samsung-sm8650/android_kernel_samsung_sm8650-modules
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Merge "video: driver: amend power on and power off sequences"

Browse Source
This commit is contained in:
qctecmdr
2021-06-09 19:54:34 -07:00
committed by Gerrit - the friendly Code Review server
parent 2c0d2faefa c2b39b9056
commit 281ce51f5f
4 changed files with 636 additions and 176 deletions
Download Patch File Download Diff File Expand all files Collapse all files

605
driver/variant/iris2/src/msm_vidc_iris2.c
View File

@@ -3,8 +3,6 @@
* Copyright (c) 2020-2021,, The Linux Foundation. All rights reserved. * Copyright (c) 2020-2021,, The Linux Foundation. All rights reserved.
*/ */
#include <linux/interrupt.h>
#include "msm_vidc_iris2.h" #include "msm_vidc_iris2.h"
#include "msm_vidc_buffer_iris2.h" #include "msm_vidc_buffer_iris2.h"
#include "msm_vidc_power_iris2.h" #include "msm_vidc_power_iris2.h"
@@ -20,7 +18,8 @@
#define VIDEO_ARCH_LX 1 #define VIDEO_ARCH_LX 1
#define VBIF_BASE_OFFS_IRIS2 0x00080000 #define VCODEC_BASE_OFFS_IRIS2 0x00000000
#define AON_MVP_NOC_RESET 0x0001F000
#define CPU_BASE_OFFS_IRIS2 0x000A0000 #define CPU_BASE_OFFS_IRIS2 0x000A0000
#define AON_BASE_OFFS 0x000E0000 #define AON_BASE_OFFS 0x000E0000
#define CPU_CS_BASE_OFFS_IRIS2 (CPU_BASE_OFFS_IRIS2) #define CPU_CS_BASE_OFFS_IRIS2 (CPU_BASE_OFFS_IRIS2)
@@ -65,6 +64,9 @@
/* UC_REGION_ADDR */ /* UC_REGION_ADDR */
#define CPU_CS_SCIBARG2_IRIS2 (CPU_CS_BASE_OFFS_IRIS2 + 0x68) #define CPU_CS_SCIBARG2_IRIS2 (CPU_CS_BASE_OFFS_IRIS2 + 0x68)
#define CPU_CS_AHB_BRIDGE_SYNC_RESET (CPU_CS_BASE_OFFS_IRIS2 + 0x160)
#define CPU_CS_AHB_BRIDGE_SYNC_RESET_STATUS (CPU_CS_BASE_OFFS_IRIS2 + 0x164)
/* FAL10 Feature Control */ /* FAL10 Feature Control */
#define CPU_CS_X2RPMh_IRIS2 (CPU_CS_BASE_OFFS_IRIS2 + 0x168) #define CPU_CS_X2RPMh_IRIS2 (CPU_CS_BASE_OFFS_IRIS2 + 0x168)
#define CPU_CS_X2RPMh_MASK0_BMSK_IRIS2 0x1 #define CPU_CS_X2RPMh_MASK0_BMSK_IRIS2 0x1
@@ -77,6 +79,14 @@
#define CPU_IC_SOFTINT_IRIS2 (CPU_IC_BASE_OFFS_IRIS2 + 0x150) #define CPU_IC_SOFTINT_IRIS2 (CPU_IC_BASE_OFFS_IRIS2 + 0x150)
#define CPU_IC_SOFTINT_H2A_SHFT_IRIS2 0x0 #define CPU_IC_SOFTINT_H2A_SHFT_IRIS2 0x0
/*
* --------------------------------------------------------------------------
* MODULE: AON_MVP_NOC_RESET_REGISTERS
* --------------------------------------------------------------------------
*/
#define AON_WRAPPER_MVP_NOC_RESET_REQ (AON_MVP_NOC_RESET + 0x000)
#define AON_WRAPPER_MVP_NOC_RESET_ACK (AON_MVP_NOC_RESET + 0x004)
/* /*
* -------------------------------------------------------------------------- * --------------------------------------------------------------------------
* MODULE: wrapper * MODULE: wrapper
@@ -97,6 +107,8 @@
#define WRAPPER_DEBUG_BRIDGE_LPI_CONTROL_IRIS2 (WRAPPER_BASE_OFFS_IRIS2 + 0x54) #define WRAPPER_DEBUG_BRIDGE_LPI_CONTROL_IRIS2 (WRAPPER_BASE_OFFS_IRIS2 + 0x54)
#define WRAPPER_DEBUG_BRIDGE_LPI_STATUS_IRIS2 (WRAPPER_BASE_OFFS_IRIS2 + 0x58) #define WRAPPER_DEBUG_BRIDGE_LPI_STATUS_IRIS2 (WRAPPER_BASE_OFFS_IRIS2 + 0x58)
#define WRAPPER_CORE_CLOCK_CONFIG_IRIS2 (WRAPPER_BASE_OFFS_IRIS2 + 0x88)
/* /*
* -------------------------------------------------------------------------- * --------------------------------------------------------------------------
* MODULE: tz_wrapper * MODULE: tz_wrapper
@@ -131,6 +143,13 @@
#define AON_WRAPPER_MVP_NOC_LPI_CONTROL (AON_BASE_OFFS) #define AON_WRAPPER_MVP_NOC_LPI_CONTROL (AON_BASE_OFFS)
#define AON_WRAPPER_MVP_NOC_LPI_STATUS (AON_BASE_OFFS + 0x4) #define AON_WRAPPER_MVP_NOC_LPI_STATUS (AON_BASE_OFFS + 0x4)
/*
* --------------------------------------------------------------------------
* MODULE: VCODEC_SS registers
* --------------------------------------------------------------------------
*/
#define VCODEC_SS_IDLE_STATUSn (VCODEC_BASE_OFFS_IRIS2 + 0x70)
/* /*
* -------------------------------------------------------------------------- * --------------------------------------------------------------------------
* MODULE: vcodec noc error log registers (iris2) * MODULE: vcodec noc error log registers (iris2)
@@ -151,6 +170,190 @@
#define VCODEC_NOC_ERL_MAIN_ERRLOG3_LOW 0x00011238 #define VCODEC_NOC_ERL_MAIN_ERRLOG3_LOW 0x00011238
#define VCODEC_NOC_ERL_MAIN_ERRLOG3_HIGH 0x0001123C #define VCODEC_NOC_ERL_MAIN_ERRLOG3_HIGH 0x0001123C
static int __disable_unprepare_clock_iris2(struct msm_vidc_core *core,
const char *clk_name)
{
int rc = 0;
struct clock_info *cl;
bool found;
if (!core || !clk_name) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
found = false;
venus_hfi_for_each_clock(core, cl) {
if (!cl->clk) {
d_vpr_e("%s: invalid clock %s\n", __func__, cl->name);
