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|
// SPDX-License-Identifier: GPL-2.0-only OR MIT
/* Copyright (c) 2023 Imagination Technologies Ltd. */
#include "pvr_device.h"
#include "pvr_fw.h"
#include "pvr_fw_info.h"
#include "pvr_fw_meta.h"
#include "pvr_gem.h"
#include "pvr_rogue_cr_defs.h"
#include "pvr_rogue_meta.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_META_SHIFT 25 /* 32 MB */
#define POLL_TIMEOUT_USEC 1000000
/**
* pvr_meta_cr_read32() - Read a META register via the Slave Port
* @pvr_dev: Device pointer.
* @reg_addr: Address of register to read.
* @reg_value_out: Pointer to location to store register value.
*
* Returns:
* * 0 on success, or
* * Any error returned by pvr_cr_poll_reg32().
*/
int
pvr_meta_cr_read32(struct pvr_device *pvr_dev, u32 reg_addr, u32 *reg_value_out)
{
int err;
/* Wait for Slave Port to be Ready. */
err = pvr_cr_poll_reg32(pvr_dev, ROGUE_CR_META_SP_MSLVCTRL1,
ROGUE_CR_META_SP_MSLVCTRL1_READY_EN |
ROGUE_CR_META_SP_MSLVCTRL1_GBLPORT_IDLE_EN,
ROGUE_CR_META_SP_MSLVCTRL1_READY_EN |
ROGUE_CR_META_SP_MSLVCTRL1_GBLPORT_IDLE_EN,
POLL_TIMEOUT_USEC);
if (err)
return err;
/* Issue a Read. */
pvr_cr_write32(pvr_dev, ROGUE_CR_META_SP_MSLVCTRL0,
reg_addr | ROGUE_CR_META_SP_MSLVCTRL0_RD_EN);
(void)pvr_cr_read32(pvr_dev, ROGUE_CR_META_SP_MSLVCTRL0); /* Fence write. */
/* Wait for Slave Port to be Ready. */
err = pvr_cr_poll_reg32(pvr_dev, ROGUE_CR_META_SP_MSLVCTRL1,
ROGUE_CR_META_SP_MSLVCTRL1_READY_EN |
ROGUE_CR_META_SP_MSLVCTRL1_GBLPORT_IDLE_EN,
ROGUE_CR_META_SP_MSLVCTRL1_READY_EN |
ROGUE_CR_META_SP_MSLVCTRL1_GBLPORT_IDLE_EN,
POLL_TIMEOUT_USEC);
if (err)
return err;
*reg_value_out = pvr_cr_read32(pvr_dev, ROGUE_CR_META_SP_MSLVDATAX);
return 0;
}
static int
pvr_meta_wrapper_init(struct pvr_device *pvr_dev)
{
u64 garten_config;
/* Configure META to Master boot. */
pvr_cr_write64(pvr_dev, ROGUE_CR_META_BOOT, ROGUE_CR_META_BOOT_MODE_EN);
/* Set Garten IDLE to META idle and Set the Garten Wrapper BIF Fence address. */
/* Garten IDLE bit controlled by META. */
garten_config = ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG_IDLE_CTRL_META;
/* The fence addr is set during the fw init sequence. */
/* Set PC = 0 for fences. */
garten_config &=
ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG_FENCE_PC_BASE_CLRMSK;
garten_config |=
(u64)MMU_CONTEXT_MAPPING_FWPRIV
<< ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG_FENCE_PC_BASE_SHIFT;
/* Set SLC DM=META. */
garten_config |= ((u64)ROGUE_FW_SEGMMU_META_BIFDM_ID)
<< ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG_FENCE_DM_SHIFT;
pvr_cr_write64(pvr_dev, ROGUE_CR_MTS_GARTEN_WRAPPER_CONFIG, garten_config);
return 0;
}
static __always_inline void
add_boot_arg(u32 **boot_conf, u32 param, u32 data)
{
*(*boot_conf)++ = param;
*(*boot_conf)++ = data;
}
static int
meta_ldr_cmd_loadmem(struct drm_device *drm_dev, const u8 *fw,
struct rogue_meta_ldr_l1_data_blk *l1_data, u32 coremem_size, u8 *fw_code_ptr,
u8 *fw_data_ptr, u8 *fw_core_code_ptr, u8 *fw_core_data_ptr, const u32 fw_size)
