diff options
author | Yunhong Jiang <yunhong.jiang@intel.com> | 2015-08-04 12:17:53 -0700 |
---|---|---|
committer | Yunhong Jiang <yunhong.jiang@intel.com> | 2015-08-04 15:44:42 -0700 |
commit | 9ca8dbcc65cfc63d6f5ef3312a33184e1d726e00 (patch) | |
tree | 1c9cafbcd35f783a87880a10f85d1a060db1a563 /kernel/drivers/media/i2c/cx25840 | |
parent | 98260f3884f4a202f9ca5eabed40b1354c489b29 (diff) |
Add the rt linux 4.1.3-rt3 as base
Import the rt linux 4.1.3-rt3 as OPNFV kvm base.
It's from git://git.kernel.org/pub/scm/linux/kernel/git/rt/linux-rt-devel.git linux-4.1.y-rt and
the base is:
commit 0917f823c59692d751951bf5ea699a2d1e2f26a2
Author: Sebastian Andrzej Siewior <bigeasy@linutronix.de>
Date: Sat Jul 25 12:13:34 2015 +0200
Prepare v4.1.3-rt3
Signed-off-by: Sebastian Andrzej Siewior <bigeasy@linutronix.de>
We lose all the git history this way and it's not good. We
should apply another opnfv project repo in future.
Change-Id: I87543d81c9df70d99c5001fbdf646b202c19f423
Signed-off-by: Yunhong Jiang <yunhong.jiang@intel.com>
Diffstat (limited to 'kernel/drivers/media/i2c/cx25840')
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/Kconfig | 8 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/Makefile | 6 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/cx25840-audio.c | 571 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/cx25840-core.c | 5350 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/cx25840-core.h | 160 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/cx25840-firmware.c | 174 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/cx25840-ir.c | 1276 | ||||
-rw-r--r-- | kernel/drivers/media/i2c/cx25840/cx25840-vbi.c | 257 |
8 files changed, 7802 insertions, 0 deletions
diff --git a/kernel/drivers/media/i2c/cx25840/Kconfig b/kernel/drivers/media/i2c/cx25840/Kconfig new file mode 100644 index 000000000..451133ad4 --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/Kconfig @@ -0,0 +1,8 @@ +config VIDEO_CX25840 + tristate "Conexant CX2584x audio/video decoders" + depends on VIDEO_V4L2 && I2C + ---help--- + Support for the Conexant CX2584x audio/video decoders. + + To compile this driver as a module, choose M here: the + module will be called cx25840 diff --git a/kernel/drivers/media/i2c/cx25840/Makefile b/kernel/drivers/media/i2c/cx25840/Makefile new file mode 100644 index 000000000..898eb1334 --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/Makefile @@ -0,0 +1,6 @@ +cx25840-objs := cx25840-core.o cx25840-audio.o cx25840-firmware.o \ + cx25840-vbi.o cx25840-ir.o + +obj-$(CONFIG_VIDEO_CX25840) += cx25840.o + +ccflags-y += -Idrivers/media/i2c diff --git a/kernel/drivers/media/i2c/cx25840/cx25840-audio.c b/kernel/drivers/media/i2c/cx25840/cx25840-audio.c new file mode 100644 index 000000000..34b96c7cf --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/cx25840-audio.c @@ -0,0 +1,571 @@ +/* cx25840 audio functions + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + + +#include <linux/videodev2.h> +#include <linux/i2c.h> +#include <media/v4l2-common.h> +#include <media/cx25840.h> + +#include "cx25840-core.h" + +/* + * Note: The PLL and SRC parameters are based on a reference frequency that + * would ideally be: + * + * NTSC Color subcarrier freq * 8 = 4.5 MHz/286 * 455/2 * 8 = 28.63636363... MHz + * + * However, it's not the exact reference frequency that matters, only that the + * firmware and modules that comprise the driver for a particular board all + * use the same value (close to the ideal value). + * + * Comments below will note which reference frequency is assumed for various + * parameters. They will usually be one of + * + * ref_freq = 28.636360 MHz + * or + * ref_freq = 28.636363 MHz + */ + +static int cx25840_set_audclk_freq(struct i2c_client *client, u32 freq) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + + if (state->aud_input != CX25840_AUDIO_SERIAL) { + switch (freq) { + case 32000: + /* + * VID_PLL Integer = 0x0f, VID_PLL Post Divider = 0x04 + * AUX_PLL Integer = 0x06, AUX PLL Post Divider = 0x10 + */ + cx25840_write4(client, 0x108, 0x1006040f); + + /* + * VID_PLL Fraction (register 0x10c) = 0x2be2fe + * 28636360 * 0xf.15f17f0/4 = 108 MHz + * 432 MHz pre-postdivide + */ + + /* + * AUX_PLL Fraction = 0x1bb39ee + * 28636363 * 0x6.dd9cf70/0x10 = 32000 * 384 + * 196.6 MHz pre-postdivide + * FIXME < 200 MHz is out of specified valid range + * FIXME 28636363 ref_freq doesn't match VID PLL ref + */ + cx25840_write4(client, 0x110, 0x01bb39ee); + + /* + * SA_MCLK_SEL = 1 + * SA_MCLK_DIV = 0x10 = 384/384 * AUX_PLL post dvivider + */ + cx25840_write(client, 0x127, 0x50); + + if (is_cx2583x(state)) + break; + + /* src3/4/6_ctl */ + /* 0x1.f77f = (4 * 28636360/8 * 2/455) / 32000 */ + cx25840_write4(client, 0x900, 0x0801f77f); + cx25840_write4(client, 0x904, 0x0801f77f); + cx25840_write4(client, 0x90c, 0x0801f77f); + break; + + case 44100: + /* + * VID_PLL Integer = 0x0f, VID_PLL Post Divider = 0x04 + * AUX_PLL Integer = 0x09, AUX PLL Post Divider = 0x10 + */ + cx25840_write4(client, 0x108, 0x1009040f); + + /* + * VID_PLL Fraction (register 0x10c) = 0x2be2fe + * 28636360 * 0xf.15f17f0/4 = 108 MHz + * 432 MHz pre-postdivide + */ + + /* + * AUX_PLL Fraction = 0x0ec6bd6 + * 28636363 * 0x9.7635eb0/0x10 = 44100 * 384 + * 271 MHz pre-postdivide + * FIXME 28636363 ref_freq doesn't match VID PLL ref + */ + cx25840_write4(client, 0x110, 0x00ec6bd6); + + /* + * SA_MCLK_SEL = 1 + * SA_MCLK_DIV = 0x10 = 384/384 * AUX_PLL post dvivider + */ + cx25840_write(client, 0x127, 0x50); + + if (is_cx2583x(state)) + break; + + /* src3/4/6_ctl */ + /* 0x1.6d59 = (4 * 28636360/8 * 2/455) / 44100 */ + cx25840_write4(client, 0x900, 0x08016d59); + cx25840_write4(client, 0x904, 0x08016d59); + cx25840_write4(client, 0x90c, 0x08016d59); + break; + + case 48000: + /* + * VID_PLL Integer = 0x0f, VID_PLL Post Divider = 0x04 + * AUX_PLL Integer = 0x0a, AUX PLL Post Divider = 0x10 + */ + cx25840_write4(client, 0x108, 0x100a040f); + + /* + * VID_PLL Fraction (register 0x10c) = 0x2be2fe + * 28636360 * 0xf.15f17f0/4 = 108 MHz + * 432 MHz pre-postdivide + */ + + /* + * AUX_PLL Fraction = 0x098d6e5 + * 28636363 * 0xa.4c6b728/0x10 = 48000 * 384 + * 295 MHz pre-postdivide + * FIXME 28636363 ref_freq doesn't match VID PLL ref + */ + cx25840_write4(client, 0x110, 0x0098d6e5); + + /* + * SA_MCLK_SEL = 1 + * SA_MCLK_DIV = 0x10 = 384/384 * AUX_PLL post dvivider + */ + cx25840_write(client, 0x127, 0x50); + + if (is_cx2583x(state)) + break; + + /* src3/4/6_ctl */ + /* 0x1.4faa = (4 * 28636360/8 * 2/455) / 48000 */ + cx25840_write4(client, 0x900, 0x08014faa); + cx25840_write4(client, 0x904, 0x08014faa); + cx25840_write4(client, 0x90c, 0x08014faa); + break; + } + } else { + switch (freq) { + case 32000: + /* + * VID_PLL Integer = 0x0f, VID_PLL Post Divider = 0x04 + * AUX_PLL Integer = 0x08, AUX PLL Post Divider = 0x1e + */ + cx25840_write4(client, 0x108, 0x1e08040f); + + /* + * VID_PLL Fraction (register 0x10c) = 0x2be2fe + * 28636360 * 0xf.15f17f0/4 = 108 MHz + * 432 MHz pre-postdivide + */ + + /* + * AUX_PLL Fraction = 0x12a0869 + * 28636363 * 0x8.9504348/0x1e = 32000 * 256 + * 246 MHz pre-postdivide + * FIXME 28636363 ref_freq doesn't match VID PLL ref + */ + cx25840_write4(client, 0x110, 0x012a0869); + + /* + * SA_MCLK_SEL = 1 + * SA_MCLK_DIV = 0x14 = 256/384 * AUX_PLL post dvivider + */ + cx25840_write(client, 0x127, 0x54); + + if (is_cx2583x(state)) + break; + + /* src1_ctl */ + /* 0x1.0000 = 32000/32000 */ + cx25840_write4(client, 0x8f8, 0x08010000); + + /* src3/4/6_ctl */ + /* 0x2.0000 = 2 * (32000/32000) */ + cx25840_write4(client, 0x900, 0x08020000); + cx25840_write4(client, 0x904, 0x08020000); + cx25840_write4(client, 0x90c, 0x08020000); + break; + + case 44100: + /* + * VID_PLL Integer = 0x0f, VID_PLL Post Divider = 0x04 + * AUX_PLL Integer = 0x09, AUX PLL Post Divider = 0x18 + */ + cx25840_write4(client, 0x108, 0x1809040f); + + /* + * VID_PLL Fraction (register 0x10c) = 0x2be2fe + * 28636360 * 0xf.15f17f0/4 = 108 MHz + * 432 MHz pre-postdivide + */ + + /* + * AUX_PLL Fraction = 0x0ec6bd6 + * 28636363 * 0x9.7635eb0/0x18 = 44100 * 256 + * 271 MHz pre-postdivide + * FIXME 28636363 ref_freq doesn't match VID PLL ref + */ + cx25840_write4(client, 0x110, 0x00ec6bd6); + + /* + * SA_MCLK_SEL = 1 + * SA_MCLK_DIV = 0x10 = 256/384 * AUX_PLL post dvivider + */ + cx25840_write(client, 0x127, 0x50); + + if (is_cx2583x(state)) + break; + + /* src1_ctl */ + /* 0x1.60cd = 44100/32000 */ + cx25840_write4(client, 0x8f8, 0x080160cd); + + /* src3/4/6_ctl */ + /* 0x1.7385 = 2 * (32000/44100) */ + cx25840_write4(client, 0x900, 0x08017385); + cx25840_write4(client, 0x904, 0x08017385); + cx25840_write4(client, 0x90c, 0x08017385); + break; + + case 48000: + /* + * VID_PLL Integer = 0x0f, VID_PLL Post Divider = 0x04 + * AUX_PLL Integer = 0x0a, AUX PLL Post Divider = 0x18 + */ + cx25840_write4(client, 0x108, 0x180a040f); + + /* + * VID_PLL Fraction (register 0x10c) = 0x2be2fe + * 28636360 * 0xf.15f17f0/4 = 108 MHz + * 432 MHz pre-postdivide + */ + + /* + * AUX_PLL Fraction = 0x098d6e5 + * 28636363 * 0xa.4c6b728/0x18 = 48000 * 256 + * 295 MHz pre-postdivide + * FIXME 28636363 ref_freq doesn't match VID PLL ref + */ + cx25840_write4(client, 0x110, 0x0098d6e5); + + /* + * SA_MCLK_SEL = 1 + * SA_MCLK_DIV = 0x10 = 256/384 * AUX_PLL post dvivider + */ + cx25840_write(client, 0x127, 0x50); + + if (is_cx2583x(state)) + break; + + /* src1_ctl */ + /* 0x1.8000 = 48000/32000 */ + cx25840_write4(client, 0x8f8, 0x08018000); + + /* src3/4/6_ctl */ + /* 0x1.5555 = 2 * (32000/48000) */ + cx25840_write4(client, 0x900, 0x08015555); + cx25840_write4(client, 0x904, 0x08015555); + cx25840_write4(client, 0x90c, 0x08015555); + break; + } + } + + state->audclk_freq = freq; + + return 0; +} + +static inline int cx25836_set_audclk_freq(struct i2c_client *client, u32 freq) +{ + return cx25840_set_audclk_freq(client, freq); +} + +static int cx23885_set_audclk_freq(struct i2c_client *client, u32 freq) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + + if (state->aud_input != CX25840_AUDIO_SERIAL) { + switch (freq) { + case 32000: + case 44100: + case 48000: + /* We don't have register values + * so avoid destroying registers. */ + /* FIXME return -EINVAL; */ + break; + } + } else { + switch (freq) { + case 32000: + case 44100: + /* We don't have register values + * so avoid destroying registers. */ + /* FIXME return -EINVAL; */ + break; + + case 48000: + /* src1_ctl */ + /* 0x1.867c = 48000 / (2 * 28636360/8 * 2/455) */ + cx25840_write4(client, 0x8f8, 0x0801867c); + + /* src3/4/6_ctl */ + /* 0x1.4faa = (4 * 28636360/8 * 2/455) / 48000 */ + cx25840_write4(client, 0x900, 0x08014faa); + cx25840_write4(client, 0x904, 0x08014faa); + cx25840_write4(client, 0x90c, 0x08014faa); + break; + } + } + + state->audclk_freq = freq; + + return 0; +} + +static int cx231xx_set_audclk_freq(struct i2c_client *client, u32 freq) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + + if (state->aud_input != CX25840_AUDIO_SERIAL) { + switch (freq) { + case 32000: + /* src3/4/6_ctl */ + /* 0x1.f77f = (4 * 28636360/8 * 2/455) / 32000 */ + cx25840_write4(client, 0x900, 0x0801f77f); + cx25840_write4(client, 0x904, 0x0801f77f); + cx25840_write4(client, 0x90c, 0x0801f77f); + break; + + case 44100: + /* src3/4/6_ctl */ + /* 0x1.6d59 = (4 * 28636360/8 * 2/455) / 44100 */ + cx25840_write4(client, 0x900, 0x08016d59); + cx25840_write4(client, 0x904, 0x08016d59); + cx25840_write4(client, 0x90c, 0x08016d59); + break; + + case 48000: + /* src3/4/6_ctl */ + /* 0x1.4faa = (4 * 28636360/8 * 2/455) / 48000 */ + cx25840_write4(client, 0x900, 0x08014faa); + cx25840_write4(client, 0x904, 0x08014faa); + cx25840_write4(client, 0x90c, 0x08014faa); + break; + } + } else { + switch (freq) { + /* FIXME These cases make different assumptions about audclk */ + case 32000: + /* src1_ctl */ + /* 0x1.0000 = 32000/32000 */ + cx25840_write4(client, 0x8f8, 0x08010000); + + /* src3/4/6_ctl */ + /* 0x2.0000 = 2 * (32000/32000) */ + cx25840_write4(client, 0x900, 0x08020000); + cx25840_write4(client, 0x904, 0x08020000); + cx25840_write4(client, 0x90c, 0x08020000); + break; + + case 44100: + /* src1_ctl */ + /* 0x1.60cd = 44100/32000 */ + cx25840_write4(client, 0x8f8, 0x080160cd); + + /* src3/4/6_ctl */ + /* 0x1.7385 = 2 * (32000/44100) */ + cx25840_write4(client, 0x900, 0x08017385); + cx25840_write4(client, 0x904, 0x08017385); + cx25840_write4(client, 0x90c, 0x08017385); + break; + + case 48000: + /* src1_ctl */ + /* 0x1.867c = 48000 / (2 * 28636360/8 * 2/455) */ + cx25840_write4(client, 0x8f8, 0x0801867c); + + /* src3/4/6_ctl */ + /* 0x1.4faa = (4 * 28636360/8 * 2/455) / 48000 */ + cx25840_write4(client, 0x900, 0x08014faa); + cx25840_write4(client, 0x904, 0x08014faa); + cx25840_write4(client, 0x90c, 0x08014faa); + break; + } + } + + state->audclk_freq = freq; + + return 0; +} + +static int set_audclk_freq(struct i2c_client *client, u32 freq) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + + if (freq != 32000 && freq != 44100 && freq != 48000) + return -EINVAL; + + if (is_cx231xx(state)) + return cx231xx_set_audclk_freq(client, freq); + + if (is_cx2388x(state)) + return cx23885_set_audclk_freq(client, freq); + + if (is_cx2583x(state)) + return cx25836_set_audclk_freq(client, freq); + + return cx25840_set_audclk_freq(client, freq); +} + +void cx25840_audio_set_path(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + + if (!is_cx2583x(state)) { + /* assert soft reset */ + cx25840_and_or(client, 0x810, ~0x1, 0x01); + + /* stop microcontroller */ + cx25840_and_or(client, 0x803, ~0x10, 0); + + /* Mute everything to prevent the PFFT! */ + cx25840_write(client, 0x8d3, 0x1f); + + if (state->aud_input == CX25840_AUDIO_SERIAL) { + /* Set Path1 to Serial Audio Input */ + cx25840_write4(client, 0x8d0, 0x01011012); + + /* The microcontroller should not be started for the + * non-tuner inputs: autodetection is specific for + * TV audio. */ + } else { + /* Set Path1 to Analog Demod Main Channel */ + cx25840_write4(client, 0x8d0, 0x1f063870); + } + } + + set_audclk_freq(client, state->audclk_freq); + + if (!is_cx2583x(state)) { + if (state->aud_input != CX25840_AUDIO_SERIAL) { + /* When the microcontroller detects the + * audio format, it will unmute the lines */ + cx25840_and_or(client, 0x803, ~0x10, 0x10); + } + + /* deassert soft reset */ + cx25840_and_or(client, 0x810, ~0x1, 0x00); + + /* Ensure the controller is running when we exit */ + if (is_cx2388x(state) || is_cx231xx(state)) + cx25840_and_or(client, 0x803, ~0x10, 0x10); + } +} + +static void set_volume(struct i2c_client *client, int volume) +{ + int vol; + + /* Convert the volume to msp3400 values (0-127) */ + vol = volume >> 9; + + /* now scale it up to cx25840 values + * -114dB to -96dB maps to 0 + * this should be 19, but in my testing that was 4dB too loud */ + if (vol <= 23) { + vol = 0; + } else { + vol -= 23; + } + + /* PATH1_VOLUME */ + cx25840_write(client, 0x8d4, 228 - (vol * 2)); +} + +static void set_balance(struct i2c_client *client, int balance) +{ + int bal = balance >> 8; + if (bal > 0x80) { + /* PATH1_BAL_LEFT */ + cx25840_and_or(client, 0x8d5, 0x7f, 0x80); + /* PATH1_BAL_LEVEL */ + cx25840_and_or(client, 0x8d5, ~0x7f, bal & 0x7f); + } else { + /* PATH1_BAL_LEFT */ + cx25840_and_or(client, 0x8d5, 0x7f, 0x00); + /* PATH1_BAL_LEVEL */ + cx25840_and_or(client, 0x8d5, ~0x7f, 0x80 - bal); + } +} + +int cx25840_s_clock_freq(struct v4l2_subdev *sd, u32 freq) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + struct cx25840_state *state = to_state(sd); + int retval; + + if (!is_cx2583x(state)) + cx25840_and_or(client, 0x810, ~0x1, 1); + if (state->aud_input != CX25840_AUDIO_SERIAL) { + cx25840_and_or(client, 0x803, ~0x10, 0); + cx25840_write(client, 0x8d3, 0x1f); + } + retval = set_audclk_freq(client, freq); + if (state->aud_input != CX25840_AUDIO_SERIAL) + cx25840_and_or(client, 0x803, ~0x10, 0x10); + if (!is_cx2583x(state)) + cx25840_and_or(client, 0x810, ~0x1, 0); + return retval; +} + +static int cx25840_audio_s_ctrl(struct v4l2_ctrl *ctrl) +{ + struct v4l2_subdev *sd = to_sd(ctrl); + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + switch (ctrl->id) { + case V4L2_CID_AUDIO_VOLUME: + if (state->mute->val) + set_volume(client, 0); + else + set_volume(client, state->volume->val); + break; + case V4L2_CID_AUDIO_BASS: + /* PATH1_EQ_BASS_VOL */ + cx25840_and_or(client, 0x8d9, ~0x3f, + 48 - (ctrl->val * 48 / 0xffff)); + break; + case V4L2_CID_AUDIO_TREBLE: + /* PATH1_EQ_TREBLE_VOL */ + cx25840_and_or(client, 0x8db, ~0x3f, + 48 - (ctrl->val * 48 / 0xffff)); + break; + case V4L2_CID_AUDIO_BALANCE: + set_balance(client, ctrl->val); + break; + default: + return -EINVAL; + } + return 0; +} + +const struct v4l2_ctrl_ops cx25840_audio_ctrl_ops = { + .s_ctrl = cx25840_audio_s_ctrl, +}; diff --git a/kernel/drivers/media/i2c/cx25840/cx25840-core.c b/kernel/drivers/media/i2c/cx25840/cx25840-core.c new file mode 100644 index 000000000..bd4964477 --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/cx25840-core.c @@ -0,0 +1,5350 @@ +/* cx25840 - Conexant CX25840 audio/video decoder driver + * + * Copyright (C) 2004 Ulf Eklund + * + * Based on the saa7115 driver and on the first version of Chris Kennedy's + * cx25840 driver. + * + * Changes by Tyler Trafford <tatrafford@comcast.net> + * - cleanup/rewrite for V4L2 API (2005) + * + * VBI support by Hans Verkuil <hverkuil@xs4all.nl>. + * + * NTSC sliced VBI support by Christopher Neufeld <television@cneufeld.ca> + * with additional fixes by Hans Verkuil <hverkuil@xs4all.nl>. + * + * CX23885 support by Steven Toth <stoth@linuxtv.org>. + * + * CX2388[578] IRQ handling, IO Pin mux configuration and other small fixes are + * Copyright (C) 2010 Andy Walls <awalls@md.metrocast.net> + * + * CX23888 DIF support for the HVR1850 + * Copyright (C) 2011 Steven Toth <stoth@kernellabs.com> + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + + +#include <linux/kernel.h> +#include <linux/module.h> +#include <linux/slab.h> +#include <linux/videodev2.h> +#include <linux/i2c.h> +#include <linux/delay.h> +#include <linux/math64.h> +#include <media/v4l2-common.h> +#include <media/cx25840.h> + +#include "cx25840-core.h" + +MODULE_DESCRIPTION("Conexant CX25840 audio/video decoder driver"); +MODULE_AUTHOR("Ulf Eklund, Chris Kennedy, Hans Verkuil, Tyler Trafford"); +MODULE_LICENSE("GPL"); + +#define CX25840_VID_INT_STAT_REG 0x410 +#define CX25840_VID_INT_STAT_BITS 0x0000ffff +#define CX25840_VID_INT_MASK_BITS 0xffff0000 +#define CX25840_VID_INT_MASK_SHFT 16 +#define CX25840_VID_INT_MASK_REG 0x412 + +#define CX23885_AUD_MC_INT_MASK_REG 0x80c +#define CX23885_AUD_MC_INT_STAT_BITS 0xffff0000 +#define CX23885_AUD_MC_INT_CTRL_BITS 0x0000ffff +#define CX23885_AUD_MC_INT_STAT_SHFT 16 + +#define CX25840_AUD_INT_CTRL_REG 0x812 +#define CX25840_AUD_INT_STAT_REG 0x813 + +#define CX23885_PIN_CTRL_IRQ_REG 0x123 +#define CX23885_PIN_CTRL_IRQ_IR_STAT 0x40 +#define CX23885_PIN_CTRL_IRQ_AUD_STAT 0x20 +#define CX23885_PIN_CTRL_IRQ_VID_STAT 0x10 + +#define CX25840_IR_STATS_REG 0x210 +#define CX25840_IR_IRQEN_REG 0x214 + +static int cx25840_debug; + +module_param_named(debug,cx25840_debug, int, 0644); + +MODULE_PARM_DESC(debug, "Debugging messages [0=Off (default) 1=On]"); + + +/* ----------------------------------------------------------------------- */ +static void cx23888_std_setup(struct i2c_client *client); + +int cx25840_write(struct i2c_client *client, u16 addr, u8 value) +{ + u8 buffer[3]; + buffer[0] = addr >> 8; + buffer[1] = addr & 0xff; + buffer[2] = value; + return i2c_master_send(client, buffer, 3); +} + +int cx25840_write4(struct i2c_client *client, u16 addr, u32 value) +{ + u8 buffer[6]; + buffer[0] = addr >> 8; + buffer[1] = addr & 0xff; + buffer[2] = value & 0xff; + buffer[3] = (value >> 8) & 0xff; + buffer[4] = (value >> 16) & 0xff; + buffer[5] = value >> 24; + return i2c_master_send(client, buffer, 6); +} + +u8 cx25840_read(struct i2c_client * client, u16 addr) +{ + struct i2c_msg msgs[2]; + u8 tx_buf[2], rx_buf[1]; + + /* Write register address */ + tx_buf[0] = addr >> 8; + tx_buf[1] = addr & 0xff; + msgs[0].addr = client->addr; + msgs[0].flags = 0; + msgs[0].len = 2; + msgs[0].buf = (char *) tx_buf; + + /* Read data from register */ + msgs[1].addr = client->addr; + msgs[1].flags = I2C_M_RD; + msgs[1].len = 1; + msgs[1].buf = (char *) rx_buf; + + if (i2c_transfer(client->adapter, msgs, 2) < 2) + return 0; + + return rx_buf[0]; +} + +u32 cx25840_read4(struct i2c_client * client, u16 addr) +{ + struct i2c_msg msgs[2]; + u8 tx_buf[2], rx_buf[4]; + + /* Write register address */ + tx_buf[0] = addr >> 8; + tx_buf[1] = addr & 0xff; + msgs[0].addr = client->addr; + msgs[0].flags = 0; + msgs[0].len = 2; + msgs[0].buf = (char *) tx_buf; + + /* Read data from registers */ + msgs[1].addr = client->addr; + msgs[1].flags = I2C_M_RD; + msgs[1].len = 4; + msgs[1].buf = (char *) rx_buf; + + if (i2c_transfer(client->adapter, msgs, 2) < 2) + return 0; + + return (rx_buf[3] << 24) | (rx_buf[2] << 16) | (rx_buf[1] << 8) | + rx_buf[0]; +} + +int cx25840_and_or(struct i2c_client *client, u16 addr, unsigned and_mask, + u8 or_value) +{ + return cx25840_write(client, addr, + (cx25840_read(client, addr) & and_mask) | + or_value); +} + +int cx25840_and_or4(struct i2c_client *client, u16 addr, u32 and_mask, + u32 or_value) +{ + return cx25840_write4(client, addr, + (cx25840_read4(client, addr) & and_mask) | + or_value); +} + +/* ----------------------------------------------------------------------- */ + +static int set_input(struct i2c_client *client, enum cx25840_video_input vid_input, + enum cx25840_audio_input aud_input); + +/* ----------------------------------------------------------------------- */ + +static int cx23885_s_io_pin_config(struct v4l2_subdev *sd, size_t n, + struct v4l2_subdev_io_pin_config *p) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + int i; + u32 pin_ctrl; + u8 gpio_oe, gpio_data, strength; + + pin_ctrl = cx25840_read4(client, 0x120); + gpio_oe = cx25840_read(client, 0x160); + gpio_data = cx25840_read(client, 0x164); + + for (i = 0; i < n; i++) { + strength = p[i].strength; + if (strength > CX25840_PIN_DRIVE_FAST) + strength = CX25840_PIN_DRIVE_FAST; + + switch (p[i].pin) { + case CX23885_PIN_IRQ_N_GPIO16: + if (p[i].function != CX23885_PAD_IRQ_N) { + /* GPIO16 */ + pin_ctrl &= ~(0x1 << 25); + } else { + /* IRQ_N */ + if (p[i].flags & + (V4L2_SUBDEV_IO_PIN_DISABLE | + V4L2_SUBDEV_IO_PIN_INPUT)) { + pin_ctrl &= ~(0x1 << 25); + } else { + pin_ctrl |= (0x1 << 25); + } + if (p[i].flags & + V4L2_SUBDEV_IO_PIN_ACTIVE_LOW) { + pin_ctrl &= ~(0x1 << 24); + } else { + pin_ctrl |= (0x1 << 24); + } + } + break; + case CX23885_PIN_IR_RX_GPIO19: + if (p[i].function != CX23885_PAD_GPIO19) { + /* IR_RX */ + gpio_oe |= (0x1 << 0); + pin_ctrl &= ~(0x3 << 18); + pin_ctrl |= (strength << 18); + } else { + /* GPIO19 */ + gpio_oe &= ~(0x1 << 0); + if (p[i].flags & V4L2_SUBDEV_IO_PIN_SET_VALUE) { + gpio_data &= ~(0x1 << 0); + gpio_data |= ((p[i].value & 0x1) << 0); + } + pin_ctrl &= ~(0x3 << 12); + pin_ctrl |= (strength << 12); + } + break; + case CX23885_PIN_IR_TX_GPIO20: + if (p[i].function != CX23885_PAD_GPIO20) { + /* IR_TX */ + gpio_oe |= (0x1 << 1); + if (p[i].flags & V4L2_SUBDEV_IO_PIN_DISABLE) + pin_ctrl &= ~(0x1 << 10); + else + pin_ctrl |= (0x1 << 10); + pin_ctrl &= ~(0x3 << 18); + pin_ctrl |= (strength << 18); + } else { + /* GPIO20 */ + gpio_oe &= ~(0x1 << 1); + if (p[i].flags & V4L2_SUBDEV_IO_PIN_SET_VALUE) { + gpio_data &= ~(0x1 << 1); + gpio_data |= ((p[i].value & 0x1) << 1); + } + pin_ctrl &= ~(0x3 << 12); + pin_ctrl |= (strength << 12); + } + break; + case CX23885_PIN_I2S_SDAT_GPIO21: + if (p[i].function != CX23885_PAD_GPIO21) { + /* I2S_SDAT */ + /* TODO: Input or Output config */ + gpio_oe |= (0x1 << 2); + pin_ctrl &= ~(0x3 << 22); + pin_ctrl |= (strength << 22); + } else { + /* GPIO21 */ + gpio_oe &= ~(0x1 << 2); + if (p[i].flags & V4L2_SUBDEV_IO_PIN_SET_VALUE) { + gpio_data &= ~(0x1 << 2); + gpio_data |= ((p[i].value & 0x1) << 2); + } + pin_ctrl &= ~(0x3 << 12); + pin_ctrl |= (strength << 12); + } + break; + case CX23885_PIN_I2S_WCLK_GPIO22: + if (p[i].function != CX23885_PAD_GPIO22) { + /* I2S_WCLK */ + /* TODO: Input or Output config */ + gpio_oe |= (0x1 << 3); + pin_ctrl &= ~(0x3 << 22); + pin_ctrl |= (strength << 22); + } else { + /* GPIO22 */ + gpio_oe &= ~(0x1 << 3); + if (p[i].flags & V4L2_SUBDEV_IO_PIN_SET_VALUE) { + gpio_data &= ~(0x1 << 3); + gpio_data |= ((p[i].value & 0x1) << 3); + } + pin_ctrl &= ~(0x3 << 12); + pin_ctrl |= (strength << 12); + } + break; + case CX23885_PIN_I2S_BCLK_GPIO23: + if (p[i].function != CX23885_PAD_GPIO23) { + /* I2S_BCLK */ + /* TODO: Input or Output config */ + gpio_oe |= (0x1 << 4); + pin_ctrl &= ~(0x3 << 22); + pin_ctrl |= (strength << 22); + } else { + /* GPIO23 */ + gpio_oe &= ~(0x1 << 4); + if (p[i].flags & V4L2_SUBDEV_IO_PIN_SET_VALUE) { + gpio_data &= ~(0x1 << 4); + gpio_data |= ((p[i].value & 0x1) << 4); + } + pin_ctrl &= ~(0x3 << 12); + pin_ctrl |= (strength << 12); + } + break; + } + } + + cx25840_write(client, 0x164, gpio_data); + cx25840_write(client, 0x160, gpio_oe); + cx25840_write4(client, 0x120, pin_ctrl); + return 0; +} + +static int common_s_io_pin_config(struct v4l2_subdev *sd, size_t n, + struct v4l2_subdev_io_pin_config *pincfg) +{ + struct cx25840_state *state = to_state(sd); + + if (is_cx2388x(state)) + return cx23885_s_io_pin_config(sd, n, pincfg); + return 0; +} + +/* ----------------------------------------------------------------------- */ + +static void init_dll1(struct i2c_client *client) +{ + /* This is the Hauppauge sequence used to + * initialize the Delay Lock Loop 1 (ADC DLL). */ + cx25840_write(client, 0x159, 0x23); + cx25840_write(client, 0x15a, 0x87); + cx25840_write(client, 0x15b, 0x06); + udelay(10); + cx25840_write(client, 0x159, 0xe1); + udelay(10); + cx25840_write(client, 0x15a, 0x86); + cx25840_write(client, 0x159, 0xe0); + cx25840_write(client, 0x159, 0xe1); + cx25840_write(client, 0x15b, 0x10); +} + +static void init_dll2(struct i2c_client *client) +{ + /* This is the Hauppauge sequence used to + * initialize the Delay Lock Loop 2 (ADC DLL). */ + cx25840_write(client, 0x15d, 0xe3); + cx25840_write(client, 0x15e, 0x86); + cx25840_write(client, 0x15f, 0x06); + udelay(10); + cx25840_write(client, 0x15d, 0xe1); + cx25840_write(client, 0x15d, 0xe0); + cx25840_write(client, 0x15d, 0xe1); +} + +static void cx25836_initialize(struct i2c_client *client) +{ + /* reset configuration is described on page 3-77 of the CX25836 datasheet */ + /* 2. */ + cx25840_and_or(client, 0x000, ~0x01, 0x01); + cx25840_and_or(client, 0x000, ~0x01, 0x00); + /* 3a. */ + cx25840_and_or(client, 0x15a, ~0x70, 0x00); + /* 3b. */ + cx25840_and_or(client, 0x15b, ~0x1e, 0x06); + /* 3c. */ + cx25840_and_or(client, 0x159, ~0x02, 0x02); + /* 3d. */ + udelay(10); + /* 3e. */ + cx25840_and_or(client, 0x159, ~0x02, 0x00); + /* 3f. */ + cx25840_and_or(client, 0x159, ~0xc0, 0xc0); + /* 3g. */ + cx25840_and_or(client, 0x159, ~0x01, 0x00); + cx25840_and_or(client, 0x159, ~0x01, 0x01); + /* 3h. */ + cx25840_and_or(client, 0x15b, ~0x1e, 0x10); +} + +static void cx25840_work_handler(struct work_struct *work) +{ + struct cx25840_state *state = container_of(work, struct cx25840_state, fw_work); + cx25840_loadfw(state->c); + wake_up(&state->fw_wait); +} + +static void cx25840_initialize(struct i2c_client *client) +{ + DEFINE_WAIT(wait); + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + struct workqueue_struct *q; + + /* datasheet startup in numbered steps, refer to page 3-77 */ + /* 2. */ + cx25840_and_or(client, 0x803, ~0x10, 0x00); + /* The default of this register should be 4, but I get 0 instead. + * Set this register to 4 manually. */ + cx25840_write(client, 0x000, 0x04); + /* 3. */ + init_dll1(client); + init_dll2(client); + cx25840_write(client, 0x136, 0x0a); + /* 4. */ + cx25840_write(client, 0x13c, 0x01); + cx25840_write(client, 0x13c, 0x00); + /* 5. */ + /* Do the firmware load in a work handler to prevent. + Otherwise the kernel is blocked waiting for the + bit-banging i2c interface to finish uploading the + firmware. */ + INIT_WORK(&state->fw_work, cx25840_work_handler); + init_waitqueue_head(&state->fw_wait); + q = create_singlethread_workqueue("cx25840_fw"); + prepare_to_wait(&state->fw_wait, &wait, TASK_UNINTERRUPTIBLE); + queue_work(q, &state->fw_work); + schedule(); + finish_wait(&state->fw_wait, &wait); + destroy_workqueue(q); + + /* 6. */ + cx25840_write(client, 0x115, 0x8c); + cx25840_write(client, 0x116, 0x07); + cx25840_write(client, 0x118, 0x02); + /* 7. */ + cx25840_write(client, 0x4a5, 0x80); + cx25840_write(client, 0x4a5, 0x00); + cx25840_write(client, 0x402, 0x00); + /* 8. */ + cx25840_and_or(client, 0x401, ~0x18, 0); + cx25840_and_or(client, 0x4a2, ~0x10, 0x10); + /* steps 8c and 8d are done in change_input() */ + /* 10. */ + cx25840_write(client, 0x8d3, 0x1f); + cx25840_write(client, 0x8e3, 0x03); + + cx25840_std_setup(client); + + /* trial and error says these are needed to get audio */ + cx25840_write(client, 0x914, 0xa0); + cx25840_write(client, 0x918, 0xa0); + cx25840_write(client, 0x919, 0x01); + + /* stereo preferred */ + cx25840_write(client, 0x809, 0x04); + /* AC97 shift */ + cx25840_write(client, 0x8cf, 0x0f); + + /* (re)set input */ + set_input(client, state->vid_input, state->aud_input); + + /* start microcontroller */ + cx25840_and_or(client, 0x803, ~0x10, 0x10); +} + +static void cx23885_initialize(struct i2c_client *client) +{ + DEFINE_WAIT(wait); + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + struct workqueue_struct *q; + + /* + * Come out of digital power down + * The CX23888, at least, needs this, otherwise registers aside from + * 0x0-0x2 can't be read or written. + */ + cx25840_write(client, 0x000, 0); + + /* Internal Reset */ + cx25840_and_or(client, 0x102, ~0x01, 0x01); + cx25840_and_or(client, 0x102, ~0x01, 0x00); + + /* Stop microcontroller */ + cx25840_and_or(client, 0x803, ~0x10, 0x00); + + /* DIF in reset? */ + cx25840_write(client, 0x398, 0); + + /* + * Trust the default xtal, no division + * '885: 28.636363... MHz + * '887: 25.000000 MHz + * '888: 50.000000 MHz + */ + cx25840_write(client, 0x2, 0x76); + + /* Power up all the PLL's and DLL */ + cx25840_write(client, 0x1, 0x40); + + /* Sys PLL */ + switch (state->id) { + case CX23888_AV: + /* + * 50.0 MHz * (0xb + 0xe8ba26/0x2000000)/4 = 5 * 28.636363 MHz + * 572.73 MHz before post divide + */ + /* HVR1850 or 50MHz xtal */ + cx25840_write(client, 0x2, 0x71); + cx25840_write4(client, 0x11c, 0x01d1744c); + cx25840_write4(client, 0x118, 0x00000416); + cx25840_write4(client, 0x404, 0x0010253e); + cx25840_write4(client, 0x42c, 0x42600000); + cx25840_write4(client, 0x44c, 0x161f1000); + break; + case CX23887_AV: + /* + * 25.0 MHz * (0x16 + 0x1d1744c/0x2000000)/4 = 5 * 28.636363 MHz + * 572.73 MHz before post divide + */ + cx25840_write4(client, 0x11c, 0x01d1744c); + cx25840_write4(client, 0x118, 0x00000416); + break; + case CX23885_AV: + default: + /* + * 28.636363 MHz * (0x14 + 0x0/0x2000000)/4 = 5 * 28.636363 MHz + * 572.73 MHz before post divide + */ + cx25840_write4(client, 0x11c, 0x00000000); + cx25840_write4(client, 0x118, 0x00000414); + break; + } + + /* Disable DIF bypass */ + cx25840_write4(client, 0x33c, 0x00000001); + + /* DIF Src phase inc */ + cx25840_write4(client, 0x340, 0x0df7df83); + + /* + * Vid PLL + * Setup for a BT.656 pixel clock of 13.5 Mpixels/second + * + * 28.636363 MHz * (0xf + 0x02be2c9/0x2000000)/4 = 8 * 13.5 MHz + * 432.0 MHz before post divide + */ + + /* HVR1850 */ + switch (state->id) { + case CX23888_AV: + /* 888/HVR1250 specific */ + cx25840_write4(client, 0x10c, 0x13333333); + cx25840_write4(client, 0x108, 0x00000515); + break; + default: + cx25840_write4(client, 0x10c, 0x002be2c9); + cx25840_write4(client, 0x108, 0x0000040f); + } + + /* Luma */ + cx25840_write4(client, 0x414, 0x00107d12); + + /* Chroma */ + cx25840_write4(client, 0x420, 0x3d008282); + + /* + * Aux PLL + * Initial setup for audio sample clock: + * 48 ksps, 16 bits/sample, x160 multiplier = 122.88 MHz + * Initial I2S output/master clock(?): + * 48 ksps, 16 bits/sample, x16 multiplier = 12.288 MHz + */ + switch (state->id) { + case CX23888_AV: + /* + * 50.0 MHz * (0x7 + 0x0bedfa4/0x2000000)/3 = 122.88 MHz + * 368.64 MHz before post divide + * 122.88 MHz / 0xa = 12.288 MHz + */ + /* HVR1850 or 50MHz xtal */ + cx25840_write4(client, 0x114, 0x017dbf48); + cx25840_write4(client, 0x110, 0x000a030e); + break; + case CX23887_AV: + /* + * 25.0 MHz * (0xe + 0x17dbf48/0x2000000)/3 = 122.88 MHz + * 368.64 MHz before post divide + * 122.88 MHz / 0xa = 12.288 MHz + */ + cx25840_write4(client, 0x114, 0x017dbf48); + cx25840_write4(client, 0x110, 0x000a030e); + break; + case CX23885_AV: + default: + /* + * 28.636363 MHz * (0xc + 0x1bf0c9e/0x2000000)/3 = 122.88 MHz + * 368.64 MHz before post divide + * 122.88 MHz / 0xa = 12.288 MHz + */ + cx25840_write4(client, 0x114, 0x01bf0c9e); + cx25840_write4(client, 0x110, 0x000a030c); + break; + } + + /* ADC2 input select */ + cx25840_write(client, 0x102, 0x10); + + /* VIN1 & VIN5 */ + cx25840_write(client, 0x103, 0x11); + + /* Enable format auto detect */ + cx25840_write(client, 0x400, 0); + /* Fast subchroma lock */ + /* White crush, Chroma AGC & Chroma Killer enabled */ + cx25840_write(client, 0x401, 0xe8); + + /* Select AFE clock pad output source */ + cx25840_write(client, 0x144, 0x05); + + /* Drive GPIO2 direction and values for HVR1700 + * where an onboard mux selects the output of demodulator + * vs the 417. Failure to set this results in no DTV. + * It's safe to set this across all Hauppauge boards + * currently, regardless of the board type. + */ + cx25840_write(client, 0x160, 0x1d); + cx25840_write(client, 0x164, 0x00); + + /* Do the firmware load in a work handler to prevent. + Otherwise the kernel is blocked waiting for the + bit-banging i2c interface to finish uploading the + firmware. */ + INIT_WORK(&state->fw_work, cx25840_work_handler); + init_waitqueue_head(&state->fw_wait); + q = create_singlethread_workqueue("cx25840_fw"); + prepare_to_wait(&state->fw_wait, &wait, TASK_UNINTERRUPTIBLE); + queue_work(q, &state->fw_work); + schedule(); + finish_wait(&state->fw_wait, &wait); + destroy_workqueue(q); + + /* Call the cx23888 specific std setup func, we no longer rely on + * the generic cx24840 func. + */ + if (is_cx23888(state)) + cx23888_std_setup(client); + else + cx25840_std_setup(client); + + /* (re)set input */ + set_input(client, state->vid_input, state->aud_input); + + /* start microcontroller */ + cx25840_and_or(client, 0x803, ~0x10, 0x10); + + /* Disable and clear video interrupts - we don't use them */ + cx25840_write4(client, CX25840_VID_INT_STAT_REG, 0xffffffff); + + /* Disable and clear audio interrupts - we don't use them */ + cx25840_write(client, CX25840_AUD_INT_CTRL_REG, 0xff); + cx25840_write(client, CX25840_AUD_INT_STAT_REG, 0xff); + + /* CC raw enable */ + /* - VIP 1.1 control codes - 10bit, blue field enable. + * - enable raw data during vertical blanking. + * - enable ancillary Data insertion for 656 or VIP. + */ + cx25840_write4(client, 0x404, 0x0010253e); + + /* CC on - Undocumented Register */ + cx25840_write(client, 0x42f, 0x66); + + /* HVR-1250 / HVR1850 DIF related */ + /* Power everything up */ + cx25840_write4(client, 0x130, 0x0); + + /* Undocumented */ + cx25840_write4(client, 0x478, 0x6628021F); + + /* AFE_CLK_OUT_CTRL - Select the clock output source as output */ + cx25840_write4(client, 0x144, 0x5); + + /* I2C_OUT_CTL - I2S output configuration as + * Master, Sony, Left justified, left sample on WS=1 + */ + cx25840_write4(client, 0x918, 0x1a0); + + /* AFE_DIAG_CTRL1 */ + cx25840_write4(client, 0x134, 0x000a1800); + + /* AFE_DIAG_CTRL3 - Inverted Polarity for Audio and Video */ + cx25840_write4(client, 0x13c, 0x00310000); +} + +/* ----------------------------------------------------------------------- */ + +static void cx231xx_initialize(struct i2c_client *client) +{ + DEFINE_WAIT(wait); + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + struct workqueue_struct *q; + + /* Internal Reset */ + cx25840_and_or(client, 0x102, ~0x01, 0x01); + cx25840_and_or(client, 0x102, ~0x01, 0x00); + + /* Stop microcontroller */ + cx25840_and_or(client, 0x803, ~0x10, 0x00); + + /* DIF in reset? */ + cx25840_write(client, 0x398, 0); + + /* Trust the default xtal, no division */ + /* This changes for the cx23888 products */ + cx25840_write(client, 0x2, 0x76); + + /* Bring down the regulator for AUX clk */ + cx25840_write(client, 0x1, 0x40); + + /* Disable DIF bypass */ + cx25840_write4(client, 0x33c, 0x00000001); + + /* DIF Src phase inc */ + cx25840_write4(client, 0x340, 0x0df7df83); + + /* Luma */ + cx25840_write4(client, 0x414, 0x00107d12); + + /* Chroma */ + cx25840_write4(client, 0x420, 0x3d008282); + + /* ADC2 input select */ + cx25840_write(client, 0x102, 0x10); + + /* VIN1 & VIN5 */ + cx25840_write(client, 0x103, 0x11); + + /* Enable format auto detect */ + cx25840_write(client, 0x400, 0); + /* Fast subchroma lock */ + /* White crush, Chroma AGC & Chroma Killer enabled */ + cx25840_write(client, 0x401, 0xe8); + + /* Do the firmware load in a work handler to prevent. + Otherwise the kernel is blocked waiting for the + bit-banging i2c interface to finish uploading the + firmware. */ + INIT_WORK(&state->fw_work, cx25840_work_handler); + init_waitqueue_head(&state->fw_wait); + q = create_singlethread_workqueue("cx25840_fw"); + prepare_to_wait(&state->fw_wait, &wait, TASK_UNINTERRUPTIBLE); + queue_work(q, &state->fw_work); + schedule(); + finish_wait(&state->fw_wait, &wait); + destroy_workqueue(q); + + cx25840_std_setup(client); + + /* (re)set input */ + set_input(client, state->vid_input, state->aud_input); + + /* start microcontroller */ + cx25840_and_or(client, 0x803, ~0x10, 0x10); + + /* CC raw enable */ + cx25840_write(client, 0x404, 0x0b); + + /* CC on */ + cx25840_write(client, 0x42f, 0x66); + cx25840_write4(client, 0x474, 0x1e1e601a); +} + +/* ----------------------------------------------------------------------- */ + +void cx25840_std_setup(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + v4l2_std_id std = state->std; + int hblank, hactive, burst, vblank, vactive, sc; + int vblank656, src_decimation; + int luma_lpf, uv_lpf, comb; + u32 pll_int, pll_frac, pll_post; + + /* datasheet startup, step 8d */ + if (std & ~V4L2_STD_NTSC) + cx25840_write(client, 0x49f, 0x11); + else + cx25840_write(client, 0x49f, 0x14); + + if (std & V4L2_STD_625_50) { + hblank = 132; + hactive = 720; + burst = 93; + vblank = 36; + vactive = 580; + vblank656 = 40; + src_decimation = 0x21f; + luma_lpf = 2; + + if (std & V4L2_STD_SECAM) { + uv_lpf = 0; + comb = 0; + sc = 0x0a425f; + } else if (std == V4L2_STD_PAL_Nc) { + uv_lpf = 1; + comb = 0x20; + sc = 556453; + } else { + uv_lpf = 1; + comb = 0x20; + sc = 688739; + } + } else { + hactive = 720; + hblank = 122; + vactive = 487; + luma_lpf = 1; + uv_lpf = 1; + + src_decimation = 0x21f; + if (std == V4L2_STD_PAL_60) { + vblank = 26; + vblank656 = 26; + burst = 0x5b; + luma_lpf = 2; + comb = 0x20; + sc = 688739; + } else if (std == V4L2_STD_PAL_M) { + vblank = 20; + vblank656 = 24; + burst = 0x61; + comb = 0x20; + sc = 555452; + } else { + vblank = 26; + vblank656 = 26; + burst = 0x5b; + comb = 0x66; + sc = 556063; + } + } + + /* DEBUG: Displays configured PLL frequency */ + if (!is_cx231xx(state)) { + pll_int = cx25840_read(client, 0x108); + pll_frac = cx25840_read4(client, 0x10c) & 0x1ffffff; + pll_post = cx25840_read(client, 0x109); + v4l_dbg(1, cx25840_debug, client, + "PLL regs = int: %u, frac: %u, post: %u\n", + pll_int, pll_frac, pll_post); + + if (pll_post) { + int fin, fsc; + int pll = (28636363L * ((((u64)pll_int) << 25L) + pll_frac)) >> 25L; + + pll /= pll_post; + v4l_dbg(1, cx25840_debug, client, "PLL = %d.