTs don't need scheduling,
* the HC and TT handle it when the TT has a buffer ready .
*/
if ( likely ( qh - > qh_state = = QH_STATE_IDLE ) )
qh_link_async ( oxu , qh_get ( qh ) ) ;
done :
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
if ( unlikely ( qh = = NULL ) )
qtd_list_free ( oxu , urb , qtd_list ) ;
return rc ;
}
/* The async qh for the qtds being reclaimed are now unlinked from the HC */
static void end_unlink_async ( struct oxu_hcd * oxu )
{
struct ehci_qh * qh = oxu - > reclaim ;
struct ehci_qh * next ;
timer_action_done ( oxu , TIMER_IAA_WATCHDOG ) ;
qh - > qh_state = QH_STATE_IDLE ;
qh - > qh_next . qh = NULL ;
qh_put ( qh ) ; /* refcount from reclaim */
/* other unlink(s) may be pending (in QH_STATE_UNLINK_WAIT) */
next = qh - > reclaim ;
oxu - > reclaim = next ;
oxu - > reclaim_ready = 0 ;
qh - > reclaim = NULL ;
qh_completions ( oxu , qh ) ;
if ( ! list_empty ( & qh - > qtd_list )
& & HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) )
qh_link_async ( oxu , qh ) ;
else {
qh_put ( qh ) ; /* refcount from async list */
/* it's not free to turn the async schedule on/off; leave it
* active but idle for a while once it empties .
*/
if ( HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state )
& & oxu - > async - > qh_next . qh = = NULL )
timer_action ( oxu , TIMER_ASYNC_OFF ) ;
}
if ( next ) {
oxu - > reclaim = NULL ;
start_unlink_async ( oxu , next ) ;
}
}
/* makes sure the async qh will become idle */
/* caller must own oxu->lock */
static void start_unlink_async ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
int cmd = readl ( & oxu - > regs - > command ) ;
struct ehci_qh * prev ;
# ifdef DEBUG
assert_spin_locked ( & oxu - > lock ) ;
if ( oxu - > reclaim | | ( qh - > qh_state ! = QH_STATE_LINKED
& & qh - > qh_state ! = QH_STATE_UNLINK_WAIT ) )
BUG ( ) ;
# endif
/* stop async schedule right now? */
if ( unlikely ( qh = = oxu - > async ) ) {
/* can't get here without STS_ASS set */
if ( oxu_to_hcd ( oxu ) - > state ! = HC_STATE_HALT
& & ! oxu - > reclaim ) {
/* ... and CMD_IAAD clear */
writel ( cmd & ~ CMD_ASE , & oxu - > regs - > command ) ;
wmb ( ) ;
/* handshake later, if we need to */
timer_action_done ( oxu , TIMER_ASYNC_OFF ) ;
}
return ;
}
qh - > qh_state = QH_STATE_UNLINK ;
oxu - > reclaim = qh = qh_get ( qh ) ;
prev = oxu - > async ;
while ( prev - > qh_next . qh ! = qh )
prev = prev - > qh_next . qh ;
prev - > hw_next = qh - > hw_next ;
prev - > qh_next = qh - > qh_next ;
wmb ( ) ;
if ( unlikely ( oxu_to_hcd ( oxu ) - > state = = HC_STATE_HALT ) ) {
/* if (unlikely(qh->reclaim != 0))
* this will recurse , probably not much
*/
end_unlink_async ( oxu ) ;
return ;
}
oxu - > reclaim_ready = 0 ;
cmd | = CMD_IAAD ;
writel ( cmd , & oxu - > regs - > command ) ;
( void ) readl ( & oxu - > regs - > command ) ;
timer_action ( oxu , TIMER_IAA_WATCHDOG ) ;
}
static void scan_async ( struct oxu_hcd * oxu )
{
struct ehci_qh * qh ;
enum ehci_timer_action action = TIMER_IO_WATCHDOG ;
if ( ! + + ( oxu - > stamp ) )
oxu - > stamp + + ;
timer_action_done ( oxu , TIMER_ASYNC_SHRINK ) ;
rescan :
qh = oxu - > async - > qh_next . qh ;
if ( likely ( qh ! = NULL ) ) {
do {
/* clean any finished work for this qh */
if ( ! list_empty ( & qh - > qtd_list )
& & qh - > stamp ! = oxu - > stamp ) {
int temp ;
/* unlinks could happen here; completion
* reporting drops the lock . rescan using
* the latest schedule , but don ' t rescan
* qhs we already finished ( no looping ) .
*/
qh = qh_get ( qh ) ;
qh - > stamp = oxu - > stamp ;
temp = qh_completions ( oxu , qh ) ;
qh_put ( qh ) ;
if ( temp ! = 0 )
goto rescan ;
}
/* unlink idle entries, reducing HC PCI usage as well
* as HCD schedule - scanning costs . delay for any qh
* we just scanned , there ' s a not - unusual case that it
* doesn ' t stay idle for long .
* ( plus , avoids some kind of re - activation race . )
*/
if ( list_empty ( & qh - > qtd_list ) ) {
if ( qh - > stamp = = oxu - > stamp )
action = TIMER_ASYNC_SHRINK ;
else if ( ! oxu - > reclaim
& & qh - > qh_state = = QH_STATE_LINKED )
start_unlink_async ( oxu , qh ) ;
}
qh = qh - > qh_next . qh ;
} while ( qh ) ;
}
if ( action = = TIMER_ASYNC_SHRINK )
timer_action ( oxu , TIMER_ASYNC_SHRINK ) ;
}
/*
* periodic_next_shadow - return " next " pointer on shadow list
* @ periodic : host pointer to qh / itd / sitd
* @ tag : hardware tag for type of this record
*/
static union ehci_shadow * periodic_next_shadow ( union ehci_shadow * periodic ,
__le32 tag )
{
switch ( tag ) {
default :
case Q_TYPE_QH :
return & periodic - > qh - > qh_next ;
}
}
/* caller must hold oxu->lock */
static void periodic_unlink ( struct oxu_hcd * oxu , unsigned frame , void * ptr )
{
union ehci_shadow * prev_p = & oxu - > pshadow [ frame ] ;
__le32 * hw_p = & oxu - > periodic [ frame ] ;
union ehci_shadow here = * prev_p ;
/* find predecessor of "ptr"; hw and shadow lists are in sync */
while ( here . ptr & & here . ptr ! = ptr ) {
prev_p = periodic_next_shadow ( prev_p , Q_NEXT_TYPE ( * hw_p ) ) ;
hw_p = here . hw_next ;
here = * prev_p ;
}
/* an interrupt entry (at list end) could have been shared */
if ( ! here . ptr )
return ;
/* update shadow and hardware lists ... the old "next" pointers
* from ptr may still be in use , the caller updates them .
*/
* prev_p = * periodic_next_shadow ( & here , Q_NEXT_TYPE ( * hw_p ) ) ;
* hw_p = * here . hw_next ;
}
/* how many of the uframe's 125 usecs are allocated? */
static unsigned short periodic_usecs ( struct oxu_hcd * oxu ,
unsigned frame , unsigned uframe )
{
__le32 * hw_p = & oxu - > periodic [ frame ] ;
union ehci_shadow * q = & oxu - > pshadow [ frame ] ;
unsigned usecs = 0 ;
while ( q - > ptr ) {
switch ( Q_NEXT_TYPE ( * hw_p ) ) {
case Q_TYPE_QH :
default :
/* is it in the S-mask? */
if ( q - > qh - > hw_info2 & cpu_to_le32 ( 1 < < uframe ) )
usecs + = q - > qh - > usecs ;
/* ... or C-mask? */
if ( q - > qh - > hw_info2 & cpu_to_le32 ( 1 < < ( 8 + uframe ) ) )
usecs + = q - > qh - > c_usecs ;
hw_p = & q - > qh - > hw_next ;
q = & q - > qh - > qh_next ;
break ;
}
}
# ifdef DEBUG
if ( usecs > 100 )
oxu_err ( oxu , " uframe %d sched overrun: %d usecs \n " ,
frame * 8 + uframe , usecs ) ;
# endif
return usecs ;
}
static int enable_periodic ( struct oxu_hcd * oxu )
{
u32 cmd ;
int status ;
/* did clearing PSE did take effect yet?
* takes effect only at frame boundaries . . .
*/
status = handshake ( oxu , & oxu - > regs - > status , STS_PSS , 0 , 9 * 125 ) ;
if ( status ! = 0 ) {
oxu_to_hcd ( oxu ) - > state = HC_STATE_HALT ;
2011-05-18 01:27:12 +04:00
usb_hc_died ( oxu_to_hcd ( oxu ) ) ;
2008-10-23 12:08:07 +04:00
return status ;
}
cmd = readl ( & oxu - > regs - > command ) | CMD_PSE ;
writel ( cmd , & oxu - > regs - > command ) ;
/* posted write ... PSS happens later */
oxu_to_hcd ( oxu ) - > state = HC_STATE_RUNNING ;
/* make sure ehci_work scans these */
oxu - > next_uframe = readl ( & oxu - > regs - > frame_index )
% ( oxu - > periodic_size < < 3 ) ;
return 0 ;
}
static int disable_periodic ( struct oxu_hcd * oxu )
{
u32 cmd ;
int status ;
/* did setting PSE not take effect yet?
* takes effect only at frame boundaries . . .
*/
status = handshake ( oxu , & oxu - > regs - > status , STS_PSS , STS_PSS , 9 * 125 ) ;
if ( status ! = 0 ) {
oxu_to_hcd ( oxu ) - > state = HC_STATE_HALT ;
2011-05-18 01:27:12 +04:00
usb_hc_died ( oxu_to_hcd ( oxu ) ) ;
2008-10-23 12:08:07 +04:00
return status ;
}
cmd = readl ( & oxu - > regs - > command ) & ~ CMD_PSE ;
writel ( cmd , & oxu - > regs - > command ) ;
/* posted write ... */
oxu - > next_uframe = - 1 ;
return 0 ;
}
/* periodic schedule slots have iso tds (normal or split) first, then a
* sparse tree for active interrupt transfers .
*
* this just links in a qh ; caller guarantees uframe masks are set right .
