Merge tag 'staging-4.12-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/gregkh/staging

Pull staging/IIO updates from Greg KH:
 "Here is the big staging tree update for 4.12-rc1.

  It's a big one, adding about 350k new lines of crap^Wcode, mostly all
  in a big dump of media drivers from Intel. But there's other new
  drivers in here as well, yet-another-wifi driver, new IIO drivers, and
  a new crypto accelerator.

  We also deleted a bunch of stuff, mostly in patch cleanups, but also
  the Android ION code has shrunk a lot, and the Android low memory
  killer driver was finally deleted, much to the celebration of the -mm
  developers.

  All of these have been in linux-next with a few build issues that will
  show up when you merge to your tree"

Merge conflicts in the new rtl8723bs driver (due to the wifi changes
this merge window) handled as per linux-next, courtesy of Stephen
Rothwell.

* tag 'staging-4.12-rc1' of git://git.kernel.org/pub/scm/linux/kernel/git/gregkh/staging: (1182 commits)
  staging: fsl-mc/dpio: add cpu <--> LE conversion for dpaa2_fd
  staging: ks7010: remove line continuations in quoted strings
  staging: vt6656: use tabs instead of spaces
  staging: android: ion: Fix unnecessary initialization of static variable
  staging: media: atomisp: fix range checking on clk_num
  staging: media: atomisp: fix misspelled word in comment
  staging: media: atomisp: kmap() can't fail
  staging: atomisp: remove #ifdef for runtime PM functions
  staging: atomisp: satm include directory is gone
  atomisp: remove some more unused files
  atomisp: remove hmm_load/store/clear indirections
  atomisp: kill off mmgr_free
  atomisp: clean up the hmm init/cleanup indirections
  atomisp: handle allocation calls before init in the hmm layer
  staging: fsl-dpaa2/eth: Add maintainer for Ethernet driver
  staging: fsl-dpaa2/eth: Add TODO file
  staging: fsl-dpaa2/eth: Add trace points
  staging: fsl-dpaa2/eth: Add driver specific stats
  staging: fsl-dpaa2/eth: Add ethtool support
  staging: fsl-dpaa2/eth: Add Freescale DPAA2 Ethernet driver
  ...

1 files changed, 1873 insertions, 0 deletions

diff --git a/drivers/staging/media/atomisp/pci/atomisp2/css2400/runtime/binary/src/binary.c b/drivers/staging/media/atomisp/pci/atomisp2/css2400/runtime/binary/src/binary.c
new file mode 100644
index 0000000..a8b93a7
--- /dev/null
+++ b/drivers/staging/media/atomisp/pci/atomisp2/css2400/runtime/binary/src/binary.c
@@ -0,0 +1,1873 @@
+/*
+ * Support for Intel Camera Imaging ISP subsystem.
+ * Copyright (c) 2015, Intel Corporation.
+ *
+ * This program is free software; you can redistribute it and/or modify it
+ * under the terms and conditions of the GNU General Public License,
+ * version 2, as published by the Free Software Foundation.
+ *
+ * This program is distributed in the hope it will be useful, but WITHOUT
+ * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
+ * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License for
+ * more details.
+ */
+
+#include <math_support.h>
+#include <gdc_device.h>	/* HR_GDC_N */
+#include "isp.h"	/* ISP_VEC_NELEMS */
+
+#include "ia_css_binary.h"
+#include "ia_css_debug.h"
+#include "ia_css_util.h"
+#include "ia_css_isp_param.h"
+#include "sh_css_internal.h"
+#include "sh_css_sp.h"
+#include "sh_css_firmware.h"
+#include "sh_css_defs.h"
+#include "sh_css_legacy.h"
+
+#include "vf/vf_1.0/ia_css_vf.host.h"
+#ifdef ISP2401
+#include "sc/sc_1.0/ia_css_sc.host.h"
+#endif
+#include "sdis/sdis_1.0/ia_css_sdis.host.h"
+#ifdef ISP2401
+#include "fixedbds/fixedbds_1.0/ia_css_fixedbds_param.h"	/* FRAC_ACC */
+#endif
+
+#include "camera/pipe/interface/ia_css_pipe_binarydesc.h"
+#if defined(HAS_RES_MGR)
+#include <components/resolutions_mgr/src/host/resolutions_mgr.host.h>
+#include <components/acc_cluster/acc_dvs_stat/host/dvs_stat.host.h>
+#endif
+
+#include "memory_access.h"
+
+#include "assert_support.h"
+
+#define IMPLIES(a, b)           (!(a) || (b))   /* A => B */
+
+static struct ia_css_binary_xinfo *all_binaries; /* ISP binaries only (no SP) */
+static struct ia_css_binary_xinfo
+	*binary_infos[IA_CSS_BINARY_NUM_MODES] = { NULL, };
+
+static void
+ia_css_binary_dvs_env(const struct ia_css_binary_info *info,
+		      const struct ia_css_resolution *dvs_env,
+		      struct ia_css_resolution *binary_dvs_env)
+{
+	if (info->enable.dvs_envelope) {
+		assert(dvs_env != NULL);
+		binary_dvs_env->width  = max(dvs_env->width, SH_CSS_MIN_DVS_ENVELOPE);
+		binary_dvs_env->height = max(dvs_env->height, SH_CSS_MIN_DVS_ENVELOPE);
+	}
+}
+
+static void
+ia_css_binary_internal_res(const struct ia_css_frame_info *in_info,
+			   const struct ia_css_frame_info *bds_out_info,
+			   const struct ia_css_frame_info *out_info,
+			   const struct ia_css_resolution *dvs_env,
+			   const struct ia_css_binary_info *info,
+			   struct ia_css_resolution *internal_res)
+{
+	unsigned int isp_tmp_internal_width = 0,
+		     isp_tmp_internal_height = 0;
+	bool binary_supports_yuv_ds = info->enable.ds & 2;
+	struct ia_css_resolution binary_dvs_env;
+
+	binary_dvs_env.width = 0;
+	binary_dvs_env.height = 0;
+	ia_css_binary_dvs_env(info, dvs_env, &binary_dvs_env);
+
+	if (binary_supports_yuv_ds) {
+		if (in_info != NULL) {
+			isp_tmp_internal_width = in_info->res.width
+				+ info->pipeline.left_cropping + binary_dvs_env.width;
+			isp_tmp_internal_height = in_info->res.height
+				+ info->pipeline.top_cropping + binary_dvs_env.height;
+		}
+	} else if ((bds_out_info != NULL) && (out_info != NULL) &&
+				/* TODO: hack to make video_us case work. this should be reverted after
+				a nice solution in ISP */
+				(bds_out_info->res.width >= out_info->res.width)) {
+			isp_tmp_internal_width = bds_out_info->padded_width;
+			isp_tmp_internal_height = bds_out_info->res.height;
+	} else {
+		if (out_info != NULL) {
+			isp_tmp_internal_width = out_info->padded_width;
+			isp_tmp_internal_height = out_info->res.height;
+		}
+	}
+
+	/* We first calculate the resolutions used by the ISP. After that,
+	 * we use those resolutions to compute sizes for tables etc. */
+	internal_res->width = __ISP_INTERNAL_WIDTH(isp_tmp_internal_width,
+		(int)binary_dvs_env.width,
+		info->pipeline.left_cropping, info->pipeline.mode,
+		info->pipeline.c_subsampling,
+		info->output.num_chunks, info->pipeline.pipelining);
+	internal_res->height = __ISP_INTERNAL_HEIGHT(isp_tmp_internal_height,
+		info->pipeline.top_cropping,
+		binary_dvs_env.height);
+#if defined(HAS_RES_MGR)
+	internal_res->height = (bds_out_info == NULL) ? internal_res->height : bds_out_info->res.height;
+	internal_res->width = (bds_out_info == NULL) ? internal_res->width: bds_out_info->res.width;
+#endif
+}
+
+#ifndef ISP2401
+/* Computation results of the origin coordinate of bayer on the shading table. */
+struct sh_css_shading_table_bayer_origin_compute_results {
+	uint32_t bayer_scale_hor_ratio_in;	/* Horizontal ratio (in) of bayer scaling. */
+	uint32_t bayer_scale_hor_ratio_out;	/* Horizontal ratio (out) of bayer scaling. */
+	uint32_t bayer_scale_ver_ratio_in;	/* Vertical ratio (in) of bayer scaling. */
+	uint32_t bayer_scale_ver_ratio_out;	/* Vertical ratio (out) of bayer scaling. */
+	uint32_t sc_bayer_origin_x_bqs_on_shading_table; /* X coordinate (in bqs) of bayer origin on shading table. */
+	uint32_t sc_bayer_origin_y_bqs_on_shading_table; /* Y coordinate (in bqs) of bayer origin on shading table. */
+#else
+/* Requirements for the shading correction. */
+struct sh_css_binary_sc_requirements {
+	/* Bayer scaling factor, for the scaling which is applied before shading correction. */
+	uint32_t bayer_scale_hor_ratio_in;  /* Horizontal ratio (in) of scaling applied BEFORE shading correction. */
+	uint32_t bayer_scale_hor_ratio_out; /* Horizontal ratio (out) of scaling applied BEFORE shading correction. */
+	uint32_t bayer_scale_ver_ratio_in;  /* Vertical ratio (in) of scaling applied BEFORE shading correction. */
+	uint32_t bayer_scale_ver_ratio_out; /* Vertical ratio (out) of scaling applied BEFORE shading correction. */
+
+	/* ISP internal frame is composed of the real sensor data and the padding data. */
+	uint32_t sensor_data_origin_x_bqs_on_internal; /* X origin (in bqs) of sensor data on internal frame
+								at shading correction. */
+	uint32_t sensor_data_origin_y_bqs_on_internal; /* Y origin (in bqs) of sensor data on internal frame
+								at shading correction. */
+#endif
+};
+
+/* Get the requirements for the shading correction. */
+static enum ia_css_err
+#ifndef ISP2401
+ia_css_binary_compute_shading_table_bayer_origin(
+	const struct ia_css_binary *binary,				/* [in] */
+	unsigned int required_bds_factor,				/* [in] */
+	const struct ia_css_stream_config *stream_config,		/* [in] */
+	struct sh_css_shading_table_bayer_origin_compute_results *res)	/* [out] */
+#else
+sh_css_binary_get_sc_requirements(
+	const struct ia_css_binary *binary,			/* [in] */
+	unsigned int required_bds_factor,			/* [in] */
+	const struct ia_css_stream_config *stream_config,	/* [in] */
+	struct sh_css_binary_sc_requirements *scr)		/* [out] */
+#endif
+{
+	enum ia_css_err err;
+
+#ifndef ISP2401
+	/* Numerator and denominator of the fixed bayer downscaling factor.