return -EINVAL;
}
if (strcmp(cl->name, clk_name))
continue;
found = true;
clk_disable_unprepare(cl->clk);
cl->prev = 0;
d_vpr_h("%s: clock %s disable unprepared\n", __func__, cl->name);
break;
}
if (!found) {
d_vpr_e("%s: clock %s not found\n", __func__, clk_name);
return -EINVAL;
}
return rc;
}
static int __prepare_enable_clock_iris2(struct msm_vidc_core *core,
const char *clk_name)
{
int rc = 0;
struct clock_info *cl;
bool found;
if (!core || !clk_name) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
found = false;
venus_hfi_for_each_clock(core, cl) {
if (!cl->clk) {
d_vpr_e("%s: invalid clock\n", __func__);
return -EINVAL;
}
if (strcmp(cl->name, clk_name))
continue;
found = true;
/*
* For the clocks we control, set the rate prior to preparing
* them. Since we don't really have a load at this point, scale
* it to the lowest frequency possible
*/
if (cl->has_scaling)
__set_clk_rate(core, cl, clk_round_rate(cl->clk, 0));
rc = clk_prepare_enable(cl->clk);
if (rc) {
d_vpr_e("%s: failed to enable clock %s\n",
__func__, cl->name);
return rc;
}
if (!__clk_is_enabled(cl->clk)) {
d_vpr_e("%s: clock %s not enabled\n",
__func__, cl->name);
clk_disable_unprepare(cl->clk);
return -EINVAL;
}
d_vpr_h("%s: clock %s prepare enabled\n", __func__, cl->name);
break;
}
if (!found) {
d_vpr_e("%s: clock %s not found\n", __func__, clk_name);
return -EINVAL;
}
return rc;
}
static int __disable_regulator_iris2(struct msm_vidc_core *core,
const char *reg_name)
{
int rc = 0;
struct regulator_info *rinfo;
bool found;
if (!core || !reg_name) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
found = false;
venus_hfi_for_each_regulator(core, rinfo) {
if (!rinfo->regulator) {
d_vpr_e("%s: invalid regulator %s\n",
__func__, rinfo->name);
return -EINVAL;
}
if (strcmp(rinfo->name, reg_name))
continue;
found = true;
rc = __acquire_regulator(core, rinfo);
if (rc) {
d_vpr_e("%s: failed to acquire %s, rc = %d\n",
rinfo->name, rc);
/* Bring attention to this issue */
WARN_ON(true);
return rc;
}
core->handoff_done = false;
rc = regulator_disable(rinfo->regulator);
if (rc) {
d_vpr_e("%s: failed to disable %s, rc = %d\n",
rinfo->name, rc);
return rc;
}
d_vpr_h("%s: disabled regulator %s\n", __func__, rinfo->name);
break;
}
if (!found) {
d_vpr_e("%s: regulator %s not found\n", __func__, reg_name);
return -EINVAL;
}
return rc;
}
static int __enable_regulator_iris2(struct msm_vidc_core *core,
const char *reg_name)
{
int rc = 0;
struct regulator_info *rinfo;
bool found;
if (!core || !reg_name) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
found = false;
venus_hfi_for_each_regulator(core, rinfo) {
if (!rinfo->regulator) {
d_vpr_e("%s: invalid regulator %s\n",
__func__, rinfo->name);
return -EINVAL;
}
if (strcmp(rinfo->name, reg_name))
continue;
found = true;
rc = regulator_enable(rinfo->regulator);
if (rc) {
d_vpr_e("%s: failed to enable %s, rc = %d\n",
__func__, rinfo->name, rc);
return rc;
}
if (!regulator_is_enabled(rinfo->regulator)) {
d_vpr_e("%s: regulator %s not enabled\n",
__func__, rinfo->name);
regulator_disable(rinfo->regulator);
return -EINVAL;
}
d_vpr_h("%s: enabled regulator %s\n", __func__, rinfo->name);
break;
}
if (!found) {
d_vpr_e("%s: regulator %s not found\n", __func__, reg_name);
return -EINVAL;
}
return rc;
}
static int __interrupt_init_iris2(struct msm_vidc_core *vidc_core) static int __interrupt_init_iris2(struct msm_vidc_core *vidc_core)
{ {
struct msm_vidc_core *core = vidc_core; struct msm_vidc_core *core = vidc_core;
@@ -226,13 +429,213 @@ static int __setup_ucregion_memory_map_iris2(struct msm_vidc_core *vidc_core)
return 0; return 0;
} }
static int __power_off_iris2(struct msm_vidc_core *vidc_core) static int __power_off_iris2_hardware(struct msm_vidc_core *core)
{
int rc = 0, i;
u32 value = 0, count = 0;
const u32 max_count = 10;
if (core->hw_power_control) {
d_vpr_h("%s: hardware power control enabled\n", __func__);
goto disable_power;
}
/*
* check to make sure core clock branch enabled else
* we cannot read vcodec top idle register
*/
value = __read_register(core, WRAPPER_CORE_CLOCK_CONFIG_IRIS2);
if (value) {
d_vpr_h(
"%s: core clock config not enabled, enabling it to read vcodec registers\n",
__func__);
rc = __write_register(core, WRAPPER_CORE_CLOCK_CONFIG_IRIS2, 0);
if (rc)
return rc;
}
/*
* add MNoC idle check before collapsing MVS0 per HPG update
* poll for NoC DMA idle -> HPG 6.1.1
*/
for (i = 0; i < core->capabilities[NUM_VPP_PIPE].value; i++) {
count = 0;
do {
value = __read_register(core,
VCODEC_SS_IDLE_STATUSn + 4*i);
if (value & 0x400000)
break;
else
usleep_range(1000, 2000);
count++;
} while (count < max_count);
