The Design and Implementation of the FreeBSD Operating System, Second Edition
Now available: The Design and Implementation of the FreeBSD Operating System (Second Edition)


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FreeBSD/Linux Kernel Cross Reference
sys/arm/xscale/pxa/pxa_machdep.c

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    1 /*      $NetBSD: hpc_machdep.c,v 1.70 2003/09/16 08:18:22 agc Exp $     */
    2 
    3 /*-
    4  * Copyright (c) 1994-1998 Mark Brinicombe.
    5  * Copyright (c) 1994 Brini.
    6  * All rights reserved.
    7  *
    8  * This code is derived from software written for Brini by Mark Brinicombe
    9  *
   10  * Redistribution and use in source and binary forms, with or without
   11  * modification, are permitted provided that the following conditions
   12  * are met:
   13  * 1. Redistributions of source code must retain the above copyright
   14  *    notice, this list of conditions and the following disclaimer.
   15  * 2. Redistributions in binary form must reproduce the above copyright
   16  *    notice, this list of conditions and the following disclaimer in the
   17  *    documentation and/or other materials provided with the distribution.
   18  * 3. All advertising materials mentioning features or use of this software
   19  *    must display the following acknowledgement:
   20  *      This product includes software developed by Brini.
   21  * 4. The name of the company nor the name of the author may be used to
   22  *    endorse or promote products derived from this software without specific
   23  *    prior written permission.
   24  *
   25  * THIS SOFTWARE IS PROVIDED BY BRINI ``AS IS'' AND ANY EXPRESS OR IMPLIED
   26  * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
   27  * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
   28  * IN NO EVENT SHALL BRINI OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
   29  * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
   30  * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
   31  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
   32  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
   33  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
   34  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
   35  * SUCH DAMAGE.
   36  *
   37  * RiscBSD kernel project
   38  *
   39  * machdep.c
   40  *
   41  * Machine dependant functions for kernel setup
   42  *
   43  * This file needs a lot of work. 
   44  *
   45  * Created      : 17/09/94
   46  */
   47 
   48 #include "opt_ddb.h"
   49 
   50 #include <sys/cdefs.h>
   51 __FBSDID("$FreeBSD: releng/9.2/sys/arm/xscale/pxa/pxa_machdep.c 218913 2011-02-21 13:11:05Z cognet $");
   52 
   53 #define _ARM32_BUS_DMA_PRIVATE
   54 #include <sys/param.h>
   55 #include <sys/systm.h>
   56 #include <sys/sysproto.h>
   57 #include <sys/signalvar.h>
   58 #include <sys/imgact.h>
   59 #include <sys/kernel.h>
   60 #include <sys/ktr.h>
   61 #include <sys/linker.h>
   62 #include <sys/lock.h>
   63 #include <sys/malloc.h>
   64 #include <sys/mutex.h>
   65 #include <sys/pcpu.h>
   66 #include <sys/proc.h>
   67 #include <sys/ptrace.h>
   68 #include <sys/cons.h>
   69 #include <sys/bio.h>
   70 #include <sys/bus.h>
   71 #include <sys/buf.h>
   72 #include <sys/exec.h>
   73 #include <sys/kdb.h>
   74 #include <sys/msgbuf.h>
   75 #include <machine/reg.h>
   76 #include <machine/cpu.h>
   77 
   78 #include <vm/vm.h>
   79 #include <vm/pmap.h>
   80 #include <vm/vm_object.h>
   81 #include <vm/vm_page.h>
