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/*
* * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* *
* * Perle Specialix driver for Linux
* * Ported from existing RIO Driver for SCO sources .
*
* ( C ) 1990 - 2000 Specialix International Ltd . , Byfleet , Surrey , UK .
*
* This program is free software ; you can redistribute it and / or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation ; either version 2 of the License , or
* ( at your option ) any later version .
*
* This program is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
* GNU General Public License for more details .
*
* You should have received a copy of the GNU General Public License
* along with this program ; if not , write to the Free Software
* Foundation , Inc . , 675 Mass Ave , Cambridge , MA 0213 9 , USA .
* *
* * Module : rioboot . c
* * SID : 1.3
* * Last Modified : 11 / 6 / 98 10 : 33 : 36
* * Retrieved : 11 / 6 / 98 10 : 33 : 48
* *
* * ident @ ( # ) rioboot . c 1.3
* *
* * - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
*/
# ifdef SCCS_LABELS
static char * _rioboot_c_sccs_ = " @(#)rioboot.c 1.3 " ;
# endif
# include <linux/module.h>
# include <linux/slab.h>
# include <linux/errno.h>
# include <linux/interrupt.h>
# include <asm/io.h>
# include <asm/system.h>
# include <asm/string.h>
# include <asm/semaphore.h>
# include <linux/termios.h>
# include <linux/serial.h>
# include <linux/generic_serial.h>
# include "linux_compat.h"
# include "rio_linux.h"
# include "typdef.h"
# include "pkt.h"
# include "daemon.h"
# include "rio.h"
# include "riospace.h"
# include "top.h"
# include "cmdpkt.h"
# include "map.h"
# include "riotypes.h"
# include "rup.h"
# include "port.h"
# include "riodrvr.h"
# include "rioinfo.h"
# include "func.h"
# include "errors.h"
# include "pci.h"
# include "parmmap.h"
# include "unixrup.h"
# include "board.h"
# include "host.h"
# include "error.h"
# include "phb.h"
# include "link.h"
# include "cmdblk.h"
# include "route.h"
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static int RIOBootComplete ( struct rio_info * p , struct Host * HostP , uint Rup , struct PktCmd * PktCmdP ) ;
static uchar RIOAtVec2Ctrl [ ] = {
/* 0 */ INTERRUPT_DISABLE ,
/* 1 */ INTERRUPT_DISABLE ,
/* 2 */ INTERRUPT_DISABLE ,
/* 3 */ INTERRUPT_DISABLE ,
/* 4 */ INTERRUPT_DISABLE ,
/* 5 */ INTERRUPT_DISABLE ,
/* 6 */ INTERRUPT_DISABLE ,
/* 7 */ INTERRUPT_DISABLE ,
/* 8 */ INTERRUPT_DISABLE ,
/* 9 */ IRQ_9 | INTERRUPT_ENABLE ,
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/* 10 */ INTERRUPT_DISABLE ,
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/* 11 */ IRQ_11 | INTERRUPT_ENABLE ,
/* 12 */ IRQ_12 | INTERRUPT_ENABLE ,
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/* 13 */ INTERRUPT_DISABLE ,
/* 14 */ INTERRUPT_DISABLE ,
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/* 15 */ IRQ_15 | INTERRUPT_ENABLE
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} ;
/*
* * Load in the RTA boot code .
*/
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int RIOBootCodeRTA ( p , rbp )
struct rio_info * p ;
struct DownLoad * rbp ;
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{
int offset ;
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func_enter ( ) ;
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/* Linux doesn't allow you to disable interrupts during a
" copyin " . ( Crash when a pagefault occurs ) . */
/* disable(oldspl); */
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rio_dprintk ( RIO_DEBUG_BOOT , " Data at user address 0x%x \n " , ( int ) rbp - > DataP ) ;
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/*
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* * Check that we have set asside enough memory for this
*/
if ( rbp - > Count > SIXTY_FOUR_K ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RTA Boot Code Too Large! \n " ) ;
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p - > RIOError . Error = HOST_FILE_TOO_LARGE ;
/* restore(oldspl); */
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func_exit ( ) ;
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return - ENOMEM ;
}
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if ( p - > RIOBooting ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RTA Boot Code : BUSY BUSY BUSY! \n " ) ;
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p - > RIOError . Error = BOOT_IN_PROGRESS ;
/* restore(oldspl); */
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func_exit ( ) ;
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return - EBUSY ;
}
/*
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* * The data we load in must end on a ( RTA_BOOT_DATA_SIZE ) byte boundary ,
* * so calculate how far we have to move the data up the buffer
* * to achieve this .
*/
offset = ( RTA_BOOT_DATA_SIZE - ( rbp - > Count % RTA_BOOT_DATA_SIZE ) ) % RTA_BOOT_DATA_SIZE ;
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/*
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* * Be clean , and clear the ' unused ' portion of the boot buffer ,
* * because it will ( eventually ) be part of the Rta run time environment
* * and so should be zeroed .
*/
bzero ( ( caddr_t ) p - > RIOBootPackets , offset ) ;
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/*
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* * Copy the data from user space .
*/
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if ( copyin ( ( int ) rbp - > DataP , ( ( caddr_t ) ( p - > RIOBootPackets ) ) + offset , rbp - > Count ) = = COPYFAIL ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Bad data copy from user space \n " ) ;
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p - > RIOError . Error = COPYIN_FAILED ;
/* restore(oldspl); */
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func_exit ( ) ;
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return - EFAULT ;
}
/*
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* * Make sure that our copy of the size includes that offset we discussed
* * earlier .
*/
p - > RIONumBootPkts = ( rbp - > Count + offset ) / RTA_BOOT_DATA_SIZE ;
p - > RIOBootCount = rbp - > Count ;
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/* restore(oldspl); */
func_exit ( ) ;
return 0 ;
}
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void rio_start_card_running ( struct Host * HostP )
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{
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func_enter ( ) ;
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switch ( HostP - > Type ) {
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case RIO_AT :
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rio_dprintk ( RIO_DEBUG_BOOT , " Start ISA card running \n " ) ;
WBYTE ( HostP - > Control , BOOT_FROM_RAM | EXTERNAL_BUS_ON | HostP - > Mode | RIOAtVec2Ctrl [ HostP - > Ivec & 0xF ] ) ;
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break ;
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# ifdef FUTURE_RELEASE
case RIO_MCA :
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/*
* * MCA handles IRQ vectors differently , so we don ' t write
* * them to this register .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Start MCA card running \n " ) ;
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WBYTE ( HostP - > Control , McaTpBootFromRam | McaTpBusEnable | HostP - > Mode ) ;
break ;
case RIO_EISA :
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/*
* * EISA is totally different and expects OUTBZs to turn it on .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Start EISA card running \n " ) ;
OUTBZ ( HostP - > Slot , EISA_CONTROL_PORT , HostP - > Mode | RIOEisaVec2Ctrl [ HostP - > Ivec ] | EISA_TP_RUN | EISA_TP_BUS_ENABLE | EISA_TP_BOOT_FROM_RAM ) ;
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break ;
# endif
case RIO_PCI :
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/*
* * PCI is much the same as MCA . Everything is once again memory
* * mapped , so we are writing to memory registers instead of io
* * ports .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Start PCI card running \n " ) ;
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WBYTE ( HostP - > Control , PCITpBootFromRam | PCITpBusEnable | HostP - > Mode ) ;
break ;
default :
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rio_dprintk ( RIO_DEBUG_BOOT , " Unknown host type %d \n " , HostP - > Type ) ;
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break ;
}
/*
printk ( KERN_INFO " Done with starting the card \n " ) ;
func_exit ( ) ;
*/
return ;
}
/*
* * Load in the host boot code - load it directly onto all halted hosts
* * of the correct type .