* no FSTN support ( yet ; oxu 0.96 + )
*/
static int qh_link_periodic ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
unsigned i ;
unsigned period = qh - > period ;
dev_dbg ( & qh - > dev - > dev ,
" link qh%d-%04x/%p start %d [%d/%d us] \n " ,
period , le32_to_cpup ( & qh - > hw_info2 ) & ( QH_CMASK | QH_SMASK ) ,
qh , qh - > start , qh - > usecs , qh - > c_usecs ) ;
/* high bandwidth, or otherwise every microframe */
if ( period = = 0 )
period = 1 ;
for ( i = qh - > start ; i < oxu - > periodic_size ; i + = period ) {
union ehci_shadow * prev = & oxu - > pshadow [ i ] ;
__le32 * hw_p = & oxu - > periodic [ i ] ;
union ehci_shadow here = * prev ;
__le32 type = 0 ;
/* skip the iso nodes at list head */
while ( here . ptr ) {
type = Q_NEXT_TYPE ( * hw_p ) ;
if ( type = = Q_TYPE_QH )
break ;
prev = periodic_next_shadow ( prev , type ) ;
hw_p = & here . qh - > hw_next ;
here = * prev ;
}
/* sorting each branch by period (slow-->fast)
* enables sharing interior tree nodes
*/
while ( here . ptr & & qh ! = here . qh ) {
if ( qh - > period > here . qh - > period )
break ;
prev = & here . qh - > qh_next ;
hw_p = & here . qh - > hw_next ;
here = * prev ;
}
/* link in this qh, unless some earlier pass did that */
if ( qh ! = here . qh ) {
qh - > qh_next = here ;
if ( here . qh )
qh - > hw_next = * hw_p ;
wmb ( ) ;
prev - > qh = qh ;
* hw_p = QH_NEXT ( qh - > qh_dma ) ;
}
}
qh - > qh_state = QH_STATE_LINKED ;
qh_get ( qh ) ;
/* update per-qh bandwidth for usbfs */
oxu_to_hcd ( oxu ) - > self . bandwidth_allocated + = qh - > period
? ( ( qh - > usecs + qh - > c_usecs ) / qh - > period )
: ( qh - > usecs * 8 ) ;
/* maybe enable periodic schedule processing */
if ( ! oxu - > periodic_sched + + )
return enable_periodic ( oxu ) ;
return 0 ;
}
static void qh_unlink_periodic ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
unsigned i ;
unsigned period ;
/* FIXME:
* IF this isn ' t high speed
* and this qh is active in the current uframe
* ( and overlay token SplitXstate is false ? )
* THEN
2009-02-12 01:11:36 +03:00
* qh - > hw_info1 | = cpu_to_le32 ( 1 < < 7 " ignore " ) ;
2008-10-23 12:08:07 +04:00
*/
/* high bandwidth, or otherwise part of every microframe */
period = qh - > period ;
if ( period = = 0 )
period = 1 ;
for ( i = qh - > start ; i < oxu - > periodic_size ; i + = period )
periodic_unlink ( oxu , i , qh ) ;
/* update per-qh bandwidth for usbfs */
oxu_to_hcd ( oxu ) - > self . bandwidth_allocated - = qh - > period
? ( ( qh - > usecs + qh - > c_usecs ) / qh - > period )
: ( qh - > usecs * 8 ) ;
dev_dbg ( & qh - > dev - > dev ,
" unlink qh%d-%04x/%p start %d [%d/%d us] \n " ,
qh - > period ,
le32_to_cpup ( & qh - > hw_info2 ) & ( QH_CMASK | QH_SMASK ) ,
qh , qh - > start , qh - > usecs , qh - > c_usecs ) ;
/* qh->qh_next still "live" to HC */
qh - > qh_state = QH_STATE_UNLINK ;
qh - > qh_next . ptr = NULL ;
qh_put ( qh ) ;
/* maybe turn off periodic schedule */
oxu - > periodic_sched - - ;
if ( ! oxu - > periodic_sched )
( void ) disable_periodic ( oxu ) ;
}
static void intr_deschedule ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
unsigned wait ;
qh_unlink_periodic ( oxu , qh ) ;
/* simple/paranoid: always delay, expecting the HC needs to read
* qh - > hw_next or finish a writeback after SPLIT / CSPLIT . . . and
2014-09-19 19:32:23 +04:00
* expect hub_wq to clean up after any CSPLITs we won ' t issue .
2008-10-23 12:08:07 +04:00
* active high speed queues may need bigger delays . . .
*/
if ( list_empty ( & qh - > qtd_list )
2009-02-12 01:11:36 +03:00
| | ( cpu_to_le32 ( QH_CMASK ) & qh - > hw_info2 ) ! = 0 )
2008-10-23 12:08:07 +04:00
wait = 2 ;
else
wait = 55 ; /* worst case: 3 * 1024 */
udelay ( wait ) ;
qh - > qh_state = QH_STATE_IDLE ;
qh - > hw_next = EHCI_LIST_END ;
wmb ( ) ;
}
static int check_period ( struct oxu_hcd * oxu ,
unsigned frame , unsigned uframe ,
unsigned period , unsigned usecs )
{
int claimed ;
/* complete split running into next frame?
* given FSTN support , we could sometimes check . . .
*/
if ( uframe > = 8 )
return 0 ;
/*
* 80 % periodic = = 100 usec / uframe available
* convert " usecs we need " to " max already claimed "
*/
usecs = 100 - usecs ;
/* we "know" 2 and 4 uframe intervals were rejected; so
* for period 0 , check _every_ microframe in the schedule .
*/
if ( unlikely ( period = = 0 ) ) {
do {
for ( uframe = 0 ; uframe < 7 ; uframe + + ) {
claimed = periodic_usecs ( oxu , frame , uframe ) ;
if ( claimed > usecs )
return 0 ;
}
} while ( ( frame + = 1 ) < oxu - > periodic_size ) ;
/* just check the specified uframe, at that period */
} else {
do {
claimed = periodic_usecs ( oxu , frame , uframe ) ;
if ( claimed > usecs )
return 0 ;
} while ( ( frame + = period ) < oxu - > periodic_size ) ;
}
return 1 ;
}
static int check_intr_schedule ( struct oxu_hcd * oxu ,
unsigned frame , unsigned uframe ,
const struct ehci_qh * qh , __le32 * c_maskp )
{
int retval = - ENOSPC ;
if ( qh - > c_usecs & & uframe > = 6 ) /* FSTN territory? */
goto done ;
if ( ! check_period ( oxu , frame , uframe , qh - > period , qh - > usecs ) )
goto done ;
if ( ! qh - > c_usecs ) {
retval = 0 ;
* c_maskp = 0 ;
goto done ;
}
done :
return retval ;
}
/* "first fit" scheduling policy used the first time through,
* or when the previous schedule slot can ' t be re - used .
*/
static int qh_schedule ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
int status ;
unsigned uframe ;
__le32 c_mask ;
unsigned frame ; /* 0..(qh->period - 1), or NO_FRAME */
qh_refresh ( oxu , qh ) ;
qh - > hw_next = EHCI_LIST_END ;
frame = qh - > start ;
/* reuse the previous schedule slots, if we can */
if ( frame < qh - > period ) {
uframe = ffs ( le32_to_cpup ( & qh - > hw_info2 ) & QH_SMASK ) ;
status = check_intr_schedule ( oxu , frame , - - uframe ,
qh , & c_mask ) ;
} else {
uframe = 0 ;
c_mask = 0 ;
status = - ENOSPC ;
}
/* else scan the schedule to find a group of slots such that all
* uframes have enough periodic bandwidth available .
*/
if ( status ) {
/* "normal" case, uframing flexible except with splits */
if ( qh - > period ) {
frame = qh - > period - 1 ;
do {
for ( uframe = 0 ; uframe < 8 ; uframe + + ) {
status = check_intr_schedule ( oxu ,
frame , uframe , qh ,
& c_mask ) ;
if ( status = = 0 )
break ;
}
} while ( status & & frame - - ) ;
/* qh->period == 0 means every uframe */
} else {
frame = 0 ;
status = check_intr_schedule ( oxu , 0 , 0 , qh , & c_mask ) ;
}
if ( status )
goto done ;
qh - > start = frame ;
/* reset S-frame and (maybe) C-frame masks */
2009-02-12 01:11:36 +03:00
qh - > hw_info2 & = cpu_to_le32 ( ~ ( QH_CMASK | QH_SMASK ) ) ;
2008-10-23 12:08:07 +04:00
qh - > hw_info2 | = qh - > period
? cpu_to_le32 ( 1 < < uframe )
2009-02-12 01:11:36 +03:00
: cpu_to_le32 ( QH_SMASK ) ;
2008-10-23 12:08:07 +04:00
qh - > hw_info2 | = c_mask ;
} else
oxu_dbg ( oxu , " reused qh %p schedule \n " , qh ) ;
/* stuff into the periodic schedule */
status = qh_link_periodic ( oxu , qh ) ;
done :
return status ;
}
static int intr_submit ( struct oxu_hcd * oxu , struct urb * urb ,
struct list_head * qtd_list , gfp_t mem_flags )
{
unsigned epnum ;
unsigned long flags ;
struct ehci_qh * qh ;
int status = 0 ;
struct list_head empty ;
/* get endpoint and transfer/schedule data */
epnum = urb - > ep - > desc . bEndpointAddress ;
spin_lock_irqsave ( & oxu - > lock , flags ) ;
2010-06-23 00:39:10 +04:00
if ( unlikely ( ! HCD_HW_ACCESSIBLE ( oxu_to_hcd ( oxu ) ) ) ) {
2008-10-23 12:08:07 +04:00
status = - ESHUTDOWN ;
goto done ;
}
/* get qh and force any scheduling errors */
INIT_LIST_HEAD ( & empty ) ;
qh = qh_append_tds ( oxu , urb , & empty , epnum , & urb - > ep - > hcpriv ) ;
if ( qh = = NULL ) {
status = - ENOMEM ;
goto done ;
}
if ( qh - > qh_state = = QH_STATE_IDLE ) {
status = qh_schedule ( oxu , qh ) ;
if ( status ! = 0 )
goto done ;
}
/* then queue the urb's tds to the qh */
qh = qh_append_tds ( oxu , urb , qtd_list , epnum , & urb - > ep - > hcpriv ) ;
BUG_ON ( qh = = NULL ) ;
/* ... update usbfs periodic stats */
oxu_to_hcd ( oxu ) - > self . bandwidth_int_reqs + + ;
done :
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
if ( status )
qtd_list_free ( oxu , urb , qtd_list ) ;
return status ;
}
static inline int itd_submit ( struct oxu_hcd * oxu , struct urb * urb ,
gfp_t mem_flags )
{
oxu_dbg ( oxu , " iso support is missing! \n " ) ;
return - ENOSYS ;
}
static inline int sitd_submit ( struct oxu_hcd * oxu , struct urb * urb ,
gfp_t mem_flags )
{
oxu_dbg ( oxu , " split iso support is missing! \n " ) ;
return - ENOSYS ;
}
static void scan_periodic ( struct oxu_hcd * oxu )
{
unsigned frame , clock , now_uframe , mod ;
unsigned modified ;
mod = oxu - > periodic_size < < 3 ;
/*
* When running , scan from last scan point up to " now "
* else clean up by scanning everything that ' s left .