+	(numerator >= denominator) */
+#else
+	/* Numerator and denominator of the fixed bayer downscaling factor. (numerator >= denominator) */
+#endif
+	unsigned int bds_num, bds_den;
+
+#ifndef ISP2401
+	/* Horizontal/Vertical ratio of bayer scaling
+	between input area and output area. */
+	unsigned int bs_hor_ratio_in;
+	unsigned int bs_hor_ratio_out;
+	unsigned int bs_ver_ratio_in;
+	unsigned int bs_ver_ratio_out;
+#else
+	/* Horizontal/Vertical ratio of bayer scaling between input area and output area. */
+	unsigned int bs_hor_ratio_in, bs_hor_ratio_out, bs_ver_ratio_in, bs_ver_ratio_out;
+#endif
+
+	/* Left padding set by InputFormatter. */
+#ifndef ISP2401
+	unsigned int left_padding_bqs;			/* in bqs */
+#else
+	unsigned int left_padding_bqs;
+#endif
+
+#ifndef ISP2401
+	/* Flag for the NEED_BDS_FACTOR_2_00 macro defined in isp kernels. */
+	unsigned int need_bds_factor_2_00;
+
+	/* Left padding adjusted inside the isp. */
+	unsigned int left_padding_adjusted_bqs;		/* in bqs */
+
+	/* Bad pixels caused by filters.
+	NxN-filter (before/after bayer scaling) moves the image position
+	to right/bottom directions by a few pixels.
+	It causes bad pixels at left/top sides,
+	and effective bayer size decreases. */
+	unsigned int bad_bqs_on_left_before_bs;	/* in bqs */
+	unsigned int bad_bqs_on_left_after_bs;	/* in bqs */
+	unsigned int bad_bqs_on_top_before_bs;	/* in bqs */
+	unsigned int bad_bqs_on_top_after_bs;	/* in bqs */
+
+	/* Get the numerator and denominator of bayer downscaling factor. */
+	err = sh_css_bds_factor_get_numerator_denominator
+		(required_bds_factor, &bds_num, &bds_den);
+	if (err != IA_CSS_SUCCESS)
+#else
+	/* Flags corresponding to NEED_BDS_FACTOR_2_00/NEED_BDS_FACTOR_1_50/NEED_BDS_FACTOR_1_25 macros
+	 * defined in isp kernels. */
+	unsigned int need_bds_factor_2_00, need_bds_factor_1_50, need_bds_factor_1_25;
+
+	/* Left padding adjusted inside the isp kernels. */
+	unsigned int left_padding_adjusted_bqs;
+
+	/* Top padding padded inside the isp kernel for bayer downscaling binaries. */
+	unsigned int top_padding_bqs;
+
+	/* Bayer downscaling factor 1.0 by fixed-point. */
+	int bds_frac_acc = FRAC_ACC;	/* FRAC_ACC is defined in ia_css_fixedbds_param.h. */
+
+	/* Right/Down shift amount caused by filters applied BEFORE shading corrertion. */
+	unsigned int right_shift_bqs_before_bs; /* right shift before bayer scaling */
+	unsigned int right_shift_bqs_after_bs;  /* right shift after bayer scaling */
+	unsigned int down_shift_bqs_before_bs;  /* down shift before bayer scaling */
+	unsigned int down_shift_bqs_after_bs;   /* down shift after bayer scaling */
+
+	/* Origin of the real sensor data area on the internal frame at shading correction. */
+	unsigned int sensor_data_origin_x_bqs_on_internal;
+	unsigned int sensor_data_origin_y_bqs_on_internal;
+
+	IA_CSS_ENTER_PRIVATE("binary=%p, required_bds_factor=%d, stream_config=%p",
+		binary, required_bds_factor, stream_config);
+
+	/* Get the numerator and denominator of the required bayer downscaling factor. */
+	err = sh_css_bds_factor_get_numerator_denominator(required_bds_factor, &bds_num, &bds_den);
+	if (err != IA_CSS_SUCCESS) {
+		IA_CSS_LEAVE_ERR_PRIVATE(err);
+#endif
+		return err;
+#ifdef ISP2401
+	}
+#endif
+
+#ifndef ISP2401
+	/* Set the horizontal/vertical ratio of bayer scaling
+	between input area and output area. */
+#else
+	IA_CSS_LOG("bds_num=%d, bds_den=%d", bds_num, bds_den);
+
+	/* Set the horizontal/vertical ratio of bayer scaling between input area and output area. */
+#endif
+	bs_hor_ratio_in  = bds_num;
+	bs_hor_ratio_out = bds_den;
+	bs_ver_ratio_in  = bds_num;
+	bs_ver_ratio_out = bds_den;
+
+#ifndef ISP2401
+	/* Set the left padding set by InputFormatter. (ifmtr.c) */
+#else
+	/* Set the left padding set by InputFormatter. (ia_css_ifmtr_configure() in ifmtr.c) */
+#endif
+	if (stream_config->left_padding == -1)
+		left_padding_bqs = _ISP_BQS(binary->left_padding);
+	else
+#ifndef ISP2401
+		left_padding_bqs = (unsigned int)((int)ISP_VEC_NELEMS
+			- _ISP_BQS(stream_config->left_padding));
+#else
+		left_padding_bqs = (unsigned int)((int)ISP_VEC_NELEMS - _ISP_BQS(stream_config->left_padding));
+#endif
+
+#ifndef ISP2401
+	/* Set the left padding adjusted inside the isp.
+	When bds_factor 2.00 is needed, some padding is added to left_padding
+	inside the isp, before bayer downscaling. (raw.isp.c)
+	(Hopefully, left_crop/left_padding/top_crop should be defined in css
+	appropriately, depending on bds_factor.)
+	*/
+#else
+	IA_CSS_LOG("stream.left_padding=%d, binary.left_padding=%d, left_padding_bqs=%d",
+		stream_config->left_padding, binary->left_padding, left_padding_bqs);
+
+	/* Set the left padding adjusted inside the isp kernels.
+	 * When the bds_factor isn't 1.00, the left padding size is adjusted inside the isp,
+	 * before bayer downscaling. (scaled_hor_plane_index(), raw_compute_hphase() in raw.isp.c)
+	 */
+#endif
+	need_bds_factor_2_00 = ((binary->info->sp.bds.supported_bds_factors &
+		(PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_2_00) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_2_50) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_3_00) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_4_00) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_4_50) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_5_00) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_6_00) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_8_00))) != 0);
+
+#ifndef ISP2401
+	if (need_bds_factor_2_00 && binary->info->sp.pipeline.left_cropping > 0)
+		left_padding_adjusted_bqs = left_padding_bqs + ISP_VEC_NELEMS;
+	else
+#else
+	need_bds_factor_1_50 = ((binary->info->sp.bds.supported_bds_factors &
+		(PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_1_50) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_2_25) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_3_00) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_4_50) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_6_00))) != 0);
+
+	need_bds_factor_1_25 = ((binary->info->sp.bds.supported_bds_factors &
+		(PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_1_25) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_2_50) |
+		 PACK_BDS_FACTOR(SH_CSS_BDS_FACTOR_5_00))) != 0);
+
+	if (binary->info->sp.pipeline.left_cropping > 0 &&
+	    (need_bds_factor_2_00 || need_bds_factor_1_50 || need_bds_factor_1_25)) {
+		/*
+		 * downscale 2.0  -> first_vec_adjusted_bqs = 128
+		 * downscale 1.5  -> first_vec_adjusted_bqs = 96
+		 * downscale 1.25 -> first_vec_adjusted_bqs = 80
+		 */
+		unsigned int first_vec_adjusted_bqs
+			= ISP_VEC_NELEMS * bs_hor_ratio_in / bs_hor_ratio_out;
+		left_padding_adjusted_bqs = first_vec_adjusted_bqs
+			- _ISP_BQS(binary->info->sp.pipeline.left_cropping);
+	} else
+#endif
+		left_padding_adjusted_bqs = left_padding_bqs;
+
+#ifndef ISP2401
+	/* Currently, the bad pixel caused by filters before bayer scaling
+	is NOT considered, because the bad pixel is subtle.
+	When some large filter is used in the future,
+	we need to consider the bad pixel.
+
+	Currently, when bds_factor isn't 1.00, 3x3 anti-alias filter is applied
+	to each color plane(Gr/R/B/Gb) before bayer downscaling.
+	This filter moves each color plane to right/bottom directions
+	by 1 pixel at the most, depending on downscaling factor.
+	*/
+	bad_bqs_on_left_before_bs = 0;
+	bad_bqs_on_top_before_bs = 0;
+#else
+	IA_CSS_LOG("supported_bds_factors=%d, need_bds_factor:2_00=%d, 1_50=%d, 1_25=%d",
+		binary->info->sp.bds.supported_bds_factors,
+		need_bds_factor_2_00, need_bds_factor_1_50, need_bds_factor_1_25);
+	IA_CSS_LOG("left_cropping=%d, left_padding_adjusted_bqs=%d",
+		binary->info->sp.pipeline.left_cropping, left_padding_adjusted_bqs);
+
+	/* Set the top padding padded inside the isp kernel for bayer downscaling binaries.
+	 * When the bds_factor isn't 1.00, the top padding is padded inside the isp
+	 * before bayer downscaling, because the top cropping size (input margin) is not enough.
+	 * (calculate_input_line(), raw_compute_vphase(), dma_read_raw() in raw.isp.c)
+	 * NOTE: In dma_read_raw(), the factor passed to raw_compute_vphase() is got by get_bds_factor_for_dma_read().
+	 *       This factor is BDS_FPVAL_100/BDS_FPVAL_125/BDS_FPVAL_150/BDS_FPVAL_200.
+	 */
+	top_padding_bqs = 0;
+	if (binary->info->sp.pipeline.top_cropping > 0 &&
+	    (required_bds_factor == SH_CSS_BDS_FACTOR_1_25 ||
+	     required_bds_factor == SH_CSS_BDS_FACTOR_1_50 ||
+	     required_bds_factor == SH_CSS_BDS_FACTOR_2_00)) {
+		/* Calculation from calculate_input_line() and raw_compute_vphase() in raw.isp.c. */
+		int top_cropping_bqs = _ISP_BQS(binary->info->sp.pipeline.top_cropping);
+								/* top cropping (in bqs) */
+		int factor = bds_num * bds_frac_acc / bds_den;	/* downscaling factor by fixed-point */
+		int top_padding_bqsxfrac_acc = (top_cropping_bqs * factor - top_cropping_bqs * bds_frac_acc)
+				+ (2 * bds_frac_acc - factor);	/* top padding by fixed-point (in bqs) */
+
+		top_padding_bqs = (unsigned int)((top_padding_bqsxfrac_acc + bds_frac_acc/2 - 1) / bds_frac_acc);
+	}
+
+	IA_CSS_LOG("top_cropping=%d, top_padding_bqs=%d", binary->info->sp.pipeline.top_cropping, top_padding_bqs);
+
+	/* Set the right/down shift amount caused by filters applied BEFORE bayer scaling,
+	 * which scaling is applied BEFORE shading corrertion.
