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/* Copyright © 2011 Intel Corporation
*
* 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 (including the next
* paragraph) 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 <unistd.h>
#include <stdlib.h>
#include <stdio.h>
#include <err.h>
#include <string.h>
#include <stdbool.h>
#include "intel_io.h"
#include "intel_chipset.h"
static uint32_t devid;
static int gen;
static inline uint32_t
read_reg(uint32_t reg)
{
return *(volatile uint32_t *)((volatile char *)mmio + reg);
}
static uint32_t
read_and_print_reg(const char *name, uint32_t reg)
{
uint32_t val = read_reg(reg);
printf("%s (0x%x): 0x%08x\n", name, reg, val);
return val;
}
static void
check_chicken_unset(const char *name, uint32_t reg)
{
uint32_t val = read_and_print_reg(name, reg);
if (val != 0) {
fprintf(stderr, " WARN: chicken bits set\n");
} else {
printf(" OK: chicken bits unset\n");
}
}
static void
check_bit(uint32_t val, int bit, const char *bitname, bool set)
{
if (!!(val & (1 << bit)) != set) {
fprintf(stderr, " (bit %2d) FAIL: %s must be %s\n",
bit, bitname, set ? "set" : "unset");
} else {
printf(" (bit %2d) OK: %s\n", bit, bitname);
}
}
static void
check_perf_bit(uint32_t val, int bit, const char *bitname, bool set)
{
if (!!(val & (1 << bit)) != set) {
printf(" (bit %2d) PERF: %s should be %s\n",
bit, bitname, set ? "set" : "unset");
} else {
printf(" (bit %2d) OK: %s\n", bit, bitname);
}
}
static void
check_mi_mode(void)
{
/* Described in page 14-16 of the IHD_OS_Vol1_Part3.pdf
* specification.
*/
uint32_t mi_mode = read_and_print_reg("MI_MODE", 0x209c);
/* From page 14:
*
* Async Flip Performance mode
* Project: All
* Default Value: 0h
* Format: U1
* [DevSNB] This bit must be set to ‘1’
*/
if (gen == 6)
check_bit(mi_mode, 14, "Async Flip Performance mode", true);
else
check_perf_bit(mi_mode, 14, "Async Flip Performance mode",
false);
check_perf_bit(mi_mode, 13, "Flush Performance Mode", false);
/* Our driver relies on MI_FLUSH, unfortunately. */
if (gen >= 6)
check_bit(mi_mode, 12, "MI_FLUSH enable", true);
/* From page 15:
*
* "1h: LRA mode of allocation. Used for validation purposes"
*/
if (gen < 7)
check_bit(mi_mode, 7, "Vertex Shader Cache Mode", false);
/* From page 16:
*
* "To avoid deadlock conditions in hardware this bit
* needs to be set for normal operation.
*/
check_bit(mi_mode, 6, "Vertex Shader Timer Dispatch Enable", true);
}
static void
check_gfx_mode(void)
{
/* Described in page 17-19 of the IHD_OS_Vol1_Part3.pdf
* specification.
*/
uint32_t gfx_mode;
if (gen < 6)
return;
if (gen == 6)
gfx_mode = read_and_print_reg("GFX_MODE", 0x2520);
else
gfx_mode = read_and_print_reg("GFX_MODE", 0x229c);
/* Our driver only updates page tables at batchbuffer
* boundaries, so we don't need TLB flushes at other times.
*/
check_perf_bit(gfx_mode, 13, "Flush TLB Invalidation Mode", true);
}
static void
check_gt_mode(void)
{
/* Described in page 20-22 of the IHD_OS_Vol1_Part3.pdf
* specification.
*/
uint32_t gt_mode;
if (gen < 6)
return;
if (gen == 6)
gt_mode = read_and_print_reg("GT_MODE", 0x20d0);
else
gt_mode = read_and_print_reg("GT_MODE", 0x7008);
if (gen == 6)
check_perf_bit(gt_mode, 8, "Full Rate Sampler Disable", false);
/* For DevSmallGT, this bit must be set, which means disable
* hashing.
*/
if (devid == PCI_CHIP_SANDYBRIDGE_GT1 ||
devid == PCI_CHIP_SANDYBRIDGE_M_GT1)
check_bit(gt_mode, 6, "WIZ Hashing disable", true);
else if (gen == 6)
check_perf_bit(gt_mode, 6, "WIZ Hashing disable", false);
if (gen == 6) {
check_perf_bit(gt_mode, 5, "TD Four Row Dispatch Disable",
false);
check_perf_bit(gt_mode, 4, "Full Size URB Disable", false);
check_perf_bit(gt_mode, 3, "Full Size SF FIFO Disable", false);
check_perf_bit(gt_mode, 1, "VS Quad Thread Dispatch Disable",
false);
}
}
static void
check_cache_mode_0(void)
{
/* Described in page 23-25 of the IHD_OS_Vol1_Part3.pdf
* specification.
*/
uint32_t cache_mode_0;
if (gen >= 7)
cache_mode_0 = read_and_print_reg("CACHE_MODE_0", 0x7000);
else
cache_mode_0 = read_and_print_reg("CACHE_MODE_0", 0x2120);
check_perf_bit(cache_mode_0, 15, "Sampler L2 Disable", false);
check_perf_bit(cache_mode_0, 9, "Sampler L2 TLB Prefetch Enable", true);
check_perf_bit(cache_mode_0, 8,
"Depth Related Cache Pipelined Flush Disable", false);
/* From page 24:
*
* "If this bit is set, RCCunit will have LRA as
* replacement policy. The default value i.e. ( when this
* bit is reset ) indicates that non-LRA eviction
* policy. This bit must be reset. LRA replacement policy
* is not supported."
*
* And the same for STC Eviction Policy.
