[Intel-gfx] [PATCH i-g-t 2/2] tools/intel_watermark: Tool to decode watermark registers

ville.syrjala at linux.intel.com ville.syrjala at linux.intel.com
Mon Mar 23 06:15:48 PDT 2015


From: Ville Syrjälä <ville.syrjala at linux.intel.com>

The watermark registers on the gmch platform are a bit of a mess. Add
a tool to make some sense of them. While at it decode the ilk-bdw wm
registers as well. SKL+ is left out for now since it's a very different
beast.

Signed-off-by: Ville Syrjälä <ville.syrjala at linux.intel.com>
---
 tools/Makefile.sources  |   3 +-
 tools/intel_watermark.c | 898 ++++++++++++++++++++++++++++++++++++++++++++++++
 2 files changed, 900 insertions(+), 1 deletion(-)
 create mode 100644 tools/intel_watermark.c

diff --git a/tools/Makefile.sources b/tools/Makefile.sources
index 44b9e9c..6ca1228 100644
--- a/tools/Makefile.sources
+++ b/tools/Makefile.sources
@@ -32,7 +32,8 @@ bin_PROGRAMS = 				\
 	intel_reg_write 		\
 	intel_stepping 			\
 	intel_vga_read			\
-	intel_vga_write
+	intel_vga_write			\
+	intel_watermark
 
 dist_bin_SCRIPTS = intel_gpu_abrt
 
diff --git a/tools/intel_watermark.c b/tools/intel_watermark.c
new file mode 100644
index 0000000..e5dee46
--- /dev/null
+++ b/tools/intel_watermark.c
@@ -0,0 +1,898 @@
+/*
+ * Copyright © 2015 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 <stdbool.h>
+#include <err.h>
+#include <string.h>
+#include "intel_io.h"
+#include "intel_chipset.h"
+
+static uint32_t display_base;
+static uint32_t devid;
+
+#define ARRAY_SIZE(a) (sizeof(a)/sizeof((a)[0]))
+
+static uint32_t read_reg(uint32_t addr)
+{
+	return *(volatile uint32_t *)((volatile char*)mmio + display_base + addr);
+}
+
+struct gmch_wm {
+	int wm, wm1, dl, fifo, fbc, burst;
+	bool dl_prec, valid;
+};
+
+enum plane {
+	PRI_HPLL_SR,
+	CUR_HPLL_SR,
+	PRI_SR,
+	CUR_SR,
+	PRI_A,
+	CUR_A,
+	SPR_A,
+	SPR_B,
+	PRI_B,
+	CUR_B,
+	SPR_C,
+	SPR_D,
+	PRI_C,
+	CUR_C,
+	SPR_E,
+	SPR_F,
+	MAX_PLANE,
+};
+
+#define NAME(x) [x] = #x
+
+static const char * const plane_name[] = {
+	NAME(PRI_HPLL_SR),
+	NAME(CUR_HPLL_SR),
+	NAME(PRI_SR),
+	NAME(CUR_SR),
+	NAME(PRI_A),
+	NAME(CUR_A),
+	NAME(SPR_A),
+	NAME(SPR_B),
+	NAME(PRI_B),
+	NAME(CUR_B),
+	NAME(SPR_C),
+	NAME(SPR_D),
+	NAME(PRI_C),
+	NAME(CUR_C),
+	NAME(SPR_E),
+	NAME(SPR_F),
+};
+
+struct ilk_wm_level {
+	int primary, sprite, cursor, latency, fbc;
+	bool enabled, sprite_enabled;
+	bool primary_trickle_feed_dis, sprite_trickle_feed_dis;
+};
+
+struct ilk_wm {
+	struct ilk_wm_level pipe[3];
+	struct ilk_wm_level lp[3];
+};
+
+#define MASK(size) ((1 << (size)) - 1)
+
+#define REG_DECODE1(x, shift, size) \
+	(((x) >> (shift)) & MASK(size))
+
+#define REG_DECODE2(lo, shift_lo, size_lo, hi, shift_hi, size_hi) \
+	((((lo) >> (shift_lo)) & MASK(size_lo)) | \
+	 ((((hi) >> (shift_hi)) & MASK(size_hi)) << (size_lo)))
+
+static const char pipe_name(int pipe)
+{
+	return 'A' + pipe;
+}
+
+static const char *endis(bool enabled)
+{
+	return enabled ? "enabled" : "disabled";
+}
+
+static int is_gen7_plus(uint32_t d)
+{
+	return !(IS_GEN5(d) || IS_GEN6(d));
+}
+
+static int is_hsw_plus(uint32_t d)
+{
+	return !(IS_GEN5(d) || IS_GEN6(d) || IS_IVYBRIDGE(d));
+}
+
+static void ilk_wm_dump(void)
+{
+	int i;
+	uint32_t dspcntr[3];
+	uint32_t spcntr[3];
+	uint32_t wm_pipe[3];
+	uint32_t wm_lp[3];
+	uint32_t wm_lp_spr[3];
+	uint32_t arb_ctl, arb_ctl2, wm_misc = 0;
+	int num_pipes = is_gen7_plus(devid) ? 3 : 2;
+	struct ilk_wm wm = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	for (i = 0; i < num_pipes; i++) {
