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/* de4x5.c: A DIGITAL DC21x4x DECchip and DE425/DE434/DE435/DE450/DE500
ethernet driver for Linux .
Copyright 1994 , 1995 Digital Equipment Corporation .
Testing resources for this driver have been made available
in part by NASA Ames Research Center ( mjacob @ nas . nasa . gov ) .
The author may be reached at davies @ maniac . ultranet . com .
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 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 AUTHOR 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 .
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 .
Originally , this driver was written for the Digital Equipment
Corporation series of EtherWORKS ethernet cards :
DE425 TP / COAX EISA
DE434 TP PCI
DE435 TP / COAX / AUI PCI
DE450 TP / COAX / AUI PCI
DE500 10 / 100 PCI Fasternet
but it will now attempt to support all cards which conform to the
Digital Semiconductor SROM Specification . The driver currently
recognises the following chips :
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DC21040 ( no SROM )
DC21041 [ A ]
DC21140 [ A ]
DC21142
DC21143
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So far the driver is known to work with the following cards :
KINGSTON
Linksys
ZNYX342
SMC8432
SMC9332 ( w / new SROM )
ZNYX31 [ 45 ]
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ZNYX346 10 / 100 4 port ( can act as a 10 / 100 bridge ! )
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The driver has been tested on a relatively busy network using the DE425 ,
DE434 , DE435 and DE500 cards and benchmarked with ' ttcp ' : it transferred
16 M of data to a DECstation 5000 / 200 as follows :
TCP UDP
TX RX TX RX
DE425 1030 k 997 k 1170 k 1128 k
DE434 1063 k 995 k 1170 k 1125 k
DE435 1063 k 995 k 1170 k 1125 k
DE500 1063 k 998 k 1170 k 1125 k in 10 Mb / s mode
All values are typical ( in kBytes / sec ) from a sample of 4 for each
measurement . Their error is + / - 20 k on a quiet ( private ) network and also
depend on what load the CPU has .
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
This driver has been written substantially from scratch , although its
inheritance of style and stack interface from ' ewrk3 . c ' and in turn from
Donald Becker ' s ' lance . c ' should be obvious . With the module autoload of
every usable DECchip board , I pinched Donald ' s ' next_module ' field to
link my modules together .
Upto 15 EISA cards can be supported under this driver , limited primarily
by the available IRQ lines . I have checked different configurations of
multiple depca , EtherWORKS 3 cards and de4x5 cards and have not found a
problem yet ( provided you have at least depca . c v0 .38 ) . . .
PCI support has been added to allow the driver to work with the DE434 ,
DE435 , DE450 and DE500 cards . The I / O accesses are a bit of a kludge due
to the differences in the EISA and PCI CSR address offsets from the base
address .
The ability to load this driver as a loadable module has been included
and used extensively during the driver development ( to save those long
reboot sequences ) . Loadable module support under PCI and EISA has been
achieved by letting the driver autoprobe as if it were compiled into the
kernel . Do make sure you ' re not sharing interrupts with anything that
cannot accommodate interrupt sharing !
To utilise this ability , you have to do 8 things :
0 ) have a copy of the loadable modules code installed on your system .
1 ) copy de4x5 . c from the / linux / drivers / net directory to your favourite
temporary directory .
2 ) for fixed autoprobes ( not recommended ) , edit the source code near
line 5594 to reflect the I / O address you ' re using , or assign these when
loading by :
insmod de4x5 io = 0 xghh where g = bus number
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hh = device number
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NB : autoprobing for modules is now supported by default . You may just
use :
insmod de4x5
to load all available boards . For a specific board , still use
the ' io = ? ' above .
3 ) compile de4x5 . c , but include - DMODULE in the command line to ensure
that the correct bits are compiled ( see end of source code ) .
4 ) if you are wanting to add a new card , goto 5. Otherwise , recompile a
kernel with the de4x5 configuration turned off and reboot .
5 ) insmod de4x5 [ io = 0 xghh ]
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6 ) run the net startup bits for your new eth ? ? interface ( s ) manually
( usually / etc / rc . inet [ 12 ] at boot time ) .
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7 ) enjoy !
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To unload a module , turn off the associated interface ( s )
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' ifconfig eth ? ? down ' then ' rmmod de4x5 ' .
Automedia detection is included so that in principal you can disconnect
from , e . g . TP , reconnect to BNC and things will still work ( after a
pause whilst the driver figures out where its media went ) . My tests
using ping showed that it appears to work . . . .
By default , the driver will now autodetect any DECchip based card .
Should you have a need to restrict the driver to DIGITAL only cards , you
can compile with a DEC_ONLY define , or if loading as a module , use the
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' dec_only = 1 ' parameter .
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I ' ve changed the timing routines to use the kernel timer and scheduling
functions so that the hangs and other assorted problems that occurred
while autosensing the media should be gone . A bonus for the DC21040
auto media sense algorithm is that it can now use one that is more in
line with the rest ( the DC21040 chip doesn ' t have a hardware timer ) .
The downside is the 1 ' jiffies ' ( 10 ms ) resolution .
IEEE 802.3 u MII interface code has been added in anticipation that some
products may use it in the future .
The SMC9332 card has a non - compliant SROM which needs fixing - I have
patched this driver to detect it because the SROM format used complies
to a previous DEC - STD format .
I have removed the buffer copies needed for receive on Intels . I cannot
remove them for Alphas since the Tulip hardware only does longword
aligned DMA transfers and the Alphas get alignment traps with non
longword aligned data copies ( which makes them really slow ) . No comment .
I have added SROM decoding routines to make this driver work with any
card that supports the Digital Semiconductor SROM spec . This will help
all cards running the dc2114x series chips in particular . Cards using
the dc2104x chips should run correctly with the basic driver . I ' m in
debt to < mjacob @ feral . com > for the testing and feedback that helped get
this feature working . So far we have tested KINGSTON , SMC8432 , SMC9332
( with the latest SROM complying with the SROM spec V3 : their first was
broken ) , ZNYX342 and LinkSys . ZYNX314 ( dual 21041 MAC ) and ZNYX 315
( quad 21041 MAC ) cards also appear to work despite their incorrectly
wired IRQs .
I have added a temporary fix for interrupt problems when some SCSI cards
share the same interrupt as the DECchip based cards . The problem occurs
because the SCSI card wants to grab the interrupt as a fast interrupt
( runs the service routine with interrupts turned off ) vs . this card
which really needs to run the service routine with interrupts turned on .
This driver will now add the interrupt service routine as a fast
interrupt if it is bounced from the slow interrupt . THIS IS NOT A
RECOMMENDED WAY TO RUN THE DRIVER and has been done for a limited time
until people sort out their compatibility issues and the kernel
interrupt service code is fixed . YOU SHOULD SEPARATE OUT THE FAST
INTERRUPT CARDS FROM THE SLOW INTERRUPT CARDS to ensure that they do not
run on the same interrupt . PCMCIA / CardBus is another can of worms . . .
Finally , I think I have really fixed the module loading problem with
more than one DECchip based card . As a side effect , I don ' t mess with
the device structure any more which means that if more than 1 card in
2.0 . x is installed ( 4 in 2.1 . x ) , the user will have to edit
linux / drivers / net / Space . c to make room for them . Hence , module loading
is the preferred way to use this driver , since it doesn ' t have this
limitation .
Where SROM media detection is used and full duplex is specified in the
SROM , the feature is ignored unless lp - > params . fdx is set at compile
time OR during a module load ( insmod de4x5 args = ' eth ? ? : fdx ' [ see
below ] ) . This is because there is no way to automatically detect full
duplex links except through autonegotiation . When I include the
autonegotiation feature in the SROM autoconf code , this detection will
occur automatically for that case .
Command line arguments are now allowed , similar to passing arguments
through LILO . This will allow a per adapter board set up of full duplex
and media . The only lexical constraints are : the board name ( dev - > name )
appears in the list before its parameters . The list of parameters ends
either at the end of the parameter list or with another board name . The
following parameters are allowed :
fdx for full duplex
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autosense to set the media / speed ; with the following
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sub - parameters :
TP , TP_NW , BNC , AUI , BNC_AUI , 100 Mb , 10 Mb , AUTO
Case sensitivity is important for the sub - parameters . They * must * be
upper case . Examples :
insmod de4x5 args = ' eth1 : fdx autosense = BNC eth0 : autosense = 100 Mb ' .
For a compiled in driver , at or above line 548 , place e . g .
# define DE4X5_PARM "eth0:fdx autosense=AUI eth2:autosense=TP"
Yes , I know full duplex isn ' t permissible on BNC or AUI ; they ' re just
examples . By default , full duplex is turned off and AUTO is the default
autosense setting . In reality , I expect only the full duplex option to
be used . Note the use of single quotes in the two examples above and the
lack of commas to separate items . ALSO , you must get the requested media
correct in relation to what the adapter SROM says it has . There ' s no way
to determine this in advance other than by trial and error and common
sense , e . g . call a BNC connectored port ' BNC ' , not ' 10 Mb ' .
Changed the bus probing . EISA used to be done first , followed by PCI .
Most people probably don ' t even know what a de425 is today and the EISA
probe has messed up some SCSI cards in the past , so now PCI is always
probed first followed by EISA if a ) the architecture allows EISA and
either b ) there have been no PCI cards detected or c ) an EISA probe is
forced by the user . To force a probe include " force_eisa " in your
insmod " args " line ; for built - in kernels either change the driver to do
this automatically or include # define DE4X5_FORCE_EISA on or before
line 1040 in the driver .
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TO DO :
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- - - - - -
Revision History
- - - - - - - - - - - - - - - -
Version Date Description
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0.1 17 - Nov - 94 Initial writing . ALPHA code release .
0.2 13 - Jan - 95 Added PCI support for DE435 ' s .
0.21 19 - Jan - 95 Added auto media detection .
0.22 10 - Feb - 95 Fix interrupt handler call < chris @ cosy . sbg . ac . at > .
Fix recognition bug reported by < bkm @ star . rl . ac . uk > .
Add request / release_region code .
Add loadable modules support for PCI .
Clean up loadable modules support .
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0.23 28 - Feb - 95 Added DC21041 and DC21140 support .
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Fix missed frame counter value and initialisation .
Fixed EISA probe .
0.24 11 - Apr - 95 Change delay routine to use < linux / udelay > .
Change TX_BUFFS_AVAIL macro .
Change media autodetection to allow manual setting .
Completed DE500 ( DC21140 ) support .
0.241 18 - Apr - 95 Interim release without DE500 Autosense Algorithm .
0.242 10 - May - 95 Minor changes .
0.30 12 - Jun - 95 Timer fix for DC21140 .
Portability changes .
Add ALPHA changes from < jestabro @ ant . tay1 . dec . com > .
Add DE500 semi automatic autosense .
Add Link Fail interrupt TP failure detection .
Add timer based link change detection .
Plugged a memory leak in de4x5_queue_pkt ( ) .
0.31 13 - Jun - 95 Fixed PCI stuff for 1.3 .1 .
0.32 26 - Jun - 95 Added verify_area ( ) calls in de4x5_ioctl ( ) from a
suggestion by < heiko @ colossus . escape . de > .
0.33 8 - Aug - 95 Add shared interrupt support ( not released yet ) .
0.331 21 - Aug - 95 Fix de4x5_open ( ) with fast CPUs .
Fix de4x5_interrupt ( ) .
Fix dc21140_autoconf ( ) mess .
No shared interrupt support .
0.332 11 - Sep - 95 Added MII management interface routines .
0.40 5 - Mar - 96 Fix setup frame timeout < maartenb @ hpkuipc . cern . ch > .
Add kernel timer code ( h / w is too flaky ) .
Add MII based PHY autosense .
Add new multicasting code .
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Add new autosense algorithms for media / mode
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selection using kernel scheduling / timing .
Re - formatted .
Made changes suggested by < jeff @ router . patch . net > :
Change driver to detect all DECchip based cards
with DEC_ONLY restriction a special case .
Changed driver to autoprobe as a module . No irq
checking is done now - assume BIOS is good !
Added SMC9332 detection < manabe @ Roy . dsl . tutics . ac . jp >
0.41 21 - Mar - 96 Don ' t check for get_hw_addr checksum unless DEC card
only < niles @ axp745gsfc . nasa . gov >
Fix for multiple PCI cards reported by < jos @ xos . nl >
2006-07-02 10:29:39 +08:00
Duh , put the IRQF_SHARED flag into request_interrupt ( ) .
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Fix SMC ethernet address in enet_det [ ] .
Print chip name instead of " UNKNOWN " during boot .
0.42 26 - Apr - 96 Fix MII write TA bit error .
Fix bug in dc21040 and dc21041 autosense code .
Remove buffer copies on receive for Intels .
Change sk_buff handling during media disconnects to
eliminate DUP packets .
Add dynamic TX thresholding .
Change all chips to use perfect multicast filtering .
Fix alloc_device ( ) bug < jari @ markkus2 . fimr . fi >
0.43 21 - Jun - 96 Fix unconnected media TX retry bug .
Add Accton to the list of broken cards .
Fix TX under - run bug for non DC21140 chips .
Fix boot command probe bug in alloc_device ( ) as
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reported by < koen . gadeyne @ barco . com > and
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< orava @ nether . tky . hut . fi > .
Add cache locks to prevent a race condition as
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reported by < csd @ microplex . com > and
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< baba @ beckman . uiuc . edu > .
Upgraded alloc_device ( ) code .
0.431 28 - Jun - 96 Fix potential bug in queue_pkt ( ) from discussion
with < csd @ microplex . com >
0.44 13 - Aug - 96 Fix RX overflow bug in 2114 [ 023 ] chips .
Fix EISA probe bugs reported by < os2 @ kpi . kharkov . ua >
and < michael @ compurex . com > .
0.441 9 - Sep - 96 Change dc21041_autoconf ( ) to probe quiet BNC media
with a loopback packet .
0.442 9 - Sep - 96 Include AUI in dc21041 media printout . Bug reported
by < bhat @ mundook . cs . mu . OZ . AU >
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0.45 8 - Dec - 96 Include endian functions for PPC use , from work
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by < cort @ cs . nmt . edu > and < g . thomas @ opengroup . org > .
0.451 28 - Dec - 96 Added fix to allow autoprobe for modules after
suggestion from < mjacob @ feral . com > .
0.5 30 - Jan - 97 Added SROM decoding functions .
Updated debug flags .
Fix sleep / wakeup calls for PCI cards , bug reported
by < cross @ gweep . lkg . dec . com > .
Added multi - MAC , one SROM feature from discussion
with < mjacob @ feral . com > .
Added full module autoprobe capability .
Added attempt to use an SMC9332 with broken SROM .
Added fix for ZYNX multi - mac cards that didn ' t
get their IRQs wired correctly .
0.51 13 - Feb - 97 Added endian fixes for the SROM accesses from
< paubert @ iram . es >
Fix init_connection ( ) to remove extra device reset .
Fix MAC / PHY reset ordering in dc21140m_autoconf ( ) .
Fix initialisation problem with lp - > timeout in
typeX_infoblock ( ) from < paubert @ iram . es > .
Fix MII PHY reset problem from work done by
< paubert @ iram . es > .
0.52 26 - Apr - 97 Some changes may not credit the right people -
a disk crash meant I lost some mail .
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Change RX interrupt routine to drop rather than
defer packets to avoid hang reported by
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< g . thomas @ opengroup . org > .
Fix srom_exec ( ) to return for COMPACT and type 1
infoblocks .
Added DC21142 and DC21143 functions .
Added byte counters from < phil @ tazenda . demon . co . uk >
2006-07-02 10:29:39 +08:00
Added IRQF_DISABLED temporary fix from
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< mjacob @ feral . com > .
0.53 12 - Nov - 97 Fix the * _probe ( ) to include ' eth ? ? ' name during
module load : bug reported by
< Piete . Brooks @ cl . cam . ac . uk >
Fix multi - MAC , one SROM , to work with 2114 x chips :
bug reported by < cmetz @ inner . net > .
Make above search independent of BIOS device scan
direction .
Completed DC2114 [ 23 ] autosense functions .
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0.531 21 - Dec - 97 Fix DE500 - XA 100 Mb / s bug reported by
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< robin @ intercore . com
Fix type1_infoblock ( ) bug introduced in 0.53 , from
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problem reports by
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< parmee @ postecss . ncrfran . france . ncr . com > and
< jo @ ice . dillingen . baynet . de > .
Added argument list to set up each board from either
a module ' s command line or a compiled in # define .
Added generic MII PHY functionality to deal with
newer PHY chips .
Fix the mess in 2.1 .67 .
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0.532 5 - Jan - 98 Fix bug in mii_get_phy ( ) reported by
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< redhat @ cococo . net > .
Fix bug in pci_probe ( ) for 64 bit systems reported
by < belliott @ accessone . com > .
0.533 9 - Jan - 98 Fix more 64 bit bugs reported by < jal @ cs . brown . edu > .
0.534 24 - Jan - 98 Fix last ( ? ) endian bug from < geert @ linux - m68k . org >
0.535 21 - Feb - 98 Fix Ethernet Address PROM reset bug for DC21040 .
0.536 21 - Mar - 98 Change pci_probe ( ) to use the pci_dev structure .
* * Incompatible with 2.0 . x from here . * *
0.540 5 - Jul - 98 Atomicize assertion of dev - > interrupt for SMP
from < lma @ varesearch . com >
Add TP , AUI and BNC cases to 21140 m_autoconf ( ) for
case where a 21140 under SROM control uses , e . g . AUI
from problem report by < delchini @ lpnp09 . in2p3 . fr >
Add MII parallel detection to 2114 x_autoconf ( ) for
case where no autonegotiation partner exists from
problem report by < mlapsley @ ndirect . co . uk > .
Add ability to force connection type directly even
when using SROM control from problem report by
< earl @ exis . net > .
Updated the PCI interface to conform with the latest
version . I hope nothing is broken . . .
Add TX done interrupt modification from suggestion
by < Austin . Donnelly @ cl . cam . ac . uk > .
2006-05-27 09:39:03 +08:00
Fix is_anc_capable ( ) bug reported by
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< Austin . Donnelly @ cl . cam . ac . uk > .
Fix type [ 13 ] _infoblock ( ) bug : during MII search , PHY
lp - > rst not run because lp - > ibn not initialised -
from report & fix by < paubert @ iram . es > .
Fix probe bug with EISA & PCI cards present from
report by < eirik @ netcom . com > .
0.541 24 - Aug - 98 Fix compiler problems associated with i386 - string
ops from multiple bug reports and temporary fix
from < paubert @ iram . es > .
Fix pci_probe ( ) to correctly emulate the old
pcibios_find_class ( ) function .
Add an_exception ( ) for old ZYNX346 and fix compile
warning on PPC & SPARC , from < ecd @ skynet . be > .
Fix lastPCI to correctly work with compiled in
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kernels and modules from bug report by
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< Zlatko . Calusic @ CARNet . hr > et al .
0.542 15 - Sep - 98 Fix dc2114x_autoconf ( ) to stop multiple messages
when media is unconnected .
Change dev - > interrupt to lp - > interrupt to ensure
alignment for Alpha ' s and avoid their unaligned
access traps . This flag is merely for log messages :
should do something more definitive though . . .
0.543 30 - Dec - 98 Add SMP spin locking .
0.544 8 - May - 99 Fix for buggy SROM in Motorola embedded boards using
a 21143 by < mmporter @ home . com > .
Change PCI / EISA bus probing order .
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0.545 28 - Nov - 99 Further Moto SROM bug fix from
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< mporter @ eng . mcd . mot . com >
Remove double checking for DEBUG_RX in de4x5_dbg_rx ( )
from report by < geert @ linux - m68k . org >
0.546 22 - Feb - 01 Fixes Alpha XP1000 oops . The srom_search function
was causing a page fault when initializing the
variable ' pb ' , on a non de4x5 PCI device , in this
case a PCI bridge ( DEC chip 21152 ) . The value of
' pb ' is now only initialized if a de4x5 chip is
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present .
< france @ handhelds . org >
2005-04-17 06:20:36 +08:00
0.547 08 - Nov - 01 Use library crc32 functions by < Matt_Domsch @ dell . com >
0.548 30 - Aug - 03 Big 2.6 cleanup . Ported to PCI / EISA probing and
generic DMA APIs . Fixed DE425 support on Alpha .
< maz @ wild - wind . fr . eu . org >
= = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = =
*/
# include <linux/module.h>
# include <linux/kernel.h>
# include <linux/string.h>
# include <linux/interrupt.h>
# include <linux/ptrace.h>
# include <linux/errno.h>
# include <linux/ioport.h>
# include <linux/slab.h>
# include <linux/pci.h>
# include <linux/eisa.h>
# include <linux/delay.h>
# include <linux/init.h>
# include <linux/spinlock.h>
# include <linux/crc32.h>
# include <linux/netdevice.h>
# include <linux/etherdevice.h>
# include <linux/skbuff.h>
# include <linux/time.h>
# include <linux/types.h>
# include <linux/unistd.h>
# include <linux/ctype.h>
# include <linux/dma-mapping.h>
# include <linux/moduleparam.h>
# include <linux/bitops.h>
# include <asm/io.h>
# include <asm/dma.h>
# include <asm/byteorder.h>
# include <asm/unaligned.h>
# include <asm/uaccess.h>
# ifdef CONFIG_PPC_MULTIPLATFORM
# include <asm/machdep.h>
# endif /* CONFIG_PPC_MULTIPLATFORM */
# include "de4x5.h"
static char version [ ] __devinitdata = " de4x5.c:V0.546 2001/02/22 davies@maniac.ultranet.com \n " ;
# define c_char const char
# define TWIDDLE(a) (u_short)le16_to_cpu(get_unaligned((u_short *)(a)))
/*
* * MII Information
*/
struct phy_table {
int reset ; /* Hard reset required? */
int id ; /* IEEE OUI */
int ta ; /* One cycle TA time - 802.3u is confusing here */
struct { /* Non autonegotiation (parallel) speed det. */
int reg ;
int mask ;
int value ;
} spd ;
} ;
struct mii_phy {
int reset ; /* Hard reset required? */
int id ; /* IEEE OUI */
int ta ; /* One cycle TA time */
struct { /* Non autonegotiation (parallel) speed det. */
int reg ;
int mask ;
int value ;
} spd ;
int addr ; /* MII address for the PHY */
u_char * gep ; /* Start of GEP sequence block in SROM */
u_char * rst ; /* Start of reset sequence in SROM */
u_int mc ; /* Media Capabilities */
u_int ana ; /* NWay Advertisement */
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u_int fdx ; /* Full DupleX capabilities for each media */
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u_int ttm ; /* Transmit Threshold Mode for each media */
u_int mci ; /* 21142 MII Connector Interrupt info */
} ;
# define DE4X5_MAX_PHY 8 /* Allow upto 8 attached PHY devices per board */
struct sia_phy {
u_char mc ; /* Media Code */
u_char ext ; /* csr13-15 valid when set */
int csr13 ; /* SIA Connectivity Register */
int csr14 ; /* SIA TX/RX Register */
int csr15 ; /* SIA General Register */
int gepc ; /* SIA GEP Control Information */
int gep ; /* SIA GEP Data */
} ;
/*
* * Define the know universe of PHY devices that can be
* * recognised by this driver .
*/
static struct phy_table phy_info [ ] = {
{ 0 , NATIONAL_TX , 1 , { 0x19 , 0x40 , 0x00 } } , /* National TX */
{ 1 , BROADCOM_T4 , 1 , { 0x10 , 0x02 , 0x02 } } , /* Broadcom T4 */
{ 0 , SEEQ_T4 , 1 , { 0x12 , 0x10 , 0x10 } } , /* SEEQ T4 */
{ 0 , CYPRESS_T4 , 1 , { 0x05 , 0x20 , 0x20 } } , /* Cypress T4 */
{ 0 , 0x7810 , 1 , { 0x14 , 0x0800 , 0x0800 } } /* Level One LTX970 */
} ;
/*
* * These GENERIC values assumes that the PHY devices follow 802.3 u and
* * allow parallel detection to set the link partner ability register .
* * Detection of 100 Base - TX [ H / F Duplex ] and 100 Base - T4 is supported .
*/
# define GENERIC_REG 0x05 /* Autoneg. Link Partner Advertisement Reg. */
# define GENERIC_MASK MII_ANLPA_100M /* All 100Mb/s Technologies */
# define GENERIC_VALUE MII_ANLPA_100M /* 100B-TX, 100B-TX FDX, 100B-T4 */
/*
* * Define special SROM detection cases
*/
static c_char enet_det [ ] [ ETH_ALEN ] = {
{ 0x00 , 0x00 , 0xc0 , 0x00 , 0x00 , 0x00 } ,
{ 0x00 , 0x00 , 0xe8 , 0x00 , 0x00 , 0x00 }
} ;
# define SMC 1
# define ACCTON 2
/*
* * SROM Repair definitions . If a broken SROM is detected a card may
* * use this information to help figure out what to do . This is a
* * " stab in the dark " and so far for SMC9332 ' s only .
*/
static c_char srom_repair_info [ ] [ 100 ] = {
{ 0x00 , 0x1e , 0x00 , 0x00 , 0x00 , 0x08 , /* SMC9332 */
0x1f , 0x01 , 0x8f , 0x01 , 0x00 , 0x01 , 0x00 , 0x02 ,
0x01 , 0x00 , 0x00 , 0x78 , 0xe0 , 0x01 , 0x00 , 0x50 ,
0x00 , 0x18 , }
} ;
# ifdef DE4X5_DEBUG
static int de4x5_debug = DE4X5_DEBUG ;
# else
/*static int de4x5_debug = (DEBUG_MII | DEBUG_SROM | DEBUG_PCICFG | DEBUG_MEDIA | DEBUG_VERSION);*/
static int de4x5_debug = ( DEBUG_MEDIA | DEBUG_VERSION ) ;
# endif
/*
* * Allow per adapter set up . For modules this is simply a command line
2006-05-27 09:39:03 +08:00
* * parameter , e . g . :
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* * insmod de4x5 args = ' eth1 : fdx autosense = BNC eth0 : autosense = 100 Mb ' .
* *
* * For a compiled in driver , place e . g .