* *
* * Put your rubber pants on before messing with this code - even the magic
* * numbers have trouble understanding what they are doing here .
*/
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int RIOBootCodeHOST ( p , rbp )
struct rio_info * p ;
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register struct DownLoad * rbp ;
{
register struct Host * HostP ;
register caddr_t Cad ;
register PARM_MAP * ParmMapP ;
register int RupN ;
int PortN ;
uint host ;
caddr_t StartP ;
BYTE * DestP ;
int wait_count ;
ushort OldParmMap ;
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ushort offset ; /* It is very important that this is a ushort */
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/* uint byte; */
caddr_t DownCode = NULL ;
unsigned long flags ;
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HostP = NULL ; /* Assure the compiler we've initialized it */
for ( host = 0 ; host < p - > RIONumHosts ; host + + ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Attempt to boot host %d \n " , host ) ;
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HostP = & p - > RIOHosts [ host ] ;
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rio_dprintk ( RIO_DEBUG_BOOT , " Host Type = 0x%x, Mode = 0x%x, IVec = 0x%x \n " , HostP - > Type , HostP - > Mode , HostP - > Ivec ) ;
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if ( ( HostP - > Flags & RUN_STATE ) ! = RC_WAITING ) {
rio_dprintk ( RIO_DEBUG_BOOT , " %s %d already running \n " , " Host " , host ) ;
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continue ;
}
/*
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* * Grab a 32 bit pointer to the card .
*/
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Cad = HostP - > Caddr ;
/*
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* * We are going to ( try ) and load in rbp - > Count bytes .
* * The last byte will reside at p - > RIOConf . HostLoadBase - 1 ;
* * Therefore , we need to start copying at address
* * ( caddr + p - > RIOConf . HostLoadBase - rbp - > Count )
*/
StartP = ( caddr_t ) & Cad [ p - > RIOConf . HostLoadBase - rbp - > Count ] ;
rio_dprintk ( RIO_DEBUG_BOOT , " kernel virtual address for host is 0x%x \n " , ( int ) Cad ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " kernel virtual address for download is 0x%x \n " , ( int ) StartP ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " host loadbase is 0x%x \n " , p - > RIOConf . HostLoadBase ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " size of download is 0x%x \n " , rbp - > Count ) ;
if ( p - > RIOConf . HostLoadBase < rbp - > Count ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Bin too large \n " ) ;
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p - > RIOError . Error = HOST_FILE_TOO_LARGE ;
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func_exit ( ) ;
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return - EFBIG ;
}
/*
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* * Ensure that the host really is stopped .
* * Disable it ' s external bus & twang its reset line .
*/
RIOHostReset ( HostP - > Type , ( struct DpRam * ) HostP - > CardP , HostP - > Slot ) ;
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/*
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* * Copy the data directly from user space to the SRAM .
* * This ain ' t going to be none too clever if the download
* * code is bigger than this segment .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Copy in code \n " ) ;
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/*
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* * PCI hostcard can ' t cope with 32 bit accesses and so need to copy
* * data to a local buffer , and then dripfeed the card .
*/
if ( HostP - > Type = = RIO_PCI ) {
/* int offset; */
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DownCode = sysbrk ( rbp - > Count ) ;
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if ( ! DownCode ) {
rio_dprintk ( RIO_DEBUG_BOOT , " No system memory available \n " ) ;
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p - > RIOError . Error = NOT_ENOUGH_CORE_FOR_PCI_COPY ;
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func_exit ( ) ;
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return - ENOMEM ;
}
bzero ( DownCode , rbp - > Count ) ;
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if ( copyin ( ( int ) rbp - > DataP , DownCode , rbp - > Count ) = = COPYFAIL ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Bad copyin of host data \n " ) ;
sysfree ( DownCode , rbp - > Count ) ;
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p - > RIOError . Error = COPYIN_FAILED ;
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func_exit ( ) ;
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return - EFAULT ;
}
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HostP - > Copy ( DownCode , StartP , rbp - > Count ) ;
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sysfree ( DownCode , rbp - > Count ) ;
} else if ( copyin ( ( int ) rbp - > DataP , StartP , rbp - > Count ) = = COPYFAIL ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Bad copyin of host data \n " ) ;
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p - > RIOError . Error = COPYIN_FAILED ;
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func_exit ( ) ;
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return - EFAULT ;
}
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rio_dprintk ( RIO_DEBUG_BOOT , " Copy completed \n " ) ;
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/*
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* * S T O P !
* *
* * Upto this point the code has been fairly rational , and possibly
* * even straight forward . What follows is a pile of crud that will
* * magically turn into six bytes of transputer assembler . Normally
* * you would expect an array or something , but , being me , I have
* * chosen [ been told ] to use a technique whereby the startup code
* * will be correct if we change the loadbase for the code . Which
* * brings us onto another issue - the loadbase is the * end * of the
* * code , not the start .
* *
* * If I were you I wouldn ' t start from here .
*/
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/*
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* * We now need to insert a short boot section into
* * the memory at the end of Sram2 . This is normally ( de ) composed
* * of the last eight bytes of the download code . The
* * download has been assembled / compiled to expect to be
* * loaded from 0x7FFF downwards . We have loaded it
* * at some other address . The startup code goes into the small
* * ram window at Sram2 , in the last 8 bytes , which are really
* * at addresses 0x7FF8 - 0x7FFF .
* *
* * If the loadbase is , say , 0x7C00 , then we need to branch to
* * address 0x7BFE to run the host . bin startup code . We assemble
* * this jump manually .
* *
* * The two byte sequence 60 08 is loaded into memory at address
* * 0x7FFE , F . This is a local branch to location 0x7FF8 ( 60 is nfix 0 ,
* * which adds ' 0 ' to the . O register , complements . O , and then shifts
* * it left by 4 bit positions , 08 is a jump . O + 8 instruction . This will
* * add 8 to . O ( which was 0xFFF0 ) , and will branch RELATIVE to the new
* * location . Now , the branch starts from the value of . PC ( or . IP or
* * whatever the bloody register is called on this chip ) , and the . PC
* * will be pointing to the location AFTER the branch , in this case
* * . PC = = 0x8000 , so the branch will be to 0x8000 + 0xFFF8 = 0x7FF8 .