+	 *
+	 * When the bds_factor isn't 1.00, 3x3 anti-alias filter is applied to each color plane(Gr/R/B/Gb)
+	 * before bayer downscaling.
+	 * This filter shifts each color plane (Gr/R/B/Gb) to right/down directions by 1 pixel.
+	 */
+	right_shift_bqs_before_bs = 0;
+	down_shift_bqs_before_bs = 0;
+#endif
+
+#ifndef ISP2401
+	/* Currently, the bad pixel caused by filters after bayer scaling
+	is NOT considered, because the bad pixel is subtle.
+	When some large filter is used in the future,
+	we need to consider the bad pixel.
+
+	Currently, when DPC&BNR is processed between bayer scaling and
+	shading correction, DPC&BNR moves each color plane to
+	right/bottom directions by 1 pixel.
+	*/
+	bad_bqs_on_left_after_bs = 0;
+	bad_bqs_on_top_after_bs = 0;
+#else
+	if (need_bds_factor_2_00 || need_bds_factor_1_50 || need_bds_factor_1_25) {
+		right_shift_bqs_before_bs = 1;
+		down_shift_bqs_before_bs = 1;
+	}
+
+	IA_CSS_LOG("right_shift_bqs_before_bs=%d, down_shift_bqs_before_bs=%d",
+		right_shift_bqs_before_bs, down_shift_bqs_before_bs);
+
+	/* Set the right/down shift amount caused by filters applied AFTER bayer scaling,
+	 * which scaling is applied BEFORE shading corrertion.
+	 *
+	 * When DPC&BNR is processed between bayer scaling and shading correction,
+	 * DPC&BNR moves each color plane (Gr/R/B/Gb) to right/down directions by 1 pixel.
+	 */
+	right_shift_bqs_after_bs = 0;
+	down_shift_bqs_after_bs = 0;
+#endif
+
+#ifndef ISP2401
+	/* Calculate the origin of bayer (real sensor data area)
+	located on the shading table during the shading correction. */
+	res->sc_bayer_origin_x_bqs_on_shading_table
+		= ((left_padding_adjusted_bqs + bad_bqs_on_left_before_bs)
+		* bs_hor_ratio_out + bs_hor_ratio_in/2) / bs_hor_ratio_in
+		+ bad_bqs_on_left_after_bs;
+			/* "+ bs_hor_ratio_in/2": rounding for division by bs_hor_ratio_in */
+	res->sc_bayer_origin_y_bqs_on_shading_table
+		= (bad_bqs_on_top_before_bs
+		* bs_ver_ratio_out + bs_ver_ratio_in/2) / bs_ver_ratio_in
+		+ bad_bqs_on_top_after_bs;
+			/* "+ bs_ver_ratio_in/2": rounding for division by bs_ver_ratio_in */
+
+	res->bayer_scale_hor_ratio_in  = (uint32_t)bs_hor_ratio_in;
+	res->bayer_scale_hor_ratio_out = (uint32_t)bs_hor_ratio_out;
+	res->bayer_scale_ver_ratio_in  = (uint32_t)bs_ver_ratio_in;
+	res->bayer_scale_ver_ratio_out = (uint32_t)bs_ver_ratio_out;
+#else
+	if (binary->info->mem_offsets.offsets.param->dmem.dp.size != 0) { /* if DPC&BNR is enabled in the binary */
+		right_shift_bqs_after_bs = 1;
+		down_shift_bqs_after_bs = 1;
+	}
+
+	IA_CSS_LOG("right_shift_bqs_after_bs=%d, down_shift_bqs_after_bs=%d",
+		right_shift_bqs_after_bs, down_shift_bqs_after_bs);
+
+	/* Set the origin of the sensor data area on the internal frame at shading correction. */
+	{
+		unsigned int bs_frac = bds_frac_acc;	/* scaling factor 1.0 in fixed point */
+		unsigned int bs_out, bs_in;		/* scaling ratio in fixed point */
+
+		bs_out = bs_hor_ratio_out * bs_frac;
+		bs_in = bs_hor_ratio_in * bs_frac;
+		sensor_data_origin_x_bqs_on_internal
+			= ((left_padding_adjusted_bqs + right_shift_bqs_before_bs) * bs_out + bs_in/2) / bs_in
+				+ right_shift_bqs_after_bs;	/* "+ bs_in/2": rounding */
+
+		bs_out = bs_ver_ratio_out * bs_frac;
+		bs_in = bs_ver_ratio_in * bs_frac;
+		sensor_data_origin_y_bqs_on_internal
+			= ((top_padding_bqs + down_shift_bqs_before_bs) * bs_out + bs_in/2) / bs_in
+				+ down_shift_bqs_after_bs;	/* "+ bs_in/2": rounding */
+	}
+
+	scr->bayer_scale_hor_ratio_in			= (uint32_t)bs_hor_ratio_in;
+	scr->bayer_scale_hor_ratio_out			= (uint32_t)bs_hor_ratio_out;
+	scr->bayer_scale_ver_ratio_in			= (uint32_t)bs_ver_ratio_in;
+	scr->bayer_scale_ver_ratio_out			= (uint32_t)bs_ver_ratio_out;
+	scr->sensor_data_origin_x_bqs_on_internal	= (uint32_t)sensor_data_origin_x_bqs_on_internal;
+	scr->sensor_data_origin_y_bqs_on_internal	= (uint32_t)sensor_data_origin_y_bqs_on_internal;
+
+	IA_CSS_LOG("sc_requirements: %d, %d, %d, %d, %d, %d",
+		scr->bayer_scale_hor_ratio_in, scr->bayer_scale_hor_ratio_out,
+		scr->bayer_scale_ver_ratio_in, scr->bayer_scale_ver_ratio_out,
+		scr->sensor_data_origin_x_bqs_on_internal, scr->sensor_data_origin_y_bqs_on_internal);
+#endif
+
+#ifdef ISP2401
+	IA_CSS_LEAVE_ERR_PRIVATE(err);
+#endif
+	return err;
+}
+
+/* Get the shading information of Shading Correction Type 1. */
+static enum ia_css_err
+ia_css_binary_get_shading_info_type_1(const struct ia_css_binary *binary,	/* [in] */
+			unsigned int required_bds_factor,			/* [in] */
+			const struct ia_css_stream_config *stream_config,	/* [in] */
+#ifndef ISP2401
+			struct ia_css_shading_info *info)			/* [out] */
+#else
+			struct ia_css_shading_info *shading_info,		/* [out] */
+			struct ia_css_pipe_config *pipe_config)			/* [out] */
+#endif
+{
+	enum ia_css_err err;
+#ifndef ISP2401
+	struct sh_css_shading_table_bayer_origin_compute_results res;
+#else
+	struct sh_css_binary_sc_requirements scr;
+	struct ia_css_shading_info default_shading_info_type_1 = DEFAULT_SHADING_INFO_TYPE_1;
+#endif
+
+#ifndef ISP2401
+	assert(binary != NULL);
+	assert(info != NULL);
+#else
+	uint32_t in_width_bqs, in_height_bqs, internal_width_bqs, internal_height_bqs;
+	uint32_t num_hor_grids, num_ver_grids, bqs_per_grid_cell, tbl_width_bqs, tbl_height_bqs;
+	uint32_t sensor_org_x_bqs_on_internal, sensor_org_y_bqs_on_internal, sensor_width_bqs, sensor_height_bqs;
+	uint32_t sensor_center_x_bqs_on_internal, sensor_center_y_bqs_on_internal;
+	uint32_t left, right, upper, lower;
+	uint32_t adjust_left, adjust_right, adjust_upper, adjust_lower, adjust_width_bqs, adjust_height_bqs;
+	uint32_t internal_org_x_bqs_on_tbl, internal_org_y_bqs_on_tbl;
+	uint32_t sensor_org_x_bqs_on_tbl, sensor_org_y_bqs_on_tbl;
+#endif
+
+#ifndef ISP2401
+	info->type = IA_CSS_SHADING_CORRECTION_TYPE_1;
+#else
+	assert(binary != NULL);
+	assert(stream_config != NULL);
+	assert(shading_info != NULL);
+	assert(pipe_config != NULL);
+#endif
+
+#ifndef ISP2401
+	info->info.type_1.enable	    = binary->info->sp.enable.sc;
+	info->info.type_1.num_hor_grids	    = binary->sctbl_width_per_color;
+	info->info.type_1.num_ver_grids	    = binary->sctbl_height;
+	info->info.type_1.bqs_per_grid_cell = (1 << binary->deci_factor_log2);
+#else
+	IA_CSS_ENTER_PRIVATE("binary=%p, required_bds_factor=%d, stream_config=%p",
+		binary, required_bds_factor, stream_config);
+#endif
+
+	/* Initialize by default values. */
+#ifndef ISP2401
+	info->info.type_1.bayer_scale_hor_ratio_in	= 1;
+	info->info.type_1.bayer_scale_hor_ratio_out	= 1;
+	info->info.type_1.bayer_scale_ver_ratio_in	= 1;
+	info->info.type_1.bayer_scale_ver_ratio_out	= 1;
+	info->info.type_1.sc_bayer_origin_x_bqs_on_shading_table = 0;
+	info->info.type_1.sc_bayer_origin_y_bqs_on_shading_table = 0;
+
+	err = ia_css_binary_compute_shading_table_bayer_origin(
+		binary,
+		required_bds_factor,
+		stream_config,
+		&res);
+	if (err != IA_CSS_SUCCESS)
+#else
+	*shading_info = default_shading_info_type_1;
+
+	err = sh_css_binary_get_sc_requirements(binary, required_bds_factor, stream_config, &scr);
+	if (err != IA_CSS_SUCCESS) {
+		IA_CSS_LEAVE_ERR_PRIVATE(err);
+#endif
+		return err;
+#ifdef ISP2401
+	}
+
+	IA_CSS_LOG("binary: id=%d, sctbl=%dx%d, deci=%d",
+		binary->info->sp.id, binary->sctbl_width_per_color, binary->sctbl_height, binary->deci_factor_log2);
+	IA_CSS_LOG("binary: in=%dx%d, in_padded_w=%d, int=%dx%d, int_padded_w=%d, out=%dx%d, out_padded_w=%d",
+		binary->in_frame_info.res.width, binary->in_frame_info.res.height, binary->in_frame_info.padded_width,
+		binary->internal_frame_info.res.width, binary->internal_frame_info.res.height,
+		binary->internal_frame_info.padded_width,
+		binary->out_frame_info[0].res.width, binary->out_frame_info[0].res.height,
+		binary->out_frame_info[0].padded_width);
+
+	/* Set the input size from sensor, which includes left/top crop size. */
+	in_width_bqs	    = _ISP_BQS(binary->in_frame_info.res.width);
+	in_height_bqs	    = _ISP_BQS(binary->in_frame_info.res.height);
+
+	/* Frame size internally used in ISP, including sensor data and padding.