   82 #include <vm/vm_pager.h>
   83 #include <vm/vm_map.h>
   84 #include <vm/vnode_pager.h>
   85 #include <machine/pmap.h>
   86 #include <machine/vmparam.h>
   87 #include <machine/pcb.h>
   88 #include <machine/undefined.h>
   89 #include <machine/machdep.h>
   90 #include <machine/metadata.h>
   91 #include <machine/armreg.h>
   92 #include <machine/bus.h>
   93 #include <sys/reboot.h>
   94 
   95 #include <arm/xscale/pxa/pxareg.h>
   96 #include <arm/xscale/pxa/pxavar.h>
   97 
   98 #define KERNEL_PT_SYS           0       /* Page table for mapping proc0 zero page */
   99 #define KERNEL_PT_IOPXS         1
  100 #define KERNEL_PT_BEFOREKERN    2
  101 #define KERNEL_PT_AFKERNEL      3       /* L2 table for mapping after kernel */
  102 #define KERNEL_PT_AFKERNEL_NUM  9
  103 
  104 /* this should be evenly divisable by PAGE_SIZE / L2_TABLE_SIZE_REAL (or 4) */
  105 #define NUM_KERNEL_PTS          (KERNEL_PT_AFKERNEL + KERNEL_PT_AFKERNEL_NUM)
  106 
  107 /* Define various stack sizes in pages */
  108 #define IRQ_STACK_SIZE  1
  109 #define ABT_STACK_SIZE  1
  110 #define UND_STACK_SIZE  1
  111 
  112 extern u_int data_abort_handler_address;
  113 extern u_int prefetch_abort_handler_address;
  114 extern u_int undefined_handler_address;
  115 
  116 struct pv_addr kernel_pt_table[NUM_KERNEL_PTS];
  117 
  118 extern void *_end;
  119 
  120 extern int *end;
  121 
  122 struct pcpu __pcpu;
  123 struct pcpu *pcpup = &__pcpu;
  124 
  125 /* Physical and virtual addresses for some global pages */
  126 
  127 vm_paddr_t phys_avail[PXA2X0_SDRAM_BANKS * 2 + 4];
  128 vm_paddr_t dump_avail[PXA2X0_SDRAM_BANKS * 2 + 4];
  129 vm_offset_t physical_pages;
  130 
  131 struct pv_addr systempage;
  132 struct pv_addr msgbufpv;
  133 struct pv_addr irqstack;
  134 struct pv_addr undstack;
  135 struct pv_addr abtstack;
  136 struct pv_addr kernelstack;
  137 struct pv_addr minidataclean;
  138 
  139 static struct trapframe proc0_tf;
  140 
  141 static void     pxa_probe_sdram(bus_space_tag_t, bus_space_handle_t,
  142                     uint32_t *, uint32_t *);
  143 
  144 /* Static device mappings. */
  145 static const struct pmap_devmap pxa_devmap[] = {
  146         /* 
  147          * Map the on-board devices up into the KVA region so we don't muck
  148          * up user-space.
  149          */
  150         {
  151                 PXA2X0_PERIPH_START + PXA2X0_PERIPH_OFFSET,
  152                 PXA2X0_PERIPH_START,
  153                 PXA250_PERIPH_END - PXA2X0_PERIPH_START,
  154                 VM_PROT_READ|VM_PROT_WRITE,
  155                 PTE_NOCACHE,
  156         },
  157         { 0, 0, 0, 0, 0, }
  158 };
  159 
  160 #define SDRAM_START 0xa0000000
  161 
  162 extern vm_offset_t xscale_cache_clean_addr;
  163 
  164 void *
  165 initarm(void *arg, void *arg2)
  166 {
  167         struct pv_addr  kernel_l1pt;
  168         struct pv_addr  dpcpu;
  169         int loop;
  170         u_int l1pagetable;
  171         vm_offset_t freemempos;
  172         vm_offset_t freemem_pt;
  173         vm_offset_t afterkern;
  174         vm_offset_t freemem_after;
  175         vm_offset_t lastaddr;
  176         int i, j;
  177         uint32_t memsize[PXA2X0_SDRAM_BANKS], memstart[PXA2X0_SDRAM_BANKS];
  178 
  179         set_cpufuncs();
  180 
  181         lastaddr = fake_preload_metadata();
  182         pcpu_init(pcpup, 0, sizeof(struct pcpu));
  183         PCPU_SET(curthread, &thread0);
  184 
  185         /* Do basic tuning, hz etc */
  186         init_param1();
  187 
  188         freemempos = 0xa0200000;
