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/*
* MUSB OTG driver peripheral support
*
* Copyright 2005 Mentor Graphics Corporation
* Copyright ( C ) 2005 - 2006 by Texas Instruments
* Copyright ( C ) 2006 - 2007 Nokia Corporation
*
* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public License
* version 2 as published by the Free Software Foundation .
*
* 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 . , 51 Franklin St , Fifth Floor , Boston , MA
* 02110 - 1301 USA
*
* THIS SOFTWARE IS PROVIDED " AS IS " AND ANY EXPRESS OR IMPLIED
* WARRANTIES , INCLUDING , BUT NOT LIMITED TO , THE IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED . IN
* NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY DIRECT , INDIRECT ,
* INCIDENTAL , SPECIAL , EXEMPLARY , OR CONSEQUENTIAL DAMAGES ( INCLUDING , BUT
* NOT LIMITED TO , PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES ; LOSS OF
* USE , DATA , OR PROFITS ; OR BUSINESS INTERRUPTION ) HOWEVER CAUSED AND ON
* ANY THEORY OF LIABILITY , WHETHER IN CONTRACT , STRICT LIABILITY , OR TORT
* ( INCLUDING NEGLIGENCE OR OTHERWISE ) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE , EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE .
*
*/
# include <linux/kernel.h>
# include <linux/list.h>
# include <linux/timer.h>
# include <linux/module.h>
# include <linux/smp.h>
# include <linux/spinlock.h>
# include <linux/delay.h>
# include <linux/moduleparam.h>
# include <linux/stat.h>
# include <linux/dma-mapping.h>
# include "musb_core.h"
/* MUSB PERIPHERAL status 3-mar-2006:
*
* - EP0 seems solid . It passes both USBCV and usbtest control cases .
* Minor glitches :
*
* + remote wakeup to Linux hosts work , but saw USBCV failures ;
* in one test run ( operator error ? )
* + endpoint halt tests - - in both usbtest and usbcv - - seem
* to break when dma is enabled . . . is something wrongly
* clearing SENDSTALL ?
*
* - Mass storage behaved ok when last tested . Network traffic patterns
* ( with lots of short transfers etc ) need retesting ; they turn up the
* worst cases of the DMA , since short packets are typical but are not
* required .
*
* - TX / IN
* + both pio and dma behave in with network and g_zero tests
* + no cppi throughput issues other than no - hw - queueing
* + failed with FLAT_REG ( DaVinci )
* + seems to behave with double buffering , PIO - and - CPPI
* + with gadgetfs + AIO , requests got lost ?
*
* - RX / OUT
* + both pio and dma behave in with network and g_zero tests
* + dma is slow in typical case ( short_not_ok is clear )
* + double buffering ok with PIO
* + double buffering * FAILS * with CPPI , wrong data bytes sometimes
* + request lossage observed with gadgetfs
*
* - ISO not tested . . . might work , but only weakly isochronous
*
* - Gadget driver disabling of softconnect during bind ( ) is ignored ; so
* drivers can ' t hold off host requests until userspace is ready .
* ( Workaround : they can turn it off later . )
*
* - PORTABILITY ( assumes PIO works ) :
* + DaVinci , basically works with cppi dma
* + OMAP 2430 , ditto with mentor dma
* + TUSB 6010 , platform - specific dma in the works
*/
/* ----------------------------------------------------------------------- */
/*
* Immediately complete a request .
*
* @ param request the request to complete
* @ param status the status to complete the request with
* Context : controller locked , IRQs blocked .
*/
void musb_g_giveback (
struct musb_ep * ep ,
struct usb_request * request ,
int status )
__releases ( ep - > musb - > lock )
__acquires ( ep - > musb - > lock )
{
struct musb_request * req ;
struct musb * musb ;
int busy = ep - > busy ;
req = to_musb_request ( request ) ;
list_del ( & request - > list ) ;
if ( req - > request . status = = - EINPROGRESS )
req - > request . status = status ;
musb = req - > musb ;
ep - > busy = 1 ;
spin_unlock ( & musb - > lock ) ;
if ( is_dma_capable ( ) ) {
if ( req - > mapped ) {
dma_unmap_single ( musb - > controller ,
req - > request . dma ,
req - > request . length ,
req - > tx
? DMA_TO_DEVICE
: DMA_FROM_DEVICE ) ;
req - > request . dma = DMA_ADDR_INVALID ;
req - > mapped = 0 ;
} else if ( req - > request . dma ! = DMA_ADDR_INVALID )
dma_sync_single_for_cpu ( musb - > controller ,
req - > request . dma ,
req - > request . length ,
req - > tx
? DMA_TO_DEVICE
: DMA_FROM_DEVICE ) ;
}
if ( request - > status = = 0 )
DBG ( 5 , " %s done request %p, %d/%d \n " ,
ep - > end_point . name , request ,
req - > request . actual , req - > request . length ) ;
else
DBG ( 2 , " %s request %p, %d/%d fault %d \n " ,
ep - > end_point . name , request ,
req - > request . actual , req - > request . length ,
request - > status ) ;
req - > request . complete ( & req - > ep - > end_point , & req - > request ) ;
spin_lock ( & musb - > lock ) ;
ep - > busy = busy ;
}
/* ----------------------------------------------------------------------- */
/*
* Abort requests queued to an endpoint using the status . Synchronous .
* caller locked controller and blocked irqs , and selected this ep .
*/
static void nuke ( struct musb_ep * ep , const int status )
{
struct musb_request * req = NULL ;
void __iomem * epio = ep - > musb - > endpoints [ ep - > current_epnum ] . regs ;
ep - > busy = 1 ;
if ( is_dma_capable ( ) & & ep - > dma ) {
struct dma_controller * c = ep - > musb - > dma_controller ;
int value ;
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if ( ep - > is_in ) {
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/*
* The programming guide says that we must not clear
* the DMAMODE bit before DMAENAB , so we only
* clear it in the second write . . .
*/
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musb_writew ( epio , MUSB_TXCSR ,
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MUSB_TXCSR_DMAMODE | MUSB_TXCSR_FLUSHFIFO ) ;
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musb_writew ( epio , MUSB_TXCSR ,
0 | MUSB_TXCSR_FLUSHFIFO ) ;
} else {
musb_writew ( epio , MUSB_RXCSR ,
0 | MUSB_RXCSR_FLUSHFIFO ) ;
musb_writew ( epio , MUSB_RXCSR ,
0 | MUSB_RXCSR_FLUSHFIFO ) ;
}
value = c - > channel_abort ( ep - > dma ) ;
DBG ( value ? 1 : 6 , " %s: abort DMA --> %d \n " , ep - > name , value ) ;
c - > channel_release ( ep - > dma ) ;
ep - > dma = NULL ;
}
while ( ! list_empty ( & ( ep - > req_list ) ) ) {
req = container_of ( ep - > req_list . next , struct musb_request ,
request . list ) ;
musb_g_giveback ( ep , & req - > request , status ) ;
}
}
/* ----------------------------------------------------------------------- */
/* Data transfers - pure PIO, pure DMA, or mixed mode */
/*
* This assumes the separate CPPI engine is responding to DMA requests
* from the usb core . . . sequenced a bit differently from mentor dma .
*/
static inline int max_ep_writesize ( struct musb * musb , struct musb_ep * ep )
{
if ( can_bulk_split ( musb , ep - > type ) )
return ep - > hw_ep - > max_packet_sz_tx ;
else
return ep - > packet_sz ;
}
# ifdef CONFIG_USB_INVENTRA_DMA
/* Peripheral tx (IN) using Mentor DMA works as follows:
Only mode 0 is used for transfers < = wPktSize ,
mode 1 is used for larger transfers ,
One of the following happens :
- Host sends IN token which causes an endpoint interrupt
- > TxAvail
- > if DMA is currently busy , exit .
- > if queue is non - empty , txstate ( ) .
- Request is queued by the gadget driver .
- > if queue was previously empty , txstate ( )
txstate ( )
- > start
/ \ - > setup DMA
| ( data is transferred to the FIFO , then sent out when
| IN token ( s ) are recd from Host .
| - > DMA interrupt on completion
| calls TxAvail .
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| - > stop DMA , ~ DMAENAB ,
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| - > set TxPktRdy for last short pkt or zlp
| - > Complete Request
| - > Continue next request ( call txstate )
| ___________________________________ |
* Non - Mentor DMA engines can of course work differently , such as by
* upleveling from irq - per - packet to irq - per - buffer .
*/
# endif
/*
* An endpoint is transmitting data . This can be called either from
* the IRQ routine or from ep . queue ( ) to kickstart a request on an
* endpoint .