* * # define DE4X5_PARM " eth0:fdx autosense=AUI eth2:autosense=TP "
* * here
*/
# ifdef DE4X5_PARM
static char * args = DE4X5_PARM ;
# else
static char * args ;
# endif
struct parameters {
int fdx ;
int autosense ;
} ;
# define DE4X5_AUTOSENSE_MS 250 /* msec autosense tick (DE500) */
# define DE4X5_NDA 0xffe0 /* No Device (I/O) Address */
/*
* * Ethernet PROM defines
*/
# define PROBE_LENGTH 32
# define ETH_PROM_SIG 0xAA5500FFUL
/*
* * Ethernet Info
*/
# define PKT_BUF_SZ 1536 /* Buffer size for each Tx/Rx buffer */
# define IEEE802_3_SZ 1518 /* Packet + CRC */
# define MAX_PKT_SZ 1514 /* Maximum ethernet packet length */
# define MAX_DAT_SZ 1500 /* Maximum ethernet data length */
# define MIN_DAT_SZ 1 /* Minimum ethernet data length */
# define PKT_HDR_LEN 14 /* Addresses and data length info */
# define FAKE_FRAME_LEN (MAX_PKT_SZ + 1)
# define QUEUE_PKT_TIMEOUT (3*HZ) /* 3 second timeout */
/*
* * EISA bus defines
*/
# define DE4X5_EISA_IO_PORTS 0x0c00 /* I/O port base address, slot 0 */
# define DE4X5_EISA_TOTAL_SIZE 0x100 /* I/O address extent */
# define EISA_ALLOWED_IRQ_LIST {5, 9, 10, 11}
# define DE4X5_SIGNATURE {"DE425","DE434","DE435","DE450","DE500"}
# define DE4X5_NAME_LENGTH 8
static c_char * de4x5_signatures [ ] = DE4X5_SIGNATURE ;
/*
* * Ethernet PROM defines for DC21040
*/
# define PROBE_LENGTH 32
# define ETH_PROM_SIG 0xAA5500FFUL
/*
* * PCI Bus defines
*/
# define PCI_MAX_BUS_NUM 8
# define DE4X5_PCI_TOTAL_SIZE 0x80 /* I/O address extent */
# define DE4X5_CLASS_CODE 0x00020000 /* Network controller, Ethernet */
/*
* * Memory Alignment . Each descriptor is 4 longwords long . To force a
* * particular alignment on the TX descriptor , adjust DESC_SKIP_LEN and
* * DESC_ALIGN . ALIGN aligns the start address of the private memory area
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* * and hence the RX descriptor ring ' s first entry .
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*/
# define DE4X5_ALIGN4 ((u_long)4 - 1) /* 1 longword align */
# define DE4X5_ALIGN8 ((u_long)8 - 1) /* 2 longword align */
# define DE4X5_ALIGN16 ((u_long)16 - 1) /* 4 longword align */
# define DE4X5_ALIGN32 ((u_long)32 - 1) /* 8 longword align */
# define DE4X5_ALIGN64 ((u_long)64 - 1) /* 16 longword align */
# define DE4X5_ALIGN128 ((u_long)128 - 1) /* 32 longword align */
# define DE4X5_ALIGN DE4X5_ALIGN32 /* Keep the DC21040 happy... */
# define DE4X5_CACHE_ALIGN CAL_16LONG
# define DESC_SKIP_LEN DSL_0 /* Must agree with DESC_ALIGN */
/*#define DESC_ALIGN u32 dummy[4]; / * Must agree with DESC_SKIP_LEN */
# define DESC_ALIGN
# ifndef DEC_ONLY /* See README.de4x5 for using this */
static int dec_only ;
# else
static int dec_only = 1 ;
# endif
/*
* * DE4X5 IRQ ENABLE / DISABLE
*/
# define ENABLE_IRQs { \
imr | = lp - > irq_en ; \
outl ( imr , DE4X5_IMR ) ; /* Enable the IRQs */ \
}
# define DISABLE_IRQs {\
imr = inl ( DE4X5_IMR ) ; \
imr & = ~ lp - > irq_en ; \
outl ( imr , DE4X5_IMR ) ; /* Disable the IRQs */ \
}
# define UNMASK_IRQs {\
imr | = lp - > irq_mask ; \
outl ( imr , DE4X5_IMR ) ; /* Unmask the IRQs */ \
}
# define MASK_IRQs {\
imr = inl ( DE4X5_IMR ) ; \
imr & = ~ lp - > irq_mask ; \
outl ( imr , DE4X5_IMR ) ; /* Mask the IRQs */ \
}
/*
* * DE4X5 START / STOP
*/
# define START_DE4X5 {\
omr = inl ( DE4X5_OMR ) ; \
omr | = OMR_ST | OMR_SR ; \
outl ( omr , DE4X5_OMR ) ; /* Enable the TX and/or RX */ \
}
# define STOP_DE4X5 {\
omr = inl ( DE4X5_OMR ) ; \
omr & = ~ ( OMR_ST | OMR_SR ) ; \
outl ( omr , DE4X5_OMR ) ; /* Disable the TX and/or RX */ \
}
/*
* * DE4X5 SIA RESET
*/
# define RESET_SIA outl(0, DE4X5_SICR); /* Reset SIA connectivity regs */
/*
* * DE500 AUTOSENSE TIMER INTERVAL ( MILLISECS )
*/
# define DE4X5_AUTOSENSE_MS 250
/*
* * SROM Structure
*/
struct de4x5_srom {
char sub_vendor_id [ 2 ] ;
char sub_system_id [ 2 ] ;
char reserved [ 12 ] ;
char id_block_crc ;
char reserved2 ;
char version ;
char num_controllers ;
char ieee_addr [ 6 ] ;
char info [ 100 ] ;
short chksum ;
} ;
# define SUB_VENDOR_ID 0x500a
/*
* * DE4X5 Descriptors . Make sure that all the RX buffers are contiguous
* * and have sizes of both a power of 2 and a multiple of 4.
* * A size of 256 bytes for each buffer could be chosen because over 90 % of
* * all packets in our network are < 256 bytes long and 64 longword alignment
* * is possible . 1536 showed better ' ttcp ' performance . Take your pick . 32 TX
* * descriptors are needed for machines with an ALPHA CPU .
*/
# define NUM_RX_DESC 8 /* Number of RX descriptors */
# define NUM_TX_DESC 32 /* Number of TX descriptors */
# define RX_BUFF_SZ 1536 /* Power of 2 for kmalloc and */
/* Multiple of 4 for DC21040 */
/* Allows 512 byte alignment */
struct de4x5_desc {
volatile s32 status ;
u32 des1 ;
u32 buf ;
u32 next ;
DESC_ALIGN
} ;
/*
* * The DE4X5 private structure
*/
# define DE4X5_PKT_STAT_SZ 16
# define DE4X5_PKT_BIN_SZ 128 / * Should be >=100 unless you
increase DE4X5_PKT_STAT_SZ */
struct pkt_stats {
u_int bins [ DE4X5_PKT_STAT_SZ ] ; /* Private stats counters */
u_int unicast ;
u_int multicast ;
u_int broadcast ;
u_int excessive_collisions ;
u_int tx_underruns ;
u_int excessive_underruns ;
u_int rx_runt_frames ;
u_int rx_collision ;
u_int rx_dribble ;
u_int rx_overflow ;
} ;
struct de4x5_private {
char adapter_name [ 80 ] ; /* Adapter name */
u_long interrupt ; /* Aligned ISR flag */
struct de4x5_desc * rx_ring ; /* RX descriptor ring */
struct de4x5_desc * tx_ring ; /* TX descriptor ring */
struct sk_buff * tx_skb [ NUM_TX_DESC ] ; /* TX skb for freeing when sent */
struct sk_buff * rx_skb [ NUM_RX_DESC ] ; /* RX skb's */
int rx_new , rx_old ; /* RX descriptor ring pointers */
int tx_new , tx_old ; /* TX descriptor ring pointers */
char setup_frame [ SETUP_FRAME_LEN ] ; /* Holds MCA and PA info. */
char frame [ 64 ] ; /* Min sized packet for loopback*/
spinlock_t lock ; /* Adapter specific spinlock */
struct net_device_stats stats ; /* Public stats */
struct pkt_stats pktStats ; /* Private stats counters */
char rxRingSize ;
char txRingSize ;
int bus ; /* EISA or PCI */
int bus_num ; /* PCI Bus number */
int device ; /* Device number on PCI bus */
int state ; /* Adapter OPENED or CLOSED */
int chipset ; /* DC21040, DC21041 or DC21140 */
s32 irq_mask ; /* Interrupt Mask (Enable) bits */
s32 irq_en ; /* Summary interrupt bits */
int media ; /* Media (eg TP), mode (eg 100B)*/
int c_media ; /* Remember the last media conn */
int fdx ; /* media full duplex flag */
int linkOK ; /* Link is OK */
int autosense ; /* Allow/disallow autosensing */
int tx_enable ; /* Enable descriptor polling */
int setup_f ; /* Setup frame filtering type */
int local_state ; /* State within a 'media' state */
struct mii_phy phy [ DE4X5_MAX_PHY ] ; /* List of attached PHY devices */
struct sia_phy sia ; /* SIA PHY Information */
int active ; /* Index to active PHY device */
int mii_cnt ; /* Number of attached PHY's */
int timeout ; /* Scheduling counter */
struct timer_list timer ; /* Timer info for kernel */
int tmp ; /* Temporary global per card */
struct {
u_long lock ; /* Lock the cache accesses */
s32 csr0 ; /* Saved Bus Mode Register */
s32 csr6 ; /* Saved Operating Mode Reg. */
s32 csr7 ; /* Saved IRQ Mask Register */
s32 gep ; /* Saved General Purpose Reg. */
s32 gepc ; /* Control info for GEP */
s32 csr13 ; /* Saved SIA Connectivity Reg. */
s32 csr14 ; /* Saved SIA TX/RX Register */
s32 csr15 ; /* Saved SIA General Register */
int save_cnt ; /* Flag if state already saved */
struct sk_buff * skb ; /* Save the (re-ordered) skb's */
} cache ;
struct de4x5_srom srom ; /* A copy of the SROM */
int cfrv ; /* Card CFRV copy */
int rx_ovf ; /* Check for 'RX overflow' tag */
int useSROM ; /* For non-DEC card use SROM */
int useMII ; /* Infoblock using the MII */
int asBitValid ; /* Autosense bits in GEP? */
int asPolarity ; /* 0 => asserted high */
int asBit ; /* Autosense bit number in GEP */
int defMedium ; /* SROM default medium */
int tcount ; /* Last infoblock number */
int infoblock_init ; /* Initialised this infoblock? */
int infoleaf_offset ; /* SROM infoleaf for controller */
s32 infoblock_csr6 ; /* csr6 value in SROM infoblock */
int infoblock_media ; /* infoblock media */
int ( * infoleaf_fn ) ( struct net_device * ) ; /* Pointer to infoleaf function */
u_char * rst ; /* Pointer to Type 5 reset info */
u_char ibn ; /* Infoblock number */
struct parameters params ; /* Command line/ #defined params */
struct device * gendev ; /* Generic device */
dma_addr_t dma_rings ; /* DMA handle for rings */
int dma_size ; /* Size of the DMA area */
char * rx_bufs ; /* rx bufs on alpha, sparc, ... */
} ;
/*
* * To get around certain poxy cards that don ' t provide an SROM
* * for the second and more DECchip , I have to key off the first
* * chip ' s address . I ' ll assume there ' s not a bad SROM iff :
* *
* * o the chipset is the same
* * o the bus number is the same and > 0
* * o the sum of all the returned hw address bytes is 0 or 0x5fa
* *
* * Also have to save the irq for those cards whose hardware designers
* * can ' t follow the PCI to PCI Bridge Architecture spec .
*/
static struct {
int chipset ;
int bus ;
int irq ;
u_char addr [ ETH_ALEN ] ;
} last = { 0 , } ;
/*
* * The transmit ring full condition is described by the tx_old and tx_new
* * pointers by :
* * tx_old = tx_new Empty ring
* * tx_old = tx_new + 1 Full ring
* * tx_old + txRingSize = tx_new + 1 Full ring ( wrapped condition )
*/
# define TX_BUFFS_AVAIL ((lp->tx_old<=lp->tx_new)?\
lp - > tx_old + lp - > txRingSize - lp - > tx_new - 1 : \
lp - > tx_old - lp - > tx_new - 1 )
# define TX_PKT_PENDING (lp->tx_old != lp->tx_new)
/*
* * Public Functions
*/
static int de4x5_open ( struct net_device * dev ) ;
static int de4x5_queue_pkt ( struct sk_buff * skb , struct net_device * dev ) ;
static irqreturn_t de4x5_interrupt ( int irq , void * dev_id , struct pt_regs * regs ) ;
static int de4x5_close ( struct net_device * dev ) ;
static struct net_device_stats * de4x5_get_stats ( struct net_device * dev ) ;
static void de4x5_local_stats ( struct net_device * dev , char * buf , int pkt_len ) ;
static void set_multicast_list ( struct net_device * dev ) ;
static int de4x5_ioctl ( struct net_device * dev , struct ifreq * rq , int cmd ) ;
/*
* * Private functions
*/
static int de4x5_hw_init ( struct net_device * dev , u_long iobase , struct device * gendev ) ;
static int de4x5_init ( struct net_device * dev ) ;
static int de4x5_sw_reset ( struct net_device * dev ) ;
static int de4x5_rx ( struct net_device * dev ) ;
static int de4x5_tx ( struct net_device * dev ) ;
static int de4x5_ast ( struct net_device * dev ) ;
static int de4x5_txur ( struct net_device * dev ) ;
static int de4x5_rx_ovfc ( struct net_device * dev ) ;
static int autoconf_media ( struct net_device * dev ) ;
static void create_packet ( struct net_device * dev , char * frame , int len ) ;
static void load_packet ( struct net_device * dev , char * buf , u32 flags , struct sk_buff * skb ) ;
static int dc21040_autoconf ( struct net_device * dev ) ;
static int dc21041_autoconf ( struct net_device * dev ) ;
static int dc21140m_autoconf ( struct net_device * dev ) ;
static int dc2114x_autoconf ( struct net_device * dev ) ;
static int srom_autoconf ( struct net_device * dev ) ;
static int de4x5_suspect_state ( struct net_device * dev , int timeout , int prev_state , int ( * fn ) ( struct net_device * , int ) , int ( * asfn ) ( struct net_device * ) ) ;
static int dc21040_state ( struct net_device * dev , int csr13 , int csr14 , int csr15 , int timeout , int next_state , int suspect_state , int ( * fn ) ( struct net_device * , int ) ) ;
static int test_media ( struct net_device * dev , s32 irqs , s32 irq_mask , s32 csr13 , s32 csr14 , s32 csr15 , s32 msec ) ;
static int test_for_100Mb ( struct net_device * dev , int msec ) ;
static int wait_for_link ( struct net_device * dev ) ;
static int test_mii_reg ( struct net_device * dev , int reg , int mask , int pol , long msec ) ;
static int is_spd_100 ( struct net_device * dev ) ;
static int is_100_up ( struct net_device * dev ) ;
static int is_10_up ( struct net_device * dev ) ;
static int is_anc_capable ( struct net_device * dev ) ;
static int ping_media ( struct net_device * dev , int msec ) ;
static struct sk_buff * de4x5_alloc_rx_buff ( struct net_device * dev , int index , int len ) ;
static void de4x5_free_rx_buffs ( struct net_device * dev ) ;
static void de4x5_free_tx_buffs ( struct net_device * dev ) ;
static void de4x5_save_skbs ( struct net_device * dev ) ;
static void de4x5_rst_desc_ring ( struct net_device * dev ) ;
static void de4x5_cache_state ( struct net_device * dev , int flag ) ;
static void de4x5_put_cache ( struct net_device * dev , struct sk_buff * skb ) ;
static void de4x5_putb_cache ( struct net_device * dev , struct sk_buff * skb ) ;
static struct sk_buff * de4x5_get_cache ( struct net_device * dev ) ;
static void de4x5_setup_intr ( struct net_device * dev ) ;
static void de4x5_init_connection ( struct net_device * dev ) ;
static int de4x5_reset_phy ( struct net_device * dev ) ;
static void reset_init_sia ( struct net_device * dev , s32 sicr , s32 strr , s32 sigr ) ;
static int test_ans ( struct net_device * dev , s32 irqs , s32 irq_mask , s32 msec ) ;
static int test_tp ( struct net_device * dev , s32 msec ) ;
static int EISA_signature ( char * name , struct device * device ) ;
static int PCI_signature ( char * name , struct de4x5_private * lp ) ;
static void DevicePresent ( struct net_device * dev , u_long iobase ) ;
static void enet_addr_rst ( u_long aprom_addr ) ;
static int de4x5_bad_srom ( struct de4x5_private * lp ) ;
static short srom_rd ( u_long address , u_char offset ) ;
static void srom_latch ( u_int command , u_long address ) ;
static void srom_command ( u_int command , u_long address ) ;
static void srom_address ( u_int command , u_long address , u_char offset ) ;
static short srom_data ( u_int command , u_long address ) ;
/*static void srom_busy(u_int command, u_long address);*/
static void sendto_srom ( u_int command , u_long addr ) ;
static int getfrom_srom ( u_long addr ) ;
static int srom_map_media ( struct net_device * dev ) ;
static int srom_infoleaf_info ( struct net_device * dev ) ;
static void srom_init ( struct net_device * dev ) ;
static void srom_exec ( struct net_device * dev , u_char * p ) ;
static int mii_rd ( u_char phyreg , u_char phyaddr , u_long ioaddr ) ;
static void mii_wr ( int data , u_char phyreg , u_char phyaddr , u_long ioaddr ) ;
static int mii_rdata ( u_long ioaddr ) ;
static void mii_wdata ( int data , int len , u_long ioaddr ) ;
static void mii_ta ( u_long rw , u_long ioaddr ) ;
static int mii_swap ( int data , int len ) ;
static void mii_address ( u_char addr , u_long ioaddr ) ;
static void sendto_mii ( u32 command , int data , u_long ioaddr ) ;
static int getfrom_mii ( u32 command , u_long ioaddr ) ;
static int mii_get_oui ( u_char phyaddr , u_long ioaddr ) ;
static int mii_get_phy ( struct net_device * dev ) ;
static void SetMulticastFilter ( struct net_device * dev ) ;
static int get_hw_addr ( struct net_device * dev ) ;
static void srom_repair ( struct net_device * dev , int card ) ;
static int test_bad_enet ( struct net_device * dev , int status ) ;
static int an_exception ( struct de4x5_private * lp ) ;
static char * build_setup_frame ( struct net_device * dev , int mode ) ;
static void disable_ast ( struct net_device * dev ) ;
static void enable_ast ( struct net_device * dev , u32 time_out ) ;
static long de4x5_switch_mac_port ( struct net_device * dev ) ;
static int gep_rd ( struct net_device * dev ) ;
static void gep_wr ( s32 data , struct net_device * dev ) ;
static void timeout ( struct net_device * dev , void ( * fn ) ( u_long data ) , u_long data , u_long msec ) ;
static void yawn ( struct net_device * dev , int state ) ;
static void de4x5_parse_params ( struct net_device * dev ) ;
static void de4x5_dbg_open ( struct net_device * dev ) ;
static void de4x5_dbg_mii ( struct net_device * dev , int k ) ;
static void de4x5_dbg_media ( struct net_device * dev ) ;
static void de4x5_dbg_srom ( struct de4x5_srom * p ) ;
static void de4x5_dbg_rx ( struct sk_buff * skb , int len ) ;
static int de4x5_strncmp ( char * a , char * b , int n ) ;
static int dc21041_infoleaf ( struct net_device * dev ) ;
static int dc21140_infoleaf ( struct net_device * dev ) ;
static int dc21142_infoleaf ( struct net_device * dev ) ;
static int dc21143_infoleaf ( struct net_device * dev ) ;
static int type0_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
static int type1_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
static int type2_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
static int type3_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
static int type4_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
static int type5_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
static int compact_infoblock ( struct net_device * dev , u_char count , u_char * p ) ;
/*
* * Note now that module autoprobing is allowed under EISA and PCI . The
* * IRQ lines will not be auto - detected ; instead I ' ll rely on the BIOSes
* * to " do the right thing " .
*/
static int io = 0x0 ; /* EDIT THIS LINE FOR YOUR CONFIGURATION IF NEEDED */
module_param ( io , int , 0 ) ;
module_param ( de4x5_debug , int , 0 ) ;
module_param ( dec_only , int , 0 ) ;
module_param ( args , charp , 0 ) ;
MODULE_PARM_DESC ( io , " de4x5 I/O base address " ) ;
MODULE_PARM_DESC ( de4x5_debug , " de4x5 debug mask " ) ;
MODULE_PARM_DESC ( dec_only , " de4x5 probe only for Digital boards (0-1) " ) ;
MODULE_PARM_DESC ( args , " de4x5 full duplex and media type settings; see de4x5.c for details " ) ;
MODULE_LICENSE ( " GPL " ) ;
/*
* * List the SROM infoleaf functions and chipsets
*/
struct InfoLeaf {
int chipset ;
int ( * fn ) ( struct net_device * ) ;
} ;
static struct InfoLeaf infoleaf_array [ ] = {
{ DC21041 , dc21041_infoleaf } ,
{ DC21140 , dc21140_infoleaf } ,
{ DC21142 , dc21142_infoleaf } ,
{ DC21143 , dc21143_infoleaf }
} ;
# define INFOLEAF_SIZE (sizeof(infoleaf_array) / (sizeof(int)+sizeof(int *)))
/*
* * List the SROM info block functions
*/
static int ( * dc_infoblock [ ] ) ( struct net_device * dev , u_char , u_char * ) = {
type0_infoblock ,
type1_infoblock ,
type2_infoblock ,
type3_infoblock ,
type4_infoblock ,
type5_infoblock ,
compact_infoblock
} ;
# define COMPACT (sizeof(dc_infoblock) / sizeof(int *) - 1)
/*
* * Miscellaneous defines . . .
*/
# define RESET_DE4X5 {\
int i ; \
i = inl ( DE4X5_BMR ) ; \
mdelay ( 1 ) ; \
outl ( i | BMR_SWR , DE4X5_BMR ) ; \
mdelay ( 1 ) ; \
outl ( i , DE4X5_BMR ) ; \
mdelay ( 1 ) ; \
for ( i = 0 ; i < 5 ; i + + ) { inl ( DE4X5_BMR ) ; mdelay ( 1 ) ; } \
mdelay ( 1 ) ; \
}
# define PHY_HARD_RESET {\
outl ( GEP_HRST , DE4X5_GEP ) ; /* Hard RESET the PHY dev. */ \
mdelay ( 1 ) ; /* Assert for 1ms */ \
outl ( 0x00 , DE4X5_GEP ) ; \
mdelay ( 2 ) ; /* Wait for 2ms */ \
}
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static int __devinit
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de4x5_hw_init ( struct net_device * dev , u_long iobase , struct device * gendev )
{
char name [ DE4X5_NAME_LENGTH + 1 ] ;
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct pci_dev * pdev = NULL ;
int i , status = 0 ;
gendev - > driver_data = dev ;
/* Ensure we're not sleeping */
if ( lp - > bus = = EISA ) {
outb ( WAKEUP , PCI_CFPM ) ;
} else {
pdev = to_pci_dev ( gendev ) ;
pci_write_config_byte ( pdev , PCI_CFDA_PSM , WAKEUP ) ;
}
mdelay ( 10 ) ;
RESET_DE4X5 ;
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if ( ( inl ( DE4X5_STS ) & ( STS_TS | STS_RS ) ) ! = 0 ) {
return - ENXIO ; /* Hardware could not reset */
}
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/*
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* * Now find out what kind of DC21040 / DC21041 / DC21140 board we have .