{
struct rogue_meta_ldr_l2_data_blk *l2_block =
(struct rogue_meta_ldr_l2_data_blk *)(fw +
l1_data->cmd_data[1]);
struct pvr_device *pvr_dev = to_pvr_device(drm_dev);
u32 offset = l1_data->cmd_data[0];
u32 data_size;
void *write_addr;
int err;
/* Verify header is within bounds. */
if (((u8 *)l2_block - fw) >= fw_size || ((u8 *)(l2_block + 1) - fw) >= fw_size)
return -EINVAL;
data_size = l2_block->length - 6 /* L2 Tag length and checksum */;
/* Verify data is within bounds. */
if (((u8 *)l2_block->block_data - fw) >= fw_size ||
((((u8 *)l2_block->block_data) + data_size) - fw) >= fw_size)
return -EINVAL;
if (!ROGUE_META_IS_COREMEM_CODE(offset, coremem_size) &&
!ROGUE_META_IS_COREMEM_DATA(offset, coremem_size)) {
/* Global range is aliased to local range */
offset &= ~META_MEM_GLOBAL_RANGE_BIT;
}
err = pvr_fw_find_mmu_segment(pvr_dev, offset, data_size, fw_code_ptr, fw_data_ptr,
fw_core_code_ptr, fw_core_data_ptr, &write_addr);
if (err) {
drm_err(drm_dev,
"Addr 0x%x (size: %d) not found in any firmware segment",
offset, data_size);
return err;
}
memcpy(write_addr, l2_block->block_data, data_size);
return 0;
}
static int
meta_ldr_cmd_zeromem(struct drm_device *drm_dev,
struct rogue_meta_ldr_l1_data_blk *l1_data, u32 coremem_size,
u8 *fw_code_ptr, u8 *fw_data_ptr, u8 *fw_core_code_ptr, u8 *fw_core_data_ptr)
{
struct pvr_device *pvr_dev = to_pvr_device(drm_dev);
u32 offset = l1_data->cmd_data[0];
u32 byte_count = l1_data->cmd_data[1];
void *write_addr;
int err;
if (ROGUE_META_IS_COREMEM_DATA(offset, coremem_size)) {
/* cannot zero coremem directly */
return 0;
}
/* Global range is aliased to local range */
offset &= ~META_MEM_GLOBAL_RANGE_BIT;
err = pvr_fw_find_mmu_segment(pvr_dev, offset, byte_count, fw_code_ptr, fw_data_ptr,
fw_core_code_ptr, fw_core_data_ptr, &write_addr);
if (err) {
drm_err(drm_dev,
"Addr 0x%x (size: %d) not found in any firmware segment",
offset, byte_count);
return err;
}
memset(write_addr, 0, byte_count);
return 0;
}
static int
meta_ldr_cmd_config(struct drm_device *drm_dev, const u8 *fw,
struct rogue_meta_ldr_l1_data_blk *l1_data,
const u32 fw_size, u32 **boot_conf_ptr)
{
struct rogue_meta_ldr_l2_data_blk *l2_block =
(struct rogue_meta_ldr_l2_data_blk *)(fw +
l1_data->cmd_data[0]);
struct rogue_meta_ldr_cfg_blk *config_command;
u32 l2_block_size;
u32 curr_block_size = 0;
u32 *boot_conf = boot_conf_ptr ? *boot_conf_ptr : NULL;
/* Verify block header is within bounds. */
if (((u8 *)l2_block - fw) >= fw_size || ((u8 *)(l2_block + 1) - fw) >= fw_size)
return -EINVAL;
l2_block_size = l2_block->length - 6 /* L2 Tag length and checksum */;
config_command = (struct rogue_meta_ldr_cfg_blk *)l2_block->block_data;
if (((u8 *)config_command - fw) >= fw_size ||
((((u8 *)config_command) + l2_block_size) - fw) >= fw_size)
return -EINVAL;
while (l2_block_size >= 12) {
if (config_command->type != ROGUE_META_LDR_CFG_WRITE)
return -EINVAL;
/*
* Only write to bootloader if we got a valid pointer to the FW
* code allocation.