*
* Context : controller locked , IRQs blocked , endpoint selected
*/
static void txstate ( struct musb * musb , struct musb_request * req )
{
u8 epnum = req - > epnum ;
struct musb_ep * musb_ep ;
void __iomem * epio = musb - > endpoints [ epnum ] . regs ;
struct usb_request * request ;
u16 fifo_count = 0 , csr ;
int use_dma = 0 ;
musb_ep = req - > ep ;
/* we shouldn't get here while DMA is active ... but we do ... */
if ( dma_channel_status ( musb_ep - > dma ) = = MUSB_DMA_STATUS_BUSY ) {
DBG ( 4 , " dma pending... \n " ) ;
return ;
}
/* read TXCSR before */
csr = musb_readw ( epio , MUSB_TXCSR ) ;
request = & req - > request ;
fifo_count = min ( max_ep_writesize ( musb , musb_ep ) ,
( int ) ( request - > length - request - > actual ) ) ;
if ( csr & MUSB_TXCSR_TXPKTRDY ) {
DBG ( 5 , " %s old packet still ready , txcsr %03x \n " ,
musb_ep - > end_point . name , csr ) ;
return ;
}
if ( csr & MUSB_TXCSR_P_SENDSTALL ) {
DBG ( 5 , " %s stalling, txcsr %03x \n " ,
musb_ep - > end_point . name , csr ) ;
return ;
}
DBG ( 4 , " hw_ep%d, maxpacket %d, fifo count %d, txcsr %03x \n " ,
epnum , musb_ep - > packet_sz , fifo_count ,
csr ) ;
# ifndef CONFIG_MUSB_PIO_ONLY
if ( is_dma_capable ( ) & & musb_ep - > dma ) {
struct dma_controller * c = musb - > dma_controller ;
use_dma = ( request - > dma ! = DMA_ADDR_INVALID ) ;
/* MUSB_TXCSR_P_ISO is still set correctly */
# ifdef CONFIG_USB_INVENTRA_DMA
{
size_t request_size ;
/* setup DMA, then program endpoint CSR */
request_size = min ( request - > length ,
musb_ep - > dma - > max_len ) ;
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if ( request_size < musb_ep - > packet_sz )
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musb_ep - > dma - > desired_mode = 0 ;
else
musb_ep - > dma - > desired_mode = 1 ;
use_dma = use_dma & & c - > channel_program (
musb_ep - > dma , musb_ep - > packet_sz ,
musb_ep - > dma - > desired_mode ,
request - > dma , request_size ) ;
if ( use_dma ) {
if ( musb_ep - > dma - > desired_mode = = 0 ) {
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/*
* We must not clear the DMAMODE bit
* before the DMAENAB bit - - and the
* latter doesn ' t always get cleared
* before we get here . . .
*/
csr & = ~ ( MUSB_TXCSR_AUTOSET
| MUSB_TXCSR_DMAENAB ) ;
musb_writew ( epio , MUSB_TXCSR , csr
| MUSB_TXCSR_P_WZC_BITS ) ;
csr & = ~ MUSB_TXCSR_DMAMODE ;
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csr | = ( MUSB_TXCSR_DMAENAB |
MUSB_TXCSR_MODE ) ;
/* against programming guide */
} else
csr | = ( MUSB_TXCSR_AUTOSET
| MUSB_TXCSR_DMAENAB
| MUSB_TXCSR_DMAMODE
| MUSB_TXCSR_MODE ) ;
csr & = ~ MUSB_TXCSR_P_UNDERRUN ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
}
}
# elif defined(CONFIG_USB_TI_CPPI_DMA)
/* program endpoint CSR first, then setup DMA */
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csr & = ~ ( MUSB_TXCSR_P_UNDERRUN | MUSB_TXCSR_TXPKTRDY ) ;
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csr | = MUSB_TXCSR_DMAENAB | MUSB_TXCSR_DMAMODE |
MUSB_TXCSR_MODE ;
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musb_writew ( epio , MUSB_TXCSR ,
( MUSB_TXCSR_P_WZC_BITS & ~ MUSB_TXCSR_P_UNDERRUN )
| csr ) ;
/* ensure writebuffer is empty */
csr = musb_readw ( epio , MUSB_TXCSR ) ;
/* NOTE host side sets DMAENAB later than this; both are
* OK since the transfer dma glue ( between CPPI and Mentor
* fifos ) just tells CPPI it could start . Data only moves
* to the USB TX fifo when both fifos are ready .
*/
/* "mode" is irrelevant here; handle terminating ZLPs like
* PIO does , since the hardware RNDIS mode seems unreliable
* except for the last - packet - is - already - short case .
*/
use_dma = use_dma & & c - > channel_program (
musb_ep - > dma , musb_ep - > packet_sz ,
0 ,
request - > dma ,
request - > length ) ;
if ( ! use_dma ) {
c - > channel_release ( musb_ep - > dma ) ;
musb_ep - > dma = NULL ;
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csr & = ~ MUSB_TXCSR_DMAENAB ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
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/* invariant: prequest->buf is non-null */
}
# elif defined(CONFIG_USB_TUSB_OMAP_DMA)
use_dma = use_dma & & c - > channel_program (
musb_ep - > dma , musb_ep - > packet_sz ,
request - > zero ,
request - > dma ,
request - > length ) ;
# endif
}
# endif
if ( ! use_dma ) {
musb_write_fifo ( musb_ep - > hw_ep , fifo_count ,
( u8 * ) ( request - > buf + request - > actual ) ) ;
request - > actual + = fifo_count ;
csr | = MUSB_TXCSR_TXPKTRDY ;
csr & = ~ MUSB_TXCSR_P_UNDERRUN ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
}
/* host may already have the data when this message shows... */
DBG ( 3 , " %s TX/IN %s len %d/%d, txcsr %04x, fifo %d/%d \n " ,
musb_ep - > end_point . name , use_dma ? " dma " : " pio " ,
request - > actual , request - > length ,
musb_readw ( epio , MUSB_TXCSR ) ,
fifo_count ,
musb_readw ( epio , MUSB_TXMAXP ) ) ;
}
/*
* FIFO state update ( e . g . data ready ) .
* Called from IRQ , with controller locked .
*/
void musb_g_tx ( struct musb * musb , u8 epnum )
{
u16 csr ;
struct usb_request * request ;
u8 __iomem * mbase = musb - > mregs ;
struct musb_ep * musb_ep = & musb - > endpoints [ epnum ] . ep_in ;
void __iomem * epio = musb - > endpoints [ epnum ] . regs ;
struct dma_channel * dma ;
musb_ep_select ( mbase , epnum ) ;
request = next_request ( musb_ep ) ;
csr = musb_readw ( epio , MUSB_TXCSR ) ;
DBG ( 4 , " <== %s, txcsr %04x \n " , musb_ep - > end_point . name , csr ) ;
dma = is_dma_capable ( ) ? musb_ep - > dma : NULL ;
do {
/* REVISIT for high bandwidth, MUSB_TXCSR_P_INCOMPTX
* probably rates reporting as a host error
*/
if ( csr & MUSB_TXCSR_P_SENTSTALL ) {
csr | = MUSB_TXCSR_P_WZC_BITS ;
csr & = ~ MUSB_TXCSR_P_SENTSTALL ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
if ( dma_channel_status ( dma ) = = MUSB_DMA_STATUS_BUSY ) {
dma - > status = MUSB_DMA_STATUS_CORE_ABORT ;
musb - > dma_controller - > channel_abort ( dma ) ;
}
if ( request )
musb_g_giveback ( musb_ep , request , - EPIPE ) ;
break ;
}
if ( csr & MUSB_TXCSR_P_UNDERRUN ) {
/* we NAKed, no big deal ... little reason to care */
csr | = MUSB_TXCSR_P_WZC_BITS ;
csr & = ~ ( MUSB_TXCSR_P_UNDERRUN
| MUSB_TXCSR_TXPKTRDY ) ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
DBG ( 20 , " underrun on ep%d, req %p \n " , epnum , request ) ;
}
if ( dma_channel_status ( dma ) = = MUSB_DMA_STATUS_BUSY ) {
/* SHOULD NOT HAPPEN ... has with cppi though, after
* changing SENDSTALL ( and other cases ) ; harmless ?
*/
DBG ( 5 , " %s dma still busy? \n " , musb_ep - > end_point . name ) ;
break ;
}
if ( request ) {
u8 is_dma = 0 ;
if ( dma & & ( csr & MUSB_TXCSR_DMAENAB ) ) {
is_dma = 1 ;
csr | = MUSB_TXCSR_P_WZC_BITS ;
csr & = ~ ( MUSB_TXCSR_DMAENAB
| MUSB_TXCSR_P_UNDERRUN
| MUSB_TXCSR_TXPKTRDY ) ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
/* ensure writebuffer is empty */
csr = musb_readw ( epio , MUSB_TXCSR ) ;
request - > actual + = musb_ep - > dma - > actual_len ;
DBG ( 4 , " TXCSR%d %04x, dma off, "
" len %zu, req %p \n " ,
epnum , csr ,
musb_ep - > dma - > actual_len ,
request ) ;
}
if ( is_dma | | request - > actual = = request - > length ) {
/* First, maybe a terminating short packet.
* Some DMA engines might handle this by
* themselves .