+	 * This is the frame size, to which the shading correction is applied.
+	 */
+	internal_width_bqs  = _ISP_BQS(binary->internal_frame_info.res.width);
+	internal_height_bqs = _ISP_BQS(binary->internal_frame_info.res.height);
+
+	/* Shading table. */
+	num_hor_grids = binary->sctbl_width_per_color;
+	num_ver_grids = binary->sctbl_height;
+	bqs_per_grid_cell = (1 << binary->deci_factor_log2);
+	tbl_width_bqs  = (num_hor_grids - 1) * bqs_per_grid_cell;
+	tbl_height_bqs = (num_ver_grids - 1) * bqs_per_grid_cell;
+#endif
+
+#ifndef ISP2401
+	info->info.type_1.bayer_scale_hor_ratio_in	= res.bayer_scale_hor_ratio_in;
+	info->info.type_1.bayer_scale_hor_ratio_out	= res.bayer_scale_hor_ratio_out;
+	info->info.type_1.bayer_scale_ver_ratio_in	= res.bayer_scale_ver_ratio_in;
+	info->info.type_1.bayer_scale_ver_ratio_out	= res.bayer_scale_ver_ratio_out;
+	info->info.type_1.sc_bayer_origin_x_bqs_on_shading_table = res.sc_bayer_origin_x_bqs_on_shading_table;
+	info->info.type_1.sc_bayer_origin_y_bqs_on_shading_table = res.sc_bayer_origin_y_bqs_on_shading_table;
+#else
+	IA_CSS_LOG("tbl_width_bqs=%d, tbl_height_bqs=%d", tbl_width_bqs, tbl_height_bqs);
+#endif
+
+#ifdef ISP2401
+	/* Real sensor data area on the internal frame at shading correction.
+	 * Filters and scaling are applied to the internal frame before shading correction, depending on the binary.
+	 */
+	sensor_org_x_bqs_on_internal = scr.sensor_data_origin_x_bqs_on_internal;
+	sensor_org_y_bqs_on_internal = scr.sensor_data_origin_y_bqs_on_internal;
+	{
+		unsigned int bs_frac = 8;	/* scaling factor 1.0 in fixed point (8 == FRAC_ACC macro in ISP) */
+		unsigned int bs_out, bs_in;	/* scaling ratio in fixed point */
+
+		bs_out = scr.bayer_scale_hor_ratio_out * bs_frac;
+		bs_in = scr.bayer_scale_hor_ratio_in * bs_frac;
+		sensor_width_bqs  = (in_width_bqs * bs_out + bs_in/2) / bs_in; /* "+ bs_in/2": rounding */
+
+		bs_out = scr.bayer_scale_ver_ratio_out * bs_frac;
+		bs_in = scr.bayer_scale_ver_ratio_in * bs_frac;
+		sensor_height_bqs = (in_height_bqs * bs_out + bs_in/2) / bs_in; /* "+ bs_in/2": rounding */
+	}
+
+	/* Center of the sensor data on the internal frame at shading correction. */
+	sensor_center_x_bqs_on_internal = sensor_org_x_bqs_on_internal + sensor_width_bqs / 2;
+	sensor_center_y_bqs_on_internal = sensor_org_y_bqs_on_internal + sensor_height_bqs / 2;
+
+	/* Size of left/right/upper/lower sides of the sensor center on the internal frame. */
+	left  = sensor_center_x_bqs_on_internal;
+	right = internal_width_bqs - sensor_center_x_bqs_on_internal;
+	upper = sensor_center_y_bqs_on_internal;
+	lower = internal_height_bqs - sensor_center_y_bqs_on_internal;
+
+	/* Align the size of left/right/upper/lower sides to a multiple of the grid cell size. */
+	adjust_left  = CEIL_MUL(left,  bqs_per_grid_cell);
+	adjust_right = CEIL_MUL(right, bqs_per_grid_cell);
+	adjust_upper = CEIL_MUL(upper, bqs_per_grid_cell);
+	adjust_lower = CEIL_MUL(lower, bqs_per_grid_cell);
+
+	/* Shading table should cover the adjusted frame size. */
+	adjust_width_bqs  = adjust_left + adjust_right;
+	adjust_height_bqs = adjust_upper + adjust_lower;
+
+	IA_CSS_LOG("adjust_width_bqs=%d, adjust_height_bqs=%d", adjust_width_bqs, adjust_height_bqs);
+
+	if (adjust_width_bqs > tbl_width_bqs || adjust_height_bqs > tbl_height_bqs) {
+		IA_CSS_LEAVE_ERR_PRIVATE(IA_CSS_ERR_INTERNAL_ERROR);
+		return IA_CSS_ERR_INTERNAL_ERROR;
+	}
+
+	/* Origin of the internal frame on the shading table. */
+	internal_org_x_bqs_on_tbl = adjust_left - left;
+	internal_org_y_bqs_on_tbl = adjust_upper - upper;
+
+	/* Origin of the real sensor data area on the shading table. */
+	sensor_org_x_bqs_on_tbl = internal_org_x_bqs_on_tbl + sensor_org_x_bqs_on_internal;
+	sensor_org_y_bqs_on_tbl = internal_org_y_bqs_on_tbl + sensor_org_y_bqs_on_internal;
+
+	/* The shading information necessary as API is stored in the shading_info. */
+	shading_info->info.type_1.num_hor_grids	    = num_hor_grids;
+	shading_info->info.type_1.num_ver_grids	    = num_ver_grids;
+	shading_info->info.type_1.bqs_per_grid_cell = bqs_per_grid_cell;
+
+	shading_info->info.type_1.bayer_scale_hor_ratio_in  = scr.bayer_scale_hor_ratio_in;
+	shading_info->info.type_1.bayer_scale_hor_ratio_out = scr.bayer_scale_hor_ratio_out;
+	shading_info->info.type_1.bayer_scale_ver_ratio_in  = scr.bayer_scale_ver_ratio_in;
+	shading_info->info.type_1.bayer_scale_ver_ratio_out = scr.bayer_scale_ver_ratio_out;
+
+	shading_info->info.type_1.isp_input_sensor_data_res_bqs.width  = in_width_bqs;
+	shading_info->info.type_1.isp_input_sensor_data_res_bqs.height = in_height_bqs;
+
+	shading_info->info.type_1.sensor_data_res_bqs.width  = sensor_width_bqs;
+	shading_info->info.type_1.sensor_data_res_bqs.height = sensor_height_bqs;
+
+	shading_info->info.type_1.sensor_data_origin_bqs_on_sctbl.x = (int32_t)sensor_org_x_bqs_on_tbl;
+	shading_info->info.type_1.sensor_data_origin_bqs_on_sctbl.y = (int32_t)sensor_org_y_bqs_on_tbl;
+
+	/* The shading information related to ISP (but, not necessary as API) is stored in the pipe_config. */
+	pipe_config->internal_frame_origin_bqs_on_sctbl.x = (int32_t)internal_org_x_bqs_on_tbl;
+	pipe_config->internal_frame_origin_bqs_on_sctbl.y = (int32_t)internal_org_y_bqs_on_tbl;
+
+	IA_CSS_LOG("shading_info: grids=%dx%d, cell=%d, scale=%d,%d,%d,%d, input=%dx%d, data=%dx%d, origin=(%d,%d)",
+		shading_info->info.type_1.num_hor_grids,
+		shading_info->info.type_1.num_ver_grids,
+		shading_info->info.type_1.bqs_per_grid_cell,
+		shading_info->info.type_1.bayer_scale_hor_ratio_in,
+		shading_info->info.type_1.bayer_scale_hor_ratio_out,
+		shading_info->info.type_1.bayer_scale_ver_ratio_in,
+		shading_info->info.type_1.bayer_scale_ver_ratio_out,
+		shading_info->info.type_1.isp_input_sensor_data_res_bqs.width,
+		shading_info->info.type_1.isp_input_sensor_data_res_bqs.height,
+		shading_info->info.type_1.sensor_data_res_bqs.width,
+		shading_info->info.type_1.sensor_data_res_bqs.height,
+		shading_info->info.type_1.sensor_data_origin_bqs_on_sctbl.x,
+		shading_info->info.type_1.sensor_data_origin_bqs_on_sctbl.y);
+
+	IA_CSS_LOG("pipe_config: origin=(%d,%d)",
+		pipe_config->internal_frame_origin_bqs_on_sctbl.x,
+		pipe_config->internal_frame_origin_bqs_on_sctbl.y);
+
+	IA_CSS_LEAVE_ERR_PRIVATE(err);
+#endif
+	return err;
+}
+
+enum ia_css_err
+ia_css_binary_get_shading_info(const struct ia_css_binary *binary,			/* [in] */
+				enum ia_css_shading_correction_type type,		/* [in] */
+				unsigned int required_bds_factor,			/* [in] */
+				const struct ia_css_stream_config *stream_config,	/* [in] */
+#ifndef ISP2401
+				struct ia_css_shading_info *info)			/* [out] */
+#else
+				struct ia_css_shading_info *shading_info,		/* [out] */
+				struct ia_css_pipe_config *pipe_config)			/* [out] */
+#endif
+{
+	enum ia_css_err err;
+
+	assert(binary != NULL);
+#ifndef ISP2401
+	assert(info != NULL);
+#else
+	assert(shading_info != NULL);
+
+	IA_CSS_ENTER_PRIVATE("binary=%p, type=%d, required_bds_factor=%d, stream_config=%p",
+		binary, type, required_bds_factor, stream_config);
+#endif
+
+	if (type == IA_CSS_SHADING_CORRECTION_TYPE_1)
+#ifndef ISP2401
+		err = ia_css_binary_get_shading_info_type_1(binary, required_bds_factor, stream_config, info);
+#else
+		err = ia_css_binary_get_shading_info_type_1(binary, required_bds_factor, stream_config,
+								shading_info, pipe_config);
+#endif
+
+	/* Other function calls can be added here when other shading correction types will be added in the future. */
+
+	else
+		err = IA_CSS_ERR_NOT_SUPPORTED;
+
+	IA_CSS_LEAVE_ERR_PRIVATE(err);
+	return err;
+}
+
+static void sh_css_binary_common_grid_info(const struct ia_css_binary *binary,
+				struct ia_css_grid_info *info)
+{
+	assert(binary != NULL);
+	assert(info != NULL);
+
+	info->isp_in_width = binary->internal_frame_info.res.width;
+	info->isp_in_height = binary->internal_frame_info.res.height;
+
+	info->vamem_type = IA_CSS_VAMEM_TYPE_2;
+}
+
+void
+ia_css_binary_dvs_grid_info(const struct ia_css_binary *binary,
+			    struct ia_css_grid_info *info,
+			    struct ia_css_pipe *pipe)
+{
+	struct ia_css_dvs_grid_info *dvs_info;
+
+	(void)pipe;
+	assert(binary != NULL);
+	assert(info != NULL);
+
+	dvs_info = &info->dvs_grid.dvs_grid_info;
+
+	/* for DIS, we use a division instead of a ceil_div. If this is smaller
+	 * than the 3a grid size, it indicates that the outer values are not
+	 * valid for DIS.