*/
if (boot_conf) {
u32 register_offset = config_command->block_data[0];
u32 register_value = config_command->block_data[1];
/* Do register write */
add_boot_arg(&boot_conf, register_offset,
register_value);
}
curr_block_size = 12;
l2_block_size -= curr_block_size;
config_command = (struct rogue_meta_ldr_cfg_blk
*)((uintptr_t)config_command +
curr_block_size);
}
if (boot_conf_ptr)
*boot_conf_ptr = boot_conf;
return 0;
}
/**
* process_ldr_command_stream() - Process LDR firmware image and populate
* firmware sections
* @pvr_dev: Device pointer.
* @fw: Pointer to firmware image.
* @fw_code_ptr: Pointer to FW code section.
* @fw_data_ptr: Pointer to FW data section.
* @fw_core_code_ptr: Pointer to FW coremem code section.
* @fw_core_data_ptr: Pointer to FW coremem data section.
* @boot_conf_ptr: Pointer to boot config argument pointer.
*
* Returns :
* * 0 on success, or
* * -EINVAL on any error in LDR command stream.
*/
static int
process_ldr_command_stream(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 **boot_conf_ptr)
{
struct drm_device *drm_dev = from_pvr_device(pvr_dev);
struct rogue_meta_ldr_block_hdr *ldr_header =
(struct rogue_meta_ldr_block_hdr *)fw;
struct rogue_meta_ldr_l1_data_blk *l1_data =
(struct rogue_meta_ldr_l1_data_blk *)(fw + ldr_header->sl_data);
const u32 fw_size = pvr_dev->fw_dev.firmware->size;
int err;
u32 *boot_conf = boot_conf_ptr ? *boot_conf_ptr : NULL;
u32 coremem_size;
err = PVR_FEATURE_VALUE(pvr_dev, meta_coremem_size, &coremem_size);
if (err)
return err;
coremem_size *= SZ_1K;
while (l1_data) {
/* Verify block header is within bounds. */
if (((u8 *)l1_data - fw) >= fw_size || ((u8 *)(l1_data + 1) - fw) >= fw_size)
return -EINVAL;
if (ROGUE_META_LDR_BLK_IS_COMMENT(l1_data->cmd)) {
/* Don't process comment blocks */
goto next_block;
}
switch (l1_data->cmd & ROGUE_META_LDR_CMD_MASK)
case ROGUE_META_LDR_CMD_LOADMEM: {
err = meta_ldr_cmd_loadmem(drm_dev, fw, l1_data,
coremem_size,
fw_code_ptr, fw_data_ptr,
fw_core_code_ptr,
fw_core_data_ptr, fw_size);
if (err)
return err;
break;
case ROGUE_META_LDR_CMD_START_THREADS:
/* Don't process this block */
break;
case ROGUE_META_LDR_CMD_ZEROMEM:
err = meta_ldr_cmd_zeromem(drm_dev, l1_data,
coremem_size,
fw_code_ptr, fw_data_ptr,
fw_core_code_ptr,
fw_core_data_ptr);
if (err)
return err;
break;
case ROGUE_META_LDR_CMD_CONFIG:
err = meta_ldr_cmd_config(drm_dev, fw, l1_data, fw_size,
&boot_conf);
if (err)
return err;
break;
default:
return -EINVAL;
}
next_block:
if (l1_data->next == 0xFFFFFFFF)
break;
l1_data = (struct rogue_meta_ldr_l1_data_blk *)(fw +
l1_data->next);
}
if (boot_conf_ptr)
*boot_conf_ptr = boot_conf;
return 0;
}
static void
configure_seg_id(u64 seg_out_addr, u32 seg_base, u32 seg_limit, u32 seg_id,
u32 **boot_conf_ptr)
{
u32 seg_out_addr0 = seg_out_addr & 0x00000000FFFFFFFFUL;
u32 seg_out_addr1 = (seg_out_addr >> 32) & 0x00000000FFFFFFFFUL;
u32 *boot_conf = *boot_conf_ptr;
/* META segments have a minimum size. */
