[PATCH 0/8] Secure Boot refactoring

[PATCH 0/8] Secure Boot refactoring

[Alexandre Courbot]

Hi everyone,

Apologies for the big patchset. This is a rework of the secure boot code that
moves the building of the blob into its own set of source files (and own hooks),
making the code more flexible and (hopefully) easier to understand as well.

This rework is needed to support more signed firmware for existing and new
chips. Since the firmwares in question are not available yet I cannot send the
code for them yet, but hopefully the gain in clarity will be enough to merge
this series ahead of the rest.

Patch 1 is just to make nv*_printk() more tolerent of my use of const pointers.
Patch 2 lays the foundation of a small common falcon library that could avoid
duplicated code in various parts of the driver. Right now only secure boot makes
use of it (patch 3), but there are many potential users (GR, PMU, etc). I will
test users and send further patches making use of it.

Patch 4 renames a hook to something better describing its actual use.

Patch 5 is where the big refactoring occurs. It looks scary, but is really just
moving code (and introducing the nvkm_acr structures).

Patch 6, 7 and 8 remove a few HS hooks that turn out to be unneeded, and add
support for LS hooks.

The end result can be observed by looking at acr_v1_gm20b.c: all the specifics
of GM20B's firmware are handled in a single file, with no data structures shared
with acr_v1.c. The gm20b_acr_v1_ls_func variable also describes clearly what
LS firmwares are to be loaded and how.

Alexandre Courbot (8):
  core: constify nv*_printk macros
  core: add falcon library
  secboot: use falcon library's IMEM/DMEM loading functions
  secboot: rename init() hook to oneinit()
  secboot: move ACR building logic into own source files
  secboot: remove fixup_hs_desc hook
  secboot: add low-secure firmware hooks
  secboot: generate HS BL descriptor in hook

 drm/nouveau/include/nvkm/core/client.h         |    4 +-
 drm/nouveau/include/nvkm/core/device.h         |    2 +-
 drm/nouveau/include/nvkm/core/falcon.h         |   50 +
 drm/nouveau/include/nvkm/core/subdev.h         |    2 +-
 drm/nouveau/include/nvkm/subdev/secboot.h      |   33 +-
 drm/nouveau/nvkm/core/Kbuild                   |    1 +
 drm/nouveau/nvkm/core/falcon.c                 |   62 ++
 drm/nouveau/nvkm/engine/gr/gf100.c             |   16 +-
 drm/nouveau/nvkm/engine/gr/gm200.c             |    6 +-
 drm/nouveau/nvkm/subdev/secboot/Kbuild         |    2 +
 drm/nouveau/nvkm/subdev/secboot/acr.h          |   67 ++
 drm/nouveau/nvkm/subdev/secboot/acr_v1.c       | 1193 ++++++++++++++++++++
 drm/nouveau/nvkm/subdev/secboot/acr_v1.h       |  346 ++++++
 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c |  135 +++
 drm/nouveau/nvkm/subdev/secboot/base.c         |  113 +-
 drm/nouveau/nvkm/subdev/secboot/gm200.c        | 1386 +-----------------------
 drm/nouveau/nvkm/subdev/secboot/gm200.h        |   43 +
 drm/nouveau/nvkm/subdev/secboot/gm20b.c        |  141 +--
 drm/nouveau/nvkm/subdev/secboot/priv.h         |  208 +---
 19 files changed, 2072 insertions(+), 1738 deletions(-)
 create mode 100644 drm/nouveau/include/nvkm/core/falcon.h
 create mode 100644 drm/nouveau/nvkm/core/falcon.c
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr.h
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1.c
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1.h
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/gm200.h

-- 
2.10.0

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[PATCH 1/8] core: constify nv*_printk macros

[Alexandre Courbot]

Constify the local variables declared in these macros so we can pass
const pointers to them.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/include/nvkm/core/client.h | 4 ++--
 drm/nouveau/include/nvkm/core/device.h | 2 +-
 drm/nouveau/include/nvkm/core/subdev.h | 2 +-
 3 files changed, 4 insertions(+), 4 deletions(-)

diff --git a/drm/nouveau/include/nvkm/core/client.h b/drm/nouveau/include/nvkm/core/client.h
index eaf5905a87a3..99083349c3d4 100644
--- a/drm/nouveau/include/nvkm/core/client.h
+++ b/drm/nouveau/include/nvkm/core/client.h
@@ -37,8 +37,8 @@ int nvkm_client_notify_put(struct nvkm_client *, int index);
 
 /* logging for client-facing objects */
 #define nvif_printk(o,l,p,f,a...) do {                                         \
-	struct nvkm_object *_object = (o);                                     \
-	struct nvkm_client *_client = _object->client;                         \
+	const struct nvkm_object *_object = (o);                               \
+	const struct nvkm_client *_client = _object->client;                   \
 	if (_client->debug >= NV_DBG_##l)                                      \
 		printk(KERN_##p "nouveau: %s:%08x:%08x: "f, _client->name,     \
 		       _object->handle, _object->oclass, ##a);                 \
diff --git a/drm/nouveau/include/nvkm/core/device.h b/drm/nouveau/include/nvkm/core/device.h
index 6bc712f32c8b..d426b86e2712 100644
--- a/drm/nouveau/include/nvkm/core/device.h
+++ b/drm/nouveau/include/nvkm/core/device.h
@@ -262,7 +262,7 @@ extern const struct nvkm_sclass nvkm_udevice_sclass;
 
 /* device logging */
 #define nvdev_printk_(d,l,p,f,a...) do {                                       \
-	struct nvkm_device *_device = (d);                                     \
+	const struct nvkm_device *_device = (d);                               \
 	if (_device->debug >= (l))                                             \
 		dev_##p(_device->dev, f, ##a);                                 \
 } while(0)
diff --git a/drm/nouveau/include/nvkm/core/subdev.h b/drm/nouveau/include/nvkm/core/subdev.h
index 57adefa8b08e..ca9ed3d68f44 100644
--- a/drm/nouveau/include/nvkm/core/subdev.h
+++ b/drm/nouveau/include/nvkm/core/subdev.h
@@ -32,7 +32,7 @@ void nvkm_subdev_intr(struct nvkm_subdev *);
 
 /* subdev logging */
 #define nvkm_printk_(s,l,p,f,a...) do {                                        \
-	struct nvkm_subdev *_subdev = (s);                                     \
+	const struct nvkm_subdev *_subdev = (s);                               \
 	if (_subdev->debug >= (l)) {                                           \
 		dev_##p(_subdev->device->dev, "%s: "f,                         \
 			nvkm_subdev_name[_subdev->index], ##a);                \
-- 
2.10.0

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[PATCH 2/8] core: add falcon library

[Alexandre Courbot]

Some falcon functionality, like loading code/data into IMEM/DMEM, is
re-implemented in various parts of the driver. Create a small falcon
library that will contain most common operations in order to avoid
duplicate code.

For now this library contains various defines that are used in secure
boot code, plus IMEM and DMEM loading functions.

In addition to the library itself, this patch updates users of the
previously secure-boot only definitions to use the new global ones.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/include/nvkm/core/falcon.h    | 50 +++++++++++++++++++++++++
 drm/nouveau/include/nvkm/subdev/secboot.h | 16 ++------
 drm/nouveau/nvkm/core/Kbuild              |  1 +
 drm/nouveau/nvkm/core/falcon.c            | 62 +++++++++++++++++++++++++++++++
 drm/nouveau/nvkm/engine/gr/gf100.c        | 16 ++++----
 drm/nouveau/nvkm/engine/gr/gm200.c        |  6 +--
 drm/nouveau/nvkm/subdev/secboot/base.c    | 23 +++---------
 drm/nouveau/nvkm/subdev/secboot/gm200.c   | 48 ++++++++++--------------
 drm/nouveau/nvkm/subdev/secboot/gm20b.c   |  4 +-
 drm/nouveau/nvkm/subdev/secboot/priv.h    |  8 ++--
 10 files changed, 159 insertions(+), 75 deletions(-)
 create mode 100644 drm/nouveau/include/nvkm/core/falcon.h
 create mode 100644 drm/nouveau/nvkm/core/falcon.c

diff --git a/drm/nouveau/include/nvkm/core/falcon.h b/drm/nouveau/include/nvkm/core/falcon.h
new file mode 100644
index 000000000000..530119847163
--- /dev/null
+++ b/drm/nouveau/include/nvkm/core/falcon.h
@@ -0,0 +1,50 @@
+/*
+ * Copyright (c) 2014, 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.
+ */
+
+#ifndef __NVKM_FALCON_H__
+#define __NVKM_FALCON_H__
+
+#include <core/device.h>
+
+enum nvkm_falconidx {
+	NVKM_FALCON_PMU		= 0,
+	NVKM_FALCON_RESERVED	= 1,
+	NVKM_FALCON_FECS	= 2,
+	NVKM_FALCON_GPCCS	= 3,
+	NVKM_FALCON_END		= 4,
+	NVKM_FALCON_INVALID	= 0xffffffff,
+};
+
+enum nvkm_falcon_dmaidx {
+	FALCON_DMAIDX_UCODE		= 0,
+	FALCON_DMAIDX_VIRT		= 1,
+	FALCON_DMAIDX_PHYS_VID		= 2,
+	FALCON_DMAIDX_PHYS_SYS_COH	= 3,
+	FALCON_DMAIDX_PHYS_SYS_NCOH	= 4,
+};
+
+extern const char *nvkm_falcon_name[];
+
+void nvkm_falcon_load_imem(struct nvkm_device *, u32, void *, u32, u32, u32);
+void nvkm_falcon_load_dmem(struct nvkm_device *, u32, void *, u32, u32);
+
+#endif
diff --git a/drm/nouveau/include/nvkm/subdev/secboot.h b/drm/nouveau/include/nvkm/subdev/secboot.h
index b04c38c07761..ffc2204d2a50 100644
--- a/drm/nouveau/include/nvkm/subdev/secboot.h
+++ b/drm/nouveau/include/nvkm/subdev/secboot.h
@@ -24,15 +24,7 @@
 #define __NVKM_SECURE_BOOT_H__
 
 #include <core/subdev.h>
-
-enum nvkm_secboot_falcon {
-	NVKM_SECBOOT_FALCON_PMU	= 0,
-	NVKM_SECBOOT_FALCON_RESERVED = 1,
-	NVKM_SECBOOT_FALCON_FECS = 2,
-	NVKM_SECBOOT_FALCON_GPCCS = 3,
-	NVKM_SECBOOT_FALCON_END = 4,
-	NVKM_SECBOOT_FALCON_INVALID = 0xffffffff,
-};
+#include <core/falcon.h>
 
 /**
  * @base:		base IO address of the falcon performing secure boot
@@ -48,9 +40,9 @@ struct nvkm_secboot {
 };
 #define nvkm_secboot(p) container_of((p), struct nvkm_secboot, subdev)
 
-bool nvkm_secboot_is_managed(struct nvkm_secboot *, enum nvkm_secboot_falcon);
-int nvkm_secboot_reset(struct nvkm_secboot *, u32 falcon);
-int nvkm_secboot_start(struct nvkm_secboot *, u32 falcon);
+bool nvkm_secboot_is_managed(struct nvkm_secboot *, enum nvkm_falconidx);
+int nvkm_secboot_reset(struct nvkm_secboot *, enum nvkm_falconidx);
+int nvkm_secboot_start(struct nvkm_secboot *, enum nvkm_falconidx);
 
 int gm200_secboot_new(struct nvkm_device *, int, struct nvkm_secboot **);
 int gm20b_secboot_new(struct nvkm_device *, int, struct nvkm_secboot **);
diff --git a/drm/nouveau/nvkm/core/Kbuild b/drm/nouveau/nvkm/core/Kbuild
index 86a31a8e1e51..4196e4620c3b 100644
--- a/drm/nouveau/nvkm/core/Kbuild
+++ b/drm/nouveau/nvkm/core/Kbuild
@@ -13,3 +13,4 @@ nvkm-y += nvkm/core/oproxy.o
 nvkm-y += nvkm/core/option.o
 nvkm-y += nvkm/core/ramht.o
 nvkm-y += nvkm/core/subdev.o
+nvkm-y += nvkm/core/falcon.o
diff --git a/drm/nouveau/nvkm/core/falcon.c b/drm/nouveau/nvkm/core/falcon.c
new file mode 100644
index 000000000000..806de4088a29
--- /dev/null
+++ b/drm/nouveau/nvkm/core/falcon.c
@@ -0,0 +1,62 @@
+/*
+ * Copyright (c) 2016, 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 <core/falcon.h>
+
+const char *
+nvkm_falcon_name[] = {
+	[NVKM_FALCON_PMU] = "PMU",
+	[NVKM_FALCON_RESERVED] = "<reserved>",
+	[NVKM_FALCON_FECS] = "FECS",
+	[NVKM_FALCON_GPCCS] = "GPCCS",
+	[NVKM_FALCON_END] = "<invalid>",
+};
+
+void
+nvkm_falcon_load_imem(struct nvkm_device *device, u32 base, void *data,
+		      u32 start, u32 size, u32 tag)
+{
+	int i;
+
+	nvkm_wr32(device, base + 0x180, start | (0x1 << 24));
+	for (i = 0; i < size / 4; i++) {
+		/* write new tag every 256B */
+		if ((i & 0x3f) == 0) {
+			nvkm_wr32(device, base + 0x188, tag & 0xffff);
+			tag++;
+		}
+		nvkm_wr32(device, base + 0x184, ((u32 *)data)[i]);
+	}
+	nvkm_wr32(device, base + 0x188, 0);
+}
+
+void
+nvkm_falcon_load_dmem(struct nvkm_device *device, u32 base, void *data,
+		      u32 start, u32 size)
+{
+	int i;
+
+	nvkm_wr32(device, base + 0x1c0, start | (0x1 << 24));
+	for (i = 0; i < size / 4; i++)
+		nvkm_wr32(device, base + 0x1c4, ((u32 *)data)[i]);
+}
+
diff --git a/drm/nouveau/nvkm/engine/gr/gf100.c b/drm/nouveau/nvkm/engine/gr/gf100.c
index 157919c788e6..f0dafe666a5a 100644
--- a/drm/nouveau/nvkm/engine/gr/gf100.c
+++ b/drm/nouveau/nvkm/engine/gr/gf100.c
@@ -1464,16 +1464,16 @@ gf100_gr_init_ctxctl(struct gf100_gr *gr)
 		nvkm_mc_unk260(device, 0);
 
 		/* securely-managed falcons must be reset using secure boot */
-		if (nvkm_secboot_is_managed(sb, NVKM_SECBOOT_FALCON_FECS))
-			ret = nvkm_secboot_reset(sb, NVKM_SECBOOT_FALCON_FECS);
+		if (nvkm_secboot_is_managed(sb, NVKM_FALCON_FECS))
+			ret = nvkm_secboot_reset(sb, NVKM_FALCON_FECS);
 		else
 			gf100_gr_init_fw(gr, 0x409000, &gr->fuc409c,
 					 &gr->fuc409d);
 		if (ret)
 			return ret;
 
-		if (nvkm_secboot_is_managed(sb, NVKM_SECBOOT_FALCON_GPCCS))
-			ret = nvkm_secboot_reset(sb, NVKM_SECBOOT_FALCON_GPCCS);
+		if (nvkm_secboot_is_managed(sb, NVKM_FALCON_GPCCS))
+			ret = nvkm_secboot_reset(sb, NVKM_FALCON_GPCCS);
 		else
 			gf100_gr_init_fw(gr, 0x41a000, &gr->fuc41ac,
 					 &gr->fuc41ad);
@@ -1487,12 +1487,12 @@ gf100_gr_init_ctxctl(struct gf100_gr *gr)
 		nvkm_wr32(device, 0x41a10c, 0x00000000);
 		nvkm_wr32(device, 0x40910c, 0x00000000);
 
-		if (nvkm_secboot_is_managed(sb, NVKM_SECBOOT_FALCON_GPCCS))
-			nvkm_secboot_start(sb, NVKM_SECBOOT_FALCON_GPCCS);
+		if (nvkm_secboot_is_managed(sb, NVKM_FALCON_GPCCS))
+			nvkm_secboot_start(sb, NVKM_FALCON_GPCCS);
 		else
 			nvkm_wr32(device, 0x41a100, 0x00000002);
-		if (nvkm_secboot_is_managed(sb, NVKM_SECBOOT_FALCON_FECS))
-			nvkm_secboot_start(sb, NVKM_SECBOOT_FALCON_FECS);
+		if (nvkm_secboot_is_managed(sb, NVKM_FALCON_FECS))
+			nvkm_secboot_start(sb, NVKM_FALCON_FECS);
 		else
 			nvkm_wr32(device, 0x409100, 0x00000002);
 		if (nvkm_msec(device, 2000,
diff --git a/drm/nouveau/nvkm/engine/gr/gm200.c b/drm/nouveau/nvkm/engine/gr/gm200.c
index 6435f1257572..7f4de8e3c643 100644
--- a/drm/nouveau/nvkm/engine/gr/gm200.c
+++ b/drm/nouveau/nvkm/engine/gr/gm200.c
@@ -184,14 +184,12 @@ gm200_gr_new_(const struct gf100_gr_func *func, struct nvkm_device *device,
 		return ret;
 
 	/* Load firmwares for non-secure falcons */
-	if (!nvkm_secboot_is_managed(device->secboot,
-				     NVKM_SECBOOT_FALCON_FECS)) {
+	if (!nvkm_secboot_is_managed(device->secboot, NVKM_FALCON_FECS)) {
 		if ((ret = gf100_gr_ctor_fw(gr, "gr/fecs_inst", &gr->fuc409c)) ||
 		    (ret = gf100_gr_ctor_fw(gr, "gr/fecs_data", &gr->fuc409d)))
 			return ret;
 	}
-	if (!nvkm_secboot_is_managed(device->secboot,
-				     NVKM_SECBOOT_FALCON_GPCCS)) {
+	if (!nvkm_secboot_is_managed(device->secboot, NVKM_FALCON_GPCCS)) {
 		if ((ret = gf100_gr_ctor_fw(gr, "gr/gpccs_inst", &gr->fuc41ac)) ||
 		    (ret = gf100_gr_ctor_fw(gr, "gr/gpccs_data", &gr->fuc41ad)))
 			return ret;
diff --git a/drm/nouveau/nvkm/subdev/secboot/base.c b/drm/nouveau/nvkm/subdev/secboot/base.c
index 314be2192b7d..6b3346ff0253 100644
--- a/drm/nouveau/nvkm/subdev/secboot/base.c
+++ b/drm/nouveau/nvkm/subdev/secboot/base.c
@@ -21,18 +21,10 @@
  */
 #include "priv.h"
 
+#include <core/falcon.h>
 #include <subdev/mc.h>
 #include <subdev/timer.h>
 
-static const char *
-managed_falcons_names[] = {
-	[NVKM_SECBOOT_FALCON_PMU] = "PMU",
-	[NVKM_SECBOOT_FALCON_RESERVED] = "<reserved>",
-	[NVKM_SECBOOT_FALCON_FECS] = "FECS",
-	[NVKM_SECBOOT_FALCON_GPCCS] = "GPCCS",
-	[NVKM_SECBOOT_FALCON_END] = "<invalid>",
-};
-
 /*
  * Helper falcon functions
  */
@@ -155,7 +147,6 @@ nvkm_secboot_falcon_run(struct nvkm_secboot *sb)
 	return 0;
 }
 
-
 /**
  * nvkm_secboot_reset() - reset specified falcon
  */
@@ -190,8 +181,7 @@ nvkm_secboot_start(struct nvkm_secboot *sb, u32 falcon)
  * nvkm_secboot_is_managed() - check whether a given falcon is securely-managed
  */
 bool
-nvkm_secboot_is_managed(struct nvkm_secboot *secboot,
-			enum nvkm_secboot_falcon fid)
+nvkm_secboot_is_managed(struct nvkm_secboot *secboot, enum nvkm_falconidx fid)
 {
 	if (!secboot)
 		return false;
@@ -253,14 +243,14 @@ nvkm_secboot_ctor(const struct nvkm_secboot_func *func,
 		  struct nvkm_device *device, int index,
 		  struct nvkm_secboot *sb)
 {
-	unsigned long fid;
+	unsigned long id;
 
 	nvkm_subdev_ctor(&nvkm_secboot, device, index, &sb->subdev);
 	sb->func = func;
 
 	/* setup the performing falcon's base address and masks */
 	switch (func->boot_falcon) {
-	case NVKM_SECBOOT_FALCON_PMU:
+	case NVKM_FALCON_PMU:
 		sb->devidx = NVKM_SUBDEV_PMU;
 		sb->base = 0x10a000;
 		break;
@@ -270,9 +260,8 @@ nvkm_secboot_ctor(const struct nvkm_secboot_func *func,
 	};
 
 	nvkm_debug(&sb->subdev, "securely managed falcons:\n");
-	for_each_set_bit(fid, &sb->func->managed_falcons,
-			 NVKM_SECBOOT_FALCON_END)
-		nvkm_debug(&sb->subdev, "- %s\n", managed_falcons_names[fid]);
+	for_each_set_bit(id, &sb->func->managed_falcons, NVKM_FALCON_END)
+		nvkm_debug(&sb->subdev, "- %s\n", nvkm_falcon_name[id]);
 
 	return 0;
 }
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm200.c b/drm/nouveau/nvkm/subdev/secboot/gm200.c
index f1e2dc914366..e387673e13a6 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm200.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm200.c
@@ -87,14 +87,6 @@
 #include <core/firmware.h>
 #include <subdev/fb.h>
 
-enum {
-	FALCON_DMAIDX_UCODE		= 0,
-	FALCON_DMAIDX_VIRT		= 1,
-	FALCON_DMAIDX_PHYS_VID		= 2,
-	FALCON_DMAIDX_PHYS_SYS_COH	= 3,
-	FALCON_DMAIDX_PHYS_SYS_NCOH	= 4,
-};
-
 /**
  * struct fw_bin_header - header of firmware files
  * @bin_magic:		always 0x3b1d14f0
@@ -296,7 +288,7 @@ struct ls_ucode_img_desc {
  */
 struct ls_ucode_img {
 	struct list_head node;
-	enum nvkm_secboot_falcon falcon_id;
+	enum nvkm_falconidx falcon_id;
 
 	struct ls_ucode_img_desc ucode_desc;
 	u32 *ucode_header;
@@ -531,14 +523,14 @@ static int
 ls_ucode_img_load_fecs(struct nvkm_subdev *subdev, struct ls_ucode_img *img)
 {
 	return ls_ucode_img_load_generic(subdev, img, "fecs",
-					 NVKM_SECBOOT_FALCON_FECS);
+					 NVKM_FALCON_FECS);
 }
 
 static int
 ls_ucode_img_load_gpccs(struct nvkm_subdev *subdev, struct ls_ucode_img *img)
 {
 	return ls_ucode_img_load_generic(subdev, img, "gpccs",
-					 NVKM_SECBOOT_FALCON_GPCCS);
+					 NVKM_FALCON_GPCCS);
 }
 
 /**
@@ -564,9 +556,9 @@ ls_ucode_img_load(struct nvkm_subdev *subdev, lsf_load_func load_func)
 }
 
 static const lsf_load_func lsf_load_funcs[] = {
-	[NVKM_SECBOOT_FALCON_END] = NULL, /* reserve enough space */
-	[NVKM_SECBOOT_FALCON_FECS] = ls_ucode_img_load_fecs,
-	[NVKM_SECBOOT_FALCON_GPCCS] = ls_ucode_img_load_gpccs,
+	[NVKM_FALCON_END] = NULL, /* reserve enough space */
+	[NVKM_FALCON_FECS] = ls_ucode_img_load_fecs,
+	[NVKM_FALCON_GPCCS] = ls_ucode_img_load_gpccs,
 };
 
 /**
@@ -685,7 +677,7 @@ ls_ucode_img_fill_headers(struct gm200_secboot *gsb, struct ls_ucode_img *img,
 		lhdr->flags = LSF_FLAG_DMACTL_REQ_CTX;
 
 	/* GPCCS will be loaded using PRI */
-	if (img->falcon_id == NVKM_SECBOOT_FALCON_GPCCS)
+	if (img->falcon_id == NVKM_FALCON_GPCCS)
 		lhdr->flags |= LSF_FLAG_FORCE_PRIV_LOAD;
 
 	/* Align (size bloat) and save off BL descriptor size */
@@ -794,7 +786,7 @@ ls_ucode_mgr_write_wpr(struct gm200_secboot *gsb, struct ls_ucode_mgr *mgr,
 		pos += sizeof(img->wpr_header);
 	}
 
-	nvkm_wo32(wpr_blob, pos, NVKM_SECBOOT_FALCON_INVALID);
+	nvkm_wo32(wpr_blob, pos, NVKM_FALCON_INVALID);
 
 	nvkm_done(wpr_blob);
 
@@ -824,7 +816,7 @@ gm200_secboot_prepare_ls_blob(struct gm200_secboot *gsb)
 
 	/* Load all LS blobs */
 	for_each_set_bit(falcon_id, &gsb->base.func->managed_falcons,
-			 NVKM_SECBOOT_FALCON_END) {
+			 NVKM_FALCON_END) {
 		struct ls_ucode_img *img;
 
 		img = ls_ucode_img_load(&sb->subdev, lsf_load_funcs[falcon_id]);
@@ -1258,7 +1250,7 @@ done:
  * falcons should have their LS firmware loaded and be ready to run.
  */
 int
-gm200_secboot_reset(struct nvkm_secboot *sb, enum nvkm_secboot_falcon falcon)
+gm200_secboot_reset(struct nvkm_secboot *sb, enum nvkm_falconidx falcon)
 {
 	struct gm200_secboot *gsb = gm200_secboot(sb);
 	int ret;
@@ -1276,12 +1268,12 @@ gm200_secboot_reset(struct nvkm_secboot *sb, enum nvkm_secboot_falcon falcon)
 	 * Once we have proper PMU firmware and support, this will be changed
 	 * to a proper call to the PMU method.
 	 */
-	if (falcon != NVKM_SECBOOT_FALCON_FECS)
+	if (falcon != NVKM_FALCON_FECS)
 		goto end;
 
 	/* If WPR is set and we have an unload blob, run it to unlock WPR */
 	if (gsb->acr_unload_blob &&
-	    gsb->falcon_state[NVKM_SECBOOT_FALCON_FECS] != NON_SECURE) {
+	    gsb->falcon_state[NVKM_FALCON_FECS] != NON_SECURE) {
 		ret = gm200_secboot_run_hs_blob(gsb, gsb->acr_unload_blob,
 						&gsb->acr_unload_bl_desc);
 		if (ret)
@@ -1300,16 +1292,16 @@ end:
 }
 
 int
-gm200_secboot_start(struct nvkm_secboot *sb, enum nvkm_secboot_falcon falcon)
+gm200_secboot_start(struct nvkm_secboot *sb, enum nvkm_falconidx falcon)
 {
 	struct gm200_secboot *gsb = gm200_secboot(sb);
 	int base;
 
 	switch (falcon) {
-	case NVKM_SECBOOT_FALCON_FECS:
+	case NVKM_FALCON_FECS:
 		base = 0x409000;
 		break;
-	case NVKM_SECBOOT_FALCON_GPCCS:
+	case NVKM_FALCON_GPCCS:
 		base = 0x41a000;
 		break;
 	default:
@@ -1373,11 +1365,11 @@ gm200_secboot_fini(struct nvkm_secboot *sb, bool suspend)
 
 	/* Run the unload blob to unprotect the WPR region */
 	if (gsb->acr_unload_blob &&
-	    gsb->falcon_state[NVKM_SECBOOT_FALCON_FECS] != NON_SECURE)
+	    gsb->falcon_state[NVKM_FALCON_FECS] != NON_SECURE)
 		ret = gm200_secboot_run_hs_blob(gsb, gsb->acr_unload_blob,
 						&gsb->acr_unload_bl_desc);
 
-	for (i = 0; i < NVKM_SECBOOT_FALCON_END; i++)
+	for (i = 0; i < NVKM_FALCON_END; i++)
 		gsb->falcon_state[i] = NON_SECURE;
 
 	return ret;
@@ -1409,9 +1401,9 @@ gm200_secboot = {
 	.fini = gm200_secboot_fini,
 	.reset = gm200_secboot_reset,
 	.start = gm200_secboot_start,
-	.managed_falcons = BIT(NVKM_SECBOOT_FALCON_FECS) |
-			   BIT(NVKM_SECBOOT_FALCON_GPCCS),
-	.boot_falcon = NVKM_SECBOOT_FALCON_PMU,
+	.managed_falcons = BIT(NVKM_FALCON_FECS) |
+			   BIT(NVKM_FALCON_GPCCS),
+	.boot_falcon = NVKM_FALCON_PMU,
 };
 
 /**
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm20b.c b/drm/nouveau/nvkm/subdev/secboot/gm20b.c
index d5395ebfe8d3..66a1d01f45ce 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm20b.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm20b.c
@@ -192,8 +192,8 @@ gm20b_secboot = {
 	.init = gm20b_secboot_init,
 	.reset = gm200_secboot_reset,
 	.start = gm200_secboot_start,
-	.managed_falcons = BIT(NVKM_SECBOOT_FALCON_FECS),
-	.boot_falcon = NVKM_SECBOOT_FALCON_PMU,
+	.managed_falcons = BIT(NVKM_FALCON_FECS),
+	.boot_falcon = NVKM_FALCON_PMU,
 };
 
 int
diff --git a/drm/nouveau/nvkm/subdev/secboot/priv.h b/drm/nouveau/nvkm/subdev/secboot/priv.h
index a9a8a0e1017e..b1ef3d1b4c9d 100644
--- a/drm/nouveau/nvkm/subdev/secboot/priv.h
+++ b/drm/nouveau/nvkm/subdev/secboot/priv.h
@@ -30,11 +30,11 @@ struct nvkm_secboot_func {
 	int (*init)(struct nvkm_secboot *);
 	int (*fini)(struct nvkm_secboot *, bool suspend);
 	void *(*dtor)(struct nvkm_secboot *);
-	int (*reset)(struct nvkm_secboot *, enum nvkm_secboot_falcon);
-	int (*start)(struct nvkm_secboot *, enum nvkm_secboot_falcon);
+	int (*reset)(struct nvkm_secboot *, enum nvkm_falconidx);
+	int (*start)(struct nvkm_secboot *, enum nvkm_falconidx);
 
 	/* ID of the falcon that will perform secure boot */
-	enum nvkm_secboot_falcon boot_falcon;
+	enum nvkm_falconidx boot_falcon;
 	/* Bit-mask of IDs of managed falcons */
 	unsigned long managed_falcons;
 };
@@ -191,7 +191,7 @@ struct gm200_secboot {
 		RESET,
 		/* In low-secure mode and running */
 		RUNNING,
-	} falcon_state[NVKM_SECBOOT_FALCON_END];
+	} falcon_state[NVKM_FALCON_END];
 
 	bool firmware_ok;
 };
-- 
2.10.0

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[PATCH 3/8] secboot: use falcon library's IMEM/DMEM loading functions

[Alexandre Courbot]

Replace the falcon loading functions with calls to the equivalent
functions of the falcon library.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/nvkm/subdev/secboot/gm200.c | 31 +++++++++----------------------
 1 file changed, 9 insertions(+), 22 deletions(-)

diff --git a/drm/nouveau/nvkm/subdev/secboot/gm200.c b/drm/nouveau/nvkm/subdev/secboot/gm200.c
index e387673e13a6..8067d29f526f 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm200.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm200.c
@@ -1103,39 +1103,26 @@ gm200_secboot_load_hs_bl(struct gm200_secboot *gsb, void *data, u32 data_size)
 	void *hsbl_data = blob_data + hsbl_desc->data_off;
 	u32 code_size = ALIGN(hsbl_desc->code_size, 256);
 	const u32 base = gsb->base.base;
-	u32 blk;
-	u32 tag;
-	int i;
+	u32 code_start;
 