%06d MHz\n", + pll / 1000000, pll % 1000000); + v4l_dbg(1, cx25840_debug, client, "PLL/8 = %d.%06d MHz\n", + pll / 8000000, (pll / 8) % 1000000); + + fin = ((u64)src_decimation * pll) >> 12; + v4l_dbg(1, cx25840_debug, client, + "ADC Sampling freq = %d.%06d MHz\n", + fin / 1000000, fin % 1000000); + + fsc = (((u64)sc) * pll) >> 24L; + v4l_dbg(1, cx25840_debug, client, + "Chroma sub-carrier freq = %d.%06d MHz\n", + fsc / 1000000, fsc % 1000000); + + v4l_dbg(1, cx25840_debug, client, "hblank %i, hactive %i, " + "vblank %i, vactive %i, vblank656 %i, src_dec %i, " + "burst 0x%02x, luma_lpf %i, uv_lpf %i, comb 0x%02x, " + "sc 0x%06x\n", + hblank, hactive, vblank, vactive, vblank656, + src_decimation, burst, luma_lpf, uv_lpf, comb, sc); + } + } + + /* Sets horizontal blanking delay and active lines */ + cx25840_write(client, 0x470, hblank); + cx25840_write(client, 0x471, + (((hblank >> 8) & 0x3) | (hactive << 4)) & 0xff); + cx25840_write(client, 0x472, hactive >> 4); + + /* Sets burst gate delay */ + cx25840_write(client, 0x473, burst); + + /* Sets vertical blanking delay and active duration */ + cx25840_write(client, 0x474, vblank); + cx25840_write(client, 0x475, + (((vblank >> 8) & 0x3) | (vactive << 4)) & 0xff); + cx25840_write(client, 0x476, vactive >> 4); + cx25840_write(client, 0x477, vblank656); + + /* Sets src decimation rate */ + cx25840_write(client, 0x478, src_decimation & 0xff); + cx25840_write(client, 0x479, (src_decimation >> 8) & 0xff); + + /* Sets Luma and UV Low pass filters */ + cx25840_write(client, 0x47a, luma_lpf << 6 | ((uv_lpf << 4) & 0x30)); + + /* Enables comb filters */ + cx25840_write(client, 0x47b, comb); + + /* Sets SC Step*/ + cx25840_write(client, 0x47c, sc); + cx25840_write(client, 0x47d, (sc >> 8) & 0xff); + cx25840_write(client, 0x47e, (sc >> 16) & 0xff); + + /* Sets VBI parameters */ + if (std & V4L2_STD_625_50) { + cx25840_write(client, 0x47f, 0x01); + state->vbi_line_offset = 5; + } else { + cx25840_write(client, 0x47f, 0x00); + state->vbi_line_offset = 8; + } +} + +/* ----------------------------------------------------------------------- */ + +static void input_change(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + v4l2_std_id std = state->std; + + /* Follow step 8c and 8d of section 3.16 in the cx25840 datasheet */ + if (std & V4L2_STD_SECAM) { + cx25840_write(client, 0x402, 0); + } + else { + cx25840_write(client, 0x402, 0x04); + cx25840_write(client, 0x49f, (std & V4L2_STD_NTSC) ? 0x14 : 0x11); + } + cx25840_and_or(client, 0x401, ~0x60, 0); + cx25840_and_or(client, 0x401, ~0x60, 0x60); + + /* Don't write into audio registers on cx2583x chips */ + if (is_cx2583x(state)) + return; + + cx25840_and_or(client, 0x810, ~0x01, 1); + + if (state->radio) { + cx25840_write(client, 0x808, 0xf9); + cx25840_write(client, 0x80b, 0x00); + } + else if (std & V4L2_STD_525_60) { + /* Certain Hauppauge PVR150 models have a hardware bug + that causes audio to drop out. For these models the + audio standard must be set explicitly. + To be precise: it affects cards with tuner models + 85, 99 and 112 (model numbers from tveeprom). */ + int hw_fix = state->pvr150_workaround; + + if (std == V4L2_STD_NTSC_M_JP) { + /* Japan uses EIAJ audio standard */ + cx25840_write(client, 0x808, hw_fix ? 0x2f : 0xf7); + } else if (std == V4L2_STD_NTSC_M_KR) { + /* South Korea uses A2 audio standard */ + cx25840_write(client, 0x808, hw_fix ? 0x3f : 0xf8); + } else { + /* Others use the BTSC audio standard */ + cx25840_write(client, 0x808, hw_fix ? 0x1f : 0xf6); + } + cx25840_write(client, 0x80b, 0x00); + } else if (std & V4L2_STD_PAL) { + /* Autodetect audio standard and audio system */ + cx25840_write(client, 0x808, 0xff); + /* Since system PAL-L is pretty much non-existent and + not used by any public broadcast network, force + 6.5 MHz carrier to be interpreted as System DK, + this avoids DK audio detection instability */ + cx25840_write(client, 0x80b, 0x00); + } else if (std & V4L2_STD_SECAM) { + /* Autodetect audio standard and audio system */ + cx25840_write(client, 0x808, 0xff); + /* If only one of SECAM-DK / SECAM-L is required, then force + 6.5MHz carrier, else autodetect it */ + if ((std & V4L2_STD_SECAM_DK) && + !(std & (V4L2_STD_SECAM_L | V4L2_STD_SECAM_LC))) { + /* 6.5 MHz carrier to be interpreted as System DK */ + cx25840_write(client, 0x80b, 0x00); + } else if (!(std & V4L2_STD_SECAM_DK) && + (std & (V4L2_STD_SECAM_L | V4L2_STD_SECAM_LC))) { + /* 6.5 MHz carrier to be interpreted as System L */ + cx25840_write(client, 0x80b, 0x08); + } else { + /* 6.5 MHz carrier to be autodetected */ + cx25840_write(client, 0x80b, 0x10); + } + } + + cx25840_and_or(client, 0x810, ~0x01, 0); +} + +static int set_input(struct i2c_client *client, enum cx25840_video_input vid_input, + enum cx25840_audio_input aud_input) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + u8 is_composite = (vid_input >= CX25840_COMPOSITE1 && + vid_input <= CX25840_COMPOSITE8); + u8 is_component = (vid_input & CX25840_COMPONENT_ON) == + CX25840_COMPONENT_ON; + u8 is_dif = (vid_input & CX25840_DIF_ON) == + CX25840_DIF_ON; + u8 is_svideo = (vid_input & CX25840_SVIDEO_ON) == + CX25840_SVIDEO_ON; + int luma = vid_input & 0xf0; + int chroma = vid_input & 0xf00; + u8 reg; + u32 val; + + v4l_dbg(1, cx25840_debug, client, + "decoder set video input %d, audio input %d\n", + vid_input, aud_input); + + if (vid_input >= CX25840_VIN1_CH1) { + v4l_dbg(1, cx25840_debug, client, "vid_input 0x%x\n", + vid_input); + reg = vid_input & 0xff; + is_composite = !is_component && + ((vid_input & CX25840_SVIDEO_ON) != CX25840_SVIDEO_ON); + + v4l_dbg(1, cx25840_debug, client, "mux cfg 0x%x comp=%d\n", + reg, is_composite); + } else if (is_composite) { + reg = 0xf0 + (vid_input - CX25840_COMPOSITE1); + } else { + if ((vid_input & ~0xff0) || + luma < CX25840_SVIDEO_LUMA1 || luma > CX25840_SVIDEO_LUMA8 || + chroma < CX25840_SVIDEO_CHROMA4 || chroma > CX25840_SVIDEO_CHROMA8) { + v4l_err(client, "0x%04x is not a valid video input!\n", + vid_input); + return -EINVAL; + } + reg = 0xf0 + ((luma - CX25840_SVIDEO_LUMA1) >> 4); + if (chroma >= CX25840_SVIDEO_CHROMA7) { + reg &= 0x3f; + reg |= (chroma - CX25840_SVIDEO_CHROMA7) >> 2; + } else { + reg &= 0xcf; + reg |= (chroma - CX25840_SVIDEO_CHROMA4) >> 4; + } + } + + /* The caller has previously prepared the correct routing + * configuration in reg (for the cx23885) so we have no + * need to attempt to flip bits for earlier av decoders. + */ + if (!is_cx2388x(state) && !is_cx231xx(state)) { + switch (aud_input) { + case CX25840_AUDIO_SERIAL: + /* do nothing, use serial audio input */ + break; + case CX25840_AUDIO4: reg &= ~0x30; break; + case CX25840_AUDIO5: reg &= ~0x30; reg |= 0x10; break; + case CX25840_AUDIO6: reg &= ~0x30; reg |= 0x20; break; + case CX25840_AUDIO7: reg &= ~0xc0; break; + case CX25840_AUDIO8: reg &= ~0xc0; reg |= 0x40; break; + + default: + v4l_err(client, "0x%04x is not a valid audio input!\n", + aud_input); + return -EINVAL; + } + } + + cx25840_write(client, 0x103, reg); + + /* Set INPUT_MODE to Composite, S-Video or Component */ + if (is_component) + cx25840_and_or(client, 0x401, ~0x6, 0x6); + else + cx25840_and_or(client, 0x401, ~0x6, is_composite ? 0 : 0x02); + + if (is_cx2388x(state)) { + + /* Enable or disable the DIF for tuner use */ + if (is_dif) { + cx25840_and_or(client, 0x102, ~0x80, 0x80); + + /* Set of defaults for NTSC and PAL */ + cx25840_write4(client, 0x31c, 0xc2262600); + cx25840_write4(client, 0x320, 0xc2262600); + + /* 18271 IF - Nobody else yet uses a different + * tuner with the DIF, so these are reasonable + * assumptions (HVR1250 and HVR1850 specific). + */ + cx25840_write4(client, 0x318, 0xda262600); + cx25840_write4(client, 0x33c, 0x2a24c800); + cx25840_write4(client, 0x104, 0x0704dd00); + } else { + cx25840_write4(client, 0x300, 0x015c28f5); + + cx25840_and_or(client, 0x102, ~0x80, 0); + cx25840_write4(client, 0x340, 0xdf7df83); + cx25840_write4(client, 0x104, 0x0704dd80); + cx25840_write4(client, 0x314, 0x22400600); + cx25840_write4(client, 0x318, 0x40002600); + cx25840_write4(client, 0x324, 0x40002600); + cx25840_write4(client, 0x32c, 0x0250e620); + cx25840_write4(client, 0x39c, 0x01FF0B00); + + cx25840_write4(client, 0x410, 0xffff0dbf); + cx25840_write4(client, 0x414, 0x00137d03); + + /* on the 887, 0x418 is HSCALE_CTRL, on the 888 it is + CHROMA_CTRL */ + if (is_cx23888(state)) + cx25840_write4(client, 0x418, 0x01008080); + else + cx25840_write4(client, 0x418, 0x01000000); + + cx25840_write4(client, 0x41c, 0x00000000); + + /* on the 887, 0x420 is CHROMA_CTRL, on the 888 it is + CRUSH_CTRL */ + if (is_cx23888(state)) + cx25840_write4(client, 0x420, 0x001c3e0f); + else + cx25840_write4(client, 0x420, 0x001c8282); + + cx25840_write4(client, 0x42c, 0x42600000); + cx25840_write4(client, 0x430, 0x0000039b); + cx25840_write4(client, 0x438, 0x00000000); + + cx25840_write4(client, 0x440, 0xF8E3E824); + cx25840_write4(client, 0x444, 0x401040dc); + cx25840_write4(client, 0x448, 0xcd3f02a0); + cx25840_write4(client, 0x44c, 0x161f1000); + cx25840_write4(client, 0x450, 0x00000802); + + cx25840_write4(client, 0x91c, 0x01000000); + cx25840_write4(client, 0x8e0, 0x03063870); + cx25840_write4(client, 0x8d4, 0x7FFF0024); + cx25840_write4(client, 0x8d0, 0x00063073); + + cx25840_write4(client, 0x8c8, 0x00010000); + cx25840_write4(client, 0x8cc, 0x00080023); + + /* DIF BYPASS */ + cx25840_write4(client, 0x33c, 0x2a04c800); + } + + /* Reset the DIF */ + cx25840_write4(client, 0x398, 0); + } + + if (!is_cx2388x(state) && !is_cx231xx(state)) { + /* Set CH_SEL_ADC2 to 1 if input comes from CH3 */ + cx25840_and_or(client, 0x102, ~0x2, (reg & 0x80) == 0 ? 2 : 0); + /* Set DUAL_MODE_ADC2 to 1 if input comes from both CH2&CH3 */ + if ((reg & 0xc0) != 0xc0 && (reg & 0x30) != 0x30) + cx25840_and_or(client, 0x102, ~0x4, 4); + else + cx25840_and_or(client, 0x102, ~0x4, 0); + } else { + /* Set DUAL_MODE_ADC2 to 1 if component*/ + cx25840_and_or(client, 0x102, ~0x4, is_component ? 0x4 : 0x0); + if (is_composite) { + /* ADC2 input select channel 2 */ + cx25840_and_or(client, 0x102, ~0x2, 0); + } else if (!is_component) { + /* S-Video */ + if (chroma >= CX25840_SVIDEO_CHROMA7) { + /* ADC2 input select channel 3 */ + cx25840_and_or(client, 0x102, ~0x2, 2); + } else { + /* ADC2 input select channel 2 */ + cx25840_and_or(client, 0x102, ~0x2, 0); + } + } + + /* cx23885 / SVIDEO */ + if (is_cx2388x(state) && is_svideo) { +#define AFE_CTRL (0x104) +#define MODE_CTRL (0x400) + cx25840_and_or(client, 0x102, ~0x2, 0x2); + + val = cx25840_read4(client, MODE_CTRL); + val &= 0xFFFFF9FF; + + /* YC */ + val |= 0x00000200; + val &= ~0x2000; + cx25840_write4(client, MODE_CTRL, val); + + val = cx25840_read4(client, AFE_CTRL); + + /* Chroma in select */ + val |= 0x00001000; + val &= 0xfffffe7f; + /* Clear VGA_SEL_CH2 and VGA_SEL_CH3 (bits 7 and 8). + * This sets them to use video rather than audio. + * Only one of the two will be in use. + */ + cx25840_write4(client, AFE_CTRL, val); + } else + cx25840_and_or(client, 0x102, ~0x2, 0); + } + + state->vid_input = vid_input; + state->aud_input = aud_input; + cx25840_audio_set_path(client); + input_change(client); + + if (is_cx2388x(state)) { + /* Audio channel 1 src : Parallel 1 */ + cx25840_write(client, 0x124, 0x03); + + /* Select AFE clock pad output source */ + cx25840_write(client, 0x144, 0x05); + + /* I2S_IN_CTL: I2S_IN_SONY_MODE, LEFT SAMPLE on WS=1 */ + cx25840_write(client, 0x914, 0xa0); + + /* I2S_OUT_CTL: + * I2S_IN_SONY_MODE, LEFT SAMPLE on WS=1 + * I2S_OUT_MASTER_MODE = Master + */ + cx25840_write(client, 0x918, 0xa0); + cx25840_write(client, 0x919, 0x01); + } else if (is_cx231xx(state)) { + /* Audio channel 1 src : Parallel 1 */ + cx25840_write(client, 0x124, 0x03); + + /* I2S_IN_CTL: I2S_IN_SONY_MODE, LEFT SAMPLE on WS=1 */ + cx25840_write(client, 0x914, 0xa0); + + /* I2S_OUT_CTL: + * I2S_IN_SONY_MODE, LEFT SAMPLE on WS=1 + * I2S_OUT_MASTER_MODE = Master + */ + cx25840_write(client, 0x918, 0xa0); + cx25840_write(client, 0x919, 0x01); + } + + if (is_cx2388x(state) && ((aud_input == CX25840_AUDIO7) || + (aud_input == CX25840_AUDIO6))) { + /* Configure audio from LR1 or LR2 input */ + cx25840_write4(client, 0x910, 0); + cx25840_write4(client, 0x8d0, 0x63073); + } else + if (is_cx2388x(state) && (aud_input == CX25840_AUDIO8)) { + /* Configure audio from tuner/sif input */ + cx25840_write4(client, 0x910, 0x12b000c9); + cx25840_write4(client, 0x8d0, 0x1f063870); + } + + if (is_cx23888(state)) { + /* HVR1850 */ + /* AUD_IO_CTRL - I2S Input, Parallel1*/ + /* - Channel 1 src - Parallel1 (Merlin out) */ + /* - Channel 2 src - Parallel2 (Merlin out) */ + /* - Channel 3 src - Parallel3 (Merlin AC97 out) */ + /* - I2S source and dir - Merlin, output */ + cx25840_write4(client, 0x124, 0x100); + + if (!is_dif) { + /* Stop microcontroller if we don't need it + * to avoid audio popping on svideo/composite use. + */ + cx25840_and_or(client, 0x803, ~0x10, 0x00); + } + } + + return 0; +} + +/* ----------------------------------------------------------------------- */ + +static int set_v4lstd(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + u8 fmt = 0; /* zero is autodetect */ + u8 pal_m = 0; + + /* First tests should be against specific std */ + if (state->std == V4L2_STD_NTSC_M_JP) { + fmt = 0x2; + } else if (state->std == V4L2_STD_NTSC_443) { + fmt = 0x3; + } else if (state->std == V4L2_STD_PAL_M) { + pal_m = 1; + fmt = 0x5; + } else if (state->std == V4L2_STD_PAL_N) { + fmt = 0x6; + } else if (state->std == V4L2_STD_PAL_Nc) { + fmt = 0x7; + } else if (state->std == V4L2_STD_PAL_60) { + fmt = 0x8; + } else { + /* Then, test against generic ones */ + if (state->std & V4L2_STD_NTSC) + fmt = 0x1; + else if (state->std & V4L2_STD_PAL) + fmt = 0x4; + else if (state->std & V4L2_STD_SECAM) + fmt = 0xc; + } + + v4l_dbg(1, cx25840_debug, client, "changing video std to fmt %i\n",fmt); + + /* Follow step 9 of section 3.16 in the cx25840 datasheet. + Without this PAL may display a vertical ghosting effect. + This happens for example with the Yuan MPC622. */ + if (fmt >= 4 && fmt < 8) { + /* Set format to NTSC-M */ + cx25840_and_or(client, 0x400, ~0xf, 1); + /* Turn off LCOMB */ + cx25840_and_or(client, 0x47b, ~6, 0); + } + cx25840_and_or(client, 0x400, ~0xf, fmt); + cx25840_and_or(client, 0x403, ~0x3, pal_m); + if (is_cx23888(state)) + cx23888_std_setup(client); + else + cx25840_std_setup(client); + if (!is_cx2583x(state)) + input_change(client); + return 0; +} + +/* ----------------------------------------------------------------------- */ + +static int cx25840_s_ctrl(struct v4l2_ctrl *ctrl) +{ + struct v4l2_subdev *sd = to_sd(ctrl); + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + switch (ctrl->id) { + case V4L2_CID_BRIGHTNESS: + cx25840_write(client, 0x414, ctrl->val - 128); + break; + + case V4L2_CID_CONTRAST: + cx25840_write(client, 0x415, ctrl->val << 1); + break; + + case V4L2_CID_SATURATION: + if (is_cx23888(state)) { + cx25840_write(client, 0x418, ctrl->val << 1); + cx25840_write(client, 0x419, ctrl->val << 1); + } else { + cx25840_write(client, 0x420, ctrl->val << 1); + cx25840_write(client, 0x421, ctrl->val << 1); + } + break; + + case V4L2_CID_HUE: + if (is_cx23888(state)) + cx25840_write(client, 0x41a, ctrl->val); + else + cx25840_write(client, 0x422, ctrl->val); + break; + + default: + return -EINVAL; + } + + return 0; +} + +/* ----------------------------------------------------------------------- */ + +static int cx25840_s_mbus_fmt(struct v4l2_subdev *sd, struct v4l2_mbus_framefmt *fmt) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + int HSC, VSC, Vsrc, Hsrc, filter, Vlines; + int is_50Hz = !(state->std & V4L2_STD_525_60); + + if (fmt->code != MEDIA_BUS_FMT_FIXED) + return -EINVAL; + + fmt->field = V4L2_FIELD_INTERLACED; + fmt->colorspace = V4L2_COLORSPACE_SMPTE170M; + + if (is_cx23888(state)) { + Vsrc = (cx25840_read(client, 0x42a) & 0x3f) << 4; + Vsrc |= (cx25840_read(client, 0x429) & 0xf0) >> 4; + } else { + Vsrc = (cx25840_read(client, 0x476) & 0x3f) << 4; + Vsrc |= (cx25840_read(client, 0x475) & 0xf0) >> 4; + } + + if (is_cx23888(state)) { + Hsrc = (cx25840_read(client, 0x426) & 0x3f) << 4; + Hsrc |= (cx25840_read(client, 0x425) & 0xf0) >> 4; + } else { + Hsrc = (cx25840_read(client, 0x472) & 0x3f) << 4; + Hsrc |= (cx25840_read(client, 0x471) & 0xf0) >> 4; + } + + Vlines = fmt->height + (is_50Hz ? 4 : 7); + + if ((fmt->width * 16 < Hsrc) || (Hsrc < fmt->width) || + (Vlines * 8 < Vsrc) || (Vsrc < Vlines)) { + v4l_err(client, "%dx%d is not a valid size!\n", + fmt->width, fmt->height); + return -ERANGE; + } + + HSC = (Hsrc * (1 << 20)) / fmt->width - (1 << 20); + VSC = (1 << 16) - (Vsrc * (1 << 9) / Vlines - (1 << 9)); + VSC &= 0x1fff; + + if (fmt->width >= 385) + filter = 0; + else if (fmt->width > 192) + filter = 1; + else if (fmt->width > 96) + filter = 2; + else + filter = 3; + + v4l_dbg(1, cx25840_debug, client, "decoder set size %dx%d -> scale %ux%u\n", + fmt->width, fmt->height, HSC, VSC); + + /* HSCALE=HSC */ + cx25840_write(client, 0x418, HSC & 0xff); + cx25840_write(client, 0x419, (HSC >> 8) & 0xff); + cx25840_write(client, 0x41a, HSC >> 16); + /* VSCALE=VSC */ + cx25840_write(client, 0x41c, VSC & 0xff); + cx25840_write(client, 0x41d, VSC >> 8); + /* VS_INTRLACE=1 VFILT=filter */ + cx25840_write(client, 0x41e, 0x8 | filter); + return 0; +} + +/* ----------------------------------------------------------------------- */ + +static void log_video_status(struct i2c_client *client) +{ + static const char *const fmt_strs[] = { + "0x0", + "NTSC-M", "NTSC-J", "NTSC-4.43", + "PAL-BDGHI", "PAL-M", "PAL-N", "PAL-Nc", "PAL-60", + "0x9", "0xA", "0xB", + "SECAM", + "0xD", "0xE", "0xF" + }; + + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + u8 vidfmt_sel = cx25840_read(client, 0x400) & 0xf; + u8 gen_stat1 = cx25840_read(client, 0x40d); + u8 gen_stat2 = cx25840_read(client, 0x40e); + int vid_input = state->vid_input; + + v4l_info(client, "Video signal: %spresent\n", + (gen_stat2 & 0x20) ? "" : "not "); + v4l_info(client, "Detected format: %s\n", + fmt_strs[gen_stat1 & 0xf]); + + v4l_info(client, "Specified standard: %s\n", + vidfmt_sel ? fmt_strs[vidfmt_sel] : "automatic detection"); + + if (vid_input >= CX25840_COMPOSITE1 && + vid_input <= CX25840_COMPOSITE8) { + v4l_info(client, "Specified video input: Composite %d\n", + vid_input - CX25840_COMPOSITE1 + 1); + } else { + v4l_info(client, "Specified video input: S-Video (Luma In%d, Chroma In%d)\n", + (vid_input & 0xf0) >> 4, (vid_input & 0xf00) >> 8); + } + + v4l_info(client, "Specified audioclock freq: %d Hz\n", state->audclk_freq); +} + +/* ----------------------------------------------------------------------- */ + +static void log_audio_status(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + u8 download_ctl = cx25840_read(client, 0x803); + u8 mod_det_stat0 = cx25840_read(client, 0x804); + u8 mod_det_stat1 = cx25840_read(client, 0x805); + u8 audio_config = cx25840_read(client, 0x808); + u8 pref_mode = cx25840_read(client, 0x809); + u8 afc0 = cx25840_read(client, 0x80b); + u8 mute_ctl = cx25840_read(client, 0x8d3); + int aud_input = state->aud_input; + char *p; + + switch (mod_det_stat0) { + case 0x00: p = "mono"; break; + case 0x01: p = "stereo"; break; + case 0x02: p = "dual"; break; + case 0x04: p = "tri"; break; + case 0x10: p = "mono with SAP"; break; + case 0x11: p = "stereo with SAP"; break; + case 0x12: p = "dual with SAP"; break; + case 0x14: p = "tri with SAP"; break; + case 0xfe: p = "forced mode"; break; + default: p = "not defined"; + } + v4l_info(client, "Detected audio mode: %s\n", p); + + switch (mod_det_stat1) { + case 0x00: p = "not defined"; break; + case 0x01: p = "EIAJ"; break; + case 0x02: p = "A2-M"; break; + case 0x03: p = "A2-BG"; break; + case 0x04: p = "A2-DK1"; break; + case 0x05: p = "A2-DK2"; break; + case 0x06: p = "A2-DK3"; break; + case 0x07: p = "A1 (6.0 MHz FM Mono)"; break; + case 0x08: p = "AM-L"; break; + case 0x09: p = "NICAM-BG"; break; + case 0x0a: p = "NICAM-DK"; break; + case 0x0b: p = "NICAM-I"; break; + case 0x0c: p = "NICAM-L"; break; + case 0x0d: p = "BTSC/EIAJ/A2-M Mono (4.5 MHz FMMono)"; break; + case 0x0e: p = "IF FM Radio"; break; + case 0x0f: p = "BTSC"; break; + case 0x10: p = "high-deviation FM"; break; + case 0x11: p = "very high-deviation FM"; break; + case 0xfd: p = "unknown audio standard"; break; + case 0xfe: p = "forced audio standard"; break; + case 0xff: p = "no detected audio standard"; break; + default: p = "not defined"; + } + v4l_info(client, "Detected audio standard: %s\n", p); + v4l_info(client, "Audio microcontroller: %s\n", + (download_ctl & 0x10) ? + ((mute_ctl & 0x2) ? "detecting" : "running") : "stopped"); + + switch (audio_config >> 4) { + case 0x00: p = "undefined"; break; + case 0x01: p = "BTSC"; break; + case 0x02: p = "EIAJ"; break; + case 0x03: p = "A2-M"; break; + case 0x04: p = "A2-BG"; break; + case 0x05: p = "A2-DK1"; break; + case 0x06: p = "A2-DK2"; break; + case 0x07: p = "A2-DK3"; break; + case 0x08: p = "A1 (6.0 MHz FM Mono)"; break; + case 0x09: p = "AM-L"; break; + case 0x0a: p = "NICAM-BG"; break; + case 0x0b: p = "NICAM-DK"; break; + case 0x0c: p = "NICAM-I"; break; + case 0x0d: p = "NICAM-L"; break; + case 0x0e: p = "FM radio"; break; + case 0x0f: p = "automatic detection"; break; + default: p = "undefined"; + } + v4l_info(client, "Configured audio standard: %s\n", p); + + if ((audio_config >> 4) < 0xF) { + switch (audio_config & 0xF) { + case 0x00: p = "MONO1 (LANGUAGE A/Mono L+R channel for BTSC, EIAJ, A2)"; break; + case 0x01: p = "MONO2 (LANGUAGE B)"; break; + case 0x02: p = "MONO3 (STEREO forced MONO)"; break; + case 0x03: p = "MONO4 (NICAM ANALOG-Language C/Analog Fallback)"; break; + case 0x04: p = "STEREO"; break; + case 0x05: p = "DUAL1 (AB)"; break; + case 0x06: p = "DUAL2 (AC) (FM)"; break; + case 0x07: p = "DUAL3 (BC) (FM)"; break; + case 0x08: p = "DUAL4 (AC) (AM)"; break; + case 0x09: p = "DUAL5 (BC) (AM)"; break; + case 0x0a: p = "SAP"; break; + default: p = "undefined"; + } + v4l_info(client, "Configured audio mode: %s\n", p); + } else { + switch (audio_config & 0xF) { + case 0x00: p = "BG"; break; + case 0x01: p = "DK1"; break; + case 0x02: p = "DK2"; break; + case 0x03: p = "DK3"; break; + case 0x04: p = "I"; break; + case 0x05: p = "L"; break; + case 0x06: p = "BTSC"; break; + case 0x07: p = "EIAJ"; break; + case 0x08: p = "A2-M"; break; + case 0x09: p = "FM Radio"; break; + case 0x0f: p = "automatic standard and mode detection"; break; + default: p = "undefined"; + } + v4l_info(client, "Configured audio system: %s\n", p); + } + + if (aud_input) { + v4l_info(client, "Specified audio input: Tuner (In%d)\n", aud_input); + } else { + v4l_info(client, "Specified audio input: External\n"); + } + + switch (pref_mode & 0xf) { + case 0: p = "mono/language A"; break; + case 1: p = "language B"; break; + case 2: p = "language C"; break; + case 3: p = "analog fallback"; break; + case 4: p = "stereo"; break; + case 5: p = "language AC"; break; + case 6: p = "language BC"; break; + case 7: p = "language AB"; break; + default: p = "undefined"; + } + v4l_info(client, "Preferred audio mode: %s\n", p); + + if ((audio_config & 0xf) == 0xf) { + switch ((afc0 >> 3) & 0x3) { + case 0: p = "system DK"; break; + case 1: p = "system L"; break; + case 2: p = "autodetect"; break; + default: p = "undefined"; + } + v4l_info(client, "Selected 65 MHz format: %s\n", p); + + switch (afc0 & 0x7) { + case 0: p = "chroma"; break; + case 1: p = "BTSC"; break; + case 2: p = "EIAJ"; break; + case 3: p = "A2-M"; break; + case 4: p = "autodetect"; break; + default: p = "undefined"; + } + v4l_info(client, "Selected 45 MHz format: %s\n", p); + } +} + +/* ----------------------------------------------------------------------- */ + +/* This load_fw operation must be called to load the driver's firmware. + Without this the audio standard detection will fail and you will + only get mono. + + Since loading the firmware is often problematic when the driver is + compiled into the kernel I recommend postponing calling this function + until the first open of the video device. Another reason for + postponing it is that loading this firmware takes a long time (seconds) + due to the slow i2c bus speed. So it will speed up the boot process if + you can avoid loading the fw as long as the video device isn't used. */ +static int cx25840_load_fw(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + if (!state->is_initialized) { + /* initialize and load firmware */ + state->is_initialized = 1; + if (is_cx2583x(state)) + cx25836_initialize(client); + else if (is_cx2388x(state)) + cx23885_initialize(client); + else if (is_cx231xx(state)) + cx231xx_initialize(client); + else + cx25840_initialize(client); + } + return 0; +} + +#ifdef CONFIG_VIDEO_ADV_DEBUG +static int cx25840_g_register(struct v4l2_subdev *sd, struct v4l2_dbg_register *reg) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + + reg->size = 1; + reg->val = cx25840_read(client, reg->reg & 0x0fff); + return 0; +} + +static int cx25840_s_register(struct v4l2_subdev *sd, const struct v4l2_dbg_register *reg) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + + cx25840_write(client, reg->reg & 0x0fff, reg->val & 0xff); + return 0; +} +#endif + +static int cx25840_s_audio_stream(struct v4l2_subdev *sd, int enable) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + u8 v; + + if (is_cx2583x(state) || is_cx2388x(state) || is_cx231xx(state)) + return 0; + + v4l_dbg(1, cx25840_debug, client, "%s audio output\n", + enable ? "enable" : "disable"); + + if (enable) { + v = cx25840_read(client, 0x115) | 0x80; + cx25840_write(client, 0x115, v); + v = cx25840_read(client, 0x116) | 0x03; + cx25840_write(client, 0x116, v); + } else { + v = cx25840_read(client, 0x115) & ~(0x80); + cx25840_write(client, 0x115, v); + v = cx25840_read(client, 0x116) & ~(0x03); + cx25840_write(client, 0x116, v); + } + return 0; +} + +static int cx25840_s_stream(struct v4l2_subdev *sd, int enable) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + u8 v; + + v4l_dbg(1, cx25840_debug, client, "%s video output\n", + enable ? "enable" : "disable"); + if (enable) { + if (is_cx2388x(state) || is_cx231xx(state)) { + v = cx25840_read(client, 0x421) | 0x0b; + cx25840_write(client, 0x421, v); + } else { + v = cx25840_read(client, 0x115) | 0x0c; + cx25840_write(client, 0x115, v); + v = cx25840_read(client, 0x116) | 0x04; + cx25840_write(client, 0x116, v); + } + } else { + if (is_cx2388x(state) || is_cx231xx(state)) { + v = cx25840_read(client, 0x421) & ~(0x0b); + cx25840_write(client, 0x421, v); + } else { + v = cx25840_read(client, 0x115) & ~(0x0c); + cx25840_write(client, 0x115, v); + v = cx25840_read(client, 0x116) & ~(0x04); + cx25840_write(client, 0x116, v); + } + } + return 0; +} + +/* Query the current detected video format */ +static int cx25840_g_std(struct v4l2_subdev *sd, v4l2_std_id *std) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + + v4l2_std_id stds[] = { + /* 0000 */ V4L2_STD_UNKNOWN, + + /* 0001 */ V4L2_STD_NTSC_M, + /* 0010 */ V4L2_STD_NTSC_M_JP, + /* 0011 */ V4L2_STD_NTSC_443, + /* 0100 */ V4L2_STD_PAL, + /* 0101 */ V4L2_STD_PAL_M, + /* 0110 */ V4L2_STD_PAL_N, + /* 0111 */ V4L2_STD_PAL_Nc, + /* 1000 */ V4L2_STD_PAL_60, + + /* 1001 */ V4L2_STD_UNKNOWN, + /* 1010 */ V4L2_STD_UNKNOWN, + /* 1001 */ V4L2_STD_UNKNOWN, + /* 1010 */ V4L2_STD_UNKNOWN, + /* 1011 */ V4L2_STD_UNKNOWN, + /* 1110 */ V4L2_STD_UNKNOWN, + /* 1111 */ V4L2_STD_UNKNOWN + }; + + u32 fmt = (cx25840_read4(client, 0x40c) >> 8) & 0xf; + *std = stds[ fmt ]; + + v4l_dbg(1, cx25840_debug, client, "g_std fmt = %x, v4l2_std_id = 0x%x\n", + fmt, (unsigned int)stds[ fmt ]); + + return 0; +} + +static int cx25840_g_input_status(struct v4l2_subdev *sd, u32 *status) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + + /* A limited function that checks for signal status and returns + * the state. + */ + + /* Check for status of Horizontal lock (SRC lock isn't reliable) */ + if ((cx25840_read4(client, 0x40c) & 0x00010000) == 0) + *status |= V4L2_IN_ST_NO_SIGNAL; + + return 0; +} + +static int cx25840_s_std(struct v4l2_subdev *sd, v4l2_std_id std) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + if (state->radio == 0 && state->std == std) + return 0; + state->radio = 0; + state->std = std; + return set_v4lstd(client); +} + +static int cx25840_s_radio(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + + state->radio = 1; + return 0; +} + +static int cx25840_s_video_routing(struct v4l2_subdev *sd, + u32 input, u32 output, u32 config) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + if (is_cx23888(state)) + cx23888_std_setup(client); + + return set_input(client, input, state->aud_input); +} + +static int cx25840_s_audio_routing(struct v4l2_subdev *sd, + u32 input, u32 output, u32 config) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + if (is_cx23888(state)) + cx23888_std_setup(client); + return set_input(client, state->vid_input, input); +} + +static int cx25840_s_frequency(struct v4l2_subdev *sd, const struct v4l2_frequency *freq) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + + input_change(client); + return 0; +} + +static int cx25840_g_tuner(struct v4l2_subdev *sd, struct v4l2_tuner *vt) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + u8 vpres = cx25840_read(client, 0x40e) & 0x20; + u8 mode; + int val = 0; + + if (state->radio) + return 0; + + vt->signal = vpres ? 