* Touches as few pages as possible : cache - friendly .
*/
now_uframe = oxu - > next_uframe ;
if ( HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) )
clock = readl ( & oxu - > regs - > frame_index ) ;
else
clock = now_uframe + mod - 1 ;
clock % = mod ;
for ( ; ; ) {
union ehci_shadow q , * q_p ;
__le32 type , * hw_p ;
unsigned uframes ;
/* don't scan past the live uframe */
frame = now_uframe > > 3 ;
if ( frame = = ( clock > > 3 ) )
uframes = now_uframe & 0x07 ;
else {
/* safe to scan the whole frame at once */
now_uframe | = 0x07 ;
uframes = 8 ;
}
restart :
/* scan each element in frame's queue for completions */
q_p = & oxu - > pshadow [ frame ] ;
hw_p = & oxu - > periodic [ frame ] ;
q . ptr = q_p - > ptr ;
type = Q_NEXT_TYPE ( * hw_p ) ;
modified = 0 ;
while ( q . ptr ! = NULL ) {
union ehci_shadow temp ;
int live ;
live = HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) ;
switch ( type ) {
case Q_TYPE_QH :
/* handle any completions */
temp . qh = qh_get ( q . qh ) ;
type = Q_NEXT_TYPE ( q . qh - > hw_next ) ;
q = q . qh - > qh_next ;
modified = qh_completions ( oxu , temp . qh ) ;
if ( unlikely ( list_empty ( & temp . qh - > qtd_list ) ) )
intr_deschedule ( oxu , temp . qh ) ;
qh_put ( temp . qh ) ;
break ;
default :
2012-05-02 08:33:43 +04:00
oxu_dbg ( oxu , " corrupt type %d frame %d shadow %p \n " ,
2008-10-23 12:08:07 +04:00
type , frame , q . ptr ) ;
q . ptr = NULL ;
}
/* assume completion callbacks modify the queue */
if ( unlikely ( modified ) )
goto restart ;
}
/* Stop when we catch up to the HC */
/* FIXME: this assumes we won't get lapped when
* latencies climb ; that should be rare , but . . .
* detect it , and just go all the way around .
* FLR might help detect this case , so long as latencies
* don ' t exceed periodic_size msec ( default 1.024 sec ) .
*/
/* FIXME: likewise assumes HC doesn't halt mid-scan */
if ( now_uframe = = clock ) {
unsigned now ;
if ( ! HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) )
break ;
oxu - > next_uframe = now_uframe ;
now = readl ( & oxu - > regs - > frame_index ) % mod ;
if ( now_uframe = = now )
break ;
/* rescan the rest of this frame, then ... */
clock = now ;
} else {
now_uframe + + ;
now_uframe % = mod ;
}
}
}
/* On some systems, leaving remote wakeup enabled prevents system shutdown.
* The firmware seems to think that powering off is a wakeup event !
* This routine turns off remote wakeup and everything else , on all ports .
*/
static void ehci_turn_off_all_ports ( struct oxu_hcd * oxu )
{
int port = HCS_N_PORTS ( oxu - > hcs_params ) ;
while ( port - - )
writel ( PORT_RWC_BITS , & oxu - > regs - > port_status [ port ] ) ;
}
static void ehci_port_power ( struct oxu_hcd * oxu , int is_on )
{
unsigned port ;
if ( ! HCS_PPC ( oxu - > hcs_params ) )
return ;
oxu_dbg ( oxu , " ...power%s ports... \n " , is_on ? " up " : " down " ) ;
for ( port = HCS_N_PORTS ( oxu - > hcs_params ) ; port > 0 ; )
( void ) oxu_hub_control ( oxu_to_hcd ( oxu ) ,
is_on ? SetPortFeature : ClearPortFeature ,
USB_PORT_FEAT_POWER ,
port - - , NULL , 0 ) ;
msleep ( 20 ) ;
}
/* Called from some interrupts, timers, and so on.
* It calls driver completion functions , after dropping oxu - > lock .
*/
static void ehci_work ( struct oxu_hcd * oxu )
{
timer_action_done ( oxu , TIMER_IO_WATCHDOG ) ;
if ( oxu - > reclaim_ready )
end_unlink_async ( oxu ) ;
/* another CPU may drop oxu->lock during a schedule scan while
* it reports urb completions . this flag guards against bogus
* attempts at re - entrant schedule scanning .
*/
if ( oxu - > scanning )
return ;
oxu - > scanning = 1 ;
scan_async ( oxu ) ;
if ( oxu - > next_uframe ! = - 1 )
scan_periodic ( oxu ) ;
oxu - > scanning = 0 ;
/* the IO watchdog guards against hardware or driver bugs that
* misplace IRQs , and should let us run completely without IRQs .
* such lossage has been observed on both VT6202 and VT8235 .
*/
if ( HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) & &
( oxu - > async - > qh_next . ptr ! = NULL | |
oxu - > periodic_sched ! = 0 ) )
timer_action ( oxu , TIMER_IO_WATCHDOG ) ;
}
static void unlink_async ( struct oxu_hcd * oxu , struct ehci_qh * qh )
{
/* if we need to use IAA and it's busy, defer */
if ( qh - > qh_state = = QH_STATE_LINKED
& & oxu - > reclaim
& & HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) ) {
struct ehci_qh * last ;
for ( last = oxu - > reclaim ;
last - > reclaim ;
last = last - > reclaim )
continue ;
qh - > qh_state = QH_STATE_UNLINK_WAIT ;
last - > reclaim = qh ;
/* bypass IAA if the hc can't care */
} else if ( ! HC_IS_RUNNING ( oxu_to_hcd ( oxu ) - > state ) & & oxu - > reclaim )
end_unlink_async ( oxu ) ;
/* something else might have unlinked the qh by now */
if ( qh - > qh_state = = QH_STATE_LINKED )
start_unlink_async ( oxu , qh ) ;
}
/*
* USB host controller methods
*/
static irqreturn_t oxu210_hcd_irq ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
u32 status , pcd_status = 0 ;
int bh ;
spin_lock ( & oxu - > lock ) ;
status = readl ( & oxu - > regs - > status ) ;
/* e.g. cardbus physical eject */
if ( status = = ~ ( u32 ) 0 ) {
oxu_dbg ( oxu , " device removed \n " ) ;
goto dead ;
}
2011-05-18 01:27:12 +04:00
/* Shared IRQ? */
2008-10-23 12:08:07 +04:00
status & = INTR_MASK ;
2011-05-18 01:27:12 +04:00
if ( ! status | | unlikely ( hcd - > state = = HC_STATE_HALT ) ) {
2008-10-23 12:08:07 +04:00
spin_unlock ( & oxu - > lock ) ;
return IRQ_NONE ;
}
/* clear (just) interrupts */
writel ( status , & oxu - > regs - > status ) ;
readl ( & oxu - > regs - > command ) ; /* unblock posted write */
bh = 0 ;
# ifdef OXU_VERBOSE_DEBUG
/* unrequested/ignored: Frame List Rollover */
dbg_status ( oxu , " irq " , status ) ;
# endif
/* INT, ERR, and IAA interrupt rates can be throttled */
/* normal [4.15.1.2] or error [4.15.1.1] completion */
if ( likely ( ( status & ( STS_INT | STS_ERR ) ) ! = 0 ) )
bh = 1 ;
/* complete the unlinking of some qh [4.15.2.3] */
if ( status & STS_IAA ) {
oxu - > reclaim_ready = 1 ;
bh = 1 ;
}
/* remote wakeup [4.3.1] */
if ( status & STS_PCD ) {
unsigned i = HCS_N_PORTS ( oxu - > hcs_params ) ;
pcd_status = status ;
/* resume root hub? */
if ( ! ( readl ( & oxu - > regs - > command ) & CMD_RUN ) )
usb_hcd_resume_root_hub ( hcd ) ;
while ( i - - ) {
int pstatus = readl ( & oxu - > regs - > port_status [ i ] ) ;
if ( pstatus & PORT_OWNER )
continue ;
if ( ! ( pstatus & PORT_RESUME )
| | oxu - > reset_done [ i ] ! = 0 )
continue ;
/* start 20 msec resume signaling from this port,
2014-09-19 19:32:23 +04:00
* and make hub_wq collect PORT_STAT_C_SUSPEND to
2008-10-23 12:08:07 +04:00
* stop that signaling .