*/
lp - > useSROM = FALSE ;
if ( lp - > bus = = PCI ) {
PCI_signature ( name , lp ) ;
} else {
EISA_signature ( name , gendev ) ;
}
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if ( * name = = ' \0 ' ) { /* Not found a board signature */
return - ENXIO ;
}
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dev - > base_addr = iobase ;
printk ( " %s: %s at 0x%04lx " , gendev - > bus_id , name , iobase ) ;
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printk ( " , h/w address " ) ;
status = get_hw_addr ( dev ) ;
for ( i = 0 ; i < ETH_ALEN - 1 ; i + + ) { /* get the ethernet addr. */
printk ( " %2.2x: " , dev - > dev_addr [ i ] ) ;
}
printk ( " %2.2x, \n " , dev - > dev_addr [ i ] ) ;
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if ( status ! = 0 ) {
printk ( " which has an Ethernet PROM CRC error. \n " ) ;
return - ENXIO ;
} else {
lp - > cache . gepc = GEP_INIT ;
lp - > asBit = GEP_SLNK ;
lp - > asPolarity = GEP_SLNK ;
lp - > asBitValid = TRUE ;
lp - > timeout = - 1 ;
lp - > gendev = gendev ;
spin_lock_init ( & lp - > lock ) ;
init_timer ( & lp - > timer ) ;
de4x5_parse_params ( dev ) ;
/*
* * Choose correct autosensing in case someone messed up
*/
lp - > autosense = lp - > params . autosense ;
if ( lp - > chipset ! = DC21140 ) {
if ( ( lp - > chipset = = DC21040 ) & & ( lp - > params . autosense & TP_NW ) ) {
lp - > params . autosense = TP ;
}
if ( ( lp - > chipset = = DC21041 ) & & ( lp - > params . autosense & BNC_AUI ) ) {
lp - > params . autosense = BNC ;
}
}
lp - > fdx = lp - > params . fdx ;
sprintf ( lp - > adapter_name , " %s (%s) " , name , gendev - > bus_id ) ;
lp - > dma_size = ( NUM_RX_DESC + NUM_TX_DESC ) * sizeof ( struct de4x5_desc ) ;
# if defined(__alpha__) || defined(__powerpc__) || defined(__sparc_v9__) || defined(DE4X5_DO_MEMCPY)
lp - > dma_size + = RX_BUFF_SZ * NUM_RX_DESC + DE4X5_ALIGN ;
# endif
lp - > rx_ring = dma_alloc_coherent ( gendev , lp - > dma_size ,
& lp - > dma_rings , GFP_ATOMIC ) ;
if ( lp - > rx_ring = = NULL ) {
return - ENOMEM ;
}
lp - > tx_ring = lp - > rx_ring + NUM_RX_DESC ;
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/*
* * Set up the RX descriptor ring ( Intels )
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* * Allocate contiguous receive buffers , long word aligned ( Alphas )
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*/
# if !defined(__alpha__) && !defined(__powerpc__) && !defined(__sparc_v9__) && !defined(DE4X5_DO_MEMCPY)
for ( i = 0 ; i < NUM_RX_DESC ; i + + ) {
lp - > rx_ring [ i ] . status = 0 ;
lp - > rx_ring [ i ] . des1 = cpu_to_le32 ( RX_BUFF_SZ ) ;
lp - > rx_ring [ i ] . buf = 0 ;
lp - > rx_ring [ i ] . next = 0 ;
lp - > rx_skb [ i ] = ( struct sk_buff * ) 1 ; /* Dummy entry */
}
# else
{
dma_addr_t dma_rx_bufs ;
dma_rx_bufs = lp - > dma_rings + ( NUM_RX_DESC + NUM_TX_DESC )
* sizeof ( struct de4x5_desc ) ;
dma_rx_bufs = ( dma_rx_bufs + DE4X5_ALIGN ) & ~ DE4X5_ALIGN ;
lp - > rx_bufs = ( char * ) ( ( ( long ) ( lp - > rx_ring + NUM_RX_DESC
+ NUM_TX_DESC ) + DE4X5_ALIGN ) & ~ DE4X5_ALIGN ) ;
for ( i = 0 ; i < NUM_RX_DESC ; i + + ) {
lp - > rx_ring [ i ] . status = 0 ;
lp - > rx_ring [ i ] . des1 = cpu_to_le32 ( RX_BUFF_SZ ) ;
lp - > rx_ring [ i ] . buf =
cpu_to_le32 ( dma_rx_bufs + i * RX_BUFF_SZ ) ;
lp - > rx_ring [ i ] . next = 0 ;
lp - > rx_skb [ i ] = ( struct sk_buff * ) 1 ; /* Dummy entry */
}
}
# endif
barrier ( ) ;
lp - > rxRingSize = NUM_RX_DESC ;
lp - > txRingSize = NUM_TX_DESC ;
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/* Write the end of list marker to the descriptor lists */
lp - > rx_ring [ lp - > rxRingSize - 1 ] . des1 | = cpu_to_le32 ( RD_RER ) ;
lp - > tx_ring [ lp - > txRingSize - 1 ] . des1 | = cpu_to_le32 ( TD_TER ) ;
/* Tell the adapter where the TX/RX rings are located. */
outl ( lp - > dma_rings , DE4X5_RRBA ) ;
outl ( lp - > dma_rings + NUM_RX_DESC * sizeof ( struct de4x5_desc ) ,
DE4X5_TRBA ) ;
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/* Initialise the IRQ mask and Enable/Disable */
lp - > irq_mask = IMR_RIM | IMR_TIM | IMR_TUM | IMR_UNM ;
lp - > irq_en = IMR_NIM | IMR_AIM ;
/* Create a loopback packet frame for later media probing */
create_packet ( dev , lp - > frame , sizeof ( lp - > frame ) ) ;
/* Check if the RX overflow bug needs testing for */
i = lp - > cfrv & 0x000000fe ;
if ( ( lp - > chipset = = DC21140 ) & & ( i = = 0x20 ) ) {
lp - > rx_ovf = 1 ;
}
/* Initialise the SROM pointers if possible */
if ( lp - > useSROM ) {
lp - > state = INITIALISED ;
if ( srom_infoleaf_info ( dev ) ) {
dma_free_coherent ( gendev , lp - > dma_size ,
lp - > rx_ring , lp - > dma_rings ) ;
return - ENXIO ;
}
srom_init ( dev ) ;
}
lp - > state = CLOSED ;
/*
* * Check for an MII interface
*/
if ( ( lp - > chipset ! = DC21040 ) & & ( lp - > chipset ! = DC21041 ) ) {
mii_get_phy ( dev ) ;
}
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# ifndef __sparc_v9__
printk ( " and requires IRQ%d (provided by %s). \n " , dev - > irq ,
# else
printk ( " and requires IRQ%x (provided by %s). \n " , dev - > irq ,
# endif
( ( lp - > bus = = PCI ) ? " PCI BIOS " : " EISA CNFG " ) ) ;
}
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if ( de4x5_debug & DEBUG_VERSION ) {
printk ( version ) ;
}
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/* The DE4X5-specific entries in the device structure. */
SET_MODULE_OWNER ( dev ) ;
SET_NETDEV_DEV ( dev , gendev ) ;
dev - > open = & de4x5_open ;
dev - > hard_start_xmit = & de4x5_queue_pkt ;
dev - > stop = & de4x5_close ;
dev - > get_stats = & de4x5_get_stats ;
dev - > set_multicast_list = & set_multicast_list ;
dev - > do_ioctl = & de4x5_ioctl ;
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dev - > mem_start = 0 ;
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/* Fill in the generic fields of the device structure. */
if ( ( status = register_netdev ( dev ) ) ) {
dma_free_coherent ( gendev , lp - > dma_size ,
lp - > rx_ring , lp - > dma_rings ) ;
return status ;
}
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/* Let the adapter sleep to save power */
yawn ( dev , SLEEP ) ;
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return status ;
}
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static int
de4x5_open ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int i , status = 0 ;
s32 omr ;
/* Allocate the RX buffers */
for ( i = 0 ; i < lp - > rxRingSize ; i + + ) {
if ( de4x5_alloc_rx_buff ( dev , i , 0 ) = = NULL ) {
de4x5_free_rx_buffs ( dev ) ;
return - EAGAIN ;
}
}
/*
* * Wake up the adapter
*/
yawn ( dev , WAKEUP ) ;
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/*
* * Re - initialize the DE4X5 . . .
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*/
status = de4x5_init ( dev ) ;
spin_lock_init ( & lp - > lock ) ;
lp - > state = OPEN ;
de4x5_dbg_open ( dev ) ;
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if ( request_irq ( dev - > irq , ( void * ) de4x5_interrupt , IRQF_SHARED ,
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lp - > adapter_name , dev ) ) {
printk ( " de4x5_open(): Requested IRQ%d is busy - attemping FAST/SHARE... " , dev - > irq ) ;
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if ( request_irq ( dev - > irq , de4x5_interrupt , IRQF_DISABLED | IRQF_SHARED ,
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lp - > adapter_name , dev ) ) {
printk ( " \n Cannot get IRQ- reconfigure your hardware. \n " ) ;
disable_ast ( dev ) ;
de4x5_free_rx_buffs ( dev ) ;
de4x5_free_tx_buffs ( dev ) ;
yawn ( dev , SLEEP ) ;
lp - > state = CLOSED ;
return - EAGAIN ;
} else {
printk ( " \n Succeeded, but you should reconfigure your hardware to avoid this. \n " ) ;
printk ( " WARNING: there may be IRQ related problems in heavily loaded systems. \n " ) ;
}
}
lp - > interrupt = UNMASK_INTERRUPTS ;
dev - > trans_start = jiffies ;
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START_DE4X5 ;
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de4x5_setup_intr ( dev ) ;
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if ( de4x5_debug & DEBUG_OPEN ) {
printk ( " \t sts: 0x%08x \n " , inl ( DE4X5_STS ) ) ;
printk ( " \t bmr: 0x%08x \n " , inl ( DE4X5_BMR ) ) ;
printk ( " \t imr: 0x%08x \n " , inl ( DE4X5_IMR ) ) ;
printk ( " \t omr: 0x%08x \n " , inl ( DE4X5_OMR ) ) ;
printk ( " \t sisr: 0x%08x \n " , inl ( DE4X5_SISR ) ) ;
printk ( " \t sicr: 0x%08x \n " , inl ( DE4X5_SICR ) ) ;
printk ( " \t strr: 0x%08x \n " , inl ( DE4X5_STRR ) ) ;
printk ( " \t sigr: 0x%08x \n " , inl ( DE4X5_SIGR ) ) ;
}
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return status ;
}
/*
* * Initialize the DE4X5 operating conditions . NB : a chip problem with the
* * DC21140 requires using perfect filtering mode for that chip . Since I can ' t
* * see why I ' d want > 14 multicast addresses , I have changed all chips to use
* * the perfect filtering mode . Keep the DMA burst length at 8 : there seems
* * to be data corruption problems if it is larger ( UDP errors seen from a
* * ttcp source ) .
*/
static int
de4x5_init ( struct net_device * dev )
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{
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/* Lock out other processes whilst setting up the hardware */
netif_stop_queue ( dev ) ;
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de4x5_sw_reset ( dev ) ;
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/* Autoconfigure the connected port */
autoconf_media ( dev ) ;
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return 0 ;
}
static int
de4x5_sw_reset ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int i , j , status = 0 ;
s32 bmr , omr ;
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/* Select the MII or SRL port now and RESET the MAC */
if ( ! lp - > useSROM ) {
if ( lp - > phy [ lp - > active ] . id ! = 0 ) {
lp - > infoblock_csr6 = OMR_SDP | OMR_PS | OMR_HBD ;
} else {
lp - > infoblock_csr6 = OMR_SDP | OMR_TTM ;
}
de4x5_switch_mac_port ( dev ) ;
}
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/*
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* * Set the programmable burst length to 8 longwords for all the DC21140
* * Fasternet chips and 4 longwords for all others : DMA errors result
* * without these values . Cache align 16 long .
*/
bmr = ( lp - > chipset = = DC21140 ? PBL_8 : PBL_4 ) | DESC_SKIP_LEN | DE4X5_CACHE_ALIGN ;
bmr | = ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ? BMR_RML : 0 ) ;
outl ( bmr , DE4X5_BMR ) ;
omr = inl ( DE4X5_OMR ) & ~ OMR_PR ; /* Turn off promiscuous mode */
if ( lp - > chipset = = DC21140 ) {
omr | = ( OMR_SDP | OMR_SB ) ;
}
lp - > setup_f = PERFECT ;
outl ( lp - > dma_rings , DE4X5_RRBA ) ;
outl ( lp - > dma_rings + NUM_RX_DESC * sizeof ( struct de4x5_desc ) ,
DE4X5_TRBA ) ;
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lp - > rx_new = lp - > rx_old = 0 ;
lp - > tx_new = lp - > tx_old = 0 ;
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for ( i = 0 ; i < lp - > rxRingSize ; i + + ) {
lp - > rx_ring [ i ] . status = cpu_to_le32 ( R_OWN ) ;
}
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for ( i = 0 ; i < lp - > txRingSize ; i + + ) {
lp - > tx_ring [ i ] . status = cpu_to_le32 ( 0 ) ;
}
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barrier ( ) ;
/* Build the setup frame depending on filtering mode */
SetMulticastFilter ( dev ) ;
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load_packet ( dev , lp - > setup_frame , PERFECT_F | TD_SET | SETUP_FRAME_LEN , ( struct sk_buff * ) 1 ) ;
outl ( omr | OMR_ST , DE4X5_OMR ) ;
/* Poll for setup frame completion (adapter interrupts are disabled now) */
for ( j = 0 , i = 0 ; ( i < 500 ) & & ( j = = 0 ) ; i + + ) { /* Upto 500ms delay */
mdelay ( 1 ) ;
if ( ( s32 ) le32_to_cpu ( lp - > tx_ring [ lp - > tx_new ] . status ) > = 0 ) j = 1 ;
}
outl ( omr , DE4X5_OMR ) ; /* Stop everything! */
if ( j = = 0 ) {
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printk ( " %s: Setup frame timed out, status %08x \n " , dev - > name ,
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inl ( DE4X5_STS ) ) ;
status = - EIO ;
}
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lp - > tx_new = ( + + lp - > tx_new ) % lp - > txRingSize ;
lp - > tx_old = lp - > tx_new ;
return status ;
}
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/*
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* * Writes a socket buffer address to the next available transmit descriptor .
*/
static int
de4x5_queue_pkt ( struct sk_buff * skb , struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int status = 0 ;
u_long flags = 0 ;
netif_stop_queue ( dev ) ;
if ( lp - > tx_enable = = NO ) { /* Cannot send for now */
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return - 1 ;
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}
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/*
* * Clean out the TX ring asynchronously to interrupts - sometimes the
* * interrupts are lost by delayed descriptor status updates relative to
* * the irq assertion , especially with a busy PCI bus .
*/
spin_lock_irqsave ( & lp - > lock , flags ) ;
de4x5_tx ( dev ) ;
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
/* Test if cache is already locked - requeue skb if so */
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if ( test_and_set_bit ( 0 , ( void * ) & lp - > cache . lock ) & & ! lp - > interrupt )
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return - 1 ;
/* Transmit descriptor ring full or stale skb */
if ( netif_queue_stopped ( dev ) | | ( u_long ) lp - > tx_skb [ lp - > tx_new ] > 1 ) {
if ( lp - > interrupt ) {
de4x5_putb_cache ( dev , skb ) ; /* Requeue the buffer */
} else {
de4x5_put_cache ( dev , skb ) ;
}
if ( de4x5_debug & DEBUG_TX ) {
printk ( " %s: transmit busy, lost media or stale skb found: \n STS:%08x \n tbusy:%d \n IMR:%08x \n OMR:%08x \n Stale skb: %s \n " , dev - > name , inl ( DE4X5_STS ) , netif_queue_stopped ( dev ) , inl ( DE4X5_IMR ) , inl ( DE4X5_OMR ) , ( ( u_long ) lp - > tx_skb [ lp - > tx_new ] > 1 ) ? " YES " : " NO " ) ;
}
} else if ( skb - > len > 0 ) {
/* If we already have stuff queued locally, use that first */
if ( lp - > cache . skb & & ! lp - > interrupt ) {
de4x5_put_cache ( dev , skb ) ;
skb = de4x5_get_cache ( dev ) ;
}
while ( skb & & ! netif_queue_stopped ( dev ) & &
( u_long ) lp - > tx_skb [ lp - > tx_new ] < = 1 ) {
spin_lock_irqsave ( & lp - > lock , flags ) ;
netif_stop_queue ( dev ) ;
load_packet ( dev , skb - > data , TD_IC | TD_LS | TD_FS | skb - > len , skb ) ;
lp - > stats . tx_bytes + = skb - > len ;
outl ( POLL_DEMAND , DE4X5_TPD ) ; /* Start the TX */
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lp - > tx_new = ( + + lp - > tx_new ) % lp - > txRingSize ;
dev - > trans_start = jiffies ;
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if ( TX_BUFFS_AVAIL ) {
netif_start_queue ( dev ) ; /* Another pkt may be queued */
}
skb = de4x5_get_cache ( dev ) ;
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
}
if ( skb ) de4x5_putb_cache ( dev , skb ) ;
}
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lp - > cache . lock = 0 ;
return status ;
}
/*
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* * The DE4X5 interrupt handler .
* *
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* * I / O Read / Writes through intermediate PCI bridges are never ' posted ' ,
* * so that the asserted interrupt always has some real data to work with -
* * if these I / O accesses are ever changed to memory accesses , ensure the
* * STS write is read immediately to complete the transaction if the adapter
* * is not on bus 0. Lost interrupts can still occur when the PCI bus load
* * is high and descriptor status bits cannot be set before the associated
* * interrupt is asserted and this routine entered .
*/
static irqreturn_t
de4x5_interrupt ( int irq , void * dev_id , struct pt_regs * regs )
{
struct net_device * dev = ( struct net_device * ) dev_id ;
struct de4x5_private * lp ;
s32 imr , omr , sts , limit ;
u_long iobase ;
unsigned int handled = 0 ;
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if ( dev = = NULL ) {
printk ( " de4x5_interrupt(): irq %d for unknown device. \n " , irq ) ;
return IRQ_NONE ;
}
lp = netdev_priv ( dev ) ;
spin_lock ( & lp - > lock ) ;
iobase = dev - > base_addr ;
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DISABLE_IRQs ; /* Ensure non re-entrancy */
if ( test_and_set_bit ( MASK_INTERRUPTS , ( void * ) & lp - > interrupt ) )
printk ( " %s: Re-entering the interrupt handler. \n " , dev - > name ) ;
synchronize_irq ( dev - > irq ) ;
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for ( limit = 0 ; limit < 8 ; limit + + ) {
sts = inl ( DE4X5_STS ) ; /* Read IRQ status */
outl ( sts , DE4X5_STS ) ; /* Reset the board interrupts */
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if ( ! ( sts & lp - > irq_mask ) ) break ; /* All done */
handled = 1 ;
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if ( sts & ( STS_RI | STS_RU ) ) /* Rx interrupt (packet[s] arrived) */
de4x5_rx ( dev ) ;
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if ( sts & ( STS_TI | STS_TU ) ) /* Tx interrupt (packet sent) */
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de4x5_tx ( dev ) ;
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if ( sts & STS_LNF ) { /* TP Link has failed */
lp - > irq_mask & = ~ IMR_LFM ;
}
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if ( sts & STS_UNF ) { /* Transmit underrun */
de4x5_txur ( dev ) ;
}
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if ( sts & STS_SE ) { /* Bus Error */
STOP_DE4X5 ;
printk ( " %s: Fatal bus error occurred, sts=%#8x, device stopped. \n " ,
dev - > name , sts ) ;
spin_unlock ( & lp - > lock ) ;
return IRQ_HANDLED ;
}
}
/* Load the TX ring with any locally stored packets */
if ( ! test_and_set_bit ( 0 , ( void * ) & lp - > cache . lock ) ) {
while ( lp - > cache . skb & & ! netif_queue_stopped ( dev ) & & lp - > tx_enable ) {
de4x5_queue_pkt ( de4x5_get_cache ( dev ) , dev ) ;
}
lp - > cache . lock = 0 ;
}
lp - > interrupt = UNMASK_INTERRUPTS ;
ENABLE_IRQs ;
spin_unlock ( & lp - > lock ) ;
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return IRQ_RETVAL ( handled ) ;
}
static int
de4x5_rx ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int entry ;
s32 status ;
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for ( entry = lp - > rx_new ; ( s32 ) le32_to_cpu ( lp - > rx_ring [ entry ] . status ) > = 0 ;
entry = lp - > rx_new ) {
status = ( s32 ) le32_to_cpu ( lp - > rx_ring [ entry ] . status ) ;
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if ( lp - > rx_ovf ) {
if ( inl ( DE4X5_MFC ) & MFC_FOCM ) {
de4x5_rx_ovfc ( dev ) ;
break ;
}
}
if ( status & RD_FS ) { /* Remember the start of frame */
lp - > rx_old = entry ;
}
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if ( status & RD_LS ) { /* Valid frame status */
if ( lp - > tx_enable ) lp - > linkOK + + ;
if ( status & RD_ES ) { /* There was an error. */
lp - > stats . rx_errors + + ; /* Update the error stats. */
if ( status & ( RD_RF | RD_TL ) ) lp - > stats . rx_frame_errors + + ;
if ( status & RD_CE ) lp - > stats . rx_crc_errors + + ;
if ( status & RD_OF ) lp - > stats . rx_fifo_errors + + ;
if ( status & RD_TL ) lp - > stats . rx_length_errors + + ;
if ( status & RD_RF ) lp - > pktStats . rx_runt_frames + + ;
if ( status & RD_CS ) lp - > pktStats . rx_collision + + ;
if ( status & RD_DB ) lp - > pktStats . rx_dribble + + ;
if ( status & RD_OF ) lp - > pktStats . rx_overflow + + ;
} else { /* A valid frame received */
struct sk_buff * skb ;
short pkt_len = ( short ) ( le32_to_cpu ( lp - > rx_ring [ entry ] . status )
> > 16 ) - 4 ;
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if ( ( skb = de4x5_alloc_rx_buff ( dev , entry , pkt_len ) ) = = NULL ) {
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printk ( " %s: Insufficient memory; nuking packet. \n " ,
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dev - > name ) ;
lp - > stats . rx_dropped + + ;
} else {
de4x5_dbg_rx ( skb , pkt_len ) ;
/* Push up the protocol stack */
skb - > protocol = eth_type_trans ( skb , dev ) ;
de4x5_local_stats ( dev , skb - > data , pkt_len ) ;
netif_rx ( skb ) ;
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/* Update stats */
dev - > last_rx = jiffies ;
lp - > stats . rx_packets + + ;
lp - > stats . rx_bytes + = pkt_len ;
}
}
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/* Change buffer ownership for this frame, back to the adapter */
for ( ; lp - > rx_old ! = entry ; lp - > rx_old = ( + + lp - > rx_old ) % lp - > rxRingSize ) {
lp - > rx_ring [ lp - > rx_old ] . status = cpu_to_le32 ( R_OWN ) ;
barrier ( ) ;
}
lp - > rx_ring [ entry ] . status = cpu_to_le32 ( R_OWN ) ;
barrier ( ) ;
}
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/*
* * Update entry information
*/
lp - > rx_new = ( + + lp - > rx_new ) % lp - > rxRingSize ;
}
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return 0 ;
}
static inline void
de4x5_free_tx_buff ( struct de4x5_private * lp , int entry )
{
dma_unmap_single ( lp - > gendev , le32_to_cpu ( lp - > tx_ring [ entry ] . buf ) ,
le32_to_cpu ( lp - > tx_ring [ entry ] . des1 ) & TD_TBS1 ,
DMA_TO_DEVICE ) ;
if ( ( u_long ) lp - > tx_skb [ entry ] > 1 )
dev_kfree_skb_irq ( lp - > tx_skb [ entry ] ) ;
lp - > tx_skb [ entry ] = NULL ;
}
/*
* * Buffer sent - check for TX buffer errors .
*/
static int
de4x5_tx ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int entry ;
s32 status ;
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for ( entry = lp - > tx_old ; entry ! = lp - > tx_new ; entry = lp - > tx_old ) {
status = ( s32 ) le32_to_cpu ( lp - > tx_ring [ entry ] . status ) ;
if ( status < 0 ) { /* Buffer not sent yet */
break ;
} else if ( status ! = 0x7fffffff ) { /* Not setup frame */
if ( status & TD_ES ) { /* An error happened */
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lp - > stats . tx_errors + + ;
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if ( status & TD_NC ) lp - > stats . tx_carrier_errors + + ;
if ( status & TD_LC ) lp - > stats . tx_window_errors + + ;
if ( status & TD_UF ) lp - > stats . tx_fifo_errors + + ;
if ( status & TD_EC ) lp - > pktStats . excessive_collisions + + ;
if ( status & TD_DE ) lp - > stats . tx_aborted_errors + + ;
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if ( TX_PKT_PENDING ) {
outl ( POLL_DEMAND , DE4X5_TPD ) ; /* Restart a stalled TX */
}
} else { /* Packet sent */
lp - > stats . tx_packets + + ;
if ( lp - > tx_enable ) lp - > linkOK + + ;
}
/* Update the collision counter */
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lp - > stats . collisions + = ( ( status & TD_EC ) ? 16 :
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( ( status & TD_CC ) > > 3 ) ) ;
/* Free the buffer. */
if ( lp - > tx_skb [ entry ] ! = NULL )
de4x5_free_tx_buff ( lp , entry ) ;
}
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/* Update all the pointers */
lp - > tx_old = ( + + lp - > tx_old ) % lp - > txRingSize ;
}
/* Any resources available? */
if ( TX_BUFFS_AVAIL & & netif_queue_stopped ( dev ) ) {
if ( lp - > interrupt )
netif_wake_queue ( dev ) ;
else
netif_start_queue ( dev ) ;
}
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return 0 ;
}
static int
de4x5_ast ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int next_tick = DE4X5_AUTOSENSE_MS ;
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disable_ast ( dev ) ;
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if ( lp - > useSROM ) {
next_tick = srom_autoconf ( dev ) ;
} else if ( lp - > chipset = = DC21140 ) {
next_tick = dc21140m_autoconf ( dev ) ;
} else if ( lp - > chipset = = DC21041 ) {
next_tick = dc21041_autoconf ( dev ) ;
} else if ( lp - > chipset = = DC21040 ) {
next_tick = dc21040_autoconf ( dev ) ;
}
lp - > linkOK = 0 ;
enable_ast ( dev , next_tick ) ;
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return 0 ;
}
static int
de4x5_txur ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int omr ;
omr = inl ( DE4X5_OMR ) ;
if ( ! ( omr & OMR_SF ) | | ( lp - > chipset = = DC21041 ) | | ( lp - > chipset = = DC21040 ) ) {
omr & = ~ ( OMR_ST | OMR_SR ) ;
outl ( omr , DE4X5_OMR ) ;
while ( inl ( DE4X5_STS ) & STS_TS ) ;
if ( ( omr & OMR_TR ) < OMR_TR ) {
omr + = 0x4000 ;
} else {
omr | = OMR_SF ;
}
outl ( omr | OMR_ST | OMR_SR , DE4X5_OMR ) ;
}
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return 0 ;
}
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static int
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de4x5_rx_ovfc ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int omr ;
omr = inl ( DE4X5_OMR ) ;
outl ( omr & ~ OMR_SR , DE4X5_OMR ) ;
while ( inl ( DE4X5_STS ) & STS_RS ) ;
for ( ; ( s32 ) le32_to_cpu ( lp - > rx_ring [ lp - > rx_new ] . status ) > = 0 ; ) {
lp - > rx_ring [ lp - > rx_new ] . status = cpu_to_le32 ( R_OWN ) ;
lp - > rx_new = ( + + lp - > rx_new % lp - > rxRingSize ) ;
}
outl ( omr , DE4X5_OMR ) ;
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return 0 ;
}
static int
de4x5_close ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 imr , omr ;
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disable_ast ( dev ) ;
netif_stop_queue ( dev ) ;
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if ( de4x5_debug & DEBUG_CLOSE ) {
printk ( " %s: Shutting down ethercard, status was %8.8x. \n " ,
dev - > name , inl ( DE4X5_STS ) ) ;
}
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/*
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* * We stop the DE4X5 here . . . mask interrupts and stop TX & RX
*/
DISABLE_IRQs ;
STOP_DE4X5 ;
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/* Free the associated irq */
free_irq ( dev - > irq , dev ) ;
lp - > state = CLOSED ;
/* Free any socket buffers */
de4x5_free_rx_buffs ( dev ) ;
de4x5_free_tx_buffs ( dev ) ;
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/* Put the adapter to sleep to save power */
yawn ( dev , SLEEP ) ;
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return 0 ;
}
static struct net_device_stats *
de4x5_get_stats ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
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lp - > stats . rx_missed_errors = ( int ) ( inl ( DE4X5_MFC ) & ( MFC_OVFL | MFC_CNTR ) ) ;
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return & lp - > stats ;
}
static void
de4x5_local_stats ( struct net_device * dev , char * buf , int pkt_len )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i ;
for ( i = 1 ; i < DE4X5_PKT_STAT_SZ - 1 ; i + + ) {
if ( pkt_len < ( i * DE4X5_PKT_BIN_SZ ) ) {
lp - > pktStats . bins [ i ] + + ;
i = DE4X5_PKT_STAT_SZ ;
}
}
if ( buf [ 0 ] & 0x01 ) { /* Multicast/Broadcast */
if ( ( * ( s32 * ) & buf [ 0 ] = = - 1 ) & & ( * ( s16 * ) & buf [ 4 ] = = - 1 ) ) {
lp - > pktStats . broadcast + + ;
} else {
lp - > pktStats . multicast + + ;
}
} else if ( ( * ( s32 * ) & buf [ 0 ] = = * ( s32 * ) & dev - > dev_addr [ 0 ] ) & &
( * ( s16 * ) & buf [ 4 ] = = * ( s16 * ) & dev - > dev_addr [ 4 ] ) ) {
lp - > pktStats . unicast + + ;
}
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lp - > pktStats . bins [ 0 ] + + ; /* Duplicates stats.rx_packets */
if ( lp - > pktStats . bins [ 0 ] = = 0 ) { /* Reset counters */
memset ( ( char * ) & lp - > pktStats , 0 , sizeof ( lp - > pktStats ) ) ;
}
return ;
}
/*
* * Removes the TD_IC flag from previous descriptor to improve TX performance .