+	 */
+	dvs_info->enable            = binary->info->sp.enable.dis;
+	dvs_info->width             = binary->dis.grid.dim.width;
+	dvs_info->height            = binary->dis.grid.dim.height;
+	dvs_info->aligned_width     = binary->dis.grid.pad.width;
+	dvs_info->aligned_height    = binary->dis.grid.pad.height;
+	dvs_info->bqs_per_grid_cell = 1 << binary->dis.deci_factor_log2;
+	dvs_info->num_hor_coefs     = binary->dis.coef.dim.width;
+	dvs_info->num_ver_coefs     = binary->dis.coef.dim.height;
+
+	sh_css_binary_common_grid_info(binary, info);
+}
+
+void
+ia_css_binary_dvs_stat_grid_info(
+	const struct ia_css_binary *binary,
+	struct ia_css_grid_info *info,
+	struct ia_css_pipe *pipe)
+{
+#if defined(HAS_RES_MGR)
+	struct ia_css_dvs_stat_grid_info *dvs_stat_info;
+	unsigned int i;
+
+	assert(binary != NULL);
+	assert(info != NULL);
+	dvs_stat_info = &info->dvs_grid.dvs_stat_grid_info;
+
+	if (binary->info->sp.enable.dvs_stats) {
+		for (i = 0; i < IA_CSS_SKC_DVS_STAT_NUM_OF_LEVELS; i++) {
+			dvs_stat_info->grd_cfg[i].grd_start.enable = 1;
+		}
+		ia_css_dvs_stat_grid_calculate(pipe, dvs_stat_info);
+	}
+	else {
+		memset(dvs_stat_info, 0, sizeof(struct ia_css_dvs_stat_grid_info));
+	}
+
+#endif
+	(void)pipe;
+	sh_css_binary_common_grid_info(binary, info);
+	return;
+}
+
+enum ia_css_err
+ia_css_binary_3a_grid_info(const struct ia_css_binary *binary,
+			   struct ia_css_grid_info *info,
+			   struct ia_css_pipe *pipe)
+{
+	struct ia_css_3a_grid_info *s3a_info;
+	enum ia_css_err err = IA_CSS_SUCCESS;
+
+	IA_CSS_ENTER_PRIVATE("binary=%p, info=%p, pipe=%p",
+			     binary, info, pipe);
+
+	assert(binary != NULL);
+	assert(info != NULL);
+	s3a_info = &info->s3a_grid;
+
+
+	/* 3A statistics grid */
+	s3a_info->enable            = binary->info->sp.enable.s3a;
+	s3a_info->width             = binary->s3atbl_width;
+	s3a_info->height            = binary->s3atbl_height;
+	s3a_info->aligned_width     = binary->s3atbl_isp_width;
+	s3a_info->aligned_height    = binary->s3atbl_isp_height;
+	s3a_info->bqs_per_grid_cell = (1 << binary->deci_factor_log2);
+	s3a_info->deci_factor_log2  = binary->deci_factor_log2;
+	s3a_info->elem_bit_depth    = SH_CSS_BAYER_BITS;
+	s3a_info->use_dmem          = binary->info->sp.s3a.s3atbl_use_dmem;
+#if defined(HAS_NO_HMEM)
+	s3a_info->has_histogram     = 1;
+#else
+	s3a_info->has_histogram     = 0;
+#endif
+	IA_CSS_LEAVE_ERR_PRIVATE(err);
+	return err;
+}
+
+static void
+binary_init_pc_histogram(struct sh_css_pc_histogram *histo)
+{
+	assert(histo != NULL);
+
+	histo->length = 0;
+	histo->run = NULL;
+	histo->stall = NULL;
+}
+
+static void
+binary_init_metrics(struct sh_css_binary_metrics *metrics,
+	     const struct ia_css_binary_info *info)
+{
+	assert(metrics != NULL);
+	assert(info != NULL);
+
+	metrics->mode = info->pipeline.mode;
+	metrics->id   = info->id;
+	metrics->next = NULL;
+	binary_init_pc_histogram(&metrics->isp_histogram);
+	binary_init_pc_histogram(&metrics->sp_histogram);
+}
+
+/* move to host part of output module */
+static bool
+binary_supports_output_format(const struct ia_css_binary_xinfo *info,
+		       enum ia_css_frame_format format)
+{
+	int i;
+
+	assert(info != NULL);
+
+	for (i = 0; i < info->num_output_formats; i++) {
+		if (info->output_formats[i] == format)
+			return true;
+	}
+	return false;
+}
+
+#ifdef ISP2401
+static bool
+binary_supports_input_format(const struct ia_css_binary_xinfo *info,
+			     enum ia_css_stream_format format)
+{
+
+	assert(info != NULL);
+	(void)format;
+
+	return true;
+}
+#endif
+
+static bool
+binary_supports_vf_format(const struct ia_css_binary_xinfo *info,
+			  enum ia_css_frame_format format)
+{
+	int i;
+
+	assert(info != NULL);
+
+	for (i = 0; i < info->num_vf_formats; i++) {
+		if (info->vf_formats[i] == format)
+			return true;
+	}
+	return false;
+}
+
+/* move to host part of bds module */
+static bool
+supports_bds_factor(uint32_t supported_factors,
+		       uint32_t bds_factor)
+{
+	return ((supported_factors & PACK_BDS_FACTOR(bds_factor)) != 0);
+}
+
+static enum ia_css_err
+binary_init_info(struct ia_css_binary_xinfo *info, unsigned int i,
+		 bool *binary_found)
+{
+	const unsigned char *blob = sh_css_blob_info[i].blob;
+	unsigned size = sh_css_blob_info[i].header.blob.size;
+
+	if ((info == NULL) || (binary_found == NULL))
+		return IA_CSS_ERR_INVALID_ARGUMENTS;
+
+	*info = sh_css_blob_info[i].header.info.isp;
+	*binary_found = blob != NULL;
+	info->blob_index = i;
+	/* we don't have this binary, skip it */
+	if (!size)
+		return IA_CSS_SUCCESS;
+
+	info->xmem_addr = sh_css_load_blob(blob, size);
+	if (!info->xmem_addr)
+		return IA_CSS_ERR_CANNOT_ALLOCATE_MEMORY;
+	return IA_CSS_SUCCESS;
+}
+
+/* When binaries are put at the beginning, they will only
+ * be selected if no other primary matches.
+ */
+enum ia_css_err
+ia_css_binary_init_infos(void)
+{
+	unsigned int i;
+	unsigned int num_of_isp_binaries = sh_css_num_binaries - NUM_OF_SPS - NUM_OF_BLS;
+
+	if (num_of_isp_binaries == 0)
+		return IA_CSS_SUCCESS;
+
+	all_binaries = sh_css_malloc(num_of_isp_binaries *
+						sizeof(*all_binaries));
+	if (all_binaries == NULL)
+		return IA_CSS_ERR_CANNOT_ALLOCATE_MEMORY;
+
+	for (i = 0; i < num_of_isp_binaries; i++) {
+		enum ia_css_err ret;
+		struct ia_css_binary_xinfo *binary = &all_binaries[i];
+		bool binary_found;
+
+		ret = binary_init_info(binary, i, &binary_found);
+		if (ret != IA_CSS_SUCCESS)
+			return ret;
+		if (!binary_found)
+			continue;
+		/* Prepend new binary information */
+		binary->next = binary_infos[binary->sp.pipeline.mode];
+		binary_infos[binary->sp.pipeline.mode] = binary;
+		binary->blob = &sh_css_blob_info[i];
+		binary->mem_offsets = sh_css_blob_info[i].mem_offsets;
+	}
+	return IA_CSS_SUCCESS;
+}
+
+enum ia_css_err
+ia_css_binary_uninit(void)
+{
+	unsigned int i;
+	struct ia_css_binary_xinfo *b;
+
+	for (i = 0; i < IA_CSS_BINARY_NUM_MODES; i++) {
+		for (b = binary_infos[i]; b; b = b->next) {
+			if (b->xmem_addr)
+				hmm_free(b->xmem_addr);
+			b->xmem_addr = mmgr_NULL;
+		}
+		binary_infos[i] = NULL;
+	}
+	sh_css_free(all_binaries);
+	return IA_CSS_SUCCESS;
+}
+
+/** @brief Compute decimation factor for 3A statistics and shading correction.
+ *
+ * @param[in]	width	Frame width in pixels.
+ * @param[in]	height	Frame height in pixels.
+ * @return	Log2 of decimation factor (= grid cell size) in bayer quads.
+ */
+static int
+binary_grid_deci_factor_log2(int width, int height)
+{
+/* 3A/Shading decimation factor spcification (at August 2008)
+ * ------------------------------------------------------------------
+ * [Image Width (BQ)] [Decimation Factor (BQ)] [Resulting grid cells]
+#ifndef ISP2401
+ * 1280 ?c             32                       40 ?c
+ *  640 ?c 1279        16                       40 ?c 80
+ *      ?c  639         8                          ?c 80
+#else
+ * from 1280                   32                 from 40
+ * from  640 to 1279           16                 from 40 to 80
+ *           to  639            8                         to 80
+#endif
+ * ------------------------------------------------------------------
+ */
+/* Maximum and minimum decimation factor by the specification */
+#define MAX_SPEC_DECI_FACT_LOG2		5
+#define MIN_SPEC_DECI_FACT_LOG2		3
+/* the smallest frame width in bayer quads when decimation factor (log2) is 5 or 4, by the specification */
+#define DECI_FACT_LOG2_5_SMALLEST_FRAME_WIDTH_BQ	1280
+#define DECI_FACT_LOG2_4_SMALLEST_FRAME_WIDTH_BQ	640
+
+	int smallest_factor; /* the smallest factor (log2) where the number of cells does not exceed the limitation */
+	int spec_factor;     /* the factor (log2) which satisfies the specification */
+
+	/* Currently supported maximum width and height are 5120(=80*64) and 3840(=60*64). */
+	assert(ISP_BQ_GRID_WIDTH(width, MAX_SPEC_DECI_FACT_LOG2) <= SH_CSS_MAX_BQ_GRID_WIDTH);
+	assert(ISP_BQ_GRID_HEIGHT(height, MAX_SPEC_DECI_FACT_LOG2) <= SH_CSS_MAX_BQ_GRID_HEIGHT);
+
+	/* Compute the smallest factor. */
+	smallest_factor = MAX_SPEC_DECI_FACT_LOG2;
+	while (ISP_BQ_GRID_WIDTH(width, smallest_factor - 1) <= SH_CSS_MAX_BQ_GRID_WIDTH &&
+	       ISP_BQ_GRID_HEIGHT(height, smallest_factor - 1) <= SH_CSS_MAX_BQ_GRID_HEIGHT
+	       && smallest_factor > MIN_SPEC_DECI_FACT_LOG2)
+		smallest_factor--;
+
+	/* Get the factor by the specification. */
+	if (_ISP_BQS(width) >= DECI_FACT_LOG2_5_SMALLEST_FRAME_WIDTH_BQ)
+		spec_factor = 5;
+	else if (_ISP_BQS(width) >= DECI_FACT_LOG2_4_SMALLEST_FRAME_WIDTH_BQ)
+		spec_factor = 4;
+	else
+		spec_factor = 3;
+
+	/* If smallest_factor is smaller than or equal to spec_factor, choose spec_factor to follow the specification.