0xffff : 0x0; + if (is_cx2583x(state)) + return 0; + + vt->capability |= + V4L2_TUNER_CAP_STEREO | V4L2_TUNER_CAP_LANG1 | + V4L2_TUNER_CAP_LANG2 | V4L2_TUNER_CAP_SAP; + + mode = cx25840_read(client, 0x804); + + /* get rxsubchans and audmode */ + if ((mode & 0xf) == 1) + val |= V4L2_TUNER_SUB_STEREO; + else + val |= V4L2_TUNER_SUB_MONO; + + if (mode == 2 || mode == 4) + val = V4L2_TUNER_SUB_LANG1 | V4L2_TUNER_SUB_LANG2; + + if (mode & 0x10) + val |= V4L2_TUNER_SUB_SAP; + + vt->rxsubchans = val; + vt->audmode = state->audmode; + return 0; +} + +static int cx25840_s_tuner(struct v4l2_subdev *sd, const struct v4l2_tuner *vt) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + if (state->radio || is_cx2583x(state)) + return 0; + + switch (vt->audmode) { + case V4L2_TUNER_MODE_MONO: + /* mono -> mono + stereo -> mono + bilingual -> lang1 */ + cx25840_and_or(client, 0x809, ~0xf, 0x00); + break; + case V4L2_TUNER_MODE_STEREO: + case V4L2_TUNER_MODE_LANG1: + /* mono -> mono + stereo -> stereo + bilingual -> lang1 */ + cx25840_and_or(client, 0x809, ~0xf, 0x04); + break; + case V4L2_TUNER_MODE_LANG1_LANG2: + /* mono -> mono + stereo -> stereo + bilingual -> lang1/lang2 */ + cx25840_and_or(client, 0x809, ~0xf, 0x07); + break; + case V4L2_TUNER_MODE_LANG2: + /* mono -> mono + stereo -> stereo + bilingual -> lang2 */ + cx25840_and_or(client, 0x809, ~0xf, 0x01); + break; + default: + return -EINVAL; + } + state->audmode = vt->audmode; + return 0; +} + +static int cx25840_reset(struct v4l2_subdev *sd, u32 val) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + if (is_cx2583x(state)) + cx25836_initialize(client); + else if (is_cx2388x(state)) + cx23885_initialize(client); + else if (is_cx231xx(state)) + cx231xx_initialize(client); + else + cx25840_initialize(client); + return 0; +} + +static int cx25840_log_status(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *client = v4l2_get_subdevdata(sd); + + log_video_status(client); + if (!is_cx2583x(state)) + log_audio_status(client); + cx25840_ir_log_status(sd); + v4l2_ctrl_handler_log_status(&state->hdl, sd->name); + return 0; +} + +static int cx23885_irq_handler(struct v4l2_subdev *sd, u32 status, + bool *handled) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *c = v4l2_get_subdevdata(sd); + u8 irq_stat, aud_stat, aud_en, ir_stat, ir_en; + u32 vid_stat, aud_mc_stat; + bool block_handled; + int ret = 0; + + irq_stat = cx25840_read(c, CX23885_PIN_CTRL_IRQ_REG); + v4l_dbg(2, cx25840_debug, c, "AV Core IRQ status (entry): %s %s %s\n", + irq_stat & CX23885_PIN_CTRL_IRQ_IR_STAT ? "ir" : " ", + irq_stat & CX23885_PIN_CTRL_IRQ_AUD_STAT ? "aud" : " ", + irq_stat & CX23885_PIN_CTRL_IRQ_VID_STAT ? "vid" : " "); + + if ((is_cx23885(state) || is_cx23887(state))) { + ir_stat = cx25840_read(c, CX25840_IR_STATS_REG); + ir_en = cx25840_read(c, CX25840_IR_IRQEN_REG); + v4l_dbg(2, cx25840_debug, c, + "AV Core ir IRQ status: %#04x disables: %#04x\n", + ir_stat, ir_en); + if (irq_stat & CX23885_PIN_CTRL_IRQ_IR_STAT) { + block_handled = false; + ret = cx25840_ir_irq_handler(sd, + status, &block_handled); + if (block_handled) + *handled = true; + } + } + + aud_stat = cx25840_read(c, CX25840_AUD_INT_STAT_REG); + aud_en = cx25840_read(c, CX25840_AUD_INT_CTRL_REG); + v4l_dbg(2, cx25840_debug, c, + "AV Core audio IRQ status: %#04x disables: %#04x\n", + aud_stat, aud_en); + aud_mc_stat = cx25840_read4(c, CX23885_AUD_MC_INT_MASK_REG); + v4l_dbg(2, cx25840_debug, c, + "AV Core audio MC IRQ status: %#06x enables: %#06x\n", + aud_mc_stat >> CX23885_AUD_MC_INT_STAT_SHFT, + aud_mc_stat & CX23885_AUD_MC_INT_CTRL_BITS); + if (irq_stat & CX23885_PIN_CTRL_IRQ_AUD_STAT) { + if (aud_stat) { + cx25840_write(c, CX25840_AUD_INT_STAT_REG, aud_stat); + *handled = true; + } + } + + vid_stat = cx25840_read4(c, CX25840_VID_INT_STAT_REG); + v4l_dbg(2, cx25840_debug, c, + "AV Core video IRQ status: %#06x disables: %#06x\n", + vid_stat & CX25840_VID_INT_STAT_BITS, + vid_stat >> CX25840_VID_INT_MASK_SHFT); + if (irq_stat & CX23885_PIN_CTRL_IRQ_VID_STAT) { + if (vid_stat & CX25840_VID_INT_STAT_BITS) { + cx25840_write4(c, CX25840_VID_INT_STAT_REG, vid_stat); + *handled = true; + } + } + + irq_stat = cx25840_read(c, CX23885_PIN_CTRL_IRQ_REG); + v4l_dbg(2, cx25840_debug, c, "AV Core IRQ status (exit): %s %s %s\n", + irq_stat & CX23885_PIN_CTRL_IRQ_IR_STAT ? "ir" : " ", + irq_stat & CX23885_PIN_CTRL_IRQ_AUD_STAT ? "aud" : " ", + irq_stat & CX23885_PIN_CTRL_IRQ_VID_STAT ? "vid" : " "); + + return ret; +} + +static int cx25840_irq_handler(struct v4l2_subdev *sd, u32 status, + bool *handled) +{ + struct cx25840_state *state = to_state(sd); + + *handled = false; + + /* Only support the CX2388[578] AV Core for now */ + if (is_cx2388x(state)) + return cx23885_irq_handler(sd, status, handled); + + return -ENODEV; +} + +/* ----------------------------------------------------------------------- */ + +#define DIF_PLL_FREQ_WORD (0x300) +#define DIF_BPF_COEFF01 (0x348) +#define DIF_BPF_COEFF23 (0x34c) +#define DIF_BPF_COEFF45 (0x350) +#define DIF_BPF_COEFF67 (0x354) +#define DIF_BPF_COEFF89 (0x358) +#define DIF_BPF_COEFF1011 (0x35c) +#define DIF_BPF_COEFF1213 (0x360) +#define DIF_BPF_COEFF1415 (0x364) +#define DIF_BPF_COEFF1617 (0x368) +#define DIF_BPF_COEFF1819 (0x36c) +#define DIF_BPF_COEFF2021 (0x370) +#define DIF_BPF_COEFF2223 (0x374) +#define DIF_BPF_COEFF2425 (0x378) +#define DIF_BPF_COEFF2627 (0x37c) +#define DIF_BPF_COEFF2829 (0x380) +#define DIF_BPF_COEFF3031 (0x384) +#define DIF_BPF_COEFF3233 (0x388) +#define DIF_BPF_COEFF3435 (0x38c) +#define DIF_BPF_COEFF36 (0x390) + +static void cx23885_dif_setup(struct i2c_client *client, u32 ifHz) +{ + u64 pll_freq; + u32 pll_freq_word; + + v4l_dbg(1, cx25840_debug, client, "%s(%d)\n", __func__, ifHz); + + /* Assuming TV */ + /* Calculate the PLL frequency word based on the adjusted ifHz */ + pll_freq = div_u64((u64)ifHz * 268435456, 50000000); + pll_freq_word = (u32)pll_freq; + + cx25840_write4(client, DIF_PLL_FREQ_WORD, pll_freq_word); + + /* Round down to the nearest 100KHz */ + ifHz = (ifHz / 100000) * 100000; + + if (ifHz < 3000000) + ifHz = 3000000; + + if (ifHz > 16000000) + ifHz = 16000000; + + v4l_dbg(1, cx25840_debug, client, "%s(%d) again\n", __func__, ifHz); + + switch (ifHz) { + case 3000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001e0024); + cx25840_write4(client, DIF_BPF_COEFF67, 0x001bfff8); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffb4ff50); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfed8fe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe24fe34); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfebaffc7); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014d031f); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04f0065d); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x07010688); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x04c901d6); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfe00f9d3); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf600f342); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf235f337); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf64efb22); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0105070f); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0c460fce); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00070012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00220032); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00370026); + cx25840_write4(client, DIF_BPF_COEFF89, 0xfff0ff91); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff0efe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe01fdcc); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe0afedb); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x00440224); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0434060c); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0738074e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x06090361); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xff99fb39); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf6fef3b6); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf21af2a5); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf573fa33); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0034067d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0bfb0fb9); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000000); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0004000e); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00200038); + cx25840_write4(client, DIF_BPF_COEFF67, 0x004c004f); + cx25840_write4(client, DIF_BPF_COEFF89, 0x002fffdf); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff5cfeb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe0dfd92); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd7ffe03); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36010a); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x03410575); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x072607d2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x071804d5); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0134fcb7); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf81ff451); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf223f22e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf4a7f94b); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xff6405e8); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0bae0fa4); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00000008); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001a0036); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0056006d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00670030); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffbdff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe46fd8d); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd25fd4f); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35ffe0); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0224049f); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06c9080e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x07ef0627); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x02c9fe45); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf961f513); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf250f1d2); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf3ecf869); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfe930552); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0b5f0f8f); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffd0001); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000f002c); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0054007d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0093007c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0024ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfea6fdbb); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd03fcca); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51feb9); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x00eb0392); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06270802); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08880750); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x044dffdb); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfabdf5f8); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2a0f193); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf342f78f); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfdc404b9); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0b0e0f78); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffafff9); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0002001b); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0046007d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00ad00ba); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00870000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff26fe1a); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd1bfc7e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99fda4); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xffa5025c); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x054507ad); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08dd0847); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x05b80172); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfc2ef6ff); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf313f170); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf2abf6bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfcf6041f); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0abc0f61); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff3); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff50006); + cx25840_write4(client, DIF_BPF_COEFF67, 0x002f006c); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b200e3); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00dc007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffb9fea0); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd6bfc71); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17fcb1); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfe65010b); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x042d0713); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08ec0906); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x07020302); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfdaff823); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf3a7f16a); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf228f5f5); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfc2a0384); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0a670f4a); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff7ffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe9fff1); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0010004d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00a100f2); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x011a00f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0053ff44); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdedfca2); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3fbef); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfd39ffae); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x02ea0638); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08b50987); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x08230483); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xff39f960); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf45bf180); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf1b8f537); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfb6102e7); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x0a110f32); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9ffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe1ffdd); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfff00024); + cx25840_write4(client, DIF_BPF_COEFF89, 0x007c00e5); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013a014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00e6fff8); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe98fd0f); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3fb67); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfc32fe54); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x01880525); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x083909c7); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x091505ee); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x00c7fab3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf52df1b4); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf15df484); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfa9b0249); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x09ba0f19); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 3900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000000); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffbfff0); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdeffcf); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffd1fff6); + cx25840_write4(client, DIF_BPF_COEFF89, 0x004800be); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x01390184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x016300ac); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff5efdb1); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17fb23); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb5cfd0d); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x001703e4); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x077b09c4); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x09d2073c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0251fc18); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf61cf203); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf118f3dc); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf9d801aa); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x09600eff); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffefff4); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe1ffc8); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffbaffca); + cx25840_write4(client, DIF_BPF_COEFF89, 0x000b0082); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x01170198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01c10152); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0030fe7b); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99fb24); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfac3fbe9); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfea5027f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0683097f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a560867); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x03d2fd89); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf723f26f); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0e8f341); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf919010a); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x09060ee5); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0002fffb); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe8ffca); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffacffa4); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffcd0036); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00d70184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01f601dc); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00ffff60); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51fb6d); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa6efaf5); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfd410103); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x055708f9); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a9e0969); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0543ff02); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf842f2f5); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0cef2b2); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf85e006b); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x08aa0ecb); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00050003); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff3ffd3); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaaff8b); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff95ffe5); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0080014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01fe023f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01ba0050); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35fbf8); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa62fa3b); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfbf9ff7e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x04010836); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0aa90a3d); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x069f007f); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf975f395); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0cbf231); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf7a9ffcb); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x084c0eaf); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008000a); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0000ffe4); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffb4ff81); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff6aff96); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x001c00f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01d70271); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0254013b); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36fcbd); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa9ff9c5); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfadbfdfe); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x028c073b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a750adf); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x07e101fa); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfab8f44e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0ddf1be); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf6f9ff2b); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x07ed0e94); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0009000f); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000efff8); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc9ff87); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff52ff54); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffb5007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01860270); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02c00210); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0044fdb2); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb22f997); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf9f2fc90); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0102060f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a050b4c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0902036e); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfc0af51e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf106f15a); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf64efe8b); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x078d0e77); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0019000e); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffe5ff9e); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff4fff25); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff560000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0112023b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02f702c0); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014dfec8); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfbe5f9b3); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf947fb41); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xff7004b9); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x095a0b81); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0a0004d8); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfd65f603); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf144f104); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf5aafdec); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x072b0e5a); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00060012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00200022); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0005ffc1); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff61ff10); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff09ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x008601d7); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02f50340); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0241fff0); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfcddfa19); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8e2fa1e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfde30343); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x08790b7f); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0ad50631); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfec7f6fc); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf198f0bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf50dfd4e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x06c90e3d); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0003000f); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00220030); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0025ffed); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff87ff15); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfed6ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffed014c); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02b90386); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03110119); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfdfefac4); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8c6f92f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfc6701b7); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x07670b44); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0b7e0776); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x002df807); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf200f086); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf477fcb1); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x06650e1e); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xffff0009); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001e0038); + cx25840_write4(client, DIF_BPF_COEFF67, 0x003f001b); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffbcff36); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec2feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff5600a5); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0248038d); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b00232); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xff39fbab); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8f4f87f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfb060020); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x062a0ad2); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0bf908a3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0192f922); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf27df05e); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf3e8fc14); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x06000e00); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 4900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffc0002); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00160037); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00510046); + cx25840_write4(client, DIF_BPF_COEFF89, 0xfff9ff6d); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfed0fe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfecefff0); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01aa0356); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0413032b); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x007ffcc5); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf96cf812); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf9cefe87); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x04c90a2c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c4309b4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x02f3fa4a); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf30ef046); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf361fb7a); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x059b0de0); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9fffa); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000a002d); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00570067); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0037ffb5); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfefffe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe62ff3d); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00ec02e3); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x043503f6); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x01befe05); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfa27f7ee); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf8c6fcf8); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x034c0954); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c5c0aa4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x044cfb7e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf3b1f03f); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf2e2fae1); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x05340dc0); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff4); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfffd001e); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0051007b); + cx25840_write4(client, DIF_BPF_COEFF89, 0x006e0006); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff48fe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe1bfe9a); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x001d023e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x04130488); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x02e6ff5b); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfb1ef812); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7f7fb7f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x01bc084e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c430b72); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x059afcba); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf467f046); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf26cfa4a); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x04cd0da0); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8ffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff00009); + cx25840_write4(client, DIF_BPF_COEFF67, 0x003f007f); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00980056); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffa5feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe00fe15); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff4b0170); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b004d7); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x03e800b9); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfc48f87f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf768fa23); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0022071f); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0bf90c1b); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x06dafdfd); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf52df05e); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf1fef9b5); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x04640d7f); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9ffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe6fff3); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00250072); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00af009c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x000cff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe13fdb8); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe870089); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x031104e1); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04b8020f); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfd98f92f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf71df8f0); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfe8805ce); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0b7e0c9c); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0808ff44); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf603f086); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf19af922); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x03fb0d5e); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffcffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe0ffe0); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00050056); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b000d1); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0071ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe53fd8c); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfddfff99); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x024104a3); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x054a034d); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xff01fa1e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf717f7ed); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfcf50461); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0ad50cf4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0921008d); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf6e7f0bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf13ff891); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x03920d3b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffffff3); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdeffd1); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffe5002f); + cx25840_write4(client, DIF_BPF_COEFF89, 0x009c00ed); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00cb0000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfebafd94); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd61feb0); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014d0422); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05970464); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0074fb41); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf759f721); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfb7502de); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0a000d21); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0a2201d4); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf7d9f104); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf0edf804); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x03280d19); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0003fffa); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe3ffc9); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc90002); + cx25840_write4(client, DIF_BPF_COEFF89, 0x007500ef); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x010e007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff3dfdcf); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd16fddd); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x00440365); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x059b0548); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x01e3fc90); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7dff691); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfa0f014d); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x09020d23); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0b0a0318); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf8d7f15a); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf0a5f779); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x02bd0cf6); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00060001); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffecffc9); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffb4ffd4); + cx25840_write4(client, DIF_BPF_COEFF89, 0x004000d5); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013600f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffd3fe39); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd04fd31); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff360277); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x055605ef); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x033efdfe); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf8a5f642); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf8cbffb6); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x07e10cfb); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0bd50456); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf9dff1be); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf067f6f2); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x02520cd2); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080009); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff8ffd2); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaaffac); + cx25840_write4(client, DIF_BPF_COEFF89, 