*/
check_bit(cache_mode_0, 5, "STC LRA Eviction Policy", false);
if (gen >= 6)
check_bit(cache_mode_0, 4, "RCC LRA Eviction Policy", false);
check_perf_bit(cache_mode_0, 3, "Hierarchical Z Disable", false);
if (gen == 6) {
check_perf_bit(cache_mode_0, 2,
"Hierarchical Z RAW Stall Optimization "
"Disable", false);
}
/* From page 25:
*
* "This bit must be 0. Operational Flushes [DevSNB] are
* not supported in [DevSNB]. SW must flush the render
* target after front buffer rendering."
*/
check_bit(cache_mode_0, 0, "Render Cache Operational Flush", false);
}
static void
check_cache_mode_1(void)
{
/* Described in page 23-25 of the IHD_OS_Vol1_Part3.pdf
* specification.
*/
uint32_t cache_mode_1;
if (gen >= 7)
cache_mode_1 = read_and_print_reg("CACHE_MODE_1", 0x7004);
else
cache_mode_1 = read_and_print_reg("CACHE_MODE_1", 0x2124);
if (gen >= 7) {
check_perf_bit(cache_mode_1, 13,
"STC Address Lookup Optimization Disable",
false);
}
/* From page 24:
*
* "If this bit is set, Hizunit will have LRA as
* replacement policy. The default value i.e. (when this
* bit is reset) indicates the non-LRA eviction
* policy. For performance reasons, this bit must be
* reset."
*/
check_bit(cache_mode_1, 12, "HIZ LRA Eviction Policy", false);
/* Page 26 describes these bits as reserved (debug only). */
check_bit(cache_mode_1, 11,
"DAP Instruction and State Cache Invalidate", false);
check_bit(cache_mode_1, 10,
"Instruction L1 Cache and In-Flight Queue Disable",
false);
check_bit(cache_mode_1, 9, "Instruction L2 Cache Fill Buffers Disable",
false);
if (gen >= 7) {
check_perf_bit(cache_mode_1, 6,
"Pixel Backend sub-span collection "
"Optimization Disable",
false);
check_perf_bit(cache_mode_1, 5, "MCS Cache Disable", false);
}
check_perf_bit(cache_mode_1, 4, "Data Disable", false);
if (gen == 6) {
/* In a later update of the documentation, it says:
*
* "[DevSNB:A0{WKA1}] [DevSNB]: This bit must be
* set for depth buffer format
* D24_UNORM_S8_UINT."
*
* XXX: Does that mean A0 only, or all DevSNB?
*/
check_perf_bit(cache_mode_1, 3,
"Depth Read Hit Write-Only Optimization "
"Disable", false);
check_perf_bit(cache_mode_1, 2,
"Depth Cache LRA Hunt Feature Disable",
false);
}
check_bit(cache_mode_1, 1, "Instruction and State L2 Cache Disable",
false);
check_bit(cache_mode_1, 0, "Instruction and State L1 Cache Disable",
false);
}
static void
check_3d_chicken4(void)
{
/* Described in page 23-25 of the IHD_OS_Vol1_Part3.pdf
* specification.
*/
uint32_t _3d_chicken4 = read_and_print_reg("3D_CHICKEN4", 0x20d4);
check_perf_bit(_3d_chicken4, 6, "3D Scoreboard Hashing Enable", true);
if (_3d_chicken4 & 0x0fbf) {
fprintf(stderr,
" WARN: other non-thread deps bits set\n");
} else {
printf(" OK: other non-thread deps bits unset\n");
}
}
static void
check_dpfc_control_sa(void)
{
uint32_t dpfc_control_sa;
if (gen != 6)
return;
dpfc_control_sa = read_and_print_reg("DPFC_CONTROL_SA", 0x100100);
/* This is needed for framebuffer compression for us to be
* able to access the framebuffer by the CPU through the GTT.
*/
check_bit(dpfc_control_sa, 29, "CPU Fence Enable", true);
}
int main(int argc, char** argv)
{
struct pci_device *dev;
dev = intel_get_pci_device();
devid = dev->device_id;
intel_mmio_use_pci_bar(dev);
if (IS_GEN7(devid))
gen = 7;
else if (IS_GEN6(devid))
gen = 6;
else if (IS_GEN5(devid))
gen = 5;
else
gen = 4;
check_mi_mode();
check_gfx_mode();
check_gt_mode();
check_cache_mode_0();
check_cache_mode_1();
if (gen < 7) {
check_chicken_unset("3D_CHICKEN", 0x2084);
check_chicken_unset("3D_CHICKEN2", 0x208c);
} else {
check_chicken_unset("FF_SLICE_CHICKEN", 0x2088);
}
if (gen >= 6)
check_chicken_unset("3D_CHICKEN3", 0x2090);
if (gen == 6)
check_3d_chicken4();
if (gen >= 7) {
check_chicken_unset("FF_SLICE_CS_CHICKEN1", 0x20e0);
check_chicken_unset("FF_SLICE_CS_CHICKEN2", 0x20e4);
check_chicken_unset("FF_SLICE_CS_CHICKEN3", 0x20e8);
check_chicken_unset("COMMON_SLICE_CHICKEN1", 0x7010);
check_chicken_unset("COMMON_SLICE_CHICKEN2", 0x7014);
check_chicken_unset("WM_CHICKEN", 0x5580);
check_chicken_unset("HALF_SLICE_CHICKEN", 0xe100);
check_chicken_unset("HALF_SLICE_CHICKEN2", 0xe180);
check_chicken_unset("ROW_CHICKEN", 0xe4f0);
check_chicken_unset("ROW_CHICKEN2", 0xe4f4);
}
check_chicken_unset("ECOSKPD", 0x21d0);
check_dpfc_control_sa();
return 0;
}
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