* * If the flag is changed on a descriptor that is being read by the hardware ,
* * I assume PCI transaction ordering will mean you are either successful or
* * just miss asserting the change to the hardware . Anyway you ' re messing with
* * a descriptor you don ' t own , but this shouldn ' t kill the chip provided
* * the descriptor register is read only to the hardware .
*/
static void
load_packet ( struct net_device * dev , char * buf , u32 flags , struct sk_buff * skb )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int entry = ( lp - > tx_new ? lp - > tx_new - 1 : lp - > txRingSize - 1 ) ;
dma_addr_t buf_dma = dma_map_single ( lp - > gendev , buf , flags & TD_TBS1 , DMA_TO_DEVICE ) ;
lp - > tx_ring [ lp - > tx_new ] . buf = cpu_to_le32 ( buf_dma ) ;
lp - > tx_ring [ lp - > tx_new ] . des1 & = cpu_to_le32 ( TD_TER ) ;
lp - > tx_ring [ lp - > tx_new ] . des1 | = cpu_to_le32 ( flags ) ;
lp - > tx_skb [ lp - > tx_new ] = skb ;
lp - > tx_ring [ entry ] . des1 & = cpu_to_le32 ( ~ TD_IC ) ;
barrier ( ) ;
lp - > tx_ring [ lp - > tx_new ] . status = cpu_to_le32 ( T_OWN ) ;
barrier ( ) ;
}
/*
* * Set or clear the multicast filter for this adaptor .
*/
static void
set_multicast_list ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
/* First, double check that the adapter is open */
if ( lp - > state = = OPEN ) {
if ( dev - > flags & IFF_PROMISC ) { /* set promiscuous mode */
u32 omr ;
omr = inl ( DE4X5_OMR ) ;
omr | = OMR_PR ;
outl ( omr , DE4X5_OMR ) ;
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} else {
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SetMulticastFilter ( dev ) ;
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load_packet ( dev , lp - > setup_frame , TD_IC | PERFECT_F | TD_SET |
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SETUP_FRAME_LEN , ( struct sk_buff * ) 1 ) ;
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lp - > tx_new = ( + + lp - > tx_new ) % lp - > txRingSize ;
outl ( POLL_DEMAND , DE4X5_TPD ) ; /* Start the TX */
dev - > trans_start = jiffies ;
}
}
}
/*
* * Calculate the hash code and update the logical address filter
* * from a list of ethernet multicast addresses .
* * Little endian crc one liner from Matt Thomas , DEC .
*/
static void
SetMulticastFilter ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct dev_mc_list * dmi = dev - > mc_list ;
u_long iobase = dev - > base_addr ;
int i , j , bit , byte ;
u16 hashcode ;
u32 omr , crc ;
char * pa ;
unsigned char * addrs ;
omr = inl ( DE4X5_OMR ) ;
omr & = ~ ( OMR_PR | OMR_PM ) ;
pa = build_setup_frame ( dev , ALL ) ; /* Build the basic frame */
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if ( ( dev - > flags & IFF_ALLMULTI ) | | ( dev - > mc_count > 14 ) ) {
omr | = OMR_PM ; /* Pass all multicasts */
} else if ( lp - > setup_f = = HASH_PERF ) { /* Hash Filtering */
for ( i = 0 ; i < dev - > mc_count ; i + + ) { /* for each address in the list */
addrs = dmi - > dmi_addr ;
dmi = dmi - > next ;
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if ( ( * addrs & 0x01 ) = = 1 ) { /* multicast address? */
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crc = ether_crc_le ( ETH_ALEN , addrs ) ;
hashcode = crc & HASH_BITS ; /* hashcode is 9 LSb of CRC */
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byte = hashcode > > 3 ; /* bit[3-8] -> byte in filter */
bit = 1 < < ( hashcode & 0x07 ) ; /* bit[0-2] -> bit in byte */
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byte < < = 1 ; /* calc offset into setup frame */
if ( byte & 0x02 ) {
byte - = 1 ;
}
lp - > setup_frame [ byte ] | = bit ;
}
}
} else { /* Perfect filtering */
for ( j = 0 ; j < dev - > mc_count ; j + + ) {
addrs = dmi - > dmi_addr ;
dmi = dmi - > next ;
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for ( i = 0 ; i < ETH_ALEN ; i + + ) {
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* ( pa + ( i & 1 ) ) = * addrs + + ;
if ( i & 0x01 ) pa + = 4 ;
}
}
}
outl ( omr , DE4X5_OMR ) ;
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return ;
}
# ifdef CONFIG_EISA
static u_char de4x5_irq [ ] = EISA_ALLOWED_IRQ_LIST ;
static int __init de4x5_eisa_probe ( struct device * gendev )
{
struct eisa_device * edev ;
u_long iobase ;
u_char irq , regval ;
u_short vendor ;
u32 cfid ;
int status , device ;
struct net_device * dev ;
struct de4x5_private * lp ;
edev = to_eisa_device ( gendev ) ;
iobase = edev - > base_addr ;
if ( ! request_region ( iobase , DE4X5_EISA_TOTAL_SIZE , " de4x5 " ) )
return - EBUSY ;
if ( ! request_region ( iobase + DE4X5_EISA_IO_PORTS ,
DE4X5_EISA_TOTAL_SIZE , " de4x5 " ) ) {
status = - EBUSY ;
goto release_reg_1 ;
}
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if ( ! ( dev = alloc_etherdev ( sizeof ( struct de4x5_private ) ) ) ) {
status = - ENOMEM ;
goto release_reg_2 ;
}
lp = netdev_priv ( dev ) ;
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cfid = ( u32 ) inl ( PCI_CFID ) ;
lp - > cfrv = ( u_short ) inl ( PCI_CFRV ) ;
device = ( cfid > > 8 ) & 0x00ffff00 ;
vendor = ( u_short ) cfid ;
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/* Read the EISA Configuration Registers */
regval = inb ( EISA_REG0 ) & ( ER0_INTL | ER0_INTT ) ;
# ifdef CONFIG_ALPHA
/* Looks like the Jensen firmware (rev 2.2) doesn't really
* care about the EISA configuration , and thus doesn ' t
* configure the PLX bridge properly . Oh well . . . Simply mimic
* the EISA config file to sort it out . */
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/* EISA REG1: Assert DecChip 21040 HW Reset */
outb ( ER1_IAM | 1 , EISA_REG1 ) ;
mdelay ( 1 ) ;
/* EISA REG1: Deassert DecChip 21040 HW Reset */
outb ( ER1_IAM , EISA_REG1 ) ;
mdelay ( 1 ) ;
/* EISA REG3: R/W Burst Transfer Enable */
outb ( ER3_BWE | ER3_BRE , EISA_REG3 ) ;
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/* 32_bit slave/master, Preempt Time=23 bclks, Unlatched Interrupt */
outb ( ER0_BSW | ER0_BMW | ER0_EPT | regval , EISA_REG0 ) ;
# endif
irq = de4x5_irq [ ( regval > > 1 ) & 0x03 ] ;
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if ( is_DC2114x ) {
device = ( ( lp - > cfrv & CFRV_RN ) < DC2114x_BRK ? DC21142 : DC21143 ) ;
}
lp - > chipset = device ;
lp - > bus = EISA ;
/* Write the PCI Configuration Registers */
outl ( PCI_COMMAND_IO | PCI_COMMAND_MASTER , PCI_CFCS ) ;
outl ( 0x00006000 , PCI_CFLT ) ;
outl ( iobase , PCI_CBIO ) ;
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DevicePresent ( dev , EISA_APROM ) ;
dev - > irq = irq ;
if ( ! ( status = de4x5_hw_init ( dev , iobase , gendev ) ) ) {
return 0 ;
}
free_netdev ( dev ) ;
release_reg_2 :
release_region ( iobase + DE4X5_EISA_IO_PORTS , DE4X5_EISA_TOTAL_SIZE ) ;
release_reg_1 :
release_region ( iobase , DE4X5_EISA_TOTAL_SIZE ) ;
return status ;
}
static int __devexit de4x5_eisa_remove ( struct device * device )
{
struct net_device * dev ;
u_long iobase ;
dev = device - > driver_data ;
iobase = dev - > base_addr ;
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unregister_netdev ( dev ) ;
free_netdev ( dev ) ;
release_region ( iobase + DE4X5_EISA_IO_PORTS , DE4X5_EISA_TOTAL_SIZE ) ;
release_region ( iobase , DE4X5_EISA_TOTAL_SIZE ) ;
return 0 ;
}
static struct eisa_device_id de4x5_eisa_ids [ ] = {
{ " DEC4250 " , 0 } , /* 0 is the board name index... */
{ " " }
} ;
static struct eisa_driver de4x5_eisa_driver = {
. id_table = de4x5_eisa_ids ,
. driver = {
. name = " de4x5 " ,
. probe = de4x5_eisa_probe ,
. remove = __devexit_p ( de4x5_eisa_remove ) ,
}
} ;
MODULE_DEVICE_TABLE ( eisa , de4x5_eisa_ids ) ;
# endif
# ifdef CONFIG_PCI
/*
* * This function searches the current bus ( which is > 0 ) for a DECchip with an
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* * SROM , so that in multiport cards that have one SROM shared between multiple
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* * DECchips , we can find the base SROM irrespective of the BIOS scan direction .
* * For single port cards this is a time waster . . .
*/
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static void __devinit
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srom_search ( struct net_device * dev , struct pci_dev * pdev )
{
u_char pb ;
u_short vendor , status ;
u_int irq = 0 , device ;
u_long iobase = 0 ; /* Clear upper 32 bits in Alphas */
int i , j , cfrv ;
struct de4x5_private * lp = netdev_priv ( dev ) ;
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struct list_head * walk ;
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list_for_each ( walk , & pdev - > bus_list ) {
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struct pci_dev * this_dev = pci_dev_b ( walk ) ;
/* Skip the pci_bus list entry */
if ( list_entry ( walk , struct pci_bus , devices ) = = pdev - > bus ) continue ;
vendor = this_dev - > vendor ;
device = this_dev - > device < < 8 ;
if ( ! ( is_DC21040 | | is_DC21041 | | is_DC21140 | | is_DC2114x ) ) continue ;
/* Get the chip configuration revision register */
pb = this_dev - > bus - > number ;
pci_read_config_dword ( this_dev , PCI_REVISION_ID , & cfrv ) ;
/* Set the device number information */
lp - > device = PCI_SLOT ( this_dev - > devfn ) ;
lp - > bus_num = pb ;
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/* Set the chipset information */
if ( is_DC2114x ) {
device = ( ( cfrv & CFRV_RN ) < DC2114x_BRK ? DC21142 : DC21143 ) ;
}
lp - > chipset = device ;
/* Get the board I/O address (64 bits on sparc64) */
iobase = pci_resource_start ( this_dev , 0 ) ;
/* Fetch the IRQ to be used */
irq = this_dev - > irq ;
if ( ( irq = = 0 ) | | ( irq = = 0xff ) | | ( ( int ) irq = = - 1 ) ) continue ;
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/* Check if I/O accesses are enabled */
pci_read_config_word ( this_dev , PCI_COMMAND , & status ) ;
if ( ! ( status & PCI_COMMAND_IO ) ) continue ;
/* Search for a valid SROM attached to this DECchip */
DevicePresent ( dev , DE4X5_APROM ) ;
for ( j = 0 , i = 0 ; i < ETH_ALEN ; i + + ) {
j + = ( u_char ) * ( ( u_char * ) & lp - > srom + SROM_HWADD + i ) ;
}
if ( ( j ! = 0 ) & & ( j ! = 0x5fa ) ) {
last . chipset = device ;
last . bus = pb ;
last . irq = irq ;
for ( i = 0 ; i < ETH_ALEN ; i + + ) {
last . addr [ i ] = ( u_char ) * ( ( u_char * ) & lp - > srom + SROM_HWADD + i ) ;
}
return ;
}
}
return ;
}
/*
* * PCI bus I / O device probe
* * NB : PCI I / O accesses and Bus Mastering are enabled by the PCI BIOS , not
* * the driver . Some PCI BIOS ' s , pre V2 .1 , need the slot + features to be
* * enabled by the user first in the set up utility . Hence we just check for
* * enabled features and silently ignore the card if they ' re not .
* *
* * STOP PRESS : Some BIOS ' s __require__ the driver to enable the bus mastering
* * bit . Here , check for I / O accesses and then set BM . If you put the card in
* * a non BM slot , you ' re on your own ( and complain to the PC vendor that your
* * PC doesn ' t conform to the PCI standard ) !
* *
* * This function is only compatible with the * latest * 2.1 . x kernels . For 2.0 . x
* * kernels use the V0 .535 [ n ] drivers .
*/
static int __devinit de4x5_pci_probe ( struct pci_dev * pdev ,
const struct pci_device_id * ent )
{
u_char pb , pbus = 0 , dev_num , dnum = 0 , timer ;
u_short vendor , status ;
u_int irq = 0 , device ;
u_long iobase = 0 ; /* Clear upper 32 bits in Alphas */
int error ;
struct net_device * dev ;
struct de4x5_private * lp ;
dev_num = PCI_SLOT ( pdev - > devfn ) ;
pb = pdev - > bus - > number ;
if ( io ) { /* probe a single PCI device */
pbus = ( u_short ) ( io > > 8 ) ;
dnum = ( u_short ) ( io & 0xff ) ;
if ( ( pbus ! = pb ) | | ( dnum ! = dev_num ) )
return - ENODEV ;
}
vendor = pdev - > vendor ;
device = pdev - > device < < 8 ;
if ( ! ( is_DC21040 | | is_DC21041 | | is_DC21140 | | is_DC2114x ) )
return - ENODEV ;
/* Ok, the device seems to be for us. */
if ( ( error = pci_enable_device ( pdev ) ) )
return error ;
if ( ! ( dev = alloc_etherdev ( sizeof ( struct de4x5_private ) ) ) ) {
error = - ENOMEM ;
goto disable_dev ;
}
lp = netdev_priv ( dev ) ;
lp - > bus = PCI ;
lp - > bus_num = 0 ;
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/* Search for an SROM on this bus */
if ( lp - > bus_num ! = pb ) {
lp - > bus_num = pb ;
srom_search ( dev , pdev ) ;
}
/* Get the chip configuration revision register */
pci_read_config_dword ( pdev , PCI_REVISION_ID , & lp - > cfrv ) ;
/* Set the device number information */
lp - > device = dev_num ;
lp - > bus_num = pb ;
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/* Set the chipset information */
if ( is_DC2114x ) {
device = ( ( lp - > cfrv & CFRV_RN ) < DC2114x_BRK ? DC21142 : DC21143 ) ;
}
lp - > chipset = device ;
/* Get the board I/O address (64 bits on sparc64) */
iobase = pci_resource_start ( pdev , 0 ) ;
/* Fetch the IRQ to be used */
irq = pdev - > irq ;
if ( ( irq = = 0 ) | | ( irq = = 0xff ) | | ( ( int ) irq = = - 1 ) ) {
error = - ENODEV ;
goto free_dev ;
}
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/* Check if I/O accesses and Bus Mastering are enabled */
pci_read_config_word ( pdev , PCI_COMMAND , & status ) ;
# ifdef __powerpc__
if ( ! ( status & PCI_COMMAND_IO ) ) {
status | = PCI_COMMAND_IO ;
pci_write_config_word ( pdev , PCI_COMMAND , status ) ;
pci_read_config_word ( pdev , PCI_COMMAND , & status ) ;
}
# endif /* __powerpc__ */
if ( ! ( status & PCI_COMMAND_IO ) ) {
error = - ENODEV ;
goto free_dev ;
}
if ( ! ( status & PCI_COMMAND_MASTER ) ) {
status | = PCI_COMMAND_MASTER ;
pci_write_config_word ( pdev , PCI_COMMAND , status ) ;
pci_read_config_word ( pdev , PCI_COMMAND , & status ) ;
}
if ( ! ( status & PCI_COMMAND_MASTER ) ) {
error = - ENODEV ;
goto free_dev ;
}
/* Check the latency timer for values >= 0x60 */
pci_read_config_byte ( pdev , PCI_LATENCY_TIMER , & timer ) ;
if ( timer < 0x60 ) {
pci_write_config_byte ( pdev , PCI_LATENCY_TIMER , 0x60 ) ;
}
DevicePresent ( dev , DE4X5_APROM ) ;
if ( ! request_region ( iobase , DE4X5_PCI_TOTAL_SIZE , " de4x5 " ) ) {
error = - EBUSY ;
goto free_dev ;
}
dev - > irq = irq ;
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if ( ( error = de4x5_hw_init ( dev , iobase , & pdev - > dev ) ) ) {
goto release ;
}
return 0 ;
release :
release_region ( iobase , DE4X5_PCI_TOTAL_SIZE ) ;
free_dev :
free_netdev ( dev ) ;
disable_dev :
pci_disable_device ( pdev ) ;
return error ;
}
static void __devexit de4x5_pci_remove ( struct pci_dev * pdev )
{
struct net_device * dev ;
u_long iobase ;
dev = pdev - > dev . driver_data ;
iobase = dev - > base_addr ;
unregister_netdev ( dev ) ;
free_netdev ( dev ) ;
release_region ( iobase , DE4X5_PCI_TOTAL_SIZE ) ;
pci_disable_device ( pdev ) ;
}
static struct pci_device_id de4x5_pci_tbl [ ] = {
{ PCI_VENDOR_ID_DEC , PCI_DEVICE_ID_DEC_TULIP ,
PCI_ANY_ID , PCI_ANY_ID , 0 , 0 , 0 } ,
{ PCI_VENDOR_ID_DEC , PCI_DEVICE_ID_DEC_TULIP_PLUS ,
PCI_ANY_ID , PCI_ANY_ID , 0 , 0 , 1 } ,
{ PCI_VENDOR_ID_DEC , PCI_DEVICE_ID_DEC_TULIP_FAST ,
PCI_ANY_ID , PCI_ANY_ID , 0 , 0 , 2 } ,
{ PCI_VENDOR_ID_DEC , PCI_DEVICE_ID_DEC_21142 ,
PCI_ANY_ID , PCI_ANY_ID , 0 , 0 , 3 } ,
{ } ,
} ;
static struct pci_driver de4x5_pci_driver = {
. name = " de4x5 " ,
. id_table = de4x5_pci_tbl ,
. probe = de4x5_pci_probe ,
. remove = __devexit_p ( de4x5_pci_remove ) ,
} ;
# endif
/*
* * Auto configure the media here rather than setting the port at compile
* * time . This routine is called by de4x5_init ( ) and when a loss of media is
* * detected ( excessive collisions , loss of carrier , no carrier or link fail
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* * [ TP ] or no recent receive activity ) to check whether the user has been
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* * sneaky and changed the port on us .
*/
static int
autoconf_media ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int next_tick = DE4X5_AUTOSENSE_MS ;
lp - > linkOK = 0 ;
lp - > c_media = AUTO ; /* Bogus last media */
disable_ast ( dev ) ;
inl ( DE4X5_MFC ) ; /* Zero the lost frames counter */
lp - > media = INIT ;
lp - > tcount = 0 ;
if ( lp - > useSROM ) {
next_tick = srom_autoconf ( dev ) ;
} else if ( lp - > chipset = = DC21040 ) {
next_tick = dc21040_autoconf ( dev ) ;
} else if ( lp - > chipset = = DC21041 ) {
next_tick = dc21041_autoconf ( dev ) ;
} else if ( lp - > chipset = = DC21140 ) {
next_tick = dc21140m_autoconf ( dev ) ;
}
enable_ast ( dev , next_tick ) ;
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return ( lp - > media ) ;
}
/*
* * Autoconfigure the media when using the DC21040 . AUI cannot be distinguished
* * from BNC as the port has a jumper to set thick or thin wire . When set for
* * BNC , the BNC port will indicate activity if it ' s not terminated correctly .
* * The only way to test for that is to place a loopback packet onto the
* * network and watch for errors . Since we ' re messing with the interrupt mask
* * register , disable the board interrupts and do not allow any more packets to
* * be queued to the hardware . Re - enable everything only when the media is
* * found .
* * I may have to " age out " locally queued packets so that the higher layer
* * timeouts don ' t effectively duplicate packets on the network .
*/
static int
dc21040_autoconf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int next_tick = DE4X5_AUTOSENSE_MS ;
s32 imr ;
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switch ( lp - > media ) {
case INIT :
DISABLE_IRQs ;
lp - > tx_enable = NO ;
lp - > timeout = - 1 ;
de4x5_save_skbs ( dev ) ;
if ( ( lp - > autosense = = AUTO ) | | ( lp - > autosense = = TP ) ) {
lp - > media = TP ;
} else if ( ( lp - > autosense = = BNC ) | | ( lp - > autosense = = AUI ) | | ( lp - > autosense = = BNC_AUI ) ) {
lp - > media = BNC_AUI ;
} else if ( lp - > autosense = = EXT_SIA ) {
lp - > media = EXT_SIA ;
} else {
lp - > media = NC ;
}
lp - > local_state = 0 ;
next_tick = dc21040_autoconf ( dev ) ;
break ;
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case TP :
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next_tick = dc21040_state ( dev , 0x8f01 , 0xffff , 0x0000 , 3000 , BNC_AUI ,
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TP_SUSPECT , test_tp ) ;
break ;
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case TP_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , TP , test_tp , dc21040_autoconf ) ;
break ;
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case BNC :
case AUI :
case BNC_AUI :
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next_tick = dc21040_state ( dev , 0x8f09 , 0x0705 , 0x0006 , 3000 , EXT_SIA ,
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BNC_AUI_SUSPECT , ping_media ) ;
break ;
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case BNC_AUI_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , BNC_AUI , ping_media , dc21040_autoconf ) ;
break ;
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case EXT_SIA :
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next_tick = dc21040_state ( dev , 0x3041 , 0x0000 , 0x0006 , 3000 ,
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NC , EXT_SIA_SUSPECT , ping_media ) ;
break ;
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case EXT_SIA_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , EXT_SIA , ping_media , dc21040_autoconf ) ;
break ;
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case NC :
/* default to TP for all */
reset_init_sia ( dev , 0x8f01 , 0xffff , 0x0000 ) ;
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ;
}
lp - > media = INIT ;
lp - > tx_enable = NO ;
break ;
}
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return next_tick ;
}
static int
dc21040_state ( struct net_device * dev , int csr13 , int csr14 , int csr15 , int timeout ,
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int next_state , int suspect_state ,
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int ( * fn ) ( struct net_device * , int ) )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int next_tick = DE4X5_AUTOSENSE_MS ;
int linkBad ;
switch ( lp - > local_state ) {
case 0 :
reset_init_sia ( dev , csr13 , csr14 , csr15 ) ;
lp - > local_state + + ;
next_tick = 500 ;
break ;
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case 1 :
if ( ! lp - > tx_enable ) {
linkBad = fn ( dev , timeout ) ;
if ( linkBad < 0 ) {
next_tick = linkBad & ~ TIMER_CB ;
} else {
if ( linkBad & & ( lp - > autosense = = AUTO ) ) {
lp - > local_state = 0 ;
lp - > media = next_state ;
} else {
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = suspect_state ;
next_tick = 3000 ;
}
break ;
}
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return next_tick ;
}
static int
de4x5_suspect_state ( struct net_device * dev , int timeout , int prev_state ,
int ( * fn ) ( struct net_device * , int ) ,
int ( * asfn ) ( struct net_device * ) )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int next_tick = DE4X5_AUTOSENSE_MS ;
int linkBad ;
switch ( lp - > local_state ) {
case 1 :
if ( lp - > linkOK ) {
lp - > media = prev_state ;
} else {
lp - > local_state + + ;
next_tick = asfn ( dev ) ;
}
break ;
case 2 :
linkBad = fn ( dev , timeout ) ;
if ( linkBad < 0 ) {
next_tick = linkBad & ~ TIMER_CB ;
} else if ( ! linkBad ) {
lp - > local_state - - ;
lp - > media = prev_state ;
} else {
lp - > media = INIT ;
lp - > tcount + + ;
}
}
return next_tick ;
}
/*
* * Autoconfigure the media when using the DC21041 . AUI needs to be tested
* * before BNC , because the BNC port will indicate activity if it ' s not
* * terminated correctly . The only way to test for that is to place a loopback
* * packet onto the network and watch for errors . Since we ' re messing with
* * the interrupt mask register , disable the board interrupts and do not allow
* * any more packets to be queued to the hardware . Re - enable everything only
* * when the media is found .
