26dd3e4ff9
Historically a lot of these existed because we did not have a distinction between what was modular code and what was providing support to modules via EXPORT_SYMBOL and friends. That changed when we forked out support for the latter into the export.h file. This means we should be able to reduce the usage of module.h in code that is obj-y Makefile or bool Kconfig. In the case of some code where it is modular, we can extend that to also include files that are building basic support functionality but not related to loading or registering the final module; such files also have no need whatsoever for module.h The advantage in removing such instances is that module.h itself sources about 15 other headers; adding significantly to what we feed cpp, and it can obscure what headers we are effectively using. Since module.h might have been the implicit source for init.h (for __init) and for export.h (for EXPORT_SYMBOL) we consider each instance for the presence of either and replace/add as needed. Also note that MODULE_DEVICE_TABLE is a no-op for non-modular code. Build coverage of all the mips defconfigs revealed the module.h header was masking a couple of implicit include instances, so we add the appropriate headers there. Signed-off-by: Paul Gortmaker <paul.gortmaker@windriver.com> Cc: David Daney <david.daney@cavium.com> Cc: John Crispin <john@phrozen.org> Cc: Ralf Baechle <ralf@linux-mips.org> Cc: "Steven J. Hill" <steven.hill@cavium.com> Cc: linux-mips@linux-mips.org Patchwork: https://patchwork.linux-mips.org/patch/15131/ [james.hogan@imgtec.com: Preserve sort order where it already exists] Signed-off-by: James Hogan <james.hogan@imgtec.com>
386 lines
8.4 KiB
C
386 lines
8.4 KiB
C
/*
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* This file is subject to the terms and conditions of the GNU General Public
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* License. See the file "COPYING" in the main directory of this archive
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* for more details.
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*
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* Copyright (C) 2008 Maxime Bizon <mbizon@freebox.fr>
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* Copyright (C) 2009 Florian Fainelli <florian@openwrt.org>
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*/
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#include <linux/kernel.h>
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#include <linux/export.h>
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#include <linux/cpu.h>
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#include <asm/cpu.h>
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#include <asm/cpu-info.h>
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#include <asm/mipsregs.h>
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#include <bcm63xx_cpu.h>
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#include <bcm63xx_regs.h>
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#include <bcm63xx_io.h>
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#include <bcm63xx_irq.h>
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const unsigned long *bcm63xx_regs_base;
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EXPORT_SYMBOL(bcm63xx_regs_base);
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const int *bcm63xx_irqs;
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EXPORT_SYMBOL(bcm63xx_irqs);
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u16 bcm63xx_cpu_id __read_mostly;
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EXPORT_SYMBOL(bcm63xx_cpu_id);
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static u8 bcm63xx_cpu_rev;
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static unsigned int bcm63xx_cpu_freq;
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static unsigned int bcm63xx_memory_size;
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static const unsigned long bcm3368_regs_base[] = {
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__GEN_CPU_REGS_TABLE(3368)
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};
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static const int bcm3368_irqs[] = {
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__GEN_CPU_IRQ_TABLE(3368)
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};
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static const unsigned long bcm6328_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6328)
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};
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static const int bcm6328_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6328)
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};
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static const unsigned long bcm6338_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6338)
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};
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static const int bcm6338_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6338)
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};
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static const unsigned long bcm6345_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6345)
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};
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static const int bcm6345_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6345)
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};
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static const unsigned long bcm6348_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6348)
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};
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static const int bcm6348_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6348)
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};
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static const unsigned long bcm6358_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6358)
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};
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static const int bcm6358_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6358)
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};
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static const unsigned long bcm6362_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6362)
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};
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static const int bcm6362_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6362)
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};
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static const unsigned long bcm6368_regs_base[] = {
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__GEN_CPU_REGS_TABLE(6368)
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};
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static const int bcm6368_irqs[] = {
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__GEN_CPU_IRQ_TABLE(6368)
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};
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u8 bcm63xx_get_cpu_rev(void)
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{
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return bcm63xx_cpu_rev;
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}
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EXPORT_SYMBOL(bcm63xx_get_cpu_rev);
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unsigned int bcm63xx_get_cpu_freq(void)
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{
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return bcm63xx_cpu_freq;
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}
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unsigned int bcm63xx_get_memory_size(void)
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{
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return bcm63xx_memory_size;
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}
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static unsigned int detect_cpu_clock(void)
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{
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u16 cpu_id = bcm63xx_get_cpu_id();
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switch (cpu_id) {
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case BCM3368_CPU_ID:
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return 300000000;
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case BCM6328_CPU_ID:
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{