 	/*
 	 * Copy HS bootloader data
 	 */
-	nvkm_wr32(device, base + 0x1c0, (0x00000000 | (0x1 << 24)));
-	for (i = 0; i < hsbl_desc->data_size / 4; i++)
-		nvkm_wr32(device, base + 0x1c4, ((u32 *)hsbl_data)[i]);
+	nvkm_falcon_load_dmem(device, gsb->base.base, hsbl_data, 0x00000,
+			      hsbl_desc->data_size);
 
 	/*
 	 * Copy HS bootloader interface structure where the HS descriptor
 	 * expects it to be
 	 */
-	nvkm_wr32(device, base + 0x1c0,
-		  (hsbl_desc->dmem_load_off | (0x1 << 24)));
-	for (i = 0; i < data_size / 4; i++)
-		nvkm_wr32(device, base + 0x1c4, ((u32 *)data)[i]);
+	nvkm_falcon_load_dmem(device, gsb->base.base, data,
+			      hsbl_desc->dmem_load_off, data_size);
 
 	/* Copy HS bootloader code to end of IMEM */
-	blk = (nvkm_rd32(device, base + 0x108) & 0x1ff) - (code_size >> 8);
-	tag = hsbl_desc->start_tag;
-	nvkm_wr32(device, base + 0x180, ((blk & 0xff) << 8) | (0x1 << 24));
-	for (i = 0; i < code_size / 4; i++) {
-		/* write new tag every 256B */
-		if ((i & 0x3f) == 0) {
-			nvkm_wr32(device, base + 0x188, tag & 0xffff);
-			tag++;
-		}
-		nvkm_wr32(device, base + 0x184, ((u32 *)hsbl_code)[i]);
-	}
-	nvkm_wr32(device, base + 0x188, 0);
+	code_start = (nvkm_rd32(device, base + 0x108) & 0x1ff) << 8;
+	code_start -= code_size;
+	nvkm_falcon_load_imem(device, gsb->base.base, hsbl_code, code_start,
+			      code_size, hsbl_desc->start_tag);
 }
 
 /**
-- 
2.10.0

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[PATCH 4/8] secboot: rename init() hook to oneinit()

[Alexandre Courbot]

The init() hook is called by the subdev's oneinit(). Rename it
accordingly to avoid confusion about the lifetime of objects allocated
in it.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/nvkm/subdev/secboot/base.c  | 4 ++--
 drm/nouveau/nvkm/subdev/secboot/gm200.c | 4 ++--
 drm/nouveau/nvkm/subdev/secboot/gm20b.c | 6 +++---
 drm/nouveau/nvkm/subdev/secboot/priv.h  | 4 ++--
 4 files changed, 9 insertions(+), 9 deletions(-)

diff --git a/drm/nouveau/nvkm/subdev/secboot/base.c b/drm/nouveau/nvkm/subdev/secboot/base.c
index 6b3346ff0253..ea36851358ea 100644
--- a/drm/nouveau/nvkm/subdev/secboot/base.c
+++ b/drm/nouveau/nvkm/subdev/secboot/base.c
@@ -196,8 +196,8 @@ nvkm_secboot_oneinit(struct nvkm_subdev *subdev)
 	int ret = 0;
 
 	/* Call chip-specific init function */
-	if (sb->func->init)
-		ret = sb->func->init(sb);
+	if (sb->func->oneinit)
+		ret = sb->func->oneinit(sb);
 	if (ret) {
 		nvkm_error(subdev, "Secure Boot initialization failed: %d\n",
 			   ret);
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm200.c b/drm/nouveau/nvkm/subdev/secboot/gm200.c
index 8067d29f526f..b020e41d2391 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm200.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm200.c
@@ -1305,7 +1305,7 @@ gm200_secboot_start(struct nvkm_secboot *sb, enum nvkm_falconidx falcon)
 
 
 int
-gm200_secboot_init(struct nvkm_secboot *sb)
+gm200_secboot_oneinit(struct nvkm_secboot *sb)
 {
 	struct gm200_secboot *gsb = gm200_secboot(sb);
 	struct nvkm_device *device = sb->subdev.device;
@@ -1384,7 +1384,7 @@ gm200_secboot_dtor(struct nvkm_secboot *sb)
 static const struct nvkm_secboot_func
 gm200_secboot = {
 	.dtor = gm200_secboot_dtor,
-	.init = gm200_secboot_init,
+	.oneinit = gm200_secboot_oneinit,
 	.fini = gm200_secboot_fini,
 	.reset = gm200_secboot_reset,
 	.start = gm200_secboot_start,
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm20b.c b/drm/nouveau/nvkm/subdev/secboot/gm20b.c
index 66a1d01f45ce..1cb663c31e17 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm20b.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm20b.c
@@ -174,7 +174,7 @@ gm20b_tegra_read_wpr(struct gm200_secboot *gsb)
 #endif
 
 static int
-gm20b_secboot_init(struct nvkm_secboot *sb)
+gm20b_secboot_oneinit(struct nvkm_secboot *sb)
 {
 	struct gm200_secboot *gsb = gm200_secboot(sb);
 	int ret;
@@ -183,13 +183,13 @@ gm20b_secboot_init(struct nvkm_secboot *sb)
 	if (ret)
 		return ret;
 
-	return gm200_secboot_init(sb);
+	return gm200_secboot_oneinit(sb);
 }
 
 static const struct nvkm_secboot_func
 gm20b_secboot = {
 	.dtor = gm200_secboot_dtor,
-	.init = gm20b_secboot_init,
+	.oneinit = gm20b_secboot_oneinit,
 	.reset = gm200_secboot_reset,
 	.start = gm200_secboot_start,
 	.managed_falcons = BIT(NVKM_FALCON_FECS),
diff --git a/drm/nouveau/nvkm/subdev/secboot/priv.h b/drm/nouveau/nvkm/subdev/secboot/priv.h
index b1ef3d1b4c9d..baa802b1e9d2 100644
--- a/drm/nouveau/nvkm/subdev/secboot/priv.h
+++ b/drm/nouveau/nvkm/subdev/secboot/priv.h
@@ -27,7 +27,7 @@
 #include <subdev/mmu.h>
 
 struct nvkm_secboot_func {
-	int (*init)(struct nvkm_secboot *);
+	int (*oneinit)(struct nvkm_secboot *);
 	int (*fini)(struct nvkm_secboot *, bool suspend);
 	void *(*dtor)(struct nvkm_secboot *);
 	int (*reset)(struct nvkm_secboot *, enum nvkm_falconidx);
@@ -224,7 +224,7 @@ struct gm200_secboot_func {
 	int (*prepare_blobs)(struct gm200_secboot *);
 };
 
-int gm200_secboot_init(struct nvkm_secboot *);
+int gm200_secboot_oneinit(struct nvkm_secboot *);
 void *gm200_secboot_dtor(struct nvkm_secboot *);
 int gm200_secboot_reset(struct nvkm_secboot *, u32);
 int gm200_secboot_start(struct nvkm_secboot *, u32);
-- 
2.10.0

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[PATCH 5/8] secboot: move ACR building logic into own source files

[Alexandre Courbot]

Separate the ACR management logic (which blobs are to be used, and how
to load them) from the secure boot code (which is concerned with
executing these blobs on a given hardware). This gives us more
flexibility as to how ACR and secure boot implementations can be
combined, and also splits the code into more digestible source files.

This split is also necessary for further changes that add some more
abstractions to the ACR interface and better separate implementations.

The current ACR implementation used by GM20x is called "acr_v1".

This commit looks pretty big, but it really mostly moves code around.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/include/nvkm/subdev/secboot.h      |   17 +-
 drm/nouveau/nvkm/subdev/secboot/Kbuild         |    2 +
 drm/nouveau/nvkm/subdev/secboot/acr.h          |   67 ++
 drm/nouveau/nvkm/subdev/secboot/acr_v1.c       | 1313 +++++++++++++++++++++++
 drm/nouveau/nvkm/subdev/secboot/acr_v1.h       |  183 ++++
 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c |  130 +++
 drm/nouveau/nvkm/subdev/secboot/base.c         |   90 +-
 drm/nouveau/nvkm/subdev/secboot/gm200.c        | 1361 +-----------------------
 drm/nouveau/nvkm/subdev/secboot/gm200.h        |   43 +
 drm/nouveau/nvkm/subdev/secboot/gm20b.c        |  135 +--
 drm/nouveau/nvkm/subdev/secboot/priv.h         |  206 +---
 11 files changed, 1881 insertions(+), 1666 deletions(-)
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr.h
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1.c
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1.h
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
 create mode 100644 drm/nouveau/nvkm/subdev/secboot/gm200.h

diff --git a/drm/nouveau/include/nvkm/subdev/secboot.h b/drm/nouveau/include/nvkm/subdev/secboot.h
index ffc2204d2a50..bca482d27a33 100644
--- a/drm/nouveau/include/nvkm/subdev/secboot.h
+++ b/drm/nouveau/include/nvkm/subdev/secboot.h
@@ -26,17 +26,24 @@
 #include <core/subdev.h>
 #include <core/falcon.h>
 
-/**
- * @base:		base IO address of the falcon performing secure boot
- * @irq_mask:		IRQ mask of the falcon performing secure boot
- * @enable_mask:	enable mask of the falcon performing secure boot
-*/
 struct nvkm_secboot {
 	const struct nvkm_secboot_func *func;
+	struct nvkm_acr *acr;
 	struct nvkm_subdev subdev;
 
 	enum nvkm_devidx devidx;
 	u32 base;
+
+	/*
+	 * Address and size of the WPR region. On dGPU this can be set to the
+	 * address of the LS blob, but on Tegra this is a fixed region set by
+	 * the bootloader.
+	 *
+	 * If wpr_size == 0, this means the WPR region is dynamically managed
+	 * by the ACR.
+	 */
+	u64 wpr_addr;
+	u32 wpr_size;
 };
 #define nvkm_secboot(p) container_of((p), struct nvkm_secboot, subdev)
 