u32 limit_off = max(seg_limit, ROGUE_FW_SEGMMU_ALIGN);
/* The limit is an offset, therefore off = size - 1. */
limit_off -= 1;
seg_base |= ROGUE_FW_SEGMMU_ALLTHRS_WRITEABLE;
add_boot_arg(&boot_conf, META_CR_MMCU_SEGMENT_N_BASE(seg_id), seg_base);
add_boot_arg(&boot_conf, META_CR_MMCU_SEGMENT_N_LIMIT(seg_id), limit_off);
add_boot_arg(&boot_conf, META_CR_MMCU_SEGMENT_N_OUTA0(seg_id), seg_out_addr0);
add_boot_arg(&boot_conf, META_CR_MMCU_SEGMENT_N_OUTA1(seg_id), seg_out_addr1);
*boot_conf_ptr = boot_conf;
}
static u64 get_fw_obj_gpu_addr(struct pvr_fw_object *fw_obj)
{
struct pvr_device *pvr_dev = to_pvr_device(gem_from_pvr_gem(fw_obj->gem)->dev);
struct pvr_fw_device *fw_dev = &pvr_dev->fw_dev;
return fw_obj->fw_addr_offset + fw_dev->fw_heap_info.gpu_addr;
}
static void
configure_seg_mmu(struct pvr_device *pvr_dev, u32 **boot_conf_ptr)
{
const struct pvr_fw_layout_entry *layout_entries = pvr_dev->fw_dev.layout_entries;
u32 num_layout_entries = pvr_dev->fw_dev.header->layout_entry_num;
u64 seg_out_addr_top;
u32 i;
seg_out_addr_top =
ROGUE_FW_SEGMMU_OUTADDR_TOP_SLC(MMU_CONTEXT_MAPPING_FWPRIV,
ROGUE_FW_SEGMMU_META_BIFDM_ID);
for (i = 0; i < num_layout_entries; i++) {
/*
* FW code is using the bootloader segment which is already
* configured on boot. FW coremem code and data don't use the
* segment MMU. Only the FW data segment needs to be configured.
*/
if (layout_entries[i].type == FW_DATA) {
u32 seg_id = ROGUE_FW_SEGMMU_DATA_ID;
u64 seg_out_addr = get_fw_obj_gpu_addr(pvr_dev->fw_dev.mem.data_obj);
seg_out_addr += layout_entries[i].alloc_offset;
seg_out_addr |= seg_out_addr_top;
/* Write the sequence to the bootldr. */
configure_seg_id(seg_out_addr,
layout_entries[i].base_addr,
layout_entries[i].alloc_size, seg_id,
boot_conf_ptr);
break;
}
}
}
static void
configure_meta_caches(u32 **boot_conf_ptr)
{
u32 *boot_conf = *boot_conf_ptr;
u32 d_cache_t0, i_cache_t0;
u32 d_cache_t1, i_cache_t1;
u32 d_cache_t2, i_cache_t2;
u32 d_cache_t3, i_cache_t3;
/* Initialise I/Dcache settings */
d_cache_t0 = META_CR_SYSC_DCPARTX_CACHED_WRITE_ENABLE;
d_cache_t1 = META_CR_SYSC_DCPARTX_CACHED_WRITE_ENABLE;
d_cache_t2 = META_CR_SYSC_DCPARTX_CACHED_WRITE_ENABLE;
d_cache_t3 = META_CR_SYSC_DCPARTX_CACHED_WRITE_ENABLE;
i_cache_t0 = 0;
i_cache_t1 = 0;
i_cache_t2 = 0;
i_cache_t3 = 0;
d_cache_t0 |= META_CR_SYSC_XCPARTX_LOCAL_ADDR_FULL_CACHE;
i_cache_t0 |= META_CR_SYSC_XCPARTX_LOCAL_ADDR_FULL_CACHE;
/* Local region MMU enhanced bypass: WIN-3 mode for code and data caches */
add_boot_arg(&boot_conf, META_CR_MMCU_LOCAL_EBCTRL,
META_CR_MMCU_LOCAL_EBCTRL_ICWIN |
META_CR_MMCU_LOCAL_EBCTRL_DCWIN);
/* Data cache partitioning thread 0 to 3 */
add_boot_arg(&boot_conf, META_CR_SYSC_DCPART(0), d_cache_t0);
add_boot_arg(&boot_conf, META_CR_SYSC_DCPART(1), d_cache_t1);
add_boot_arg(&boot_conf, META_CR_SYSC_DCPART(2), d_cache_t2);
add_boot_arg(&boot_conf, META_CR_SYSC_DCPART(3), d_cache_t3);
/* Enable data cache hits */
add_boot_arg(&boot_conf, META_CR_MMCU_DCACHE_CTRL,