*/
if ( ( request - > zero
& & request - > length
& & ( request - > length
% musb_ep - > packet_sz )
= = 0 )
# ifdef CONFIG_USB_INVENTRA_DMA
| | ( is_dma & &
( ( ! dma - > desired_mode ) | |
( request - > actual &
( musb_ep - > packet_sz - 1 ) ) ) )
# endif
) {
/* on dma completion, fifo may not
* be available yet . . .
*/
if ( csr & MUSB_TXCSR_TXPKTRDY )
break ;
DBG ( 4 , " sending zero pkt \n " ) ;
musb_writew ( epio , MUSB_TXCSR ,
MUSB_TXCSR_MODE
| MUSB_TXCSR_TXPKTRDY ) ;
request - > zero = 0 ;
}
/* ... or if not, then complete it */
musb_g_giveback ( musb_ep , request , 0 ) ;
/* kickstart next transfer if appropriate;
* the packet that just completed might not
* be transmitted for hours or days .
* REVISIT for double buffering . . .
* FIXME revisit for stalls too . . .
*/
musb_ep_select ( mbase , epnum ) ;
csr = musb_readw ( epio , MUSB_TXCSR ) ;
if ( csr & MUSB_TXCSR_FIFONOTEMPTY )
break ;
request = musb_ep - > desc
? next_request ( musb_ep )
: NULL ;
if ( ! request ) {
DBG ( 4 , " %s idle now \n " ,
musb_ep - > end_point . name ) ;
break ;
}
}
txstate ( musb , to_musb_request ( request ) ) ;
}
} while ( 0 ) ;
}
/* ------------------------------------------------------------ */
# ifdef CONFIG_USB_INVENTRA_DMA
/* Peripheral rx (OUT) using Mentor DMA works as follows:
- Only mode 0 is used .
- Request is queued by the gadget class driver .
- > if queue was previously empty , rxstate ( )
- Host sends OUT token which causes an endpoint interrupt
/ \ - > RxReady
| - > if request queued , call rxstate
| / \ - > setup DMA
| | - > DMA interrupt on completion
| | - > RxReady
| | - > stop DMA
| | - > ack the read
| | - > if data recd = max expected
| | by the request , or host
| | sent a short packet ,
| | complete the request ,
| | and start the next one .
| | _____________________________________ |
| else just wait for the host
| to send the next OUT token .
| __________________________________________________ |
* Non - Mentor DMA engines can of course work differently .
*/
# endif
/*
* Context : controller locked , IRQs blocked , endpoint selected
*/
static void rxstate ( struct musb * musb , struct musb_request * req )
{
u16 csr = 0 ;
const u8 epnum = req - > epnum ;
struct usb_request * request = & req - > request ;
struct musb_ep * musb_ep = & musb - > endpoints [ epnum ] . ep_out ;
void __iomem * epio = musb - > endpoints [ epnum ] . regs ;
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unsigned fifo_count = 0 ;
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u16 len = musb_ep - > packet_sz ;
csr = musb_readw ( epio , MUSB_RXCSR ) ;
if ( is_cppi_enabled ( ) & & musb_ep - > dma ) {
struct dma_controller * c = musb - > dma_controller ;
struct dma_channel * channel = musb_ep - > dma ;
/* NOTE: CPPI won't actually stop advancing the DMA
* queue after short packet transfers , so this is almost
* always going to run as IRQ - per - packet DMA so that
* faults will be handled correctly .
*/
if ( c - > channel_program ( channel ,
musb_ep - > packet_sz ,
! request - > short_not_ok ,
request - > dma + request - > actual ,
request - > length - request - > actual ) ) {
/* make sure that if an rxpkt arrived after the irq,
* the cppi engine will be ready to take it as soon
* as DMA is enabled
*/
csr & = ~ ( MUSB_RXCSR_AUTOCLEAR
| MUSB_RXCSR_DMAMODE ) ;
csr | = MUSB_RXCSR_DMAENAB | MUSB_RXCSR_P_WZC_BITS ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
return ;
}
}
if ( csr & MUSB_RXCSR_RXPKTRDY ) {
len = musb_readw ( epio , MUSB_RXCOUNT ) ;
if ( request - > actual < request - > length ) {
# ifdef CONFIG_USB_INVENTRA_DMA
if ( is_dma_capable ( ) & & musb_ep - > dma ) {
struct dma_controller * c ;
struct dma_channel * channel ;
int use_dma = 0 ;
c = musb - > dma_controller ;
channel = musb_ep - > dma ;
/* We use DMA Req mode 0 in rx_csr, and DMA controller operates in
* mode 0 only . So we do not get endpoint interrupts due to DMA
* completion . We only get interrupts from DMA controller .
*
* We could operate in DMA mode 1 if we knew the size of the tranfer
* in advance . For mass storage class , request - > length = what the host
* sends , so that ' d work . But for pretty much everything else ,
* request - > length is routinely more than what the host sends . For
* most these gadgets , end of is signified either by a short packet ,
* or filling the last byte of the buffer . ( Sending extra data in
* that last pckate should trigger an overflow fault . ) But in mode 1 ,
* we don ' t get DMA completion interrrupt for short packets .
*
* Theoretically , we could enable DMAReq irq ( MUSB_RXCSR_DMAMODE = 1 ) ,
* to get endpoint interrupt on every DMA req , but that didn ' t seem
* to work reliably .
*
* REVISIT an updated g_file_storage can set req - > short_not_ok , which
* then becomes usable as a runtime " use mode 1 " hint . . .
*/
csr | = MUSB_RXCSR_DMAENAB ;
# ifdef USE_MODE1
csr | = MUSB_RXCSR_AUTOCLEAR ;
/* csr |= MUSB_RXCSR_DMAMODE; */
/* this special sequence (enabling and then
* disabling MUSB_RXCSR_DMAMODE ) is required
* to get DMAReq to activate
*/
musb_writew ( epio , MUSB_RXCSR ,
csr | MUSB_RXCSR_DMAMODE ) ;
# endif
musb_writew ( epio , MUSB_RXCSR , csr ) ;
if ( request - > actual < request - > length ) {
int transfer_size = 0 ;
# ifdef USE_MODE1
transfer_size = min ( request - > length ,
channel - > max_len ) ;
# else
transfer_size = len ;
# endif
if ( transfer_size < = musb_ep - > packet_sz )
musb_ep - > dma - > desired_mode = 0 ;
else
musb_ep - > dma - > desired_mode = 1 ;
use_dma = c - > channel_program (
channel ,
musb_ep - > packet_sz ,
channel - > desired_mode ,
request - > dma
+ request - > actual ,
transfer_size ) ;
}
if ( use_dma )
return ;
}
# endif /* Mentor's DMA */
fifo_count = request - > length - request - > actual ;
DBG ( 3 , " %s OUT/RX pio fifo %d/%d, maxpacket %d \n " ,
musb_ep - > end_point . name ,
len , fifo_count ,
musb_ep - > packet_sz ) ;
2009-02-22 02:29:42 +03:00
fifo_count = min_t ( unsigned , len , fifo_count ) ;
2008-07-24 13:27:36 +04:00
# ifdef CONFIG_USB_TUSB_OMAP_DMA
if ( tusb_dma_omap ( ) & & musb_ep - > dma ) {
struct dma_controller * c = musb - > dma_controller ;
struct dma_channel * channel = musb_ep - > dma ;
u32 dma_addr = request - > dma + request - > actual ;
int ret ;
ret = c - > channel_program ( channel ,
musb_ep - > packet_sz ,
channel - > desired_mode ,
dma_addr ,
fifo_count ) ;
if ( ret )
return ;
}
# endif
musb_read_fifo ( musb_ep - > hw_ep , fifo_count , ( u8 * )
( request - > buf + request - > actual ) ) ;
request - > actual + = fifo_count ;
/* REVISIT if we left anything in the fifo, flush
* it and report - EOVERFLOW
*/
/* ack the read! */
csr | = MUSB_RXCSR_P_WZC_BITS ;
csr & = ~ MUSB_RXCSR_RXPKTRDY ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
}
