mirror of https://gitee.com/openkylin/linux.git
207 lines
5.6 KiB
C
207 lines
5.6 KiB
C
/*
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* arch/arm/mach-orion5x/addr-map.c
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*
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* Address map functions for Marvell Orion 5x SoCs
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*
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* Maintainer: Tzachi Perelstein <tzachi@marvell.com>
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*
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* This file is licensed under the terms of the GNU General Public
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* License version 2. This program is licensed "as is" without any
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* warranty of any kind, whether express or implied.
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*/
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#include <linux/kernel.h>
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#include <linux/init.h>
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#include <linux/mbus.h>
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#include <linux/io.h>
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#include <linux/errno.h>
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#include <mach/hardware.h>
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#include "common.h"
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/*
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* The Orion has fully programmable address map. There's a separate address
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* map for each of the device _master_ interfaces, e.g. CPU, PCI, PCIe, USB,
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* Gigabit Ethernet, DMA/XOR engines, etc. Each interface has its own
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* address decode windows that allow it to access any of the Orion resources.
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*
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* CPU address decoding --
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* Linux assumes that it is the boot loader that already setup the access to
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* DDR and internal registers.
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* Setup access to PCI and PCIe IO/MEM space is issued by this file.
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* Setup access to various devices located on the device bus interface (e.g.
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* flashes, RTC, etc) should be issued by machine-setup.c according to
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* specific board population (by using orion5x_setup_*_win()).
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*
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* Non-CPU Masters address decoding --
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* Unlike the CPU, we setup the access from Orion's master interfaces to DDR
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* banks only (the typical use case).
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* Setup access for each master to DDR is issued by platform device setup.
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*/
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/*
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* Generic Address Decode Windows bit settings
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*/
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#define TARGET_DDR 0
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#define TARGET_DEV_BUS 1
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#define TARGET_PCI 3
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#define TARGET_PCIE 4
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#define TARGET_SRAM 9
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#define ATTR_PCIE_MEM 0x59
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#define ATTR_PCIE_IO 0x51
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#define ATTR_PCIE_WA 0x79
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#define ATTR_PCI_MEM 0x59
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#define ATTR_PCI_IO 0x51
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#define ATTR_DEV_CS0 0x1e
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#define ATTR_DEV_CS1 0x1d
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#define ATTR_DEV_CS2 0x1b
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#define ATTR_DEV_BOOT 0xf
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#define ATTR_SRAM 0x0
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/*
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* Helpers to get DDR bank info
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*/
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#define ORION5X_DDR_REG(x) (ORION5X_DDR_VIRT_BASE | (x))
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#define DDR_BASE_CS(n) ORION5X_DDR_REG(0x1500 + ((n) << 3))
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#define DDR_SIZE_CS(n) ORION5X_DDR_REG(0x1504 + ((n) << 3))
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/*
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* CPU Address Decode Windows registers
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*/
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#define ORION5X_BRIDGE_REG(x) (ORION5X_BRIDGE_VIRT_BASE | (x))
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#define CPU_WIN_CTRL(n) ORION5X_BRIDGE_REG(0x000 | ((n) << 4))
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#define CPU_WIN_BASE(n) ORION5X_BRIDGE_REG(0x004 | ((n) << 4))
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#define CPU_WIN_REMAP_LO(n) ORION5X_BRIDGE_REG(0x008 | ((n) << 4))
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#define CPU_WIN_REMAP_HI(n) ORION5X_BRIDGE_REG(0x00c | ((n) << 4))
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struct mbus_dram_target_info orion5x_mbus_dram_info;
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static int __initdata win_alloc_count;
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static int __init orion5x_cpu_win_can_remap(int win)
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{
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u32 dev, rev;
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orion5x_pcie_id(&dev, &rev);
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if ((dev == MV88F5281_DEV_ID && win < 4)
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|| (dev == MV88F5182_DEV_ID && win < 2)
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|| (dev == MV88F5181_DEV_ID && win < 2)
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|| (dev == MV88F6183_DEV_ID && win < 4))
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return 1;
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return 0;
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}
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static int __init setup_cpu_win(int win, u32 base, u32 size,
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u8 target, u8 attr, int remap)
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{
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if (win >= 8) {
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printk(KERN_ERR "setup_cpu_win: trying to allocate "
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"window %d\n", win);
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return -ENOSPC;
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}
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writel(base & 0xffff0000, CPU_WIN_BASE(win));
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writel(((size - 1) & 0xffff0000) | (attr << 8) | (target << 4) | 1,
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CPU_WIN_CTRL(win));
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if (orion5x_cpu_win_can_remap(win)) {
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if (remap < 0)
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remap = base;
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writel(remap & 0xffff0000, CPU_WIN_REMAP_LO(win));
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writel(0, CPU_WIN_REMAP_HI(win));
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}
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return 0;
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}
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void __init orion5x_setup_cpu_mbus_bridge(void)
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{
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int i;
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int cs;
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/*
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* First, disable and clear windows.