0x000200a3); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013c014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x006dfec9); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd2bfcb7); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe350165); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04cb0651); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0477ff7e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf9a5f635); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf7b1fe20); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x069f0ca8); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0c81058b); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfaf0f231); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf033f66d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x01e60cae); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 5900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0009000e); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0005ffe1); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffacff90); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffc5005f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x01210184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00fcff72); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd8afc77); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51003f); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04020669); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05830103); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfad7f66b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf6c8fc93); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x05430c2b); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d0d06b5); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfc08f2b2); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf00af5ec); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x017b0c89); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00070012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0012fff5); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffbaff82); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff8e000f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00e80198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01750028); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe18fc75); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99ff15); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x03050636); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0656027f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfc32f6e2); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf614fb17); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x03d20b87); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d7707d2); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfd26f341); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xefeaf56f); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x010f0c64); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0000); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00050012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001c000b); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffd1ff84); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff66ffbe); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00960184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01cd00da); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfeccfcb2); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17fdf9); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x01e005bc); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06e703e4); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfdabf798); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf599f9b3); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x02510abd); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0dbf08df); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfe48f3dc); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xefd5f4f6); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x00a20c3e); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0002000f); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0021001f); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfff0ff97); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff50ff74); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0034014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01fa0179); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff97fd2a); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3fcfa); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x00a304fe); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x07310525); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xff37f886); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf55cf86e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x00c709d0); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0de209db); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xff6df484); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xefcbf481); + cx25840_write4(client, DIF_BPF_COEFF3435, 0x00360c18); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffe000a); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0021002f); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0010ffb8); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff50ff3b); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffcc00f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01fa01fa); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0069fdd4); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3fc26); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xff5d0407); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x07310638); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x00c9f9a8); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf55cf74e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xff3908c3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0de20ac3); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0093f537); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xefcbf410); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xffca0bf2); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffb0003); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001c0037); + cx25840_write4(client, DIF_BPF_COEFF67, 0x002fffe2); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff66ff17); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff6a007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01cd0251); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0134fea5); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17fb8b); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfe2002e0); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06e70713); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0255faf5); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf599f658); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfdaf0799); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0dbf0b96); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x01b8f5f5); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xefd5f3a3); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xff5e0bca); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9fffb); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00120037); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00460010); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff8eff0f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff180000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01750276); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01e8ff8d); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99fb31); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfcfb0198); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x065607ad); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x03cefc64); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf614f592); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfc2e0656); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d770c52); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x02daf6bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xefeaf33b); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfef10ba3); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff7fff5); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0005002f); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0054003c); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffc5ff22); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfedfff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00fc0267); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0276007e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51fb1c); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfbfe003e); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05830802); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0529fdec); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf6c8f4fe); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfabd04ff); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d0d0cf6); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x03f8f78f); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf00af2d7); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfe850b7b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff0); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff80020); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00560060); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0002ff4e); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec4ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x006d0225); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02d50166); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35fb4e); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb35fee1); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0477080e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x065bff82); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf7b1f4a0); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf9610397); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0c810d80); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0510f869); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf033f278); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfe1a0b52); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010000); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffaffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffec000c); + cx25840_write4(client, DIF_BPF_COEFF67, 0x004c0078); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0040ff8e); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfecafeb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffd301b6); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02fc0235); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36fbc5); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfaaafd90); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x033e07d2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x075b011b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf8cbf47a); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf81f0224); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0bd50def); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0621f94b); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf067f21e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfdae0b29); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 6900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffdffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe3fff6); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0037007f); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0075ffdc); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfef2fe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff3d0122); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02ea02dd); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0044fc79); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa65fc5d); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x01e3074e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x082102ad); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfa0ff48c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf6fe00a9); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0b0a0e43); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0729fa33); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf0a5f1c9); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfd430b00); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0001fff3); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdeffe2); + cx25840_write4(client, DIF_BPF_COEFF67, 0x001b0076); + cx25840_write4(client, DIF_BPF_COEFF89, 0x009c002d); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff35fe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfeba0076); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x029f0352); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014dfd60); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa69fb53); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x00740688); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08a7042d); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfb75f4d6); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf600ff2d); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0a220e7a); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0827fb22); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf0edf17a); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfcd80ad6); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0004fff9); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe0ffd2); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfffb005e); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b0007a); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff8ffe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe53ffc1); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0221038c); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0241fe6e); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfab6fa80); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xff010587); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08e90590); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfcf5f556); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf52bfdb3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x09210e95); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0919fc15); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf13ff12f); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfc6e0aab); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00070000); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe6ffc9); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffdb0039); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00af00b8); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfff4feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe13ff10); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01790388); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0311ff92); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb48f9ed); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfd980453); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08e306cd); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfe88f60a); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf482fc40); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x08080e93); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x09fdfd0c); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf19af0ea); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfc050a81); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080008); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff0ffc9); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc1000d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x009800e2); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x005bff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe00fe74); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00b50345); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b000bc); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfc18f9a1); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfc4802f9); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x089807dc); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0022f6f0); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf407fada); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x06da0e74); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0ad3fe06); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf1fef0ab); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfb9c0a55); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008000e); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfffdffd0); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffafffdf); + cx25840_write4(client, DIF_BPF_COEFF89, 0x006e00f2); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00b8ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe1bfdf8); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xffe302c8); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x041301dc); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfd1af99e); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfb1e0183); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x080908b5); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x01bcf801); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf3bdf985); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x059a0e38); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0b99ff03); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf26cf071); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfb330a2a); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0000); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00070011); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000affdf); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffa9ffb5); + cx25840_write4(client, DIF_BPF_COEFF89, 0x003700e6); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x01010000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe62fda8); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff140219); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x043502e1); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfe42f9e6); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfa270000); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x073a0953); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x034cf939); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf3a4f845); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x044c0de1); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0c4f0000); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf2e2f03c); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfacc09fe); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffffffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00040012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0016fff3); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffafff95); + cx25840_write4(client, DIF_BPF_COEFF89, 0xfff900c0); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0130007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfecefd89); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe560146); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x041303bc); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xff81fa76); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf96cfe7d); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x063209b1); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x04c9fa93); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf3bdf71e); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x02f30d6e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0cf200fd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf361f00e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfa6509d1); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00010010); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001e0008); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc1ff84); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffbc0084); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013e00f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff56fd9f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdb8005c); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b00460); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x00c7fb45); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8f4fd07); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x04fa09ce); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x062afc07); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf407f614); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x01920ce0); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0d8301fa); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf3e8efe5); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xfa0009a4); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffd000b); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0022001d); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffdbff82); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff870039); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x012a014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffedfde7); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd47ff6b); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x031104c6); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0202fc4c); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8c6fbad); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x039909a7); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0767fd8e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf482f52b); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x002d0c39); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0e0002f4); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf477efc2); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf99b0977); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 7900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffa0004); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0020002d); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfffbff91); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff61ffe8); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00f70184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0086fe5c); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd0bfe85); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x024104e5); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0323fd7d); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8e2fa79); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x021d093f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0879ff22); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf52bf465); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfec70b79); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0e6803eb); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf50defa5); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf937094a); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fffd); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00190036); + cx25840_write4(client, DIF_BPF_COEFF67, 0x001bffaf); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff4fff99); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00aa0198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0112fef3); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd09fdb9); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014d04be); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x041bfecc); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf947f978); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x00900897); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x095a00b9); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf600f3c5); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfd650aa3); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0ebc04de); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf5aaef8e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf8d5091c); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff7fff6); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000e0038); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0037ffd7); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff52ff56); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x004b0184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0186ffa1); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd40fd16); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x00440452); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04de0029); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf9f2f8b2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfefe07b5); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a05024d); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf6fef34d); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfc0a09b8); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0efa05cd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf64eef7d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf87308ed); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010000); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff0); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00000031); + cx25840_write4(client, DIF_BPF_COEFF67, 0x004c0005); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff6aff27); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffe4014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01d70057); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdacfca6); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff3603a7); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05610184); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfadbf82e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfd74069f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a7503d6); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf81ff2ff); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfab808b9); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0f2306b5); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf6f9ef72); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf81308bf); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffbffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff30022); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00560032); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff95ff10); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff8000f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01fe0106); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe46fc71); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe3502c7); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x059e02ce); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfbf9f7f2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfbff055b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0aa9054c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf961f2db); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf97507aa); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0f350797); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf7a9ef6d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf7b40890); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffeffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe8000f); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00540058); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffcdff14); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff29007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01f6019e); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff01fc7c); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd5101bf); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x059203f6); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfd41f7fe); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfaa903f3); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a9e06a9); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfabdf2e2); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf842068b); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0f320871); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf85eef6e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf7560860); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0002fff2); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe1fff9); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00460073); + cx25840_write4(client, DIF_BPF_COEFF89, 0x000bff34); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfee90000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01c10215); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xffd0fcc5); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99009d); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x053d04f1); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfea5f853); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf97d0270); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a5607e4); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfc2ef314); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf723055f); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0f180943); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf919ef75); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf6fa0830); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0005fff8); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdeffe4); + cx25840_write4(client, DIF_BPF_COEFF67, 0x002f007f); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0048ff6b); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec7ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0163025f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00a2fd47); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17ff73); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04a405b2); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0017f8ed); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf88500dc); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x09d208f9); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfdaff370); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf61c0429); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0ee80a0b); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xf9d8ef82); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf6a00800); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0007ffff); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe1ffd4); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0010007a); + cx25840_write4(client, DIF_BPF_COEFF89, 0x007cffb2); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec6ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00e60277); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0168fdf9); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3fe50); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x03ce0631); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0188f9c8); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7c7ff43); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x091509e3); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xff39f3f6); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf52d02ea); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0ea30ac9); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfa9bef95); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf64607d0); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00090007); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe9ffca); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfff00065); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00a10003); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfee6feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0053025b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0213fed0); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3fd46); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x02c70668); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x02eafadb); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf74bfdae); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x08230a9c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x00c7f4a3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf45b01a6); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0e480b7c); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfb61efae); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf5ef079f); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 8900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0000); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008000d); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff5ffc8); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffd10043); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b20053); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff24fe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffb9020c); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0295ffbb); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17fc64); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x019b0654); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x042dfc1c); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf714fc2a); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x07020b21); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0251f575); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf3a7005e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0dd80c24); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfc2aefcd); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf599076e); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffffffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00060011); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0002ffcf); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffba0018); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00ad009a); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff79fe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff260192); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02e500ab); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99fbb6); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x005b05f7); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0545fd81); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf723fabf); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x05b80b70); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x03d2f669); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf313ff15); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0d550cbf); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfcf6eff2); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf544073d); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00030012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000fffdd); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffacffea); + cx25840_write4(client, DIF_BPF_COEFF89, 