forked from Minki/linux
5ae89ee043
use 16M data cplb map on BF60x to avoid too much dcplb miss overhead cleanup cplb info Signed-off-by: Steven Miao <realmz6@gmail.com>
213 lines
6.0 KiB
C
213 lines
6.0 KiB
C
/*
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* Blackfin CPLB initialization
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*
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* Copyright 2007-2009 Analog Devices Inc.
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*
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* Licensed under the GPL-2 or later.
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*/
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#include <linux/module.h>
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#include <asm/blackfin.h>
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#include <asm/cacheflush.h>
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#include <asm/cplb.h>
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#include <asm/cplbinit.h>
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#include <asm/mem_map.h>
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struct cplb_entry icplb_tbl[NR_CPUS][MAX_CPLBS] PDT_ATTR;
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struct cplb_entry dcplb_tbl[NR_CPUS][MAX_CPLBS] PDT_ATTR;
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int first_switched_icplb PDT_ATTR;
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int first_switched_dcplb PDT_ATTR;
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struct cplb_boundary dcplb_bounds[9] PDT_ATTR;
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struct cplb_boundary icplb_bounds[9] PDT_ATTR;
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int icplb_nr_bounds PDT_ATTR;
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int dcplb_nr_bounds PDT_ATTR;
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void __init generate_cplb_tables_cpu(unsigned int cpu)
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{
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int i_d, i_i;
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unsigned long addr;
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unsigned long cplb_pageflags, cplb_pagesize;
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struct cplb_entry *d_tbl = dcplb_tbl[cpu];
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struct cplb_entry *i_tbl = icplb_tbl[cpu];
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printk(KERN_INFO "NOMPU: setting up cplb tables\n");
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i_d = i_i = 0;
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#ifdef CONFIG_DEBUG_HUNT_FOR_ZERO
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/* Set up the zero page. */
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d_tbl[i_d].addr = 0;
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d_tbl[i_d++].data = SDRAM_OOPS | PAGE_SIZE_1KB;
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i_tbl[i_i].addr = 0;
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i_tbl[i_i++].data = SDRAM_OOPS | PAGE_SIZE_1KB;
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#endif
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/* Cover kernel memory with 4M pages. */
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addr = 0;
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#ifdef PAGE_SIZE_16MB
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cplb_pageflags = PAGE_SIZE_16MB;
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cplb_pagesize = SIZE_16M;
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#else
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cplb_pageflags = PAGE_SIZE_4MB;
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cplb_pagesize = SIZE_4M;
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#endif
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for (; addr < memory_start; addr += cplb_pagesize) {
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d_tbl[i_d].addr = addr;
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d_tbl[i_d++].data = SDRAM_DGENERIC | cplb_pageflags;
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i_tbl[i_i].addr = addr;
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i_tbl[i_i++].data = SDRAM_IGENERIC | cplb_pageflags;
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}
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#ifdef CONFIG_ROMKERNEL
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/* Cover kernel XIP flash area */
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#ifdef CONFIG_BF60x
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addr = CONFIG_ROM_BASE & ~(16 * 1024 * 1024 - 1);
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d_tbl[i_d].addr = addr;
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d_tbl[i_d++].data = SDRAM_DGENERIC | PAGE_SIZE_16MB;
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i_tbl[i_i].addr = addr;
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i_tbl[i_i++].data = SDRAM_IGENERIC | PAGE_SIZE_16MB;
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#else
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addr = CONFIG_ROM_BASE & ~(4 * 1024 * 1024 - 1);
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d_tbl[i_d].addr = addr;
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d_tbl[i_d++].data = SDRAM_DGENERIC | PAGE_SIZE_4MB;
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i_tbl[i_i].addr = addr;
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i_tbl[i_i++].data = SDRAM_IGENERIC | PAGE_SIZE_4MB;
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#endif
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#endif
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/* Cover L1 memory. One 4M area for code and data each is enough. */
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if (cpu == 0) {
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if (L1_DATA_A_LENGTH || L1_DATA_B_LENGTH) {
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d_tbl[i_d].addr = L1_DATA_A_START;
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d_tbl[i_d++].data = L1_DMEMORY | PAGE_SIZE_4MB;
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}
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i_tbl[i_i].addr = L1_CODE_START;
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i_tbl[i_i++].data = L1_IMEMORY | PAGE_SIZE_4MB;
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}
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#ifdef CONFIG_SMP
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else {
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if (L1_DATA_A_LENGTH || L1_DATA_B_LENGTH) {
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d_tbl[i_d].addr = COREB_L1_DATA_A_START;
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d_tbl[i_d++].data = L1_DMEMORY | PAGE_SIZE_4MB;
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}
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i_tbl[i_i].addr = COREB_L1_CODE_START;
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i_tbl[i_i++].data = L1_IMEMORY | PAGE_SIZE_4MB;
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}
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#endif
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first_switched_dcplb = i_d;
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first_switched_icplb = i_i;
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BUG_ON(first_switched_dcplb > MAX_CPLBS);
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BUG_ON(first_switched_icplb > MAX_CPLBS);
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while (i_d < MAX_CPLBS)
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d_tbl[i_d++].data = 0;
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while (i_i < MAX_CPLBS)
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i_tbl[i_i++].data = 0;
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}