if (count == max_count)
d_vpr_e(
"%s: VCODEC_SS_IDLE_STATUSn (%d) is not idle (%#x)\n",
__func__, i, value);
}
/* Apply partial reset on MSF interface and wait for ACK */
rc = __write_register(core, AON_WRAPPER_MVP_NOC_RESET_REQ, 0x3);
if (rc)
return rc;
count = 0;
do {
value = __read_register(core, AON_WRAPPER_MVP_NOC_RESET_ACK);
if ((value & 0x3) == 0x3)
break;
else
usleep_range(100, 200);
count++;
} while (count < max_count);
if (count == max_count)
d_vpr_e("%s: AON_WRAPPER_MVP_NOC_RESET assert failed\n",
__func__);
/* De-assert partial reset on MSF interface and wait for ACK */
rc = __write_register(core, AON_WRAPPER_MVP_NOC_RESET_REQ, 0x0);
if (rc)
return rc;
count = 0;
do {
value = __read_register(core, AON_WRAPPER_MVP_NOC_RESET_ACK);
if ((value & 0x3) == 0x0)
break;
else
usleep_range(100, 200);
count++;
} while (count < max_count);
if (count == max_count)
d_vpr_e("%s: AON_WRAPPER_MVP_NOC_RESET de-assert failed\n",
__func__);
/*
* Reset both sides of 2 ahb2ahb_bridges (TZ and non-TZ)
* do we need to check status register here?
*/
rc = __write_register(core, CPU_CS_AHB_BRIDGE_SYNC_RESET, 0x3);
if (rc)
return rc;
rc = __write_register(core, CPU_CS_AHB_BRIDGE_SYNC_RESET, 0x2);
if (rc)
return rc;
rc = __write_register(core, CPU_CS_AHB_BRIDGE_SYNC_RESET, 0x0);
if (rc)
return rc;
disable_power:
/* power down process */
rc = __disable_regulator_iris2(core, "vcodec");
if (rc) {
d_vpr_e("%s: disable regulator vcodec failed\n", __func__);
rc = 0;
}
rc = __disable_unprepare_clock_iris2(core, "vcodec_clk");
if (rc) {
d_vpr_e("%s: disable unprepare vcodec_clk failed\n", __func__);
rc = 0;
}
return rc;
}
static int __power_off_iris2_controller(struct msm_vidc_core *core)
{
int rc = 0;
u32 value = 0, count = 0;
const u32 max_count = 10;
/*
* mask fal10_veto QLPAC error since fal10_veto can go 1
* when pwwait == 0 and clamped to 0 -> HPG 6.1.2
*/
rc = __write_register(core, CPU_CS_X2RPMh_IRIS2, 0x3);
if (rc)
return rc;
/* set MNoC to low power, set PD_NOC_QREQ (bit 0) */
rc = __write_register_masked(core, AON_WRAPPER_MVP_NOC_LPI_CONTROL,
0x1, BIT(0));
if (rc)
return rc;
count = 0;
do {
value = __read_register(core, AON_WRAPPER_MVP_NOC_LPI_STATUS);
if ((value & 0x1) == 0x1)
break;
else
usleep_range(100, 200);
count++;
} while (count < max_count);
if (count == max_count)
d_vpr_e("%s: AON_WRAPPER_MVP_NOC_LPI_CONTROL failed\n",
__func__);
/* Set Debug bridge Low power */
rc = __write_register(core, WRAPPER_DEBUG_BRIDGE_LPI_CONTROL_IRIS2, 0x7);
if (rc)
return rc;
count = 0;
do {
value = __read_register(core,
WRAPPER_DEBUG_BRIDGE_LPI_STATUS_IRIS2);
if ((value & 0x7) == 0x7)
break;
else
usleep_range(100, 200);
count++;
} while (count < max_count);
if (count == max_count)
d_vpr_e("%s: debug bridge low power failed\n", __func__);
/* Debug bridge LPI release */
rc = __write_register(core, WRAPPER_DEBUG_BRIDGE_LPI_CONTROL_IRIS2, 0x0);
if (rc)
return rc;
count = 0;
do {
value = __read_register(core,
WRAPPER_DEBUG_BRIDGE_LPI_STATUS_IRIS2);
if (value == 0x0)
break;
else
usleep_range(100, 200);
count++;
} while (count < max_count);
if (count == max_count)
d_vpr_e("%s: debug bridge release failed\n", __func__);
/* power down process */
rc = __disable_regulator_iris2(core, "iris-ctl");
if (rc) {
d_vpr_e("%s: disable regulator iris-ctl failed\n", __func__);
rc = 0;
}
/* Disable GCC_VIDEO_AXI0_CLK clock */
rc = __disable_unprepare_clock_iris2(core, "gcc_video_axi0");
if (rc) {
d_vpr_e("%s: disable unprepare gcc_video_axi0 failed\n", __func__);
rc = 0;
}
/* Turn off MVP MVS0C core clock */
rc = __disable_unprepare_clock_iris2(core, "core_clk");
if (rc) {
d_vpr_e("%s: disable unprepare core_clk failed\n", __func__);
rc = 0;
}
return rc;
}
static int __power_off_iris2(struct msm_vidc_core *core)
{ {
u32 lpi_status, reg_status = 0, count = 0, max_count = 10;
struct msm_vidc_core *core = vidc_core;
int rc = 0; int rc = 0;
if (!core) { if (!core || !core->capabilities) {
d_vpr_e("%s: invalid params\n", __func__); d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL; return -EINVAL;
} }
@@ -240,86 +643,127 @@ static int __power_off_iris2(struct msm_vidc_core *vidc_core)
if (!core->power_enabled) if (!core->power_enabled)
return 0; return 0;
if (__power_off_iris2_hardware(core))
d_vpr_e("%s: failed to power off hardware\n", __func__);
if (__power_off_iris2_controller(core))
d_vpr_e("%s: failed to power off controller\n", __func__);
if (__unvote_buses(core))
d_vpr_e("%s: failed to unvote buses\n", __func__);
if (!(core->intr_status & WRAPPER_INTR_STATUS_A2HWD_BMSK_IRIS2)) if (!(core->intr_status & WRAPPER_INTR_STATUS_A2HWD_BMSK_IRIS2))
disable_irq_nosync(core->dt->irq); disable_irq_nosync(core->dt->irq);
