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/*
* Copyright (c) 2016-2017, NVIDIA CORPORATION. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
#include "gk20a/gk20a.h"
#include "gp106/bios_gp106.h"
#include "gp106/xve_gp106.h"
#include "common/linux/os_linux.h"
#include <nvgpu/bug.h>
#include <nvgpu/xve.h>
#include <nvgpu/hw/gp106/hw_xp_gp106.h>
#include <nvgpu/hw/gp106/hw_xve_gp106.h>
#define NV_PCFG 0x88000
void xve_xve_writel_gp106(struct gk20a *g, u32 reg, u32 val)
{
gk20a_writel(g, NV_PCFG + reg, val);
}
u32 xve_xve_readl_gp106(struct gk20a *g, u32 reg)
{
return gk20a_readl(g, NV_PCFG + reg);
}
/**
* Resets the GPU (except the XVE/XP).
*/
void xve_reset_gpu_gp106(struct gk20a *g)
{
u32 reset;
/*
* This resets the GPU except for the XVE/XP (since then we would lose
* the dGPU from the bus). t18x has a HW limitation where once that
* happens the GPU is gone until the entire system is reset.
*
* We have to use the auto-deassert register since we won't be able to
* access the GPU after the GPU goes into reset. This appears like the
* GPU has dropped from the bus and causes nvgpu to reset the entire
* system. Whoops!
*/
reset = xve_reset_reset_m() |
xve_reset_gpu_on_sw_reset_m() |
xve_reset_counter_en_m() |
xve_reset_counter_val_f(0x7ff) |
xve_reset_clock_on_sw_reset_m() |
xve_reset_clock_counter_en_m() |
xve_reset_clock_counter_val_f(0x7ff);
g->ops.xve.xve_writel(g, xve_reset_r(), reset | xve_reset_reset_m());
/*
* Don't access GPU until _after_ it's back out of reset!
*/
nvgpu_msleep(100);
g->ops.xve.xve_writel(g, xve_reset_r(), 0);
}
/**
* Places one of:
*
* %GPU_XVE_SPEED_2P5
* %GPU_XVE_SPEED_5P0
* %GPU_XVE_SPEED_8P0
*
* in the u32 pointed to by @xve_link_speed. If for some reason an unknown PCIe
* bus speed is detected then *@xve_link_speed is not touched and -ENODEV is
* returned.
*/
int xve_get_speed_gp106(struct gk20a *g, u32 *xve_link_speed)
{
u32 status;
u32 link_speed, real_link_speed = 0;
status = g->ops.xve.xve_readl(g, xve_link_control_status_r());
link_speed = xve_link_control_status_link_speed_v(status);
/*
* Can't use a switch statement becuase switch statements dont work with
* function calls.
*/
if (link_speed == xve_link_control_status_link_speed_link_speed_2p5_v())
real_link_speed = GPU_XVE_SPEED_2P5;
if (link_speed == xve_link_control_status_link_speed_link_speed_5p0_v())
real_link_speed = GPU_XVE_SPEED_5P0;
if (link_speed == xve_link_control_status_link_speed_link_speed_8p0_v())
real_link_speed = GPU_XVE_SPEED_8P0;
if (!real_link_speed) {
pr_warn("%s: Unknown PCIe bus speed!\n", __func__);
return -ENODEV;
}
*xve_link_speed = real_link_speed;
return 0;
}
/**
* Set the mask for L0s in the XVE.
*
* When @status is non-zero the mask for L0s is set which _disables_ L0s. When
* @status is zero L0s is no longer masked and may be enabled.
*/
static void set_xve_l0s_mask(struct gk20a *g, bool status)
{
u32 xve_priv;
u32 status_bit = status ? 1 : 0;
xve_priv = g->ops.xve.xve_readl(g, xve_priv_xv_r());
xve_priv = set_field(xve_priv,
xve_priv_xv_cya_l0s_enable_m(),
xve_priv_xv_cya_l0s_enable_f(status_bit));
g->ops.xve.xve_writel(g, xve_priv_xv_r(), xve_priv);
}
/**
* Set the mask for L1 in the XVE.
*
* When @status is non-zero the mask for L1 is set which _disables_ L0s. When
* @status is zero L1 is no longer masked and may be enabled.