}
/* reach the end or short packet detected */
if ( request - > actual = = request - > length | | len < musb_ep - > packet_sz )
musb_g_giveback ( musb_ep , request , 0 ) ;
}
/*
* Data ready for a request ; called from IRQ
*/
void musb_g_rx ( struct musb * musb , u8 epnum )
{
u16 csr ;
struct usb_request * request ;
void __iomem * mbase = musb - > mregs ;
struct musb_ep * musb_ep = & musb - > endpoints [ epnum ] . ep_out ;
void __iomem * epio = musb - > endpoints [ epnum ] . regs ;
struct dma_channel * dma ;
musb_ep_select ( mbase , epnum ) ;
request = next_request ( musb_ep ) ;
csr = musb_readw ( epio , MUSB_RXCSR ) ;
dma = is_dma_capable ( ) ? musb_ep - > dma : NULL ;
DBG ( 4 , " <== %s, rxcsr %04x%s %p \n " , musb_ep - > end_point . name ,
csr , dma ? " (dma) " : " " , request ) ;
if ( csr & MUSB_RXCSR_P_SENTSTALL ) {
if ( dma_channel_status ( dma ) = = MUSB_DMA_STATUS_BUSY ) {
dma - > status = MUSB_DMA_STATUS_CORE_ABORT ;
( void ) musb - > dma_controller - > channel_abort ( dma ) ;
request - > actual + = musb_ep - > dma - > actual_len ;
}
csr | = MUSB_RXCSR_P_WZC_BITS ;
csr & = ~ MUSB_RXCSR_P_SENTSTALL ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
if ( request )
musb_g_giveback ( musb_ep , request , - EPIPE ) ;
goto done ;
}
if ( csr & MUSB_RXCSR_P_OVERRUN ) {
/* csr |= MUSB_RXCSR_P_WZC_BITS; */
csr & = ~ MUSB_RXCSR_P_OVERRUN ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
DBG ( 3 , " %s iso overrun on %p \n " , musb_ep - > name , request ) ;
if ( request & & request - > status = = - EINPROGRESS )
request - > status = - EOVERFLOW ;
}
if ( csr & MUSB_RXCSR_INCOMPRX ) {
/* REVISIT not necessarily an error */
DBG ( 4 , " %s, incomprx \n " , musb_ep - > end_point . name ) ;
}
if ( dma_channel_status ( dma ) = = MUSB_DMA_STATUS_BUSY ) {
/* "should not happen"; likely RXPKTRDY pending for DMA */
DBG ( ( csr & MUSB_RXCSR_DMAENAB ) ? 4 : 1 ,
" %s busy, csr %04x \n " ,
musb_ep - > end_point . name , csr ) ;
goto done ;
}
if ( dma & & ( csr & MUSB_RXCSR_DMAENAB ) ) {
csr & = ~ ( MUSB_RXCSR_AUTOCLEAR
| MUSB_RXCSR_DMAENAB
| MUSB_RXCSR_DMAMODE ) ;
musb_writew ( epio , MUSB_RXCSR ,
MUSB_RXCSR_P_WZC_BITS | csr ) ;
request - > actual + = musb_ep - > dma - > actual_len ;
DBG ( 4 , " RXCSR%d %04x, dma off, %04x, len %zu, req %p \n " ,
epnum , csr ,
musb_readw ( epio , MUSB_RXCSR ) ,
musb_ep - > dma - > actual_len , request ) ;
# if defined(CONFIG_USB_INVENTRA_DMA) || defined(CONFIG_USB_TUSB_OMAP_DMA)
/* Autoclear doesn't clear RxPktRdy for short packets */
if ( ( dma - > desired_mode = = 0 )
| | ( dma - > actual_len
& ( musb_ep - > packet_sz - 1 ) ) ) {
/* ack the read! */
csr & = ~ MUSB_RXCSR_RXPKTRDY ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
}
/* incomplete, and not short? wait for next IN packet */
if ( ( request - > actual < request - > length )
& & ( musb_ep - > dma - > actual_len
= = musb_ep - > packet_sz ) )
goto done ;
# endif
musb_g_giveback ( musb_ep , request , 0 ) ;
request = next_request ( musb_ep ) ;
if ( ! request )
goto done ;
/* don't start more i/o till the stall clears */
musb_ep_select ( mbase , epnum ) ;
csr = musb_readw ( epio , MUSB_RXCSR ) ;
if ( csr & MUSB_RXCSR_P_SENDSTALL )
goto done ;
}
/* analyze request if the ep is hot */
if ( request )
rxstate ( musb , to_musb_request ( request ) ) ;
else
DBG ( 3 , " packet waiting for %s%s request \n " ,
musb_ep - > desc ? " " : " inactive " ,
musb_ep - > end_point . name ) ;
done :
return ;
}
/* ------------------------------------------------------------ */
static int musb_gadget_enable ( struct usb_ep * ep ,
const struct usb_endpoint_descriptor * desc )
{
unsigned long flags ;
struct musb_ep * musb_ep ;
struct musb_hw_ep * hw_ep ;
void __iomem * regs ;
struct musb * musb ;
void __iomem * mbase ;
u8 epnum ;
u16 csr ;
unsigned tmp ;
int status = - EINVAL ;
if ( ! ep | | ! desc )
return - EINVAL ;
musb_ep = to_musb_ep ( ep ) ;
hw_ep = musb_ep - > hw_ep ;
regs = hw_ep - > regs ;
musb = musb_ep - > musb ;
mbase = musb - > mregs ;
epnum = musb_ep - > current_epnum ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
if ( musb_ep - > desc ) {
status = - EBUSY ;
goto fail ;
}
2009-01-25 04:57:24 +03:00
musb_ep - > type = usb_endpoint_type ( desc ) ;
2008-07-24 13:27:36 +04:00
/* check direction and (later) maxpacket size against endpoint */
2009-01-25 04:57:24 +03:00
if ( usb_endpoint_num ( desc ) ! = epnum )
2008-07-24 13:27:36 +04:00
goto fail ;
/* REVISIT this rules out high bandwidth periodic transfers */
tmp = le16_to_cpu ( desc - > wMaxPacketSize ) ;
if ( tmp & ~ 0x07ff )
goto fail ;
musb_ep - > packet_sz = tmp ;
/* enable the interrupts for the endpoint, set the endpoint
* packet size ( or fail ) , set the mode , clear the fifo
*/
musb_ep_select ( mbase , epnum ) ;
2009-01-25 04:57:24 +03:00
if ( usb_endpoint_dir_in ( desc ) ) {
2008-07-24 13:27:36 +04:00
u16 int_txe = musb_readw ( mbase , MUSB_INTRTXE ) ;
if ( hw_ep - > is_shared_fifo )
musb_ep - > is_in = 1 ;
if ( ! musb_ep - > is_in )
goto fail ;
if ( tmp > hw_ep - > max_packet_sz_tx )
goto fail ;
int_txe | = ( 1 < < epnum ) ;
musb_writew ( mbase , MUSB_INTRTXE , int_txe ) ;
/* REVISIT if can_bulk_split(), use by updating "tmp";
* likewise high bandwidth periodic tx
*/
musb_writew ( regs , MUSB_TXMAXP , tmp ) ;
csr = MUSB_TXCSR_MODE | MUSB_TXCSR_CLRDATATOG ;
if ( musb_readw ( regs , MUSB_TXCSR )
& MUSB_TXCSR_FIFONOTEMPTY )
csr | = MUSB_TXCSR_FLUSHFIFO ;
if ( musb_ep - > type = = USB_ENDPOINT_XFER_ISOC )
csr | = MUSB_TXCSR_P_ISO ;
/* set twice in case of double buffering */
musb_writew ( regs , MUSB_TXCSR , csr ) ;
/* REVISIT may be inappropriate w/o FIFONOTEMPTY ... */
musb_writew ( regs , MUSB_TXCSR , csr ) ;
} else {
u16 int_rxe = musb_readw ( mbase , MUSB_INTRRXE ) ;
if ( hw_ep - > is_shared_fifo )
musb_ep - > is_in = 0 ;
if ( musb_ep - > is_in )
goto fail ;
if ( tmp > hw_ep - > max_packet_sz_rx )
goto fail ;
int_rxe | = ( 1 < < epnum ) ;
musb_writew ( mbase , MUSB_INTRRXE , int_rxe ) ;
/* REVISIT if can_bulk_combine() use by updating "tmp"
* likewise high bandwidth periodic rx
*/
musb_writew ( regs , MUSB_RXMAXP , tmp ) ;
/* force shared fifo to OUT-only mode */
if ( hw_ep - > is_shared_fifo ) {
csr = musb_readw ( regs , MUSB_TXCSR ) ;
csr & = ~ ( MUSB_TXCSR_MODE | MUSB_TXCSR_TXPKTRDY ) ;
musb_writew ( regs , MUSB_TXCSR , csr ) ;
}
csr = MUSB_RXCSR_FLUSHFIFO | MUSB_RXCSR_CLRDATATOG ;
if ( musb_ep - > type = = USB_ENDPOINT_XFER_ISOC )
csr | = MUSB_RXCSR_P_ISO ;
else if ( musb_ep - > type = = USB_ENDPOINT_XFER_INT )
csr | = MUSB_RXCSR_DISNYET ;
/* set twice in case of double buffering */
musb_writew ( regs , MUSB_RXCSR , csr ) ;
musb_writew ( regs , MUSB_RXCSR , csr ) ;
}
/* NOTE: all the I/O code _should_ work fine without DMA, in case
* for some reason you run out of channels here .