core->intr_status = 0; core->intr_status = 0;
/* HPG 6.1.2 Step 1 */
rc = __write_register(core, CPU_CS_X2RPMh_IRIS2, 0x3);
if (rc)
return rc;
/* HPG 6.1.2 Step 2, noc to low power */
//if (core->res->vpu_ver == VPU_VERSION_IRIS2_1)
// goto skip_aon_mvp_noc;
rc = __write_register(core, AON_WRAPPER_MVP_NOC_LPI_CONTROL, 0x1);
if (rc)
return rc;
while (!reg_status && count < max_count) {
lpi_status =
__read_register(core,
AON_WRAPPER_MVP_NOC_LPI_STATUS);
reg_status = lpi_status & BIT(0);
d_vpr_l("Noc: lpi_status %d noc_status %d (count %d)\n",
lpi_status, reg_status, count);
usleep_range(50, 100);
count++;
}
if (count == max_count)
d_vpr_e("NOC not in qaccept status %d\n", reg_status);
//skip_aon_mvp_noc:
/* HPG 6.1.2 Step 3, debug bridge to low power */
rc = __write_register(core, WRAPPER_DEBUG_BRIDGE_LPI_CONTROL_IRIS2, 0x7);
if (rc)
return rc;
reg_status = 0;
count = 0;
while ((reg_status != 0x7) && count < max_count) {
lpi_status = __read_register(core,
WRAPPER_DEBUG_BRIDGE_LPI_STATUS_IRIS2);
reg_status = lpi_status & 0x7;
d_vpr_l("DBLP Set : lpi_status %d reg_status %d (count %d)\n",
lpi_status, reg_status, count);
usleep_range(50, 100);
count++;
}
if (count == max_count)
d_vpr_e("DBLP Set: status %d\n", reg_status);
/* HPG 6.1.2 Step 4, debug bridge to lpi release */
rc = __write_register(core, WRAPPER_DEBUG_BRIDGE_LPI_CONTROL_IRIS2, 0x0);
if (rc)
return rc;
lpi_status = 0x1;
count = 0;
while (lpi_status && count < max_count) {
lpi_status = __read_register(core,
WRAPPER_DEBUG_BRIDGE_LPI_STATUS_IRIS2);
d_vpr_l("DBLP Release: lpi_status %d(count %d)\n",
lpi_status, count);
usleep_range(50, 100);
count++;
}
if (count == max_count)
d_vpr_e("DBLP Release: lpi_status %d\n", lpi_status);
/* HPG 6.1.2 Step 6 */
__disable_unprepare_clks(core);
/* HPG 6.1.2 Step 5 */
if (__disable_regulators(core))
d_vpr_e("%s: Failed to disable regulators\n", __func__);
if (__unvote_buses(core))
d_vpr_e("%s: Failed to unvote for buses\n", __func__);
core->power_enabled = false; core->power_enabled = false;
return rc;
}
static int __power_on_iris2_controller(struct msm_vidc_core *core)
{
int rc = 0;
rc = __enable_regulator_iris2(core, "iris-ctl");
if (rc)
goto fail_regulator;
rc = call_venus_op(core, reset_ahb2axi_bridge, core);
if (rc)
goto fail_reset_ahb2axi;
rc = __prepare_enable_clock_iris2(core, "gcc_video_axi0");
if (rc)
goto fail_clk_axi;
rc = __prepare_enable_clock_iris2(core, "core_clk");
if (rc)
goto fail_clk_controller;
return 0; return 0;
fail_clk_controller:
__disable_unprepare_clock_iris2(core, "gcc_video_axi0");
fail_clk_axi:
fail_reset_ahb2axi:
__disable_regulator_iris2(core, "iris-ctl");
fail_regulator:
return rc;
}
static int __power_on_iris2_hardware(struct msm_vidc_core *core)
{
int rc = 0;
rc = __enable_regulator_iris2(core, "vcodec");
if (rc)
goto fail_regulator;
rc = __prepare_enable_clock_iris2(core, "vcodec_clk");
if (rc)
goto fail_clk_controller;
return 0;
fail_clk_controller:
__disable_regulator_iris2(core, "vcodec");
fail_regulator:
return rc;
}
static int __power_on_iris2(struct msm_vidc_core *core)
{
int rc = 0;
if (core->power_enabled)
return 0;
/* Vote for all hardware resources */
rc = __vote_buses(core, INT_MAX, INT_MAX);
if (rc) {
d_vpr_e("%s: failed to vote buses, rc %d\n", __func__, rc);
goto fail_vote_buses;
}
rc = __power_on_iris2_controller(core);
if (rc) {
d_vpr_e("%s: failed to power on iris2 controller\n", __func__);
goto fail_power_on_controller;
}
rc = __power_on_iris2_hardware(core);
if (rc) {
d_vpr_e("%s: failed to power on iris2 hardware\n", __func__);
goto fail_power_on_hardware;
}
/* video controller and hardware powered on successfully */
core->power_enabled = true;
rc = __scale_clocks(core);
if (rc) {
d_vpr_e("%s: failed to scale clocks\n", __func__);
rc = 0;
}
/*
* Re-program all of the registers that get reset as a result of
* regulator_disable() and _enable()
*/
__set_registers(core);
call_venus_op(core, interrupt_init, core);
core->intr_status = 0;
enable_irq(core->dt->irq);
return rc;
fail_power_on_hardware:
__power_off_iris2_controller(core);
fail_power_on_controller:
__unvote_buses(core);
fail_vote_buses:
core->power_enabled = false;
return rc;
} }
static int __prepare_pc_iris2(struct msm_vidc_core *vidc_core) static int __prepare_pc_iris2(struct msm_vidc_core *vidc_core)
@@ -684,6 +1128,7 @@ static struct msm_vidc_venus_ops iris2_ops = {
.setup_ucregion_memmap = __setup_ucregion_memory_map_iris2, .setup_ucregion_memmap = __setup_ucregion_memory_map_iris2,
.clock_config_on_enable = NULL, .clock_config_on_enable = NULL,
.reset_ahb2axi_bridge = __reset_ahb2axi_bridge, .reset_ahb2axi_bridge = __reset_ahb2axi_bridge,