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unsigned int tmp, mips_pll_fcvo;
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tmp = bcm_misc_readl(MISC_STRAPBUS_6328_REG);
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mips_pll_fcvo = (tmp & STRAPBUS_6328_FCVO_MASK)
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>> STRAPBUS_6328_FCVO_SHIFT;
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switch (mips_pll_fcvo) {
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case 0x12:
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case 0x14:
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case 0x19:
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return 160000000;
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case 0x1c:
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return 192000000;
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case 0x13:
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case 0x15:
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return 200000000;
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case 0x1a:
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return 384000000;
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case 0x16:
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return 400000000;
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default:
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return 320000000;
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}
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}
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case BCM6338_CPU_ID:
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/* BCM6338 has a fixed 240 Mhz frequency */
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return 240000000;
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case BCM6345_CPU_ID:
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/* BCM6345 has a fixed 140Mhz frequency */
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return 140000000;
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case BCM6348_CPU_ID:
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{
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unsigned int tmp, n1, n2, m1;
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/* 16MHz * (N1 + 1) * (N2 + 2) / (M1_CPU + 1) */
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tmp = bcm_perf_readl(PERF_MIPSPLLCTL_REG);
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n1 = (tmp & MIPSPLLCTL_N1_MASK) >> MIPSPLLCTL_N1_SHIFT;
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n2 = (tmp & MIPSPLLCTL_N2_MASK) >> MIPSPLLCTL_N2_SHIFT;
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m1 = (tmp & MIPSPLLCTL_M1CPU_MASK) >> MIPSPLLCTL_M1CPU_SHIFT;
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n1 += 1;
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n2 += 2;
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m1 += 1;
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return (16 * 1000000 * n1 * n2) / m1;
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}
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case BCM6358_CPU_ID:
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{
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unsigned int tmp, n1, n2, m1;
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/* 16MHz * N1 * N2 / M1_CPU */
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tmp = bcm_ddr_readl(DDR_DMIPSPLLCFG_REG);
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n1 = (tmp & DMIPSPLLCFG_N1_MASK) >> DMIPSPLLCFG_N1_SHIFT;
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n2 = (tmp & DMIPSPLLCFG_N2_MASK) >> DMIPSPLLCFG_N2_SHIFT;
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m1 = (tmp & DMIPSPLLCFG_M1_MASK) >> DMIPSPLLCFG_M1_SHIFT;
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return (16 * 1000000 * n1 * n2) / m1;
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}
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case BCM6362_CPU_ID:
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{
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unsigned int tmp, mips_pll_fcvo;
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tmp = bcm_misc_readl(MISC_STRAPBUS_6362_REG);
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mips_pll_fcvo = (tmp & STRAPBUS_6362_FCVO_MASK)
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>> STRAPBUS_6362_FCVO_SHIFT;
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switch (mips_pll_fcvo) {
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case 0x03:
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case 0x0b:
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case 0x13:
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case 0x1b:
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return 240000000;
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case 0x04:
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case 0x0c:
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case 0x14:
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case 0x1c:
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return 160000000;
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case 0x05:
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case 0x0e:
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case 0x16:
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case 0x1e:
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case 0x1f:
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return 400000000;
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case 0x06:
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return 440000000;
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case 0x07:
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case 0x17:
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return 384000000;
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case 0x15:
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case 0x1d:
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return 200000000;
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default:
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return 320000000;
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}
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}
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case BCM6368_CPU_ID:
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{
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unsigned int tmp, p1, p2, ndiv, m1;
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/* (64MHz / P1) * P2 * NDIV / M1_CPU */
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tmp = bcm_ddr_readl(DDR_DMIPSPLLCFG_6368_REG);
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p1 = (tmp & DMIPSPLLCFG_6368_P1_MASK) >>
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DMIPSPLLCFG_6368_P1_SHIFT;
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p2 = (tmp & DMIPSPLLCFG_6368_P2_MASK) >>
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DMIPSPLLCFG_6368_P2_SHIFT;
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ndiv = (tmp & DMIPSPLLCFG_6368_NDIV_MASK) >>
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DMIPSPLLCFG_6368_NDIV_SHIFT;
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tmp = bcm_ddr_readl(DDR_DMIPSPLLDIV_6368_REG);
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m1 = (tmp & DMIPSPLLDIV_6368_MDIV_MASK) >>
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DMIPSPLLDIV_6368_MDIV_SHIFT;
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return (((64 * 1000000) / p1) * p2 * ndiv) / m1;
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}
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default:
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panic("Failed to detect clock for CPU with id=%04X\n", cpu_id);
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}
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}
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/*
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* attempt to detect the amount of memory installed
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*/
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static unsigned int detect_memory_size(void)
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{
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unsigned int cols = 0, rows = 0, is_32bits = 0, banks = 0;
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u32 val;
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if (BCMCPU_IS_6328() || BCMCPU_IS_6362())
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return bcm_ddr_readl(DDR_CSEND_REG) << 24;
