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ARC: [plat-hsdk]: unify memory apertures configuration
HSDK SoC has memory bridge which allows to configure memory map for different AXI masters in runtime. As of today we adjust memory apertures configuration in U-boot so we have different configuration in case of loading kernel via U-boot and JTAG. It isn't really critical in case of existing platform configuration as configuration differs for <currently> unused address space regions or unused AXI masters. However we may face with this issue when we'll bringup new peripherals or touch their address space. Fix that by perform full configuration of memory bridge in HSDK platform code. Basically we simply copy memory bridge configuration code from U-boot. Acked-by: Alexey Brodkin <abrodkin@synopsys.com> Signed-off-by: Eugeniy Paltsev <Eugeniy.Paltsev@synopsys.com> Signed-off-by: Vineet Gupta <vgupta@synopsys.com>
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@ -35,8 +35,6 @@ static void __init hsdk_init_per_cpu(unsigned int cpu)
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#define ARC_PERIPHERAL_BASE 0xf0000000
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#define CREG_BASE (ARC_PERIPHERAL_BASE + 0x1000)
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#define CREG_PAE (CREG_BASE + 0x180)
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#define CREG_PAE_UPDATE (CREG_BASE + 0x194)
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#define SDIO_BASE (ARC_PERIPHERAL_BASE + 0xA000)
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#define SDIO_UHS_REG_EXT (SDIO_BASE + 0x108)
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@ -102,20 +100,167 @@ static void __init hsdk_enable_gpio_intc_wire(void)
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iowrite32(GPIO_INT_CONNECTED_MASK, (void __iomem *) GPIO_INTEN);
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}
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static void __init hsdk_init_early(void)
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enum hsdk_axi_masters {
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M_HS_CORE = 0,
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M_HS_RTT,
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M_AXI_TUN,
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M_HDMI_VIDEO,
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M_HDMI_AUDIO,
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M_USB_HOST,
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M_ETHERNET,
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M_SDIO,
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M_GPU,
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M_DMAC_0,
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M_DMAC_1,
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M_DVFS
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};
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#define UPDATE_VAL 1
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/*
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* This is modified configuration of AXI bridge. Default settings
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* are specified in "Table 111 CREG Address Decoder register reset values".
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*
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* AXI_M_m_SLV{0|1} - Slave Select register for master 'm'.
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* Possible slaves are:
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* - 0 => no slave selected
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* - 1 => DDR controller port #1
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* - 2 => SRAM controller
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* - 3 => AXI tunnel
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* - 4 => EBI controller
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* - 5 => ROM controller
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* - 6 => AXI2APB bridge
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* - 7 => DDR controller port #2
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* - 8 => DDR controller port #3
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* - 9 => HS38x4 IOC
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* - 10 => HS38x4 DMI
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* AXI_M_m_OFFSET{0|1} - Addr Offset register for master 'm'
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*
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* Please read ARC HS Development IC Specification, section 17.2 for more
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* information about apertures configuration.
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*
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* m master AXI_M_m_SLV0 AXI_M_m_SLV1 AXI_M_m_OFFSET0 AXI_M_m_OFFSET1
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* 0 HS (CBU) 0x11111111 0x63111111 0xFEDCBA98 0x0E543210
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* 1 HS (RTT) 0x77777777 0x77777777 0xFEDCBA98 0x76543210
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* 2 AXI Tunnel 0x88888888 0x88888888 0xFEDCBA98 0x76543210
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* 3 HDMI-VIDEO 0x77777777 0x77777777 0xFEDCBA98 0x76543210
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* 4 HDMI-ADUIO 0x77777777 0x77777777 0xFEDCBA98 0x76543210
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* 5 USB-HOST 0x77777777 0x77999999 0xFEDCBA98 0x76DCBA98
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* 6 ETHERNET 0x77777777 0x77999999 0xFEDCBA98 0x76DCBA98
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* 7 SDIO 0x77777777 0x77999999 0xFEDCBA98 0x76DCBA98
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* 8 GPU 0x77777777 0x77777777 0xFEDCBA98 0x76543210
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* 9 DMAC (port #1) 0x77777777 0x77777777 0xFEDCBA98 0x76543210
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* 10 DMAC (port #2) 0x77777777 0x77777777 0xFEDCBA98 0x76543210
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* 11 DVFS 0x00000000 0x60000000 0x00000000 0x00000000
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*/
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#define CREG_AXI_M_SLV0(m) ((void __iomem *)(CREG_BASE + 0x20 * (m)))
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#define CREG_AXI_M_SLV1(m) ((void __iomem *)(CREG_BASE + 0x20 * (m) + 0x04))
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#define CREG_AXI_M_OFT0(m) ((void __iomem *)(CREG_BASE + 0x20 * (m) + 0x08))
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#define CREG_AXI_M_OFT1(m) ((void __iomem *)(CREG_BASE + 0x20 * (m) + 0x0C))
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#define CREG_AXI_M_UPDT(m) ((void __iomem *)(CREG_BASE + 0x20 * (m) + 0x14))
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#define CREG_AXI_M_HS_CORE_BOOT ((void __iomem *)(CREG_BASE + 0x010))
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#define CREG_PAE ((void __iomem *)(CREG_BASE + 0x180))
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#define CREG_PAE_UPDT ((void __iomem *)(CREG_BASE + 0x194))
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static void __init hsdk_init_memory_bridge(void)
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{
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u32 reg;
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/*
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* M_HS_CORE has one unique register - BOOT.