.power_on = __power_on_iris2,
.power_off = __power_off_iris2, .power_off = __power_off_iris2,
.prepare_pc = __prepare_pc_iris2, .prepare_pc = __prepare_pc_iris2,
.watchdog = __watchdog_iris2, .watchdog = __watchdog_iris2,

4
driver/vidc/inc/msm_vidc_core.h
View File

@@ -25,6 +25,7 @@ struct msm_vidc_venus_ops {
int (*raise_interrupt)(struct msm_vidc_core *core); int (*raise_interrupt)(struct msm_vidc_core *core);
int (*clear_interrupt)(struct msm_vidc_core *core); int (*clear_interrupt)(struct msm_vidc_core *core);
int (*prepare_pc)(struct msm_vidc_core *core); int (*prepare_pc)(struct msm_vidc_core *core);
int (*power_on)(struct msm_vidc_core *core);
int (*power_off)(struct msm_vidc_core *core); int (*power_off)(struct msm_vidc_core *core);
int (*watchdog)(struct msm_vidc_core *core, u32 intr_status); int (*watchdog)(struct msm_vidc_core *core, u32 intr_status);
int (*noc_error_info)(struct msm_vidc_core *core); int (*noc_error_info)(struct msm_vidc_core *core);
@@ -110,7 +111,8 @@ struct msm_vidc_core {
u32 header_id; u32 header_id;
u32 packet_id; u32 packet_id;
struct completion init_done; struct completion init_done;
u32 handoff_done; bool handoff_done;
bool hw_power_control;
}; };
#endif // _MSM_VIDC_CORE_H_ #endif // _MSM_VIDC_CORE_H_

17
driver/vidc/inc/venus_hfi.h
View File

@@ -7,7 +7,11 @@
#define _VENUS_HFI_H_ #define _VENUS_HFI_H_
#include <linux/irqreturn.h> #include <linux/irqreturn.h>
#include <linux/clk.h>
#include <linux/regulator/consumer.h>
#include <linux/clk-provider.h>
#include "msm_vidc_dt.h"
#include "msm_vidc_internal.h" #include "msm_vidc_internal.h"
#include "msm_vidc_inst.h" #include "msm_vidc_inst.h"
#include "msm_vidc_core.h" #include "msm_vidc_core.h"
@@ -58,6 +62,8 @@ void venus_hfi_work_handler(struct work_struct *work);
void venus_hfi_pm_work_handler(struct work_struct *work); void venus_hfi_pm_work_handler(struct work_struct *work);
irqreturn_t venus_hfi_isr(int irq, void *data); irqreturn_t venus_hfi_isr(int irq, void *data);
int __write_register_masked(struct msm_vidc_core *core,
u32 reg, u32 value, u32 mask);
int __write_register(struct msm_vidc_core *core, int __write_register(struct msm_vidc_core *core,
u32 reg, u32 value); u32 reg, u32 value);
int __read_register(struct msm_vidc_core *core, u32 reg); int __read_register(struct msm_vidc_core *core, u32 reg);
@@ -65,16 +71,27 @@ int __iface_cmdq_write(struct msm_vidc_core *core,
void *pkt); void *pkt);
int __iface_msgq_read(struct msm_vidc_core *core, void *pkt); int __iface_msgq_read(struct msm_vidc_core *core, void *pkt);
int __iface_dbgq_read(struct msm_vidc_core *core, void *pkt); int __iface_dbgq_read(struct msm_vidc_core *core, void *pkt);
int __scale_clocks(struct msm_vidc_core *core);
int __set_clk_rate(struct msm_vidc_core *core,
struct clock_info *cl, u64 rate);
void __disable_unprepare_clks(struct msm_vidc_core *core); void __disable_unprepare_clks(struct msm_vidc_core *core);
int __prepare_enable_clks(struct msm_vidc_core *core);
int __disable_regulators(struct msm_vidc_core *core); int __disable_regulators(struct msm_vidc_core *core);
int __enable_regulators(struct msm_vidc_core *core);
int __acquire_regulator(struct msm_vidc_core *core,
struct regulator_info *rinfo);
int __unvote_buses(struct msm_vidc_core *core); int __unvote_buses(struct msm_vidc_core *core);
int __vote_buses(struct msm_vidc_core *core, unsigned long bw_ddr,
unsigned long bw_llcc);
int __prepare_pc(struct msm_vidc_core *core); int __prepare_pc(struct msm_vidc_core *core);
int __set_registers(struct msm_vidc_core *core);
int __reset_ahb2axi_bridge(struct msm_vidc_core *core); int __reset_ahb2axi_bridge(struct msm_vidc_core *core);
int __clock_config_on_enable(struct msm_vidc_core *core); int __clock_config_on_enable(struct msm_vidc_core *core);
int __interrupt_init(struct msm_vidc_core *core); int __interrupt_init(struct msm_vidc_core *core);
int __setup_ucregion_memmap(struct msm_vidc_core *core); int __setup_ucregion_memmap(struct msm_vidc_core *core);
int __raise_interrupt(struct msm_vidc_core *core); int __raise_interrupt(struct msm_vidc_core *core);
int __power_on(struct msm_vidc_core *core);
int __power_off(struct msm_vidc_core *core); int __power_off(struct msm_vidc_core *core);
bool __core_in_valid_state(struct msm_vidc_core *core); bool __core_in_valid_state(struct msm_vidc_core *core);
int __load_fw(struct msm_vidc_core *core); int __load_fw(struct msm_vidc_core *core);

186
driver/vidc/src/venus_hfi.c
View File

@@ -3,9 +3,6 @@
* Copyright (c) 2020-2021, The Linux Foundation. All rights reserved. * Copyright (c) 2020-2021, The Linux Foundation. All rights reserved.