+	   If smallest_factor is larger than spec_factor, choose smallest_factor.
+
+		ex. width=2560, height=1920
+			smallest_factor=4, spec_factor=5
+			smallest_factor < spec_factor   ->   return spec_factor
+
+		ex. width=300, height=3000
+			smallest_factor=5, spec_factor=3
+			smallest_factor > spec_factor   ->   return smallest_factor
+	*/
+	return max(smallest_factor, spec_factor);
+
+#undef MAX_SPEC_DECI_FACT_LOG2
+#undef MIN_SPEC_DECI_FACT_LOG2
+#undef DECI_FACT_LOG2_5_SMALLEST_FRAME_WIDTH_BQ
+#undef DECI_FACT_LOG2_4_SMALLEST_FRAME_WIDTH_BQ
+}
+
+static int
+binary_in_frame_padded_width(int in_frame_width,
+			     int isp_internal_width,
+			     int dvs_env_width,
+			     int stream_config_left_padding,
+			     int left_cropping,
+			     bool need_scaling)
+{
+	int rval;
+	int nr_of_left_paddings;	/* number of paddings pixels on the left of an image line */
+
+#if defined(USE_INPUT_SYSTEM_VERSION_2401)
+	/* the output image line of Input System 2401 does not have the left paddings  */
+	nr_of_left_paddings = 0;
+#else
+	/* in other cases, the left padding pixels are always 128 */
+	nr_of_left_paddings = 2*ISP_VEC_NELEMS;
+#endif
+#if defined(HAS_RES_MGR)
+	(void)dvs_env_width;
+#endif
+	if (need_scaling) {
+		/* In SDV use-case, we need to match left-padding of
+		 * primary and the video binary. */
+		if (stream_config_left_padding != -1) {
+			/* Different than before, we do left&right padding. */
+			rval =
+				CEIL_MUL(in_frame_width + nr_of_left_paddings,
+					2*ISP_VEC_NELEMS);
+		} else {
+			/* Different than before, we do left&right padding. */
+#if !defined(HAS_RES_MGR) /* dvs env is included already */
+			in_frame_width += dvs_env_width;
+#endif
+			rval =
+				CEIL_MUL(in_frame_width +
+					(left_cropping ? nr_of_left_paddings : 0),
+					2*ISP_VEC_NELEMS);
+		}
+	} else {
+		rval = isp_internal_width;
+	}
+
+	return rval;
+}
+
+
+enum ia_css_err
+ia_css_binary_fill_info(const struct ia_css_binary_xinfo *xinfo,
+		 bool online,
+		 bool two_ppc,
+		 enum ia_css_stream_format stream_format,
+		 const struct ia_css_frame_info *in_info, /* can be NULL */
+		 const struct ia_css_frame_info *bds_out_info, /* can be NULL */
+		 const struct ia_css_frame_info *out_info[], /* can be NULL */
+		 const struct ia_css_frame_info *vf_info, /* can be NULL */
+		 struct ia_css_binary *binary,
+		 struct ia_css_resolution *dvs_env,
+		 int stream_config_left_padding,
+		 bool accelerator)
+{
+	const struct ia_css_binary_info *info = &xinfo->sp;
+	unsigned int dvs_env_width = 0,
+		     dvs_env_height = 0,
+		     vf_log_ds = 0,
+		     s3a_log_deci = 0,
+		     bits_per_pixel = 0,
+		     /* Resolution at SC/3A/DIS kernel. */
+		     sc_3a_dis_width = 0,
+		     /* Resolution at SC/3A/DIS kernel. */
+		     sc_3a_dis_padded_width = 0,
+		     /* Resolution at SC/3A/DIS kernel. */
+		     sc_3a_dis_height = 0,
+		     isp_internal_width = 0,
+		     isp_internal_height = 0,
+		     s3a_isp_width = 0;
+
+	bool need_scaling = false;
+	struct ia_css_resolution binary_dvs_env, internal_res;
+	enum ia_css_err err;
+	unsigned int i;
+	const struct ia_css_frame_info *bin_out_info = NULL;
+
+	assert(info != NULL);
+	assert(binary != NULL);
+
+	binary->info = xinfo;
+	if (!accelerator) {
+		/* binary->css_params has been filled by accelerator itself. */
+		err = ia_css_isp_param_allocate_isp_parameters(
+			&binary->mem_params, &binary->css_params,
+			&info->mem_initializers);
+		if (err != IA_CSS_SUCCESS) {
+			return err;
+		}
+	}
+	for (i = 0; i < IA_CSS_BINARY_MAX_OUTPUT_PORTS; i++) {
+		if (out_info[i] && (out_info[i]->res.width != 0)) {
+			bin_out_info = out_info[i];
+			break;
+		}
+	}
+	if (in_info != NULL && bin_out_info != NULL) {
+		need_scaling = (in_info->res.width != bin_out_info->res.width) ||
+			(in_info->res.height != bin_out_info->res.height);
+	}
+
+
+	/* binary_dvs_env has to be equal or larger than SH_CSS_MIN_DVS_ENVELOPE */
+	binary_dvs_env.width = 0;
+	binary_dvs_env.height = 0;
+	ia_css_binary_dvs_env(info, dvs_env, &binary_dvs_env);
+	dvs_env_width = binary_dvs_env.width;
+	dvs_env_height = binary_dvs_env.height;
+	binary->dvs_envelope.width  = dvs_env_width;
+	binary->dvs_envelope.height = dvs_env_height;
+
+	/* internal resolution calculation */
+	internal_res.width = 0;
+	internal_res.height = 0;
+	ia_css_binary_internal_res(in_info, bds_out_info, bin_out_info, dvs_env,
+				   info, &internal_res);
+	isp_internal_width = internal_res.width;
+	isp_internal_height = internal_res.height;
+
+	/* internal frame info */
+	if (bin_out_info != NULL) /* { */
+		binary->internal_frame_info.format = bin_out_info->format;
+	/* } */
+	binary->internal_frame_info.res.width       = isp_internal_width;
+	binary->internal_frame_info.padded_width    = CEIL_MUL(isp_internal_width, 2*ISP_VEC_NELEMS);
+	binary->internal_frame_info.res.height      = isp_internal_height;
+	binary->internal_frame_info.raw_bit_depth   = bits_per_pixel;
+
+	if (in_info != NULL) {
+		binary->effective_in_frame_res.width = in_info->res.width;
+		binary->effective_in_frame_res.height = in_info->res.height;
+
+		bits_per_pixel = in_info->raw_bit_depth;
+
+		/* input info */
+		binary->in_frame_info.res.width = in_info->res.width + info->pipeline.left_cropping;
+		binary->in_frame_info.res.height = in_info->res.height + info->pipeline.top_cropping;
+
+#if !defined(HAS_RES_MGR) /* dvs env is included already */
+		binary->in_frame_info.res.width += dvs_env_width;
+		binary->in_frame_info.res.height += dvs_env_height;
+#endif
+
+		binary->in_frame_info.padded_width =
+			binary_in_frame_padded_width(in_info->res.width,
+						     isp_internal_width,
+						     dvs_env_width,
+						     stream_config_left_padding,
+						     info->pipeline.left_cropping,
+						     need_scaling);
+
+		binary->in_frame_info.format = in_info->format;
+		binary->in_frame_info.raw_bayer_order = in_info->raw_bayer_order;
+		binary->in_frame_info.crop_info = in_info->crop_info;
+	}
+
+	if (online) {
+		bits_per_pixel = ia_css_util_input_format_bpp(
+			stream_format, two_ppc);
+	}
+	binary->in_frame_info.raw_bit_depth = bits_per_pixel;
+
+	for (i = 0; i < IA_CSS_BINARY_MAX_OUTPUT_PORTS; i++) {
+		if (out_info[i] != NULL) {
+			binary->out_frame_info[i].res.width     = out_info[i]->res.width;
+			binary->out_frame_info[i].res.height    = out_info[i]->res.height;
+			binary->out_frame_info[i].padded_width  = out_info[i]->padded_width;
+			if (info->pipeline.mode == IA_CSS_BINARY_MODE_COPY) {
+				binary->out_frame_info[i].raw_bit_depth = bits_per_pixel;
+			} else {
+				/* Only relevant for RAW format.
+				 * At the moment, all outputs are raw, 16 bit per pixel, except for copy.
+				 * To do this cleanly, the binary should specify in its info
+				 * the bit depth per output channel.