diff --git a/drm/nouveau/nvkm/subdev/secboot/Kbuild b/drm/nouveau/nvkm/subdev/secboot/Kbuild
index b02b868a6589..b783f6d68927 100644
--- a/drm/nouveau/nvkm/subdev/secboot/Kbuild
+++ b/drm/nouveau/nvkm/subdev/secboot/Kbuild
@@ -1,3 +1,5 @@
 nvkm-y += nvkm/subdev/secboot/base.o
+nvkm-y += nvkm/subdev/secboot/acr_v1.o
+nvkm-y += nvkm/subdev/secboot/acr_v1_gm20b.o
 nvkm-y += nvkm/subdev/secboot/gm200.o
 nvkm-y += nvkm/subdev/secboot/gm20b.o
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr.h b/drm/nouveau/nvkm/subdev/secboot/acr.h
new file mode 100644
index 000000000000..b45cfafc6516
--- /dev/null
+++ b/drm/nouveau/nvkm/subdev/secboot/acr.h
@@ -0,0 +1,67 @@
+/*
+ * Copyright (c) 2016, 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.
+ */
+
+#ifndef __NVKM_SECBOOT_ACR_H__
+#define __NVKM_SECBOOT_ACR_H__
+
+#include "priv.h"
+
+/**
+ * struct nvkm_acr_func - properties and functions specific to an ACR
+ *
+ * @managed_falcons: bitfield of falcons managed by this ACR
+ * @boot_falcon: ID of the falcon that will perform secure boot
+ * @load: Make the ACR ready to run on the given secboot device
+ */
+struct nvkm_acr_func {
+	unsigned long managed_falcons;
+	enum nvkm_falconidx boot_falcon;
+
+	void (*dtor)(struct nvkm_acr *);
+	int (*init)(struct nvkm_acr *, struct nvkm_secboot *);
+	int (*fini)(struct nvkm_acr *, struct nvkm_secboot *, bool);
+	int (*reset)(struct nvkm_acr *, struct nvkm_secboot *,
+		     enum nvkm_falconidx);
+	int (*start)(struct nvkm_acr *, struct nvkm_secboot *,
+		     enum nvkm_falconidx);
+	int (*load)(struct nvkm_acr *, struct nvkm_secboot *,
+		    struct nvkm_gpuobj *, u64);
+};
+
+/**
+ * struct nvkm_acr - instance of an ACR
+ *
+ * @debug_mode: whether the debug or production signatures should be used
+ * @start_address: virtual start address of the HS bootloader
+ */
+struct nvkm_acr {
+	const struct nvkm_acr_func *func;
+	const struct nvkm_subdev *subdev;
+
+	bool debug_mode;
+	u32 start_address;
+};
+
+struct nvkm_acr *nvkm_acr_v1_new(void);
+struct nvkm_acr *nvkm_acr_v1_gm20b_new(void);
+
+#endif
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
new file mode 100644
index 000000000000..d7405f8f7c63
--- /dev/null
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
@@ -0,0 +1,1313 @@
+/*
+ * Copyright (c) 2016, 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 "acr_v1.h"
+#include "priv.h"
+
+#include <core/gpuobj.h>
+#include <core/firmware.h>
+#include <subdev/fb.h>
+
+/**
+ * struct fw_bin_header - header of firmware files
+ * @bin_magic:		always 0x3b1d14f0
+ * @bin_ver:		version of the bin format
+ * @bin_size:		entire image size including this header
+ * @header_offset:	offset of the firmware/bootloader header in the file
+ * @data_offset:	offset of the firmware/bootloader payload in the file
+ * @data_size:		size of the payload
+ *
+ * This header is located at the beginning of the HS firmware and HS bootloader
+ * files, to describe where the headers and data can be found.
+ */
+struct fw_bin_header {
+	u32 bin_magic;
+	u32 bin_ver;
+	u32 bin_size;
+	u32 header_offset;
+	u32 data_offset;
+	u32 data_size;
+};
+
+/**
+ * struct fw_bl_desc - firmware bootloader descriptor
+ * @start_tag:		starting tag of bootloader
+ * @desc_dmem_load_off:	DMEM offset of flcn_bl_dmem_desc
+ * @code_off:		offset of code section
+ * @code_size:		size of code section
+ * @data_off:		offset of data section
+ * @data_size:		size of data section
+ *
+ * This structure is embedded in bootloader firmware files at to describe the
+ * IMEM and DMEM layout expected by the bootloader.
+ */
+struct fw_bl_desc {
+	u32 start_tag;
+	u32 dmem_load_off;
+	u32 code_off;
+	u32 code_size;
+	u32 data_off;
+	u32 data_size;
+};
+
+
+/*
+ *
+ * LS blob structures
+ *
+ */
+
+/**
+ * struct lsf_ucode_desc - LS falcon signatures
+ * @prd_keys:		signature to use when the GPU is in production mode
+ * @dgb_keys:		signature to use when the GPU is in debug mode
+ * @b_prd_present:	whether the production key is present
+ * @b_dgb_present:	whether the debug key is present
+ * @falcon_id:		ID of the falcon the ucode applies to
+ *
+ * Directly loaded from a signature file.
+ */
+struct lsf_ucode_desc {
+	u8  prd_keys[2][16];
+	u8  dbg_keys[2][16];
+	u32 b_prd_present;
+	u32 b_dbg_present;
+	u32 falcon_id;
+};
+
+/**
+ * struct lsf_lsb_header - LS firmware header
+ * @signature:		signature to verify the firmware against
+ * @ucode_off:		offset of the ucode blob in the WPR region. The ucode
+ *                      blob contains the bootloader, code and data of the
+ *                      LS falcon
+ * @ucode_size:		size of the ucode blob, including bootloader
+ * @data_size:		size of the ucode blob data
+ * @bl_code_size:	size of the bootloader code
+ * @bl_imem_off:	offset in imem of the bootloader
+ * @bl_data_off:	offset of the bootloader data in WPR region
+ * @bl_data_size:	size of the bootloader data
+ * @app_code_off:	offset of the app code relative to ucode_off
+ * @app_code_size:	size of the app code
+ * @app_data_off:	offset of the app data relative to ucode_off
+ * @app_data_size:	size of the app data
+ * @flags:		flags for the secure bootloader
+ *
+ * This structure is written into the WPR region for each managed falcon. Each
+ * instance is referenced by the lsb_offset member of the corresponding
+ * lsf_wpr_header.
+ */
+struct lsf_lsb_header {
+	struct lsf_ucode_desc signature;
+	u32 ucode_off;
+	u32 ucode_size;
+	u32 data_size;
+	u32 bl_code_size;
+	u32 bl_imem_off;
+	u32 bl_data_off;
+	u32 bl_data_size;
+	u32 app_code_off;
+	u32 app_code_size;
+	u32 app_data_off;
+	u32 app_data_size;
+	u32 flags;
+#define LSF_FLAG_LOAD_CODE_AT_0		1
+#define LSF_FLAG_DMACTL_REQ_CTX		4
+#define LSF_FLAG_FORCE_PRIV_LOAD	8
+};
+
+/**
+ * struct lsf_wpr_header - LS blob WPR Header
+ * @falcon_id:		LS falcon ID
+ * @lsb_offset:		offset of the lsb_lsf_header in the WPR region
+ * @bootstrap_owner:	secure falcon reponsible for bootstrapping the LS falcon
+ * @lazy_bootstrap:	skip bootstrapping by ACR
+ * @status:		bootstrapping status
+ *
+ * An array of these is written at the beginning of the WPR region, one for
+ * each managed falcon. The array is terminated by an instance which falcon_id
+ * is LSF_FALCON_ID_INVALID.
+ */
+struct lsf_wpr_header {
+	u32  falcon_id;
+	u32  lsb_offset;
+	u32  bootstrap_owner;
+	u32  lazy_bootstrap;
+	u32  status;
+#define LSF_IMAGE_STATUS_NONE				0
+#define LSF_IMAGE_STATUS_COPY				1
+#define LSF_IMAGE_STATUS_VALIDATION_CODE_FAILED		2
+#define LSF_IMAGE_STATUS_VALIDATION_DATA_FAILED		3
+#define LSF_IMAGE_STATUS_VALIDATION_DONE		4
+#define LSF_IMAGE_STATUS_VALIDATION_SKIPPED		5
+#define LSF_IMAGE_STATUS_BOOTSTRAP_READY		6
+};
+
+
+/**
+ * struct ls_ucode_img_desc - descriptor of firmware image
+ * @descriptor_size:		size of this descriptor
+ * @image_size:			size of the whole image
+ * @bootloader_start_offset:	start offset of the bootloader in ucode image
+ * @bootloader_size:		size of the bootloader
+ * @bootloader_imem_offset:	start off set of the bootloader in IMEM
+ * @bootloader_entry_point:	entry point of the bootloader in IMEM
+ * @app_start_offset:		start offset of the LS firmware
+ * @app_size:			size of the LS firmware's code and data
+ * @app_imem_offset:		offset of the app in IMEM
+ * @app_imem_entry:		entry point of the app in IMEM
+ * @app_dmem_offset:		offset of the data in DMEM
+ * @app_resident_code_offset:	offset of app code from app_start_offset
+ * @app_resident_code_size:	size of the code
+ * @app_resident_data_offset:	offset of data from app_start_offset
+ * @app_resident_data_size:	size of data
+ *
+ * A firmware image contains the code, data, and bootloader of a given LS
+ * falcon in a single blob. This structure describes where everything is.
+ *
+ * This can be generated from a (bootloader, code, data) set if they have
+ * been loaded separately, or come directly from a file.
+ */
+struct ls_ucode_img_desc {
+	u32 descriptor_size;
+	u32 image_size;
+	u32 tools_version;
+	u32 app_version;
+	char date[64];
+	u32 bootloader_start_offset;
+	u32 bootloader_size;
+	u32 bootloader_imem_offset;
+	u32 bootloader_entry_point;
+	u32 app_start_offset;
+	u32 app_size;
+	u32 app_imem_offset;
+	u32 app_imem_entry;
+	u32 app_dmem_offset;
+	u32 app_resident_code_offset;
+	u32 app_resident_code_size;
+	u32 app_resident_data_offset;
+	u32 app_resident_data_size;
+	u32 nb_overlays;
+	struct {u32 start; u32 size; } load_ovl[64];
+	u32 compressed;
+};
+
+/**
+ * struct ls_ucode_img - temporary storage for loaded LS firmwares
+ * @node:		to link within lsf_ucode_mgr
+ * @falcon_id:		ID of the falcon this LS firmware is for
+ * @ucode_desc:		loaded or generated map of ucode_data
+ * @ucode_header:	header of the firmware
+ * @ucode_data:		firmware payload (code and data)
+ * @ucode_size:		size in bytes of data in ucode_data
+ * @wpr_header:		WPR header to be written to the LS blob
+ * @lsb_header:		LSB header to be written to the LS blob
+ *
+ * Preparing the WPR LS blob requires information about all the LS firmwares
+ * (size, etc) to be known. This structure contains all the data of one LS
+ * firmware.
+ */
+struct ls_ucode_img {
+	struct list_head node;
+	enum nvkm_falconidx falcon_id;
+
+	struct ls_ucode_img_desc ucode_desc;
+	u32 *ucode_header;
+	u8 *ucode_data;
+	u32 ucode_size;
+
+	struct lsf_wpr_header wpr_header;
+	struct lsf_lsb_header lsb_header;
+};
+
+/**
+ * struct ls_ucode_mgr - manager for all LS falcon firmwares
+ * @count:	number of managed LS falcons
+ * @wpr_size:	size of the required WPR region in bytes
+ * @img_list:	linked list of lsf_ucode_img
+ */
+struct ls_ucode_mgr {
+	u16 count;
+	u32 wpr_size;
+	struct list_head img_list;
+};
+
+
+/*
+ *
+ * HS blob structures
+ *
+ */
+
+/**
+ * struct hsf_fw_header - HS firmware descriptor
+ * @sig_dbg_offset:	offset of the debug signature
+ * @sig_dbg_size:	size of the debug signature
+ * @sig_prod_offset:	offset of the production signature
+ * @sig_prod_size:	size of the production signature
+ * @patch_loc:		offset of the offset (sic) of where the signature is
+ * @patch_sig:		offset of the offset (sic) to add to sig_*_offset
+ * @hdr_offset:		offset of the load header (see struct hs_load_header)
+ * @hdr_size:		size of above header
+ *
+ * This structure is embedded in the HS firmware image at
+ * hs_bin_hdr.header_offset.
+ */
+struct hsf_fw_header {
+	u32 sig_dbg_offset;
+	u32 sig_dbg_size;
+	u32 sig_prod_offset;
+	u32 sig_prod_size;
+	u32 patch_loc;
+	u32 patch_sig;
+	u32 hdr_offset;
+	u32 hdr_size;
+};
+
+/**
+ * struct hsf_load_header - HS firmware load header
+ */
+struct hsf_load_header {
+	u32 non_sec_code_off;
+	u32 non_sec_code_size;
+	u32 data_dma_base;
+	u32 data_size;
+	u32 num_apps;
+	struct {
+		u32 sec_code_off;
+		u32 sec_code_size;
+	} app[0];
+};
+
+static inline u64 flcn64_to_u64(const struct flcn_u64 f)
+{
+	return ((u64)f.hi) << 32 | f.lo;
+}
+
+/**
+ * Convenience function to duplicate a firmware file in memory and check that
+ * it has the required minimum size.
+ */
+static void *
+acr_v1_load_firmware(const struct nvkm_subdev *subdev, const char *name,
+		     size_t min_size)
+{
+	const struct firmware *fw;
+	void *blob;
+	int ret;
+
+	ret = nvkm_firmware_get(subdev->device, name, &fw);
+	if (ret)
+		return ERR_PTR(ret);
+	if (fw->size < min_size) {
+		nvkm_error(subdev, "%s is smaller than expected size %zu\n",
+			   name, min_size);
+		nvkm_firmware_put(fw);
+		return ERR_PTR(-EINVAL);
+	}
+	blob = kmemdup(fw->data, fw->size, GFP_KERNEL);
+	nvkm_firmware_put(fw);
+	if (!blob)
+		return ERR_PTR(-ENOMEM);
+
+	return blob;
+}
+
+
+/*
+ * Low-secure blob creation
+ */
+
+#define BL_DESC_BLK_SIZE 256
+/**
+ * Build a ucode image and descriptor from provided bootloader, code and data.
+ *
+ * @bl:		bootloader image, including 16-bytes descriptor
+ * @code:	LS firmware code segment
+ * @data:	LS firmware data segment
+ * @desc:	ucode descriptor to be written
+ *
+ * Return: allocated ucode image with corresponding descriptor information. desc
+ *         is also updated to contain the right offsets within returned image.
+ */
+static void *
+ls_ucode_img_build(const struct firmware *bl, const struct firmware *code,
+		   const struct firmware *data, struct ls_ucode_img_desc *desc)
+{
+	struct fw_bin_header *bin_hdr = (void *)bl->data;
+	struct fw_bl_desc *bl_desc = (void *)bl->data + bin_hdr->header_offset;
+	void *bl_data = (void *)bl->data + bin_hdr->data_offset;
+	u32 pos = 0;
+	void *image;
+
+	desc->bootloader_start_offset = pos;
+	desc->bootloader_size = ALIGN(bl_desc->code_size, sizeof(u32));
+	desc->bootloader_imem_offset = bl_desc->start_tag * 256;
+	desc->bootloader_entry_point = bl_desc->start_tag * 256;
+
+	pos = ALIGN(pos + desc->bootloader_size, BL_DESC_BLK_SIZE);
+	desc->app_start_offset = pos;
+	desc->app_size = ALIGN(code->size, BL_DESC_BLK_SIZE) +
+			 ALIGN(data->size, BL_DESC_BLK_SIZE);
+	desc->app_imem_offset = 0;
+	desc->app_imem_entry = 0;
+	desc->app_dmem_offset = 0;
+	desc->app_resident_code_offset = 0;
+	desc->app_resident_code_size = ALIGN(code->size, BL_DESC_BLK_SIZE);
+
+	pos = ALIGN(pos + desc->app_resident_code_size, BL_DESC_BLK_SIZE);
+	desc->app_resident_data_offset = pos - desc->app_start_offset;
+	desc->app_resident_data_size = ALIGN(data->size, BL_DESC_BLK_SIZE);
+
+	desc->image_size = ALIGN(bl_desc->code_size, BL_DESC_BLK_SIZE) +
+			   desc->app_size;
+
+	image = kzalloc(desc->image_size, GFP_KERNEL);
+	if (!image)
+		return ERR_PTR(-ENOMEM);
+
+	memcpy(image + desc->bootloader_start_offset, bl_data,
+	       bl_desc->code_size);
+	memcpy(image + desc->app_start_offset, code->data, code->size);
+	memcpy(image + desc->app_start_offset + desc->app_resident_data_offset,
+	       data->data, data->size);
+
+	return image;
+}
+
+/**
+ * ls_ucode_img_load_generic() - load and prepare a LS ucode image
+ *
+ * Load the LS microcode, bootloader and signature and pack them into a single
+ * blob. Also generate the corresponding ucode descriptor.
+ */
+static int
+ls_ucode_img_load_generic(const struct nvkm_subdev *subdev,
+			  struct ls_ucode_img *img, const char *falcon_name,
+			  const u32 falcon_id)
+{
+	const struct firmware *bl, *code, *data;
+	struct lsf_ucode_desc *lsf_desc;
+	char f[64];
+	int ret;
+
+	img->ucode_header = NULL;
+
+	snprintf(f, sizeof(f), "gr/%s_bl", falcon_name);
+	ret = nvkm_firmware_get(subdev->device, f, &bl);
+	if (ret)
+		goto error;
+
+	snprintf(f, sizeof(f), "gr/%s_inst", falcon_name);
+	ret = nvkm_firmware_get(subdev->device, f, &code);
+	if (ret)
+		goto free_bl;
+
+	snprintf(f, sizeof(f), "gr/%s_data", falcon_name);
+	ret = nvkm_firmware_get(subdev->device, f, &data);
+	if (ret)
+		goto free_inst;
+
+	img->ucode_data = ls_ucode_img_build(bl, code, data,
+					     &img->ucode_desc);
+	if (IS_ERR(img->ucode_data)) {
+		ret = PTR_ERR(img->ucode_data);
+		goto free_data;
+	}
+	img->ucode_size = img->ucode_desc.image_size;
+
+	snprintf(f, sizeof(f), "gr/%s_sig", falcon_name);
+	lsf_desc = acr_v1_load_firmware(subdev, f, sizeof(*lsf_desc));
+	if (IS_ERR(lsf_desc)) {
+		ret = PTR_ERR(lsf_desc);
+		goto free_image;
+	}
+	/* not needed? the signature should already have the right value */
+	lsf_desc->falcon_id = falcon_id;
+	memcpy(&img->lsb_header.signature, lsf_desc, sizeof(*lsf_desc));
+	img->falcon_id = lsf_desc->falcon_id;
+	kfree(lsf_desc);
+
+	/* success path - only free requested firmware files */
+	goto free_data;
+
+free_image:
+	kfree(img->ucode_data);
+free_data:
+	nvkm_firmware_put(data);
+free_inst:
+	nvkm_firmware_put(code);
+free_bl:
+	nvkm_firmware_put(bl);
+error:
+	return ret;
+}
+
+typedef int (*lsf_load_func)(const struct nvkm_subdev *, struct ls_ucode_img *);
+
+static int
+ls_ucode_img_load_fecs(const struct nvkm_subdev *subdev,
+		       struct ls_ucode_img *img)
+{
+	return ls_ucode_img_load_generic(subdev, img, "fecs", NVKM_FALCON_FECS);
+}
+
+static int
+ls_ucode_img_load_gpccs(const struct nvkm_subdev *subdev,
+			struct ls_ucode_img *img)
+{
+	return ls_ucode_img_load_generic(subdev, img, "gpccs",
+					 NVKM_FALCON_GPCCS);
+}
+
+/**
+ * ls_ucode_img_load() - create a lsf_ucode_img and load it
+ */
+static struct ls_ucode_img *
+ls_ucode_img_load(const struct nvkm_subdev *subdev, lsf_load_func load_func)
+{
+	struct ls_ucode_img *img;
+	int ret;
+
+	img = kzalloc(sizeof(*img), GFP_KERNEL);
+	if (!img)
+		return ERR_PTR(-ENOMEM);
+
+	ret = load_func(subdev, img);
+	if (ret) {
+		kfree(img);
+		return ERR_PTR(ret);
+	}
+
+	return img;
+}
+
+static const lsf_load_func lsf_load_funcs[] = {
+	[NVKM_FALCON_END] = NULL, /* reserve enough space */
+	[NVKM_FALCON_FECS] = ls_ucode_img_load_fecs,
+	[NVKM_FALCON_GPCCS] = ls_ucode_img_load_gpccs,
+};
+
+/**
+ * ls_ucode_img_populate_bl_desc() - populate a DMEM BL descriptor for LS image
+ * @img:	ucode image to generate against
+ * @desc:	descriptor to populate
+ * @sb:		secure boot state to use for base addresses
+ *
+ * Populate the DMEM BL descriptor with the information contained in a
+ * ls_ucode_desc.
+ *
+ */
+static void
+ls_ucode_img_populate_bl_desc(struct ls_ucode_img *img, u64 wpr_addr,
+			      struct acr_v1_bl_desc *desc)
+{
+	struct ls_ucode_img_desc *pdesc = &img->ucode_desc;
+	u64 addr_base;
+
+	addr_base = wpr_addr + img->lsb_header.ucode_off +
+		    pdesc->app_start_offset;
+
+	memset(desc, 0, sizeof(*desc));
+	desc->ctx_dma = FALCON_DMAIDX_UCODE;
+	desc->code_dma_base.lo = lower_32_bits(
+		(addr_base + pdesc->app_resident_code_offset));
+	desc->code_dma_base.hi = upper_32_bits(
+		(addr_base + pdesc->app_resident_code_offset));
+	desc->non_sec_code_size = pdesc->app_resident_code_size;
+	desc->data_dma_base.lo = lower_32_bits(
+		(addr_base + pdesc->app_resident_data_offset));
+	desc->data_dma_base.hi = upper_32_bits(
+		(addr_base + pdesc->app_resident_data_offset));
+	desc->data_size = pdesc->app_resident_data_size;
+	desc->code_entry_point = pdesc->app_imem_entry;
+}
+
+#define LSF_LSB_HEADER_ALIGN 256
+#define LSF_BL_DATA_ALIGN 256
+#define LSF_BL_DATA_SIZE_ALIGN 256
+#define LSF_BL_CODE_SIZE_ALIGN 256
+#define LSF_UCODE_DATA_ALIGN 4096
+
+/**
+ * ls_ucode_img_fill_headers - fill the WPR and LSB headers of an image
+ * @gsb:	secure boot device used
+ * @img:	image to generate for
+ * @offset:	offset in the WPR region where this image starts
+ *
+ * Allocate space in the WPR area from offset and write the WPR and LSB headers
+ * accordingly.
+ *
+ * Return: offset at the end of this image.
+ */
+static u32
+ls_ucode_img_fill_headers(struct nvkm_acr_v1 *acr, struct ls_ucode_img *img,
+			  u32 offset)
+{
+	struct lsf_wpr_header *whdr = &img->wpr_header;
+	struct lsf_lsb_header *lhdr = &img->lsb_header;
+	struct ls_ucode_img_desc *desc = &img->ucode_desc;
+
+	if (img->ucode_header) {
+		nvkm_fatal(acr->base.subdev,
+			   "images withough loader are not supported yet!\n");
+		return offset;
+	}
+
+	/* Fill WPR header */
+	whdr->falcon_id = img->falcon_id;
+	whdr->bootstrap_owner = acr->base.func->boot_falcon;
+	whdr->status = LSF_IMAGE_STATUS_COPY;
+
+	/* Align, save off, and include an LSB header size */
+	offset = ALIGN(offset, LSF_LSB_HEADER_ALIGN);
+	whdr->lsb_offset = offset;
+	offset += sizeof(struct lsf_lsb_header);
+
+	/*
+	 * Align, save off, and include the original (static) ucode
+	 * image size
+	 */
+	offset = ALIGN(offset, LSF_UCODE_DATA_ALIGN);
+	lhdr->ucode_off = offset;
+	offset += img->ucode_size;
+
+	/*
+	 * For falcons that use a boot loader (BL), we append a loader
+	 * desc structure on the end of the ucode image and consider
+	 * this the boot loader data. The host will then copy the loader
+	 * desc args to this space within the WPR region (before locking
+	 * down) and the HS bin will then copy them to DMEM 0 for the
+	 * loader.
+	 */
+	lhdr->bl_code_size = ALIGN(desc->bootloader_size,
+				   LSF_BL_CODE_SIZE_ALIGN);
+	lhdr->ucode_size = ALIGN(desc->app_resident_data_offset,
+				 LSF_BL_CODE_SIZE_ALIGN) + lhdr->bl_code_size;
+	lhdr->data_size = ALIGN(desc->app_size, LSF_BL_CODE_SIZE_ALIGN) +
+				lhdr->bl_code_size - lhdr->ucode_size;
+	/*
+	 * Though the BL is located at 0th offset of the image, the VA
+	 * is different to make sure that it doesn't collide the actual
+	 * OS VA range
+	 */
+	lhdr->bl_imem_off = desc->bootloader_imem_offset;
+	lhdr->app_code_off = desc->app_start_offset +
+			     desc->app_resident_code_offset;
+	lhdr->app_code_size = desc->app_resident_code_size;
+	lhdr->app_data_off = desc->app_start_offset +
+			     desc->app_resident_data_offset;
+	lhdr->app_data_size = desc->app_resident_data_size;
+
+	lhdr->flags = 0;
+	if (img->falcon_id == acr->base.func->boot_falcon)
+		lhdr->flags = LSF_FLAG_DMACTL_REQ_CTX;
+
+	/* GPCCS will be loaded using PRI */
+	if (img->falcon_id == NVKM_FALCON_GPCCS)
+		lhdr->flags |= LSF_FLAG_FORCE_PRIV_LOAD;
+
+	/* Align (size bloat) and save off BL descriptor size */
+	lhdr->bl_data_size = ALIGN(sizeof(struct acr_v1_bl_desc),
+				   LSF_BL_DATA_SIZE_ALIGN);
+	/*
+	 * Align, save off, and include the additional BL data
+	 */
+	offset = ALIGN(offset, LSF_BL_DATA_ALIGN);
+	lhdr->bl_data_off = offset;
+	offset += lhdr->bl_data_size;
+
+	return offset;
+}
+
+static void
+ls_ucode_mgr_init(struct ls_ucode_mgr *mgr)
+{
+	memset(mgr, 0, sizeof(*mgr));
+	INIT_LIST_HEAD(&mgr->img_list);
+}
+
+static void
+ls_ucode_mgr_cleanup(struct ls_ucode_mgr *mgr)
+{
+	struct ls_ucode_img *img, *t;
+
+	list_for_each_entry_safe(img, t, &mgr->img_list, node) {
+		kfree(img->ucode_data);
+		kfree(img->ucode_header);
+		kfree(img);
+	}
+}
+
+static void
+ls_ucode_mgr_add_img(struct ls_ucode_mgr *mgr, struct ls_ucode_img *img)
+{
+	mgr->count++;
+	list_add_tail(&img->node, &mgr->img_list);
+}
+
+/**
+ * ls_ucode_mgr_fill_headers - fill WPR and LSB headers of all managed images
+ */
+static void
+ls_ucode_mgr_fill_headers(struct nvkm_acr_v1 *acr, struct ls_ucode_mgr *mgr)
+{
+	struct ls_ucode_img *img;
+	u32 offset;
+
+	/*
+	 * Start with an array of WPR headers at the base of the WPR.
+	 * The expectation here is that the secure falcon will do a single DMA
+	 * read of this array and cache it internally so it's ok to pack these.
+	 * Also, we add 1 to the falcon count to indicate the end of the array.
+	 */
+	offset = sizeof(struct lsf_wpr_header) * (mgr->count + 1);
+
+	/*
+	 * Walk the managed falcons, accounting for the LSB structs
+	 * as well as the ucode images.
+	 */
+	list_for_each_entry(img, &mgr->img_list, node) {
+		offset = ls_ucode_img_fill_headers(acr, img, offset);
+	}
+
+	mgr->wpr_size = offset;
+}
+
+/**
+ * ls_ucode_mgr_write_wpr - write the WPR blob contents
+ */
+static int
+ls_ucode_mgr_write_wpr(struct nvkm_acr_v1 *acr, struct ls_ucode_mgr *mgr,
+		       struct nvkm_gpuobj *wpr_blob, u32 wpr_addr)
+{
+	struct ls_ucode_img *img;
+	u32 pos = 0;
+
+	nvkm_kmap(wpr_blob);
+
+	list_for_each_entry(img, &mgr->img_list, node) {
+		nvkm_gpuobj_memcpy_to(wpr_blob, pos, &img->wpr_header,
+				      sizeof(img->wpr_header));
+
+		nvkm_gpuobj_memcpy_to(wpr_blob, img->wpr_header.lsb_offset,
+				     &img->lsb_header, sizeof(img->lsb_header));
+
+		/* Generate and write BL descriptor */
+		if (!img->ucode_header) {
+			u8 desc[acr->func->bl_desc_size];
+			struct acr_v1_bl_desc gdesc;
+
+			ls_ucode_img_populate_bl_desc(img, wpr_addr, &gdesc);
+			acr->func->generate_bl_desc(&gdesc, &desc);
+			nvkm_gpuobj_memcpy_to(wpr_blob,
+					      img->lsb_header.bl_data_off,
+					      &desc, acr->func->bl_desc_size);
+		}
+
+		/* Copy ucode */
+		nvkm_gpuobj_memcpy_to(wpr_blob, img->lsb_header.ucode_off,
+				      img->ucode_data, img->ucode_size);
+
+		pos += sizeof(img->wpr_header);
+	}
+
+	nvkm_wo32(wpr_blob, pos, NVKM_FALCON_INVALID);
+
+	nvkm_done(wpr_blob);
+
+	return 0;
+}
+
+/* Both size and address of WPR need to be 128K-aligned */
+#define WPR_ALIGNMENT	0x20000
+/**
+ * acr_v1_prepare_ls_blob() - prepare the LS blob
+ *
+ * For each securely managed falcon, load the FW, signatures and bootloaders and
+ * prepare a ucode blob. Then, compute the offsets in the WPR region for each
+ * blob, and finally write the headers and ucode blobs into a GPU object that
+ * will be copied into the WPR region by the HS firmware.
+ *
+ * @wpr_size: size of the WPR region, if fixed, to compute the LS blobs
+ *	      base addresses. If 0, will use the address and size of the blob.
+ */
+static int
+acr_v1_prepare_ls_blob(struct nvkm_acr_v1 *acr, u64 wpr_addr, u32 wpr_size)
+{
+	const struct nvkm_subdev *subdev = acr->base.subdev;
+	struct ls_ucode_mgr mgr;
+	unsigned long managed_falcons = acr->base.func->managed_falcons;
+	int falcon_id;
+	int ret;
+
+	ls_ucode_mgr_init(&mgr);
+
+	/* Load all LS blobs */
+	for_each_set_bit(falcon_id, &managed_falcons, NVKM_FALCON_END) {
+		struct ls_ucode_img *img;
+
+		img = ls_ucode_img_load(subdev, lsf_load_funcs[falcon_id]);
+		if (IS_ERR(img)) {
+			ret = PTR_ERR(img);
+			goto cleanup;
+		}
+
+		ls_ucode_mgr_add_img(&mgr, img);
+	}
+
+	/*
+	 * Fill the WPR and LSF headers with the right offsets and compute
+	 * required WPR size
+	 */
+	ls_ucode_mgr_fill_headers(acr, &mgr);
+	mgr.wpr_size = ALIGN(mgr.wpr_size, WPR_ALIGNMENT);
+
+	nvkm_debug(subdev, "%d managed LS falcons, WPR size is %d bytes\n",
+		    mgr.count, mgr.wpr_size);
+
+	/* Allocate GPU object that will contain the WPR region */
+	ret = nvkm_gpuobj_new(subdev->device, mgr.wpr_size, WPR_ALIGNMENT,
+			      false, NULL, &acr->ls_blob);
+	if (ret)
+		goto cleanup;
+
+	/* WPR size not static, we can use the blob's attributes */
+	if (wpr_size == 0) {
+		wpr_addr = acr->ls_blob->addr;
+		wpr_size = mgr.wpr_size;
+	/*
+	 * But if the WPR region is set by the bootloader, it is illegal for
+	 * the HS blob to be larger than this region.
+	 */
+	} else if (mgr.wpr_size > wpr_size) {
+		nvkm_error(subdev, "WPR region too small for FW blob!\n");
+		nvkm_error(subdev, "required: %dB\n", mgr.wpr_size);
+		nvkm_error(subdev, "available: %dB\n", wpr_size);
+		ret = -ENOSPC;
+		goto cleanup;
+	}
+
+	/* Write LS blob */
+	ret = ls_ucode_mgr_write_wpr(acr, &mgr, acr->ls_blob, wpr_addr);
+	if (ret)
+		nvkm_gpuobj_del(&acr->ls_blob);
+
+cleanup:
+	ls_ucode_mgr_cleanup(&mgr);
+
+	return ret;
+}
+
+/*
+ * High-secure blob creation
+ */
+
+/**
+ * acr_v1_hsf_patch_signature() - patch HS blob with correct signature
+ */
+static void
+acr_v1_hsf_patch_signature(struct nvkm_acr_v1 *acr, void *acr_image)
+{
+	struct fw_bin_header *hsbin_hdr = acr_image;
+	struct hsf_fw_header *fw_hdr = acr_image + hsbin_hdr->header_offset;
+	void *hs_data = acr_image + hsbin_hdr->data_offset;
+	void *sig;
+	u32 sig_size;
+
+	/* Falcon in debug or production mode? */
+	if (acr->base.debug_mode) {
+		sig = acr_image + fw_hdr->sig_dbg_offset;
+		sig_size = fw_hdr->sig_dbg_size;
+	} else {
+		sig = acr_image + fw_hdr->sig_prod_offset;
+		sig_size = fw_hdr->sig_prod_size;
+	}
+
+	/* Patch signature */
+	memcpy(hs_data + fw_hdr->patch_loc, sig + fw_hdr->patch_sig, sig_size);
+}
+
+/**
+ * acr_v1_populate_hsf_bl_desc() - populate BL descriptor for HS image
+ */
+static void
+acr_v1_populate_hsf_bl_desc(void *acr_image, struct acr_v1_bl_desc *bl_desc)
+{
+	struct fw_bin_header *hsbin_hdr = acr_image;
+	struct hsf_fw_header *fw_hdr = acr_image + hsbin_hdr->header_offset;
+	struct hsf_load_header *load_hdr = acr_image + fw_hdr->hdr_offset;
+
+	/*
+	 * Descriptor for the bootloader that will load the ACR image into
+	 * IMEM/DMEM memory.
+	 */
+	fw_hdr = acr_image + hsbin_hdr->header_offset;
+	load_hdr = acr_image + fw_hdr->hdr_offset;
+	memset(bl_desc, 0, sizeof(*bl_desc));
+	bl_desc->ctx_dma = FALCON_DMAIDX_VIRT;
+	bl_desc->non_sec_code_off = load_hdr->non_sec_code_off;
+	bl_desc->non_sec_code_size = load_hdr->non_sec_code_size;
+	bl_desc->sec_code_off = load_hdr->app[0].sec_code_off;
+	bl_desc->sec_code_size = load_hdr->app[0].sec_code_size;
+	bl_desc->code_entry_point = 0;
+	/*
+	 * We need to set code_dma_base to the virtual address of the acr_blob,
+	 * and add this address to data_dma_base before writing it into DMEM
+	 */
+	bl_desc->code_dma_base.lo = 0;
+	bl_desc->data_dma_base.lo = load_hdr->data_dma_base;
+	bl_desc->data_size = load_hdr->data_size;
+}
+
+/**
+ * acr_v1_prepare_hs_blob - load and prepare a HS blob and BL descriptor
+ *
+ * @gsb secure boot instance to prepare for
+ * @fw name of the HS firmware to load
+ * @blob pointer to gpuobj that will be allocated to receive the HS FW payload
+ * @bl_desc pointer to the BL descriptor to write for this firmware
+ * @patch whether we should patch the HS descriptor (only for HS loaders)
+ */
+static int
+acr_v1_prepare_hs_blob(struct nvkm_acr_v1 *acr, const char *fw,
+			      struct nvkm_gpuobj **blob,
+			      struct acr_v1_bl_desc *bl_desc, bool patch)
+{
+	const struct nvkm_subdev *subdev = acr->base.subdev;
+	void *acr_image;
+	struct fw_bin_header *hsbin_hdr;
+	void *acr_data;
+	int ret;
+
+	acr_image = acr_v1_load_firmware(subdev, fw, 0);
+	if (IS_ERR(acr_image))
+		return PTR_ERR(acr_image);
+	hsbin_hdr = acr_image;
+
+	/* Patch signature */
+	acr_v1_hsf_patch_signature(acr, acr_image);
+
+	acr_data = acr_image + hsbin_hdr->data_offset;
+
+	/* Patch descriptor? */
+	if (patch) {
+		struct hsf_fw_header *fw_hdr;
+		struct hsf_load_header *load_hdr;
+		struct hsflcn_acr_desc *desc;
+
+		fw_hdr = acr_image + hsbin_hdr->header_offset;
+		load_hdr = acr_image + fw_hdr->hdr_offset;
+		desc = acr_data + load_hdr->data_dma_base;
+		acr->func->fixup_hs_desc(acr, desc);
+	}
+
+	/* Generate HS BL descriptor */
+	acr_v1_populate_hsf_bl_desc(acr_image, bl_desc);
+
+	/* Create ACR blob and copy HS data to it */
+	ret = nvkm_gpuobj_new(subdev->device, ALIGN(hsbin_hdr->data_size, 256),
+			      0x1000, false, NULL, blob);
+	if (ret)
+		goto cleanup;
+
+	nvkm_kmap(*blob);
+	nvkm_gpuobj_memcpy_to(*blob, 0, acr_data, hsbin_hdr->data_size);
+	nvkm_done(*blob);
+
+cleanup:
+	kfree(acr_image);
+
+	return ret;
+}
+
+/*
+ * High-secure bootloader blob creation
+ */
+
+static int
+acr_v1_prepare_hsbl_blob(struct nvkm_acr_v1 *acr)
+{
+	const struct nvkm_subdev *subdev = acr->base.subdev;
+	struct fw_bin_header *hdr;
+	struct fw_bl_desc *hsbl_desc;
+
+	acr->hsbl_blob = acr_v1_load_firmware(subdev, "acr/bl", 0);
+	if (IS_ERR(acr->hsbl_blob)) {
+		int ret = PTR_ERR(acr->hsbl_blob);
+
+		acr->hsbl_blob = NULL;
+		return ret;
+	}
+
+	hdr = acr->hsbl_blob;
+	hsbl_desc = acr->hsbl_blob + hdr->header_offset;
+
+	/* virtual start address for boot vector */
+	acr->base.start_address = hsbl_desc->start_tag << 8;
+
+	return 0;
+}
+
+/**
+ * acr_v1_load_blobs - load blobs common to all ACR V1 versions.
+ *
+ * This includes the LS blob, HS ucode loading blob, and HS bootloader.
+ *
+ * The HS ucode unload blob is only used on dGPU if the WPR region is variable.
+ */
+static int
+acr_v1_load_blobs(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb)
+{
+	int ret;
+
+	/* Blobs already prepared and ready? */
+	if (acr->firmware_ok)
+		return 0;
+
+	/* Load and prepare the managed falcon's firmwares */
+	ret = acr_v1_prepare_ls_blob(acr, sb->wpr_addr, sb->wpr_size);
+	if (ret)
+		return ret;
+
+	/* Load the HS firmware that will load the LS firmwares */
+	ret = acr_v1_prepare_hs_blob(acr, "acr/ucode_load", &acr->load_blob,
+				     &acr->load_bl_desc, true);
+	if (ret)
+		return ret;
+
+	/* If the ACR region is dynamically programmed, we need an unload FW */
+	if (sb->wpr_size == 0) {
+		ret = acr_v1_prepare_hs_blob(acr, "acr/ucode_unload",
+					     &acr->unload_blob,
+					     &acr->unload_bl_desc, false);
+		if (ret)
+			return ret;
+	}
+
+	/* Load the HS firmware bootloader */
+	ret = acr_v1_prepare_hsbl_blob(acr);
+	if (ret)
+		return ret;
+
+	acr->firmware_ok = true;
+
+	return 0;
+}
+
+/**
+ * acr_v1_load() - load HS bootloader into DMEM and IMEM
+ */
+int
+acr_v1_load(struct nvkm_acr *_acr, struct nvkm_secboot *sb,
+	    struct nvkm_gpuobj *blob, u64 offset)
+{
+	struct nvkm_acr_v1 *acr = nvkm_acr_v1(_acr);
+	struct nvkm_device *device = sb->subdev.device;
+	struct fw_bin_header *hdr = acr->hsbl_blob;
+	struct fw_bl_desc *hsbl_desc = acr->hsbl_blob + hdr->header_offset;
+	void *blob_data = acr->hsbl_blob + hdr->data_offset;
+	void *hsbl_code = blob_data + hsbl_desc->code_off;
+	void *hsbl_data = blob_data + hsbl_desc->data_off;
+	u32 code_size = ALIGN(hsbl_desc->code_size, 256);
+	const u32 base = sb->base;
+	const u32 bl_desc_size = acr->func->bl_desc_size;
+	struct acr_v1_bl_desc desc;
+	u8 bl_desc[bl_desc_size];
+	u64 vma_addr;
+	u32 code_start;
+
+	/* Find the bootloader descriptor for our blob and copy it */
+	if (blob == acr->load_blob) {
+		desc = acr->load_bl_desc;
+	} else if (blob == acr->unload_blob) {
+		desc = acr->unload_bl_desc;
+	} else {
+		nvkm_error(_acr->subdev, "invalid secure boot blob!\n");
+		return -EINVAL;
+	}
+
+	/* Patch the descriptor's load addresses */
+	vma_addr = flcn64_to_u64(desc.code_dma_base) + offset;
+	desc.code_dma_base.lo = lower_32_bits(vma_addr);
+	desc.code_dma_base.hi = upper_32_bits(vma_addr);
+	vma_addr = flcn64_to_u64(desc.data_dma_base) + offset;
+	desc.data_dma_base.lo = lower_32_bits(vma_addr);
+	desc.data_dma_base.hi = upper_32_bits(vma_addr);
+
+	/*
+	 * Copy HS bootloader data
+	 */
+	nvkm_falcon_load_dmem(device, sb->base, hsbl_data, 0x00000,
+			      hsbl_desc->data_size);
+
+	/* Copy HS bootloader code to end of IMEM */
+	code_start = (nvkm_rd32(device, base + 0x108) & 0x1ff) << 8;
+	code_start -= code_size;
+	nvkm_falcon_load_imem(device, sb->base, hsbl_code, code_start,
+			      code_size, hsbl_desc->start_tag);
+
+	/* Fixup the BL header */
+	acr->func->generate_bl_desc(&desc, &bl_desc);
+
+	/*
+	 * Copy HS BL header where the HS descriptor expects it to be
+	 */
+	nvkm_falcon_load_dmem(device, sb->base, &bl_desc,
+			      hsbl_desc->dmem_load_off, bl_desc_size);
+
+	return 0;
+}
+
+static void
+acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
+{
+	memcpy(ret, desc, sizeof(*desc));
+}
+
+static void
+acr_v1_fixup_hs_desc(struct nvkm_acr_v1 *acr,
+			    struct hsflcn_acr_desc *desc)
+{
+	struct nvkm_gpuobj *ls_blob = acr->ls_blob;
+
+	desc->ucode_blob_base = acr->ls_blob->addr;
+	desc->ucode_blob_size = acr->ls_blob->size;
+
+	desc->wpr_offset = 0;
+
+	/*
+	 * WPR region information for the HS binary to set up, if WPR is not
+	 * fixed
+	 */
+	desc->wpr_region_id = 1;
+	desc->regions.no_regions = 1;
+	desc->regions.region_props[0].region_id = 1;
+	desc->regions.region_props[0].start_addr = ls_blob->addr >> 8;
+	desc->regions.region_props[0].end_addr =
+		(ls_blob->addr + ls_blob->size) >> 8;
+}
+
+/*
+ * acr_v1_reset() - execute secure boot from the prepared state
+ *
+ * Load the HS bootloader and ask the falcon to run it. This will in turn
+ * load the HS firmware and run it, so once the falcon stops all the managed
+ * falcons should have their LS firmware loaded and be ready to run.
+ */
+int
+acr_v1_reset(struct nvkm_acr *_acr, struct nvkm_secboot *sb,
+	     enum nvkm_falconidx falcon)
+{
+	struct nvkm_acr_v1 *acr = nvkm_acr_v1(_acr);
+	int ret;
+
+	/* Make sure all blobs are ready */
+	ret = acr_v1_load_blobs(acr, sb);
+	if (ret) {
+		nvkm_error(&sb->subdev, "failed to load secure firmware\n");
+		return ret;
+	}
+
+	/*
+	 * Dummy implementation: perform secure boot each time we are
+	 * called on FECS. Since only FECS and GPCCS are managed and started
+	 * together, this ought to be safe.
+	 *
+	 * Once we have proper PMU firmware and support, this will be changed
+	 * to a proper call to the PMU method.
+	 */
+	if (falcon != NVKM_FALCON_FECS)
+		goto end;
+
+	/* If WPR is set and we have an unload blob, run it to unlock WPR */
+	if (acr->unload_blob &&
+	    acr->falcon_state[NVKM_FALCON_FECS] != NON_SECURE) {
+		ret = sb->func->run_blob(sb, acr->unload_blob);
+		if (ret)
+			return ret;
+	}
+
+	/* Reload all managed falcons */
+	ret = sb->func->run_blob(sb, acr->load_blob);
+	if (ret)
+		return ret;
+
+end:
+	acr->falcon_state[falcon] = RESET;
+	return 0;
+}
+
+int
+acr_v1_start(struct nvkm_acr *_acr, struct nvkm_secboot *sb,
+	     enum nvkm_falconidx falcon)
+{
+	struct nvkm_acr_v1 *acr = nvkm_acr_v1(_acr);
+	int base;
+
+	switch (falcon) {
+	case NVKM_FALCON_FECS:
+		base = 0x409000;
+		break;
+	case NVKM_FALCON_GPCCS:
+		base = 0x41a000;
+		break;
+	default:
+		nvkm_error(&sb->subdev, "cannot start unhandled falcon!\n");
+		return -EINVAL;
+	}
+
+	nvkm_wr32(sb->subdev.device, base + 0x130, 0x00000002);
+	acr->falcon_state[falcon] = RUNNING;
+
+	return 0;
+}
+
+int
+acr_v1_fini(struct nvkm_acr *_acr, struct nvkm_secboot *sb, bool suspend)
+{
+	struct nvkm_acr_v1 *acr = nvkm_acr_v1(_acr);
+	int ret = 0;
+	int i;
+
+	/* Run the unload blob to unprotect the WPR region */
+	if (acr->unload_blob &&
+	    acr->falcon_state[NVKM_FALCON_FECS] != NON_SECURE)
+		ret = sb->func->run_blob(sb, acr->unload_blob);
+
+	for (i = 0; i < NVKM_FALCON_END; i++)
+		acr->falcon_state[i] = NON_SECURE;
+
+	return ret;
+}
+
+void
+acr_v1_dtor(struct nvkm_acr *_acr)
+{
+	struct nvkm_acr_v1 *acr = nvkm_acr_v1(_acr);
+
+	nvkm_gpuobj_del(&acr->unload_blob);
+
+	kfree(acr->hsbl_blob);
+	nvkm_gpuobj_del(&acr->load_blob);
+	nvkm_gpuobj_del(&acr->ls_blob);
+
+	kfree(acr);
+}
+
+static const struct nvkm_acr_v1_func
+gm200_acr_v1_func = {
+	.bl_desc_size = sizeof(struct acr_v1_bl_desc),
+	.generate_bl_desc = acr_v1_generate_bl_desc,
+	.fixup_hs_desc = acr_v1_fixup_hs_desc,
+};
+
+static const struct nvkm_acr_func
+acr_v1_func = {
+	.managed_falcons = BIT(NVKM_FALCON_FECS) |
+			   BIT(NVKM_FALCON_GPCCS),
+	.boot_falcon = NVKM_FALCON_PMU,
+	.dtor = acr_v1_dtor,
+	.fini = acr_v1_fini,
+	.load = acr_v1_load,
+	.reset = acr_v1_reset,
+	.start = acr_v1_start,
+};
+
+struct nvkm_acr *
+nvkm_acr_v1_new(void)
+{
+	struct nvkm_acr_v1 *acr;
+
+	acr = kzalloc(sizeof(*acr), GFP_KERNEL);
+	if (!acr)
+		return ERR_PTR(-ENOMEM);
+
+	acr->base.func = &acr_v1_func;
+	acr->func = &gm200_acr_v1_func;
+
+	return &acr->base;
+}
+
+MODULE_FIRMWARE("nvidia/gm200/acr/bl.bin");
+MODULE_FIRMWARE("nvidia/gm200/acr/ucode_load.bin");
+MODULE_FIRMWARE("nvidia/gm200/acr/ucode_unload.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/fecs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/fecs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/fecs_data.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/fecs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_data.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/sw_ctx.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/sw_nonctx.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/sw_bundle_init.bin");
+MODULE_FIRMWARE("nvidia/gm200/gr/sw_method_init.bin");
+
+MODULE_FIRMWARE("nvidia/gm204/acr/bl.bin");
+MODULE_FIRMWARE("nvidia/gm204/acr/ucode_load.bin");
+MODULE_FIRMWARE("nvidia/gm204/acr/ucode_unload.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/fecs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/fecs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/fecs_data.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/fecs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_data.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/sw_ctx.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/sw_nonctx.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/sw_bundle_init.bin");
+MODULE_FIRMWARE("nvidia/gm204/gr/sw_method_init.bin");
+
+MODULE_FIRMWARE("nvidia/gm206/acr/bl.bin");
+MODULE_FIRMWARE("nvidia/gm206/acr/ucode_load.bin");
+MODULE_FIRMWARE("nvidia/gm206/acr/ucode_unload.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/fecs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/fecs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/fecs_data.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/fecs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_data.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/sw_ctx.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/sw_nonctx.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/sw_bundle_init.bin");
+MODULE_FIRMWARE("nvidia/gm206/gr/sw_method_init.bin");
+
+MODULE_FIRMWARE("nvidia/gp100/acr/bl.bin");
+MODULE_FIRMWARE("nvidia/gp100/acr/ucode_load.bin");
+MODULE_FIRMWARE("nvidia/gp100/acr/ucode_unload.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/fecs_bl.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/fecs_inst.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/fecs_data.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/fecs_sig.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_bl.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_inst.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_data.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_sig.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/sw_ctx.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/sw_nonctx.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/sw_bundle_init.bin");
+MODULE_FIRMWARE("nvidia/gp100/gr/sw_method_init.bin");
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
new file mode 100644
index 000000000000..de66da0cd3a6
--- /dev/null
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
@@ -0,0 +1,183 @@
+/*
+ * Copyright (c) 2016, 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.
+ */
+
+#ifndef __NVKM_SECBOOT_ACR_V1_H__
+#define __NVKM_SECBOOT_ACR_V1_H__
+
+#include "acr.h"
+
+struct flcn_u64 {
+	u32 lo;
+	u32 hi;
+};
+
+/**
+ * struct acr_v1_bl_desc - DMEM bootloader descriptor
+ * @signature:		16B signature for secure code. 0s if no secure code
+ * @ctx_dma:		DMA context to be used by BL while loading code/data
+ * @code_dma_base:	256B-aligned Physical FB Address where code is located
+ *			(falcon's $xcbase register)
+ * @non_sec_code_off:	offset from code_dma_base where the non-secure code is
+ *                      located. The offset must be multiple of 256 to help perf
+ * @non_sec_code_size:	the size of the nonSecure code part.
+ * @sec_code_off:	offset from code_dma_base where the secure code is
+ *                      located. The offset must be multiple of 256 to help perf
+ * @sec_code_size:	offset from code_dma_base where the secure code is
+ *                      located. The offset must be multiple of 256 to help perf
+ * @code_entry_point:	code entry point which will be invoked by BL after
+ *                      code is loaded.
+ * @data_dma_base:	256B aligned Physical FB Address where data is located.
+ *			(falcon's $xdbase register)
+ * @data_size:		size of data block. Should be multiple of 256B
+ *
+ * Structure used by the bootloader to load the rest of the code. This has
+ * to be filled by host and copied into DMEM at offset provided in the
+ * hsflcn_bl_desc.bl_desc_dmem_load_off.
+ */
+struct acr_v1_bl_desc {
+	u32 reserved[4];
+	u32 signature[4];
+	u32 ctx_dma;
+	struct flcn_u64 code_dma_base;
+	u32 non_sec_code_off;
+	u32 non_sec_code_size;
+	u32 sec_code_off;
+	u32 sec_code_size;
+	u32 code_entry_point;
+	struct flcn_u64 data_dma_base;
+	u32 data_size;
+};
+
+/**
+ * struct hsflcn_acr_desc - data section of the HS firmware
+ *
+ * This header is to be copied at the beginning of DMEM by the HS bootloader.
+ *
+ * @signature:		signature of ACR ucode
+ * @wpr_region_id:	region ID holding the WPR header and its details
+ * @wpr_offset:		offset from the WPR region holding the wpr header
+ * @regions:		region descriptors
+ * @nonwpr_ucode_blob_size:	size of LS blob
+ * @nonwpr_ucode_blob_start:	FB location of LS blob is
+ */
+struct hsflcn_acr_desc {
+	union {
+		u8 reserved_dmem[0x200];
+		u32 signatures[4];
+	} ucode_reserved_space;
+	u32 wpr_region_id;
+	u32 wpr_offset;
+	u32 mmu_mem_range;
+#define FLCN_ACR_MAX_REGIONS 2
+	struct {
+		u32 no_regions;
+		struct {
+			u32 start_addr;
+			u32 end_addr;
+			u32 region_id;
+			u32 read_mask;
+			u32 write_mask;
+			u32 client_mask;
+		} region_props[FLCN_ACR_MAX_REGIONS];
+	} regions;
+	u32 ucode_blob_size;
+	u64 ucode_blob_base __aligned(8);
+	struct {
+		u32 vpr_enabled;
+		u32 vpr_start;
+		u32 vpr_end;
+		u32 hdcp_policies;
+	} vpr_desc;
+};
+
+struct nvkm_acr_v1;
+
+/**
+ * struct nvkm_acr_v1_func - manages nuances between ACR v1 instances
+ *
+ * @bl_desc_size: size of the bootloader descriptor
+ * @generate_bl_desc: function called on a block of bl_desc_size to generate the
+ *		   proper bootloader descriptor
+ * @fixup_hs_desc: function called to fixup the HS descriptor
+ */
+struct nvkm_acr_v1_func {
+	u32 bl_desc_size;
+	void (*generate_bl_desc)(const struct acr_v1_bl_desc *, void *);
+	void (*fixup_hs_desc)(struct nvkm_acr_v1 *, struct hsflcn_acr_desc *);
+};
+
+/**
+ * struct nvkm_acr_v1 - version 1 of the ACR
+ *
+ * ACR v1 performs a very basic form of secure boot. It is only capable of
+ * bootstrapping the FECS and GPCCS falcons.
+ *
+ * Some slight variants of this ACR may appear as firmware released from NVIDIA
+ * is taken from different versions. Thus the need for the nvkm_acr_v1_func
+ * structure to abstract these differences while sharing the vast majority of
+ * common code.
+ *
+ */
+struct nvkm_acr_v1 {
+	struct nvkm_acr base;
+	const struct nvkm_acr_v1_func *func;
+
+	/*
+	 * HS FW - lock WPR region (dGPU only) and load LS FWs
+	 * on Tegra the HS FW copies the LS blob into the fixed WPR instead
+	 */
+	struct nvkm_gpuobj *load_blob;
+	struct acr_v1_bl_desc load_bl_desc;
+
+	/* HS FW - unlock WPR region (dGPU only) */
+	struct nvkm_gpuobj *unload_blob;
+	struct acr_v1_bl_desc unload_bl_desc;
+
+	/* HS bootloader */
+	void *hsbl_blob;
+
+	/* LS FWs, to be loaded by the HS ACR */
+	struct nvkm_gpuobj *ls_blob;
+
+	/* Firmware already loaded? */
+	bool firmware_ok;
+
+	/* To keep track of the state of all managed falcons */
+	enum {
+		/* In non-secure state, no firmware loaded, no privileges*/
+		NON_SECURE = 0,
+		/* In low-secure mode and ready to be started */
+		RESET,
+		/* In low-secure mode and running */
+		RUNNING,
+	} falcon_state[NVKM_FALCON_END];
+};
+#define nvkm_acr_v1(acr) container_of(acr, struct nvkm_acr_v1, base)
+
+void acr_v1_dtor(struct nvkm_acr *);
+int acr_v1_fini(struct nvkm_acr *, struct nvkm_secboot *, bool);
+int acr_v1_load(struct nvkm_acr *, struct nvkm_secboot *, struct nvkm_gpuobj *,
+		u64);
+int acr_v1_reset(struct nvkm_acr *, struct nvkm_secboot *, enum nvkm_falconidx);
+int acr_v1_start(struct nvkm_acr *, struct nvkm_secboot *, enum nvkm_falconidx);
+
+#endif
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
new file mode 100644
index 000000000000..4cfc175accdd
--- /dev/null
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
@@ -0,0 +1,130 @@
+/*
+ * Copyright (c) 2016, 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 "acr_v1.h"
+
+#include <core/gpuobj.h>
+
+/*
+ * The BL header format used by GM20B's firmware is slightly different
+ * from the one of GM200. Fix the differences here.
+ */
+struct acr_v1_gm20b_bl_desc {
+	u32 reserved[4];
+	u32 signature[4];
+	u32 ctx_dma;
+	u32 code_dma_base;
+	u32 non_sec_code_off;
+	u32 non_sec_code_size;
+	u32 sec_code_off;
+	u32 sec_code_size;
+	u32 code_entry_point;
+	u32 data_dma_base;
+	u32 data_size;
+};
+
+/**
+ * gm20b_acr_v1_generate_bl_desc - write BL descriptor in format used by GM20B
+ *
+ * There is only a slight format difference (DMA addresses being 32-bits and
+ * 256B-aligned) to address.
+ */
+static void
+gm20b_acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
+{
+	struct acr_v1_gm20b_bl_desc *gdesc = ret;
+	u64 addr;
+
+	memcpy(gdesc->reserved, desc->reserved, sizeof(gdesc->reserved));
+	memcpy(gdesc->signature, desc->signature, sizeof(gdesc->signature));
+	gdesc->ctx_dma = desc->ctx_dma;
+	addr = desc->code_dma_base.hi;
+	addr <<= 32;
+	addr |= desc->code_dma_base.lo;
+	gdesc->code_dma_base = lower_32_bits(addr >> 8);
+	gdesc->non_sec_code_off = desc->non_sec_code_off;
+	gdesc->non_sec_code_size = desc->non_sec_code_size;
+	gdesc->sec_code_off = desc->sec_code_off;
+	gdesc->sec_code_size = desc->sec_code_size;
+	gdesc->code_entry_point = desc->code_entry_point;
+	addr = desc->data_dma_base.hi;
+	addr <<= 32;
+	addr |= desc->data_dma_base.lo;
+	gdesc->data_dma_base = lower_32_bits(addr >> 8);
+	gdesc->data_size = desc->data_size;
+}
+
+static void
+gm20b_secboot_fixup_hs_desc(struct nvkm_acr_v1 *acr,
+			    struct hsflcn_acr_desc *desc)
+{
+	desc->ucode_blob_base = acr->ls_blob->addr;
+	desc->ucode_blob_size = acr->ls_blob->size;
+
+	desc->wpr_offset = 0;
+}
+
+static const struct nvkm_acr_v1_func
+gm20b_acr_v1_func = {
+	.bl_desc_size = sizeof(struct acr_v1_gm20b_bl_desc),
+	.generate_bl_desc = gm20b_acr_v1_generate_bl_desc,
+	.fixup_hs_desc = gm20b_secboot_fixup_hs_desc,
+};
+
+static const struct nvkm_acr_func
+gm20b_acr_func = {
+	.managed_falcons = BIT(NVKM_FALCON_FECS),
+	.boot_falcon = NVKM_FALCON_PMU,
+	.dtor = acr_v1_dtor,
+	.fini = acr_v1_fini,
+	.load = acr_v1_load,
+	.reset = acr_v1_reset,
+	.start = acr_v1_start,
+};
+
+struct nvkm_acr *
+nvkm_acr_v1_gm20b_new(void)
+{
+	struct nvkm_acr_v1 *acr;
+
+	acr = kzalloc(sizeof(*acr), GFP_KERNEL);
+	if (!acr)
+		return ERR_PTR(-ENOMEM);
+
+	acr->base.func = &gm20b_acr_func;
+	acr->func = &gm20b_acr_v1_func;
+
+	return &acr->base;
+}
+
+MODULE_FIRMWARE("nvidia/gm20b/acr/bl.bin");
+MODULE_FIRMWARE("nvidia/gm20b/acr/ucode_load.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_bl.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_data.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_sig.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/gpccs_inst.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/gpccs_data.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/sw_ctx.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/sw_nonctx.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/sw_bundle_init.bin");
+MODULE_FIRMWARE("nvidia/gm20b/gr/sw_method_init.bin");
diff --git a/drm/nouveau/nvkm/subdev/secboot/base.c b/drm/nouveau/nvkm/subdev/secboot/base.c
index ea36851358ea..2e337cc999fc 100644
--- a/drm/nouveau/nvkm/subdev/secboot/base.c
+++ b/drm/nouveau/nvkm/subdev/secboot/base.c
@@ -19,7 +19,70 @@
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
  * DEALINGS IN THE SOFTWARE.
  */
+
+/*
+ * Secure boot is the process by which NVIDIA-signed firmware is loaded into
+ * some of the falcons of a GPU. For production devices this is the only way
+ * for the firmware to access useful (but sensitive) registers.
+ *
+ * A Falcon microprocessor supporting advanced security modes can run in one of
+ * three modes:
+ *
+ * - Non-secure (NS). In this mode, functionality is similar to Falcon
+ *   architectures before security modes were introduced (pre-Maxwell), but
+ *   capability is restricted. In particular, certain registers may be
+ *   inaccessible for reads and/or writes, and physical memory access may be
+ *   disabled (on certain Falcon instances). This is the only possible mode that
+ *   can be used if you don't have microcode cryptographically signed by NVIDIA.
+ *
+ * - Heavy Secure (HS). In this mode, the microprocessor is a black box - it's
+ *   not possible to read or write any Falcon internal state or Falcon registers
+ *   from outside the Falcon (for example, from the host system). The only way
+ *   to enable this mode is by loading microcode that has been signed by NVIDIA.
+ *   (The loading process involves tagging the IMEM block as secure, writing the
+ *   signature into a Falcon register, and starting execution. The hardware will
+ *   validate the signature, and if valid, grant HS privileges.)
+ *
+ * - Light Secure (LS). In this mode, the microprocessor has more privileges
+ *   than NS but fewer than HS. Some of the microprocessor state is visible to
+ *   host software to ease debugging. The only way to enable this mode is by HS
+ *   microcode enabling LS mode. Some privileges available to HS mode are not
+ *   available here. LS mode is introduced in GM20x.
+ *
+ * Secure boot consists in temporarily switching a HS-capable falcon (typically
+ * PMU) into HS mode in order to validate the LS firmwares of managed falcons,
+ * load them, and switch managed falcons into LS mode. Once secure boot
+ * completes, no falcon remains in HS mode.
+ *
+ * Secure boot requires a write-protected memory region (WPR) which can only be
+ * written by the secure falcon. On dGPU, the driver sets up the WPR region in
+ * video memory. On Tegra, it is set up by the bootloader and its location and
+ * size written into memory controller registers.
+ *
+ * The secure boot process takes place as follows:
+ *
+ * 1) A LS blob is constructed that contains all the LS firmwares we want to
+ *    load, along with their signatures and bootloaders.
+ *
+ * 2) A HS blob (also called ACR) is created that contains the signed HS
+ *    firmware in charge of loading the LS firmwares into their respective
+ *    falcons.
+ *
+ * 3) The HS blob is loaded (via its own bootloader) and executed on the
+ *    HS-capable falcon. It authenticates itself, switches the secure falcon to
+ *    HS mode and setup the WPR region around the LS blob (dGPU) or copies the
+ *    LS blob into the WPR region (Tegra).
+ *
+ * 4) The LS blob is now secure from all external tampering. The HS falcon
+ *    checks the signatures of the LS firmwares and, if valid, switches the
+ *    managed falcons to LS mode and makes them ready to run the LS firmware.
+ *
+ * 5) The managed falcons remain in LS mode and can be started.
+ *
+ */
+
 #include "priv.h"
+#include "acr.h"
 