  189         /* Define a macro to simplify memory allocation */
  190 #define valloc_pages(var, np)                   \
  191         alloc_pages((var).pv_pa, (np));         \
  192         (var).pv_va = (var).pv_pa + 0x20000000;
  193 
  194 #define alloc_pages(var, np)                    \
  195         freemempos -= (np * PAGE_SIZE);         \
  196         (var) = freemempos;             \
  197         memset((char *)(var), 0, ((np) * PAGE_SIZE));
  198 
  199         while (((freemempos - L1_TABLE_SIZE) & (L1_TABLE_SIZE - 1)) != 0)
  200                 freemempos -= PAGE_SIZE;
  201         valloc_pages(kernel_l1pt, L1_TABLE_SIZE / PAGE_SIZE);
  202         for (loop = 0; loop < NUM_KERNEL_PTS; ++loop) {
  203                 if (!(loop % (PAGE_SIZE / L2_TABLE_SIZE_REAL))) {
  204                         valloc_pages(kernel_pt_table[loop],
  205                             L2_TABLE_SIZE / PAGE_SIZE);
  206                 } else {
  207                         kernel_pt_table[loop].pv_pa = freemempos +
  208                             (loop % (PAGE_SIZE / L2_TABLE_SIZE_REAL)) *
  209                             L2_TABLE_SIZE_REAL;
  210                         kernel_pt_table[loop].pv_va = 
  211                             kernel_pt_table[loop].pv_pa + 0x20000000;
  212                 }
  213                 i++;
  214         }
  215         freemem_pt = freemempos;
  216         freemempos = 0xa0100000;
  217         /*
  218          * Allocate a page for the system page mapped to V0x00000000
  219          * This page will just contain the system vectors and can be
  220          * shared by all processes.
  221          */
  222         valloc_pages(systempage, 1);
  223 
  224         /* Allocate dynamic per-cpu area. */
  225         valloc_pages(dpcpu, DPCPU_SIZE / PAGE_SIZE);
  226         dpcpu_init((void *)dpcpu.pv_va, 0);
  227 
  228         /* Allocate stacks for all modes */
  229         valloc_pages(irqstack, IRQ_STACK_SIZE);
  230         valloc_pages(abtstack, ABT_STACK_SIZE);
  231         valloc_pages(undstack, UND_STACK_SIZE);
  232         valloc_pages(kernelstack, KSTACK_PAGES);
  233         alloc_pages(minidataclean.pv_pa, 1);
  234         valloc_pages(msgbufpv, round_page(msgbufsize) / PAGE_SIZE);
  235 #ifdef ARM_USE_SMALL_ALLOC
  236         freemempos -= PAGE_SIZE;
  237         freemem_pt = trunc_page(freemem_pt);
  238         freemem_after = freemempos - ((freemem_pt - 0xa0100000) /
  239             PAGE_SIZE) * sizeof(struct arm_small_page);
  240         arm_add_smallalloc_pages((void *)(freemem_after + 0x20000000)
  241             , (void *)0xc0100000, freemem_pt - 0xa0100000, 1);
  242         freemem_after -= ((freemem_after - 0xa0001000) / PAGE_SIZE) *
  243             sizeof(struct arm_small_page);
  244         arm_add_smallalloc_pages((void *)(freemem_after + 0x20000000)
  245         , (void *)0xc0001000, trunc_page(freemem_after) - 0xa0001000, 0);
  246         freemempos = trunc_page(freemem_after);
  247         freemempos -= PAGE_SIZE;
  248 #endif
  249         /*
  250          * Allocate memory for the l1 and l2 page tables. The scheme to avoid
  251          * wasting memory by allocating the l1pt on the first 16k memory was
  252          * taken from NetBSD rpc_machdep.c. NKPT should be greater than 12 for
  253          * this to work (which is supposed to be the case).
  254          */
  255 
  256         /*
  257          * Now we start construction of the L1 page table
  258          * We start by mapping the L2 page tables into the L1.