+		dspcntr[i] = read_reg(0x70180 + i * 0x1000);
+		if (is_gen7_plus(devid))
+			spcntr[i] = read_reg(0x70280 + i * 0x1000);
+		else
+			spcntr[i] = read_reg(0x72180 + i * 0x1000);
+	}
+
+	wm_pipe[0] = read_reg(0x45100);
+	wm_pipe[1] = read_reg(0x45104);
+	if (num_pipes == 3)
+		wm_pipe[2] = read_reg(0x45200);
+	wm_lp[0] = read_reg(0x45108);
+	wm_lp[1] = read_reg(0x4510c);
+	wm_lp[2] = read_reg(0x45110);
+
+	wm_lp_spr[0] = read_reg(0x45120);
+	if (is_gen7_plus(devid)) {
+		wm_lp_spr[1] = read_reg(0x45124);
+		wm_lp_spr[2] = read_reg(0x45128);
+	}
+
+	arb_ctl = read_reg(0x45000);
+	arb_ctl2 = read_reg(0x45004);
+	if (is_hsw_plus(devid))
+		wm_misc = read_reg(0x45260);
+
+	intel_register_access_fini();
+
+	for (i = 0; i < num_pipes; i++)
+		printf("  WM_PIPE_%c = 0x%08x\n", pipe_name(i), wm_pipe[i]);
+	printf("     WM_LP1 = 0x%08x\n", wm_lp[0]);
+	printf("     WM_LP2 = 0x%08x\n", wm_lp[1]);
+	printf("     WM_LP3 = 0x%08x\n", wm_lp[2]);
+	printf(" WM_LP1_SPR = 0x%08x\n", wm_lp_spr[0]);
+	if (is_gen7_plus(devid)) {
+		printf(" WM_LP2_SPR = 0x%08x\n", wm_lp_spr[1]);
+		printf(" WM_LP3_SPR = 0x%08x\n", wm_lp_spr[2]);
+	}
+	printf("    ARB_CTL = 0x%08x\n", arb_ctl);
+	printf("   ARB_CTL2 = 0x%08x\n", arb_ctl2);
+	if (is_hsw_plus(devid))
+		printf("    WM_MISC = 0x%08x\n", wm_misc);
+
+	for (i = 0 ; i < num_pipes; i++) {
+		wm.pipe[i].primary = REG_DECODE1(wm_pipe[i], 16, 8);
+		wm.pipe[i].sprite = REG_DECODE1(wm_pipe[i], 8, 8);
+		wm.pipe[i].cursor = REG_DECODE1(wm_pipe[i], 0, 6);
+
+		wm.pipe[i].primary_trickle_feed_dis =
+			REG_DECODE1(dspcntr[i], 14, 1);
+		if (!IS_GEN5(devid))
+			wm.pipe[i].sprite_trickle_feed_dis =
+				REG_DECODE1(spcntr[i], 14, 1);
+	}
+
+	for (i = 0; i < 3; i++) {
+		wm.lp[i].enabled = REG_DECODE1(wm_lp[i], 31, 1);
+		wm.lp[i].latency = REG_DECODE1(wm_lp[i], 24, 7);
+		if (IS_GEN8(devid))
+			wm.lp[i].fbc = REG_DECODE1(wm_lp[i], 19, 5);
+		else
+			wm.lp[i].fbc = REG_DECODE1(wm_lp[i], 20, 4);
+		wm.lp[i].primary = REG_DECODE1(wm_lp[i], 8, 11);
+		wm.lp[i].cursor = REG_DECODE1(wm_lp[i], 0, 8);
+
+		if (i == 0 || is_gen7_plus(devid)) {
+			if (!is_gen7_plus(devid))
+				wm.lp[i].sprite_enabled = REG_DECODE1(wm_lp_spr[i], 31, 1);
+			wm.lp[i].sprite = REG_DECODE1(wm_lp_spr[i], 0, 11);
+		}
+	}
+
+	for (i = 0; i < num_pipes; i++) {
+		printf("WM_PIPE_%c: primary=%d, cursor=%d, sprite=%d\n",
+		       pipe_name(i), wm.pipe[i].primary, wm.pipe[i].cursor, wm.pipe[i].sprite);
+	}
+	if (is_gen7_plus(devid)) {
+		for (i = 0; i < 3; i++) {
+			printf("WM_LP%d: %s, latency=%d, fbc=%d, primary=%d, cursor=%d, sprite=%d\n",
+			       i + 1, endis(wm.lp[i].enabled), wm.lp[i].latency, wm.lp[i].fbc,
+			       wm.lp[i].primary, wm.lp[i].cursor, wm.lp[i].sprite);
+		}
+	} else {
+		i = 0;
+		printf("WM_LP%d: %s, latency=%d, fbc=%d, primary=%d, cursor=%d, sprite=%d (%s)\n",
+		       i + 1, endis(wm.lp[i].enabled), wm.lp[i].latency, wm.lp[i].fbc,
+		       wm.lp[i].primary, wm.lp[i].cursor, wm.lp[i].sprite,
+		       endis(wm.lp[i].sprite_enabled));
+		for (i = 1; i < 3; i++) {
+			printf("WM_LP%d: %s, latency=%d, fbc=%d, primary=%d, cursor=%d\n",
+			       i + 1, endis(wm.lp[i].enabled), wm.lp[i].latency, wm.lp[i].fbc,
+			       wm.lp[i].primary, wm.lp[i].cursor);
+		}
+	}
+	for (i = 0; i < num_pipes; i++) {
+		printf("Primary %c trickle feed = %s\n",
+		       pipe_name(i), endis(!wm.pipe[i].primary_trickle_feed_dis));
+		if (!IS_GEN5(devid))