 #include <core/falcon.h>
 #include <subdev/mc.h>
@@ -154,12 +217,12 @@ int
 nvkm_secboot_reset(struct nvkm_secboot *sb, u32 falcon)
 {
 	/* Unmanaged falcon? */
-	if (!(BIT(falcon) & sb->func->managed_falcons)) {
+	if (!(BIT(falcon) & sb->acr->func->managed_falcons)) {
 		nvkm_error(&sb->subdev, "cannot reset unmanaged falcon!\n");
 		return -EINVAL;
 	}
 
-	return sb->func->reset(sb, falcon);
+	return sb->acr->func->reset(sb->acr, sb, falcon);
 }
 
 /**
@@ -169,24 +232,24 @@ int
 nvkm_secboot_start(struct nvkm_secboot *sb, u32 falcon)
 {
 	/* Unmanaged falcon? */
-	if (!(BIT(falcon) & sb->func->managed_falcons)) {
+	if (!(BIT(falcon) & sb->acr->func->managed_falcons)) {
 		nvkm_error(&sb->subdev, "cannot start unmanaged falcon!\n");
 		return -EINVAL;
 	}
 
-	return sb->func->start(sb, falcon);
+	return sb->acr->func->start(sb->acr, sb, falcon);
 }
 
 /**
  * nvkm_secboot_is_managed() - check whether a given falcon is securely-managed
  */
 bool
-nvkm_secboot_is_managed(struct nvkm_secboot *secboot, enum nvkm_falconidx fid)
+nvkm_secboot_is_managed(struct nvkm_secboot *sb, enum nvkm_falconidx fid)
 {
-	if (!secboot)
+	if (!sb)
 		return false;
 
-	return secboot->func->managed_falcons & BIT(fid);
+	return sb->acr->func->managed_falcons & BIT(fid);
 }
 
 static int
@@ -239,17 +302,20 @@ nvkm_secboot = {
 };
 
 int
-nvkm_secboot_ctor(const struct nvkm_secboot_func *func,
+nvkm_secboot_ctor(const struct nvkm_secboot_func *func, struct nvkm_acr *acr,
 		  struct nvkm_device *device, int index,
 		  struct nvkm_secboot *sb)
 {
 	unsigned long id;
+	u32 val;
 
 	nvkm_subdev_ctor(&nvkm_secboot, device, index, &sb->subdev);
 	sb->func = func;
+	sb->acr = acr;
+	acr->subdev = &sb->subdev;
 
 	/* setup the performing falcon's base address and masks */
-	switch (func->boot_falcon) {
+	switch (acr->func->boot_falcon) {
 	case NVKM_FALCON_PMU:
 		sb->devidx = NVKM_SUBDEV_PMU;
 		sb->base = 0x10a000;
@@ -259,8 +325,12 @@ nvkm_secboot_ctor(const struct nvkm_secboot_func *func,
 		return -EINVAL;
 	};
 
+	/* Is the falcon in debug mode? */
+	val = nvkm_rd32(sb->subdev.device, sb->base + 0xc08);
+	sb->acr->debug_mode = (val >> 20) & 0x1;
+
 	nvkm_debug(&sb->subdev, "securely managed falcons:\n");
-	for_each_set_bit(id, &sb->func->managed_falcons, NVKM_FALCON_END)
+	for_each_set_bit(id, &sb->acr->func->managed_falcons, NVKM_FALCON_END)
 		nvkm_debug(&sb->subdev, "- %s\n", nvkm_falcon_name[id]);
 
 	return 0;
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm200.c b/drm/nouveau/nvkm/subdev/secboot/gm200.c
index b020e41d2391..b36265bdc85b 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm200.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm200.c
@@ -20,1122 +20,21 @@
  * DEALINGS IN THE SOFTWARE.
  */
 
-/*
- * Secure boot is the process by which NVIDIA-signed firmware is loaded into
- * some of the falcons of a GPU. For production devices this is the only way
- * for the firmware to access useful (but sensitive) registers.
- *
- * A Falcon microprocessor supporting advanced security modes can run in one of
- * three modes:
- *
- * - Non-secure (NS). In this mode, functionality is similar to Falcon
- *   architectures before security modes were introduced (pre-Maxwell), but
- *   capability is restricted. In particular, certain registers may be
- *   inaccessible for reads and/or writes, and physical memory access may be
- *   disabled (on certain Falcon instances). This is the only possible mode that
- *   can be used if you don't have microcode cryptographically signed by NVIDIA.
- *
- * - Heavy Secure (HS). In this mode, the microprocessor is a black box - it's
- *   not possible to read or write any Falcon internal state or Falcon registers
- *   from outside the Falcon (for example, from the host system). The only way
- *   to enable this mode is by loading microcode that has been signed by NVIDIA.
- *   (The loading process involves tagging the IMEM block as secure, writing the
- *   signature into a Falcon register, and starting execution. The hardware will
- *   validate the signature, and if valid, grant HS privileges.)
- *
- * - Light Secure (LS). In this mode, the microprocessor has more privileges
- *   than NS but fewer than HS. Some of the microprocessor state is visible to
- *   host software to ease debugging. The only way to enable this mode is by HS
- *   microcode enabling LS mode. Some privileges available to HS mode are not
- *   available here. LS mode is introduced in GM20x.
- *
- * Secure boot consists in temporarily switching a HS-capable falcon (typically
- * PMU) into HS mode in order to validate the LS firmwares of managed falcons,
- * load them, and switch managed falcons into LS mode. Once secure boot
- * completes, no falcon remains in HS mode.
- *
- * Secure boot requires a write-protected memory region (WPR) which can only be
- * written by the secure falcon. On dGPU, the driver sets up the WPR region in
- * video memory. On Tegra, it is set up by the bootloader and its location and
- * size written into memory controller registers.
- *
- * The secure boot process takes place as follows:
- *
- * 1) A LS blob is constructed that contains all the LS firmwares we want to
- *    load, along with their signatures and bootloaders.
- *
- * 2) A HS blob (also called ACR) is created that contains the signed HS
- *    firmware in charge of loading the LS firmwares into their respective
- *    falcons.
- *
- * 3) The HS blob is loaded (via its own bootloader) and executed on the
- *    HS-capable falcon. It authenticates itself, switches the secure falcon to
- *    HS mode and setup the WPR region around the LS blob (dGPU) or copies the
- *    LS blob into the WPR region (Tegra).
- *
- * 4) The LS blob is now secure from all external tampering. The HS falcon
- *    checks the signatures of the LS firmwares and, if valid, switches the
- *    managed falcons to LS mode and makes them ready to run the LS firmware.
- *
- * 5) The managed falcons remain in LS mode and can be started.
- *
- */
-
-#include "priv.h"
+#include "gm200.h"
+#include "acr.h"
 