* *
* * A long branch is coded at 0x7FF8 . This consists of loading a four
* * byte offset into . O using nfix ( as above ) and pfix operators . The
* * pfix operates in exactly the same way as the nfix operator , but
* * without the complement operation . The offset , of course , must be
* * relative to the address of the byte AFTER the branch instruction ,
* * which will be ( urm ) 0x7FFC , so , our final destination of the branch
* * ( loadbase - 2 ) , has to be reached from here . Imagine that the loadbase
* * is 0x7C00 ( which it is ) , then we will need to branch to 0x7BFE ( which
* * is the first byte of the initial two byte short local branch of the
* * download code ) .
* *
* * To code a jump from 0x7FFC ( which is where the branch will start
* * from ) to 0x7BFE , we will need to branch 0xFC02 bytes ( 0x7FFC + 0xFC02 ) =
* * 0x7BFE .
* * This will be coded as four bytes :
* * 60 2 C 20 02
* * being nfix . O + 0
* * pfix . O + C
* * pfix . O + 0
* * jump . O + 2
* *
* * The nfix operator is used , so that the startup code will be
* * compatible with the whole Tp family . ( lies , damn lies , it ' ll never
* * work in a month of Sundays ) .
* *
* * The nfix nyble is the 1 s complement of the nyble value you
* * want to load - in this case we wanted ' F ' so we nfix loaded ' 0 ' .
*/
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/*
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* * Dest points to the top 8 bytes of Sram2 . The Tp jumps
* * to 0x7FFE at reset time , and starts executing . This is
* * a short branch to 0x7FF8 , where a long branch is coded .
*/
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DestP = ( BYTE * ) & Cad [ 0x7FF8 ] ; /* <<<---- READ THE ABOVE COMMENTS */
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# define NFIX(N) (0x60 | (N)) /* .O = (~(.O + N))<<4 */
# define PFIX(N) (0x20 | (N)) /* .O = (.O + N)<<4 */
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# define JUMP(N) (0x00 | (N)) /* .PC = .PC + .O */
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/*
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* * 0x7FFC is the address of the location following the last byte of
* * the four byte jump instruction .
* * READ THE ABOVE COMMENTS
* *
* * offset is ( TO - FROM ) % MEMSIZE , but with compound buggering about .
* * Memsize is 64 K for this range of Tp , so offset is a short ( unsigned ,
* * cos I don ' t understand 2 ' s complement ) .
*/
offset = ( p - > RIOConf . HostLoadBase - 2 ) - 0x7FFC ;
WBYTE ( DestP [ 0 ] , NFIX ( ( ( ushort ) ( ~ offset ) > > ( ushort ) 12 ) & 0xF ) ) ;
WBYTE ( DestP [ 1 ] , PFIX ( ( offset > > 8 ) & 0xF ) ) ;
WBYTE ( DestP [ 2 ] , PFIX ( ( offset > > 4 ) & 0xF ) ) ;
WBYTE ( DestP [ 3 ] , JUMP ( offset & 0xF ) ) ;
WBYTE ( DestP [ 6 ] , NFIX ( 0 ) ) ;
WBYTE ( DestP [ 7 ] , JUMP ( 8 ) ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " host loadbase is 0x%x \n " , p - > RIOConf . HostLoadBase ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " startup offset is 0x%x \n " , offset ) ;
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/*
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* * Flag what is going on
*/
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HostP - > Flags & = ~ RUN_STATE ;
HostP - > Flags | = RC_STARTUP ;
/*
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* * Grab a copy of the current ParmMap pointer , so we
* * can tell when it has changed .
*/
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OldParmMap = RWORD ( HostP - > __ParmMapR ) ;
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rio_dprintk ( RIO_DEBUG_BOOT , " Original parmmap is 0x%x \n " , OldParmMap ) ;
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/*
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* * And start it running ( I hope ) .
* * As there is nothing dodgy or obscure about the
* * above code , this is guaranteed to work every time .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Host Type = 0x%x, Mode = 0x%x, IVec = 0x%x \n " , HostP - > Type , HostP - > Mode , HostP - > Ivec ) ;
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rio_start_card_running ( HostP ) ;
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rio_dprintk ( RIO_DEBUG_BOOT , " Set control port \n " ) ;
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/*
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* * Now , wait for upto five seconds for the Tp to setup the parmmap
* * pointer :
*/
for ( wait_count = 0 ; ( wait_count < p - > RIOConf . StartupTime ) & & ( RWORD ( HostP - > __ParmMapR ) = = OldParmMap ) ; wait_count + + ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Checkout %d, 0x%x \n " , wait_count , RWORD ( HostP - > __ParmMapR ) ) ;
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delay ( HostP , HUNDRED_MS ) ;
}
/*
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* * If the parmmap pointer is unchanged , then the host code
* * has crashed & burned in a really spectacular way
*/
if ( RWORD ( HostP - > __ParmMapR ) = = OldParmMap ) {
rio_dprintk ( RIO_DEBUG_BOOT , " parmmap 0x%x \n " , RWORD ( HostP - > __ParmMapR ) ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " RIO Mesg Run Fail \n " ) ;
HostP - > Flags & = ~ RUN_STATE ;
HostP - > Flags | = RC_STUFFED ;
RIOHostReset ( HostP - > Type , ( struct DpRam * ) HostP - > CardP , HostP - > Slot ) ;
continue }
rio_dprintk ( RIO_DEBUG_BOOT , " Running 0x%x \n " , RWORD ( HostP - > __ParmMapR ) ) ;
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/*
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* * Well , the board thought it was OK , and setup its parmmap
* * pointer . For the time being , we will pretend that this
* * board is running , and check out what the error flag says .
*/
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/*
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* * Grab a 32 bit pointer to the parmmap structure
*/
ParmMapP = ( PARM_MAP * ) RIO_PTR ( Cad , RWORD ( HostP - > __ParmMapR ) ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " ParmMapP : %x \n " , ( int ) ParmMapP ) ;
ParmMapP = ( PARM_MAP * ) ( ( unsigned long ) Cad + ( unsigned long ) ( ( RWORD ( ( HostP - > __ParmMapR ) ) ) & 0xFFFF ) ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " ParmMapP : %x \n " , ( int ) ParmMapP ) ;
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/*
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* * The links entry should be 0xFFFF ; we set it up
* * with a mask to say how many PHBs to use , and
* * which links to use .