+			printf("Sprite %c trickle feed = %s\n",
+			       pipe_name(i), endis(!wm.pipe[i].sprite_trickle_feed_dis));
+	}
+	if (is_hsw_plus(devid)) {
+		printf("DDB partitioning = %s\n",
+		       REG_DECODE1(wm_misc, 0, 1) ? "5/6" : "1/2");
+	} else if (is_gen7_plus(devid)) {
+		printf("DDB partitioning = %s\n",
+		       REG_DECODE1(arb_ctl2, 6, 1) ? "5/6" : "1/2");
+	}
+	printf("FBC watermark = %s\n",
+	       endis(!REG_DECODE1(arb_ctl, 15, 1)));
+}
+
+static void vlv_wm_dump(void)
+{
+	int i;
+	unsigned int num_pipes = IS_CHERRYVIEW(devid) ? 3 : 2;
+	uint32_t dsparb, dsparb2, dsparb3;
+	uint32_t fw1, fw2, fw3, fw4, fw5, fw6, fw7, fw8, fw9, howm, howm1;
+	uint32_t ddl1, ddl2, ddl3;
+	uint32_t fw_blc_self, mi_arb,cbr1;
+	uint32_t dsp_ss_pm, ddr_setup2;
+	struct gmch_wm wms[MAX_PLANE] = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	dsparb = read_reg(0x70030);
+	dsparb2 = read_reg(0x70060);
+
+	fw1 = read_reg(0x70034);
+	fw2 = read_reg(0x70038);
+	fw3 = read_reg(0x7003c);
+	fw4 = read_reg(0x70070);
+	fw5 = read_reg(0x70074);
+	fw6 = read_reg(0x70078);
+
+	howm = read_reg(0x70064);
+	howm1 = read_reg(0x70068);
+
+	ddl1 = read_reg(0x70050);
+	ddl2 = read_reg(0x70054);
+
+	fw_blc_self = read_reg(0x6500);
+	mi_arb = read_reg(0x6504);
+	cbr1 = read_reg(0x70400);
+
+	if (IS_CHERRYVIEW(devid)) {
+		dsparb3 = read_reg(0x7006c);
+
+		fw7 = read_reg(0x700b4);
+		fw8 = read_reg(0x700b8);
+		fw9 = read_reg(0x7007c);
+
+		ddl3 = read_reg(0x70058);
+
+		intel_punit_read(0x36, &dsp_ss_pm);
+		intel_punit_read(0x139, &ddr_setup2);
+	} else {
+		fw7 = read_reg(0x7007c);
+	}
+
+	intel_register_access_fini();
+
+	printf("        FW1 = 0x%08x\n", fw1);
+	printf("        FW2 = 0x%08x\n", fw2);
+	printf("        FW3 = 0x%08x\n", fw3);
+	printf("        FW4 = 0x%08x\n", fw4);
+	printf("        FW5 = 0x%08x\n", fw5);
+	printf("        FW6 = 0x%08x\n", fw6);
+	printf("        FW7 = 0x%08x\n", fw7);
+	if (IS_CHERRYVIEW(devid)) {
+		printf("        FW8 = 0x%08x\n", fw8);
+		printf("        FW9 = 0x%08x\n", fw9);
+	}
+	printf("       HOWM = 0x%08x\n", howm);
+	printf("      HOWM1 = 0x%08x\n", howm1);
+	printf("       DDL1 = 0x%08x\n", ddl1);
+	printf("       DDL2 = 0x%08x\n", ddl2);
+	if (IS_CHERRYVIEW(devid))
+		printf("       DDL3 = 0x%08x\n", ddl3);
+	printf("     DSPARB = 0x%08x\n", dsparb);
+	printf("    DSPARB2 = 0x%08x\n", dsparb2);
+	if (IS_CHERRYVIEW(devid))
+		printf("    DSPARB3 = 0x%08x\n", dsparb3);
+	printf("FW_BLC_SELF = 0x%08x\n", fw_blc_self);
+	printf("     MI_ARB = 0x%08x\n", mi_arb);
+	printf("       CBR1 = 0x%08x\n", cbr1);
+	if (IS_CHERRYVIEW(devid)) {
+		printf("  DSP_SS_PM = 0x%08x\n", dsp_ss_pm);
+		printf(" DDR_SETUP2 = 0x%08x\n", ddr_setup2);
+	}
+
+	wms[PRI_A].valid = true;
+	wms[PRI_B].valid = true;
+	wms[CUR_A].valid = true;
+	wms[CUR_B].valid = true;
+	wms[SPR_A].valid = true;
+	wms[SPR_B].valid = true;
+	wms[SPR_C].valid = true;
+	wms[SPR_D].valid = true;
+	wms[PRI_SR].valid = true;
+	wms[CUR_SR].valid = true;
+
+	if (IS_CHERRYVIEW(devid)) {
+		wms[PRI_C].valid = true;
+		wms[CUR_C].valid = true;
+		wms[SPR_E].valid = true;
+		wms[SPR_F].valid = true;
+	}
+
+	wms[PRI_A].fifo = REG_DECODE2(dsparb, 0, 8, dsparb2, 0, 1) - 0;
+	wms[SPR_A].fifo = REG_DECODE2(dsparb, 8, 8, dsparb2, 4, 1) - wms[PRI_A].fifo;
+	wms[SPR_B].fifo = 512 - 1 - wms[SPR_A].fifo - wms[PRI_A].fifo;
+	wms[CUR_A].fifo = 0x3f;
+
+	wms[PRI_B].fifo = REG_DECODE2(dsparb, 16, 8, dsparb2, 8, 1) - 0;
+	wms[SPR_C].fifo = REG_DECODE2(dsparb, 24, 8, dsparb2, 12, 1) - wms[PRI_B].fifo;