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*/
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for (i = 0; i < 8; i++) {
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writel(0, CPU_WIN_BASE(i));
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writel(0, CPU_WIN_CTRL(i));
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if (orion5x_cpu_win_can_remap(i)) {
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writel(0, CPU_WIN_REMAP_LO(i));
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writel(0, CPU_WIN_REMAP_HI(i));
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}
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}
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/*
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* Setup windows for PCI+PCIe IO+MEM space.
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*/
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setup_cpu_win(0, ORION5X_PCIE_IO_PHYS_BASE, ORION5X_PCIE_IO_SIZE,
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TARGET_PCIE, ATTR_PCIE_IO, ORION5X_PCIE_IO_BUS_BASE);
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setup_cpu_win(1, ORION5X_PCI_IO_PHYS_BASE, ORION5X_PCI_IO_SIZE,
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TARGET_PCI, ATTR_PCI_IO, ORION5X_PCI_IO_BUS_BASE);
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setup_cpu_win(2, ORION5X_PCIE_MEM_PHYS_BASE, ORION5X_PCIE_MEM_SIZE,
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TARGET_PCIE, ATTR_PCIE_MEM, -1);
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setup_cpu_win(3, ORION5X_PCI_MEM_PHYS_BASE, ORION5X_PCI_MEM_SIZE,
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TARGET_PCI, ATTR_PCI_MEM, -1);
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win_alloc_count = 4;
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/*
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* Setup MBUS dram target info.
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*/
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orion5x_mbus_dram_info.mbus_dram_target_id = TARGET_DDR;
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for (i = 0, cs = 0; i < 4; i++) {
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u32 base = readl(DDR_BASE_CS(i));
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u32 size = readl(DDR_SIZE_CS(i));
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/*
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* Chip select enabled?
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*/
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if (size & 1) {
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struct mbus_dram_window *w;
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w = &orion5x_mbus_dram_info.cs[cs++];
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w->cs_index = i;
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w->mbus_attr = 0xf & ~(1 << i);
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w->base = base & 0xffff0000;
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w->size = (size | 0x0000ffff) + 1;
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}
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}
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orion5x_mbus_dram_info.num_cs = cs;
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}
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void __init orion5x_setup_dev_boot_win(u32 base, u32 size)
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{
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setup_cpu_win(win_alloc_count++, base, size,
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TARGET_DEV_BUS, ATTR_DEV_BOOT, -1);
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}
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void __init orion5x_setup_dev0_win(u32 base, u32 size)
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{
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setup_cpu_win(win_alloc_count++, base, size,
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TARGET_DEV_BUS, ATTR_DEV_CS0, -1);
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}
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void __init orion5x_setup_dev1_win(u32 base, u32 size)
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{
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setup_cpu_win(win_alloc_count++, base, size,
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TARGET_DEV_BUS, ATTR_DEV_CS1, -1);
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}
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void __init orion5x_setup_dev2_win(u32 base, u32 size)
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{
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setup_cpu_win(win_alloc_count++, base, size,
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TARGET_DEV_BUS, ATTR_DEV_CS2, -1);
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}
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void __init orion5x_setup_pcie_wa_win(u32 base, u32 size)
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{
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setup_cpu_win(win_alloc_count++, base, size,
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TARGET_PCIE, ATTR_PCIE_WA, -1);
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}
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int __init orion5x_setup_sram_win(void)
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{
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return setup_cpu_win(win_alloc_count++, ORION5X_SRAM_PHYS_BASE,
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ORION5X_SRAM_SIZE, TARGET_SRAM, ATTR_SRAM, -1);
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}
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