 #include <core/gpuobj.h>
 #include <core/firmware.h>
 #include <subdev/fb.h>
 
-/**
- * struct fw_bin_header - header of firmware files
- * @bin_magic:		always 0x3b1d14f0
- * @bin_ver:		version of the bin format
- * @bin_size:		entire image size including this header
- * @header_offset:	offset of the firmware/bootloader header in the file
- * @data_offset:	offset of the firmware/bootloader payload in the file
- * @data_size:		size of the payload
- *
- * This header is located at the beginning of the HS firmware and HS bootloader
- * files, to describe where the headers and data can be found.
- */
-struct fw_bin_header {
-	u32 bin_magic;
-	u32 bin_ver;
-	u32 bin_size;
-	u32 header_offset;
-	u32 data_offset;
-	u32 data_size;
-};
-
-/**
- * struct fw_bl_desc - firmware bootloader descriptor
- * @start_tag:		starting tag of bootloader
- * @desc_dmem_load_off:	DMEM offset of flcn_bl_dmem_desc
- * @code_off:		offset of code section
- * @code_size:		size of code section
- * @data_off:		offset of data section
- * @data_size:		size of data section
- *
- * This structure is embedded in bootloader firmware files at to describe the
- * IMEM and DMEM layout expected by the bootloader.
- */
-struct fw_bl_desc {
-	u32 start_tag;
-	u32 dmem_load_off;
-	u32 code_off;
-	u32 code_size;
-	u32 data_off;
-	u32 data_size;
-};
-
-
-/*
- *
- * LS blob structures
- *
- */
-
-/**
- * struct lsf_ucode_desc - LS falcon signatures
- * @prd_keys:		signature to use when the GPU is in production mode
- * @dgb_keys:		signature to use when the GPU is in debug mode
- * @b_prd_present:	whether the production key is present
- * @b_dgb_present:	whether the debug key is present
- * @falcon_id:		ID of the falcon the ucode applies to
- *
- * Directly loaded from a signature file.
- */
-struct lsf_ucode_desc {
-	u8  prd_keys[2][16];
-	u8  dbg_keys[2][16];
-	u32 b_prd_present;
-	u32 b_dbg_present;
-	u32 falcon_id;
-};
-
-/**
- * struct lsf_lsb_header - LS firmware header
- * @signature:		signature to verify the firmware against
- * @ucode_off:		offset of the ucode blob in the WPR region. The ucode
- *                      blob contains the bootloader, code and data of the
- *                      LS falcon
- * @ucode_size:		size of the ucode blob, including bootloader
- * @data_size:		size of the ucode blob data
- * @bl_code_size:	size of the bootloader code
- * @bl_imem_off:	offset in imem of the bootloader
- * @bl_data_off:	offset of the bootloader data in WPR region
- * @bl_data_size:	size of the bootloader data
- * @app_code_off:	offset of the app code relative to ucode_off
- * @app_code_size:	size of the app code
- * @app_data_off:	offset of the app data relative to ucode_off
- * @app_data_size:	size of the app data
- * @flags:		flags for the secure bootloader
- *
- * This structure is written into the WPR region for each managed falcon. Each
- * instance is referenced by the lsb_offset member of the corresponding
- * lsf_wpr_header.
- */
-struct lsf_lsb_header {
-	struct lsf_ucode_desc signature;
-	u32 ucode_off;
-	u32 ucode_size;
-	u32 data_size;
-	u32 bl_code_size;
-	u32 bl_imem_off;
-	u32 bl_data_off;
-	u32 bl_data_size;
-	u32 app_code_off;
-	u32 app_code_size;
-	u32 app_data_off;
-	u32 app_data_size;
-	u32 flags;
-#define LSF_FLAG_LOAD_CODE_AT_0		1
-#define LSF_FLAG_DMACTL_REQ_CTX		4
-#define LSF_FLAG_FORCE_PRIV_LOAD	8
-};
-
-/**
- * struct lsf_wpr_header - LS blob WPR Header
- * @falcon_id:		LS falcon ID
- * @lsb_offset:		offset of the lsb_lsf_header in the WPR region
- * @bootstrap_owner:	secure falcon reponsible for bootstrapping the LS falcon
- * @lazy_bootstrap:	skip bootstrapping by ACR
- * @status:		bootstrapping status
- *
- * An array of these is written at the beginning of the WPR region, one for
- * each managed falcon. The array is terminated by an instance which falcon_id
- * is LSF_FALCON_ID_INVALID.
- */
-struct lsf_wpr_header {
-	u32  falcon_id;
-	u32  lsb_offset;
-	u32  bootstrap_owner;
-	u32  lazy_bootstrap;
-	u32  status;
-#define LSF_IMAGE_STATUS_NONE				0
-#define LSF_IMAGE_STATUS_COPY				1
-#define LSF_IMAGE_STATUS_VALIDATION_CODE_FAILED		2
-#define LSF_IMAGE_STATUS_VALIDATION_DATA_FAILED		3
-#define LSF_IMAGE_STATUS_VALIDATION_DONE		4
-#define LSF_IMAGE_STATUS_VALIDATION_SKIPPED		5
-#define LSF_IMAGE_STATUS_BOOTSTRAP_READY		6
-};
-
-
-/**
- * struct ls_ucode_img_desc - descriptor of firmware image
- * @descriptor_size:		size of this descriptor
- * @image_size:			size of the whole image
- * @bootloader_start_offset:	start offset of the bootloader in ucode image
- * @bootloader_size:		size of the bootloader
- * @bootloader_imem_offset:	start off set of the bootloader in IMEM
- * @bootloader_entry_point:	entry point of the bootloader in IMEM
- * @app_start_offset:		start offset of the LS firmware
- * @app_size:			size of the LS firmware's code and data
- * @app_imem_offset:		offset of the app in IMEM
- * @app_imem_entry:		entry point of the app in IMEM
- * @app_dmem_offset:		offset of the data in DMEM
- * @app_resident_code_offset:	offset of app code from app_start_offset
- * @app_resident_code_size:	size of the code
- * @app_resident_data_offset:	offset of data from app_start_offset
- * @app_resident_data_size:	size of data
- *
- * A firmware image contains the code, data, and bootloader of a given LS
- * falcon in a single blob. This structure describes where everything is.
- *
- * This can be generated from a (bootloader, code, data) set if they have
- * been loaded separately, or come directly from a file.
- */
-struct ls_ucode_img_desc {
-	u32 descriptor_size;
-	u32 image_size;
-	u32 tools_version;
-	u32 app_version;
-	char date[64];
-	u32 bootloader_start_offset;
-	u32 bootloader_size;
-	u32 bootloader_imem_offset;
-	u32 bootloader_entry_point;
-	u32 app_start_offset;
-	u32 app_size;
-	u32 app_imem_offset;
-	u32 app_imem_entry;
-	u32 app_dmem_offset;
-	u32 app_resident_code_offset;
-	u32 app_resident_code_size;
-	u32 app_resident_data_offset;
-	u32 app_resident_data_size;
-	u32 nb_overlays;
-	struct {u32 start; u32 size; } load_ovl[64];
-	u32 compressed;
-};
-
-/**
- * struct ls_ucode_img - temporary storage for loaded LS firmwares
- * @node:		to link within lsf_ucode_mgr
- * @falcon_id:		ID of the falcon this LS firmware is for
- * @ucode_desc:		loaded or generated map of ucode_data
- * @ucode_header:	header of the firmware
- * @ucode_data:		firmware payload (code and data)
- * @ucode_size:		size in bytes of data in ucode_data
- * @wpr_header:		WPR header to be written to the LS blob
- * @lsb_header:		LSB header to be written to the LS blob
- *
- * Preparing the WPR LS blob requires information about all the LS firmwares
- * (size, etc) to be known. This structure contains all the data of one LS
- * firmware.
- */
-struct ls_ucode_img {
-	struct list_head node;
-	enum nvkm_falconidx falcon_id;
-
-	struct ls_ucode_img_desc ucode_desc;
-	u32 *ucode_header;
-	u8 *ucode_data;
-	u32 ucode_size;
-
-	struct lsf_wpr_header wpr_header;
-	struct lsf_lsb_header lsb_header;
-};
-
-/**
- * struct ls_ucode_mgr - manager for all LS falcon firmwares
- * @count:	number of managed LS falcons
- * @wpr_size:	size of the required WPR region in bytes
- * @img_list:	linked list of lsf_ucode_img
- */
-struct ls_ucode_mgr {
-	u16 count;
-	u32 wpr_size;
-	struct list_head img_list;
-};
-
-
-/*
- *
- * HS blob structures
- *
- */
-
-/**
- * struct hsf_fw_header - HS firmware descriptor
- * @sig_dbg_offset:	offset of the debug signature
- * @sig_dbg_size:	size of the debug signature
- * @sig_prod_offset:	offset of the production signature
- * @sig_prod_size:	size of the production signature
- * @patch_loc:		offset of the offset (sic) of where the signature is
- * @patch_sig:		offset of the offset (sic) to add to sig_*_offset
- * @hdr_offset:		offset of the load header (see struct hs_load_header)
- * @hdr_size:		size of above header
- *
- * This structure is embedded in the HS firmware image at
- * hs_bin_hdr.header_offset.
- */
-struct hsf_fw_header {
-	u32 sig_dbg_offset;
-	u32 sig_dbg_size;
-	u32 sig_prod_offset;
-	u32 sig_prod_size;
-	u32 patch_loc;
-	u32 patch_sig;
-	u32 hdr_offset;
-	u32 hdr_size;
-};
-
-/**
- * struct hsf_load_header - HS firmware load header
- */
-struct hsf_load_header {
-	u32 non_sec_code_off;
-	u32 non_sec_code_size;
-	u32 data_dma_base;
-	u32 data_size;
-	u32 num_apps;
-	struct {
-		u32 sec_code_off;
-		u32 sec_code_size;
-	} app[0];
-};
-
-/**
- * Convenience function to duplicate a firmware file in memory and check that
- * it has the required minimum size.
- */
-static void *
-gm200_secboot_load_firmware(struct nvkm_subdev *subdev, const char *name,
-		    size_t min_size)
-{
-	const struct firmware *fw;
-	void *blob;
-	int ret;
-
-	ret = nvkm_firmware_get(subdev->device, name, &fw);
-	if (ret)
-		return ERR_PTR(ret);
-	if (fw->size < min_size) {
-		nvkm_error(subdev, "%s is smaller than expected size %zu\n",
-			   name, min_size);
-		nvkm_firmware_put(fw);
-		return ERR_PTR(-EINVAL);
-	}
-	blob = kmemdup(fw->data, fw->size, GFP_KERNEL);
-	nvkm_firmware_put(fw);
-	if (!blob)
-		return ERR_PTR(-ENOMEM);
-
-	return blob;
-}
-
-
-/*
- * Low-secure blob creation
- */
-
-#define BL_DESC_BLK_SIZE 256
-/**
- * Build a ucode image and descriptor from provided bootloader, code and data.
- *
- * @bl:		bootloader image, including 16-bytes descriptor
- * @code:	LS firmware code segment
- * @data:	LS firmware data segment
- * @desc:	ucode descriptor to be written
- *
- * Return: allocated ucode image with corresponding descriptor information. desc
- *         is also updated to contain the right offsets within returned image.
- */
-static void *
-ls_ucode_img_build(const struct firmware *bl, const struct firmware *code,
-		   const struct firmware *data, struct ls_ucode_img_desc *desc)
-{
-	struct fw_bin_header *bin_hdr = (void *)bl->data;
-	struct fw_bl_desc *bl_desc = (void *)bl->data + bin_hdr->header_offset;
-	void *bl_data = (void *)bl->data + bin_hdr->data_offset;
-	u32 pos = 0;
-	void *image;
-
-	desc->bootloader_start_offset = pos;
-	desc->bootloader_size = ALIGN(bl_desc->code_size, sizeof(u32));
-	desc->bootloader_imem_offset = bl_desc->start_tag * 256;
-	desc->bootloader_entry_point = bl_desc->start_tag * 256;
-
-	pos = ALIGN(pos + desc->bootloader_size, BL_DESC_BLK_SIZE);
-	desc->app_start_offset = pos;
-	desc->app_size = ALIGN(code->size, BL_DESC_BLK_SIZE) +
-			 ALIGN(data->size, BL_DESC_BLK_SIZE);
-	desc->app_imem_offset = 0;
-	desc->app_imem_entry = 0;
-	desc->app_dmem_offset = 0;
-	desc->app_resident_code_offset = 0;
-	desc->app_resident_code_size = ALIGN(code->size, BL_DESC_BLK_SIZE);
-
-	pos = ALIGN(pos + desc->app_resident_code_size, BL_DESC_BLK_SIZE);
-	desc->app_resident_data_offset = pos - desc->app_start_offset;
-	desc->app_resident_data_size = ALIGN(data->size, BL_DESC_BLK_SIZE);
-
-	desc->image_size = ALIGN(bl_desc->code_size, BL_DESC_BLK_SIZE) +
-			   desc->app_size;
-
-	image = kzalloc(desc->image_size, GFP_KERNEL);
-	if (!image)
-		return ERR_PTR(-ENOMEM);
-
-	memcpy(image + desc->bootloader_start_offset, bl_data,
-	       bl_desc->code_size);
-	memcpy(image + desc->app_start_offset, code->data, code->size);
-	memcpy(image + desc->app_start_offset + desc->app_resident_data_offset,
-	       data->data, data->size);
-
-	return image;
-}
-
-/**
- * ls_ucode_img_load_generic() - load and prepare a LS ucode image
- *
- * Load the LS microcode, bootloader and signature and pack them into a single
- * blob. Also generate the corresponding ucode descriptor.
- */
-static int
-ls_ucode_img_load_generic(struct nvkm_subdev *subdev,
-			  struct ls_ucode_img *img, const char *falcon_name,
-			  const u32 falcon_id)
-{
-	const struct firmware *bl, *code, *data;
-	struct lsf_ucode_desc *lsf_desc;
-	char f[64];
-	int ret;
-
-	img->ucode_header = NULL;
-
-	snprintf(f, sizeof(f), "gr/%s_bl", falcon_name);
-	ret = nvkm_firmware_get(subdev->device, f, &bl);
-	if (ret)
-		goto error;
-
-	snprintf(f, sizeof(f), "gr/%s_inst", falcon_name);
-	ret = nvkm_firmware_get(subdev->device, f, &code);
-	if (ret)
-		goto free_bl;
-
-	snprintf(f, sizeof(f), "gr/%s_data", falcon_name);
-	ret = nvkm_firmware_get(subdev->device, f, &data);
-	if (ret)
-		goto free_inst;
-
-	img->ucode_data = ls_ucode_img_build(bl, code, data,
-					     &img->ucode_desc);
-	if (IS_ERR(img->ucode_data)) {
-		ret = PTR_ERR(img->ucode_data);
-		goto free_data;
-	}
-	img->ucode_size = img->ucode_desc.image_size;
-
-	snprintf(f, sizeof(f), "gr/%s_sig", falcon_name);
-	lsf_desc = gm200_secboot_load_firmware(subdev, f, sizeof(*lsf_desc));
-	if (IS_ERR(lsf_desc)) {
-		ret = PTR_ERR(lsf_desc);
-		goto free_image;
-	}
-	/* not needed? the signature should already have the right value */
-	lsf_desc->falcon_id = falcon_id;
-	memcpy(&img->lsb_header.signature, lsf_desc, sizeof(*lsf_desc));
-	img->falcon_id = lsf_desc->falcon_id;
-	kfree(lsf_desc);
-
-	/* success path - only free requested firmware files */
-	goto free_data;
-
-free_image:
-	kfree(img->ucode_data);
-free_data:
-	nvkm_firmware_put(data);
-free_inst:
-	nvkm_firmware_put(code);
-free_bl:
-	nvkm_firmware_put(bl);
-error:
-	return ret;
-}
-
-typedef int (*lsf_load_func)(struct nvkm_subdev *, struct ls_ucode_img *);
-
-static int
-ls_ucode_img_load_fecs(struct nvkm_subdev *subdev, struct ls_ucode_img *img)
-{
-	return ls_ucode_img_load_generic(subdev, img, "fecs",
-					 NVKM_FALCON_FECS);
-}
-
-static int
-ls_ucode_img_load_gpccs(struct nvkm_subdev *subdev, struct ls_ucode_img *img)
-{
-	return ls_ucode_img_load_generic(subdev, img, "gpccs",
-					 NVKM_FALCON_GPCCS);
-}
-
-/**
- * ls_ucode_img_load() - create a lsf_ucode_img and load it
- */
-static struct ls_ucode_img *
-ls_ucode_img_load(struct nvkm_subdev *subdev, lsf_load_func load_func)
-{
-	struct ls_ucode_img *img;
-	int ret;
-
-	img = kzalloc(sizeof(*img), GFP_KERNEL);
-	if (!img)
-		return ERR_PTR(-ENOMEM);
-
-	ret = load_func(subdev, img);
-	if (ret) {
-		kfree(img);
-		return ERR_PTR(ret);
-	}
-
-	return img;
-}
-
-static const lsf_load_func lsf_load_funcs[] = {
-	[NVKM_FALCON_END] = NULL, /* reserve enough space */
-	[NVKM_FALCON_FECS] = ls_ucode_img_load_fecs,
-	[NVKM_FALCON_GPCCS] = ls_ucode_img_load_gpccs,
-};
-
-/**
- * ls_ucode_img_populate_bl_desc() - populate a DMEM BL descriptor for LS image
- * @img:	ucode image to generate against
- * @desc:	descriptor to populate
- * @sb:		secure boot state to use for base addresses
- *
- * Populate the DMEM BL descriptor with the information contained in a
- * ls_ucode_desc.
- *
- */
-static void
-ls_ucode_img_populate_bl_desc(struct ls_ucode_img *img, u64 wpr_addr,
-			      struct gm200_flcn_bl_desc *desc)
-{
-	struct ls_ucode_img_desc *pdesc = &img->ucode_desc;
-	u64 addr_base;
-
-	addr_base = wpr_addr + img->lsb_header.ucode_off +
-		    pdesc->app_start_offset;
-
-	memset(desc, 0, sizeof(*desc));
-	desc->ctx_dma = FALCON_DMAIDX_UCODE;
-	desc->code_dma_base.lo = lower_32_bits(
-		(addr_base + pdesc->app_resident_code_offset));
-	desc->code_dma_base.hi = upper_32_bits(
-		(addr_base + pdesc->app_resident_code_offset));
-	desc->non_sec_code_size = pdesc->app_resident_code_size;
-	desc->data_dma_base.lo = lower_32_bits(
-		(addr_base + pdesc->app_resident_data_offset));
-	desc->data_dma_base.hi = upper_32_bits(
-		(addr_base + pdesc->app_resident_data_offset));
-	desc->data_size = pdesc->app_resident_data_size;
-	desc->code_entry_point = pdesc->app_imem_entry;
-}
-
-#define LSF_LSB_HEADER_ALIGN 256
-#define LSF_BL_DATA_ALIGN 256
-#define LSF_BL_DATA_SIZE_ALIGN 256
-#define LSF_BL_CODE_SIZE_ALIGN 256
-#define LSF_UCODE_DATA_ALIGN 4096
-
-/**
- * ls_ucode_img_fill_headers - fill the WPR and LSB headers of an image
- * @gsb:	secure boot device used
- * @img:	image to generate for
- * @offset:	offset in the WPR region where this image starts
- *
- * Allocate space in the WPR area from offset and write the WPR and LSB headers
- * accordingly.
- *
- * Return: offset at the end of this image.
- */
-static u32
-ls_ucode_img_fill_headers(struct gm200_secboot *gsb, struct ls_ucode_img *img,
-			  u32 offset)
-{
-	struct lsf_wpr_header *whdr = &img->wpr_header;
-	struct lsf_lsb_header *lhdr = &img->lsb_header;
-	struct ls_ucode_img_desc *desc = &img->ucode_desc;
-
-	if (img->ucode_header) {
-		nvkm_fatal(&gsb->base.subdev,
-			    "images withough loader are not supported yet!\n");
-		return offset;
-	}
-
-	/* Fill WPR header */
-	whdr->falcon_id = img->falcon_id;
-	whdr->bootstrap_owner = gsb->base.func->boot_falcon;
-	whdr->status = LSF_IMAGE_STATUS_COPY;
-
-	/* Align, save off, and include an LSB header size */
-	offset = ALIGN(offset, LSF_LSB_HEADER_ALIGN);
-	whdr->lsb_offset = offset;
-	offset += sizeof(struct lsf_lsb_header);
-
-	/*
-	 * Align, save off, and include the original (static) ucode
-	 * image size
-	 */
-	offset = ALIGN(offset, LSF_UCODE_DATA_ALIGN);
-	lhdr->ucode_off = offset;
-	offset += img->ucode_size;
-
-	/*
-	 * For falcons that use a boot loader (BL), we append a loader
-	 * desc structure on the end of the ucode image and consider
-	 * this the boot loader data. The host will then copy the loader
-	 * desc args to this space within the WPR region (before locking
-	 * down) and the HS bin will then copy them to DMEM 0 for the
-	 * loader.
-	 */
-	lhdr->bl_code_size = ALIGN(desc->bootloader_size,
-				   LSF_BL_CODE_SIZE_ALIGN);
-	lhdr->ucode_size = ALIGN(desc->app_resident_data_offset,
-				 LSF_BL_CODE_SIZE_ALIGN) + lhdr->bl_code_size;
-	lhdr->data_size = ALIGN(desc->app_size, LSF_BL_CODE_SIZE_ALIGN) +
-				lhdr->bl_code_size - lhdr->ucode_size;
-	/*
-	 * Though the BL is located at 0th offset of the image, the VA
-	 * is different to make sure that it doesn't collide the actual
-	 * OS VA range
-	 */
-	lhdr->bl_imem_off = desc->bootloader_imem_offset;
-	lhdr->app_code_off = desc->app_start_offset +
-			     desc->app_resident_code_offset;
-	lhdr->app_code_size = desc->app_resident_code_size;
-	lhdr->app_data_off = desc->app_start_offset +
-			     desc->app_resident_data_offset;
-	lhdr->app_data_size = desc->app_resident_data_size;
-
-	lhdr->flags = 0;
-	if (img->falcon_id == gsb->base.func->boot_falcon)
-		lhdr->flags = LSF_FLAG_DMACTL_REQ_CTX;
-
-	/* GPCCS will be loaded using PRI */
-	if (img->falcon_id == NVKM_FALCON_GPCCS)
-		lhdr->flags |= LSF_FLAG_FORCE_PRIV_LOAD;
-
-	/* Align (size bloat) and save off BL descriptor size */
-	lhdr->bl_data_size = ALIGN(sizeof(struct gm200_flcn_bl_desc),
-				   LSF_BL_DATA_SIZE_ALIGN);
-	/*
-	 * Align, save off, and include the additional BL data
-	 */
-	offset = ALIGN(offset, LSF_BL_DATA_ALIGN);
-	lhdr->bl_data_off = offset;
-	offset += lhdr->bl_data_size;
-
-	return offset;
-}
-
-static void
-ls_ucode_mgr_init(struct ls_ucode_mgr *mgr)
-{
-	memset(mgr, 0, sizeof(*mgr));
-	INIT_LIST_HEAD(&mgr->img_list);
-}
-
-static void
-ls_ucode_mgr_cleanup(struct ls_ucode_mgr *mgr)
-{
-	struct ls_ucode_img *img, *t;
-
-	list_for_each_entry_safe(img, t, &mgr->img_list, node) {
-		kfree(img->ucode_data);
-		kfree(img->ucode_header);
-		kfree(img);
-	}
-}
-
-static void
-ls_ucode_mgr_add_img(struct ls_ucode_mgr *mgr, struct ls_ucode_img *img)
-{
-	mgr->count++;
-	list_add_tail(&img->node, &mgr->img_list);
-}
-
-/**
- * ls_ucode_mgr_fill_headers - fill WPR and LSB headers of all managed images
- */
-static void
-ls_ucode_mgr_fill_headers(struct gm200_secboot *gsb, struct ls_ucode_mgr *mgr)
-{
-	struct ls_ucode_img *img;
-	u32 offset;
-
-	/*
-	 * Start with an array of WPR headers at the base of the WPR.
-	 * The expectation here is that the secure falcon will do a single DMA
-	 * read of this array and cache it internally so it's ok to pack these.
-	 * Also, we add 1 to the falcon count to indicate the end of the array.
-	 */
-	offset = sizeof(struct lsf_wpr_header) * (mgr->count + 1);
-
-	/*
-	 * Walk the managed falcons, accounting for the LSB structs
-	 * as well as the ucode images.
-	 */
-	list_for_each_entry(img, &mgr->img_list, node) {
-		offset = ls_ucode_img_fill_headers(gsb, img, offset);
-	}
-
-	mgr->wpr_size = offset;
-}
-
-/**
- * ls_ucode_mgr_write_wpr - write the WPR blob contents
- */
-static int
-ls_ucode_mgr_write_wpr(struct gm200_secboot *gsb, struct ls_ucode_mgr *mgr,
-		       struct nvkm_gpuobj *wpr_blob)
-{
-	struct ls_ucode_img *img;
-	u32 pos = 0;
-
-	nvkm_kmap(wpr_blob);
-
-	list_for_each_entry(img, &mgr->img_list, node) {
-		nvkm_gpuobj_memcpy_to(wpr_blob, pos, &img->wpr_header,
-				      sizeof(img->wpr_header));
-
-		nvkm_gpuobj_memcpy_to(wpr_blob, img->wpr_header.lsb_offset,
-				     &img->lsb_header, sizeof(img->lsb_header));
-
-		/* Generate and write BL descriptor */
-		if (!img->ucode_header) {
-			u8 desc[gsb->func->bl_desc_size];
-			struct gm200_flcn_bl_desc gdesc;
-
-			ls_ucode_img_populate_bl_desc(img, gsb->wpr_addr,
-						      &gdesc);
-			gsb->func->fixup_bl_desc(&gdesc, &desc);
-			nvkm_gpuobj_memcpy_to(wpr_blob,
-					      img->lsb_header.bl_data_off,
-					      &desc, gsb->func->bl_desc_size);
-		}
-
-		/* Copy ucode */
-		nvkm_gpuobj_memcpy_to(wpr_blob, img->lsb_header.ucode_off,
-				      img->ucode_data, img->ucode_size);
-
-		pos += sizeof(img->wpr_header);
-	}
-
-	nvkm_wo32(wpr_blob, pos, NVKM_FALCON_INVALID);
-
-	nvkm_done(wpr_blob);
-
-	return 0;
-}
-
-/* Both size and address of WPR need to be 128K-aligned */
-#define WPR_ALIGNMENT	0x20000
-/**
- * gm200_secboot_prepare_ls_blob() - prepare the LS blob
- *
- * For each securely managed falcon, load the FW, signatures and bootloaders and
- * prepare a ucode blob. Then, compute the offsets in the WPR region for each
- * blob, and finally write the headers and ucode blobs into a GPU object that
- * will be copied into the WPR region by the HS firmware.
- */
-static int
-gm200_secboot_prepare_ls_blob(struct gm200_secboot *gsb)
-{
-	struct nvkm_secboot *sb = &gsb->base;
-	struct nvkm_device *device = sb->subdev.device;
-	struct ls_ucode_mgr mgr;
-	int falcon_id;
-	int ret;
-
-	ls_ucode_mgr_init(&mgr);
-
-	/* Load all LS blobs */
-	for_each_set_bit(falcon_id, &gsb->base.func->managed_falcons,
-			 NVKM_FALCON_END) {
-		struct ls_ucode_img *img;
-
-		img = ls_ucode_img_load(&sb->subdev, lsf_load_funcs[falcon_id]);
-
-		if (IS_ERR(img)) {
-			ret = PTR_ERR(img);
-			goto cleanup;
-		}
-		ls_ucode_mgr_add_img(&mgr, img);
-	}
-
-	/*
-	 * Fill the WPR and LSF headers with the right offsets and compute
-	 * required WPR size
-	 */
-	ls_ucode_mgr_fill_headers(gsb, &mgr);
-	mgr.wpr_size = ALIGN(mgr.wpr_size, WPR_ALIGNMENT);
-
-	/* Allocate GPU object that will contain the WPR region */
-	ret = nvkm_gpuobj_new(device, mgr.wpr_size, WPR_ALIGNMENT, false, NULL,
-			      &gsb->ls_blob);
-	if (ret)
-		goto cleanup;
-
-	nvkm_debug(&sb->subdev, "%d managed LS falcons, WPR size is %d bytes\n",
-		    mgr.count, mgr.wpr_size);
-
-	/* If WPR address and size are not fixed, set them to fit the LS blob */
-	if (!gsb->wpr_size) {
-		gsb->wpr_addr = gsb->ls_blob->addr;
-		gsb->wpr_size = gsb->ls_blob->size;
-	}
-
-	/* Write LS blob */
-	ret = ls_ucode_mgr_write_wpr(gsb, &mgr, gsb->ls_blob);
-	if (ret)
-		nvkm_gpuobj_del(&gsb->ls_blob);
-
-cleanup:
-	ls_ucode_mgr_cleanup(&mgr);
-
-	return ret;
-}
-
-/*
- * High-secure blob creation
- */
-
-/**
- * gm200_secboot_hsf_patch_signature() - patch HS blob with correct signature
- */
-static void
-gm200_secboot_hsf_patch_signature(struct gm200_secboot *gsb, void *acr_image)
-{
-	struct nvkm_secboot *sb = &gsb->base;
-	struct fw_bin_header *hsbin_hdr = acr_image;
-	struct hsf_fw_header *fw_hdr = acr_image + hsbin_hdr->header_offset;
-	void *hs_data = acr_image + hsbin_hdr->data_offset;
-	void *sig;
-	u32 sig_size;
-
-	/* Falcon in debug or production mode? */
-	if ((nvkm_rd32(sb->subdev.device, sb->base + 0xc08) >> 20) & 0x1) {
-		sig = acr_image + fw_hdr->sig_dbg_offset;
-		sig_size = fw_hdr->sig_dbg_size;
-	} else {
-		sig = acr_image + fw_hdr->sig_prod_offset;
-		sig_size = fw_hdr->sig_prod_size;
-	}
-
-	/* Patch signature */
-	memcpy(hs_data + fw_hdr->patch_loc, sig + fw_hdr->patch_sig, sig_size);
-}
-
-/**
- * gm200_secboot_populate_hsf_bl_desc() - populate BL descriptor for HS image
- */
-static void
-gm200_secboot_populate_hsf_bl_desc(void *acr_image,
-				   struct gm200_flcn_bl_desc *bl_desc)
-{
-	struct fw_bin_header *hsbin_hdr = acr_image;
-	struct hsf_fw_header *fw_hdr = acr_image + hsbin_hdr->header_offset;
-	struct hsf_load_header *load_hdr = acr_image + fw_hdr->hdr_offset;
-
-	/*
-	 * Descriptor for the bootloader that will load the ACR image into
-	 * IMEM/DMEM memory.
-	 */
-	fw_hdr = acr_image + hsbin_hdr->header_offset;
-	load_hdr = acr_image + fw_hdr->hdr_offset;
-	memset(bl_desc, 0, sizeof(*bl_desc));
-	bl_desc->ctx_dma = FALCON_DMAIDX_VIRT;
-	bl_desc->non_sec_code_off = load_hdr->non_sec_code_off;
-	bl_desc->non_sec_code_size = load_hdr->non_sec_code_size;
-	bl_desc->sec_code_off = load_hdr->app[0].sec_code_off;
-	bl_desc->sec_code_size = load_hdr->app[0].sec_code_size;
-	bl_desc->code_entry_point = 0;
-	/*
-	 * We need to set code_dma_base to the virtual address of the acr_blob,
-	 * and add this address to data_dma_base before writing it into DMEM
-	 */
-	bl_desc->code_dma_base.lo = 0;
-	bl_desc->data_dma_base.lo = load_hdr->data_dma_base;
-	bl_desc->data_size = load_hdr->data_size;
-}
-
-/**
- * gm200_secboot_prepare_hs_blob - load and prepare a HS blob and BL descriptor
- *
- * @gsb secure boot instance to prepare for
- * @fw name of the HS firmware to load
- * @blob pointer to gpuobj that will be allocated to receive the HS FW payload
- * @bl_desc pointer to the BL descriptor to write for this firmware
- * @patch whether we should patch the HS descriptor (only for HS loaders)
- */
-static int
-gm200_secboot_prepare_hs_blob(struct gm200_secboot *gsb, const char *fw,
-			      struct nvkm_gpuobj **blob,
-			      struct gm200_flcn_bl_desc *bl_desc, bool patch)
-{
-	struct nvkm_subdev *subdev = &gsb->base.subdev;
-	void *acr_image;
-	struct fw_bin_header *hsbin_hdr;
-	struct hsf_fw_header *fw_hdr;
-	void *acr_data;
-	struct hsf_load_header *load_hdr;
-	struct hsflcn_acr_desc *desc;
-	int ret;
-
-	acr_image = gm200_secboot_load_firmware(subdev, fw, 0);
-	if (IS_ERR(acr_image))
-		return PTR_ERR(acr_image);
-	hsbin_hdr = acr_image;
-
-	/* Patch signature */
-	gm200_secboot_hsf_patch_signature(gsb, acr_image);
-
-	acr_data = acr_image + hsbin_hdr->data_offset;
-
-	/* Patch descriptor? */
-	if (patch) {
-		fw_hdr = acr_image + hsbin_hdr->header_offset;
-		load_hdr = acr_image + fw_hdr->hdr_offset;
-		desc = acr_data + load_hdr->data_dma_base;
-		gsb->func->fixup_hs_desc(gsb, desc);
-	}
-
-	/* Generate HS BL descriptor */
-	gm200_secboot_populate_hsf_bl_desc(acr_image, bl_desc);
-
-	/* Create ACR blob and copy HS data to it */
-	ret = nvkm_gpuobj_new(subdev->device, ALIGN(hsbin_hdr->data_size, 256),
-			      0x1000, false, NULL, blob);
-	if (ret)
-		goto cleanup;
-
-	nvkm_kmap(*blob);
-	nvkm_gpuobj_memcpy_to(*blob, 0, acr_data, hsbin_hdr->data_size);
-	nvkm_done(*blob);
-
-cleanup:
-	kfree(acr_image);
-
-	return ret;
-}
-
-/*
- * High-secure bootloader blob creation
- */
-
-static int
-gm200_secboot_prepare_hsbl_blob(struct gm200_secboot *gsb)
-{
-	struct nvkm_subdev *subdev = &gsb->base.subdev;
-
-	gsb->hsbl_blob = gm200_secboot_load_firmware(subdev, "acr/bl", 0);
-	if (IS_ERR(gsb->hsbl_blob)) {
-		int ret = PTR_ERR(gsb->hsbl_blob);
-
-		gsb->hsbl_blob = NULL;
-		return ret;
-	}
-
-	return 0;
-}
-
-/**
- * gm20x_secboot_prepare_blobs - load blobs common to all GM20X GPUs.
- *
- * This includes the LS blob, HS ucode loading blob, and HS bootloader.
- *
- * The HS ucode unload blob is only used on dGPU.
- */
-int
-gm20x_secboot_prepare_blobs(struct gm200_secboot *gsb)
-{
-	int ret;
-
-	/* Load and prepare the managed falcon's firmwares */
-	if (!gsb->ls_blob) {
-		ret = gm200_secboot_prepare_ls_blob(gsb);
-		if (ret)
-			return ret;
-	}
-
-	/* Load the HS firmware that will load the LS firmwares */
-	if (!gsb->acr_load_blob) {
-		ret = gm200_secboot_prepare_hs_blob(gsb, "acr/ucode_load",
-						&gsb->acr_load_blob,
-						&gsb->acr_load_bl_desc, true);
-		if (ret)
-			return ret;
-	}
-
-	/* Load the HS firmware bootloader */
-	if (!gsb->hsbl_blob) {
-		ret = gm200_secboot_prepare_hsbl_blob(gsb);
-		if (ret)
-			return ret;
-	}
-
-	return 0;
-}
-
-static int
-gm200_secboot_prepare_blobs(struct gm200_secboot *gsb)
-{
-	int ret;
-
-	ret = gm20x_secboot_prepare_blobs(gsb);
-	if (ret)
-		return ret;
-
-	/* dGPU only: load the HS firmware that unprotects the WPR region */
-	if (!gsb->acr_unload_blob) {
-		ret = gm200_secboot_prepare_hs_blob(gsb, "acr/ucode_unload",
-					       &gsb->acr_unload_blob,
-					       &gsb->acr_unload_bl_desc, false);
-		if (ret)
-			return ret;
-	}
-
-	return 0;
-}
-
-static int
-gm200_secboot_blobs_ready(struct gm200_secboot *gsb)
-{
-	struct nvkm_subdev *subdev = &gsb->base.subdev;
-	int ret;
-
-	/* firmware already loaded, nothing to do... */
-	if (gsb->firmware_ok)
-		return 0;
-
-	ret = gsb->func->prepare_blobs(gsb);
-	if (ret) {
-		nvkm_error(subdev, "failed to load secure firmware\n");
-		return ret;
-	}
-
-	gsb->firmware_ok = true;
-
-	return 0;
-}
-
-
-/*
- * Secure Boot Execution
- */
-
-/**
- * gm200_secboot_load_hs_bl() - load HS bootloader into DMEM and IMEM
- */
-static void
-gm200_secboot_load_hs_bl(struct gm200_secboot *gsb, void *data, u32 data_size)
-{
-	struct nvkm_device *device = gsb->base.subdev.device;
-	struct fw_bin_header *hdr = gsb->hsbl_blob;
-	struct fw_bl_desc *hsbl_desc = gsb->hsbl_blob + hdr->header_offset;
-	void *blob_data = gsb->hsbl_blob + hdr->data_offset;
-	void *hsbl_code = blob_data + hsbl_desc->code_off;
-	void *hsbl_data = blob_data + hsbl_desc->data_off;
-	u32 code_size = ALIGN(hsbl_desc->code_size, 256);
-	const u32 base = gsb->base.base;
-	u32 code_start;
-
-	/*
-	 * Copy HS bootloader data
-	 */
-	nvkm_falcon_load_dmem(device, gsb->base.base, hsbl_data, 0x00000,
-			      hsbl_desc->data_size);
-
-	/*
-	 * Copy HS bootloader interface structure where the HS descriptor
-	 * expects it to be
-	 */
-	nvkm_falcon_load_dmem(device, gsb->base.base, data,
-			      hsbl_desc->dmem_load_off, data_size);
-
-	/* Copy HS bootloader code to end of IMEM */
-	code_start = (nvkm_rd32(device, base + 0x108) & 0x1ff) << 8;
-	code_start -= code_size;
-	nvkm_falcon_load_imem(device, gsb->base.base, hsbl_code, code_start,
-			      code_size, hsbl_desc->start_tag);
-}
 
 /**
  * gm200_secboot_setup_falcon() - set up the secure falcon for secure boot
  */
 static int
-gm200_secboot_setup_falcon(struct gm200_secboot *gsb)
+gm200_secboot_setup_falcon(struct gm200_secboot *gsb, struct nvkm_acr *acr)
 {
 	struct nvkm_device *device = gsb->base.subdev.device;
-	struct fw_bin_header *hdr = gsb->hsbl_blob;
-	struct fw_bl_desc *hsbl_desc = gsb->hsbl_blob + hdr->header_offset;
-	/* virtual start address for boot vector */
-	u32 virt_addr = hsbl_desc->start_tag << 8;
 	const u32 base = gsb->base.base;
 	const u32 reg_base = base + 0xe00;
 	u32 inst_loc;
@@ -1167,22 +66,20 @@ gm200_secboot_setup_falcon(struct gm200_secboot *gsb)
 		  (inst_loc << 28) | (1 << 30));
 
 	/* Set boot vector to code's starting virtual address */
-	nvkm_wr32(device, base + 0x104, virt_addr);
+	nvkm_wr32(device, base + 0x104, acr->start_address);
 
 	return 0;
 }
 
 /**
- * gm200_secboot_run_hs_blob() - run the given high-secure blob
+ * gm200_secboot_run_blob() - run the given high-secure blob
+ *
  */
-static int
-gm200_secboot_run_hs_blob(struct gm200_secboot *gsb, struct nvkm_gpuobj *blob,
-			  struct gm200_flcn_bl_desc *desc)
+int
+gm200_secboot_run_blob(struct nvkm_secboot *sb, struct nvkm_gpuobj *blob)
 {
+	struct gm200_secboot *gsb = gm200_secboot(sb);
 	struct nvkm_vma vma;
-	u64 vma_addr;
-	const u32 bl_desc_size = gsb->func->bl_desc_size;
-	u8 bl_desc[bl_desc_size];
 	int ret;
 
 	/* Map the HS firmware so the HS bootloader can see it */
@@ -1190,120 +87,28 @@ gm200_secboot_run_hs_blob(struct gm200_secboot *gsb, struct nvkm_gpuobj *blob,
 	if (ret)
 		return ret;
 
-	/* Add the mapping address to the DMA bases */
-	vma_addr = flcn64_to_u64(desc->code_dma_base) + vma.offset;
-	desc->code_dma_base.lo = lower_32_bits(vma_addr);
-	desc->code_dma_base.hi = upper_32_bits(vma_addr);
-	vma_addr = flcn64_to_u64(desc->data_dma_base) + vma.offset;
-	desc->data_dma_base.lo = lower_32_bits(vma_addr);
-	desc->data_dma_base.hi = upper_32_bits(vma_addr);
-
-	/* Fixup the BL header */
-	gsb->func->fixup_bl_desc(desc, &bl_desc);
-
 	/* Reset the falcon and make it ready to run the HS bootloader */
-	ret = gm200_secboot_setup_falcon(gsb);
+	ret = gm200_secboot_setup_falcon(gsb, sb->acr);
 	if (ret)
 		goto done;
 
 	/* Load the HS bootloader into the falcon's IMEM/DMEM */
-	gm200_secboot_load_hs_bl(gsb, &bl_desc, bl_desc_size);
+	ret = sb->acr->func->load(sb->acr, &gsb->base, blob, vma.offset);
+	if (ret)
+		goto done;
 
 	/* Start the HS bootloader */
-	ret = nvkm_secboot_falcon_run(&gsb->base);
+	ret = nvkm_secboot_falcon_run(sb);
 	if (ret)
 		goto done;
 
 done:
-	/* Restore the original DMA addresses */
-	vma_addr = flcn64_to_u64(desc->code_dma_base) - vma.offset;
-	desc->code_dma_base.lo = lower_32_bits(vma_addr);
-	desc->code_dma_base.hi = upper_32_bits(vma_addr);
-	vma_addr = flcn64_to_u64(desc->data_dma_base) - vma.offset;
-	desc->data_dma_base.lo = lower_32_bits(vma_addr);
-	desc->data_dma_base.hi = upper_32_bits(vma_addr);
-
 	/* We don't need the ACR firmware anymore */
 	nvkm_gpuobj_unmap(&vma);
 
 	return ret;
 }
 
-/*
- * gm200_secboot_reset() - execute secure boot from the prepared state
- *
- * Load the HS bootloader and ask the falcon to run it. This will in turn
- * load the HS firmware and run it, so once the falcon stops all the managed
- * falcons should have their LS firmware loaded and be ready to run.
- */
-int
-gm200_secboot_reset(struct nvkm_secboot *sb, enum nvkm_falconidx falcon)
-{
-	struct gm200_secboot *gsb = gm200_secboot(sb);
-	int ret;
-
-	/* Make sure all blobs are ready */
-	ret = gm200_secboot_blobs_ready(gsb);
-	if (ret)
-		return ret;
-
-	/*
-	 * Dummy GM200 implementation: perform secure boot each time we are
-	 * called on FECS. Since only FECS and GPCCS are managed and started
-	 * together, this ought to be safe.
-	 *
-	 * Once we have proper PMU firmware and support, this will be changed
-	 * to a proper call to the PMU method.
-	 */
-	if (falcon != NVKM_FALCON_FECS)
-		goto end;
-
-	/* If WPR is set and we have an unload blob, run it to unlock WPR */
-	if (gsb->acr_unload_blob &&
-	    gsb->falcon_state[NVKM_FALCON_FECS] != NON_SECURE) {
-		ret = gm200_secboot_run_hs_blob(gsb, gsb->acr_unload_blob,
-						&gsb->acr_unload_bl_desc);
-		if (ret)
-			return ret;
-	}
-
-	/* Reload all managed falcons */
-	ret = gm200_secboot_run_hs_blob(gsb, gsb->acr_load_blob,
-					&gsb->acr_load_bl_desc);
-	if (ret)
-		return ret;
-
-end:
-	gsb->falcon_state[falcon] = RESET;
-	return 0;
-}
-
-int
-gm200_secboot_start(struct nvkm_secboot *sb, enum nvkm_falconidx falcon)
-{
-	struct gm200_secboot *gsb = gm200_secboot(sb);
-	int base;
-
-	switch (falcon) {
-	case NVKM_FALCON_FECS:
-		base = 0x409000;
-		break;
-	case NVKM_FALCON_GPCCS:
-		base = 0x41a000;
-		break;
-	default:
-		nvkm_error(&sb->subdev, "cannot start unhandled falcon!\n");
-		return -EINVAL;
-	}
-
-	nvkm_wr32(sb->subdev.device, base + 0x130, 0x00000002);
-	gsb->falcon_state[falcon] = RUNNING;
-
-	return 0;
-}
-
-
-
 int
 gm200_secboot_oneinit(struct nvkm_secboot *sb)
 {
@@ -1340,24 +145,19 @@ gm200_secboot_oneinit(struct nvkm_secboot *sb)
 	nvkm_wo32(gsb->inst, 0x20c, upper_32_bits(vm_area_len - 1));
 	nvkm_done(gsb->inst);
 
