927f3e0253
Add support for the MIPS firmware processor, used in the Series AXE GPU. The MIPS firmware processor uses a separate MMU to the rest of the GPU, so this patch adds support for that as well. Changes since v8: - Corrected license identifiers Changes since v6: - Fix integer overflow in VM map error path Changes since v5: - Use alloc_page() when allocating MIPS pagetable Changes since v3: - Get regs resource (removed from GPU resources commit) Signed-off-by: Sarah Walker <sarah.walker@imgtec.com> Signed-off-by: Donald Robson <donald.robson@imgtec.com> Link: https://lore.kernel.org/r/a114f7b3e97cb07460c7f2842901716a9207b0c4.1700668843.git.donald.robson@imgtec.com Signed-off-by: Maxime Ripard <mripard@kernel.org>
253 lines
8.4 KiB
C
253 lines
8.4 KiB
C
// SPDX-License-Identifier: GPL-2.0-only OR MIT
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/* Copyright (c) 2023 Imagination Technologies Ltd. */
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#include "pvr_device.h"
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#include "pvr_fw.h"
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#include "pvr_fw_mips.h"
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#include "pvr_gem.h"
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#include "pvr_rogue_mips.h"
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#include "pvr_vm_mips.h"
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#include <linux/elf.h>
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#include <linux/err.h>
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#include <linux/types.h>
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#define ROGUE_FW_HEAP_MIPS_BASE 0xC0000000
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#define ROGUE_FW_HEAP_MIPS_SHIFT 24 /* 16 MB */
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#define ROGUE_FW_HEAP_MIPS_RESERVED_SIZE SZ_1M
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/**
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* process_elf_command_stream() - Process ELF firmware image and populate
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* firmware sections
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* @pvr_dev: Device pointer.
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* @fw: Pointer to firmware image.
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* @fw_code_ptr: Pointer to FW code section.
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* @fw_data_ptr: Pointer to FW data section.
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* @fw_core_code_ptr: Pointer to FW coremem code section.
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* @fw_core_data_ptr: Pointer to FW coremem data section.
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*
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* Returns :
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* * 0 on success, or
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* * -EINVAL on any error in ELF command stream.
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*/
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static int
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process_elf_command_stream(struct pvr_device *pvr_dev, const u8 *fw, u8 *fw_code_ptr,
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u8 *fw_data_ptr, u8 *fw_core_code_ptr, u8 *fw_core_data_ptr)
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{
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struct elf32_hdr *header = (struct elf32_hdr *)fw;
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struct elf32_phdr *program_header = (struct elf32_phdr *)(fw + header->e_phoff);
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struct drm_device *drm_dev = from_pvr_device(pvr_dev);
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u32 entry;
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int err;
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for (entry = 0; entry < header->e_phnum; entry++, program_header++) {
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void *write_addr;
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/* Only consider loadable entries in the ELF segment table */
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if (program_header->p_type != PT_LOAD)
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continue;
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err = pvr_fw_find_mmu_segment(pvr_dev, program_header->p_vaddr,
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program_header->p_memsz, fw_code_ptr, fw_data_ptr,
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fw_core_code_ptr, fw_core_data_ptr, &write_addr);
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if (err) {
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drm_err(drm_dev,
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"Addr 0x%x (size: %d) not found in any firmware segment",
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program_header->p_vaddr, program_header->p_memsz);
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return err;
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}
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/* Write to FW allocation only if available */
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if (write_addr) {
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memcpy(write_addr, fw + program_header->p_offset,
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program_header->p_filesz);
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memset((u8 *)write_addr + program_header->p_filesz, 0,
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program_header->p_memsz - program_header->p_filesz);
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}
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}
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return 0;
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}
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static int
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pvr_mips_init(struct pvr_device *pvr_dev)
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{
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pvr_fw_heap_info_init(pvr_dev, ROGUE_FW_HEAP_MIPS_SHIFT, ROGUE_FW_HEAP_MIPS_RESERVED_SIZE);
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return pvr_vm_mips_init(pvr_dev);
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}
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static void
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pvr_mips_fini(struct pvr_device *pvr_dev)
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{
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pvr_vm_mips_fini(pvr_dev);
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}
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static int
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pvr_mips_fw_process(struct pvr_device *pvr_dev, const u8 *fw,
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u8 *fw_code_ptr, u8 *fw_data_ptr, u8 *fw_core_code_ptr, u8 *fw_core_data_ptr,
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u32 core_code_alloc_size)
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{