0x009300cf); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffdcfe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfea600f7); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02fd0190); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51fb46); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xff150554); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0627fefd); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf778f978); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x044d0b87); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0543f77d); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2a0fdcf); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0cbe0d4e); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfdc4f01d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf4f2070b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00000010); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001afff0); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaaffbf); + cx25840_write4(client, DIF_BPF_COEFF89, 0x006700ed); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0043feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe460047); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02db0258); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35fb1b); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfddc0473); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06c90082); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf811f85e); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x02c90b66); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x069ff8ad); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf250fc8d); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0c140dcf); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfe93f04d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf4a106d9); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffc000c); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00200006); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffb4ff9c); + cx25840_write4(client, DIF_BPF_COEFF89, 0x002f00ef); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00a4ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe0dff92); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x028102f7); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36fb37); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfcbf035e); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x07260202); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf8e8f778); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x01340b0d); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x07e1f9f4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf223fb51); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0b590e42); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xff64f083); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf45206a7); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff90005); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0022001a); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc9ff86); + cx25840_write4(client, DIF_BPF_COEFF89, 0xfff000d7); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00f2ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe01fee5); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01f60362); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0044fb99); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfbcc0222); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x07380370); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf9f7f6cc); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xff990a7e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0902fb50); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf21afa1f); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0a8d0ea6); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0034f0bf); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf4050675); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fffe); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001e002b); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffe5ff81); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffb400a5); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x01280000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe24fe50); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01460390); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014dfc3a); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb1000ce); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x070104bf); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfb37f65f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfe0009bc); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0a00fcbb); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf235f8f8); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x09b20efc); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0105f101); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf3ba0642); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0001ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff7); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00150036); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0005ff8c); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff810061); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013d007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe71fddf); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x007c0380); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0241fd13); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa94ff70); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x068005e2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfc9bf633); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfc7308ca); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0ad5fe30); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf274f7e0); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x08c90f43); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x01d4f147); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf371060f); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9fff1); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00090038); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0025ffa7); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff5e0012); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013200f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfee3fd9b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xffaa0331); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0311fe15); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa60fe18); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05bd06d1); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfe1bf64a); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfafa07ae); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0b7effab); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2d5f6d7); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x07d30f7a); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x02a3f194); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf32905dc); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffcffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfffb0032); + cx25840_write4(client, DIF_BPF_COEFF67, 0x003fffcd); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff4effc1); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0106014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff6efd8a); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfedd02aa); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b0ff34); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa74fcd7); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x04bf0781); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xffaaf6a3); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf99e066b); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0bf90128); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf359f5e1); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x06d20fa2); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0370f1e5); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf2e405a8); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 9900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xffffffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffef0024); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0051fffa); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff54ff77); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00be0184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0006fdad); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe2701f3); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0413005e); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfad1fbba); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x039007ee); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x013bf73d); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf868050a); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c4302a1); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf3fdf4fe); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x05c70fba); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x043bf23c); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf2a10575); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0003fff1); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe50011); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00570027); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff70ff3c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00620198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x009efe01); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd95011a); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x04350183); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb71fad0); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x023c0812); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x02c3f811); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf75e0390); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c5c0411); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf4c1f432); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x04b30fc1); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0503f297); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf2610541); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0006fff7); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdffffc); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00510050); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff9dff18); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfffc0184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0128fe80); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd32002e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x04130292); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfc4dfa21); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x00d107ee); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0435f91c); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf6850205); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c430573); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf5a1f37d); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x03990fba); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x05c7f2f8); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf222050d); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008fffe); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdfffe7); + cx25840_write4(client, DIF_BPF_COEFF67, 0x003f006e); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffd6ff0f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff96014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0197ff1f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd05ff3e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b0037c); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfd59f9b7); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xff5d0781); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0585fa56); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf5e4006f); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0bf906c4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf69df2e0); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x02790fa2); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0688f35d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf1e604d8); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00090005); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe4ffd6); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0025007e); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0014ff20); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff3c00f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01e1ffd0); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd12fe5c); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03110433); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfe88f996); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfdf106d1); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x06aafbb7); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf57efed8); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0b7e07ff); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf7b0f25e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x01560f7a); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0745f3c7); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf1ac04a4); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffffffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008000c); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffedffcb); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0005007d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0050ff4c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfef6007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01ff0086); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd58fd97); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x024104ad); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xffcaf9c0); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfc9905e2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x079afd35); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf555fd46); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0ad50920); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf8d9f1f6); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x00310f43); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x07fdf435); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf174046f); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xfffffffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00050011); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfffaffc8); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffe5006b); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0082ff8c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfecc0000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01f00130); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdd2fcfc); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014d04e3); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x010efa32); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfb6404bf); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x084efec5); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf569fbc2); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0a000a23); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfa15f1ab); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xff0b0efc); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x08b0f4a7); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf13f043a); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00020012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0007ffcd); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc9004c); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00a4ffd9); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec3ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01b401c1); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe76fc97); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x004404d2); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0245fae8); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfa5f0370); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08c1005f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf5bcfa52); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x09020b04); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfb60f17b); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfde70ea6); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x095df51e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf10c0405); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xffff0011); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0014ffdb); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffb40023); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b2002a); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfedbff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0150022d); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff38fc6f); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36047b); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x035efbda); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf9940202); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08ee01f5); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf649f8fe); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x07e10bc2); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfcb6f169); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfcc60e42); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0a04f599); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf0db03d0); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffb000d); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001dffed); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaafff5); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00aa0077); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff13feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00ce026b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x000afc85); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe3503e3); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x044cfcfb); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf90c0082); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08d5037f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf710f7cc); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x069f0c59); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfe16f173); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfbaa0dcf); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0aa5f617); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf0ad039b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 10900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff90006); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00210003); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffacffc8); + cx25840_write4(client, DIF_BPF_COEFF89, 0x008e00b6); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff63fe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x003a0275); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00dafcda); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd510313); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0501fe40); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8cbfefd); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x087604f0); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf80af6c2); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x05430cc8); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xff7af19a); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfa940d4e); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0b3ff699); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf0810365); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0001ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8ffff); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00210018); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffbaffa3); + cx25840_write4(client, DIF_BPF_COEFF89, 0x006000e1); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffc4fe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffa0024b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x019afd66); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc990216); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0575ff99); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8d4fd81); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x07d40640); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf932f5e6); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x03d20d0d); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x00dff1de); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf9860cbf); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0bd1f71e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf058032f); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010000); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff8); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001b0029); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffd1ff8a); + cx25840_write4(client, DIF_BPF_COEFF89, 0x002600f2); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x002cfe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff0f01f0); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x023bfe20); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc1700fa); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05a200f7); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf927fc1c); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x06f40765); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfa82f53b); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x02510d27); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0243f23d); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf8810c24); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0c5cf7a7); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf03102fa); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffafff2); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00110035); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfff0ff81); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffe700e7); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x008ffeb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe94016d); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02b0fefb); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3ffd1); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05850249); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf9c1fadb); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x05de0858); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfbf2f4c4); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x00c70d17); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x03a0f2b8); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf7870b7c); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0cdff833); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf00d02c4); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffdffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00040038); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0010ff88); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffac00c2); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00e2ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe3900cb); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02f1ffe9); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3feaa); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05210381); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfa9cf9c8); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x04990912); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfd7af484); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xff390cdb); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x04f4f34d); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf69a0ac9); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0d5af8c1); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xefec028e); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0000ffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff60033); + cx25840_write4(client, DIF_BPF_COEFF67, 0x002fff9f); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff7b0087); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x011eff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe080018); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02f900d8); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17fd96); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x04790490); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfbadf8ed); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x032f098e); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xff10f47d); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfdaf0c75); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x063cf3fc); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf5ba0a0b); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0dccf952); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xefcd0258); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0004fff1); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffea0026); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0046ffc3); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff5a003c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013b0000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe04ff63); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02c801b8); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99fca6); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0397056a); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfcecf853); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x01ad09c9); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x00acf4ad); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfc2e0be7); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0773f4c2); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf4e90943); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0e35f9e6); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xefb10221); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0007fff6); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe20014); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0054ffee); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff4effeb); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0137007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe2efebb); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0260027a); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51fbe6); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x02870605); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfe4af7fe); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x001d09c1); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0243f515); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfabd0b32); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0897f59e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf4280871); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0e95fa7c); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef9701eb); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008fffd); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdeffff); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0056001d); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff57ff9c); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x011300f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe82fe2e); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01ca0310); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35fb62); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0155065a); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xffbaf7f2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfe8c0977); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x03cef5b2); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf9610a58); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x09a5f68f); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf3790797); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0eebfb14); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef8001b5); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0000); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080004); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe0ffe9); + cx25840_write4(client, DIF_BPF_COEFF67, 0x004c0047); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff75ff58); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00d1014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfef9fdc8); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0111036f); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36fb21); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x00120665); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x012df82e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfd0708ec); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0542f682); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf81f095c); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0a9af792); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf2db06b5); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0f38fbad); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef6c017e); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 11900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffffffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0007000b); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe7ffd8); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00370068); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffa4ff28); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00790184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff87fd91); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00430392); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0044fb26); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfece0626); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0294f8b2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfb990825); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0698f77f); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf6fe0842); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0b73f8a7); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf25105cd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0f7bfc48); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef5a0148); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00050010); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff2ffcc); + cx25840_write4(client, DIF_BPF_COEFF67, 0x001b007b); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffdfff10); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00140198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0020fd8e); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff710375); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014dfb73); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfd9a059f); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x03e0f978); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfa4e0726); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x07c8f8a7); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf600070c); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0c2ff9c9); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf1db04de); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0fb4fce5); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef4b0111); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00010012); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffffffc8); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfffb007e); + cx25840_write4(client, DIF_BPF_COEFF89, 