+	if (sb->acr->func->init)
+		sb->acr->func->init(sb->acr, sb);
+
 	return 0;
 }
 
 int
 gm200_secboot_fini(struct nvkm_secboot *sb, bool suspend)
 {
-	struct gm200_secboot *gsb = gm200_secboot(sb);
 	int ret = 0;
-	int i;
-
-	/* Run the unload blob to unprotect the WPR region */
-	if (gsb->acr_unload_blob &&
-	    gsb->falcon_state[NVKM_FALCON_FECS] != NON_SECURE)
-		ret = gm200_secboot_run_hs_blob(gsb, gsb->acr_unload_blob,
-						&gsb->acr_unload_bl_desc);
 
-	for (i = 0; i < NVKM_FALCON_END; i++)
-		gsb->falcon_state[i] = NON_SECURE;
+	if (sb->acr->func->fini)
+		ret = sb->acr->func->fini(sb->acr, sb, suspend);
 
 	return ret;
 }
@@ -1367,11 +167,7 @@ gm200_secboot_dtor(struct nvkm_secboot *sb)
 {
 	struct gm200_secboot *gsb = gm200_secboot(sb);
 
-	nvkm_gpuobj_del(&gsb->acr_unload_blob);
-
-	kfree(gsb->hsbl_blob);
-	nvkm_gpuobj_del(&gsb->acr_load_blob);
-	nvkm_gpuobj_del(&gsb->ls_blob);
+	sb->acr->func->dtor(sb->acr);
 
 	nvkm_vm_ref(NULL, &gsb->vm, gsb->pgd);
 	nvkm_gpuobj_del(&gsb->pgd);
@@ -1380,54 +176,12 @@ gm200_secboot_dtor(struct nvkm_secboot *sb)
 	return gsb;
 }
 
-
 static const struct nvkm_secboot_func
 gm200_secboot = {
 	.dtor = gm200_secboot_dtor,
 	.oneinit = gm200_secboot_oneinit,
 	.fini = gm200_secboot_fini,
-	.reset = gm200_secboot_reset,
-	.start = gm200_secboot_start,
-	.managed_falcons = BIT(NVKM_FALCON_FECS) |
-			   BIT(NVKM_FALCON_GPCCS),
-	.boot_falcon = NVKM_FALCON_PMU,
-};
-
-/**
- * gm200_fixup_bl_desc - just copy the BL descriptor
- *
- * Use the GM200 descriptor format by default.
- */
-static void
-gm200_secboot_fixup_bl_desc(const struct gm200_flcn_bl_desc *desc, void *ret)
-{
-	memcpy(ret, desc, sizeof(*desc));
-}
-
-static void
-gm200_secboot_fixup_hs_desc(struct gm200_secboot *gsb,
-			    struct hsflcn_acr_desc *desc)
-{
-	desc->ucode_blob_base = gsb->ls_blob->addr;
-	desc->ucode_blob_size = gsb->ls_blob->size;
-
-	desc->wpr_offset = 0;
-
-	/* WPR region information for the HS binary to set up */
-	desc->wpr_region_id = 1;
-	desc->regions.no_regions = 1;
-	desc->regions.region_props[0].region_id = 1;
-	desc->regions.region_props[0].start_addr = gsb->wpr_addr >> 8;
-	desc->regions.region_props[0].end_addr =
-		(gsb->wpr_addr + gsb->wpr_size) >> 8;
-}
-
-static const struct gm200_secboot_func
-gm200_secboot_func = {
-	.bl_desc_size = sizeof(struct gm200_flcn_bl_desc),
-	.fixup_bl_desc = gm200_secboot_fixup_bl_desc,
-	.fixup_hs_desc = gm200_secboot_fixup_hs_desc,
-	.prepare_blobs = gm200_secboot_prepare_blobs,
+	.run_blob = gm200_secboot_run_blob,
 };
 
 int
@@ -1436,6 +190,11 @@ gm200_secboot_new(struct nvkm_device *device, int index,
 {
 	int ret;
 	struct gm200_secboot *gsb;
+	struct nvkm_acr *acr;
+
+	acr = nvkm_acr_v1_new();
+	if (IS_ERR(acr))
+		return PTR_ERR(acr);
 
 	gsb = kzalloc(sizeof(*gsb), GFP_KERNEL);
 	if (!gsb) {
@@ -1444,75 +203,9 @@ gm200_secboot_new(struct nvkm_device *device, int index,
 	}
 	*psb = &gsb->base;
 
-	ret = nvkm_secboot_ctor(&gm200_secboot, device, index, &gsb->base);
+	ret = nvkm_secboot_ctor(&gm200_secboot, acr, device, index, &gsb->base);
 	if (ret)
 		return ret;
 
-	gsb->func = &gm200_secboot_func;
-
 	return 0;
 }
-
-MODULE_FIRMWARE("nvidia/gm200/acr/bl.bin");
-MODULE_FIRMWARE("nvidia/gm200/acr/ucode_load.bin");
-MODULE_FIRMWARE("nvidia/gm200/acr/ucode_unload.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/fecs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/fecs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/fecs_data.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/fecs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_data.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/gpccs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/sw_ctx.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/sw_nonctx.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/sw_bundle_init.bin");
-MODULE_FIRMWARE("nvidia/gm200/gr/sw_method_init.bin");
-
-MODULE_FIRMWARE("nvidia/gm204/acr/bl.bin");
-MODULE_FIRMWARE("nvidia/gm204/acr/ucode_load.bin");
-MODULE_FIRMWARE("nvidia/gm204/acr/ucode_unload.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/fecs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/fecs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/fecs_data.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/fecs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_data.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/gpccs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/sw_ctx.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/sw_nonctx.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/sw_bundle_init.bin");
-MODULE_FIRMWARE("nvidia/gm204/gr/sw_method_init.bin");
-
-MODULE_FIRMWARE("nvidia/gm206/acr/bl.bin");
-MODULE_FIRMWARE("nvidia/gm206/acr/ucode_load.bin");
-MODULE_FIRMWARE("nvidia/gm206/acr/ucode_unload.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/fecs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/fecs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/fecs_data.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/fecs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_data.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/gpccs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/sw_ctx.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/sw_nonctx.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/sw_bundle_init.bin");
-MODULE_FIRMWARE("nvidia/gm206/gr/sw_method_init.bin");
-
-MODULE_FIRMWARE("nvidia/gp100/acr/bl.bin");
-MODULE_FIRMWARE("nvidia/gp100/acr/ucode_load.bin");
-MODULE_FIRMWARE("nvidia/gp100/acr/ucode_unload.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/fecs_bl.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/fecs_inst.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/fecs_data.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/fecs_sig.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_bl.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_inst.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_data.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/gpccs_sig.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/sw_ctx.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/sw_nonctx.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/sw_bundle_init.bin");
-MODULE_FIRMWARE("nvidia/gp100/gr/sw_method_init.bin");
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm200.h b/drm/nouveau/nvkm/subdev/secboot/gm200.h
new file mode 100644
index 000000000000..45adf1a3bc20
--- /dev/null
+++ b/drm/nouveau/nvkm/subdev/secboot/gm200.h
@@ -0,0 +1,43 @@
+/*
+ * Copyright (c) 2016, 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.
+ */
+
+#ifndef __NVKM_SECBOOT_GM200_H__
+#define __NVKM_SECBOOT_GM200_H__
+
+#include "priv.h"
+
+struct gm200_secboot {
+	struct nvkm_secboot base;
+
+	/* Instance block & address space used for HS FW execution */
+	struct nvkm_gpuobj *inst;
+	struct nvkm_gpuobj *pgd;
+	struct nvkm_vm *vm;
+};
+#define gm200_secboot(sb) container_of(sb, struct gm200_secboot, base)
+
+int gm200_secboot_oneinit(struct nvkm_secboot *);
+int gm200_secboot_fini(struct nvkm_secboot *, bool);
+void *gm200_secboot_dtor(struct nvkm_secboot *);
+int gm200_secboot_run_blob(struct nvkm_secboot *, struct nvkm_gpuobj *);
+
+#endif
diff --git a/drm/nouveau/nvkm/subdev/secboot/gm20b.c b/drm/nouveau/nvkm/subdev/secboot/gm20b.c
index 1cb663c31e17..30361d44d4e8 100644
--- a/drm/nouveau/nvkm/subdev/secboot/gm20b.c
+++ b/drm/nouveau/nvkm/subdev/secboot/gm20b.c
@@ -20,103 +20,8 @@
  * DEALINGS IN THE SOFTWARE.
  */
 
-#include "priv.h"
-
-#include <core/gpuobj.h>
-
-/*
- * The BL header format used by GM20B's firmware is slightly different
- * from the one of GM200. Fix the differences here.
- */
-struct gm20b_flcn_bl_desc {
-	u32 reserved[4];
-	u32 signature[4];
-	u32 ctx_dma;
-	u32 code_dma_base;
-	u32 non_sec_code_off;
-	u32 non_sec_code_size;
-	u32 sec_code_off;
-	u32 sec_code_size;
-	u32 code_entry_point;
-	u32 data_dma_base;
-	u32 data_size;
-};
-
-static int
-gm20b_secboot_prepare_blobs(struct gm200_secboot *gsb)
-{
-	struct nvkm_subdev *subdev = &gsb->base.subdev;
-	int acr_size;
-	int ret;
-
-	ret = gm20x_secboot_prepare_blobs(gsb);
-	if (ret)
-		return ret;
-
-	acr_size = gsb->acr_load_blob->size;
-	/*
-	 * On Tegra the WPR region is set by the bootloader. It is illegal for
-	 * the HS blob to be larger than this region.
-	 */
-	if (acr_size > gsb->wpr_size) {
-		nvkm_error(subdev, "WPR region too small for FW blob!\n");
-		nvkm_error(subdev, "required: %dB\n", acr_size);
-		nvkm_error(subdev, "WPR size: %dB\n", gsb->wpr_size);
-		return -ENOSPC;
-	}
-
-	return 0;
-}
-
-/**
- * gm20b_secboot_fixup_bl_desc - adapt BL descriptor to format used by GM20B FW
- *
- * There is only a slight format difference (DMA addresses being 32-bits and
- * 256B-aligned) to address.
- */
-static void
-gm20b_secboot_fixup_bl_desc(const struct gm200_flcn_bl_desc *desc, void *ret)
-{
-	struct gm20b_flcn_bl_desc *gdesc = ret;
-	u64 addr;
-
-	memcpy(gdesc->reserved, desc->reserved, sizeof(gdesc->reserved));
-	memcpy(gdesc->signature, desc->signature, sizeof(gdesc->signature));
-	gdesc->ctx_dma = desc->ctx_dma;
-	addr = desc->code_dma_base.hi;
-	addr <<= 32;
-	addr |= desc->code_dma_base.lo;
-	gdesc->code_dma_base = lower_32_bits(addr >> 8);
-	gdesc->non_sec_code_off = desc->non_sec_code_off;
-	gdesc->non_sec_code_size = desc->non_sec_code_size;
-	gdesc->sec_code_off = desc->sec_code_off;
-	gdesc->sec_code_size = desc->sec_code_size;
-	gdesc->code_entry_point = desc->code_entry_point;
-	addr = desc->data_dma_base.hi;
-	addr <<= 32;
-	addr |= desc->data_dma_base.lo;
-	gdesc->data_dma_base = lower_32_bits(addr >> 8);
-	gdesc->data_size = desc->data_size;
-}
-
-static void
-gm20b_secboot_fixup_hs_desc(struct gm200_secboot *gsb,
-			    struct hsflcn_acr_desc *desc)
-{
-	desc->ucode_blob_base = gsb->ls_blob->addr;
-	desc->ucode_blob_size = gsb->ls_blob->size;
-
-	desc->wpr_offset = 0;
-}
-
-static const struct gm200_secboot_func
-gm20b_secboot_func = {
-	.bl_desc_size = sizeof(struct gm20b_flcn_bl_desc),
-	.fixup_bl_desc = gm20b_secboot_fixup_bl_desc,
-	.fixup_hs_desc = gm20b_secboot_fixup_hs_desc,
-	.prepare_blobs = gm20b_secboot_prepare_blobs,
-};
-
+#include "gm200.h"
+#include "acr.h"
 
 #ifdef CONFIG_ARCH_TEGRA
 #define TEGRA_MC_BASE				0x70019000
@@ -125,6 +30,7 @@ gm20b_secboot_func = {
 #define MC_SECURITY_CARVEOUT2_BOM_HI_0		0xc60
 #define MC_SECURITY_CARVEOUT2_SIZE_128K		0xc64
 #define TEGRA_MC_SECURITY_CARVEOUT_CFG_LOCKED	(1 << 1)
+
 /**
  * sb_tegra_read_wpr() - read the WPR registers on Tegra
  *
@@ -144,15 +50,15 @@ gm20b_tegra_read_wpr(struct gm200_secboot *gsb)
 		nvkm_error(&sb->subdev, "Cannot map Tegra MC registers\n");
 		return PTR_ERR(mc);
 	}
-	gsb->wpr_addr = ioread32_native(mc + MC_SECURITY_CARVEOUT2_BOM_0) |
+	sb->wpr_addr = ioread32_native(mc + MC_SECURITY_CARVEOUT2_BOM_0) |
 	      ((u64)ioread32_native(mc + MC_SECURITY_CARVEOUT2_BOM_HI_0) << 32);
-	gsb->wpr_size = ioread32_native(mc + MC_SECURITY_CARVEOUT2_SIZE_128K)
+	sb->wpr_size = ioread32_native(mc + MC_SECURITY_CARVEOUT2_SIZE_128K)
 		<< 17;
 	cfg = ioread32_native(mc + MC_SECURITY_CARVEOUT2_CFG0);
 	iounmap(mc);
 
 	/* Check that WPR settings are valid */
-	if (gsb->wpr_size == 0) {
+	if (sb->wpr_size == 0) {
 		nvkm_error(&sb->subdev, "WPR region is empty\n");
 		return -EINVAL;
 	}
@@ -186,14 +92,13 @@ gm20b_secboot_oneinit(struct nvkm_secboot *sb)
 	return gm200_secboot_oneinit(sb);
 }
 
+
 static const struct nvkm_secboot_func
 gm20b_secboot = {
 	.dtor = gm200_secboot_dtor,
 	.oneinit = gm20b_secboot_oneinit,
-	.reset = gm200_secboot_reset,
-	.start = gm200_secboot_start,
-	.managed_falcons = BIT(NVKM_FALCON_FECS),
-	.boot_falcon = NVKM_FALCON_PMU,
+	.fini = gm200_secboot_fini,
+	.run_blob = gm200_secboot_run_blob,
 };
 
 int
@@ -202,6 +107,11 @@ gm20b_secboot_new(struct nvkm_device *device, int index,
 {
 	int ret;
 	struct gm200_secboot *gsb;
+	struct nvkm_acr *acr;
+
+	acr = nvkm_acr_v1_gm20b_new();
+	if (IS_ERR(acr))
+		return PTR_ERR(acr);
 
 	gsb = kzalloc(sizeof(*gsb), GFP_KERNEL);
 	if (!gsb) {
@@ -210,24 +120,9 @@ gm20b_secboot_new(struct nvkm_device *device, int index,
 	}
 	*psb = &gsb->base;
 
-	ret = nvkm_secboot_ctor(&gm20b_secboot, device, index, &gsb->base);
+	ret = nvkm_secboot_ctor(&gm20b_secboot, acr, device, index, &gsb->base);
 	if (ret)
 		return ret;
 
-	gsb->func = &gm20b_secboot_func;
-
 	return 0;
 }
-
-MODULE_FIRMWARE("nvidia/gm20b/acr/bl.bin");
-MODULE_FIRMWARE("nvidia/gm20b/acr/ucode_load.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_bl.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_data.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/fecs_sig.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/gpccs_inst.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/gpccs_data.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/sw_ctx.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/sw_nonctx.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/sw_bundle_init.bin");
-MODULE_FIRMWARE("nvidia/gm20b/gr/sw_method_init.bin");
diff --git a/drm/nouveau/nvkm/subdev/secboot/priv.h b/drm/nouveau/nvkm/subdev/secboot/priv.h
index baa802b1e9d2..aded84d478ca 100644
--- a/drm/nouveau/nvkm/subdev/secboot/priv.h
+++ b/drm/nouveau/nvkm/subdev/secboot/priv.h
@@ -1,5 +1,5 @@
 /*
- * Copyright (c) 2015, NVIDIA CORPORATION. All rights reserved.
+ * Copyright (c) 2016, 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"),
@@ -24,211 +24,23 @@
 #define __NVKM_SECBOOT_PRIV_H__
 
 #include <subdev/secboot.h>
-#include <subdev/mmu.h>
 
+/**
+ * struct nvkm_secboot_func - functions used to control secure boot hardware
+ *
+ * @run_blob: run the given blob in high-secure mode.
+ */
 struct nvkm_secboot_func {
 	int (*oneinit)(struct nvkm_secboot *);
 	int (*fini)(struct nvkm_secboot *, bool suspend);
 	void *(*dtor)(struct nvkm_secboot *);
-	int (*reset)(struct nvkm_secboot *, enum nvkm_falconidx);
-	int (*start)(struct nvkm_secboot *, enum nvkm_falconidx);
-
-	/* ID of the falcon that will perform secure boot */
-	enum nvkm_falconidx boot_falcon;
-	/* Bit-mask of IDs of managed falcons */
-	unsigned long managed_falcons;
+	int (*run_blob)(struct nvkm_secboot *, struct nvkm_gpuobj *);
 };
 
-int nvkm_secboot_ctor(const struct nvkm_secboot_func *, struct nvkm_device *,
-		      int index, struct nvkm_secboot *);
 int nvkm_secboot_falcon_reset(struct nvkm_secboot *);
 int nvkm_secboot_falcon_run(struct nvkm_secboot *);
 
-struct flcn_u64 {
-	u32 lo;
-	u32 hi;
-};
-static inline u64 flcn64_to_u64(const struct flcn_u64 f)
-{
-	return ((u64)f.hi) << 32 | f.lo;
-}
-
-/**
- * struct gm200_flcn_bl_desc - DMEM bootloader descriptor
- * @signature:		16B signature for secure code. 0s if no secure code
- * @ctx_dma:		DMA context to be used by BL while loading code/data
- * @code_dma_base:	256B-aligned Physical FB Address where code is located
- *			(falcon's $xcbase register)
- * @non_sec_code_off:	offset from code_dma_base where the non-secure code is
- *                      located. The offset must be multiple of 256 to help perf
- * @non_sec_code_size:	the size of the nonSecure code part.
- * @sec_code_off:	offset from code_dma_base where the secure code is
- *                      located. The offset must be multiple of 256 to help perf
- * @sec_code_size:	offset from code_dma_base where the secure code is
- *                      located. The offset must be multiple of 256 to help perf
- * @code_entry_point:	code entry point which will be invoked by BL after
- *                      code is loaded.
- * @data_dma_base:	256B aligned Physical FB Address where data is located.
- *			(falcon's $xdbase register)
- * @data_size:		size of data block. Should be multiple of 256B
- *
- * Structure used by the bootloader to load the rest of the code. This has
- * to be filled by host and copied into DMEM at offset provided in the
- * hsflcn_bl_desc.bl_desc_dmem_load_off.
- */
-struct gm200_flcn_bl_desc {
-	u32 reserved[4];
-	u32 signature[4];
-	u32 ctx_dma;
-	struct flcn_u64 code_dma_base;
-	u32 non_sec_code_off;
-	u32 non_sec_code_size;
-	u32 sec_code_off;
-	u32 sec_code_size;
-	u32 code_entry_point;
-	struct flcn_u64 data_dma_base;
-	u32 data_size;
-};
-
-/**
- * struct hsflcn_acr_desc - data section of the HS firmware
- *
- * This header is to be copied at the beginning of DMEM by the HS bootloader.
- *
- * @signature:		signature of ACR ucode
- * @wpr_region_id:	region ID holding the WPR header and its details
- * @wpr_offset:		offset from the WPR region holding the wpr header
- * @regions:		region descriptors
- * @nonwpr_ucode_blob_size:	size of LS blob
- * @nonwpr_ucode_blob_start:	FB location of LS blob is
- */
-struct hsflcn_acr_desc {
-	union {
-		u8 reserved_dmem[0x200];
-		u32 signatures[4];
-	} ucode_reserved_space;
-	u32 wpr_region_id;
-	u32 wpr_offset;
-	u32 mmu_mem_range;
-#define FLCN_ACR_MAX_REGIONS 2
-	struct {
-		u32 no_regions;
-		struct {
-			u32 start_addr;
-			u32 end_addr;
-			u32 region_id;
-			u32 read_mask;
-			u32 write_mask;
-			u32 client_mask;
-		} region_props[FLCN_ACR_MAX_REGIONS];
-	} regions;
-	u32 ucode_blob_size;
-	u64 ucode_blob_base __aligned(8);
-	struct {
-		u32 vpr_enabled;
-		u32 vpr_start;
-		u32 vpr_end;
-		u32 hdcp_policies;
-	} vpr_desc;
-};
-
-/**
- * Contains the whole secure boot state, allowing it to be performed as needed
- * @wpr_addr:		physical address of the WPR region
- * @wpr_size:		size in bytes of the WPR region
- * @ls_blob:		LS blob of all the LS firmwares, signatures, bootloaders
- * @ls_blob_size:	size of the LS blob
- * @ls_blob_nb_regions:	number of LS firmwares that will be loaded
- * @acr_blob:		HS blob
- * @acr_blob_vma:	mapping of the HS blob into the secure falcon's VM
- * @acr_bl_desc:	bootloader descriptor of the HS blob
- * @hsbl_blob:		HS blob bootloader
- * @inst:		instance block for HS falcon
- * @pgd:		page directory for the HS falcon
- * @vm:			address space used by the HS falcon
- * @falcon_state:	current state of the managed falcons
- * @firmware_ok:	whether the firmware blobs have been created
- */
-struct gm200_secboot {
-	struct nvkm_secboot base;
-	const struct gm200_secboot_func *func;
-
-	/*
-	 * Address and size of the WPR region. On dGPU this will be the
-	 * address of the LS blob. On Tegra this is a fixed region set by the
-	 * bootloader
-	 */
-	u64 wpr_addr;
-	u32 wpr_size;
-
-	/*
-	 * HS FW - lock WPR region (dGPU only) and load LS FWs
-	 * on Tegra the HS FW copies the LS blob into the fixed WPR instead
-	 */
-	struct nvkm_gpuobj *acr_load_blob;
-	struct gm200_flcn_bl_desc acr_load_bl_desc;
-
-	/* HS FW - unlock WPR region (dGPU only) */
-	struct nvkm_gpuobj *acr_unload_blob;
-	struct gm200_flcn_bl_desc acr_unload_bl_desc;
-
-	/* HS bootloader */
-	void *hsbl_blob;
-
-	/* LS FWs, to be loaded by the HS ACR */
-	struct nvkm_gpuobj *ls_blob;
-
-	/* Instance block & address space used for HS FW execution */
-	struct nvkm_gpuobj *inst;
-	struct nvkm_gpuobj *pgd;
-	struct nvkm_vm *vm;
-
-	/* To keep track of the state of all managed falcons */
-	enum {
-		/* In non-secure state, no firmware loaded, no privileges*/
-		NON_SECURE = 0,
-		/* In low-secure mode and ready to be started */
-		RESET,
-		/* In low-secure mode and running */
-		RUNNING,
-	} falcon_state[NVKM_FALCON_END];
-
-	bool firmware_ok;
-};
-#define gm200_secboot(sb) container_of(sb, struct gm200_secboot, base)
-
-/**
- * Contains functions we wish to abstract between GM200-like implementations
- * @bl_desc_size:	size of the BL descriptor used by this chip.
- * @fixup_bl_desc:	hook that generates the proper BL descriptor format from
- *			the generic GM200 format into a data array of size
- *			bl_desc_size
- * @fixup_hs_desc:	hook that twiddles the HS descriptor before it is used
- * @prepare_blobs:	prepares the various blobs needed for secure booting
- */
-struct gm200_secboot_func {
-	/*
-	 * Size of the bootloader descriptor for this chip. A block of this
-	 * size is allocated before booting a falcon and the fixup_bl_desc
-	 * callback is called on it
-	 */
-	u32 bl_desc_size;
-	void (*fixup_bl_desc)(const struct gm200_flcn_bl_desc *, void *);
-
-	/*
-	 * Chip-specific modifications of the HS descriptor can be done here.
-	 * On dGPU this is used to fill the information about the WPR region
-	 * we want the HS FW to set up.
-	 */
-	void (*fixup_hs_desc)(struct gm200_secboot *, struct hsflcn_acr_desc *);
-	int (*prepare_blobs)(struct gm200_secboot *);
-};
-
-int gm200_secboot_oneinit(struct nvkm_secboot *);
-void *gm200_secboot_dtor(struct nvkm_secboot *);
-int gm200_secboot_reset(struct nvkm_secboot *, u32);
-int gm200_secboot_start(struct nvkm_secboot *, u32);
-
-int gm20x_secboot_prepare_blobs(struct gm200_secboot *);
+int nvkm_secboot_ctor(const struct nvkm_secboot_func *, struct nvkm_acr *,
+		      struct nvkm_device *, int index, struct nvkm_secboot *);
 
 #endif
-- 
2.10.0

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[PATCH 6/8] secboot: remove fixup_hs_desc hook

[Alexandre Courbot]

This hook can be removed if the function writing the HS descriptor is
aware of WPR settings. Let's do that as it allows us to make the ACR
descriptor structure private and save some code.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/nvkm/subdev/secboot/acr_v1.c       | 106 +++++++++++++++++--------
 drm/nouveau/nvkm/subdev/secboot/acr_v1.h       |  45 -----------
 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c |  11 ---
 3 files changed, 75 insertions(+), 87 deletions(-)

diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
index d7405f8f7c63..db0fb3338398 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
@@ -298,6 +298,49 @@ struct hsf_load_header {
 	} app[0];
 };
 
+/**
+ * struct hsflcn_acr_desc - data section of the HS firmware
+ *
+ * This header is to be copied at the beginning of DMEM by the HS bootloader.
+ *
+ * @signature:		signature of ACR ucode
+ * @wpr_region_id:	region ID holding the WPR header and its details
+ * @wpr_offset:		offset from the WPR region holding the wpr header
+ * @regions:		region descriptors
+ * @nonwpr_ucode_blob_size:	size of LS blob
+ * @nonwpr_ucode_blob_start:	FB location of LS blob is
+ */
+struct hsflcn_acr_desc {
+	union {
+		u8 reserved_dmem[0x200];
+		u32 signatures[4];
+	} ucode_reserved_space;
+	u32 wpr_region_id;
+	u32 wpr_offset;
+	u32 mmu_mem_range;
+#define FLCN_ACR_MAX_REGIONS 2
+	struct {
+		u32 no_regions;
+		struct {
+			u32 start_addr;
+			u32 end_addr;
+			u32 region_id;
+			u32 read_mask;
+			u32 write_mask;
+			u32 client_mask;
+		} region_props[FLCN_ACR_MAX_REGIONS];
+	} regions;
+	u32 ucode_blob_size;
+	u64 ucode_blob_base __aligned(8);
+	struct {
+		u32 vpr_enabled;
+		u32 vpr_start;
+		u32 vpr_end;
+		u32 hdcp_policies;
+	} vpr_desc;
+};
+
+
 static inline u64 flcn64_to_u64(const struct flcn_u64 f)
 {
 	return ((u64)f.hi) << 32 | f.lo;
@@ -879,6 +922,31 @@ acr_v1_populate_hsf_bl_desc(void *acr_image, struct acr_v1_bl_desc *bl_desc)
 	bl_desc->data_size = load_hdr->data_size;
 }
 
+static void
+acr_v1_fixup_hs_desc(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb,
+			    struct hsflcn_acr_desc *desc)
+{
+	struct nvkm_gpuobj *ls_blob = acr->ls_blob;
+
+	desc->ucode_blob_base = acr->ls_blob->addr;
+	desc->ucode_blob_size = acr->ls_blob->size;
+
+	desc->wpr_offset = 0;
+
+	/*
+	 * WPR region information for the HS binary to set up, if WPR is not
+	 * fixed
+	 */
+	if (sb->wpr_size == 0) {
+		desc->wpr_region_id = 1;
+		desc->regions.no_regions = 1;
+		desc->regions.region_props[0].region_id = 1;
+		desc->regions.region_props[0].start_addr = ls_blob->addr >> 8;
+		desc->regions.region_props[0].end_addr =
+			(ls_blob->addr + ls_blob->size) >> 8;
+	}
+}
+
 /**
  * acr_v1_prepare_hs_blob - load and prepare a HS blob and BL descriptor
  *
@@ -889,9 +957,9 @@ acr_v1_populate_hsf_bl_desc(void *acr_image, struct acr_v1_bl_desc *bl_desc)
  * @patch whether we should patch the HS descriptor (only for HS loaders)
  */
 static int
-acr_v1_prepare_hs_blob(struct nvkm_acr_v1 *acr, const char *fw,
-			      struct nvkm_gpuobj **blob,
-			      struct acr_v1_bl_desc *bl_desc, bool patch)
+acr_v1_prepare_hs_blob(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb,
+		       const char *fw, struct nvkm_gpuobj **blob,
+		       struct acr_v1_bl_desc *bl_desc, bool patch)
 {
 	const struct nvkm_subdev *subdev = acr->base.subdev;
 	void *acr_image;
@@ -909,7 +977,7 @@ acr_v1_prepare_hs_blob(struct nvkm_acr_v1 *acr, const char *fw,
 
 	acr_data = acr_image + hsbin_hdr->data_offset;
 
-	/* Patch descriptor? */
+	/* Patch descriptor with WPR information? */
 	if (patch) {
 		struct hsf_fw_header *fw_hdr;
 		struct hsf_load_header *load_hdr;
@@ -918,7 +986,7 @@ acr_v1_prepare_hs_blob(struct nvkm_acr_v1 *acr, const char *fw,
 		fw_hdr = acr_image + hsbin_hdr->header_offset;
 		load_hdr = acr_image + fw_hdr->hdr_offset;
 		desc = acr_data + load_hdr->data_dma_base;
-		acr->func->fixup_hs_desc(acr, desc);
+		acr_v1_fixup_hs_desc(acr, sb, desc);
 	}
 