*/
static int
dc21041_autoconf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 sts , irqs , irq_mask , imr , omr ;
int next_tick = DE4X5_AUTOSENSE_MS ;
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switch ( lp - > media ) {
case INIT :
DISABLE_IRQs ;
lp - > tx_enable = NO ;
lp - > timeout = - 1 ;
de4x5_save_skbs ( dev ) ; /* Save non transmitted skb's */
if ( ( lp - > autosense = = AUTO ) | | ( lp - > autosense = = TP_NW ) ) {
lp - > media = TP ; /* On chip auto negotiation is broken */
} else if ( lp - > autosense = = TP ) {
lp - > media = TP ;
} else if ( lp - > autosense = = BNC ) {
lp - > media = BNC ;
} else if ( lp - > autosense = = AUI ) {
lp - > media = AUI ;
} else {
lp - > media = NC ;
}
lp - > local_state = 0 ;
next_tick = dc21041_autoconf ( dev ) ;
break ;
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case TP_NW :
if ( lp - > timeout < 0 ) {
omr = inl ( DE4X5_OMR ) ; /* Set up full duplex for the autonegotiate */
outl ( omr | OMR_FDX , DE4X5_OMR ) ;
}
irqs = STS_LNF | STS_LNP ;
irq_mask = IMR_LFM | IMR_LPM ;
sts = test_media ( dev , irqs , irq_mask , 0xef01 , 0xffff , 0x0008 , 2400 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( sts & STS_LNP ) {
lp - > media = ANS ;
} else {
lp - > media = AUI ;
}
next_tick = dc21041_autoconf ( dev ) ;
}
break ;
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case ANS :
if ( ! lp - > tx_enable ) {
irqs = STS_LNP ;
irq_mask = IMR_LPM ;
sts = test_ans ( dev , irqs , irq_mask , 3000 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( ! ( sts & STS_LNP ) & & ( lp - > autosense = = AUTO ) ) {
lp - > media = TP ;
next_tick = dc21041_autoconf ( dev ) ;
} else {
lp - > local_state = 1 ;
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = ANS_SUSPECT ;
next_tick = 3000 ;
}
break ;
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case ANS_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , ANS , test_tp , dc21041_autoconf ) ;
break ;
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case TP :
if ( ! lp - > tx_enable ) {
if ( lp - > timeout < 0 ) {
omr = inl ( DE4X5_OMR ) ; /* Set up half duplex for TP */
outl ( omr & ~ OMR_FDX , DE4X5_OMR ) ;
}
irqs = STS_LNF | STS_LNP ;
irq_mask = IMR_LFM | IMR_LPM ;
sts = test_media ( dev , irqs , irq_mask , 0xef01 , 0xff3f , 0x0008 , 2400 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( ! ( sts & STS_LNP ) & & ( lp - > autosense = = AUTO ) ) {
if ( inl ( DE4X5_SISR ) & SISR_NRA ) {
lp - > media = AUI ; /* Non selected port activity */
} else {
lp - > media = BNC ;
}
next_tick = dc21041_autoconf ( dev ) ;
} else {
lp - > local_state = 1 ;
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = TP_SUSPECT ;
next_tick = 3000 ;
}
break ;
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case TP_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , TP , test_tp , dc21041_autoconf ) ;
break ;
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case AUI :
if ( ! lp - > tx_enable ) {
if ( lp - > timeout < 0 ) {
omr = inl ( DE4X5_OMR ) ; /* Set up half duplex for AUI */
outl ( omr & ~ OMR_FDX , DE4X5_OMR ) ;
}
irqs = 0 ;
irq_mask = 0 ;
sts = test_media ( dev , irqs , irq_mask , 0xef09 , 0xf73d , 0x000e , 1000 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( ! ( inl ( DE4X5_SISR ) & SISR_SRA ) & & ( lp - > autosense = = AUTO ) ) {
lp - > media = BNC ;
next_tick = dc21041_autoconf ( dev ) ;
} else {
lp - > local_state = 1 ;
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = AUI_SUSPECT ;
next_tick = 3000 ;
}
break ;
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case AUI_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , AUI , ping_media , dc21041_autoconf ) ;
break ;
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case BNC :
switch ( lp - > local_state ) {
case 0 :
if ( lp - > timeout < 0 ) {
omr = inl ( DE4X5_OMR ) ; /* Set up half duplex for BNC */
outl ( omr & ~ OMR_FDX , DE4X5_OMR ) ;
}
irqs = 0 ;
irq_mask = 0 ;
sts = test_media ( dev , irqs , irq_mask , 0xef09 , 0xf73d , 0x0006 , 1000 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
lp - > local_state + + ; /* Ensure media connected */
next_tick = dc21041_autoconf ( dev ) ;
}
break ;
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case 1 :
if ( ! lp - > tx_enable ) {
if ( ( sts = ping_media ( dev , 3000 ) ) < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( sts ) {
lp - > local_state = 0 ;
lp - > media = NC ;
} else {
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = BNC_SUSPECT ;
next_tick = 3000 ;
}
break ;
}
break ;
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case BNC_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , BNC , ping_media , dc21041_autoconf ) ;
break ;
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case NC :
omr = inl ( DE4X5_OMR ) ; /* Set up full duplex for the autonegotiate */
outl ( omr | OMR_FDX , DE4X5_OMR ) ;
reset_init_sia ( dev , 0xef01 , 0xffff , 0x0008 ) ; /* Initialise the SIA */
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ;
}
lp - > media = INIT ;
lp - > tx_enable = NO ;
break ;
}
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return next_tick ;
}
/*
* * Some autonegotiation chips are broken in that they do not return the
* * acknowledge bit ( anlpa & MII_ANLPA_ACK ) in the link partner advertisement
* * register , except at the first power up negotiation .
*/
static int
dc21140m_autoconf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int ana , anlpa , cap , cr , slnk , sr ;
int next_tick = DE4X5_AUTOSENSE_MS ;
u_long imr , omr , iobase = dev - > base_addr ;
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switch ( lp - > media ) {
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case INIT :
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if ( lp - > timeout < 0 ) {
DISABLE_IRQs ;
lp - > tx_enable = FALSE ;
lp - > linkOK = 0 ;
de4x5_save_skbs ( dev ) ; /* Save non transmitted skb's */
}
if ( ( next_tick = de4x5_reset_phy ( dev ) ) < 0 ) {
next_tick & = ~ TIMER_CB ;
} else {
if ( lp - > useSROM ) {
if ( srom_map_media ( dev ) < 0 ) {
lp - > tcount + + ;
return next_tick ;
}
srom_exec ( dev , lp - > phy [ lp - > active ] . gep ) ;
if ( lp - > infoblock_media = = ANS ) {
ana = lp - > phy [ lp - > active ] . ana | MII_ANA_CSMA ;
mii_wr ( ana , MII_ANA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
}
} else {
lp - > tmp = MII_SR_ASSC ; /* Fake out the MII speed set */
SET_10Mb ;
if ( lp - > autosense = = _100Mb ) {
lp - > media = _100Mb ;
} else if ( lp - > autosense = = _10Mb ) {
lp - > media = _10Mb ;
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} else if ( ( lp - > autosense = = AUTO ) & &
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( ( sr = is_anc_capable ( dev ) ) & MII_SR_ANC ) ) {
ana = ( ( ( sr > > 6 ) & MII_ANA_TAF ) | MII_ANA_CSMA ) ;
ana & = ( lp - > fdx ? ~ 0 : ~ MII_ANA_FDAM ) ;
mii_wr ( ana , MII_ANA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
lp - > media = ANS ;
} else if ( lp - > autosense = = AUTO ) {
lp - > media = SPD_DET ;
} else if ( is_spd_100 ( dev ) & & is_100_up ( dev ) ) {
lp - > media = _100Mb ;
} else {
lp - > media = NC ;
}
}
lp - > local_state = 0 ;
next_tick = dc21140m_autoconf ( dev ) ;
}
break ;
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case ANS :
switch ( lp - > local_state ) {
case 0 :
if ( lp - > timeout < 0 ) {
mii_wr ( MII_CR_ASSE | MII_CR_RAN , MII_CR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
}
cr = test_mii_reg ( dev , MII_CR , MII_CR_RAN , FALSE , 500 ) ;
if ( cr < 0 ) {
next_tick = cr & ~ TIMER_CB ;
} else {
if ( cr ) {
lp - > local_state = 0 ;
lp - > media = SPD_DET ;
} else {
lp - > local_state + + ;
}
next_tick = dc21140m_autoconf ( dev ) ;
}
break ;
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case 1 :
if ( ( sr = test_mii_reg ( dev , MII_SR , MII_SR_ASSC , TRUE , 2000 ) ) < 0 ) {
next_tick = sr & ~ TIMER_CB ;
} else {
lp - > media = SPD_DET ;
lp - > local_state = 0 ;
if ( sr ) { /* Success! */
lp - > tmp = MII_SR_ASSC ;
anlpa = mii_rd ( MII_ANLPA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
ana = mii_rd ( MII_ANA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
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if ( ! ( anlpa & MII_ANLPA_RF ) & &
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( cap = anlpa & MII_ANLPA_TAF & ana ) ) {
if ( cap & MII_ANA_100M ) {
lp - > fdx = ( ( ana & anlpa & MII_ANA_FDAM & MII_ANA_100M ) ? TRUE : FALSE ) ;
lp - > media = _100Mb ;
} else if ( cap & MII_ANA_10M ) {
lp - > fdx = ( ( ana & anlpa & MII_ANA_FDAM & MII_ANA_10M ) ? TRUE : FALSE ) ;
lp - > media = _10Mb ;
}
}
} /* Auto Negotiation failed to finish */
next_tick = dc21140m_autoconf ( dev ) ;
} /* Auto Negotiation failed to start */
break ;
}
break ;
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case SPD_DET : /* Choose 10Mb/s or 100Mb/s */
if ( lp - > timeout < 0 ) {
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lp - > tmp = ( lp - > phy [ lp - > active ] . id ? MII_SR_LKS :
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( ~ gep_rd ( dev ) & GEP_LNP ) ) ;
SET_100Mb_PDET ;
}
if ( ( slnk = test_for_100Mb ( dev , 6500 ) ) < 0 ) {
next_tick = slnk & ~ TIMER_CB ;
} else {
if ( is_spd_100 ( dev ) & & is_100_up ( dev ) ) {
lp - > media = _100Mb ;
} else if ( ( ! is_spd_100 ( dev ) & & ( is_10_up ( dev ) & lp - > tmp ) ) ) {
lp - > media = _10Mb ;
} else {
lp - > media = NC ;
}
next_tick = dc21140m_autoconf ( dev ) ;
}
break ;
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case _100Mb : /* Set 100Mb/s */
next_tick = 3000 ;
if ( ! lp - > tx_enable ) {
SET_100Mb ;
de4x5_init_connection ( dev ) ;
} else {
if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
if ( ! is_100_up ( dev ) | | ( ! lp - > useSROM & & ! is_spd_100 ( dev ) ) ) {
lp - > media = INIT ;
lp - > tcount + + ;
next_tick = DE4X5_AUTOSENSE_MS ;
}
}
}
break ;
case BNC :
case AUI :
case _10Mb : /* Set 10Mb/s */
next_tick = 3000 ;
if ( ! lp - > tx_enable ) {
SET_10Mb ;
de4x5_init_connection ( dev ) ;
} else {
if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
if ( ! is_10_up ( dev ) | | ( ! lp - > useSROM & & is_spd_100 ( dev ) ) ) {
lp - > media = INIT ;
lp - > tcount + + ;
next_tick = DE4X5_AUTOSENSE_MS ;
}
}
}
break ;
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case NC :
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ;
}
lp - > media = INIT ;
lp - > tx_enable = FALSE ;
break ;
}
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return next_tick ;
}
/*
* * This routine may be merged into dc21140m_autoconf ( ) sometime as I ' m
* * changing how I figure out the media - but trying to keep it backwards
* * compatible with the de500 - xa and de500 - aa .
* * Whether it ' s BNC , AUI , SYM or MII is sorted out in the infoblock
* * functions and set during de4x5_mac_port ( ) and / or de4x5_reset_phy ( ) .
* * This routine just has to figure out whether 10 Mb / s or 100 Mb / s is
* * active .
* * When autonegotiation is working , the ANS part searches the SROM for
* * the highest common speed ( TP ) link that both can run and if that can
* * be full duplex . That infoblock is executed and then the link speed set .
* *
* * Only _10Mb and _100Mb are tested here .
*/
static int
dc2114x_autoconf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 cr , anlpa , ana , cap , irqs , irq_mask , imr , omr , slnk , sr , sts ;
int next_tick = DE4X5_AUTOSENSE_MS ;
switch ( lp - > media ) {
case INIT :
if ( lp - > timeout < 0 ) {
DISABLE_IRQs ;
lp - > tx_enable = FALSE ;
lp - > linkOK = 0 ;
lp - > timeout = - 1 ;
de4x5_save_skbs ( dev ) ; /* Save non transmitted skb's */
if ( lp - > params . autosense & ~ AUTO ) {
srom_map_media ( dev ) ; /* Fixed media requested */
if ( lp - > media ! = lp - > params . autosense ) {
lp - > tcount + + ;
lp - > media = INIT ;
return next_tick ;
}
lp - > media = INIT ;
}
}
if ( ( next_tick = de4x5_reset_phy ( dev ) ) < 0 ) {
next_tick & = ~ TIMER_CB ;
} else {
if ( lp - > autosense = = _100Mb ) {
lp - > media = _100Mb ;
} else if ( lp - > autosense = = _10Mb ) {
lp - > media = _10Mb ;
} else if ( lp - > autosense = = TP ) {
lp - > media = TP ;
} else if ( lp - > autosense = = BNC ) {
lp - > media = BNC ;
} else if ( lp - > autosense = = AUI ) {
lp - > media = AUI ;
} else {
lp - > media = SPD_DET ;
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if ( ( lp - > infoblock_media = = ANS ) & &
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( ( sr = is_anc_capable ( dev ) ) & MII_SR_ANC ) ) {
ana = ( ( ( sr > > 6 ) & MII_ANA_TAF ) | MII_ANA_CSMA ) ;
ana & = ( lp - > fdx ? ~ 0 : ~ MII_ANA_FDAM ) ;
mii_wr ( ana , MII_ANA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
lp - > media = ANS ;
}
}
lp - > local_state = 0 ;
next_tick = dc2114x_autoconf ( dev ) ;
}
break ;
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case ANS :
switch ( lp - > local_state ) {
case 0 :
if ( lp - > timeout < 0 ) {
mii_wr ( MII_CR_ASSE | MII_CR_RAN , MII_CR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
}
cr = test_mii_reg ( dev , MII_CR , MII_CR_RAN , FALSE , 500 ) ;
if ( cr < 0 ) {
next_tick = cr & ~ TIMER_CB ;
} else {
if ( cr ) {
lp - > local_state = 0 ;
lp - > media = SPD_DET ;
} else {
lp - > local_state + + ;
}
next_tick = dc2114x_autoconf ( dev ) ;
}
break ;
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case 1 :
if ( ( sr = test_mii_reg ( dev , MII_SR , MII_SR_ASSC , TRUE , 2000 ) ) < 0 ) {
next_tick = sr & ~ TIMER_CB ;
} else {
lp - > media = SPD_DET ;
lp - > local_state = 0 ;
if ( sr ) { /* Success! */
lp - > tmp = MII_SR_ASSC ;
anlpa = mii_rd ( MII_ANLPA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
ana = mii_rd ( MII_ANA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
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if ( ! ( anlpa & MII_ANLPA_RF ) & &
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( cap = anlpa & MII_ANLPA_TAF & ana ) ) {
if ( cap & MII_ANA_100M ) {
lp - > fdx = ( ( ana & anlpa & MII_ANA_FDAM & MII_ANA_100M ) ? TRUE : FALSE ) ;
lp - > media = _100Mb ;
} else if ( cap & MII_ANA_10M ) {
lp - > fdx = ( ( ana & anlpa & MII_ANA_FDAM & MII_ANA_10M ) ? TRUE : FALSE ) ;
lp - > media = _10Mb ;
}
}
} /* Auto Negotiation failed to finish */
next_tick = dc2114x_autoconf ( dev ) ;
} /* Auto Negotiation failed to start */
break ;
}
break ;
case AUI :
if ( ! lp - > tx_enable ) {
if ( lp - > timeout < 0 ) {
omr = inl ( DE4X5_OMR ) ; /* Set up half duplex for AUI */
outl ( omr & ~ OMR_FDX , DE4X5_OMR ) ;
}
irqs = 0 ;
irq_mask = 0 ;
sts = test_media ( dev , irqs , irq_mask , 0 , 0 , 0 , 1000 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( ! ( inl ( DE4X5_SISR ) & SISR_SRA ) & & ( lp - > autosense = = AUTO ) ) {
lp - > media = BNC ;
next_tick = dc2114x_autoconf ( dev ) ;
} else {
lp - > local_state = 1 ;
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = AUI_SUSPECT ;
next_tick = 3000 ;
}
break ;
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case AUI_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , AUI , ping_media , dc2114x_autoconf ) ;
break ;
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case BNC :
switch ( lp - > local_state ) {
case 0 :
if ( lp - > timeout < 0 ) {
omr = inl ( DE4X5_OMR ) ; /* Set up half duplex for BNC */
outl ( omr & ~ OMR_FDX , DE4X5_OMR ) ;
}
irqs = 0 ;
irq_mask = 0 ;
sts = test_media ( dev , irqs , irq_mask , 0 , 0 , 0 , 1000 ) ;
if ( sts < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
lp - > local_state + + ; /* Ensure media connected */
next_tick = dc2114x_autoconf ( dev ) ;
}
break ;
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case 1 :
if ( ! lp - > tx_enable ) {
if ( ( sts = ping_media ( dev , 3000 ) ) < 0 ) {
next_tick = sts & ~ TIMER_CB ;
} else {
if ( sts ) {
lp - > local_state = 0 ;
lp - > tcount + + ;
lp - > media = INIT ;
} else {
de4x5_init_connection ( dev ) ;
}
}
} else if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
lp - > media = BNC_SUSPECT ;
next_tick = 3000 ;
}
break ;
}
break ;
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case BNC_SUSPECT :
next_tick = de4x5_suspect_state ( dev , 1000 , BNC , ping_media , dc2114x_autoconf ) ;
break ;
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case SPD_DET : /* Choose 10Mb/s or 100Mb/s */
if ( srom_map_media ( dev ) < 0 ) {
lp - > tcount + + ;
lp - > media = INIT ;
return next_tick ;
}
if ( lp - > media = = _100Mb ) {
if ( ( slnk = test_for_100Mb ( dev , 6500 ) ) < 0 ) {
lp - > media = SPD_DET ;
return ( slnk & ~ TIMER_CB ) ;
}
} else {
if ( wait_for_link ( dev ) < 0 ) {
lp - > media = SPD_DET ;
return PDET_LINK_WAIT ;
}
}
if ( lp - > media = = ANS ) { /* Do MII parallel detection */
if ( is_spd_100 ( dev ) ) {
lp - > media = _100Mb ;
} else {
lp - > media = _10Mb ;
}
next_tick = dc2114x_autoconf ( dev ) ;
} else if ( ( ( lp - > media = = _100Mb ) & & is_100_up ( dev ) ) | |
( ( ( lp - > media = = _10Mb ) | | ( lp - > media = = TP ) | |
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( lp - > media = = BNC ) | | ( lp - > media = = AUI ) ) & &
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is_10_up ( dev ) ) ) {
next_tick = dc2114x_autoconf ( dev ) ;
} else {
lp - > tcount + + ;
lp - > media = INIT ;
}
break ;
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case _10Mb :
next_tick = 3000 ;
if ( ! lp - > tx_enable ) {
SET_10Mb ;
de4x5_init_connection ( dev ) ;
} else {
if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
if ( ! is_10_up ( dev ) | | ( ! lp - > useSROM & & is_spd_100 ( dev ) ) ) {
lp - > media = INIT ;
lp - > tcount + + ;
next_tick = DE4X5_AUTOSENSE_MS ;
}
}
}
break ;
case _100Mb :
next_tick = 3000 ;
if ( ! lp - > tx_enable ) {
SET_100Mb ;
de4x5_init_connection ( dev ) ;
} else {
if ( ! lp - > linkOK & & ( lp - > autosense = = AUTO ) ) {
if ( ! is_100_up ( dev ) | | ( ! lp - > useSROM & & ! is_spd_100 ( dev ) ) ) {
lp - > media = INIT ;
lp - > tcount + + ;
next_tick = DE4X5_AUTOSENSE_MS ;
}
}
}
break ;
default :
lp - > tcount + + ;
printk ( " Huh?: media:%02x \n " , lp - > media ) ;
lp - > media = INIT ;
break ;
}
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return next_tick ;
}
static int
srom_autoconf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
return lp - > infoleaf_fn ( dev ) ;
}
/*
* * This mapping keeps the original media codes and FDX flag unchanged .
* * While it isn ' t strictly necessary , it helps me for the moment . . .
* * The early return avoids a media state / SROM media space clash .
*/
static int
srom_map_media ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
lp - > fdx = 0 ;
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if ( lp - > infoblock_media = = lp - > media )
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return 0 ;
switch ( lp - > infoblock_media ) {
case SROM_10BASETF :
if ( ! lp - > params . fdx ) return - 1 ;
lp - > fdx = TRUE ;
case SROM_10BASET :
if ( lp - > params . fdx & & ! lp - > fdx ) return - 1 ;
if ( ( lp - > chipset = = DC21140 ) | | ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ) ) {
lp - > media = _10Mb ;
} else {
lp - > media = TP ;
}
break ;
case SROM_10BASE2 :
lp - > media = BNC ;
break ;
case SROM_10BASE5 :
lp - > media = AUI ;
break ;
case SROM_100BASETF :
if ( ! lp - > params . fdx ) return - 1 ;
lp - > fdx = TRUE ;
case SROM_100BASET :
if ( lp - > params . fdx & & ! lp - > fdx ) return - 1 ;
lp - > media = _100Mb ;
break ;
case SROM_100BASET4 :
lp - > media = _100Mb ;
break ;
case SROM_100BASEFF :
if ( ! lp - > params . fdx ) return - 1 ;
lp - > fdx = TRUE ;
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case SROM_100BASEF :
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if ( lp - > params . fdx & & ! lp - > fdx ) return - 1 ;
lp - > media = _100Mb ;
break ;
case ANS :
lp - > media = ANS ;
lp - > fdx = lp - > params . fdx ;
break ;
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default :
printk ( " %s: Bad media code [%d] detected in SROM! \n " , dev - > name ,
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lp - > infoblock_media ) ;
return - 1 ;
break ;
}
return 0 ;
}
static void
de4x5_init_connection ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
u_long flags = 0 ;
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ; /* Stop scrolling media messages */
}
spin_lock_irqsave ( & lp - > lock , flags ) ;
de4x5_rst_desc_ring ( dev ) ;
de4x5_setup_intr ( dev ) ;
lp - > tx_enable = YES ;
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
outl ( POLL_DEMAND , DE4X5_TPD ) ;
netif_wake_queue ( dev ) ;
return ;
}
/*
* * General PHY reset function . Some MII devices don ' t reset correctly
* * since their MII address pins can float at voltages that are dependent
* * on the signal pin use . Do a double reset to ensure a reset .
*/
static int
de4x5_reset_phy ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int next_tick = 0 ;
if ( ( lp - > useSROM ) | | ( lp - > phy [ lp - > active ] . id ) ) {
if ( lp - > timeout < 0 ) {
if ( lp - > useSROM ) {
if ( lp - > phy [ lp - > active ] . rst ) {
srom_exec ( dev , lp - > phy [ lp - > active ] . rst ) ;
srom_exec ( dev , lp - > phy [ lp - > active ] . rst ) ;
} else if ( lp - > rst ) { /* Type 5 infoblock reset */
srom_exec ( dev , lp - > rst ) ;
srom_exec ( dev , lp - > rst ) ;
}
} else {
PHY_HARD_RESET ;
}
if ( lp - > useMII ) {
mii_wr ( MII_CR_RST , MII_CR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
}
}
if ( lp - > useMII ) {
next_tick = test_mii_reg ( dev , MII_CR , MII_CR_RST , FALSE , 500 ) ;
}
} else if ( lp - > chipset = = DC21140 ) {
PHY_HARD_RESET ;
}
return next_tick ;
}
static int
test_media ( struct net_device * dev , s32 irqs , s32 irq_mask , s32 csr13 , s32 csr14 , s32 csr15 , s32 msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 sts , csr12 ;
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if ( lp - > timeout < 0 ) {
lp - > timeout = msec / 100 ;
if ( ! lp - > useSROM ) { /* Already done if by SROM, else dc2104[01] */
reset_init_sia ( dev , csr13 , csr14 , csr15 ) ;
}
/* set up the interrupt mask */
outl ( irq_mask , DE4X5_IMR ) ;
/* clear all pending interrupts */
sts = inl ( DE4X5_STS ) ;
outl ( sts , DE4X5_STS ) ;
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/* clear csr12 NRA and SRA bits */
if ( ( lp - > chipset = = DC21041 ) | | lp - > useSROM ) {
csr12 = inl ( DE4X5_SISR ) ;
outl ( csr12 , DE4X5_SISR ) ;
}
}
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sts = inl ( DE4X5_STS ) & ~ TIMER_CB ;
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if ( ! ( sts & irqs ) & & - - lp - > timeout ) {
sts = 100 | TIMER_CB ;
} else {
lp - > timeout = - 1 ;
}
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return sts ;
}
static int
test_tp ( struct net_device * dev , s32 msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int sisr ;
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if ( lp - > timeout < 0 ) {
lp - > timeout = msec / 100 ;
}
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sisr = ( inl ( DE4X5_SISR ) & ~ TIMER_CB ) & ( SISR_LKF | SISR_NCR ) ;
if ( sisr & & - - lp - > timeout ) {
sisr = 100 | TIMER_CB ;
} else {
lp - > timeout = - 1 ;
}
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return sisr ;
}
/*
* * Samples the 100 Mb Link State Signal . The sample interval is important
* * because too fast a rate can give erroneous results and confuse the
* * speed sense algorithm .