*/
if ( ( RWORD ( ParmMapP - > links ) & 0xFFFF ) ! = 0xFFFF ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RIO Mesg Run Fail %s \n " , HostP - > Name ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " Links = 0x%x \n " , RWORD ( ParmMapP - > links ) ) ;
HostP - > Flags & = ~ RUN_STATE ;
HostP - > Flags | = RC_STUFFED ;
RIOHostReset ( HostP - > Type , ( struct DpRam * ) HostP - > CardP , HostP - > Slot ) ;
continue }
WWORD ( ParmMapP - > links , RIO_LINK_ENABLE ) ;
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/*
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* * now wait for the card to set all the parmmap - > XXX stuff
* * this is a wait of upto two seconds . . . .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Looking for init_done - %d ticks \n " , p - > RIOConf . StartupTime ) ;
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HostP - > timeout_id = 0 ;
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for ( wait_count = 0 ; ( wait_count < p - > RIOConf . StartupTime ) & & ! RWORD ( ParmMapP - > init_done ) ; wait_count + + ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Waiting for init_done \n " ) ;
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delay ( HostP , HUNDRED_MS ) ;
}
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rio_dprintk ( RIO_DEBUG_BOOT , " OK! init_done! \n " ) ;
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if ( RWORD ( ParmMapP - > error ) ! = E_NO_ERROR | | ! RWORD ( ParmMapP - > init_done ) ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RIO Mesg Run Fail %s \n " , HostP - > Name ) ;
rio_dprintk ( RIO_DEBUG_BOOT , " Timedout waiting for init_done \n " ) ;
HostP - > Flags & = ~ RUN_STATE ;
HostP - > Flags | = RC_STUFFED ;
RIOHostReset ( HostP - > Type , ( struct DpRam * ) HostP - > CardP , HostP - > Slot ) ;
continue }
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rio_dprintk ( RIO_DEBUG_BOOT , " Got init_done \n " ) ;
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/*
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* * It runs ! It runs !
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Host ID %x Running \n " , HostP - > UniqueNum ) ;
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/*
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* * set the time period between interrupts .
*/
WWORD ( ParmMapP - > timer , ( short ) p - > RIOConf . Timer ) ;
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/*
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* * Translate all the 16 bit pointers in the __ParmMapR into
* * 32 bit pointers for the driver .
*/
HostP - > ParmMapP = ParmMapP ;
HostP - > PhbP = ( PHB * ) RIO_PTR ( Cad , RWORD ( ParmMapP - > phb_ptr ) ) ;
HostP - > RupP = ( RUP * ) RIO_PTR ( Cad , RWORD ( ParmMapP - > rups ) ) ;
HostP - > PhbNumP = ( ushort * ) RIO_PTR ( Cad , RWORD ( ParmMapP - > phb_num_ptr ) ) ;
HostP - > LinkStrP = ( LPB * ) RIO_PTR ( Cad , RWORD ( ParmMapP - > link_str_ptr ) ) ;
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/*
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* * point the UnixRups at the real Rups
*/
for ( RupN = 0 ; RupN < MAX_RUP ; RupN + + ) {
HostP - > UnixRups [ RupN ] . RupP = & HostP - > RupP [ RupN ] ;
HostP - > UnixRups [ RupN ] . Id = RupN + 1 ;
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HostP - > UnixRups [ RupN ] . BaseSysPort = NO_PORT ;
spin_lock_init ( & HostP - > UnixRups [ RupN ] . RupLock ) ;
}
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for ( RupN = 0 ; RupN < LINKS_PER_UNIT ; RupN + + ) {
HostP - > UnixRups [ RupN + MAX_RUP ] . RupP = & HostP - > LinkStrP [ RupN ] . rup ;
HostP - > UnixRups [ RupN + MAX_RUP ] . Id = 0 ;
HostP - > UnixRups [ RupN + MAX_RUP ] . BaseSysPort = NO_PORT ;
spin_lock_init ( & HostP - > UnixRups [ RupN + MAX_RUP ] . RupLock ) ;
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}
/*
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* * point the PortP - > Phbs at the real Phbs
*/
for ( PortN = p - > RIOFirstPortsMapped ; PortN < p - > RIOLastPortsMapped + PORTS_PER_RTA ; PortN + + ) {
if ( p - > RIOPortp [ PortN ] - > HostP = = HostP ) {
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struct Port * PortP = p - > RIOPortp [ PortN ] ;
struct PHB * PhbP ;
/* int oldspl; */
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if ( ! PortP - > Mapped )
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continue ;
PhbP = & HostP - > PhbP [ PortP - > HostPort ] ;
rio_spin_lock_irqsave ( & PortP - > portSem , flags ) ;
PortP - > PhbP = PhbP ;
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PortP - > TxAdd = ( WORD * ) RIO_PTR ( Cad , RWORD ( PhbP - > tx_add ) ) ;
PortP - > TxStart = ( WORD * ) RIO_PTR ( Cad , RWORD ( PhbP - > tx_start ) ) ;
PortP - > TxEnd = ( WORD * ) RIO_PTR ( Cad , RWORD ( PhbP - > tx_end ) ) ;
PortP - > RxRemove = ( WORD * ) RIO_PTR ( Cad , RWORD ( PhbP - > rx_remove ) ) ;
PortP - > RxStart = ( WORD * ) RIO_PTR ( Cad , RWORD ( PhbP - > rx_start ) ) ;
PortP - > RxEnd = ( WORD * ) RIO_PTR ( Cad , RWORD ( PhbP - > rx_end ) ) ;
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rio_spin_unlock_irqrestore ( & PortP - > portSem , flags ) ;
/*
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* * point the UnixRup at the base SysPort
*/
if ( ! ( PortN % PORTS_PER_RTA ) )
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HostP - > UnixRups [ PortP - > RupNum ] . BaseSysPort = PortN ;
}
}
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rio_dprintk ( RIO_DEBUG_BOOT , " Set the card running... \n " ) ;
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/*
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* * last thing - show the world that everything is in place
*/
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HostP - > Flags & = ~ RUN_STATE ;
HostP - > Flags | = RC_RUNNING ;
}
/*
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* * MPX always uses a poller . This is actually patched into the system
* * configuration and called directly from each clock tick .
* *
*/
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p - > RIOPolling = 1 ;
p - > RIOSystemUp + + ;
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rio_dprintk ( RIO_DEBUG_BOOT , " Done everything %x \n " , HostP - > Ivec ) ;
func_exit ( ) ;
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return 0 ;
}
/*
* * Boot an RTA . If we have successfully processed this boot , then
* * return 1. If we havent , then return 0.
*/
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int RIOBootRup ( p , Rup , HostP , PacketP )
struct rio_info * p ;
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uint Rup ;
struct Host * HostP ;
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struct PKT * PacketP ;
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{
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struct PktCmd * PktCmdP = ( struct PktCmd * ) PacketP - > data ;
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struct PktCmd_M * PktReplyP ;
struct CmdBlk * CmdBlkP ;
uint sequence ;
/*
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* * If we haven ' t been told what to boot , we can ' t boot it .
*/
if ( p - > RIONumBootPkts = = 0 ) {
rio_dprintk ( RIO_DEBUG_BOOT , " No RTA code to download yet \n " ) ;
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return 0 ;
}
/* rio_dprint(RIO_DEBUG_BOOT, NULL,DBG_BOOT,"Incoming command packet\n"); */
/* ShowPacket( DBG_BOOT, PacketP ); */
/*
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* * Special case of boot completed - if we get one of these then we
* * don ' t need a command block . For all other cases we do , so handle
* * this first and then get a command block , then handle every other
* * case , relinquishing the command block if disaster strikes !