*/
if ( is_dma_capable ( ) & & musb - > dma_controller ) {
struct dma_controller * c = musb - > dma_controller ;
musb_ep - > dma = c - > channel_alloc ( c , hw_ep ,
( desc - > bEndpointAddress & USB_DIR_IN ) ) ;
} else
musb_ep - > dma = NULL ;
musb_ep - > desc = desc ;
musb_ep - > busy = 0 ;
status = 0 ;
pr_debug ( " %s periph: enabled %s for %s %s, %smaxpacket %d \n " ,
musb_driver_name , musb_ep - > end_point . name ,
( { char * s ; switch ( musb_ep - > type ) {
case USB_ENDPOINT_XFER_BULK : s = " bulk " ; break ;
case USB_ENDPOINT_XFER_INT : s = " int " ; break ;
default : s = " iso " ; break ;
} ; s ; } ) ,
musb_ep - > is_in ? " IN " : " OUT " ,
musb_ep - > dma ? " dma, " : " " ,
musb_ep - > packet_sz ) ;
schedule_work ( & musb - > irq_work ) ;
fail :
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
return status ;
}
/*
* Disable an endpoint flushing all requests queued .
*/
static int musb_gadget_disable ( struct usb_ep * ep )
{
unsigned long flags ;
struct musb * musb ;
u8 epnum ;
struct musb_ep * musb_ep ;
void __iomem * epio ;
int status = 0 ;
musb_ep = to_musb_ep ( ep ) ;
musb = musb_ep - > musb ;
epnum = musb_ep - > current_epnum ;
epio = musb - > endpoints [ epnum ] . regs ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
musb_ep_select ( musb - > mregs , epnum ) ;
/* zero the endpoint sizes */
if ( musb_ep - > is_in ) {
u16 int_txe = musb_readw ( musb - > mregs , MUSB_INTRTXE ) ;
int_txe & = ~ ( 1 < < epnum ) ;
musb_writew ( musb - > mregs , MUSB_INTRTXE , int_txe ) ;
musb_writew ( epio , MUSB_TXMAXP , 0 ) ;
} else {
u16 int_rxe = musb_readw ( musb - > mregs , MUSB_INTRRXE ) ;
int_rxe & = ~ ( 1 < < epnum ) ;
musb_writew ( musb - > mregs , MUSB_INTRRXE , int_rxe ) ;
musb_writew ( epio , MUSB_RXMAXP , 0 ) ;
}
musb_ep - > desc = NULL ;
/* abort all pending DMA and requests */
nuke ( musb_ep , - ESHUTDOWN ) ;
schedule_work ( & musb - > irq_work ) ;
spin_unlock_irqrestore ( & ( musb - > lock ) , flags ) ;
DBG ( 2 , " %s \n " , musb_ep - > end_point . name ) ;
return status ;
}
/*
* Allocate a request for an endpoint .
* Reused by ep0 code .
*/
struct usb_request * musb_alloc_request ( struct usb_ep * ep , gfp_t gfp_flags )
{
struct musb_ep * musb_ep = to_musb_ep ( ep ) ;
struct musb_request * request = NULL ;
request = kzalloc ( sizeof * request , gfp_flags ) ;
if ( request ) {
INIT_LIST_HEAD ( & request - > request . list ) ;
request - > request . dma = DMA_ADDR_INVALID ;
request - > epnum = musb_ep - > current_epnum ;
request - > ep = musb_ep ;
}
return & request - > request ;
}
/*
* Free a request
* Reused by ep0 code .
*/
void musb_free_request ( struct usb_ep * ep , struct usb_request * req )
{
kfree ( to_musb_request ( req ) ) ;
}
static LIST_HEAD ( buffers ) ;
struct free_record {
struct list_head list ;
struct device * dev ;
unsigned bytes ;
dma_addr_t dma ;
} ;
/*
* Context : controller locked , IRQs blocked .
*/
static void musb_ep_restart ( struct musb * musb , struct musb_request * req )
{
DBG ( 3 , " <== %s request %p len %u on hw_ep%d \n " ,
req - > tx ? " TX/IN " : " RX/OUT " ,
& req - > request , req - > request . length , req - > epnum ) ;
musb_ep_select ( musb - > mregs , req - > epnum ) ;
if ( req - > tx )
txstate ( musb , req ) ;
else
rxstate ( musb , req ) ;
}
static int musb_gadget_queue ( struct usb_ep * ep , struct usb_request * req ,
gfp_t gfp_flags )
{
struct musb_ep * musb_ep ;
struct musb_request * request ;
struct musb * musb ;
int status = 0 ;
unsigned long lockflags ;
if ( ! ep | | ! req )
return - EINVAL ;
if ( ! req - > buf )
return - ENODATA ;
musb_ep = to_musb_ep ( ep ) ;
musb = musb_ep - > musb ;
request = to_musb_request ( req ) ;
request - > musb = musb ;
if ( request - > ep ! = musb_ep )
return - EINVAL ;
DBG ( 4 , " <== to %s request=%p \n " , ep - > name , req ) ;
/* request is mine now... */
request - > request . actual = 0 ;
request - > request . status = - EINPROGRESS ;
request - > epnum = musb_ep - > current_epnum ;
request - > tx = musb_ep - > is_in ;
if ( is_dma_capable ( ) & & musb_ep - > dma ) {
if ( request - > request . dma = = DMA_ADDR_INVALID ) {
request - > request . dma = dma_map_single (
musb - > controller ,
request - > request . buf ,
request - > request . length ,
request - > tx
? DMA_TO_DEVICE
: DMA_FROM_DEVICE ) ;
request - > mapped = 1 ;
} else {
dma_sync_single_for_device ( musb - > controller ,
request - > request . dma ,
request - > request . length ,
request - > tx
? DMA_TO_DEVICE
: DMA_FROM_DEVICE ) ;
request - > mapped = 0 ;
}
} else if ( ! req - > buf ) {
return - ENODATA ;
} else
request - > mapped = 0 ;
spin_lock_irqsave ( & musb - > lock , lockflags ) ;
/* don't queue if the ep is down */
if ( ! musb_ep - > desc ) {
DBG ( 4 , " req %p queued to %s while ep %s \n " ,
req , ep - > name , " disabled " ) ;
status = - ESHUTDOWN ;
goto cleanup ;
}
/* add request to the list */
list_add_tail ( & ( request - > request . list ) , & ( musb_ep - > req_list ) ) ;
/* it this is the head of the queue, start i/o ... */
if ( ! musb_ep - > busy & & & request - > request . list = = musb_ep - > req_list . next )
musb_ep_restart ( musb , request ) ;
cleanup :
spin_unlock_irqrestore ( & musb - > lock , lockflags ) ;
return status ;
}
static int musb_gadget_dequeue ( struct usb_ep * ep , struct usb_request * request )
{
struct musb_ep * musb_ep = to_musb_ep ( ep ) ;
struct usb_request * r ;
unsigned long flags ;
int status = 0 ;
struct musb * musb = musb_ep - > musb ;
if ( ! ep | | ! request | | to_musb_request ( request ) - > ep ! = musb_ep )
return - EINVAL ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
list_for_each_entry ( r , & musb_ep - > req_list , list ) {
if ( r = = request )
break ;
}
if ( r ! = request ) {
DBG ( 3 , " request %p not queued to %s \n " , request , ep - > name ) ;
status = - EINVAL ;
goto done ;
}
/* if the hardware doesn't have the request, easy ... */
if ( musb_ep - > req_list . next ! = & request - > list | | musb_ep - > busy )
musb_g_giveback ( musb_ep , request , - ECONNRESET ) ;
/* ... else abort the dma transfer ... */
else if ( is_dma_capable ( ) & & musb_ep - > dma ) {
struct dma_controller * c = musb - > dma_controller ;
musb_ep_select ( musb - > mregs , musb_ep - > current_epnum ) ;
if ( c - > channel_abort )
status = c - > channel_abort ( musb_ep - > dma ) ;
else
status = - EBUSY ;
if ( status = = 0 )
musb_g_giveback ( musb_ep , request , - ECONNRESET ) ;
} else {
/* NOTE: by sticking to easily tested hardware/driver states,
* we leave counting of in - flight packets imprecise .
*/
musb_g_giveback ( musb_ep , request , - ECONNRESET ) ;
}
done :
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
return status ;
}
/*
* Set or clear the halt bit of an endpoint . A halted enpoint won ' t tx / rx any
* data but will queue requests .