+	wms[SPR_D].fifo = 512 - 1 - wms[SPR_C].fifo - wms[PRI_B].fifo;
+	wms[CUR_B].fifo = 0x3f;
+
+	if (IS_CHERRYVIEW(devid)) {
+		wms[PRI_C].fifo = REG_DECODE2(dsparb3, 0, 8, dsparb2, 16, 1) - 0;
+		wms[SPR_E].fifo = REG_DECODE2(dsparb3, 8, 8, dsparb2, 20, 1) - wms[PRI_C].fifo;
+		wms[SPR_F].fifo = 512 - 1 - wms[SPR_E].fifo - wms[PRI_C].fifo;
+		wms[CUR_C].fifo = 0x3f;
+	}
+
+	wms[PRI_SR].fifo = 512 * num_pipes - 1;
+	wms[CUR_SR].fifo = 0x3f;
+
+	wms[PRI_HPLL_SR].fifo = 512 * num_pipes - 1;
+	wms[CUR_HPLL_SR].fifo = 0x3f;
+
+	wms[PRI_A].wm  = REG_DECODE2(fw1, 0, 8, howm, 0, 1);
+	wms[PRI_B].wm  = REG_DECODE2(fw1, 8, 8, howm, 12, 1);
+	wms[CUR_B].wm  = REG_DECODE1(fw1, 16, 6);
+	wms[PRI_SR].wm = REG_DECODE2(fw1, 23, 9, howm, 24, 2);
+
+	wms[SPR_A].wm  = REG_DECODE2(fw2, 0, 8, howm, 4, 1);
+	wms[CUR_A].wm  = REG_DECODE1(fw2, 8, 6);
+	wms[SPR_B].wm  = REG_DECODE2(fw2, 16, 8, howm, 8, 1);
+
+	wms[CUR_SR].wm   = REG_DECODE1(fw3, 24, 6);
+
+	wms[SPR_A].wm1 = REG_DECODE2(fw4, 0, 8, howm1, 4, 1);
+	wms[CUR_A].wm1 = REG_DECODE1(fw4, 8, 6);
+	wms[SPR_B].wm1 = REG_DECODE2(fw4, 16, 8, howm1, 8, 1);
+
+	wms[CUR_SR].wm1 = REG_DECODE1(fw5, 0, 6);
+	wms[CUR_B].wm1  = REG_DECODE1(fw5, 8, 6);
+	wms[PRI_A].wm1  = REG_DECODE2(fw5, 16, 8, howm1, 0, 1);
+	wms[PRI_B].wm1  = REG_DECODE2(fw5, 24, 8, howm1, 12, 1);
+
+	wms[PRI_SR].wm1 = REG_DECODE2(fw6, 0, 9, howm1, 24, 2);
+
+	wms[SPR_C].wm  = REG_DECODE2(fw7, 0, 8, howm, 16, 1);
+	wms[SPR_C].wm1 = REG_DECODE2(fw7, 8, 8, howm1, 16, 1);
+	wms[SPR_D].wm  = REG_DECODE2(fw7, 16, 8, howm, 20, 1);
+	wms[SPR_D].wm1 = REG_DECODE2(fw7, 24, 8, howm1, 20, 1);
+
+	if (IS_CHERRYVIEW(devid)) {
+		wms[SPR_E].wm  = REG_DECODE2(fw8, 0, 8, howm, 22, 1);
+		wms[SPR_E].wm1 = REG_DECODE2(fw8, 8, 8, howm1, 22, 1);
+		wms[SPR_F].wm  = REG_DECODE2(fw8, 16, 8, howm, 23, 1);
+		wms[SPR_F].wm1 = REG_DECODE2(fw8, 24, 8, howm1, 23, 1);
+
+		wms[CUR_C].wm  = REG_DECODE1(fw9, 0, 6);
+		wms[CUR_C].wm1 = REG_DECODE1(fw9, 8, 6);
+		wms[PRI_C].wm  = REG_DECODE2(fw9, 16, 8, howm, 21, 1);
+		wms[PRI_C].wm1 = REG_DECODE2(fw9, 24, 8, howm1, 21, 1);
+	}
+
+	wms[PRI_A].dl = REG_DECODE1(ddl1, 0, 7);
+	wms[SPR_A].dl = REG_DECODE1(ddl1, 8, 7);
+	wms[SPR_B].dl = REG_DECODE1(ddl1, 16, 7);
+	wms[CUR_A].dl = REG_DECODE1(ddl1, 24, 7);
+
+	wms[PRI_A].dl_prec = REG_DECODE1(ddl1, 7, 1);
+	wms[SPR_A].dl_prec = REG_DECODE1(ddl1, 15, 1);
+	wms[SPR_B].dl_prec = REG_DECODE1(ddl1, 23, 1);
+	wms[CUR_A].dl_prec = REG_DECODE1(ddl1, 31, 1);
+
+	wms[PRI_B].dl = REG_DECODE1(ddl2, 0, 7);
+	wms[SPR_C].dl = REG_DECODE1(ddl2, 8, 7);
+	wms[SPR_D].dl = REG_DECODE1(ddl2, 16, 7);
+	wms[CUR_B].dl = REG_DECODE1(ddl2, 24, 7);
+
+	wms[PRI_B].dl_prec = REG_DECODE1(ddl2, 7, 1);
+	wms[SPR_C].dl_prec = REG_DECODE1(ddl2, 15, 1);
+	wms[SPR_D].dl_prec = REG_DECODE1(ddl2, 23, 1);
+	wms[CUR_B].dl_prec = REG_DECODE1(ddl2, 31, 1);
+
+	if (IS_CHERRYVIEW(devid)) {
+		wms[PRI_C].dl = REG_DECODE1(ddl3, 0, 7);
+		wms[SPR_E].dl = REG_DECODE1(ddl3, 8, 7);
+		wms[SPR_F].dl = REG_DECODE1(ddl3, 16, 7);
+		wms[CUR_C].dl = REG_DECODE1(ddl3, 24, 7);
+
+		wms[PRI_C].dl_prec = REG_DECODE1(ddl3, 7, 1);
+		wms[SPR_E].dl_prec = REG_DECODE1(ddl3, 15, 1);
+		wms[SPR_F].dl_prec = REG_DECODE1(ddl3, 23, 1);
+		wms[CUR_C].dl_prec = REG_DECODE1(ddl3, 31, 1);
+	}
+
+	for (i = 0; i < ARRAY_SIZE(wms); i++) {
+		if (!wms[i].valid)
+			continue;
+		printf("%s: WM = %d, WM1 = %d, DDL = %d (prec=%d), FIFO = %d\n",
+		       plane_name[i], wms[i].wm, wms[i].wm1, wms[i].dl, wms[i].dl_prec, wms[i].fifo);