*/
oxu - > reset_done [ i ] = jiffies + msecs_to_jiffies ( 20 ) ;
oxu_dbg ( oxu , " port %d remote wakeup \n " , i + 1 ) ;
mod_timer ( & hcd - > rh_timer , oxu - > reset_done [ i ] ) ;
}
}
/* PCI errors [4.15.2.4] */
if ( unlikely ( ( status & STS_FATAL ) ! = 0 ) ) {
/* bogus "fatal" IRQs appear on some chips... why? */
status = readl ( & oxu - > regs - > status ) ;
dbg_cmd ( oxu , " fatal " , readl ( & oxu - > regs - > command ) ) ;
dbg_status ( oxu , " fatal " , status ) ;
if ( status & STS_HALT ) {
oxu_err ( oxu , " fatal error \n " ) ;
dead :
ehci_reset ( oxu ) ;
writel ( 0 , & oxu - > regs - > configured_flag ) ;
2011-05-18 01:27:12 +04:00
usb_hc_died ( hcd ) ;
2008-10-23 12:08:07 +04:00
/* generic layer kills/unlinks all urbs, then
* uses oxu_stop to clean up the rest
*/
bh = 1 ;
}
}
if ( bh )
ehci_work ( oxu ) ;
spin_unlock ( & oxu - > lock ) ;
if ( pcd_status & STS_PCD )
usb_hcd_poll_rh_status ( hcd ) ;
return IRQ_HANDLED ;
}
static irqreturn_t oxu_irq ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
int ret = IRQ_HANDLED ;
u32 status = oxu_readl ( hcd - > regs , OXU_CHIPIRQSTATUS ) ;
u32 enable = oxu_readl ( hcd - > regs , OXU_CHIPIRQEN_SET ) ;
/* Disable all interrupt */
oxu_writel ( hcd - > regs , OXU_CHIPIRQEN_CLR , enable ) ;
if ( ( oxu - > is_otg & & ( status & OXU_USBOTGI ) ) | |
( ! oxu - > is_otg & & ( status & OXU_USBSPHI ) ) )
oxu210_hcd_irq ( hcd ) ;
else
ret = IRQ_NONE ;
/* Enable all interrupt back */
oxu_writel ( hcd - > regs , OXU_CHIPIRQEN_SET , enable ) ;
return ret ;
}
static void oxu_watchdog ( unsigned long param )
{
struct oxu_hcd * oxu = ( struct oxu_hcd * ) param ;
unsigned long flags ;
spin_lock_irqsave ( & oxu - > lock , flags ) ;
/* lost IAA irqs wedge things badly; seen with a vt8235 */
if ( oxu - > reclaim ) {
u32 status = readl ( & oxu - > regs - > status ) ;
if ( status & STS_IAA ) {
oxu_vdbg ( oxu , " lost IAA \n " ) ;
writel ( STS_IAA , & oxu - > regs - > status ) ;
oxu - > reclaim_ready = 1 ;
}
}
/* stop async processing after it's idled a bit */
if ( test_bit ( TIMER_ASYNC_OFF , & oxu - > actions ) )
start_unlink_async ( oxu , oxu - > async ) ;
/* oxu could run by timer, without IRQs ... */
ehci_work ( oxu ) ;
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
}
/* One-time init, only for memory state.
*/
static int oxu_hcd_init ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
u32 temp ;
int retval ;
u32 hcc_params ;
spin_lock_init ( & oxu - > lock ) ;
2014-12-26 17:35:53 +03:00
setup_timer ( & oxu - > watchdog , oxu_watchdog , ( unsigned long ) oxu ) ;
2008-10-23 12:08:07 +04:00
/*
* hw default : 1 K periodic list heads , one per frame .
* periodic_size can shrink by USBCMD update if hcc_params allows .
*/
oxu - > periodic_size = DEFAULT_I_TDPS ;
retval = ehci_mem_init ( oxu , GFP_KERNEL ) ;
if ( retval < 0 )
return retval ;
/* controllers may cache some of the periodic schedule ... */
hcc_params = readl ( & oxu - > caps - > hcc_params ) ;
if ( HCC_ISOC_CACHE ( hcc_params ) ) /* full frame cache */
oxu - > i_thresh = 8 ;
else /* N microframes cached */
oxu - > i_thresh = 2 + HCC_ISOC_THRES ( hcc_params ) ;
oxu - > reclaim = NULL ;
oxu - > reclaim_ready = 0 ;
oxu - > next_uframe = - 1 ;
/*
* dedicate a qh for the async ring head , since we couldn ' t unlink
* a ' real ' qh without stopping the async schedule [ 4.8 ] . use it
* as the ' reclamation list head ' too .
* its dummy is used in hw_alt_next of many tds , to prevent the qh
* from automatically advancing to the next td after short reads .
*/
oxu - > async - > qh_next . qh = NULL ;
oxu - > async - > hw_next = QH_NEXT ( oxu - > async - > qh_dma ) ;
oxu - > async - > hw_info1 = cpu_to_le32 ( QH_HEAD ) ;
oxu - > async - > hw_token = cpu_to_le32 ( QTD_STS_HALT ) ;
oxu - > async - > hw_qtd_next = EHCI_LIST_END ;
oxu - > async - > qh_state = QH_STATE_LINKED ;
oxu - > async - > hw_alt_next = QTD_NEXT ( oxu - > async - > dummy - > qtd_dma ) ;
/* clear interrupt enables, set irq latency */
if ( log2_irq_thresh < 0 | | log2_irq_thresh > 6 )
log2_irq_thresh = 0 ;
temp = 1 < < ( 16 + log2_irq_thresh ) ;
if ( HCC_CANPARK ( hcc_params ) ) {
/* HW default park == 3, on hardware that supports it (like
* NVidia and ALI silicon ) , maximizes throughput on the async
* schedule by avoiding QH fetches between transfers .
*
* With fast usb storage devices and NForce2 , " park " seems to
* make problems : throughput reduction ( ! ) , data errors . . .
*/
if ( park ) {
park = min ( park , ( unsigned ) 3 ) ;
temp | = CMD_PARK ;
temp | = park < < 8 ;
}
oxu_dbg ( oxu , " park %d \n " , park ) ;
}
if ( HCC_PGM_FRAMELISTLEN ( hcc_params ) ) {
/* periodic schedule size can be smaller than default */
temp & = ~ ( 3 < < 2 ) ;
temp | = ( EHCI_TUNE_FLS < < 2 ) ;
}
oxu - > command = temp ;
return 0 ;
}
/* Called during probe() after chip reset completes.
*/
static int oxu_reset ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
int ret ;
spin_lock_init ( & oxu - > mem_lock ) ;
INIT_LIST_HEAD ( & oxu - > urb_list ) ;
oxu - > urb_len = 0 ;
/* FIMXE */
2009-02-27 04:04:31 +03:00
hcd - > self . controller - > dma_mask = NULL ;
2008-10-23 12:08:07 +04:00
if ( oxu - > is_otg ) {
oxu - > caps = hcd - > regs + OXU_OTG_CAP_OFFSET ;
oxu - > regs = hcd - > regs + OXU_OTG_CAP_OFFSET + \
HC_LENGTH ( readl ( & oxu - > caps - > hc_capbase ) ) ;
oxu - > mem = hcd - > regs + OXU_SPH_MEM ;
} else {
oxu - > caps = hcd - > regs + OXU_SPH_CAP_OFFSET ;
oxu - > regs = hcd - > regs + OXU_SPH_CAP_OFFSET + \
HC_LENGTH ( readl ( & oxu - > caps - > hc_capbase ) ) ;
oxu - > mem = hcd - > regs + OXU_OTG_MEM ;
}
oxu - > hcs_params = readl ( & oxu - > caps - > hcs_params ) ;
oxu - > sbrn = 0x20 ;
ret = oxu_hcd_init ( hcd ) ;
if ( ret )
return ret ;
return 0 ;
}
static int oxu_run ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
int retval ;
u32 temp , hcc_params ;
hcd - > uses_new_polling = 1 ;
/* EHCI spec section 4.1 */
retval = ehci_reset ( oxu ) ;
if ( retval ! = 0 ) {
ehci_mem_cleanup ( oxu ) ;
return retval ;
}
writel ( oxu - > periodic_dma , & oxu - > regs - > frame_list ) ;
writel ( ( u32 ) oxu - > async - > qh_dma , & oxu - > regs - > async_next ) ;
/* hcc_params controls whether oxu->regs->segment must (!!!)
* be used ; it constrains QH / ITD / SITD and QTD locations .
* pci_pool consistent memory always uses segment zero .
* streaming mappings for I / O buffers , like pci_map_single ( ) ,
* can return segments above 4 GB , if the device allows .
*
* NOTE : the dma mask is visible through dma_supported ( ) , so
* drivers can pass this info along . . . like NETIF_F_HIGHDMA ,
* Scsi_Host . highmem_io , and so forth . It ' s readonly to all
* host side drivers though .
*/
hcc_params = readl ( & oxu - > caps - > hcc_params ) ;
if ( HCC_64BIT_ADDR ( hcc_params ) )
writel ( 0 , & oxu - > regs - > segment ) ;
oxu - > command & = ~ ( CMD_LRESET | CMD_IAAD | CMD_PSE |
CMD_ASE | CMD_RESET ) ;
oxu - > command | = CMD_RUN ;
writel ( oxu - > command , & oxu - > regs - > command ) ;
dbg_cmd ( oxu , " init " , oxu - > command ) ;
/*
* Start , enabling full USB 2.0 functionality . . . usb 1.1 devices
* are explicitly handed to companion controller ( s ) , so no TT is
* involved with the root hub . ( Except where one is integrated ,
* and there ' s no companion controller unless maybe for USB OTG . )
*/
hcd - > state = HC_STATE_RUNNING ;
writel ( FLAG_CF , & oxu - > regs - > configured_flag ) ;
readl ( & oxu - > regs - > command ) ; /* unblock posted writes */
temp = HC_VERSION ( readl ( & oxu - > caps - > hc_capbase ) ) ;
oxu_info ( oxu , " USB %x.%x started, quasi-EHCI %x.%02x, driver %s%s \n " ,
( ( oxu - > sbrn & 0xf0 ) > > 4 ) , ( oxu - > sbrn & 0x0f ) ,
temp > > 8 , temp & 0xff , DRIVER_VERSION ,
ignore_oc ? " , overcurrent ignored " : " " ) ;
writel ( INTR_MASK , & oxu - > regs - > intr_enable ) ; /* Turn On Interrupts */
return 0 ;
}
static void oxu_stop ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
/* Turn off port power on all root hub ports. */
ehci_port_power ( oxu , 0 ) ;
/* no more interrupts ... */
del_timer_sync ( & oxu - > watchdog ) ;
spin_lock_irq ( & oxu - > lock ) ;
if ( HC_IS_RUNNING ( hcd - > state ) )
ehci_quiesce ( oxu ) ;
ehci_reset ( oxu ) ;
writel ( 0 , & oxu - > regs - > intr_enable ) ;
spin_unlock_irq ( & oxu - > lock ) ;
/* let companion controllers work when we aren't */
writel ( 0 , & oxu - > regs - > configured_flag ) ;
/* root hub is shut down separately (first, when possible) */
spin_lock_irq ( & oxu - > lock ) ;
if ( oxu - > async )
ehci_work ( oxu ) ;
spin_unlock_irq ( & oxu - > lock ) ;
ehci_mem_cleanup ( oxu ) ;
dbg_status ( oxu , " oxu_stop completed " , readl ( & oxu - > regs - > status ) ) ;
}
/* Kick in for silicon on any bus (not just pci, etc).