*/
static void set_xve_l1_mask(struct gk20a *g, int status)
{
u32 xve_priv;
u32 status_bit = status ? 1 : 0;
xve_priv = g->ops.xve.xve_readl(g, xve_priv_xv_r());
xve_priv = set_field(xve_priv,
xve_priv_xv_cya_l1_enable_m(),
xve_priv_xv_cya_l1_enable_f(status_bit));
g->ops.xve.xve_writel(g, xve_priv_xv_r(), xve_priv);
}
/**
* Disable ASPM permanently.
*/
void xve_disable_aspm_gp106(struct gk20a *g)
{
u32 xve_priv;
xve_priv = g->ops.xve.xve_readl(g, xve_priv_xv_r());
set_xve_l0s_mask(g, true);
set_xve_l1_mask(g, true);
}
/**
* When doing the speed change disable power saving features.
*/
static void disable_aspm_gp106(struct gk20a *g)
{
u32 xve_priv;
xve_priv = g->ops.xve.xve_readl(g, xve_priv_xv_r());
/*
* Store prior ASPM state so we can restore it later on.
*/
g->xve_l0s = xve_priv_xv_cya_l0s_enable_v(xve_priv);
g->xve_l1 = xve_priv_xv_cya_l1_enable_v(xve_priv);
set_xve_l0s_mask(g, true);
set_xve_l1_mask(g, true);
}
/**
* Restore the state saved by disable_aspm_gp106().
*/
static void enable_aspm_gp106(struct gk20a *g)
{
set_xve_l0s_mask(g, g->xve_l0s);
set_xve_l1_mask(g, g->xve_l1);
}
/*
* Error checking is done in xve_set_speed_gp106.
*/
static int __do_xve_set_speed_gp106(struct gk20a *g, u32 next_link_speed)
{
u32 current_link_speed, new_link_speed;
u32 dl_mgr, saved_dl_mgr;
u32 pl_link_config;
u32 link_control_status, link_speed_setting, link_width;
struct nvgpu_timeout timeout;
int attempts = 10, err_status = 0;
g->ops.xve.get_speed(g, ¤t_link_speed);
xv_sc_dbg(PRE_CHANGE, "Executing PCIe link change.");
xv_sc_dbg(PRE_CHANGE, " Current speed: %s",
xve_speed_to_str(current_link_speed));
xv_sc_dbg(PRE_CHANGE, " Next speed: %s",
xve_speed_to_str(next_link_speed));
xv_sc_dbg(PRE_CHANGE, " PL_LINK_CONFIG: 0x%08x",
gk20a_readl(g, xp_pl_link_config_r(0)));
xv_sc_dbg(DISABLE_ASPM, "Disabling ASPM...");
disable_aspm_gp106(g);
xv_sc_dbg(DISABLE_ASPM, " Done!");
xv_sc_dbg(DL_SAFE_MODE, "Putting DL in safe mode...");
saved_dl_mgr = gk20a_readl(g, xp_dl_mgr_r(0));
/*
* Put the DL in safe mode.
*/
dl_mgr = saved_dl_mgr;
dl_mgr |= xp_dl_mgr_safe_timing_f(1);
gk20a_writel(g, xp_dl_mgr_r(0), dl_mgr);
xv_sc_dbg(DL_SAFE_MODE, " Done!");
nvgpu_timeout_init(g, &timeout, GPU_XVE_TIMEOUT_MS,
NVGPU_TIMER_CPU_TIMER);
xv_sc_dbg(CHECK_LINK, "Checking for link idle...");
do {
pl_link_config = gk20a_readl(g, xp_pl_link_config_r(0));
if ((xp_pl_link_config_ltssm_status_f(pl_link_config) ==
xp_pl_link_config_ltssm_status_idle_v()) &&
(xp_pl_link_config_ltssm_directive_f(pl_link_config) ==
xp_pl_link_config_ltssm_directive_normal_operations_v()))
break;
} while (!nvgpu_timeout_expired(&timeout));
if (nvgpu_timeout_peek_expired(&timeout)) {
err_status = -ETIMEDOUT;
goto done;
}
xv_sc_dbg(CHECK_LINK, " Done");
xv_sc_dbg(LINK_SETTINGS, "Preparing next link settings");
pl_link_config &= ~xp_pl_link_config_max_link_rate_m();
switch (next_link_speed) {
case GPU_XVE_SPEED_2P5:
link_speed_setting =
xve_link_control_status_link_speed_link_speed_2p5_v();
pl_link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_2500_mtps_v());
break;
case GPU_XVE_SPEED_5P0:
link_speed_setting =
xve_link_control_status_link_speed_link_speed_5p0_v();