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struct pvr_fw_device *fw_dev = &pvr_dev->fw_dev;
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struct pvr_fw_mips_data *mips_data = fw_dev->processor_data.mips_data;
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const struct pvr_fw_layout_entry *boot_code_entry;
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const struct pvr_fw_layout_entry *boot_data_entry;
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const struct pvr_fw_layout_entry *exception_code_entry;
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const struct pvr_fw_layout_entry *stack_entry;
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struct rogue_mipsfw_boot_data *boot_data;
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dma_addr_t dma_addr;
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u32 page_nr;
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int err;
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err = process_elf_command_stream(pvr_dev, fw, fw_code_ptr, fw_data_ptr, fw_core_code_ptr,
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fw_core_data_ptr);
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if (err)
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return err;
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boot_code_entry = pvr_fw_find_layout_entry(pvr_dev, MIPS_BOOT_CODE);
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boot_data_entry = pvr_fw_find_layout_entry(pvr_dev, MIPS_BOOT_DATA);
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exception_code_entry = pvr_fw_find_layout_entry(pvr_dev, MIPS_EXCEPTIONS_CODE);
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if (!boot_code_entry || !boot_data_entry || !exception_code_entry)
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return -EINVAL;
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WARN_ON(pvr_gem_get_dma_addr(fw_dev->mem.code_obj->gem, boot_code_entry->alloc_offset,
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&mips_data->boot_code_dma_addr));
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WARN_ON(pvr_gem_get_dma_addr(fw_dev->mem.data_obj->gem, boot_data_entry->alloc_offset,
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&mips_data->boot_data_dma_addr));
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WARN_ON(pvr_gem_get_dma_addr(fw_dev->mem.code_obj->gem,
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exception_code_entry->alloc_offset,
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&mips_data->exception_code_dma_addr));
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stack_entry = pvr_fw_find_layout_entry(pvr_dev, MIPS_STACK);
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if (!stack_entry)
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return -EINVAL;
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boot_data = (struct rogue_mipsfw_boot_data *)(fw_data_ptr + boot_data_entry->alloc_offset +
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ROGUE_MIPSFW_BOOTLDR_CONF_OFFSET);
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WARN_ON(pvr_fw_object_get_dma_addr(fw_dev->mem.data_obj, stack_entry->alloc_offset,
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&dma_addr));
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boot_data->stack_phys_addr = dma_addr;
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boot_data->reg_base = pvr_dev->regs_resource->start;
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for (page_nr = 0; page_nr < ARRAY_SIZE(boot_data->pt_phys_addr); page_nr++) {
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/* Firmware expects 4k pages, but host page size might be different. */
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u32 src_page_nr = (page_nr * ROGUE_MIPSFW_PAGE_SIZE_4K) >> PAGE_SHIFT;
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u32 page_offset = (page_nr * ROGUE_MIPSFW_PAGE_SIZE_4K) & ~PAGE_MASK;
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boot_data->pt_phys_addr[page_nr] = mips_data->pt_dma_addr[src_page_nr] +
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page_offset;
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}
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boot_data->pt_log2_page_size = ROGUE_MIPSFW_LOG2_PAGE_SIZE_4K;
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boot_data->pt_num_pages = ROGUE_MIPSFW_MAX_NUM_PAGETABLE_PAGES;
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boot_data->reserved1 = 0;
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boot_data->reserved2 = 0;
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return 0;
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}
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static int
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pvr_mips_wrapper_init(struct pvr_device *pvr_dev)
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{
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struct pvr_fw_mips_data *mips_data = pvr_dev->fw_dev.processor_data.mips_data;
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const u64 remap_settings = ROGUE_MIPSFW_BOOT_REMAP_LOG2_SEGMENT_SIZE;
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u32 phys_bus_width;
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int err = PVR_FEATURE_VALUE(pvr_dev, phys_bus_width, &phys_bus_width);
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if (WARN_ON(err))
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return err;
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/* Currently MIPS FW only supported with physical bus width > 32 bits. */
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if (WARN_ON(phys_bus_width <= 32))
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return -EINVAL;
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pvr_cr_write32(pvr_dev, ROGUE_CR_MIPS_WRAPPER_CONFIG,
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(ROGUE_MIPSFW_REGISTERS_VIRTUAL_BASE >>
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ROGUE_MIPSFW_WRAPPER_CONFIG_REGBANK_ADDR_ALIGN) |
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ROGUE_CR_MIPS_WRAPPER_CONFIG_BOOT_ISA_MODE_MICROMIPS);
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/* Configure remap for boot code, boot data and exceptions code areas. */
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP1_CONFIG1,
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ROGUE_MIPSFW_BOOT_REMAP_PHYS_ADDR_IN |
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ROGUE_CR_MIPS_ADDR_REMAP1_CONFIG1_MODE_ENABLE_EN);
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP1_CONFIG2,
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(mips_data->boot_code_dma_addr &
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~ROGUE_CR_MIPS_ADDR_REMAP1_CONFIG2_ADDR_OUT_CLRMSK) | remap_settings);
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if (PVR_HAS_QUIRK(pvr_dev, 63553)) {
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/*
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* WA always required on 36 bit cores, to avoid continuous unmapped memory accesses
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* to address 0x0.