* This forcibly disables dma and IRQs , helping kexec and other cases
* where the next system software may expect clean state .
*/
static void oxu_shutdown ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
( void ) ehci_halt ( oxu ) ;
ehci_turn_off_all_ports ( oxu ) ;
/* make BIOS/etc use companion controller during reboot */
writel ( 0 , & oxu - > regs - > configured_flag ) ;
/* unblock posted writes */
readl ( & oxu - > regs - > configured_flag ) ;
}
/* Non-error returns are a promise to giveback() the urb later
* we drop ownership so next owner ( or urb unlink ) can get it
*
* urb + dev is in hcd . self . controller . urb_list
* we ' re queueing TDs onto software and hardware lists
*
* hcd - specific init for hcpriv hasn ' t been done yet
*
* NOTE : control , bulk , and interrupt share the same code to append TDs
* to a ( possibly active ) QH , and the same QH scanning code .
*/
static int __oxu_urb_enqueue ( struct usb_hcd * hcd , struct urb * urb ,
gfp_t mem_flags )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
struct list_head qtd_list ;
INIT_LIST_HEAD ( & qtd_list ) ;
switch ( usb_pipetype ( urb - > pipe ) ) {
case PIPE_CONTROL :
case PIPE_BULK :
default :
if ( ! qh_urb_transaction ( oxu , urb , & qtd_list , mem_flags ) )
return - ENOMEM ;
return submit_async ( oxu , urb , & qtd_list , mem_flags ) ;
case PIPE_INTERRUPT :
if ( ! qh_urb_transaction ( oxu , urb , & qtd_list , mem_flags ) )
return - ENOMEM ;
return intr_submit ( oxu , urb , & qtd_list , mem_flags ) ;
case PIPE_ISOCHRONOUS :
if ( urb - > dev - > speed = = USB_SPEED_HIGH )
return itd_submit ( oxu , urb , mem_flags ) ;
else
return sitd_submit ( oxu , urb , mem_flags ) ;
}
}
/* This function is responsible for breaking URBs with big data size
* into smaller size and processing small urbs in sequence .
*/
static int oxu_urb_enqueue ( struct usb_hcd * hcd , struct urb * urb ,
gfp_t mem_flags )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
int num , rem ;
int transfer_buffer_length ;
void * transfer_buffer ;
struct urb * murb ;
int i , ret ;
/* If not bulk pipe just enqueue the URB */
if ( ! usb_pipebulk ( urb - > pipe ) )
return __oxu_urb_enqueue ( hcd , urb , mem_flags ) ;
/* Otherwise we should verify the USB transfer buffer size! */
transfer_buffer = urb - > transfer_buffer ;
transfer_buffer_length = urb - > transfer_buffer_length ;
num = urb - > transfer_buffer_length / 4096 ;
rem = urb - > transfer_buffer_length % 4096 ;
if ( rem ! = 0 )
num + + ;
/* If URB is smaller than 4096 bytes just enqueue it! */
if ( num = = 1 )
return __oxu_urb_enqueue ( hcd , urb , mem_flags ) ;
/* Ok, we have more job to do! :) */
for ( i = 0 ; i < num - 1 ; i + + ) {
2011-03-31 05:57:33 +04:00
/* Get free micro URB poll till a free urb is received */
2008-10-23 12:08:07 +04:00
do {
murb = ( struct urb * ) oxu_murb_alloc ( oxu ) ;
if ( ! murb )
schedule ( ) ;
} while ( ! murb ) ;
/* Coping the urb */
memcpy ( murb , urb , sizeof ( struct urb ) ) ;
murb - > transfer_buffer_length = 4096 ;
murb - > transfer_buffer = transfer_buffer + i * 4096 ;
/* Null pointer for the encodes that this is a micro urb */
murb - > complete = NULL ;
( ( struct oxu_murb * ) murb ) - > main = urb ;
( ( struct oxu_murb * ) murb ) - > last = 0 ;
/* This loop is to guarantee urb to be processed when there's
* not enough resources at a particular time by retrying .
*/
do {
ret = __oxu_urb_enqueue ( hcd , murb , mem_flags ) ;
if ( ret )
schedule ( ) ;
} while ( ret ) ;
}
/* Last urb requires special handling */
2011-03-31 05:57:33 +04:00
/* Get free micro URB poll till a free urb is received */
2008-10-23 12:08:07 +04:00
do {
murb = ( struct urb * ) oxu_murb_alloc ( oxu ) ;
if ( ! murb )
schedule ( ) ;
} while ( ! murb ) ;
/* Coping the urb */
memcpy ( murb , urb , sizeof ( struct urb ) ) ;
murb - > transfer_buffer_length = rem > 0 ? rem : 4096 ;
murb - > transfer_buffer = transfer_buffer + ( num - 1 ) * 4096 ;
/* Null pointer for the encodes that this is a micro urb */
murb - > complete = NULL ;
( ( struct oxu_murb * ) murb ) - > main = urb ;
( ( struct oxu_murb * ) murb ) - > last = 1 ;
do {
ret = __oxu_urb_enqueue ( hcd , murb , mem_flags ) ;
if ( ret )
schedule ( ) ;
} while ( ret ) ;
return ret ;
}
/* Remove from hardware lists.
* Completions normally happen asynchronously
*/
static int oxu_urb_dequeue ( struct usb_hcd * hcd , struct urb * urb , int status )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
struct ehci_qh * qh ;
unsigned long flags ;
spin_lock_irqsave ( & oxu - > lock , flags ) ;
switch ( usb_pipetype ( urb - > pipe ) ) {
case PIPE_CONTROL :
case PIPE_BULK :
default :
qh = ( struct ehci_qh * ) urb - > hcpriv ;
if ( ! qh )
break ;
unlink_async ( oxu , qh ) ;
break ;
case PIPE_INTERRUPT :
qh = ( struct ehci_qh * ) urb - > hcpriv ;
if ( ! qh )
break ;
switch ( qh - > qh_state ) {
case QH_STATE_LINKED :
intr_deschedule ( oxu , qh ) ;
/* FALL THROUGH */
case QH_STATE_IDLE :
qh_completions ( oxu , qh ) ;
break ;
default :
oxu_dbg ( oxu , " bogus qh %p state %d \n " ,
qh , qh - > qh_state ) ;
goto done ;
}
/* reschedule QH iff another request is queued */
if ( ! list_empty ( & qh - > qtd_list )
& & HC_IS_RUNNING ( hcd - > state ) ) {
int status ;
status = qh_schedule ( oxu , qh ) ;
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
if ( status ! = 0 ) {
/* shouldn't happen often, but ...
* FIXME kill those tds ' urbs
*/
2012-04-21 03:53:35 +04:00
dev_err ( hcd - > self . controller ,
" can't reschedule qh %p, err %d \n " , qh ,
status ) ;
2008-10-23 12:08:07 +04:00
}
return status ;
}
break ;
}
done :
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
return 0 ;
}
/* Bulk qh holds the data toggle */
static void oxu_endpoint_disable ( struct usb_hcd * hcd ,
struct usb_host_endpoint * ep )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
unsigned long flags ;
struct ehci_qh * qh , * tmp ;
/* ASSERT: any requests/urbs are being unlinked */
/* ASSERT: nobody can be submitting urbs for this any more */
rescan :
spin_lock_irqsave ( & oxu - > lock , flags ) ;
qh = ep - > hcpriv ;
if ( ! qh )
goto done ;
/* endpoints can be iso streams. for now, we don't
* accelerate iso completions . . . so spin a while .
*/
if ( qh - > hw_info1 = = 0 ) {
oxu_vdbg ( oxu , " iso delay \n " ) ;
goto idle_timeout ;
}
if ( ! HC_IS_RUNNING ( hcd - > state ) )
qh - > qh_state = QH_STATE_IDLE ;
switch ( qh - > qh_state ) {
case QH_STATE_LINKED :
for ( tmp = oxu - > async - > qh_next . qh ;
tmp & & tmp ! = qh ;
tmp = tmp - > qh_next . qh )
continue ;
/* periodic qh self-unlinks on empty */
if ( ! tmp )
goto nogood ;
unlink_async ( oxu , qh ) ;
/* FALL THROUGH */
case QH_STATE_UNLINK : /* wait for hw to finish? */
idle_timeout :
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
schedule_timeout_uninterruptible ( 1 ) ;
goto rescan ;
case QH_STATE_IDLE : /* fully unlinked */
if ( list_empty ( & qh - > qtd_list ) ) {
qh_put ( qh ) ;
break ;
}
/* else FALL THROUGH */
default :
nogood :
/* caller was supposed to have unlinked any requests;
* that ' s not our job . just leak this memory .
*/
oxu_err ( oxu , " qh %p (#%02x) state %d%s \n " ,
qh , ep - > desc . bEndpointAddress , qh - > qh_state ,
list_empty ( & qh - > qtd_list ) ? " " : " (has tds) " ) ;
break ;
}
ep - > hcpriv = NULL ;
done :
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
}
static int oxu_get_frame ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
return ( readl ( & oxu - > regs - > frame_index ) > > 3 ) %
oxu - > periodic_size ;
}
/* Build "status change" packet (one or two bytes) from HC registers */
static int oxu_hub_status_data ( struct usb_hcd * hcd , char * buf )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
u32 temp , mask , status = 0 ;
int ports , i , retval = 1 ;
unsigned long flags ;
2014-12-19 17:37:54 +03:00
/* if !PM, root hub timers won't get shut down ... */
2008-10-23 12:08:07 +04:00
if ( ! HC_IS_RUNNING ( hcd - > state ) )
return 0 ;
/* init status to no-changes */
buf [ 0 ] = 0 ;
ports = HCS_N_PORTS ( oxu - > hcs_params ) ;
if ( ports > 7 ) {
buf [ 1 ] = 0 ;
retval + + ;
}
/* Some boards (mostly VIA?) report bogus overcurrent indications,
* causing massive log spam unless we completely ignore them . It
tree-wide: fix comment/printk typos
"gadget", "through", "command", "maintain", "maintain", "controller", "address",
"between", "initiali[zs]e", "instead", "function", "select", "already",
"equal", "access", "management", "hierarchy", "registration", "interest",
"relative", "memory", "offset", "already",
Signed-off-by: Uwe Kleine-König <u.kleine-koenig@pengutronix.de>
Signed-off-by: Jiri Kosina <jkosina@suse.cz>
2010-11-01 22:38:34 +03:00
* may be relevant that VIA VT8235 controllers , where PORT_POWER is
2008-10-23 12:08:07 +04:00
* always set , seem to clear PORT_OCC and PORT_CSC when writing to
* PORT_POWER ; that ' s surprising , but maybe within - spec .