*/ */
#include <linux/clk.h>
#include <linux/regulator/consumer.h>
#include <linux/clk-provider.h>
#include <linux/iommu.h> #include <linux/iommu.h>
#include <linux/qcom_scm.h> #include <linux/qcom_scm.h>
#include <linux/soc/qcom/smem.h> #include <linux/soc/qcom/smem.h>
@@ -21,7 +18,6 @@
#include "venus_hfi.h" #include "venus_hfi.h"
#include "msm_vidc_core.h" #include "msm_vidc_core.h"
#include "msm_vidc_power.h" #include "msm_vidc_power.h"
#include "msm_vidc_dt.h"
#include "msm_vidc_platform.h" #include "msm_vidc_platform.h"
#include "msm_vidc_memory.h" #include "msm_vidc_memory.h"
#include "msm_vidc_driver.h" #include "msm_vidc_driver.h"
@@ -267,7 +263,7 @@ int __write_register(struct msm_vidc_core *core,
* only bits 0 & 4 will be updated with corresponding bits from value. To update * only bits 0 & 4 will be updated with corresponding bits from value. To update
* entire register with value, set mask = 0xFFFFFFFF. * entire register with value, set mask = 0xFFFFFFFF.
*/ */
static int __write_register_masked(struct msm_vidc_core *core, int __write_register_masked(struct msm_vidc_core *core,
u32 reg, u32 value, u32 mask) u32 reg, u32 value, u32 mask)
{ {
u32 prev_val, new_val; u32 prev_val, new_val;
@@ -373,11 +369,16 @@ static void __cancel_power_collapse_work(struct msm_vidc_core *core)
cancel_delayed_work(&core->pm_work); cancel_delayed_work(&core->pm_work);
} }
static int __acquire_regulator(struct msm_vidc_core *core, int __acquire_regulator(struct msm_vidc_core *core,
struct regulator_info *rinfo) struct regulator_info *rinfo)
{ {
int rc = 0; int rc = 0;
if (!core || !rinfo) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
if (rinfo->has_hw_power_collapse) { if (rinfo->has_hw_power_collapse) {
if (!rinfo->regulator) { if (!rinfo->regulator) {
d_vpr_e("%s: invalid regulator\n", __func__); d_vpr_e("%s: invalid regulator\n", __func__);
@@ -387,6 +388,7 @@ static int __acquire_regulator(struct msm_vidc_core *core,
if (regulator_get_mode(rinfo->regulator) == if (regulator_get_mode(rinfo->regulator) ==
REGULATOR_MODE_NORMAL) { REGULATOR_MODE_NORMAL) {
core->handoff_done = false;
d_vpr_h("Skip acquire regulator %s\n", rinfo->name); d_vpr_h("Skip acquire regulator %s\n", rinfo->name);
goto exit; goto exit;
} }
@@ -403,7 +405,7 @@ static int __acquire_regulator(struct msm_vidc_core *core,
rinfo->name); rinfo->name);
goto exit; goto exit;
} else { } else {
core->handoff_done = false;
d_vpr_h("Acquired regulator control from HW: %s\n", d_vpr_h("Acquired regulator control from HW: %s\n",
rinfo->name); rinfo->name);
@@ -420,6 +422,17 @@ exit:
return rc; return rc;
} }
static int __acquire_regulators(struct msm_vidc_core *core)
{
int rc = 0;
struct regulator_info *rinfo;
venus_hfi_for_each_regulator(core, rinfo)
__acquire_regulator(core, rinfo);
return rc;
}
static int __hand_off_regulator(struct msm_vidc_core *core, static int __hand_off_regulator(struct msm_vidc_core *core,
struct regulator_info *rinfo) struct regulator_info *rinfo)
{ {
@@ -434,12 +447,11 @@ static int __hand_off_regulator(struct msm_vidc_core *core,
rc = regulator_set_mode(rinfo->regulator, rc = regulator_set_mode(rinfo->regulator,
REGULATOR_MODE_FAST); REGULATOR_MODE_FAST);
if (rc) { if (rc) {
core->handoff_done = 0;
d_vpr_e("Failed to hand off regulator control: %s\n", d_vpr_e("Failed to hand off regulator control: %s\n",
rinfo->name); rinfo->name);
return rc; return rc;
} else { } else {
core->handoff_done = 1; core->handoff_done = true;
d_vpr_h("Hand off regulator control to HW: %s\n", d_vpr_h("Hand off regulator control to HW: %s\n",
rinfo->name); rinfo->name);
} }
@@ -478,7 +490,7 @@ err_reg_handoff_failed:
return rc; return rc;
} }
static int __set_registers(struct msm_vidc_core *core) int __set_registers(struct msm_vidc_core *core)
{ {
struct reg_set *reg_set; struct reg_set *reg_set;
int i, rc = 0; int i, rc = 0;
@@ -524,6 +536,11 @@ int __unvote_buses(struct msm_vidc_core *core)
int rc = 0; int rc = 0;
struct bus_info *bus = NULL; struct bus_info *bus = NULL;
if (!core) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
core->power.bw_ddr = 0; core->power.bw_ddr = 0;
core->power.bw_llcc = 0; core->power.bw_llcc = 0;
@@ -537,7 +554,7 @@ err_unknown_device:
return rc; return rc;
} }
static int __vote_buses(struct msm_vidc_core *core, int __vote_buses(struct msm_vidc_core *core,
unsigned long bw_ddr, unsigned long bw_llcc) unsigned long bw_ddr, unsigned long bw_llcc)
{ {
int rc = 0; int rc = 0;
@@ -545,6 +562,11 @@ static int __vote_buses(struct msm_vidc_core *core,
unsigned long bw_kbps = 0, bw_prev = 0; unsigned long bw_kbps = 0, bw_prev = 0;
enum vidc_bus_type type; enum vidc_bus_type type;
if (!core) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