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*/
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WARN_ON(phys_bus_width != 36);
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP5_CONFIG1,
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ROGUE_CR_MIPS_ADDR_REMAP5_CONFIG1_MODE_ENABLE_EN);
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP5_CONFIG2,
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(mips_data->boot_code_dma_addr &
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~ROGUE_CR_MIPS_ADDR_REMAP5_CONFIG2_ADDR_OUT_CLRMSK) |
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remap_settings);
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}
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP2_CONFIG1,
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ROGUE_MIPSFW_DATA_REMAP_PHYS_ADDR_IN |
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ROGUE_CR_MIPS_ADDR_REMAP2_CONFIG1_MODE_ENABLE_EN);
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP2_CONFIG2,
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(mips_data->boot_data_dma_addr &
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~ROGUE_CR_MIPS_ADDR_REMAP2_CONFIG2_ADDR_OUT_CLRMSK) | remap_settings);
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP3_CONFIG1,
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ROGUE_MIPSFW_CODE_REMAP_PHYS_ADDR_IN |
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ROGUE_CR_MIPS_ADDR_REMAP3_CONFIG1_MODE_ENABLE_EN);
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pvr_cr_write64(pvr_dev, ROGUE_CR_MIPS_ADDR_REMAP3_CONFIG2,
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(mips_data->exception_code_dma_addr &
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~ROGUE_CR_MIPS_ADDR_REMAP3_CONFIG2_ADDR_OUT_CLRMSK) | remap_settings);
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/* Garten IDLE bit controlled by MIPS. */
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pvr_cr_write64(pvr_dev, ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG,
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ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG_IDLE_CTRL_META);
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/* Turn on the EJTAG probe. */
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pvr_cr_write32(pvr_dev, ROGUE_CR_MIPS_DEBUG_CONFIG, 0);
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return 0;
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}
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static u32
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pvr_mips_get_fw_addr_with_offset(struct pvr_fw_object *fw_obj, u32 offset)
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{
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struct pvr_device *pvr_dev = to_pvr_device(gem_from_pvr_gem(fw_obj->gem)->dev);
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/* MIPS cacheability is determined by page table. */
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return ((fw_obj->fw_addr_offset + offset) & pvr_dev->fw_dev.fw_heap_info.offset_mask) |
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ROGUE_FW_HEAP_MIPS_BASE;
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}
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static bool
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pvr_mips_has_fixed_data_addr(void)
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{
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return true;
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}
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const struct pvr_fw_defs pvr_fw_defs_mips = {
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.init = pvr_mips_init,
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.fini = pvr_mips_fini,
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.fw_process = pvr_mips_fw_process,
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.vm_map = pvr_vm_mips_map,
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.vm_unmap = pvr_vm_mips_unmap,
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.get_fw_addr_with_offset = pvr_mips_get_fw_addr_with_offset,
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.wrapper_init = pvr_mips_wrapper_init,
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.has_fixed_data_addr = pvr_mips_has_fixed_data_addr,
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.irq = {
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.enable_reg = ROGUE_CR_MIPS_WRAPPER_IRQ_ENABLE,
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.status_reg = ROGUE_CR_MIPS_WRAPPER_IRQ_STATUS,
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.clear_reg = ROGUE_CR_MIPS_WRAPPER_IRQ_CLEAR,
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.event_mask = ROGUE_CR_MIPS_WRAPPER_IRQ_STATUS_EVENT_EN,
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.clear_mask = ROGUE_CR_MIPS_WRAPPER_IRQ_CLEAR_EVENT_EN,
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},
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};
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