  259          * This means that we can replace L1 mappings later on if necessary
  260          */
  261         l1pagetable = kernel_l1pt.pv_va;
  262 
  263         /* Map the L2 pages tables in the L1 page table */
  264         pmap_link_l2pt(l1pagetable, ARM_VECTORS_HIGH & ~(0x00100000 - 1),
  265             &kernel_pt_table[KERNEL_PT_SYS]);
  266 #if 0 /* XXXBJR: What is this?  Don't know if there's an analogue. */
  267         pmap_link_l2pt(l1pagetable, IQ80321_IOPXS_VBASE,
  268                         &kernel_pt_table[KERNEL_PT_IOPXS]);
  269 #endif
  270         pmap_link_l2pt(l1pagetable, KERNBASE,
  271             &kernel_pt_table[KERNEL_PT_BEFOREKERN]);
  272         pmap_map_chunk(l1pagetable, KERNBASE, SDRAM_START, 0x100000,
  273             VM_PROT_READ|VM_PROT_WRITE, PTE_CACHE);
  274         pmap_map_chunk(l1pagetable, KERNBASE + 0x100000, SDRAM_START + 0x100000,
  275             0x100000, VM_PROT_READ|VM_PROT_WRITE, PTE_PAGETABLE);
  276         pmap_map_chunk(l1pagetable, KERNBASE + 0x200000, SDRAM_START + 0x200000,
  277            (((uint32_t)(lastaddr) - KERNBASE - 0x200000) + L1_S_SIZE) & ~(L1_S_SIZE - 1),
  278             VM_PROT_READ|VM_PROT_WRITE, PTE_CACHE);
  279         freemem_after = ((int)lastaddr + PAGE_SIZE) & ~(PAGE_SIZE - 1);
  280         afterkern = round_page(((vm_offset_t)lastaddr + L1_S_SIZE) &
  281             ~(L1_S_SIZE - 1));
  282         for (i = 0; i < KERNEL_PT_AFKERNEL_NUM; i++) {
  283                 pmap_link_l2pt(l1pagetable, afterkern + i * 0x00100000,
  284                     &kernel_pt_table[KERNEL_PT_AFKERNEL + i]);
  285         }
  286         pmap_map_entry(l1pagetable, afterkern, minidataclean.pv_pa, 
  287             VM_PROT_READ|VM_PROT_WRITE, PTE_CACHE);
  288 
  289 #ifdef ARM_USE_SMALL_ALLOC
  290         if ((freemem_after + 2 * PAGE_SIZE) <= afterkern) {
  291                 arm_add_smallalloc_pages((void *)(freemem_after),
  292                     (void*)(freemem_after + PAGE_SIZE),
  293                     afterkern - (freemem_after + PAGE_SIZE), 0);
  294         }
  295 #endif
  296 
  297         /* Map the Mini-Data cache clean area. */
  298         xscale_setup_minidata(l1pagetable, afterkern,
  299             minidataclean.pv_pa);
  300 
  301         /* Map the vector page. */
  302         pmap_map_entry(l1pagetable, ARM_VECTORS_HIGH, systempage.pv_pa,
  303             VM_PROT_READ|VM_PROT_WRITE, PTE_CACHE);
  304         pmap_devmap_bootstrap(l1pagetable, pxa_devmap);
  305 
  306         /*
  307          * Give the XScale global cache clean code an appropriately
  308          * sized chunk of unmapped VA space starting at 0xff000000
  309          * (our device mappings end before this address).
  310          */
  311         xscale_cache_clean_addr = 0xff000000U;
  312 
  313         cpu_domains((DOMAIN_CLIENT << (PMAP_DOMAIN_KERNEL*2)) | DOMAIN_CLIENT);
  314         setttb(kernel_l1pt.pv_pa);
  315         cpu_tlb_flushID();
  316         cpu_domains(DOMAIN_CLIENT << (PMAP_DOMAIN_KERNEL*2));
  317 
  318         /*
  319          * Pages were allocated during the secondary bootstrap for the
  320          * stacks for different CPU modes.
  321          * We must now set the r13 registers in the different CPU modes to
  322          * point to these stacks.
  323          * Since the ARM stacks use STMFD etc. we must set r13 to the top end
  324          * of the stack memory.
  325          */
  326         set_stackptr(PSR_IRQ32_MODE,
  327             irqstack.pv_va + IRQ_STACK_SIZE * PAGE_SIZE);
  328         set_stackptr(PSR_ABT32_MODE,
  329             abtstack.pv_va + ABT_STACK_SIZE * PAGE_SIZE);
  330         set_stackptr(PSR_UND32_MODE,
  331             undstack.pv_va + UND_STACK_SIZE * PAGE_SIZE);
  332 
  333         /*
  334          * We must now clean the cache again....