*/
if ( ! ignore_oc )
mask = PORT_CSC | PORT_PEC | PORT_OCC ;
else
mask = PORT_CSC | PORT_PEC ;
/* no hub change reports (bit 0) for now (power, ...) */
/* port N changes (bit N)? */
spin_lock_irqsave ( & oxu - > lock , flags ) ;
for ( i = 0 ; i < ports ; i + + ) {
temp = readl ( & oxu - > regs - > port_status [ i ] ) ;
/*
* Return status information even for ports with OWNER set .
2014-09-19 19:32:23 +04:00
* Otherwise hub_wq wouldn ' t see the disconnect event when a
2008-10-23 12:08:07 +04:00
* high - speed device is switched over to the companion
* controller by the user .
*/
if ( ! ( temp & PORT_CONNECT ) )
oxu - > reset_done [ i ] = 0 ;
if ( ( temp & mask ) ! = 0 | | ( ( temp & PORT_RESUME ) ! = 0 & &
time_after_eq ( jiffies , oxu - > reset_done [ i ] ) ) ) {
if ( i < 7 )
buf [ 0 ] | = 1 < < ( i + 1 ) ;
else
buf [ 1 ] | = 1 < < ( i - 7 ) ;
status = STS_PCD ;
}
}
/* FIXME autosuspend idle root hubs */
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
return status ? retval : 0 ;
}
/* Returns the speed of a device attached to a port on the root hub. */
static inline unsigned int oxu_port_speed ( struct oxu_hcd * oxu ,
unsigned int portsc )
{
switch ( ( portsc > > 26 ) & 3 ) {
case 0 :
return 0 ;
case 1 :
2010-03-04 19:32:30 +03:00
return USB_PORT_STAT_LOW_SPEED ;
2008-10-23 12:08:07 +04:00
case 2 :
default :
2010-03-04 19:32:30 +03:00
return USB_PORT_STAT_HIGH_SPEED ;
2008-10-23 12:08:07 +04:00
}
}
# define PORT_WAKE_BITS (PORT_WKOC_E|PORT_WKDISC_E|PORT_WKCONN_E)
static int oxu_hub_control ( struct usb_hcd * hcd , u16 typeReq ,
u16 wValue , u16 wIndex , char * buf , u16 wLength )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
int ports = HCS_N_PORTS ( oxu - > hcs_params ) ;
u32 __iomem * status_reg = & oxu - > regs - > port_status [ wIndex - 1 ] ;
u32 temp , status ;
unsigned long flags ;
int retval = 0 ;
unsigned selector ;
/*
* FIXME : support SetPortFeatures USB_PORT_FEAT_INDICATOR .
* HCS_INDICATOR may say we can change LEDs to off / amber / green .
* ( track current state ourselves ) . . . blink for diagnostics ,
* power , " this is the one " , etc . EHCI spec supports this .
*/
spin_lock_irqsave ( & oxu - > lock , flags ) ;
switch ( typeReq ) {
case ClearHubFeature :
switch ( wValue ) {
case C_HUB_LOCAL_POWER :
case C_HUB_OVER_CURRENT :
/* no hub-wide feature/status flags */
break ;
default :
goto error ;
}
break ;
case ClearPortFeature :
if ( ! wIndex | | wIndex > ports )
goto error ;
wIndex - - ;
temp = readl ( status_reg ) ;
/*
* Even if OWNER is set , so the port is owned by the
2014-09-19 19:32:23 +04:00
* companion controller , hub_wq needs to be able to clear
2008-10-23 12:08:07 +04:00
* the port - change status bits ( especially
2010-03-05 01:05:08 +03:00
* USB_PORT_STAT_C_CONNECTION ) .
2008-10-23 12:08:07 +04:00
*/
switch ( wValue ) {
case USB_PORT_FEAT_ENABLE :
writel ( temp & ~ PORT_PE , status_reg ) ;
break ;
case USB_PORT_FEAT_C_ENABLE :
writel ( ( temp & ~ PORT_RWC_BITS ) | PORT_PEC , status_reg ) ;
break ;
case USB_PORT_FEAT_SUSPEND :
if ( temp & PORT_RESET )
goto error ;
if ( temp & PORT_SUSPEND ) {
if ( ( temp & PORT_PE ) = = 0 )
goto error ;
/* resume signaling for 20 msec */
temp & = ~ ( PORT_RWC_BITS | PORT_WAKE_BITS ) ;
writel ( temp | PORT_RESUME , status_reg ) ;
oxu - > reset_done [ wIndex ] = jiffies
+ msecs_to_jiffies ( 20 ) ;
}
break ;
case USB_PORT_FEAT_C_SUSPEND :
/* we auto-clear this feature */
break ;
case USB_PORT_FEAT_POWER :
if ( HCS_PPC ( oxu - > hcs_params ) )
writel ( temp & ~ ( PORT_RWC_BITS | PORT_POWER ) ,
status_reg ) ;
break ;
case USB_PORT_FEAT_C_CONNECTION :
writel ( ( temp & ~ PORT_RWC_BITS ) | PORT_CSC , status_reg ) ;
break ;
case USB_PORT_FEAT_C_OVER_CURRENT :
writel ( ( temp & ~ PORT_RWC_BITS ) | PORT_OCC , status_reg ) ;
break ;
case USB_PORT_FEAT_C_RESET :
/* GetPortStatus clears reset */
break ;
default :
goto error ;
}
readl ( & oxu - > regs - > command ) ; /* unblock posted write */
break ;
case GetHubDescriptor :
ehci_hub_descriptor ( oxu , ( struct usb_hub_descriptor * )
buf ) ;
break ;
case GetHubStatus :
/* no hub-wide feature/status flags */
memset ( buf , 0 , 4 ) ;
break ;
case GetPortStatus :
if ( ! wIndex | | wIndex > ports )
goto error ;
wIndex - - ;
status = 0 ;
temp = readl ( status_reg ) ;
/* wPortChange bits */
if ( temp & PORT_CSC )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_C_CONNECTION < < 16 ;
2008-10-23 12:08:07 +04:00
if ( temp & PORT_PEC )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_C_ENABLE < < 16 ;
2008-10-23 12:08:07 +04:00
if ( ( temp & PORT_OCC ) & & ! ignore_oc )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_C_OVERCURRENT < < 16 ;
2008-10-23 12:08:07 +04:00
/* whoever resumes must GetPortStatus to complete it!! */
if ( temp & PORT_RESUME ) {
/* Remote Wakeup received? */
if ( ! oxu - > reset_done [ wIndex ] ) {
/* resume signaling for 20 msec */
oxu - > reset_done [ wIndex ] = jiffies
+ msecs_to_jiffies ( 20 ) ;
/* check the port again */
mod_timer ( & oxu_to_hcd ( oxu ) - > rh_timer ,
oxu - > reset_done [ wIndex ] ) ;
}
/* resume completed? */
else if ( time_after_eq ( jiffies ,
oxu - > reset_done [ wIndex ] ) ) {
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_C_SUSPEND < < 16 ;
2008-10-23 12:08:07 +04:00
oxu - > reset_done [ wIndex ] = 0 ;
/* stop resume signaling */
temp = readl ( status_reg ) ;
writel ( temp & ~ ( PORT_RWC_BITS | PORT_RESUME ) ,
status_reg ) ;
retval = handshake ( oxu , status_reg ,
PORT_RESUME , 0 , 2000 /* 2msec */ ) ;
if ( retval ! = 0 ) {
oxu_err ( oxu ,
" port %d resume error %d \n " ,
wIndex + 1 , retval ) ;
goto error ;
}
temp & = ~ ( PORT_SUSPEND | PORT_RESUME | ( 3 < < 10 ) ) ;
}
}
/* whoever resets must GetPortStatus to complete it!! */
if ( ( temp & PORT_RESET )
& & time_after_eq ( jiffies ,
oxu - > reset_done [ wIndex ] ) ) {
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_C_RESET < < 16 ;
2008-10-23 12:08:07 +04:00
oxu - > reset_done [ wIndex ] = 0 ;
/* force reset to complete */
writel ( temp & ~ ( PORT_RWC_BITS | PORT_RESET ) ,
status_reg ) ;
/* REVISIT: some hardware needs 550+ usec to clear
* this bit ; seems too long to spin routinely . . .
*/
retval = handshake ( oxu , status_reg ,
PORT_RESET , 0 , 750 ) ;
if ( retval ! = 0 ) {
oxu_err ( oxu , " port %d reset error %d \n " ,
wIndex + 1 , retval ) ;
goto error ;
}
/* see what we found out */
temp = check_reset_complete ( oxu , wIndex , status_reg ,
readl ( status_reg ) ) ;
}
/* transfer dedicated ports to the companion hc */
if ( ( temp & PORT_CONNECT ) & &
test_bit ( wIndex , & oxu - > companion_ports ) ) {
temp & = ~ PORT_RWC_BITS ;
temp | = PORT_OWNER ;
writel ( temp , status_reg ) ;
oxu_dbg ( oxu , " port %d --> companion \n " , wIndex + 1 ) ;
temp = readl ( status_reg ) ;
}
/*
2014-09-19 19:32:23 +04:00
* Even if OWNER is set , there ' s no harm letting hub_wq
2008-10-23 12:08:07 +04:00
* see the wPortStatus values ( they should all be 0 except
* for PORT_POWER anyway ) .