*/
# define SAMPLE_INTERVAL 500 /* ms */
# define SAMPLE_DELAY 2000 /* ms */
static int
test_for_100Mb ( struct net_device * dev , int msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int gep = 0 , ret = ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ? - 1 : GEP_SLNK ) ;
if ( lp - > timeout < 0 ) {
if ( ( msec / SAMPLE_INTERVAL ) < = 0 ) return 0 ;
if ( msec > SAMPLE_DELAY ) {
lp - > timeout = ( msec - SAMPLE_DELAY ) / SAMPLE_INTERVAL ;
gep = SAMPLE_DELAY | TIMER_CB ;
return gep ;
} else {
lp - > timeout = msec / SAMPLE_INTERVAL ;
}
}
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if ( lp - > phy [ lp - > active ] . id | | lp - > useSROM ) {
gep = is_100_up ( dev ) | is_spd_100 ( dev ) ;
} else {
gep = ( ~ gep_rd ( dev ) & ( GEP_SLNK | GEP_LNP ) ) ;
}
if ( ! ( gep & ret ) & & - - lp - > timeout ) {
gep = SAMPLE_INTERVAL | TIMER_CB ;
} else {
lp - > timeout = - 1 ;
}
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return gep ;
}
static int
wait_for_link ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
if ( lp - > timeout < 0 ) {
lp - > timeout = 1 ;
}
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if ( lp - > timeout - - ) {
return TIMER_CB ;
} else {
lp - > timeout = - 1 ;
}
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return 0 ;
}
/*
* *
* *
*/
static int
test_mii_reg ( struct net_device * dev , int reg , int mask , int pol , long msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int test ;
u_long iobase = dev - > base_addr ;
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if ( lp - > timeout < 0 ) {
lp - > timeout = msec / 100 ;
}
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if ( pol ) pol = ~ 0 ;
reg = mii_rd ( ( u_char ) reg , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) & mask ;
test = ( reg ^ pol ) & mask ;
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if ( test & & - - lp - > timeout ) {
reg = 100 | TIMER_CB ;
} else {
lp - > timeout = - 1 ;
}
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return reg ;
}
static int
is_spd_100 ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int spd ;
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if ( lp - > useMII ) {
spd = mii_rd ( lp - > phy [ lp - > active ] . spd . reg , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
spd = ~ ( spd ^ lp - > phy [ lp - > active ] . spd . value ) ;
spd & = lp - > phy [ lp - > active ] . spd . mask ;
} else if ( ! lp - > useSROM ) { /* de500-xa */
spd = ( ( ~ gep_rd ( dev ) ) & GEP_SLNK ) ;
} else {
if ( ( lp - > ibn = = 2 ) | | ! lp - > asBitValid )
return ( ( lp - > chipset = = DC21143 ) ? ( ~ inl ( DE4X5_SISR ) & SISR_LS100 ) : 0 ) ;
spd = ( lp - > asBitValid & ( lp - > asPolarity ^ ( gep_rd ( dev ) & lp - > asBit ) ) ) |
( lp - > linkOK & ~ lp - > asBitValid ) ;
}
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return spd ;
}
static int
is_100_up ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
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if ( lp - > useMII ) {
/* Double read for sticky bits & temporary drops */
mii_rd ( MII_SR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
return ( mii_rd ( MII_SR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) & MII_SR_LKS ) ;
} else if ( ! lp - > useSROM ) { /* de500-xa */
return ( ( ~ gep_rd ( dev ) ) & GEP_SLNK ) ;
} else {
if ( ( lp - > ibn = = 2 ) | | ! lp - > asBitValid )
return ( ( lp - > chipset = = DC21143 ) ? ( ~ inl ( DE4X5_SISR ) & SISR_LS100 ) : 0 ) ;
return ( ( lp - > asBitValid & ( lp - > asPolarity ^ ( gep_rd ( dev ) & lp - > asBit ) ) ) |
( lp - > linkOK & ~ lp - > asBitValid ) ) ;
}
}
static int
is_10_up ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
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if ( lp - > useMII ) {
/* Double read for sticky bits & temporary drops */
mii_rd ( MII_SR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ;
return ( mii_rd ( MII_SR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) & MII_SR_LKS ) ;
} else if ( ! lp - > useSROM ) { /* de500-xa */
return ( ( ~ gep_rd ( dev ) ) & GEP_LNP ) ;
} else {
if ( ( lp - > ibn = = 2 ) | | ! lp - > asBitValid )
return ( ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ) ?
( ~ inl ( DE4X5_SISR ) & SISR_LS10 ) :
0 ) ;
return ( ( lp - > asBitValid & ( lp - > asPolarity ^ ( gep_rd ( dev ) & lp - > asBit ) ) ) |
( lp - > linkOK & ~ lp - > asBitValid ) ) ;
}
}
static int
is_anc_capable ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
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if ( lp - > phy [ lp - > active ] . id & & ( ! lp - > useSROM | | lp - > useMII ) ) {
return ( mii_rd ( MII_SR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ) ;
} else if ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ) {
return ( inl ( DE4X5_SISR ) & SISR_LPN ) > > 12 ;
} else {
return 0 ;
}
}
/*
* * Send a packet onto the media and watch for send errors that indicate the
* * media is bad or unconnected .
*/
static int
ping_media ( struct net_device * dev , int msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int sisr ;
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if ( lp - > timeout < 0 ) {
lp - > timeout = msec / 100 ;
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lp - > tmp = lp - > tx_new ; /* Remember the ring position */
load_packet ( dev , lp - > frame , TD_LS | TD_FS | sizeof ( lp - > frame ) , ( struct sk_buff * ) 1 ) ;
lp - > tx_new = ( + + lp - > tx_new ) % lp - > txRingSize ;
outl ( POLL_DEMAND , DE4X5_TPD ) ;
}
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sisr = inl ( DE4X5_SISR ) ;
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if ( ( ! ( sisr & SISR_NCR ) ) & &
( ( s32 ) le32_to_cpu ( lp - > tx_ring [ lp - > tmp ] . status ) < 0 ) & &
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( - - lp - > timeout ) ) {
sisr = 100 | TIMER_CB ;
} else {
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if ( ( ! ( sisr & SISR_NCR ) ) & &
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! ( le32_to_cpu ( lp - > tx_ring [ lp - > tmp ] . status ) & ( T_OWN | TD_ES ) ) & &
lp - > timeout ) {
sisr = 0 ;
} else {
sisr = 1 ;
}
lp - > timeout = - 1 ;
}
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return sisr ;
}
/*
* * This function does 2 things : on Intels it kmalloc ' s another buffer to
* * replace the one about to be passed up . On Alpha ' s it kmallocs a buffer
* * into which the packet is copied .
*/
static struct sk_buff *
de4x5_alloc_rx_buff ( struct net_device * dev , int index , int len )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct sk_buff * p ;
# if !defined(__alpha__) && !defined(__powerpc__) && !defined(__sparc_v9__) && !defined(DE4X5_DO_MEMCPY)
struct sk_buff * ret ;
u_long i = 0 , tmp ;
p = dev_alloc_skb ( IEEE802_3_SZ + DE4X5_ALIGN + 2 ) ;
if ( ! p ) return NULL ;
p - > dev = dev ;
tmp = virt_to_bus ( p - > data ) ;
i = ( ( tmp + DE4X5_ALIGN ) & ~ DE4X5_ALIGN ) - tmp ;
skb_reserve ( p , i ) ;
lp - > rx_ring [ index ] . buf = cpu_to_le32 ( tmp + i ) ;
ret = lp - > rx_skb [ index ] ;
lp - > rx_skb [ index ] = p ;
if ( ( u_long ) ret > 1 ) {
skb_put ( ret , len ) ;
}
return ret ;
# else
if ( lp - > state ! = OPEN ) return ( struct sk_buff * ) 1 ; /* Fake out the open */
p = dev_alloc_skb ( len + 2 ) ;
if ( ! p ) return NULL ;
p - > dev = dev ;
skb_reserve ( p , 2 ) ; /* Align */
if ( index < lp - > rx_old ) { /* Wrapped buffer */
short tlen = ( lp - > rxRingSize - lp - > rx_old ) * RX_BUFF_SZ ;
memcpy ( skb_put ( p , tlen ) , lp - > rx_bufs + lp - > rx_old * RX_BUFF_SZ , tlen ) ;
memcpy ( skb_put ( p , len - tlen ) , lp - > rx_bufs , len - tlen ) ;
} else { /* Linear buffer */
memcpy ( skb_put ( p , len ) , lp - > rx_bufs + lp - > rx_old * RX_BUFF_SZ , len ) ;
}
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return p ;
# endif
}
static void
de4x5_free_rx_buffs ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i ;
for ( i = 0 ; i < lp - > rxRingSize ; i + + ) {
if ( ( u_long ) lp - > rx_skb [ i ] > 1 ) {
dev_kfree_skb ( lp - > rx_skb [ i ] ) ;
}
lp - > rx_ring [ i ] . status = 0 ;
lp - > rx_skb [ i ] = ( struct sk_buff * ) 1 ; /* Dummy entry */
}
return ;
}
static void
de4x5_free_tx_buffs ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i ;
for ( i = 0 ; i < lp - > txRingSize ; i + + ) {
if ( lp - > tx_skb [ i ] )
de4x5_free_tx_buff ( lp , i ) ;
lp - > tx_ring [ i ] . status = 0 ;
}
/* Unload the locally queued packets */
while ( lp - > cache . skb ) {
dev_kfree_skb ( de4x5_get_cache ( dev ) ) ;
}
return ;
}
/*
* * When a user pulls a connection , the DECchip can end up in a
* * ' running - waiting for end of transmission ' state . This means that we
* * have to perform a chip soft reset to ensure that we can synchronize
* * the hardware and software and make any media probes using a loopback
* * packet meaningful .
*/
static void
de4x5_save_skbs ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 omr ;
if ( ! lp - > cache . save_cnt ) {
STOP_DE4X5 ;
de4x5_tx ( dev ) ; /* Flush any sent skb's */
de4x5_free_tx_buffs ( dev ) ;
de4x5_cache_state ( dev , DE4X5_SAVE_STATE ) ;
de4x5_sw_reset ( dev ) ;
de4x5_cache_state ( dev , DE4X5_RESTORE_STATE ) ;
lp - > cache . save_cnt + + ;
START_DE4X5 ;
}
return ;
}
static void
de4x5_rst_desc_ring ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int i ;
s32 omr ;
if ( lp - > cache . save_cnt ) {
STOP_DE4X5 ;
outl ( lp - > dma_rings , DE4X5_RRBA ) ;
outl ( lp - > dma_rings + NUM_RX_DESC * sizeof ( struct de4x5_desc ) ,
DE4X5_TRBA ) ;
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lp - > rx_new = lp - > rx_old = 0 ;
lp - > tx_new = lp - > tx_old = 0 ;
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for ( i = 0 ; i < lp - > rxRingSize ; i + + ) {
lp - > rx_ring [ i ] . status = cpu_to_le32 ( R_OWN ) ;
}
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for ( i = 0 ; i < lp - > txRingSize ; i + + ) {
lp - > tx_ring [ i ] . status = cpu_to_le32 ( 0 ) ;
}
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barrier ( ) ;
lp - > cache . save_cnt - - ;
START_DE4X5 ;
}
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return ;
}
static void
de4x5_cache_state ( struct net_device * dev , int flag )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
switch ( flag ) {
case DE4X5_SAVE_STATE :
lp - > cache . csr0 = inl ( DE4X5_BMR ) ;
lp - > cache . csr6 = ( inl ( DE4X5_OMR ) & ~ ( OMR_ST | OMR_SR ) ) ;
lp - > cache . csr7 = inl ( DE4X5_IMR ) ;
break ;
case DE4X5_RESTORE_STATE :
outl ( lp - > cache . csr0 , DE4X5_BMR ) ;
outl ( lp - > cache . csr6 , DE4X5_OMR ) ;
outl ( lp - > cache . csr7 , DE4X5_IMR ) ;
if ( lp - > chipset = = DC21140 ) {
gep_wr ( lp - > cache . gepc , dev ) ;
gep_wr ( lp - > cache . gep , dev ) ;
} else {
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reset_init_sia ( dev , lp - > cache . csr13 , lp - > cache . csr14 ,
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lp - > cache . csr15 ) ;
}
break ;
}
return ;
}
static void
de4x5_put_cache ( struct net_device * dev , struct sk_buff * skb )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct sk_buff * p ;
if ( lp - > cache . skb ) {
for ( p = lp - > cache . skb ; p - > next ; p = p - > next ) ;
p - > next = skb ;
} else {
lp - > cache . skb = skb ;
}
skb - > next = NULL ;
return ;
}
static void
de4x5_putb_cache ( struct net_device * dev , struct sk_buff * skb )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct sk_buff * p = lp - > cache . skb ;
lp - > cache . skb = skb ;
skb - > next = p ;
return ;
}
static struct sk_buff *
de4x5_get_cache ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct sk_buff * p = lp - > cache . skb ;
if ( p ) {
lp - > cache . skb = p - > next ;
p - > next = NULL ;
}
return p ;
}
/*
* * Check the Auto Negotiation State . Return OK when a link pass interrupt
* * is received and the auto - negotiation status is NWAY OK .
*/
static int
test_ans ( struct net_device * dev , s32 irqs , s32 irq_mask , s32 msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 sts , ans ;
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if ( lp - > timeout < 0 ) {
lp - > timeout = msec / 100 ;
outl ( irq_mask , DE4X5_IMR ) ;
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/* clear all pending interrupts */
sts = inl ( DE4X5_STS ) ;
outl ( sts , DE4X5_STS ) ;
}
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ans = inl ( DE4X5_SISR ) & SISR_ANS ;
sts = inl ( DE4X5_STS ) & ~ TIMER_CB ;
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if ( ! ( sts & irqs ) & & ( ans ^ ANS_NWOK ) & & - - lp - > timeout ) {
sts = 100 | TIMER_CB ;
} else {
lp - > timeout = - 1 ;
}
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return sts ;
}
static void
de4x5_setup_intr ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 imr , sts ;
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if ( inl ( DE4X5_OMR ) & OMR_SR ) { /* Only unmask if TX/RX is enabled */
imr = 0 ;
UNMASK_IRQs ;
sts = inl ( DE4X5_STS ) ; /* Reset any pending (stale) interrupts */
outl ( sts , DE4X5_STS ) ;
ENABLE_IRQs ;
}
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return ;
}
/*
* *
*/
static void
reset_init_sia ( struct net_device * dev , s32 csr13 , s32 csr14 , s32 csr15 )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
RESET_SIA ;
if ( lp - > useSROM ) {
if ( lp - > ibn = = 3 ) {
srom_exec ( dev , lp - > phy [ lp - > active ] . rst ) ;
srom_exec ( dev , lp - > phy [ lp - > active ] . gep ) ;
outl ( 1 , DE4X5_SICR ) ;
return ;
} else {
csr15 = lp - > cache . csr15 ;
csr14 = lp - > cache . csr14 ;
csr13 = lp - > cache . csr13 ;
outl ( csr15 | lp - > cache . gepc , DE4X5_SIGR ) ;
outl ( csr15 | lp - > cache . gep , DE4X5_SIGR ) ;
}
} else {
outl ( csr15 , DE4X5_SIGR ) ;
}
outl ( csr14 , DE4X5_STRR ) ;
outl ( csr13 , DE4X5_SICR ) ;
mdelay ( 10 ) ;
return ;
}
/*
* * Create a loopback ethernet packet
*/
static void
create_packet ( struct net_device * dev , char * frame , int len )
{
int i ;
char * buf = frame ;
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for ( i = 0 ; i < ETH_ALEN ; i + + ) { /* Use this source address */
* buf + + = dev - > dev_addr [ i ] ;
}
for ( i = 0 ; i < ETH_ALEN ; i + + ) { /* Use this destination address */
* buf + + = dev - > dev_addr [ i ] ;
}
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* buf + + = 0 ; /* Packet length (2 bytes) */
* buf + + = 1 ;
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return ;
}
/*
* * Look for a particular board name in the EISA configuration space
*/
static int
EISA_signature ( char * name , struct device * device )
{
int i , status = 0 , siglen = sizeof ( de4x5_signatures ) / sizeof ( c_char * ) ;
struct eisa_device * edev ;
* name = ' \0 ' ;
edev = to_eisa_device ( device ) ;
i = edev - > id . driver_data ;
if ( i > = 0 & & i < siglen ) {
strcpy ( name , de4x5_signatures [ i ] ) ;
status = 1 ;
}
return status ; /* return the device name string */
}
/*
* * Look for a particular board name in the PCI configuration space
*/
static int
PCI_signature ( char * name , struct de4x5_private * lp )
{
int i , status = 0 , siglen = sizeof ( de4x5_signatures ) / sizeof ( c_char * ) ;
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if ( lp - > chipset = = DC21040 ) {
strcpy ( name , " DE434/5 " ) ;
return status ;
} else { /* Search for a DEC name in the SROM */
int i = * ( ( char * ) & lp - > srom + 19 ) * 3 ;
strncpy ( name , ( char * ) & lp - > srom + 26 + i , 8 ) ;
}
name [ 8 ] = ' \0 ' ;
for ( i = 0 ; i < siglen ; i + + ) {
if ( strstr ( name , de4x5_signatures [ i ] ) ! = NULL ) break ;
}
if ( i = = siglen ) {
if ( dec_only ) {
* name = ' \0 ' ;
} else { /* Use chip name to avoid confusion */
strcpy ( name , ( ( ( lp - > chipset = = DC21040 ) ? " DC21040 " :
( ( lp - > chipset = = DC21041 ) ? " DC21041 " :
( ( lp - > chipset = = DC21140 ) ? " DC21140 " :
( ( lp - > chipset = = DC21142 ) ? " DC21142 " :
( ( lp - > chipset = = DC21143 ) ? " DC21143 " : " UNKNOWN "
) ) ) ) ) ) ) ;
}
if ( lp - > chipset ! = DC21041 ) {
lp - > useSROM = TRUE ; /* card is not recognisably DEC */
}
} else if ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ) {
lp - > useSROM = TRUE ;
}
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return status ;
}
/*
* * Set up the Ethernet PROM counter to the start of the Ethernet address on
* * the DC21040 , else read the SROM for the other chips .
* * The SROM may not be present in a multi - MAC card , so first read the
* * MAC address and check for a bad address . If there is a bad one then exit
* * immediately with the prior srom contents intact ( the h / w address will
* * be fixed up later ) .
*/
static void
DevicePresent ( struct net_device * dev , u_long aprom_addr )
{
int i , j = 0 ;
struct de4x5_private * lp = netdev_priv ( dev ) ;
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if ( lp - > chipset = = DC21040 ) {
if ( lp - > bus = = EISA ) {
enet_addr_rst ( aprom_addr ) ; /* Reset Ethernet Address ROM Pointer */
} else {
outl ( 0 , aprom_addr ) ; /* Reset Ethernet Address ROM Pointer */
}
} else { /* Read new srom */
u_short tmp , * p = ( short * ) ( ( char * ) & lp - > srom + SROM_HWADD ) ;
for ( i = 0 ; i < ( ETH_ALEN > > 1 ) ; i + + ) {
tmp = srom_rd ( aprom_addr , ( SROM_HWADD > > 1 ) + i ) ;
* p = le16_to_cpu ( tmp ) ;
j + = * p + + ;
}
if ( ( j = = 0 ) | | ( j = = 0x2fffd ) ) {
return ;
}
p = ( short * ) & lp - > srom ;
for ( i = 0 ; i < ( sizeof ( struct de4x5_srom ) > > 1 ) ; i + + ) {
tmp = srom_rd ( aprom_addr , i ) ;
* p + + = le16_to_cpu ( tmp ) ;
}
de4x5_dbg_srom ( ( struct de4x5_srom * ) & lp - > srom ) ;
}
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return ;
}
/*
* * Since the write on the Enet PROM register doesn ' t seem to reset the PROM
* * pointer correctly ( at least on my DE425 EISA card ) , this routine should do
* * it . . . from depca . c .
*/
static void
enet_addr_rst ( u_long aprom_addr )
{
union {
struct {
u32 a ;
u32 b ;
} llsig ;
char Sig [ sizeof ( u32 ) < < 1 ] ;
} dev ;
short sigLength = 0 ;
s8 data ;
int i , j ;
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dev . llsig . a = ETH_PROM_SIG ;
dev . llsig . b = ETH_PROM_SIG ;
sigLength = sizeof ( u32 ) < < 1 ;
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for ( i = 0 , j = 0 ; j < sigLength & & i < PROBE_LENGTH + sigLength - 1 ; i + + ) {
data = inb ( aprom_addr ) ;
if ( dev . Sig [ j ] = = data ) { /* track signature */
j + + ;
} else { /* lost signature; begin search again */
if ( data = = dev . Sig [ 0 ] ) { /* rare case.... */
j = 1 ;
} else {
j = 0 ;
}
}
}
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return ;
}
/*
* * For the bad status case and no SROM , then add one to the previous
* * address . However , need to add one backwards in case we have 0xff
* * as one or more of the bytes . Only the last 3 bytes should be checked
* * as the first three are invariant - assigned to an organisation .
*/
static int
get_hw_addr ( struct net_device * dev )
{
u_long iobase = dev - > base_addr ;
int broken , i , k , tmp , status = 0 ;
u_short j , chksum ;
struct de4x5_private * lp = netdev_priv ( dev ) ;
broken = de4x5_bad_srom ( lp ) ;
for ( i = 0 , k = 0 , j = 0 ; j < 3 ; j + + ) {
k < < = 1 ;
if ( k > 0xffff ) k - = 0xffff ;
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if ( lp - > bus = = PCI ) {
if ( lp - > chipset = = DC21040 ) {
while ( ( tmp = inl ( DE4X5_APROM ) ) < 0 ) ;
k + = ( u_char ) tmp ;
dev - > dev_addr [ i + + ] = ( u_char ) tmp ;
while ( ( tmp = inl ( DE4X5_APROM ) ) < 0 ) ;
k + = ( u_short ) ( tmp < < 8 ) ;
dev - > dev_addr [ i + + ] = ( u_char ) tmp ;
} else if ( ! broken ) {
dev - > dev_addr [ i ] = ( u_char ) lp - > srom . ieee_addr [ i ] ; i + + ;
dev - > dev_addr [ i ] = ( u_char ) lp - > srom . ieee_addr [ i ] ; i + + ;
} else if ( ( broken = = SMC ) | | ( broken = = ACCTON ) ) {
dev - > dev_addr [ i ] = * ( ( u_char * ) & lp - > srom + i ) ; i + + ;
dev - > dev_addr [ i ] = * ( ( u_char * ) & lp - > srom + i ) ; i + + ;
}
} else {
k + = ( u_char ) ( tmp = inb ( EISA_APROM ) ) ;
dev - > dev_addr [ i + + ] = ( u_char ) tmp ;
k + = ( u_short ) ( ( tmp = inb ( EISA_APROM ) ) < < 8 ) ;
dev - > dev_addr [ i + + ] = ( u_char ) tmp ;
}
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if ( k > 0xffff ) k - = 0xffff ;
}
if ( k = = 0xffff ) k = 0 ;
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if ( lp - > bus = = PCI ) {
if ( lp - > chipset = = DC21040 ) {
while ( ( tmp = inl ( DE4X5_APROM ) ) < 0 ) ;
chksum = ( u_char ) tmp ;
while ( ( tmp = inl ( DE4X5_APROM ) ) < 0 ) ;
chksum | = ( u_short ) ( tmp < < 8 ) ;
if ( ( k ! = chksum ) & & ( dec_only ) ) status = - 1 ;
}
} else {
chksum = ( u_char ) inb ( EISA_APROM ) ;
chksum | = ( u_short ) ( inb ( EISA_APROM ) < < 8 ) ;
if ( ( k ! = chksum ) & & ( dec_only ) ) status = - 1 ;
}
/* If possible, try to fix a broken card - SMC only so far */
srom_repair ( dev , broken ) ;
# ifdef CONFIG_PPC_MULTIPLATFORM
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/*
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* * If the address starts with 00 a0 , we have to bit - reverse
* * each byte of the address .
*/
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if ( machine_is ( powermac ) & &
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( dev - > dev_addr [ 0 ] = = 0 ) & &
( dev - > dev_addr [ 1 ] = = 0xa0 ) )
{
for ( i = 0 ; i < ETH_ALEN ; + + i )
{
int x = dev - > dev_addr [ i ] ;
x = ( ( x & 0xf ) < < 4 ) + ( ( x & 0xf0 ) > > 4 ) ;
x = ( ( x & 0x33 ) < < 2 ) + ( ( x & 0xcc ) > > 2 ) ;
dev - > dev_addr [ i ] = ( ( x & 0x55 ) < < 1 ) + ( ( x & 0xaa ) > > 1 ) ;
}
}
# endif /* CONFIG_PPC_MULTIPLATFORM */
/* Test for a bad enet address */
status = test_bad_enet ( dev , status ) ;
return status ;
}
/*
* * Test for enet addresses in the first 32 bytes . The built - in strncmp
* * didn ' t seem to work here . . . ?
*/
static int
de4x5_bad_srom ( struct de4x5_private * lp )
{
int i , status = 0 ;
for ( i = 0 ; i < sizeof ( enet_det ) / ETH_ALEN ; i + + ) {
if ( ! de4x5_strncmp ( ( char * ) & lp - > srom , ( char * ) & enet_det [ i ] , 3 ) & &
! de4x5_strncmp ( ( char * ) & lp - > srom + 0x10 , ( char * ) & enet_det [ i ] , 3 ) ) {
if ( i = = 0 ) {
status = SMC ;
} else if ( i = = 1 ) {
status = ACCTON ;
}
break ;
}
}
return status ;
}
static int
de4x5_strncmp ( char * a , char * b , int n )
{
int ret = 0 ;
for ( ; n & & ! ret ; n - - ) {
ret = * a + + - * b + + ;
}
return ret ;
}
static void
srom_repair ( struct net_device * dev , int card )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
switch ( card ) {
case SMC :
memset ( ( char * ) & lp - > srom , 0 , sizeof ( struct de4x5_srom ) ) ;
memcpy ( lp - > srom . ieee_addr , ( char * ) dev - > dev_addr , ETH_ALEN ) ;
memcpy ( lp - > srom . info , ( char * ) & srom_repair_info [ SMC - 1 ] , 100 ) ;
lp - > useSROM = TRUE ;
break ;
}
return ;
}
/*
* * Assume that the irq ' s do not follow the PCI spec - this is seems
* * to be true so far ( 2 for 2 ) .