  335          * Cleaning may be done by reading new data to displace any
  336          * dirty data in the cache. This will have happened in setttb()
  337          * but since we are boot strapping the addresses used for the read
  338          * may have just been remapped and thus the cache could be out
  339          * of sync. A re-clean after the switch will cure this.
  340          * After booting there are no gross relocations of the kernel thus
  341          * this problem will not occur after initarm().
  342          */
  343         cpu_idcache_wbinv_all();
  344 
  345         /*
  346          * Sort out bus_space for on-board devices.
  347          */
  348         pxa_obio_tag_init();
  349 
  350         /*
  351          * Fetch the SDRAM start/size from the PXA2X0 SDRAM configration
  352          * registers.
  353          */
  354         pxa_probe_sdram(obio_tag, PXA2X0_MEMCTL_BASE, memstart, memsize);
  355 
  356         physmem = 0;
  357         for (i = 0; i < PXA2X0_SDRAM_BANKS; i++) {
  358                 physmem += memsize[i] / PAGE_SIZE;
  359         }
  360 
  361         /* Fire up consoles. */
  362         cninit();
  363 
  364         /* Set stack for exception handlers */
  365         data_abort_handler_address = (u_int)data_abort_handler;
  366         prefetch_abort_handler_address = (u_int)prefetch_abort_handler;
  367         undefined_handler_address = (u_int)undefinedinstruction_bounce;
  368         undefined_init();
  369 
  370         proc_linkup(&proc0, &thread0);
  371         thread0.td_kstack = kernelstack.pv_va;
  372         thread0.td_pcb = (struct pcb *)
  373                 (thread0.td_kstack + KSTACK_PAGES * PAGE_SIZE) - 1;
  374         thread0.td_pcb->pcb_flags = 0;
  375         thread0.td_frame = &proc0_tf;
  376         pcpup->pc_curpcb = thread0.td_pcb;
  377 
  378         /* Enable MMU, I-cache, D-cache, write buffer. */
  379         arm_vector_init(ARM_VECTORS_HIGH, ARM_VEC_ALL);
  380 
  381         pmap_curmaxkvaddr = afterkern + PAGE_SIZE;
  382         /*
  383          * ARM USE_SMALL_ALLOC uses dump_avail, so it must be filled before
  384          * calling pmap_bootstrap.
  385          */
  386         i = 0;
  387         for (j = 0; j < PXA2X0_SDRAM_BANKS; j++) {
  388                 if (memsize[j] > 0) {
  389                         dump_avail[i++] = round_page(memstart[j]);
  390                         dump_avail[i++] =
  391                             trunc_page(memstart[j] + memsize[j]);
  392                 }
  393         }
  394         dump_avail[i] = 0;
  395         dump_avail[i] = 0;
  396         pmap_bootstrap(pmap_curmaxkvaddr, 0xd0000000, &kernel_l1pt);
  397         msgbufp = (void*)msgbufpv.pv_va;
  398         msgbufinit(msgbufp, msgbufsize);
  399         mutex_init();
  400 
  401         i = 0;
  402 #ifdef ARM_USE_SMALL_ALLOC
  403         phys_avail[i++] = 0xa0000000;
  404         phys_avail[i++] = 0xa0001000;   /*
  405                                          *XXX: Gross hack to get our
  406                                          * pages in the vm_page_array
  407                                          . */
  408 #endif
  409         for (j = 0; j < PXA2X0_SDRAM_BANKS; j++) {
  410                 if (memsize[j] > 0) {
  411                         phys_avail[i] = round_page(memstart[j]);
  412                         dump_avail[i++] = round_page(memstart[j]);
  413                         phys_avail[i] =
  414                             trunc_page(memstart[j] + memsize[j]);
  415                         dump_avail[i++] =
  416                             trunc_page(memstart[j] + memsize[j]);
  417                 }
  418         }
  419 
  420         dump_avail[i] = 0;
