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/*
* Copyright (c) 2017, NVIDIA CORPORATION. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify it
* under the terms and conditions of the GNU General Public License,
* version 2, as published by the Free Software Foundation.
*
* This program is distributed in the hope it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
* more details.
*/
#include <nvgpu/falcon.h>
#include <nvgpu/pmu.h>
#include "gk20a/gk20a.h"
#include <nvgpu/hw/gk20a/hw_falcon_gk20a.h>
static int gk20a_flcn_reset(struct nvgpu_falcon *flcn)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
u32 unit_status = 0;
int status = 0;
if (flcn->flcn_engine_dep_ops.reset_eng)
/* falcon & engine reset */
status = flcn->flcn_engine_dep_ops.reset_eng(g);
else {
/* do falcon CPU hard reset */
unit_status = gk20a_readl(g, base_addr +
falcon_falcon_cpuctl_r());
gk20a_writel(g, base_addr + falcon_falcon_cpuctl_r(),
(unit_status | falcon_falcon_cpuctl_hreset_f(1)));
}
return status;
}
static void gk20a_flcn_set_irq(struct nvgpu_falcon *flcn, bool enable)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
if (!flcn->is_interrupt_enabled) {
nvgpu_warn(g, "Interrupt not supported on flcn 0x%x ",
flcn->flcn_id);
/* Keep interrupt disabled */
enable = false;
}
if (enable) {
gk20a_writel(g, base_addr + falcon_falcon_irqmset_r(),
flcn->intr_mask);
gk20a_writel(g, base_addr + falcon_falcon_irqdest_r(),
flcn->intr_dest);
} else
gk20a_writel(g, base_addr + falcon_falcon_irqmclr_r(),
0xffffffff);
}
static bool gk20a_is_falcon_cpu_halted(struct nvgpu_falcon *flcn)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
return (gk20a_readl(g, base_addr + falcon_falcon_cpuctl_r()) &
falcon_falcon_cpuctl_halt_intr_m() ?
true : false);
}
static bool gk20a_is_falcon_idle(struct nvgpu_falcon *flcn)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
u32 unit_status = 0;
bool status = false;
unit_status = gk20a_readl(g,
base_addr + falcon_falcon_idlestate_r());
if (falcon_falcon_idlestate_falcon_busy_v(unit_status) == 0 &&
falcon_falcon_idlestate_ext_busy_v(unit_status) == 0)
status = true;
else
status = false;
return status;
}
static bool gk20a_is_falcon_scrubbing_done(struct nvgpu_falcon *flcn)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
u32 unit_status = 0;
bool status = false;
unit_status = gk20a_readl(g,
base_addr + falcon_falcon_dmactl_r());
if (unit_status & (falcon_falcon_dmactl_dmem_scrubbing_m() |
falcon_falcon_dmactl_imem_scrubbing_m()))
status = false;
else
status = true;
return status;
}
static u32 gk20a_falcon_get_mem_size(struct nvgpu_falcon *flcn, u32 mem_type)
{
struct gk20a *g = flcn->g;
u32 mem_size = 0;
u32 hw_cfg_reg = gk20a_readl(g,
flcn->flcn_base + falcon_falcon_hwcfg_r());
if (mem_type == MEM_DMEM)
mem_size = falcon_falcon_hwcfg_dmem_size_v(hw_cfg_reg)
<< GK20A_PMU_DMEM_BLKSIZE2;
else
mem_size = falcon_falcon_hwcfg_imem_size_v(hw_cfg_reg)
<< GK20A_PMU_DMEM_BLKSIZE2;
return mem_size;
}
static int flcn_mem_overflow_check(struct nvgpu_falcon *flcn,
u32 offset, u32 size, u32 mem_type)
{
struct gk20a *g = flcn->g;
u32 mem_size = 0;
if (size == 0) {
nvgpu_err(g, "size is zero");
return -EINVAL;
}
if (offset & 0x3) {
nvgpu_err(g, "offset (0x%08x) not 4-byte aligned", offset);
return -EINVAL;
}
mem_size = gk20a_falcon_get_mem_size(flcn, mem_type);
if (!(offset <= mem_size && (offset + size) <= mem_size)) {
nvgpu_err(g, "flcn-id 0x%x, copy overflow ",
flcn->flcn_id);
nvgpu_err(g, "total size 0x%x, offset 0x%x, copy size 0x%x",
mem_size, offset, size);
return -EINVAL;
}
return 0;
}
static int gk20a_flcn_copy_from_dmem(struct nvgpu_falcon *flcn,
u32 src, u8 *dst, u32 size, u8 port)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
u32 i, words, bytes;
u32 data, addr_mask;
u32 *dst_u32 = (u32 *)dst;
nvgpu_log_fn(g, " src dmem offset - %x, size - %x", src, size);
if (flcn_mem_overflow_check(flcn, src, size, MEM_DMEM)) {