*
* exported to ep0 code
*/
int musb_gadget_set_halt ( struct usb_ep * ep , int value )
{
struct musb_ep * musb_ep = to_musb_ep ( ep ) ;
u8 epnum = musb_ep - > current_epnum ;
struct musb * musb = musb_ep - > musb ;
void __iomem * epio = musb - > endpoints [ epnum ] . regs ;
void __iomem * mbase ;
unsigned long flags ;
u16 csr ;
struct musb_request * request = NULL ;
int status = 0 ;
if ( ! ep )
return - EINVAL ;
mbase = musb - > mregs ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
if ( ( USB_ENDPOINT_XFER_ISOC = = musb_ep - > type ) ) {
status = - EINVAL ;
goto done ;
}
musb_ep_select ( mbase , epnum ) ;
/* cannot portably stall with non-empty FIFO */
request = to_musb_request ( next_request ( musb_ep ) ) ;
if ( value & & musb_ep - > is_in ) {
csr = musb_readw ( epio , MUSB_TXCSR ) ;
if ( csr & MUSB_TXCSR_FIFONOTEMPTY ) {
DBG ( 3 , " %s fifo busy, cannot halt \n " , ep - > name ) ;
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
return - EAGAIN ;
}
}
/* set/clear the stall and toggle bits */
DBG ( 2 , " %s: %s stall \n " , ep - > name , value ? " set " : " clear " ) ;
if ( musb_ep - > is_in ) {
csr = musb_readw ( epio , MUSB_TXCSR ) ;
if ( csr & MUSB_TXCSR_FIFONOTEMPTY )
csr | = MUSB_TXCSR_FLUSHFIFO ;
csr | = MUSB_TXCSR_P_WZC_BITS
| MUSB_TXCSR_CLRDATATOG ;
if ( value )
csr | = MUSB_TXCSR_P_SENDSTALL ;
else
csr & = ~ ( MUSB_TXCSR_P_SENDSTALL
| MUSB_TXCSR_P_SENTSTALL ) ;
csr & = ~ MUSB_TXCSR_TXPKTRDY ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
} else {
csr = musb_readw ( epio , MUSB_RXCSR ) ;
csr | = MUSB_RXCSR_P_WZC_BITS
| MUSB_RXCSR_FLUSHFIFO
| MUSB_RXCSR_CLRDATATOG ;
if ( value )
csr | = MUSB_RXCSR_P_SENDSTALL ;
else
csr & = ~ ( MUSB_RXCSR_P_SENDSTALL
| MUSB_RXCSR_P_SENTSTALL ) ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
}
done :
/* maybe start the first request in the queue */
if ( ! musb_ep - > busy & & ! value & & request ) {
DBG ( 3 , " restarting the request \n " ) ;
musb_ep_restart ( musb , request ) ;
}
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
return status ;
}
static int musb_gadget_fifo_status ( struct usb_ep * ep )
{
struct musb_ep * musb_ep = to_musb_ep ( ep ) ;
void __iomem * epio = musb_ep - > hw_ep - > regs ;
int retval = - EINVAL ;
if ( musb_ep - > desc & & ! musb_ep - > is_in ) {
struct musb * musb = musb_ep - > musb ;
int epnum = musb_ep - > current_epnum ;
void __iomem * mbase = musb - > mregs ;
unsigned long flags ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
musb_ep_select ( mbase , epnum ) ;
/* FIXME return zero unless RXPKTRDY is set */
retval = musb_readw ( epio , MUSB_RXCOUNT ) ;
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
}
return retval ;
}
static void musb_gadget_fifo_flush ( struct usb_ep * ep )
{
struct musb_ep * musb_ep = to_musb_ep ( ep ) ;
struct musb * musb = musb_ep - > musb ;
u8 epnum = musb_ep - > current_epnum ;
void __iomem * epio = musb - > endpoints [ epnum ] . regs ;
void __iomem * mbase ;
unsigned long flags ;
u16 csr , int_txe ;
mbase = musb - > mregs ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
musb_ep_select ( mbase , ( u8 ) epnum ) ;
/* disable interrupts */
int_txe = musb_readw ( mbase , MUSB_INTRTXE ) ;
musb_writew ( mbase , MUSB_INTRTXE , int_txe & ~ ( 1 < < epnum ) ) ;
if ( musb_ep - > is_in ) {
csr = musb_readw ( epio , MUSB_TXCSR ) ;
if ( csr & MUSB_TXCSR_FIFONOTEMPTY ) {
csr | = MUSB_TXCSR_FLUSHFIFO | MUSB_TXCSR_P_WZC_BITS ;
musb_writew ( epio , MUSB_TXCSR , csr ) ;
/* REVISIT may be inappropriate w/o FIFONOTEMPTY ... */
musb_writew ( epio , MUSB_TXCSR , csr ) ;
}
} else {
csr = musb_readw ( epio , MUSB_RXCSR ) ;
csr | = MUSB_RXCSR_FLUSHFIFO | MUSB_RXCSR_P_WZC_BITS ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
musb_writew ( epio , MUSB_RXCSR , csr ) ;
}
/* re-enable interrupt */
musb_writew ( mbase , MUSB_INTRTXE , int_txe ) ;
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
}
static const struct usb_ep_ops musb_ep_ops = {
. enable = musb_gadget_enable ,
. disable = musb_gadget_disable ,
. alloc_request = musb_alloc_request ,
. free_request = musb_free_request ,
. queue = musb_gadget_queue ,
. dequeue = musb_gadget_dequeue ,
. set_halt = musb_gadget_set_halt ,
. fifo_status = musb_gadget_fifo_status ,
. fifo_flush = musb_gadget_fifo_flush
} ;
/* ----------------------------------------------------------------------- */
static int musb_gadget_get_frame ( struct usb_gadget * gadget )
{
struct musb * musb = gadget_to_musb ( gadget ) ;
return ( int ) musb_readw ( musb - > mregs , MUSB_FRAME ) ;
}
static int musb_gadget_wakeup ( struct usb_gadget * gadget )
{
struct musb * musb = gadget_to_musb ( gadget ) ;
void __iomem * mregs = musb - > mregs ;
unsigned long flags ;
int status = - EINVAL ;
u8 power , devctl ;
int retries ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
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switch ( musb - > xceiv - > state ) {
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case OTG_STATE_B_PERIPHERAL :
/* NOTE: OTG state machine doesn't include B_SUSPENDED;
* that ' s part of the standard usb 1.1 state machine , and
* doesn ' t affect OTG transitions .
*/
if ( musb - > may_wakeup & & musb - > is_suspended )
break ;
goto done ;
case OTG_STATE_B_IDLE :
/* Start SRP ... OTG not required. */
devctl = musb_readb ( mregs , MUSB_DEVCTL ) ;
DBG ( 2 , " Sending SRP: devctl: %02x \n " , devctl ) ;
devctl | = MUSB_DEVCTL_SESSION ;
musb_writeb ( mregs , MUSB_DEVCTL , devctl ) ;
devctl = musb_readb ( mregs , MUSB_DEVCTL ) ;
retries = 100 ;
while ( ! ( devctl & MUSB_DEVCTL_SESSION ) ) {
devctl = musb_readb ( mregs , MUSB_DEVCTL ) ;
if ( retries - - < 1 )
break ;
}
retries = 10000 ;
while ( devctl & MUSB_DEVCTL_SESSION ) {
devctl = musb_readb ( mregs , MUSB_DEVCTL ) ;
if ( retries - - < 1 )
break ;
}
/* Block idling for at least 1s */
musb_platform_try_idle ( musb ,
jiffies + msecs_to_jiffies ( 1 * HZ ) ) ;
status = 0 ;
goto done ;
default :
DBG ( 2 , " Unhandled wake: %s \n " , otg_state_string ( musb ) ) ;
goto done ;
}
status = 0 ;
power = musb_readb ( mregs , MUSB_POWER ) ;
power | = MUSB_POWER_RESUME ;
musb_writeb ( mregs , MUSB_POWER , power ) ;
DBG ( 2 , " issue wakeup \n " ) ;
/* FIXME do this next chunk in a timer callback, no udelay */
mdelay ( 2 ) ;
power = musb_readb ( mregs , MUSB_POWER ) ;
power & = ~ MUSB_POWER_RESUME ;
musb_writeb ( mregs , MUSB_POWER , power ) ;
done :
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
return status ;
}
static int
musb_gadget_set_self_powered ( struct usb_gadget * gadget , int is_selfpowered )
{
struct musb * musb = gadget_to_musb ( gadget ) ;
musb - > is_self_powered = ! ! is_selfpowered ;
return 0 ;
}
static void musb_pullup ( struct musb * musb , int is_on )
{
u8 power ;
power = musb_readb ( musb - > mregs , MUSB_POWER ) ;
if ( is_on )
power | = MUSB_POWER_SOFTCONN ;
else
power & = ~ MUSB_POWER_SOFTCONN ;
/* FIXME if on, HdrcStart; if off, HdrcStop */
DBG ( 3 , " gadget %s D+ pullup %s \n " ,
musb - > gadget_driver - > function , is_on ? " on " : " off " ) ;
musb_writeb ( musb - > mregs , MUSB_POWER , power ) ;
}
#if 0
static int musb_gadget_vbus_session ( struct usb_gadget * gadget , int is_active )
{
DBG ( 2 , " <= %s => \n " , __func__ ) ;
/*
* FIXME iff driver ' s softconnect flag is set ( as it is during probe ,
* though that can clear it ) , just musb_pullup ( ) .
*/
return - EINVAL ;
}
# endif
static int musb_gadget_vbus_draw ( struct usb_gadget * gadget , unsigned mA )
{
struct musb * musb = gadget_to_musb ( gadget ) ;
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if ( ! musb - > xceiv - > set_power )
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return - EOPNOTSUPP ;
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return otg_set_power ( musb - > xceiv , mA ) ;
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}
static int musb_gadget_pullup ( struct usb_gadget * gadget , int is_on )
{
struct musb * musb = gadget_to_musb ( gadget ) ;
unsigned long flags ;
is_on = ! ! is_on ;
/* NOTE: this assumes we are sensing vbus; we'd rather
* not pullup unless the B - session is active .