0x001dff14); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffad0184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00b7fdbe); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfea9031b); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0241fc01); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfc8504d6); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0504fa79); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf93005f6); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x08caf9f2); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf52b05c0); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0ccbfaf9); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf17903eb); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0fe3fd83); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef3f00db); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffe0011); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000cffcc); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffdb0071); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0058ff32); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff4f014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x013cfe1f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdfb028a); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0311fcc9); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb9d03d6); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05f4fbad); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf848049d); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0999fb5b); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf4820461); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d46fc32); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf12d02f4); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x1007fe21); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef3600a4); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffa000e); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0017ffd9); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc10055); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0088ff68); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff0400f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01a6fea7); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd7501cc); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b0fdc0); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfaef02a8); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06a7fd07); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf79d0326); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a31fcda); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf40702f3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d9ffd72); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0f601fa); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x1021fec0); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef2f006d); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0001ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff80007); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001fffeb); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaf002d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00a8ffb0); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfed3007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01e9ff4c); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd2000ee); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0413fed8); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa82015c); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0715fe7d); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7340198); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a8dfe69); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf3bd017c); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0dd5feb8); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0d500fd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x1031ff60); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef2b0037); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010000); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff70000); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00220000); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffa90000); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b30000); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec20000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x02000000); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd030000); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x04350000); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa5e0000); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x073b0000); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7110000); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0aac0000); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf3a40000); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0de70000); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0c90000); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x10360000); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef290000); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff8fff9); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001f0015); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffafffd3); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00a80050); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfed3ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01e900b4); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd20ff12); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x04130128); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa82fea4); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x07150183); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf734fe68); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a8d0197); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf3bdfe84); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0dd50148); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0d5ff03); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x103100a0); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef2bffc9); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffafff2); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00170027); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc1ffab); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00880098); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff04ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01a60159); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd75fe34); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b00240); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfaeffd58); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06a702f9); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf79dfcda); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0a310326); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf407fd0d); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d9f028e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf0f6fe06); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x10210140); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef2fff93); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffeffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000c0034); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffdbff8f); + cx25840_write4(client, DIF_BPF_COEFF89, 0x005800ce); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff4ffeb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x013c01e1); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdfbfd76); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03110337); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb9dfc2a); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05f40453); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf848fb63); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x099904a5); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf482fb9f); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0d4603ce); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf12dfd0c); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x100701df); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef36ff5c); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 12900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0001ffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffff0038); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfffbff82); + cx25840_write4(client, DIF_BPF_COEFF89, 0x001d00ec); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffadfe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00b70242); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfea9fce5); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x024103ff); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfc85fb2a); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05040587); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf930fa0a); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x08ca060e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf52bfa40); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0ccb0507); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf179fc15); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0fe3027d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef3fff25); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0005fff0); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff20034); + cx25840_write4(client, DIF_BPF_COEFF67, 0x001bff85); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffdf00f0); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0014fe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00200272); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff71fc8b); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014d048d); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfd9afa61); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x03e00688); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfa4ef8da); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x07c80759); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf600f8f4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0c2f0637); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf1dbfb22); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0fb4031b); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef4bfeef); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0007fff5); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe70028); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0037ff98); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffa400d8); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0079fe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff87026f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0043fc6e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x004404da); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfecef9da); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0294074e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfb99f7db); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x06980881); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf6fef7be); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0b730759); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf251fa33); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0f7b03b8); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef5afeb8); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0000); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008fffc); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe00017); + cx25840_write4(client, DIF_BPF_COEFF67, 0x004cffb9); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff7500a8); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00d1feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfef90238); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0111fc91); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff3604df); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0012f99b); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x012d07d2); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfd07f714); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0542097e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf81ff6a4); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x0a9a086e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf2dbf94b); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0f380453); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef6cfe82); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffffffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080003); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffde0001); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0056ffe3); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff570064); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0113ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe8201d2); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01cafcf0); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35049e); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0155f9a6); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xffba080e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfe8cf689); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x03ce0a4e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xf961f5a8); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x09a50971); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf379f869); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0eeb04ec); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef80fe4b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0007000a); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe2ffec); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00540012); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff4e0015); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0137ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe2e0145); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0260fd86); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51041a); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0287f9fb); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfe4a0802); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x001df63f); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x02430aeb); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfabdf4ce); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x08970a62); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf428f78f); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0e950584); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xef97fe15); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0004000f); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffeaffda); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0046003d); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff5affc4); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013b0000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe04009d); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02c8fe48); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99035a); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0397fa96); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfcec07ad); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x01adf637); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x00ac0b53); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfc2ef419); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x07730b3e); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf4e9f6bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0e35061a); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xefb1fddf); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00000012); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfff6ffcd); + cx25840_write4(client, DIF_BPF_COEFF67, 0x002f0061); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff7bff79); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x011e007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe08ffe8); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02f9ff28); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17026a); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0479fb70); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfbad0713); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x032ff672); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xff100b83); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xfdaff38b); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x063c0c04); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf5baf5f5); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0dcc06ae); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xefcdfda8); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffd0012); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0004ffc8); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00100078); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffacff3e); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00e200f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe39ff35); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02f10017); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd30156); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0521fc7f); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfa9c0638); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0499f6ee); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfd7a0b7c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0xff39f325); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x04f40cb3); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf69af537); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0d5a073f); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xefecfd72); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0001fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffa000e); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0011ffcb); + cx25840_write4(client, DIF_BPF_COEFF67, 0xfff0007f); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffe7ff19); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x008f014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe94fe93); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02b00105); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfbd3002f); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x0585fdb7); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf9c10525); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x05def7a8); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfbf20b3c); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x00c7f2e9); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x03a00d48); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf787f484); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0cdf07cd); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf00dfd3c); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 13900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010000); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff80008); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001bffd7); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffd10076); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0026ff0e); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x002c0184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff0ffe10); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x023b01e0); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc17ff06); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05a2ff09); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf92703e4); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x06f4f89b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfa820ac5); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0251f2d9); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x02430dc3); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf881f3dc); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0c5c0859); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf031fd06); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff80001); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0021ffe8); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffba005d); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0060ff1f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffc40198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xffa0fdb5); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x019a029a); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99fdea); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x05750067); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8d4027f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x07d4f9c0); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf9320a1a); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x03d2f2f3); + cx25840_write4(client, DIF_BPF_COEFF2829, 0x00df0e22); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xf986f341); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0bd108e2); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf058fcd1); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9fffa); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0021fffd); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffac0038); + cx25840_write4(client, DIF_BPF_COEFF89, 0x008eff4a); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff630184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x003afd8b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x00da0326); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd51fced); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x050101c0); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf8cb0103); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x0876fb10); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf80a093e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0543f338); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xff7a0e66); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfa94f2b2); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0b3f0967); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf081fc9b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffbfff3); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001d0013); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaa000b); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00aaff89); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff13014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00cefd95); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x000a037b); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe35fc1d); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x044c0305); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf90cff7e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08d5fc81); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf7100834); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x069ff3a7); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfe160e8d); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfbaaf231); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0aa509e9); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf0adfc65); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xffffffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00140025); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffb4ffdd); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00b2ffd6); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfedb00f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x0150fdd3); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xff380391); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff36fb85); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x035e0426); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xf994fdfe); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08eefe0b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf6490702); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x07e1f43e); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfcb60e97); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfcc6f1be); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x0a040a67); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf0dbfc30); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0002ffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00070033); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc9ffb4); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00a40027); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfec3007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01b4fe3f); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe760369); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0044fb2e); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x02450518); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfa5ffc90); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x08c1ffa1); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf5bc05ae); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0902f4fc); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfb600e85); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xfde7f15a); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x095d0ae2); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf10cfbfb); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0005ffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfffa0038); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffe5ff95); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00820074); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfecc0000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01f0fed0); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfdd20304); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014dfb1d); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x010e05ce); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfb64fb41); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x084e013b); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf569043e); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0a00f5dd); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xfa150e55); + cx25840_write4(client, DIF_BPF_COEFF3031, 0xff0bf104); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x08b00b59); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf13ffbc6); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0008fff4); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffed0035); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0005ff83); + cx25840_write4(client, DIF_BPF_COEFF89, 0x005000b4); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfef6ff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01ffff7a); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd580269); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0241fb53); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xffca0640); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfc99fa1e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x079a02cb); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf55502ba); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0ad5f6e0); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf8d90e0a); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0031f0bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x07fd0bcb); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf174fb91); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffffffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0009fffb); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe4002a); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0025ff82); + cx25840_write4(client, DIF_BPF_COEFF89, 0x001400e0); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff3cff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01e10030); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd1201a4); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0311fbcd); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfe88066a); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xfdf1f92f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x06aa0449); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf57e0128); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0b7ef801); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf7b00da2); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0156f086); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x07450c39); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf1acfb5c); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00080002); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdf0019); + cx25840_write4(client, DIF_BPF_COEFF67, 0x003fff92); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffd600f1); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff96feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x019700e1); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd0500c2); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b0fc84); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfd590649); + cx25840_write4(client, DIF_BPF_COEFF2021, 0xff5df87f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x058505aa); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf5e4ff91); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0bf9f93c); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf69d0d20); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0279f05e); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x06880ca3); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf1e6fb28); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 14900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x00060009); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffdf0004); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0051ffb0); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff9d00e8); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xfffcfe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x01280180); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd32ffd2); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0413fd6e); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfc4d05df); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x00d1f812); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x043506e4); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf685fdfb); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c43fa8d); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf5a10c83); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0399f046); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x05c70d08); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf222faf3); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0003000f); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffe5ffef); + cx25840_write4(client, DIF_BPF_COEFF67, 0x0057ffd9); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff7000c4); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0062fe68); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x009e01ff); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfd95fee6); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0435fe7d); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb710530); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x023cf7ee); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x02c307ef); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf75efc70); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c5cfbef); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf4c10bce); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x04b3f03f); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x05030d69); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf261fabf); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15100000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0000fffd); + cx25840_write4(client, DIF_BPF_COEFF23, 0xffff0012); + cx25840_write4(client, DIF_BPF_COEFF45, 0xffefffdc); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00510006); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff540089); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00befe7c); + cx25840_write4(client, DIF_BPF_COEFF1213, 0x00060253); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfe27fe0d); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x0413ffa2); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfad10446); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0390f812); + cx25840_write4(client, DIF_BPF_COEFF2223, 0x013b08c3); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf868faf6); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0c43fd5f); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf3fd0b02); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x05c7f046); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x043b0dc4); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf2a1fa8b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15200000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0001fffe); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffc0012); + cx25840_write4(client, DIF_BPF_COEFF45, 0xfffbffce); + cx25840_write4(client, DIF_BPF_COEFF67, 0x003f0033); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff4e003f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0106feb6); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff6e0276); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xfeddfd56); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x03b000cc); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa740329); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x04bff87f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xffaa095d); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xf99ef995); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0bf9fed8); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf3590a1f); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x06d2f05e); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x03700e1b); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf2e4fa58); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15300000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x0001ffff); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9000f); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0009ffc8); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00250059); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff5effee); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0132ff10); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfee30265); + cx25840_write4(client, DIF_BPF_COEFF1415, 0xffaafccf); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x031101eb); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa6001e8); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x05bdf92f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfe1b09b6); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfafaf852); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0b7e0055); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2d50929); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x07d3f086); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x02a30e6c); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf329fa24); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15400000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00010001); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff80009); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0015ffca); + cx25840_write4(client, DIF_BPF_COEFF67, 0x00050074); + cx25840_write4(client, DIF_BPF_COEFF89, 0xff81ff9f); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x013dff82); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe710221); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x007cfc80); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x024102ed); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfa940090); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0680fa1e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfc9b09cd); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfc73f736); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0ad501d0); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2740820); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x08c9f0bd); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x01d40eb9); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf371f9f1); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15500000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000002); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff80002); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001effd5); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffe5007f); + cx25840_write4(client, DIF_BPF_COEFF89, 