venus_hfi_for_each_bus(core, bus) { venus_hfi_for_each_bus(core, bus) {
if (bus && bus->path) { if (bus && bus->path) {
type = get_type_frm_name(bus->name); type = get_type_frm_name(bus->name);
@@ -599,17 +621,19 @@ static int __tzbsp_set_video_state(enum tzbsp_video_state state)
return 0; return 0;
} }
static int __set_clk_rate(struct msm_vidc_core *core, int __set_clk_rate(struct msm_vidc_core *core,
struct clock_info *cl, u64 rate) struct clock_info *cl, u64 rate)
{ {
int rc = 0; int rc = 0;
// struct clk *clk = cl->clk;
struct mmrm_client_data client_data; struct mmrm_client_data client_data;
struct mmrm_client *client = cl->mmrm_client; struct mmrm_client *client;
/* not registered */ /* not registered */
if (!client) if (!core || !cl || !cl->mmrm_client) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL; return -EINVAL;
}
client = cl->mmrm_client;
/* bail early if requested clk rate is not changed */ /* bail early if requested clk rate is not changed */
if (rate == cl->prev) if (rate == cl->prev)
@@ -644,12 +668,17 @@ static int __set_clocks(struct msm_vidc_core *core, u32 freq)
return 0; return 0;
} }
static int __scale_clocks(struct msm_vidc_core *core) int __scale_clocks(struct msm_vidc_core *core)
{ {
int rc = 0; int rc = 0;
struct allowed_clock_rates_table *allowed_clks_tbl; struct allowed_clock_rates_table *allowed_clks_tbl;
u32 freq = 0; u32 freq = 0;
if (!core || !core->dt) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
allowed_clks_tbl = core->dt->allowed_clks_tbl; allowed_clks_tbl = core->dt->allowed_clks_tbl;
freq = core->power.clk_freq ? core->power.clk_freq : freq = core->power.clk_freq ? core->power.clk_freq :
allowed_clks_tbl[0].clock_rate; allowed_clks_tbl[0].clock_rate;
@@ -1128,10 +1157,14 @@ static int __sys_set_power_control(struct msm_vidc_core *core, bool enable)
{ {
int rc = 0; int rc = 0;
if (!core->handoff_done) if (!core->handoff_done) {
d_vpr_e("%s: skipping as power control hanfoff was not done\n",
__func__);
return rc; return rc;
}
rc = hfi_packet_sys_intraframe_powercollapse(core, core->packet, core->packet_size, enable); rc = hfi_packet_sys_intraframe_powercollapse(core,
core->packet, core->packet_size, enable);
if (rc) if (rc)
return rc; return rc;
@@ -1139,6 +1172,9 @@ static int __sys_set_power_control(struct msm_vidc_core *core, bool enable)
if (rc) if (rc)
return rc; return rc;
core->hw_power_control = true;
d_vpr_h("%s: set hardware power control successful\n", __func__);
return rc; return rc;
} }
@@ -1530,7 +1566,7 @@ failed_to_reset:
return rc; return rc;
} }
static int __prepare_enable_clks(struct msm_vidc_core *core) int __prepare_enable_clks(struct msm_vidc_core *core)
{ {
struct clock_info *cl = NULL; struct clock_info *cl = NULL;
int rc = 0, c = 0; int rc = 0, c = 0;
@@ -1837,8 +1873,6 @@ static int __disable_regulator(struct regulator_info *rinfo,
goto disable_regulator_failed; goto disable_regulator_failed;
} }
core->handoff_done = 0;
if (!regulator_is_enabled(rinfo->regulator)) if (!regulator_is_enabled(rinfo->regulator))
d_vpr_e("%s: regulator %s already disabled\n", d_vpr_e("%s: regulator %s already disabled\n",
__func__, rinfo->name); __func__, rinfo->name);
@@ -1858,23 +1892,15 @@ disable_regulator_failed:
return rc; return rc;
} }
static int __enable_hw_power_collapse(struct msm_vidc_core *core) int __enable_regulators(struct msm_vidc_core *core)
{
int rc = 0;
rc = __hand_off_regulators(core);
if (rc)
d_vpr_e("%s: Failed to enable HW power collapse %d\n",
__func__, rc);
return rc;
}
static int __enable_regulators(struct msm_vidc_core *core)
{ {
int rc = 0, c = 0; int rc = 0, c = 0;
struct regulator_info *rinfo; struct regulator_info *rinfo;
if (!core) {
d_vpr_e("%s: invalid params\n", __func__);
return -EINVAL;
}
d_vpr_h("Enabling regulators\n"); d_vpr_h("Enabling regulators\n");
venus_hfi_for_each_regulator(core, rinfo) { venus_hfi_for_each_regulator(core, rinfo) {
@@ -2153,61 +2179,16 @@ static int __venus_power_on(struct msm_vidc_core *core)
{ {
int rc = 0; int rc = 0;
if (core->power_enabled) { if (core->power_enabled)
d_vpr_e("%s: Skip power on, core already enabled.\n", __func__);
return 0; return 0;
}
rc = call_venus_op(core, power_on, core);
if (rc) {
d_vpr_e("Failed to power on, err: %d\n", rc);
return rc;
}
core->power_enabled = true; core->power_enabled = true;
/* Vote for all hardware resources */
rc = __vote_buses(core, INT_MAX, INT_MAX);
if (rc) {
d_vpr_e("Failed to vote buses, err: %d\n", rc);
goto fail_vote_buses;
}
rc = __enable_regulators(core);
if (rc) {
d_vpr_e("Failed to enable GDSC, err = %d\n", rc);
goto fail_enable_gdsc;
}
rc = call_venus_op(core, reset_ahb2axi_bridge, core);
if (rc) {