 	/* Generate HS BL descriptor */
@@ -990,14 +1058,14 @@ acr_v1_load_blobs(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb)
 		return ret;
 
 	/* Load the HS firmware that will load the LS firmwares */
-	ret = acr_v1_prepare_hs_blob(acr, "acr/ucode_load", &acr->load_blob,
+	ret = acr_v1_prepare_hs_blob(acr, sb, "acr/ucode_load", &acr->load_blob,
 				     &acr->load_bl_desc, true);
 	if (ret)
 		return ret;
 
 	/* If the ACR region is dynamically programmed, we need an unload FW */
 	if (sb->wpr_size == 0) {
-		ret = acr_v1_prepare_hs_blob(acr, "acr/ucode_unload",
+		ret = acr_v1_prepare_hs_blob(acr, sb, "acr/ucode_unload",
 					     &acr->unload_blob,
 					     &acr->unload_bl_desc, false);
 		if (ret)
@@ -1084,29 +1152,6 @@ acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
 	memcpy(ret, desc, sizeof(*desc));
 }
 
-static void
-acr_v1_fixup_hs_desc(struct nvkm_acr_v1 *acr,
-			    struct hsflcn_acr_desc *desc)
-{
-	struct nvkm_gpuobj *ls_blob = acr->ls_blob;
-
-	desc->ucode_blob_base = acr->ls_blob->addr;
-	desc->ucode_blob_size = acr->ls_blob->size;
-
-	desc->wpr_offset = 0;
-
-	/*
-	 * WPR region information for the HS binary to set up, if WPR is not
-	 * fixed
-	 */
-	desc->wpr_region_id = 1;
-	desc->regions.no_regions = 1;
-	desc->regions.region_props[0].region_id = 1;
-	desc->regions.region_props[0].start_addr = ls_blob->addr >> 8;
-	desc->regions.region_props[0].end_addr =
-		(ls_blob->addr + ls_blob->size) >> 8;
-}
-
 /*
  * acr_v1_reset() - execute secure boot from the prepared state
  *
@@ -1218,7 +1263,6 @@ static const struct nvkm_acr_v1_func
 gm200_acr_v1_func = {
 	.bl_desc_size = sizeof(struct acr_v1_bl_desc),
 	.generate_bl_desc = acr_v1_generate_bl_desc,
-	.fixup_hs_desc = acr_v1_fixup_hs_desc,
 };
 
 static const struct nvkm_acr_func
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
index de66da0cd3a6..ac1273ce92f4 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
@@ -67,49 +67,6 @@ struct acr_v1_bl_desc {
 	u32 data_size;
 };
 
-/**
- * struct hsflcn_acr_desc - data section of the HS firmware
- *
- * This header is to be copied at the beginning of DMEM by the HS bootloader.
- *
- * @signature:		signature of ACR ucode
- * @wpr_region_id:	region ID holding the WPR header and its details
- * @wpr_offset:		offset from the WPR region holding the wpr header
- * @regions:		region descriptors
- * @nonwpr_ucode_blob_size:	size of LS blob
- * @nonwpr_ucode_blob_start:	FB location of LS blob is
- */
-struct hsflcn_acr_desc {
-	union {
-		u8 reserved_dmem[0x200];
-		u32 signatures[4];
-	} ucode_reserved_space;
-	u32 wpr_region_id;
-	u32 wpr_offset;
-	u32 mmu_mem_range;
-#define FLCN_ACR_MAX_REGIONS 2
-	struct {
-		u32 no_regions;
-		struct {
-			u32 start_addr;
-			u32 end_addr;
-			u32 region_id;
-			u32 read_mask;
-			u32 write_mask;
-			u32 client_mask;
-		} region_props[FLCN_ACR_MAX_REGIONS];
-	} regions;
-	u32 ucode_blob_size;
-	u64 ucode_blob_base __aligned(8);
-	struct {
-		u32 vpr_enabled;
-		u32 vpr_start;
-		u32 vpr_end;
-		u32 hdcp_policies;
-	} vpr_desc;
-};
-
-struct nvkm_acr_v1;
 
 /**
  * struct nvkm_acr_v1_func - manages nuances between ACR v1 instances
@@ -117,12 +74,10 @@ struct nvkm_acr_v1;
  * @bl_desc_size: size of the bootloader descriptor
  * @generate_bl_desc: function called on a block of bl_desc_size to generate the
  *		   proper bootloader descriptor
- * @fixup_hs_desc: function called to fixup the HS descriptor
  */
 struct nvkm_acr_v1_func {
 	u32 bl_desc_size;
 	void (*generate_bl_desc)(const struct acr_v1_bl_desc *, void *);
-	void (*fixup_hs_desc)(struct nvkm_acr_v1 *, struct hsflcn_acr_desc *);
 };
 
 /**
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
index 4cfc175accdd..fcf644b9656c 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
@@ -73,21 +73,10 @@ gm20b_acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
 	gdesc->data_size = desc->data_size;
 }
 
-static void
-gm20b_secboot_fixup_hs_desc(struct nvkm_acr_v1 *acr,
-			    struct hsflcn_acr_desc *desc)
-{
-	desc->ucode_blob_base = acr->ls_blob->addr;
-	desc->ucode_blob_size = acr->ls_blob->size;
-
-	desc->wpr_offset = 0;
-}
-
 static const struct nvkm_acr_v1_func
 gm20b_acr_v1_func = {
 	.bl_desc_size = sizeof(struct acr_v1_gm20b_bl_desc),
 	.generate_bl_desc = gm20b_acr_v1_generate_bl_desc,
-	.fixup_hs_desc = gm20b_secboot_fixup_hs_desc,
 };
 
 static const struct nvkm_acr_func
-- 
2.10.0

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[PATCH 7/8] secboot: add low-secure firmware hooks

[Alexandre Courbot]

Secure firmwares provided by NVIDIA will follow the same overall
principle, but may slightly differ in format, or not use the same
bootloader descriptor even on the same chip. In order to handle
this as gracefully as possible, turn the LS firmware functions into
hooks that can be overloaded as needed.

The current hooks cover the external firmware loading as well as the
bootloader descriptor generation.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/nvkm/subdev/secboot/acr_v1.c       | 243 ++++---------------------
 drm/nouveau/nvkm/subdev/secboot/acr_v1.h       | 210 +++++++++++++++++++++
 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c |  31 +++-
 3 files changed, 279 insertions(+), 205 deletions(-)

diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
index db0fb3338398..68bb3113fd23 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
@@ -70,175 +70,6 @@ struct fw_bl_desc {
 };
 
 
-/*
- *
- * LS blob structures
- *
- */
-
-/**
- * struct lsf_ucode_desc - LS falcon signatures
- * @prd_keys:		signature to use when the GPU is in production mode
- * @dgb_keys:		signature to use when the GPU is in debug mode
- * @b_prd_present:	whether the production key is present
- * @b_dgb_present:	whether the debug key is present
- * @falcon_id:		ID of the falcon the ucode applies to
- *
- * Directly loaded from a signature file.
- */
-struct lsf_ucode_desc {
-	u8  prd_keys[2][16];
-	u8  dbg_keys[2][16];
-	u32 b_prd_present;
-	u32 b_dbg_present;
-	u32 falcon_id;
-};
-
-/**
- * struct lsf_lsb_header - LS firmware header
- * @signature:		signature to verify the firmware against
- * @ucode_off:		offset of the ucode blob in the WPR region. The ucode
- *                      blob contains the bootloader, code and data of the
- *                      LS falcon
- * @ucode_size:		size of the ucode blob, including bootloader
- * @data_size:		size of the ucode blob data
- * @bl_code_size:	size of the bootloader code
- * @bl_imem_off:	offset in imem of the bootloader
- * @bl_data_off:	offset of the bootloader data in WPR region
- * @bl_data_size:	size of the bootloader data
- * @app_code_off:	offset of the app code relative to ucode_off
- * @app_code_size:	size of the app code
- * @app_data_off:	offset of the app data relative to ucode_off
- * @app_data_size:	size of the app data
- * @flags:		flags for the secure bootloader
- *
- * This structure is written into the WPR region for each managed falcon. Each
- * instance is referenced by the lsb_offset member of the corresponding
- * lsf_wpr_header.
- */
-struct lsf_lsb_header {
-	struct lsf_ucode_desc signature;
-	u32 ucode_off;
-	u32 ucode_size;
-	u32 data_size;
-	u32 bl_code_size;
-	u32 bl_imem_off;
-	u32 bl_data_off;
-	u32 bl_data_size;
-	u32 app_code_off;
-	u32 app_code_size;
-	u32 app_data_off;
-	u32 app_data_size;
-	u32 flags;
-#define LSF_FLAG_LOAD_CODE_AT_0		1
-#define LSF_FLAG_DMACTL_REQ_CTX		4
-#define LSF_FLAG_FORCE_PRIV_LOAD	8
-};
-
-/**
- * struct lsf_wpr_header - LS blob WPR Header
- * @falcon_id:		LS falcon ID
- * @lsb_offset:		offset of the lsb_lsf_header in the WPR region
- * @bootstrap_owner:	secure falcon reponsible for bootstrapping the LS falcon
- * @lazy_bootstrap:	skip bootstrapping by ACR
- * @status:		bootstrapping status
- *
- * An array of these is written at the beginning of the WPR region, one for
- * each managed falcon. The array is terminated by an instance which falcon_id
- * is LSF_FALCON_ID_INVALID.
- */
-struct lsf_wpr_header {
-	u32  falcon_id;
-	u32  lsb_offset;
-	u32  bootstrap_owner;
-	u32  lazy_bootstrap;
-	u32  status;
-#define LSF_IMAGE_STATUS_NONE				0
-#define LSF_IMAGE_STATUS_COPY				1
-#define LSF_IMAGE_STATUS_VALIDATION_CODE_FAILED		2
-#define LSF_IMAGE_STATUS_VALIDATION_DATA_FAILED		3
-#define LSF_IMAGE_STATUS_VALIDATION_DONE		4
-#define LSF_IMAGE_STATUS_VALIDATION_SKIPPED		5
-#define LSF_IMAGE_STATUS_BOOTSTRAP_READY		6
-};
-
-
-/**
- * struct ls_ucode_img_desc - descriptor of firmware image
- * @descriptor_size:		size of this descriptor
- * @image_size:			size of the whole image
- * @bootloader_start_offset:	start offset of the bootloader in ucode image
- * @bootloader_size:		size of the bootloader
- * @bootloader_imem_offset:	start off set of the bootloader in IMEM
- * @bootloader_entry_point:	entry point of the bootloader in IMEM
- * @app_start_offset:		start offset of the LS firmware
- * @app_size:			size of the LS firmware's code and data
- * @app_imem_offset:		offset of the app in IMEM
- * @app_imem_entry:		entry point of the app in IMEM
- * @app_dmem_offset:		offset of the data in DMEM
- * @app_resident_code_offset:	offset of app code from app_start_offset
- * @app_resident_code_size:	size of the code
- * @app_resident_data_offset:	offset of data from app_start_offset
- * @app_resident_data_size:	size of data
- *
- * A firmware image contains the code, data, and bootloader of a given LS
- * falcon in a single blob. This structure describes where everything is.
- *
- * This can be generated from a (bootloader, code, data) set if they have
- * been loaded separately, or come directly from a file.
- */
-struct ls_ucode_img_desc {
-	u32 descriptor_size;
-	u32 image_size;
-	u32 tools_version;
-	u32 app_version;
-	char date[64];
-	u32 bootloader_start_offset;
-	u32 bootloader_size;
-	u32 bootloader_imem_offset;
-	u32 bootloader_entry_point;
-	u32 app_start_offset;
-	u32 app_size;
-	u32 app_imem_offset;
-	u32 app_imem_entry;
-	u32 app_dmem_offset;
-	u32 app_resident_code_offset;
-	u32 app_resident_code_size;
-	u32 app_resident_data_offset;
-	u32 app_resident_data_size;
-	u32 nb_overlays;
-	struct {u32 start; u32 size; } load_ovl[64];
-	u32 compressed;
-};
-
-/**
- * struct ls_ucode_img - temporary storage for loaded LS firmwares
- * @node:		to link within lsf_ucode_mgr
- * @falcon_id:		ID of the falcon this LS firmware is for
- * @ucode_desc:		loaded or generated map of ucode_data
- * @ucode_header:	header of the firmware
- * @ucode_data:		firmware payload (code and data)
- * @ucode_size:		size in bytes of data in ucode_data
- * @wpr_header:		WPR header to be written to the LS blob
- * @lsb_header:		LSB header to be written to the LS blob
- *
- * Preparing the WPR LS blob requires information about all the LS firmwares
- * (size, etc) to be known. This structure contains all the data of one LS
- * firmware.
- */
-struct ls_ucode_img {
-	struct list_head node;
-	enum nvkm_falconidx falcon_id;
-
-	struct ls_ucode_img_desc ucode_desc;
-	u32 *ucode_header;
-	u8 *ucode_data;
-	u32 ucode_size;
-
-	struct lsf_wpr_header wpr_header;
-	struct lsf_lsb_header lsb_header;
-};
-
 /**
  * struct ls_ucode_mgr - manager for all LS falcon firmwares
  * @count:	number of managed LS falcons
@@ -340,12 +171,6 @@ struct hsflcn_acr_desc {
 	} vpr_desc;
 };
 
-
-static inline u64 flcn64_to_u64(const struct flcn_u64 f)
-{
-	return ((u64)f.hi) << 32 | f.lo;
-}
-
 /**
  * Convenience function to duplicate a firmware file in memory and check that
  * it has the required minimum size.
@@ -507,16 +332,14 @@ error:
 
 typedef int (*lsf_load_func)(const struct nvkm_subdev *, struct ls_ucode_img *);
 
-static int
-ls_ucode_img_load_fecs(const struct nvkm_subdev *subdev,
-		       struct ls_ucode_img *img)
+int
+acr_v1_ls_load_fecs(const struct nvkm_subdev *subdev, struct ls_ucode_img *img)
 {
 	return ls_ucode_img_load_generic(subdev, img, "fecs", NVKM_FALCON_FECS);
 }
 
-static int
-ls_ucode_img_load_gpccs(const struct nvkm_subdev *subdev,
-			struct ls_ucode_img *img)
+int
+acr_v1_ls_load_gpccs(const struct nvkm_subdev *subdev, struct ls_ucode_img *img)
 {
 	return ls_ucode_img_load_generic(subdev, img, "gpccs",
 					 NVKM_FALCON_GPCCS);
@@ -544,14 +367,8 @@ ls_ucode_img_load(const struct nvkm_subdev *subdev, lsf_load_func load_func)
 	return img;
 }
 
-static const lsf_load_func lsf_load_funcs[] = {
-	[NVKM_FALCON_END] = NULL, /* reserve enough space */
-	[NVKM_FALCON_FECS] = ls_ucode_img_load_fecs,
-	[NVKM_FALCON_GPCCS] = ls_ucode_img_load_gpccs,
-};
-
 /**
- * ls_ucode_img_populate_bl_desc() - populate a DMEM BL descriptor for LS image
+ * acr_v1_ls_generic_bl_desc() - populate a generic BL descriptor for LS image
  * @img:	ucode image to generate against
  * @desc:	descriptor to populate
  * @sb:		secure boot state to use for base addresses
@@ -561,10 +378,11 @@ static const lsf_load_func lsf_load_funcs[] = {
  *
  */
 static void
-ls_ucode_img_populate_bl_desc(struct ls_ucode_img *img, u64 wpr_addr,
-			      struct acr_v1_bl_desc *desc)
+acr_v1_ls_generic_bl_desc(const struct ls_ucode_img *img, u64 wpr_addr,
+			  void *_desc)
 {
-	struct ls_ucode_img_desc *pdesc = &img->ucode_desc;
+	struct acr_v1_bl_desc *desc = _desc;
+	const struct ls_ucode_img_desc *pdesc = &img->ucode_desc;
 	u64 addr_base;
 
 	addr_base = wpr_addr + img->lsb_header.ucode_off +
@@ -573,14 +391,14 @@ ls_ucode_img_populate_bl_desc(struct ls_ucode_img *img, u64 wpr_addr,
 	memset(desc, 0, sizeof(*desc));
 	desc->ctx_dma = FALCON_DMAIDX_UCODE;
 	desc->code_dma_base.lo = lower_32_bits(
-		(addr_base + pdesc->app_resident_code_offset));
+				 (addr_base + pdesc->app_resident_code_offset));
 	desc->code_dma_base.hi = upper_32_bits(
-		(addr_base + pdesc->app_resident_code_offset));
+				 (addr_base + pdesc->app_resident_code_offset));
 	desc->non_sec_code_size = pdesc->app_resident_code_size;
 	desc->data_dma_base.lo = lower_32_bits(
-		(addr_base + pdesc->app_resident_data_offset));
+				 (addr_base + pdesc->app_resident_data_offset));
 	desc->data_dma_base.hi = upper_32_bits(
-		(addr_base + pdesc->app_resident_data_offset));
+				 (addr_base + pdesc->app_resident_data_offset));
 	desc->data_size = pdesc->app_resident_data_size;
 	desc->code_entry_point = pdesc->app_imem_entry;
 }
@@ -609,6 +427,8 @@ ls_ucode_img_fill_headers(struct nvkm_acr_v1 *acr, struct ls_ucode_img *img,
 	struct lsf_wpr_header *whdr = &img->wpr_header;
 	struct lsf_lsb_header *lhdr = &img->lsb_header;
 	struct ls_ucode_img_desc *desc = &img->ucode_desc;
+	const struct nvkm_acr_v1_ls_single_func *func =
+						(*acr->ls_func)[img->falcon_id];
 
 	if (img->ucode_header) {
 		nvkm_fatal(acr->base.subdev,
@@ -669,9 +489,8 @@ ls_ucode_img_fill_headers(struct nvkm_acr_v1 *acr, struct ls_ucode_img *img,
 	if (img->falcon_id == NVKM_FALCON_GPCCS)
 		lhdr->flags |= LSF_FLAG_FORCE_PRIV_LOAD;
 
-	/* Align (size bloat) and save off BL descriptor size */
-	lhdr->bl_data_size = ALIGN(sizeof(struct acr_v1_bl_desc),
-				   LSF_BL_DATA_SIZE_ALIGN);
+	/* Align and save off BL descriptor size */
+	lhdr->bl_data_size = ALIGN(func->bl_desc_size, LSF_BL_DATA_SIZE_ALIGN);
 	/*
 	 * Align, save off, and include the additional BL data
 	 */
@@ -757,14 +576,14 @@ ls_ucode_mgr_write_wpr(struct nvkm_acr_v1 *acr, struct ls_ucode_mgr *mgr,
 
 		/* Generate and write BL descriptor */
 		if (!img->ucode_header) {
-			u8 desc[acr->func->bl_desc_size];
-			struct acr_v1_bl_desc gdesc;
+			const struct nvkm_acr_v1_ls_single_func *ls_func =
+				(*acr->ls_func)[img->falcon_id];
+			u8 gdesc[ls_func->bl_desc_size];
 
-			ls_ucode_img_populate_bl_desc(img, wpr_addr, &gdesc);
-			acr->func->generate_bl_desc(&gdesc, &desc);
+			ls_func->generate_bl_desc(img, wpr_addr, &gdesc);
 			nvkm_gpuobj_memcpy_to(wpr_blob,
 					      img->lsb_header.bl_data_off,
-					      &desc, acr->func->bl_desc_size);
+					      &gdesc, ls_func->bl_desc_size);
 		}
 
 		/* Copy ucode */
@@ -809,7 +628,8 @@ acr_v1_prepare_ls_blob(struct nvkm_acr_v1 *acr, u64 wpr_addr, u32 wpr_size)
 	for_each_set_bit(falcon_id, &managed_falcons, NVKM_FALCON_END) {
 		struct ls_ucode_img *img;
 
-		img = ls_ucode_img_load(subdev, lsf_load_funcs[falcon_id]);
+		img = ls_ucode_img_load(subdev,
+					(*acr->ls_func)[falcon_id]->load);
 		if (IS_ERR(img)) {
 			ret = PTR_ERR(img);
 			goto cleanup;
@@ -1265,6 +1085,20 @@ gm200_acr_v1_func = {
 	.generate_bl_desc = acr_v1_generate_bl_desc,
 };
 
+static const nvkm_acr_v1_ls_func
+acr_v1_ls_func = {
+	[NVKM_FALCON_FECS] = &(struct nvkm_acr_v1_ls_single_func) {
+		.load = acr_v1_ls_load_fecs,
+		.generate_bl_desc = acr_v1_ls_generic_bl_desc,
+		.bl_desc_size = sizeof(struct acr_v1_bl_desc),
+	},
+	[NVKM_FALCON_GPCCS] = &(struct nvkm_acr_v1_ls_single_func) {
+		.load = acr_v1_ls_load_gpccs,
+		.generate_bl_desc = acr_v1_ls_generic_bl_desc,
+		.bl_desc_size = sizeof(struct acr_v1_bl_desc),
+	},
+};
+
 static const struct nvkm_acr_func
 acr_v1_func = {
 	.managed_falcons = BIT(NVKM_FALCON_FECS) |
@@ -1288,6 +1122,7 @@ nvkm_acr_v1_new(void)
 
 	acr->base.func = &acr_v1_func;
 	acr->func = &gm200_acr_v1_func;
+	acr->ls_func = &acr_v1_ls_func;
 
 	return &acr->base;
 }
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
index ac1273ce92f4..a3111c1ed9fb 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
@@ -25,11 +25,29 @@
 
 #include "acr.h"
 
+/**
+ * struct flcn_u64 - u64 ordered to be read by a falcon.
+ */
 struct flcn_u64 {
 	u32 lo;
 	u32 hi;
 };
 
+static inline u64 flcn64_to_u64(const struct flcn_u64 f)
+{
+	return ((u64)f.hi) << 32 | f.lo;
+}
+
+static inline struct flcn_u64 u64_to_flcn64(const u64 u)
+{
+	struct flcn_u64 ret = {
+		.hi = upper_32_bits(u),
+		.lo = lower_32_bits(u),
+	};
+
+	return ret;
+}
+
 /**
  * struct acr_v1_bl_desc - DMEM bootloader descriptor
  * @signature:		16B signature for secure code. 0s if no secure code
@@ -67,6 +85,174 @@ struct acr_v1_bl_desc {
 	u32 data_size;
 };
 
+/*
+ *
+ * LS blob structures
+ *
+ */
+
+/**
+ * struct lsf_ucode_desc - LS falcon signatures
+ * @prd_keys:		signature to use when the GPU is in production mode
+ * @dgb_keys:		signature to use when the GPU is in debug mode
+ * @b_prd_present:	whether the production key is present
+ * @b_dgb_present:	whether the debug key is present
+ * @falcon_id:		ID of the falcon the ucode applies to
+ *
+ * Directly loaded from a signature file.
+ */
+struct lsf_ucode_desc {
+	u8  prd_keys[2][16];
+	u8  dbg_keys[2][16];
+	u32 b_prd_present;
+	u32 b_dbg_present;
+	u32 falcon_id;
+};
+
+/**
+ * struct lsf_lsb_header - LS firmware header
+ * @signature:		signature to verify the firmware against
+ * @ucode_off:		offset of the ucode blob in the WPR region. The ucode
+ *                      blob contains the bootloader, code and data of the
+ *                      LS falcon
+ * @ucode_size:		size of the ucode blob, including bootloader
+ * @data_size:		size of the ucode blob data
+ * @bl_code_size:	size of the bootloader code
+ * @bl_imem_off:	offset in imem of the bootloader
+ * @bl_data_off:	offset of the bootloader data in WPR region
+ * @bl_data_size:	size of the bootloader data
+ * @app_code_off:	offset of the app code relative to ucode_off
+ * @app_code_size:	size of the app code
+ * @app_data_off:	offset of the app data relative to ucode_off
+ * @app_data_size:	size of the app data
+ * @flags:		flags for the secure bootloader
+ *
+ * This structure is written into the WPR region for each managed falcon. Each
+ * instance is referenced by the lsb_offset member of the corresponding
+ * lsf_wpr_header.
+ */
+struct lsf_lsb_header {
+	struct lsf_ucode_desc signature;
+	u32 ucode_off;
+	u32 ucode_size;
+	u32 data_size;
+	u32 bl_code_size;
+	u32 bl_imem_off;
+	u32 bl_data_off;
+	u32 bl_data_size;
+	u32 app_code_off;
+	u32 app_code_size;
+	u32 app_data_off;
+	u32 app_data_size;
+	u32 flags;
+#define LSF_FLAG_LOAD_CODE_AT_0		1
+#define LSF_FLAG_DMACTL_REQ_CTX		4
+#define LSF_FLAG_FORCE_PRIV_LOAD	8
+};
+
+/**
+ * struct lsf_wpr_header - LS blob WPR Header
+ * @falcon_id:		LS falcon ID
+ * @lsb_offset:		offset of the lsb_lsf_header in the WPR region
+ * @bootstrap_owner:	secure falcon reponsible for bootstrapping the LS falcon
+ * @lazy_bootstrap:	skip bootstrapping by ACR
+ * @status:		bootstrapping status
+ *
+ * An array of these is written at the beginning of the WPR region, one for
+ * each managed falcon. The array is terminated by an instance which falcon_id
+ * is LSF_FALCON_ID_INVALID.
+ */
+struct lsf_wpr_header {
+	u32  falcon_id;
+	u32  lsb_offset;
+	u32  bootstrap_owner;
+	u32  lazy_bootstrap;
+	u32  status;
+#define LSF_IMAGE_STATUS_NONE				0
+#define LSF_IMAGE_STATUS_COPY				1
+#define LSF_IMAGE_STATUS_VALIDATION_CODE_FAILED		2
+#define LSF_IMAGE_STATUS_VALIDATION_DATA_FAILED		3
+#define LSF_IMAGE_STATUS_VALIDATION_DONE		4
+#define LSF_IMAGE_STATUS_VALIDATION_SKIPPED		5
+#define LSF_IMAGE_STATUS_BOOTSTRAP_READY		6
+};
+
+
+/**
+ * struct ls_ucode_img_desc - descriptor of firmware image
+ * @descriptor_size:		size of this descriptor
+ * @image_size:			size of the whole image
+ * @bootloader_start_offset:	start offset of the bootloader in ucode image
+ * @bootloader_size:		size of the bootloader
+ * @bootloader_imem_offset:	start off set of the bootloader in IMEM
+ * @bootloader_entry_point:	entry point of the bootloader in IMEM
+ * @app_start_offset:		start offset of the LS firmware
+ * @app_size:			size of the LS firmware's code and data
+ * @app_imem_offset:		offset of the app in IMEM
+ * @app_imem_entry:		entry point of the app in IMEM
+ * @app_dmem_offset:		offset of the data in DMEM
+ * @app_resident_code_offset:	offset of app code from app_start_offset
+ * @app_resident_code_size:	size of the code
+ * @app_resident_data_offset:	offset of data from app_start_offset
+ * @app_resident_data_size:	size of data
+ *
+ * A firmware image contains the code, data, and bootloader of a given LS
+ * falcon in a single blob. This structure describes where everything is.
+ *
+ * This can be generated from a (bootloader, code, data) set if they have
+ * been loaded separately, or come directly from a file.
+ */
+struct ls_ucode_img_desc {
+	u32 descriptor_size;
+	u32 image_size;
+	u32 tools_version;
+	u32 app_version;
+	char date[64];
+	u32 bootloader_start_offset;
+	u32 bootloader_size;
+	u32 bootloader_imem_offset;
+	u32 bootloader_entry_point;
+	u32 app_start_offset;
+	u32 app_size;
+	u32 app_imem_offset;
+	u32 app_imem_entry;
+	u32 app_dmem_offset;
+	u32 app_resident_code_offset;
+	u32 app_resident_code_size;
+	u32 app_resident_data_offset;
+	u32 app_resident_data_size;
+	u32 nb_overlays;
+	struct {u32 start; u32 size; } load_ovl[64];
+	u32 compressed;
+};
+
+/**
+ * struct ls_ucode_img - temporary storage for loaded LS firmwares
+ * @node:		to link within lsf_ucode_mgr
+ * @falcon_id:		ID of the falcon this LS firmware is for
+ * @ucode_desc:		loaded or generated map of ucode_data
+ * @ucode_header:	header of the firmware
+ * @ucode_data:		firmware payload (code and data)
+ * @ucode_size:		size in bytes of data in ucode_data
+ * @wpr_header:		WPR header to be written to the LS blob
+ * @lsb_header:		LSB header to be written to the LS blob
+ *
+ * Preparing the WPR LS blob requires information about all the LS firmwares
+ * (size, etc) to be known. This structure contains all the data of one LS
+ * firmware.
+ */
+struct ls_ucode_img {
+	struct list_head node;
+	enum nvkm_falconidx falcon_id;
+
+	struct ls_ucode_img_desc ucode_desc;
+	u32 *ucode_header;
+	u8 *ucode_data;
+	u32 ucode_size;
+
+	struct lsf_wpr_header wpr_header;
+	struct lsf_lsb_header lsb_header;
+};
 
 /**
  * struct nvkm_acr_v1_func - manages nuances between ACR v1 instances
@@ -81,6 +267,29 @@ struct nvkm_acr_v1_func {
 };
 
 /**
+ * struct nvkm_acr_v1_ls_single_func - manages a single LS firmware
+ *
+ * @load:	load the external firmware into a ls_ucode_img
+ * @generate_bl_desc: function called on a block of bl_desc_size to generate the
+ *		   proper bootloader descriptor for this LS firmware
+ * @bl_desc_size: size of the bootloader descriptor
+ */
+struct nvkm_acr_v1_ls_single_func {
+	int (*load)(const struct nvkm_subdev *, struct ls_ucode_img *);
+	void (*generate_bl_desc)(const struct ls_ucode_img *, u64, void *);
+	u32 bl_desc_size;
+};
+
+/**
+ * typedef nvkm_acr_v1_ls_func - manages all the LS firmwares for this ACR
+ */
+typedef const struct nvkm_acr_v1_ls_single_func *
+nvkm_acr_v1_ls_func[NVKM_FALCON_END];
+
+int acr_v1_ls_load_fecs(const struct nvkm_subdev *, struct ls_ucode_img *);
+int acr_v1_ls_load_gpccs(const struct nvkm_subdev *, struct ls_ucode_img *);
+
+/**
  * struct nvkm_acr_v1 - version 1 of the ACR
  *
  * ACR v1 performs a very basic form of secure boot. It is only capable of
@@ -95,6 +304,7 @@ struct nvkm_acr_v1_func {
 struct nvkm_acr_v1 {
 	struct nvkm_acr base;
 	const struct nvkm_acr_v1_func *func;
+	const nvkm_acr_v1_ls_func *ls_func;
 
 	/*
 	 * HS FW - lock WPR region (dGPU only) and load LS FWs
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
index fcf644b9656c..1062d4f6a1ff 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
@@ -26,7 +26,7 @@
 
 /*
  * The BL header format used by GM20B's firmware is slightly different
- * from the one of GM200. Fix the differences here.
+ * from the one of GM200. Handle the differences here.
  */
 struct acr_v1_gm20b_bl_desc {
 	u32 reserved[4];
@@ -73,6 +73,25 @@ gm20b_acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
 	gdesc->data_size = desc->data_size;
 }
 
+static void
+acr_v1_gm20b_ls_generic_bl_desc(const struct ls_ucode_img *img, u64 wpr_addr,
+				void *_desc)
+{
+	struct acr_v1_gm20b_bl_desc *desc = _desc;
+	const struct ls_ucode_img_desc *pdesc = &img->ucode_desc;
+	u64 base;
+
+	base = wpr_addr + img->lsb_header.ucode_off + pdesc->app_start_offset;
+
+	memset(desc, 0, sizeof(*desc));
+	desc->ctx_dma = FALCON_DMAIDX_UCODE;
+	desc->code_dma_base = (base + pdesc->app_resident_code_offset) >> 8;
+	desc->non_sec_code_size = pdesc->app_resident_code_size;
+	desc->data_dma_base = (base + pdesc->app_resident_data_offset) >> 8;
+	desc->data_size = pdesc->app_resident_data_size;
+	desc->code_entry_point = pdesc->app_imem_entry;
+}
+
 static const struct nvkm_acr_v1_func
 gm20b_acr_v1_func = {
 	.bl_desc_size = sizeof(struct acr_v1_gm20b_bl_desc),
@@ -90,6 +109,15 @@ gm20b_acr_func = {
 	.start = acr_v1_start,
 };
 
+static const nvkm_acr_v1_ls_func
+gm20b_acr_v1_ls_func = {
+	[NVKM_FALCON_FECS] = &(struct nvkm_acr_v1_ls_single_func) {
+		.load = acr_v1_ls_load_fecs,
+		.generate_bl_desc = acr_v1_gm20b_ls_generic_bl_desc,
+		.bl_desc_size = sizeof(struct acr_v1_gm20b_bl_desc),
+	},
+};
+
 struct nvkm_acr *
 nvkm_acr_v1_gm20b_new(void)
 {
@@ -101,6 +129,7 @@ nvkm_acr_v1_gm20b_new(void)
 
 	acr->base.func = &gm20b_acr_func;
 	acr->func = &gm20b_acr_v1_func;
+	acr->ls_func = &gm20b_acr_v1_ls_func;
 
 	return &acr->base;
 }
-- 
2.10.0

_______________________________________________
Nouveau mailing list
Nouveau@lists.freedesktop.org
https://lists.freedesktop.org/mailman/listinfo/nouveau

[PATCH 8/8] secboot: generate HS BL descriptor in hook

[Alexandre Courbot]

Use the HS hook to completely generate the HS BL descriptor, similarly
to what is done in the LS hook, instead of (arbitrarily) using the the
acr_v1 format as an intermediate.