  421         phys_avail[i++] = 0;
  422         dump_avail[i] = 0;
  423         phys_avail[i] = 0;
  424 #ifdef ARM_USE_SMALL_ALLOC
  425         phys_avail[2] = round_page(virtual_avail - KERNBASE + phys_avail[2]);
  426 #else
  427         phys_avail[0] = round_page(virtual_avail - KERNBASE + phys_avail[0]);
  428 #endif
  429 
  430         init_param2(physmem);
  431         kdb_init();
  432         return ((void *)(kernelstack.pv_va + USPACE_SVC_STACK_TOP -
  433             sizeof(struct pcb)));
  434 }
  435 
  436 static void
  437 pxa_probe_sdram(bus_space_tag_t bst, bus_space_handle_t bsh,
  438     uint32_t *memstart, uint32_t *memsize)
  439 {
  440         uint32_t        mdcnfg, dwid, dcac, drac, dnb;
  441         int             i;
  442 
  443         mdcnfg = bus_space_read_4(bst, bsh, MEMCTL_MDCNFG);
  444 
  445         /*
  446          * Scan all 4 SDRAM banks
  447          */
  448         for (i = 0; i < PXA2X0_SDRAM_BANKS; i++) {
  449                 memstart[i] = 0;
  450                 memsize[i] = 0;
  451 
  452                 switch (i) {
  453                 case 0:
  454                 case 1:
  455                         if ((i == 0 && (mdcnfg & MDCNFG_DE0) == 0) ||
  456                             (i == 1 && (mdcnfg & MDCNFG_DE1) == 0))
  457                                 continue;
  458                         dwid = mdcnfg >> MDCNFD_DWID01_SHIFT;
  459                         dcac = mdcnfg >> MDCNFD_DCAC01_SHIFT;
  460                         drac = mdcnfg >> MDCNFD_DRAC01_SHIFT;
  461                         dnb = mdcnfg >> MDCNFD_DNB01_SHIFT;
  462                         break;
  463 
  464                 case 2:
  465                 case 3:
  466                         if ((i == 2 && (mdcnfg & MDCNFG_DE2) == 0) ||
  467                             (i == 3 && (mdcnfg & MDCNFG_DE3) == 0))
  468                                 continue;
  469                         dwid = mdcnfg >> MDCNFD_DWID23_SHIFT;
  470                         dcac = mdcnfg >> MDCNFD_DCAC23_SHIFT;
  471                         drac = mdcnfg >> MDCNFD_DRAC23_SHIFT;
  472                         dnb = mdcnfg >> MDCNFD_DNB23_SHIFT;
  473                         break;
  474                 default:
  475                         panic("pxa_probe_sdram: impossible");
  476                 }
  477 
  478                 dwid = 2 << (1 - (dwid & MDCNFD_DWID_MASK));  /* 16/32 width */
  479                 dcac = 1 << ((dcac & MDCNFD_DCAC_MASK) + 8);  /* 8-11 columns */
  480                 drac = 1 << ((drac & MDCNFD_DRAC_MASK) + 11); /* 11-13 rows */
  481                 dnb = 2 << (dnb & MDCNFD_DNB_MASK);           /* # of banks */
  482 
  483                 memsize[i] = dwid * dcac * drac * dnb;
  484                 memstart[i] = PXA2X0_SDRAM0_START +
  485                     (i * PXA2X0_SDRAM_BANK_SIZE);
  486         }
  487 }
  488 
  489 #define TIMER_FREQUENCY 3686400
  490 #define UNIMPLEMENTED   panic("%s: unimplemented", __func__)
  491 
  492 /* XXXBJR: Belongs with DELAY in a timer.c of some sort. */
  493 void
  494 cpu_startprofclock(void)
  495 {
  496         UNIMPLEMENTED;
  497 }
  498 
  499 void
  500 cpu_stopprofclock(void)
  501 {
  502         UNIMPLEMENTED;
  503 }
  504 
  505 static struct arm32_dma_range pxa_range = {
  506         .dr_sysbase = 0,
  507         .dr_busbase = 0,
  508         .dr_len = ~0u,
  509 };
  510 
  511 struct arm32_dma_range *
  512 bus_dma_get_range(void)
  513 {
  514 
  515         return (&pxa_range);
  516 }
  517 
  518 int
  519 bus_dma_get_range_nb(void)
  520 {
  521 
  522         return (1);
  523 }

Cache object: 0f706a07b077fc281b82a341741bd837


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