*/
if ( ( RBYTE ( PacketP - > len ) & PKT_CMD_BIT ) & & ( RBYTE ( PktCmdP - > Command ) = = BOOT_COMPLETED ) )
return RIOBootComplete ( p , HostP , Rup , PktCmdP ) ;
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/*
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* * try to unhook a command block from the command free list .
*/
if ( ! ( CmdBlkP = RIOGetCmdBlk ( ) ) ) {
rio_dprintk ( RIO_DEBUG_BOOT , " No command blocks to boot RTA! come back later. \n " ) ;
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return 0 ;
}
/*
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* * Fill in the default info on the command block
*/
CmdBlkP - > Packet . dest_unit = Rup < ( ushort ) MAX_RUP ? Rup : 0 ;
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CmdBlkP - > Packet . dest_port = BOOT_RUP ;
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CmdBlkP - > Packet . src_unit = 0 ;
CmdBlkP - > Packet . src_port = BOOT_RUP ;
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CmdBlkP - > PreFuncP = CmdBlkP - > PostFuncP = NULL ;
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PktReplyP = ( struct PktCmd_M * ) CmdBlkP - > Packet . data ;
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/*
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* * process COMMANDS on the boot rup !
*/
if ( RBYTE ( PacketP - > len ) & PKT_CMD_BIT ) {
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/*
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* * We only expect one type of command - a BOOT_REQUEST !
*/
if ( RBYTE ( PktCmdP - > Command ) ! = BOOT_REQUEST ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Unexpected command %d on BOOT RUP %d of host %d \n " , PktCmdP - > Command , Rup , HostP - p - > RIOHosts ) ;
ShowPacket ( DBG_BOOT , PacketP ) ;
RIOFreeCmdBlk ( CmdBlkP ) ;
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return 1 ;
}
/*
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* * Build a Boot Sequence command block
* *
* * 02.03 .1999 ARG - ESIL 0820 fix
* * We no longer need to use " Boot Mode " , we ' ll always allow
* * boot requests - the boot will not complete if the device
* * appears in the bindings table .
* * So , this conditional is not required . . .
* *
if ( p - > RIOBootMode = = RC_BOOT_NONE )
* *
* * If the system is in slave mode , and a boot request is
* * received , set command to BOOT_ABORT so that the boot
* * will not complete .
* *
PktReplyP - > Command = BOOT_ABORT ;
else
* *
* * We ' ll just ( always ) set the command field in packet reply
* * to allow an attempted boot sequence :
*/
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PktReplyP - > Command = BOOT_SEQUENCE ;
PktReplyP - > BootSequence . NumPackets = p - > RIONumBootPkts ;
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PktReplyP - > BootSequence . LoadBase = p - > RIOConf . RtaLoadBase ;
PktReplyP - > BootSequence . CodeSize = p - > RIOBootCount ;
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CmdBlkP - > Packet . len = BOOT_SEQUENCE_LEN | PKT_CMD_BIT ;
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bcopy ( " BOOT " , ( void * ) & CmdBlkP - > Packet . data [ BOOT_SEQUENCE_LEN ] , 4 ) ;
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rio_dprintk ( RIO_DEBUG_BOOT , " Boot RTA on Host %d Rup %d - %d (0x%x) packets to 0x%x \n " , HostP - p - > RIOHosts , Rup , p - > RIONumBootPkts , p - > RIONumBootPkts , p - > RIOConf . RtaLoadBase ) ;
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/*
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* * If this host is in slave mode , send the RTA an invalid boot
* * sequence command block to force it to kill the boot . We wait
* * for half a second before sending this packet to prevent the RTA
* * attempting to boot too often . The master host should then grab
* * the RTA and make it its own .
*/
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p - > RIOBooting + + ;
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RIOQueueCmdBlk ( HostP , Rup , CmdBlkP ) ;
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return 1 ;
}
/*
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* * It is a request for boot data .
*/
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sequence = RWORD ( PktCmdP - > Sequence ) ;
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rio_dprintk ( RIO_DEBUG_BOOT , " Boot block %d on Host %d Rup%d \n " , sequence , HostP - p - > RIOHosts , Rup ) ;
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if ( sequence > = p - > RIONumBootPkts ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Got a request for packet %d, max is %d \n " , sequence , p - > RIONumBootPkts ) ;
ShowPacket ( DBG_BOOT , PacketP ) ;
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}
PktReplyP - > Sequence = sequence ;
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bcopy ( p - > RIOBootPackets [ p - > RIONumBootPkts - sequence - 1 ] , PktReplyP - > BootData , RTA_BOOT_DATA_SIZE ) ;
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CmdBlkP - > Packet . len = PKT_MAX_DATA_LEN ;
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ShowPacket ( DBG_BOOT , & CmdBlkP - > Packet ) ;
RIOQueueCmdBlk ( HostP , Rup , CmdBlkP ) ;
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return 1 ;
}
/*
* * This function is called when an RTA been booted .
* * If booted by a host , HostP - > HostUniqueNum is the booting host .
* * If booted by an RTA , HostP - > Mapping [ Rup ] . RtaUniqueNum is the booting RTA .
* * RtaUniq is the booted RTA .
*/
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static int RIOBootComplete ( struct rio_info * p , struct Host * HostP , uint Rup , struct PktCmd * PktCmdP )
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{
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struct Map * MapP = NULL ;
struct Map * MapP2 = NULL ;
int Flag ;
int found ;
int host , rta ;
int EmptySlot = - 1 ;
int entry , entry2 ;
char * MyType , * MyName ;
uint MyLink ;
ushort RtaType ;
uint RtaUniq = ( RBYTE ( PktCmdP - > UniqNum [ 0 ] ) ) + ( RBYTE ( PktCmdP - > UniqNum [ 1 ] ) < < 8 ) + ( RBYTE ( PktCmdP - > UniqNum [ 2 ] ) < < 16 ) + ( RBYTE ( PktCmdP - > UniqNum [ 3 ] ) < < 24 ) ;
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/* Was RIOBooting-- . That's bad. If an RTA sends two of them, the
driver will never think that the RTA has booted . . . - - REW */
p - > RIOBooting = 0 ;
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rio_dprintk ( RIO_DEBUG_BOOT , " RTA Boot completed - BootInProgress now %d \n " , p - > RIOBooting ) ;
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/*
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* * Determine type of unit ( 16 / 8 port RTA ) .