+	}
+
+	printf("CxSR = %s\n",
+	       endis(REG_DECODE1(fw_blc_self, 15, 1)));
+	printf("Trickle feed = %s\n",
+	       endis(!REG_DECODE1(mi_arb, 2, 1)));
+	printf("PND deadline = %s\n",
+	       endis(!REG_DECODE1(cbr1, 31, 1)));
+
+	if (IS_CHERRYVIEW(devid)) {
+		printf("PM5 = %s\n",
+		       endis(REG_DECODE1(dsp_ss_pm, 6, 1)));
+		printf("PM5 state = %s\n",
+		       endis(REG_DECODE1(dsp_ss_pm, 22, 1)));
+		printf("DDR force high frequency = %s\n",
+		       endis(REG_DECODE1(ddr_setup2, 0, 1)));
+		printf("DDR force low frequency = %s\n",
+		       endis(REG_DECODE1(ddr_setup2, 1, 1)));
+	}
+}
+
+static void g4x_wm_dump(void)
+{
+	int i;
+	uint32_t dspacntr, dspbcntr;
+	uint32_t dsparb;
+	uint32_t fw1, fw2, fw3;
+	uint32_t mi_display_power_down;
+	uint32_t mi_arb_state;
+	struct gmch_wm wms[MAX_PLANE] = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	dspacntr = read_reg(0x70180);
+	dspbcntr = read_reg(0x71180);
+	dsparb = read_reg(0x70030);
+	fw1 = read_reg(0x70034);
+	fw2 = read_reg(0x70038);
+	fw3 = read_reg(0x7003c);
+	mi_display_power_down = read_reg(0x20e0);
+	mi_arb_state = read_reg(0x20e4);
+
+	intel_register_access_fini();
+
+	printf("             DSPACNTR = 0x%08x\n", dspacntr);
+	printf("             DSPBCNTR = 0x%08x\n", dspbcntr);
+	printf("                  FW1 = 0x%08x\n", fw1);
+	printf("                  FW2 = 0x%08x\n", fw2);
+	printf("                  FW3 = 0x%08x\n", fw3);
+	printf("               DSPARB = 0x%08x\n", dsparb);
+	printf("MI_DISPLAY_POWER_DOWN = 0x%08x\n", mi_display_power_down);
+	printf("         MI_ARB_STATE = 0x%08x\n", mi_arb_state);
+
+	wms[PRI_A].valid = true;
+	wms[PRI_B].valid = true;
+	wms[CUR_A].valid = true;
+	wms[CUR_B].valid = true;
+	wms[SPR_A].valid = true;
+	wms[SPR_B].valid = true;
+	wms[PRI_SR].valid = true;
+	wms[CUR_SR].valid = true;
+	wms[PRI_HPLL_SR].valid = true;
+	wms[CUR_HPLL_SR].valid = true;
+
+	wms[PRI_A].fifo = REG_DECODE1(dsparb, 0, 7) - 0;
+	wms[PRI_B].fifo = REG_DECODE1(dsparb, 7, 7) - wms[PRI_A].fifo;
+
+	wms[PRI_A].wm  = REG_DECODE1(fw1, 0, 7);
+	wms[PRI_B].wm  = REG_DECODE1(fw1, 8, 7);
+	wms[CUR_B].wm  = REG_DECODE1(fw1, 16, 6);
+	wms[PRI_SR].wm = REG_DECODE1(fw1, 23, 9);
+
+	wms[PRI_SR].fbc      = REG_DECODE1(fw2, 0, 8);
+	wms[PRI_HPLL_SR].fbc = REG_DECODE1(fw2, 8, 6);
+
+	wms[SPR_B].wm = REG_DECODE1(fw2, 16, 7);
+	wms[CUR_A].wm = REG_DECODE1(fw2, 8, 6);
+	wms[SPR_A].wm = REG_DECODE1(fw2, 0, 7);
+
+	wms[CUR_SR].wm      = REG_DECODE1(fw3, 24, 6);
+	wms[CUR_HPLL_SR].wm = REG_DECODE1(fw3, 16, 6);
+	wms[PRI_HPLL_SR].wm = REG_DECODE1(fw3, 0, 9);
+
+	for (i = 0; i < ARRAY_SIZE(wms); i++) {
+		if (!wms[i].valid)
+			continue;
+		printf("%s: WM = %d, FBC = %d, FIFO = %d\n",
+		       plane_name[i], wms[i].wm, wms[i].fbc, wms[i].fifo);
+	}
+	printf("CxSR = %s\n",
+	       endis(REG_DECODE1(mi_display_power_down, 15, 1)));
+	printf("HPLL SR = %s\n",
+	       endis(REG_DECODE1(fw3, 31, 1)));
+	printf("FBC SR = %s\n",
+	       endis(REG_DECODE1(fw2, 31, 1)));
+	printf("Display A trickle feed = %s\n",
+	       endis(!REG_DECODE1(dspacntr, 14, 1)));
+	printf("Display B trickle feed = %s\n",
+	       endis(!REG_DECODE1(dspbcntr, 14, 1)));
+	printf("Display A uses sprite data buffer = %s\n",
+	       endis(!REG_DECODE1(dspacntr, 13, 1)));
+	printf("Display B uses sprite data buffer = %s\n",
+	       endis(!REG_DECODE1(dspbcntr, 13, 1)));
+	printf("Primary display = %c\n",
+	       REG_DECODE1(mi_arb_state, 0, 1) ? 'B' : 'A');