*/
if ( temp & PORT_CONNECT ) {
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_CONNECTION ;
2008-10-23 12:08:07 +04:00
/* status may be from integrated TT */
status | = oxu_port_speed ( oxu , temp ) ;
}
if ( temp & PORT_PE )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_ENABLE ;
2008-10-23 12:08:07 +04:00
if ( temp & ( PORT_SUSPEND | PORT_RESUME ) )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_SUSPEND ;
2008-10-23 12:08:07 +04:00
if ( temp & PORT_OC )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_OVERCURRENT ;
2008-10-23 12:08:07 +04:00
if ( temp & PORT_RESET )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_RESET ;
2008-10-23 12:08:07 +04:00
if ( temp & PORT_POWER )
2010-03-05 01:05:08 +03:00
status | = USB_PORT_STAT_POWER ;
2008-10-23 12:08:07 +04:00
# ifndef OXU_VERBOSE_DEBUG
if ( status & ~ 0xffff ) /* only if wPortChange is interesting */
# endif
dbg_port ( oxu , " GetStatus " , wIndex + 1 , temp ) ;
put_unaligned ( cpu_to_le32 ( status ) , ( __le32 * ) buf ) ;
break ;
case SetHubFeature :
switch ( wValue ) {
case C_HUB_LOCAL_POWER :
case C_HUB_OVER_CURRENT :
/* no hub-wide feature/status flags */
break ;
default :
goto error ;
}
break ;
case SetPortFeature :
selector = wIndex > > 8 ;
wIndex & = 0xff ;
if ( ! wIndex | | wIndex > ports )
goto error ;
wIndex - - ;
temp = readl ( status_reg ) ;
if ( temp & PORT_OWNER )
break ;
temp & = ~ PORT_RWC_BITS ;
switch ( wValue ) {
case USB_PORT_FEAT_SUSPEND :
if ( ( temp & PORT_PE ) = = 0
| | ( temp & PORT_RESET ) ! = 0 )
goto error ;
if ( device_may_wakeup ( & hcd - > self . root_hub - > dev ) )
temp | = PORT_WAKE_BITS ;
writel ( temp | PORT_SUSPEND , status_reg ) ;
break ;
case USB_PORT_FEAT_POWER :
if ( HCS_PPC ( oxu - > hcs_params ) )
writel ( temp | PORT_POWER , status_reg ) ;
break ;
case USB_PORT_FEAT_RESET :
if ( temp & PORT_RESUME )
goto error ;
/* line status bits may report this as low speed,
* which can be fine if this root hub has a
* transaction translator built in .
*/
oxu_vdbg ( oxu , " port %d reset \n " , wIndex + 1 ) ;
temp | = PORT_RESET ;
temp & = ~ PORT_PE ;
/*
* caller must wait , then call GetPortStatus
* usb 2.0 spec says 50 ms resets on root
*/
oxu - > reset_done [ wIndex ] = jiffies
+ msecs_to_jiffies ( 50 ) ;
writel ( temp , status_reg ) ;
break ;
/* For downstream facing ports (these): one hub port is put
* into test mode according to USB2 11.24 .2 .13 , then the hub
* must be reset ( which for root hub now means rmmod + modprobe ,
* or else system reboot ) . See EHCI 2.3 .9 and 4.14 for info
* about the EHCI - specific stuff .
*/
case USB_PORT_FEAT_TEST :
if ( ! selector | | selector > 5 )
goto error ;
ehci_quiesce ( oxu ) ;
ehci_halt ( oxu ) ;
temp | = selector < < 16 ;
writel ( temp , status_reg ) ;
break ;
default :
goto error ;
}
readl ( & oxu - > regs - > command ) ; /* unblock posted writes */
break ;
default :
error :
/* "stall" on error */
retval = - EPIPE ;
}
spin_unlock_irqrestore ( & oxu - > lock , flags ) ;
return retval ;
}
# ifdef CONFIG_PM
static int oxu_bus_suspend ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
int port ;
int mask ;
oxu_dbg ( oxu , " suspend root hub \n " ) ;
if ( time_before ( jiffies , oxu - > next_statechange ) )
msleep ( 5 ) ;
port = HCS_N_PORTS ( oxu - > hcs_params ) ;
spin_lock_irq ( & oxu - > lock ) ;
/* stop schedules, clean any completed work */
if ( HC_IS_RUNNING ( hcd - > state ) ) {
ehci_quiesce ( oxu ) ;
hcd - > state = HC_STATE_QUIESCING ;
}
oxu - > command = readl ( & oxu - > regs - > command ) ;
if ( oxu - > reclaim )
oxu - > reclaim_ready = 1 ;
ehci_work ( oxu ) ;
/* Unlike other USB host controller types, EHCI doesn't have
* any notion of " global " or bus - wide suspend . The driver has
* to manually suspend all the active unsuspended ports , and
* then manually resume them in the bus_resume ( ) routine .
*/
oxu - > bus_suspended = 0 ;
while ( port - - ) {
u32 __iomem * reg = & oxu - > regs - > port_status [ port ] ;
u32 t1 = readl ( reg ) & ~ PORT_RWC_BITS ;
u32 t2 = t1 ;
/* keep track of which ports we suspend */
if ( ( t1 & PORT_PE ) & & ! ( t1 & PORT_OWNER ) & &
! ( t1 & PORT_SUSPEND ) ) {
t2 | = PORT_SUSPEND ;
set_bit ( port , & oxu - > bus_suspended ) ;
}
/* enable remote wakeup on all ports */
if ( device_may_wakeup ( & hcd - > self . root_hub - > dev ) )
t2 | = PORT_WKOC_E | PORT_WKDISC_E | PORT_WKCONN_E ;
else
t2 & = ~ ( PORT_WKOC_E | PORT_WKDISC_E | PORT_WKCONN_E ) ;
if ( t1 ! = t2 ) {
oxu_vdbg ( oxu , " port %d, %08x -> %08x \n " ,
port + 1 , t1 , t2 ) ;
writel ( t2 , reg ) ;
}
}
/* turn off now-idle HC */
del_timer_sync ( & oxu - > watchdog ) ;
ehci_halt ( oxu ) ;
hcd - > state = HC_STATE_SUSPENDED ;
/* allow remote wakeup */
mask = INTR_MASK ;
if ( ! device_may_wakeup ( & hcd - > self . root_hub - > dev ) )
mask & = ~ STS_PCD ;
writel ( mask , & oxu - > regs - > intr_enable ) ;
readl ( & oxu - > regs - > intr_enable ) ;
oxu - > next_statechange = jiffies + msecs_to_jiffies ( 10 ) ;
spin_unlock_irq ( & oxu - > lock ) ;
return 0 ;
}
/* Caller has locked the root hub, and should reset/reinit on error */
static int oxu_bus_resume ( struct usb_hcd * hcd )
{
struct oxu_hcd * oxu = hcd_to_oxu ( hcd ) ;
u32 temp ;
int i ;
if ( time_before ( jiffies , oxu - > next_statechange ) )
msleep ( 5 ) ;
spin_lock_irq ( & oxu - > lock ) ;
/* Ideally and we've got a real resume here, and no port's power
* was lost . ( For PCI , that means Vaux was maintained . ) But we
* could instead be restoring a swsusp snapshot - - so that BIOS was
* the last user of the controller , not reset / pm hardware keeping
* state we gave to it .
*/
temp = readl ( & oxu - > regs - > intr_enable ) ;
oxu_dbg ( oxu , " resume root hub%s \n " , temp ? " " : " after power loss " ) ;
/* at least some APM implementations will try to deliver
* IRQs right away , so delay them until we ' re ready .
*/
writel ( 0 , & oxu - > regs - > intr_enable ) ;
/* re-init operational registers */
writel ( 0 , & oxu - > regs - > segment ) ;
writel ( oxu - > periodic_dma , & oxu - > regs - > frame_list ) ;
writel ( ( u32 ) oxu - > async - > qh_dma , & oxu - > regs - > async_next ) ;
/* restore CMD_RUN, framelist size, and irq threshold */
writel ( oxu - > command , & oxu - > regs - > command ) ;
/* Some controller/firmware combinations need a delay during which
* they set up the port statuses . See Bugzilla # 8190. */
mdelay ( 8 ) ;
/* manually resume the ports we suspended during bus_suspend() */
i = HCS_N_PORTS ( oxu - > hcs_params ) ;
while ( i - - ) {
temp = readl ( & oxu - > regs - > port_status [ i ] ) ;
temp & = ~ ( PORT_RWC_BITS
| PORT_WKOC_E | PORT_WKDISC_E | PORT_WKCONN_E ) ;
if ( test_bit ( i , & oxu - > bus_suspended ) & & ( temp & PORT_SUSPEND ) ) {
oxu - > reset_done [ i ] = jiffies + msecs_to_jiffies ( 20 ) ;
temp | = PORT_RESUME ;
}
writel ( temp , & oxu - > regs - > port_status [ i ] ) ;
}
i = HCS_N_PORTS ( oxu - > hcs_params ) ;
mdelay ( 20 ) ;
while ( i - - ) {
temp = readl ( & oxu - > regs - > port_status [ i ] ) ;
if ( test_bit ( i , & oxu - > bus_suspended ) & & ( temp & PORT_SUSPEND ) ) {
temp & = ~ ( PORT_RWC_BITS | PORT_RESUME ) ;
writel ( temp , & oxu - > regs - > port_status [ i ] ) ;
oxu_vdbg ( oxu , " resumed port %d \n " , i + 1 ) ;
}
}
( void ) readl ( & oxu - > regs - > command ) ;
/* maybe re-activate the schedule(s) */
temp = 0 ;
if ( oxu - > async - > qh_next . qh )
temp | = CMD_ASE ;
if ( oxu - > periodic_sched )
temp | = CMD_PSE ;
if ( temp ) {
oxu - > command | = temp ;
writel ( oxu - > command , & oxu - > regs - > command ) ;
}
oxu - > next_statechange = jiffies + msecs_to_jiffies ( 5 ) ;
hcd - > state = HC_STATE_RUNNING ;
/* Now we can safely re-enable irqs */
writel ( INTR_MASK , & oxu - > regs - > intr_enable ) ;
spin_unlock_irq ( & oxu - > lock ) ;
return 0 ;
}
# else
static int oxu_bus_suspend ( struct usb_hcd * hcd )
{
return 0 ;
}
static int oxu_bus_resume ( struct usb_hcd * hcd )
{
return 0 ;
}
# endif /* CONFIG_PM */
static const struct hc_driver oxu_hc_driver = {
. description = " oxu210hp_hcd " ,
. product_desc = " oxu210hp HCD " ,
. hcd_priv_size = sizeof ( struct oxu_hcd ) ,
/*
* Generic hardware linkage
*/
. irq = oxu_irq ,
. flags = HCD_MEMORY | HCD_USB2 ,
/*
* Basic lifecycle operations
*/
. reset = oxu_reset ,
. start = oxu_run ,
. stop = oxu_stop ,
. shutdown = oxu_shutdown ,
/*
* Managing i / o requests and associated device resources
*/
. urb_enqueue = oxu_urb_enqueue ,
. urb_dequeue = oxu_urb_dequeue ,
. endpoint_disable = oxu_endpoint_disable ,
/*
* Scheduling support
*/
. get_frame_number = oxu_get_frame ,
/*
* Root hub support
*/
. hub_status_data = oxu_hub_status_data ,
. hub_control = oxu_hub_control ,
. bus_suspend = oxu_bus_suspend ,
. bus_resume = oxu_bus_resume ,
} ;
/*
* Module stuff
*/
static void oxu_configuration ( struct platform_device * pdev , void * base )
{
u32 tmp ;
/* Initialize top level registers.