*/
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RtaType = GetUnitType ( RtaUniq ) ;
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if ( Rup > = ( ushort ) MAX_RUP ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RIO: Host %s has booted an RTA(%d) on link %c \n " , HostP - > Name , 8 * RtaType , RBYTE ( PktCmdP - > LinkNum ) + ' A ' ) ;
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} else {
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rio_dprintk ( RIO_DEBUG_BOOT , " RIO: RTA %s has booted an RTA(%d) on link %c \n " , HostP - > Mapping [ Rup ] . Name , 8 * RtaType , RBYTE ( PktCmdP - > LinkNum ) + ' A ' ) ;
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}
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rio_dprintk ( RIO_DEBUG_BOOT , " UniqNum is 0x%x \n " , RtaUniq ) ;
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if ( ( RtaUniq = = 0x00000000 ) | | ( RtaUniq = = 0xffffffff ) ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Illegal RTA Uniq Number \n " ) ;
return TRUE ;
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}
/*
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* * If this RTA has just booted an RTA which doesn ' t belong to this
* * system , or the system is in slave mode , do not attempt to create
* * a new table entry for it .
*/
if ( ! RIOBootOk ( p , HostP , RtaUniq ) ) {
MyLink = RBYTE ( PktCmdP - > LinkNum ) ;
if ( Rup < ( ushort ) MAX_RUP ) {
/*
* * RtaUniq was clone booted ( by this RTA ) . Instruct this RTA
* * to hold off further attempts to boot on this link for 30
* * seconds .
*/
if ( RIOSuspendBootRta ( HostP , HostP - > Mapping [ Rup ] . ID , MyLink ) ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RTA failed to suspend booting on link %c \n " , ' A ' + MyLink ) ;
}
} else {
/*
* * RtaUniq was booted by this host . Set the booting link
* * to hold off for 30 seconds to give another unit a
* * chance to boot it .
*/
WWORD ( HostP - > LinkStrP [ MyLink ] . WaitNoBoot , 30 ) ;
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}
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rio_dprintk ( RIO_DEBUG_BOOT , " RTA %x not owned - suspend booting down link %c on unit %x \n " , RtaUniq , ' A ' + MyLink , HostP - > Mapping [ Rup ] . RtaUniqueNum ) ;
return TRUE ;
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}
/*
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* * Check for a SLOT_IN_USE entry for this RTA attached to the
* * current host card in the driver table .
* *
* * If it exists , make a note that we have booted it . Other parts of
* * the driver are interested in this information at a later date ,
* * in particular when the booting RTA asks for an ID for this unit ,
* * we must have set the BOOTED flag , and the NEWBOOT flag is used
* * to force an open on any ports that where previously open on this
* * unit .
*/
for ( entry = 0 ; entry < MAX_RUP ; entry + + ) {
uint sysport ;
if ( ( HostP - > Mapping [ entry ] . Flags & SLOT_IN_USE ) & & ( HostP - > Mapping [ entry ] . RtaUniqueNum = = RtaUniq ) ) {
HostP - > Mapping [ entry ] . Flags | = RTA_BOOTED | RTA_NEWBOOT ;
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# ifdef NEED_TO_FIX
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RIO_SV_BROADCAST ( HostP - > svFlags [ entry ] ) ;
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# endif
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if ( ( sysport = HostP - > Mapping [ entry ] . SysPort ) ! = NO_PORT ) {
if ( sysport < p - > RIOFirstPortsBooted )
p - > RIOFirstPortsBooted = sysport ;
if ( sysport > p - > RIOLastPortsBooted )
p - > RIOLastPortsBooted = sysport ;
/*
* * For a 16 port RTA , check the second bank of 8 ports
*/
if ( RtaType = = TYPE_RTA16 ) {
entry2 = HostP - > Mapping [ entry ] . ID2 - 1 ;
HostP - > Mapping [ entry2 ] . Flags | = RTA_BOOTED | RTA_NEWBOOT ;
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# ifdef NEED_TO_FIX
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RIO_SV_BROADCAST ( HostP - > svFlags [ entry2 ] ) ;
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# endif
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sysport = HostP - > Mapping [ entry2 ] . SysPort ;
if ( sysport < p - > RIOFirstPortsBooted )
p - > RIOFirstPortsBooted = sysport ;
if ( sysport > p - > RIOLastPortsBooted )
p - > RIOLastPortsBooted = sysport ;
}
}
if ( RtaType = = TYPE_RTA16 ) {
rio_dprintk ( RIO_DEBUG_BOOT , " RTA will be given IDs %d+%d \n " , entry + 1 , entry2 + 1 ) ;
} else {
rio_dprintk ( RIO_DEBUG_BOOT , " RTA will be given ID %d \n " , entry + 1 ) ;
}
return TRUE ;
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}
}
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rio_dprintk ( RIO_DEBUG_BOOT , " RTA not configured for this host \n " ) ;
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if ( Rup > = ( ushort ) MAX_RUP ) {
/*
* * It was a host that did the booting
*/
MyType = " Host " ;
MyName = HostP - > Name ;
} else {
/*
* * It was an RTA that did the booting
*/
MyType = " RTA " ;
MyName = HostP - > Mapping [ Rup ] . Name ;
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}
MyLink = RBYTE ( PktCmdP - > LinkNum ) ;
/*
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* * There is no SLOT_IN_USE entry for this RTA attached to the current
* * host card in the driver table .
* *
* * Check for a SLOT_TENTATIVE entry for this RTA attached to the
* * current host card in the driver table .
* *
* * If we find one , then we re - use that slot .
*/
for ( entry = 0 ; entry < MAX_RUP ; entry + + ) {
if ( ( HostP - > Mapping [ entry ] . Flags & SLOT_TENTATIVE ) & & ( HostP - > Mapping [ entry ] . RtaUniqueNum = = RtaUniq ) ) {
if ( RtaType = = TYPE_RTA16 ) {
entry2 = HostP - > Mapping [ entry ] . ID2 - 1 ;
if ( ( HostP - > Mapping [ entry2 ] . Flags & SLOT_TENTATIVE ) & & ( HostP - > Mapping [ entry2 ] . RtaUniqueNum = = RtaUniq ) )
rio_dprintk ( RIO_DEBUG_BOOT , " Found previous tentative slots (%d+%d) \n " , entry , entry2 ) ;
else
continue ;
} else
rio_dprintk ( RIO_DEBUG_BOOT , " Found previous tentative slot (%d) \n " , entry ) ;
if ( ! p - > RIONoMessage )
cprintf ( " RTA connected to %s '%s' (%c) not configured. \n " , MyType , MyName , MyLink + ' A ' ) ;
return TRUE ;
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}
}
/*
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* * There is no SLOT_IN_USE or SLOT_TENTATIVE entry for this RTA
* * attached to the current host card in the driver table .
* *
* * Check if there is a SLOT_IN_USE or SLOT_TENTATIVE entry on another
* * host for this RTA in the driver table .
* *
* * For a SLOT_IN_USE entry on another host , we need to delete the RTA
* * entry from the other host and add it to this host ( using some of
* * the functions from table . c which do this ) .
* * For a SLOT_TENTATIVE entry on another host , we must cope with the
* * following scenario :
* *
* * + Plug 8 port RTA into host A . ( This creates SLOT_TENTATIVE entry
* * in table )
* * + Unplug RTA and plug into host B . ( We now have 2 SLOT_TENTATIVE
* * entries )
* * + Configure RTA on host B . ( This slot now becomes SLOT_IN_USE )
* * + Unplug RTA and plug back into host A .