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* We need to clean boot mirror (BOOT[1:0]) bits in them to avoid first
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* aperture to be masked by 'boot mirror'.
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*/
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reg = readl(CREG_AXI_M_HS_CORE_BOOT) & (~0x3);
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writel(reg, CREG_AXI_M_HS_CORE_BOOT);
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writel(0x11111111, CREG_AXI_M_SLV0(M_HS_CORE));
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writel(0x63111111, CREG_AXI_M_SLV1(M_HS_CORE));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_HS_CORE));
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writel(0x0E543210, CREG_AXI_M_OFT1(M_HS_CORE));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_HS_CORE));
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writel(0x77777777, CREG_AXI_M_SLV0(M_HS_RTT));
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writel(0x77777777, CREG_AXI_M_SLV1(M_HS_RTT));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_HS_RTT));
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writel(0x76543210, CREG_AXI_M_OFT1(M_HS_RTT));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_HS_RTT));
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writel(0x88888888, CREG_AXI_M_SLV0(M_AXI_TUN));
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writel(0x88888888, CREG_AXI_M_SLV1(M_AXI_TUN));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_AXI_TUN));
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writel(0x76543210, CREG_AXI_M_OFT1(M_AXI_TUN));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_AXI_TUN));
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writel(0x77777777, CREG_AXI_M_SLV0(M_HDMI_VIDEO));
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writel(0x77777777, CREG_AXI_M_SLV1(M_HDMI_VIDEO));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_HDMI_VIDEO));
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writel(0x76543210, CREG_AXI_M_OFT1(M_HDMI_VIDEO));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_HDMI_VIDEO));
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writel(0x77777777, CREG_AXI_M_SLV0(M_HDMI_AUDIO));
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writel(0x77777777, CREG_AXI_M_SLV1(M_HDMI_AUDIO));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_HDMI_AUDIO));
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writel(0x76543210, CREG_AXI_M_OFT1(M_HDMI_AUDIO));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_HDMI_AUDIO));
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writel(0x77777777, CREG_AXI_M_SLV0(M_USB_HOST));
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writel(0x77999999, CREG_AXI_M_SLV1(M_USB_HOST));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_USB_HOST));
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writel(0x76DCBA98, CREG_AXI_M_OFT1(M_USB_HOST));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_USB_HOST));
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writel(0x77777777, CREG_AXI_M_SLV0(M_ETHERNET));
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writel(0x77999999, CREG_AXI_M_SLV1(M_ETHERNET));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_ETHERNET));
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writel(0x76DCBA98, CREG_AXI_M_OFT1(M_ETHERNET));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_ETHERNET));
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writel(0x77777777, CREG_AXI_M_SLV0(M_SDIO));
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writel(0x77999999, CREG_AXI_M_SLV1(M_SDIO));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_SDIO));
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writel(0x76DCBA98, CREG_AXI_M_OFT1(M_SDIO));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_SDIO));
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writel(0x77777777, CREG_AXI_M_SLV0(M_GPU));
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writel(0x77777777, CREG_AXI_M_SLV1(M_GPU));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_GPU));
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writel(0x76543210, CREG_AXI_M_OFT1(M_GPU));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_GPU));
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writel(0x77777777, CREG_AXI_M_SLV0(M_DMAC_0));
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writel(0x77777777, CREG_AXI_M_SLV1(M_DMAC_0));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_DMAC_0));
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writel(0x76543210, CREG_AXI_M_OFT1(M_DMAC_0));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_DMAC_0));
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writel(0x77777777, CREG_AXI_M_SLV0(M_DMAC_1));
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writel(0x77777777, CREG_AXI_M_SLV1(M_DMAC_1));
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writel(0xFEDCBA98, CREG_AXI_M_OFT0(M_DMAC_1));
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writel(0x76543210, CREG_AXI_M_OFT1(M_DMAC_1));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_DMAC_1));
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writel(0x00000000, CREG_AXI_M_SLV0(M_DVFS));
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writel(0x60000000, CREG_AXI_M_SLV1(M_DVFS));
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writel(0x00000000, CREG_AXI_M_OFT0(M_DVFS));
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writel(0x00000000, CREG_AXI_M_OFT1(M_DVFS));
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writel(UPDATE_VAL, CREG_AXI_M_UPDT(M_DVFS));
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/*
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* PAE remapping for DMA clients does not work due to an RTL bug, so
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* CREG_PAE register must be programmed to all zeroes, otherwise it
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* will cause problems with DMA to/from peripherals even if PAE40 is
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* not used.
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*/
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writel(0x00000000, CREG_PAE);
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writel(UPDATE_VAL, CREG_PAE_UPDT);
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}
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/* Default is 1, which means "PAE offset = 4GByte" */
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writel_relaxed(0, (void __iomem *) CREG_PAE);
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/* Really apply settings made above */
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writel(1, (void __iomem *) CREG_PAE_UPDATE);
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static void __init hsdk_init_early(void)
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{
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hsdk_init_memory_bridge();
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/*
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* Switch SDIO external ciu clock divider from default div-by-8 to
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