*/
spin_lock_irqsave ( & musb - > lock , flags ) ;
if ( is_on ! = musb - > softconnect ) {
musb - > softconnect = is_on ;
musb_pullup ( musb , is_on ) ;
}
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
return 0 ;
}
static const struct usb_gadget_ops musb_gadget_operations = {
. get_frame = musb_gadget_get_frame ,
. wakeup = musb_gadget_wakeup ,
. set_selfpowered = musb_gadget_set_self_powered ,
/* .vbus_session = musb_gadget_vbus_session, */
. vbus_draw = musb_gadget_vbus_draw ,
. pullup = musb_gadget_pullup ,
} ;
/* ----------------------------------------------------------------------- */
/* Registration */
/* Only this registration code "knows" the rule (from USB standards)
* about there being only one external upstream port . It assumes
* all peripheral ports are external . . .
*/
static struct musb * the_gadget ;
static void musb_gadget_release ( struct device * dev )
{
/* kref_put(WHAT) */
dev_dbg ( dev , " %s \n " , __func__ ) ;
}
static void __init
init_peripheral_ep ( struct musb * musb , struct musb_ep * ep , u8 epnum , int is_in )
{
struct musb_hw_ep * hw_ep = musb - > endpoints + epnum ;
memset ( ep , 0 , sizeof * ep ) ;
ep - > current_epnum = epnum ;
ep - > musb = musb ;
ep - > hw_ep = hw_ep ;
ep - > is_in = is_in ;
INIT_LIST_HEAD ( & ep - > req_list ) ;
sprintf ( ep - > name , " ep%d%s " , epnum ,
( ! epnum | | hw_ep - > is_shared_fifo ) ? " " : (
is_in ? " in " : " out " ) ) ;
ep - > end_point . name = ep - > name ;
INIT_LIST_HEAD ( & ep - > end_point . ep_list ) ;
if ( ! epnum ) {
ep - > end_point . maxpacket = 64 ;
ep - > end_point . ops = & musb_g_ep0_ops ;
musb - > g . ep0 = & ep - > end_point ;
} else {
if ( is_in )
ep - > end_point . maxpacket = hw_ep - > max_packet_sz_tx ;
else
ep - > end_point . maxpacket = hw_ep - > max_packet_sz_rx ;
ep - > end_point . ops = & musb_ep_ops ;
list_add_tail ( & ep - > end_point . ep_list , & musb - > g . ep_list ) ;
}
}
/*
* Initialize the endpoints exposed to peripheral drivers , with backlinks
* to the rest of the driver state .
*/
static inline void __init musb_g_init_endpoints ( struct musb * musb )
{
u8 epnum ;
struct musb_hw_ep * hw_ep ;
unsigned count = 0 ;
/* intialize endpoint list just once */
INIT_LIST_HEAD ( & ( musb - > g . ep_list ) ) ;
for ( epnum = 0 , hw_ep = musb - > endpoints ;
epnum < musb - > nr_endpoints ;
epnum + + , hw_ep + + ) {
if ( hw_ep - > is_shared_fifo /* || !epnum */ ) {
init_peripheral_ep ( musb , & hw_ep - > ep_in , epnum , 0 ) ;
count + + ;
} else {
if ( hw_ep - > max_packet_sz_tx ) {
init_peripheral_ep ( musb , & hw_ep - > ep_in ,
epnum , 1 ) ;
count + + ;
}
if ( hw_ep - > max_packet_sz_rx ) {
init_peripheral_ep ( musb , & hw_ep - > ep_out ,
epnum , 0 ) ;
count + + ;
}
}
}
}
/* called once during driver setup to initialize and link into
* the driver model ; memory is zeroed .
*/
int __init musb_gadget_setup ( struct musb * musb )
{
int status ;
/* REVISIT minor race: if (erroneously) setting up two
* musb peripherals at the same time , only the bus lock
* is probably held .
*/
if ( the_gadget )
return - EBUSY ;
the_gadget = musb ;
musb - > g . ops = & musb_gadget_operations ;
musb - > g . is_dualspeed = 1 ;
musb - > g . speed = USB_SPEED_UNKNOWN ;
/* this "gadget" abstracts/virtualizes the controller */
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dev_set_name ( & musb - > g . dev , " gadget " ) ;
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musb - > g . dev . parent = musb - > controller ;
musb - > g . dev . dma_mask = musb - > controller - > dma_mask ;
musb - > g . dev . release = musb_gadget_release ;
musb - > g . name = musb_driver_name ;
if ( is_otg_enabled ( musb ) )
musb - > g . is_otg = 1 ;
musb_g_init_endpoints ( musb ) ;
musb - > is_active = 0 ;
musb_platform_try_idle ( musb , 0 ) ;
status = device_register ( & musb - > g . dev ) ;
if ( status ! = 0 )
the_gadget = NULL ;
return status ;
}
void musb_gadget_cleanup ( struct musb * musb )
{
if ( musb ! = the_gadget )
return ;
device_unregister ( & musb - > g . dev ) ;
the_gadget = NULL ;
}
/*
* Register the gadget driver . Used by gadget drivers when
* registering themselves with the controller .
*
* - EINVAL something went wrong ( not driver )
* - EBUSY another gadget is already using the controller
* - ENOMEM no memeory to perform the operation
*
* @ param driver the gadget driver
* @ return < 0 if error , 0 if everything is fine
*/
int usb_gadget_register_driver ( struct usb_gadget_driver * driver )
{
int retval ;
unsigned long flags ;
struct musb * musb = the_gadget ;
if ( ! driver
| | driver - > speed ! = USB_SPEED_HIGH
| | ! driver - > bind
| | ! driver - > setup )
return - EINVAL ;
/* driver must be initialized to support peripheral mode */
if ( ! musb | | ! ( musb - > board_mode = = MUSB_OTG
| | musb - > board_mode ! = MUSB_OTG ) ) {
DBG ( 1 , " %s, no dev?? \n " , __func__ ) ;
return - ENODEV ;
}
DBG ( 3 , " registering driver %s \n " , driver - > function ) ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
if ( musb - > gadget_driver ) {
DBG ( 1 , " %s is already bound to %s \n " ,
musb_driver_name ,
musb - > gadget_driver - > driver . name ) ;
retval = - EBUSY ;
} else {
musb - > gadget_driver = driver ;
musb - > g . dev . driver = & driver - > driver ;
driver - > driver . bus = NULL ;
musb - > softconnect = 1 ;
retval = 0 ;
}
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
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if ( retval = = 0 ) {
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retval = driver - > bind ( & musb - > g ) ;
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if ( retval ! = 0 ) {
DBG ( 3 , " bind to driver %s failed --> %d \n " ,
driver - > driver . name , retval ) ;
musb - > gadget_driver = NULL ;
musb - > g . dev . driver = NULL ;
}
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spin_lock_irqsave ( & musb - > lock , flags ) ;
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otg_set_peripheral ( musb - > xceiv , & musb - > g ) ;
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musb - > is_active = 1 ;
/* FIXME this ignores the softconnect flag. Drivers are
* allowed hold the peripheral inactive until for example
* userspace hooks up printer hardware or DSP codecs , so
* hosts only see fully functional devices .
*/
if ( ! is_otg_enabled ( musb ) )
musb_start ( musb ) ;
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otg_set_peripheral ( musb - > xceiv , & musb - > g ) ;
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spin_unlock_irqrestore ( & musb - > lock , flags ) ;
if ( is_otg_enabled ( musb ) ) {
DBG ( 3 , " OTG startup... \n " ) ;
/* REVISIT: funcall to other code, which also
* handles power budgeting . . . this way also
* ensures HdrcStart is indirectly called .
*/
retval = usb_add_hcd ( musb_to_hcd ( musb ) , - 1 , 0 ) ;
if ( retval < 0 ) {
DBG ( 1 , " add_hcd failed, %d \n " , retval ) ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
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otg_set_peripheral ( musb - > xceiv , NULL ) ;
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musb - > gadget_driver = NULL ;
musb - > g . dev . driver = NULL ;
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
}
}
}
return retval ;
}
EXPORT_SYMBOL ( usb_gadget_register_driver ) ;
static void stop_activity ( struct musb * musb , struct usb_gadget_driver * driver )
{
int i ;
struct musb_hw_ep * hw_ep ;
/* don't disconnect if it's not connected */
if ( musb - > g . speed = = USB_SPEED_UNKNOWN )
driver = NULL ;
else
musb - > g . speed = USB_SPEED_UNKNOWN ;
/* deactivate the hardware */
if ( musb - > softconnect ) {
musb - > softconnect = 0 ;
musb_pullup ( musb , 0 ) ;
}
musb_stop ( musb ) ;
/* killing any outstanding requests will quiesce the driver;
* then report disconnect
*/
if ( driver ) {
for ( i = 0 , hw_ep = musb - > endpoints ;
i < musb - > nr_endpoints ;
i + + , hw_ep + + ) {
musb_ep_select ( musb - > mregs , i ) ;
if ( hw_ep - > is_shared_fifo /* || !epnum */ ) {
nuke ( & hw_ep - > ep_in , - ESHUTDOWN ) ;
} else {
if ( hw_ep - > max_packet_sz_tx )
nuke ( & hw_ep - > ep_in , - ESHUTDOWN ) ;
if ( hw_ep - > max_packet_sz_rx )
nuke ( & hw_ep - > ep_out , - ESHUTDOWN ) ;
}
}
spin_unlock ( & musb - > lock ) ;
driver - > disconnect ( & musb - > g ) ;
spin_lock ( & musb - > lock ) ;
}
}
/*
* Unregister the gadget driver . Used by gadget drivers when
* unregistering themselves from the controller .