+				 */
+				binary->out_frame_info[i].raw_bit_depth = 16;
+			}
+			binary->out_frame_info[i].format        = out_info[i]->format;
+		}
+	}
+
+	if (vf_info && (vf_info->res.width != 0)) {
+		err = ia_css_vf_configure(binary, bin_out_info, (struct ia_css_frame_info *)vf_info, &vf_log_ds);
+		if (err != IA_CSS_SUCCESS) {
+			if (!accelerator) {
+				ia_css_isp_param_destroy_isp_parameters(
+					&binary->mem_params,
+					&binary->css_params);
+			}
+			return err;
+		}
+	}
+	binary->vf_downscale_log2 = vf_log_ds;
+
+	binary->online            = online;
+	binary->input_format      = stream_format;
+
+	/* viewfinder output info */
+	if ((vf_info != NULL) && (vf_info->res.width != 0)) {
+		unsigned int vf_out_vecs, vf_out_width, vf_out_height;
+		binary->vf_frame_info.format = vf_info->format;
+		if (bin_out_info == NULL)
+			return IA_CSS_ERR_INTERNAL_ERROR;
+		vf_out_vecs = __ISP_VF_OUTPUT_WIDTH_VECS(bin_out_info->padded_width,
+			vf_log_ds);
+		vf_out_width = _ISP_VF_OUTPUT_WIDTH(vf_out_vecs);
+		vf_out_height = _ISP_VF_OUTPUT_HEIGHT(bin_out_info->res.height,
+			vf_log_ds);
+
+		/* For preview mode, output pin is used instead of vf. */
+		if (info->pipeline.mode == IA_CSS_BINARY_MODE_PREVIEW) {
+			binary->out_frame_info[0].res.width =
+				(bin_out_info->res.width >> vf_log_ds);
+			binary->out_frame_info[0].padded_width = vf_out_width;
+			binary->out_frame_info[0].res.height   = vf_out_height;
+
+			binary->vf_frame_info.res.width    = 0;
+			binary->vf_frame_info.padded_width = 0;
+			binary->vf_frame_info.res.height   = 0;
+		} else {
+			/* we also store the raw downscaled width. This is
+			 * used for digital zoom in preview to zoom only on
+			 * the width that we actually want to keep, not on
+			 * the aligned width. */
+			binary->vf_frame_info.res.width =
+				(bin_out_info->res.width >> vf_log_ds);
+			binary->vf_frame_info.padded_width = vf_out_width;
+			binary->vf_frame_info.res.height   = vf_out_height;
+		}
+	} else {
+		binary->vf_frame_info.res.width    = 0;
+		binary->vf_frame_info.padded_width = 0;
+		binary->vf_frame_info.res.height   = 0;
+	}
+
+	if (info->enable.ca_gdc) {
+		binary->morph_tbl_width =
+			_ISP_MORPH_TABLE_WIDTH(isp_internal_width);
+		binary->morph_tbl_aligned_width  =
+			_ISP_MORPH_TABLE_ALIGNED_WIDTH(isp_internal_width);
+		binary->morph_tbl_height =
+			_ISP_MORPH_TABLE_HEIGHT(isp_internal_height);
+	} else {
+		binary->morph_tbl_width  = 0;
+		binary->morph_tbl_aligned_width  = 0;
+		binary->morph_tbl_height = 0;
+	}
+
+	sc_3a_dis_width = binary->in_frame_info.res.width;
+	sc_3a_dis_padded_width = binary->in_frame_info.padded_width;
+	sc_3a_dis_height = binary->in_frame_info.res.height;
+	if (bds_out_info != NULL && in_info != NULL &&
+			bds_out_info->res.width != in_info->res.width) {
+		/* TODO: Next, "internal_frame_info" should be derived from
+		 * bds_out. So this part will change once it is in place! */
+		sc_3a_dis_width = bds_out_info->res.width + info->pipeline.left_cropping;
+		sc_3a_dis_padded_width = isp_internal_width;
+		sc_3a_dis_height = isp_internal_height;
+	}
+
+
+	s3a_isp_width = _ISP_S3A_ELEMS_ISP_WIDTH(sc_3a_dis_padded_width,
+		info->pipeline.left_cropping);
+	if (info->s3a.fixed_s3a_deci_log) {
+		s3a_log_deci = info->s3a.fixed_s3a_deci_log;
+	} else {
+		s3a_log_deci = binary_grid_deci_factor_log2(s3a_isp_width,
+							    sc_3a_dis_height);
+	}
+	binary->deci_factor_log2  = s3a_log_deci;
+
+	if (info->enable.s3a) {
+		binary->s3atbl_width  =
+			_ISP_S3ATBL_WIDTH(sc_3a_dis_width,
+				s3a_log_deci);
+		binary->s3atbl_height =
+			_ISP_S3ATBL_HEIGHT(sc_3a_dis_height,
+				s3a_log_deci);
+		binary->s3atbl_isp_width =
+			_ISP_S3ATBL_ISP_WIDTH(s3a_isp_width,
+					s3a_log_deci);
+		binary->s3atbl_isp_height =
+			_ISP_S3ATBL_ISP_HEIGHT(sc_3a_dis_height,
+				s3a_log_deci);
+	} else {
+		binary->s3atbl_width  = 0;
+		binary->s3atbl_height = 0;
+		binary->s3atbl_isp_width  = 0;
+		binary->s3atbl_isp_height = 0;
+	}
+
+	if (info->enable.sc) {
+		binary->sctbl_width_per_color  =
+#ifndef ISP2401
+			_ISP_SCTBL_WIDTH_PER_COLOR(sc_3a_dis_padded_width,
+				s3a_log_deci);
+#else
+			_ISP_SCTBL_WIDTH_PER_COLOR(isp_internal_width, s3a_log_deci);
+#endif
+		binary->sctbl_aligned_width_per_color =
+			SH_CSS_MAX_SCTBL_ALIGNED_WIDTH_PER_COLOR;
+		binary->sctbl_height =
+#ifndef ISP2401
+			_ISP_SCTBL_HEIGHT(sc_3a_dis_height, s3a_log_deci);
+#else
+			_ISP_SCTBL_HEIGHT(isp_internal_height, s3a_log_deci);
+		binary->sctbl_legacy_width_per_color  =
+			_ISP_SCTBL_LEGACY_WIDTH_PER_COLOR(sc_3a_dis_padded_width, s3a_log_deci);
+		binary->sctbl_legacy_height =
+			_ISP_SCTBL_LEGACY_HEIGHT(sc_3a_dis_height, s3a_log_deci);
+#endif
+	} else {
+		binary->sctbl_width_per_color         = 0;
+		binary->sctbl_aligned_width_per_color = 0;
+		binary->sctbl_height                  = 0;
+#ifdef ISP2401
+		binary->sctbl_legacy_width_per_color  = 0;
+		binary->sctbl_legacy_height	      = 0;
+#endif
+	}
+	ia_css_sdis_init_info(&binary->dis,
+				sc_3a_dis_width,
+				sc_3a_dis_padded_width,
+				sc_3a_dis_height,
+				info->pipeline.isp_pipe_version,
+				info->enable.dis);
+	if (info->pipeline.left_cropping)
+		binary->left_padding = 2 * ISP_VEC_NELEMS - info->pipeline.left_cropping;
+	else
+		binary->left_padding = 0;
+
+	return IA_CSS_SUCCESS;
+}
+
+enum ia_css_err
+ia_css_binary_find(struct ia_css_binary_descr *descr,
+		   struct ia_css_binary *binary)
+{
+	int mode;
+	bool online;
+	bool two_ppc;
+	enum ia_css_stream_format stream_format;
+	const struct ia_css_frame_info *req_in_info,
+				       *req_bds_out_info,
+				       *req_out_info[IA_CSS_BINARY_MAX_OUTPUT_PORTS],
+				       *req_bin_out_info = NULL,
+				       *req_vf_info;
+
+	struct ia_css_binary_xinfo *xcandidate;
+#ifndef ISP2401
+	bool need_ds, need_dz, need_dvs, need_xnr, need_dpc;
+#else
+	bool need_ds, need_dz, need_dvs, need_xnr, need_dpc, need_tnr;
+#endif
+	bool striped;
+	bool enable_yuv_ds;
+	bool enable_high_speed;
+	bool enable_dvs_6axis;
+	bool enable_reduced_pipe;
+	bool enable_capture_pp_bli;
+#ifdef ISP2401
+	bool enable_luma_only;
+#endif
+	enum ia_css_err err = IA_CSS_ERR_INTERNAL_ERROR;
+	bool continuous;
+	unsigned int isp_pipe_version;
+	struct ia_css_resolution dvs_env, internal_res;
+	unsigned int i;
+
+	assert(descr != NULL);
+	/* MW: used after an error check, may accept NULL, but doubtfull */
+	assert(binary != NULL);
+
+	ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+		"ia_css_binary_find() enter: descr=%p, (mode=%d), binary=%p\n",
+		descr, descr->mode,
+		binary);
+
+	mode = descr->mode;
+	online = descr->online;
+	two_ppc = descr->two_ppc;
+	stream_format = descr->stream_format;
+	req_in_info = descr->in_info;
+	req_bds_out_info = descr->bds_out_info;
+	for (i = 0; i < IA_CSS_BINARY_MAX_OUTPUT_PORTS; i++) {
+		req_out_info[i] = descr->out_info[i];
+		if (req_out_info[i] && (req_out_info[i]->res.width != 0))
+			req_bin_out_info = req_out_info[i];
+	}
+	if (req_bin_out_info == NULL)
+		return IA_CSS_ERR_INTERNAL_ERROR;
+#ifndef ISP2401
+	req_vf_info = descr->vf_info;
+#else
+
+	if ((descr->vf_info != NULL) && (descr->vf_info->res.width == 0))
+		/* width==0 means that there is no vf pin (e.g. in SkyCam preview case) */
+		req_vf_info = NULL;
+	else
+		req_vf_info = descr->vf_info;
+#endif
+
+	need_xnr = descr->enable_xnr;
+	need_ds = descr->enable_fractional_ds;
+	need_dz = false;
+	need_dvs = false;
+	need_dpc = descr->enable_dpc;
+#ifdef ISP2401
+	need_tnr = descr->enable_tnr;
+#endif
+	enable_yuv_ds = descr->enable_yuv_ds;
+	enable_high_speed = descr->enable_high_speed;
+	enable_dvs_6axis  = descr->enable_dvs_6axis;
+	enable_reduced_pipe = descr->enable_reduced_pipe;
+	enable_capture_pp_bli = descr->enable_capture_pp_bli;
+#ifdef ISP2401
+	enable_luma_only = descr->enable_luma_only;
+#endif
+	continuous = descr->continuous;
+	striped = descr->striped;
+	isp_pipe_version = descr->isp_pipe_version;
+
+	dvs_env.width = 0;
+	dvs_env.height = 0;
+	internal_res.width = 0;
+	internal_res.height = 0;
+
+
+	if (mode == IA_CSS_BINARY_MODE_VIDEO) {
+		dvs_env = descr->dvs_env;
+		need_dz = descr->enable_dz;
+		/* Video is the only mode that has a nodz variant. */
+		need_dvs = dvs_env.width || dvs_env.height;
+	}
+
+	/* print a map of the binary file */
+	ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,	"BINARY INFO:\n");
+	for (i = 0; i < IA_CSS_BINARY_NUM_MODES; i++) {
+		xcandidate = binary_infos[i];
+		if (xcandidate) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,	"%d:\n", i);
+			while (xcandidate) {
+				ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE, " Name:%s Type:%d Cont:%d\n",
+						xcandidate->blob->name, xcandidate->type,
+						xcandidate->sp.enable.continuous);
+				xcandidate = xcandidate->next;
+			}
+		}
+	}
+
+	/* printf("sh_css_binary_find: pipe version %d\n", isp_pipe_version); */
+	for (xcandidate = binary_infos[mode]; xcandidate;
+	     xcandidate = xcandidate->next) {
+		struct ia_css_binary_info *candidate = &xcandidate->sp;
+		/* printf("sh_css_binary_find: evaluating candidate:
+		 * %d\n",candidate->id); */
+		ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+			"ia_css_binary_find() candidate = %p, mode = %d ID = %d\n",
+			candidate, candidate->pipeline.mode, candidate->id);
+
+		/*
+		 * MW: Only a limited set of jointly configured binaries can
+		 * be used in a continuous preview/video mode unless it is
+		 * the copy mode and runs on SP.