*/
static int
test_bad_enet ( struct net_device * dev , int status )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i , tmp ;
for ( tmp = 0 , i = 0 ; i < ETH_ALEN ; i + + ) tmp + = ( u_char ) dev - > dev_addr [ i ] ;
if ( ( tmp = = 0 ) | | ( tmp = = 0x5fa ) ) {
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if ( ( lp - > chipset = = last . chipset ) & &
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( lp - > bus_num = = last . bus ) & & ( lp - > bus_num > 0 ) ) {
for ( i = 0 ; i < ETH_ALEN ; i + + ) dev - > dev_addr [ i ] = last . addr [ i ] ;
for ( i = ETH_ALEN - 1 ; i > 2 ; - - i ) {
dev - > dev_addr [ i ] + = 1 ;
if ( dev - > dev_addr [ i ] ! = 0 ) break ;
}
for ( i = 0 ; i < ETH_ALEN ; i + + ) last . addr [ i ] = dev - > dev_addr [ i ] ;
if ( ! an_exception ( lp ) ) {
dev - > irq = last . irq ;
}
status = 0 ;
}
} else if ( ! status ) {
last . chipset = lp - > chipset ;
last . bus = lp - > bus_num ;
last . irq = dev - > irq ;
for ( i = 0 ; i < ETH_ALEN ; i + + ) last . addr [ i ] = dev - > dev_addr [ i ] ;
}
return status ;
}
/*
* * List of board exceptions with correctly wired IRQs
*/
static int
an_exception ( struct de4x5_private * lp )
{
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if ( ( * ( u_short * ) lp - > srom . sub_vendor_id = = 0x00c0 ) & &
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( * ( u_short * ) lp - > srom . sub_system_id = = 0x95e0 ) ) {
return - 1 ;
}
return 0 ;
}
/*
* * SROM Read
*/
static short
srom_rd ( u_long addr , u_char offset )
{
sendto_srom ( SROM_RD | SROM_SR , addr ) ;
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srom_latch ( SROM_RD | SROM_SR | DT_CS , addr ) ;
srom_command ( SROM_RD | SROM_SR | DT_IN | DT_CS , addr ) ;
srom_address ( SROM_RD | SROM_SR | DT_CS , addr , offset ) ;
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return srom_data ( SROM_RD | SROM_SR | DT_CS , addr ) ;
}
static void
srom_latch ( u_int command , u_long addr )
{
sendto_srom ( command , addr ) ;
sendto_srom ( command | DT_CLK , addr ) ;
sendto_srom ( command , addr ) ;
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return ;
}
static void
srom_command ( u_int command , u_long addr )
{
srom_latch ( command , addr ) ;
srom_latch ( command , addr ) ;
srom_latch ( ( command & 0x0000ff00 ) | DT_CS , addr ) ;
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return ;
}
static void
srom_address ( u_int command , u_long addr , u_char offset )
{
int i , a ;
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a = offset < < 2 ;
for ( i = 0 ; i < 6 ; i + + , a < < = 1 ) {
srom_latch ( command | ( ( a & 0x80 ) ? DT_IN : 0 ) , addr ) ;
}
udelay ( 1 ) ;
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i = ( getfrom_srom ( addr ) > > 3 ) & 0x01 ;
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return ;
}
static short
srom_data ( u_int command , u_long addr )
{
int i ;
short word = 0 ;
s32 tmp ;
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for ( i = 0 ; i < 16 ; i + + ) {
sendto_srom ( command | DT_CLK , addr ) ;
tmp = getfrom_srom ( addr ) ;
sendto_srom ( command , addr ) ;
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word = ( word < < 1 ) | ( ( tmp > > 3 ) & 0x01 ) ;
}
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sendto_srom ( command & 0x0000ff00 , addr ) ;
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return word ;
}
/*
static void
srom_busy ( u_int command , u_long addr )
{
sendto_srom ( ( command & 0x0000ff00 ) | DT_CS , addr ) ;
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while ( ! ( ( getfrom_srom ( addr ) > > 3 ) & 0x01 ) ) {
mdelay ( 1 ) ;
}
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sendto_srom ( command & 0x0000ff00 , addr ) ;
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return ;
}
*/
static void
sendto_srom ( u_int command , u_long addr )
{
outl ( command , addr ) ;
udelay ( 1 ) ;
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return ;
}
static int
getfrom_srom ( u_long addr )
{
s32 tmp ;
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tmp = inl ( addr ) ;
udelay ( 1 ) ;
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return tmp ;
}
static int
srom_infoleaf_info ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i , count ;
u_char * p ;
/* Find the infoleaf decoder function that matches this chipset */
for ( i = 0 ; i < INFOLEAF_SIZE ; i + + ) {
if ( lp - > chipset = = infoleaf_array [ i ] . chipset ) break ;
}
if ( i = = INFOLEAF_SIZE ) {
lp - > useSROM = FALSE ;
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printk ( " %s: Cannot find correct chipset for SROM decoding! \n " ,
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dev - > name ) ;
return - ENXIO ;
}
lp - > infoleaf_fn = infoleaf_array [ i ] . fn ;
/* Find the information offset that this function should use */
count = * ( ( u_char * ) & lp - > srom + 19 ) ;
p = ( u_char * ) & lp - > srom + 26 ;
if ( count > 1 ) {
for ( i = count ; i ; - - i , p + = 3 ) {
if ( lp - > device = = * p ) break ;
}
if ( i = = 0 ) {
lp - > useSROM = FALSE ;
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printk ( " %s: Cannot find correct PCI device [%d] for SROM decoding! \n " ,
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dev - > name , lp - > device ) ;
return - ENXIO ;
}
}
lp - > infoleaf_offset = TWIDDLE ( p + 1 ) ;
return 0 ;
}
/*
* * This routine loads any type 1 or 3 MII info into the mii device
* * struct and executes any type 5 code to reset PHY devices for this
* * controller .
* * The info for the MII devices will be valid since the index used
* * will follow the discovery process from MII address 1 - 31 then 0.
*/
static void
srom_init ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char * p = ( u_char * ) & lp - > srom + lp - > infoleaf_offset ;
u_char count ;
p + = 2 ;
if ( lp - > chipset = = DC21140 ) {
lp - > cache . gepc = ( * p + + | GEP_CTRL ) ;
gep_wr ( lp - > cache . gepc , dev ) ;
}
/* Block count */
count = * p + + ;
/* Jump the infoblocks to find types */
for ( ; count ; - - count ) {
if ( * p < 128 ) {
p + = COMPACT_LEN ;
} else if ( * ( p + 1 ) = = 5 ) {
type5_infoblock ( dev , 1 , p ) ;
p + = ( ( * p & BLOCK_LEN ) + 1 ) ;
} else if ( * ( p + 1 ) = = 4 ) {
p + = ( ( * p & BLOCK_LEN ) + 1 ) ;
} else if ( * ( p + 1 ) = = 3 ) {
type3_infoblock ( dev , 1 , p ) ;
p + = ( ( * p & BLOCK_LEN ) + 1 ) ;
} else if ( * ( p + 1 ) = = 2 ) {
p + = ( ( * p & BLOCK_LEN ) + 1 ) ;
} else if ( * ( p + 1 ) = = 1 ) {
type1_infoblock ( dev , 1 , p ) ;
p + = ( ( * p & BLOCK_LEN ) + 1 ) ;
} else {
p + = ( ( * p & BLOCK_LEN ) + 1 ) ;
}
}
return ;
}
/*
* * A generic routine that writes GEP control , data and reset information
* * to the GEP register ( 21140 ) or csr15 GEP portion ( 2114 [ 23 ] ) .
*/
static void
srom_exec ( struct net_device * dev , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
u_char count = ( p ? * p + + : 0 ) ;
u_short * w = ( u_short * ) p ;
if ( ( ( lp - > ibn ! = 1 ) & & ( lp - > ibn ! = 3 ) & & ( lp - > ibn ! = 5 ) ) | | ! count ) return ;
if ( lp - > chipset ! = DC21140 ) RESET_SIA ;
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while ( count - - ) {
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gep_wr ( ( ( lp - > chipset = = DC21140 ) & & ( lp - > ibn ! = 5 ) ?
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* p + + : TWIDDLE ( w + + ) ) , dev ) ;
mdelay ( 2 ) ; /* 2ms per action */
}
if ( lp - > chipset ! = DC21140 ) {
outl ( lp - > cache . csr14 , DE4X5_STRR ) ;
outl ( lp - > cache . csr13 , DE4X5_SICR ) ;
}
return ;
}
/*
* * Basically this function is a NOP since it will never be called ,
* * unless I implement the DC21041 SROM functions . There ' s no need
* * since the existing code will be satisfactory for all boards .
*/
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static int
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dc21041_infoleaf ( struct net_device * dev )
{
return DE4X5_AUTOSENSE_MS ;
}
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static int
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dc21140_infoleaf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char count = 0 ;
u_char * p = ( u_char * ) & lp - > srom + lp - > infoleaf_offset ;
int next_tick = DE4X5_AUTOSENSE_MS ;
/* Read the connection type */
p + = 2 ;
/* GEP control */
lp - > cache . gepc = ( * p + + | GEP_CTRL ) ;
/* Block count */
count = * p + + ;
/* Recursively figure out the info blocks */
if ( * p < 128 ) {
next_tick = dc_infoblock [ COMPACT ] ( dev , count , p ) ;
} else {
next_tick = dc_infoblock [ * ( p + 1 ) ] ( dev , count , p ) ;
}
if ( lp - > tcount = = count ) {
lp - > media = NC ;
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ;
}
lp - > media = INIT ;
lp - > tcount = 0 ;
lp - > tx_enable = FALSE ;
}
return next_tick & ~ TIMER_CB ;
}
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static int
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dc21142_infoleaf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char count = 0 ;
u_char * p = ( u_char * ) & lp - > srom + lp - > infoleaf_offset ;
int next_tick = DE4X5_AUTOSENSE_MS ;
/* Read the connection type */
p + = 2 ;
/* Block count */
count = * p + + ;
/* Recursively figure out the info blocks */
if ( * p < 128 ) {
next_tick = dc_infoblock [ COMPACT ] ( dev , count , p ) ;
} else {
next_tick = dc_infoblock [ * ( p + 1 ) ] ( dev , count , p ) ;
}
if ( lp - > tcount = = count ) {
lp - > media = NC ;
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ;
}
lp - > media = INIT ;
lp - > tcount = 0 ;
lp - > tx_enable = FALSE ;
}
return next_tick & ~ TIMER_CB ;
}
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static int
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dc21143_infoleaf ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char count = 0 ;
u_char * p = ( u_char * ) & lp - > srom + lp - > infoleaf_offset ;
int next_tick = DE4X5_AUTOSENSE_MS ;
/* Read the connection type */
p + = 2 ;
/* Block count */
count = * p + + ;
/* Recursively figure out the info blocks */
if ( * p < 128 ) {
next_tick = dc_infoblock [ COMPACT ] ( dev , count , p ) ;
} else {
next_tick = dc_infoblock [ * ( p + 1 ) ] ( dev , count , p ) ;
}
if ( lp - > tcount = = count ) {
lp - > media = NC ;
if ( lp - > media ! = lp - > c_media ) {
de4x5_dbg_media ( dev ) ;
lp - > c_media = lp - > media ;
}
lp - > media = INIT ;
lp - > tcount = 0 ;
lp - > tx_enable = FALSE ;
}
return next_tick & ~ TIMER_CB ;
}
/*
* * The compact infoblock is only designed for DC21140 [ A ] chips , so
* * we ' ll reuse the dc21140m_autoconf function . Non MII media only .
*/
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static int
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compact_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char flags , csr6 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + COMPACT_LEN ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + COMPACT_LEN ) ;
} else {
return dc_infoblock [ * ( p + COMPACT_LEN + 1 ) ] ( dev , count , p + COMPACT_LEN ) ;
}
}
if ( ( lp - > media = = INIT ) & & ( lp - > timeout < 0 ) ) {
lp - > ibn = COMPACT ;
lp - > active = 0 ;
gep_wr ( lp - > cache . gepc , dev ) ;
lp - > infoblock_media = ( * p + + ) & COMPACT_MC ;
lp - > cache . gep = * p + + ;
csr6 = * p + + ;
flags = * p + + ;
lp - > asBitValid = ( flags & 0x80 ) ? 0 : - 1 ;
lp - > defMedium = ( flags & 0x40 ) ? - 1 : 0 ;
lp - > asBit = 1 < < ( ( csr6 > > 1 ) & 0x07 ) ;
lp - > asPolarity = ( ( csr6 & 0x80 ) ? - 1 : 0 ) & lp - > asBit ;
lp - > infoblock_csr6 = OMR_DEF | ( ( csr6 & 0x71 ) < < 18 ) ;
lp - > useMII = FALSE ;
de4x5_switch_mac_port ( dev ) ;
}
return dc21140m_autoconf ( dev ) ;
}
/*
* * This block describes non MII media for the DC21140 [ A ] only .
*/
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static int
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type0_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char flags , csr6 , len = ( * p & BLOCK_LEN ) + 1 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + len ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + len ) ;
} else {
return dc_infoblock [ * ( p + len + 1 ) ] ( dev , count , p + len ) ;
}
}
if ( ( lp - > media = = INIT ) & & ( lp - > timeout < 0 ) ) {
lp - > ibn = 0 ;
lp - > active = 0 ;
gep_wr ( lp - > cache . gepc , dev ) ;
p + = 2 ;
lp - > infoblock_media = ( * p + + ) & BLOCK0_MC ;
lp - > cache . gep = * p + + ;
csr6 = * p + + ;
flags = * p + + ;
lp - > asBitValid = ( flags & 0x80 ) ? 0 : - 1 ;
lp - > defMedium = ( flags & 0x40 ) ? - 1 : 0 ;
lp - > asBit = 1 < < ( ( csr6 > > 1 ) & 0x07 ) ;
lp - > asPolarity = ( ( csr6 & 0x80 ) ? - 1 : 0 ) & lp - > asBit ;
lp - > infoblock_csr6 = OMR_DEF | ( ( csr6 & 0x71 ) < < 18 ) ;
lp - > useMII = FALSE ;
de4x5_switch_mac_port ( dev ) ;
}
return dc21140m_autoconf ( dev ) ;
}
/* These functions are under construction! */
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static int
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type1_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char len = ( * p & BLOCK_LEN ) + 1 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + len ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + len ) ;
} else {
return dc_infoblock [ * ( p + len + 1 ) ] ( dev , count , p + len ) ;
}
}
p + = 2 ;
if ( lp - > state = = INITIALISED ) {
lp - > ibn = 1 ;
lp - > active = * p + + ;
lp - > phy [ lp - > active ] . gep = ( * p ? p : NULL ) ; p + = ( * p + 1 ) ;
lp - > phy [ lp - > active ] . rst = ( * p ? p : NULL ) ; p + = ( * p + 1 ) ;
lp - > phy [ lp - > active ] . mc = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . ana = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . fdx = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . ttm = TWIDDLE ( p ) ;
return 0 ;
} else if ( ( lp - > media = = INIT ) & & ( lp - > timeout < 0 ) ) {
lp - > ibn = 1 ;
lp - > active = * p ;
lp - > infoblock_csr6 = OMR_MII_100 ;
lp - > useMII = TRUE ;
lp - > infoblock_media = ANS ;
de4x5_switch_mac_port ( dev ) ;
}
return dc21140m_autoconf ( dev ) ;
}
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static int
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type2_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char len = ( * p & BLOCK_LEN ) + 1 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + len ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + len ) ;
} else {
return dc_infoblock [ * ( p + len + 1 ) ] ( dev , count , p + len ) ;
}
}
if ( ( lp - > media = = INIT ) & & ( lp - > timeout < 0 ) ) {
lp - > ibn = 2 ;
lp - > active = 0 ;
p + = 2 ;
lp - > infoblock_media = ( * p ) & MEDIA_CODE ;
if ( ( * p + + ) & EXT_FIELD ) {
lp - > cache . csr13 = TWIDDLE ( p ) ; p + = 2 ;
lp - > cache . csr14 = TWIDDLE ( p ) ; p + = 2 ;
lp - > cache . csr15 = TWIDDLE ( p ) ; p + = 2 ;
} else {
lp - > cache . csr13 = CSR13 ;
lp - > cache . csr14 = CSR14 ;
lp - > cache . csr15 = CSR15 ;
}
lp - > cache . gepc = ( ( s32 ) ( TWIDDLE ( p ) ) < < 16 ) ; p + = 2 ;
lp - > cache . gep = ( ( s32 ) ( TWIDDLE ( p ) ) < < 16 ) ;
lp - > infoblock_csr6 = OMR_SIA ;
lp - > useMII = FALSE ;
de4x5_switch_mac_port ( dev ) ;
}
return dc2114x_autoconf ( dev ) ;
}
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static int
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type3_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char len = ( * p & BLOCK_LEN ) + 1 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + len ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + len ) ;
} else {
return dc_infoblock [ * ( p + len + 1 ) ] ( dev , count , p + len ) ;
}
}
p + = 2 ;
if ( lp - > state = = INITIALISED ) {
lp - > ibn = 3 ;
lp - > active = * p + + ;
if ( MOTO_SROM_BUG ) lp - > active = 0 ;
lp - > phy [ lp - > active ] . gep = ( * p ? p : NULL ) ; p + = ( 2 * ( * p ) + 1 ) ;
lp - > phy [ lp - > active ] . rst = ( * p ? p : NULL ) ; p + = ( 2 * ( * p ) + 1 ) ;
lp - > phy [ lp - > active ] . mc = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . ana = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . fdx = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . ttm = TWIDDLE ( p ) ; p + = 2 ;
lp - > phy [ lp - > active ] . mci = * p ;
return 0 ;
} else if ( ( lp - > media = = INIT ) & & ( lp - > timeout < 0 ) ) {
lp - > ibn = 3 ;
lp - > active = * p ;
if ( MOTO_SROM_BUG ) lp - > active = 0 ;
lp - > infoblock_csr6 = OMR_MII_100 ;
lp - > useMII = TRUE ;
lp - > infoblock_media = ANS ;
de4x5_switch_mac_port ( dev ) ;
}
return dc2114x_autoconf ( dev ) ;
}
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static int
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type4_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char flags , csr6 , len = ( * p & BLOCK_LEN ) + 1 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + len ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + len ) ;
} else {
return dc_infoblock [ * ( p + len + 1 ) ] ( dev , count , p + len ) ;
}
}
if ( ( lp - > media = = INIT ) & & ( lp - > timeout < 0 ) ) {
lp - > ibn = 4 ;
lp - > active = 0 ;
p + = 2 ;
lp - > infoblock_media = ( * p + + ) & MEDIA_CODE ;
lp - > cache . csr13 = CSR13 ; /* Hard coded defaults */
lp - > cache . csr14 = CSR14 ;
lp - > cache . csr15 = CSR15 ;
lp - > cache . gepc = ( ( s32 ) ( TWIDDLE ( p ) ) < < 16 ) ; p + = 2 ;
lp - > cache . gep = ( ( s32 ) ( TWIDDLE ( p ) ) < < 16 ) ; p + = 2 ;
csr6 = * p + + ;
flags = * p + + ;
lp - > asBitValid = ( flags & 0x80 ) ? 0 : - 1 ;
lp - > defMedium = ( flags & 0x40 ) ? - 1 : 0 ;
lp - > asBit = 1 < < ( ( csr6 > > 1 ) & 0x07 ) ;
lp - > asPolarity = ( ( csr6 & 0x80 ) ? - 1 : 0 ) & lp - > asBit ;
lp - > infoblock_csr6 = OMR_DEF | ( ( csr6 & 0x71 ) < < 18 ) ;
lp - > useMII = FALSE ;
de4x5_switch_mac_port ( dev ) ;
}
return dc2114x_autoconf ( dev ) ;
}
/*
* * This block type provides information for resetting external devices
* * ( chips ) through the General Purpose Register .
*/
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static int
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type5_infoblock ( struct net_device * dev , u_char count , u_char * p )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_char len = ( * p & BLOCK_LEN ) + 1 ;
/* Recursively figure out the info blocks */
if ( - - count > lp - > tcount ) {
if ( * ( p + len ) < 128 ) {
return dc_infoblock [ COMPACT ] ( dev , count , p + len ) ;
} else {
return dc_infoblock [ * ( p + len + 1 ) ] ( dev , count , p + len ) ;
}
}
/* Must be initializing to run this code */
if ( ( lp - > state = = INITIALISED ) | | ( lp - > media = = INIT ) ) {
p + = 2 ;
lp - > rst = p ;
srom_exec ( dev , lp - > rst ) ;
}
return DE4X5_AUTOSENSE_MS ;
}
/*
* * MII Read / Write
*/
static int
mii_rd ( u_char phyreg , u_char phyaddr , u_long ioaddr )
{
mii_wdata ( MII_PREAMBLE , 2 , ioaddr ) ; /* Start of 34 bit preamble... */
mii_wdata ( MII_PREAMBLE , 32 , ioaddr ) ; /* ...continued */
mii_wdata ( MII_STRD , 4 , ioaddr ) ; /* SFD and Read operation */
mii_address ( phyaddr , ioaddr ) ; /* PHY address to be accessed */
mii_address ( phyreg , ioaddr ) ; /* PHY Register to read */
mii_ta ( MII_STRD , ioaddr ) ; /* Turn around time - 2 MDC */
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return mii_rdata ( ioaddr ) ; /* Read data */
}
static void
mii_wr ( int data , u_char phyreg , u_char phyaddr , u_long ioaddr )
{
mii_wdata ( MII_PREAMBLE , 2 , ioaddr ) ; /* Start of 34 bit preamble... */
mii_wdata ( MII_PREAMBLE , 32 , ioaddr ) ; /* ...continued */
mii_wdata ( MII_STWR , 4 , ioaddr ) ; /* SFD and Write operation */
mii_address ( phyaddr , ioaddr ) ; /* PHY address to be accessed */
mii_address ( phyreg , ioaddr ) ; /* PHY Register to write */
mii_ta ( MII_STWR , ioaddr ) ; /* Turn around time - 2 MDC */
data = mii_swap ( data , 16 ) ; /* Swap data bit ordering */
mii_wdata ( data , 16 , ioaddr ) ; /* Write data */
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return ;
}
static int
mii_rdata ( u_long ioaddr )
{
int i ;
s32 tmp = 0 ;
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for ( i = 0 ; i < 16 ; i + + ) {
tmp < < = 1 ;
tmp | = getfrom_mii ( MII_MRD | MII_RD , ioaddr ) ;
}
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return tmp ;
}
static void
mii_wdata ( int data , int len , u_long ioaddr )
{
int i ;
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for ( i = 0 ; i < len ; i + + ) {
sendto_mii ( MII_MWR | MII_WR , data , ioaddr ) ;
data > > = 1 ;
}
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return ;
}
static void
mii_address ( u_char addr , u_long ioaddr )
{
int i ;
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addr = mii_swap ( addr , 5 ) ;
for ( i = 0 ; i < 5 ; i + + ) {
sendto_mii ( MII_MWR | MII_WR , addr , ioaddr ) ;
addr > > = 1 ;
}
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return ;
}
static void
mii_ta ( u_long rw , u_long ioaddr )
{
if ( rw = = MII_STWR ) {
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sendto_mii ( MII_MWR | MII_WR , 1 , ioaddr ) ;
sendto_mii ( MII_MWR | MII_WR , 0 , ioaddr ) ;
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} else {
getfrom_mii ( MII_MRD | MII_RD , ioaddr ) ; /* Tri-state MDIO */
}
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return ;
}
static int
mii_swap ( int data , int len )
{
int i , tmp = 0 ;
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for ( i = 0 ; i < len ; i + + ) {
tmp < < = 1 ;
tmp | = ( data & 1 ) ;
data > > = 1 ;
}
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return tmp ;
}
static void
sendto_mii ( u32 command , int data , u_long ioaddr )
{
u32 j ;
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j = ( data & 1 ) < < 17 ;
outl ( command | j , ioaddr ) ;
udelay ( 1 ) ;
outl ( command | MII_MDC | j , ioaddr ) ;
udelay ( 1 ) ;
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return ;
}
static int
getfrom_mii ( u32 command , u_long ioaddr )
{
outl ( command , ioaddr ) ;
udelay ( 1 ) ;
outl ( command | MII_MDC , ioaddr ) ;
udelay ( 1 ) ;
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return ( ( inl ( ioaddr ) > > 19 ) & 1 ) ;
}
/*
* * Here ' s 3 ways to calculate the OUI from the ID registers .
*/
static int
mii_get_oui ( u_char phyaddr , u_long ioaddr )
{
/*
union {
u_short reg ;
u_char breg [ 2 ] ;
} a ;
int i , r2 , r3 , ret = 0 ; */
int r2 , r3 ;
/* Read r2 and r3 */
r2 = mii_rd ( MII_ID0 , phyaddr , ioaddr ) ;
r3 = mii_rd ( MII_ID1 , phyaddr , ioaddr ) ;
/* SEEQ and Cypress way * /
/ * Shuffle r2 and r3 * /
a . reg = 0 ;
r3 = ( ( r3 > > 10 ) | ( r2 < < 6 ) ) & 0x0ff ;
r2 = ( ( r2 > > 2 ) & 0x3fff ) ;
/ * Bit reverse r3 * /
for ( i = 0 ; i < 8 ; i + + ) {
ret < < = 1 ;
ret | = ( r3 & 1 ) ;
r3 > > = 1 ;
}
/ * Bit reverse r2 * /
for ( i = 0 ; i < 16 ; i + + ) {
a . reg < < = 1 ;
a . reg | = ( r2 & 1 ) ;
r2 > > = 1 ;
}
/ * Swap r2 bytes * /
i = a . breg [ 0 ] ;
a . breg [ 0 ] = a . breg [ 1 ] ;
a . breg [ 1 ] = i ;
return ( ( a . reg < < 8 ) | ret ) ; */ /* SEEQ and Cypress way */
/* return ((r2<<6)|(u_int)(r3>>10)); */ /* NATIONAL and BROADCOM way */
return r2 ; /* (I did it) My way */
}
/*
* * The SROM spec forces us to search addresses [ 1 - 31 0 ] . Bummer .