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if (BCMCPU_IS_6345()) {
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val = bcm_sdram_readl(SDRAM_MBASE_REG);
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return val * 8 * 1024 * 1024;
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}
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if (BCMCPU_IS_6338() || BCMCPU_IS_6348()) {
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val = bcm_sdram_readl(SDRAM_CFG_REG);
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rows = (val & SDRAM_CFG_ROW_MASK) >> SDRAM_CFG_ROW_SHIFT;
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cols = (val & SDRAM_CFG_COL_MASK) >> SDRAM_CFG_COL_SHIFT;
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is_32bits = (val & SDRAM_CFG_32B_MASK) ? 1 : 0;
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banks = (val & SDRAM_CFG_BANK_MASK) ? 2 : 1;
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}
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if (BCMCPU_IS_3368() || BCMCPU_IS_6358() || BCMCPU_IS_6368()) {
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val = bcm_memc_readl(MEMC_CFG_REG);
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rows = (val & MEMC_CFG_ROW_MASK) >> MEMC_CFG_ROW_SHIFT;
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cols = (val & MEMC_CFG_COL_MASK) >> MEMC_CFG_COL_SHIFT;
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is_32bits = (val & MEMC_CFG_32B_MASK) ? 0 : 1;
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banks = 2;
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}
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/* 0 => 11 address bits ... 2 => 13 address bits */
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rows += 11;
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/* 0 => 8 address bits ... 2 => 10 address bits */
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cols += 8;
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return 1 << (cols + rows + (is_32bits + 1) + banks);
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}
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void __init bcm63xx_cpu_init(void)
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{
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unsigned int tmp;
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unsigned int cpu = smp_processor_id();
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u32 chipid_reg;
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/* soc registers location depends on cpu type */
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chipid_reg = 0;
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switch (current_cpu_type()) {
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case CPU_BMIPS3300:
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if ((read_c0_prid() & PRID_IMP_MASK) != PRID_IMP_BMIPS3300_ALT)
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__cpu_name[cpu] = "Broadcom BCM6338";
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/* fall-through */
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case CPU_BMIPS32:
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chipid_reg = BCM_6345_PERF_BASE;
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break;
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case CPU_BMIPS4350:
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switch ((read_c0_prid() & PRID_REV_MASK)) {
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case 0x04:
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chipid_reg = BCM_3368_PERF_BASE;
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break;
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case 0x10:
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chipid_reg = BCM_6345_PERF_BASE;
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break;
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default:
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chipid_reg = BCM_6368_PERF_BASE;
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break;
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}
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break;
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}
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/*
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* really early to panic, but delaying panic would not help since we
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* will never get any working console
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*/
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if (!chipid_reg)
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panic("unsupported Broadcom CPU");
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/* read out CPU type */
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tmp = bcm_readl(chipid_reg);
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bcm63xx_cpu_id = (tmp & REV_CHIPID_MASK) >> REV_CHIPID_SHIFT;
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bcm63xx_cpu_rev = (tmp & REV_REVID_MASK) >> REV_REVID_SHIFT;
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switch (bcm63xx_cpu_id) {
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case BCM3368_CPU_ID:
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bcm63xx_regs_base = bcm3368_regs_base;
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bcm63xx_irqs = bcm3368_irqs;
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break;
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case BCM6328_CPU_ID:
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bcm63xx_regs_base = bcm6328_regs_base;
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bcm63xx_irqs = bcm6328_irqs;
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break;
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case BCM6338_CPU_ID:
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bcm63xx_regs_base = bcm6338_regs_base;
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bcm63xx_irqs = bcm6338_irqs;
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break;
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case BCM6345_CPU_ID:
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bcm63xx_regs_base = bcm6345_regs_base;
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bcm63xx_irqs = bcm6345_irqs;
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break;
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case BCM6348_CPU_ID:
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bcm63xx_regs_base = bcm6348_regs_base;
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bcm63xx_irqs = bcm6348_irqs;
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break;
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case BCM6358_CPU_ID:
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bcm63xx_regs_base = bcm6358_regs_base;
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bcm63xx_irqs = bcm6358_irqs;
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break;
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case BCM6362_CPU_ID:
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bcm63xx_regs_base = bcm6362_regs_base;
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bcm63xx_irqs = bcm6362_irqs;
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break;
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case BCM6368_CPU_ID:
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bcm63xx_regs_base = bcm6368_regs_base;
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bcm63xx_irqs = bcm6368_irqs;
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break;
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default:
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panic("unsupported broadcom CPU %x", bcm63xx_cpu_id);
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break;
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}
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bcm63xx_cpu_freq = detect_cpu_clock();
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bcm63xx_memory_size = detect_memory_size();
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pr_info("Detected Broadcom 0x%04x CPU revision %02x\n",
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bcm63xx_cpu_id, bcm63xx_cpu_rev);
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pr_info("CPU frequency is %u MHz\n",
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bcm63xx_cpu_freq / 1000000);
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pr_info("%uMB of RAM installed\n",
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bcm63xx_memory_size >> 20);
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}
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