d_vpr_e("Failed to reset ahb2axi: %d\n", rc);
goto fail_enable_clks;
}
rc = __prepare_enable_clks(core);
if (rc) {
d_vpr_e("Failed to enable clocks: %d\n", rc);
goto fail_enable_clks;
}
rc = __scale_clocks(core);
if (rc) {
d_vpr_e("Failed to scale clocks, performance might be affected\n");
rc = 0;
}
/*
* Re-program all of the registers that get reset as a result of
* regulator_disable() and _enable()
*/
__set_registers(core);
call_venus_op(core, interrupt_init, core);
core->intr_status = 0;
enable_irq(core->dt->irq);
return rc;
fail_enable_clks:
__disable_regulators(core);
fail_enable_gdsc:
__unvote_buses(core);
fail_vote_buses:
core->power_enabled = false;
return rc; return rc;
} }
@@ -2237,7 +2218,7 @@ static int __suspend(struct msm_vidc_core *core)
__disable_subcaches(core); __disable_subcaches(core);
call_venus_op(core, power_off, core); __venus_power_off(core);
d_vpr_h("Venus power off\n"); d_vpr_h("Venus power off\n");
return rc; return rc;
@@ -2264,6 +2245,9 @@ static int __resume(struct msm_vidc_core *core)
return rc; return rc;
d_vpr_h("Resuming from power collapse\n"); d_vpr_h("Resuming from power collapse\n");
core->handoff_done = false;
core->hw_power_control = false;
rc = __venus_power_on(core); rc = __venus_power_on(core);
if (rc) { if (rc) {
d_vpr_e("Failed to power on venus\n"); d_vpr_e("Failed to power on venus\n");
@@ -2283,8 +2267,7 @@ static int __resume(struct msm_vidc_core *core)
* (s/w triggered) to fast (HW triggered) unless the h/w vote is * (s/w triggered) to fast (HW triggered) unless the h/w vote is
* present. * present.
*/ */
if (__enable_hw_power_collapse(core)) __hand_off_regulators(core);
d_vpr_e("Failed to enabled inter-frame PC\n");
call_venus_op(core, setup_ucregion_memmap, core); call_venus_op(core, setup_ucregion_memmap, core);
@@ -2304,7 +2287,12 @@ static int __resume(struct msm_vidc_core *core)
} }
__set_subcaches(core); __set_subcaches(core);
__sys_set_power_control(core, true); rc = __sys_set_power_control(core, true);
if (rc) {
d_vpr_e("%s: set power control failed\n", __func__);
__acquire_regulators(core);
rc = 0;
}
d_vpr_h("Resumed from power collapse\n"); d_vpr_h("Resumed from power collapse\n");
exit: exit:
@@ -2315,7 +2303,7 @@ exit:
err_reset_core: err_reset_core:
__tzbsp_set_video_state(TZBSP_VIDEO_STATE_SUSPEND); __tzbsp_set_video_state(TZBSP_VIDEO_STATE_SUSPEND);
err_set_video_state: err_set_video_state:
call_venus_op(core, power_off, core); __venus_power_off(core);
err_venus_power_on: err_venus_power_on:
d_vpr_e("Failed to resume from power collapse\n"); d_vpr_e("Failed to resume from power collapse\n");
return rc; return rc;
@@ -2588,6 +2576,10 @@ int __load_fw(struct msm_vidc_core *core)
{ {
int rc = 0; int rc = 0;
d_vpr_h("%s\n", __func__);
core->handoff_done = false;
core->hw_power_control = false;
rc = __init_resources(core); rc = __init_resources(core);
if (rc) { if (rc) {
d_vpr_e("%s: Failed to init resources: %d\n", __func__, rc); d_vpr_e("%s: Failed to init resources: %d\n", __func__, rc);
@@ -2624,7 +2616,7 @@ int __load_fw(struct msm_vidc_core *core)
* (s/w triggered) to fast (HW triggered) unless the h/w vote is * (s/w triggered) to fast (HW triggered) unless the h/w vote is
* present. * present.
*/ */
__enable_hw_power_collapse(core); __hand_off_regulators(core);
return rc; return rc;
fail_protect_mem: fail_protect_mem:
@@ -2632,7 +2624,7 @@ fail_protect_mem:
qcom_scm_pas_shutdown(core->dt->fw_cookie); qcom_scm_pas_shutdown(core->dt->fw_cookie);
core->dt->fw_cookie = 0; core->dt->fw_cookie = 0;
fail_load_fw: fail_load_fw:
call_venus_op(core, power_off, core); __venus_power_off(core);
fail_venus_power_on: fail_venus_power_on:
__deinit_resources(core); __deinit_resources(core);
fail_init_res: fail_init_res:
@@ -2733,6 +2725,7 @@ void venus_hfi_pm_work_handler(struct work_struct *work)
return; return;
} }
d_vpr_h("%s: try power collapse\n", __func__);
/* /*
* It is ok to check this variable outside the lock since * It is ok to check this variable outside the lock since
* it is being updated in this context only * it is being updated in this context only
@@ -2823,8 +2816,6 @@ int venus_hfi_core_init(struct msm_vidc_core *core)
if (rc) if (rc)
return rc; return rc;
core->handoff_done = 0;
rc = __load_fw(core); rc = __load_fw(core);
if (rc) if (rc)
goto error; goto error;
@@ -2857,7 +2848,12 @@ int venus_hfi_core_init(struct msm_vidc_core *core)
if (rc) if (rc)
goto error; goto error;
__sys_set_power_control(core, true); rc = __sys_set_power_control(core, true);
if (rc) {
d_vpr_e("%s: set power control failed\n", __func__);
__acquire_regulators(core);
rc = 0;
}
d_vpr_h("%s(): successful\n", __func__); d_vpr_h("%s(): successful\n", __func__);
return 0; return 0;