pl_link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_5000_mtps_v());
break;
case GPU_XVE_SPEED_8P0:
link_speed_setting =
xve_link_control_status_link_speed_link_speed_8p0_v();
pl_link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_8000_mtps_v());
break;
default:
BUG(); /* Should never be hit. */
}
link_control_status =
g->ops.xve.xve_readl(g, xve_link_control_status_r());
link_width = xve_link_control_status_link_width_v(link_control_status);
pl_link_config &= ~xp_pl_link_config_target_tx_width_m();
/* Can't use a switch due to oddities in register definitions. */
if (link_width == xve_link_control_status_link_width_x1_v())
pl_link_config |= xp_pl_link_config_target_tx_width_f(
xp_pl_link_config_target_tx_width_x1_v());
else if (link_width == xve_link_control_status_link_width_x2_v())
pl_link_config |= xp_pl_link_config_target_tx_width_f(
xp_pl_link_config_target_tx_width_x2_v());
else if (link_width == xve_link_control_status_link_width_x4_v())
pl_link_config |= xp_pl_link_config_target_tx_width_f(
xp_pl_link_config_target_tx_width_x4_v());
else if (link_width == xve_link_control_status_link_width_x8_v())
pl_link_config |= xp_pl_link_config_target_tx_width_f(
xp_pl_link_config_target_tx_width_x8_v());
else if (link_width == xve_link_control_status_link_width_x16_v())
pl_link_config |= xp_pl_link_config_target_tx_width_f(
xp_pl_link_config_target_tx_width_x16_v());
else
BUG();
xv_sc_dbg(LINK_SETTINGS, " pl_link_config = 0x%08x", pl_link_config);
xv_sc_dbg(LINK_SETTINGS, " Done");
xv_sc_dbg(EXEC_CHANGE, "Running link speed change...");
nvgpu_timeout_init(g, &timeout, GPU_XVE_TIMEOUT_MS,
NVGPU_TIMER_CPU_TIMER);
do {
gk20a_writel(g, xp_pl_link_config_r(0), pl_link_config);
if (pl_link_config ==
gk20a_readl(g, xp_pl_link_config_r(0)))
break;
} while (!nvgpu_timeout_expired(&timeout));
if (nvgpu_timeout_peek_expired(&timeout)) {
err_status = -ETIMEDOUT;
goto done;
}
xv_sc_dbg(EXEC_CHANGE, " Wrote PL_LINK_CONFIG.");
pl_link_config = gk20a_readl(g, xp_pl_link_config_r(0));
do {
pl_link_config = set_field(pl_link_config,
xp_pl_link_config_ltssm_directive_m(),
xp_pl_link_config_ltssm_directive_f(
xp_pl_link_config_ltssm_directive_change_speed_v()));
xv_sc_dbg(EXEC_CHANGE, " Executing change (0x%08x)!",
pl_link_config);
gk20a_writel(g, xp_pl_link_config_r(0), pl_link_config);
/*
* Read NV_XP_PL_LINK_CONFIG until the link has swapped to
* the target speed.
*/
nvgpu_timeout_init(g, &timeout, GPU_XVE_TIMEOUT_MS,
NVGPU_TIMER_CPU_TIMER);
do {
pl_link_config = gk20a_readl(g, xp_pl_link_config_r(0));
if (pl_link_config != 0xfffffff &&
(xp_pl_link_config_ltssm_status_f(pl_link_config) ==
xp_pl_link_config_ltssm_status_idle_v()) &&
(xp_pl_link_config_ltssm_directive_f(pl_link_config) ==
xp_pl_link_config_ltssm_directive_normal_operations_v()))
break;
} while (!nvgpu_timeout_expired(&timeout));
if (nvgpu_timeout_peek_expired(&timeout)) {
err_status = -ETIMEDOUT;
xv_sc_dbg(EXEC_CHANGE, " timeout; pl_link_config = 0x%x",
pl_link_config);
}
xv_sc_dbg(EXEC_CHANGE, " Change done... Checking status");
if (pl_link_config == 0xffffffff) {
WARN(1, "GPU fell of PCI bus!?");
/*
* The rest of the driver is probably about to
* explode...