* * + Configure RTA on host A . We now have the same RTA configured
* * with different ports on two different hosts .
*/
rio_dprintk ( RIO_DEBUG_BOOT , " Have we seen RTA %x before? \n " , RtaUniq ) ;
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found = 0 ;
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Flag = 0 ; /* Convince the compiler this variable is initialized */
for ( host = 0 ; ! found & & ( host < p - > RIONumHosts ) ; host + + ) {
for ( rta = 0 ; rta < MAX_RUP ; rta + + ) {
if ( ( p - > RIOHosts [ host ] . Mapping [ rta ] . Flags & ( SLOT_IN_USE | SLOT_TENTATIVE ) ) & & ( p - > RIOHosts [ host ] . Mapping [ rta ] . RtaUniqueNum = = RtaUniq ) ) {
Flag = p - > RIOHosts [ host ] . Mapping [ rta ] . Flags ;
MapP = & p - > RIOHosts [ host ] . Mapping [ rta ] ;
if ( RtaType = = TYPE_RTA16 ) {
MapP2 = & p - > RIOHosts [ host ] . Mapping [ MapP - > ID2 - 1 ] ;
rio_dprintk ( RIO_DEBUG_BOOT , " This RTA is units %d+%d from host %s \n " , rta + 1 , MapP - > ID2 , p - > RIOHosts [ host ] . Name ) ;
} else
rio_dprintk ( RIO_DEBUG_BOOT , " This RTA is unit %d from host %s \n " , rta + 1 , p - > RIOHosts [ host ] . Name ) ;
found = 1 ;
break ;
}
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}
}
/*
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* * There is no SLOT_IN_USE or SLOT_TENTATIVE entry for this RTA
* * attached to the current host card in the driver table .
* *
* * If we have not found a SLOT_IN_USE or SLOT_TENTATIVE entry on
* * another host for this RTA in the driver table . . .
* *
* * Check for a SLOT_IN_USE entry for this RTA in the config table .
*/
if ( ! MapP ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Look for RTA %x in RIOSavedTable \n " , RtaUniq ) ;
for ( rta = 0 ; rta < TOTAL_MAP_ENTRIES ; rta + + ) {
rio_dprintk ( RIO_DEBUG_BOOT , " Check table entry %d (%x) " , rta , p - > RIOSavedTable [ rta ] . RtaUniqueNum ) ;
if ( ( p - > RIOSavedTable [ rta ] . Flags & SLOT_IN_USE ) & & ( p - > RIOSavedTable [ rta ] . RtaUniqueNum = = RtaUniq ) ) {
MapP = & p - > RIOSavedTable [ rta ] ;
Flag = p - > RIOSavedTable [ rta ] . Flags ;
if ( RtaType = = TYPE_RTA16 ) {
for ( entry2 = rta + 1 ; entry2 < TOTAL_MAP_ENTRIES ; entry2 + + ) {
if ( p - > RIOSavedTable [ entry2 ] . RtaUniqueNum = = RtaUniq )
break ;
}
MapP2 = & p - > RIOSavedTable [ entry2 ] ;
rio_dprintk ( RIO_DEBUG_BOOT , " This RTA is from table entries %d+%d \n " , rta , entry2 ) ;
} else
rio_dprintk ( RIO_DEBUG_BOOT , " This RTA is from table entry %d \n " , rta ) ;
break ;
}
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}
}
/*
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* * There is no SLOT_IN_USE or SLOT_TENTATIVE entry for this RTA
* * attached to the current host card in the driver table .
* *
* * We may have found a SLOT_IN_USE entry on another host for this
* * RTA in the config table , or a SLOT_IN_USE or SLOT_TENTATIVE entry
* * on another host for this RTA in the driver table .
* *
* * Check the driver table for room to fit this newly discovered RTA .
* * RIOFindFreeID ( ) first looks for free slots and if it does not
* * find any free slots it will then attempt to oust any
* * tentative entry in the table .
*/
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EmptySlot = 1 ;
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if ( RtaType = = TYPE_RTA16 ) {
if ( RIOFindFreeID ( p , HostP , & entry , & entry2 ) = = 0 ) {
RIODefaultName ( p , HostP , entry ) ;
FillSlot ( entry , entry2 , RtaUniq , HostP ) ;
EmptySlot = 0 ;
}
} else {
if ( RIOFindFreeID ( p , HostP , & entry , NULL ) = = 0 ) {
RIODefaultName ( p , HostP , entry ) ;
FillSlot ( entry , 0 , RtaUniq , HostP ) ;
EmptySlot = 0 ;
}
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}
/*
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* * There is no SLOT_IN_USE or SLOT_TENTATIVE entry for this RTA
* * attached to the current host card in the driver table .
* *
* * If we found a SLOT_IN_USE entry on another host for this
* * RTA in the config or driver table , and there are enough free
* * slots in the driver table , then we need to move it over and
* * delete it from the other host .
* * If we found a SLOT_TENTATIVE entry on another host for this
* * RTA in the driver table , just delete the other host entry .