+		*/
+		if (!candidate->enable.continuous &&
+		    continuous && (mode != IA_CSS_BINARY_MODE_COPY)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d && (%d != %d)\n",
+					__LINE__, candidate->enable.continuous,
+					continuous, mode,
+					IA_CSS_BINARY_MODE_COPY);
+			continue;
+		}
+		if (striped && candidate->iterator.num_stripes == 1) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: binary is not striped\n",
+					__LINE__);
+			continue;
+		}
+
+		if (candidate->pipeline.isp_pipe_version != isp_pipe_version &&
+		    (mode != IA_CSS_BINARY_MODE_COPY) &&
+		    (mode != IA_CSS_BINARY_MODE_CAPTURE_PP) &&
+		    (mode != IA_CSS_BINARY_MODE_VF_PP)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: (%d != %d)\n",
+				__LINE__,
+				candidate->pipeline.isp_pipe_version, isp_pipe_version);
+			continue;
+		}
+		if (!candidate->enable.reduced_pipe && enable_reduced_pipe) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d\n",
+				__LINE__,
+				candidate->enable.reduced_pipe,
+				enable_reduced_pipe);
+			continue;
+		}
+		if (!candidate->enable.dvs_6axis && enable_dvs_6axis) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d\n",
+				__LINE__,
+				candidate->enable.dvs_6axis,
+				enable_dvs_6axis);
+			continue;
+		}
+		if (candidate->enable.high_speed && !enable_high_speed) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: %d && !%d\n",
+				__LINE__,
+				candidate->enable.high_speed,
+				enable_high_speed);
+			continue;
+		}
+		if (!candidate->enable.xnr && need_xnr) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: %d && !%d\n",
+				__LINE__,
+				candidate->enable.xnr,
+				need_xnr);
+			continue;
+		}
+		if (!(candidate->enable.ds & 2) && enable_yuv_ds) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d\n",
+				__LINE__,
+				((candidate->enable.ds & 2) != 0),
+				enable_yuv_ds);
+			continue;
+		}
+		if ((candidate->enable.ds & 2) && !enable_yuv_ds) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: %d && !%d\n",
+				__LINE__,
+				((candidate->enable.ds & 2) != 0),
+				enable_yuv_ds);
+			continue;
+		}
+
+		if (mode == IA_CSS_BINARY_MODE_VIDEO &&
+			candidate->enable.ds && need_ds)
+			need_dz = false;
+
+		/* when we require vf output, we need to have vf_veceven */
+		if ((req_vf_info != NULL) && !(candidate->enable.vf_veceven ||
+				/* or variable vf vec even */
+				candidate->vf_dec.is_variable ||
+				/* or more than one output pin. */
+				xcandidate->num_output_pins > 1)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: (%p != NULL) && !(%d || %d || (%d >%d))\n",
+				__LINE__, req_vf_info,
+				candidate->enable.vf_veceven,
+				candidate->vf_dec.is_variable,
+				xcandidate->num_output_pins, 1);
+			continue;
+		}
+		if (!candidate->enable.dvs_envelope && need_dvs) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d\n",
+				__LINE__,
+				candidate->enable.dvs_envelope, (int)need_dvs);
+			continue;
+		}
+		/* internal_res check considers input, output, and dvs envelope sizes */
+		ia_css_binary_internal_res(req_in_info, req_bds_out_info,
+					   req_bin_out_info, &dvs_env, candidate, &internal_res);
+		if (internal_res.width > candidate->internal.max_width) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+			"ia_css_binary_find() [%d] continue: (%d > %d)\n",
+			__LINE__, internal_res.width,
+			candidate->internal.max_width);
+			continue;
+		}
+		if (internal_res.height > candidate->internal.max_height) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+			"ia_css_binary_find() [%d] continue: (%d > %d)\n",
+			__LINE__, internal_res.height,
+			candidate->internal.max_height);
+			continue;
+		}
+		if (!candidate->enable.ds && need_ds & !(xcandidate->num_output_pins > 1)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d\n",
+				__LINE__, candidate->enable.ds, (int)need_ds);
+			continue;
+		}
+		if (!candidate->enable.uds && !candidate->enable.dvs_6axis && need_dz) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && !%d && %d\n",
+				__LINE__, candidate->enable.uds,
+				candidate->enable.dvs_6axis, (int)need_dz);
+			continue;
+		}
+		if (online && candidate->input.source == IA_CSS_BINARY_INPUT_MEMORY) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: %d && (%d == %d)\n",
+				__LINE__, online, candidate->input.source,
+				IA_CSS_BINARY_INPUT_MEMORY);
+			continue;
+		}
+		if (!online && candidate->input.source == IA_CSS_BINARY_INPUT_SENSOR) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && (%d == %d)\n",
+				__LINE__, online, candidate->input.source,
+				IA_CSS_BINARY_INPUT_SENSOR);
+			continue;
+		}
+		if (req_bin_out_info->res.width < candidate->output.min_width ||
+		    req_bin_out_info->res.width > candidate->output.max_width) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: (%d > %d) || (%d < %d)\n",
+				__LINE__,
+				req_bin_out_info->padded_width,
+				candidate->output.min_width,
+				req_bin_out_info->padded_width,
+				candidate->output.max_width);
+			continue;
+		}
+		if (xcandidate->num_output_pins > 1 && /* in case we have a second output pin, */
+		     req_vf_info) { /* and we need vf output. */
+			if (req_vf_info->res.width > candidate->output.max_width) {
+				ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+					"ia_css_binary_find() [%d] continue: (%d < %d)\n",
+					__LINE__,
+					req_vf_info->res.width,
+					candidate->output.max_width);
+				continue;
+			}
+		}
+		if (req_in_info->padded_width > candidate->input.max_width) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: (%d > %d)\n",
+				__LINE__, req_in_info->padded_width,
+				candidate->input.max_width);
+			continue;
+		}
+		if (!binary_supports_output_format(xcandidate, req_bin_out_info->format)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d\n",
+				__LINE__,
+				binary_supports_output_format(xcandidate, req_bin_out_info->format));
+			continue;
+		}
+#ifdef ISP2401
+		if (!binary_supports_input_format(xcandidate, descr->stream_format)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+					    "ia_css_binary_find() [%d] continue: !%d\n",
+					    __LINE__,
+					    binary_supports_input_format(xcandidate, req_in_info->format));
+			continue;
+		}
+#endif
+		if (xcandidate->num_output_pins > 1 && /* in case we have a second output pin, */
+		     req_vf_info                   && /* and we need vf output. */
+						      /* check if the required vf format
+							 is supported. */
+			!binary_supports_output_format(xcandidate, req_vf_info->format)) {
+				ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: (%d > %d) && (%p != NULL) && !%d\n",
+				__LINE__, xcandidate->num_output_pins, 1,
+				req_vf_info,
+				binary_supports_output_format(xcandidate, req_vf_info->format));
+			continue;
+		}
+
+		/* Check if vf_veceven supports the requested vf format */
+		if (xcandidate->num_output_pins == 1 &&
+			req_vf_info && candidate->enable.vf_veceven &&
+			!binary_supports_vf_format(xcandidate, req_vf_info->format)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: (%d == %d) && (%p != NULL) && %d && !%d\n",
+				__LINE__, xcandidate->num_output_pins, 1,
+				req_vf_info, candidate->enable.vf_veceven,
+				binary_supports_vf_format(xcandidate, req_vf_info->format));
+			continue;
+		}
+
+		/* Check if vf_veceven supports the requested vf width */
+		if (xcandidate->num_output_pins == 1 &&
+			req_vf_info && candidate->enable.vf_veceven) { /* and we need vf output. */
+			if (req_vf_info->res.width > candidate->output.max_width) {
+				ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+					"ia_css_binary_find() [%d] continue: (%d < %d)\n",
+					__LINE__,
+					req_vf_info->res.width,
+					candidate->output.max_width);
+				continue;
+			}
+		}
+
+		if (!supports_bds_factor(candidate->bds.supported_bds_factors,
+		    descr->required_bds_factor)) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: 0x%x & 0x%x)\n",
+				__LINE__, candidate->bds.supported_bds_factors,
+				descr->required_bds_factor);
+			continue;
+		}
+
+		if (!candidate->enable.dpc && need_dpc) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: 0x%x & 0x%x)\n",
+				__LINE__, candidate->enable.dpc,
+				descr->enable_dpc);
+			continue;
+		}
+
+		if (candidate->uds.use_bci && enable_capture_pp_bli) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: 0x%x & 0x%x)\n",
+				__LINE__, candidate->uds.use_bci,
+				descr->enable_capture_pp_bli);
+			continue;
+		}
+
+#ifdef ISP2401
+		if (candidate->enable.luma_only != enable_luma_only) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: %d != %d\n",
+				__LINE__, candidate->enable.luma_only,
+				descr->enable_luma_only);
+			continue;
+		}
+
+		if(!candidate->enable.tnr && need_tnr) {
+			ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+				"ia_css_binary_find() [%d] continue: !%d && %d\n",
+				__LINE__, candidate->enable.tnr,
+				descr->enable_tnr);
+			continue;
+		}
+
+#endif
+		/* reconfigure any variable properties of the binary */
+		err = ia_css_binary_fill_info(xcandidate, online, two_ppc,
+				       stream_format, req_in_info,
+				       req_bds_out_info,
+				       req_out_info, req_vf_info,
+				       binary, &dvs_env,
+				       descr->stream_config_left_padding,
+				       false);
+
+		if (err != IA_CSS_SUCCESS)
+			break;
+		binary_init_metrics(&binary->metrics, &binary->info->sp);
+		break;
+	}
+
+	ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+		"ia_css_binary_find() selected = %p, mode = %d ID = %d\n",
+		xcandidate, xcandidate ? xcandidate->sp.pipeline.mode : 0, xcandidate ? xcandidate->sp.id : 0);
+
+	ia_css_debug_dtrace(IA_CSS_DEBUG_TRACE,
+		"ia_css_binary_find() leave: return_err=%d\n", err);
+
+	return err;
+}
+
+unsigned
+ia_css_binary_max_vf_width(void)
+{
+	/* This is (should be) true for IPU1 and IPU2 */
+	/* For IPU3 (SkyCam) this pointer is guarenteed to be NULL simply because such a binary does not exist  */
+	if (binary_infos[IA_CSS_BINARY_MODE_VF_PP])
+		return binary_infos[IA_CSS_BINARY_MODE_VF_PP]->sp.output.max_width;
+	return 0;
+}
+
+void
+ia_css_binary_destroy_isp_parameters(struct ia_css_binary *binary)
+{
+	if (binary) {
+		ia_css_isp_param_destroy_isp_parameters(&binary->mem_params,
+							&binary->css_params);
+	}
+}
+
+void
+ia_css_binary_get_isp_binaries(struct ia_css_binary_xinfo **binaries,
+	uint32_t *num_isp_binaries)
+{
+	assert(binaries != NULL);
+
+	if (num_isp_binaries)
+		*num_isp_binaries = 0;
+
+	*binaries = all_binaries;
+	if (all_binaries && num_isp_binaries) {
+		/* -1 to account for sp binary which is not stored in all_binaries */
+		if (sh_css_num_binaries > 0)
+			*num_isp_binaries = sh_css_num_binaries - 1;
+	}
+}