*/
BUG();
}
link_control_status =
g->ops.xve.xve_readl(g, xve_link_control_status_r());
xv_sc_dbg(EXEC_CHANGE, " target %d vs current %d",
link_speed_setting,
xve_link_control_status_link_speed_v(link_control_status));
if (err_status == -ETIMEDOUT) {
xv_sc_dbg(EXEC_CHANGE, " Oops timed out?");
break;
}
} while (attempts-- > 0 &&
link_speed_setting !=
xve_link_control_status_link_speed_v(link_control_status));
xv_sc_dbg(EXEC_VERIF, "Verifying speed change...");
/*
* Check that the new link speed is actually active. If we failed to
* change to the new link speed then return to the link speed setting
* pre-speed change.
*/
new_link_speed = xve_link_control_status_link_speed_v(
link_control_status);
if (link_speed_setting != new_link_speed) {
u32 link_config = gk20a_readl(g, xp_pl_link_config_r(0));
xv_sc_dbg(EXEC_VERIF, " Current and target speeds mismatch!");
xv_sc_dbg(EXEC_VERIF, " LINK_CONTROL_STATUS: 0x%08x",
g->ops.xve.xve_readl(g, xve_link_control_status_r()));
xv_sc_dbg(EXEC_VERIF, " Link speed is %s - should be %s",
xve_speed_to_str(new_link_speed),
xve_speed_to_str(link_speed_setting));
link_config &= ~xp_pl_link_config_max_link_rate_m();
if (new_link_speed ==
xve_link_control_status_link_speed_link_speed_2p5_v())
link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_2500_mtps_v());
else if (new_link_speed ==
xve_link_control_status_link_speed_link_speed_5p0_v())
link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_5000_mtps_v());
else if (new_link_speed ==
xve_link_control_status_link_speed_link_speed_8p0_v())
link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_8000_mtps_v());
else
link_config |= xp_pl_link_config_max_link_rate_f(
xp_pl_link_config_max_link_rate_2500_mtps_v());
gk20a_writel(g, xp_pl_link_config_r(0), link_config);
err_status = -ENODEV;
} else {
xv_sc_dbg(EXEC_VERIF, " Current and target speeds match!");
err_status = 0;
}
done:
/* Restore safe timings. */
xv_sc_dbg(CLEANUP, "Restoring saved DL settings...");
gk20a_writel(g, xp_dl_mgr_r(0), saved_dl_mgr);
xv_sc_dbg(CLEANUP, " Done");
xv_sc_dbg(CLEANUP, "Re-enabling ASPM settings...");
enable_aspm_gp106(g);
xv_sc_dbg(CLEANUP, " Done");
return err_status;
}
/**
* Sets the PCIe link speed to @xve_link_speed which must be one of:
*
* %GPU_XVE_SPEED_2P5
* %GPU_XVE_SPEED_5P0
* %GPU_XVE_SPEED_8P0
*
* If an error is encountered an appropriate error will be returned.
*/
int xve_set_speed_gp106(struct gk20a *g, u32 next_link_speed)
{
u32 current_link_speed;
int err;
if ((next_link_speed & GPU_XVE_SPEED_MASK) == 0)
return -EINVAL;
err = g->ops.xve.get_speed(g, ¤t_link_speed);
if (err)
return err;
/* No-op. */
if (current_link_speed == next_link_speed)
return 0;
return __do_xve_set_speed_gp106(g, next_link_speed);
}
/**
* Places a bitmask of available speeds for gp106 in @speed_mask.
*/
void xve_available_speeds_gp106(struct gk20a *g, u32 *speed_mask)
{
*speed_mask = GPU_XVE_SPEED_2P5 | GPU_XVE_SPEED_5P0;
}
#if defined(CONFIG_PCI_MSI)
void xve_rearm_msi_gp106(struct gk20a *g)
{
/* We just need to write a dummy val in the CYA_2 offset */
g->ops.xve.xve_writel(g, xve_cya_2_r(), 0);
}
#endif
void xve_enable_shadow_rom_gp106(struct gk20a *g)
{
g->ops.xve.xve_writel(g, xve_rom_ctrl_r(),
xve_rom_ctrl_rom_shadow_enabled_f());
}
void xve_disable_shadow_rom_gp106(struct gk20a *g)
{
g->ops.xve.xve_writel(g, xve_rom_ctrl_r(),
xve_rom_ctrl_rom_shadow_disabled_f());
}
u32 xve_get_link_control_status(struct gk20a *g)
{
return g->ops.xve.xve_readl(g, xve_link_control_status_r());
}
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