*/
if ( EmptySlot = = 0 ) {
if ( MapP ) {
if ( Flag & SLOT_IN_USE ) {
rio_dprintk ( RIO_DEBUG_BOOT , " This RTA configured on another host - move entry to current host (1) \n " ) ;
HostP - > Mapping [ entry ] . SysPort = MapP - > SysPort ;
CCOPY ( MapP - > Name , HostP - > Mapping [ entry ] . Name , MAX_NAME_LEN ) ;
HostP - > Mapping [ entry ] . Flags = SLOT_IN_USE | RTA_BOOTED | RTA_NEWBOOT ;
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# ifdef NEED_TO_FIX
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RIO_SV_BROADCAST ( HostP - > svFlags [ entry ] ) ;
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# endif
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RIOReMapPorts ( p , HostP , & HostP - > Mapping [ entry ] ) ;
if ( HostP - > Mapping [ entry ] . SysPort < p - > RIOFirstPortsBooted )
p - > RIOFirstPortsBooted = HostP - > Mapping [ entry ] . SysPort ;
if ( HostP - > Mapping [ entry ] . SysPort > p - > RIOLastPortsBooted )
p - > RIOLastPortsBooted = HostP - > Mapping [ entry ] . SysPort ;
rio_dprintk ( RIO_DEBUG_BOOT , " SysPort %d, Name %s \n " , ( int ) MapP - > SysPort , MapP - > Name ) ;
} else {
rio_dprintk ( RIO_DEBUG_BOOT , " This RTA has a tentative entry on another host - delete that entry (1) \n " ) ;
HostP - > Mapping [ entry ] . Flags = SLOT_TENTATIVE | RTA_BOOTED | RTA_NEWBOOT ;
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# ifdef NEED_TO_FIX
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RIO_SV_BROADCAST ( HostP - > svFlags [ entry ] ) ;
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# endif
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}
if ( RtaType = = TYPE_RTA16 ) {
if ( Flag & SLOT_IN_USE ) {
HostP - > Mapping [ entry2 ] . Flags = SLOT_IN_USE | RTA_BOOTED | RTA_NEWBOOT | RTA16_SECOND_SLOT ;
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# ifdef NEED_TO_FIX
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RIO_SV_BROADCAST ( HostP - > svFlags [ entry2 ] ) ;
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# endif
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HostP - > Mapping [ entry2 ] . SysPort = MapP2 - > SysPort ;
/*
* * Map second block of ttys for 16 port RTA
*/
RIOReMapPorts ( p , HostP , & HostP - > Mapping [ entry2 ] ) ;
if ( HostP - > Mapping [ entry2 ] . SysPort < p - > RIOFirstPortsBooted )
p - > RIOFirstPortsBooted = HostP - > Mapping [ entry2 ] . SysPort ;
if ( HostP - > Mapping [ entry2 ] . SysPort > p - > RIOLastPortsBooted )
p - > RIOLastPortsBooted = HostP - > Mapping [ entry2 ] . SysPort ;
rio_dprintk ( RIO_DEBUG_BOOT , " SysPort %d, Name %s \n " , ( int ) HostP - > Mapping [ entry2 ] . SysPort , HostP - > Mapping [ entry ] . Name ) ;
} else
HostP - > Mapping [ entry2 ] . Flags = SLOT_TENTATIVE | RTA_BOOTED | RTA_NEWBOOT | RTA16_SECOND_SLOT ;
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# ifdef NEED_TO_FIX
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RIO_SV_BROADCAST ( HostP - > svFlags [ entry2 ] ) ;
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# endif
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bzero ( ( caddr_t ) MapP2 , sizeof ( struct Map ) ) ;
}
bzero ( ( caddr_t ) MapP , sizeof ( struct Map ) ) ;
if ( ! p - > RIONoMessage )
cprintf ( " An orphaned RTA has been adopted by %s '%s' (%c). \n " , MyType , MyName , MyLink + ' A ' ) ;
} else if ( ! p - > RIONoMessage )
cprintf ( " RTA connected to %s '%s' (%c) not configured. \n " , MyType , MyName , MyLink + ' A ' ) ;
RIOSetChange ( p ) ;
return TRUE ;
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}
/*
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* * There is no room in the driver table to make an entry for the
* * booted RTA . Keep a note of its Uniq Num in the overflow table ,
* * so we can ignore it ' s ID requests .
*/
if ( ! p - > RIONoMessage )
cprintf ( " The RTA connected to %s '%s' (%c) cannot be configured. You cannot configure more than 128 ports to one host card. \n " , MyType , MyName , MyLink + ' A ' ) ;
for ( entry = 0 ; entry < HostP - > NumExtraBooted ; entry + + ) {
if ( HostP - > ExtraUnits [ entry ] = = RtaUniq ) {
/*
* * already got it !
*/
return TRUE ;
}
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}
/*
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* * If there is room , add the unit to the list of extras
*/
if ( HostP - > NumExtraBooted < MAX_EXTRA_UNITS )
HostP - > ExtraUnits [ HostP - > NumExtraBooted + + ] = RtaUniq ;
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return TRUE ;
}
/*
* * If the RTA or its host appears in the RIOBindTab [ ] structure then
* * we mustn ' t boot the RTA and should return FALSE .
* * This operation is slightly different from the other drivers for RIO
* * in that this is designed to work with the new utilities
* * not config . rio and is FAR SIMPLER .
* * We no longer support the RIOBootMode variable . It is all done from the
* * " boot/noboot " field in the rio . cf file .
*/
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int RIOBootOk ( p , HostP , RtaUniq )
struct rio_info * p ;
struct Host * HostP ;
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ulong RtaUniq ;
{
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int Entry ;
uint HostUniq = HostP - > UniqueNum ;
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/*
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* * Search bindings table for RTA or its parent .
* * If it exists , return 0 , else 1.
*/
for ( Entry = 0 ; ( Entry < MAX_RTA_BINDINGS ) & & ( p - > RIOBindTab [ Entry ] ! = 0 ) ; Entry + + ) {
if ( ( p - > RIOBindTab [ Entry ] = = HostUniq ) | | ( p - > RIOBindTab [ Entry ] = = RtaUniq ) )
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return 0 ;
}
return 1 ;
}
/*
* * Make an empty slot tentative . If this is a 16 port RTA , make both
* * slots tentative , and the second one RTA_SECOND_SLOT as well .
*/
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void FillSlot ( entry , entry2 , RtaUniq , HostP )
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int entry ;
int entry2 ;
uint RtaUniq ;
struct Host * HostP ;
{
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int link ;
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rio_dprintk ( RIO_DEBUG_BOOT , " FillSlot(%d, %d, 0x%x...) \n " , entry , entry2 , RtaUniq ) ;
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HostP - > Mapping [ entry ] . Flags = ( RTA_BOOTED | RTA_NEWBOOT | SLOT_TENTATIVE ) ;
HostP - > Mapping [ entry ] . SysPort = NO_PORT ;
HostP - > Mapping [ entry ] . RtaUniqueNum = RtaUniq ;
HostP - > Mapping [ entry ] . HostUniqueNum = HostP - > UniqueNum ;
HostP - > Mapping [ entry ] . ID = entry + 1 ;
HostP - > Mapping [ entry ] . ID2 = 0 ;
if ( entry2 ) {
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HostP - > Mapping [ entry2 ] . Flags = ( RTA_BOOTED | RTA_NEWBOOT | SLOT_TENTATIVE | RTA16_SECOND_SLOT ) ;
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HostP - > Mapping [ entry2 ] . SysPort = NO_PORT ;
HostP - > Mapping [ entry2 ] . RtaUniqueNum = RtaUniq ;
HostP - > Mapping [ entry2 ] . HostUniqueNum = HostP - > UniqueNum ;
HostP - > Mapping [ entry2 ] . Name [ 0 ] = ' \0 ' ;
HostP - > Mapping [ entry2 ] . ID = entry2 + 1 ;
HostP - > Mapping [ entry2 ] . ID2 = entry + 1 ;
HostP - > Mapping [ entry ] . ID2 = entry2 + 1 ;
}
/*
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* * Must set these up , so that utilities show
* * topology of 16 port RTAs correctly
*/
for ( link = 0 ; link < LINKS_PER_UNIT ; link + + ) {
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HostP - > Mapping [ entry ] . Topology [ link ] . Unit = ROUTE_DISCONNECT ;
HostP - > Mapping [ entry ] . Topology [ link ] . Link = NO_LINK ;
if ( entry2 ) {
HostP - > Mapping [ entry2 ] . Topology [ link ] . Unit = ROUTE_DISCONNECT ;
HostP - > Mapping [ entry2 ] . Topology [ link ] . Link = NO_LINK ;
}
}
}