This allows us to make the bootloader descriptor structures private to
each implementation, resulting in a cleaner an more consistent design.

Signed-off-by: Alexandre Courbot <acourbot@nvidia.com>
---
 drm/nouveau/nvkm/subdev/secboot/acr_v1.c       | 145 +++++++++++++------------
 drm/nouveau/nvkm/subdev/secboot/acr_v1.h       | 142 ++++++++++++------------
 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c |  57 ++++------
 3 files changed, 165 insertions(+), 179 deletions(-)

diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
index 68bb3113fd23..486327e5441a 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.c
@@ -82,6 +82,42 @@ struct ls_ucode_mgr {
 	struct list_head img_list;
 };
 
+/**
+ * struct acr_v1_bl_desc - DMEM bootloader descriptor
+ * @signature:		16B signature for secure code. 0s if no secure code
+ * @ctx_dma:		DMA context to be used by BL while loading code/data
+ * @code_dma_base:	256B-aligned Physical FB Address where code is located
+ *			(falcon's $xcbase register)
+ * @non_sec_code_off:	offset from code_dma_base where the non-secure code is
+ *                      located. The offset must be multiple of 256 to help perf
+ * @non_sec_code_size:	the size of the nonSecure code part.
+ * @sec_code_off:	offset from code_dma_base where the secure code is
+ *                      located. The offset must be multiple of 256 to help perf
+ * @sec_code_size:	offset from code_dma_base where the secure code is
+ *                      located. The offset must be multiple of 256 to help perf
+ * @code_entry_point:	code entry point which will be invoked by BL after
+ *                      code is loaded.
+ * @data_dma_base:	256B aligned Physical FB Address where data is located.
+ *			(falcon's $xdbase register)
+ * @data_size:		size of data block. Should be multiple of 256B
+ *
+ * Structure used by the bootloader to load the rest of the code. This has
+ * to be filled by host and copied into DMEM at offset provided in the
+ * hsflcn_bl_desc.bl_desc_dmem_load_off.
+ */
+struct acr_v1_bl_desc {
+	u32 reserved[4];
+	u32 signature[4];
+	u32 ctx_dma;
+	struct flcn_u64 code_dma_base;
+	u32 non_sec_code_off;
+	u32 non_sec_code_size;
+	u32 sec_code_off;
+	u32 sec_code_size;
+	u32 code_entry_point;
+	struct flcn_u64 data_dma_base;
+	u32 data_size;
+};
 
 /*
  *
@@ -115,21 +151,6 @@ struct hsf_fw_header {
 };
 
 /**
- * struct hsf_load_header - HS firmware load header
- */
-struct hsf_load_header {
-	u32 non_sec_code_off;
-	u32 non_sec_code_size;
-	u32 data_dma_base;
-	u32 data_size;
-	u32 num_apps;
-	struct {
-		u32 sec_code_off;
-		u32 sec_code_size;
-	} app[0];
-};
-
-/**
  * struct hsflcn_acr_desc - data section of the HS firmware
  *
  * This header is to be copied at the beginning of DMEM by the HS bootloader.
@@ -714,32 +735,21 @@ acr_v1_hsf_patch_signature(struct nvkm_acr_v1 *acr, void *acr_image)
  * acr_v1_populate_hsf_bl_desc() - populate BL descriptor for HS image
  */
 static void
-acr_v1_populate_hsf_bl_desc(void *acr_image, struct acr_v1_bl_desc *bl_desc)
+acr_v1_generate_hsf_bl_desc(const struct hsf_load_header *hdr, void *_bl_desc,
+			    u64 offset)
 {
-	struct fw_bin_header *hsbin_hdr = acr_image;
-	struct hsf_fw_header *fw_hdr = acr_image + hsbin_hdr->header_offset;
-	struct hsf_load_header *load_hdr = acr_image + fw_hdr->hdr_offset;
+	struct acr_v1_bl_desc *bl_desc = _bl_desc;
 
-	/*
-	 * Descriptor for the bootloader that will load the ACR image into
-	 * IMEM/DMEM memory.
-	 */
-	fw_hdr = acr_image + hsbin_hdr->header_offset;
-	load_hdr = acr_image + fw_hdr->hdr_offset;
 	memset(bl_desc, 0, sizeof(*bl_desc));
 	bl_desc->ctx_dma = FALCON_DMAIDX_VIRT;
-	bl_desc->non_sec_code_off = load_hdr->non_sec_code_off;
-	bl_desc->non_sec_code_size = load_hdr->non_sec_code_size;
-	bl_desc->sec_code_off = load_hdr->app[0].sec_code_off;
-	bl_desc->sec_code_size = load_hdr->app[0].sec_code_size;
+	bl_desc->non_sec_code_off = hdr->non_sec_code_off;
+	bl_desc->non_sec_code_size = hdr->non_sec_code_size;
+	bl_desc->sec_code_off = hdr->app[0].sec_code_off;
+	bl_desc->sec_code_size = hdr->app[0].sec_code_size;
 	bl_desc->code_entry_point = 0;
-	/*
-	 * We need to set code_dma_base to the virtual address of the acr_blob,
-	 * and add this address to data_dma_base before writing it into DMEM
-	 */
-	bl_desc->code_dma_base.lo = 0;
-	bl_desc->data_dma_base.lo = load_hdr->data_dma_base;
-	bl_desc->data_size = load_hdr->data_size;
+	bl_desc->code_dma_base = u64_to_flcn64(offset);
+	bl_desc->data_dma_base = u64_to_flcn64(offset + hdr->data_dma_base);
+	bl_desc->data_size = hdr->data_size;
 }
 
 static void
@@ -779,38 +789,44 @@ acr_v1_fixup_hs_desc(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb,
 static int
 acr_v1_prepare_hs_blob(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb,
 		       const char *fw, struct nvkm_gpuobj **blob,
-		       struct acr_v1_bl_desc *bl_desc, bool patch)
+		       struct hsf_load_header *load_header, bool patch)
 {
 	const struct nvkm_subdev *subdev = acr->base.subdev;
 	void *acr_image;
 	struct fw_bin_header *hsbin_hdr;
+	struct hsf_fw_header *fw_hdr;
+	struct hsf_load_header *load_hdr;
 	void *acr_data;
 	int ret;
 
 	acr_image = acr_v1_load_firmware(subdev, fw, 0);
 	if (IS_ERR(acr_image))
 		return PTR_ERR(acr_image);
+
 	hsbin_hdr = acr_image;
+	fw_hdr = acr_image + hsbin_hdr->header_offset;
+	load_hdr = acr_image + fw_hdr->hdr_offset;
+	acr_data = acr_image + hsbin_hdr->data_offset;
 
 	/* Patch signature */
 	acr_v1_hsf_patch_signature(acr, acr_image);
 
-	acr_data = acr_image + hsbin_hdr->data_offset;
-
 	/* Patch descriptor with WPR information? */
 	if (patch) {
-		struct hsf_fw_header *fw_hdr;
-		struct hsf_load_header *load_hdr;
 		struct hsflcn_acr_desc *desc;
 
-		fw_hdr = acr_image + hsbin_hdr->header_offset;
-		load_hdr = acr_image + fw_hdr->hdr_offset;
 		desc = acr_data + load_hdr->data_dma_base;
 		acr_v1_fixup_hs_desc(acr, sb, desc);
 	}
 
-	/* Generate HS BL descriptor */
-	acr_v1_populate_hsf_bl_desc(acr_image, bl_desc);
+	if (load_hdr->num_apps > ACR_V1_MAX_APPS) {
+		nvkm_error(subdev, "more apps (%d) than supported (%d)!",
+			   load_hdr->num_apps, ACR_V1_MAX_APPS);
+		ret = -EINVAL;
+		goto cleanup;
+	}
+	memcpy(load_header, load_hdr, sizeof(*load_header) +
+			       (sizeof(load_hdr->app[0]) * load_hdr->num_apps));
 
 	/* Create ACR blob and copy HS data to it */
 	ret = nvkm_gpuobj_new(subdev->device, ALIGN(hsbin_hdr->data_size, 256),
@@ -879,7 +895,7 @@ acr_v1_load_blobs(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb)
 
 	/* Load the HS firmware that will load the LS firmwares */
 	ret = acr_v1_prepare_hs_blob(acr, sb, "acr/ucode_load", &acr->load_blob,
-				     &acr->load_bl_desc, true);
+				     &acr->load_bl_header, true);
 	if (ret)
 		return ret;
 
@@ -887,7 +903,7 @@ acr_v1_load_blobs(struct nvkm_acr_v1 *acr, struct nvkm_secboot *sb)
 	if (sb->wpr_size == 0) {
 		ret = acr_v1_prepare_hs_blob(acr, sb, "acr/ucode_unload",
 					     &acr->unload_blob,
-					     &acr->unload_bl_desc, false);
+					     &acr->unload_bl_header, false);
 		if (ret)
 			return ret;
 	}
@@ -918,30 +934,21 @@ acr_v1_load(struct nvkm_acr *_acr, struct nvkm_secboot *sb,
 	void *hsbl_data = blob_data + hsbl_desc->data_off;
 	u32 code_size = ALIGN(hsbl_desc->code_size, 256);
 	const u32 base = sb->base;
-	const u32 bl_desc_size = acr->func->bl_desc_size;
-	struct acr_v1_bl_desc desc;
+	const u32 bl_desc_size = acr->hs_func->bl_desc_size;
+	const struct hsf_load_header *load_hdr;
 	u8 bl_desc[bl_desc_size];
-	u64 vma_addr;
 	u32 code_start;
 
 	/* Find the bootloader descriptor for our blob and copy it */
 	if (blob == acr->load_blob) {
-		desc = acr->load_bl_desc;
+		load_hdr = &acr->load_bl_header;
 	} else if (blob == acr->unload_blob) {
-		desc = acr->unload_bl_desc;
+		load_hdr = &acr->unload_bl_header;
 	} else {
 		nvkm_error(_acr->subdev, "invalid secure boot blob!\n");
 		return -EINVAL;
 	}
 
-	/* Patch the descriptor's load addresses */
-	vma_addr = flcn64_to_u64(desc.code_dma_base) + offset;
-	desc.code_dma_base.lo = lower_32_bits(vma_addr);
-	desc.code_dma_base.hi = upper_32_bits(vma_addr);
-	vma_addr = flcn64_to_u64(desc.data_dma_base) + offset;
-	desc.data_dma_base.lo = lower_32_bits(vma_addr);
-	desc.data_dma_base.hi = upper_32_bits(vma_addr);
-
 	/*
 	 * Copy HS bootloader data
 	 */
@@ -954,8 +961,8 @@ acr_v1_load(struct nvkm_acr *_acr, struct nvkm_secboot *sb,
 	nvkm_falcon_load_imem(device, sb->base, hsbl_code, code_start,
 			      code_size, hsbl_desc->start_tag);
 
-	/* Fixup the BL header */
-	acr->func->generate_bl_desc(&desc, &bl_desc);
+	/* Generate the BL header */
+	acr->hs_func->generate_bl_desc(load_hdr, bl_desc, offset);
 
 	/*
 	 * Copy HS BL header where the HS descriptor expects it to be
@@ -966,12 +973,6 @@ acr_v1_load(struct nvkm_acr *_acr, struct nvkm_secboot *sb,
 	return 0;
 }
 
-static void
-acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
-{
-	memcpy(ret, desc, sizeof(*desc));
-}
-
 /*
  * acr_v1_reset() - execute secure boot from the prepared state
  *
@@ -1079,10 +1080,10 @@ acr_v1_dtor(struct nvkm_acr *_acr)
 	kfree(acr);
 }
 
-static const struct nvkm_acr_v1_func
-gm200_acr_v1_func = {
+static const struct nvkm_acr_v1_hs_func
+gm200_acr_v1_hs_func = {
+	.generate_bl_desc = acr_v1_generate_hsf_bl_desc,
 	.bl_desc_size = sizeof(struct acr_v1_bl_desc),
-	.generate_bl_desc = acr_v1_generate_bl_desc,
 };
 
 static const nvkm_acr_v1_ls_func
@@ -1121,7 +1122,7 @@ nvkm_acr_v1_new(void)
 		return ERR_PTR(-ENOMEM);
 
 	acr->base.func = &acr_v1_func;
-	acr->func = &gm200_acr_v1_func;
+	acr->hs_func = &gm200_acr_v1_hs_func;
 	acr->ls_func = &acr_v1_ls_func;
 
 	return &acr->base;
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
index a3111c1ed9fb..a84867413df8 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1.h
@@ -48,43 +48,6 @@ static inline struct flcn_u64 u64_to_flcn64(const u64 u)
 	return ret;
 }
 
-/**
- * struct acr_v1_bl_desc - DMEM bootloader descriptor
- * @signature:		16B signature for secure code. 0s if no secure code
- * @ctx_dma:		DMA context to be used by BL while loading code/data
- * @code_dma_base:	256B-aligned Physical FB Address where code is located
- *			(falcon's $xcbase register)
- * @non_sec_code_off:	offset from code_dma_base where the non-secure code is
- *                      located. The offset must be multiple of 256 to help perf
- * @non_sec_code_size:	the size of the nonSecure code part.
- * @sec_code_off:	offset from code_dma_base where the secure code is
- *                      located. The offset must be multiple of 256 to help perf
- * @sec_code_size:	offset from code_dma_base where the secure code is
- *                      located. The offset must be multiple of 256 to help perf
- * @code_entry_point:	code entry point which will be invoked by BL after
- *                      code is loaded.
- * @data_dma_base:	256B aligned Physical FB Address where data is located.
- *			(falcon's $xdbase register)
- * @data_size:		size of data block. Should be multiple of 256B
- *
- * Structure used by the bootloader to load the rest of the code. This has
- * to be filled by host and copied into DMEM at offset provided in the
- * hsflcn_bl_desc.bl_desc_dmem_load_off.
- */
-struct acr_v1_bl_desc {
-	u32 reserved[4];
-	u32 signature[4];
-	u32 ctx_dma;
-	struct flcn_u64 code_dma_base;
-	u32 non_sec_code_off;
-	u32 non_sec_code_size;
-	u32 sec_code_off;
-	u32 sec_code_size;
-	u32 code_entry_point;
-	struct flcn_u64 data_dma_base;
-	u32 data_size;
-};
-
 /*
  *
  * LS blob structures
@@ -110,6 +73,33 @@ struct lsf_ucode_desc {
 };
 
 /**
+ * struct lsf_wpr_header - LS blob WPR Header
+ * @falcon_id:		LS falcon ID
+ * @lsb_offset:		offset of the lsb_lsf_header in the WPR region
+ * @bootstrap_owner:	secure falcon reponsible for bootstrapping the LS falcon
+ * @lazy_bootstrap:	skip bootstrapping by ACR
+ * @status:		bootstrapping status
+ *
+ * An array of these is written at the beginning of the WPR region, one for
+ * each managed falcon. The array is terminated by an instance which falcon_id
+ * is LSF_FALCON_ID_INVALID.
+ */
+struct lsf_wpr_header {
+	u32  falcon_id;
+	u32  lsb_offset;
+	u32  bootstrap_owner;
+	u32  lazy_bootstrap;
+	u32  status;
+#define LSF_IMAGE_STATUS_NONE				0
+#define LSF_IMAGE_STATUS_COPY				1
+#define LSF_IMAGE_STATUS_VALIDATION_CODE_FAILED		2
+#define LSF_IMAGE_STATUS_VALIDATION_DATA_FAILED		3
+#define LSF_IMAGE_STATUS_VALIDATION_DONE		4
+#define LSF_IMAGE_STATUS_VALIDATION_SKIPPED		5
+#define LSF_IMAGE_STATUS_BOOTSTRAP_READY		6
+};
+
+/**
  * struct lsf_lsb_header - LS firmware header
  * @signature:		signature to verify the firmware against
  * @ucode_off:		offset of the ucode blob in the WPR region. The ucode
@@ -151,34 +141,6 @@ struct lsf_lsb_header {
 };
 
 /**
- * struct lsf_wpr_header - LS blob WPR Header
- * @falcon_id:		LS falcon ID
- * @lsb_offset:		offset of the lsb_lsf_header in the WPR region
- * @bootstrap_owner:	secure falcon reponsible for bootstrapping the LS falcon
- * @lazy_bootstrap:	skip bootstrapping by ACR
- * @status:		bootstrapping status
- *
- * An array of these is written at the beginning of the WPR region, one for
- * each managed falcon. The array is terminated by an instance which falcon_id
- * is LSF_FALCON_ID_INVALID.
- */
-struct lsf_wpr_header {
-	u32  falcon_id;
-	u32  lsb_offset;
-	u32  bootstrap_owner;
-	u32  lazy_bootstrap;
-	u32  status;
-#define LSF_IMAGE_STATUS_NONE				0
-#define LSF_IMAGE_STATUS_COPY				1
-#define LSF_IMAGE_STATUS_VALIDATION_CODE_FAILED		2
-#define LSF_IMAGE_STATUS_VALIDATION_DATA_FAILED		3
-#define LSF_IMAGE_STATUS_VALIDATION_DONE		4
-#define LSF_IMAGE_STATUS_VALIDATION_SKIPPED		5
-#define LSF_IMAGE_STATUS_BOOTSTRAP_READY		6
-};
-
-
-/**
  * struct ls_ucode_img_desc - descriptor of firmware image
  * @descriptor_size:		size of this descriptor
  * @image_size:			size of the whole image
@@ -254,16 +216,43 @@ struct ls_ucode_img {
 	struct lsf_lsb_header lsb_header;
 };
 
+
+
+/*
+ *
+ * HS blob structures
+ *
+ */
+
+
+struct hsf_load_header_app {
+	u32 sec_code_off;
+	u32 sec_code_size;
+};
+
+/**
+ * struct hsf_load_header - HS firmware load header
+ */
+struct hsf_load_header {
+	u32 non_sec_code_off;
+	u32 non_sec_code_size;
+	u32 data_dma_base;
+	u32 data_size;
+	u32 num_apps;
+	struct hsf_load_header_app app[0];
+};
+
+
 /**
- * struct nvkm_acr_v1_func - manages nuances between ACR v1 instances
+ * struct nvkm_acr_v1_hs_func - manages nuances between ACR v1 HS instances
  *
- * @bl_desc_size: size of the bootloader descriptor
  * @generate_bl_desc: function called on a block of bl_desc_size to generate the
  *		   proper bootloader descriptor
+ * @bl_desc_size: size of the ootloader descriptor
  */
-struct nvkm_acr_v1_func {
+struct nvkm_acr_v1_hs_func {
+	void (*generate_bl_desc)(const struct hsf_load_header *, void *, u64);
 	u32 bl_desc_size;
-	void (*generate_bl_desc)(const struct acr_v1_bl_desc *, void *);
 };
 
 /**
@@ -289,6 +278,9 @@ nvkm_acr_v1_ls_func[NVKM_FALCON_END];
 int acr_v1_ls_load_fecs(const struct nvkm_subdev *, struct ls_ucode_img *);
 int acr_v1_ls_load_gpccs(const struct nvkm_subdev *, struct ls_ucode_img *);
 
+
+#define ACR_V1_MAX_APPS 8
+
 /**
  * struct nvkm_acr_v1 - version 1 of the ACR
  *
@@ -303,7 +295,7 @@ int acr_v1_ls_load_gpccs(const struct nvkm_subdev *, struct ls_ucode_img *);
  */
 struct nvkm_acr_v1 {
 	struct nvkm_acr base;
-	const struct nvkm_acr_v1_func *func;
+	const struct nvkm_acr_v1_hs_func *hs_func;
 	const nvkm_acr_v1_ls_func *ls_func;
 
 	/*
@@ -311,11 +303,17 @@ struct nvkm_acr_v1 {
 	 * on Tegra the HS FW copies the LS blob into the fixed WPR instead
 	 */
 	struct nvkm_gpuobj *load_blob;
-	struct acr_v1_bl_desc load_bl_desc;
+	struct {
+		struct hsf_load_header load_bl_header;
+		struct hsf_load_header_app __load_apps[ACR_V1_MAX_APPS];
+	};
 
 	/* HS FW - unlock WPR region (dGPU only) */
 	struct nvkm_gpuobj *unload_blob;
-	struct acr_v1_bl_desc unload_bl_desc;
+	struct {
+		struct hsf_load_header unload_bl_header;
+		struct hsf_load_header_app __unload_apps[ACR_V1_MAX_APPS];
+	};
 
 	/* HS bootloader */
 	void *hsbl_blob;
diff --git a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
index 1062d4f6a1ff..e59dc8e5437b 100644
--- a/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
+++ b/drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
@@ -42,37 +42,6 @@ struct acr_v1_gm20b_bl_desc {
 	u32 data_size;
 };
 
-/**
- * gm20b_acr_v1_generate_bl_desc - write BL descriptor in format used by GM20B
- *
- * There is only a slight format difference (DMA addresses being 32-bits and
- * 256B-aligned) to address.
- */
-static void
-gm20b_acr_v1_generate_bl_desc(const struct acr_v1_bl_desc *desc, void *ret)
-{
-	struct acr_v1_gm20b_bl_desc *gdesc = ret;
-	u64 addr;
-
-	memcpy(gdesc->reserved, desc->reserved, sizeof(gdesc->reserved));
-	memcpy(gdesc->signature, desc->signature, sizeof(gdesc->signature));
-	gdesc->ctx_dma = desc->ctx_dma;
-	addr = desc->code_dma_base.hi;
-	addr <<= 32;
-	addr |= desc->code_dma_base.lo;
-	gdesc->code_dma_base = lower_32_bits(addr >> 8);
-	gdesc->non_sec_code_off = desc->non_sec_code_off;
-	gdesc->non_sec_code_size = desc->non_sec_code_size;
-	gdesc->sec_code_off = desc->sec_code_off;
-	gdesc->sec_code_size = desc->sec_code_size;
-	gdesc->code_entry_point = desc->code_entry_point;
-	addr = desc->data_dma_base.hi;
-	addr <<= 32;
-	addr |= desc->data_dma_base.lo;
-	gdesc->data_dma_base = lower_32_bits(addr >> 8);
-	gdesc->data_size = desc->data_size;
-}
-
 static void
 acr_v1_gm20b_ls_generic_bl_desc(const struct ls_ucode_img *img, u64 wpr_addr,
 				void *_desc)
@@ -92,10 +61,28 @@ acr_v1_gm20b_ls_generic_bl_desc(const struct ls_ucode_img *img, u64 wpr_addr,
 	desc->code_entry_point = pdesc->app_imem_entry;
 }
 
-static const struct nvkm_acr_v1_func
-gm20b_acr_v1_func = {
+static void
+gm20b_acr_v1_generate_hsf_bl_desc(const struct hsf_load_header *load_hdr,
+				  void *_bl_desc, u64 offset)
+{
+	struct acr_v1_gm20b_bl_desc *bl_desc = _bl_desc;
+
+	memset(bl_desc, 0, sizeof(*bl_desc));
+	bl_desc->ctx_dma = FALCON_DMAIDX_VIRT;
+	bl_desc->non_sec_code_off = load_hdr->non_sec_code_off;
+	bl_desc->non_sec_code_size = load_hdr->non_sec_code_size;
+	bl_desc->sec_code_off = load_hdr->app[0].sec_code_off;
+	bl_desc->sec_code_size = load_hdr->app[0].sec_code_size;
+	bl_desc->code_entry_point = 0;
+	bl_desc->code_dma_base = offset >> 8;
+	bl_desc->data_dma_base = (offset + load_hdr->data_dma_base) >> 8;
+	bl_desc->data_size = load_hdr->data_size;
+}
+
+static const struct nvkm_acr_v1_hs_func
+gm20b_acr_v1_hs_func = {
+	.generate_bl_desc = gm20b_acr_v1_generate_hsf_bl_desc,
 	.bl_desc_size = sizeof(struct acr_v1_gm20b_bl_desc),
-	.generate_bl_desc = gm20b_acr_v1_generate_bl_desc,
 };
 
 static const struct nvkm_acr_func
@@ -128,7 +115,7 @@ nvkm_acr_v1_gm20b_new(void)
 		return ERR_PTR(-ENOMEM);
 
 	acr->base.func = &gm20b_acr_func;
-	acr->func = &gm20b_acr_v1_func;
+	acr->hs_func = &gm20b_acr_v1_hs_func;
 	acr->ls_func = &gm20b_acr_v1_ls_func;
 
 	return &acr->base;
-- 
2.10.0

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Re: [PATCH 0/8] Secure Boot refactoring

[Karol Herbst]

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Is it just me or is the 5th patch lost?

Am Dienstag, 11. Oktober 2016 schrieb Alexandre Courbot :

> Hi everyone,
>
> Apologies for the big patchset. This is a rework of the secure boot code
> that
> moves the building of the blob into its own set of source files (and own
> hooks),
> making the code more flexible and (hopefully) easier to understand as well.
>
> This rework is needed to support more signed firmware for existing and new
> chips. Since the firmwares in question are not available yet I cannot send
> the
> code for them yet, but hopefully the gain in clarity will be enough to
> merge
> this series ahead of the rest.
>
> Patch 1 is just to make nv*_printk() more tolerent of my use of const
> pointers.
> Patch 2 lays the foundation of a small common falcon library that could
> avoid
> duplicated code in various parts of the driver. Right now only secure boot
> makes
> use of it (patch 3), but there are many potential users (GR, PMU, etc). I
> will
> test users and send further patches making use of it.
>
> Patch 4 renames a hook to something better describing its actual use.
>
> Patch 5 is where the big refactoring occurs. It looks scary, but is really
> just
> moving code (and introducing the nvkm_acr structures).
>
> Patch 6, 7 and 8 remove a few HS hooks that turn out to be unneeded, and
> add
> support for LS hooks.
>
> The end result can be observed by looking at acr_v1_gm20b.c: all the
> specifics
> of GM20B's firmware are handled in a single file, with no data structures
> shared
> with acr_v1.c. The gm20b_acr_v1_ls_func variable also describes clearly
> what
> LS firmwares are to be loaded and how.
>
> Alexandre Courbot (8):
>   core: constify nv*_printk macros
>   core: add falcon library
>   secboot: use falcon library's IMEM/DMEM loading functions
>   secboot: rename init() hook to oneinit()
>   secboot: move ACR building logic into own source files
>   secboot: remove fixup_hs_desc hook
>   secboot: add low-secure firmware hooks
>   secboot: generate HS BL descriptor in hook
>
>  drm/nouveau/include/nvkm/core/client.h         |    4 +-
>  drm/nouveau/include/nvkm/core/device.h         |    2 +-
>  drm/nouveau/include/nvkm/core/falcon.h         |   50 +
>  drm/nouveau/include/nvkm/core/subdev.h         |    2 +-
>  drm/nouveau/include/nvkm/subdev/secboot.h      |   33 +-
>  drm/nouveau/nvkm/core/Kbuild                   |    1 +
>  drm/nouveau/nvkm/core/falcon.c                 |   62 ++
>  drm/nouveau/nvkm/engine/gr/gf100.c             |   16 +-
>  drm/nouveau/nvkm/engine/gr/gm200.c             |    6 +-
>  drm/nouveau/nvkm/subdev/secboot/Kbuild         |    2 +
>  drm/nouveau/nvkm/subdev/secboot/acr.h          |   67 ++
>  drm/nouveau/nvkm/subdev/secboot/acr_v1.c       | 1193
> ++++++++++++++++++++
>  drm/nouveau/nvkm/subdev/secboot/acr_v1.h       |  346 ++++++
>  drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c |  135 +++
>  drm/nouveau/nvkm/subdev/secboot/base.c         |  113 +-
>  drm/nouveau/nvkm/subdev/secboot/gm200.c        | 1386
> +-----------------------
>  drm/nouveau/nvkm/subdev/secboot/gm200.h        |   43 +
>  drm/nouveau/nvkm/subdev/secboot/gm20b.c        |  141 +--
>  drm/nouveau/nvkm/subdev/secboot/priv.h         |  208 +---
>  19 files changed, 2072 insertions(+), 1738 deletions(-)
>  create mode 100644 drm/nouveau/include/nvkm/core/falcon.h
>  create mode 100644 drm/nouveau/nvkm/core/falcon.c
>  create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr.h
>  create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1.c
>  create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1.h
>  create mode 100644 drm/nouveau/nvkm/subdev/secboot/acr_v1_gm20b.c
>  create mode 100644 drm/nouveau/nvkm/subdev/secboot/gm200.h
>
> --
> 2.10.0
>
> _______________________________________________
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> https://lists.freedesktop.org/mailman/listinfo/nouveau
>

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Re: [PATCH 0/8] Secure Boot refactoring

[Alexandre Courbot]

On 10/11/2016 03:57 PM, Karol Herbst wrote:
> Is it just me or is the 5th patch lost?

Moderated. It was a little too big for the list. Hopefully it will
follow soon.

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Re: [PATCH 0/8] Secure Boot refactoring

[Karol Herbst]

yeah, it is already there, thanks

2016-10-11 9:12 GMT+02:00 Alexandre Courbot <acourbot@nvidia.com>:
> On 10/11/2016 03:57 PM, Karol Herbst wrote:
>> Is it just me or is the 5th patch lost?
>
> Moderated. It was a little too big for the list. Hopefully it will
> follow soon.
>
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