| Author | Tokens | Token Proportion | Commits | Commit Proportion |
|---|---|---|---|---|
| Sarah Walker | 653 | 98.79% | 5 | 83.33% |
| Donald Robson | 8 | 1.21% | 1 | 16.67% |
| Total | 661 | 6 |
// SPDX-License-Identifier: GPL-2.0 OR MIT /* Copyright (c) 2024 Imagination Technologies Ltd. */ #include "pvr_device.h" #include "pvr_fw.h" #include "pvr_fw_info.h" #include "pvr_fw_mips.h" #include "pvr_gem.h" #include "pvr_rogue_cr_defs.h" #include "pvr_rogue_riscv.h" #include "pvr_vm.h" #include <linux/compiler.h> #include <linux/delay.h> #include <linux/firmware.h> #include <linux/ktime.h> #include <linux/types.h> #define ROGUE_FW_HEAP_RISCV_SHIFT 25 /* 32 MB */ #define ROGUE_FW_HEAP_RISCV_SIZE (1u << ROGUE_FW_HEAP_RISCV_SHIFT) static int pvr_riscv_wrapper_init(struct pvr_device *pvr_dev) { const u64 common_opts = ((u64)(ROGUE_FW_HEAP_RISCV_SIZE >> FWCORE_ADDR_REMAP_CONFIG0_SIZE_ALIGNSHIFT) << ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG0_SIZE_SHIFT) | ((u64)MMU_CONTEXT_MAPPING_FWPRIV << FWCORE_ADDR_REMAP_CONFIG0_MMU_CONTEXT_SHIFT); u64 code_addr = pvr_fw_obj_get_gpu_addr(pvr_dev->fw_dev.mem.code_obj); u64 data_addr = pvr_fw_obj_get_gpu_addr(pvr_dev->fw_dev.mem.data_obj); /* This condition allows us to OR the addresses into the register directly. */ static_assert(ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG1_DEVVADDR_SHIFT == ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG1_DEVVADDR_ALIGNSHIFT); WARN_ON(code_addr & ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG1_DEVVADDR_CLRMSK); WARN_ON(data_addr & ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG1_DEVVADDR_CLRMSK); pvr_cr_write64(pvr_dev, ROGUE_RISCVFW_REGION_REMAP_CR(BOOTLDR_CODE), code_addr | common_opts | ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG0_FETCH_EN_EN); pvr_cr_write64(pvr_dev, ROGUE_RISCVFW_REGION_REMAP_CR(BOOTLDR_DATA), data_addr | common_opts | ROGUE_CR_FWCORE_ADDR_REMAP_CONFIG0_LOAD_STORE_EN_EN); /* Garten IDLE bit controlled by RISC-V. */ pvr_cr_write64(pvr_dev, ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG, ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG_IDLE_CTRL_META); return 0; } struct rogue_riscv_fw_boot_data { u64 coremem_code_dev_vaddr; u64 coremem_data_dev_vaddr; u32 coremem_code_fw_addr; u32 coremem_data_fw_addr; u32 coremem_code_size; u32 coremem_data_size; u32 flags; u32 reserved; }; static int pvr_riscv_fw_process(struct pvr_device *pvr_dev, const u8 *fw, u8 *fw_code_ptr, u8 *fw_data_ptr, u8 *fw_core_code_ptr, u8 *fw_core_data_ptr, u32 core_code_alloc_size) { struct pvr_fw_device *fw_dev = &pvr_dev->fw_dev; struct pvr_fw_mem *fw_mem = &fw_dev->mem; struct rogue_riscv_fw_boot_data *boot_data; int err; err = pvr_fw_process_elf_command_stream(pvr_dev, fw, fw_code_ptr, fw_data_ptr, fw_core_code_ptr, fw_core_data_ptr); if (err) goto err_out; boot_data = (struct rogue_riscv_fw_boot_data *)fw_data_ptr; if (fw_mem->core_code_obj) { boot_data->coremem_code_dev_vaddr = pvr_fw_obj_get_gpu_addr(fw_mem->core_code_obj); pvr_fw_object_get_fw_addr(fw_mem->core_code_obj, &boot_data->coremem_code_fw_addr); boot_data->coremem_code_size = pvr_fw_obj_get_object_size(fw_mem->core_code_obj); } if (fw_mem->core_data_obj) { boot_data->coremem_data_dev_vaddr = pvr_fw_obj_get_gpu_addr(fw_mem->core_data_obj); pvr_fw_object_get_fw_addr(fw_mem->core_data_obj, &boot_data->coremem_data_fw_addr); boot_data->coremem_data_size = pvr_fw_obj_get_object_size(fw_mem->core_data_obj); } return 0; err_out: return err; } static int pvr_riscv_init(struct pvr_device *pvr_dev) { pvr_fw_heap_info_init(pvr_dev, ROGUE_FW_HEAP_RISCV_SHIFT, 0); return 0; } static u32 pvr_riscv_get_fw_addr_with_offset(struct pvr_fw_object *fw_obj, u32 offset) { u32 fw_addr = fw_obj->fw_addr_offset + offset; /* RISC-V cacheability is determined by address. */ if (fw_obj->gem->flags & PVR_BO_FW_FLAGS_DEVICE_UNCACHED) fw_addr |= ROGUE_RISCVFW_REGION_BASE(SHARED_UNCACHED_DATA); else fw_addr |= ROGUE_RISCVFW_REGION_BASE(SHARED_CACHED_DATA); return fw_addr; } static int pvr_riscv_vm_map(struct pvr_device *pvr_dev, struct pvr_fw_object *fw_obj) { struct pvr_gem_object *pvr_obj = fw_obj->gem; return pvr_vm_map(pvr_dev->kernel_vm_ctx, pvr_obj, 0, fw_obj->fw_mm_node.start, pvr_gem_object_size(pvr_obj)); } static void pvr_riscv_vm_unmap(struct pvr_device *pvr_dev, struct pvr_fw_object *fw_obj) { struct pvr_gem_object *pvr_obj = fw_obj->gem; pvr_vm_unmap_obj(pvr_dev->kernel_vm_ctx, pvr_obj, fw_obj->fw_mm_node.start, fw_obj->fw_mm_node.size); } static bool pvr_riscv_irq_pending(struct pvr_device *pvr_dev) { return pvr_cr_read32(pvr_dev, ROGUE_CR_IRQ_OS0_EVENT_STATUS) & ROGUE_CR_IRQ_OS0_EVENT_STATUS_SOURCE_EN; } static void pvr_riscv_irq_clear(struct pvr_device *pvr_dev) { pvr_cr_write32(pvr_dev, ROGUE_CR_IRQ_OS0_EVENT_CLEAR, ROGUE_CR_IRQ_OS0_EVENT_CLEAR_SOURCE_EN); } const struct pvr_fw_defs pvr_fw_defs_riscv = { .init = pvr_riscv_init, .fw_process = pvr_riscv_fw_process, .vm_map = pvr_riscv_vm_map, .vm_unmap = pvr_riscv_vm_unmap, .get_fw_addr_with_offset = pvr_riscv_get_fw_addr_with_offset, .wrapper_init = pvr_riscv_wrapper_init, .irq_pending = pvr_riscv_irq_pending, .irq_clear = pvr_riscv_irq_clear, .has_fixed_data_addr = false, };
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