0xffb4ff5b); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x01280000); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe2401b0); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0146fc70); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x014d03c6); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfb10ff32); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0701fb41); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xfb3709a1); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xfe00f644); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x0a000345); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2350708); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x09b2f104); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x01050eff); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf3baf9be); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15600000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfff9fffb); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0022ffe6); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffc9007a); + cx25840_write4(client, DIF_BPF_COEFF89, 0xfff0ff29); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00f2007e); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe01011b); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x01f6fc9e); + cx25840_write4(client, DIF_BPF_COEFF1617, 0x00440467); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfbccfdde); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0738fc90); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf9f70934); + cx25840_write4(client, DIF_BPF_COEFF2425, 0xff99f582); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x090204b0); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf21a05e1); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0a8df15a); + cx25840_write4(client, DIF_BPF_COEFF3233, 0x00340f41); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf405f98b); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15700000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0xfffcfff4); + cx25840_write4(client, DIF_BPF_COEFF45, 0x0020fffa); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffb40064); + cx25840_write4(client, DIF_BPF_COEFF89, 0x002fff11); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x00a400f0); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe0d006e); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x0281fd09); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xff3604c9); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfcbffca2); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0726fdfe); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf8e80888); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x0134f4f3); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x07e1060c); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf22304af); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0b59f1be); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xff640f7d); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf452f959); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15800000: + cx25840_write4(client, DIF_BPF_COEFF01, 0x00000003); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0000fff0); + cx25840_write4(client, DIF_BPF_COEFF45, 0x001a0010); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffaa0041); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0067ff13); + cx25840_write4(client, DIF_BPF_COEFF1011, 0x0043014a); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfe46ffb9); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02dbfda8); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfe3504e5); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xfddcfb8d); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06c9ff7e); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf81107a2); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x02c9f49a); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x069f0753); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2500373); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0c14f231); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfe930fb3); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf4a1f927); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 15900000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0002); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0003ffee); + cx25840_write4(client, DIF_BPF_COEFF45, 0x000f0023); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffac0016); + cx25840_write4(client, DIF_BPF_COEFF89, 0x0093ff31); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xffdc0184); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xfea6ff09); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02fdfe70); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfd5104ba); + cx25840_write4(client, DIF_BPF_COEFF1819, 0xff15faac); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x06270103); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7780688); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x044df479); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x05430883); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf2a00231); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0cbef2b2); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfdc40fe3); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf4f2f8f5); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + + case 16000000: + cx25840_write4(client, DIF_BPF_COEFF01, 0xffff0001); + cx25840_write4(client, DIF_BPF_COEFF23, 0x0006ffef); + cx25840_write4(client, DIF_BPF_COEFF45, 0x00020031); + cx25840_write4(client, DIF_BPF_COEFF67, 0xffbaffe8); + cx25840_write4(client, DIF_BPF_COEFF89, 0x00adff66); + cx25840_write4(client, DIF_BPF_COEFF1011, 0xff790198); + cx25840_write4(client, DIF_BPF_COEFF1213, 0xff26fe6e); + cx25840_write4(client, DIF_BPF_COEFF1415, 0x02e5ff55); + cx25840_write4(client, DIF_BPF_COEFF1617, 0xfc99044a); + cx25840_write4(client, DIF_BPF_COEFF1819, 0x005bfa09); + cx25840_write4(client, DIF_BPF_COEFF2021, 0x0545027f); + cx25840_write4(client, DIF_BPF_COEFF2223, 0xf7230541); + cx25840_write4(client, DIF_BPF_COEFF2425, 0x05b8f490); + cx25840_write4(client, DIF_BPF_COEFF2627, 0x03d20997); + cx25840_write4(client, DIF_BPF_COEFF2829, 0xf31300eb); + cx25840_write4(client, DIF_BPF_COEFF3031, 0x0d55f341); + cx25840_write4(client, DIF_BPF_COEFF3233, 0xfcf6100e); + cx25840_write4(client, DIF_BPF_COEFF3435, 0xf544f8c3); + cx25840_write4(client, DIF_BPF_COEFF36, 0x110d0000); + break; + } +} + +static void cx23888_std_setup(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + v4l2_std_id std = state->std; + u32 ifHz; + + cx25840_write4(client, 0x478, 0x6628021F); + cx25840_write4(client, 0x400, 0x0); + cx25840_write4(client, 0x4b4, 0x20524030); + cx25840_write4(client, 0x47c, 0x010a8263); + + if (std & V4L2_STD_NTSC) { + v4l_dbg(1, cx25840_debug, client, "%s() Selecting NTSC", + __func__); + + /* Horiz / vert timing */ + cx25840_write4(client, 0x428, 0x1e1e601a); + cx25840_write4(client, 0x424, 0x5b2d007a); + + /* DIF NTSC */ + cx25840_write4(client, 0x304, 0x6503bc0c); + cx25840_write4(client, 0x308, 0xbd038c85); + cx25840_write4(client, 0x30c, 0x1db4640a); + cx25840_write4(client, 0x310, 0x00008800); + cx25840_write4(client, 0x314, 0x44400400); + cx25840_write4(client, 0x32c, 0x0c800800); + cx25840_write4(client, 0x330, 0x27000100); + cx25840_write4(client, 0x334, 0x1f296e1f); + cx25840_write4(client, 0x338, 0x009f50c1); + cx25840_write4(client, 0x340, 0x1befbf06); + cx25840_write4(client, 0x344, 0x000035e8); + + /* DIF I/F */ + ifHz = 5400000; + + } else { + v4l_dbg(1, cx25840_debug, client, "%s() Selecting PAL-BG", + __func__); + + /* Horiz / vert timing */ + cx25840_write4(client, 0x428, 0x28244024); + cx25840_write4(client, 0x424, 0x5d2d0084); + + /* DIF */ + cx25840_write4(client, 0x304, 0x6503bc0c); + cx25840_write4(client, 0x308, 0xbd038c85); + cx25840_write4(client, 0x30c, 0x1db4640a); + cx25840_write4(client, 0x310, 0x00008800); + cx25840_write4(client, 0x314, 0x44400600); + cx25840_write4(client, 0x32c, 0x0c800800); + cx25840_write4(client, 0x330, 0x27000100); + cx25840_write4(client, 0x334, 0x213530ec); + cx25840_write4(client, 0x338, 0x00a65ba8); + cx25840_write4(client, 0x340, 0x1befbf06); + cx25840_write4(client, 0x344, 0x000035e8); + + /* DIF I/F */ + ifHz = 6000000; + } + + cx23885_dif_setup(client, ifHz); + + /* Explicitly ensure the inputs are reconfigured after + * a standard change. + */ + set_input(client, state->vid_input, state->aud_input); +} + +/* ----------------------------------------------------------------------- */ + +static const struct v4l2_ctrl_ops cx25840_ctrl_ops = { + .s_ctrl = cx25840_s_ctrl, +}; + +static const struct v4l2_subdev_core_ops cx25840_core_ops = { + .log_status = cx25840_log_status, + .g_ctrl = v4l2_subdev_g_ctrl, + .s_ctrl = v4l2_subdev_s_ctrl, + .s_ext_ctrls = v4l2_subdev_s_ext_ctrls, + .try_ext_ctrls = v4l2_subdev_try_ext_ctrls, + .g_ext_ctrls = v4l2_subdev_g_ext_ctrls, + .queryctrl = v4l2_subdev_queryctrl, + .querymenu = v4l2_subdev_querymenu, + .reset = cx25840_reset, + .load_fw = cx25840_load_fw, + .s_io_pin_config = common_s_io_pin_config, +#ifdef CONFIG_VIDEO_ADV_DEBUG + .g_register = cx25840_g_register, + .s_register = cx25840_s_register, +#endif + .interrupt_service_routine = cx25840_irq_handler, +}; + +static const struct v4l2_subdev_tuner_ops cx25840_tuner_ops = { + .s_frequency = cx25840_s_frequency, + .s_radio = cx25840_s_radio, + .g_tuner = cx25840_g_tuner, + .s_tuner = cx25840_s_tuner, +}; + +static const struct v4l2_subdev_audio_ops cx25840_audio_ops = { + .s_clock_freq = cx25840_s_clock_freq, + .s_routing = cx25840_s_audio_routing, + .s_stream = cx25840_s_audio_stream, +}; + +static const struct v4l2_subdev_video_ops cx25840_video_ops = { + .s_std = cx25840_s_std, + .g_std = cx25840_g_std, + .s_routing = cx25840_s_video_routing, + .s_mbus_fmt = cx25840_s_mbus_fmt, + .s_stream = cx25840_s_stream, + .g_input_status = cx25840_g_input_status, +}; + +static const struct v4l2_subdev_vbi_ops cx25840_vbi_ops = { + .decode_vbi_line = cx25840_decode_vbi_line, + .s_raw_fmt = cx25840_s_raw_fmt, + .s_sliced_fmt = cx25840_s_sliced_fmt, + .g_sliced_fmt = cx25840_g_sliced_fmt, +}; + +static const struct v4l2_subdev_ops cx25840_ops = { + .core = &cx25840_core_ops, + .tuner = &cx25840_tuner_ops, + .audio = &cx25840_audio_ops, + .video = &cx25840_video_ops, + .vbi = &cx25840_vbi_ops, + .ir = &cx25840_ir_ops, +}; + +/* ----------------------------------------------------------------------- */ + +static u32 get_cx2388x_ident(struct i2c_client *client) +{ + u32 ret; + + /* Come out of digital power down */ + cx25840_write(client, 0x000, 0); + + /* Detecting whether the part is cx23885/7/8 is more + * difficult than it needs to be. No ID register. Instead we + * probe certain registers indicated in the datasheets to look + * for specific defaults that differ between the silicon designs. */ + + /* It's either 885/7 if the IR Tx Clk Divider register exists */ + if (cx25840_read4(client, 0x204) & 0xffff) { + /* CX23885 returns bogus repetitive byte values for the DIF, + * which doesn't exist for it. (Ex. 8a8a8a8a or 31313131) */ + ret = cx25840_read4(client, 0x300); + if (((ret & 0xffff0000) >> 16) == (ret & 0xffff)) { + /* No DIF */ + ret = CX23885_AV; + } else { + /* CX23887 has a broken DIF, but the registers + * appear valid (but unused), good enough to detect. */ + ret = CX23887_AV; + } + } else if (cx25840_read4(client, 0x300) & 0x0fffffff) { + /* DIF PLL Freq Word reg exists; chip must be a CX23888 */ + ret = CX23888_AV; + } else { + v4l_err(client, "Unable to detect h/w, assuming cx23887\n"); + ret = CX23887_AV; + } + + /* Back into digital power down */ + cx25840_write(client, 0x000, 2); + return ret; +} + +static int cx25840_probe(struct i2c_client *client, + const struct i2c_device_id *did) +{ + struct cx25840_state *state; + struct v4l2_subdev *sd; + int default_volume; + u32 id; + u16 device_id; +#if defined(CONFIG_MEDIA_CONTROLLER) + int ret; +#endif + + /* Check if the adapter supports the needed features */ + if (!i2c_check_functionality(client->adapter, I2C_FUNC_SMBUS_BYTE_DATA)) + return -EIO; + + v4l_dbg(1, cx25840_debug, client, "detecting cx25840 client on address 0x%x\n", client->addr << 1); + + device_id = cx25840_read(client, 0x101) << 8; + device_id |= cx25840_read(client, 0x100); + v4l_dbg(1, cx25840_debug, client, "device_id = 0x%04x\n", device_id); + + /* The high byte of the device ID should be + * 0x83 for the cx2583x and 0x84 for the cx2584x */ + if ((device_id & 0xff00) == 0x8300) { + id = CX25836 + ((device_id >> 4) & 0xf) - 6; + } else if ((device_id & 0xff00) == 0x8400) { + id = CX25840 + ((device_id >> 4) & 0xf); + } else if (device_id == 0x0000) { + id = get_cx2388x_ident(client); + } else if ((device_id & 0xfff0) == 0x5A30) { + /* The CX23100 (0x5A3C = 23100) doesn't have an A/V decoder */ + id = CX2310X_AV; + } else if ((device_id & 0xff) == (device_id >> 8)) { + v4l_err(client, + "likely a confused/unresponsive cx2388[578] A/V decoder" + " found @ 0x%x (%s)\n", + client->addr << 1, client->adapter->name); + v4l_err(client, "A method to reset it from the cx25840 driver" + " software is not known at this time\n"); + return -ENODEV; + } else { + v4l_dbg(1, cx25840_debug, client, "cx25840 not found\n"); + return -ENODEV; + } + + state = devm_kzalloc(&client->dev, sizeof(*state), GFP_KERNEL); + if (state == NULL) + return -ENOMEM; + + sd = &state->sd; + v4l2_i2c_subdev_init(sd, client, &cx25840_ops); +#if defined(CONFIG_MEDIA_CONTROLLER) + /* + * TODO: add media controller support for analog video inputs like + * composite, svideo, etc. + * A real input pad for this analog demod would be like: + * ___________ + * TUNER --------> | | + * | | + * SVIDEO .......> | cx25840 | + * | | + * COMPOSITE1 ...> |_________| + * + * However, at least for now, there's no much gain on modelling + * those extra inputs. So, let's add it only when needed. + */ + state->pads[CX25840_PAD_INPUT].flags = MEDIA_PAD_FL_SINK; + state->pads[CX25840_PAD_VID_OUT].flags = MEDIA_PAD_FL_SOURCE; + state->pads[CX25840_PAD_VBI_OUT].flags = MEDIA_PAD_FL_SOURCE; + sd->entity.type = MEDIA_ENT_T_V4L2_SUBDEV_DECODER; + + ret = media_entity_init(&sd->entity, ARRAY_SIZE(state->pads), + state->pads, 0); + if (ret < 0) { + v4l_info(client, "failed to initialize media entity!\n"); + return ret; + } +#endif + + switch (id) { + case CX23885_AV: + v4l_info(client, "cx23885 A/V decoder found @ 0x%x (%s)\n", + client->addr << 1, client->adapter->name); + break; + case CX23887_AV: + v4l_info(client, "cx23887 A/V decoder found @ 0x%x (%s)\n", + client->addr << 1, client->adapter->name); + break; + case CX23888_AV: + v4l_info(client, "cx23888 A/V decoder found @ 0x%x (%s)\n", + client->addr << 1, client->adapter->name); + break; + case CX2310X_AV: + v4l_info(client, "cx%d A/V decoder found @ 0x%x (%s)\n", + device_id, client->addr << 1, client->adapter->name); + break; + case CX25840: + case CX25841: + case CX25842: + case CX25843: + /* Note: revision '(device_id & 0x0f) == 2' was never built. The + marking skips from 0x1 == 22 to 0x3 == 23. */ + v4l_info(client, "cx25%3x-2%x found @ 0x%x (%s)\n", + (device_id & 0xfff0) >> 4, + (device_id & 0x0f) < 3 ? (device_id & 0x0f) + 1 + : (device_id & 0x0f), + client->addr << 1, client->adapter->name); + break; + case CX25836: + case CX25837: + default: + v4l_info(client, "cx25%3x-%x found @ 0x%x (%s)\n", + (device_id & 0xfff0) >> 4, device_id & 0x0f, + client->addr << 1, client->adapter->name); + break; + } + + state->c = client; + state->vid_input = CX25840_COMPOSITE7; + state->aud_input = CX25840_AUDIO8; + state->audclk_freq = 48000; + state->audmode = V4L2_TUNER_MODE_LANG1; + state->vbi_line_offset = 8; + state->id = id; + state->rev = device_id; + v4l2_ctrl_handler_init(&state->hdl, 9); + v4l2_ctrl_new_std(&state->hdl, &cx25840_ctrl_ops, + V4L2_CID_BRIGHTNESS, 0, 255, 1, 128); + v4l2_ctrl_new_std(&state->hdl, &cx25840_ctrl_ops, + V4L2_CID_CONTRAST, 0, 127, 1, 64); + v4l2_ctrl_new_std(&state->hdl, &cx25840_ctrl_ops, + V4L2_CID_SATURATION, 0, 127, 1, 64); + v4l2_ctrl_new_std(&state->hdl, &cx25840_ctrl_ops, + V4L2_CID_HUE, -128, 127, 1, 0); + if (!is_cx2583x(state)) { + default_volume = cx25840_read(client, 0x8d4); + /* + * Enforce the legacy PVR-350/MSP3400 to PVR-150/CX25843 volume + * scale mapping limits to avoid -ERANGE errors when + * initializing the volume control + */ + if (default_volume > 228) { + /* Bottom out at -96 dB, v4l2 vol range 0x2e00-0x2fff */ + default_volume = 228; + cx25840_write(client, 0x8d4, 228); + } + else if (default_volume < 20) { + /* Top out at + 8 dB, v4l2 vol range 0xfe00-0xffff */ + default_volume = 20; + cx25840_write(client, 0x8d4, 20); + } + default_volume = (((228 - default_volume) >> 1) + 23) << 9; + + state->volume = v4l2_ctrl_new_std(&state->hdl, + &cx25840_audio_ctrl_ops, V4L2_CID_AUDIO_VOLUME, + 0, 65535, 65535 / 100, default_volume); + state->mute = v4l2_ctrl_new_std(&state->hdl, + &cx25840_audio_ctrl_ops, V4L2_CID_AUDIO_MUTE, + 0, 1, 1, 0); + v4l2_ctrl_new_std(&state->hdl, &cx25840_audio_ctrl_ops, + V4L2_CID_AUDIO_BALANCE, + 0, 65535, 65535 / 100, 32768); + v4l2_ctrl_new_std(&state->hdl, &cx25840_audio_ctrl_ops, + V4L2_CID_AUDIO_BASS, + 0, 65535, 65535 / 100, 32768); + v4l2_ctrl_new_std(&state->hdl, &cx25840_audio_ctrl_ops, + V4L2_CID_AUDIO_TREBLE, + 0, 65535, 65535 / 100, 32768); + } + sd->ctrl_handler = &state->hdl; + if (state->hdl.error) { + int err = state->hdl.error; + + v4l2_ctrl_handler_free(&state->hdl); + return err; + } + if (!is_cx2583x(state)) + v4l2_ctrl_cluster(2, &state->volume); + v4l2_ctrl_handler_setup(&state->hdl); + + if (client->dev.platform_data) { + struct cx25840_platform_data *pdata = client->dev.platform_data; + + state->pvr150_workaround = pdata->pvr150_workaround; + } + + cx25840_ir_probe(sd); + return 0; +} + +static int cx25840_remove(struct i2c_client *client) +{ + struct v4l2_subdev *sd = i2c_get_clientdata(client); + struct cx25840_state *state = to_state(sd); + + cx25840_ir_remove(sd); + v4l2_device_unregister_subdev(sd); + v4l2_ctrl_handler_free(&state->hdl); + return 0; +} + +static const struct i2c_device_id cx25840_id[] = { + { "cx25840", 0 }, + { } +}; +MODULE_DEVICE_TABLE(i2c, cx25840_id); + +static struct i2c_driver cx25840_driver = { + .driver = { + .owner = THIS_MODULE, + .name = "cx25840", + }, + .probe = cx25840_probe, + .remove = cx25840_remove, + .id_table = cx25840_id, +}; + +module_i2c_driver(cx25840_driver); diff --git a/kernel/drivers/media/i2c/cx25840/cx25840-core.h b/kernel/drivers/media/i2c/cx25840/cx25840-core.h new file mode 100644 index 000000000..fdea48ce0 --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/cx25840-core.h @@ -0,0 +1,160 @@ +/* cx25840 internal API header + * + * Copyright (C) 2003-2004 Chris Kennedy + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#ifndef _CX25840_CORE_H_ +#define _CX25840_CORE_H_ + + +#include <linux/videodev2.h> +#include <media/v4l2-device.h> +#include <media/v4l2-ctrls.h> +#include <linux/i2c.h> + +struct cx25840_ir_state; + +enum cx25840_model { + CX23885_AV, + CX23887_AV, + CX23888_AV, + CX2310X_AV, + CX25840, + CX25841, + CX25842, + CX25843, + CX25836, + CX25837, +}; + +enum cx25840_media_pads { + CX25840_PAD_INPUT, + CX25840_PAD_VID_OUT, + CX25840_PAD_VBI_OUT, + + CX25840_NUM_PADS +}; + +struct cx25840_state { + struct i2c_client *c; + struct v4l2_subdev sd; + struct v4l2_ctrl_handler hdl; + struct { + /* volume cluster */ + struct v4l2_ctrl *volume; + struct v4l2_ctrl *mute; + }; + int pvr150_workaround; + int radio; + v4l2_std_id std; + enum cx25840_video_input vid_input; + enum cx25840_audio_input aud_input; + u32 audclk_freq; + int audmode; + int vbi_line_offset; + enum cx25840_model id; + u32 rev; + int is_initialized; + wait_queue_head_t fw_wait; /* wake up when the fw load is finished */ + struct work_struct fw_work; /* work entry for fw load */ + struct cx25840_ir_state *ir_state; +#if defined(CONFIG_MEDIA_CONTROLLER) + struct media_pad pads[CX25840_NUM_PADS]; +#endif +}; + +static inline struct cx25840_state *to_state(struct v4l2_subdev *sd) +{ + return container_of(sd, struct cx25840_state, sd); +} + +static inline struct v4l2_subdev *to_sd(struct v4l2_ctrl *ctrl) +{ + return &container_of(ctrl->handler, struct cx25840_state, hdl)->sd; +} + +static inline bool is_cx2583x(struct cx25840_state *state) +{ + return state->id == CX25836 || + state->id == CX25837; +} + +static inline bool is_cx231xx(struct cx25840_state *state) +{ + return state->id == CX2310X_AV; +} + +static inline bool is_cx2388x(struct cx25840_state *state) +{ + return state->id == CX23885_AV || + state->id == CX23887_AV || + state->id == CX23888_AV; +} + +static inline bool is_cx23885(struct cx25840_state *state) +{ + return state->id == CX23885_AV; +} + +static inline bool is_cx23887(struct cx25840_state *state) +{ + return state->id == CX23887_AV; +} + +static inline bool is_cx23888(struct cx25840_state *state) +{ + return state->id == CX23888_AV; +} + +/* ----------------------------------------------------------------------- */ +/* cx25850-core.c */ +int cx25840_write(struct i2c_client *client, u16 addr, u8 value); +int cx25840_write4(struct i2c_client *client, u16 addr, u32 value); +u8 cx25840_read(struct i2c_client *client, u16 addr); +u32 cx25840_read4(struct i2c_client *client, u16 addr); +int cx25840_and_or(struct i2c_client *client, u16 addr, unsigned mask, u8 value); +int cx25840_and_or4(struct i2c_client *client, u16 addr, u32 and_mask, + u32 or_value); +void cx25840_std_setup(struct i2c_client *client); + +/* ----------------------------------------------------------------------- */ +/* cx25850-firmware.c */ +int cx25840_loadfw(struct i2c_client *client); + +/* ----------------------------------------------------------------------- */ +/* cx25850-audio.c */ +void cx25840_audio_set_path(struct i2c_client *client); +int cx25840_s_clock_freq(struct v4l2_subdev *sd, u32 freq); + +extern const struct v4l2_ctrl_ops cx25840_audio_ctrl_ops; + +/* ----------------------------------------------------------------------- */ +/* cx25850-vbi.c */ +int cx25840_s_raw_fmt(struct v4l2_subdev *sd, struct v4l2_vbi_format *fmt); +int cx25840_s_sliced_fmt(struct v4l2_subdev *sd, struct v4l2_sliced_vbi_format *fmt); +int cx25840_g_sliced_fmt(struct v4l2_subdev *sd, struct v4l2_sliced_vbi_format *fmt); +int cx25840_decode_vbi_line(struct v4l2_subdev *sd, struct v4l2_decode_vbi_line *vbi); + +/* ----------------------------------------------------------------------- */ +/* cx25850-ir.c */ +extern const struct v4l2_subdev_ir_ops cx25840_ir_ops; +int cx25840_ir_log_status(struct v4l2_subdev *sd); +int cx25840_ir_irq_handler(struct v4l2_subdev *sd, u32 status, bool *handled); +int cx25840_ir_probe(struct v4l2_subdev *sd); +int cx25840_ir_remove(struct v4l2_subdev *sd); + +#endif diff --git a/kernel/drivers/media/i2c/cx25840/cx25840-firmware.c b/kernel/drivers/media/i2c/cx25840/cx25840-firmware.c new file mode 100644 index 000000000..9bbb31adc --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/cx25840-firmware.c @@ -0,0 +1,174 @@ +/* cx25840 firmware functions + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + +#include <linux/module.h> +#include <linux/i2c.h> +#include <linux/firmware.h> +#include <media/v4l2-common.h> +#include <media/cx25840.h> + +#include "cx25840-core.h" + +/* + * Mike Isely <isely@pobox.com> - The FWSEND parameter controls the + * size of the firmware chunks sent down the I2C bus to the chip. + * Previously this had been set to 1024 but unfortunately some I2C + * implementations can't transfer data in such big gulps. + * Specifically, the pvrusb2 driver has a hard limit of around 60 + * bytes, due to the encapsulation there of I2C traffic into USB + * messages. So we have to significantly reduce this parameter. + */ +#define FWSEND 48 + +#define FWDEV(x) &((x)->dev) + +static char *firmware = ""; + +module_param(firmware, charp, 0444); + +MODULE_PARM_DESC(firmware, "Firmware image to load"); + +static void start_fw_load(struct i2c_client *client) +{ + /* DL_ADDR_LB=0 DL_ADDR_HB=0 */ + cx25840_write(client, 0x800, 0x00); + cx25840_write(client, 0x801, 0x00); + // DL_MAP=3 DL_AUTO_INC=0 DL_ENABLE=1 + cx25840_write(client, 0x803, 0x0b); + /* AUTO_INC_DIS=1 */ + cx25840_write(client, 0x000, 0x20); +} + +static void end_fw_load(struct i2c_client *client) +{ + /* AUTO_INC_DIS=0 */ + cx25840_write(client, 0x000, 0x00); + /* DL_ENABLE=0 */ + cx25840_write(client, 0x803, 0x03); +} + +#define CX2388x_FIRMWARE "v4l-cx23885-avcore-01.fw" +#define CX231xx_FIRMWARE "v4l-cx231xx-avcore-01.fw" +#define CX25840_FIRMWARE "v4l-cx25840.fw" + +static const char *get_fw_name(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + + if (firmware[0]) + return firmware; + if (is_cx2388x(state)) + return CX2388x_FIRMWARE; + if (is_cx231xx(state)) + return CX231xx_FIRMWARE; + return CX25840_FIRMWARE; +} + +static int check_fw_load(struct i2c_client *client, int size) +{ + /* DL_ADDR_HB DL_ADDR_LB */ + int s = cx25840_read(client, 0x801) << 8; + s |= cx25840_read(client, 0x800); + + if (size != s) { + v4l_err(client, "firmware %s load failed\n", + get_fw_name(client)); + return -EINVAL; + } + + v4l_info(client, "loaded %s firmware (%d bytes)\n", + get_fw_name(client), size); + return 0; +} + +static int fw_write(struct i2c_client *client, const u8 *data, int size) +{ + if (i2c_master_send(client, data, size) < size) { + v4l_err(client, "firmware load i2c failure\n"); + return -ENOSYS; + } + + return 0; +} + +int cx25840_loadfw(struct i2c_client *client) +{ + struct cx25840_state *state = to_state(i2c_get_clientdata(client)); + const struct firmware *fw = NULL; + u8 buffer[FWSEND]; + const u8 *ptr; + const char *fwname = get_fw_name(client); + int size, retval; + int max_buf_size = FWSEND; + u32 gpio_oe = 0, gpio_da = 0; + + if (is_cx2388x(state)) { + /* Preserve the GPIO OE and output bits */ + gpio_oe = cx25840_read(client, 0x160); + gpio_da = cx25840_read(client, 0x164); + } + + /* cx231xx cannot accept more than 16 bytes at a time */ + if (is_cx231xx(state) && max_buf_size > 16) + max_buf_size = 16; + + if (request_firmware(&fw, fwname, FWDEV(client)) != 0) { + v4l_err(client, "unable to open firmware %s\n", fwname); + return -EINVAL; + } + + start_fw_load(client); + + buffer[0] = 0x08; + buffer[1] = 0x02; + + size = fw->size; + ptr = fw->data; + while (size > 0) { + int len = min(max_buf_size - 2, size); + + memcpy(buffer + 2, ptr, len); + + retval = fw_write(client, buffer, len + 2); + + if (retval < 0) { + release_firmware(fw); + return retval; + } + + size -= len; + ptr += len; + } + + end_fw_load(client); + + size = fw->size; + release_firmware(fw); + + if (is_cx2388x(state)) { + /* Restore GPIO configuration after f/w load */ + cx25840_write(client, 0x160, gpio_oe); + cx25840_write(client, 0x164, gpio_da); + } + + return check_fw_load(client, size); +} + +MODULE_FIRMWARE(CX2388x_FIRMWARE); +MODULE_FIRMWARE(CX231xx_FIRMWARE); +MODULE_FIRMWARE(CX25840_FIRMWARE); + diff --git a/kernel/drivers/media/i2c/cx25840/cx25840-ir.c b/kernel/drivers/media/i2c/cx25840/cx25840-ir.c new file mode 100644 index 000000000..4cf8f18bf --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/cx25840-ir.c @@ -0,0 +1,1276 @@ +/* + * Driver for the Conexant CX2584x Audio/Video decoder chip and related cores + * + * Integrated Consumer Infrared Controller + * + * Copyright (C) 2010 Andy Walls <awalls@md.metrocast.net> + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA + * 02110-1301, USA. + */ + +#include <linux/slab.h> +#include <linux/kfifo.h> +#include <linux/module.h> +#include <media/cx25840.h> +#include <media/rc-core.h> + +#include "cx25840-core.h" + +static unsigned int ir_debug; +module_param(ir_debug, int, 0644); +MODULE_PARM_DESC(ir_debug, "enable integrated IR debug messages"); + +#define CX25840_IR_REG_BASE 0x200 + +#define CX25840_IR_CNTRL_REG 0x200 +#define CNTRL_WIN_3_3 0x00000000 +#define CNTRL_WIN_4_3 0x00000001 +#define CNTRL_WIN_3_4 0x00000002 +#define CNTRL_WIN_4_4 0x00000003 +#define CNTRL_WIN 0x00000003 +#define CNTRL_EDG_NONE 0x00000000 +#define CNTRL_EDG_FALL 0x00000004 +#define CNTRL_EDG_RISE 0x00000008 +#define CNTRL_EDG_BOTH 0x0000000C +#define CNTRL_EDG 0x0000000C +#define CNTRL_DMD 0x00000010 +#define CNTRL_MOD 0x00000020 +#define CNTRL_RFE 0x00000040 +#define CNTRL_TFE 0x00000080 +#define CNTRL_RXE 0x00000100 +#define CNTRL_TXE 0x00000200 +#define CNTRL_RIC 0x00000400 +#define CNTRL_TIC 0x00000800 +#define CNTRL_CPL 0x00001000 +#define CNTRL_LBM 0x00002000 +#define CNTRL_R 0x00004000 + +#define CX25840_IR_TXCLK_REG 0x204 +#define TXCLK_TCD 0x0000FFFF + +#define CX25840_IR_RXCLK_REG 0x208 +#define RXCLK_RCD 0x0000FFFF + +#define CX25840_IR_CDUTY_REG 0x20C +#define CDUTY_CDC 0x0000000F + +#define CX25840_IR_STATS_REG 0x210 +#define STATS_RTO 0x00000001 +#define STATS_ROR 0x00000002 +#define STATS_RBY 0x00000004 +#define STATS_TBY 0x00000008 +#define STATS_RSR 0x00000010 +#define STATS_TSR 0x00000020 + +#define CX25840_IR_IRQEN_REG 0x214 +#define IRQEN_RTE 0x00000001 +#define IRQEN_ROE 0x00000002 +#define IRQEN_RSE 0x00000010 +#define IRQEN_TSE 0x00000020 +#define IRQEN_MSK 0x00000033 + +#define CX25840_IR_FILTR_REG 0x218 +#define FILTR_LPF 0x0000FFFF + +#define CX25840_IR_FIFO_REG 0x23C +#define FIFO_RXTX 0x0000FFFF +#define FIFO_RXTX_LVL 0x00010000 +#define FIFO_RXTX_RTO 0x0001FFFF +#define FIFO_RX_NDV 0x00020000 +#define FIFO_RX_DEPTH 8 +#define FIFO_TX_DEPTH 8 + +#define CX25840_VIDCLK_FREQ 108000000 /* 108 MHz, BT.656 */ +#define CX25840_IR_REFCLK_FREQ (CX25840_VIDCLK_FREQ / 2) + +/* + * We use this union internally for convenience, but callers to tx_write + * and rx_read will be expecting records of type struct ir_raw_event. + * Always ensure the size of this union is dictated by struct ir_raw_event. + */ +union cx25840_ir_fifo_rec { + u32 hw_fifo_data; + struct ir_raw_event ir_core_data; +}; + +#define CX25840_IR_RX_KFIFO_SIZE (256 * sizeof(union cx25840_ir_fifo_rec)) +#define CX25840_IR_TX_KFIFO_SIZE (256 * sizeof(union cx25840_ir_fifo_rec)) + +struct cx25840_ir_state { + struct i2c_client *c; + + struct v4l2_subdev_ir_parameters rx_params; + struct mutex rx_params_lock; /* protects Rx parameter settings cache */ + atomic_t rxclk_divider; + atomic_t rx_invert; + + struct kfifo rx_kfifo; + spinlock_t rx_kfifo_lock; /* protect Rx data kfifo */ + + struct v4l2_subdev_ir_parameters tx_params; + struct mutex tx_params_lock; /* protects Tx parameter settings cache */ + atomic_t txclk_divider; +}; + +static inline struct cx25840_ir_state *to_ir_state(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + return state ? state->ir_state : NULL; +} + + +/* + * Rx and Tx Clock Divider register computations + * + * Note the largest clock divider value of 0xffff corresponds to: + * (0xffff + 1) * 1000 / 108/2 MHz = 1,213,629.629... ns + * which fits in 21 bits, so we'll use unsigned int for time arguments. + */ +static inline u16 count_to_clock_divider(unsigned int d) +{ + if (d > RXCLK_RCD + 1) + d = RXCLK_RCD; + else if (d < 2) + d = 1; + else + d--; + return (u16) d; +} + +static inline u16 ns_to_clock_divider(unsigned int ns) +{ + return count_to_clock_divider( + DIV_ROUND_CLOSEST(CX25840_IR_REFCLK_FREQ / 1000000 * ns, 1000)); +} + +static inline unsigned int clock_divider_to_ns(unsigned int divider) +{ + /* Period of the Rx or Tx clock in ns */ + return DIV_ROUND_CLOSEST((divider + 1) * 1000, + CX25840_IR_REFCLK_FREQ / 1000000); +} + +static inline u16 carrier_freq_to_clock_divider(unsigned int freq) +{ + return count_to_clock_divider( + DIV_ROUND_CLOSEST(CX25840_IR_REFCLK_FREQ, freq * 16)); +} + +static inline unsigned int clock_divider_to_carrier_freq(unsigned int divider) +{ + return DIV_ROUND_CLOSEST(CX25840_IR_REFCLK_FREQ, (divider + 1) * 16); +} + +static inline u16 freq_to_clock_divider(unsigned int freq, + unsigned int rollovers) +{ + return count_to_clock_divider( + DIV_ROUND_CLOSEST(CX25840_IR_REFCLK_FREQ, freq * rollovers)); +} + +static inline unsigned int clock_divider_to_freq(unsigned int divider, + unsigned int rollovers) +{ + return DIV_ROUND_CLOSEST(CX25840_IR_REFCLK_FREQ, + (divider + 1) * rollovers); +} + +/* + * Low Pass Filter register calculations + * + * Note the largest count value of 0xffff corresponds to: + * 0xffff * 1000 / 108/2 MHz = 1,213,611.11... ns + * which fits in 21 bits, so we'll use unsigned int for time arguments. + */ +static inline u16 count_to_lpf_count(unsigned int d) +{ + if (d > FILTR_LPF) + d = FILTR_LPF; + else if (d < 4) + d = 0; + return (u16) d; +} + +static inline u16 ns_to_lpf_count(unsigned int ns) +{ + return count_to_lpf_count( + DIV_ROUND_CLOSEST(CX25840_IR_REFCLK_FREQ / 1000000 * ns, 1000)); +} + +static inline unsigned int lpf_count_to_ns(unsigned int count) +{ + /* Duration of the Low Pass Filter rejection window in ns */ + return DIV_ROUND_CLOSEST(count * 1000, + CX25840_IR_REFCLK_FREQ / 1000000); +} + +static inline unsigned int lpf_count_to_us(unsigned int count) +{ + /* Duration of the Low Pass Filter rejection window in us */ + return DIV_ROUND_CLOSEST(count, CX25840_IR_REFCLK_FREQ / 1000000); +} + +/* + * FIFO register pulse width count computations + */ +static u32 clock_divider_to_resolution(u16 divider) +{ + /* + * Resolution is the duration of 1 tick of the readable portion of + * of the pulse width counter as read from the FIFO. The two lsb's are + * not readable, hence the << 2. This function returns ns. + */ + return DIV_ROUND_CLOSEST((1 << 2) * ((u32) divider + 1) * 1000, + CX25840_IR_REFCLK_FREQ / 1000000); +} + +static u64 pulse_width_count_to_ns(u16 count, u16 divider) +{ + u64 n; + u32 rem; + + /* + * The 2 lsb's of the pulse width timer count are not readable, hence + * the (count << 2) | 0x3 + */ + n = (((u64) count << 2) | 0x3) * (divider + 1) * 1000; /* millicycles */ + rem = do_div(n, CX25840_IR_REFCLK_FREQ / 1000000); /* / MHz => ns */ + if (rem >= CX25840_IR_REFCLK_FREQ / 1000000 / 2) + n++; + return n; +} + +#if 0 +/* Keep as we will need this for Transmit functionality */ +static u16 ns_to_pulse_width_count(u32 ns, u16 divider) +{ + u64 n; + u32 d; + u32 rem; + + /* + * The 2 lsb's of the pulse width timer count are not accessible, hence + * the (1 << 2) + */ + n = ((u64) ns) * CX25840_IR_REFCLK_FREQ / 1000000; /* millicycles */ + d = (1 << 2) * ((u32) divider + 1) * 1000; /* millicycles/count */ + rem = do_div(n, d); + if (rem >= d / 2) + n++; + + if (n > FIFO_RXTX) + n = FIFO_RXTX; + else if (n == 0) + n = 1; + return (u16) n; +} + +#endif +static unsigned int pulse_width_count_to_us(u16 count, u16 divider) +{ + u64 n; + u32 rem; + + /* + * The 2 lsb's of the pulse width timer count are not readable, hence + * the (count << 2) | 0x3 + */ + n = (((u64) count << 2) | 0x3) * (divider + 1); /* cycles */ + rem = do_div(n, CX25840_IR_REFCLK_FREQ / 1000000); /* / MHz => us */ + if (rem >= CX25840_IR_REFCLK_FREQ / 1000000 / 2) + n++; + return (unsigned int) n; +} + +/* + * Pulse Clocks computations: Combined Pulse Width Count & Rx Clock Counts + * + * The total pulse clock count is an 18 bit pulse width timer count as the most + * significant part and (up to) 16 bit clock divider count as a modulus. + * When the Rx clock divider ticks down to 0, it increments the 18 bit pulse + * width timer count's least significant bit. + */ +static u64 ns_to_pulse_clocks(u32 ns) +{ + u64 clocks; + u32 rem; + clocks = CX25840_IR_REFCLK_FREQ / 1000000 * (u64) ns; /* millicycles */ + rem = do_div(clocks, 1000); /* /1000 = cycles */ + if (rem >= 1000 / 2) + clocks++; + return clocks; +} + +static u16 pulse_clocks_to_clock_divider(u64 count) +{ + do_div(count, (FIFO_RXTX << 2) | 0x3); + + /* net result needs to be rounded down and decremented by 1 */ + if (count > RXCLK_RCD + 1) + count = RXCLK_RCD; + else if (count < 2) + count = 1; + else + count--; + return (u16) count; +} + +/* + * IR Control Register helpers + */ +enum tx_fifo_watermark { + TX_FIFO_HALF_EMPTY = 0, + TX_FIFO_EMPTY = CNTRL_TIC, +}; + +enum rx_fifo_watermark { + RX_FIFO_HALF_FULL = 0, + RX_FIFO_NOT_EMPTY = CNTRL_RIC, +}; + +static inline void control_tx_irq_watermark(struct i2c_client *c, + enum tx_fifo_watermark level) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_TIC, level); +} + +static inline void control_rx_irq_watermark(struct i2c_client *c, + enum rx_fifo_watermark level) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_RIC, level); +} + +static inline void control_tx_enable(struct i2c_client *c, bool enable) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~(CNTRL_TXE | CNTRL_TFE), + enable ? (CNTRL_TXE | CNTRL_TFE) : 0); +} + +static inline void control_rx_enable(struct i2c_client *c, bool enable) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~(CNTRL_RXE | CNTRL_RFE), + enable ? (CNTRL_RXE | CNTRL_RFE) : 0); +} + +static inline void control_tx_modulation_enable(struct i2c_client *c, + bool enable) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_MOD, + enable ? CNTRL_MOD : 0); +} + +static inline void control_rx_demodulation_enable(struct i2c_client *c, + bool enable) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_DMD, + enable ? CNTRL_DMD : 0); +} + +static inline void control_rx_s_edge_detection(struct i2c_client *c, + u32 edge_types) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_EDG_BOTH, + edge_types & CNTRL_EDG_BOTH); +} + +static void control_rx_s_carrier_window(struct i2c_client *c, + unsigned int carrier, + unsigned int *carrier_range_low, + unsigned int *carrier_range_high) +{ + u32 v; + unsigned int c16 = carrier * 16; + + if (*carrier_range_low < DIV_ROUND_CLOSEST(c16, 16 + 3)) { + v = CNTRL_WIN_3_4; + *carrier_range_low = DIV_ROUND_CLOSEST(c16, 16 + 4); + } else { + v = CNTRL_WIN_3_3; + *carrier_range_low = DIV_ROUND_CLOSEST(c16, 16 + 3); + } + + if (*carrier_range_high > DIV_ROUND_CLOSEST(c16, 16 - 3)) { + v |= CNTRL_WIN_4_3; + *carrier_range_high = DIV_ROUND_CLOSEST(c16, 16 - 4); + } else { + v |= CNTRL_WIN_3_3; + *carrier_range_high = DIV_ROUND_CLOSEST(c16, 16 - 3); + } + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_WIN, v); +} + +static inline void control_tx_polarity_invert(struct i2c_client *c, + bool invert) +{ + cx25840_and_or4(c, CX25840_IR_CNTRL_REG, ~CNTRL_CPL, + invert ? CNTRL_CPL : 0); +} + +/* + * IR Rx & Tx Clock Register helpers + */ +static unsigned int txclk_tx_s_carrier(struct i2c_client *c, + unsigned int freq, + u16 *divider) +{ + *divider = carrier_freq_to_clock_divider(freq); + cx25840_write4(c, CX25840_IR_TXCLK_REG, *divider); + return clock_divider_to_carrier_freq(*divider); +} + +static unsigned int rxclk_rx_s_carrier(struct i2c_client *c, + unsigned int freq, + u16 *divider) +{ + *divider = carrier_freq_to_clock_divider(freq); + cx25840_write4(c, CX25840_IR_RXCLK_REG, *divider); + return clock_divider_to_carrier_freq(*divider); +} + +static u32 txclk_tx_s_max_pulse_width(struct i2c_client *c, u32 ns, + u16 *divider) +{ + u64 pulse_clocks; + + if (ns > IR_MAX_DURATION) + ns = IR_MAX_DURATION; + pulse_clocks = ns_to_pulse_clocks(ns); + *divider = pulse_clocks_to_clock_divider(pulse_clocks); + cx25840_write4(c, CX25840_IR_TXCLK_REG, *divider); + return (u32) pulse_width_count_to_ns(FIFO_RXTX, *divider); +} + +static u32 rxclk_rx_s_max_pulse_width(struct i2c_client *c, u32 ns, + u16 *divider) +{ + u64 pulse_clocks; + + if (ns > IR_MAX_DURATION) + ns = IR_MAX_DURATION; + pulse_clocks = ns_to_pulse_clocks(ns); + *divider = pulse_clocks_to_clock_divider(pulse_clocks); + cx25840_write4(c, CX25840_IR_RXCLK_REG, *divider); + return (u32) pulse_width_count_to_ns(FIFO_RXTX, *divider); +} + +/* + * IR Tx Carrier Duty Cycle register helpers + */ +static unsigned int cduty_tx_s_duty_cycle(struct i2c_client *c, + unsigned int duty_cycle) +{ + u32 n; + n = DIV_ROUND_CLOSEST(duty_cycle * 100, 625); /* 16ths of 100% */ + if (n != 0) + n--; + if (n > 15) + n = 15; + cx25840_write4(c, CX25840_IR_CDUTY_REG, n); + return DIV_ROUND_CLOSEST((n + 1) * 100, 16); +} + +/* + * IR Filter Register helpers + */ +static u32 filter_rx_s_min_width(struct i2c_client *c, u32 min_width_ns) +{ + u32 count = ns_to_lpf_count(min_width_ns); + cx25840_write4(c, CX25840_IR_FILTR_REG, count); + return lpf_count_to_ns(count); +} + +/* + * IR IRQ Enable Register helpers + */ +static inline void irqenable_rx(struct v4l2_subdev *sd, u32 mask) +{ + struct cx25840_state *state = to_state(sd); + + if (is_cx23885(state) || is_cx23887(state)) + mask ^= IRQEN_MSK; + mask &= (IRQEN_RTE | IRQEN_ROE | IRQEN_RSE); + cx25840_and_or4(state->c, CX25840_IR_IRQEN_REG, + ~(IRQEN_RTE | IRQEN_ROE | IRQEN_RSE), mask); +} + +static inline void irqenable_tx(struct v4l2_subdev *sd, u32 mask) +{ + struct cx25840_state *state = to_state(sd); + + if (is_cx23885(state) || is_cx23887(state)) + mask ^= IRQEN_MSK; + mask &= IRQEN_TSE; + cx25840_and_or4(state->c, CX25840_IR_IRQEN_REG, ~IRQEN_TSE, mask); +} + +/* + * V4L2 Subdevice IR Ops + */ +int cx25840_ir_irq_handler(struct v4l2_subdev *sd, u32 status, bool *handled) +{ + struct cx25840_state *state = to_state(sd); + struct cx25840_ir_state *ir_state = to_ir_state(sd); + struct i2c_client *c = NULL; + unsigned long flags; + + union cx25840_ir_fifo_rec rx_data[FIFO_RX_DEPTH]; + unsigned int i, j, k; + u32 events, v; + int tsr, rsr, rto, ror, tse, rse, rte, roe, kror; + u32 cntrl, irqen, stats; + + *handled = false; + if (ir_state == NULL) + return -ENODEV; + + c = ir_state->c; + + /* Only support the IR controller for the CX2388[57] AV Core for now */ + if (!(is_cx23885(state) || is_cx23887(state))) + return -ENODEV; + + cntrl = cx25840_read4(c, CX25840_IR_CNTRL_REG); + irqen = cx25840_read4(c, CX25840_IR_IRQEN_REG); + if (is_cx23885(state) || is_cx23887(state)) + irqen ^= IRQEN_MSK; + stats = cx25840_read4(c, CX25840_IR_STATS_REG); + + tsr = stats & STATS_TSR; /* Tx FIFO Service Request */ + rsr = stats & STATS_RSR; /* Rx FIFO Service Request */ + rto = stats & STATS_RTO; /* Rx Pulse Width Timer Time Out */ + ror = stats & STATS_ROR; /* Rx FIFO Over Run */ + + tse = irqen & IRQEN_TSE; /* Tx FIFO Service Request IRQ Enable */ + rse = irqen & IRQEN_RSE; /* Rx FIFO Service Reuqest IRQ Enable */ + rte = irqen & IRQEN_RTE; /* Rx Pulse Width Timer Time Out IRQ Enable */ + roe = irqen & IRQEN_ROE; /* Rx FIFO Over Run IRQ Enable */ + + v4l2_dbg(2, ir_debug, sd, "IR IRQ Status: %s %s %s %s %s %s\n", + tsr ? "tsr" : " ", rsr ? "rsr" : " ", + rto ? "rto" : " ", ror ? "ror" : " ", + stats & STATS_TBY ? "tby" : " ", + stats & STATS_RBY ? "rby" : " "); + + v4l2_dbg(2, ir_debug, sd, "IR IRQ Enables: %s %s %s %s\n", + tse ? "tse" : " ", rse ? "rse" : " ", + rte ? "rte" : " ", roe ? "roe" : " "); + + /* + * Transmitter interrupt service + */ + if (tse && tsr) { + /* + * TODO: + * Check the watermark threshold setting + * Pull FIFO_TX_DEPTH or FIFO_TX_DEPTH/2 entries from tx_kfifo + * Push the data to the hardware FIFO. + * If there was nothing more to send in the tx_kfifo, disable + * the TSR IRQ and notify the v4l2_device. + * If there was something in the tx_kfifo, check the tx_kfifo + * level and notify the v4l2_device, if it is low. + */ + /* For now, inhibit TSR interrupt until Tx is implemented */ + irqenable_tx(sd, 0); + events = V4L2_SUBDEV_IR_TX_FIFO_SERVICE_REQ; + v4l2_subdev_notify(sd, V4L2_SUBDEV_IR_TX_NOTIFY, &events); + *handled = true; + } + + /* + * Receiver interrupt service + */ + kror = 0; + if ((rse && rsr) || (rte && rto)) { + /* + * Receive data on RSR to clear the STATS_RSR. + * Receive data on RTO, since we may not have yet hit the RSR + * watermark when we receive the RTO. + */ + for (i = 0, v = FIFO_RX_NDV; + (v & FIFO_RX_NDV) && !kror; i = 0) { + for (j = 0; + (v & FIFO_RX_NDV) && j < FIFO_RX_DEPTH; j++) { + v = cx25840_read4(c, CX25840_IR_FIFO_REG); + rx_data[i].hw_fifo_data = v & ~FIFO_RX_NDV; + i++; + } + if (i == 0) + break; + j = i * sizeof(union cx25840_ir_fifo_rec); + k = kfifo_in_locked(&ir_state->rx_kfifo, + (unsigned char *) rx_data, j, + &ir_state->rx_kfifo_lock); + if (k != j) + kror++; /* rx_kfifo over run */ + } + *handled = true; + } + + events = 0; + v = 0; + if (kror) { + events |= V4L2_SUBDEV_IR_RX_SW_FIFO_OVERRUN; + v4l2_err(sd, "IR receiver software FIFO overrun\n"); + } + if (roe && ror) { + /* + * The RX FIFO Enable (CNTRL_RFE) must be toggled to clear + * the Rx FIFO Over Run status (STATS_ROR) + */ + v |= CNTRL_RFE; + events |= V4L2_SUBDEV_IR_RX_HW_FIFO_OVERRUN; + v4l2_err(sd, "IR receiver hardware FIFO overrun\n"); + } + if (rte && rto) { + /* + * The IR Receiver Enable (CNTRL_RXE) must be toggled to clear + * the Rx Pulse Width Timer Time Out (STATS_RTO) + */ + v |= CNTRL_RXE; + events |= V4L2_SUBDEV_IR_RX_END_OF_RX_DETECTED; + } + if (v) { + /* Clear STATS_ROR & STATS_RTO as needed by reseting hardware */ + cx25840_write4(c, CX25840_IR_CNTRL_REG, cntrl & ~v); + cx25840_write4(c, CX25840_IR_CNTRL_REG, cntrl); + *handled = true; + } + spin_lock_irqsave(&ir_state->rx_kfifo_lock, flags); + if (kfifo_len(&ir_state->rx_kfifo) >= CX25840_IR_RX_KFIFO_SIZE / 2) + events |= V4L2_SUBDEV_IR_RX_FIFO_SERVICE_REQ; + spin_unlock_irqrestore(&ir_state->rx_kfifo_lock, flags); + + if (events) + v4l2_subdev_notify(sd, V4L2_SUBDEV_IR_RX_NOTIFY, &events); + return 0; +} + +/* Receiver */ +static int cx25840_ir_rx_read(struct v4l2_subdev *sd, u8 *buf, size_t count, + ssize_t *num) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + bool invert; + u16 divider; + unsigned int i, n; + union cx25840_ir_fifo_rec *p; + unsigned u, v, w; + + if (ir_state == NULL) + return -ENODEV; + + invert = (bool) atomic_read(&ir_state->rx_invert); + divider = (u16) atomic_read(&ir_state->rxclk_divider); + + n = count / sizeof(union cx25840_ir_fifo_rec) + * sizeof(union cx25840_ir_fifo_rec); + if (n == 0) { + *num = 0; + return 0; + } + + n = kfifo_out_locked(&ir_state->rx_kfifo, buf, n, + &ir_state->rx_kfifo_lock); + + n /= sizeof(union cx25840_ir_fifo_rec); + *num = n * sizeof(union cx25840_ir_fifo_rec); + + for (p = (union cx25840_ir_fifo_rec *) buf, i = 0; i < n; p++, i++) { + + if ((p->hw_fifo_data & FIFO_RXTX_RTO) == FIFO_RXTX_RTO) { + /* Assume RTO was because of no IR light input */ + u = 0; + w = 1; + } else { + u = (p->hw_fifo_data & FIFO_RXTX_LVL) ? 1 : 0; + if (invert) + u = u ? 0 : 1; + w = 0; + } + + v = (unsigned) pulse_width_count_to_ns( + (u16) (p->hw_fifo_data & FIFO_RXTX), divider); + if (v > IR_MAX_DURATION) + v = IR_MAX_DURATION; + + init_ir_raw_event(&p->ir_core_data); + p->ir_core_data.pulse = u; + p->ir_core_data.duration = v; + p->ir_core_data.timeout = w; + + v4l2_dbg(2, ir_debug, sd, "rx read: %10u ns %s %s\n", + v, u ? "mark" : "space", w ? "(timed out)" : ""); + if (w) + v4l2_dbg(2, ir_debug, sd, "rx read: end of rx\n"); + } + return 0; +} + +static int cx25840_ir_rx_g_parameters(struct v4l2_subdev *sd, + struct v4l2_subdev_ir_parameters *p) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + + if (ir_state == NULL) + return -ENODEV; + + mutex_lock(&ir_state->rx_params_lock); + memcpy(p, &ir_state->rx_params, + sizeof(struct v4l2_subdev_ir_parameters)); + mutex_unlock(&ir_state->rx_params_lock); + return 0; +} + +static int cx25840_ir_rx_shutdown(struct v4l2_subdev *sd) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + struct i2c_client *c; + + if (ir_state == NULL) + return -ENODEV; + + c = ir_state->c; + mutex_lock(&ir_state->rx_params_lock); + + /* Disable or slow down all IR Rx circuits and counters */ + irqenable_rx(sd, 0); + control_rx_enable(c, false); + control_rx_demodulation_enable(c, false); + control_rx_s_edge_detection(c, CNTRL_EDG_NONE); + filter_rx_s_min_width(c, 0); + cx25840_write4(c, CX25840_IR_RXCLK_REG, RXCLK_RCD); + + ir_state->rx_params.shutdown = true; + + mutex_unlock(&ir_state->rx_params_lock); + return 0; +} + +static int cx25840_ir_rx_s_parameters(struct v4l2_subdev *sd, + struct v4l2_subdev_ir_parameters *p) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + struct i2c_client *c; + struct v4l2_subdev_ir_parameters *o; + u16 rxclk_divider; + + if (ir_state == NULL) + return -ENODEV; + + if (p->shutdown) + return cx25840_ir_rx_shutdown(sd); + + if (p->mode != V4L2_SUBDEV_IR_MODE_PULSE_WIDTH) + return -ENOSYS; + + c = ir_state->c; + o = &ir_state->rx_params; + + mutex_lock(&ir_state->rx_params_lock); + + o->shutdown = p->shutdown; + + p->mode = V4L2_SUBDEV_IR_MODE_PULSE_WIDTH; + o->mode = p->mode; + + p->bytes_per_data_element = sizeof(union cx25840_ir_fifo_rec); + o->bytes_per_data_element = p->bytes_per_data_element; + + /* Before we tweak the hardware, we have to disable the receiver */ + irqenable_rx(sd, 0); + control_rx_enable(c, false); + + control_rx_demodulation_enable(c, p->modulation); + o->modulation = p->modulation; + + if (p->modulation) { + p->carrier_freq = rxclk_rx_s_carrier(c, p->carrier_freq, + &rxclk_divider); + + o->carrier_freq = p->carrier_freq; + + p->duty_cycle = 50; + o->duty_cycle = p->duty_cycle; + + control_rx_s_carrier_window(c, p->carrier_freq, + &p->carrier_range_lower, + &p->carrier_range_upper); + o->carrier_range_lower = p->carrier_range_lower; + o->carrier_range_upper = p->carrier_range_upper; + + p->max_pulse_width = + (u32) pulse_width_count_to_ns(FIFO_RXTX, rxclk_divider); + } else { + p->max_pulse_width = + rxclk_rx_s_max_pulse_width(c, p->max_pulse_width, + &rxclk_divider); + } + o->max_pulse_width = p->max_pulse_width; + atomic_set(&ir_state->rxclk_divider, rxclk_divider); + + p->noise_filter_min_width = + filter_rx_s_min_width(c, p->noise_filter_min_width); + o->noise_filter_min_width = p->noise_filter_min_width; + + p->resolution = clock_divider_to_resolution(rxclk_divider); + o->resolution = p->resolution; + + /* FIXME - make this dependent on resolution for better performance */ + control_rx_irq_watermark(c, RX_FIFO_HALF_FULL); + + control_rx_s_edge_detection(c, CNTRL_EDG_BOTH); + + o->invert_level = p->invert_level; + atomic_set(&ir_state->rx_invert, p->invert_level); + + o->interrupt_enable = p->interrupt_enable; + o->enable = p->enable; + if (p->enable) { + unsigned long flags; + + spin_lock_irqsave(&ir_state->rx_kfifo_lock, flags); + kfifo_reset(&ir_state->rx_kfifo); + spin_unlock_irqrestore(&ir_state->rx_kfifo_lock, flags); + if (p->interrupt_enable) + irqenable_rx(sd, IRQEN_RSE | IRQEN_RTE | IRQEN_ROE); + control_rx_enable(c, p->enable); + } + + mutex_unlock(&ir_state->rx_params_lock); + return 0; +} + +/* Transmitter */ +static int cx25840_ir_tx_write(struct v4l2_subdev *sd, u8 *buf, size_t count, + ssize_t *num) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + + if (ir_state == NULL) + return -ENODEV; + +#if 0 + /* + * FIXME - the code below is an incomplete and untested sketch of what + * may need to be done. The critical part is to get 4 (or 8) pulses + * from the tx_kfifo, or converted from ns to the proper units from the + * input, and push them off to the hardware Tx FIFO right away, if the + * HW TX fifo needs service. The rest can be pushed to the tx_kfifo in + * a less critical timeframe. Also watch out for overruning the + * tx_kfifo - don't let it happen and let the caller know not all his + * pulses were written. + */ + u32 *ns_pulse = (u32 *) buf; + unsigned int n; + u32 fifo_pulse[FIFO_TX_DEPTH]; + u32 mark; + + /* Compute how much we can fit in the tx kfifo */ + n = CX25840_IR_TX_KFIFO_SIZE - kfifo_len(ir_state->tx_kfifo); + n = min(n, (unsigned int) count); + n /= sizeof(u32); + + /* FIXME - turn on Tx Fifo service interrupt + * check hardware fifo level, and other stuff + */ + for (i = 0; i < n; ) { + for (j = 0; j < FIFO_TX_DEPTH / 2 && i < n; j++) { + mark = ns_pulse[i] & LEVEL_MASK; + fifo_pulse[j] = ns_to_pulse_width_count( + ns_pulse[i] & + ~LEVEL_MASK, + ir_state->txclk_divider); + if (mark) + fifo_pulse[j] &= FIFO_RXTX_LVL; + i++; + } + kfifo_put(ir_state->tx_kfifo, (u8 *) fifo_pulse, + j * sizeof(u32)); + } + *num = n * sizeof(u32); +#else + /* For now enable the Tx FIFO Service interrupt & pretend we did work */ + irqenable_tx(sd, IRQEN_TSE); + *num = count; +#endif + return 0; +} + +static int cx25840_ir_tx_g_parameters(struct v4l2_subdev *sd, + struct v4l2_subdev_ir_parameters *p) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + + if (ir_state == NULL) + return -ENODEV; + + mutex_lock(&ir_state->tx_params_lock); + memcpy(p, &ir_state->tx_params, + sizeof(struct v4l2_subdev_ir_parameters)); + mutex_unlock(&ir_state->tx_params_lock); + return 0; +} + +static int cx25840_ir_tx_shutdown(struct v4l2_subdev *sd) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + struct i2c_client *c; + + if (ir_state == NULL) + return -ENODEV; + + c = ir_state->c; + mutex_lock(&ir_state->tx_params_lock); + + /* Disable or slow down all IR Tx circuits and counters */ + irqenable_tx(sd, 0); + control_tx_enable(c, false); + control_tx_modulation_enable(c, false); + cx25840_write4(c, CX25840_IR_TXCLK_REG, TXCLK_TCD); + + ir_state->tx_params.shutdown = true; + + mutex_unlock(&ir_state->tx_params_lock); + return 0; +} + +static int cx25840_ir_tx_s_parameters(struct v4l2_subdev *sd, + struct v4l2_subdev_ir_parameters *p) +{ + struct cx25840_ir_state *ir_state = to_ir_state(sd); + struct i2c_client *c; + struct v4l2_subdev_ir_parameters *o; + u16 txclk_divider; + + if (ir_state == NULL) + return -ENODEV; + + if (p->shutdown) + return cx25840_ir_tx_shutdown(sd); + + if (p->mode != V4L2_SUBDEV_IR_MODE_PULSE_WIDTH) + return -ENOSYS; + + c = ir_state->c; + o = &ir_state->tx_params; + mutex_lock(&ir_state->tx_params_lock); + + o->shutdown = p->shutdown; + + p->mode = V4L2_SUBDEV_IR_MODE_PULSE_WIDTH; + o->mode = p->mode; + + p->bytes_per_data_element = sizeof(union cx25840_ir_fifo_rec); + o->bytes_per_data_element = p->bytes_per_data_element; + + /* Before we tweak the hardware, we have to disable the transmitter */ + irqenable_tx(sd, 0); + control_tx_enable(c, false); + + control_tx_modulation_enable(c, p->modulation); + o->modulation = p->modulation; + + if (p->modulation) { + p->carrier_freq = txclk_tx_s_carrier(c, p->carrier_freq, + &txclk_divider); + o->carrier_freq = p->carrier_freq; + + p->duty_cycle = cduty_tx_s_duty_cycle(c, p->duty_cycle); + o->duty_cycle = p->duty_cycle; + + p->max_pulse_width = + (u32) pulse_width_count_to_ns(FIFO_RXTX, txclk_divider); + } else { + p->max_pulse_width = + txclk_tx_s_max_pulse_width(c, p->max_pulse_width, + &txclk_divider); + } + o->max_pulse_width = p->max_pulse_width; + atomic_set(&ir_state->txclk_divider, txclk_divider); + + p->resolution = clock_divider_to_resolution(txclk_divider); + o->resolution = p->resolution; + + /* FIXME - make this dependent on resolution for better performance */ + control_tx_irq_watermark(c, TX_FIFO_HALF_EMPTY); + + control_tx_polarity_invert(c, p->invert_carrier_sense); + o->invert_carrier_sense = p->invert_carrier_sense; + + /* + * FIXME: we don't have hardware help for IO pin level inversion + * here like we have on the CX23888. + * Act on this with some mix of logical inversion of data levels, + * carrier polarity, and carrier duty cycle. + */ + o->invert_level = p->invert_level; + + o->interrupt_enable = p->interrupt_enable; + o->enable = p->enable; + if (p->enable) { + /* reset tx_fifo here */ + if (p->interrupt_enable) + irqenable_tx(sd, IRQEN_TSE); + control_tx_enable(c, p->enable); + } + + mutex_unlock(&ir_state->tx_params_lock); + return 0; +} + + +/* + * V4L2 Subdevice Core Ops support + */ +int cx25840_ir_log_status(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + struct i2c_client *c = state->c; + char *s; + int i, j; + u32 cntrl, txclk, rxclk, cduty, stats, irqen, filtr; + + /* The CX23888 chip doesn't have an IR controller on the A/V core */ + if (is_cx23888(state)) + return 0; + + cntrl = cx25840_read4(c, CX25840_IR_CNTRL_REG); + txclk = cx25840_read4(c, CX25840_IR_TXCLK_REG) & TXCLK_TCD; + rxclk = cx25840_read4(c, CX25840_IR_RXCLK_REG) & RXCLK_RCD; + cduty = cx25840_read4(c, CX25840_IR_CDUTY_REG) & CDUTY_CDC; + stats = cx25840_read4(c, CX25840_IR_STATS_REG); + irqen = cx25840_read4(c, CX25840_IR_IRQEN_REG); + if (is_cx23885(state) || is_cx23887(state)) + irqen ^= IRQEN_MSK; + filtr = cx25840_read4(c, CX25840_IR_FILTR_REG) & FILTR_LPF; + + v4l2_info(sd, "IR Receiver:\n"); + v4l2_info(sd, "\tEnabled: %s\n", + cntrl & CNTRL_RXE ? "yes" : "no"); + v4l2_info(sd, "\tDemodulation from a carrier: %s\n", + cntrl & CNTRL_DMD ? "enabled" : "disabled"); + v4l2_info(sd, "\tFIFO: %s\n", + cntrl & CNTRL_RFE ? "enabled" : "disabled"); + switch (cntrl & CNTRL_EDG) { + case CNTRL_EDG_NONE: + s = "disabled"; + break; + case CNTRL_EDG_FALL: + s = "falling edge"; + break; + case CNTRL_EDG_RISE: + s = "rising edge"; + break; + case CNTRL_EDG_BOTH: + s = "rising & falling edges"; + break; + default: + s = "??? edge"; + break; + } + v4l2_info(sd, "\tPulse timers' start/stop trigger: %s\n", s); + v4l2_info(sd, "\tFIFO data on pulse timer overflow: %s\n", + cntrl & CNTRL_R ? "not loaded" : "overflow marker"); + v4l2_info(sd, "\tFIFO interrupt watermark: %s\n", + cntrl & CNTRL_RIC ? "not empty" : "half full or greater"); + v4l2_info(sd, "\tLoopback mode: %s\n", + cntrl & CNTRL_LBM ? "loopback active" : "normal receive"); + if (cntrl & CNTRL_DMD) { + v4l2_info(sd, "\tExpected carrier (16 clocks): %u Hz\n", + clock_divider_to_carrier_freq(rxclk)); + switch (cntrl & CNTRL_WIN) { + case CNTRL_WIN_3_3: + i = 3; + j = 3; + break; + case CNTRL_WIN_4_3: + i = 4; + j = 3; + break; + case CNTRL_WIN_3_4: + i = 3; + j = 4; + break; + case CNTRL_WIN_4_4: + i = 4; + j = 4; + break; + default: + i = 0; + j = 0; + break; + } + v4l2_info(sd, "\tNext carrier edge window: 16 clocks " + "-%1d/+%1d, %u to %u Hz\n", i, j, + clock_divider_to_freq(rxclk, 16 + j), + clock_divider_to_freq(rxclk, 16 - i)); + } + v4l2_info(sd, "\tMax measurable pulse width: %u us, %llu ns\n", + pulse_width_count_to_us(FIFO_RXTX, rxclk), + pulse_width_count_to_ns(FIFO_RXTX, rxclk)); + v4l2_info(sd, "\tLow pass filter: %s\n", + filtr ? "enabled" : "disabled"); + if (filtr) + v4l2_info(sd, "\tMin acceptable pulse width (LPF): %u us, " + "%u ns\n", + lpf_count_to_us(filtr), + lpf_count_to_ns(filtr)); + v4l2_info(sd, "\tPulse width timer timed-out: %s\n", + stats & STATS_RTO ? "yes" : "no"); + v4l2_info(sd, "\tPulse width timer time-out intr: %s\n", + irqen & IRQEN_RTE ? "enabled" : "disabled"); + v4l2_info(sd, "\tFIFO overrun: %s\n", + stats & STATS_ROR ? "yes" : "no"); + v4l2_info(sd, "\tFIFO overrun interrupt: %s\n", + irqen & IRQEN_ROE ? "enabled" : "disabled"); + v4l2_info(sd, "\tBusy: %s\n", + stats & STATS_RBY ? "yes" : "no"); + v4l2_info(sd, "\tFIFO service requested: %s\n", + stats & STATS_RSR ? "yes" : "no"); + v4l2_info(sd, "\tFIFO service request interrupt: %s\n", + irqen & IRQEN_RSE ? "enabled" : "disabled"); + + v4l2_info(sd, "IR Transmitter:\n"); + v4l2_info(sd, "\tEnabled: %s\n", + cntrl & CNTRL_TXE ? "yes" : "no"); + v4l2_info(sd, "\tModulation onto a carrier: %s\n", + cntrl & CNTRL_MOD ? "enabled" : "disabled"); + v4l2_info(sd, "\tFIFO: %s\n", + cntrl & CNTRL_TFE ? "enabled" : "disabled"); + v4l2_info(sd, "\tFIFO interrupt watermark: %s\n", + cntrl & CNTRL_TIC ? "not empty" : "half full or less"); + v4l2_info(sd, "\tCarrier polarity: %s\n", + cntrl & CNTRL_CPL ? "space:burst mark:noburst" + : "space:noburst mark:burst"); + if (cntrl & CNTRL_MOD) { + v4l2_info(sd, "\tCarrier (16 clocks): %u Hz\n", + clock_divider_to_carrier_freq(txclk)); + v4l2_info(sd, "\tCarrier duty cycle: %2u/16\n", + cduty + 1); + } + v4l2_info(sd, "\tMax pulse width: %u us, %llu ns\n", + pulse_width_count_to_us(FIFO_RXTX, txclk), + pulse_width_count_to_ns(FIFO_RXTX, txclk)); + v4l2_info(sd, "\tBusy: %s\n", + stats & STATS_TBY ? "yes" : "no"); + v4l2_info(sd, "\tFIFO service requested: %s\n", + stats & STATS_TSR ? "yes" : "no"); + v4l2_info(sd, "\tFIFO service request interrupt: %s\n", + irqen & IRQEN_TSE ? "enabled" : "disabled"); + + return 0; +} + + +const struct v4l2_subdev_ir_ops cx25840_ir_ops = { + .rx_read = cx25840_ir_rx_read, + .rx_g_parameters = cx25840_ir_rx_g_parameters, + .rx_s_parameters = cx25840_ir_rx_s_parameters, + + .tx_write = cx25840_ir_tx_write, + .tx_g_parameters = cx25840_ir_tx_g_parameters, + .tx_s_parameters = cx25840_ir_tx_s_parameters, +}; + + +static const struct v4l2_subdev_ir_parameters default_rx_params = { + .bytes_per_data_element = sizeof(union cx25840_ir_fifo_rec), + .mode = V4L2_SUBDEV_IR_MODE_PULSE_WIDTH, + + .enable = false, + .interrupt_enable = false, + .shutdown = true, + + .modulation = true, + .carrier_freq = 36000, /* 36 kHz - RC-5, and RC-6 carrier */ + + /* RC-5: 666,667 ns = 1/36 kHz * 32 cycles * 1 mark * 0.75 */ + /* RC-6: 333,333 ns = 1/36 kHz * 16 cycles * 1 mark * 0.75 */ + .noise_filter_min_width = 333333, /* ns */ + .carrier_range_lower = 35000, + .carrier_range_upper = 37000, + .invert_level = false, +}; + +static const struct v4l2_subdev_ir_parameters default_tx_params = { + .bytes_per_data_element = sizeof(union cx25840_ir_fifo_rec), + .mode = V4L2_SUBDEV_IR_MODE_PULSE_WIDTH, + + .enable = false, + .interrupt_enable = false, + .shutdown = true, + + .modulation = true, + .carrier_freq = 36000, /* 36 kHz - RC-5 carrier */ + .duty_cycle = 25, /* 25 % - RC-5 carrier */ + .invert_level = false, + .invert_carrier_sense = false, +}; + +int cx25840_ir_probe(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + struct cx25840_ir_state *ir_state; + struct v4l2_subdev_ir_parameters default_params; + + /* Only init the IR controller for the CX2388[57] AV Core for now */ + if (!(is_cx23885(state) || is_cx23887(state))) + return 0; + + ir_state = devm_kzalloc(&state->c->dev, sizeof(*ir_state), GFP_KERNEL); + if (ir_state == NULL) + return -ENOMEM; + + spin_lock_init(&ir_state->rx_kfifo_lock); + if (kfifo_alloc(&ir_state->rx_kfifo, + CX25840_IR_RX_KFIFO_SIZE, GFP_KERNEL)) + return -ENOMEM; + + ir_state->c = state->c; + state->ir_state = ir_state; + + /* Ensure no interrupts arrive yet */ + if (is_cx23885(state) || is_cx23887(state)) + cx25840_write4(ir_state->c, CX25840_IR_IRQEN_REG, IRQEN_MSK); + else + cx25840_write4(ir_state->c, CX25840_IR_IRQEN_REG, 0); + + mutex_init(&ir_state->rx_params_lock); + default_params = default_rx_params; + v4l2_subdev_call(sd, ir, rx_s_parameters, &default_params); + + mutex_init(&ir_state->tx_params_lock); + default_params = default_tx_params; + v4l2_subdev_call(sd, ir, tx_s_parameters, &default_params); + + return 0; +} + +int cx25840_ir_remove(struct v4l2_subdev *sd) +{ + struct cx25840_state *state = to_state(sd); + struct cx25840_ir_state *ir_state = to_ir_state(sd); + + if (ir_state == NULL) + return -ENODEV; + + cx25840_ir_rx_shutdown(sd); + cx25840_ir_tx_shutdown(sd); + + kfifo_free(&ir_state->rx_kfifo); + state->ir_state = NULL; + return 0; +} diff --git a/kernel/drivers/media/i2c/cx25840/cx25840-vbi.c b/kernel/drivers/media/i2c/cx25840/cx25840-vbi.c new file mode 100644 index 000000000..c39e91dc1 --- /dev/null +++ b/kernel/drivers/media/i2c/cx25840/cx25840-vbi.c @@ -0,0 +1,257 @@ +/* cx25840 VBI functions + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version 2 + * of the License, or (at your option) any later version. + * + * This program is distributed in the hope that 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. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. + */ + + +#include <linux/videodev2.h> +#include <linux/i2c.h> +#include <media/v4l2-common.h> +#include <media/cx25840.h> + +#include "cx25840-core.h" + +static int odd_parity(u8 c) +{ + c ^= (c >> 4); + c ^= (c >> 2); + c ^= (c >> 1); + + return c & 1; +} + +static int decode_vps(u8 * dst, u8 * p) +{ + static const u8 biphase_tbl[] = { + 0xf0, 0x78, 0x70, 0xf0, 0xb4, 0x3c, 0x34, 0xb4, + 0xb0, 0x38, 0x30, 0xb0, 0xf0, 0x78, 0x70, 0xf0, + 0xd2, 0x5a, 0x52, 0xd2, 0x96, 0x1e, 0x16, 0x96, + 0x92, 0x1a, 0x12, 0x92, 0xd2, 0x5a, 0x52, 0xd2, + 0xd0, 0x58, 0x50, 0xd0, 0x94, 0x1c, 0x14, 0x94, + 0x90, 0x18, 0x10, 0x90, 0xd0, 0x58, 0x50, 0xd0, + 0xf0, 0x78, 0x70, 0xf0, 0xb4, 0x3c, 0x34, 0xb4, + 0xb0, 0x38, 0x30, 0xb0, 0xf0, 0x78, 0x70, 0xf0, + 0xe1, 0x69, 0x61, 0xe1, 0xa5, 0x2d, 0x25, 0xa5, + 0xa1, 0x29, 0x21, 0xa1, 0xe1, 0x69, 0x61, 0xe1, + 0xc3, 0x4b, 0x43, 0xc3, 0x87, 0x0f, 0x07, 0x87, + 0x83, 0x0b, 0x03, 0x83, 0xc3, 0x4b, 0x43, 0xc3, + 0xc1, 0x49, 0x41, 0xc1, 0x85, 0x0d, 0x05, 0x85, + 0x81, 0x09, 0x01, 0x81, 0xc1, 0x49, 0x41, 0xc1, + 0xe1, 0x69, 0x61, 0xe1, 0xa5, 0x2d, 0x25, 0xa5, + 0xa1, 0x29, 0x21, 0xa1, 0xe1, 0x69, 0x61, 0xe1, + 0xe0, 0x68, 0x60, 0xe0, 0xa4, 0x2c, 0x24, 0xa4, + 0xa0, 0x28, 0x20, 0xa0, 0xe0, 0x68, 0x60, 0xe0, + 0xc2, 0x4a, 0x42, 0xc2, 0x86, 0x0e, 0x06, 0x86, + 0x82, 0x0a, 0x02, 0x82, 0xc2, 0x4a, 0x42, 0xc2, + 0xc0, 0x48, 0x40, 0xc0, 0x84, 0x0c, 0x04, 0x84, + 0x80, 0x08, 0x00, 0x80, 0xc0, 0x48, 0x40, 0xc0, + 0xe0, 0x68, 0x60, 0xe0, 0xa4, 0x2c, 0x24, 0xa4, + 0xa0, 0x28, 0x20, 0xa0, 0xe0, 0x68, 0x60, 0xe0, + 0xf0, 0x78, 0x70, 0xf0, 0xb4, 0x3c, 0x34, 0xb4, + 0xb0, 0x38, 0x30, 0xb0, 0xf0, 0x78, 0x70, 0xf0, + 0xd2, 0x5a, 0x52, 0xd2, 0x96, 0x1e, 0x16, 0x96, + 0x92, 0x1a, 0x12, 0x92, 0xd2, 0x5a, 0x52, 0xd2, + 0xd0, 0x58, 0x50, 0xd0, 0x94, 0x1c, 0x14, 0x94, + 0x90, 0x18, 0x10, 0x90, 0xd0, 0x58, 0x50, 0xd0, + 0xf0, 0x78, 0x70, 0xf0, 0xb4, 0x3c, 0x34, 0xb4, + 0xb0, 0x38, 0x30, 0xb0, 0xf0, 0x78, 0x70, 0xf0, + }; + + u8 c, err = 0; + int i; + + for (i = 0; i < 2 * 13; i += 2) { + err |= biphase_tbl[p[i]] | biphase_tbl[p[i + 1]]; + c = (biphase_tbl[p[i + 1]] & 0xf) | + ((biphase_tbl[p[i]] & 0xf) << 4); + dst[i / 2] = c; + } + + return err & 0xf0; +} + +int cx25840_g_sliced_fmt(struct v4l2_subdev *sd, struct v4l2_sliced_vbi_format *svbi) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + struct cx25840_state *state = to_state(sd); + static const u16 lcr2vbi[] = { + 0, V4L2_SLICED_TELETEXT_B, 0, /* 1 */ + 0, V4L2_SLICED_WSS_625, 0, /* 4 */ + V4L2_SLICED_CAPTION_525, /* 6 */ + 0, 0, V4L2_SLICED_VPS, 0, 0, /* 9 */ + 0, 0, 0, 0 + }; + int is_pal = !(state->std & V4L2_STD_525_60); + int i; + + memset(svbi->service_lines, 0, sizeof(svbi->service_lines)); + svbi->service_set = 0; + /* we're done if raw VBI is active */ + if ((cx25840_read(client, 0x404) & 0x10) == 0) + return 0; + + if (is_pal) { + for (i = 7; i <= 23; i++) { + u8 v = cx25840_read(client, 0x424 + i - 7); + + svbi->service_lines[0][i] = lcr2vbi[v >> 4]; + svbi->service_lines[1][i] = lcr2vbi[v & 0xf]; + svbi->service_set |= svbi->service_lines[0][i] | + svbi->service_lines[1][i]; + } + } else { + for (i = 10; i <= 21; i++) { + u8 v = cx25840_read(client, 0x424 + i - 10); + + svbi->service_lines[0][i] = lcr2vbi[v >> 4]; + svbi->service_lines[1][i] = lcr2vbi[v & 0xf]; + svbi->service_set |= svbi->service_lines[0][i] | + svbi->service_lines[1][i]; + } + } + return 0; +} + +int cx25840_s_raw_fmt(struct v4l2_subdev *sd, struct v4l2_vbi_format *fmt) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + struct cx25840_state *state = to_state(sd); + int is_pal = !(state->std & V4L2_STD_525_60); + int vbi_offset = is_pal ? 1 : 0; + + /* Setup standard */ + cx25840_std_setup(client); + + /* VBI Offset */ + cx25840_write(client, 0x47f, vbi_offset); + cx25840_write(client, 0x404, 0x2e); + return 0; +} + +int cx25840_s_sliced_fmt(struct v4l2_subdev *sd, struct v4l2_sliced_vbi_format *svbi) +{ + struct i2c_client *client = v4l2_get_subdevdata(sd); + struct cx25840_state *state = to_state(sd); + int is_pal = !(state->std & V4L2_STD_525_60); + int vbi_offset = is_pal ? 1 : 0; + int i, x; + u8 lcr[24]; + + for (x = 0; x <= 23; x++) + lcr[x] = 0x00; + + /* Setup standard */ + cx25840_std_setup(client); + + /* Sliced VBI */ + cx25840_write(client, 0x404, 0x32); /* Ancillary data */ + cx25840_write(client, 0x406, 0x13); + cx25840_write(client, 0x47f, vbi_offset); + + if (is_pal) { + for (i = 0; i <= 6; i++) + svbi->service_lines[0][i] = + svbi->service_lines[1][i] = 0; + } else { + for (i = 0; i <= 9; i++) + svbi->service_lines[0][i] = + svbi->service_lines[1][i] = 0; + + for (i = 22; i <= 23; i++) + svbi->service_lines[0][i] = + svbi->service_lines[1][i] = 0; + } + + for (i = 7; i <= 23; i++) { + for (x = 0; x <= 1; x++) { + switch (svbi->service_lines[1-x][i]) { + case V4L2_SLICED_TELETEXT_B: + lcr[i] |= 1 << (4 * x); + break; + case V4L2_SLICED_WSS_625: + lcr[i] |= 4 << (4 * x); + break; + case V4L2_SLICED_CAPTION_525: + lcr[i] |= 6 << (4 * x); + break; + case V4L2_SLICED_VPS: + lcr[i] |= 9 << (4 * x); + break; + } + } + } + + if (is_pal) { + for (x = 1, i = 0x424; i <= 0x434; i++, x++) + cx25840_write(client, i, lcr[6 + x]); + } else { + for (x = 1, i = 0x424; i <= 0x430; i++, x++) + cx25840_write(client, i, lcr[9 + x]); + for (i = 0x431; i <= 0x434; i++) + cx25840_write(client, i, 0); + } + + cx25840_write(client, 0x43c, 0x16); + cx25840_write(client, 0x474, is_pal ? 0x2a : 0x22); + return 0; +} + +int cx25840_decode_vbi_line(struct v4l2_subdev *sd, struct v4l2_decode_vbi_line *vbi) +{ + struct cx25840_state *state = to_state(sd); + u8 *p = vbi->p; + int id1, id2, l, err = 0; + + if (p[0] || p[1] != 0xff || p[2] != 0xff || + (p[3] != 0x55 && p[3] != 0x91)) { + vbi->line = vbi->type = 0; + return 0; + } + + p += 4; + id1 = p[-1]; + id2 = p[0] & 0xf; + l = p[2] & 0x3f; + l += state->vbi_line_offset; + p += 4; + + switch (id2) { + case 1: + id2 = V4L2_SLICED_TELETEXT_B; + break; + case 4: + id2 = V4L2_SLICED_WSS_625; + break; + case 6: + id2 = V4L2_SLICED_CAPTION_525; + err = !odd_parity(p[0]) || !odd_parity(p[1]); + break; + case 9: + id2 = V4L2_SLICED_VPS; + if (decode_vps(p, p) != 0) + err = 1; + break; + default: + id2 = 0; + err = 1; + break; + } + + vbi->type = err ? 0 : id2; + vbi->line = err ? 0 : l; + vbi->is_second_field = err ? 0 : (id1 == 0x55); + vbi->p = p; + return 0; +} |