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void __init generate_cplb_tables_all(void)
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{
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unsigned long uncached_end;
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int i_d, i_i;
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i_d = 0;
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/* Normal RAM, including MTD FS. */
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#ifdef CONFIG_MTD_UCLINUX
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uncached_end = memory_mtd_start + mtd_size;
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#else
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uncached_end = memory_end;
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#endif
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/*
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* if DMA uncached is less than 1MB, mark the 1MB chunk as uncached
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* so that we don't have to use 4kB pages and cause CPLB thrashing
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*/
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if ((DMA_UNCACHED_REGION >= 1 * 1024 * 1024) || !DMA_UNCACHED_REGION ||
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((_ramend - uncached_end) >= 1 * 1024 * 1024))
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dcplb_bounds[i_d].eaddr = uncached_end;
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else
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dcplb_bounds[i_d].eaddr = uncached_end & ~(1 * 1024 * 1024 - 1);
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dcplb_bounds[i_d++].data = SDRAM_DGENERIC;
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/* DMA uncached region. */
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if (DMA_UNCACHED_REGION) {
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dcplb_bounds[i_d].eaddr = _ramend;
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dcplb_bounds[i_d++].data = SDRAM_DNON_CHBL;
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}
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if (_ramend != physical_mem_end) {
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/* Reserved memory. */
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dcplb_bounds[i_d].eaddr = physical_mem_end;
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dcplb_bounds[i_d++].data = (reserved_mem_dcache_on ?
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SDRAM_DGENERIC : SDRAM_DNON_CHBL);
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}
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/* Addressing hole up to the async bank. */
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dcplb_bounds[i_d].eaddr = ASYNC_BANK0_BASE;
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dcplb_bounds[i_d++].data = 0;
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/* ASYNC banks. */
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dcplb_bounds[i_d].eaddr = ASYNC_BANK3_BASE + ASYNC_BANK3_SIZE;
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dcplb_bounds[i_d++].data = SDRAM_EBIU;
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/* Addressing hole up to BootROM. */
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dcplb_bounds[i_d].eaddr = BOOT_ROM_START;
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dcplb_bounds[i_d++].data = 0;
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/* BootROM -- largest one should be less than 1 meg. */
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dcplb_bounds[i_d].eaddr = BOOT_ROM_START + BOOT_ROM_LENGTH;
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dcplb_bounds[i_d++].data = SDRAM_DGENERIC;
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if (L2_LENGTH) {
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/* Addressing hole up to L2 SRAM. */
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dcplb_bounds[i_d].eaddr = L2_START;
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dcplb_bounds[i_d++].data = 0;
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/* L2 SRAM. */
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dcplb_bounds[i_d].eaddr = L2_START + L2_LENGTH;
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dcplb_bounds[i_d++].data = L2_DMEMORY;
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}
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dcplb_nr_bounds = i_d;
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BUG_ON(dcplb_nr_bounds > ARRAY_SIZE(dcplb_bounds));
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i_i = 0;
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/* Normal RAM, including MTD FS. */
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icplb_bounds[i_i].eaddr = uncached_end;
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icplb_bounds[i_i++].data = SDRAM_IGENERIC;
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if (_ramend != physical_mem_end) {
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/* DMA uncached region. */
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if (DMA_UNCACHED_REGION) {
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/* Normally this hole is caught by the async below. */
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icplb_bounds[i_i].eaddr = _ramend;
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icplb_bounds[i_i++].data = 0;
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}
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/* Reserved memory. */
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icplb_bounds[i_i].eaddr = physical_mem_end;
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icplb_bounds[i_i++].data = (reserved_mem_icache_on ?
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SDRAM_IGENERIC : SDRAM_INON_CHBL);
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}
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/* Addressing hole up to the async bank. */
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icplb_bounds[i_i].eaddr = ASYNC_BANK0_BASE;
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icplb_bounds[i_i++].data = 0;
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/* ASYNC banks. */
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icplb_bounds[i_i].eaddr = ASYNC_BANK3_BASE + ASYNC_BANK3_SIZE;
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icplb_bounds[i_i++].data = SDRAM_EBIU;
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/* Addressing hole up to BootROM. */
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icplb_bounds[i_i].eaddr = BOOT_ROM_START;
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icplb_bounds[i_i++].data = 0;
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/* BootROM -- largest one should be less than 1 meg. */
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icplb_bounds[i_i].eaddr = BOOT_ROM_START + BOOT_ROM_LENGTH;
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icplb_bounds[i_i++].data = SDRAM_IGENERIC;
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if (L2_LENGTH) {
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/* Addressing hole up to L2 SRAM. */
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icplb_bounds[i_i].eaddr = L2_START;
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icplb_bounds[i_i++].data = 0;
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/* L2 SRAM. */
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icplb_bounds[i_i].eaddr = L2_START + L2_LENGTH;
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icplb_bounds[i_i++].data = L2_IMEMORY;
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}
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icplb_nr_bounds = i_i;
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BUG_ON(icplb_nr_bounds > ARRAY_SIZE(icplb_bounds));
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}
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