+}
+
+static void gen4_wm_dump(void)
+{
+	int i;
+	int totalsize = IS_CRESTLINE(devid) ? 128 : 96;
+	uint32_t dsparb;
+	uint32_t fw1, fw2, fw3;
+	uint32_t mi_display_power_down;
+	uint32_t mi_arb_state;
+	struct gmch_wm wms[MAX_PLANE] = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	dsparb = read_reg(0x70030);
+	fw1 = read_reg(0x70034);
+	fw2 = read_reg(0x70038);
+	fw3 = read_reg(0x7003c);
+	mi_display_power_down = read_reg(0x20e0);
+	mi_arb_state = read_reg(0x20e4);
+
+	intel_register_access_fini();
+
+	printf("                  FW1 = 0x%08x\n", fw1);
+	printf("                  FW2 = 0x%08x\n", fw2);
+	printf("                  FW3 = 0x%08x\n", fw3);
+	printf("               DSPARB = 0x%08x\n", dsparb);
+	printf("MI_DISPLAY_POWER_DOWN = 0x%08x\n", mi_display_power_down);
+	printf("         MI_ARB_STATE = 0x%08x\n", mi_arb_state);
+
+	wms[PRI_A].valid = true;
+	wms[PRI_B].valid = true;
+	wms[PRI_C].valid = true;
+	wms[CUR_A].valid = true;
+	wms[CUR_B].valid = true;
+	wms[PRI_SR].valid = true;
+	wms[CUR_SR].valid = true;
+	wms[PRI_HPLL_SR].valid = true;
+	wms[CUR_HPLL_SR].valid = true;
+
+	wms[PRI_A].fifo = REG_DECODE1(dsparb, 0, 7) - 0;
+	wms[PRI_B].fifo = REG_DECODE1(dsparb, 7, 7) - wms[PRI_A].fifo;
+	wms[PRI_C].fifo = totalsize - wms[PRI_B].fifo - wms[PRI_A].fifo - 1;
+
+	wms[PRI_A].wm  = REG_DECODE1(fw1, 0, 7);
+	wms[PRI_B].wm  = REG_DECODE1(fw1, 8, 7);
+	wms[CUR_B].wm  = REG_DECODE1(fw1, 16, 6);
+	wms[PRI_SR].wm = REG_DECODE1(fw1, 23, 9);
+
+	wms[CUR_A].wm = REG_DECODE1(fw2, 8, 6);
+	wms[PRI_C].wm = REG_DECODE1(fw2, 0, 7);
+
+	wms[CUR_SR].wm      = REG_DECODE1(fw3, 24, 6);
+	wms[CUR_HPLL_SR].wm = REG_DECODE1(fw3, 16, 6);
+	wms[PRI_HPLL_SR].wm = REG_DECODE1(fw3, 0, 9);
+
+	for (i = 0; i < ARRAY_SIZE(wms); i++) {
+		if (!wms[i].valid)
+			continue;
+		printf("%s: WM = %d, FIFO = %d\n",
+		       plane_name[i], wms[i].wm, wms[i].fifo);
+	}
+	printf("CxSR = %s\n",
+	       endis(REG_DECODE1(mi_display_power_down, 15, 1)));
+	printf("HPLL SR enable = %s\n",
+	       endis(REG_DECODE1(fw3, 31, 1)));
+	printf("Trickle feed = %s\n",
+	       endis(!REG_DECODE1(mi_arb_state, 2, 1)));
+	printf("Primary display = %c\n",
+	       REG_DECODE1(mi_arb_state, 0, 1) + 'A');
+}
+
+static void pnv_wm_dump(void)
+{
+	int i;
+	int totalsize = 96; /* FIXME? */
+	uint32_t dsparb;
+	uint32_t fw1, fw2, fw3;
+	uint32_t mi_display_power_down;
+	uint32_t mi_arb_state;
+	uint32_t cbr;
+	struct gmch_wm wms[MAX_PLANE] = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	dsparb = read_reg(0x70030);
+	fw1 = read_reg(0x70034);
+	fw2 = read_reg(0x70038);
+	fw3 = read_reg(0x7003c);
+	cbr = read_reg(0x70400);
+	mi_display_power_down = read_reg(0x20e0);
+	mi_arb_state = read_reg(0x20e4);
+
+	intel_register_access_fini();
+
+	printf("               DSPARB = 0x%08x\n", dsparb);
+	printf("                  FW1 = 0x%08x\n", fw1);
+	printf("                  FW2 = 0x%08x\n", fw2);
+	printf("                  FW3 = 0x%08x\n", fw3);
+	printf("                  CBR = 0x%08x\n", cbr);
+	printf("MI_DISPLAY_POWER_DOWN = 0x%08x\n", mi_display_power_down);
+	printf("         MI_ARB_STATE = 0x%08x\n", mi_arb_state);
+
+	wms[PRI_A].valid = true;
+	wms[PRI_B].valid = true;
+	wms[PRI_C].valid = true;
+	wms[CUR_A].valid = true;
+	wms[CUR_B].valid = true;
+	wms[PRI_SR].valid = true;
+	wms[CUR_SR].valid = true;
+	wms[PRI_HPLL_SR].valid = true;
+	wms[CUR_HPLL_SR].valid = true;
+
+	wms[PRI_A].fifo = REG_DECODE1(dsparb, 0, 7) - 0;