*
* @ param driver the gadget driver to unregister
*/
int usb_gadget_unregister_driver ( struct usb_gadget_driver * driver )
{
unsigned long flags ;
int retval = 0 ;
struct musb * musb = the_gadget ;
if ( ! driver | | ! driver - > unbind | | ! musb )
return - EINVAL ;
/* REVISIT always use otg_set_peripheral() here too;
* this needs to shut down the OTG engine .
*/
spin_lock_irqsave ( & musb - > lock , flags ) ;
# ifdef CONFIG_USB_MUSB_OTG
musb_hnp_stop ( musb ) ;
# endif
if ( musb - > gadget_driver = = driver ) {
( void ) musb_gadget_vbus_draw ( & musb - > g , 0 ) ;
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musb - > xceiv - > state = OTG_STATE_UNDEFINED ;
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stop_activity ( musb , driver ) ;
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otg_set_peripheral ( musb - > xceiv , NULL ) ;
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DBG ( 3 , " unregistering driver %s \n " , driver - > function ) ;
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
driver - > unbind ( & musb - > g ) ;
spin_lock_irqsave ( & musb - > lock , flags ) ;
musb - > gadget_driver = NULL ;
musb - > g . dev . driver = NULL ;
musb - > is_active = 0 ;
musb_platform_try_idle ( musb , 0 ) ;
} else
retval = - EINVAL ;
spin_unlock_irqrestore ( & musb - > lock , flags ) ;
if ( is_otg_enabled ( musb ) & & retval = = 0 ) {
usb_remove_hcd ( musb_to_hcd ( musb ) ) ;
/* FIXME we need to be able to register another
* gadget driver here and have everything work ;
* that currently misbehaves .
*/
}
return retval ;
}
EXPORT_SYMBOL ( usb_gadget_unregister_driver ) ;
/* ----------------------------------------------------------------------- */
/* lifecycle operations called through plat_uds.c */
void musb_g_resume ( struct musb * musb )
{
musb - > is_suspended = 0 ;
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switch ( musb - > xceiv - > state ) {
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case OTG_STATE_B_IDLE :
break ;
case OTG_STATE_B_WAIT_ACON :
case OTG_STATE_B_PERIPHERAL :
musb - > is_active = 1 ;
if ( musb - > gadget_driver & & musb - > gadget_driver - > resume ) {
spin_unlock ( & musb - > lock ) ;
musb - > gadget_driver - > resume ( & musb - > g ) ;
spin_lock ( & musb - > lock ) ;
}
break ;
default :
WARNING ( " unhandled RESUME transition (%s) \n " ,
otg_state_string ( musb ) ) ;
}
}
/* called when SOF packets stop for 3+ msec */
void musb_g_suspend ( struct musb * musb )
{
u8 devctl ;
devctl = musb_readb ( musb - > mregs , MUSB_DEVCTL ) ;
DBG ( 3 , " devctl %02x \n " , devctl ) ;
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switch ( musb - > xceiv - > state ) {
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case OTG_STATE_B_IDLE :
if ( ( devctl & MUSB_DEVCTL_VBUS ) = = MUSB_DEVCTL_VBUS )
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musb - > xceiv - > state = OTG_STATE_B_PERIPHERAL ;
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break ;
case OTG_STATE_B_PERIPHERAL :
musb - > is_suspended = 1 ;
if ( musb - > gadget_driver & & musb - > gadget_driver - > suspend ) {
spin_unlock ( & musb - > lock ) ;
musb - > gadget_driver - > suspend ( & musb - > g ) ;
spin_lock ( & musb - > lock ) ;
}
break ;
default :
/* REVISIT if B_HOST, clear DEVCTL.HOSTREQ;
* A_PERIPHERAL may need care too
*/
WARNING ( " unhandled SUSPEND transition (%s) \n " ,
otg_state_string ( musb ) ) ;
}
}
/* Called during SRP */
void musb_g_wakeup ( struct musb * musb )
{
musb_gadget_wakeup ( & musb - > g ) ;
}
/* called when VBUS drops below session threshold, and in other cases */
void musb_g_disconnect ( struct musb * musb )
{
void __iomem * mregs = musb - > mregs ;
u8 devctl = musb_readb ( mregs , MUSB_DEVCTL ) ;
DBG ( 3 , " devctl %02x \n " , devctl ) ;
/* clear HR */
musb_writeb ( mregs , MUSB_DEVCTL , devctl & MUSB_DEVCTL_SESSION ) ;
/* don't draw vbus until new b-default session */
( void ) musb_gadget_vbus_draw ( & musb - > g , 0 ) ;
musb - > g . speed = USB_SPEED_UNKNOWN ;
if ( musb - > gadget_driver & & musb - > gadget_driver - > disconnect ) {
spin_unlock ( & musb - > lock ) ;
musb - > gadget_driver - > disconnect ( & musb - > g ) ;
spin_lock ( & musb - > lock ) ;
}
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switch ( musb - > xceiv - > state ) {
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default :
# ifdef CONFIG_USB_MUSB_OTG
DBG ( 2 , " Unhandled disconnect %s, setting a_idle \n " ,
otg_state_string ( musb ) ) ;
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musb - > xceiv - > state = OTG_STATE_A_IDLE ;
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MUSB_HST_MODE ( musb ) ;
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break ;
case OTG_STATE_A_PERIPHERAL :
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musb - > xceiv - > state = OTG_STATE_A_WAIT_BCON ;
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MUSB_HST_MODE ( musb ) ;
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break ;
case OTG_STATE_B_WAIT_ACON :
case OTG_STATE_B_HOST :
# endif
case OTG_STATE_B_PERIPHERAL :
case OTG_STATE_B_IDLE :
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musb - > xceiv - > state = OTG_STATE_B_IDLE ;
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break ;
case OTG_STATE_B_SRP_INIT :
break ;
}
musb - > is_active = 0 ;
}
void musb_g_reset ( struct musb * musb )
__releases ( musb - > lock )
__acquires ( musb - > lock )
{
void __iomem * mbase = musb - > mregs ;
u8 devctl = musb_readb ( mbase , MUSB_DEVCTL ) ;
u8 power ;
DBG ( 3 , " <== %s addr=%x driver '%s' \n " ,
( devctl & MUSB_DEVCTL_BDEVICE )
? " B-Device " : " A-Device " ,
musb_readb ( mbase , MUSB_FADDR ) ,
musb - > gadget_driver
? musb - > gadget_driver - > driver . name
: NULL
) ;
/* report disconnect, if we didn't already (flushing EP state) */
if ( musb - > g . speed ! = USB_SPEED_UNKNOWN )
musb_g_disconnect ( musb ) ;
/* clear HR */
else if ( devctl & MUSB_DEVCTL_HR )
musb_writeb ( mbase , MUSB_DEVCTL , MUSB_DEVCTL_SESSION ) ;
/* what speed did we negotiate? */
power = musb_readb ( mbase , MUSB_POWER ) ;
musb - > g . speed = ( power & MUSB_POWER_HSMODE )
? USB_SPEED_HIGH : USB_SPEED_FULL ;
/* start in USB_STATE_DEFAULT */
musb - > is_active = 1 ;
musb - > is_suspended = 0 ;
MUSB_DEV_MODE ( musb ) ;
musb - > address = 0 ;
musb - > ep0_state = MUSB_EP0_STAGE_SETUP ;
musb - > may_wakeup = 0 ;
musb - > g . b_hnp_enable = 0 ;
musb - > g . a_alt_hnp_support = 0 ;
musb - > g . a_hnp_support = 0 ;
/* Normal reset, as B-Device;
* or else after HNP , as A - Device
*/
if ( devctl & MUSB_DEVCTL_BDEVICE ) {
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musb - > xceiv - > state = OTG_STATE_B_PERIPHERAL ;
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musb - > g . is_a_peripheral = 0 ;
} else if ( is_otg_enabled ( musb ) ) {
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musb - > xceiv - > state = OTG_STATE_A_PERIPHERAL ;
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musb - > g . is_a_peripheral = 1 ;
} else
WARN_ON ( 1 ) ;
/* start with default limits on VBUS power draw */
( void ) musb_gadget_vbus_draw ( & musb - > g ,
is_otg_enabled ( musb ) ? 8 : 100 ) ;
}