nvgpu_err(g, "incorrect parameters");
return -EINVAL;
}
nvgpu_mutex_acquire(&flcn->copy_lock);
words = size >> 2;
bytes = size & 0x3;
addr_mask = falcon_falcon_dmemc_offs_m() |
falcon_falcon_dmemc_blk_m();
src &= addr_mask;
gk20a_writel(g, base_addr + falcon_falcon_dmemc_r(port),
src | falcon_falcon_dmemc_aincr_f(1));
for (i = 0; i < words; i++)
dst_u32[i] = gk20a_readl(g,
base_addr + falcon_falcon_dmemd_r(port));
if (bytes > 0) {
data = gk20a_readl(g, base_addr + falcon_falcon_dmemd_r(port));
for (i = 0; i < bytes; i++)
dst[(words << 2) + i] = ((u8 *)&data)[i];
}
nvgpu_mutex_release(&flcn->copy_lock);
return 0;
}
static int gk20a_flcn_copy_to_dmem(struct nvgpu_falcon *flcn,
u32 dst, u8 *src, u32 size, u8 port)
{
struct gk20a *g = flcn->g;
u32 base_addr = flcn->flcn_base;
u32 i, words, bytes;
u32 data, addr_mask;
u32 *src_u32 = (u32 *)src;
nvgpu_log_fn(g, "dest dmem offset - %x, size - %x", dst, size);
if (flcn_mem_overflow_check(flcn, dst, size, MEM_DMEM)) {
nvgpu_err(g, "incorrect parameters");
return -EINVAL;
}
nvgpu_mutex_acquire(&flcn->copy_lock);
words = size >> 2;
bytes = size & 0x3;
addr_mask = falcon_falcon_dmemc_offs_m() |
falcon_falcon_dmemc_blk_m();
dst &= addr_mask;
gk20a_writel(g, base_addr + falcon_falcon_dmemc_r(port),
dst | falcon_falcon_dmemc_aincw_f(1));
for (i = 0; i < words; i++)
gk20a_writel(g,
base_addr + falcon_falcon_dmemd_r(port), src_u32[i]);
if (bytes > 0) {
data = 0;
for (i = 0; i < bytes; i++)
((u8 *)&data)[i] = src[(words << 2) + i];
gk20a_writel(g, base_addr + falcon_falcon_dmemd_r(port), data);
}
size = ALIGN(size, 4);
data = gk20a_readl(g,
base_addr + falcon_falcon_dmemc_r(port)) & addr_mask;
if (data != ((dst + size) & addr_mask)) {
nvgpu_warn(g, "copy failed. bytes written %d, expected %d",
data - dst, size);
}
nvgpu_mutex_release(&flcn->copy_lock);
return 0;
}
static void gk20a_falcon_engine_dependency_ops(struct nvgpu_falcon *flcn)
{
struct nvgpu_falcon_engine_dependency_ops *flcn_eng_dep_ops =
&flcn->flcn_engine_dep_ops;
switch (flcn->flcn_id) {
case FALCON_ID_PMU:
flcn_eng_dep_ops->reset_eng = nvgpu_pmu_reset;
break;
default:
/* NULL assignment make sure
* CPU hard reset in gk20a_flcn_reset() gets execute
* if falcon doesn't need specific reset implementation
*/
flcn_eng_dep_ops->reset_eng = NULL;
break;
}
}
void gk20a_falcon_ops(struct nvgpu_falcon *flcn)
{
struct nvgpu_falcon_ops *flcn_ops = &flcn->flcn_ops;
flcn_ops->reset = gk20a_flcn_reset;
flcn_ops->set_irq = gk20a_flcn_set_irq;
flcn_ops->is_falcon_cpu_halted = gk20a_is_falcon_cpu_halted;
flcn_ops->is_falcon_idle = gk20a_is_falcon_idle;
flcn_ops->is_falcon_scrubbing_done = gk20a_is_falcon_scrubbing_done;
flcn_ops->copy_from_dmem = gk20a_flcn_copy_from_dmem;
flcn_ops->copy_to_dmem = gk20a_flcn_copy_to_dmem;
gk20a_falcon_engine_dependency_ops(flcn);
}
static void gk20a_falcon_hal_sw_init(struct nvgpu_falcon *flcn)
{
struct gk20a *g = flcn->g;
switch (flcn->flcn_id) {
case FALCON_ID_PMU:
flcn->flcn_base = FALCON_PWR_BASE;
flcn->is_falcon_supported = true;
flcn->is_interrupt_enabled = true;
break;
case FALCON_ID_SEC2:
flcn->flcn_base = FALCON_SEC_BASE;
flcn->is_falcon_supported = false;
flcn->is_interrupt_enabled = false;
break;
case FALCON_ID_FECS:
flcn->flcn_base = FALCON_FECS_BASE;
flcn->is_falcon_supported = true;
flcn->is_interrupt_enabled = false;
break;
case FALCON_ID_GPCCS:
flcn->flcn_base = FALCON_GPCCS_BASE;
flcn->is_falcon_supported = true;
flcn->is_interrupt_enabled = false;
break;
default:
flcn->is_falcon_supported = false;
nvgpu_err(g, "Invalid flcn request");
break;
}
if (flcn->is_falcon_supported) {
nvgpu_mutex_init(&flcn->copy_lock);
gk20a_falcon_ops(flcn);
} else
nvgpu_info(g, "falcon 0x%x not supported on %s",
flcn->flcn_id, g->name);
}
void gk20a_falcon_init_hal(struct gpu_ops *gops)
{
gops->falcon.falcon_hal_sw_init = gk20a_falcon_hal_sw_init;
}
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