*/
static int
mii_get_phy ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
int i , j , k , n , limit = sizeof ( phy_info ) / sizeof ( struct phy_table ) ;
int id ;
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lp - > active = 0 ;
lp - > useMII = TRUE ;
/* Search the MII address space for possible PHY devices */
for ( n = 0 , lp - > mii_cnt = 0 , i = 1 ; ! ( ( i = = 1 ) & & ( n = = 1 ) ) ; i = ( i + 1 ) % DE4X5_MAX_MII ) {
lp - > phy [ lp - > active ] . addr = i ;
if ( i = = 0 ) n + + ; /* Count cycles */
while ( de4x5_reset_phy ( dev ) < 0 ) udelay ( 100 ) ; /* Wait for reset */
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id = mii_get_oui ( i , DE4X5_MII ) ;
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if ( ( id = = 0 ) | | ( id = = 65535 ) ) continue ; /* Valid ID? */
for ( j = 0 ; j < limit ; j + + ) { /* Search PHY table */
if ( id ! = phy_info [ j ] . id ) continue ; /* ID match? */
for ( k = 0 ; lp - > phy [ k ] . id & & ( k < DE4X5_MAX_PHY ) ; k + + ) ;
if ( k < DE4X5_MAX_PHY ) {
memcpy ( ( char * ) & lp - > phy [ k ] ,
( char * ) & phy_info [ j ] , sizeof ( struct phy_table ) ) ;
lp - > phy [ k ] . addr = i ;
lp - > mii_cnt + + ;
lp - > active + + ;
} else {
goto purgatory ; /* Stop the search */
}
break ;
}
if ( ( j = = limit ) & & ( i < DE4X5_MAX_MII ) ) {
for ( k = 0 ; lp - > phy [ k ] . id & & ( k < DE4X5_MAX_PHY ) ; k + + ) ;
lp - > phy [ k ] . addr = i ;
lp - > phy [ k ] . id = id ;
lp - > phy [ k ] . spd . reg = GENERIC_REG ; /* ANLPA register */
lp - > phy [ k ] . spd . mask = GENERIC_MASK ; /* 100Mb/s technologies */
lp - > phy [ k ] . spd . value = GENERIC_VALUE ; /* TX & T4, H/F Duplex */
lp - > mii_cnt + + ;
lp - > active + + ;
printk ( " %s: Using generic MII device control. If the board doesn't operate, \n please mail the following dump to the author: \n " , dev - > name ) ;
j = de4x5_debug ;
de4x5_debug | = DEBUG_MII ;
de4x5_dbg_mii ( dev , k ) ;
de4x5_debug = j ;
printk ( " \n " ) ;
}
}
purgatory :
lp - > active = 0 ;
if ( lp - > phy [ 0 ] . id ) { /* Reset the PHY devices */
for ( k = 0 ; lp - > phy [ k ] . id & & ( k < DE4X5_MAX_PHY ) ; k + + ) { /*For each PHY*/
mii_wr ( MII_CR_RST , MII_CR , lp - > phy [ k ] . addr , DE4X5_MII ) ;
while ( mii_rd ( MII_CR , lp - > phy [ k ] . addr , DE4X5_MII ) & MII_CR_RST ) ;
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de4x5_dbg_mii ( dev , k ) ;
}
}
if ( ! lp - > mii_cnt ) lp - > useMII = FALSE ;
return lp - > mii_cnt ;
}
static char *
build_setup_frame ( struct net_device * dev , int mode )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i ;
char * pa = lp - > setup_frame ;
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/* Initialise the setup frame */
if ( mode = = ALL ) {
memset ( lp - > setup_frame , 0 , SETUP_FRAME_LEN ) ;
}
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if ( lp - > setup_f = = HASH_PERF ) {
for ( pa = lp - > setup_frame + IMPERF_PA_OFFSET , i = 0 ; i < ETH_ALEN ; i + + ) {
* ( pa + i ) = dev - > dev_addr [ i ] ; /* Host address */
if ( i & 0x01 ) pa + = 2 ;
}
* ( lp - > setup_frame + ( HASH_TABLE_LEN > > 3 ) - 3 ) = 0x80 ;
} else {
for ( i = 0 ; i < ETH_ALEN ; i + + ) { /* Host address */
* ( pa + ( i & 1 ) ) = dev - > dev_addr [ i ] ;
if ( i & 0x01 ) pa + = 4 ;
}
for ( i = 0 ; i < ETH_ALEN ; i + + ) { /* Broadcast address */
* ( pa + ( i & 1 ) ) = ( char ) 0xff ;
if ( i & 0x01 ) pa + = 4 ;
}
}
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return pa ; /* Points to the next entry */
}
static void
enable_ast ( struct net_device * dev , u32 time_out )
{
timeout ( dev , ( void * ) & de4x5_ast , ( u_long ) dev , time_out ) ;
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return ;
}
static void
disable_ast ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
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del_timer ( & lp - > timer ) ;
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return ;
}
static long
de4x5_switch_mac_port ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
s32 omr ;
STOP_DE4X5 ;
/* Assert the OMR_PS bit in CSR6 */
omr = ( inl ( DE4X5_OMR ) & ~ ( OMR_PS | OMR_HBD | OMR_TTM | OMR_PCS | OMR_SCR |
OMR_FDX ) ) ;
omr | = lp - > infoblock_csr6 ;
if ( omr & OMR_PS ) omr | = OMR_HBD ;
outl ( omr , DE4X5_OMR ) ;
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/* Soft Reset */
RESET_DE4X5 ;
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/* Restore the GEP - especially for COMPACT and Type 0 Infoblocks */
if ( lp - > chipset = = DC21140 ) {
gep_wr ( lp - > cache . gepc , dev ) ;
gep_wr ( lp - > cache . gep , dev ) ;
} else if ( ( lp - > chipset & ~ 0x0ff ) = = DC2114x ) {
reset_init_sia ( dev , lp - > cache . csr13 , lp - > cache . csr14 , lp - > cache . csr15 ) ;
}
/* Restore CSR6 */
outl ( omr , DE4X5_OMR ) ;
/* Reset CSR8 */
inl ( DE4X5_MFC ) ;
return omr ;
}
static void
gep_wr ( s32 data , struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
if ( lp - > chipset = = DC21140 ) {
outl ( data , DE4X5_GEP ) ;
} else if ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ) {
outl ( ( data < < 16 ) | lp - > cache . csr15 , DE4X5_SIGR ) ;
}
return ;
}
static int
gep_rd ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
if ( lp - > chipset = = DC21140 ) {
return inl ( DE4X5_GEP ) ;
} else if ( ( lp - > chipset & ~ 0x00ff ) = = DC2114x ) {
return ( inl ( DE4X5_SIGR ) & 0x000fffff ) ;
}
return 0 ;
}
static void
timeout ( struct net_device * dev , void ( * fn ) ( u_long data ) , u_long data , u_long msec )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int dt ;
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/* First, cancel any pending timer events */
del_timer ( & lp - > timer ) ;
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/* Convert msec to ticks */
dt = ( msec * HZ ) / 1000 ;
if ( dt = = 0 ) dt = 1 ;
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/* Set up timer */
init_timer ( & lp - > timer ) ;
lp - > timer . expires = jiffies + dt ;
lp - > timer . function = fn ;
lp - > timer . data = data ;
add_timer ( & lp - > timer ) ;
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return ;
}
static void
yawn ( struct net_device * dev , int state )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
if ( ( lp - > chipset = = DC21040 ) | | ( lp - > chipset = = DC21140 ) ) return ;
if ( lp - > bus = = EISA ) {
switch ( state ) {
case WAKEUP :
outb ( WAKEUP , PCI_CFPM ) ;
mdelay ( 10 ) ;
break ;
case SNOOZE :
outb ( SNOOZE , PCI_CFPM ) ;
break ;
case SLEEP :
outl ( 0 , DE4X5_SICR ) ;
outb ( SLEEP , PCI_CFPM ) ;
break ;
}
} else {
struct pci_dev * pdev = to_pci_dev ( lp - > gendev ) ;
switch ( state ) {
case WAKEUP :
pci_write_config_byte ( pdev , PCI_CFDA_PSM , WAKEUP ) ;
mdelay ( 10 ) ;
break ;
case SNOOZE :
pci_write_config_byte ( pdev , PCI_CFDA_PSM , SNOOZE ) ;
break ;
case SLEEP :
outl ( 0 , DE4X5_SICR ) ;
pci_write_config_byte ( pdev , PCI_CFDA_PSM , SLEEP ) ;
break ;
}
}
return ;
}
static void
de4x5_parse_params ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
char * p , * q , t ;
lp - > params . fdx = 0 ;
lp - > params . autosense = AUTO ;
if ( args = = NULL ) return ;
if ( ( p = strstr ( args , dev - > name ) ) ) {
if ( ! ( q = strstr ( p + strlen ( dev - > name ) , " eth " ) ) ) q = p + strlen ( p ) ;
t = * q ;
* q = ' \0 ' ;
if ( strstr ( p , " fdx " ) | | strstr ( p , " FDX " ) ) lp - > params . fdx = 1 ;
if ( strstr ( p , " autosense " ) | | strstr ( p , " AUTOSENSE " ) ) {
if ( strstr ( p , " TP " ) ) {
lp - > params . autosense = TP ;
} else if ( strstr ( p , " TP_NW " ) ) {
lp - > params . autosense = TP_NW ;
} else if ( strstr ( p , " BNC " ) ) {
lp - > params . autosense = BNC ;
} else if ( strstr ( p , " AUI " ) ) {
lp - > params . autosense = AUI ;
} else if ( strstr ( p , " BNC_AUI " ) ) {
lp - > params . autosense = BNC ;
} else if ( strstr ( p , " 10Mb " ) ) {
lp - > params . autosense = _10Mb ;
} else if ( strstr ( p , " 100Mb " ) ) {
lp - > params . autosense = _100Mb ;
} else if ( strstr ( p , " AUTO " ) ) {
lp - > params . autosense = AUTO ;
}
}
* q = t ;
}
return ;
}
static void
de4x5_dbg_open ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
int i ;
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if ( de4x5_debug & DEBUG_OPEN ) {
printk ( " %s: de4x5 opening with irq %d \n " , dev - > name , dev - > irq ) ;
printk ( " \t physical address: " ) ;
for ( i = 0 ; i < 6 ; i + + ) {
printk ( " %2.2x: " , ( short ) dev - > dev_addr [ i ] ) ;
}
printk ( " \n " ) ;
printk ( " Descriptor head addresses: \n " ) ;
printk ( " \t 0x%8.8lx 0x%8.8lx \n " , ( u_long ) lp - > rx_ring , ( u_long ) lp - > tx_ring ) ;
printk ( " Descriptor addresses: \n RX: " ) ;
for ( i = 0 ; i < lp - > rxRingSize - 1 ; i + + ) {
if ( i < 3 ) {
printk ( " 0x%8.8lx " , ( u_long ) & lp - > rx_ring [ i ] . status ) ;
}
}
printk ( " ...0x%8.8lx \n " , ( u_long ) & lp - > rx_ring [ i ] . status ) ;
printk ( " TX: " ) ;
for ( i = 0 ; i < lp - > txRingSize - 1 ; i + + ) {
if ( i < 3 ) {
printk ( " 0x%8.8lx " , ( u_long ) & lp - > tx_ring [ i ] . status ) ;
}
}
printk ( " ...0x%8.8lx \n " , ( u_long ) & lp - > tx_ring [ i ] . status ) ;
printk ( " Descriptor buffers: \n RX: " ) ;
for ( i = 0 ; i < lp - > rxRingSize - 1 ; i + + ) {
if ( i < 3 ) {
printk ( " 0x%8.8x " , le32_to_cpu ( lp - > rx_ring [ i ] . buf ) ) ;
}
}
printk ( " ...0x%8.8x \n " , le32_to_cpu ( lp - > rx_ring [ i ] . buf ) ) ;
printk ( " TX: " ) ;
for ( i = 0 ; i < lp - > txRingSize - 1 ; i + + ) {
if ( i < 3 ) {
printk ( " 0x%8.8x " , le32_to_cpu ( lp - > tx_ring [ i ] . buf ) ) ;
}
}
printk ( " ...0x%8.8x \n " , le32_to_cpu ( lp - > tx_ring [ i ] . buf ) ) ;
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printk ( " Ring size: \n RX: %d \n TX: %d \n " ,
( short ) lp - > rxRingSize ,
( short ) lp - > txRingSize ) ;
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}
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return ;
}
static void
de4x5_dbg_mii ( struct net_device * dev , int k )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
u_long iobase = dev - > base_addr ;
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if ( de4x5_debug & DEBUG_MII ) {
printk ( " \n MII device address: %d \n " , lp - > phy [ k ] . addr ) ;
printk ( " MII CR: %x \n " , mii_rd ( MII_CR , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
printk ( " MII SR: %x \n " , mii_rd ( MII_SR , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
printk ( " MII ID0: %x \n " , mii_rd ( MII_ID0 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
printk ( " MII ID1: %x \n " , mii_rd ( MII_ID1 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
if ( lp - > phy [ k ] . id ! = BROADCOM_T4 ) {
printk ( " MII ANA: %x \n " , mii_rd ( 0x04 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
printk ( " MII ANC: %x \n " , mii_rd ( 0x05 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
}
printk ( " MII 16: %x \n " , mii_rd ( 0x10 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
if ( lp - > phy [ k ] . id ! = BROADCOM_T4 ) {
printk ( " MII 17: %x \n " , mii_rd ( 0x11 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
printk ( " MII 18: %x \n " , mii_rd ( 0x12 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
} else {
printk ( " MII 20: %x \n " , mii_rd ( 0x14 , lp - > phy [ k ] . addr , DE4X5_MII ) ) ;
}
}
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return ;
}
static void
de4x5_dbg_media ( struct net_device * dev )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
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if ( lp - > media ! = lp - > c_media ) {
if ( de4x5_debug & DEBUG_MEDIA ) {
printk ( " %s: media is %s%s \n " , dev - > name ,
( lp - > media = = NC ? " unconnected, link down or incompatible connection " :
( lp - > media = = TP ? " TP " :
( lp - > media = = ANS ? " TP/Nway " :
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( lp - > media = = BNC ? " BNC " :
( lp - > media = = AUI ? " AUI " :
( lp - > media = = BNC_AUI ? " BNC/AUI " :
( lp - > media = = EXT_SIA ? " EXT SIA " :
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( lp - > media = = _100Mb ? " 100Mb/s " :
( lp - > media = = _10Mb ? " 10Mb/s " :
" ??? "
) ) ) ) ) ) ) ) ) , ( lp - > fdx ? " full duplex. " : " . " ) ) ;
}
lp - > c_media = lp - > media ;
}
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return ;
}
static void
de4x5_dbg_srom ( struct de4x5_srom * p )
{
int i ;
if ( de4x5_debug & DEBUG_SROM ) {
printk ( " Sub-system Vendor ID: %04x \n " , * ( ( u_short * ) p - > sub_vendor_id ) ) ;
printk ( " Sub-system ID: %04x \n " , * ( ( u_short * ) p - > sub_system_id ) ) ;
printk ( " ID Block CRC: %02x \n " , ( u_char ) ( p - > id_block_crc ) ) ;
printk ( " SROM version: %02x \n " , ( u_char ) ( p - > version ) ) ;
printk ( " # controllers: %02x \n " , ( u_char ) ( p - > num_controllers ) ) ;
printk ( " Hardware Address: " ) ;
for ( i = 0 ; i < ETH_ALEN - 1 ; i + + ) {
printk ( " %02x: " , ( u_char ) * ( p - > ieee_addr + i ) ) ;
}
printk ( " %02x \n " , ( u_char ) * ( p - > ieee_addr + i ) ) ;
printk ( " CRC checksum: %04x \n " , ( u_short ) ( p - > chksum ) ) ;
for ( i = 0 ; i < 64 ; i + + ) {
printk ( " %3d %04x \n " , i < < 1 , ( u_short ) * ( ( u_short * ) p + i ) ) ;
}
}
return ;
}
static void
de4x5_dbg_rx ( struct sk_buff * skb , int len )
{
int i , j ;
if ( de4x5_debug & DEBUG_RX ) {
printk ( " R: %02x:%02x:%02x:%02x:%02x:%02x <- %02x:%02x:%02x:%02x:%02x:%02x len/SAP:%02x%02x [%d] \n " ,
( u_char ) skb - > data [ 0 ] ,
( u_char ) skb - > data [ 1 ] ,
( u_char ) skb - > data [ 2 ] ,
( u_char ) skb - > data [ 3 ] ,
( u_char ) skb - > data [ 4 ] ,
( u_char ) skb - > data [ 5 ] ,
( u_char ) skb - > data [ 6 ] ,
( u_char ) skb - > data [ 7 ] ,
( u_char ) skb - > data [ 8 ] ,
( u_char ) skb - > data [ 9 ] ,
( u_char ) skb - > data [ 10 ] ,
( u_char ) skb - > data [ 11 ] ,
( u_char ) skb - > data [ 12 ] ,
( u_char ) skb - > data [ 13 ] ,
len ) ;
for ( j = 0 ; len > 0 ; j + = 16 , len - = 16 ) {
printk ( " %03x: " , j ) ;
for ( i = 0 ; i < 16 & & i < len ; i + + ) {
printk ( " %02x " , ( u_char ) skb - > data [ i + j ] ) ;
}
printk ( " \n " ) ;
}
}
return ;
}
/*
* * Perform IOCTL call functions here . Some are privileged operations and the
* * effective uid is checked in those cases . In the normal course of events
* * this function is only used for my testing .
*/
static int
de4x5_ioctl ( struct net_device * dev , struct ifreq * rq , int cmd )
{
struct de4x5_private * lp = netdev_priv ( dev ) ;
struct de4x5_ioctl * ioc = ( struct de4x5_ioctl * ) & rq - > ifr_ifru ;
u_long iobase = dev - > base_addr ;
int i , j , status = 0 ;
s32 omr ;
union {
u8 addr [ 144 ] ;
u16 sval [ 72 ] ;
u32 lval [ 36 ] ;
} tmp ;
u_long flags = 0 ;
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switch ( ioc - > cmd ) {
case DE4X5_GET_HWADDR : /* Get the hardware address */
ioc - > len = ETH_ALEN ;
for ( i = 0 ; i < ETH_ALEN ; i + + ) {
tmp . addr [ i ] = dev - > dev_addr [ i ] ;
}
if ( copy_to_user ( ioc - > data , tmp . addr , ioc - > len ) ) return - EFAULT ;
break ;
case DE4X5_SET_HWADDR : /* Set the hardware address */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
if ( copy_from_user ( tmp . addr , ioc - > data , ETH_ALEN ) ) return - EFAULT ;
if ( netif_queue_stopped ( dev ) )
return - EBUSY ;
netif_stop_queue ( dev ) ;
for ( i = 0 ; i < ETH_ALEN ; i + + ) {
dev - > dev_addr [ i ] = tmp . addr [ i ] ;
}
build_setup_frame ( dev , PHYS_ADDR_ONLY ) ;
/* Set up the descriptor and give ownership to the card */
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load_packet ( dev , lp - > setup_frame , TD_IC | PERFECT_F | TD_SET |
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SETUP_FRAME_LEN , ( struct sk_buff * ) 1 ) ;
lp - > tx_new = ( + + lp - > tx_new ) % lp - > txRingSize ;
outl ( POLL_DEMAND , DE4X5_TPD ) ; /* Start the TX */
netif_wake_queue ( dev ) ; /* Unlock the TX ring */
break ;
case DE4X5_SET_PROM : /* Set Promiscuous Mode */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
omr = inl ( DE4X5_OMR ) ;
omr | = OMR_PR ;
outl ( omr , DE4X5_OMR ) ;
dev - > flags | = IFF_PROMISC ;
break ;
case DE4X5_CLR_PROM : /* Clear Promiscuous Mode */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
omr = inl ( DE4X5_OMR ) ;
omr & = ~ OMR_PR ;
outl ( omr , DE4X5_OMR ) ;
dev - > flags & = ~ IFF_PROMISC ;
break ;
case DE4X5_SAY_BOO : /* Say "Boo!" to the kernel log file */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
printk ( " %s: Boo! \n " , dev - > name ) ;
break ;
case DE4X5_MCA_EN : /* Enable pass all multicast addressing */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
omr = inl ( DE4X5_OMR ) ;
omr | = OMR_PM ;
outl ( omr , DE4X5_OMR ) ;
break ;
case DE4X5_GET_STATS : /* Get the driver statistics */
{
struct pkt_stats statbuf ;
ioc - > len = sizeof ( statbuf ) ;
spin_lock_irqsave ( & lp - > lock , flags ) ;
memcpy ( & statbuf , & lp - > pktStats , ioc - > len ) ;
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
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if ( copy_to_user ( ioc - > data , & statbuf , ioc - > len ) )
return - EFAULT ;
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break ;
}
case DE4X5_CLR_STATS : /* Zero out the driver statistics */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
spin_lock_irqsave ( & lp - > lock , flags ) ;
memset ( & lp - > pktStats , 0 , sizeof ( lp - > pktStats ) ) ;
spin_unlock_irqrestore ( & lp - > lock , flags ) ;
break ;
case DE4X5_GET_OMR : /* Get the OMR Register contents */
tmp . addr [ 0 ] = inl ( DE4X5_OMR ) ;
if ( copy_to_user ( ioc - > data , tmp . addr , 1 ) ) return - EFAULT ;
break ;
case DE4X5_SET_OMR : /* Set the OMR Register contents */
if ( ! capable ( CAP_NET_ADMIN ) ) return - EPERM ;
if ( copy_from_user ( tmp . addr , ioc - > data , 1 ) ) return - EFAULT ;
outl ( tmp . addr [ 0 ] , DE4X5_OMR ) ;
break ;
case DE4X5_GET_REG : /* Get the DE4X5 Registers */
j = 0 ;
tmp . lval [ 0 ] = inl ( DE4X5_STS ) ; j + = 4 ;
tmp . lval [ 1 ] = inl ( DE4X5_BMR ) ; j + = 4 ;
tmp . lval [ 2 ] = inl ( DE4X5_IMR ) ; j + = 4 ;
tmp . lval [ 3 ] = inl ( DE4X5_OMR ) ; j + = 4 ;
tmp . lval [ 4 ] = inl ( DE4X5_SISR ) ; j + = 4 ;
tmp . lval [ 5 ] = inl ( DE4X5_SICR ) ; j + = 4 ;
tmp . lval [ 6 ] = inl ( DE4X5_STRR ) ; j + = 4 ;
tmp . lval [ 7 ] = inl ( DE4X5_SIGR ) ; j + = 4 ;
ioc - > len = j ;
if ( copy_to_user ( ioc - > data , tmp . addr , ioc - > len ) ) return - EFAULT ;
break ;
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# define DE4X5_DUMP 0x0f /* Dump the DE4X5 Status */
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/*
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case DE4X5_DUMP :
j = 0 ;
tmp . addr [ j + + ] = dev - > irq ;
for ( i = 0 ; i < ETH_ALEN ; i + + ) {
tmp . addr [ j + + ] = dev - > dev_addr [ i ] ;
}
tmp . addr [ j + + ] = lp - > rxRingSize ;
tmp . lval [ j > > 2 ] = ( long ) lp - > rx_ring ; j + = 4 ;
tmp . lval [ j > > 2 ] = ( long ) lp - > tx_ring ; j + = 4 ;
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for ( i = 0 ; i < lp - > rxRingSize - 1 ; i + + ) {
if ( i < 3 ) {
tmp . lval [ j > > 2 ] = ( long ) & lp - > rx_ring [ i ] . status ; j + = 4 ;
}
}
tmp . lval [ j > > 2 ] = ( long ) & lp - > rx_ring [ i ] . status ; j + = 4 ;
for ( i = 0 ; i < lp - > txRingSize - 1 ; i + + ) {
if ( i < 3 ) {
tmp . lval [ j > > 2 ] = ( long ) & lp - > tx_ring [ i ] . status ; j + = 4 ;
}
}
tmp . lval [ j > > 2 ] = ( long ) & lp - > tx_ring [ i ] . status ; j + = 4 ;
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for ( i = 0 ; i < lp - > rxRingSize - 1 ; i + + ) {
if ( i < 3 ) {
tmp . lval [ j > > 2 ] = ( s32 ) le32_to_cpu ( lp - > rx_ring [ i ] . buf ) ; j + = 4 ;
}
}
tmp . lval [ j > > 2 ] = ( s32 ) le32_to_cpu ( lp - > rx_ring [ i ] . buf ) ; j + = 4 ;
for ( i = 0 ; i < lp - > txRingSize - 1 ; i + + ) {
if ( i < 3 ) {
tmp . lval [ j > > 2 ] = ( s32 ) le32_to_cpu ( lp - > tx_ring [ i ] . buf ) ; j + = 4 ;
}
}
tmp . lval [ j > > 2 ] = ( s32 ) le32_to_cpu ( lp - > tx_ring [ i ] . buf ) ; j + = 4 ;
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for ( i = 0 ; i < lp - > rxRingSize ; i + + ) {
tmp . lval [ j > > 2 ] = le32_to_cpu ( lp - > rx_ring [ i ] . status ) ; j + = 4 ;
}
for ( i = 0 ; i < lp - > txRingSize ; i + + ) {
tmp . lval [ j > > 2 ] = le32_to_cpu ( lp - > tx_ring [ i ] . status ) ; j + = 4 ;
}
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tmp . lval [ j > > 2 ] = inl ( DE4X5_BMR ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_TPD ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_RPD ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_RRBA ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_TRBA ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_STS ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_OMR ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_IMR ) ; j + = 4 ;
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tmp . lval [ j > > 2 ] = lp - > chipset ; j + = 4 ;
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if ( lp - > chipset = = DC21140 ) {
tmp . lval [ j > > 2 ] = gep_rd ( dev ) ; j + = 4 ;
} else {
tmp . lval [ j > > 2 ] = inl ( DE4X5_SISR ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_SICR ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = inl ( DE4X5_STRR ) ; j + = 4 ;
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tmp . lval [ j > > 2 ] = inl ( DE4X5_SIGR ) ; j + = 4 ;
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}
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tmp . lval [ j > > 2 ] = lp - > phy [ lp - > active ] . id ; j + = 4 ;
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if ( lp - > phy [ lp - > active ] . id & & ( ! lp - > useSROM | | lp - > useMII ) ) {
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tmp . lval [ j > > 2 ] = lp - > active ; j + = 4 ;
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tmp . lval [ j > > 2 ] = mii_rd ( MII_CR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = mii_rd ( MII_SR , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = mii_rd ( MII_ID0 , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = mii_rd ( MII_ID1 , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
if ( lp - > phy [ lp - > active ] . id ! = BROADCOM_T4 ) {
tmp . lval [ j > > 2 ] = mii_rd ( MII_ANA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = mii_rd ( MII_ANLPA , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
}
tmp . lval [ j > > 2 ] = mii_rd ( 0x10 , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
if ( lp - > phy [ lp - > active ] . id ! = BROADCOM_T4 ) {
tmp . lval [ j > > 2 ] = mii_rd ( 0x11 , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
tmp . lval [ j > > 2 ] = mii_rd ( 0x12 , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
} else {
tmp . lval [ j > > 2 ] = mii_rd ( 0x14 , lp - > phy [ lp - > active ] . addr , DE4X5_MII ) ; j + = 4 ;
}
}
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tmp . addr [ j + + ] = lp - > txRingSize ;
tmp . addr [ j + + ] = netif_queue_stopped ( dev ) ;
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ioc - > len = j ;
if ( copy_to_user ( ioc - > data , tmp . addr , ioc - > len ) ) return - EFAULT ;
break ;
*/
default :
return - EOPNOTSUPP ;
}
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return status ;
}
static int __init de4x5_module_init ( void )
{
int err = 0 ;
# ifdef CONFIG_PCI
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err = pci_register_driver ( & de4x5_pci_driver ) ;
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# endif
# ifdef CONFIG_EISA
err | = eisa_driver_register ( & de4x5_eisa_driver ) ;
# endif
return err ;
}
static void __exit de4x5_module_exit ( void )
{
# ifdef CONFIG_PCI
pci_unregister_driver ( & de4x5_pci_driver ) ;
# endif
# ifdef CONFIG_EISA
eisa_driver_unregister ( & de4x5_eisa_driver ) ;
# endif
}
module_init ( de4x5_module_init ) ;
module_exit ( de4x5_module_exit ) ;