META_CR_MMCU_XCACHE_CTRL_CACHE_HITS_EN);
/* Instruction cache partitioning thread 0 to 3 */
add_boot_arg(&boot_conf, META_CR_SYSC_ICPART(0), i_cache_t0);
add_boot_arg(&boot_conf, META_CR_SYSC_ICPART(1), i_cache_t1);
add_boot_arg(&boot_conf, META_CR_SYSC_ICPART(2), i_cache_t2);
add_boot_arg(&boot_conf, META_CR_SYSC_ICPART(3), i_cache_t3);
/* Enable instruction cache hits */
add_boot_arg(&boot_conf, META_CR_MMCU_ICACHE_CTRL,
META_CR_MMCU_XCACHE_CTRL_CACHE_HITS_EN);
add_boot_arg(&boot_conf, 0x040000C0, 0);
*boot_conf_ptr = boot_conf;
}
static int
pvr_meta_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;
u32 *boot_conf;
int err;
boot_conf = ((u32 *)fw_code_ptr) + ROGUE_FW_BOOTLDR_CONF_OFFSET;
/* Slave port and JTAG accesses are privileged. */
add_boot_arg(&boot_conf, META_CR_SYSC_JTAG_THREAD,
META_CR_SYSC_JTAG_THREAD_PRIV_EN);
configure_seg_mmu(pvr_dev, &boot_conf);
/* Populate FW sections from LDR image. */
err = process_ldr_command_stream(pvr_dev, fw, fw_code_ptr, fw_data_ptr, fw_core_code_ptr,
fw_core_data_ptr, &boot_conf);
if (err)
return err;
configure_meta_caches(&boot_conf);
/* End argument list. */
add_boot_arg(&boot_conf, 0, 0);
if (fw_dev->mem.core_code_obj) {
u32 core_code_fw_addr;
pvr_fw_object_get_fw_addr(fw_dev->mem.core_code_obj, &core_code_fw_addr);
add_boot_arg(&boot_conf, core_code_fw_addr, core_code_alloc_size);
} else {
add_boot_arg(&boot_conf, 0, 0);
}
/* None of the cores supported by this driver have META DMA. */
add_boot_arg(&boot_conf, 0, 0);
return 0;
}
static int
pvr_meta_init(struct pvr_device *pvr_dev)
{
pvr_fw_heap_info_init(pvr_dev, ROGUE_FW_HEAP_META_SHIFT, 0);
return 0;
}
static u32
pvr_meta_get_fw_addr_with_offset(struct pvr_fw_object *fw_obj, u32 offset)
{
u32 fw_addr = fw_obj->fw_addr_offset + offset + ROGUE_FW_SEGMMU_DATA_BASE_ADDRESS;
/* META cacheability is determined by address. */
if (fw_obj->gem->flags & PVR_BO_FW_FLAGS_DEVICE_UNCACHED)
fw_addr |= ROGUE_FW_SEGMMU_DATA_META_UNCACHED |
ROGUE_FW_SEGMMU_DATA_VIVT_SLC_UNCACHED;
return fw_addr;
}
static int
pvr_meta_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_meta_vm_unmap(struct pvr_device *pvr_dev, struct pvr_fw_object *fw_obj)
{
pvr_vm_unmap(pvr_dev->kernel_vm_ctx, fw_obj->fw_mm_node.start,
fw_obj->fw_mm_node.size);
}
static bool
pvr_meta_has_fixed_data_addr(void)
{
return false;
}
const struct pvr_fw_defs pvr_fw_defs_meta = {
.init = pvr_meta_init,
.fw_process = pvr_meta_fw_process,
.vm_map = pvr_meta_vm_map,
.vm_unmap = pvr_meta_vm_unmap,
.get_fw_addr_with_offset = pvr_meta_get_fw_addr_with_offset,
.wrapper_init = pvr_meta_wrapper_init,
.has_fixed_data_addr = pvr_meta_has_fixed_data_addr,
.irq = {
.enable_reg = ROGUE_CR_META_SP_MSLVIRQENABLE,
.status_reg = ROGUE_CR_META_SP_MSLVIRQSTATUS,
.clear_reg = ROGUE_CR_META_SP_MSLVIRQSTATUS,
.event_mask = ROGUE_CR_META_SP_MSLVIRQSTATUS_TRIGVECT2_EN,
.clear_mask = ROGUE_CR_META_SP_MSLVIRQSTATUS_TRIGVECT2_CLRMSK,
},
};
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