+	wms[PRI_B].fifo = REG_DECODE1(dsparb, 7, 7) - wms[PRI_A].fifo;
+	wms[PRI_C].fifo = totalsize - wms[PRI_B].fifo - wms[PRI_A].fifo - 1;
+
+	wms[PRI_A].wm  = REG_DECODE1(fw1, 0, 7);
+	wms[PRI_B].wm  = REG_DECODE1(fw1, 8, 7);
+	wms[CUR_B].wm  = REG_DECODE1(fw1, 16, 6);
+	wms[PRI_SR].wm = REG_DECODE1(fw1, 23, 9);
+
+	wms[CUR_A].wm = REG_DECODE1(fw2, 8, 6);
+	wms[PRI_C].wm = REG_DECODE1(fw2, 0, 7);
+
+	switch ((REG_DECODE1(cbr, 30, 1) << 1) | REG_DECODE1(cbr, 25, 1)) {
+	case 3:
+	case 2:
+		wms[PRI_SR].fifo = 8 * 1024 / 64;
+		break;
+	case 1:
+		wms[PRI_SR].fifo = 16 * 1024 / 64;
+		break;
+	case 0:
+		wms[PRI_SR].fifo = 32 * 1024 / 64;
+		break;
+	}
+
+	wms[CUR_SR].wm      = REG_DECODE1(fw3, 24, 6);
+	wms[CUR_HPLL_SR].wm = REG_DECODE1(fw3, 16, 6);
+	wms[PRI_HPLL_SR].wm = REG_DECODE1(fw3, 0, 9);
+
+	for (i = 0; i < ARRAY_SIZE(wms); i++) {
+		if (!wms[i].valid)
+			continue;
+		printf("%s: WM = %d, FIFO = %d\n",
+		       plane_name[i], wms[i].wm, wms[i].fifo);
+	}
+	printf("CxSR enable = %s\n",
+	       endis(REG_DECODE1(fw3, 30, 1)));
+	printf("HPLL SR enable = %s\n",
+	       endis(REG_DECODE1(fw3, 31, 1)));
+	printf("Trickle feed = %s\n",
+	       endis(!REG_DECODE1(mi_arb_state, 2, 1)));
+	printf("Primary display = %c\n",
+	       REG_DECODE1(mi_arb_state, 0, 1) + 'A');
+	printf("Display plane A throttling = %s\n",
+	       endis(!REG_DECODE1(cbr, 0, 1)));
+	printf("Display plane B throttling = %s\n",
+	       endis(!REG_DECODE1(cbr, 1, 1)));
+}
+
+static void gen3_wm_dump(void)
+{
+	int i;
+	int totalsize = IS_945GM(devid) ? 128 : 96; /* FIXME? */
+	uint32_t dsparb;
+	uint32_t instpm;
+	uint64_t fw_blc;
+	uint32_t fw_blc_self;
+	uint32_t mi_arb_state;
+	struct gmch_wm wms[MAX_PLANE] = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	dsparb = read_reg(0x70030);
+	instpm = read_reg(0x20c0);
+	fw_blc = read_reg(0x20d8) | ((uint64_t)read_reg(0x20dc) << 32);
+	fw_blc_self = read_reg(0x20e0);
+	mi_arb_state = read_reg(0x20e4);
+
+	intel_register_access_fini();
+
+	printf("      DSPARB = 0x%08x\n", dsparb);
+	printf("      FW_BLC = 0x%016" PRIx64 "\n", fw_blc);
+	printf(" FW_BLC_SELF = 0x%08x\n", fw_blc_self);
+	printf("MI_ARB_STATE = 0x%08x\n", mi_arb_state);
+
+	wms[PRI_A].valid = true;
+	wms[PRI_B].valid = true;
+	wms[PRI_C].valid = true;
+	wms[PRI_SR].valid = true;
+
+	wms[PRI_SR].wm = REG_DECODE1(fw_blc_self, 0, 8);
+
+	wms[PRI_C].burst = (REG_DECODE1(fw_blc, 40, 2) + 1) * 4;
+	wms[PRI_C].wm    = REG_DECODE1(fw_blc, 32, 8);
+
+	wms[PRI_B].burst = (REG_DECODE1(fw_blc, 24, 2) + 1) * 4;
+	wms[PRI_B].wm    = REG_DECODE1(fw_blc, 16, 8);
+
+	wms[PRI_A].burst = (REG_DECODE1(fw_blc, 8, 2) + 1) * 4;
+	wms[PRI_A].wm    = REG_DECODE1(fw_blc, 0, 8);
+
+	wms[PRI_A].fifo = REG_DECODE1(dsparb, 0, 7) - 0;
+	wms[PRI_B].fifo = REG_DECODE1(dsparb, 7, 7) - wms[PRI_A].fifo;
+	wms[PRI_C].fifo = totalsize - wms[PRI_B].fifo - wms[PRI_A].fifo - 1;
+
+	for (i = 0; i < ARRAY_SIZE(wms); i++) {
+		if (!wms[i].valid)
+			continue;
+		printf("%s: WM = %d, FIFO = %d, burst = %d\n",
+		       plane_name[i], wms[i].wm, wms[i].fifo, wms[i].burst);
+	}
+	/* FIXME G33 too perhaps? */
+	if (devid == PCI_CHIP_I945_G || devid == PCI_CHIP_I945_GM ||
+	    devid == PCI_CHIP_I945_GME) {
+		printf("CxSR = %s\n",
+		       endis(REG_DECODE1(fw_blc_self, 15, 1)));
+	} else if (devid == PCI_CHIP_I915_GM) {
+		printf("CxSR = %s\n",
+		       endis(REG_DECODE1(instpm, 12, 1)));
+	}
+	printf("Trickle feed = %s\n",
+	       endis(!REG_DECODE1(mi_arb_state, 2, 1)));