* First write ever
*/
oxu_writel ( base , OXU_HOSTIFCONFIG , 0x0000037D ) ;
oxu_writel ( base , OXU_SOFTRESET , OXU_SRESET ) ;
oxu_writel ( base , OXU_HOSTIFCONFIG , 0x0000037D ) ;
tmp = oxu_readl ( base , OXU_PIOBURSTREADCTRL ) ;
oxu_writel ( base , OXU_PIOBURSTREADCTRL , tmp | 0x0040 ) ;
oxu_writel ( base , OXU_ASO , OXU_SPHPOEN | OXU_OVRCCURPUPDEN |
OXU_COMPARATOR | OXU_ASO_OP ) ;
tmp = oxu_readl ( base , OXU_CLKCTRL_SET ) ;
oxu_writel ( base , OXU_CLKCTRL_SET , tmp | OXU_SYSCLKEN | OXU_USBOTGCLKEN ) ;
/* Clear all top interrupt enable */
oxu_writel ( base , OXU_CHIPIRQEN_CLR , 0xff ) ;
/* Clear all top interrupt status */
oxu_writel ( base , OXU_CHIPIRQSTATUS , 0xff ) ;
/* Enable all needed top interrupt except OTG SPH core */
oxu_writel ( base , OXU_CHIPIRQEN_SET , OXU_USBSPHLPWUI | OXU_USBOTGLPWUI ) ;
}
static int oxu_verify_id ( struct platform_device * pdev , void * base )
{
u32 id ;
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static const char * const bo [ ] = {
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" reserved " ,
" 128-pin LQFP " ,
" 84-pin TFBGA " ,
" reserved " ,
} ;
/* Read controller signature register to find a match */
id = oxu_readl ( base , OXU_DEVICEID ) ;
dev_info ( & pdev - > dev , " device ID %x \n " , id ) ;
if ( ( id & OXU_REV_MASK ) ! = ( OXU_REV_2100 < < OXU_REV_SHIFT ) )
return - 1 ;
dev_info ( & pdev - > dev , " found device %x %s (%04x:%04x) \n " ,
id > > OXU_REV_SHIFT ,
bo [ ( id & OXU_BO_MASK ) > > OXU_BO_SHIFT ] ,
( id & OXU_MAJ_REV_MASK ) > > OXU_MAJ_REV_SHIFT ,
( id & OXU_MIN_REV_MASK ) > > OXU_MIN_REV_SHIFT ) ;
return 0 ;
}
static const struct hc_driver oxu_hc_driver ;
static struct usb_hcd * oxu_create ( struct platform_device * pdev ,
unsigned long memstart , unsigned long memlen ,
void * base , int irq , int otg )
{
struct device * dev = & pdev - > dev ;
struct usb_hcd * hcd ;
struct oxu_hcd * oxu ;
int ret ;
/* Set endian mode and host mode */
oxu_writel ( base + ( otg ? OXU_OTG_CORE_OFFSET : OXU_SPH_CORE_OFFSET ) ,
OXU_USBMODE ,
OXU_CM_HOST_ONLY | OXU_ES_LITTLE | OXU_VBPS ) ;
hcd = usb_create_hcd ( & oxu_hc_driver , dev ,
otg ? " oxu210hp_otg " : " oxu210hp_sph " ) ;
if ( ! hcd )
return ERR_PTR ( - ENOMEM ) ;
hcd - > rsrc_start = memstart ;
hcd - > rsrc_len = memlen ;
hcd - > regs = base ;
hcd - > irq = irq ;
hcd - > state = HC_STATE_HALT ;
oxu = hcd_to_oxu ( hcd ) ;
oxu - > is_otg = otg ;
ret = usb_add_hcd ( hcd , irq , IRQF_SHARED ) ;
if ( ret < 0 )
return ERR_PTR ( ret ) ;
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device_wakeup_enable ( hcd - > self . controller ) ;
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return hcd ;
}
static int oxu_init ( struct platform_device * pdev ,
unsigned long memstart , unsigned long memlen ,
void * base , int irq )
{
struct oxu_info * info = platform_get_drvdata ( pdev ) ;
struct usb_hcd * hcd ;
int ret ;
/* First time configuration at start up */
oxu_configuration ( pdev , base ) ;
ret = oxu_verify_id ( pdev , base ) ;
if ( ret ) {
dev_err ( & pdev - > dev , " no devices found! \n " ) ;
return - ENODEV ;
}
/* Create the OTG controller */
hcd = oxu_create ( pdev , memstart , memlen , base , irq , 1 ) ;
if ( IS_ERR ( hcd ) ) {
dev_err ( & pdev - > dev , " cannot create OTG controller! \n " ) ;
ret = PTR_ERR ( hcd ) ;
goto error_create_otg ;
}
info - > hcd [ 0 ] = hcd ;
/* Create the SPH host controller */
hcd = oxu_create ( pdev , memstart , memlen , base , irq , 0 ) ;
if ( IS_ERR ( hcd ) ) {
dev_err ( & pdev - > dev , " cannot create SPH controller! \n " ) ;
ret = PTR_ERR ( hcd ) ;
goto error_create_sph ;
}
info - > hcd [ 1 ] = hcd ;
oxu_writel ( base , OXU_CHIPIRQEN_SET ,
oxu_readl ( base , OXU_CHIPIRQEN_SET ) | 3 ) ;
return 0 ;
error_create_sph :
usb_remove_hcd ( info - > hcd [ 0 ] ) ;
usb_put_hcd ( info - > hcd [ 0 ] ) ;
error_create_otg :
return ret ;
}
static int oxu_drv_probe ( struct platform_device * pdev )
{
struct resource * res ;
void * base ;
unsigned long memstart , memlen ;
int irq , ret ;
struct oxu_info * info ;
if ( usb_disabled ( ) )
return - ENODEV ;
/*
* Get the platform resources
*/
res = platform_get_resource ( pdev , IORESOURCE_IRQ , 0 ) ;
if ( ! res ) {
dev_err ( & pdev - > dev ,
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" no IRQ! Check %s setup! \n " , dev_name ( & pdev - > dev ) ) ;
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return - ENODEV ;
}
irq = res - > start ;
dev_dbg ( & pdev - > dev , " IRQ resource %d \n " , irq ) ;
res = platform_get_resource ( pdev , IORESOURCE_MEM , 0 ) ;
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base = devm_ioremap_resource ( & pdev - > dev , res ) ;
if ( IS_ERR ( base ) ) {
ret = PTR_ERR ( base ) ;
goto error ;
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}
memstart = res - > start ;
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memlen = resource_size ( res ) ;
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2011-03-28 19:49:12 +04:00
ret = irq_set_irq_type ( irq , IRQF_TRIGGER_FALLING ) ;
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if ( ret ) {
dev_err ( & pdev - > dev , " error setting irq type \n " ) ;
ret = - EFAULT ;
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goto error ;
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}
/* Allocate a driver data struct to hold useful info for both
* SPH & OTG devices
*/
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info = devm_kzalloc ( & pdev - > dev , sizeof ( struct oxu_info ) , GFP_KERNEL ) ;
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if ( ! info ) {
ret = - EFAULT ;
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goto error ;
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}
platform_set_drvdata ( pdev , info ) ;
ret = oxu_init ( pdev , memstart , memlen , base , irq ) ;
if ( ret < 0 ) {
dev_dbg ( & pdev - > dev , " cannot init USB devices \n " ) ;
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goto error ;
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}
dev_info ( & pdev - > dev , " devices enabled and running \n " ) ;
platform_set_drvdata ( pdev , info ) ;
return 0 ;
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error :
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dev_err ( & pdev - > dev , " init %s fail, %d \n " , dev_name ( & pdev - > dev ) , ret ) ;
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return ret ;
}
static void oxu_remove ( struct platform_device * pdev , struct usb_hcd * hcd )
{
usb_remove_hcd ( hcd ) ;
usb_put_hcd ( hcd ) ;
}
static int oxu_drv_remove ( struct platform_device * pdev )
{
struct oxu_info * info = platform_get_drvdata ( pdev ) ;
oxu_remove ( pdev , info - > hcd [ 0 ] ) ;
oxu_remove ( pdev , info - > hcd [ 1 ] ) ;
return 0 ;
}
static void oxu_drv_shutdown ( struct platform_device * pdev )
{
oxu_drv_remove ( pdev ) ;
}
#if 0
/* FIXME: TODO */
static int oxu_drv_suspend ( struct device * dev )
{
struct platform_device * pdev = to_platform_device ( dev ) ;
struct usb_hcd * hcd = dev_get_drvdata ( dev ) ;
return 0 ;
}
static int oxu_drv_resume ( struct device * dev )
{
struct platform_device * pdev = to_platform_device ( dev ) ;
struct usb_hcd * hcd = dev_get_drvdata ( dev ) ;
return 0 ;
}
# else
# define oxu_drv_suspend NULL
# define oxu_drv_resume NULL
# endif
static struct platform_driver oxu_driver = {
. probe = oxu_drv_probe ,
. remove = oxu_drv_remove ,
. shutdown = oxu_drv_shutdown ,
. suspend = oxu_drv_suspend ,
. resume = oxu_drv_resume ,
. driver = {
. name = " oxu210hp-hcd " ,
. bus = & platform_bus_type
}
} ;
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module_platform_driver ( oxu_driver ) ;
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MODULE_DESCRIPTION ( " Oxford OXU210HP HCD driver - ver. " DRIVER_VERSION ) ;
MODULE_AUTHOR ( " Rodolfo Giometti <giometti@linux.it> " ) ;
MODULE_LICENSE ( " GPL " ) ;