+	printf("Primary display = %c\n",
+	       REG_DECODE1(mi_arb_state, 0, 1) + 'A');
+	printf("Display plane capability = %d planes\n",
+	       3 - REG_DECODE1(mi_arb_state, 12, 2));
+}
+
+static void gen2_wm_dump(void)
+{
+	int i;
+	int totalsize;
+	uint32_t dsparb;
+	uint32_t mem_mode;
+	uint64_t fw_blc;
+	uint32_t fw_blc_self;
+	uint32_t mi_state;
+	struct gmch_wm wms[MAX_PLANE] = {};
+
+	intel_register_access_init(intel_get_pci_device(), 0);
+
+	dsparb = read_reg(0x70030);
+	mem_mode = read_reg(0x20cc);
+	fw_blc = read_reg(0x20d8) | ((uint64_t)read_reg(0x20dc) << 32);
+	fw_blc_self = read_reg(0x20e0);
+	mi_state = read_reg(0x20e4);
+
+	intel_register_access_fini();
+
+	printf("     DSPARB = 0x%08x\n", dsparb);
+	printf("   MEM_MODE = 0x%08x\n", mem_mode);
+	printf("     FW_BLC = 0x%016" PRIx64 "\n", fw_blc);
+	printf("FW_BLC_SELF = 0x%08x\n", fw_blc_self);
+	printf("   MI_STATE = 0x%08x\n", mi_state);
+
+	wms[PRI_C].burst = (REG_DECODE1(fw_blc, 40, 2) + 1) * 4;
+	wms[PRI_C].wm    = REG_DECODE1(fw_blc, 32, 8);
+
+	wms[PRI_B].burst = (REG_DECODE1(fw_blc, 24, 2) + 1) * 4;
+	wms[PRI_B].wm    = REG_DECODE1(fw_blc, 16, 8);
+
+	wms[PRI_A].burst = (REG_DECODE1(fw_blc, 8, 2) + 1) * 4;
+	wms[PRI_A].wm    = REG_DECODE1(fw_blc, 0, 8);
+
+	if (devid == PCI_CHIP_845_G || devid == PCI_CHIP_I865_G) {
+		wms[PRI_A].valid = true;
+		wms[PRI_C].valid = true;
+
+		totalsize = 96; /* FIXME? */
+		wms[PRI_A].fifo = REG_DECODE1(dsparb, 0, 7) - 0;
+		wms[PRI_C].fifo = totalsize - wms[PRI_A].fifo - 1;
+	} else {
+		wms[PRI_A].valid = true;
+		wms[PRI_B].valid = true;
+		wms[PRI_C].valid = true;
+
+		if (devid == PCI_CHIP_I830_M)
+			totalsize = 288;
+		else
+			totalsize = 256;
+		totalsize = (devid == PCI_CHIP_I855_GM) ? 256 : 288;
+		wms[PRI_A].fifo = REG_DECODE1(dsparb, 0, 9) - 0;
+		wms[PRI_B].fifo = REG_DECODE1(dsparb, 9, 9) - wms[PRI_A].fifo;
+		wms[PRI_C].fifo = totalsize - wms[PRI_B].fifo - wms[PRI_A].fifo - 1;
+	}
+
+	for (i = 0; i < ARRAY_SIZE(wms); i++) {
+		if (!wms[i].valid)
+			continue;
+		printf("%s: WM = %d, FIFO = %d, burst = %d\n",
+		       plane_name[i], wms[i].wm, wms[i].fifo, wms[i].burst);
+	}
+	if (devid == PCI_CHIP_I855_GM || devid == PCI_CHIP_I854_G) {
+		printf("CxSR = %s (%d)\n",
+		       endis(REG_DECODE1(mi_state, 3, 2)),
+		       REG_DECODE1(mi_state, 3, 2));
+		printf("Trickle feed = %s\n",
+		       endis(!REG_DECODE1(mem_mode, 2, 1)));
+		printf("Display round robin = %s\n",
+		       endis(REG_DECODE1(mem_mode, 14, 1)));
+		printf("Primary display = %c\n",
+		       REG_DECODE1(mem_mode, 15, 1) + 'A');
+	} else {
+		printf("Display A trickle feed = %s\n",
+		       endis(!REG_DECODE1(mem_mode, 2, 1)));
+		printf("Display B trickle feed = %s\n",
+		       endis(!REG_DECODE1(mem_mode, 3, 1)));
+		printf("Water mark fix = %s\n",
+		       endis(!REG_DECODE1(mem_mode, 14, 1)));
+	}
+}
+
+int main(int argc, char *argv[])
+{
+	devid = intel_get_pci_device()->device_id;
+
+	if (HAS_PCH_SPLIT(devid)) {
+		ilk_wm_dump();
+	} else if (IS_VALLEYVIEW(devid) || IS_CHERRYVIEW(devid)) {
+		display_base = 0x180000;
+		vlv_wm_dump();
+	} else if (IS_G4X(devid)) {
+		g4x_wm_dump();
+	} else if (IS_GEN4(devid)) {
+		gen4_wm_dump();
+	} else if (IS_IGD(devid)) {
+		pnv_wm_dump();
+	} else if (IS_GEN3(devid)) {
+		gen3_wm_dump();
+	} else if (IS_GEN2(devid)) {
+		gen2_wm_dump();
+	} else {
+		printf("unknown chip 0x%x\n", devid);
+		return 1;
+	}
+
+	return 0;
+}
-- 
2.0.5



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